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Object.keys(response).map(function (file) {\n                    return {\n                        data: response[file].content,\n                        fileName: response[file].filename,\n                    };\n                })\n                : [];\n            setAttachments({\n                files: files,\n                isLoaded: true,\n            });\n        });\n    }, [doc]);\n    return !attachments.isLoaded ? (React__namespace.createElement(core.Spinner, null)) : attachments.files.length === 0 ? (React__namespace.createElement(\"div\", { \"data-testid\": \"attachment__empty\", className: core.classNames({\n            'rpv-attachment__empty': true,\n            'rpv-attachment__empty--rtl': isRtl,\n        }) }, noAttachmentLabel)) : (React__namespace.createElement(AttachmentList, { files: attachments.files }));\n};\n\nvar AttachmentListWithStore = function (_a) {\n    var store = _a.store;\n    var _b = React__namespace.useState(store.get('doc')), currentDoc = _b[0], setCurrentDoc = _b[1];\n    var handleDocumentChanged = function (doc) {\n        setCurrentDoc(doc);\n    };\n    React__namespace.useEffect(function () {\n        store.subscribe('doc', handleDocumentChanged);\n        return function () {\n            store.unsubscribe('doc', handleDocumentChanged);\n        };\n    }, []);\n    return currentDoc ? (React__namespace.createElement(AttachmentLoader, { doc: currentDoc })) : (React__namespace.createElement(\"div\", { className: \"rpv-attachment__loader\" },\n        React__namespace.createElement(core.Spinner, null)));\n};\n\nvar attachmentPlugin = function () {\n    var store = React__namespace.useMemo(function () { return core.createStore({}); }, []);\n    var AttachmentsDecorator = function () { return React__namespace.createElement(AttachmentListWithStore, { store: store }); };\n    return {\n        onDocumentLoad: function (props) {\n            store.update('doc', props.doc);\n        },\n        Attachments: AttachmentsDecorator,\n    };\n};\n\nexports.attachmentPlugin = attachmentPlugin;\n","/**\n * A React component to view a PDF document\n *\n * @see https://react-pdf-viewer.dev\n * @license https://react-pdf-viewer.dev/license\n * @copyright 2019-2023 Nguyen Huu Phuoc <me@phuoc.ng>\n */\n\n'use strict';\n\nif (process.env.NODE_ENV === 'production') {\n    module.exports = require('./cjs/attachment.min.js');\n} else {\n    module.exports = require('./cjs/attachment.js');\n}\n","'use strict';\n\nvar core = require('@react-pdf-viewer/core');\nvar React = require('react');\n\nfunction _interopNamespaceDefault(e) {\n    var n = Object.create(null);\n    if (e) {\n        Object.keys(e).forEach(function (k) {\n            if (k !== 'default') {\n                var d = Object.getOwnPropertyDescriptor(e, k);\n                Object.defineProperty(n, k, d.get ? d : {\n                    enumerable: true,\n                    get: function () { return e[k]; }\n                });\n            }\n        });\n    }\n    n.default = e;\n    return Object.freeze(n);\n}\n\nvar React__namespace = /*#__PURE__*/_interopNamespaceDefault(React);\n\n/******************************************************************************\r\nCopyright (c) Microsoft Corporation.\r\n\r\nPermission to use, copy, modify, and/or distribute this software for any\r\npurpose with or without fee is hereby granted.\r\n\r\nTHE SOFTWARE IS PROVIDED \"AS IS\" AND THE AUTHOR DISCLAIMS ALL WARRANTIES WITH\r\nREGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY\r\nAND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT,\r\nINDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM\r\nLOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR\r\nOTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR\r\nPERFORMANCE OF THIS SOFTWARE.\r\n***************************************************************************** */\r\n\r\nvar __assign = function() {\r\n    __assign = Object.assign || function __assign(t) {\r\n        for (var s, i = 1, n = arguments.length; i < n; i++) {\r\n            s = arguments[i];\r\n            for (var p in s) if (Object.prototype.hasOwnProperty.call(s, p)) t[p] = s[p];\r\n        }\r\n        return t;\r\n    };\r\n    return __assign.apply(this, arguments);\r\n};\n\nvar DownArrowIcon = function () {\n    return (React__namespace.createElement(core.Icon, { size: 16 },\n        React__namespace.createElement(\"path\", { d: \"M6.427,8.245A.5.5,0,0,1,6.862,7.5H17.138a.5.5,0,0,1,.435.749l-5.139,9a.5.5,0,0,1-.868,0Z\" })));\n};\n\nvar RightArrowIcon = function () { return (React__namespace.createElement(core.Icon, { size: 16 },\n    React__namespace.createElement(\"path\", { d: \"M9.248,17.572a.5.5,0,0,1-.748-.434V6.862a.5.5,0,0,1,.748-.434l8.992,5.138a.5.5,0,0,1,0,.868Z\" }))); };\n\nvar shouldBeCollapsed = function (bookmark) {\n    var count = bookmark.count, items = bookmark.items;\n    if (count >= 0) {\n        return false;\n    }\n    var numSubItems = items.length;\n    if (numSubItems === 0) {\n        return false;\n    }\n    var subItems = items.concat([]);\n    while (subItems.length > 0) {\n        var firstChild = subItems.shift();\n        var children = firstChild.items;\n        if (firstChild.count && children && firstChild.count > 0 && children.length > 0) {\n            numSubItems += children.length;\n            subItems = subItems.concat(children);\n        }\n    }\n    return Math.abs(count) === numSubItems;\n};\n\nvar BookmarkItem = function (_a) {\n    var bookmark = _a.bookmark, depth = _a.depth, doc = _a.doc, index = _a.index, isBookmarkExpanded = _a.isBookmarkExpanded, numberOfSiblings = _a.numberOfSiblings, pathFromRoot = _a.pathFromRoot, renderBookmarkItem = _a.renderBookmarkItem, store = _a.store;\n    var path = pathFromRoot ? \"\".concat(pathFromRoot, \".\").concat(index) : \"\".concat(index);\n    var defaultIsCollapsed = React__namespace.useMemo(function () { return shouldBeCollapsed(bookmark); }, [bookmark]);\n    var bookmarkExpandedMap = store.get('bookmarkExpandedMap');\n    var defaultExpanded = isBookmarkExpanded\n        ? isBookmarkExpanded({ bookmark: bookmark, doc: doc, depth: depth, index: index })\n        : bookmarkExpandedMap.has(path)\n            ? bookmarkExpandedMap.get(path)\n            : !defaultIsCollapsed;\n    var _b = React__namespace.useState(defaultExpanded), expanded = _b[0], setExpanded = _b[1];\n    var hasSubItems = bookmark.items && bookmark.items.length > 0;\n    var toggleSubItems = function () {\n        var newState = !expanded;\n        store.updateCurrentValue('bookmarkExpandedMap', function (currentValue) { return currentValue.set(path, newState); });\n        setExpanded(newState);\n    };\n    var jumpToDest = function () {\n        var dest = bookmark.dest;\n        var jumpToDestination = store.get('jumpToDestination');\n        core.getDestination(doc, dest).then(function (target) {\n            if (jumpToDestination) {\n                jumpToDestination(__assign({ label: bookmark.title }, target));\n            }\n        });\n    };\n    var clickBookmark = function () {\n        if (hasSubItems && bookmark.dest) {\n            jumpToDest();\n        }\n    };\n    var clickItem = function () {\n        if (!hasSubItems && bookmark.dest) {\n            jumpToDest();\n        }\n    };\n    var defaultRenderItem = function (onClickItem, children) { return (React__namespace.createElement(\"div\", { className: \"rpv-bookmark__item\", style: {\n            paddingLeft: \"\".concat(depth * 1.25, \"rem\"),\n        }, onClick: onClickItem }, children)); };\n    var defaultRenderToggle = function (expandIcon, collapseIcon) {\n        return hasSubItems ? (React__namespace.createElement(\"span\", { className: \"rpv-bookmark__toggle\", \"data-testid\": \"bookmark__toggle-\".concat(depth, \"-\").concat(index), onClick: toggleSubItems }, expanded ? expandIcon : collapseIcon)) : (React__namespace.createElement(\"span\", { className: \"rpv-bookmark__toggle\" }));\n    };\n    var defaultRenderTitle = function (onClickBookmark) {\n        return bookmark.url ? (React__namespace.createElement(\"a\", { className: \"rpv-bookmark__title\", href: bookmark.url, rel: \"noopener noreferrer nofollow\", target: bookmark.newWindow ? '_blank' : '' }, bookmark.title)) : (React__namespace.createElement(\"div\", { className: \"rpv-bookmark__title\", \"aria-label\": bookmark.title, onClick: onClickBookmark }, bookmark.title));\n    };\n    return (React__namespace.createElement(\"li\", { \"aria-expanded\": expanded ? 'true' : 'false', \"aria-label\": bookmark.title, \"aria-level\": depth + 1, \"aria-posinset\": index + 1, \"aria-setsize\": numberOfSiblings, role: \"treeitem\", tabIndex: -1 },\n        renderBookmarkItem\n            ? renderBookmarkItem({\n                bookmark: bookmark,\n                depth: depth,\n                hasSubItems: hasSubItems,\n                index: index,\n                isExpanded: expanded,\n                path: path,\n                defaultRenderItem: defaultRenderItem,\n                defaultRenderTitle: defaultRenderTitle,\n                defaultRenderToggle: defaultRenderToggle,\n                onClickItem: clickItem,\n                onClickTitle: clickBookmark,\n                onToggleSubItems: toggleSubItems,\n            })\n            : defaultRenderItem(clickItem, React__namespace.createElement(React__namespace.Fragment, null,\n                defaultRenderToggle(React__namespace.createElement(DownArrowIcon, null), React__namespace.createElement(RightArrowIcon, null)),\n                defaultRenderTitle(clickBookmark))),\n        hasSubItems && expanded && (React__namespace.createElement(BookmarkList, { bookmarks: bookmark.items, depth: depth + 1, doc: doc, isBookmarkExpanded: isBookmarkExpanded, isRoot: false, pathFromRoot: path, renderBookmarkItem: renderBookmarkItem, store: store }))));\n};\n\nvar BookmarkList = function (_a) {\n    var bookmarks = _a.bookmarks, _b = _a.depth, depth = _b === void 0 ? 0 : _b, doc = _a.doc, isBookmarkExpanded = _a.isBookmarkExpanded, isRoot = _a.isRoot, pathFromRoot = _a.pathFromRoot, renderBookmarkItem = _a.renderBookmarkItem, store = _a.store;\n    return (React__namespace.createElement(\"ul\", { className: \"rpv-bookmark__list\", role: isRoot ? 'tree' : 'group', tabIndex: -1 }, bookmarks.map(function (bookmark, index) { return (React__namespace.createElement(BookmarkItem, { bookmark: bookmark, depth: depth, doc: doc, index: index, isBookmarkExpanded: isBookmarkExpanded, key: index, numberOfSiblings: bookmarks.length, pathFromRoot: pathFromRoot, renderBookmarkItem: renderBookmarkItem, store: store })); })));\n};\n\nvar Toggle;\n(function (Toggle) {\n    Toggle[Toggle[\"Collapse\"] = 0] = \"Collapse\";\n    Toggle[Toggle[\"Expand\"] = 1] = \"Expand\";\n})(Toggle || (Toggle = {}));\nvar BookmarkListRoot = function (_a) {\n    var bookmarks = _a.bookmarks, doc = _a.doc, isBookmarkExpanded = _a.isBookmarkExpanded, renderBookmarkItem = _a.renderBookmarkItem, store = _a.store;\n    var containerRef = React__namespace.useRef();\n    var handleKeyDown = function (e) {\n        var container = containerRef.current;\n        if (!container || !(e.target instanceof HTMLElement) || !container.contains(e.target)) {\n            return;\n        }\n        switch (e.key) {\n            case 'ArrowDown':\n                e.preventDefault();\n                moveToItem(function (bookmarkElements, activeEle) { return bookmarkElements.indexOf(activeEle) + 1; });\n                break;\n            case 'ArrowLeft':\n                e.preventDefault();\n                toggle(Toggle.Collapse);\n                break;\n            case 'ArrowRight':\n                e.preventDefault();\n                toggle(Toggle.Expand);\n                break;\n            case 'ArrowUp':\n                e.preventDefault;\n                moveToItem(function (bookmarkElements, activeEle) { return bookmarkElements.indexOf(activeEle) - 1; });\n                break;\n            case 'End':\n                e.preventDefault();\n                moveToItem(function (bookmarkElements, _) { return bookmarkElements.length - 1; });\n                break;\n            case ' ':\n            case 'Enter':\n            case 'Space':\n                e.preventDefault();\n                clickBookmark();\n                break;\n            case 'Home':\n                e.preventDefault();\n                moveToItem(function (_, __) { return 0; });\n                break;\n        }\n    };\n    var clickBookmark = function () {\n        var closestItem = document.activeElement.closest('.rpv-bookmark__item');\n        var titleEle = closestItem.querySelector('.rpv-bookmark__title');\n        if (titleEle) {\n            titleEle.click();\n        }\n    };\n    var moveToItem = function (getItemIndex) {\n        var container = containerRef.current;\n        var bookmarkElements = [].slice.call(container.getElementsByClassName('rpv-bookmark__item'));\n        if (bookmarkElements.length === 0) {\n            return;\n        }\n        var activeEle = document.activeElement;\n        var targetIndex = Math.min(bookmarkElements.length - 1, Math.max(0, getItemIndex(bookmarkElements, activeEle)));\n        var targetEle = bookmarkElements[targetIndex];\n        activeEle.setAttribute('tabindex', '-1');\n        targetEle.setAttribute('tabindex', '0');\n        targetEle.focus();\n    };\n    var toggle = function (toggle) {\n        var container = containerRef.current;\n        var bookmarkElements = [].slice.call(container.getElementsByClassName('rpv-bookmark__item'));\n        if (bookmarkElements.length === 0) {\n            return;\n        }\n        var closestItem = document.activeElement.closest('.rpv-bookmark__item');\n        var expanedAttribute = toggle === Toggle.Collapse ? 'true' : 'false';\n        if (closestItem && closestItem.parentElement.getAttribute('aria-expanded') === expanedAttribute) {\n            var toggleEle = closestItem.querySelector('.rpv-bookmark__toggle');\n            if (toggleEle) {\n                toggleEle.click();\n            }\n        }\n    };\n    React__namespace.useEffect(function () {\n        document.addEventListener('keydown', handleKeyDown);\n        return function () {\n            document.removeEventListener('keydown', handleKeyDown);\n        };\n    }, []);\n    React__namespace.useEffect(function () {\n        var container = containerRef.current;\n        if (!container) {\n            return;\n        }\n        var bookmarkElements = [].slice.call(container.getElementsByClassName('rpv-bookmark__item'));\n        if (bookmarkElements.length > 0) {\n            bookmarkElements[0].focus();\n            bookmarkElements[0].setAttribute('tabindex', '0');\n        }\n    }, []);\n    return (React__namespace.createElement(\"div\", { ref: containerRef },\n        React__namespace.createElement(BookmarkList, { bookmarks: bookmarks, depth: 0, doc: doc, isBookmarkExpanded: isBookmarkExpanded, isRoot: true, pathFromRoot: \"\", renderBookmarkItem: renderBookmarkItem, store: store })));\n};\n\nvar BookmarkLoader = function (_a) {\n    var doc = _a.doc, isBookmarkExpanded = _a.isBookmarkExpanded, renderBookmarkItem = _a.renderBookmarkItem, store = _a.store;\n    var l10n = React__namespace.useContext(core.LocalizationContext).l10n;\n    var direction = React__namespace.useContext(core.ThemeContext).direction;\n    var isRtl = direction === core.TextDirection.RightToLeft;\n    var _b = React__namespace.useState({\n        isLoaded: false,\n        items: [],\n    }), bookmarks = _b[0], setBookmarks = _b[1];\n    React__namespace.useEffect(function () {\n        setBookmarks({\n            isLoaded: false,\n            items: [],\n        });\n        doc.getOutline().then(function (outline) {\n            setBookmarks({\n                isLoaded: true,\n                items: outline || [],\n            });\n        });\n    }, [doc]);\n    return !bookmarks.isLoaded ? (React__namespace.createElement(\"div\", { className: \"rpv-bookmark__loader\" },\n        React__namespace.createElement(core.Spinner, null))) : bookmarks.items.length === 0 ? (React__namespace.createElement(\"div\", { \"data-testid\": \"bookmark__empty\", className: core.classNames({\n            'rpv-bookmark__empty': true,\n            'rpv-bookmark__empty--rtl': isRtl,\n        }) }, l10n && l10n.bookmark ? l10n.bookmark.noBookmark : 'There is no bookmark')) : (React__namespace.createElement(\"div\", { \"data-testid\": \"bookmark__container\", className: core.classNames({\n            'rpv-bookmark__container': true,\n            'rpv-bookmark__container--rtl': isRtl,\n        }) },\n        React__namespace.createElement(BookmarkListRoot, { bookmarks: bookmarks.items, doc: doc, isBookmarkExpanded: isBookmarkExpanded, renderBookmarkItem: renderBookmarkItem, store: store })));\n};\n\nvar BookmarkListWithStore = function (_a) {\n    var isBookmarkExpanded = _a.isBookmarkExpanded, renderBookmarkItem = _a.renderBookmarkItem, store = _a.store;\n    var _b = React__namespace.useState(store.get('doc')), currentDoc = _b[0], setCurrentDoc = _b[1];\n    var handleDocumentChanged = function (doc) {\n        setCurrentDoc(doc);\n    };\n    React__namespace.useEffect(function () {\n        store.subscribe('doc', handleDocumentChanged);\n        return function () {\n            store.unsubscribe('doc', handleDocumentChanged);\n        };\n    }, []);\n    return currentDoc ? (React__namespace.createElement(BookmarkLoader, { doc: currentDoc, isBookmarkExpanded: isBookmarkExpanded, renderBookmarkItem: renderBookmarkItem, store: store })) : (React__namespace.createElement(\"div\", { className: \"rpv-bookmark__loader\" },\n        React__namespace.createElement(core.Spinner, null)));\n};\n\nvar bookmarkPlugin = function () {\n    var store = React__namespace.useMemo(function () {\n        return core.createStore({\n            bookmarkExpandedMap: new Map(),\n        });\n    }, []);\n    var BookmarksDecorator = function (props) { return (React__namespace.createElement(BookmarkListWithStore, { isBookmarkExpanded: props === null || props === void 0 ? void 0 : props.isBookmarkExpanded, renderBookmarkItem: props === null || props === void 0 ? void 0 : props.renderBookmarkItem, store: store })); };\n    return {\n        install: function (pluginFunctions) {\n            store.update('jumpToDestination', pluginFunctions.jumpToDestination);\n        },\n        onDocumentLoad: function (props) {\n            store.update('doc', props.doc);\n        },\n        Bookmarks: BookmarksDecorator,\n    };\n};\n\nexports.DownArrowIcon = DownArrowIcon;\nexports.RightArrowIcon = RightArrowIcon;\nexports.bookmarkPlugin = bookmarkPlugin;\n","/**\n * A React component to view a PDF document\n *\n * @see https://react-pdf-viewer.dev\n * @license https://react-pdf-viewer.dev/license\n * @copyright 2019-2023 Nguyen Huu Phuoc <me@phuoc.ng>\n */\n\n'use strict';\n\nif (process.env.NODE_ENV === 'production') {\n    module.exports = require('./cjs/bookmark.min.js');\n} else {\n    module.exports = require('./cjs/bookmark.js');\n}\n","'use strict';\n\nvar React = require('react');\nvar PdfJsApi = require('pdfjs-dist');\n\nfunction _interopNamespaceDefault(e) {\n    var n = Object.create(null);\n    if (e) {\n        Object.keys(e).forEach(function (k) {\n            if (k !== 'default') {\n                var d = Object.getOwnPropertyDescriptor(e, k);\n                Object.defineProperty(n, k, d.get ? d : {\n                    enumerable: true,\n                    get: function () { return e[k]; }\n                });\n            }\n        });\n    }\n    n.default = e;\n    return Object.freeze(n);\n}\n\nvar React__namespace = /*#__PURE__*/_interopNamespaceDefault(React);\nvar PdfJsApi__namespace = /*#__PURE__*/_interopNamespaceDefault(PdfJsApi);\n\nexports.AnnotationType = void 0;\n(function (AnnotationType) {\n    AnnotationType[AnnotationType[\"Text\"] = 1] = \"Text\";\n    AnnotationType[AnnotationType[\"Link\"] = 2] = \"Link\";\n    AnnotationType[AnnotationType[\"FreeText\"] = 3] = \"FreeText\";\n    AnnotationType[AnnotationType[\"Line\"] = 4] = \"Line\";\n    AnnotationType[AnnotationType[\"Square\"] = 5] = \"Square\";\n    AnnotationType[AnnotationType[\"Circle\"] = 6] = \"Circle\";\n    AnnotationType[AnnotationType[\"Polygon\"] = 7] = \"Polygon\";\n    AnnotationType[AnnotationType[\"Polyline\"] = 8] = \"Polyline\";\n    AnnotationType[AnnotationType[\"Highlight\"] = 9] = \"Highlight\";\n    AnnotationType[AnnotationType[\"Underline\"] = 10] = \"Underline\";\n    AnnotationType[AnnotationType[\"Squiggly\"] = 11] = \"Squiggly\";\n    AnnotationType[AnnotationType[\"StrikeOut\"] = 12] = \"StrikeOut\";\n    AnnotationType[AnnotationType[\"Stamp\"] = 13] = \"Stamp\";\n    AnnotationType[AnnotationType[\"Caret\"] = 14] = \"Caret\";\n    AnnotationType[AnnotationType[\"Ink\"] = 15] = \"Ink\";\n    AnnotationType[AnnotationType[\"Popup\"] = 16] = \"Popup\";\n    AnnotationType[AnnotationType[\"FileAttachment\"] = 17] = \"FileAttachment\";\n})(exports.AnnotationType || (exports.AnnotationType = {}));\n\n/******************************************************************************\r\nCopyright (c) Microsoft Corporation.\r\n\r\nPermission to use, copy, modify, and/or distribute this software for any\r\npurpose with or without fee is hereby granted.\r\n\r\nTHE SOFTWARE IS PROVIDED \"AS IS\" AND THE AUTHOR DISCLAIMS ALL WARRANTIES WITH\r\nREGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY\r\nAND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT,\r\nINDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM\r\nLOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR\r\nOTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR\r\nPERFORMANCE OF THIS SOFTWARE.\r\n***************************************************************************** */\r\n/* global Reflect, Promise */\r\n\r\nvar extendStatics = function(d, b) {\r\n    extendStatics = Object.setPrototypeOf ||\r\n        ({ __proto__: [] } instanceof Array && function (d, b) { d.__proto__ = b; }) ||\r\n        function (d, b) { for (var p in b) if (Object.prototype.hasOwnProperty.call(b, p)) d[p] = b[p]; };\r\n    return extendStatics(d, b);\r\n};\r\n\r\nfunction __extends(d, b) {\r\n    if (typeof b !== \"function\" && b !== null)\r\n        throw new TypeError(\"Class extends value \" + String(b) + \" is not a constructor or null\");\r\n    extendStatics(d, b);\r\n    function __() { this.constructor = d; }\r\n    d.prototype = b === null ? Object.create(b) : (__.prototype = b.prototype, new __());\r\n}\r\n\r\nvar __assign = function() {\r\n    __assign = Object.assign || function __assign(t) {\r\n        for (var s, i = 1, n = arguments.length; i < n; i++) {\r\n            s = arguments[i];\r\n            for (var p in s) if (Object.prototype.hasOwnProperty.call(s, p)) t[p] = s[p];\r\n        }\r\n        return t;\r\n    };\r\n    return __assign.apply(this, arguments);\r\n};\r\n\r\nfunction __spreadArray(to, from, pack) {\r\n    if (pack || arguments.length === 2) for (var i = 0, l = from.length, ar; i < l; i++) {\r\n        if (ar || !(i in from)) {\r\n            if (!ar) ar = Array.prototype.slice.call(from, 0, i);\r\n            ar[i] = from[i];\r\n        }\r\n    }\r\n    return to.concat(ar || Array.prototype.slice.call(from));\r\n}\n\nexports.TextDirection = void 0;\n(function (TextDirection) {\n    TextDirection[\"RightToLeft\"] = \"RTL\";\n    TextDirection[\"LeftToRight\"] = \"LTR\";\n})(exports.TextDirection || (exports.TextDirection = {}));\nvar ThemeContext = React__namespace.createContext({\n    currentTheme: 'light',\n    direction: exports.TextDirection.LeftToRight,\n    setCurrentTheme: function () { },\n});\n\nvar classNames = function (classes) {\n    var result = [];\n    Object.keys(classes).forEach(function (clazz) {\n        if (clazz && classes[clazz]) {\n            result.push(clazz);\n        }\n    });\n    return result.join(' ');\n};\n\nvar Button = function (_a) {\n    var children = _a.children, testId = _a.testId, onClick = _a.onClick;\n    var direction = React__namespace.useContext(ThemeContext).direction;\n    var isRtl = direction === exports.TextDirection.RightToLeft;\n    var attrs = testId ? { 'data-testid': testId } : {};\n    return (React__namespace.createElement(\"button\", __assign({ className: classNames({\n            'rpv-core__button': true,\n            'rpv-core__button--rtl': isRtl,\n        }), type: \"button\", onClick: onClick }, attrs), children));\n};\n\nvar useIsomorphicLayoutEffect = typeof window !== 'undefined' ? React__namespace.useLayoutEffect : React__namespace.useEffect;\n\nvar useIntersectionObserver = function (props) {\n    var containerRef = React__namespace.useRef(null);\n    var once = props.once, threshold = props.threshold, onVisibilityChanged = props.onVisibilityChanged;\n    useIsomorphicLayoutEffect(function () {\n        var container = containerRef.current;\n        if (!container) {\n            return;\n        }\n        var intersectionTracker = new IntersectionObserver(function (entries) {\n            entries.forEach(function (entry) {\n                var isVisible = entry.isIntersecting;\n                var ratio = entry.intersectionRatio;\n                onVisibilityChanged({ isVisible: isVisible, ratio: ratio });\n                if (isVisible && once) {\n                    intersectionTracker.unobserve(container);\n                    intersectionTracker.disconnect();\n                }\n            });\n        }, {\n            threshold: threshold || 0,\n        });\n        intersectionTracker.observe(container);\n        return function () {\n            intersectionTracker.unobserve(container);\n            intersectionTracker.disconnect();\n        };\n    }, []);\n    return containerRef;\n};\n\nvar LazyRender = function (_a) {\n    var attrs = _a.attrs, children = _a.children, testId = _a.testId;\n    var _b = React__namespace.useState(false), visible = _b[0], setVisible = _b[1];\n    var containerAttrs = testId ? __assign(__assign({}, attrs), { 'data-testid': testId }) : attrs;\n    var handleVisibilityChanged = function (params) {\n        if (params.isVisible) {\n            setVisible(true);\n        }\n    };\n    var containerRef = useIntersectionObserver({\n        once: true,\n        onVisibilityChanged: handleVisibilityChanged,\n    });\n    return (React__namespace.createElement(\"div\", __assign({ ref: containerRef }, containerAttrs), visible && children));\n};\n\nvar Menu = function (_a) {\n    var children = _a.children;\n    var containerRef = React__namespace.useRef();\n    var visibleMenuItemsRef = React__namespace.useRef([]);\n    var direction = React__namespace.useContext(ThemeContext).direction;\n    var isRtl = direction === exports.TextDirection.RightToLeft;\n    var handleKeyDown = function (e) {\n        var container = containerRef.current;\n        if (!container) {\n            return;\n        }\n        switch (e.key) {\n            case 'Tab':\n                e.preventDefault();\n                break;\n            case 'ArrowDown':\n                e.preventDefault();\n                moveToItem(function (_, currentIndex) { return currentIndex + 1; });\n                break;\n            case 'ArrowUp':\n                e.preventDefault();\n                moveToItem(function (_, currentIndex) { return currentIndex - 1; });\n                break;\n            case 'End':\n                e.preventDefault();\n                moveToItem(function (items, _) { return items.length - 1; });\n                break;\n            case 'Home':\n                e.preventDefault();\n                moveToItem(function (_, __) { return 0; });\n                break;\n        }\n    };\n    var moveToItem = function (getNextItem) {\n        var container = containerRef.current;\n        if (!container) {\n            return;\n        }\n        var items = visibleMenuItemsRef.current;\n        var currentIndex = items.findIndex(function (item) { return item.getAttribute('tabindex') === '0'; });\n        var targetIndex = Math.min(items.length - 1, Math.max(0, getNextItem(items, currentIndex)));\n        if (currentIndex >= 0 && currentIndex <= items.length - 1) {\n            items[currentIndex].setAttribute('tabindex', '-1');\n        }\n        items[targetIndex].setAttribute('tabindex', '0');\n        items[targetIndex].focus();\n    };\n    var findVisibleItems = function (container) {\n        var visibleItems = [];\n        container.querySelectorAll('.rpv-core__menu-item[role=\"menuitem\"]').forEach(function (item) {\n            if (item instanceof HTMLElement) {\n                var parent_1 = item.parentElement;\n                if (parent_1 === container) {\n                    visibleItems.push(item);\n                }\n                else {\n                    if (window.getComputedStyle(parent_1).display !== 'none') {\n                        visibleItems.push(item);\n                    }\n                }\n            }\n        });\n        return visibleItems;\n    };\n    useIsomorphicLayoutEffect(function () {\n        var container = containerRef.current;\n        if (!container) {\n            return;\n        }\n        var visibleItems = findVisibleItems(container);\n        visibleMenuItemsRef.current = visibleItems;\n    }, []);\n    useIsomorphicLayoutEffect(function () {\n        document.addEventListener('keydown', handleKeyDown);\n        return function () {\n            document.removeEventListener('keydown', handleKeyDown);\n        };\n    }, []);\n    return (React__namespace.createElement(\"div\", { ref: containerRef, \"aria-orientation\": \"vertical\", className: classNames({\n            'rpv-core__menu': true,\n            'rpv-core__menu--rtl': isRtl,\n        }), role: \"menu\", tabIndex: 0 }, children));\n};\n\nvar MenuDivider = function () { return (React__namespace.createElement(\"div\", { \"aria-orientation\": \"horizontal\", className: \"rpv-core__menu-divider\", role: \"separator\" })); };\n\nvar Icon = function (_a) {\n    var children = _a.children, _b = _a.ignoreDirection, ignoreDirection = _b === void 0 ? false : _b, _c = _a.size, size = _c === void 0 ? 24 : _c;\n    var direction = React__namespace.useContext(ThemeContext).direction;\n    var isRtl = !ignoreDirection && direction === exports.TextDirection.RightToLeft;\n    var width = \"\".concat(size || 24, \"px\");\n    return (React__namespace.createElement(\"svg\", { \"aria-hidden\": \"true\", className: classNames({\n            'rpv-core__icon': true,\n            'rpv-core__icon--rtl': isRtl,\n        }), focusable: \"false\", height: width, viewBox: \"0 0 24 24\", width: width }, children));\n};\n\nvar CheckIcon = function () { return (React__namespace.createElement(Icon, { size: 16 },\n    React__namespace.createElement(\"path\", { d: \"M23.5,0.499l-16.5,23l-6.5-6.5\" }))); };\n\nvar MenuItem = function (_a) {\n    var _b = _a.checked, checked = _b === void 0 ? false : _b, children = _a.children, _c = _a.icon, icon = _c === void 0 ? null : _c, _d = _a.isDisabled, isDisabled = _d === void 0 ? false : _d, testId = _a.testId, onClick = _a.onClick;\n    var direction = React__namespace.useContext(ThemeContext).direction;\n    var isRtl = direction === exports.TextDirection.RightToLeft;\n    var attrs = testId ? { 'data-testid': testId } : {};\n    return (React__namespace.createElement(\"button\", __assign({ className: classNames({\n            'rpv-core__menu-item': true,\n            'rpv-core__menu-item--disabled': isDisabled,\n            'rpv-core__menu-item--ltr': !isRtl,\n            'rpv-core__menu-item--rtl': isRtl,\n        }), role: \"menuitem\", tabIndex: -1, type: \"button\", onClick: onClick }, attrs),\n        React__namespace.createElement(\"div\", { className: classNames({\n                'rpv-core__menu-item-icon': true,\n                'rpv-core__menu-item-icon--ltr': !isRtl,\n                'rpv-core__menu-item-icon--rtl': isRtl,\n            }) }, icon),\n        React__namespace.createElement(\"div\", { className: classNames({\n                'rpv-core__menu-item-label': true,\n                'rpv-core__menu-item-label--ltr': !isRtl,\n                'rpv-core__menu-item-label--rtl': isRtl,\n            }) }, children),\n        React__namespace.createElement(\"div\", { className: classNames({\n                'rpv-core__menu-item-check': true,\n                'rpv-core__menu-item-check--ltr': !isRtl,\n                'rpv-core__menu-item-check--rtl': isRtl,\n            }) }, checked && React__namespace.createElement(CheckIcon, null))));\n};\n\nvar MinimalButton = function (_a) {\n    var _b = _a.ariaLabel, ariaLabel = _b === void 0 ? '' : _b, _c = _a.ariaKeyShortcuts, ariaKeyShortcuts = _c === void 0 ? '' : _c, children = _a.children, _d = _a.isDisabled, isDisabled = _d === void 0 ? false : _d, _e = _a.isSelected, isSelected = _e === void 0 ? false : _e, testId = _a.testId, onClick = _a.onClick;\n    var direction = React__namespace.useContext(ThemeContext).direction;\n    var isRtl = direction === exports.TextDirection.RightToLeft;\n    var attrs = testId ? { 'data-testid': testId } : {};\n    return (React__namespace.createElement(\"button\", __assign({ \"aria-label\": ariaLabel }, (ariaKeyShortcuts && { 'aria-keyshortcuts': ariaKeyShortcuts }), (isDisabled && { 'aria-disabled': true }), { className: classNames({\n            'rpv-core__minimal-button': true,\n            'rpv-core__minimal-button--disabled': isDisabled,\n            'rpv-core__minimal-button--rtl': isRtl,\n            'rpv-core__minimal-button--selected': isSelected,\n        }), type: \"button\", onClick: onClick }, attrs), children));\n};\n\nvar PrimaryButton = function (_a) {\n    var children = _a.children, testId = _a.testId, onClick = _a.onClick;\n    var direction = React__namespace.useContext(ThemeContext).direction;\n    var isRtl = direction === exports.TextDirection.RightToLeft;\n    var attrs = testId ? { 'data-testid': testId } : {};\n    return (React__namespace.createElement(\"button\", __assign({ className: classNames({\n            'rpv-core__primary-button': true,\n            'rpv-core__primary-button--rtl': isRtl,\n        }), type: \"button\", onClick: onClick }, attrs), children));\n};\n\nvar ProgressBar = function (_a) {\n    var progress = _a.progress;\n    var direction = React__namespace.useContext(ThemeContext).direction;\n    var isRtl = direction === exports.TextDirection.RightToLeft;\n    return (React__namespace.createElement(\"div\", { className: classNames({\n            'rpv-core__progress-bar': true,\n            'rpv-core__progress-bar--rtl': isRtl,\n        }) },\n        React__namespace.createElement(\"div\", { className: \"rpv-core__progress-bar-progress\", style: { width: \"\".concat(progress, \"%\") } },\n            progress,\n            \"%\")));\n};\n\nvar Separator = function () { return React__namespace.createElement(\"div\", { className: \"rpv-core__separator\" }); };\n\nvar Spinner = function (_a) {\n    var _b = _a.size, size = _b === void 0 ? '4rem' : _b, testId = _a.testId;\n    var _c = React__namespace.useState(false), visible = _c[0], setVisible = _c[1];\n    var attrs = testId ? { 'data-testid': testId } : {};\n    var handleVisibilityChanged = function (params) {\n        setVisible(params.isVisible);\n    };\n    var containerRef = useIntersectionObserver({\n        onVisibilityChanged: handleVisibilityChanged,\n    });\n    return (React__namespace.createElement(\"div\", __assign({}, attrs, { className: classNames({\n            'rpv-core__spinner': true,\n            'rpv-core__spinner--animating': visible,\n        }), ref: containerRef, style: { height: size, width: size } })));\n};\n\nvar Splitter = function (_a) {\n    var constrain = _a.constrain;\n    var direction = React__namespace.useContext(ThemeContext).direction;\n    var isRtl = direction === exports.TextDirection.RightToLeft;\n    var resizerRef = React__namespace.useRef();\n    var leftSideRef = React__namespace.useRef();\n    var rightSideRef = React__namespace.useRef();\n    var xRef = React__namespace.useRef(0);\n    var yRef = React__namespace.useRef(0);\n    var leftWidthRef = React__namespace.useRef(0);\n    var resizerWidthRef = React__namespace.useRef(0);\n    var eventOptions = {\n        capture: true,\n    };\n    var handleMouseMove = function (e) {\n        var resizerEle = resizerRef.current;\n        var leftSide = leftSideRef.current;\n        var rightSide = rightSideRef.current;\n        if (!resizerEle || !leftSide || !rightSide) {\n            return;\n        }\n        var resizerWidth = resizerWidthRef.current;\n        var dx = e.clientX - xRef.current;\n        var firstHalfSize = leftWidthRef.current + (isRtl ? -dx : dx);\n        var containerWidth = resizerEle.parentElement.getBoundingClientRect().width;\n        var firstHalfPercentage = (firstHalfSize * 100) / containerWidth;\n        resizerEle.classList.add('rpv-core__splitter--resizing');\n        if (constrain) {\n            var secondHalfSize = containerWidth - firstHalfSize - resizerWidth;\n            var secondHalfPercentage = (secondHalfSize * 100) / containerWidth;\n            if (!constrain({ firstHalfPercentage: firstHalfPercentage, firstHalfSize: firstHalfSize, secondHalfPercentage: secondHalfPercentage, secondHalfSize: secondHalfSize })) {\n                return;\n            }\n        }\n        leftSide.style.width = \"\".concat(firstHalfPercentage, \"%\");\n        document.body.classList.add('rpv-core__splitter-body--resizing');\n        leftSide.classList.add('rpv-core__splitter-sibling--resizing');\n        rightSide.classList.add('rpv-core__splitter-sibling--resizing');\n    };\n    var handleMouseUp = function (e) {\n        var resizerEle = resizerRef.current;\n        var leftSide = leftSideRef.current;\n        var rightSide = rightSideRef.current;\n        if (!resizerEle || !leftSide || !rightSide) {\n            return;\n        }\n        document.body.classList.remove('rpv-core__splitter-body--resizing');\n        resizerEle.classList.remove('rpv-core__splitter--resizing');\n        leftSide.classList.remove('rpv-core__splitter-sibling--resizing');\n        rightSide.classList.remove('rpv-core__splitter-sibling--resizing');\n        document.removeEventListener('mousemove', handleMouseMove, eventOptions);\n        document.removeEventListener('mouseup', handleMouseUp, eventOptions);\n    };\n    var handleMouseDown = function (e) {\n        var leftSide = leftSideRef.current;\n        if (!leftSide) {\n            return;\n        }\n        xRef.current = e.clientX;\n        yRef.current = e.clientY;\n        leftWidthRef.current = leftSide.getBoundingClientRect().width;\n        document.addEventListener('mousemove', handleMouseMove, eventOptions);\n        document.addEventListener('mouseup', handleMouseUp, eventOptions);\n    };\n    React__namespace.useEffect(function () {\n        var resizerEle = resizerRef.current;\n        if (!resizerEle) {\n            return;\n        }\n        resizerWidthRef.current = resizerEle.getBoundingClientRect().width;\n        leftSideRef.current = resizerEle.previousElementSibling;\n        rightSideRef.current = resizerEle.nextElementSibling;\n    }, []);\n    return React__namespace.createElement(\"div\", { ref: resizerRef, className: \"rpv-core__splitter\", onMouseDown: handleMouseDown });\n};\n\nvar TextBox = function (_a) {\n    var _b = _a.ariaLabel, ariaLabel = _b === void 0 ? '' : _b, _c = _a.autoFocus, autoFocus = _c === void 0 ? false : _c, _d = _a.placeholder, placeholder = _d === void 0 ? '' : _d, testId = _a.testId, _e = _a.type, type = _e === void 0 ? 'text' : _e, _f = _a.value, value = _f === void 0 ? '' : _f, onChange = _a.onChange, _g = _a.onKeyDown, onKeyDown = _g === void 0 ? function () { } : _g;\n    var direction = React__namespace.useContext(ThemeContext).direction;\n    var textboxRef = React__namespace.useRef();\n    var isRtl = direction === exports.TextDirection.RightToLeft;\n    var attrs = {\n        ref: textboxRef,\n        'data-testid': '',\n        'aria-label': ariaLabel,\n        className: classNames({\n            'rpv-core__textbox': true,\n            'rpv-core__textbox--rtl': isRtl,\n        }),\n        placeholder: placeholder,\n        value: value,\n        onChange: function (e) { return onChange(e.target.value); },\n        onKeyDown: onKeyDown,\n    };\n    if (testId) {\n        attrs['data-testid'] = testId;\n    }\n    useIsomorphicLayoutEffect(function () {\n        if (autoFocus) {\n            var textboxEle = textboxRef.current;\n            if (textboxEle) {\n                var x = window.scrollX;\n                var y = window.scrollY;\n                textboxEle.focus();\n                window.scrollTo(x, y);\n            }\n        }\n    }, []);\n    return type === 'text' ? React__namespace.createElement(\"input\", __assign({ type: \"text\" }, attrs)) : React__namespace.createElement(\"input\", __assign({ type: \"password\" }, attrs));\n};\n\nvar Api;\n(function (Api) {\n    Api[Api[\"ExitFullScreen\"] = 0] = \"ExitFullScreen\";\n    Api[Api[\"FullScreenChange\"] = 1] = \"FullScreenChange\";\n    Api[Api[\"FullScreenElement\"] = 2] = \"FullScreenElement\";\n    Api[Api[\"FullScreenEnabled\"] = 3] = \"FullScreenEnabled\";\n    Api[Api[\"RequestFullScreen\"] = 4] = \"RequestFullScreen\";\n})(Api || (Api = {}));\nvar defaultVendor = {\n    ExitFullScreen: 'exitFullscreen',\n    FullScreenChange: 'fullscreenchange',\n    FullScreenElement: 'fullscreenElement',\n    FullScreenEnabled: 'fullscreenEnabled',\n    RequestFullScreen: 'requestFullscreen',\n};\nvar webkitVendor = {\n    ExitFullScreen: 'webkitExitFullscreen',\n    FullScreenChange: 'webkitfullscreenchange',\n    FullScreenElement: 'webkitFullscreenElement',\n    FullScreenEnabled: 'webkitFullscreenEnabled',\n    RequestFullScreen: 'webkitRequestFullscreen',\n};\nvar msVendor = {\n    ExitFullScreen: 'msExitFullscreen',\n    FullScreenChange: 'msFullscreenChange',\n    FullScreenElement: 'msFullscreenElement',\n    FullScreenEnabled: 'msFullscreenEnabled',\n    RequestFullScreen: 'msRequestFullscreen',\n};\nvar isBrowser = typeof window !== 'undefined';\nvar vendor = isBrowser\n    ? (Api.FullScreenEnabled in document && defaultVendor) ||\n        (webkitVendor.FullScreenEnabled in document && webkitVendor) ||\n        (msVendor.FullScreenEnabled in document && msVendor) ||\n        defaultVendor\n    : defaultVendor;\nvar isFullScreenEnabled = function () {\n    return isBrowser && vendor.FullScreenEnabled in document && document[vendor.FullScreenEnabled] === true;\n};\nvar addFullScreenChangeListener = function (handler) {\n    if (isBrowser) {\n        document.addEventListener(vendor.FullScreenChange, handler);\n    }\n};\nvar removeFullScreenChangeListener = function (handler) {\n    if (isBrowser) {\n        document.removeEventListener(vendor.FullScreenChange, handler);\n    }\n};\nvar exitFullScreen = function (element) {\n    return isBrowser\n        ?\n            element[vendor.ExitFullScreen]()\n        : Promise.resolve({});\n};\nvar getFullScreenElement = function () {\n    return isBrowser ? document[vendor.FullScreenElement] : null;\n};\nvar requestFullScreen = function (element) {\n    if (isBrowser) {\n        element[vendor.RequestFullScreen]();\n    }\n};\n\nvar useDebounceCallback = function (callback, wait) {\n    var timeout = React__namespace.useRef();\n    var cleanup = function () {\n        if (timeout.current) {\n            clearTimeout(timeout.current);\n        }\n    };\n    React__namespace.useEffect(function () {\n        return function () { return cleanup(); };\n    }, []);\n    return React__namespace.useCallback(function () {\n        var args = [];\n        for (var _i = 0; _i < arguments.length; _i++) {\n            args[_i] = arguments[_i];\n        }\n        cleanup();\n        timeout.current = setTimeout(function () {\n            callback.apply(void 0, args);\n        }, wait);\n    }, [callback, wait]);\n};\n\nvar useIsMounted = function () {\n    var isMountedRef = React__namespace.useRef(false);\n    React__namespace.useEffect(function () {\n        isMountedRef.current = true;\n        return function () {\n            isMountedRef.current = false;\n        };\n    }, []);\n    return isMountedRef;\n};\n\nvar usePrevious = function (value) {\n    var ref = React__namespace.useRef(value);\n    React__namespace.useEffect(function () {\n        ref.current = value;\n    }, [value]);\n    return ref.current;\n};\n\nvar PageRenderStatus;\n(function (PageRenderStatus) {\n    PageRenderStatus[\"NotRenderedYet\"] = \"NotRenderedYet\";\n    PageRenderStatus[\"Rendering\"] = \"Rendering\";\n    PageRenderStatus[\"Rendered\"] = \"Rendered\";\n})(PageRenderStatus || (PageRenderStatus = {}));\nvar OUT_OF_RANGE_VISIBILITY = -9999;\nvar useRenderQueue = function (_a) {\n    var doc = _a.doc;\n    var numPages = doc.numPages;\n    var docId = doc.loadingTask.docId;\n    var initialPageVisibilities = React__namespace.useMemo(function () {\n        return Array(numPages)\n            .fill(null)\n            .map(function (_, pageIndex) { return ({\n            pageIndex: pageIndex,\n            renderStatus: PageRenderStatus.NotRenderedYet,\n            visibility: OUT_OF_RANGE_VISIBILITY,\n        }); });\n    }, [docId]);\n    var latestRef = React__namespace.useRef({\n        currentRenderingPage: -1,\n        startRange: 0,\n        endRange: numPages - 1,\n        visibilities: initialPageVisibilities,\n    });\n    var markNotRendered = function () {\n        for (var i = 0; i < numPages; i++) {\n            latestRef.current.visibilities[i].renderStatus = PageRenderStatus.NotRenderedYet;\n        }\n    };\n    var markRendered = function (pageIndex) {\n        latestRef.current.visibilities[pageIndex].renderStatus = PageRenderStatus.Rendered;\n    };\n    var markRendering = function (pageIndex) {\n        if (latestRef.current.currentRenderingPage !== -1 &&\n            latestRef.current.currentRenderingPage !== pageIndex &&\n            latestRef.current.visibilities[latestRef.current.currentRenderingPage].renderStatus ===\n                PageRenderStatus.Rendering) {\n            latestRef.current.visibilities[latestRef.current.currentRenderingPage].renderStatus =\n                PageRenderStatus.NotRenderedYet;\n        }\n        latestRef.current.visibilities[pageIndex].renderStatus = PageRenderStatus.Rendering;\n        latestRef.current.currentRenderingPage = pageIndex;\n    };\n    var setRange = function (startIndex, endIndex) {\n        latestRef.current.startRange = startIndex;\n        latestRef.current.endRange = endIndex;\n        for (var i = 0; i < numPages; i++) {\n            if (i < startIndex || i > endIndex) {\n                latestRef.current.visibilities[i].visibility = OUT_OF_RANGE_VISIBILITY;\n                latestRef.current.visibilities[i].renderStatus = PageRenderStatus.NotRenderedYet;\n            }\n        }\n    };\n    var setOutOfRange = function (pageIndex) {\n        setVisibility(pageIndex, OUT_OF_RANGE_VISIBILITY);\n    };\n    var setVisibility = function (pageIndex, visibility) {\n        latestRef.current.visibilities[pageIndex].visibility = visibility;\n    };\n    var getHighestPriorityPage = function () {\n        var visiblePages = latestRef.current.visibilities\n            .slice(latestRef.current.startRange, latestRef.current.endRange + 1)\n            .filter(function (item) { return item.visibility > OUT_OF_RANGE_VISIBILITY; });\n        if (!visiblePages.length) {\n            return -1;\n        }\n        var firstVisiblePage = visiblePages[0].pageIndex;\n        var lastVisiblePage = visiblePages[visiblePages.length - 1].pageIndex;\n        var numVisiblePages = visiblePages.length;\n        for (var i = 0; i < numVisiblePages; i++) {\n            if (visiblePages[i].renderStatus === PageRenderStatus.Rendering) {\n                return -1;\n            }\n            if (visiblePages[i].renderStatus === PageRenderStatus.NotRenderedYet) {\n                return visiblePages[i].pageIndex;\n            }\n        }\n        if (lastVisiblePage + 1 < numPages &&\n            latestRef.current.visibilities[lastVisiblePage + 1].renderStatus !== PageRenderStatus.Rendered) {\n            return lastVisiblePage + 1;\n        }\n        else if (firstVisiblePage - 1 >= 0 &&\n            latestRef.current.visibilities[firstVisiblePage - 1].renderStatus !== PageRenderStatus.Rendered) {\n            return firstVisiblePage - 1;\n        }\n        return -1;\n    };\n    var isInRange = function (pageIndex) {\n        return pageIndex >= latestRef.current.startRange && pageIndex <= latestRef.current.endRange;\n    };\n    return {\n        getHighestPriorityPage: getHighestPriorityPage,\n        isInRange: isInRange,\n        markNotRendered: markNotRendered,\n        markRendered: markRendered,\n        markRendering: markRendering,\n        setOutOfRange: setOutOfRange,\n        setRange: setRange,\n        setVisibility: setVisibility,\n    };\n};\n\nvar core = {\n\taskingPassword: {\n\t\trequirePasswordToOpen: \"This document requires a password to open\",\n\t\tsubmit: \"Submit\"\n\t},\n\twrongPassword: {\n\t\ttryAgain: \"The password is wrong. Please try again\"\n\t},\n\tpageLabel: \"Page {{pageIndex}}\"\n};\nvar enUs = {\n\tcore: core\n};\n\nvar DefaultLocalization = enUs;\nvar LocalizationContext = React__namespace.createContext({\n    l10n: DefaultLocalization,\n    setL10n: function () { },\n});\n\nvar id = 0;\nvar uniqueId = function () { return id++; };\n\nvar useClickOutside = function (closeOnClickOutside, targetRef, onClickOutside) {\n    var clickHandler = function (e) {\n        var target = targetRef.current;\n        if (!target) {\n            return;\n        }\n        var clickedTarget = e.target;\n        if (clickedTarget instanceof Element && clickedTarget.shadowRoot) {\n            var paths = e.composedPath();\n            if (paths.length > 0 && !target.contains(paths[0])) {\n                onClickOutside();\n            }\n        }\n        else if (!target.contains(clickedTarget)) {\n            onClickOutside();\n        }\n    };\n    React__namespace.useEffect(function () {\n        if (!closeOnClickOutside) {\n            return;\n        }\n        var eventOptions = {\n            capture: true,\n        };\n        document.addEventListener('click', clickHandler, eventOptions);\n        return function () {\n            document.removeEventListener('click', clickHandler, eventOptions);\n        };\n    }, []);\n};\n\nvar useEscape = function (handler) {\n    var keyUpHandler = function (e) {\n        if (e.key === 'Escape') {\n            handler();\n        }\n    };\n    React__namespace.useEffect(function () {\n        document.addEventListener('keyup', keyUpHandler);\n        return function () {\n            document.removeEventListener('keyup', keyUpHandler);\n        };\n    }, []);\n};\n\nvar useLockScroll = function () {\n    React__namespace.useEffect(function () {\n        var originalStyle = window.getComputedStyle(document.body).overflow;\n        document.body.style.overflow = 'hidden';\n        return function () {\n            document.body.style.overflow = originalStyle;\n        };\n    }, []);\n};\n\nvar ModalBody = function (_a) {\n    var ariaControlsSuffix = _a.ariaControlsSuffix, children = _a.children, closeOnClickOutside = _a.closeOnClickOutside, closeOnEscape = _a.closeOnEscape, onToggle = _a.onToggle;\n    var contentRef = React__namespace.useRef();\n    var direction = React__namespace.useContext(ThemeContext).direction;\n    var isRtl = direction === exports.TextDirection.RightToLeft;\n    useLockScroll();\n    useEscape(function () {\n        if (contentRef.current && closeOnEscape) {\n            onToggle();\n        }\n    });\n    useClickOutside(closeOnClickOutside, contentRef, onToggle);\n    useIsomorphicLayoutEffect(function () {\n        var contentEle = contentRef.current;\n        if (!contentEle) {\n            return;\n        }\n        var maxHeight = document.body.clientHeight * 0.75;\n        if (contentEle.getBoundingClientRect().height >= maxHeight) {\n            contentEle.style.overflow = 'auto';\n            contentEle.style.maxHeight = \"\".concat(maxHeight, \"px\");\n        }\n    }, []);\n    return (React__namespace.createElement(\"div\", { \"aria-modal\": \"true\", className: classNames({\n            'rpv-core__modal-body': true,\n            'rpv-core__modal-body--rtl': isRtl,\n        }), id: \"rpv-core__modal-body-\".concat(ariaControlsSuffix), ref: contentRef, role: \"dialog\", tabIndex: -1 }, children));\n};\n\nvar ModalOverlay = function (_a) {\n    var children = _a.children;\n    return React__namespace.createElement(\"div\", { className: \"rpv-core__modal-overlay\" }, children);\n};\n\nexports.ToggleStatus = void 0;\n(function (ToggleStatus) {\n    ToggleStatus[\"Close\"] = \"Close\";\n    ToggleStatus[\"Open\"] = \"Open\";\n    ToggleStatus[\"Toggle\"] = \"Toggle\";\n})(exports.ToggleStatus || (exports.ToggleStatus = {}));\n\nvar useToggle = function (isOpened) {\n    var _a = React__namespace.useState(isOpened), opened = _a[0], setOpened = _a[1];\n    var toggle = function (status) {\n        switch (status) {\n            case exports.ToggleStatus.Close:\n                setOpened(false);\n                break;\n            case exports.ToggleStatus.Open:\n                setOpened(true);\n                break;\n            case exports.ToggleStatus.Toggle:\n            default:\n                setOpened(function (isOpened) { return !isOpened; });\n                break;\n        }\n    };\n    return { opened: opened, toggle: toggle };\n};\n\nvar Portal = function (_a) {\n    var content = _a.content, _b = _a.isOpened, isOpened = _b === void 0 ? false : _b, target = _a.target;\n    var _c = useToggle(isOpened), opened = _c.opened, toggle = _c.toggle;\n    return (React__namespace.createElement(React__namespace.Fragment, null,\n        target && target(toggle, opened),\n        opened && content(toggle)));\n};\n\nvar Modal = function (_a) {\n    var ariaControlsSuffix = _a.ariaControlsSuffix, closeOnClickOutside = _a.closeOnClickOutside, closeOnEscape = _a.closeOnEscape, content = _a.content, _b = _a.isOpened, isOpened = _b === void 0 ? false : _b, target = _a.target;\n    var controlsSuffix = ariaControlsSuffix || \"\".concat(uniqueId());\n    var renderTarget = function (toggle, opened) { return (React__namespace.createElement(\"div\", { \"aria-expanded\": opened ? 'true' : 'false', \"aria-haspopup\": \"dialog\", \"aria-controls\": \"rpv-core__modal-body-\".concat(controlsSuffix) }, target(toggle, opened))); };\n    var renderContent = function (toggle) { return (React__namespace.createElement(ModalOverlay, null,\n        React__namespace.createElement(ModalBody, { ariaControlsSuffix: controlsSuffix, closeOnClickOutside: closeOnClickOutside, closeOnEscape: closeOnEscape, onToggle: toggle }, content(toggle)))); };\n    return React__namespace.createElement(Portal, { target: target ? renderTarget : null, content: renderContent, isOpened: isOpened });\n};\n\nexports.Position = void 0;\n(function (Position) {\n    Position[\"TopLeft\"] = \"TOP_LEFT\";\n    Position[\"TopCenter\"] = \"TOP_CENTER\";\n    Position[\"TopRight\"] = \"TOP_RIGHT\";\n    Position[\"RightTop\"] = \"RIGHT_TOP\";\n    Position[\"RightCenter\"] = \"RIGHT_CENTER\";\n    Position[\"RightBottom\"] = \"RIGHT_BOTTOM\";\n    Position[\"BottomLeft\"] = \"BOTTOM_LEFT\";\n    Position[\"BottomCenter\"] = \"BOTTOM_CENTER\";\n    Position[\"BottomRight\"] = \"BOTTOM_RIGHT\";\n    Position[\"LeftTop\"] = \"LEFT_TOP\";\n    Position[\"LeftCenter\"] = \"LEFT_CENTER\";\n    Position[\"LeftBottom\"] = \"LEFT_BOTTOM\";\n})(exports.Position || (exports.Position = {}));\n\nvar calculatePosition = function (content, target, position, offset) {\n    var targetRect = target.getBoundingClientRect();\n    var contentRect = content.getBoundingClientRect();\n    var height = contentRect.height, width = contentRect.width;\n    var top = 0;\n    var left = 0;\n    switch (position) {\n        case exports.Position.TopLeft:\n            top = targetRect.top - height;\n            left = targetRect.left;\n            break;\n        case exports.Position.TopCenter:\n            top = targetRect.top - height;\n            left = targetRect.left + targetRect.width / 2 - width / 2;\n            break;\n        case exports.Position.TopRight:\n            top = targetRect.top - height;\n            left = targetRect.left + targetRect.width - width;\n            break;\n        case exports.Position.RightTop:\n            top = targetRect.top;\n            left = targetRect.left + targetRect.width;\n            break;\n        case exports.Position.RightCenter:\n            top = targetRect.top + targetRect.height / 2 - height / 2;\n            left = targetRect.left + targetRect.width;\n            break;\n        case exports.Position.RightBottom:\n            top = targetRect.top + targetRect.height - height;\n            left = targetRect.left + targetRect.width;\n            break;\n        case exports.Position.BottomLeft:\n            top = targetRect.top + targetRect.height;\n            left = targetRect.left;\n            break;\n        case exports.Position.BottomCenter:\n            top = targetRect.top + targetRect.height;\n            left = targetRect.left + targetRect.width / 2 - width / 2;\n            break;\n        case exports.Position.BottomRight:\n            top = targetRect.top + targetRect.height;\n            left = targetRect.left + targetRect.width - width;\n            break;\n        case exports.Position.LeftTop:\n            top = targetRect.top;\n            left = targetRect.left - width;\n            break;\n        case exports.Position.LeftCenter:\n            top = targetRect.top + targetRect.height / 2 - height / 2;\n            left = targetRect.left - width;\n            break;\n        case exports.Position.LeftBottom:\n            top = targetRect.top + targetRect.height - height;\n            left = targetRect.left - width;\n            break;\n    }\n    return {\n        left: left + (offset.left || 0),\n        top: top + (offset.top || 0),\n    };\n};\n\nvar usePosition = function (contentRef, targetRef, anchorRef, position, offset) {\n    useIsomorphicLayoutEffect(function () {\n        var targetEle = targetRef.current;\n        var contentEle = contentRef.current;\n        var anchorEle = anchorRef.current;\n        if (!contentEle || !targetEle || !anchorEle) {\n            return;\n        }\n        var anchorRect = anchorEle.getBoundingClientRect();\n        var _a = calculatePosition(contentEle, targetEle, position, offset), top = _a.top, left = _a.left;\n        contentEle.style.top = \"\".concat(top - anchorRect.top, \"px\");\n        contentEle.style.left = \"\".concat(left - anchorRect.left, \"px\");\n    }, []);\n};\n\nvar Arrow = function (_a) {\n    var _b;\n    var customClassName = _a.customClassName, position = _a.position;\n    return (React__namespace.createElement(\"div\", { className: classNames((_b = {\n                'rpv-core__arrow': true,\n                'rpv-core__arrow--tl': position === exports.Position.TopLeft,\n                'rpv-core__arrow--tc': position === exports.Position.TopCenter,\n                'rpv-core__arrow--tr': position === exports.Position.TopRight,\n                'rpv-core__arrow--rt': position === exports.Position.RightTop,\n                'rpv-core__arrow--rc': position === exports.Position.RightCenter,\n                'rpv-core__arrow--rb': position === exports.Position.RightBottom,\n                'rpv-core__arrow--bl': position === exports.Position.BottomLeft,\n                'rpv-core__arrow--bc': position === exports.Position.BottomCenter,\n                'rpv-core__arrow--br': position === exports.Position.BottomRight,\n                'rpv-core__arrow--lt': position === exports.Position.LeftTop,\n                'rpv-core__arrow--lc': position === exports.Position.LeftCenter,\n                'rpv-core__arrow--lb': position === exports.Position.LeftBottom\n            },\n            _b[\"\".concat(customClassName)] = customClassName !== '',\n            _b)) }));\n};\n\nvar PopoverBody = function (_a) {\n    var ariaControlsSuffix = _a.ariaControlsSuffix, children = _a.children, closeOnClickOutside = _a.closeOnClickOutside, offset = _a.offset, position = _a.position, targetRef = _a.targetRef, onClose = _a.onClose;\n    var contentRef = React__namespace.useRef();\n    var innerRef = React__namespace.useRef();\n    var anchorRef = React__namespace.useRef();\n    var direction = React__namespace.useContext(ThemeContext).direction;\n    var isRtl = direction === exports.TextDirection.RightToLeft;\n    useClickOutside(closeOnClickOutside, contentRef, onClose);\n    usePosition(contentRef, targetRef, anchorRef, position, offset);\n    useIsomorphicLayoutEffect(function () {\n        var innerContentEle = innerRef.current;\n        if (!innerContentEle) {\n            return;\n        }\n        var maxHeight = document.body.clientHeight * 0.75;\n        if (innerContentEle.getBoundingClientRect().height >= maxHeight) {\n            innerContentEle.style.overflow = 'auto';\n            innerContentEle.style.maxHeight = \"\".concat(maxHeight, \"px\");\n        }\n    }, []);\n    var innerId = \"rpv-core__popover-body-inner-\".concat(ariaControlsSuffix);\n    return (React__namespace.createElement(React__namespace.Fragment, null,\n        React__namespace.createElement(\"div\", { ref: anchorRef, style: { left: 0, position: 'absolute', top: 0 } }),\n        React__namespace.createElement(\"div\", { \"aria-describedby\": innerId, className: classNames({\n                'rpv-core__popover-body': true,\n                'rpv-core__popover-body--rtl': isRtl,\n            }), id: \"rpv-core__popover-body-\".concat(ariaControlsSuffix), ref: contentRef, role: \"dialog\", tabIndex: -1 },\n            React__namespace.createElement(Arrow, { customClassName: \"rpv-core__popover-body-arrow\", position: position }),\n            React__namespace.createElement(\"div\", { id: innerId, ref: innerRef }, children))));\n};\n\nvar PopoverOverlay = function (_a) {\n    var closeOnEscape = _a.closeOnEscape, onClose = _a.onClose;\n    var containerRef = React__namespace.useRef();\n    useEscape(function () {\n        if (containerRef.current && closeOnEscape) {\n            onClose();\n        }\n    });\n    return React__namespace.createElement(\"div\", { className: \"rpv-core__popover-overlay\", ref: containerRef });\n};\n\nvar Popover = function (_a) {\n    var _b = _a.ariaHasPopup, ariaHasPopup = _b === void 0 ? 'dialog' : _b, ariaControlsSuffix = _a.ariaControlsSuffix, closeOnClickOutside = _a.closeOnClickOutside, closeOnEscape = _a.closeOnEscape, content = _a.content, _c = _a.lockScroll, lockScroll = _c === void 0 ? true : _c, offset = _a.offset, position = _a.position, target = _a.target;\n    var _d = useToggle(false), opened = _d.opened, toggle = _d.toggle;\n    var targetRef = React__namespace.useRef();\n    var controlsSuffix = React__namespace.useMemo(function () { return ariaControlsSuffix || \"\".concat(uniqueId()); }, []);\n    return (React__namespace.createElement(\"div\", { ref: targetRef, \"aria-expanded\": opened ? 'true' : 'false', \"aria-haspopup\": ariaHasPopup, \"aria-controls\": \"rpv-core__popver-body-\".concat(controlsSuffix) },\n        target(toggle, opened),\n        opened && (React__namespace.createElement(React__namespace.Fragment, null,\n            lockScroll && React__namespace.createElement(PopoverOverlay, { closeOnEscape: closeOnEscape, onClose: toggle }),\n            React__namespace.createElement(PopoverBody, { ariaControlsSuffix: controlsSuffix, closeOnClickOutside: closeOnClickOutside, offset: offset, position: position, targetRef: targetRef, onClose: toggle }, content(toggle))))));\n};\n\nvar TooltipBody = function (_a) {\n    var ariaControlsSuffix = _a.ariaControlsSuffix, children = _a.children, contentRef = _a.contentRef, offset = _a.offset, position = _a.position, targetRef = _a.targetRef;\n    var anchorRef = React__namespace.useRef();\n    var direction = React__namespace.useContext(ThemeContext).direction;\n    var isRtl = direction === exports.TextDirection.RightToLeft;\n    usePosition(contentRef, targetRef, anchorRef, position, offset);\n    return (React__namespace.createElement(React__namespace.Fragment, null,\n        React__namespace.createElement(\"div\", { ref: anchorRef, style: { left: 0, position: 'absolute', top: 0 } }),\n        React__namespace.createElement(\"div\", { className: classNames({\n                'rpv-core__tooltip-body': true,\n                'rpv-core__tooltip-body--rtl': isRtl,\n            }), id: \"rpv-core__tooltip-body-\".concat(ariaControlsSuffix), ref: contentRef, role: \"tooltip\" },\n            React__namespace.createElement(Arrow, { customClassName: \"rpv-core__tooltip-body-arrow\", position: position }),\n            React__namespace.createElement(\"div\", { className: \"rpv-core__tooltip-body-content\" }, children))));\n};\n\nvar Tooltip = function (_a) {\n    var ariaControlsSuffix = _a.ariaControlsSuffix, content = _a.content, offset = _a.offset, position = _a.position, target = _a.target;\n    var _b = useToggle(false), opened = _b.opened, toggle = _b.toggle;\n    var targetRef = React__namespace.useRef();\n    var contentRef = React__namespace.useRef();\n    var controlsSuffix = React__namespace.useMemo(function () { return ariaControlsSuffix || \"\".concat(uniqueId()); }, []);\n    useEscape(function () {\n        if (targetRef.current && document.activeElement && targetRef.current.contains(document.activeElement)) {\n            close();\n        }\n    });\n    var open = function () {\n        toggle(exports.ToggleStatus.Open);\n    };\n    var close = function () {\n        toggle(exports.ToggleStatus.Close);\n    };\n    var onBlur = function (e) {\n        var shouldHideTooltip = e.relatedTarget instanceof HTMLElement &&\n            e.currentTarget.parentElement &&\n            e.currentTarget.parentElement.contains(e.relatedTarget);\n        if (shouldHideTooltip) {\n            if (contentRef.current) {\n                contentRef.current.style.display = 'none';\n            }\n        }\n        else {\n            close();\n        }\n    };\n    return (React__namespace.createElement(React__namespace.Fragment, null,\n        React__namespace.createElement(\"div\", { ref: targetRef, \"aria-describedby\": \"rpv-core__tooltip-body-\".concat(controlsSuffix), onBlur: onBlur, onFocus: open, onMouseEnter: open, onMouseLeave: close }, target),\n        opened && (React__namespace.createElement(TooltipBody, { ariaControlsSuffix: controlsSuffix, contentRef: contentRef, offset: offset, position: position, targetRef: targetRef }, content()))));\n};\n\nfunction createStore(initialState) {\n    var state = initialState || {};\n    var listeners = {};\n    var update = function (key, data) {\n        var _a;\n        state = __assign(__assign({}, state), (_a = {}, _a[key] = data, _a));\n        (listeners[key] || []).forEach(function (handler) { return handler(state[key]); });\n    };\n    var get = function (key) { return state[key]; };\n    return {\n        subscribe: function (key, handler) {\n            listeners[key] = (listeners[key] || []).concat(handler);\n        },\n        unsubscribe: function (key, handler) {\n            listeners[key] = (listeners[key] || []).filter(function (f) { return f !== handler; });\n        },\n        update: function (key, data) {\n            update(key, data);\n        },\n        updateCurrentValue: function (key, updater) {\n            var currentValue = get(key);\n            if (currentValue !== undefined) {\n                update(key, updater(currentValue));\n            }\n        },\n        get: function (key) {\n            return get(key);\n        },\n    };\n}\n\nexports.FullScreenMode = void 0;\n(function (FullScreenMode) {\n    FullScreenMode[\"Normal\"] = \"Normal\";\n    FullScreenMode[\"Entering\"] = \"Entering\";\n    FullScreenMode[\"Entered\"] = \"Entered\";\n    FullScreenMode[\"EnteredCompletely\"] = \"EnteredCompletely\";\n    FullScreenMode[\"Exitting\"] = \"Exitting\";\n    FullScreenMode[\"Exited\"] = \"Exited\";\n})(exports.FullScreenMode || (exports.FullScreenMode = {}));\n\nexports.LayerRenderStatus = void 0;\n(function (LayerRenderStatus) {\n    LayerRenderStatus[LayerRenderStatus[\"PreRender\"] = 0] = \"PreRender\";\n    LayerRenderStatus[LayerRenderStatus[\"DidRender\"] = 1] = \"DidRender\";\n})(exports.LayerRenderStatus || (exports.LayerRenderStatus = {}));\n\nexports.PageMode = void 0;\n(function (PageMode) {\n    PageMode[\"Attachments\"] = \"UseAttachments\";\n    PageMode[\"Bookmarks\"] = \"UseOutlines\";\n    PageMode[\"ContentGroup\"] = \"UseOC\";\n    PageMode[\"Default\"] = \"UserNone\";\n    PageMode[\"FullScreen\"] = \"FullScreen\";\n    PageMode[\"Thumbnails\"] = \"UseThumbs\";\n})(exports.PageMode || (exports.PageMode = {}));\n\nexports.PasswordStatus = void 0;\n(function (PasswordStatus) {\n    PasswordStatus[\"RequiredPassword\"] = \"RequiredPassword\";\n    PasswordStatus[\"WrongPassword\"] = \"WrongPassword\";\n})(exports.PasswordStatus || (exports.PasswordStatus = {}));\n\nexports.RotateDirection = void 0;\n(function (RotateDirection) {\n    RotateDirection[\"Backward\"] = \"Backward\";\n    RotateDirection[\"Forward\"] = \"Forward\";\n})(exports.RotateDirection || (exports.RotateDirection = {}));\n\nexports.ScrollMode = void 0;\n(function (ScrollMode) {\n    ScrollMode[\"Page\"] = \"Page\";\n    ScrollMode[\"Horizontal\"] = \"Horizontal\";\n    ScrollMode[\"Vertical\"] = \"Vertical\";\n    ScrollMode[\"Wrapped\"] = \"Wrapped\";\n})(exports.ScrollMode || (exports.ScrollMode = {}));\n\nexports.SpecialZoomLevel = void 0;\n(function (SpecialZoomLevel) {\n    SpecialZoomLevel[\"ActualSize\"] = \"ActualSize\";\n    SpecialZoomLevel[\"PageFit\"] = \"PageFit\";\n    SpecialZoomLevel[\"PageWidth\"] = \"PageWidth\";\n})(exports.SpecialZoomLevel || (exports.SpecialZoomLevel = {}));\n\nexports.ViewMode = void 0;\n(function (ViewMode) {\n    ViewMode[\"DualPage\"] = \"DualPage\";\n    ViewMode[\"DualPageWithCover\"] = \"DualPageWithCover\";\n    ViewMode[\"SinglePage\"] = \"SinglePage\";\n})(exports.ViewMode || (exports.ViewMode = {}));\n\nvar chunk = function (arr, size) {\n    return arr.reduce(function (acc, e, i) { return (i % size ? acc[acc.length - 1].push(e) : acc.push([e]), acc); }, []);\n};\n\nvar isMac = function () { return (typeof window !== 'undefined' ? /(Mac|iPhone|iPod|iPad)/i.test(navigator.platform) : false); };\n\nvar normalizeDestination = function (pageIndex, destArray) {\n    switch (destArray[1].name) {\n        case 'XYZ':\n            return {\n                bottomOffset: function (_, viewportHeight) {\n                    return destArray[3] === null ? viewportHeight : destArray[3];\n                },\n                leftOffset: function (_, __) { return (destArray[2] === null ? 0 : destArray[2]); },\n                pageIndex: pageIndex,\n                scaleTo: destArray[4],\n            };\n        case 'Fit':\n        case 'FitB':\n            return {\n                bottomOffset: 0,\n                leftOffset: 0,\n                pageIndex: pageIndex,\n                scaleTo: exports.SpecialZoomLevel.PageFit,\n            };\n        case 'FitH':\n        case 'FitBH':\n            return {\n                bottomOffset: destArray[2],\n                leftOffset: 0,\n                pageIndex: pageIndex,\n                scaleTo: exports.SpecialZoomLevel.PageWidth,\n            };\n        default:\n            return {\n                bottomOffset: 0,\n                leftOffset: 0,\n                pageIndex: pageIndex,\n                scaleTo: 1,\n            };\n    }\n};\nvar pageOutlinesMap = new Map();\nvar pagesMap = new Map();\nvar generateRefKey = function (doc, outline) {\n    return \"\".concat(doc.loadingTask.docId, \"___\").concat(outline.num, \"R\").concat(outline.gen === 0 ? '' : outline.gen);\n};\nvar getPageIndex = function (doc, outline) {\n    var key = generateRefKey(doc, outline);\n    return pageOutlinesMap.has(key) ? pageOutlinesMap.get(key) : null;\n};\nvar cacheOutlineRef = function (doc, outline, pageIndex) {\n    pageOutlinesMap.set(generateRefKey(doc, outline), pageIndex);\n};\nvar clearPagesCache = function () {\n    pageOutlinesMap.clear();\n    pagesMap.clear();\n};\nvar getPage = function (doc, pageIndex) {\n    if (!doc) {\n        return Promise.reject('The document is not loaded yet');\n    }\n    var pageKey = \"\".concat(doc.loadingTask.docId, \"___\").concat(pageIndex);\n    var page = pagesMap.get(pageKey);\n    if (page) {\n        return Promise.resolve(page);\n    }\n    return new Promise(function (resolve, _) {\n        doc.getPage(pageIndex + 1).then(function (page) {\n            pagesMap.set(pageKey, page);\n            if (page.ref) {\n                cacheOutlineRef(doc, page.ref, pageIndex);\n            }\n            resolve(page);\n        });\n    });\n};\nvar getDestination = function (doc, dest) {\n    return new Promise(function (res) {\n        new Promise(function (resolve) {\n            if (typeof dest === 'string') {\n                doc.getDestination(dest).then(function (destArray) {\n                    resolve(destArray);\n                });\n            }\n            else {\n                resolve(dest);\n            }\n        }).then(function (destArray) {\n            if ('object' === typeof destArray[0] && destArray[0] !== null) {\n                var outlineRef_1 = destArray[0];\n                var pageIndex = getPageIndex(doc, outlineRef_1);\n                if (pageIndex === null) {\n                    doc.getPageIndex(outlineRef_1).then(function (pageIndex) {\n                        cacheOutlineRef(doc, outlineRef_1, pageIndex);\n                        getDestination(doc, dest).then(function (result) { return res(result); });\n                    });\n                }\n                else {\n                    res(normalizeDestination(pageIndex, destArray));\n                }\n            }\n            else {\n                var target = normalizeDestination(destArray[0], destArray);\n                res(target);\n            }\n        });\n    });\n};\n\nvar useRunOnce = function (cb, condition) {\n    var isCalledRef = React__namespace.useRef(false);\n    useIsomorphicLayoutEffect(function () {\n        if (condition && !isCalledRef.current) {\n            isCalledRef.current = true;\n            cb();\n        }\n    }, [cb, condition]);\n};\n\nvar useTrackResize = function (_a) {\n    var targetRef = _a.targetRef, onResize = _a.onResize;\n    useIsomorphicLayoutEffect(function () {\n        var io = new ResizeObserver(function (entries) {\n            entries.forEach(function (entry) {\n                onResize(entry.target);\n            });\n        });\n        var container = targetRef.current;\n        if (!container) {\n            return;\n        }\n        io.observe(container);\n        return function () {\n            io.unobserve(container);\n        };\n    }, []);\n};\n\nvar AnnotationBorderStyleType;\n(function (AnnotationBorderStyleType) {\n    AnnotationBorderStyleType[AnnotationBorderStyleType[\"Solid\"] = 1] = \"Solid\";\n    AnnotationBorderStyleType[AnnotationBorderStyleType[\"Dashed\"] = 2] = \"Dashed\";\n    AnnotationBorderStyleType[AnnotationBorderStyleType[\"Beveled\"] = 3] = \"Beveled\";\n    AnnotationBorderStyleType[AnnotationBorderStyleType[\"Inset\"] = 4] = \"Inset\";\n    AnnotationBorderStyleType[AnnotationBorderStyleType[\"Underline\"] = 5] = \"Underline\";\n})(AnnotationBorderStyleType || (AnnotationBorderStyleType = {}));\n\nvar dateRegex = new RegExp('^D:' +\n    '(\\\\d{4})' +\n    '(\\\\d{2})?' +\n    '(\\\\d{2})?' +\n    '(\\\\d{2})?' +\n    '(\\\\d{2})?' +\n    '(\\\\d{2})?' +\n    '([Z|+|-])?' +\n    '(\\\\d{2})?' +\n    \"'?\" +\n    '(\\\\d{2})?' +\n    \"'?\");\nvar parse = function (value, min, max, defaultValue) {\n    var parsed = parseInt(value, 10);\n    return parsed >= min && parsed <= max ? parsed : defaultValue;\n};\nvar convertDate = function (input) {\n    var matches = dateRegex.exec(input);\n    if (!matches) {\n        return null;\n    }\n    var year = parseInt(matches[1], 10);\n    var month = parse(matches[2], 1, 12, 1) - 1;\n    var day = parse(matches[3], 1, 31, 1);\n    var hour = parse(matches[4], 0, 23, 0);\n    var minute = parse(matches[5], 0, 59, 0);\n    var second = parse(matches[6], 0, 59, 0);\n    var universalTimeRelation = matches[7] || 'Z';\n    var offsetHour = parse(matches[8], 0, 23, 0);\n    var offsetMinute = parse(matches[9], 0, 59, 0);\n    switch (universalTimeRelation) {\n        case '-':\n            hour += offsetHour;\n            minute += offsetMinute;\n            break;\n        case '+':\n            hour -= offsetHour;\n            minute -= offsetMinute;\n            break;\n    }\n    return new Date(Date.UTC(year, month, day, hour, minute, second));\n};\n\nvar getContents = function (annotation) {\n    return annotation.contentsObj ? annotation.contentsObj.str : annotation.contents || '';\n};\n\nvar getTitle = function (annotation) {\n    return annotation.titleObj ? annotation.titleObj.str : annotation.title || '';\n};\n\nvar PopupWrapper = function (_a) {\n    var annotation = _a.annotation;\n    var direction = React__namespace.useContext(ThemeContext).direction;\n    var title = getTitle(annotation);\n    var contents = getContents(annotation);\n    var isRtl = direction === exports.TextDirection.RightToLeft;\n    var containerRef = React__namespace.useRef();\n    var dateStr = '';\n    if (annotation.modificationDate) {\n        var date = convertDate(annotation.modificationDate);\n        dateStr = date ? \"\".concat(date.toLocaleDateString(), \", \").concat(date.toLocaleTimeString()) : '';\n    }\n    React__namespace.useLayoutEffect(function () {\n        var containerEle = containerRef.current;\n        if (!containerEle) {\n            return;\n        }\n        var annotationEle = document.querySelector(\"[data-annotation-id=\\\"\".concat(annotation.id, \"\\\"]\"));\n        if (!annotationEle) {\n            return;\n        }\n        var ele = annotationEle;\n        ele.style.zIndex += 1;\n        return function () {\n            ele.style.zIndex = \"\".concat(parseInt(ele.style.zIndex, 10) - 1);\n        };\n    }, []);\n    return (React__namespace.createElement(\"div\", { ref: containerRef, className: classNames({\n            'rpv-core__annotation-popup-wrapper': true,\n            'rpv-core__annotation-popup-wrapper--rtl': isRtl,\n        }), style: {\n            top: annotation.annotationType === exports.AnnotationType.Popup ? '' : '100%',\n        } },\n        title && (React__namespace.createElement(React__namespace.Fragment, null,\n            React__namespace.createElement(\"div\", { className: classNames({\n                    'rpv-core__annotation-popup-title': true,\n                    'rpv-core__annotation-popup-title--ltr': !isRtl,\n                    'rpv-core__annotation-popup-title--rtl': isRtl,\n                }) }, title),\n            React__namespace.createElement(\"div\", { className: \"rpv-core__annotation-popup-date\" }, dateStr))),\n        contents && (React__namespace.createElement(\"div\", { className: \"rpv-core__annotation-popup-content\" }, contents.split('\\n').map(function (item, index) { return (React__namespace.createElement(React__namespace.Fragment, { key: index },\n            item,\n            React__namespace.createElement(\"br\", null))); })))));\n};\n\nvar TogglePopupBy;\n(function (TogglePopupBy) {\n    TogglePopupBy[\"Click\"] = \"Click\";\n    TogglePopupBy[\"Hover\"] = \"Hover\";\n})(TogglePopupBy || (TogglePopupBy = {}));\nvar useTogglePopup = function () {\n    var _a = useToggle(false), opened = _a.opened, toggle = _a.toggle;\n    var _b = React__namespace.useState(TogglePopupBy.Hover), togglePopupBy = _b[0], setTooglePopupBy = _b[1];\n    var toggleOnClick = function () {\n        switch (togglePopupBy) {\n            case TogglePopupBy.Click:\n                opened && setTooglePopupBy(TogglePopupBy.Hover);\n                toggle(exports.ToggleStatus.Toggle);\n                break;\n            case TogglePopupBy.Hover:\n                setTooglePopupBy(TogglePopupBy.Click);\n                toggle(exports.ToggleStatus.Open);\n                break;\n        }\n    };\n    var openOnHover = function () {\n        togglePopupBy === TogglePopupBy.Hover && toggle(exports.ToggleStatus.Open);\n    };\n    var closeOnHover = function () {\n        togglePopupBy === TogglePopupBy.Hover && toggle(exports.ToggleStatus.Close);\n    };\n    return {\n        opened: opened,\n        closeOnHover: closeOnHover,\n        openOnHover: openOnHover,\n        toggleOnClick: toggleOnClick,\n    };\n};\n\nvar Annotation = function (_a) {\n    var annotation = _a.annotation, children = _a.children, ignoreBorder = _a.ignoreBorder, hasPopup = _a.hasPopup, isRenderable = _a.isRenderable, page = _a.page, viewport = _a.viewport;\n    var rect = annotation.rect;\n    var _b = useTogglePopup(), closeOnHover = _b.closeOnHover, opened = _b.opened, openOnHover = _b.openOnHover, toggleOnClick = _b.toggleOnClick;\n    var normalizeRect = function (r) { return [\n        Math.min(r[0], r[2]),\n        Math.min(r[1], r[3]),\n        Math.max(r[0], r[2]),\n        Math.max(r[1], r[3]),\n    ]; };\n    var bound = normalizeRect([\n        rect[0],\n        page.view[3] + page.view[1] - rect[1],\n        rect[2],\n        page.view[3] + page.view[1] - rect[3],\n    ]);\n    var width = rect[2] - rect[0];\n    var height = rect[3] - rect[1];\n    var styles = {\n        borderColor: '',\n        borderRadius: '',\n        borderStyle: '',\n        borderWidth: '',\n    };\n    if (!ignoreBorder && annotation.borderStyle.width > 0) {\n        switch (annotation.borderStyle.style) {\n            case AnnotationBorderStyleType.Dashed:\n                styles.borderStyle = 'dashed';\n                break;\n            case AnnotationBorderStyleType.Solid:\n                styles.borderStyle = 'solid';\n                break;\n            case AnnotationBorderStyleType.Underline:\n                styles = Object.assign({\n                    borderBottomStyle: 'solid',\n                }, styles);\n                break;\n            case AnnotationBorderStyleType.Beveled:\n            case AnnotationBorderStyleType.Inset:\n        }\n        var borderWidth = annotation.borderStyle.width;\n        styles.borderWidth = \"\".concat(borderWidth, \"px\");\n        if (annotation.borderStyle.style !== AnnotationBorderStyleType.Underline) {\n            width = width - 2 * borderWidth;\n            height = height - 2 * borderWidth;\n        }\n        var _c = annotation.borderStyle, horizontalCornerRadius = _c.horizontalCornerRadius, verticalCornerRadius = _c.verticalCornerRadius;\n        if (horizontalCornerRadius > 0 || verticalCornerRadius > 0) {\n            styles.borderRadius = \"\".concat(horizontalCornerRadius, \"px / \").concat(verticalCornerRadius, \"px\");\n        }\n        annotation.color\n            ? (styles.borderColor = \"rgb(\".concat(annotation.color[0] | 0, \", \").concat(annotation.color[1] | 0, \", \").concat(annotation.color[2] | 0, \")\"))\n            :\n                (styles.borderWidth = '0');\n    }\n    return (React__namespace.createElement(React__namespace.Fragment, null, isRenderable &&\n        children({\n            popup: {\n                opened: opened,\n                closeOnHover: closeOnHover,\n                openOnHover: openOnHover,\n                toggleOnClick: toggleOnClick,\n            },\n            slot: {\n                attrs: {\n                    style: Object.assign({\n                        height: \"\".concat(height, \"px\"),\n                        left: \"\".concat(bound[0], \"px\"),\n                        top: \"\".concat(bound[1], \"px\"),\n                        transform: \"matrix(\".concat(viewport.transform.join(','), \")\"),\n                        transformOrigin: \"-\".concat(bound[0], \"px -\").concat(bound[1], \"px\"),\n                        width: \"\".concat(width, \"px\"),\n                    }, styles),\n                },\n                children: React__namespace.createElement(React__namespace.Fragment, null, hasPopup && opened && React__namespace.createElement(PopupWrapper, { annotation: annotation })),\n            },\n        })));\n};\n\nvar Caret = function (_a) {\n    var annotation = _a.annotation, page = _a.page, viewport = _a.viewport;\n    var hasPopup = annotation.hasPopup === false;\n    var title = getTitle(annotation);\n    var contents = getContents(annotation);\n    var isRenderable = !!(annotation.hasPopup || title || contents);\n    return (React__namespace.createElement(Annotation, { annotation: annotation, hasPopup: hasPopup, ignoreBorder: true, isRenderable: isRenderable, page: page, viewport: viewport }, function (props) { return (React__namespace.createElement(\"div\", __assign({}, props.slot.attrs, { className: \"rpv-core__annotation rpv-core__annotation--caret\", \"data-annotation-id\": annotation.id, onClick: props.popup.toggleOnClick, onMouseEnter: props.popup.openOnHover, onMouseLeave: props.popup.closeOnHover }), props.slot.children)); }));\n};\n\nvar Circle = function (_a) {\n    var annotation = _a.annotation, page = _a.page, viewport = _a.viewport;\n    var hasPopup = annotation.hasPopup === false;\n    var title = getTitle(annotation);\n    var contents = getContents(annotation);\n    var isRenderable = !!(annotation.hasPopup || title || contents);\n    var rect = annotation.rect;\n    var width = rect[2] - rect[0];\n    var height = rect[3] - rect[1];\n    var borderWidth = annotation.borderStyle.width;\n    return (React__namespace.createElement(Annotation, { annotation: annotation, hasPopup: hasPopup, ignoreBorder: true, isRenderable: isRenderable, page: page, viewport: viewport }, function (props) { return (React__namespace.createElement(\"div\", __assign({}, props.slot.attrs, { className: \"rpv-core__annotation rpv-core__annotation--circle\", \"data-annotation-id\": annotation.id, onClick: props.popup.toggleOnClick, onMouseEnter: props.popup.openOnHover, onMouseLeave: props.popup.closeOnHover }),\n        React__namespace.createElement(\"svg\", { height: \"\".concat(height, \"px\"), preserveAspectRatio: \"none\", version: \"1.1\", viewBox: \"0 0 \".concat(width, \" \").concat(height), width: \"\".concat(width, \"px\") },\n            React__namespace.createElement(\"circle\", { cy: height / 2, fill: \"none\", rx: width / 2 - borderWidth / 2, ry: height / 2 - borderWidth / 2, stroke: \"transparent\", strokeWidth: borderWidth || 1 })),\n        props.slot.children)); }));\n};\n\nvar getFileName = function (url) {\n    var str = url.split('/').pop();\n    return str ? str.split('#')[0].split('?')[0] : url;\n};\n\nvar downloadFile = function (url, data) {\n    var blobUrl = typeof data === 'string' ? '' : URL.createObjectURL(new Blob([data], { type: '' }));\n    var link = document.createElement('a');\n    link.style.display = 'none';\n    link.href = blobUrl || url;\n    link.setAttribute('download', getFileName(url));\n    document.body.appendChild(link);\n    link.click();\n    document.body.removeChild(link);\n    if (blobUrl) {\n        URL.revokeObjectURL(blobUrl);\n    }\n};\n\nvar FileAttachment = function (_a) {\n    var annotation = _a.annotation, page = _a.page, viewport = _a.viewport;\n    var title = getTitle(annotation);\n    var contents = getContents(annotation);\n    var hasPopup = annotation.hasPopup === false && (!!title || !!contents);\n    var doubleClick = function () {\n        var file = annotation.file;\n        file && downloadFile(file.filename, file.content);\n    };\n    return (React__namespace.createElement(Annotation, { annotation: annotation, hasPopup: hasPopup, ignoreBorder: true, isRenderable: true, page: page, viewport: viewport }, function (props) { return (React__namespace.createElement(\"div\", __assign({}, props.slot.attrs, { className: \"rpv-core__annotation rpv-core__annotation--file-attachment\", \"data-annotation-id\": annotation.id, onClick: props.popup.toggleOnClick, onDoubleClick: doubleClick, onMouseEnter: props.popup.openOnHover, onMouseLeave: props.popup.closeOnHover }), props.slot.children)); }));\n};\n\nvar FreeText = function (_a) {\n    var annotation = _a.annotation, page = _a.page, viewport = _a.viewport;\n    var hasPopup = annotation.hasPopup === false;\n    var title = getTitle(annotation);\n    var contents = getContents(annotation);\n    var isRenderable = !!(annotation.hasPopup || title || contents);\n    return (React__namespace.createElement(Annotation, { annotation: annotation, hasPopup: hasPopup, ignoreBorder: true, isRenderable: isRenderable, page: page, viewport: viewport }, function (props) { return (React__namespace.createElement(\"div\", __assign({}, props.slot.attrs, { className: \"rpv-core__annotation rpv-core__annotation--free-text\", \"data-annotation-id\": annotation.id, onClick: props.popup.toggleOnClick, onMouseEnter: props.popup.openOnHover, onMouseLeave: props.popup.closeOnHover }), props.slot.children)); }));\n};\n\nvar Popup = function (_a) {\n    var annotation = _a.annotation, page = _a.page, viewport = _a.viewport;\n    var title = getTitle(annotation);\n    var contents = getContents(annotation);\n    var isRenderable = !!(title || contents);\n    var ignoredParents = ['Circle', 'Ink', 'Line', 'Polygon', 'PolyLine', 'Square'];\n    var hasPopup = !annotation.parentType || ignoredParents.indexOf(annotation.parentType) !== -1;\n    useIsomorphicLayoutEffect(function () {\n        if (!annotation.parentId) {\n            return;\n        }\n        var parent = document.querySelector(\"[data-annotation-id=\\\"\".concat(annotation.parentId, \"\\\"]\"));\n        var container = document.querySelector(\"[data-annotation-id=\\\"\".concat(annotation.id, \"\\\"]\"));\n        if (!parent || !container) {\n            return;\n        }\n        var left = parseFloat(parent.style.left);\n        var top = parseFloat(parent.style.top) + parseFloat(parent.style.height);\n        container.style.left = \"\".concat(left, \"px\");\n        container.style.top = \"\".concat(top, \"px\");\n        container.style.transformOrigin = \"-\".concat(left, \"px -\").concat(top, \"px\");\n    }, []);\n    return (React__namespace.createElement(Annotation, { annotation: annotation, hasPopup: hasPopup, ignoreBorder: false, isRenderable: isRenderable, page: page, viewport: viewport }, function (props) { return (React__namespace.createElement(\"div\", __assign({}, props.slot.attrs, { className: \"rpv-core__annotation rpv-core__annotation--popup\", \"data-annotation-id\": annotation.id }),\n        React__namespace.createElement(PopupWrapper, { annotation: annotation }))); }));\n};\n\nvar Highlight = function (_a) {\n    var annotation = _a.annotation, childAnnotation = _a.childAnnotation, page = _a.page, viewport = _a.viewport;\n    var hasPopup = annotation.hasPopup === false;\n    var title = getTitle(annotation);\n    var contents = getContents(annotation);\n    var isRenderable = !!(annotation.hasPopup || title || contents);\n    var hasQuadPoints = annotation.quadPoints && annotation.quadPoints.length > 0;\n    if (hasQuadPoints) {\n        var annotations = annotation.quadPoints.map(function (quadPoint) {\n            return Object.assign({}, annotation, {\n                rect: [quadPoint[2].x, quadPoint[2].y, quadPoint[1].x, quadPoint[1].y],\n                quadPoints: [],\n            });\n        });\n        return (React__namespace.createElement(React__namespace.Fragment, null, annotations.map(function (ann, index) { return (React__namespace.createElement(Highlight, { key: index, annotation: ann, childAnnotation: childAnnotation, page: page, viewport: viewport })); })));\n    }\n    return (React__namespace.createElement(Annotation, { annotation: annotation, hasPopup: hasPopup, ignoreBorder: true, isRenderable: isRenderable, page: page, viewport: viewport }, function (props) { return (React__namespace.createElement(React__namespace.Fragment, null,\n        React__namespace.createElement(\"div\", __assign({}, props.slot.attrs, { className: \"rpv-core__annotation rpv-core__annotation--highlight\", \"data-annotation-id\": annotation.id, onClick: props.popup.toggleOnClick, onMouseEnter: props.popup.openOnHover, onMouseLeave: props.popup.closeOnHover }), props.slot.children),\n        childAnnotation &&\n            childAnnotation.annotationType === exports.AnnotationType.Popup &&\n            props.popup.opened && React__namespace.createElement(Popup, { annotation: childAnnotation, page: page, viewport: viewport }))); }));\n};\n\nvar Ink = function (_a) {\n    var annotation = _a.annotation, page = _a.page, viewport = _a.viewport;\n    var hasPopup = annotation.hasPopup === false;\n    var title = getTitle(annotation);\n    var contents = getContents(annotation);\n    var isRenderable = !!(annotation.hasPopup || title || contents);\n    var rect = annotation.rect;\n    var width = rect[2] - rect[0];\n    var height = rect[3] - rect[1];\n    var borderWidth = annotation.borderStyle.width;\n    return (React__namespace.createElement(Annotation, { annotation: annotation, hasPopup: hasPopup, ignoreBorder: true, isRenderable: isRenderable, page: page, viewport: viewport }, function (props) { return (React__namespace.createElement(\"div\", __assign({}, props.slot.attrs, { className: \"rpv-core__annotation rpv-core__annotation--ink\", \"data-annotation-id\": annotation.id, onClick: props.popup.toggleOnClick, onMouseEnter: props.popup.openOnHover, onMouseLeave: props.popup.closeOnHover }),\n        annotation.inkLists && annotation.inkLists.length && (React__namespace.createElement(\"svg\", { height: \"\".concat(height, \"px\"), preserveAspectRatio: \"none\", version: \"1.1\", viewBox: \"0 0 \".concat(width, \" \").concat(height), width: \"\".concat(width, \"px\") }, annotation.inkLists.map(function (inkList, index) { return (React__namespace.createElement(\"polyline\", { key: index, fill: \"none\", stroke: \"transparent\", strokeWidth: borderWidth || 1, points: inkList.map(function (item) { return \"\".concat(item.x - rect[0], \",\").concat(rect[3] - item.y); }).join(' ') })); }))),\n        props.slot.children)); }));\n};\n\nvar Line = function (_a) {\n    var annotation = _a.annotation, page = _a.page, viewport = _a.viewport;\n    var hasPopup = annotation.hasPopup === false;\n    var title = getTitle(annotation);\n    var contents = getContents(annotation);\n    var isRenderable = !!(annotation.hasPopup || title || contents);\n    var rect = annotation.rect;\n    var width = rect[2] - rect[0];\n    var height = rect[3] - rect[1];\n    var borderWidth = annotation.borderStyle.width;\n    return (React__namespace.createElement(Annotation, { annotation: annotation, hasPopup: hasPopup, ignoreBorder: true, isRenderable: isRenderable, page: page, viewport: viewport }, function (props) { return (React__namespace.createElement(\"div\", __assign({}, props.slot.attrs, { className: \"rpv-core__annotation rpv-core__annotation--line\", \"data-annotation-id\": annotation.id, onClick: props.popup.toggleOnClick, onMouseEnter: props.popup.openOnHover, onMouseLeave: props.popup.closeOnHover }),\n        React__namespace.createElement(\"svg\", { height: \"\".concat(height, \"px\"), preserveAspectRatio: \"none\", version: \"1.1\", viewBox: \"0 0 \".concat(width, \" \").concat(height), width: \"\".concat(width, \"px\") },\n            React__namespace.createElement(\"line\", { stroke: \"transparent\", strokeWidth: borderWidth || 1, x1: rect[2] - annotation.lineCoordinates[0], x2: rect[2] - annotation.lineCoordinates[2], y1: rect[3] - annotation.lineCoordinates[1], y2: rect[3] - annotation.lineCoordinates[3] })),\n        props.slot.children)); }));\n};\n\nvar INVALID_PROTOCOL = /^([^\\w]*)(javascript|data|vbscript)/im;\nvar HTML_ENTITIES = /&#(\\w+)(^\\w|;)?/g;\nvar CTRL_CHARS = /[\\u0000-\\u001F\\u007F-\\u009F\\u2000-\\u200D\\uFEFF]/gim;\nvar URL_SCHEME = /^([^:]+):/gm;\nvar decodeHtmlEntities = function (str) { return str.replace(HTML_ENTITIES, function (_, dec) { return String.fromCharCode(dec); }); };\nvar sanitizeUrl = function (url, defaultUrl) {\n    if (defaultUrl === void 0) { defaultUrl = 'about:blank'; }\n    var result = decodeHtmlEntities(url || '')\n        .replace(CTRL_CHARS, '')\n        .trim();\n    if (!result) {\n        return defaultUrl;\n    }\n    var firstChar = result[0];\n    if (firstChar === '.' || firstChar === '/') {\n        return result;\n    }\n    var parsedUrlScheme = result.match(URL_SCHEME);\n    if (!parsedUrlScheme) {\n        return result;\n    }\n    var scheme = parsedUrlScheme[0];\n    return INVALID_PROTOCOL.test(scheme) ? defaultUrl : result;\n};\n\nvar Link = function (_a) {\n    var _b;\n    var annotation = _a.annotation, annotationContainerRef = _a.annotationContainerRef, doc = _a.doc, outlines = _a.outlines, page = _a.page, pageIndex = _a.pageIndex, scale = _a.scale, viewport = _a.viewport, onExecuteNamedAction = _a.onExecuteNamedAction, onJumpFromLinkAnnotation = _a.onJumpFromLinkAnnotation, onJumpToDest = _a.onJumpToDest;\n    var elementRef = React__namespace.useRef();\n    var title = outlines && outlines.length && annotation.dest && typeof annotation.dest === 'string'\n        ? (_b = outlines.find(function (item) { return item.dest === annotation.dest; })) === null || _b === void 0 ? void 0 : _b.title\n        : '';\n    var link = function (e) {\n        e.preventDefault();\n        annotation.action\n            ? onExecuteNamedAction(annotation.action)\n            : getDestination(doc, annotation.dest).then(function (target) {\n                var element = elementRef.current;\n                var annotationContainer = annotationContainerRef.current;\n                if (element && annotationContainer) {\n                    var linkRect = element.getBoundingClientRect();\n                    annotationContainer.style.setProperty('height', '100%');\n                    annotationContainer.style.setProperty('width', '100%');\n                    var annotationLayerRect = annotationContainer.getBoundingClientRect();\n                    annotationContainer.style.removeProperty('height');\n                    annotationContainer.style.removeProperty('width');\n                    var leftOffset = (linkRect.left - annotationLayerRect.left) / scale;\n                    var bottomOffset = (annotationLayerRect.bottom - linkRect.bottom + linkRect.height) / scale;\n                    onJumpFromLinkAnnotation({\n                        bottomOffset: bottomOffset,\n                        label: title,\n                        leftOffset: leftOffset,\n                        pageIndex: pageIndex,\n                    });\n                }\n                onJumpToDest(target);\n            });\n    };\n    var isRenderable = !!(annotation.url || annotation.dest || annotation.action || annotation.unsafeUrl);\n    var attrs = {};\n    if (annotation.url || annotation.unsafeUrl) {\n        var targetUrl = sanitizeUrl(annotation.url || annotation.unsafeUrl, '');\n        if (targetUrl) {\n            attrs = {\n                'data-target': 'external',\n                href: targetUrl,\n                rel: 'noopener noreferrer nofollow',\n                target: annotation.newWindow ? '_blank' : '',\n                title: targetUrl,\n            };\n        }\n        else {\n            isRenderable = false;\n        }\n    }\n    else {\n        attrs = {\n            href: '',\n            'data-annotation-link': annotation.id,\n            onClick: link,\n        };\n    }\n    if (title) {\n        attrs = Object.assign({}, attrs, {\n            title: title,\n            'aria-label': title,\n        });\n    }\n    return (React__namespace.createElement(Annotation, { annotation: annotation, hasPopup: false, ignoreBorder: false, isRenderable: isRenderable, page: page, viewport: viewport }, function (props) { return (React__namespace.createElement(\"div\", __assign({}, props.slot.attrs, { className: \"rpv-core__annotation rpv-core__annotation--link\", \"data-annotation-id\": annotation.id, \"data-testid\": \"core__annotation--link-\".concat(annotation.id) }),\n        React__namespace.createElement(\"a\", __assign({ ref: elementRef }, attrs)))); }));\n};\n\nvar Polygon = function (_a) {\n    var annotation = _a.annotation, page = _a.page, viewport = _a.viewport;\n    var hasPopup = annotation.hasPopup === false;\n    var title = getTitle(annotation);\n    var contents = getContents(annotation);\n    var isRenderable = !!(annotation.hasPopup || title || contents);\n    var rect = annotation.rect;\n    var width = rect[2] - rect[0];\n    var height = rect[3] - rect[1];\n    var borderWidth = annotation.borderStyle.width;\n    return (React__namespace.createElement(Annotation, { annotation: annotation, hasPopup: hasPopup, ignoreBorder: true, isRenderable: isRenderable, page: page, viewport: viewport }, function (props) { return (React__namespace.createElement(\"div\", __assign({}, props.slot.attrs, { className: \"rpv-core__annotation rpv-core__annotation--polygon\", \"data-annotation-id\": annotation.id, onClick: props.popup.toggleOnClick, onMouseEnter: props.popup.openOnHover, onMouseLeave: props.popup.closeOnHover }),\n        annotation.vertices && annotation.vertices.length && (React__namespace.createElement(\"svg\", { height: \"\".concat(height, \"px\"), preserveAspectRatio: \"none\", version: \"1.1\", viewBox: \"0 0 \".concat(width, \" \").concat(height), width: \"\".concat(width, \"px\") },\n            React__namespace.createElement(\"polygon\", { fill: \"none\", stroke: \"transparent\", strokeWidth: borderWidth || 1, points: annotation.vertices\n                    .map(function (item) { return \"\".concat(item.x - rect[0], \",\").concat(rect[3] - item.y); })\n                    .join(' ') }))),\n        props.slot.children)); }));\n};\n\nvar Polyline = function (_a) {\n    var annotation = _a.annotation, page = _a.page, viewport = _a.viewport;\n    var hasPopup = annotation.hasPopup === false;\n    var title = getTitle(annotation);\n    var contents = getContents(annotation);\n    var isRenderable = !!(annotation.hasPopup || title || contents);\n    var rect = annotation.rect;\n    var width = rect[2] - rect[0];\n    var height = rect[3] - rect[1];\n    var borderWidth = annotation.borderStyle.width;\n    return (React__namespace.createElement(Annotation, { annotation: annotation, hasPopup: hasPopup, ignoreBorder: true, isRenderable: isRenderable, page: page, viewport: viewport }, function (props) { return (React__namespace.createElement(\"div\", __assign({}, props.slot.attrs, { className: \"rpv-core__annotation rpv-core__annotation--polyline\", \"data-annotation-id\": annotation.id, onClick: props.popup.toggleOnClick, onMouseEnter: props.popup.openOnHover, onMouseLeave: props.popup.closeOnHover }),\n        annotation.vertices && annotation.vertices.length && (React__namespace.createElement(\"svg\", { height: \"\".concat(height, \"px\"), preserveAspectRatio: \"none\", version: \"1.1\", viewBox: \"0 0 \".concat(width, \" \").concat(height), width: \"\".concat(width, \"px\") },\n            React__namespace.createElement(\"polyline\", { fill: \"none\", stroke: \"transparent\", strokeWidth: borderWidth || 1, points: annotation.vertices\n                    .map(function (item) { return \"\".concat(item.x - rect[0], \",\").concat(rect[3] - item.y); })\n                    .join(' ') }))),\n        props.slot.children)); }));\n};\n\nvar Square = function (_a) {\n    var annotation = _a.annotation, page = _a.page, viewport = _a.viewport;\n    var hasPopup = annotation.hasPopup === false;\n    var title = getTitle(annotation);\n    var contents = getContents(annotation);\n    var isRenderable = !!(annotation.hasPopup || title || contents);\n    var rect = annotation.rect;\n    var width = rect[2] - rect[0];\n    var height = rect[3] - rect[1];\n    var borderWidth = annotation.borderStyle.width;\n    return (React__namespace.createElement(Annotation, { annotation: annotation, hasPopup: hasPopup, ignoreBorder: true, isRenderable: isRenderable, page: page, viewport: viewport }, function (props) { return (React__namespace.createElement(\"div\", __assign({}, props.slot.attrs, { className: \"rpv-core__annotation rpv-core__annotation--square\", \"data-annotation-id\": annotation.id, onClick: props.popup.toggleOnClick, onMouseEnter: props.popup.openOnHover, onMouseLeave: props.popup.closeOnHover }),\n        React__namespace.createElement(\"svg\", { height: \"\".concat(height, \"px\"), preserveAspectRatio: \"none\", version: \"1.1\", viewBox: \"0 0 \".concat(width, \" \").concat(height), width: \"\".concat(width, \"px\") },\n            React__namespace.createElement(\"rect\", { height: height - borderWidth, fill: \"none\", stroke: \"transparent\", strokeWidth: borderWidth || 1, x: borderWidth / 2, y: borderWidth / 2, width: width - borderWidth })),\n        props.slot.children)); }));\n};\n\nvar Squiggly = function (_a) {\n    var annotation = _a.annotation, page = _a.page, viewport = _a.viewport;\n    var hasPopup = annotation.hasPopup === false;\n    var title = getTitle(annotation);\n    var contents = getContents(annotation);\n    var isRenderable = !!(annotation.hasPopup || title || contents);\n    return (React__namespace.createElement(Annotation, { annotation: annotation, hasPopup: hasPopup, ignoreBorder: true, isRenderable: isRenderable, page: page, viewport: viewport }, function (props) { return (React__namespace.createElement(\"div\", __assign({}, props.slot.attrs, { className: \"rpv-core__annotation rpv-core__annotation--squiggly\", \"data-annotation-id\": annotation.id, onClick: props.popup.toggleOnClick, onMouseEnter: props.popup.openOnHover, onMouseLeave: props.popup.closeOnHover }), props.slot.children)); }));\n};\n\nvar Stamp = function (_a) {\n    var annotation = _a.annotation, page = _a.page, viewport = _a.viewport;\n    var hasPopup = annotation.hasPopup === false;\n    var title = getTitle(annotation);\n    var contents = getContents(annotation);\n    var isRenderable = !!(annotation.hasPopup || title || contents);\n    return (React__namespace.createElement(Annotation, { annotation: annotation, hasPopup: hasPopup, ignoreBorder: true, isRenderable: isRenderable, page: page, viewport: viewport }, function (props) { return (React__namespace.createElement(\"div\", __assign({}, props.slot.attrs, { className: \"rpv-core__annotation rpv-core__annotation--stamp\", \"data-annotation-id\": annotation.id, onClick: props.popup.toggleOnClick, onMouseEnter: props.popup.openOnHover, onMouseLeave: props.popup.closeOnHover }), props.slot.children)); }));\n};\n\nvar StrikeOut = function (_a) {\n    var annotation = _a.annotation, page = _a.page, viewport = _a.viewport;\n    var hasPopup = annotation.hasPopup === false;\n    var title = getTitle(annotation);\n    var contents = getContents(annotation);\n    var isRenderable = !!(annotation.hasPopup || title || contents);\n    return (React__namespace.createElement(Annotation, { annotation: annotation, hasPopup: hasPopup, ignoreBorder: true, isRenderable: isRenderable, page: page, viewport: viewport }, function (props) { return (React__namespace.createElement(\"div\", __assign({}, props.slot.attrs, { className: \"rpv-core__annotation rpv-core__annotation--strike-out\", \"data-annotation-id\": annotation.id, onClick: props.popup.toggleOnClick, onMouseEnter: props.popup.openOnHover, onMouseLeave: props.popup.closeOnHover }), props.slot.children)); }));\n};\n\nvar CommentIcon = function () { return (React__namespace.createElement(Icon, { size: 16 },\n    React__namespace.createElement(\"path\", { d: \"M.5,16.5a1,1,0,0,0,1,1h2v4l4-4h15a1,1,0,0,0,1-1V3.5a1,1,0,0,0-1-1H1.5a1,1,0,0,0-1,1Z\" }),\n    React__namespace.createElement(\"path\", { d: \"M7.25,9.75A.25.25,0,1,1,7,10a.25.25,0,0,1,.25-.25\" }),\n    React__namespace.createElement(\"path\", { d: \"M12,9.75a.25.25,0,1,1-.25.25A.25.25,0,0,1,12,9.75\" }),\n    React__namespace.createElement(\"path\", { d: \"M16.75,9.75a.25.25,0,1,1-.25.25.25.25,0,0,1,.25-.25\" }))); };\n\nvar HelpIcon = function () { return (React__namespace.createElement(Icon, { size: 16 },\n    React__namespace.createElement(\"path\", { d: \"M0.500 12.001 A11.500 11.500 0 1 0 23.500 12.001 A11.500 11.500 0 1 0 0.500 12.001 Z\" }),\n    React__namespace.createElement(\"path\", { d: \"M6.000 12.001 A6.000 6.000 0 1 0 18.000 12.001 A6.000 6.000 0 1 0 6.000 12.001 Z\" }),\n    React__namespace.createElement(\"path\", { d: \"M21.423 5.406L17.415 9.414\" }),\n    React__namespace.createElement(\"path\", { d: \"M14.587 6.585L18.607 2.565\" }),\n    React__namespace.createElement(\"path\", { d: \"M5.405 21.424L9.413 17.416\" }),\n    React__namespace.createElement(\"path\", { d: \"M6.585 14.588L2.577 18.596\" }),\n    React__namespace.createElement(\"path\", { d: \"M18.602 21.419L14.595 17.412\" }),\n    React__namespace.createElement(\"path\", { d: \"M17.419 14.58L21.428 18.589\" }),\n    React__namespace.createElement(\"path\", { d: \"M2.582 5.399L6.588 9.406\" }),\n    React__namespace.createElement(\"path\", { d: \"M9.421 6.581L5.412 2.572\" }))); };\n\nvar KeyIcon = function () { return (React__namespace.createElement(Icon, { size: 16 },\n    React__namespace.createElement(\"path\", { d: \"M4.000 18.500 A1.500 1.500 0 1 0 7.000 18.500 A1.500 1.500 0 1 0 4.000 18.500 Z\" }),\n    React__namespace.createElement(\"path\", { d: \"M20.5.5l-9.782,9.783a7,7,0,1,0,3,3L17,10h1.5V8.5L19,8h1.5V6.5L21,6h1.5V4.5l1-1V.5Z\" }))); };\n\nvar NoteIcon = function () { return (React__namespace.createElement(Icon, { size: 16 },\n    React__namespace.createElement(\"path\", { d: \"M2.000 2.500 L22.000 2.500 L22.000 23.500 L2.000 23.500 Z\" }),\n    React__namespace.createElement(\"path\", { d: \"M6 4.5L6 0.5\" }),\n    React__namespace.createElement(\"path\", { d: \"M18 4.5L18 0.5\" }),\n    React__namespace.createElement(\"path\", { d: \"M10 4.5L10 0.5\" }),\n    React__namespace.createElement(\"path\", { d: \"M14 4.5L14 0.5\" }))); };\n\nvar ParagraphIcon = function () { return (React__namespace.createElement(Icon, { size: 16 },\n    React__namespace.createElement(\"path\", { d: \"M17.5 0.498L17.5 23.498\" }),\n    React__namespace.createElement(\"path\", { d: \"M10.5 0.498L10.5 23.498\" }),\n    React__namespace.createElement(\"path\", { d: \"M23.5.5H6.5a6,6,0,0,0,0,12h4\" }))); };\n\nvar TriangleIcon = function () { return (React__namespace.createElement(Icon, { size: 16 },\n    React__namespace.createElement(\"path\", { d: \"M2.5 22.995L12 6.005 21.5 22.995 2.5 22.995z\" }))); };\n\nvar Text = function (_a) {\n    var annotation = _a.annotation, childAnnotation = _a.childAnnotation, page = _a.page, viewport = _a.viewport;\n    var hasPopup = annotation.hasPopup === false;\n    var title = getTitle(annotation);\n    var contents = getContents(annotation);\n    var isRenderable = !!(annotation.hasPopup || title || contents);\n    var name = annotation.name ? annotation.name.toLowerCase() : '';\n    return (React__namespace.createElement(Annotation, { annotation: annotation, hasPopup: hasPopup, ignoreBorder: false, isRenderable: isRenderable, page: page, viewport: viewport }, function (props) { return (React__namespace.createElement(React__namespace.Fragment, null,\n        React__namespace.createElement(\"div\", __assign({}, props.slot.attrs, { className: \"rpv-core__annotation rpv-core__annotation--text\", \"data-annotation-id\": annotation.id, onClick: props.popup.toggleOnClick, onMouseEnter: props.popup.openOnHover, onMouseLeave: props.popup.closeOnHover }),\n            name && (React__namespace.createElement(\"div\", { className: \"rpv-core__annotation-text-icon\" },\n                name === 'check' && React__namespace.createElement(CheckIcon, null),\n                name === 'comment' && React__namespace.createElement(CommentIcon, null),\n                name === 'help' && React__namespace.createElement(HelpIcon, null),\n                name === 'insert' && React__namespace.createElement(TriangleIcon, null),\n                name === 'key' && React__namespace.createElement(KeyIcon, null),\n                name === 'note' && React__namespace.createElement(NoteIcon, null),\n                (name === 'newparagraph' || name === 'paragraph') && React__namespace.createElement(ParagraphIcon, null))),\n            props.slot.children),\n        childAnnotation &&\n            childAnnotation.annotationType === exports.AnnotationType.Popup &&\n            props.popup.opened && React__namespace.createElement(Popup, { annotation: childAnnotation, page: page, viewport: viewport }))); }));\n};\n\nvar Underline = function (_a) {\n    var annotation = _a.annotation, page = _a.page, viewport = _a.viewport;\n    var hasPopup = annotation.hasPopup === false;\n    var title = getTitle(annotation);\n    var contents = getContents(annotation);\n    var isRenderable = !!(annotation.hasPopup || title || contents);\n    return (React__namespace.createElement(Annotation, { annotation: annotation, hasPopup: hasPopup, ignoreBorder: true, isRenderable: isRenderable, page: page, viewport: viewport }, function (props) { return (React__namespace.createElement(\"div\", __assign({}, props.slot.attrs, { className: \"rpv-core__annotation rpv-core__annotation--underline\", \"data-annotation-id\": annotation.id, onClick: props.popup.toggleOnClick, onMouseEnter: props.popup.openOnHover, onMouseLeave: props.popup.closeOnHover }), props.slot.children)); }));\n};\n\nvar AnnotationLayerBody = function (_a) {\n    var annotations = _a.annotations, doc = _a.doc, outlines = _a.outlines, page = _a.page, pageIndex = _a.pageIndex, plugins = _a.plugins, rotation = _a.rotation, scale = _a.scale, onExecuteNamedAction = _a.onExecuteNamedAction, onJumpFromLinkAnnotation = _a.onJumpFromLinkAnnotation, onJumpToDest = _a.onJumpToDest;\n    var containerRef = React__namespace.useRef();\n    var viewport = page.getViewport({ rotation: rotation, scale: scale });\n    var clonedViewPort = viewport.clone({ dontFlip: true });\n    var filterAnnotations = annotations.filter(function (annotation) { return !annotation.parentId; });\n    useIsomorphicLayoutEffect(function () {\n        var container = containerRef.current;\n        if (!container) {\n            return;\n        }\n        plugins.forEach(function (plugin) {\n            if (plugin.onAnnotationLayerRender) {\n                plugin.onAnnotationLayerRender({\n                    annotations: filterAnnotations,\n                    container: container,\n                    pageIndex: pageIndex,\n                    rotation: rotation,\n                    scale: scale,\n                });\n            }\n        });\n    }, []);\n    return (React__namespace.createElement(\"div\", { ref: containerRef, className: \"rpv-core__annotation-layer\", \"data-testid\": \"core__annotation-layer-\".concat(pageIndex) }, filterAnnotations.map(function (annotation) {\n        var childAnnotation = annotations.find(function (item) { return item.parentId === annotation.id; });\n        switch (annotation.annotationType) {\n            case exports.AnnotationType.Caret:\n                return (React__namespace.createElement(Caret, { key: annotation.id, annotation: annotation, page: page, viewport: clonedViewPort }));\n            case exports.AnnotationType.Circle:\n                return (React__namespace.createElement(Circle, { key: annotation.id, annotation: annotation, page: page, viewport: clonedViewPort }));\n            case exports.AnnotationType.FileAttachment:\n                return (React__namespace.createElement(FileAttachment, { key: annotation.id, annotation: annotation, page: page, viewport: clonedViewPort }));\n            case exports.AnnotationType.FreeText:\n                return (React__namespace.createElement(FreeText, { key: annotation.id, annotation: annotation, page: page, viewport: clonedViewPort }));\n            case exports.AnnotationType.Highlight:\n                return (React__namespace.createElement(Highlight, { key: annotation.id, annotation: annotation, childAnnotation: childAnnotation, page: page, viewport: clonedViewPort }));\n            case exports.AnnotationType.Ink:\n                return (React__namespace.createElement(Ink, { key: annotation.id, annotation: annotation, page: page, viewport: clonedViewPort }));\n            case exports.AnnotationType.Line:\n                return (React__namespace.createElement(Line, { key: annotation.id, annotation: annotation, page: page, viewport: clonedViewPort }));\n            case exports.AnnotationType.Link:\n                return (React__namespace.createElement(Link, { key: annotation.id, annotation: annotation, annotationContainerRef: containerRef, doc: doc, outlines: outlines, page: page, pageIndex: pageIndex, scale: scale, viewport: clonedViewPort, onExecuteNamedAction: onExecuteNamedAction, onJumpFromLinkAnnotation: onJumpFromLinkAnnotation, onJumpToDest: onJumpToDest }));\n            case exports.AnnotationType.Polygon:\n                return (React__namespace.createElement(Polygon, { key: annotation.id, annotation: annotation, page: page, viewport: clonedViewPort }));\n            case exports.AnnotationType.Polyline:\n                return (React__namespace.createElement(Polyline, { key: annotation.id, annotation: annotation, page: page, viewport: clonedViewPort }));\n            case exports.AnnotationType.Popup:\n                return (React__namespace.createElement(Popup, { key: annotation.id, annotation: annotation, page: page, viewport: clonedViewPort }));\n            case exports.AnnotationType.Square:\n                return (React__namespace.createElement(Square, { key: annotation.id, annotation: annotation, page: page, viewport: clonedViewPort }));\n            case exports.AnnotationType.Squiggly:\n                return (React__namespace.createElement(Squiggly, { key: annotation.id, annotation: annotation, page: page, viewport: clonedViewPort }));\n            case exports.AnnotationType.Stamp:\n                return (React__namespace.createElement(Stamp, { key: annotation.id, annotation: annotation, page: page, viewport: clonedViewPort }));\n            case exports.AnnotationType.StrikeOut:\n                return (React__namespace.createElement(StrikeOut, { key: annotation.id, annotation: annotation, page: page, viewport: clonedViewPort }));\n            case exports.AnnotationType.Text:\n                return (React__namespace.createElement(Text, { key: annotation.id, annotation: annotation, childAnnotation: childAnnotation, page: page, viewport: clonedViewPort }));\n            case exports.AnnotationType.Underline:\n                return (React__namespace.createElement(Underline, { key: annotation.id, annotation: annotation, page: page, viewport: clonedViewPort }));\n            default:\n                return React__namespace.createElement(React__namespace.Fragment, { key: annotation.id });\n        }\n    })));\n};\n\nvar AnnotationLoader = function (_a) {\n    var page = _a.page, renderAnnotations = _a.renderAnnotations;\n    var isMounted = useIsMounted();\n    var _b = React__namespace.useState({\n        loading: true,\n        annotations: [],\n    }), status = _b[0], setStatus = _b[1];\n    React__namespace.useEffect(function () {\n        page.getAnnotations({ intent: 'display' }).then(function (result) {\n            if (isMounted.current) {\n                setStatus({\n                    loading: false,\n                    annotations: result,\n                });\n            }\n        });\n    }, []);\n    return status.loading ? React__namespace.createElement(React__namespace.Fragment, null) : renderAnnotations(status.annotations);\n};\n\nvar AnnotationLayer = function (_a) {\n    var doc = _a.doc, outlines = _a.outlines, page = _a.page, pageIndex = _a.pageIndex, plugins = _a.plugins, rotation = _a.rotation, scale = _a.scale, onExecuteNamedAction = _a.onExecuteNamedAction, onJumpFromLinkAnnotation = _a.onJumpFromLinkAnnotation, onJumpToDest = _a.onJumpToDest;\n    var renderAnnotations = function (annotations) { return (React__namespace.createElement(AnnotationLayerBody, { annotations: annotations, doc: doc, outlines: outlines, page: page, pageIndex: pageIndex, plugins: plugins, rotation: rotation, scale: scale, onExecuteNamedAction: onExecuteNamedAction, onJumpFromLinkAnnotation: onJumpFromLinkAnnotation, onJumpToDest: onJumpToDest })); };\n    return React__namespace.createElement(AnnotationLoader, { page: page, renderAnnotations: renderAnnotations });\n};\n\nvar floatToRatio = function (x, limit) {\n    var _a, _b;\n    if (Math.floor(x) === x) {\n        return [x, 1];\n    }\n    var y = 1 / x;\n    if (y > limit) {\n        return [1, limit];\n    }\n    if (Math.floor(y) === y) {\n        return [1, y];\n    }\n    var value = x > 1 ? y : x;\n    var a = 0;\n    var b = 1;\n    var c = 1;\n    var d = 1;\n    while (true) {\n        var numerator = a + c;\n        var denominator = b + d;\n        if (denominator > limit) {\n            break;\n        }\n        value <= numerator / denominator ? (_a = [numerator, denominator], c = _a[0], d = _a[1], _a) : (_b = [numerator, denominator], a = _b[0], b = _b[1], _b);\n    }\n    var middle = (a / b + c / d) / 2;\n    return value < middle ? (value === x ? [a, b] : [b, a]) : value === x ? [c, d] : [d, c];\n};\n\nvar roundToDivide = function (a, b) {\n    var remainder = a % b;\n    return remainder === 0 ? a : Math.floor(a - remainder);\n};\n\nvar MAX_CANVAS_SIZE = 4096 * 4096;\nvar CanvasLayer = function (_a) {\n    var canvasLayerRef = _a.canvasLayerRef, height = _a.height, page = _a.page, pageIndex = _a.pageIndex, plugins = _a.plugins, rotation = _a.rotation, scale = _a.scale, width = _a.width, onRenderCanvasCompleted = _a.onRenderCanvasCompleted;\n    var renderTask = React__namespace.useRef();\n    useIsomorphicLayoutEffect(function () {\n        var task = renderTask.current;\n        if (task) {\n            task.cancel();\n        }\n        var canvasEle = canvasLayerRef.current;\n        canvasEle.removeAttribute('data-testid');\n        plugins.forEach(function (plugin) {\n            if (plugin.onCanvasLayerRender) {\n                plugin.onCanvasLayerRender({\n                    ele: canvasEle,\n                    pageIndex: pageIndex,\n                    rotation: rotation,\n                    scale: scale,\n                    status: exports.LayerRenderStatus.PreRender,\n                });\n            }\n        });\n        var viewport = page.getViewport({\n            rotation: rotation,\n            scale: scale,\n        });\n        var outputScale = window.devicePixelRatio || 1;\n        var maxScale = Math.sqrt(MAX_CANVAS_SIZE / (viewport.width * viewport.height));\n        var shouldScaleByCSS = outputScale > maxScale;\n        shouldScaleByCSS ? (canvasEle.style.transform = \"scale(1, 1)\") : canvasEle.style.removeProperty('transform');\n        var possibleScale = Math.min(maxScale, outputScale);\n        var _a = floatToRatio(possibleScale, 8), x = _a[0], y = _a[1];\n        canvasEle.width = roundToDivide(viewport.width * possibleScale, x);\n        canvasEle.height = roundToDivide(viewport.height * possibleScale, x);\n        canvasEle.style.width = \"\".concat(roundToDivide(viewport.width, y), \"px\");\n        canvasEle.style.height = \"\".concat(roundToDivide(viewport.height, y), \"px\");\n        canvasEle.hidden = true;\n        var canvasContext = canvasEle.getContext('2d', { alpha: false });\n        var transform = shouldScaleByCSS || outputScale !== 1 ? [possibleScale, 0, 0, possibleScale, 0, 0] : null;\n        renderTask.current = page.render({ canvasContext: canvasContext, transform: transform, viewport: viewport });\n        renderTask.current.promise.then(function () {\n            canvasEle.hidden = false;\n            canvasEle.setAttribute('data-testid', \"core__canvas-layer-\".concat(pageIndex));\n            plugins.forEach(function (plugin) {\n                if (plugin.onCanvasLayerRender) {\n                    plugin.onCanvasLayerRender({\n                        ele: canvasEle,\n                        pageIndex: pageIndex,\n                        rotation: rotation,\n                        scale: scale,\n                        status: exports.LayerRenderStatus.DidRender,\n                    });\n                }\n            });\n            onRenderCanvasCompleted();\n        }, function () {\n            onRenderCanvasCompleted();\n        });\n        return function () {\n            if (canvasEle) {\n                canvasEle.width = 0;\n                canvasEle.height = 0;\n            }\n        };\n    }, []);\n    return (React__namespace.createElement(\"div\", { className: \"rpv-core__canvas-layer\", style: {\n            height: \"\".concat(height, \"px\"),\n            width: \"\".concat(width, \"px\"),\n        } },\n        React__namespace.createElement(\"canvas\", { ref: canvasLayerRef })));\n};\n\nvar SvgLayer = function (_a) {\n    var height = _a.height, page = _a.page, rotation = _a.rotation, scale = _a.scale, width = _a.width;\n    var containerRef = React__namespace.useRef();\n    var empty = function () {\n        var containerEle = containerRef.current;\n        if (!containerEle) {\n            return;\n        }\n        containerEle.innerHTML = '';\n    };\n    useIsomorphicLayoutEffect(function () {\n        var containerEle = containerRef.current;\n        var viewport = page.getViewport({ rotation: rotation, scale: scale });\n        page.getOperatorList().then(function (operatorList) {\n            empty();\n            var graphic = new PdfJsApi__namespace.SVGGraphics(page.commonObjs, page.objs);\n            graphic.getSVG(operatorList, viewport).then(function (svg) {\n                svg.style.height = \"\".concat(height, \"px\");\n                svg.style.width = \"\".concat(width, \"px\");\n                containerEle.appendChild(svg);\n            });\n        });\n    }, []);\n    return React__namespace.createElement(\"div\", { className: \"rpv-core__svg-layer\", ref: containerRef });\n};\n\nvar TextLayer = function (_a) {\n    var containerRef = _a.containerRef, page = _a.page, pageIndex = _a.pageIndex, plugins = _a.plugins, rotation = _a.rotation, scale = _a.scale, onRenderTextCompleted = _a.onRenderTextCompleted;\n    var renderTask = React__namespace.useRef();\n    var empty = function () {\n        var containerEle = containerRef.current;\n        if (!containerEle) {\n            return;\n        }\n        var spans = [].slice.call(containerEle.querySelectorAll('.rpv-core__text-layer-text'));\n        spans.forEach(function (span) { return containerEle.removeChild(span); });\n        var breaks = [].slice.call(containerEle.querySelectorAll('br[role=\"presentation\"]'));\n        breaks.forEach(function (br) { return containerEle.removeChild(br); });\n    };\n    useIsomorphicLayoutEffect(function () {\n        var task = renderTask.current;\n        if (task) {\n            task.cancel();\n        }\n        var containerEle = containerRef.current;\n        if (!containerEle) {\n            return;\n        }\n        containerEle.removeAttribute('data-testid');\n        var viewport = page.getViewport({ rotation: rotation, scale: scale });\n        plugins.forEach(function (plugin) {\n            if (plugin.onTextLayerRender) {\n                plugin.onTextLayerRender({\n                    ele: containerEle,\n                    pageIndex: pageIndex,\n                    scale: scale,\n                    status: exports.LayerRenderStatus.PreRender,\n                });\n            }\n        });\n        page.getTextContent().then(function (textContent) {\n            empty();\n            renderTask.current = PdfJsApi__namespace.renderTextLayer({\n                container: containerEle,\n                textContent: textContent,\n                textContentSource: textContent,\n                viewport: viewport,\n            });\n            renderTask.current.promise.then(function () {\n                containerEle.setAttribute('data-testid', \"core__text-layer-\".concat(pageIndex));\n                var spans = [].slice.call(containerEle.children);\n                spans.forEach(function (span) {\n                    if (!span.classList.contains('rpv-core__text-layer-text--not')) {\n                        span.classList.add('rpv-core__text-layer-text');\n                    }\n                });\n                plugins.forEach(function (plugin) {\n                    if (plugin.onTextLayerRender) {\n                        plugin.onTextLayerRender({\n                            ele: containerEle,\n                            pageIndex: pageIndex,\n                            scale: scale,\n                            status: exports.LayerRenderStatus.DidRender,\n                        });\n                    }\n                });\n                onRenderTextCompleted();\n            }, function () {\n                containerEle.removeAttribute('data-testid');\n                onRenderTextCompleted();\n            });\n        });\n        return function () {\n            var _a;\n            empty();\n            (_a = renderTask.current) === null || _a === void 0 ? void 0 : _a.cancel();\n        };\n    }, []);\n    return React__namespace.createElement(\"div\", { className: \"rpv-core__text-layer\", ref: containerRef });\n};\n\nvar PageLayer = function (_a) {\n    var doc = _a.doc, measureRef = _a.measureRef, outlines = _a.outlines, pageIndex = _a.pageIndex, pageRotation = _a.pageRotation, pageSize = _a.pageSize, plugins = _a.plugins, renderPage = _a.renderPage, renderQueueKey = _a.renderQueueKey, rotation = _a.rotation, scale = _a.scale, shouldRender = _a.shouldRender, viewMode = _a.viewMode, onExecuteNamedAction = _a.onExecuteNamedAction, onJumpFromLinkAnnotation = _a.onJumpFromLinkAnnotation, onJumpToDest = _a.onJumpToDest, onRenderCompleted = _a.onRenderCompleted, onRotatePage = _a.onRotatePage;\n    var isMounted = useIsMounted();\n    var _b = React__namespace.useState(null), page = _b[0], setPage = _b[1];\n    var _c = React__namespace.useState(false), canvasLayerRendered = _c[0], setCanvasLayerRendered = _c[1];\n    var _d = React__namespace.useState(false), textLayerRendered = _d[0], setTextLayerRendered = _d[1];\n    var canvasLayerRef = React__namespace.useRef();\n    var textLayerRef = React__namespace.useRef();\n    var isVertical = Math.abs(rotation + pageRotation) % 180 === 0;\n    var scaledWidth = pageSize.pageWidth * scale;\n    var scaledHeight = pageSize.pageHeight * scale;\n    var w = isVertical ? scaledWidth : scaledHeight;\n    var h = isVertical ? scaledHeight : scaledWidth;\n    var rotationValue = (pageSize.rotation + rotation + pageRotation) % 360;\n    var renderQueueKeyRef = React__namespace.useRef(0);\n    var determinePageInstance = function () {\n        getPage(doc, pageIndex).then(function (pdfPage) {\n            if (isMounted.current) {\n                renderQueueKeyRef.current = renderQueueKey;\n                setPage(pdfPage);\n            }\n        });\n    };\n    var defaultPageRenderer = function (props) { return (React__namespace.createElement(React__namespace.Fragment, null,\n        props.canvasLayer.children,\n        props.textLayer.children,\n        props.annotationLayer.children)); };\n    var renderPageLayer = renderPage || defaultPageRenderer;\n    var handleRenderCanvasCompleted = function () {\n        if (isMounted.current) {\n            setCanvasLayerRendered(true);\n        }\n    };\n    var handleRenderTextCompleted = function () {\n        if (isMounted.current) {\n            setTextLayerRendered(true);\n        }\n    };\n    React__namespace.useEffect(function () {\n        setPage(null);\n        setCanvasLayerRendered(false);\n        setTextLayerRendered(false);\n    }, [pageRotation, rotation, scale]);\n    React__namespace.useEffect(function () {\n        if (shouldRender && isMounted.current && !page) {\n            determinePageInstance();\n        }\n    }, [shouldRender, page]);\n    React__namespace.useEffect(function () {\n        if (canvasLayerRendered && textLayerRendered) {\n            if (renderQueueKey !== renderQueueKeyRef.current) {\n                setPage(null);\n                setCanvasLayerRendered(false);\n                setTextLayerRendered(false);\n            }\n            else {\n                onRenderCompleted(pageIndex);\n            }\n        }\n    }, [canvasLayerRendered, textLayerRendered]);\n    return (React__namespace.createElement(\"div\", { className: classNames({\n            'rpv-core__page-layer': true,\n            'rpv-core__page-layer--dual': viewMode === exports.ViewMode.DualPage,\n            'rpv-core__page-layer--dual-cover': viewMode === exports.ViewMode.DualPageWithCover,\n            'rpv-core__page-layer--single': viewMode === exports.ViewMode.SinglePage,\n        }), \"data-testid\": \"core__page-layer-\".concat(pageIndex), ref: measureRef, style: {\n            height: \"\".concat(h, \"px\"),\n            width: \"\".concat(w, \"px\"),\n        } }, !page ? (React__namespace.createElement(Spinner, { testId: \"core__page-layer-loading-\".concat(pageIndex) })) : (React__namespace.createElement(React__namespace.Fragment, null,\n        renderPageLayer({\n            annotationLayer: {\n                attrs: {},\n                children: (React__namespace.createElement(AnnotationLayer, { doc: doc, outlines: outlines, page: page, pageIndex: pageIndex, plugins: plugins, rotation: rotationValue, scale: scale, onExecuteNamedAction: onExecuteNamedAction, onJumpFromLinkAnnotation: onJumpFromLinkAnnotation, onJumpToDest: onJumpToDest })),\n            },\n            canvasLayer: {\n                attrs: {},\n                children: (React__namespace.createElement(CanvasLayer, { canvasLayerRef: canvasLayerRef, height: h, page: page, pageIndex: pageIndex, plugins: plugins, rotation: rotationValue, scale: scale, width: w, onRenderCanvasCompleted: handleRenderCanvasCompleted })),\n            },\n            canvasLayerRendered: canvasLayerRendered,\n            doc: doc,\n            height: h,\n            pageIndex: pageIndex,\n            rotation: rotationValue,\n            scale: scale,\n            svgLayer: {\n                attrs: {},\n                children: (React__namespace.createElement(SvgLayer, { height: h, page: page, rotation: rotationValue, scale: scale, width: w })),\n            },\n            textLayer: {\n                attrs: {},\n                children: (React__namespace.createElement(TextLayer, { containerRef: textLayerRef, page: page, pageIndex: pageIndex, plugins: plugins, rotation: rotationValue, scale: scale, onRenderTextCompleted: handleRenderTextCompleted })),\n            },\n            textLayerRendered: textLayerRendered,\n            width: w,\n            markRendered: onRenderCompleted,\n            onRotatePage: function (direction) { return onRotatePage(pageIndex, direction); },\n        }),\n        plugins.map(function (plugin, idx) {\n            return plugin.renderPageLayer ? (React__namespace.createElement(React__namespace.Fragment, { key: idx }, plugin.renderPageLayer({\n                canvasLayerRef: canvasLayerRef,\n                canvasLayerRendered: canvasLayerRendered,\n                doc: doc,\n                height: h,\n                pageIndex: pageIndex,\n                rotation: rotationValue,\n                scale: scale,\n                textLayerRef: textLayerRef,\n                textLayerRendered: textLayerRendered,\n                width: w,\n            }))) : (React__namespace.createElement(React__namespace.Fragment, { key: idx }));\n        })))));\n};\n\nvar getFileExt = function (url) {\n    var str = url.split(/\\./).pop();\n    return str ? str.toLowerCase() : '';\n};\n\nvar rectReducer = function (state, action) {\n    var rect = action.rect;\n    return state.height !== rect.height || state.width !== rect.width ? rect : state;\n};\nvar useMeasureRect = function (_a) {\n    var elementRef = _a.elementRef;\n    var _b = React__namespace.useState(elementRef.current), element = _b[0], setElement = _b[1];\n    var initializedRectRef = React__namespace.useRef(false);\n    var _c = React__namespace.useReducer(rectReducer, { height: 0, width: 0 }), rect = _c[0], dispatch = _c[1];\n    useIsomorphicLayoutEffect(function () {\n        if (elementRef.current !== element) {\n            setElement(elementRef.current);\n        }\n    });\n    useIsomorphicLayoutEffect(function () {\n        if (element && !initializedRectRef.current) {\n            initializedRectRef.current = true;\n            var _a = element.getBoundingClientRect(), height = _a.height, width = _a.width;\n            dispatch({\n                rect: { height: height, width: width },\n            });\n        }\n    }, [element]);\n    React__namespace.useEffect(function () {\n        if (!element) {\n            return;\n        }\n        var tracker = new ResizeObserver(function (entries, __) {\n            entries.forEach(function (entry) {\n                if (entry.target === element) {\n                    var _a = entry.contentRect, height = _a.height, width = _a.width;\n                    dispatch({\n                        rect: { height: height, width: width },\n                    });\n                }\n            });\n        });\n        tracker.observe(element);\n        return function () {\n            tracker.unobserve(element);\n        };\n    }, [element]);\n    return rect;\n};\n\nvar ScrollDirection;\n(function (ScrollDirection) {\n    ScrollDirection[\"Horizontal\"] = \"Horizontal\";\n    ScrollDirection[\"Vertical\"] = \"Vertical\";\n    ScrollDirection[\"Both\"] = \"Both\";\n})(ScrollDirection || (ScrollDirection = {}));\n\nvar easeOutQuart = function (t) { return 1 - Math.pow(1 - t, 4); };\n\nvar EPS = 0.0001;\nvar smoothScroll = function (ele, scrollDirection, targetPosition, duration, easing, onReachTarget) {\n    if (easing === void 0) { easing = function (t) { return t; }; }\n    if (onReachTarget === void 0) { onReachTarget = function () { }; }\n    var top = 0;\n    var left = 0;\n    var reachTarget = false;\n    switch (scrollDirection) {\n        case ScrollDirection.Horizontal:\n            left = ele.scrollLeft;\n            top = 0;\n        case ScrollDirection.Both:\n            left = ele.scrollLeft;\n            top = ele.scrollTop;\n            break;\n        case ScrollDirection.Vertical:\n        default:\n            left = 0;\n            top = ele.scrollTop;\n            break;\n    }\n    var markTargetReached = function () {\n        if (!reachTarget) {\n            reachTarget = true;\n            ele.scrollLeft = targetPosition.left;\n            ele.scrollTop = targetPosition.top;\n            onReachTarget();\n        }\n    };\n    if (Math.abs(top - targetPosition.top) <= EPS && scrollDirection === ScrollDirection.Vertical) {\n        markTargetReached();\n        return;\n    }\n    if (Math.abs(left - targetPosition.left) <= EPS && scrollDirection === ScrollDirection.Horizontal) {\n        markTargetReached();\n        return;\n    }\n    var startTime = -1;\n    var requestId;\n    var offset = {\n        left: left - targetPosition.left,\n        top: top - targetPosition.top,\n    };\n    var loop = function (currentTime) {\n        if (startTime === -1) {\n            startTime = currentTime;\n        }\n        var time = currentTime - startTime;\n        var percent = Math.min(time / duration, 1);\n        var easedPercent = easing(percent);\n        var updatePosition = {\n            left: left - offset.left * easedPercent,\n            top: top - offset.top * easedPercent,\n        };\n        switch (scrollDirection) {\n            case ScrollDirection.Horizontal:\n                ele.scrollLeft = updatePosition.left;\n                break;\n            case ScrollDirection.Both:\n                ele.scrollLeft = updatePosition.left;\n                ele.scrollTop = updatePosition.top;\n                break;\n            case ScrollDirection.Vertical:\n            default:\n                ele.scrollTop = updatePosition.top;\n                break;\n        }\n        if (Math.abs(updatePosition.top - targetPosition.top) <= EPS &&\n            Math.abs(updatePosition.left - targetPosition.left) <= EPS &&\n            !reachTarget) {\n            window.cancelAnimationFrame(requestId);\n            markTargetReached();\n        }\n        if (time < duration) {\n            requestId = window.requestAnimationFrame(loop);\n        }\n        else {\n            window.cancelAnimationFrame(requestId);\n        }\n    };\n    requestId = window.requestAnimationFrame(loop);\n};\n\nvar ZERO_OFFSET$6 = {\n    left: 0,\n    top: 0,\n};\nvar SCROLL_EVENT_OPTIONS = {\n    capture: false,\n    passive: true,\n};\nvar SCROLL_DURATION = 400;\nvar useScroll = function (_a) {\n    var elementRef = _a.elementRef, enableSmoothScroll = _a.enableSmoothScroll, isRtl = _a.isRtl, scrollDirection = _a.scrollDirection, onSmoothScroll = _a.onSmoothScroll;\n    var _b = React__namespace.useState(ZERO_OFFSET$6), scrollOffset = _b[0], setScrollOffset = _b[1];\n    var _c = React__namespace.useState(elementRef.current), element = _c[0], setElement = _c[1];\n    var factor = isRtl ? -1 : 1;\n    var latestRef = React__namespace.useRef(scrollDirection);\n    latestRef.current = scrollDirection;\n    var latestOffsetRef = React__namespace.useRef(ZERO_OFFSET$6);\n    var isSmoothScrollingDoneRef = React__namespace.useRef(true);\n    var handleSmoothScrollingComplete = React__namespace.useCallback(function () {\n        isSmoothScrollingDoneRef.current = true;\n        if (enableSmoothScroll) {\n            setScrollOffset(latestOffsetRef.current);\n        }\n        onSmoothScroll(false);\n    }, []);\n    var handleScroll = React__namespace.useCallback(function () {\n        if (!element) {\n            return;\n        }\n        switch (latestRef.current) {\n            case ScrollDirection.Horizontal:\n                latestOffsetRef.current = {\n                    left: factor * element.scrollLeft,\n                    top: 0,\n                };\n                break;\n            case ScrollDirection.Both:\n                latestOffsetRef.current = {\n                    left: factor * element.scrollLeft,\n                    top: element.scrollTop,\n                };\n                break;\n            case ScrollDirection.Vertical:\n            default:\n                latestOffsetRef.current = {\n                    left: 0,\n                    top: element.scrollTop,\n                };\n                break;\n        }\n        if (!enableSmoothScroll || isSmoothScrollingDoneRef.current) {\n            setScrollOffset(latestOffsetRef.current);\n        }\n    }, [element]);\n    useIsomorphicLayoutEffect(function () {\n        setElement(elementRef.current);\n    });\n    useIsomorphicLayoutEffect(function () {\n        if (!element) {\n            return;\n        }\n        element.addEventListener('scroll', handleScroll, SCROLL_EVENT_OPTIONS);\n        return function () {\n            element.removeEventListener('scroll', handleScroll, SCROLL_EVENT_OPTIONS);\n        };\n    }, [element]);\n    var scrollTo = React__namespace.useCallback(function (targetPosition, withSmoothScroll) {\n        var ele = elementRef.current;\n        if (!ele) {\n            return Promise.resolve();\n        }\n        var updatePosition = {\n            left: 0,\n            top: 0,\n        };\n        switch (latestRef.current) {\n            case ScrollDirection.Horizontal:\n                updatePosition.left = factor * targetPosition.left;\n                break;\n            case ScrollDirection.Both:\n                updatePosition.left = factor * targetPosition.left;\n                updatePosition.top = targetPosition.top;\n                break;\n            case ScrollDirection.Vertical:\n            default:\n                updatePosition.top = targetPosition.top;\n                break;\n        }\n        if (withSmoothScroll) {\n            isSmoothScrollingDoneRef.current = false;\n            onSmoothScroll(true);\n            return new Promise(function (resolve, _) {\n                smoothScroll(ele, latestRef.current, updatePosition, SCROLL_DURATION, easeOutQuart, function () {\n                    handleSmoothScrollingComplete();\n                    resolve();\n                });\n            });\n        }\n        return new Promise(function (resolve, _) {\n            switch (latestRef.current) {\n                case ScrollDirection.Horizontal:\n                    ele.scrollLeft = updatePosition.left;\n                    break;\n                case ScrollDirection.Both:\n                    ele.scrollLeft = updatePosition.left;\n                    ele.scrollTop = updatePosition.top;\n                    break;\n                case ScrollDirection.Vertical:\n                default:\n                    ele.scrollTop = updatePosition.top;\n                    break;\n            }\n            resolve();\n        });\n    }, [elementRef]);\n    return {\n        scrollOffset: scrollOffset,\n        scrollTo: scrollTo,\n    };\n};\n\nvar clamp = function (min, max, value) { return Math.max(min, Math.min(value, max)); };\n\nvar indexOfMax = function (arr) { return arr.reduce(function (prev, curr, i, a) { return (curr > a[prev] ? i : prev); }, 0); };\n\nvar buildContainerStyles = function (totalSize, scrollMode) {\n    switch (scrollMode) {\n        case exports.ScrollMode.Horizontal:\n            return {\n                position: 'relative',\n                height: '100%',\n                width: \"\".concat(totalSize.width, \"px\"),\n            };\n        case exports.ScrollMode.Vertical:\n        default:\n            return {\n                position: 'relative',\n                height: \"\".concat(totalSize.height, \"px\"),\n                width: '100%',\n            };\n    }\n};\n\nvar buildItemContainerStyles = function (item, parentRect, scrollMode) {\n    return scrollMode !== exports.ScrollMode.Page\n        ? {}\n        : {\n            height: \"\".concat(parentRect.height, \"px\"),\n            width: '100%',\n            position: 'absolute',\n            top: 0,\n            transform: \"translateY(\".concat(item.start.top, \"px)\"),\n        };\n};\n\nvar hasDifferentSizes = function (sizes) {\n    var numberOfItems = sizes.length;\n    if (numberOfItems === 1) {\n        return false;\n    }\n    for (var i = 1; i < numberOfItems; i++) {\n        if (sizes[i].height !== sizes[0].height || sizes[i].width !== sizes[0].width) {\n            return true;\n        }\n    }\n    return false;\n};\nvar getMinWidthOfCover = function (sizes, viewMode) {\n    if (viewMode !== exports.ViewMode.DualPageWithCover) {\n        return 0;\n    }\n    if (!hasDifferentSizes(sizes)) {\n        return 2 * sizes[0].width;\n    }\n    var chunkWidths = chunk(sizes.slice(1), 2).map(function (eachChunk) {\n        return eachChunk.length === 2 ? eachChunk[0].width + eachChunk[1].width : eachChunk[0].width;\n    });\n    var widths = [sizes[0].width].concat(chunkWidths);\n    return Math.max.apply(Math, widths);\n};\nvar buildItemStyles = function (item, isRtl, sizes, viewMode, scrollMode) {\n    var _a, _b, _c, _d, _e, _f, _g;\n    var sideProperty = isRtl ? 'right' : 'left';\n    var factor = isRtl ? -1 : 1;\n    var numberOfItems = sizes.length;\n    var left = item.start.left * factor;\n    var _h = item.size, height = _h.height, width = _h.width;\n    if (viewMode === exports.ViewMode.DualPageWithCover) {\n        var transformTop = scrollMode === exports.ScrollMode.Page ? 0 : item.start.top;\n        if (item.index === 0 || (numberOfItems % 2 === 0 && item.index === numberOfItems - 1)) {\n            return _a = {\n                    height: \"\".concat(height, \"px\"),\n                    minWidth: \"\".concat(getMinWidthOfCover(sizes, viewMode), \"px\"),\n                    width: '100%'\n                },\n                _a[sideProperty] = 0,\n                _a.position = 'absolute',\n                _a.top = 0,\n                _a.transform = \"translate(\".concat(left, \"px, \").concat(transformTop, \"px)\"),\n                _a;\n        }\n        return _b = {\n                height: \"\".concat(height, \"px\"),\n                width: \"\".concat(width, \"px\")\n            },\n            _b[sideProperty] = 0,\n            _b.position = 'absolute',\n            _b.top = 0,\n            _b.transform = \"translate(\".concat(left, \"px, \").concat(transformTop, \"px)\"),\n            _b;\n    }\n    if (viewMode === exports.ViewMode.DualPage) {\n        return _c = {\n                height: \"\".concat(height, \"px\"),\n                width: \"\".concat(width, \"px\")\n            },\n            _c[sideProperty] = 0,\n            _c.position = 'absolute',\n            _c.top = 0,\n            _c.transform = \"translate(\".concat(left, \"px, \").concat(scrollMode === exports.ScrollMode.Page ? 0 : item.start.top, \"px)\"),\n            _c;\n    }\n    switch (scrollMode) {\n        case exports.ScrollMode.Horizontal:\n            return _d = {\n                    height: '100%',\n                    width: \"\".concat(width, \"px\")\n                },\n                _d[sideProperty] = 0,\n                _d.position = 'absolute',\n                _d.top = 0,\n                _d.transform = \"translateX(\".concat(left, \"px)\"),\n                _d;\n        case exports.ScrollMode.Page:\n            return _e = {\n                    height: \"\".concat(height, \"px\"),\n                    width: \"\".concat(width, \"px\")\n                },\n                _e[sideProperty] = 0,\n                _e.position = 'absolute',\n                _e.top = 0,\n                _e;\n        case exports.ScrollMode.Wrapped:\n            return _f = {\n                    height: \"\".concat(height, \"px\"),\n                    width: \"\".concat(width, \"px\")\n                },\n                _f[sideProperty] = 0,\n                _f.position = 'absolute',\n                _f.top = 0,\n                _f.transform = \"translate(\".concat(left, \"px, \").concat(item.start.top, \"px)\"),\n                _f;\n        case exports.ScrollMode.Vertical:\n        default:\n            return _g = {\n                    height: \"\".concat(height, \"px\"),\n                    width: '100%'\n                },\n                _g[sideProperty] = 0,\n                _g.position = 'absolute',\n                _g.top = 0,\n                _g.transform = \"translateY(\".concat(item.start.top, \"px)\"),\n                _g;\n    }\n};\n\nvar findNearest = function (low, high, value, getItemValue) {\n    while (low <= high) {\n        var middle = ((low + high) / 2) | 0;\n        var currentValue = getItemValue(middle);\n        if (currentValue < value) {\n            low = middle + 1;\n        }\n        else if (currentValue > value) {\n            high = middle - 1;\n        }\n        else {\n            return middle;\n        }\n    }\n    return low > 0 ? low - 1 : 0;\n};\n\nvar calculateRange = function (scrollDirection, measurements, outerSize, scrollOffset) {\n    var currentOffset = 0;\n    switch (scrollDirection) {\n        case ScrollDirection.Horizontal:\n            currentOffset = scrollOffset.left;\n            break;\n        case ScrollDirection.Vertical:\n        default:\n            currentOffset = scrollOffset.top;\n            break;\n    }\n    var size = measurements.length - 1;\n    var getOffset = function (index) {\n        switch (scrollDirection) {\n            case ScrollDirection.Horizontal:\n                return measurements[index].start.left;\n            case ScrollDirection.Both:\n            case ScrollDirection.Vertical:\n            default:\n                return measurements[index].start.top;\n        }\n    };\n    var start = findNearest(0, size, currentOffset, getOffset);\n    if (scrollDirection === ScrollDirection.Both) {\n        var startTop = measurements[start].start.top;\n        while (start - 1 >= 0 &&\n            measurements[start - 1].start.top === startTop &&\n            measurements[start - 1].start.left >= scrollOffset.left) {\n            start--;\n        }\n    }\n    var end = start;\n    while (end <= size) {\n        var topLeftCorner = {\n            top: measurements[end].start.top - scrollOffset.top,\n            left: measurements[end].start.left - scrollOffset.left,\n        };\n        var visibleSize = {\n            height: outerSize.height - topLeftCorner.top,\n            width: outerSize.width - topLeftCorner.left,\n        };\n        if (scrollDirection === ScrollDirection.Horizontal && visibleSize.width < 0) {\n            break;\n        }\n        if (scrollDirection === ScrollDirection.Vertical && visibleSize.height < 0) {\n            break;\n        }\n        if (scrollDirection === ScrollDirection.Both && (visibleSize.width < 0 || visibleSize.height < 0)) {\n            break;\n        }\n        end++;\n    }\n    return {\n        start: start,\n        end: end,\n    };\n};\n\nvar ZERO_OFFSET$5 = {\n    left: 0,\n    top: 0,\n};\nvar measure = function (numberOfItems, parentRect, sizes, scrollMode) {\n    var measurements = [];\n    var totalWidth = 0;\n    var firstOfRow = {\n        left: 0,\n        top: 0,\n    };\n    var maxHeight = 0;\n    var start = ZERO_OFFSET$5;\n    for (var i = 0; i < numberOfItems; i++) {\n        var size = sizes[i];\n        if (i === 0) {\n            totalWidth = size.width;\n            firstOfRow = {\n                left: 0,\n                top: 0,\n            };\n            maxHeight = size.height;\n        }\n        else {\n            switch (scrollMode) {\n                case exports.ScrollMode.Wrapped:\n                    totalWidth += size.width;\n                    if (totalWidth < parentRect.width) {\n                        start = {\n                            left: measurements[i - 1].end.left,\n                            top: firstOfRow.top,\n                        };\n                        maxHeight = Math.max(maxHeight, size.height);\n                    }\n                    else {\n                        totalWidth = size.width;\n                        start = {\n                            left: firstOfRow.left,\n                            top: firstOfRow.top + maxHeight,\n                        };\n                        firstOfRow = {\n                            left: start.left,\n                            top: start.top,\n                        };\n                        maxHeight = size.height;\n                    }\n                    break;\n                case exports.ScrollMode.Horizontal:\n                case exports.ScrollMode.Vertical:\n                default:\n                    start = measurements[i - 1].end;\n                    break;\n            }\n        }\n        var end = {\n            left: start.left + size.width,\n            top: start.top + size.height,\n        };\n        measurements[i] = {\n            index: i,\n            start: start,\n            size: size,\n            end: end,\n            visibility: -1,\n        };\n    }\n    return measurements;\n};\n\nvar ZERO_OFFSET$4 = {\n    left: 0,\n    top: 0,\n};\nvar measureDualPage = function (numberOfItems, parentRect, sizes, scrollMode) {\n    var measurements = [];\n    var top = 0;\n    var maxHeight = 0;\n    var start = ZERO_OFFSET$4;\n    for (var i = 0; i < numberOfItems; i++) {\n        var size = {\n            height: scrollMode === exports.ScrollMode.Page ? Math.max(parentRect.height, sizes[i].height) : sizes[i].height,\n            width: Math.max(parentRect.width / 2, sizes[i].width),\n        };\n        if (scrollMode === exports.ScrollMode.Page) {\n            start = {\n                left: i % 2 === 0 ? 0 : size.width,\n                top: Math.floor(i / 2) * size.height,\n            };\n        }\n        else {\n            if (i % 2 === 0) {\n                top = top + maxHeight;\n                start = {\n                    left: 0,\n                    top: top,\n                };\n                maxHeight = i === numberOfItems - 1 ? sizes[i].height : Math.max(sizes[i].height, sizes[i + 1].height);\n            }\n            else {\n                start = {\n                    left: measurements[i - 1].end.left,\n                    top: top,\n                };\n            }\n        }\n        var end = {\n            left: start.left + size.width,\n            top: start.top + size.height,\n        };\n        measurements[i] = {\n            index: i,\n            start: start,\n            size: size,\n            end: end,\n            visibility: -1,\n        };\n    }\n    return measurements;\n};\n\nvar ZERO_OFFSET$3 = {\n    left: 0,\n    top: 0,\n};\nvar measureDualPageWithCover = function (numberOfItems, parentRect, sizes, scrollMode) {\n    var measurements = [];\n    var top = 0;\n    var maxHeight = 0;\n    var start = ZERO_OFFSET$3;\n    for (var i = 0; i < numberOfItems; i++) {\n        var size = i === 0\n            ? {\n                height: scrollMode === exports.ScrollMode.Page\n                    ? Math.max(parentRect.height, sizes[i].height)\n                    : sizes[i].height,\n                width: scrollMode === exports.ScrollMode.Page ? Math.max(parentRect.width, sizes[i].width) : sizes[i].width,\n            }\n            : {\n                height: scrollMode === exports.ScrollMode.Page\n                    ? Math.max(parentRect.height, sizes[i].height)\n                    : sizes[i].height,\n                width: Math.max(parentRect.width / 2, sizes[i].width),\n            };\n        if (scrollMode === exports.ScrollMode.Page) {\n            start =\n                i === 0\n                    ? ZERO_OFFSET$3\n                    : {\n                        left: i % 2 === 0 ? size.width : 0,\n                        top: Math.floor((i - 1) / 2) * size.height + measurements[0].end.top,\n                    };\n        }\n        else {\n            if (i === 0) {\n                start = ZERO_OFFSET$3;\n                top = sizes[0].height;\n                maxHeight = 0;\n            }\n            else if (i % 2 === 1) {\n                top = top + maxHeight;\n                start = {\n                    left: 0,\n                    top: top,\n                };\n                maxHeight = i === numberOfItems - 1 ? sizes[i].height : Math.max(sizes[i].height, sizes[i + 1].height);\n            }\n            else {\n                start = {\n                    left: measurements[i - 1].end.left,\n                    top: top,\n                };\n            }\n        }\n        var end = {\n            left: start.left + size.width,\n            top: start.top + size.height,\n        };\n        measurements[i] = {\n            index: i,\n            start: start,\n            size: size,\n            end: end,\n            visibility: -1,\n        };\n    }\n    return measurements;\n};\n\nvar ZERO_OFFSET$2 = {\n    left: 0,\n    top: 0,\n};\nvar measureSinglePage = function (numberOfItems, parentRect, sizes) {\n    var measurements = [];\n    for (var i = 0; i < numberOfItems; i++) {\n        var size = {\n            height: Math.max(parentRect.height, sizes[i].height),\n            width: Math.max(parentRect.width, sizes[i].width),\n        };\n        var start = i === 0 ? ZERO_OFFSET$2 : measurements[i - 1].end;\n        var end = {\n            left: start.left + size.width,\n            top: start.top + size.height,\n        };\n        measurements[i] = {\n            index: i,\n            start: start,\n            size: size,\n            end: end,\n            visibility: -1,\n        };\n    }\n    return measurements;\n};\n\nvar ZERO_RECT$2 = {\n    height: 0,\n    width: 0,\n};\nvar ZERO_OFFSET$1 = {\n    left: 0,\n    top: 0,\n};\nvar COMPARE_EPSILON = 0.000000000001;\nvar VIRTUAL_INDEX_ATTR = 'data-virtual-index';\nvar IO_THRESHOLD = [0, 0.1, 0.2, 0.3, 0.4, 0.5, 0.6, 0.7, 0.8, 0.9, 1];\nvar useVirtual = function (_a) {\n    var enableSmoothScroll = _a.enableSmoothScroll, isRtl = _a.isRtl, numberOfItems = _a.numberOfItems, parentRef = _a.parentRef, setRenderRange = _a.setRenderRange, sizes = _a.sizes, scrollMode = _a.scrollMode, viewMode = _a.viewMode;\n    var _b = React__namespace.useState(false), isSmoothScrolling = _b[0], setSmoothScrolling = _b[1];\n    var onSmoothScroll = React__namespace.useCallback(function (isSmoothScrolling) { return setSmoothScrolling(isSmoothScrolling); }, []);\n    var scrollModeRef = React__namespace.useRef(scrollMode);\n    scrollModeRef.current = scrollMode;\n    var viewModeRef = React__namespace.useRef(viewMode);\n    viewModeRef.current = viewMode;\n    var scrollDirection = scrollMode === exports.ScrollMode.Wrapped || viewMode === exports.ViewMode.DualPageWithCover || viewMode === exports.ViewMode.DualPage\n        ? ScrollDirection.Both\n        : scrollMode === exports.ScrollMode.Horizontal\n            ? ScrollDirection.Horizontal\n            : ScrollDirection.Vertical;\n    var _c = useScroll({\n        elementRef: parentRef,\n        enableSmoothScroll: enableSmoothScroll,\n        isRtl: isRtl,\n        scrollDirection: scrollDirection,\n        onSmoothScroll: onSmoothScroll,\n    }), scrollOffset = _c.scrollOffset, scrollTo = _c.scrollTo;\n    var parentRect = useMeasureRect({\n        elementRef: parentRef,\n    });\n    var latestRef = React__namespace.useRef({\n        scrollOffset: ZERO_OFFSET$1,\n        measurements: [],\n    });\n    latestRef.current.scrollOffset = scrollOffset;\n    var defaultVisibilities = React__namespace.useMemo(function () { return Array(numberOfItems).fill(-1); }, []);\n    var _d = React__namespace.useState(defaultVisibilities), visibilities = _d[0], setVisibilities = _d[1];\n    var intersectionTracker = React__namespace.useMemo(function () {\n        var io = new IntersectionObserver(function (entries) {\n            entries.forEach(function (entry) {\n                var ratio = entry.isIntersecting ? entry.intersectionRatio : -1;\n                var target = entry.target;\n                var indexAttribute = target.getAttribute(VIRTUAL_INDEX_ATTR);\n                if (!indexAttribute) {\n                    return;\n                }\n                var index = parseInt(indexAttribute, 10);\n                if (0 <= index && index < numberOfItems) {\n                    setVisibilities(function (old) {\n                        old[index] = ratio;\n                        return __spreadArray([], old, true);\n                    });\n                }\n            });\n        }, {\n            threshold: IO_THRESHOLD,\n        });\n        return io;\n    }, []);\n    var measurements = React__namespace.useMemo(function () {\n        if (scrollMode === exports.ScrollMode.Page && viewMode === exports.ViewMode.SinglePage) {\n            return measureSinglePage(numberOfItems, parentRect, sizes);\n        }\n        if (viewMode === exports.ViewMode.DualPageWithCover) {\n            return measureDualPageWithCover(numberOfItems, parentRect, sizes, scrollMode);\n        }\n        if (viewMode === exports.ViewMode.DualPage) {\n            return measureDualPage(numberOfItems, parentRect, sizes, scrollMode);\n        }\n        return measure(numberOfItems, parentRect, sizes, scrollMode);\n    }, [scrollMode, sizes, viewMode, parentRect]);\n    var totalSize = measurements[numberOfItems - 1]\n        ? {\n            height: measurements[numberOfItems - 1].end.top,\n            width: measurements[numberOfItems - 1].end.left,\n        }\n        : ZERO_RECT$2;\n    latestRef.current.measurements = measurements;\n    var _e = React__namespace.useMemo(function () {\n        var _a = calculateRange(scrollDirection, measurements, parentRect, scrollOffset), start = _a.start, end = _a.end;\n        var visiblePageVisibilities = visibilities.slice(clamp(0, numberOfItems, start), clamp(0, numberOfItems, end));\n        var maxVisbilityItem = start + indexOfMax(visiblePageVisibilities);\n        maxVisbilityItem = clamp(0, numberOfItems - 1, maxVisbilityItem);\n        var maxVisbilityIndex = maxVisbilityItem;\n        var _b = setRenderRange({\n            endPage: end,\n            numPages: numberOfItems,\n            startPage: start,\n        }), startPage = _b.startPage, endPage = _b.endPage;\n        startPage = Math.max(startPage, 0);\n        endPage = Math.min(endPage, numberOfItems - 1);\n        switch (viewMode) {\n            case exports.ViewMode.DualPageWithCover:\n                if (maxVisbilityItem > 0) {\n                    maxVisbilityIndex = maxVisbilityItem % 2 === 1 ? maxVisbilityItem : maxVisbilityItem - 1;\n                }\n                startPage = startPage === 0 ? 0 : startPage % 2 === 1 ? startPage : startPage - 1;\n                endPage = endPage % 2 === 1 ? endPage - 1 : endPage;\n                if (numberOfItems - endPage <= 2) {\n                    endPage = numberOfItems - 1;\n                }\n                break;\n            case exports.ViewMode.DualPage:\n                maxVisbilityIndex = maxVisbilityItem % 2 === 0 ? maxVisbilityItem : maxVisbilityItem - 1;\n                startPage = startPage % 2 === 0 ? startPage : startPage - 1;\n                endPage = endPage % 2 === 1 ? endPage : endPage - 1;\n                break;\n            case exports.ViewMode.SinglePage:\n            default:\n                maxVisbilityIndex = maxVisbilityItem;\n                break;\n        }\n        return {\n            startPage: startPage,\n            endPage: endPage,\n            maxVisbilityIndex: maxVisbilityIndex,\n        };\n    }, [measurements, parentRect, scrollOffset, viewMode, visibilities]), startPage = _e.startPage, endPage = _e.endPage, maxVisbilityIndex = _e.maxVisbilityIndex;\n    var virtualItems = React__namespace.useMemo(function () {\n        var virtualItems = [];\n        var _loop_1 = function (i) {\n            var item = measurements[i];\n            var virtualItem = __assign(__assign({}, item), { visibility: visibilities[i] !== undefined ? visibilities[i] : -1, measureRef: function (ele) {\n                    if (!ele) {\n                        return;\n                    }\n                    ele.setAttribute(VIRTUAL_INDEX_ATTR, \"\".concat(i));\n                    intersectionTracker.observe(ele);\n                } });\n            virtualItems.push(virtualItem);\n        };\n        for (var i = startPage; i <= endPage; i++) {\n            _loop_1(i);\n        }\n        return virtualItems;\n    }, [startPage, endPage, visibilities, measurements]);\n    var scrollToItem = React__namespace.useCallback(function (index, offset) {\n        var measurements = latestRef.current.measurements;\n        var normalizedIndex = clamp(0, numberOfItems - 1, index);\n        var measurement = measurements[normalizedIndex];\n        var withOffset = scrollModeRef.current === exports.ScrollMode.Page ? ZERO_OFFSET$1 : offset;\n        return measurement\n            ? scrollTo({\n                left: withOffset.left + measurement.start.left,\n                top: withOffset.top + measurement.start.top,\n            }, enableSmoothScroll)\n            : Promise.resolve();\n    }, [scrollTo, enableSmoothScroll]);\n    var scrollToSmallestItemAbove = React__namespace.useCallback(function (index, offset) {\n        var measurements = latestRef.current.measurements;\n        var start = measurements[index].start;\n        var nextItem = measurements.find(function (item) { return item.start.top - start.top > COMPARE_EPSILON; });\n        if (!nextItem) {\n            return Promise.resolve();\n        }\n        var nextIndex = nextItem.index;\n        switch (viewModeRef.current) {\n            case exports.ViewMode.DualPage:\n                nextIndex = nextIndex % 2 === 0 ? nextIndex : nextIndex + 1;\n                break;\n            case exports.ViewMode.DualPageWithCover:\n                nextIndex = nextIndex % 2 === 1 ? nextIndex : nextIndex + 1;\n                break;\n        }\n        return scrollToItem(nextIndex, offset);\n    }, []);\n    var scrollToBiggestItemBelow = React__namespace.useCallback(function (index, offset) {\n        var measurements = latestRef.current.measurements;\n        var start = measurements[index].start;\n        var prevIndex = index;\n        var found = false;\n        for (var i = numberOfItems - 1; i >= 0; i--) {\n            if (start.top - measurements[i].start.top > COMPARE_EPSILON) {\n                found = true;\n                prevIndex = measurements[i].index;\n                break;\n            }\n        }\n        if (!found) {\n            return Promise.resolve();\n        }\n        switch (viewModeRef.current) {\n            case exports.ViewMode.DualPage:\n                prevIndex = prevIndex % 2 === 0 ? prevIndex : prevIndex - 1;\n                break;\n            case exports.ViewMode.DualPageWithCover:\n                prevIndex = prevIndex % 2 === 0 ? prevIndex - 1 : prevIndex;\n                break;\n        }\n        if (prevIndex === index) {\n            prevIndex = index - 1;\n        }\n        return scrollToItem(prevIndex, offset);\n    }, []);\n    var scrollToNextItem = React__namespace.useCallback(function (index, offset) {\n        if (viewModeRef.current === exports.ViewMode.DualPageWithCover || viewModeRef.current === exports.ViewMode.DualPage) {\n            return scrollToSmallestItemAbove(index, offset);\n        }\n        switch (scrollModeRef.current) {\n            case exports.ScrollMode.Wrapped:\n                return scrollToSmallestItemAbove(index, offset);\n            case exports.ScrollMode.Horizontal:\n            case exports.ScrollMode.Vertical:\n            default:\n                return scrollToItem(index + 1, offset);\n        }\n    }, []);\n    var scrollToPreviousItem = React__namespace.useCallback(function (index, offset) {\n        if (viewModeRef.current === exports.ViewMode.DualPageWithCover || viewModeRef.current === exports.ViewMode.DualPage) {\n            return scrollToBiggestItemBelow(index, offset);\n        }\n        switch (scrollModeRef.current) {\n            case exports.ScrollMode.Wrapped:\n                return scrollToBiggestItemBelow(index, offset);\n            case exports.ScrollMode.Horizontal:\n            case exports.ScrollMode.Vertical:\n            default:\n                return scrollToItem(index - 1, offset);\n        }\n    }, []);\n    var getContainerStyles = React__namespace.useCallback(function () { return buildContainerStyles(totalSize, scrollModeRef.current); }, [totalSize]);\n    var getItemContainerStyles = React__namespace.useCallback(function (item) { return buildItemContainerStyles(item, parentRect, scrollModeRef.current); }, [parentRect]);\n    var getItemStyles = React__namespace.useCallback(function (item) { return buildItemStyles(item, isRtl, sizes, viewModeRef.current, scrollModeRef.current); }, [isRtl, sizes]);\n    var zoom = React__namespace.useCallback(function (scale, index) {\n        var _a = latestRef.current, measurements = _a.measurements, scrollOffset = _a.scrollOffset;\n        var normalizedIndex = clamp(0, numberOfItems - 1, index);\n        var measurement = measurements[normalizedIndex];\n        if (measurement) {\n            var updateOffset = scrollModeRef.current === exports.ScrollMode.Page\n                ? {\n                    left: measurement.start.left,\n                    top: measurement.start.top,\n                }\n                : {\n                    left: scrollOffset.left * scale,\n                    top: scrollOffset.top * scale,\n                };\n            return scrollTo(updateOffset, false);\n        }\n        return Promise.resolve();\n    }, []);\n    React__namespace.useEffect(function () {\n        return function () {\n            intersectionTracker.disconnect();\n        };\n    }, []);\n    return {\n        boundingClientRect: parentRect,\n        isSmoothScrolling: isSmoothScrolling,\n        startPage: startPage,\n        endPage: endPage,\n        maxVisbilityIndex: maxVisbilityIndex,\n        virtualItems: virtualItems,\n        getContainerStyles: getContainerStyles,\n        getItemContainerStyles: getItemContainerStyles,\n        getItemStyles: getItemStyles,\n        scrollToItem: scrollToItem,\n        scrollToNextItem: scrollToNextItem,\n        scrollToPreviousItem: scrollToPreviousItem,\n        zoom: zoom,\n    };\n};\n\nvar SCROLL_BAR_WIDTH = 17;\nvar PAGE_PADDING = 8;\nvar calculateScale = function (container, pageHeight, pageWidth, scale, viewMode, numPages) {\n    var w = pageWidth;\n    switch (true) {\n        case viewMode === exports.ViewMode.DualPageWithCover && numPages >= 3:\n        case viewMode === exports.ViewMode.DualPage && numPages >= 3:\n            w = 2 * pageWidth;\n            break;\n        default:\n            w = pageWidth;\n            break;\n    }\n    switch (scale) {\n        case exports.SpecialZoomLevel.ActualSize:\n            return 1;\n        case exports.SpecialZoomLevel.PageFit:\n            return Math.min((container.clientWidth - SCROLL_BAR_WIDTH) / w, (container.clientHeight - 2 * PAGE_PADDING) / pageHeight);\n        case exports.SpecialZoomLevel.PageWidth:\n            return (container.clientWidth - SCROLL_BAR_WIDTH) / w;\n    }\n};\n\nvar useStack = function (maxLength) {\n    var stackRef = React__namespace.useRef([]);\n    var map = function (transformer) {\n        return stackRef.current.map(function (item) { return transformer(item); });\n    };\n    var pop = function () {\n        var stack = stackRef.current;\n        var size = stack.length;\n        if (size === 0) {\n            return null;\n        }\n        var lastItem = stack.pop();\n        stackRef.current = stack;\n        return lastItem;\n    };\n    var push = function (item) {\n        var stack = stackRef.current;\n        if (stack.length + 1 > maxLength) {\n            stack.shift();\n        }\n        stack.push(item);\n        stackRef.current = stack;\n    };\n    React__namespace.useEffect(function () {\n        return function () {\n            stackRef.current = [];\n        };\n    }, []);\n    return {\n        push: push,\n        map: map,\n        pop: pop,\n    };\n};\n\nvar useQueue = function (maxLength) {\n    var queueRef = React__namespace.useRef([]);\n    var dequeue = function () {\n        var queue = queueRef.current;\n        var size = queue.length;\n        if (size === 0) {\n            return null;\n        }\n        var firstItem = queue.shift();\n        queueRef.current = queue;\n        return firstItem || null;\n    };\n    var enqueue = function (item) {\n        var queue = queueRef.current;\n        if (queue.length + 1 > maxLength) {\n            queue.pop();\n        }\n        queueRef.current = [item].concat(queue);\n    };\n    var map = function (transformer) {\n        return queueRef.current.map(function (item) { return transformer(item); });\n    };\n    React__namespace.useEffect(function () {\n        return function () {\n            queueRef.current = [];\n        };\n    }, []);\n    return {\n        dequeue: dequeue,\n        enqueue: enqueue,\n        map: map,\n    };\n};\n\nvar MAX_QUEUE_LENGTH = 50;\nvar useDestination = function (_a) {\n    var getCurrentPage = _a.getCurrentPage;\n    var previousDestinations = useStack(MAX_QUEUE_LENGTH);\n    var nextDestinations = useQueue(MAX_QUEUE_LENGTH);\n    var getNextDestination = function () {\n        var nextDest = nextDestinations.dequeue();\n        if (nextDest) {\n            previousDestinations.push(nextDest);\n        }\n        if (nextDest && nextDest.pageIndex === getCurrentPage()) {\n            return getNextDestination();\n        }\n        return nextDest;\n    };\n    var getPreviousDestination = function () {\n        var prevDest = previousDestinations.pop();\n        if (prevDest) {\n            nextDestinations.enqueue(prevDest);\n        }\n        if (prevDest && prevDest.pageIndex === getCurrentPage()) {\n            return getPreviousDestination();\n        }\n        return prevDest;\n    };\n    var markVisitedDestination = React__namespace.useCallback(function (destination) {\n        previousDestinations.push(destination);\n    }, []);\n    return {\n        getNextDestination: getNextDestination,\n        getPreviousDestination: getPreviousDestination,\n        markVisitedDestination: markVisitedDestination,\n    };\n};\n\nvar flaternSingleOutline = function (outline) {\n    var result = [];\n    if (outline.items && outline.items.length > 0) {\n        result = result.concat(flaternOutlines(outline.items));\n    }\n    return result;\n};\nvar flaternOutlines = function (outlines) {\n    var result = [];\n    outlines.map(function (outline) {\n        result = result.concat(outline).concat(flaternSingleOutline(outline));\n    });\n    return result;\n};\nvar useOutlines = function (doc) {\n    var isMounted = useIsMounted();\n    var _a = React__namespace.useState([]), outlines = _a[0], setOutlines = _a[1];\n    React__namespace.useEffect(function () {\n        doc.getOutline().then(function (result) {\n            if (isMounted.current && result !== null) {\n                var items = flaternOutlines(result);\n                setOutlines(items);\n            }\n        });\n    }, []);\n    return outlines;\n};\n\nvar RESIZE_EVENT_OPTIONS = {\n    capture: false,\n    passive: true,\n};\nvar ZERO_RECT$1 = {\n    height: 0,\n    width: 0,\n};\nvar useWindowResize = function () {\n    var _a = React__namespace.useState(ZERO_RECT$1), windowRect = _a[0], setWindowRect = _a[1];\n    var handleResize = useDebounceCallback(function () {\n        setWindowRect({\n            height: window.innerHeight,\n            width: window.innerWidth,\n        });\n    }, 100);\n    useIsomorphicLayoutEffect(function () {\n        window.addEventListener('resize', handleResize, RESIZE_EVENT_OPTIONS);\n        return function () {\n            window.removeEventListener('resize', handleResize, RESIZE_EVENT_OPTIONS);\n        };\n    }, []);\n    return windowRect;\n};\n\nvar ZERO_RECT = {\n    height: 0,\n    width: 0,\n};\nvar useFullScreen = function (_a) {\n    var getCurrentPage = _a.getCurrentPage, getCurrentScrollMode = _a.getCurrentScrollMode, jumpToPage = _a.jumpToPage, targetRef = _a.targetRef;\n    var _b = React__namespace.useState(exports.FullScreenMode.Normal), fullScreenMode = _b[0], setFullScreenMode = _b[1];\n    var windowRect = useWindowResize();\n    var _c = React__namespace.useState(ZERO_RECT), targetRect = _c[0], setTargetRect = _c[1];\n    var windowSizeBeforeFullScreenRef = React__namespace.useRef(ZERO_RECT);\n    var targetPageRef = React__namespace.useRef(getCurrentPage());\n    var fullScreenSizeRef = React__namespace.useRef(ZERO_RECT);\n    var _d = React__namespace.useState(targetRef.current), element = _d[0], setElement = _d[1];\n    var fullScreenElementRef = React__namespace.useRef();\n    useIsomorphicLayoutEffect(function () {\n        if (targetRef.current !== element) {\n            setElement(targetRef.current);\n        }\n    }, []);\n    useIsomorphicLayoutEffect(function () {\n        if (!element) {\n            return;\n        }\n        var io = new ResizeObserver(function (entries) {\n            entries.forEach(function (entry) {\n                var _a = entry.target.getBoundingClientRect(), height = _a.height, width = _a.width;\n                setTargetRect({ height: height, width: width });\n            });\n        });\n        io.observe(element);\n        return function () {\n            io.unobserve(element);\n            io.disconnect();\n        };\n    }, [element]);\n    var closeOtherFullScreen = React__namespace.useCallback(function (target) {\n        var currentFullScreenEle = getFullScreenElement();\n        if (currentFullScreenEle && currentFullScreenEle !== target) {\n            setFullScreenMode(exports.FullScreenMode.Normal);\n            return exitFullScreen(currentFullScreenEle);\n        }\n        return Promise.resolve();\n    }, []);\n    var enterFullScreenMode = React__namespace.useCallback(function (target) {\n        if (!target || !isFullScreenEnabled()) {\n            return;\n        }\n        setElement(target);\n        closeOtherFullScreen(target).then(function () {\n            fullScreenElementRef.current = target;\n            setFullScreenMode(exports.FullScreenMode.Entering);\n            requestFullScreen(target);\n        });\n    }, []);\n    var exitFullScreenMode = React__namespace.useCallback(function () {\n        var currentFullScreenEle = getFullScreenElement();\n        if (currentFullScreenEle) {\n            setFullScreenMode(exports.FullScreenMode.Exitting);\n            exitFullScreen(document);\n        }\n    }, []);\n    var handleFullScreenChange = React__namespace.useCallback(function () {\n        if (!element) {\n            return;\n        }\n        var currentFullScreenEle = getFullScreenElement();\n        if (currentFullScreenEle !== element) {\n            setFullScreenMode(exports.FullScreenMode.Exitting);\n        }\n    }, [element]);\n    React__namespace.useEffect(function () {\n        switch (fullScreenMode) {\n            case exports.FullScreenMode.Entering:\n                if (fullScreenElementRef.current) {\n                    fullScreenElementRef.current.style.backgroundColor =\n                        'var(--rpv-core__full-screen-target-background-color)';\n                }\n                targetPageRef.current = getCurrentPage();\n                windowSizeBeforeFullScreenRef.current = {\n                    height: window.innerHeight,\n                    width: window.innerWidth,\n                };\n                break;\n            case exports.FullScreenMode.Entered:\n                if (getCurrentScrollMode() === exports.ScrollMode.Page) {\n                    jumpToPage(targetPageRef.current).then(function () {\n                        setFullScreenMode(exports.FullScreenMode.EnteredCompletely);\n                    });\n                }\n                else {\n                    setFullScreenMode(exports.FullScreenMode.EnteredCompletely);\n                }\n                break;\n            case exports.FullScreenMode.Exitting:\n                if (fullScreenElementRef.current) {\n                    fullScreenElementRef.current.style.backgroundColor = '';\n                    fullScreenElementRef.current = null;\n                }\n                targetPageRef.current = getCurrentPage();\n                break;\n            case exports.FullScreenMode.Exited:\n                setFullScreenMode(exports.FullScreenMode.Normal);\n                if (getCurrentScrollMode() === exports.ScrollMode.Page) {\n                    jumpToPage(targetPageRef.current);\n                }\n                break;\n        }\n    }, [fullScreenMode]);\n    React__namespace.useEffect(function () {\n        if (fullScreenMode === exports.FullScreenMode.Normal) {\n            return;\n        }\n        if (fullScreenMode === exports.FullScreenMode.Entering &&\n            windowRect.height === targetRect.height &&\n            windowRect.width === targetRect.width &&\n            windowRect.height > 0 &&\n            windowRect.width > 0 &&\n            (fullScreenSizeRef.current.height === 0 || windowRect.height == fullScreenSizeRef.current.height)) {\n            fullScreenSizeRef.current = {\n                height: window.innerHeight,\n                width: window.innerWidth,\n            };\n            setFullScreenMode(exports.FullScreenMode.Entered);\n            return;\n        }\n        if (fullScreenMode === exports.FullScreenMode.Exitting &&\n            windowSizeBeforeFullScreenRef.current.height === windowRect.height &&\n            windowSizeBeforeFullScreenRef.current.width === windowRect.width &&\n            windowRect.height > 0 &&\n            windowRect.width > 0) {\n            setFullScreenMode(exports.FullScreenMode.Exited);\n        }\n    }, [fullScreenMode, windowRect, targetRect]);\n    React__namespace.useEffect(function () {\n        addFullScreenChangeListener(handleFullScreenChange);\n        return function () {\n            removeFullScreenChangeListener(handleFullScreenChange);\n        };\n    }, [element]);\n    return {\n        enterFullScreenMode: enterFullScreenMode,\n        exitFullScreenMode: exitFullScreenMode,\n        fullScreenMode: fullScreenMode,\n    };\n};\n\nvar DEFAULT_PAGE_LAYOUT = {\n    buildPageStyles: function () { return ({}); },\n    transformSize: function (_a) {\n        var size = _a.size;\n        return size;\n    },\n};\nvar ZERO_OFFSET = {\n    left: 0,\n    top: 0,\n};\nvar Inner = function (_a) {\n    var currentFile = _a.currentFile, defaultScale = _a.defaultScale, doc = _a.doc, enableSmoothScroll = _a.enableSmoothScroll, initialPage = _a.initialPage, initialRotation = _a.initialRotation, initialScale = _a.initialScale, pageLayout = _a.pageLayout, pageSizes = _a.pageSizes, plugins = _a.plugins, renderPage = _a.renderPage, scrollMode = _a.scrollMode, setRenderRange = _a.setRenderRange, viewMode = _a.viewMode, viewerState = _a.viewerState, onDocumentLoad = _a.onDocumentLoad, onOpenFile = _a.onOpenFile, onPageChange = _a.onPageChange, onRotate = _a.onRotate, onRotatePage = _a.onRotatePage, onZoom = _a.onZoom;\n    var numPages = doc.numPages;\n    var docId = doc.loadingTask.docId;\n    var l10n = React__namespace.useContext(LocalizationContext).l10n;\n    var themeContext = React__namespace.useContext(ThemeContext);\n    var isRtl = themeContext.direction === exports.TextDirection.RightToLeft;\n    var containerRef = React__namespace.useRef();\n    var pagesRef = React__namespace.useRef();\n    var _b = React__namespace.useState(initialPage), currentPage = _b[0], setCurrentPage = _b[1];\n    var mostRecentVisitedRef = React__namespace.useRef(null);\n    var destinationManager = useDestination({\n        getCurrentPage: function () { return stateRef.current.pageIndex; },\n    });\n    var _c = React__namespace.useState(initialRotation), rotation = _c[0], setRotation = _c[1];\n    var previousRotation = usePrevious(rotation);\n    var _d = React__namespace.useState(false), pagesRotationChanged = _d[0], setPagesRotationChanged = _d[1];\n    var _e = React__namespace.useState(new Map()), pagesRotation = _e[0], setPagesRotation = _e[1];\n    var _f = React__namespace.useState(scrollMode), currentScrollMode = _f[0], setCurrentScrollMode = _f[1];\n    var previousScrollMode = usePrevious(currentScrollMode);\n    var _g = React__namespace.useState(viewMode), currentViewMode = _g[0], setCurrentViewMode = _g[1];\n    var previousViewMode = usePrevious(currentViewMode);\n    var outlines = useOutlines(doc);\n    var _h = React__namespace.useState(initialScale), scale = _h[0], setScale = _h[1];\n    var previousScale = usePrevious(scale);\n    var stateRef = React__namespace.useRef(viewerState);\n    var keepSpecialZoomLevelRef = React__namespace.useRef(typeof defaultScale === 'string' ? defaultScale : null);\n    var forceTargetFullScreenRef = React__namespace.useRef(-1);\n    var forceTargetZoomRef = React__namespace.useRef(-1);\n    var forceTargetInitialPageRef = React__namespace.useRef(initialPage);\n    var fullScreen = useFullScreen({\n        getCurrentPage: function () { return stateRef.current.pageIndex; },\n        getCurrentScrollMode: function () { return stateRef.current.scrollMode; },\n        jumpToPage: function (pageIndex) { return jumpToPage(pageIndex); },\n        targetRef: pagesRef,\n    });\n    var _j = React__namespace.useState(-1), renderPageIndex = _j[0], setRenderPageIndex = _j[1];\n    var _k = React__namespace.useState(0), renderQueueKey = _k[0], setRenderQueueKey = _k[1];\n    var renderQueue = useRenderQueue({ doc: doc });\n    React__namespace.useEffect(function () {\n        return function () {\n            clearPagesCache();\n        };\n    }, [docId]);\n    var layoutBuilder = React__namespace.useMemo(function () { return Object.assign({}, DEFAULT_PAGE_LAYOUT, pageLayout); }, []);\n    var sizes = React__namespace.useMemo(function () {\n        return Array(numPages)\n            .fill(0)\n            .map(function (_, pageIndex) {\n            var pageSize = [pageSizes[pageIndex].pageHeight, pageSizes[pageIndex].pageWidth];\n            var rect = Math.abs(rotation) % 180 === 0\n                ? {\n                    height: pageSize[0],\n                    width: pageSize[1],\n                }\n                : {\n                    height: pageSize[1],\n                    width: pageSize[0],\n                };\n            var pageRect = {\n                height: rect.height * scale,\n                width: rect.width * scale,\n            };\n            return layoutBuilder.transformSize({ numPages: numPages, pageIndex: pageIndex, size: pageRect });\n        });\n    }, [rotation, scale]);\n    var virtualizer = useVirtual({\n        enableSmoothScroll: enableSmoothScroll,\n        isRtl: isRtl,\n        numberOfItems: numPages,\n        parentRef: pagesRef,\n        scrollMode: currentScrollMode,\n        setRenderRange: setRenderRange,\n        sizes: sizes,\n        viewMode: currentViewMode,\n    });\n    var handlePagesResize = useDebounceCallback(function () {\n        if (!keepSpecialZoomLevelRef.current ||\n            stateRef.current.fullScreenMode !== exports.FullScreenMode.Normal ||\n            (initialPage > 0 && forceTargetInitialPageRef.current === initialPage)) {\n            return;\n        }\n        zoom(keepSpecialZoomLevelRef.current);\n    }, 200);\n    useTrackResize({\n        targetRef: pagesRef,\n        onResize: handlePagesResize,\n    });\n    var setViewerState = function (viewerState) {\n        var newState = viewerState;\n        plugins.forEach(function (plugin) {\n            if (plugin.onViewerStateChange) {\n                newState = plugin.onViewerStateChange(newState);\n            }\n        });\n        stateRef.current = newState;\n    };\n    var getPagesContainer = function () { return pagesRef.current; };\n    var getViewerState = function () { return stateRef.current; };\n    var handleJumpFromLinkAnnotation = React__namespace.useCallback(function (destination) {\n        destinationManager.markVisitedDestination(destination);\n    }, []);\n    var handleJumpToDestination = React__namespace.useCallback(function (destination) {\n        var pageIndex = destination.pageIndex, bottomOffset = destination.bottomOffset, leftOffset = destination.leftOffset, scaleTo = destination.scaleTo;\n        var pagesContainer = pagesRef.current;\n        var currentState = stateRef.current;\n        if (!pagesContainer || !currentState) {\n            return Promise.resolve();\n        }\n        return new Promise(function (resolve, _) {\n            getPage(doc, pageIndex).then(function (page) {\n                var viewport = page.getViewport({ scale: 1 });\n                var top = 0;\n                var bottom = (typeof bottomOffset === 'function'\n                    ? bottomOffset(viewport.width, viewport.height)\n                    : bottomOffset) || 0;\n                var left = (typeof leftOffset === 'function' ? leftOffset(viewport.width, viewport.height) : leftOffset) || 0;\n                var updateScale = currentState.scale;\n                switch (scaleTo) {\n                    case exports.SpecialZoomLevel.PageFit:\n                        top = 0;\n                        left = 0;\n                        zoom(exports.SpecialZoomLevel.PageFit);\n                        break;\n                    case exports.SpecialZoomLevel.PageWidth:\n                        updateScale = calculateScale(pagesContainer, pageSizes[pageIndex].pageHeight, pageSizes[pageIndex].pageWidth, exports.SpecialZoomLevel.PageWidth, viewMode, numPages);\n                        top = (viewport.height - bottom) * updateScale;\n                        left = left * updateScale;\n                        zoom(updateScale);\n                        break;\n                    default:\n                        top = (viewport.height - bottom) * updateScale;\n                        left = left * updateScale;\n                        break;\n                }\n                switch (currentState.scrollMode) {\n                    case exports.ScrollMode.Horizontal:\n                        virtualizer.scrollToItem(pageIndex, { left: left, top: 0 }).then(function () {\n                            resolve();\n                        });\n                        break;\n                    case exports.ScrollMode.Vertical:\n                    default:\n                        virtualizer.scrollToItem(pageIndex, { left: 0, top: top }).then(function () {\n                            resolve();\n                        });\n                        break;\n                }\n            });\n        });\n    }, []);\n    var jumpToDestination = React__namespace.useCallback(function (destination) {\n        destinationManager.markVisitedDestination(destination);\n        return handleJumpToDestination(destination);\n    }, []);\n    var jumpToNextDestination = React__namespace.useCallback(function () {\n        var nextDestination = destinationManager.getNextDestination();\n        return nextDestination ? handleJumpToDestination(nextDestination) : Promise.resolve();\n    }, []);\n    var jumpToPreviousDestination = React__namespace.useCallback(function () {\n        var lastDestination = destinationManager.getPreviousDestination();\n        return lastDestination ? handleJumpToDestination(lastDestination) : Promise.resolve();\n    }, []);\n    var jumpToNextPage = React__namespace.useCallback(function () { return virtualizer.scrollToNextItem(stateRef.current.pageIndex, ZERO_OFFSET); }, []);\n    var jumpToPage = React__namespace.useCallback(function (pageIndex) {\n        return 0 <= pageIndex && pageIndex < numPages\n            ? virtualizer.scrollToItem(pageIndex, ZERO_OFFSET)\n            : Promise.resolve();\n    }, []);\n    var jumpToPreviousPage = React__namespace.useCallback(function () { return virtualizer.scrollToPreviousItem(stateRef.current.pageIndex, ZERO_OFFSET); }, []);\n    var openFile = React__namespace.useCallback(function (file) {\n        if (getFileExt(file.name).toLowerCase() !== 'pdf') {\n            return;\n        }\n        new Promise(function (resolve) {\n            var reader = new FileReader();\n            reader.readAsArrayBuffer(file);\n            reader.onload = function () {\n                var bytes = new Uint8Array(reader.result);\n                resolve(bytes);\n            };\n        }).then(function (data) {\n            onOpenFile(file.name, data);\n        });\n    }, [onOpenFile]);\n    var rotate = React__namespace.useCallback(function (direction) {\n        var degrees = direction === exports.RotateDirection.Backward ? -90 : 90;\n        var currentRotation = stateRef.current.rotation;\n        var updateRotation = currentRotation === 360 || currentRotation === -360 ? degrees : currentRotation + degrees;\n        renderQueue.markNotRendered();\n        setRotation(updateRotation);\n        setViewerState(__assign(__assign({}, stateRef.current), { rotation: updateRotation }));\n        onRotate({ direction: direction, doc: doc, rotation: updateRotation });\n    }, []);\n    var rotatePage = React__namespace.useCallback(function (pageIndex, direction) {\n        var degrees = direction === exports.RotateDirection.Backward ? -90 : 90;\n        var rotations = stateRef.current.pagesRotation;\n        var currentPageRotation = rotations.has(pageIndex) ? rotations.get(pageIndex) : initialRotation;\n        var finalRotation = currentPageRotation + degrees;\n        var updateRotations = rotations.set(pageIndex, finalRotation);\n        setPagesRotation(updateRotations);\n        setPagesRotationChanged(function (value) { return !value; });\n        setViewerState(__assign(__assign({}, stateRef.current), { pagesRotation: updateRotations, rotatedPage: pageIndex }));\n        onRotatePage({ direction: direction, doc: doc, pageIndex: pageIndex, rotation: finalRotation });\n        renderQueue.markRendering(pageIndex);\n        setRenderPageIndex(pageIndex);\n    }, []);\n    var switchScrollMode = React__namespace.useCallback(function (scrollMode) {\n        setViewerState(__assign(__assign({}, stateRef.current), { scrollMode: scrollMode }));\n        setCurrentScrollMode(scrollMode);\n    }, []);\n    var switchViewMode = React__namespace.useCallback(function (viewMode) {\n        setViewerState(__assign(__assign({}, stateRef.current), { viewMode: viewMode }));\n        setCurrentViewMode(viewMode);\n    }, []);\n    var zoom = React__namespace.useCallback(function (newScale) {\n        var pagesEle = pagesRef.current;\n        var currentPage = stateRef.current.pageIndex;\n        if (currentPage < 0 || currentPage >= numPages) {\n            return;\n        }\n        var currentPageHeight = pageSizes[currentPage].pageHeight;\n        var currentPageWidth = pageSizes[currentPage].pageWidth;\n        var updateScale = pagesEle\n            ? typeof newScale === 'string'\n                ? calculateScale(pagesEle, currentPageHeight, currentPageWidth, newScale, stateRef.current.viewMode, numPages)\n                : newScale\n            : 1;\n        keepSpecialZoomLevelRef.current = typeof newScale === 'string' ? newScale : null;\n        if (updateScale === stateRef.current.scale) {\n            return;\n        }\n        setRenderQueueKey(function (key) { return key + 1; });\n        renderQueue.markNotRendered();\n        setScale(updateScale);\n        onZoom({ doc: doc, scale: updateScale });\n        setViewerState(__assign(__assign({}, stateRef.current), { scale: updateScale }));\n    }, []);\n    var enterFullScreenMode = React__namespace.useCallback(function (target) {\n        fullScreen.enterFullScreenMode(target);\n    }, []);\n    var exitFullScreenMode = React__namespace.useCallback(function () {\n        fullScreen.exitFullScreenMode();\n    }, []);\n    React__namespace.useEffect(function () {\n        setViewerState(__assign(__assign({}, stateRef.current), { fullScreenMode: fullScreen.fullScreenMode }));\n    }, [fullScreen.fullScreenMode]);\n    React__namespace.useEffect(function () {\n        var pluginMethods = {\n            enterFullScreenMode: enterFullScreenMode,\n            exitFullScreenMode: exitFullScreenMode,\n            getPagesContainer: getPagesContainer,\n            getViewerState: getViewerState,\n            jumpToDestination: jumpToDestination,\n            jumpToNextDestination: jumpToNextDestination,\n            jumpToPreviousDestination: jumpToPreviousDestination,\n            jumpToNextPage: jumpToNextPage,\n            jumpToPreviousPage: jumpToPreviousPage,\n            jumpToPage: jumpToPage,\n            openFile: openFile,\n            rotate: rotate,\n            rotatePage: rotatePage,\n            setViewerState: setViewerState,\n            switchScrollMode: switchScrollMode,\n            switchViewMode: switchViewMode,\n            zoom: zoom,\n        };\n        plugins.forEach(function (plugin) {\n            if (plugin.install) {\n                plugin.install(pluginMethods);\n            }\n        });\n        return function () {\n            plugins.forEach(function (plugin) {\n                if (plugin.uninstall) {\n                    plugin.uninstall(pluginMethods);\n                }\n            });\n        };\n    }, [docId]);\n    React__namespace.useEffect(function () {\n        onDocumentLoad({ doc: doc, file: currentFile });\n        plugins.forEach(function (plugin) {\n            plugin.onDocumentLoad && plugin.onDocumentLoad({ doc: doc, file: currentFile });\n        });\n    }, [docId]);\n    var boundingClientRect = virtualizer.boundingClientRect;\n    useRunOnce(function () {\n        if (initialPage) {\n            jumpToPage(initialPage);\n        }\n    }, boundingClientRect.height > 0 && boundingClientRect.width > 0);\n    useIsomorphicLayoutEffect(function () {\n        var latestPage = stateRef.current.pageIndex;\n        if (latestPage > -1 && previousScrollMode !== currentScrollMode) {\n            virtualizer.scrollToItem(latestPage, ZERO_OFFSET).then(function () {\n                if (fullScreen.fullScreenMode === exports.FullScreenMode.EnteredCompletely) {\n                    if (!enableSmoothScroll) {\n                        renderQueue.markNotRendered();\n                    }\n                    forceTargetFullScreenRef.current = -1;\n                }\n            });\n        }\n    }, [currentScrollMode]);\n    useIsomorphicLayoutEffect(function () {\n        var latestPage = stateRef.current.pageIndex;\n        if (latestPage > -1 && previousRotation !== rotation) {\n            virtualizer.scrollToItem(latestPage, ZERO_OFFSET);\n        }\n    }, [rotation]);\n    useIsomorphicLayoutEffect(function () {\n        if (previousScale != 0 && previousScale != stateRef.current.scale) {\n            virtualizer.zoom(stateRef.current.scale / previousScale, stateRef.current.pageIndex).then(function () {\n                if (fullScreen.fullScreenMode === exports.FullScreenMode.EnteredCompletely) {\n                    forceTargetZoomRef.current = -1;\n                }\n            });\n        }\n    }, [scale]);\n    useIsomorphicLayoutEffect(function () {\n        if (previousViewMode === stateRef.current.viewMode) {\n            return;\n        }\n        var startPage = virtualizer.startPage, endPage = virtualizer.endPage, virtualItems = virtualizer.virtualItems;\n        renderQueue.markNotRendered();\n        renderQueue.setRange(startPage, endPage);\n        var _loop_1 = function (i) {\n            var item = virtualItems.find(function (item) { return item.index === i; });\n            if (item) {\n                renderQueue.setVisibility(i, item.visibility);\n            }\n        };\n        for (var i = startPage; i <= endPage; i++) {\n            _loop_1(i);\n        }\n        renderNextPage();\n    }, [currentViewMode]);\n    useIsomorphicLayoutEffect(function () {\n        var latestPage = stateRef.current.pageIndex;\n        if (latestPage > -1 && previousViewMode !== currentViewMode) {\n            virtualizer.scrollToItem(latestPage, ZERO_OFFSET);\n        }\n    }, [currentViewMode]);\n    useIsomorphicLayoutEffect(function () {\n        var latestPage = stateRef.current.pageIndex;\n        if (latestPage > 0 &&\n            latestPage === initialPage &&\n            forceTargetInitialPageRef.current === initialPage &&\n            keepSpecialZoomLevelRef.current) {\n            forceTargetInitialPageRef.current = -1;\n            zoom(keepSpecialZoomLevelRef.current);\n        }\n    }, [currentPage]);\n    React__namespace.useEffect(function () {\n        var isSmoothScrolling = virtualizer.isSmoothScrolling;\n        if (isSmoothScrolling) {\n            return;\n        }\n        if (mostRecentVisitedRef.current === null || mostRecentVisitedRef.current !== currentPage) {\n            mostRecentVisitedRef.current = currentPage;\n            onPageChange({ currentPage: currentPage, doc: doc });\n        }\n    }, [currentPage, virtualizer.isSmoothScrolling]);\n    React__namespace.useEffect(function () {\n        if (fullScreen.fullScreenMode === exports.FullScreenMode.Entering && stateRef.current.scrollMode === exports.ScrollMode.Page) {\n            forceTargetFullScreenRef.current = stateRef.current.pageIndex;\n        }\n        if (fullScreen.fullScreenMode === exports.FullScreenMode.EnteredCompletely &&\n            stateRef.current.scrollMode === exports.ScrollMode.Page &&\n            enableSmoothScroll) {\n            forceTargetFullScreenRef.current = -1;\n        }\n        if (fullScreen.fullScreenMode === exports.FullScreenMode.EnteredCompletely && keepSpecialZoomLevelRef.current) {\n            forceTargetZoomRef.current = stateRef.current.pageIndex;\n            zoom(keepSpecialZoomLevelRef.current);\n        }\n    }, [fullScreen.fullScreenMode]);\n    React__namespace.useEffect(function () {\n        if (fullScreen.fullScreenMode === exports.FullScreenMode.Entering ||\n            fullScreen.fullScreenMode === exports.FullScreenMode.Exitting ||\n            virtualizer.isSmoothScrolling) {\n            return;\n        }\n        var startPage = virtualizer.startPage, endPage = virtualizer.endPage, maxVisbilityIndex = virtualizer.maxVisbilityIndex, virtualItems = virtualizer.virtualItems;\n        var currentPage = maxVisbilityIndex;\n        var isFullScreen = fullScreen.fullScreenMode === exports.FullScreenMode.Entered ||\n            fullScreen.fullScreenMode === exports.FullScreenMode.EnteredCompletely;\n        if (isFullScreen && currentPage !== forceTargetFullScreenRef.current && forceTargetFullScreenRef.current > -1) {\n            return;\n        }\n        if (isFullScreen && currentPage !== forceTargetZoomRef.current && forceTargetZoomRef.current > -1) {\n            return;\n        }\n        setCurrentPage(currentPage);\n        setViewerState(__assign(__assign({}, stateRef.current), { pageIndex: currentPage }));\n        renderQueue.setRange(startPage, endPage);\n        var _loop_2 = function (i) {\n            var item = virtualItems.find(function (item) { return item.index === i; });\n            if (item) {\n                renderQueue.setVisibility(i, item.visibility);\n            }\n        };\n        for (var i = startPage; i <= endPage; i++) {\n            _loop_2(i);\n        }\n        renderNextPage();\n    }, [\n        virtualizer.startPage,\n        virtualizer.endPage,\n        virtualizer.isSmoothScrolling,\n        virtualizer.maxVisbilityIndex,\n        fullScreen.fullScreenMode,\n        pagesRotationChanged,\n        rotation,\n        scale,\n    ]);\n    var handlePageRenderCompleted = React__namespace.useCallback(function (pageIndex) {\n        renderQueue.markRendered(pageIndex);\n        renderNextPage();\n    }, [renderQueueKey]);\n    var renderNextPage = function () {\n        var nextPage = renderQueue.getHighestPriorityPage();\n        if (nextPage > -1 && renderQueue.isInRange(nextPage)) {\n            renderQueue.markRendering(nextPage);\n            setRenderPageIndex(nextPage);\n        }\n    };\n    var executeNamedAction = function (action) {\n        var previousPage = currentPage - 1;\n        var nextPage = currentPage + 1;\n        switch (action) {\n            case 'FirstPage':\n                jumpToPage(0);\n                break;\n            case 'LastPage':\n                jumpToPage(numPages - 1);\n                break;\n            case 'NextPage':\n                nextPage < numPages && jumpToPage(nextPage);\n                break;\n            case 'PrevPage':\n                previousPage >= 0 && jumpToPage(previousPage);\n                break;\n        }\n    };\n    var renderViewer = React__namespace.useCallback(function () {\n        var virtualItems = virtualizer.virtualItems;\n        var chunks = [];\n        switch (currentViewMode) {\n            case exports.ViewMode.DualPage:\n                chunks = chunk(virtualItems, 2);\n                break;\n            case exports.ViewMode.DualPageWithCover:\n                if (virtualItems.length) {\n                    chunks =\n                        virtualItems[0].index === 0\n                            ? [[virtualItems[0]]].concat(chunk(virtualItems.slice(1), 2))\n                            : chunk(virtualItems, 2);\n                }\n                break;\n            case exports.ViewMode.SinglePage:\n            default:\n                chunks = chunk(virtualItems, 1);\n                break;\n        }\n        var pageLabel = l10n && l10n.core ? l10n.core.pageLabel : 'Page {{pageIndex}}';\n        var slot = {\n            attrs: {\n                className: 'rpv-core__inner-container',\n                'data-testid': 'core__inner-container',\n                ref: containerRef,\n                style: {\n                    height: '100%',\n                },\n            },\n            children: React__namespace.createElement(React__namespace.Fragment, null),\n            subSlot: {\n                attrs: {\n                    'data-testid': 'core__inner-pages',\n                    className: classNames({\n                        'rpv-core__inner-pages': true,\n                        'rpv-core__inner-pages--horizontal': currentScrollMode === exports.ScrollMode.Horizontal,\n                        'rpv-core__inner-pages--rtl': isRtl,\n                        'rpv-core__inner-pages--single': currentScrollMode === exports.ScrollMode.Page,\n                        'rpv-core__inner-pages--vertical': currentScrollMode === exports.ScrollMode.Vertical,\n                        'rpv-core__inner-pages--wrapped': currentScrollMode === exports.ScrollMode.Wrapped,\n                    }),\n                    ref: pagesRef,\n                    style: {\n                        height: '100%',\n                        position: 'relative',\n                    },\n                },\n                children: (React__namespace.createElement(\"div\", { \"data-testid\": \"core__inner-current-page-\".concat(currentPage), style: Object.assign({\n                        '--scale-factor': scale,\n                    }, virtualizer.getContainerStyles()) }, chunks.map(function (items) { return (React__namespace.createElement(\"div\", { className: classNames({\n                        'rpv-core__inner-page-container': true,\n                        'rpv-core__inner-page-container--single': currentScrollMode === exports.ScrollMode.Page,\n                    }), style: virtualizer.getItemContainerStyles(items[0]), key: \"\".concat(items[0].index, \"-\").concat(currentViewMode) }, items.map(function (item) {\n                    var isCover = currentViewMode === exports.ViewMode.DualPageWithCover &&\n                        (item.index === 0 || (numPages % 2 === 0 && item.index === numPages - 1));\n                    return (React__namespace.createElement(\"div\", { \"aria-label\": pageLabel.replace('{{pageIndex}}', \"\".concat(item.index + 1)), className: classNames({\n                            'rpv-core__inner-page': true,\n                            'rpv-core__inner-page--dual-even': currentViewMode === exports.ViewMode.DualPage && item.index % 2 === 0,\n                            'rpv-core__inner-page--dual-odd': currentViewMode === exports.ViewMode.DualPage && item.index % 2 === 1,\n                            'rpv-core__inner-page--dual-cover': isCover,\n                            'rpv-core__inner-page--dual-cover-even': currentViewMode === exports.ViewMode.DualPageWithCover &&\n                                !isCover &&\n                                item.index % 2 === 0,\n                            'rpv-core__inner-page--dual-cover-odd': currentViewMode === exports.ViewMode.DualPageWithCover &&\n                                !isCover &&\n                                item.index % 2 === 1,\n                            'rpv-core__inner-page--single': currentViewMode === exports.ViewMode.SinglePage &&\n                                currentScrollMode === exports.ScrollMode.Page,\n                        }), role: \"region\", key: \"\".concat(item.index, \"-\").concat(currentViewMode), style: Object.assign({}, virtualizer.getItemStyles(item), layoutBuilder.buildPageStyles({\n                            numPages: numPages,\n                            pageIndex: item.index,\n                            scrollMode: currentScrollMode,\n                            viewMode: currentViewMode,\n                        })) },\n                        React__namespace.createElement(PageLayer, { doc: doc, measureRef: item.measureRef, outlines: outlines, pageIndex: item.index, pageRotation: pagesRotation.has(item.index) ? pagesRotation.get(item.index) : 0, pageSize: pageSizes[item.index], plugins: plugins, renderPage: renderPage, renderQueueKey: renderQueueKey, rotation: rotation, scale: scale, shouldRender: renderPageIndex === item.index, viewMode: currentViewMode, onExecuteNamedAction: executeNamedAction, onJumpFromLinkAnnotation: handleJumpFromLinkAnnotation, onJumpToDest: jumpToDestination, onRenderCompleted: handlePageRenderCompleted, onRotatePage: rotatePage })));\n                }))); }))),\n            },\n        };\n        plugins.forEach(function (plugin) {\n            if (plugin.renderViewer) {\n                slot = plugin.renderViewer({\n                    containerRef: containerRef,\n                    doc: doc,\n                    pagesContainerRef: pagesRef,\n                    pagesRotation: pagesRotation,\n                    pageSizes: pageSizes,\n                    rotation: rotation,\n                    slot: slot,\n                    themeContext: themeContext,\n                    jumpToPage: jumpToPage,\n                    openFile: openFile,\n                    rotate: rotate,\n                    rotatePage: rotatePage,\n                    switchScrollMode: switchScrollMode,\n                    switchViewMode: switchViewMode,\n                    zoom: zoom,\n                });\n            }\n        });\n        return slot;\n    }, [plugins, virtualizer]);\n    var renderSlot = React__namespace.useCallback(function (slot) { return (React__namespace.createElement(\"div\", __assign({}, slot.attrs, { style: slot.attrs && slot.attrs.style ? slot.attrs.style : {} }),\n        slot.children,\n        slot.subSlot && renderSlot(slot.subSlot))); }, []);\n    return renderSlot(renderViewer());\n};\n\nvar LEVELS = [\n    0.1, 0.2, 0.3, 0.4, 0.5, 0.6, 0.7, 0.8, 0.9, 1, 1.1, 1.3, 1.5, 1.7, 1.9, 2.1, 2.4, 2.7, 3.0, 3.3, 3.7, 4.1, 4.6,\n    5.1, 5.7, 6.3, 7.0, 7.7, 8.5, 9.4, 10,\n];\nvar decrease = function (currentLevel) {\n    var found = LEVELS.findIndex(function (item) { return item >= currentLevel; });\n    return found === -1 || found === 0 ? currentLevel : LEVELS[found - 1];\n};\n\nvar RESERVE_HEIGHT = 45;\nvar RESERVE_WIDTH = 45;\nvar PageSizeCalculator = function (_a) {\n    var defaultScale = _a.defaultScale, doc = _a.doc, render = _a.render, scrollMode = _a.scrollMode, viewMode = _a.viewMode;\n    var pagesRef = React__namespace.useRef();\n    var _b = React__namespace.useState({\n        pageSizes: [],\n        scale: 0,\n    }), state = _b[0], setState = _b[1];\n    React__namespace.useLayoutEffect(function () {\n        var queryPageSizes = Array(doc.numPages)\n            .fill(0)\n            .map(function (_, i) {\n            return new Promise(function (resolve, _) {\n                getPage(doc, i).then(function (pdfPage) {\n                    var viewport = pdfPage.getViewport({ scale: 1 });\n                    resolve({\n                        pageHeight: viewport.height,\n                        pageWidth: viewport.width,\n                        rotation: viewport.rotation,\n                    });\n                });\n            });\n        });\n        Promise.all(queryPageSizes).then(function (pageSizes) {\n            var pagesEle = pagesRef.current;\n            if (!pagesEle || pageSizes.length === 0) {\n                return;\n            }\n            var w = pageSizes[0].pageWidth;\n            var h = pageSizes[0].pageHeight;\n            var parentEle = pagesEle.parentElement;\n            var scaleWidth = (parentEle.clientWidth - RESERVE_WIDTH) / w;\n            var scaleHeight = (parentEle.clientHeight - RESERVE_HEIGHT) / h;\n            var scaled = scaleWidth;\n            switch (scrollMode) {\n                case exports.ScrollMode.Horizontal:\n                    scaled = Math.min(scaleWidth, scaleHeight);\n                    break;\n                case exports.ScrollMode.Vertical:\n                default:\n                    scaled = scaleWidth;\n                    break;\n            }\n            var scale = defaultScale\n                ? typeof defaultScale === 'string'\n                    ? calculateScale(parentEle, h, w, defaultScale, viewMode, doc.numPages)\n                    : defaultScale\n                : decrease(scaled);\n            setState({ pageSizes: pageSizes, scale: scale });\n        });\n    }, [doc.loadingTask.docId]);\n    return state.pageSizes.length === 0 || state.scale === 0 ? (React__namespace.createElement(\"div\", { className: \"rpv-core__page-size-calculator\", \"data-testid\": \"core__page-size-calculating\", ref: pagesRef },\n        React__namespace.createElement(Spinner, null))) : (render(state.pageSizes, state.scale));\n};\n\nvar LoadingStatus = (function () {\n    function LoadingStatus() {\n    }\n    return LoadingStatus;\n}());\n\nvar AskForPasswordState = (function (_super) {\n    __extends(AskForPasswordState, _super);\n    function AskForPasswordState(verifyPassword, passwordStatus) {\n        var _this = _super.call(this) || this;\n        _this.verifyPassword = verifyPassword;\n        _this.passwordStatus = passwordStatus;\n        return _this;\n    }\n    return AskForPasswordState;\n}(LoadingStatus));\n\nvar AskingPassword = function (_a) {\n    var passwordStatus = _a.passwordStatus, renderProtectedView = _a.renderProtectedView, verifyPassword = _a.verifyPassword, onDocumentAskPassword = _a.onDocumentAskPassword;\n    var l10n = React__namespace.useContext(LocalizationContext).l10n;\n    var _b = React__namespace.useState(''), password = _b[0], setPassword = _b[1];\n    var direction = React__namespace.useContext(ThemeContext).direction;\n    var isRtl = direction === exports.TextDirection.RightToLeft;\n    var submit = function () { return verifyPassword(password); };\n    var handleKeyDown = function (e) {\n        if (e.key === 'Enter') {\n            submit();\n        }\n    };\n    React__namespace.useEffect(function () {\n        if (onDocumentAskPassword) {\n            onDocumentAskPassword({\n                verifyPassword: verifyPassword,\n            });\n        }\n    }, []);\n    if (renderProtectedView) {\n        return renderProtectedView({\n            passwordStatus: passwordStatus,\n            verifyPassword: verifyPassword,\n        });\n    }\n    return (React__namespace.createElement(\"div\", { className: \"rpv-core__asking-password-wrapper\" },\n        React__namespace.createElement(\"div\", { className: classNames({\n                'rpv-core__asking-password': true,\n                'rpv-core__asking-password--rtl': isRtl,\n            }) },\n            React__namespace.createElement(\"div\", { className: \"rpv-core__asking-password-message\" },\n                passwordStatus === exports.PasswordStatus.RequiredPassword &&\n                    l10n.core.askingPassword\n                        .requirePasswordToOpen,\n                passwordStatus === exports.PasswordStatus.WrongPassword &&\n                    l10n.core.wrongPassword.tryAgain),\n            React__namespace.createElement(\"div\", { className: \"rpv-core__asking-password-body\" },\n                React__namespace.createElement(\"div\", { className: classNames({\n                        'rpv-core__asking-password-input': true,\n                        'rpv-core__asking-password-input--ltr': !isRtl,\n                        'rpv-core__asking-password-input--rtl': isRtl,\n                    }) },\n                    React__namespace.createElement(TextBox, { testId: \"core__asking-password-input\", type: \"password\", value: password, onChange: setPassword, onKeyDown: handleKeyDown })),\n                React__namespace.createElement(PrimaryButton, { onClick: submit }, l10n.core.askingPassword.submit)))));\n};\n\nvar CompletedState = (function (_super) {\n    __extends(CompletedState, _super);\n    function CompletedState(doc) {\n        var _this = _super.call(this) || this;\n        _this.doc = doc;\n        return _this;\n    }\n    return CompletedState;\n}(LoadingStatus));\n\nvar FailureState = (function (_super) {\n    __extends(FailureState, _super);\n    function FailureState(error) {\n        var _this = _super.call(this) || this;\n        _this.error = error;\n        return _this;\n    }\n    return FailureState;\n}(LoadingStatus));\n\nvar LoadingState = (function (_super) {\n    __extends(LoadingState, _super);\n    function LoadingState(percentages) {\n        var _this = _super.call(this) || this;\n        _this.percentages = percentages;\n        return _this;\n    }\n    return LoadingState;\n}(LoadingStatus));\n\nvar DocumentLoader = function (_a) {\n    var characterMap = _a.characterMap, file = _a.file, httpHeaders = _a.httpHeaders, render = _a.render, renderError = _a.renderError, renderLoader = _a.renderLoader, renderProtectedView = _a.renderProtectedView, transformGetDocumentParams = _a.transformGetDocumentParams, withCredentials = _a.withCredentials, onDocumentAskPassword = _a.onDocumentAskPassword;\n    var direction = React__namespace.useContext(ThemeContext).direction;\n    var isRtl = direction === exports.TextDirection.RightToLeft;\n    var _b = React__namespace.useState(new LoadingState(0)), status = _b[0], setStatus = _b[1];\n    var docRef = React__namespace.useRef('');\n    var isMounted = useIsMounted();\n    React__namespace.useEffect(function () {\n        docRef.current = '';\n        setStatus(new LoadingState(0));\n        var worker = new PdfJsApi__namespace.PDFWorker({ name: \"PDFWorker_\".concat(Date.now()) });\n        var params = Object.assign({\n            httpHeaders: httpHeaders,\n            withCredentials: withCredentials,\n            worker: worker,\n        }, 'string' === typeof file ? { url: file } : { data: file }, characterMap\n            ? {\n                cMapUrl: characterMap.url,\n                cMapPacked: characterMap.isCompressed,\n            }\n            : {});\n        var transformParams = transformGetDocumentParams ? transformGetDocumentParams(params) : params;\n        var loadingTask = PdfJsApi__namespace.getDocument(transformParams);\n        loadingTask.onPassword = function (verifyPassword, reason) {\n            switch (reason) {\n                case PdfJsApi__namespace.PasswordResponses.NEED_PASSWORD:\n                    isMounted.current &&\n                        setStatus(new AskForPasswordState(verifyPassword, exports.PasswordStatus.RequiredPassword));\n                    break;\n                case PdfJsApi__namespace.PasswordResponses.INCORRECT_PASSWORD:\n                    isMounted.current &&\n                        setStatus(new AskForPasswordState(verifyPassword, exports.PasswordStatus.WrongPassword));\n                    break;\n            }\n        };\n        loadingTask.onProgress = function (progress) {\n            var loaded = progress.total > 0\n                ?\n                    Math.min(100, (100 * progress.loaded) / progress.total)\n                : 100;\n            if (isMounted.current && docRef.current === '') {\n                setStatus(new LoadingState(loaded));\n            }\n        };\n        loadingTask.promise.then(function (doc) {\n            docRef.current = doc.loadingTask.docId;\n            isMounted.current && setStatus(new CompletedState(doc));\n        }, function (err) {\n            return isMounted.current &&\n                !worker.destroyed &&\n                setStatus(new FailureState({\n                    message: err.message || 'Cannot load document',\n                    name: err.name,\n                }));\n        });\n        return function () {\n            loadingTask.destroy();\n            worker.destroy();\n        };\n    }, [file]);\n    if (status instanceof AskForPasswordState) {\n        return (React__namespace.createElement(AskingPassword, { passwordStatus: status.passwordStatus, renderProtectedView: renderProtectedView, verifyPassword: status.verifyPassword, onDocumentAskPassword: onDocumentAskPassword }));\n    }\n    if (status instanceof CompletedState) {\n        return render(status.doc);\n    }\n    if (status instanceof FailureState) {\n        return renderError ? (renderError(status.error)) : (React__namespace.createElement(\"div\", { className: classNames({\n                'rpv-core__doc-error': true,\n                'rpv-core__doc-error--rtl': isRtl,\n            }) },\n            React__namespace.createElement(\"div\", { className: \"rpv-core__doc-error-text\" }, status.error.message)));\n    }\n    return (React__namespace.createElement(\"div\", { \"data-testid\": \"core__doc-loading\", className: classNames({\n            'rpv-core__doc-loading': true,\n            'rpv-core__doc-loading--rtl': isRtl,\n        }) }, renderLoader ? renderLoader(status.percentages) : React__namespace.createElement(Spinner, null)));\n};\n\nvar isDarkMode = function () {\n    return typeof window !== 'undefined' && window.matchMedia && window.matchMedia('(prefers-color-scheme: dark)').matches;\n};\n\nvar withTheme = function (theme, onSwitchTheme) {\n    var initialTheme = React__namespace.useMemo(function () { return (theme === 'auto' ? (isDarkMode() ? 'dark' : 'light') : theme); }, []);\n    var _a = React__namespace.useState(initialTheme), currentTheme = _a[0], setCurrentTheme = _a[1];\n    var prevTheme = usePrevious(currentTheme);\n    React__namespace.useEffect(function () {\n        if (theme !== 'auto') {\n            return;\n        }\n        var media = window.matchMedia('(prefers-color-scheme: dark)');\n        var handler = function (e) {\n            setCurrentTheme(e.matches ? 'dark' : 'light');\n        };\n        media.addEventListener('change', handler);\n        return function () { return media.removeEventListener('change', handler); };\n    }, []);\n    React__namespace.useEffect(function () {\n        if (currentTheme !== prevTheme && onSwitchTheme) {\n            onSwitchTheme(currentTheme);\n        }\n    }, [currentTheme]);\n    React__namespace.useEffect(function () {\n        if (theme !== currentTheme) {\n            setCurrentTheme(theme);\n        }\n    }, [theme]);\n    return {\n        currentTheme: currentTheme,\n        setCurrentTheme: setCurrentTheme,\n    };\n};\n\nvar isSameUrl = function (a, b) {\n    var typeA = typeof a;\n    var typeB = typeof b;\n    if (typeA === 'string' && typeB === 'string' && a === b) {\n        return true;\n    }\n    if (typeA === 'object' && typeB === 'object') {\n        return a.length === b.length && a.every(function (v, i) { return v === b[i]; });\n    }\n    return false;\n};\n\nvar NUM_OVERSCAN_PAGES = 3;\nvar DEFAULT_RENDER_RANGE = function (visiblePagesRange) {\n    return {\n        startPage: visiblePagesRange.startPage - NUM_OVERSCAN_PAGES,\n        endPage: visiblePagesRange.endPage + NUM_OVERSCAN_PAGES,\n    };\n};\nvar Viewer = function (_a) {\n    var characterMap = _a.characterMap, defaultScale = _a.defaultScale, _b = _a.enableSmoothScroll, enableSmoothScroll = _b === void 0 ? true : _b, fileUrl = _a.fileUrl, _c = _a.httpHeaders, httpHeaders = _c === void 0 ? {} : _c, _d = _a.initialPage, initialPage = _d === void 0 ? 0 : _d, pageLayout = _a.pageLayout, _e = _a.initialRotation, initialRotation = _e === void 0 ? 0 : _e, localization = _a.localization, _f = _a.plugins, plugins = _f === void 0 ? [] : _f, renderError = _a.renderError, renderLoader = _a.renderLoader, renderPage = _a.renderPage, renderProtectedView = _a.renderProtectedView, _g = _a.scrollMode, scrollMode = _g === void 0 ? exports.ScrollMode.Vertical : _g, _h = _a.setRenderRange, setRenderRange = _h === void 0 ? DEFAULT_RENDER_RANGE : _h, transformGetDocumentParams = _a.transformGetDocumentParams, _j = _a.theme, theme = _j === void 0 ? {\n        direction: exports.TextDirection.LeftToRight,\n        theme: 'light',\n    } : _j, _k = _a.viewMode, viewMode = _k === void 0 ? exports.ViewMode.SinglePage : _k, _l = _a.withCredentials, withCredentials = _l === void 0 ? false : _l, onDocumentAskPassword = _a.onDocumentAskPassword, _m = _a.onDocumentLoad, onDocumentLoad = _m === void 0 ? function () {\n    } : _m, _o = _a.onPageChange, onPageChange = _o === void 0 ? function () {\n    } : _o, _p = _a.onRotate, onRotate = _p === void 0 ? function () {\n    } : _p, _q = _a.onRotatePage, onRotatePage = _q === void 0 ? function () {\n    } : _q, _r = _a.onSwitchTheme, onSwitchTheme = _r === void 0 ? function () {\n    } : _r, _s = _a.onZoom, onZoom = _s === void 0 ? function () {\n    } : _s;\n    var _t = React__namespace.useState({\n        data: fileUrl,\n        name: typeof fileUrl === 'string' ? fileUrl : '',\n        shouldLoad: false,\n    }), file = _t[0], setFile = _t[1];\n    var openFile = function (fileName, data) {\n        setFile({\n            data: data,\n            name: fileName,\n            shouldLoad: true,\n        });\n    };\n    var _u = React__namespace.useState(false), visible = _u[0], setVisible = _u[1];\n    var prevFile = usePrevious(file);\n    React__namespace.useEffect(function () {\n        if (!isSameUrl(prevFile.data, fileUrl)) {\n            setFile({\n                data: fileUrl,\n                name: typeof fileUrl === 'string' ? fileUrl : '',\n                shouldLoad: visible,\n            });\n        }\n    }, [fileUrl, visible]);\n    var visibilityChanged = function (params) {\n        setVisible(params.isVisible);\n        if (params.isVisible) {\n            setFile(function (currentFile) { return Object.assign({}, currentFile, { shouldLoad: true }); });\n        }\n    };\n    var containerRef = useIntersectionObserver({\n        onVisibilityChanged: visibilityChanged,\n    });\n    var themeProps = typeof theme === 'string' ? { direction: exports.TextDirection.LeftToRight, theme: theme } : theme;\n    var _v = React__namespace.useState(localization || DefaultLocalization), l10n = _v[0], setL10n = _v[1];\n    var localizationContext = { l10n: l10n, setL10n: setL10n };\n    var themeContext = Object.assign({}, { direction: themeProps.direction }, withTheme(themeProps.theme || 'light', onSwitchTheme));\n    React__namespace.useEffect(function () {\n        if (localization) {\n            setL10n(localization);\n        }\n    }, [localization]);\n    return (React__namespace.createElement(LocalizationContext.Provider, { value: localizationContext },\n        React__namespace.createElement(ThemeContext.Provider, { value: themeContext },\n            React__namespace.createElement(\"div\", { ref: containerRef, className: \"rpv-core__viewer rpv-core__viewer--\".concat(themeContext.currentTheme), \"data-testid\": \"core__viewer\", style: {\n                    height: '100%',\n                    width: '100%',\n                } }, file.shouldLoad && (React__namespace.createElement(DocumentLoader, { characterMap: characterMap, file: file.data, httpHeaders: httpHeaders, render: function (doc) { return (React__namespace.createElement(PageSizeCalculator, { defaultScale: defaultScale, doc: doc, render: function (pageSizes, initialScale) { return (React__namespace.createElement(Inner, { currentFile: {\n                            data: file.data,\n                            name: file.name,\n                        }, defaultScale: defaultScale, doc: doc, enableSmoothScroll: enableSmoothScroll, initialPage: initialPage, initialRotation: initialRotation, initialScale: initialScale, pageLayout: pageLayout, pageSizes: pageSizes, plugins: plugins, renderPage: renderPage, scrollMode: scrollMode, setRenderRange: setRenderRange, viewMode: viewMode, viewerState: {\n                            file: file,\n                            fullScreenMode: exports.FullScreenMode.Normal,\n                            pageIndex: -1,\n                            pageHeight: pageSizes[0].pageHeight,\n                            pageWidth: pageSizes[0].pageWidth,\n                            pagesRotation: new Map(),\n                            rotation: initialRotation,\n                            scale: initialScale,\n                            scrollMode: scrollMode,\n                            viewMode: viewMode,\n                        }, onDocumentLoad: onDocumentLoad, onOpenFile: openFile, onPageChange: onPageChange, onRotate: onRotate, onRotatePage: onRotatePage, onZoom: onZoom })); }, scrollMode: scrollMode, viewMode: viewMode })); }, renderError: renderError, renderLoader: renderLoader, renderProtectedView: renderProtectedView, transformGetDocumentParams: transformGetDocumentParams, withCredentials: withCredentials, onDocumentAskPassword: onDocumentAskPassword }))))));\n};\n\nvar Worker = function (_a) {\n    var children = _a.children, workerUrl = _a.workerUrl;\n    PdfJsApi__namespace.GlobalWorkerOptions.workerSrc = workerUrl;\n    return React__namespace.createElement(React__namespace.Fragment, null, children);\n};\n\nexports.Button = Button;\nexports.Icon = Icon;\nexports.LazyRender = LazyRender;\nexports.LocalizationContext = LocalizationContext;\nexports.Menu = Menu;\nexports.MenuDivider = MenuDivider;\nexports.MenuItem = MenuItem;\nexports.MinimalButton = MinimalButton;\nexports.Modal = Modal;\nexports.Popover = Popover;\nexports.PrimaryButton = PrimaryButton;\nexports.ProgressBar = ProgressBar;\nexports.Separator = Separator;\nexports.Spinner = Spinner;\nexports.Splitter = Splitter;\nexports.TextBox = TextBox;\nexports.ThemeContext = ThemeContext;\nexports.Tooltip = Tooltip;\nexports.Viewer = Viewer;\nexports.Worker = Worker;\nexports.chunk = chunk;\nexports.classNames = classNames;\nexports.createStore = createStore;\nexports.getDestination = getDestination;\nexports.getPage = getPage;\nexports.isFullScreenEnabled = isFullScreenEnabled;\nexports.isMac = isMac;\nexports.useDebounceCallback = useDebounceCallback;\nexports.useIntersectionObserver = useIntersectionObserver;\nexports.useIsMounted = useIsMounted;\nexports.useIsomorphicLayoutEffect = useIsomorphicLayoutEffect;\nexports.usePrevious = usePrevious;\nexports.useRenderQueue = useRenderQueue;\n","/**\n * A React component to view a PDF document\n *\n * @see https://react-pdf-viewer.dev\n * @license https://react-pdf-viewer.dev/license\n * @copyright 2019-2023 Nguyen Huu Phuoc <me@phuoc.ng>\n */\n\n'use strict';\n\nif (process.env.NODE_ENV === 'production') {\n    module.exports = require('./cjs/core.min.js');\n} else {\n    module.exports = require('./cjs/core.js');\n}\n","'use strict';\n\nvar core = require('@react-pdf-viewer/core');\nvar React = require('react');\nvar attachment = require('@react-pdf-viewer/attachment');\nvar bookmark = require('@react-pdf-viewer/bookmark');\nvar thumbnail = require('@react-pdf-viewer/thumbnail');\nvar toolbar = require('@react-pdf-viewer/toolbar');\n\nfunction _interopNamespaceDefault(e) {\n    var n = Object.create(null);\n    if (e) {\n        Object.keys(e).forEach(function (k) {\n            if (k !== 'default') {\n                var d = Object.getOwnPropertyDescriptor(e, k);\n                Object.defineProperty(n, k, d.get ? d : {\n                    enumerable: true,\n                    get: function () { return e[k]; }\n                });\n            }\n        });\n    }\n    n.default = e;\n    return Object.freeze(n);\n}\n\nvar React__namespace = /*#__PURE__*/_interopNamespaceDefault(React);\n\nvar BookmarkIcon = function () { return (React__namespace.createElement(core.Icon, { size: 16 },\n    React__namespace.createElement(\"path\", { d: \"M11.5,1.5h11c0.552,0,1,0.448,1,1v20c0,0.552-0.448,1-1,1h-21c-0.552,0-1-0.448-1-1v-20c0-0.552,0.448-1,1-1h3\\n            M11.5,10.5c0,0.55-0.3,0.661-0.659,0.248L8,7.5l-2.844,3.246c-0.363,0.414-0.659,0.3-0.659-0.247v-9c0-0.552,0.448-1,1-1h5\\n            c0.552,0,1,0.448,1,1L11.5,10.5z\\n            M14.5,6.499h6\\n            M14.5,10.499h6\\n            M3.5,14.499h17\\n            M3.5,18.499h16.497\" }))); };\n\n/******************************************************************************\r\nCopyright (c) Microsoft Corporation.\r\n\r\nPermission to use, copy, modify, and/or distribute this software for any\r\npurpose with or without fee is hereby granted.\r\n\r\nTHE SOFTWARE IS PROVIDED \"AS IS\" AND THE AUTHOR DISCLAIMS ALL WARRANTIES WITH\r\nREGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY\r\nAND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT,\r\nINDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM\r\nLOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR\r\nOTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR\r\nPERFORMANCE OF THIS SOFTWARE.\r\n***************************************************************************** */\r\n\r\nvar __assign = function() {\r\n    __assign = Object.assign || function __assign(t) {\r\n        for (var s, i = 1, n = arguments.length; i < n; i++) {\r\n            s = arguments[i];\r\n            for (var p in s) if (Object.prototype.hasOwnProperty.call(s, p)) t[p] = s[p];\r\n        }\r\n        return t;\r\n    };\r\n    return __assign.apply(this, arguments);\r\n};\n\nvar FileIcon = function () { return (React__namespace.createElement(core.Icon, { size: 16 },\n    React__namespace.createElement(\"path\", { d: \"M7.618,15.345l8.666-8.666c0.78-0.812,2.071-0.838,2.883-0.058s0.838,2.071,0.058,2.883\\n            c-0.019,0.02-0.038,0.039-0.058,0.058L7.461,21.305c-1.593,1.593-4.175,1.592-5.767,0s-1.592-4.175,0-5.767c0,0,0,0,0,0\\n            L13.928,3.305c2.189-2.19,5.739-2.19,7.929-0.001s2.19,5.739,0,7.929l0,0L13.192,19.9\" }))); };\n\nvar ThumbnailIcon = function () { return (React__namespace.createElement(core.Icon, { size: 16 },\n    React__namespace.createElement(\"path\", { d: \"M10.5,9.5c0,0.552-0.448,1-1,1h-8c-0.552,0-1-0.448-1-1v-8c0-0.552,0.448-1,1-1h8c0.552,0,1,0.448,1,1V9.5z\\n            M23.5,9.5c0,0.552-0.448,1-1,1h-8c-0.552,0-1-0.448-1-1v-8c0-0.552,0.448-1,1-1h8c0.552,0,1,0.448,1,1V9.5z\\n            M10.5,22.5 c0,0.552-0.448,1-1,1h-8c-0.552,0-1-0.448-1-1v-8c0-0.552,0.448-1,1-1h8c0.552,0,1,0.448,1,1V22.5z\\n            M23.5,22.5c0,0.552-0.448,1-1,1 h-8c-0.552,0-1-0.448-1-1v-8c0-0.552,0.448-1,1-1h8c0.552,0,1,0.448,1,1V22.5z\" }))); };\n\nvar TOOLTIP_OFFSET_LTR = { left: 8, top: 0 };\nvar TOOLTIP_OFFSET_RTL = { left: -8, top: 0 };\nvar Sidebar = function (_a) {\n    var attachmentTabContent = _a.attachmentTabContent, bookmarkTabContent = _a.bookmarkTabContent, store = _a.store, thumbnailTabContent = _a.thumbnailTabContent, tabs = _a.tabs;\n    var containerRef = React__namespace.useRef();\n    var l10n = React__namespace.useContext(core.LocalizationContext).l10n;\n    var _b = React__namespace.useState(store.get('isCurrentTabOpened') || false), opened = _b[0], setOpened = _b[1];\n    var _c = React__namespace.useState(Math.max(store.get('currentTab') || 0, 0)), currentTab = _c[0], setCurrentTab = _c[1];\n    var direction = React__namespace.useContext(core.ThemeContext).direction;\n    var isRtl = direction === core.TextDirection.RightToLeft;\n    var resizeConstrain = function (size) { return size.firstHalfPercentage >= 20 && size.firstHalfPercentage <= 80; };\n    var defaultTabs = [\n        {\n            content: thumbnailTabContent,\n            icon: React__namespace.createElement(ThumbnailIcon, null),\n            title: l10n && l10n.defaultLayout\n                ? l10n.defaultLayout.thumbnail\n                : 'Thumbnail',\n        },\n        {\n            content: bookmarkTabContent,\n            icon: React__namespace.createElement(BookmarkIcon, null),\n            title: l10n && l10n.defaultLayout ? l10n.defaultLayout.bookmark : 'Bookmark',\n        },\n        {\n            content: attachmentTabContent,\n            icon: React__namespace.createElement(FileIcon, null),\n            title: l10n && l10n.defaultLayout\n                ? l10n.defaultLayout.attachment\n                : 'Attachment',\n        },\n    ];\n    var listTabs = tabs ? tabs(defaultTabs) : defaultTabs;\n    var toggleTab = function (index) {\n        if (currentTab === index) {\n            store.update('isCurrentTabOpened', !store.get('isCurrentTabOpened'));\n            var container = containerRef.current;\n            if (container) {\n                var width = container.style.width;\n                if (width) {\n                    container.style.removeProperty('width');\n                }\n            }\n        }\n        else {\n            store.update('currentTab', index);\n        }\n    };\n    var switchToTab = function (index) {\n        if (index >= 0 && index <= listTabs.length - 1) {\n            store.update('isCurrentTabOpened', true);\n            setCurrentTab(index);\n        }\n    };\n    var handleCurrentTabOpened = function (opened) {\n        setOpened(opened);\n    };\n    React__namespace.useEffect(function () {\n        store.subscribe('currentTab', switchToTab);\n        store.subscribe('isCurrentTabOpened', handleCurrentTabOpened);\n        return function () {\n            store.unsubscribe('currentTab', switchToTab);\n            store.unsubscribe('isCurrentTabOpened', handleCurrentTabOpened);\n        };\n    }, []);\n    if (listTabs.length === 0) {\n        return React__namespace.createElement(React__namespace.Fragment, null);\n    }\n    return (React__namespace.createElement(React__namespace.Fragment, null,\n        React__namespace.createElement(\"div\", { \"data-testid\": \"default-layout__sidebar\", className: core.classNames({\n                'rpv-default-layout__sidebar': true,\n                'rpv-default-layout__sidebar--opened': opened,\n                'rpv-default-layout__sidebar--ltr': !isRtl,\n                'rpv-default-layout__sidebar--rtl': isRtl,\n            }), ref: containerRef },\n            React__namespace.createElement(\"div\", { className: \"rpv-default-layout__sidebar-tabs\" },\n                React__namespace.createElement(\"div\", { className: \"rpv-default-layout__sidebar-headers\", role: \"tablist\", \"aria-orientation\": \"vertical\" }, listTabs.map(function (tab, index) { return (React__namespace.createElement(\"div\", { \"aria-controls\": \"rpv-default-layout__sidebar-content\", \"aria-selected\": currentTab === index, key: index, className: \"rpv-default-layout__sidebar-header\", id: \"rpv-default-layout__sidebar-tab-\".concat(index), role: \"tab\" },\n                    React__namespace.createElement(core.Tooltip, { ariaControlsSuffix: \"default-layout-sidebar-tab-\".concat(index), position: isRtl ? core.Position.LeftCenter : core.Position.RightCenter, target: React__namespace.createElement(core.MinimalButton, { ariaLabel: tab.title, isSelected: currentTab === index, onClick: function () { return toggleTab(index); } }, tab.icon), content: function () { return tab.title; }, offset: isRtl ? TOOLTIP_OFFSET_RTL : TOOLTIP_OFFSET_LTR }))); })),\n                React__namespace.createElement(\"div\", { \"aria-labelledby\": \"rpv-default-layout__sidebar-tab-\".concat(currentTab), id: \"rpv-default-layout__sidebar-content\", className: core.classNames({\n                        'rpv-default-layout__sidebar-content': true,\n                        'rpv-default-layout__sidebar-content--opened': opened,\n                        'rpv-default-layout__sidebar-content--ltr': !isRtl,\n                        'rpv-default-layout__sidebar-content--rtl': isRtl,\n                    }), role: \"tabpanel\", tabIndex: -1 }, listTabs[currentTab].content))),\n        opened && React__namespace.createElement(core.Splitter, { constrain: resizeConstrain })));\n};\n\nvar defaultLayoutPlugin = function (props) {\n    var store = React__namespace.useMemo(function () {\n        return core.createStore({\n            isCurrentTabOpened: false,\n            currentTab: 0,\n        });\n    }, []);\n    var attachmentPluginInstance = attachment.attachmentPlugin();\n    var bookmarkPluginInstance = bookmark.bookmarkPlugin();\n    var thumbnailPluginInstance = thumbnail.thumbnailPlugin(props ? props.thumbnailPlugin : {});\n    var toolbarPluginInstance = toolbar.toolbarPlugin(props ? props.toolbarPlugin : {});\n    var Attachments = attachmentPluginInstance.Attachments;\n    var Bookmarks = bookmarkPluginInstance.Bookmarks;\n    var Thumbnails = thumbnailPluginInstance.Thumbnails;\n    var Toolbar = toolbarPluginInstance.Toolbar;\n    var sidebarTabs = props ? props.sidebarTabs : function (defaultTabs) { return defaultTabs; };\n    var plugins = [attachmentPluginInstance, bookmarkPluginInstance, thumbnailPluginInstance, toolbarPluginInstance];\n    return {\n        attachmentPluginInstance: attachmentPluginInstance,\n        bookmarkPluginInstance: bookmarkPluginInstance,\n        thumbnailPluginInstance: thumbnailPluginInstance,\n        toolbarPluginInstance: toolbarPluginInstance,\n        activateTab: function (index) {\n            store.update('currentTab', index);\n        },\n        toggleTab: function (index) {\n            var currentTab = store.get('currentTab');\n            store.update('isCurrentTabOpened', !store.get('isCurrentTabOpened'));\n            if (currentTab !== index) {\n                store.update('currentTab', index);\n            }\n        },\n        install: function (pluginFunctions) {\n            plugins.forEach(function (plugin) {\n                if (plugin.install) {\n                    plugin.install(pluginFunctions);\n                }\n            });\n        },\n        renderPageLayer: function (renderProps) { return (React__namespace.createElement(React__namespace.Fragment, null, plugins.map(function (plugin, idx) {\n            return plugin.renderPageLayer ? (React__namespace.createElement(React__namespace.Fragment, { key: idx }, plugin.renderPageLayer(renderProps))) : (React__namespace.createElement(React__namespace.Fragment, { key: idx },\n                React__namespace.createElement(React__namespace.Fragment, null)));\n        }))); },\n        renderViewer: function (renderProps) {\n            var slot = renderProps.slot;\n            plugins.forEach(function (plugin) {\n                if (plugin.renderViewer) {\n                    slot = plugin.renderViewer(__assign(__assign({}, renderProps), { slot: slot }));\n                }\n            });\n            var mergeSubSlot = slot.subSlot && slot.subSlot.attrs\n                ? {\n                    className: slot.subSlot.attrs.className,\n                    'data-testid': slot.subSlot.attrs['data-testid'],\n                    ref: slot.subSlot.attrs.ref,\n                    style: slot.subSlot.attrs.style,\n                }\n                : {};\n            slot.children = (React__namespace.createElement(\"div\", { className: \"rpv-default-layout__container\" },\n                React__namespace.createElement(\"div\", { \"data-testid\": \"default-layout__main\", className: core.classNames({\n                        'rpv-default-layout__main': true,\n                        'rpv-default-layout__main--rtl': renderProps.themeContext.direction === core.TextDirection.RightToLeft,\n                    }) },\n                    React__namespace.createElement(Sidebar, { attachmentTabContent: React__namespace.createElement(Attachments, null), bookmarkTabContent: React__namespace.createElement(Bookmarks, null), store: store, thumbnailTabContent: React__namespace.createElement(Thumbnails, null), tabs: sidebarTabs }),\n                    React__namespace.createElement(\"div\", { className: \"rpv-default-layout__body\", \"data-testid\": \"default-layout__body\" },\n                        React__namespace.createElement(\"div\", { className: \"rpv-default-layout__toolbar\" }, props && props.renderToolbar ? props.renderToolbar(Toolbar) : React__namespace.createElement(Toolbar, null)),\n                        React__namespace.createElement(\"div\", __assign({}, mergeSubSlot), slot.subSlot.children))),\n                slot.children));\n            slot.subSlot.attrs = {};\n            slot.subSlot.children = React__namespace.createElement(React__namespace.Fragment, null);\n            return slot;\n        },\n        uninstall: function (pluginFunctions) {\n            plugins.forEach(function (plugin) {\n                if (plugin.uninstall) {\n                    plugin.uninstall(pluginFunctions);\n                }\n            });\n        },\n        onDocumentLoad: function (documentLoadProps) {\n            plugins.forEach(function (plugin) {\n                if (plugin.onDocumentLoad) {\n                    plugin.onDocumentLoad(documentLoadProps);\n                }\n            });\n            if (props && props.setInitialTab) {\n                props.setInitialTab(documentLoadProps.doc).then(function (initialTab) {\n                    store.update('currentTab', initialTab);\n                    store.update('isCurrentTabOpened', true);\n                });\n            }\n        },\n        onAnnotationLayerRender: function (props) {\n            plugins.forEach(function (plugin) {\n                if (plugin.onAnnotationLayerRender) {\n                    plugin.onAnnotationLayerRender(props);\n                }\n            });\n        },\n        onTextLayerRender: function (props) {\n            plugins.forEach(function (plugin) {\n                if (plugin.onTextLayerRender) {\n                    plugin.onTextLayerRender(props);\n                }\n            });\n        },\n        onViewerStateChange: function (viewerState) {\n            var newState = viewerState;\n            plugins.forEach(function (plugin) {\n                if (plugin.onViewerStateChange) {\n                    newState = plugin.onViewerStateChange(newState);\n                }\n            });\n            return newState;\n        },\n    };\n};\n\nvar setInitialTabFromPageMode = function (doc) {\n    return new Promise(function (resolve, _) {\n        doc.getPageMode().then(function (pageMode) {\n            if (!pageMode) {\n                resolve(-1);\n            }\n            else {\n                switch (pageMode) {\n                    case core.PageMode.Attachments:\n                        resolve(2);\n                        break;\n                    case core.PageMode.Bookmarks:\n                        resolve(1);\n                        break;\n                    case core.PageMode.Thumbnails:\n                        resolve(0);\n                        break;\n                    default:\n                        resolve(-1);\n                        break;\n                }\n            }\n        });\n    });\n};\n\nexports.BookmarkIcon = BookmarkIcon;\nexports.FileIcon = FileIcon;\nexports.ThumbnailIcon = ThumbnailIcon;\nexports.defaultLayoutPlugin = defaultLayoutPlugin;\nexports.setInitialTabFromPageMode = setInitialTabFromPageMode;\n","/**\n * A React component to view a PDF document\n *\n * @see https://react-pdf-viewer.dev\n * @license https://react-pdf-viewer.dev/license\n * @copyright 2019-2023 Nguyen Huu Phuoc <me@phuoc.ng>\n */\n\n'use strict';\n\nif (process.env.NODE_ENV === 'production') {\n    module.exports = require('./cjs/default-layout.min.js');\n} else {\n    module.exports = require('./cjs/default-layout.js');\n}\n","'use strict';\n\nvar core = require('@react-pdf-viewer/core');\nvar React = require('react');\n\nfunction _interopNamespaceDefault(e) {\n    var n = Object.create(null);\n    if (e) {\n        Object.keys(e).forEach(function (k) {\n            if (k !== 'default') {\n                var d = Object.getOwnPropertyDescriptor(e, k);\n                Object.defineProperty(n, k, d.get ? d : {\n                    enumerable: true,\n                    get: function () { return e[k]; }\n                });\n            }\n        });\n    }\n    n.default = e;\n    return Object.freeze(n);\n}\n\nvar React__namespace = /*#__PURE__*/_interopNamespaceDefault(React);\n\nvar ExitFullScreenIcon = function () { return (React__namespace.createElement(core.Icon, { size: 16 },\n    React__namespace.createElement(\"path\", { d: \"M11.5 23.499L11.5 14.499\" }),\n    React__namespace.createElement(\"path\", { d: \"M7.5 18.499L11.5 14.499 15.5 18.499\" }),\n    React__namespace.createElement(\"path\", { d: \"M11.5 1.499L11.5 10.499\" }),\n    React__namespace.createElement(\"path\", { d: \"M7.5 6.499L11.5 10.499 15.5 6.499\" }),\n    React__namespace.createElement(\"path\", { d: \"M20.5 12.499L1.5 12.499\" }))); };\n\nvar FullScreenIcon = function () { return (React__namespace.createElement(core.Icon, { size: 16 },\n    React__namespace.createElement(\"path\", { d: \"M0.5 12L23.5 12\" }),\n    React__namespace.createElement(\"path\", { d: \"M11.5 1L11.5 23\" }),\n    React__namespace.createElement(\"path\", { d: \"M8.5 4L11.5 1 14.5 4\" }),\n    React__namespace.createElement(\"path\", { d: \"M20.5 9L23.5 12 20.5 15\" }),\n    React__namespace.createElement(\"path\", { d: \"M3.5 15L0.5 12 3.5 9\" }),\n    React__namespace.createElement(\"path\", { d: \"M14.5 20L11.5 23 8.5 20\" }))); };\n\n/******************************************************************************\r\nCopyright (c) Microsoft Corporation.\r\n\r\nPermission to use, copy, modify, and/or distribute this software for any\r\npurpose with or without fee is hereby granted.\r\n\r\nTHE SOFTWARE IS PROVIDED \"AS IS\" AND THE AUTHOR DISCLAIMS ALL WARRANTIES WITH\r\nREGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY\r\nAND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT,\r\nINDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM\r\nLOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR\r\nOTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR\r\nPERFORMANCE OF THIS SOFTWARE.\r\n***************************************************************************** */\r\n\r\nvar __assign = function() {\r\n    __assign = Object.assign || function __assign(t) {\r\n        for (var s, i = 1, n = arguments.length; i < n; i++) {\r\n            s = arguments[i];\r\n            for (var p in s) if (Object.prototype.hasOwnProperty.call(s, p)) t[p] = s[p];\r\n        }\r\n        return t;\r\n    };\r\n    return __assign.apply(this, arguments);\r\n};\n\nvar TOOLTIP_OFFSET$1 = { left: 0, top: 8 };\nvar EnterFullScreenButton = function (_a) {\n    var enableShortcuts = _a.enableShortcuts, onClick = _a.onClick;\n    var l10n = React__namespace.useContext(core.LocalizationContext).l10n;\n    var label = l10n && l10n.fullScreen ? l10n.fullScreen.enterFullScreen : 'Full screen';\n    var ariaKeyShortcuts = enableShortcuts ? (core.isMac() ? 'Meta+Ctrl+F' : 'F11') : '';\n    return (React__namespace.createElement(core.Tooltip, { ariaControlsSuffix: \"full-screen-enter\", position: core.Position.BottomCenter, target: React__namespace.createElement(core.MinimalButton, { ariaKeyShortcuts: ariaKeyShortcuts, ariaLabel: label, isDisabled: !core.isFullScreenEnabled(), testId: \"full-screen__enter-button\", onClick: onClick },\n            React__namespace.createElement(FullScreenIcon, null)), content: function () { return label; }, offset: TOOLTIP_OFFSET$1 }));\n};\n\nvar TOOLTIP_OFFSET = { left: 0, top: 8 };\nvar ExitFullScreenButtonWithTooltip = function (_a) {\n    var onClick = _a.onClick;\n    var l10n = React__namespace.useContext(core.LocalizationContext).l10n;\n    var exitFullScreenLabel = l10n && l10n.fullScreen ? l10n.fullScreen.exitFullScreen : 'Exit full screen';\n    return (React__namespace.createElement(core.Tooltip, { ariaControlsSuffix: \"full-screen-exit\", position: core.Position.BottomCenter, target: React__namespace.createElement(core.MinimalButton, { ariaKeyShortcuts: \"Esc\", ariaLabel: exitFullScreenLabel, testId: \"full-screen__exit-button-with-tooltip\", onClick: onClick },\n            React__namespace.createElement(ExitFullScreenIcon, null)), content: function () { return exitFullScreenLabel; }, offset: TOOLTIP_OFFSET }));\n};\n\nvar useEnterFullScreen = function (getFullScreenTarget, store) {\n    var _a = React__namespace.useState(store.get('fullScreenMode')), fullScreenMode = _a[0], setFullScreenMode = _a[1];\n    var handleFullScreenMode = React__namespace.useCallback(function (fullScreenMode) {\n        setFullScreenMode(fullScreenMode);\n    }, []);\n    var enterFullScreen = function () {\n        var pagesContainer = store.get('getPagesContainer');\n        if (!pagesContainer) {\n            return;\n        }\n        var target = getFullScreenTarget(pagesContainer());\n        store.get('enterFullScreenMode')(target);\n    };\n    var exitFullScreen = function () {\n        store.get('exitFullScreenMode')();\n    };\n    React__namespace.useEffect(function () {\n        store.subscribe('fullScreenMode', handleFullScreenMode);\n        return function () {\n            store.unsubscribe('fullScreenMode', handleFullScreenMode);\n        };\n    }, []);\n    return {\n        enterFullScreen: enterFullScreen,\n        exitFullScreen: exitFullScreen,\n        isFullScreen: fullScreenMode === core.FullScreenMode.Entering || fullScreenMode === core.FullScreenMode.EnteredCompletely,\n    };\n};\n\nvar EnterFullScreen = function (_a) {\n    var children = _a.children, enableShortcuts = _a.enableShortcuts, getFullScreenTarget = _a.getFullScreenTarget, store = _a.store;\n    var _b = useEnterFullScreen(getFullScreenTarget, store), enterFullScreen = _b.enterFullScreen, exitFullScreen = _b.exitFullScreen, isFullScreen = _b.isFullScreen;\n    var defaultChildren = function (props) {\n        return isFullScreen ? (React__namespace.createElement(ExitFullScreenButtonWithTooltip, { onClick: props.onClick })) : (React__namespace.createElement(EnterFullScreenButton, { enableShortcuts: enableShortcuts, onClick: props.onClick }));\n    };\n    var render = children || defaultChildren;\n    return render({\n        onClick: isFullScreen ? exitFullScreen : enterFullScreen,\n    });\n};\n\nvar EnterFullScreenMenuItem = function (_a) {\n    var onClick = _a.onClick;\n    var l10n = React__namespace.useContext(core.LocalizationContext).l10n;\n    var label = l10n && l10n.fullScreen ? l10n.fullScreen.enterFullScreen : 'Full screen';\n    return (React__namespace.createElement(core.MenuItem, { icon: React__namespace.createElement(FullScreenIcon, null), isDisabled: !core.isFullScreenEnabled(), testId: \"full-screen__enter-menu\", onClick: onClick }, label));\n};\n\nvar ExitFullScreenButton = function (_a) {\n    var onClick = _a.onClick;\n    var l10n = React__namespace.useContext(core.LocalizationContext).l10n;\n    var direction = React__namespace.useContext(core.ThemeContext).direction;\n    var isRtl = direction === core.TextDirection.RightToLeft;\n    var exitFullScreenLabel = l10n && l10n.fullScreen ? l10n.fullScreen.exitFullScreen : 'Exit full screen';\n    return (React__namespace.createElement(\"div\", { className: core.classNames({\n            'rpv-full-screen__exit-button': true,\n            'rpv-full-screen__exit-button--ltr': !isRtl,\n            'rpv-full-screen__exit-button--rtl': isRtl,\n        }) },\n        React__namespace.createElement(core.MinimalButton, { ariaLabel: exitFullScreenLabel, testId: \"full-screen__exit-button\", onClick: onClick },\n            React__namespace.createElement(ExitFullScreenIcon, null))));\n};\n\nvar ExitFullScreen = function (_a) {\n    var children = _a.children, getFullScreenTarget = _a.getFullScreenTarget, store = _a.store;\n    var _b = useEnterFullScreen(getFullScreenTarget, store), enterFullScreen = _b.enterFullScreen, exitFullScreen = _b.exitFullScreen, isFullScreen = _b.isFullScreen;\n    var defaultChildren = function (props) { return React__namespace.createElement(ExitFullScreenButton, { onClick: props.onClick }); };\n    var render = children || defaultChildren;\n    return (isFullScreen &&\n        render({\n            onClick: isFullScreen ? exitFullScreen : enterFullScreen,\n        }));\n};\n\nvar FullScreenModeTracker = function (_a) {\n    var store = _a.store, onEnterFullScreen = _a.onEnterFullScreen, onExitFullScreen = _a.onExitFullScreen;\n    var _b = React__namespace.useState(store.get('fullScreenMode')), fullScreenMode = _b[0], setFullScreenMode = _b[1];\n    var handleFullScreenMode = React__namespace.useCallback(function (fullScreenMode) {\n        setFullScreenMode(fullScreenMode);\n    }, []);\n    var handleEnteredFullScreen = function () {\n        onEnterFullScreen(store.get('zoom'));\n    };\n    var handleExitedFullScreen = function () {\n        onExitFullScreen(store.get('zoom'));\n    };\n    React__namespace.useEffect(function () {\n        switch (fullScreenMode) {\n            case core.FullScreenMode.EnteredCompletely:\n                handleEnteredFullScreen();\n                break;\n            case core.FullScreenMode.Exited:\n                handleExitedFullScreen();\n                break;\n        }\n    }, [fullScreenMode]);\n    React__namespace.useEffect(function () {\n        store.subscribe('fullScreenMode', handleFullScreenMode);\n        return function () {\n            store.unsubscribe('fullScreenMode', handleFullScreenMode);\n        };\n    }, []);\n    return ((fullScreenMode === core.FullScreenMode.Entering || fullScreenMode === core.FullScreenMode.Entered) && (React__namespace.createElement(\"div\", { className: \"rpv-full-screen__overlay\" },\n        React__namespace.createElement(core.Spinner, null))));\n};\n\nvar ShortcutHandler = function (_a) {\n    var containerRef = _a.containerRef, getFullScreenTarget = _a.getFullScreenTarget, store = _a.store;\n    var enterFullScreen = useEnterFullScreen(getFullScreenTarget, store).enterFullScreen;\n    var keydownHandler = function (e) {\n        if (e.shiftKey || e.altKey) {\n            return;\n        }\n        var areShortcutsPressed = core.isMac() ? e.metaKey && e.ctrlKey && e.key === 'f' : e.key === 'F11';\n        if (!areShortcutsPressed) {\n            return;\n        }\n        var containerEle = containerRef.current;\n        if (!containerEle || !document.activeElement || !containerEle.contains(document.activeElement)) {\n            return;\n        }\n        e.preventDefault();\n        enterFullScreen();\n    };\n    React__namespace.useEffect(function () {\n        var containerEle = containerRef.current;\n        if (!containerEle) {\n            return;\n        }\n        document.addEventListener('keydown', keydownHandler);\n        return function () {\n            document.removeEventListener('keydown', keydownHandler);\n        };\n    }, [containerRef.current]);\n    return React__namespace.createElement(React__namespace.Fragment, null);\n};\n\nvar fullScreenPlugin = function (props) {\n    var defaultFullScreenTarget = function (ele) { return ele; };\n    var getFullScreenTarget = (props === null || props === void 0 ? void 0 : props.getFullScreenTarget) || defaultFullScreenTarget;\n    var fullScreenPluginProps = React__namespace.useMemo(function () {\n        return Object.assign({}, { enableShortcuts: true, onEnterFullScreen: function () { }, onExitFullScreen: function () { } }, props);\n    }, []);\n    var store = React__namespace.useMemo(function () {\n        return core.createStore({\n            enterFullScreenMode: function () { },\n            exitFullScreenMode: function () { },\n            fullScreenMode: core.FullScreenMode.Normal,\n            zoom: function () { },\n        });\n    }, []);\n    var EnterFullScreenDecorator = function (props) { return (React__namespace.createElement(EnterFullScreen, __assign({}, props, { enableShortcuts: fullScreenPluginProps.enableShortcuts, getFullScreenTarget: getFullScreenTarget, store: store }))); };\n    var EnterFullScreenButtonDecorator = function () { return (React__namespace.createElement(EnterFullScreenDecorator, null, function (renderProps) { return (React__namespace.createElement(EnterFullScreenButton, __assign({ enableShortcuts: fullScreenPluginProps.enableShortcuts }, renderProps))); })); };\n    var EnterFullScreenMenuItemDecorator = function (props) { return (React__namespace.createElement(EnterFullScreenDecorator, null, function (p) { return (React__namespace.createElement(EnterFullScreenMenuItem, { onClick: function () {\n            p.onClick();\n            props.onClick();\n        } })); })); };\n    var ExitFullScreenDecorator = function () { return (React__namespace.createElement(ExitFullScreen, { getFullScreenTarget: getFullScreenTarget, store: store }, props === null || props === void 0 ? void 0 : props.renderExitFullScreenButton)); };\n    var renderViewer = function (props) {\n        var currentSlot = props.slot;\n        if (currentSlot.subSlot) {\n            currentSlot.subSlot.children = (React__namespace.createElement(React__namespace.Fragment, null,\n                fullScreenPluginProps.enableShortcuts && (React__namespace.createElement(ShortcutHandler, { containerRef: props.containerRef, getFullScreenTarget: getFullScreenTarget, store: store })),\n                React__namespace.createElement(FullScreenModeTracker, { store: store, onEnterFullScreen: fullScreenPluginProps.onEnterFullScreen, onExitFullScreen: fullScreenPluginProps.onExitFullScreen }),\n                React__namespace.createElement(ExitFullScreenDecorator, null),\n                currentSlot.subSlot.children));\n        }\n        return currentSlot;\n    };\n    return {\n        install: function (pluginFunctions) {\n            store.update('enterFullScreenMode', pluginFunctions.enterFullScreenMode);\n            store.update('exitFullScreenMode', pluginFunctions.exitFullScreenMode);\n            store.update('getPagesContainer', pluginFunctions.getPagesContainer);\n            store.update('zoom', pluginFunctions.zoom);\n        },\n        onViewerStateChange: function (viewerState) {\n            store.update('fullScreenMode', viewerState.fullScreenMode);\n            return viewerState;\n        },\n        renderViewer: renderViewer,\n        EnterFullScreen: EnterFullScreenDecorator,\n        EnterFullScreenButton: EnterFullScreenButtonDecorator,\n        EnterFullScreenMenuItem: EnterFullScreenMenuItemDecorator,\n    };\n};\n\nexports.ExitFullScreenIcon = ExitFullScreenIcon;\nexports.FullScreenIcon = FullScreenIcon;\nexports.fullScreenPlugin = fullScreenPlugin;\n","/**\n * A React component to view a PDF document\n *\n * @see https://react-pdf-viewer.dev\n * @license https://react-pdf-viewer.dev/license\n * @copyright 2019-2023 Nguyen Huu Phuoc <me@phuoc.ng>\n */\n\n'use strict';\n\nif (process.env.NODE_ENV === 'production') {\n    module.exports = require('./cjs/full-screen.min.js');\n} else {\n    module.exports = require('./cjs/full-screen.js');\n}\n","'use strict';\n\nvar core = require('@react-pdf-viewer/core');\nvar React = require('react');\n\nfunction _interopNamespaceDefault(e) {\n    var n = Object.create(null);\n    if (e) {\n        Object.keys(e).forEach(function (k) {\n            if (k !== 'default') {\n                var d = Object.getOwnPropertyDescriptor(e, k);\n                Object.defineProperty(n, k, d.get ? d : {\n                    enumerable: true,\n                    get: function () { return e[k]; }\n                });\n            }\n        });\n    }\n    n.default = e;\n    return Object.freeze(n);\n}\n\nvar React__namespace = /*#__PURE__*/_interopNamespaceDefault(React);\n\nvar DownloadIcon = function () { return (React__namespace.createElement(core.Icon, { size: 16 },\n    React__namespace.createElement(\"path\", { d: \"M5.5,11.5c-.275,0-.341.159-.146.354l6.292,6.293a.5.5,0,0,0,.709,0l6.311-6.275c.2-.193.13-.353-.145-.355L15.5,11.5V1.5a1,1,0,0,0-1-1h-5a1,1,0,0,0-1,1V11a.5.5,0,0,1-.5.5Z\" }),\n    React__namespace.createElement(\"path\", { d: \"M23.5,18.5v4a1,1,0,0,1-1,1H1.5a1,1,0,0,1-1-1v-4\" }))); };\n\n/******************************************************************************\r\nCopyright (c) Microsoft Corporation.\r\n\r\nPermission to use, copy, modify, and/or distribute this software for any\r\npurpose with or without fee is hereby granted.\r\n\r\nTHE SOFTWARE IS PROVIDED \"AS IS\" AND THE AUTHOR DISCLAIMS ALL WARRANTIES WITH\r\nREGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY\r\nAND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT,\r\nINDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM\r\nLOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR\r\nOTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR\r\nPERFORMANCE OF THIS SOFTWARE.\r\n***************************************************************************** */\r\n\r\nvar __assign = function() {\r\n    __assign = Object.assign || function __assign(t) {\r\n        for (var s, i = 1, n = arguments.length; i < n; i++) {\r\n            s = arguments[i];\r\n            for (var p in s) if (Object.prototype.hasOwnProperty.call(s, p)) t[p] = s[p];\r\n        }\r\n        return t;\r\n    };\r\n    return __assign.apply(this, arguments);\r\n};\n\nvar TOOLTIP_OFFSET = { left: 0, top: 8 };\nvar DownloadButton = function (_a) {\n    var onClick = _a.onClick;\n    var l10n = React__namespace.useContext(core.LocalizationContext).l10n;\n    var label = l10n && l10n.download ? l10n.download.download : 'Download';\n    return (React__namespace.createElement(core.Tooltip, { ariaControlsSuffix: \"get-file\", position: core.Position.BottomCenter, target: React__namespace.createElement(core.MinimalButton, { ariaLabel: label, testId: \"get-file__download-button\", onClick: onClick },\n            React__namespace.createElement(DownloadIcon, null)), content: function () { return label; }, offset: TOOLTIP_OFFSET }));\n};\n\nvar isChromeIOS = function () { return /iphone|ipod|ipad/i.test(navigator.userAgent) && /CriOS/i.test(navigator.userAgent); };\nvar isSafariIOS = function () { return /iphone|ipod|ipad/i.test(navigator.userAgent) && !/CriOS/i.test(navigator.userAgent); };\nvar encodeUint8Array = function (data) {\n    return btoa(Array(data.length)\n        .fill('')\n        .map(function (_, i) { return String.fromCharCode(data[i]); })\n        .join(''));\n};\nvar download = function (url, saveAs) {\n    var link = document.createElement('a');\n    link.style.display = 'none';\n    link.href = url;\n    link.setAttribute('download', saveAs);\n    document.body.appendChild(link);\n    link.click();\n    document.body.removeChild(link);\n};\nvar downloadBlob = function (data, saveAs, mimeType) {\n    var blobUrl = URL.createObjectURL(new Blob([data], { type: mimeType }));\n    download(blobUrl, saveAs);\n    if (blobUrl) {\n        URL.revokeObjectURL(blobUrl);\n    }\n    return;\n};\nvar downloadFile = function (doc, saveAs) {\n    doc.getData().then(function (data) {\n        isSafariIOS()\n            ?\n                downloadBlob(data, saveAs, 'application/octet-stream')\n            : isChromeIOS()\n                ? download(\"data:application/pdf;base64,\".concat(encodeUint8Array(data)), saveAs)\n                : downloadBlob(data, saveAs, 'application/pdf');\n    });\n};\n\nvar Download = function (_a) {\n    var children = _a.children, fileNameGenerator = _a.fileNameGenerator, store = _a.store;\n    var _b = React__namespace.useState(store.get('file')), currentFile = _b[0], setCurrentFile = _b[1];\n    var _c = React__namespace.useState(store.get('doc')), currentDocument = _c[0], setCurrentDocument = _c[1];\n    var handleDocumentChanged = function (doc) {\n        setCurrentDocument(doc);\n    };\n    var handleFileChanged = function (file) {\n        setCurrentFile(file);\n    };\n    React__namespace.useEffect(function () {\n        store.subscribe('doc', handleDocumentChanged);\n        store.subscribe('file', handleFileChanged);\n        return function () {\n            store.subscribe('doc', handleDocumentChanged);\n            store.unsubscribe('file', handleFileChanged);\n        };\n    }, []);\n    var download = function () {\n        if (currentDocument && currentFile) {\n            downloadFile(currentDocument, fileNameGenerator(currentFile));\n        }\n    };\n    var defaultChildren = function (props) { return React__namespace.createElement(DownloadButton, { onClick: props.onClick }); };\n    var render = children || defaultChildren;\n    return render({\n        onClick: download,\n    });\n};\n\nvar DownloadMenuItem = function (_a) {\n    var onClick = _a.onClick;\n    var l10n = React__namespace.useContext(core.LocalizationContext).l10n;\n    var label = l10n && l10n.download ? l10n.download.download : 'Download';\n    return (React__namespace.createElement(core.MenuItem, { icon: React__namespace.createElement(DownloadIcon, null), testId: \"get-file__download-menu\", onClick: onClick }, label));\n};\n\nvar getFileName = function (url) {\n    var str = url.split('/').pop();\n    return str ? str.split('#')[0].split('?')[0] : url;\n};\n\nvar getFilePlugin = function (props) {\n    var store = React__namespace.useMemo(function () { return core.createStore({}); }, []);\n    var defaultFileNameGenerator = function (file) { return (file.name ? getFileName(file.name) : 'document.pdf'); };\n    var DownloadDecorator = function (downloadProps) { return (React__namespace.createElement(Download, __assign({}, downloadProps, { fileNameGenerator: props ? props.fileNameGenerator || defaultFileNameGenerator : defaultFileNameGenerator, store: store }))); };\n    var DownloadButtonDecorator = function () { return (React__namespace.createElement(DownloadDecorator, null, function (props) { return React__namespace.createElement(DownloadButton, __assign({}, props)); })); };\n    var DownloadMenuItemDecorator = function (props) { return (React__namespace.createElement(DownloadDecorator, null, function (p) { return (React__namespace.createElement(DownloadMenuItem, { onClick: function () {\n            p.onClick();\n            props.onClick();\n        } })); })); };\n    return {\n        onDocumentLoad: function (props) {\n            store.update('doc', props.doc);\n            store.update('file', props.file);\n        },\n        Download: DownloadDecorator,\n        DownloadButton: DownloadButtonDecorator,\n        DownloadMenuItem: DownloadMenuItemDecorator,\n    };\n};\n\nexports.DownloadIcon = DownloadIcon;\nexports.getFilePlugin = getFilePlugin;\n","/**\n * A React component to view a PDF document\n *\n * @see https://react-pdf-viewer.dev\n * @license https://react-pdf-viewer.dev/license\n * @copyright 2019-2023 Nguyen Huu Phuoc <me@phuoc.ng>\n */\n\n'use strict';\n\nif (process.env.NODE_ENV === 'production') {\n    module.exports = require('./cjs/get-file.min.js');\n} else {\n    module.exports = require('./cjs/get-file.js');\n}\n","'use strict';\n\nvar core = require('@react-pdf-viewer/core');\nvar React = require('react');\n\nfunction _interopNamespaceDefault(e) {\n    var n = Object.create(null);\n    if (e) {\n        Object.keys(e).forEach(function (k) {\n            if (k !== 'default') {\n                var d = Object.getOwnPropertyDescriptor(e, k);\n                Object.defineProperty(n, k, d.get ? d : {\n                    enumerable: true,\n                    get: function () { return e[k]; }\n                });\n            }\n        });\n    }\n    n.default = e;\n    return Object.freeze(n);\n}\n\nvar React__namespace = /*#__PURE__*/_interopNamespaceDefault(React);\n\nvar OpenFileIcon = function () { return (React__namespace.createElement(core.Icon, { size: 16 },\n    React__namespace.createElement(\"path\", { d: \"M18.5,7.5c.275,0,.341-.159.146-.354L12.354.854a.5.5,0,0,0-.708,0L5.354,7.147c-.2.195-.129.354.146.354h3v10a1,1,0,0,0,1,1h5a1,1,0,0,0,1-1V7.5Z\" }),\n    React__namespace.createElement(\"path\", { d: \"M23.5,18.5v4a1,1,0,0,1-1,1H1.5a1,1,0,0,1-1-1v-4\" }))); };\n\n/******************************************************************************\r\nCopyright (c) Microsoft Corporation.\r\n\r\nPermission to use, copy, modify, and/or distribute this software for any\r\npurpose with or without fee is hereby granted.\r\n\r\nTHE SOFTWARE IS PROVIDED \"AS IS\" AND THE AUTHOR DISCLAIMS ALL WARRANTIES WITH\r\nREGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY\r\nAND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT,\r\nINDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM\r\nLOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR\r\nOTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR\r\nPERFORMANCE OF THIS SOFTWARE.\r\n***************************************************************************** */\r\n\r\nvar __assign = function() {\r\n    __assign = Object.assign || function __assign(t) {\r\n        for (var s, i = 1, n = arguments.length; i < n; i++) {\r\n            s = arguments[i];\r\n            for (var p in s) if (Object.prototype.hasOwnProperty.call(s, p)) t[p] = s[p];\r\n        }\r\n        return t;\r\n    };\r\n    return __assign.apply(this, arguments);\r\n};\n\nvar useTriggerOpen = function (store) {\n    var inputRef = React__namespace.useRef();\n    var openFile = function () {\n        var inputEle = inputRef.current;\n        if (inputEle) {\n            inputEle.click();\n            if (store.get('triggerOpenFile')) {\n                store.update('triggerOpenFile', false);\n            }\n        }\n    };\n    var handleOpenFileTriggered = function (trigger) {\n        if (trigger) {\n            openFile();\n        }\n    };\n    React__namespace.useEffect(function () {\n        store.subscribe('triggerOpenFile', handleOpenFileTriggered);\n        return function () {\n            store.unsubscribe('triggerOpenFile', handleOpenFileTriggered);\n        };\n    }, []);\n    return {\n        inputRef: inputRef,\n        openFile: openFile,\n    };\n};\n\nvar TOOLTIP_OFFSET = { left: 0, top: 8 };\nvar OpenButton = function (_a) {\n    var enableShortcuts = _a.enableShortcuts, store = _a.store, onClick = _a.onClick;\n    var l10n = React__namespace.useContext(core.LocalizationContext).l10n;\n    var label = l10n && l10n.open ? l10n.open.openFile : 'Open file';\n    var _b = useTriggerOpen(store), inputRef = _b.inputRef, openFile = _b.openFile;\n    var ariaKeyShortcuts = enableShortcuts ? (core.isMac() ? 'Meta+O' : 'Ctrl+O') : '';\n    return (React__namespace.createElement(core.Tooltip, { ariaControlsSuffix: \"open\", position: core.Position.BottomCenter, target: React__namespace.createElement(\"div\", { className: \"rpv-open__input-wrapper\" },\n            React__namespace.createElement(\"input\", { accept: \".pdf\", ref: inputRef, className: \"rpv-open__input\", multiple: false, tabIndex: -1, title: \"\", type: \"file\", onChange: onClick }),\n            React__namespace.createElement(core.MinimalButton, { ariaKeyShortcuts: ariaKeyShortcuts, ariaLabel: label, testId: \"open__button\", onClick: openFile },\n                React__namespace.createElement(OpenFileIcon, null))), content: function () { return label; }, offset: TOOLTIP_OFFSET }));\n};\n\nvar Open = function (_a) {\n    var children = _a.children, enableShortcuts = _a.enableShortcuts, store = _a.store;\n    var handleOpenFiles = function (e) {\n        var files = e.target.files;\n        if (!files || !files.length) {\n            return;\n        }\n        var openFile = store.get('openFile');\n        if (openFile) {\n            openFile(files[0]);\n        }\n    };\n    var defaultChildren = function (props) { return (React__namespace.createElement(OpenButton, { enableShortcuts: enableShortcuts, store: store, onClick: props.onClick })); };\n    var render = children || defaultChildren;\n    return render({\n        onClick: handleOpenFiles,\n    });\n};\n\nvar OpenMenuItem = function (_a) {\n    var store = _a.store, onClick = _a.onClick;\n    var l10n = React__namespace.useContext(core.LocalizationContext).l10n;\n    var label = l10n && l10n.open ? l10n.open.openFile : 'Open file';\n    var _b = useTriggerOpen(store), inputRef = _b.inputRef, openFile = _b.openFile;\n    return (React__namespace.createElement(core.MenuItem, { icon: React__namespace.createElement(OpenFileIcon, null), testId: \"open__menu\", onClick: openFile },\n        React__namespace.createElement(\"div\", { className: \"rpv-open__input-wrapper\" },\n            React__namespace.createElement(\"input\", { accept: \".pdf\", ref: inputRef, className: \"rpv-open__input\", multiple: false, tabIndex: -1, title: \"\", type: \"file\", onChange: onClick }),\n            label)));\n};\n\nvar ShortcutHandler = function (_a) {\n    var containerRef = _a.containerRef, store = _a.store;\n    var keydownHandler = function (e) {\n        if (e.shiftKey || e.altKey || e.key !== 'o') {\n            return;\n        }\n        var isCommandPressed = core.isMac() ? e.metaKey : e.ctrlKey;\n        if (!isCommandPressed) {\n            return;\n        }\n        var containerEle = containerRef.current;\n        if (!containerEle || !document.activeElement || !containerEle.contains(document.activeElement)) {\n            return;\n        }\n        e.preventDefault();\n        store.update('triggerOpenFile', true);\n    };\n    React__namespace.useEffect(function () {\n        var containerEle = containerRef.current;\n        if (!containerEle) {\n            return;\n        }\n        document.addEventListener('keydown', keydownHandler);\n        return function () {\n            document.removeEventListener('keydown', keydownHandler);\n        };\n    }, [containerRef.current]);\n    return React__namespace.createElement(React__namespace.Fragment, null);\n};\n\nvar openPlugin = function (props) {\n    var openPluginProps = React__namespace.useMemo(function () { return Object.assign({}, { enableShortcuts: true }, props); }, []);\n    var store = React__namespace.useMemo(function () { return core.createStore({}); }, []);\n    var OpenDecorator = function (props) { return (React__namespace.createElement(Open, __assign({ enableShortcuts: openPluginProps.enableShortcuts }, props, { store: store }))); };\n    var OpenButtonDecorator = function () { return React__namespace.createElement(OpenDecorator, null); };\n    var OpenMenuItemDecorator = function () { return (React__namespace.createElement(OpenDecorator, null, function (p) { return React__namespace.createElement(OpenMenuItem, { store: store, onClick: p.onClick }); })); };\n    var renderViewer = function (props) {\n        var slot = props.slot;\n        var updateSlot = {\n            children: (React__namespace.createElement(React__namespace.Fragment, null,\n                openPluginProps.enableShortcuts && (React__namespace.createElement(ShortcutHandler, { containerRef: props.containerRef, store: store })),\n                slot.children)),\n        };\n        return __assign(__assign({}, slot), updateSlot);\n    };\n    return {\n        install: function (pluginFunctions) {\n            store.update('openFile', pluginFunctions.openFile);\n        },\n        renderViewer: renderViewer,\n        Open: OpenDecorator,\n        OpenButton: OpenButtonDecorator,\n        OpenMenuItem: OpenMenuItemDecorator,\n    };\n};\n\nexports.OpenFileIcon = OpenFileIcon;\nexports.openPlugin = openPlugin;\n","/**\n * A React component to view a PDF document\n *\n * @see https://react-pdf-viewer.dev\n * @license https://react-pdf-viewer.dev/license\n * @copyright 2019-2023 Nguyen Huu Phuoc <me@phuoc.ng>\n */\n\n'use strict';\n\nif (process.env.NODE_ENV === 'production') {\n    module.exports = require('./cjs/open.min.js');\n} else {\n    module.exports = require('./cjs/open.js');\n}\n","'use strict';\n\nvar core = require('@react-pdf-viewer/core');\nvar React = require('react');\n\nfunction _interopNamespaceDefault(e) {\n    var n = Object.create(null);\n    if (e) {\n        Object.keys(e).forEach(function (k) {\n            if (k !== 'default') {\n                var d = Object.getOwnPropertyDescriptor(e, k);\n                Object.defineProperty(n, k, d.get ? d : {\n                    enumerable: true,\n                    get: function () { return e[k]; }\n                });\n            }\n        });\n    }\n    n.default = e;\n    return Object.freeze(n);\n}\n\nvar React__namespace = /*#__PURE__*/_interopNamespaceDefault(React);\n\nvar DownArrowIcon = function () { return (React__namespace.createElement(core.Icon, { size: 16 },\n    React__namespace.createElement(\"path\", { d: \"M2.32,2.966h19.452c0.552,0.001,1,0.449,0.999,1.001c0,0.182-0.05,0.36-0.144,0.516L12.9,20.552\\n            c-0.286,0.472-0.901,0.624-1.373,0.338c-0.138-0.084-0.254-0.2-0.338-0.338L1.465,4.483C1.179,4.01,1.331,3.396,1.804,3.11\\n            C1.96,3.016,2.138,2.966,2.32,2.966z\" }))); };\n\nvar NextIcon = function () { return (React__namespace.createElement(core.Icon, { size: 16 },\n    React__namespace.createElement(\"path\", { d: \"M0.541,5.627L11.666,18.2c0.183,0.207,0.499,0.226,0.706,0.043c0.015-0.014,0.03-0.028,0.043-0.043\\n            L23.541,5.627\" }))); };\n\n/******************************************************************************\r\nCopyright (c) Microsoft Corporation.\r\n\r\nPermission to use, copy, modify, and/or distribute this software for any\r\npurpose with or without fee is hereby granted.\r\n\r\nTHE SOFTWARE IS PROVIDED \"AS IS\" AND THE AUTHOR DISCLAIMS ALL WARRANTIES WITH\r\nREGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY\r\nAND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT,\r\nINDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM\r\nLOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR\r\nOTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR\r\nPERFORMANCE OF THIS SOFTWARE.\r\n***************************************************************************** */\r\n\r\nvar __assign = function() {\r\n    __assign = Object.assign || function __assign(t) {\r\n        for (var s, i = 1, n = arguments.length; i < n; i++) {\r\n            s = arguments[i];\r\n            for (var p in s) if (Object.prototype.hasOwnProperty.call(s, p)) t[p] = s[p];\r\n        }\r\n        return t;\r\n    };\r\n    return __assign.apply(this, arguments);\r\n};\n\nvar useCurrentPage = function (store) {\n    var _a = React__namespace.useState(store.get('currentPage') || 0), currentPage = _a[0], setCurrentPage = _a[1];\n    var handleCurrentPageChanged = function (currentPageIndex) {\n        setCurrentPage(currentPageIndex);\n    };\n    core.useIsomorphicLayoutEffect(function () {\n        store.subscribe('currentPage', handleCurrentPageChanged);\n        return function () {\n            store.unsubscribe('currentPage', handleCurrentPageChanged);\n        };\n    }, []);\n    return { currentPage: currentPage };\n};\n\nvar useNumberOfPages = function (store) {\n    var _a = React__namespace.useState(store.get('numberOfPages') || 0), numberOfPages = _a[0], setNumberOfPages = _a[1];\n    var handleNumberOfPages = function (total) {\n        setNumberOfPages(total);\n    };\n    React__namespace.useEffect(function () {\n        store.subscribe('numberOfPages', handleNumberOfPages);\n        return function () {\n            store.unsubscribe('numberOfPages', handleNumberOfPages);\n        };\n    }, []);\n    return { numberOfPages: numberOfPages };\n};\n\nvar CurrentPageInput = function (_a) {\n    var store = _a.store;\n    var l10n = React__namespace.useContext(core.LocalizationContext).l10n;\n    var _b = React__namespace.useState('1'), editingPage = _b[0], setEditingPage = _b[1];\n    var currentPage = useCurrentPage(store).currentPage;\n    var numberOfPages = useNumberOfPages(store).numberOfPages;\n    React__namespace.useEffect(function () { return setEditingPage(\"\".concat(currentPage + 1)); }, [currentPage]);\n    var gotoNextPage = function () {\n        var nextPage = currentPage + 1;\n        if (nextPage < numberOfPages) {\n            setEditingPage(\"\".concat(nextPage + 1));\n            jumpTo(nextPage);\n        }\n    };\n    var gotoPreviousPage = function () {\n        var previousPage = currentPage - 1;\n        if (previousPage >= 0) {\n            setEditingPage(\"\".concat(previousPage + 1));\n            jumpTo(previousPage);\n        }\n    };\n    var jumpTo = function (page) {\n        var jumpToPage = store.get('jumpToPage');\n        if (jumpToPage) {\n            jumpToPage(page);\n        }\n    };\n    var jump = function () {\n        var newPage = parseInt(editingPage, 10);\n        editingPage === '' || newPage < 1 || newPage > numberOfPages\n            ? setEditingPage(\"\".concat(currentPage + 1))\n            : jumpTo(newPage - 1);\n    };\n    var keydownPage = function (e) {\n        switch (e.key) {\n            case 'ArrowUp':\n                gotoPreviousPage();\n                break;\n            case 'ArrowDown':\n                gotoNextPage();\n                break;\n            case 'Enter':\n                jump();\n                break;\n        }\n    };\n    var label = l10n && l10n.pageNavigation\n        ? l10n.pageNavigation.enterPageNumber\n        : 'Enter a page number';\n    return (React__namespace.createElement(\"span\", { className: \"rpv-page-navigation__current-page-input\" },\n        React__namespace.createElement(core.TextBox, { ariaLabel: label, testId: \"page-navigation__current-page-input\", type: \"text\", value: editingPage, onChange: setEditingPage, onKeyDown: keydownPage })));\n};\n\nvar FetchLabels = function (_a) {\n    var children = _a.children, doc = _a.doc;\n    var isMounted = core.useIsMounted();\n    var _b = React__namespace.useState({\n        loading: true,\n        labels: [],\n    }), status = _b[0], setStatus = _b[1];\n    React__namespace.useEffect(function () {\n        doc.getPageLabels().then(function (result) {\n            isMounted.current && setStatus({ loading: false, labels: result || [] });\n        });\n    }, [doc.loadingTask.docId]);\n    return status.loading ? React__namespace.createElement(React__namespace.Fragment, null) : children(status.labels);\n};\n\nvar useDocument = function (store) {\n    var _a = React__namespace.useState(store.get('doc')), currentDoc = _a[0], setCurrentDoc = _a[1];\n    var handleDocumentChanged = function (doc) {\n        setCurrentDoc(doc);\n    };\n    React__namespace.useEffect(function () {\n        store.subscribe('doc', handleDocumentChanged);\n        return function () {\n            store.unsubscribe('doc', handleDocumentChanged);\n        };\n    }, []);\n    return currentDoc;\n};\n\nvar CurrentPageLabel = function (_a) {\n    var children = _a.children, store = _a.store;\n    var currentDoc = useDocument(store);\n    var currentPage = useCurrentPage(store).currentPage;\n    var numberOfPages = useNumberOfPages(store).numberOfPages;\n    var defaultChildren = function (props) { return React__namespace.createElement(React__namespace.Fragment, null, props.currentPage + 1); };\n    var render = children || defaultChildren;\n    return currentDoc ? (React__namespace.createElement(FetchLabels, { doc: currentDoc }, function (labels) {\n        var pageLabel = labels.length === numberOfPages && numberOfPages > 0 ? labels[currentPage] : '';\n        return render({\n            currentPage: currentPage,\n            numberOfPages: numberOfPages,\n            pageLabel: pageLabel,\n        });\n    })) : (React__namespace.createElement(React__namespace.Fragment, null));\n};\n\nvar UpArrowIcon = function () { return (React__namespace.createElement(core.Icon, { size: 16 },\n    React__namespace.createElement(\"path\", { d: \"M21.783,21.034H2.332c-0.552,0-1-0.448-1-1c0-0.182,0.05-0.361,0.144-0.517L11.2,3.448\\n            c0.286-0.472,0.901-0.624,1.373-0.338c0.138,0.084,0.254,0.2,0.338,0.338l9.726,16.069c0.286,0.473,0.134,1.087-0.339,1.373\\n            C22.143,20.984,21.965,21.034,21.783,21.034z\" }))); };\n\nvar TOOLTIP_OFFSET$3 = { left: 0, top: 8 };\nvar GoToFirstPageButton = function (_a) {\n    var isDisabled = _a.isDisabled, onClick = _a.onClick;\n    var l10n = React__namespace.useContext(core.LocalizationContext).l10n;\n    var label = l10n && l10n.pageNavigation ? l10n.pageNavigation.goToFirstPage : 'First page';\n    return (React__namespace.createElement(core.Tooltip, { ariaControlsSuffix: \"page-navigation-first\", position: core.Position.BottomCenter, target: React__namespace.createElement(core.MinimalButton, { ariaLabel: label, isDisabled: isDisabled, testId: \"page-navigation__first-button\", onClick: onClick },\n            React__namespace.createElement(UpArrowIcon, null)), content: function () { return label; }, offset: TOOLTIP_OFFSET$3 }));\n};\n\nvar GoToFirstPage = function (_a) {\n    var children = _a.children, store = _a.store;\n    var currentPage = useCurrentPage(store).currentPage;\n    var goToFirstPage = function () {\n        var jumpToPage = store.get('jumpToPage');\n        if (jumpToPage) {\n            jumpToPage(0);\n        }\n    };\n    var defaultChildren = function (props) { return (React__namespace.createElement(GoToFirstPageButton, { isDisabled: props.isDisabled, onClick: props.onClick })); };\n    var render = children || defaultChildren;\n    return render({\n        isDisabled: currentPage === 0,\n        onClick: goToFirstPage,\n    });\n};\n\nvar GoToFirstPageMenuItem = function (_a) {\n    var isDisabled = _a.isDisabled, onClick = _a.onClick;\n    var l10n = React__namespace.useContext(core.LocalizationContext).l10n;\n    var label = l10n && l10n.pageNavigation ? l10n.pageNavigation.goToFirstPage : 'First page';\n    return (React__namespace.createElement(core.MenuItem, { icon: React__namespace.createElement(UpArrowIcon, null), isDisabled: isDisabled, testId: \"page-navigation__first-menu\", onClick: onClick }, label));\n};\n\nvar TOOLTIP_OFFSET$2 = { left: 0, top: 8 };\nvar GoToLastPageButton = function (_a) {\n    var isDisabled = _a.isDisabled, onClick = _a.onClick;\n    var l10n = React__namespace.useContext(core.LocalizationContext).l10n;\n    var label = l10n && l10n.pageNavigation ? l10n.pageNavigation.goToLastPage : 'Last page';\n    return (React__namespace.createElement(core.Tooltip, { ariaControlsSuffix: \"page-navigation-last\", position: core.Position.BottomCenter, target: React__namespace.createElement(core.MinimalButton, { ariaLabel: label, isDisabled: isDisabled, testId: \"page-navigation__last-button\", onClick: onClick },\n            React__namespace.createElement(DownArrowIcon, null)), content: function () { return label; }, offset: TOOLTIP_OFFSET$2 }));\n};\n\nvar GoToLastPage = function (_a) {\n    var children = _a.children, store = _a.store;\n    var currentPage = useCurrentPage(store).currentPage;\n    var numberOfPages = useNumberOfPages(store).numberOfPages;\n    var goToLastPage = function () {\n        var jumpToPage = store.get('jumpToPage');\n        if (jumpToPage) {\n            jumpToPage(numberOfPages - 1);\n        }\n    };\n    var defaultChildren = function (props) { return (React__namespace.createElement(GoToLastPageButton, { isDisabled: props.isDisabled, onClick: props.onClick })); };\n    var render = children || defaultChildren;\n    return render({\n        isDisabled: currentPage + 1 >= numberOfPages,\n        onClick: goToLastPage,\n    });\n};\n\nvar GoToLastPageMenuItem = function (_a) {\n    var isDisabled = _a.isDisabled, onClick = _a.onClick;\n    var l10n = React__namespace.useContext(core.LocalizationContext).l10n;\n    var label = l10n && l10n.pageNavigation ? l10n.pageNavigation.goToLastPage : 'Last page';\n    return (React__namespace.createElement(core.MenuItem, { icon: React__namespace.createElement(DownArrowIcon, null), isDisabled: isDisabled, testId: \"page-navigation__last-menu\", onClick: onClick }, label));\n};\n\nvar TOOLTIP_OFFSET$1 = { left: 0, top: 8 };\nvar GoToNextPageButton = function (_a) {\n    var isDisabled = _a.isDisabled, onClick = _a.onClick;\n    var l10n = React__namespace.useContext(core.LocalizationContext).l10n;\n    var label = l10n && l10n.pageNavigation ? l10n.pageNavigation.goToNextPage : 'Next page';\n    return (React__namespace.createElement(core.Tooltip, { ariaControlsSuffix: \"page-navigation-next\", position: core.Position.BottomCenter, target: React__namespace.createElement(core.MinimalButton, { ariaLabel: label, isDisabled: isDisabled, testId: \"page-navigation__next-button\", onClick: onClick },\n            React__namespace.createElement(NextIcon, null)), content: function () { return label; }, offset: TOOLTIP_OFFSET$1 }));\n};\n\nvar GoToNextPage = function (_a) {\n    var children = _a.children, store = _a.store;\n    var currentPage = useCurrentPage(store).currentPage;\n    var numberOfPages = useNumberOfPages(store).numberOfPages;\n    var goToNextPage = function () {\n        var jumpToNextPage = store.get('jumpToNextPage');\n        if (jumpToNextPage) {\n            jumpToNextPage();\n        }\n    };\n    var defaultChildren = function (props) { return (React__namespace.createElement(GoToNextPageButton, { onClick: props.onClick, isDisabled: props.isDisabled })); };\n    var render = children || defaultChildren;\n    return render({\n        isDisabled: currentPage + 1 >= numberOfPages,\n        onClick: goToNextPage,\n    });\n};\n\nvar GoToNextPageMenuItem = function (_a) {\n    var isDisabled = _a.isDisabled, onClick = _a.onClick;\n    var l10n = React__namespace.useContext(core.LocalizationContext).l10n;\n    var label = l10n && l10n.pageNavigation ? l10n.pageNavigation.goToNextPage : 'Next page';\n    return (React__namespace.createElement(core.MenuItem, { icon: React__namespace.createElement(NextIcon, null), isDisabled: isDisabled, testId: \"page-navigation__next-menu\", onClick: onClick }, label));\n};\n\nvar PreviousIcon = function () { return (React__namespace.createElement(core.Icon, { size: 16 },\n    React__namespace.createElement(\"path\", { d: \"M23.535,18.373L12.409,5.8c-0.183-0.207-0.499-0.226-0.706-0.043C11.688,5.77,11.674,5.785,11.66,5.8\\n            L0.535,18.373\" }))); };\n\nvar TOOLTIP_OFFSET = { left: 0, top: 8 };\nvar GoToPreviousPageButton = function (_a) {\n    var isDisabled = _a.isDisabled, onClick = _a.onClick;\n    var l10n = React__namespace.useContext(core.LocalizationContext).l10n;\n    var label = l10n && l10n.pageNavigation\n        ? l10n.pageNavigation.goToPreviousPage\n        : 'Previous page';\n    return (React__namespace.createElement(core.Tooltip, { ariaControlsSuffix: \"page-navigation-previous\", position: core.Position.BottomCenter, target: React__namespace.createElement(core.MinimalButton, { ariaLabel: label, isDisabled: isDisabled, testId: \"page-navigation__previous-button\", onClick: onClick },\n            React__namespace.createElement(PreviousIcon, null)), content: function () { return label; }, offset: TOOLTIP_OFFSET }));\n};\n\nvar GoToPreviousPage = function (_a) {\n    var store = _a.store, children = _a.children;\n    var currentPage = useCurrentPage(store).currentPage;\n    var goToPreviousPage = function () {\n        var jumpToPreviousPage = store.get('jumpToPreviousPage');\n        if (jumpToPreviousPage) {\n            jumpToPreviousPage();\n        }\n    };\n    var defaultChildren = function (props) { return (React__namespace.createElement(GoToPreviousPageButton, { isDisabled: props.isDisabled, onClick: props.onClick })); };\n    var render = children || defaultChildren;\n    return render({\n        isDisabled: currentPage <= 0,\n        onClick: goToPreviousPage,\n    });\n};\n\nvar GoToPreviousPageMenuItem = function (_a) {\n    var isDisabled = _a.isDisabled, onClick = _a.onClick;\n    var l10n = React__namespace.useContext(core.LocalizationContext).l10n;\n    var label = l10n && l10n.pageNavigation\n        ? l10n.pageNavigation.goToPreviousPage\n        : 'Previous page';\n    return (React__namespace.createElement(core.MenuItem, { icon: React__namespace.createElement(PreviousIcon, null), isDisabled: isDisabled, testId: \"page-navigation__previous-menu\", onClick: onClick }, label));\n};\n\nvar NumberOfPages = function (_a) {\n    var children = _a.children, store = _a.store;\n    var numberOfPages = useNumberOfPages(store).numberOfPages;\n    return children ? children({ numberOfPages: numberOfPages }) : React__namespace.createElement(React__namespace.Fragment, null, numberOfPages);\n};\n\nvar ShortcutHandler = function (_a) {\n    var containerRef = _a.containerRef, numPages = _a.numPages, store = _a.store;\n    var currentPage = useCurrentPage(store).currentPage;\n    var currentPageRef = React__namespace.useRef(currentPage);\n    currentPageRef.current = currentPage;\n    var isMouseInsideRef = React__namespace.useRef(false);\n    var handleMouseEnter = function () {\n        isMouseInsideRef.current = true;\n    };\n    var handleMouseLeave = function () {\n        isMouseInsideRef.current = false;\n    };\n    var goToNextPage = function () {\n        var jumpToPage = store.get('jumpToPage');\n        var targetPage = currentPageRef.current + 1;\n        if (jumpToPage && targetPage < numPages) {\n            jumpToPage(targetPage);\n        }\n    };\n    var goToPreviousPage = function () {\n        var jumpToPage = store.get('jumpToPage');\n        var targetPage = currentPageRef.current - 1;\n        if (jumpToPage && targetPage >= 0) {\n            jumpToPage(targetPage);\n        }\n    };\n    var jumpToNextDestination = function () {\n        var jumpToNextDestination = store.get('jumpToNextDestination');\n        if (jumpToNextDestination) {\n            jumpToNextDestination();\n        }\n    };\n    var jumpToPreviousDestination = function () {\n        var jumpToPreviousDestination = store.get('jumpToPreviousDestination');\n        if (jumpToPreviousDestination) {\n            jumpToPreviousDestination();\n        }\n    };\n    var handleKeydown = function (e) {\n        var containerEle = containerRef.current;\n        var shouldHandleShortcuts = isMouseInsideRef.current || (document.activeElement && containerEle.contains(document.activeElement));\n        if (!containerEle || !shouldHandleShortcuts) {\n            return;\n        }\n        var shouldGoToNextPage = (e.altKey && e.key === 'ArrowDown') || (!e.shiftKey && !e.altKey && e.key === 'PageDown');\n        var shouldGoToPreviousPage = (e.altKey && e.key === 'ArrowUp') || (!e.shiftKey && !e.altKey && e.key === 'PageUp');\n        if (shouldGoToNextPage) {\n            e.preventDefault();\n            goToNextPage();\n            return;\n        }\n        if (shouldGoToPreviousPage) {\n            e.preventDefault();\n            goToPreviousPage();\n            return;\n        }\n        var isCommandPressed = core.isMac() ? e.metaKey && !e.ctrlKey : e.altKey;\n        if (isCommandPressed) {\n            switch (e.key) {\n                case 'ArrowLeft':\n                    e.preventDefault();\n                    jumpToPreviousDestination();\n                    break;\n                case 'ArrowRight':\n                    e.preventDefault();\n                    jumpToNextDestination();\n                    break;\n            }\n        }\n    };\n    React__namespace.useEffect(function () {\n        var containerEle = containerRef.current;\n        if (!containerEle) {\n            return;\n        }\n        document.addEventListener('keydown', handleKeydown);\n        containerEle.addEventListener('mouseenter', handleMouseEnter);\n        containerEle.addEventListener('mouseleave', handleMouseLeave);\n        return function () {\n            document.removeEventListener('keydown', handleKeydown);\n            containerEle.removeEventListener('mouseenter', handleMouseEnter);\n            containerEle.removeEventListener('mouseleave', handleMouseLeave);\n        };\n    }, [containerRef.current]);\n    return React__namespace.createElement(React__namespace.Fragment, null);\n};\n\nvar pageNavigationPlugin = function (props) {\n    var pageNavigationPluginProps = React__namespace.useMemo(function () { return Object.assign({}, { enableShortcuts: true }, props); }, []);\n    var store = React__namespace.useMemo(function () { return core.createStore(); }, []);\n    var CurrentPageInputDecorator = function () { return React__namespace.createElement(CurrentPageInput, { store: store }); };\n    var CurrentPageLabelDecorator = function (props) { return React__namespace.createElement(CurrentPageLabel, __assign({}, props, { store: store })); };\n    var GoToFirstPageDecorator = function (props) { return React__namespace.createElement(GoToFirstPage, __assign({}, props, { store: store })); };\n    var GoToFirstPageButtonDecorator = function () { return (React__namespace.createElement(GoToFirstPageDecorator, null, function (props) { return React__namespace.createElement(GoToFirstPageButton, __assign({}, props)); })); };\n    var GoToFirstPageMenuItemDecorator = function (props) { return (React__namespace.createElement(GoToFirstPageDecorator, null, function (p) { return (React__namespace.createElement(GoToFirstPageMenuItem, { isDisabled: p.isDisabled, onClick: function () {\n            p.onClick();\n            props.onClick();\n        } })); })); };\n    var GoToLastPageDecorator = function (props) { return React__namespace.createElement(GoToLastPage, __assign({}, props, { store: store })); };\n    var GoToLastPageButtonDecorator = function () { return (React__namespace.createElement(GoToLastPageDecorator, null, function (props) { return React__namespace.createElement(GoToLastPageButton, __assign({}, props)); })); };\n    var GoToLastPageMenuItemDecorator = function (props) { return (React__namespace.createElement(GoToLastPageDecorator, null, function (p) { return (React__namespace.createElement(GoToLastPageMenuItem, { isDisabled: p.isDisabled, onClick: function () {\n            p.onClick();\n            props.onClick();\n        } })); })); };\n    var GoToNextPageDecorator = function (props) { return React__namespace.createElement(GoToNextPage, __assign({}, props, { store: store })); };\n    var GoToNextPageButtonDecorator = function () { return (React__namespace.createElement(GoToNextPageDecorator, null, function (props) { return React__namespace.createElement(GoToNextPageButton, __assign({}, props)); })); };\n    var GoToNextPageMenuItemDecorator = function (props) { return (React__namespace.createElement(GoToNextPageDecorator, null, function (p) { return (React__namespace.createElement(GoToNextPageMenuItem, { isDisabled: p.isDisabled, onClick: function () {\n            p.onClick();\n            props.onClick();\n        } })); })); };\n    var GoToPreviousPageDecorator = function (props) { return React__namespace.createElement(GoToPreviousPage, __assign({}, props, { store: store })); };\n    var GoToPreviousPageButtonDecorator = function () { return (React__namespace.createElement(GoToPreviousPageDecorator, null, function (props) { return React__namespace.createElement(GoToPreviousPageButton, __assign({}, props)); })); };\n    var GoToPreviousPageMenuItemDecorator = function (props) { return (React__namespace.createElement(GoToPreviousPageDecorator, null, function (p) { return (React__namespace.createElement(GoToPreviousPageMenuItem, { isDisabled: p.isDisabled, onClick: function () {\n            p.onClick();\n            props.onClick();\n        } })); })); };\n    var NumberOfPagesDecorator = function (props) { return React__namespace.createElement(NumberOfPages, __assign({}, props, { store: store })); };\n    var renderViewer = function (props) {\n        var slot = props.slot;\n        if (!pageNavigationPluginProps.enableShortcuts) {\n            return slot;\n        }\n        var updateSlot = {\n            children: (React__namespace.createElement(React__namespace.Fragment, null,\n                React__namespace.createElement(ShortcutHandler, { containerRef: props.containerRef, numPages: props.doc.numPages, store: store }),\n                slot.children)),\n        };\n        return __assign(__assign({}, slot), updateSlot);\n    };\n    return {\n        install: function (pluginFunctions) {\n            store.update('jumpToDestination', pluginFunctions.jumpToDestination);\n            store.update('jumpToNextDestination', pluginFunctions.jumpToNextDestination);\n            store.update('jumpToNextPage', pluginFunctions.jumpToNextPage);\n            store.update('jumpToPage', pluginFunctions.jumpToPage);\n            store.update('jumpToPreviousDestination', pluginFunctions.jumpToPreviousDestination);\n            store.update('jumpToPreviousPage', pluginFunctions.jumpToPreviousPage);\n        },\n        renderViewer: renderViewer,\n        onDocumentLoad: function (props) {\n            store.update('doc', props.doc);\n            store.update('numberOfPages', props.doc.numPages);\n        },\n        onViewerStateChange: function (viewerState) {\n            store.update('currentPage', viewerState.pageIndex);\n            return viewerState;\n        },\n        jumpToNextPage: function () {\n            var jump = store.get('jumpToNextPage');\n            if (jump) {\n                jump();\n            }\n        },\n        jumpToPage: function (pageIndex) {\n            var jumpTo = store.get('jumpToPage');\n            if (jumpTo) {\n                jumpTo(pageIndex);\n            }\n        },\n        jumpToPreviousPage: function () {\n            var jump = store.get('jumpToPreviousPage');\n            if (jump) {\n                jump();\n            }\n        },\n        CurrentPageInput: CurrentPageInputDecorator,\n        CurrentPageLabel: CurrentPageLabelDecorator,\n        GoToFirstPage: GoToFirstPageDecorator,\n        GoToFirstPageButton: GoToFirstPageButtonDecorator,\n        GoToFirstPageMenuItem: GoToFirstPageMenuItemDecorator,\n        GoToLastPage: GoToLastPageDecorator,\n        GoToLastPageButton: GoToLastPageButtonDecorator,\n        GoToLastPageMenuItem: GoToLastPageMenuItemDecorator,\n        GoToNextPage: GoToNextPageDecorator,\n        GoToNextPageButton: GoToNextPageButtonDecorator,\n        GoToNextPageMenuItem: GoToNextPageMenuItemDecorator,\n        GoToPreviousPage: GoToPreviousPageDecorator,\n        GoToPreviousPageButton: GoToPreviousPageButtonDecorator,\n        GoToPreviousPageMenuItem: GoToPreviousPageMenuItemDecorator,\n        NumberOfPages: NumberOfPagesDecorator,\n    };\n};\n\nexports.DownArrowIcon = DownArrowIcon;\nexports.NextIcon = NextIcon;\nexports.PreviousIcon = PreviousIcon;\nexports.UpArrowIcon = UpArrowIcon;\nexports.pageNavigationPlugin = pageNavigationPlugin;\n","/**\n * A React component to view a PDF document\n *\n * @see https://react-pdf-viewer.dev\n * @license https://react-pdf-viewer.dev/license\n * @copyright 2019-2023 Nguyen Huu Phuoc <me@phuoc.ng>\n */\n\n'use strict';\n\nif (process.env.NODE_ENV === 'production') {\n    module.exports = require('./cjs/page-navigation.min.js');\n} else {\n    module.exports = require('./cjs/page-navigation.js');\n}\n","'use strict';\n\nvar core = require('@react-pdf-viewer/core');\nvar React = require('react');\nvar reactDom = require('react-dom');\n\nfunction _interopNamespaceDefault(e) {\n    var n = Object.create(null);\n    if (e) {\n        Object.keys(e).forEach(function (k) {\n            if (k !== 'default') {\n                var d = Object.getOwnPropertyDescriptor(e, k);\n                Object.defineProperty(n, k, d.get ? d : {\n                    enumerable: true,\n                    get: function () { return e[k]; }\n                });\n            }\n        });\n    }\n    n.default = e;\n    return Object.freeze(n);\n}\n\nvar React__namespace = /*#__PURE__*/_interopNamespaceDefault(React);\n\nvar getAllPagesNumbers = function (doc) {\n    return Array(doc.numPages)\n        .fill(0)\n        .map(function (_, i) { return i; });\n};\n\nvar generateRange = function (min, max) {\n    return Array(max - min + 1)\n        .fill(0)\n        .map(function (_, i) { return min + i; });\n};\nvar removeDuplicate = function (arr) { return arr.filter(function (i) { return arr.indexOf(i) === arr.lastIndexOf(i); }); };\nvar getCustomPagesNumbers = function (customPages) {\n    return function (doc) {\n        var results = [];\n        customPages\n            .replace(/\\s+/g, '')\n            .split(',')\n            .forEach(function (part) {\n            var range = part\n                .split('-')\n                .map(function (c) { return parseInt(c, 10); })\n                .filter(function (c) { return Number.isInteger(c); });\n            if (range.length === 1) {\n                results.push(range[0] - 1);\n            }\n            else if (range.length === 2) {\n                results.push.apply(results, generateRange(range[0] - 1, range[1] - 1));\n            }\n        });\n        return removeDuplicate(results).filter(function (i) { return i >= 0 && i < doc.numPages; });\n    };\n};\n\nvar getEvenPagesNumbers = function (doc) {\n    return Array(doc.numPages)\n        .fill(0)\n        .map(function (_, i) { return i; })\n        .filter(function (i) { return (i + 1) % 2 === 0; });\n};\n\nvar getOddPagesNumbers = function (doc) {\n    return Array(doc.numPages)\n        .fill(0)\n        .map(function (_, i) { return i; })\n        .filter(function (i) { return (i + 1) % 2 === 1; });\n};\n\nvar PrintIcon = function () { return (React__namespace.createElement(core.Icon, { size: 16 },\n    React__namespace.createElement(\"path\", { d: \"M7.5,19.499h9 M7.5,16.499h9 M5.5,16.5h-3c-1.103-0.003-1.997-0.897-2-2v-6c0.003-1.103,0.897-1.997,2-2h19\\n            c1.103,0.003,1.997,0.897,2,2v6c-0.003,1.103-0.897,1.997-2,2h-3\\n            M5.5,4.5v-4h9.586c0.265,0,0.52,0.105,0.707,0.293l2.414,2.414\\n            C18.395,3.394,18.5,3.649,18.5,3.914V4.5\\n            M18.5,22.5c0,0.552-0.448,1-1,1h-11c-0.552,0-1-0.448-1-1v-9h13V22.5z\\n            M3.5,8.499\\n            c0.552,0,1,0.448,1,1s-0.448,1-1,1s-1-0.448-1-1S2.948,8.499,3.5,8.499z\\n            M14.5,0.499v4h4\" }))); };\n\n/******************************************************************************\r\nCopyright (c) Microsoft Corporation.\r\n\r\nPermission to use, copy, modify, and/or distribute this software for any\r\npurpose with or without fee is hereby granted.\r\n\r\nTHE SOFTWARE IS PROVIDED \"AS IS\" AND THE AUTHOR DISCLAIMS ALL WARRANTIES WITH\r\nREGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY\r\nAND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT,\r\nINDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM\r\nLOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR\r\nOTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR\r\nPERFORMANCE OF THIS SOFTWARE.\r\n***************************************************************************** */\r\n\r\nvar __assign = function() {\r\n    __assign = Object.assign || function __assign(t) {\r\n        for (var s, i = 1, n = arguments.length; i < n; i++) {\r\n            s = arguments[i];\r\n            for (var p in s) if (Object.prototype.hasOwnProperty.call(s, p)) t[p] = s[p];\r\n        }\r\n        return t;\r\n    };\r\n    return __assign.apply(this, arguments);\r\n};\n\nvar TOOLTIP_OFFSET = { left: 0, top: 8 };\nvar PrintButton = function (_a) {\n    var enableShortcuts = _a.enableShortcuts, onClick = _a.onClick;\n    var l10n = React__namespace.useContext(core.LocalizationContext).l10n;\n    var label = l10n && l10n.print ? l10n.print.print : 'Print';\n    var ariaKeyShortcuts = enableShortcuts ? (core.isMac() ? 'Meta+P' : 'Ctrl+P') : '';\n    return (React__namespace.createElement(core.Tooltip, { ariaControlsSuffix: \"print\", position: core.Position.BottomCenter, target: React__namespace.createElement(core.MinimalButton, { ariaKeyShortcuts: ariaKeyShortcuts, ariaLabel: label, testId: \"print__button\", onClick: onClick },\n            React__namespace.createElement(PrintIcon, null)), content: function () { return label; }, offset: TOOLTIP_OFFSET }));\n};\n\nvar PrintStatus;\n(function (PrintStatus) {\n    PrintStatus[\"CheckingPermission\"] = \"CheckingPermission\";\n    PrintStatus[\"Inactive\"] = \"Inactive\";\n    PrintStatus[\"Preparing\"] = \"Preparing\";\n    PrintStatus[\"Cancelled\"] = \"Cancelled\";\n    PrintStatus[\"Ready\"] = \"Ready\";\n})(PrintStatus || (PrintStatus = {}));\n\nvar Print = function (_a) {\n    var children = _a.children, enableShortcuts = _a.enableShortcuts, store = _a.store;\n    var print = function () {\n        store.update('printStatus', PrintStatus.CheckingPermission);\n    };\n    var render = children || PrintButton;\n    return render({\n        enableShortcuts: enableShortcuts,\n        onClick: print,\n    });\n};\n\nvar PERMISSION_PRINT = 4;\nvar PERMISSION_PRINT_HIGHT_QUALITY = 2048;\nvar CheckPrintPermission = function (_a) {\n    var doc = _a.doc, store = _a.store;\n    var l10n = React__namespace.useContext(core.LocalizationContext).l10n;\n    var _b = React__namespace.useState(true), isAllowed = _b[0], setIsAllowed = _b[1];\n    React__namespace.useEffect(function () {\n        doc.getPermissions().then(function (permissions) {\n            var canPrint = permissions === null ||\n                permissions.includes(PERMISSION_PRINT) ||\n                permissions.includes(PERMISSION_PRINT_HIGHT_QUALITY);\n            canPrint ? store.update('printStatus', PrintStatus.Preparing) : setIsAllowed(false);\n        });\n    }, []);\n    return isAllowed ? (React__namespace.createElement(React__namespace.Fragment, null)) : (React__namespace.createElement(core.Modal, { ariaControlsSuffix: \"print-permission\", closeOnClickOutside: false, closeOnEscape: false, content: function (toggle) {\n            var close = function () {\n                toggle();\n                store.update('printStatus', PrintStatus.Cancelled);\n            };\n            return (React__namespace.createElement(React__namespace.Fragment, null,\n                React__namespace.createElement(\"div\", { className: \"rpv-print__permission-body\" }, l10n && l10n.print\n                    ? l10n.print.disallowPrint\n                    : 'The document does not allow to print'),\n                React__namespace.createElement(\"div\", { className: \"rpv-print__permission-footer\" },\n                    React__namespace.createElement(core.Button, { onClick: close }, l10n && l10n.print ? l10n.print.close : 'Close'))));\n        }, isOpened: true }));\n};\n\nvar PrintProgress = function (_a) {\n    var numLoadedPages = _a.numLoadedPages, numPages = _a.numPages, onCancel = _a.onCancel;\n    var l10n = React__namespace.useContext(core.LocalizationContext).l10n;\n    var direction = React__namespace.useContext(core.ThemeContext).direction;\n    var isRtl = direction === core.TextDirection.RightToLeft;\n    var progress = Math.floor((numLoadedPages * 100) / numPages);\n    return (React__namespace.createElement(\"div\", { className: \"rpv-print__progress\" },\n        React__namespace.createElement(\"div\", { className: core.classNames({\n                'rpv-print__progress-body': true,\n                'rpv-print__progress-body--rtl': isRtl,\n            }) },\n            React__namespace.createElement(\"div\", { className: \"rpv-print__progress-message\" }, l10n && l10n.print\n                ? l10n.print.preparingDocument\n                : 'Preparing document ...'),\n            React__namespace.createElement(\"div\", { className: \"rpv-print__progress-bar\" },\n                React__namespace.createElement(core.ProgressBar, { progress: progress })),\n            React__namespace.createElement(core.Button, { onClick: onCancel }, l10n && l10n.print ? l10n.print.cancel : 'Cancel'))));\n};\n\nvar isRunningInJest = function () { return typeof process !== 'undefined' && process.env.JEST_WORKER_ID !== undefined; };\n\nvar PageThumbnail = function (_a) {\n    var canvas = _a.canvas, page = _a.page, pageHeight = _a.pageHeight, pageIndex = _a.pageIndex, pageWidth = _a.pageWidth, rotation = _a.rotation, onLoad = _a.onLoad;\n    var isMounted = core.useIsMounted();\n    var renderTask = React__namespace.useRef();\n    var _b = React__namespace.useState(''), src = _b[0], setSrc = _b[1];\n    var testWithJest = React__namespace.useMemo(function () { return isRunningInJest(); }, []);\n    var handleImageLoad = function () {\n        if (!testWithJest) {\n            onLoad();\n        }\n    };\n    React__namespace.useEffect(function () {\n        var task = renderTask.current;\n        if (task) {\n            task.cancel();\n        }\n        var printUnit = 150 / 72;\n        canvas.height = Math.floor(pageHeight * printUnit);\n        canvas.width = Math.floor(pageWidth * printUnit);\n        var canvasContext = canvas.getContext('2d');\n        canvasContext.save();\n        canvasContext.fillStyle = 'rgb(255, 255, 255)';\n        canvasContext.fillRect(0, 0, canvas.width, canvas.height);\n        canvasContext.restore();\n        var viewport = page.getViewport({ rotation: rotation, scale: 1 });\n        renderTask.current = page.render({\n            canvasContext: canvasContext,\n            intent: 'print',\n            transform: [printUnit, 0, 0, printUnit, 0, 0],\n            viewport: viewport,\n        });\n        renderTask.current.promise.then(function () {\n            if ('toBlob' in canvas && 'createObjectURL' in URL) {\n                canvas.toBlob(function (blob) {\n                    isMounted.current && setSrc(URL.createObjectURL(blob));\n                    testWithJest && onLoad();\n                });\n            }\n            else {\n                isMounted.current && setSrc(canvas.toDataURL());\n                testWithJest && onLoad();\n            }\n        }, function () {\n        });\n    }, []);\n    return (src && (React__namespace.createElement(\"div\", { className: \"rpv-print__page\" },\n        React__namespace.createElement(\"img\", { \"data-testid\": \"print__thumbnail-\".concat(pageIndex), src: src, onLoad: handleImageLoad }))));\n};\n\nvar PageThumbnailContainer = function (_a) {\n    var canvas = _a.canvas, doc = _a.doc, pageIndex = _a.pageIndex, pageRotation = _a.pageRotation, pageSize = _a.pageSize, rotation = _a.rotation, shouldRender = _a.shouldRender, onLoad = _a.onLoad;\n    var isMounted = core.useIsMounted();\n    var _b = React__namespace.useState(null), page = _b[0], setPage = _b[1];\n    var isVertical = Math.abs(rotation + pageRotation) % 180 === 0;\n    React__namespace.useEffect(function () {\n        if (shouldRender) {\n            core.getPage(doc, pageIndex).then(function (pdfPage) {\n                isMounted.current && setPage(pdfPage);\n            });\n        }\n    }, [shouldRender]);\n    var rotationNumber = (pageSize.rotation + rotation + pageRotation) % 360;\n    return (page && (React__namespace.createElement(PageThumbnail, { canvas: canvas, page: page, pageHeight: isVertical ? pageSize.pageHeight : pageSize.pageWidth, pageIndex: pageIndex, pageWidth: isVertical ? pageSize.pageWidth : pageSize.pageHeight, rotation: rotationNumber, onLoad: onLoad })));\n};\n\nvar PrintZone = function (_a) {\n    var doc = _a.doc, numLoadedPages = _a.numLoadedPages, pagesRotation = _a.pagesRotation, pageSizes = _a.pageSizes, printPages = _a.printPages, printStatus = _a.printStatus, rotation = _a.rotation, onCancel = _a.onCancel, onLoad = _a.onLoad;\n    var canvas = React__namespace.useMemo(function () { return document.createElement('canvas'); }, []);\n    var container = React__namespace.useMemo(function () {\n        var zoneEle = document.querySelector('.rpv-print__zone');\n        if (zoneEle) {\n            return zoneEle;\n        }\n        var div = document.createElement('div');\n        div.classList.add('rpv-print__zone');\n        div.setAttribute('data-testid', 'print__zone');\n        document.body.appendChild(div);\n        return div;\n    }, []);\n    React__namespace.useEffect(function () {\n        if (printStatus === PrintStatus.Ready) {\n            document.documentElement.classList.add('rpv-print__html-printing');\n            document.body.classList.add('rpv-print__body-printing');\n            window.print();\n        }\n        var handler = function () {\n            if (printStatus === PrintStatus.Ready) {\n                document.documentElement.classList.remove('rpv-print__html-printing');\n                document.body.classList.remove('rpv-print__body-printing');\n                var zones = document.querySelectorAll('.rpv-print__zone');\n                if (zones) {\n                    zones.forEach(function (zoneEle) {\n                        zoneEle.parentElement.removeChild(zoneEle);\n                    });\n                }\n                canvas.height = 0;\n                canvas.width = 0;\n                document.removeEventListener('mousemove', handler);\n                onCancel();\n            }\n        };\n        document.addEventListener('mousemove', handler);\n        return function () { return document.removeEventListener('mousemove', handler); };\n    }, [printStatus]);\n    var pageHeight = pageSizes[0].pageHeight;\n    var pageWidth = pageSizes[0].pageWidth;\n    return reactDom.createPortal(React__namespace.createElement(React__namespace.Fragment, null,\n        printPages.map(function (pageIndex, loopIndex) { return (React__namespace.createElement(PageThumbnailContainer, { key: pageIndex, canvas: canvas, doc: doc, pageIndex: pageIndex, pageRotation: pagesRotation.has(pageIndex) ? pagesRotation.get(pageIndex) : 0, pageSize: pageSizes[pageIndex], rotation: rotation, shouldRender: loopIndex === numLoadedPages, onLoad: onLoad })); }),\n        React__namespace.createElement(\"style\", { dangerouslySetInnerHTML: {\n                __html: \"@page { size: \".concat(pageWidth, \"pt \").concat(pageHeight, \"pt }\"),\n            } })), container);\n};\n\nvar PrintContainer = function (_a) {\n    var doc = _a.doc, pagesRotation = _a.pagesRotation, pageSizes = _a.pageSizes, renderProgressBar = _a.renderProgressBar, rotation = _a.rotation, setPages = _a.setPages, store = _a.store;\n    var _b = React__namespace.useState(PrintStatus.Inactive), printStatus = _b[0], setPrintStatus = _b[1];\n    var _c = React__namespace.useState(0), numLoadedPagesForPrint = _c[0], setNumLoadedPagesForPrint = _c[1];\n    var printPages = React__namespace.useMemo(function () {\n        var numPages = doc.numPages;\n        return setPages(doc).filter(function (index) { return index >= 0 && index < numPages; });\n    }, [doc, setPages]);\n    var numPrintPages = printPages.length;\n    var cancelPrinting = function () {\n        setNumLoadedPagesForPrint(0);\n        setPrintStatus(PrintStatus.Inactive);\n    };\n    var handlePrintStatus = function (status) { return setPrintStatus(status); };\n    var onLoadPage = function () {\n        var total = numLoadedPagesForPrint + 1;\n        if (total <= numPrintPages) {\n            setNumLoadedPagesForPrint(total);\n            total === numPrintPages && setPrintStatus(PrintStatus.Ready);\n        }\n    };\n    React__namespace.useEffect(function () {\n        store.subscribe('printStatus', handlePrintStatus);\n        return function () {\n            store.unsubscribe('printStatus', handlePrintStatus);\n        };\n    }, []);\n    return (React__namespace.createElement(React__namespace.Fragment, null,\n        printStatus === PrintStatus.CheckingPermission && React__namespace.createElement(CheckPrintPermission, { doc: doc, store: store }),\n        printStatus === PrintStatus.Preparing &&\n            (renderProgressBar ? (renderProgressBar(numLoadedPagesForPrint, numPrintPages, cancelPrinting)) : (React__namespace.createElement(PrintProgress, { numLoadedPages: numLoadedPagesForPrint, numPages: numPrintPages, onCancel: cancelPrinting }))),\n        (printStatus === PrintStatus.Preparing || printStatus === PrintStatus.Ready) &&\n            numLoadedPagesForPrint <= numPrintPages && (React__namespace.createElement(PrintZone, { doc: doc, numLoadedPages: numLoadedPagesForPrint, pagesRotation: pagesRotation, pageSizes: pageSizes, printPages: printPages, printStatus: printStatus, rotation: rotation, onCancel: cancelPrinting, onLoad: onLoadPage }))));\n};\n\nvar PrintMenuItem = function (_a) {\n    var onClick = _a.onClick;\n    var l10n = React__namespace.useContext(core.LocalizationContext).l10n;\n    var label = l10n && l10n.print ? l10n.print.print : 'Print';\n    return (React__namespace.createElement(core.MenuItem, { icon: React__namespace.createElement(PrintIcon, null), testId: \"print__menu\", onClick: onClick }, label));\n};\n\nvar ShortcutHandler = function (_a) {\n    var containerRef = _a.containerRef, store = _a.store;\n    var keydownHandler = function (e) {\n        if (e.shiftKey || e.altKey || e.key !== 'p') {\n            return;\n        }\n        var isCommandPressed = core.isMac() ? e.metaKey : e.ctrlKey;\n        if (!isCommandPressed) {\n            return;\n        }\n        var containerEle = containerRef.current;\n        if (!containerEle || !document.activeElement || !containerEle.contains(document.activeElement)) {\n            return;\n        }\n        e.preventDefault();\n        store.update('printStatus', PrintStatus.Preparing);\n    };\n    React__namespace.useEffect(function () {\n        var containerEle = containerRef.current;\n        if (!containerEle) {\n            return;\n        }\n        document.addEventListener('keydown', keydownHandler);\n        return function () {\n            document.removeEventListener('keydown', keydownHandler);\n        };\n    }, [containerRef.current]);\n    return React__namespace.createElement(React__namespace.Fragment, null);\n};\n\nvar printPlugin = function (props) {\n    var printPluginProps = React__namespace.useMemo(function () {\n        return Object.assign({}, {\n            enableShortcuts: true,\n            setPages: function (doc) {\n                return Array(doc.numPages)\n                    .fill(0)\n                    .map(function (_, i) { return i; });\n            },\n        }, props);\n    }, []);\n    var store = React__namespace.useMemo(function () {\n        return core.createStore({\n            printStatus: PrintStatus.Inactive,\n        });\n    }, []);\n    var print = function () {\n        store.update('printStatus', PrintStatus.CheckingPermission);\n    };\n    var PrintDecorator = function (props) { return (React__namespace.createElement(Print, __assign({ enableShortcuts: printPluginProps.enableShortcuts }, props, { store: store }))); };\n    var PrintButtonDecorator = function () { return React__namespace.createElement(PrintDecorator, null, function (props) { return React__namespace.createElement(PrintButton, __assign({}, props)); }); };\n    var PrintMenuItemDecorator = function (props) { return (React__namespace.createElement(PrintDecorator, null, function (p) { return (React__namespace.createElement(PrintMenuItem, { onClick: function () {\n            p.onClick();\n            props.onClick();\n        } })); })); };\n    var renderViewer = function (renderViewerProps) {\n        var slot = renderViewerProps.slot;\n        var updateSlot = {\n            children: (React__namespace.createElement(React__namespace.Fragment, null,\n                printPluginProps.enableShortcuts && (React__namespace.createElement(ShortcutHandler, { containerRef: renderViewerProps.containerRef, store: store })),\n                React__namespace.createElement(PrintContainer, { doc: renderViewerProps.doc, pagesRotation: renderViewerProps.pagesRotation, pageSizes: renderViewerProps.pageSizes, renderProgressBar: props === null || props === void 0 ? void 0 : props.renderProgressBar, rotation: renderViewerProps.rotation, setPages: printPluginProps.setPages, store: store }),\n                slot.children)),\n        };\n        return __assign(__assign({}, slot), updateSlot);\n    };\n    var setPages = function (printPages) {\n        printPluginProps.setPages = printPages;\n    };\n    return {\n        print: print,\n        renderViewer: renderViewer,\n        Print: PrintDecorator,\n        PrintButton: PrintButtonDecorator,\n        PrintMenuItem: PrintMenuItemDecorator,\n        setPages: setPages,\n    };\n};\n\nexports.PrintIcon = PrintIcon;\nexports.getAllPagesNumbers = getAllPagesNumbers;\nexports.getCustomPagesNumbers = getCustomPagesNumbers;\nexports.getEvenPagesNumbers = getEvenPagesNumbers;\nexports.getOddPagesNumbers = getOddPagesNumbers;\nexports.printPlugin = printPlugin;\n","/**\n * A React component to view a PDF document\n *\n * @see https://react-pdf-viewer.dev\n * @license https://react-pdf-viewer.dev/license\n * @copyright 2019-2023 Nguyen Huu Phuoc <me@phuoc.ng>\n */\n\n'use strict';\n\nif (process.env.NODE_ENV === 'production') {\n    module.exports = require('./cjs/print.min.js');\n} else {\n    module.exports = require('./cjs/print.js');\n}\n","'use strict';\n\nvar core = require('@react-pdf-viewer/core');\nvar React = require('react');\n\nfunction _interopNamespaceDefault(e) {\n    var n = Object.create(null);\n    if (e) {\n        Object.keys(e).forEach(function (k) {\n            if (k !== 'default') {\n                var d = Object.getOwnPropertyDescriptor(e, k);\n                Object.defineProperty(n, k, d.get ? d : {\n                    enumerable: true,\n                    get: function () { return e[k]; }\n                });\n            }\n        });\n    }\n    n.default = e;\n    return Object.freeze(n);\n}\n\nvar React__namespace = /*#__PURE__*/_interopNamespaceDefault(React);\n\nvar InfoIcon = function () { return (React__namespace.createElement(core.Icon, { size: 16 },\n    React__namespace.createElement(\"path\", { d: \"M12,1.001c6.075,0,11,4.925,11,11s-4.925,11-11,11s-11-4.925-11-11S5.925,1.001,12,1.001z\\n            M14.5,17.005H13\\n            c-0.552,0-1-0.448-1-1v-6.5c0-0.276-0.224-0.5-0.5-0.5H10\\n            M11.745,6.504L11.745,6.504\\n            M11.745,6.5c-0.138,0-0.25,0.112-0.25,0.25\\n            S11.607,7,11.745,7s0.25-0.112,0.25-0.25S11.883,6.5,11.745,6.5\" }))); };\n\n/******************************************************************************\r\nCopyright (c) Microsoft Corporation.\r\n\r\nPermission to use, copy, modify, and/or distribute this software for any\r\npurpose with or without fee is hereby granted.\r\n\r\nTHE SOFTWARE IS PROVIDED \"AS IS\" AND THE AUTHOR DISCLAIMS ALL WARRANTIES WITH\r\nREGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY\r\nAND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT,\r\nINDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM\r\nLOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR\r\nOTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR\r\nPERFORMANCE OF THIS SOFTWARE.\r\n***************************************************************************** */\r\n\r\nvar __assign = function() {\r\n    __assign = Object.assign || function __assign(t) {\r\n        for (var s, i = 1, n = arguments.length; i < n; i++) {\r\n            s = arguments[i];\r\n            for (var p in s) if (Object.prototype.hasOwnProperty.call(s, p)) t[p] = s[p];\r\n        }\r\n        return t;\r\n    };\r\n    return __assign.apply(this, arguments);\r\n};\n\nvar PropertiesLoader = function (_a) {\n    var doc = _a.doc, render = _a.render;\n    var _b = React__namespace.useState(), data = _b[0], setData = _b[1];\n    React__namespace.useEffect(function () {\n        doc.getMetadata()\n            .then(function (meta) {\n            return Promise.resolve(meta);\n        })\n            .then(function (meta) {\n            return doc.getDownloadInfo().then(function (d) {\n                return Promise.resolve({\n                    fileName: meta.contentDispositionFilename || '',\n                    info: meta.info,\n                    length: d.length,\n                });\n            });\n        })\n            .then(function (response) {\n            setData(response);\n        });\n    }, []);\n    return data ? (render(data)) : (React__namespace.createElement(\"div\", { className: \"rpv-properties__loader\" },\n        React__namespace.createElement(core.Spinner, null)));\n};\n\nvar PropertyItem = function (_a) {\n    var label = _a.label, value = _a.value;\n    var direction = React__namespace.useContext(core.ThemeContext).direction;\n    var isRtl = direction === core.TextDirection.RightToLeft;\n    return (React__namespace.createElement(\"dl\", { className: core.classNames({\n            'rpv-properties__item': true,\n            'rpv-properties__item--rtl': isRtl,\n        }) },\n        React__namespace.createElement(\"dt\", { className: \"rpv-properties__item-label\" },\n            label,\n            \":\"),\n        React__namespace.createElement(\"dd\", { className: \"rpv-properties__item-value\" }, value || '-')));\n};\n\nvar dateRegex = new RegExp('^D:' +\n    '(\\\\d{4})' +\n    '(\\\\d{2})?' +\n    '(\\\\d{2})?' +\n    '(\\\\d{2})?' +\n    '(\\\\d{2})?' +\n    '(\\\\d{2})?' +\n    '([Z|+|-])?' +\n    '(\\\\d{2})?' +\n    \"'?\" +\n    '(\\\\d{2})?' +\n    \"'?\");\nvar parse = function (value, min, max, defaultValue) {\n    var parsed = parseInt(value, 10);\n    return parsed >= min && parsed <= max ? parsed : defaultValue;\n};\nvar convertDate = function (input) {\n    var matches = dateRegex.exec(input);\n    if (!matches) {\n        return null;\n    }\n    var year = parseInt(matches[1], 10);\n    var month = parse(matches[2], 1, 12, 1) - 1;\n    var day = parse(matches[3], 1, 31, 1);\n    var hour = parse(matches[4], 0, 23, 0);\n    var minute = parse(matches[5], 0, 59, 0);\n    var second = parse(matches[6], 0, 59, 0);\n    var universalTimeRelation = matches[7] || 'Z';\n    var offsetHour = parse(matches[8], 0, 23, 0);\n    var offsetMinute = parse(matches[9], 0, 59, 0);\n    switch (universalTimeRelation) {\n        case '-':\n            hour += offsetHour;\n            minute += offsetMinute;\n            break;\n        case '+':\n            hour -= offsetHour;\n            minute -= offsetMinute;\n            break;\n    }\n    return new Date(Date.UTC(year, month, day, hour, minute, second));\n};\n\nvar getFileName = function (url) {\n    var str = url.split('/').pop();\n    return str ? str.split('#')[0].split('?')[0] : url;\n};\n\nvar getFileSize = function (bytes) {\n    var sufixes = ['B', 'kB', 'MB', 'GB', 'TB'];\n    var i = Math.floor(Math.log(bytes) / Math.log(1024));\n    return \"\".concat((bytes / Math.pow(1024, i)).toFixed(2), \" \").concat(sufixes[i]);\n};\n\nvar PropertiesModal = function (_a) {\n    var doc = _a.doc, fileName = _a.fileName, onToggle = _a.onToggle;\n    var l10n = React__namespace.useContext(core.LocalizationContext).l10n;\n    var formatDate = function (input) {\n        var date = convertDate(input);\n        return date ? \"\".concat(date.toLocaleDateString(), \", \").concat(date.toLocaleTimeString()) : '';\n    };\n    var renderData = function (data) { return (React__namespace.createElement(React__namespace.Fragment, null,\n        React__namespace.createElement(\"div\", { className: \"rpv-properties__modal-section\" },\n            React__namespace.createElement(PropertyItem, { label: l10n && l10n.properties\n                    ? l10n.properties.fileName\n                    : 'File name', value: data.fileName || getFileName(fileName) }),\n            React__namespace.createElement(PropertyItem, { label: l10n && l10n.properties\n                    ? l10n.properties.fileSize\n                    : 'File size', value: getFileSize(data.length) })),\n        React__namespace.createElement(core.Separator, null),\n        React__namespace.createElement(\"div\", { className: \"rpv-properties__modal-section\" },\n            React__namespace.createElement(PropertyItem, { label: l10n && l10n.properties ? l10n.properties.title : 'Title', value: data.info.Title }),\n            React__namespace.createElement(PropertyItem, { label: l10n && l10n.properties ? l10n.properties.author : 'Author', value: data.info.Author }),\n            React__namespace.createElement(PropertyItem, { label: l10n && l10n.properties ? l10n.properties.subject : 'Subject', value: data.info.Subject }),\n            React__namespace.createElement(PropertyItem, { label: l10n && l10n.properties ? l10n.properties.keywords : 'Keywords', value: data.info.Keywords }),\n            React__namespace.createElement(PropertyItem, { label: l10n && l10n.properties ? l10n.properties.creator : 'Creator', value: data.info.Creator }),\n            React__namespace.createElement(PropertyItem, { label: l10n && l10n.properties\n                    ? l10n.properties.creationDate\n                    : 'Creation date', value: formatDate(data.info.CreationDate) }),\n            React__namespace.createElement(PropertyItem, { label: l10n && l10n.properties\n                    ? l10n.properties.modificationDate\n                    : 'Modification date', value: formatDate(data.info.ModDate) })),\n        React__namespace.createElement(core.Separator, null),\n        React__namespace.createElement(\"div\", { className: \"rpv-properties__modal-section\" },\n            React__namespace.createElement(PropertyItem, { label: l10n && l10n.properties\n                    ? l10n.properties.pdfProducer\n                    : 'PDF producer', value: data.info.Producer }),\n            React__namespace.createElement(PropertyItem, { label: l10n && l10n.properties\n                    ? l10n.properties.pdfVersion\n                    : 'PDF version', value: data.info.PDFFormatVersion }),\n            React__namespace.createElement(PropertyItem, { label: l10n && l10n.properties\n                    ? l10n.properties.pageCount\n                    : 'Page count', value: \"\".concat(doc.numPages) })))); };\n    return (React__namespace.createElement(\"div\", { className: \"rpv-properties__modal\" },\n        React__namespace.createElement(PropertiesLoader, { doc: doc, render: renderData }),\n        React__namespace.createElement(\"div\", { className: \"rpv-properties__modal-footer\" },\n            React__namespace.createElement(core.Button, { onClick: onToggle }, l10n && l10n.properties ? l10n.properties.close : 'Close'))));\n};\n\nvar TOOLTIP_OFFSET = { left: 0, top: 8 };\nvar ShowPropertiesButton = function (_a) {\n    var onClick = _a.onClick;\n    var l10n = React__namespace.useContext(core.LocalizationContext).l10n;\n    var label = l10n && l10n.properties ? l10n.properties.showProperties : 'Show properties';\n    return (React__namespace.createElement(core.Tooltip, { ariaControlsSuffix: \"properties\", position: core.Position.BottomCenter, target: React__namespace.createElement(core.MinimalButton, { ariaLabel: label, testId: \"properties__button\", onClick: onClick },\n            React__namespace.createElement(InfoIcon, null)), content: function () { return label; }, offset: TOOLTIP_OFFSET }));\n};\n\nvar useDocument = function (store) {\n    var _a = React__namespace.useState(store.get('doc')), currentDoc = _a[0], setCurrentDoc = _a[1];\n    var handleDocumentChanged = function (doc) {\n        setCurrentDoc(doc);\n    };\n    React__namespace.useEffect(function () {\n        store.subscribe('doc', handleDocumentChanged);\n        return function () {\n            store.unsubscribe('doc', handleDocumentChanged);\n        };\n    }, []);\n    return { currentDoc: currentDoc };\n};\n\nvar ShowProperties = function (_a) {\n    var children = _a.children, store = _a.store;\n    var currentDoc = useDocument(store).currentDoc;\n    var fileName = store.get('fileName') || '';\n    var defaultChildren = function (props) { return React__namespace.createElement(ShowPropertiesButton, __assign({}, props)); };\n    var render = children || defaultChildren;\n    return currentDoc ? (React__namespace.createElement(core.Modal, { ariaControlsSuffix: \"properties\", target: function (toggle) {\n            return render({\n                onClick: toggle,\n            });\n        }, content: function (toggle) { return React__namespace.createElement(PropertiesModal, { doc: currentDoc, fileName: fileName, onToggle: toggle }); }, closeOnClickOutside: true, closeOnEscape: true })) : (React__namespace.createElement(React__namespace.Fragment, null));\n};\n\nvar ShowPropertiesMenuItem = function (_a) {\n    var onClick = _a.onClick;\n    var l10n = React__namespace.useContext(core.LocalizationContext).l10n;\n    var label = l10n && l10n.properties ? l10n.properties.showProperties : 'Show properties';\n    return (React__namespace.createElement(core.MenuItem, { icon: React__namespace.createElement(InfoIcon, null), testId: \"properties__menu\", onClick: onClick }, label));\n};\n\nvar propertiesPlugin = function () {\n    var store = React__namespace.useMemo(function () {\n        return core.createStore({\n            fileName: '',\n        });\n    }, []);\n    var ShowPropertiesDecorator = function (props) { return React__namespace.createElement(ShowProperties, __assign({}, props, { store: store })); };\n    var ShowPropertiesButtonDecorator = function () { return React__namespace.createElement(ShowProperties, { store: store }); };\n    var ShowPropertiesMenuItemDecorator = function (props) { return (React__namespace.createElement(ShowPropertiesDecorator, null, function (p) { return React__namespace.createElement(ShowPropertiesMenuItem, __assign({}, p)); })); };\n    return {\n        onDocumentLoad: function (props) {\n            store.update('doc', props.doc);\n        },\n        onViewerStateChange: function (viewerState) {\n            store.update('fileName', viewerState.file.name);\n            return viewerState;\n        },\n        ShowProperties: ShowPropertiesDecorator,\n        ShowPropertiesButton: ShowPropertiesButtonDecorator,\n        ShowPropertiesMenuItem: ShowPropertiesMenuItemDecorator,\n    };\n};\n\nexports.InfoIcon = InfoIcon;\nexports.propertiesPlugin = propertiesPlugin;\n","/**\n * A React component to view a PDF document\n *\n * @see https://react-pdf-viewer.dev\n * @license https://react-pdf-viewer.dev/license\n * @copyright 2019-2023 Nguyen Huu Phuoc <me@phuoc.ng>\n */\n\n'use strict';\n\nif (process.env.NODE_ENV === 'production') {\n    module.exports = require('./cjs/properties.min.js');\n} else {\n    module.exports = require('./cjs/properties.js');\n}\n","'use strict';\n\nvar core = require('@react-pdf-viewer/core');\nvar React = require('react');\n\nfunction _interopNamespaceDefault(e) {\n    var n = Object.create(null);\n    if (e) {\n        Object.keys(e).forEach(function (k) {\n            if (k !== 'default') {\n                var d = Object.getOwnPropertyDescriptor(e, k);\n                Object.defineProperty(n, k, d.get ? d : {\n                    enumerable: true,\n                    get: function () { return e[k]; }\n                });\n            }\n        });\n    }\n    n.default = e;\n    return Object.freeze(n);\n}\n\nvar React__namespace = /*#__PURE__*/_interopNamespaceDefault(React);\n\nvar RotateBackwardIcon = function () { return (React__namespace.createElement(core.Icon, { ignoreDirection: true, size: 16 },\n    React__namespace.createElement(\"path\", { d: \"M3.434,10.537c0.141-0.438,0.316-0.864,0.523-1.274\\n            M3.069,14.425C3.023,14.053,3,13.679,3,13.305 c0-0.291,0.014-0.579,0.041-0.863\\n            M4.389,18.111c-0.341-0.539-0.623-1.112-0.843-1.711\\n            M7.163,20.9 c-0.543-0.345-1.048-0.747-1.506-1.2\\n            M10.98,22.248c-0.65-0.074-1.29-0.218-1.909-0.431\\n            M10,4.25h2 c4.987,0.015,9.017,4.069,9.003,9.055c-0.013,4.581-3.456,8.426-8.008,8.945\\n            M13.5,1.75L10,4.25l3.5,2.5\" }))); };\n\nvar RotateForwardIcon = function () { return (React__namespace.createElement(core.Icon, { ignoreDirection: true, size: 16 },\n    React__namespace.createElement(\"path\", { d: \"M20.566,10.537c-0.141-0.438-0.316-0.864-0.523-1.274\\n            M20.931,14.425C20.977,14.053,21,13.679,21,13.305 c0-0.291-0.014-0.579-0.041-0.863\\n            M19.611,18.111c0.341-0.539,0.624-1.114,0.843-1.713\\n            M16.837,20.9 c0.543-0.345,1.048-0.747,1.506-1.2\\n            M13.02,22.248c0.65-0.074,1.29-0.218,1.909-0.431\\n            M14,4.25h-2 c-4.987,0.015-9.017,4.069-9.003,9.055c0.013,4.581,3.456,8.426,8.008,8.945\\n            M10.5,1.75l3.5,2.5l-3.5,2.5\" }))); };\n\n/******************************************************************************\r\nCopyright (c) Microsoft Corporation.\r\n\r\nPermission to use, copy, modify, and/or distribute this software for any\r\npurpose with or without fee is hereby granted.\r\n\r\nTHE SOFTWARE IS PROVIDED \"AS IS\" AND THE AUTHOR DISCLAIMS ALL WARRANTIES WITH\r\nREGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY\r\nAND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT,\r\nINDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM\r\nLOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR\r\nOTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR\r\nPERFORMANCE OF THIS SOFTWARE.\r\n***************************************************************************** */\r\n\r\nvar __assign = function() {\r\n    __assign = Object.assign || function __assign(t) {\r\n        for (var s, i = 1, n = arguments.length; i < n; i++) {\r\n            s = arguments[i];\r\n            for (var p in s) if (Object.prototype.hasOwnProperty.call(s, p)) t[p] = s[p];\r\n        }\r\n        return t;\r\n    };\r\n    return __assign.apply(this, arguments);\r\n};\n\nvar TOOLTIP_OFFSET = { left: 0, top: 8 };\nvar RotateButton = function (_a) {\n    var direction = _a.direction, onClick = _a.onClick;\n    var l10n = React__namespace.useContext(core.LocalizationContext).l10n;\n    var backwardLabel = l10n && l10n.rotate ? l10n.rotate.rotateBackward : 'Rotate counterclockwise';\n    var forwardLabel = l10n && l10n.rotate ? l10n.rotate.rotateForward : 'Rotate clockwise';\n    var label = direction === core.RotateDirection.Backward ? backwardLabel : forwardLabel;\n    var icon = direction === core.RotateDirection.Backward ? React__namespace.createElement(RotateBackwardIcon, null) : React__namespace.createElement(RotateForwardIcon, null);\n    return (React__namespace.createElement(core.Tooltip, { ariaControlsSuffix: \"rotate\", position: core.Position.BottomCenter, target: React__namespace.createElement(core.MinimalButton, { ariaLabel: label, testId: direction === core.RotateDirection.Backward ? 'rotate__backward-button' : 'rotate__forward-button', onClick: onClick }, icon), content: function () { return label; }, offset: TOOLTIP_OFFSET }));\n};\n\nvar Rotate = function (_a) {\n    var children = _a.children, direction = _a.direction, store = _a.store;\n    var onClick = function () {\n        var rotate = store.get('rotate');\n        if (rotate) {\n            rotate(direction);\n        }\n    };\n    var defaultChildren = function (props) { return (React__namespace.createElement(RotateButton, { direction: props.direction, onClick: props.onClick })); };\n    var render = children || defaultChildren;\n    return render({\n        direction: direction,\n        onClick: onClick,\n    });\n};\n\nvar RotateMenuItem = function (_a) {\n    var direction = _a.direction, onClick = _a.onClick;\n    var l10n = React__namespace.useContext(core.LocalizationContext).l10n;\n    var backwardLabel = l10n && l10n.rotate ? l10n.rotate.rotateBackward : 'Rotate counterclockwise';\n    var forwardLabel = l10n && l10n.rotate ? l10n.rotate.rotateForward : 'Rotate clockwise';\n    var label = direction === core.RotateDirection.Backward ? backwardLabel : forwardLabel;\n    var icon = direction === core.RotateDirection.Backward ? React__namespace.createElement(RotateBackwardIcon, null) : React__namespace.createElement(RotateForwardIcon, null);\n    return (React__namespace.createElement(core.MenuItem, { icon: icon, testId: direction === core.RotateDirection.Backward ? 'rotate__backward-menu' : 'rotate__forward-menu', onClick: onClick }, label));\n};\n\nvar RotatePage = function (_a) {\n    var children = _a.children, store = _a.store;\n    var onRotatePage = function (pageIndex, direction) {\n        var rotatePage = store.get('rotatePage');\n        if (rotatePage) {\n            rotatePage(pageIndex, direction);\n        }\n    };\n    return children({\n        onRotatePage: onRotatePage,\n    });\n};\n\nvar rotatePlugin = function () {\n    var store = React__namespace.useMemo(function () { return core.createStore(); }, []);\n    var RotateDecorator = function (props) { return React__namespace.createElement(Rotate, __assign({}, props, { store: store })); };\n    var RotateBackwardButtonDecorator = function () { return (React__namespace.createElement(RotateDecorator, { direction: core.RotateDirection.Backward }, function (props) { return React__namespace.createElement(RotateButton, __assign({}, props)); })); };\n    var RotateBackwardMenuItemDecorator = function (props) { return (React__namespace.createElement(RotateDecorator, { direction: core.RotateDirection.Backward }, function (p) { return (React__namespace.createElement(RotateMenuItem, { direction: p.direction, onClick: function () {\n            p.onClick();\n            props.onClick();\n        } })); })); };\n    var RotateForwardButtonDecorator = function () { return (React__namespace.createElement(RotateDecorator, { direction: core.RotateDirection.Forward }, function (props) { return React__namespace.createElement(RotateButton, __assign({}, props)); })); };\n    var RotateForwardMenuItemDecorator = function (props) { return (React__namespace.createElement(RotateDecorator, { direction: core.RotateDirection.Forward }, function (p) { return (React__namespace.createElement(RotateMenuItem, { direction: p.direction, onClick: function () {\n            p.onClick();\n            props.onClick();\n        } })); })); };\n    var RotatePageDecorator = function (props) { return React__namespace.createElement(RotatePage, __assign({}, props, { store: store })); };\n    return {\n        install: function (pluginFunctions) {\n            store.update('rotate', pluginFunctions.rotate);\n            store.update('rotatePage', pluginFunctions.rotatePage);\n        },\n        Rotate: RotateDecorator,\n        RotateBackwardButton: RotateBackwardButtonDecorator,\n        RotateBackwardMenuItem: RotateBackwardMenuItemDecorator,\n        RotateForwardButton: RotateForwardButtonDecorator,\n        RotateForwardMenuItem: RotateForwardMenuItemDecorator,\n        RotatePage: RotatePageDecorator,\n    };\n};\n\nexports.RotateBackwardIcon = RotateBackwardIcon;\nexports.RotateForwardIcon = RotateForwardIcon;\nexports.rotatePlugin = rotatePlugin;\n","/**\n * A React component to view a PDF document\n *\n * @see https://react-pdf-viewer.dev\n * @license https://react-pdf-viewer.dev/license\n * @copyright 2019-2023 Nguyen Huu Phuoc <me@phuoc.ng>\n */\n\n'use strict';\n\nif (process.env.NODE_ENV === 'production') {\n    module.exports = require('./cjs/rotate.min.js');\n} else {\n    module.exports = require('./cjs/rotate.js');\n}\n","'use strict';\n\nvar core = require('@react-pdf-viewer/core');\nvar React = require('react');\n\nfunction _interopNamespaceDefault(e) {\n    var n = Object.create(null);\n    if (e) {\n        Object.keys(e).forEach(function (k) {\n            if (k !== 'default') {\n                var d = Object.getOwnPropertyDescriptor(e, k);\n                Object.defineProperty(n, k, d.get ? d : {\n                    enumerable: true,\n                    get: function () { return e[k]; }\n                });\n            }\n        });\n    }\n    n.default = e;\n    return Object.freeze(n);\n}\n\nvar React__namespace = /*#__PURE__*/_interopNamespaceDefault(React);\n\nvar DualPageCoverViewModeIcon = function () { return (React__namespace.createElement(core.Icon, { size: 16 },\n    React__namespace.createElement(\"rect\", { x: \"0.5\", y: \"0.497\", width: \"22\", height: \"22\", rx: \"1\", ry: \"1\" }),\n    React__namespace.createElement(\"line\", { x1: \"0.5\", y1: \"6.497\", x2: \"22.5\", y2: \"6.497\" }),\n    React__namespace.createElement(\"line\", { x1: \"11.5\", y1: \"6.497\", x2: \"11.5\", y2: \"22.497\" }))); };\n\nvar DualPageViewModeIcon = function () { return (React__namespace.createElement(core.Icon, { size: 16 },\n    React__namespace.createElement(\"rect\", { x: \"0.5\", y: \"0.497\", width: \"22\", height: \"22\", rx: \"1\", ry: \"1\" }),\n    React__namespace.createElement(\"line\", { x1: \"11.5\", y1: \"0.497\", x2: \"11.5\", y2: \"22.497\" }))); };\n\nvar HorizontalScrollingIcon = function () { return (React__namespace.createElement(core.Icon, { size: 16 },\n    React__namespace.createElement(\"path\", { d: \"M6.5,21.5c0,0.552-0.448,1-1,1h-4c-0.552,0-1-0.448-1-1v-20c0-0.552,0.448-1,1-1h4c0.552,0,1,0.448,1,1V21.5z\\n            M14.5,21.5c0,0.552-0.448,1-1,1h-4c-0.552,0-1-0.448-1-1v-20c0-0.552,0.448-1,1-1h4c0.552,0,1,0.448,1,1V21.5z\\n            M22.5,21.5 c0,0.552-0.448,1-1,1h-4c-0.552,0-1-0.448-1-1v-20c0-0.552,0.448-1,1-1h4c0.552,0,1,0.448,1,1V21.5z\" }))); };\n\nvar PageScrollingIcon = function () { return (React__namespace.createElement(core.Icon, { size: 16 },\n    React__namespace.createElement(\"rect\", { x: \"0.5\", y: \"0.497\", width: \"22\", height: \"22\", rx: \"1\", ry: \"1\" }))); };\n\n/******************************************************************************\r\nCopyright (c) Microsoft Corporation.\r\n\r\nPermission to use, copy, modify, and/or distribute this software for any\r\npurpose with or without fee is hereby granted.\r\n\r\nTHE SOFTWARE IS PROVIDED \"AS IS\" AND THE AUTHOR DISCLAIMS ALL WARRANTIES WITH\r\nREGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY\r\nAND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT,\r\nINDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM\r\nLOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR\r\nOTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR\r\nPERFORMANCE OF THIS SOFTWARE.\r\n***************************************************************************** */\r\n\r\nvar __assign = function() {\r\n    __assign = Object.assign || function __assign(t) {\r\n        for (var s, i = 1, n = arguments.length; i < n; i++) {\r\n            s = arguments[i];\r\n            for (var p in s) if (Object.prototype.hasOwnProperty.call(s, p)) t[p] = s[p];\r\n        }\r\n        return t;\r\n    };\r\n    return __assign.apply(this, arguments);\r\n};\n\nvar switchScrollMode = function (store, scrollMode) {\n    store.get('switchScrollMode')(scrollMode);\n    var currentViewMode = store.get('viewMode');\n    if ((scrollMode === core.ScrollMode.Horizontal || scrollMode === core.ScrollMode.Wrapped) &&\n        currentViewMode !== core.ViewMode.SinglePage) {\n        store.get('switchViewMode')(core.ViewMode.SinglePage);\n    }\n};\n\nvar VerticalScrollingIcon = function () { return (React__namespace.createElement(core.Icon, { size: 16 },\n    React__namespace.createElement(\"path\", { d: \"M23.5,5.5c0,0.552-0.448,1-1,1h-21c-0.552,0-1-0.448-1-1v-3c0-0.552,0.448-1,1-1h21c0.552,0,1,0.448,1,1V5.5z\\n            M23.5,13.5c0,0.552-0.448,1-1,1h-21c-0.552,0-1-0.448-1-1v-3c0-0.552,0.448-1,1-1h21c0.552,0,1,0.448,1,1V13.5z\\n            M23.5,21.5 c0,0.552-0.448,1-1,1h-21c-0.552,0-1-0.448-1-1v-3c0-0.552,0.448-1,1-1h21c0.552,0,1,0.448,1,1V21.5z\" }))); };\n\nvar WrappedScrollingIcon = function () { return (React__namespace.createElement(core.Icon, { size: 16 },\n    React__namespace.createElement(\"path\", { d: \"M10.5,9.5c0,0.552-0.448,1-1,1h-8c-0.552,0-1-0.448-1-1v-8c0-0.552,0.448-1,1-1h8c0.552,0,1,0.448,1,1V9.5z\\n            M23.5,9.5c0,0.552-0.448,1-1,1h-8c-0.552,0-1-0.448-1-1v-8c0-0.552,0.448-1,1-1h8c0.552,0,1,0.448,1,1V9.5z\\n            M10.5,22.5 c0,0.552-0.448,1-1,1h-8c-0.552,0-1-0.448-1-1v-8c0-0.552,0.448-1,1-1h8c0.552,0,1,0.448,1,1V22.5z\\n            M23.5,22.5c0,0.552-0.448,1-1,1 h-8c-0.552,0-1-0.448-1-1v-8c0-0.552,0.448-1,1-1h8c0.552,0,1,0.448,1,1V22.5z\" }))); };\n\nvar SwitchScrollModeDecorator = function (_a) {\n    var children = _a.children, mode = _a.mode, onClick = _a.onClick;\n    var l10n = React__namespace.useContext(core.LocalizationContext).l10n;\n    var label = '';\n    var icon = React__namespace.createElement(VerticalScrollingIcon, null);\n    switch (mode) {\n        case core.ScrollMode.Horizontal:\n            label =\n                l10n && l10n.scrollMode\n                    ? l10n.scrollMode.horizontalScrolling\n                    : 'Horizontal scrolling';\n            icon = React__namespace.createElement(HorizontalScrollingIcon, null);\n            break;\n        case core.ScrollMode.Page:\n            label =\n                l10n && l10n.scrollMode\n                    ? l10n.scrollMode.pageScrolling\n                    : 'Page scrolling';\n            icon = React__namespace.createElement(PageScrollingIcon, null);\n            break;\n        case core.ScrollMode.Wrapped:\n            label =\n                l10n && l10n.scrollMode\n                    ? l10n.scrollMode.wrappedScrolling\n                    : 'Wrapped scrolling';\n            icon = React__namespace.createElement(WrappedScrollingIcon, null);\n            break;\n        case core.ScrollMode.Vertical:\n        default:\n            label =\n                l10n && l10n.scrollMode\n                    ? l10n.scrollMode.verticalScrolling\n                    : 'Vertical scrolling';\n            icon = React__namespace.createElement(VerticalScrollingIcon, null);\n            break;\n    }\n    return children({ icon: icon, label: label, onClick: onClick });\n};\n\nvar TOOLTIP_OFFSET$1 = { left: 0, top: 8 };\nvar SwitchScrollModeButton = function (_a) {\n    var isDisabled = _a.isDisabled, isSelected = _a.isSelected, mode = _a.mode, onClick = _a.onClick;\n    var testId = '';\n    switch (mode) {\n        case core.ScrollMode.Horizontal:\n            testId = 'scroll-mode__horizontal-button';\n            break;\n        case core.ScrollMode.Page:\n            testId = 'scroll-mode__page-button';\n            break;\n        case core.ScrollMode.Wrapped:\n            testId = 'scroll-mode__wrapped-button';\n            break;\n        case core.ScrollMode.Vertical:\n        default:\n            testId = 'scroll-mode__vertical-button';\n            break;\n    }\n    return (React__namespace.createElement(SwitchScrollModeDecorator, { mode: mode, onClick: onClick }, function (props) { return (React__namespace.createElement(core.Tooltip, { ariaControlsSuffix: \"scroll-mode-switch\", position: core.Position.BottomCenter, target: React__namespace.createElement(core.MinimalButton, { ariaLabel: props.label, isDisabled: isDisabled, isSelected: isSelected, testId: testId, onClick: props.onClick }, props.icon), content: function () { return props.label; }, offset: TOOLTIP_OFFSET$1 })); }));\n};\n\nvar useScrollMode = function (store) {\n    var _a = React__namespace.useState(store.get('scrollMode') || core.ScrollMode.Vertical), scrollMode = _a[0], setScrollMode = _a[1];\n    var handleScrollModeChanged = function (currentScrollMode) {\n        setScrollMode(currentScrollMode);\n    };\n    React__namespace.useEffect(function () {\n        store.subscribe('scrollMode', handleScrollModeChanged);\n        return function () {\n            store.unsubscribe('scrollMode', handleScrollModeChanged);\n        };\n    }, []);\n    return { scrollMode: scrollMode };\n};\n\nvar useViewMode = function (store) {\n    var _a = React__namespace.useState(store.get('viewMode') || core.ViewMode.SinglePage), viewMode = _a[0], setViewMode = _a[1];\n    var handleViewModeChanged = function (currentViewMode) {\n        setViewMode(currentViewMode);\n    };\n    React__namespace.useEffect(function () {\n        store.subscribe('viewMode', handleViewModeChanged);\n        return function () {\n            store.unsubscribe('viewMode', handleViewModeChanged);\n        };\n    }, []);\n    return { viewMode: viewMode };\n};\n\nvar SwitchScrollMode = function (_a) {\n    var children = _a.children, mode = _a.mode, store = _a.store;\n    var viewMode = useViewMode(store).viewMode;\n    var scrollMode = useScrollMode(store).scrollMode;\n    var onClick = function () {\n        switchScrollMode(store, mode);\n    };\n    var isSelected = scrollMode === mode;\n    var isDisabled = (mode === core.ScrollMode.Horizontal || mode === core.ScrollMode.Wrapped) && viewMode !== core.ViewMode.SinglePage;\n    var defaultChildren = function (props) { return (React__namespace.createElement(SwitchScrollModeButton, { isDisabled: isDisabled, isSelected: isSelected, mode: props.mode, onClick: props.onClick })); };\n    var render = children || defaultChildren;\n    return render({\n        isDisabled: isDisabled,\n        isSelected: isSelected,\n        mode: mode,\n        onClick: onClick,\n    });\n};\n\nvar SwitchScrollModeMenuItem = function (_a) {\n    var isDisabled = _a.isDisabled, isSelected = _a.isSelected, mode = _a.mode, onClick = _a.onClick;\n    var testId = '';\n    switch (mode) {\n        case core.ScrollMode.Horizontal:\n            testId = 'scroll-mode__horizontal-menu';\n            break;\n        case core.ScrollMode.Page:\n            testId = 'scroll-mode__page-menu';\n            break;\n        case core.ScrollMode.Wrapped:\n            testId = 'scroll-mode__wrapped-menu';\n            break;\n        case core.ScrollMode.Vertical:\n        default:\n            testId = 'scroll-mode__vertical-menu';\n            break;\n    }\n    return (React__namespace.createElement(SwitchScrollModeDecorator, { mode: mode, onClick: onClick }, function (props) { return (React__namespace.createElement(core.MenuItem, { checked: isSelected, icon: props.icon, isDisabled: isDisabled, testId: testId, onClick: props.onClick }, props.label)); }));\n};\n\nvar switchViewMode = function (store, viewMode) {\n    store.get('switchViewMode')(viewMode);\n    var currentScrollMode = store.get('scrollMode');\n    if ((currentScrollMode === core.ScrollMode.Horizontal || currentScrollMode === core.ScrollMode.Wrapped) &&\n        viewMode !== core.ViewMode.SinglePage) {\n        store.get('switchScrollMode')(core.ScrollMode.Vertical);\n    }\n};\n\nvar SwitchViewModeDecorator = function (_a) {\n    var children = _a.children, mode = _a.mode, onClick = _a.onClick;\n    var l10n = React__namespace.useContext(core.LocalizationContext).l10n;\n    var label = '';\n    var icon = React__namespace.createElement(PageScrollingIcon, null);\n    switch (mode) {\n        case core.ViewMode.DualPage:\n            label = l10n && l10n.scrollMode ? l10n.scrollMode.dualPage : 'Dual page';\n            icon = React__namespace.createElement(DualPageViewModeIcon, null);\n            break;\n        case core.ViewMode.DualPageWithCover:\n            label =\n                l10n && l10n.scrollMode\n                    ? l10n.scrollMode.dualPageCover\n                    : 'Dual page with cover';\n            icon = React__namespace.createElement(DualPageCoverViewModeIcon, null);\n            break;\n        case core.ViewMode.SinglePage:\n        default:\n            label =\n                l10n && l10n.scrollMode ? l10n.scrollMode.singlePage : 'Single page';\n            icon = React__namespace.createElement(PageScrollingIcon, null);\n            break;\n    }\n    return children({ icon: icon, label: label, onClick: onClick });\n};\n\nvar TOOLTIP_OFFSET = { left: 0, top: 8 };\nvar SwitchViewModeButton = function (_a) {\n    var isDisabled = _a.isDisabled, isSelected = _a.isSelected, mode = _a.mode, onClick = _a.onClick;\n    var testId = '';\n    switch (mode) {\n        case core.ViewMode.DualPage:\n            testId = 'view-mode__dual-button';\n            break;\n        case core.ViewMode.DualPageWithCover:\n            testId = 'view-mode__dual-cover-button';\n            break;\n        case core.ViewMode.SinglePage:\n        default:\n            testId = 'view-mode__single-button';\n            break;\n    }\n    return (React__namespace.createElement(SwitchViewModeDecorator, { mode: mode, onClick: onClick }, function (props) { return (React__namespace.createElement(core.Tooltip, { ariaControlsSuffix: \"view-mode-switch\", position: core.Position.BottomCenter, target: React__namespace.createElement(core.MinimalButton, { ariaLabel: props.label, isDisabled: isDisabled, isSelected: isSelected, testId: testId, onClick: props.onClick }, props.icon), content: function () { return props.label; }, offset: TOOLTIP_OFFSET })); }));\n};\n\nvar SwitchViewMode = function (_a) {\n    var children = _a.children, mode = _a.mode, store = _a.store;\n    var viewMode = useViewMode(store).viewMode;\n    var scrollMode = useScrollMode(store).scrollMode;\n    var onClick = function () {\n        switchViewMode(store, mode);\n    };\n    var isSelected = viewMode === mode;\n    var isDisabled = (scrollMode === core.ScrollMode.Horizontal || scrollMode === core.ScrollMode.Wrapped) && mode !== core.ViewMode.SinglePage;\n    var defaultChildren = function (props) { return (React__namespace.createElement(SwitchViewModeButton, { isDisabled: isDisabled, isSelected: isSelected, mode: props.mode, onClick: props.onClick })); };\n    var render = children || defaultChildren;\n    return render({\n        isDisabled: isDisabled,\n        isSelected: isSelected,\n        mode: mode,\n        onClick: onClick,\n    });\n};\n\nvar SwitchViewModeMenuItem = function (_a) {\n    var isDisabled = _a.isDisabled, isSelected = _a.isSelected, mode = _a.mode, onClick = _a.onClick;\n    var testId = '';\n    switch (mode) {\n        case core.ViewMode.DualPage:\n            testId = 'view-mode__dual-menu';\n            break;\n        case core.ViewMode.DualPageWithCover:\n            testId = 'view-mode__dual-cover-menu';\n            break;\n        case core.ViewMode.SinglePage:\n        default:\n            testId = 'view-mode__single-menu';\n            break;\n    }\n    return (React__namespace.createElement(SwitchViewModeDecorator, { mode: mode, onClick: onClick }, function (props) { return (React__namespace.createElement(core.MenuItem, { checked: isSelected, icon: props.icon, isDisabled: isDisabled, testId: testId, onClick: props.onClick }, props.label)); }));\n};\n\nvar scrollModePlugin = function () {\n    var store = React__namespace.useMemo(function () {\n        return core.createStore({\n            scrollMode: core.ScrollMode.Vertical,\n            viewMode: core.ViewMode.SinglePage,\n            switchScrollMode: function () {\n            },\n            switchViewMode: function () {\n            },\n        });\n    }, []);\n    var SwitchScrollModeDecorator = function (props) { return React__namespace.createElement(SwitchScrollMode, __assign({}, props, { store: store })); };\n    var SwitchScrollModeButtonDecorator = function (props) { return (React__namespace.createElement(SwitchScrollModeDecorator, { mode: props.mode }, function (p) { return (React__namespace.createElement(SwitchScrollModeButton, { isDisabled: p.isDisabled, isSelected: p.isSelected, mode: p.mode, onClick: function () {\n            p.onClick();\n        } })); })); };\n    var SwitchScrollModeMenuItemDecorator = function (props) { return (React__namespace.createElement(SwitchScrollModeDecorator, { mode: props.mode }, function (p) { return (React__namespace.createElement(SwitchScrollModeMenuItem, { isDisabled: p.isDisabled, isSelected: p.isSelected, mode: p.mode, onClick: function () {\n            p.onClick();\n            props.onClick();\n        } })); })); };\n    var SwitchViewModeDecorator = function (props) { return React__namespace.createElement(SwitchViewMode, __assign({}, props, { store: store })); };\n    var SwitchViewModeButtonDecorator = function (props) { return (React__namespace.createElement(SwitchViewModeDecorator, { mode: props.mode }, function (p) { return (React__namespace.createElement(SwitchViewModeButton, { isDisabled: p.isDisabled, isSelected: p.isSelected, mode: p.mode, onClick: function () {\n            p.onClick();\n        } })); })); };\n    var SwitchViewModeMenuItemDecorator = function (props) { return (React__namespace.createElement(SwitchViewModeDecorator, { mode: props.mode }, function (p) { return (React__namespace.createElement(SwitchViewModeMenuItem, { isDisabled: p.isDisabled, isSelected: p.isSelected, mode: p.mode, onClick: function () {\n            p.onClick();\n            props.onClick();\n        } })); })); };\n    return {\n        install: function (pluginFunctions) {\n            store.update('switchScrollMode', pluginFunctions.switchScrollMode);\n            store.update('switchViewMode', pluginFunctions.switchViewMode);\n        },\n        onViewerStateChange: function (viewerState) {\n            store.update('scrollMode', viewerState.scrollMode);\n            store.update('viewMode', viewerState.viewMode);\n            return viewerState;\n        },\n        switchScrollMode: function (scrollMode) {\n            switchScrollMode(store, scrollMode);\n        },\n        switchViewMode: function (viewMode) {\n            switchViewMode(store, viewMode);\n        },\n        SwitchScrollMode: SwitchScrollModeDecorator,\n        SwitchScrollModeButton: SwitchScrollModeButtonDecorator,\n        SwitchScrollModeMenuItem: SwitchScrollModeMenuItemDecorator,\n        SwitchViewMode: SwitchViewModeDecorator,\n        SwitchViewModeButton: SwitchViewModeButtonDecorator,\n        SwitchViewModeMenuItem: SwitchViewModeMenuItemDecorator,\n    };\n};\n\nexports.DualPageCoverViewModeIcon = DualPageCoverViewModeIcon;\nexports.DualPageViewModeIcon = DualPageViewModeIcon;\nexports.HorizontalScrollingIcon = HorizontalScrollingIcon;\nexports.PageScrollingIcon = PageScrollingIcon;\nexports.VerticalScrollingIcon = VerticalScrollingIcon;\nexports.WrappedScrollingIcon = WrappedScrollingIcon;\nexports.scrollModePlugin = scrollModePlugin;\n","/**\n * A React component to view a PDF document\n *\n * @see https://react-pdf-viewer.dev\n * @license https://react-pdf-viewer.dev/license\n * @copyright 2019-2023 Nguyen Huu Phuoc <me@phuoc.ng>\n */\n\n'use strict';\n\nif (process.env.NODE_ENV === 'production') {\n    module.exports = require('./cjs/scroll-mode.min.js');\n} else {\n    module.exports = require('./cjs/scroll-mode.js');\n}\n","'use strict';\n\nvar core = require('@react-pdf-viewer/core');\nvar React = require('react');\n\nfunction _interopNamespaceDefault(e) {\n    var n = Object.create(null);\n    if (e) {\n        Object.keys(e).forEach(function (k) {\n            if (k !== 'default') {\n                var d = Object.getOwnPropertyDescriptor(e, k);\n                Object.defineProperty(n, k, d.get ? d : {\n                    enumerable: true,\n                    get: function () { return e[k]; }\n                });\n            }\n        });\n    }\n    n.default = e;\n    return Object.freeze(n);\n}\n\nvar React__namespace = /*#__PURE__*/_interopNamespaceDefault(React);\n\nvar NextIcon = function () { return (React__namespace.createElement(core.Icon, { size: 16 },\n    React__namespace.createElement(\"path\", { d: \"M0.541,5.627L11.666,18.2c0.183,0.207,0.499,0.226,0.706,0.043c0.015-0.014,0.03-0.028,0.043-0.043\\n            L23.541,5.627\" }))); };\n\nvar PreviousIcon = function () { return (React__namespace.createElement(core.Icon, { size: 16 },\n    React__namespace.createElement(\"path\", { d: \"M23.535,18.373L12.409,5.8c-0.183-0.207-0.499-0.226-0.706-0.043C11.688,5.77,11.674,5.785,11.66,5.8\\n            L0.535,18.373\" }))); };\n\nvar SearchIcon = function () { return (React__namespace.createElement(core.Icon, { ignoreDirection: true, size: 16 },\n    React__namespace.createElement(\"path\", { d: \"M10.5,0.5c5.523,0,10,4.477,10,10s-4.477,10-10,10s-10-4.477-10-10S4.977,0.5,10.5,0.5z\\n            M23.5,23.5\\n            l-5.929-5.929\" }))); };\n\n/******************************************************************************\r\nCopyright (c) Microsoft Corporation.\r\n\r\nPermission to use, copy, modify, and/or distribute this software for any\r\npurpose with or without fee is hereby granted.\r\n\r\nTHE SOFTWARE IS PROVIDED \"AS IS\" AND THE AUTHOR DISCLAIMS ALL WARRANTIES WITH\r\nREGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY\r\nAND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT,\r\nINDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM\r\nLOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR\r\nOTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR\r\nPERFORMANCE OF THIS SOFTWARE.\r\n***************************************************************************** */\r\n\r\nvar __assign = function() {\r\n    __assign = Object.assign || function __assign(t) {\r\n        for (var s, i = 1, n = arguments.length; i < n; i++) {\r\n            s = arguments[i];\r\n            for (var p in s) if (Object.prototype.hasOwnProperty.call(s, p)) t[p] = s[p];\r\n        }\r\n        return t;\r\n    };\r\n    return __assign.apply(this, arguments);\r\n};\n\nvar EMPTY_KEYWORD_REGEXP = {\n    keyword: '',\n    regExp: new RegExp(' '),\n    wholeWords: false,\n};\n\nvar calculateOffset = function (children, parent) {\n    var top = children.offsetTop;\n    var left = children.offsetLeft;\n    var p = children.parentElement;\n    while (p && p !== parent) {\n        top += p.offsetTop;\n        left += p.offsetLeft;\n        p = p.parentElement;\n    }\n    return {\n        left: left,\n        top: top,\n    };\n};\n\nvar getCssProperties = function (area) {\n    return {\n        left: \"\".concat(area.left, \"%\"),\n        top: \"\".concat(area.top, \"%\"),\n        height: \"\".concat(area.height, \"%\"),\n        width: \"\".concat(area.width, \"%\"),\n    };\n};\n\nvar HightlightItem = function (_a) {\n    var index = _a.index, area = _a.area, onHighlightKeyword = _a.onHighlightKeyword;\n    var containerRef = React__namespace.useRef();\n    core.useIsomorphicLayoutEffect(function () {\n        var highlightEle = containerRef.current;\n        if (onHighlightKeyword && highlightEle) {\n            onHighlightKeyword({\n                highlightEle: highlightEle,\n                keyword: area.keyword,\n            });\n        }\n    }, []);\n    return (React__namespace.createElement(\"div\", { className: \"rpv-search__highlight\", \"data-index\": index, ref: containerRef, style: getCssProperties(area), title: area.keywordStr.trim() }));\n};\n\nvar removeNode = function (ele) {\n    var parent = ele.parentNode;\n    if (parent) {\n        parent.removeChild(ele);\n    }\n};\nvar replaceNode = function (replacementNode, node) {\n    removeNode(replacementNode);\n    var parent = node.parentNode;\n    if (parent) {\n        parent.insertBefore(replacementNode, node);\n    }\n    removeNode(node);\n};\nvar unwrap = function (ele) {\n    var parent = ele.parentNode;\n    if (!parent) {\n        return;\n    }\n    var range = document.createRange();\n    range.selectNodeContents(ele);\n    replaceNode(range.extractContents(), ele);\n    parent.normalize();\n};\n\nvar sortHighlightPosition = function (a, b) {\n    if (a.top < b.top) {\n        return -1;\n    }\n    if (a.top > b.top) {\n        return 1;\n    }\n    if (a.left < b.left) {\n        return -1;\n    }\n    if (a.left > b.left) {\n        return 1;\n    }\n    return 0;\n};\nvar Highlights = function (_a) {\n    var numPages = _a.numPages, pageIndex = _a.pageIndex, renderHighlights = _a.renderHighlights, store = _a.store, onHighlightKeyword = _a.onHighlightKeyword;\n    var containerRef = React__namespace.useRef();\n    var defaultRenderHighlights = React__namespace.useCallback(function (renderProps) { return (React__namespace.createElement(React__namespace.Fragment, null, renderProps.highlightAreas.map(function (area, index) { return (React__namespace.createElement(HightlightItem, { index: index, key: index, area: area, onHighlightKeyword: onHighlightKeyword })); }))); }, []);\n    var renderHighlightElements = renderHighlights || defaultRenderHighlights;\n    var _b = React__namespace.useState(store.get('matchPosition')), matchPosition = _b[0], setMatchPosition = _b[1];\n    var _c = React__namespace.useState(store.get('keyword') || [EMPTY_KEYWORD_REGEXP]), keywordRegexp = _c[0], setKeywordRegexp = _c[1];\n    var _d = React__namespace.useState({\n        pageIndex: pageIndex,\n        scale: 1,\n        status: core.LayerRenderStatus.PreRender,\n    }), renderStatus = _d[0], setRenderStatus = _d[1];\n    var currentMatchRef = React__namespace.useRef(null);\n    var characterIndexesRef = React__namespace.useRef([]);\n    var _e = React__namespace.useState([]), highlightAreas = _e[0], setHighlightAreas = _e[1];\n    var defaultTargetPageFilter = function () { return true; };\n    var targetPageFilter = React__namespace.useCallback(function () { return store.get('targetPageFilter') || defaultTargetPageFilter; }, [store.get('targetPageFilter')]);\n    var highlight = function (keywordStr, keyword, textLayerEle, span, charIndexSpan) {\n        var range = document.createRange();\n        var firstChild = span.firstChild;\n        if (!firstChild || firstChild.nodeType !== Node.TEXT_NODE) {\n            return null;\n        }\n        var length = firstChild.textContent.length;\n        var startOffset = charIndexSpan[0].charIndexInSpan;\n        var endOffset = charIndexSpan.length === 1 ? startOffset : charIndexSpan[charIndexSpan.length - 1].charIndexInSpan;\n        if (startOffset > length || endOffset + 1 > length) {\n            return null;\n        }\n        range.setStart(firstChild, startOffset);\n        range.setEnd(firstChild, endOffset + 1);\n        var wrapper = document.createElement('span');\n        range.surroundContents(wrapper);\n        var wrapperRect = wrapper.getBoundingClientRect();\n        var textLayerRect = textLayerEle.getBoundingClientRect();\n        var pageHeight = textLayerRect.height;\n        var pageWidth = textLayerRect.width;\n        var left = (100 * (wrapperRect.left - textLayerRect.left)) / pageWidth;\n        var top = (100 * (wrapperRect.top - textLayerRect.top)) / pageHeight;\n        var height = (100 * wrapperRect.height) / pageHeight;\n        var width = (100 * wrapperRect.width) / pageWidth;\n        unwrap(wrapper);\n        return {\n            keyword: keyword,\n            keywordStr: keywordStr,\n            numPages: numPages,\n            pageIndex: pageIndex,\n            left: left,\n            top: top,\n            height: height,\n            width: width,\n            pageHeight: pageHeight,\n            pageWidth: pageWidth,\n        };\n    };\n    var highlightAll = function (textLayerEle) {\n        var charIndexes = characterIndexesRef.current;\n        if (charIndexes.length === 0) {\n            return [];\n        }\n        var highlightPos = [];\n        var spans = [].slice.call(textLayerEle.querySelectorAll('.rpv-core__text-layer-text'));\n        var fullText = charIndexes.map(function (item) { return item.char; }).join('');\n        keywordRegexp.forEach(function (keyword) {\n            var keywordStr = keyword.keyword;\n            if (!keywordStr.trim()) {\n                return;\n            }\n            var cloneKeyword = keyword.regExp.flags.indexOf('g') === -1\n                ? new RegExp(keyword.regExp, \"\".concat(keyword.regExp.flags, \"g\"))\n                : keyword.regExp;\n            var match;\n            var matches = [];\n            while ((match = cloneKeyword.exec(fullText)) !== null) {\n                matches.push({\n                    keyword: cloneKeyword,\n                    startIndex: match.index,\n                    endIndex: cloneKeyword.lastIndex,\n                });\n            }\n            matches\n                .map(function (item) { return ({\n                keyword: item.keyword,\n                indexes: charIndexes.slice(item.startIndex, item.endIndex),\n            }); })\n                .forEach(function (item) {\n                var spanIndexes = item.indexes.reduce(function (acc, item) {\n                    acc[item.spanIndex] = (acc[item.spanIndex] || []).concat([item]);\n                    return acc;\n                }, {});\n                Object.values(spanIndexes).forEach(function (charIndexSpan) {\n                    if (charIndexSpan.length !== 1 || charIndexSpan[0].char.trim() !== '') {\n                        var normalizedCharSpan = keyword.wholeWords ? charIndexSpan.slice(1, -1) : charIndexSpan;\n                        var hightlighPosition = highlight(keywordStr, item.keyword, textLayerEle, spans[normalizedCharSpan[0].spanIndex], normalizedCharSpan);\n                        if (hightlighPosition) {\n                            highlightPos.push(hightlighPosition);\n                        }\n                    }\n                });\n            });\n        });\n        return highlightPos.sort(sortHighlightPosition);\n    };\n    var handleKeywordChanged = function (keyword) {\n        if (keyword && keyword.length > 0) {\n            setKeywordRegexp(keyword);\n        }\n    };\n    var handleMatchPositionChanged = function (currentPosition) { return setMatchPosition(currentPosition); };\n    var handleRenderStatusChanged = function (status) {\n        if (!status.has(pageIndex)) {\n            return;\n        }\n        var currentStatus = status.get(pageIndex);\n        if (currentStatus) {\n            setRenderStatus({\n                ele: currentStatus.ele,\n                pageIndex: pageIndex,\n                scale: currentStatus.scale,\n                status: currentStatus.status,\n            });\n        }\n    };\n    var isEmptyKeyword = function () {\n        return keywordRegexp.length === 0 || (keywordRegexp.length === 1 && keywordRegexp[0].keyword.trim() === '');\n    };\n    React__namespace.useEffect(function () {\n        if (isEmptyKeyword() ||\n            renderStatus.status !== core.LayerRenderStatus.DidRender ||\n            characterIndexesRef.current.length) {\n            return;\n        }\n        var textLayerEle = renderStatus.ele;\n        var spans = [].slice.call(textLayerEle.querySelectorAll('.rpv-core__text-layer-text'));\n        var charIndexes = spans\n            .map(function (span) { return span.textContent; })\n            .reduce(function (prev, curr, index) {\n            return prev.concat(curr.split('').map(function (c, i) { return ({\n                char: c,\n                charIndexInSpan: i,\n                spanIndex: index,\n            }); }));\n        }, [\n            {\n                char: '',\n                charIndexInSpan: 0,\n                spanIndex: 0,\n            },\n        ])\n            .slice(1);\n        characterIndexesRef.current = charIndexes;\n    }, [keywordRegexp, renderStatus.status]);\n    React__namespace.useEffect(function () {\n        if (isEmptyKeyword() ||\n            !renderStatus.ele ||\n            renderStatus.status !== core.LayerRenderStatus.DidRender ||\n            !targetPageFilter()({ pageIndex: pageIndex, numPages: numPages })) {\n            return;\n        }\n        var textLayerEle = renderStatus.ele;\n        var highlightPos = highlightAll(textLayerEle);\n        setHighlightAreas(highlightPos);\n    }, [keywordRegexp, matchPosition, renderStatus.status, characterIndexesRef.current]);\n    React__namespace.useEffect(function () {\n        if (isEmptyKeyword() && renderStatus.ele && renderStatus.status === core.LayerRenderStatus.DidRender) {\n            setHighlightAreas([]);\n        }\n    }, [keywordRegexp, renderStatus.status]);\n    React__namespace.useEffect(function () {\n        if (highlightAreas.length === 0) {\n            return;\n        }\n        var container = containerRef.current;\n        if (matchPosition.pageIndex !== pageIndex ||\n            !container ||\n            renderStatus.status !== core.LayerRenderStatus.DidRender) {\n            return;\n        }\n        var highlightEle = container.querySelector(\".rpv-search__highlight[data-index=\\\"\".concat(matchPosition.matchIndex, \"\\\"]\"));\n        if (!highlightEle) {\n            return;\n        }\n        var _a = calculateOffset(highlightEle, container), left = _a.left, top = _a.top;\n        var jump = store.get('jumpToDestination');\n        if (jump) {\n            jump({\n                pageIndex: pageIndex,\n                bottomOffset: (container.getBoundingClientRect().height - top) / renderStatus.scale,\n                leftOffset: left / renderStatus.scale,\n                scaleTo: renderStatus.scale,\n            });\n            if (currentMatchRef.current) {\n                currentMatchRef.current.classList.remove('rpv-search__highlight--current');\n            }\n            currentMatchRef.current = highlightEle;\n            highlightEle.classList.add('rpv-search__highlight--current');\n        }\n    }, [highlightAreas, matchPosition]);\n    React__namespace.useEffect(function () {\n        store.subscribe('keyword', handleKeywordChanged);\n        store.subscribe('matchPosition', handleMatchPositionChanged);\n        store.subscribe('renderStatus', handleRenderStatusChanged);\n        return function () {\n            store.unsubscribe('keyword', handleKeywordChanged);\n            store.unsubscribe('matchPosition', handleMatchPositionChanged);\n            store.unsubscribe('renderStatus', handleRenderStatusChanged);\n        };\n    }, []);\n    return (React__namespace.createElement(\"div\", { className: \"rpv-search__highlights\", \"data-testid\": \"search__highlights-\".concat(pageIndex), ref: containerRef }, renderHighlightElements({\n        getCssProperties: getCssProperties,\n        highlightAreas: highlightAreas,\n    })));\n};\n\nvar escapeRegExp = function (input) { return input.replace(/[.*+?^${}()|[\\]\\\\]/g, '\\\\$&'); };\nvar normalizeFlagKeyword = function (flagKeyword) {\n    var source = flagKeyword.wholeWords ? \" \".concat(flagKeyword.keyword, \" \") : flagKeyword.keyword;\n    var flags = flagKeyword.matchCase ? 'g' : 'gi';\n    return {\n        keyword: flagKeyword.keyword,\n        regExp: new RegExp(escapeRegExp(source), flags),\n        wholeWords: flagKeyword.wholeWords || false,\n    };\n};\nvar normalizeSingleKeyword = function (keyword, matchCase, wholeWords) {\n    if (keyword instanceof RegExp) {\n        return {\n            keyword: keyword.source,\n            regExp: keyword,\n            wholeWords: wholeWords || false,\n        };\n    }\n    if (typeof keyword === 'string') {\n        return keyword === ''\n            ? EMPTY_KEYWORD_REGEXP\n            : normalizeFlagKeyword({\n                keyword: keyword,\n                matchCase: matchCase || false,\n                wholeWords: wholeWords || false,\n            });\n    }\n    if (typeof matchCase !== 'undefined') {\n        keyword.matchCase = matchCase;\n    }\n    if (typeof wholeWords !== 'undefined') {\n        keyword.wholeWords = wholeWords;\n    }\n    return normalizeFlagKeyword(keyword);\n};\n\nvar useDocument = function (store) {\n    var currentDocRef = React__namespace.useRef(store.get('doc'));\n    var handleDocumentChanged = function (doc) {\n        currentDocRef.current = doc;\n    };\n    React__namespace.useEffect(function () {\n        store.subscribe('doc', handleDocumentChanged);\n        return function () {\n            store.unsubscribe('doc', handleDocumentChanged);\n        };\n    }, []);\n    return currentDocRef;\n};\n\nvar useSearch = function (store) {\n    var initialKeyword = store.get('initialKeyword');\n    var normalizedKeywordFlags = React__namespace.useMemo(function () {\n        if (initialKeyword && initialKeyword.length === 1) {\n            var normalizedKeyword = normalizeSingleKeyword(initialKeyword[0]);\n            return {\n                matchCase: normalizedKeyword.regExp.flags.indexOf('i') === -1,\n                wholeWords: normalizedKeyword.wholeWords,\n            };\n        }\n        else {\n            return {\n                matchCase: false,\n                wholeWords: false,\n            };\n        }\n    }, []);\n    var currentDocRef = useDocument(store);\n    var _a = React__namespace.useState(initialKeyword), keywords = _a[0], setKeywords = _a[1];\n    var _b = React__namespace.useState([]), found = _b[0], setFound = _b[1];\n    var _c = React__namespace.useState(0), currentMatch = _c[0], setCurrentMatch = _c[1];\n    var _d = React__namespace.useState(normalizedKeywordFlags.matchCase), matchCase = _d[0], setMatchCase = _d[1];\n    var textContents = React__namespace.useRef([]);\n    var _e = React__namespace.useState(normalizedKeywordFlags.wholeWords), wholeWords = _e[0], setWholeWords = _e[1];\n    var defaultTargetPageFilter = function () { return true; };\n    var targetPageFilter = React__namespace.useCallback(function () { return store.get('targetPageFilter') || defaultTargetPageFilter; }, [store.get('targetPageFilter')]);\n    var changeMatchCase = function (isChecked) {\n        setMatchCase(isChecked);\n        if (keywords.length > 0) {\n            searchFor(keywords, isChecked, wholeWords);\n        }\n    };\n    var changeWholeWords = function (isChecked) {\n        setWholeWords(isChecked);\n        if (keywords.length > 0) {\n            searchFor(keywords, matchCase, isChecked);\n        }\n    };\n    var jumpToMatch = function (index) {\n        var numMatches = found.length;\n        if (keywords.length === 0 || numMatches === 0) {\n            return null;\n        }\n        var normalizedIndex = index === numMatches + 1 ? 1 : Math.max(1, Math.min(numMatches, index));\n        setCurrentMatch(normalizedIndex);\n        return jumpToGivenMatch(found[normalizedIndex - 1]);\n    };\n    var jumpToPreviousMatch = function () { return jumpToMatch(currentMatch - 1); };\n    var jumpToNextMatch = function () { return jumpToMatch(currentMatch + 1); };\n    var clearKeyword = function () {\n        store.update('keyword', [EMPTY_KEYWORD_REGEXP]);\n        setKeyword('');\n        setCurrentMatch(0);\n        setFound([]);\n        setMatchCase(false);\n        setWholeWords(false);\n    };\n    var search = function () { return searchFor(keywords, matchCase, wholeWords); };\n    var setKeyword = function (keyword) { return setKeywords(keyword === '' ? [] : [keyword]); };\n    var setTargetPages = function (targetPageFilter) {\n        store.update('targetPageFilter', targetPageFilter);\n    };\n    var getTextContents = function () {\n        var currentDoc = currentDocRef.current;\n        if (!currentDoc) {\n            return Promise.resolve([]);\n        }\n        var promises = Array(currentDoc.numPages)\n            .fill(0)\n            .map(function (_, pageIndex) {\n            return core.getPage(currentDoc, pageIndex)\n                .then(function (page) {\n                return page.getTextContent();\n            })\n                .then(function (content) {\n                var pageContent = content.items.map(function (item) { return item.str || ''; }).join('');\n                return Promise.resolve({\n                    pageContent: pageContent,\n                    pageIndex: pageIndex,\n                });\n            });\n        });\n        return Promise.all(promises).then(function (data) {\n            data.sort(function (a, b) { return a.pageIndex - b.pageIndex; });\n            return Promise.resolve(data.map(function (item) { return item.pageContent; }));\n        });\n    };\n    var jumpToGivenMatch = function (match) {\n        var jumpToPage = store.get('jumpToPage');\n        if (jumpToPage) {\n            jumpToPage(match.pageIndex);\n        }\n        store.update('matchPosition', {\n            matchIndex: match.matchIndex,\n            pageIndex: match.pageIndex,\n        });\n        return match;\n    };\n    var getKeywordSource = function (keyword) {\n        if (keyword instanceof RegExp) {\n            return keyword.source;\n        }\n        if (typeof keyword === 'string') {\n            return keyword;\n        }\n        return keyword.keyword;\n    };\n    var searchFor = function (keywordParam, matchCaseParam, wholeWordsParam) {\n        var currentDoc = currentDocRef.current;\n        if (!currentDoc) {\n            return Promise.resolve([]);\n        }\n        var numPages = currentDoc.numPages;\n        var keywords = keywordParam.map(function (k) { return normalizeSingleKeyword(k, matchCaseParam, wholeWordsParam); });\n        store.update('keyword', keywords);\n        setCurrentMatch(0);\n        setFound([]);\n        return new Promise(function (resolve, _) {\n            var getTextPromise = textContents.current.length === 0\n                ? getTextContents().then(function (response) {\n                    textContents.current = response;\n                    return Promise.resolve(response);\n                })\n                : Promise.resolve(textContents.current);\n            getTextPromise.then(function (response) {\n                var arr = [];\n                response.forEach(function (pageText, pageIndex) {\n                    if (targetPageFilter()({ pageIndex: pageIndex, numPages: numPages })) {\n                        keywords.forEach(function (keyword) {\n                            var matchIndex = 0;\n                            var matches;\n                            while ((matches = keyword.regExp.exec(pageText)) !== null) {\n                                arr.push({\n                                    keyword: keyword.regExp,\n                                    matchIndex: matchIndex,\n                                    pageIndex: pageIndex,\n                                    pageText: pageText,\n                                    startIndex: matches.index,\n                                    endIndex: keyword.regExp.lastIndex,\n                                });\n                                matchIndex++;\n                            }\n                        });\n                    }\n                });\n                setFound(arr);\n                if (arr.length > 0) {\n                    setCurrentMatch(1);\n                    jumpToGivenMatch(arr[0]);\n                }\n                resolve(arr);\n            });\n        });\n    };\n    React__namespace.useEffect(function () {\n        textContents.current = [];\n    }, [currentDocRef.current]);\n    return {\n        clearKeyword: clearKeyword,\n        changeMatchCase: changeMatchCase,\n        changeWholeWords: changeWholeWords,\n        currentMatch: currentMatch,\n        jumpToMatch: jumpToMatch,\n        jumpToNextMatch: jumpToNextMatch,\n        jumpToPreviousMatch: jumpToPreviousMatch,\n        keywords: keywords,\n        matchCase: matchCase,\n        numberOfMatches: found.length,\n        wholeWords: wholeWords,\n        search: search,\n        searchFor: searchFor,\n        setKeywords: setKeywords,\n        keyword: keywords.length === 0 ? '' : getKeywordSource(keywords[0]),\n        setKeyword: setKeyword,\n        setTargetPages: setTargetPages,\n    };\n};\n\nvar Search = function (_a) {\n    var children = _a.children, store = _a.store;\n    var result = useSearch(store);\n    var _b = React__namespace.useState(false), isDocumentLoaded = _b[0], setDocumentLoaded = _b[1];\n    var handleDocumentChanged = function (_) { return setDocumentLoaded(true); };\n    React__namespace.useEffect(function () {\n        store.subscribe('doc', handleDocumentChanged);\n        return function () {\n            store.unsubscribe('doc', handleDocumentChanged);\n        };\n    }, []);\n    return children(__assign(__assign({}, result), { isDocumentLoaded: isDocumentLoaded }));\n};\n\nvar ShortcutHandler = function (_a) {\n    var containerRef = _a.containerRef, store = _a.store;\n    var isMouseInsideRef = React__namespace.useRef(false);\n    var handleMouseEnter = function () {\n        isMouseInsideRef.current = true;\n    };\n    var handleMouseLeave = function () {\n        isMouseInsideRef.current = false;\n    };\n    var handleKeydown = function (e) {\n        var containerEle = containerRef.current;\n        if (!containerEle) {\n            return;\n        }\n        if (e.shiftKey || e.altKey || e.key !== 'f') {\n            return;\n        }\n        var isCommandPressed = core.isMac() ? e.metaKey && !e.ctrlKey : e.ctrlKey;\n        if (!isCommandPressed) {\n            return;\n        }\n        if (isMouseInsideRef.current || (document.activeElement && containerEle.contains(document.activeElement))) {\n            e.preventDefault();\n            store.update('areShortcutsPressed', true);\n        }\n    };\n    React__namespace.useEffect(function () {\n        var containerEle = containerRef.current;\n        if (!containerEle) {\n            return;\n        }\n        document.addEventListener('keydown', handleKeydown);\n        containerEle.addEventListener('mouseenter', handleMouseEnter);\n        containerEle.addEventListener('mouseleave', handleMouseLeave);\n        return function () {\n            document.removeEventListener('keydown', handleKeydown);\n            containerEle.removeEventListener('mouseenter', handleMouseEnter);\n            containerEle.removeEventListener('mouseleave', handleMouseLeave);\n        };\n    }, [containerRef.current]);\n    return React__namespace.createElement(React__namespace.Fragment, null);\n};\n\nvar PORTAL_OFFSET$1 = { left: 0, top: 8 };\nvar SearchPopover = function (_a) {\n    var store = _a.store, onToggle = _a.onToggle;\n    var l10n = React__namespace.useContext(core.LocalizationContext).l10n;\n    var direction = React__namespace.useContext(core.ThemeContext).direction;\n    var _b = React__namespace.useState(false), isQuerying = _b[0], setIsQuerying = _b[1];\n    var _c = React__namespace.useState(false), searchDone = _c[0], setSearchDone = _c[1];\n    var isRtl = direction === core.TextDirection.RightToLeft;\n    var _d = useSearch(store), clearKeyword = _d.clearKeyword, changeMatchCase = _d.changeMatchCase, changeWholeWords = _d.changeWholeWords, currentMatch = _d.currentMatch, jumpToNextMatch = _d.jumpToNextMatch, jumpToPreviousMatch = _d.jumpToPreviousMatch, keyword = _d.keyword, matchCase = _d.matchCase, numberOfMatches = _d.numberOfMatches, wholeWords = _d.wholeWords, search = _d.search, setKeyword = _d.setKeyword;\n    var performSearch = function (cb) {\n        setIsQuerying(true);\n        search().then(function (_) {\n            setIsQuerying(false);\n            setSearchDone(true);\n            cb && cb();\n        });\n    };\n    var onKeydownSearch = function (e) {\n        if (e.key === 'Enter' && keyword) {\n            searchDone ? jumpToNextMatch() : performSearch();\n        }\n    };\n    var onChangeMatchCase = function (e) {\n        setSearchDone(false);\n        changeMatchCase(e.target.checked);\n    };\n    var onChangeWholeWords = function (e) {\n        setSearchDone(false);\n        changeWholeWords(e.target.checked);\n    };\n    var onClose = function () {\n        onToggle();\n        clearKeyword();\n    };\n    var onChangeKeyword = function (value) {\n        setSearchDone(false);\n        setKeyword(value);\n    };\n    React__namespace.useEffect(function () {\n        var initialKeyword = store.get('initialKeyword');\n        if (initialKeyword && initialKeyword.length === 1 && keyword) {\n            performSearch(function () {\n                store.update('initialKeyword', []);\n            });\n        }\n    }, []);\n    var searchLabel = l10n && l10n.search ? l10n.search.enterToSearch : 'Enter to search';\n    var previousMatchLabel = l10n && l10n.search ? l10n.search.previousMatch : 'Previous match';\n    var nextMatchLabel = l10n && l10n.search ? l10n.search.nextMatch : 'Next match';\n    var closeButtonLabel = l10n && l10n.search ? l10n.search.close : 'Close';\n    return (React__namespace.createElement(\"div\", { className: \"rpv-search__popover\" },\n        React__namespace.createElement(\"div\", { className: \"rpv-search__popover-input-counter\" },\n            React__namespace.createElement(core.TextBox, { ariaLabel: searchLabel, autoFocus: true, placeholder: searchLabel, type: \"text\", value: keyword, onChange: onChangeKeyword, onKeyDown: onKeydownSearch }),\n            React__namespace.createElement(\"div\", { className: core.classNames({\n                    'rpv-search__popover-counter': true,\n                    'rpv-search__popover-counter--ltr': !isRtl,\n                    'rpv-search__popover-counter--rtl': isRtl,\n                }) },\n                isQuerying && React__namespace.createElement(core.Spinner, { testId: \"search__popover-searching\", size: \"1rem\" }),\n                !isQuerying && (React__namespace.createElement(\"span\", { \"data-testid\": \"search__popover-num-matches\" },\n                    currentMatch,\n                    \"/\",\n                    numberOfMatches)))),\n        React__namespace.createElement(\"label\", { className: \"rpv-search__popover-label\" },\n            React__namespace.createElement(\"input\", { className: \"rpv-search__popover-label-checkbox\", \"data-testid\": \"search__popover-match-case\", checked: matchCase, type: \"checkbox\", onChange: onChangeMatchCase }),\n            ' ',\n            l10n && l10n.search ? l10n.search.matchCase : 'Match case'),\n        React__namespace.createElement(\"label\", { className: \"rpv-search__popover-label\" },\n            React__namespace.createElement(\"input\", { className: \"rpv-search__popover-label-checkbox\", checked: wholeWords, \"data-testid\": \"search__popover-whole-words\", type: \"checkbox\", onChange: onChangeWholeWords }),\n            ' ',\n            l10n && l10n.search ? l10n.search.wholeWords : 'Whole words'),\n        React__namespace.createElement(\"div\", { className: \"rpv-search__popover-footer\" },\n            React__namespace.createElement(\"div\", { className: \"rpv-search__popover-footer-item\" },\n                React__namespace.createElement(core.Tooltip, { ariaControlsSuffix: \"search-previous-match\", position: isRtl ? core.Position.BottomRight : core.Position.BottomCenter, target: React__namespace.createElement(core.MinimalButton, { ariaLabel: previousMatchLabel, isDisabled: currentMatch <= 1, onClick: jumpToPreviousMatch },\n                        React__namespace.createElement(PreviousIcon, null)), content: function () { return previousMatchLabel; }, offset: PORTAL_OFFSET$1 })),\n            React__namespace.createElement(\"div\", { className: \"rpv-search__popover-footer-item\" },\n                React__namespace.createElement(core.Tooltip, { ariaControlsSuffix: \"search-next-match\", position: core.Position.BottomCenter, target: React__namespace.createElement(core.MinimalButton, { ariaLabel: nextMatchLabel, isDisabled: currentMatch > numberOfMatches - 1, onClick: jumpToNextMatch },\n                        React__namespace.createElement(NextIcon, null)), content: function () { return nextMatchLabel; }, offset: PORTAL_OFFSET$1 })),\n            React__namespace.createElement(\"div\", { className: core.classNames({\n                    'rpv-search__popover-footer-button': true,\n                    'rpv-search__popover-footer-button--ltr': !isRtl,\n                    'rpv-search__popover-footer-button--rtl': isRtl,\n                }) },\n                React__namespace.createElement(core.Button, { onClick: onClose }, closeButtonLabel)))));\n};\n\nvar ShowSearchPopoverDecorator = function (_a) {\n    var children = _a.children, onClick = _a.onClick;\n    var l10n = React__namespace.useContext(core.LocalizationContext).l10n;\n    var label = l10n && l10n.search ? l10n.search.search : 'Search';\n    var icon = React__namespace.createElement(SearchIcon, null);\n    return children({ icon: icon, label: label, onClick: onClick });\n};\n\nvar TOOLTIP_OFFSET = { left: 0, top: 8 };\nvar ShowSearchPopoverButton = function (_a) {\n    var enableShortcuts = _a.enableShortcuts, store = _a.store, onClick = _a.onClick;\n    var ariaKeyShortcuts = enableShortcuts ? (core.isMac() ? 'Meta+F' : 'Ctrl+F') : '';\n    var handleShortcutsPressed = function (areShortcutsPressed) {\n        if (areShortcutsPressed) {\n            onClick();\n        }\n    };\n    React__namespace.useEffect(function () {\n        store.subscribe('areShortcutsPressed', handleShortcutsPressed);\n        return function () {\n            store.unsubscribe('areShortcutsPressed', handleShortcutsPressed);\n        };\n    }, []);\n    return (React__namespace.createElement(ShowSearchPopoverDecorator, { onClick: onClick }, function (p) { return (React__namespace.createElement(core.Tooltip, { ariaControlsSuffix: \"search-popover\", position: core.Position.BottomCenter, target: React__namespace.createElement(core.MinimalButton, { ariaKeyShortcuts: ariaKeyShortcuts, ariaLabel: p.label, testId: \"search__popover-button\", onClick: onClick }, p.icon), content: function () { return p.label; }, offset: TOOLTIP_OFFSET })); }));\n};\n\nvar PORTAL_OFFSET = { left: 0, top: 8 };\nvar ShowSearchPopover = function (_a) {\n    var children = _a.children, enableShortcuts = _a.enableShortcuts, store = _a.store;\n    var direction = React__namespace.useContext(core.ThemeContext).direction;\n    var portalPosition = direction === core.TextDirection.RightToLeft ? core.Position.BottomRight : core.Position.BottomLeft;\n    var defaultChildren = function (props) { return (React__namespace.createElement(ShowSearchPopoverButton, __assign({ enableShortcuts: enableShortcuts, store: store }, props))); };\n    var render = children || defaultChildren;\n    return (React__namespace.createElement(core.Popover, { ariaControlsSuffix: \"search\", lockScroll: false, position: portalPosition, target: function (toggle) {\n            return render({\n                onClick: toggle,\n            });\n        }, content: function (toggle) { return React__namespace.createElement(SearchPopover, { store: store, onToggle: toggle }); }, offset: PORTAL_OFFSET, closeOnClickOutside: false, closeOnEscape: true }));\n};\n\nvar normalizeKeywords = function (keyword) {\n    return Array.isArray(keyword) ? keyword.map(function (k) { return normalizeSingleKeyword(k); }) : [normalizeSingleKeyword(keyword)];\n};\nvar searchPlugin = function (props) {\n    var searchPluginProps = React__namespace.useMemo(function () { return Object.assign({}, { enableShortcuts: true, onHighlightKeyword: function () { } }, props); }, []);\n    var store = React__namespace.useMemo(function () {\n        return core.createStore({\n            initialKeyword: props && props.keyword ? (Array.isArray(props.keyword) ? props.keyword : [props.keyword]) : [],\n            keyword: props && props.keyword ? normalizeKeywords(props.keyword) : [EMPTY_KEYWORD_REGEXP],\n            matchPosition: {\n                matchIndex: -1,\n                pageIndex: -1,\n            },\n            renderStatus: new Map(),\n        });\n    }, []);\n    var _a = useSearch(store), clearKeyword = _a.clearKeyword, jumpToMatch = _a.jumpToMatch, jumpToNextMatch = _a.jumpToNextMatch, jumpToPreviousMatch = _a.jumpToPreviousMatch, searchFor = _a.searchFor, setKeywords = _a.setKeywords, setTargetPages = _a.setTargetPages;\n    var SearchDecorator = function (props) { return React__namespace.createElement(Search, __assign({}, props, { store: store })); };\n    var ShowSearchPopoverDecorator = function (props) { return (React__namespace.createElement(ShowSearchPopover, __assign({ enableShortcuts: searchPluginProps.enableShortcuts }, props, { store: store }))); };\n    var ShowSearchPopoverButtonDecorator = function () { return (React__namespace.createElement(ShowSearchPopoverDecorator, null, function (props) { return (React__namespace.createElement(ShowSearchPopoverButton, __assign({ enableShortcuts: searchPluginProps.enableShortcuts, store: store }, props))); })); };\n    var renderViewer = function (renderViewerProps) {\n        var currentSlot = renderViewerProps.slot;\n        if (currentSlot.subSlot) {\n            currentSlot.subSlot.children = (React__namespace.createElement(React__namespace.Fragment, null,\n                searchPluginProps.enableShortcuts && (React__namespace.createElement(ShortcutHandler, { containerRef: renderViewerProps.containerRef, store: store })),\n                currentSlot.subSlot.children));\n        }\n        return currentSlot;\n    };\n    var renderPageLayer = function (renderProps) { return (React__namespace.createElement(Highlights, { key: renderProps.pageIndex, numPages: renderProps.doc.numPages, pageIndex: renderProps.pageIndex, renderHighlights: props === null || props === void 0 ? void 0 : props.renderHighlights, store: store, onHighlightKeyword: searchPluginProps.onHighlightKeyword })); };\n    return {\n        install: function (pluginFunctions) {\n            var initialKeyword = props && props.keyword ? (Array.isArray(props.keyword) ? props.keyword : [props.keyword]) : [];\n            var keyword = props && props.keyword ? normalizeKeywords(props.keyword) : [EMPTY_KEYWORD_REGEXP];\n            store.update('initialKeyword', initialKeyword);\n            store.update('jumpToDestination', pluginFunctions.jumpToDestination);\n            store.update('jumpToPage', pluginFunctions.jumpToPage);\n            store.update('keyword', keyword);\n        },\n        renderPageLayer: renderPageLayer,\n        renderViewer: renderViewer,\n        uninstall: function (props) {\n            var renderStatus = store.get('renderStatus');\n            if (renderStatus) {\n                renderStatus.clear();\n            }\n        },\n        onDocumentLoad: function (props) {\n            store.update('doc', props.doc);\n        },\n        onTextLayerRender: function (props) {\n            var renderStatus = store.get('renderStatus');\n            if (renderStatus) {\n                renderStatus = renderStatus.set(props.pageIndex, props);\n                store.update('renderStatus', renderStatus);\n            }\n        },\n        Search: SearchDecorator,\n        ShowSearchPopover: ShowSearchPopoverDecorator,\n        ShowSearchPopoverButton: ShowSearchPopoverButtonDecorator,\n        clearHighlights: function () {\n            clearKeyword();\n        },\n        highlight: function (keyword) {\n            var keywords = Array.isArray(keyword) ? keyword : [keyword];\n            setKeywords(keywords);\n            return searchFor(keywords);\n        },\n        jumpToMatch: jumpToMatch,\n        jumpToNextMatch: jumpToNextMatch,\n        jumpToPreviousMatch: jumpToPreviousMatch,\n        setTargetPages: setTargetPages,\n    };\n};\n\nexports.NextIcon = NextIcon;\nexports.PreviousIcon = PreviousIcon;\nexports.SearchIcon = SearchIcon;\nexports.searchPlugin = searchPlugin;\n","/**\n * A React component to view a PDF document\n *\n * @see https://react-pdf-viewer.dev\n * @license https://react-pdf-viewer.dev/license\n * @copyright 2019-2023 Nguyen Huu Phuoc <me@phuoc.ng>\n */\n\n'use strict';\n\nif (process.env.NODE_ENV === 'production') {\n    module.exports = require('./cjs/search.min.js');\n} else {\n    module.exports = require('./cjs/search.js');\n}\n","'use strict';\n\nvar core = require('@react-pdf-viewer/core');\nvar React = require('react');\n\nfunction _interopNamespaceDefault(e) {\n    var n = Object.create(null);\n    if (e) {\n        Object.keys(e).forEach(function (k) {\n            if (k !== 'default') {\n                var d = Object.getOwnPropertyDescriptor(e, k);\n                Object.defineProperty(n, k, d.get ? d : {\n                    enumerable: true,\n                    get: function () { return e[k]; }\n                });\n            }\n        });\n    }\n    n.default = e;\n    return Object.freeze(n);\n}\n\nvar React__namespace = /*#__PURE__*/_interopNamespaceDefault(React);\n\nvar HandToolIcon = function () { return (React__namespace.createElement(core.Icon, { size: 16 },\n    React__namespace.createElement(\"path\", { d: \"M11.5,5.5v-2C11.5,2.672,12.172,2,13,2s1.5,0.672,1.5,1.5v2 M14.5,11.5v-6C14.5,4.672,15.172,4,16,4\\n            c0.828,0,1.5,0.672,1.5,1.5v3 M17.5,13V8.5C17.5,7.672,18.172,7,19,7s1.5,0.672,1.5,1.5v10c0,2.761-2.239,5-5,5h-3.335\\n            c-1.712-0.001-3.305-0.876-4.223-2.321C6.22,18.467,4.083,14,4.083,14c-0.378-0.545-0.242-1.292,0.303-1.67\\n            c0.446-0.309,1.044-0.281,1.458,0.07L8.5,15.5v-10C8.5,4.672,9.172,4,10,4s1.5,0.672,1.5,1.5v6\" }))); };\n\n/******************************************************************************\r\nCopyright (c) Microsoft Corporation.\r\n\r\nPermission to use, copy, modify, and/or distribute this software for any\r\npurpose with or without fee is hereby granted.\r\n\r\nTHE SOFTWARE IS PROVIDED \"AS IS\" AND THE AUTHOR DISCLAIMS ALL WARRANTIES WITH\r\nREGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY\r\nAND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT,\r\nINDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM\r\nLOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR\r\nOTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR\r\nPERFORMANCE OF THIS SOFTWARE.\r\n***************************************************************************** */\r\n\r\nvar __assign = function() {\r\n    __assign = Object.assign || function __assign(t) {\r\n        for (var s, i = 1, n = arguments.length; i < n; i++) {\r\n            s = arguments[i];\r\n            for (var p in s) if (Object.prototype.hasOwnProperty.call(s, p)) t[p] = s[p];\r\n        }\r\n        return t;\r\n    };\r\n    return __assign.apply(this, arguments);\r\n};\n\nexports.SelectionMode = void 0;\n(function (SelectionMode) {\n    SelectionMode[\"Hand\"] = \"Hand\";\n    SelectionMode[\"Text\"] = \"Text\";\n})(exports.SelectionMode || (exports.SelectionMode = {}));\n\nvar TextSelectionIcon = function () { return (React__namespace.createElement(core.Icon, { size: 16 },\n    React__namespace.createElement(\"path\", { d: \"M13.675,11.671l2.941-2.941c0.195-0.196,0.195-0.512-0.001-0.707C16.563,7.971,16.5,7.931,16.43,7.906\\n            L4.168,3.527C3.908,3.434,3.622,3.57,3.529,3.83c-0.039,0.109-0.039,0.228,0,0.336l4.379,12.262\\n            c0.093,0.26,0.379,0.396,0.639,0.303c0.07-0.025,0.133-0.065,0.185-0.117l2.943-2.943l6.146,6.146c0.195,0.195,0.512,0.195,0.707,0\\n            l1.293-1.293c0.195-0.195,0.195-0.512,0-0.707L13.675,11.671z\" }))); };\n\nvar SwitchSelectionModeDecorator = function (_a) {\n    var children = _a.children, mode = _a.mode, onClick = _a.onClick;\n    var l10n = React__namespace.useContext(core.LocalizationContext).l10n;\n    var label = '';\n    var icon = React__namespace.createElement(TextSelectionIcon, null);\n    switch (mode) {\n        case exports.SelectionMode.Hand:\n            label =\n                l10n && l10n.selectionMode ? l10n.selectionMode.handTool : 'Hand tool';\n            icon = React__namespace.createElement(HandToolIcon, null);\n            break;\n        case exports.SelectionMode.Text:\n        default:\n            label =\n                l10n && l10n.selectionMode\n                    ? l10n.selectionMode.textSelectionTool\n                    : 'Text selection tool';\n            icon = React__namespace.createElement(TextSelectionIcon, null);\n            break;\n    }\n    return children({ icon: icon, label: label, onClick: onClick });\n};\n\nvar TOOLTIP_OFFSET = { left: 0, top: 8 };\nvar SwitchSelectionModeButton = function (_a) {\n    var isSelected = _a.isSelected, mode = _a.mode, onClick = _a.onClick;\n    var testId = '';\n    switch (mode) {\n        case exports.SelectionMode.Hand:\n            testId = 'selection-mode__hand-button';\n            break;\n        case exports.SelectionMode.Text:\n        default:\n            testId = 'selection-mode__text-button';\n    }\n    return (React__namespace.createElement(SwitchSelectionModeDecorator, { mode: mode, onClick: onClick }, function (props) { return (React__namespace.createElement(core.Tooltip, { ariaControlsSuffix: \"selection-mode-switch\", position: core.Position.BottomCenter, target: React__namespace.createElement(core.MinimalButton, { ariaLabel: props.label, isSelected: isSelected, testId: testId, onClick: props.onClick }, props.icon), content: function () { return props.label; }, offset: TOOLTIP_OFFSET })); }));\n};\n\nvar SwitchSelectionMode = function (_a) {\n    var children = _a.children, mode = _a.mode, store = _a.store;\n    var onClick = function () { return store.update('selectionMode', mode); };\n    var isSelected = mode === store.get('selectionMode');\n    var defaultChildren = function (props) { return (React__namespace.createElement(SwitchSelectionModeButton, { isSelected: isSelected, mode: props.mode, onClick: props.onClick })); };\n    var render = children || defaultChildren;\n    return render({\n        isSelected: isSelected,\n        mode: mode,\n        onClick: onClick,\n    });\n};\n\nvar SwitchSelectionModeMenuItem = function (_a) {\n    var isSelected = _a.isSelected, mode = _a.mode, onClick = _a.onClick;\n    var testId = '';\n    switch (mode) {\n        case exports.SelectionMode.Hand:\n            testId = 'selection-mode__hand-menu';\n            break;\n        case exports.SelectionMode.Text:\n        default:\n            testId = 'selection-mode__text-menu';\n    }\n    return (React__namespace.createElement(SwitchSelectionModeDecorator, { mode: mode, onClick: onClick }, function (props) { return (React__namespace.createElement(core.MenuItem, { checked: isSelected, icon: props.icon, testId: testId, onClick: props.onClick }, props.label)); }));\n};\n\nvar Tracker = function (_a) {\n    var store = _a.store;\n    var pagesRef = React__namespace.useRef(null);\n    var _b = React__namespace.useState(exports.SelectionMode.Text), selectionMode = _b[0], setSelectionMode = _b[1];\n    var pos = React__namespace.useRef({ top: 0, left: 0, x: 0, y: 0 });\n    var onMouseMoveHandler = function (e) {\n        var ele = pagesRef.current;\n        if (!ele) {\n            return;\n        }\n        ele.scrollTop = pos.current.top - (e.clientY - pos.current.y);\n        ele.scrollLeft = pos.current.left - (e.clientX - pos.current.x);\n    };\n    var onMouseUpHandler = function () {\n        var ele = pagesRef.current;\n        if (!ele) {\n            return;\n        }\n        ele.classList.add('rpv-selection-mode__grab');\n        ele.classList.remove('rpv-selection-mode__grabbing');\n        document.removeEventListener('mousemove', onMouseMoveHandler);\n        document.removeEventListener('mouseup', onMouseUpHandler);\n    };\n    var onMouseDownHandler = function (e) {\n        var ele = pagesRef.current;\n        if (!ele || selectionMode === exports.SelectionMode.Text) {\n            return;\n        }\n        ele.classList.remove('rpv-selection-mode__grab');\n        ele.classList.add('rpv-selection-mode__grabbing');\n        e.preventDefault();\n        e.stopPropagation();\n        pos.current = {\n            left: ele.scrollLeft,\n            top: ele.scrollTop,\n            x: e.clientX,\n            y: e.clientY,\n        };\n        document.addEventListener('mousemove', onMouseMoveHandler);\n        document.addEventListener('mouseup', onMouseUpHandler);\n    };\n    var handlePagesContainer = function (getPagesContainer) {\n        pagesRef.current = getPagesContainer();\n    };\n    var handleSelectionModeChanged = function (mode) {\n        setSelectionMode(mode);\n    };\n    React__namespace.useEffect(function () {\n        var ele = pagesRef.current;\n        if (!ele) {\n            return;\n        }\n        selectionMode === exports.SelectionMode.Hand\n            ? ele.classList.add('rpv-selection-mode__grab')\n            : ele.classList.remove('rpv-selection-mode__grab');\n        ele.addEventListener('mousedown', onMouseDownHandler);\n        return function () {\n            ele.removeEventListener('mousedown', onMouseDownHandler);\n        };\n    }, [selectionMode]);\n    React__namespace.useEffect(function () {\n        store.subscribe('getPagesContainer', handlePagesContainer);\n        store.subscribe('selectionMode', handleSelectionModeChanged);\n        return function () {\n            store.unsubscribe('getPagesContainer', handlePagesContainer);\n            store.unsubscribe('selectionMode', handleSelectionModeChanged);\n        };\n    }, []);\n    return React__namespace.createElement(React__namespace.Fragment, null);\n};\n\nvar selectionModePlugin = function (props) {\n    var store = React__namespace.useMemo(function () { return core.createStore(); }, []);\n    var SwitchSelectionModeDecorator = function (props) { return (React__namespace.createElement(SwitchSelectionMode, __assign({}, props, { store: store }))); };\n    var SwitchSelectionModeButtonDecorator = function (props) { return (React__namespace.createElement(SwitchSelectionModeDecorator, { mode: props.mode }, function (p) { return (React__namespace.createElement(SwitchSelectionModeButton, { isSelected: p.isSelected, mode: p.mode, onClick: function () {\n            p.onClick();\n        } })); })); };\n    var SwitchSelectionModeMenuItemDecorator = function (props) { return (React__namespace.createElement(SwitchSelectionModeDecorator, { mode: props.mode }, function (p) { return (React__namespace.createElement(SwitchSelectionModeMenuItem, { isSelected: p.isSelected, mode: p.mode, onClick: function () {\n            p.onClick();\n            props.onClick();\n        } })); })); };\n    var renderViewer = function (props) {\n        var currentSlot = props.slot;\n        if (currentSlot.subSlot && currentSlot.subSlot.children) {\n            currentSlot.subSlot.children = (React__namespace.createElement(React__namespace.Fragment, null,\n                React__namespace.createElement(Tracker, { store: store }),\n                currentSlot.subSlot.children));\n        }\n        return currentSlot;\n    };\n    return {\n        install: function (pluginFunctions) {\n            store.update('selectionMode', props && props.selectionMode ? props.selectionMode : exports.SelectionMode.Text);\n            store.update('getPagesContainer', pluginFunctions.getPagesContainer);\n        },\n        renderViewer: renderViewer,\n        SwitchSelectionMode: SwitchSelectionModeDecorator,\n        SwitchSelectionModeButton: SwitchSelectionModeButtonDecorator,\n        SwitchSelectionModeMenuItem: SwitchSelectionModeMenuItemDecorator,\n    };\n};\n\nexports.HandToolIcon = HandToolIcon;\nexports.TextSelectionIcon = TextSelectionIcon;\nexports.selectionModePlugin = selectionModePlugin;\n","/**\n * A React component to view a PDF document\n *\n * @see https://react-pdf-viewer.dev\n * @license https://react-pdf-viewer.dev/license\n * @copyright 2019-2023 Nguyen Huu Phuoc <me@phuoc.ng>\n */\n\n'use strict';\n\nif (process.env.NODE_ENV === 'production') {\n    module.exports = require('./cjs/selection-mode.min.js');\n} else {\n    module.exports = require('./cjs/selection-mode.js');\n}\n","'use strict';\n\nvar core = require('@react-pdf-viewer/core');\nvar React = require('react');\n\nfunction _interopNamespaceDefault(e) {\n    var n = Object.create(null);\n    if (e) {\n        Object.keys(e).forEach(function (k) {\n            if (k !== 'default') {\n                var d = Object.getOwnPropertyDescriptor(e, k);\n                Object.defineProperty(n, k, d.get ? d : {\n                    enumerable: true,\n                    get: function () { return e[k]; }\n                });\n            }\n        });\n    }\n    n.default = e;\n    return Object.freeze(n);\n}\n\nvar React__namespace = /*#__PURE__*/_interopNamespaceDefault(React);\n\nvar DarkIcon = function () { return (React__namespace.createElement(core.Icon, { size: 16 },\n    React__namespace.createElement(\"path\", { d: \"M19.5,15.106l2.4-2.4a1,1,0,0,0,0-1.414l-2.4-2.4V5.5a1,1,0,0,0-1-1H15.106l-2.4-2.4a1,1,0,0,0-1.414,0l-2.4,2.4H5.5a1,1,0,0,0-1,1V8.894l-2.4,2.4a1,1,0,0,0,0,1.414l2.4,2.4V18.5a1,1,0,0,0,1,1H8.894l2.4,2.4a1,1,0,0,0,1.414,0l2.4-2.4H18.5a1,1,0,0,0,1-1Z\" }),\n    React__namespace.createElement(\"path\", { d: \"M10,6.349a6,6,0,0,1,0,11.3,6,6,0,1,0,0-11.3Z\" }))); };\n\nvar LightIcon = function () { return (React__namespace.createElement(core.Icon, { size: 16 },\n    React__namespace.createElement(\"path\", { d: \"M19.491,15.106l2.4-2.4a1,1,0,0,0,0-1.414l-2.4-2.4V5.5a1,1,0,0,0-1-1H15.1L12.7,2.1a1,1,0,0,0-1.414,0l-2.4,2.4H5.491a1,1,0,0,0-1,1V8.894l-2.4,2.4a1,1,0,0,0,0,1.414l2.4,2.4V18.5a1,1,0,0,0,1,1H8.885l2.4,2.4a1,1,0,0,0,1.414,0l2.4-2.4h3.394a1,1,0,0,0,1-1Z\" }),\n    React__namespace.createElement(\"path\", { d: \"M11.491,6c4,0,6,2.686,6,6s-2,6-6,6Z\" }))); };\n\n/******************************************************************************\r\nCopyright (c) Microsoft Corporation.\r\n\r\nPermission to use, copy, modify, and/or distribute this software for any\r\npurpose with or without fee is hereby granted.\r\n\r\nTHE SOFTWARE IS PROVIDED \"AS IS\" AND THE AUTHOR DISCLAIMS ALL WARRANTIES WITH\r\nREGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY\r\nAND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT,\r\nINDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM\r\nLOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR\r\nOTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR\r\nPERFORMANCE OF THIS SOFTWARE.\r\n***************************************************************************** */\r\n\r\nvar __assign = function() {\r\n    __assign = Object.assign || function __assign(t) {\r\n        for (var s, i = 1, n = arguments.length; i < n; i++) {\r\n            s = arguments[i];\r\n            for (var p in s) if (Object.prototype.hasOwnProperty.call(s, p)) t[p] = s[p];\r\n        }\r\n        return t;\r\n    };\r\n    return __assign.apply(this, arguments);\r\n};\n\nvar TOOLTIP_OFFSET = { left: 0, top: 8 };\nvar SwitchThemeButton = function (_a) {\n    var onClick = _a.onClick;\n    var theme = React__namespace.useContext(core.ThemeContext);\n    var l10n = React__namespace.useContext(core.LocalizationContext).l10n;\n    var isDarkTheme = theme.currentTheme === 'dark';\n    var label = l10n && l10n.theme\n        ? isDarkTheme\n            ? l10n.theme.switchLightTheme\n            : l10n.theme.switchDarkTheme\n        : isDarkTheme\n            ? 'Switch to the light theme'\n            : 'Switch to the dark theme';\n    return (React__namespace.createElement(core.Tooltip, { ariaControlsSuffix: \"theme-switch\", position: core.Position.BottomCenter, target: React__namespace.createElement(core.MinimalButton, { ariaLabel: label, testId: \"theme__switch-button\", onClick: onClick }, isDarkTheme ? React__namespace.createElement(LightIcon, null) : React__namespace.createElement(DarkIcon, null)), content: function () { return label; }, offset: TOOLTIP_OFFSET }));\n};\n\nvar SwitchTheme = function (_a) {\n    var children = _a.children;\n    var theme = React__namespace.useContext(core.ThemeContext);\n    var defaultChildern = function (props) { return React__namespace.createElement(SwitchThemeButton, { onClick: props.onClick }); };\n    var render = children || defaultChildern;\n    return render({\n        onClick: function () { return theme.setCurrentTheme(theme.currentTheme === 'dark' ? 'light' : 'dark'); },\n    });\n};\n\nvar SwitchThemeMenuItem = function (_a) {\n    var onClick = _a.onClick;\n    var theme = React__namespace.useContext(core.ThemeContext);\n    var l10n = React__namespace.useContext(core.LocalizationContext).l10n;\n    var isDarkTheme = theme.currentTheme === 'dark';\n    var label = l10n && l10n.theme\n        ? isDarkTheme\n            ? l10n.theme.switchLightTheme\n            : l10n.theme.switchDarkTheme\n        : isDarkTheme\n            ? 'Switch to the light theme'\n            : 'Switch to the dark theme';\n    return (React__namespace.createElement(core.MenuItem, { icon: isDarkTheme ? React__namespace.createElement(LightIcon, null) : React__namespace.createElement(DarkIcon, null), testId: \"theme__switch-menu\", onClick: onClick }, label));\n};\n\nvar themePlugin = function () {\n    var SwitchThemeDecorator = function (props) { return React__namespace.createElement(SwitchTheme, __assign({}, props)); };\n    var SwitchThemeButtonDecorator = function () { return (React__namespace.createElement(SwitchThemeDecorator, null, function (props) { return React__namespace.createElement(SwitchThemeButton, __assign({}, props)); })); };\n    var SwitchThemeMenuItemDecorator = function (props) { return (React__namespace.createElement(SwitchThemeDecorator, null, function (p) { return (React__namespace.createElement(SwitchThemeMenuItem, { onClick: function () {\n            p.onClick();\n            props.onClick();\n        } })); })); };\n    return {\n        SwitchTheme: SwitchThemeDecorator,\n        SwitchThemeButton: SwitchThemeButtonDecorator,\n        SwitchThemeMenuItem: SwitchThemeMenuItemDecorator,\n    };\n};\n\nexports.DarkIcon = DarkIcon;\nexports.LightIcon = LightIcon;\nexports.themePlugin = themePlugin;\n","/**\n * A React component to view a PDF document\n *\n * @see https://react-pdf-viewer.dev\n * @license https://react-pdf-viewer.dev/license\n * @copyright 2019-2023 Nguyen Huu Phuoc <me@phuoc.ng>\n */\n\n'use strict';\n\nif (process.env.NODE_ENV === 'production') {\n    module.exports = require('./cjs/theme.min.js');\n} else {\n    module.exports = require('./cjs/theme.js');\n}\n","'use strict';\n\nvar core = require('@react-pdf-viewer/core');\nvar React = require('react');\n\nfunction _interopNamespaceDefault(e) {\n    var n = Object.create(null);\n    if (e) {\n        Object.keys(e).forEach(function (k) {\n            if (k !== 'default') {\n                var d = Object.getOwnPropertyDescriptor(e, k);\n                Object.defineProperty(n, k, d.get ? d : {\n                    enumerable: true,\n                    get: function () { return e[k]; }\n                });\n            }\n        });\n    }\n    n.default = e;\n    return Object.freeze(n);\n}\n\nvar React__namespace = /*#__PURE__*/_interopNamespaceDefault(React);\n\nexports.ThumbnailDirection = void 0;\n(function (ThumbnailDirection) {\n    ThumbnailDirection[\"Horizontal\"] = \"Horizontal\";\n    ThumbnailDirection[\"Vertical\"] = \"Vertical\";\n})(exports.ThumbnailDirection || (exports.ThumbnailDirection = {}));\n\n/******************************************************************************\r\nCopyright (c) Microsoft Corporation.\r\n\r\nPermission to use, copy, modify, and/or distribute this software for any\r\npurpose with or without fee is hereby granted.\r\n\r\nTHE SOFTWARE IS PROVIDED \"AS IS\" AND THE AUTHOR DISCLAIMS ALL WARRANTIES WITH\r\nREGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY\r\nAND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT,\r\nINDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM\r\nLOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR\r\nOTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR\r\nPERFORMANCE OF THIS SOFTWARE.\r\n***************************************************************************** */\r\n\r\nvar __assign = function() {\r\n    __assign = Object.assign || function __assign(t) {\r\n        for (var s, i = 1, n = arguments.length; i < n; i++) {\r\n            s = arguments[i];\r\n            for (var p in s) if (Object.prototype.hasOwnProperty.call(s, p)) t[p] = s[p];\r\n        }\r\n        return t;\r\n    };\r\n    return __assign.apply(this, arguments);\r\n};\n\nvar CoverInner = function (_a) {\n    var doc = _a.doc, getPageIndex = _a.getPageIndex, renderSpinner = _a.renderSpinner, store = _a.store, width = _a.width;\n    var numPages = doc.numPages;\n    var targetPage = getPageIndex ? getPageIndex({ numPages: numPages }) : 0;\n    var normalizePage = Math.max(0, Math.min(targetPage, numPages - 1));\n    var initialPagesRotation = store.get('pagesRotation') || new Map();\n    var initialTargetPageRotation = initialPagesRotation.has(normalizePage)\n        ? initialPagesRotation.get(normalizePage)\n        : 0;\n    var _b = React__namespace.useState(''), src = _b[0], setSrc = _b[1];\n    var isMounted = core.useIsMounted();\n    var renderTask = React__namespace.useRef();\n    var _c = React__namespace.useState(store.get('rotation') || 0), rotation = _c[0], setRotation = _c[1];\n    var _d = React__namespace.useState(initialTargetPageRotation), pageRotation = _d[0], setPageRotation = _d[1];\n    var _e = React__namespace.useState(false), isVisible = _e[0], setVisible = _e[1];\n    var handlePagesRotationChanged = function (rotations) {\n        var pageRotation = rotations.has(normalizePage) ? rotations.get(normalizePage) : 0;\n        setPageRotation(pageRotation);\n    };\n    var handleRotationChanged = function (currentRotation) {\n        setRotation(currentRotation);\n    };\n    var handleVisibilityChanged = function (params) {\n        setVisible(params.isVisible);\n    };\n    var containerRef = core.useIntersectionObserver({\n        onVisibilityChanged: handleVisibilityChanged,\n    });\n    React__namespace.useEffect(function () {\n        if (!isVisible) {\n            return;\n        }\n        var containerEle = containerRef.current;\n        if (!containerEle) {\n            return;\n        }\n        setSrc('');\n        core.getPage(doc, normalizePage).then(function (page) {\n            var viewport = page.getViewport({ scale: 1 });\n            var viewportRotation = viewport.rotation;\n            var rotationValue = (viewportRotation + rotation + pageRotation) % 360;\n            var isVertical = Math.abs(rotation + pageRotation) % 180 === 0;\n            var w = isVertical ? viewport.width : viewport.height;\n            var h = isVertical ? viewport.height : viewport.width;\n            var canvas = document.createElement('canvas');\n            var canvasContext = canvas.getContext('2d', { alpha: false });\n            var containerWidth = containerEle.clientWidth;\n            var containerHeight = containerEle.clientHeight;\n            var scaled = width ? width / w : Math.min(containerWidth / w, containerHeight / h);\n            var canvasWidth = scaled * w;\n            var canvasHeight = scaled * h;\n            canvas.height = canvasHeight;\n            canvas.width = canvasWidth;\n            canvas.style.opacity = '0';\n            var renderViewport = page.getViewport({\n                rotation: rotationValue,\n                scale: scaled,\n            });\n            renderTask.current = page.render({ canvasContext: canvasContext, viewport: renderViewport });\n            renderTask.current.promise.then(function () {\n                isMounted.current && setSrc(canvas.toDataURL());\n                canvas.width = 0;\n                canvas.height = 0;\n            }, function () {\n            });\n        });\n    }, [pageRotation, isVisible]);\n    React__namespace.useEffect(function () {\n        store.subscribe('pagesRotation', handlePagesRotationChanged);\n        store.subscribe('rotation', handleRotationChanged);\n        return function () {\n            store.unsubscribe('pagesRotation', handlePagesRotationChanged);\n            store.unsubscribe('rotation', handleRotationChanged);\n        };\n    }, []);\n    React__namespace.useEffect(function () {\n        return function () {\n            var _a;\n            (_a = renderTask.current) === null || _a === void 0 ? void 0 : _a.cancel();\n        };\n    }, []);\n    return (React__namespace.createElement(\"div\", { ref: containerRef, className: \"rpv-thumbnail__cover-inner\", \"data-testid\": \"thumbnail__cover-inner\" }, src ? (React__namespace.createElement(\"img\", { className: \"rpv-thumbnail__cover-image\", \"data-testid\": \"thumbnail__cover-image\", src: src })) : (React__namespace.createElement(\"div\", { className: \"rpv-thumbnail__cover-loader\", \"data-testid\": \"thumbnail__cover-loader\" }, renderSpinner ? renderSpinner() : React__namespace.createElement(core.Spinner, null)))));\n};\n\nvar Cover = function (_a) {\n    var getPageIndex = _a.getPageIndex, renderSpinner = _a.renderSpinner, store = _a.store, width = _a.width;\n    var _b = React__namespace.useState(store.get('doc')), currentDoc = _b[0], setCurrentDoc = _b[1];\n    var handleDocumentChanged = function (doc) {\n        setCurrentDoc(doc);\n    };\n    React__namespace.useEffect(function () {\n        store.subscribe('doc', handleDocumentChanged);\n        return function () {\n            store.unsubscribe('doc', handleDocumentChanged);\n        };\n    }, []);\n    return (React__namespace.createElement(\"div\", { className: \"rpv-thumbnail__cover\" }, currentDoc ? (React__namespace.createElement(CoverInner, { doc: currentDoc, getPageIndex: getPageIndex, renderSpinner: renderSpinner, store: store, width: width })) : (React__namespace.createElement(\"div\", { className: \"rpv-thumbnail__cover-loader\" }, renderSpinner ? renderSpinner() : React__namespace.createElement(core.Spinner, null)))));\n};\n\nvar defaultSpinner = function () { return React__namespace.createElement(core.Spinner, null); };\nvar SpinnerContext = React__namespace.createContext({\n    renderSpinner: defaultSpinner,\n});\n\nvar FetchLabels = function (_a) {\n    var children = _a.children, doc = _a.doc;\n    var isMounted = core.useIsMounted();\n    var _b = React__namespace.useState({\n        loading: true,\n        labels: [],\n    }), status = _b[0], setStatus = _b[1];\n    React__namespace.useEffect(function () {\n        doc.getPageLabels().then(function (result) {\n            isMounted.current && setStatus({ loading: false, labels: result || [] });\n        });\n    }, [doc.loadingTask.docId]);\n    return status.loading ? React__namespace.createElement(React__namespace.Fragment, null) : children(status.labels);\n};\n\nvar scrollToBeVisibleVertically = function (ele, container) {\n    var top = ele.getBoundingClientRect().top - container.getBoundingClientRect().top;\n    var eleHeight = ele.clientHeight;\n    var containerHeight = container.clientHeight;\n    if (top < 0) {\n        container.scrollTop += top;\n        return;\n    }\n    if (top + eleHeight <= containerHeight) {\n        return;\n    }\n    container.scrollTop += top + eleHeight - containerHeight;\n};\nvar scrollToBeVisibleHorizontally = function (ele, container) {\n    var left = ele.getBoundingClientRect().left - container.getBoundingClientRect().left;\n    var eleWidth = ele.clientWidth;\n    var containerWidth = container.clientWidth;\n    if (left < 0) {\n        container.scrollLeft += left;\n        return;\n    }\n    if (left + eleWidth <= containerWidth) {\n        return;\n    }\n    container.scrollLeft += left + eleWidth - containerWidth;\n};\n\nvar ThumbnailItem = function (_a) {\n    var page = _a.page, pageHeight = _a.pageHeight, pageIndex = _a.pageIndex, pageWidth = _a.pageWidth, rotation = _a.rotation, thumbnailHeight = _a.thumbnailHeight, thumbnailWidth = _a.thumbnailWidth, onRenderCompleted = _a.onRenderCompleted;\n    var l10n = React__namespace.useContext(core.LocalizationContext).l10n;\n    var renderTask = React__namespace.useRef();\n    var _b = React__namespace.useState(''), src = _b[0], setSrc = _b[1];\n    var thumbnailLabel = l10n && l10n.thumbnail\n        ? l10n.thumbnail.thumbnailLabel\n        : 'Thumbnail of page {{pageIndex}}';\n    React__namespace.useEffect(function () {\n        var task = renderTask.current;\n        if (task) {\n            task.cancel();\n        }\n        var canvas = document.createElement('canvas');\n        var canvasContext = canvas.getContext('2d', { alpha: false });\n        var w = thumbnailWidth;\n        var h = w / (pageWidth / pageHeight);\n        var scale = w / pageWidth;\n        canvas.height = h;\n        canvas.width = w;\n        canvas.style.height = \"\".concat(h, \"px\");\n        canvas.style.width = \"\".concat(w, \"px\");\n        var viewport = page.getViewport({ rotation: rotation, scale: scale });\n        renderTask.current = page.render({ canvasContext: canvasContext, viewport: viewport });\n        renderTask.current.promise.then(function () {\n            setSrc(canvas.toDataURL());\n            onRenderCompleted(pageIndex);\n        }, function () {\n            onRenderCompleted(pageIndex);\n        });\n        return function () {\n            var _a;\n            (_a = renderTask.current) === null || _a === void 0 ? void 0 : _a.cancel();\n        };\n    }, [rotation]);\n    return !src ? (React__namespace.useContext(SpinnerContext).renderSpinner()) : (React__namespace.createElement(\"img\", { \"aria-label\": thumbnailLabel.replace('{{pageIndex}}', \"\".concat(pageIndex + 1)), src: src, height: \"\".concat(thumbnailHeight, \"px\"), width: \"\".concat(thumbnailWidth, \"px\") }));\n};\n\nvar ThumbnailContainer = function (_a) {\n    var doc = _a.doc, pageHeight = _a.pageHeight, pageIndex = _a.pageIndex, pageRotation = _a.pageRotation, pageWidth = _a.pageWidth, rotation = _a.rotation, shouldRender = _a.shouldRender, thumbnailWidth = _a.thumbnailWidth, onRenderCompleted = _a.onRenderCompleted, onVisibilityChanged = _a.onVisibilityChanged;\n    var isMounted = core.useIsMounted();\n    var _b = React__namespace.useState({\n        height: pageHeight,\n        page: null,\n        viewportRotation: 0,\n        width: pageWidth,\n    }), pageSize = _b[0], setPageSize = _b[1];\n    var page = pageSize.page, height = pageSize.height, width = pageSize.width;\n    var scale = width / height;\n    var isVertical = Math.abs(rotation + pageRotation) % 180 === 0;\n    var w = isVertical ? thumbnailWidth : thumbnailWidth / scale;\n    var h = isVertical ? thumbnailWidth / scale : thumbnailWidth;\n    React__namespace.useEffect(function () {\n        if (shouldRender) {\n            core.getPage(doc, pageIndex).then(function (pdfPage) {\n                var viewport = pdfPage.getViewport({ scale: 1 });\n                isMounted.current &&\n                    setPageSize({\n                        height: viewport.height,\n                        page: pdfPage,\n                        viewportRotation: viewport.rotation,\n                        width: viewport.width,\n                    });\n            });\n        }\n    }, [shouldRender]);\n    var rotationNumber = (pageSize.viewportRotation + rotation + pageRotation) % 360;\n    var containerRef = core.useIntersectionObserver({\n        onVisibilityChanged: function (visibility) {\n            onVisibilityChanged(pageIndex, visibility);\n        },\n    });\n    return (React__namespace.createElement(\"div\", { className: \"rpv-thumbnail__container\", \"data-testid\": \"thumbnail__container-\".concat(pageIndex), ref: containerRef, style: {\n            height: \"\".concat(h, \"px\"),\n            width: \"\".concat(w, \"px\"),\n        } }, !page ? (React__namespace.useContext(SpinnerContext).renderSpinner()) : (React__namespace.createElement(ThumbnailItem, { page: page, pageHeight: isVertical ? height : width, pageIndex: pageIndex, pageWidth: isVertical ? width : height, rotation: rotationNumber, thumbnailHeight: h, thumbnailWidth: w, onRenderCompleted: onRenderCompleted }))));\n};\n\nvar ThumbnailList = function (_a) {\n    var currentPage = _a.currentPage, doc = _a.doc, labels = _a.labels, pagesRotation = _a.pagesRotation, pageHeight = _a.pageHeight, pageWidth = _a.pageWidth, renderCurrentPageLabel = _a.renderCurrentPageLabel, renderThumbnailItem = _a.renderThumbnailItem, rotatedPage = _a.rotatedPage, rotation = _a.rotation, thumbnailDirection = _a.thumbnailDirection, thumbnailWidth = _a.thumbnailWidth, viewMode = _a.viewMode, onJumpToPage = _a.onJumpToPage, onRotatePage = _a.onRotatePage;\n    var numPages = doc.numPages;\n    var docId = doc.loadingTask.docId;\n    var containerRef = React__namespace.useRef(null);\n    var thumbnailsRef = React__namespace.useRef([]);\n    var _b = React__namespace.useState(currentPage), currentFocused = _b[0], setCurrentFocused = _b[1];\n    var direction = React__namespace.useContext(core.ThemeContext).direction;\n    var isRtl = direction === core.TextDirection.RightToLeft;\n    var _c = React__namespace.useState(-1), renderPageIndex = _c[0], setRenderPageIndex = _c[1];\n    var isMounted = core.useIsMounted();\n    var previousViewMode = core.usePrevious(viewMode);\n    var hasRenderingThumbnailRef = React__namespace.useRef(false);\n    var renderQueue = core.useRenderQueue({ doc: doc });\n    var pageIndexes = React__namespace.useMemo(function () {\n        return Array(numPages)\n            .fill(0)\n            .map(function (_, pageIndex) { return pageIndex; });\n    }, [docId]);\n    var chunks = React__namespace.useMemo(function () {\n        switch (viewMode) {\n            case core.ViewMode.DualPage:\n                return core.chunk(pageIndexes, 2);\n            case core.ViewMode.DualPageWithCover:\n                return [[pageIndexes[0]]].concat(core.chunk(pageIndexes.slice(1), 2));\n            case core.ViewMode.SinglePage:\n            default:\n                return core.chunk(pageIndexes, 1);\n        }\n    }, [docId, viewMode]);\n    var handleKeyDown = function (e) {\n        switch (e.key) {\n            case 'ArrowDown':\n                activateNextItem();\n                break;\n            case 'ArrowUp':\n                activatePreviousItem();\n                break;\n            case 'Enter':\n                jumpToFocusedPage();\n                break;\n        }\n    };\n    var activateNextItem = function () {\n        var container = containerRef.current;\n        if (!container) {\n            return;\n        }\n        var items = thumbnailsRef.current;\n        var nextItem = currentFocused + 1;\n        if (nextItem < items.length) {\n            if (currentFocused >= 0) {\n                items[currentFocused].setAttribute('tabindex', '-1');\n            }\n            setCurrentFocused(nextItem);\n        }\n    };\n    var activatePreviousItem = function () {\n        var container = containerRef.current;\n        if (!container) {\n            return;\n        }\n        var items = thumbnailsRef.current;\n        var prevItem = currentFocused - 1;\n        if (prevItem >= 0) {\n            if (currentFocused >= 0) {\n                items[currentFocused].setAttribute('tabindex', '-1');\n            }\n            setCurrentFocused(prevItem);\n        }\n    };\n    var jumpToFocusedPage = function () {\n        if (currentFocused >= 0 && currentFocused < numPages) {\n            onJumpToPage(currentFocused);\n        }\n    };\n    core.useIsomorphicLayoutEffect(function () {\n        var container = containerRef.current;\n        if (!container) {\n            return;\n        }\n        thumbnailsRef.current = Array.from(container.querySelectorAll('.rpv-thumbnail__item'));\n    }, [viewMode]);\n    React__namespace.useEffect(function () {\n        var thumbnails = thumbnailsRef.current;\n        if (thumbnails.length === 0 || currentFocused < 0 || currentFocused > thumbnails.length) {\n            return;\n        }\n        var thumbnailEle = thumbnails[currentFocused];\n        thumbnailEle.setAttribute('tabindex', '0');\n        thumbnailEle.focus();\n    }, [currentFocused]);\n    core.useIsomorphicLayoutEffect(function () {\n        var container = containerRef.current;\n        var thumbnails = thumbnailsRef.current;\n        if (!container || thumbnails.length === 0 || currentPage < 0 || currentPage > thumbnails.length) {\n            return;\n        }\n        var thumbnailContainer = thumbnails[currentPage].closest('.rpv-thumbnail__items');\n        if (thumbnailContainer) {\n            thumbnailDirection === exports.ThumbnailDirection.Vertical\n                ? scrollToBeVisibleVertically(thumbnailContainer, container)\n                : scrollToBeVisibleHorizontally(thumbnailContainer, container);\n        }\n    }, [currentPage, thumbnailDirection]);\n    var handleRenderCompleted = React__namespace.useCallback(function (pageIndex) {\n        if (isMounted.current) {\n            renderQueue.markRendered(pageIndex);\n            hasRenderingThumbnailRef.current = false;\n            renderNextThumbnail();\n        }\n    }, [docId]);\n    var handleVisibilityChanged = React__namespace.useCallback(function (pageIndex, visibility) {\n        visibility.isVisible\n            ? renderQueue.setVisibility(pageIndex, visibility.ratio)\n            :\n                renderQueue.setOutOfRange(pageIndex);\n        renderNextThumbnail();\n    }, [docId]);\n    var renderNextThumbnail = React__namespace.useCallback(function () {\n        if (hasRenderingThumbnailRef.current) {\n            return;\n        }\n        var nextPage = renderQueue.getHighestPriorityPage();\n        if (nextPage > -1) {\n            renderQueue.markRendering(nextPage);\n            hasRenderingThumbnailRef.current = true;\n            setRenderPageIndex(nextPage);\n        }\n    }, [docId]);\n    React__namespace.useEffect(function () {\n        if (rotatedPage >= 0) {\n            renderQueue.markRendering(rotatedPage);\n            hasRenderingThumbnailRef.current = true;\n            setRenderPageIndex(rotatedPage);\n        }\n    }, [docId, rotatedPage]);\n    core.useIsomorphicLayoutEffect(function () {\n        if (previousViewMode !== viewMode) {\n            renderQueue.markNotRendered();\n            renderNextThumbnail();\n        }\n    }, [viewMode]);\n    var renderPageThumbnail = function (pageIndex) {\n        var isCover = viewMode === core.ViewMode.DualPageWithCover &&\n            (pageIndex === 0 || (numPages % 2 === 0 && pageIndex === numPages - 1));\n        var key = \"\".concat(doc.loadingTask.docId, \"___\").concat(pageIndex);\n        var pageLabel = labels.length === numPages ? labels[pageIndex] : \"\".concat(pageIndex + 1);\n        var label = renderCurrentPageLabel\n            ? renderCurrentPageLabel({ currentPage: currentPage, pageIndex: pageIndex, numPages: numPages, pageLabel: pageLabel })\n            : pageLabel;\n        var pageRotation = pagesRotation.has(pageIndex) ? pagesRotation.get(pageIndex) : 0;\n        var thumbnail = (React__namespace.createElement(ThumbnailContainer, { doc: doc, pageHeight: pageHeight, pageIndex: pageIndex, pageRotation: pageRotation, pageWidth: pageWidth, rotation: rotation, shouldRender: renderPageIndex === pageIndex, thumbnailWidth: thumbnailWidth, onRenderCompleted: handleRenderCompleted, onVisibilityChanged: handleVisibilityChanged }));\n        return renderThumbnailItem ? (renderThumbnailItem({\n            currentPage: currentPage,\n            key: key,\n            numPages: numPages,\n            pageIndex: pageIndex,\n            renderPageLabel: React__namespace.createElement(React__namespace.Fragment, null, label),\n            renderPageThumbnail: thumbnail,\n            onJumpToPage: function () { return onJumpToPage(pageIndex); },\n            onRotatePage: function (direction) { return onRotatePage(pageIndex, direction); },\n        })) : (React__namespace.createElement(\"div\", { key: key },\n            React__namespace.createElement(\"div\", { className: core.classNames({\n                    'rpv-thumbnail__item': true,\n                    'rpv-thumbnail__item--dual-even': viewMode === core.ViewMode.DualPage && pageIndex % 2 === 0,\n                    'rpv-thumbnail__item--dual-odd': viewMode === core.ViewMode.DualPage && pageIndex % 2 === 1,\n                    'rpv-thumbnail__item--dual-cover': isCover,\n                    'rpv-thumbnail__item--dual-cover-even': viewMode === core.ViewMode.DualPageWithCover && !isCover && pageIndex % 2 === 0,\n                    'rpv-thumbnail__item--dual-cover-odd': viewMode === core.ViewMode.DualPageWithCover && !isCover && pageIndex % 2 === 1,\n                    'rpv-thumbnail__item--single': viewMode === core.ViewMode.SinglePage,\n                    'rpv-thumbnail__item--selected': currentPage === pageIndex,\n                }), role: \"button\", tabIndex: currentPage === pageIndex ? 0 : -1, onClick: function () { return onJumpToPage(pageIndex); } }, thumbnail),\n            React__namespace.createElement(\"div\", { \"data-testid\": \"thumbnail__label-\".concat(pageIndex), className: \"rpv-thumbnail__label\" }, label)));\n    };\n    return (React__namespace.createElement(\"div\", { ref: containerRef, \"data-testid\": \"thumbnail__list\", className: core.classNames({\n            'rpv-thumbnail__list': true,\n            'rpv-thumbnail__list--horizontal': thumbnailDirection === exports.ThumbnailDirection.Horizontal,\n            'rpv-thumbnail__list--rtl': isRtl,\n            'rpv-thumbnail__list--vertical': thumbnailDirection === exports.ThumbnailDirection.Vertical,\n        }), onKeyDown: handleKeyDown }, chunks.map(function (chunkItem, index) {\n        var isSelectedChunk = false;\n        switch (viewMode) {\n            case core.ViewMode.DualPage:\n                isSelectedChunk = currentPage === 2 * index || currentPage === 2 * index + 1;\n                break;\n            case core.ViewMode.DualPageWithCover:\n                isSelectedChunk =\n                    (currentPage === 0 && index === 0) ||\n                        (index > 0 && currentPage === 2 * index - 1) ||\n                        (index > 0 && currentPage === 2 * index);\n                break;\n            case core.ViewMode.SinglePage:\n            default:\n                isSelectedChunk = currentPage === index;\n                break;\n        }\n        return (React__namespace.createElement(\"div\", { className: core.classNames({\n                'rpv-thumbnail__items': true,\n                'rpv-thumbnail__items--dual': viewMode === core.ViewMode.DualPage,\n                'rpv-thumbnail__items--dual-cover': viewMode === core.ViewMode.DualPageWithCover,\n                'rpv-thumbnail__items--single': viewMode === core.ViewMode.SinglePage,\n                'rpv-thumbnail__items--selected': isSelectedChunk,\n            }), key: \"\".concat(index, \"___\").concat(viewMode) }, chunkItem.map(function (pageIndex) { return renderPageThumbnail(pageIndex); })));\n    })));\n};\n\nvar ThumbnailListWithStore = function (_a) {\n    var renderCurrentPageLabel = _a.renderCurrentPageLabel, renderThumbnailItem = _a.renderThumbnailItem, store = _a.store, thumbnailDirection = _a.thumbnailDirection, thumbnailWidth = _a.thumbnailWidth;\n    var _b = React__namespace.useState(store.get('doc')), currentDoc = _b[0], setCurrentDoc = _b[1];\n    var _c = React__namespace.useState(store.get('currentPage') || 0), currentPage = _c[0], setCurrentPage = _c[1];\n    var _d = React__namespace.useState(store.get('pageHeight') || 0), pageHeight = _d[0], setPageHeight = _d[1];\n    var _e = React__namespace.useState(store.get('pageWidth') || 0), pageWidth = _e[0], setPageWidth = _e[1];\n    var _f = React__namespace.useState(store.get('rotation') || 0), rotation = _f[0], setRotation = _f[1];\n    var _g = React__namespace.useState(store.get('pagesRotation') || new Map()), pagesRotation = _g[0], setPagesRotation = _g[1];\n    var _h = React__namespace.useState(store.get('rotatedPage') || -1), rotatedPage = _h[0], setRotatedPage = _h[1];\n    var _j = React__namespace.useState(store.get('viewMode')), viewMode = _j[0], setViewMode = _j[1];\n    var handleCurrentPageChanged = function (currentPageIndex) {\n        setCurrentPage(currentPageIndex);\n    };\n    var handleDocumentChanged = function (doc) {\n        setCurrentDoc(doc);\n    };\n    var handlePageHeightChanged = function (height) {\n        setPageHeight(height);\n    };\n    var handlePageWidthChanged = function (width) {\n        setPageWidth(width);\n    };\n    var handleRotationChanged = function (currentRotation) {\n        setRotation(currentRotation);\n    };\n    var handlePagesRotationChanged = function (rotations) {\n        setPagesRotation(rotations);\n    };\n    var handleRotatedPage = function (rotatedPage) {\n        setRotatedPage(rotatedPage);\n    };\n    var handleViewModeChanged = function (viewMode) {\n        setViewMode(viewMode);\n    };\n    var jump = function (pageIndex) {\n        var jumpToPage = store.get('jumpToPage');\n        if (jumpToPage) {\n            jumpToPage(pageIndex);\n        }\n    };\n    var rotatePage = function (pageIndex, direction) {\n        store.get('rotatePage')(pageIndex, direction);\n    };\n    React__namespace.useEffect(function () {\n        store.subscribe('doc', handleDocumentChanged);\n        store.subscribe('pageHeight', handlePageHeightChanged);\n        store.subscribe('pageWidth', handlePageWidthChanged);\n        store.subscribe('rotatedPage', handleRotatedPage);\n        store.subscribe('rotation', handleRotationChanged);\n        store.subscribe('pagesRotation', handlePagesRotationChanged);\n        store.subscribe('viewMode', handleViewModeChanged);\n        return function () {\n            store.unsubscribe('doc', handleDocumentChanged);\n            store.unsubscribe('pageHeight', handlePageHeightChanged);\n            store.unsubscribe('pageWidth', handlePageWidthChanged);\n            store.unsubscribe('rotatedPage', handleRotatedPage);\n            store.unsubscribe('rotation', handleRotationChanged);\n            store.unsubscribe('pagesRotation', handlePagesRotationChanged);\n            store.unsubscribe('viewMode', handleViewModeChanged);\n        };\n    }, []);\n    core.useIsomorphicLayoutEffect(function () {\n        store.subscribe('currentPage', handleCurrentPageChanged);\n        return function () {\n            store.unsubscribe('currentPage', handleCurrentPageChanged);\n        };\n    }, []);\n    return currentDoc ? (React__namespace.createElement(core.LazyRender, { testId: \"thumbnail__list-container\", attrs: {\n            className: 'rpv-thumbnail__list-container',\n        } },\n        React__namespace.createElement(FetchLabels, { doc: currentDoc }, function (labels) { return (React__namespace.createElement(ThumbnailList, { currentPage: currentPage, doc: currentDoc, labels: labels, pagesRotation: pagesRotation, pageHeight: pageHeight, pageWidth: pageWidth, renderCurrentPageLabel: renderCurrentPageLabel, renderThumbnailItem: renderThumbnailItem, rotatedPage: rotatedPage, rotation: rotation, thumbnailDirection: thumbnailDirection, thumbnailWidth: thumbnailWidth, viewMode: viewMode, onJumpToPage: jump, onRotatePage: rotatePage })); }))) : (React__namespace.createElement(\"div\", { \"data-testid\": \"thumbnail-list__loader\", className: \"rpv-thumbnail__loader\" }, React__namespace.useContext(SpinnerContext).renderSpinner()));\n};\n\nvar thumbnailPlugin = function (pluginProps) {\n    var store = React__namespace.useMemo(function () {\n        return core.createStore({\n            rotatePage: function () {\n            },\n            viewMode: core.ViewMode.SinglePage,\n        });\n    }, []);\n    var _a = React__namespace.useState(''), docId = _a[0], setDocId = _a[1];\n    var CoverDecorator = function (props) { return (React__namespace.createElement(Cover, __assign({}, props, { renderSpinner: pluginProps === null || pluginProps === void 0 ? void 0 : pluginProps.renderSpinner, store: store }))); };\n    var ThumbnailsDecorator = React__namespace.useCallback(function (props) { return (React__namespace.createElement(SpinnerContext.Provider, { value: { renderSpinner: (pluginProps === null || pluginProps === void 0 ? void 0 : pluginProps.renderSpinner) || defaultSpinner } },\n        React__namespace.createElement(ThumbnailListWithStore, { renderCurrentPageLabel: pluginProps === null || pluginProps === void 0 ? void 0 : pluginProps.renderCurrentPageLabel, renderThumbnailItem: props === null || props === void 0 ? void 0 : props.renderThumbnailItem, store: store, thumbnailDirection: (props === null || props === void 0 ? void 0 : props.thumbnailDirection) || exports.ThumbnailDirection.Vertical, thumbnailWidth: (pluginProps === null || pluginProps === void 0 ? void 0 : pluginProps.thumbnailWidth) || 100 }))); }, [docId]);\n    return {\n        install: function (pluginFunctions) {\n            store.update('jumpToPage', pluginFunctions.jumpToPage);\n            store.update('rotatePage', pluginFunctions.rotatePage);\n        },\n        onDocumentLoad: function (props) {\n            setDocId(props.doc.loadingTask.docId);\n            store.update('doc', props.doc);\n        },\n        onViewerStateChange: function (viewerState) {\n            store.update('currentPage', viewerState.pageIndex);\n            store.update('pagesRotation', viewerState.pagesRotation);\n            store.update('pageHeight', viewerState.pageHeight);\n            store.update('pageWidth', viewerState.pageWidth);\n            store.update('rotation', viewerState.rotation);\n            store.update('rotatedPage', viewerState.rotatedPage);\n            store.update('viewMode', viewerState.viewMode);\n            return viewerState;\n        },\n        Cover: CoverDecorator,\n        Thumbnails: ThumbnailsDecorator,\n    };\n};\n\nexports.thumbnailPlugin = thumbnailPlugin;\n","/**\n * A React component to view a PDF document\n *\n * @see https://react-pdf-viewer.dev\n * @license https://react-pdf-viewer.dev/license\n * @copyright 2019-2023 Nguyen Huu Phuoc <me@phuoc.ng>\n */\n\n'use strict';\n\nif (process.env.NODE_ENV === 'production') {\n    module.exports = require('./cjs/thumbnail.min.js');\n} else {\n    module.exports = require('./cjs/thumbnail.js');\n}\n","'use strict';\n\nvar core = require('@react-pdf-viewer/core');\nvar selectionMode = require('@react-pdf-viewer/selection-mode');\nvar React = require('react');\nvar fullScreen = require('@react-pdf-viewer/full-screen');\nvar getFile = require('@react-pdf-viewer/get-file');\nvar open = require('@react-pdf-viewer/open');\nvar pageNavigation = require('@react-pdf-viewer/page-navigation');\nvar print = require('@react-pdf-viewer/print');\nvar properties = require('@react-pdf-viewer/properties');\nvar rotate = require('@react-pdf-viewer/rotate');\nvar scrollMode = require('@react-pdf-viewer/scroll-mode');\nvar search = require('@react-pdf-viewer/search');\nvar theme = require('@react-pdf-viewer/theme');\nvar zoom = require('@react-pdf-viewer/zoom');\n\nfunction _interopNamespaceDefault(e) {\n    var n = Object.create(null);\n    if (e) {\n        Object.keys(e).forEach(function (k) {\n            if (k !== 'default') {\n                var d = Object.getOwnPropertyDescriptor(e, k);\n                Object.defineProperty(n, k, d.get ? d : {\n                    enumerable: true,\n                    get: function () { return e[k]; }\n                });\n            }\n        });\n    }\n    n.default = e;\n    return Object.freeze(n);\n}\n\nvar React__namespace = /*#__PURE__*/_interopNamespaceDefault(React);\n\nvar MoreIcon = function () { return (React__namespace.createElement(core.Icon, { size: 16 },\n    React__namespace.createElement(\"path\", { d: \"M12,0.5c1.381,0,2.5,1.119,2.5,2.5S13.381,5.5,12,5.5S9.5,4.381,9.5,3S10.619,0.5,12,0.5z\\n            M12,9.5\\n            c1.381,0,2.5,1.119,2.5,2.5s-1.119,2.5-2.5,2.5S9.5,13.381,9.5,12S10.619,9.5,12,9.5z\\n            M12,18.5c1.381,0,2.5,1.119,2.5,2.5\\n            s-1.119,2.5-2.5,2.5S9.5,22.381,9.5,21S10.619,18.5,12,18.5z\" }))); };\n\nvar PORTAL_OFFSET = { left: 0, top: 8 };\nvar MoreActionsPopover = function (_a) {\n    var toolbarSlot = _a.toolbarSlot;\n    var l10n = React__namespace.useContext(core.LocalizationContext).l10n;\n    var direction = React__namespace.useContext(core.ThemeContext).direction;\n    var portalPosition = direction === core.TextDirection.RightToLeft ? core.Position.BottomLeft : core.Position.BottomRight;\n    var DownloadMenuItem = toolbarSlot.DownloadMenuItem, EnterFullScreenMenuItem = toolbarSlot.EnterFullScreenMenuItem, GoToFirstPageMenuItem = toolbarSlot.GoToFirstPageMenuItem, GoToLastPageMenuItem = toolbarSlot.GoToLastPageMenuItem, GoToNextPageMenuItem = toolbarSlot.GoToNextPageMenuItem, GoToPreviousPageMenuItem = toolbarSlot.GoToPreviousPageMenuItem, OpenMenuItem = toolbarSlot.OpenMenuItem, PrintMenuItem = toolbarSlot.PrintMenuItem, RotateBackwardMenuItem = toolbarSlot.RotateBackwardMenuItem, RotateForwardMenuItem = toolbarSlot.RotateForwardMenuItem, ShowPropertiesMenuItem = toolbarSlot.ShowPropertiesMenuItem, SwitchScrollModeMenuItem = toolbarSlot.SwitchScrollModeMenuItem, SwitchSelectionModeMenuItem = toolbarSlot.SwitchSelectionModeMenuItem, SwitchViewModeMenuItem = toolbarSlot.SwitchViewModeMenuItem, SwitchThemeMenuItem = toolbarSlot.SwitchThemeMenuItem;\n    var renderTarget = function (toggle, opened) {\n        var label = l10n && l10n.toolbar ? l10n.toolbar.moreActions : 'More actions';\n        return (React__namespace.createElement(core.Tooltip, { ariaControlsSuffix: \"toolbar-more-actions\", position: portalPosition, target: React__namespace.createElement(core.MinimalButton, { ariaLabel: label, isSelected: opened, testId: \"toolbar__more-actions-popover-target\", onClick: toggle },\n                React__namespace.createElement(MoreIcon, null)), content: function () { return label; }, offset: PORTAL_OFFSET }));\n    };\n    var renderContent = function (toggle) {\n        return (React__namespace.createElement(core.Menu, null,\n            React__namespace.createElement(\"div\", { className: \"rpv-core__display--block rpv-core__display--hidden-medium\" },\n                React__namespace.createElement(SwitchThemeMenuItem, { onClick: toggle })),\n            React__namespace.createElement(\"div\", { className: \"rpv-core__display--block rpv-core__display--hidden-medium\" },\n                React__namespace.createElement(EnterFullScreenMenuItem, { onClick: toggle })),\n            React__namespace.createElement(\"div\", { className: \"rpv-core__display--block rpv-core__display--hidden-medium\" },\n                React__namespace.createElement(OpenMenuItem, null)),\n            React__namespace.createElement(\"div\", { className: \"rpv-core__display--block rpv-core__display--hidden-medium\" },\n                React__namespace.createElement(PrintMenuItem, { onClick: toggle })),\n            React__namespace.createElement(\"div\", { className: \"rpv-core__display--block rpv-core__display--hidden-medium\" },\n                React__namespace.createElement(DownloadMenuItem, { onClick: toggle })),\n            React__namespace.createElement(\"div\", { className: \"rpv-core__display--block rpv-core__display--hidden-medium\" },\n                React__namespace.createElement(core.MenuDivider, null)),\n            React__namespace.createElement(GoToFirstPageMenuItem, { onClick: toggle }),\n            React__namespace.createElement(\"div\", { className: \"rpv-core__display--block rpv-core__display--hidden-medium\" },\n                React__namespace.createElement(GoToPreviousPageMenuItem, { onClick: toggle })),\n            React__namespace.createElement(\"div\", { className: \"rpv-core__display--block rpv-core__display--hidden-medium\" },\n                React__namespace.createElement(GoToNextPageMenuItem, { onClick: toggle })),\n            React__namespace.createElement(GoToLastPageMenuItem, { onClick: toggle }),\n            React__namespace.createElement(core.MenuDivider, null),\n            React__namespace.createElement(RotateForwardMenuItem, { onClick: toggle }),\n            React__namespace.createElement(RotateBackwardMenuItem, { onClick: toggle }),\n            React__namespace.createElement(core.MenuDivider, null),\n            React__namespace.createElement(SwitchSelectionModeMenuItem, { mode: selectionMode.SelectionMode.Text, onClick: toggle }),\n            React__namespace.createElement(SwitchSelectionModeMenuItem, { mode: selectionMode.SelectionMode.Hand, onClick: toggle }),\n            React__namespace.createElement(core.MenuDivider, null),\n            React__namespace.createElement(SwitchScrollModeMenuItem, { mode: core.ScrollMode.Page, onClick: toggle }),\n            React__namespace.createElement(SwitchScrollModeMenuItem, { mode: core.ScrollMode.Vertical, onClick: toggle }),\n            React__namespace.createElement(SwitchScrollModeMenuItem, { mode: core.ScrollMode.Horizontal, onClick: toggle }),\n            React__namespace.createElement(SwitchScrollModeMenuItem, { mode: core.ScrollMode.Wrapped, onClick: toggle }),\n            React__namespace.createElement(core.MenuDivider, null),\n            React__namespace.createElement(\"div\", { className: \"rpv-core__display--hidden rpv-core__display--block-small\" },\n                React__namespace.createElement(SwitchViewModeMenuItem, { mode: core.ViewMode.SinglePage, onClick: toggle })),\n            React__namespace.createElement(\"div\", { className: \"rpv-core__display--hidden rpv-core__display--block-small\" },\n                React__namespace.createElement(SwitchViewModeMenuItem, { mode: core.ViewMode.DualPage, onClick: toggle })),\n            React__namespace.createElement(\"div\", { className: \"rpv-core__display--hidden rpv-core__display--block-small\" },\n                React__namespace.createElement(SwitchViewModeMenuItem, { mode: core.ViewMode.DualPageWithCover, onClick: toggle })),\n            React__namespace.createElement(\"div\", { className: \"rpv-core__display--hidden rpv-core__display--block-small\" },\n                React__namespace.createElement(core.MenuDivider, null)),\n            React__namespace.createElement(ShowPropertiesMenuItem, { onClick: toggle })));\n    };\n    return (React__namespace.createElement(core.Popover, { ariaControlsSuffix: \"toolbar-more-actions\", ariaHasPopup: \"menu\", position: portalPosition, target: renderTarget, content: renderContent, offset: PORTAL_OFFSET, closeOnClickOutside: true, closeOnEscape: true }));\n};\n\n/******************************************************************************\r\nCopyright (c) Microsoft Corporation.\r\n\r\nPermission to use, copy, modify, and/or distribute this software for any\r\npurpose with or without fee is hereby granted.\r\n\r\nTHE SOFTWARE IS PROVIDED \"AS IS\" AND THE AUTHOR DISCLAIMS ALL WARRANTIES WITH\r\nREGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY\r\nAND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT,\r\nINDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM\r\nLOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR\r\nOTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR\r\nPERFORMANCE OF THIS SOFTWARE.\r\n***************************************************************************** */\r\n\r\nvar __assign = function() {\r\n    __assign = Object.assign || function __assign(t) {\r\n        for (var s, i = 1, n = arguments.length; i < n; i++) {\r\n            s = arguments[i];\r\n            for (var p in s) if (Object.prototype.hasOwnProperty.call(s, p)) t[p] = s[p];\r\n        }\r\n        return t;\r\n    };\r\n    return __assign.apply(this, arguments);\r\n};\n\nvar renderDefaultToolbar = function (transformToolbarSlot) {\n    return function (defaultToolbarSlot) {\n        var toolbarSlot = React__namespace.useMemo(function () { return transformToolbarSlot(defaultToolbarSlot); }, []);\n        var direction = React__namespace.useContext(core.ThemeContext).direction;\n        var isRtl = direction === core.TextDirection.RightToLeft;\n        var CurrentPageInput = toolbarSlot.CurrentPageInput, Download = toolbarSlot.Download, EnterFullScreen = toolbarSlot.EnterFullScreen, GoToNextPage = toolbarSlot.GoToNextPage, GoToPreviousPage = toolbarSlot.GoToPreviousPage, NumberOfPages = toolbarSlot.NumberOfPages, Open = toolbarSlot.Open, Print = toolbarSlot.Print, ShowSearchPopover = toolbarSlot.ShowSearchPopover, SwitchTheme = toolbarSlot.SwitchTheme, Zoom = toolbarSlot.Zoom, ZoomIn = toolbarSlot.ZoomIn, ZoomOut = toolbarSlot.ZoomOut;\n        return (React__namespace.createElement(\"div\", { \"data-testid\": \"toolbar\", className: core.classNames({\n                'rpv-toolbar': true,\n                'rpv-toolbar--rtl': isRtl,\n            }), role: \"toolbar\", \"aria-orientation\": \"horizontal\" },\n            React__namespace.createElement(\"div\", { className: \"rpv-toolbar__left\" },\n                React__namespace.createElement(\"div\", { className: \"rpv-toolbar__item\" },\n                    React__namespace.createElement(ShowSearchPopover, null)),\n                React__namespace.createElement(\"div\", { className: \"rpv-core__display--hidden rpv-core__display--block-small\" },\n                    React__namespace.createElement(\"div\", { className: \"rpv-toolbar__item\" },\n                        React__namespace.createElement(GoToPreviousPage, null))),\n                React__namespace.createElement(\"div\", { className: \"rpv-toolbar__item\" },\n                    React__namespace.createElement(CurrentPageInput, null),\n                    React__namespace.createElement(\"span\", { className: \"rpv-toolbar__label\" },\n                        React__namespace.createElement(NumberOfPages, null))),\n                React__namespace.createElement(\"div\", { className: \"rpv-core__display--hidden rpv-core__display--block-small\" },\n                    React__namespace.createElement(\"div\", { className: \"rpv-toolbar__item\" },\n                        React__namespace.createElement(GoToNextPage, null)))),\n            React__namespace.createElement(\"div\", { className: \"rpv-toolbar__center\" },\n                React__namespace.createElement(\"div\", { className: \"rpv-toolbar__item\" },\n                    React__namespace.createElement(ZoomOut, null)),\n                React__namespace.createElement(\"div\", { className: \"rpv-core__display--hidden rpv-core__display--block-small\" },\n                    React__namespace.createElement(\"div\", { className: \"rpv-toolbar__item\" },\n                        React__namespace.createElement(Zoom, null))),\n                React__namespace.createElement(\"div\", { className: \"rpv-toolbar__item\" },\n                    React__namespace.createElement(ZoomIn, null))),\n            React__namespace.createElement(\"div\", { className: \"rpv-toolbar__right\" },\n                React__namespace.createElement(\"div\", { className: \"rpv-core__display--hidden rpv-core__display--block-medium\" },\n                    React__namespace.createElement(\"div\", { className: \"rpv-toolbar__item\" },\n                        React__namespace.createElement(SwitchTheme, null))),\n                React__namespace.createElement(\"div\", { className: \"rpv-core__display--hidden rpv-core__display--block-medium\" },\n                    React__namespace.createElement(\"div\", { className: \"rpv-toolbar__item\" },\n                        React__namespace.createElement(EnterFullScreen, null))),\n                React__namespace.createElement(\"div\", { className: \"rpv-core__display--hidden rpv-core__display--block-medium\" },\n                    React__namespace.createElement(\"div\", { className: \"rpv-toolbar__item\" },\n                        React__namespace.createElement(Open, null))),\n                React__namespace.createElement(\"div\", { className: \"rpv-core__display--hidden rpv-core__display--block-medium\" },\n                    React__namespace.createElement(\"div\", { className: \"rpv-toolbar__item\" },\n                        React__namespace.createElement(Download, null))),\n                React__namespace.createElement(\"div\", { className: \"rpv-core__display--hidden rpv-core__display--block-medium\" },\n                    React__namespace.createElement(\"div\", { className: \"rpv-toolbar__item\" },\n                        React__namespace.createElement(Print, null))),\n                React__namespace.createElement(\"div\", { className: \"rpv-toolbar__item\" },\n                    React__namespace.createElement(MoreActionsPopover, { toolbarSlot: toolbarSlot })))));\n    };\n};\n\nvar defaultTransform = function (slot) {\n    var NumberOfPages = slot.NumberOfPages;\n    return Object.assign({}, slot, {\n        NumberOfPages: function () { return (React__namespace.createElement(React__namespace.Fragment, null,\n            \"/ \",\n            React__namespace.createElement(NumberOfPages, null))); },\n    });\n};\nvar DefaultToobar = function (toolbarSlot) {\n    return renderDefaultToolbar(defaultTransform)(toolbarSlot);\n};\n\nvar Toolbar = function (_a) {\n    var children = _a.children, slot = _a.slot;\n    var render = children || DefaultToobar;\n    return render(slot);\n};\n\nvar toolbarPlugin = function (props) {\n    var fullScreenPluginInstance = fullScreen.fullScreenPlugin(props ? props.fullScreenPlugin : {});\n    var getFilePluginInstance = getFile.getFilePlugin(props ? props.getFilePlugin : {});\n    var openPluginInstance = open.openPlugin(props ? props.openPlugin : {});\n    var pageNavigationPluginInstance = pageNavigation.pageNavigationPlugin(props ? props.pageNavigationPlugin : {});\n    var printPluginInstance = print.printPlugin(props ? props.printPlugin : {});\n    var propertiesPluginInstance = properties.propertiesPlugin();\n    var rotatePluginInstance = rotate.rotatePlugin();\n    var scrollModePluginInstance = scrollMode.scrollModePlugin();\n    var searchPluginInstance = search.searchPlugin(props ? props.searchPlugin : {});\n    var selectionModePluginInstance = selectionMode.selectionModePlugin(props ? props.selectionModePlugin : {});\n    var themePluginInstance = theme.themePlugin();\n    var zoomPluginInstance = zoom.zoomPlugin(props ? props.zoomPlugin : {});\n    var plugins = [\n        fullScreenPluginInstance,\n        getFilePluginInstance,\n        openPluginInstance,\n        pageNavigationPluginInstance,\n        printPluginInstance,\n        propertiesPluginInstance,\n        rotatePluginInstance,\n        scrollModePluginInstance,\n        searchPluginInstance,\n        selectionModePluginInstance,\n        themePluginInstance,\n        zoomPluginInstance,\n    ];\n    var ToolbarDecorator = React__namespace.useCallback(function (props) {\n        var EnterFullScreen = fullScreenPluginInstance.EnterFullScreen, EnterFullScreenMenuItem = fullScreenPluginInstance.EnterFullScreenMenuItem;\n        var Download = getFilePluginInstance.Download, DownloadMenuItem = getFilePluginInstance.DownloadMenuItem;\n        var Open = openPluginInstance.Open, OpenMenuItem = openPluginInstance.OpenMenuItem;\n        var CurrentPageInput = pageNavigationPluginInstance.CurrentPageInput, CurrentPageLabel = pageNavigationPluginInstance.CurrentPageLabel, GoToFirstPage = pageNavigationPluginInstance.GoToFirstPage, GoToFirstPageMenuItem = pageNavigationPluginInstance.GoToFirstPageMenuItem, GoToLastPage = pageNavigationPluginInstance.GoToLastPage, GoToLastPageMenuItem = pageNavigationPluginInstance.GoToLastPageMenuItem, GoToNextPage = pageNavigationPluginInstance.GoToNextPage, GoToNextPageMenuItem = pageNavigationPluginInstance.GoToNextPageMenuItem, GoToPreviousPage = pageNavigationPluginInstance.GoToPreviousPage, GoToPreviousPageMenuItem = pageNavigationPluginInstance.GoToPreviousPageMenuItem, NumberOfPages = pageNavigationPluginInstance.NumberOfPages;\n        var Print = printPluginInstance.Print, PrintMenuItem = printPluginInstance.PrintMenuItem;\n        var ShowProperties = propertiesPluginInstance.ShowProperties, ShowPropertiesMenuItem = propertiesPluginInstance.ShowPropertiesMenuItem;\n        var Rotate = rotatePluginInstance.Rotate, RotateBackwardMenuItem = rotatePluginInstance.RotateBackwardMenuItem, RotateForwardMenuItem = rotatePluginInstance.RotateForwardMenuItem;\n        var SwitchScrollMode = scrollModePluginInstance.SwitchScrollMode, SwitchScrollModeMenuItem = scrollModePluginInstance.SwitchScrollModeMenuItem, SwitchViewMode = scrollModePluginInstance.SwitchViewMode, SwitchViewModeMenuItem = scrollModePluginInstance.SwitchViewModeMenuItem;\n        var Search = searchPluginInstance.Search, ShowSearchPopover = searchPluginInstance.ShowSearchPopover;\n        var SwitchSelectionMode = selectionModePluginInstance.SwitchSelectionMode, SwitchSelectionModeMenuItem = selectionModePluginInstance.SwitchSelectionModeMenuItem;\n        var SwitchTheme = themePluginInstance.SwitchTheme, SwitchThemeMenuItem = themePluginInstance.SwitchThemeMenuItem;\n        var CurrentScale = zoomPluginInstance.CurrentScale, Zoom = zoomPluginInstance.Zoom, ZoomIn = zoomPluginInstance.ZoomIn, ZoomInMenuItem = zoomPluginInstance.ZoomInMenuItem, ZoomOut = zoomPluginInstance.ZoomOut, ZoomOutMenuItem = zoomPluginInstance.ZoomOutMenuItem;\n        return (React__namespace.createElement(Toolbar, __assign({}, props, { slot: {\n                CurrentPageInput: CurrentPageInput,\n                CurrentPageLabel: CurrentPageLabel,\n                CurrentScale: CurrentScale,\n                Download: Download,\n                DownloadMenuItem: DownloadMenuItem,\n                EnterFullScreen: EnterFullScreen,\n                EnterFullScreenMenuItem: EnterFullScreenMenuItem,\n                GoToFirstPage: GoToFirstPage,\n                GoToFirstPageMenuItem: GoToFirstPageMenuItem,\n                GoToLastPage: GoToLastPage,\n                GoToLastPageMenuItem: GoToLastPageMenuItem,\n                GoToNextPage: GoToNextPage,\n                GoToNextPageMenuItem: GoToNextPageMenuItem,\n                GoToPreviousPage: GoToPreviousPage,\n                GoToPreviousPageMenuItem: GoToPreviousPageMenuItem,\n                NumberOfPages: NumberOfPages,\n                Open: Open,\n                OpenMenuItem: OpenMenuItem,\n                Print: Print,\n                PrintMenuItem: PrintMenuItem,\n                Rotate: Rotate,\n                RotateBackwardMenuItem: RotateBackwardMenuItem,\n                RotateForwardMenuItem: RotateForwardMenuItem,\n                Search: Search,\n                ShowProperties: ShowProperties,\n                ShowPropertiesMenuItem: ShowPropertiesMenuItem,\n                ShowSearchPopover: ShowSearchPopover,\n                SwitchScrollMode: SwitchScrollMode,\n                SwitchScrollModeMenuItem: SwitchScrollModeMenuItem,\n                SwitchSelectionMode: SwitchSelectionMode,\n                SwitchSelectionModeMenuItem: SwitchSelectionModeMenuItem,\n                SwitchViewMode: SwitchViewMode,\n                SwitchViewModeMenuItem: SwitchViewModeMenuItem,\n                SwitchTheme: SwitchTheme,\n                SwitchThemeMenuItem: SwitchThemeMenuItem,\n                Zoom: Zoom,\n                ZoomIn: ZoomIn,\n                ZoomInMenuItem: ZoomInMenuItem,\n                ZoomOut: ZoomOut,\n                ZoomOutMenuItem: ZoomOutMenuItem,\n            } })));\n    }, []);\n    return {\n        fullScreenPluginInstance: fullScreenPluginInstance,\n        getFilePluginInstance: getFilePluginInstance,\n        openPluginInstance: openPluginInstance,\n        pageNavigationPluginInstance: pageNavigationPluginInstance,\n        printPluginInstance: printPluginInstance,\n        propertiesPluginInstance: propertiesPluginInstance,\n        rotatePluginInstance: rotatePluginInstance,\n        scrollModePluginInstance: scrollModePluginInstance,\n        searchPluginInstance: searchPluginInstance,\n        selectionModePluginInstance: selectionModePluginInstance,\n        themePluginInstance: themePluginInstance,\n        zoomPluginInstance: zoomPluginInstance,\n        install: function (pluginFunctions) {\n            plugins.forEach(function (plugin) {\n                if (plugin.install) {\n                    plugin.install(pluginFunctions);\n                }\n            });\n        },\n        renderPageLayer: function (renderProps) { return (React__namespace.createElement(React__namespace.Fragment, null, plugins.map(function (plugin, idx) {\n            return plugin.renderPageLayer ? (React__namespace.createElement(React__namespace.Fragment, { key: idx }, plugin.renderPageLayer(renderProps))) : (React__namespace.createElement(React__namespace.Fragment, { key: idx }));\n        }))); },\n        renderViewer: function (props) {\n            var slot = props.slot;\n            plugins.forEach(function (plugin) {\n                if (plugin.renderViewer) {\n                    slot = plugin.renderViewer(__assign(__assign({}, props), { slot: slot }));\n                }\n            });\n            return slot;\n        },\n        uninstall: function (pluginFunctions) {\n            plugins.forEach(function (plugin) {\n                if (plugin.uninstall) {\n                    plugin.uninstall(pluginFunctions);\n                }\n            });\n        },\n        onDocumentLoad: function (props) {\n            plugins.forEach(function (plugin) {\n                if (plugin.onDocumentLoad) {\n                    plugin.onDocumentLoad(props);\n                }\n            });\n        },\n        onAnnotationLayerRender: function (props) {\n            plugins.forEach(function (plugin) {\n                if (plugin.onAnnotationLayerRender) {\n                    plugin.onAnnotationLayerRender(props);\n                }\n            });\n        },\n        onTextLayerRender: function (props) {\n            plugins.forEach(function (plugin) {\n                if (plugin.onTextLayerRender) {\n                    plugin.onTextLayerRender(props);\n                }\n            });\n        },\n        onViewerStateChange: function (viewerState) {\n            var newState = viewerState;\n            plugins.forEach(function (plugin) {\n                if (plugin.onViewerStateChange) {\n                    newState = plugin.onViewerStateChange(newState);\n                }\n            });\n            return newState;\n        },\n        renderDefaultToolbar: renderDefaultToolbar,\n        Toolbar: ToolbarDecorator,\n    };\n};\n\nexports.MoreActionsPopover = MoreActionsPopover;\nexports.MoreIcon = MoreIcon;\nexports.toolbarPlugin = toolbarPlugin;\n","/**\n * A React component to view a PDF document\n *\n * @see https://react-pdf-viewer.dev\n * @license https://react-pdf-viewer.dev/license\n * @copyright 2019-2023 Nguyen Huu Phuoc <me@phuoc.ng>\n */\n\n'use strict';\n\nif (process.env.NODE_ENV === 'production') {\n    module.exports = require('./cjs/toolbar.min.js');\n} else {\n    module.exports = require('./cjs/toolbar.js');\n}\n","'use strict';\n\nvar core = require('@react-pdf-viewer/core');\nvar React = require('react');\n\nfunction _interopNamespaceDefault(e) {\n    var n = Object.create(null);\n    if (e) {\n        Object.keys(e).forEach(function (k) {\n            if (k !== 'default') {\n                var d = Object.getOwnPropertyDescriptor(e, k);\n                Object.defineProperty(n, k, d.get ? d : {\n                    enumerable: true,\n                    get: function () { return e[k]; }\n                });\n            }\n        });\n    }\n    n.default = e;\n    return Object.freeze(n);\n}\n\nvar React__namespace = /*#__PURE__*/_interopNamespaceDefault(React);\n\nvar ZoomInIcon = function () { return (React__namespace.createElement(core.Icon, { ignoreDirection: true, size: 16 },\n    React__namespace.createElement(\"path\", { d: \"M10.5,0.499c5.523,0,10,4.477,10,10s-4.477,10-10,10s-10-4.477-10-10S4.977,0.499,10.5,0.499z\\n            M23.5,23.499\\n            l-5.929-5.929\\n            M5.5,10.499h10\\n            M10.5,5.499v10\" }))); };\n\nvar ZoomOutIcon = function () { return (React__namespace.createElement(core.Icon, { ignoreDirection: true, size: 16 },\n    React__namespace.createElement(\"path\", { d: \"M10.5,0.499c5.523,0,10,4.477,10,10s-4.477,10-10,10s-10-4.477-10-10S4.977,0.499,10.5,0.499z\\n            M23.5,23.499\\n            l-5.929-5.929\\n            M5.5,10.499h10\" }))); };\n\n/******************************************************************************\r\nCopyright (c) Microsoft Corporation.\r\n\r\nPermission to use, copy, modify, and/or distribute this software for any\r\npurpose with or without fee is hereby granted.\r\n\r\nTHE SOFTWARE IS PROVIDED \"AS IS\" AND THE AUTHOR DISCLAIMS ALL WARRANTIES WITH\r\nREGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY\r\nAND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT,\r\nINDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM\r\nLOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR\r\nOTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR\r\nPERFORMANCE OF THIS SOFTWARE.\r\n***************************************************************************** */\r\n\r\nvar __assign = function() {\r\n    __assign = Object.assign || function __assign(t) {\r\n        for (var s, i = 1, n = arguments.length; i < n; i++) {\r\n            s = arguments[i];\r\n            for (var p in s) if (Object.prototype.hasOwnProperty.call(s, p)) t[p] = s[p];\r\n        }\r\n        return t;\r\n    };\r\n    return __assign.apply(this, arguments);\r\n};\n\nvar useZoom = function (store) {\n    var _a = React__namespace.useState(store.get('scale') || 0), scale = _a[0], setScale = _a[1];\n    var handleScaleChanged = function (currentScale) {\n        setScale(currentScale);\n    };\n    React__namespace.useEffect(function () {\n        store.subscribe('scale', handleScaleChanged);\n        return function () {\n            store.unsubscribe('scale', handleScaleChanged);\n        };\n    }, []);\n    return { scale: scale };\n};\n\nvar CurrentScale = function (_a) {\n    var children = _a.children, store = _a.store;\n    var scale = useZoom(store).scale;\n    var defaultChildren = function (props) { return React__namespace.createElement(React__namespace.Fragment, null, \"\".concat(Math.round(props.scale * 100), \"%\")); };\n    var render = children || defaultChildren;\n    return render({ scale: scale });\n};\n\nvar WHEEL_EVENT_OPTIONS = {\n    passive: false,\n};\nvar svgElement = null;\nvar createSvgElement = function () {\n    return svgElement || (svgElement = document.createElementNS('http://www.w3.org/2000/svg', 'svg'));\n};\nvar PinchZoom = function (_a) {\n    var pagesContainerRef = _a.pagesContainerRef, store = _a.store;\n    var zoomTo = core.useDebounceCallback(function (scale) {\n        var zoom = store.get('zoom');\n        if (zoom) {\n            zoom(scale);\n        }\n    }, 40);\n    var handleWheelEvent = function (e) {\n        if (!e.ctrlKey) {\n            return;\n        }\n        e.preventDefault();\n        var target = e.target;\n        var rect = target.getBoundingClientRect();\n        var scaleDiff = 1 - e.deltaY / 100;\n        var originX = e.clientX - rect.left;\n        var originY = e.clientY - rect.top;\n        var currentScale = store.get('scale');\n        var matrix = createSvgElement()\n            .createSVGMatrix()\n            .translate(originX, originY)\n            .scale(scaleDiff)\n            .translate(-originX, -originY)\n            .scale(currentScale);\n        zoomTo(matrix.a);\n    };\n    core.useIsomorphicLayoutEffect(function () {\n        var pagesContainer = pagesContainerRef.current;\n        if (!pagesContainer) {\n            return;\n        }\n        pagesContainer.addEventListener('wheel', handleWheelEvent, WHEEL_EVENT_OPTIONS);\n        return function () {\n            pagesContainer.removeEventListener('wheel', handleWheelEvent);\n        };\n    }, []);\n    return React__namespace.createElement(React__namespace.Fragment, null);\n};\n\nvar LEVELS = [\n    0.1, 0.2, 0.3, 0.4, 0.5, 0.6, 0.7, 0.8, 0.9, 1, 1.1, 1.3, 1.5, 1.7, 1.9, 2.1, 2.4, 2.7, 3.0, 3.3, 3.7, 4.1, 4.6,\n    5.1, 5.7, 6.3, 7.0, 7.7, 8.5, 9.4, 10,\n];\nvar increase = function (currentLevel) {\n    var found = LEVELS.find(function (item) { return item > currentLevel; });\n    return found || currentLevel;\n};\nvar decrease = function (currentLevel) {\n    var found = LEVELS.findIndex(function (item) { return item >= currentLevel; });\n    return found === -1 || found === 0 ? currentLevel : LEVELS[found - 1];\n};\n\nvar ShortcutHandler = function (_a) {\n    var containerRef = _a.containerRef, store = _a.store;\n    var keydownHandler = function (e) {\n        if (e.shiftKey || e.altKey) {\n            return;\n        }\n        var isCommandPressed = core.isMac() ? e.metaKey : e.ctrlKey;\n        if (!isCommandPressed) {\n            return;\n        }\n        var containerEle = containerRef.current;\n        if (!containerEle || !document.activeElement || !containerEle.contains(document.activeElement)) {\n            return;\n        }\n        var zoom = store.get('zoom');\n        if (!zoom) {\n            return;\n        }\n        var scale = store.get('scale') || 1;\n        var newScale = 1;\n        switch (e.key) {\n            case '-':\n                newScale = decrease(scale);\n                break;\n            case '=':\n                newScale = increase(scale);\n                break;\n            case '0':\n                newScale = 1;\n                break;\n            default:\n                newScale = scale;\n                break;\n        }\n        if (newScale !== scale) {\n            e.preventDefault();\n            zoom(newScale);\n        }\n    };\n    React__namespace.useEffect(function () {\n        var containerEle = containerRef.current;\n        if (!containerEle) {\n            return;\n        }\n        document.addEventListener('keydown', keydownHandler);\n        return function () {\n            document.removeEventListener('keydown', keydownHandler);\n        };\n    }, [containerRef.current]);\n    return React__namespace.createElement(React__namespace.Fragment, null);\n};\n\nvar DEFAULT_LEVELS = [0.5, 0.75, 1, 1.25, 1.5, 2, 3, 4];\nvar PORTAL_OFFSET = { left: 0, top: 8 };\nvar ZoomPopover = function (_a) {\n    var _b = _a.levels, levels = _b === void 0 ? DEFAULT_LEVELS : _b, scale = _a.scale, onZoom = _a.onZoom;\n    var l10n = React__namespace.useContext(core.LocalizationContext).l10n;\n    var direction = React__namespace.useContext(core.ThemeContext).direction;\n    var isRtl = direction === core.TextDirection.RightToLeft;\n    var getSpcialLevelLabel = function (level) {\n        switch (level) {\n            case core.SpecialZoomLevel.ActualSize:\n                return l10n && l10n.zoom ? l10n.zoom.actualSize : 'Actual size';\n            case core.SpecialZoomLevel.PageFit:\n                return l10n && l10n.zoom ? l10n.zoom.pageFit : 'Page fit';\n            case core.SpecialZoomLevel.PageWidth:\n                return l10n && l10n.zoom ? l10n.zoom.pageWidth : 'Page width';\n        }\n    };\n    var zoomDocumentLabel = l10n && l10n.zoom ? l10n.zoom.zoomDocument : 'Zoom document';\n    var renderTarget = function (toggle) {\n        var click = function () {\n            toggle();\n        };\n        return (React__namespace.createElement(core.MinimalButton, { ariaLabel: zoomDocumentLabel, testId: \"zoom__popover-target\", onClick: click },\n            React__namespace.createElement(\"span\", { className: \"rpv-zoom__popover-target\" },\n                React__namespace.createElement(\"span\", { \"data-testid\": \"zoom__popover-target-scale\", className: core.classNames({\n                        'rpv-zoom__popover-target-scale': true,\n                        'rpv-zoom__popover-target-scale--ltr': !isRtl,\n                        'rpv-zoom__popover-target-scale--rtl': isRtl,\n                    }) },\n                    Math.round(scale * 100),\n                    \"%\"),\n                React__namespace.createElement(\"span\", { className: \"rpv-zoom__popover-target-arrow\" }))));\n    };\n    var renderContent = function (toggle) { return (React__namespace.createElement(core.Menu, null,\n        Object.keys(core.SpecialZoomLevel).map(function (k) {\n            var level = k;\n            var clickMenuItem = function () {\n                toggle();\n                onZoom(level);\n            };\n            return (React__namespace.createElement(core.MenuItem, { key: level, onClick: clickMenuItem }, getSpcialLevelLabel(level)));\n        }),\n        React__namespace.createElement(core.MenuDivider, null),\n        levels.map(function (level) {\n            var clickMenuItem = function () {\n                toggle();\n                onZoom(level);\n            };\n            return (React__namespace.createElement(core.MenuItem, { key: level, onClick: clickMenuItem }, \"\".concat(Math.round(level * 100), \"%\")));\n        }))); };\n    return (React__namespace.createElement(core.Popover, { ariaControlsSuffix: \"zoom\", ariaHasPopup: \"menu\", position: core.Position.BottomCenter, target: renderTarget, content: renderContent, offset: PORTAL_OFFSET, closeOnClickOutside: true, closeOnEscape: true }));\n};\n\nvar Zoom = function (_a) {\n    var children = _a.children, levels = _a.levels, store = _a.store;\n    var scale = useZoom(store).scale;\n    var zoomTo = function (newLevel) {\n        var zoom = store.get('zoom');\n        if (zoom) {\n            zoom(newLevel);\n        }\n    };\n    var defaultChildren = function (props) { return (React__namespace.createElement(ZoomPopover, { levels: levels, scale: props.scale, onZoom: props.onZoom })); };\n    var render = children || defaultChildren;\n    return render({\n        scale: scale,\n        onZoom: zoomTo,\n    });\n};\n\nvar TOOLTIP_OFFSET$1 = { left: 0, top: 8 };\nvar ZoomInButton = function (_a) {\n    var enableShortcuts = _a.enableShortcuts, onClick = _a.onClick;\n    var l10n = React__namespace.useContext(core.LocalizationContext).l10n;\n    var label = l10n && l10n.zoom ? l10n.zoom.zoomIn : 'Zoom in';\n    var ariaKeyShortcuts = enableShortcuts ? (core.isMac() ? 'Meta+=' : 'Ctrl+=') : '';\n    return (React__namespace.createElement(core.Tooltip, { ariaControlsSuffix: \"zoom-in\", position: core.Position.BottomCenter, target: React__namespace.createElement(core.MinimalButton, { ariaKeyShortcuts: ariaKeyShortcuts, ariaLabel: label, testId: \"zoom__in-button\", onClick: onClick },\n            React__namespace.createElement(ZoomInIcon, null)), content: function () { return label; }, offset: TOOLTIP_OFFSET$1 }));\n};\n\nvar ZoomIn = function (_a) {\n    var children = _a.children, enableShortcuts = _a.enableShortcuts, store = _a.store;\n    var scale = useZoom(store).scale;\n    var zoomIn = function () {\n        var zoom = store.get('zoom');\n        if (zoom) {\n            var newLevel = increase(scale);\n            zoom(newLevel);\n        }\n    };\n    var render = children || ZoomInButton;\n    return render({\n        enableShortcuts: enableShortcuts,\n        onClick: zoomIn,\n    });\n};\n\nvar ZoomInMenuItem = function (_a) {\n    var onClick = _a.onClick;\n    var l10n = React__namespace.useContext(core.LocalizationContext).l10n;\n    var label = l10n && l10n.zoom ? l10n.zoom.zoomIn : 'Zoom in';\n    return (React__namespace.createElement(core.MenuItem, { icon: React__namespace.createElement(ZoomInIcon, null), testId: \"zoom__in-menu\", onClick: onClick }, label));\n};\n\nvar TOOLTIP_OFFSET = { left: 0, top: 8 };\nvar ZoomOutButton = function (_a) {\n    var enableShortcuts = _a.enableShortcuts, onClick = _a.onClick;\n    var l10n = React__namespace.useContext(core.LocalizationContext).l10n;\n    var label = l10n && l10n.zoom ? l10n.zoom.zoomOut : 'Zoom out';\n    var ariaKeyShortcuts = enableShortcuts ? (core.isMac() ? 'Meta+-' : 'Ctrl+-') : '';\n    return (React__namespace.createElement(core.Tooltip, { ariaControlsSuffix: \"zoom-out\", position: core.Position.BottomCenter, target: React__namespace.createElement(core.MinimalButton, { ariaKeyShortcuts: ariaKeyShortcuts, ariaLabel: label, testId: \"zoom__out-button\", onClick: onClick },\n            React__namespace.createElement(ZoomOutIcon, null)), content: function () { return label; }, offset: TOOLTIP_OFFSET }));\n};\n\nvar ZoomOut = function (_a) {\n    var children = _a.children, enableShortcuts = _a.enableShortcuts, store = _a.store;\n    var scale = useZoom(store).scale;\n    var zoomIn = function () {\n        var zoom = store.get('zoom');\n        if (zoom) {\n            var newLevel = decrease(scale);\n            zoom(newLevel);\n        }\n    };\n    var render = children || ZoomOutButton;\n    return render({\n        enableShortcuts: enableShortcuts,\n        onClick: zoomIn,\n    });\n};\n\nvar ZoomOutMenuItem = function (_a) {\n    var onClick = _a.onClick;\n    var l10n = React__namespace.useContext(core.LocalizationContext).l10n;\n    var label = l10n && l10n.zoom ? l10n.zoom.zoomOut : 'Zoom out';\n    return (React__namespace.createElement(core.MenuItem, { icon: React__namespace.createElement(ZoomOutIcon, null), testId: \"zoom__out-menu\", onClick: onClick }, label));\n};\n\nvar zoomPlugin = function (props) {\n    var zoomPluginProps = React__namespace.useMemo(function () { return Object.assign({}, { enableShortcuts: true }, props); }, []);\n    var store = React__namespace.useMemo(function () { return core.createStore({}); }, []);\n    var CurrentScaleDecorator = function (props) { return React__namespace.createElement(CurrentScale, __assign({}, props, { store: store })); };\n    var ZoomInDecorator = function (props) { return (React__namespace.createElement(ZoomIn, __assign({ enableShortcuts: zoomPluginProps.enableShortcuts }, props, { store: store }))); };\n    var ZoomInButtonDecorator = function () { return React__namespace.createElement(ZoomInDecorator, null, function (props) { return React__namespace.createElement(ZoomInButton, __assign({}, props)); }); };\n    var ZoomInMenuItemDecorator = function (props) { return (React__namespace.createElement(ZoomInDecorator, null, function (p) { return (React__namespace.createElement(ZoomInMenuItem, { onClick: function () {\n            p.onClick();\n            props.onClick();\n        } })); })); };\n    var ZoomOutDecorator = function (props) { return (React__namespace.createElement(ZoomOut, __assign({ enableShortcuts: zoomPluginProps.enableShortcuts }, props, { store: store }))); };\n    var ZoomOutButtonDecorator = function () { return React__namespace.createElement(ZoomOutDecorator, null, function (props) { return React__namespace.createElement(ZoomOutButton, __assign({}, props)); }); };\n    var ZoomOutMenuItemDecorator = function (props) { return (React__namespace.createElement(ZoomOutDecorator, null, function (p) { return (React__namespace.createElement(ZoomOutMenuItem, { onClick: function () {\n            p.onClick();\n            props.onClick();\n        } })); })); };\n    var ZoomDecorator = function (props) { return React__namespace.createElement(Zoom, __assign({}, props, { store: store })); };\n    var ZoomPopoverDecorator = function (zoomPopverProps) { return (React__namespace.createElement(ZoomDecorator, null, function (props) { return React__namespace.createElement(ZoomPopover, __assign({ levels: zoomPopverProps === null || zoomPopverProps === void 0 ? void 0 : zoomPopverProps.levels }, props)); })); };\n    var renderViewer = function (props) {\n        var slot = props.slot;\n        if (!zoomPluginProps.enableShortcuts) {\n            return slot;\n        }\n        var updateSlot = {\n            children: (React__namespace.createElement(React__namespace.Fragment, null,\n                React__namespace.createElement(ShortcutHandler, { containerRef: props.containerRef, store: store }),\n                React__namespace.createElement(PinchZoom, { pagesContainerRef: props.pagesContainerRef, store: store }),\n                slot.children)),\n        };\n        return __assign(__assign({}, slot), updateSlot);\n    };\n    return {\n        renderViewer: renderViewer,\n        install: function (pluginFunctions) {\n            store.update('zoom', pluginFunctions.zoom);\n        },\n        onViewerStateChange: function (viewerState) {\n            store.update('scale', viewerState.scale);\n            return viewerState;\n        },\n        zoomTo: function (scale) {\n            var zoom = store.get('zoom');\n            if (zoom) {\n                zoom(scale);\n            }\n        },\n        CurrentScale: CurrentScaleDecorator,\n        ZoomIn: ZoomInDecorator,\n        ZoomInButton: ZoomInButtonDecorator,\n        ZoomInMenuItem: ZoomInMenuItemDecorator,\n        ZoomOut: ZoomOutDecorator,\n        ZoomOutButton: ZoomOutButtonDecorator,\n        ZoomOutMenuItem: ZoomOutMenuItemDecorator,\n        Zoom: ZoomDecorator,\n        ZoomPopover: ZoomPopoverDecorator,\n    };\n};\n\nexports.ZoomInIcon = ZoomInIcon;\nexports.ZoomOutIcon = ZoomOutIcon;\nexports.zoomPlugin = zoomPlugin;\n","/**\n * A React component to view a PDF document\n *\n * @see https://react-pdf-viewer.dev\n * @license https://react-pdf-viewer.dev/license\n * @copyright 2019-2023 Nguyen Huu Phuoc <me@phuoc.ng>\n */\n\n'use strict';\n\nif (process.env.NODE_ENV === 'production') {\n    module.exports = require('./cjs/zoom.min.js');\n} else {\n    module.exports = require('./cjs/zoom.js');\n}\n","/**\n * @remix-run/router v1.7.1\n *\n * Copyright (c) Remix Software Inc.\n *\n * This source code is licensed under the MIT license found in the\n * LICENSE.md file in the root directory of this source tree.\n *\n * @license MIT\n */\nfunction _extends() {\n  _extends = Object.assign ? Object.assign.bind() : function (target) {\n    for (var i = 1; i < arguments.length; i++) {\n      var source = arguments[i];\n      for (var key in source) {\n        if (Object.prototype.hasOwnProperty.call(source, key)) {\n          target[key] = source[key];\n        }\n      }\n    }\n    return target;\n  };\n  return _extends.apply(this, arguments);\n}\n\n////////////////////////////////////////////////////////////////////////////////\n//#region Types and Constants\n////////////////////////////////////////////////////////////////////////////////\n/**\n * Actions represent the type of change to a location value.\n */\nvar Action;\n(function (Action) {\n  /**\n   * A POP indicates a change to an arbitrary index in the history stack, such\n   * as a back or forward navigation. It does not describe the direction of the\n   * navigation, only that the current index changed.\n   *\n   * Note: This is the default action for newly created history objects.\n   */\n  Action[\"Pop\"] = \"POP\";\n  /**\n   * A PUSH indicates a new entry being added to the history stack, such as when\n   * a link is clicked and a new page loads. When this happens, all subsequent\n   * entries in the stack are lost.\n   */\n  Action[\"Push\"] = \"PUSH\";\n  /**\n   * A REPLACE indicates the entry at the current index in the history stack\n   * being replaced by a new one.\n   */\n  Action[\"Replace\"] = \"REPLACE\";\n})(Action || (Action = {}));\nconst PopStateEventType = \"popstate\";\n/**\n * Memory history stores the current location in memory. It is designed for use\n * in stateful non-browser environments like tests and React Native.\n */\nfunction createMemoryHistory(options) {\n  if (options === void 0) {\n    options = {};\n  }\n  let {\n    initialEntries = [\"/\"],\n    initialIndex,\n    v5Compat = false\n  } = options;\n  let entries; // Declare so we can access from createMemoryLocation\n  entries = initialEntries.map((entry, index) => createMemoryLocation(entry, typeof entry === \"string\" ? null : entry.state, index === 0 ? \"default\" : undefined));\n  let index = clampIndex(initialIndex == null ? entries.length - 1 : initialIndex);\n  let action = Action.Pop;\n  let listener = null;\n  function clampIndex(n) {\n    return Math.min(Math.max(n, 0), entries.length - 1);\n  }\n  function getCurrentLocation() {\n    return entries[index];\n  }\n  function createMemoryLocation(to, state, key) {\n    if (state === void 0) {\n      state = null;\n    }\n    let location = createLocation(entries ? getCurrentLocation().pathname : \"/\", to, state, key);\n    warning(location.pathname.charAt(0) === \"/\", \"relative pathnames are not supported in memory history: \" + JSON.stringify(to));\n    return location;\n  }\n  function createHref(to) {\n    return typeof to === \"string\" ? to : createPath(to);\n  }\n  let history = {\n    get index() {\n      return index;\n    },\n    get action() {\n      return action;\n    },\n    get location() {\n      return getCurrentLocation();\n    },\n    createHref,\n    createURL(to) {\n      return new URL(createHref(to), \"http://localhost\");\n    },\n    encodeLocation(to) {\n      let path = typeof to === \"string\" ? parsePath(to) : to;\n      return {\n        pathname: path.pathname || \"\",\n        search: path.search || \"\",\n        hash: path.hash || \"\"\n      };\n    },\n    push(to, state) {\n      action = Action.Push;\n      let nextLocation = createMemoryLocation(to, state);\n      index += 1;\n      entries.splice(index, entries.length, nextLocation);\n      if (v5Compat && listener) {\n        listener({\n          action,\n          location: nextLocation,\n          delta: 1\n        });\n      }\n    },\n    replace(to, state) {\n      action = Action.Replace;\n      let nextLocation = createMemoryLocation(to, state);\n      entries[index] = nextLocation;\n      if (v5Compat && listener) {\n        listener({\n          action,\n          location: nextLocation,\n          delta: 0\n        });\n      }\n    },\n    go(delta) {\n      action = Action.Pop;\n      let nextIndex = clampIndex(index + delta);\n      let nextLocation = entries[nextIndex];\n      index = nextIndex;\n      if (listener) {\n        listener({\n          action,\n          location: nextLocation,\n          delta\n        });\n      }\n    },\n    listen(fn) {\n      listener = fn;\n      return () => {\n        listener = null;\n      };\n    }\n  };\n  return history;\n}\n/**\n * Browser history stores the location in regular URLs. This is the standard for\n * most web apps, but it requires some configuration on the server to ensure you\n * serve the same app at multiple URLs.\n *\n * @see https://github.com/remix-run/history/tree/main/docs/api-reference.md#createbrowserhistory\n */\nfunction createBrowserHistory(options) {\n  if (options === void 0) {\n    options = {};\n  }\n  function createBrowserLocation(window, globalHistory) {\n    let {\n      pathname,\n      search,\n      hash\n    } = window.location;\n    return createLocation(\"\", {\n      pathname,\n      search,\n      hash\n    },\n    // state defaults to `null` because `window.history.state` does\n    globalHistory.state && globalHistory.state.usr || null, globalHistory.state && globalHistory.state.key || \"default\");\n  }\n  function createBrowserHref(window, to) {\n    return typeof to === \"string\" ? to : createPath(to);\n  }\n  return getUrlBasedHistory(createBrowserLocation, createBrowserHref, null, options);\n}\n/**\n * Hash history stores the location in window.location.hash. This makes it ideal\n * for situations where you don't want to send the location to the server for\n * some reason, either because you do cannot configure it or the URL space is\n * reserved for something else.\n *\n * @see https://github.com/remix-run/history/tree/main/docs/api-reference.md#createhashhistory\n */\nfunction createHashHistory(options) {\n  if (options === void 0) {\n    options = {};\n  }\n  function createHashLocation(window, globalHistory) {\n    let {\n      pathname = \"/\",\n      search = \"\",\n      hash = \"\"\n    } = parsePath(window.location.hash.substr(1));\n    return createLocation(\"\", {\n      pathname,\n      search,\n      hash\n    },\n    // state defaults to `null` because `window.history.state` does\n    globalHistory.state && globalHistory.state.usr || null, globalHistory.state && globalHistory.state.key || \"default\");\n  }\n  function createHashHref(window, to) {\n    let base = window.document.querySelector(\"base\");\n    let href = \"\";\n    if (base && base.getAttribute(\"href\")) {\n      let url = window.location.href;\n      let hashIndex = url.indexOf(\"#\");\n      href = hashIndex === -1 ? url : url.slice(0, hashIndex);\n    }\n    return href + \"#\" + (typeof to === \"string\" ? to : createPath(to));\n  }\n  function validateHashLocation(location, to) {\n    warning(location.pathname.charAt(0) === \"/\", \"relative pathnames are not supported in hash history.push(\" + JSON.stringify(to) + \")\");\n  }\n  return getUrlBasedHistory(createHashLocation, createHashHref, validateHashLocation, options);\n}\nfunction invariant(value, message) {\n  if (value === false || value === null || typeof value === \"undefined\") {\n    throw new Error(message);\n  }\n}\nfunction warning(cond, message) {\n  if (!cond) {\n    // eslint-disable-next-line no-console\n    if (typeof console !== \"undefined\") console.warn(message);\n    try {\n      // Welcome to debugging history!\n      //\n      // This error is thrown as a convenience so you can more easily\n      // find the source for a warning that appears in the console by\n      // enabling \"pause on exceptions\" in your JavaScript debugger.\n      throw new Error(message);\n      // eslint-disable-next-line no-empty\n    } catch (e) {}\n  }\n}\nfunction createKey() {\n  return Math.random().toString(36).substr(2, 8);\n}\n/**\n * For browser-based histories, we combine the state and key into an object\n */\nfunction getHistoryState(location, index) {\n  return {\n    usr: location.state,\n    key: location.key,\n    idx: index\n  };\n}\n/**\n * Creates a Location object with a unique key from the given Path\n */\nfunction createLocation(current, to, state, key) {\n  if (state === void 0) {\n    state = null;\n  }\n  let location = _extends({\n    pathname: typeof current === \"string\" ? current : current.pathname,\n    search: \"\",\n    hash: \"\"\n  }, typeof to === \"string\" ? parsePath(to) : to, {\n    state,\n    // TODO: This could be cleaned up.  push/replace should probably just take\n    // full Locations now and avoid the need to run through this flow at all\n    // But that's a pretty big refactor to the current test suite so going to\n    // keep as is for the time being and just let any incoming keys take precedence\n    key: to && to.key || key || createKey()\n  });\n  return location;\n}\n/**\n * Creates a string URL path from the given pathname, search, and hash components.\n */\nfunction createPath(_ref) {\n  let {\n    pathname = \"/\",\n    search = \"\",\n    hash = \"\"\n  } = _ref;\n  if (search && search !== \"?\") pathname += search.charAt(0) === \"?\" ? search : \"?\" + search;\n  if (hash && hash !== \"#\") pathname += hash.charAt(0) === \"#\" ? hash : \"#\" + hash;\n  return pathname;\n}\n/**\n * Parses a string URL path into its separate pathname, search, and hash components.\n */\nfunction parsePath(path) {\n  let parsedPath = {};\n  if (path) {\n    let hashIndex = path.indexOf(\"#\");\n    if (hashIndex >= 0) {\n      parsedPath.hash = path.substr(hashIndex);\n      path = path.substr(0, hashIndex);\n    }\n    let searchIndex = path.indexOf(\"?\");\n    if (searchIndex >= 0) {\n      parsedPath.search = path.substr(searchIndex);\n      path = path.substr(0, searchIndex);\n    }\n    if (path) {\n      parsedPath.pathname = path;\n    }\n  }\n  return parsedPath;\n}\nfunction getUrlBasedHistory(getLocation, createHref, validateLocation, options) {\n  if (options === void 0) {\n    options = {};\n  }\n  let {\n    window = document.defaultView,\n    v5Compat = false\n  } = options;\n  let globalHistory = window.history;\n  let action = Action.Pop;\n  let listener = null;\n  let index = getIndex();\n  // Index should only be null when we initialize. If not, it's because the\n  // user called history.pushState or history.replaceState directly, in which\n  // case we should log a warning as it will result in bugs.\n  if (index == null) {\n    index = 0;\n    globalHistory.replaceState(_extends({}, globalHistory.state, {\n      idx: index\n    }), \"\");\n  }\n  function getIndex() {\n    let state = globalHistory.state || {\n      idx: null\n    };\n    return state.idx;\n  }\n  function handlePop() {\n    action = Action.Pop;\n    let nextIndex = getIndex();\n    let delta = nextIndex == null ? null : nextIndex - index;\n    index = nextIndex;\n    if (listener) {\n      listener({\n        action,\n        location: history.location,\n        delta\n      });\n    }\n  }\n  function push(to, state) {\n    action = Action.Push;\n    let location = createLocation(history.location, to, state);\n    if (validateLocation) validateLocation(location, to);\n    index = getIndex() + 1;\n    let historyState = getHistoryState(location, index);\n    let url = history.createHref(location);\n    // try...catch because iOS limits us to 100 pushState calls :/\n    try {\n      globalHistory.pushState(historyState, \"\", url);\n    } catch (error) {\n      // If the exception is because `state` can't be serialized, let that throw\n      // outwards just like a replace call would so the dev knows the cause\n      // https://html.spec.whatwg.org/multipage/nav-history-apis.html#shared-history-push/replace-state-steps\n      // https://html.spec.whatwg.org/multipage/structured-data.html#structuredserializeinternal\n      if (error instanceof DOMException && error.name === \"DataCloneError\") {\n        throw error;\n      }\n      // They are going to lose state here, but there is no real\n      // way to warn them about it since the page will refresh...\n      window.location.assign(url);\n    }\n    if (v5Compat && listener) {\n      listener({\n        action,\n        location: history.location,\n        delta: 1\n      });\n    }\n  }\n  function replace(to, state) {\n    action = Action.Replace;\n    let location = createLocation(history.location, to, state);\n    if (validateLocation) validateLocation(location, to);\n    index = getIndex();\n    let historyState = getHistoryState(location, index);\n    let url = history.createHref(location);\n    globalHistory.replaceState(historyState, \"\", url);\n    if (v5Compat && listener) {\n      listener({\n        action,\n        location: history.location,\n        delta: 0\n      });\n    }\n  }\n  function createURL(to) {\n    // window.location.origin is \"null\" (the literal string value) in Firefox\n    // under certain conditions, notably when serving from a local HTML file\n    // See https://bugzilla.mozilla.org/show_bug.cgi?id=878297\n    let base = window.location.origin !== \"null\" ? window.location.origin : window.location.href;\n    let href = typeof to === \"string\" ? to : createPath(to);\n    invariant(base, \"No window.location.(origin|href) available to create URL for href: \" + href);\n    return new URL(href, base);\n  }\n  let history = {\n    get action() {\n      return action;\n    },\n    get location() {\n      return getLocation(window, globalHistory);\n    },\n    listen(fn) {\n      if (listener) {\n        throw new Error(\"A history only accepts one active listener\");\n      }\n      window.addEventListener(PopStateEventType, handlePop);\n      listener = fn;\n      return () => {\n        window.removeEventListener(PopStateEventType, handlePop);\n        listener = null;\n      };\n    },\n    createHref(to) {\n      return createHref(window, to);\n    },\n    createURL,\n    encodeLocation(to) {\n      // Encode a Location the same way window.location would\n      let url = createURL(to);\n      return {\n        pathname: url.pathname,\n        search: url.search,\n        hash: url.hash\n      };\n    },\n    push,\n    replace,\n    go(n) {\n      return globalHistory.go(n);\n    }\n  };\n  return history;\n}\n//#endregion\n\nvar ResultType;\n(function (ResultType) {\n  ResultType[\"data\"] = \"data\";\n  ResultType[\"deferred\"] = \"deferred\";\n  ResultType[\"redirect\"] = \"redirect\";\n  ResultType[\"error\"] = \"error\";\n})(ResultType || (ResultType = {}));\nconst immutableRouteKeys = new Set([\"lazy\", \"caseSensitive\", \"path\", \"id\", \"index\", \"children\"]);\nfunction isIndexRoute(route) {\n  return route.index === true;\n}\n// Walk the route tree generating unique IDs where necessary so we are working\n// solely with AgnosticDataRouteObject's within the Router\nfunction convertRoutesToDataRoutes(routes, mapRouteProperties, parentPath, manifest) {\n  if (parentPath === void 0) {\n    parentPath = [];\n  }\n  if (manifest === void 0) {\n    manifest = {};\n  }\n  return routes.map((route, index) => {\n    let treePath = [...parentPath, index];\n    let id = typeof route.id === \"string\" ? route.id : treePath.join(\"-\");\n    invariant(route.index !== true || !route.children, \"Cannot specify children on an index route\");\n    invariant(!manifest[id], \"Found a route id collision on id \\\"\" + id + \"\\\".  Route \" + \"id's must be globally unique within Data Router usages\");\n    if (isIndexRoute(route)) {\n      let indexRoute = _extends({}, route, mapRouteProperties(route), {\n        id\n      });\n      manifest[id] = indexRoute;\n      return indexRoute;\n    } else {\n      let pathOrLayoutRoute = _extends({}, route, mapRouteProperties(route), {\n        id,\n        children: undefined\n      });\n      manifest[id] = pathOrLayoutRoute;\n      if (route.children) {\n        pathOrLayoutRoute.children = convertRoutesToDataRoutes(route.children, mapRouteProperties, treePath, manifest);\n      }\n      return pathOrLayoutRoute;\n    }\n  });\n}\n/**\n * Matches the given routes to a location and returns the match data.\n *\n * @see https://reactrouter.com/utils/match-routes\n */\nfunction matchRoutes(routes, locationArg, basename) {\n  if (basename === void 0) {\n    basename = \"/\";\n  }\n  let location = typeof locationArg === \"string\" ? parsePath(locationArg) : locationArg;\n  let pathname = stripBasename(location.pathname || \"/\", basename);\n  if (pathname == null) {\n    return null;\n  }\n  let branches = flattenRoutes(routes);\n  rankRouteBranches(branches);\n  let matches = null;\n  for (let i = 0; matches == null && i < branches.length; ++i) {\n    matches = matchRouteBranch(branches[i],\n    // Incoming pathnames are generally encoded from either window.location\n    // or from router.navigate, but we want to match against the unencoded\n    // paths in the route definitions.  Memory router locations won't be\n    // encoded here but there also shouldn't be anything to decode so this\n    // should be a safe operation.  This avoids needing matchRoutes to be\n    // history-aware.\n    safelyDecodeURI(pathname));\n  }\n  return matches;\n}\nfunction flattenRoutes(routes, branches, parentsMeta, parentPath) {\n  if (branches === void 0) {\n    branches = [];\n  }\n  if (parentsMeta === void 0) {\n    parentsMeta = [];\n  }\n  if (parentPath === void 0) {\n    parentPath = \"\";\n  }\n  let flattenRoute = (route, index, relativePath) => {\n    let meta = {\n      relativePath: relativePath === undefined ? route.path || \"\" : relativePath,\n      caseSensitive: route.caseSensitive === true,\n      childrenIndex: index,\n      route\n    };\n    if (meta.relativePath.startsWith(\"/\")) {\n      invariant(meta.relativePath.startsWith(parentPath), \"Absolute route path \\\"\" + meta.relativePath + \"\\\" nested under path \" + (\"\\\"\" + parentPath + \"\\\" is not valid. An absolute child route path \") + \"must start with the combined path of all its parent routes.\");\n      meta.relativePath = meta.relativePath.slice(parentPath.length);\n    }\n    let path = joinPaths([parentPath, meta.relativePath]);\n    let routesMeta = parentsMeta.concat(meta);\n    // Add the children before adding this route to the array so we traverse the\n    // route tree depth-first and child routes appear before their parents in\n    // the \"flattened\" version.\n    if (route.children && route.children.length > 0) {\n      invariant(\n      // Our types know better, but runtime JS may not!\n      // @ts-expect-error\n      route.index !== true, \"Index routes must not have child routes. Please remove \" + (\"all child routes from route path \\\"\" + path + \"\\\".\"));\n      flattenRoutes(route.children, branches, routesMeta, path);\n    }\n    // Routes without a path shouldn't ever match by themselves unless they are\n    // index routes, so don't add them to the list of possible branches.\n    if (route.path == null && !route.index) {\n      return;\n    }\n    branches.push({\n      path,\n      score: computeScore(path, route.index),\n      routesMeta\n    });\n  };\n  routes.forEach((route, index) => {\n    var _route$path;\n    // coarse-grain check for optional params\n    if (route.path === \"\" || !((_route$path = route.path) != null && _route$path.includes(\"?\"))) {\n      flattenRoute(route, index);\n    } else {\n      for (let exploded of explodeOptionalSegments(route.path)) {\n        flattenRoute(route, index, exploded);\n      }\n    }\n  });\n  return branches;\n}\n/**\n * Computes all combinations of optional path segments for a given path,\n * excluding combinations that are ambiguous and of lower priority.\n *\n * For example, `/one/:two?/three/:four?/:five?` explodes to:\n * - `/one/three`\n * - `/one/:two/three`\n * - `/one/three/:four`\n * - `/one/three/:five`\n * - `/one/:two/three/:four`\n * - `/one/:two/three/:five`\n * - `/one/three/:four/:five`\n * - `/one/:two/three/:four/:five`\n */\nfunction explodeOptionalSegments(path) {\n  let segments = path.split(\"/\");\n  if (segments.length === 0) return [];\n  let [first, ...rest] = segments;\n  // Optional path segments are denoted by a trailing `?`\n  let isOptional = first.endsWith(\"?\");\n  // Compute the corresponding required segment: `foo?` -> `foo`\n  let required = first.replace(/\\?$/, \"\");\n  if (rest.length === 0) {\n    // Intepret empty string as omitting an optional segment\n    // `[\"one\", \"\", \"three\"]` corresponds to omitting `:two` from `/one/:two?/three` -> `/one/three`\n    return isOptional ? [required, \"\"] : [required];\n  }\n  let restExploded = explodeOptionalSegments(rest.join(\"/\"));\n  let result = [];\n  // All child paths with the prefix.  Do this for all children before the\n  // optional version for all children so we get consistent ordering where the\n  // parent optional aspect is preferred as required.  Otherwise, we can get\n  // child sections interspersed where deeper optional segments are higher than\n  // parent optional segments, where for example, /:two would explodes _earlier_\n  // then /:one.  By always including the parent as required _for all children_\n  // first, we avoid this issue\n  result.push(...restExploded.map(subpath => subpath === \"\" ? required : [required, subpath].join(\"/\")));\n  // Then if this is an optional value, add all child versions without\n  if (isOptional) {\n    result.push(...restExploded);\n  }\n  // for absolute paths, ensure `/` instead of empty segment\n  return result.map(exploded => path.startsWith(\"/\") && exploded === \"\" ? \"/\" : exploded);\n}\nfunction rankRouteBranches(branches) {\n  branches.sort((a, b) => a.score !== b.score ? b.score - a.score // Higher score first\n  : compareIndexes(a.routesMeta.map(meta => meta.childrenIndex), b.routesMeta.map(meta => meta.childrenIndex)));\n}\nconst paramRe = /^:\\w+$/;\nconst dynamicSegmentValue = 3;\nconst indexRouteValue = 2;\nconst emptySegmentValue = 1;\nconst staticSegmentValue = 10;\nconst splatPenalty = -2;\nconst isSplat = s => s === \"*\";\nfunction computeScore(path, index) {\n  let segments = path.split(\"/\");\n  let initialScore = segments.length;\n  if (segments.some(isSplat)) {\n    initialScore += splatPenalty;\n  }\n  if (index) {\n    initialScore += indexRouteValue;\n  }\n  return segments.filter(s => !isSplat(s)).reduce((score, segment) => score + (paramRe.test(segment) ? dynamicSegmentValue : segment === \"\" ? emptySegmentValue : staticSegmentValue), initialScore);\n}\nfunction compareIndexes(a, b) {\n  let siblings = a.length === b.length && a.slice(0, -1).every((n, i) => n === b[i]);\n  return siblings ?\n  // If two routes are siblings, we should try to match the earlier sibling\n  // first. This allows people to have fine-grained control over the matching\n  // behavior by simply putting routes with identical paths in the order they\n  // want them tried.\n  a[a.length - 1] - b[b.length - 1] :\n  // Otherwise, it doesn't really make sense to rank non-siblings by index,\n  // so they sort equally.\n  0;\n}\nfunction matchRouteBranch(branch, pathname) {\n  let {\n    routesMeta\n  } = branch;\n  let matchedParams = {};\n  let matchedPathname = \"/\";\n  let matches = [];\n  for (let i = 0; i < routesMeta.length; ++i) {\n    let meta = routesMeta[i];\n    let end = i === routesMeta.length - 1;\n    let remainingPathname = matchedPathname === \"/\" ? pathname : pathname.slice(matchedPathname.length) || \"/\";\n    let match = matchPath({\n      path: meta.relativePath,\n      caseSensitive: meta.caseSensitive,\n      end\n    }, remainingPathname);\n    if (!match) return null;\n    Object.assign(matchedParams, match.params);\n    let route = meta.route;\n    matches.push({\n      // TODO: Can this as be avoided?\n      params: matchedParams,\n      pathname: joinPaths([matchedPathname, match.pathname]),\n      pathnameBase: normalizePathname(joinPaths([matchedPathname, match.pathnameBase])),\n      route\n    });\n    if (match.pathnameBase !== \"/\") {\n      matchedPathname = joinPaths([matchedPathname, match.pathnameBase]);\n    }\n  }\n  return matches;\n}\n/**\n * Returns a path with params interpolated.\n *\n * @see https://reactrouter.com/utils/generate-path\n */\nfunction generatePath(originalPath, params) {\n  if (params === void 0) {\n    params = {};\n  }\n  let path = originalPath;\n  if (path.endsWith(\"*\") && path !== \"*\" && !path.endsWith(\"/*\")) {\n    warning(false, \"Route path \\\"\" + path + \"\\\" will be treated as if it were \" + (\"\\\"\" + path.replace(/\\*$/, \"/*\") + \"\\\" because the `*` character must \") + \"always follow a `/` in the pattern. To get rid of this warning, \" + (\"please change the route path to \\\"\" + path.replace(/\\*$/, \"/*\") + \"\\\".\"));\n    path = path.replace(/\\*$/, \"/*\");\n  }\n  // ensure `/` is added at the beginning if the path is absolute\n  const prefix = path.startsWith(\"/\") ? \"/\" : \"\";\n  const stringify = p => p == null ? \"\" : typeof p === \"string\" ? p : String(p);\n  const segments = path.split(/\\/+/).map((segment, index, array) => {\n    const isLastSegment = index === array.length - 1;\n    // only apply the splat if it's the last segment\n    if (isLastSegment && segment === \"*\") {\n      const star = \"*\";\n      // Apply the splat\n      return stringify(params[star]);\n    }\n    const keyMatch = segment.match(/^:(\\w+)(\\??)$/);\n    if (keyMatch) {\n      const [, key, optional] = keyMatch;\n      let param = params[key];\n      invariant(optional === \"?\" || param != null, \"Missing \\\":\" + key + \"\\\" param\");\n      return stringify(param);\n    }\n    // Remove any optional markers from optional static segments\n    return segment.replace(/\\?$/g, \"\");\n  })\n  // Remove empty segments\n  .filter(segment => !!segment);\n  return prefix + segments.join(\"/\");\n}\n/**\n * Performs pattern matching on a URL pathname and returns information about\n * the match.\n *\n * @see https://reactrouter.com/utils/match-path\n */\nfunction matchPath(pattern, pathname) {\n  if (typeof pattern === \"string\") {\n    pattern = {\n      path: pattern,\n      caseSensitive: false,\n      end: true\n    };\n  }\n  let [matcher, paramNames] = compilePath(pattern.path, pattern.caseSensitive, pattern.end);\n  let match = pathname.match(matcher);\n  if (!match) return null;\n  let matchedPathname = match[0];\n  let pathnameBase = matchedPathname.replace(/(.)\\/+$/, \"$1\");\n  let captureGroups = match.slice(1);\n  let params = paramNames.reduce((memo, paramName, index) => {\n    // We need to compute the pathnameBase here using the raw splat value\n    // instead of using params[\"*\"] later because it will be decoded then\n    if (paramName === \"*\") {\n      let splatValue = captureGroups[index] || \"\";\n      pathnameBase = matchedPathname.slice(0, matchedPathname.length - splatValue.length).replace(/(.)\\/+$/, \"$1\");\n    }\n    memo[paramName] = safelyDecodeURIComponent(captureGroups[index] || \"\", paramName);\n    return memo;\n  }, {});\n  return {\n    params,\n    pathname: matchedPathname,\n    pathnameBase,\n    pattern\n  };\n}\nfunction compilePath(path, caseSensitive, end) {\n  if (caseSensitive === void 0) {\n    caseSensitive = false;\n  }\n  if (end === void 0) {\n    end = true;\n  }\n  warning(path === \"*\" || !path.endsWith(\"*\") || path.endsWith(\"/*\"), \"Route path \\\"\" + path + \"\\\" will be treated as if it were \" + (\"\\\"\" + path.replace(/\\*$/, \"/*\") + \"\\\" because the `*` character must \") + \"always follow a `/` in the pattern. To get rid of this warning, \" + (\"please change the route path to \\\"\" + path.replace(/\\*$/, \"/*\") + \"\\\".\"));\n  let paramNames = [];\n  let regexpSource = \"^\" + path.replace(/\\/*\\*?$/, \"\") // Ignore trailing / and /*, we'll handle it below\n  .replace(/^\\/*/, \"/\") // Make sure it has a leading /\n  .replace(/[\\\\.*+^$?{}|()[\\]]/g, \"\\\\$&\") // Escape special regex chars\n  .replace(/\\/:(\\w+)/g, (_, paramName) => {\n    paramNames.push(paramName);\n    return \"/([^\\\\/]+)\";\n  });\n  if (path.endsWith(\"*\")) {\n    paramNames.push(\"*\");\n    regexpSource += path === \"*\" || path === \"/*\" ? \"(.*)$\" // Already matched the initial /, just match the rest\n    : \"(?:\\\\/(.+)|\\\\/*)$\"; // Don't include the / in params[\"*\"]\n  } else if (end) {\n    // When matching to the end, ignore trailing slashes\n    regexpSource += \"\\\\/*$\";\n  } else if (path !== \"\" && path !== \"/\") {\n    // If our path is non-empty and contains anything beyond an initial slash,\n    // then we have _some_ form of path in our regex so we should expect to\n    // match only if we find the end of this path segment.  Look for an optional\n    // non-captured trailing slash (to match a portion of the URL) or the end\n    // of the path (if we've matched to the end).  We used to do this with a\n    // word boundary but that gives false positives on routes like\n    // /user-preferences since `-` counts as a word boundary.\n    regexpSource += \"(?:(?=\\\\/|$))\";\n  } else ;\n  let matcher = new RegExp(regexpSource, caseSensitive ? undefined : \"i\");\n  return [matcher, paramNames];\n}\nfunction safelyDecodeURI(value) {\n  try {\n    return decodeURI(value);\n  } catch (error) {\n    warning(false, \"The URL path \\\"\" + value + \"\\\" could not be decoded because it is is a \" + \"malformed URL segment. This is probably due to a bad percent \" + (\"encoding (\" + error + \").\"));\n    return value;\n  }\n}\nfunction safelyDecodeURIComponent(value, paramName) {\n  try {\n    return decodeURIComponent(value);\n  } catch (error) {\n    warning(false, \"The value for the URL param \\\"\" + paramName + \"\\\" will not be decoded because\" + (\" the string \\\"\" + value + \"\\\" is a malformed URL segment. This is probably\") + (\" due to a bad percent encoding (\" + error + \").\"));\n    return value;\n  }\n}\n/**\n * @private\n */\nfunction stripBasename(pathname, basename) {\n  if (basename === \"/\") return pathname;\n  if (!pathname.toLowerCase().startsWith(basename.toLowerCase())) {\n    return null;\n  }\n  // We want to leave trailing slash behavior in the user's control, so if they\n  // specify a basename with a trailing slash, we should support it\n  let startIndex = basename.endsWith(\"/\") ? basename.length - 1 : basename.length;\n  let nextChar = pathname.charAt(startIndex);\n  if (nextChar && nextChar !== \"/\") {\n    // pathname does not start with basename/\n    return null;\n  }\n  return pathname.slice(startIndex) || \"/\";\n}\n/**\n * Returns a resolved path object relative to the given pathname.\n *\n * @see https://reactrouter.com/utils/resolve-path\n */\nfunction resolvePath(to, fromPathname) {\n  if (fromPathname === void 0) {\n    fromPathname = \"/\";\n  }\n  let {\n    pathname: toPathname,\n    search = \"\",\n    hash = \"\"\n  } = typeof to === \"string\" ? parsePath(to) : to;\n  let pathname = toPathname ? toPathname.startsWith(\"/\") ? toPathname : resolvePathname(toPathname, fromPathname) : fromPathname;\n  return {\n    pathname,\n    search: normalizeSearch(search),\n    hash: normalizeHash(hash)\n  };\n}\nfunction resolvePathname(relativePath, fromPathname) {\n  let segments = fromPathname.replace(/\\/+$/, \"\").split(\"/\");\n  let relativeSegments = relativePath.split(\"/\");\n  relativeSegments.forEach(segment => {\n    if (segment === \"..\") {\n      // Keep the root \"\" segment so the pathname starts at /\n      if (segments.length > 1) segments.pop();\n    } else if (segment !== \".\") {\n      segments.push(segment);\n    }\n  });\n  return segments.length > 1 ? segments.join(\"/\") : \"/\";\n}\nfunction getInvalidPathError(char, field, dest, path) {\n  return \"Cannot include a '\" + char + \"' character in a manually specified \" + (\"`to.\" + field + \"` field [\" + JSON.stringify(path) + \"].  Please separate it out to the \") + (\"`to.\" + dest + \"` field. Alternatively you may provide the full path as \") + \"a string in <Link to=\\\"...\\\"> and the router will parse it for you.\";\n}\n/**\n * @private\n *\n * When processing relative navigation we want to ignore ancestor routes that\n * do not contribute to the path, such that index/pathless layout routes don't\n * interfere.\n *\n * For example, when moving a route element into an index route and/or a\n * pathless layout route, relative link behavior contained within should stay\n * the same.  Both of the following examples should link back to the root:\n *\n *   <Route path=\"/\">\n *     <Route path=\"accounts\" element={<Link to=\"..\"}>\n *   </Route>\n *\n *   <Route path=\"/\">\n *     <Route path=\"accounts\">\n *       <Route element={<AccountsLayout />}>       // <-- Does not contribute\n *         <Route index element={<Link to=\"..\"} />  // <-- Does not contribute\n *       </Route\n *     </Route>\n *   </Route>\n */\nfunction getPathContributingMatches(matches) {\n  return matches.filter((match, index) => index === 0 || match.route.path && match.route.path.length > 0);\n}\n/**\n * @private\n */\nfunction resolveTo(toArg, routePathnames, locationPathname, isPathRelative) {\n  if (isPathRelative === void 0) {\n    isPathRelative = false;\n  }\n  let to;\n  if (typeof toArg === \"string\") {\n    to = parsePath(toArg);\n  } else {\n    to = _extends({}, toArg);\n    invariant(!to.pathname || !to.pathname.includes(\"?\"), getInvalidPathError(\"?\", \"pathname\", \"search\", to));\n    invariant(!to.pathname || !to.pathname.includes(\"#\"), getInvalidPathError(\"#\", \"pathname\", \"hash\", to));\n    invariant(!to.search || !to.search.includes(\"#\"), getInvalidPathError(\"#\", \"search\", \"hash\", to));\n  }\n  let isEmptyPath = toArg === \"\" || to.pathname === \"\";\n  let toPathname = isEmptyPath ? \"/\" : to.pathname;\n  let from;\n  // Routing is relative to the current pathname if explicitly requested.\n  //\n  // If a pathname is explicitly provided in `to`, it should be relative to the\n  // route context. This is explained in `Note on `<Link to>` values` in our\n  // migration guide from v5 as a means of disambiguation between `to` values\n  // that begin with `/` and those that do not. However, this is problematic for\n  // `to` values that do not provide a pathname. `to` can simply be a search or\n  // hash string, in which case we should assume that the navigation is relative\n  // to the current location's pathname and *not* the route pathname.\n  if (isPathRelative || toPathname == null) {\n    from = locationPathname;\n  } else {\n    let routePathnameIndex = routePathnames.length - 1;\n    if (toPathname.startsWith(\"..\")) {\n      let toSegments = toPathname.split(\"/\");\n      // Each leading .. segment means \"go up one route\" instead of \"go up one\n      // URL segment\".  This is a key difference from how <a href> works and a\n      // major reason we call this a \"to\" value instead of a \"href\".\n      while (toSegments[0] === \"..\") {\n        toSegments.shift();\n        routePathnameIndex -= 1;\n      }\n      to.pathname = toSegments.join(\"/\");\n    }\n    // If there are more \"..\" segments than parent routes, resolve relative to\n    // the root / URL.\n    from = routePathnameIndex >= 0 ? routePathnames[routePathnameIndex] : \"/\";\n  }\n  let path = resolvePath(to, from);\n  // Ensure the pathname has a trailing slash if the original \"to\" had one\n  let hasExplicitTrailingSlash = toPathname && toPathname !== \"/\" && toPathname.endsWith(\"/\");\n  // Or if this was a link to the current path which has a trailing slash\n  let hasCurrentTrailingSlash = (isEmptyPath || toPathname === \".\") && locationPathname.endsWith(\"/\");\n  if (!path.pathname.endsWith(\"/\") && (hasExplicitTrailingSlash || hasCurrentTrailingSlash)) {\n    path.pathname += \"/\";\n  }\n  return path;\n}\n/**\n * @private\n */\nfunction getToPathname(to) {\n  // Empty strings should be treated the same as / paths\n  return to === \"\" || to.pathname === \"\" ? \"/\" : typeof to === \"string\" ? parsePath(to).pathname : to.pathname;\n}\n/**\n * @private\n */\nconst joinPaths = paths => paths.join(\"/\").replace(/\\/\\/+/g, \"/\");\n/**\n * @private\n */\nconst normalizePathname = pathname => pathname.replace(/\\/+$/, \"\").replace(/^\\/*/, \"/\");\n/**\n * @private\n */\nconst normalizeSearch = search => !search || search === \"?\" ? \"\" : search.startsWith(\"?\") ? search : \"?\" + search;\n/**\n * @private\n */\nconst normalizeHash = hash => !hash || hash === \"#\" ? \"\" : hash.startsWith(\"#\") ? hash : \"#\" + hash;\n/**\n * This is a shortcut for creating `application/json` responses. Converts `data`\n * to JSON and sets the `Content-Type` header.\n */\nconst json = function json(data, init) {\n  if (init === void 0) {\n    init = {};\n  }\n  let responseInit = typeof init === \"number\" ? {\n    status: init\n  } : init;\n  let headers = new Headers(responseInit.headers);\n  if (!headers.has(\"Content-Type\")) {\n    headers.set(\"Content-Type\", \"application/json; charset=utf-8\");\n  }\n  return new Response(JSON.stringify(data), _extends({}, responseInit, {\n    headers\n  }));\n};\nclass AbortedDeferredError extends Error {}\nclass DeferredData {\n  constructor(data, responseInit) {\n    this.pendingKeysSet = new Set();\n    this.subscribers = new Set();\n    this.deferredKeys = [];\n    invariant(data && typeof data === \"object\" && !Array.isArray(data), \"defer() only accepts plain objects\");\n    // Set up an AbortController + Promise we can race against to exit early\n    // cancellation\n    let reject;\n    this.abortPromise = new Promise((_, r) => reject = r);\n    this.controller = new AbortController();\n    let onAbort = () => reject(new AbortedDeferredError(\"Deferred data aborted\"));\n    this.unlistenAbortSignal = () => this.controller.signal.removeEventListener(\"abort\", onAbort);\n    this.controller.signal.addEventListener(\"abort\", onAbort);\n    this.data = Object.entries(data).reduce((acc, _ref) => {\n      let [key, value] = _ref;\n      return Object.assign(acc, {\n        [key]: this.trackPromise(key, value)\n      });\n    }, {});\n    if (this.done) {\n      // All incoming values were resolved\n      this.unlistenAbortSignal();\n    }\n    this.init = responseInit;\n  }\n  trackPromise(key, value) {\n    if (!(value instanceof Promise)) {\n      return value;\n    }\n    this.deferredKeys.push(key);\n    this.pendingKeysSet.add(key);\n    // We store a little wrapper promise that will be extended with\n    // _data/_error props upon resolve/reject\n    let promise = Promise.race([value, this.abortPromise]).then(data => this.onSettle(promise, key, null, data), error => this.onSettle(promise, key, error));\n    // Register rejection listeners to avoid uncaught promise rejections on\n    // errors or aborted deferred values\n    promise.catch(() => {});\n    Object.defineProperty(promise, \"_tracked\", {\n      get: () => true\n    });\n    return promise;\n  }\n  onSettle(promise, key, error, data) {\n    if (this.controller.signal.aborted && error instanceof AbortedDeferredError) {\n      this.unlistenAbortSignal();\n      Object.defineProperty(promise, \"_error\", {\n        get: () => error\n      });\n      return Promise.reject(error);\n    }\n    this.pendingKeysSet.delete(key);\n    if (this.done) {\n      // Nothing left to abort!\n      this.unlistenAbortSignal();\n    }\n    if (error) {\n      Object.defineProperty(promise, \"_error\", {\n        get: () => error\n      });\n      this.emit(false, key);\n      return Promise.reject(error);\n    }\n    Object.defineProperty(promise, \"_data\", {\n      get: () => data\n    });\n    this.emit(false, key);\n    return data;\n  }\n  emit(aborted, settledKey) {\n    this.subscribers.forEach(subscriber => subscriber(aborted, settledKey));\n  }\n  subscribe(fn) {\n    this.subscribers.add(fn);\n    return () => this.subscribers.delete(fn);\n  }\n  cancel() {\n    this.controller.abort();\n    this.pendingKeysSet.forEach((v, k) => this.pendingKeysSet.delete(k));\n    this.emit(true);\n  }\n  async resolveData(signal) {\n    let aborted = false;\n    if (!this.done) {\n      let onAbort = () => this.cancel();\n      signal.addEventListener(\"abort\", onAbort);\n      aborted = await new Promise(resolve => {\n        this.subscribe(aborted => {\n          signal.removeEventListener(\"abort\", onAbort);\n          if (aborted || this.done) {\n            resolve(aborted);\n          }\n        });\n      });\n    }\n    return aborted;\n  }\n  get done() {\n    return this.pendingKeysSet.size === 0;\n  }\n  get unwrappedData() {\n    invariant(this.data !== null && this.done, \"Can only unwrap data on initialized and settled deferreds\");\n    return Object.entries(this.data).reduce((acc, _ref2) => {\n      let [key, value] = _ref2;\n      return Object.assign(acc, {\n        [key]: unwrapTrackedPromise(value)\n      });\n    }, {});\n  }\n  get pendingKeys() {\n    return Array.from(this.pendingKeysSet);\n  }\n}\nfunction isTrackedPromise(value) {\n  return value instanceof Promise && value._tracked === true;\n}\nfunction unwrapTrackedPromise(value) {\n  if (!isTrackedPromise(value)) {\n    return value;\n  }\n  if (value._error) {\n    throw value._error;\n  }\n  return value._data;\n}\nconst defer = function defer(data, init) {\n  if (init === void 0) {\n    init = {};\n  }\n  let responseInit = typeof init === \"number\" ? {\n    status: init\n  } : init;\n  return new DeferredData(data, responseInit);\n};\n/**\n * A redirect response. Sets the status code and the `Location` header.\n * Defaults to \"302 Found\".\n */\nconst redirect = function redirect(url, init) {\n  if (init === void 0) {\n    init = 302;\n  }\n  let responseInit = init;\n  if (typeof responseInit === \"number\") {\n    responseInit = {\n      status: responseInit\n    };\n  } else if (typeof responseInit.status === \"undefined\") {\n    responseInit.status = 302;\n  }\n  let headers = new Headers(responseInit.headers);\n  headers.set(\"Location\", url);\n  return new Response(null, _extends({}, responseInit, {\n    headers\n  }));\n};\n/**\n * @private\n * Utility class we use to hold auto-unwrapped 4xx/5xx Response bodies\n */\nclass ErrorResponse {\n  constructor(status, statusText, data, internal) {\n    if (internal === void 0) {\n      internal = false;\n    }\n    this.status = status;\n    this.statusText = statusText || \"\";\n    this.internal = internal;\n    if (data instanceof Error) {\n      this.data = data.toString();\n      this.error = data;\n    } else {\n      this.data = data;\n    }\n  }\n}\n/**\n * Check if the given error is an ErrorResponse generated from a 4xx/5xx\n * Response thrown from an action/loader\n */\nfunction isRouteErrorResponse(error) {\n  return error != null && typeof error.status === \"number\" && typeof error.statusText === \"string\" && typeof error.internal === \"boolean\" && \"data\" in error;\n}\n\nconst validMutationMethodsArr = [\"post\", \"put\", \"patch\", \"delete\"];\nconst validMutationMethods = new Set(validMutationMethodsArr);\nconst validRequestMethodsArr = [\"get\", ...validMutationMethodsArr];\nconst validRequestMethods = new Set(validRequestMethodsArr);\nconst redirectStatusCodes = new Set([301, 302, 303, 307, 308]);\nconst redirectPreserveMethodStatusCodes = new Set([307, 308]);\nconst IDLE_NAVIGATION = {\n  state: \"idle\",\n  location: undefined,\n  formMethod: undefined,\n  formAction: undefined,\n  formEncType: undefined,\n  formData: undefined,\n  json: undefined,\n  text: undefined\n};\nconst IDLE_FETCHER = {\n  state: \"idle\",\n  data: undefined,\n  formMethod: undefined,\n  formAction: undefined,\n  formEncType: undefined,\n  formData: undefined,\n  json: undefined,\n  text: undefined\n};\nconst IDLE_BLOCKER = {\n  state: \"unblocked\",\n  proceed: undefined,\n  reset: undefined,\n  location: undefined\n};\nconst ABSOLUTE_URL_REGEX = /^(?:[a-z][a-z0-9+.-]*:|\\/\\/)/i;\nconst defaultMapRouteProperties = route => ({\n  hasErrorBoundary: Boolean(route.hasErrorBoundary)\n});\n//#endregion\n////////////////////////////////////////////////////////////////////////////////\n//#region createRouter\n////////////////////////////////////////////////////////////////////////////////\n/**\n * Create a router and listen to history POP navigations\n */\nfunction createRouter(init) {\n  const routerWindow = init.window ? init.window : typeof window !== \"undefined\" ? window : undefined;\n  const isBrowser = typeof routerWindow !== \"undefined\" && typeof routerWindow.document !== \"undefined\" && typeof routerWindow.document.createElement !== \"undefined\";\n  const isServer = !isBrowser;\n  invariant(init.routes.length > 0, \"You must provide a non-empty routes array to createRouter\");\n  let mapRouteProperties;\n  if (init.mapRouteProperties) {\n    mapRouteProperties = init.mapRouteProperties;\n  } else if (init.detectErrorBoundary) {\n    // If they are still using the deprecated version, wrap it with the new API\n    let detectErrorBoundary = init.detectErrorBoundary;\n    mapRouteProperties = route => ({\n      hasErrorBoundary: detectErrorBoundary(route)\n    });\n  } else {\n    mapRouteProperties = defaultMapRouteProperties;\n  }\n  // Routes keyed by ID\n  let manifest = {};\n  // Routes in tree format for matching\n  let dataRoutes = convertRoutesToDataRoutes(init.routes, mapRouteProperties, undefined, manifest);\n  let inFlightDataRoutes;\n  let basename = init.basename || \"/\";\n  // Config driven behavior flags\n  let future = _extends({\n    v7_normalizeFormMethod: false,\n    v7_prependBasename: false\n  }, init.future);\n  // Cleanup function for history\n  let unlistenHistory = null;\n  // Externally-provided functions to call on all state changes\n  let subscribers = new Set();\n  // Externally-provided object to hold scroll restoration locations during routing\n  let savedScrollPositions = null;\n  // Externally-provided function to get scroll restoration keys\n  let getScrollRestorationKey = null;\n  // Externally-provided function to get current scroll position\n  let getScrollPosition = null;\n  // One-time flag to control the initial hydration scroll restoration.  Because\n  // we don't get the saved positions from <ScrollRestoration /> until _after_\n  // the initial render, we need to manually trigger a separate updateState to\n  // send along the restoreScrollPosition\n  // Set to true if we have `hydrationData` since we assume we were SSR'd and that\n  // SSR did the initial scroll restoration.\n  let initialScrollRestored = init.hydrationData != null;\n  let initialMatches = matchRoutes(dataRoutes, init.history.location, basename);\n  let initialErrors = null;\n  if (initialMatches == null) {\n    // If we do not match a user-provided-route, fall back to the root\n    // to allow the error boundary to take over\n    let error = getInternalRouterError(404, {\n      pathname: init.history.location.pathname\n    });\n    let {\n      matches,\n      route\n    } = getShortCircuitMatches(dataRoutes);\n    initialMatches = matches;\n    initialErrors = {\n      [route.id]: error\n    };\n  }\n  let initialized =\n  // All initialMatches need to be loaded before we're ready.  If we have lazy\n  // functions around still then we'll need to run them in initialize()\n  !initialMatches.some(m => m.route.lazy) && (\n  // And we have to either have no loaders or have been provided hydrationData\n  !initialMatches.some(m => m.route.loader) || init.hydrationData != null);\n  let router;\n  let state = {\n    historyAction: init.history.action,\n    location: init.history.location,\n    matches: initialMatches,\n    initialized,\n    navigation: IDLE_NAVIGATION,\n    // Don't restore on initial updateState() if we were SSR'd\n    restoreScrollPosition: init.hydrationData != null ? false : null,\n    preventScrollReset: false,\n    revalidation: \"idle\",\n    loaderData: init.hydrationData && init.hydrationData.loaderData || {},\n    actionData: init.hydrationData && init.hydrationData.actionData || null,\n    errors: init.hydrationData && init.hydrationData.errors || initialErrors,\n    fetchers: new Map(),\n    blockers: new Map()\n  };\n  // -- Stateful internal variables to manage navigations --\n  // Current navigation in progress (to be committed in completeNavigation)\n  let pendingAction = Action.Pop;\n  // Should the current navigation prevent the scroll reset if scroll cannot\n  // be restored?\n  let pendingPreventScrollReset = false;\n  // AbortController for the active navigation\n  let pendingNavigationController;\n  // We use this to avoid touching history in completeNavigation if a\n  // revalidation is entirely uninterrupted\n  let isUninterruptedRevalidation = false;\n  // Use this internal flag to force revalidation of all loaders:\n  //  - submissions (completed or interrupted)\n  //  - useRevalidator()\n  //  - X-Remix-Revalidate (from redirect)\n  let isRevalidationRequired = false;\n  // Use this internal array to capture routes that require revalidation due\n  // to a cancelled deferred on action submission\n  let cancelledDeferredRoutes = [];\n  // Use this internal array to capture fetcher loads that were cancelled by an\n  // action navigation and require revalidation\n  let cancelledFetcherLoads = [];\n  // AbortControllers for any in-flight fetchers\n  let fetchControllers = new Map();\n  // Track loads based on the order in which they started\n  let incrementingLoadId = 0;\n  // Track the outstanding pending navigation data load to be compared against\n  // the globally incrementing load when a fetcher load lands after a completed\n  // navigation\n  let pendingNavigationLoadId = -1;\n  // Fetchers that triggered data reloads as a result of their actions\n  let fetchReloadIds = new Map();\n  // Fetchers that triggered redirect navigations\n  let fetchRedirectIds = new Set();\n  // Most recent href/match for fetcher.load calls for fetchers\n  let fetchLoadMatches = new Map();\n  // Store DeferredData instances for active route matches.  When a\n  // route loader returns defer() we stick one in here.  Then, when a nested\n  // promise resolves we update loaderData.  If a new navigation starts we\n  // cancel active deferreds for eliminated routes.\n  let activeDeferreds = new Map();\n  // Store blocker functions in a separate Map outside of router state since\n  // we don't need to update UI state if they change\n  let blockerFunctions = new Map();\n  // Flag to ignore the next history update, so we can revert the URL change on\n  // a POP navigation that was blocked by the user without touching router state\n  let ignoreNextHistoryUpdate = false;\n  // Initialize the router, all side effects should be kicked off from here.\n  // Implemented as a Fluent API for ease of:\n  //   let router = createRouter(init).initialize();\n  function initialize() {\n    // If history informs us of a POP navigation, start the navigation but do not update\n    // state.  We'll update our own state once the navigation completes\n    unlistenHistory = init.history.listen(_ref => {\n      let {\n        action: historyAction,\n        location,\n        delta\n      } = _ref;\n      // Ignore this event if it was just us resetting the URL from a\n      // blocked POP navigation\n      if (ignoreNextHistoryUpdate) {\n        ignoreNextHistoryUpdate = false;\n        return;\n      }\n      warning(blockerFunctions.size === 0 || delta != null, \"You are trying to use a blocker on a POP navigation to a location \" + \"that was not created by @remix-run/router. This will fail silently in \" + \"production. This can happen if you are navigating outside the router \" + \"via `window.history.pushState`/`window.location.hash` instead of using \" + \"router navigation APIs.  This can also happen if you are using \" + \"createHashRouter and the user manually changes the URL.\");\n      let blockerKey = shouldBlockNavigation({\n        currentLocation: state.location,\n        nextLocation: location,\n        historyAction\n      });\n      if (blockerKey && delta != null) {\n        // Restore the URL to match the current UI, but don't update router state\n        ignoreNextHistoryUpdate = true;\n        init.history.go(delta * -1);\n        // Put the blocker into a blocked state\n        updateBlocker(blockerKey, {\n          state: \"blocked\",\n          location,\n          proceed() {\n            updateBlocker(blockerKey, {\n              state: \"proceeding\",\n              proceed: undefined,\n              reset: undefined,\n              location\n            });\n            // Re-do the same POP navigation we just blocked\n            init.history.go(delta);\n          },\n          reset() {\n            let blockers = new Map(state.blockers);\n            blockers.set(blockerKey, IDLE_BLOCKER);\n            updateState({\n              blockers\n            });\n          }\n        });\n        return;\n      }\n      return startNavigation(historyAction, location);\n    });\n    // Kick off initial data load if needed.  Use Pop to avoid modifying history\n    // Note we don't do any handling of lazy here.  For SPA's it'll get handled\n    // in the normal navigation flow.  For SSR it's expected that lazy modules are\n    // resolved prior to router creation since we can't go into a fallbackElement\n    // UI for SSR'd apps\n    if (!state.initialized) {\n      startNavigation(Action.Pop, state.location);\n    }\n    return router;\n  }\n  // Clean up a router and it's side effects\n  function dispose() {\n    if (unlistenHistory) {\n      unlistenHistory();\n    }\n    subscribers.clear();\n    pendingNavigationController && pendingNavigationController.abort();\n    state.fetchers.forEach((_, key) => deleteFetcher(key));\n    state.blockers.forEach((_, key) => deleteBlocker(key));\n  }\n  // Subscribe to state updates for the router\n  function subscribe(fn) {\n    subscribers.add(fn);\n    return () => subscribers.delete(fn);\n  }\n  // Update our state and notify the calling context of the change\n  function updateState(newState) {\n    state = _extends({}, state, newState);\n    subscribers.forEach(subscriber => subscriber(state));\n  }\n  // Complete a navigation returning the state.navigation back to the IDLE_NAVIGATION\n  // and setting state.[historyAction/location/matches] to the new route.\n  // - Location is a required param\n  // - Navigation will always be set to IDLE_NAVIGATION\n  // - Can pass any other state in newState\n  function completeNavigation(location, newState) {\n    var _location$state, _location$state2;\n    // Deduce if we're in a loading/actionReload state:\n    // - We have committed actionData in the store\n    // - The current navigation was a mutation submission\n    // - We're past the submitting state and into the loading state\n    // - The location being loaded is not the result of a redirect\n    let isActionReload = state.actionData != null && state.navigation.formMethod != null && isMutationMethod(state.navigation.formMethod) && state.navigation.state === \"loading\" && ((_location$state = location.state) == null ? void 0 : _location$state._isRedirect) !== true;\n    let actionData;\n    if (newState.actionData) {\n      if (Object.keys(newState.actionData).length > 0) {\n        actionData = newState.actionData;\n      } else {\n        // Empty actionData -> clear prior actionData due to an action error\n        actionData = null;\n      }\n    } else if (isActionReload) {\n      // Keep the current data if we're wrapping up the action reload\n      actionData = state.actionData;\n    } else {\n      // Clear actionData on any other completed navigations\n      actionData = null;\n    }\n    // Always preserve any existing loaderData from re-used routes\n    let loaderData = newState.loaderData ? mergeLoaderData(state.loaderData, newState.loaderData, newState.matches || [], newState.errors) : state.loaderData;\n    // On a successful navigation we can assume we got through all blockers\n    // so we can start fresh\n    let blockers = state.blockers;\n    if (blockers.size > 0) {\n      blockers = new Map(blockers);\n      blockers.forEach((_, k) => blockers.set(k, IDLE_BLOCKER));\n    }\n    // Always respect the user flag.  Otherwise don't reset on mutation\n    // submission navigations unless they redirect\n    let preventScrollReset = pendingPreventScrollReset === true || state.navigation.formMethod != null && isMutationMethod(state.navigation.formMethod) && ((_location$state2 = location.state) == null ? void 0 : _location$state2._isRedirect) !== true;\n    if (inFlightDataRoutes) {\n      dataRoutes = inFlightDataRoutes;\n      inFlightDataRoutes = undefined;\n    }\n    if (isUninterruptedRevalidation) ; else if (pendingAction === Action.Pop) ; else if (pendingAction === Action.Push) {\n      init.history.push(location, location.state);\n    } else if (pendingAction === Action.Replace) {\n      init.history.replace(location, location.state);\n    }\n    updateState(_extends({}, newState, {\n      actionData,\n      loaderData,\n      historyAction: pendingAction,\n      location,\n      initialized: true,\n      navigation: IDLE_NAVIGATION,\n      revalidation: \"idle\",\n      restoreScrollPosition: getSavedScrollPosition(location, newState.matches || state.matches),\n      preventScrollReset,\n      blockers\n    }));\n    // Reset stateful navigation vars\n    pendingAction = Action.Pop;\n    pendingPreventScrollReset = false;\n    isUninterruptedRevalidation = false;\n    isRevalidationRequired = false;\n    cancelledDeferredRoutes = [];\n    cancelledFetcherLoads = [];\n  }\n  // Trigger a navigation event, which can either be a numerical POP or a PUSH\n  // replace with an optional submission\n  async function navigate(to, opts) {\n    if (typeof to === \"number\") {\n      init.history.go(to);\n      return;\n    }\n    let normalizedPath = normalizeTo(state.location, state.matches, basename, future.v7_prependBasename, to, opts == null ? void 0 : opts.fromRouteId, opts == null ? void 0 : opts.relative);\n    let {\n      path,\n      submission,\n      error\n    } = normalizeNavigateOptions(future.v7_normalizeFormMethod, false, normalizedPath, opts);\n    let currentLocation = state.location;\n    let nextLocation = createLocation(state.location, path, opts && opts.state);\n    // When using navigate as a PUSH/REPLACE we aren't reading an already-encoded\n    // URL from window.location, so we need to encode it here so the behavior\n    // remains the same as POP and non-data-router usages.  new URL() does all\n    // the same encoding we'd get from a history.pushState/window.location read\n    // without having to touch history\n    nextLocation = _extends({}, nextLocation, init.history.encodeLocation(nextLocation));\n    let userReplace = opts && opts.replace != null ? opts.replace : undefined;\n    let historyAction = Action.Push;\n    if (userReplace === true) {\n      historyAction = Action.Replace;\n    } else if (userReplace === false) ; else if (submission != null && isMutationMethod(submission.formMethod) && submission.formAction === state.location.pathname + state.location.search) {\n      // By default on submissions to the current location we REPLACE so that\n      // users don't have to double-click the back button to get to the prior\n      // location.  If the user redirects to a different location from the\n      // action/loader this will be ignored and the redirect will be a PUSH\n      historyAction = Action.Replace;\n    }\n    let preventScrollReset = opts && \"preventScrollReset\" in opts ? opts.preventScrollReset === true : undefined;\n    let blockerKey = shouldBlockNavigation({\n      currentLocation,\n      nextLocation,\n      historyAction\n    });\n    if (blockerKey) {\n      // Put the blocker into a blocked state\n      updateBlocker(blockerKey, {\n        state: \"blocked\",\n        location: nextLocation,\n        proceed() {\n          updateBlocker(blockerKey, {\n            state: \"proceeding\",\n            proceed: undefined,\n            reset: undefined,\n            location: nextLocation\n          });\n          // Send the same navigation through\n          navigate(to, opts);\n        },\n        reset() {\n          let blockers = new Map(state.blockers);\n          blockers.set(blockerKey, IDLE_BLOCKER);\n          updateState({\n            blockers\n          });\n        }\n      });\n      return;\n    }\n    return await startNavigation(historyAction, nextLocation, {\n      submission,\n      // Send through the formData serialization error if we have one so we can\n      // render at the right error boundary after we match routes\n      pendingError: error,\n      preventScrollReset,\n      replace: opts && opts.replace\n    });\n  }\n  // Revalidate all current loaders.  If a navigation is in progress or if this\n  // is interrupted by a navigation, allow this to \"succeed\" by calling all\n  // loaders during the next loader round\n  function revalidate() {\n    interruptActiveLoads();\n    updateState({\n      revalidation: \"loading\"\n    });\n    // If we're currently submitting an action, we don't need to start a new\n    // navigation, we'll just let the follow up loader execution call all loaders\n    if (state.navigation.state === \"submitting\") {\n      return;\n    }\n    // If we're currently in an idle state, start a new navigation for the current\n    // action/location and mark it as uninterrupted, which will skip the history\n    // update in completeNavigation\n    if (state.navigation.state === \"idle\") {\n      startNavigation(state.historyAction, state.location, {\n        startUninterruptedRevalidation: true\n      });\n      return;\n    }\n    // Otherwise, if we're currently in a loading state, just start a new\n    // navigation to the navigation.location but do not trigger an uninterrupted\n    // revalidation so that history correctly updates once the navigation completes\n    startNavigation(pendingAction || state.historyAction, state.navigation.location, {\n      overrideNavigation: state.navigation\n    });\n  }\n  // Start a navigation to the given action/location.  Can optionally provide a\n  // overrideNavigation which will override the normalLoad in the case of a redirect\n  // navigation\n  async function startNavigation(historyAction, location, opts) {\n    // Abort any in-progress navigations and start a new one. Unset any ongoing\n    // uninterrupted revalidations unless told otherwise, since we want this\n    // new navigation to update history normally\n    pendingNavigationController && pendingNavigationController.abort();\n    pendingNavigationController = null;\n    pendingAction = historyAction;\n    isUninterruptedRevalidation = (opts && opts.startUninterruptedRevalidation) === true;\n    // Save the current scroll position every time we start a new navigation,\n    // and track whether we should reset scroll on completion\n    saveScrollPosition(state.location, state.matches);\n    pendingPreventScrollReset = (opts && opts.preventScrollReset) === true;\n    let routesToUse = inFlightDataRoutes || dataRoutes;\n    let loadingNavigation = opts && opts.overrideNavigation;\n    let matches = matchRoutes(routesToUse, location, basename);\n    // Short circuit with a 404 on the root error boundary if we match nothing\n    if (!matches) {\n      let error = getInternalRouterError(404, {\n        pathname: location.pathname\n      });\n      let {\n        matches: notFoundMatches,\n        route\n      } = getShortCircuitMatches(routesToUse);\n      // Cancel all pending deferred on 404s since we don't keep any routes\n      cancelActiveDeferreds();\n      completeNavigation(location, {\n        matches: notFoundMatches,\n        loaderData: {},\n        errors: {\n          [route.id]: error\n        }\n      });\n      return;\n    }\n    // Short circuit if it's only a hash change and not a revalidation or\n    // mutation submission.\n    //\n    // Ignore on initial page loads because since the initial load will always\n    // be \"same hash\".  For example, on /page#hash and submit a <Form method=\"post\">\n    // which will default to a navigation to /page\n    if (state.initialized && !isRevalidationRequired && isHashChangeOnly(state.location, location) && !(opts && opts.submission && isMutationMethod(opts.submission.formMethod))) {\n      completeNavigation(location, {\n        matches\n      });\n      return;\n    }\n    // Create a controller/Request for this navigation\n    pendingNavigationController = new AbortController();\n    let request = createClientSideRequest(init.history, location, pendingNavigationController.signal, opts && opts.submission);\n    let pendingActionData;\n    let pendingError;\n    if (opts && opts.pendingError) {\n      // If we have a pendingError, it means the user attempted a GET submission\n      // with binary FormData so assign here and skip to handleLoaders.  That\n      // way we handle calling loaders above the boundary etc.  It's not really\n      // different from an actionError in that sense.\n      pendingError = {\n        [findNearestBoundary(matches).route.id]: opts.pendingError\n      };\n    } else if (opts && opts.submission && isMutationMethod(opts.submission.formMethod)) {\n      // Call action if we received an action submission\n      let actionOutput = await handleAction(request, location, opts.submission, matches, {\n        replace: opts.replace\n      });\n      if (actionOutput.shortCircuited) {\n        return;\n      }\n      pendingActionData = actionOutput.pendingActionData;\n      pendingError = actionOutput.pendingActionError;\n      loadingNavigation = getLoadingNavigation(location, opts.submission);\n      // Create a GET request for the loaders\n      request = new Request(request.url, {\n        signal: request.signal\n      });\n    }\n    // Call loaders\n    let {\n      shortCircuited,\n      loaderData,\n      errors\n    } = await handleLoaders(request, location, matches, loadingNavigation, opts && opts.submission, opts && opts.fetcherSubmission, opts && opts.replace, pendingActionData, pendingError);\n    if (shortCircuited) {\n      return;\n    }\n    // Clean up now that the action/loaders have completed.  Don't clean up if\n    // we short circuited because pendingNavigationController will have already\n    // been assigned to a new controller for the next navigation\n    pendingNavigationController = null;\n    completeNavigation(location, _extends({\n      matches\n    }, pendingActionData ? {\n      actionData: pendingActionData\n    } : {}, {\n      loaderData,\n      errors\n    }));\n  }\n  // Call the action matched by the leaf route for this navigation and handle\n  // redirects/errors\n  async function handleAction(request, location, submission, matches, opts) {\n    if (opts === void 0) {\n      opts = {};\n    }\n    interruptActiveLoads();\n    // Put us in a submitting state\n    let navigation = getSubmittingNavigation(location, submission);\n    updateState({\n      navigation\n    });\n    // Call our action and get the result\n    let result;\n    let actionMatch = getTargetMatch(matches, location);\n    if (!actionMatch.route.action && !actionMatch.route.lazy) {\n      result = {\n        type: ResultType.error,\n        error: getInternalRouterError(405, {\n          method: request.method,\n          pathname: location.pathname,\n          routeId: actionMatch.route.id\n        })\n      };\n    } else {\n      result = await callLoaderOrAction(\"action\", request, actionMatch, matches, manifest, mapRouteProperties, basename);\n      if (request.signal.aborted) {\n        return {\n          shortCircuited: true\n        };\n      }\n    }\n    if (isRedirectResult(result)) {\n      let replace;\n      if (opts && opts.replace != null) {\n        replace = opts.replace;\n      } else {\n        // If the user didn't explicity indicate replace behavior, replace if\n        // we redirected to the exact same location we're currently at to avoid\n        // double back-buttons\n        replace = result.location === state.location.pathname + state.location.search;\n      }\n      await startRedirectNavigation(state, result, {\n        submission,\n        replace\n      });\n      return {\n        shortCircuited: true\n      };\n    }\n    if (isErrorResult(result)) {\n      // Store off the pending error - we use it to determine which loaders\n      // to call and will commit it when we complete the navigation\n      let boundaryMatch = findNearestBoundary(matches, actionMatch.route.id);\n      // By default, all submissions are REPLACE navigations, but if the\n      // action threw an error that'll be rendered in an errorElement, we fall\n      // back to PUSH so that the user can use the back button to get back to\n      // the pre-submission form location to try again\n      if ((opts && opts.replace) !== true) {\n        pendingAction = Action.Push;\n      }\n      return {\n        // Send back an empty object we can use to clear out any prior actionData\n        pendingActionData: {},\n        pendingActionError: {\n          [boundaryMatch.route.id]: result.error\n        }\n      };\n    }\n    if (isDeferredResult(result)) {\n      throw getInternalRouterError(400, {\n        type: \"defer-action\"\n      });\n    }\n    return {\n      pendingActionData: {\n        [actionMatch.route.id]: result.data\n      }\n    };\n  }\n  // Call all applicable loaders for the given matches, handling redirects,\n  // errors, etc.\n  async function handleLoaders(request, location, matches, overrideNavigation, submission, fetcherSubmission, replace, pendingActionData, pendingError) {\n    // Figure out the right navigation we want to use for data loading\n    let loadingNavigation = overrideNavigation || getLoadingNavigation(location, submission);\n    // If this was a redirect from an action we don't have a \"submission\" but\n    // we have it on the loading navigation so use that if available\n    let activeSubmission = submission || fetcherSubmission || getSubmissionFromNavigation(loadingNavigation);\n    let routesToUse = inFlightDataRoutes || dataRoutes;\n    let [matchesToLoad, revalidatingFetchers] = getMatchesToLoad(init.history, state, matches, activeSubmission, location, isRevalidationRequired, cancelledDeferredRoutes, cancelledFetcherLoads, fetchLoadMatches, fetchRedirectIds, routesToUse, basename, pendingActionData, pendingError);\n    // Cancel pending deferreds for no-longer-matched routes or routes we're\n    // about to reload.  Note that if this is an action reload we would have\n    // already cancelled all pending deferreds so this would be a no-op\n    cancelActiveDeferreds(routeId => !(matches && matches.some(m => m.route.id === routeId)) || matchesToLoad && matchesToLoad.some(m => m.route.id === routeId));\n    // Short circuit if we have no loaders to run\n    if (matchesToLoad.length === 0 && revalidatingFetchers.length === 0) {\n      let updatedFetchers = markFetchRedirectsDone();\n      completeNavigation(location, _extends({\n        matches,\n        loaderData: {},\n        // Commit pending error if we're short circuiting\n        errors: pendingError || null\n      }, pendingActionData ? {\n        actionData: pendingActionData\n      } : {}, updatedFetchers ? {\n        fetchers: new Map(state.fetchers)\n      } : {}));\n      return {\n        shortCircuited: true\n      };\n    }\n    // If this is an uninterrupted revalidation, we remain in our current idle\n    // state.  If not, we need to switch to our loading state and load data,\n    // preserving any new action data or existing action data (in the case of\n    // a revalidation interrupting an actionReload)\n    if (!isUninterruptedRevalidation) {\n      revalidatingFetchers.forEach(rf => {\n        let fetcher = state.fetchers.get(rf.key);\n        let revalidatingFetcher = getLoadingFetcher(undefined, fetcher ? fetcher.data : undefined);\n        state.fetchers.set(rf.key, revalidatingFetcher);\n      });\n      let actionData = pendingActionData || state.actionData;\n      updateState(_extends({\n        navigation: loadingNavigation\n      }, actionData ? Object.keys(actionData).length === 0 ? {\n        actionData: null\n      } : {\n        actionData\n      } : {}, revalidatingFetchers.length > 0 ? {\n        fetchers: new Map(state.fetchers)\n      } : {}));\n    }\n    pendingNavigationLoadId = ++incrementingLoadId;\n    revalidatingFetchers.forEach(rf => {\n      if (fetchControllers.has(rf.key)) {\n        abortFetcher(rf.key);\n      }\n      if (rf.controller) {\n        // Fetchers use an independent AbortController so that aborting a fetcher\n        // (via deleteFetcher) does not abort the triggering navigation that\n        // triggered the revalidation\n        fetchControllers.set(rf.key, rf.controller);\n      }\n    });\n    // Proxy navigation abort through to revalidation fetchers\n    let abortPendingFetchRevalidations = () => revalidatingFetchers.forEach(f => abortFetcher(f.key));\n    if (pendingNavigationController) {\n      pendingNavigationController.signal.addEventListener(\"abort\", abortPendingFetchRevalidations);\n    }\n    let {\n      results,\n      loaderResults,\n      fetcherResults\n    } = await callLoadersAndMaybeResolveData(state.matches, matches, matchesToLoad, revalidatingFetchers, request);\n    if (request.signal.aborted) {\n      return {\n        shortCircuited: true\n      };\n    }\n    // Clean up _after_ loaders have completed.  Don't clean up if we short\n    // circuited because fetchControllers would have been aborted and\n    // reassigned to new controllers for the next navigation\n    if (pendingNavigationController) {\n      pendingNavigationController.signal.removeEventListener(\"abort\", abortPendingFetchRevalidations);\n    }\n    revalidatingFetchers.forEach(rf => fetchControllers.delete(rf.key));\n    // If any loaders returned a redirect Response, start a new REPLACE navigation\n    let redirect = findRedirect(results);\n    if (redirect) {\n      await startRedirectNavigation(state, redirect, {\n        replace\n      });\n      return {\n        shortCircuited: true\n      };\n    }\n    // Process and commit output from loaders\n    let {\n      loaderData,\n      errors\n    } = processLoaderData(state, matches, matchesToLoad, loaderResults, pendingError, revalidatingFetchers, fetcherResults, activeDeferreds);\n    // Wire up subscribers to update loaderData as promises settle\n    activeDeferreds.forEach((deferredData, routeId) => {\n      deferredData.subscribe(aborted => {\n        // Note: No need to updateState here since the TrackedPromise on\n        // loaderData is stable across resolve/reject\n        // Remove this instance if we were aborted or if promises have settled\n        if (aborted || deferredData.done) {\n          activeDeferreds.delete(routeId);\n        }\n      });\n    });\n    let updatedFetchers = markFetchRedirectsDone();\n    let didAbortFetchLoads = abortStaleFetchLoads(pendingNavigationLoadId);\n    let shouldUpdateFetchers = updatedFetchers || didAbortFetchLoads || revalidatingFetchers.length > 0;\n    return _extends({\n      loaderData,\n      errors\n    }, shouldUpdateFetchers ? {\n      fetchers: new Map(state.fetchers)\n    } : {});\n  }\n  function getFetcher(key) {\n    return state.fetchers.get(key) || IDLE_FETCHER;\n  }\n  // Trigger a fetcher load/submit for the given fetcher key\n  function fetch(key, routeId, href, opts) {\n    if (isServer) {\n      throw new Error(\"router.fetch() was called during the server render, but it shouldn't be. \" + \"You are likely calling a useFetcher() method in the body of your component. \" + \"Try moving it to a useEffect or a callback.\");\n    }\n    if (fetchControllers.has(key)) abortFetcher(key);\n    let routesToUse = inFlightDataRoutes || dataRoutes;\n    let normalizedPath = normalizeTo(state.location, state.matches, basename, future.v7_prependBasename, href, routeId, opts == null ? void 0 : opts.relative);\n    let matches = matchRoutes(routesToUse, normalizedPath, basename);\n    if (!matches) {\n      setFetcherError(key, routeId, getInternalRouterError(404, {\n        pathname: normalizedPath\n      }));\n      return;\n    }\n    let {\n      path,\n      submission,\n      error\n    } = normalizeNavigateOptions(future.v7_normalizeFormMethod, true, normalizedPath, opts);\n    if (error) {\n      setFetcherError(key, routeId, error);\n      return;\n    }\n    let match = getTargetMatch(matches, path);\n    pendingPreventScrollReset = (opts && opts.preventScrollReset) === true;\n    if (submission && isMutationMethod(submission.formMethod)) {\n      handleFetcherAction(key, routeId, path, match, matches, submission);\n      return;\n    }\n    // Store off the match so we can call it's shouldRevalidate on subsequent\n    // revalidations\n    fetchLoadMatches.set(key, {\n      routeId,\n      path\n    });\n    handleFetcherLoader(key, routeId, path, match, matches, submission);\n  }\n  // Call the action for the matched fetcher.submit(), and then handle redirects,\n  // errors, and revalidation\n  async function handleFetcherAction(key, routeId, path, match, requestMatches, submission) {\n    interruptActiveLoads();\n    fetchLoadMatches.delete(key);\n    if (!match.route.action && !match.route.lazy) {\n      let error = getInternalRouterError(405, {\n        method: submission.formMethod,\n        pathname: path,\n        routeId: routeId\n      });\n      setFetcherError(key, routeId, error);\n      return;\n    }\n    // Put this fetcher into it's submitting state\n    let existingFetcher = state.fetchers.get(key);\n    let fetcher = getSubmittingFetcher(submission, existingFetcher);\n    state.fetchers.set(key, fetcher);\n    updateState({\n      fetchers: new Map(state.fetchers)\n    });\n    // Call the action for the fetcher\n    let abortController = new AbortController();\n    let fetchRequest = createClientSideRequest(init.history, path, abortController.signal, submission);\n    fetchControllers.set(key, abortController);\n    let actionResult = await callLoaderOrAction(\"action\", fetchRequest, match, requestMatches, manifest, mapRouteProperties, basename);\n    if (fetchRequest.signal.aborted) {\n      // We can delete this so long as we weren't aborted by ou our own fetcher\n      // re-submit which would have put _new_ controller is in fetchControllers\n      if (fetchControllers.get(key) === abortController) {\n        fetchControllers.delete(key);\n      }\n      return;\n    }\n    if (isRedirectResult(actionResult)) {\n      fetchControllers.delete(key);\n      fetchRedirectIds.add(key);\n      let loadingFetcher = getLoadingFetcher(submission);\n      state.fetchers.set(key, loadingFetcher);\n      updateState({\n        fetchers: new Map(state.fetchers)\n      });\n      return startRedirectNavigation(state, actionResult, {\n        submission,\n        isFetchActionRedirect: true\n      });\n    }\n    // Process any non-redirect errors thrown\n    if (isErrorResult(actionResult)) {\n      setFetcherError(key, routeId, actionResult.error);\n      return;\n    }\n    if (isDeferredResult(actionResult)) {\n      throw getInternalRouterError(400, {\n        type: \"defer-action\"\n      });\n    }\n    // Start the data load for current matches, or the next location if we're\n    // in the middle of a navigation\n    let nextLocation = state.navigation.location || state.location;\n    let revalidationRequest = createClientSideRequest(init.history, nextLocation, abortController.signal);\n    let routesToUse = inFlightDataRoutes || dataRoutes;\n    let matches = state.navigation.state !== \"idle\" ? matchRoutes(routesToUse, state.navigation.location, basename) : state.matches;\n    invariant(matches, \"Didn't find any matches after fetcher action\");\n    let loadId = ++incrementingLoadId;\n    fetchReloadIds.set(key, loadId);\n    let loadFetcher = getLoadingFetcher(submission, actionResult.data);\n    state.fetchers.set(key, loadFetcher);\n    let [matchesToLoad, revalidatingFetchers] = getMatchesToLoad(init.history, state, matches, submission, nextLocation, isRevalidationRequired, cancelledDeferredRoutes, cancelledFetcherLoads, fetchLoadMatches, fetchRedirectIds, routesToUse, basename, {\n      [match.route.id]: actionResult.data\n    }, undefined // No need to send through errors since we short circuit above\n    );\n    // Put all revalidating fetchers into the loading state, except for the\n    // current fetcher which we want to keep in it's current loading state which\n    // contains it's action submission info + action data\n    revalidatingFetchers.filter(rf => rf.key !== key).forEach(rf => {\n      let staleKey = rf.key;\n      let existingFetcher = state.fetchers.get(staleKey);\n      let revalidatingFetcher = getLoadingFetcher(undefined, existingFetcher ? existingFetcher.data : undefined);\n      state.fetchers.set(staleKey, revalidatingFetcher);\n      if (fetchControllers.has(staleKey)) {\n        abortFetcher(staleKey);\n      }\n      if (rf.controller) {\n        fetchControllers.set(staleKey, rf.controller);\n      }\n    });\n    updateState({\n      fetchers: new Map(state.fetchers)\n    });\n    let abortPendingFetchRevalidations = () => revalidatingFetchers.forEach(rf => abortFetcher(rf.key));\n    abortController.signal.addEventListener(\"abort\", abortPendingFetchRevalidations);\n    let {\n      results,\n      loaderResults,\n      fetcherResults\n    } = await callLoadersAndMaybeResolveData(state.matches, matches, matchesToLoad, revalidatingFetchers, revalidationRequest);\n    if (abortController.signal.aborted) {\n      return;\n    }\n    abortController.signal.removeEventListener(\"abort\", abortPendingFetchRevalidations);\n    fetchReloadIds.delete(key);\n    fetchControllers.delete(key);\n    revalidatingFetchers.forEach(r => fetchControllers.delete(r.key));\n    let redirect = findRedirect(results);\n    if (redirect) {\n      return startRedirectNavigation(state, redirect);\n    }\n    // Process and commit output from loaders\n    let {\n      loaderData,\n      errors\n    } = processLoaderData(state, state.matches, matchesToLoad, loaderResults, undefined, revalidatingFetchers, fetcherResults, activeDeferreds);\n    // Since we let revalidations complete even if the submitting fetcher was\n    // deleted, only put it back to idle if it hasn't been deleted\n    if (state.fetchers.has(key)) {\n      let doneFetcher = getDoneFetcher(actionResult.data);\n      state.fetchers.set(key, doneFetcher);\n    }\n    let didAbortFetchLoads = abortStaleFetchLoads(loadId);\n    // If we are currently in a navigation loading state and this fetcher is\n    // more recent than the navigation, we want the newer data so abort the\n    // navigation and complete it with the fetcher data\n    if (state.navigation.state === \"loading\" && loadId > pendingNavigationLoadId) {\n      invariant(pendingAction, \"Expected pending action\");\n      pendingNavigationController && pendingNavigationController.abort();\n      completeNavigation(state.navigation.location, {\n        matches,\n        loaderData,\n        errors,\n        fetchers: new Map(state.fetchers)\n      });\n    } else {\n      // otherwise just update with the fetcher data, preserving any existing\n      // loaderData for loaders that did not need to reload.  We have to\n      // manually merge here since we aren't going through completeNavigation\n      updateState(_extends({\n        errors,\n        loaderData: mergeLoaderData(state.loaderData, loaderData, matches, errors)\n      }, didAbortFetchLoads || revalidatingFetchers.length > 0 ? {\n        fetchers: new Map(state.fetchers)\n      } : {}));\n      isRevalidationRequired = false;\n    }\n  }\n  // Call the matched loader for fetcher.load(), handling redirects, errors, etc.\n  async function handleFetcherLoader(key, routeId, path, match, matches, submission) {\n    let existingFetcher = state.fetchers.get(key);\n    // Put this fetcher into it's loading state\n    let loadingFetcher = getLoadingFetcher(submission, existingFetcher ? existingFetcher.data : undefined);\n    state.fetchers.set(key, loadingFetcher);\n    updateState({\n      fetchers: new Map(state.fetchers)\n    });\n    // Call the loader for this fetcher route match\n    let abortController = new AbortController();\n    let fetchRequest = createClientSideRequest(init.history, path, abortController.signal);\n    fetchControllers.set(key, abortController);\n    let result = await callLoaderOrAction(\"loader\", fetchRequest, match, matches, manifest, mapRouteProperties, basename);\n    // Deferred isn't supported for fetcher loads, await everything and treat it\n    // as a normal load.  resolveDeferredData will return undefined if this\n    // fetcher gets aborted, so we just leave result untouched and short circuit\n    // below if that happens\n    if (isDeferredResult(result)) {\n      result = (await resolveDeferredData(result, fetchRequest.signal, true)) || result;\n    }\n    // We can delete this so long as we weren't aborted by our our own fetcher\n    // re-load which would have put _new_ controller is in fetchControllers\n    if (fetchControllers.get(key) === abortController) {\n      fetchControllers.delete(key);\n    }\n    if (fetchRequest.signal.aborted) {\n      return;\n    }\n    // If the loader threw a redirect Response, start a new REPLACE navigation\n    if (isRedirectResult(result)) {\n      fetchRedirectIds.add(key);\n      await startRedirectNavigation(state, result);\n      return;\n    }\n    // Process any non-redirect errors thrown\n    if (isErrorResult(result)) {\n      let boundaryMatch = findNearestBoundary(state.matches, routeId);\n      state.fetchers.delete(key);\n      // TODO: In remix, this would reset to IDLE_NAVIGATION if it was a catch -\n      // do we need to behave any differently with our non-redirect errors?\n      // What if it was a non-redirect Response?\n      updateState({\n        fetchers: new Map(state.fetchers),\n        errors: {\n          [boundaryMatch.route.id]: result.error\n        }\n      });\n      return;\n    }\n    invariant(!isDeferredResult(result), \"Unhandled fetcher deferred data\");\n    // Put the fetcher back into an idle state\n    let doneFetcher = getDoneFetcher(result.data);\n    state.fetchers.set(key, doneFetcher);\n    updateState({\n      fetchers: new Map(state.fetchers)\n    });\n  }\n  /**\n   * Utility function to handle redirects returned from an action or loader.\n   * Normally, a redirect \"replaces\" the navigation that triggered it.  So, for\n   * example:\n   *\n   *  - user is on /a\n   *  - user clicks a link to /b\n   *  - loader for /b redirects to /c\n   *\n   * In a non-JS app the browser would track the in-flight navigation to /b and\n   * then replace it with /c when it encountered the redirect response.  In\n   * the end it would only ever update the URL bar with /c.\n   *\n   * In client-side routing using pushState/replaceState, we aim to emulate\n   * this behavior and we also do not update history until the end of the\n   * navigation (including processed redirects).  This means that we never\n   * actually touch history until we've processed redirects, so we just use\n   * the history action from the original navigation (PUSH or REPLACE).\n   */\n  async function startRedirectNavigation(state, redirect, _temp) {\n    let {\n      submission,\n      replace,\n      isFetchActionRedirect\n    } = _temp === void 0 ? {} : _temp;\n    if (redirect.revalidate) {\n      isRevalidationRequired = true;\n    }\n    let redirectLocation = createLocation(state.location, redirect.location, // TODO: This can be removed once we get rid of useTransition in Remix v2\n    _extends({\n      _isRedirect: true\n    }, isFetchActionRedirect ? {\n      _isFetchActionRedirect: true\n    } : {}));\n    invariant(redirectLocation, \"Expected a location on the redirect navigation\");\n    // Check if this an absolute external redirect that goes to a new origin\n    if (ABSOLUTE_URL_REGEX.test(redirect.location) && isBrowser) {\n      let url = init.history.createURL(redirect.location);\n      let isDifferentBasename = stripBasename(url.pathname, basename) == null;\n      if (routerWindow.location.origin !== url.origin || isDifferentBasename) {\n        if (replace) {\n          routerWindow.location.replace(redirect.location);\n        } else {\n          routerWindow.location.assign(redirect.location);\n        }\n        return;\n      }\n    }\n    // There's no need to abort on redirects, since we don't detect the\n    // redirect until the action/loaders have settled\n    pendingNavigationController = null;\n    let redirectHistoryAction = replace === true ? Action.Replace : Action.Push;\n    // Use the incoming submission if provided, fallback on the active one in\n    // state.navigation\n    let activeSubmission = submission || getSubmissionFromNavigation(state.navigation);\n    // If this was a 307/308 submission we want to preserve the HTTP method and\n    // re-submit the GET/POST/PUT/PATCH/DELETE as a submission navigation to the\n    // redirected location\n    if (redirectPreserveMethodStatusCodes.has(redirect.status) && activeSubmission && isMutationMethod(activeSubmission.formMethod)) {\n      await startNavigation(redirectHistoryAction, redirectLocation, {\n        submission: _extends({}, activeSubmission, {\n          formAction: redirect.location\n        }),\n        // Preserve this flag across redirects\n        preventScrollReset: pendingPreventScrollReset\n      });\n    } else if (isFetchActionRedirect) {\n      // For a fetch action redirect, we kick off a new loading navigation\n      // without the fetcher submission, but we send it along for shouldRevalidate\n      await startNavigation(redirectHistoryAction, redirectLocation, {\n        overrideNavigation: getLoadingNavigation(redirectLocation),\n        fetcherSubmission: activeSubmission,\n        // Preserve this flag across redirects\n        preventScrollReset: pendingPreventScrollReset\n      });\n    } else {\n      // If we have a submission, we will preserve it through the redirect navigation\n      let overrideNavigation = getLoadingNavigation(redirectLocation, activeSubmission);\n      await startNavigation(redirectHistoryAction, redirectLocation, {\n        overrideNavigation,\n        // Preserve this flag across redirects\n        preventScrollReset: pendingPreventScrollReset\n      });\n    }\n  }\n  async function callLoadersAndMaybeResolveData(currentMatches, matches, matchesToLoad, fetchersToLoad, request) {\n    // Call all navigation loaders and revalidating fetcher loaders in parallel,\n    // then slice off the results into separate arrays so we can handle them\n    // accordingly\n    let results = await Promise.all([...matchesToLoad.map(match => callLoaderOrAction(\"loader\", request, match, matches, manifest, mapRouteProperties, basename)), ...fetchersToLoad.map(f => {\n      if (f.matches && f.match && f.controller) {\n        return callLoaderOrAction(\"loader\", createClientSideRequest(init.history, f.path, f.controller.signal), f.match, f.matches, manifest, mapRouteProperties, basename);\n      } else {\n        let error = {\n          type: ResultType.error,\n          error: getInternalRouterError(404, {\n            pathname: f.path\n          })\n        };\n        return error;\n      }\n    })]);\n    let loaderResults = results.slice(0, matchesToLoad.length);\n    let fetcherResults = results.slice(matchesToLoad.length);\n    await Promise.all([resolveDeferredResults(currentMatches, matchesToLoad, loaderResults, loaderResults.map(() => request.signal), false, state.loaderData), resolveDeferredResults(currentMatches, fetchersToLoad.map(f => f.match), fetcherResults, fetchersToLoad.map(f => f.controller ? f.controller.signal : null), true)]);\n    return {\n      results,\n      loaderResults,\n      fetcherResults\n    };\n  }\n  function interruptActiveLoads() {\n    // Every interruption triggers a revalidation\n    isRevalidationRequired = true;\n    // Cancel pending route-level deferreds and mark cancelled routes for\n    // revalidation\n    cancelledDeferredRoutes.push(...cancelActiveDeferreds());\n    // Abort in-flight fetcher loads\n    fetchLoadMatches.forEach((_, key) => {\n      if (fetchControllers.has(key)) {\n        cancelledFetcherLoads.push(key);\n        abortFetcher(key);\n      }\n    });\n  }\n  function setFetcherError(key, routeId, error) {\n    let boundaryMatch = findNearestBoundary(state.matches, routeId);\n    deleteFetcher(key);\n    updateState({\n      errors: {\n        [boundaryMatch.route.id]: error\n      },\n      fetchers: new Map(state.fetchers)\n    });\n  }\n  function deleteFetcher(key) {\n    let fetcher = state.fetchers.get(key);\n    // Don't abort the controller if this is a deletion of a fetcher.submit()\n    // in it's loading phase since - we don't want to abort the corresponding\n    // revalidation and want them to complete and land\n    if (fetchControllers.has(key) && !(fetcher && fetcher.state === \"loading\" && fetchReloadIds.has(key))) {\n      abortFetcher(key);\n    }\n    fetchLoadMatches.delete(key);\n    fetchReloadIds.delete(key);\n    fetchRedirectIds.delete(key);\n    state.fetchers.delete(key);\n  }\n  function abortFetcher(key) {\n    let controller = fetchControllers.get(key);\n    invariant(controller, \"Expected fetch controller: \" + key);\n    controller.abort();\n    fetchControllers.delete(key);\n  }\n  function markFetchersDone(keys) {\n    for (let key of keys) {\n      let fetcher = getFetcher(key);\n      let doneFetcher = getDoneFetcher(fetcher.data);\n      state.fetchers.set(key, doneFetcher);\n    }\n  }\n  function markFetchRedirectsDone() {\n    let doneKeys = [];\n    let updatedFetchers = false;\n    for (let key of fetchRedirectIds) {\n      let fetcher = state.fetchers.get(key);\n      invariant(fetcher, \"Expected fetcher: \" + key);\n      if (fetcher.state === \"loading\") {\n        fetchRedirectIds.delete(key);\n        doneKeys.push(key);\n        updatedFetchers = true;\n      }\n    }\n    markFetchersDone(doneKeys);\n    return updatedFetchers;\n  }\n  function abortStaleFetchLoads(landedId) {\n    let yeetedKeys = [];\n    for (let [key, id] of fetchReloadIds) {\n      if (id < landedId) {\n        let fetcher = state.fetchers.get(key);\n        invariant(fetcher, \"Expected fetcher: \" + key);\n        if (fetcher.state === \"loading\") {\n          abortFetcher(key);\n          fetchReloadIds.delete(key);\n          yeetedKeys.push(key);\n        }\n      }\n    }\n    markFetchersDone(yeetedKeys);\n    return yeetedKeys.length > 0;\n  }\n  function getBlocker(key, fn) {\n    let blocker = state.blockers.get(key) || IDLE_BLOCKER;\n    if (blockerFunctions.get(key) !== fn) {\n      blockerFunctions.set(key, fn);\n    }\n    return blocker;\n  }\n  function deleteBlocker(key) {\n    state.blockers.delete(key);\n    blockerFunctions.delete(key);\n  }\n  // Utility function to update blockers, ensuring valid state transitions\n  function updateBlocker(key, newBlocker) {\n    let blocker = state.blockers.get(key) || IDLE_BLOCKER;\n    // Poor mans state machine :)\n    // https://mermaid.live/edit#pako:eNqVkc9OwzAMxl8l8nnjAYrEtDIOHEBIgwvKJTReGy3_lDpIqO27k6awMG0XcrLlnz87nwdonESogKXXBuE79rq75XZO3-yHds0RJVuv70YrPlUrCEe2HfrORS3rubqZfuhtpg5C9wk5tZ4VKcRUq88q9Z8RS0-48cE1iHJkL0ugbHuFLus9L6spZy8nX9MP2CNdomVaposqu3fGayT8T8-jJQwhepo_UtpgBQaDEUom04dZhAN1aJBDlUKJBxE1ceB2Smj0Mln-IBW5AFU2dwUiktt_2Qaq2dBfaKdEup85UV7Yd-dKjlnkabl2Pvr0DTkTreM\n    invariant(blocker.state === \"unblocked\" && newBlocker.state === \"blocked\" || blocker.state === \"blocked\" && newBlocker.state === \"blocked\" || blocker.state === \"blocked\" && newBlocker.state === \"proceeding\" || blocker.state === \"blocked\" && newBlocker.state === \"unblocked\" || blocker.state === \"proceeding\" && newBlocker.state === \"unblocked\", \"Invalid blocker state transition: \" + blocker.state + \" -> \" + newBlocker.state);\n    let blockers = new Map(state.blockers);\n    blockers.set(key, newBlocker);\n    updateState({\n      blockers\n    });\n  }\n  function shouldBlockNavigation(_ref2) {\n    let {\n      currentLocation,\n      nextLocation,\n      historyAction\n    } = _ref2;\n    if (blockerFunctions.size === 0) {\n      return;\n    }\n    // We ony support a single active blocker at the moment since we don't have\n    // any compelling use cases for multi-blocker yet\n    if (blockerFunctions.size > 1) {\n      warning(false, \"A router only supports one blocker at a time\");\n    }\n    let entries = Array.from(blockerFunctions.entries());\n    let [blockerKey, blockerFunction] = entries[entries.length - 1];\n    let blocker = state.blockers.get(blockerKey);\n    if (blocker && blocker.state === \"proceeding\") {\n      // If the blocker is currently proceeding, we don't need to re-check\n      // it and can let this navigation continue\n      return;\n    }\n    // At this point, we know we're unblocked/blocked so we need to check the\n    // user-provided blocker function\n    if (blockerFunction({\n      currentLocation,\n      nextLocation,\n      historyAction\n    })) {\n      return blockerKey;\n    }\n  }\n  function cancelActiveDeferreds(predicate) {\n    let cancelledRouteIds = [];\n    activeDeferreds.forEach((dfd, routeId) => {\n      if (!predicate || predicate(routeId)) {\n        // Cancel the deferred - but do not remove from activeDeferreds here -\n        // we rely on the subscribers to do that so our tests can assert proper\n        // cleanup via _internalActiveDeferreds\n        dfd.cancel();\n        cancelledRouteIds.push(routeId);\n        activeDeferreds.delete(routeId);\n      }\n    });\n    return cancelledRouteIds;\n  }\n  // Opt in to capturing and reporting scroll positions during navigations,\n  // used by the <ScrollRestoration> component\n  function enableScrollRestoration(positions, getPosition, getKey) {\n    savedScrollPositions = positions;\n    getScrollPosition = getPosition;\n    getScrollRestorationKey = getKey || null;\n    // Perform initial hydration scroll restoration, since we miss the boat on\n    // the initial updateState() because we've not yet rendered <ScrollRestoration/>\n    // and therefore have no savedScrollPositions available\n    if (!initialScrollRestored && state.navigation === IDLE_NAVIGATION) {\n      initialScrollRestored = true;\n      let y = getSavedScrollPosition(state.location, state.matches);\n      if (y != null) {\n        updateState({\n          restoreScrollPosition: y\n        });\n      }\n    }\n    return () => {\n      savedScrollPositions = null;\n      getScrollPosition = null;\n      getScrollRestorationKey = null;\n    };\n  }\n  function getScrollKey(location, matches) {\n    if (getScrollRestorationKey) {\n      let key = getScrollRestorationKey(location, matches.map(m => createUseMatchesMatch(m, state.loaderData)));\n      return key || location.key;\n    }\n    return location.key;\n  }\n  function saveScrollPosition(location, matches) {\n    if (savedScrollPositions && getScrollPosition) {\n      let key = getScrollKey(location, matches);\n      savedScrollPositions[key] = getScrollPosition();\n    }\n  }\n  function getSavedScrollPosition(location, matches) {\n    if (savedScrollPositions) {\n      let key = getScrollKey(location, matches);\n      let y = savedScrollPositions[key];\n      if (typeof y === \"number\") {\n        return y;\n      }\n    }\n    return null;\n  }\n  function _internalSetRoutes(newRoutes) {\n    manifest = {};\n    inFlightDataRoutes = convertRoutesToDataRoutes(newRoutes, mapRouteProperties, undefined, manifest);\n  }\n  router = {\n    get basename() {\n      return basename;\n    },\n    get state() {\n      return state;\n    },\n    get routes() {\n      return dataRoutes;\n    },\n    initialize,\n    subscribe,\n    enableScrollRestoration,\n    navigate,\n    fetch,\n    revalidate,\n    // Passthrough to history-aware createHref used by useHref so we get proper\n    // hash-aware URLs in DOM paths\n    createHref: to => init.history.createHref(to),\n    encodeLocation: to => init.history.encodeLocation(to),\n    getFetcher,\n    deleteFetcher,\n    dispose,\n    getBlocker,\n    deleteBlocker,\n    _internalFetchControllers: fetchControllers,\n    _internalActiveDeferreds: activeDeferreds,\n    // TODO: Remove setRoutes, it's temporary to avoid dealing with\n    // updating the tree while validating the update algorithm.\n    _internalSetRoutes\n  };\n  return router;\n}\n//#endregion\n////////////////////////////////////////////////////////////////////////////////\n//#region createStaticHandler\n////////////////////////////////////////////////////////////////////////////////\nconst UNSAFE_DEFERRED_SYMBOL = Symbol(\"deferred\");\nfunction createStaticHandler(routes, opts) {\n  invariant(routes.length > 0, \"You must provide a non-empty routes array to createStaticHandler\");\n  let manifest = {};\n  let basename = (opts ? opts.basename : null) || \"/\";\n  let mapRouteProperties;\n  if (opts != null && opts.mapRouteProperties) {\n    mapRouteProperties = opts.mapRouteProperties;\n  } else if (opts != null && opts.detectErrorBoundary) {\n    // If they are still using the deprecated version, wrap it with the new API\n    let detectErrorBoundary = opts.detectErrorBoundary;\n    mapRouteProperties = route => ({\n      hasErrorBoundary: detectErrorBoundary(route)\n    });\n  } else {\n    mapRouteProperties = defaultMapRouteProperties;\n  }\n  let dataRoutes = convertRoutesToDataRoutes(routes, mapRouteProperties, undefined, manifest);\n  /**\n   * The query() method is intended for document requests, in which we want to\n   * call an optional action and potentially multiple loaders for all nested\n   * routes.  It returns a StaticHandlerContext object, which is very similar\n   * to the router state (location, loaderData, actionData, errors, etc.) and\n   * also adds SSR-specific information such as the statusCode and headers\n   * from action/loaders Responses.\n   *\n   * It _should_ never throw and should report all errors through the\n   * returned context.errors object, properly associating errors to their error\n   * boundary.  Additionally, it tracks _deepestRenderedBoundaryId which can be\n   * used to emulate React error boundaries during SSr by performing a second\n   * pass only down to the boundaryId.\n   *\n   * The one exception where we do not return a StaticHandlerContext is when a\n   * redirect response is returned or thrown from any action/loader.  We\n   * propagate that out and return the raw Response so the HTTP server can\n   * return it directly.\n   */\n  async function query(request, _temp2) {\n    let {\n      requestContext\n    } = _temp2 === void 0 ? {} : _temp2;\n    let url = new URL(request.url);\n    let method = request.method;\n    let location = createLocation(\"\", createPath(url), null, \"default\");\n    let matches = matchRoutes(dataRoutes, location, basename);\n    // SSR supports HEAD requests while SPA doesn't\n    if (!isValidMethod(method) && method !== \"HEAD\") {\n      let error = getInternalRouterError(405, {\n        method\n      });\n      let {\n        matches: methodNotAllowedMatches,\n        route\n      } = getShortCircuitMatches(dataRoutes);\n      return {\n        basename,\n        location,\n        matches: methodNotAllowedMatches,\n        loaderData: {},\n        actionData: null,\n        errors: {\n          [route.id]: error\n        },\n        statusCode: error.status,\n        loaderHeaders: {},\n        actionHeaders: {},\n        activeDeferreds: null\n      };\n    } else if (!matches) {\n      let error = getInternalRouterError(404, {\n        pathname: location.pathname\n      });\n      let {\n        matches: notFoundMatches,\n        route\n      } = getShortCircuitMatches(dataRoutes);\n      return {\n        basename,\n        location,\n        matches: notFoundMatches,\n        loaderData: {},\n        actionData: null,\n        errors: {\n          [route.id]: error\n        },\n        statusCode: error.status,\n        loaderHeaders: {},\n        actionHeaders: {},\n        activeDeferreds: null\n      };\n    }\n    let result = await queryImpl(request, location, matches, requestContext);\n    if (isResponse(result)) {\n      return result;\n    }\n    // When returning StaticHandlerContext, we patch back in the location here\n    // since we need it for React Context.  But this helps keep our submit and\n    // loadRouteData operating on a Request instead of a Location\n    return _extends({\n      location,\n      basename\n    }, result);\n  }\n  /**\n   * The queryRoute() method is intended for targeted route requests, either\n   * for fetch ?_data requests or resource route requests.  In this case, we\n   * are only ever calling a single action or loader, and we are returning the\n   * returned value directly.  In most cases, this will be a Response returned\n   * from the action/loader, but it may be a primitive or other value as well -\n   * and in such cases the calling context should handle that accordingly.\n   *\n   * We do respect the throw/return differentiation, so if an action/loader\n   * throws, then this method will throw the value.  This is important so we\n   * can do proper boundary identification in Remix where a thrown Response\n   * must go to the Catch Boundary but a returned Response is happy-path.\n   *\n   * One thing to note is that any Router-initiated Errors that make sense\n   * to associate with a status code will be thrown as an ErrorResponse\n   * instance which include the raw Error, such that the calling context can\n   * serialize the error as they see fit while including the proper response\n   * code.  Examples here are 404 and 405 errors that occur prior to reaching\n   * any user-defined loaders.\n   */\n  async function queryRoute(request, _temp3) {\n    let {\n      routeId,\n      requestContext\n    } = _temp3 === void 0 ? {} : _temp3;\n    let url = new URL(request.url);\n    let method = request.method;\n    let location = createLocation(\"\", createPath(url), null, \"default\");\n    let matches = matchRoutes(dataRoutes, location, basename);\n    // SSR supports HEAD requests while SPA doesn't\n    if (!isValidMethod(method) && method !== \"HEAD\" && method !== \"OPTIONS\") {\n      throw getInternalRouterError(405, {\n        method\n      });\n    } else if (!matches) {\n      throw getInternalRouterError(404, {\n        pathname: location.pathname\n      });\n    }\n    let match = routeId ? matches.find(m => m.route.id === routeId) : getTargetMatch(matches, location);\n    if (routeId && !match) {\n      throw getInternalRouterError(403, {\n        pathname: location.pathname,\n        routeId\n      });\n    } else if (!match) {\n      // This should never hit I don't think?\n      throw getInternalRouterError(404, {\n        pathname: location.pathname\n      });\n    }\n    let result = await queryImpl(request, location, matches, requestContext, match);\n    if (isResponse(result)) {\n      return result;\n    }\n    let error = result.errors ? Object.values(result.errors)[0] : undefined;\n    if (error !== undefined) {\n      // If we got back result.errors, that means the loader/action threw\n      // _something_ that wasn't a Response, but it's not guaranteed/required\n      // to be an `instanceof Error` either, so we have to use throw here to\n      // preserve the \"error\" state outside of queryImpl.\n      throw error;\n    }\n    // Pick off the right state value to return\n    if (result.actionData) {\n      return Object.values(result.actionData)[0];\n    }\n    if (result.loaderData) {\n      var _result$activeDeferre;\n      let data = Object.values(result.loaderData)[0];\n      if ((_result$activeDeferre = result.activeDeferreds) != null && _result$activeDeferre[match.route.id]) {\n        data[UNSAFE_DEFERRED_SYMBOL] = result.activeDeferreds[match.route.id];\n      }\n      return data;\n    }\n    return undefined;\n  }\n  async function queryImpl(request, location, matches, requestContext, routeMatch) {\n    invariant(request.signal, \"query()/queryRoute() requests must contain an AbortController signal\");\n    try {\n      if (isMutationMethod(request.method.toLowerCase())) {\n        let result = await submit(request, matches, routeMatch || getTargetMatch(matches, location), requestContext, routeMatch != null);\n        return result;\n      }\n      let result = await loadRouteData(request, matches, requestContext, routeMatch);\n      return isResponse(result) ? result : _extends({}, result, {\n        actionData: null,\n        actionHeaders: {}\n      });\n    } catch (e) {\n      // If the user threw/returned a Response in callLoaderOrAction, we throw\n      // it to bail out and then return or throw here based on whether the user\n      // returned or threw\n      if (isQueryRouteResponse(e)) {\n        if (e.type === ResultType.error && !isRedirectResponse(e.response)) {\n          throw e.response;\n        }\n        return e.response;\n      }\n      // Redirects are always returned since they don't propagate to catch\n      // boundaries\n      if (isRedirectResponse(e)) {\n        return e;\n      }\n      throw e;\n    }\n  }\n  async function submit(request, matches, actionMatch, requestContext, isRouteRequest) {\n    let result;\n    if (!actionMatch.route.action && !actionMatch.route.lazy) {\n      let error = getInternalRouterError(405, {\n        method: request.method,\n        pathname: new URL(request.url).pathname,\n        routeId: actionMatch.route.id\n      });\n      if (isRouteRequest) {\n        throw error;\n      }\n      result = {\n        type: ResultType.error,\n        error\n      };\n    } else {\n      result = await callLoaderOrAction(\"action\", request, actionMatch, matches, manifest, mapRouteProperties, basename, {\n        isStaticRequest: true,\n        isRouteRequest,\n        requestContext\n      });\n      if (request.signal.aborted) {\n        let method = isRouteRequest ? \"queryRoute\" : \"query\";\n        throw new Error(method + \"() call aborted\");\n      }\n    }\n    if (isRedirectResult(result)) {\n      // Uhhhh - this should never happen, we should always throw these from\n      // callLoaderOrAction, but the type narrowing here keeps TS happy and we\n      // can get back on the \"throw all redirect responses\" train here should\n      // this ever happen :/\n      throw new Response(null, {\n        status: result.status,\n        headers: {\n          Location: result.location\n        }\n      });\n    }\n    if (isDeferredResult(result)) {\n      let error = getInternalRouterError(400, {\n        type: \"defer-action\"\n      });\n      if (isRouteRequest) {\n        throw error;\n      }\n      result = {\n        type: ResultType.error,\n        error\n      };\n    }\n    if (isRouteRequest) {\n      // Note: This should only be non-Response values if we get here, since\n      // isRouteRequest should throw any Response received in callLoaderOrAction\n      if (isErrorResult(result)) {\n        throw result.error;\n      }\n      return {\n        matches: [actionMatch],\n        loaderData: {},\n        actionData: {\n          [actionMatch.route.id]: result.data\n        },\n        errors: null,\n        // Note: statusCode + headers are unused here since queryRoute will\n        // return the raw Response or value\n        statusCode: 200,\n        loaderHeaders: {},\n        actionHeaders: {},\n        activeDeferreds: null\n      };\n    }\n    if (isErrorResult(result)) {\n      // Store off the pending error - we use it to determine which loaders\n      // to call and will commit it when we complete the navigation\n      let boundaryMatch = findNearestBoundary(matches, actionMatch.route.id);\n      let context = await loadRouteData(request, matches, requestContext, undefined, {\n        [boundaryMatch.route.id]: result.error\n      });\n      // action status codes take precedence over loader status codes\n      return _extends({}, context, {\n        statusCode: isRouteErrorResponse(result.error) ? result.error.status : 500,\n        actionData: null,\n        actionHeaders: _extends({}, result.headers ? {\n          [actionMatch.route.id]: result.headers\n        } : {})\n      });\n    }\n    // Create a GET request for the loaders\n    let loaderRequest = new Request(request.url, {\n      headers: request.headers,\n      redirect: request.redirect,\n      signal: request.signal\n    });\n    let context = await loadRouteData(loaderRequest, matches, requestContext);\n    return _extends({}, context, result.statusCode ? {\n      statusCode: result.statusCode\n    } : {}, {\n      actionData: {\n        [actionMatch.route.id]: result.data\n      },\n      actionHeaders: _extends({}, result.headers ? {\n        [actionMatch.route.id]: result.headers\n      } : {})\n    });\n  }\n  async function loadRouteData(request, matches, requestContext, routeMatch, pendingActionError) {\n    let isRouteRequest = routeMatch != null;\n    // Short circuit if we have no loaders to run (queryRoute())\n    if (isRouteRequest && !(routeMatch != null && routeMatch.route.loader) && !(routeMatch != null && routeMatch.route.lazy)) {\n      throw getInternalRouterError(400, {\n        method: request.method,\n        pathname: new URL(request.url).pathname,\n        routeId: routeMatch == null ? void 0 : routeMatch.route.id\n      });\n    }\n    let requestMatches = routeMatch ? [routeMatch] : getLoaderMatchesUntilBoundary(matches, Object.keys(pendingActionError || {})[0]);\n    let matchesToLoad = requestMatches.filter(m => m.route.loader || m.route.lazy);\n    // Short circuit if we have no loaders to run (query())\n    if (matchesToLoad.length === 0) {\n      return {\n        matches,\n        // Add a null for all matched routes for proper revalidation on the client\n        loaderData: matches.reduce((acc, m) => Object.assign(acc, {\n          [m.route.id]: null\n        }), {}),\n        errors: pendingActionError || null,\n        statusCode: 200,\n        loaderHeaders: {},\n        activeDeferreds: null\n      };\n    }\n    let results = await Promise.all([...matchesToLoad.map(match => callLoaderOrAction(\"loader\", request, match, matches, manifest, mapRouteProperties, basename, {\n      isStaticRequest: true,\n      isRouteRequest,\n      requestContext\n    }))]);\n    if (request.signal.aborted) {\n      let method = isRouteRequest ? \"queryRoute\" : \"query\";\n      throw new Error(method + \"() call aborted\");\n    }\n    // Process and commit output from loaders\n    let activeDeferreds = new Map();\n    let context = processRouteLoaderData(matches, matchesToLoad, results, pendingActionError, activeDeferreds);\n    // Add a null for any non-loader matches for proper revalidation on the client\n    let executedLoaders = new Set(matchesToLoad.map(match => match.route.id));\n    matches.forEach(match => {\n      if (!executedLoaders.has(match.route.id)) {\n        context.loaderData[match.route.id] = null;\n      }\n    });\n    return _extends({}, context, {\n      matches,\n      activeDeferreds: activeDeferreds.size > 0 ? Object.fromEntries(activeDeferreds.entries()) : null\n    });\n  }\n  return {\n    dataRoutes,\n    query,\n    queryRoute\n  };\n}\n//#endregion\n////////////////////////////////////////////////////////////////////////////////\n//#region Helpers\n////////////////////////////////////////////////////////////////////////////////\n/**\n * Given an existing StaticHandlerContext and an error thrown at render time,\n * provide an updated StaticHandlerContext suitable for a second SSR render\n */\nfunction getStaticContextFromError(routes, context, error) {\n  let newContext = _extends({}, context, {\n    statusCode: 500,\n    errors: {\n      [context._deepestRenderedBoundaryId || routes[0].id]: error\n    }\n  });\n  return newContext;\n}\nfunction isSubmissionNavigation(opts) {\n  return opts != null && (\"formData\" in opts && opts.formData != null || \"body\" in opts && opts.body !== undefined);\n}\nfunction normalizeTo(location, matches, basename, prependBasename, to, fromRouteId, relative) {\n  let contextualMatches;\n  let activeRouteMatch;\n  if (fromRouteId != null && relative !== \"path\") {\n    // Grab matches up to the calling route so our route-relative logic is\n    // relative to the correct source route.  When using relative:path,\n    // fromRouteId is ignored since that is always relative to the current\n    // location path\n    contextualMatches = [];\n    for (let match of matches) {\n      contextualMatches.push(match);\n      if (match.route.id === fromRouteId) {\n        activeRouteMatch = match;\n        break;\n      }\n    }\n  } else {\n    contextualMatches = matches;\n    activeRouteMatch = matches[matches.length - 1];\n  }\n  // Resolve the relative path\n  let path = resolveTo(to ? to : \".\", getPathContributingMatches(contextualMatches).map(m => m.pathnameBase), stripBasename(location.pathname, basename) || location.pathname, relative === \"path\");\n  // When `to` is not specified we inherit search/hash from the current\n  // location, unlike when to=\".\" and we just inherit the path.\n  // See https://github.com/remix-run/remix/issues/927\n  if (to == null) {\n    path.search = location.search;\n    path.hash = location.hash;\n  }\n  // Add an ?index param for matched index routes if we don't already have one\n  if ((to == null || to === \"\" || to === \".\") && activeRouteMatch && activeRouteMatch.route.index && !hasNakedIndexQuery(path.search)) {\n    path.search = path.search ? path.search.replace(/^\\?/, \"?index&\") : \"?index\";\n  }\n  // If we're operating within a basename, prepend it to the pathname.  If\n  // this is a root navigation, then just use the raw basename which allows\n  // the basename to have full control over the presence of a trailing slash\n  // on root actions\n  if (prependBasename && basename !== \"/\") {\n    path.pathname = path.pathname === \"/\" ? basename : joinPaths([basename, path.pathname]);\n  }\n  return createPath(path);\n}\n// Normalize navigation options by converting formMethod=GET formData objects to\n// URLSearchParams so they behave identically to links with query params\nfunction normalizeNavigateOptions(normalizeFormMethod, isFetcher, path, opts) {\n  // Return location verbatim on non-submission navigations\n  if (!opts || !isSubmissionNavigation(opts)) {\n    return {\n      path\n    };\n  }\n  if (opts.formMethod && !isValidMethod(opts.formMethod)) {\n    return {\n      path,\n      error: getInternalRouterError(405, {\n        method: opts.formMethod\n      })\n    };\n  }\n  let getInvalidBodyError = () => ({\n    path,\n    error: getInternalRouterError(400, {\n      type: \"invalid-body\"\n    })\n  });\n  // Create a Submission on non-GET navigations\n  let rawFormMethod = opts.formMethod || \"get\";\n  let formMethod = normalizeFormMethod ? rawFormMethod.toUpperCase() : rawFormMethod.toLowerCase();\n  let formAction = stripHashFromPath(path);\n  if (opts.body !== undefined) {\n    if (opts.formEncType === \"text/plain\") {\n      // text only support POST/PUT/PATCH/DELETE submissions\n      if (!isMutationMethod(formMethod)) {\n        return getInvalidBodyError();\n      }\n      let text = typeof opts.body === \"string\" ? opts.body : opts.body instanceof FormData || opts.body instanceof URLSearchParams ?\n      // https://html.spec.whatwg.org/multipage/form-control-infrastructure.html#plain-text-form-data\n      Array.from(opts.body.entries()).reduce((acc, _ref3) => {\n        let [name, value] = _ref3;\n        return \"\" + acc + name + \"=\" + value + \"\\n\";\n      }, \"\") : String(opts.body);\n      return {\n        path,\n        submission: {\n          formMethod,\n          formAction,\n          formEncType: opts.formEncType,\n          formData: undefined,\n          json: undefined,\n          text\n        }\n      };\n    } else if (opts.formEncType === \"application/json\") {\n      // json only supports POST/PUT/PATCH/DELETE submissions\n      if (!isMutationMethod(formMethod)) {\n        return getInvalidBodyError();\n      }\n      try {\n        let json = typeof opts.body === \"string\" ? JSON.parse(opts.body) : opts.body;\n        return {\n          path,\n          submission: {\n            formMethod,\n            formAction,\n            formEncType: opts.formEncType,\n            formData: undefined,\n            json,\n            text: undefined\n          }\n        };\n      } catch (e) {\n        return getInvalidBodyError();\n      }\n    }\n  }\n  invariant(typeof FormData === \"function\", \"FormData is not available in this environment\");\n  let searchParams;\n  let formData;\n  if (opts.formData) {\n    searchParams = convertFormDataToSearchParams(opts.formData);\n    formData = opts.formData;\n  } else if (opts.body instanceof FormData) {\n    searchParams = convertFormDataToSearchParams(opts.body);\n    formData = opts.body;\n  } else if (opts.body instanceof URLSearchParams) {\n    searchParams = opts.body;\n    formData = convertSearchParamsToFormData(searchParams);\n  } else if (opts.body == null) {\n    searchParams = new URLSearchParams();\n    formData = new FormData();\n  } else {\n    try {\n      searchParams = new URLSearchParams(opts.body);\n      formData = convertSearchParamsToFormData(searchParams);\n    } catch (e) {\n      return getInvalidBodyError();\n    }\n  }\n  let submission = {\n    formMethod,\n    formAction,\n    formEncType: opts && opts.formEncType || \"application/x-www-form-urlencoded\",\n    formData,\n    json: undefined,\n    text: undefined\n  };\n  if (isMutationMethod(submission.formMethod)) {\n    return {\n      path,\n      submission\n    };\n  }\n  // Flatten submission onto URLSearchParams for GET submissions\n  let parsedPath = parsePath(path);\n  // On GET navigation submissions we can drop the ?index param from the\n  // resulting location since all loaders will run.  But fetcher GET submissions\n  // only run a single loader so we need to preserve any incoming ?index params\n  if (isFetcher && parsedPath.search && hasNakedIndexQuery(parsedPath.search)) {\n    searchParams.append(\"index\", \"\");\n  }\n  parsedPath.search = \"?\" + searchParams;\n  return {\n    path: createPath(parsedPath),\n    submission\n  };\n}\n// Filter out all routes below any caught error as they aren't going to\n// render so we don't need to load them\nfunction getLoaderMatchesUntilBoundary(matches, boundaryId) {\n  let boundaryMatches = matches;\n  if (boundaryId) {\n    let index = matches.findIndex(m => m.route.id === boundaryId);\n    if (index >= 0) {\n      boundaryMatches = matches.slice(0, index);\n    }\n  }\n  return boundaryMatches;\n}\nfunction getMatchesToLoad(history, state, matches, submission, location, isRevalidationRequired, cancelledDeferredRoutes, cancelledFetcherLoads, fetchLoadMatches, fetchRedirectIds, routesToUse, basename, pendingActionData, pendingError) {\n  let actionResult = pendingError ? Object.values(pendingError)[0] : pendingActionData ? Object.values(pendingActionData)[0] : undefined;\n  let currentUrl = history.createURL(state.location);\n  let nextUrl = history.createURL(location);\n  // Pick navigation matches that are net-new or qualify for revalidation\n  let boundaryId = pendingError ? Object.keys(pendingError)[0] : undefined;\n  let boundaryMatches = getLoaderMatchesUntilBoundary(matches, boundaryId);\n  let navigationMatches = boundaryMatches.filter((match, index) => {\n    if (match.route.lazy) {\n      // We haven't loaded this route yet so we don't know if it's got a loader!\n      return true;\n    }\n    if (match.route.loader == null) {\n      return false;\n    }\n    // Always call the loader on new route instances and pending defer cancellations\n    if (isNewLoader(state.loaderData, state.matches[index], match) || cancelledDeferredRoutes.some(id => id === match.route.id)) {\n      return true;\n    }\n    // This is the default implementation for when we revalidate.  If the route\n    // provides it's own implementation, then we give them full control but\n    // provide this value so they can leverage it if needed after they check\n    // their own specific use cases\n    let currentRouteMatch = state.matches[index];\n    let nextRouteMatch = match;\n    return shouldRevalidateLoader(match, _extends({\n      currentUrl,\n      currentParams: currentRouteMatch.params,\n      nextUrl,\n      nextParams: nextRouteMatch.params\n    }, submission, {\n      actionResult,\n      defaultShouldRevalidate:\n      // Forced revalidation due to submission, useRevalidator, or X-Remix-Revalidate\n      isRevalidationRequired ||\n      // Clicked the same link, resubmitted a GET form\n      currentUrl.pathname + currentUrl.search === nextUrl.pathname + nextUrl.search ||\n      // Search params affect all loaders\n      currentUrl.search !== nextUrl.search || isNewRouteInstance(currentRouteMatch, nextRouteMatch)\n    }));\n  });\n  // Pick fetcher.loads that need to be revalidated\n  let revalidatingFetchers = [];\n  fetchLoadMatches.forEach((f, key) => {\n    // Don't revalidate if fetcher won't be present in the subsequent render\n    if (!matches.some(m => m.route.id === f.routeId)) {\n      return;\n    }\n    let fetcherMatches = matchRoutes(routesToUse, f.path, basename);\n    // If the fetcher path no longer matches, push it in with null matches so\n    // we can trigger a 404 in callLoadersAndMaybeResolveData\n    if (!fetcherMatches) {\n      revalidatingFetchers.push({\n        key,\n        routeId: f.routeId,\n        path: f.path,\n        matches: null,\n        match: null,\n        controller: null\n      });\n      return;\n    }\n    // Revalidating fetchers are decoupled from the route matches since they\n    // load from a static href.  They only set `defaultShouldRevalidate` on\n    // explicit revalidation due to submission, useRevalidator, or X-Remix-Revalidate\n    //\n    // They automatically revalidate without even calling shouldRevalidate if:\n    // - They were cancelled\n    // - They're in the middle of their first load and therefore this is still\n    //   an initial load and not a revalidation\n    //\n    // If neither of those is true, then they _always_ check shouldRevalidate\n    let fetcher = state.fetchers.get(key);\n    let isPerformingInitialLoad = fetcher && fetcher.state !== \"idle\" && fetcher.data === undefined &&\n    // If a fetcher.load redirected then it'll be \"loading\" without any data\n    // so ensure we're not processing the redirect from this fetcher\n    !fetchRedirectIds.has(key);\n    let fetcherMatch = getTargetMatch(fetcherMatches, f.path);\n    let shouldRevalidate = cancelledFetcherLoads.includes(key) || isPerformingInitialLoad || shouldRevalidateLoader(fetcherMatch, _extends({\n      currentUrl,\n      currentParams: state.matches[state.matches.length - 1].params,\n      nextUrl,\n      nextParams: matches[matches.length - 1].params\n    }, submission, {\n      actionResult,\n      defaultShouldRevalidate: isRevalidationRequired\n    }));\n    if (shouldRevalidate) {\n      revalidatingFetchers.push({\n        key,\n        routeId: f.routeId,\n        path: f.path,\n        matches: fetcherMatches,\n        match: fetcherMatch,\n        controller: new AbortController()\n      });\n    }\n  });\n  return [navigationMatches, revalidatingFetchers];\n}\nfunction isNewLoader(currentLoaderData, currentMatch, match) {\n  let isNew =\n  // [a] -> [a, b]\n  !currentMatch ||\n  // [a, b] -> [a, c]\n  match.route.id !== currentMatch.route.id;\n  // Handle the case that we don't have data for a re-used route, potentially\n  // from a prior error or from a cancelled pending deferred\n  let isMissingData = currentLoaderData[match.route.id] === undefined;\n  // Always load if this is a net-new route or we don't yet have data\n  return isNew || isMissingData;\n}\nfunction isNewRouteInstance(currentMatch, match) {\n  let currentPath = currentMatch.route.path;\n  return (\n    // param change for this match, /users/123 -> /users/456\n    currentMatch.pathname !== match.pathname ||\n    // splat param changed, which is not present in match.path\n    // e.g. /files/images/avatar.jpg -> files/finances.xls\n    currentPath != null && currentPath.endsWith(\"*\") && currentMatch.params[\"*\"] !== match.params[\"*\"]\n  );\n}\nfunction shouldRevalidateLoader(loaderMatch, arg) {\n  if (loaderMatch.route.shouldRevalidate) {\n    let routeChoice = loaderMatch.route.shouldRevalidate(arg);\n    if (typeof routeChoice === \"boolean\") {\n      return routeChoice;\n    }\n  }\n  return arg.defaultShouldRevalidate;\n}\n/**\n * Execute route.lazy() methods to lazily load route modules (loader, action,\n * shouldRevalidate) and update the routeManifest in place which shares objects\n * with dataRoutes so those get updated as well.\n */\nasync function loadLazyRouteModule(route, mapRouteProperties, manifest) {\n  if (!route.lazy) {\n    return;\n  }\n  let lazyRoute = await route.lazy();\n  // If the lazy route function was executed and removed by another parallel\n  // call then we can return - first lazy() to finish wins because the return\n  // value of lazy is expected to be static\n  if (!route.lazy) {\n    return;\n  }\n  let routeToUpdate = manifest[route.id];\n  invariant(routeToUpdate, \"No route found in manifest\");\n  // Update the route in place.  This should be safe because there's no way\n  // we could yet be sitting on this route as we can't get there without\n  // resolving lazy() first.\n  //\n  // This is different than the HMR \"update\" use-case where we may actively be\n  // on the route being updated.  The main concern boils down to \"does this\n  // mutation affect any ongoing navigations or any current state.matches\n  // values?\".  If not, it should be safe to update in place.\n  let routeUpdates = {};\n  for (let lazyRouteProperty in lazyRoute) {\n    let staticRouteValue = routeToUpdate[lazyRouteProperty];\n    let isPropertyStaticallyDefined = staticRouteValue !== undefined &&\n    // This property isn't static since it should always be updated based\n    // on the route updates\n    lazyRouteProperty !== \"hasErrorBoundary\";\n    warning(!isPropertyStaticallyDefined, \"Route \\\"\" + routeToUpdate.id + \"\\\" has a static property \\\"\" + lazyRouteProperty + \"\\\" \" + \"defined but its lazy function is also returning a value for this property. \" + (\"The lazy route property \\\"\" + lazyRouteProperty + \"\\\" will be ignored.\"));\n    if (!isPropertyStaticallyDefined && !immutableRouteKeys.has(lazyRouteProperty)) {\n      routeUpdates[lazyRouteProperty] = lazyRoute[lazyRouteProperty];\n    }\n  }\n  // Mutate the route with the provided updates.  Do this first so we pass\n  // the updated version to mapRouteProperties\n  Object.assign(routeToUpdate, routeUpdates);\n  // Mutate the `hasErrorBoundary` property on the route based on the route\n  // updates and remove the `lazy` function so we don't resolve the lazy\n  // route again.\n  Object.assign(routeToUpdate, _extends({}, mapRouteProperties(routeToUpdate), {\n    lazy: undefined\n  }));\n}\nasync function callLoaderOrAction(type, request, match, matches, manifest, mapRouteProperties, basename, opts) {\n  if (opts === void 0) {\n    opts = {};\n  }\n  let resultType;\n  let result;\n  let onReject;\n  let runHandler = handler => {\n    // Setup a promise we can race against so that abort signals short circuit\n    let reject;\n    let abortPromise = new Promise((_, r) => reject = r);\n    onReject = () => reject();\n    request.signal.addEventListener(\"abort\", onReject);\n    return Promise.race([handler({\n      request,\n      params: match.params,\n      context: opts.requestContext\n    }), abortPromise]);\n  };\n  try {\n    let handler = match.route[type];\n    if (match.route.lazy) {\n      if (handler) {\n        // Run statically defined handler in parallel with lazy()\n        let values = await Promise.all([runHandler(handler), loadLazyRouteModule(match.route, mapRouteProperties, manifest)]);\n        result = values[0];\n      } else {\n        // Load lazy route module, then run any returned handler\n        await loadLazyRouteModule(match.route, mapRouteProperties, manifest);\n        handler = match.route[type];\n        if (handler) {\n          // Handler still run even if we got interrupted to maintain consistency\n          // with un-abortable behavior of handler execution on non-lazy or\n          // previously-lazy-loaded routes\n          result = await runHandler(handler);\n        } else if (type === \"action\") {\n          let url = new URL(request.url);\n          let pathname = url.pathname + url.search;\n          throw getInternalRouterError(405, {\n            method: request.method,\n            pathname,\n            routeId: match.route.id\n          });\n        } else {\n          // lazy() route has no loader to run.  Short circuit here so we don't\n          // hit the invariant below that errors on returning undefined.\n          return {\n            type: ResultType.data,\n            data: undefined\n          };\n        }\n      }\n    } else if (!handler) {\n      let url = new URL(request.url);\n      let pathname = url.pathname + url.search;\n      throw getInternalRouterError(404, {\n        pathname\n      });\n    } else {\n      result = await runHandler(handler);\n    }\n    invariant(result !== undefined, \"You defined \" + (type === \"action\" ? \"an action\" : \"a loader\") + \" for route \" + (\"\\\"\" + match.route.id + \"\\\" but didn't return anything from your `\" + type + \"` \") + \"function. Please return a value or `null`.\");\n  } catch (e) {\n    resultType = ResultType.error;\n    result = e;\n  } finally {\n    if (onReject) {\n      request.signal.removeEventListener(\"abort\", onReject);\n    }\n  }\n  if (isResponse(result)) {\n    let status = result.status;\n    // Process redirects\n    if (redirectStatusCodes.has(status)) {\n      let location = result.headers.get(\"Location\");\n      invariant(location, \"Redirects returned/thrown from loaders/actions must have a Location header\");\n      // Support relative routing in internal redirects\n      if (!ABSOLUTE_URL_REGEX.test(location)) {\n        location = normalizeTo(new URL(request.url), matches.slice(0, matches.indexOf(match) + 1), basename, true, location);\n      } else if (!opts.isStaticRequest) {\n        // Strip off the protocol+origin for same-origin + same-basename absolute\n        // redirects. If this is a static request, we can let it go back to the\n        // browser as-is\n        let currentUrl = new URL(request.url);\n        let url = location.startsWith(\"//\") ? new URL(currentUrl.protocol + location) : new URL(location);\n        let isSameBasename = stripBasename(url.pathname, basename) != null;\n        if (url.origin === currentUrl.origin && isSameBasename) {\n          location = url.pathname + url.search + url.hash;\n        }\n      }\n      // Don't process redirects in the router during static requests requests.\n      // Instead, throw the Response and let the server handle it with an HTTP\n      // redirect.  We also update the Location header in place in this flow so\n      // basename and relative routing is taken into account\n      if (opts.isStaticRequest) {\n        result.headers.set(\"Location\", location);\n        throw result;\n      }\n      return {\n        type: ResultType.redirect,\n        status,\n        location,\n        revalidate: result.headers.get(\"X-Remix-Revalidate\") !== null\n      };\n    }\n    // For SSR single-route requests, we want to hand Responses back directly\n    // without unwrapping.  We do this with the QueryRouteResponse wrapper\n    // interface so we can know whether it was returned or thrown\n    if (opts.isRouteRequest) {\n      // eslint-disable-next-line no-throw-literal\n      throw {\n        type: resultType || ResultType.data,\n        response: result\n      };\n    }\n    let data;\n    let contentType = result.headers.get(\"Content-Type\");\n    // Check between word boundaries instead of startsWith() due to the last\n    // paragraph of https://httpwg.org/specs/rfc9110.html#field.content-type\n    if (contentType && /\\bapplication\\/json\\b/.test(contentType)) {\n      data = await result.json();\n    } else {\n      data = await result.text();\n    }\n    if (resultType === ResultType.error) {\n      return {\n        type: resultType,\n        error: new ErrorResponse(status, result.statusText, data),\n        headers: result.headers\n      };\n    }\n    return {\n      type: ResultType.data,\n      data,\n      statusCode: result.status,\n      headers: result.headers\n    };\n  }\n  if (resultType === ResultType.error) {\n    return {\n      type: resultType,\n      error: result\n    };\n  }\n  if (isDeferredData(result)) {\n    var _result$init, _result$init2;\n    return {\n      type: ResultType.deferred,\n      deferredData: result,\n      statusCode: (_result$init = result.init) == null ? void 0 : _result$init.status,\n      headers: ((_result$init2 = result.init) == null ? void 0 : _result$init2.headers) && new Headers(result.init.headers)\n    };\n  }\n  return {\n    type: ResultType.data,\n    data: result\n  };\n}\n// Utility method for creating the Request instances for loaders/actions during\n// client-side navigations and fetches.  During SSR we will always have a\n// Request instance from the static handler (query/queryRoute)\nfunction createClientSideRequest(history, location, signal, submission) {\n  let url = history.createURL(stripHashFromPath(location)).toString();\n  let init = {\n    signal\n  };\n  if (submission && isMutationMethod(submission.formMethod)) {\n    let {\n      formMethod,\n      formEncType\n    } = submission;\n    // Didn't think we needed this but it turns out unlike other methods, patch\n    // won't be properly normalized to uppercase and results in a 405 error.\n    // See: https://fetch.spec.whatwg.org/#concept-method\n    init.method = formMethod.toUpperCase();\n    if (formEncType === \"application/json\") {\n      init.headers = new Headers({\n        \"Content-Type\": formEncType\n      });\n      init.body = JSON.stringify(submission.json);\n    } else if (formEncType === \"text/plain\") {\n      // Content-Type is inferred (https://fetch.spec.whatwg.org/#dom-request)\n      init.body = submission.text;\n    } else if (formEncType === \"application/x-www-form-urlencoded\" && submission.formData) {\n      // Content-Type is inferred (https://fetch.spec.whatwg.org/#dom-request)\n      init.body = convertFormDataToSearchParams(submission.formData);\n    } else {\n      // Content-Type is inferred (https://fetch.spec.whatwg.org/#dom-request)\n      init.body = submission.formData;\n    }\n  }\n  return new Request(url, init);\n}\nfunction convertFormDataToSearchParams(formData) {\n  let searchParams = new URLSearchParams();\n  for (let [key, value] of formData.entries()) {\n    // https://html.spec.whatwg.org/multipage/form-control-infrastructure.html#converting-an-entry-list-to-a-list-of-name-value-pairs\n    searchParams.append(key, typeof value === \"string\" ? value : value.name);\n  }\n  return searchParams;\n}\nfunction convertSearchParamsToFormData(searchParams) {\n  let formData = new FormData();\n  for (let [key, value] of searchParams.entries()) {\n    formData.append(key, value);\n  }\n  return formData;\n}\nfunction processRouteLoaderData(matches, matchesToLoad, results, pendingError, activeDeferreds) {\n  // Fill in loaderData/errors from our loaders\n  let loaderData = {};\n  let errors = null;\n  let statusCode;\n  let foundError = false;\n  let loaderHeaders = {};\n  // Process loader results into state.loaderData/state.errors\n  results.forEach((result, index) => {\n    let id = matchesToLoad[index].route.id;\n    invariant(!isRedirectResult(result), \"Cannot handle redirect results in processLoaderData\");\n    if (isErrorResult(result)) {\n      // Look upwards from the matched route for the closest ancestor\n      // error boundary, defaulting to the root match\n      let boundaryMatch = findNearestBoundary(matches, id);\n      let error = result.error;\n      // If we have a pending action error, we report it at the highest-route\n      // that throws a loader error, and then clear it out to indicate that\n      // it was consumed\n      if (pendingError) {\n        error = Object.values(pendingError)[0];\n        pendingError = undefined;\n      }\n      errors = errors || {};\n      // Prefer higher error values if lower errors bubble to the same boundary\n      if (errors[boundaryMatch.route.id] == null) {\n        errors[boundaryMatch.route.id] = error;\n      }\n      // Clear our any prior loaderData for the throwing route\n      loaderData[id] = undefined;\n      // Once we find our first (highest) error, we set the status code and\n      // prevent deeper status codes from overriding\n      if (!foundError) {\n        foundError = true;\n        statusCode = isRouteErrorResponse(result.error) ? result.error.status : 500;\n      }\n      if (result.headers) {\n        loaderHeaders[id] = result.headers;\n      }\n    } else {\n      if (isDeferredResult(result)) {\n        activeDeferreds.set(id, result.deferredData);\n        loaderData[id] = result.deferredData.data;\n      } else {\n        loaderData[id] = result.data;\n      }\n      // Error status codes always override success status codes, but if all\n      // loaders are successful we take the deepest status code.\n      if (result.statusCode != null && result.statusCode !== 200 && !foundError) {\n        statusCode = result.statusCode;\n      }\n      if (result.headers) {\n        loaderHeaders[id] = result.headers;\n      }\n    }\n  });\n  // If we didn't consume the pending action error (i.e., all loaders\n  // resolved), then consume it here.  Also clear out any loaderData for the\n  // throwing route\n  if (pendingError) {\n    errors = pendingError;\n    loaderData[Object.keys(pendingError)[0]] = undefined;\n  }\n  return {\n    loaderData,\n    errors,\n    statusCode: statusCode || 200,\n    loaderHeaders\n  };\n}\nfunction processLoaderData(state, matches, matchesToLoad, results, pendingError, revalidatingFetchers, fetcherResults, activeDeferreds) {\n  let {\n    loaderData,\n    errors\n  } = processRouteLoaderData(matches, matchesToLoad, results, pendingError, activeDeferreds);\n  // Process results from our revalidating fetchers\n  for (let index = 0; index < revalidatingFetchers.length; index++) {\n    let {\n      key,\n      match,\n      controller\n    } = revalidatingFetchers[index];\n    invariant(fetcherResults !== undefined && fetcherResults[index] !== undefined, \"Did not find corresponding fetcher result\");\n    let result = fetcherResults[index];\n    // Process fetcher non-redirect errors\n    if (controller && controller.signal.aborted) {\n      // Nothing to do for aborted fetchers\n      continue;\n    } else if (isErrorResult(result)) {\n      let boundaryMatch = findNearestBoundary(state.matches, match == null ? void 0 : match.route.id);\n      if (!(errors && errors[boundaryMatch.route.id])) {\n        errors = _extends({}, errors, {\n          [boundaryMatch.route.id]: result.error\n        });\n      }\n      state.fetchers.delete(key);\n    } else if (isRedirectResult(result)) {\n      // Should never get here, redirects should get processed above, but we\n      // keep this to type narrow to a success result in the else\n      invariant(false, \"Unhandled fetcher revalidation redirect\");\n    } else if (isDeferredResult(result)) {\n      // Should never get here, deferred data should be awaited for fetchers\n      // in resolveDeferredResults\n      invariant(false, \"Unhandled fetcher deferred data\");\n    } else {\n      let doneFetcher = getDoneFetcher(result.data);\n      state.fetchers.set(key, doneFetcher);\n    }\n  }\n  return {\n    loaderData,\n    errors\n  };\n}\nfunction mergeLoaderData(loaderData, newLoaderData, matches, errors) {\n  let mergedLoaderData = _extends({}, newLoaderData);\n  for (let match of matches) {\n    let id = match.route.id;\n    if (newLoaderData.hasOwnProperty(id)) {\n      if (newLoaderData[id] !== undefined) {\n        mergedLoaderData[id] = newLoaderData[id];\n      }\n    } else if (loaderData[id] !== undefined && match.route.loader) {\n      // Preserve existing keys not included in newLoaderData and where a loader\n      // wasn't removed by HMR\n      mergedLoaderData[id] = loaderData[id];\n    }\n    if (errors && errors.hasOwnProperty(id)) {\n      // Don't keep any loader data below the boundary\n      break;\n    }\n  }\n  return mergedLoaderData;\n}\n// Find the nearest error boundary, looking upwards from the leaf route (or the\n// route specified by routeId) for the closest ancestor error boundary,\n// defaulting to the root match\nfunction findNearestBoundary(matches, routeId) {\n  let eligibleMatches = routeId ? matches.slice(0, matches.findIndex(m => m.route.id === routeId) + 1) : [...matches];\n  return eligibleMatches.reverse().find(m => m.route.hasErrorBoundary === true) || matches[0];\n}\nfunction getShortCircuitMatches(routes) {\n  // Prefer a root layout route if present, otherwise shim in a route object\n  let route = routes.find(r => r.index || !r.path || r.path === \"/\") || {\n    id: \"__shim-error-route__\"\n  };\n  return {\n    matches: [{\n      params: {},\n      pathname: \"\",\n      pathnameBase: \"\",\n      route\n    }],\n    route\n  };\n}\nfunction getInternalRouterError(status, _temp4) {\n  let {\n    pathname,\n    routeId,\n    method,\n    type\n  } = _temp4 === void 0 ? {} : _temp4;\n  let statusText = \"Unknown Server Error\";\n  let errorMessage = \"Unknown @remix-run/router error\";\n  if (status === 400) {\n    statusText = \"Bad Request\";\n    if (method && pathname && routeId) {\n      errorMessage = \"You made a \" + method + \" request to \\\"\" + pathname + \"\\\" but \" + (\"did not provide a `loader` for route \\\"\" + routeId + \"\\\", \") + \"so there is no way to handle the request.\";\n    } else if (type === \"defer-action\") {\n      errorMessage = \"defer() is not supported in actions\";\n    } else if (type === \"invalid-body\") {\n      errorMessage = \"Unable to encode submission body\";\n    }\n  } else if (status === 403) {\n    statusText = \"Forbidden\";\n    errorMessage = \"Route \\\"\" + routeId + \"\\\" does not match URL \\\"\" + pathname + \"\\\"\";\n  } else if (status === 404) {\n    statusText = \"Not Found\";\n    errorMessage = \"No route matches URL \\\"\" + pathname + \"\\\"\";\n  } else if (status === 405) {\n    statusText = \"Method Not Allowed\";\n    if (method && pathname && routeId) {\n      errorMessage = \"You made a \" + method.toUpperCase() + \" request to \\\"\" + pathname + \"\\\" but \" + (\"did not provide an `action` for route \\\"\" + routeId + \"\\\", \") + \"so there is no way to handle the request.\";\n    } else if (method) {\n      errorMessage = \"Invalid request method \\\"\" + method.toUpperCase() + \"\\\"\";\n    }\n  }\n  return new ErrorResponse(status || 500, statusText, new Error(errorMessage), true);\n}\n// Find any returned redirect errors, starting from the lowest match\nfunction findRedirect(results) {\n  for (let i = results.length - 1; i >= 0; i--) {\n    let result = results[i];\n    if (isRedirectResult(result)) {\n      return result;\n    }\n  }\n}\nfunction stripHashFromPath(path) {\n  let parsedPath = typeof path === \"string\" ? parsePath(path) : path;\n  return createPath(_extends({}, parsedPath, {\n    hash: \"\"\n  }));\n}\nfunction isHashChangeOnly(a, b) {\n  if (a.pathname !== b.pathname || a.search !== b.search) {\n    return false;\n  }\n  if (a.hash === \"\") {\n    // /page -> /page#hash\n    return b.hash !== \"\";\n  } else if (a.hash === b.hash) {\n    // /page#hash -> /page#hash\n    return true;\n  } else if (b.hash !== \"\") {\n    // /page#hash -> /page#other\n    return true;\n  }\n  // If the hash is removed the browser will re-perform a request to the server\n  // /page#hash -> /page\n  return false;\n}\nfunction isDeferredResult(result) {\n  return result.type === ResultType.deferred;\n}\nfunction isErrorResult(result) {\n  return result.type === ResultType.error;\n}\nfunction isRedirectResult(result) {\n  return (result && result.type) === ResultType.redirect;\n}\nfunction isDeferredData(value) {\n  let deferred = value;\n  return deferred && typeof deferred === \"object\" && typeof deferred.data === \"object\" && typeof deferred.subscribe === \"function\" && typeof deferred.cancel === \"function\" && typeof deferred.resolveData === \"function\";\n}\nfunction isResponse(value) {\n  return value != null && typeof value.status === \"number\" && typeof value.statusText === \"string\" && typeof value.headers === \"object\" && typeof value.body !== \"undefined\";\n}\nfunction isRedirectResponse(result) {\n  if (!isResponse(result)) {\n    return false;\n  }\n  let status = result.status;\n  let location = result.headers.get(\"Location\");\n  return status >= 300 && status <= 399 && location != null;\n}\nfunction isQueryRouteResponse(obj) {\n  return obj && isResponse(obj.response) && (obj.type === ResultType.data || ResultType.error);\n}\nfunction isValidMethod(method) {\n  return validRequestMethods.has(method.toLowerCase());\n}\nfunction isMutationMethod(method) {\n  return validMutationMethods.has(method.toLowerCase());\n}\nasync function resolveDeferredResults(currentMatches, matchesToLoad, results, signals, isFetcher, currentLoaderData) {\n  for (let index = 0; index < results.length; index++) {\n    let result = results[index];\n    let match = matchesToLoad[index];\n    // If we don't have a match, then we can have a deferred result to do\n    // anything with.  This is for revalidating fetchers where the route was\n    // removed during HMR\n    if (!match) {\n      continue;\n    }\n    let currentMatch = currentMatches.find(m => m.route.id === match.route.id);\n    let isRevalidatingLoader = currentMatch != null && !isNewRouteInstance(currentMatch, match) && (currentLoaderData && currentLoaderData[match.route.id]) !== undefined;\n    if (isDeferredResult(result) && (isFetcher || isRevalidatingLoader)) {\n      // Note: we do not have to touch activeDeferreds here since we race them\n      // against the signal in resolveDeferredData and they'll get aborted\n      // there if needed\n      let signal = signals[index];\n      invariant(signal, \"Expected an AbortSignal for revalidating fetcher deferred result\");\n      await resolveDeferredData(result, signal, isFetcher).then(result => {\n        if (result) {\n          results[index] = result || results[index];\n        }\n      });\n    }\n  }\n}\nasync function resolveDeferredData(result, signal, unwrap) {\n  if (unwrap === void 0) {\n    unwrap = false;\n  }\n  let aborted = await result.deferredData.resolveData(signal);\n  if (aborted) {\n    return;\n  }\n  if (unwrap) {\n    try {\n      return {\n        type: ResultType.data,\n        data: result.deferredData.unwrappedData\n      };\n    } catch (e) {\n      // Handle any TrackedPromise._error values encountered while unwrapping\n      return {\n        type: ResultType.error,\n        error: e\n      };\n    }\n  }\n  return {\n    type: ResultType.data,\n    data: result.deferredData.data\n  };\n}\nfunction hasNakedIndexQuery(search) {\n  return new URLSearchParams(search).getAll(\"index\").some(v => v === \"\");\n}\n// Note: This should match the format exported by useMatches, so if you change\n// this please also change that :)  Eventually we'll DRY this up\nfunction createUseMatchesMatch(match, loaderData) {\n  let {\n    route,\n    pathname,\n    params\n  } = match;\n  return {\n    id: route.id,\n    pathname,\n    params,\n    data: loaderData[route.id],\n    handle: route.handle\n  };\n}\nfunction getTargetMatch(matches, location) {\n  let search = typeof location === \"string\" ? parsePath(location).search : location.search;\n  if (matches[matches.length - 1].route.index && hasNakedIndexQuery(search || \"\")) {\n    // Return the leaf index route when index is present\n    return matches[matches.length - 1];\n  }\n  // Otherwise grab the deepest \"path contributing\" match (ignoring index and\n  // pathless layout routes)\n  let pathMatches = getPathContributingMatches(matches);\n  return pathMatches[pathMatches.length - 1];\n}\nfunction getSubmissionFromNavigation(navigation) {\n  let {\n    formMethod,\n    formAction,\n    formEncType,\n    text,\n    formData,\n    json\n  } = navigation;\n  if (!formMethod || !formAction || !formEncType) {\n    return;\n  }\n  if (text != null) {\n    return {\n      formMethod,\n      formAction,\n      formEncType,\n      formData: undefined,\n      json: undefined,\n      text\n    };\n  } else if (formData != null) {\n    return {\n      formMethod,\n      formAction,\n      formEncType,\n      formData,\n      json: undefined,\n      text: undefined\n    };\n  } else if (json !== undefined) {\n    return {\n      formMethod,\n      formAction,\n      formEncType,\n      formData: undefined,\n      json,\n      text: undefined\n    };\n  }\n}\nfunction getLoadingNavigation(location, submission) {\n  if (submission) {\n    let navigation = {\n      state: \"loading\",\n      location,\n      formMethod: submission.formMethod,\n      formAction: submission.formAction,\n      formEncType: submission.formEncType,\n      formData: submission.formData,\n      json: submission.json,\n      text: submission.text\n    };\n    return navigation;\n  } else {\n    let navigation = {\n      state: \"loading\",\n      location,\n      formMethod: undefined,\n      formAction: undefined,\n      formEncType: undefined,\n      formData: undefined,\n      json: undefined,\n      text: undefined\n    };\n    return navigation;\n  }\n}\nfunction getSubmittingNavigation(location, submission) {\n  let navigation = {\n    state: \"submitting\",\n    location,\n    formMethod: submission.formMethod,\n    formAction: submission.formAction,\n    formEncType: submission.formEncType,\n    formData: submission.formData,\n    json: submission.json,\n    text: submission.text\n  };\n  return navigation;\n}\nfunction getLoadingFetcher(submission, data) {\n  if (submission) {\n    let fetcher = {\n      state: \"loading\",\n      formMethod: submission.formMethod,\n      formAction: submission.formAction,\n      formEncType: submission.formEncType,\n      formData: submission.formData,\n      json: submission.json,\n      text: submission.text,\n      data,\n      \" _hasFetcherDoneAnything \": true\n    };\n    return fetcher;\n  } else {\n    let fetcher = {\n      state: \"loading\",\n      formMethod: undefined,\n      formAction: undefined,\n      formEncType: undefined,\n      formData: undefined,\n      json: undefined,\n      text: undefined,\n      data,\n      \" _hasFetcherDoneAnything \": true\n    };\n    return fetcher;\n  }\n}\nfunction getSubmittingFetcher(submission, existingFetcher) {\n  let fetcher = {\n    state: \"submitting\",\n    formMethod: submission.formMethod,\n    formAction: submission.formAction,\n    formEncType: submission.formEncType,\n    formData: submission.formData,\n    json: submission.json,\n    text: submission.text,\n    data: existingFetcher ? existingFetcher.data : undefined,\n    \" _hasFetcherDoneAnything \": true\n  };\n  return fetcher;\n}\nfunction getDoneFetcher(data) {\n  let fetcher = {\n    state: \"idle\",\n    formMethod: undefined,\n    formAction: undefined,\n    formEncType: undefined,\n    formData: undefined,\n    json: undefined,\n    text: undefined,\n    data,\n    \" _hasFetcherDoneAnything \": true\n  };\n  return fetcher;\n}\n//#endregion\n\nexport { AbortedDeferredError, Action, ErrorResponse, IDLE_BLOCKER, IDLE_FETCHER, IDLE_NAVIGATION, UNSAFE_DEFERRED_SYMBOL, DeferredData as UNSAFE_DeferredData, convertRoutesToDataRoutes as UNSAFE_convertRoutesToDataRoutes, getPathContributingMatches as UNSAFE_getPathContributingMatches, invariant as UNSAFE_invariant, warning as UNSAFE_warning, createBrowserHistory, createHashHistory, createMemoryHistory, createPath, createRouter, createStaticHandler, defer, generatePath, getStaticContextFromError, getToPathname, isDeferredData, isRouteErrorResponse, joinPaths, json, matchPath, matchRoutes, normalizePathname, parsePath, redirect, resolvePath, resolveTo, stripBasename };\n//# sourceMappingURL=router.js.map\n","var _path;\nfunction _extends() { _extends = Object.assign ? Object.assign.bind() : function (target) { for (var i = 1; i < arguments.length; i++) { var source = arguments[i]; for (var key in source) { if (Object.prototype.hasOwnProperty.call(source, key)) { target[key] = source[key]; } } } return target; }; return _extends.apply(this, arguments); }\nimport * as React from \"react\";\nvar SvgShape = function SvgShape(props) {\n  return /*#__PURE__*/React.createElement(\"svg\", _extends({\n    width: 17,\n    height: 16,\n    fill: \"none\",\n    xmlns: \"http://www.w3.org/2000/svg\"\n  }, props), _path || (_path = /*#__PURE__*/React.createElement(\"path\", {\n    fillRule: \"evenodd\",\n    clipRule: \"evenodd\",\n    d: \"M8.8.424A.725.725 0 0 0 8.146 0a.725.725 0 0 0-.652.424L5.417 4.831l-4.648.71a.737.737 0 0 0-.587.52.786.786 0 0 0 .185.78l3.362 3.427-.793 4.842a.778.778 0 0 0 .289.745.7.7 0 0 0 .766.057l4.156-2.287 4.156 2.287a.7.7 0 0 0 .766-.057.778.778 0 0 0 .29-.745l-.794-4.842 3.362-3.428a.786.786 0 0 0 .184-.78.737.737 0 0 0-.586-.518l-4.648-.711L8.8.424Z\",\n    fill: \"#04049B\"\n  })));\n};\nexport { SvgShape as ReactComponent };\nexport default \"data:image/svg+xml;base64,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\";","var _path;\nfunction _extends() { _extends = Object.assign ? Object.assign.bind() : function (target) { for (var i = 1; i < arguments.length; i++) { var source = arguments[i]; for (var key in source) { if (Object.prototype.hasOwnProperty.call(source, key)) { target[key] = source[key]; } } } return target; }; return _extends.apply(this, arguments); }\nimport * as React from \"react\";\nvar SvgArrowDw = function SvgArrowDw(props) {\n  return /*#__PURE__*/React.createElement(\"svg\", _extends({\n    width: 22,\n    height: 12,\n    fill: \"none\",\n    xmlns: \"http://www.w3.org/2000/svg\"\n  }, props), _path || (_path = /*#__PURE__*/React.createElement(\"path\", {\n    d: \"M2.683.432a1.645 1.645 0 0 0-2.223 0 1.411 1.411 0 0 0 0 2.085l9.429 8.847a1.646 1.646 0 0 0 2.222 0l9.429-8.847a1.41 1.41 0 0 0 0-2.085 1.645 1.645 0 0 0-2.223 0L11 8.236 2.683.432Z\",\n    fill: \"#fff\"\n  })));\n};\nexport { SvgArrowDw as ReactComponent };\nexport default \"data:image/svg+xml;base64,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\";","var _path;\nfunction _extends() { _extends = Object.assign ? Object.assign.bind() : function (target) { for (var i = 1; i < arguments.length; i++) { var source = arguments[i]; for (var key in source) { if (Object.prototype.hasOwnProperty.call(source, key)) { target[key] = source[key]; } } } return target; }; return _extends.apply(this, arguments); }\nimport * as React from \"react\";\nvar SvgArrowRb = function SvgArrowRb(props) {\n  return /*#__PURE__*/React.createElement(\"svg\", _extends({\n    width: 16,\n    height: 17,\n    fill: \"none\",\n    xmlns: \"http://www.w3.org/2000/svg\"\n  }, props), _path || (_path = /*#__PURE__*/React.createElement(\"path\", {\n    d: \"M7.293.793a1 1 0 0 1 1.414 0l7 7a1 1 0 0 1 0 1.414l-7 7a1 1 0 0 1-1.414-1.414L12.586 9.5H1a1 1 0 1 1 0-2h11.586L7.293 2.207a1 1 0 0 1 0-1.414Z\",\n    fill: \"#04049B\"\n  })));\n};\nexport { SvgArrowRb as ReactComponent };\nexport default \"data:image/svg+xml;base64,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\";","var _path;\nfunction _extends() { _extends = Object.assign ? Object.assign.bind() : function (target) { for (var i = 1; i < arguments.length; i++) { var source = arguments[i]; for (var key in source) { if (Object.prototype.hasOwnProperty.call(source, key)) { target[key] = source[key]; } } } return target; }; return _extends.apply(this, arguments); }\nimport * as React from \"react\";\nvar SvgArrowUp = function SvgArrowUp(props) {\n  return /*#__PURE__*/React.createElement(\"svg\", _extends({\n    width: 16,\n    height: 9,\n    fill: \"none\",\n    xmlns: \"http://www.w3.org/2000/svg\"\n  }, props), _path || (_path = /*#__PURE__*/React.createElement(\"path\", {\n    d: \"M14.049 8.264c.446.42 1.17.42 1.616 0a1.026 1.026 0 0 0 0-1.516L8.808.314a1.197 1.197 0 0 0-1.616 0L.335 6.748a1.026 1.026 0 0 0 0 1.516c.446.42 1.17.42 1.616 0L8 2.59l6.049 5.675Z\",\n    fill: \"#04049B\"\n  })));\n};\nexport { SvgArrowUp as ReactComponent };\nexport default \"data:image/svg+xml;base64,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\";","var _path;\nfunction _extends() { _extends = Object.assign ? Object.assign.bind() : function (target) { for (var i = 1; i < arguments.length; i++) { var source = arguments[i]; for (var key in source) { if (Object.prototype.hasOwnProperty.call(source, key)) { target[key] = source[key]; } } } return target; }; return _extends.apply(this, arguments); }\nimport * as React from \"react\";\nvar SvgClose = function SvgClose(props) {\n  return /*#__PURE__*/React.createElement(\"svg\", _extends({\n    width: 17,\n    height: 18,\n    fill: \"none\",\n    xmlns: \"http://www.w3.org/2000/svg\"\n  }, props), _path || (_path = /*#__PURE__*/React.createElement(\"path\", {\n    fillRule: \"evenodd\",\n    clipRule: \"evenodd\",\n    d: \"M13.442 1.438a1.5 1.5 0 0 1 2.122 2.121L10.123 9l5.44 5.44a1.5 1.5 0 0 1-2.12 2.122l-5.441-5.44-5.441 5.44a1.5 1.5 0 0 1-2.122-2.121L5.88 9 .44 3.56a1.5 1.5 0 1 1 2.12-2.122l5.442 5.44 5.44-5.44Z\",\n    fill: \"#04049B\"\n  })));\n};\nexport { SvgClose as ReactComponent };\nexport default \"data:image/svg+xml;base64,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\";","var _path;\nfunction _extends() { _extends = Object.assign ? Object.assign.bind() : function (target) { for (var i = 1; i < arguments.length; i++) { var source = arguments[i]; for (var key in source) { if (Object.prototype.hasOwnProperty.call(source, key)) { target[key] = source[key]; } } } return target; }; return _extends.apply(this, arguments); }\nimport * as React from \"react\";\nvar SvgDot = function SvgDot(props) {\n  return /*#__PURE__*/React.createElement(\"svg\", _extends({\n    width: 3,\n    height: 3,\n    fill: \"none\",\n    xmlns: \"http://www.w3.org/2000/svg\"\n  }, props), _path || (_path = /*#__PURE__*/React.createElement(\"path\", {\n    d: \"M.785 1.793c0-.32.082-.545.246-.674a.952.952 0 0 1 .61-.2c.238 0 .441.067.609.2.172.13.258.354.258.674 0 .312-.086.539-.258.68a.934.934 0 0 1-.61.205.934.934 0 0 1-.609-.205c-.164-.141-.246-.368-.246-.68Z\",\n    fill: \"#000\"\n  })));\n};\nexport { SvgDot as ReactComponent };\nexport default \"data:image/svg+xml;base64,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\";","var _path;\nfunction _extends() { _extends = Object.assign ? Object.assign.bind() : function (target) { for (var i = 1; i < arguments.length; i++) { var source = arguments[i]; for (var key in source) { if (Object.prototype.hasOwnProperty.call(source, key)) { target[key] = source[key]; } } } return target; }; return _extends.apply(this, arguments); }\nimport * as React from \"react\";\nvar SvgDropdownArrowBack = function SvgDropdownArrowBack(props) {\n  return /*#__PURE__*/React.createElement(\"svg\", _extends({\n    width: 8,\n    height: 15,\n    fill: \"none\",\n    xmlns: \"http://www.w3.org/2000/svg\"\n  }, props), _path || (_path = /*#__PURE__*/React.createElement(\"path\", {\n    d: \"M7.707 12.793a1 1 0 1 1-1.414 1.414l-6-6a1 1 0 0 1 0-1.414l6-6a1 1 0 0 1 1.414 1.414L2.414 7.5l5.293 5.293Z\",\n    fill: \"#04049B\"\n  })));\n};\nexport { SvgDropdownArrowBack as ReactComponent };\nexport default \"data:image/svg+xml;base64,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\";","var _path;\nfunction _extends() { _extends = Object.assign ? Object.assign.bind() : function (target) { for (var i = 1; i < arguments.length; i++) { var source = arguments[i]; for (var key in source) { if (Object.prototype.hasOwnProperty.call(source, key)) { target[key] = source[key]; } } } return target; }; return _extends.apply(this, arguments); }\nimport * as React from \"react\";\nvar SvgDropdownArrowBackW = function SvgDropdownArrowBackW(props) {\n  return /*#__PURE__*/React.createElement(\"svg\", _extends({\n    width: 8,\n    height: 14,\n    fill: \"none\",\n    xmlns: \"http://www.w3.org/2000/svg\"\n  }, props), _path || (_path = /*#__PURE__*/React.createElement(\"path\", {\n    d: \"M7.707 12.293a1 1 0 1 1-1.414 1.414l-6-6a1 1 0 0 1 0-1.414l6-6a1 1 0 0 1 1.414 1.414L2.414 7l5.293 5.293Z\",\n    fill: \"#fff\"\n  })));\n};\nexport { SvgDropdownArrowBackW as ReactComponent };\nexport default \"data:image/svg+xml;base64,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\";","var _path;\nfunction _extends() { _extends = Object.assign ? Object.assign.bind() : function (target) { for (var i = 1; i < arguments.length; i++) { var source = arguments[i]; for (var key in source) { if (Object.prototype.hasOwnProperty.call(source, key)) { target[key] = source[key]; } } } return target; }; return _extends.apply(this, arguments); }\nimport * as React from \"react\";\nvar SvgDropdownArrowFront = function SvgDropdownArrowFront(props) {\n  return /*#__PURE__*/React.createElement(\"svg\", _extends({\n    width: 8,\n    height: 15,\n    fill: \"none\",\n    xmlns: \"http://www.w3.org/2000/svg\"\n  }, props), _path || (_path = /*#__PURE__*/React.createElement(\"path\", {\n    d: \"M.293 12.793a1 1 0 1 0 1.414 1.414l6-6a1 1 0 0 0 0-1.414l-6-6A1 1 0 0 0 .293 2.207L5.586 7.5.293 12.793Z\",\n    fill: \"#04049B\"\n  })));\n};\nexport { SvgDropdownArrowFront as ReactComponent };\nexport default \"data:image/svg+xml;base64,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\";","var _path;\nfunction _extends() { _extends = Object.assign ? Object.assign.bind() : function (target) { for (var i = 1; i < arguments.length; i++) { var source = arguments[i]; for (var key in source) { if (Object.prototype.hasOwnProperty.call(source, key)) { target[key] = source[key]; } } } return target; }; return _extends.apply(this, arguments); }\nimport * as React from \"react\";\nvar SvgDropdownArrowFrontW = function SvgDropdownArrowFrontW(props) {\n  return /*#__PURE__*/React.createElement(\"svg\", _extends({\n    width: 8,\n    height: 14,\n    fill: \"none\",\n    xmlns: \"http://www.w3.org/2000/svg\"\n  }, props), _path || (_path = /*#__PURE__*/React.createElement(\"path\", {\n    d: \"M.293 12.293a1 1 0 1 0 1.414 1.414l6-6a1 1 0 0 0 0-1.414l-6-6A1 1 0 0 0 .293 1.707L5.586 7 .293 12.293Z\",\n    fill: \"#fff\"\n  })));\n};\nexport { SvgDropdownArrowFrontW as ReactComponent };\nexport default \"data:image/svg+xml;base64,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\";","var _circle;\nfunction _extends() { _extends = Object.assign ? Object.assign.bind() : function (target) { for (var i = 1; i < arguments.length; i++) { var source = arguments[i]; for (var key in source) { if (Object.prototype.hasOwnProperty.call(source, key)) { target[key] = source[key]; } } } return target; }; return _extends.apply(this, arguments); }\nimport * as React from \"react\";\nvar SvgEmpty = function SvgEmpty(props) {\n  return /*#__PURE__*/React.createElement(\"svg\", _extends({\n    width: 8,\n    height: 9,\n    fill: \"none\",\n    xmlns: \"http://www.w3.org/2000/svg\"\n  }, props), _circle || (_circle = /*#__PURE__*/React.createElement(\"circle\", {\n    cx: 4,\n    cy: 4.111,\n    r: 3.75,\n    stroke: \"#04049b\",\n    strokeWidth: 0.5\n  })));\n};\nexport { SvgEmpty as ReactComponent };\nexport default 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\"}))));};export{SvgEsnLogo as ReactComponent};export default\"data:image/svg+xml;base64,<svg width="208" height="69" viewBox="0 0 208 69" fill="none" xmlns="http://www.w3.org/2000/svg" xmlns:xlink="http://www.w3.org/1999/xlink">
<mask id="mask0_1207_8682" style="mask-type:alpha" maskUnits="userSpaceOnUse" x="0" y="0" width="208" height="69">
<rect width="208" height="69" fill="url(#pattern0)"/>
</mask>
<g mask="url(#mask0_1207_8682)">
<rect width="208" height="69" fill="#04049B"/>
</g>
<defs>
<pattern id="pattern0" patternContentUnits="objectBoundingBox" width="1" height="1">
<use xlink:href="#image0_1207_8682" transform="matrix(0.000244141 0 0 0.00073596 0 -0.00707654)"/>
</pattern>
<image id="image0_1207_8682" width="4096" height="1378" 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\"}))));};export{SvgEsnLogoW as ReactComponent};export default\"data:image/svg+xml;base64,<svg width="203" height="67" viewBox="0 0 203 67" fill="none" xmlns="http://www.w3.org/2000/svg" xmlns:xlink="http://www.w3.org/1999/xlink">
<rect width="203" height="67" fill="url(#pattern0)"/>
<defs>
<pattern id="pattern0" patternContentUnits="objectBoundingBox" width="1" height="1">
<use xlink:href="#image0_433_56" transform="matrix(0.000244141 0 0 0.00073971 0 -0.0092901)"/>
</pattern>
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\";","var _path, _path2;\nfunction _extends() { _extends = Object.assign ? Object.assign.bind() : function (target) { for (var i = 1; i < arguments.length; i++) { var source = arguments[i]; for (var key in source) { if (Object.prototype.hasOwnProperty.call(source, key)) { target[key] = source[key]; } } } return target; }; return _extends.apply(this, arguments); }\nimport * as React from \"react\";\nvar SvgFace = function SvgFace(props) {\n  return /*#__PURE__*/React.createElement(\"svg\", _extends({\n    width: 50,\n    height: 50,\n    fill: \"none\",\n    xmlns: \"http://www.w3.org/2000/svg\"\n  }, props), _path || (_path = /*#__PURE__*/React.createElement(\"path\", {\n    d: \"M25 49c13.255 0 24-10.745 24-24S38.255 1 25 1 1 11.745 1 25s10.745 24 24 24Z\",\n    stroke: \"#fff\",\n    strokeWidth: 2,\n    strokeMiterlimit: 10\n  })), _path2 || (_path2 = /*#__PURE__*/React.createElement(\"path\", {\n    d: \"m34.626 31.545 1.09-7.097h-6.81v-4.605c0-1.942.951-3.834 4.001-3.834h3.096V9.967s-2.809-.48-5.495-.48c-5.608 0-9.274 3.4-9.274 9.552v5.41H15v7.096h6.234v17.157c1.25.196 2.531.298 3.837.298a24.69 24.69 0 0 0 3.836-.298V31.545h5.72Z\",\n    fill: \"#fff\"\n  })));\n};\nexport { SvgFace as ReactComponent };\nexport default \"data:image/svg+xml;base64,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\";","var _g, _defs;\nfunction _extends() { _extends = Object.assign ? Object.assign.bind() : function (target) { for (var i = 1; i < arguments.length; i++) { var source = arguments[i]; for (var key in source) { if (Object.prototype.hasOwnProperty.call(source, key)) { target[key] = source[key]; } } } return target; }; return _extends.apply(this, arguments); }\nimport * as React from \"react\";\nvar SvgFileIcon = function SvgFileIcon(props) {\n  return /*#__PURE__*/React.createElement(\"svg\", _extends({\n    width: 72,\n    height: 73,\n    fill: \"none\",\n    xmlns: \"http://www.w3.org/2000/svg\"\n  }, props), _g || (_g = /*#__PURE__*/React.createElement(\"g\", {\n    filter: \"url(#file_icon_svg__a)\"\n  }, /*#__PURE__*/React.createElement(\"rect\", {\n    x: 8,\n    y: 8.5,\n    width: 56,\n    height: 56,\n    rx: 12,\n    fill: \"#fff\",\n    shapeRendering: \"crispEdges\"\n  }), /*#__PURE__*/React.createElement(\"path\", {\n    d: \"M30.222 36.5a1.45 1.45 0 0 0-1.444 1.455 1.45 1.45 0 0 0 1.444 1.454h11.556a1.45 1.45 0 0 0 1.444-1.454 1.45 1.45 0 0 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/*#__PURE__*/React.createElement(\"feBlend\", {\n    in2: \"BackgroundImageFix\",\n    result: \"effect1_dropShadow_569_197\"\n  }), /*#__PURE__*/React.createElement(\"feBlend\", {\n    \"in\": \"SourceGraphic\",\n    in2: \"effect1_dropShadow_569_197\",\n    result: \"shape\"\n  })))));\n};\nexport { SvgFileIcon as ReactComponent };\nexport default 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_path;\nfunction _extends() { _extends = Object.assign ? Object.assign.bind() : function (target) { for (var i = 1; i < arguments.length; i++) { var source = arguments[i]; for (var key in source) { if (Object.prototype.hasOwnProperty.call(source, key)) { target[key] = source[key]; } } } return target; }; return _extends.apply(this, arguments); }\nimport * as React from \"react\";\nvar SvgFilterIcon = function SvgFilterIcon(props) {\n  return /*#__PURE__*/React.createElement(\"svg\", _extends({\n    width: 16,\n    height: 15,\n    fill: \"none\",\n    xmlns: \"http://www.w3.org/2000/svg\"\n  }, props), _path || (_path = /*#__PURE__*/React.createElement(\"path\", {\n    fillRule: \"evenodd\",\n    clipRule: \"evenodd\",\n    d: \"M.068.434A.726.726 0 0 1 .728 0h14.545c.283 0 .54.17.66.434a.768.768 0 0 1-.105.8L10.182 8.12v6.13c0 .26-.13.501-.345.638a.708.708 0 0 1-.708.033l-2.909-1.5a.753.753 0 0 1-.402-.671V8.12L.172 1.234a.769.769 0 0 1-.104-.8ZM2.295 1.5 7.1 7.36a.764.764 0 0 1 .172.485v4.442l1.454.75V7.845c0-.177.061-.349.172-.484L13.705 1.5H2.295Z\",\n    fill: \"#000\"\n  })));\n};\nexport { SvgFilterIcon as ReactComponent };\nexport default \"data:image/svg+xml;base64,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\";","var _circle;\nfunction _extends() { _extends = Object.assign ? Object.assign.bind() : function (target) { for (var i = 1; i < arguments.length; i++) { var source = arguments[i]; for (var key in source) { if (Object.prototype.hasOwnProperty.call(source, key)) { target[key] = source[key]; } } } return target; }; return _extends.apply(this, arguments); }\nimport * as React from \"react\";\nvar SvgFull = function SvgFull(props) {\n  return /*#__PURE__*/React.createElement(\"svg\", _extends({\n    width: 10,\n    height: 10,\n    fill: \"none\",\n    xmlns: \"http://www.w3.org/2000/svg\"\n  }, props), _circle || (_circle = /*#__PURE__*/React.createElement(\"circle\", {\n    cx: 5,\n    cy: 5,\n    r: 5,\n    fill: \"#04049b\"\n  })));\n};\nexport { SvgFull as ReactComponent };\nexport default \"data:image/svg+xml;base64,PHN2ZyB3aWR0aD0iMTAiIGhlaWdodD0iMTAiIHZpZXdCb3g9IjAgMCAxMCAxMCIgZmlsbD0ibm9uZSIgeG1sbnM9Imh0dHA6Ly93d3cudzMub3JnLzIwMDAvc3ZnIj4KPGNpcmNsZSBjeD0iNSIgY3k9IjUiIHI9IjUiIGZpbGw9IiMwNDA0OWIiLz4KPC9zdmc+\";","var _path;\nfunction _extends() { _extends = Object.assign ? Object.assign.bind() : function (target) { for (var i = 1; i < arguments.length; i++) { var source = arguments[i]; for (var key in source) { if (Object.prototype.hasOwnProperty.call(source, key)) { target[key] = source[key]; } } } return target; }; return _extends.apply(this, arguments); }\nimport * as React from \"react\";\nvar SvgHamburguer = function SvgHamburguer(props) {\n  return /*#__PURE__*/React.createElement(\"svg\", _extends({\n    width: 17,\n    height: 18,\n    fill: \"none\",\n    xmlns: \"http://www.w3.org/2000/svg\"\n  }, props), _path || (_path = /*#__PURE__*/React.createElement(\"path\", {\n    fillRule: \"evenodd\",\n    clipRule: \"evenodd\",\n    d: \"M0 2.498a1.5 1.5 0 0 1 1.5-1.5h13.003a1.5 1.5 0 0 1 0 3H1.5a1.5 1.5 0 0 1-1.5-1.5ZM0 9a1.5 1.5 0 0 1 1.5-1.5h13.003a1.5 1.5 0 0 1 0 3H1.5A1.5 1.5 0 0 1 0 9Zm1.5 5.002a1.5 1.5 0 0 0 0 3h13.003a1.5 1.5 0 0 0 0-3H1.5Z\",\n    fill: \"#04049B\"\n  })));\n};\nexport { SvgHamburguer as ReactComponent };\nexport default \"data:image/svg+xml;base64,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\";","var _path;\nfunction _extends() { _extends = Object.assign ? Object.assign.bind() : function (target) { for (var i = 1; i < arguments.length; i++) { var source = arguments[i]; for (var key in source) { if (Object.prototype.hasOwnProperty.call(source, key)) { target[key] = source[key]; } } } return target; }; return _extends.apply(this, arguments); }\nimport * as React from \"react\";\nvar SvgHamburguerW = function SvgHamburguerW(props) {\n  return /*#__PURE__*/React.createElement(\"svg\", _extends({\n    width: 17,\n    height: 18,\n    fill: \"none\",\n    xmlns: \"http://www.w3.org/2000/svg\"\n  }, props), _path || (_path = /*#__PURE__*/React.createElement(\"path\", {\n    fillRule: \"evenodd\",\n    clipRule: \"evenodd\",\n    d: \"M0 2.498a1.5 1.5 0 0 1 1.5-1.5h13.003a1.5 1.5 0 0 1 0 3H1.5a1.5 1.5 0 0 1-1.5-1.5ZM0 9a1.5 1.5 0 0 1 1.5-1.5h13.003a1.5 1.5 0 0 1 0 3H1.5A1.5 1.5 0 0 1 0 9Zm1.5 5.002a1.5 1.5 0 0 0 0 3h13.003a1.5 1.5 0 0 0 0-3H1.5Z\",\n    fill: \"#fff\"\n  })));\n};\nexport { SvgHamburguerW as ReactComponent };\nexport default \"data:image/svg+xml;base64,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\";","var _path;\nfunction _extends() { _extends = Object.assign ? Object.assign.bind() : function (target) { for (var i = 1; i < arguments.length; i++) { var source = arguments[i]; for (var key in source) { if (Object.prototype.hasOwnProperty.call(source, key)) { target[key] = source[key]; } } } return target; }; return _extends.apply(this, arguments); }\nimport * as React from \"react\";\nvar SvgHistoryDown = function SvgHistoryDown(props) {\n  return /*#__PURE__*/React.createElement(\"svg\", _extends({\n    width: 10,\n    height: 8,\n    fill: \"none\",\n    xmlns: \"http://www.w3.org/2000/svg\"\n  }, props), _path || (_path = /*#__PURE__*/React.createElement(\"path\", {\n    fillRule: \"evenodd\",\n    clipRule: \"evenodd\",\n    d: \"M9.349 1.502c0 .213-.068.42-.194.592L5.48 7.09a1 1 0 0 1-1.61 0L.195 2.097A1 1 0 0 1 1.002.504H8.35c.552 0 .999.447.999.998Z\",\n    fill: \"#04049B\"\n  })));\n};\nexport { SvgHistoryDown as ReactComponent };\nexport default \"data:image/svg+xml;base64,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\";","var _path;\nfunction _extends() { _extends = Object.assign ? Object.assign.bind() : function (target) { for (var i = 1; i < arguments.length; i++) { var source = arguments[i]; for (var key in source) { if (Object.prototype.hasOwnProperty.call(source, key)) { target[key] = source[key]; } } } return target; }; return _extends.apply(this, arguments); }\nimport * as React from \"react\";\nvar SvgHistoryFront = function SvgHistoryFront(props) {\n  return /*#__PURE__*/React.createElement(\"svg\", _extends({\n    width: 7,\n    height: 10,\n    fill: \"none\",\n    xmlns: \"http://www.w3.org/2000/svg\"\n  }, props), _path || (_path = /*#__PURE__*/React.createElement(\"path\", {\n    fillRule: \"evenodd\",\n    clipRule: \"evenodd\",\n    d: \"M.999.326c.212 0 .42.068.591.194l4.995 3.675a1 1 0 0 1 0 1.61L1.593 9.48A1 1 0 0 1 0 8.673V1.325C0 .773.447.326.999.326Z\",\n    fill: \"#04049B\"\n  })));\n};\nexport { SvgHistoryFront as ReactComponent };\nexport default \"data:image/svg+xml;base64,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\";","var _path, _path2, _path3;\nfunction _extends() { _extends = Object.assign ? 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\"\n 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<rect width="295" height="91" fill="url(#pattern0)"/>
<defs>
<pattern id="pattern0" patternContentUnits="objectBoundingBox" width="1" height="1">
<use xlink:href="#image0_322_490" transform="matrix(0.00191939 0 0 0.00622218 0 -0.00088587)"/>
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"/>
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\";","var _path, _defs;\nfunction _extends() { _extends = Object.assign ? Object.assign.bind() : function (target) { for (var i = 1; i < arguments.length; i++) { var source = arguments[i]; for (var key in source) { if (Object.prototype.hasOwnProperty.call(source, key)) { target[key] = source[key]; } } } return target; }; return _extends.apply(this, arguments); }\nimport * as React from \"react\";\nvar SvgLinkAsn = function SvgLinkAsn(props) {\n  return /*#__PURE__*/React.createElement(\"svg\", _extends({\n    width: 321,\n    height: 91,\n    fill: \"none\",\n    xmlns: \"http://www.w3.org/2000/svg\",\n    xmlnsXlink: \"http://www.w3.org/1999/xlink\"\n  }, props), _path || (_path = /*#__PURE__*/React.createElement(\"path\", {\n    fill: \"url(#link-asn_svg__a)\",\n    d: \"M0 0h321v91H0z\"\n  })), _defs || (_defs = /*#__PURE__*/React.createElement(\"defs\", null, /*#__PURE__*/React.createElement(\"pattern\", {\n    id: \"link-asn_svg__a\",\n    patternContentUnits: \"objectBoundingBox\",\n    width: 1,\n    height: 1\n  }, /*#__PURE__*/React.createElement(\"use\", {\n    xlinkHref: \"#link-asn_svg__b\",\n    transform: \"matrix(.00227 0 0 .00802 0 -.005)\"\n  })), /*#__PURE__*/React.createElement(\"image\", {\n    id: \"link-asn_svg__b\",\n    width: 440,\n    height: 126,\n    xlinkHref: 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oASF23OfEoXtCKh0SbGOpVvMTChv0xpeL53035fHLosZ9Yl2mTGDZOpQII9Npozpq1dwdMxtZWKsX62C4xdA3b86Dug4oM4B7YISKHZFVbBR8260D9HB1BHo3r9VDqA5YrYg72XrIR6l3W02uyWKC+TJwm+V8rkF+c6VHMWSi3jV/eo4oOOAkgMxCkolEOFnL3wv3/AICv6oW7BU48y3+YowdMxlXa2Cg75+hugU8kX7cooQoNGBdW86Dug4IHEgLkGp0j5Onn/aY+i28Aj2v3Vc+244wCpko9oF1s5to1MVv5s60xH6rXIgDkGpmqnp7T92P2OGDIYGmb7VUujo0sIBliAvXHv58tX7XPaWWj7ronQc0HEg3hyI6wijSoUMC/ukm5fFm6XfCiBVl15PLyAw7FshSEeHjgPfLQfi0Ci/23JpIRxZzwKrtJbwPayzIuYgFZtHLSVJSJRy4zsh6XSwOg7oOPCVA/ESlN/1yqREvOp/1eFm1Z6vtKGvWnz9yof/bIiN7/9s2XQF03EgtTgQL0GZWsQkTz7oi9jEhIVFBAZ/NDLMyOavna1ZZkvjHNkscuewMDM1MDUx4FcsvyZPlimAJTz8U/oM6dv13aifSW3bOsbMhCWQZAGUrLIRdJ8+fRK5ZsiQ4XtQx2NkUeRnyWhK1ULiWnSKEUcaf1CVIJKKEHSIqklP3afu6hitAkq+a04mqCL/a4IyU8YM7Pb6vg/GMqZDixLFC2fLbGlkbm74PRqBLlt/BXFpoJ8xPpKPnhISGo6INDJkzy05JSWdIWPG/0I7QaYgX4SAoZMjXBLUVdIcmGYQERGRKZO0pxoaEhoUHGRkaGhsYiII41OqVZPgnuCl4GqaMyelCfjO2kos7FApPp8N9DO0blr06cUR25d3atWoqGMuK0sLowwKD2OxYPimPgWHhP+95AzEx0dKAmNjbTJuaK0/RtUrUSRb8hZk86ZNxvoGWa0zo0xeu3aNDpm8+FMHGyyiYy9auLBi2XLz5sxFSsaHsalDWzxzYcR69+7diGG/5MmVu2ihQpXKVyhepGhOu2zVKlVe7+ISFpZKu3bwDe6td1lXsVy5qVOmwNXvjpPxZLgS7L+gKaBMhYZFcA7vx/Zle3cqy8ya+RXbIMhHWZFE1aI6VXPS76BaM2ZM/+eiM0y9I8Kj5rzKOlMLq4YBvb8nNi5bwp5PnX4oWbrefIxek15OoaTs2bU7R44caCuWVlZjRo06fOxYaiovaoVN9CtSZsmixX9M+d3M1PSPKVPQy/oP+CnR2FI5IVUJ/bNn/T37r1mReukoAq/QoJcpk4GBgZeX16CBAx89ejz59ympoCmT9a6dO38ZOtTa2nrhwkUfP4ZPnDI5KQwRzSk0JMTQyCgpeFI07XcvKBETCIVKZXMtnNrc0twQZiENEZ3pVds1tDCEpuQFIoO0cKli5XewjeP3IWTfkXtQHp+616Ow6fWsrb42MpoyhYxX4lgzgHfoKYcPHcqcOTMBhIvr1Wuk+O4mraKU111dETFMFa2srP49f/47EpTU5++TJ69YttzA0ADmfwwPDwkKQk5+DP9oYWHBVzNTs6pVq6Za1Vy8cMHS0hIBZ2Fufu3q1VgbURwfqQ7G4KCgoHq165y/eOGbnch/W4LyE2qgymVDHNxVfA79GNG3c/mRA5zDPn5CNCAgEBLISrG0TRvyDwhlyfLJc9+HT989cHvn6RXg6xeMJBJgCkzfShDCQkIjoFwUIZ5kqZTleMLGC4wxJpO+/qqVK83NzdFTDPQN6JbmFhaTJ076beKEeKH4xoA6del84eK/vt6+qMb9Bwz4xqiLkRxkx9MnTzZv3IRAIWxtZfXb5MmNmzQWCTw9PZcvXXb1ypUSJUvEiCK5P3Tt1v3okaNv37zR19fv1adPUtDfunVrxNBf7t+/l7DmnpQsE5X2WxGUsCni06dcOaxeevjFU1ZmypQBITj11/qdWpWMiJBWJ+EA8iIi4hOf2NLZuPPGlRse9x6/ffTEm5k4+zyZMqUHOfrXN75qydQ7nupkoio9XonEdG/RggVM7lBaJV0mQ4aIT+GnTpyMp6AEAx0bIUt+MF1tq4F4vopcpDr5so0bE3EClYBXgcdtDKDMgtyrOzuvXuvi9uhRwUKFESt8BY9mdnJGfKJZZmAFJPrgDQ2k5SEQBaNqVZqo1GKAl4qsqlqyFo8ajNorubAIePr0aR8fHxMTE0MDg3WbNuYvUECwDuDs2bNPmDQx/OPHjKpNHrXk0iuZfqGW4kglip/pghofoJaEKnyRRYoWWb9xw+1btx2dHMtXqAB6vqplTaQgMvZMe/f4MTAwkFm8t7e3GoZv6vXbEZTpLEwNF09r7txqmYVqBh07mxB2H/xDp46uh5QEEskiwyMlZy4647LNlSk5bRK9DGMg+asIJLv+pYY/ia+iByYRSRKT0/SfuD0JCQ4h8Pbt25NnzlSvWsU2i62n56vzZ89VqSZN9NQeOga9gkjxS0ApHJXdSYSVvUv5VQ0t3OChl/LIn4AXPVCOIUCk9Mpug2qHAfzKLPhSunTpMmXKgI2w2idVOi0ZEa+kTaRVI0YNhlceCRf0xMwQASPzSpVI/Udkd/XylUwqw4My5co6OOLn6at5kEiA7q+eUvUukseHWmVyUvHElEoQXKhw4cJFipBKyRwZiYhUcljglAsr1ZSqmiwsLYODg2k5Iq3chERa+VWzrgW8QCuFVdhEZEr8fhOCkrbk4xc8aWozm8wmhfJl8XwTEGdR2RRu16x459al0ByVloZHTj0a9cch/4AwUxN9mKsxzsWJOHkA6Ikfw9kd1tPPlNoGbslTABWWLZs3hYaGwsacuXIVL1G8UMHCb954ffz48fp1VwQlbVRu94Rp7hf+/dfQ0BCHwIWLFDYxNT34zz8b129wdb0W+SmydNnSP/38c61atUQHeP78+bYtW7dv3fr6taeFhWWLlq06delEx6NjKKWhyILR7vixYzu3b7908aK3j0+WLFnKlCndpl27uvXqQaaAEb9nz5zJlEk/LCy0Zq1aHz58WL9uncuqNV5vvPz8/AJCggE+c+o0s8WQ0NBatWuJJIJdIuzr43vt2tV/9u0/f/7823fvQE3Boblu/XpVvqwAvn79+sqly0ePHD5/nlm8N03M1i5r02ZNKUKx4sVknAQggPU79PHw8PCSpUqZmZkd+ucgLL1w4SIbFwULFWzXvkOLVi0pjpxKEKP85ROvAQEBQuAGBgYJFim5pISXw0JUsYx46sSJgwcPnjh6zMfX19TUlHxbtfqB6nPKk4cCCrRyKkFJSEgIovnYsaOw3eu1F+oqZaxapVrjpk0qV61ibGxMvcPJjJkk6WFgYFi2XFk1DDdv3Dx6+PDuPbs93T0MjIwQqm3bta9eo7q9vbTfyHPn9m1//wBLK0tYIQnNdOwiZLh75w56JQEbG5uChQrRolhKpkUxR8yTx4m6UCWN9vPK49WTJ240KoCrVa9uZGQkt8locEl+0X652O9zTtLPJ4+oSxtFdxswZi8CKJ4z4kSQRPVg/Xdhf39+h0/6Z/+xB3EiyW1vuc+lG3MIJVU/j92H/w7kJowTLSxOPCkBwDoAYrp86ZzsIl299SokJDwlcpFxok1TR7tWdeHqDhFZpv4CDDCZGULJjhWdihTISnxQyMfyDRbeOTmUC+XibExwj6dLp06XLlxE7oweM3bAzwOnT522aP58png5c+Vk7xttUVYYkQXIBadcuYlh22fQ4EEvXrw4fuy4qZlpxgySHSjSMzgkqHWbdvMXLdi9c9foESNDQkPYHcqQMWMEWxMhIZkz2wweNqRX794AK8lzd3cfPmzY6ZOn6DB0A4oa8SkiLCSUDY1KlSutcXExMzendJ8iIkDF6kBWOzv3154gca5S7cmTx3RjLA0/hoU9fOIGmBIAmoVNoth13bVj5+xZsx7cv29iapIBXCoNjk8UJzAgwMf/A1lv3bxl7uzZbm5uUIIEhBXojIwcYWEfDY0Mx44d273nj6IKQP7yxcsSRYrqG+gj5uYtWHDy5Imzp05TBn3myHp6H8PYLv6Y1dZ207Zt+QvkVxZZYBC/Qt79PfOvObNnI+JBu2T5soaNGjGASUsiKnVVCR8VVknAB/cfjPhlmKvrdTzaSNSqljjBALeZGfz088C+/fspRybB+cuXLk2aMPHK5ctGxkaZMmZCbJELYOHhH1+9evXS05NpMtjgpHXmzGRnnyPH1euuIt+w0DCWaEYNH7Fl82awiUz5BA/JNFu2bMtWrihVujScbFS/AeuqiGA21sSqC7l4v3snhSMjm7dsuWrtGl8fH8dcuSEg/GN4x86dFi1dAgxpRV6QRO20atbi3NkzVDHIj506yWgk6lTAJOPv1xlrMiJNKCq0whYNCqsspdM1qy9dcaUUf2rYWF5kkP25V2U8LQowqoSGMXj8/sOnH2GeDTel9zR6yB3jx12ruyz7syV3aVw/8rO1ZUqNcilXRPon4gApSRYR4RHVqlcjULZsWQNDQ/rbrRu36DPK3Ck1ez7Ozs780mT37N579cpVU1OEmAWyEmyscpqYmB49cqhXjx9HDh+OsKPbW1tZG+hL5tMoKYjjpYsX37xxA1QCM6kwG+zeuTNb7SbGJuYW5nyiGxgZGmXSNzA2Nrp7526nDh2i6lqVKrONDWC2VpkXL1j44ME9pCSo6E9IB4GTvk3PtDTF2XvUQ3JKtHjhoiGDB6MtsltFZ6S/QTaokM4gbtq8ueifDo4Ovr4+fAUJxWERjlIgIpF9SMzfxo+/fesWHRjUWCKgFiEU2B3OlSvXgnnzrl9zRfSwSW1uaQk21j2RtsGhoY0bNAiWtrC1PwCCsGbtWqIIZDew/0+TJkxQERbFKC0p9fRu3LjRsV37Rw8fGRsZ0U8gA7FF7fALtzFWnzJp0pxZf/MJPoMBPsDec2fPtmjc5PGjR0CyNGtsZAxD+DMxQYtMX7BgYSpXwAtOwgdKJAgAA1Kyc4eOe/fsoZp4yEjQKTJlwGjWuAlqO/DotpBkZW0tpKQggFewMRlnNZYYshgybCiQWe2y7t29G50RySjy4pdqDQsNPX/+rG3WrIaGBl26dUWCi+FNhknGQNoLSrQhEyP9BjULUCrkG1e7IDGZr8ZYSD09+6xmTeoUVK2Js0QiVfCitRe27b/1LWzRQDjnJtFq2cb4FPEZnW7q6Prv/aVN9u/locXD//t37/r7+0NzuQoVUCGJrFGrZo6cOem6ltaWf06fTqMUfQYYqkCSLyrljlfW8TH46Nyty/pNG3fu2UNzR2YBQf2eOnkyPDzC1tZ26vTpW3ftWLNuHdNkNA7we7/z3rRxI8kJ0yXIaNyvYx4+fMSrmbnZrNlz7j16eOPObf569+2NpAHmhusNpuQiCb+Q/fnTZ4Dnzp2L7lGqdJkePX8cPGxo67Zt+Kr1gSrsn2ZMnYbkpW8jlX4aOGDt+nUnT58+cuw4OyfMGUVyPrFxYWOTpXffvpu2bnG9deP+40cQ89esvy0sJWEBquXLliF6JFmply5DxgwopyKeGM7StGrdBkVpx65di5YuzZMnL1NXdCVTU5ORw0dopU1EghCB+2OvXogGeALb16xaXTBvXszmmcAKGFgkY0Ckor8PHTTow4f35EuhunbvfujY0eu3b52/dHHK1KmUFDyI+6m//37q5AnCpIX4Rw8fdmjT1trGhhyZEXfs3HnZqhWHmYCfOrF5+/ZefXrDGSBjEkZgWLNyFasNTGXCI8L7/vQTzHG9dfPuwwdz5s9jkIBEzIl6dO8OEiq9Tdu23Xv0QA5CAA+1ySsrKu3at69UpTIwPKx4GKpaDjr+vj17GSdESWl4+gYGc2fPYTCmjMWLl6xYWUoCDap0yf+T9muUSLfsduYVy+RUFQ5m6nH0cLHLRUMDpmzqBYYRGPfMntSYD4IpyNm7D9/MmH/aysIY2aSeIC3ehewW2i4k1aji1LBmgdMXnjLRTAtyEpwnLY/OMH/+fAZ22mWePE5WVtKknki2O91fvqTtHjt8hBhlu6SJ0txFOw4JCR4+cuTQX4aJvAcOGoQVC/NW2jcwjPwLlyym8/PVwcFh+aqVzlWrerh78ImlMabw5EteDx8+3LtnN2oHOFe7rAVeICfVyNGjPTw86DnoZS5rXVq1bi1oZntX5BgSHNysWfO/59KRTEUM/VCzh4OQLdd5c+YgsxAugQGBJ8+dKVBAGrPFU8qqFI8IIz4I7Dv4D6qQiAEngQaNGt65cxtrdrSnndt2MMtG00RRQmrLEyN02kFDB48YNUokzJU7V/ny5QrkzUs/Z9kRi/G3b97aZrUVX7X+/jFtalhoyPr1G6wsLSkIy3Yzpk1buXw5m1Oz5syGpYK3lAjJuG7t2gf37puamTECDR469OfBgwROBE3rNq0LFSrYtFFjqSIyW0+fOr1GzVri68zpM1gZYCXB773f1u07ataqKVNSsKD52PHjxSsJ5Xg5QO4B/v6Mc4hpWPrbxIlIVbm+6tWvP3Xa9MEDB7Io9uTx48ePHstGrGfPnn3l4QEeRuXfJk2UEZKW1kXC7PbZ37x5w5Az9Y/fmYCTERUhMK9asQJxzwjNf5UqVZLTpkRAS5lTIpuYcCLmcF3RtY3UZ3hgDSpYn87lgoI+8iYilb8wyMREv55zPmbr8uAxbsZRC3Ojb0RKCmpl0kVX6d+tAnNWCqssyzcbphZCw8KuX70mJmsNGjWSSf3ll+GSvidNVzO5rF4LZFR5VefBczvkph3z1cjYpN9P/emlcsKevXqhFNDHeFjVElKSrwDzixKB0AHbgwcPggIDQULklAmTkCP02zLlygl4AMTD1zp16iIvoPD0yZO8Iij5FQ9ZMH/r+1M/WUoST8Iv37/+S0b37ty5qFphCPD/sHDpkjx58giSvgJ9IVLE0DPlTyRnrRDJ3rCxNHIjbf0D/AlQJGhg4SxX7txg4yF7pKTMEBKy2dWuQwf0buAxk3R3fymj1RqAP3/Nnr18xcrMNpkpLI80cw8OvnTpYvEiRQ4fPESOJBSsYzWZ+TIxBQoWZCFSiRCAIkWLNmjYkLUO6urly5csSgLw8MGDY8eOQSqLiYMHDUZKkoUyIWGpIDE8fHr06NE11XkEJyendh3aA/iluiTON23ejD00wGDCvr17ZTSCYAHMr5ypXF+169alDfCJFX/WE8RwxS8TfDKALZaWFj169pQRplAgjTVKWIh5IyY+iLmo4VcvHWt8tarmvXLTnU9qxQ77GNGgRgHYzXgtPt154PXM3VdWJdTg0+QVYhCLX0vE7LVkDq7xOnfpBb015saWJsRqyZRWOHPGn/Q0Wi1hJlMsdcFzFCVmteyiiHWlf/450LVHN5Fe9NICBQqShGbdrUd31CsZNWnz5M3Lgr6RkTHhjIpqFf3B3j4HqdB3EByY04qqfez2GOUowD/AJnPm+XPnklCFkI9sMGZ48eI5aYlECbp7926hQtLStnggJkcO+zJlvm7FfvkS7V+6KPhPnTwlVsSy2+coX6E8OHmiwUUXsqKjsud76dIlhMvDhw88X3kiXFiPYzH3C5GSjACJg4MDuYSGhY4aPZoABRSYxdcaNWtyYhpZj/XV+/fv1TJVe2VUgLdNmzdl63n7tq1HDh3es3s3S4RM3llP7du719p166rXqAF5YEPfJAtyzJ07t5ypQAhzUG9/GSntt6CH+n/4wP4VSwroeYhdhgGK0KptGwSQpgKuyRmZSFU7ucb8mhj4ydnzL8BSfQlWs2hLFsQzKZETxh4g4ZhxYxctmM/Ix+7XymXL5y9aKJJgNaHPClcG6VRP8xbNtRIcO/IEfU1jQekfGDaoV7TFBSEuf2hS9NyV55qCMjz8c9mS9vBaVv+v3fL88IEdwDQuiMx0RmlMnfqP2rN5SXsWi8R0mz6+8I/m+avOMjbS/6Y0X5lsOUA/gb17du5EALEpSQdmUin3f8Do2DRfYJ4+cXN7/DhvvnxyWhor3YL+nDNnTgDkeODpSGwNGxubEC+W8+WvBOjMrC0SoA/Tq6hdX19fpmmgYqsEiUBACU+YDo+Yk9JmyuTn6ysktYAhebhi1V8tofxKRoQZBgSpGCdhqaPEI0PKAQro/8G/fdu2dHX6PASQFkXSQt9CbLYoGUUqyIYLCFCGECVmUgFfsGBBlgKRTQwS7BfLucQUEDKaeUnbdu1a/fDD+IkThg0e7HrNlUwZOfr36Xfv8UPSYv2KbEqnlx6dsU7duprY0Pnt7OywoxJ1/UG1Es1UnZoFGBty27j4oImTmHv37opjsyjIf/05UxMG/ILVrGBqftUaA4WUulnzlocPHaSRMDLRIFn6ePbs2f17d+lrjL6/Tx1LWiV7taJKYmQaT72RI51blUKgyNNS0b3KFMuezZbVh6+dTZQTMIccVoT5BJt47jx4wwpFErmQvMmxxrh5z9P5h2Xc8fsFMytHGSYPr+v3PuRLzDf6L4y9cf2GP/Nf1bEZ1pvoxvRq+RGzRTjv7u5BL6UYhJWFoTKiRyg/qsIa1coqyxcHw1JVQgOKpNydEE9qNEAMMzho4/F7/97aWpqNytmAAtEsv8YUEESz/iUEkGrzWrvZtoyB7eDCBQq89nwFftY07bLZFS9evGjRYizdAhNLX1VjEcDEYCVOE45CnsAmTF4Iux27dzdq1EiMQ/4BAefPnQebn68P7AIfNk7ycmpULop/2MiGBliNsCYaPggiEdwxma8rUmsJvvZ8zZIxHygUQ6zcYOSAqC9+0YK1pNcWRdVQ+4OHDmHHnGLeu3fP9ZrkbeCG63UsKCGYUrA0RBaxMF8b4gTHpaUihm5Vu1oe2yym8jxaJt8ptzVWgbcfeCnaP/0nHS6CLC2j5nSwib78zN2PVXM54bcQgDC8Fr32Cjh25nHTetKUkObIGcq2zYqt23H9OQR/Y5JdjWknTxwPDgxkfo0KMH3mn8ggIUoAQ3qy+cCWN5Fsnm7btrVt+3aENadpajgT+mqAnVeUJeOnzl26VKhUEb1Mc9Waiy6Y9iKnEA0JzULAs1NPD6SbhQaHhH0MU5uoKnEiUAb06y/NdiMi2Cz6e+7sylWqYAYgYPI6OMaSVpNyUkmt9oucVGYUnzAECwWQQ+vnzp0PDZXMKjDuqVK1CiZZKLkg+RT+6Z33Oy3YVEcwUc0oCxWKJRAwrLQIIj9w4i00FHGpJWGsUeCBk4BgeM8+u+SKJoZ+ib1UrJiifaTvsIAAq+/dvUsYG3iWLDZuWM/aDjK0dZs2zOiFiI+WLLlf0kxQStItQ/p61fMhJV1ve2IULQ5rywVsWq8g8VhTozl+idQDxtgwathnMOaTr1/Qt6ZRQi0UIw319b+yF9HJX7+uFcZOP0LRFYX6Urhv4F8aOoMzmxvMXpkLN2veDBsOWiENVFBHGFXu4oV/T544yfIQC3xoIrTU5KUdMrJksZWcIjH7/vyJNa+WrVrFnoUsymMHU34V4ysnQG7dvEk8C51sPdvnkBZ2lGBy+Ny5c+w1sRbJut6e/QcqVq4oIIWcBSwVuqtMjBzIkSsnBkbMsiEGeyDiseViqw0JiFUjFdSla1cZmABEYid//949DgKQhOFQEpHp0qk24qSO9vzp03dv3iaiTh0dHQRLsTBt2qyZkOMgTOJDzbLl7exc/c6tWwjH5UuW/jp27KGDhzjkThb1GzYAf0xVlsSslcnTbOrNFqipsb4wLx899dDDJ+pDX8eWpThcoqZsImu4hVUUgMkaSr7kaEdZoG84TDNs1aiIU26rVKjXxLEB3RDnC2fOnEZChYQGV6lWDTxKagnTWPPkzcfUEwGRzc5u7t9zaMrJKyPAjBGiodgZMDbmpCNkaGZBDJCJKympKCPJa9epzRkhXjFgOn7sKJEMFUqcwPAQ88brDcUnUyycHZ0cUGcEGEmwMycsqd6q5MQoMSRXGDI0mfDK3YPFEOJ5WAklr9wODhwVggaofYQVQXRrdojk0/Rp07GoJ2Bja1umbFnSlixZkvkyyRGjLi5rqVM1JR0YwQetxUEuV6lWPShYOifKSdZnT5+SEUmUwLFg4FPsgrVZixZmFhjq62GF3rtnT3EUEhGPPaYyi5QLp0iNxkkuVRgaGtG8YREmWDj4cb316sp1D2UqmgTjeuPaBYJDo7XaaIyPSbNXIkrTsJpqIgT60j9bYgrKwbA0JU1L5jRWdic4LMgklwrCIlppUahMULpM6Tx58gGPdom1Np+AVwIkMSywjR49mk5Of8NW6bdx44kkTI50YH4RZ8QkSSSpaC5RokQ+1X4UM8cZ02ccP3oMJiAEyYJHiBWRC5vXBMiUVTZ2uvgqwCjswvkL+OWV+NOnTiXjQgRM5jlz+vSmDRtF7lFMUJnokyk+27FPAsbf/0OTZk2FlP917BgMlRjMsDadP3ceYCxQ8AnWQdv2rdsuX7rIhABpmCtnjvz58wOQN2++yqrz7CwgbN+yhaNKBJCMKjZIJY2T2wULFihUSJLU1MpPffuBnCQkJ1PxaMXA5q2qiJFi4YJZP0nUxioAcJhkb59dNYn8zBknAIjs/mMPsiPAb0o/aSUo0wUEhY3oLykss5eez2xlfOycGxaU8o4wDRJ18qduFVgwUfbB5OyOKc1abfgZALjjbED3igGBiVxT04Y1eeLogSD6a+af7ADQpnPndqB1akVdvXr19NIpe2mh3djEaO/uPVrBkhLJ9nfd+vWxyOOwI4StX7u2VbPmbo+l89qiY/j5+mHg0qJJM9woJDojRE92e/s6desJtAiSIYN+HvLzIK/Xr8mF58XzFwP69uMECwDM9SgvARohttksCNBdiRkyaPA/Bw4Qj1hBLeIEDuHkesBJXaxzcZkwblzJosVWrljBIXoyJePz587VrlHj6NEjVATCBR+R+FemRFDVqUuX7Nmy09j4tHjhwpHDfiEeVJRo2ZKl48aMYYiBkcEhwYuWLIVUsjA2MW7VsiWDhPSaPgNG+J3atcfmX8WGSBZYfp80qUcXaRYvmKBWQKbw2bJnd65RE3gEMIdBixQoCFuk5GSsOhF/7syZmtWd7929p0yLn1NeqWJmKtg88UsK6lgJA3m8jv71VyEfIYByYaCOZwBixFclfEqEvy6ipQT2mHAGBX9s16wYZ28eP/PGny6GdWcvPv8QEGpuaiB70mJe7eSQuUThbC89P8gTcC44wHmaQAvzGN+xWIzG1Jiy/DbipQHg0+d+3SvuPXIf06hvg6goKtA1MNzxeOlhZW1F2DGPk1byaMfoTZYWlnZZs3p4vmLz8cTxY81aNNcKnOhIJoD0h607d9R2roE2xHm127dvV69cmb7OKiGHo9E6rCwsMxlkYpaXiAU1mTCKww0KXq899+7Zyzljdmsxh3ZZu1YaNlTzQUNj43LlygFfoWJFPO7gqYEw9whxCoWDz+yD4waYGKm7Sst/GQNUNucy/iQGIA9Ktm/Zms3eHmk4Yez4UWEjYAhooRZhLWlkenocch8zbhyRSBAe5B3nnVo0lRYKqcodO3esWbOGLRHOziNZsMOHWraecVHBuRey4BVZ1rVHdw6Mrlq5AuWaTC9fvuJcuQoqHnvZqJ9ECjEKpNZCgef3aVMRkQf27wcYGM71i30hMkWucX5R38Bw144dOJcSmQLTpn27MaN+ZZkVPf3H7t19vH3Ycvihdet1Gzcoc0Enda5Zg+IIMR0UGDRMde6LwirBUi6cNhol5enapgy/R0+74X5cGnEiI3cdvIsNDRwUpaUFYE/aqHYBjIe+lD/yY1gEjmOiXtnyTK9nYaYagr5AfFP/Cv2Xsimpolw2VsYdW5VUTeMEiPJ7WoZRJzNnscEoD8MXjHi1kiIG8M7durLIpZ9JHxXgtSdn8LwAptUi0fjT2nxp5UyvpEeltiiRo+9IX/n/i6kdX+nhHAk/de4sEzqO6wCDOEBpIkebLFly2Nszd0SvROsBWDQbCYl4NLIQ2QkAfuXcKQ5pFy9b9suIEcGq+Slfs2bNihDMniMHOeII8sjhw8CjaOOsiJ0cgQSpgTKLHwcMKsdN+I1XDttQhuvXr8v0IF9EoSBezlEOkLWEiv/xxaMNAEjikRG16tT54OeHoDSzMMPYk11jHsn0Ry/d+w/+LC8ePXE8W/ZsMmYCOHY7fvoUQpzlC5wAwTe2ufH7y3Y2+fLs2reHA4KywCIjeuEf06fOnjuXHDFZR32h+GjccAKGUGtPnj2logWpEuXRWQ1O8l26YvmgwYORjyCBQhJSX8hNxLSxqQkTkb2qYzmivhDHXbt1q1ipIvAgRII7ODrwUO/KshCmMfA7cPAgZuYEaENNmjUjeUx8U0ue9Fct9Zd0pHFiKF7YLq+DNcds9hxm9w3hmA55t3arZJQnSxUV29NVLe+AyzJkioQzMl1YOIIyahGdKDRNK8t43VMYJ0kpAZBJP8ODJ+/UBKXIaEjvKoYGnCtQlSsl8k4UTvcXL2nZdtmy4itQeK7WioZRnW3N589fYMrHibr79++9fPECSEmEqR5sEjUT0utYiedPqGBKAH19A9LRmbPYZkF7EV1OANDH9h08uG3nTvYc+GrPtnQO+2x22bDLweEFjh4wHgJSJIklC4FNArC2RtbISUSA/jZi1EjXmzc7dOokSUmm2QiIrFnZGMEdmY/q2AwwGGM/c3+Jpwb2c+xz5ACI45WHjh7p07cvfJDESvbsd25JjioEPVj5EU/RKKAgQP4FgJJSIkqtFUBAkilHFXfs3nXx2tWu3bvlypUbgYjk4uFseIOGjU6fO7tt106hwcnIRQBheunqFcaAvPnz22XLhj9H+5w5HfM44qD+0dMnRYt99Z4p54X8at+xw+NnTwcMHACH8Vkn8UHKLXvbDh3e+/tT40JmSZzUVpsQPGb8uItXr7Zp04bSkVZiVA57Wzu7WrVrr123HpJkAceASlvavmsnk2gyUrFUykuc8FEWh1U5XvFwmkll+YSHUA4IkJcSJkXD0nCqmUHK+aMUDah3p3LD+la9dtOzfsdVWTJj+MqIkT4gMOzY1l75HCUnd8qnxg/LfXyDxIyblc1F05o3r18YADEYTpp1fM3Wa2wKKZOkeRi1kSn28pmtTEwyrd9+4+9JjSmjEP0qyqXwhWsvW3Rfl9naWKskjX8RYB0DSdL9UaJQKFserVmrYigIE8yPjUialWIUUMOm9hobHtWimOicgJEvj5JOmWw1nGqvpFXGyKnkrNVi8HaIPii+Kj/JYXz5YNEtANCe0K7UUEGnaO1yfKIDyrxAgnCRGcKr2ldlLkrImMJKeMIUkF+Zw8pUlIhPFErJSWLieFUwCmAlQl555OTKT0ruCZ6vXb3m11Gjzc1ZN0g/b8F8lrBF8tT5TT2RLMqjsov83LVtaV6nzT+Jr0YhqLElwM3Vxl03NIvdsHZ+Lg4TbU7yPvLCFxim6iKGm7sTbbWrmVfyxkAkLuMOHH/46CmusL/iJowYrVQmV/MGhdn9//ohTUNy3xBUxCIlAYhbBCjKC7waNrXX2MutFArkq0an/KqGU+1VjQY5lZy1WowsJQFQfpLDspQEQCklZfi4WSTnHVdAmRewSobwqvZViUwJGVNYCU+YAspl5FWZihKJQqnxNo7XL8OJyEiJUMTIyZWfREYAiHGRm5r+nvUXa7IQmDdfXqSkkNoCQyr8pqqgREBwATceJ1mke+Hhd+Wmh2xkLrFDT++Sq7umetWzXVk2f8R+DpraQzfJ4lKy+1c9+Zxs8CcUNTdPBYYlMAu28llhWLTmIumUVUtBiBnMBNxQsvtNIFYduI4D/y8cQN/EBG3wzwPZwGEDHQ9+W7dvR4VP5V6TqoISReT9h5DxQ2tRyfNXXuA8Igf75ApH/3r56v2dh2/kGAIAcJFOhdI5USp5ZXvn7KXnBDAe4pendNHsrG9+m4JSCEBEPHvc9x7h0+VrYQXxRfLb4jLu2yReUKj71XEgTTggtIoTx4736dmrS8dOmFei57J9N3fBfCNjY7H/npqEpaqg5B6eGpWcctlber0NQJ2knGLeLQpM+L1/KEqlKj5KDjLXJr5Pl/LcTEs8Quetd6DbMx/5fA72D2VL2DNz/5bVMkP9jIN/28eevmwoKorM78zxeAZkySlVK0LOXRfQceDb5IBQGD1fe2JywJ0cLFOyzd69R48WLVtCcCqrk+SYqv0TJ2kdW5VA8HHl1nP395qzbCwr2QeHLNnvDuIP4VK+ZE77bOYMMpii4qN3xaYrcEqeyY4ZVBMxKiaz31atf5lSIwcfP/XZtu+2GpEUQfIqNKKOjy9++r4t2nXU6DiQ5hwoX748G/ohQcG4QJ7x11+/jhvLhk+aUJV6gpIJZu4clhVK4akw3cadN7VaxuCAEo0SfVPpXgdI9nyqV3Bkuo2kZM/nwDHJdE6MKkRmzWLas2NZtNE04WBsmUapxdJCgZmJ/pzl5wMlz+1fH4rAbn675sVLF88uG9J//awL6Tjw/82B/AUKcI/Ihi2b9x040KhxY/RK5YZPavImlQSlUJdKFs3G9TivvPyPnH7MbFRbOSPxlLF223U0L1lhFALRubIjHjGQtiiYmKCv3SYZXfIwGSdmRP/q+Z1sNFVUAZPmvyiLyMHXbwPW75C29RH38sMaAoUd1LOKdIpYp1XKfNEFdBxQcYC7d6o7OwvLSuV2fCqzJ5UEJbKAa3AG9qhM8abMPmFtZYR2qFlU4kxNDLbskdxeoTIqARrWKsAGMXiENNy65xbX5ogwkWamBnMmN+FICDHIU2XCNAyrCT5k4uK1FwM5fRchnzWKoq5+jXzFCmXVqmWnFf3sNqZV1rp8dRyQOSCMKNW6kvw11QKpJFPY8OU0ToE8NjjOOfXv01jsw1EkMQa6evOVUrtCgLJ8ySkd+U6xm/e8tu+/A5tkxbN4Ibsjm37EWsj3fYhkg61Mn2rsjDUjSOLe2t/nnmLvXlP5nfd7M/yffyO7OqwEYd22bfOWls2aN23YiEv7fmjRAp8FUvm0DHCxFjvhH6lTjuthAsITu7yWIdNq6SrhhUueFDu373CuUrVBnbqlipfglDSMSh68KYyF+uLcNxbysVerkoo01CKjkaF8SaEwIgvhNbx/dfBv2HkDRVHTUEbOGi2R0WPfkftyDAEh9Pp2Ec6EJE3Twsxg1O8HPd8EKIeaLJlND6zr5jK/DR56OFWKVFUiSf1wNJVYJWHQfDftusHGjppJEHLT3s68f/eKeEtKfTrVchStuWXTZkOHDMHDK9dOuT1+dOvmLa7kBvLLnQ1qiZLtldzpRfjvefvmDb+xS0AEBKePgcTVWLJR8D0gwvUGboS4QxE/u+hcMO17oFqi8dWrV/g3wTvU90KwoDM1NEpsd9AlK5XNhb+co2fdqNJY6lXU+PU7nuiVSjCmq8UKZs3jYC0sbNgesTA3bNN7g59CsqCO8bVOtbyHNvZYMqNFiwaFg0PCMXFnzquUp2lYQ4wQyMrxfx5RowG5SQEH96ycPau0ua/2NZVf4dWP3brfvn0LPz10QqQVjfu9nx8nf6EkpTmJxoEIcHB0LJQvfx4Hxy6dOpMpkZpMQIZyg4qDg0PBfPmHDhqsCfAfjpFW6lX30nwvuqSoi2VLl5YqVrxWdefmTZoSE/soqLX6aJCkYihN5W6SGoISza5t02LMN92e+ty47am1/GqRXBn20uODcn7KQiQw3dqUljeOETrefsFteq0PDsZAM2rNU4AByTwdE0XXIwPbNSseECTJXLZ91HJJk9dPEZ/xVXzmwnO13NnxR4b26MAlqykti9RyVn/dumXLlcuXJacNGTOy7fjo6dPX795t3bGTNXV10JR5Zyna1NAIuYwQPHvq1I7t2zAw1toxuAbL0tQMTw2WVpYpQ4sOa/JwgOrDj9E/+w/gBCRzlixcE3bnzp2EbmEjH5mJkwpsqdxJUlxQskGB6lejshP8dtnhKu5pi5P37Hec/PeJvHUDPDohoyj3fbPbIydH9r3yCihZd/4l15dieq7cI4KVHNqZMa7B4/O/9Olc3tzMMCgkHOELKhlDyga0ZYS6CGGzlp4ha02ToH5dyttYGyMpUpawGLDT/ngu/ntBzOZw2bL/4D/cWELTrFm7ZqnSpWJIlwLRKq0aMiytrIcP/QVvhto7BmBCAVfBpwAdOpTJxgHcIFlYmDM5YN7NkyNHDuo3nthplkDi6X3+nLl4ay5XqjSXPorIeGJIIliKC0qcRuZ3tClWyI5ZMBbXWEHGh2KMhNZtl/z6iYm2SMJg4pDTskRhaQIoPzCLGXeXn7f+PHbvjTueQgiKNVDms5hzIxkzZsqAs6J9Ll3/HNeApcB3PkGIb1n3lFGlWgDl+tJ1jx0H7rAmoDnP/nti47c+gWlCHiM2Xguvqq66xkXgj7160ZRp3/gKhM88aiwSkZrxamCar3EnUY1lXI9FJSKmhw8dpokk/jGCzvjDJxoylnIJGmIB0JqpnCqeCQW8VlRaIxMKDxKZpAQhZJyj/46fMIF74spXKL9q7RrJn6a2J4qk6I1N3OeDo7YlixffunWL+8pxN6d97IyOE2zRIxL5lrKCEo0vMPgjBxChbt7Kf7GdjCfZiImnL33xf46kk0uGfobpT9UKDsQoeYQoZBv96Bm3Dj9tqd12xbVbrxCdckb0NKFA2libdGhR4uSO3ntdumaxNkEEp7RiqU2hlEqD2psls8lvfx5FoKvBQBUH2/EjFxySBvuYtCouYuUCe9iL0MyVKyeNW7CaXxGQCvDlEZGa8V++x/hvfJIAY2RohDNXqNqze/fZM2fir4CoZSzoVItMiddYyiVoiAVAKz1yqngmFPBaUWmNTCg8SGSSEoEwX/78s+fN3bxtW8NGjUhO69JEEkWSWsdQvZoYSFfU0iQxitBMqDUGbFrjExqp1eo7oUhihMdzhbWlcd3qeen/W/fewgtGPHei6RvMmldsvDpjbANEnrKwbZoWnb/qgqFBBoXn8ygCkMtebwMbdFyNBzOkc83KTuTIN2m6rVqgBBULwXw9tbPP8XNPNu++edHVHRfr5EWOsmyNsTzJ9yEi/BPu2afNPyVchMiIGSHwA/Lrz874/khVgrin9NmzmzduckdVWGgoLnhpYc+ePjv0z0EC3D3QolVL5BQtG6qIefv2LRvi7PNwDbSJsXEWu6z58uV1dHSSCyIHwIAvg+Cg4OYtWxDJRs21K1d9fX1tbbNwtZ7AJgMrA9LNKZHcN22OI3GuPeBO7Vv37tJPUDCVYDGFBWYKdf/+/XfvvD+GheIXHZe3FSpWUEty4/p1r9deasUUMCBBxWbGhyNybv1mlRY9CEhYAZeOHD6Ci2LO2FWqXPnD+w9nz56BIbiqbdykiUguOMbFlndu3+bamQ/v37M/hqPefPnz5cmbV40M+VVQ7uPtDeVeXm/YRgMP93NAPKsfKldjMqwktxjSUPlhLLlw2UNEeISjoyMXV+CCXqBSQEs8hX5iqL5Hjx5REYTxHMwZQe5ZU0ISxs7hY5g0YH8M/9ikaVOu6rnw7wWcNGOQhPflokWLFilalNwBwJiMLfibN27AAWhC3atUqRLOfeXsBGZYzd0hWEizB4VqKfjDJwEGPQ/vP3grFSHcJosNnoO5hIMmhw95rt9hbZNmCSTwXl6vT586zaBOJ2Lq07yF1LSOHT1KTw8KCuQ8OGXkjpAb1294+3jjUrnlDz/cvnnL3cMdbGTNLeEUWZAk/z64f//p06eS7EZKfIqgvPInAvFqc8oECQr7vQ/+bbLUaLYfuMvU+4tuFzcOuIG3i+Nn3QBVSkl0sWy25kXyZ3345K0mFuGLCG0RVz0Dx+xli5wdcHyJ4xQSAS32voWKCrtrV83D35PnPpt331rsctHYCJ/8GRGjqSMuqW08xbEW0aNdmWxZzZQTbbRmx1zWXGzL3RhUvGYxUyjm0MGDvwwdhgbH9Qa0YDrkgvnzWUtiwdTLxxuOIaT4pU/+NnbcmTNn3B4/ppOwzYJZHPWCh+rKlSvNX7SI0R4YiBTdoEunTkiHV56e7q88zp8/P3XKlFevPLmQgMtVgsJCWQaNyZ0i93rnzJmzeo3qGzds5AIGtgJ6dO222mUtNIiuHjsfyJ2t8GvXrj1xe4yDcZaAQsNCTEzN6N1Lli/nsgFZ4C6YNx+NVVlM2b8kBXz08CEdz8bSyvu938ULF3C0TkLi6VQMHnY2Wao7Vwd+3K+/Xr9+A+7xFUEJkZBHr5swfvzF8//evXcvilf88+kTzsaLFSu2eNlSwShlQQT3fhs37syp02RBrwYh5UV20ECd8jitdnFxcHCQk1BBVlZWo4aPOHH8OLISSiTgiAggFy5ZXLx4CUkoKroQXxl4hvz88907d6kCCIBUZA2Co1Tp0i4bN1CbcvGnTJp0/+599hXevX0b9vlTy2Ytb964jrjMmCETC40kadi48Z9/zSSHOX/P3r51i5vbE8mvT6QkWIuXKD5i1Oh69evJpBKIidVQ1b9vP9erV58/f07uQpzRbAoULLhyzerAgADul7exsMQ7PdUKnksXL5043oJUZPf63VvB7f59+nK/ubvqYjiuY/tz2vR3b99xadpL95c03F27dkIkt2L4vfe9fe8+YpfkgjaRfPWqVSuXryAqS1ZbJ6c8CEriZRgtqq+yYEkJk41tFlOEER7Sjp6hU9HrE9DtuTiaWx/OXHympIHmzmu/ruXff5BufFd+ksPkwtQbA/XXbwK4XqJ47Xk4bMcpJO1FhpHTIpLGDqn5+N/hHVoynGLBJ90VLoMlMSDnEhMe7lNb5MLFoemxdlKDGTOoBjFshavFp9xrxoyZEI6sSIq2SPXRi4gxNjExSC+RQQztsnbNmps3bXzl4cFXRnjpyhdDLuAyRpYdPXK0RNFiOA1UEsm9C4gPLm+YNGEikiswMEhIE/RQCSyGShQYvL3f9vvpJ7Q2eg46y9UrV44eORKNq1+r9Gue0I9U/aFZC9QQTCyNjKRCsdxpbGzCUP340WO2AtC85AQQj8bKJdHM7ORIOYAHX0sTUwD4Fd584QPC642Xl7W5BWXhQq5hg4a4uT01NTGFP/CDtNCACOvQtu16l3XPnj//wiuJW7AUJZHLr6tUqIiaKWckAkjG0sVLcKMs94yzp2/EIM/tBxkzcqEbv4SVtz5ACbcbNa7fcOeOHX5+fhQEAAQNWfj6+jWsXR8i1TiMit2kYcOrV64GBAQATw3yAA+1CMFiBQvBZ5mksmXLImh4uKSheuUq9+/dhQZGHe5QIwnzjMMHDw7o/xMXPXK9LQat8Jnk+gb6DITPnz3v3aMHeisDg4wQVGqshlGUol+v3kcOHUK9pbnBIooAVcRzVxIIWd00yJCRK4lEywQbZEAAD43T9EutWVhyfZmFUSb9WzduIjThJPuQMMTY0IgkXbt35w4N68zWlGXDuvW0IvALwqCQy5cY+BHEaAmBAYFC+itbWgpqlHCASbe1lfHrN/6nzj9FeMn8ik8A2YG51MnzT3H0S4FEj6BboRs2qJnf0kI6BKmtm3zFDQEU1UA//YoNV1Zvvtq5dSksK0sVzQ4EuifiieRMyQFjd2XS8DrD+lTlCDm27hz7sbIw5HIlhPtXdIkIqUs/dRTs4K/cePXH9mXzOkS7AIMqZNFg3JBav0w8YKUqqXrKFHgvVrx43/79aV7r1q6lQXN5dv2GDRwcnWCRMOemzbVv09bTg0NT6UNDQ8qVL8/iela7rKgbHNq5fuM6wxjqRqP6DQ8fPwqwoJGOCypDQwMuPGEe/dbrDfM1B0cHu2xSRSjbYrQyqVgXEhLm4e6xfefOCmXK0nMQfzOmTq1Zsxaz8ij8Ghym0dO1cGJ47dpVHBfiHqB3377lypWlxu/eubNk0SJ4S2do3aLl+UuSN+XEPZD95u1bhBLYQkNCKCCXjSPCuNKrcGHpnhJo+Klff6aHdGZkELPamnVq01G93767fOnSwYMHkRfIBa6EPXhUEv30fFIx2NRyrglvaXj80qUbNmpM76f1U/Zz585xnwydWUkzKtLTp08+hofjaKdEieJw9OSJ4+7uHux+ZM6SGSvUYydPCHjIgCpi3ni9Icestradu3UrVrxYgH+Aq+u1FUuXMxohkvr17sMNjpQLGObjKKdCxUOmg6Fj505WllbvvN+5rF5jlTkz0pZLaA8eOIBwszC3btGqFTV69fJlblgjL4R7vz59Tp87F+OCCdlERl6/dm3Hjh2saSAH69VvUL2Gs6GB4ZMnTxjn4Juk+2fIwIVlrJzMmTULcUkSJycnGidcpxdDvygg48jnz8F2We169exhb28Pe4sUKZzLwUFckeTg4IAizzgB8h3bt0/+YwoFlDn5yvPVubPnkO9UROkyZbiQh8LKbRiwlBKU8Dxjhowc0GYiuWXP7dCwcNOMX816ZPpiDzD+X77uzuFoI0N9xhUBLI5yt25S1GWbK8Nt7BjgKfNF6UrbyHQuW113H7rHnTwThtVmF14Sgnp6SEtIpXkBgBnToJ6Ve3Yo63rbc/yfR5mVE6OybNXojrHnKn/9WhFyVLQANLDFNODXPYc3/aj8QBUyne3YsgTHeO67vRNFVgKkRJjFO/7QQRbOm4+gDAkJbdehA9uLcl5bNm1m7km3YYhq2779zFl/yU0NvW/wwJ9p2WGhYW5ujxG17JiLhNzex3IeFUHC9+8/LF25olatWogwFAci6ZwyfrUAX5lJIS8KFCzAzV/Tfv8D9eH+/Qez/541YtQoOhXNgwMq1J8yIf1zx7btLBeampmhA5OdbP5Zt17dWrVr1XGuaWFl6ekfgNbWum0bZdoEhVGcVS1Hsprm7vFuP/YYOWoU3QyBDp6d27cjPtA3KSBT2q07tsvIe/fry3x83VoXIO/du7t82dKfBgxEvgO5cP6Ct2/fwChW5bhva/iokUr9MTAwANMaGY8IkAplu1fvXmwoi5ixv42rW6vOixfPGfNev/a87uoKATCTbj954sRnT5+YmpqhJuKSh9t3RZLGTZsUKFDw5wE/mZmZs9L38MFDrluAk/CQhAKG5H/PnSMvv1apUqVv7z6QhwTnE5rYibNnqFMJODKyRbPm9+7e/Rz5mRs6WTnlIjOBRO2XhkTH3rt3HwlpS4gn/PJGIUmXrnffPuIAD7eY/TnrL9JOmjDBTHWVbtHixYaPHCljkxoD9pXSNYWRLIh7v/NhaJm3cEHDhg3llgb+mX/Pql29hrVNZobzfXv2Nm3eDAykpdYO7t+PREZHZkm6i+q6OiJl/ASiNTLlhySGkfRIGZYIwYMnCJxIJgIhDdH1jqfXu0C5tkAiWideJBIkPhg84C5DnQAAQABJREFUWIJk/+eB27v6HVfXa7/q4jV3+T4JGoM8ugBWuWyuUzt6b1rcHr9wxKum7YkgP15JoMHD8wPLkWrQYuN+1EBnyi7TpgaT7K90LSRTlPhTrbiLLJAFfOIya7oE9LA6PmPmn0DKBISGhNKLmHnxFZhNGzax1kYqAJhtqoogLZwNGTq01Q8/0P0EHlnOynjUAiDhIbJTly5Fikm37pF29sy/njyRFt0Rkd7v3tGf1VItXbLY2EjS40qXLYuUJF8I4EEYFSxUqFP3rnzCLhcJQqRa2vi/SklVAyH4q1SrOnnKFChBxgkMixYuYrChgMgCpCRZy5jpgWPGjsubNy9FsDC3nD51Op9AAj//mjkTMaFSrOpP+n2yLDJEWiMjY6XclBFyLSNSkgoihhIhTOfMm4ueRZhf1liJF6zevHETohCgps2bIyXJCBgeyGMxsWLFSkCiil69ekVwlXscIYy0COPq1Z3ltVfyatCoEeKPryRh3rpj7x6wEZYePb1fx4wBLfeBM5yw/iuiNX+BIfKVh7THIn2VaIn6l3/Q79D9pXd2k1SlkxsMI5OIF78ingFDvEI8d3N26NhR2dKodNaF2RND+FJeVuQFsCB7/foNHHQihkGlnGq7T85LgKWIoFQN9aE9O0rXxq/Zco3fKAaIPBPyizTcceA2UoM6VaYrXihb7hxWQmgq42MPgwRNzdrC6Lm7X9u+Gzv8tHn1lmv0aCSR6myPlAU5IuWZqXG258C67lz62LJBEc5TolomdPWAcsdOD19pqmS9dN1llf+HL01NlQyqoIGjn9ATJ54UBaAxiUkWrYcm27N3L9oiYlHOFC9Y9H9UAL6yEXnt6hXgRRN86+XFJ3oCy+dsPpJEvKo1RBmVMoCURLcihvnm0GHDJQGHCbq19YB+/YgEA9MrqkuZ5Imbm/8Hsv4UHBw0feaffCI7IHmEIKtQrryEJ126f8+fF91PmTw+YVAhIFhA4BYXwmCDIRQWhogOzxz//XtpqxqNuEOHDuAETMZMmP1oZsqsLKFzmZqYoKcjE7dv3Uo8X5kbcts10klNUEI/j4xHBAL8/Wf8NVPegSE5fY1bdgXfkAghX8azw4cO8xWqgkNDJ06ZTHKoJYYHtOxiY7tDJHtrx48eI8Cecs1atVAYWRnltUevH/kFmF/GOWirUaOGqGKm2OjOMm0QUKFSRUQkwGwEcQiHJFofgQ2bAaQzqIAc+FP/B/cfEC8khoxTa3K1SHH5O4ViiOrVpzdflS2NMDjHjh/P+gaf2H9/7elJpsRzNfwnqf9LSj33jzM8qGHmNUV6IOKBEv7YvgwZYDeOkbmamNOkI6YYTvWt2SJZnqthMDczwNktgkjRAmPCoR6PEKSFgPnm3dfT5p2q0nzp4jUXxZ64nIusrnKmaNbERtcOD6xSPhcX6iZINIutJ/XsNd7BefPe6z1H7iEQRftQgkwf0xAPdQmX0UocSQpDEorSwwcP2LShBRNm6UorRm6dpt4pNb3o2ZOndCfAxFhBE+Q1b948WhNqjSRfBCW6Kl9p0I2aNHamZ7Kj+vEjWwTr160jHgDksjI5jf6dahuUrRv8HnGyGP868h/7JL9PmSIkmufr10JiKpPHMww96Cbismm0PMYACiindXNz8/H2gX6UxOatWhIQEkEGINCsVUvoJp4icGKdGDQvFhzBw0hQ1bmaEjimMMkDg4IcHfFpHW2IJUdBGxoKm6Ii+bUrV8gLylkMgQ+anDmwfz+QEMBuu5RE1bXIgnVebG5YkiatQEUkD/tIQt/09ubyekk5FV8FWHBICDAoHSxhi3jNX/ICQ7PmzVmN5Svwx44c7dShfavmLVg0oC0pNXHN5GoxggCBk6Yo0yPAQA5hFSthNWVGDK5eMEUQn7Zu3vzp8ydaKlXZo1dPNbTi9Wvtav2cuEgESq9OnFlOd+7yi7feQehiicNDKoqHNnf5hoempOjcqlRwKOvTiS8CEorkzKxnLjmbr/KsZesv41RYkKrkMg2AvaM1c9qsndsmV3ZL7JwSIZ1j5wDWpmOmHiajL40tCpzmlyOb+Y8dyuJVKNkzjZ0kta+er6SGS3UgBDVt0ARwZpvMfAUGHcTrjRfwMhKaL72UVyVj5a8xBQBG5+KrSI69C0wgEpm7YN48xBCLSnxSJketEPNBIpmYS8/bt/If5p9YNbI3JT1+fh7u7mhMMrwSz9dwNDn8NVpVVZLig7WNu7u74oO08SJwBgUFo58gjuGJEoCwg4ODihnSKi27K8RggciuOq+sf+irtonUkmh9RXGDz5pc1Yx57y9pUsTzsDOjyRnUc8EYDoxKeX1pixAvZB8JlTRINgCqGPWyqYAEMJ9kSa1MK4dR6LLY2s6aPds+h71Y7mTTGZPGYgWLDBs8hC0yGTKeAdFUAFajlhg+4bugStWqhFHkVy9fQQzhM6fPUEbYyGuFChW0SudoC5akSZbHxDhTiwZFmOQeOfUoMDgsFu+TcWZHDZma6K/edLV8SWnMkR8mLfhLt7M19Q9IMCtlJATgJksWKgojJ/51fPn6KxyM6da2dLmSOciCbqqaNerpp5eOQqJdEs8+9aylZ1FIuQJIo/0rcSPmo7/G/AZyqmnohANzJjdWQiHKIW94/2r7jz3AW2WC9FklnqSHYZToJfwruo0mTqSDgAIEsw3CmgJCM1U8YxDBPOMnTpz022+gffH8BeacxUuWgHVKDNBGvjw0d4w6M+ljYaWlkTMkgU2A8avEoBaW6vBrNWs3tFAv5hd8xDO/Vv+qygBDbvQtguTOjJsAE3GRD4uvqjzj3Xq+kqdCHcNPlMCKjGRmumzFipDQEK2cQbfKmjUrOGKyb40BfYzRX5gRM0BkpHPNGhu3bD6wb//0adOx0GTxIXMWG/amX75037B5I8I0xsQJ+SAqonLlythmYYxx9OgxBm+21wMD/GktWNEvWLwIfEJ6qiFOHgrUkJYqZu+YywpNbfuBO1jeqH1N0CttGD3m9gOvoJCPJkZRK+VgEPOtnh3KTZp1zMzEIM7KiD1T0VWYzgcEhR0/53b41CPm9VNG1s/v9NVqRwgprHYG9arMumGPIduQodLWeXI8EAD+0xee3n34pkgBqZnKDxby/LEd/9vMoyrdQf6SqoHs9tklK1NpOhmCobLWvNGMmCljscjloigIyE0x+9YKnLjILl27rFu75uWLlyyKscnOEhiGKUpUzLjhEl2C7cvadetIwlVsxSqBoocNjNinlloQ29CodcKbnAABD+JM0XP04tPShBsRMEhWlg8esKEE30CkzPbu3TvIdEjll3kinzB/QTklgFxghZetDCV80sMCIXNhFungDCsY8taTVuRqBGuFSZZIkZG9fY4+/fr16tt39YoVf06fwQBC4zlz+tS5s2exQhMaerJk16df33lz5rBiY2JqvHTxkjx5nDgshNxknsSJHdR/rY022rQl6XQIaVLfOR/23nuPPMBfb9KVILqnj1/I5eseSvJgLqoW3ttoxPFpu8q0sYcRzWx837jjVa35kg79Nx86+YhWThJZc0HTRK88tq2XbWYTzUsdYkcey1fwcz/a8g1XlHnJ8O1blHDMaYUBhByTagFYTafCdINVJ1iBMQzL7eQu2CLIEDomJyBpf8Sjs+AbRusUJulkL1i0CNMl6h11AB1ETQ465nFk5weajY2M6GN8VdIp566MzJ4tOybzxNBDLl+WLviUwSiXyozZnBg0rBfPn6vGqjhaXP78+cXBDyTvmlWrSSv4I6MlsG3LVlBJaDNkqFGrJgGsl9iQBZIlv+PHpO0UzUdJtubX2GPY80UEwzeOzTx79iwmKZmULGInIKav5Cgy5RcO9Ozd++jJE5jcSpVobIxRGgHBQACUtQNCkTAmzJrx4KEe2ddmj5v1jc0bN7pec5V48vFj1+7dyC4m7TWZBSV7IHSVHqptnD8Xns5sRfvTpDZhMfAiNDT8rOqIjpIviGBm5di0J6O0EpSxaEBnwVSetdF+I3c3677uxl1PskM0A0ARIcMui9metV25oxx1L6byKHpcTCDR4g30M2zZe+v+47eyUJY/k+kfv9b3+xCclDVZGVtCA7QklKN69erSzhA9mG2znMSuqLCvIpJ2hi6GroeswUiteYuWhobSPnhCM4oTHuHLMtOQYUNZRyNfCFMTx0WLFrOwtCQeO5gxo0eDEAAeqoyHJIShVtnfChYskC0bdrURGIEvXSRNvlArgGQNlOIg0ei9RDJKvXrlQULwxE5nocKFoQEJSPKzZ85ioEMYhKQSVGBjeN1VZQ3CgTlbW6a6CP1OnTu///ABAIaiv2bMgE5WYPklIY8m2bHToPm1WYvm0pK/np6lpdXPAwYAIIqpIkniDFqbGmc0kaREjIoo6YwmlCC+oYR9Z+w6qUSy8/Xx4RcYfvPly8dXAlQNv/BExBOO5yMazLQZ01HeSY5tAIcdUScZXKtVrw6SmBAmp6CkLGzjtG/O8YB0h08+VnnYjaNJxbN4CKMT559yFFK+75uEiAz+6lTPG1e7jWcm6mBUG1vhGKs/e+nbvPv6MdMOyzJRcJMbaI9v7WWQCesT9bSJfrc0N8L+nIFfTVbSX7jpt0HNAmniVQiRR59v064dfYmyM711rlJFWsNSFZwY+rlz1WpmFuaMk5ky6v/QuhVVIxp6olmhNSESh/aN8QfniKgg5LUmWK8+faCHXSDWAerVqs0cHEiIFI+QOCibcsJ6DRqwiZExkz6fsNPGFJzyik67dvXqRQsWYv6iApZOFsupYg+M+vVXduxV+UZyihkzfsEN+rn3O++hgwezz0PYz9d32coVBMjR2saGhQVcbwBJN65WqRJUQZIgG86ziHbxwsXY843pK5SQRevWrckX+fjowUNO4CBuyPoLYyTnGuR46+bNmJAkezxUgZNN/72794g7YHil+CytsOsNbXT4kqVKEkm984vPIbGbzyGl+/fuQ/npU6eEyONrPB/QZs9uD1rKC0tJBXJ28HEjEguGZB7zOV/Iahr5uWx35Wy72n43nZ/bINREQCzEyZ+QRG7PfG7f9ypdLDu8VQqmKuVyZ7Y0Zvs7uZYL5UzlAAqmuak+d5Hff/xu4bRm3NZAEVRLCpJysW15h8Zd1ooGJycRAZV5UMKGCtZeX3p+WLftepc20bzkInfQZyePqHP+8gt2K5QcUMs05V5bt2177Oixw4ckf0JBwZFF8hfo1qMHh2dfv/ba4OKCzQ2E4Xxo0NAhNWrVSjkyaNYstw0aMviXIUPhP5xX5kXr79ip4z/79zN7RQtmqb5kkWL1GtbHwBt1jtUDt8du58+dy+2Q+9yFCyQEAxPkVq1/WDR/AQKR1dWxo0fv3LHdwcGRs4buL19ytAPJQu9lPVRYFCqz0xqGBuy3mzVrvnnzZixOcFtXo7pzW9w62GZBMrqsWcO6J2ILhbFvv3744KEIQhCMHP0r5+UZfsI/hvv5vS9WqFCNmrVwNUQuT588xXQGw8Ztu3ZozTT2SKqMUkyZ+seZM6dfPn/JHhcnSjmEgw25nZ0dFYfjCdxknD9/rl379ouWLokdW3J9FXU3b85cTkmVr1Cueo1aGE6EBAft272XEQtzNFhBq2OQgF0As7S6auVKah9zh25dOler5nzy5AnUQ+X5sThpAxXc4GAr7YcWIppQx85dYk+YnIIyLOxT4zoFOZvM6ZcHjzGtipY1xHGAeuqv9TixE+1DvF4w8f1kbYlBr7ryxuQ3Vw7Lh25ffRzEC18CgTBHRbW88/BNky5r1y9oWzi/tN+CtIIeya3G4JqT/j6Ocq4uFNWJjTtXFkDZ/lq15WrTeoUsLaIxirPn3IreuXVJPH3AzLhxJQ4CS0nJKYH0IBzUcNCFcDyzc/tO9ivY5Fi5fDl9DDCACXh7+0ycPJEb62l8MoXMa4QiRudUwxbja6w0iFQ4d9m4fsOd27doGLCd1i/ikTj0KJwMdevc5dLFi2RNzKnjJ04cOw4AVKHz0tOQRFg7Ij2JQa6NHD2ahVfUE+Dpn7jn4o+E2Nxls89ulzWrq+v1dEHBuXLmAnlU0WImUtAwZ8F8jmAfPnSIxYrw8I9r16whLbwSG/FM+rr16D7ljz+gSuZzjpw5jpw4XrNadbZ92fy1srLGewVHp6EbGIQIc3/stNhYY+AUjIXzouBqv8RTFmCAFJ94I7B7374mDRriQQMiKfjePXuoLOIlzqRPz7Fo3J0gNDlSLVIJPFpziZ0GkRAkIl+BjWqCJBYxBELRiKHB0cnx5Uv3tatXQRJkAAYByEemDhymimpOkZFstpQuWwYTXTiJpSrjGWg5blS/QQMpI33stSWhQ1MU2Wn9FdWHA7esWe04lUB2bJ11695NiGOtSYhMTkFJecS8m93bN96BLCAqc6VrU2vVKjja2kTVgfJrPMJf+54aMKez+4/ejVN0pIzap+R95RwD2mWH/lu2Le+Y30nyZyfkVadWJbfuu/3kmQ+m7EnPEXXV7bnvzn/uYD6plDgirwHdK+IanTW0ZF+ZVRVHD081Do6O7ABaqbzLqBWHhjhv4cIy5cptXr/B0+v1BxbvVILSNqstvXrDlkllypQFhsYnJ8T7L6vmvCJ/5chYArTj2GkQaWnWa1xcqleujGsGpmgIERmnyB1zE4zS8d2AeSByAWc+VB+LNWyz4CeR43doUiIJIgM+I1t//mnArVs38auIJQ19laVDp7x5121YP+2PP5jfvTc3y5krJ5Dgj5NIYOAD48q2rVsXL1rs6+3NrJbsiLeytLazyzp67Bi6vWbnhCq3589GjxyFzzHudEMNZE4KhUhbe/scBQrmF7ZErMByhgQtHrEu6JGLL0Seg5MTbi9QWqUzi4oH3xP/Xr40fdq0Y4ePYE3J2gXTW0lZzpiRSrQws2A2AFpSCIHi4OCAc0l2ORQ4ooKx0AAE5LEhg+7AIqyclmqiPbBmJgQl1cGMgNEC70cYvfp/cW/BUXQbW9sePX/kJKLcBRDkkLF4yRKWMtxfvvD3D0VS4y4IhV3gZ/9Q9p4p5xhTgEVkKytLBCVScvxvEwCDjTEBE699ZRq/ZNzXNXkEi/fSHHPAmL1YRMpDk1Z07DbYZTXbsaKzpblh+UaLuMCa1qSEBA97O9uXd0qsoIySSkqchJlxQ1j+KrM01/XUIJPrlRxRis/v7UdLko2fHj/1dv5hOYcjhayEJMDWzmtjZJixZY/1OO9IqAylfdw4Ngg8chbQL5YdcKD5y6QD0CAWMVQ7mXq7VnXJkzvqYGyZ+guk/iVtC3zesaKTsDfCvqp8g4V3Tg6lzkUfSBxDhByUyLt+3cPDg91DMzNT9nkRryBUk5IoCHRyOSO1Vzk+cQG5C4nkdDn6koxKzuvBvfvu7i8DAgJxl8DqKhbg+QsWkMHkgKAcKYnhDm6G8frDIUUcYmrKMjlJnAGZBs6Ve3q+5piRkbFJoUIFo3iF9qRgjoxNUMKe2M0bt/BQy0oiiwMIUOghIIMlOiBTJTwWBwUHIbbQshFtjk5OSrTK2lSGlTBaw2rA4lWtgtSq796du8+eP8OpCl7l8G2K308wy6SKXOQk58+dZ9mXoZfBA2fG4AdAKenUEiqJFMQsWbQYFyFIXmbfJ06fwteGUvNVwotw8miUdDy6Zc1KTkhJPIe/fPWeCTil0swP4RldfmqCJCxG9HmsZ9ZuvRanM6GEoY4BGsGElXuPIds3Lmovag6ZmM/Jpl71vLgllzd8SB1toIgBm9ZoWMRk/9c/Ds+ZIrmAleUa8ci+9i2Ku2y/xuXgsQ9dWjEnPVI0R0jCfQB/agiVjZVPSimp+aqWNqGvMltEQqWUVOZVsHAh/uJELihnv5VHCYyqpXxNUFguvopX6km1SkmABCVMUsuUlQ4BJ/sjU4VTuHTRVsLVs1LWpjKsDqfxrgYsXtUqSK36Chctwp8aJplUES8nqVK1ihJSLTs+qSWUgYVQwiHA5AkTmN2jsON9Ge9EWoWVnIrA1xFYGZvQcMYMejjZ7du1AglnLjrDYmJMGSM8+ZToB3GsJn5RVJEdnVuVwKlEQslOHDwEZMqUHldsnJYRNYfAQmEc1KsKpy0Th1MtFVkg9A8cf3DngXRFgfIrYpry/jG6fkJVVCUSXVjHgf9PDtCb0KOdq1RlxYYh0M4u24iRo2CFWi/TZE7yCMrQsE81qzpxYdb1O564cUR4aeZEDPHmptJZ4EQ/0uKQBm5icmS3LFuC2y+16LBaKUliJLv5ZIqDS2SWLLjxdFkwn+3X93hwPxYywIxM/GvxWc2xAbmM++E61fJp4UUsGHWfdBz4/+aA56tXI38Z3q51Gxyb4m8Jl+y/T/uDbUl15UsblxI/rZCxITJYkRzRrzoxLJ9J6lWElj0NqOH+hsG/7cesWk6b0EBoWAQ7J5y5RjzJEpMcjY3Sc6zwgRt+SjTkaELziB88BFy/+/rJC5+8DjYcmWOJls2rQvlsX73+kO6Lj2GNXfD4of4CRRYn/3167earMsXtlTJRFHz0QOfGXZ4hTL+A6/7VcUDHgRg5wNJkg3r1IsKjnJPiemPx0iV16tRFLik7V0zpk0FQsgOLMSM3eXm9DTh/5UVMOdHtOf194vyTpIgP7DTZ7UJQsiyoJiO4H2LjrhvkwqeYaEje+MDAMCbg+Z2yyLwu4GRz7Mzjr7kgtJOm42JKMXb6kSObf2TJEut3GTNqJgzv3Krksg2XE+cUWUalC+g48J/nAD2UdczixUtcu3qVwwgmJqbT/pzevmNHuefGyYGvfS9O0JgA6LQtGxbBAc/Vm6+evpDOG8XycMaRDp/oP7S2UxefcSZaMwts0dlBimnWrwmf9BiOhF+4+hL9Tp7y29lK9ynGZ4CKZ+4wihsl8emplJKkJQ/2tX8dVJOTlHLu8cSpA9Nx4P+NA6JLcj2Jh7sHpuYHjx7mrARMiH9XTaqgRC5wMMa5kiO5Ll13yVh1j3bs1YCOlfi/yEgjg0zrtrmiTjIaqGXErFzyrSvPydU+J/crQp/9fbDKhGTJbIykTsb8EYJWlkZ4ddPcJmJ7nbzGDuUuqnA0V92j44COA7FzgBuTAkKDf5s4Qc2wIfZU4muSBKXonyUK2znktHr41Puiq3tS1h/jQy4iydRUf/0Oyee52nIkM+7u7cqgZ6XWKqW0N4WPSCXZXA6OmExOSSl5LsA5QsT8VdJ5O7UHidykdqFihe0YrtQ+6V51HNBxQI0DqFbYA7FYGZPxkBq88jVJHQyDfjxvD+0neQye8vdxLhRMjWlgJHtHodducWmqsiCSlopvN1Yq2fCJ9iElXyJUlq6yZiupkymTHVdO4ite8zQO+0ijBzhjm4WFVsrkrMOq48B/hANoMFiVaxpdxqd4SRKUKDuFC9gWyZ/1hcf72/ff0GnlSWh88k4cjPAysufwfbXkaFWIaWbfIaGSU6xUeBCKESrHa3JekmanlFfJJDZBw/0TMxacwlu32lYV528qlslVvaJDcGjqDQ9yeXUBHQf+TziQJEHp9yFk1ABnOLX74F3Ek1ofTiEOClnsevsVbtyUy5RCQHFczylX1Em+FCJAgRZH/0KbjNIpJdfais/JGGQXa/OeW9zxrTbLZuuI4WHWhMYGMbvFTC4y4LaS4cmF9r+Nh+aaEkxL86pIcwJSudkkXlDCqUJ5s5Qqmu1DQOixs9K59FRQJ2Xu3H3w5oUHN4LKs17pCzPfrFlMSxTJJoOlaEDSKKPfL6ySYikiKjFNZVdn2IQDmiWi1IhRpy8HvTUBEhQjOoCqe0sVKv+BRLX6msjSCTwJoiQlgFWli9Zm4sxFaxJVcfgSZ2ph7ZtIpsWKPXlXwmPNSttHVWPQ9uE/Gpd4QYmQql0tL9cHPnvpd+WGB901NVmEXeHhU4/FdFst34a18hODqqUWn+yvcIArxlRoo/KSDuooLCeTlwIUdq4j33f0gdaCxKPPak0XLZIS4TCUi4MwHggIDFX9RoVZHl2+4fKOA3dJoDx9FC19zC9MOMAmbbXF70lEFjJiIevlVxEQQo113nc+wWqfYn/19g328cPZbTTKA4PCuOYEFSFOtp+5+GztNleP16p7DWPPKd5fcc21bP0l3O+TIj7COt6I4wvo9z545cYrx866UU1pQkB8CU0+uEQanCOhWC9rUqcglMxZdt7YON6uBpOJdHQo3DIO61sV8YFLVSXWpnULjfr9EBRKd/Wm5INYLJAnCznIMvmtd6BQclNiuKdFcqXf3OXnG9UqgPtu+K8sXLII5TfvAtr23cQxU8n1kKoHUBB8jmXObLJmTushvx0oVtDuh8ZFKGP6BO4d4QHgouvLoX2q1nPOpyRbaxjpI3bFMIriNjetMDFFQrZgPuKeW+dkMNR/hF2LHuuYc7jMa8tFoSr1X/6uJQCqD/5h9TqssjAzZJOQo1Ay8n6jdiOt7GxMV81uDSvkW+CVWOAfmSIlt++7g18+rh1Wfk1cWFUnkU+e+/YbtnPUkJpcTSqTlDiEiUv1+m3g8CkH6f4c/aDxp0RrTxxhKZcqkRolLSC7nVmZEvbevkFHTj8yNkxtQYkC+84nEBN3pbce2ES74RcD+MBg7kVJOb5JmMPCIzhcSEBuKM893ktKpYoGVbwElowPppPYn2/ZcwspKeeSjPjxZ2NuZmhmaohzT3ojmhRC09SUGCSOdE6f8Yns5PLGP2vaifurD5rWoJoYJPmSLt20+adylpl+485rTYDYY6AN+/xsJaftj656I9xpKpwR4K5NAwPpmsbY8fAVGMh+/SYA0w5wquClVFxqxJ+nl/8zd2nx50tta8eHcxNyVDtFph00HrGCauSysbkhNh7xSJEiIPQ+GkPqOOtKkQIkHGlieA2bmI/MmdSE7PDawBE6dqITnnWSUtA8GeeXrr9UtkQrSYmTmz1HGD9/7t2p3LL1lw2sTZCcScom1sS012oVHFBp0U2k7i3dV+FNx0mv/fLnWHHF7yOFyWxtPOGvYz80kY5CxS9RAqCy2pgcWNdNJDDNO6F6RcdVs38Qryho9HbhGtnD8wOLs3kconzlirIDxsoASyI5s1to9mFgJImirTawRUU7w+2mWGaFjWzT+fgG0w/JlOktFU2+rKUweX/9NoCC585hqSwVMotxkWNR9F7iX732NzXOFBoagQsCLFuFQ08aLQQc39Lzc7pIPGwTZhjAZB838u98goCkOJrGXcDQhArmy4LIvnzdvXypnODHXtjXL4TLmvCqR3VnSBcpyGOMZN2cdvDFMSilldulRK+kiafXQ+xSXliEc34pVjW6C8GN9UhoWDjlpSxYufkHhKJQC52atQvYQqovqz0iqbQuT+jFq/eU18LMgITiA8eFcQaI01KKj1gvmNdWCFm5slgxQ8XmBj0b6yinvCEh4bARp7HgxLUNg0qObBZRzVtVEmhgtEMl16zfKGr+u/8kprPBu9z2FjQUqvz0hWds9XLxfSqziPpGQbh6A8exERyI/po71zOk08MAvlKZXChfyTWSf8WvCDHvzpHdgrsFiMOKFQsetpg0O5siRTIEkVDc+cFNZ+x0JwM6DRRIEHwj0c0wN6Mj8Yo/N3o4EyziEUAzF59Zu8WV7prX0Xrh1OZooPRA5Fqv4TvdnvvQXR1yWk4ZWa9iGUmmxPII0Tn57xN4k/N9H8ytatlszWZPbpzP0Wb45H9oVzB23IwjCMeH535BSmJJumrzNY5CcRKsZLFsi6a14FgnZ/9HTjl47vJzhAjD1fGtPXH/vmbrNYhfuObCwtUXcOhZtbwDZFAQhFHZhvPz58myZEYLRHaXgVu5fZ6tvwWrLxgaZMpsZbR6dmu8SgvRIyh/5xtEwWtVcUJQ/nPiIYISnhw4+gBfWVD7wV+6vxfmcL/c9v13Fqz6951vMNxAlMwc34h9TrXig3nlpqsUxN3zg42Vceni9gunNadoPNdve07869gbnyBWPxH3Gxa1c3vm+7/2zgKwiqMJwEmKlAYtEoJbg7uEoMEpWlx+QvBCKFagRVqkLdZCgeJW3IsFTSgEd4fgXiRIoVDc8n97897m8iIEAhR5V/pyt7c7Ozu3Ozs7Mzvbpe/yVo0KtW3qAZwVa44NHb+Jo1a6t/M0g+Usqa4/rDh57gZsjnpZC//4bTlAbt/zV6fey7/xKbFh+1lOHNjj304mDNA7ePQKRcCBsYPvc91quTq1UuEdfVcfGTFpS8uGBVetO3Hs1DXGV+miGQf0UAH9mFHWbT3DyfLMKNxXLpsZnJkkzJi83/cvs/Rm5kyX5lM2LP44dC2Eg2/+JzQCDU7p+W7Q6vHTt4+Zuk3/Gz1F3TOS6cSvCTGZnAvnS612lxsPdJrrN+/tP3zZPMwk26vFwWiTI2dSIia8WsgCTY1ai9ZJyenGo5GkDj9x4jSktRtPtW7sDhfbuO0sHkuUevjwSf02s5H1hv9YxW92E2TAjr2WMm6RLiPBkFqgVby4sbq0Lr5iRlOOOD5++nq/4esoUt4zk1uGxE+fPCtdLOOXXu6kYDfoPXgNgex2rmzbpG7+1etODpuwifSFyw+hqq5bNdecsfVrVsqOPJU/d6o8OVIwnRTMk7pJ/QLIRGTjkq5w858Ht+9wOKJ6hMkSnGnK3N3N6hdAlObkuH7DA0DJ3J+RdsHTo0BaHGTJgIzGdLhy7bH61XOz14Aj7ehjSLhL/Y9067cKmgzsUaFHO0/kzcpeUyCIVK2r91934sdf1+LBRisINc2R8SONDVenzt1o0vGP03/dLFYobf9uFepWz5UuVSJ2pmIvYiuBAGHqwhuPIxRDYBp3rDDSp/104pCay6Z701gYccCmU7xhdKDoYF21bff5TOkSy8HCUjZNigQI79NH1F0wqRG89Ydf1wQeuyJFqKLfiHVsfqtVOcezp8EzF+4L2HyaldPFoNv128zChtO4dj5OD+SMVdiuWsl9MJdJFotymzn6ZufeC0zjaMr+QyGcPsqH4rAaDLKMaBv0mQ8/js0Kyyb51TzSSxBh2jZTUz2XIVN8xGixdfp/PbXT7hs3742Zuv23n6rKykjQeN2/8EsavnJWUyqChZWoMQ77DCIP7Cbw+NU+X5dBAOFI4V6dynzRbDoun3lyuEIA2w9jwhLkO7cuTgIDtULJz4ZP3MLinabV/DzH/kNB+wIv16uWS7TAM/7YB6+bMLgmm7LaNis8df7uNRtPdWxRFEUqrC1ZEuc82VPwD4DMXp4e6TfvOFu+ZCZU1aba1K0Sjg3XV9gffJ+15MqZTdKmStSxZdH07r8gNJGHr6kPaEBHyXqFjbmeHhkDtp5iDsDBw9k5NjH96P+Iz4SLfhjzyaxF+xkUPdqX4pR5INx/+GTQyPU/DFk79ucvVK2wLaPSyXN3ox4dPaA6rcAOCYtfs/Fk26aFsSBfuHwL2Q1iSn5+Wc7THM2M6MlI9EaX11nUDQLBr30q/3PrPqvv6hWz+W84sXX3X7ijGA38CIRpoM3hK/HixQYHDI+wv0plsiC8cyoB7FvZP58GFymQZsIvNYGcMnmCH4auWbXueKmiGfqPCEDo/varko1qqZDorNaJl/gGHEtUC9+O62UYJd+MbsG/t6EJcOqImPVr4pLwC9XRWxVzSaLOuuTR6L6OrLxQ2+uerYgTCZOIHu1Qvc3zPdCyUaEcmUNObooeyOeXRkhxdVGmW9RnRN6ER9z+V0V0RxJE/TBm2rZxM3bwCAU4OwjeZ5wtbOhuI4DNyGSlPGTsRkQn3JKwIKHMgUFwqcnPkbD5FgEKUR3BrUDFkQBHhEd3iTQHU65dNcesxfux/IybvqOLT/FalXJQFemwich3svJl4LC0CC5JQ+jMaVImQHWgMaXzAASuDZeEIVIREe2uXb87f+kBVuLKrvWJ2td/49Z9TidCdQBi7vks2obMGZN8Eifm6fM3TNDUnHngiFpwWFrhpFrHxEBzUHqyvEWwRciVBTKZbfpORJ0Zce/LbxaxoxftByI8Z7GAs1EvAq4j+mK4pLRFkOEe3VRDn7mHj1+BvSIUoqVFBNY1otmQnC5JnZGE0JPyeCDwMtlyZrUcx+aWMQlMnOZLzg/h92UY5YdAl0jayCKIAOMdWhZFXYXcSk4G/Nhp29VK9U1dsJIkiZ3bdl+yYVEr8zB43fWbhqsa+TJS+IU3Va+YHaWt2o0e7MBBZuiIjQwR0gSGiMWAaJspXRMsGVabsiVqjL9776G5CaLWkIpglIhsiEiYYqgF/sUBwpTatartT0MD1m870+LrBQnjxSlTPKPSR8IOIh3GCnv1v3EZOIaLKDpHJCmYILo/1HmL/QK37DovWkLsJNRALGqtfoHxiTUJjRCiWbiSBJYZguOxhEd7Tv+BLcI6UbaC8c3bD5hgFOqKsMKF2PplUV+EbY2gzznJrI5RO/z0bTkONI6V9jsASrMAJep7c1num3deAMtGNvy2bQnW2q65B0h+SynTgy5IVAcmFRFpwezpG7dJmJD6b27tjPIF6C5dMIVLvKm/1aUXCpekPKMXAwJDl870AuCil5XRS6RkLAON6+SLHqQXKK1HjmUcG0XhVjAIpK0+nctEDktTjGws3LDM4HzT2tsdCKSwznWOY3E/gi1C7at/3xWAnPPBCUVkyx5GgsY43q97eRhls45/+K0/DqOUWH9I/ZEjYzuv6baZiiGdwY5xE4Z94UA6e9F+jE4SVDCu4aSJUJY4UcqkSZz/unwLIw8nDFN63ZZTaELLFFPLcLmk59CKtZtO5criwlF01jfqb8nCGQiV0Pvn1aMHVtfpSRLHxUOTlb6kSEhs1uI6g6gdkUmZubu184RLog1gqaH5PzlNE5ulHNz86rW7kLd9cw8+Inyfg0I1zIhuWI/PWXQA8Z9VAnkWrDjENAAy4c4uEQF5p9OfT6N3unmvEHk1kT59huJ88SQvBo9Ahl2SPnLS1ivX7tD5dHXSgcJqTnWG6N+oRagTPoP7qpbPinQTuQD1EtUBkMtckOrMCWppZwgvZYplxH4SsPlU8S/GZXNLhpCCmMRRveRnYSgQMJ9QuHt/vx4D/QCKzg7lI6YP1Iu/z9p1795jtHUo5Fgvi0iVPFlc5Kw+Q9Zgl/Ob3QwGBBeo33oW8eQxX3ACR+Paeb3r5u/769qtu84VK5h2657zaI0rlspMdXjFgyfGRvTXo/pXy5JJcWG5VJMMnMFB3VqFL95SJCwN//5HeSnhJszbCp5umJ45OA+1A/lx4sHfQ9gxom4176noWNGr0ny4T8rk8cWUrGp0dGTNQRGfJh4Yo2s2n8naHL8cWtGyYSHO1PSum2/RqsCALacKVx6dKX2Si5duTRlRB94UzzkW1udCn4+OGcsJ1SroPXlsYZRgLsjjx07H824/P3f25POXHkR7iBlNGmvkkduQX5qTOGEc1AItuyzCZ2PRikAk5XsPjEPxDAqArTW3wlxq+b5TGbx3F60MZA6IH/fj+w85zx25UqlQIYI1//v892Ws3mHpIQRVdH2/LiZk1j4YOjEgMqRx1Fg1s6l0HYhAL6G57FEbO317RHrSsLR6tSmBx6/4+h1mCL1CXw0ahbjH8R7CYngEPuOhaKG06BzAXyiAzSRHFhdpDqeHe9XJi0aMCQOegw5LdQSTzIbTT4E8KQvmTYWHTcG8qd3zpaJsiuTx+3Qpi5ciNGxYI0+3r0pldUuqvDWfPmvVyB3DK0drJFbOsA6YaOaMaYCjj6MTguc912Txkxva0oxpEuH3t23vXzjzTvy1JtpD9HR4Jn3TtiR+kSjs9Owloxmzct7srrBg5K/c2Vxpo2qOwRry50xZtFA6HhXiBt/kF75fKG8q8WTE3adGpRydvlRBBeHmKV3jlyqS0dnwwIdQq+c2x8Jz+twNukrjOnk3+bZmZU1OLPXgkyiBOo/bPW8qjjguUigthMFDM4VLfIzOpANqyRSv8p5uOJM8evzELVMSUQssmuyVM4tLmlQJihZIS0HgfJZB+a4iv9OQdGkScQ+P/rx0Zr4IPHre+IZIu7A/0okMAKlzZLZoFUnR18iB1YvkTwueYAtY7HLEyectOndVRXqLeyyE9cifWoR9unfA/JZsBEqWJB44r5zZLF8uV3VefKiPrGt4D2/EEGHbsJ+GBfDBfuhaTsSWtj18/dcdl1nRNqvRsXAQQbmO+GAW+8PmfLdSYBaon3C5yJ87BcsoFn3MvSJC6obgLlOr+QxaDaF0IjeQAg47e0x9gNRoNoNpXCubzNmif8+ohviB6zuid9dOo/krjGSUwjpRBcDCVId2UHrDQhVHHQro5OCo+PtLV83kEUlpmqmlSF1FREWEmIp04UlzFNfQNARaBFPQc5VUge5M5BoBaP2F2ygpTKPxojc231oX18iETcEaAxfW5LXJqQHCzUFY46azMUNAXPqMhswN3xffb52iM+sUbpDEI5qqdaXm/GGLmLPZVGF+ZOVOZ7YB9SE8hnyAl24tH7JR7Txw1ZeG8PYXNIRHhaYeA9wfPBLk1W5eWC75ZpujjAYdey0b93MNc4d+fThEznlYdIetOqIiQky1Fg41y4QA0NA0hHBna803LQAltxJoQ3GcELhRuzN/a3MJjYxO1ClMV+Y6dbrk1ADVXGJCTWezdS8zioXaT2EVdXXVcqMFZ5t0HnWlNq9sipizaXykiPkR05YNnA/kMVqMkqkPh9hyJTPBJTFEMlDfs4vOTAcyizCIaSII4DXZY6C/LK8iajW7Vmykg4hyvnQ6NGfUbdh2ds+hS/lypDDLBS8NMzoFzYMqinAUxzBxDXOpsNDCpqjS4RUPL80M+7Xch4tJ2JoiyhZueriJNjCjkif6RYDwEhXZ1PuOPkaLUT549ATfMWQZGq/m0vf3gh/BIomjg90Wp7Ov+y7HpZn5P6J+w7oXYnw/yJ9fpXQLvTB/tXRifcrac8yUbfhjw9axabCCg2O+2lrs0OwU+JAp8PKMkrGYJWPSqcPrMCzDXRC9T2SFIWLju3b9zvxlhwh0hjsx7C8SXiR8Cv06RIB5vW62hcLrzw0na7aYUcoj4xzf/Vif4OFaZRmdDyFtjGg+iA5ke1k7Bd4hCrwko4QzxonpxKarq3/fwZ/rvZRe0EuyXYQgBecv3Dp68urRU9e27DyHHxu2VCWyReEjmzfYRiF7tLLEiRPz4OGgHXsuEAlN6+xeGqK2okSFRWJJOHriGr1AnOygEvvqsCBR1qz5MiMD/fYdusQqJKtbMqwf5lcvei/aBrqgRtV8/6LQoph/z8FLkChHZhemTHORqFeNGZD9RezCxmBohvCq7oUsLwqNUnR73MtFcQGSbJpyS5+Y3Q0vCuo9y/+SjBJO8eBZcLOvF7Doe88oYmqOCp9Fv2GLG+2F++DNy1tGiClPZLdvkjTgyewl8SIjwykK77AsI41u2H5m2vy9eJBgUcFZr0OLIjhLhlsav/eOvZcRimbL0jZkqNViJnFxFk76HwUJdBRuEQyAbCtKmCDOzJH18IsMN09EibQUF2sCWFy68m/dajkrerqREy5JcFJiTLBHpVqFrBGVfVXpOIQyg04ZXhu3Jw1TeNPiVYE9BvivmNk0tWv8SFZag0ath9sO6V2pbPFMGsIrvGGKYpHxbb9V7AQXD/moAKeU+A9I5lFTtuHf+sv3nxO1KCrFbfIIQdgpMH/pIV7h0/pK+qdNLfLICKXjsT991IBq4WaIZmKUGGW4nR0qqO20MINwX0cTr7ehuIRPJOAgIz60x8bbgN3rw4E+18Bnzrotp9OnTpTcJR6K2L2HLt34x7LRxVg+yBQQIi/CvPgnKHHDJYZsdWMoH+RVyCOSCw/WIryVV0a2ELBGonrkRqdyDytnywrRG4+fuoaPIQIsBf++cRd/THy5pC4DpvoxHnVpqSj8R1Wdqkz9p9XPBg4CMlQplW7Algy8k9I7911E9XH23I20KRNa4PHHcoWCYBDK+iYCCshrjYNRiyKFgqjAhgJIWsizg8PugxeZkPAth1GakRSamHMKMJq+cEXgxu1nuvqUwKeSbk8N6p+BhIZgPFl+zIiZ0+UeOYNTlIeN38SURqfCX92rtoqpIZcqa1DbjE9EAMOmq9Ybuxh4RVsI8MGOe27YAsCaL6QKS22W5mo4oUklvUKy2hDGUv75jNJAyJLb5g/91SbF/vgWUUC5J77YpfhdcPBXPX0J9Fmveq7uX3niE05nJrYNczWwRNikkwlcRgKrNHoIBbmXRDEukYXZRTqdjAjehvRBtc1JFbGUMb8icE5ILGRLRSEFpQ7DcZW9MafP3yQGDxsBQNLmEiAaVZMyQWUNByWNg9WvSEaguWppL8VVe1UsH1WnZKAptJf0ft3Kf9XUw9UlnhTXRVRWa9O4UaRW7TeGu/ETqiKr3p9smowGAEt1qg1GmyWD8RSKBEDmhFSvWnn5gvqtoKRpookgkPn9/md/lk0/fsOmI6UPAT8238gwF/TMzdFVS3ErcA1M+WMQo2j/4aCGNXKzW8l//QlhlFKvpb1GS6SMGaCip9FAAauJI+nWuoQM6pcoyIsne+HzJLsDwtLNBg5FdHXWrmLBPCxZePEc9RCo8u/jD9LF1EK2d/YPH44BiItS1FtALzx24jqHKBCoYmS/apz2YfRVB7zuuaFjsSRno17xL8YXqTZm2ITNWuwKWwWZmeHbfbeUQ3goy2BDumnS4Y/6beaQWU+xdF8eN+44Sxhdj6pjS9Yc/+u4TYxSPLcpVbvFzMFjNxKdCBd6dZQV+KnsaqTDp9jZwv7rPkP+vG5sCeeNVfpRWchMVGCPKmOKVR83Zd4eBi0ebOyHoYoBI9YDnPxE5ShbdxILTPLjFVul8VS/dceX+h/NXHwIqyUGJzsIG7WbV6Ta2DJ1JxI22NxelqgcRtL86wWFq4wBz8tBt6kRpjZhxo6GbeceOhoEqlRBcF8mHnBgf2f/Eevg19Y2KCTlAhn2vLOtg4o8a04YOHKdtJK3ACSkYdXGUwtWGvXdQH9E+9J1JmIk5GQ9Vpp9h6wR7ky72nRbDKkRZq0wHYkmydk+rHxJWbn2eOHKY9heyV6SotXHgvCho1eoVy5Qunf/ESGQoSwu5U07/eHdYT6v5D2ROwaOWM/2ygZt5ty+/YBmSikiw7fsspDmV2gwmfDvkMvydSxQ1R9iO6GEbVIvP5EQ2Np/8fItEqn3wOGgGs1nrN5wcuq83TS5UqMpJ85cJ7p7l74rilQdi18wGzHBCoCABdVq3tNIB4ErRpRPEnv98mezTguCrv0LDjQTsJ16LSc6LfhzD1mIqISbs6DHSR4UIYxe4/bz5FuM+H2rwCczTn7tei4tUXN8uXqT+MqaLLzS1/MkSqNQtfJZVgUcI46Topz+hhqG/eatpADshmPI2FZIh6CXPBdHBgDcZNmaI3S19i0k1GaoUnQ+BhhjFWETvS1aQjYsYtDTI8emCvafHDt5jeFBOjjAIYi9JiNZczQpy47jR0+eliyc7sz5G/BfwA76riKljp2+jpFq8OiNyZI6y4YQSzvwHo3hdPvug3ZNKy7xO0KcsYW/NwI93Tlx763aeArLMVC9cu1u9/6ruO/Z3hM+xZqdY5YVqsEEjnzMcCJWBU937z9m9HLM5PI/jyIPYmIiSmOT9vNdk8dj6yTHS3T8fumhI0G/9q1MZtCmijbdlmCzSpcqITHDi34xbuuS1q7J43PgIvL4nXvK8YBwmZ83mhw7ZowSHukIKTR07KatO8/5TvVWtZuuE2f+Zqs4TKFSmcyMsmETtqBvnTO2AZ8DKQxezK5B93xpdu6/sNjvMN5p7JrL7pbsr0v/KO1wq6JoHjjXwdfvCJtKMS6BmyKFA8z3Nh/runHqJEE62FreoM1cGDd7H3fsvdDQZ87aBS0TxvsYSgoudBj53vy13qpzBLr195NwbXsOXixVe8K+P9sjgl0K+pfJkg2Olctk3h94uZLX1Nmj60s4TlPLHFavO8H2c6jkWSQjPJEopczBZEDLjO2RQP0gzIZUwujBCvPlSIlxmA2asHioQRxocqINaNF5QbkSn1Uq40aoY2ZTEGBxzbEr2JqadVxw6eq/BDOFvAePBrEXU+Zg1hldf1zJBM/mV/akgTCgRkzckjDhx0UKpmFa6jnAH626CocK2RtNwWZVoZTbnTsPIakZf33/PEYJW3R04OwUxNpjJ6/LPK8L22/eWgrQz5ImdiawgszJUcGTnFxnzt2Eo2VKl4RfG/a6eNVhIicO7Vu5TtWc5CQSx8CR63t28GR1FhX44eaRJd5P35bX5mMkPiLlsBOZNRTHKBJDzKepe2svdxbaMv4FDhwThy02lZcukoH8vv5H0qRISAukFfN9D2zace7Amg5kID+9n9A+3nXyIQaG2q5jNFkAwhqoQu3cH/RFwTypkCiHItvGcBr/cw0jZPqzOq1mESPKq04+44wHFPSP2zUv4uNdmOJIQH4Bx4dN3CL8nSHDxABT5uxJkOzaoQS7v8lGSMfJc3b/PntX84YFBE+xhfYbvha+s3iKV6kiGcjWuP18mDUBOOA7oyZvg5FhkGEMMsdwiiRRmvAWYEM3znm7DlzEx4C93gQlQn7v2rYExc1U4lEu1qSUoo3blvuQwtQy1/fg7v0Xypd0kx7ChMSct3bzKYpTnQQepRVIdgRjZ0s+X4T4TMQWYP4gDAquxES6XDqtsUxgBT8fRfgSG0YJIyP+E/vlkUl9mrgTlB77EmXpVwiYBB+C4ARPSZ407lc9l2I1+iiGI1vmaUiF+pPnLNkPo0RSHjxmAxPV3HENQJuAAMTi4+iO7zqUAm1mdIIQL/2lBryVCF4iASOyE9UUaxtndSyb5s2qiILCPScPq03EWCEIAvK0P/bCKJlLmPMIwjKop5qbWfdIBpvf5zFKa/YMaT4lfHwoAcP6yv737aSADIAoiJJW9I2vGycOhmpHuh3LTDWYjUSYJo9YaRlFsEvWfXAkpmXErqMnryMyaAnRCsv4S6qJEzF1h5/NQZ0mxnksyAv37j1i4BFCnMgXMEr2QyJ69GxfCuHUvN8Z6Ay2R0YonTbehYnpPWvhvg4tiiJMcfF2+ZpjKK1Y6oIwSCKnoCxDmCL2jw0OGkEAwkYTJHAmGhOVIrgxzmmacEl4TLXyWbfsOkfQAxgl2y4JokNQDGkvpnaQR4LjUWGgVHvBhLw9cfY6mDeqlVsIWbVcFuSjlQHHYJQqp5JM1Rzjv/4kg8vTIwNyesxYHzVvUADTOTwL5ojagXhu3CCjEA8N4VcHXmvRqKBfyxMEVYJRLlwZmCubKzHeWUWaY9lp+tM6FteccyUIE7sAqQ0xme6hZkTF2i3fmgwgD2KKrSqaOLnnTQ0NEeLSpUl4+MRVjGbk2b7nfOoUCX26L4HCsWJ8BBPn2Az+EYxDquAXHgRbj5MzJsEAyYa2lAlgQA/Fj/h+1KICo7ig3nFExucw12IF0/GGpXrOrC4oPSAdx17hoodkzeIazQlcDPF5z4GLZAMgRta6VXMi7fIYdPWO0N45TkysRvBQ77p5WQ1Qi8ppqFyhYee+K4jZTrQqiAkXpiAxWTi7+PS5mx5VRvfvUYGvQGLYK3xGyZe28EQra6QyTfSwUOwpbyEFbHddq5GgggxFZMCXdAZbjBh7OSoL6YauyQihaWrl4uTESOOeFCWXOToRGxyZAocPHqzdJDQZSLW+UEwhjIgqkBFVytab+PjR046tijFCOJNdK/IoQvxHuJJeCeoKAAx6PLI3rGalbJPn7iG2rsGjVBZDvnCIFVPZbcEud1bX4CzBcF7BVHqy6uQKcVCzXAgj4tVIOpwCmdH5E2UJMdhIMDIXueGhRgJgCdhsaZ4o8UMAqSHrQGA0GB+14DPBcAUILEypSq2h0iy1cnTE/UeEvFS4wLaePlMRiYIdHj18irYCHJLHVzIR9zLmpXbgl3BPj9tWwKbT8LHQ9JgAAAqlSURBVLtd+y8gBpKo19EauPmGUSyPCHRkDnfTMTloSEhbYKKWpTnA1e47eQWJuGBVEIHPpKK+s2HXuooHVS4OmeAvy+rt+/6iIDHhz1+8tXXXeRa/AkZxYqPvqB5FPQZ6pEAohUPwM2LLK6MZpAMycYidY5culgHdNNAoQH6WNdIi+aUUiRi+ecupy6ChmmN8aNhimToTuW/T2J3AUSiOglSkKwdkbUIoDR2/mamuTsvZrRsXYn1jhin34TNKljwEIiUHCwfd18MWtqe8KxSgRzKdMtTokYaNzzJgzPjTQVmhlC/5GbEU/9xwAiGlpvXMGdmfioxG2Srls9aunMNs/URBFsIRTRBhCoTfJQFpjsBLCDsoH1klmbI4MLFz5Ba6PNzfODWMV8T4ePYgZJwyWkA+/OWQAYg1Mj17xZrjLGnp9IolOTgQMpJDtYiiiLhhtFehQRj2hw8fE0v00LGrPDKiTp69YRy9YKnOGFQKKMMM3sdMcP7CP/A1rhixYyBDAVtOrIXLILOg2FK5HRzQPEI9XGq454ZfZikgoOvEYQBJXFzxOaQTyStfLosDE/kkcza35Pg5capEnNgxYsWMyYhFAiK8Gx8rfZpP0dteCLqVyvA62B94SbFCmIrxATu1Kta2u+/wiZtRxpUsnN5INF4opMK5pFQ4L6xJEB/eBGX0zGSACwVT1AXiU4xrJMyRD8T/VhjqL1Mdn5vVNOvfTUu+vHnrARk27zzbovPCCTN3wCghYKhLJNpQMNRkkyxpXM7gTRA39oh+1SjBbKErEtKFAmJ8OGYyggGSjSjLHFttTPaKv2OiRCWNGwA+CTxCRsGBnsx8j9qhq09xrFJ4xaHOZgjYQA6fUZbzzFSr2Yw23u5okYUr2xSzP75DFKBDMELgI58ZgcQjwZzew9hu36IIx7V36rVswbJDn5d2QyBavf4EXi8VS7mxhuo5wI+w3kXyp7l8lcXsg5qVsyM1iAQhkJUsYczhxKZNmiQui8eOvZY3b5i/z+A1zP+WsLJqVa5KEUqFQJ/UC7usUNJt+oK9HBrOYlPJsMYakH4cLsKU5R+vkDUYFf27V2jbQy0DhRe0aVwIA1H5+pPgoRgc2Ht67eY9lmlUmt3Nhajg2IvRnWECRszkLDDg8Iq6BCaCEtEYifYydd7eBj6zB/eqhFFl5sL9WT9LChFoL6tCFv6d+yzHBYdDuifO3klxq++LAgIeyNosiuGSUJJxDsf86bd1TAxdWheT6oBDDHPu2zUrzAm91b2noURD/uJYESL7crQGMhrmOE4Vreo1DTmINSPuUIpRGhcsAPgcDow5i1jFLL0lXf+G+i5G60BS3vIH7m99UmlCN8555pRNzm6ESjjzk0XR35qPR6NpKn+PDp5f915ercn0bl+V5AvylZN+GreYe1pekZ3pZ82GUxeCbnOsE0wfZkeNyHHwfQ5DJw8fSkGzQgYxAx8reoY8Tobc2ZITDR4dNBwWrgf1MJSjY4EIvAU3KwBAisbAASkeFTPzGZbDSv+bgrGL4zro1fxDGOZYYALpz158gFOAZI18+tzfSL4E5bx9+yGTLksKNKcKXOgrHEYJBpCpd5eyTTv+oaIqhWbzoYvbn94FCrDIevYM9dzvQ2rxcUVfEwneLRoWZMDMWrRv0/Zzi1YepndyDOzZCzeLFEg79Icqo37fykE3nJGQKOEnsB4YJR0kQfzYDx9Z+hJaKlTsDDykEk5l+fraHc6VxkjSuXUxNI/YKKha6fjifxw/fmzOlSVc7peNCnGQYSaPXxhXHLbDmghORDZkNJEgQvdBJb+wqc6y0IMnOTrC0LESMFxZDFGQw7s5wfU3TqnusvDOvUfAaVovP9gStPH7TqUJnI4Uhhzx+9DaHb5bGtfYcMXYRqOPUlKhZ7CN7zuWho3OXXIwo8fgZImdCST8Q9eyEJARgf0BoaNs8Yw+PZagmCuYOxWGFI4IpyztQr5DtmUYUylE4PBFnHtix/yI/S3U7vyJwhBdG9PGx0ZUfKwlDFGyZS0xlKjmlctlgf9KrF8Oa4QpYKvBjlSxdOasmZKNnrotTmy1Q4zviGkC9aXf+hMVS7sJpyNdX1SBKYMmkILmF4Tl+ArLo2sC1sLcC22lyd/6lDx7/ua4aduJlwyjBAdEQu0diJqSniDHdSCa3b//hImzitdUIpzS5J4dSlsZpZonUMVmSpu4RsVsSJdqKR3sgHRP6F9mAgx0aVMnxF4kig5wADEe5QwPHumrBDPmM0DDCb/U+HFYgK//4anz9xBqHn7HWcG8ZSbje+konEjfLknjYcAkKh11EYOCuZCKMH9hQ+v8ZXHsNtUrZJu/7EDq/IPQKTeum3+u7wGWUPcePOHIYuY8CIFpvvOXxcLdPgRXtXBx8NMXadCdxYX0V51uv3lHKcBgwKz8XBZpbh19iNHLPE+nZ6wy8oVnsaQialTwM6Whg7kwBpjX0bLTZ8Ryjc6RnGIMBSCvHj5+Cr9gxLL8ByzZyEzvoo8xE/NLJ8SeQ2b6KBkQM1GiAQQEeKVBafTosso6GczyNmSmBzhyKHo00auqqh+p42SpC1TBX8tiqmM/ZvQ6AZm1sFIRsN43dkbSWD32pDoygBJLaRabQgHSQQy0gUljYQTQAVAyaqAPowYgOjNGVaQ/PgF5NA4GbVUz9UcRrABrziY4UAsw4VP4TuJPeutYb1CCiaDBZLWImfj4ps4QSpidFOGXSjk6QilGjaDxaB64F+JAKB5BW+OjS4EYRINi6nspvxrVOkFSKKwAGrYRiuimkQFrm16wG6+UPyNt0ZC50d+IHTtURCmAk05zZI0s+FAvVNWOEGSAAqBCA6kdonHDx+WTadwgPtQwfz7eEk1cHaHhpL4pkEkBDtAUR6bTPsI+Bnrqhq9GuhxNzE3YK6Sfmd/xtbjQTGmKmN/a799JCshHjTLqBiNAEFCRaOl/ujTdDgYBGPqI8ALeixJTYNN3Q3Ibgo8c6MNIZiA5GgMDaPR4IAhYerkYtbkBJrxT0iPqfhRUIyr0FA9wwxBq9F0DFWP0qkf+F1S5pwrlKKP4sHoFGqJeUyiFDrtrZOYIOSeFRghUki02E1pEYylloYORh4gSGH0Ef5XVav7ixpwI/oq1WVV7GiubbPsCL+HziDMgEwBhq+CStauoI3m5cBts19MXAXDm6HpGQmgU1fFtTg4xrRYSqBpTB7tQEj2PmiZGccuPag3nSxrAYJdYazSSvIFoQjdyGzgrYw735LepHsKSgX/mVpu+EbOvhfIUB64mI4/ApGJu5FJ0xvr0THVFo3ZVFaWDnUI+K7WE/XxI8cHGkli3VLqZYMycQSk+gmqy8SF0NmvNIX/DlyhD3tvv7BSwU+C/owCaiv+1nYv2gFGNQNSgRm4UpqxM4WR5yo1AAYLuGN0oryIZ5P8d+u9PzXZG+f58S3tL3ksKsCy9GHQLlxe39ElwUdJt3LT9bI6sLrhP6RT7zeujgJ1Rvj7a2iHbKRBdCiAqoq2TtSF6NMRGlAYAlSWtUp6aDimLbmX28hFTwM4oI6aN/Y2dAm8xBdDQ2qgF32Jk33nUQjSm73xT7A2wU+BDooCdS77Jr21nlG+S2va67BSwU+CdpICdUb6Tn82OtJ0Cdgq8SQr8H0FdEQm72D0iAAAAAElFTkSuQmCC\"\n 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<rect width="321" height="91" fill="url(#pattern0)"/>
<defs>
<pattern id="pattern0" patternContentUnits="objectBoundingBox" width="1" height="1">
<use xlink:href="#image0_322_494" transform="matrix(0.00227273 0 0 0.00801698 0 -0.00506993)"/>
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"/>
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Object.assign.bind() : function (target) { for (var i = 1; i < arguments.length; i++) { var source = arguments[i]; for (var key in source) { if (Object.prototype.hasOwnProperty.call(source, key)) { target[key] = source[key]; } } } return target; }; return _extends.apply(this, arguments); }\nimport * as React from \"react\";\nvar SvgLinkFens = function SvgLinkFens(props) {\n  return /*#__PURE__*/React.createElement(\"svg\", _extends({\n    width: 297,\n    height: 70,\n    fill: \"none\",\n    xmlns: \"http://www.w3.org/2000/svg\",\n    xmlnsXlink: \"http://www.w3.org/1999/xlink\"\n  }, props), _path || (_path = /*#__PURE__*/React.createElement(\"path\", {\n    fill: \"url(#link-fens_svg__a)\",\n    d: \"M0 0h297v70H0z\"\n  })), _defs || (_defs = /*#__PURE__*/React.createElement(\"defs\", null, /*#__PURE__*/React.createElement(\"pattern\", {\n    id: \"link-fens_svg__a\",\n    patternContentUnits: \"objectBoundingBox\",\n    width: 1,\n    height: 1\n  }, /*#__PURE__*/React.createElement(\"use\", {\n    xlinkHref: \"#link-fens_svg__b\",\n    transform: \"matrix(.00099 0 0 .0042 0 0)\"\n  })), /*#__PURE__*/React.createElement(\"image\", {\n    id: \"link-fens_svg__b\",\n    width: 1011,\n    height: 238,\n    xlinkHref: 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dpM7iculSiuFJ26mStoom6epKwqd0b7QWdEUSV7E0Nd4p6uqSxKmfhGeP6tfRIOCWkbEtqtYJZUyOl0/Pp0Ux+iq2WzmcjkfLmu1WqlkLfEYCXP8ZutqRP4QOH7Lsiz5sgYajUY+74NLtzKq1WqhUKjX695X0HVATEw33eJc95dp4fKi82cY6xquui5nc/NuPUBgp5vt63vHAZJmfLSL73nPq+i8xrgl5IQnuh0jo6IELWyUc5Iso26uk5pqIkKKadTquWw+kw9KsmhgaMwfMkEVxuOYWY6WlCLuFmHRrtMSLlomi8i4X32RXb0uYN9KEE8eZNhu1+s8sUHJBmJSklHHmVwmlytFLZuFzqKh1IOgSrMa64P2UrwGBB2nkV7wC078zT51yOOAcvZJGsDmmESbEjpFI6prioJkUuO8BaTsaAV+/DhGNS7StvdLgF+45tFYqjLmnc2cE1hdzGYV8qSCuptNwpN2lZTb24ZVbrXWAGhmc4oCcPMHkZTGTJ4S6VZO3DNRqwGSbwmVqmEQrf/OnCQ0c3GXPYGeuk1D8vBIAlwb6Ek30JFmIi6KfP77xXCUlqHvSoYAtXxnEQrugsR+wq8j8theMBijPaZHPn4zTqOiZVh/2JVCO/S0rlW1tyhiplQsLrHx+rBLuJzwxaQBJqh0EbTqANlp2ChgZmZmZGSEfiM0eJq63zo66skEKLwY+QlqDOXb08EDS0hhEEcJZ7t6rD+OfHRTQNgcymIkmqWKo4+XH4rSwKTYjgrZVlZQI5jaM+1M3o2+lAUt2fAOAWMs1k001KTiMi0S6yI2nanYpgtDAEAZrrHOKXrZzVMDoQl2pQvahMDBv1UNkAhwZI1dymdCG9vsWYXBgW6SStQlOExAKvDyBKo84yCSeTgfHUnQSj0JgDxckoO3HONp4lloKXi056TIiWCuedeti+hN2Msy386Rpa62PQ5ko1oxnRAw2Gs9DUpva0XM5QBfJEpbFP146XpZk2m4FQTwGEmeSpDclbztek21L7QUUhspDazZTG4leFx3Yk70HgxIDEtlZuAGtrjmdsbsT616HQKNSbILJA7VM20o5FqNGv/IDzTm9DGF6Tmh5jcttaI7RVRMUhaFl6xDFcHA7M+a+t7lfvVwK4zZUUA8KBZNcnm4zJbTLWvgWGqASSn9pLpK+rd2u1KpYAIIKJ8YLPc0b/rOcrl8NAU9Gsg+dOhd/Xh4mi3eB1Z8A7SzFqyESqjFwyFGI0ONMYxfmaM6xomQ6dHU5pC8bCLXfR9s54ZEkF9Om20oPlgHO3C2nS1wQSnwaTWU2Sc2qIEYUTG6RDImzWLKbvakYX+P45nee/1j+srZn3Ro7PHeV3e11d6yQsCsrN2oF/Kyg4qgE9l79YWE3nydLdXqyNXB/fxqKHBMApoj0GCSpyCJTj8OajISL0HPgWYJBEw2yZE81y6TyhNuBd2iN5azXItzkl0z/05CVYQb8P0G1/QhCbLXg9ZJv4BXZBhaRcils9jKLdzqpXdiCOq1iozojCiBGrjdaOVHxtKFA4CjRbpUcLxs9TlglBSNGM6KnTu+utZifkNXYy2ZHTuEtVHJO1YJ5Y501j/7Xrs07nc5OsC92mQor6cPwoaCpDh70O8k0cf6l24W9IkUYc2dwZtIDHLHWrTjNX/0iQLRJz5loI3ROIN6j9dSLcv9YtWAdxEgMVzQAdNXeltuOegP8UctsOjI3saBjkHbO3d0YAF6fnceYIzFdETY7ExgXFw8WkAuyMswrI4BZ7CoUAyDhWiJdj+tZd1Yko6iTgtXYNNtFNrNosA7f5QaMC+bPRfoAiyTqCuq230vM74SaPCmASku0UXQKnGmwyVZ/ONOKLRdaUW1RoSyywVpu1mXtTe1FUcKhwxnjZj5GJXsERaLx8jWbOX6bc7DutyK8g73E+pD/PrMkDr2qULn/DbdDAKfJd4eXGZmrkFgCzAt4YmnmJnSvPSTazcS0B4z9BlySl/20Hh2BLM+j+7MfYGuyMT7Q/iFavBn1i89rLLHs5oYHKfpXRb20YcuDrMQ/R42IZhXLQvK4AXyRug69RjxtrueF5Rxpp0iVesRO80c9LtsdRpyozFCf0uTprXJTJUkxR4QLxKFYklM+i3bfxboZvuxVHlduiBTBwcv7DH3GaeDHW4Zhi5IdbBdgQbs+5roEI8VAFqQsiwzedFqIL2RjJ4B27ygabtNd+HIHs3Qe+CzwklHfdQ28i06stdgPDsCqAF09+mxpdPGHQ+LytNAy+CBn62jNO0e1xXwxUcpbigFlm9mBNiibIcDAw5x3Fr6PhVesZGYPQCY7YsRKITxk1JSiDxlZKiWJhzZmx4Bkh7pGrD78sKl68vjCUtjx4k2llR9oXMQpLeo4LvykZNtUKWcqszUS0Rw0MaO2BxtsDallgjuyVHJ3p4Tit7f5BXS3juDYsjO9eYEZO9Y36J7EyHA0nJBXbOa9E7ADKVtNpLztKNIu+2FnVcB2HnehexnHxVnBEilOnnRU/nmokKZLSnzymLuxMjfheytWGoWOA93V5zN2KwDQHCRUB74uCo8gI+DM/1Jeh65vxI991zlmWee2bdv30y1zsBTrTMS1eq1eASCU7tZp6mPjo6uWbNq1YoV5WIBa/TY6MhZZ51czEXFQoRPZ+QOvbD9PlwSGc8n3bqfkNmvHgrERir+QjEJDCusUi6tJorS0Ni11157++23b968+Rd/8RdpkIzfy0jUavlwPFTq2nv44YfvvPPO1atXX3jhhctrIIejyuU0S0MDvuXGJ/9MU6emprZu3UqvS1N/05vetGHDhqMv5mKNYV4S78fTyIN46+XV78e7FzRIhbDBduvcfTCDLh7D8sJMDBI+jFl6pfP9sqAZ5WKoF/6Q8b8XmS21mHo2PvKm2o7YhJXzXavaAlvP23krpisVUy65YOjz4vuoyXDOQnohhV/C2EkK310TsOkhNVCww1U8iyPxOZLkkHnNXaqjT1lyPSTtylsX/oGZaHREsB7HqnKe9RRHorbRxduq7gWEkuMR43WIPFPPVqbAro+4ASd7Srxo0CseS6jivXrFZLhrZrKTNJ18hlor2i4L+OtUmRar26xuGZ94ycsbxXB+x+xu0rRNABeYxXpr5+5TEv4oA/rJebnmICx9CJsc8eHPD5oFxUrP1lfgU43KmiUYGquAcYcgoltoJ0mMp+eUDlsRaQPp2kdcdWb2fi/S59mVzDXwHSLH8R7YPRk9+fT0c7v23rr1nv2TU7t3796/f3+1Jkvz2NgY5vw6zQLehsSZaNp8SRshRoolcGqrOdFqPcO7to1mjWaNOurVGV61LZcKa9euPWPjxrPO3nLm5i0nrSuszETjpWh8VC/UoknaGzvxkczLFQplAkub/PEA9CmmK5bCLu32yS4R3P333//f//3fb3zjG9/znvcgeMCmXohlf14aAPqgUpJs27btH/7hH0499dSXvvSlW7ZsmReTZeJlDSwRDbA9j9UneloA/dVXX33JJZfccsstzFe53LhxI7Aeh3WAToPpq3e8R0HyxUX2FIBBIm3jmS3S7ABG588YYZ1/Jte0ox8h8wGY4YgAPn+MZ+xFqdT0V6tGHFICtGJnDipjzsTqnjtX4lJ7157Rc7bsSUi7L3KFysxksV09Y8Oql2859bQT1uQyvMBWpetjtEQpJIutsCiC0bTBAX3SFVd7J6Onn9/z1LM7du2fzOmUTI6/0K1MolvIy4zA83E+75xPiv60vgLV/97xENtXftB+Odc+79yXnXXqOIrG3qlKUvsFj0vzPXUM3C60WvnJajRVa0/Ua9VGu86e+Ha7mM9STTZ9kDoAW03Va8t2j3jbP7SayJXGzwLfyrHCihFhLJ415ro+K07Sg/T11rUznV9rSFgs3m9KnqA8gXA2iNdbUbURTdWjSr2FX2202q3mWIHX5wV25+LAwQ0Z4HmAGlnfvUcy9J/JYsPOZ7LFQma0kBsvROP53AgH5FCHMdCcC/t501BYtZLE9St7SgA9xUkKzuXk6FRb0QPQ8/fsvmjXgfqj23fc99BjDz7yxPO799KuMoVCvgToxl87fupJK22HDI2NLTq0Z15UzOvMnAIF1W4n1Bll9teahVKB8abZ0Mu4Jd4aYQmjUc/Va7RvjtXZUak/88DTN973eLP59VyrunFV8ezTT3r5y19+1pbN69eOjpUjTtEp8xKvFc1nSu5TSgpLOH4s4k6pq227DqSVpdk+Jb6tpDNUj4+Po0Z6yKO2pO65v5B8V6CXiDERiM/Mk9njC6mMy2V58WiAaaq/GvvQQw994hOfuOyyy4g5//zz169fv27dOho2sB7oDxw9yoh0sZG97IfWaWNL1PFADB6cD2R4iKFWe5L8CDbusSTeymWrbDm3AU2jexRNTEd7DzQPTk7v3X9gaqa698DEzt17d+3BInXw4ORkpd6ewMaUYajSCIEfAm4V6G1hg+L7Im+SI3MvkyExYfOrm8eg9IBvuiKMIy/3gTCjpXy+WS00JlbmG+/7hf91yvo1mA9HRkfjgW4WCjAKC/rIFpsgyJHx6PFndvzThz9WXrV+pgF4KQrS2cFBQQ/oF/pwKQWZrmh/IT4d8Hhiupyn6orkkoL0RhIziD7opyvVIP0Poh9UL4PyHSSnrwv7XfwQcPHSl4SLrWq5uvsD//f7Np86jlpLnNTWov3RQmQwRxFBFzRH/lBxPZOv5aL791T/6P/5/yqZcrY0zjvNyhQgRXvnDCTegKbKgG4cHq6ZLWZlhztdGopVLRHNcbvQro7U9q0pZ973K+991ctPpH0AAMssBDUaRT94vJvH0rxWw06cYD16w4bOuefbd1X//WOfvO+Rp7Kjq9vZ/AxQPVdqcoZoj0MlCYfUL6oF0LebfNIBH8gqzellBk4jKzbrDSbRoNV1pcwHf//9m07Os25Gh2hgNMVkQYNU+qxVPplF0CMAuxt1VuqYnekgBTV7bc0SiAfQE6CRHZiKnnx2D9p48tmdt991fy1baGaL+uMQ3NWnZDJ8RQFwL1+dBeGkVyScL4ub8TEYHS9fZNvFbE0IPMrojX0Jh4QwaOb5DoZE1WyT13iI4G2wqLm/MXXLI3tu2Pb1QjZ74vrVZ246/aWbN550wrozTl57wrpo3G31MGrqywAoU99wqFc1X0KtMGz5Hn07ckfFV9Y4BPNGwHX/1u90R91Xe6HR5XI+eA0aPo5QLm+9k5OTK1asePLJJ4EC5Ii5CiMfLcGRAdMJrIBO2Zsd4iEbNJs2beIuSQAc09PT7LPqJT6GMcyLENV7dWTz4YZyMXE6hlItqawdHtAAsFECB70FDpKQu9BDfMMNN1Dp55xzzoknnrhQ5rlBmS7HBw2gecKPP/74X//1X99xxx0o/8d+7MfOO++8173udU4TOuGQ5OgEFhvZUwrrtNkFzzHsHOktB3axDpzBrBk1qhzWhyGpCLBhRMe8tHs62rGj8czzzz2/Y9eOXTt37j0gZL9vP2RsPzAYRM/A610rwC+5FeMcI+MDvVibU8A0rtw6XcXeZuiM05XXUG88w2Nv5JAY8vfOl2QhAD07W7nE+XPrfrbZqrZq7dYMVsVmpsrmbTTAkK7hVTheWwRQn7kw9imCAVS3YZspNHLlamakPTYeZXm5ELN9jHuUClivr/DETgnN6Y7Z8zwGPwSAFX7Z5Q9C/IP0Rj5dHPxyUDx27L709G594wcNsYP4o/m+fEBU3IorCxojC3Xnl6pIc9nmdH3XBEAKXsYOBGW7ceJVFeWA+mK0YvmBzHiVYjpbmsqtms6OZPIrhMNonJkq1UyTV4Vk88D6FkCNypIsAx1ScC+Wpt0utWayrcZks3LdrXedvvmiExnEgfXAqQJ7+jvq0QtP1KLC1oFyD7thcrpBN0G6RFEKKr6aLU3nxmbyqzP5VTT1Ko9/fiQge9qwtGctzTXTLx/WDJsgeBQFSIWs2cb4TY/Ds9bINGuFVoV1mOlclmqi4hZZP2BlSkb5mAhanUhuO+eY57agx7/OqmV8JGdUseM4t++LHnnkyUeeePrpZ3c8v3sf/eH+qerKdSfSYNAJPqt4pKFPAIRmc/YGdqyWWD+UC3u9tyw1L20Mc1VxJ695Dq2YuQB2fK0a0QbbmQaNXNLqAwmmNgQGlWdLY1G5kWvUOPvyuenarm1Pbr3/0VKmecYpG7ZsPOncl5559qYNG1aq41H11aOxrBZNWGyhkHoh17udRi3q/N6INYJ+tfdCj6N/A4d5GwaXY9IGot10002UG7zLMAHWp50TT5hOeBBoA8eDmMHHf/mXfwk3LsF5Sw3Wv9ArcwHK52geRnQMbuUlhqof9B4CZIwmF1988Uc/+lEazJlnnvmf//mfDI7eohZAoGUWQzXA5JkK+vjHP85LI2ecccaf/umfnnbaadjpqTLSHcNaWHxkzx5wjRhgIIYeWZQZ0BjAZmr2SiGjbk4gdaIePfPcxPYd+751z6P7ZmoyyU9MzNTqpJb1DiBbWpXJ5fnjmwDZfAFWjFXZTK7WKObsI4so0fXovkOZ3krJCZXNw4H85kFtD6TTa8hOXTLGEoPjR7Xu6xVsiJ6ZdhtZU+C+TGGTQY5fcSDCJObS7th5QTIR29jMoF7PlqP8aKa8ilG3lS0yqAZwbyqRDd8D4maOADIQlIRJ+7NctAOXyF43Py30pk9i0EAS7Ph1YTqi7KJgpsTe+EH0vZRxzIB8XRqrGQtayJN4ZNpv0nIzBe16Ctk4JLVLryFuETCAyG+sNkAVeLSRKUa5Mj59McbVHLvJDNlTZSD7ZrZEoQrtWt9JDmKQiRcC3//4/lWzuGKi2r71ngfPv+DVa165lsojSzsnKYh4/ARQptp/bLYXzM1GtcxIJVvO5sbquTKv0RdyNHH1JfYHlFVArl+ztd04I5zNnscwzT42lgWpHQzQ1AXzqBZLiMyE2vWMTjjCLVQjF6+BToZwSUvWqlQKgHFbvdKUML1WKg5UtcWFmDsf3veNOx9+bv/Mc889t3ffARk7C8V8ef3IWL6tb04zBeBMLEntjzzNjDkjvulEyjE0L6uzup+gIq0RSD76VTOhC9Orl5aTbcAamriA9mFpjwBhFj4yM01MKqPZAoePskrIoDZVrU1PNipTT+546PGnb77jrtNPOfFlLznrZWdv2XT6+JqiHphcbkQcsdazTqXnRZlZXuZJG0dF8bNZLqGQVU2sDQAZ3fL27duvv/56cPnKlSt5CQ9ZQfNgeighwJDfV/qDBw+yWeiVr3wl8I4ANNSN7xPoS78cuTQ1wLoNWzhoBk888YS/ewC+p+oHSQsMolvAZkwDmJiYYJ/33r17TznllEH0y/ELqwEmz+yqv+6661D++9//fvbhBP6h1kIg3DoKgUVH9qAXvRcqCzomJa0p11iepXvnIBiD+E/tiO7Z9vC2hx555rln90xUJmu5GkMv2JcF80I5z2EN+RIoqMq2ehsCDSFpTGzW2w028/DmoIag2KEyQvji0M8NsnkMondu/Tj1j+MxCzcSNKYh0+XzGL8UGcazXBmo32xXWfNmUQ1SDawdDzIGYcC9D34OC7ChiUYlNFAou11UqKM3202QZTqSmDNZDfciuAAhTHkRxi9DYFYwCdfhBtnmB9nynXMHC7sYRI/AvcTEDKovjFh96QflGzTflcrl8bv4IQCZX6Io1xU+O71B5LbbwdgIpoBLzGzvEZ2whSLR7tX0ac6pjTcY6Q0x2S0Kns2xpyISZNXuhaHIflZCQoLAuUytiTFv5uat3znnZW9cy5yXx4rXTIWW+j8CJunS8UxOwdxYWq7dUTgKonUMgGS2xMwHazuPCPqkltMOei6TdLO/RDYzvFuOVbwt7AyC1dSaBRN2g7BIwjOUB7yyJwrDNdoX59nUixOSjcM5Z+jRGrpABFXVdDuq1aNSIWqXokuve/Ca6244WM9unynORCWkLpbXAdQw61IoSkFrJCXzcISHnWtDfG1Wx4QhOJpruEsz9LzxrRlrB08So4AJooVRvpxnO2tojJjbyUOTokY7W9NbvIwa9B4c61bMs2raXplv16cP7suVMzPZ9rYnd377gcdXrRh/5SvOfdU5Z73t/BOn2H/WikaKecilYW2Lotyp9knv5r2ZBHhxua7+DexOLWOgfe9738s5POxBp4Oi0h3T8yKZo/ZeHZEK8yG43wnoHpkYqLX3ey56ky/HLBENrFmzZteuXezY/uY3v/mHf/iHASkOGn8Rm8kAez8+8pGP8C4y1mLWbWgzQ+iXSElfGGLwxN14443Ael49Yh8O3TLl4ukLu+qP1QO42MgeIDQCROIIcI2j7C5mtM6yI1yB6+/YfeVV1z742JOMvqWxcXa+1jgGdHxsJCejJp09HzZvttmv0qrXWqWRFZFeAMNKpZUmhjWN0e0mWJjBx7ovN03FmuTI8AFNp//ujizHi/Rz860Ytu7Chi7VmYUAh6cRw0trGpXNJ4CRrpln1Mu3W3n2XDOaCn50iOEjnRthGRYZX2dnDroHRrQ/uLUNHCMwDqDE0JzPNAsZltdl74HWbHlJQIBHLr6VDAB+Lr7fSvvNZn9bEXWVJkuFYw2kYhRsaoWmjxuUL3C6D3UUjXZ+xyBF0z9f1JOimQ26PNKeOW7w6z4BHlT2IugPF7WA3cwntPkhDUGgT+3GmWUtmlbZdj6UW5VSq1LPlHgvlHkXdtVSTtseCrLZs6uaL001G0ztwPgZCtZHRWmpgnhMfGqNQnYEw3Pp7oeeuOu+V7zpvDUk5kVzqtdaQR9WaQmPedhqxXBdAu5plzQpnkZ8nm61XjoP8DiPPLP9PL9hf5maenC9ZTFsqlpAz2wzw7wFTaMN3G/i08Fk2rVSu0rVjLRaLHjxJujiQ0vfE6RSMWmhM6Qr0+oE7Sof7ToYXf6F2y697IpsceSUU097dv9Ufu0p+WyJeS8LlNhHarzVyrdjG/WVY2OURQ1HJnA9xQ7xAeGEgetSi+N4a5zcNzI8mrj6OmjoZGnjNjWw+LTHqlLyIPiMiJtMhMq2Z0xhErbqdGHNVo3tO+tO2XRw/96JyYOF3Fhp1cp99frXbrnnK9fd/JkTV/3su97+5teejup5IWU8T8tUrZbU/bBg4FlqloIwfvEi9Hm6VV2oqNn0jTdYYdmHA0wPt8AK7vrqBws9xDg6KlqLAzvCywivr7qWbCTNAJh4zz333HrrraBGrz43P/WVmVtAeY5W/NrXvnb33Xe//e1vp5EsV3pfXS1GJGcK79mzh1pA89SdGyiZivt47Q/1YuR7SJ6Ljew1frAgq2M7bOPsvpnosWcmn9l54OIvXHGg0qpgShs/OSqMTLP5uFgsF0vTk1Mltoqy5QacyvjE6rRM0KChHC+D0v8BhWDFiKCFbExZHBWZjG3o0VWJz7jUt/BCaP1d/3hmEv3JB8TGB9ckONIrGFo2DuEDEolJfPAKL2ZZcbDFy3abJHPmGp8F0Slo7DSOS53u+LUSqz3xMIPleZkBiMz0B/wDAsJwa1s4Z9Xi9CRPtzwiY47IaTggXIbAID2k0wZiAqHg6UjC1GRXjF+mROi836mScI8yhnA6MCjfAWxieUjlDlYE3CfA4UugSJkriZSxl2PPZeycbVsipuWo8RDy+NRdXtwEwXM2pjZ5Q0N+OKsv7Mbss6cG4Zxv0LY1ueEO7aBPU0xLFcLMBGrNarGUr0416pNTN9229byXv4WXMHW+iSFj5biEnesOAQ3VWam1N0OXtEgeGBSN6rSOAQrMMFmnbdOV9EH2UluP00yJCpRJgeejlWtimjdAy5vGwj80RlSlvoLVxHy7qCcLmWafhh6OCxDBS9J6syg+4dYw/UwUPbw9uvGOe75xw817J2ZWn/4yDrp5ZrpZXn/6FIf6IBRPPU8z//KFcpET99EVUqIPAXnvoQgoXv2DyoMfNwF/oo0qaZkqoXoX1Et/iElB8094okOrhQRkq6Vp0z3pslhTzFhgayZGRqdM78zuHLjtmZjIFUfH1o632o2pSqWWqWVHR8urNmyf3PuXH7nk0qtP//Ef+cHXf/caKFmnWGnHJORJKIHJke8JcMeyVv/Qpyq5/QJ24HLQAA2SaRvIHkh38sknA9MpMreoBYYtEBsG/kH9LcldP/4gkIrAMsI77trMgQMHaABUPfM6qpuqp0l4nfYtC1XMPhzWdl7ykpds3rwZelxfyuXIxdAAj6rOF65WL7jgAirOH0OfXS9GdnPnubjIniZWYURmZGYnfTV6fPvBO+7ddutd2x548vnxdac2y+xAKEeFsVZxtNHOTbfaE5X6iWs3FBlnsrxc2qJNY94mDFClvWopGY6CRowpiibQrNPxKY4yM1Tpz8J+JkyvIgR4+7lB02IBjfk4GwUlSvyAhQDvBjCa2h4Y9wUWRYUxSz03wxuDqx5Kz9Dsam5diwGjxEAD2khLMiFNU4YpQrt17MwPhlqOu6gXpCHhxHauYPeMqalHSpL9LLaFx6qzSMUrlz4OW2mfWMxudsZO7y0QQW8kMaCDvvGxunrv6Tz4Ps5QQJ/4QfkOindt667VlClWkhPDH29sY5QEK/GHzR7NsyGeXWHkbsUzL1GdS8OtWFO2vUQMBUvBcxhoS+1sGdNwnfc3WadpsyvNJqraZ5JvZ0cQQu/WWsKussUzUgllfxKRqRygNNeAPl+NCtVtDz9x+x1PX3jBaSM2ke7isDQvvZXgm4HZ9KrJFJvMBOfzfJgZm3qbc4TqQHz1C5q02ImwNFzrAeIGrP1+3Q79YJuXprDbk1hvcaJ2DASFRjPHq7RENHXYTpUdJjwP2g7Vv3l2cz7ca+ShR8FsDb7V6tvOyejR7Xuf3rn/8qtueHbvRKa0Yuykk3dPVXnBlG9H8br/ilGtUUp2NTPrH+gTURYfPuPdDJspYvtPnmJKB9d45iM4btAfaZlLSGbrVWQhN8eX1HIZ3mVApcB3+hZu8BKC7vl8QSuM5oxcM4cyAL/F+09y3EG17GbibnlsFZd02vil8ipO9ABcTs1Ml1aUV6w5+bG9+//uIxd/47s2vesH33T+S0d5WXnENG11RuXb0yzNvBhhvWlbXTqVxa4bN8yzXZ54RkDHCgxP3MVJ5/0ct4AX3PW99fgkWUb2/VS1pONWrVqFDZjapzZ5xKjWrv1aXdJTy2y7ItLbjxMDMYen6mKyfHnYGgDWY7Znmxz7oHhUqQ6NUf3MTIedxeEl7A+bhvKyXjimiI0r/TsbM0fV89GemeihR/be9u277/rO/c/s2Z8pjo2dcDqnVRbGxwvFFZV2rs6oUiyVOdCx1ao0ZtguXoyKGmBy7NBv5YslvtQLrGfQYhG9qd31jAVsUqWf45xMztCEFkAkX1tEPcwYJoPQXP0ib6T1o2+AvvrF9+ecAgahC/YAfTQBQLa24rivsydsIpJAQwo0TPOuZdGIjEGRn9i+ywK3uWyrxlvGjOfi2y7okAv+NGZbRngkIszcyb+EleQYspaM/RyvH/aL1g4pxffqmdropzcdldEvXi839os3k2ufevRannu+2vTQy9/0L/Gt1K7DEKZjZVGFvRstfRuYpg6CEmRG51zEVcWP9m2jYWndgYn7BlM0QxB/HUbOBmV0hdmYzd046KkcrbS0M5xnImuc6hSX8CZhcIq2u0FIYtAL76HQrYytWFNtN3bvm7jm5jtf84rT1gRkL6gkwNa/8gL3JRHgQXM59HgDZrnCoqwlDbV2Hm/pklJrPtPpSEZEn0KgWqVm+lOkITUz8TOorT2iZ55m70Nzwox1HH04LEDUrO558MHsaiUG6/dWojsfeOZqllrue7S8cn17ZG0rX6adlMZHJBhn5RSKmVZVU3T23KmRkE7zeaSlUuMZuw6/opA0Pm7TOsRdl9IVUfxTMtonZNxzJmqSQvP6MVby7RYxJp/S4OhPoaL9wE6BWq3KRi/217PEShWB5PV4sGeyUi+Uyqi1VucFKB4c1mBZeM016rWDjXpxZC37i7Y+tP2Jpy/+/le//K2vO/9lG3U4Dm+FYIPQVFaLEqYoyeVZz/r94oJW09LOJjleQo6/QfMI7Egu3ZJDmFuO1bx36i0dBD4HABF6YBnW92pp6cdQfcB6Jni+sQqMTo1T9aEldBWBWgZaQO8EhAksw/ouLS3eJVunqCmgPGss/iwvkWnVfJE9XTA2IXp5nSkxU62VOVPdcINGCDvxhnGEb5LjKmyuL+bveCa6fuvTt99+567de9scqrBqdYHV5JGxFSsAOgxZmZFspkznjgUN5JTPlHQOt8YRrFTcppsHALFJnVV4jNU5wL92OWuEcj/Znclo4AMCgpDcB4k+vj0AGqWsFLO+jm5IeKb5hxPoVKQ5uNmeNwGLPrDmC2y1kdMGDwxblJBBWIUxw1kjq2i9Waxy6EAgYBtOiFmSOkKxu5jDGmy24VM+7FVt1irw5B3KTEmnofNZKllxZc3MN/MlgCNObyWYE28N9OKIEzcY26X5ugZC6afXDd/90qNPwxlJnThL86lNlafHp7qVZ4oyDmuNpc+fyd+HD0bIXtkVI/7683IruWSQanUXnStGinGkUK/r5UadN08NwFMTMn0aLd7mJEJLBhrnuFa2JYiLGX3VinAY+8WJaQCVwjS0DqrkGCedOt4c54tCstgyRcjTptkToiUoVRNsPH+vJjHyqpHZWZnGzsP6+lKztnLN6I49U5NVnq2Njz9/4HNfvO79774QgVq1SrZUnq5Ui+URZOJNCd60HSsuofOtKZJebFXJcMjIBX6sAU2DeHeW3UxRjkWPGt+VKo2w34y6UuegPzn04865dPl0RTxtMvPrFXXegsFW38wxW2P8KxUq7SaGg2aL71bRcMiXrsOeuC4ugy+93nvv8zQzyuqrAvrcAWWiIbBsU6roDE6tjN37eOOKq66/ees9lWZu1YYz6vmymgZ7/zg4QC9Y4+r8L5XZe6O2phVLd+oYOU1HXbfl7u3N79GhoE2bbCuC+3EDp/654J4lsZKqq9AcISg8ycBZGSE9ifoMUrkRH7geU/FpAOOtg+p5ADKcf0MEr46wycbmArTUYi5fIY6uj/eI2PKdL040q1+/46Frbr3n53/0HW96zaknlPVyLQMjSepT04Wx0VajTj0jEsktZwkT2kTcUlRNSakV1Sm4i3+c+Gn8TZFpzzQbFcnMfu6HSwI0ib4lC/EO69M0jvw8BiuA78P2WYTn6LeI8eyk+c6Mwq00Ww+HiQSXnhFrNQjj4BKsAzdvq8RTWHCP5wIxr/yCh+Aw/HROOEAc0KqLh+98kI2sg6JcKu6SNfkSIEeXp6vILg8EkHESEfxdvJCRi5quIMhYDCFJ0LaDOTgjIfHoNtxySYIPDc5V4ZFcEujSOdWHQpABVjCEwGd9BKg7cg/8Se5p4YmoyBmYh1ueUdpHYEQloRcTSpxz4JYv+EBALjDkFpnyPje3oCcXfCK5iwtsnYZLKpRU3gLTWuJWaCck59Il90iYQ+zCk3UoReC/UAEyghWSkztikCnSeo5BPC6JhMyVj08qXDh1lBgvuwdgxSWpeO+ZN5hpVF60UBBn6Eng48wXqkRD+MwX2UsxvNCaxeCSzY6MGEoAhWf4TiTmF1qhBi3etaSvnW7nP/bpq254cGLHVK5SqeZKq9VY2VfDRmCWLdRApGXQjM57BDjZGG1J8bxzwacBeSce+3YnFeMIuJPGCpyiOap3Z1v8EL2r2N6BGsLUi3AaaHtSqHRahoidBejTQJq+F9lt9oZJRQYHNOkDHfMkMClMZ1PHT6NrxjXMTdJgLg1U8xwmY5mPlbaPPN9h5bX2GWvGaocdyTRJqTRJxi+bIkSjGM17eQKEDjttnzRB7vNnQLVN10mE/oOttOuEF51JIXDEc6EnwWs8BLouvVtBJFDTxP69evF8fBWbxQ/u3fvAo08/u7u1ZX2WBXzO8eGDma4jDVzqs7iSpEvISaVIZc+DPfBxm4pF1HqIPmTBlnv5dKUd97tU1FkutK2npd4uAup5ARQLdMEs98RrXUDrZmDLoJAFUI7XHP2bjZ1MB2WLLfDuUNSu6GN80e569I1vPvGFK76668DMxjNfUs8UH3z8qZNOXS2ULTM7tc/gYcsK2MTFTs1QSkpahZVRtRq3El3rEkcf4IFe39VmvhPHSXopUzFux59l6lMBCOIZA7klQNDsEQ7JaZ4UQXMq1RiVQD/FGKlZGYtXLDLk//Ozlz2/6/U/cdF5J49H+yvR6nKmML6qNsPJn2wmpBBaVPHyIqU2IdmCQ0qw5eBcNeBggkYI5nCAAsIgDOZwFAIjMBm4zRE29GA1h5hAPS4DWW+WNPKAV8Bk8HQk6sxJ6JUIc+5y6cJ490UWDknJnTNhepkT4wnJhSRkBLfAQY3MnGfhyR2iEeMAkSTE25MYsw9lcWGwuTK7cEQLBfRODIinIIHYgaAXDZG4y9Z2MoceGpzfcgm5dFZBw1524kkCK4oQoKTXS7oIfL4UgOi75xGGMMwDeg6KhZunJQZ5qDsC8CeJCxAXuPOHW468PRoOOBKSCkcAUXF+F2KKSdgZQhDCBEJZnJ6yUy5nHiRxPq7V0AbIkfN8KBTEnqOTOYFzTivE7x6JTwNDPyyGsHOJHGGOQwx4uvCUBUckJcV3GbzUFIpbHkNBoCehkyEw+tm5cyfxwHpoUJETkwoywkGZ3CUS/+i4+SJ7+mm2ibrZj1VYXuTXB15YNy4X9KIhuOZgTfj+3kf2feS/Pv7ojsna2Bnt0uqVq1fzUXPKiUNx7psOZ9G9NIqzQUS/5kLg6Khj8XLxgnjBFy8XOHtGKV8KDzlaWM0UF+JDwOOX/QXUgOs2reEQo0cp5cBKdktRg2on3X4IkwAMVJmpja7iTdEWO05q+cIjTz1z/W13n/qO7ymNjvCiCu+IypZquzBYeDDL9AKW72izMuWoSQfnuuKynyiKdQzq9NZFu57jp6BfqnnHpfKetfqTIzXEjnnGeTpGNg7SQz7wdONTX/zarXdsHVm1bsPJp2x/dmcjlz/z7LOnqnWwqw8YAAPktv4wfnhD6UJg3iIudAKVzrTpgb6CAc/V3liVbGUZDNXgNc/KZ9rFWivztWuuf/bxR37s7Re+7tz1HBw2WWmvGB3TrhRzMKf1Cg1Sg5h9utbirF4T2uXfYRoAf4CiHKY4TCQMFsEH5bBRmLoDkYBuucSBdMErDl65hLWn6psHTBwh+V2/xAfEeJMgI0dsMAFGc2vdunXccujDC6N82ScYRHuzQDA4EA+9gyq4cUkYoEbWiA03whCA3hxZEk923ErjKpfHs4AAesIUFh+czV20RBL4cyQ8B84QgC0y8wUiaEiCMERCBlsKAl50ezaXqNFV6plCjOqI8U3wXOLI0QsOtyAYZDAExxNDWtgiDPlCQxXwFHiOLjxhAtBwF0cAAjh7KbiLhMSHaYBRdXgwJxeikA1H1h52ZZIjkdQ+LuTSkT51ESQhgBiUDmdcBfEpDkXDhRjTgZRApq43FOgK5xaS4yAmB2hS+RxR0JsuDQMJXUsIRp16DGr3HLmk7F5Hrp9QfAhcHtTrojAt8WqFuRfBWwtqJx5t0Kp5X4IADEkCvb8NHyroiIo0t8TzQ/Z0zdO1donzaOhtmd5x5g1vwWr9WpuRsRVPt6LpZvTJS2/5/JeuzJVXtkbXrVi7vpnVAla9KQtBqVxCTRhmKDYSqk3IQoNtWY2Vy9iwlNwNpXD6cBkCg+IDQVdg/vRdDOJLStT/xhxigwwhMIdEhyYRt2SshdqZm98L7nXfOTrBLH0S73cP7cdsDk04nMKlHU4zt7uHXy9p/rE8iT65dJemmVc4YSBjPmEeIPkhNr6ApaKcc99AaHiiY4dQk61to5zZ065X8qV8ccXKiYld1956z/de8D1bNvDRTx8E6C5Jx2acll5dOc6dCt7P9SuWVGl/ejRI5AoPOuyXZN5xcW251Vy7RPjLMn5Yb8kLFFrAoQL4xPSd9+/4uw9/go+Lrd5wCnOuSrO9dsOJ7VxpaqaSzfOejxydJIsS/NdOMFnxkUfx/hOE85hwedQCnq8rkHAIuHhceiQBHJEF9k8qjpUIFkkohhn9MxT8pKgyced9D+3Y+dyBd73jzW84szySmeLYeztqx0tLi43BPWNE6LDiojJevHjfuI11MLcfrwj3HceAtwCvHK14++234xOJY1wG3n2PuXPPPfess86CPZS0ZCDXoKwcrDh+IjmI0ClBkLxZ+Pzzz/ORtaeffhoI5dyA9XA+6aSTMNKDhh3Tg4T4PNOgLNI4jxbE17t27Nhx8803P/jgg08++SQCEAlYBH+/9KUv/a7v+q6XvexlmL3BZxSZWw4oKUWaP7d4zvwWZURahHnkkUfuv//+xx9/HJkpETqBOaL+1m/91pYtW3zO4KogLZAOJkhCku3bt3Pi5O7du5GNVGQEMZ+L2rhx43nnnXf22WcjG6Vwebjr2iZTyJCQvDi9nhpBCYS3bdsGcxR13XXXoTpUCuhEfqSF5lWvehVVRIyrBZ6IhAL5bjEft/rBH/xBr7h0YdNhR9II4AV59NFHaQB8PxUBuOXCIwYCe0sg7HWEltCGhyFTL2UO5ggW6ogAQuJQBZqkLNQRl4GYmnK18FU1VASkhhWq8IaUFnVBwl5Mmh+YG4SNPrdu3XrfffdRa655MDcyIAyKpdk7BCdrryxKiqNQ+EQiPIWlXtAGdUf4gQcegA+qu+SSS6gy2gCUJ5xwAs0Jegr4/d///S4DlyFAeLFdR3M/ZGYasgrg8qg6U2Nft54W2+9Yq/KByMLB6eipvdVPfvHKa2+/Z2TtafXCaHF8zUyNXcTaR8WyboFju8o66ZMnCR1pE48M/nETUd2z1p4CZkRA4P4hZVv6BCqglcgLRfgIZgfdxRW3WFfSoGdkfqxQwnbZkTDEhEDH7Rf9hVSWVNlhKmNAcrG1KgtsPSuaRMgxBKCh++PBCcRxICe7yNjKFVMHJ0o6XDPbzOXLazc8unPPl2+441d/8oIxNug0G3ztljGa5AU7oKmbyXF17VpKi2wx6ij6Ot0VKDR1K+QRfWkPJzLJ2Hd+JxVEr6hTlWSnxxoNDS/Lfuv2xz9/xVcOcMwPA/9oKT862sqW+GwfW4FKI+Ps3lFXqFcIhOw5vZ6wNujxa+ieVFaU2eZxOOIuUBok8dYYAkgNbyK74olUwxWKEjShKNotmMlOVSbLhdENZ5y1d/eO//zs5Xsm3/7Oi142lo1m6myZqvPyLWY7HZzA6VFmNjZkhrJSTppZdofQAEjRISlYEFiGA9wA4wAioDqwOIZMrOZAK2oJUPLFL36RL+CCVH7pl37pFa94BfBONeqz4n5ZcYtoasexDmFgHFl861vf+upXv/qd73wHNAMN0IraZ9BHAALwBzK6YRgsxWU/3oqDrVW9wpQFTIaEcOYAGVhhK3XrKTgSoH/55ZfDDSzFN4Ne//rXU3BKTaF8vkFbJewY1B8lpEIJt912GzMckjMVQTYUAn2w75IL8wS/dBkoDq2dVKC6b3zjG8wHyAVgCg3YDgGQmSkNdzHiEnnOOee87W1ve/Ob34yePV+XwcuFfkDAn/3sZ7/yla8A6LH1UiK2diDqxRdf/NRTT1EKcnRMCfH73ve+008/HZGkEUPVCMMm7//5n/9BJKAkyB6Z/W6vTwFhgmP2cvXVV6MxYD1SIYzHE2CiQrmoIKYlv/ALvwDepVzE01qcM/JQRuhdAHw4EHPnnXdSFk7ip/bZo0IkYqNMHOgZFZGQSQiaoRI515WZ2E/+5E9yXiTTJ5hQfMgIoM8hTQKCuTtkoMhUCnMMavk//uM/EICMUBS1QBGoI25de+21wHFa+8/93M/R7CkvWdDeIPDKwsfBionQv//7vzORozjE0AI5FQfKv/iLv4AV2VEdDuspAu2QCQN1Cjfy9cDchT8Syvkhe3LSy4S0J5oCK1MNjkSojY+N5srZXQdbDz21858+9pmHntt/wpZzqrlRbFH7KvWxcoFzvPjElIYulMVrZE3eFG3yJhaI3pecUces4/NU5ojpCvhllx/IuuIHXc6fvj8n2mj/GwNiydeTzFeAAfz6RItzqgv2jPCBNYHaImXJCHCBW3YpEgJp4pBqWGCW9zCqcG+Q3oIMgfIwA/Osl7nnIuV0YvH5piU5SWZ98Us57iC8ZUGsM08HCAfthbBeKucv0x5fMcKpUZOVWnFkDcDyhq0PfO9rz3/VaayG8YxXwUetBqduDrS9zb0sx5aSgquNdrqg1R7Z4ifCkb2vkyj9AjtgPfXKjid8/svQTkSNbUD28sQzk9EVV337ljvuenrP9PiaDdnCKIbrSo13INrF0XHOpaUjzRd1/IWOvMnyJgBdo77jAc7nWRUcTppNCAwqRWghC1zEhB35hn4sBNJSEenOKQs0TdsN1rCt8zLb8wJzrlmIVkxN7c+UiytP2bT3+Wc/9YWv7zxQ/cWfOm8DX2OIONSLGWnEmQnMF3T4v6YN8biQCOK/y+C+Ux89V0AT4AjRYDIC3/72tz/96U9//etfJ/61r30tIHjz5s2Yz6kWkBnQBJwKzY033viBD3zgh3/4h3/1V3/11a9+dQ/X2Qj4AGsAcFZHEfj4qquuAnljqSVHoNJ3f/d3Y0cHujnlQw899Oyzz2LqxgcAARbJ1NPOMk2FHP4SAXYH+wJ24QDYxY5+5plngs88LU0OqApMv+yyyyC75ZZbmJn8/M//PPDUmUEQmi4xngoL6x/8wR+AnhEVyzr4GywLTy4hIImjN99CTRgVcYvkjz322N/8zd/cddddkF144YWk4hOkwMGAX8mLuQcQmQ9IQYZDbORBFejKRaI6IGNOBcb9nd/5nV//9V8HgJILxABfyotsrBUghtNDjK6ICbAe9O+3gM6wBRD75RAfJtxFUR/+8IcvvfRS5KcNgK2pJnKnjmCCWsCvTP+Y44HCf9QcKyEOTJEQMlThKqUUXkdAeZT/mc98BvGo7u/93u9lSoPqwL4k9FomIamoeuYATADwQdWonc8toxm0R4kQyeeiQ0oxr1tIiPL/8R//kfkGpSM7BMNRXq8LpmGY8LHE03SZi/6sOYB+uqa81MhGXf/RH/0RtUZLoDgU4YorroDt3/3d3yEVzwI03PLK4smi7F6DYXI4L+EPm3h+yN77V5rGaIlT0jmoPlsY1+HEfH/qM5dfc/k3bqwVVgDrD1SzdV6DKvChknXViQM6whk8b+YohitO7B0r6xXyXkcxiAyF8bD7oX2Hu8dvYLZcqcIeYXHgqRoRQwfuMT8tg3i89vzaHzS+9dhIlMT6DgscoRQvnOSmSRkhKRLh+PKIyyc+ZpW33w6E6vHkJjQYZmhJQPVqwhhMIijBAIicocBBhKVCvpTLTterHBRbzRSzo2uf3f/89bdvO2PtyzeyPK4XGG3BlFSzj9cRF+ZYMLCKUAsPDik83E8c1Bw3dqcxtflj0o98weJksK+2OISfZczoqpu2XXXL3Tv2Tmw49SWTbLzhyNniyBgHFmVzstm3WMzUXmEwvSN7cD1QFkhMxQHrw2QbEi/sgol5WIwQw5tfCMCG8cwjO1myu96QPe/MsvNYAN26pxaLS+3VGzbu273j4NTM6nWn7t+94+pv3c2b6e/94fM2jGo1t1Jr5kf8wxFa1LVqNHAfm+rFatkdUgOoDgcuoYKwWf7Xf/0XiA3g9Wu/9muve93rNm3aBAe2HYNyIKMGMXX/0A/9EEjogx/8IDZgDPBg6De+8Y2DMiJVAN/Qg3KAg6RiPoA59q1vfSvwCBiEDyW4DayPJMgDfGSC8YlPfAKMOIh5iAfmfu5zn8PginEaqyogGPAUAK6TwZl8L7rooi984QsQAzHJ9Kd/+qdBlmRBpggAyAs8KSwywPD888+HJz480QPFcVFJAjFYDZ+EwDgcl/hATwoIRnzNa17DJ6JIFWzMDmEdmxLGaotOPvWpT2EFJ+Ev//IvMyFBD84QzmSKD14kEjlJiM0e1Av4BuyySwTtAdyRFqmgRHXEwArxsBm7bNwiIZcIDx+P51avg/KOO+74yEc+gsGeLTfI8453vANNgk1dEpjDiqL9yI/8CJZsADHTDO7+xE/8BMZ7xHYx8JEEDYfap7DAdJrWu9/9bpIzzwHLIkkoaRCGQrFryME9DcD5//Zv/zbywBb6IfIHJnMPAOiB3UwnaAnMx9gLxOTNk5MXc0uXh5Z/5ZVXUlNMeNA2LYeyQEYYMnSCT5HRPJSuBOoLbTNVZqWCmUxQBeqiCFB6LnDw5kdeVOXcJT8Syvkhe3ICdmCS4nhGzFG8UMCDsmsi+thnrrzuW3eNrDt9pp7debBeXL2eoQsjzdTkzPjoCCfNkZBPHhdK8Vf0XEehiRCIXYI4ufRShcCRFHLppD2GxRme9fC7S0eBR1+SxdMMnAXPE2cZccqO0F3INASgIhz6dy4J8/wxykzMTK0qF2rVaqNR49OFe2d0HkszM3rz1m1vePnGk166ipGK9ziBixjuB3z4KxHiePhN68TVMlxq0SeKJowz1Q1PNK+79Ih0iCBwsiHMfsUsaIUTLHdPRh+/5CvX335fec1JoyecfrCODb5cKI/keFuR7bacSstpuHxLzoZtxKTX83m4wuoCY8mR2QUKgXnJt+DEfXXokUFCLxTvDNIYm2iFVm1tmAGEE4p4/2BipqpzkPPlapQdWXvy1MTkZV/75ikrsz/0fa9cMxbxVWbGF8ZGRlPOxk8VAVVz6ldcpbFeUreXg2kNOBYBZABh2Xpxww03YEb98z//c9AJZEAQIKlbEx0vUmtYGd/whjf827/925/8yZ+w++Wf//mfgZhsOUizDWHnDx/G9H/9139l8kBe73//+3/8x3/cTbyeBfT+0DmyoZFgewbJgY2IBx4Fhr0BCK655hrAKDMQOGP5xhQKVHL7qMMpcsdhocfuC+4HwyH2Jz/5STAcKw+OL10GFwMBoIchG3LA5QgDJcI4N2icgIQO6VwqB83cQoe/+Zu/CXhFDOAaOoQbqaB3fAwrkhCGgA0tZMFMiSkHpnGQPWQQk4S7obxEwplacLyIbBAgD87lwccRCSUJEQZit3N77rBC+YRxAVYG/h6gGbDuwTSDXSK/8Ru/8X3f932gcyoRUb10lNdzYcayadMm+FOtzJTQ9p/92Z+Rb1oe5wk9kpMjPpXOBIC0RMKQGKehUIRJ7vFEMjXCMan4l3/5F+zlrAkweaBmucUkwdXoaY/EZ4fV3/7t3zJNom14Sw6a8UmaT8kQz+UBzdPyP/rRj1K5P/MzP0NhERvfleOaCbVGPLXPJTVCunIpXgAAQABJREFUGDnZyk/AeUKMYr2yqCnIjhqsR5LZhjVcfUhJ4WvVGT9UkUFrsi5kf/9z0R/+749/Y+sj+Q1nThfXZlaeNLruFD4zznBVLOR4XZbj3lhoBtNzZjcNDm3iYOUFjnWkE9Ew6aC9+Et7QRjydRdijjBgzb6Pl+Qz1985ihFadhdfkneVC0q5uVdJpwSoDoYwoGHhUK8xY0Blk0DnHzH0QXzm0/4Yc/lj+PW/Tq6zV5LNXIjqkj/Ee6CrvOGyiyxcBoKuQJ+qsqgusnCZiNn9GzLyALe7Ynrj4UlWtFUcAZKgVc+oI+0AVk4DCwJBPAIhoy4RiSdG1SGEpxfL03/EeGS4peUvwHq7ReeLpIwR9FkIigE4Xx5fsf6kp3buu+G2ew42WC7Lz0xyFC3fKsDGM9dH3uU8Vr7ryZpqh8Z65XGVpjXcG+5K5VVJt8uTQphnh44oqZku2kNckhcdGu8mU2+TBw7yCLJIxqiOoe9AM7rk8ptuv/vB7MiaWm60URhv5EfKK9dkCiN8cjvKFvOFkv7oIDF9gfBtwPYuEbbe8r2RBCFC0UJMV8Dpe/0ussO+7BIgZKS+2yyRiA0N/P2WR/olBVTfpOGgzDcW8uWx0thKfL6fPN3MRcVxXhH51KVf/tjFX5oEo5RkNprhmyhlvbV22AIfpwnRE2pEh8hPANV5QYL+uwL0UbRnVxS3IKZZEqBPAFVQC8BcTJIArw996EMO66FxCOKcgXTe9siatGzXBtmzE5rNIezcgAb+zpkwAfKCLfzxSci+HUy2QDqsvL/yK78CkEJmXMiCsnBJWkT1SC+dPXoxt7T8oTjYmH/3d3+XjH7v936PPTZsk4CMVGmDMZeIDXMC2Lzf8573sPLAzuaPfexj7K9wttyljN4skR9hQFquZ5hzlzCU3IIGPi6t8+SSADEhEjE8MsxV/BIyHKxwHqC82L+ZkEDA6w1gTY9P0yuNCU+h0CdhRApiu9pdKorgnJGEnj9Quk7Ii7teHK8j8U0cMBSMzlIJO/VZimHBwWG904eikRFhfPJC4VjTKezHP/5xNll1SeISQhmUxhZ2ZPAMYUIZg26dp8d4JGTsfPmpn/opivzlL3+ZPVo0PJrrYcB6F8zzhQkBF4NJrK9+sFpF4yTfQEnZkTyI52lZxKDItD0Ude+99xLp9K4cL5FTuk9xcLDiEm0whfMwlzAn7KVGk6HI6eSLF57HMI+gmN1VgCiaqkW8jHf/s+2PXnz5c1NRtbRuKrdyJj+uASzDq7GgDuwqzTwnYWrjqRzJcR4OfhpN8u5s+vXZQHM8BkLrCQEvRbgkEMLHUQGDzCFwHAmPqEHsEOitl3SJIEtTpsNpsgUP9z4pXVmkCXS6vh30zjuYTAh0Ankmt39yes2GU269e9v9TxxgBs5xLG2++2TPbxer5csj0QDjB903J4OBB0pjqzlkdM9Ug4GFU+suuey2r11300w7X161tpkt8p2q4sg4tmos9fSQejVWEy1z1knKkK3ONZ7JcEM1e5y7riLMtlt9S0AaYNrJCwf65q6+v8u++w03f3vbldc+BLg/gDE/H+09WNHmpE7nOnoB431M3ZQYH6ATlAZ0INzXCUjaUYykApfgO6SgfYIq2PmA2Zvk4G82lBPoVOfslRsXadLkwt7xd77znZhRgXTsYof/LJ2FwDRIiM9qAPgJfMb7nWxr6SKb4yU5egdLgCRCTMb/85//PIAJa/cP/MAPIAylc4IhbJk5/P7v/z7ysE0Cd0j6IazmeIss+uYSEOG73vUuWLH5Hvw6R55HSBZGqxBAFVjruQRMs3kJraJMLoe0B2Rguw6bhVhqYNuJv356hIJ1JefdYpoou2WYwtHwCHcRzOUS5Ydi0mxo9jRX9uGwSMW0hN1WTGZgDk0g68uW3KkpXqJlpxaTDfZ3wdkfxr70Szayu8fsEhQtUOte8bRRTC6tTO5Apcbq6PYD0Sc+/6Wb73rwYDNfLa6q58caubFmrsRcGM3msq0ipxZr604HpkdNskoSZ0ZiR/PuH94oZjW15DzU6DKFQNel65lIJ/DLODJ9sWTCvfJ7zPHlo86ugnRddhEE9QeyELN4gTBChEA6rxCpAE9RGwMPqFLnhbO3Q6+xcIB4Viu2oKVdB2uXXnnttF6h1QpbHYNUmtdy+Ig1EFdHJlfH0lfQBpJoJA+sv+zr9131zVsPVFql8dV8QDfPQkqxVOfTtxjD+MSsTiLQ2cH2x4HBMvV3d4DqOwe6Y/XcDRRo8A3NYWQGjctH5y/rUKaF9YdIBguNEOiE2U6h2CqtONgsfvFr19153wHM9syRVqwsD8ShgzM93u9g4UMrIFTgCGVhfwI4FbyC39eFYZq7noQeAHp8cAnQnCNQ2C7P3newC/GD9OPmUgd80GDdx2wPHmVugDy0Ok9IgByJIa/HHnuMVyeZErB5GvANXhzEfHg8LcGRhpOpYUQRr/Oy23vTpk1s1diyZQsxFGeI+dPLjvxs82DDDOZbTNS8Izs86yO/i0pxKJ8iBC3Blhi3QzOhYoMHL2uiriPPbi4c0mJAj3jslaIZcEQPO5T8TCGaBxpDXUMYsrWJmQBLE7xmymGjvlAwhH6+t4DRbMVh95GfMkTyLsnny5CWQ2FJxY55miVzQt738Acq3YYHsWUOg35YfOBVhO3btw8iW+Lx3bPwtLj+9OKjDhy36GFpAvlyEVh/8ReuvvWuB3Kja3Kjq1v5sXZ+hLEJWz0bFnhDhn46z4cj2c0m/KG0xkOYnjDbArBMKZQ4t9ZjszrCSk34DfydL/9BSGgQn6TrkwCBhoAr0GPwEyca10McM1Dwo3QDMQ6ZU6BRYAB5oDkkt+EE8+UzQJzZuiC7wJNAugAeT3Uo3lwIeSrihkt75He9ncCnN+Ay+C2XxGgECvUVVT4BrWNEOFxQkHDdqlWT+55fue6kb93z8PVbd174qg0aJ7ssqMQsuyPTAJYh2oQ6O9uBw+dUi+Xo2lu3f/mam/ZMNzZuPptlzL3T9XKpDLxnmMfuIRAPlKUTlKP66CEdu3YgWKsrdlsh3wK0uoVruvMShg1lXgD5Ki1PEJjePv6rEYAvMrC6a5s0tNqUKR2cnjzhlC1PPPbAl666fuOpP3ryyogPfdkoRfvt0M+R1dtST41x9KabbgJng1HwOUbGQRhNqK/oABeOWME5poEYMreyc0wN1lCQGbAelAbQdNDclw+REJCcyiLM64YYO9lmAwe2lPQmgRUH0XCSOpzZA+PigRSHgO9eJukYWohnjU9ZsLkiD7ML5gyQwXn4Vg2QHFMXcmcCQHnZR4R4w8ubzv2ww0iLI3kIOCsugcIUhB3YWL7dDEyJfAZy2NkdMiFqdE3iOzHmZ17M5fLCCy/kDYc0h0CTjgxh5iq8bM2LFkwvWfnp2wwC8eEF2O7P69eAabYqAawPj4nrH2mpbhoAoJyj65kNsoGexk8V+OPAXddM31xowHC46KKLWIbiPXLOCGIPT9hR1jfJ0ow8BLJ3oUPF06nsbXAkTvQfn778m3fcu2Ldxr0zvJtXYFM970jJDJXlJGbt4c7nCMdFdgxvAJ/lZ2v9dsfRvBMx2uHUeftQ4LHHpx/UFQKUg3A/F5eQWx0TnQUtOHpG6dK7+bGq4+c9ibXf4SOnhDQXAn55vPhB7BDoKk463sP4wUFMeLELyyk2ZGGdlPIKgTjfMPW1AC9QCCwJKzGQc1Aij17GvoWN3SjDEMhW22hs3Se+cOUrzv3lE4u8xb7Y4r8Y+bO1gbkU1YaZKF+O7nu69ZXrbpnik7LF8elWnj6TcSWXz1VqldWr1zbqVbduUIH2VJKUoD159mTST5oS1XsOfx776pphqW/8fJvuQoEh+zCV+h0EyFoxY0nUbtV6MfbQjOMFjFx+OlPcX41Kq0+868HHP/KxS//8d/7XVAOEijEIYmz//UvXt8jHdST2y7//+7+nFkCooECgNrgKaOKQvbdobB5gy/J73/tecC0adnzjZKAljNaAY16EJYYuxSFOLxNiQDYk91wIw40d84iBPKDqkBAaB1KcdQj6AbaCn8BASAuTw4D1zg3fm0dgDroijNkVkZAHH2GGzBzIGjJoQGMcq79p0yb22bPmwDuvfcu7UJGhXlz5sPWCoBAef8LIzDICsnnRFirfIXxcmZ4duBZtcIQlkrzpTW/yVDQS4pF8+DQDmdHqW97yFl4tpS3REoZ/DGuISH1voRlaDoIxfaWRQ3MkKvKWT6F4P4SpAuskrAnA0Cso/Vz0FQYyJocnnngiM0nWNzjoiRc2eAqORKS+GS125EBkj6LTheESUTCq1PLRf19657W33csnZtvFkahaa9TqvOOU05Z6nSwFvi8IXzBg6ZwpBirrwRV0WE8srDDWyJcnFwJ6u9OjFsf3gsyd9yBhBvFx6cPdECBHwu48HGQgMoR1K31xxOGg2LlyEiYcSBtEDYFB4s4SDGQ2pxvz5TNIe84ncJsNuE0xqYLZeEIWab+z3pyEPgIiPTGJC2EPuDyEQwBS7A9NPUucN5JvZxsgpVy2wVxuYnqmXCwd5BPr4+seeurhq65/+OffdjbKARktw/tEwQvwS13Q67GSWeGMy6yWNP/PJZc++Pgz2dFVxbHxaQ66aLfWrB8vFGWwz7YbvOvgiB2Yqpd2gapxH9ktjGNYr+vue4OvB9EPih/EaTB9/ycstNUuhunm6n0FMcL5GkzQAIc4MVBgxZciaLyFsdV7D+zasOoEjnDdeu/919z2zEWvOfVF2G7Z187MHEQFzsDES5jtCsCOgK279Aw4gwyQ5CjEqwPcRqtjIw3QFjyHWZ1Ug2tWLMkCR0LIgEFww2ZP7qwhIAAoP+TrWbC3BKgHhOJ4R/A09mm3mgeyOQbgRo5wIEC+yMAlSwHogUvO6kEkL/sQWE9ecEAYYD18EJtXBdhDwin7nGw4R0mOkIx8cYEJsJ4w9QjEpIIIU4o0QaBc8AC5oEP3URovQmC2Z1XHcTkNAyXTbBzcD8rdtQ0N+7I4ZIYpHHh3YZG9NxgqjgbmZ+O42INEmmM8Mzp4ssmeOS0BUlEKAjCnImjYg/jQhpljsEzBS8NMD0i1IPIMym6R4gcie/KjTeAIUDCeLhzfQL/prt2fuvyqsfF1q084af+BKQ7irzbahahBZ227bHg00R6gXvZDWLRZbrUb3IcZDB3fw1NZJMOE2/eF9mcfijkV2fnMidSI5k0/gPUgPlYspQkEIeCcuPQY/8WnxBblEQPyO9bRCBfk7wgkNdglYKDvip/v5Xz5DBCnT3U457AbJ2TUEUhKjdghfr5FODx6f/RImw64DMSkhAEBZpq8QYtJk4327G3QbodWAXNMM5srjU5OHSyvWn/Njbe99TVnn6pv4S27hdQAFYHmaXV8YW/PVHT9rQ/cve2hqLx6utpcsXKkyCECgHe23rYao6VcZXJidHyFrU0iA8uTql1JE7daA/OK4Rh73ZOX3LPwrJdqALORok612PSNQfFpmnR4EL3Lm6YcHrbXZBFLe0i83aIQX61VFioieA6xNT5wMF6+NDKyakOtNVMcW1XMt7/wxctee+5v5Ed1/OWLynFqJJtJABkoDWwBSMVHA7SlvnrA2MmBfexx1zBdqZAQMkAk8RwpyLmWnHLoaMZRTl8mRDrgI1Ngn9cXKJmaIswBkSB7+Ds8goAwNnuMweAnjjB3noeH7EkLN3gS8LbHJdMG+DO1YE+FF59bSAhQ9rx6fcqOrlxplJrTYOA5aDrUm3xBYhAS4fFxiIrA6ARJ3H6PbNxdkIyGMCEXnCvNA7w+iyQcu07bANoGbQ9vDxTBwT2ti9rnwwKg3iH5HsYtn12QEF15oyJTbwnz4kaJKIsXB23TclA4R3DCH4amD2FTys7lIM5OSYOhSXMQKktGzC0x4Q+iX7LxWizGmRnPW5v3usQZVsfGJziOMTCHUepgO/q3T/zPmpPP5Ky9qXq0Yu16egBNDrR3FDLMMGaHUR8uU4xYJyOTa5ZrBjTySBuGSex5EynjjY9oSqmQXTorsSMiiKiLhNhuHdrTSDM/Z1OTniSDmoa3mdB0QgAGhP3lGtLGAXSMnriVKkUq2JNrHIG2ukphl92v3IlMnAfJGthrR4C2FLDVlbf54ulWcqiRBmLJBBfNdwlBQCBHpbV5l4IETIRVEWkf7NkVk7479/B8+YQy9QQkuclvhVFBXNNSXTpe+56JYZap7wSpkFZvtm8gUTuJKbhqAT6ZFmedBHZWNbrn3AmkndWTGruUrDSmbfOFeBJS3aVh4GPDsofFfa8nhY0Du5jFq80BpjlWeW2nsj16Wb3ZVmlrCCmWS416afdU5as3feeX3nGuHQxuDcPyUvIgsYIeoZBFe2Ax/ZSaUkE9EYhCMXHekAhQcItOExrFAE+1Yo4EhKXOJMbjxdlCVueEtDWmr+tMF6gYS/haKg8DmDR6fn/7w5/8fHn1Sa3iWKE42mhynmZtzZp1NCDsiKNjKzDr2yzA25tq3zNP5Yg4aQmQV+2Rgpsa5KsIPBVoqEsm1OXtIcVusYNpEbrktqz1BEn+jrlo3OhVvWreKo+IdbBTplGtA08P7J4oZ0qtdvG5A5Of/fLN/9dPvd6gHO0cOr19a51N8jRaTi8wDzjFLgJ8Gg/PspcOmA5sHVJSiMEuDmRBMCTEf+yxxzCyAps8hrtDwDc50mmA3rzROnAHIZEcn6yJDwIQBu6DotgtAwHxpOXVzCH8Q9reQOAME2fF4euwwtzu4JJIGhLzEygJ9HIghjIiD8ZpmLDOwIkrwFki+xIvYCQiAaORFi3xsFNTZEoMlnI0Q0FYf2DnN1JBgEgLmPVcWJEj+7WAy25uDy2KtAiZvuzi5k2ISJ5KDOq8s+FtY5D+u5LP5ZIskEE95OgoFceepcObidFISOjInqpH/ywC+HcYUDtlxyEPefm8t69slIu6o7Asc23atInqY8GH6cHhidQ3i6MTmbdjrtVFxiAh0qtgci3eW2JPfZMDNerZETbhPH4g+uSVdx5sjzTrrNnxDdpcu8FpoDYhtuNwSKT6tkcOVVqXzW77GK7Q9BkBjbU6cq8ArsPzTADkqGM9hHsFpHh7DDMFnEgVD72y6mv80ptXJM0AsBjglIXzCdwGtbzMLHxyWWLf5emIspwkcix1x82kKB2RXIACQ1QQhgAKsbsgRlnwJL0xZrkUCyvbuHI6P1dNj+FecyLPNNV9kQSnsmtsh5uVWmo2fTR5ES0uBI9xq91AR5w2If1lNeNyhYQAKg5yKqAr++Jli+UXmHsWpna4tMEoIHU7UlEvaLYy1E2L/9l2ocwrFoLBJEv5zTrf4REi6fL5bHEXpadqIHI/ejAroiBsl49Fui99R6FSF9qkm7h0vYQwNz0c+4amKKH++IYyMx7qhYtGHfXyjNifQQ19iM12T5KFcokz4kc1lsJfthlbudhUgfwE5lEb4BBMY9+Ao92rnSiRm4LdJwo1wQ7PtEQyu+K3wOKuPvBMrdkWhwbHjLTZGdKqs8WzNMILQeWVK+norrr7ifMuOPfVJ/BcY0Oq5MqjyF1vsncuatbbIxzFIQ5e9XFTC2Uh/8VwlBJHlmZZmM1B2TNpYpzGYoRIaIf6a7abdVo1nQ+vn7I6wUQUhehhgrL/80s8ytazZlpPPOXEm6zoTaY12jG+5rVEu0hWfq4QTbVJpOvFr7kbVy7RLGpni2wOBTv8v//0X9PFdeU1p+3as29duYS5o8wCSnWSr3GPjI43+Wj6+EiDL7GqV1NXCVt8PC7lCJusCkoO9lmxz0dvRJMdz16OrxZkeNqaANxqZUZNIEy/RQ40zvIcqS2KrTPnVwHarEeK0AyfxBAYKcki65EiTVKBIBkpGQW56+MlPRiO3c7QIKY7UnpyaIjTy1ZqyTnkZ22WyuLQcyaYykCPDAJb76VOXeJTN3qyiTMHeanQqFX2r1y9tjo1zQHKMwfzN9377KsuaJ+3OcO2Bg5bo/WSJ0eps3OHRzK8zeXyvGD8Wa1aVVJZDA7DYT1l9yp2oOY++AYHGmYrjqM0gCZkVCX0+ABN0DmwDyjDXgtgMccyAkOxxGOtxEZLG3DU7rpFDPCrx5AESzAEHKHoEpIXt4ZsdRhUQd4akYcHOUgOMuOSt3g9O+7SJgNzREU8aAh4EcBz4E6O0yGSIuCjMTQJVhuU73zjKTtN3QZqJSVfZjLMH9AV596gDfLF58UGZENaKF2BfEnAL5E/PInzzX2+9GjPGxIaYJJG7fDubFAgt5AE3XpgEPNQWOZv2LApFwoH+0LvBaFeCEDmeQ3iMyieVHBADHx0ixtEOSQeJl4ul4GWSZMGwfNuCWyRzYVEzlD8Qdx8KGGBgp1LhKncwxNpEP+jE6+DHazb9ZFLHbaeeAa+XFSdqpTKmCM5SS9itr7t6epNdz3SzJb5Ujh2AX0vnGOq+BaaQJONRJYQFl7fdtXfSzKNRwWIvD4YCTS4ccFQJPgDW40XIA7dEWcGAkY4Lpva6KOUBVlPbXDiN8E/Gnq5qzvdvlL1xrsEXfEadEyyrnhxGBofuAEZSCvJDX8IHhIjIGHFdMRhBMbPQt0eWukyNXZS+FxF0yLk8nLj42Tc8trlQjnaIGG3ej0Xk3jSyi5Iru54JKhinl24G7CkBmDElVyGdXaVxVKkfHERZqXuUr70qfmd6GW5m/UVUr5Gn/KZ4XVReirl149eHOzwjW5f85v4HzTNiAmV8vTYEOPxStvKNNoN0bWgBE0QJ/QsxShr/QExeDywAtgVyByF64FyJ/2FC5G5k26lSsEekdhrhVr0ANagY16DdTrRSL2xrxRJOMTrnphY/20U1rhz1HpppAwYLOT4RGJDk8lcacdE/aZvP/k9F53Bw1Qqj05WmwV9SE4sioWksnV1VJ33NpKdbK2Ayt7E4RYPT/z8mFBBiXZ1aC/VSkXsCgzJQgv3mJA5+aZmGlwpW+66qKm79nCxvEvTyEVfuv6JHQcrY+tP2zNZ40gitt9ggCYl8wXnTONAhGFFSBc1kVIyKxF1KLXw6ImbnmVrb/7sJ8T8crYmk1GeWYuTHgm3mvr+C48/A1XsCPtqq7og7cFwaOW9EJTNGvYbRzBsS9VUxMZcrWtLE+TL82B5aHLqAUkpgWBJ20ZGm525JE4i39Sux05tX5lLJbBybnwCpd6sNTPFBt9hy4018vV9lebdDz398s2nM3eiXhj2Of0xly+RILEazTJfDnVpAKAJlGFfgcNljMcAdyAm9mOspJhIucQRDyYG5QPoqWhwG8bOzZs3X3jhhQBr9ojj/AVc2gk4yYcS2hIcoIeYMA2NXAg4TZckwy89uTc/p4QJSJSwn8/IrAO4DJLGAba4xIHeXHjgJpc0ciAs+yg4X4XdQaBYhEfa1772tcNzn/tdlImQ5IWKyI6ZA59AQjCOdgHcg57RAPkCgtm+wiZ73txlOxMwEWK+FMYJ6wSODlJ0ZVIp6JYCki8+AlN33HKfGALQeIX21UOoFH8VmEqhavpSLoVILxezKReS+vLiezFpDH45RFSvHXQCMWSwGkK8ZG/J0BJ3zJKRHtlxmC5ynNTGOJKVleap51pXXXvdczueX3niRtnHzKEsd6K2JuKBrnCITAdCc0kH1L8zYkV5WZMAOWZxM7CikUSymcULMJRhvYCxjk3FSuBWfglLFD7F0GRDw4vCKZ+Rx4zZAmgaWILPPtlOSqUSGz6O6BOKDj5pnh1hDW4o1Hw4BHlsaOZaQvPBXQZfhTPAAg3DOBVCnCSwgwmNoIlL1VES1fnragzK7LxJlrOwPh3uIhO0VPZMlsha8w//sW3cDNMgC/CEIlGKC4cVhRfgqJkuX3M+Dd+dPrwbSKJCaqaQ8rHN63xr0ECnz0Sgi9JTMWfoouxNm46BD/QIHaei5i2vECMzI5WQ0CiMBprtXKvRarbwmUhmW5w14+Xu0pxdDoVt/RIsQJz0SEOVL2hEgArCpz6sF1PD4RbjDYaWW2677e3nrDn3tJVEyvBk+UNBxy86PTQWNetRWI0Ky861hB5S6uICNKNnYvve6LIvf7XWbI0Vy6BovrbSBu8bIodGtSM9Ug+qo7k7erxcq5bNmI3fDBnE0BtTK5isw4eunK24txi/6xxMpt1Z7O6t6eOjPIHFfHakKOMlWeOzVBFkqLNeQzqbCdCV8v1KH/zAAcQyeSU53FSEVqZeE6qz7pB2ptZC/6kmZ/Z4m516Ib2cEnW+ThkhT5siE9Smsonp3bdvvfPtbzg9U4pGCqzg0eXUQPZIJ8TS3WLnm+ELnB4cTAnB8RxsAmQhAAClEsHxbuoG5WPaBIaynR0A+sEPfhAkDY5n6wX71NE/1QG48Q0MoDrSBmBKs3G8iEHam4H7JJmvWklIS0unQjBmGsRwGD9mePJiKoItlrkEkgPoocfQC1QFyvN5rHPOOYeT2oHy7IpGYGAot0DVLu1CgVE4wxBYTwCY/qlPfYpD4hESDfC5AE5v5Gh21EjWOGAl+UKJGEw5OESIMDGHoZ+0ZuYYRmOoiBzxUS/KxKce8bnlvt8aLo/fJQkNA582AM85ynA0yZCTQpEjQtJ4XEhvt0R6eWm9BAJlX/HUxZmj+ry8fcmWeCSftVHfSBedCBqP5TyaPMEzU9NsGaUar7ruprvu/s6atSex50PH1icONQUHB8IJn45wiAyBdGMKYQI26AismEWIxXLCDB9CVRpboLABB7O9TKTsOcEq7N0IEUmHwshAyw15pQLiC0uSAFM7fEP24ipoFPskjMfTFIvhwVkZTJhwKVbmaCv8xj6/kMnTKaqBMwUy8b2nS/d30MySBfp0QJnYteXmV3GLJ5pr6ighSaeLw0IMImNMF5lklRIwlEv9DN6yrTHigwKoFsRu1zFrp63vHs5hvVYFsZKQ8tF5vItm1lofp9UunT58QNR942Ud70ffK4nHBD7IToz7gYPhfOUe4lmKIEw8vQQl0CuAKjtpQTRxFaQrxh6jPvpcqKj0kzXLU7H6s2pFPrV5r1/6NXq3jO3QYt8CoxE98vM79379pq1bfvZClhnKbLZraG8Dn7fyvQ2kVeHM2cNziJbmlC88HxXEqkxpI13XKeVkmeqBPr523S1PPbdrxYYzJ6anV65aPz1dGQNNg+ZpolBTJfHzzCSMx6GPzvo+kixwFfT40Ayt51NfxzXPFNNSN5/HvYq2xhlbJmyWrdqEWVZ55JqtKq1XMNufZpcfkXiciVEnRO+DXYHNP9kcpiob7/GY6MLD9kJZnw9Fo1mjWYANZKr3ubLZ72FOBjCz2aGMIoTNi7ujPmUeECXBmE5Yz0G7Zebx5FNPb73nsbe9bgtF1IzbVgkoBaxNrwMYLUcnBm82inBeIdgOKAxeAa9fcMEFbtvmC0oAYnA8t1AY/YZD4bTySEJt0oHgfBuG36WmwK8k8cGLS8hwvRzS3AaFPXm4C084E8nebs5jcaBPw8AeD4bGLs5mCd6sZTnC0WpISAA5KSMBOLgPnzTBYYe9I6WMV1xxxV/91V8hDwK8+93vZomA/U5ecCSHgBwJEIMMXHpxyJcph6v6sGWYY0KXwX2SMKNApMOoGjiQHB+x8Y/azGSOxexL5lXAra56D9rom4pIElKn+P6kEKDheeSgJEszXsOPzVDo420gZ7tUIulMvV0aG2UJ54md7S9//bpMaV1pfLzGgfXW9VN+nCsurT7C6cuEWZ9fbzHcCAERCdozmKnTtls+pBkRcLPN1gg9ozwrBNiHU6WlycAsRxnk+1Bi45xFz3pAt1wrD9xkSAvWeg+Tb1eM4lkjyPBxyXnYnlyGWWGSYRydaBgVSNaEwn0F2B+P2Uxr97ZQgfyMxaqUNJbwIsTFnC1PZ8gKHvdfHSo1Mo8ZXjUAO9c+n8qEngFfm2SlUR5ozbG0dYRCMN8yq5oKR2mAL0TbAnvwqSkLk0ZljX2fC8RQVAwFUczX5heFNZVL+7CxmG6/KeN/B2U6VW848GF9gRzdT3GmBIonRiCJkOWrCRc1Itu9NS+1PchY1wrVM7RSpJfOSlroKz2tSKtasRZGIBnDKA1orVAqci4t4WJ5lDfhb7z74ddc8KrvOWslcrMVP88+nMZMVG9EIyuo/dDQYbswI+FCl3ex+VFqrzH3gxKSQEd1oy724dz32MEbb7+7MLqyODq+f6o1XihMVyuZXNHrQ2tLeupknpivUnlc8m1tSGDuTFU2omyDNSS1Ry7pKPSQtpvCDWal0AZFsH+9UqXG84UsqIs3yng5AaCTB6ILb7BYyFZ/XsQxNNYU8hATNR8wOb1/IZvTPmwueRMThrWKrHT0yjLWFgv5Upn1ORHgUzSmuZpcalHCfLoDBLOHB7mRK1HcXCuurRdAGWKa9L309thl+XbvVPubt9z6ptduYQGVTqlcGqG7QQQ2BbxQ99nPVV1zoMPUzeGPfHwHKLx582YwMajFgW9IDVzD+g6Coc14JJXu+IZ6J0DlhlRgHepI1U2zoRtJPvlJGBTLZWA7rwAM0/Tki5AIxqk+b3nLWxB+06ZNvF7pufQiVIR0eRAPG7mzcrIuzulc5humgEjFeYgf+tCHsNMj2x//8R8z82F2Qe4oDYZBt1y6ARgBCJAWh36QMNDMV4C503upyQ7BCCMkaWkMKMqZEIk7JMNAw3sLhJHcC3XIhEeZIMhJgLbqTZR9U0EM4l0VgTLcCgFvRZCRHJ9LWNEID7tVB85HOWAWHs9TKIRnEmCpQV2jUE7nNDPn/T+fu3zfTG3tiesPVBrFcbboUEw5FOQOBgTSovtlV2SaAK1x6X4IMJJlWuRJ9rDTaAN4QyxItbPLJLRFbes7NMDxCiAITym6WCmq1wnZq3BC2cKXsz4jRleM7oJfGU81jM7V9YrhMa4KwrQVHAGcxmOs3s0Go5iOLvTJlWUl7SSuQ7NJZNevuJkSFEjqQnkY0jM/ZkO4K224FEBU65eOgQDaiuLCYo9r1BEPuZnwiIPBYOWoBmKWeax4Kl3Kl7WcMSHto0tmNWDK7n9aZe+O0zVa6RsPghkQ349Lig8HljiFc+Zw1pBLOi9KDKX9A1XxS2sRNNK80OAK2kzVS7/BDDVDMVDZQetzCvR/lFRZs4+edVzxJf0vVQdrxkfmJwzbdMeF8vjO/RNfuu62c856a7MRrcWs1QLWV1nVpq2zJEMClxrBNWfQ1ICffqWbk9THPZFrw4ohRK1A3GtIJ/RJU1F09c1bdx6YLo2vqzTaHGo5U62NjY5jILHta+rHlMgeyVSDEae06/tUshfQukSAchZYT/YN9Rl5jG82++TZYgbd0A6dZo3lMF6x5cXiIqtfghG1+sHpSr0muB+1JypT7Ly0Taa0mHaGx9m+tsi+fPWIzLztsRaa43lot9esWz8zVa/VGyDr8uhIGeDCvJC1+Oo0L+ZTHIz4mrToTWZrM8wCvPOwsYN+jbVdChhWgdKFHRbWV8y1Jw6+1vdH5J/PrHjgkccfe3L/qi2r7fUYe/o1DA3jtHwPDbDHhq4AdPLWt74VTB+6EcAKd+NmabjT4RrQU/o3ABcUSJvwSI+xitY72SBXQCqQ0V9RJax2MWsbDAzmGvAadf6wZTsQ3DjO5Z3vfCcsPBcCAdY7pXPvag2hINyFiZfXKY/EJ2u+yPuZz3yGwr75zW/+wAc+wEoIonruXnbPi7DDd5cWefRs2dCP3vzWkUhyyLQuElWPlggzDyHAmwCI5yK5tGkd9uXpfKhZtnKRhErxSUJf4mMe6YVlouWzO3ZtBZEo9SGbAcV0hVC/vLzBJTvTiAlMjpeA78ZhyLBBC1+rqYTpxBVkofmpXdE3br595Qkba/T+9O72VXQq2x0ld+cFJhxKng6HyBAIyuoMCNmziCVMpH5dsNowVZYTSXyQwBQME6FPnlg0Xp9mPLOYWPvOMLANOYomE9UyFSFLQdMOn3GoKwYanMrcr1oHlS7k2xVAXcS488cbXwNfu6mttC1eogfZ62VgjbNJfUgASRGcSnpIl+TjUx6N2EHadLgfH3QghWtZwWA6QmaavNJQb1Yr4AxhCISTTZtZD0Ov1EiE0Dv6S/mC/p0xdjfBRfAX5p/166CJPvSAEqq3g9JTaR9QP/q0DOmw7Q6S3LRrSa/JiZVRHjEZs9S7rxijU02YEZJfrxmwhEpMpcT14mgvUaVXXGeVJfcW55eapWHBG/2pIpKOiXU1+l/tlqZ0OXYusfSEgbncKq+5bdsTtz8w+ZqzdbiBNmnwTqK3dWt1tDAwvTi+uJ0/aUlV0laIEBgy1dish04yir7z6NRt9z7ULKxo50eqzXZ5rFxv6j1CLOTqN1AvP7bDTfP2VPc4R+2KBxWnFqmFI3WJLSbTPBPqLhzTZ5sV3jvlpVd6zn3794xT8QiAVb4yw4S8VCqMlouvesnZ5f+fvfMAtuSo7v7c/NK+fZslrcJKi9IiIZSFsoRAKHwKgET4QJivCttgf8bYUFR9ZZcLu1xOUMY2hcE2LhuMMVgEmSCEIkhCOUsgCWkVV7taaeMLN9/7/U6fmXP7zg3vvd33Vm/F9N6dd6bn9OnTp3t6/n2mu6eQWcTWmyNDw4NMPpaZNOBvPmeGZFAHnxwsFkvsjTJerJSqtQ0vbdxZLe6sTdEfNxuDjWqB3EvVZmZoMV51PCS41cVhLkN5ID7TvpynX+5iWqGUlOEIZeRsVkH7yUqZT/iK161WYuFvOpMfLI6nbr3z3rUHnTeWkTdLbtzkzEkms81jVgrt5czM/aA5sI6WCfd05tKfu1kivZClD0MpOtVBDMHQKq2FUy4RA3jSr18xYYZ4hQRc2gXkSnKzNDRKIhwwCpRk20FgMZnq+wT6NNAqzJRFM1WEajEqB2Sm8RDoY158y2WXCebhrF+/ni8ZXXXVVeigC3yRhkHICD1VPWK0IKiBDjrSgIZhDpXpVQoU01sJS8LDkdn/EKyyQBPTkBjl7CWHeORQNDSnFaE85d0D+vfRp/8lVEVJXWVBqVls7fOrNfyYGE0xtda4X5jAhqj5/npxTIG5OsWPwxNLn2IqExovDLUp+7jRh17zk1szI8vqPLdqDTxSYhr+u9BVCa50je8aiRE1vkWItx7o5dCX4CemwvCMxIFcdcgeGKPy3ZODXqYaubojUdxPItNO/YxBcDhsJQOZq+kfeVLFYrhKkK1/whx9Qe6h0hYRnlCQVlk8HVq4ngLgbxa0yiMf5YH1ZQfu+XSoIPtYoD6AFxKvILKTI5ag9ymK9a8dZIOjxfRk2mi6/SarLGbIAu4ZQbEbt2wUI09vmaXTlD3UHWrEknFkz6t0GSuBgduOzNyV8cCM+RuZHvPv6wCcNsmdebXF4EDROfQ81/xRh4wcXIzGO0AmZQHoc0RP3vkrP8eM1BRbM8meJ9gqgn1qcc5aEVJLiA1bd+8q2b0rDizK/ao1aw0PqXRwVA7NDFqfuFwVX29+0dZtk//9g+vf8snL0Y5vmQSM7mtsfimqwE3kPGstGS3QIOCbf+FABzu07j61ijDQpGEQfAmyf+DxZzbuLOWGlrH7UDo1wFNzaFhW1+Xy7kN9Is5rFeqcmHHhZRERdwy16YZv4Qx7mZFIXXKsgebT9XKqVkrVioD7TL2aL29N1TND+bE1a/Zfu/aQAw9YvWzxaCGfKmSDgUKwaDgYzkkz5SdiWSwf9f5a6VO1YKoclDkWg2I5ePnVbU8+tf6JJ558adPGWrmWzw00cemm8/I+l+8TBjlaYJM9duhW6S0Qoa+NXL8nt8Dsg3ZQGJCxRzZbqNCP8/YQJDI8ev+jv7zi8vMWD0ql5CgA2u9aHrPXau9NARoGmuCpZe0pVlVvK0CTFqRBi0YXoZanx9CuQ6G/8kg373niOSWeGObGsGIVaXyGFsC9O4DPx5cIRyvkg8+IZ8msxqiq0GjLEdTl1wucBI3UpbfoKXeiCxTKZ95lmiyuvvpq/Lh80xfDqtFcc5XpSVjAYsiRIhCIQQXsic5MaGE+jPLssg4zSYieaiXyIl+OLJCAYOW0mkIjEaWcfWSqBBjYQAmZuMM59uF/TS6ZSSkOCjjnhiy0wO/uF9DY+iipPNQU5aX6dAJYH/6FeYl7Q5/m7pVqqKN28nLh5YkAj1Qjy9bX8lKWQTJzrBTZU7saMISGWAlpOsTAw1FpjhqMk1PsTiCGI22OleTcnKQC/bq577UQB/Omz8mJIDKPX+d0IoWsPpWAEDQhLUdtvpaREqgi++ow76PDZ8+D2yHOtiPzE2puikJMTp9TStT1ald9Mrxdr2xfMpQp7dw2sGwEzz1l1JvGpLQ9vGS00RZhedEEoZ0RpBdmSzvubJSRqmlPEtNQT/VIglq1yF1R5RVJlX3ncqlquVEu1ivF6sSrqUYFcC/ebHRkTzrBHNkKEJ4MBAMrEg6PsmFRp5XF+6gWbufujdHdm4EO6czQieUXaSALBQVSy4jCP1aREfH4uvaSX6vI4MXnhK41i9Xtr1bl9YXYFE9nTkYF3BxtzxirFLm5XEViXi+Et4PH1iJh40QqLQpK+zHRFfnLMEswjtwLMgqRPy5LsDqisjlZ3U+AwHGPbVhOmR9ddv8vnrzp7ucvOYk39YPB1HjgpqU6TT3ZUtHxOO/y/JJyN9OC3Iw/7h35oi4TPJyvrmvGareOS+gvlhTjh7aRDocYDs4wNBPx/LUSCnbnTMC9a+hylFuLIAYhSC+CJXF8vLA1+M61N6UGxqppYK5440CjPOYFjLsg/mxXlVSfbENG22+/hduydnqGKTU5OmTzpVIZX2CKLW+YPIozoFaplUsg9crURLo6lWef//J4dXLHSCGzfGzRef/r0oMP3G///ZcOFQKmWg4wTHEYmDm25K/tliNBdYw0lZrmx7rqJVkpcs19rrh20JKTjzq+mTp+YjJ4+OEn7rj/0dvufyIojOL6TzXYeR5n+kgun2ULnsrUZL4wyAZSgBu2rcS2w8NDgBj2XZW8ovZsRKzgEY9MEUJNhPCO1sGyAlXhFgekn92w6eWtpeWrB5Ao5m63pBQpCR0WAHazb8y3vvUtPN8sPGVCi1t9ITAUXizsjCwbInFKrfH0BKPDow8sYkClvlSrQU3C6lua/U9/+lN1VyuwtlGBMZMLtCZRHmSimwqnMXBVc4eAGU6OTCXinQDDEuMklY4fTLLphuaqPM8v5ZG7Jmp4XFJOzUvjydGSz5AA7bHVJpP+cYHrMAlDaWO2LBBFGa2YnGpGlAJ4TdFQTN8/dGaKYshRHtiUgYSaVyd/rxhyJ1NNiECm0Jx00klf+cpXHnzwQRXL3v/6vsXegVAQ8rVUKplTkiON1zLMWScJoxqqxi9dLx1mGE8W5IsNlZhhqhibJqdoWvXAcfSkdT3++OOUiyKYfC2mJSeem4IWayWi12L0wvHRRx+lvpjDpu3ZkuwVBIhEn2rOtyQkWAS3OXgtPdkI7n1048vbpyaDgRxbYIISupXJbp5uF1txWJBg5xiLvav0HiYSIdKqUumBwdHtO8Z5kA8N5gD4pYkd7CI3WMik2I85kI8o4TYWOOPWjbEarMYec8y0YG1XjgdfwX2fmPfCDOgZsclDwj/iYco0xc8Ui/d5fBps5zZ8nCk/ad00oS78rGDxJSsNMi4Xh5cuGkwty++3ZGhsmL2o2WVUHrpmKQjEhdjCzNeb8I3cycVVv77izDyu8VGXi+Bu1/FX68VStl469IBVByxfW2gUs03GHoBzcSXyRSQhZH+6LsHPpe2ym0bVFjOnJ/ESRcJ7xUfX43+76s9yxqH08W84ZA3G4aFQwNstxZFJEjQ0ram4oD11jsJ+GVV/jkZwVVzGmUypjv9myR33PnjqugP2GykEBdfmZFJOeLdQOqn9hRq0mH5hobWYc6EyQwDnmHf3IAjeDdqoZcgwTBXLVTz0+eCRJ5+rpQeqLJYNmH6jIEImtfN0dp0MTcKNtqKE/f9aiXxi22SZx1IqU+B1/lRpnMn0AO+hdHPilc1LRpjdW5zcsmnJUPa0s0542zlnHnpAga3nh53GtEYGQ/mMm2zlKpQ6pRji16AXFVWsj4GWCHdfh0MaXpXSESGJtRiUYVk+OOCsw0895fCrJoJvfOend91zb6YwRF+9Y/um2o780OhYJptrVssoifLyQoGv7zENKMdCDpdTVEFc82uKU7ncKzBslkBvg4GHmrnBXz274dDVa0GaLhkD2bCmeglI4oEmfMP1f/7nf26//fYLL7wQrIxNADfgGCqCpzCBGB7EHKkOw9DwcImHcn8bAqGYBw9+euSRR0499VRSgRQBRqQCqCGQ1ksw2NRLGjzwa9tQnEcStGU7TnaL/973vvf+97+ftEA3tIIT/q6iaHVcRQeEaNFUE7/VdU04w0h8wJSR/XAOP/xwNRpHRZMzlDAtG5pTC8xE0mEPRZ4trNcszOwojChAOS9Y7rvvPgYnvAzhFAAGDy1E+clUraTZkS+nBDX1vffei1WBuYcddhiR05ZiDzOgEnZDc9WNNsAnnH/4wx8C0JlExAZQvPmhyMTDxisd2gZmgaZ02lxNYWoTrM8WpTAzKl6AhTVV+xB03VpJ7j6Rb1mGzLidmO/w2JPP1jIDzWAo4Js2OP1Y6Nkt9Cm89t3Wg0MYjWUxK22ONqQ3CUvQdu6o8naAPfTHJ6bymfog3ySsTu146YVVS0cz9TLIcriQXb50dP99D1y93z7LxoaPOnR1Ls3EVmaWyrSC7rd7pDOF46ePiyiu31/3IAwN1I9vV69hTfl6hHvi1svBWEF8UdWSLEsaXjSsqrZKJEvV1KE4TX5qYWdopsSENyGnWk0+oYKUHxovGF80nZycamYKaiZ8cczDWbf2wPeefwDbDfAQQByKAXO0KYjzbBp1FsRldJ5VaJm9PdlEOViEGzG6bfQiA0zWLbYzYqaZN7R40pmfK4KUSpFalLqmlrVCIQjE8HSl+O7Hiwv2wGSUPvrAL5++48FfXnT6umxq0H1KQfKEm9rkGBVfki/YQDG1gHOnIUai1oCyYYjs5izLDkICg1ijWuA91Y568N0f3wiybwDreUnGk4XXOu6LD7IiRUcEYna1ZXQfRpJjf7XKiITQAM0kfVmiikOL95K1SiFFR5eqTU1ObN00nE/lSxNHHXrQ+R++/IR1SxXs1lzj1PuR1kDHCO26eDfeCHs+Cqgtk8JFgfJIywHMq7bpXAZYTbNh7blwsycwk41yhWC0EHz6I2e9fMVZP7r+ntvuuJ8ZhLmh4fHJnQErcRtDzM1h6Mj+Objg1PeipqSaKJTLojX+1BgijYAmL2d8ecVGd4QdUY21IKz+zgyM3PvQY287ba1qD7O8lxPuqLVKVBLiFuALU4Dv+++/f/369YrsATQwgW8geP5if0XeEAp9uKqVwimE8sflunM+yQTG5YXAP/zDP5x22mk808FJHKlxHu5a7wjRtP1FKYKEE2XAAxzXrFkDhua7pwxLQPYqFrW5ani0UyvkqEec7EiiyFuL08k82xhKhyhgN9NaKB1PaoAgR0Xhs5XWlR/9URufutrNxiddmftHasVpnbLNP58KvvXWW6+77rrf+73fIyEWVhCv1iYjsqYsXIKwfAH0xPzkJz9hPMAEpEMOOaRPe+ivz3xfRW3Ngjri82Ts5cqrhoceegidceFTEK0mHYkZM/bRUivcxyxwMiqgjWExSq32mW/l51Y+3b7YQh8/0ocLfHTDd5ail4LnX3q5MLKkWs/UAtltTV4tS3/r/ggpob9CdkdBaJDsnG+AI02EI3bkKEZvNBcNFsbHdxTSweKBTHHnzs2vbly9dPiUtxyzfKSwz9KRtQfud8j+y5ePitJkDHbKsHMfD9R0+N4NORqs2nz10LzOp3MlCgH8neaIc4uH6jQl9DPoTXc1VE1nNzvEzEcV6W5xXAwO5Pm1PIS+zN6qUGoFBfpklFMXHNET08Pic0IDJDiirewmCq5ggFeaXLV0DFjPj/cOTL5nNQC2c3sYSaQiCV/N1ytNpTDk0SBrz8UMcjNoY3MnetGOcq/YyXwQ2q60EvXO1OrjqaoEyxz5MhFsEprMjajLY49vNdYzN9/9yLHHrFs+mMpGAxOtSjSeX6V3wxCupF3Q4W6IbE/qDZ71FqJasQYv0njcCvDli9x8ri0IHnti5/2PPT1y4FFNWTwqIAaT8wlVdoKUn7aNdtmcaU11RIcRXOUxw1EDyF7mxZVKfHYAV329NL5zcttAs7TPcOrstxx/wtFHvOmIMfGOspMMz2km3rjGya6WaMJIgyuowbw6dgbnkwYuD22kYefQGnxK1+76U9SWhQHg+bQsXafgcgo+54vMqZxskiqMB44FH7nixGPWHf7dH934+DMbUkGBEucZ4/Aer1ZPyeY8aYFU9bqs5aXddcD6sMCeQRyPKKYGD28uKZwowNT/dH7wF0+s5x6EodoIsrKfmFyWYxJ6WIDmBPLm80l4vpkgzpQM81Cap5mGDZpRAQraqDrFfFTKtDCO/TR/9rOfIf/GG29861vfqjgSqERC6XNcIAvkTyvKCkEiaHR4xzvecdttt7GfPT7jN7/5zYAE/IB9YL1JAFSQnHJZ0ezS7hCAP6Ae+rDCEk10CDGHsB5DIZZcqALTk1pQg1jMtISfRNPydoVVv5iRFcDve9/7qH2m6KgcTGTgFYK0BuuhMSNf2H366acpJhO6Zl6J0yo5fwyUiBcUp5xyyve//30GM7xN4usNFITikCmOfIqvT23Ki324pMrovcCcpV/+8peMhXjfBedeUeSYMaXTpOvktuPnHhDK0CiVgxc2bH/uxY18mKQhqxhxSMmaSLhijSx2GsuAU6wZCxpJQhoxk7foBbAyp+lmpbrlxaWNnQNTm6ovP7VmNPjwZef83lWX/68z3vx/33/q+97xpresW77vooAnyGAzYN/d4VQwwCMrzczLPCu6+EFkWC3mYqBjvww+t2ZaQGpTIOm0R5hJEhOya6eqXuyI9VEjx1PKgftmpcRm1HxjkS01uOSH6FHsx3Wn1dSxa0RqjBGxU43HPcZaOJ7K4qtjKlKTpT8FJtwHtTIaFpoB87GyeO/4NcV/r79Ms8r4Z2bHmqxA3St+zPXs+GXdTcImIYol+BYUX7oH2fPIihnccElH/BxHAN30x80DglIXPnlwNxEY8grgFFwqP+5h2decfYVSafZff/KFzXc9+mwJnJoLP9lAuSiJKwx3+gINYVvlj2vV7u/M74/ZFUr6O/cD72by3KzyPVjGtPxuv/fhgUVL6um8wFj5shLYmsn0AH8+maGebskLtDvDLLUgHMFGPGAIoGRmG3L3FdKNQqpa27k5M7Xl2Des/s33X3bVZaeccsQYHxPmiTQkyFqcBJUiUxZx1WdZhSI9uwO9Mj0/h+bcwdFPFr9qPUP4P8cgO7tCSGpaivT3DBnA7ez5QXFKRWbTc/vnmsFJbxz9xEcvv+z8c+pT2xkrBpVqAUBfrY3v2FmeKteqDaZJUnYrlxFmEGKUNsIuGUFb5fN5U0wzyhU2b9856fC8wB6ZkT9f9W657+0EhgWasGskGBSIfO2111IiGhhPXo5aOm1v0PQYHBXrQMDDo5mruiBVmWNHkgC4TzzxRHVzMideARNtjoQE5Qcb9YdH1gBo9iSBWdp/s8kXoHjhwByYf/qnf1J9kKwe1pgmeqpyyBdmAFxXnt2JBB/z3oN5LCBdTEpG/o7puyNZ0zo7yYodpvJTaqaFWHXMSjj1ggHV/mp5BiR4oNGfOvqP//gPHR1REMsXgrzIWmE9ySkaNiSSzwDzjoKZUYziMKxV1qxU2mPMlFobIdPPaJa88+FrweROM8YsNB5wvDJQNGOmUBSWS2yJw4IE7ACs50MQJNT7Yo/pPycZyWt6bj77uWeBSB4sBBs2vkz/zE5nzPIs8HEQgmwBKIGiWrETanoAAEAASURBVNBTF93loI2AowY4lMCy2A6aGLoejrx+Km57JTe+YXDns8ftN/SxK8/7o9+64n3nHX3mUUtPO3IJrik04MeaMBxH7rHTyg4xdAj8oidF61IPSnucmRx7CJhlNF1c54/hFOBYnspMMWxU5e05ZdPhU1QTqDiTx5da0pRSI+tRI42h/6VylZWjGcAr2KCGqzctz2a+fcMfVBUnH5/Okc1hGooIXNuRCy6XaY9ucCgFpHgL+wg0Avy0HxnnyWsitySZTQUF1rdj+i41pcV01pmPA7eh2FJGxaF4uzFbBG57F7jp8qxHBISl0uUgM9nI3nLXg5t2hLtgkZ4Sy/sY3tpRTpGr+DCUvAD/WKueO90ovpSd//wwamhXehaq35mZ+K2V4L5Hn2B0JLvEuCCNhZFUqi6+cwjcbCIgHvy7z6eVT2N42BB4suJuZ4nREibmVaa2b3p+37HB919+4W9/8PK3nbCa+Td4BBqlKsheblHesNE9DhZ4b1MulsslABkjOqqPi/x8+O7oZoHxXFt8t9NMhr0+Mqy8BmXx9qBWKfE5k8FsaSCoDKakN95nJDj3tDd+5Dc+UCtN7djyKtvds1LbfaOjwSopHhtWRnRU2ghOrdQ+gdIWGCFJFbCTAf2FczBtfjWqEWNKiN4WANUBX/jiLPvZ057Ax/fccw/soDd6AwXuisJhUzE0Z1LRAkFF6trUB3TXTEjL9GUgFASSv/a1rwEBldOe73pq1d1VjkUq2OIUfkAkxO///u+jCRN+PvOZz4B0UY+8jD9GKOinaDikFXnDQPIY2y6fUigsiRo333wznl0yAiKb6XZZrJ8QV7HeOMxBwvIxM/qc/WlqUG2OxeCkTpklf/nll6MtE3LuuusuIoH7HGkY8MAPj9oWi0FTNBhY5MBUHMYAH/zgB7GqufP7576Hr2pJKYjlS+NhwHnuuecyIYe3Vc8884w2Y23esFFGikxxMAjMxOvrLJgZCTCy4s0GxYdhDtuPqTffBIuTwqdX2MtqhmxdXA+ee+F5ZuTK/hRMImWBC9Pi5ZOL0kpmHrC4Bk0SnclNC41lMSi3h+4GtWxR4aSDRz/9v9/2uT989/vPWnv0iuCAoWA5TvJKPceS3po4scDHzrUsc0L4ORq/WCOFQzUDFmXZmPycx1n9zvGjOF5l7ub0xz5CZnuJHRM7f3w3CwTA/ioAAhauuhcnCizaaiOy9jQwy7dzlET+Eq+nRvS82kyX+ThNM1XmjVyGDUWZf8aL2jwiGNPJIosaXuqy/GoV+UgOW2vzNadGuvNHfLdfplanGufx5zTJdB5nmyl75vBJoNiROQAgecFwzoK0W/dXVp93qzDZjmUPBO4gy8VoCAtcDWnGY6lmPidT4NLZgVR++LGnN9xx/6+o2EhTmp/cGa0IE70wCG3Dfkv26XnSURC6m9wiLh53lz77QuXFzVureK7dy0Y1LxMZBdPLW5TInE4h6Z7CJjO9ghSHQMdIYK/fFGh6fGt5YtvKsaHzzjj5PRcfvWaZ+8xHtTGYDkYKqcrUeKVc5DGMaPA3bSE/UBgYot/mrhU96A1566Y1yuhEfvJ+hx9fOVDcz447zMbR7kWbtKTVAMEVSpkV5/+AvFGsT6YbxXxQ05HB6uXBmafue8KxR7MNzuT4ThwYbEQv+nAHSWcWTsXRciHTiEh+mBPxYZbuj3dHiUr5whCvlDm+uGEzp7I/gmw21GXs5AtJaLFVNosz8uMf/zjLAYHdf/M3f3PLLbeoGx4Yp00XAlQkTS6a+EG8ztbwv/XTaU/1izOnmanbmzZtuuaaa/7lX/6FTxrh7kWUNkuQkwrvg5DITvExBGqo2gBcCKbyf/KTn0SNn//851/4whfwAHaqYTHgMJKrHx2UrwQWMIbdJFDyne98J5O20edzn/vcxo0bKdocykc9JvEzewqC8uowzAesM9dfa9bnB6kzu4l3LCyi/fKXv3zHHXfoTafVxOOMJPBjNyVoLTSVr371qxC8PLnkkku02ehVX/LCoa0BUym0aloOGP2xxx7767/+a0Am+hOvpYBTRykUXwniv/nNb9KGWd2BoRgPa5vUBrlwyjgTTcJ+nPqM8AoxOSajP/X81ifXb2hm8uKaZMqk+9SCvNZ3KGEmomM82BGXuryllsaTLsnrgHJ1slgZ31nZvrm2/aXlhfJpRx30N//v/1xwxjGLeLVdruRrlVyKae5sB1FlTa1++hA5OBd4N1sFv0NUS7V6xc39ll3/+DHbgB4fUNr1V5V9G9gbf0ZHYeshp1c8e8V0/UVOQPqs1g9jVCtTzkfoHlH6Cl0esWGA4icGawXBDxG2bMV6lCVXTrmC0TyGLqQyUDUsZmYAD4JhI3maNQMw7gRuEbGtwADZXEV/zOtgBoLMxJdNNiXSP/JCUbBA/MhunGAEPmDPdOV5OYqSjEM7jrPNESAnc4/bj9RPrRLWiPSDWVkZ4luzvaacb18qa04D40DkuSMg0hetHa40f667o9yutBW3GpHSCANLWYZHuH0GRsZY/bmj3Lj17ge3MliLoyQdrsy18k6fHgc1nubYnq/YsGXaaRuzJ7+VykHa0CziDoiYMBRLR9RcLhPFuFLLWE97RWdGwLl8ZoZ5OAzBH/nFUwxchxaN2kNOvMvcubIZK7eKGj7Ko/VXOj8vc70QFpZyeYGxPhinma5MTm56ZtVw9j0Xn/fuC47Ew4aq7MUzmE2zAKZanJJFOe6TZPg9mG4VZsX+Ye4lIZ2kRJGD28ApduQUO3T9kaxSDSan6jLjjAE8H7rVtoY4hviSkTj5Adh47pfmg6veddbh++/DDNbyxHi9VKlX5FAqYi2xCfvHyu2EcSJCT+0YxsvkfvmkBq8JxG/jBiLaYfIZXJoukwNf3byFvEP7Wi22LJxQbRagDwcXAhZxYH/iE5/Av46n+a/+6q9w3rNnCKwwECAAN4rt1GFBw6Y1svqQpbFsmtkm1DtBLMmRD9697LLLgIC47XGus7UItDKiANLAT4rUvdRtpKoBWwxIoRie5o9+9KPMTsGf+tu//ds33HBDW0rvBCHoD4RlyAHz5z//eSZjKHL1uHad5GG4du3aT33qU8hnR6APfehDoEbm3O+6xPaUPHAB1kyIZ9En27n88z//M5+83QX9qTvsQMD40JYJMBflMSkV9Od//uf445XBZ6OyYAAHs6XSH//xH+PtZgLSpz/9aYTg9iYeZhO4QAjth+2IhtQUuoHRafa0BzYFuvTSS6ksLKzOe8qoymtxmISDtWntEOvWreMFBRUBD0flXyAlnaEabFwoXb8ronqLmUiaZXra9trg81unKo2RoVGcJal8NjOYG67XqnmWWAp6lqBDPJKDHOWowTUja0w61dL50cUHReBj5zhzRofHtmzcwOauOfYI37nphMNXX3ThmaccsVwG6QTgotqdyQyin1OQJ4TzmNKtW1Nlpn0Mk4gm/G8p5ARGBx4WETmjvzxdZ8S3q0xsAu2SMpSJ0ECE7H1Fo9JIHPbHWw54kI9B8Z6ar9Wwuk0QBcEJc09Q8R+y7E8KLLEOZoZHJ0QiqSa96zlCITifY96TfEKgws4JIORsemrbuPjd8AiySScAXwAvaoRYSJVElkT9GhxHwt7A2UDmOWjzwC6thiWWDa0e2imqmNDgzuzShENC/gjKkoMkFhAu95hOiRFpREXtkGriFgJG8h6F2pCaCQM8oCGZgwEsqgOq5CrtQv4IUCci08iz91EpP7CoxCu4gdEgN/HMi5uvvuaOj175lolqsDjHeIV6Blay9iZdqtQW5d0+7FEW8/YX5aICOhN0z0jaNMMrLCOE+McJagHBzPHAizW+oIpRddUIb5k4gZGc3Hb/7r0MgNh9d811NDp+FVHcjXpDuoYOTJYlnJiGtFj8ngceGRoamxgvDi0Z5laURyibyTCBjddwspJW3kNqi9CKw6Tk7W4eeSiKF18+qSG7LIt65CXjZFl16vpIkmbz2Vx9YkumtGWwsuXyc99x6WmraXrM/2LL+Zxo1mBji6jA7NZjtJst5va4oRhIbjtK45DGpccoefe/dLpse6jX3CsBSErPNCAW3iFA5tORK1pxPHJl8JF3X/T3//KNjROl1OJhXvliLxooSztoyBSW4kFIcPUrVREFo+QbcDUW7fBBakZPjMVYQJXmlSY2qldLrMpi3tjmFzZkgyMZUgNKnQAIUWYvDbixFe/yZFQ3CtgUQmEH1lIHqsIUuY/DLn6mxQUUahLQCc7vL37xi1//+tdB6l/60pfAMawsBDSDY4DmtFg83Lg5mXeB052lluxSzzpCcoK48soru2aJcJMPUtS985nMwJx+HM84PgGpeLgZAFAECksRWH7K6AKZ69evx0tKjorpFT+hMCGWF28PfuM3foNFkN/5znfA0x/72MeOOuooZsUQmLuC6VAeychns3lyf+CBB5hAwuQK9nKhjGzUqAIxJtmZzcmXUxISDwMEcgSjuHkpMR30FB7KS7ngZLY6eBFwv2bNmiuuuIKVyiBgrpIcscgE8WNMLIkZWeEAgmR2B6boM8LBSkgG1v/mb/7mv//7v1MKBle8EsGMfDoAXzsN4+KLLzbdkIm5SIJYciS5glqpFddUYsbklLnjOLC/8Y1v3HTTTX/wB3+ASS+44AJc8miFHAxIpfCugLnmfMCVyHe/+93MSwEia6bUBXZTO2gWpOKSjknIHfNyqpc0nqPBaOhYQCVSIUSnBqnkGM8MT1UTmK3UGIRGQnXQ7JmA9N73vpdPjFFZLN6gWXKVwtLasTOB9zA0QoaOsDEG1kxJyyjO1p3HNNH6YrRDPJprA7P7N8a8J09lWCNBMIS67bI8vegyJ2qpcpOZnOJ9okvmYYW5ZFe0WQbWcjHRJHrqGhZJ7di2feno4tTUzoktr5x90roLzz3+6EPHcAK1MgjTeL12JAUVPJIzj2c69doTTsct12chfCbievJEgN4YZq8qlSiJaGFCCATn1J6bIrjrbeP4XbYClUjCEVHyaJWnt4iQ1WpCiZLu5ymn5K/P0VnKDlgjDJ5JNAb4jcVm5N6QKgjTtwRGglt/qVQ5EfgeHttq11UZ1RSOulw6sCidLCBLICTasPyxMAimLBYneYgMjy4Zf2Xilp/fc95px69bnefGZ449L1qYdcJTrpCP+gcnav4PFAs1ZWQSBimenYSW0ebaarSuVUcJ2v6acWjJ8rFU2rGTJ4MdJ9Uc+ZoHV53rQIS4GHV2SAZyK+kUviDY8GowMVnEG24PEpcrapODiHQ10Kse3Q0ld6h0dTCTEd1ssyLv+gCxOd5O1mrMlAcYDzQb1Z2vvu3UY085+g0AaCQC60kG+ndPbZdt1G+IXMejZZnJ0aWY3YGlsyQQ4ZRAnhryZEA37LnfkuCgfZe98uRzzMdnG0W8MDK1Cx88f+XlF+u2cfUzsJJF3G6syXWMBnCnZCLKUeLLEbvDyreuXcul9hgr0WjTTJBzdoObp5HoIGn34qAgD3PQlkAVYAJgEwHAAVwARQEsoEEq3MWE2RbVkojFUyn8zR/4wAdYSclMa/yX4G8CuIqMgMigQ93Gm1xg5pSNwJmTAIzulS+qAm4QjuaU5V3vehcA9Oc//zliX3jhhc9+9rNoDmJj/0EKwsgBWA8b2SEfwI0mrFMkSS/5lJ2ECGHswWwQkrDVCdgdOczM+du//VuE44dGIK8ImBuj+JLPSIHb2AgIftA2kQjRQnE02Dc6OoqSIF21kh4pUft93aaaFhNpZ5xxBqtRnf1k6x6wMqgO/ErWoEDUxuNOebEMAskI87LDOoMoitxHPkLUYueccw6p1qxZw2z766+//hY3gYqE4GzGFahK4BT56Mf4AUQOTaA6GFr0yQIGRjvYk+1Q2dSIURZZ4JvHUJQIg6A5TYJSAIJRgwoCB5MdYtWGLnMZc5Id2hKI55SaJV9d9atqqD59lCEjkiOZwDsZ7IbwNovv3gnyua3Y0gekftxxx2FGhpS886EGaTYoDGrHeuhM2Rk+XXTRRQyAuaQlohToA1svLahidIaNSWKYlOzg7DOM6SVnzuPbn9zyAAuzoLS0SDx+BEytdalVOCslSI5MkSKB3poem369zkSOWrVcHt/O5vTnvfWsdW8IXdZ7dz89K9PMA7NaWQUL7WUh1nf3jE/YdeN1V8NoaILxJMQcWsAMCxHdc3MoXm5YywK5VvWy7aVbncl6SHIuDI7kh0Ze2f7S96+78bD/cwFPP6ZeMfdu9kP4uVR+hrLEdDN4DMBG8GXGTv1LPWnZa0Jc0DA8tX7zjvGJRnNI5pO1B/TR0B7tn9Gl0vuLHNTQMRo0z0VJKN/eE7c9oLVcngxKO9cuX3rR28/df6VsskpmJIMQMC+omkLNR9vxtY3RZCxDkQjWR1fp09PB8lXBQYfse9evHq82p4Dy7EDPREnmUDKXR9G82zqIKgMH8HIJMWB4BEZ4npcwMgVH9kcQZN8kWV6eQAL9yRBryTZltVSBZZVVXE58+0/8DkjY6wM1Txk4giFwoIK/V65cCbAmUhqJC7tWSKAGqRU5KeDAH4wnG7DONBUmWoDkOIJLyIgjUBiAwo6BBx98MFAPTgIouVfuYBouIV+xAYCJXe2BjDhKWfPKVzzZDdMmq1AiJu2A8oHyIC3djhMJfXCFOvLRjfuCORUMMxhsAEzxguNqZXEkcBC0DVzBdABQ9m8BosEDQRkxo2qIBPTEFBwVSgI3ucrwAMytQwv15feHZQrysCqwG1c6RQDiM69JS8q2M1pZCFmzZg2WxHQYE4c3daoFV3162RP5CEdbLMmmjUDM008/Hd85NgR9Ymcs0CmBgvBOA/yK5ZGMhD5gWi0AXsdESKOaMCNzfjAjgTESLQQ5LLfFgMBcy07FIpmgGqqqaEUMqvJiB7VZt6pJiCQvtXyv8iKB6qC+GFpgMWwFP3WNnF5JZhWPNNSj4THMo1y8U2LsSnlp9lQ3jYcBDCMuakcDRe5sjX2KgBl578G7FOoaNm1gRsxK1bll9pB99PDjL1iDsQhG125TGysZa1XNUgNZlCP/wyBVTV+NN7C4dUemXjn1pFMU1k9NFpcM69SUWeaQsOv9IzUoPZcfxOrUp+vRII1QHrkYBccoJxAa9Ap0xJL8nRcLiIVbFTSXWVDdfvVxmstlizvHWUjDIwQ0Wa7VBxaN5QbSt9/94Dsvetuhq2TuDc0kh4tUFoGUU/mFdUu64rQKZaUzwjcfLZ/StMXMujEL9JTaYeYOM3jE/xzwIMe1yk6QYASEY1WCn0sf2umJTHk0ir9a71yE8EadNyrVKj4kXJS8sGcOPRvYv/WC0484ZIxumgz4kV/XnJCz50JoUWcZ7CGKyyOD8xUrRxvNIj/nxy/zBGHzCffWiD4fG8nW0TJ8aZWB0RKKY1k54nCk7bECGQ89zx7eHgHq62InRlRMQZNZTjRdBkbyckluGvLcu4MiGy0D0A0Igk8XyKgxNBJQzi49dkOzkBaLmwSyQybY5WAXQHK0N3y0ZM0lvI+4wAHTwFYQHvBUaouRqINfvQyNEEXDcOq8BeAsrmsAEzObefOgvlh0IAC7kQOsRwfFf2QKxuo12wFYBj8JgXqqBhAK+xCQvGXLFpKjAF0ZOiCEI8pTCjQ3iAbuV/nIQRqXVCzTe6666ioVi/IGYXuV1OJhVjhLQYCMBNzb1BSaYElUIgt0YChCEgC05sslstAK1RgT6BOojXwCQoDXBK5SRwikmAgnayxGUwGkkQX6QwPrGQPAAHN/WIwCZIFwxgMExg+M6HjjYQMwLMxoB0uaAckRfXyxZEpZlIFSUxw04X2ClourqKFXyUjL4pfRaG05qMG8djjJCPX8jIxz1wgasyqDcKqbQMuhsDQe4mmuKEybpM1gQxQmd+JhJsxEDSqX+Wyqm90Ic1uEXSt4hOyjBx51oI8ObgZtu1orHB0hEzRmFXQ+q0tCFy6VjI+GhyQ9CvMpV69ceuapR/AyFz34jGxWemzuvb2+v56VieacWSvLF+vqTh6hRtjVGLNjsIshQWQ8KjnfbQuo5RXkCC0DsN0W6gmgb0KqdFHylswN6twoG5CUz6T54MqO8cnSVIm1zPWALz0Ht9zxwAGXnSjYkV2ceKsma11wnPBkXVj3o5jKtWQtFEeCV+44qVcdV5iwOzqOpyMPCt7CzGJPppM2g82vbMFbX+eb3Cz4dC5skoqdo/ozolNkOP8EhalrIK4oJ+ZlilS5KNtvu2nRjUpxnI/Nrl617OxTj6J7BPgy5KJqquVqpsDMFrTqV+Qu+c5JlObp5ywLfZk1QxFkm7WBkUyKKZypSjNVqfNFXJmOw85a7L3jXvvKGEDWR4Rt3qmkdIT12WVLzOGW//L8IVBO/vESg32BZRSQwt3PcU6KswCEUEJai+IhsEVMIy4BLxSuARdmDj1NDvIRbg3Sp+FBOHgRdAVBsFQQJATiwG/wzr/q05aQtow0LgFxSEtCLoHygVNEqg7EUxzzfBMPber5Yo1WNThFIFkoM+oB2nDxqk307uYS8aaw3FsuqFaQlpFeUjUwLEm4ZAk1VdcjzHBiFoIyoB6RoGF9veCnMskaqSh2JpWoelphIRgpUTQk6GhBNVcatckIq2JtjVfa18SnEa7yEQhBQbAPbY8XC5bc+MmaoGx+pBWfSLTCCBAaqQMbFaVJNDtL7hMkRH8kGA+l0JcnPtvu0FatWhbyorw6PczEYgo00WJCwEk1mUp9qszsYK0amXZHmPw9T8gK2lbQ5417aDC+pHjorcWDdnUgHXSLfwaUm6Itu+JEQW4+npD4b+rV4ujw6NrV4ZbLfF7FzfUPb5gZyE5YWhbAvM7GctBYMThVaXUa9YnG0EqsbNGReEkbBZ8toefKAljX7qzZ3VEz0wDhZGG8dopfiX6KafT0nqiQyQ3iG52Y2DE8vOzmOx848rA1p61bUcimqpV6hrkPCz5YGY3wVbbBUuyqO52h1c0IMosE8Prqq8G2bTsy+QKLZQXRike5lSd2JrTO2ynqwyFV/soogXEWtxrJQfjAinK1hrce52KtOLFz29bFIwNnnPjmfRZJ94hIGXHJrHySsS9XhY+/t8t+Lc4EzIPjyVomGLFr1NBwdtFw4eUSH86tyq46bGovC2lFf+wkjnfB9uLgNysppqd0IoV/GAhhDBhA86xaFnvxAY0Kk8jIJN0QgirhhxhY3Xwel3jvPLj20tZgQB5aFMOFih7MYrMqKJCFoLnY09wkEA8KoUPgjlBAAygH5BFvkIXk8NuppTWCtASfB2Ythetk5FNZXEUybAA+RVrQSJ4WA6nOUgbnzTW8iHHMUAgHV6GzFoSMSAVNjGgW9bSmcIxAJjxEciQX0hJiPHaKWOU0sRTHSqQ2hAEJRCqzpSUGBtVKk9ilTkJV0niSQCCT5BxVAqpqdtjBNwWcWKCPYUmuxYQgwK/JsaE2OUuLHC4pj2qCVr5i0HqV4lDXlBcCe1oSGMiLY8wUKo0jmZLEDK4EalhFG+cuE2ShRoPQktpIT8uCtjAQrPatXMSQL5f65G5C4IFGeTNgn1TzfSny2TulNDNp5LL7oWzdT5Hk4eOqR/paafbaCc9UMff0EgkEWcuHCHrjpnznqFop4qTHZkisl/hye8lhfM762XGmGSd8kQWwvN5pRkRXpF58Wp8wfiRXY6fGnxBzZQGxsD6EBPPMWbBKN4nsxcJeJZlsplKusA0JC+KzuUIuN1QZLNarqRc3b/zpHQ8cuubt+w3hIaZnYD4OcyJmd79bXvNEuNbYNmjp3z5jVzmVmGmsHL6ZlKdedH/I8wmXYRA8/+LG7TvH8dk7X7tzfGBo94CcSZEF1LpXAajBBBbpC+UeZDlaneFWIcdnnthWplJI11cvX3ziMYdifabs8G1t0aVZy0OxCqLvk2YmauwyDyOLtiCWlKefQ+9pPGHMT9jw3DbZuEjKhqJ8iVb6H4rL5pcyhsFW0YsOEvuW0zVY7DDRCIrsMVSvgThhmEo1K7yyYO8TkH2uXubZIYMsdtYXq9BQ9+LnhSEeAAGBmlVYgJW4RAy4h4ChOCryaLP/dCddQQZiSSd3gnPekZFUigvkojSokez0Emz984FTlQQ8wUmmCi5NGpEUDcmI4ogCHLvqFstIcQicJFeV1A5AND1VIYrYEI7CxMOsGWm+KtOsZ4TFo49CWBJSBEJ/ZKkmIgtEQWt2SCN3jkSqhVEVQiM1L7WS0l2PKK8CNQtOycXMCOEPlsgXITDAZrmgvCHXrlloKi5pFlgYCUT61aHlUqtqFsRAwEYq+AkmXMuodaSRxMCmhY0xWyolGPXBrCpx1Lrrr39MwrSniFVNtDhaOxzJWi2gCsBGIB6FIVQsDFYFXTPiqgrH/qSFHztYZNckeyYy3idahaEcWloJidcyz1ot6eGlTUj/K480d8sFjcmJHYOF7MiIbKvGr8Du5vLqXxwxSdhNC3TeS1atnZL7XOpkTmLm1gJ7wPjaeZnadEC5vLz9ZGahzNEUGNXMDQ43s0PpwcUPPb7+qWe3T1SCFBsr6qRyS7lgiF022swStneJAnik12KPFzqnErsuvrplUqYwZXAs+31VzM49rEUfaItmYcEjLZ4OQrEs+5/Q3xYnx5mquGx04MBVS/ZfIatmcV2TE/sNOPQlPiH5rIQERgmhtu1Ku4t79oBt2T9ibFFh0dBYo9TkMyRpBiBsbSNlZA8Ndh+VI+OSJstfOZVltXxYVo4hjZdHdgdi49Y6sy7ch645rVF8vpvMDvfsiek2uY9Gv2I3fbLs2aLOaW4ANZVH7QM1FF8yn0HjaVTarqTSHWScbeaaMJaKZib9gPPW+4hQoYkywwOD5k58TIKdUu8qDYBIJEkIEFoQLtlNhyjKqAIVr8MGARI1aZ2EytF4RdsIRIgeNS+VQ0lVuObCKWorDtbkVgojNB4lNSGnKEPy/rBeU6kCMJOcGCQQiNR58KjNJY3nCJriqHVK7morYjqDClR+riKcGCQbJ7rRTsjI7MZVrURNFSudJVSCqflYBgVMB2yITC0FYpXNbILOKhY1VBOyI0YVUPNaKuLRSvWBGVFcIigd08ROYSA7baiahV3afaIzd/KidvwqRmEtvs4jIlNSadZ+Wboqg8JYkhkuXFUhEKTqyrwnI6PNqlFFOmG2ZpYKKeI9d0MQcSC5QHRObkypLQu0IcqgxbBLapTINAwn+aQpKaR1sjBKHAHccrXy4FChPg64Z68Ocbyw04F8DYXs2nKwrBKiZQFaHS0RU7GdEPcSho3dzMSEDVNvrd6jJapJayokkBx9u8R9rQC3mXhurMm2lEioGVrA9RHYkEBl4RNgSSCEc+50EaHVEV6I+hdOZaKCBKtYdyadSBzUcScLn2woEnasxiOXaDnM12Rv6eJUmbtNvEpg1Gx+cBH7YL6yc9sNP7vziDXvGM0Dunj8M0m6bbZJmOv8/6GnoevhoakPjypfTItmB2mHs5sq8ASiVWu9cMTs2DEychfZvGZGHyZKFEuVKT7UnG4MLh6t8Aok2qZd0yAHadLXRV4frVCrVpzZUmG60SONgQ6SFEB1nIVNvgw1zlakA810dXL7qceuWzYgyF6aShPPHz2j1GnWzW1wvWYXPec7yr1zcJnQysJuhgLxlRP5htfifLB88YrB3CZ21q7XUtnBTK3JMBEc71w2PGUMInpue1z12EdM1GT3+gG3Nymf2sIu8sUOMuOSuPMzaWb50GSRIfZjY6JKaW9/XhjC8Fu1Tbi3p6pCN0PhM6/lrkmscRqBQEPJKtzXx9TozNfYrCA+D/ItC1+IrZcFY/n8XWm/CL4Qy5pUnXK0OIBgk2lyjLBLVnYj7FIvws/deIj0cyReFdajmgiDdGprEpSwYnbNBR7iO1X1c4kJtFOdmm+nKoqjpu3Mrmu1WtZK6FEr2jTXLKT6o57Qz9SnNfm0NvGTzJz2S9SLNp217ux0hrn4mmsW0xZ5hpJ3h01eHs1hkN45FuTzgzjq+RoMDwC6cPXcM4wVBwyPsYidhxyfJelIHl1O/s7cAl1qIUrMJb99a3Qf/hkyROKTv7toAakCwTCtIDXVOpuGmrYGu6ZnmoSsfwRvNfmKBVB1WXoyuPvhJ5558axFawdH+Hga+GnmSnTNYx4itbB+kX26V4bw7HpRHC4FUAK+gfWs8pTvO8g4gO6L36x6LTpAgbdAenHxKXKV2Y/iBuORwNcA2Q9+1eLhlaN8dlUvC3t7uVxRwvK0Ok3Xw7Yzzu0ZOVJqHTvKvj4aeHQLTncXg6FsId/MMHmiJPNl8OAx/AndQzQ1eRg4XJJNyxIvrTiRJ65PJn7lSpN46JnaI35ccnD2kTlLfBo7y+uNdL7aZOo+EzcDvpjKrq1krUokx8QCiQUSCyQWUAvMJbLXbhq5RjhanMoy41I/EwMFtnTvp3hHUChEQ3Z5XNBL65MyqZ1dtACWN+OHlHuUaqUopifeCMvGT6WRFmM8CTGHFjDzSnV0yJVIuUsk+LTGxI6+qNil2ClIFGDmdjIBEMnGLGB3csKR3Khnh4cXTUzsLJWa37v2xgM+fDEfqMVLzK9TvZjY1+p0WsuoYrARfCVjp/4ln9Y0Wg9UEqdTxWDn+ASv+ZnCBDJn/yCZeTDLwIIl5iioVVlxJH4PmRMlnw9OZbKsYmtWSwfss/9+ywsyFScU3l4J9qIGb0h0JeKcpTazZY+yi9KRLVGyHgt0T2++YvHYgNiKjexr9UyhnMrV9ONW0YtEGjb4fqos00tIi1VdU8cGxDSyTVzybssgqgxDEw3KZ6J9qcwLxEw9NdXIMO2DVMxiyRVk5UNco0iz5G9igcQCiQV+PS0wZ8jeHpbtBN4aIgROuOC8VDzJGik+x8InSfKDeZ5sMPFC2j2j9tDj6fVX2WrkzsecmB0vm4MnkEaoBeRiFByjPCYtUgk7jRiTv3NsAbFwVEFYH+laTRBcguZIJbpcW/UVKRHGCItyRETE0PZXwT03HHcaPnvmx+UC8BLZZ/j6UjpbGNvngFvvefjk44696IzVuPQH7aOsbWJesxNXTO1GRIf+pXZGa7OY8c+qACqCnorplNt3TrAHu3xHSaSL47rr/MGuGYnHmlGUg+tuJgvIVWuemXW5Wl2mXNM5Mst8/1Urlg27XXGIMhzvK62Y/jVDtZSbsrjsmbcHzYwiXO5BsHRRvlnZOTG+g09KNQeGg5FRPj3LdWvSUuCUFA0CPz3xnPM4EA+9TE3CW8+vKMLZXkH2wWc+T224kGtUgkwBv77UBjmiAdZzeRORhMQCiQUSCyQWCC0wZ8he5dnzzAhe+MuzjI6bDlmn4sjzwIGVRirHm1ui5UekKpOA+91tnRjf7G/1ok9W4luPWHfN8crDUoMmlKNhTWqnL1iMkiZ/Z2cBtbygImdhNwBrSZCr0ZCsFduDsgpyhIrszipDbecJZspzVrzEICQAJzuRpHcUy8sXj1VKO9IDi7/341tOO+V/L8k5GNVd0msWq4XlSKAxK9FHGxi4amxy2s9CcUkkBkRyxHRT5SpL0AROplMsV3C3SJx/2nPTB520J0Qf5rOyEosVGExLyedSKwHIbqdLJy3eJUoy9w5B85pNaabVrh+DmgJ7oJDL1ClGr477PC14nB58yUh6n6XZLTunSo1qPVOf2F5Mp8IXs1JZLhkHJte6zdbYwlMGCWB8prfK0U29SaWK8jKjxiY57H9ZbjJHie/zsJc/q7orE7L2QH8yRkhCYoHEAokFEgu0WWDOkL0+rlS20Y5wzhj3ZOUqz2Ii6Y558UzPTm/OK1geGPTYsk9x0k+31c4sTsTU/HcHqwUxLP+cVcXsHliPiZaUUjv65JWL0AQl5DwJc2oBbGvV4bd6jber5BnWgtwlcuaO/qEVo5zCJBXnSw35gaLgKMWEoCzxiBIhgKsxWWssX75yYvu2QpAZHF321Asbrr352SvfvkZg1wIO7UWOK+qGRhJpbMoRO40n630u2yCUK5lcocaXqsCh4oQH14L546FrFlIrzvpc1dlQcnu6Wy3NZ1bdphNMzeGTfSuXLtVt4MPacqMLcqI6HJru0g7iGszXudciKL2D9Wgj5aqxkDY4+KCVl158+iR7YzNZvpHbvoVuXqYs0bNog5fmBrPbRYTvIU4Wi2yLgfOehWgsbawB9ZvlRgMBfG9zgOn1FYaeeO+Zl19vDgX5g5YPp2rBYDZwPiFac/LUmK+aTuQmFkgssJdaYM6QvZXfHmlGcElphxvly+Hy0cIMTy4eCLa6ykGR7oDEZCfErlgA4+sz1QiTEqsjBYOxSGNOiHmygBgcuCN/qCm5WbS+yM6n++cuqV0wois/WJR1iLLxjbAzUVwyBi2y//jAwOCmqY1DS0Yr5eLA8Nh1N9524lFrjtqvq5jXLNKVTmxlGvi0RRoRu8qpxHQZ9ViKFqEYVpG0xrJwFsAJBmXtv84Tb3HPjKLT8zN32og+ugUQmyY1q5V8IbN0ySKZwiJrSeVzUEJGrw48ZB2ifHedQ6e+0ZW5/+usopXA0RVJ1mMHmdUrBpa+9UQ+UiXvNYKAr6r6s5Va1cZE+UYwNcUEp3DfQ2A9Ox9nCyk2GMUODKIqpWyl2izXp+pNtuiSTJiYs+9YYXmWN8CTQYWRRJ4JOtHL3rkvZCIxsUBigcQCe6MF5h7ZqxXk8emCbOgmb29ZCsX8Ub58w+MHNyGOQs6AMTUeWex4KY8G93jQVMlxdywgcCGyv8rh1MBiTHKM0/jFC5eEObOA4TEgkXPxirNT318ZdMSHzl0DZxjTWWsOk8qO6NG/+E3jajNeccy4EX4m3MjaTVmUSLHIJgPIl7EE4D4YKuRf3byZb6RXa9XcwBC7v7zw6va7Hn76iP3W0keIrmKKVilUUTVP+1Urjl6c+2PXFts1G3RGTzejXQA1fY3CamL4iRUcg2Fth0HF/powVhKJpBfjw73ZfCqdReLMNVH1MLdMrJcTln4iys3VdxGl0pSMsugZq/SHmZGRRW52eqsxuFRt1R1TT7N4DY6qGUWKFBoOGiWZmyN7JBeCtOxpQy04Nj1qqQbSweKRIBhhrk44XQc27g1hluEAgwKhG847r0mIxf/POEgWZslAgutJSCyQWCCxQGKBNgv0Q/b63OJIkI2fAQhsbR7uBkE/bc8aIWQtWBgsXp6m9UD2J87KR0b4UglfceTblxDNUrHWLFWzqcqwW00lexTLg7P7arFIcvJXnmiygZAZ231cg88E8IlwMBoVhbsrQ9U4lyxQAV5FNq1aUSsq9OfoEcrJdRLKf4JsRichMf0uWsCZ191DVI5gQRcQJjXjfuBtbkM3myHFBilc4lYLK8AyZdUmNBXCok087CB0t91UqyGESBUurVAG0U66niKdukQG354R2Sghcz+4aYXiX61SXjSco3U16mk+chrkh1NjhW9ee8tpx609YqXgrFqpMsAeg7Qv2fJkCOkRCJOrfBNU7vUwzFlrcc1TLeb2iecrrXm+lyk2Eve2G6/2b5zasdRlOYHMHGGZJqlROFtvMtOjmc7gXa6At5nejrnEyM457MB9VBypKtlZPRVMFkvbtm0rpkZZGApLfnCoSWpScS2sTas6qa+O0OD78kSmGplGMwuyr8vuvxSknk1znipkClNVlqIOr1welJoBfSOhlzU7MujF2KHFrkaQo+4yGWbNH+uIAOPuG70oQReVBdK7gKk7FwDD40R10SOU3H7Fy0StwarvSJFO6e1pF/6ZNmO+ksPaA2jbbZ23Q7rVtxE8f3sVh7tAns7uy1DMbqIuuEE4heiVJIlPLJBY4PVqgV1/GNAHzcAoAEx2v8Epj5NKJwDQN7lBAl6vbHZ4aMDBAiepa6c+gzwSlplboGut+ZFGGzFz4Qln3AKydUpn8G46naYMUpe7qQ3tEOMi25JLTFOmZ7itRFqXjNMIvWan4YCBZALBQ63cPjluCEjegmqjS+lMPZOtpHPlTOGGn93FJoNMnMgN4FgF2Tf4gC3zJJCPxqKJO7rscKN2LW9LzzmhrFAqLXbqZ0HZKDg/lGS6t6gK8I4iw+Qt/S2pzBOMBYHulN8FCJep1prSMfaep6gkFucDAlKPfEaAATnWx2OClvVUrZFNyzeCJbdwqITKNmhoI3rmMZ8XVJlWDqaci9IzGThFP2I6g0ZaUp/Qx0HsaNKId2m5g3J8J5kvrPUe+HRmu0BjZLguLzhkS3+F9aB8FiBwVI0N63NKw+sawPFM6JqamkKajRASWL9AqzxRK7HAPFuAnnFXAp2L9kck9ulOWe5qWzQxnNOL0QGNjY2F1/Bk7aIubcJ/bU/Eqoo+FHY4I/vWsGryCWPQSmk7jaQRGbtqbAmxyxYwk0p1eFIsXu8vO1UWIjXGCEtqnH0IY+4kEOgCjagVmHhy8213nX78G9cdPMINyt4l6oB1YwDxnqrmbqTCYU+sZaR0NEx3FFOga2dZYjGwOWzfipaIXQpZFrrimZaXjiJB/sxSFDidJKju58/bHEH2oLMGyD6Vc/Na6A7h9dkS+vVnARzt2oSA79Q/b4SuvvrqG264Qb/9yVoDHpTGwxOzV4MnLWF4ePiSSy45//zz+ZomCV9/5kpKlFggscBMLDBrNK2PMutf5Cnl0IZ2T7Es3XPJZiBIUgI8HNU/MTo6ql4++jdwAfH41GJCktMZWkBs6xnPGVNMzX+tL4lxSEgiXTCCM+goOsxQzjtjw4vJnzmzgNndEeENpdL15orRfqSvhC/Hp5UnivGaiJcYmS60IXsWuG/aPvnjW+449OC3sdfJaJaJIoWgySQB/PfcuJG/P5TTXbKXyVySFAeFVWJUtLh8AfTtbboXZzxlj6IA63NAb+aQkzsvKOogcgfAkRsFtIKMCwzP4Ra7uTGR8LDq1MH3Bt7oerPeqNUKMt1eCqaCOSbhdWwBxd+AcuoccL9ixQq89U899RQzcJYvX75lyxbaEq2OqxAwE9/VGszAgWdwcPDkk0+WVpqT/YiI9P39XRMmkYkFEgu8/iwwa2RvJtCnl3sGWVwXArbo+dt2lYQEPBO9noFt3MnJdBaQ6giHWILGFdBoHZHU1YKABCNMHjGEztNYpDEkxFxZwBk+dNi7OtA7hTkemkOE7gB54XjMcg7xXhQfJogSwgaDRLpKDOvdRUqcSfEJRIEb4IfQIJijwXzpRfc89tT9T552/GFDsiiSkbd472lgDZljF4F7J0p9hPPuKXSFMptIcVDYL0uMFn7nKY/dFDG2/qdkQMGA9UAlpsU3GmzqyNR/tmdBfGuMgZDYaUws9e0YZP0sIVSMSep8BpihQrPOUKFR5+OrLr9o3lRMSHL6urFAsVgEhSuyB4hDc9/hej/yyCMvvPBCvPUaQyRXCWD3rmXnEn768fHxY445ZmhoCIHg+wTWd7VVEplY4HVvgVkje/c0cs716GkqMSGGiJvLgYjQg2VsSsBK7wOtQINvERLT/wkdl56ct1tAbOkhHE450yOMQoQAUU3elljSepUopxGzXmrjTk522wJ+dXiVJtWEbGrKzO7T/iU/3pg7CZK0RfqZeaXQtkGdQ1ho8MXPwsh4rfrda285+rAL8SsDNQezuYCvpYL7ZXMS2d/K4XuZQA7VQ7yX0+6RlMXlKFIcHWZoZfTFM/7Qy7GrsVM/iaN7Dk7EGwoGb7LmllVDQHH3qtGBdWRqwHqqW4dYF+EUglOvMjpwkJ7tR/lYGOaU+Eppis9hsUa37X7uLi6J3bstoEhdITi7qdIwQOebN28+++yzQfadOB6s37XAIHuS4+9Xbz1z9AH6NNeuzElkYoHEAq9vC/R8hvUptj2W4PHpaZMYsxJ0RswjDFPRBYUPuz5ikkvTWADDqm2VT2mLMcKk+DFGdxLGnxDzYQE1OEc/aEZ+DDSRGmNE7NTiNbmeKq3JLT5GGJr3iWYq28gNl9ODDzz+zO0PT5QZjYPnJaWAUPk0UbQwlSgQB789dhObNci6T9FilziNxUhp2kJHl+jwtcbm3Dx7psTLPqIc8Nl3C32ykOF2uGyakZCbYy0TcmRXExsSTBbLOyf3tD27lSOJ2xMWAKzj5NJHIW1gZGSESaoshzVYzyVOFdP7t6dP69iAd+A0JJofbvsE1u+JykvySCywIC3Q8RibjZZ9HmAzEUN3prMG1YHVwxkxE0kJzzQW6FNTfS5NIzS5vNsW6GN8LnVetRgjVAU7NSKmWq/4GJtihVYkm+YNjG4vNotB4bpb7gTZg91x1AdptwG5AFyH5/cYnHeaxcoSO20p30HNiNP51DuShhHYh89z6OR4fPYC8TvCjHJxqeAE3EcC5FvAuO3x2pcr1WKJbzSpz363uuhIePJ34VoALA4Kx+OOioB49rfhsciEHNOYSwrZifHRvE8jhKvge4X4XLLkCZFYILHAr5sFej428BB0DTyNugbrZdSCxtPLoDDQB9EfyRYQ9EJu9sfevzdxr+LOWXzYY8uyKpGJARkg9ZFuFREj+iRJLs2lBdjagg3UMxneUHHUoSy0VYfeZVSiBny6+nPzrHG/tZ3KvJcoBlBtP4vUVD6bSVPCv6n9YmruXCVS7koNuUKp1hwcXVqqp3561/0337VlosH3noIqLQ7gScMTDaT5uTt47h32jPk77CNo2qwHETv1L/WhVawm174LOX7oBO2UcWS4cPDBB+NjZao9IFxWGnTkgZCOuO4R1mdC4JRlX86RRYuz+YGJUvlXzzzPnc6Wwb5KCf36tgD3ICBeJ9ZHPq+wGXJp5mWnORmztjw7hSBGb3M/0qc1L3jgtPjOVKwQ0KvKRirmAhk/XRy0bdzp66+5c2QMY/wQ8GipNRKxxBB8HqVNbOclYnwhsZIijbGTXy5OVVUSUiKju0rWSHj8LIj0BcbsZklMckylzoxQSeWjrabyjcBV6StkG62GcVouJhyV1Eowx+zMJWVTObBpdkgzOVxS2pg5hU318curbMlxoVmgJ7KfVtGutds1clpRCcMes0DXCvIjjTZij+n265ZRfwtztT/DTMylEpyk1kPaEsbk+4AAHj3N5QeqzXRuaHFqYPjGn905WQsm6m4b8Uw+YBa+hyFaaMIymB8ipnbstFeeMTY7NcJLGO7548WEJDuO5FlFy1bqmVS9WgGKyLwcDwDBFzvtFGIxPmcqk0tnstV6Y7JULVabm7eNs5k5oMZc+pYqIRILzNwC3MV6IwPLFCByqg7+XkL0KkdLCGQH9sVS6csBhZgcCbIfhoPj4D+uQjPXPzYAIFM4OSKNKUMQIEv4QZ84PhjVkNHOnTuJIXckEGl6khBpHBFrkZ0ESXSMQXJygZ+gbCqTLAwB66sShbZMf9JCdcr0Y5BPQDiBeI6Kd1Wm2o0cNVJ5EGvWg9BIX6ZP6+jOaV1XfchOGUhIcqxEDIRyqg4cYaYgmAg2SqppYaNefPlcUt2IRw7GRCDZkUrjSahJVA7lwmJcglllEu8LTOgFaIFdRPZ+1RrdSVBgi7TCd8bYpYTYZQv4VoX2T1WmxXQSMFhkjLnrqUYmx92xQMzgJop4DRoTne3WX0RZeqX97JSmu4fwjxpPQmKz+cHcwKJ7H33ivkfHxysBvh0+2hpkcg7cyxIZF/hrgueLEH1cfnacNqdIuRajCrHz2KnF+wTYAC9kIR8M5nN467PpTKVabjbk3QtsmoUe9dRPG6NdEj4iLPtmanIYeHyyBLnaSFcaQTXIPL/xlVcn5PXI/Fs0pl1y+rqyAO1KUSawjEDZaHIKZHuVUzsBuwrsY2pQDB1yVaU5qSIWNmAfaYGSKgE4SLxiQdisqcOpwokhcAkeUqEn8aBVlhloKiKJMW3hBHxz7OOzRwipNKHiVJQhifrjiacgBMyCWI44p7mKStCmlRK9jghEbRUOD6dWIhOCTIoAG1eJhCBrCB1UENlL+KuvvsolSoEEHXXY0EjzUltZci0FymAT5FM0TBSzPKLgh0c1sbTkAidHhMBDWhQza2t2HMkRTVSI6q/mNTkJsQAtMGtkTxslWEmUdnFhpF21SCXsSFrjMTkJsfsWiFlVT9XsKtwYLNJiYLBI00RjfB67lBBzYgGzsBpZT5Fs8T5tkbMltEO3VCrT9Nd4O/WfOtC1apkndq1RzxSG0oXhH1x/y/ZiwJtat6s2M+lcB0KHwOwUmTljYuadQG3Lw4rWlTA2iM5UerUVHy1v9VOBrxnI8EHhQjYYctsOppiQUxMM0SvHrvEayVOdHS5NPpEsx8VbX5OtfLK5gVHs/MyGV17cPAGyB+zAYMwJkVhgVhZQQEkPYPc1hCHRTlFwWqSCVx9Z2iQN4KCxgfYIdop8RYEcgYnkpehT5RggJgm0KePv5EM8GwThd+cqqVRbIvmMl+YCs95KlqkRmrUuPtaEevuoP15pLSNXMY7CWYpjBYeY9o6DB90IcFpCpBFQm3cOlI5LBBSjLGofrgKR4fdNaporwUcMIMzOSCAXYkiFEIPdKpl4LQXgG5vAo2MeCqXSOJKp0siB1qx1zICtLKiGnKrRUICCkAvvUtQ4mpyrymnyE2JhWmDWu15aMbRtabOLRXJqLQ+i9wDV0iXE7lpADO46Gv4K7fqU9lqQDsJVR5vDgBiCZW+nsUhjSIi5soBvYWRyqncK25pLEADofhzkQlutOQ452HPFYpTwhWv1SkyKr8qGjJx61S6RmovGhvd1s1HIZnixzFz6bCY3umTlY08+d9+jG1eduS+PDmaZZ5oZbWlOOfnYXHctwzzn5o+voU/3ki48bmNK/6bQhCSBMFokyOz2LoGC8YikyIsWDecz6VKjmuZNRiZ8se53gyrNj/HFyfetJDgXplMsvJrONWp8kCibHhis14Y2bt3y1PObjjnkDaoMMnsJDJMnfxILdLMALUex2ssvv7xp06aVK1fuu+++oGSwYDd2AYIkURCp+I+vZXFKOOKIIxQmAvXgAQWaBGCltk/g4Pbt2x955JGHH34YIA4NpFake+WVV5555pn440mlyFUVQxRwk7xQCeT6+OOPP/jgg88888wrr7yCNEXkbNJ/7rnnrlmzBmYdJyh45TR2XyAKxZAGG/IpKacofM8997z44ouIxQg62wedmQ70hje84fTTTz/66KOtLAiMybRLEORIl4tMM4UR5EKRf/nLX5IX3xoja7Y5QtSqVave/OY3v/GNb1y6dCk5ajF9mT4NNFfFiFSairvzzjuff/55hG/dulXLNTY2Rj3yXbOzzz578eLFOq8JyQQSwoNWVkEojNp6qmOeHTt2ANmxMNq+9NJLGzZs0CGBHtFz//33P/bYY0888URsqAkxLGkpDpYnreboa57QC8oC3W/vPirSRBRBWuuXmPZgMY6QcS3X7WhX2xMlZ7trATGsB6w45UyPan+tsq7210i7JIQDaRBCJ2GuLYBVqQ6xrfuZkR3wiy65TEO2HgpYwth1i28n8Ks753PErVc54tAxTj/HkcEBHu28j8WnXG2k0oURZtu/+cjLh1cEPNiZaC9A2LU6bV2R4Pn661QNhTs6bPGmvJ+xOMHdeexq7NRL0vsdZpO30uJBx6nG5ITJYi3NFphiKabCI68VVBrnnlifJD7UilhhSyE2lS8MlnDkN/gGWLaeypUrjV/86tlTj3sDu9prgHPPWNjXNaH3dgtom3nuuee++MUv/uxnP3v3u9/9O7/zO2DHXuUCtAGLQW8EeMDWn//853/84x//1m/91uGHHw7Oox2Cy1UCWBYECT+IEDj73//933fddRc5ggLhZDAAjgdlImrjxo0f+MAHFNYDeZFMJIgTGk6FibfffvvVV1997733Mh5ACDiSXMCgixYt4tLnPve54447DiFnnXUW8aTVosXuC1KRr8JflL/jjju+//3v33zzzWRn+aIwaVGewAjkH//xH1evXv3BD37MhMZkAABAAElEQVTw0ksv5daGDYZe9iEhRdas0UGRNMx0kl/72te++c1vQgC1KRTC4URV4PhXvvKVgw466OKLL37nO98Jocm7ZgE/5kWBF1544Vvf+tZ3v/tdLIBARKEYgUxJiAQAN7lTO4hl1MS4S6uGtOSOBQzZk4rkpJpw4dZbb8WeDz30EKrCprswIZBUmgu1iQ5YDIh/xRVX6MgHw1IiZMJppe5ahCRyIVhg1sgepf17yae1PMS0iPCx65LoY8xdk1TKlBzn1AIYNjK/yNUTjtqVGGF5+txy1V2wSCOMPyHm1QJi8Kj+rMr659irjvx4pd0xXsUI9zk5JV9i9CiDgFqlwMeZsplyucYU8MLg8BPrn7vl9ocPuuxNWRz5znPvoH1KvjW3B+9qU9IU7mqoWOk4tRhHeJ3VzLRftWL52JLRjRNbU3nx3kk1he/KnOjIdF2VsUj2FcJUmrfbGR9Lg+kh5ZjOD2Ybw488+as7712x9txjkCu5uJpSwuQkRGKBmVgAVz34GNROiwU79kmiIBvAR6sDIwL74AfP4dm1tgewU6TIkUh84X/xF39xww03kMWyZcvwJeOrBr+SlsEAzASGFm95y1s0X4Wk0CBFlQnE/M///E/GD7/4xS9wol922WX4jIGzeKZJi/8b1zK5PProox/72McAx3/0R39EXl3vC1Cs4nLw9J/+6Z/eeOONFPmwww5jQE5ALB50yggb4wec9wxFwK+oh8zvfe97DHt4saADgz5W0ksoAMFnxQDKf/mXf8lAYsmSJRdccAHfD0Ym+nN87LHHyEVfRHzpS1+67bbbPvShD11yySW9hOt4gBHOZz7zGabxgNdx9kMcddRReOixLaMjhi6MlNavX8/7BwYA//Zv/3b99dd//OMfZ9hGZenYDLtRcK0mjKwoHxt+6lOfwpi0B9RjpLTffvuhJCD+TW96E1kD6DELvnwk85aA8NnPfvaWW25573vfS7m05cCjYnsVIYlfCBbYFWSP3mweAUZgtmgzja+PD1FKjB5xa0Gzg5vEBHyvkam4Ml5sptLykUUh5Mj1tPzaH6d6yV1PDrO3AHZuzZIMk8u8YXkZZ/1yTKx2T7HI5HRuLCDG1wmpcgtI6JzGrTFyu/CcA+GFjmatl161psJgDr8cJRXPVBuiw4xEmgwTuMF4/PCfhhHeXXJH8k7Z3cGSRO9lkjJThynfTrSkEX90fcf4dh6ilRpbrbOOqjA1sS1IDd7y83vfd+mbWEmapVlRJA5yo0vYA3dwrDHHTp0W4YH+J53C/lISehuWvWFlKT6r2gRXO1vRh1ka0V67MYlqlQh+8Vfl6C6XjaVGh2SaL/bhWSiLBiWbLNvbhx0a+FzegIggF1ri9VyPzv7GwHqGKvllWHTXYE5/PptZ/MyGl+5+6In3nHtM3enJGxL3fsTd4OGUHgqCBJGPqnrnu8xancAMqqO7eqpZcnwdWAAUCzSkxUIQ+pdIGzbuW3ChcuLBxdULZuUUGnin0Fk5ORJDPOgQ5zHwfe3ataBzmMHH3AhATIjTTjuNGPUES8fibh8uQQPBcU5/4QtfIAsgL45zhOAhhh82kpx33nlgWcAxMB0H/E9/+lOKwysIZUAChAVkQpMj6JN5LIB4kDFgGuTKSMPXHDbu39/93d9lwIBMXmjgv/+TP/mTD3/4w7jAsYDJjBEogxzyBS6jHkOaP/uzPwMrn3TSSeeeey5H3gCQBOXhPOWUU7A5Q5cHHnjg29/+Nm8PeEUAer7qqqtiYvUUsWSNtOOPP54BCciemUhqT+NX63FKMRlUXHPNNdddd93f//3fg+nf9773UWTsoyMf5URPxKIGeJ1LQHmQOkZm9AWNoQgm3Ignn3ySWUDIJ1A7FPmiiy7iKhbWcYJxJsQCtEBPZE9TIPga00rEqQROdzM1eFhyWY4O1odHnjMu3o5pnFNyJ2dICmqoBak6aIIbG2kcG0zUddiDnFov9v1sE7rNAjz5Hf7jRuUmY8G79J70wq05j/Kk159Vn963ehpGOneDM3oIYASjyXdyFM64PKUF6H3f7c5vUys56WUBTIhZ5b1tvlRrMIWDx4nUnLt75HZxN4KOvRqsQ8XUemsJXONWcXeFcFvFhTVEwkyzMZhPV8uVIFsosgNxOpfJZ/nIUQFkSBsAcsoAG9kIkRE352x9J0BUcKeiTxlMEN9gCRnjhKYAYT60yv0JD/9HlhSqzVK1ORiwzzqPy9RIdqDxyo4tX//2nR+8/JSBTDBVrdAlFNLDstyzwtYxkaK9DDKzeGu71gupoUjNI9WsJ2fuKxh+u/VyaNQwHE270aTwYgkO8ks1eF3OxPZaI4OLvJnl050YwcFjYQGQYAcxhXspwXyZdKbGzZFP5xflg/32WVp64MmRpQds3rZj2dIxxkkkzui+IIwb3NuLJmYm61RG/vCjETCCkE9RSS4YloBi8qkDkLyr5AyzfepT1ECFf43UyMq1Dz+15Vs/uvfKt58wmKWzDHLcolKP9aBOP+rGdGxPRBNKBbxOkf6AlQAyoHDLmyWj+H0bWTX6KzwE7R+UTo4LwgKANjoN12/IMxosRcy0cBN+RWkwaxIAN4QCZeQotO1TQmmWNDMvkClg0fVaMoWGK5oLbEqQF5GcnnDCCW9/+9stqWlrhCZXZkX50P/1X/8F2MXZ/5GPfOTCCy/El+yzMWwgaySsW7cOmIvT+u/+7u+A4Li0P/nJT4JfdeYPcFM1pPhowikJUY+rQGTmi1MEU8wKqAgVdziSzznnnC9/+cvA9K9+9atY6T3veQ9sxklakDECuYR6OukcW/3whz/8+te/jnAK/q53vQs5qgb8MMOpHnReFLzjHe848MADgezXXnvtv/7rvzLeYPI9bOig4yLMiPKqEpZkgMRVRjsMSGKVYlphlrPPPpsXEVgPtdHk1FNPZRiAWUirLUHrSDMiIUl4ycB4RoXoEZ01X9gsMK4gsAKBGgHcM+YhI4YZCOxktlQJsUAsMLs+nRaG3uF979Eaw1GaoCtZyCOPHX5hLgwL3A/Iol601iUSkdI9XBeIZRa2GoAxM3EfTSPLG4vWYK9T4qMKDFli/JYwIWZqAXebtDOHM9pbtpWbRiF+WKl2yQiVoKcclZDIBkvK+HZJkacIvXa1JvND0hlcbvJogc0dgYPUrKx7E3wJxBc03HmUV20i0mkRHd2QnIe4vHPL1FK5erpQTw/cfNtdL2+rTDRAyMPZ3CAZ1BpBtuf0VNF0jkJoPZPWMoVFRYTrjAT4SqnFu8CbBemLiImGR/KugV8riDtczvnPj3KFnRLDgsoEXdRgJlixZMnKpUsmJybkCYp5sKq8voQQdno8C6qbZNdw35eNLmi8s7BUBFq50Rz6MeWeKgSgYepCNT3yk9sf/PmDz7G3fTUVbBkv66cE6lPFoFoOalWGAlpdsnUPiJ5Ph0WaqxYdPSq2CNuY00Vyj5RK/i4gC4DzgJIgVO5f0CGacXcDAWk5XQOIE3esgjllhjaIvIAK5lRRWE8ZccMzlRykiA/7jDPOAAGjs8FNSqo4khhMQbj88sv/8A//EDf/fffdxywRRdjEIxUhhNmWFCOThIxA0szeYRiAp5+pQUxGJ1NyN6TOKVUAM8pDcMQN/4Mf/IAjE4Tw9APruarjHCUQriMK9CSGwQkTjZi2znQXZt4jnDoiawYhHFFeCwInaF6nD0Fw2j8A5fGmn3zyybwZYNjQn3m2Vw899FBKB8SnLIzBKIi1sdmKSvj3pAVm2q3T8gimWVfaIo0w/oSYbwv4Nof2TzVri+lDdFVSZHlV35UniZyJBdSMvY4qQWztrB0j9DQWCRAvlkviknYIjkeF26QSN32NTYp5JsmTibdk7gc0FxDbI5A7V0yHVnGauIvlwSmjcnExiwe8mck+9dyGH/74ZpZcVQUapivlWk5n3bVSzgulSvrHabPREvtsGtNDSI8uUXyZIW44et2Rgyw+YOOgfNa9AUjzHlJ/DLipFCItU0cQDfR3I6sedlZlUBIAwbNTQzOTe/bl7V+75oZfvRIADfKLCkB8dsbMDC0O8rxFKYjtGzVc+Jl6g9nTvEJxlQD+aP0aQc5+LM+1n3tx1KOwvrES+rWwAM5a9a9zC4P8UAEC5Efz6BqY+GG40PS1RmUxC4EA+9qQA7DIHHc8zUzj1jknIEgF0ygPoUVQuMwpCZmxg4Oc+es/+tGPmF6iJdIkmGi2BcRopAWpc8fhnGbBAJCaWezMdAcoE6kCUQMay3MKTSpGWaB/1vvi1f7oRz/KhHUuIcpGF1Sf1ghHJWDAGc+cpX322YdFBQxOEKiaW0aaBZxUutY7tEVCx4Jahn1sWFiMKGYrxRh285QlE0woYu0Bax5YJIBlKKBWym5KTpLPqwV69uxUngayhzAlLFJj9JIfacx+pCVPiPmzgFl+VlVjqfz6ssj50/bXSrLZttOwfozPpvEaEzvyAItiUpPlSiZXAAziQypOTTQqRbZar5aK4mtiu0qB9w7fM9GngdtZUH6UNv7XbzbQ7jKIlATyVSp5qAkslO+vNjK5sRWrr/nhTS9tFQ8wvQNzUYC99BO+Q3heqxj1TH68JO3nxqaF6nfqvPU+gyuOgwvA9bx47AhHrh0oZNOFTLNels891ptsbg+mEEAv+N0dhZZNb9BS3OoyiU5+4ZetEGL6q7JOsBx4imvgYd/M5JuDyx5Y//Ln/vnbj74YbJqSLwmMg+SzuSAl+46Kx52KqVcb1WK6XmUE5gYfzO6Rn8nsSqBZy4JdOZLI184CTG3XOxfIrrCPhZgARO79rgG/PlNugJuobC2KhvTalaB7zgB3LQ6q4u1mjjtzVJjXDp7WBJROwTFHDcSrz1vfWoCYcduDwlluS3KgLYbSkmKr7rn2jqXbRCWuky9Hpsgzzwc4y7R7ZpkTgw561YwJQY6sLsVBTlk+8YlPMFsdNQicql8fBmoBmSqcSK1N0trsIAYPJKFOtXQww0NeBL9z0JheR5JrKtzqzMlhtTEvBHox70K8moX3DMyDgmZDUoSYersgMEmyZywwTe9vtah16dcotH+q6lqMEXumGEkuanCOFqzuuhJqMZg7CY3sKkeZk+MsLBBZ2E/iW1jj1dqO1hUo9J6tH3gPMO/wfCuSUzB7k+kxzLFmCmi1xnztRr02Ob69yUTtWrnO+3zOmU5eZxa9ThuZ5kmviqFGSMgklnzos8dhn64HmUY9m27kCiPL9t1RSn/tmz/kqbhzssmmx5XyRC7FjNtZu818y8yE9mwlehL6p1IGxyicdmqp3CU7gxAr8Z8f/WPYRTKj3T12Nf5N6w6b2vFqszYFkhfYHv7C1yMMn4D1TiwPeOA9PxbIMqEG44h9VAefgCbw4CeADxTTpDL59Oiq6vCq+5/e9Jf/+F8PrC9umATWB8A3JtaXy3y9xumUyfIqRSbnNFlW0FJblW8dKb3/I79pLOd0Sg6vhQXAgmxHwxbmBL5LyvwTMCIzpMFtXQOgdv369eobBoHRiqR6p7s19nzJ0I22zTgEh7RC20MOOYRNWmwlgLnz0Y1SKDKGWfGrurFZ+sm0eCyDF5lNIZHJLUNhOc62RGTn7tMmhObFYt9zzz2XkRXAnQlOMYEwM7TA2jjsWdSLP5sFvjBTXwRj1vsX4I5uKpYYrRSGAWyeg9ue1w5sVkMSeDiSXMvIURMSD6GRJjlGqIkYn+BT5z0PSXgHEuPZnVM1KVOVEI4cBmMctSC7IzZJO98WkPfsXYPfKThaXH1wcqRe9agJNd4XYjFG+FcTep4sINaW/jwMnNK965EoR3Tv7iWhC0aEInpH+gwJPRMLYFsxrx696iCtxEfeNaFd0LsMUgmLjxE59qspVWqVMjNDVi1bPjk5vvHFjYWxxY0ayzTZ64b1nLzBx/Ukq2JxGoMAuwYTy1WjHT6VrzEBHOsslwGZkp5Glc5OVurL91v745vuPu/Ms05+4wiPJoYVTLaPgGXXTOYgEt0iU7WatK+znwfm1oeQlUivutPWuwtLIstfPbQbgwlsX8PCPJiZ5f72c07/xnd+MLxkWZlP0co0J8wqPxzzVKAuooVTrOV6Sx7fjiDOedVdlqaVEZIkCgJW0tktU6X9DzvmV4888PzWqX//1o8uPPvkM4/f/4DFso9RfjBfqzLwctnkUMxVrSsD+TK5v1ddu8yTw4K2AN5odmAEFLKWA3xJowBaAfF1ik6n6viwWVfKgk6WOQIilYHkPtzsTLXnY1QfYDSvIJ5++mmQKMtbdZ97U4bbQcEutwAFB0ZrqcG4WjSc3Oeffz4b2tx9993YRP39gGDY/FvJBPYnGC2QFsUYKrCzJMKZtn7TTTch/IknnmD+DMnlZnRaqQIgaZA9PnLmzTOa0gEVbGjr58WpDgMojkJkhBDJBB5y5M0ALvaDDz6YyfSqgAqHAYHKb5J9sTFax0IcyYvjLry4iAn0T1VhlKH5MYAhWFl8toReaBboiexRlErVEFOaSGvBPq1sxHhEW0OPyUlO59wCsfrSurA6MsLPV3mIkavRBYkMqzGKSv7uqgUE8UU3RacMueQGYHpUq3N/aRIjfAlKc5QKa2TwECO2XikfsM/KXG7Vto0vVSZ3pHN8CCbLRG3xEzNXRoAeQuGcpl4tIxXvHPY4hsGsfAoetxjYPt1o5iaqlaWFpZVgy/euvemYIy5B6HC+UK+XMrJby54Iop6zkpmoa65WHL3KqbRsa+guViKdVcI/niCPMZ0dkI1BiKHTPPyg4OD9Vuxg7lNmgPk2TFmiDmVUIIIAAXIKMyMi/gi+Z5WCy0IY3WsAy8sIy5YSKZKoBRm+WrVp68Sy1QfvePkFmXN/9fc3vPCmk44+7Ph1KxYPBAO8JUE4O5J63krV2dPcBCfEXmMBZpDj2GaLdPAfAB24yVpMAGUvqMfkFrAybn52X1EcTFEVHS6oMtO2KQUAlHkdYFCKw+4uaEgZ0ZYAcISGDZjLraFgV4vAKYFLOPjZpIWp7finAce6dNVKPavyYjTGFeRLpsB6/SwUMexd85Of/IQJOYrsyVR950BwVCJTQD8LA1gUSylsbGB6woxAjmjFmIHkXKLg0CRHODlSFoYlag1l0MJyyYrg0xbpEzokIAZOkmM93RjH59kdmnaFtSkLNkE49LQq7U52Sdq5skA/ZD9tHnqbdWXjUtf4JPI1sUCfmlJ9/PoyWlK9Jur+emRqdrYqMGuL5d3DwAjjaSOaaebZDxTy6Wa9uHPHkkUDBx+w4pF78hs2bhxespJnR52NMbkTBXOKRA4Zy6OvkSWVBJ4xbjyQqjpsWie5fIUC931+eLw0ObrygCfXv3T7fS+dd9J+ZXJgE9uWS7pvBrtx0RWlVYzYaR/BUqhWuh6MMLj9cyi5vCO3wBTYDJ/VBHTkFw8GO+vBiUcdft0dD2UGRpmBxPAJmzDxhtntzLBHhprBVaNA76g7jGcf2TnMRivd8mQ0tnTZsq1bt2cL2cXL9inv2MyMq+tvuwdU9M4Lzjv2qP/P3nuAWXZU97775NBxsiZoNKMsjUYZCSShLBAggxD2I9kYRLCxcfrevd/z4/I5++Jwv2c/22D7XV9fY8BCGASSEBJCQjmMUEQ55zQjTexw8nm/f629q3ef0N2nZyRmRqemZ5/aVatWrVpVu+pftVfVPvigFTpis94M8s6sHu506OEUIpxIII7nZ554sXRi5+w6aWHQv33jNQCg5LOvwCkgPvYbgCogILjK8GV7/kwDIMYY2gNckkBsYLGd/ucYYmvMjz/++IsvvshK8L777oswtHxr/ABHD4WRH2QJbqYsBqkJYTKAKkDhJIQDNkhGAxMAaK/lRWlMn5g1kTvJefXBYfNr1qyBOWJgyk+ORCEVj6rJRkbPPPMMxFjUIJsp3PIlkFgkxBFiJSLEOwLhgwaQH0t9yoUjBHomb9QvlNzifBKYtPPxsQiJH4VAAxPKgkj+LYcnm7fHRLKGZEpAthnkmXdG/YS7VgM9I/t4m4uL0i2chqs1JbcE2Y0mzqfvn1kD4UNFX5CSuS09hTo71zOqd3Q9pPTMf/UOUx1EC1sXqzDzxK8tlP3bndQATwDVRKefLCTLnAuR0p6nlHvR7J4O8BgPiFbFsaVPcKq5c75vNw+DSxjsXgpTX3IKStKb55qV8sT22uSOYw9bcteaFZteeaFZHmtmBrdte33RPquqfEiCE1XcJ2NYSCINLcWc+blKko6Oblxnp+vPrUCrieklQCa9bcs2BGal6Pqb7zrmiBVL+X4Tw58MWuQYbBjzyAXODAkdec8l0Aoq8bAeZhSU3qY1WrIINdHGTsWGupMDKMDM7ftV2bXhjTKakqMUJrS7o8iMoLxbz2AAA9eBVPDRC9571XU3JWqTYP5akBwcGalUa/lsHsNYVA3aRqnwTNszGdUfGyI6iROWyKJMZq7sk+VE0+FiQV8KYKlyYLhRm0hmB7dMVv6/b16yep+FJ514/DmnHbdiUcCxiOSYTQQckpdo6Hxxmhzl0rQs1ACfMNC23ilrIEmXYkO0gh1qMUpS0VY9QOwobT/wjdYAZtOcd069YIZOXgatesqUh243rERfEPoHrIw41MWwKc3Vly5qsWrDFk5ZbD5gNPhppdi4c/Dl008/jZ9wnmjPoSePP1mSx5aEaJ4r+3oBtZzjDnMk1CDr+k+igOCs2SM/X9hFMAi44ogyDnhwvhRUotGAufGTEIdZC6XgatAZ4T2sJyFkxoEnET/16MG6FZbseL3AjguKDzdimSkxCUQA3kKYSp0UO3shd+RBVJtZGTsL3FnW/fRvpAZ6Q/ZqcNGw16/dN7Je5s87XkftXPq11q6Tn1eIairmVDWx23av0bek4jNH+XR+cvOWoFYe27xxINj/Ex8+6babb6hONAujxUI+y7HrqVyRA9gYAFjcKhZkUuKZ2CjiB6H2TN2yPQMna1Z69PkDIUJWrdfyQyMDmWDHpuceevK562598ANnr8unCsRVJicZYBiSjS2DIh7zd+Lfc5gUFcPrLbfd2ImsW1yncFdSIiiQymuOCqNUNY4ISgQLB5LHrz/k+kdfLSzdl4Pkg2otnUpWShMcVRSJxGDPaZjODsdM8Zk66BthEbs5/HKCKRMZ1+uq2HzqDOZUR3ow/epE41uXXfvdy3988tvfdv77z1qznK+GBchWZGBPaMcDayqg+YymWjBhVZ+JV6NWKnHUUZJzfpBODZACCVR5lQIadkNEOAdV9Un2AA0ATOkZWIwA1NJOeclg2L1X0eGDeT1tlbMpbdEdbvMG9+25s4rPU8DGZboyejAyMmxNvjgwNGKD7M3En641PvGAG0mMEtt98Dc7CthuC/jGfIht0JQdmxneD8DcXji4hzqcnFAQstN6jftECdzgz+PJCZtYB/EagcV+mPCWhiiImWkwOWFiwEyJyQMe5gOEtxeqH/LW0cBckT0tj6Uqrxfu/EgQ93uCvudN1oBVkKujzsDBV5P3vMkS9rOLa8BqwV0dzo6gKiFmDRInll8E9uZLH11iFUi3wmOcdznJ2epA9kyjPDYeLB8M3nvWO7/7w2uDVC4zuGjrxFg+mWJrFal0hIqbTpDMPI7xlL8lU+FB15qES1m2Zk2eX7oBvVsAEzbr2PHnC69PTNz00wePOnrd2sVaEWZ0gT9jGwMMQxfO9xUt/Odxi9iI5K4Sey6cIcPF82q5jUe5mQwBQvOu6B7Wc6dlObYlc/gnN0uGg3efftLND30rUavwHdlmrZRKFCZL5UGQPS/Y9ZKDVXGcahR6Zdrb5ELAPONOwefdiF7pUPJkmuX1OtpPsnbImUSD5Xrt0mtv+9HNd7IT8ZxTjj/t6GEspiZrTDSa+Wwil0xxEH6Nk3QalYF8nvcdmTyrjECgKga/KoxzXo3UGgHzA1vGqn/ta2BmDfAgAGdBrrQ6DFpmJu4WCxOMlGiuoGRrtFACiLvR9xoOPgZYkwtL4+BmRDXmXAHNfM2Kbg3oT0HgDKQGxwP9IebE96eeeuqxxx7jyqwDux2S4ODGlgmsjzCyB9az0Rk/r2V41pAfbiY/t7CC3t4kMCu47777fvrTn37729+mpMSyj4KCr1mzBgLmBlzpZpmHkPv9998P6PfPcq9F7tPvTRroiuxp0+YoLZ5wmAv9Uws8RNGSHEEHtTCU+YQdovtBb5gGrO4MA1Fp9rRbZZFnt/p6w8TpM+6qAdWFg5BhvWhFdxoMtZT2lFm1WvVxxaxbGK1cXpDP1bZsHMqn3IJ88Cu/dMpd9z7w2Iuv5TPFFJ+MxVRnfIetAPm0fgAgpPsjjLWNOw4HI5sGMwo+xyTpWHfmg7fbxsdTyfrAyHBje+mRZ1+59a4n9n33gQBhdxaP2hhLTQxFPqOuKphXhIltSa1Q7Wxc/zMtWJSRtqdFuBuE1zL7VISH9RjW8IFYtg43BIeZ8DT1Lajj1x96+EEH3P/sxnR+gB1/2M4wxdJZpCBoQAZgnCfQVScn3gt0kL1k6lC/U3nGfEyk3GE7aJ26Zm09rY8HKygjoJ9LJRuYdTWGigsqpcmb7rz/tg23r1mYOfn4I4477tj9Vi8bzev8e/LlmznMR1jiq0xWmN3lMzleLADh4YWQtCB42yIfkMIMAAxqxGTpe/sa2DUaoLHRzGh1IFozUAHL0lH0xB0mZqOCByY0WnjCpFtX0BNziGEFf6zw2ZTMIZXw5wGBOdlxBcpjtAN8Z/Ee8A2aZ+sLZjDsiAV/Iwngm+/pcjo+5kYwYWkfw3oCcQB64DhX+CA5xMbWMuVqyB79cPgPB4Ny0CTzB6A8kwEOrcdMCFYkB80jEkCfK1IB65GENwNMmeDZa3n79HuZBroie19Omh1+Xd1SmR/3LJwm5Sn7np+jBqyCrKasasxvIhFiNeU9P0dR+1n7SnHVoTs8AL4ZniURtDv3opY9XEF1bHz7lkR1culAsGM8GB0I3nP2aS9cdCmHYOZGipVGY3JsHODJqMHqffszC+P2QEnl1q6x5tDbASzcG2wC4PRL/vPKoJrlk6cJzmlPsEK8baz841vuO+f0A0kznA6PuTDLUfgwhPc6ckspXRzSEuPbs/d3IXd9l2m4rRPrmATusYpQXgTwwx8DfDaT1Q2uGewzGpxz2skP/OvFjUns1bOYteczBT4swCYECZkEBACfI3LtQmDZvadBl6lFg4kExx/p9UkyzZShDnppJLbt2Lpk4QJg+rYtm5m5sRqYaQ5Pbtv83NbtG6+79wc3/mz5siVHrDv0kAPWrN13xeqVQWkyGMwHhQJbbWWo42C9QD92O24rRDiHQasG8V0J+5e+BnaxBgx0Al6tz7Fbe6J7yomGiiMJrDy3njjMTOz5Wy6eGFHpypj3guP/7u/+DpMYIDhzANA/m27Z9wya50UEUJ4VesKB43SD+G2qTHJcC/ImCwLJAg89DJRMGDh28ytf+Qpg/Ygjjnjve9/LpgLYMjGADOL27hSemOWwco82vLR9z1tWA12RvTU104vzh40PvzVE3+LjlC16nPvqVEvC/u08NEBFOIXHYInrBWzyZRUHW6svX33zyKifZOc14KsjrJFohmy105G/RXH1TngP6NhsTIztWDg8UCtP8E2khQMBX2I89eTDrt9w752PvZht1PheqgaNQEYYvEPWqfax7Ly/PVOaE3CUgUJn2fPgu6sgbSOoNEvZXBKLmx2TJSw8MoOLH3jspcuufPLXzz8gHaTNJhWGNui2j0Ptec0xhLJHsqsle+Hxt3PQZMlRt8S23MYSetiNR8dceOeM0XWSTPh0kVulnMnl3nHc/pdes/LFlzY2qxWUlckNlGpY5XJIEAsh/Ag9a1Ek6aze3ScFNEVoc74gbTEKIDYZpHkVQIlZaK8nE6vXHrz5tY2lbePs2c1m85OlCeKGFy8b256vp1MU/LnNlWeuv/vqG+9auc+i/VevXL5kwVGHH3zogTq5kwrlhQNrpOw5HM3IVLdjpv3AvgZ2uQZoyfQJ4FfDx3QUhOB6zQggS29G02XVAHhtkLdXJjPQwxb+rM1ztiZ+0LZfnsADUscShs3NJ5xwwtq1a22XMy9FWYwnipV4zxkmiIojhG4HZ34KjgclWNlND8wEyIhV/4svvviiiy7CRv/Tn/70Bz7wATvW0/PEgww4uKEBx1UdHQzJmpB56DPOvO/fCzTQFdlTNmsxXFvKSYhvOnF/C1n/9ueoAas7gQpXj1Zf/cr6OdZIt6ypFICfv7q5WTdaR+YiRR/VLKNCLmiwhSqXTmx9fWL50iKgbelQcOopJz2/5SebJydTYL9MtllnKR0OrP9OvbOmYRgr/0RPy5uPT4kAixwBwVRDdvYMKw6gsuqGjQnfaWqMDI8kK41t440rrrr+AyetPmBphiHK8+nM2UfP14PYJrwvQkdOVjofxa2KMEcgQVkjSpa2BYgz6jCbtUqCXaiJBjf7LArOOPnk711x5XhpMp3JN2rMqnixgdUMUyIyEhZXjppOxdh5gWbxsEavAzU1QRA4IFOqQAB/46bX05nMwNBQo15p1ut6PcKbmUo9NbBsslJjHpHJYUBVK9cmH39u60OPPZ9N1UeLuWWLR9auXnn0+kPXr1vLCwcg/dhEbaQYjgJgBYMdZnswi2j96L4GetcADYzmTP8ACCY1O0G5zqOLIAnbW+FmB1b2LsgsKTCAwZELCJ6pSLyT4VhMLF5YVv+t3/qtX/zFX2xhZPMWKxSpbNpsCxzc2vNlGognJMovf2CE873vfY/Sfe5zn/vMZz6D2Q+S2GyBB9M4c7U+FlbGk3mF5UKUhcT59/1vNQ3MhOy76cIGKK7ABHsofQjjYNwPicyGtWLFgGR3vExmiMRCWIc31BNp3gvrFGg3grr1LdG18Inz3Jv8KruKi35UZLs6DaIiC3a/XS7QewdskAqdGoUE8AIo3C1+Qug7PHE3D3gE0GDf1ASJqPYcE8AEtcWhYs7ImL2YYmAi4tmja6SbKghv1xcltfoC5jqcFlYT4fjC6ptSTLx+OuTjFsMJD8lkqeFMNVC8qX3aFT0jkFWHNmiSpZ6+epND2dLFweFNLz+ayR5cHCwSk6wH2VRw6tv2u/PeJRsefJqTDpvNgXIN/MdoqpEVMxqOOhROT1Kn+tRsixN/X8XCtDQH8D0ZW+UH6WSq2qxl0zl9uCqZHpscG1qy/NXXnrz06ht+5fzTFgyyliYZ/EhG2VyrCfMx9hJVB8DHVB2TxPQZT0b7RPMtjbnldnpB3Ie1LONmoj5VNRGViiZnuWhhPeyKCBN2j4umenLigYA5BgdTXFKxOnfKMQfccK1W2rCV4XU4Q67sldBxUOP7VPoOAMlYxncP4CxtwmpZ9SznhFPXSE03EEzPsBoHOgcH8MKk3uDE2yTbmFOcrsmcLU0jyevom2RQqZRKk+VCNl8YLtQz+UIxs318+9ir489teuTKG++olMdXLNvn8ANW/8JZJxywatmyxTkE4wRTMkPuRjqDAKZ/u0oagmK1E4WECtStXFg+k597JiZROwqj4mRhOV1QeGnJIh7V9+8VGqAVs4XUtn6Cj2d8fmcqMPtTeRJZrQfcQweu3YWI1sxsgPVkwbOGkLZsj/Cc53PsscfefffdZAfUZmEFASDT4+mwe1wMwklLSDxQazEcaaCXZuGKvsF0ioDJPkd5shP3zDPP5CPEzNgJBNazZwkaZDCNEIgjO8uXLGCFI9bPEIyyf31raqArsnetVBfQA6qh6TCmu4OPQSDh5jAhA2K1ghfiA0Lwx688cfTyVftiTlBLYSaaZBRKNdOsDwEiC+zx0jDQCPLpcOBgKGAQ2EOvDPYtGjBtaLycXi4oq4lgXPBM35fhDTrHUddLfHiI8VkH1knt0UgZjneC7ygcgNkIBC4g1I49eg1hLs209LUgxn5zqjZRS8EtTjFtjuyoDs49SWTq5fEdBdUIwDGbKQ4TjgzgWhZjOfIvZOnEainX7ll3qpfp+jc5VarImdfrhYrDueYfUlD8MS3JoqZGUeBHKyjNRG6irmNnSI5Zg6CMdEtFAQ35dRGqGzm647pepWKsIYwannCjXLTCS0qeDDBcuw6pZ9oVlVtH9e4qP4fTpJK1RmWcESJTmASrp1QzGMAj6prh4AOnHvvcM0+/PL4jMzQyUU/VUznwvSNhjQgAKDMbHGI2ahoVQIy6KtiUwfq0m8uAVV0kgxQEtBAdZM8hLTUBV/bCpQuFUr1aWLDgm1fccPa7z8oNOoBcC2jLlfIkJ/PQKGFEFeDIIyWvOAukhllJZ3KugSsb0ycbUhk1s4kyZkUoEOWTp2YeWg7nKuzsasqlmHZBU3wHkizYF5DU7l/1YNxz9DsFrVc5A5ItA1grBemMTarUn0XORAjvtDoRuXSuIKTtUgzUg2NXBx865+R//c4PeQ4bNZ7LFA9jvTqZpK9T8ZCYJybDh2KpXarfhDZmSB/KHhXBJgChLtyCvYlk7TepJ5/IOi/h0SL1rZcw6mDrMtfhbUG9mqT/YPKWC4ayQxS3KqC+YEuJg/BHuVXtjYzS3F5uBK88+tqVP/33VKOycp9lbz/h2BOPO2bVPvmhfMAiPueZAj2QndZeLdFmq5y9BGpA+nKZTwHUcpmsao7y8EeDddpQ3TWTNJkaZ/kw22DfrhYEeEzQnv1JepXdNaSwG9G9axym46kqsIj+dac0APrEWedj+BLYami4na+GEgeRjRICPKRtp5xfiH2PyeQB37Pvk0eA2zhm9TkSxeo4y94GfOk3DbbCBA+zAlJhyG6I1gvcq2CmGRgyOceWhgVyGD788MNczzvvPGQDiCMDeUFDIBkhD8KDwhEP9E+ORKE3nzVJILMkPtB7DNZzayv6PpwkvBC4+eabKeCv//qvWyyBGAWRnSfDQ6DdkgXyoyiUY9MADTGRouJJzA8xriWc5C0h/ds9XQNdkb0vWLwdyO96cEAGXbjmjBooRNvtajFRU4JKYIhWWWEEyuZe3VZ9ZSJVYFyoBIOYFNSCsvvEi89913uEBnpx0cg7xzTCX52cPYn+mTJPLRFUHBjEMroxXt53Sa6YywIaGtVKMhPaMwjKGMNIiXYXBrobLyMeV0egnk5CqNLUC3SOc6FgHmoYQ0j6Dh2fjUtnX9q4eWNpGCyRY0LRxCpD8xDtokRUhwVnYLizUb3WV5f8vObj8dSVARIC1bSlvRB4hLDeUUcK0/EoY5Vg+SKODGdWWgLfUjdUkFu99YzdZAodd6kCTycP+EZgCGr+bGBQxXZ7mghnBiBygB5XpSEbpOYkRP44O0WBsOCvXAlOOnbFjbfv99wt95eTr6eKS8Bb5MfkT/MVzQAB+XI2fVFacSIPBVs7MT2IBiSuGGMvSi1ECyqLky7JRLWZzhZHfnj9HR+74MRBwKzrXYD1DDa8h1ZS5yLFONkJ4d6JbeHOqwASWDNGBk07IDSySDYXNiWq3bZdtWaO0xUFy89/K7WqzuilA8VMhbjwKZmNLLyKVBWH5FkaQIXjL9dfc8tPH3759Xp6sJhZ+PqWzRww7fKjjNBRAgx0NFFWUpe9qdcr3wWHdWoCE2LFj9RFgFqI1YgmKZETQSKlKZ8cqgpnB9KvzIFUimY6D7iTxznzIHtzhA981l+YqF189Yb//OGNS0YHjzni0OPWHcxnsFYuGdhnofB9Og+ip62zLKq65iz8bIKdtyq+NEZkGEe7YsaapN4p6pR8UE45UwAJXfKp8L7vDdEAjx7gD+f6cxmHENICKN+QjLsw9YvQa9aswc4EoMx5Muw3BUCTgrYJRMbD04GcBCIqMBqgzJUomxjABBv0Bx98kJXstWvXcj4MCfHHDdy75N8abJMKoDDJgfXYwPASgM8/4QhhX6yhcPiT0mA9xJww+y//8i+33Xbbxz72MeQk1h5nu0JpU5HWzOZwjzbsI7i806DWSIGELbB+Dmz6JG91DcyC7K1Bu2vUIzuN+abMXdzfps4Ga0oaEXiBLEDBEMAw06wmss3MUKmcvHbDfRvuAdaPl3ZsHhksVMrVVHZEQ2CbM0nagnsNYOyxpUPEQJxZrwirNbe5Z9MN2ftn3hfEPJU6q1/NZGX7cKZ+3tlvP+KgVWTmPkTaQ6aI57ihaw22HaWFwGTwno5kLApq+aFcZRFag0Eqk84PPf70S//rPzZlmtV0AwODSrrJlAT7apYPwROFjvXVkXnvgb3WV9c6pfQdapzAZJ6pisP0wCD10SFykiZNlVMQRfPS+tiHP3D2+tUDiWQ2qJebFYxO5oNSWmqBW+oOvO08nfWkKDfA+Gh/iyde6/ghZI0Vyd537jnXbri/1KwmeczGq5niAK+N9RzalXTKVo+nmo4TwK2mh4jQsZIqcD47/LQlZRpz3MpIJDv44+tvOXb9YW87dJjvN2V4LaCF3Xpa69bhgxSJ2lsLdyJIBp+1+S18hitkPjbuJ9BuWwI98eweHoOqrNWLyeDXP/3xj3/+/1p+0PrNrz5fHFkABGYeWGEFn9cz2oasQntFu63IroE5NbqoSCuQTck7BxFiHCgIyrHpivNbcrHjowK+sHgiP8Y8LN/rWQaupxq17eXyDbffzaohRvkHr111zLpDDjlw7arlixePBjnZVvEGRu9h3Asnycm6vB6rCMbzEgRxeCHCu4EUK/ZytMKwC3WdvwtzF0lqhbbyGvmUGqYo+755a8CQPegQPEql07drsSY2zZ4353knRBIE4ABHQDNIncPa3/Oe94BiXasMrcZhbkJyJdyAMh4wPVEUClMcPvwEFt9vv/0sxKYEvUpFvshALrzEQEvAemYRMH/qqafsvHljSNY8WZBZLhw9yVI9Z9U///zzzD0QI56vERPiPfHYmf0w5KXB+vXr7VUAxKjLIP7MCfuxfQ3ENdABQ1s0jVLtMqLVjcM6zqNx3ZPZQBsRTvt1b831shgP3T8e1u5sdSxdHKkFqbsfe7Y8trVZLZUnxpaODlXricnqK+6o6Gl8dt2NIUV7O9wVBToEYrHYHfWI7GMwIi629Odc3AMwaFZ2DOSaidK2RcXmUYcfeND+q1JpTGts6JQJ8vycqslVH1d6GKsvhbiKc4EdGWOqwVjNt+wbGA0zCjRZ8ckWHn/+5e2bXwfXylSk6a7UpGxJMrWgsDvVV9c6dcpojcXuJUjktXAe1k4M2RtYYYkSjOZiuaaDydJrT779mEPXrz7EzAkIxNZZth1xp7SyW3BPTDyi1U9y/4gRp4z0f3YXo+KJAiLzhKkQglViFJQnJ3PFwuax4KiDCqe+47jLfnLHgsFhjHawDJfhBvspRM6fXjq4Q1zc+i4p9Su0qBVfiRQK43M0jzUk4kQcOUpTCVKvbpu47a771x1ych4TO8xuag1nOMZJ8HBUkw4R/bSih7nM/QcxyNbovWwtya2MBIo4isOvQrrAKGz+v6lMUK4F+Uxw5EG5j13wnv+88ifZBfvkk8OTzryWj9UCcd3JQhkaBcpw6gxBNvI7YaZyj5Q9FTJVAbEwvFZ2FcX5vYcIIzTmPpEhEiNTps7RSvODw7xOwGKKbx7Q6+TZhl0cSNAhB7U7Hnzypz97eNHI0PKli9asXnXUkevXHbJqxQIZUWGbhyUOWSn7erKO3XA+G37IQFnqibKXFa62oymcrwMnFmlpDLjI8kv+6SQK6bud0YDhYzjYqSksdeO3JfCdYbszae2NAWdEcowjn3y644473vWud9E+west6NyEt8V41ssN4JrNzIYNGzh38sgjj8TqnbbsMff8BDPO5A6qxn/ppZci2Pve9761a9fCEP72uHnxWFDnGMprrrmGOTAyQMOsABlwRo+0EHv6uUsFH5sqMO3BjzB44GZKmzufPuVbXANdkb3XC816mj/qei3cWrwnaPe41SogoPagCH/IbABUkdB+k8HsxOREPZfKFpOpfKk6VMBgt1LW+952PnEx2mN7C2GMZeiZy7U3vqLuJifdlmfmaVKNqvassduwWpqsVapsEARWM2qmZEXbyU3hopZYeNqYjgdnsXGP1RQhM1cZ39JMNXnX7uxw2CEEZk2lN2/bnimOkFazNKDaFP9ErYl5Tof6ahFvp27nUlOz0WjRtJ0GsZLYFoFzXcmsE/d2DtAL1YdOC/p8rSmbS+dY5g8q1UqWr4Bz6kwiYbYiPBksT0+V1GEb2no3B18SiDswyHkiVNY5hQidhN4jOiehTyBeLkedU94MFgwGfJ/oox8699IfXl3atrFYGA3qtUYyq0y1O9ohM55HppKywYrYuNcWei0jgcKxyuIsa/y+OUVpXEgihTX/4MDC2+556Oh1h55+9CLUWq/U0uzYQMOIpBlP5MwQqrt+IrrWX5MhLsDMTdrSKxV/07svohQevqkQzp65ClpEkex8LIwPR/HesRn82ife/dgTjz7/+sT2TS9lR5bWm3ken2RD7y3YbEFXCz27G9QuXKk1I3POy2/vi8ykKoyb8YeEXhvm8djCpzPmnhIyo7Tr5i07WAfN5opZ7QHgKH5MIMq1Rn2wMNgoslOgNpbKPPVa+bGXHrzhnicWDecPX7vi6HUHHXP0wUuGwqX4DD1EIa8pC1/jokRWNjzYVqrQzmzJimmldlVgbc0FmKmVAkjEi4GoinwJ+p75a8DaA1WMxQtA86GHHoIX+HXe5iLzF8Wl9JMK1rnPPPNMFuyxaH/hhRcA+i3InluEp5WajQ0N2NowHOD03e9+lyjgNefHe5E8+vchs3qMP5yB0eiHvDiahj2seJhv2G4EYo0PxPgRgK9QnXXWWUwAAPe//Mu/bGv2hr+RGYd6IZ4193YCZjtkwTewLC8W7OcxPWhn2w95q2mgK7K3dumvGhYdDFCIG07izb2b1tQ6wzg6bhvHNHhhEEwwD0A9wyiX45A29tptZWtbo5rMde7Z3WbDbvnMPVwjj6jniOzBdiq1DUNzzCXEiK3UDtl7fVos6KreyFWa1VS6qO13CfswpEQ0ZUEWSqxeYhYxYO7qKFK5y0NVYCV2vRJhJoOLbL3YNAzsl03LHJMK0jRL252zTXYNGozU8jCChwI23c7LVka77L73+upWs52QPYe9mKJ9O5W6YnrmpEgV1iwpsa9ocGB5IZNVNWXYqMi7jantn72VWRlFAwYpubX0eELfdH5G3BIZE1ssYikaKWxx6qxyZZDxoH2C959z6pU3bSjm8rV6hb0S1CxplZdma8L1DnXrVEu8BMIq9MTYWjhReIhtcQpnmpTKNbO5p1967oprbjr2iPOxFM3qdGfm0ujMGjBZWeMJm1BM7Nm9lrXRtfjbE/M4WK/lo6wI/uo9EMTV5+ln9ZRqFDfBntFCKlg6GHzxdz/3B3/599te3ZoYXNAIshjksL+d42vcPAsNSHHGE+1Z7t7j85omSUz/ngCPq8FYNbn6ItzVY0gY54w/npysXWwCjFKqVCfHx6rVWj5HXeWwqGmMj5WYrgwtpUMoVcuNei3IFvkkz+uv7Hj6hbuuvWXD4gWjR60/7NS3H7/+kCWD2YCjPoeyMr/RpJij/NWMqPEmxssp+g0rD/njcYrgGaPurTW4q73KUMjUxC8ubt+/cxqgtSxatIgF4EcfffTFF1+Mo+GdY9xzalqdgXtw8Nlnn/3P//zPTzzxxOWXX/75z3++ZVkaAkCtraabeb0NSRjMcNb7Aw88cNBBB7FeblMUeELZ0sjnIhwJSYWz3HkP8OUvf5msTz/99JNOOsk/obCyRwaP5XjIIYdAwwk50P/Jn/wJyRHA6C1feM5FgBYankdeCLCxmO257EOg4MwxqL4Wsv5tXwMza6ArsieZmnKn1L6JhzRza8GGmOi7bUcX31OscjBFiu/mcCp2I8XAGASFYqJW3h6HVj7/+DPjA3v2aJhkvxfPCSWbw1XlZ+XJhqa55IaYNmC1ErMkQJAvhXl4YpPFwWp5PJHON1nAZxNkJBbEyDfvBxr+ysLBAjzWy3hPq3CxezAIn+jIFIp8eIdUJAX3DY4srFFJ0oZC+HUHkqBHXkESrKK9Ia7X+upep04TbTXOYm0C4SN7Gwc2ojVHtxie5GQWnT6kawLDrMb45MTEJDYtnHeCEQKH03BsC4Y30ytKs4vpIZ20oxqa/ojp3uqsE308TJQqEjXkm6fmZa6YRkgsZ53XhrLp8SD41MfPx4LziVc3JzMj2ggpXEVFprWnliqHiRI52MXjYQ0GKyP06SKIc9mJyDyubaiFeKdwtk/mBmtJNhfn73n0ydvvfunUY1csSOstj8YmHg1xY9UaD6965CL27qaXC9mRtb/OnFRkEYWTM7qZ/jtD1HTCqTtk4IYmMD45ycroEavzF7zn1Et/cufzO0qsWajZuAp1G54d3pVREjpwkhPATkGHfLXtAQ0pTm82vYt5fVjoseJz4z3Ob9hY6ZxyQmIVTQ+vri4fY9zEPAPoMDw8zOoggKZUlVFBZmBkYsf2IMGJRnxjmLqCJE8utdJYdWIzmxWf21Z79vo7r731rkPXrj79pBOOW3/ogoFgZDDg7EzXYlgMkC/FnM7yCaUIf6yHR1CTBms2k2k6Vf9uF2hALdAZq6xZswbrcBbIf/SjH1144YW7gPW8WICAOZnHlrSXLFnywQ9+8Jvf/OYVV1wBRucDrqyRI7ABWa62XM0bBtvGigcCZgL/9E//xETlnHPOWbdunWvk1rDZTDINW89FQOOMwQ/E2PlwRD12OMx8PvzhDwOsGbURwyzdfUY8CBBD84lPfAJiphmnnHIKsxRYEYX8tvyP8JZkLmJ4GnTC9lzeG1xyySW//du/baY4phBP0/f0NTCrBmZC9paY1tmNy1warplq6LCGiI3r1pO8+a1UqoyFjAAY4TAM1MoV1vJ1VFqzA1JkwbSbGL2E6717fGBzaU2yTleIJbme5Dm68KzwDtR+WDVsZDw5LjQ7UR0DaxWSGbYZUEjW/9hxmAcszNe1V9lcairMjUMMG81iOl2pUgs6TBOcxyrCtvEJLQdyK8wK9hCuSjY5MLCC9c58JZ01XY/1JX6d6lGhncKlKYoVTt0M/umGc1y1pE1xiZOHQLsWisPoh2rilnNAEmmOo0nVmJqGUN5wmpNjbloxEWZVRJwgXr+qWR6eyHGDYAJvlRIDHQcgA885eWn/JcGZ7zz26YuvBKolmUI6MwnNQsFgJHAQk2Qqo1OGY0tKCjqtHcazpgG03GJwk8ximFHPFEcnKluuu/Xu49avGEwHtWqjmEcyw/SwFU97nqdxJ3QOTrK5wdVoW267MRBZpzgVQUozrXWimDGMDTEUJNkoF9LNrPO+/5wTX9068fL196ab1bosUrLMZBjw3d59TQ9dHYVFIF+g8NzNb1pkaakCH2vhpiVXNB+jklqIXZliVCsl/qCAnhOJNT9MJrLFIeaztIxUfpiocfVK9OL5dHER8nI0FC+sJid23PnoC48+/fLCwSvPPetUtgmtO3hEYF7Gl7I7YlMFZwfJ2cOnCkBb0TOiDoW2KwripUaR9t2u1ABAE3ZAXo55OeKII55++mkWyE8++WSWnHdlNr3wYpaIVLby/dnPfpYTZh555BGOmkFIlsk9sqc14mAMPVc7+RG7nT/90z9lZZ3Psp522mnge2A0CUHAtGeD1L3IIlpSkRyM/m//9m933nknkJ3vT5144olEwZmrAWt7h4AfqciLHa68NHjHO97BcTp/+7d/y/E1hx9+OCZPcRROWXq1peGcH+x87r333q997WtogzLC0B5Vydp3fQ3MTQNdkb17rPRc2dOFh+Yl55BDO3PFtLsmJ8LJntehIz0S5MeUnGVzGn2G7XVNbOY4blnMC3mOb+C4NNZ99BGHFgeHlhC77ZxvR1ICQc4Cz+rs5uYAHgjXYcTpnC8L3AxSnSYhKWUd6hBkSHIctiAVRv7CUKJSwzCHjoRCcuoX53vNLB5pIeA/ajSnatIkaH8JAgAAQABJREFUZCqdaNz/aFydisLnq3VaKLsggGXZ3MRkiSkZ5ylYrzoxMaYzshl5VQQhflkLu5E4ncxjqN7uTML28N5CutdXz/zVlttdipPoTWkwpJodWyEP1ukBL2yaFSbDPsEtfWFtwDdX07miCo++1e/LysdwZtRKUEfkhYwlKJ11r/OGdS67Oy1QI5B9zdTVkVWTWo6UzF8HZ+Xlah5PgWA6RB1hXZ0KKllJXXXR2mUFDbYOgpOOPuJH19786OZN2dEc8xBsrtIFbeeoclQFW2gdRwqimo3pCv4+r7iHInDr5TEVMOsrVzm4lqNQc6D7m3967xknHXf2CcsHChlMuGW4hFS1cpAvqqyxXOKcvZ94nznDapDVyI0hkeXrr3GPT2se98JJXinNac5+nKpDWiTHacBWs45VXBg/yw+p+JNUSlrNBpkFueRv/PIZL22ZvPGeJzlQMlsU/+JAgdc/vFtPFBNVnvVEAmTDFYt2rgCIavR1SW71ILva5NpS3V4ampP3xz30LPFb7xfbiKcPRME5JOcp0/xdUx+b/ujdj/sopjuCWAVLsVPAMa7Vs1CXddRSJsl22/xopVF5rVr+6je+v3r5ouPXH/aO44468rB9FhTV5Ki0BXnYY5REYhOMawMw5c7KhDOq1zyPUMkXXZ33LXcBBfK40chp7XjMBKVFC92eR9oDy+FcDUqyCA1alT5dPdotC+QgV8DxX/zFX7A4zQEsJDHbGCjNoIVHACZ2hRWfTMLF4SmsuEVC+NvzwlI6UgFtCbRm5sVoEZ5bkpPKM2QN/nd+53f+6q/+CoN7KzhYluT4TX44Q2/8b7/99q9+9atsFQBV8xUnXkHAkGcHRZkxDGwRgOS0ZcIRDAL85MKLApYRvXgmGGwhw+4Fu/Yrr7zysssu4zycj3/84yB7GBqNv5o83JoBDwRr1qz5yEc+QnYXX3zxF7/4xfe///0XXHDB/vvvTxScCecKvRUWYcgdJpxrCXDnXJ0LL7zQFGhZWB3RLbzzne+85557sPX/oz/6I4p5wgkncGY/ckJGWYyYq5XFqg91MdvhiiPEqxcysrB6wYNglgt+xIOMK0l80Txz74HAsoYMPjA3bu368Un6nt1BA12RfYtw1qR0tQ7YNTJrWy2U8VudYs0o6pJ4y2yMBqDBpl5XgJFe+oudC6Sv54nSWNLmptr09Khu4dOp7A5RhOx7cV3PxumUL8SyJ+4kv8F9imkDKLdoUwukEDOAspIHpppK6H2RvnuReXoXEE/p8uzKUihVxfKZh0mpMtcApDrn0TKCi2PIZlxupXdRnfQT8pvzzzzqa868IdRaKZjGkJRNyNRAkJziEUkpqSa6Z4AvB32ympnWB3p1vpObHarKpBPPoiVz4uIL6i2x/lYq7VonnmrK46pAtzw+NsXSjRqPKsIKJbDGDYcy8rUgN5/Yf/XIL5x79hPf+FFQ4+OkE8MjC3bs2JrNDfB5UiytOQdJTEjuHtcQx1lQL1dGgmw2Pzm5Y+nCZZOvlf/tokvOOOE3mb4PMJOR1vieEtdwe0MvjDvQoodZu6B4srievQ7jBPP1W5fClT9Z1fMpit/9zHu3/j+X3PXIc+xQmSxVJyrb89kMWzQY7pEZx6ivH3RCLQJfzF4nfKw0bPdaunkIr3aLzNY1afmFd3QqAk1BSxS8UAQnIaEaFpJK2Hoyx9YTYH2QANxz8G05lcjWGpnh5Qe8sOXVp354/Q2333X8kevfedIJx6xftrAQTLLmqkEgYIF/sKi9OmoGwBQ3F9UtGfLQ2XucXp4Cpd3zHYDJkBNF4dmh3oFZwDvwN/YY4DCagSEwrrQTT9xSdIAjYAsOxxxzDGvzeHAkwfE1JV66Ympy9NFHA0A/+clPchL8H//xH7MsjQEMp08CkYF6ZGTCsAgN+gR6Pvvss6zx33rrrWBilnjgA0Q2FBgXg/2jCAa89gCRTFvE87eGCO3pMwmPO+643/u93/vKV76C6fyXvvQlzFrYF4uZDXCWVCiEqQUCX3XVVcgDJibtn//5n/MVWIQxtuRrz4vJT+7QgEEhwDFn+IM/+ANeWcAQK3Z0i/A4XgJQTE7mobxMePCsXbv293//95n/wMcL3OKhpHAg0L72BVt20CLA17/+9e9///vYxx911FEoFvnZD4BWoSQJtfPSSy89+eSTmBIxM+G8zo0bN1JTlB0lQIBaYIKfrDnth89U8R2um2666c/+7M9QyAEHHADPFStWYKuD5BQWtiBs3jMwJ0E/aAY7KzZR8NIAAsoOjbUHtIGfQHRCEgI5L5/kvnmYuown4S2OhAgPDU2Igptroenf7oYamB3Z0yBw6n1jjhDfFOL+GEnojR12ThfuBhLGCY0SQCWudPAa1Rwgps9PsSSqiDYXDXmtEd3CW+mm7mcv8hQtvk7CENwtXxfeIY3goJwS6s/d8nEZys9zqo4wgvUhwop05YSxMB/jwqZfxFpjJsw1XLc7wq3KvKedhhA/AcMfzsEciDXmWtRTLgz3yktgIJHvqb6UqjfXub5CAXpj1YHaIXWHWVQ2VMf6IqBKFUQRabLRn77qA2hzH4TSCrcrvzHkThpv0TqhM7iWWuBWebawmJ5eJJHzfgEuKm0qJqRgB4t8LOdziqpgVBK7t9PfedyPbn3kwec2DQ2ONsoTjVKFr8VhK+OKSvtQCt9I5qfhXC6zbeuWfRYvLZW2lZuZh596/rLrnvrQGfuzelbgjV0S65RwMYzWrCWtGYssgaY7Cu57HmJMD/GQ6eS687pq8bdTziPEnknUH5VDdvSoflkh+Mv/dsF/+cOLbr/7oUX7rBqfLCdTg+OliezAAiyWIOYlBq9XNO7ybshBOjx2zr2xUqFiNT5X2aJuZK70gat9tZDoHyllacYSiLos2yLudKjG7+b+mA/xIos3PXzRAp82Cb++eeOi4X1Gl6yc2L75ypvv2vCzR48+4rCjDlv7kfccPlENBjNBpjjEoatYWjLDKY+N5QohLGstY6THOcu/ZxOCnCgAUIw2gB/gBYbmClCzjxYB+2gk0OCBALKOBSaKaQBAFjQJuPQgG2JwOfzB34BvAPGPf/xjgCP8n3vuuZ/85CesUhumJCGUwDgQPOCPK/QmFWYnGH8jVfxBQx6SAHABo0QhgD1oJDGBO8ppgcYHDtwCFk899VSSs/J94403/uAHP8A+x5QAf5zeGmzbRhbsFMLihR2rTF2MDznCChq7hcZkIBAx8KMT8O59992HKT+bSVACNDiSIDlskQG0TfjnPvc5bOvNSAlhjGH71eeF2JY7dkHYFAG+WfVnFsH85Oqrr0YAigAQRzkoH62CqsmRk/KZYqEfjvBHHvirB4j6fZhTF0jFIf28V0EVTMC+9a1vwfzb3/42NUUFwYckVDScoYQDq/WwRRhgPRMAJgbIZu3EpDWdkBBJkApHKgIN6OP3AuBvd4gEAY72wBUC+JBFO2U/ZPfRQNcWTMXj4t0st8it0FhTEI1bXupWpAhmagzX+pDDi24gFBwBUrAsSi4ORLlIzpmI5xrxddlGN7HfbuExkhZvJ+4tJK23HTrTbvnOEG5RzqwDrxzjojsMUPmZcpxHKMHdoq4IzTsdtcrV5R7OFqM8BEFDMMSdPZmeoJ1BPCryh9wAGnF6cL++VKXjczq4KG2HqB6DutVX5/Be89WrE4fpDRyjLr1zoTnqLYXqh2Ya/WH3Ig3SbKVTFSOsHUgAaa5cHZXRtcTkES8GtwgwAwvFR877TXIXHE05XFWpE2bMk71DMFmupXLpJcPB+951xhP/8z9GiqmNr28r5AuYQY9P7sgUBjGjVrkdf2RwEzw9ofo3Z6cZuxZ6NVRs3j5WzBRGl+37P//9ohOO/m/78gl2Pn/A7Ah7pAh9ssEmNa/9JMhpLdlE86pokdQrU/RRHH4rlDzmol4tIpnHL+zpS6VDntyMrNqC0UTwh7/70b/75/+88Y57Rhfu02yUs8ksAz0vxclAQy/TRwdKWKkz6yxanS8XouHn2ps0vdCjB/dOSS94wpc8vknTbHjABeWlHWlPJjq8oZOACtAqr2oa+z2s8Zet2r88sWPT2Fg2OTC8jEXc6k33PHztjTfevuHAj17w3iPWreSbdiOcEMsRv4C5AbZx8ysDRV0pYssXIXor8x5MbTgYKGlQCfCHfsF8rC4ThdkJ0BNHO+EWjAWe61haTwD4gwaGhttAY4QQayv3pAX5gaHBoJzFftddd7F4DNIld+hBiizNYleD4xjKAw88kGV+lpbxG0+SmwAwhB55gJiseZMFAsMHAuQHyBp8bBeVhL5JQw8TSocHm3ImDyB7NqSyDm3YetOmTXBACWxm5TjIP/zDP8RSBVhJIExIC7cWFA43NdAgQDaiEI8iMB8AcDNTAgSTyqelmHBmngNblthNUaSFxsqCv93ZGjYE8AGmkxGy8TFaTslk5ysTJ150mBKYPlFr6JZbE2bt2rVst2XvLyichMacUkDG1SSnvNwiz0c/+lFeIFx33XWYCbGET+0w4yJfyogMpjdkgCeGQFQTEzDW9eHjK8sY2pW84EnT4n2CtSXLHT7Qz4DUSQ4B0mJoRC2Tiiwsbf+622qgK7I3iWk3kVMAftcXR373GBvlDFdn1tAhnnFBB46YxY4DEGD6ehIrVE0AWpyy7uS6hXeipQBMJbpZ+3RKoQ/Wssq4C+QxOblSYhyPE/lpuy32CXLc4tMN3ZIL6pCpo+x6EV+pUf2a/NMryx5vAv1z3pGRrdPHo5y9kAU4mZ2XbLAZ58rZMpqZtTnlvvOu1/pCHteQ5pizs8Nm26crVzRDQXK34VE1wnKko+EEGciAMKo2hg4lCF2nwkdxM/9aBXGVzDa7mAMz0cd0qzbjphqIZBpXpbCsUq7l2L8SATV9YNQZur39uBXX3rDmsSeezoAlE4VGrSR01mBcUROMOOjXSeWmCDMXY1psg22VfNiIk/UGC4ViIVPb0dy+vXLFtXd+9hePZ4ZRK2Os4tpnrZYgf8tvGofZbyg+bdiUYJ6Zm7RxFD1/kYbjOgwJKLI4zy5AnMIm5CxvuyfXZne8gmsUE0lOldl/QfDF3/qlFd8avfTqG7JDC5lK7aiiaxldMLhqnzafa8WoBTgSGecIN1uX4OShcuLZ7XI/O5tYfrfmx4OMAnwWCIlxIbfhM0UUHzlDUM1smfX6dqtXPlvHJvkwSX5gtFmvjJXGm/VmJjc0Mjh412Ov3vTFvzrz5Ldf+CsfPXiV3mbQKGVPwO4Te21LYj1PyEDWlDwqvJdjr/bY8jbISe2B/RjF4he+8AWwJn5bg6dtEGU4Ek3YwNGuEuNDrKEukhglaJXjj1juBVkayge2gh2x8cCA25bnMRQhEExPWuAjgJ6dqdwC5ngiCDSkDk9y8UjacgQrY+Xy13/918SSBMGgnwEmQkDR/NNHuQxqW0ZsHsXBE7MWExscTxRvIRApXmrC48KgQMiQjUAYkgXObJlY4OcQG2QDhcMZAiiJQk4CUXjLJARWVrR4dnE/MtstWbDYj58c0TZa/ZBz6JDJCRMe+FgBoWFjLsgbCcmdhFyNCXqTrM6RtVev5YJ4559/PlzRBq8smIb5mmVugOYRgCr2qeBpbQkPWRgTi6VSeCPBGwCmBwgGGY6omevLxIPsN37jNz796U9zC2eu8RytIP3rbqWBmZC9mmCbsGqRrl3SFC3St9E2WgXwqtmt/IW0CgnbtOvB3VgCoDfDW4cRXS9v5NOu3VBAt/BpicMbiUzTZGByb5VnvWq86UmeaFhicCZh7MpSJqpwg7auUiEIEV06WKYrEkksOemDYhGKZ25DnasXpfUe3bhbqyjCrcoi/Vt829XVDmLE1aqlu3DcJVxiucGewoJHWENCyHYXZ9AeO7eQ7vWltUYEaatBIEXH8HZKQqRwYC3VgTj8Sv1MroR1cTIndr/uwlKTW8OWlU5Yy5RQCSPnsDE3c6oyXx2W2lcKnrkozqgQWZVBS9MPjj0A+kECPkCrwMjglTe+ig6CRYPBuWe886c/3bBkxeqJ8g4ARXF4YQlzfG0eCB9tflTDejYJ6ywOOlFO0x3tNp9KVSZ2cHA+4w0be8crjQVLVl530x0feNfx+w4HWT5rBEPecTT4IFqa+cZ0BrPfIVI8a39rCmlJ3y69kbUQc+tCOpSohWHLLQn0DChUb0v0oybBw0uXVp14bfPokuXLB4KPXXDOvvut/urXvj1eagTFZdpI7bpQ6BlcefJNAK5WNKf1acV0vOd26VJfHRMzW2UN3qbupiu1AefUG6nrUxsIpQpkaGTfdGM5ps6U1+ETzQcwscrIOEGveqjX/CDnrdZrVU7UmawPjixbdMt9zz76zP97wfvOOve0IxbTDJoBBknNENzDn3xsYs0EiSEpfL5Mkr37SgMAZsWhMBjRYJPBMrRqt9SCEXdUCFAVIA5KA2VCALElB8sC6z3KxwMWBHoCQ1mxZgWXJXyMxUlCRhATG8e1YDh4GvbFH48yqcykxINjay1MIQzldxTVaDw3RDXnieHJ6T3cIq1FwdBieacB2LWrp8djwsAZPwWHOQoBykPJHAC9EYVIdEoQwJMrNDhfImgIN9koMgTdHLHGAfGMklsEMFZMlvDz/oHkxs3z4dZygZISkYoqgwm3xsq4IZXxtxokljqlEnm9YOEwhMYS4rdACzEOxpaQeNaQ2TwEPuiEJhdXmqds8VihEBvOsCWWUpinhbJ/u1tpoCuyp/5aBPUheHwLi/tb6O1W49x05170h0EO1pIRq1iMKYwl7GdsAIHbnc+9JapbeAtZdIsw/AFGwWd4Zr3SkHnIO2ipW74Mbi4vrhSj5cp8nd4K+z8eD1YORKjRUGhSS/mUnQSuU/FYLRLcfo3f9LD2O5NNV5cHHqsv72lPYiFuwV71JaCoAVuyUF94ONsRv0CZi4Q14dCnsUNpq2JRWvHw7ZTrWl8JrSd2qEE01DG8S12Dxlk7dC+I3UzMJqKwYGlS6hJ01jIlfxgVO2Qj9Ix6pKYZnatetYBuDv7KIhbNLf10LKDVK4LIRWk131B9OWf6kleL4xrjcdoWqUqU2DTlE9+27Jj1hz/x7EscjpNIVTnvR43cTYkgpqk4yrDx9Aq9h4pZ3qEvXrJ8xzgGuJVMYaBSH39t+/g1191zwbuOWcxniwTkZF+uvMhppuJK+HZnSvBdEARxtbTTG4HPR8TuBo85LwO33t+RT3sgnHhIGEKtPZiGddeoDiSrjfHNuYGFS4eCc04/ZNHK//rlv//f22pC8whvGmD0pXLkp6VJ8zBwMzW9F3L+GdtDuzwuxJe1S3wsuM6nZ92DbFlztcfZQQTNeuFFCJqh1vCktaWWP2EfvknlVj7oHBKAU7f9r4LcnBOUSGJZD15p5kYWTDZqhdEFWya3/ut/XH7vPfeff+5px6xbwQyT4ilrln74dXfoMsGCfky8vd5r6IomQRuwJo3m1Q5dq6Z5gFBBeERBiR9c21EngC1bxjY4aDSwNeRNlIFvOAM9gfXgQvzWCCGDHv6E4wENww0xLFOfnXEGZeLx9jZwNvEggyESkpHl5RPGPeRF1sBK+MMKAQghIzw2J7FcDJUSiIcriJzZCGwpvh1/admRo2uoYQ7wgZ4QklAcSkFCmzXBHA/hlhBKI7PklAJ6/DBEHiOLix33Q+CFRFdkQVoI0Als/ZQGMgtHJMItXwvBb/VoVUC+0ODIFyYwN6kgM8Rv2RkT2FoqWOEh0MJJiyOJOc8hCgh/LRdLgh8y87eQ+VsTgLwoKVdTpi+aJ+t7djcNOBgpoToDFQc8RCOPAJDvdaNApTUm3a6iaHcO05OEUYHlLpjLLIcrlpxJZsJv0B/9gGWMYbQ8c7n2JoyDKtKVPLEr283coSrYk+IJ/RAwmGtgc4gCjymxXV0K8brXTQtheBurIBE5p6go3Mi6XqkL46y6UBaqHfOIlWqfW5wLV+n4o/56U1EP9POpr7nUaUhDSdgxSyncPEFF062rNVdZlFeVKHDPH6fXa8DVTMwUEasQpfXKscXOWKyLdBcfaAkIo3fmKmjj/sR6Rmf0RuJSWYu2ZLH2g5QVIDvhzEpwWr/BFoI1q2X54APvOm3rppcyHFueyU+Mc5ACQ4IeDSbV2jfBkrOEkmZmlKVDZLXeXLRk2RhM6wxs+gjrRLVZTxevuP7Wp16p8D2YqitmkOKNdi2oh0tx1v9YjFNGyNn6G4rp5NBj4l1cDz6w1aOqDN30RwC9W0VH0fYbo58eMcsdWracpmoPxLNgNJlxbzDSwWg6ePth+b/9088PNrbla1tztW255ngmKKMBnQwsXE8XDMjH6ouSybneiWUOSh9eXcPTrSq1s0RhHVI6atKu1q6iK2qY9ideTuPGl6v6xZC7Wj2xuuUJUJScQQGuzBY1GXGPEOGgBJpTtlDkL5UtNjkLoZlpZrK1RK7UyGSHF6cGlmx48Mmv/vt3vvr1yyfY+wEY0rG/OXZ580ETCaxyMR3lz81r3GyDTKM/miZ/tWhTloTZOxyYKQ6wqH3KZUgUCAiwsxD8UnsnB71hPjyAMFvkhi23ADiD2oST1KAnlQVPoiCADFAI9jUO0NgtBDgIuDIfwOOdJeQWIaGHgLR4LKM4xPRJzENexhNinNpMBLhJZRAWSaAhCp7GigkDsw6QOuG8agD+4jHQaWxJgsNPOGzxwAoCEiIqCckXboQQBQFQ3pITSAgyeGKTgcAZnBUfPtSISWhzJzKCD8rnaso3eSgLDhr/8sGYwwFK/GQKH4Qxj8+aEEsCGX4cfOBMQhx+rkZM8aExJSAeeUHs+RgZseTClYREiYUTgMmSp2zxQIkOSUJJ0ZKlaqHp3+6GGuiwGh1K6fCNxgYWLplz0n/zLGFmafBGQFz9roAfD7+6ffXK6oOnX2k6HYsNMxduI4sNIOpleBL00+ZcJ98WqgzV9czVIabkmZrazp5QJeuQRbd8IVeRtEqqsVlp9VKbFVGKpW5Sq/by2NtnlVeaDZ3XFaOyOHjx8IVxzsczbSFgHtjxDHPwOiSOjUvmBnBEceuxYmP14GvDe3wWomEYEJg2lGIFkcRCHlZdjk1MSpWpp/rq1h7iYsT8FJPsO9WXpOrk1CI7ODTTIRT9SEOKMQJqz92onE2WJ9VMhbhUSeiGJaFqKUPNhryIZNEzw4mR07hzI7gjCw1BHy7OudqhQIRo6kSjx0vv63Yq8rFPgSsnZsQ+zGXqh1hHoKt5Goksn0NqcL5NvZoKauyIjR7pBjjLpcToAYYhz3xT2Po9p+7/7UsOfPSVyXxh2baJSj7Z5KSHFKunCT4LTTPApiKNCTipONd/KvuYjyW/6M6ag1VsaoKdCXyvWEcnk1bjUKowWGuWH3/11avvfGzV2iM4D4JVxzS4P4kgfM4BeeFAeXxGrrrZckNoMtA7BfAHxySWGZD4mK12d7jHWDUUeqA0dUQy2a927CicB1G6lrOfQECE8S/FFI/5gmpC+rEyTOcx6536LlNu1Eyx58oEfOCJqs9wbr0eVQh4kz2wKPjuV77wtW/95JLLr9peaY4sXZ1KF8eqiUm20AapXL5I82Lle4BjD3mT1KzT1zbBse5ZdS3I5eDajQqmwrsQTTtdF6w3gVpHV/chpOxQg3owp1s1RTzmd1dKrSmEalD/7Sqf9VdRiCNQpDjyrkyZujm/wmzaZVNHMiCldI1AuUI+q14wl6aPSpTq5USmkBxZ9tJkadOGh+557OlPffSCs05YBVhoNrP5RD0d1LPC9G6y18jXq8iVRZGwc7IqT/onRGBdH32GT6HJLUn3HmfAK14eg5szt0+wlyXxHrs16Im/Jdygp9HA2bLg1kxWDMb5WL8UbWT+1hPEuVlgtyvw16IsiS+s93hJPE+fxDTQPn/wSaywPOjgUQrCY04SIC/MPX9y96XzWeDx/m6SW7jPK07vGZKLKdCIyR1n/ni4zyLOJO43gjjbuPw+ufeYVEaDEkwPPtY8RuPlN2KuTJZaKOO3Xvk+sF1OH9X37CYasCGpozDhaGdjnuvzHbEGA033LVxDJs6Ni12vHdlHgaR3YFiwZqoPj2J3/a+TX6LO8a8XCTQIoTb0wZCswc/Ug9eFSFUOXYQ4UIRWARr8nYvGMKdvhSg+inQU3S4RJ4tXBSltyN4FOlbhIN0aHmUktbBwaH+hilxiUIH7czMGZ0sEiHCl7CbQLgqfYzXNi8yU4aAD2F0ldM2ZSjAoTxHkd9sbWfTWXttEUGMjqGu0roBR3bjHQNXsQkkVRUQ+aoQcrKJ9dUOsBuHajFqOUlvVODZdLq5yLY4t3uJqqUx8q/go6VRFS2a+MtaczDRrxWTwe7/5a3x5lPEP40uWWlUyvTtzRZdU7O+cKkLEbZZfGGBawhmIvvkiGJMYdssWFyy/8vpbH34+2NYQfGMDpXTbYs8KuCdPNV05eUOdWECovfBGhHORcEqfsc7KqglOU7Ge7Tw80m3055ID7ikgh75zFfTnBzgD8uLAnM9/7My/+eP/ct6pxyUmNpa3vTyQagzmUnymr1yayGUyI8McLMMHrKqgV9bSKCO4hOuUo1txjlZkHrSOR2sFWkRQ29OUBjyjUloIwqEr/M6JDCeacPXBKdtU7q4u3l2sCsKrzCb5pIP+XFtGhA4KVCDfNnbdiGfUTGSqiUwtWaikiqXU8Auvl/7gL//+L//58lcnNHNhYoPtPZ+s1WREX14TIAvTukpWY5CQmqvsfWv2Xkt9z67SgG8/3rOrOPf59DWw+2uAEWdOTiOHcxpLGCbcCzgCvKcrlyhhC4Fn2BbeErDn3UYjUqvkKnJMGzYwtxLN994xV2J5OklAuPVx5hFZJ9cpaSe6+YZ1y3e+/HZFOmC8K/bMsgmO9w52O8rnM3KeUOXyz6h9nwqecX88iy61GpHohUZyfPtYemT0yEOKZ570tuvuemRkxegWDivM5bGWxhwMsK3Vc2kEcA+KmlGmiLH/VYcAIFf/YJ1DGJPJZR9/6OEfXHHDwb92ml4Sk0uJ05V4qwB/pGp98dO5dbqCWzM2vqaHeIiXxHviupK/twJ5NrvAQzkHsgGnSR+zbunKlR858o6HLrv6xkeefbGeHcoPcXpJrjy+tVpKDhS1hFaqVAaGF1ZqfNoK2MuSPFUi0W0bkipL1lPSk+rKKVB7ePRKRuC3xVlaF+ixuHn8bUuKed66qjepkDBSNzMc5o6Y9PB6QRkypagWhxZff9Odk9vHfvUjHzxk3/zmEsfeZwaTA0nmn8lsMpWBEEYq/lSBXGL3NowJk2YrfdfXQJsGrEPgap62+H5AXwN7uQa6Inv6ZHXL7upGjhBMKHDusB7tubGnXYvi08l1Ce5E6sK68emaYBdFdMyXIjHYuKWyqWysRC303L5xAMPn5TzkPw3TI5knmJLS+zpXi4+eq2emLObKY1fSdZRH9RWBBk/gPWSP37udqS+YWGHkcYzElqCIqYXrGlF2LLwlmmIlX8hiepShvY48kumcvpQ0OR587BfPe/K5l17d8irnPgfNrN5TJLHgFI7UNEafIUIasJTgVIuLZ+ejXCEF7XGxMVVbFDiFc2TBwptuufX8d71zZP9kpREU0pzeA6HWfd37gigXl5yIaIVZVPAMyyneqpcY/7CaXMy0C9o0jCv6KAY/Lrp7U3+RgQ6XiRPvTFaOBh961+HrDj3kip/cctMdP3vx9Zc5z0gGt8WhTLLBl61YsE9lc9niMEXVWw4ZwajQ7oAtPABbLebjMYM4BWGDE/u+xJTVmGpQCggN7Zw5Dbf0VHqR1IvrpjrJ4+qFqxNJbLEEVgZqRVbJBChLtoMWC4Vcs9Io5W+/8+GNGzd/5EMfOOPtq0hSDXKpho7ZYTegCe1WQBrO4I0s1Ehol+6qdiNf3/U1EGnA2mF01//ta+AtqoFoNJ2x+L43Nw/XFjdj6rdupDBLNG5qAHUrvqiOl+duuIridpGGrFKMWdxPCLc+fBfltlexMf1QKd4ExXCKFdLq0euwp5KrIlwCeZzXe4xPy+2szFvo7ZYrCZ3foGxXNjXOuc8Xa9VgOB8ctjpx1juOqmx5aTDNDoIKkLHa5DyXdJU7WWqws6Dj94W7MrcIBlc/vsrD2UJBolJvDI8uLNWa3/ne5cgKVOXQS+zR3cyBdIKAU3xDc5GpgJCzMzmLFTYsdStdp3tTVKeYNzOMlyC1TKKBcXmjVGM38xGrU5/98Km/95n/473vPHZpIRhIlNPVsReferQ+uWPl8mUpDsXH7p6dC9q80GB3clVXGetwpA51RJXVZK0jaxz9yFaFzRIs2+vTIIFstWSYjsmNtWFNkFg1B1u7P9sBuwvLP63eqWLN2LgyVdQf5zU1U9lEOh+kCpPl1KtbK9VgoLBg9SPPvP7V//Xdb//wabbVsse6lkpUU8lyPaiwhYeNMIlqUkfralc3s07+2KKCzCyhYLhjD9cuLEKf1d6hAWuKXM3tHYXql6KvgTlqoOuaPek1grrxkNFZfucU4Dw8MOb1HiNovUYJW8IjNi3BZNQaMvN9Nz4zp9r52M75ojB0FXGPl8VgS0sqdxsDNFHCefyKlV82i7F04eKHh5oyz0z8vfQzEc0e54o2O9mbRtFZHl9fTmOeJq4rBfLf1aVd5yGzTyiPzyt8gsLaIoqc5vgAGEN3nUo+B8GSiYzON+BboGkOWqwFJx19yK233fHkxpeSo6saiTSHsFD/bpVVUJGle7mpFj2Vg8t66tZ8pOW0hjCKrdjY3Iuf9lRiWK/7bP62u+6+9Z6TTj9mSYl9bKHsmFvoKwKu7LYg28pZ9xGst2Yc5jhjq3b6nMZKssV6s2lxb9INZ+FMAtMHc/qsD7s3FuSCM49devyR5z76zBn/+K//cdvd96/e72A+z/PMow8sXLaqwp5anWAgTTHh0no425zdujipDdjyYFNFjkbH1VBqrZLL6Qox1ej8bvqksEjvWuNXmxPt3FzHeicpVlwWhRjeo6YktpgO2YZxVwyKw1boRrM4smSytAPrnKEla5949qn/ffHlY6VzP/HBg2ktLMan0moOnA4gAXESlM27wvTOnodfNhebm9P6VEjb/3nLaMA9EW+Z0vYL2tdATANd+8T2HtxCuHb0WHiHq9tGypauuf51YKGgmMy7u9eWx7iac+tkAofcWhQe3QJKQpJd/GN5cfUey8Buvd/Ft152sSht7Frzm+2+jcGuD+AZoF78ar3VC3KRk68v/DtfWcbTrjD0nhY/t91ctyRtnLsxCDjqeWx8UrC+3Cimg0P3XXDe2aek66VUvZxs6KRkFkL1VkkH0wCsokbclV/XCBtWhfPAaazX8rl7kGkiXaknL/rupVvLwTgnuzvc2ZVFGNEqA0Li4qlabuNR5o8TxP3tlG90SLVU5syibKHAYbH0icVUMMSi+mRzYTo4ev/cP/73T339H//Holz1tWceXDGSSZW28BXfVH1cf7WJZJ2/UkJ/FZ2VSWXpj5arv6oOwkphol5vpp1RDnY59seZkjq0ng3LaE1LD7G/XVheD6S8h9y0LUCbaXUEj+zldbIOK/fp4vDItolSkCnW04WN20oLlh+QG13+tYt/8K0rnv3ZM27lXqJyzo/eQujlA7/2F9W8u4tudmEx+qz6GuhroK+BPVwDXZF9vFx+LJzBE6fv+2fWgFfjzGTziO3GuVv4PLLYu5PEFRX3+1LbIqS/ndXTkUlLqrnQ+CTtxO0hnrjFYzioWCwwS8lnEpl6sGQ4OOGoww7bf2W6WU02qpxZiOUGDCkmV5zA4Jyd9SbC8W5t1dIZuE+ls9hX5AdGAHP3PPj4tTc/xuk4O9yJo+TgMiG1mz3FplBg0EjhLONOc8g27X62m17pZ+M3v3iO72Z3AdtJKTPGThU+OsCBRaP5BJY5QPxMLVi3Kvn1v/utb/3L35x7ytHLh5P5+o5CbXuhNpZv7MjVJ7P1iVR9MtUopZq1hOpLSmDbLHMkNkdoItbMasuEnTPTZN2b2+gcG51pKuucepLji2W4Mw87+5mLHcP0npAdwHU+8wY6byZqzEHUOlLJsXJ5YGS0VG9unqgURheXE+nnNm2tpgf+5h+//v0f3fr4KwL3vNWpWZMI69q1L5XRmIc/Pqe+p6+Bjhro1Cw7EvYD+xrYSzTQ1RqHQ0+x2mSPFgXFw/GoPB58/iCdydGharR2va33dBs4uz1UPtwn9Aw7qtaZkHaM2b0CfXEQy0CJjT/hkjBKc0v1kBklX4nWS/XottfCoBZzPqHjq6VXd/JdQkeZO2fZ2dUTt3uc+UR7sL3r7xA+K8MOaXoJ2lX8u/GJ0AHxgrNCXA44aBUUP7VDleG3UPcsGCs1/xaw2alcfAtRqItNjs5x2jifhaHxUz9k4M7T1JXniTAtS04d6z6NnT0vktI9d3GPSQEBFhFYvFDhXGdxGOKIki+FJtcsL5x+ynH3/ftl6YV8CKYwXq4OjYzWy6VCrjCJ3QjnvrPtMXKw9ZJ0zEKnswAdXTsnGYu0QHIQ5ISOlx6cGNs6PLIETHrJFdccf9zB+44KkkJUrTTz+uINWFffpsGQhySEozNeppARYiQzfE2AL19NlY1Yk6ujJASiWKcteMhICO0qRGYjOCWyH8dE2Ul9b6QjT3aGuiIn+SAfqiRAa9I6hkgW6Jk0J/xLJ+tXB4d/9qxqcNZFl/3sZw8//tAjj02w2J/JN5J8Xow2VKhPlpvJLKcLsTUiSGeSqTRGO3ydppgvoKJYHdG0nOOLFMwEXBlTGe2T1kK/EL4KbPRxjzTfKTxUnBJNc0Y/LUg3WN4oU2Z6epxocbxG4M0NT1OijjFNupALGlleFQXZfCGd4YMMfIfn+z+6sVQb/9THzlm7AFUw/eTDCvWgyjcNwnPQxY9jQRNVJqdivoc7VKfegFm0+/AQHs4L56tSHD+PnyjCOZ3WDnHvtaxwoHJ5fGwEJy9CzN8rqz2Cnn3nHONLkQEw//AP/2Dfyn2jn+s9QjNeSFCcPybfNwwf2/fsHRroiuwpnjqFWCm59XfWX4Q0Gp/m6YxnnPM8Ge0JyVRM/jv3RsgL4zeC7V7P0+lNqgsVCOiJZl8+kBChkZ2wTummRjHu8QFSksjht9TxwCiy9RdKV04wpZupVEtBtjiUD44/8vCDVt++qVR/9rUXF+2zX3VyAgjGx690LnoEdo2/h4CtrFvuUZS6BfAccyOt+6c5Mj+dTBeGKrVJIOnrY+WbNjz5wXcfQAfEp3KB9TBgUpNynzms14Bx7htMTl6ikNecA4XyquBz7nm8lkIu7sdKxNU8Ec84yS72g6Jl5SSEi0uyG5S5o4qt0iky0czkmG6xC4LpECvxieBX33/k5rOPfObZ7ffe/8Bd997/1POvjFcbqUwpkco1M3x2LJtmPoCJVTY9UeYTl2M5lsRRtHNOa1JsPVHXWJ5kFwVz1Xq1wrZU4GM25T5rTwLTAPr0qpCAMSUTPndtW9roSrkArZSRQtPwuNIquIqjGrKbc2lKK0v99PCipa+Vxq6/9e7RkdyvfujUfQrpSUIr1Xx2UFqyP80XUzl9UlmK29MdirWPB6Fkr2f7qpTWZ5zja0FxQDb3Ilut0RzMA6afe9o9kdJgPZJTXj7AxHSIaZL/NtOeWKJdKzNTHdoSEzxrCTQqWprNHndtRn1uP18NzITs45LR43Dreh75eGwsxHvixNP9Glq6uQiiTI0oLFJ0JLbsOkbtVoFxOW3YmbJniHSoQRs/pA5E8ovbyVKIQyeg41j3wrwLbTcJu4XvZHF2efLuclr7VLGNJvzCDwHcW724ylKV7Wrn+IcPiPwzPSuheCZCKJi78X48s8pIDloNh461dAG7WiKdPnxt4UPnvfv//vO/WXnQsdt3bEplhzjDZGyinCtw/mA4mzFkMHsGkRoRzRGzNValYh8oK+bpVLZcnkxnB3eUd1x78x0nnXjAwGgwPlbLjuoTyrVqlc/AQww67eBiFj5wNnkgi/s7pGqRp4uGZ9VbR87zCKQN0cEhhWtMEdi1To+rVrh5YZHMaStsouZmRSuKwfLDho877KQPnnvSE8++dstd9971s4cfePTJ7MBIYWhRPZUtjU2Mb2M1v7B0ZJCXHupemEDwDkenyLh8EkG1zIRK/TYhQnnY5GDFw5K6pquiISyuSVd3YaCPnUd5LYmD8PYWLGrjvIpBIIfw8ZE5mfFKZuvE5MDCJVs2PX3pVdcP5tMfPf+kRenMZKOZt4pzV04L0qsLDtKpVgoZ7Jj2bAfsRtugK4oB3gJsUReAUVtvZrWeQODp/EA5yUFyevNWr/tvoFar1b0V7KqFR47ZrCa0fRfTgG9mDz/8MDOfVatWERlXWoy2792DNdAV2VvPrqv6/amnRSE9wHpU44aWLiqaymWKoDO9UU5R7a6+djnduClxiTIX800tRoZRO1eueAZhjqq/zirtnFUvtJZFZz67WSiamUEiP5+ELDqLI6wldYWhWsPRdwY+c48SS6ijB0t3bpqn6uruLJHFR36xiPzdU07FAB9Bl+SCWXeWQ2kAFOCr88468K//RyJfHyvXM7VqqlyuFQZGMcTR0ecmmONg+G+GHGlsIZgMZwSSDYMKlu5Zr63zadsES8yElB999qXb73puzVmrs5k0OgaFZrN5Dt7UC+JMVrYgnRzq4Z8fimDuRWonh9JrU5SOAg9uSvXtyd7IEGRA2+YkBPchwBWwc85VEK9L9A3bdFpnhgZAfOynlg0HS9cvXnfw2a+ce/ZYpXHlNTdcc8MtmzeP5weGi9lCrVlNTJQzqSGdIUMu2E86o6YaAL6hNXvQHUdkYp+XTGONw75dApopjP6djkylHRU7g4ZDkbv+oGiV0MVb07Bze7D21xYK6iSMc0cqsbI8VqlkBnNLV+732otP/Odl1y4cGf2lcw5nhjlWDQopnXmJYzLCJFAFYZIypc6uQuzOEa4xyg7HgDuY+6qrrrrzzjsJ2XfffT/5yU/aaj1FgMBMdHoqDsmfe+65b3zjG5s3b/7CF76wZs0aksO8JyZ7FrGplEaL27MkfxOkZYV++/btF1100bXXXov/U5/61Lp16xYvXvwmZN3P4s3UQFdkjxDqd50seOzWe1pEnMcjZHNH4zOdrXX1LTn0hF1a076Z91YWy9Egjo3YYR8D3IEicm61LGb2u3OCwjXOQLe7rmeL11drLvH73dXfopyYmL6NC5JyA4giFuShJO4Pj3exhLvGa5znPgYZvc+bWwnpnlYLnNYIPF3oYZZC6Sgnprd17K0B0FreDQI+kvRff/PCv/7Kvy1edcjmUrlUS+QXD27eviPHR5XA4dPdrM87Unm1OvQaZHJ58ERpopbN5GuVWjKdn5wsX3H1daes+9UD9hF37KhzqQQWJXOEHSq4kLHlM12+trvp8iiakLhTiAucG7+2DOYWAJ4CdFMBeCK5aWhUChYx9p7Cas9tMqCv4LSbCgb4GUA6i48kxASfUzKH9gl2lJP/54Vn/PaFZzz0ZPmHV11z3Y037di6vTi8MFdYVNNmAh1rmkxnZZSPRUe9kc+NsldXGxcwWa/WOIQUpJhSpm6tONKk1yce9NNSLB/bEj7TLbt43QNlNJTavpZlzK0OKaerC0iaw6ND27dtbuQyo0tXb9n00vd+cONgYeg9p+zL14pL7AvGrCvBThX0J5N9zCxmynpPiKPg8QZPZT344IOXXHIJgUuXLl2zZs1ZZ521kwvPLNsD4x5//PGPf/zjMGTmzBuAPUE385GRqRGtNN5Q4/75cNy70vBGCIOlb37zmzQD2hgN45hjjrEXO3tXQd/qpen6hEc9r+GGqV5eXbBTGg+Meb2niy5bhwcji9hoiJ0eMgt9l1x2l2BfHASKShaTjWjnDCgbzI/G+BhZ7164AnNC7g63GA+FhGtmc2PaWf1T1dTCRez3BDeznLZmHx4P7pYRw62XUp+W6t2vLruqrGIVPkFh/TvuIUyfNReTxF2nmo84zCpgpRJksILIVmuVcqWOrTXp6QUmq8EvnXfsHRvuvuW+J4b3OThoFLZu25HIYo3Dls5p6+L2vHfLyTXpELY6Ghb8NWNChawdVzn5kLVW+OZTWHk/8sRTN9x8+9oPvR0hSuVatojVQYal2GoMC8ZVASPxdO8Q/IDdTRIStmjT0ipcaprSW8eQeL67yk+WHDfqIHy4aOo+1OXWry0PyQXQdzdQs7WayqpXq0x4UplkNsfHvVimpr5yOU3JJuvBUWtyx/3m+774m+97/Onx+x987Ibb7906Vtq6ZftkudKo6iieAnsX0umx1zemWPrOFsDD1ILOlIdVJskAb5Mw06fXqoebVt0I5D29aMOW5G3SEloGqYiyBdOKBkXUNNoV2LKuNjgGM8cneNO53OCC5Q89+ez3Lv/JymUfPuqgfDbJxIaZSSWfyuhFBymtDu3ai1i7D63XM5AUhbDEjmk4ZjOLFi3asmXLd77zHVbuDz74YOkqkTDj+56Ex6QHVkwSWLlfsGABXdnY2Njo6GhPTPYgYrSkGauboLvHfA+S/c0Q1WaJIyMjzz77LI2Blkaj2otnem+GTnfLPLoi+7i08ScEv7rmucJ62DC8hsPYdJ7+LpwhOL5AKNfV+8jIE5chCtsdf03ODqv1thgo9ckhuvuxMVwFccFTt7ukbC4jMuuFbRdam4q0S2VlaQ/f3UK6yYlZAlH8R2CjsekRlgy65X8U5bxdtDOv0opzBEri/hmYmTBG4Pxh+mnhKghPaCc2iA+qYn8q2ynT+XLNUKYo82DGILjw479030NfDmrlTGb49R2lwYFBPntqyul1sEQkE0HGTEGqCrKv1TnIvVqdEDIDVwLi09kbbrz5yANWnHDM6nQ2Xa7W8pyPov6CUxKdkylK6OhETPviHBUv7o8IO/96efBMU3tETvAb77CxoWQUitKgHvoJO5wmLBrFouxR4SROrTyhLYCFvKNvVislID5IvVwNgPmgfOzqNVNLBMeuHdhv6TEfOu+YFzYFjz7x/BNPPvXMCy+/8PJrL23csnX75IJlK6v1WnVigg26mcwAZj58K6oyXkpkOW1ezjQp5XTq3uMdviOf44VJmIYY6w85v1/J2JWtGqD44aNG3tyQNRttxyZ2LF60oJLMTIyXislCNr/46Rc2Xfy9KxZ/5oLVC7U7uMb3k/mKFY63PLQWa2S63yOdbM8cEvWG7yBv3EEHHbRs2bLbb7/96quvXr16NXCfOQ0a6hWEkZAZwrZt27DBoBKZSOzFsJ4W4GE9ft9L7JEt440RmnEc96UvfemWW24hhwsuuIDb+W3OfmME7HPdNRqYE7Jvz4ouxh4b72mncSFudUbjGH06YwYDtQ5GcBvDtOrCwcrq7q2H53MqXbjsccEyko3Gs2mAQUdeMHiGf9AQEA6tEXBxmjIEYOW2gb51dhTXlRuNCeDg6tDhUT4Sg4St1hQRVcdfpXFLiVEsC4eOr6tEBbpKDEdUymKxEfUe9mszSenKOeeRH0/ozK8raITK0geGIKCG0BIf00G/VjdOI46Pjv6QC3/whSgXj4VxBfFqsVbNRE+TIw+lwN/VQRyPU1p33xIep4n5GwGWDCB7DYEBq+YqCYcP8slP9iNWgjUrR848+W3fufae+nByaMF+lWo5B2p0Uoe7MiWoMkyEBQl5+/JFsFXhtD9OfnH0jRxgtNYYHChse32smcHqplErV4YGF/zs6aduvueR9Uet5rNZzRpr9+zY5RDzaJUX+3tCFaJV5mYCA/Gpxuz0ZqUPxWj7ifRMIaQ3Hj4HKZFN9t6taeemw7ZMeg0wlXRJRY1YE5GmWWDPF7GGaroqY69zlrV6XBM0z+J1E4ifd1sEUQoqWzKgQzNXLwlWLNz31LftWyoHGzdXXnhx06uvbbv3wUeffXHj08+9OFFpFAYXFgYHm7XGRLlaWDDKR6zEkrMlqVO3vVY1Z71Og+8Gq72pL2nVlgSZ0UXTMjUVNTRXMjV7bsiMJ8i1Ig0lXvODg8MTLNgnMlQ12wBGl61qljdfecPt648+6JzTjlyWS2JsUeCps2cH0WZU5ozi7RaRIHWW1QHcIHvTOauqLKkecsghxx577L333guyP+GEE44//ngwq0ypenTgNnQLmocnswhuyWvv3kHr2xKqsqZFiH830qP+9jZyq/0TTzzx6KOPpsn11bK3VXBUnq7I3noZPRiOlGdDvageEfpj9fEW7j1GH7Gd+mX01B6wesVhWobldDVgexwcWC1KNCp8VbEM2BBAShUb7gANNkhNpY98dEaRd06/Tt45Uc5MRH86M0FLLF2nD4kPhaYfL5XW0YFTjWRlfAL8k0slOYquMDhEYveH4S3lxcugiACYkzLoOp1L/ZjRWpRgtVeXMed7MJBo2yd0SRZlpyNBL1wXD9vrmCFUqrVsnvM5dI4yn9Upl8fSssflFD4GCn1JlOPQG+y9Q8J6VcdszNl160p6HbS6tbdu/DsKSAWpRfumHCOqVTFpjpwDhELnbAYtb88nMGdQXYCiqBoMVvSUCO4TxhVHrYVACFMevsuDtCgW8ISmWHrTSmZKaUKnhFST7hyTeMNx/OAbtStHI1JFqPrlQiL3o0erA4Mojl/2zUZtCw8PNPfNWq2YTVcbwdlnnHD/s6888MpYtbK1XEvlsjm1N31dqN6gKYDFkmntXKQdGLh3+Jgdkdwz6aHlcWI8DdBEcJHyNxuaJJTHtuay6SYfu01mUvmhUjNXH1n9jR9vOPOcs9fvm2T9Wa2ZXZ0YXlAK3iTQFmvVRK3CGYdjvGHghJAmYHNaeaHs5qQYbRaEkxjKSSD5vdK8B6X11Hgcu14vToxo3uJ07yWbYoWIocOHMlEnsDt0xkFrk/GeiWhoXTchpYXvYtLByoHs0fuurAcrXz/l8Fde2/zya9uef/nVO+978O57H6iVykuXrhyvYp1Fx6u5FmY+2cxgIpXFMp+PYDHwcygLh61Xq2UafjqXIkRL5pJbcByH367WPm1FwG0BVgz/SZhkZoIPP/+jvp2q4dbK5yLlpwZ4k5AIss0Gx1pykn1jG6f4I9/y/f7x25cuP3B1cf/RYnZoR6k6SlF51Cr1YMBrxtjseVeW1U1o+kAqlQY5OTnJuey/8Au/cPnll2/YsIH9r0cccQRWE/TGXCHAOfVLw5aqW7Ehg4CttxCYaTW31GM3euqRpwAaPEZmIaS11wWWNVdCjAA/AsMwbiyEqExRrG10y6uncNaVXZtXdZMjUtkDgBjcmiSIbbFcibXcTVSjh8zWp31xoCQKBxkFxxHiA2FiIRCYwkmOBz6olAKiExK2F5NA40OUMTdpLdDKQrjnj+RQ+tyNrOWKzJYED1EYbsUJ4OCzsFOVCIGhyWbwybRk9eiz6yh/nDME5kiCI4pbOHO1WyO2WyTk1pNZoBHjtwoyMSCjkUBJLM6SeIZ+8hnPxerOsuNKFI60PmRmD8SI5/NqIbZY06FpGL/JQyqf0PyE+8cBPl5sJOSWAiK/GT5BD2dfNS2ZvnG3XZF99yxVtXN0LO66cZQxQ8vz/z97dwIf21Hdib/VUmt7ixcwYDDgZ2BYjQ2GgG3AxjaY3WwBwhrAQCBAQiaZmfwnn8lnZhI+M5ONz5BkkpCQDMMWCGuAsNgsxoQYAmbfAibEBoz3t0hP6m5J/++5p7vUklp66uen57eoXr9S3apTp845Vbfur+pW1dVp29HFi2n7yk0MzzfM4LRa8Sxpzc82W5Z+du6JpWWM9j7Hlib1vXLWQN/4QSMHHVGsJqfDHBTNdqp5MWC6dL7p+yw1q5nnW3v3TmkX1RxcAsT0oapKav6i7SMpk6u0IOm9FBkYxv/FLEm4D78FzXm7766bAfOAUgzswGsNLZAzXrDEVHV89b0xVwGUcQQp3j4Yd5KtGe5LOJisD2wAAEAASURBVLH6w6YvvebTN341/n2J2ab6bmefRA+ljI36qoIV4nAQYWuh3YQozHBvHw9MHHd17DEtNcB6zL5ad7OsPvISccm+jKCPbLc+qrfGlB0SD9dmp/ZYfvPAB9z13ve++1d+9MWtd7jLaMyum3aH4cPaYQqwurOhNu4vAC+FcdPOFcEr9NZNiXRveyogR0ks4oHgOWk6fr423mpsGx2tv+cjl570gsecONnQlnRJiHCLNRsKrF7wJSLX+Bzms6Klpwir+cRyMH/WobxcchiUz2r8B41PGRZzFbMtRvWGInl5lt70DCcT/tIOPe+R6FGdq3PHY4+/z47jb9x55wseecau6dkrv/r1y774lY9/4WuNY263bevtxsfH3Pvt2d0jY1vHxrc7FsniqNZs0zbridExdm+2W1NTUxVcq+bbcTXAi+d75wGfjUodRVuO11khWjF9yln8TO1tJJKIq6lVw4N4UehpYQbBM9TqsfnmyFvf85F7/cZzkd1uvNGcao+ag6jGqIXnkRQA963JednLXva9733PtP0jHvGIZz3rWTkG0OFEn9N160c23Rz7/guIFCySZSWOAVyAM21AasFnCAqm1xgQcAV3RvtwP3fdoNJmduUqpVekEiYYHMYJlEileXCLkUuJibHYE7dUpFcM4d5LwsvL1Lh5yiQASFbYYpXqpMqIyVaOE+1queRvMkeGmzBWKU9KS3IMxfOVVay6hIUxbHW0QGaUlHllydoRqGzQTrNnO0EjMu2WbA3AiJplSULAJYdlxZXLLKLQuJTkMgNR09VoCp9UM/3MXnIpS3y6wlmAtPkcl5Tx2CbDYgc2EZl6Ud8ltlmJsmRGI4TS3nr5C0tCIwvnMv1CQzDMs3Il0UKSGK7XMpmUecVzxEYjJiPlIhinLJKIXCZhEpdyD0Jg6YNgAwqkvhl6cD550zAWhyzErNz8zNTC/HR7dk9r7656Y7Q+us3XCOPr5/1cqft+iX3iBqXvw6KKUoerJQ0Un5MklfrRdDIvSNhw5EVrZmhhr4XOVh3EYw2miWc5i1mgwBfub5OBBFgPMSA1tNCqmVH1IXhfE52fH51ozO2dXth7s69jxmuECtV58UJC78uBrhHv8hf77X0Xstpkka18+87cQ5E9Qk9EJ7ga/5WUnZiYYe7j1FGpphKoz+/1SSXKxwF8E4Gi8ntKbW82xozIupwC1g9klT4CbExUCFZx7oraU0x013O1yUbtnLPP/OQ/f/v6W66vjx7XsPaBLuGq1hFNV5uMEWNZRdbDY9Wgzq6YEVGnQ1ywniSOsP/oJy9/xIPve+FDTzICqMaVxZSmBIwB4i4wqjRhXyZ9Vy1pRUIpNwI4HdEu78WVWjoPh6Eh4TscP2b64E61xsl3O/O8C8781bnaRy/9ykc+/LGrr75mfMuxx2w7vt3evefGXfVRn/gZbzTGrATaOzOrEzSfv2VyG4QRzUENVqCiM7SLUpe0qPIicVBjV+1E81CEurYCy/SCwkaGRyauuOKrb3/nnV/1nHMNo8ct3rJ9WF+5tNxBiztk6U27OsPktNNOO++88y655JLXv/71zjCx+L5X4IKKAJSCJHoJ9iOc92nenjBWoqLCpyDLjAFlslx3FmHkAnrEuJSXLyySKxwGDWR2OC9u3gp1JTzt5Vl0VyiResc/ciW2Izl7ltITHiSIxKoXLVTILaCbyHSYoOGzM0lyplmhSbkS1qeoWVaiPXyWmS6lSg5FF5dFwmWBkp1gxE7KklEAoCzlpsA4FMskN5deNaCUvQzGJBFmNWSMsxIpLiB7KTGbXMpfRKWsGMqmkIVeLpGFTKqwyBJfBBaTMudrB2QUl8oJ8wvid6m4YhaXfV3Rq7dQlPIqi7T8zEgjnRuzZKsoAiu0lwYfSSmkjGkHAYIV2XDgkHGSUnjhwidL3FB/YGRPyrDx+lxO0alEszuRMXKajANXW+ZkmjO7R8faYyPt6blpM4ZhhLm5kWqyE4hA1OvXjNyWxvSmrgx3ltSu4LOScu2Y8eGRgcqdtzi0n5wjdTOUAY6kFtmsZYFbms2pkXr7mK3jZiw9yMyeaj2OrKvmsBglf2HF/XCV1dddYwu1sdFG25sTQw5aDHuzP7dz6sbJkfnG3MyIaXsv1n3FMmbRjM9IaFYtxFrbhr2p7NDXPnMzcUZHL+XaYRs++9Kvxr8vt7AnLNnPuTMzOltt+o3a9PjEcHtmKqukVEh1n7tKVgIB6/VeyDpevyL6xmVBfZMOXGQlV8UuVfBaxjTs6MT4nqnpubHJh592u3PPeshb//7Tk05YtIhoyKOanfTXTD4cD3DGj6MVOwuZKBu/SnRJa8gpa6+CLplOi7hl79wln/vnn3vgSdYlbPeSGfc4AyZuFqPHat0XKmMJEf1vhF62RYCoj/gfmRCkZAJcfy4l55EVoPjk2Mjepremjh8dNgZ1FJKXZCcYnbZqF190ut+//Lj2qU99/vIrvnTtDTdMDvu20ezC/IwvRDlGacSSKM+wmfnmTCyxwKSaqvdsjrbApZVjtp7TxVV+dTGoV82uBQtP06ryg5knhmaybWx89u/+7qOPP+tREyfVvSocHrMb2QaM6IUGLebQp0+8SO3nP//5jrX50pe+9D//5//8y7/8ywQo5K9gQyybES6Rt16vqjY7bDCPgVwFXyCeBFLKFSAYygJlhMVXt1XkFZ/IpsOouvukklPGErmeQOJ4lBjKi0kvGlvGAf+E9eJTkbRMNNoKkBV63JahUkloADVJSqECjUS6FIlY6alvKaJwY5BiimKEDJT4ZEuqjC+IM5kk0FzbOCkzqaiTIuGmgojN4aOsLE48hgpCnDzRC0uVhFgqLQQAaC1tbXycJRZlo7CqHvlEkso4mYq5S2E+RwA0fGQihfmIJSV98RFwJXvylzGlFcgiXMqS8RlIy69ht7RDcuglE++yMMRNETnaIV6KKpLd0BQFZZHEyS5VEs5syJfEZQyCNGkRNaUVv1J3SRvhBrvN9kOCmAWOCZyAtPSs+uyYlp9rzkzU2w++/z3vf7c71lpTjsloDcWq7oZ5mlobQQKj4htblfDK1JUx2Y5Wxm90jA+795Uz5WGCTNV5kISqgEt7rgnTHzs+fK+7nzhmMljbtU422jCSGBRV4cr28QyN5+aGOYUBcU2watSicA/z2YWRub0POvU+9z35xNH52RFfw6FJCDHsoUoMFaeu1m/VA1Uva9t5nfKQP+69fhbtvQOj2SZlrVWf23Ovk09SR1EVjr6PtZKMkV1bGCRQT9V60yfJoeWqkbNGyBE3f8LNPVMxqbVlfG9MltaecN4jv/Dlb96wp7lgU0HguOrmheZBLx1aLJTQMuWL/1VDiFHZ2spmr8ePbFWvHX8sprbD5tg7feFr37/symsuePhJHgKNuNfDkm4QmzoQWBcWZtbyNNDKzEGwbhfFVcRZlevOd2QQRpfjGTvmBVPc3lFdWxtRy1Za3aF6yTXVqp16l9r9n3/mC37+zH/60tX//NXvfPGr35xuzeyZMRwYmbfEfsQU/kS8ovOojupTjVVDEI5ar5YTLFqrahWdy8Fqy9Axmpd1/gZ0Gke0DxEjc63atq132jPdfN8HL7nnKx67p107ZrRapzUY+0URD/EQvJXTlne/+90f//jHX3PNNd/97ncdgvm0pz0NzijNOAMgxQFUB8ZSy+oXECyYz1yvyLxMBKNEsFI/mc4lAkhILjEJhsTgloASQ/GDypkjHNw4yuJAhsJWAGbAM8kURIC0ibB4CIwZU5e8LPFFsIxHQ6+iLya044uEwlM1NFyvFuLFkA0TLovuDWCSBHzxxOOyaJeYpzwCJa/4lU5qcpDUi0oJjGFWBCaZETG2fPFSxWcSaYmaPkqKUK2wXVlob4xcmUUuThhzjuWzahSnFMUVMpxT7LRqFi2G+pLSFfFcFjNa9Zc2F5NlySIjzsSQRaqkpBFfNEKwzKV5RSZZSRWPc8ogKZ1UMVkingpdybnkKqxkMf6ku0BGYi4jni6TPjlnTMm4oYGBe4QwwbolCljPVhW4j4zV89UpFxjU55vj9flT733yRefddXsj9n4ZBDGMW6Tv3V896tdd8CpMBsjfJR203G6+Vf8W8wmY5YJd6KsafKTTR4FSfd+Rifw5Cug+uvYD0AQPLuHXqhL1JFjq19ZROpZOLbXnWk4wmR5ZmD3rwac+9YK7mOprVDUqA8lzsts93hWwh8/gwb6VvgabA1UvWR1Kx7DXd0pLidGIM4zYLOGW0U5DBZJ1PAE+JEQzTyViaOce6WQZ0DpRXf1c6TX6JQ4aFzKlshkg7ujkeHzmNDavOk6+dvopI48+8/S/fueHt51gPQZkH6vS4kgSgzh78oDs6LTpWL2GqvQlt99qcorvVS0vNbMFn06VbXTrdbv2fPTyLz70jJM8wbfF14z0ErFW22qvCtybs9cso9FF97HC9TIviYirth9/IxjV1A1UMUeNN++4zDHH7FT2sFja86bhAJrh2tTO2S2TYw7QZFUttjFWe9xZdz3nrLt+618e8U9f+vqln/3iD6++rt7YOrnt9q3Wnj0zrbFjjosq1uS9U4k2b/cNwJVzN2nOjrW7th3wBoiW6emq07KrxzeLISdvjWJfdbPlO1Z3/eznrnzieWc9/H5bCewIhu591i3tSPnrnEqzqomTnvGMZ1x22WU+TPvOd77TITknn3zysrssscgBUR1qhEsSYwHN11577dVXXw1p/eAHP1AokbZt2+aknRNPPPEud7mLcFLKRVQADr6BaciTfIiUmPJnP/vZT3/6U3OizuYfSE64/Pvf/75yd+zYga1bmBjKEk7gBd4V9Z3sCWtef/31Prgro4X1zEgSWU444QQ7khPnYYIhMRCneAnLxDsh1CDquuuu+8lPfkJruvgIwJ0q5xBS4SwLkhNQNObyMkL0LV1XwgJsQk4Mqc+YN954I6mUS57jjz8eT58a8AlYZISU1LtkqMsv/krlMJQ3idUOyxCSvvi7JE/yVEFZO2JkIWSySpyKD+NcddVViDmKoCk27C00w+QXyIq2sfvHP/6x2rzhhhvootBsD9u3b/fhBcezpj3Ry5VsezkLGyKKZ/+MR4+SCgyu+jBUhFrgE96BToxDSN9kYKs0DvUpwuFQmKwUO2NomnVN61tuuUUtsBXmWjWNDEswv/Od78xcKgJN5sJ2pfxKlCoJmXDagah4amZYMQKBTzrpJHZwmaZgfMRZZSntaqIe2PiBkf2gxccjwKAqpqhhCZBgzlyM54sHQnP65pH2XrDeA0eaOTmGJVDfR8EA8LQS0TNnUFEPCP1qci7KU+SqJj297NQlAPT2qkKNxvOGoyFJ1YpCCcklywERcU0mBhgjjeiM5lvtOFdnfm52ZvqE47dZIuEXq8wrYQiVL9+r/qzy1mRbEhftUKL2K7BvO6+TbaVOwty+fmKY8EPl+oLJTut7K/VzRXi0WjXUhfUD2GKdEh5gsiWNiSLVtenPurkgN6K3zrZz++LpBWeefuknP7NrbgawtlTHwqvWgg+AWjEW+mqe+jf3bLbU6g4WXsJ8meDZb+rWS7wY5dmaOeR4lrHtV373Xz/3pX97zBl33RpFxOOEWKZ3ql211tkvAPc2m5fsAwWUm8KFAGuJORDXQ5xY9XLRlfgAkoDZLVNSk9XGU48cY9Jj3NksyqxxrKjKj8/c6oDOuNfEaff6uQvP+7nPXP71j196+Xe//y+N0S13OOEuU+2Zls8RxAp3/zSGeIUScCsycd3aybcuEcHWA5g7QH2sxVLbxA6+UV1D8RHedss5n3MLzcaHPvape+948u0nAv4rdQDulYiHhacHJicfvhH49//+39tBC1F94AMfePaznw1qphYHHCsk9oWHfLPW5l2nnlsI5BKMIwmMAlVv2bJlx44dD33oQ0899dSzzjoL6pJLfII/AbJlWEBVammXXnrpRz/6UXDnz//8z1Pydfr/+I//+Ld/+7fQ0ktf+lJaEwBgSiFLKSKvuuoq7zRgrG9961u+wSRQ0KFCoUlGO+ecc2AvoJxIifbgLdJiqE8A9b785S/7gIBvALMzFIg/znzg9R73uIcxlaNIzzvvPEzwhLAlJXTu7dNKOAMwq6NLqc+M2CpOPMcmcCpMaahzn/vc5/6VY0k8+zotIXrLajgBmNL3C1/4Ap5f//rXgXsOZ6lEBVIZirT3u9/9VBDkmlBY9sSaAsZpv/d7v6dog0ZKrdGKlJtVCXZrEl+s3A9/+ENjJ5ZUaEplLKE4SjzmMY/RNgBcWrAeTXvVyeojj0jDGOCY/IZSWppa08YowrDYopGXYAK42WGipTmp85RTTlGWeG1SUkpOht5SesNZ0ZD3d77zHZXLaMoifDZmRWhLxgwM5SRQplDRmjdD4Zyq4ZZaZFkMQlTD7M9//vNYGa1RxIAEMUOlqAz7uMc9Diuc8ZdKo2xmyaRXwg0Kbziy78pdzdgFvo8jrq23sW90bnZvfW4m8KL7Xz/mAU4cD5h4uCx3TkFbHnX4X0fnHWMZqjtRUEvSbXVPwhGbzXXVRhuZD7TzcLe+xqmXUwZhE+N2T7Zv2bVzaveuem27CiBrgLm4Wyt8FA93fV90f0eqyzukWrMQekNGHQwzX2vOzhqP6a2g4hGznd3l9YewKQLqlb62C+tD3vbe6ZGJyfj6T621ZbRhTc6D7rn1ieed/e5P/HN7Pj6JBBM6/t48THxoSE8Kb1f26ODl4LGulqoH7O3udXy68rHRSWeX3zj9k0987opzz7jb3oWFCe8HFND59kXFPVb7aGnrKiUy9HO9RfdLP2Lj5pxyM1INmGZjeUAsuTVGFxG3r8099qi6jLUNcejoyPhUa360Uf93d6jd9emnPuKMU6+44muf+ew/ffV7391y4ikxrItZK3255VHWDQ472LJ69dhtWh1YH6PAwQ2qG5QppmZt5shBWKzDWvCsDRg/vu12V3z5G//45Xs97uz7eE5YIXQEPhhqNfAiYT1UCp2YUPyVX/kVHxhyDqbj7c34RiVWjrHKxOTg1u6TA2L7yEc+YghhShjABVZs3gV6QEYFAtBgDZz07W9/GzDlP+UpTwG8yJO8ErukX263f/3XfwWqYLI+5a0ZBeoBk6AYVnhCSEmemBKWgqsMP97//vdfeeWVbMUUQBt5zj77bEYjM8EA2Uc/+tEQub4aHJSLbVEmhtPmv/GNb3zoQx/6h3/4BzPHibbhVJPQCBjB6ILWHNz8ta997RWveAXERp6Ea6l40TTFK5e///u/z0QgIKmY0TcKwG6KEMkgBPNPVU5ZRm6/8Au/QLy+9iC5eBkhbGMk+qoCwwPAHYjniG0eXdV89atfVRzcSYWLLrroSU96klcN5KGmAUn1tAozohSZl2pcUt9yE9Ybk3zsYx97z3vew1BsYqAFuVKEk1ekQg1gwHR1QZGnPvWp3s9kG8A2S0n5dTwCKpQWDG5ARWyyGdUwAi34zMvUOCuXmmz+mc98xojLyrTnPOc5zokykV+EL8z7yi8VByMrB0ypCLVw3/ve1/DDaEqSsYRaID9JtE+l/9Ef/ZEqgMJVa9YstlmbLj2qKPje975Xk9Dw6EiYnKSXyuzGWopjDQKzPPsbiig0ZSsM+4p6YCMTtwzAM4Qb5NmKPuBf5YBBNorDcqJamuNjw2ON6JfNvXgCxFo1D3OvdzvQaalUBY8sjT6sr+JhWmvHPtrqGesAiLDAMk3DJqFlWn1Z4j7VD8Ovv8Lik5amE+acHN4YbuxtTtlLsu3Y44yiFaSOYgl5OI92U/ZV44mH9348v5PPYeargviWUiV1IPy4Y7ujmhi0HgB1oro20pXF8MuKGZnYGogtul1vZ2N1HMV+6QXnfvyyf951y83jW283uXXb9XtajuQfnRgzv6tbjF20cZQVTp3pDcy9lOsrPvoSX3p8wFCZo+OTtk83JrZO7xn57Be+dtkV93/smfezUISdbfnUX3i6NGv2zw23TFzFJrDCKQIo+H3thrDTYJfkOJIvltomNXV7zvswQVzYwdOBDpVhkrqzok7MfBxUFEYzLx/3up8/D7h77dS7P/Ds0+/18cu+8NcfuLTZ2LJl63ZLsPfsbTlCZ2zL1tn2nKOznB0A4Oe8oEcgPpZ1aCnZdWUF9a2mEKzrqtqMkSOnnUD2Pn1Qm2+MNbbdctPNo2Oju/e297bnfnDNDTc0508YnWxbr9Pu7F9MpCUjoFCepl3Gh9lfuFOzB90owg7A/QUXXAAugLn/7//9v5NPPtl6GCpBqMhyYnIgDXFOjJW5mJ31FITb2972tv/7f/+vSwT/6T/9pyc+8YnAfdyHMZzr3MUg6Vvf+laz6Zb+w4i/+7u/C0xnpQNGpkghM9w4/PHBIbcnDiQkYvJoUdCkMJEK8C3M6Q7zgW5GOy94wQsgTggeTMyVG6kXsZmRz+FTtbE4fT+VgtX+7M/+DCDD/zWveQ00Zs5VE1J0Er/61a82Xf32t7/93e9+N33p/id/8icUTIYkST6yZ+PPRm5m3ZsWUM+lhUC/9mu/psqYKG0iiyowcALs3/e+91EBQCzaKZfLys1wqaz/83/+DxgK8hpr0RdIJYkicMP5F3/xFyWZU/+Lv/gLU9Qvf/nLwXoc6AK7GyZlLRAVc/TiSVJgfWkVvXeQSMvA3vKWt2iTgOwLX/jCRz3qUXLhQOBU1uVnP/vZN7/5zdDzH/7hH3ph4sBWqUyU9kFADMRJzw5GYhqzoZc94ubjOcIoiw1xRpbGlAs3KmtsXqoYIho2MCyZaSG18CdzUUR8DlfMqRsP24NOkoc//OEyspuwsogni1Lo9cEPflDleoeQ1hDTe09VUscaMIDeRnbykPC3f/u3n/CEJyAjAFZSCe9SU/nwhz+cNxFpDch37Nih+optyXYQ3MDIfj9k0kt34VBnCUc8z8PFau0AhlHpTlQ0/VPt8KrSjgrPg6tO7bRGPIAZI5ASg+RD9+BaoVr8UPXgMUNWfX4gVrzGjBwXUnZkqwT2uvxoq69K/R5kmRVXVVK3vrIWRQmIi6ntQ9gRMiq2I3y2PXPyw5ZdGXFabvTkC89587s+PLwwM3XLTeOjx9YnxqYdkDI+avo+1Qoo7/aOAXnFbBBl3f/NOeUMjU9O7txz08T248fbQ+/6+48/5LT7mYzVuEzI6lX3zkyNbz/Gmv5qA+0gBWzSdiyQVZM3rEabjVIgd+pnb4NGTDRpzcEBUKNjkzbSm9n3APUq8fR7TZxy8jlnn3/OG9709iu/9s3b3+nOjcnGzqld7aH50bEJp6gYgbVmZh2QOTExFo/YGJaZxQmGg7ikJ4JnQSV25e/eO73tmGNas1Nzw41tk8d/6OOXPfysU7fd9ZixIcgvtYupQU9cz+wCgwYp99CiTQAEdgikXpDra1/72l/91V+9/PLLoRxhYAKkIPcyILIeTZgIiMEZMWjCbmL4f/VXfwXWm498+tOfbn408XqCrUSBKZj5YJAFsvkv/+W/gDJ/8Ad/8Du/8ztQI2fiHI5PzuuRZP9oCowjFbGVa5KeTeiyrPYRJEaURHhac8IklASmg/Xw9xlnnPG6173OEiPEQDm4TLDUAsMHPvCB5onB6De84Q0mp1H+9//+3yF1RSeCTIwoS9pHjYC5Js7Nqf/yL/+y6du0DAKBVFnpJomf97znMaMXAnBnxqefQpawS0X8t//238zW45kjEAJQBA0x+BjyRRrY4Gbm2My0GBn5xjYGSPgIr3Q0xSoNJRVxgmwQXM2+4x3vAMHVOEWUjiEChWaJ2qGM5557rrdJ2o8h35/+6Z8ieMlLXqI4Dhl/ZaFiVJnRAp7ZzsmQDn2KhMYg7bnPfa7hhCGQAYa3B+iNHFJa7U1ZcuW9gD7F0wUB1sYhKojwL37xi1Uf5E2YFBhl1oWMRhc5XHGXicdQ6UVymmoS6v0//+f/zIasqhnIi4AM2UgyQAvDQvP01vYY/n36058WL1cqWMpVxEa7Tp+4ccVUqL3DvlO3eurorPPX0+8H3K8uAxAdNb80Sq/PWsvUT/uh6Vhw46or1j/kLw6eqAZk1QE+UTcK79RWPnEJyS0T9ci+7Bg+G2rHGN2W3EnLP2mGDb+7lpS53gtyl9uvmwem79ZcYPQYypm2H12oPeH8h55+77u399zcmG+NmjjX38V2kArWx7mXizP00RfHSG8wpR0vpEDDA9nrI+NDo1u+9PWrPv1P34jVadY4jTiucdTLgcbo8Kxl4s4cINmmW8sC2TiDIjuM4lfVvjRnaaadyld3nRGalXimIh1PPDzfGm7PDjkiZ6G2fbR26o7a63/rua956bMnatMzt/xkS2Ou4VvM7RmH946PDG0dnxgfM1M/Otd0+Fln397SItd3lQ8Im1oWzD3F+0FHdS6MLEw1p23zGN5yzPevvu4LV/7gxqklPaKHaOIqj/n1FXPoUlEEqHJTEDHurAqCw9PWi4Md73rXuywhSMQG2STZoMrIBeVwyuJkN41qtY+l4S996Utf+cpXgvUiGRNlmhRZgkjxlkzAZL/+67/uBYJpbyIlTkpRBxVmUPre2VklQtKEZJleWC+GI3lqpwiBogjFmQ4GTVRtTv3MM8/UhCiYrwjQIy7qQOHAH0wP/JkOt1pJoZgUyYWh4bw0NALB1aClKV4jsAy2ZBaQK6sM4kSA3rS6FeQCxbYgoHCKTQBsSeJ1QSJFVWO2HlrNsjJXr+KgKnqLfxgETfpMgW1mWc3PElEiUC7OCqUpqHrxxRc7owlClaQsrJLMJaNlU6SdtwQwN1NoD17mFC1WK1EW45Asl5rFnqWmQGr8ZfdO4+d//ucf+9jHmjL3DsGQLHnKwhVbiXTJ9+LIMMPyKst7tGdjEtUqiUgYZk0RG/80ILLc+SpvcktzURO9Qs3Wq1ZjvDe+8Y3WlbGqcYIk1sABGZunHUR6BWHVltGgKmOKTC1tKSXfUH+je8B4zBgm9+qgmw7sWMEH88EoAkdEx1K5ONFdXPTnR76fUBmK8UANK1Qu7NP5LZqlk3YQ/lRmX1pOyFPFhF8qKwJVZR3WNdXRInVZj9/HPkuttYibqxrdN/2y7Bt3ueQ+XF7MSHU0uKYYKN89q86B+7scV3viYx45OdLeCuYDa3unx4cbrdmZOLqkOh0pv0lU9fKOrqk0Xs551WtH4/h40lDDpOOeLRPjM7Otvc2h4+90j3d98FNXXx+7bdoelDY5jXi+xiEpTpooq4lWZbqZwAJLazqbYBWncvX5WU1V5191NWGziBPj57kYv2gFoIAFNmPDdYb3SZHWnPnGO0/WXvS0B/7Gq1986j1Pmpu+aWR+Zni+2Z7ZM71r555dOxfac14EzLUCmpi7D87rdj3TQIaIZDCa8Cm86AyHR+tTzd3AvXN69sw0T7jzKZ++/KszzZoPZZfnpScrt+7SDnVC+IA6tOODEYkIrY0xrwyOmCYHLEBD2KgX5q5fq4QvSQ/xWMVhrblpzvPPP/+Zz3wmUALZQCrEUHTivMRA1c3eKcd8M7BFBouPrVqWlMtg1i/GflMqi1S0ML/OArAarExgAfEpZN/2UCI/+clPWn5tiEJfk9z0lZFJEaSmZGMZ8ZkEw1mvbzWIeDPHFvAoJY2fE8aEScgId/70pz+1pPuRj3yk1UEiuTS4LMwlDGhmLjECfGXxMednQJgw4iFUM9bq3ew1gEtlcmaloESAkmMBS26UBde6TBoB7UeJqjKI+rlUuRRKfVk0BqgUuYGEvbaGNOzAwogVjRt6l4jJnxaTy9serdRGAm+WyCM74n5lRhwrGeckDfMSEp/US6TicBaJjw0GlvWbg7dXwep8FadoNErkc3Kl/KmmlTPGJMYD9oFwItkkbaUIZckib65lqhjEuy8BbLGioywsKSCX9fcO1fFSwlBWCydSWhi9cDEIhvLioKaMAw2H3KRGy/YSoCnVlMVtqL/h/aDnhTKsSchTBKulHZBgnGTnU0dzdl8ZqiLyvIkfZUW0as4zPhr8eFkN0+fUVIKqeCi7D/IXd3nYpHIuYtlp93JD/nqM+vn6lE8KxGR99VPoslJVaZmdPczrC14Z4JdT1JX6HRi05A6Khtzzi/rakGq69UyjfWX9xi1ZLYiL9rWI84Q0zZi5f9jp9/y50+7bnNoJwPn4guUZMH0FwmJcp9cLh1cYZGDnlM3Ykzs85wRDtmq2h7afcPK3f3jDuz/wT2wNWBpLDM3Pttp7fa5WvxBEm24fFuhOjvR0I9mfMGkMjXzdKd7MLJoy6j2SqtSoR32R3+jQiKdmRabfqc9bwSHWITs+MXDO6bf/7d+4+PHnnjm767r52d3HTNo25bHc9p073uhwwxdvAYt9SNonObsa3YtZeq1P90ie+ebc3oV6c3y7zb0ju/Y2RyeP+95VN/7ox5aGB/bSAHs5ebj2Xh6mYVCA5Il1BKiZE5wWyQCjV1xxhR2NCVCWqb9OfdNKiatksajGOh+gxMoEEMr0JGSTsCnXMBR5iFSKgL1M5ZrdByjtu+1NKjQbESjwC3MyKBfC5hiE2EQVw2XRCTrTzxgWA9pATyjN9lPH5rBDZsQEc3nZJw3L8pkkr3ivTax4sQfUtofeI3S09kJmJYy8zJjYnVRsSE4c8Of3VhmeBJZdZFYKPr2tWiTbKgs3yF52xMLIhNNPnnKlESyIEqNQnEsVi1nDKYVDQB5OwHpx4N6rDC9ntD0xysomkcZEpkQuAwjoqGhZmMicvWXuyZDf1xneEFISOTkWwFkATzg7i8OTUgZIkrw9cAIPe37iE59AkwJnP5O5UjAr5m1gSHpjEvxxJlhWgXiBpMwkPhWUkoUmWeHvXZaBnHcLBi18BaEnDzKtKPOmJBlWNfnax94Yu36NAdxZisMQwcFxIeLGOY//LhJd7GqrZR4x2WtBt7AEz5s4T7BCGCycY4Gjwjcv5bnlqcQK1bOpCpoLbVc/91k1L8okEiqCjassnLWG2BYJ0pmRVScxBwvDBVDo9JGl+MXro6m+esBQscSKgLrs/a1IP/QiUty4DatfR0uQe8ixOLVjJmpPuvDRjYWWVmHFxUKrORr7W9HqLvk5Ux8LWCP7YsNYl56ytOZnt20Z2zu9a4uVHKOTP71xatvt7vqJz3zh3673RWSfQvPc8GLaHtDGtIffgPzXJcSRQ5SbEZboU3Upnf6jhONe78ykxKuRrPbMBiT76XoqUxvKaRVxNRdfuPCtupl6c3pbPc7AveOxtZe94AkXv/B5e3fdPLXzJj3GdhXZGJ3dO2PO3tbXmamZbv+/RKR9XkR/E6MNzQx2cU6yKbSF0Yn6rDP1Z3c3JiZ2+rZWfevHPn55svJUhsbKY7s8ZfdZ0CFLUOAa1ThyJp6AaSwoN61uCYfNlLYGSkpkM5Au7tZetsAf8HHVVVeZkIZ0sUpogqxQoncvuoR+zKEmEhVz8sknA1vESzgLweyHPAMJj1hxHGFAK4MKIik0Z1hTr16GYlBmqxCQxLecyXEoXk2YhrfIBHLFIZsQZIa5XLKIoRFXGDpyx3oYmPWSSy5ht8ySRaRgmLOPMQMQzIzJQVLWKVZSi5CFM+IsEaUAAUoz9jrFKEKJZushReJpBsiMvlIdYU5YETLmZUlNCYt2mbrMRyOvcpMYE9PM5rzxtJpox44d6HurNQUQWRoqU7gHXWoSlqzYt+Adjg21GPYKuaxc9L31Ilwsk4i/twj8MbdsxmIYB9FgmyKl3ZJP+irXnL35eJsc+CIzPq2KScqZwrgsUuHpsthQpZDf2xLCmLC3wInxEVMWQ+WmHaJ9VKMFEqpcBDhok0bgBo3eNhhmsGcp5SAENhbZh4Z66Pi8TXGC0Hws5nZ+MkAf0CDAfZx7KRxduakaC1SOCr+C9dHVVK5CLflU9SjNIU/vQ7dLt3F/HRnucTrn4PDhBefZO/kk5u+rDxT1RbXkP8xryhntCz4BvE4/cAbrq5tlv26VRBOu0iqM1YXK3dRD6O8yhEydvBNTr46gMW0/PzFce/CpJz7sIQ8yIzvfnF2Ya43kSYM9i+xjmWF3hmz9SsJvDoZiryGLuePLRCaZbKVtjW89Ydfe2qcu+5FDpbdNjI87qG5kqGmFP2BR2X/9RRzllKVaVW7+Sky2ZJ1M9bm8HMlXTbeinG3FpMJe70ycODk0ag+tM2o88mqtaZsdhmu+aNeeGKrdYVvt7J+7/ytf9lIYfNeNN07v3uMTZrCQNRH4lwfkALWQS/uilnUsfp2H7siYBts2CJxtN0dGx5oOSRo/9h//8cvXXl/dcVVh2iCnrP0pdwARDwZpBUU6H1jN8jJGGKqwJsHkJRjxN3/zNy5zGnX/xEr8ZGoWsodubTTEB2c+sAK7cMANl/wTFQE0sJEkUoEy97znPeFI2MUyiSTYP2HWn0vp6pqEiiM2RyTypNggfhFYTOhQYeWqgYSnhcDlkkyr2xCJj7D4BJqIcUgy/NMhSGcgYQGSKVsL9J3zGK28AtNZC1VRsY0SscXZjCMVh8yLLWdumJ8SZhIUyJJp8E4x3T8oFWQSGisT9vwsQvZc+CRj0ipIuHDORSOSEn2CpLTrcl3+N4vGgdaZZiyhNi0oyj0AInu1SFbaSUquXOpzxMOKVY33SOLNUlp+eXnd62JbZBmXAWxd0pHLeGZXyyS04cFIDHPtLeuLgim2ooXldVCmxTPGAAYYyLIKCKk4DBUhu8t0yV9YZN4OqZ0YSddcc41jf1TZueee60UEGmUhwwrbFNIAQxaOBQiJPzugQeD1BXry9I6LssQN9evMWb1YXywlK7ZMoVcfo+mk7seEWafRLbJfjOidziFGp2JRpgRHg0/ZonlXfydhVvNpiyaLUCHrREeTiv9dJ733UnSvebtU6/gbx5UHmey+BBqTZRGOqdgIRIoarCqxuuggXNGHb32FUgfUpWWWsswbKqYi01BVauxBCeIwKYIqX0/yUg63/irl6tZj8ltsNRnqkV0zXGjN7Jqo17Y1ao97zKN8kHhq6uZho3KjvgWTspXM1VG2eJG7En2R4foEjl53ao9+cGJq77TTVrcfc9wt082Rbcd/8BOXffVffjJdG59v+OBoozkzu3UcvlvsQPbJPzStXhsycpi4mgj2DipMXfkErkYXHU49uu+T9+FBQKMwQlfYFXUjoieunI87FJ8qk83Nb9WrR2trvjUzH2C91hhdmN7ro3pbx0bmWrFY6z4n1l74pFNe9IwL73XitvrMTfbU3m7bhLc6jtZqm9LRhyy+ue3KseJvoYnbBMQKfI9BZ1mRmNasD5q1tm3ZunVycs/U1HBjtDlXu2l69nv/dt3NMwskjI1s1TLdWBoAoHQ7pG67jJefVftcUfYhGQEZuDEABdIJAxmpnkuIze5JCwOADHDcuSUCgyoBfIBBmUt2y7g5GDchsnKlJpKTmqgliRMYiSGeJGQgI/xnJtsCFUzgGEmDyjMoPfmVkmIoEZgjmEt8iN0rsJjUVDxKl4mxnIdj4bgzEOE/SYycWqckyVkpnOyZMX3T8NZXANloLJJJZRMFloqA7AFKiNxXjXDAMxGqSkwhM4Cew5+PDzGSOLllmGA//OEP4VTvUkzYg5joi7LJLRVUStE9OfA5WfhS008Fl/kyZgyG7ENBB/vQ1JTzjh07kj8JE3ATPm3IYmk0lpHKVxZWQC1wb7Icos0sy4orlxRPy4gRSPmFsVUEYbgkIIwY9Nq/UsjAJlKL/cWkFpYteftkXh+qNvbwWkZGYqDESnMVYNsUGEExC/nFGyqneC7Ra9KqUjvJDeVKSWXxzAoiA3mEU0550w7JhCLyGpiRR1Vm5EHwfbO9B9l78nW7P+PHBt1tUGo5FSHWyqiB6ilI7PW6OLjei7BqYr5SJpqXaWDPC1N0fiMLbfeifVJxqV1KzmdRPnGOBj/V5leP30p7M6J+bjVTZIZeVS8pIX/+xMOy03XGkqYqXKrEJ9m9OTedEccRxsd/B3JKGTY5Oj3TnJuvT8fpFmqmtsXt2qkZNWi1c+eREN1kJXHIeJj+imHXGaja8UraKprXtUJn34hVwFFT6mB+DjpquZuigqAWR8wAyACmUKR7VQPJhD+Q65a73r8p+aKc3QoszZC4aKr/Ibnd/7XZWwC4h59+7H3vf/ctWy3PmHJuR32+5TWqZ/tCq+18wyh+OM5IXE34IFjhYol92yepxoYbW+frYxNbjplpNYdGhka2jN7Snr9+vvGey792dWvLVOO43bNDW3XJc00gTx/KJbPViivxHubxMTFGr/sJBNa3THzE/WHKz2uI4Xk/76pYoOr8Kl1WiHqYROQam2yEnVuTXqovf1nLnSoOlQQznR/VLQ/LRv6q3xmt17b46ojj4epjW+rjQ8FmfGjiuFo9EKfxniXDW63XqtUufsr9L37q2accOz82c/3C7M3N5t7dTfP2ThrRyquuqDP1FvXnV/VQnVry2sDyGz8H7VbO1pf2gmdP3fcT2l7u0mpkvt6YbyzM+HT50Pio75gNW4c/eYfbv+k9H2uPD5lhrj5OrL+aNa8vHPcYETtYXhC0CXTTiQhVD2kHEJCPNfigTAay2QMQ4IjVw1Y/m1V1yLdpxaJMAXmQh3AaNLMnTWECoyQWEQPGoT/33HMt8oE/hGWRigPgUpgLuOxFgYmT8lA/cFBe3ApU6s14wMOpFAmhPbr08k8dSwyZ0yyyCLAtxMmGsN1pp52WfFJNGUXKWDgISMrL9GkHLO7YsYPusDviRI3iUwx2Q+AMexjRXggrUtAoLuVBXOyDsyzsaUCVdZG2TRnQk9ZeTAvWxduMK2OOAVLaZIi41AgJU8jkwC8BxBnOXMv8wpA1iGRJukGj2XFjSHWKf8oMshNA3iwlA1UhncVLYsjMsYB2a1WMLPJyJQuazJLxwgIiiwxJzLwie+PFkI0lCYkY1peaeTERme0WjDYWMs4877zz8j6SkRi9rLIsegHl8kriZ4mZRUyWYps1YveFtxAiuaRHnFXWGymLS5pmElupWYNegxyVqKwkPgh+1ZtnOdWzMgxcdX+efzGzRcrqJ9JDcf9c8uzm9ZDFM8YI1S9gqR+EU3XFS2m7eY7kv70mrvSsIuLBmr9F3UtNVFE9NRd1FOv1PTS71CXQjVjv36hlEA0w1YCHRmKyfn7BVJn8Ury471ZTtVwoY9fL+6iiCwP6udGjTWv01UW0+ar951R9pOYRM0FzmzX+qmazfqu2lBWVbciNuWAoHvEvedFz9uy8rjY37ZTDdqs534bITI913svrzXVk1Wxr5l+XD9zH6DF/8HoMWg1xaqNbt7QaYze2ajc2h2aGxuujk/EAXLKub538w/YYmj7Wlr1uCGU166iQcP5G1JHjsuF19All+/161O001MWYCtz3yxUT8NXCd1BPIDgLefx6Xll5/6gH/7uLLnj48OzOuZldrZk94+Nj2UdEg4+ZeG09jJ4Pv8XiuqGYoYg5i+ouGHImD3Dv5zJy1e2yXvD1LA/wEDgq1Gujev37P7luT8D6EAfihStM4qHvZBOK3J07K4KHv4MzgA8gxhriHTt2WPDggEVrFWiWIAx2ZGTIowC+lUonskEGfULk1o3ATKaEASD4Q16XaICYBGTu7mQii9uccynJpbw+5JlkLjN+ZYm3bUyKx6cXSUzrshVNTdtnUoqXaqYWfQWWhJ79YV+s6A55J2pkK6kcu5mgvfDCC70NMO7yGVp+wlC1Bu8mNMQfKzE4ZK4Eqb3lomRqC7VFPuABD8iMvQL3Et/KMBlwUAQxgGPLq1yaetcYQqvKiUkDpu9StGaWIgkwIJuY5MaBiagmsuiLfoNcykBUkhBAk2ZwI5P9KK5Im7XjBhHj1ljGiqYKVX0CjIBYvacdxLChEQgb2h0hrBJ7hwHLWG3E5ZLh+EYUsMnz8LKANqoda6ACWqrVGNrl8cfHd+w23dFngXiLNzI+savVbDRGT9tRe/hDTr3sC9+cGJ+sdsCDXeZ6TX+D5kNAmW8TdSfTBzZVNjnZMqBf1jN6+maMB4luVFMcmO9mhoNiAV+LuuPxo095wrk/uWn2HR+9/IQ73+enN183se34CqnrSwwDAO7oVVRw+OkCpq/LZavo9TPbtdfdcPWPa8fcJa6q5hGjjurFTAw8ep3BhdajvR7Wjo76Z9CBb8mHc3L+x//4H04ABPt8iCcnBQFNSMItA0wg66tv3kp5W6GBw9xfNvzJkj1/5hJOSqkKdT8aQgCa8IostkhaESGLKVIgxj2LHhnixSruW/xBj0w7pE820BNiMxF70kknkUWMpkXTFDsv+8pIWY9FSWArxwgsYEY2ibN9CmPlyCD28cFgG4v/1//6X44HtTjEhgSpppNRKl0YGOUEGDbRvzDHjHwC6wZ9YcBoLVeDyCg+6zfoDpCjctFa4Ac/+AGfgubsszb5K4tCQ2wbfNmBkJoHpCvAvI5aoqYhEIulzCuzb1BMDtsI773BoEWouNJIiJ2tne4GaWwuhkPjxkEmnHWnFM2J1nR3d6Cku0ttww4WdwdDcYX5oFLtB/0mst8Pox3hWTRZTkM01s7meOyxR7jKm+qtaoHYLFsfHa57zugsXvSsi/7l+z+cnt01On6M00ks3Jr3f8SSmiFzqh55sQxiEKdzRK6Z8YVLQDgvxZQGOQjjTdoNsIC66mLyXuAsOmB7rXb8ttoznnrhN/712m/+67Vbxo8fmp+Jt38GfWo53sREbhErx38wd38EukKJaBVdIbwyajTGvvq1b9/7zvfFfWzUywOfNI7h3zq5rWB/qEeEJWs1U6FmhQEIR9lY8PDRj370bW97mxPZE2JCgcA9fAPc5A21Uiv3FBAGl2AIkFlVAuM60Q9kKcSACGxqqQ/o9s1vftM8KLDCB3e4EoB7sDr11FMdHnLyyScrkXi9ILUwPEQCsKZxCJkZwToiUtE0prGq6WeXaeS+0rJPDl0MogBHq6FguHvc4x6FOPPib4vt0572NNVkl7MvW1mu/elPf9q3xiB+RwmhVxxiRbO/imAxgRybSRWfYFptMjtiRavxjOSL4ahQir41gRRboRhiTinyaD/kSX1T4JyPdwi9VsEB9AYekrQHKFaTA23JSZEdO3aw7UUXXURIts2Byq2RcJ95U3gF5Sw74TNmnxl7CXqzsAlWqpJNrKjRbLJ20KgIOyjUiwbADiqXHcSD9YzjrmEH2elODB/AMqIzRjpQldUr8GrhTWS/mmWO3njNMRsln9NeqzWfR69BjmLNPTZGm63mWGNk96xJz6EH33vsaY89563v/WhtbEv3kxSeUdbKg1uOU/GcKdBvALNpZlqdDCWgo9QP5uNWpCRd9sHsGQeQ/ugkDZDeozmQYWnB3trd7lh78S88/eLX/n/3PO1ON+zeXR+ZtEI+SFWitVAAOMKA+CsQyb5Wo1XNYLGdKNvqnvGJyW9993uNx9+3K0qsXhhpxCL1rjui3vMwglsDXsxeGm5wTo7FHvaDmh5+1ateRX2wXqcNWZa7qWuKJX/RuKf4GMIiDttxNh+sBqkA+uYaRUJskCUQjFWht3TYFKYPZvHtnYXhYFyFgkFAoXvWAAPxksIOmQu6MF2KB6sRWJgToCOfpAJryCu7jNTM/Q9MlHWRfMTLy/h8tWPodf755//xH//xW97yFmMh6/vteGY02yTEI5M3R0HsXGB9SpjCKEsRVg2BywTTB6pi6DkLXUPOgZKyd8Uz2SpCQSrUsaqaliMmr7rqKm2DCmTIaWn8qUwqkjOF7dfGlt4jaQ9e/sCyibCJSoW1TTqQqH2JiZ32JwxzocmtC1kdfbPsM5LM7JBPIlpY9uZVBucGUQpYL0mh+KQdcmDm1YpvacHxxrpuEGNdMjAFedK2+yz3gBBsIvsDYsYjh4nWrJny80bxzqm6YY4cBTc1GcQCsU/AbPxcu7llbLTeCtj+pAse/tnPX3H1zum5xvDQ8ER9ZHSo7utVzqRsO0XFJOog/BehfDS5LrjHwQMYVtAnZmv0bBDYRPYD2XZDiLuYJ2bgK6fq/W01Zxu2QI/XdrdrZ5++7VlPvuBjl31x8viT5uyFDSivP3EuQCyQjyUPAh6HXQ4dRmJKaEWgNA8pPWGMGz+5Lg6KjnFhcI2lIBhXl+VPpB0xLhcAgBGwAqVMA4OJgOOb3vQm6z0syxEpFV6ESxIdrtTdvQassCQfHzzhtje/+c2m58WAmLAagG6ZNfTp0rwjsAK3CQCs2LofsYUIUx4MC6A/lOfsia1X0ZNwqQKfHVaaaLWYzMuncg6NZMdEjCw6LsbhEsyJYZbf/M3fNABzkE5O3ttT+7rXvc5Mv/PpnRZvXKSydHfshliW3p4wLyF7gcSpOsOsOzEHyiWyzzsrraEJmXh+1rOepX6Vq0SyaQlmr73bAVj54LtRCvyau057hxzQvyzyDmre/dOojEwUB3bD3KqAAINyy0pk/zQCPwOveMUrsrrdDmoKZzcIxd0LVlUZzBjYsIkhN1slJbLkwyx5qyarQUXaP/pNZL9/djtic2l88TyoVsSW3irOlo2HyKY7uiwAHvn0xMjw+K6dNx9zTN1aB6vu73ZC7cJzz/qb9186vLDF9l9wquq/HHsu1UkoTtIa4DHJoJocDr2BDGe8JH10hgvl0VUNh4G28436ULs5MzY67gx6r+dfffFFPgM0196zMNwYck4qLB+tolp+XVW3qxg1dmbuE9Lbu6GFrZjLX6p+tIFYzhNthm+lmM2QP7imef+TRp1QDWmONMYdNqVZdfJ1g2sMG5aWcKhf0Rq2S8wEiLg0MWxK1RdD3/jGN77hDW+AKQEOaoR9VnGS3FYSIVEdfnJzPJ+1IiAL0JYO6ITkcgYaMcp8KJTshX1WRwKjAvFL6qEQAP6oDHhxwlRI5CeSUqkXOTvtahWJpaaOOLAGJrihFeBndeRaqZyAz0IlsSRwDyh/5Stf8RGlnAD+oz/6I7eJzRJnn302cM9uWXqWUniqHUA5y5WUMHoVAfczmimyOPyxYJOU5LzzznOIuzagRRnUWWBjLyniIkPOuaT10p7Caee0AG6MsJ9irTtbis1EMLRylcgRY90MOoQ4kN9FWkPlMj7mxs8UB+JZwyiLHYxqcri1rAjEOKQpelsIMuONYrdluQ745SayP+AmPewZxp1Z7TQTsH5aS92fj8Qf9mbYVKBjAf3cMcdsm5uZGR4dA5mcffioh53+zr+/pL3Qbs05HXXYnKzp+zjLqe48yf1xutHsmktmnbJIjw0dtO7VpUBJ3QwcChbIus6H59DIcMPArtUebTjEuHb7LbXnPOXCN7/rw43bb2/PzwWAj8NdTbHrUKq5+VUwZ3kVsFLBqpEsRleXTnwf373nlm98+7v3P+nU4fqoL+eM+M6hnd3Va4FF6ioUmOXwdxYb5PqNVMV9YfEDRA4jWuzxt3/7ty972ctACtjCjZMwZaXSiT/cVonSoHkwxcTkWWedhZhtl2XJ27MXxSYBDm7SjM8Yc73A0EoOyxge/Mt4rlXIXtGMRiNyChMVnmOx1CJHTauJV/RCjwnrcQI4UxymdAlcYo4ykVxi34R0fGeV2pBgUYf5+0svvfRzn/vcd77znVe/+tXPfvazMZExXSmIbHhaHJVVmVoQD1mhWU3a9ccXVvhniaac4df/+B//o3c1xM54g0Y6Gg3mJRkUwW6yCGSro0UGxKBkZDFMtH5h9o8yRSIM/M1izM71tsx1su01LMlxEGNIZod6DnHpQkH2KWrirCxG4FiSL4Y8dOcLu2e1ioMG65W4jwkSFOt09OnrGKWvWyfbTbLlFlja5RbbLifrXvetFJHd9OV/Nda8jXHWdvVW/MGHvsvZbl4vs0CpuGWBQetrGdsDftkBQ46lHPNm0+mCLcj+3ndtPP/nnzy8MF1vz4wOzzeGfJl0xreEfJtWr8eAccA4AABAAElEQVTpzlIv8qymUcYX9VPyQpwPA11kPjiRCfALwToDhf++AySoHlQH3IZHAUPNxLayGV82yxNMt4/WHn3WGXc6bmKuNeXUVKu1IPt89EZFxEIcj54lT59cnLNatS5rHkmmefheVbNdu3nnFAnmFoZGG06tjsfrEWzzXlhPTfeFm+XRj370E5/4RLv9/uEf/gG+FwlWQhtuRrbKm8gl+oQdIuVyqcNXL84HtBcwySSl9cA42YUtb0iDp5+pxU/wlGxFQn44Z1mZXRGJBYEbAZGaQMkukMS9MRsR7i2UDeE/eMteAmqyQIIwNAJryOOBSDb0crE2ZyY7LUnxFBuHtGEiOfYRUzRCjNIm2osvvvg//If/cMEFF7DPn1cODeOwpCycS/IIkJbp7E8VQzaRBFCEKi5sD0gAT8WpbmNFz33tgQqpHamyUAWJLK0Ifal69CmGQIZ7FT8gEq7GRHHEIwmbePWhdhzflIIxF41Wy7gynr6yZDwjUBZPkQnrVZaweMWljknZa4es/Syd71INZuTK4jYoZknfukFlbLI9jCyQ7U/b1VJTbF3JjTcOcGMcRspuijqgBUw/eJ8Th+Scd/YDbjdpmnbvzM4b6nOzE6MjOruZ5uKTpnSOAxaxSX4IW6DgsWpxvav8Gb4BO55giajjQ2C12sknbjnvkWfOTu1uNWca8dIlpuv94Q6chhb5+MxYfWbWkTjGkHHOPVjaeY2Q0saCsSL3Wkv5D5xUtwEniBlStFTAkR3vfe97Ld6ASPTh+nMoBx5l9uzSIZJe+WAvSdbTw5SwIyCSuJYPTUrKyZ3eLOsJJ6xBmXgLH5KUGVxh/JWYZR2EvkIRiTKhNOAMcmUW4jnRRcdFPOE0Vwb4fR1QbhdpWskKKLPaprT7Uq4dyRQI7La0BN9WWmfRvPvd7zYxX+yW2RlKPVrJQ0LlqouEsFRAIGntUgZKVVPJlkHYR1lakX0XzJKDMcJQnyWTbCDmB4FY/bIqmwhoz+R3ko/qJjaj9baxbHV9RVp2d9CX+ngaJyS9CirjhEPTDh05+6q3GXnUWsBt4DbWj3DZKbt0ex+1BjnKFe9M31VfLutOss7DbScdV7voseeMtnZtb8w3d9081oAAZn3pL0BeNdVU7NbbpZbIzcBha4EY3fUKbydGXFr+Mjpcc6y9LbPVZw6Omayd+ZDTtkyM2WdosVVsyZ9r2WYNjHebBOLIC46vsQint6xlYdP8Q/WGD9Xu2jOzN6BOvHRJ5pVMveSL4L439ogJQ2NWxpsDNgntEEwrPWAa2sEliU507HCPzrxgx4JvICH7/yQ5EgeYS5sk9BQu9APZyuMDfT5NcHDJTySUFcR3mcyRDcR8P4gV4XFGRz6cZ8qcb0G8VTG9CvaGVyvFgIfwDilnQFuKIcjVKNeIT4COlYHBU57yFHsxAXfrqYoAaSUcLJRybBHJfcQ0oTxjCpTqW6OU9ScpjmMcTi5tiWzGG46ldymJAfnCyiX8+jkfTMpsYIYl3kHB345qTXVYNdtYXq4hUlihUpaauLEzbrL7KEHmyoatOlxmeA1ut2HSig5wX7Kk5uv398VvM31jLbD+mkpKN4A2nWEBbZfzznFjpdzk3rXAavXVTb8N/lZ9BC9gVBbvj7fLv/C0B9/zxONrUzdsnxhuTu/WWmo+Wly5IqUr4dWUOgjxRZLNwAGwQMx/L0H2LlRwHGEZ8Dybh20XzlLyoYPane90wj1OuVvDxxDasU3TYxVejHbisegrwIvO2vtYoQFaLMYtDfUXPg7ZGZ2bH7pl5549cdIdUXyOqgcm9uD5nmB/ZkdA7Hnnnff0pz+d5f7gD/7AbHSYulquA7uLhPX5YaTKT6zjUg8P6QIxn//853X1mQrYmdWGYMSXScr1myifI9XTI2brBfgcDr1SJZA1/Fg/5/2mzHINgXCwJdQOSKtxrHFPtJegUBKVudVKQQzXspLPCDDRQx7ykP1D9ok1GURZDkl84AMfqMRPfvKTaSLhgkEhe+fPMJFF+XK5g7KCDqzRlKuO1DU7cBqMQxudjWMA4zKlUrqis/TV7HMbxhPMIJZ9bHUFxxnQBwTEEKnILJVbw3SMoEayWWYuVaPlOKXeIJApcGMlZPgn2W2o8hpFdx7Va1BsJh1tFtCyNeV0bmkdWelujjZTHOX6eg4vdhBDI04YtPiBTfw3aePE5mc8/lHNW649fstIa2Zm2/Zjdu2ZLueU6xazZzzKbXjEqV8h+WraPib3Oki/bjthIOpqwq8eC2+GTN+fcPvhe9zDdGPLp0vN2Y+NNDSn+XYHYw8tPfZy/2butTcvDXbu2rNzzyx51u6pjmxwD3bAHL/8y7988sknWyjynve8B/gAygF66JNlEuWosgQo0ElVgTErD+ZaL/71r389V9snWoVcEXgcrIGEkkNfP7Fpoh+CYZJzvWXG9yADI2iVyuygX2IBh6+bs4fsDYHIX4Qpgb5KZaovE7EVy0D2FuSkPfvSrxYpL0kSZeLptETjqN7WWzpPtebMIgtyIEsfLjAy8Wheje0BiSePyrIBgEhOstck2C0LJaGq3GgB9k8LspGcb0G89kxOZxBl1WStYStQmv1qpaTlkXGyq+JcuK/GZaF7VpMaXI3DoRC/+OBepzTUHsitk+0m2QZZYKDKQkwMDTdzZdjNUPriDRJyk22xwGr1VQgOcgBay29+VoDOQYUxu2ZVtTn7+Zn5p5x/6iMeeur11/xocjxm64eGw0eQfoq6mkYHJ/4gm+toKy6xMr/hSJocBlYNwCQs3DjRqJ14pztYhDPfbg2PDI2PB7Ti4gHsjNRF1zNh35m8X0zLUF/DLgzFp5ENOHfuntq9Kybtg3n3zVKVJV8q9Cy078voiIjM5TdOSbduG7L5y7/8S3PAgCBoCKCwTG69Bbh7+/MEKA7GcRY+1PL+97+fwWXhpz0F9g/ZFziFD2Ca4wRLn12WOhU4yAhJcSwA5Z9xxhnMYk46F1qwTwrm8Zdhl6u5K6+80pz9jh07rMZBsx9IN9Fh+oThLIDJ9wlZaNpfmDCGaspC8853vlOM6ssSE7Ym/YHyFcepOyMfa4TAWV+qUlBvGzjIVbZ+1bJtE0/l+qbyNddc43RRw6fkkPVOu2Lbvpyz3WYzwMqSfWcZaSfeaBnxFjtk3fXlcChEDozsDwWhN2XYUAto+ppv+m4GnYjwhpa4yfzQtYDne7xCjwUU+atm5edr863x4YXxeu2Fz37G8EJrbLh+yy27IHuUvf1mb/jQ1XFTsgEsACvnZH2uwwm/gs/Vo8Rxb7lmWmwgw9od73jCxITpM0dRWmPvW2bxpjufnQOUuTrpnBFC7Glr7pme8klaqCzGon5V6avnO9JSTK9atsGn2NOe9jRbM8HEP/3TP4WkdeYqQE9edC6gRN+edyjiHA9ccsklzsVHib6s1C8Z1x/AtmAgucAsB6J7gQAeuUwB0BDgADaGfYqnxERsKA2Bzj33XBP2xj8gYOZdD2Y1jf2JT3yCdk4aBcftTOhF5PuUIQlonUAzMbq9yy7tkeBzhUnWjnEXnK0sOJWTqnSAtdRjob81AWVxpTog2osuusi6I03CGfw452ouNJrTrSloI/KSCtsivNVlwD3c4s2V3SOSEJTK7bXwSmGSSTLMNuxLcKr4i1/8ouU9WV849A6PVzK5zWOWIPvcxtRtViwVwbr9UOEsaYyA6dzqchAvVmfu01WS7OszJfvkcvQQLLepd9tRM4vRWXHV52AGsIrTJca8i/N5mUZ9uDEyt1CbtSNu2Qa3heFoDhXgG4D1UUy68p5J5JEmTCyipgaGI+u6s26N3S1a1qKiURVRg53PEUXXZlNa7X73PfFhDzm1OX1jvbXbVtph2yU9PuPXgfgCLp1gIqmk4mERRWfzZXDcEFc6Ky8ZFJaK+ApqtfBjnsF9XStOaayWZpc7Z2llZXTX79xiLhd/1fnsUGXErO13cy1iYoMlLFf+esZRG2KZW8FUR915amgSQumHcaHsmC+34D4ei15Wmw+40/Fbj982tm28Md9qWtbs9CT2rw9bZm/1TjSSIcvyq5avjvyWCSZpHy625zr4sjU702b9cPzCJkYaPrsXd1jK2RF9H0wPv+ScmM95cUAQuIfMrMn52Mc+dsMNN+QsLywItYCDBgAJdBKm0FbkaaedZjyA5o//+I//7d/+DSoySZzgfj/W2acFsxQwiEjeGOBmk2jOoSqRS3nWRloHsDLIo0QzrywAq7385S/XJiE2C10ESkFr6Et4h9jI8qAHPeihD30ojGvtB0VK3vUHSGIunO+UUouC7KA9/fTTScgVJmkZ1eo7A0ZuJPe9ghSP3zt2KlluTSBL5ycIdo6qVqTKLPEnqlZE02wSt6aUjchbBLPCStO1RMrHmFnM5wKMxAiPQDzhmVRgNRncEVmbaQEWlldFn3POOZbav+td77I2SYzsSbYan9s8fpWOLjbLLbTnKDAvMDdnP1Q7JkPm2i7lWeev+sxR2RQFJeZb19J+rL2Mfjic/ncT1qcp1vThJY9ONkVVPcIE06od84JczDrk6zDxaRiPz9iqtu5fbbi90BiqN/fumW3ubjpLwO0wuq1di6/PVG0lpshqDkeJykpws6a4m4krLJBjrei+IUw/tROAsPMDQ/reXLGCecUPE/3U/ELbm5VoBouIprfUqt56IwYIq2KdQAvAAn9HYLVoUJFfT2mxp1YwOVF7/nOfMlGbHp+94S6TteHmnuH51nxz1sKLxrC11kO+zzHn+0ELzfLLOQI9i5/+sa++ByQyOl84MsYVvqc1TwVubqg2RwIpC7XRudpYu96YszgkqsWWqM491cXo3UZeNXUjXMd6zrV9f8UR31EdMesBz8att4Y/X2s352dnWtPTs3aiR01HNp9xqX4z87WZhVoLiypSYKpVfTigVptu96/RUOO2cQmUPRfjWyzW3+TPdXymbNhV1X5NnDsmpxHI/qTb+frB9huu+aFNZ972jE9unasvTDWnhuqeoHO+V+zX8KFagdrccNSMfkaT6Pywy5+GHr+5+HVGAjEemB8dsaB/fu9sc7YaJC1olAzcmY2Kbb1znlixhCw+YDUa1X6IOpCRI1w+HRM/wRAugYxEeAkp+iqgqXM4JCJ51KMe5cumwtZv5JkqUA4C0JAPKfLhG+g20SEf8Stf+UrLeJyE9r//9/+GY9CIVGiZk3YZHVe1/iTxJcGAIS77oiKbvLAyAK0U4BWs960fSjm051Of+lSS4YZMXgTJJ9WUqlDxGYCelUV+QiJIGsXJm/wFcECcBkzmff0kMwrKIZAFSM6l8VrDhmPgXhZFmKVOfYuyyiqW/+u//uv3ve99+EC9O3bsSPtkWbRDhpgTU7IQmNmTJpUSzgDjIGMQLw0o6CWAGA5BTgln2KWyfvEXf1Hg8ssv95lhLwryeHXSZlORVEosAZHLXCaRkAppfH7SpBmVKJDlWt//S7/0S2ylFf3u7/6uLHQpjYEKWReyCxTViCRG1WQ8vzJJvJ8RzssciBo6sgwbcuLJljRZTRXtci9ti0AgJU9iHLQTHKyJzzwq6AlPeIJG6FMBxrciUWYTEiYwl5Ty4pYyIBBJjAwIZ0X8+q//ulvDu4tf+7Vfc4Nk4+/NXsJkSCF7aaSmQZLsIPhxP1QTshHo56pHWiR0Zu8Sl/SjXDOuTC6WQC+Ojxth0w1igcqMnYYZ+UqwBJJbTuSvl7PbJafQakOen3GzgUHVtGY2j4q5yurWF7DZU/R6Szl66Lp2Wq5x702UMEWMQELe5dRrXndfqa1GtNp9vRr9yvjAShFLmazt6so7nbna/Gyt6bFwzx3bn/iYRx4/UZ+burHWml1oNZ2FonPkPHX4kxNj2lHO2Vc6VixiqHjrxVspcE9M9jbV4LZr25iw16rT1efjq7kBOSv9tPiULP3eK4eyS/MdF/9rI6M153tGD+bnuEfPxv6+ITY8asQwWm+M+zblmC2JUX41sojZbs9wOU2awKIu/eba8+M2KlfhsZGNNlCPrdYbTK07Eqac/MplEnt0rv3dNlk7dnIE/q7i6r5HC36BATHiMpbp7KKVMWC6RtJ7a/SGOxyX/Yns3fYZN1DlAtZXg67ou2K8lLVZXVVJy5jcppeQjRuECFAOuCMAFjARnCcMfCTM6kV7feWFS2ARTBKvoDep/KQnPen73//+JZdcopQ8qz6X2ieISf5VdYSFlOg4/F/5lV9xtIiJYVDmIx/5CG6QjXnQwjbhlLJySQa0BDxZ8GBzpyS6JHZUhLKgQDGcz0JZT2Li02uEv/u7v/vsZz+rREKW0tHgiRs8lHg9oRU+BOCTgZ9O3gRPCdDllasgKqnrd7/xG7/haBqz5q95zWt85EvR7JDz98SjUUJPMniP8ba3ve2v/uqvVJMDiB75yEfa9srgifx0dAwinADOPLHD6fPbUpSShcAkTDMSL60EIwLN73jHO2zJBUOdgbOa5CxpS6tXMZR9+9vf/id/8ie5PYC0hKQ+ziyWZiGGGOvjva4pDLNESWhkIRXh+ZmlkC0LGI8B9zi/9a1vfdWrXuXdQiHI+lIuh0/WlzCRWINJKaW+0LOJQG9ByFwSKW2YPAuTUsTKAMnZWVnyZqWvpMlCNb/Xvva1jnM1ZrMsjdGcSa9OU05lZUZiCOMmVeNMKxVdyImbSO8uXv/6159yyinf/va3fYzWbaVBJodsJ/ggFk4LS8VEJHqHb2KiBrX2ldJuUEwMUDbdpgU2LbBpgVUs0OkBF1NhNFP4gFiisaHatpHaOY848+tf+/6Pfranio43lZwnhx5NdxbgNdbe9I50cqCwyHXjQrrXZB6BLuhcvbhAOUt1jqtGB8r35APHQdPAsTFq8Khc6RtZeOQFtCSCZxya4VZtqJ0vatik5qiGeGkhvzdsYdmhmT0jI9t8MwZvAwZfVe0p8vALTgx7q7PVA88Ke7O3gbMrCFLh7TDsYptgT78lUQPqW7XMAfPcxuSJ5t0mECQo4PEPuIgEJkS6g1K+AkRWE7c0cqZOmvvd737Pfe5zrUYwZ29NufuxJAmgT9TCBxazIJgM/n7Ri14kADiCL4+uPm0LcQJnZkOJgRgr4pmaBa18GMvx+Uqx/gHqddqg0tHgrxT0iFM2B03CiJS67LLLwB2yPeIRj9ixYwd07nTFxL7JGVuQl7MIHuoFT5ElQzxxEMYZfATBiQrDKR2ffVpppfUcJw+wmv82F25a2qQs3AbAqQ6lQGkqRSkw34c+9KG///u/15uZDH7+85+PpnBjQ7WGnvyEMaHuhCJiG1kZzNg9DL/yiSoLsemFzJYDYye+Up797Ge/5CUvYeQcqxTOJcDgRkfY2q5ggPGmN73JLt7kb/290rFFzHRetnDsZt3Iy172snwPoF2lcUiITBhlVmWKXQpaFkCPg+bhZYWRj+PtjWqsTlEoSUie5RKAhBYUuTTMs2rFgiXT294zoOFKS07+KpHRyFDkEZ9h8WvUo7rgSI5nCqBGcNN++Jz6IgnOLKzFevtkFOQ1y+/8zu84KuepT32qFxGSkKFhFuWqDqMgA2ANnppAvHhmwYfYKYzirFXzvQgL9zX4Zz7zmRbfP/nJT7bMjBjUJwbKvHM1ANlZ4DOf+YwXMkYXBsyW/it0mXk37nLgkkgcC0LW59ZLtz5um1T7YYGornXX137w38xyYC1Q3V8HluWt5xYILDBxBUGTXXVluX2gUcD1nnebfND97/WjH39+fGL7zEjdTI1OFsQYaTgizRR+24MlM8by++oXXiDZ6irTDrxfNf+KbQlVFiZ2POHW7UL4GMlUE7/ZrbkE2ofNPicX10lU+TkH3xkipOpVXzvXhOy9I/AUg1IWUTt4hc/QcN0BMkYMODsivlr5FOVUrA9Lj1Kjw6OGLdrD0Egs04E8xyfGLIw3lKleEoaa1TMlx4rZHqq2kYY+0rsvDZJREvapYxiCD3awWOKhtbFONosENPiAF9nUtTDT9ueeey6YZWsmzJGAO/GTXALK4isILsFBXpjGxDAU8sEPfhCC+cAHPnDppZdCpVhBliAReogHFjeHbR0L/E1U4MbgQWoRRgBPPhVkMQygoNnxV7/61cjsRHzjG99oGtjifmUpN8WgKUj94x//GILkC8PEFkyff/75oCS9kNERmQDOEJUioEkwGuBL06UM6/QJaaslzsYkvt1rZpfWjjCnDrPgD22D+3niITuAdBdeeGHC+gINURYVGJmECIgEUDIgROgSXhSfdmZAPHPeV7wVQSbsnTpKr9XETlBoBGJQwSDAvQHb7/3e76lclzYoY04M1fGtb33LcEsRQKdxgoxshS0C9tQMMuyS1il2Gna1oo2abKUlp63VnLVABmnwsUGRQApGa/hYlSkdN3XBnrJk0dmM8c+CRKopzUBjQ5nWk4QAH0Yo9CtFyhaoUmRkfwRJnNkTkfPFM7VIQr70pS/1GsqwBMiG4OFs62oolVmM2UQaBbGVmiJMxuNATk6AlURia9xLZQcivfnNbzbSs8jHqf+MT1liICO8W8PLCi9t3B3kVGVqNpdOpaYYHgQ3MLI/CDJtFrFpgU0LHBoWsCCiHn1bcUCmHjii5m2D1BNDp+YVjxuvnXvmQz55+Reub+2ds8G6PjIzOz0z1x5tjIOrltN7+WqCOoCxHZMVAx+FjGHBQXGls47Avgql4koSSnvq+gnYecCfnqlNjNfGgftYENLfxd6I6mntCeE0RnPw86OWOAdxMhRotqxAndsyMTE/tzCCpD48Z3Vyo1rgY51GI3de9Od/WMRagA+P2ZpvhV8KnM/LDGcbkOIISzErLX9Y6HhrhCzW8ODP2T6YDHKCvbAVCe7AT3m5RkGFjwDQIwv3m7/5m+CFCXiIJBdA4wD0JB7KLDiLEV8QFexiCtl8s5NYrJyBQQF9906ipSSDY4AhIBi4MfsOvMLuysUtETYy+FL7R5mgX9gIARJ63OMe53gZzEF8U/g4S8qblLICcLyjBmFWHxMlDCimLAgeZ9w408NgN7DFPsYVMBkFC3Jdw0rLklJUZ5aTynIXiJm+JrwJgDMDMpHiAH2pyATyvQRNc1yBITKXhEFMeMr+1//6Xy2dt6nAqwB4VwAZ+zAOGqgUDcD3whe+0Fp/Y5sy7lLWMgnzUi6WkaoUmyjkZTevSjhz5OqFMBwL8MHZ5z3veZqQ9zYuKUIqHDjcXKKnbx7Tnnn7FpqRClWPGoNDML0lMFwBW1UcrdVambNHRkLNQLneewDQ8DSabL1FC1kIAPVShAwQdkolHocMryEMRZhRk0CJjyaNj1KE+TKKT1bCdKcdkVjjYQ97mCZnZEJy70nQUCrzaj+GjunE5OAHH5WlOHwKc1lY3golDZ7lP/7xj9tebGCAgOXx1JxkRGZhm0ZryZbBgIABKlbZ2NbQ7gAmDYzsyVfNr6xLhrDKUdhVr8s2B4moappRD8uc9rcsZvPyULBAdX/1EeS2q69Y7RyNZVkjspk+Diy3tdpk84j0hzxg++Mf/Yg/e/8lU/XZbcffwcka0+150/UjsYVx3oIcmBq8w6iala26EaGDNWfPpnEvVK2+uimq0ApL93uuhgVmW7E63+jkB1fvvOmW6YltxywMj9rUd+fbYdmnF13kXi07d5kxDIBbsaXIOhBvea7AcGxKrlvFv2V7rLu31gfjCu+uEPNwivCZg+Hhhh0Nnn+1VtuGcaO+yip2HsfHa2OPf6VwpVXsKU8Lxd9w8WfRnlXUEi+a0JKIHgMviz/kLuGeRHuMI2Be3AoKL/ohEpfETR+ZHgD0WUOBRDZJAKBo5HKB17/1W7+FiUsoClvwIimru6CDhBAk7JAFBwSIOajd6gu5LLC2dNjcPzlNQEqCuUE9IsmoOH5CJdlT2sJTTHZfoA9Wxi2mqIEeQw4MIWDr0Q0ecpYX3IR62QGASzFSI74icCA2ztCYmDQac4GSYBxXiNcZwA1PAmNoSp5GFueQ1iS9yVcaiQTmgFQqpwyyiCdbKpUyuEztmAIZHc1YeyMBU8LxwL3ZdFO5bCjJsMGghRYCDJhiGxtQeTWx2S0HVALKOvnkk8FiYFQu883en0DY7EYLKkglFRvSi1QKSiHJltDfqOkv/uIvlI4GwzVGRFluSggic5QyPa84tWbZD4xOZnxgWfjV+IpxtA3GyUJTI3Wt+jj6ckxqu/YLXvACAzaXhExiorpczQgZbzD5ute9TumGEGKyGbNJyYUbs7hksTSacp07xL34xS/W3iypZzQiEZskkDex8UnxCh/CZDiZ0wvoZxB2o6lRk5ctKvSmm25iB69ocBCvGfPRMJrqSNPJhXnhfBACi+Y4CIVtFrFpgU0LHG4WWIGpMiIQZ6y3gao8PRYAt5HaRU98xIf/6crvXbur1p5xCoqTXczXO4zQSeaNenzbqugOLEN0OX9fIjc0kA8ARURghU49RedzZVHUTIoPMdVqP/jx1Fve/t7Lv/iV+vjWlnnmemO0sSXwfj+nK9ete5p6ung2BA6I1xTgbEsGj43xiVEPtm2TWxCwUd3cf3P62Mmx5z7z/Elz3M2FLeOdR0s/9odHHMjdbDo316R9I/bNgvmNoTmn2nefxDlbH0egVqcVDa5VqakK3UfNlpiVzJaPAFZSHOSYgmME4DDtRGMAjFzCOtqqGE0FWCmUfSXsRVFJoL3JrgVygAUOXAIdgaQRSDJFRPusMD0xkptUbRhikwRHohGfNJm9+EBP4ZmRsvSKhCdhcEuQhNh9ASeBuRCSLClJIlECJ5PEZ0Ak/gkB00pJL5yWiSFIBbtlX9tKybbXJ6csnIDsYJlxCytBe0onbQpMl6SkBZdZ8BHvUoAkArRgaqmZi+SwI8d6WajUrAIBMRnOJAah5mr4DyXmJBTAXxZFmJsX8BohORRfucmHSMQWTzw+/krJGApiSP5eGQqHEpCKmxrJ9VQ4QKtcEuCPgzD+yVYYfYbTMmIEVF9mSfsgYBa1n5EkSaVcFj6ZtMxnAaoZvXCS1JGiOdnJhg9Ro8663QvxpMpCKmIo1FAtw7KzRuGfjYePfqUM8mLCxxmaN/5UNPjuVsVBuZxc8haGiA2ZkCkljVxqv9BsXGAT2W+cbTc5b1rgcLdAD2b1gPAISx948sAwvRedYM0aeuB2z1TtbifUznrwqddf9s97Z/bMjU/U50fqo41hy0uqs2CGFwK9cc5fwsdMawXCqqiDZSe97Zqwvq8cYFB9xvL4hnPT69fetPOa63fe4S7HDo1NOsZmd3PMWaD0d9DsMn+uOVczxlnYI94/xzM6fbPZ2sNaDbbwCHBeaTsOevP4aTgldKG9d9dNJx639ZnPOd84AoXpU1QH1UB9DXArIlXytDMpAQgvKzwX4zE7MjsP1izB37kmp3qjs1+FVY1pSc44Fqmn9UZaNLhDzUEkBesADUwkhiMnTJALAzSPRCrQQyat1CIhhewJSlBGo6rm0fkJLKTCNDiIwUFAjEAvjkkOmSScbLOJkkE8aRPBZF4MARdkSky2BRuJwTxlTvkTuSa+wSqFQZPxKRJWOHC4JfCC1Th8OIUmK9nRc4RJmYUzqYper1eyJwJjtLS5/L2wL+2Qcsqi9JRHvNLl4hi54FfZaVfm4KXKImNWRBIrsUC9DPDXkBuHkr3YIQsSj3najdjMJb4wT7Fl4URmKgLxcqXB1zBd0tNFdpVCcZLQTlj2IrB4DBFjSEHxyVOJ2TBkF5kqCJA288pYiNH08kyCXh9nBMk5rZoioclSBHDu1QtPlKkFmxNPdn6yTSZZKElcFlMUYcQjSHsKgPXyUoQdMFSugJhUkM8OSdDbHsQUzsIb7VZF9qlwGD12PgVZ2KtqnQNtPguj5GJTrBabQVih48Ii2Hvi9iRvtN5HHP+oqXhaxp/4xWKzML2pwoF0rW7avbKPT47v3dnSgWnBGsNATDaJl1mg29bjb9SUBQidd7mLhJEWd8FiTG8oclUuqEonEpW7SobezLcq3AOPsqhS4PBod4un9RR15xt6A/q6l5/7mSt8jbxZa+2dn3OkJMAb76n1IY7N8VEiPSPnZrdKJ7uGuPdXuKDZSEckNRE2r1xPUfTtmLoSrCOGI2qcPdGcX5huLdzuTifN1MaGFsZatUZztOHE9MTuieyHLaYfsgkhfDFhIrjeByaqgc1QLXYZthd8IkBauzZqF3LsPyCFrcaT49tv3n2j4j3hJ0fjNJ3FKaAeEQ/NYD7CVRxd+CzcXKg7x7sda3Dm6/RPPNQyr9agbFcL6kYbi2OEFi3fTez+7baHqI5ScYKeSkykRI9qK74Cz8dtxHLL3n2XOu1yPGT+FqxDImp2Na1ZXJEyFhSSAGINwUtelElc4E4yL6gumRT6wlNMKa4EIJIEJXgWvJt587IqrdNRJCWGKUD6yT+FKfoWYYqQWaIshUkRrJdPiRRYqUJv6nrCvYoUlftmLHJKLfKkxVZmLNohXpaal8WSCNImxTJ9Sy+Ry7iVgqKSunPVhadAik3OZfx7MxbmawTSUKn4yrxSM7JXhl4xMnvhX8gwTJ6SltEU4hLoNRo7pClK9iQrnDOAZ6m4zJ65kriEk7joJbUIk/yXWS8jizylULmWURbhl8lZ4jci0PPY3gj2mzwPNwsECKtAVY47tXuw3orDw02Pw0xe0OQwkHgJ2K4uoFOCx6Em8GsANGtufuHpTxia2VWb2TW80Jprzzic3YmHsfwmFlXHNCFnjtUvFrAfFKfEdZZTAUB6dDvG0C5fLwQDZ9/HB7uGGu2hRnNorFkf9frf97bmho3Vwo+J9nhBUe/rI24PjbVrY/NDE864n69ZfT7aCm5jc/XxZn2sPTTu0gBJ8ezbFWKdst/GZPqK7Dr4DK7f0JHsbdZ2Tk07I4lhYUbPtqj+6gt6lbhLDrDv6r2WIjL3JivLIgU+txi/lGYxfjO0aYFNC2xa4CiwwOH17DgKKuS2VtGDM5+ROU/vSQzr2zFzW8t1xJZfkEoJHFKqgksdxJR/8joW2fuZLfWr+pCAWyaqY6b0yRfc9373uEtrz03j9fa4l9XzzZxVpWDoaDAA0nfdQVA2Cq1cCayr0ArTB2WVu1IyrgLBD/ka7+j80CiI74B6M8X5i7FKN9w3EJ9crS3A/+Ev+JJz9XHU+PZV3HQOwfF607hg1y0R74V64+CdHhSq3UpXZr/wSVOzyw23zP/sppuGGqNzVGSqCtnH9EG8nUo/Bk7VMK/YuL8g2WR608R4i4ybCbPhkc58fRBEjfstm6evxp+9+TfDmxbYtMCmBY5EC+yjM12pcnav6/dXctiMOZgWWH9NJWXC+vQT1ntg5/z9wRT7iC8rrZ1qCpfAavV16BlE1xELSQLcB1gPl8j+uLHazz/pMdscy96cHoe35matKaeXQUHRznghJu6ddNhRPRks+oXy1geSKT4lUMKL5XVCIU532r6Kily9ADHOcvGdrrmhYcvrIXl3iv++TMtvVKsVM9zfr3B/dYzlghNxrE1iGB+gDSaSAvUKLNz4symWxb22YL1mb+kr5D1kItKkvcv28vX0NT+59mc33TzcGJ2vDy9A38PxwTL7C+hWgfvE9PH2JsaMxn2ru15de2sQsp+YiJ3KnQVrvZP3vXk2w5sW2LTApgWODgsMjOyPDrMcvVoCGZ6afIAe1PCotvKsrCE7eu2yMZoXgFICG1POreAa+LKbvTNhX6bxxetAcnq6ilyImWYbP885894/9+D7taZubs3sbsCrjsi0XTRcAvoOgOvy3fC/xbwlsEaRHY1jIJJU8SdV78HZEKoTP+v2xdowwAQVXg/f6f1i+vtO87CGOEYCCzLbL1khe8QGAsNQPRu59a699ieKs0DdMvJqpVOKcUj7aVhTALkxTtdBkfZC7V9++IOdU1P2jtVGbDawzaJT9RT0dkLTCEzf81tDySyCXwKI89J5Jra1gfSRZO4ex+Xu8BggLZd683rTApsW2LTA4BYwNzSYq7rVlf1mfyadR2L/xM3Yg2GB6im47vryWOw6WAZicaDh5pz9RtRTBUECvwlUMK7CKLz49XGqpU/swY5KeNR3OgC4ldq20nyL7y2N1J702POu/PaPfrb7lonjtsy1ncFsBT5NY9zYgczm652GuIpaFdmtV28Jm7ioiqti+xdMh6Xqxf5XgD7WkUjKugk4CqfGHgNoleb+QbL/P3vvASfZUd37385p0s7mXa20qxxAOSOk1SqBEEIggRA52CQbg40/xu/5//zBzw8HbD8MfgaDRbIRSTY5KaAAEgoIkEAJ5Sx2tWlS5/D/nnPurb7T0z3TPTu72l26tvdO3bpVp06dqlv1q1PnVsGu/jeff2+hdtXsRRfvRWUTwFiDL4wJi6LPFvOcaJ0d7IH9Gzdt9ryDdrzwu56CiRslOsie3DdtGrv/gYfY9lQWNmIJO3SWK3tqGG/8ke3sVbbSLrjXCaC1kOBNUKFrEqPvysWtTSTYzG5kJCVHoJkLNr4I7vt/+xLoS6Avgd8hCUwfxX6HCt4vansJMFgaiOzb2bcX0MKFOpjiPAtHe6EpAa4UX0HXvKJ8bYYZpNVM6+xVUge9Hn346tNOOT6TjBcLk8k4IJiNn/29n4VI4Baa0Y70nJCdp2NU/0HQN8qMBfTZxrGdC5/MsmEyP76ONc8sVyLXo4kGO7tHkg2+mvUSNfkGN1Xjw9lYuhpN83FtNZbePFbQDeHiNptok/HuF2SdBot7OPMj50cfe/yRxx6Tz2cB7/FYjTOLdW4YnqaiXvfV9hQqMOuaWb6WWuPWQkD2zCJsi22ZJ8iuOOak1gK/C5ke0L/rS6Avgb4E9kYJBKNXd2VrO7zNnlS+CZOtM8TZqqv034ACGS8DNw+6QdLftb++gleLjVmzmPrKT/bd03GRRRgwlwhUVrplbAsQWXeSwgSWcZf9CWtl2bGQL9M4SHTj5o0QAsc0FZpKNWaZax6t2XBvP9LJgZr2CwLd093Bg2Rgo5trC7eayNK5J0GYCIzGb62c+mBTFa5UlmxI6lcR+dZ4KfiYkpgk5I+8L/LKmK3CHFcU4KQSbBTCRKGXqbe3O+B89r8hmppTqEHKo3q1Mrl9jM3LhzPeWaeesHo4U9q+aSABhwJWiVxHAgrK2A+fdhaIfvZMm0+1tfvNbm4/slTBWnp5HURihKrcCA31QlZTJGgKED0xGnl4t8NzNb7MaBTrcyfF0djyyqjGmKvUZdufF61FI+wXw8+iqZW+n5uAXWx5hGi0UGCDTXX2Uguz5uARMfLD/p6f+SmUStGuQdRe/iqFXhLMjItQyD8WT3BlIQZ8XSg3nvrtlo1bpiLxTA2hosWX1i67JEXk2wwnZl4MCiJtPpCFVYVfKl+WvCP6msitnOolrwkvTqNW4RyAwUwygyEUbFmF4pMvOKIG8yEUOCgb8SCg/7cvgb4E+hLY6yTQ0RrHbKylh9TD5OiXzROLpWT1uTtHJyoUpNeW0ZRVWkEgmF9yyxIti88yHJgjrg5swX3/70wJICyUXuwwIdtQYAmA0o+TO+peKpaqYLKLOhC1aEQ20jaxoyEER82k0ylEhl8dT+PRTDQZr9cqfAXJqRSThXF2n64VSksYP3H1Iio4r4pOUWAPw6c1iCYqkloN4IJges2Qq8TT5mP+3eGqrDU55NZx29Zv8d1VVdchEQuWVGn4YRReNuquNdg9lKMhdNdHEFkde2sislkKV9nkHYICDSEnG4aIE9TbvArymx7CQ+Z1jRr7sle5crapnHBqaSUh9H1WxDNvp4UJUgvNaQF20wwSs/MYx6aw/WXdO/UFi3980IpNzz4VLWypVtP11FAiOxSLJwtT+eEBTkvYhh7Xi0rkma5tIIWS8CYonJluegjiENGKdb/iRhG1CLtBVXBSBx0ST2QxgbrB7p1Gyz70kkB+9Hi+DLkFe3LwVFIO3mJX/no8FuGNSPBJqJnCE5XosCcZKu/SEHzcH/BEvtjwUMFUGV2fvFLMNGJY2JMd+93XKgOZZCnPae+TvGblqWIyHfTPxBCqgGAAPS+ctS6yoB9I+HXtx2mpoSDzjn8h5bfV6VGEf0i2OCtbENiMQ53AlpxdlvDJbS3Uv/L1HyYHVlViI1EvXq4UOYCUCUkyHqPBIi3iS+fB8AA5cpL9dtlC1M9Tg+VOhw8qQ8Np7Tg7iIBOrlFNR6q5eCObQApSSWy86dXK8tEC3/1zrq0yCpf0bH5htAAB/7vFX1ZH6c9pi3yl4LbTtmNxjD8isDRBu2JQxmMLI+4RCd123UaKRwQS2a67RSG7YAJuiWVs2wFY/qvkeXbqJzXPwUCcJOWK2QXVeUZpEV03OcIz1WdnIVmNWCrYdgWZJzf9ZH0J9CgB6Zp3qhP1rw2q1mMDOv2uu+1wslN52RuI+/vgAVQaXhJ0XSnxrV69IvbNarDNABbUKRqy9mP2LHKgUrR6GKhlaz6AiFwghGMDCkE/DMjMK2q18sTELIRk1DYn/LhfkMLG1z3xinj8Bixlcd7pwVpM90yAhQA9XWCRCpSfpuZdkGqjMlWXrDbHRJb4ba+i9Qw9hYbWj7xiTJL5R4i8bi5r55HsqNyd/9LFvHSWvSA9APtgzLvgrNMyXjleL6YwKo/IuYxlJiGgY+BIMpZKErEXlrT3UAmYlOa4inxMAvJuBCJV+eiroXITyfiOg94sXOSoCJrGbj/IMBdjrsvu6cwEQPHqkbqzyJZRU/I+SftjLJvfaoErLPFhMRvfiwcTlkwiXi6XkvFEfiLPPCOZTUur8alPI9e8cfXrPM1nXfskrXE1dxLiyhKR7ySVSUAqUmH9tilZTWDR4dvX3PTs9lLNy8i2/bJ1EIsSIt5AFqSQg3v5iaLdlBEyd5UVLeVH8/B18IRTlXrVV0feF9Xc1yuFwXT86BceTgSZoFEQ6klqUd4JvbcWpsheuVe6u9EFQG+g1mA9mJ4Q06xRTBx+HnH8DZgeD5GJ4ArgYL1IQD88sCTcktBF2809lBpucaBhrsB35jAUs1DgrDOPz6PZeZkmRPj4+LgotnaysxohE4QJb3A1e4bEsepjjyb4JDl8WnGgYGkhQqHsOju1/tO+BHZQAoFOqHsydLUOO86dysalueP1Y/QkAelo+IKP46ZjcUbUaq3MB3gMsfJPNtiYv5IAbaaslRugEMUai9zJSDR1z0OTxx84QPdWrXDsdgKEH0vLsMEYOr0N6VhCtdObBSpPHYsZZ7SIMlTLCL2bONjsnhsmUQK2rKNu37QppNGz0s5NWypLZSEDQHuavqjcCOE8u4kMw2wYtK2whMR+lxHv2KPXnP7iU79zwx3RkcEYK3cgkkQV/SvgJcGyj6jP/WEvTGQuf/dJRP7dS3j2fKXyORSJ+qoz2wXl1zAdtyTUGz9dHwPzC+wgkj6yZtAkTDTI2D1vMC8sqJYwpjy5XBbtazY+9Mymzff+ZuykQ4blPdbYUCGSJBXdND8koAHyUin61+kiMSzU6Hd7tfeU2HTs09NPv5Ncg1KxeMK+PRrARdZSohwrn695AzlvvOI9s8X73JXfm2qk+XIWoIMLM9NyO+0R5RGrm+mOj4ulaLreAmiSro6CU7HMiyKD2czhhyxiDSaZRPJEZB3AJzCdDkl8yU+n/jzfAdnpyQ2sS5ee5Ftz30lZp3fm9PxAeROgoU+udssV6E9KU/CTEAQ8i6iDTHaLv45PW75ADjZj4WrLFJzIa6IA5e8CjpGk5UumMGOCpY7C86gwG1Zr1AWRCefKfk1QwE/RqDVjntLhCSfs+/sS2BkSkFa485yoTfpuQSXQooVZsmS0WMyr2k/0U+Bs6YkCsc+jExHTBCwTDKAxyLLLSTRdj6S//p1rnpsQm4RaNIWpNANrDHwvjsHSLASEgeAn4zCI1f+x6M6PdXJdsmdSQtTd6kqBxDBi7qvpFwMApcDBgQXu9HXiQoXo1QLaNQCqxtXOTM/MFDPjSPrdb5ColGUwk9ObECb2EJ73ljddlknGKqXJSL0sdubaRFFxAQyLFfTfYikz082UACF+q2z7rEMglO1J2OP8LYm0+lrC5NZqFtDENDfO7o00ZAqICZT/GUWbJO2DZk5rVUsCi7y6JYAAjSme2j5Vvv2u+1B7F8hJUTzBWgwYhAt+WODIzpnW4njLRKz67vmlbZ9921DXUFthfdvY0PezEJ/tyyk2e7zT1QpWJcJwLeF99NNf2pT3vNwInwuH6TgAFw5s8etb5YfJmpao9pGP2m9K7yQzRt5WNExcqY0VSxZnkh7LP4rnW6fHVjwhJ3Sbd34Gz/cf6tywIB6cY4fVLeAg4jKJ0dLQXm/dupXjwLlu27aNqxl+kNzi8E6RXJQ+lFNPBLNwR3N39oCYJycn7YWi7Mbqs88+SzENZIPsCQdb77JCOTRvFTQLrHeCpWOhUki4XR01gt+SUy820eIWj0vS9/QlsDMkwNjQm+tpcO19mOmNmd/B2CjHRDuFqr4RmSp6q1ctr1UxyEGTrJvL6WK3jH0gfBAAnb4uYXcvKKyP0Y0BTNUSFiTDwJz0Ipmf3n7PsYcd/tIzDxlOexMlr1atDeXEPhiIIfatPoRl4ORWdZYhnOGwr7LB3IQAYj7/V6wv4ARVq67dz32FacUHWqAmAAmCw1LmqbR+E0j4wTQ/I4GpF51n2uMZNw6SOs+MKM9rAEXGWKXKVxhxpInpOK1ozTLv3LPWf/OaW8qTY8ncYtov3z1iqx6NJ8rFErvmtO1SmtJdiAI5cYmnR9LWUo2LZCo+kM159a3wzOyFcigx2gN/qUn9DEAaFU5ahc2xnQEiOmf5wpZK1zgCW1HxS8xoJpuZmBzjJZ6qV2Je/N6Hn/jtxMnLh8QYPeJVmEfTRI2oLy5EzWuKvJUDbcNi8aX56l/xz+2kkbZzgZCsLH6MoIDkTLhkruia6S52geVYYoCOoOh5P7zhqetuuzM9sjqSynGel0Exrs7TLkM/zG23EI4jgkJm1lJkKojkpfCxRq2cnzrisIPB+GwcimP9Uj7e0IUQErQKQmiECT//fgN5YHogoOmDgYCA+IGBAZgDJj799NOPPfbYww8//Jvf/OaJJ54A+wIx0RAvXbp07dq169at47ps2bL99tuP5KQlgtExYPr8l7BrDigyzOMwaOE9/fa3v33jjTeOjIy8733vY+8jyGDuQhMycL+zSxfG8Q6am2DbFggQT6VQm/CP4dBnP/tZ6u70008/6aSTmJMYpreE1BEE7V1oS6of2JfAjkugZ2S/41n2KeygBFihVXsZer/G6KLkyNCAnFUpVqeCkmQwE/gyvxEM0pj48l0jgIEhGWIcrJnitlguf/eam5kovOzcQ1MpOtmY6VWmaeT8gjHqN4dUBw0MQ+j4a63O4jyfVyQGe/J1XXdXv3y+oYVCdz9o+p8ALgV/pz/VO+rOOnfxBCFiTNXBEc09cX71zK+iHbEF9iQSWsMK3dPJCNYSxZr35svOv+u+h+97YnM8nY3WE2imgTEUHxDmytLCx0KNfNBHcE7C5uuUaQsPNAtrvc4zkE0vXjTSqD8Gqk/GokU+hA019XBy8Ldfr+FQwtQER8NgiuYn1UpMpjtg90wmx55U+Xrk3kefuvP+5848cSnvFwK1N4oE8lpaQ2itdqKIsrYTP/qo9QIlK2D3yRCF5Cw8GO/0OYTFKtV6JOVN1ry7Hi7962e/mF20shTJ0nXIV8Ukmd4dcdu2Coxyi9xkNoQwmQ7ygDyJJAuTVGuDjXgqlfwJx7wAhT1MoOaWDzfkOTxRN3IjNH2nz4Kb3eQvogALOuSHWhr8arD+3nvvveGGG2677bZHHnlkbGzMNPrEN01wNpu96aabiL9ixYqDDjro5JNPPvvss1evXm2Q1yLvbPi7gDJkMoMNPcWBZwD0fffd9/nPf/7JJ5+k4CtXrvz93/9903mTIx6g/wJm3ZaUgXjyMut5GGtpwy2pnA0VCb/whS985StfIeEDDzwA8+vWrYNhmx5Q17Tc2Um1UO7f9iUwDwnMA9m7saCb7HbHzrQbvnfbOEBvNoxWyxEvl4lun/D2Wb3i0W35WHxQx0/pN/DIwCcI31cJd18c0fWz+4ckkBFZt29JoWZM5xbf99iz3tU/nSyWTj7hyP1XyVgtG1HI57S0IlfRBOMXKGJ/FOg1Eavdds/Pzo4ZGvi7ygqx2kxA5CvKfrnyX6GF3DSdRm3ezvBpVUmoVFbXfFjN+qm6TzYj950SwJyHWpeySAOgrgGbtZK3etQ7d8OLnv7qt2uNUr1aZFmIdlkoMdihvKJxqRR3CkNNotPl1gyf3ael4Z0T5Tu1hBH5opEh2dSrXkukYuUy3+AK85SYn3wMKlNqw96iqTeQKjvSNh11LZhYYKpcRWT8gGtgAvbeYeuwUmli01jxO9ffvO/aiw5ZRkoEGaYQ0JLFNXvZ0JVPyyOI0dVfbcnaiDX69JzszlWQFEoqV7sXyVxgPddEJOdhfnP/k5P/9h9Xbp2qNNIDTFMqVbYPktbgHJhmdlhjqxlWGsHnOLUulH6JvOn5RGowwRwHT3XZ6PAh+ycTJONDXY7NtgPRpCJEMlY0oSEVBCcuQAjvJs4wH8yYNhoPphymsQbWAy7Xrl0LcD/hhBOOOOIIg5hcsVS555577r77buDvHXfc8aMf/QhYjyIf8dLUURjb9GA3KeOcbNjaBcwbpIZ/g/IIZ/NmDm7T7eCUyi6A9Y5b4wrxImSqYHR01IC+izDTg/Dz+Tz8M0XBvsh1O7Ys4+p6ZsJ+SF8CCyiBeSD7Bcy9T6pnCWBFiSWOOEa4mFcpVVcsX/zgxkcTWUxdbQcKRl/ZTVE6+Gmjald5MWCSkHE0JuiLMZvhlG00OUwn6qWGAff3PvClu+677/WvfeW6takhMcRhAE2FSeto7AeoH5L8NXCgn5/uTsPrdOARLkd7PyI11ag+duVqH5lQhbodn0oV9V5HkHMDRkfSz9cDEBZ2KlWxwqhgBx2LDWe98aq34dRjv/P9q7eXKmW2TK3GKnWv3KgyTKZMx7+zuHWQ1M9A5NaNwIklyBEnFMCNYu/W8DJxbyCb4Zad1GMctasfFfikQ38chHTgPvRQAGrgJKLdIQmA3fjkxEAykUizq1Dixtt+ffD++x746mMxqiMOfNDaJAEvJektmdicK2d+BDMHCsj38hd6Qra9C9q5TGOoVIvEZJYpRxzrPb6zwcR705T3Xz+44ed3PxQfXFaJJfJTxaGRRdWybzNNmtkxvcvZ5ONnQrkCtqTufGlJqcWky6uu22dFTgXCbCuuC4ilfD6VzVpxLKlPgD/z6BAdWzvHA36V6a32AoZr2eERWI85x8aNG9esWXPZZZedd955GKVQfPT0puCHl6mpqZe97GXgxVtuueUHP/jB9773PTT3Ds1jAUIcICZJdg7jC0wVnTeiMNRO0V74whdu2LDh8ssvP+SQQy655BJKzVPkY6sQ4Oadje8RLAJnmsEs69/+7d8efPDBv//7v0cB36nYxhIrDyR585vffP3115PwVa96FVZSxqotR5AcylbRnUj1w/sS2HEJCEiUwU47Pxv26BO1C+VOelLpD9XZX3vWbcao42Qw4MXE6lY3gQhSEkIT58qgIdpdtRKXDs5YCaL1/7ZIIGGwXgxLI+VSZemSxCknHXfVLXcO5EYrjVo8jalfPJ+fHBpZPFWqclZ9T8gVmBmPczom4EPWiGUgBOJTPdjRxhN8IpcciMcbuWtu+tmPb731gpdseOOlF+6/yCsqljO+aC2AOhYVWBan9XBuETBPzI99vSyhOvxigR2sS7LFj1Q60Z4X5xBEN7kDKIA2moSSGoxSxg1+TC+DvlOOqr1ESJWtLCg76kX3KOyRl64XJ9WkkrSEPabuJacu48rHYbKuBJBLJOSoIH65uLf/Cu81F577ha9+u1iq3NAu2QAAQABJREFUxGIDsRQK3Ua1XksCDAFvgSMT6QS0r2mbYU/yoQVql+LTVIJ+D9OZDjXsg9xwBWKlxqsFfsX4jZdssjhVrSdGFi2dKhbkfZEWzNyXhk+WSsH/CN1wsNSp9KQQhidpRDzWdQBLS+pGLRGNxdOZepXpQrRWjcZSA/955bfXLs69fMMhtJVi2cslmc7Xy+V8Bns4TneislWBLbptNvBgXi9Qu327krw7uHAxiaLcyx/pltXRxGSXLFwpn+JEi1LZiyW9RKZaj5b0OAvA+6335j/zxa/98p6HU8PLOGGXsiQHUuPbtwwOioW0OWTuxG61HDxp/sWgXt8lUS5I98OUSr41QMI1AX98oF2pMRnMT04NDw49+/CTf/ihv8lPeqMDso8+fYzoH4D1wjGiaJGFTYmCUjXzfD59lJJXGN2wM+z+1re+dcUVV4DvzzzzzHe+851HHXUUcRgrgYxhpG7YHZmcpe4jH/kIxZDORV8fu84b1huuhasd0TEbhDW1txMxjcjNZAikaDg8MGwxraTEef/73/9Hf/RHlAg0D2ImgkPzhu8dzTk9ZGECcTE1W9n0BsDt1PDkZeW14tvqATGvvfbaww47jAoiuYvjSFkgRAzck9E+++yDGRXhrk7xW33hMbudtnR4iprfpmeOZzyEG/8wBofGJJLk1jFPnLDjqZN8S3FctBaZuPC+Zy+QwNzdnDWs8HXexTYi807eT9iUAG87Z1SxpZznjS4aGhpgL2yP3cHZoAIlO7bODBe8t4qX567iJlnxCUrQP4JAFcoCQ6L5EttdJoqNRCWeHVq6JjEwetWNt7793R/46499+Sd3PDrZ8Nh2eKzqTYEL+IAN62qUsnK+atzfv72Zh07wsOHHTjkZ5yo2PTIKy+i9q6+aYU8XyicbmCiUUwwOPtO/QsUHRT0RtMhdvhpdRpsHAwuahIqkCVkrkroF5rOT30vPPPbANcsHU5zPVebbx4FMWgc5X2gUbaeUTnH2DlCGPfnZDJkiLRkdHRka5MNfOawq2MQjXIkurxbEHEjYJoHBnS8lpmfgWBGFwFkU4dFEJZquRjMf/sj/+/EtT4Ep5CNVeRpNptJTxXGZMXFqFa2PrVijCZYUIpyy5avvHfE5PFZPRJKqmu6A9SheisVyldaN0TrAi83UcwOiQmdbxkQKTqqA/Ij3bNH7xePen/7vf7r5zoca6eF4ZpB9bHBs5YiRTNsvYqdn1Xonb5SgGczrfb4IAamUiwXmP5Fahc9mc+lEcWr7IfuvXrYozYSHNkZZQEuqQCBXJt3IQkTtyqilnFnQ1tx38T2CMoBlOIwvZX/+85/zpSxQ8u1vfzuwHlBL2UGZlG5OpD4PrAb6xBIM4hTcNV2gMzlyy1N7NA+xUCLDoGHKBIaZxE8cssADG2jryZRuwRJyNRCPCb7BeqRhnxl04ocZEUDWPSUyRXDlIiOeIk8i4GemBDIG3BOHEMuUyHgovgXiAbKTrwmfR2GBEBkH8zhIcTX2yAJHWsdJi8fyskBiwpWRNVhPjvAGZYsAWTzcIg3HJJLsBOuJzFMIQodSWG06UsKrmmwRwWVhT/vXvUYCpmmdozha/b7pNlHpMedIEDxGoyTHAQYNlOCwP4jV/9u7BOiIgcRx+WBs31XLV61YsnGykkxnqqUywJ6dc+gropEMXQ4i7340k/rSL95kUBQ7EtTTEiS1mE6yipgvlKdK5YFUIpcdrRbGt24vfve6O35w3a37r93vzDNefMLxxyxdFOfcTDahQ3uZkvPeGZQlf8A7+nv0U3RNsnWPwBfRcz6/117lzj7m0vRjHnCHAppgAfnoThWWEcBChy9vitbNe8IbId22vRrm09uZF/fuOM/MOM93iKlF4UKEgATMJwp8z1sx6L3kjJPv/8wVA7mVmwvjuYHhUr7ECU0ygTRHLFk/FCl0kkQLLtYc5rh0L+EZhJoVKAzq4zWrVy5dMrpxfBOcgwkiYk2kbAMm2ZiR6mc/e8lSSm9tRJX0tBKRSVAu+UTdOeKyHyhiQGONAOQVbMQ5SaKKmj45+k//7/MPPX7eay4+AYU0JGh6qfRAQ0654lzjWnGqGI9lUtkhWhtf38oR4b04uCCBXS2dlblYqaN4T7KCx5epAo3QF4DU0SWwcFDPFxsVDtJIeMwwvnHtg5/6wleLHFC2eHE6O8TenSClVCqaSdaHsukmyOqaK5WBSEc8sMeFQ3+jEU7l4whgFg84LyzDJonlyTM2nL5y1MtpL0MZaEZsDSP1gKTU6VDl+4WMhe5OV4CaX0zVHwPrseoG52HRcdxxx8EpVQyuxQNkdErrtiUIWqj/BrWNMzOQ3I0B9wgsaKgUdIgjnAiOuIs2u8fRBD7Ku+O/PXJWHTQNrzsK3JIj4abPtnBCkAPgFXjqkpgoXMKZHtvt3mVqBCGF9MDZDhbDD5nioABx4hOHp0SDc5MzciAJjxYtWmSAG3xvjygF0UhOWiua8Q814pCp0SRaJ/BtEwDjJ1wKy9RVNLkgBOMTj7FNfDwmYcs9TMH5Ie4KQimMW3vKLQ4Kjn+Xqu/ZOyTQEdlbu+E6vTcE8IVw+lwyEOWLKKH8PtqiK+UWsnMR6j9vkYAge/pc4EF01crcgfvv98hPfzWUyqFHlD0h1JgPpRmmgjJuKMhoIdD2VlG4VDjgIupVNB1728sXfmQIlIhnBpgwVKvF8WI+HcssXr52bPv2eCL+8LMTd3/2yswXv37oQfsfe9ThB6xdk45HRgbSyxYPjwwns+j4gATycZvHx3VoqeBdRoyQa2KoUOAu8E5v3m0ytObuXw2pIfeGV5Yv9qQUcM6wgCWFeg0+iClSgCN43lJWycXeL8td/OrDI/5ZnYugUeeIPCulnfRQgFSYLUpG+QlFaKeffPQ1N/zkzse3ZJOjxcKkfEorVklNrYEbsToxp1PNTg9bw4UNkacINyy36Qy2pppxr2TqrIMLzF22NLVi6bK7fvNUJFmVbaTUqMZnWyLiBAYF2WlaC/al4kfyw3xWZHkLLikd2nvG7TrGJDKNjMQHlk3U8t+77papSuX8l5y6z1KxbmJ9jh1FM+hEY15uiBN8tIGB9Jnpa0NyxLvw+FMMa9owJzXFGktCEDWWdfTU7GMk8w1QS402H58s1VNsceR5N/96+1e/+6M77nmk0EgOji6t1CPyUiQSA0MjjRoQBWP7OBTaukA+Mx5KfYF2o9jrIQceExNpplOJSr0cZ/7DkQixemly67JF2fUvOiHDhqCkkHj0iNgQsh2wrgpKrcMjpZCrxpAK6Fk8lnKXXAGF999/Pzu4H3PMMeeccw4FB34503lQmogigMgtHLlw52mJ0HJr8ieyYV8yMlALEqUGccQHSuIAiOA/XAuF2W9dQuOH7KBPLg6aEwIaNnwJKYeAScitwVDLFGa6z51pAIJyiJlMYSAManlE1mBucoEyERyMDrOB35T0MIkjGusJxjwEHbdEgxQOssTn6qYW+MMTFWK2OCJYCKUjC/Ob5PEjGa7EcSF4iEY4DHCdXSaIkWLiwhQgaNMk0tpsgQjEhNrsrBpv/eseJIGOyJ4yUOsy2CjUED+KJPXPr3iklVG5Q8c0P5q/u6mkImTEom8YyXiHHnzA92+8rYIVbCpTq1VYkwaLywjN+9+jwKN6pCwfxTGSozTUzyMYKRk/4xCuReM5LG3ryfJkHfucei2SyC6NoApBgRHLF6vFux/d+OsHnyoVpw49cN3IYHrJ4mH2EhnMpbPpVA7r4FRyzT6r4IyeBWddmzSMziPWzq7i2Ud6GDMGzMOm4mNbNr/g0P1yGYEISBnFB9tni6JFkL1FViQxO92gVFpwuXGe4En7vy38tI/0/IW68jsWZOySUJmCJmresqHIW15/6Ts/+H8yy0fGpyYzQ6N14HEgZJfK0IC73XGPy0I83VVNS6aNai2aFISYTXOIxIp4JFquyjE09YbuEisvo+BxiANK8dt+OLLyJWjSxCB+c7aQpX4D1uyxY22AYZtvaOTVwDyH/jc1NLz5mSc2P7tt69U3Pb5x88UXnnvUwWkkGo+lp2peYSLPRpzsLgopdNW4HgvHElPAlZ9cAL05QHmhVE1l4pUG8EXmZ6mEGN01stEHn/O++b3rr73pjrFSPZkeTHm1qckCXU4kxue/zDgi2EDAfCaVY1kmoNfdX1Y2wgONjEFwiM5ezPYw9I/WirFGaXz75hcd9+LDD+STZv2Sg6siT+QG/7qGRhBeaXhWIqhINex+zrV2vrl8/PHHuT3zzDNhEzRpCBILE8OLLqRTIRypThFcODEZHei4aMP4eS8M2+ExRyCPcC5JTx7Do6BG+nkIkhFV4wAxUBhq5DiTvg0KPCUt0QDTJO8+awiS0ErEFTa4kpzCCkJXCxlYMk5sGhAmTl7EsfjGuRHESt7kQxVYONGgTCCkjJrRMf6JxoTBsg7Td36j5m6JaZFhwDwa4L/NTPm4hbIVR4oRMqN3RMIeIuMsBJrIhFs4d9MYaoRwAmdWQZhO37+HSqDje0utuyKp39dCySGAXfeQMlrpbzopHcNcUN8zDwn4eN0flQ875KAVS5duzRexXJa9K+gc4tJDUYVai82qnD0ricc3t4I72IhcVKkRPtTTpe0o/b8XL5fq28qT2Vg0mxlKZXKAkHyxvG08z5g+NDgar9cmJsZiicjoktX3PvksUCMefULM9mOA/0ic1fwYE4MkhLSbks5KGSQfNBCGjOnL4GLXXQU9tctRm79wAm/GDyHxRmUkVnn3773lmKNWodSCfZWxl+aLRpO0yJdUc6MI3inrwcWjtYJH0Z1UwuxOIqpTj6WePcWue0rvMKPwwEeCZbU90YieeOTyow4/6Ma7Hs6tPLBWqQqiRZJNJfc0/0y+NfrM4PYhIiaVqpOwId855CYMOYImaia34iGYJnvIgQeNLLrlmTF00vBNeS2OZNYsSNCAlJBEcJHU7+7Ew8RYMajo/5noyElLMlmW06keeOqZfVaurlemntm0ceL2e3756wdOOe6F7/m98wDzTOkHRrIAWpScMAYJjJAHMgrzNdfuLgEnBvHli14BBOxrBJbOZuPUHMRTuoH4WMkbr3lXfuu262+8aWyqyFynVPNKk1MsFjBv53wyzDhAIYIpojFMYqaw6dHeYyYnrg23PJJ3QIKkAppxgIalMt8WV0pT8UYpWq8sGkidcPQLhphr0dpqfNFL7yFst3Myd7KplLVMIb2bOUoK9GTvdg45grUDDzwQ4GV4EY/7pNLgclverTNp+6htIDka7KaqiMC7CQPmZ+DA7wAffsOpbel0CgSUkwX4FcZwlMXIUhxDwy4h0XDcWqbGg/FmX50SMj4+TtlB+RDhFoIueYsHtqEDQaLhjKylggIONI8zypSaCEQ2goQT033qSqlhFU082nqKMzTEVnAyGyEOueC4xW9EKBfESUIgzJu+330OS2BbZwUnd2OVOK5oeMiUXKTbTCQsOyNCCK4tQRdIWpfK6MOqw/dkx1MXue/Z+yTQEdlTVGl2AeyYXnJ6yC6d39taC7Y0YX+XVPrRnAToAqVXkz5LPivjuzpu164dfuGRR9x48x1AJWoMe0X0LXnUJAD9Hp0CGIExWD9jpcqIQ04cglUqFzxM6DOpRlV2qCgyzrJLBXsYRuKDo8vJZGJyCnQ+tGxNpVJ6asvmkdE1fK1UY6MPtaIuqfIyWm5sK6hGTtCQ6AsZ9wVL0LVRDH5WvJ1wlW2wKZVQnnbV8hKKm3bVsUZCguYqf1P18r1P333ZJeP1+irkQueK6SavkIIhItt7gcCcRwl3uEBRqtKyMF+HmOHggB9jrOtkYRI72R8WhGYFLNa1Hwa/VLbY8F5/2aW33/+PjOTlcpG1f43D6CPNQOtACiW3O+6UkpGZLrceSQMMdSC37uzwI5auWb3qma0P08KxVZOmC5IQ5slEFrhczYazaSmP1b0VGPn44F4+iNXt/qEimDg6smr1b8e28ilqNTkwwRsdT//gul9873vXn7P+1PPPffGpxy1CoV7Ie0M5aY0xvnGZj3PNdRqPvDGFssfK3GBO8PODjzz345/d/dVrbt08acgpXioXKWk2N8gkf/v4GKsysWQmzpb88RSHkJXL1fHx/BBHAOi73zVfKmOZ4wSrK3zdwtmy5UqDRRKvkUTc5dLxxx110nGHCLu0GIQYMK6zLP+10hzlcddZPz8RrWUCtvAADQ3UGvACnxFu7wJTJsOLC8IlNAGpkALObtu27bnnnmPbeAD0unXrMCtfsmQJTw0iAyKdorf7rElubAN5mbFgYsSkhevatWuZqJAFx8oanCUaBcePM/TpICnFxwGpWbJALOQOS/CDP4x0w1wR38pFXk8//TRXkhDChpUUis1DKYsJnFRkBCkytUkUDFhJSUWmlsWzzz5LQkqBlIwBsrCKwGMJ8VhhLWuuv/3tbymgMz0Kc2h+MsXhJxdLCyfUPpSpC2SF0KgO6C9fvhxm4BxqcGiTB8t3JlkXYlkTWSYBKjE2UaWK+UQbYXLuAecWUwtkB02Xqu/ZayQQjASh3o969scb2V5ABiv5nhKNCDhMB94eCk+fzs9QkuAYGb1Jzn/945/zQggZEOLPnXvI4HcvqtnZ8DYCvVFWaQUuz3ovPHDNT2+6uV7JR6LpWBLr33i5Vs1Gs/VGWT8jaxUUVRkeAAONFxWswfJYKgVIIyovjy4vWcREvsHecyn0cbVioQYnyWQ6nS1Uqnx9kczmGH+3jk2RXWZ4MR/SsfslfQqQKBmPsZBQKZYKlfJQdpD5AlbCWA1Bll6dXTcoDRBJATEtDhSx8Fe1WpxJ2TX1FvkIdnFBjDzml5lUdig3MgroYqBJ6k7jgFYqQ4GosW25SIomCU0f3BKBF4C3SVS0vFlIjEfslmiWwRp3jkuYPaOmCYIc2qTWTNuEL3wQFYkgcHik7ZhDZKpmArmefvzyM089/uqf3rVo5dpyVdoR8kNXjSiQo/YE7POCCxfH4KER9knO+Uf6K8gJGSOF2HSCF0rZ5FBbnvAeDoIp0sO8vhYIEUKjOW/lskWJSLlWy2M4A/KEa/jX1jwtdSifNl5lzA+3RkMmIg21SBEuVG/H59rZ7EAiwbyyVMPmPRsbGl5y7U/vvOqGnwwPJo868uDTX3T8EYcfNDySZElkWdbE3GTDicwVy4XoC0g2CJumKC8eWAOPXGNiVc/WN/lq9Cc/efiqa67lUKSxUqSUXVaKZlKYoIEIIrL7B+r5qUJxcGCoXKvHEykMIPKFSqkG6MkAHWocTNaLk01QcTLVkQ1DXTtn/ZGuIpFMp8B/pbETjz583RK+IFYbJJhRJyhNVv84aYAiUhpXYnu+O17hmcYDzzAHXEOeFNnQm4WA/wghzgLCeigDVR999NHrrrvu+9//PofdwgZ4lFzQT+MBf2/YsOGCCy44+uijiczTTkiap20dpICn0P/mN7/561//Ggq0FxAwjsKCs0899dSXvvSlHL9FIyEyxSQcD9SICRz/zne+86UvfenQQw/90z/9U8AoDBAHySAii9Y2X8Drj3/8YzL9xS9+YZuEUhyooT4HoL/oRS9ij/kTTzzRfb0AWRykEIg1tt/85jdsYI9wqA7so8gaVM3Tf/iHf2BrUSJbWZgRLV68+LWvfe35559PIDwDxKkj/ER+xzveARzn6NwzzjijLZ8UVl4gLS8RoGkzn8985jM/+9nPMMqimJCCcys1FXHuuedygsH+++9PQljF8ZQ4belblVH2X/7yl+yjSkUwzyE+0sa4C2lQOkhRC6eddhqHBqxbt64tnX7gHioBPdIo4J12RrfOu0V7Y09CtlMDPWJ+w2iI2Sj3KKiI22mBNSDT/As1DBYYrdj7TEhjlyFIn7GznkrES9uLkahuZ62rgTUWA/eArrhZul3vQzxsLSNOv9eMpjLA7yz6RM87+/jD7/nZup/9+pE633WmgSPxWFwsTcSOGdMaqlYcdeCDULMykfrRsZyrIHgZSgsSiY9CiY75idY4FVcvVNkZQwb9EgQZPr1oRrStlWoBrMbum+xdD4FMijv9pC2GWY9kSAckinuxzInHM3E2MYcKYB7Ur7nbAEzmO7futW2RRcuPkkm+gmsCZ+8AbBMg3SeuJkBf/kbrxXhyG4YBlJQt/olRl729iQoYknJxaE9g1UAcfjxSj6Sus4F7Q9YwZK1C64IJAgUXRCuir+kkiuhSKV06OmtRZPFZla5B+1KkTGQsk+oeSHWZ4yzRyJZK5aeF04gmDcJgk/2RtAJQFb7njZc8cM9dpcJztcggG7pkBoc525gd2oGDhcLUoqHBWqUowpFKoChML6ki2hUNTeqrayfdlxCgHQtcRkzQQOTsIyN2xox/kYpMTKX+hDfBiiayIBtkqN5ItEgrjhNVCvi2N7zka1d+cfnawzYXJyOpYZbIsD5hs3WaNRv0yV6Ryrl8A0t2kJCrOK1iMhLlcpAFN5Ip5vVBHGGBVkL0mFcbSqe9GgpLcHOCnTswa6MNjUfS2dGRyXjk6juf/sZN9zHx3nffNfuvXnzBmSfk4tVcNj2Uyw7mBoYGYrm00IUi2dnV8sVPBmycKVxpe+HNn5ryJvOiqn9m88TDjz51x52/vufeh7ZsHeP79+zAvslFOWx1UciThCLR7/BZAIsGXoKTquJkwzStXi+BWdAuenXgfcneLyvXnFcqWtYsoFrnO596tA45OQuPcCglE+lGtLJly8azTzzyrJOOGsA0goJJO/fnQqCc9jBH8b8wrUKYk41dGcHgLFgQJGeQF4Ux2PSss84iBE4I5OpM7Vt4o1txTavlkbs10OwoUENgUA63+o//+A/wK1CPTXg4UInsgIyI8IknngDdXnnlleDj173udYDXVatWQc2YBFuDF404ueMxEBlmA9R70003feITnwBWYtwCgjz44INBvZQF+kBMsD749Rvf+AYHu4KYAfqEW1lMG22UmUziAVuTCx6Sm6kMeXFLLqaZpkRwjpKb47q++tWvomXn9pRTTuFQXh4Rk2gUmUyvvvrqn/zkJ2T6nve8hx1FrURWFohDlrIA+gkHzRNOIFp8jqniCjVCYABJIlIo85SrReMKnyYEJMkGR4cffjjTJMI7OSIb50S47777wN+f/exnCTzggAOY8zAxQGKQssUHFgH++Z//+T//8z+Z5wDxOQ2XmBSTtFa/LhfKyyPkSZKrrrrqYx/7GBGY1ZCKZQTqjlsqkSnQQw899OUvf/m73/3uvvvu+8EPfpBpj6PGBMzagyPb9+xZEmjtCa374yrtQzp8BhhUiwAPU6boeNVbEUVtT3q6Z2gyNAvexMkn3l42o/abSlDGAh01eyP/uxubWpIKsio8ZHVq1ZKhkVxqrFydHBuLDybZmiKdzeg3fHyMJ9CRyuSvVTGf52l6oaAjPh6BPkbTQjXcogssUKhBZH2ojcM2q/bbiRIy0MBVBlxtLOGrRjFwYznsuqsY/4ibeZWB0/CWRkAKEsffUEiGLpnXyjfJai0OxET7RAT53wBviWaxmdzathLSlCp1uXX54iFHrggJnMlwoo/EioMJMA+En05O3qCQU8krTpVAyyL0uOm1R3b1K7T5cEF9Vt0+ScWm4pfWwzCkp9KSf8TbZ1nsnFOP/da1NyUHM5VYfGJsLJHjFLRUqVxNcogVn2orCepCmUYwUg1IXUC6T737P7L2qG1b0vNGTBPiNDKSETla7s0nGMNU6a/kVbPKWzLsnXvGSTf//L6BZQdNYnRWqifSKUZ6lvYLJUFp7BzYTA7zsvIpPZ8yIE+ml2LaJph+QmkPMgGwmhXGRIy2gBRLDC8CWXDoVzw+kM0uASI8tb2xeWLjdTf880C6MTo8zNac7OGzbOmi0aHhbCa5aDALZmb1LBGPphNsZxXlh4Lg6Y2bGrE4suVj2a3bJp589rlnntm8dbzwxNObOOiuEU3GksODq5bTcbP35UShnB1IMUejHzEZyoTcL4n+8f3NF4IW3rzxC9b5j0y9BLTpTsmiq0ZyTMmoEZAKmgr2FWfWd8JRR+yzFJucqpeQAUWqy883THlmHYaf7i5+MJap6mGIE2c5exVMfO21137oQx8CZVKtQDEHpmUiGsBBGhtJ7BaPgby2peIRINjwMcpaiPzrv/7rf/3Xf0F8/fr1L3nJSzDrB0cCXoGSRABKPvnkk7ABDgYog/7ZgvP444/XVi1W8pYLtSPNQDd/xANeJByusPqA+BVXXAGYBl4DUsHQmH+QnKeAZhThaNNvvfVWigmifeaZZyh4W85nCSQ7WgQAFOlRQHDqJz/5SQhCHD302WefjbKfQvGUTGHPLILuvPNOpjQ333zzU0899Qd/8Aeo26EDS5QdIkiG0jGNQdfOLQwjIhL+6le/gv+LLrqI2iECwoQmkXFgYmLOwucsjyDOU4oAP9QIenomD29961uRBg4UziyCMiJG7HOwornnnns4nPgf//EfQeREYzpEWiYtVAGloIxQgxnzUI+o/5meEcIyBRXB5I1FBp7CPC1qy5YtSB6aN9xww2233YYEoANLlpx8512uWYrcf7TLJNCK7GdmTH3bMKQeeS6jX3eOPp2RVNVmABcGZUY43n95E3graEPMj20AlCYla0ytI153+fRjiUwveeVF1/zkjnR68ZatE8lkbjC3pJifQpWoL70pO6kDwwpILDQYKrgMqnWe/dRuXgfWYc1kslNbJr5r8CIs7TcVZs2kMXfINLw7PTq5WE2IBzVMJ4YUHTZjKpEeMNP0THfenRVG+LSC+D5lnImIWGiJfnwo7Z137vrb77r38bE85zAUatiMSWfBhyLYdVQ4k0jaJ7pYv50Cih3lWUTUUq5O8tGuSOIG9cIQa3HboHopCTXTEOMrDMjQo3JNR70LX3rOdTfdzggfjSTQ4GFsFuV8CTUkcC1HiWpiFYiiYLq5Fja7unUN0jxAFgMl3AJBIAFA4aPW9KL92bJqU7668bHirx56tFG7X0y96uXRRSNIk+3gAfQpgD1Lerqmli+MVaqlYqGcx8BbttRnE5qkAPp0jmUNVimYtshklugpDgHNGKw3jsm6G9a7Ly/Sj9BEZBgQGydZLpEBg1tWyyrFqYnBRGWfZSPnn3cMQQBFmVfv4Y56pOJoNoYvOaAKZIlJ97/8y7/8yZ/8CQAL83rTTINZnSLZFdqg2OwVwVPAnCXB89GPfhSACM1XvvKVL3/5y4H15GJPaVGMyCtWrEDfjPkHyuP//u//xioGIAhKRu/u8sVjcxLAJaCQ0RwiXAkETX7hC1+A7UsuuQRMCcJ2kwGLRnyoQRwGmD+wxWeYbJd+CsL0AOwLzqb9f/zjH2eFgZnJn/3Zn2HhA6tIhkeEGEGU3OvWrSMcyxNU+1/5yldYUoCTDRs2UGoiUwUmJcTFVMSxQUGwk8HYfe3atZSFV5v4TmIu2jw8aPSZbjHZ+Nu//VtqnJNr/+Iv/oIGAM9hVA2TVAqTCiZX1AvK9euvvx4eUN5b6WDJ+IcHS0gtMIFhYsajt7/97a95zWuYmbg6MuYRCHmxNISFDzzQ6ig4zii4Hmwe5eon2R0kMAeyb6lgvaVT5deV06gyIofpGJEa+0N7bNablYmr7DFSw1qjj+y7EqtEAn8jON8h4WLFO3C/7CknnXDVjT/LpUfYJTwerU6ySZzslSE6Z9ZcxJpBN5MwLXuQ2lUnYyhku61cTd4xMn2Eo797e4TPMK+mhJRpKOFt8f18yxPgSEnf8kb4EwdeAHkHOko1nBAKGi/M+3w5W6B08GONkmbUWv/yZUI1kYwTAZRRqnsH77/krPUv+vRXr40lBjN8don9TbkqmiKRgQhC100EUtNsBeKJWORqxe6GZZmcqdCDNGSONyRendOG60Uk3I602BEq52BJQ0nHH33oUUcc9ovHtiUGMS1kz9ci+Do3OAxCZmQFTUHG3gLhQsWhWbcl3y5LCbOE/iTTtUY8BkcgiIdbQImoJ7MDlbLQJ1wOpJXSM7kQz1ipQH/LTleIXi3BmJ7QiVQ51Y7gOqfasbeNjOvs5xnH9iadHWD78RjdNJ/EyB7ysv7CfvFOPW4lgojz4J/ptMgzg9uHUBHIiSpWGwpWd7XSGzVOLK5X88wGS1s3vvVP3zLCTlRY6TRq2EbBcntae04odUerN1j5ghe8ALtnDDO+/vWvA/XQEwPBAZdUrsF6ioVUnMypfRK6206FtrkfkbFFAawDiE1jbTQNHEOHN5Sr0QTLggjBlJ/61Kew0gYTv+td7yKhzUOIBl6HEzAlmaJXhhSQEbaxGKH9o/YmOXplnoL+4dDiQxw8aqAWXPuKV7yCVG720on/meEQhBlyB/iC0THsoYygXggaNiUJlMkOD1dyhytyRLxwhUqbGcvnP/95LHPgx6JZQngjBPomdkpKMSFFCIIiOxMRkQkJ18VMJmcPgRkMhz796U+jPmd+xeSEOZVLAmUjTkbUAmKnPYC/4eQv//IvQe1r165lLYX4RCAmXFldEMKqC7VAGV/96ldffPHFwHoCeYoESG5ZwDw0uWWKBSkLdFee4kcskHWBfc8eJIGO3aK2K38QCvvnXbYmkWCspfXwnhhBa0k9DXrz5mSvTAg0oot9/x9exrZ3iUgtFa9Nbd+UZjldR0nMcfhxHr39xL7EfoyjIFmBTvoTGtJT9x0SsDbJ1XkWRCwmeiPFS4FHplNhuNk5GxfNeTrHfX6eUB5+tCEpmE06uMorjwaWY1WlsDK21Lxc3Dtr/WlrVy+v5icjtUqkVpWdT+KJqYnJGJpjmWSSkqvvkaNZhWiPzlq2tupQchCq2Aeq66bB87FIhR2hYKXOZwGquR/NepddclE2EceanC/++PyQD5OIwHBoDUbKHNQTf8HPndYQ5iySESSa8zBOM+gC+HAM7dwCyypMKjx+YqXOIkglFqnEI+V4rJyI1rOZWibbyOX4ga1qWa65enZoqjFQjo3W00tjuRWRzNJybGC8HNk8UXpy07bNY/k8dlFAAVYr0PCznTwF0jp1bDjPnEXoMgLNAPN6sGu9Eat68kN0jXo57RXTtYlzTzvmrBNWMIPiSC6WEQpl5ieIfA92tBaqzxUA0PmGN7zhyCOPxAgEtT2oGsMYwL3FASIDLrkaEiWVQfaglTkyrR7DfNjVYMsBBOcYrAsvvBAPUI9HjMKAPIjQlkhJuwLU0pwAuBs2bAA+EpMPbW+//XajCzMG1ql94pAW0xGuWIyAU1E/Q/yNb3wjZYEISSBr7QRuIQ6axEMRKKPUrbbkVo67u4d/TPnRT5PRO9/5TiZC8EYgt3hA82SHw0N2eIwq+Phtb3sbCnhsUTAcQqT2iFQ4SmTytDcLasiHcCiYtCmLI4Uf/ueUf9vSQBn8zanDGOH80z/9E0K2ykW2Vh1GnHxx5EJ8QlhmoZisV7A2gk0RlGEG57giLRb2fFRApVB9wHrYgzJCQPJaRLkQiMPjKJCF3VqIu+Lpuz1OAs0+pRPrVL89Mo80hx6c2EriHHHzs+pOW8TP6ydnUGrrJFYookvR98wmAVHIyU+MBEpFb1HWe/MbLuXjznJ+Gxs/p6J8lChVIMMxf9ThBd8Hd+4v3ZP8XDT3YHaPorg2HNLR7OkuXCrKEr6dhz8EKyU1UrV3Dw+3gjJnF7Q+tXwtiRHpJH+L+bxcDdb7eNmJLYLeS75WZohkgM2xNaLn7b86ddbppw6kI4XxLbG67MUOuC9M5UUxjDZW1M3yQbKonpu/LsTUOYp8L6RvhEpGeAzw/Ryi4tPYuK7moOKG8yqQsu6tP+XwE455IUxXi4VcKsW5y6VCvlQoYu7SrCPfYkSGfzTs+lNvdxdZs1DnWqC9VgzSeKDBQx3ZBbXU6pVqpVCt5Wv1fL1R8iKViOySJdtR1hA8qFk+xeXrkAZ+FvHKnOaayBYj6Xw1PlZu5KmZeC47smzRslXZkdFULofas1KtATSw8MFCP6O6zDAnLbzZbfjaXSn9WFo7dTl+Vr4yZxohMxYkFq+Xa4XtizP1P3/vm8CeIn+gCdmwzBvObA/0U3fgNsAcvKMtBpYddNBB73//+zEpQRH+7//+7xjc33LLLRiEEAesCcrE2ehpxWUMtWbQtvTAQcINsfFhLvMEFMCvf/3ruRJO1pYWIqh4cdj8EM5cgizwYLMBTAcgkhArdq6gWxoAzLhMuSUyvKE7Z/Jw0kknMTkhIcldUyEyH56CRwmkTomPA3pCzSA44b06mCct3wFjho4dOcjesjNAT45EQJ5coQzD5sFP6TABolCEIBM03AQSn+Tm8LsCUinkghghBc8mT+IjUiPIU0pESE8OOnymjNkSEnjf+97HZINqJXfEiDOxcEuOxhKBZIQfGb773e/GEB9re+ZasEq+hLvcYYwSEZ8JA0sBRoHugghM2Azfc6tvlqxFEE7RuEKfyBbuqPU9e6gE5kD21m7sSgnxyJDb9S8YNWl9vF3+iG/UaEMQpBkZBzRN+up5vCF7qNwXnG3e7OE0O9V4r73omDNPOzETqbJFBjvaRGQcZx8Qk7/UoA/hI+GP9gRl2g/Guq/fZney4OVZaILWP868zpKPRQ5HICR8242fBCLYAIAEOE0C7UXgkXmgRuQ5hS+1qS8gHke2G052TZzwEBcUOshZhIe9jWiuefmRAKPKhtNOPPyg/eL1YrRWjtUqjUo5k0qgO/LT+A2zKUCKPKeIXAT7atZIOclzS9bmfAHqHEKqKQhv85e65xOBRjWFLT2r8/VKo1wZSnkXnnf2fsuXxBvlRq3ESZt1Fh94w+rwL1DeGPArWul3U8WOfxFYaNgONz+GYcgyiuPwcAsaSCaig+nIYLLGu5+Jsvt7IVKb9KoTXnk8E6vxQ2enn91WohE+c6rwYTCrJNFMNsZufdmBRiJVrNe3T049t207RjjsJ8QhOWxaK0soyIaqDdWuY8Z52giti/YcKqx8Qc7uobwPTvFAltF6NVYvLRlIvO5VL1057IHsOQc6EfdKFXYuFx3znu4QIDiMUqAtRuENXsTGHStqDKABZ+wh88d//MeXX345QBB8byCMyKSi6q3s1H4nIRgSBcDxgSamOOyRgsU2kweUuIy2YFwbcwF8GIdg34Lm2EgBbS0tNvGYuPAU7Tg82FMYNlxL24M4V3a8+eEPf4jFCAsC2LIzSSAmozyP8Bh9CoifEEOQ+I0NPL06I8LWlgBcdP/sMgkFhAPb9kYgH3LhpbC8yBoenMSI/OIXv5gQRGqab9JSECLzCJkY5MUP4IYIkrE6IgmBOAJdy7dUFt7lFTpYLpEpXxgjLihgk2NZQAEGeGTcUrk4BAVLlI6CUBfr168nwjXXXGPitUo0P6SoOGqWiZOFQ9DqiFIwvzIOYYDsrAiOfzwksVTUb1hcXZarH203kUDHHgH+rKEYo2F/b6zb1h/TqUGBuShwn0m1UpNBg7Wg3ij/7sU2qISwAszkV5/CBTk20rZifN1rXrZqyUA1vzVZL3FsKlaqDJ+scRu+N7jgC08Vx0pF92Jkpzmxp+27pgRc990Mmq+vBYjzAoS3aWl5Onsm838fZ6e7cE+1iVImGpff4pi4VytlFPeAxFq9zBDKeQwHrPGOPHjdCF+DVAqlqYlqqbBocIhjibRNygUpqWWOBvTInqaVWQEeehjF2cGr45OSbTBDkpfGb+xKPN4OMePWACbN4tQIvFZhI5ysmKh7px6/aO3qpTk2fMyPF/PbsRJJxSOVUlFoUrsKayRrS+tbKuldL5eZjZCuk/GesZkRmqc2DDc4QwJdfLUSVe08m33Eag1+gpVFktFYHSN6DoNOpuLpFGdKJVIoHss12X6+igkP++Wm0yMjQ+A/NSJmT3mmKlV+ciRXI8op0irJJuszGWs+m4dPNuyqxzDEkZUafmD6Cos58UbxlGMOu/iCU/iutl6eWrp4mG+s2dxnL+iqaCHUI1cgF1fODxIcF40eccQRH/jAB7CEQbsMnmOPGjS7qHjR32OcbaKl0gF8wC88nYSNbp6RFYKA8ocffhj8/d73vpckVLQBOBCqpYWU1SagHNRIEpqWNWDU8Bh12G4qRIYfBwpRaZM7CX/0ox8BOmk5fH5KCPmiISa5USCV3VpeBBLH2CAjC+zpSo5kzX6UQHN21cRcHjgLWRgDnrpmaRlRUhMRccjUWELNTzQ21WGdwUKMAWIaajf5gIlZx6DIyARHIH6jRvxwwp74R8iY02BYj+UVCngIsnEN8zrYgw4ygQc3uyAX6otHlA4/qB1TIr58YFsbY8BSOYYpF/S5RUSOK+SPn1mBC8FDHBzxrURQg5RJDx4cA+Ekff8eIYGOLxW1a84Vg1rHKaqkR+3uF8B6R0Q90iHzevAG2lstW13LtF50TtNj9u86SsAhFEHtapCDRlE66bq3zxLv7W+8dOlAojy5FXVXkt2hC1PZdKJUnMIUga2v81Myimht+vSD2jZU013l+m2gPYdGf+a1feydHzqTEwvpNWf6QRotzdRfgNVhabZtFA0bhpX9vEQ+4JPMgUoOLSnEpGJ7kL/2zIIgA9drgRY4/iwvsHyeKTBC1v1kExmvnkuKCvaNl566evlQpJqv5MfYnHH71i3pZFx2/+cMK5WsNU6s2GWv816E0+ys0MqDbsGFvsO6BP26WK+iX0B0gv5VEnZtFQqhaIl9h8YRK32+Q5WVh4GYd+lF569cwgZ70Wzcy49tHkjLIc1CXz4+VZsS1dbrLMGU0eTY+utUrqBa/dfdvad4eMR4LMzrGKzdKQdZpRORQX6pyGA6ClPyS0aHYg1mH1l+0UYmUst41TS/Blvkc1x1sgpIjkU5WqHcqBerlRJfFCSi4PxGvBFLRZMDCbT6KWzey3k+hfTNA0wYjr1OHq0CGzWmXbEssA369M0gNVUh4qKWEV2DDXkqRa+Sj9WLA4na2pWL/uefvC4hByKUEuwD0KhksUjxv2QOqmXP/Es9wjhXIJf2K03LCqAe28v83d/9HRAf8AqEZffxD3/4w3/913/9xS9+EbhpKBb4RdVb6Z1G1iCdgTkjCwgmkO1Q0MobYmvBbWBHIwIoB1YC640xrtBfr0piNlFhXkG+YFxDk6BMS4XCHtxs+7cYPzyiXJY7cezWqBEeRq5GodcrEAIjdWzKMS4ia5viGhF4M/xNRvpeSLdEI6OMlJpApjGE2Jb2bP5IiJWXQGMetuHQ2iVJ8BCBEMJN7MTET0I8OAeIicmtEeGp3RJiHq7mQZLwvG7dOra7oelbfKrGETSaJmQLhA3edyKT0FUi0xJiOuaJAFcY4WC089hjj5n5ExFwzLsodTiEQCJDEI9jGBERSEiYE277bs+SwCwD8cIXxNq00jX9mTSpwMn70He9SKBZd7aineGDuYqA+4G4d9Ix+11wzunRykR5fEsGW9taaWrbliXgpmR8cnz7IOfFCkJChQgyUI9o9bQ6HMzshZW9OG6o0e5QKdtDRkdylsmBixMMD6GA3dFr7TJUXgK4CwUIuJf2Bh4Bpw0lvNdd/PLJbRuHB1KTY1vr8qFqszeQkVC2yqVxSvsMU+mm8Jaxro1IcmGluSrVzKU9KT8z2DEyLhYJ+YlZEawdfWj0wvPO2LbpqUY5v2xkYMvGZzC4Z7svnW/L7vk4tc3RBTJHY2d4ZPLCHu/NX90DD9st+9BzpBpa2DTXWkT8QHetiIpY5Hv84Fl+qMyldmTBRa50CexAGdU9dULrGztaABGLNmkRkD/XZft2PmSoJjjkemILe+AkqlOFrU+/7bJXsRjCTjhy4Jm2DdD9jma/26cHWuHQgmO2zpep6OxRnLMBPFYxIHvsT9gQxoxeDP/hB5Sb8hV8Bv4DTNstj1BOE42lABDePIrOaVYQROuP9T/JwbgAXDwgQuqOGQWoEcpwaLhwHln0moSpDuCVGdG6desM2lor4goIdvgbsrAEnwgTD3MS0K0xie0Qkx805TimPUEj7JWR+cTHyIragQG3Iz4MIGFD2EYRJo1PlwFPcRSWisYxe6EsVsUWx4oA7uecXT6K+NznPsdTyPIUmyVaBRVncx5H0+Yt7rbv2Tsk0ESHLeVxL0lLOAno3Lv8aVr67GBglgHWN/huIdu/3QEJCM5gzBNoXimkGAI9b3HGu+zi8wH3tcJYeWIrBsHAjlphkk2ha6WCnBer2+W4WsZjDja6rFyLtgNs7+5JnUAco4Q4f/ce0vgQUWClT8FNoBxN88zyflFlJvOmp3smdlVMg8CuvEG2UiwVg3suUQhiIsrv/HMOP+zgfSulSdSxKMdRG8vW94aJZd0Pwwz98lW/Ru2+fWruQsXYcB6BqgpYAz6JIDAdmGuMBmzrX3ngzHI0ltQnP+Gf1w2l5aUXHfXyc0+PA0fHNg9mE8WpcSzf0IbJmgPY3yoOf1CDPRZhGjuz3HAmCCtKbAvCr6w/88s1EsXAQq8R38peTrqAGKp6gfWK6fHLT/0y9UJQTIRMXCaxWXJv+8jkOfPKi0AgV/uZnwoChTCRq8scKT353JOD0fy73/qa9SevSXHMlkhNPq5mohVUads894ZA4BfFAHWBR8F8fJAKlGejRrAaWl5Q2v333486n89G2cXSoXlZ+AhOjDI8Z6Cf06OwJoemnTNqatqexIR6G5QJkjZkb2ktL2rtkUceYfKARb7hVMu0J/q9RqYIIFf44dvTdevWWXLEhQc+ERoe4uDsrQfBG1dAW2Yg4GMgPsYwoGSDtoSTishEM41+ryy1jW+c2COI2y1Z8PErOBvjKwC6PYVtZiM8QqqwTSAhODxaDrlYTDyEY0YPBVh14QRaYWktrPZQTL4P5rRdCyQ+TYLC6uxAFnnICyFYRka5f91rJOCWmDuWiGZBN6pX39u9ukT6X8YzBsxQT6x+v43aF2ZEkpFSwI68kH3XiwRExMSnS49FE5kE+257RfaNiESWDXlvuezizePV6265M53NDecGquVCqVxLJjLYO7NjhigitYLob/DJAC51I/+6d73E7Z7qros5s7TWVlvCCdyRpmk0ES8Fw69OwaUWlFtqQMQvom/JuVUURLYgISLxd4SvVuI7eA8rMhBNcxZAE53xRFivJ1AUN6LpiPf2N73uLz/yCb4Oq0YTk/l8JjMgCmjAJZCbpPgVi6v2e1oGs9zQ8TAncK1c35Qm0NeECl5nIeGzDRnFlNNjUl5Oi7Cyfeh/vP7B33voqS2ToqVPJWry5bpsto7pOHY7lEXqSevKr7/ppDrd9RSZLxfIVQTGrjIyI0JwvgU2YJgslAnJitas3W0VLGMrJNIIpW1yVpq2KxGcIGhF4KzsCSkRpT3txO6M8Flas1AygkJUC9poFMolOSKXHTu9UqG09dzzz3vbJSdjF8JABe6SE2ehKCzz0ySy39Je6AB5Bu7xGGClkMBQDljdsGEDp5Zy2tRVV131wAMPfOxjH8OehDOh+NwWDS54DsRGEjzgNoOSmO5gJQ9BO4PJl3YvYkM1jj6e6YEz+AFQOtj6xBNPAJ2JYDuyu/BecugtrmBeRfBYnixatAhmKBSYFaQL3oUW+Ngi4GfWgYKcVQugLep55jl8dcAnBxjzwDaBOJA9MQ0lk7A3bmaNDWMIBOckZjkCtUH2lik5wiF+q2uSwD9XqpISUXFUPWsUcM4kCmljE8W+ljBPuHFruSABiJAXp4BR6XyYwc6erPlwBhaCIgtjA5p4yMtlx+2sheg/3MMk0BHZ01Bw7Uujg0T7R51DfYL99tNZRDvwhEk8kq2n5FzGei4eLVbQvcXXrkz94TvetHHzlt88+BgjYXJgmM9pGdIjCY6WZJzmdaYu/UEVI2RGzQg2xL3V715bo7RYyua3W/XMo4IQr40S7m0SfBK8WASiiMQRzQf3ZOkez8hPiKi8A097xDwj3a4L6NAaTAYzx0ugZiURiebLiXNPP+j71x17610PNhJxtZcRzC1yQUDIRpApFiGK5zrk0a6QyEcc4pIzbEHhJkCITbfJCZEUYOynsj9yRQso12ZA4AMObB2fyg3lxgve//c/P/CXf/PR5yarMfbOYV92O1CYhIB7ISGl4bQnq8GAQPA3xEEQZH87PpgeTe4oYp3NZYAQ0uisbfgSaKUScCFF0s9zND0X3bqIowP8Rkh7EwqBulBiS8zenM9DOBEs2i1VY45bdhXiyt6d8XphYuzZC8859T1vvEjwTg2rD4sea8gRYMw45A8JW8tlsfaKK5iecoDqgHcAOIOegDMU9hy3hOPj2uuvv/6222674oorQI2oaQH3JEEs4EJTS1sqoCR0APoGJecB46Cwbt06ACU7KorYIxFCDEPjJ5AcyQsNNE8NX+7USmAdA2aYZjDlIEeXKR5WFZjhgObxwBjTHjA9aJhddADHbJFpkVFswy0zJbamoSAmk53BOdkZcTzIBD91ASjHD7gPSwmemYAhWJ5SNPtkmaUJ+L/33nuZk1DLVCJyZjLDUWJ8R0spjGce4QHlW3bM6wD0mHJ98pOfZPrHgs8ZZ5zBRvgcMkAjobw0KuKTiuwcxA8z0/fv0RLoiOytVLQSdQ7ftGi85ig7DVn7b71oXKjx167TE7fp/adH6N/NKgHGXgUedOHJVBrlPf0ap3gfsMp76+tf8/Vv/eDm2+/wCsX08GJObwR2KKQUvAFRML0O5FQNx9D6Q+ismTUfNqu2GbYn+QRsTXd+41TI0NJQW26np2t/h3zRmpIQgEoTNwpylWwlD/w+phfQyfs1N1YxIpa2fa7PY2iLOFtKw1NC7KpMcrZoPC7mn5iCvv61r/r5PR8Zm5pIZUcM5TEKitpedMfgba6y0NGSw6xl9QUtrVxkK/MiJgdowySVYNZprZ1oLfw64iQgNhHsauEauTI6lCzV6oOZ6IFrB97/3nf9rw//8/atY7nRVV6UnWoi4HtDydQyhfAZcnTn8vRSWGlM0pZEQqKqZzlE+W3JgxI4hzjZYYalBXGWl0F6hEWghugFwI/kIe5PRR2F2T0maCM8Laa1YXfFg7MsgGRThS1nHHfI29/wKra5bJRLnL0n6xBq7Q8tLaPOf/dShT2SAvyB0mj/4HuD+ASC9kBsYFn8qF0vvfRSFLGgQ4wuvvKVr4Bi/+qv/opHID/gGrjNEiJYI8UjMBzQ0DS13HbvoACUBL6DLwGFZGFoFWjII5AouZAjDk/3ZOcdk0zJmgkPbIB6KS8qar6mhROgMGsLzH8QCFAeQRENoYGGOeKXVYV169ZxRZJwy2fKgF0M040TaYS6UQyP5s1bS0InEAPfPIVbrsiQMRrVO3yijCfEjJqYe7BFKRMSqhtmQOHUI985EJ9ddMDlMMwED9snwkH2lp1VB36b1HHLvOWCCy7AlB8jLrZUYotMvnLG/h7Hh84IgbSIEbILWFhjpn993iUwG7J3LdJxKSGdhj4XqZ0nIMWgIgu88yPSjnA/zJdAg420gSm8qV6VMyg5wyWXlc0N2ERrwymrM5lXpbKZm2+7szQ1nhgcLbNnXBILCBlJJb0ADjzin1f1Co29zAUt1i+W3IqIenYmYVAJDiIicaWjCNVH8RLetdwtuVHb7apLimnA0bBigBb5awUMXREF2FrXvVHbZ9js7chDcyeffOK1N/5cVfOgUhObiQ40bs11niPuNLkF0hYexIXB7nT+Q8+IyzO7WjL5oLNRpkZTMQwAopmod9JRSy+79JIvf/0HE2U2mQUzE1GqXOpXMIOAaF8URmJBr1GykBL5IpKZED0CF9W78yAor59rLRKvRhKcZRUo0GVjA605vsKRgy8kXpBWPUBpShKIzycznz/h6sBvt0izWpOt/V542JFvfsMrDtqHzZO8CP85PYBlEPkIQLiT4inSn0/Ge0gaA+WgNOMXeIrHMD2aXUAbaIzOHoiGXhbPd7/7XXDb6aefvn79eh7hwN+G4AGUeHOv838AAD0OSURBVGh8OORMZAcxuxcG/BhNkhuyBxEaiIQmIZDiEVepS2nwC9BIZmEPaGulu+uuuwDEzDcQEeDe0DCCAv6yL+TZZ5+NSn7t2rVs5U4gpYBtMD1w2eQAq5SLjJjw4CfQZDVL1r0+gmxLEvJiVYHJG/Mx+EElb6p65IkDcIPgzz333HXr1uExW3xqnJhcDegbQSKbzLl1HqtliBOTUvNlBbMCpPS1r33tV7/6FScA3HTTTQgEFT5bhXJygpsbtDDZv92jJaDIXrp+VwoGL+3bpUOno+e4Uh3qggjTblyi2TwyRoj2SEZmrGqhTi+g5q3BcfGyX7XCzJ3cG8zG5R7xDOlRV1o9jl+VKBWYSDFbBzXEUyxf6/gXi5fK1YFkHP3AaUePrln1+nJ+4qbb74ynE0l2pq7zIR1oKYb9DR0aNY3dHcmoLL/GfSsSyQjjW5cfN1SncwAVBTwuwDzN+Npgwk99hsNBC+u35tzl1bK2yOYXawzu1QkIU2DGHSpDC2yBR/LuKH6npC2okye2ksJVRjsRaVMyko5AHiFeQWGkloqwXDpdjTUdLWCkSc3Fh/9mcdQfPGoTOXi0M/+qfDpmEI1NFadiyXQ8Kl9IvvzsF9/187vHikXZrVwOU5P2KGpixKQmIex8GO6tOpL1H2CWLaV29YncoKkCouWq4Zl2dBYB4TM5bqHJvbVhq5jW6kH9lkqUS8V6NM2xTthPvPXiY9jv8j+v/HaVL0EhHonzcrKPfKDPEPAtCEsIWW9quFrvBfgbA34+rikKV0HLC71Tjh2fbSkN6FyIiE8SSev0n+ppFeonnmnfWVIIpCMPAr8LlHzFuTyh6VOzB9OfhsLEK+zwWmgvoX1LEAYnSECaMf9VFvyJNqrJ6vj+y4c/8M43HrN/kuMOIslqaXIqNcCnQVgYsZOPPy8SDlzRJYu90CEQIDgFA3qC0lwJgXc8AueJ4CKR/fbbD9UshuM4tsUEsVkS0gK4AXxEgwJXA38gV5ClwVlHc04P8QGLECF3Ihs1Wxng1vh0aB7EabB7TrLzjkDW5IIyHoU3ZjYsXHBqL3uDAoUPOOAAZAKIhx+ucGJTEfIilUmStNwiEPPgd/K0cK4L7hCa0URczC7InZ2O8KCGP/bYY7kCwVGxE8IkBD6JQBFwpKLK4BAPZkgUihJRLosANTyOW+JzS17EsXqHFPQ5oYwlAg4SZkslbJNQ5H/rW99iHsiZCcgt3MAcqb5nz5VAnB486Mz9UgQdJpgepFhhM3Tp1mWHOv4QPYHBhrU2QpzHtdqwLEimey/wnVZJTzEEOzKyVrjUS7VYha7cdr7T0VrH1XDyvn+mBILasSfufUaAYB5585vjbsTjvExqF50Xm2AcvMz72//xrs/8x5Vf/+HVXjSdWbRs01ghO7w0nh4cnyxF4hkvkeSEnZhX5tBH7bjjUT6jj8ZpB1UOrNFWohAfWCI9DhmJEo3TQ7GMDbGlEd19y3o5yJX2455aKRbyCm2D5l1eRW7ym4ZWXBHwwKsgMfmwUGIhGcw6whzLTfAZpcW2N8qmqTR7qKMJ4idfnKk9Cd+egXlEjArlBdJIFiAdiRIm7vzu/Qp7IMPp6XzESSBDFFZWtoYsOU4jQzuRMu50J8IK2mSYAdX0tuYukDNaoODpnHQOWJ1GvDOPGrp/w8mf/ep3YrnEeCk/umKfiWI+wTxU9lkvRiNxhcjd9j8ieJkJUHbqjL0dRe7yNWYjWqqSJUbbbMtdrCcEACl709YwXQmCIrWWQO5T7CFY5+Qn8gIs8OMlfM+lx2cihe9c/eNHnn0mO7KCfo4xFmXgxMTUgJcG93OsBJknONQqWi9y6lKpmM3lYE6/FMU8hgLSJOJ8FIO6Wr4OMKDtz7plbqJyhi9ecEolV/xYLtUj6E0EL0uznelc6xKPUKFnjrsqCzcSyxEKzafccFQUQiPfZnOSiLRan7KaPGnW2lB5yCbcwhf70AOyYhG6EkGcGHNI849EpzjVi1346Wdqjaktz7zixP3+4E0XvQBYX/Uy0p9xYFKWQ/ZifFUrBfQdrAv7e7VDpAbmZpbSpG1Xmi7HqdpO8xiisJ0iinwgHR0CycGywF/8FhlVsemtZ9K0EKoGDyCetIYduQVWQgfVuE0q8KMyB1CSi9F3cJ/IZOT6KKO5M67kTkaU68wzz/zzP/9zM6dpwbguX/g0v8OvLsR5iGAicqkWymOTHGRCTSEumGSZhYUXKuLyyy/H0N/xQJxOPLiWgBoexoymRQ76Lp9fu6WC7N7ikBzHnAHjexzmW5/61Kf4UIGlHr7D/uhHP4oYic+0wehbWjed8En3/+w5EgjGLOkyQ511s9tUMC89NR4ZIEW3KEOH38c6T9siW0+sWIuxht3fGK/oj1nwFf2ldu1GRwZ5GSF8qm2J9QPbSkBHdwFGYAv7uRCB9SbYRrHhFb0Vw9473/rqd735tStGkluffXT5SHpi6283PfM4B2qyqMIOWHQ65BGLy+ke1WqZ9U26eDcq8Ijqthq3q4T4tWtZWQXKx4qKYKX+wSuqfEX/CsYV24AQfwvsNwFZq+vuaod8AV5EUrRt++HXJioNVey85RFAQlqntNLm2+H7mm+OcaBXiokTukJab+wiEwN5lQTc634jBKNBlWs4WiiF8zbFri8gZVSjCSMosWzS4fjRbCy1seMo7TQPRbBfFznAHsgvLvtGokaootbGd/JRhx6wcmm0WhjMpAEiYD4GJwouIDEYoVvkMFtWInqZj2nNgTvNvEEFrR2aTNRkVdHv0aQaZjhXphaPRkSwNh+Q3daBn0yk5fitS1788nNPWzmanRr7bam0PT+5bXJqjONdSSLLZNhAA2epfv3ScWhoQHtXWps0CVh1BTReZNonLdCvT2mEyry2ojYsazuWVtfxh0z0qV6Y+NsvFF0FJpn6P+muIUdpVVounFeYJQLICW866ZWpAPz7DU5nJaJd9OuRem7UOdSWzbzKle1bNo0OZAeSbFs/zua8Lz7uiHdc9rLjD16JgjqJUkleCtZVYtEYEhV6Tv4mlv7VSQCjC/AiSllMzHlfEDdIDiHjp40RjVugJICypWk5CuYBMpIECMh8ACJQwEnlxePAPjwYb/CUyC4c+piwQ59A4tgjo7ZTr2SKVT1swBs8MFTB3k7NcQeJI1gcTPL6A6CZZmBSD02KsIOUe0rO5A07HCYVbIjJCbjY67/lLW/55je/CRGD9a6FuClHT/T7kXcHCdiY1IYT6ZrpV7HTkFGCCAJ+GCFlDKCvR0OjA4rzuNYQpsV4KapJRiVputb/yyAlViM2NOgIa0kkKHQbptP3z1sCjQpKMi+RBq57hZo3MuBddOFZS1bt863vX33zHXcvX77GSw48u/G38ewQGiJGzkKpVk2gMtRv/zDUkR2Co+UKu2NLU1EcQKuQ6pRdvFDac04l9gbTHfBEGoY6qtVGZf7gBQEoQLGHC3xFM+MDtC4J07SRjgCmpjO+pZEbQFG4b51vVNav5ueqNT5c1p8AJDkgTN4NdNWiS4ZpgFOD7YzgxHZUac3FvV9hD5Mlw1XCrYH61nS79T3jMBIQza2YHESLxWoiHT/6qOVnnH7y5668KpEZKNVKsSQr5vKNdxSbFjbIVO2763acp0M5ZcFEVkJopw109oBmhI0OWaQoMBp9N5vJyCON2IHKrMHWXvwo3PCjOOmo96bXnJEbXvK5L3/jiY3bhoaXFWvlZx5/eOWKfWvMbzlqNRGvysb9lRrrltIQmF1Ln8p7o1WJktWnKXNhZc+9R9L1avdrMaSjFjetGVvQwl6102c/ynZO3xcpPnMnac6wQ2VJqcTyEteIVOuCFFngQwUfiyU4vmBoILf9uWdymUx+0+Pnv+S8P3nXRUcs8YkTw/oQ15O0y7Uf5ksAWwuQLh9iYrFtCl0eACKtuwCLY68CsueoKT4eNRTeSXYI3MkcCqaVx4Qd4lDDUAT6oEP8FhNIjVE7t9i4YzKOdfsuQNhkzRe9XO+++26bHu/OMNRqAW6dZMDTfCOLc2ybPDtVykKFW21CjVpjMyWMlz7+8Y9Tcdhx8ZGG2dzzkhpXjtuFyr1PZ5dJIMBkwSjiZ0xXrGofMQKWtV/ACAopVSxGOKTQH1doqc0Bph2kYshhnVvjCB2iiD5KqOkZKZqZZiWhfbczJBBJxCqlfLSaBbdTHYh5KO2dc9oh+x9w4IFXXXf5F74cTQ2uWb12Il+JxePs3xfLZCtEwka4Jqg+EYlxbAarcslkMKBTdz7oEHBaETP9NoyDT/zQ0FNR7DXQ8O0sCAKCC3Jtw1KbIHgTVIdcSOlfWVzAr22eWaniP0zg7XtCabe9Ms9rI5ukKPDyF74AajLplQNYbe9RcgETAYkQjkN00/kNpEwB/XGC57KLs7yjFtXx1psQpueza+84foF2hbZbOhWx1ah56aR37jlnfOe6m5/a+lxiaCmHqoLsZUyMxbEJwMoAUzDrdqb1P+34VoQpuJ5+CPEyiZLKi3BWPJVOjsiU6ZZYw3PGW6/1qhkK21qz+lcvQlcU88B27+Lzjli3dv+PfuLyO+99YNGyVbllQ5PFyaooUiOJKktj1BylwXCC7lVqUcjJrJjWQri0Cf1Ogw5Tql3bqNWtY5Y4tFHi4zHnHgUBC/kXWYqG3jnuueUqvGu4MCqvjUZp1BIUCYNOBI2GoQbQ1PcnEkN5zJFesTpWH96WJx/44B++6+ILTxzJiNKgyCHE2OAkWfwQdaaDPi7TvmemBJASQgO7GxpzMJFbGhvqfBypbr311vXr189uZWEUwO5uhkAtYLmBghwwzQwBgoBpNz3gFoCIBtrt8ULITA4XNgTemGNgm85chYUCuIL+7OVaWAa6pIboLCYycY4QvgRgp3neAvwmap66WuuS+DyiUWtkivUUsqK1nHTSSRjnfOYzn+HgM9rGOeecQwTaEpzAlavieWTUT/L8SkCtY9qxIIhBwT0fY0XrnPhNu5MfO6ByvGLLD6zW9sf7LXgJ00wlJVfB95CRfGWU8HsAUfiIer8dJ/2wHZIAp8nnxBRYNPdxARz8GG0PXBl742vO+b9/81erR3MP3HV7tlGIFLeM5mLJOGvfCeqZNfNipZwvFU0j0mARHdNXqIhOTn4cZIvCW4d5NawSs1kB1sFPqhdAPPOnjYB2sPA/Gie/tk2xQyDHbcrHHuGrtnuZgaB9VASum5xIkSWk17oAyUirllaPDpNuHotXURVTIwBN+k9RIYsWWa72TnRgtc17Z/GFkuJ+Q1TIX+965fT5iS8fyYomXX4J+a7Dy+e9A/bzzjrzpFJha3Fqa608ifD0WEZR29PeWjofOe21Y//DVArBcnIbojY542HhBQAJoK8gUwHPWh2UnzruXQq8TO5HaunS+FVLjSHWwBreCw7M/N//897XvvzsLY/dN7Hl8ZhX4DPbRAprdTmhNsZxMZFUDNsTNsFHZ1Ljk1+tzUalUcckV9aIpK1g4C5rORAmL5yfI/TlPRLQL68bP32qKSzdgl6hD4t6Zi1X+emt/8bRJ0gX7vMveJ964ehrr1biWGHWDElON2SOsSTm1bZvfGpq8zP/+vcfevMrT9xnwBuOyVoHwMIwJTFJAOLRQvUvs0kAdIs6lh7A0JgBSocU0RBzjBTyBL1BxbD7bOSYZut5rsRB/lD75S9/SQjH37JNJIH4jQg0qS/WAQDZqH6xBSKydEQ72ZE7puRs6M4MEIhMjlgiWal3cs69kYcxnKUxZG9+7GGYKbHEwTG6tvER4Rgf9ka999jwAKAnHeCeNgN8P++885AhouNgBKRq3HKlZnnaew79FLuFBHSc8HtOGzOabJkpPP0ALVOMLL04Y4tUvAI7GUWme+w2fNXRlGGUHl4BvYx6QkGIBI5RiHFJwvsdeCCTBfxb0e3S2PZGtKOCirxyqY42jMWagbh35slrvn7F37znbZdtfPy+2uRzXmF7YXJbpZCPR+sDmXQ2zTd8YiKSTiVkuUWqW5z23eAkHCEVbFSiXMVTwx+v2a8Wr1dj/q8cq8svwhaBTAtBADvnpypw47OrqxbBLnwEAhaRK4XSxioFlEYuYCUo7LwqhrYOIcvGcJr6jaZkIXpMMD+wSNFn+A0K+2e+ccTn1YKmXIVtA3aduGx9wTvF22Xh8sajk4/RHqOF/CQSwHiDGSOMXvTysw5au0KQfWmK1lirVCvlRjKRRnQmk5nSCMvKjyMVCvpEsAhZlk1ExkJC/GSOl2qwsGaX1Ev5pXJ9nO2Sya4AuRS418NefDDmrRz0PviHr/hfH3hXtLAtP/5sYfK5SmlbtFGOsz0VBkYYasnpUpGoqrQFqMsqgswEhT2ZhIgHJ21aemCa50ynZZSi+O1qZowFCUGeSI/3VzMS8Tr52ehALiJY6fBlVlspFRq1Eu2Tj/mB8tKfNOgKirXC2PaNTx55yNpPfexvTz5y38UZL1qsJ2WgEdQI/jA6QA16G/SLTrh9T1sJoC8HFwLFMJUG4oO2iYbFhUVGpPvuuy9KbjZKx6jGnralQyACd5AOUkwVSM6Rt9SIHepEnP+/vTsPsuuo8gT86r2q96pKKkmWZY83bMmywIvAdjfYGNsNjQljAQbjZgmge4AOBmaG/gN6gq176ICAiQkgIKBZgiWAYI0e1p6IYTNbA4YYPDZmGYwxFm43GC/Y2mp79Zaq+U7me1elqpJckmVPSb4Zr7LuzZt58uTJvPf+8uTJc1FwmmG9YwHoxwDX8qCq7tsf8cOVjkmrEJs3b1bXF7/4RbHZy0NQ7yHwvyRX3OCQHh+U3NTk/cdEXWx7PYRalllEpXnup7MMFbwZJHkXL9//+lHXyyMd3M/34DIpl9lWlAQWv+x7KVT1+jW6Ngztq6HYyoAnP8jjjZzeiP2D4sUy/yBTSDgJkWh4ThF7fwXcKYQRL+r47U0pLpUHD0ACQ/bIc0RkY1NaFuScaJieMCH7tfXKqMX0mcob/vMzr/nyP11+8Z8MdvYct7o2POe9u3NwdmoVdSLHGbOtSic7zInXuf7VRwl4xNsXdh+cbQ11/Zrp1xrstgZnm43ZmUa3FfG8X90cAB/6+sH5ZTlhb5k/+TWBytivr7xNI30ufckzPIEYthBL/wDfBxmSNUWgs6RnzXHajBgicAcEBnLgrsNJDvPvoAXHSfJ777vI35dlgvh9XS6EtDSfi+/3pfM9ZKkxGNNtb0epYUUWa8w4K5WNJ1Sec/UVG9Zxo92ZY56RGtrh+nDfx858gSzudHTS7Cw9fGICFVLpyYyoQuo5hEa8f3zI/xOFHhOAbTiB8s0I+rHZZmVNtfLiq5/wz5/90J+ec+r60W5r952t3XfNtSYq7elqtxV7FQFm6un42RtQY54ThosxQCLs86iMBEMoQLDL6Rdy6/+KxMN/0ONETZmlWHqNlQR155l0MBFTkljflcc95cMaBO6zsq2ZSY+hamdi9UDzmHp3rNr8q7/Y9r63/+2l522ws9+eg8ZQpTs13m01k+KAHAM+QhhOo8VlOKAErr/+ej7dYXffrsoZid2wysckyRB/y5YtQFveK3kAYkplLTKQlymwZed7hx0/HTlcKD33EbIFHVbaECpkD60WE4Pi6oNxYPMAd+zWEH74wx/y1K6KjFkfjLoOmSYBGsM5zCdiZ4JNzyZaOi5LW9cU/TU/5+E91mW+4YUmzb0Js1P15lss6/Lx4BTDDlagPA+vNI5ianHnx0N0qeCax3YRei+ZWBeO96XYdQ90cT5eHHshxYM/4Zp4ocZ6cw60jA7ipeBf+eTuSeVB+Ofj0dxJN7jKAh5aLW9drvY8j8EoMWXpMcNxcPoJlbf+/cv+8b+/6YJzNp+4bmhu4t6p+/5Ai19rjVdaE+2pnZRtzAUSDPam1aNe3sEuQJkuueqATo49gdi8kAYytMjpai9OkCDD7uj/BJoPf7x4HB4gJRqiGWk8B7gPFqNpMWwdB9bKyt5efLBdhI4iA3PQKijJyWw1NqoEpgx8H3KMqwGIankSkODt/u6pBfddohxd0Jspm6Tk2znDqqhyZQfSSaOIQKrxQYbZ6eZk7AlOM89nbrtg0ykbRocYdOyuVw3aOa/A6KBlP3/kTAgYSQdhLaZw+HoP4NnrkVRVdE0SXebm4IUWY4jos7wTpq24I+inY3FsrF7h9gfEf9TJIx9459/+9QuecdZpG9bU28OV6VpnotZuDs5ZpnDXpAUiZHRn9GM2lcwtjqUz9wxG1ZOGbKpxb/QQPUTJzziFQdJBTIPx1x9oJsBZEJqQWuAJM9wYGKx129MzE7vaEztq7T1jtZnjRjv/+NY3vObll588VqnaQN4Ki0/GUNy2M8SBNjIeQhfIoDAuEcbeft7P0Y9+9CPInh08tXoWl1GU9yrkEja20nBDb1/72tcYruyHTJiqu5Qp6AXCZ2PzpS99CSkUzjrrrOwYB3FBThrfjOOZlzDIofdlG8PIZH/0D1e6QaJe/j0FB5/97GdxDo8eLvqHi04P1C9ijDx5pDEX8mlYH4hVHYV9YZZzuGpfTIeU7EnQa+4svewAD1z06GsHJEmw5e22WG5HXEryHbEv126OeHPMhpVVDLW5uZHGUA0gac1Ij/djtTbnF9+RCZ1NT9+ZjnNKEcvd7rQ4gOi2W7OdlnXn2U7byjqPzkaYRb7THnGipejZOTqAsOiy5L4vL+XZA5VAtREb0XSnHyP6hBbCPR80D3PkH5sBB/SLF2zd8LY3PP8fXvUfnr/t0s3HjTIemJu4b7C9Z2i2Sb8412lS3ndaM+1W09jQZ578+pEPOyFP/T0v8hO/t5Ui7AcGuP9odWd5AfHlrJYF+qV+TKEPyw9xit3lxz0LdxYGs1jtxSg0250ml0Btrvm0LZYqumGa7d5gyW+HQV4C8c3M2Bl4gPcJF4eutma6q4bHOjOzgzWakm59sA5ogpicolS7biGwLduPBAT1y/fU4njvnZXuQcxgC/34TkQyjOwyz07WG/PHDa5XbuhBwcQg29n4Ik/4jjQ+19UrL7j6GVM77mbHNWdFyC6RGqP62HQcQ6Xfy4YW/09LxqHjj1/awGzWwytNwsnQqOmtR85ch4kaI8Oh/OnVwzwRCm83tqYwMYppRAb3xw5U/vpZF/23v3vlVU+5cKw63d5zd6W1a6A1XqW8Z7HGFKk1kw2mB9keDQ9PTYxzaT9o0ZQ5ku9hdax6pYmgG23eliezuwP/Fm9OyCkHLuVqUZBf3Bj58by2q55fer5uknTZ0rcN4sF4BMQ6frDnEeGnK93yHgiNRn20MbCqOnPGvxt72V889WPv+q9PPv/YY2rh5HTENv34gGFMddOPqPYGOGPvyVF9RHTxLE0bERY01KXiAeuS4SGnA4n5FK6lt2a3/bznPS9PilxygFom5RRce/rTn85khRnGZz7zGbFLLK0LlC8zygTuoFDfqgjla665RifaXmmnrFL4KSjLCf3nZ/5rX/tafuV5WfnOd76TFcM5s1iGnMexgFWx6sQFqQyCYU3pEmGPXCST0pyCgoPMqmUEvvx93Qk+9t0l3ApoyuCgyC8Fz8VpFrXTIkUGIePdnJh5wxJOLIOYNZm0ZIHLWRR0NScSAmG6pIiqxfIU+YP6vkHBSy655JnPfKaPVWGekxy1u98VURyHQuYhl1tALXdfvoSUA3FmwHEWL1Jo5jw5A8qGgbJ6zYGttA7uuOMOn0FwydjQiodgdlGwVB48eBLY5zGaqjFKOFmLTTYNO9r4twIWDI9YDufhgB6Kwgb0T9rD+40Dc4SGGJBJusuoYcgTfKA6PjXZGJwa81j3gaW4p0NHFe/zMhx2CcR7E2jRs0CfZ09U4O2bHJKktZMEpKIDohcql2xdd94Zz9l++1NuuPGn19/4819tv/2enfcODq+u11cNMOWp1Vv2HtpQa/9serWY7HkfCIZDPOmSs+p4EFdjRU/XuhQ6UYMmwdfAcg5jmrg3hksD00bKA4o5nEE9PXqXFePZUJY1ySXi0AgboBy12OMXrAbey8ivxkYi2SDK5EBVNkDav+AFuz9Q6B0Vbl0qA1NTTcbGAD37E9MF5eNOI6Mw3IgKaEJjQ6cbLTTNC+8vyuZYV9g3PbhDCLCqtMyTR4dH6nW1JUlHi4QeX+muLm7BdGWFREZjlj1+MsAL+Xu/Qd/1P7tw62VPfPy3r/354EBn164/Do6McfFEBov7N5IQSteKGElQNPTc4W3GAEvTIPZloYboDPK2Q4FBnaADQ2MBu8Yu80MMWd4EHs0hb+3KSapGO1LQbgTCr5x3+obH/M3z/vwJF/2PL371+htvbje79cYa73PfsLKBndbMLHJ6csKcZZhX8vaUlbCGbzkB2h14BfAa8X0rNIN0Gj6IAyHi7J3WwQMPIcsU5h+o2gfRIAZQwN0NH7hRcDLTnKrXA+G1m+MK2aHjxu90pmdbMxPTe/jA2fKIE7ZdddkVT7zwjJNHaIOGM+1YtHK/xxsnxBPxwy5AYCQZD9D+NMazJR8TsidqxtnkAurR9QrkDL3BYcDZd7/73c997nOs5y+77DIGHtlW2yX5kRWjEO/XSuXcc8+V55Of/OR1113Hkbnvkmb/5S5laig7jidbCkAezPftb38bh1deeSWFfU7X6Sgjm0/FMkg855xzZPNx00984hPHH388vyusgzQEt7lFmX9kCyZzSvbWkqkVjbU4IBuW6JLzJXQ0RL1o5kZJ0SLrFd/73vfe//7320twwQUXyCwbfvLcINclRZA/49pMQZzzuARV56qxKpt6VUH+Dnzd1rSBPVL+vq8MxEsCSomF+ZxnJlFTUMiXFsdKYcz3oX7zm99YElHXq171KuIqeiRXTbCqw5gDlNHJcV45Ib1oVZpLaG8uq2AhXnw6FVSHGXnQUVZBNWYl/bXXXnvrrbcqazygL0/urFwX4ouZL1NWvgRq//CmN+m69HowbjxnwyhgulP53//npptuvX1usA7keODGGqyvk6Zps/cnPEhreb+xjVZ8ow8OsNBoe2yHjx0kah2GCKvrjYHO+MtfdEU9Ft8DzEQl5Tg6vENm/l0JAcRPBb0XdqoqNL5J+HFFHwCzfhRpJ20YPn/rxnMfff5pp5x88gnH3fn725vTk7t37mhOjPNkNzJcZ1ni61b8WJgRtDv08W3f+6bGi5naUH2iOcOPoLEEoPncZ5vm3s85HmKlHhf7xgHM9k1ZnGcZKal99z8yi9EbozsPvn7sOY2IoUgOUH7MQ1PsANifHt/xrG1PPuOk1SOe7XG/EGZgNSFKBYBzpkzQdULZ7xXw+7ua//y/vlkbWk1H733h46NzXXuOU2lvK+M/8LwXanTHkvdX7KdcdMcpFdzS6VL3dqa2bjn1seeePWqunKSQmOrN3DJ7RZwurZgIt8FwCDr9iyPqeT7fR+qVyam5G3/+y6aFjsZovdEIM4+Ycsly/3FsGe+QLamyZjH/ikljTGB9mLnWCHtwWL49NVrrbnvKJSceGx9s80tcLFc4vVtqfvYYEmlExMDKTetfdjrXtreWB1qj6xEnrr344sduOnWjG+kn1/+YD0zg2FKEr+40BqurhodG64Pt5oQbrVGDocPqXE5KQr+QQ4wZIR/E/eNPff4tDn0OFv5fnLNIKbJKcRzplerkdLM2VB8dGQXpDfE0jQy9/iybIhNffoe6zQG+LGtdLkxrs+3JPfeddtLxV2178n98yQu2PWnzCeuG6j4uC/Bw+2PFJG4RUgpKFq5Us0BgBQ//Hw+8lHzYlT30xo0bn/a0px32dxTUlWlyRU9BDm5yKw57ORAyRs/Nz9nEAgRm1+yXv/zlj3/84zzSwPQvfelLM/iGzNAE3fSYnFS5gCYIK966dSsF/M9+9rPbbruNfp19jpzQHuyorqzrzTWavFEkv/WtbzUNQOGNb3wj4vkSmvjJca5CXYoDlMzH6ba1guE70yB2+XKqGn35Zc7VOZBfCqnCl7TFsmEjs41/GSizv/Wtb3Hp89znPtdpIQF1yaY4F/tqBFhtIfAtVZAdvleReuFURDKWLQqaP+BfBsVVjSuGQ7z6ZN4yWYlKyaAUQOwSOavdKgS/n2z6806DzKc+IiWcZCicE7PY3/3ud4PpphmMozIDC2LZlCJ/6WTF6SSTmE2bNtkWrF40BQLBsMAgCg+6L3MlRY+w0Td9kpKyhK4dA9pIJnfddZdFBqf4R0cT5NFkNTpQRKIDNL/whS989KMf1e+2Sbz4xS+WqJSc8syPnZbhyJJAIHs3jc6MN4RfH9n/6Lr/+7Nf3tyhczfQ6SUHOt0OpWOnSqckP/yWcMaBYwrJuS53KDO1bpNyLK0YU/bSQ7Toclrj9/3NS69klu09l1+FRqdReGRJ8MjhNmOW3iOyz7Z+DySZT53E3M1ztcMfn4mWL1vVHrX5hMc99sxnP+upZ245G4jcfd89e3b+cbY5OeArQgwdQoft0/Gsfmr0dEpRK7IbyAs+FNSCVwwdf9i2tJpcZMhBj0SbOj+O6mKOF+D4gcTG6QDEQE21jFg7rStQeyeQrSBYFKY1dgjQ9YLg4TIRBIkXTYflwcBsc2r8vidfeuGjNq4HTrDK9Ud1cNidI0TBuIkSPskzBs/QgJGVe+7tXPPNaxurj5loNqdpN61ShdMh1tVmujH66Te92mIKEQtXMXNecGd5Ky5IkQe709NTjD3qA51qe+rsM0553Hlnj3gxBQ8Z9kWuHLAn5DinrKAYW8FZj7v4N9sdsrjh8wtrjr3jjntuvuXW+sjonsmJuqEGqceUJnb0F3ES4z4p6Wp8Gym2fISow1SdxAiZyAHjVnPaAF5Vn+PsddtTLj3hmKHkmbHPxDKl02N5fu4M6MX5mrj/C3uTGN5puWsWPDGF3njahgsvPPcZV161Z899v/z5je3WxNqxkY4977t3zrJBYirknuy0m1MTnRnoeagxZNOB8UMRi27MU3I9Pb1IYKAleJrP3/KPjXtB/l4cgypuaTezJYWZmUmY3krHXHuqWmFsNz7bmhyqtObak83x+5xS3vzlc5/14hc85zlXbDl5fW1kIDb20At0J3ZXWeBYSAlm802QVhziDjp83C+/nQfMqb0PKrKHDjOc4lXmAx/4wDe+8Q3gG+IE/iBUl3DnMQvnCfn9CHN//vOf/9jHPiYnfE9Z/upXv5qOXM5MTSkAMRcE9QBBmlopYjgYnoYL7XZVlikLiJ+BJlAL8ykl/Qc/+AFYb+8s5P3Od76TOburLuEhs2RIxDBMw8NBxqPmJKjJlv2jb9++neN2UBv/GQTLn2thXP6e97wHYjYnyUVQQEdZPKjit7/9LWSP4Re+8IUSc105gxhBl0BSAsHhk570JGsXpkbmAzx7QqhAMzqZK5kRzJAdHBeo+T/ykY9YXkBk48aNiORGaZ2yOb+UXB3DdHMnoiAxEIXElMISgoJ2AdCFWJRS79vf/nZzEir5jN1lXhBQJnOxvpNfj4Dj3//+94F48wcCwQNOlJINpsehxpIeXzof/vCHP/ShD1H229ugc7EkJyJCnqW85jWv+frXvw7c4xwptWDPVbyZ/zhGTXMMNuPHag8pvfnNbz7ppJO0BamCNwcL2C5PjxQJ9NSNid3ciz0kMLZmxPxthp5+oF23phP+49o+EF63HB7wJQDacuJ2bA5jTgcFDlLS0C8l/Vl3GLoZW6VKavx41cItvEnYRVeGwyuBg703bfas+WaQ/rXtIdToQ/VQZNIXXHHxxssvfqn1nFt+O3H9T278yQ0/vfX2O3bRzc9UwWDTNSYsenC0Plwdru3as2MA1B+MVwU4wkqkElp+b3W7NdLIyaOoH4cxRP84vd+XyLOsdHSWNzLz6E3bAiBFr8+9NQZsijcWKA9/GLOwFdToHdtdN7ba07PXRXM+5hUPXzbFw8S0VLBXZbZG18KgjdPPmWHDPR6xZhSxvZLTw3g5hh0C8dmS4GUZL/LFd5YLi9tF4tZZ60NV7tDDpCgFu1qmWxOrx1bl05UeZ0QX86scDIToi7TsMDtcqZ56fP0pT7zopzf9asfM1PHrj5luhm1umotGv0SvpTitNu2TIt1YoImIfpQtqej9I3HaBLrzWn2uESZOnm0tmubZ2dEAK6niHi/L+YfvPuvzMGnuxARbg4ihlYMDtlgtvTkyVDdvmWp6qA6tH63Ujqu+7e9f9Hf/5UX/9IVvf/2b/7IbP8OV3ZP3rT5mPY0IQnXrPJVB+z58Y0IrhhojMQ8NYaVBahilYU97Pq+6frUP4H+GbgikA6pgE/MWexx38+rR1Y16tdOanh5v8mzD7MJmLN/AGKlVtzx607YrLr/siX9igz5ZYK1RDWMkOyZ8LaPmCxuElhhO858ltns9AJaPsKL5eQJuQtuAaVaxA9ZgvT2pjLwpwiFIUA/IAzGhQKBNIwE1E4Crr7765S9/ucxSQLRMTWd5NMkgsbB1yafnn3/+O97xDjY5VMXve9/7AFyWOWzoTz/9dDywuqbRp3SnogbKudMBE5mjwIKZvqeXA/Qxk8FiRs8SQU9Ak6IavpcBHX54aNMZyVx00UX8PNIx84uvCsp1KmqNwq3mwMrxmkjwFJ0cYFAh85whZj6eH6uOWJQlok996lMgL8sW/LD4x7Y5A2bMK/ADMZMt9Kx2DccqZtROOBma50pzM9NQ7ymtXQW1X/KSl6iFWMgNILbfQI033HDD61//+uc///moYZ5A8CbGEvSMDcT7rVn4X7b87tDdlOXk/La3vc3MBHGdYj5gAkb+DrDEWsYlXc/vkCUR8wr0bT+wU9lyBzGijqBEnBtFv/jFL5wS7Lve9S6s6nFrNYC7QcK8Ss+SP2Rvl4JGqegtb3lL3kFRcEngQpZtkVgeHEESCFwixGM2H+U47OwrrFBrdke1ZtLqL3v7qSG7zcK0OplUQBoA+QHjeKPG49sjqellzVq04xPxvkg4MLt7anzDaHWmUxkd7MbOQhkHmWz234jzmSmPH4gEMuzo9W4Wrx4pwAjSC2QeH1OiUgcYqUeZHcs6PcPWM96+jhuDlcduWf2Y0y/998+61MaLH914247dk7//wx88d+68694du3dNN3fp0NH4jlW1S+ud5v0Qk+UgOpB66mLsIDU/9iRakDL/6jKPozHpZXa/I7MYt/Z3p2NC0L6Iw3eK2CyWw5qE7HMsrTsQz1NPz0Jk7Oyx7Y24P2Tvy18A3NDgXLs1ueveu+tr1hJpt2V+1Ao1s80O4ZUFJgIqwzghzTGWuLPwUvBctM49U6s0qHInuViZmfEs5lxEBw03ClifG/VABtCDWdbDIWCr0MN2PcESsPXB5pTdHbrh0WefcdHjzv/M//zamK83zRDnEs8fAHexfIB7a9HRsyFbdvaWXVRkKYDGOICP1+/Unrsbq3ypOXTJabAba8sO+t5vUchpuWHpYq9Z/rVYJrBkneMFaHp4eGR0WGd6GE6uHx2jYl3bqPynv7zsZS+67KZf3Xvdj2/41fZ/+8X226Z27pnpdEdXra1V6+0Zq6b1sbG1tnfHyoNW93dqxFkeJYv4OeSEDHFyHESMwW6HTZpb2Zpbc3zXVGe6OtcZcmfMtVeNDJ104oZzzt5yyeMfd965m0bo4pVoV5iHma62ml3WeqOjUMgAhwo1cCSeCYgWk7p930GHzPQRVRAa8+jz1ILPtm3bBoPSxUJmtN0wHC0+KOYqvSyI6QYHxcBZamYqYXDtiiuuoPTNLdZNrjrOgExmx4hTaWfw6iosyN6Ds0gThq985SvmD1AjyJtdVcKaGeyC2ldddZVabMmFazN2RD8D36I6KRn/SZEHls0p8Cic+tWvfpUSmp4bnratlvE9xlQBUIKYmMcJrfazn/3sTDAzTyAF2zYGMAFCdn69rqpFkK5S+fEgA8U2NG+XsOkEzA0xg7Y2CWQALSdAnElhT9VmMiYbGNBkjCGLAdTEihSglvA93k1+XvGKV4DIFhksaFCcmyroiCxbB+QsyCwoa/0kI+nctMWxbLkJeUpm5mPOwLbKgoNpG1spSxYY9roxvTEJyRudTeRwYqaEc8LRhIJPQshdwIURyX/60582h0EHjqeYN+GRIdvzGEuaz0xIcVt4ObPXChzmGSCCqRHxyMrSWMx8mbLyJdBD9gsY9axlUe3VN7JqbbPLeoa5fG3OKjC3FeGsOGGfjIMOGIfpZCxxV4Zma4zskeGSosOqIG2D2bC+MTXVWr/Gq6oRsIoagPOKyF6GwyYBcGepkJ76cSFhjiIPlMEufDA+CZ+ChZpYkRzV82ZxsxWeLtz2w/XqqDdIrLJUrrhgE/Tb6m7l7WDHzj13U8Xs2L1nYuqeHbtm2p3xialdHhgTU5PT7PCZT1Z27p4IA4JFc0IJi5HZwaZEexJOwH+GtPcb1+rhWzDj6SyNhOxjhhBMJvHlWHrMPjes9wS3YQBwcTmLKT+d8/GC2ApVC6RpTx137NjsRNW+lQ63lxBtANHwW45K7CuOZYLYQ2wuDY8u5j/MLxbda20zAbqi9myjxhjKV5y6O+8bH1g9uHrVkWPSRsoa35eaNjKOj4HlZ2Nwg/K+etKG6p/92eP/5brrxqdmVkGES8knzMAWyUcKnBPK7JCtl3esvBjjyQqEeWCLWxxrMKuGZ1vtiU7XdCicF+Vh0OfooP/r11RvtGBBiPnycKzju3uGB+vtLh9TrcHG4LpR88NW7GgfGFSWIf7jztrw2DOfannixzft2X7HPbf8Zvu/3v77O//wx2Zz1xSLrqnp+uhYVMRFEqYN4J7O3vLa0l0vwwJm8il4sWR6EOxfKg6o64eHhjvh92Zmrjs912nxeHPKiceeetLx5z36kVs2n3rWI0/dsCY86qrMGPa+sHGgwitWpzMyssrCgws8TQ00hqMzUsUFW4FJU8H0/+ESZdyptRkXQoQCMGe/JjtyQBykAyKhMeDVcwYmgyOZWGzatAnOU1xBHZRhsacWUgXay4DeVeAV0s3FAUfYGpijbKaqB3+BSN3tMa0ulF2yVgAgQv+5G7AB36NTjCIHqs4Do2gCDjEjYAMPz0jBBk0TFTm1QtV0zJrABt2EBEhFH3x0Vdk8MVA2EyQHxiRONW1+1fIrlfPkVQLCUZ3WqdqEAeVbbrnFBElzyBAQl45hAUSmwtdG4JiWOhNBHE0MZLJwvBoLGUpH3yXSMNWxDsB8hTWUskoxUiJbFHL+HCvyute9DowuBKj44pBnJnhDBygnk79KwSzLvA7zxK7XXMIPUWBebO5nYiZRKeME+kdZR+NBNkG6bK985SsVNzOE7EnADAFB4nJJHm2nqjc5zCp/RXCOJlL4kSEL3MFitsuUI0ICNpgJed8YJSvnZfxEDO6a7t61o/mTX24//uRNzc5cszVTHx6yZt2eaQ4PDO19D99fE717uvZZxXyAJ3WvijGbKbs+ysINHP/dkzuufNJmoD5sjMMuOT3Xiyf9/REvry9HAku9t4EHYCDeAf0w71iBwEhevPG08h9Ujo1y6Z0R6fT5VvwBhUiMOz8gquT0quaOEFiNbbQ1cL8yPlXZM96cak7H7toAcNV7dwWyjwL7hvxO2jftUM7COeWyA85r9YSEHOEuxcmLuLVmgtAStEIiZp1pdM5Nz0xdfMEZ64crjIYHbcrkS36gPu3RzDwxEJuhnOgQW9p1Xq1MUxK3K0PXfP/X3cGxuaFGa7a9avXwdHM8BBsmaixRwsZhLhSfSdp7lwT2tiTu0kWBJ5XayDE6aqTWnt5xF1h15sb19jmwlMh50YMm54t7hd1epJpFHIhWwGo8Xvxilj83tWdieM26VjWMma796e8mZ9oN1tpLycdrOzd5QRwa0SgQmyTQJXLdYXgOj4zt3LFjeHBgTaM6vfvOZ/z5n8acKyo2pOcLbAG9fU9zn+RY/X6p83NbZM1XijLBYrqG2TQTceIWm7UoavsS3oypZFZEnxcCYMgYdwtVSKXyuzsrd9298657d9786+2/vPk34tjgEkbqSWDJmq1r5tlYw2dTYiSz04tN0DGzID049CTIwQaAPrtJDonXuAsi2H8iti1haue97Jc2rD/mMVvP3HrOmac+4vgTj99w/PrVpxyfiHPbr2lJgrOVTiCFditUAtZ/4/t4hG+mFm0WNCoLOudPfBRpKccKiDLE4Xflgx/8INco733ve/c30g6NWaAKwQyhMgD11IUa4UuxpyIGHGfUm3NC9kplVJoV+TCZUnJKdCCbgpmyU1cVL6BzBnC4hQszKs2kgD+Z4UunuY34yUERPEjMl7JMcnuLYzkzt1LywxxvmXJunZkD+o6BURnyTCPnyQy7mpuQKSPoIJPKBZ1mDCo/OoKUDO4dKItJLSoyS9RwuFy6gmYUuYj0HFxFKlOTkpvQv9g7zQ3MNLPYM+c5W75aFNHGrP+WgjiC+Cmuzj9AyqkMRXc4lVgwkzsdEemI6PT57dIoMwe1y6AUkRbNl59MkJ3fWFcl6nE9YmKDFPpoyiwUlCUaJ3iQguz+mM+lynglSwCgiGd3/6karCY0EO8kz9/8XI87LIV47/aPl/k/UyhKFQSR8nNrJmzYJ1bk6yeU/x8cCRzMGzT32f746HdZkasYLYtT0CgS90fvIU5fzE+/QftlRIaM/vrK2QIRuTv6rQcmEz6io8zwWkXFDbWANIIFG/db+/yySuX6irupf4f22YiZwkHfs/OrePCPey3IEug1v3eS7OaTz6AsukNrSy6VSebm7JVOEo7eTH1ayPJgGl3QnddzRdpiQvNyuZhrnM+ORH2YQn+SkKmRgF1K5q1ihjh33jX5x527/vX23/16+/Zbf3vbv/3+Dyxxd0/P1Y7Z2B708egqQy2xHdxGQOw4CCdN3JSZRcaeBlocu99DCRswzCIdlY4VDW4SOlz9Wc4YDb+VNse2p8YneLRct2b15k0bNz3iuPPO2HDe1s3r166T/8QTj2H6JWhUZjq3rt8A6XrQdQ1Mipt0UzhfLJ99xRI0V04Ad1g/Mya5/PLLWSTDRkDPfEC2clgtOSklUEqglAAJ9JV7IYzeA9lDNtB27G19qMJKfq4/VDJ4aOspXr7LqHZ5vVPkyoNnGXSPgix7b5l+Y/qCTeJIUdblx/WH7obq38sqLfqlz+FK+79YhgXTCQ4W8/8HnfF+3x1URUvJd6m0JYnmGvdTbyi/bU4Kwy0LO6H0TgtiVLLUgGedturM01Y94byTO5XHT7cqE5PdiYnJ8Vb1O9fdfN/ETDYYEFPETk5bUmIME/q5sIOev/gz58OT68Ynp8ZbM+ztaP8N1pHhxrpVI4/cfOLasdHTTj7lzEdufuSWjSccZ1d9GM3X261j1/ZW7fNi0AJN577tzD3Yb2BfLv3/++ZdqWcZxDMzZNiQG5sVySuV35KvUgKlBB7uEthrTPlwl0TZ/lICpQRKCawsCfR3GIedGCO38O/DZJjO2x6EKj9LaZHIKa24n+UhPqicUu1nAA98Z2c/N938R6jUIrtYE/Oivw3GO6emxGvXrGZ+PLY6lnhic3GaW8U6SYdHq94pOD7TbK8edn1vKNbx9yYdXUcmRXT2TJZZMthXytaCvThDCEYLR1dDy9aUEiglcPRIoET2R09fli0pJVBK4CiTABdB2ZoFFmfWFa1LFvoFmo8d15EYizMu8/tDuR5JzlPcbbPj7zbsJ+mnFFd5OEAdgs9BcajflhJ21hT0Zg3hkNjuKy6u7MwJ621XGuyW4dpsxcvMN9te92kcbf+LFYlseUwImnyAHfNHW/vL9pQSKCVwBEqgRPZHYKeVLJcSKCXw8JAAk3cNjW214aQq1OWB4xMEL+Kc4jSQfTj+sbF7L7Lfexy7bNMMIAqw7IntsfbcmirQTLc7yWtqw7cXEj31+k+Hz1g/AL9olh1+rcGFYnzuPlJiGhD+UuyDLFJy+lETk0zeBupAS/N8poD7R00zy4aUEiglcDRJoET2R1Nvlm0pJVBK4KiSAGQPUNLWiwVtS7h7nzZSujOxYX7jy7pD4WSIGr+fKxXZJ/f8k058JYHHk/5MoXfN90J9zTJq6oYHj+QFK/bhhtZ/oMbRCIArFKY41NhHsXUKXygam32Bs8whj3L7bG+glP9KCZQSWJESKJH9iuyWkqlSAqUESgkkpXgWQ4b1i0WStOZ9HF+pJiS+MBez+8XfAFQGUJ9r+YxazAV8ZcgnHHinjNT4+Nqcr4T3CLHdTy4547Sf1ruU/h3FyD4vSmhl1tPnlhZTmvlCKI9LCZQSKCWwQiRQIvsV0hElG6UESgmUElimBGbbyb84Jy3JkX2aAbCWqQy0BmpztUGYvAfcExSnxmdSI8Uvvo2Wzu2sDRjvewepzqzlz/7rHcenLGq+B8RUJ4oxuo+Qvnyianj3aDW/Se3cG2WH8XT2rHE0ucT0e0VTHpUSKCWwUiVQIvuV2jMlX6UESgk87CUAhxehry5PVu9xIR0EXC8CM/oqTO77VbOx//V+4qJYcZAp5tNMd36KOUD2/V/kLw9KCZQSKCVQSmClSaBE9iutR0p+SgmUEigl0JPAvrA9J+4f2Qf27+P/QxGhDbPKRywsNW8IBf8DqeBQmCrLlBIoJVBKoJTAwUigRPYHI60ybymBUgKlBB5CCSyF7FU/T5PuU1bzw8Hi7lxBQvS9PbL5uGek0yd9sGT75cr/pQRKCZQSKCXwEEuApWUZSgmUEiglUErgCJJAto3nEKf3md5FrMsA8d9fDMQXv4zdnQo9cD+Pas4mT/7Nu1IelhIoJVBKoJTA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wcPcasJpvNdpM7iculSiuFJ26mStoom6epKwqd0b7QWdEUSV7E0Nd4p6uqSxKmfhGeP6tfRIOCWkbEtqtYJZUyOl0/Pp0Ux+iq2WzmcjkfLmu1WqlkLfEYCXP8ZutqRP4QOH7Lsiz5sgYajUY+74NLtzKq1WqhUKjX695X0HVATEw33eJc95dp4fKi82cY6xquui5nc/NuPUBgp5vt63vHAZJmfLSL73nPq+i8xrgl5IQnuh0jo6IELWyUc5Iso26uk5pqIkKKadTquWw+kw9KsmhgaMwfMkEVxuOYWY6WlCLuFmHRrtMSLlomi8i4X32RXb0uYN9KEE8eZNhu1+s8sUHJBmJSklHHmVwmlytFLZuFzqKh1IOgSrMa64P2UrwGBB2nkV7wC078zT51yOOAcvZJGsDmmESbEjpFI6prioJkUuO8BaTsaAV+/DhGNS7StvdLgF+45tFYqjLmnc2cE1hdzGYV8qSCuptNwpN2lZTb24ZVbrXWAGhmc4oCcPMHkZTGTJ4S6VZO3DNRqwGSbwmVqmEQrf/OnCQ0c3GXPYGeuk1D8vBIAlwb6Ek30JFmIi6KfP77xXCUlqHvSoYAtXxnEQrugsR+wq8j8theMBijPaZHPn4zTqOiZVh/2JVCO/S0rlW1tyhiplQsLrHx+rBLuJzwxaQBJqh0EbTqANlp2ChgZmZmZGSEfiM0eJq63zo66skEKLwY+QlqDOXb08EDS0hhEEcJZ7t6rD+OfHRTQNgcymIkmqWKo4+XH4rSwKTYjgrZVlZQI5jaM+1M3o2+lAUt2fAOAWMs1k001KTiMi0S6yI2nanYpgtDAEAZrrHOKXrZzVMDoQl2pQvahMDBv1UNkAhwZI1dymdCG9vsWYXBgW6SStQlOExAKvDyBKo84yCSeTgfHUnQSj0JgDxckoO3HONp4lloKXi056TIiWCuedeti+hN2Msy386Rpa62PQ5ko1oxnRAw2Gs9DUpva0XM5QBfJEpbFP146XpZk2m4FQTwGEmeSpDclbztek21L7QUUhspDazZTG4leFx3Yk70HgxIDEtlZuAGtrjmdsbsT616HQKNSbILJA7VM20o5FqNGv/IDzTm9DGF6Tmh5jcttaI7RVRMUhaFl6xDFcHA7M+a+t7lfvVwK4zZUUA8KBZNcnm4zJbTLWvgWGqASSn9pLpK+rd2u1KpYAIIKJ8YLPc0b/rOcrl8NAU9Gsg+dOhd/Xh4mi3eB1Z8A7SzFqyESqjFwyFGI0ONMYxfmaM6xomQ6dHU5pC8bCLXfR9s54ZEkF9Om20oPlgHO3C2nS1wQSnwaTWU2Sc2qIEYUTG6RDImzWLKbvakYX+P45nee/1j+srZn3Ro7PHeV3e11d6yQsCsrN2oF/Kyg4qgE9l79YWE3nydLdXqyNXB/fxqKHBMApoj0GCSpyCJTj8OajISL0HPgWYJBEw2yZE81y6TyhNuBd2iN5azXItzkl0z/05CVYQb8P0G1/QhCbLXg9ZJv4BXZBhaRcils9jKLdzqpXdiCOq1iozojCiBGrjdaOVHxtKFA4CjRbpUcLxs9TlglBSNGM6KnTu+utZifkNXYy2ZHTuEtVHJO1YJ5Y501j/7Xrs07nc5OsC92mQor6cPwoaCpDh70O8k0cf6l24W9IkUYc2dwZtIDHLHWrTjNX/0iQLRJz5loI3ROIN6j9dSLcv9YtWAdxEgMVzQAdNXeltuOegP8UctsOjI3saBjkHbO3d0YAF6fnceYIzFdETY7ExgXFw8WkAuyMswrI4BZ7CoUAyDhWiJdj+tZd1Yko6iTgtXYNNtFNrNosA7f5QaMC+bPRfoAiyTqCuq230vM74SaPCmASku0UXQKnGmwyVZ/ONOKLRdaUW1RoSyywVpu1mXtTe1FUcKhwxnjZj5GJXsERaLx8jWbOX6bc7DutyK8g73E+pD/PrMkDr2qULn/DbdDAKfJd4eXGZmrkFgCzAt4YmnmJnSvPSTazcS0B4z9BlySl/20Hh2BLM+j+7MfYGuyMT7Q/iFavBn1i89rLLHs5oYHKfpXRb20YcuDrMQ/R42IZhXLQvK4AXyRug69RjxtrueF5Rxpp0iVesRO80c9LtsdRpyozFCf0uTprXJTJUkxR4QLxKFYklM+i3bfxboZvuxVHlduiBTBwcv7DH3GaeDHW4Zhi5IdbBdgQbs+5roEI8VAFqQsiwzedFqIL2RjJ4B27ygabtNd+HIHs3Qe+CzwklHfdQ28i06stdgPDsCqAF09+mxpdPGHQ+LytNAy+CBn62jNO0e1xXwxUcpbigFlm9mBNiibIcDAw5x3Fr6PhVesZGYPQCY7YsRKITxk1JSiDxlZKiWJhzZmx4Bkh7pGrD78sKl68vjCUtjx4k2llR9oXMQpLeo4LvykZNtUKWcqszUS0Rw0MaO2BxtsDallgjuyVHJ3p4Tit7f5BXS3juDYsjO9eYEZO9Y36J7EyHA0nJBXbOa9E7ADKVtNpLztKNIu+2FnVcB2HnehexnHxVnBEilOnnRU/nmokKZLSnzymLuxMjfheytWGoWOA93V5zN2KwDQHCRUB74uCo8gI+DM/1Jeh65vxI991zlmWee2bdv30y1zsBTrTMS1eq1eASCU7tZp6mPjo6uWbNq1YoV5WIBa/TY6MhZZ51czEXFQoRPZ+QOvbD9PlwSGc8n3bqfkNmvHgrERir+QjEJDCusUi6tJorS0Ni11157++23b968+Rd/8RdpkIzfy0jUavlwPFTq2nv44YfvvPPO1atXX3jhhctrIIejyuU0S0MDvuXGJ/9MU6emprZu3UqvS1N/05vetGHDhqMv5mKNYV4S78fTyIN46+XV78e7FzRIhbDBduvcfTCDLh7D8sJMDBI+jFl6pfP9sqAZ5WKoF/6Q8b8XmS21mHo2PvKm2o7YhJXzXavaAlvP23krpisVUy65YOjz4vuoyXDOQnohhV/C2EkK310TsOkhNVCww1U8iyPxOZLkkHnNXaqjT1lyPSTtylsX/oGZaHREsB7HqnKe9RRHorbRxduq7gWEkuMR43WIPFPPVqbAro+4ASd7Srxo0CseS6jivXrFZLhrZrKTNJ18hlor2i4L+OtUmRar26xuGZ94ycsbxXB+x+xu0rRNABeYxXpr5+5TEv4oA/rJebnmICx9CJsc8eHPD5oFxUrP1lfgU43KmiUYGquAcYcgoltoJ0mMp+eUDlsRaQPp2kdcdWb2fi/S59mVzDXwHSLH8R7YPRk9+fT0c7v23rr1nv2TU7t3796/f3+1Jkvz2NgY5vw6zQLehsSZaNp8SRshRoolcGqrOdFqPcO7to1mjWaNOurVGV61LZcKa9euPWPjxrPO3nLm5i0nrSuszETjpWh8VC/UoknaGzvxkczLFQplAkub/PEA9CmmK5bCLu32yS4R3P333//f//3fb3zjG9/znvcgeMCmXohlf14aAPqgUpJs27btH/7hH0499dSXvvSlW7ZsmReTZeJlDSwRDbA9j9UneloA/dVXX33JJZfccsstzFe53LhxI7Aeh3WAToPpq3e8R0HyxUX2FIBBIm3jmS3S7ABG588YYZ1/Jte0ox8h8wGY4YgAPn+MZ+xFqdT0V6tGHFICtGJnDipjzsTqnjtX4lJ7157Rc7bsSUi7L3KFysxksV09Y8Oql2859bQT1uQyvMBWpetjtEQpJIutsCiC0bTBAX3SFVd7J6Onn9/z1LM7du2fzOmUTI6/0K1MolvIy4zA83E+75xPiv60vgLV/97xENtXftB+Odc+79yXnXXqOIrG3qlKUvsFj0vzPXUM3C60WvnJajRVa0/Ua9VGu86e+Ha7mM9STTZ9kDoAW03Va8t2j3jbP7SayJXGzwLfyrHCihFhLJ415ro+K07Sg/T11rUznV9rSFgs3m9KnqA8gXA2iNdbUbURTdWjSr2FX2202q3mWIHX5wV25+LAwQ0Z4HmAGlnfvUcy9J/JYsPOZ7LFQma0kBsvROP53AgH5FCHMdCcC/t501BYtZLE9St7SgA9xUkKzuXk6FRb0QPQ8/fsvmjXgfqj23fc99BjDz7yxPO799KuMoVCvgToxl87fupJK22HDI2NLTq0Z15UzOvMnAIF1W4n1Bll9teahVKB8abZ0Mu4Jd4aYQmjUc/Va7RvjtXZUak/88DTN973eLP59VyrunFV8ezTT3r5y19+1pbN69eOjpUjTtEp8xKvFc1nSu5TSgpLOH4s4k6pq227DqSVpdk+Jb6tpDNUj4+Po0Z6yKO2pO65v5B8V6CXiDERiM/Mk9njC6mMy2V58WiAaaq/GvvQQw994hOfuOyyy4g5//zz169fv27dOho2sB7oDxw9yoh0sZG97IfWaWNL1PFADB6cD2R4iKFWe5L8CDbusSTeymWrbDm3AU2jexRNTEd7DzQPTk7v3X9gaqa698DEzt17d+3BInXw4ORkpd6ewMaUYajSCIEfAm4V6G1hg+L7Im+SI3MvkyExYfOrm8eg9IBvuiKMIy/3gTCjpXy+WS00JlbmG+/7hf91yvo1mA9HRkfjgW4WCjAKC/rIFpsgyJHx6PFndvzThz9WXrV+pgF4KQrS2cFBQQ/oF/pwKQWZrmh/IT4d8Hhiupyn6orkkoL0RhIziD7opyvVIP0Poh9UL4PyHSSnrwv7XfwQcPHSl4SLrWq5uvsD//f7Np86jlpLnNTWov3RQmQwRxFBFzRH/lBxPZOv5aL791T/6P/5/yqZcrY0zjvNyhQgRXvnDCTegKbKgG4cHq6ZLWZlhztdGopVLRHNcbvQro7U9q0pZ973K+991ctPpH0AAMssBDUaRT94vJvH0rxWw06cYD16w4bOuefbd1X//WOfvO+Rp7Kjq9vZ/AxQPVdqcoZoj0MlCYfUL6oF0LebfNIBH8gqzellBk4jKzbrDSbRoNV1pcwHf//9m07Os25Gh2hgNMVkQYNU+qxVPplF0CMAuxt1VuqYnekgBTV7bc0SiAfQE6CRHZiKnnx2D9p48tmdt991fy1baGaL+uMQ3NWnZDJ8RQFwL1+dBeGkVyScL4ub8TEYHS9fZNvFbE0IPMrojX0Jh4QwaOb5DoZE1WyT13iI4G2wqLm/MXXLI3tu2Pb1QjZ74vrVZ246/aWbN550wrozTl57wrpo3G31MGrqywAoU99wqFc1X0KtMGz5Hn07ckfFV9Y4BPNGwHX/1u90R91Xe6HR5XI+eA0aPo5QLm+9k5OTK1asePLJJ4EC5Ii5CiMfLcGRAdMJrIBO2Zsd4iEbNJs2beIuSQAc09PT7LPqJT6GMcyLENV7dWTz4YZyMXE6hlItqawdHtAAsFECB70FDpKQu9BDfMMNN1Dp55xzzoknnrhQ5rlBmS7HBw2gecKPP/74X//1X99xxx0o/8d+7MfOO++8173udU4TOuGQ5OgEFhvZUwrrtNkFzzHsHOktB3axDpzBrBk1qhzWhyGpCLBhRMe8tHs62rGj8czzzz2/Y9eOXTt37j0gZL9vP2RsPzAYRM/A610rwC+5FeMcI+MDvVibU8A0rtw6XcXeZuiM05XXUG88w2Nv5JAY8vfOl2QhAD07W7nE+XPrfrbZqrZq7dYMVsVmpsrmbTTAkK7hVTheWwRQn7kw9imCAVS3YZspNHLlamakPTYeZXm5ELN9jHuUClivr/DETgnN6Y7Z8zwGPwSAFX7Z5Q9C/IP0Rj5dHPxyUDx27L709G594wcNsYP4o/m+fEBU3IorCxojC3Xnl6pIc9nmdH3XBEAKXsYOBGW7ceJVFeWA+mK0YvmBzHiVYjpbmsqtms6OZPIrhMNonJkq1UyTV4Vk88D6FkCNypIsAx1ScC+Wpt0utWayrcZks3LdrXedvvmiExnEgfXAqQJ7+jvq0QtP1KLC1oFyD7thcrpBN0G6RFEKKr6aLU3nxmbyqzP5VTT1Ko9/fiQge9qwtGctzTXTLx/WDJsgeBQFSIWs2cb4TY/Ds9bINGuFVoV1mOlclmqi4hZZP2BlSkb5mAhanUhuO+eY57agx7/OqmV8JGdUseM4t++LHnnkyUeeePrpZ3c8v3sf/eH+qerKdSfSYNAJPqt4pKFPAIRmc/YGdqyWWD+UC3u9tyw1L20Mc1VxJ695Dq2YuQB2fK0a0QbbmQaNXNLqAwmmNgQGlWdLY1G5kWvUOPvyuenarm1Pbr3/0VKmecYpG7ZsPOncl5559qYNG1aq41H11aOxrBZNWGyhkHoh17udRi3q/N6INYJ+tfdCj6N/A4d5GwaXY9IGot10002UG7zLMAHWp50TT5hOeBBoA8eDmMHHf/mXfwk3LsF5Sw3Wv9ArcwHK52geRnQMbuUlhqof9B4CZIwmF1988Uc/+lEazJlnnvmf//mfDI7eohZAoGUWQzXA5JkK+vjHP85LI2ecccaf/umfnnbaadjpqTLSHcNaWHxkzx5wjRhgIIYeWZQZ0BjAZmr2SiGjbk4gdaIePfPcxPYd+751z6P7ZmoyyU9MzNTqpJb1DiBbWpXJ5fnjmwDZfAFWjFXZTK7WKObsI4so0fXovkOZ3krJCZXNw4H85kFtD6TTa8hOXTLGEoPjR7Xu6xVsiJ6ZdhtZU+C+TGGTQY5fcSDCJObS7th5QTIR29jMoF7PlqP8aKa8ilG3lS0yqAZwbyqRDd8D4maOADIQlIRJ+7NctAOXyF43Py30pk9i0EAS7Ph1YTqi7KJgpsTe+EH0vZRxzIB8XRqrGQtayJN4ZNpv0nIzBe16Ctk4JLVLryFuETCAyG+sNkAVeLSRKUa5Mj59McbVHLvJDNlTZSD7ZrZEoQrtWt9JDmKQiRcC3//4/lWzuGKi2r71ngfPv+DVa165lsojSzsnKYh4/ARQptp/bLYXzM1GtcxIJVvO5sbquTKv0RdyNHH1JfYHlFVArl+ztd04I5zNnscwzT42lgWpHQzQ1AXzqBZLiMyE2vWMTjjCLVQjF6+BToZwSUvWqlQKgHFbvdKUML1WKg5UtcWFmDsf3veNOx9+bv/Mc889t3ffARk7C8V8ef3IWL6tb04zBeBMLEntjzzNjDkjvulEyjE0L6uzup+gIq0RSD76VTOhC9Orl5aTbcAamriA9mFpjwBhFj4yM01MKqPZAoePskrIoDZVrU1PNipTT+546PGnb77jrtNPOfFlLznrZWdv2XT6+JqiHphcbkQcsdazTqXnRZlZXuZJG0dF8bNZLqGQVU2sDQAZ3fL27duvv/56cPnKlSt5CQ9ZQfNgeighwJDfV/qDBw+yWeiVr3wl8I4ANNSN7xPoS78cuTQ1wLoNWzhoBk888YS/ewC+p+oHSQsMolvAZkwDmJiYYJ/33r17TznllEH0y/ELqwEmz+yqv+6661D++9//fvbhBP6h1kIg3DoKgUVH9qAXvRcqCzomJa0p11iepXvnIBiD+E/tiO7Z9vC2hx555rln90xUJmu5GkMv2JcF80I5z2EN+RIoqMq2ehsCDSFpTGzW2w028/DmoIag2KEyQvji0M8NsnkMondu/Tj1j+MxCzcSNKYh0+XzGL8UGcazXBmo32xXWfNmUQ1SDawdDzIGYcC9D34OC7ChiUYlNFAou11UqKM3202QZTqSmDNZDfciuAAhTHkRxi9DYFYwCdfhBtnmB9nynXMHC7sYRI/AvcTEDKovjFh96QflGzTflcrl8bv4IQCZX6Io1xU+O71B5LbbwdgIpoBLzGzvEZ2whSLR7tX0ac6pjTcY6Q0x2S0Kns2xpyISZNXuhaHIflZCQoLAuUytiTFv5uat3znnZW9cy5yXx4rXTIWW+j8CJunS8UxOwdxYWq7dUTgKonUMgGS2xMwHazuPCPqkltMOei6TdLO/RDYzvFuOVbwt7AyC1dSaBRN2g7BIwjOUB7yyJwrDNdoX59nUixOSjcM5Z+jRGrpABFXVdDuq1aNSIWqXokuve/Ca6244WM9unynORCWkLpbXAdQw61IoSkFrJCXzcISHnWtDfG1Wx4QhOJpruEsz9LzxrRlrB08So4AJooVRvpxnO2tojJjbyUOTokY7W9NbvIwa9B4c61bMs2raXplv16cP7suVMzPZ9rYnd377gcdXrRh/5SvOfdU5Z73t/BOn2H/WikaKecilYW2Lotyp9knv5r2ZBHhxua7+DexOLWOgfe9738s5POxBp4Oi0h3T8yKZo/ZeHZEK8yG43wnoHpkYqLX3ey56ky/HLBENrFmzZteuXezY/uY3v/mHf/iHASkOGn8Rm8kAez8+8pGP8C4y1mLWbWgzQ+iXSElfGGLwxN14443Ael49Yh8O3TLl4ukLu+qP1QO42MgeIDQCROIIcI2j7C5mtM6yI1yB6+/YfeVV1z742JOMvqWxcXa+1jgGdHxsJCejJp09HzZvttmv0qrXWqWRFZFeAMNKpZUmhjWN0e0mWJjBx7ovN03FmuTI8AFNp//ujizHi/Rz860Ytu7Chi7VmYUAh6cRw0trGpXNJ4CRrpln1Mu3W3n2XDOaCn50iOEjnRthGRYZX2dnDroHRrQ/uLUNHCMwDqDE0JzPNAsZltdl74HWbHlJQIBHLr6VDAB+Lr7fSvvNZn9bEXWVJkuFYw2kYhRsaoWmjxuUL3C6D3UUjXZ+xyBF0z9f1JOimQ26PNKeOW7w6z4BHlT2IugPF7WA3cwntPkhDUGgT+3GmWUtmlbZdj6UW5VSq1LPlHgvlHkXdtVSTtseCrLZs6uaL001G0ztwPgZCtZHRWmpgnhMfGqNQnYEw3Pp7oeeuOu+V7zpvDUk5kVzqtdaQR9WaQmPedhqxXBdAu5plzQpnkZ8nm61XjoP8DiPPLP9PL9hf5maenC9ZTFsqlpAz2wzw7wFTaMN3G/i08Fk2rVSu0rVjLRaLHjxJujiQ0vfE6RSMWmhM6Qr0+oE7Sof7ToYXf6F2y697IpsceSUU097dv9Ufu0p+WyJeS8LlNhHarzVyrdjG/WVY2OURQ1HJnA9xQ7xAeGEgetSi+N4a5zcNzI8mrj6OmjoZGnjNjWw+LTHqlLyIPiMiJtMhMq2Z0xhErbqdGHNVo3tO+tO2XRw/96JyYOF3Fhp1cp99frXbrnnK9fd/JkTV/3su97+5teejup5IWU8T8tUrZbU/bBg4FlqloIwfvEi9Hm6VV2oqNn0jTdYYdmHA0wPt8AK7vrqBws9xDg6KlqLAzvCywivr7qWbCTNAJh4zz333HrrraBGrz43P/WVmVtAeY5W/NrXvnb33Xe//e1vp5EsV3pfXS1GJGcK79mzh1pA89SdGyiZivt47Q/1YuR7SJ6Ljew1frAgq2M7bOPsvpnosWcmn9l54OIvXHGg0qpgShs/OSqMTLP5uFgsF0vTk1Mltoqy5QacyvjE6rRM0KChHC+D0v8BhWDFiKCFbExZHBWZjG3o0VWJz7jUt/BCaP1d/3hmEv3JB8TGB9ckONIrGFo2DuEDEolJfPAKL2ZZcbDFy3abJHPmGp8F0Slo7DSOS53u+LUSqz3xMIPleZkBiMz0B/wDAsJwa1s4Z9Xi9CRPtzwiY47IaTggXIbAID2k0wZiAqHg6UjC1GRXjF+mROi836mScI8yhnA6MCjfAWxieUjlDlYE3CfA4UugSJkriZSxl2PPZeycbVsipuWo8RDy+NRdXtwEwXM2pjZ5Q0N+OKsv7Mbss6cG4Zxv0LY1ueEO7aBPU0xLFcLMBGrNarGUr0416pNTN9229byXv4WXMHW+iSFj5biEnesOAQ3VWam1N0OXtEgeGBSN6rSOAQrMMFmnbdOV9EH2UluP00yJCpRJgeejlWtimjdAy5vGwj80RlSlvoLVxHy7qCcLmWafhh6OCxDBS9J6syg+4dYw/UwUPbw9uvGOe75xw817J2ZWn/4yDrp5ZrpZXn/6FIf6IBRPPU8z//KFcpET99EVUqIPAXnvoQgoXv2DyoMfNwF/oo0qaZkqoXoX1Et/iElB8094okOrhQRkq6Vp0z3pslhTzFhgayZGRqdM78zuHLjtmZjIFUfH1o632o2pSqWWqWVHR8urNmyf3PuXH7nk0qtP//Ef+cHXf/caKFmnWGnHJORJKIHJke8JcMeyVv/Qpyq5/QJ24HLQAA2SaRvIHkh38sknA9MpMreoBYYtEBsG/kH9LcldP/4gkIrAMsI77trMgQMHaABUPfM6qpuqp0l4nfYtC1XMPhzWdl7ykpds3rwZelxfyuXIxdAAj6rOF65WL7jgAirOH0OfXS9GdnPnubjIniZWYURmZGYnfTV6fPvBO+7ddutd2x548vnxdac2y+xAKEeFsVZxtNHOTbfaE5X6iWs3FBlnsrxc2qJNY94mDFClvWopGY6CRowpiibQrNPxKY4yM1Tpz8J+JkyvIgR4+7lB02IBjfk4GwUlSvyAhQDvBjCa2h4Y9wUWRYUxSz03wxuDqx5Kz9Dsam5diwGjxEAD2khLMiFNU4YpQrt17MwPhlqOu6gXpCHhxHauYPeMqalHSpL9LLaFx6qzSMUrlz4OW2mfWMxudsZO7y0QQW8kMaCDvvGxunrv6Tz4Ps5QQJ/4QfkOindt667VlClWkhPDH29sY5QEK/GHzR7NsyGeXWHkbsUzL1GdS8OtWFO2vUQMBUvBcxhoS+1sGdNwnfc3WadpsyvNJqraZ5JvZ0cQQu/WWsKussUzUgllfxKRqRygNNeAPl+NCtVtDz9x+x1PX3jBaSM2ke7isDQvvZXgm4HZ9KrJFJvMBOfzfJgZm3qbc4TqQHz1C5q02ImwNFzrAeIGrP1+3Q79YJuXprDbk1hvcaJ2DASFRjPHq7RENHXYTpUdJjwP2g7Vv3l2cz7ca+ShR8FsDb7V6tvOyejR7Xuf3rn/8qtueHbvRKa0Yuykk3dPVXnBlG9H8br/ilGtUUp2NTPrH+gTURYfPuPdDJspYvtPnmJKB9d45iM4btAfaZlLSGbrVWQhN8eX1HIZ3mVApcB3+hZu8BKC7vl8QSuM5oxcM4cyAL/F+09y3EG17GbibnlsFZd02vil8ipO9ABcTs1Ml1aUV6w5+bG9+//uIxd/47s2vesH33T+S0d5WXnENG11RuXb0yzNvBhhvWlbXTqVxa4bN8yzXZ54RkDHCgxP3MVJ5/0ct4AX3PW99fgkWUb2/VS1pONWrVqFDZjapzZ5xKjWrv1aXdJTy2y7ItLbjxMDMYen6mKyfHnYGgDWY7Znmxz7oHhUqQ6NUf3MTIedxeEl7A+bhvKyXjimiI0r/TsbM0fV89GemeihR/be9u277/rO/c/s2Z8pjo2dcDqnVRbGxwvFFZV2rs6oUiyVOdCx1ao0ZtguXoyKGmBy7NBv5YslvtQLrGfQYhG9qd31jAVsUqWf45xMztCEFkAkX1tEPcwYJoPQXP0ib6T1o2+AvvrF9+ecAgahC/YAfTQBQLa24rivsydsIpJAQwo0TPOuZdGIjEGRn9i+ywK3uWyrxlvGjOfi2y7okAv+NGZbRngkIszcyb+EleQYspaM/RyvH/aL1g4pxffqmdropzcdldEvXi839os3k2ufevRannu+2vTQy9/0L/Gt1K7DEKZjZVGFvRstfRuYpg6CEmRG51zEVcWP9m2jYWndgYn7BlM0QxB/HUbOBmV0hdmYzd046KkcrbS0M5xnImuc6hSX8CZhcIq2u0FIYtAL76HQrYytWFNtN3bvm7jm5jtf84rT1gRkL6gkwNa/8gL3JRHgQXM59HgDZrnCoqwlDbV2Hm/pklJrPtPpSEZEn0KgWqVm+lOkITUz8TOorT2iZ55m70Nzwox1HH04LEDUrO558MHsaiUG6/dWojsfeOZqllrue7S8cn17ZG0rX6adlMZHJBhn5RSKmVZVU3T23KmRkE7zeaSlUuMZuw6/opA0Pm7TOsRdl9IVUfxTMtonZNxzJmqSQvP6MVby7RYxJp/S4OhPoaL9wE6BWq3KRi/217PEShWB5PV4sGeyUi+Uyqi1VucFKB4c1mBZeM016rWDjXpxZC37i7Y+tP2Jpy/+/le//K2vO/9lG3U4Dm+FYIPQVFaLEqYoyeVZz/r94oJW09LOJjleQo6/QfMI7Egu3ZJDmFuO1bx36i0dBD4HABF6YBnW92pp6cdQfcB6Jni+sQqMTo1T9aEldBWBWgZaQO8EhAksw/ouLS3eJVunqCmgPGss/iwvkWnVfJE9XTA2IXp5nSkxU62VOVPdcINGCDvxhnGEb5LjKmyuL+bveCa6fuvTt99+567de9scqrBqdYHV5JGxFSsAOgxZmZFspkznjgUN5JTPlHQOt8YRrFTcppsHALFJnVV4jNU5wL92OWuEcj/Znclo4AMCgpDcB4k+vj0AGqWsFLO+jm5IeKb5hxPoVKQ5uNmeNwGLPrDmC2y1kdMGDwxblJBBWIUxw1kjq2i9Waxy6EAgYBtOiFmSOkKxu5jDGmy24VM+7FVt1irw5B3KTEmnofNZKllxZc3MN/MlgCNObyWYE28N9OKIEzcY26X5ugZC6afXDd/90qNPwxlJnThL86lNlafHp7qVZ4oyDmuNpc+fyd+HD0bIXtkVI/7683IruWSQanUXnStGinGkUK/r5UadN08NwFMTMn0aLd7mJEJLBhrnuFa2JYiLGX3VinAY+8WJaQCVwjS0DqrkGCedOt4c54tCstgyRcjTptkToiUoVRNsPH+vJjHyqpHZWZnGzsP6+lKztnLN6I49U5NVnq2Njz9/4HNfvO79774QgVq1SrZUnq5Ui+URZOJNCd60HSsuofOtKZJebFXJcMjIBX6sAU2DeHeW3UxRjkWPGt+VKo2w34y6UuegPzn04865dPl0RTxtMvPrFXXegsFW38wxW2P8KxUq7SaGg2aL71bRcMiXrsOeuC4ugy+93nvv8zQzyuqrAvrcAWWiIbBsU6roDE6tjN37eOOKq66/ees9lWZu1YYz6vmymgZ7/zg4QC9Y4+r8L5XZe6O2phVLd+oYOU1HXbfl7u3N79GhoE2bbCuC+3EDp/654J4lsZKqq9AcISg8ycBZGSE9ifoMUrkRH7geU/FpAOOtg+p5ADKcf0MEr46wycbmArTUYi5fIY6uj/eI2PKdL040q1+/46Frbr3n53/0HW96zaknlPVyLQMjSepT04Wx0VajTj0jEsktZwkT2kTcUlRNSakV1Sm4i3+c+Gn8TZFpzzQbFcnMfu6HSwI0ib4lC/EO69M0jvw8BiuA78P2WYTn6LeI8eyk+c6Mwq00Ww+HiQSXnhFrNQjj4BKsAzdvq8RTWHCP5wIxr/yCh+Aw/HROOEAc0KqLh+98kI2sg6JcKu6SNfkSIEeXp6vILg8EkHESEfxdvJCRi5quIMhYDCFJ0LaDOTgjIfHoNtxySYIPDc5V4ZFcEujSOdWHQpABVjCEwGd9BKg7cg/8Se5p4YmoyBmYh1ueUdpHYEQloRcTSpxz4JYv+EBALjDkFpnyPje3oCcXfCK5iwtsnYZLKpRU3gLTWuJWaCck59Il90iYQ+zCk3UoReC/UAEyghWSkztikCnSeo5BPC6JhMyVj08qXDh1lBgvuwdgxSWpeO+ZN5hpVF60UBBn6Eng48wXqkRD+MwX2UsxvNCaxeCSzY6MGEoAhWf4TiTmF1qhBi3etaSvnW7nP/bpq254cGLHVK5SqeZKq9VY2VfDRmCWLdRApGXQjM57BDjZGG1J8bxzwacBeSce+3YnFeMIuJPGCpyiOap3Z1v8EL2r2N6BGsLUi3AaaHtSqHRahoidBejTQJq+F9lt9oZJRQYHNOkDHfMkMClMZ1PHT6NrxjXMTdJgLg1U8xwmY5mPlbaPPN9h5bX2GWvGaocdyTRJqTRJxi+bIkSjGM17eQKEDjttnzRB7vNnQLVN10mE/oOttOuEF51JIXDEc6EnwWs8BLouvVtBJFDTxP69evF8fBWbxQ/u3fvAo08/u7u1ZX2WBXzO8eGDma4jDVzqs7iSpEvISaVIZc+DPfBxm4pF1HqIPmTBlnv5dKUd97tU1FkutK2npd4uAup5ARQLdMEs98RrXUDrZmDLoJAFUI7XHP2bjZ1MB2WLLfDuUNSu6GN80e569I1vPvGFK76668DMxjNfUs8UH3z8qZNOXS2ULTM7tc/gYcsK2MTFTs1QSkpahZVRtRq3El3rEkcf4IFe39VmvhPHSXopUzFux59l6lMBCOIZA7klQNDsEQ7JaZ4UQXMq1RiVQD/FGKlZGYtXLDLk//Ozlz2/6/U/cdF5J49H+yvR6nKmML6qNsPJn2wmpBBaVPHyIqU2IdmCQ0qw5eBcNeBggkYI5nCAAsIgDOZwFAIjMBm4zRE29GA1h5hAPS4DWW+WNPKAV8Bk8HQk6sxJ6JUIc+5y6cJ490UWDknJnTNhepkT4wnJhSRkBLfAQY3MnGfhyR2iEeMAkSTE25MYsw9lcWGwuTK7cEQLBfRODIinIIHYgaAXDZG4y9Z2MoceGpzfcgm5dFZBw1524kkCK4oQoKTXS7oIfL4UgOi75xGGMMwDeg6KhZunJQZ5qDsC8CeJCxAXuPOHW468PRoOOBKSCkcAUXF+F2KKSdgZQhDCBEJZnJ6yUy5nHiRxPq7V0AbIkfN8KBTEnqOTOYFzTivE7x6JTwNDPyyGsHOJHGGOQwx4uvCUBUckJcV3GbzUFIpbHkNBoCehkyEw+tm5cyfxwHpoUJETkwoywkGZ3CUS/+i4+SJ7+mm2ibrZj1VYXuTXB15YNy4X9KIhuOZgTfj+3kf2feS/Pv7ojsna2Bnt0uqVq1fzUXPKiUNx7psOZ9G9NIqzQUS/5kLg6Khj8XLxgnjBFy8XOHtGKV8KDzlaWM0UF+JDwOOX/QXUgOs2reEQo0cp5cBKdktRg2on3X4IkwAMVJmpja7iTdEWO05q+cIjTz1z/W13n/qO7ymNjvCiCu+IypZquzBYeDDL9AKW72izMuWoSQfnuuKynyiKdQzq9NZFu57jp6BfqnnHpfKetfqTIzXEjnnGeTpGNg7SQz7wdONTX/zarXdsHVm1bsPJp2x/dmcjlz/z7LOnqnWwqw8YAAPktv4wfnhD6UJg3iIudAKVzrTpgb6CAc/V3liVbGUZDNXgNc/KZ9rFWivztWuuf/bxR37s7Re+7tz1HBw2WWmvGB3TrhRzMKf1Cg1Sg5h9utbirF4T2uXfYRoAf4CiHKY4TCQMFsEH5bBRmLoDkYBuucSBdMErDl65hLWn6psHTBwh+V2/xAfEeJMgI0dsMAFGc2vdunXccujDC6N82ScYRHuzQDA4EA+9gyq4cUkYoEbWiA03whCA3hxZEk923ErjKpfHs4AAesIUFh+czV20RBL4cyQ8B84QgC0y8wUiaEiCMERCBlsKAl50ezaXqNFV6plCjOqI8U3wXOLI0QsOtyAYZDAExxNDWtgiDPlCQxXwFHiOLjxhAtBwF0cAAjh7KbiLhMSHaYBRdXgwJxeikA1H1h52ZZIjkdQ+LuTSkT51ESQhgBiUDmdcBfEpDkXDhRjTgZRApq43FOgK5xaS4yAmB2hS+RxR0JsuDQMJXUsIRp16DGr3HLmk7F5Hrp9QfAhcHtTrojAt8WqFuRfBWwtqJx5t0Kp5X4IADEkCvb8NHyroiIo0t8TzQ/Z0zdO1donzaOhtmd5x5g1vwWr9WpuRsRVPt6LpZvTJS2/5/JeuzJVXtkbXrVi7vpnVAla9KQtBqVxCTRhmKDYSqk3IQoNtWY2Vy9iwlNwNpXD6cBkCg+IDQVdg/vRdDOJLStT/xhxigwwhMIdEhyYRt2SshdqZm98L7nXfOTrBLH0S73cP7cdsDk04nMKlHU4zt7uHXy9p/rE8iT65dJemmVc4YSBjPmEeIPkhNr6ApaKcc99AaHiiY4dQk61to5zZ065X8qV8ccXKiYld1956z/de8D1bNvDRTx8E6C5Jx2acll5dOc6dCt7P9SuWVGl/ejRI5AoPOuyXZN5xcW251Vy7RPjLMn5Yb8kLFFrAoQL4xPSd9+/4uw9/go+Lrd5wCnOuSrO9dsOJ7VxpaqaSzfOejxydJIsS/NdOMFnxkUfx/hOE85hwedQCnq8rkHAIuHhceiQBHJEF9k8qjpUIFkkohhn9MxT8pKgyced9D+3Y+dyBd73jzW84szySmeLYeztqx0tLi43BPWNE6LDiojJevHjfuI11MLcfrwj3HceAtwCvHK14++234xOJY1wG3n2PuXPPPfess86CPZS0ZCDXoKwcrDh+IjmI0ClBkLxZ+Pzzz/ORtaeffhoI5dyA9XA+6aSTMNKDhh3Tg4T4PNOgLNI4jxbE17t27Nhx8803P/jgg08++SQCEAlYBH+/9KUv/a7v+q6XvexlmL3BZxSZWw4oKUWaP7d4zvwWZURahHnkkUfuv//+xx9/HJkpETqBOaL+1m/91pYtW3zO4KogLZAOJkhCku3bt3Pi5O7du5GNVGQEMZ+L2rhx43nnnXf22WcjG6Vwebjr2iZTyJCQvDi9nhpBCYS3bdsGcxR13XXXoTpUCuhEfqSF5lWvehVVRIyrBZ6IhAL5bjEft/rBH/xBr7h0YdNhR9II4AV59NFHaQB8PxUBuOXCIwYCe0sg7HWEltCGhyFTL2UO5ggW6ogAQuJQBZqkLNQRl4GYmnK18FU1VASkhhWq8IaUFnVBwl5Mmh+YG4SNPrdu3XrfffdRa655MDcyIAyKpdk7BCdrryxKiqNQ+EQiPIWlXtAGdUf4gQcegA+qu+SSS6gy2gCUJ5xwAs0Jegr4/d///S4DlyFAeLFdR3M/ZGYasgrg8qg6U2Nft54W2+9Yq/KByMLB6eipvdVPfvHKa2+/Z2TtafXCaHF8zUyNXcTaR8WyboFju8o66ZMnCR1pE48M/nETUd2z1p4CZkRA4P4hZVv6BCqglcgLRfgIZgfdxRW3WFfSoGdkfqxQwnbZkTDEhEDH7Rf9hVSWVNlhKmNAcrG1KgtsPSuaRMgxBKCh++PBCcRxICe7yNjKFVMHJ0o6XDPbzOXLazc8unPPl2+441d/8oIxNug0G3ztljGa5AU7oKmbyXF17VpKi2wx6ij6Ot0VKDR1K+QRfWkPJzLJ2Hd+JxVEr6hTlWSnxxoNDS/Lfuv2xz9/xVcOcMwPA/9oKT862sqW+GwfW4FKI+Ps3lFXqFcIhOw5vZ6wNujxa+ieVFaU2eZxOOIuUBok8dYYAkgNbyK74olUwxWKEjShKNotmMlOVSbLhdENZ5y1d/eO//zs5Xsm3/7Oi142lo1m6myZqvPyLWY7HZzA6VFmNjZkhrJSTppZdofQAEjRISlYEFiGA9wA4wAioDqwOIZMrOZAK2oJUPLFL36RL+CCVH7pl37pFa94BfBONeqz4n5ZcYtoasexDmFgHFl861vf+upXv/qd73wHNAMN0IraZ9BHAALwBzK6YRgsxWU/3oqDrVW9wpQFTIaEcOYAGVhhK3XrKTgSoH/55ZfDDSzFN4Ne//rXU3BKTaF8vkFbJewY1B8lpEIJt912GzMckjMVQTYUAn2w75IL8wS/dBkoDq2dVKC6b3zjG8wHyAVgCg3YDgGQmSkNdzHiEnnOOee87W1ve/Ob34yePV+XwcuFfkDAn/3sZ7/yla8A6LH1UiK2diDqxRdf/NRTT1EKcnRMCfH73ve+008/HZGkEUPVCMMm7//5n/9BJKAkyB6Z/W6vTwFhgmP2cvXVV6MxYD1SIYzHE2CiQrmoIKYlv/ALvwDepVzE01qcM/JQRuhdAHw4EHPnnXdSFk7ip/bZo0IkYqNMHOgZFZGQSQiaoRI515WZ2E/+5E9yXiTTJ5hQfMgIoM8hTQKCuTtkoMhUCnMMavk//uM/EICMUBS1QBGoI25de+21wHFa+8/93M/R7CkvWdDeIPDKwsfBionQv//7vzORozjE0AI5FQfKv/iLv4AV2VEdDuspAu2QCQN1Cjfy9cDchT8Syvkhe3LSy4S0J5oCK1MNjkSojY+N5srZXQdbDz21858+9pmHntt/wpZzqrlRbFH7KvWxcoFzvPjElIYulMVrZE3eFG3yJhaI3pecUces4/NU5ojpCvhllx/IuuIHXc6fvj8n2mj/GwNiydeTzFeAAfz6RItzqgv2jPCBNYHaImXJCHCBW3YpEgJp4pBqWGCW9zCqcG+Q3oIMgfIwA/Osl7nnIuV0YvH5piU5SWZ98Us57iC8ZUGsM08HCAfthbBeKucv0x5fMcKpUZOVWnFkDcDyhq0PfO9rz3/VaayG8YxXwUetBqduDrS9zb0sx5aSgquNdrqg1R7Z4ifCkb2vkyj9AjtgPfXKjid8/svQTkSNbUD28sQzk9EVV337ljvuenrP9PiaDdnCKIbrSo13INrF0XHOpaUjzRd1/IWOvMnyJgBdo77jAc7nWRUcTppNCAwqRWghC1zEhB35hn4sBNJSEenOKQs0TdsN1rCt8zLb8wJzrlmIVkxN7c+UiytP2bT3+Wc/9YWv7zxQ/cWfOm8DX2OIONSLGWnEmQnMF3T4v6YN8biQCOK/y+C+Ux89V0AT4AjRYDIC3/72tz/96U9//etfJ/61r30tIHjz5s2Yz6kWkBnQBJwKzY033viBD3zgh3/4h3/1V3/11a9+dQ/X2Qj4AGsAcFZHEfj4qquuAnljqSVHoNJ3f/d3Y0cHujnlQw899Oyzz2LqxgcAARbJ1NPOMk2FHP4SAXYH+wJ24QDYxY5+5plngs88LU0OqApMv+yyyyC75ZZbmJn8/M//PPDUmUEQmi4xngoL6x/8wR+AnhEVyzr4GywLTy4hIImjN99CTRgVcYvkjz322N/8zd/cddddkF144YWk4hOkwMGAX8mLuQcQmQ9IQYZDbORBFejKRaI6IGNOBcb9nd/5nV//9V8HgJILxABfyotsrBUghtNDjK6ICbAe9O+3gM6wBRD75RAfJtxFUR/+8IcvvfRS5KcNgK2pJnKnjmCCWsCvTP+Y44HCf9QcKyEOTJEQMlThKqUUXkdAeZT/mc98BvGo7u/93u9lSoPqwL4k9FomIamoeuYATADwQdWonc8toxm0R4kQyeeiQ0oxr1tIiPL/8R//kfkGpSM7BMNRXq8LpmGY8LHE03SZi/6sOYB+uqa81MhGXf/RH/0RtUZLoDgU4YorroDt3/3d3yEVzwI03PLK4smi7F6DYXI4L+EPm3h+yN77V5rGaIlT0jmoPlsY1+HEfH/qM5dfc/k3bqwVVgDrD1SzdV6DKvChknXViQM6whk8b+YohitO7B0r6xXyXkcxiAyF8bD7oX2Hu8dvYLZcqcIeYXHgqRoRQwfuMT8tg3i89vzaHzS+9dhIlMT6DgscoRQvnOSmSRkhKRLh+PKIyyc+ZpW33w6E6vHkJjQYZmhJQPVqwhhMIijBAIicocBBhKVCvpTLTterHBRbzRSzo2uf3f/89bdvO2PtyzeyPK4XGG3BlFSzj9cRF+ZYMLCKUAsPDik83E8c1Bw3dqcxtflj0o98weJksK+2OISfZczoqpu2XXXL3Tv2Tmw49SWTbLzhyNniyBgHFmVzstm3WMzUXmEwvSN7cD1QFkhMxQHrw2QbEi/sgol5WIwQw5tfCMCG8cwjO1myu96QPe/MsvNYAN26pxaLS+3VGzbu273j4NTM6nWn7t+94+pv3c2b6e/94fM2jGo1t1Jr5kf8wxFa1LVqNHAfm+rFatkdUgOoDgcuoYKwWf7Xf/0XiA3g9Wu/9muve93rNm3aBAe2HYNyIKMGMXX/0A/9EEjogx/8IDZgDPBg6De+8Y2DMiJVAN/Qg3KAg6RiPoA59q1vfSvwCBiEDyW4DayPJMgDfGSC8YlPfAKMOIh5iAfmfu5zn8PginEaqyogGPAUAK6TwZl8L7rooi984QsQAzHJ9Kd/+qdBlmRBpggAyAs8KSwywPD888+HJz480QPFcVFJAjFYDZ+EwDgcl/hATwoIRnzNa17DJ6JIFWzMDmEdmxLGaotOPvWpT2EFJ+Ev//IvMyFBD84QzmSKD14kEjlJiM0e1Av4BuyySwTtAdyRFqmgRHXEwArxsBm7bNwiIZcIDx+P51avg/KOO+74yEc+gsGeLTfI8453vANNgk1dEpjDiqL9yI/8CJZsADHTDO7+xE/8BMZ7xHYx8JEEDYfap7DAdJrWu9/9bpIzzwHLIkkoaRCGQrFryME9DcD5//Zv/zbywBb6IfIHJnMPAOiB3UwnaAnMx9gLxOTNk5MXc0uXh5Z/5ZVXUlNMeNA2LYeyQEYYMnSCT5HRPJSuBOoLbTNVZqWCmUxQBeqiCFB6LnDw5kdeVOXcJT8Syvkhe3ICdmCS4nhGzFG8UMCDsmsi+thnrrzuW3eNrDt9pp7debBeXL2eoQsjzdTkzPjoCCfNkZBPHhdK8Vf0XEehiRCIXYI4ufRShcCRFHLppD2GxRme9fC7S0eBR1+SxdMMnAXPE2cZccqO0F3INASgIhz6dy4J8/wxykzMTK0qF2rVaqNR49OFe2d0HkszM3rz1m1vePnGk166ipGK9ziBixjuB3z4KxHiePhN68TVMlxq0SeKJowz1Q1PNK+79Ih0iCBwsiHMfsUsaIUTLHdPRh+/5CvX335fec1JoyecfrCODb5cKI/keFuR7bacSstpuHxLzoZtxKTX83m4wuoCY8mR2QUKgXnJt+DEfXXokUFCLxTvDNIYm2iFVm1tmAGEE4p4/2BipqpzkPPlapQdWXvy1MTkZV/75ikrsz/0fa9cMxbxVWbGF8ZGRlPOxk8VAVVz6ldcpbFeUreXg2kNOBYBZABh2Xpxww03YEb98z//c9AJZEAQIKlbEx0vUmtYGd/whjf827/925/8yZ+w++Wf//mfgZhsOUizDWHnDx/G9H/9139l8kBe73//+3/8x3/cTbyeBfT+0DmyoZFgewbJgY2IBx4Fhr0BCK655hrAKDMQOGP5xhQKVHL7qMMpcsdhocfuC+4HwyH2Jz/5STAcKw+OL10GFwMBoIchG3LA5QgDJcI4N2icgIQO6VwqB83cQoe/+Zu/CXhFDOAaOoQbqaB3fAwrkhCGgA0tZMFMiSkHpnGQPWQQk4S7obxEwplacLyIbBAgD87lwccRCSUJEQZit3N77rBC+YRxAVYG/h6gGbDuwTSDXSK/8Ru/8X3f932gcyoRUb10lNdzYcayadMm+FOtzJTQ9p/92Z+Rb1oe5wk9kpMjPpXOBIC0RMKQGKehUIRJ7vFEMjXCMan4l3/5F+zlrAkweaBmucUkwdXoaY/EZ4fV3/7t3zJNom14Sw6a8UmaT8kQz+UBzdPyP/rRj1K5P/MzP0NhERvfleOaCbVGPLXPJTVCunIpXgAAQABJREFUGDnZyk/AeUKMYr2yqCnIjhqsR5LZhjVcfUhJ4WvVGT9UkUFrsi5kf/9z0R/+749/Y+sj+Q1nThfXZlaeNLruFD4zznBVLOR4XZbj3lhoBtNzZjcNDm3iYOUFjnWkE9Ew6aC9+Et7QRjydRdijjBgzb6Pl+Qz1985ihFadhdfkneVC0q5uVdJpwSoDoYwoGHhUK8xY0Blk0DnHzH0QXzm0/4Yc/lj+PW/Tq6zV5LNXIjqkj/Ee6CrvOGyiyxcBoKuQJ+qsqgusnCZiNn9GzLyALe7Ynrj4UlWtFUcAZKgVc+oI+0AVk4DCwJBPAIhoy4RiSdG1SGEpxfL03/EeGS4peUvwHq7ReeLpIwR9FkIigE4Xx5fsf6kp3buu+G2ew42WC7Lz0xyFC3fKsDGM9dH3uU8Vr7ryZpqh8Z65XGVpjXcG+5K5VVJt8uTQphnh44oqZku2kNckhcdGu8mU2+TBw7yCLJIxqiOoe9AM7rk8ptuv/vB7MiaWm60URhv5EfKK9dkCiN8cjvKFvOFkv7oIDF9gfBtwPYuEbbe8r2RBCFC0UJMV8Dpe/0ussO+7BIgZKS+2yyRiA0N/P2WR/olBVTfpOGgzDcW8uWx0thKfL6fPN3MRcVxXhH51KVf/tjFX5oEo5RkNprhmyhlvbV22AIfpwnRE2pEh8hPANV5QYL+uwL0UbRnVxS3IKZZEqBPAFVQC8BcTJIArw996EMO66FxCOKcgXTe9siatGzXBtmzE5rNIezcgAb+zpkwAfKCLfzxSci+HUy2QDqsvL/yK78CkEJmXMiCsnBJWkT1SC+dPXoxt7T8oTjYmH/3d3+XjH7v936PPTZsk4CMVGmDMZeIDXMC2Lzf8573sPLAzuaPfexj7K9wttyljN4skR9hQFquZ5hzlzCU3IIGPi6t8+SSADEhEjE8MsxV/BIyHKxwHqC82L+ZkEDA6w1gTY9P0yuNCU+h0CdhRApiu9pdKorgnJGEnj9Quk7Ii7teHK8j8U0cMBSMzlIJO/VZimHBwWG904eikRFhfPJC4VjTKezHP/5xNll1SeISQhmUxhZ2ZPAMYUIZg26dp8d4JGTsfPmpn/opivzlL3+ZPVo0PJrrYcB6F8zzhQkBF4NJrK9+sFpF4yTfQEnZkTyI52lZxKDItD0Ude+99xLp9K4cL5FTuk9xcLDiEm0whfMwlzAn7KVGk6HI6eSLF57HMI+gmN1VgCiaqkW8jHf/s+2PXnz5c1NRtbRuKrdyJj+uASzDq7GgDuwqzTwnYWrjqRzJcR4OfhpN8u5s+vXZQHM8BkLrCQEvRbgkEMLHUQGDzCFwHAmPqEHsEOitl3SJIEtTpsNpsgUP9z4pXVmkCXS6vh30zjuYTAh0Ankmt39yes2GU269e9v9TxxgBs5xLG2++2TPbxer5csj0QDjB903J4OBB0pjqzlkdM9Ug4GFU+suuey2r11300w7X161tpkt8p2q4sg4tmos9fSQejVWEy1z1knKkK3ONZ7JcEM1e5y7riLMtlt9S0AaYNrJCwf65q6+v8u++w03f3vbldc+BLg/gDE/H+09WNHmpE7nOnoB431M3ZQYH6ATlAZ0INzXCUjaUYykApfgO6SgfYIq2PmA2Zvk4G82lBPoVOfslRsXadLkwt7xd77znZhRgXTsYof/LJ2FwDRIiM9qAPgJfMb7nWxr6SKb4yU5egdLgCRCTMb/85//PIAJa/cP/MAPIAylc4IhbJk5/P7v/z7ysE0Cd0j6IazmeIss+uYSEOG73vUuWLH5Hvw6R55HSBZGqxBAFVjruQRMs3kJraJMLoe0B2Rguw6bhVhqYNuJv356hIJ1JefdYpoou2WYwtHwCHcRzOUS5Ydi0mxo9jRX9uGwSMW0hN1WTGZgDk0g68uW3KkpXqJlpxaTDfZ3wdkfxr70Szayu8fsEhQtUOte8bRRTC6tTO5Apcbq6PYD0Sc+/6Wb73rwYDNfLa6q58caubFmrsRcGM3msq0ipxZr604HpkdNskoSZ0ZiR/PuH94oZjW15DzU6DKFQNel65lIJ/DLODJ9sWTCvfJ7zPHlo86ugnRddhEE9QeyELN4gTBChEA6rxCpAE9RGwMPqFLnhbO3Q6+xcIB4Viu2oKVdB2uXXnnttF6h1QpbHYNUmtdy+Ig1EFdHJlfH0lfQBpJoJA+sv+zr9131zVsPVFql8dV8QDfPQkqxVOfTtxjD+MSsTiLQ2cH2x4HBMvV3d4DqOwe6Y/XcDRRo8A3NYWQGjctH5y/rUKaF9YdIBguNEOiE2U6h2CqtONgsfvFr19153wHM9syRVqwsD8ShgzM93u9g4UMrIFTgCGVhfwI4FbyC39eFYZq7noQeAHp8cAnQnCNQ2C7P3newC/GD9OPmUgd80GDdx2wPHmVugDy0Ok9IgByJIa/HHnuMVyeZErB5GvANXhzEfHg8LcGRhpOpYUQRr/Oy23vTpk1s1diyZQsxFGeI+dPLjvxs82DDDOZbTNS8Izs86yO/i0pxKJ8iBC3Blhi3QzOhYoMHL2uiriPPbi4c0mJAj3jslaIZcEQPO5T8TCGaBxpDXUMYsrWJmQBLE7xmymGjvlAwhH6+t4DRbMVh95GfMkTyLsnny5CWQ2FJxY55miVzQt738Acq3YYHsWUOg35YfOBVhO3btw8iW+Lx3bPwtLj+9OKjDhy36GFpAvlyEVh/8ReuvvWuB3Kja3Kjq1v5sXZ+hLEJWz0bFnhDhn46z4cj2c0m/KG0xkOYnjDbArBMKZQ4t9ZjszrCSk34DfydL/9BSGgQn6TrkwCBhoAr0GPwEyca10McM1Dwo3QDMQ6ZU6BRYAB5oDkkt+EE8+UzQJzZuiC7wJNAugAeT3Uo3lwIeSrihkt75He9ncCnN+Ay+C2XxGgECvUVVT4BrWNEOFxQkHDdqlWT+55fue6kb93z8PVbd174qg0aJ7ssqMQsuyPTAJYh2oQ6O9uBw+dUi+Xo2lu3f/mam/ZMNzZuPptlzL3T9XKpDLxnmMfuIRAPlKUTlKP66CEdu3YgWKsrdlsh3wK0uoVruvMShg1lXgD5Ki1PEJjePv6rEYAvMrC6a5s0tNqUKR2cnjzhlC1PPPbAl666fuOpP3ryyogPfdkoRfvt0M+R1dtST41x9KabbgJng1HwOUbGQRhNqK/oABeOWME5poEYMreyc0wN1lCQGbAelAbQdNDclw+REJCcyiLM64YYO9lmAwe2lPQmgRUH0XCSOpzZA+PigRSHgO9eJukYWohnjU9ZsLkiD7ML5gyQwXn4Vg2QHFMXcmcCQHnZR4R4w8ubzv2ww0iLI3kIOCsugcIUhB3YWL7dDEyJfAZy2NkdMiFqdE3iOzHmZ17M5fLCCy/kDYc0h0CTjgxh5iq8bM2LFkwvWfnp2wwC8eEF2O7P69eAabYqAawPj4nrH2mpbhoAoJyj65kNsoGexk8V+OPAXddM31xowHC46KKLWIbiPXLOCGIPT9hR1jfJ0ow8BLJ3oUPF06nsbXAkTvQfn778m3fcu2Ldxr0zvJtXYFM970jJDJXlJGbt4c7nCMdFdgxvAJ/lZ2v9dsfRvBMx2uHUeftQ4LHHpx/UFQKUg3A/F5eQWx0TnQUtOHpG6dK7+bGq4+c9ibXf4SOnhDQXAn55vPhB7BDoKk463sP4wUFMeLELyyk2ZGGdlPIKgTjfMPW1AC9QCCwJKzGQc1Aij17GvoWN3SjDEMhW22hs3Se+cOUrzv3lE4u8xb7Y4r8Y+bO1gbkU1YaZKF+O7nu69ZXrbpnik7LF8elWnj6TcSWXz1VqldWr1zbqVbduUIH2VJKUoD159mTST5oS1XsOfx776pphqW/8fJvuQoEh+zCV+h0EyFoxY0nUbtV6MfbQjOMFjFx+OlPcX41Kq0+868HHP/KxS//8d/7XVAOEijEIYmz//UvXt8jHdST2y7//+7+nFkCooECgNrgKaOKQvbdobB5gy/J73/tecC0adnzjZKAljNaAY16EJYYuxSFOLxNiQDYk91wIw40d84iBPKDqkBAaB1KcdQj6AbaCn8BASAuTw4D1zg3fm0dgDroijNkVkZAHH2GGzBzIGjJoQGMcq79p0yb22bPmwDuvfcu7UJGhXlz5sPWCoBAef8LIzDICsnnRFirfIXxcmZ4duBZtcIQlkrzpTW/yVDQS4pF8+DQDmdHqW97yFl4tpS3REoZ/DGuISH1voRlaDoIxfaWRQ3MkKvKWT6F4P4SpAuskrAnA0Cso/Vz0FQYyJocnnngiM0nWNzjoiRc2eAqORKS+GS125EBkj6LTheESUTCq1PLRf19657W33csnZtvFkahaa9TqvOOU05Z6nSwFvi8IXzBg6ZwpBirrwRV0WE8srDDWyJcnFwJ6u9OjFsf3gsyd9yBhBvFx6cPdECBHwu48HGQgMoR1K31xxOGg2LlyEiYcSBtEDYFB4s4SDGQ2pxvz5TNIe84ncJsNuE0xqYLZeEIWab+z3pyEPgIiPTGJC2EPuDyEQwBS7A9NPUucN5JvZxsgpVy2wVxuYnqmXCwd5BPr4+seeurhq65/+OffdjbKARktw/tEwQvwS13Q67GSWeGMy6yWNP/PJZc++Pgz2dFVxbHxaQ66aLfWrB8vFGWwz7YbvOvgiB2Yqpd2gapxH9ktjGNYr+vue4OvB9EPih/EaTB9/ycstNUuhunm6n0FMcL5GkzQAIc4MVBgxZciaLyFsdV7D+zasOoEjnDdeu/919z2zEWvOfVF2G7Z187MHEQFzsDES5jtCsCOgK279Aw4gwyQ5CjEqwPcRqtjIw3QFjyHWZ1Ug2tWLMkCR0LIgEFww2ZP7qwhIAAoP+TrWbC3BKgHhOJ4R/A09mm3mgeyOQbgRo5wIEC+yMAlSwHogUvO6kEkL/sQWE9ecEAYYD18EJtXBdhDwin7nGw4R0mOkIx8cYEJsJ4w9QjEpIIIU4o0QaBc8AC5oEP3URovQmC2Z1XHcTkNAyXTbBzcD8rdtQ0N+7I4ZIYpHHh3YZG9NxgqjgbmZ+O42INEmmM8Mzp4ssmeOS0BUlEKAjCnImjYg/jQhpljsEzBS8NMD0i1IPIMym6R4gcie/KjTeAIUDCeLhzfQL/prt2fuvyqsfF1q084af+BKQ7irzbahahBZ227bHg00R6gXvZDWLRZbrUb3IcZDB3fw1NZJMOE2/eF9mcfijkV2fnMidSI5k0/gPUgPlYspQkEIeCcuPQY/8WnxBblEQPyO9bRCBfk7wgkNdglYKDvip/v5Xz5DBCnT3U457AbJ2TUEUhKjdghfr5FODx6f/RImw64DMSkhAEBZpq8QYtJk4327G3QbodWAXNMM5srjU5OHSyvWn/Njbe99TVnn6pv4S27hdQAFYHmaXV8YW/PVHT9rQ/cve2hqLx6utpcsXKkyCECgHe23rYao6VcZXJidHyFrU0iA8uTql1JE7daA/OK4Rh73ZOX3LPwrJdqALORok612PSNQfFpmnR4EL3Lm6YcHrbXZBFLe0i83aIQX61VFioieA6xNT5wMF6+NDKyakOtNVMcW1XMt7/wxctee+5v5Ed1/OWLynFqJJtJABkoDWwBSMVHA7SlvnrA2MmBfexx1zBdqZAQMkAk8RwpyLmWnHLoaMZRTl8mRDrgI1Ngn9cXKJmaIswBkSB7+Ds8goAwNnuMweAnjjB3noeH7EkLN3gS8LbHJdMG+DO1YE+FF59bSAhQ9rx6fcqOrlxplJrTYOA5aDrUm3xBYhAS4fFxiIrA6ARJ3H6PbNxdkIyGMCEXnCvNA7w+iyQcu07bANoGbQ9vDxTBwT2ti9rnwwKg3iH5HsYtn12QEF15oyJTbwnz4kaJKIsXB23TclA4R3DCH4amD2FTys7lIM5OSYOhSXMQKktGzC0x4Q+iX7LxWizGmRnPW5v3usQZVsfGJziOMTCHUepgO/q3T/zPmpPP5Ky9qXq0Yu16egBNDrR3FDLMMGaHUR8uU4xYJyOTa5ZrBjTySBuGSex5EynjjY9oSqmQXTorsSMiiKiLhNhuHdrTSDM/Z1OTniSDmoa3mdB0QgAGhP3lGtLGAXSMnriVKkUq2JNrHIG2ukphl92v3IlMnAfJGthrR4C2FLDVlbf54ulWcqiRBmLJBBfNdwlBQCBHpbV5l4IETIRVEWkf7NkVk7479/B8+YQy9QQkuclvhVFBXNNSXTpe+56JYZap7wSpkFZvtm8gUTuJKbhqAT6ZFmedBHZWNbrn3AmkndWTGruUrDSmbfOFeBJS3aVh4GPDsofFfa8nhY0Du5jFq80BpjlWeW2nsj16Wb3ZVmlrCCmWS416afdU5as3feeX3nGuHQxuDcPyUvIgsYIeoZBFe2Ax/ZSaUkE9EYhCMXHekAhQcItOExrFAE+1Yo4EhKXOJMbjxdlCVueEtDWmr+tMF6gYS/haKg8DmDR6fn/7w5/8fHn1Sa3iWKE42mhynmZtzZp1NCDsiKNjKzDr2yzA25tq3zNP5Yg4aQmQV+2Rgpsa5KsIPBVoqEsm1OXtIcVusYNpEbrktqz1BEn+jrlo3OhVvWreKo+IdbBTplGtA08P7J4oZ0qtdvG5A5Of/fLN/9dPvd6gHO0cOr19a51N8jRaTi8wDzjFLgJ8Gg/PspcOmA5sHVJSiMEuDmRBMCTEf+yxxzCyAps8hrtDwDc50mmA3rzROnAHIZEcn6yJDwIQBu6DotgtAwHxpOXVzCH8Q9reQOAME2fF4euwwtzu4JJIGhLzEygJ9HIghjIiD8ZpmLDOwIkrwFki+xIvYCQiAaORFi3xsFNTZEoMlnI0Q0FYf2DnN1JBgEgLmPVcWJEj+7WAy25uDy2KtAiZvuzi5k2ISJ5KDOq8s+FtY5D+u5LP5ZIskEE95OgoFceepcObidFISOjInqpH/ywC+HcYUDtlxyEPefm8t69slIu6o7Asc23atInqY8GH6cHhidQ3i6MTmbdjrtVFxiAh0qtgci3eW2JPfZMDNerZETbhPH4g+uSVdx5sjzTrrNnxDdpcu8FpoDYhtuNwSKT6tkcOVVqXzW77GK7Q9BkBjbU6cq8ArsPzTADkqGM9hHsFpHh7DDMFnEgVD72y6mv80ptXJM0AsBjglIXzCdwGtbzMLHxyWWLf5emIspwkcix1x82kKB2RXIACQ1QQhgAKsbsgRlnwJL0xZrkUCyvbuHI6P1dNj+FecyLPNNV9kQSnsmtsh5uVWmo2fTR5ES0uBI9xq91AR5w2If1lNeNyhYQAKg5yKqAr++Jli+UXmHsWpna4tMEoIHU7UlEvaLYy1E2L/9l2ocwrFoLBJEv5zTrf4REi6fL5bHEXpadqIHI/ejAroiBsl49Fui99R6FSF9qkm7h0vYQwNz0c+4amKKH++IYyMx7qhYtGHfXyjNifQQ19iM12T5KFcokz4kc1lsJfthlbudhUgfwE5lEb4BBMY9+Ao92rnSiRm4LdJwo1wQ7PtEQyu+K3wOKuPvBMrdkWhwbHjLTZGdKqs8WzNMILQeWVK+norrr7ifMuOPfVJ/BcY0Oq5MqjyF1vsncuatbbIxzFIQ5e9XFTC2Uh/8VwlBJHlmZZmM1B2TNpYpzGYoRIaIf6a7abdVo1nQ+vn7I6wUQUhehhgrL/80s8ytazZlpPPOXEm6zoTaY12jG+5rVEu0hWfq4QTbVJpOvFr7kbVy7RLGpni2wOBTv8v//0X9PFdeU1p+3as29duYS5o8wCSnWSr3GPjI43+Wj6+EiDL7GqV1NXCVt8PC7lCJusCkoO9lmxz0dvRJMdz16OrxZkeNqaANxqZUZNIEy/RQ40zvIcqS2KrTPnVwHarEeK0AyfxBAYKcki65EiTVKBIBkpGQW56+MlPRiO3c7QIKY7UnpyaIjTy1ZqyTnkZ22WyuLQcyaYykCPDAJb76VOXeJTN3qyiTMHeanQqFX2r1y9tjo1zQHKMwfzN9377KsuaJ+3OcO2Bg5bo/WSJ0eps3OHRzK8zeXyvGD8Wa1aVVJZDA7DYT1l9yp2oOY++AYHGmYrjqM0gCZkVCX0+ABN0DmwDyjDXgtgMccyAkOxxGOtxEZLG3DU7rpFDPCrx5AESzAEHKHoEpIXt4ZsdRhUQd4akYcHOUgOMuOSt3g9O+7SJgNzREU8aAh4EcBz4E6O0yGSIuCjMTQJVhuU73zjKTtN3QZqJSVfZjLMH9AV596gDfLF58UGZENaKF2BfEnAL5E/PInzzX2+9GjPGxIaYJJG7fDubFAgt5AE3XpgEPNQWOZv2LApFwoH+0LvBaFeCEDmeQ3iMyieVHBADHx0ixtEOSQeJl4ul4GWSZMGwfNuCWyRzYVEzlD8Qdx8KGGBgp1LhKncwxNpEP+jE6+DHazb9ZFLHbaeeAa+XFSdqpTKmCM5SS9itr7t6epNdz3SzJb5Ujh2AX0vnGOq+BaaQJONRJYQFl7fdtXfSzKNRwWIvD4YCTS4ccFQJPgDW40XIA7dEWcGAkY4Lpva6KOUBVlPbXDiN8E/Gnq5qzvdvlL1xrsEXfEadEyyrnhxGBofuAEZSCvJDX8IHhIjIGHFdMRhBMbPQt0eWukyNXZS+FxF0yLk8nLj42Tc8trlQjnaIGG3ej0Xk3jSyi5Iru54JKhinl24G7CkBmDElVyGdXaVxVKkfHERZqXuUr70qfmd6GW5m/UVUr5Gn/KZ4XVReirl149eHOzwjW5f85v4HzTNiAmV8vTYEOPxStvKNNoN0bWgBE0QJ/QsxShr/QExeDywAtgVyByF64FyJ/2FC5G5k26lSsEekdhrhVr0ANagY16DdTrRSL2xrxRJOMTrnphY/20U1rhz1HpppAwYLOT4RGJDk8lcacdE/aZvP/k9F53Bw1Qqj05WmwV9SE4sioWksnV1VJ33NpKdbK2Ayt7E4RYPT/z8mFBBiXZ1aC/VSkXsCgzJQgv3mJA5+aZmGlwpW+66qKm79nCxvEvTyEVfuv6JHQcrY+tP2zNZ40gitt9ggCYl8wXnTONAhGFFSBc1kVIyKxF1KLXw6ImbnmVrb/7sJ8T8crYmk1GeWYuTHgm3mvr+C48/A1XsCPtqq7og7cFwaOW9EJTNGvYbRzBsS9VUxMZcrWtLE+TL82B5aHLqAUkpgWBJ20ZGm525JE4i39Sux05tX5lLJbBybnwCpd6sNTPFBt9hy4018vV9lebdDz398s2nM3eiXhj2Of0xly+RILEazTJfDnVpAKAJlGFfgcNljMcAdyAm9mOspJhIucQRDyYG5QPoqWhwG8bOzZs3X3jhhQBr9ojj/AVc2gk4yYcS2hIcoIeYMA2NXAg4TZckwy89uTc/p4QJSJSwn8/IrAO4DJLGAba4xIHeXHjgJpc0ciAs+yg4X4XdQaBYhEfa1772tcNzn/tdlImQ5IWKyI6ZA59AQjCOdgHcg57RAPkCgtm+wiZ73txlOxMwEWK+FMYJ6wSODlJ0ZVIp6JYCki8+AlN33HKfGALQeIX21UOoFH8VmEqhavpSLoVILxezKReS+vLiezFpDH45RFSvHXQCMWSwGkK8ZG/J0BJ3zJKRHtlxmC5ynNTGOJKVleap51pXXXvdczueX3niRtnHzKEsd6K2JuKBrnCITAdCc0kH1L8zYkV5WZMAOWZxM7CikUSymcULMJRhvYCxjk3FSuBWfglLFD7F0GRDw4vCKZ+Rx4zZAmgaWILPPtlOSqUSGz6O6BOKDj5pnh1hDW4o1Hw4BHlsaOZaQvPBXQZfhTPAAg3DOBVCnCSwgwmNoIlL1VES1fnragzK7LxJlrOwPh3uIhO0VPZMlsha8w//sW3cDNMgC/CEIlGKC4cVhRfgqJkuX3M+Dd+dPrwbSKJCaqaQ8rHN63xr0ECnz0Sgi9JTMWfoouxNm46BD/QIHaei5i2vECMzI5WQ0CiMBprtXKvRarbwmUhmW5w14+Xu0pxdDoVt/RIsQJz0SEOVL2hEgArCpz6sF1PD4RbjDYaWW2677e3nrDn3tJVEyvBk+UNBxy86PTQWNetRWI0Ky861hB5S6uICNKNnYvve6LIvf7XWbI0Vy6BovrbSBu8bIodGtSM9Ug+qo7k7erxcq5bNmI3fDBnE0BtTK5isw4eunK24txi/6xxMpt1Z7O6t6eOjPIHFfHakKOMlWeOzVBFkqLNeQzqbCdCV8v1KH/zAAcQyeSU53FSEVqZeE6qz7pB2ptZC/6kmZ/Z4m516Ib2cEnW+ThkhT5siE9Smsonp3bdvvfPtbzg9U4pGCqzg0eXUQPZIJ8TS3WLnm+ELnB4cTAnB8RxsAmQhAAClEsHxbuoG5WPaBIaynR0A+sEPfhAkDY5n6wX71NE/1QG48Q0MoDrSBmBKs3G8iEHam4H7JJmvWklIS0unQjBmGsRwGD9mePJiKoItlrkEkgPoocfQC1QFyvN5rHPOOYeT2oHy7IpGYGAot0DVLu1CgVE4wxBYTwCY/qlPfYpD4hESDfC5AE5v5Gh21EjWOGAl+UKJGEw5OESIMDGHoZ+0ZuYYRmOoiBzxUS/KxKce8bnlvt8aLo/fJQkNA582AM85ynA0yZCTQpEjQtJ4XEhvt0R6eWm9BAJlX/HUxZmj+ry8fcmWeCSftVHfSBedCBqP5TyaPMEzU9NsGaUar7ruprvu/s6atSex50PH1icONQUHB8IJn45wiAyBdGMKYQI26AismEWIxXLCDB9CVRpboLABB7O9TKTsOcEq7N0IEUmHwshAyw15pQLiC0uSAFM7fEP24ipoFPskjMfTFIvhwVkZTJhwKVbmaCv8xj6/kMnTKaqBMwUy8b2nS/d30MySBfp0QJnYteXmV3GLJ5pr6ighSaeLw0IMImNMF5lklRIwlEv9DN6yrTHigwKoFsRu1zFrp63vHs5hvVYFsZKQ8tF5vItm1lofp9UunT58QNR942Ud70ffK4nHBD7IToz7gYPhfOUe4lmKIEw8vQQl0CuAKjtpQTRxFaQrxh6jPvpcqKj0kzXLU7H6s2pFPrV5r1/6NXq3jO3QYt8CoxE98vM79379pq1bfvZClhnKbLZraG8Dn7fyvQ2kVeHM2cNziJbmlC88HxXEqkxpI13XKeVkmeqBPr523S1PPbdrxYYzJ6anV65aPz1dGQNNg+ZpolBTJfHzzCSMx6GPzvo+kixwFfT40Ayt51NfxzXPFNNSN5/HvYq2xhlbJmyWrdqEWVZ55JqtKq1XMNufZpcfkXiciVEnRO+DXYHNP9kcpiob7/GY6MLD9kJZnw9Fo1mjWYANZKr3ubLZ72FOBjCz2aGMIoTNi7ujPmUeECXBmE5Yz0G7Zebx5FNPb73nsbe9bgtF1IzbVgkoBaxNrwMYLUcnBm82inBeIdgOKAxeAa9fcMEFbtvmC0oAYnA8t1AY/YZD4bTySEJt0oHgfBuG36WmwK8k8cGLS8hwvRzS3AaFPXm4C084E8nebs5jcaBPw8AeD4bGLs5mCd6sZTnC0WpISAA5KSMBOLgPnzTBYYe9I6WMV1xxxV/91V8hDwK8+93vZomA/U5ecCSHgBwJEIMMXHpxyJcph6v6sGWYY0KXwX2SMKNApMOoGjiQHB+x8Y/azGSOxexL5lXAra56D9rom4pIElKn+P6kEKDheeSgJEszXsOPzVDo420gZ7tUIulMvV0aG2UJ54md7S9//bpMaV1pfLzGgfXW9VN+nCsurT7C6cuEWZ9fbzHcCAERCdozmKnTtls+pBkRcLPN1gg9ozwrBNiHU6WlycAsRxnk+1Bi45xFz3pAt1wrD9xkSAvWeg+Tb1eM4lkjyPBxyXnYnlyGWWGSYRydaBgVSNaEwn0F2B+P2Uxr97ZQgfyMxaqUNJbwIsTFnC1PZ8gKHvdfHSo1Mo8ZXjUAO9c+n8qEngFfm2SlUR5ozbG0dYRCMN8yq5oKR2mAL0TbAnvwqSkLk0ZljX2fC8RQVAwFUczX5heFNZVL+7CxmG6/KeN/B2U6VW848GF9gRzdT3GmBIonRiCJkOWrCRc1Itu9NS+1PchY1wrVM7RSpJfOSlroKz2tSKtasRZGIBnDKA1orVAqci4t4WJ5lDfhb7z74ddc8KrvOWslcrMVP88+nMZMVG9EIyuo/dDQYbswI+FCl3ex+VFqrzH3gxKSQEd1oy724dz32MEbb7+7MLqyODq+f6o1XihMVyuZXNHrQ2tLeupknpivUnlc8m1tSGDuTFU2omyDNSS1Ry7pKPSQtpvCDWal0AZFsH+9UqXG84UsqIs3yng5AaCTB6ILb7BYyFZ/XsQxNNYU8hATNR8wOb1/IZvTPmwueRMThrWKrHT0yjLWFgv5Upn1ORHgUzSmuZpcalHCfLoDBLOHB7mRK1HcXCuurRdAGWKa9L309thl+XbvVPubt9z6ptduYQGVTqlcGqG7QQQ2BbxQ99nPVV1zoMPUzeGPfHwHKLx582YwMajFgW9IDVzD+g6Coc14JJXu+IZ6J0DlhlRgHepI1U2zoRtJPvlJGBTLZWA7rwAM0/Tki5AIxqk+b3nLWxB+06ZNvF7pufQiVIR0eRAPG7mzcrIuzulc5humgEjFeYgf+tCHsNMj2x//8R8z82F2Qe4oDYZBt1y6ARgBCJAWh36QMNDMV4C503upyQ7BCCMkaWkMKMqZEIk7JMNAw3sLhJHcC3XIhEeZIMhJgLbqTZR9U0EM4l0VgTLcCgFvRZCRHJ9LWNEID7tVB85HOWAWHs9TKIRnEmCpQV2jUE7nNDPn/T+fu3zfTG3tiesPVBrFcbboUEw5FOQOBgTSovtlV2SaAK1x6X4IMJJlWuRJ9rDTaAN4QyxItbPLJLRFbes7NMDxCiAITym6WCmq1wnZq3BC2cKXsz4jRleM7oJfGU81jM7V9YrhMa4KwrQVHAGcxmOs3s0Go5iOLvTJlWUl7SSuQ7NJZNevuJkSFEjqQnkY0jM/ZkO4K224FEBU65eOgQDaiuLCYo9r1BEPuZnwiIPBYOWoBmKWeax4Kl3Kl7WcMSHto0tmNWDK7n9aZe+O0zVa6RsPghkQ349Lig8HljiFc+Zw1pBLOi9KDKX9A1XxS2sRNNK80OAK2kzVS7/BDDVDMVDZQetzCvR/lFRZs4+edVzxJf0vVQdrxkfmJwzbdMeF8vjO/RNfuu62c856a7MRrcWs1QLWV1nVpq2zJEMClxrBNWfQ1ICffqWbk9THPZFrw4ohRK1A3GtIJ/RJU1F09c1bdx6YLo2vqzTaHGo5U62NjY5jILHta+rHlMgeyVSDEae06/tUshfQukSAchZYT/YN9Rl5jG82++TZYgbd0A6dZo3lMF6x5cXiIqtfghG1+sHpSr0muB+1JypT7Ly0Taa0mHaGx9m+tsi+fPWIzLztsRaa43lot9esWz8zVa/VGyDr8uhIGeDCvJC1+Oo0L+ZTHIz4mrToTWZrM8wCvPOwsYN+jbVdChhWgdKFHRbWV8y1Jw6+1vdH5J/PrHjgkccfe3L/qi2r7fUYe/o1DA3jtHwPDbDHhq4AdPLWt74VTB+6EcAKd+NmabjT4RrQU/o3ABcUSJvwSI+xitY72SBXQCqQ0V9RJax2MWsbDAzmGvAadf6wZTsQ3DjO5Z3vfCcsPBcCAdY7pXPvag2hINyFiZfXKY/EJ2u+yPuZz3yGwr75zW/+wAc+wEoIonruXnbPi7DDd5cWefRs2dCP3vzWkUhyyLQuElWPlggzDyHAmwCI5yK5tGkd9uXpfKhZtnKRhErxSUJf4mMe6YVlouWzO3ZtBZEo9SGbAcV0hVC/vLzBJTvTiAlMjpeA78ZhyLBBC1+rqYTpxBVkofmpXdE3br595Qkba/T+9O72VXQq2x0ld+cFJhxKng6HyBAIyuoMCNmziCVMpH5dsNowVZYTSXyQwBQME6FPnlg0Xp9mPLOYWPvOMLANOYomE9UyFSFLQdMOn3GoKwYanMrcr1oHlS7k2xVAXcS488cbXwNfu6mttC1eogfZ62VgjbNJfUgASRGcSnpIl+TjUx6N2EHadLgfH3QghWtZwWA6QmaavNJQb1Yr4AxhCISTTZtZD0Ov1EiE0Dv6S/mC/p0xdjfBRfAX5p/166CJPvSAEqq3g9JTaR9QP/q0DOmw7Q6S3LRrSa/JiZVRHjEZs9S7rxijU02YEZJfrxmwhEpMpcT14mgvUaVXXGeVJfcW55eapWHBG/2pIpKOiXU1+l/tlqZ0OXYusfSEgbncKq+5bdsTtz8w+ZqzdbiBNmnwTqK3dWt1tDAwvTi+uJ0/aUlV0laIEBgy1dish04yir7z6NRt9z7ULKxo50eqzXZ5rFxv6j1CLOTqN1AvP7bDTfP2VPc4R+2KBxWnFqmFI3WJLSbTPBPqLhzTZ5sV3jvlpVd6zn3794xT8QiAVb4yw4S8VCqMlouvesnZ5f+fvfMAtuSo7v7c/NK+fZslrcJKi9IiIZSFsoRAKHwKgET4QJivCttgf8bYUFR9ZZcLu1xOUMY2hcE2LhuMMVgEmSCEIkhCOUsgCWkVV7taaeMLN9/7/U6fmXP7zg3vvd33Vm/F9N6dd6bn9OnTp3t6/n2mu6eQWcTWmyNDw4NMPpaZNOBvPmeGZFAHnxwsFkvsjTJerJSqtQ0vbdxZLe6sTdEfNxuDjWqB3EvVZmZoMV51PCS41cVhLkN5ID7TvpynX+5iWqGUlOEIZeRsVkH7yUqZT/iK161WYuFvOpMfLI6nbr3z3rUHnTeWkTdLbtzkzEkms81jVgrt5czM/aA5sI6WCfd05tKfu1kivZClD0MpOtVBDMHQKq2FUy4RA3jSr18xYYZ4hQRc2gXkSnKzNDRKIhwwCpRk20FgMZnq+wT6NNAqzJRFM1WEajEqB2Sm8RDoY158y2WXCebhrF+/ni8ZXXXVVeigC3yRhkHICD1VPWK0IKiBDjrSgIZhDpXpVQoU01sJS8LDkdn/EKyyQBPTkBjl7CWHeORQNDSnFaE85d0D+vfRp/8lVEVJXWVBqVls7fOrNfyYGE0xtda4X5jAhqj5/npxTIG5OsWPwxNLn2IqExovDLUp+7jRh17zk1szI8vqPLdqDTxSYhr+u9BVCa50je8aiRE1vkWItx7o5dCX4CemwvCMxIFcdcgeGKPy3ZODXqYaubojUdxPItNO/YxBcDhsJQOZq+kfeVLFYrhKkK1/whx9Qe6h0hYRnlCQVlk8HVq4ngLgbxa0yiMf5YH1ZQfu+XSoIPtYoD6AFxKvILKTI5ag9ymK9a8dZIOjxfRk2mi6/SarLGbIAu4ZQbEbt2wUI09vmaXTlD3UHWrEknFkz6t0GSuBgduOzNyV8cCM+RuZHvPv6wCcNsmdebXF4EDROfQ81/xRh4wcXIzGO0AmZQHoc0RP3vkrP8eM1BRbM8meJ9gqgn1qcc5aEVJLiA1bd+8q2b0rDizK/ao1aw0PqXRwVA7NDFqfuFwVX29+0dZtk//9g+vf8snL0Y5vmQSM7mtsfimqwE3kPGstGS3QIOCbf+FABzu07j61ijDQpGEQfAmyf+DxZzbuLOWGlrH7UDo1wFNzaFhW1+Xy7kN9Is5rFeqcmHHhZRERdwy16YZv4Qx7mZFIXXKsgebT9XKqVkrVioD7TL2aL29N1TND+bE1a/Zfu/aQAw9YvWzxaCGfKmSDgUKwaDgYzkkz5SdiWSwf9f5a6VO1YKoclDkWg2I5ePnVbU8+tf6JJ558adPGWrmWzw00cemm8/I+l+8TBjlaYJM9duhW6S0Qoa+NXL8nt8Dsg3ZQGJCxRzZbqNCP8/YQJDI8ev+jv7zi8vMWD0ql5CgA2u9aHrPXau9NARoGmuCpZe0pVlVvK0CTFqRBi0YXoZanx9CuQ6G/8kg373niOSWeGObGsGIVaXyGFsC9O4DPx5cIRyvkg8+IZ8msxqiq0GjLEdTl1wucBI3UpbfoKXeiCxTKZ95lmiyuvvpq/Lh80xfDqtFcc5XpSVjAYsiRIhCIQQXsic5MaGE+jPLssg4zSYieaiXyIl+OLJCAYOW0mkIjEaWcfWSqBBjYQAmZuMM59uF/TS6ZSSkOCjjnhiy0wO/uF9DY+iipPNQU5aX6dAJYH/6FeYl7Q5/m7pVqqKN28nLh5YkAj1Qjy9bX8lKWQTJzrBTZU7saMISGWAlpOsTAw1FpjhqMk1PsTiCGI22OleTcnKQC/bq577UQB/Omz8mJIDKPX+d0IoWsPpWAEDQhLUdtvpaREqgi++ow76PDZ8+D2yHOtiPzE2puikJMTp9TStT1ald9Mrxdr2xfMpQp7dw2sGwEzz1l1JvGpLQ9vGS00RZhedEEoZ0RpBdmSzvubJSRqmlPEtNQT/VIglq1yF1R5RVJlX3ncqlquVEu1ivF6sSrqUYFcC/ebHRkTzrBHNkKEJ4MBAMrEg6PsmFRp5XF+6gWbufujdHdm4EO6czQieUXaSALBQVSy4jCP1aREfH4uvaSX6vI4MXnhK41i9Xtr1bl9YXYFE9nTkYF3BxtzxirFLm5XEViXi+Et4PH1iJh40QqLQpK+zHRFfnLMEswjtwLMgqRPy5LsDqisjlZ3U+AwHGPbVhOmR9ddv8vnrzp7ucvOYk39YPB1HjgpqU6TT3ZUtHxOO/y/JJyN9OC3Iw/7h35oi4TPJyvrmvGareOS+gvlhTjh7aRDocYDs4wNBPx/LUSCnbnTMC9a+hylFuLIAYhSC+CJXF8vLA1+M61N6UGxqppYK5440CjPOYFjLsg/mxXlVSfbENG22+/hduydnqGKTU5OmTzpVIZX2CKLW+YPIozoFaplUsg9crURLo6lWef//J4dXLHSCGzfGzRef/r0oMP3G///ZcOFQKmWg4wTHEYmDm25K/tliNBdYw0lZrmx7rqJVkpcs19rrh20JKTjzq+mTp+YjJ4+OEn7rj/0dvufyIojOL6TzXYeR5n+kgun2ULnsrUZL4wyAZSgBu2rcS2w8NDgBj2XZW8ovZsRKzgEY9MEUJNhPCO1sGyAlXhFgekn92w6eWtpeWrB5Ao5m63pBQpCR0WAHazb8y3vvUtPN8sPGVCi1t9ITAUXizsjCwbInFKrfH0BKPDow8sYkClvlSrQU3C6lua/U9/+lN1VyuwtlGBMZMLtCZRHmSimwqnMXBVc4eAGU6OTCXinQDDEuMklY4fTLLphuaqPM8v5ZG7Jmp4XFJOzUvjydGSz5AA7bHVJpP+cYHrMAlDaWO2LBBFGa2YnGpGlAJ4TdFQTN8/dGaKYshRHtiUgYSaVyd/rxhyJ1NNiECm0Jx00klf+cpXHnzwQRXL3v/6vsXegVAQ8rVUKplTkiON1zLMWScJoxqqxi9dLx1mGE8W5IsNlZhhqhibJqdoWvXAcfSkdT3++OOUiyKYfC2mJSeem4IWayWi12L0wvHRRx+lvpjDpu3ZkuwVBIhEn2rOtyQkWAS3OXgtPdkI7n1048vbpyaDgRxbYIISupXJbp5uF1txWJBg5xiLvav0HiYSIdKqUumBwdHtO8Z5kA8N5gD4pYkd7CI3WMik2I85kI8o4TYWOOPWjbEarMYec8y0YG1XjgdfwX2fmPfCDOgZsclDwj/iYco0xc8Ui/d5fBps5zZ8nCk/ad00oS78rGDxJSsNMi4Xh5cuGkwty++3ZGhsmL2o2WVUHrpmKQjEhdjCzNeb8I3cycVVv77izDyu8VGXi+Bu1/FX68VStl469IBVByxfW2gUs03GHoBzcSXyRSQhZH+6LsHPpe2ym0bVFjOnJ/ESRcJ7xUfX43+76s9yxqH08W84ZA3G4aFQwNstxZFJEjQ0ram4oD11jsJ+GVV/jkZwVVzGmUypjv9myR33PnjqugP2GykEBdfmZFJOeLdQOqn9hRq0mH5hobWYc6EyQwDnmHf3IAjeDdqoZcgwTBXLVTz0+eCRJ5+rpQeqLJYNmH6jIEImtfN0dp0MTcKNtqKE/f9aiXxi22SZx1IqU+B1/lRpnMn0AO+hdHPilc1LRpjdW5zcsmnJUPa0s0542zlnHnpAga3nh53GtEYGQ/mMm2zlKpQ6pRji16AXFVWsj4GWCHdfh0MaXpXSESGJtRiUYVk+OOCsw0895fCrJoJvfOend91zb6YwRF+9Y/um2o780OhYJptrVssoifLyQoGv7zENKMdCDpdTVEFc82uKU7ncKzBslkBvg4GHmrnBXz274dDVa0GaLhkD2bCmeglI4oEmfMP1f/7nf26//fYLL7wQrIxNADfgGCqCpzCBGB7EHKkOw9DwcImHcn8bAqGYBw9+euSRR0499VRSgRQBRqQCqCGQ1ksw2NRLGjzwa9tQnEcStGU7TnaL/973vvf+97+ftEA3tIIT/q6iaHVcRQeEaNFUE7/VdU04w0h8wJSR/XAOP/xwNRpHRZMzlDAtG5pTC8xE0mEPRZ4trNcszOwojChAOS9Y7rvvPgYnvAzhFAAGDy1E+clUraTZkS+nBDX1vffei1WBuYcddhiR05ZiDzOgEnZDc9WNNsAnnH/4wx8C0JlExAZQvPmhyMTDxisd2gZmgaZ02lxNYWoTrM8WpTAzKl6AhTVV+xB03VpJ7j6Rb1mGzLidmO/w2JPP1jIDzWAo4Js2OP1Y6Nkt9Cm89t3Wg0MYjWUxK22ONqQ3CUvQdu6o8naAPfTHJ6bymfog3ySsTu146YVVS0cz9TLIcriQXb50dP99D1y93z7LxoaPOnR1Ls3EVmaWyrSC7rd7pDOF46ePiyiu31/3IAwN1I9vV69hTfl6hHvi1svBWEF8UdWSLEsaXjSsqrZKJEvV1KE4TX5qYWdopsSENyGnWk0+oYKUHxovGF80nZycamYKaiZ8cczDWbf2wPeefwDbDfAQQByKAXO0KYjzbBp1FsRldJ5VaJm9PdlEOViEGzG6bfQiA0zWLbYzYqaZN7R40pmfK4KUSpFalLqmlrVCIQjE8HSl+O7Hiwv2wGSUPvrAL5++48FfXnT6umxq0H1KQfKEm9rkGBVfki/YQDG1gHOnIUai1oCyYYjs5izLDkICg1ijWuA91Y568N0f3wiybwDreUnGk4XXOu6LD7IiRUcEYna1ZXQfRpJjf7XKiITQAM0kfVmiikOL95K1SiFFR5eqTU1ObN00nE/lSxNHHXrQ+R++/IR1SxXs1lzj1PuR1kDHCO26eDfeCHs+Cqgtk8JFgfJIywHMq7bpXAZYTbNh7blwsycwk41yhWC0EHz6I2e9fMVZP7r+ntvuuJ8ZhLmh4fHJnQErcRtDzM1h6Mj+Objg1PeipqSaKJTLojX+1BgijYAmL2d8ecVGd4QdUY21IKz+zgyM3PvQY287ba1qD7O8lxPuqLVKVBLiFuALU4Dv+++/f/369YrsATQwgW8geP5if0XeEAp9uKqVwimE8sflunM+yQTG5YXAP/zDP5x22mk808FJHKlxHu5a7wjRtP1FKYKEE2XAAxzXrFkDhua7pwxLQPYqFrW5ani0UyvkqEec7EiiyFuL08k82xhKhyhgN9NaKB1PaoAgR0Xhs5XWlR/9URufutrNxiddmftHasVpnbLNP58KvvXWW6+77rrf+73fIyEWVhCv1iYjsqYsXIKwfAH0xPzkJz9hPMAEpEMOOaRPe+ivz3xfRW3Ngjri82Ts5cqrhoceegidceFTEK0mHYkZM/bRUivcxyxwMiqgjWExSq32mW/l51Y+3b7YQh8/0ocLfHTDd5ail4LnX3q5MLKkWs/UAtltTV4tS3/r/ggpob9CdkdBaJDsnG+AI02EI3bkKEZvNBcNFsbHdxTSweKBTHHnzs2vbly9dPiUtxyzfKSwz9KRtQfud8j+y5ePitJkDHbKsHMfD9R0+N4NORqs2nz10LzOp3MlCgH8neaIc4uH6jQl9DPoTXc1VE1nNzvEzEcV6W5xXAwO5Pm1PIS+zN6qUGoFBfpklFMXHNET08Pic0IDJDiirewmCq5ggFeaXLV0DFjPj/cOTL5nNQC2c3sYSaQiCV/N1ytNpTDk0SBrz8UMcjNoY3MnetGOcq/YyXwQ2q60EvXO1OrjqaoEyxz5MhFsEprMjajLY49vNdYzN9/9yLHHrFs+mMpGAxOtSjSeX6V3wxCupF3Q4W6IbE/qDZ71FqJasQYv0njcCvDli9x8ri0IHnti5/2PPT1y4FFNWTwqIAaT8wlVdoKUn7aNdtmcaU11RIcRXOUxw1EDyF7mxZVKfHYAV329NL5zcttAs7TPcOrstxx/wtFHvOmIMfGOspMMz2km3rjGya6WaMJIgyuowbw6dgbnkwYuD22kYefQGnxK1+76U9SWhQHg+bQsXafgcgo+54vMqZxskiqMB44FH7nixGPWHf7dH934+DMbUkGBEucZ4/Aer1ZPyeY8aYFU9bqs5aXddcD6sMCeQRyPKKYGD28uKZwowNT/dH7wF0+s5x6EodoIsrKfmFyWYxJ6WIDmBPLm80l4vpkgzpQM81Cap5mGDZpRAQraqDrFfFTKtDCO/TR/9rOfIf/GG29861vfqjgSqERC6XNcIAvkTyvKCkEiaHR4xzvecdttt7GfPT7jN7/5zYAE/IB9YL1JAFSQnHJZ0ezS7hCAP6Ae+rDCEk10CDGHsB5DIZZcqALTk1pQg1jMtISfRNPydoVVv5iRFcDve9/7qH2m6KgcTGTgFYK0BuuhMSNf2H366acpJhO6Zl6J0yo5fwyUiBcUp5xyyve//30GM7xN4usNFITikCmOfIqvT23Ki324pMrovcCcpV/+8peMhXjfBedeUeSYMaXTpOvktuPnHhDK0CiVgxc2bH/uxY18mKQhqxhxSMmaSLhijSx2GsuAU6wZCxpJQhoxk7foBbAyp+lmpbrlxaWNnQNTm6ovP7VmNPjwZef83lWX/68z3vx/33/q+97xpresW77vooAnyGAzYN/d4VQwwCMrzczLPCu6+EFkWC3mYqBjvww+t2ZaQGpTIOm0R5hJEhOya6eqXuyI9VEjx1PKgftmpcRm1HxjkS01uOSH6FHsx3Wn1dSxa0RqjBGxU43HPcZaOJ7K4qtjKlKTpT8FJtwHtTIaFpoB87GyeO/4NcV/r79Ms8r4Z2bHmqxA3St+zPXs+GXdTcImIYol+BYUX7oH2fPIihnccElH/BxHAN30x80DglIXPnlwNxEY8grgFFwqP+5h2decfYVSafZff/KFzXc9+mwJnJoLP9lAuSiJKwx3+gINYVvlj2vV7u/M74/ZFUr6O/cD72by3KzyPVjGtPxuv/fhgUVL6um8wFj5shLYmsn0AH8+maGebskLtDvDLLUgHMFGPGAIoGRmG3L3FdKNQqpa27k5M7Xl2Des/s33X3bVZaeccsQYHxPmiTQkyFqcBJUiUxZx1WdZhSI9uwO9Mj0/h+bcwdFPFr9qPUP4P8cgO7tCSGpaivT3DBnA7ez5QXFKRWbTc/vnmsFJbxz9xEcvv+z8c+pT2xkrBpVqAUBfrY3v2FmeKteqDaZJUnYrlxFmEGKUNsIuGUFb5fN5U0wzyhU2b9856fC8wB6ZkT9f9W657+0EhgWasGskGBSIfO2111IiGhhPXo5aOm1v0PQYHBXrQMDDo5mruiBVmWNHkgC4TzzxRHVzMideARNtjoQE5Qcb9YdH1gBo9iSBWdp/s8kXoHjhwByYf/qnf1J9kKwe1pgmeqpyyBdmAFxXnt2JBB/z3oN5LCBdTEpG/o7puyNZ0zo7yYodpvJTaqaFWHXMSjj1ggHV/mp5BiR4oNGfOvqP//gPHR1REMsXgrzIWmE9ySkaNiSSzwDzjoKZUYziMKxV1qxU2mPMlFobIdPPaJa88+FrweROM8YsNB5wvDJQNGOmUBSWS2yJw4IE7ACs50MQJNT7Yo/pPycZyWt6bj77uWeBSB4sBBs2vkz/zE5nzPIs8HEQgmwBKIGiWrETanoAAEAASURBVNBTF93loI2AowY4lMCy2A6aGLoejrx+Km57JTe+YXDns8ftN/SxK8/7o9+64n3nHX3mUUtPO3IJrik04MeaMBxH7rHTyg4xdAj8oidF61IPSnucmRx7CJhlNF1c54/hFOBYnspMMWxU5e05ZdPhU1QTqDiTx5da0pRSI+tRI42h/6VylZWjGcAr2KCGqzctz2a+fcMfVBUnH5/Okc1hGooIXNuRCy6XaY9ucCgFpHgL+wg0Avy0HxnnyWsitySZTQUF1rdj+i41pcV01pmPA7eh2FJGxaF4uzFbBG57F7jp8qxHBISl0uUgM9nI3nLXg5t2hLtgkZ4Sy/sY3tpRTpGr+DCUvAD/WKueO90ovpSd//wwamhXehaq35mZ+K2V4L5Hn2B0JLvEuCCNhZFUqi6+cwjcbCIgHvy7z6eVT2N42BB4suJuZ4nREibmVaa2b3p+37HB919+4W9/8PK3nbCa+Td4BBqlKsheblHesNE9DhZ4b1MulsslABkjOqqPi/x8+O7oZoHxXFt8t9NMhr0+Mqy8BmXx9qBWKfE5k8FsaSCoDKakN95nJDj3tDd+5Dc+UCtN7djyKtvds1LbfaOjwSopHhtWRnRU2ghOrdQ+gdIWGCFJFbCTAf2FczBtfjWqEWNKiN4WANUBX/jiLPvZ057Ax/fccw/soDd6AwXuisJhUzE0Z1LRAkFF6trUB3TXTEjL9GUgFASSv/a1rwEBldOe73pq1d1VjkUq2OIUfkAkxO///u+jCRN+PvOZz4B0UY+8jD9GKOinaDikFXnDQPIY2y6fUigsiRo333wznl0yAiKb6XZZrJ8QV7HeOMxBwvIxM/qc/WlqUG2OxeCkTpklf/nll6MtE3LuuusuIoH7HGkY8MAPj9oWi0FTNBhY5MBUHMYAH/zgB7GqufP7576Hr2pJKYjlS+NhwHnuuecyIYe3Vc8884w2Y23esFFGikxxMAjMxOvrLJgZCTCy4s0GxYdhDtuPqTffBIuTwqdX2MtqhmxdXA+ee+F5ZuTK/hRMImWBC9Pi5ZOL0kpmHrC4Bk0SnclNC41lMSi3h+4GtWxR4aSDRz/9v9/2uT989/vPWnv0iuCAoWA5TvJKPceS3po4scDHzrUsc0L4ORq/WCOFQzUDFmXZmPycx1n9zvGjOF5l7ub0xz5CZnuJHRM7f3w3CwTA/ioAAhauuhcnCizaaiOy9jQwy7dzlET+Eq+nRvS82kyX+ThNM1XmjVyGDUWZf8aL2jwiGNPJIosaXuqy/GoV+UgOW2vzNadGuvNHfLdfplanGufx5zTJdB5nmyl75vBJoNiROQAgecFwzoK0W/dXVp93qzDZjmUPBO4gy8VoCAtcDWnGY6lmPidT4NLZgVR++LGnN9xx/6+o2EhTmp/cGa0IE70wCG3Dfkv26XnSURC6m9wiLh53lz77QuXFzVureK7dy0Y1LxMZBdPLW5TInE4h6Z7CJjO9ghSHQMdIYK/fFGh6fGt5YtvKsaHzzjj5PRcfvWaZ+8xHtTGYDkYKqcrUeKVc5DGMaPA3bSE/UBgYot/mrhU96A1566Y1yuhEfvJ+hx9fOVDcz447zMbR7kWbtKTVAMEVSpkV5/+AvFGsT6YbxXxQ05HB6uXBmafue8KxR7MNzuT4ThwYbEQv+nAHSWcWTsXRciHTiEh+mBPxYZbuj3dHiUr5whCvlDm+uGEzp7I/gmw21GXs5AtJaLFVNosz8uMf/zjLAYHdf/M3f3PLLbeoGx4Yp00XAlQkTS6a+EG8ztbwv/XTaU/1izOnmanbmzZtuuaaa/7lX/6FTxrh7kWUNkuQkwrvg5DITvExBGqo2gBcCKbyf/KTn0SNn//851/4whfwAHaqYTHgMJKrHx2UrwQWMIbdJFDyne98J5O20edzn/vcxo0bKdocykc9JvEzewqC8uowzAesM9dfa9bnB6kzu4l3LCyi/fKXv3zHHXfoTafVxOOMJPBjNyVoLTSVr371qxC8PLnkkku02ehVX/LCoa0BUym0aloOGP2xxx7767/+a0Am+hOvpYBTRykUXwniv/nNb9KGWd2BoRgPa5vUBrlwyjgTTcJ+nPqM8AoxOSajP/X81ifXb2hm8uKaZMqk+9SCvNZ3KGEmomM82BGXuryllsaTLsnrgHJ1slgZ31nZvrm2/aXlhfJpRx30N//v/1xwxjGLeLVdruRrlVyKae5sB1FlTa1++hA5OBd4N1sFv0NUS7V6xc39ll3/+DHbgB4fUNr1V5V9G9gbf0ZHYeshp1c8e8V0/UVOQPqs1g9jVCtTzkfoHlH6Cl0esWGA4icGawXBDxG2bMV6lCVXTrmC0TyGLqQyUDUsZmYAD4JhI3maNQMw7gRuEbGtwADZXEV/zOtgBoLMxJdNNiXSP/JCUbBA/MhunGAEPmDPdOV5OYqSjEM7jrPNESAnc4/bj9RPrRLWiPSDWVkZ4luzvaacb18qa04D40DkuSMg0hetHa40f667o9yutBW3GpHSCANLWYZHuH0GRsZY/bmj3Lj17ge3MliLoyQdrsy18k6fHgc1nubYnq/YsGXaaRuzJ7+VykHa0CziDoiYMBRLR9RcLhPFuFLLWE97RWdGwLl8ZoZ5OAzBH/nFUwxchxaN2kNOvMvcubIZK7eKGj7Ko/VXOj8vc70QFpZyeYGxPhinma5MTm56ZtVw9j0Xn/fuC47Ew4aq7MUzmE2zAKZanJJFOe6TZPg9mG4VZsX+Ye4lIZ2kRJGD28ApduQUO3T9kaxSDSan6jLjjAE8H7rVtoY4hviSkTj5Adh47pfmg6veddbh++/DDNbyxHi9VKlX5FAqYi2xCfvHyu2EcSJCT+0YxsvkfvmkBq8JxG/jBiLaYfIZXJoukwNf3byFvEP7Wi22LJxQbRagDwcXAhZxYH/iE5/Av46n+a/+6q9w3rNnCKwwECAAN4rt1GFBw6Y1svqQpbFsmtkm1DtBLMmRD9697LLLgIC47XGus7UItDKiANLAT4rUvdRtpKoBWwxIoRie5o9+9KPMTsGf+tu//ds33HBDW0rvBCHoD4RlyAHz5z//eSZjKHL1uHad5GG4du3aT33qU8hnR6APfehDoEbm3O+6xPaUPHAB1kyIZ9En27n88z//M5+83QX9qTvsQMD40JYJMBflMSkV9Od//uf445XBZ6OyYAAHs6XSH//xH+PtZgLSpz/9aYTg9iYeZhO4QAjth+2IhtQUuoHRafa0BzYFuvTSS6ksLKzOe8qoymtxmISDtWntEOvWreMFBRUBD0flXyAlnaEabFwoXb8ronqLmUiaZXra9trg81unKo2RoVGcJal8NjOYG67XqnmWWAp6lqBDPJKDHOWowTUja0w61dL50cUHReBj5zhzRofHtmzcwOauOfYI37nphMNXX3ThmaccsVwG6QTgotqdyQyin1OQJ4TzmNKtW1Nlpn0Mk4gm/G8p5ARGBx4WETmjvzxdZ8S3q0xsAu2SMpSJ0ECE7H1Fo9JIHPbHWw54kI9B8Z6ar9Wwuk0QBcEJc09Q8R+y7E8KLLEOZoZHJ0QiqSa96zlCITifY96TfEKgws4JIORsemrbuPjd8AiySScAXwAvaoRYSJVElkT9GhxHwt7A2UDmOWjzwC6thiWWDa0e2imqmNDgzuzShENC/gjKkoMkFhAu95hOiRFpREXtkGriFgJG8h6F2pCaCQM8oCGZgwEsqgOq5CrtQv4IUCci08iz91EpP7CoxCu4gdEgN/HMi5uvvuaOj175lolqsDjHeIV6Blay9iZdqtQW5d0+7FEW8/YX5aICOhN0z0jaNMMrLCOE+McJagHBzPHAizW+oIpRddUIb5k4gZGc3Hb/7r0MgNh9d811NDp+FVHcjXpDuoYOTJYlnJiGtFj8ngceGRoamxgvDi0Z5laURyibyTCBjddwspJW3kNqi9CKw6Tk7W4eeSiKF18+qSG7LIt65CXjZFl16vpIkmbz2Vx9YkumtGWwsuXyc99x6WmraXrM/2LL+Zxo1mBji6jA7NZjtJst5va4oRhIbjtK45DGpccoefe/dLpse6jX3CsBSErPNCAW3iFA5tORK1pxPHJl8JF3X/T3//KNjROl1OJhXvliLxooSztoyBSW4kFIcPUrVREFo+QbcDUW7fBBakZPjMVYQJXmlSY2qldLrMpi3tjmFzZkgyMZUgNKnQAIUWYvDbixFe/yZFQ3CtgUQmEH1lIHqsIUuY/DLn6mxQUUahLQCc7vL37xi1//+tdB6l/60pfAMawsBDSDY4DmtFg83Lg5mXeB052lluxSzzpCcoK48soru2aJcJMPUtS985nMwJx+HM84PgGpeLgZAFAECksRWH7K6AKZ69evx0tKjorpFT+hMCGWF28PfuM3foNFkN/5znfA0x/72MeOOuooZsUQmLuC6VAeychns3lyf+CBB5hAwuQK9nKhjGzUqAIxJtmZzcmXUxISDwMEcgSjuHkpMR30FB7KS7ngZLY6eBFwv2bNmiuuuIKVyiBgrpIcscgE8WNMLIkZWeEAgmR2B6boM8LBSkgG1v/mb/7mv//7v1MKBle8EsGMfDoAXzsN4+KLLzbdkIm5SIJYciS5glqpFddUYsbklLnjOLC/8Y1v3HTTTX/wB3+ASS+44AJc8miFHAxIpfCugLnmfMCVyHe/+93MSwEia6bUBXZTO2gWpOKSjknIHfNyqpc0nqPBaOhYQCVSIUSnBqnkGM8MT1UTmK3UGIRGQnXQ7JmA9N73vpdPjFFZLN6gWXKVwtLasTOB9zA0QoaOsDEG1kxJyyjO1p3HNNH6YrRDPJprA7P7N8a8J09lWCNBMIS67bI8vegyJ2qpcpOZnOJ9okvmYYW5ZFe0WQbWcjHRJHrqGhZJ7di2feno4tTUzoktr5x90roLzz3+6EPHcAK1MgjTeL12JAUVPJIzj2c69doTTsct12chfCbievJEgN4YZq8qlSiJaGFCCATn1J6bIrjrbeP4XbYClUjCEVHyaJWnt4iQ1WpCiZLu5ymn5K/P0VnKDlgjDJ5JNAb4jcVm5N6QKgjTtwRGglt/qVQ5EfgeHttq11UZ1RSOulw6sCidLCBLICTasPyxMAimLBYneYgMjy4Zf2Xilp/fc95px69bnefGZ449L1qYdcJTrpCP+gcnav4PFAs1ZWQSBimenYSW0ebaarSuVUcJ2v6acWjJ8rFU2rGTJ4MdJ9Uc+ZoHV53rQIS4GHV2SAZyK+kUviDY8GowMVnEG24PEpcrapODiHQ10Kse3Q0ld6h0dTCTEd1ssyLv+gCxOd5O1mrMlAcYDzQb1Z2vvu3UY085+g0AaCQC60kG+ndPbZdt1G+IXMejZZnJ0aWY3YGlsyQQ4ZRAnhryZEA37LnfkuCgfZe98uRzzMdnG0W8MDK1Cx88f+XlF+u2cfUzsJJF3G6syXWMBnCnZCLKUeLLEbvDyreuXcul9hgr0WjTTJBzdoObp5HoIGn34qAgD3PQlkAVYAJgEwHAAVwARQEsoEEq3MWE2RbVkojFUyn8zR/4wAdYSclMa/yX4G8CuIqMgMigQ93Gm1xg5pSNwJmTAIzulS+qAm4QjuaU5V3vehcA9Oc//zliX3jhhc9+9rNoDmJj/0EKwsgBWA8b2SEfwI0mrFMkSS/5lJ2ECGHswWwQkrDVCdgdOczM+du//VuE44dGIK8ImBuj+JLPSIHb2AgIftA2kQjRQnE02Dc6OoqSIF21kh4pUft93aaaFhNpZ5xxBqtRnf1k6x6wMqgO/ErWoEDUxuNOebEMAskI87LDOoMoitxHPkLUYueccw6p1qxZw2z766+//hY3gYqE4GzGFahK4BT56Mf4AUQOTaA6GFr0yQIGRjvYk+1Q2dSIURZZ4JvHUJQIg6A5TYJSAIJRgwoCB5MdYtWGLnMZc5Id2hKI55SaJV9d9atqqD59lCEjkiOZwDsZ7IbwNovv3gnyua3Y0gekftxxx2FGhpS886EGaTYoDGrHeuhM2Rk+XXTRRQyAuaQlohToA1svLahidIaNSWKYlOzg7DOM6SVnzuPbn9zyAAuzoLS0SDx+BEytdalVOCslSI5MkSKB3poem369zkSOWrVcHt/O5vTnvfWsdW8IXdZ7dz89K9PMA7NaWQUL7WUh1nf3jE/YdeN1V8NoaILxJMQcWsAMCxHdc3MoXm5YywK5VvWy7aVbncl6SHIuDI7kh0Ze2f7S96+78bD/cwFPP6ZeMfdu9kP4uVR+hrLEdDN4DMBG8GXGTv1LPWnZa0Jc0DA8tX7zjvGJRnNI5pO1B/TR0B7tn9Gl0vuLHNTQMRo0z0VJKN/eE7c9oLVcngxKO9cuX3rR28/df6VsskpmJIMQMC+omkLNR9vxtY3RZCxDkQjWR1fp09PB8lXBQYfse9evHq82p4Dy7EDPREnmUDKXR9G82zqIKgMH8HIJMWB4BEZ4npcwMgVH9kcQZN8kWV6eQAL9yRBryTZltVSBZZVVXE58+0/8DkjY6wM1Txk4giFwoIK/V65cCbAmUhqJC7tWSKAGqRU5KeDAH4wnG7DONBUmWoDkOIJLyIgjUBiAwo6BBx98MFAPTgIouVfuYBouIV+xAYCJXe2BjDhKWfPKVzzZDdMmq1AiJu2A8oHyIC3djhMJfXCFOvLRjfuCORUMMxhsAEzxguNqZXEkcBC0DVzBdABQ9m8BosEDQRkxo2qIBPTEFBwVSgI3ucrwAMytQwv15feHZQrysCqwG1c6RQDiM69JS8q2M1pZCFmzZg2WxHQYE4c3daoFV3162RP5CEdbLMmmjUDM008/Hd85NgR9Ymcs0CmBgvBOA/yK5ZGMhD5gWi0AXsdESKOaMCNzfjAjgTESLQQ5LLfFgMBcy07FIpmgGqqqaEUMqvJiB7VZt6pJiCQvtXyv8iKB6qC+GFpgMWwFP3WNnF5JZhWPNNSj4THMo1y8U2LsSnlp9lQ3jYcBDCMuakcDRe5sjX2KgBl578G7FOoaNm1gRsxK1bll9pB99PDjL1iDsQhG125TGysZa1XNUgNZlCP/wyBVTV+NN7C4dUemXjn1pFMU1k9NFpcM69SUWeaQsOv9IzUoPZcfxOrUp+vRII1QHrkYBccoJxAa9Ap0xJL8nRcLiIVbFTSXWVDdfvVxmstlizvHWUjDIwQ0Wa7VBxaN5QbSt9/94Dsvetuhq2TuDc0kh4tUFoGUU/mFdUu64rQKZaUzwjcfLZ/StMXMujEL9JTaYeYOM3jE/xzwIMe1yk6QYASEY1WCn0sf2umJTHk0ir9a71yE8EadNyrVKj4kXJS8sGcOPRvYv/WC0484ZIxumgz4kV/XnJCz50JoUWcZ7CGKyyOD8xUrRxvNIj/nxy/zBGHzCffWiD4fG8nW0TJ8aZWB0RKKY1k54nCk7bECGQ89zx7eHgHq62InRlRMQZNZTjRdBkbyckluGvLcu4MiGy0D0A0Igk8XyKgxNBJQzi49dkOzkBaLmwSyQybY5WAXQHK0N3y0ZM0lvI+4wAHTwFYQHvBUaouRqINfvQyNEEXDcOq8BeAsrmsAEzObefOgvlh0IAC7kQOsRwfFf2QKxuo12wFYBj8JgXqqBhAK+xCQvGXLFpKjAF0ZOiCEI8pTCjQ3iAbuV/nIQRqXVCzTe6666ioVi/IGYXuV1OJhVjhLQYCMBNzb1BSaYElUIgt0YChCEgC05sslstAK1RgT6BOojXwCQoDXBK5SRwikmAgnayxGUwGkkQX6QwPrGQPAAHN/WIwCZIFwxgMExg+M6HjjYQMwLMxoB0uaAckRfXyxZEpZlIFSUxw04X2ClourqKFXyUjL4pfRaG05qMG8djjJCPX8jIxz1wgasyqDcKqbQMuhsDQe4mmuKEybpM1gQxQmd+JhJsxEDSqX+Wyqm90Ic1uEXSt4hOyjBx51oI8ObgZtu1orHB0hEzRmFXQ+q0tCFy6VjI+GhyQ9CvMpV69ceuapR/AyFz34jGxWemzuvb2+v56VieacWSvLF+vqTh6hRtjVGLNjsIshQWQ8KjnfbQuo5RXkCC0DsN0W6gmgb0KqdFHylswN6twoG5CUz6T54MqO8cnSVIm1zPWALz0Ht9zxwAGXnSjYkV2ceKsma11wnPBkXVj3o5jKtWQtFEeCV+44qVcdV5iwOzqOpyMPCt7CzGJPppM2g82vbMFbX+eb3Cz4dC5skoqdo/ozolNkOP8EhalrIK4oJ+ZlilS5KNtvu2nRjUpxnI/Nrl617OxTj6J7BPgy5KJqquVqpsDMFrTqV+Qu+c5JlObp5ywLfZk1QxFkm7WBkUyKKZypSjNVqfNFXJmOw85a7L3jXvvKGEDWR4Rt3qmkdIT12WVLzOGW//L8IVBO/vESg32BZRSQwt3PcU6KswCEUEJai+IhsEVMIy4BLxSuARdmDj1NDvIRbg3Sp+FBOHgRdAVBsFQQJATiwG/wzr/q05aQtow0LgFxSEtCLoHygVNEqg7EUxzzfBMPber5Yo1WNThFIFkoM+oB2nDxqk307uYS8aaw3FsuqFaQlpFeUjUwLEm4ZAk1VdcjzHBiFoIyoB6RoGF9veCnMskaqSh2JpWoelphIRgpUTQk6GhBNVcatckIq2JtjVfa18SnEa7yEQhBQbAPbY8XC5bc+MmaoGx+pBWfSLTCCBAaqQMbFaVJNDtL7hMkRH8kGA+l0JcnPtvu0FatWhbyorw6PczEYgo00WJCwEk1mUp9qszsYK0amXZHmPw9T8gK2lbQ5417aDC+pHjorcWDdnUgHXSLfwaUm6Itu+JEQW4+npD4b+rV4ujw6NrV4ZbLfF7FzfUPb5gZyE5YWhbAvM7GctBYMThVaXUa9YnG0EqsbNGReEkbBZ8toefKAljX7qzZ3VEz0wDhZGG8dopfiX6KafT0nqiQyQ3iG52Y2DE8vOzmOx848rA1p61bUcimqpV6hrkPCz5YGY3wVbbBUuyqO52h1c0IMosE8Prqq8G2bTsy+QKLZQXRike5lSd2JrTO2ynqwyFV/soogXEWtxrJQfjAinK1hrce52KtOLFz29bFIwNnnPjmfRZJ94hIGXHJrHySsS9XhY+/t8t+Lc4EzIPjyVomGLFr1NBwdtFw4eUSH86tyq46bGovC2lFf+wkjnfB9uLgNysppqd0IoV/GAhhDBhA86xaFnvxAY0Kk8jIJN0QgirhhxhY3Xwel3jvPLj20tZgQB5aFMOFih7MYrMqKJCFoLnY09wkEA8KoUPgjlBAAygH5BFvkIXk8NuppTWCtASfB2Ythetk5FNZXEUybAA+RVrQSJ4WA6nOUgbnzTW8iHHMUAgHV6GzFoSMSAVNjGgW9bSmcIxAJjxEciQX0hJiPHaKWOU0sRTHSqQ2hAEJRCqzpSUGBtVKk9ilTkJV0niSQCCT5BxVAqpqdtjBNwWcWKCPYUmuxYQgwK/JsaE2OUuLHC4pj2qCVr5i0HqV4lDXlBcCe1oSGMiLY8wUKo0jmZLEDK4EalhFG+cuE2ShRoPQktpIT8uCtjAQrPatXMSQL5f65G5C4IFGeTNgn1TzfSny2TulNDNp5LL7oWzdT5Hk4eOqR/paafbaCc9UMff0EgkEWcuHCHrjpnznqFop4qTHZkisl/hye8lhfM762XGmGSd8kQWwvN5pRkRXpF58Wp8wfiRXY6fGnxBzZQGxsD6EBPPMWbBKN4nsxcJeJZlsplKusA0JC+KzuUIuN1QZLNarqRc3b/zpHQ8cuubt+w3hIaZnYD4OcyJmd79bXvNEuNbYNmjp3z5jVzmVmGmsHL6ZlKdedH/I8wmXYRA8/+LG7TvH8dk7X7tzfGBo94CcSZEF1LpXAajBBBbpC+UeZDlaneFWIcdnnthWplJI11cvX3ziMYdifabs8G1t0aVZy0OxCqLvk2YmauwyDyOLtiCWlKefQ+9pPGHMT9jw3DbZuEjKhqJ8iVb6H4rL5pcyhsFW0YsOEvuW0zVY7DDRCIrsMVSvgThhmEo1K7yyYO8TkH2uXubZIYMsdtYXq9BQ9+LnhSEeAAGBmlVYgJW4RAy4h4ChOCryaLP/dCddQQZiSSd3gnPekZFUigvkojSokez0Emz984FTlQQ8wUmmCi5NGpEUDcmI4ogCHLvqFstIcQicJFeV1A5AND1VIYrYEI7CxMOsGWm+KtOsZ4TFo49CWBJSBEJ/ZKkmIgtEQWt2SCN3jkSqhVEVQiM1L7WS0l2PKK8CNQtOycXMCOEPlsgXITDAZrmgvCHXrlloKi5pFlgYCUT61aHlUqtqFsRAwEYq+AkmXMuodaSRxMCmhY0xWyolGPXBrCpx1Lrrr39MwrSniFVNtDhaOxzJWi2gCsBGIB6FIVQsDFYFXTPiqgrH/qSFHztYZNckeyYy3idahaEcWloJidcyz1ot6eGlTUj/K480d8sFjcmJHYOF7MiIbKvGr8Du5vLqXxwxSdhNC3TeS1atnZL7XOpkTmLm1gJ7wPjaeZnadEC5vLz9ZGahzNEUGNXMDQ43s0PpwcUPPb7+qWe3T1SCFBsr6qRyS7lgiF022swStneJAnik12KPFzqnErsuvrplUqYwZXAs+31VzM49rEUfaItmYcEjLZ4OQrEs+5/Q3xYnx5mquGx04MBVS/ZfIatmcV2TE/sNOPQlPiH5rIQERgmhtu1Ku4t79oBt2T9ibFFh0dBYo9TkMyRpBiBsbSNlZA8Ndh+VI+OSJstfOZVltXxYVo4hjZdHdgdi49Y6sy7ch645rVF8vpvMDvfsiek2uY9Gv2I3fbLs2aLOaW4ANZVH7QM1FF8yn0HjaVTarqTSHWScbeaaMJaKZib9gPPW+4hQoYkywwOD5k58TIKdUu8qDYBIJEkIEFoQLtlNhyjKqAIVr8MGARI1aZ2EytF4RdsIRIgeNS+VQ0lVuObCKWorDtbkVgojNB4lNSGnKEPy/rBeU6kCMJOcGCQQiNR58KjNJY3nCJriqHVK7morYjqDClR+riKcGCQbJ7rRTsjI7MZVrURNFSudJVSCqflYBgVMB2yITC0FYpXNbILOKhY1VBOyI0YVUPNaKuLRSvWBGVFcIigd08ROYSA7baiahV3afaIzd/KidvwqRmEtvs4jIlNSadZ+Wboqg8JYkhkuXFUhEKTqyrwnI6PNqlFFOmG2ZpYKKeI9d0MQcSC5QHRObkypLQu0IcqgxbBLapTINAwn+aQpKaR1sjBKHAHccrXy4FChPg64Z68Ocbyw04F8DYXs2nKwrBKiZQFaHS0RU7GdEPcSho3dzMSEDVNvrd6jJapJayokkBx9u8R9rQC3mXhurMm2lEioGVrA9RHYkEBl4RNgSSCEc+50EaHVEV6I+hdOZaKCBKtYdyadSBzUcScLn2woEnasxiOXaDnM12Rv6eJUmbtNvEpg1Gx+cBH7YL6yc9sNP7vziDXvGM0Dunj8M0m6bbZJmOv8/6GnoevhoakPjypfTItmB2mHs5sq8ASiVWu9cMTs2DEychfZvGZGHyZKFEuVKT7UnG4MLh6t8Aok2qZd0yAHadLXRV4frVCrVpzZUmG60SONgQ6SFEB1nIVNvgw1zlakA810dXL7qceuWzYgyF6aShPPHz2j1GnWzW1wvWYXPec7yr1zcJnQysJuhgLxlRP5htfifLB88YrB3CZ21q7XUtnBTK3JMBEc71w2PGUMInpue1z12EdM1GT3+gG3Nymf2sIu8sUOMuOSuPMzaWb50GSRIfZjY6JKaW9/XhjC8Fu1Tbi3p6pCN0PhM6/lrkmscRqBQEPJKtzXx9TozNfYrCA+D/ItC1+IrZcFY/n8XWm/CL4Qy5pUnXK0OIBgk2lyjLBLVnYj7FIvws/deIj0cyReFdajmgiDdGprEpSwYnbNBR7iO1X1c4kJtFOdmm+nKoqjpu3Mrmu1WtZK6FEr2jTXLKT6o57Qz9SnNfm0NvGTzJz2S9SLNp217ux0hrn4mmsW0xZ5hpJ3h01eHs1hkN45FuTzgzjq+RoMDwC6cPXcM4wVBwyPsYidhxyfJelIHl1O/s7cAl1qIUrMJb99a3Qf/hkyROKTv7toAakCwTCtIDXVOpuGmrYGu6ZnmoSsfwRvNfmKBVB1WXoyuPvhJ5558axFawdH+Hga+GnmSnTNYx4itbB+kX26V4bw7HpRHC4FUAK+gfWs8pTvO8g4gO6L36x6LTpAgbdAenHxKXKV2Y/iBuORwNcA2Q9+1eLhlaN8dlUvC3t7uVxRwvK0Ok3Xw7Yzzu0ZOVJqHTvKvj4aeHQLTncXg6FsId/MMHmiJPNl8OAx/AndQzQ1eRg4XJJNyxIvrTiRJ65PJn7lSpN46JnaI35ccnD2kTlLfBo7y+uNdL7aZOo+EzcDvpjKrq1krUokx8QCiQUSCyQWUAvMJbLXbhq5RjhanMoy41I/EwMFtnTvp3hHUChEQ3Z5XNBL65MyqZ1dtACWN+OHlHuUaqUopifeCMvGT6WRFmM8CTGHFjDzSnV0yJVIuUsk+LTGxI6+qNil2ClIFGDmdjIBEMnGLGB3csKR3Khnh4cXTUzsLJWa37v2xgM+fDEfqMVLzK9TvZjY1+p0WsuoYrARfCVjp/4ln9Y0Wg9UEqdTxWDn+ASv+ZnCBDJn/yCZeTDLwIIl5iioVVlxJH4PmRMlnw9OZbKsYmtWSwfss/9+ywsyFScU3l4J9qIGb0h0JeKcpTazZY+yi9KRLVGyHgt0T2++YvHYgNiKjexr9UyhnMrV9ONW0YtEGjb4fqos00tIi1VdU8cGxDSyTVzybssgqgxDEw3KZ6J9qcwLxEw9NdXIMO2DVMxiyRVk5UNco0iz5G9igcQCiQV+PS0wZ8jeHpbtBN4aIgROuOC8VDzJGik+x8InSfKDeZ5sMPFC2j2j9tDj6fVX2WrkzsecmB0vm4MnkEaoBeRiFByjPCYtUgk7jRiTv3NsAbFwVEFYH+laTRBcguZIJbpcW/UVKRHGCItyRETE0PZXwT03HHcaPnvmx+UC8BLZZ/j6UjpbGNvngFvvefjk44696IzVuPQH7aOsbWJesxNXTO1GRIf+pXZGa7OY8c+qACqCnorplNt3TrAHu3xHSaSL47rr/MGuGYnHmlGUg+tuJgvIVWuemXW5Wl2mXNM5Mst8/1Urlg27XXGIMhzvK62Y/jVDtZSbsrjsmbcHzYwiXO5BsHRRvlnZOTG+g09KNQeGg5FRPj3LdWvSUuCUFA0CPz3xnPM4EA+9TE3CW8+vKMLZXkH2wWc+T224kGtUgkwBv77UBjmiAdZzeRORhMQCiQUSCyQWCC0wZ8he5dnzzAhe+MuzjI6bDlmn4sjzwIGVRirHm1ui5UekKpOA+91tnRjf7G/1ok9W4luPWHfN8crDUoMmlKNhTWqnL1iMkiZ/Z2cBtbygImdhNwBrSZCr0ZCsFduDsgpyhIrszipDbecJZspzVrzEICQAJzuRpHcUy8sXj1VKO9IDi7/341tOO+V/L8k5GNVd0msWq4XlSKAxK9FHGxi4amxy2s9CcUkkBkRyxHRT5SpL0AROplMsV3C3SJx/2nPTB520J0Qf5rOyEosVGExLyedSKwHIbqdLJy3eJUoy9w5B85pNaabVrh+DmgJ7oJDL1ClGr477PC14nB58yUh6n6XZLTunSo1qPVOf2F5Mp8IXs1JZLhkHJte6zdbYwlMGCWB8prfK0U29SaWK8jKjxiY57H9ZbjJHie/zsJc/q7orE7L2QH8yRkhCYoHEAokFEgu0WWDOkL0+rlS20Y5wzhj3ZOUqz2Ii6Y558UzPTm/OK1geGPTYsk9x0k+31c4sTsTU/HcHqwUxLP+cVcXsHliPiZaUUjv65JWL0AQl5DwJc2oBbGvV4bd6jber5BnWgtwlcuaO/qEVo5zCJBXnSw35gaLgKMWEoCzxiBIhgKsxWWssX75yYvu2QpAZHF321Asbrr352SvfvkZg1wIO7UWOK+qGRhJpbMoRO40n630u2yCUK5lcocaXqsCh4oQH14L546FrFlIrzvpc1dlQcnu6Wy3NZ1bdphNMzeGTfSuXLtVt4MPacqMLcqI6HJru0g7iGszXudciKL2D9Wgj5aqxkDY4+KCVl158+iR7YzNZvpHbvoVuXqYs0bNog5fmBrPbRYTvIU4Wi2yLgfOehWgsbawB9ZvlRgMBfG9zgOn1FYaeeO+Zl19vDgX5g5YPp2rBYDZwPiFac/LUmK+aTuQmFkgssJdaYM6QvZXfHmlGcElphxvly+Hy0cIMTy4eCLa6ykGR7oDEZCfErlgA4+sz1QiTEqsjBYOxSGNOiHmygBgcuCN/qCm5WbS+yM6n++cuqV0wois/WJR1iLLxjbAzUVwyBi2y//jAwOCmqY1DS0Yr5eLA8Nh1N9524lFrjtqvq5jXLNKVTmxlGvi0RRoRu8qpxHQZ9ViKFqEYVpG0xrJwFsAJBmXtv84Tb3HPjKLT8zN32og+ugUQmyY1q5V8IbN0ySKZwiJrSeVzUEJGrw48ZB2ifHedQ6e+0ZW5/+usopXA0RVJ1mMHmdUrBpa+9UQ+UiXvNYKAr6r6s5Va1cZE+UYwNcUEp3DfQ2A9Ox9nCyk2GMUODKIqpWyl2izXp+pNtuiSTJiYs+9YYXmWN8CTQYWRRJ4JOtHL3rkvZCIxsUBigcQCe6MF5h7ZqxXk8emCbOgmb29ZCsX8Ub58w+MHNyGOQs6AMTUeWex4KY8G93jQVMlxdywgcCGyv8rh1MBiTHKM0/jFC5eEObOA4TEgkXPxirNT318ZdMSHzl0DZxjTWWsOk8qO6NG/+E3jajNeccy4EX4m3MjaTVmUSLHIJgPIl7EE4D4YKuRf3byZb6RXa9XcwBC7v7zw6va7Hn76iP3W0keIrmKKVilUUTVP+1Urjl6c+2PXFts1G3RGTzejXQA1fY3CamL4iRUcg2Fth0HF/powVhKJpBfjw73ZfCqdReLMNVH1MLdMrJcTln4iys3VdxGl0pSMsugZq/SHmZGRRW52eqsxuFRt1R1TT7N4DY6qGUWKFBoOGiWZmyN7JBeCtOxpQy04Nj1qqQbSweKRIBhhrk44XQc27g1hluEAgwKhG847r0mIxf/POEgWZslAgutJSCyQWCCxQGKBNgv0Q/b63OJIkI2fAQhsbR7uBkE/bc8aIWQtWBgsXp6m9UD2J87KR0b4UglfceTblxDNUrHWLFWzqcqwW00lexTLg7P7arFIcvJXnmiygZAZ231cg88E8IlwMBoVhbsrQ9U4lyxQAV5FNq1aUSsq9OfoEcrJdRLKf4JsRichMf0uWsCZ191DVI5gQRcQJjXjfuBtbkM3myHFBilc4lYLK8AyZdUmNBXCok087CB0t91UqyGESBUurVAG0U66niKdukQG354R2Sghcz+4aYXiX61SXjSco3U16mk+chrkh1NjhW9ee8tpx609YqXgrFqpMsAeg7Qv2fJkCOkRCJOrfBNU7vUwzFlrcc1TLeb2iecrrXm+lyk2Eve2G6/2b5zasdRlOYHMHGGZJqlROFtvMtOjmc7gXa6At5nejrnEyM457MB9VBypKtlZPRVMFkvbtm0rpkZZGApLfnCoSWpScS2sTas6qa+O0OD78kSmGplGMwuyr8vuvxSknk1znipkClNVlqIOr1welJoBfSOhlzU7MujF2KHFrkaQo+4yGWbNH+uIAOPuG70oQReVBdK7gKk7FwDD40R10SOU3H7Fy0StwarvSJFO6e1pF/6ZNmO+ksPaA2jbbZ23Q7rVtxE8f3sVh7tAns7uy1DMbqIuuEE4heiVJIlPLJBY4PVqgV1/GNAHzcAoAEx2v8Epj5NKJwDQN7lBAl6vbHZ4aMDBAiepa6c+gzwSlplboGut+ZFGGzFz4Qln3AKydUpn8G46naYMUpe7qQ3tEOMi25JLTFOmZ7itRFqXjNMIvWan4YCBZALBQ63cPjluCEjegmqjS+lMPZOtpHPlTOGGn93FJoNMnMgN4FgF2Tf4gC3zJJCPxqKJO7rscKN2LW9LzzmhrFAqLXbqZ0HZKDg/lGS6t6gK8I4iw+Qt/S2pzBOMBYHulN8FCJep1prSMfaep6gkFucDAlKPfEaAATnWx2OClvVUrZFNyzeCJbdwqITKNmhoI3rmMZ8XVJlWDqaci9IzGThFP2I6g0ZaUp/Qx0HsaNKId2m5g3J8J5kvrPUe+HRmu0BjZLguLzhkS3+F9aB8FiBwVI0N63NKw+sawPFM6JqamkKajRASWL9AqzxRK7HAPFuAnnFXAp2L9kck9ulOWe5qWzQxnNOL0QGNjY2F1/Bk7aIubcJ/bU/Eqoo+FHY4I/vWsGryCWPQSmk7jaQRGbtqbAmxyxYwk0p1eFIsXu8vO1UWIjXGCEtqnH0IY+4kEOgCjagVmHhy8213nX78G9cdPMINyt4l6oB1YwDxnqrmbqTCYU+sZaR0NEx3FFOga2dZYjGwOWzfipaIXQpZFrrimZaXjiJB/sxSFDidJKju58/bHEH2oLMGyD6Vc/Na6A7h9dkS+vVnARzt2oSA79Q/b4SuvvrqG264Qb/9yVoDHpTGwxOzV4MnLWF4ePiSSy45//zz+ZomCV9/5kpKlFggscBMLDBrNK2PMutf5Cnl0IZ2T7Es3XPJZiBIUgI8HNU/MTo6ql4++jdwAfH41GJCktMZWkBs6xnPGVNMzX+tL4lxSEgiXTCCM+goOsxQzjtjw4vJnzmzgNndEeENpdL15orRfqSvhC/Hp5UnivGaiJcYmS60IXsWuG/aPvnjW+449OC3sdfJaJaJIoWgySQB/PfcuJG/P5TTXbKXyVySFAeFVWJUtLh8AfTtbboXZzxlj6IA63NAb+aQkzsvKOogcgfAkRsFtIKMCwzP4Ra7uTGR8LDq1MH3Bt7oerPeqNUKMt1eCqaCOSbhdWwBxd+AcuoccL9ixQq89U899RQzcJYvX75lyxbaEq2OqxAwE9/VGszAgWdwcPDkk0+WVpqT/YiI9P39XRMmkYkFEgu8/iwwa2RvJtCnl3sGWVwXArbo+dt2lYQEPBO9noFt3MnJdBaQ6giHWILGFdBoHZHU1YKABCNMHjGEztNYpDEkxFxZwBk+dNi7OtA7hTkemkOE7gB54XjMcg7xXhQfJogSwgaDRLpKDOvdRUqcSfEJRIEb4IfQIJijwXzpRfc89tT9T552/GFDsiiSkbd472lgDZljF4F7J0p9hPPuKXSFMptIcVDYL0uMFn7nKY/dFDG2/qdkQMGA9UAlpsU3GmzqyNR/tmdBfGuMgZDYaUws9e0YZP0sIVSMSep8BpihQrPOUKFR5+OrLr9o3lRMSHL6urFAsVgEhSuyB4hDc9/hej/yyCMvvPBCvPUaQyRXCWD3rmXnEn768fHxY445ZmhoCIHg+wTWd7VVEplY4HVvgVkje/c0cs716GkqMSGGiJvLgYjQg2VsSsBK7wOtQINvERLT/wkdl56ct1tAbOkhHE450yOMQoQAUU3elljSepUopxGzXmrjTk522wJ+dXiVJtWEbGrKzO7T/iU/3pg7CZK0RfqZeaXQtkGdQ1ho8MXPwsh4rfrda285+rAL8SsDNQezuYCvpYL7ZXMS2d/K4XuZQA7VQ7yX0+6RlMXlKFIcHWZoZfTFM/7Qy7GrsVM/iaN7Dk7EGwoGb7LmllVDQHH3qtGBdWRqwHqqW4dYF+EUglOvMjpwkJ7tR/lYGOaU+Eppis9hsUa37X7uLi6J3bstoEhdITi7qdIwQOebN28+++yzQfadOB6s37XAIHuS4+9Xbz1z9AH6NNeuzElkYoHEAq9vC/R8hvUptj2W4PHpaZMYsxJ0RswjDFPRBYUPuz5ikkvTWADDqm2VT2mLMcKk+DFGdxLGnxDzYQE1OEc/aEZ+DDSRGmNE7NTiNbmeKq3JLT5GGJr3iWYq28gNl9ODDzz+zO0PT5QZjYPnJaWAUPk0UbQwlSgQB789dhObNci6T9FilziNxUhp2kJHl+jwtcbm3Dx7psTLPqIc8Nl3C32ykOF2uGyakZCbYy0TcmRXExsSTBbLOyf3tD27lSOJ2xMWAKzj5NJHIW1gZGSESaoshzVYzyVOFdP7t6dP69iAd+A0JJofbvsE1u+JykvySCywIC3Q8RibjZZ9HmAzEUN3prMG1YHVwxkxE0kJzzQW6FNTfS5NIzS5vNsW6GN8LnVetRgjVAU7NSKmWq/4GJtihVYkm+YNjG4vNotB4bpb7gTZg91x1AdptwG5AFyH5/cYnHeaxcoSO20p30HNiNP51DuShhHYh89z6OR4fPYC8TvCjHJxqeAE3EcC5FvAuO3x2pcr1WKJbzSpz363uuhIePJ34VoALA4Kx+OOioB49rfhsciEHNOYSwrZifHRvE8jhKvge4X4XLLkCZFYILHAr5sFej428BB0DTyNugbrZdSCxtPLoDDQB9EfyRYQ9EJu9sfevzdxr+LOWXzYY8uyKpGJARkg9ZFuFREj+iRJLs2lBdjagg3UMxneUHHUoSy0VYfeZVSiBny6+nPzrHG/tZ3KvJcoBlBtP4vUVD6bSVPCv6n9YmruXCVS7koNuUKp1hwcXVqqp3561/0337VlosH3noIqLQ7gScMTDaT5uTt47h32jPk77CNo2qwHETv1L/WhVawm174LOX7oBO2UcWS4cPDBB+NjZao9IFxWGnTkgZCOuO4R1mdC4JRlX86RRYuz+YGJUvlXzzzPnc6Wwb5KCf36tgD3ICBeJ9ZHPq+wGXJp5mWnORmztjw7hSBGb3M/0qc1L3jgtPjOVKwQ0KvKRirmAhk/XRy0bdzp66+5c2QMY/wQ8GipNRKxxBB8HqVNbOclYnwhsZIijbGTXy5OVVUSUiKju0rWSHj8LIj0BcbsZklMckylzoxQSeWjrabyjcBV6StkG62GcVouJhyV1Eowx+zMJWVTObBpdkgzOVxS2pg5hU318curbMlxoVmgJ7KfVtGutds1clpRCcMes0DXCvIjjTZij+n265ZRfwtztT/DTMylEpyk1kPaEsbk+4AAHj3N5QeqzXRuaHFqYPjGn905WQsm6m4b8Uw+YBa+hyFaaMIymB8ipnbstFeeMTY7NcJLGO7548WEJDuO5FlFy1bqmVS9WgGKyLwcDwDBFzvtFGIxPmcqk0tnstV6Y7JULVabm7eNs5k5oMZc+pYqIRILzNwC3MV6IwPLFCByqg7+XkL0KkdLCGQH9sVS6csBhZgcCbIfhoPj4D+uQjPXPzYAIFM4OSKNKUMQIEv4QZ84PhjVkNHOnTuJIXckEGl6khBpHBFrkZ0ESXSMQXJygZ+gbCqTLAwB66sShbZMf9JCdcr0Y5BPQDiBeI6Kd1Wm2o0cNVJ5EGvWg9BIX6ZP6+jOaV1XfchOGUhIcqxEDIRyqg4cYaYgmAg2SqppYaNefPlcUt2IRw7GRCDZkUrjSahJVA7lwmJcglllEu8LTOgFaIFdRPZ+1RrdSVBgi7TCd8bYpYTYZQv4VoX2T1WmxXQSMFhkjLnrqUYmx92xQMzgJop4DRoTne3WX0RZeqX97JSmu4fwjxpPQmKz+cHcwKJ7H33ivkfHxysBvh0+2hpkcg7cyxIZF/hrgueLEH1cfnacNqdIuRajCrHz2KnF+wTYAC9kIR8M5nN467PpTKVabjbk3QtsmoUe9dRPG6NdEj4iLPtmanIYeHyyBLnaSFcaQTXIPL/xlVcn5PXI/Fs0pl1y+rqyAO1KUSawjEDZaHIKZHuVUzsBuwrsY2pQDB1yVaU5qSIWNmAfaYGSKgE4SLxiQdisqcOpwokhcAkeUqEn8aBVlhloKiKJMW3hBHxz7OOzRwipNKHiVJQhifrjiacgBMyCWI44p7mKStCmlRK9jghEbRUOD6dWIhOCTIoAG1eJhCBrCB1UENlL+KuvvsolSoEEHXXY0EjzUltZci0FymAT5FM0TBSzPKLgh0c1sbTkAidHhMBDWhQza2t2HMkRTVSI6q/mNTkJsQAtMGtkTxslWEmUdnFhpF21SCXsSFrjMTkJsfsWiFlVT9XsKtwYLNJiYLBI00RjfB67lBBzYgGzsBpZT5Fs8T5tkbMltEO3VCrT9Nd4O/WfOtC1apkndq1RzxSG0oXhH1x/y/ZiwJtat6s2M+lcB0KHwOwUmTljYuadQG3Lw4rWlTA2iM5UerUVHy1v9VOBrxnI8EHhQjYYctsOppiQUxMM0SvHrvEayVOdHS5NPpEsx8VbX5OtfLK5gVHs/MyGV17cPAGyB+zAYMwJkVhgVhZQQEkPYPc1hCHRTlFwWqSCVx9Z2iQN4KCxgfYIdop8RYEcgYnkpehT5RggJgm0KePv5EM8GwThd+cqqVRbIvmMl+YCs95KlqkRmrUuPtaEevuoP15pLSNXMY7CWYpjBYeY9o6DB90IcFpCpBFQm3cOlI5LBBSjLGofrgKR4fdNaporwUcMIMzOSCAXYkiFEIPdKpl4LQXgG5vAo2MeCqXSOJKp0siB1qx1zICtLKiGnKrRUICCkAvvUtQ4mpyrymnyE2JhWmDWu15aMbRtabOLRXJqLQ+i9wDV0iXE7lpADO46Gv4K7fqU9lqQDsJVR5vDgBiCZW+nsUhjSIi5soBvYWRyqncK25pLEADofhzkQlutOQ452HPFYpTwhWv1SkyKr8qGjJx61S6RmovGhvd1s1HIZnixzFz6bCY3umTlY08+d9+jG1eduS+PDmaZZ5oZbWlOOfnYXHctwzzn5o+voU/3ki48bmNK/6bQhCSBMFokyOz2LoGC8YikyIsWDecz6VKjmuZNRiZ8se53gyrNj/HFyfetJDgXplMsvJrONWp8kCibHhis14Y2bt3y1PObjjnkDaoMMnsJDJMnfxILdLMALUex2ssvv7xp06aVK1fuu+++oGSwYDd2AYIkURCp+I+vZXFKOOKIIxQmAvXgAQWaBGCltk/g4Pbt2x955JGHH34YIA4NpFake+WVV5555pn440mlyFUVQxRwk7xQCeT6+OOPP/jgg88888wrr7yCNEXkbNJ/7rnnrlmzBmYdJyh45TR2XyAKxZAGG/IpKacofM8997z44ouIxQg62wedmQ70hje84fTTTz/66KOtLAiMybRLEORIl4tMM4UR5EKRf/nLX5IX3xoja7Y5QtSqVave/OY3v/GNb1y6dCk5ajF9mT4NNFfFiFSairvzzjuff/55hG/dulXLNTY2Rj3yXbOzzz578eLFOq8JyQQSwoNWVkEojNp6qmOeHTt2ANmxMNq+9NJLGzZs0CGBHtFz//33P/bYY0888URsqAkxLGkpDpYnreboa57QC8oC3W/vPirSRBRBWuuXmPZgMY6QcS3X7WhX2xMlZ7trATGsB6w45UyPan+tsq7210i7JIQDaRBCJ2GuLYBVqQ6xrfuZkR3wiy65TEO2HgpYwth1i28n8Ks753PErVc54tAxTj/HkcEBHu28j8WnXG2k0oURZtu/+cjLh1cEPNiZaC9A2LU6bV2R4Pn661QNhTs6bPGmvJ+xOMHdeexq7NRL0vsdZpO30uJBx6nG5ITJYi3NFphiKabCI68VVBrnnlifJD7UilhhSyE2lS8MlnDkN/gGWLaeypUrjV/86tlTj3sDu9prgHPPWNjXNaH3dgtom3nuuee++MUv/uxnP3v3u9/9O7/zO2DHXuUCtAGLQW8EeMDWn//853/84x//1m/91uGHHw7Oox2Cy1UCWBYECT+IEDj73//933fddRc5ggLhZDAAjgdlImrjxo0f+MAHFNYDeZFMJIgTGk6FibfffvvVV1997733Mh5ACDiSXMCgixYt4tLnPve54447DiFnnXUW8aTVosXuC1KRr8JflL/jjju+//3v33zzzWRn+aIwaVGewAjkH//xH1evXv3BD37MhMZkAABAAElEQVTw0ksv5daGDYZe9iEhRdas0UGRNMx0kl/72te++c1vQgC1KRTC4URV4PhXvvKVgw466OKLL37nO98Jocm7ZgE/5kWBF1544Vvf+tZ3v/tdLIBARKEYgUxJiAQAN7lTO4hl1MS4S6uGtOSOBQzZk4rkpJpw4dZbb8WeDz30EKrCprswIZBUmgu1iQ5YDIh/xRVX6MgHw1IiZMJppe5ahCRyIVhg1sgepf17yae1PMS0iPCx65LoY8xdk1TKlBzn1AIYNjK/yNUTjtqVGGF5+txy1V2wSCOMPyHm1QJi8Kj+rMr659irjvx4pd0xXsUI9zk5JV9i9CiDgFqlwMeZsplyucYU8MLg8BPrn7vl9ocPuuxNWRz5znPvoH1KvjW3B+9qU9IU7mqoWOk4tRhHeJ3VzLRftWL52JLRjRNbU3nx3kk1he/KnOjIdF2VsUj2FcJUmrfbGR9Lg+kh5ZjOD2Ybw488+as7712x9txjkCu5uJpSwuQkRGKBmVgAVz34GNROiwU79kmiIBvAR6sDIwL74AfP4dm1tgewU6TIkUh84X/xF39xww03kMWyZcvwJeOrBr+SlsEAzASGFm95y1s0X4Wk0CBFlQnE/M///E/GD7/4xS9wol922WX4jIGzeKZJi/8b1zK5PProox/72McAx3/0R39EXl3vC1Cs4nLw9J/+6Z/eeOONFPmwww5jQE5ALB50yggb4wec9wxFwK+oh8zvfe97DHt4saADgz5W0ksoAMFnxQDKf/mXf8lAYsmSJRdccAHfD0Ym+nN87LHHyEVfRHzpS1+67bbbPvShD11yySW9hOt4gBHOZz7zGabxgNdx9kMcddRReOixLaMjhi6MlNavX8/7BwYA//Zv/3b99dd//OMfZ9hGZenYDLtRcK0mjKwoHxt+6lOfwpi0B9RjpLTffvuhJCD+TW96E1kD6DELvnwk85aA8NnPfvaWW25573vfS7m05cCjYnsVIYlfCBbYFWSP3mweAUZgtmgzja+PD1FKjB5xa0Gzg5vEBHyvkam4Ml5sptLykUUh5Mj1tPzaH6d6yV1PDrO3AHZuzZIMk8u8YXkZZ/1yTKx2T7HI5HRuLCDG1wmpcgtI6JzGrTFyu/CcA+GFjmatl161psJgDr8cJRXPVBuiw4xEmgwTuMF4/PCfhhHeXXJH8k7Z3cGSRO9lkjJThynfTrSkEX90fcf4dh6ilRpbrbOOqjA1sS1IDd7y83vfd+mbWEmapVlRJA5yo0vYA3dwrDHHTp0W4YH+J53C/lISehuWvWFlKT6r2gRXO1vRh1ka0V67MYlqlQh+8Vfl6C6XjaVGh2SaL/bhWSiLBiWbLNvbhx0a+FzegIggF1ri9VyPzv7GwHqGKvllWHTXYE5/PptZ/MyGl+5+6In3nHtM3enJGxL3fsTd4OGUHgqCBJGPqnrnu8xancAMqqO7eqpZcnwdWAAUCzSkxUIQ+pdIGzbuW3ChcuLBxdULZuUUGnin0Fk5ORJDPOgQ5zHwfe3ataBzmMHH3AhATIjTTjuNGPUES8fibh8uQQPBcU5/4QtfIAsgL45zhOAhhh82kpx33nlgWcAxMB0H/E9/+lOKwysIZUAChAVkQpMj6JN5LIB4kDFgGuTKSMPXHDbu39/93d9lwIBMXmjgv/+TP/mTD3/4w7jAsYDJjBEogxzyBS6jHkOaP/uzPwMrn3TSSeeeey5H3gCQBOXhPOWUU7A5Q5cHHnjg29/+Nm8PeEUAer7qqqtiYvUUsWSNtOOPP54BCciemUhqT+NX63FKMRlUXHPNNdddd93f//3fg+nf9773UWTsoyMf5URPxKIGeJ1LQHmQOkZm9AWNoQgm3Ignn3ySWUDIJ1A7FPmiiy7iKhbWcYJxJsQCtEBPZE9TIPga00rEqQROdzM1eFhyWY4O1odHnjMu3o5pnFNyJ2dICmqoBak6aIIbG2kcG0zUddiDnFov9v1sE7rNAjz5Hf7jRuUmY8G79J70wq05j/Kk159Vn963ehpGOneDM3oIYASjyXdyFM64PKUF6H3f7c5vUys56WUBTIhZ5b1tvlRrMIWDx4nUnLt75HZxN4KOvRqsQ8XUemsJXONWcXeFcFvFhTVEwkyzMZhPV8uVIFsosgNxOpfJZ/nIUQFkSBsAcsoAG9kIkRE352x9J0BUcKeiTxlMEN9gCRnjhKYAYT60yv0JD/9HlhSqzVK1ORiwzzqPy9RIdqDxyo4tX//2nR+8/JSBTDBVrdAlFNLDstyzwtYxkaK9DDKzeGu71gupoUjNI9WsJ2fuKxh+u/VyaNQwHE270aTwYgkO8ks1eF3OxPZaI4OLvJnl050YwcFjYQGQYAcxhXspwXyZdKbGzZFP5xflg/32WVp64MmRpQds3rZj2dIxxkkkzui+IIwb3NuLJmYm61RG/vCjETCCkE9RSS4YloBi8qkDkLyr5AyzfepT1ECFf43UyMq1Dz+15Vs/uvfKt58wmKWzDHLcolKP9aBOP+rGdGxPRBNKBbxOkf6AlQAyoHDLmyWj+H0bWTX6KzwE7R+UTo4LwgKANjoN12/IMxosRcy0cBN+RWkwaxIAN4QCZeQotO1TQmmWNDMvkClg0fVaMoWGK5oLbEqQF5GcnnDCCW9/+9stqWlrhCZXZkX50P/1X/8F2MXZ/5GPfOTCCy/El+yzMWwgaySsW7cOmIvT+u/+7u+A4Li0P/nJT4JfdeYPcFM1pPhowikJUY+rQGTmi1MEU8wKqAgVdziSzznnnC9/+cvA9K9+9atY6T3veQ9sxklakDECuYR6OukcW/3whz/8+te/jnAK/q53vQs5qgb8MMOpHnReFLzjHe848MADgezXXnvtv/7rvzLeYPI9bOig4yLMiPKqEpZkgMRVRjsMSGKVYlphlrPPPpsXEVgPtdHk1FNPZRiAWUirLUHrSDMiIUl4ycB4RoXoEZ01X9gsMK4gsAKBGgHcM+YhI4YZCOxktlQJsUAsMLs+nRaG3uF979Eaw1GaoCtZyCOPHX5hLgwL3A/Iol601iUSkdI9XBeIZRa2GoAxM3EfTSPLG4vWYK9T4qMKDFli/JYwIWZqAXebtDOHM9pbtpWbRiF+WKl2yQiVoKcclZDIBkvK+HZJkacIvXa1JvND0hlcbvJogc0dgYPUrKx7E3wJxBc03HmUV20i0mkRHd2QnIe4vHPL1FK5erpQTw/cfNtdL2+rTDRAyMPZ3CAZ1BpBtuf0VNF0jkJoPZPWMoVFRYTrjAT4SqnFu8CbBemLiImGR/KugV8riDtczvnPj3KFnRLDgsoEXdRgJlixZMnKpUsmJybkCYp5sKq8voQQdno8C6qbZNdw35eNLmi8s7BUBFq50Rz6MeWeKgSgYepCNT3yk9sf/PmDz7G3fTUVbBkv66cE6lPFoFoOalWGAlpdsnUPiJ5Ph0WaqxYdPSq2CNuY00Vyj5RK/i4gC4DzgJIgVO5f0CGacXcDAWk5XQOIE3esgjllhjaIvIAK5lRRWE8ZccMzlRykiA/7jDPOAAGjs8FNSqo4khhMQbj88sv/8A//EDf/fffdxywRRdjEIxUhhNmWFCOThIxA0szeYRiAp5+pQUxGJ1NyN6TOKVUAM8pDcMQN/4Mf/IAjE4Tw9APruarjHCUQriMK9CSGwQkTjZi2znQXZt4jnDoiawYhHFFeCwInaF6nD0Fw2j8A5fGmn3zyybwZYNjQn3m2Vw899FBKB8SnLIzBKIi1sdmKSvj3pAVm2q3T8gimWVfaIo0w/oSYbwv4Nof2TzVri+lDdFVSZHlV35UniZyJBdSMvY4qQWztrB0j9DQWCRAvlkviknYIjkeF26QSN32NTYp5JsmTibdk7gc0FxDbI5A7V0yHVnGauIvlwSmjcnExiwe8mck+9dyGH/74ZpZcVQUapivlWk5n3bVSzgulSvrHabPREvtsGtNDSI8uUXyZIW44et2Rgyw+YOOgfNa9AUjzHlJ/DLipFCItU0cQDfR3I6sedlZlUBIAwbNTQzOTe/bl7V+75oZfvRIADfKLCkB8dsbMDC0O8rxFKYjtGzVc+Jl6g9nTvEJxlQD+aP0aQc5+LM+1n3tx1KOwvrES+rWwAM5a9a9zC4P8UAEC5Efz6BqY+GG40PS1RmUxC4EA+9qQA7DIHHc8zUzj1jknIEgF0ygPoUVQuMwpCZmxg4Oc+es/+tGPmF6iJdIkmGi2BcRopAWpc8fhnGbBAJCaWezMdAcoE6kCUQMay3MKTSpGWaB/1vvi1f7oRz/KhHUuIcpGF1Sf1ghHJWDAGc+cpX322YdFBQxOEKiaW0aaBZxUutY7tEVCx4Jahn1sWFiMKGYrxRh285QlE0woYu0Bax5YJIBlKKBWym5KTpLPqwV69uxUngayhzAlLFJj9JIfacx+pCVPiPmzgFl+VlVjqfz6ssj50/bXSrLZttOwfozPpvEaEzvyAItiUpPlSiZXAAziQypOTTQqRbZar5aK4mtiu0qB9w7fM9GngdtZUH6UNv7XbzbQ7jKIlATyVSp5qAkslO+vNjK5sRWrr/nhTS9tFQ8wvQNzUYC99BO+Q3heqxj1TH68JO3nxqaF6nfqvPU+gyuOgwvA9bx47AhHrh0oZNOFTLNels891ptsbg+mEEAv+N0dhZZNb9BS3OoyiU5+4ZetEGL6q7JOsBx4imvgYd/M5JuDyx5Y//Ln/vnbj74YbJqSLwmMg+SzuSAl+46Kx52KqVcb1WK6XmUE5gYfzO6Rn8nsSqBZy4JdOZLI184CTG3XOxfIrrCPhZgARO79rgG/PlNugJuobC2KhvTalaB7zgB3LQ6q4u1mjjtzVJjXDp7WBJROwTFHDcSrz1vfWoCYcduDwlluS3KgLYbSkmKr7rn2jqXbRCWuky9Hpsgzzwc4y7R7ZpkTgw561YwJQY6sLsVBTlk+8YlPMFsdNQicql8fBmoBmSqcSK1N0trsIAYPJKFOtXQww0NeBL9z0JheR5JrKtzqzMlhtTEvBHox70K8moX3DMyDgmZDUoSYersgMEmyZywwTe9vtah16dcotH+q6lqMEXumGEkuanCOFqzuuhJqMZg7CY3sKkeZk+MsLBBZ2E/iW1jj1dqO1hUo9J6tH3gPMO/wfCuSUzB7k+kxzLFmCmi1xnztRr02Ob69yUTtWrnO+3zOmU5eZxa9ThuZ5kmviqFGSMgklnzos8dhn64HmUY9m27kCiPL9t1RSn/tmz/kqbhzssmmx5XyRC7FjNtZu818y8yE9mwlehL6p1IGxyicdmqp3CU7gxAr8Z8f/WPYRTKj3T12Nf5N6w6b2vFqszYFkhfYHv7C1yMMn4D1TiwPeOA9PxbIMqEG44h9VAefgCbw4CeADxTTpDL59Oiq6vCq+5/e9Jf/+F8PrC9umATWB8A3JtaXy3y9xumUyfIqRSbnNFlW0FJblW8dKb3/I79pLOd0Sg6vhQXAgmxHwxbmBL5LyvwTMCIzpMFtXQOgdv369eobBoHRiqR6p7s19nzJ0I22zTgEh7RC20MOOYRNWmwlgLnz0Y1SKDKGWfGrurFZ+sm0eCyDF5lNIZHJLUNhOc62RGTn7tMmhObFYt9zzz2XkRXAnQlOMYEwM7TA2jjsWdSLP5sFvjBTXwRj1vsX4I5uKpYYrRSGAWyeg9ue1w5sVkMSeDiSXMvIURMSD6GRJjlGqIkYn+BT5z0PSXgHEuPZnVM1KVOVEI4cBmMctSC7IzZJO98WkPfsXYPfKThaXH1wcqRe9agJNd4XYjFG+FcTep4sINaW/jwMnNK965EoR3Tv7iWhC0aEInpH+gwJPRMLYFsxrx696iCtxEfeNaFd0LsMUgmLjxE59qspVWqVMjNDVi1bPjk5vvHFjYWxxY0ayzTZ64b1nLzBx/Ukq2JxGoMAuwYTy1WjHT6VrzEBHOsslwGZkp5Glc5OVurL91v745vuPu/Ms05+4wiPJoYVTLaPgGXXTOYgEt0iU7WatK+znwfm1oeQlUivutPWuwtLIstfPbQbgwlsX8PCPJiZ5f72c07/xnd+MLxkWZlP0co0J8wqPxzzVKAuooVTrOV6Sx7fjiDOedVdlqaVEZIkCgJW0tktU6X9DzvmV4888PzWqX//1o8uPPvkM4/f/4DFso9RfjBfqzLwctnkUMxVrSsD+TK5v1ddu8yTw4K2AN5odmAEFLKWA3xJowBaAfF1ik6n6viwWVfKgk6WOQIilYHkPtzsTLXnY1QfYDSvIJ5++mmQKMtbdZ97U4bbQcEutwAFB0ZrqcG4WjSc3Oeffz4b2tx9993YRP39gGDY/FvJBPYnGC2QFsUYKrCzJMKZtn7TTTch/IknnmD+DMnlZnRaqQIgaZA9PnLmzTOa0gEVbGjr58WpDgMojkJkhBDJBB5y5M0ALvaDDz6YyfSqgAqHAYHKb5J9sTFax0IcyYvjLry4iAn0T1VhlKH5MYAhWFl8toReaBboiexRlErVEFOaSGvBPq1sxHhEW0OPyUlO59wCsfrSurA6MsLPV3mIkavRBYkMqzGKSv7uqgUE8UU3RacMueQGYHpUq3N/aRIjfAlKc5QKa2TwECO2XikfsM/KXG7Vto0vVSZ3pHN8CCbLRG3xEzNXRoAeQuGcpl4tIxXvHPY4hsGsfAoetxjYPt1o5iaqlaWFpZVgy/euvemYIy5B6HC+UK+XMrJby54Iop6zkpmoa65WHL3KqbRsa+guViKdVcI/niCPMZ0dkI1BiKHTPPyg4OD9Vuxg7lNmgPk2TFmiDmVUIIIAAXIKMyMi/gi+Z5WCy0IY3WsAy8sIy5YSKZKoBRm+WrVp68Sy1QfvePkFmXN/9fc3vPCmk44+7Ph1KxYPBAO8JUE4O5J63krV2dPcBCfEXmMBZpDj2GaLdPAfAB24yVpMAGUvqMfkFrAybn52X1EcTFEVHS6oMtO2KQUAlHkdYFCKw+4uaEgZ0ZYAcISGDZjLraFgV4vAKYFLOPjZpIWp7finAce6dNVKPavyYjTGFeRLpsB6/SwUMexd85Of/IQJOYrsyVR950BwVCJTQD8LA1gUSylsbGB6woxAjmjFmIHkXKLg0CRHODlSFoYlag1l0MJyyYrg0xbpEzokIAZOkmM93RjH59kdmnaFtSkLNkE49LQq7U52Sdq5skA/ZD9tHnqbdWXjUtf4JPI1sUCfmlJ9/PoyWlK9Jur+emRqdrYqMGuL5d3DwAjjaSOaaebZDxTy6Wa9uHPHkkUDBx+w4pF78hs2bhxespJnR52NMbkTBXOKRA4Zy6OvkSWVBJ4xbjyQqjpsWie5fIUC931+eLw0ObrygCfXv3T7fS+dd9J+ZXJgE9uWS7pvBrtx0RWlVYzYaR/BUqhWuh6MMLj9cyi5vCO3wBTYDJ/VBHTkFw8GO+vBiUcdft0dD2UGRpmBxPAJmzDxhtntzLBHhprBVaNA76g7jGcf2TnMRivd8mQ0tnTZsq1bt2cL2cXL9inv2MyMq+tvuwdU9M4Lzjv2qP/P3nuAWXZU97775NBxsiZoNKMsjUYZCSShLBAggxD2I9kYRLCxcfrevd/z4/I5++Jwv2c/22D7XV9fY8BCGASSEBJCQjmMUEQ55zQjTexw8nm/f629q3ef0N2nZyRmRqemZ5/aVatWrVpVu+pftVfVPvigFTpis94M8s6sHu506OEUIpxIII7nZ554sXRi5+w6aWHQv33jNQCg5LOvwCkgPvYbgCogILjK8GV7/kwDIMYY2gNckkBsYLGd/ucYYmvMjz/++IsvvshK8L777oswtHxr/ABHD4WRH2QJbqYsBqkJYTKAKkDhJIQDNkhGAxMAaK/lRWlMn5g1kTvJefXBYfNr1qyBOWJgyk+ORCEVj6rJRkbPPPMMxFjUIJsp3PIlkFgkxBFiJSLEOwLhgwaQH0t9yoUjBHomb9QvlNzifBKYtPPxsQiJH4VAAxPKgkj+LYcnm7fHRLKGZEpAthnkmXdG/YS7VgM9I/t4m4uL0i2chqs1JbcE2Y0mzqfvn1kD4UNFX5CSuS09hTo71zOqd3Q9pPTMf/UOUx1EC1sXqzDzxK8tlP3bndQATwDVRKefLCTLnAuR0p6nlHvR7J4O8BgPiFbFsaVPcKq5c75vNw+DSxjsXgpTX3IKStKb55qV8sT22uSOYw9bcteaFZteeaFZHmtmBrdte33RPquqfEiCE1XcJ2NYSCINLcWc+blKko6Oblxnp+vPrUCrieklQCa9bcs2BGal6Pqb7zrmiBVL+X4Tw58MWuQYbBjzyAXODAkdec8l0Aoq8bAeZhSU3qY1WrIINdHGTsWGupMDKMDM7ftV2bXhjTKakqMUJrS7o8iMoLxbz2AAA9eBVPDRC9571XU3JWqTYP5akBwcGalUa/lsHsNYVA3aRqnwTNszGdUfGyI6iROWyKJMZq7sk+VE0+FiQV8KYKlyYLhRm0hmB7dMVv6/b16yep+FJ514/DmnHbdiUcCxiOSYTQQckpdo6Hxxmhzl0rQs1ACfMNC23ilrIEmXYkO0gh1qMUpS0VY9QOwobT/wjdYAZtOcd069YIZOXgatesqUh243rERfEPoHrIw41MWwKc3Vly5qsWrDFk5ZbD5gNPhppdi4c/Dl008/jZ9wnmjPoSePP1mSx5aEaJ4r+3oBtZzjDnMk1CDr+k+igOCs2SM/X9hFMAi44ogyDnhwvhRUotGAufGTEIdZC6XgatAZ4T2sJyFkxoEnET/16MG6FZbseL3AjguKDzdimSkxCUQA3kKYSp0UO3shd+RBVJtZGTsL3FnW/fRvpAZ6Q/ZqcNGw16/dN7Je5s87XkftXPq11q6Tn1eIairmVDWx23av0bek4jNH+XR+cvOWoFYe27xxINj/Ex8+6babb6hONAujxUI+y7HrqVyRA9gYAFjcKhZkUuKZ2CjiB6H2TN2yPQMna1Z69PkDIUJWrdfyQyMDmWDHpuceevK562598ANnr8unCsRVJicZYBiSjS2DIh7zd+Lfc5gUFcPrLbfd2ImsW1yncFdSIiiQymuOCqNUNY4ISgQLB5LHrz/k+kdfLSzdl4Pkg2otnUpWShMcVRSJxGDPaZjODsdM8Zk66BthEbs5/HKCKRMZ1+uq2HzqDOZUR3ow/epE41uXXfvdy3988tvfdv77z1qznK+GBchWZGBPaMcDayqg+YymWjBhVZ+JV6NWKnHUUZJzfpBODZACCVR5lQIadkNEOAdV9Un2AA0ATOkZWIwA1NJOeclg2L1X0eGDeT1tlbMpbdEdbvMG9+25s4rPU8DGZboyejAyMmxNvjgwNGKD7M3En641PvGAG0mMEtt98Dc7CthuC/jGfIht0JQdmxneD8DcXji4hzqcnFAQstN6jftECdzgz+PJCZtYB/EagcV+mPCWhiiImWkwOWFiwEyJyQMe5gOEtxeqH/LW0cBckT0tj6Uqrxfu/EgQ93uCvudN1oBVkKujzsDBV5P3vMkS9rOLa8BqwV0dzo6gKiFmDRInll8E9uZLH11iFUi3wmOcdznJ2epA9kyjPDYeLB8M3nvWO7/7w2uDVC4zuGjrxFg+mWJrFal0hIqbTpDMPI7xlL8lU+FB15qES1m2Zk2eX7oBvVsAEzbr2PHnC69PTNz00wePOnrd2sVaEWZ0gT9jGwMMQxfO9xUt/Odxi9iI5K4Sey6cIcPF82q5jUe5mQwBQvOu6B7Wc6dlObYlc/gnN0uGg3efftLND30rUavwHdlmrZRKFCZL5UGQPS/Y9ZKDVXGcahR6Zdrb5ELAPONOwefdiF7pUPJkmuX1OtpPsnbImUSD5Xrt0mtv+9HNd7IT8ZxTjj/t6GEspiZrTDSa+Wwil0xxEH6Nk3QalYF8nvcdmTyrjECgKga/KoxzXo3UGgHzA1vGqn/ta2BmDfAgAGdBrrQ6DFpmJu4WCxOMlGiuoGRrtFACiLvR9xoOPgZYkwtL4+BmRDXmXAHNfM2Kbg3oT0HgDKQGxwP9IebE96eeeuqxxx7jyqwDux2S4ODGlgmsjzCyB9az0Rk/r2V41pAfbiY/t7CC3t4kMCu47777fvrTn37729+mpMSyj4KCr1mzBgLmBlzpZpmHkPv9998P6PfPcq9F7tPvTRroiuxp0+YoLZ5wmAv9Uws8RNGSHEEHtTCU+YQdovtBb5gGrO4MA1Fp9rRbZZFnt/p6w8TpM+6qAdWFg5BhvWhFdxoMtZT2lFm1WvVxxaxbGK1cXpDP1bZsHMqn3IJ88Cu/dMpd9z7w2Iuv5TPFFJ+MxVRnfIetAPm0fgAgpPsjjLWNOw4HI5sGMwo+xyTpWHfmg7fbxsdTyfrAyHBje+mRZ1+59a4n9n33gQBhdxaP2hhLTQxFPqOuKphXhIltSa1Q7Wxc/zMtWJSRtqdFuBuE1zL7VISH9RjW8IFYtg43BIeZ8DT1Lajj1x96+EEH3P/sxnR+gB1/2M4wxdJZpCBoQAZgnCfQVScn3gt0kL1k6lC/U3nGfEyk3GE7aJ26Zm09rY8HKygjoJ9LJRuYdTWGigsqpcmb7rz/tg23r1mYOfn4I4477tj9Vi8bzev8e/LlmznMR1jiq0xWmN3lMzleLADh4YWQtCB42yIfkMIMAAxqxGTpe/sa2DUaoLHRzGh1IFozUAHL0lH0xB0mZqOCByY0WnjCpFtX0BNziGEFf6zw2ZTMIZXw5wGBOdlxBcpjtAN8Z/Ee8A2aZ+sLZjDsiAV/Iwngm+/pcjo+5kYwYWkfw3oCcQB64DhX+CA5xMbWMuVqyB79cPgPB4Ny0CTzB6A8kwEOrcdMCFYkB80jEkCfK1IB65GENwNMmeDZa3n79HuZBroie19Omh1+Xd1SmR/3LJwm5Sn7np+jBqyCrKasasxvIhFiNeU9P0dR+1n7SnHVoTs8AL4ZniURtDv3opY9XEF1bHz7lkR1culAsGM8GB0I3nP2aS9cdCmHYOZGipVGY3JsHODJqMHqffszC+P2QEnl1q6x5tDbASzcG2wC4PRL/vPKoJrlk6cJzmlPsEK8baz841vuO+f0A0kznA6PuTDLUfgwhPc6ckspXRzSEuPbs/d3IXd9l2m4rRPrmATusYpQXgTwwx8DfDaT1Q2uGewzGpxz2skP/OvFjUns1bOYteczBT4swCYECZkEBACfI3LtQmDZvadBl6lFg4kExx/p9UkyzZShDnppJLbt2Lpk4QJg+rYtm5m5sRqYaQ5Pbtv83NbtG6+79wc3/mz5siVHrDv0kAPWrN13xeqVQWkyGMwHhQJbbWWo42C9QD92O24rRDiHQasG8V0J+5e+BnaxBgx0Al6tz7Fbe6J7yomGiiMJrDy3njjMTOz5Wy6eGFHpypj3guP/7u/+DpMYIDhzANA/m27Z9wya50UEUJ4VesKB43SD+G2qTHJcC/ImCwLJAg89DJRMGDh28ytf+Qpg/Ygjjnjve9/LpgLYMjGADOL27hSemOWwco82vLR9z1tWA12RvTU104vzh40PvzVE3+LjlC16nPvqVEvC/u08NEBFOIXHYInrBWzyZRUHW6svX33zyKifZOc14KsjrJFohmy105G/RXH1TngP6NhsTIztWDg8UCtP8E2khQMBX2I89eTDrt9w752PvZht1PheqgaNQEYYvEPWqfax7Ly/PVOaE3CUgUJn2fPgu6sgbSOoNEvZXBKLmx2TJSw8MoOLH3jspcuufPLXzz8gHaTNJhWGNui2j0Ptec0xhLJHsqsle+Hxt3PQZMlRt8S23MYSetiNR8dceOeM0XWSTPh0kVulnMnl3nHc/pdes/LFlzY2qxWUlckNlGpY5XJIEAsh/Ag9a1Ek6aze3ScFNEVoc74gbTEKIDYZpHkVQIlZaK8nE6vXHrz5tY2lbePs2c1m85OlCeKGFy8b256vp1MU/LnNlWeuv/vqG+9auc+i/VevXL5kwVGHH3zogTq5kwrlhQNrpOw5HM3IVLdjpv3AvgZ2uQZoyfQJ4FfDx3QUhOB6zQggS29G02XVAHhtkLdXJjPQwxb+rM1ztiZ+0LZfnsADUscShs3NJ5xwwtq1a22XMy9FWYwnipV4zxkmiIojhG4HZ34KjgclWNlND8wEyIhV/4svvviiiy7CRv/Tn/70Bz7wATvW0/PEgww4uKEBx1UdHQzJmpB56DPOvO/fCzTQFdlTNmsxXFvKSYhvOnF/C1n/9ueoAas7gQpXj1Zf/cr6OdZIt6ypFICfv7q5WTdaR+YiRR/VLKNCLmiwhSqXTmx9fWL50iKgbelQcOopJz2/5SebJydTYL9MtllnKR0OrP9OvbOmYRgr/0RPy5uPT4kAixwBwVRDdvYMKw6gsuqGjQnfaWqMDI8kK41t440rrrr+AyetPmBphiHK8+nM2UfP14PYJrwvQkdOVjofxa2KMEcgQVkjSpa2BYgz6jCbtUqCXaiJBjf7LArOOPnk711x5XhpMp3JN2rMqnixgdUMUyIyEhZXjppOxdh5gWbxsEavAzU1QRA4IFOqQAB/46bX05nMwNBQo15p1ut6PcKbmUo9NbBsslJjHpHJYUBVK9cmH39u60OPPZ9N1UeLuWWLR9auXnn0+kPXr1vLCwcg/dhEbaQYjgJgBYMdZnswi2j96L4GetcADYzmTP8ACCY1O0G5zqOLIAnbW+FmB1b2LsgsKTCAwZELCJ6pSLyT4VhMLF5YVv+t3/qtX/zFX2xhZPMWKxSpbNpsCxzc2vNlGognJMovf2CE873vfY/Sfe5zn/vMZz6D2Q+S2GyBB9M4c7U+FlbGk3mF5UKUhcT59/1vNQ3MhOy76cIGKK7ABHsofQjjYNwPicyGtWLFgGR3vExmiMRCWIc31BNp3gvrFGg3grr1LdG18Inz3Jv8KruKi35UZLs6DaIiC3a/XS7QewdskAqdGoUE8AIo3C1+Qug7PHE3D3gE0GDf1ASJqPYcE8AEtcWhYs7ImL2YYmAi4tmja6SbKghv1xcltfoC5jqcFlYT4fjC6ptSTLx+OuTjFsMJD8lkqeFMNVC8qX3aFT0jkFWHNmiSpZ6+epND2dLFweFNLz+ayR5cHCwSk6wH2VRw6tv2u/PeJRsefJqTDpvNgXIN/MdoqpEVMxqOOhROT1Kn+tRsixN/X8XCtDQH8D0ZW+UH6WSq2qxl0zl9uCqZHpscG1qy/NXXnrz06ht+5fzTFgyyliYZ/EhG2VyrCfMx9hJVB8DHVB2TxPQZT0b7RPMtjbnldnpB3Ie1LONmoj5VNRGViiZnuWhhPeyKCBN2j4umenLigYA5BgdTXFKxOnfKMQfccK1W2rCV4XU4Q67sldBxUOP7VPoOAMlYxncP4CxtwmpZ9SznhFPXSE03EEzPsBoHOgcH8MKk3uDE2yTbmFOcrsmcLU0jyevom2RQqZRKk+VCNl8YLtQz+UIxs318+9ir489teuTKG++olMdXLNvn8ANW/8JZJxywatmyxTkE4wRTMkPuRjqDAKZ/u0oagmK1E4WECtStXFg+k597JiZROwqj4mRhOV1QeGnJIh7V9+8VGqAVs4XUtn6Cj2d8fmcqMPtTeRJZrQfcQweu3YWI1sxsgPVkwbOGkLZsj/Cc53PsscfefffdZAfUZmEFASDT4+mwe1wMwklLSDxQazEcaaCXZuGKvsF0ioDJPkd5shP3zDPP5CPEzNgJBNazZwkaZDCNEIgjO8uXLGCFI9bPEIyyf31raqArsnetVBfQA6qh6TCmu4OPQSDh5jAhA2K1ghfiA0Lwx688cfTyVftiTlBLYSaaZBRKNdOsDwEiC+zx0jDQCPLpcOBgKGAQ2EOvDPYtGjBtaLycXi4oq4lgXPBM35fhDTrHUddLfHiI8VkH1knt0UgZjneC7ygcgNkIBC4g1I49eg1hLs209LUgxn5zqjZRS8EtTjFtjuyoDs49SWTq5fEdBdUIwDGbKQ4TjgzgWhZjOfIvZOnEainX7ll3qpfp+jc5VarImdfrhYrDueYfUlD8MS3JoqZGUeBHKyjNRG6irmNnSI5Zg6CMdEtFAQ35dRGqGzm647pepWKsIYwannCjXLTCS0qeDDBcuw6pZ9oVlVtH9e4qP4fTpJK1RmWcESJTmASrp1QzGMAj6prh4AOnHvvcM0+/PL4jMzQyUU/VUznwvSNhjQgAKDMbHGI2ahoVQIy6KtiUwfq0m8uAVV0kgxQEtBAdZM8hLTUBV/bCpQuFUr1aWLDgm1fccPa7z8oNOoBcC2jLlfIkJ/PQKGFEFeDIIyWvOAukhllJZ3KugSsb0ycbUhk1s4kyZkUoEOWTp2YeWg7nKuzsasqlmHZBU3wHkizYF5DU7l/1YNxz9DsFrVc5A5ItA1grBemMTarUn0XORAjvtDoRuXSuIKTtUgzUg2NXBx865+R//c4PeQ4bNZ7LFA9jvTqZpK9T8ZCYJybDh2KpXarfhDZmSB/KHhXBJgChLtyCvYlk7TepJ5/IOi/h0SL1rZcw6mDrMtfhbUG9mqT/YPKWC4ayQxS3KqC+YEuJg/BHuVXtjYzS3F5uBK88+tqVP/33VKOycp9lbz/h2BOPO2bVPvmhfMAiPueZAj2QndZeLdFmq5y9BGpA+nKZTwHUcpmsao7y8EeDddpQ3TWTNJkaZ/kw22DfrhYEeEzQnv1JepXdNaSwG9G9axym46kqsIj+dac0APrEWedj+BLYami4na+GEgeRjRICPKRtp5xfiH2PyeQB37Pvk0eA2zhm9TkSxeo4y94GfOk3DbbCBA+zAlJhyG6I1gvcq2CmGRgyOceWhgVyGD788MNczzvvPGQDiCMDeUFDIBkhD8KDwhEP9E+ORKE3nzVJILMkPtB7DNZzayv6PpwkvBC4+eabKeCv//qvWyyBGAWRnSfDQ6DdkgXyoyiUY9MADTGRouJJzA8xriWc5C0h/ds9XQNdkb0vWLwdyO96cEAGXbjmjBooRNvtajFRU4JKYIhWWWEEyuZe3VZ9ZSJVYFyoBIOYFNSCsvvEi89913uEBnpx0cg7xzTCX52cPYn+mTJPLRFUHBjEMroxXt53Sa6YywIaGtVKMhPaMwjKGMNIiXYXBrobLyMeV0egnk5CqNLUC3SOc6FgHmoYQ0j6Dh2fjUtnX9q4eWNpGCyRY0LRxCpD8xDtokRUhwVnYLizUb3WV5f8vObj8dSVARIC1bSlvRB4hLDeUUcK0/EoY5Vg+SKODGdWWgLfUjdUkFu99YzdZAodd6kCTycP+EZgCGr+bGBQxXZ7mghnBiBygB5XpSEbpOYkRP44O0WBsOCvXAlOOnbFjbfv99wt95eTr6eKS8Bb5MfkT/MVzQAB+XI2fVFacSIPBVs7MT2IBiSuGGMvSi1ECyqLky7JRLWZzhZHfnj9HR+74MRBwKzrXYD1DDa8h1ZS5yLFONkJ4d6JbeHOqwASWDNGBk07IDSySDYXNiWq3bZdtWaO0xUFy89/K7WqzuilA8VMhbjwKZmNLLyKVBWH5FkaQIXjL9dfc8tPH3759Xp6sJhZ+PqWzRww7fKjjNBRAgx0NFFWUpe9qdcr3wWHdWoCE2LFj9RFgFqI1YgmKZETQSKlKZ8cqgpnB9KvzIFUimY6D7iTxznzIHtzhA981l+YqF189Yb//OGNS0YHjzni0OPWHcxnsFYuGdhnofB9Og+ip62zLKq65iz8bIKdtyq+NEZkGEe7YsaapN4p6pR8UE45UwAJXfKp8L7vDdEAjx7gD+f6cxmHENICKN+QjLsw9YvQa9aswc4EoMx5Muw3BUCTgrYJRMbD04GcBCIqMBqgzJUomxjABBv0Bx98kJXstWvXcj4MCfHHDdy75N8abJMKoDDJgfXYwPASgM8/4QhhX6yhcPiT0mA9xJww+y//8i+33Xbbxz72MeQk1h5nu0JpU5HWzOZwjzbsI7i806DWSIGELbB+Dmz6JG91DcyC7K1Bu2vUIzuN+abMXdzfps4Ga0oaEXiBLEDBEMAw06wmss3MUKmcvHbDfRvuAdaPl3ZsHhksVMrVVHZEQ2CbM0nagnsNYOyxpUPEQJxZrwirNbe5Z9MN2ftn3hfEPJU6q1/NZGX7cKZ+3tlvP+KgVWTmPkTaQ6aI57ihaw22HaWFwGTwno5kLApq+aFcZRFag0Eqk84PPf70S//rPzZlmtV0AwODSrrJlAT7apYPwROFjvXVkXnvgb3WV9c6pfQdapzAZJ6pisP0wCD10SFykiZNlVMQRfPS+tiHP3D2+tUDiWQ2qJebFYxO5oNSWmqBW+oOvO08nfWkKDfA+Gh/iyde6/ghZI0Vyd537jnXbri/1KwmeczGq5niAK+N9RzalXTKVo+nmo4TwK2mh4jQsZIqcD47/LQlZRpz3MpIJDv44+tvOXb9YW87dJjvN2V4LaCF3Xpa69bhgxSJ2lsLdyJIBp+1+S18hitkPjbuJ9BuWwI98eweHoOqrNWLyeDXP/3xj3/+/1p+0PrNrz5fHFkABGYeWGEFn9cz2oasQntFu63IroE5NbqoSCuQTck7BxFiHCgIyrHpivNbcrHjowK+sHgiP8Y8LN/rWQaupxq17eXyDbffzaohRvkHr111zLpDDjlw7arlixePBjnZVvEGRu9h3Asnycm6vB6rCMbzEgRxeCHCu4EUK/ZytMKwC3WdvwtzF0lqhbbyGvmUGqYo+755a8CQPegQPEql07drsSY2zZ4353knRBIE4ABHQDNIncPa3/Oe94BiXasMrcZhbkJyJdyAMh4wPVEUClMcPvwEFt9vv/0sxKYEvUpFvshALrzEQEvAemYRMH/qqafsvHljSNY8WZBZLhw9yVI9Z9U///zzzD0QI56vERPiPfHYmf0w5KXB+vXr7VUAxKjLIP7MCfuxfQ3ENdABQ1s0jVLtMqLVjcM6zqNx3ZPZQBsRTvt1b831shgP3T8e1u5sdSxdHKkFqbsfe7Y8trVZLZUnxpaODlXricnqK+6o6Gl8dt2NIUV7O9wVBToEYrHYHfWI7GMwIi629Odc3AMwaFZ2DOSaidK2RcXmUYcfeND+q1JpTGts6JQJ8vycqslVH1d6GKsvhbiKc4EdGWOqwVjNt+wbGA0zCjRZ8ckWHn/+5e2bXwfXylSk6a7UpGxJMrWgsDvVV9c6dcpojcXuJUjktXAe1k4M2RtYYYkSjOZiuaaDydJrT779mEPXrz7EzAkIxNZZth1xp7SyW3BPTDyi1U9y/4gRp4z0f3YXo+KJAiLzhKkQglViFJQnJ3PFwuax4KiDCqe+47jLfnLHgsFhjHawDJfhBvspRM6fXjq4Q1zc+i4p9Su0qBVfiRQK43M0jzUk4kQcOUpTCVKvbpu47a771x1ych4TO8xuag1nOMZJ8HBUkw4R/bSih7nM/QcxyNbovWwtya2MBIo4isOvQrrAKGz+v6lMUK4F+Uxw5EG5j13wnv+88ifZBfvkk8OTzryWj9UCcd3JQhkaBcpw6gxBNvI7YaZyj5Q9FTJVAbEwvFZ2FcX5vYcIIzTmPpEhEiNTps7RSvODw7xOwGKKbx7Q6+TZhl0cSNAhB7U7Hnzypz97eNHI0PKli9asXnXUkevXHbJqxQIZUWGbhyUOWSn7erKO3XA+G37IQFnqibKXFa62oymcrwMnFmlpDLjI8kv+6SQK6bud0YDhYzjYqSksdeO3JfCdYbszae2NAWdEcowjn3y644473vWud9E+west6NyEt8V41ssN4JrNzIYNGzh38sgjj8TqnbbsMff8BDPO5A6qxn/ppZci2Pve9761a9fCEP72uHnxWFDnGMprrrmGOTAyQMOsABlwRo+0EHv6uUsFH5sqMO3BjzB44GZKmzufPuVbXANdkb3XC816mj/qei3cWrwnaPe41SogoPagCH/IbABUkdB+k8HsxOREPZfKFpOpfKk6VMBgt1LW+952PnEx2mN7C2GMZeiZy7U3vqLuJifdlmfmaVKNqvassduwWpqsVapsEARWM2qmZEXbyU3hopZYeNqYjgdnsXGP1RQhM1cZ39JMNXnX7uxw2CEEZk2lN2/bnimOkFazNKDaFP9ErYl5Tof6ahFvp27nUlOz0WjRtJ0GsZLYFoFzXcmsE/d2DtAL1YdOC/p8rSmbS+dY5g8q1UqWr4Bz6kwiYbYiPBksT0+V1GEb2no3B18SiDswyHkiVNY5hQidhN4jOiehTyBeLkedU94MFgwGfJ/oox8699IfXl3atrFYGA3qtUYyq0y1O9ohM55HppKywYrYuNcWei0jgcKxyuIsa/y+OUVpXEgihTX/4MDC2+556Oh1h55+9CLUWq/U0uzYQMOIpBlP5MwQqrt+IrrWX5MhLsDMTdrSKxV/07svohQevqkQzp65ClpEkex8LIwPR/HesRn82ife/dgTjz7/+sT2TS9lR5bWm3ken2RD7y3YbEFXCz27G9QuXKk1I3POy2/vi8ykKoyb8YeEXhvm8djCpzPmnhIyo7Tr5i07WAfN5opZ7QHgKH5MIMq1Rn2wMNgoslOgNpbKPPVa+bGXHrzhnicWDecPX7vi6HUHHXP0wUuGwqX4DD1EIa8pC1/jokRWNjzYVqrQzmzJimmldlVgbc0FmKmVAkjEi4GoinwJ+p75a8DaA1WMxQtA86GHHoIX+HXe5iLzF8Wl9JMK1rnPPPNMFuyxaH/hhRcA+i3InluEp5WajQ0N2NowHOD03e9+lyjgNefHe5E8+vchs3qMP5yB0eiHvDiahj2seJhv2G4EYo0PxPgRgK9QnXXWWUwAAPe//Mu/bGv2hr+RGYd6IZ4193YCZjtkwTewLC8W7OcxPWhn2w95q2mgK7K3dumvGhYdDFCIG07izb2b1tQ6wzg6bhvHNHhhEEwwD0A9wyiX45A29tptZWtbo5rMde7Z3WbDbvnMPVwjj6jniOzBdiq1DUNzzCXEiK3UDtl7fVos6KreyFWa1VS6qO13CfswpEQ0ZUEWSqxeYhYxYO7qKFK5y0NVYCV2vRJhJoOLbL3YNAzsl03LHJMK0jRL252zTXYNGozU8jCChwI23c7LVka77L73+upWs52QPYe9mKJ9O5W6YnrmpEgV1iwpsa9ocGB5IZNVNWXYqMi7jantn72VWRlFAwYpubX0eELfdH5G3BIZE1ssYikaKWxx6qxyZZDxoH2C959z6pU3bSjm8rV6hb0S1CxplZdma8L1DnXrVEu8BMIq9MTYWjhReIhtcQpnmpTKNbO5p1967oprbjr2iPOxFM3qdGfm0ujMGjBZWeMJm1BM7Nm9lrXRtfjbE/M4WK/lo6wI/uo9EMTV5+ln9ZRqFDfBntFCKlg6GHzxdz/3B3/599te3ZoYXNAIshjksL+d42vcPAsNSHHGE+1Z7t7j85omSUz/ngCPq8FYNbn6ItzVY0gY54w/npysXWwCjFKqVCfHx6rVWj5HXeWwqGmMj5WYrgwtpUMoVcuNei3IFvkkz+uv7Hj6hbuuvWXD4gWjR60/7NS3H7/+kCWD2YCjPoeyMr/RpJij/NWMqPEmxssp+g0rD/njcYrgGaPurTW4q73KUMjUxC8ubt+/cxqgtSxatIgF4EcfffTFF1+Mo+GdY9xzalqdgXtw8Nlnn/3P//zPTzzxxOWXX/75z3++ZVkaAkCtraabeb0NSRjMcNb7Aw88cNBBB7FeblMUeELZ0sjnIhwJSYWz3HkP8OUvf5msTz/99JNOOsk/obCyRwaP5XjIIYdAwwk50P/Jn/wJyRHA6C1feM5FgBYankdeCLCxmO257EOg4MwxqL4Wsv5tXwMza6ArsieZmnKn1L6JhzRza8GGmOi7bUcX31OscjBFiu/mcCp2I8XAGASFYqJW3h6HVj7/+DPjA3v2aJhkvxfPCSWbw1XlZ+XJhqa55IaYNmC1ErMkQJAvhXl4YpPFwWp5PJHON1nAZxNkJBbEyDfvBxr+ysLBAjzWy3hPq3CxezAIn+jIFIp8eIdUJAX3DY4srFFJ0oZC+HUHkqBHXkESrKK9Ia7X+upep04TbTXOYm0C4SN7Gwc2ojVHtxie5GQWnT6kawLDrMb45MTEJDYtnHeCEQKH03BsC4Y30ytKs4vpIZ20oxqa/ojp3uqsE308TJQqEjXkm6fmZa6YRkgsZ53XhrLp8SD41MfPx4LziVc3JzMj2ggpXEVFprWnliqHiRI52MXjYQ0GKyP06SKIc9mJyDyubaiFeKdwtk/mBmtJNhfn73n0ydvvfunUY1csSOstj8YmHg1xY9UaD6965CL27qaXC9mRtb/OnFRkEYWTM7qZ/jtD1HTCqTtk4IYmMD45ycroEavzF7zn1Et/cufzO0qsWajZuAp1G54d3pVREjpwkhPATkGHfLXtAQ0pTm82vYt5fVjoseJz4z3Ob9hY6ZxyQmIVTQ+vri4fY9zEPAPoMDw8zOoggKZUlVFBZmBkYsf2IMGJRnxjmLqCJE8utdJYdWIzmxWf21Z79vo7r731rkPXrj79pBOOW3/ogoFgZDDg7EzXYlgMkC/FnM7yCaUIf6yHR1CTBms2k2k6Vf9uF2hALdAZq6xZswbrcBbIf/SjH1144YW7gPW8WICAOZnHlrSXLFnywQ9+8Jvf/OYVV1wBRucDrqyRI7ABWa62XM0bBtvGigcCZgL/9E//xETlnHPOWbdunWvk1rDZTDINW89FQOOMwQ/E2PlwRD12OMx8PvzhDwOsGbURwyzdfUY8CBBD84lPfAJiphmnnHIKsxRYEYX8tvyP8JZkLmJ4GnTC9lzeG1xyySW//du/baY4phBP0/f0NTCrBmZC9paY1tmNy1warplq6LCGiI3r1pO8+a1UqoyFjAAY4TAM1MoV1vJ1VFqzA1JkwbSbGL2E6717fGBzaU2yTleIJbme5Dm68KzwDtR+WDVsZDw5LjQ7UR0DaxWSGbYZUEjW/9hxmAcszNe1V9lcairMjUMMG81iOl2pUgs6TBOcxyrCtvEJLQdyK8wK9hCuSjY5MLCC9c58JZ01XY/1JX6d6lGhncKlKYoVTt0M/umGc1y1pE1xiZOHQLsWisPoh2rilnNAEmmOo0nVmJqGUN5wmpNjbloxEWZVRJwgXr+qWR6eyHGDYAJvlRIDHQcgA885eWn/JcGZ7zz26YuvBKolmUI6MwnNQsFgJHAQk2Qqo1OGY0tKCjqtHcazpgG03GJwk8ximFHPFEcnKluuu/Xu49avGEwHtWqjmEcyw/SwFU97nqdxJ3QOTrK5wdVoW267MRBZpzgVQUozrXWimDGMDTEUJNkoF9LNrPO+/5wTX9068fL196ab1bosUrLMZBjw3d59TQ9dHYVFIF+g8NzNb1pkaakCH2vhpiVXNB+jklqIXZliVCsl/qCAnhOJNT9MJrLFIeaztIxUfpiocfVK9OL5dHER8nI0FC+sJid23PnoC48+/fLCwSvPPetUtgmtO3hEYF7Gl7I7YlMFZwfJ2cOnCkBb0TOiDoW2KwripUaR9t2u1ABAE3ZAXo55OeKII55++mkWyE8++WSWnHdlNr3wYpaIVLby/dnPfpYTZh555BGOmkFIlsk9sqc14mAMPVc7+RG7nT/90z9lZZ3Psp522mnge2A0CUHAtGeD1L3IIlpSkRyM/m//9m933nknkJ3vT5144olEwZmrAWt7h4AfqciLHa68NHjHO97BcTp/+7d/y/E1hx9+OCZPcRROWXq1peGcH+x87r333q997WtogzLC0B5Vydp3fQ3MTQNdkb17rPRc2dOFh+Yl55BDO3PFtLsmJ8LJntehIz0S5MeUnGVzGn2G7XVNbOY4blnMC3mOb+C4NNZ99BGHFgeHlhC77ZxvR1ICQc4Cz+rs5uYAHgjXYcTpnC8L3AxSnSYhKWUd6hBkSHIctiAVRv7CUKJSwzCHjoRCcuoX53vNLB5pIeA/ajSnatIkaH8JAgAAQABJREFUZCqdaNz/aFydisLnq3VaKLsggGXZ3MRkiSkZ5ylYrzoxMaYzshl5VQQhflkLu5E4ncxjqN7uTML28N5CutdXz/zVlttdipPoTWkwpJodWyEP1ukBL2yaFSbDPsEtfWFtwDdX07miCo++1e/LysdwZtRKUEfkhYwlKJ11r/OGdS67Oy1QI5B9zdTVkVWTWo6UzF8HZ+Xlah5PgWA6RB1hXZ0KKllJXXXR2mUFDbYOgpOOPuJH19786OZN2dEc8xBsrtIFbeeoclQFW2gdRwqimo3pCv4+r7iHInDr5TEVMOsrVzm4lqNQc6D7m3967xknHXf2CcsHChlMuGW4hFS1cpAvqqyxXOKcvZ94nznDapDVyI0hkeXrr3GPT2se98JJXinNac5+nKpDWiTHacBWs45VXBg/yw+p+JNUSlrNBpkFueRv/PIZL22ZvPGeJzlQMlsU/+JAgdc/vFtPFBNVnvVEAmTDFYt2rgCIavR1SW71ILva5NpS3V4ampP3xz30LPFb7xfbiKcPRME5JOcp0/xdUx+b/ujdj/sopjuCWAVLsVPAMa7Vs1CXddRSJsl22/xopVF5rVr+6je+v3r5ouPXH/aO44468rB9FhTV5Ki0BXnYY5REYhOMawMw5c7KhDOq1zyPUMkXXZ33LXcBBfK40chp7XjMBKVFC92eR9oDy+FcDUqyCA1alT5dPdotC+QgV8DxX/zFX7A4zQEsJDHbGCjNoIVHACZ2hRWfTMLF4SmsuEVC+NvzwlI6UgFtCbRm5sVoEZ5bkpPKM2QN/nd+53f+6q/+CoN7KzhYluT4TX44Q2/8b7/99q9+9atsFQBV8xUnXkHAkGcHRZkxDGwRgOS0ZcIRDAL85MKLApYRvXgmGGwhw+4Fu/Yrr7zysssu4zycj3/84yB7GBqNv5o83JoBDwRr1qz5yEc+QnYXX3zxF7/4xfe///0XXHDB/vvvTxScCecKvRUWYcgdJpxrCXDnXJ0LL7zQFGhZWB3RLbzzne+85557sPX/oz/6I4p5wgkncGY/ckJGWYyYq5XFqg91MdvhiiPEqxcysrB6wYNglgt+xIOMK0l80Txz74HAsoYMPjA3bu368Un6nt1BA12RfYtw1qR0tQ7YNTJrWy2U8VudYs0o6pJ4y2yMBqDBpl5XgJFe+oudC6Sv54nSWNLmptr09Khu4dOp7A5RhOx7cV3PxumUL8SyJ+4kv8F9imkDKLdoUwukEDOAspIHpppK6H2RvnuReXoXEE/p8uzKUihVxfKZh0mpMtcApDrn0TKCi2PIZlxupXdRnfQT8pvzzzzqa868IdRaKZjGkJRNyNRAkJziEUkpqSa6Z4AvB32ympnWB3p1vpObHarKpBPPoiVz4uIL6i2x/lYq7VonnmrK46pAtzw+NsXSjRqPKsIKJbDGDYcy8rUgN5/Yf/XIL5x79hPf+FFQ4+OkE8MjC3bs2JrNDfB5UiytOQdJTEjuHtcQx1lQL1dGgmw2Pzm5Y+nCZZOvlf/tokvOOOE3mb4PMJOR1vieEtdwe0MvjDvQoodZu6B4srievQ7jBPP1W5fClT9Z1fMpit/9zHu3/j+X3PXIc+xQmSxVJyrb89kMWzQY7pEZx6ivH3RCLQJfzF4nfKw0bPdaunkIr3aLzNY1afmFd3QqAk1BSxS8UAQnIaEaFpJK2Hoyx9YTYH2QANxz8G05lcjWGpnh5Qe8sOXVp354/Q2333X8kevfedIJx6xftrAQTLLmqkEgYIF/sKi9OmoGwBQ3F9UtGfLQ2XucXp4Cpd3zHYDJkBNF4dmh3oFZwDvwN/YY4DCagSEwrrQTT9xSdIAjYAsOxxxzDGvzeHAkwfE1JV66Ympy9NFHA0A/+clPchL8H//xH7MsjQEMp08CkYF6ZGTCsAgN+gR6Pvvss6zx33rrrWBilnjgA0Q2FBgXg/2jCAa89gCRTFvE87eGCO3pMwmPO+643/u93/vKV76C6fyXvvQlzFrYF4uZDXCWVCiEqQUCX3XVVcgDJibtn//5n/MVWIQxtuRrz4vJT+7QgEEhwDFn+IM/+ANeWcAQK3Z0i/A4XgJQTE7mobxMePCsXbv293//95n/wMcL3OKhpHAg0L72BVt20CLA17/+9e9///vYxx911FEoFvnZD4BWoSQJtfPSSy89+eSTmBIxM+G8zo0bN1JTlB0lQIBaYIKfrDnth89U8R2um2666c/+7M9QyAEHHADPFStWYKuD5BQWtiBs3jMwJ0E/aAY7KzZR8NIAAsoOjbUHtIGfQHRCEgI5L5/kvnmYuown4S2OhAgPDU2Igptroenf7oYamB3Z0yBw6n1jjhDfFOL+GEnojR12ThfuBhLGCY0SQCWudPAa1Rwgps9PsSSqiDYXDXmtEd3CW+mm7mcv8hQtvk7CENwtXxfeIY3goJwS6s/d8nEZys9zqo4wgvUhwop05YSxMB/jwqZfxFpjJsw1XLc7wq3KvKedhhA/AcMfzsEciDXmWtRTLgz3yktgIJHvqb6UqjfXub5CAXpj1YHaIXWHWVQ2VMf6IqBKFUQRabLRn77qA2hzH4TSCrcrvzHkThpv0TqhM7iWWuBWebawmJ5eJJHzfgEuKm0qJqRgB4t8LOdziqpgVBK7t9PfedyPbn3kwec2DQ2ONsoTjVKFr8VhK+OKSvtQCt9I5qfhXC6zbeuWfRYvLZW2lZuZh596/rLrnvrQGfuzelbgjV0S65RwMYzWrCWtGYssgaY7Cu57HmJMD/GQ6eS687pq8bdTziPEnknUH5VDdvSoflkh+Mv/dsF/+cOLbr/7oUX7rBqfLCdTg+OliezAAiyWIOYlBq9XNO7ybshBOjx2zr2xUqFiNT5X2aJuZK70gat9tZDoHyllacYSiLos2yLudKjG7+b+mA/xIos3PXzRAp82Cb++eeOi4X1Gl6yc2L75ypvv2vCzR48+4rCjDlv7kfccPlENBjNBpjjEoatYWjLDKY+N5QohLGstY6THOcu/ZxOCnCgAUIw2gB/gBYbmClCzjxYB+2gk0OCBALKOBSaKaQBAFjQJuPQgG2JwOfzB34BvAPGPf/xjgCP8n3vuuZ/85CesUhumJCGUwDgQPOCPK/QmFWYnGH8jVfxBQx6SAHABo0QhgD1oJDGBO8ppgcYHDtwCFk899VSSs/J94403/uAHP8A+x5QAf5zeGmzbRhbsFMLihR2rTF2MDznCChq7hcZkIBAx8KMT8O59992HKT+bSVACNDiSIDlskQG0TfjnPvc5bOvNSAlhjGH71eeF2JY7dkHYFAG+WfVnFsH85Oqrr0YAigAQRzkoH62CqsmRk/KZYqEfjvBHHvirB4j6fZhTF0jFIf28V0EVTMC+9a1vwfzb3/42NUUFwYckVDScoYQDq/WwRRhgPRMAJgbIZu3EpDWdkBBJkApHKgIN6OP3AuBvd4gEAY72wBUC+JBFO2U/ZPfRQNcWTMXj4t0st8it0FhTEI1bXupWpAhmagzX+pDDi24gFBwBUrAsSi4ORLlIzpmI5xrxddlGN7HfbuExkhZvJ+4tJK23HTrTbvnOEG5RzqwDrxzjojsMUPmZcpxHKMHdoq4IzTsdtcrV5R7OFqM8BEFDMMSdPZmeoJ1BPCryh9wAGnF6cL++VKXjczq4KG2HqB6DutVX5/Be89WrE4fpDRyjLr1zoTnqLYXqh2Ya/WH3Ig3SbKVTFSOsHUgAaa5cHZXRtcTkES8GtwgwAwvFR877TXIXHE05XFWpE2bMk71DMFmupXLpJcPB+951xhP/8z9GiqmNr28r5AuYQY9P7sgUBjGjVrkdf2RwEzw9ofo3Z6cZuxZ6NVRs3j5WzBRGl+37P//9ohOO/m/78gl2Pn/A7Ah7pAh9ssEmNa/9JMhpLdlE86pokdQrU/RRHH4rlDzmol4tIpnHL+zpS6VDntyMrNqC0UTwh7/70b/75/+88Y57Rhfu02yUs8ksAz0vxclAQy/TRwdKWKkz6yxanS8XouHn2ps0vdCjB/dOSS94wpc8vknTbHjABeWlHWlPJjq8oZOACtAqr2oa+z2s8Zet2r88sWPT2Fg2OTC8jEXc6k33PHztjTfevuHAj17w3iPWreSbdiOcEMsRv4C5AbZx8ysDRV0pYssXIXor8x5MbTgYKGlQCfCHfsF8rC4ThdkJ0BNHO+EWjAWe61haTwD4gwaGhttAY4QQayv3pAX5gaHBoJzFftddd7F4DNIld+hBiizNYleD4xjKAw88kGV+lpbxG0+SmwAwhB55gJiseZMFAsMHAuQHyBp8bBeVhL5JQw8TSocHm3ImDyB7NqSyDm3YetOmTXBACWxm5TjIP/zDP8RSBVhJIExIC7cWFA43NdAgQDaiEI8iMB8AcDNTAgSTyqelmHBmngNblthNUaSFxsqCv93ZGjYE8AGmkxGy8TFaTslk5ysTJ150mBKYPlFr6JZbE2bt2rVst2XvLyichMacUkDG1SSnvNwiz0c/+lFeIFx33XWYCbGET+0w4yJfyogMpjdkgCeGQFQTEzDW9eHjK8sY2pW84EnT4n2CtSXLHT7Qz4DUSQ4B0mJoRC2Tiiwsbf+622qgK7I3iWk3kVMAftcXR373GBvlDFdn1tAhnnFBB46YxY4DEGD6ehIrVE0AWpyy7uS6hXeipQBMJbpZ+3RKoQ/Wssq4C+QxOblSYhyPE/lpuy32CXLc4tMN3ZIL6pCpo+x6EV+pUf2a/NMryx5vAv1z3pGRrdPHo5y9kAU4mZ2XbLAZ58rZMpqZtTnlvvOu1/pCHteQ5pizs8Nm26crVzRDQXK34VE1wnKko+EEGciAMKo2hg4lCF2nwkdxM/9aBXGVzDa7mAMz0cd0qzbjphqIZBpXpbCsUq7l2L8SATV9YNQZur39uBXX3rDmsSeezoAlE4VGrSR01mBcUROMOOjXSeWmCDMXY1psg22VfNiIk/UGC4ViIVPb0dy+vXLFtXd+9hePZ4ZRK2Os4tpnrZYgf8tvGofZbyg+bdiUYJ6Zm7RxFD1/kYbjOgwJKLI4zy5AnMIm5CxvuyfXZne8gmsUE0lOldl/QfDF3/qlFd8avfTqG7JDC5lK7aiiaxldMLhqnzafa8WoBTgSGecIN1uX4OShcuLZ7XI/O5tYfrfmx4OMAnwWCIlxIbfhM0UUHzlDUM1smfX6dqtXPlvHJvkwSX5gtFmvjJXGm/VmJjc0Mjh412Ov3vTFvzrz5Ldf+CsfPXiV3mbQKGVPwO4Te21LYj1PyEDWlDwqvJdjr/bY8jbISe2B/RjF4he+8AWwJn5bg6dtEGU4Ek3YwNGuEuNDrKEukhglaJXjj1juBVkayge2gh2x8cCA25bnMRQhEExPWuAjgJ6dqdwC5ngiCDSkDk9y8UjacgQrY+Xy13/918SSBMGgnwEmQkDR/NNHuQxqW0ZsHsXBE7MWExscTxRvIRApXmrC48KgQMiQjUAYkgXObJlY4OcQG2QDhcMZAiiJQk4CUXjLJARWVrR4dnE/MtstWbDYj58c0TZa/ZBz6JDJCRMe+FgBoWFjLsgbCcmdhFyNCXqTrM6RtVev5YJ4559/PlzRBq8smIb5mmVugOYRgCr2qeBpbQkPWRgTi6VSeCPBGwCmBwgGGY6omevLxIPsN37jNz796U9zC2eu8RytIP3rbqWBmZC9mmCbsGqRrl3SFC3St9E2WgXwqtmt/IW0CgnbtOvB3VgCoDfDW4cRXS9v5NOu3VBAt/BpicMbiUzTZGByb5VnvWq86UmeaFhicCZh7MpSJqpwg7auUiEIEV06WKYrEkksOemDYhGKZ25DnasXpfUe3bhbqyjCrcoi/Vt829XVDmLE1aqlu3DcJVxiucGewoJHWENCyHYXZ9AeO7eQ7vWltUYEaatBIEXH8HZKQqRwYC3VgTj8Sv1MroR1cTIndr/uwlKTW8OWlU5Yy5RQCSPnsDE3c6oyXx2W2lcKnrkozqgQWZVBS9MPjj0A+kECPkCrwMjglTe+ig6CRYPBuWe886c/3bBkxeqJ8g4ARXF4YQlzfG0eCB9tflTDejYJ6ywOOlFO0x3tNp9KVSZ2cHA+4w0be8crjQVLVl530x0feNfx+w4HWT5rBEPecTT4IFqa+cZ0BrPfIVI8a39rCmlJ3y69kbUQc+tCOpSohWHLLQn0DChUb0v0oybBw0uXVp14bfPokuXLB4KPXXDOvvut/urXvj1eagTFZdpI7bpQ6BlcefJNAK5WNKf1acV0vOd26VJfHRMzW2UN3qbupiu1AefUG6nrUxsIpQpkaGTfdGM5ps6U1+ETzQcwscrIOEGveqjX/CDnrdZrVU7UmawPjixbdMt9zz76zP97wfvOOve0IxbTDJoBBknNENzDn3xsYs0EiSEpfL5Mkr37SgMAZsWhMBjRYJPBMrRqt9SCEXdUCFAVIA5KA2VCALElB8sC6z3KxwMWBHoCQ1mxZgWXJXyMxUlCRhATG8e1YDh4GvbFH48yqcykxINjay1MIQzldxTVaDw3RDXnieHJ6T3cIq1FwdBieacB2LWrp8djwsAZPwWHOQoBykPJHAC9EYVIdEoQwJMrNDhfImgIN9koMgTdHLHGAfGMklsEMFZMlvDz/oHkxs3z4dZygZISkYoqgwm3xsq4IZXxtxokljqlEnm9YOEwhMYS4rdACzEOxpaQeNaQ2TwEPuiEJhdXmqds8VihEBvOsCWWUpinhbJ/u1tpoCuyp/5aBPUheHwLi/tb6O1W49x05170h0EO1pIRq1iMKYwl7GdsAIHbnc+9JapbeAtZdIsw/AFGwWd4Zr3SkHnIO2ipW74Mbi4vrhSj5cp8nd4K+z8eD1YORKjRUGhSS/mUnQSuU/FYLRLcfo3f9LD2O5NNV5cHHqsv72lPYiFuwV71JaCoAVuyUF94ONsRv0CZi4Q14dCnsUNpq2JRWvHw7ZTrWl8JrSd2qEE01DG8S12Dxlk7dC+I3UzMJqKwYGlS6hJ01jIlfxgVO2Qj9Ix6pKYZnatetYBuDv7KIhbNLf10LKDVK4LIRWk131B9OWf6kleL4xrjcdoWqUqU2DTlE9+27Jj1hz/x7EscjpNIVTnvR43cTYkgpqk4yrDx9Aq9h4pZ3qEvXrJ8xzgGuJVMYaBSH39t+/g1191zwbuOWcxniwTkZF+uvMhppuJK+HZnSvBdEARxtbTTG4HPR8TuBo85LwO33t+RT3sgnHhIGEKtPZiGddeoDiSrjfHNuYGFS4eCc04/ZNHK//rlv//f22pC8whvGmD0pXLkp6VJ8zBwMzW9F3L+GdtDuzwuxJe1S3wsuM6nZ92DbFlztcfZQQTNeuFFCJqh1vCktaWWP2EfvknlVj7oHBKAU7f9r4LcnBOUSGJZD15p5kYWTDZqhdEFWya3/ut/XH7vPfeff+5px6xbwQyT4ilrln74dXfoMsGCfky8vd5r6IomQRuwJo3m1Q5dq6Z5gFBBeERBiR9c21EngC1bxjY4aDSwNeRNlIFvOAM9gfXgQvzWCCGDHv6E4wENww0xLFOfnXEGZeLx9jZwNvEggyESkpHl5RPGPeRF1sBK+MMKAQghIzw2J7FcDJUSiIcriJzZCGwpvh1/admRo2uoYQ7wgZ4QklAcSkFCmzXBHA/hlhBKI7PklAJ6/DBEHiOLix33Q+CFRFdkQVoI0Als/ZQGMgtHJMItXwvBb/VoVUC+0ODIFyYwN6kgM8Rv2RkT2FoqWOEh0MJJiyOJOc8hCgh/LRdLgh8y87eQ+VsTgLwoKVdTpi+aJ+t7djcNOBgpoToDFQc8RCOPAJDvdaNApTUm3a6iaHcO05OEUYHlLpjLLIcrlpxJZsJv0B/9gGWMYbQ8c7n2JoyDKtKVPLEr283coSrYk+IJ/RAwmGtgc4gCjymxXV0K8brXTQtheBurIBE5p6go3Mi6XqkL46y6UBaqHfOIlWqfW5wLV+n4o/56U1EP9POpr7nUaUhDSdgxSyncPEFF062rNVdZlFeVKHDPH6fXa8DVTMwUEasQpfXKscXOWKyLdBcfaAkIo3fmKmjj/sR6Rmf0RuJSWYu2ZLH2g5QVIDvhzEpwWr/BFoI1q2X54APvOm3rppcyHFueyU+Mc5ACQ4IeDSbV2jfBkrOEkmZmlKVDZLXeXLRk2RhM6wxs+gjrRLVZTxevuP7Wp16p8D2YqitmkOKNdi2oh0tx1v9YjFNGyNn6G4rp5NBj4l1cDz6w1aOqDN30RwC9W0VH0fYbo58eMcsdWracpmoPxLNgNJlxbzDSwWg6ePth+b/9088PNrbla1tztW255ngmKKMBnQwsXE8XDMjH6ouSybneiWUOSh9eXcPTrSq1s0RhHVI6atKu1q6iK2qY9ideTuPGl6v6xZC7Wj2xuuUJUJScQQGuzBY1GXGPEOGgBJpTtlDkL5UtNjkLoZlpZrK1RK7UyGSHF6cGlmx48Mmv/vt3vvr1yyfY+wEY0rG/OXZ580ETCaxyMR3lz81r3GyDTKM/miZ/tWhTloTZOxyYKQ6wqH3KZUgUCAiwsxD8UnsnB71hPjyAMFvkhi23ADiD2oST1KAnlQVPoiCADFAI9jUO0NgtBDgIuDIfwOOdJeQWIaGHgLR4LKM4xPRJzENexhNinNpMBLhJZRAWSaAhCp7GigkDsw6QOuG8agD+4jHQaWxJgsNPOGzxwAoCEiIqCckXboQQBQFQ3pITSAgyeGKTgcAZnBUfPtSISWhzJzKCD8rnaso3eSgLDhr/8sGYwwFK/GQKH4Qxj8+aEEsCGX4cfOBMQhx+rkZM8aExJSAeeUHs+RgZseTClYREiYUTgMmSp2zxQIkOSUJJ0ZKlaqHp3+6GGuiwGh1K6fCNxgYWLplz0n/zLGFmafBGQFz9roAfD7+6ffXK6oOnX2k6HYsNMxduI4sNIOpleBL00+ZcJ98WqgzV9czVIabkmZrazp5QJeuQRbd8IVeRtEqqsVlp9VKbFVGKpW5Sq/by2NtnlVeaDZ3XFaOyOHjx8IVxzsczbSFgHtjxDHPwOiSOjUvmBnBEceuxYmP14GvDe3wWomEYEJg2lGIFkcRCHlZdjk1MSpWpp/rq1h7iYsT8FJPsO9WXpOrk1CI7ODTTIRT9SEOKMQJqz92onE2WJ9VMhbhUSeiGJaFqKUPNhryIZNEzw4mR07hzI7gjCw1BHy7OudqhQIRo6kSjx0vv63Yq8rFPgSsnZsQ+zGXqh1hHoKt5Goksn0NqcL5NvZoKauyIjR7pBjjLpcToAYYhz3xT2Po9p+7/7UsOfPSVyXxh2baJSj7Z5KSHFKunCT4LTTPApiKNCTipONd/KvuYjyW/6M6ag1VsaoKdCXyvWEcnk1bjUKowWGuWH3/11avvfGzV2iM4D4JVxzS4P4kgfM4BeeFAeXxGrrrZckNoMtA7BfAHxySWGZD4mK12d7jHWDUUeqA0dUQy2a927CicB1G6lrOfQECE8S/FFI/5gmpC+rEyTOcx6536LlNu1Eyx58oEfOCJqs9wbr0eVQh4kz2wKPjuV77wtW/95JLLr9peaY4sXZ1KF8eqiUm20AapXL5I82Lle4BjD3mT1KzT1zbBse5ZdS3I5eDajQqmwrsQTTtdF6w3gVpHV/chpOxQg3owp1s1RTzmd1dKrSmEalD/7Sqf9VdRiCNQpDjyrkyZujm/wmzaZVNHMiCldI1AuUI+q14wl6aPSpTq5USmkBxZ9tJkadOGh+557OlPffSCs05YBVhoNrP5RD0d1LPC9G6y18jXq8iVRZGwc7IqT/onRGBdH32GT6HJLUn3HmfAK14eg5szt0+wlyXxHrs16Im/Jdygp9HA2bLg1kxWDMb5WL8UbWT+1hPEuVlgtyvw16IsiS+s93hJPE+fxDTQPn/wSaywPOjgUQrCY04SIC/MPX9y96XzWeDx/m6SW7jPK07vGZKLKdCIyR1n/ni4zyLOJO43gjjbuPw+ufeYVEaDEkwPPtY8RuPlN2KuTJZaKOO3Xvk+sF1OH9X37CYasCGpozDhaGdjnuvzHbEGA033LVxDJs6Ni12vHdlHgaR3YFiwZqoPj2J3/a+TX6LO8a8XCTQIoTb0wZCswc/Ug9eFSFUOXYQ4UIRWARr8nYvGMKdvhSg+inQU3S4RJ4tXBSltyN4FOlbhIN0aHmUktbBwaH+hilxiUIH7czMGZ0sEiHCl7CbQLgqfYzXNi8yU4aAD2F0ldM2ZSjAoTxHkd9sbWfTWXttEUGMjqGu0roBR3bjHQNXsQkkVRUQ+aoQcrKJ9dUOsBuHajFqOUlvVODZdLq5yLY4t3uJqqUx8q/go6VRFS2a+MtaczDRrxWTwe7/5a3x5lPEP40uWWlUyvTtzRZdU7O+cKkLEbZZfGGBawhmIvvkiGJMYdssWFyy/8vpbH34+2NYQfGMDpXTbYs8KuCdPNV05eUOdWECovfBGhHORcEqfsc7KqglOU7Ge7Tw80m3055ID7ikgh75zFfTnBzgD8uLAnM9/7My/+eP/ct6pxyUmNpa3vTyQagzmUnymr1yayGUyI8McLMMHrKqgV9bSKCO4hOuUo1txjlZkHrSOR2sFWkRQ29OUBjyjUloIwqEr/M6JDCeacPXBKdtU7q4u3l2sCsKrzCb5pIP+XFtGhA4KVCDfNnbdiGfUTGSqiUwtWaikiqXU8Auvl/7gL//+L//58lcnNHNhYoPtPZ+s1WREX14TIAvTukpWY5CQmqvsfWv2Xkt9z67SgG8/3rOrOPf59DWw+2uAEWdOTiOHcxpLGCbcCzgCvKcrlyhhC4Fn2BbeErDn3UYjUqvkKnJMGzYwtxLN994xV2J5OklAuPVx5hFZJ9cpaSe6+YZ1y3e+/HZFOmC8K/bMsgmO9w52O8rnM3KeUOXyz6h9nwqecX88iy61GpHohUZyfPtYemT0yEOKZ570tuvuemRkxegWDivM5bGWxhwMsK3Vc2kEcA+KmlGmiLH/VYcAIFf/YJ1DGJPJZR9/6OEfXHHDwb92ml4Sk0uJ05V4qwB/pGp98dO5dbqCWzM2vqaHeIiXxHviupK/twJ5NrvAQzkHsgGnSR+zbunKlR858o6HLrv6xkeefbGeHcoPcXpJrjy+tVpKDhS1hFaqVAaGF1ZqfNoK2MuSPFUi0W0bkipL1lPSk+rKKVB7ePRKRuC3xVlaF+ixuHn8bUuKed66qjepkDBSNzMc5o6Y9PB6QRkypagWhxZff9Odk9vHfvUjHzxk3/zmEsfeZwaTA0nmn8lsMpWBEEYq/lSBXGL3NowJk2YrfdfXQJsGrEPgap62+H5AXwN7uQa6Inv6ZHXL7upGjhBMKHDusB7tubGnXYvi08l1Ce5E6sK68emaYBdFdMyXIjHYuKWyqWysRC303L5xAMPn5TzkPw3TI5knmJLS+zpXi4+eq2emLObKY1fSdZRH9RWBBk/gPWSP37udqS+YWGHkcYzElqCIqYXrGlF2LLwlmmIlX8hiepShvY48kumcvpQ0OR587BfPe/K5l17d8irnPgfNrN5TJLHgFI7UNEafIUIasJTgVIuLZ+ejXCEF7XGxMVVbFDiFc2TBwptuufX8d71zZP9kpREU0pzeA6HWfd37gigXl5yIaIVZVPAMyyneqpcY/7CaXMy0C9o0jCv6KAY/Lrp7U3+RgQ6XiRPvTFaOBh961+HrDj3kip/cctMdP3vx9Zc5z0gGt8WhTLLBl61YsE9lc9niMEXVWw4ZwajQ7oAtPABbLebjMYM4BWGDE/u+xJTVmGpQCggN7Zw5Dbf0VHqR1IvrpjrJ4+qFqxNJbLEEVgZqRVbJBChLtoMWC4Vcs9Io5W+/8+GNGzd/5EMfOOPtq0hSDXKpho7ZYTegCe1WQBrO4I0s1Ehol+6qdiNf3/U1EGnA2mF01//ta+AtqoFoNJ2x+L43Nw/XFjdj6rdupDBLNG5qAHUrvqiOl+duuIridpGGrFKMWdxPCLc+fBfltlexMf1QKd4ExXCKFdLq0euwp5KrIlwCeZzXe4xPy+2szFvo7ZYrCZ3foGxXNjXOuc8Xa9VgOB8ctjpx1juOqmx5aTDNDoIKkLHa5DyXdJU7WWqws6Dj94W7MrcIBlc/vsrD2UJBolJvDI8uLNWa3/ne5cgKVOXQS+zR3cyBdIKAU3xDc5GpgJCzMzmLFTYsdStdp3tTVKeYNzOMlyC1TKKBcXmjVGM38xGrU5/98Km/95n/473vPHZpIRhIlNPVsReferQ+uWPl8mUpDsXH7p6dC9q80GB3clVXGetwpA51RJXVZK0jaxz9yFaFzRIs2+vTIIFstWSYjsmNtWFNkFg1B1u7P9sBuwvLP63eqWLN2LgyVdQf5zU1U9lEOh+kCpPl1KtbK9VgoLBg9SPPvP7V//Xdb//wabbVsse6lkpUU8lyPaiwhYeNMIlqUkfralc3s07+2KKCzCyhYLhjD9cuLEKf1d6hAWuKXM3tHYXql6KvgTlqoOuaPek1grrxkNFZfucU4Dw8MOb1HiNovUYJW8IjNi3BZNQaMvN9Nz4zp9r52M75ojB0FXGPl8VgS0sqdxsDNFHCefyKlV82i7F04eKHh5oyz0z8vfQzEc0e54o2O9mbRtFZHl9fTmOeJq4rBfLf1aVd5yGzTyiPzyt8gsLaIoqc5vgAGEN3nUo+B8GSiYzON+BboGkOWqwFJx19yK233fHkxpeSo6saiTSHsFD/bpVVUJGle7mpFj2Vg8t66tZ8pOW0hjCKrdjY3Iuf9lRiWK/7bP62u+6+9Z6TTj9mSYl9bKHsmFvoKwKu7LYg28pZ9xGst2Yc5jhjq3b6nMZKssV6s2lxb9INZ+FMAtMHc/qsD7s3FuSCM49devyR5z76zBn/+K//cdvd96/e72A+z/PMow8sXLaqwp5anWAgTTHh0no425zdujipDdjyYFNFjkbH1VBqrZLL6Qox1ej8bvqksEjvWuNXmxPt3FzHeicpVlwWhRjeo6YktpgO2YZxVwyKw1boRrM4smSytAPrnKEla5949qn/ffHlY6VzP/HBg2ktLMan0moOnA4gAXESlM27wvTOnodfNhebm9P6VEjb/3nLaMA9EW+Z0vYL2tdATANd+8T2HtxCuHb0WHiHq9tGypauuf51YKGgmMy7u9eWx7iac+tkAofcWhQe3QJKQpJd/GN5cfUey8Buvd/Ft152sSht7Frzm+2+jcGuD+AZoF78ar3VC3KRk68v/DtfWcbTrjD0nhY/t91ctyRtnLsxCDjqeWx8UrC+3Cimg0P3XXDe2aek66VUvZxs6KRkFkL1VkkH0wCsokbclV/XCBtWhfPAaazX8rl7kGkiXaknL/rupVvLwTgnuzvc2ZVFGNEqA0Li4qlabuNR5o8TxP3tlG90SLVU5syibKHAYbH0icVUMMSi+mRzYTo4ev/cP/73T339H//Holz1tWceXDGSSZW28BXfVH1cf7WJZJ2/UkJ/FZ2VSWXpj5arv6oOwkphol5vpp1RDnY59seZkjq0ng3LaE1LD7G/XVheD6S8h9y0LUCbaXUEj+zldbIOK/fp4vDItolSkCnW04WN20oLlh+QG13+tYt/8K0rnv3ZM27lXqJyzo/eQujlA7/2F9W8u4tudmEx+qz6GuhroK+BPVwDXZF9vFx+LJzBE6fv+2fWgFfjzGTziO3GuVv4PLLYu5PEFRX3+1LbIqS/ndXTkUlLqrnQ+CTtxO0hnrjFYzioWCwwS8lnEpl6sGQ4OOGoww7bf2W6WU02qpxZiOUGDCkmV5zA4Jyd9SbC8W5t1dIZuE+ls9hX5AdGAHP3PPj4tTc/xuk4O9yJo+TgMiG1mz3FplBg0EjhLONOc8g27X62m17pZ+M3v3iO72Z3AdtJKTPGThU+OsCBRaP5BJY5QPxMLVi3Kvn1v/utb/3L35x7ytHLh5P5+o5CbXuhNpZv7MjVJ7P1iVR9MtUopZq1hOpLSmDbLHMkNkdoItbMasuEnTPTZN2b2+gcG51pKuucepLji2W4Mw87+5mLHcP0npAdwHU+8wY6byZqzEHUOlLJsXJ5YGS0VG9unqgURheXE+nnNm2tpgf+5h+//v0f3fr4KwL3vNWpWZMI69q1L5XRmIc/Pqe+p6+Bjhro1Cw7EvYD+xrYSzTQ1RqHQ0+x2mSPFgXFw/GoPB58/iCdydGharR2va33dBs4uz1UPtwn9Aw7qtaZkHaM2b0CfXEQy0CJjT/hkjBKc0v1kBklX4nWS/XottfCoBZzPqHjq6VXd/JdQkeZO2fZ2dUTt3uc+UR7sL3r7xA+K8MOaXoJ2lX8u/GJ0AHxgrNCXA44aBUUP7VDleG3UPcsGCs1/xaw2alcfAtRqItNjs5x2jifhaHxUz9k4M7T1JXniTAtS04d6z6NnT0vktI9d3GPSQEBFhFYvFDhXGdxGOKIki+FJtcsL5x+ynH3/ftl6YV8CKYwXq4OjYzWy6VCrjCJ3QjnvrPtMXKw9ZJ0zEKnswAdXTsnGYu0QHIQ5ISOlx6cGNs6PLIETHrJFdccf9zB+44KkkJUrTTz+uINWFffpsGQhySEozNeppARYiQzfE2AL19NlY1Yk6ujJASiWKcteMhICO0qRGYjOCWyH8dE2Ul9b6QjT3aGuiIn+SAfqiRAa9I6hkgW6Jk0J/xLJ+tXB4d/9qxqcNZFl/3sZw8//tAjj02w2J/JN5J8Xow2VKhPlpvJLKcLsTUiSGeSqTRGO3ydppgvoKJYHdG0nOOLFMwEXBlTGe2T1kK/EL4KbPRxjzTfKTxUnBJNc0Y/LUg3WN4oU2Z6epxocbxG4M0NT1OijjFNupALGlleFQXZfCGd4YMMfIfn+z+6sVQb/9THzlm7AFUw/eTDCvWgyjcNwnPQxY9jQRNVJqdivoc7VKfegFm0+/AQHs4L56tSHD+PnyjCOZ3WDnHvtaxwoHJ5fGwEJy9CzN8rqz2Cnn3nHONLkQEw//AP/2Dfyn2jn+s9QjNeSFCcPybfNwwf2/fsHRroiuwpnjqFWCm59XfWX4Q0Gp/m6YxnnPM8Ge0JyVRM/jv3RsgL4zeC7V7P0+lNqgsVCOiJZl8+kBChkZ2wTummRjHu8QFSksjht9TxwCiy9RdKV04wpZupVEtBtjiUD44/8vCDVt++qVR/9rUXF+2zX3VyAgjGx690LnoEdo2/h4CtrFvuUZS6BfAccyOt+6c5Mj+dTBeGKrVJIOnrY+WbNjz5wXcfQAfEp3KB9TBgUpNynzms14Bx7htMTl6ikNecA4XyquBz7nm8lkIu7sdKxNU8Ec84yS72g6Jl5SSEi0uyG5S5o4qt0iky0czkmG6xC4LpECvxieBX33/k5rOPfObZ7ffe/8Bd997/1POvjFcbqUwpkco1M3x2LJtmPoCJVTY9UeYTl2M5lsRRtHNOa1JsPVHXWJ5kFwVz1Xq1wrZU4GM25T5rTwLTAPr0qpCAMSUTPndtW9roSrkArZSRQtPwuNIquIqjGrKbc2lKK0v99PCipa+Vxq6/9e7RkdyvfujUfQrpSUIr1Xx2UFqyP80XUzl9UlmK29MdirWPB6Fkr2f7qpTWZ5zja0FxQDb3Ilut0RzMA6afe9o9kdJgPZJTXj7AxHSIaZL/NtOeWKJdKzNTHdoSEzxrCTQqWprNHndtRn1uP18NzITs45LR43Dreh75eGwsxHvixNP9Glq6uQiiTI0oLFJ0JLbsOkbtVoFxOW3YmbJniHSoQRs/pA5E8ovbyVKIQyeg41j3wrwLbTcJu4XvZHF2efLuclr7VLGNJvzCDwHcW724ylKV7Wrn+IcPiPwzPSuheCZCKJi78X48s8pIDloNh461dAG7WiKdPnxt4UPnvfv//vO/WXnQsdt3bEplhzjDZGyinCtw/mA4mzFkMHsGkRoRzRGzNValYh8oK+bpVLZcnkxnB3eUd1x78x0nnXjAwGgwPlbLjuoTyrVqlc/AQww67eBiFj5wNnkgi/s7pGqRp4uGZ9VbR87zCKQN0cEhhWtMEdi1To+rVrh5YZHMaStsouZmRSuKwfLDho877KQPnnvSE8++dstd9971s4cfePTJ7MBIYWhRPZUtjU2Mb2M1v7B0ZJCXHupemEDwDkenyLh8EkG1zIRK/TYhQnnY5GDFw5K6pquiISyuSVd3YaCPnUd5LYmD8PYWLGrjvIpBIIfw8ZE5mfFKZuvE5MDCJVs2PX3pVdcP5tMfPf+kRenMZKOZt4pzV04L0qsLDtKpVgoZ7Jj2bAfsRtugK4oB3gJsUReAUVtvZrWeQODp/EA5yUFyevNWr/tvoFar1b0V7KqFR47ZrCa0fRfTgG9mDz/8MDOfVatWERlXWoy2792DNdAV2VvPrqv6/amnRSE9wHpU44aWLiqaymWKoDO9UU5R7a6+djnduClxiTIX800tRoZRO1eueAZhjqq/zirtnFUvtJZFZz67WSiamUEiP5+ELDqLI6wldYWhWsPRdwY+c48SS6ijB0t3bpqn6uruLJHFR36xiPzdU07FAB9Bl+SCWXeWQ2kAFOCr88468K//RyJfHyvXM7VqqlyuFQZGMcTR0ecmmONg+G+GHGlsIZgMZwSSDYMKlu5Zr63zadsES8yElB999qXb73puzVmrs5k0OgaFZrN5Dt7UC+JMVrYgnRzq4Z8fimDuRWonh9JrU5SOAg9uSvXtyd7IEGRA2+YkBPchwBWwc85VEK9L9A3bdFpnhgZAfOynlg0HS9cvXnfw2a+ce/ZYpXHlNTdcc8MtmzeP5weGi9lCrVlNTJQzqSGdIUMu2E86o6YaAL6hNXvQHUdkYp+XTGONw75dApopjP6djkylHRU7g4ZDkbv+oGiV0MVb07Bze7D21xYK6iSMc0cqsbI8VqlkBnNLV+732otP/Odl1y4cGf2lcw5nhjlWDQopnXmJYzLCJFAFYZIypc6uQuzOEa4xyg7HgDuY+6qrrrrzzjsJ2XfffT/5yU/aaj1FgMBMdHoqDsmfe+65b3zjG5s3b/7CF76wZs0aksO8JyZ7FrGplEaL27MkfxOkZYV++/btF1100bXXXov/U5/61Lp16xYvXvwmZN3P4s3UQFdkjxDqd50seOzWe1pEnMcjZHNH4zOdrXX1LTn0hF1a076Z91YWy9Egjo3YYR8D3IEicm61LGb2u3OCwjXOQLe7rmeL11drLvH73dXfopyYmL6NC5JyA4giFuShJO4Pj3exhLvGa5znPgYZvc+bWwnpnlYLnNYIPF3oYZZC6Sgnprd17K0B0FreDQI+kvRff/PCv/7Kvy1edcjmUrlUS+QXD27eviPHR5XA4dPdrM87Unm1OvQaZHJ58ERpopbN5GuVWjKdn5wsX3H1daes+9UD9hF37KhzqQQWJXOEHSq4kLHlM12+trvp8iiakLhTiAucG7+2DOYWAJ4CdFMBeCK5aWhUChYx9p7Cas9tMqCv4LSbCgb4GUA6i48kxASfUzKH9gl2lJP/54Vn/PaFZzz0ZPmHV11z3Y037di6vTi8MFdYVNNmAh1rmkxnZZSPRUe9kc+NsldXGxcwWa/WOIQUpJhSpm6tONKk1yce9NNSLB/bEj7TLbt43QNlNJTavpZlzK0OKaerC0iaw6ND27dtbuQyo0tXb9n00vd+cONgYeg9p+zL14pL7AvGrCvBThX0J5N9zCxmynpPiKPg8QZPZT344IOXXHIJgUuXLl2zZs1ZZ521kwvPLNsD4x5//PGPf/zjMGTmzBuAPUE385GRqRGtNN5Q4/75cNy70vBGCIOlb37zmzQD2hgN45hjjrEXO3tXQd/qpen6hEc9r+GGqV5eXbBTGg+Meb2niy5bhwcji9hoiJ0eMgt9l1x2l2BfHASKShaTjWjnDCgbzI/G+BhZ7164AnNC7g63GA+FhGtmc2PaWf1T1dTCRez3BDeznLZmHx4P7pYRw62XUp+W6t2vLruqrGIVPkFh/TvuIUyfNReTxF2nmo84zCpgpRJksILIVmuVcqWOrTXp6QUmq8EvnXfsHRvuvuW+J4b3OThoFLZu25HIYo3Dls5p6+L2vHfLyTXpELY6Ghb8NWNChawdVzn5kLVW+OZTWHk/8sRTN9x8+9oPvR0hSuVatojVQYal2GoMC8ZVASPxdO8Q/IDdTRIStmjT0ipcaprSW8eQeL67yk+WHDfqIHy4aOo+1OXWry0PyQXQdzdQs7WayqpXq0x4UplkNsfHvVimpr5yOU3JJuvBUWtyx/3m+774m+97/Onx+x987Ibb7906Vtq6ZftkudKo6iieAnsX0umx1zemWPrOFsDD1ILOlIdVJskAb5Mw06fXqoebVt0I5D29aMOW5G3SEloGqYiyBdOKBkXUNNoV2LKuNjgGM8cneNO53OCC5Q89+ez3Lv/JymUfPuqgfDbJxIaZSSWfyuhFBymtDu3ai1i7D63XM5AUhbDEjmk4ZjOLFi3asmXLd77zHVbuDz74YOkqkTDj+56Ex6QHVkwSWLlfsGABXdnY2Njo6GhPTPYgYrSkGauboLvHfA+S/c0Q1WaJIyMjzz77LI2Blkaj2otnem+GTnfLPLoi+7i08ScEv7rmucJ62DC8hsPYdJ7+LpwhOL5AKNfV+8jIE5chCtsdf03ODqv1thgo9ckhuvuxMVwFccFTt7ukbC4jMuuFbRdam4q0S2VlaQ/f3UK6yYlZAlH8R2CjsekRlgy65X8U5bxdtDOv0opzBEri/hmYmTBG4Pxh+mnhKghPaCc2iA+qYn8q2ynT+XLNUKYo82DGILjw479030NfDmrlTGb49R2lwYFBPntqyul1sEQkE0HGTEGqCrKv1TnIvVqdEDIDVwLi09kbbrz5yANWnHDM6nQ2Xa7W8pyPov6CUxKdkylK6OhETPviHBUv7o8IO/96efBMU3tETvAb77CxoWQUitKgHvoJO5wmLBrFouxR4SROrTyhLYCFvKNvVislID5IvVwNgPmgfOzqNVNLBMeuHdhv6TEfOu+YFzYFjz7x/BNPPvXMCy+/8PJrL23csnX75IJlK6v1WnVigg26mcwAZj58K6oyXkpkOW1ezjQp5XTq3uMdviOf44VJmIYY6w85v1/J2JWtGqD44aNG3tyQNRttxyZ2LF60oJLMTIyXislCNr/46Rc2Xfy9KxZ/5oLVC7U7uMb3k/mKFY63PLQWa2S63yOdbM8cEvWG7yBv3EEHHbRs2bLbb7/96quvXr16NXCfOQ0a6hWEkZAZwrZt27DBoBKZSOzFsJ4W4GE9ft9L7JEt440RmnEc96UvfemWW24hhwsuuIDb+W3OfmME7HPdNRqYE7Jvz4ouxh4b72mncSFudUbjGH06YwYDtQ5GcBvDtOrCwcrq7q2H53MqXbjsccEyko3Gs2mAQUdeMHiGf9AQEA6tEXBxmjIEYOW2gb51dhTXlRuNCeDg6tDhUT4Sg4St1hQRVcdfpXFLiVEsC4eOr6tEBbpKDEdUymKxEfUe9mszSenKOeeRH0/ozK8raITK0geGIKCG0BIf00G/VjdOI46Pjv6QC3/whSgXj4VxBfFqsVbNRE+TIw+lwN/VQRyPU1p33xIep4n5GwGWDCB7DYEBq+YqCYcP8slP9iNWgjUrR848+W3fufae+nByaMF+lWo5B2p0Uoe7MiWoMkyEBQl5+/JFsFXhtD9OfnH0jRxgtNYYHChse32smcHqplErV4YGF/zs6aduvueR9Uet5rNZzRpr9+zY5RDzaJUX+3tCFaJV5mYCA/Gpxuz0ZqUPxWj7ifRMIaQ3Hj4HKZFN9t6taeemw7ZMeg0wlXRJRY1YE5GmWWDPF7GGaroqY69zlrV6XBM0z+J1E4ifd1sEUQoqWzKgQzNXLwlWLNz31LftWyoHGzdXXnhx06uvbbv3wUeffXHj08+9OFFpFAYXFgYHm7XGRLlaWDDKR6zEkrMlqVO3vVY1Z71Og+8Gq72pL2nVlgSZ0UXTMjUVNTRXMjV7bsiMJ8i1Ig0lXvODg8MTLNgnMlQ12wBGl61qljdfecPt648+6JzTjlyWS2JsUeCps2cH0WZU5ozi7RaRIHWW1QHcIHvTOauqLKkecsghxx577L333guyP+GEE44//ngwq0ypenTgNnQLmocnswhuyWvv3kHr2xKqsqZFiH830qP+9jZyq/0TTzzx6KOPpsn11bK3VXBUnq7I3noZPRiOlGdDvageEfpj9fEW7j1GH7Gd+mX01B6wesVhWobldDVgexwcWC1KNCp8VbEM2BBAShUb7gANNkhNpY98dEaRd06/Tt45Uc5MRH86M0FLLF2nD4kPhaYfL5XW0YFTjWRlfAL8k0slOYquMDhEYveH4S3lxcugiACYkzLoOp1L/ZjRWpRgtVeXMed7MJBo2yd0SRZlpyNBL1wXD9vrmCFUqrVsnvM5dI4yn9Upl8fSssflFD4GCn1JlOPQG+y9Q8J6VcdszNl160p6HbS6tbdu/DsKSAWpRfumHCOqVTFpjpwDhELnbAYtb88nMGdQXYCiqBoMVvSUCO4TxhVHrYVACFMevsuDtCgW8ISmWHrTSmZKaUKnhFST7hyTeMNx/OAbtStHI1JFqPrlQiL3o0erA4Mojl/2zUZtCw8PNPfNWq2YTVcbwdlnnHD/s6888MpYtbK1XEvlsjm1N31dqN6gKYDFkmntXKQdGLh3+Jgdkdwz6aHlcWI8DdBEcJHyNxuaJJTHtuay6SYfu01mUvmhUjNXH1n9jR9vOPOcs9fvm2T9Wa2ZXZ0YXlAK3iTQFmvVRK3CGYdjvGHghJAmYHNaeaHs5qQYbRaEkxjKSSD5vdK8B6X11Hgcu14vToxo3uJ07yWbYoWIocOHMlEnsDt0xkFrk/GeiWhoXTchpYXvYtLByoHs0fuurAcrXz/l8Fde2/zya9uef/nVO+978O57H6iVykuXrhyvYp1Fx6u5FmY+2cxgIpXFMp+PYDHwcygLh61Xq2UafjqXIkRL5pJbcByH367WPm1FwG0BVgz/SZhkZoIPP/+jvp2q4dbK5yLlpwZ4k5AIss0Gx1pykn1jG6f4I9/y/f7x25cuP3B1cf/RYnZoR6k6SlF51Cr1YMBrxtjseVeW1U1o+kAqlQY5OTnJuey/8Au/cPnll2/YsIH9r0cccQRWE/TGXCHAOfVLw5aqW7Ehg4CttxCYaTW31GM3euqRpwAaPEZmIaS11wWWNVdCjAA/AsMwbiyEqExRrG10y6uncNaVXZtXdZMjUtkDgBjcmiSIbbFcibXcTVSjh8zWp31xoCQKBxkFxxHiA2FiIRCYwkmOBz6olAKiExK2F5NA40OUMTdpLdDKQrjnj+RQ+tyNrOWKzJYED1EYbsUJ4OCzsFOVCIGhyWbwybRk9eiz6yh/nDME5kiCI4pbOHO1WyO2WyTk1pNZoBHjtwoyMSCjkUBJLM6SeIZ+8hnPxerOsuNKFI60PmRmD8SI5/NqIbZY06FpGL/JQyqf0PyE+8cBPl5sJOSWAiK/GT5BD2dfNS2ZvnG3XZF99yxVtXN0LO66cZQxQ8vz/z97dwIf21Hdib/VUmt7ixcwYDDgZ2BYjQ2GgG3AxjaY3WwBwhrAQCBAQiaZmfwnn8lnZhI+M5ONz5BkkpCQDMMWCGuAsNgsxoQYAmbfAibEBoz3t0hP6m5J/++5p7vUklp66uen57eoXr9S3apTp845Vbfur+pW1dVp29HFi2n7yk0MzzfM4LRa8Sxpzc82W5Z+du6JpWWM9j7Hlib1vXLWQN/4QSMHHVGsJqfDHBTNdqp5MWC6dL7p+yw1q5nnW3v3TmkX1RxcAsT0oapKav6i7SMpk6u0IOm9FBkYxv/FLEm4D78FzXm7766bAfOAUgzswGsNLZAzXrDEVHV89b0xVwGUcQQp3j4Yd5KtGe5LOJisD2wAAEAASURBVLH6w6YvvebTN341/n2J2ab6bmefRA+ljI36qoIV4nAQYWuh3YQozHBvHw9MHHd17DEtNcB6zL5ad7OsPvISccm+jKCPbLc+qrfGlB0SD9dmp/ZYfvPAB9z13ve++1d+9MWtd7jLaMyum3aH4cPaYQqwurOhNu4vAC+FcdPOFcEr9NZNiXRveyogR0ks4oHgOWk6fr423mpsGx2tv+cjl570gsecONnQlnRJiHCLNRsKrF7wJSLX+Bzms6Klpwir+cRyMH/WobxcchiUz2r8B41PGRZzFbMtRvWGInl5lt70DCcT/tIOPe+R6FGdq3PHY4+/z47jb9x55wseecau6dkrv/r1y774lY9/4WuNY263bevtxsfH3Pvt2d0jY1vHxrc7FsniqNZs0zbridExdm+2W1NTUxVcq+bbcTXAi+d75wGfjUodRVuO11khWjF9yln8TO1tJJKIq6lVw4N4UehpYQbBM9TqsfnmyFvf85F7/cZzkd1uvNGcao+ag6jGqIXnkRQA963JednLXva9733PtP0jHvGIZz3rWTkG0OFEn9N160c23Rz7/guIFCySZSWOAVyAM21AasFnCAqm1xgQcAV3RvtwP3fdoNJmduUqpVekEiYYHMYJlEileXCLkUuJibHYE7dUpFcM4d5LwsvL1Lh5yiQASFbYYpXqpMqIyVaOE+1queRvMkeGmzBWKU9KS3IMxfOVVay6hIUxbHW0QGaUlHllydoRqGzQTrNnO0EjMu2WbA3AiJplSULAJYdlxZXLLKLQuJTkMgNR09VoCp9UM/3MXnIpS3y6wlmAtPkcl5Tx2CbDYgc2EZl6Ud8ltlmJsmRGI4TS3nr5C0tCIwvnMv1CQzDMs3Il0UKSGK7XMpmUecVzxEYjJiPlIhinLJKIXCZhEpdyD0Jg6YNgAwqkvhl6cD550zAWhyzErNz8zNTC/HR7dk9r7656Y7Q+us3XCOPr5/1cqft+iX3iBqXvw6KKUoerJQ0Un5MklfrRdDIvSNhw5EVrZmhhr4XOVh3EYw2miWc5i1mgwBfub5OBBFgPMSA1tNCqmVH1IXhfE52fH51ozO2dXth7s69jxmuECtV58UJC78uBrhHv8hf77X0Xstpkka18+87cQ5E9Qk9EJ7ga/5WUnZiYYe7j1FGpphKoz+/1SSXKxwF8E4Gi8ntKbW82xozIupwC1g9klT4CbExUCFZx7oraU0x013O1yUbtnLPP/OQ/f/v6W66vjx7XsPaBLuGq1hFNV5uMEWNZRdbDY9Wgzq6YEVGnQ1ywniSOsP/oJy9/xIPve+FDTzICqMaVxZSmBIwB4i4wqjRhXyZ9Vy1pRUIpNwI4HdEu78WVWjoPh6Eh4TscP2b64E61xsl3O/O8C8781bnaRy/9ykc+/LGrr75mfMuxx2w7vt3evefGXfVRn/gZbzTGrATaOzOrEzSfv2VyG4QRzUENVqCiM7SLUpe0qPIicVBjV+1E81CEurYCy/SCwkaGRyauuOKrb3/nnV/1nHMNo8ct3rJ9WF+5tNxBiztk6U27OsPktNNOO++88y655JLXv/71zjCx+L5X4IKKAJSCJHoJ9iOc92nenjBWoqLCpyDLjAFlslx3FmHkAnrEuJSXLyySKxwGDWR2OC9u3gp1JTzt5Vl0VyiResc/ciW2Izl7ltITHiSIxKoXLVTILaCbyHSYoOGzM0lyplmhSbkS1qeoWVaiPXyWmS6lSg5FF5dFwmWBkp1gxE7KklEAoCzlpsA4FMskN5deNaCUvQzGJBFmNWSMsxIpLiB7KTGbXMpfRKWsGMqmkIVeLpGFTKqwyBJfBBaTMudrB2QUl8oJ8wvid6m4YhaXfV3Rq7dQlPIqi7T8zEgjnRuzZKsoAiu0lwYfSSmkjGkHAYIV2XDgkHGSUnjhwidL3FB/YGRPyrDx+lxO0alEszuRMXKajANXW+ZkmjO7R8faYyPt6blpM4ZhhLm5kWqyE4hA1OvXjNyWxvSmrgx3ltSu4LOScu2Y8eGRgcqdtzi0n5wjdTOUAY6kFtmsZYFbms2pkXr7mK3jZiw9yMyeaj2OrKvmsBglf2HF/XCV1dddYwu1sdFG25sTQw5aDHuzP7dz6sbJkfnG3MyIaXsv1n3FMmbRjM9IaFYtxFrbhr2p7NDXPnMzcUZHL+XaYRs++9Kvxr8vt7AnLNnPuTMzOltt+o3a9PjEcHtmKqukVEh1n7tKVgIB6/VeyDpevyL6xmVBfZMOXGQlV8UuVfBaxjTs6MT4nqnpubHJh592u3PPeshb//7Tk05YtIhoyKOanfTXTD4cD3DGj6MVOwuZKBu/SnRJa8gpa6+CLplOi7hl79wln/vnn3vgSdYlbPeSGfc4AyZuFqPHat0XKmMJEf1vhF62RYCoj/gfmRCkZAJcfy4l55EVoPjk2Mjepremjh8dNgZ1FJKXZCcYnbZqF190ut+//Lj2qU99/vIrvnTtDTdMDvu20ezC/IwvRDlGacSSKM+wmfnmTCyxwKSaqvdsjrbApZVjtp7TxVV+dTGoV82uBQtP06ryg5knhmaybWx89u/+7qOPP+tREyfVvSocHrMb2QaM6IUGLebQp0+8SO3nP//5jrX50pe+9D//5//8y7/8ywQo5K9gQyybES6Rt16vqjY7bDCPgVwFXyCeBFLKFSAYygJlhMVXt1XkFZ/IpsOouvukklPGErmeQOJ4lBjKi0kvGlvGAf+E9eJTkbRMNNoKkBV63JahUkloADVJSqECjUS6FIlY6alvKaJwY5BiimKEDJT4ZEuqjC+IM5kk0FzbOCkzqaiTIuGmgojN4aOsLE48hgpCnDzRC0uVhFgqLQQAaC1tbXycJRZlo7CqHvlEkso4mYq5S2E+RwA0fGQihfmIJSV98RFwJXvylzGlFcgiXMqS8RlIy69ht7RDcuglE++yMMRNETnaIV6KKpLd0BQFZZHEyS5VEs5syJfEZQyCNGkRNaUVv1J3SRvhBrvN9kOCmAWOCZyAtPSs+uyYlp9rzkzU2w++/z3vf7c71lpTjsloDcWq7oZ5mlobQQKj4htblfDK1JUx2Y5Wxm90jA+795Uz5WGCTNV5kISqgEt7rgnTHzs+fK+7nzhmMljbtU422jCSGBRV4cr28QyN5+aGOYUBcU2watSicA/z2YWRub0POvU+9z35xNH52RFfw6FJCDHsoUoMFaeu1m/VA1Uva9t5nfKQP+69fhbtvQOj2SZlrVWf23Ovk09SR1EVjr6PtZKMkV1bGCRQT9V60yfJoeWqkbNGyBE3f8LNPVMxqbVlfG9MltaecN4jv/Dlb96wp7lgU0HguOrmheZBLx1aLJTQMuWL/1VDiFHZ2spmr8ePbFWvHX8sprbD5tg7feFr37/symsuePhJHgKNuNfDkm4QmzoQWBcWZtbyNNDKzEGwbhfFVcRZlevOd2QQRpfjGTvmBVPc3lFdWxtRy1Za3aF6yTXVqp16l9r9n3/mC37+zH/60tX//NXvfPGr35xuzeyZMRwYmbfEfsQU/kS8ovOojupTjVVDEI5ar5YTLFqrahWdy8Fqy9Axmpd1/gZ0Gke0DxEjc63atq132jPdfN8HL7nnKx67p107ZrRapzUY+0URD/EQvJXTlne/+90f//jHX3PNNd/97ncdgvm0pz0NzijNOAMgxQFUB8ZSy+oXECyYz1yvyLxMBKNEsFI/mc4lAkhILjEJhsTgloASQ/GDypkjHNw4yuJAhsJWAGbAM8kURIC0ibB4CIwZU5e8LPFFsIxHQ6+iLya044uEwlM1NFyvFuLFkA0TLovuDWCSBHzxxOOyaJeYpzwCJa/4lU5qcpDUi0oJjGFWBCaZETG2fPFSxWcSaYmaPkqKUK2wXVlob4xcmUUuThhzjuWzahSnFMUVMpxT7LRqFi2G+pLSFfFcFjNa9Zc2F5NlySIjzsSQRaqkpBFfNEKwzKV5RSZZSRWPc8ogKZ1UMVkingpdybnkKqxkMf6ku0BGYi4jni6TPjlnTMm4oYGBe4QwwbolCljPVhW4j4zV89UpFxjU55vj9flT733yRefddXsj9n4ZBDGMW6Tv3V896tdd8CpMBsjfJR203G6+Vf8W8wmY5YJd6KsafKTTR4FSfd+Rifw5Cug+uvYD0AQPLuHXqhL1JFjq19ZROpZOLbXnWk4wmR5ZmD3rwac+9YK7mOprVDUqA8lzsts93hWwh8/gwb6VvgabA1UvWR1Kx7DXd0pLidGIM4zYLOGW0U5DBZJ1PAE+JEQzTyViaOce6WQZ0DpRXf1c6TX6JQ4aFzKlshkg7ujkeHzmNDavOk6+dvopI48+8/S/fueHt51gPQZkH6vS4kgSgzh78oDs6LTpWL2GqvQlt99qcorvVS0vNbMFn06VbXTrdbv2fPTyLz70jJM8wbfF14z0ErFW22qvCtybs9cso9FF97HC9TIviYirth9/IxjV1A1UMUeNN++4zDHH7FT2sFja86bhAJrh2tTO2S2TYw7QZFUttjFWe9xZdz3nrLt+618e8U9f+vqln/3iD6++rt7YOrnt9q3Wnj0zrbFjjosq1uS9U4k2b/cNwJVzN2nOjrW7th3wBoiW6emq07KrxzeLISdvjWJfdbPlO1Z3/eznrnzieWc9/H5bCewIhu591i3tSPnrnEqzqomTnvGMZ1x22WU+TPvOd77TITknn3zysrssscgBUR1qhEsSYwHN11577dVXXw1p/eAHP1AokbZt2+aknRNPPPEud7mLcFLKRVQADr6BaciTfIiUmPJnP/vZT3/6U3OizuYfSE64/Pvf/75yd+zYga1bmBjKEk7gBd4V9Z3sCWtef/31Prgro4X1zEgSWU444QQ7khPnYYIhMRCneAnLxDsh1CDquuuu+8lPfkJruvgIwJ0q5xBS4SwLkhNQNObyMkL0LV1XwgJsQk4Mqc+YN954I6mUS57jjz8eT58a8AlYZISU1LtkqMsv/krlMJQ3idUOyxCSvvi7JE/yVEFZO2JkIWSySpyKD+NcddVViDmKoCk27C00w+QXyIq2sfvHP/6x2rzhhhvootBsD9u3b/fhBcezpj3Ry5VsezkLGyKKZ/+MR4+SCgyu+jBUhFrgE96BToxDSN9kYKs0DvUpwuFQmKwUO2NomnVN61tuuUUtsBXmWjWNDEswv/Od78xcKgJN5sJ2pfxKlCoJmXDagah4amZYMQKBTzrpJHZwmaZgfMRZZSntaqIe2PiBkf2gxccjwKAqpqhhCZBgzlyM54sHQnP65pH2XrDeA0eaOTmGJVDfR8EA8LQS0TNnUFEPCP1qci7KU+SqJj297NQlAPT2qkKNxvOGoyFJ1YpCCcklywERcU0mBhgjjeiM5lvtOFdnfm52ZvqE47dZIuEXq8wrYQiVL9+r/qzy1mRbEhftUKL2K7BvO6+TbaVOwty+fmKY8EPl+oLJTut7K/VzRXi0WjXUhfUD2GKdEh5gsiWNiSLVtenPurkgN6K3zrZz++LpBWeefuknP7NrbgawtlTHwqvWgg+AWjEW+mqe+jf3bLbU6g4WXsJ8meDZb+rWS7wY5dmaOeR4lrHtV373Xz/3pX97zBl33RpFxOOEWKZ3ql211tkvAPc2m5fsAwWUm8KFAGuJORDXQ5xY9XLRlfgAkoDZLVNSk9XGU48cY9Jj3NksyqxxrKjKj8/c6oDOuNfEaff6uQvP+7nPXP71j196+Xe//y+N0S13OOEuU+2Zls8RxAp3/zSGeIUScCsycd3aybcuEcHWA5g7QH2sxVLbxA6+UV1D8RHedss5n3MLzcaHPvape+948u0nAv4rdQDulYiHhacHJicfvhH49//+39tBC1F94AMfePaznw1qphYHHCsk9oWHfLPW5l2nnlsI5BKMIwmMAlVv2bJlx44dD33oQ0899dSzzjoL6pJLfII/AbJlWEBVammXXnrpRz/6UXDnz//8z1Pydfr/+I//+Ld/+7fQ0ktf+lJaEwBgSiFLKSKvuuoq7zRgrG9961u+wSRQ0KFCoUlGO+ecc2AvoJxIifbgLdJiqE8A9b785S/7gIBvALMzFIg/znzg9R73uIcxlaNIzzvvPEzwhLAlJXTu7dNKOAMwq6NLqc+M2CpOPMcmcCpMaahzn/vc5/6VY0k8+zotIXrLajgBmNL3C1/4Ap5f//rXgXsOZ6lEBVIZirT3u9/9VBDkmlBY9sSaAsZpv/d7v6dog0ZKrdGKlJtVCXZrEl+s3A9/+ENjJ5ZUaEplLKE4SjzmMY/RNgBcWrAeTXvVyeojj0jDGOCY/IZSWppa08YowrDYopGXYAK42WGipTmp85RTTlGWeG1SUkpOht5SesNZ0ZD3d77zHZXLaMoifDZmRWhLxgwM5SRQplDRmjdD4Zyq4ZZaZFkMQlTD7M9//vNYGa1RxIAEMUOlqAz7uMc9Diuc8ZdKo2xmyaRXwg0Kbziy78pdzdgFvo8jrq23sW90bnZvfW4m8KL7Xz/mAU4cD5h4uCx3TkFbHnX4X0fnHWMZqjtRUEvSbXVPwhGbzXXVRhuZD7TzcLe+xqmXUwZhE+N2T7Zv2bVzaveuem27CiBrgLm4Wyt8FA93fV90f0eqyzukWrMQekNGHQwzX2vOzhqP6a2g4hGznd3l9YewKQLqlb62C+tD3vbe6ZGJyfj6T621ZbRhTc6D7rn1ieed/e5P/HN7Pj6JBBM6/t48THxoSE8Kb1f26ODl4LGulqoH7O3udXy68rHRSWeX3zj9k0987opzz7jb3oWFCe8HFND59kXFPVb7aGnrKiUy9HO9RfdLP2Lj5pxyM1INmGZjeUAsuTVGFxG3r8099qi6jLUNcejoyPhUa360Uf93d6jd9emnPuKMU6+44muf+ew/ffV7391y4ikxrItZK3255VHWDQ472LJ69dhtWh1YH6PAwQ2qG5QppmZt5shBWKzDWvCsDRg/vu12V3z5G//45Xs97uz7eE5YIXQEPhhqNfAiYT1UCp2YUPyVX/kVHxhyDqbj7c34RiVWjrHKxOTg1u6TA2L7yEc+YghhShjABVZs3gV6QEYFAtBgDZz07W9/GzDlP+UpTwG8yJO8ErukX263f/3XfwWqYLI+5a0ZBeoBk6AYVnhCSEmemBKWgqsMP97//vdfeeWVbMUUQBt5zj77bEYjM8EA2Uc/+tEQub4aHJSLbVEmhtPmv/GNb3zoQx/6h3/4BzPHibbhVJPQCBjB6ILWHNz8ta997RWveAXERp6Ea6l40TTFK5e///u/z0QgIKmY0TcKwG6KEMkgBPNPVU5ZRm6/8Au/QLy+9iC5eBkhbGMk+qoCwwPAHYjniG0eXdV89atfVRzcSYWLLrroSU96klcN5KGmAUn1tAozohSZl2pcUt9yE9Ybk3zsYx97z3vew1BsYqAFuVKEk1ekQg1gwHR1QZGnPvWp3s9kG8A2S0n5dTwCKpQWDG5ARWyyGdUwAi34zMvUOCuXmmz+mc98xojLyrTnPOc5zokykV+EL8z7yi8VByMrB0ypCLVw3/ve1/DDaEqSsYRaID9JtE+l/9Ef/ZEqgMJVa9YstlmbLj2qKPje975Xk9Dw6EiYnKSXyuzGWopjDQKzPPsbiig0ZSsM+4p6YCMTtwzAM4Qb5NmKPuBf5YBBNorDcqJamuNjw2ON6JfNvXgCxFo1D3OvdzvQaalUBY8sjT6sr+JhWmvHPtrqGesAiLDAMk3DJqFlWn1Z4j7VD8Ovv8Lik5amE+acHN4YbuxtTtlLsu3Y44yiFaSOYgl5OI92U/ZV44mH9348v5PPYeargviWUiV1IPy4Y7ujmhi0HgB1oro20pXF8MuKGZnYGogtul1vZ2N1HMV+6QXnfvyyf951y83jW283uXXb9XtajuQfnRgzv6tbjF20cZQVTp3pDcy9lOsrPvoSX3p8wFCZo+OTtk83JrZO7xn57Be+dtkV93/smfezUISdbfnUX3i6NGv2zw23TFzFJrDCKQIo+H3thrDTYJfkOJIvltomNXV7zvswQVzYwdOBDpVhkrqzok7MfBxUFEYzLx/3up8/D7h77dS7P/Ds0+/18cu+8NcfuLTZ2LJl63ZLsPfsbTlCZ2zL1tn2nKOznB0A4Oe8oEcgPpZ1aCnZdWUF9a2mEKzrqtqMkSOnnUD2Pn1Qm2+MNbbdctPNo2Oju/e297bnfnDNDTc0508YnWxbr9Pu7F9MpCUjoFCepl3Gh9lfuFOzB90owg7A/QUXXAAugLn/7//9v5NPPtl6GCpBqMhyYnIgDXFOjJW5mJ31FITb2972tv/7f/+vSwT/6T/9pyc+8YnAfdyHMZzr3MUg6Vvf+laz6Zb+w4i/+7u/C0xnpQNGpkghM9w4/PHBIbcnDiQkYvJoUdCkMJEK8C3M6Q7zgW5GOy94wQsgTggeTMyVG6kXsZmRz+FTtbE4fT+VgtX+7M/+DCDD/zWveQ00Zs5VE1J0Er/61a82Xf32t7/93e9+N33p/id/8icUTIYkST6yZ+PPRm5m3ZsWUM+lhUC/9mu/psqYKG0iiyowcALs3/e+91EBQCzaKZfLys1wqaz/83/+DxgK8hpr0RdIJYkicMP5F3/xFyWZU/+Lv/gLU9Qvf/nLwXoc6AK7GyZlLRAVc/TiSVJgfWkVvXeQSMvA3vKWt2iTgOwLX/jCRz3qUXLhQOBU1uVnP/vZN7/5zdDzH/7hH3ph4sBWqUyU9kFADMRJzw5GYhqzoZc94ubjOcIoiw1xRpbGlAs3KmtsXqoYIho2MCyZaSG18CdzUUR8DlfMqRsP24NOkoc//OEyspuwsogni1Lo9cEPflDleoeQ1hDTe09VUscaMIDeRnbykPC3f/u3n/CEJyAjAFZSCe9SU/nwhz+cNxFpDch37Nih+optyXYQ3MDIfj9k0kt34VBnCUc8z8PFau0AhlHpTlQ0/VPt8KrSjgrPg6tO7bRGPIAZI5ASg+RD9+BaoVr8UPXgMUNWfX4gVrzGjBwXUnZkqwT2uvxoq69K/R5kmRVXVVK3vrIWRQmIi6ntQ9gRMiq2I3y2PXPyw5ZdGXFabvTkC89587s+PLwwM3XLTeOjx9YnxqYdkDI+avo+1Qoo7/aOAXnFbBBl3f/NOeUMjU9O7txz08T248fbQ+/6+48/5LT7mYzVuEzI6lX3zkyNbz/Gmv5qA+0gBWzSdiyQVZM3rEabjVIgd+pnb4NGTDRpzcEBUKNjkzbSm9n3APUq8fR7TZxy8jlnn3/OG9709iu/9s3b3+nOjcnGzqld7aH50bEJp6gYgbVmZh2QOTExFo/YGJaZxQmGg7ikJ4JnQSV25e/eO73tmGNas1Nzw41tk8d/6OOXPfysU7fd9ZixIcgvtYupQU9cz+wCgwYp99CiTQAEdgikXpDra1/72l/91V+9/PLLoRxhYAKkIPcyILIeTZgIiMEZMWjCbmL4f/VXfwXWm498+tOfbn408XqCrUSBKZj5YJAFsvkv/+W/gDJ/8Ad/8Du/8ztQI2fiHI5PzuuRZP9oCowjFbGVa5KeTeiyrPYRJEaURHhac8IklASmg/Xw9xlnnPG6173OEiPEQDm4TLDUAsMHPvCB5onB6De84Q0mp1H+9//+3yF1RSeCTIwoS9pHjYC5Js7Nqf/yL/+y6du0DAKBVFnpJomf97znMaMXAnBnxqefQpawS0X8t//238zW45kjEAJQBA0x+BjyRRrY4Gbm2My0GBn5xjYGSPgIr3Q0xSoNJRVxgmwQXM2+4x3vAMHVOEWUjiEChWaJ2qGM5557rrdJ2o8h35/+6Z8ieMlLXqI4Dhl/ZaFiVJnRAp7ZzsmQDn2KhMYg7bnPfa7hhCGQAYa3B+iNHFJa7U1ZcuW9gD7F0wUB1sYhKojwL37xi1Uf5E2YFBhl1oWMRhc5XHGXicdQ6UVymmoS6v0//+f/zIasqhnIi4AM2UgyQAvDQvP01vYY/n36058WL1cqWMpVxEa7Tp+4ccVUqL3DvlO3eurorPPX0+8H3K8uAxAdNb80Sq/PWsvUT/uh6Vhw46or1j/kLw6eqAZk1QE+UTcK79RWPnEJyS0T9ci+7Bg+G2rHGN2W3EnLP2mGDb+7lpS53gtyl9uvmwem79ZcYPQYypm2H12oPeH8h55+77u399zcmG+NmjjX38V2kArWx7mXizP00RfHSG8wpR0vpEDDA9nrI+NDo1u+9PWrPv1P34jVadY4jTiucdTLgcbo8Kxl4s4cINmmW8sC2TiDIjuM4lfVvjRnaaadyld3nRGalXimIh1PPDzfGm7PDjkiZ6G2fbR26o7a63/rua956bMnatMzt/xkS2Ou4VvM7RmH946PDG0dnxgfM1M/Otd0+Fln397SItd3lQ8Im1oWzD3F+0FHdS6MLEw1p23zGN5yzPevvu4LV/7gxqklPaKHaOIqj/n1FXPoUlEEqHJTEDHurAqCw9PWi4Md73rXuywhSMQG2STZoMrIBeVwyuJkN41qtY+l4S996Utf+cpXgvUiGRNlmhRZgkjxlkzAZL/+67/uBYJpbyIlTkpRBxVmUPre2VklQtKEZJleWC+GI3lqpwiBogjFmQ4GTVRtTv3MM8/UhCiYrwjQIy7qQOHAH0wP/JkOt1pJoZgUyYWh4bw0NALB1aClKV4jsAy2ZBaQK6sM4kSA3rS6FeQCxbYgoHCKTQBsSeJ1QSJFVWO2HlrNsjJXr+KgKnqLfxgETfpMgW1mWc3PElEiUC7OCqUpqHrxxRc7owlClaQsrJLMJaNlU6SdtwQwN1NoD17mFC1WK1EW45Asl5rFnqWmQGr8ZfdO4+d//ucf+9jHmjL3DsGQLHnKwhVbiXTJ9+LIMMPyKst7tGdjEtUqiUgYZk0RG/80ILLc+SpvcktzURO9Qs3Wq1ZjvDe+8Y3WlbGqcYIk1sABGZunHUR6BWHVltGgKmOKTC1tKSXfUH+je8B4zBgm9+qgmw7sWMEH88EoAkdEx1K5ONFdXPTnR76fUBmK8UANK1Qu7NP5LZqlk3YQ/lRmX1pOyFPFhF8qKwJVZR3WNdXRInVZj9/HPkuttYibqxrdN/2y7Bt3ueQ+XF7MSHU0uKYYKN89q86B+7scV3viYx45OdLeCuYDa3unx4cbrdmZOLqkOh0pv0lU9fKOrqk0Xs551WtH4/h40lDDpOOeLRPjM7Otvc2h4+90j3d98FNXXx+7bdoelDY5jXi+xiEpTpooq4lWZbqZwAJLazqbYBWncvX5WU1V5191NWGziBPj57kYv2gFoIAFNmPDdYb3SZHWnPnGO0/WXvS0B/7Gq1986j1Pmpu+aWR+Zni+2Z7ZM71r555dOxfac14EzLUCmpi7D87rdj3TQIaIZDCa8Cm86AyHR+tTzd3AvXN69sw0T7jzKZ++/KszzZoPZZfnpScrt+7SDnVC+IA6tOODEYkIrY0xrwyOmCYHLEBD2KgX5q5fq4QvSQ/xWMVhrblpzvPPP/+Zz3wmUALZQCrEUHTivMRA1c3eKcd8M7BFBouPrVqWlMtg1i/GflMqi1S0ML/OArAarExgAfEpZN/2UCI/+clPWn5tiEJfk9z0lZFJEaSmZGMZ8ZkEw1mvbzWIeDPHFvAoJY2fE8aEScgId/70pz+1pPuRj3yk1UEiuTS4LMwlDGhmLjECfGXxMednQJgw4iFUM9bq3ew1gEtlcmaloESAkmMBS26UBde6TBoB7UeJqjKI+rlUuRRKfVk0BqgUuYGEvbaGNOzAwogVjRt6l4jJnxaTy9serdRGAm+WyCM74n5lRhwrGeckDfMSEp/US6TicBaJjw0GlvWbg7dXwep8FadoNErkc3Kl/KmmlTPGJMYD9oFwItkkbaUIZckib65lqhjEuy8BbLGioywsKSCX9fcO1fFSwlBWCydSWhi9cDEIhvLioKaMAw2H3KRGy/YSoCnVlMVtqL/h/aDnhTKsSchTBKulHZBgnGTnU0dzdl8ZqiLyvIkfZUW0as4zPhr8eFkN0+fUVIKqeCi7D/IXd3nYpHIuYtlp93JD/nqM+vn6lE8KxGR99VPoslJVaZmdPczrC14Z4JdT1JX6HRi05A6Khtzzi/rakGq69UyjfWX9xi1ZLYiL9rWI84Q0zZi5f9jp9/y50+7bnNoJwPn4guUZMH0FwmJcp9cLh1cYZGDnlM3Ykzs85wRDtmq2h7afcPK3f3jDuz/wT2wNWBpLDM3Pttp7fa5WvxBEm24fFuhOjvR0I9mfMGkMjXzdKd7MLJoy6j2SqtSoR32R3+jQiKdmRabfqc9bwSHWITs+MXDO6bf/7d+4+PHnnjm767r52d3HTNo25bHc9p073uhwwxdvAYt9SNonObsa3YtZeq1P90ie+ebc3oV6c3y7zb0ju/Y2RyeP+95VN/7ox5aGB/bSAHs5ebj2Xh6mYVCA5Il1BKiZE5wWyQCjV1xxhR2NCVCWqb9OfdNKiatksajGOh+gxMoEEMr0JGSTsCnXMBR5iFSKgL1M5ZrdByjtu+1NKjQbESjwC3MyKBfC5hiE2EQVw2XRCTrTzxgWA9pATyjN9lPH5rBDZsQEc3nZJw3L8pkkr3ivTax4sQfUtofeI3S09kJmJYy8zJjYnVRsSE4c8Of3VhmeBJZdZFYKPr2tWiTbKgs3yF52xMLIhNNPnnKlESyIEqNQnEsVi1nDKYVDQB5OwHpx4N6rDC9ntD0xysomkcZEpkQuAwjoqGhZmMicvWXuyZDf1xneEFISOTkWwFkATzg7i8OTUgZIkrw9cAIPe37iE59AkwJnP5O5UjAr5m1gSHpjEvxxJlhWgXiBpMwkPhWUkoUmWeHvXZaBnHcLBi18BaEnDzKtKPOmJBlWNfnax94Yu36NAdxZisMQwcFxIeLGOY//LhJd7GqrZR4x2WtBt7AEz5s4T7BCGCycY4Gjwjcv5bnlqcQK1bOpCpoLbVc/91k1L8okEiqCjassnLWG2BYJ0pmRVScxBwvDBVDo9JGl+MXro6m+esBQscSKgLrs/a1IP/QiUty4DatfR0uQe8ixOLVjJmpPuvDRjYWWVmHFxUKrORr7W9HqLvk5Ux8LWCP7YsNYl56ytOZnt20Z2zu9a4uVHKOTP71xatvt7vqJz3zh3673RWSfQvPc8GLaHtDGtIffgPzXJcSRQ5SbEZboU3Upnf6jhONe78ykxKuRrPbMBiT76XoqUxvKaRVxNRdfuPCtupl6c3pbPc7AveOxtZe94AkXv/B5e3fdPLXzJj3GdhXZGJ3dO2PO3tbXmamZbv+/RKR9XkR/E6MNzQx2cU6yKbSF0Yn6rDP1Z3c3JiZ2+rZWfevHPn55svJUhsbKY7s8ZfdZ0CFLUOAa1ThyJp6AaSwoN61uCYfNlLYGSkpkM5Au7tZetsAf8HHVVVeZkIZ0sUpogqxQoncvuoR+zKEmEhVz8sknA1vESzgLweyHPAMJj1hxHGFAK4MKIik0Z1hTr16GYlBmqxCQxLecyXEoXk2YhrfIBHLFIZsQZIa5XLKIoRFXGDpyx3oYmPWSSy5ht8ySRaRgmLOPMQMQzIzJQVLWKVZSi5CFM+IsEaUAAUoz9jrFKEKJZushReJpBsiMvlIdYU5YETLmZUlNCYt2mbrMRyOvcpMYE9PM5rzxtJpox44d6HurNQUQWRoqU7gHXWoSlqzYt+Adjg21GPYKuaxc9L31Ilwsk4i/twj8MbdsxmIYB9FgmyKl3ZJP+irXnL35eJsc+CIzPq2KScqZwrgsUuHpsthQpZDf2xLCmLC3wInxEVMWQ+WmHaJ9VKMFEqpcBDhok0bgBo3eNhhmsGcp5SAENhbZh4Z66Pi8TXGC0Hws5nZ+MkAf0CDAfZx7KRxduakaC1SOCr+C9dHVVK5CLflU9SjNIU/vQ7dLt3F/HRnucTrn4PDhBefZO/kk5u+rDxT1RbXkP8xryhntCz4BvE4/cAbrq5tlv26VRBOu0iqM1YXK3dRD6O8yhEydvBNTr46gMW0/PzFce/CpJz7sIQ8yIzvfnF2Ya43kSYM9i+xjmWF3hmz9SsJvDoZiryGLuePLRCaZbKVtjW89Ydfe2qcu+5FDpbdNjI87qG5kqGmFP2BR2X/9RRzllKVaVW7+Sky2ZJ1M9bm8HMlXTbeinG3FpMJe70ycODk0ag+tM2o88mqtaZsdhmu+aNeeGKrdYVvt7J+7/ytf9lIYfNeNN07v3uMTZrCQNRH4lwfkALWQS/uilnUsfp2H7siYBts2CJxtN0dGx5oOSRo/9h//8cvXXl/dcVVh2iCnrP0pdwARDwZpBUU6H1jN8jJGGKqwJsHkJRjxN3/zNy5zGnX/xEr8ZGoWsodubTTEB2c+sAK7cMANl/wTFQE0sJEkUoEy97znPeFI2MUyiSTYP2HWn0vp6pqEiiM2RyTypNggfhFYTOhQYeWqgYSnhcDlkkyr2xCJj7D4BJqIcUgy/NMhSGcgYQGSKVsL9J3zGK28AtNZC1VRsY0SscXZjCMVh8yLLWdumJ8SZhIUyJJp8E4x3T8oFWQSGisT9vwsQvZc+CRj0ipIuHDORSOSEn2CpLTrcl3+N4vGgdaZZiyhNi0oyj0AInu1SFbaSUquXOpzxMOKVY33SOLNUlp+eXnd62JbZBmXAWxd0pHLeGZXyyS04cFIDHPtLeuLgim2ooXldVCmxTPGAAYYyLIKCKk4DBUhu8t0yV9YZN4OqZ0YSddcc41jf1TZueee60UEGmUhwwrbFNIAQxaOBQiJPzugQeD1BXry9I6LssQN9evMWb1YXywlK7ZMoVcfo+mk7seEWafRLbJfjOidziFGp2JRpgRHg0/ZonlXfydhVvNpiyaLUCHrREeTiv9dJ733UnSvebtU6/gbx5UHmey+BBqTZRGOqdgIRIoarCqxuuggXNGHb32FUgfUpWWWsswbKqYi01BVauxBCeIwKYIqX0/yUg63/irl6tZj8ltsNRnqkV0zXGjN7Jqo17Y1ao97zKN8kHhq6uZho3KjvgWTspXM1VG2eJG7En2R4foEjl53ao9+cGJq77TTVrcfc9wt082Rbcd/8BOXffVffjJdG59v+OBoozkzu3UcvlvsQPbJPzStXhsycpi4mgj2DipMXfkErkYXHU49uu+T9+FBQKMwQlfYFXUjoieunI87FJ8qk83Nb9WrR2trvjUzH2C91hhdmN7ro3pbx0bmWrFY6z4n1l74pFNe9IwL73XitvrMTfbU3m7bhLc6jtZqm9LRhyy+ue3KseJvoYnbBMQKfI9BZ1mRmNasD5q1tm3ZunVycs/U1HBjtDlXu2l69nv/dt3NMwskjI1s1TLdWBoAoHQ7pG67jJefVftcUfYhGQEZuDEABdIJAxmpnkuIze5JCwOADHDcuSUCgyoBfIBBmUt2y7g5GDchsnKlJpKTmqgliRMYiSGeJGQgI/xnJtsCFUzgGEmDyjMoPfmVkmIoEZgjmEt8iN0rsJjUVDxKl4mxnIdj4bgzEOE/SYycWqckyVkpnOyZMX3T8NZXANloLJJJZRMFloqA7AFKiNxXjXDAMxGqSkwhM4Cew5+PDzGSOLllmGA//OEP4VTvUkzYg5joi7LJLRVUStE9OfA5WfhS008Fl/kyZgyG7ENBB/vQ1JTzjh07kj8JE3ATPm3IYmk0lpHKVxZWQC1wb7Icos0sy4orlxRPy4gRSPmFsVUEYbgkIIwY9Nq/UsjAJlKL/cWkFpYteftkXh+qNvbwWkZGYqDESnMVYNsUGEExC/nFGyqneC7Ra9KqUjvJDeVKSWXxzAoiA3mEU0550w7JhCLyGpiRR1Vm5EHwfbO9B9l78nW7P+PHBt1tUGo5FSHWyqiB6ilI7PW6OLjei7BqYr5SJpqXaWDPC1N0fiMLbfeifVJxqV1KzmdRPnGOBj/V5leP30p7M6J+bjVTZIZeVS8pIX/+xMOy03XGkqYqXKrEJ9m9OTedEccRxsd/B3JKGTY5Oj3TnJuvT8fpFmqmtsXt2qkZNWi1c+eREN1kJXHIeJj+imHXGaja8UraKprXtUJn34hVwFFT6mB+DjpquZuigqAWR8wAyACmUKR7VQPJhD+Q65a73r8p+aKc3QoszZC4aKr/Ibnd/7XZWwC4h59+7H3vf/ctWy3PmHJuR32+5TWqZ/tCq+18wyh+OM5IXE34IFjhYol92yepxoYbW+frYxNbjplpNYdGhka2jN7Snr9+vvGey792dWvLVOO43bNDW3XJc00gTx/KJbPViivxHubxMTFGr/sJBNa3THzE/WHKz2uI4Xk/76pYoOr8Kl1WiHqYROQam2yEnVuTXqovf1nLnSoOlQQznR/VLQ/LRv6q3xmt17b46ojj4epjW+rjQ8FmfGjiuFo9EKfxniXDW63XqtUufsr9L37q2accOz82c/3C7M3N5t7dTfP2ThrRyquuqDP1FvXnV/VQnVry2sDyGz8H7VbO1pf2gmdP3fcT2l7u0mpkvt6YbyzM+HT50Pio75gNW4c/eYfbv+k9H2uPD5lhrj5OrL+aNa8vHPcYETtYXhC0CXTTiQhVD2kHEJCPNfigTAay2QMQ4IjVw1Y/m1V1yLdpxaJMAXmQh3AaNLMnTWECoyQWEQPGoT/33HMt8oE/hGWRigPgUpgLuOxFgYmT8lA/cFBe3ApU6s14wMOpFAmhPbr08k8dSwyZ0yyyCLAtxMmGsN1pp52WfFJNGUXKWDgISMrL9GkHLO7YsYPusDviRI3iUwx2Q+AMexjRXggrUtAoLuVBXOyDsyzsaUCVdZG2TRnQk9ZeTAvWxduMK2OOAVLaZIi41AgJU8jkwC8BxBnOXMv8wpA1iGRJukGj2XFjSHWKf8oMshNA3iwlA1UhncVLYsjMsYB2a1WMLPJyJQuazJLxwgIiiwxJzLwie+PFkI0lCYkY1peaeTERme0WjDYWMs4877zz8j6SkRi9rLIsegHl8kriZ4mZRUyWYps1YveFtxAiuaRHnFXWGymLS5pmElupWYNegxyVqKwkPgh+1ZtnOdWzMgxcdX+efzGzRcrqJ9JDcf9c8uzm9ZDFM8YI1S9gqR+EU3XFS2m7eY7kv70mrvSsIuLBmr9F3UtNVFE9NRd1FOv1PTS71CXQjVjv36hlEA0w1YCHRmKyfn7BVJn8Ury471ZTtVwoY9fL+6iiCwP6udGjTWv01UW0+ar951R9pOYRM0FzmzX+qmazfqu2lBWVbciNuWAoHvEvedFz9uy8rjY37ZTDdqs534bITI913svrzXVk1Wxr5l+XD9zH6DF/8HoMWg1xaqNbt7QaYze2ajc2h2aGxuujk/EAXLKub538w/YYmj7Wlr1uCGU166iQcP5G1JHjsuF19All+/161O001MWYCtz3yxUT8NXCd1BPIDgLefx6Xll5/6gH/7uLLnj48OzOuZldrZk94+Nj2UdEg4+ZeG09jJ4Pv8XiuqGYoYg5i+ouGHImD3Dv5zJy1e2yXvD1LA/wEDgq1Gujev37P7luT8D6EAfihStM4qHvZBOK3J07K4KHv4MzgA8gxhriHTt2WPDggEVrFWiWIAx2ZGTIowC+lUonskEGfULk1o3ATKaEASD4Q16XaICYBGTu7mQii9uccynJpbw+5JlkLjN+ZYm3bUyKx6cXSUzrshVNTdtnUoqXaqYWfQWWhJ79YV+s6A55J2pkK6kcu5mgvfDCC70NMO7yGVp+wlC1Bu8mNMQfKzE4ZK4Eqb3lomRqC7VFPuABD8iMvQL3Et/KMBlwUAQxgGPLq1yaetcYQqvKiUkDpu9StGaWIgkwIJuY5MaBiagmsuiLfoNcykBUkhBAk2ZwI5P9KK5Im7XjBhHj1ljGiqYKVX0CjIBYvacdxLChEQgb2h0hrBJ7hwHLWG3E5ZLh+EYUsMnz8LKANqoda6ACWqrVGNrl8cfHd+w23dFngXiLNzI+savVbDRGT9tRe/hDTr3sC9+cGJ+sdsCDXeZ6TX+D5kNAmW8TdSfTBzZVNjnZMqBf1jN6+maMB4luVFMcmO9mhoNiAV+LuuPxo095wrk/uWn2HR+9/IQ73+enN183se34CqnrSwwDAO7oVVRw+OkCpq/LZavo9TPbtdfdcPWPa8fcJa6q5hGjjurFTAw8ep3BhdajvR7Wjo76Z9CBb8mHc3L+x//4H04ABPt8iCcnBQFNSMItA0wg66tv3kp5W6GBw9xfNvzJkj1/5hJOSqkKdT8aQgCa8IostkhaESGLKVIgxj2LHhnixSruW/xBj0w7pE820BNiMxF70kknkUWMpkXTFDsv+8pIWY9FSWArxwgsYEY2ibN9CmPlyCD28cFgG4v/1//6X44HtTjEhgSpppNRKl0YGOUEGDbRvzDHjHwC6wZ9YcBoLVeDyCg+6zfoDpCjctFa4Ac/+AGfgubsszb5K4tCQ2wbfNmBkJoHpCvAvI5aoqYhEIulzCuzb1BMDtsI773BoEWouNJIiJ2tne4GaWwuhkPjxkEmnHWnFM2J1nR3d6Cku0ttww4WdwdDcYX5oFLtB/0mst8Pox3hWTRZTkM01s7meOyxR7jKm+qtaoHYLFsfHa57zugsXvSsi/7l+z+cnt01On6M00ks3Jr3f8SSmiFzqh55sQxiEKdzRK6Z8YVLQDgvxZQGOQjjTdoNsIC66mLyXuAsOmB7rXb8ttoznnrhN/712m/+67Vbxo8fmp+Jt38GfWo53sREbhErx38wd38EukKJaBVdIbwyajTGvvq1b9/7zvfFfWzUywOfNI7h3zq5rWB/qEeEJWs1U6FmhQEIR9lY8PDRj370bW97mxPZE2JCgcA9fAPc5A21Uiv3FBAGl2AIkFlVAuM60Q9kKcSACGxqqQ/o9s1vftM8KLDCB3e4EoB7sDr11FMdHnLyyScrkXi9ILUwPEQCsKZxCJkZwToiUtE0prGq6WeXaeS+0rJPDl0MogBHq6FguHvc4x6FOPPib4vt0572NNVkl7MvW1mu/elPf9q3xiB+RwmhVxxiRbO/imAxgRybSRWfYFptMjtiRavxjOSL4ahQir41gRRboRhiTinyaD/kSX1T4JyPdwi9VsEB9AYekrQHKFaTA23JSZEdO3aw7UUXXURIts2Byq2RcJ95U3gF5Sw74TNmnxl7CXqzsAlWqpJNrKjRbLJ20KgIOyjUiwbADiqXHcSD9YzjrmEH2elODB/AMqIzRjpQldUr8GrhTWS/mmWO3njNMRsln9NeqzWfR69BjmLNPTZGm63mWGNk96xJz6EH33vsaY89563v/WhtbEv3kxSeUdbKg1uOU/GcKdBvALNpZlqdDCWgo9QP5uNWpCRd9sHsGQeQ/ugkDZDeozmQYWnB3trd7lh78S88/eLX/n/3PO1ON+zeXR+ZtEI+SFWitVAAOMKA+CsQyb5Wo1XNYLGdKNvqnvGJyW9993uNx9+3K0qsXhhpxCL1rjui3vMwglsDXsxeGm5wTo7FHvaDmh5+1ateRX2wXqcNWZa7qWuKJX/RuKf4GMIiDttxNh+sBqkA+uYaRUJskCUQjFWht3TYFKYPZvHtnYXhYFyFgkFAoXvWAAPxksIOmQu6MF2KB6sRWJgToCOfpAJryCu7jNTM/Q9MlHWRfMTLy/h8tWPodf755//xH//xW97yFmMh6/vteGY02yTEI5M3R0HsXGB9SpjCKEsRVg2BywTTB6pi6DkLXUPOgZKyd8Uz2SpCQSrUsaqaliMmr7rqKm2DCmTIaWn8qUwqkjOF7dfGlt4jaQ9e/sCyibCJSoW1TTqQqH2JiZ32JwxzocmtC1kdfbPsM5LM7JBPIlpY9uZVBucGUQpYL0mh+KQdcmDm1YpvacHxxrpuEGNdMjAFedK2+yz3gBBsIvsDYsYjh4nWrJny80bxzqm6YY4cBTc1GcQCsU/AbPxcu7llbLTeCtj+pAse/tnPX3H1zum5xvDQ8ER9ZHSo7utVzqRsO0XFJOog/BehfDS5LrjHwQMYVtAnZmv0bBDYRPYD2XZDiLuYJ2bgK6fq/W01Zxu2QI/XdrdrZ5++7VlPvuBjl31x8viT5uyFDSivP3EuQCyQjyUPAh6HXQ4dRmJKaEWgNA8pPWGMGz+5Lg6KjnFhcI2lIBhXl+VPpB0xLhcAgBGwAqVMA4OJgOOb3vQm6z0syxEpFV6ESxIdrtTdvQassCQfHzzhtje/+c2m58WAmLAagG6ZNfTp0rwjsAK3CQCs2LofsYUIUx4MC6A/lOfsia1X0ZNwqQKfHVaaaLWYzMuncg6NZMdEjCw6LsbhEsyJYZbf/M3fNABzkE5O3ttT+7rXvc5Mv/PpnRZvXKSydHfshliW3p4wLyF7gcSpOsOsOzEHyiWyzzsrraEJmXh+1rOepX6Vq0SyaQlmr73bAVj54LtRCvyau057hxzQvyzyDmre/dOojEwUB3bD3KqAAINyy0pk/zQCPwOveMUrsrrdDmoKZzcIxd0LVlUZzBjYsIkhN1slJbLkwyx5qyarQUXaP/pNZL9/djtic2l88TyoVsSW3irOlo2HyKY7uiwAHvn0xMjw+K6dNx9zTN1aB6vu73ZC7cJzz/qb9186vLDF9l9wquq/HHsu1UkoTtIa4DHJoJocDr2BDGe8JH10hgvl0VUNh4G28436ULs5MzY67gx6r+dfffFFPgM0196zMNwYck4qLB+tolp+XVW3qxg1dmbuE9Lbu6GFrZjLX6p+tIFYzhNthm+lmM2QP7imef+TRp1QDWmONMYdNqVZdfJ1g2sMG5aWcKhf0Rq2S8wEiLg0MWxK1RdD3/jGN77hDW+AKQEOaoR9VnGS3FYSIVEdfnJzPJ+1IiAL0JYO6ITkcgYaMcp8KJTshX1WRwKjAvFL6qEQAP6oDHhxwlRI5CeSUqkXOTvtahWJpaaOOLAGJrihFeBndeRaqZyAz0IlsSRwDyh/5Stf8RGlnAD+oz/6I7eJzRJnn302cM9uWXqWUniqHUA5y5WUMHoVAfczmimyOPyxYJOU5LzzznOIuzagRRnUWWBjLyniIkPOuaT10p7Caee0AG6MsJ9irTtbis1EMLRylcgRY90MOoQ4kN9FWkPlMj7mxs8UB+JZwyiLHYxqcri1rAjEOKQpelsIMuONYrdluQ745SayP+AmPewZxp1Z7TQTsH5aS92fj8Qf9mbYVKBjAf3cMcdsm5uZGR4dA5mcffioh53+zr+/pL3Qbs05HXXYnKzp+zjLqe48yf1xutHsmktmnbJIjw0dtO7VpUBJ3QwcChbIus6H59DIcMPArtUebTjEuHb7LbXnPOXCN7/rw43bb2/PzwWAj8NdTbHrUKq5+VUwZ3kVsFLBqpEsRleXTnwf373nlm98+7v3P+nU4fqoL+eM+M6hnd3Va4FF6ioUmOXwdxYb5PqNVMV9YfEDRA4jWuzxt3/7ty972ctACtjCjZMwZaXSiT/cVonSoHkwxcTkWWedhZhtl2XJ27MXxSYBDm7SjM8Yc73A0EoOyxge/Mt4rlXIXtGMRiNyChMVnmOx1CJHTauJV/RCjwnrcQI4UxymdAlcYo4ykVxi34R0fGeV2pBgUYf5+0svvfRzn/vcd77znVe/+tXPfvazMZExXSmIbHhaHJVVmVoQD1mhWU3a9ccXVvhniaac4df/+B//o3c1xM54g0Y6Gg3mJRkUwW6yCGSro0UGxKBkZDFMtH5h9o8yRSIM/M1izM71tsx1su01LMlxEGNIZod6DnHpQkH2KWrirCxG4FiSL4Y8dOcLu2e1ioMG65W4jwkSFOt09OnrGKWvWyfbTbLlFlja5RbbLifrXvetFJHd9OV/Nda8jXHWdvVW/MGHvsvZbl4vs0CpuGWBQetrGdsDftkBQ46lHPNm0+mCLcj+3ndtPP/nnzy8MF1vz4wOzzeGfJl0xreEfJtWr8eAccA4AABAAElEQVTpzlIv8qymUcYX9VPyQpwPA11kPjiRCfALwToDhf++AySoHlQH3IZHAUPNxLayGV82yxNMt4/WHn3WGXc6bmKuNeXUVKu1IPt89EZFxEIcj54lT59cnLNatS5rHkmmefheVbNdu3nnFAnmFoZGG06tjsfrEWzzXlhPTfeFm+XRj370E5/4RLv9/uEf/gG+FwlWQhtuRrbKm8gl+oQdIuVyqcNXL84HtBcwySSl9cA42YUtb0iDp5+pxU/wlGxFQn44Z1mZXRGJBYEbAZGaQMkukMS9MRsR7i2UDeE/eMteAmqyQIIwNAJryOOBSDb0crE2ZyY7LUnxFBuHtGEiOfYRUzRCjNIm2osvvvg//If/cMEFF7DPn1cODeOwpCycS/IIkJbp7E8VQzaRBFCEKi5sD0gAT8WpbmNFz33tgQqpHamyUAWJLK0Ifal69CmGQIZ7FT8gEq7GRHHEIwmbePWhdhzflIIxF41Wy7gynr6yZDwjUBZPkQnrVZaweMWljknZa4es/Syd71INZuTK4jYoZknfukFlbLI9jCyQ7U/b1VJTbF3JjTcOcGMcRspuijqgBUw/eJ8Th+Scd/YDbjdpmnbvzM4b6nOzE6MjOruZ5uKTpnSOAxaxSX4IW6DgsWpxvav8Gb4BO55giajjQ2C12sknbjnvkWfOTu1uNWca8dIlpuv94Q6chhb5+MxYfWbWkTjGkHHOPVjaeY2Q0saCsSL3Wkv5D5xUtwEniBlStFTAkR3vfe97Ld6ASPTh+nMoBx5l9uzSIZJe+WAvSdbTw5SwIyCSuJYPTUrKyZ3eLOsJJ6xBmXgLH5KUGVxh/JWYZR2EvkIRiTKhNOAMcmUW4jnRRcdFPOE0Vwb4fR1QbhdpWskKKLPaprT7Uq4dyRQI7La0BN9WWmfRvPvd7zYxX+yW2RlKPVrJQ0LlqouEsFRAIGntUgZKVVPJlkHYR1lakX0XzJKDMcJQnyWTbCDmB4FY/bIqmwhoz+R3ko/qJjaj9baxbHV9RVp2d9CX+ngaJyS9CirjhEPTDh05+6q3GXnUWsBt4DbWj3DZKbt0ex+1BjnKFe9M31VfLutOss7DbScdV7voseeMtnZtb8w3d9081oAAZn3pL0BeNdVU7NbbpZbIzcBha4EY3fUKbydGXFr+Mjpcc6y9LbPVZw6Omayd+ZDTtkyM2WdosVVsyZ9r2WYNjHebBOLIC46vsQint6xlYdP8Q/WGD9Xu2jOzN6BOvHRJ5pVMveSL4L439ogJQ2NWxpsDNgntEEwrPWAa2sEliU507HCPzrxgx4JvICH7/yQ5EgeYS5sk9BQu9APZyuMDfT5NcHDJTySUFcR3mcyRDcR8P4gV4XFGRz6cZ8qcb0G8VTG9CvaGVyvFgIfwDilnQFuKIcjVKNeIT4COlYHBU57yFHsxAXfrqYoAaSUcLJRybBHJfcQ0oTxjCpTqW6OU9ScpjmMcTi5tiWzGG46ldymJAfnCyiX8+jkfTMpsYIYl3kHB345qTXVYNdtYXq4hUlihUpaauLEzbrL7KEHmyoatOlxmeA1ut2HSig5wX7Kk5uv398VvM31jLbD+mkpKN4A2nWEBbZfzznFjpdzk3rXAavXVTb8N/lZ9BC9gVBbvj7fLv/C0B9/zxONrUzdsnxhuTu/WWmo+Wly5IqUr4dWUOgjxRZLNwAGwQMx/L0H2LlRwHGEZ8Dybh20XzlLyoYPane90wj1OuVvDxxDasU3TYxVejHbisegrwIvO2vtYoQFaLMYtDfUXPg7ZGZ2bH7pl5549cdIdUXyOqgcm9uD5nmB/ZkdA7Hnnnff0pz+d5f7gD/7AbHSYulquA7uLhPX5YaTKT6zjUg8P6QIxn//853X1mQrYmdWGYMSXScr1myifI9XTI2brBfgcDr1SJZA1/Fg/5/2mzHINgXCwJdQOSKtxrHFPtJegUBKVudVKQQzXspLPCDDRQx7ykP1D9ok1GURZDkl84AMfqMRPfvKTaSLhgkEhe+fPMJFF+XK5g7KCDqzRlKuO1DU7cBqMQxudjWMA4zKlUrqis/TV7HMbxhPMIJZ9bHUFxxnQBwTEEKnILJVbw3SMoEayWWYuVaPlOKXeIJApcGMlZPgn2W2o8hpFdx7Va1BsJh1tFtCyNeV0bmkdWelujjZTHOX6eg4vdhBDI04YtPiBTfw3aePE5mc8/lHNW649fstIa2Zm2/Zjdu2ZLueU6xazZzzKbXjEqV8h+WraPib3Oki/bjthIOpqwq8eC2+GTN+fcPvhe9zDdGPLp0vN2Y+NNDSn+XYHYw8tPfZy/2butTcvDXbu2rNzzyx51u6pjmxwD3bAHL/8y7988sknWyjynve8B/gAygF66JNlEuWosgQo0ElVgTErD+ZaL/71r389V9snWoVcEXgcrIGEkkNfP7Fpoh+CYZJzvWXG9yADI2iVyuygX2IBh6+bs4fsDYHIX4Qpgb5KZaovE7EVy0D2FuSkPfvSrxYpL0kSZeLptETjqN7WWzpPtebMIgtyIEsfLjAy8Wheje0BiSePyrIBgEhOstck2C0LJaGq3GgB9k8LspGcb0G89kxOZxBl1WStYStQmv1qpaTlkXGyq+JcuK/GZaF7VpMaXI3DoRC/+OBepzTUHsitk+0m2QZZYKDKQkwMDTdzZdjNUPriDRJyk22xwGr1VQgOcgBay29+VoDOQYUxu2ZVtTn7+Zn5p5x/6iMeeur11/xocjxm64eGw0eQfoq6mkYHJ/4gm+toKy6xMr/hSJocBlYNwCQs3DjRqJ14pztYhDPfbg2PDI2PB7Ti4gHsjNRF1zNh35m8X0zLUF/DLgzFp5ENOHfuntq9Kybtg3n3zVKVJV8q9Cy078voiIjM5TdOSbduG7L5y7/8S3PAgCBoCKCwTG69Bbh7+/MEKA7GcRY+1PL+97+fwWXhpz0F9g/ZFziFD2Ca4wRLn12WOhU4yAhJcSwA5Z9xxhnMYk46F1qwTwrm8Zdhl6u5K6+80pz9jh07rMZBsx9IN9Fh+oThLIDJ9wlZaNpfmDCGaspC8853vlOM6ssSE7Ym/YHyFcepOyMfa4TAWV+qUlBvGzjIVbZ+1bJtE0/l+qbyNddc43RRw6fkkPVOu2Lbvpyz3WYzwMqSfWcZaSfeaBnxFjtk3fXlcChEDozsDwWhN2XYUAto+ppv+m4GnYjwhpa4yfzQtYDne7xCjwUU+atm5edr863x4YXxeu2Fz37G8EJrbLh+yy27IHuUvf1mb/jQ1XFTsgEsACvnZH2uwwm/gs/Vo8Rxb7lmWmwgw9od73jCxITpM0dRWmPvW2bxpjufnQOUuTrpnBFC7Glr7pme8klaqCzGon5V6avnO9JSTK9atsGn2NOe9jRbM8HEP/3TP4WkdeYqQE9edC6gRN+edyjiHA9ccsklzsVHib6s1C8Z1x/AtmAgucAsB6J7gQAeuUwB0BDgADaGfYqnxERsKA2Bzj33XBP2xj8gYOZdD2Y1jf2JT3yCdk4aBcftTOhF5PuUIQlonUAzMbq9yy7tkeBzhUnWjnEXnK0sOJWTqnSAtdRjob81AWVxpTog2osuusi6I03CGfw452ouNJrTrSloI/KSCtsivNVlwD3c4s2V3SOSEJTK7bXwSmGSSTLMNuxLcKr4i1/8ouU9WV849A6PVzK5zWOWIPvcxtRtViwVwbr9UOEsaYyA6dzqchAvVmfu01WS7OszJfvkcvQQLLepd9tRM4vRWXHV52AGsIrTJca8i/N5mUZ9uDEyt1CbtSNu2Qa3heFoDhXgG4D1UUy68p5J5JEmTCyipgaGI+u6s26N3S1a1qKiURVRg53PEUXXZlNa7X73PfFhDzm1OX1jvbXbVtph2yU9PuPXgfgCLp1gIqmk4mERRWfzZXDcEFc6Ky8ZFJaK+ApqtfBjnsF9XStOaayWZpc7Z2llZXTX79xiLhd/1fnsUGXErO13cy1iYoMlLFf+esZRG2KZW8FUR915amgSQumHcaHsmC+34D4ei15Wmw+40/Fbj982tm28Md9qWtbs9CT2rw9bZm/1TjSSIcvyq5avjvyWCSZpHy625zr4sjU702b9cPzCJkYaPrsXd1jK2RF9H0wPv+ScmM95cUAQuIfMrMn52Mc+dsMNN+QsLywItYCDBgAJdBKm0FbkaaedZjyA5o//+I//7d/+DSoySZzgfj/W2acFsxQwiEjeGOBmk2jOoSqRS3nWRloHsDLIo0QzrywAq7385S/XJiE2C10ESkFr6Et4h9jI8qAHPeihD30ojGvtB0VK3vUHSGIunO+UUouC7KA9/fTTScgVJmkZ1eo7A0ZuJPe9ghSP3zt2KlluTSBL5ycIdo6qVqTKLPEnqlZE02wSt6aUjchbBLPCStO1RMrHmFnM5wKMxAiPQDzhmVRgNRncEVmbaQEWlldFn3POOZbav+td77I2SYzsSbYan9s8fpWOLjbLLbTnKDAvMDdnP1Q7JkPm2i7lWeev+sxR2RQFJeZb19J+rL2Mfjic/ncT1qcp1vThJY9ONkVVPcIE06od84JczDrk6zDxaRiPz9iqtu5fbbi90BiqN/fumW3ubjpLwO0wuq1di6/PVG0lpshqDkeJykpws6a4m4krLJBjrei+IUw/tROAsPMDQ/reXLGCecUPE/3U/ELbm5VoBouIprfUqt56IwYIq2KdQAvAAn9HYLVoUJFfT2mxp1YwOVF7/nOfMlGbHp+94S6TteHmnuH51nxz1sKLxrC11kO+zzHn+0ELzfLLOQI9i5/+sa++ByQyOl84MsYVvqc1TwVubqg2RwIpC7XRudpYu96YszgkqsWWqM491cXo3UZeNXUjXMd6zrV9f8UR31EdMesBz8att4Y/X2s352dnWtPTs3aiR01HNp9xqX4z87WZhVoLiypSYKpVfTigVptu96/RUOO2cQmUPRfjWyzW3+TPdXymbNhV1X5NnDsmpxHI/qTb+frB9huu+aFNZ972jE9unasvTDWnhuqeoHO+V+zX8KFagdrccNSMfkaT6Pywy5+GHr+5+HVGAjEemB8dsaB/fu9sc7YaJC1olAzcmY2Kbb1znlixhCw+YDUa1X6IOpCRI1w+HRM/wRAugYxEeAkp+iqgqXM4JCJ51KMe5cumwtZv5JkqUA4C0JAPKfLhG+g20SEf8Stf+UrLeJyE9r//9/+GY9CIVGiZk3YZHVe1/iTxJcGAIS77oiKbvLAyAK0U4BWs960fSjm051Of+lSS4YZMXgTJJ9WUqlDxGYCelUV+QiJIGsXJm/wFcECcBkzmff0kMwrKIZAFSM6l8VrDhmPgXhZFmKVOfYuyyiqW/+u//uv3ve99+EC9O3bsSPtkWbRDhpgTU7IQmNmTJpUSzgDjIGMQLw0o6CWAGA5BTgln2KWyfvEXf1Hg8ssv95lhLwryeHXSZlORVEosAZHLXCaRkAppfH7SpBmVKJDlWt//S7/0S2ylFf3u7/6uLHQpjYEKWReyCxTViCRG1WQ8vzJJvJ8RzssciBo6sgwbcuLJljRZTRXtci9ti0AgJU9iHLQTHKyJzzwq6AlPeIJG6FMBxrciUWYTEiYwl5Ty4pYyIBBJjAwIZ0X8+q//ulvDu4tf+7Vfc4Nk4+/NXsJkSCF7aaSmQZLsIPhxP1QTshHo56pHWiR0Zu8Sl/SjXDOuTC6WQC+Ojxth0w1igcqMnYYZ+UqwBJJbTuSvl7PbJafQakOen3GzgUHVtGY2j4q5yurWF7DZU/R6Szl66Lp2Wq5x702UMEWMQELe5dRrXndfqa1GtNp9vRr9yvjAShFLmazt6so7nbna/Gyt6bFwzx3bn/iYRx4/UZ+burHWml1oNZ2FonPkPHX4kxNj2lHO2Vc6VixiqHjrxVspcE9M9jbV4LZr25iw16rT1efjq7kBOSv9tPiULP3eK4eyS/MdF/9rI6M153tGD+bnuEfPxv6+ITY8asQwWm+M+zblmC2JUX41sojZbs9wOU2awKIu/eba8+M2KlfhsZGNNlCPrdYbTK07Eqac/MplEnt0rv3dNlk7dnIE/q7i6r5HC36BATHiMpbp7KKVMWC6RtJ7a/SGOxyX/Yns3fYZN1DlAtZXg67ou2K8lLVZXVVJy5jcppeQjRuECFAOuCMAFjARnCcMfCTM6kV7feWFS2ARTBKvoDep/KQnPen73//+JZdcopQ8qz6X2ieISf5VdYSFlOg4/F/5lV9xtIiJYVDmIx/5CG6QjXnQwjbhlLJySQa0BDxZ8GBzpyS6JHZUhLKgQDGcz0JZT2Li02uEv/u7v/vsZz+rREKW0tHgiRs8lHg9oRU+BOCTgZ9O3gRPCdDllasgKqnrd7/xG7/haBqz5q95zWt85EvR7JDz98SjUUJPMniP8ba3ve2v/uqvVJMDiB75yEfa9srgifx0dAwinADOPLHD6fPbUpSShcAkTDMSL60EIwLN73jHO2zJBUOdgbOa5CxpS6tXMZR9+9vf/id/8ie5PYC0hKQ+ziyWZiGGGOvjva4pDLNESWhkIRXh+ZmlkC0LGI8B9zi/9a1vfdWrXuXdQiHI+lIuh0/WlzCRWINJKaW+0LOJQG9ByFwSKW2YPAuTUsTKAMnZWVnyZqWvpMlCNb/Xvva1jnM1ZrMsjdGcSa9OU05lZUZiCOMmVeNMKxVdyImbSO8uXv/6159yyinf/va3fYzWbaVBJodsJ/ggFk4LS8VEJHqHb2KiBrX2ldJuUEwMUDbdpgU2LbBpgVUs0OkBF1NhNFP4gFiisaHatpHaOY848+tf+/6Pfranio43lZwnhx5NdxbgNdbe9I50cqCwyHXjQrrXZB6BLuhcvbhAOUt1jqtGB8r35APHQdPAsTFq8Khc6RtZeOQFtCSCZxya4VZtqJ0vatik5qiGeGkhvzdsYdmhmT0jI9t8MwZvAwZfVe0p8vALTgx7q7PVA88Ke7O3gbMrCFLh7TDsYptgT78lUQPqW7XMAfPcxuSJ5t0mECQo4PEPuIgEJkS6g1K+AkRWE7c0cqZOmvvd737Pfe5zrUYwZ29NufuxJAmgT9TCBxazIJgM/n7Ri14kADiCL4+uPm0LcQJnZkOJgRgr4pmaBa18GMvx+Uqx/gHqddqg0tHgrxT0iFM2B03CiJS67LLLwB2yPeIRj9ixYwd07nTFxL7JGVuQl7MIHuoFT5ElQzxxEMYZfATBiQrDKR2ffVpppfUcJw+wmv82F25a2qQs3AbAqQ6lQGkqRSkw34c+9KG///u/15uZDH7+85+PpnBjQ7WGnvyEMaHuhCJiG1kZzNg9DL/yiSoLsemFzJYDYye+Up797Ge/5CUvYeQcqxTOJcDgRkfY2q5ggPGmN73JLt7kb/290rFFzHRetnDsZt3Iy172snwPoF2lcUiITBhlVmWKXQpaFkCPg+bhZYWRj+PtjWqsTlEoSUie5RKAhBYUuTTMs2rFgiXT294zoOFKS07+KpHRyFDkEZ9h8WvUo7rgSI5nCqBGcNN++Jz6IgnOLKzFevtkFOQ1y+/8zu84KuepT32qFxGSkKFhFuWqDqMgA2ANnppAvHhmwYfYKYzirFXzvQgL9zX4Zz7zmRbfP/nJT7bMjBjUJwbKvHM1ANlZ4DOf+YwXMkYXBsyW/it0mXk37nLgkkgcC0LW59ZLtz5um1T7YYGornXX137w38xyYC1Q3V8HluWt5xYILDBxBUGTXXVluX2gUcD1nnebfND97/WjH39+fGL7zEjdTI1OFsQYaTgizRR+24MlM8by++oXXiDZ6irTDrxfNf+KbQlVFiZ2POHW7UL4GMlUE7/ZrbkE2ofNPicX10lU+TkH3xkipOpVXzvXhOy9I/AUg1IWUTt4hc/QcN0BMkYMODsivlr5FOVUrA9Lj1Kjw6OGLdrD0Egs04E8xyfGLIw3lKleEoaa1TMlx4rZHqq2kYY+0rsvDZJREvapYxiCD3awWOKhtbFONosENPiAF9nUtTDT9ueeey6YZWsmzJGAO/GTXALK4isILsFBXpjGxDAU8sEPfhCC+cAHPnDppZdCpVhBliAReogHFjeHbR0L/E1U4MbgQWoRRgBPPhVkMQygoNnxV7/61cjsRHzjG99oGtjifmUpN8WgKUj94x//GILkC8PEFkyff/75oCS9kNERmQDOEJUioEkwGuBL06UM6/QJaaslzsYkvt1rZpfWjjCnDrPgD22D+3niITuAdBdeeGHC+gINURYVGJmECIgEUDIgROgSXhSfdmZAPHPeV7wVQSbsnTpKr9XETlBoBGJQwSDAvQHb7/3e76lclzYoY04M1fGtb33LcEsRQKdxgoxshS0C9tQMMuyS1il2Gna1oo2abKUlp63VnLVABmnwsUGRQApGa/hYlSkdN3XBnrJk0dmM8c+CRKopzUBjQ5nWk4QAH0Yo9CtFyhaoUmRkfwRJnNkTkfPFM7VIQr70pS/1GsqwBMiG4OFs62oolVmM2UQaBbGVmiJMxuNATk6AlURia9xLZQcivfnNbzbSs8jHqf+MT1liICO8W8PLCi9t3B3kVGVqNpdOpaYYHgQ3MLI/CDJtFrFpgU0LHBoWsCCiHn1bcUCmHjii5m2D1BNDp+YVjxuvnXvmQz55+Reub+2ds8G6PjIzOz0z1x5tjIOrltN7+WqCOoCxHZMVAx+FjGHBQXGls47Avgql4koSSnvq+gnYecCfnqlNjNfGgftYENLfxd6I6mntCeE0RnPw86OWOAdxMhRotqxAndsyMTE/tzCCpD48Z3Vyo1rgY51GI3de9Od/WMRagA+P2ZpvhV8KnM/LDGcbkOIISzErLX9Y6HhrhCzW8ODP2T6YDHKCvbAVCe7AT3m5RkGFjwDQIwv3m7/5m+CFCXiIJBdA4wD0JB7KLDiLEV8QFexiCtl8s5NYrJyBQQF9906ipSSDY4AhIBi4MfsOvMLuysUtETYy+FL7R5mgX9gIARJ63OMe53gZzEF8U/g4S8qblLICcLyjBmFWHxMlDCimLAgeZ9w408NgN7DFPsYVMBkFC3Jdw0rLklJUZ5aTynIXiJm+JrwJgDMDMpHiAH2pyATyvQRNc1yBITKXhEFMeMr+1//6Xy2dt6nAqwB4VwAZ+zAOGqgUDcD3whe+0Fp/Y5sy7lLWMgnzUi6WkaoUmyjkZTevSjhz5OqFMBwL8MHZ5z3veZqQ9zYuKUIqHDjcXKKnbx7Tnnn7FpqRClWPGoNDML0lMFwBW1UcrdVambNHRkLNQLneewDQ8DSabL1FC1kIAPVShAwQdkolHocMryEMRZhRk0CJjyaNj1KE+TKKT1bCdKcdkVjjYQ97mCZnZEJy70nQUCrzaj+GjunE5OAHH5WlOHwKc1lY3golDZ7lP/7xj9tebGCAgOXx1JxkRGZhm0ZryZbBgIABKlbZ2NbQ7gAmDYzsyVfNr6xLhrDKUdhVr8s2B4moappRD8uc9rcsZvPyULBAdX/1EeS2q69Y7RyNZVkjspk+Diy3tdpk84j0hzxg++Mf/Yg/e/8lU/XZbcffwcka0+150/UjsYVx3oIcmBq8w6iala26EaGDNWfPpnEvVK2+uimq0ApL93uuhgVmW7E63+jkB1fvvOmW6YltxywMj9rUd+fbYdmnF13kXi07d5kxDIBbsaXIOhBvea7AcGxKrlvFv2V7rLu31gfjCu+uEPNwivCZg+Hhhh0Nnn+1VtuGcaO+yip2HsfHa2OPf6VwpVXsKU8Lxd9w8WfRnlXUEi+a0JKIHgMviz/kLuGeRHuMI2Be3AoKL/ohEpfETR+ZHgD0WUOBRDZJAKBo5HKB17/1W7+FiUsoClvwIimru6CDhBAk7JAFBwSIOajd6gu5LLC2dNjcPzlNQEqCuUE9IsmoOH5CJdlT2sJTTHZfoA9Wxi2mqIEeQw4MIWDr0Q0ecpYX3IR62QGASzFSI74icCA2ztCYmDQac4GSYBxXiNcZwA1PAmNoSp5GFueQ1iS9yVcaiQTmgFQqpwyyiCdbKpUyuEztmAIZHc1YeyMBU8LxwL3ZdFO5bCjJsMGghRYCDJhiGxtQeTWx2S0HVALKOvnkk8FiYFQu883en0DY7EYLKkglFRvSi1QKSiHJltDfqOkv/uIvlI4GwzVGRFluSggic5QyPa84tWbZD4xOZnxgWfjV+IpxtA3GyUJTI3Wt+jj6ckxqu/YLXvACAzaXhExiorpczQgZbzD5ute9TumGEGKyGbNJyYUbs7hksTSacp07xL34xS/W3iypZzQiEZskkDex8UnxCh/CZDiZ0wvoZxB2o6lRk5ctKvSmm25iB69ocBCvGfPRMJrqSNPJhXnhfBACi+Y4CIVtFrFpgU0LHG4WWIGpMiIQZ6y3gao8PRYAt5HaRU98xIf/6crvXbur1p5xCoqTXczXO4zQSeaNenzbqugOLEN0OX9fIjc0kA8ARURghU49RedzZVHUTIoPMdVqP/jx1Fve/t7Lv/iV+vjWlnnmemO0sSXwfj+nK9ete5p6ung2BA6I1xTgbEsGj43xiVEPtm2TWxCwUd3cf3P62Mmx5z7z/Elz3M2FLeOdR0s/9odHHMjdbDo316R9I/bNgvmNoTmn2nefxDlbH0egVqcVDa5VqakK3UfNlpiVzJaPAFZSHOSYgmME4DDtRGMAjFzCOtqqGE0FWCmUfSXsRVFJoL3JrgVygAUOXAIdgaQRSDJFRPusMD0xkptUbRhikwRHohGfNJm9+EBP4ZmRsvSKhCdhcEuQhNh9ASeBuRCSLClJIlECJ5PEZ0Ak/gkB00pJL5yWiSFIBbtlX9tKybbXJ6csnIDsYJlxCytBe0onbQpMl6SkBZdZ8BHvUoAkArRgaqmZi+SwI8d6WajUrAIBMRnOJAah5mr4DyXmJBTAXxZFmJsX8BohORRfucmHSMQWTzw+/krJGApiSP5eGQqHEpCKmxrJ9VQ4QKtcEuCPgzD+yVYYfYbTMmIEVF9mSfsgYBa1n5EkSaVcFj6ZtMxnAaoZvXCS1JGiOdnJhg9Ro8663QvxpMpCKmIo1FAtw7KzRuGfjYePfqUM8mLCxxmaN/5UNPjuVsVBuZxc8haGiA2ZkCkljVxqv9BsXGAT2W+cbTc5b1rgcLdAD2b1gPAISx948sAwvRedYM0aeuB2z1TtbifUznrwqddf9s97Z/bMjU/U50fqo41hy0uqs2CGFwK9cc5fwsdMawXCqqiDZSe97Zqwvq8cYFB9xvL4hnPT69fetPOa63fe4S7HDo1NOsZmd3PMWaD0d9DsMn+uOVczxlnYI94/xzM6fbPZ2sNaDbbwCHBeaTsOevP4aTgldKG9d9dNJx639ZnPOd84AoXpU1QH1UB9DXArIlXytDMpAQgvKzwX4zE7MjsP1izB37kmp3qjs1+FVY1pSc44Fqmn9UZaNLhDzUEkBesADUwkhiMnTJALAzSPRCrQQyat1CIhhewJSlBGo6rm0fkJLKTCNDiIwUFAjEAvjkkOmSScbLOJkkE8aRPBZF4MARdkSky2BRuJwTxlTvkTuSa+wSqFQZPxKRJWOHC4JfCC1Th8OIUmK9nRc4RJmYUzqYper1eyJwJjtLS5/L2wL+2Qcsqi9JRHvNLl4hi54FfZaVfm4KXKImNWRBIrsUC9DPDXkBuHkr3YIQsSj3najdjMJb4wT7Fl4URmKgLxcqXB1zBd0tNFdpVCcZLQTlj2IrB4DBFjSEHxyVOJ2TBkF5kqCJA288pYiNH08kyCXh9nBMk5rZoioclSBHDu1QtPlKkFmxNPdn6yTSZZKElcFlMUYcQjSHsKgPXyUoQdMFSugJhUkM8OSdDbHsQUzsIb7VZF9qlwGD12PgVZ2KtqnQNtPguj5GJTrBabQVih48Ii2Hvi9iRvtN5HHP+oqXhaxp/4xWKzML2pwoF0rW7avbKPT47v3dnSgWnBGsNATDaJl1mg29bjb9SUBQidd7mLhJEWd8FiTG8oclUuqEonEpW7SobezLcq3AOPsqhS4PBod4un9RR15xt6A/q6l5/7mSt8jbxZa+2dn3OkJMAb76n1IY7N8VEiPSPnZrdKJ7uGuPdXuKDZSEckNRE2r1xPUfTtmLoSrCOGI2qcPdGcX5huLdzuTifN1MaGFsZatUZztOHE9MTuieyHLaYfsgkhfDFhIrjeByaqgc1QLXYZthd8IkBauzZqF3LsPyCFrcaT49tv3n2j4j3hJ0fjNJ3FKaAeEQ/NYD7CVRxd+CzcXKg7x7sda3Dm6/RPPNQyr9agbFcL6kYbi2OEFi3fTez+7baHqI5ScYKeSkykRI9qK74Cz8dtxHLL3n2XOu1yPGT+FqxDImp2Na1ZXJEyFhSSAGINwUtelElc4E4yL6gumRT6wlNMKa4EIJIEJXgWvJt587IqrdNRJCWGKUD6yT+FKfoWYYqQWaIshUkRrJdPiRRYqUJv6nrCvYoUlftmLHJKLfKkxVZmLNohXpaal8WSCNImxTJ9Sy+Ry7iVgqKSunPVhadAik3OZfx7MxbmawTSUKn4yrxSM7JXhl4xMnvhX8gwTJ6SltEU4hLoNRo7pClK9iQrnDOAZ6m4zJ65kriEk7joJbUIk/yXWS8jizylULmWURbhl8lZ4jci0PPY3gj2mzwPNwsECKtAVY47tXuw3orDw02Pw0xe0OQwkHgJ2K4uoFOCx6Em8GsANGtufuHpTxia2VWb2TW80Jprzzic3YmHsfwmFlXHNCFnjtUvFrAfFKfEdZZTAUB6dDvG0C5fLwQDZ9/HB7uGGu2hRnNorFkf9frf97bmho3Vwo+J9nhBUe/rI24PjbVrY/NDE864n69ZfT7aCm5jc/XxZn2sPTTu0gBJ8ezbFWKdst/GZPqK7Dr4DK7f0JHsbdZ2Tk07I4lhYUbPtqj+6gt6lbhLDrDv6r2WIjL3JivLIgU+txi/lGYxfjO0aYFNC2xa4CiwwOH17DgKKuS2VtGDM5+ROU/vSQzr2zFzW8t1xJZfkEoJHFKqgksdxJR/8joW2fuZLfWr+pCAWyaqY6b0yRfc9373uEtrz03j9fa4l9XzzZxVpWDoaDAA0nfdQVA2Cq1cCayr0ArTB2WVu1IyrgLBD/ka7+j80CiI74B6M8X5i7FKN9w3EJ9crS3A/+Ev+JJz9XHU+PZV3HQOwfF607hg1y0R74V64+CdHhSq3UpXZr/wSVOzyw23zP/sppuGGqNzVGSqCtnH9EG8nUo/Bk7VMK/YuL8g2WR608R4i4ybCbPhkc58fRBEjfstm6evxp+9+TfDmxbYtMCmBY5EC+yjM12pcnav6/dXctiMOZgWWH9NJWXC+vQT1ntg5/z9wRT7iC8rrZ1qCpfAavV16BlE1xELSQLcB1gPl8j+uLHazz/pMdscy96cHoe35matKaeXQUHRznghJu6ddNhRPRks+oXy1geSKT4lUMKL5XVCIU532r6Kily9ADHOcvGdrrmhYcvrIXl3iv++TMtvVKsVM9zfr3B/dYzlghNxrE1iGB+gDSaSAvUKLNz4symWxb22YL1mb+kr5D1kItKkvcv28vX0NT+59mc33TzcGJ2vDy9A38PxwTL7C+hWgfvE9PH2JsaMxn2ru15de2sQsp+YiJ3KnQVrvZP3vXk2w5sW2LTApgWODgsMjOyPDrMcvVoCGZ6afIAe1PCotvKsrCE7eu2yMZoXgFICG1POreAa+LKbvTNhX6bxxetAcnq6ilyImWYbP885894/9+D7taZubs3sbsCrjsi0XTRcAvoOgOvy3fC/xbwlsEaRHY1jIJJU8SdV78HZEKoTP+v2xdowwAQVXg/f6f1i+vtO87CGOEYCCzLbL1khe8QGAsNQPRu59a699ieKs0DdMvJqpVOKcUj7aVhTALkxTtdBkfZC7V9++IOdU1P2jtVGbDawzaJT9RT0dkLTCEzf81tDySyCXwKI89J5Jra1gfSRZO4ex+Xu8BggLZd683rTApsW2LTA4BYwNzSYq7rVlf1mfyadR2L/xM3Yg2GB6im47vryWOw6WAZicaDh5pz9RtRTBUECvwlUMK7CKLz49XGqpU/swY5KeNR3OgC4ldq20nyL7y2N1J702POu/PaPfrb7lonjtsy1ncFsBT5NY9zYgczm652GuIpaFdmtV28Jm7ioiqti+xdMh6Xqxf5XgD7WkUjKugk4CqfGHgNoleb+QbL/P3vvASfZUd37385p0s7mXa20qxxAOSOk1SqBEEIggRA52CQbg40/xu/5//zBzw8HbD8MfgaDRbIRSTY5KaAAEgoIkEAJ5Sx2tWlS5/D/nnPurb7T0z3TPTu72l26tvdO3bpVp06dqlv1q1PnVsGu/jeff2+hdtXsRRfvRWUTwFiDL4wJi6LPFvOcaJ0d7IH9Gzdt9ryDdrzwu56CiRslOsie3DdtGrv/gYfY9lQWNmIJO3SWK3tqGG/8ke3sVbbSLrjXCaC1kOBNUKFrEqPvysWtTSTYzG5kJCVHoJkLNr4I7vt/+xLoS6Avgd8hCUwfxX6HCt4vansJMFgaiOzb2bcX0MKFOpjiPAtHe6EpAa4UX0HXvKJ8bYYZpNVM6+xVUge9Hn346tNOOT6TjBcLk8k4IJiNn/29n4VI4Baa0Y70nJCdp2NU/0HQN8qMBfTZxrGdC5/MsmEyP76ONc8sVyLXo4kGO7tHkg2+mvUSNfkGN1Xjw9lYuhpN83FtNZbePFbQDeHiNptok/HuF2SdBot7OPMj50cfe/yRxx6Tz2cB7/FYjTOLdW4YnqaiXvfV9hQqMOuaWb6WWuPWQkD2zCJsi22ZJ8iuOOak1gK/C5ke0L/rS6Avgb4E9kYJBKNXd2VrO7zNnlS+CZOtM8TZqqv034ACGS8DNw+6QdLftb++gleLjVmzmPrKT/bd03GRRRgwlwhUVrplbAsQWXeSwgSWcZf9CWtl2bGQL9M4SHTj5o0QAsc0FZpKNWaZax6t2XBvP9LJgZr2CwLd093Bg2Rgo5trC7eayNK5J0GYCIzGb62c+mBTFa5UlmxI6lcR+dZ4KfiYkpgk5I+8L/LKmK3CHFcU4KQSbBTCRKGXqbe3O+B89r8hmppTqEHKo3q1Mrl9jM3LhzPeWaeesHo4U9q+aSABhwJWiVxHAgrK2A+fdhaIfvZMm0+1tfvNbm4/slTBWnp5HURihKrcCA31QlZTJGgKED0xGnl4t8NzNb7MaBTrcyfF0djyyqjGmKvUZdufF61FI+wXw8+iqZW+n5uAXWx5hGi0UGCDTXX2Uguz5uARMfLD/p6f+SmUStGuQdRe/iqFXhLMjItQyD8WT3BlIQZ8XSg3nvrtlo1bpiLxTA2hosWX1i67JEXk2wwnZl4MCiJtPpCFVYVfKl+WvCP6msitnOolrwkvTqNW4RyAwUwygyEUbFmF4pMvOKIG8yEUOCgb8SCg/7cvgb4E+hLY6yTQ0RrHbKylh9TD5OiXzROLpWT1uTtHJyoUpNeW0ZRVWkEgmF9yyxIti88yHJgjrg5swX3/70wJICyUXuwwIdtQYAmA0o+TO+peKpaqYLKLOhC1aEQ20jaxoyEER82k0ylEhl8dT+PRTDQZr9cqfAXJqRSThXF2n64VSksYP3H1Iio4r4pOUWAPw6c1iCYqkloN4IJges2Qq8TT5mP+3eGqrDU55NZx29Zv8d1VVdchEQuWVGn4YRReNuquNdg9lKMhdNdHEFkde2sislkKV9nkHYICDSEnG4aIE9TbvArymx7CQ+Z1jRr7sle5crapnHBqaSUh9H1WxDNvp4UJUgvNaQF20wwSs/MYx6aw/WXdO/UFi3980IpNzz4VLWypVtP11FAiOxSLJwtT+eEBTkvYhh7Xi0rkma5tIIWS8CYonJluegjiENGKdb/iRhG1CLtBVXBSBx0ST2QxgbrB7p1Gyz70kkB+9Hi+DLkFe3LwVFIO3mJX/no8FuGNSPBJqJnCE5XosCcZKu/SEHzcH/BEvtjwUMFUGV2fvFLMNGJY2JMd+93XKgOZZCnPae+TvGblqWIyHfTPxBCqgGAAPS+ctS6yoB9I+HXtx2mpoSDzjn8h5bfV6VGEf0i2OCtbENiMQ53AlpxdlvDJbS3Uv/L1HyYHVlViI1EvXq4UOYCUCUkyHqPBIi3iS+fB8AA5cpL9dtlC1M9Tg+VOhw8qQ8Np7Tg7iIBOrlFNR6q5eCObQApSSWy86dXK8tEC3/1zrq0yCpf0bH5htAAB/7vFX1ZH6c9pi3yl4LbTtmNxjD8isDRBu2JQxmMLI+4RCd123UaKRwQS2a67RSG7YAJuiWVs2wFY/qvkeXbqJzXPwUCcJOWK2QXVeUZpEV03OcIz1WdnIVmNWCrYdgWZJzf9ZH0J9CgB6Zp3qhP1rw2q1mMDOv2uu+1wslN52RuI+/vgAVQaXhJ0XSnxrV69IvbNarDNABbUKRqy9mP2LHKgUrR6GKhlaz6AiFwghGMDCkE/DMjMK2q18sTELIRk1DYn/LhfkMLG1z3xinj8Bixlcd7pwVpM90yAhQA9XWCRCpSfpuZdkGqjMlWXrDbHRJb4ba+i9Qw9hYbWj7xiTJL5R4i8bi5r55HsqNyd/9LFvHSWvSA9APtgzLvgrNMyXjleL6YwKo/IuYxlJiGgY+BIMpZKErEXlrT3UAmYlOa4inxMAvJuBCJV+eiroXITyfiOg94sXOSoCJrGbj/IMBdjrsvu6cwEQPHqkbqzyJZRU/I+SftjLJvfaoErLPFhMRvfiwcTlkwiXi6XkvFEfiLPPCOZTUur8alPI9e8cfXrPM1nXfskrXE1dxLiyhKR7ySVSUAqUmH9tilZTWDR4dvX3PTs9lLNy8i2/bJ1EIsSIt5AFqSQg3v5iaLdlBEyd5UVLeVH8/B18IRTlXrVV0feF9Xc1yuFwXT86BceTgSZoFEQ6klqUd4JvbcWpsheuVe6u9EFQG+g1mA9mJ4Q06xRTBx+HnH8DZgeD5GJ4ArgYL1IQD88sCTcktBF2809lBpucaBhrsB35jAUs1DgrDOPz6PZeZkmRPj4+LgotnaysxohE4QJb3A1e4bEsepjjyb4JDl8WnGgYGkhQqHsOju1/tO+BHZQAoFOqHsydLUOO86dysalueP1Y/QkAelo+IKP46ZjcUbUaq3MB3gMsfJPNtiYv5IAbaaslRugEMUai9zJSDR1z0OTxx84QPdWrXDsdgKEH0vLsMEYOr0N6VhCtdObBSpPHYsZZ7SIMlTLCL2bONjsnhsmUQK2rKNu37QppNGz0s5NWypLZSEDQHuavqjcCOE8u4kMw2wYtK2whMR+lxHv2KPXnP7iU79zwx3RkcEYK3cgkkQV/SvgJcGyj6jP/WEvTGQuf/dJRP7dS3j2fKXyORSJ+qoz2wXl1zAdtyTUGz9dHwPzC+wgkj6yZtAkTDTI2D1vMC8sqJYwpjy5XBbtazY+9Mymzff+ZuykQ4blPdbYUCGSJBXdND8koAHyUin61+kiMSzU6Hd7tfeU2HTs09NPv5Ncg1KxeMK+PRrARdZSohwrn695AzlvvOI9s8X73JXfm2qk+XIWoIMLM9NyO+0R5RGrm+mOj4ulaLreAmiSro6CU7HMiyKD2czhhyxiDSaZRPJEZB3AJzCdDkl8yU+n/jzfAdnpyQ2sS5ee5Ftz30lZp3fm9PxAeROgoU+udssV6E9KU/CTEAQ8i6iDTHaLv45PW75ADjZj4WrLFJzIa6IA5e8CjpGk5UumMGOCpY7C86gwG1Zr1AWRCefKfk1QwE/RqDVjntLhCSfs+/sS2BkSkFa485yoTfpuQSXQooVZsmS0WMyr2k/0U+Bs6YkCsc+jExHTBCwTDKAxyLLLSTRdj6S//p1rnpsQm4RaNIWpNANrDHwvjsHSLASEgeAn4zCI1f+x6M6PdXJdsmdSQtTd6kqBxDBi7qvpFwMApcDBgQXu9HXiQoXo1QLaNQCqxtXOTM/MFDPjSPrdb5ColGUwk9ObECb2EJ73ljddlknGKqXJSL0sdubaRFFxAQyLFfTfYikz082UACF+q2z7rEMglO1J2OP8LYm0+lrC5NZqFtDENDfO7o00ZAqICZT/GUWbJO2DZk5rVUsCi7y6JYAAjSme2j5Vvv2u+1B7F8hJUTzBWgwYhAt+WODIzpnW4njLRKz67vmlbZ9921DXUFthfdvY0PezEJ/tyyk2e7zT1QpWJcJwLeF99NNf2pT3vNwInwuH6TgAFw5s8etb5YfJmpao9pGP2m9K7yQzRt5WNExcqY0VSxZnkh7LP4rnW6fHVjwhJ3Sbd34Gz/cf6tywIB6cY4fVLeAg4jKJ0dLQXm/dupXjwLlu27aNqxl+kNzi8E6RXJQ+lFNPBLNwR3N39oCYJycn7YWi7Mbqs88+SzENZIPsCQdb77JCOTRvFTQLrHeCpWOhUki4XR01gt+SUy820eIWj0vS9/QlsDMkwNjQm+tpcO19mOmNmd/B2CjHRDuFqr4RmSp6q1ctr1UxyEGTrJvL6WK3jH0gfBAAnb4uYXcvKKyP0Y0BTNUSFiTDwJz0Ipmf3n7PsYcd/tIzDxlOexMlr1atDeXEPhiIIfatPoRl4ORWdZYhnOGwr7LB3IQAYj7/V6wv4ARVq67dz32FacUHWqAmAAmCw1LmqbR+E0j4wTQ/I4GpF51n2uMZNw6SOs+MKM9rAEXGWKXKVxhxpInpOK1ozTLv3LPWf/OaW8qTY8ncYtov3z1iqx6NJ8rFErvmtO1SmtJdiAI5cYmnR9LWUo2LZCo+kM159a3wzOyFcigx2gN/qUn9DEAaFU5ahc2xnQEiOmf5wpZK1zgCW1HxS8xoJpuZmBzjJZ6qV2Je/N6Hn/jtxMnLh8QYPeJVmEfTRI2oLy5EzWuKvJUDbcNi8aX56l/xz+2kkbZzgZCsLH6MoIDkTLhkruia6S52geVYYoCOoOh5P7zhqetuuzM9sjqSynGel0Exrs7TLkM/zG23EI4jgkJm1lJkKojkpfCxRq2cnzrisIPB+GwcimP9Uj7e0IUQErQKQmiECT//fgN5YHogoOmDgYCA+IGBAZgDJj799NOPPfbYww8//Jvf/OaJJ54A+wIx0RAvXbp07dq169at47ps2bL99tuP5KQlgtExYPr8l7BrDigyzOMwaOE9/fa3v33jjTeOjIy8733vY+8jyGDuQhMycL+zSxfG8Q6am2DbFggQT6VQm/CP4dBnP/tZ6u70008/6aSTmJMYpreE1BEE7V1oS6of2JfAjkugZ2S/41n2KeygBFihVXsZer/G6KLkyNCAnFUpVqeCkmQwE/gyvxEM0pj48l0jgIEhGWIcrJnitlguf/eam5kovOzcQ1MpOtmY6VWmaeT8gjHqN4dUBw0MQ+j4a63O4jyfVyQGe/J1XXdXv3y+oYVCdz9o+p8ALgV/pz/VO+rOOnfxBCFiTNXBEc09cX71zK+iHbEF9iQSWsMK3dPJCNYSxZr35svOv+u+h+97YnM8nY3WE2imgTEUHxDmytLCx0KNfNBHcE7C5uuUaQsPNAtrvc4zkE0vXjTSqD8Gqk/GokU+hA019XBy8Ldfr+FQwtQER8NgiuYn1UpMpjtg90wmx55U+Xrk3kefuvP+5848cSnvFwK1N4oE8lpaQ2itdqKIsrYTP/qo9QIlK2D3yRCF5Cw8GO/0OYTFKtV6JOVN1ry7Hi7962e/mF20shTJ0nXIV8Ukmd4dcdu2Coxyi9xkNoQwmQ7ygDyJJAuTVGuDjXgqlfwJx7wAhT1MoOaWDzfkOTxRN3IjNH2nz4Kb3eQvogALOuSHWhr8arD+3nvvveGGG2677bZHHnlkbGzMNPrEN01wNpu96aabiL9ixYqDDjro5JNPPvvss1evXm2Q1yLvbPi7gDJkMoMNPcWBZwD0fffd9/nPf/7JJ5+k4CtXrvz93/9903mTIx6g/wJm3ZaUgXjyMut5GGtpwy2pnA0VCb/whS985StfIeEDDzwA8+vWrYNhmx5Q17Tc2Um1UO7f9iUwDwnMA9m7saCb7HbHzrQbvnfbOEBvNoxWyxEvl4lun/D2Wb3i0W35WHxQx0/pN/DIwCcI31cJd18c0fWz+4ckkBFZt29JoWZM5xbf99iz3tU/nSyWTj7hyP1XyVgtG1HI57S0IlfRBOMXKGJ/FOg1Eavdds/Pzo4ZGvi7ygqx2kxA5CvKfrnyX6GF3DSdRm3ezvBpVUmoVFbXfFjN+qm6TzYj950SwJyHWpeySAOgrgGbtZK3etQ7d8OLnv7qt2uNUr1aZFmIdlkoMdihvKJxqRR3CkNNotPl1gyf3ael4Z0T5Tu1hBH5opEh2dSrXkukYuUy3+AK85SYn3wMKlNqw96iqTeQKjvSNh11LZhYYKpcRWT8gGtgAvbeYeuwUmli01jxO9ffvO/aiw5ZRkoEGaYQ0JLFNXvZ0JVPyyOI0dVfbcnaiDX69JzszlWQFEoqV7sXyVxgPddEJOdhfnP/k5P/9h9Xbp2qNNIDTFMqVbYPktbgHJhmdlhjqxlWGsHnOLUulH6JvOn5RGowwRwHT3XZ6PAh+ycTJONDXY7NtgPRpCJEMlY0oSEVBCcuQAjvJs4wH8yYNhoPphymsQbWAy7Xrl0LcD/hhBOOOOIIg5hcsVS555577r77buDvHXfc8aMf/QhYjyIf8dLUURjb9GA3KeOcbNjaBcwbpIZ/g/IIZ/NmDm7T7eCUyi6A9Y5b4wrxImSqYHR01IC+izDTg/Dz+Tz8M0XBvsh1O7Ys4+p6ZsJ+SF8CCyiBeSD7Bcy9T6pnCWBFiSWOOEa4mFcpVVcsX/zgxkcTWUxdbQcKRl/ZTVE6+Gmjald5MWCSkHE0JuiLMZvhlG00OUwn6qWGAff3PvClu+677/WvfeW6takhMcRhAE2FSeto7AeoH5L8NXCgn5/uTsPrdOARLkd7PyI11ag+duVqH5lQhbodn0oV9V5HkHMDRkfSz9cDEBZ2KlWxwqhgBx2LDWe98aq34dRjv/P9q7eXKmW2TK3GKnWv3KgyTKZMx7+zuHWQ1M9A5NaNwIklyBEnFMCNYu/W8DJxbyCb4Zad1GMctasfFfikQ38chHTgPvRQAGrgJKLdIQmA3fjkxEAykUizq1Dixtt+ffD++x746mMxqiMOfNDaJAEvJektmdicK2d+BDMHCsj38hd6Qra9C9q5TGOoVIvEZJYpRxzrPb6zwcR705T3Xz+44ed3PxQfXFaJJfJTxaGRRdWybzNNmtkxvcvZ5ONnQrkCtqTufGlJqcWky6uu22dFTgXCbCuuC4ilfD6VzVpxLKlPgD/z6BAdWzvHA36V6a32AoZr2eERWI85x8aNG9esWXPZZZedd955GKVQfPT0puCHl6mpqZe97GXgxVtuueUHP/jB9773PTT3Ds1jAUIcICZJdg7jC0wVnTeiMNRO0V74whdu2LDh8ssvP+SQQy655BJKzVPkY6sQ4Oadje8RLAJnmsEs69/+7d8efPDBv//7v0cB36nYxhIrDyR585vffP3115PwVa96FVZSxqotR5AcylbRnUj1w/sS2HEJCEiUwU47Pxv26BO1C+VOelLpD9XZX3vWbcao42Qw4MXE6lY3gQhSEkIT58qgIdpdtRKXDs5YCaL1/7ZIIGGwXgxLI+VSZemSxCknHXfVLXcO5EYrjVo8jalfPJ+fHBpZPFWqclZ9T8gVmBmPczom4EPWiGUgBOJTPdjRxhN8IpcciMcbuWtu+tmPb731gpdseOOlF+6/yCsqljO+aC2AOhYVWBan9XBuETBPzI99vSyhOvxigR2sS7LFj1Q60Z4X5xBEN7kDKIA2moSSGoxSxg1+TC+DvlOOqr1ESJWtLCg76kX3KOyRl64XJ9WkkrSEPabuJacu48rHYbKuBJBLJOSoIH65uLf/Cu81F577ha9+u1iq3NAu2QAAQABJREFUxGIDsRQK3Ua1XksCDAFvgSMT6QS0r2mbYU/yoQVql+LTVIJ+D9OZDjXsg9xwBWKlxqsFfsX4jZdssjhVrSdGFi2dKhbkfZEWzNyXhk+WSsH/CN1wsNSp9KQQhidpRDzWdQBLS+pGLRGNxdOZepXpQrRWjcZSA/955bfXLs69fMMhtJVi2cslmc7Xy+V8Bns4TneislWBLbptNvBgXi9Qu327krw7uHAxiaLcyx/pltXRxGSXLFwpn+JEi1LZiyW9RKZaj5b0OAvA+6335j/zxa/98p6HU8PLOGGXsiQHUuPbtwwOioW0OWTuxG61HDxp/sWgXt8lUS5I98OUSr41QMI1AX98oF2pMRnMT04NDw49+/CTf/ihv8lPeqMDso8+fYzoH4D1wjGiaJGFTYmCUjXzfD59lJJXGN2wM+z+1re+dcUVV4DvzzzzzHe+851HHXUUcRgrgYxhpG7YHZmcpe4jH/kIxZDORV8fu84b1huuhasd0TEbhDW1txMxjcjNZAikaDg8MGwxraTEef/73/9Hf/RHlAg0D2ImgkPzhu8dzTk9ZGECcTE1W9n0BsDt1PDkZeW14tvqATGvvfbaww47jAoiuYvjSFkgRAzck9E+++yDGRXhrk7xW33hMbudtnR4iprfpmeOZzyEG/8wBofGJJLk1jFPnLDjqZN8S3FctBaZuPC+Zy+QwNzdnDWs8HXexTYi807eT9iUAG87Z1SxpZznjS4aGhpgL2yP3cHZoAIlO7bODBe8t4qX567iJlnxCUrQP4JAFcoCQ6L5EttdJoqNRCWeHVq6JjEwetWNt7793R/46499+Sd3PDrZ8Nh2eKzqTYEL+IAN62qUsnK+atzfv72Zh07wsOHHTjkZ5yo2PTIKy+i9q6+aYU8XyicbmCiUUwwOPtO/QsUHRT0RtMhdvhpdRpsHAwuahIqkCVkrkroF5rOT30vPPPbANcsHU5zPVebbx4FMWgc5X2gUbaeUTnH2DlCGPfnZDJkiLRkdHRka5MNfOawq2MQjXIkurxbEHEjYJoHBnS8lpmfgWBGFwFkU4dFEJZquRjMf/sj/+/EtT4Ep5CNVeRpNptJTxXGZMXFqFa2PrVijCZYUIpyy5avvHfE5PFZPRJKqmu6A9SheisVyldaN0TrAi83UcwOiQmdbxkQKTqqA/Ij3bNH7xePen/7vf7r5zoca6eF4ZpB9bHBs5YiRTNsvYqdn1Xonb5SgGczrfb4IAamUiwXmP5Fahc9mc+lEcWr7IfuvXrYozYSHNkZZQEuqQCBXJt3IQkTtyqilnFnQ1tx38T2CMoBlOIwvZX/+85/zpSxQ8u1vfzuwHlBL2UGZlG5OpD4PrAb6xBIM4hTcNV2gMzlyy1N7NA+xUCLDoGHKBIaZxE8cssADG2jryZRuwRJyNRCPCb7BeqRhnxl04ocZEUDWPSUyRXDlIiOeIk8i4GemBDIG3BOHEMuUyHgovgXiAbKTrwmfR2GBEBkH8zhIcTX2yAJHWsdJi8fyskBiwpWRNVhPjvAGZYsAWTzcIg3HJJLsBOuJzFMIQodSWG06UsKrmmwRwWVhT/vXvUYCpmmdozha/b7pNlHpMedIEDxGoyTHAQYNlOCwP4jV/9u7BOiIgcRx+WBs31XLV61YsnGykkxnqqUywJ6dc+gropEMXQ4i7340k/rSL95kUBQ7EtTTEiS1mE6yipgvlKdK5YFUIpcdrRbGt24vfve6O35w3a37r93vzDNefMLxxyxdFOfcTDahQ3uZkvPeGZQlf8A7+nv0U3RNsnWPwBfRcz6/117lzj7m0vRjHnCHAppgAfnoThWWEcBChy9vitbNe8IbId22vRrm09uZF/fuOM/MOM93iKlF4UKEgATMJwp8z1sx6L3kjJPv/8wVA7mVmwvjuYHhUr7ECU0ygTRHLFk/FCl0kkQLLtYc5rh0L+EZhJoVKAzq4zWrVy5dMrpxfBOcgwkiYk2kbAMm2ZiR6mc/e8lSSm9tRJX0tBKRSVAu+UTdOeKyHyhiQGONAOQVbMQ5SaKKmj45+k//7/MPPX7eay4+AYU0JGh6qfRAQ0654lzjWnGqGI9lUtkhWhtf38oR4b04uCCBXS2dlblYqaN4T7KCx5epAo3QF4DU0SWwcFDPFxsVDtJIeMwwvnHtg5/6wleLHFC2eHE6O8TenSClVCqaSdaHsukmyOqaK5WBSEc8sMeFQ3+jEU7l4whgFg84LyzDJonlyTM2nL5y1MtpL0MZaEZsDSP1gKTU6VDl+4WMhe5OV4CaX0zVHwPrseoG52HRcdxxx8EpVQyuxQNkdErrtiUIWqj/BrWNMzOQ3I0B9wgsaKgUdIgjnAiOuIs2u8fRBD7Ku+O/PXJWHTQNrzsK3JIj4abPtnBCkAPgFXjqkpgoXMKZHtvt3mVqBCGF9MDZDhbDD5nioABx4hOHp0SDc5MzciAJjxYtWmSAG3xvjygF0UhOWiua8Q814pCp0SRaJ/BtEwDjJ1wKy9RVNLkgBOMTj7FNfDwmYcs9TMH5Ie4KQimMW3vKLQ4Kjn+Xqu/ZOyTQEdlbu+E6vTcE8IVw+lwyEOWLKKH8PtqiK+UWsnMR6j9vkYAge/pc4EF01crcgfvv98hPfzWUyqFHlD0h1JgPpRmmgjJuKMhoIdD2VlG4VDjgIupVNB1728sXfmQIlIhnBpgwVKvF8WI+HcssXr52bPv2eCL+8LMTd3/2yswXv37oQfsfe9ThB6xdk45HRgbSyxYPjwwns+j4gATycZvHx3VoqeBdRoyQa2KoUOAu8E5v3m0ytObuXw2pIfeGV5Yv9qQUcM6wgCWFeg0+iClSgCN43lJWycXeL8td/OrDI/5ZnYugUeeIPCulnfRQgFSYLUpG+QlFaKeffPQ1N/zkzse3ZJOjxcKkfEorVklNrYEbsToxp1PNTg9bw4UNkacINyy36Qy2pppxr2TqrIMLzF22NLVi6bK7fvNUJFmVbaTUqMZnWyLiBAYF2WlaC/al4kfyw3xWZHkLLikd2nvG7TrGJDKNjMQHlk3U8t+77papSuX8l5y6z1KxbmJ9jh1FM+hEY15uiBN8tIGB9Jnpa0NyxLvw+FMMa9owJzXFGktCEDWWdfTU7GMk8w1QS402H58s1VNsceR5N/96+1e/+6M77nmk0EgOji6t1CPyUiQSA0MjjRoQBWP7OBTaukA+Mx5KfYF2o9jrIQceExNpplOJSr0cZ/7DkQixemly67JF2fUvOiHDhqCkkHj0iNgQsh2wrgpKrcMjpZCrxpAK6Fk8lnKXXAGF999/Pzu4H3PMMeeccw4FB34503lQmogigMgtHLlw52mJ0HJr8ieyYV8yMlALEqUGccQHSuIAiOA/XAuF2W9dQuOH7KBPLg6aEwIaNnwJKYeAScitwVDLFGa6z51pAIJyiJlMYSAManlE1mBucoEyERyMDrOB35T0MIkjGusJxjwEHbdEgxQOssTn6qYW+MMTFWK2OCJYCKUjC/Ob5PEjGa7EcSF4iEY4DHCdXSaIkWLiwhQgaNMk0tpsgQjEhNrsrBpv/eseJIGOyJ4yUOsy2CjUED+KJPXPr3iklVG5Q8c0P5q/u6mkImTEom8YyXiHHnzA92+8rYIVbCpTq1VYkwaLywjN+9+jwKN6pCwfxTGSozTUzyMYKRk/4xCuReM5LG3ryfJkHfucei2SyC6NoApBgRHLF6vFux/d+OsHnyoVpw49cN3IYHrJ4mH2EhnMpbPpVA7r4FRyzT6r4IyeBWddmzSMziPWzq7i2Ud6GDMGzMOm4mNbNr/g0P1yGYEISBnFB9tni6JFkL1FViQxO92gVFpwuXGe4En7vy38tI/0/IW68jsWZOySUJmCJmresqHIW15/6Ts/+H8yy0fGpyYzQ6N14HEgZJfK0IC73XGPy0I83VVNS6aNai2aFISYTXOIxIp4JFquyjE09YbuEisvo+BxiANK8dt+OLLyJWjSxCB+c7aQpX4D1uyxY22AYZtvaOTVwDyH/jc1NLz5mSc2P7tt69U3Pb5x88UXnnvUwWkkGo+lp2peYSLPRpzsLgopdNW4HgvHElPAlZ9cAL05QHmhVE1l4pUG8EXmZ6mEGN01stEHn/O++b3rr73pjrFSPZkeTHm1qckCXU4kxue/zDgi2EDAfCaVY1kmoNfdX1Y2wgONjEFwiM5ezPYw9I/WirFGaXz75hcd9+LDD+STZv2Sg6siT+QG/7qGRhBeaXhWIqhINex+zrV2vrl8/PHHuT3zzDNhEzRpCBILE8OLLqRTIRypThFcODEZHei4aMP4eS8M2+ExRyCPcC5JTx7Do6BG+nkIkhFV4wAxUBhq5DiTvg0KPCUt0QDTJO8+awiS0ErEFTa4kpzCCkJXCxlYMk5sGhAmTl7EsfjGuRHESt7kQxVYONGgTCCkjJrRMf6JxoTBsg7Td36j5m6JaZFhwDwa4L/NTPm4hbIVR4oRMqN3RMIeIuMsBJrIhFs4d9MYaoRwAmdWQZhO37+HSqDje0utuyKp39dCySGAXfeQMlrpbzopHcNcUN8zDwn4eN0flQ875KAVS5duzRexXJa9K+gc4tJDUYVai82qnD0ricc3t4I72IhcVKkRPtTTpe0o/b8XL5fq28qT2Vg0mxlKZXKAkHyxvG08z5g+NDgar9cmJsZiicjoktX3PvksUCMefULM9mOA/0ic1fwYE4MkhLSbks5KGSQfNBCGjOnL4GLXXQU9tctRm79wAm/GDyHxRmUkVnn3773lmKNWodSCfZWxl+aLRpO0yJdUc6MI3inrwcWjtYJH0Z1UwuxOIqpTj6WePcWue0rvMKPwwEeCZbU90YieeOTyow4/6Ma7Hs6tPLBWqQqiRZJNJfc0/0y+NfrM4PYhIiaVqpOwId855CYMOYImaia34iGYJnvIgQeNLLrlmTF00vBNeS2OZNYsSNCAlJBEcJHU7+7Ew8RYMajo/5noyElLMlmW06keeOqZfVaurlemntm0ceL2e3756wdOOe6F7/m98wDzTOkHRrIAWpScMAYJjJAHMgrzNdfuLgEnBvHli14BBOxrBJbOZuPUHMRTuoH4WMkbr3lXfuu262+8aWyqyFynVPNKk1MsFjBv53wyzDhAIYIpojFMYqaw6dHeYyYnrg23PJJ3QIKkAppxgIalMt8WV0pT8UYpWq8sGkidcPQLhphr0dpqfNFL7yFst3Myd7KplLVMIb2bOUoK9GTvdg45grUDDzwQ4GV4EY/7pNLgclverTNp+6htIDka7KaqiMC7CQPmZ+DA7wAffsOpbel0CgSUkwX4FcZwlMXIUhxDwy4h0XDcWqbGg/FmX50SMj4+TtlB+RDhFoIueYsHtqEDQaLhjKylggIONI8zypSaCEQ2goQT033qSqlhFU082nqKMzTEVnAyGyEOueC4xW9EKBfESUIgzJu+330OS2BbZwUnd2OVOK5oeMiUXKTbTCQsOyNCCK4tQRdIWpfK6MOqw/dkx1MXue/Z+yTQEdlTVGl2AeyYXnJ6yC6d39taC7Y0YX+XVPrRnAToAqVXkz5LPivjuzpu164dfuGRR9x48x1AJWoMe0X0LXnUJAD9Hp0CGIExWD9jpcqIQ04cglUqFzxM6DOpRlV2qCgyzrJLBXsYRuKDo8vJZGJyCnQ+tGxNpVJ6asvmkdE1fK1UY6MPtaIuqfIyWm5sK6hGTtCQ6AsZ9wVL0LVRDH5WvJ1wlW2wKZVQnnbV8hKKm3bVsUZCguYqf1P18r1P333ZJeP1+irkQueK6SavkIIhItt7gcCcRwl3uEBRqtKyMF+HmOHggB9jrOtkYRI72R8WhGYFLNa1Hwa/VLbY8F5/2aW33/+PjOTlcpG1f43D6CPNQOtACiW3O+6UkpGZLrceSQMMdSC37uzwI5auWb3qma0P08KxVZOmC5IQ5slEFrhczYazaSmP1b0VGPn44F4+iNXt/qEimDg6smr1b8e28ilqNTkwwRsdT//gul9873vXn7P+1PPPffGpxy1CoV7Ie0M5aY0xvnGZj3PNdRqPvDGFssfK3GBO8PODjzz345/d/dVrbt08acgpXioXKWk2N8gkf/v4GKsysWQmzpb88RSHkJXL1fHx/BBHAOi73zVfKmOZ4wSrK3zdwtmy5UqDRRKvkUTc5dLxxx110nGHCLu0GIQYMK6zLP+10hzlcddZPz8RrWUCtvAADQ3UGvACnxFu7wJTJsOLC8IlNAGpkALObtu27bnnnmPbeAD0unXrMCtfsmQJTw0iAyKdorf7rElubAN5mbFgYsSkhevatWuZqJAFx8oanCUaBcePM/TpICnFxwGpWbJALOQOS/CDP4x0w1wR38pFXk8//TRXkhDChpUUis1DKYsJnFRkBCkytUkUDFhJSUWmlsWzzz5LQkqBlIwBsrCKwGMJ8VhhLWuuv/3tbymgMz0Kc2h+MsXhJxdLCyfUPpSpC2SF0KgO6C9fvhxm4BxqcGiTB8t3JlkXYlkTWSYBKjE2UaWK+UQbYXLuAecWUwtkB02Xqu/ZayQQjASh3o969scb2V5ABiv5nhKNCDhMB94eCk+fzs9QkuAYGb1Jzn/945/zQggZEOLPnXvI4HcvqtnZ8DYCvVFWaQUuz3ovPHDNT2+6uV7JR6LpWBLr33i5Vs1Gs/VGWT8jaxUUVRkeAAONFxWswfJYKgVIIyovjy4vWcREvsHecyn0cbVioQYnyWQ6nS1Uqnx9kczmGH+3jk2RXWZ4MR/SsfslfQqQKBmPsZBQKZYKlfJQdpD5AlbCWA1Bll6dXTcoDRBJATEtDhSx8Fe1WpxJ2TX1FvkIdnFBjDzml5lUdig3MgroYqBJ6k7jgFYqQ4GosW25SIomCU0f3BKBF4C3SVS0vFlIjEfslmiWwRp3jkuYPaOmCYIc2qTWTNuEL3wQFYkgcHik7ZhDZKpmArmefvzyM089/uqf3rVo5dpyVdoR8kNXjSiQo/YE7POCCxfH4KER9knO+Uf6K8gJGSOF2HSCF0rZ5FBbnvAeDoIp0sO8vhYIEUKjOW/lskWJSLlWy2M4A/KEa/jX1jwtdSifNl5lzA+3RkMmIg21SBEuVG/H59rZ7EAiwbyyVMPmPRsbGl5y7U/vvOqGnwwPJo868uDTX3T8EYcfNDySZElkWdbE3GTDicwVy4XoC0g2CJumKC8eWAOPXGNiVc/WN/lq9Cc/efiqa67lUKSxUqSUXVaKZlKYoIEIIrL7B+r5qUJxcGCoXKvHEykMIPKFSqkG6MkAHWocTNaLk01QcTLVkQ1DXTtn/ZGuIpFMp8B/pbETjz583RK+IFYbJJhRJyhNVv84aYAiUhpXYnu+O17hmcYDzzAHXEOeFNnQm4WA/wghzgLCeigDVR999NHrrrvu+9//PofdwgZ4lFzQT+MBf2/YsOGCCy44+uijiczTTkiap20dpICn0P/mN7/561//Ggq0FxAwjsKCs0899dSXvvSlHL9FIyEyxSQcD9SICRz/zne+86UvfenQQw/90z/9U8AoDBAHySAii9Y2X8Drj3/8YzL9xS9+YZuEUhyooT4HoL/oRS9ij/kTTzzRfb0AWRykEIg1tt/85jdsYI9wqA7so8gaVM3Tf/iHf2BrUSJbWZgRLV68+LWvfe35559PIDwDxKkj/ER+xzveARzn6NwzzjijLZ8UVl4gLS8RoGkzn8985jM/+9nPMMqimJCCcys1FXHuuedygsH+++9PQljF8ZQ4belblVH2X/7yl+yjSkUwzyE+0sa4C2lQOkhRC6eddhqHBqxbt64tnX7gHioBPdIo4J12RrfOu0V7Y09CtlMDPWJ+w2iI2Sj3KKiI22mBNSDT/As1DBYYrdj7TEhjlyFIn7GznkrES9uLkahuZ62rgTUWA/eArrhZul3vQzxsLSNOv9eMpjLA7yz6RM87+/jD7/nZup/9+pE633WmgSPxWFwsTcSOGdMaqlYcdeCDULMykfrRsZyrIHgZSgsSiY9CiY75idY4FVcvVNkZQwb9EgQZPr1oRrStlWoBrMbum+xdD4FMijv9pC2GWY9kSAckinuxzInHM3E2MYcKYB7Ur7nbAEzmO7futW2RRcuPkkm+gmsCZ+8AbBMg3SeuJkBf/kbrxXhyG4YBlJQt/olRl729iQoYknJxaE9g1UAcfjxSj6Sus4F7Q9YwZK1C64IJAgUXRCuir+kkiuhSKV06OmtRZPFZla5B+1KkTGQsk+oeSHWZ4yzRyJZK5aeF04gmDcJgk/2RtAJQFb7njZc8cM9dpcJztcggG7pkBoc525gd2oGDhcLUoqHBWqUowpFKoChML6ki2hUNTeqrayfdlxCgHQtcRkzQQOTsIyN2xox/kYpMTKX+hDfBiiayIBtkqN5ItEgrjhNVCvi2N7zka1d+cfnawzYXJyOpYZbIsD5hs3WaNRv0yV6Ryrl8A0t2kJCrOK1iMhLlcpAFN5Ip5vVBHGGBVkL0mFcbSqe9GgpLcHOCnTswa6MNjUfS2dGRyXjk6juf/sZN9zHx3nffNfuvXnzBmSfk4tVcNj2Uyw7mBoYGYrm00IUi2dnV8sVPBmycKVxpe+HNn5ryJvOiqn9m88TDjz51x52/vufeh7ZsHeP79+zAvslFOWx1UciThCLR7/BZAIsGXoKTquJkwzStXi+BWdAuenXgfcneLyvXnFcqWtYsoFrnO596tA45OQuPcCglE+lGtLJly8azTzzyrJOOGsA0goJJO/fnQqCc9jBH8b8wrUKYk41dGcHgLFgQJGeQF4Ux2PSss84iBE4I5OpM7Vt4o1txTavlkbs10OwoUENgUA63+o//+A/wK1CPTXg4UInsgIyI8IknngDdXnnlleDj173udYDXVatWQc2YBFuDF404ueMxEBlmA9R70003feITnwBWYtwCgjz44INBvZQF+kBMsD749Rvf+AYHu4KYAfqEW1lMG22UmUziAVuTCx6Sm6kMeXFLLqaZpkRwjpKb47q++tWvomXn9pRTTuFQXh4Rk2gUmUyvvvrqn/zkJ2T6nve8hx1FrURWFohDlrIA+gkHzRNOIFp8jqniCjVCYABJIlIo85SrReMKnyYEJMkGR4cffjjTJMI7OSIb50S47777wN+f/exnCTzggAOY8zAxQGKQssUHFgH++Z//+T//8z+Z5wDxOQ2XmBSTtFa/LhfKyyPkSZKrrrrqYx/7GBGY1ZCKZQTqjlsqkSnQQw899OUvf/m73/3uvvvu+8EPfpBpj6PGBMzagyPb9+xZEmjtCa374yrtQzp8BhhUiwAPU6boeNVbEUVtT3q6Z2gyNAvexMkn3l42o/abSlDGAh01eyP/uxubWpIKsio8ZHVq1ZKhkVxqrFydHBuLDybZmiKdzeg3fHyMJ9CRyuSvVTGf52l6oaAjPh6BPkbTQjXcogssUKhBZH2ojcM2q/bbiRIy0MBVBlxtLOGrRjFwYznsuqsY/4ibeZWB0/CWRkAKEsffUEiGLpnXyjfJai0OxET7RAT53wBviWaxmdzathLSlCp1uXX54iFHrggJnMlwoo/EioMJMA+En05O3qCQU8krTpVAyyL0uOm1R3b1K7T5cEF9Vt0+ScWm4pfWwzCkp9KSf8TbZ1nsnFOP/da1NyUHM5VYfGJsLJHjFLRUqVxNcogVn2orCepCmUYwUg1IXUC6T737P7L2qG1b0vNGTBPiNDKSETla7s0nGMNU6a/kVbPKWzLsnXvGSTf//L6BZQdNYnRWqifSKUZ6lvYLJUFp7BzYTA7zsvIpPZ8yIE+ml2LaJph+QmkPMgGwmhXGRIy2gBRLDC8CWXDoVzw+kM0uASI8tb2xeWLjdTf880C6MTo8zNac7OGzbOmi0aHhbCa5aDALZmb1LBGPphNsZxXlh4Lg6Y2bGrE4suVj2a3bJp589rlnntm8dbzwxNObOOiuEU3GksODq5bTcbP35UShnB1IMUejHzEZyoTcL4n+8f3NF4IW3rzxC9b5j0y9BLTpTsmiq0ZyTMmoEZAKmgr2FWfWd8JRR+yzFJucqpeQAUWqy883THlmHYaf7i5+MJap6mGIE2c5exVMfO21137oQx8CZVKtQDEHpmUiGsBBGhtJ7BaPgby2peIRINjwMcpaiPzrv/7rf/3Xf0F8/fr1L3nJSzDrB0cCXoGSRABKPvnkk7ABDgYog/7ZgvP444/XVi1W8pYLtSPNQDd/xANeJByusPqA+BVXXAGYBl4DUsHQmH+QnKeAZhThaNNvvfVWigmifeaZZyh4W85nCSQ7WgQAFOlRQHDqJz/5SQhCHD302WefjbKfQvGUTGHPLILuvPNOpjQ333zzU0899Qd/8Aeo26EDS5QdIkiG0jGNQdfOLQwjIhL+6le/gv+LLrqI2iECwoQmkXFgYmLOwucsjyDOU4oAP9QIenomD29961uRBg4UziyCMiJG7HOwornnnns4nPgf//EfQeREYzpEWiYtVAGloIxQgxnzUI+o/5meEcIyBRXB5I1FBp7CPC1qy5YtSB6aN9xww2233YYEoANLlpx8512uWYrcf7TLJNCK7GdmTH3bMKQeeS6jX3eOPp2RVNVmABcGZUY43n95E3graEPMj20AlCYla0ytI153+fRjiUwveeVF1/zkjnR68ZatE8lkbjC3pJifQpWoL70pO6kDwwpILDQYKrgMqnWe/dRuXgfWYc1kslNbJr5r8CIs7TcVZs2kMXfINLw7PTq5WE2IBzVMJ4YUHTZjKpEeMNP0THfenRVG+LSC+D5lnImIWGiJfnwo7Z137vrb77r38bE85zAUatiMSWfBhyLYdVQ4k0jaJ7pYv50Cih3lWUTUUq5O8tGuSOIG9cIQa3HboHopCTXTEOMrDMjQo3JNR70LX3rOdTfdzggfjSTQ4GFsFuV8CTUkcC1HiWpiFYiiYLq5Fja7unUN0jxAFgMl3AJBIAFA4aPW9KL92bJqU7668bHirx56tFG7X0y96uXRRSNIk+3gAfQpgD1Lerqmli+MVaqlYqGcx8BbttRnE5qkAPp0jmUNVimYtshklugpDgHNGKw3jsm6G9a7Ly/Sj9BEZBgQGydZLpEBg1tWyyrFqYnBRGWfZSPnn3cMQQBFmVfv4Y56pOJoNoYvOaAKZIlJ97/8y7/8yZ/8CQAL83rTTINZnSLZFdqg2OwVwVPAnCXB89GPfhSACM1XvvKVL3/5y4H15GJPaVGMyCtWrEDfjPkHyuP//u//xioGIAhKRu/u8sVjcxLAJaCQ0RwiXAkETX7hC1+A7UsuuQRMCcJ2kwGLRnyoQRwGmD+wxWeYbJd+CsL0AOwLzqb9f/zjH2eFgZnJn/3Zn2HhA6tIhkeEGEGU3OvWrSMcyxNU+1/5yldYUoCTDRs2UGoiUwUmJcTFVMSxQUGwk8HYfe3atZSFV5v4TmIu2jw8aPSZbjHZ+Nu//VtqnJNr/+Iv/oIGAM9hVA2TVAqTCiZX1AvK9euvvx4eUN5b6WDJ+IcHS0gtMIFhYsajt7/97a95zWuYmbg6MuYRCHmxNISFDzzQ6ig4zii4Hmwe5eon2R0kMAeyb6lgvaVT5deV06gyIofpGJEa+0N7bNablYmr7DFSw1qjj+y7EqtEAn8jON8h4WLFO3C/7CknnXDVjT/LpUfYJTwerU6ySZzslSE6Z9ZcxJpBN5MwLXuQ2lUnYyhku61cTd4xMn2Eo797e4TPMK+mhJRpKOFt8f18yxPgSEnf8kb4EwdeAHkHOko1nBAKGi/M+3w5W6B08GONkmbUWv/yZUI1kYwTAZRRqnsH77/krPUv+vRXr40lBjN8don9TbkqmiKRgQhC100EUtNsBeKJWORqxe6GZZmcqdCDNGSONyRendOG60Uk3I602BEq52BJQ0nHH33oUUcc9ovHtiUGMS1kz9ci+Do3OAxCZmQFTUHG3gLhQsWhWbcl3y5LCbOE/iTTtUY8BkcgiIdbQImoJ7MDlbLQJ1wOpJXSM7kQz1ipQH/LTleIXi3BmJ7QiVQ51Y7gOqfasbeNjOvs5xnH9iadHWD78RjdNJ/EyB7ysv7CfvFOPW4lgojz4J/ptMgzg9uHUBHIiSpWGwpWd7XSGzVOLK5X88wGS1s3vvVP3zLCTlRY6TRq2EbBcntae04odUerN1j5ghe8ALtnDDO+/vWvA/XQEwPBAZdUrsF6ioVUnMypfRK6206FtrkfkbFFAawDiE1jbTQNHEOHN5Sr0QTLggjBlJ/61Kew0gYTv+td7yKhzUOIBl6HEzAlmaJXhhSQEbaxGKH9o/YmOXplnoL+4dDiQxw8aqAWXPuKV7yCVG720on/meEQhBlyB/iC0THsoYygXggaNiUJlMkOD1dyhytyRLxwhUqbGcvnP/95LHPgx6JZQngjBPomdkpKMSFFCIIiOxMRkQkJ18VMJmcPgRkMhz796U+jPmd+xeSEOZVLAmUjTkbUAmKnPYC/4eQv//IvQe1r165lLYX4RCAmXFldEMKqC7VAGV/96ldffPHFwHoCeYoESG5ZwDw0uWWKBSkLdFee4kcskHWBfc8eJIGO3aK2K38QCvvnXbYmkWCspfXwnhhBa0k9DXrz5mSvTAg0oot9/x9exrZ3iUgtFa9Nbd+UZjldR0nMcfhxHr39xL7EfoyjIFmBTvoTGtJT9x0SsDbJ1XkWRCwmeiPFS4FHplNhuNk5GxfNeTrHfX6eUB5+tCEpmE06uMorjwaWY1WlsDK21Lxc3Dtr/WlrVy+v5icjtUqkVpWdT+KJqYnJGJpjmWSSkqvvkaNZhWiPzlq2tupQchCq2Aeq66bB87FIhR2hYKXOZwGquR/NepddclE2EceanC/++PyQD5OIwHBoDUbKHNQTf8HPndYQ5iySESSa8zBOM+gC+HAM7dwCyypMKjx+YqXOIkglFqnEI+V4rJyI1rOZWibbyOX4ga1qWa65enZoqjFQjo3W00tjuRWRzNJybGC8HNk8UXpy07bNY/k8dlFAAVYr0PCznTwF0jp1bDjPnEXoMgLNAPN6sGu9Eat68kN0jXo57RXTtYlzTzvmrBNWMIPiSC6WEQpl5ieIfA92tBaqzxUA0PmGN7zhyCOPxAgEtT2oGsMYwL3FASIDLrkaEiWVQfaglTkyrR7DfNjVYMsBBOcYrAsvvBAPUI9HjMKAPIjQlkhJuwLU0pwAuBs2bAA+EpMPbW+//XajCzMG1ql94pAW0xGuWIyAU1E/Q/yNb3wjZYEISSBr7QRuIQ6axEMRKKPUrbbkVo67u4d/TPnRT5PRO9/5TiZC8EYgt3hA82SHw0N2eIwq+Phtb3sbCnhsUTAcQqT2iFQ4SmTytDcLasiHcCiYtCmLI4Uf/ueUf9vSQBn8zanDGOH80z/9E0K2ykW2Vh1GnHxx5EJ8QlhmoZisV7A2gk0RlGEG57giLRb2fFRApVB9wHrYgzJCQPJaRLkQiMPjKJCF3VqIu+Lpuz1OAs0+pRPrVL89Mo80hx6c2EriHHHzs+pOW8TP6ydnUGrrJFYookvR98wmAVHIyU+MBEpFb1HWe/MbLuXjznJ+Gxs/p6J8lChVIMMxf9ThBd8Hd+4v3ZP8XDT3YHaPorg2HNLR7OkuXCrKEr6dhz8EKyU1UrV3Dw+3gjJnF7Q+tXwtiRHpJH+L+bxcDdb7eNmJLYLeS75WZohkgM2xNaLn7b86ddbppw6kI4XxLbG67MUOuC9M5UUxjDZW1M3yQbKonpu/LsTUOYp8L6RvhEpGeAzw/Ryi4tPYuK7moOKG8yqQsu6tP+XwE455IUxXi4VcKsW5y6VCvlQoYu7SrCPfYkSGfzTs+lNvdxdZs1DnWqC9VgzSeKDBQx3ZBbXU6pVqpVCt5Wv1fL1R8iKViOySJdtR1hA8qFk+xeXrkAZ+FvHKnOaayBYj6Xw1PlZu5KmZeC47smzRslXZkdFULofas1KtATSw8MFCP6O6zDAnLbzZbfjaXSn9WFo7dTl+Vr4yZxohMxYkFq+Xa4XtizP1P3/vm8CeIn+gCdmwzBvObA/0U3fgNsAcvKMtBpYddNBB73//+zEpQRH+7//+7xjc33LLLRiEEAesCcrE2ehpxWUMtWbQtvTAQcINsfFhLvMEFMCvf/3ruRJO1pYWIqh4cdj8EM5cgizwYLMBTAcgkhArdq6gWxoAzLhMuSUyvKE7Z/Jw0kknMTkhIcldUyEyH56CRwmkTomPA3pCzSA44b06mCct3wFjho4dOcjesjNAT45EQJ5coQzD5sFP6TABolCEIBM03AQSn+Tm8LsCUinkghghBc8mT+IjUiPIU0pESE8OOnymjNkSEnjf+97HZINqJXfEiDOxcEuOxhKBZIQfGb773e/GEB9re+ZasEq+hLvcYYwSEZ8JA0sBRoHugghM2Azfc6tvlqxFEE7RuEKfyBbuqPU9e6gE5kD21m7sSgnxyJDb9S8YNWl9vF3+iG/UaEMQpBkZBzRN+up5vCF7qNwXnG3e7OE0O9V4r73omDNPOzETqbJFBjvaRGQcZx8Qk7/UoA/hI+GP9gRl2g/Guq/fZney4OVZaILWP868zpKPRQ5HICR8242fBCLYAIAEOE0C7UXgkXmgRuQ5hS+1qS8gHke2G052TZzwEBcUOshZhIe9jWiuefmRAKPKhtNOPPyg/eL1YrRWjtUqjUo5k0qgO/LT+A2zKUCKPKeIXAT7atZIOclzS9bmfAHqHEKqKQhv85e65xOBRjWFLT2r8/VKo1wZSnkXnnf2fsuXxBvlRq3ESZt1Fh94w+rwL1DeGPArWul3U8WOfxFYaNgONz+GYcgyiuPwcAsaSCaig+nIYLLGu5+Jsvt7IVKb9KoTXnk8E6vxQ2enn91WohE+c6rwYTCrJNFMNsZufdmBRiJVrNe3T049t207RjjsJ8QhOWxaK0soyIaqDdWuY8Z52giti/YcKqx8Qc7uobwPTvFAltF6NVYvLRlIvO5VL1057IHsOQc6EfdKFXYuFx3znu4QIDiMUqAtRuENXsTGHStqDKABZ+wh88d//MeXX345QBB8byCMyKSi6q3s1H4nIRgSBcDxgSamOOyRgsU2kweUuIy2YFwbcwF8GIdg34Lm2EgBbS0tNvGYuPAU7Tg82FMYNlxL24M4V3a8+eEPf4jFCAsC2LIzSSAmozyP8Bh9CoifEEOQ+I0NPL06I8LWlgBcdP/sMgkFhAPb9kYgH3LhpbC8yBoenMSI/OIXv5gQRGqab9JSECLzCJkY5MUP4IYIkrE6IgmBOAJdy7dUFt7lFTpYLpEpXxgjLihgk2NZQAEGeGTcUrk4BAVLlI6CUBfr168nwjXXXGPitUo0P6SoOGqWiZOFQ9DqiFIwvzIOYYDsrAiOfzwksVTUb1hcXZarH203kUDHHgH+rKEYo2F/b6zb1h/TqUGBuShwn0m1UpNBg7Wg3ij/7sU2qISwAszkV5/CBTk20rZifN1rXrZqyUA1vzVZL3FsKlaqDJ+scRu+N7jgC08Vx0pF92Jkpzmxp+27pgRc990Mmq+vBYjzAoS3aWl5Onsm838fZ6e7cE+1iVImGpff4pi4VytlFPeAxFq9zBDKeQwHrPGOPHjdCF+DVAqlqYlqqbBocIhjibRNygUpqWWOBvTInqaVWQEeehjF2cGr45OSbTBDkpfGb+xKPN4OMePWACbN4tQIvFZhI5ysmKh7px6/aO3qpTk2fMyPF/PbsRJJxSOVUlFoUrsKayRrS+tbKuldL5eZjZCuk/GesZkRmqc2DDc4QwJdfLUSVe08m33Eag1+gpVFktFYHSN6DoNOpuLpFGdKJVIoHss12X6+igkP++Wm0yMjQ+A/NSJmT3mmKlV+ciRXI8op0irJJuszGWs+m4dPNuyqxzDEkZUafmD6Cos58UbxlGMOu/iCU/iutl6eWrp4mG+s2dxnL+iqaCHUI1cgF1fODxIcF40eccQRH/jAB7CEQbsMnmOPGjS7qHjR32OcbaKl0gF8wC88nYSNbp6RFYKA8ocffhj8/d73vpckVLQBOBCqpYWU1SagHNRIEpqWNWDU8Bh12G4qRIYfBwpRaZM7CX/0ox8BOmk5fH5KCPmiISa5USCV3VpeBBLH2CAjC+zpSo5kzX6UQHN21cRcHjgLWRgDnrpmaRlRUhMRccjUWELNTzQ21WGdwUKMAWIaajf5gIlZx6DIyARHIH6jRvxwwp74R8iY02BYj+UVCngIsnEN8zrYgw4ygQc3uyAX6otHlA4/qB1TIr58YFsbY8BSOYYpF/S5RUSOK+SPn1mBC8FDHBzxrURQg5RJDx4cA+Ekff8eIYGOLxW1a84Vg1rHKaqkR+3uF8B6R0Q90iHzevAG2lstW13LtF50TtNj9u86SsAhFEHtapCDRlE66bq3zxLv7W+8dOlAojy5FXVXkt2hC1PZdKJUnMIUga2v81Myimht+vSD2jZU013l+m2gPYdGf+a1feydHzqTEwvpNWf6QRotzdRfgNVhabZtFA0bhpX9vEQ+4JPMgUoOLSnEpGJ7kL/2zIIgA9drgRY4/iwvsHyeKTBC1v1kExmvnkuKCvaNl566evlQpJqv5MfYnHH71i3pZFx2/+cMK5WsNU6s2GWv816E0+ys0MqDbsGFvsO6BP26WK+iX0B0gv5VEnZtFQqhaIl9h8YRK32+Q5WVh4GYd+lF569cwgZ70Wzcy49tHkjLIc1CXz4+VZsS1dbrLMGU0eTY+utUrqBa/dfdvad4eMR4LMzrGKzdKQdZpRORQX6pyGA6ClPyS0aHYg1mH1l+0UYmUst41TS/Blvkc1x1sgpIjkU5WqHcqBerlRJfFCSi4PxGvBFLRZMDCbT6KWzey3k+hfTNA0wYjr1OHq0CGzWmXbEssA369M0gNVUh4qKWEV2DDXkqRa+Sj9WLA4na2pWL/uefvC4hByKUEuwD0KhksUjxv2QOqmXP/Es9wjhXIJf2K03LCqAe28v83d/9HRAf8AqEZffxD3/4w3/913/9xS9+EbhpKBb4RdVb6Z1G1iCdgTkjCwgmkO1Q0MobYmvBbWBHIwIoB1YC640xrtBfr0piNlFhXkG+YFxDk6BMS4XCHtxs+7cYPzyiXJY7cezWqBEeRq5GodcrEAIjdWzKMS4ia5viGhF4M/xNRvpeSLdEI6OMlJpApjGE2Jb2bP5IiJWXQGMetuHQ2iVJ8BCBEMJN7MTET0I8OAeIicmtEeGp3RJiHq7mQZLwvG7dOra7oelbfKrGETSaJmQLhA3edyKT0FUi0xJiOuaJAFcY4WC089hjj5n5ExFwzLsodTiEQCJDEI9jGBERSEiYE277bs+SwCwD8cIXxNq00jX9mTSpwMn70He9SKBZd7aineGDuYqA+4G4d9Ix+11wzunRykR5fEsGW9taaWrbliXgpmR8cnz7IOfFCkJChQgyUI9o9bQ6HMzshZW9OG6o0e5QKdtDRkdylsmBixMMD6GA3dFr7TJUXgK4CwUIuJf2Bh4Bpw0lvNdd/PLJbRuHB1KTY1vr8qFqszeQkVC2yqVxSvsMU+mm8Jaxro1IcmGluSrVzKU9KT8z2DEyLhYJ+YlZEawdfWj0wvPO2LbpqUY5v2xkYMvGZzC4Z7svnW/L7vk4tc3RBTJHY2d4ZPLCHu/NX90DD9st+9BzpBpa2DTXWkT8QHetiIpY5Hv84Fl+qMyldmTBRa50CexAGdU9dULrGztaABGLNmkRkD/XZft2PmSoJjjkemILe+AkqlOFrU+/7bJXsRjCTjhy4Jm2DdD9jma/26cHWuHQgmO2zpep6OxRnLMBPFYxIHvsT9gQxoxeDP/hB5Sb8hV8Bv4DTNstj1BOE42lABDePIrOaVYQROuP9T/JwbgAXDwgQuqOGQWoEcpwaLhwHln0moSpDuCVGdG6desM2lor4goIdvgbsrAEnwgTD3MS0K0xie0Qkx805TimPUEj7JWR+cTHyIragQG3Iz4MIGFD2EYRJo1PlwFPcRSWisYxe6EsVsUWx4oA7uecXT6K+NznPsdTyPIUmyVaBRVncx5H0+Yt7rbv2Tsk0ESHLeVxL0lLOAno3Lv8aVr67GBglgHWN/huIdu/3QEJCM5gzBNoXimkGAI9b3HGu+zi8wH3tcJYeWIrBsHAjlphkk2ha6WCnBer2+W4WsZjDja6rFyLtgNs7+5JnUAco4Q4f/ce0vgQUWClT8FNoBxN88zyflFlJvOmp3smdlVMg8CuvEG2UiwVg3suUQhiIsrv/HMOP+zgfSulSdSxKMdRG8vW94aJZd0Pwwz98lW/Ru2+fWruQsXYcB6BqgpYAz6JIDAdmGuMBmzrX3ngzHI0ltQnP+Gf1w2l5aUXHfXyc0+PA0fHNg9mE8WpcSzf0IbJmgPY3yoOf1CDPRZhGjuz3HAmCCtKbAvCr6w/88s1EsXAQq8R38peTrqAGKp6gfWK6fHLT/0y9UJQTIRMXCaxWXJv+8jkOfPKi0AgV/uZnwoChTCRq8scKT353JOD0fy73/qa9SevSXHMlkhNPq5mohVUads894ZA4BfFAHWBR8F8fJAKlGejRrAaWl5Q2v333486n89G2cXSoXlZ+AhOjDI8Z6Cf06OwJoemnTNqatqexIR6G5QJkjZkb2ktL2rtkUceYfKARb7hVMu0J/q9RqYIIFf44dvTdevWWXLEhQc+ERoe4uDsrQfBG1dAW2Yg4GMgPsYwoGSDtoSTishEM41+ryy1jW+c2COI2y1Z8PErOBvjKwC6PYVtZiM8QqqwTSAhODxaDrlYTDyEY0YPBVh14QRaYWktrPZQTL4P5rRdCyQ+TYLC6uxAFnnICyFYRka5f91rJOCWmDuWiGZBN6pX39u9ukT6X8YzBsxQT6x+v43aF2ZEkpFSwI68kH3XiwRExMSnS49FE5kE+257RfaNiESWDXlvuezizePV6265M53NDecGquVCqVxLJjLYO7NjhigitYLob/DJAC51I/+6d73E7Z7qros5s7TWVlvCCdyRpmk0ES8Fw69OwaUWlFtqQMQvom/JuVUURLYgISLxd4SvVuI7eA8rMhBNcxZAE53xRFivJ1AUN6LpiPf2N73uLz/yCb4Oq0YTk/l8JjMgCmjAJZCbpPgVi6v2e1oGs9zQ8TAncK1c35Qm0NeECl5nIeGzDRnFlNNjUl5Oi7Cyfeh/vP7B33voqS2ToqVPJWry5bpsto7pOHY7lEXqSevKr7/ppDrd9RSZLxfIVQTGrjIyI0JwvgU2YJgslAnJitas3W0VLGMrJNIIpW1yVpq2KxGcIGhF4KzsCSkRpT3txO6M8Flas1AygkJUC9poFMolOSKXHTu9UqG09dzzz3vbJSdjF8JABe6SE2ehKCzz0ySy39Je6AB5Bu7xGGClkMBQDljdsGEDp5Zy2tRVV131wAMPfOxjH8OehDOh+NwWDS54DsRGEjzgNoOSmO5gJQ9BO4PJl3YvYkM1jj6e6YEz+AFQOtj6xBNPAJ2JYDuyu/BecugtrmBeRfBYnixatAhmKBSYFaQL3oUW+Ngi4GfWgYKcVQugLep55jl8dcAnBxjzwDaBOJA9MQ0lk7A3bmaNDWMIBOckZjkCtUH2lik5wiF+q2uSwD9XqpISUXFUPWsUcM4kCmljE8W+ljBPuHFruSABiJAXp4BR6XyYwc6erPlwBhaCIgtjA5p4yMtlx+2sheg/3MMk0BHZ01Bw7Uujg0T7R51DfYL99tNZRDvwhEk8kq2n5FzGei4eLVbQvcXXrkz94TvetHHzlt88+BgjYXJgmM9pGdIjCY6WZJzmdaYu/UEVI2RGzQg2xL3V715bo7RYyua3W/XMo4IQr40S7m0SfBK8WASiiMQRzQf3ZOkez8hPiKi8A097xDwj3a4L6NAaTAYzx0ugZiURiebLiXNPP+j71x17610PNhJxtZcRzC1yQUDIRpApFiGK5zrk0a6QyEcc4pIzbEHhJkCITbfJCZEUYOynsj9yRQso12ZA4AMObB2fyg3lxgve//c/P/CXf/PR5yarMfbOYV92O1CYhIB7ISGl4bQnq8GAQPA3xEEQZH87PpgeTe4oYp3NZYAQ0uisbfgSaKUScCFF0s9zND0X3bqIowP8Rkh7EwqBulBiS8zenM9DOBEs2i1VY45bdhXiyt6d8XphYuzZC8859T1vvEjwTg2rD4sea8gRYMw45A8JW8tlsfaKK5iecoDqgHcAOIOegDMU9hy3hOPj2uuvv/6222674oorQI2oaQH3JEEs4EJTS1sqoCR0APoGJecB46Cwbt06ACU7KorYIxFCDEPjJ5AcyQsNNE8NX+7USmAdA2aYZjDlIEeXKR5WFZjhgObxwBjTHjA9aJhddADHbJFpkVFswy0zJbamoSAmk53BOdkZcTzIBD91ASjHD7gPSwmemYAhWJ5SNPtkmaUJ+L/33nuZk1DLVCJyZjLDUWJ8R0spjGce4QHlW3bM6wD0mHJ98pOfZPrHgs8ZZ5zBRvgcMkAjobw0KuKTiuwcxA8z0/fv0RLoiOytVLQSdQ7ftGi85ig7DVn7b71oXKjx167TE7fp/adH6N/NKgHGXgUedOHJVBrlPf0ap3gfsMp76+tf8/Vv/eDm2+/wCsX08GJObwR2KKQUvAFRML0O5FQNx9D6Q+ismTUfNqu2GbYn+QRsTXd+41TI0NJQW26np2t/h3zRmpIQgEoTNwpylWwlD/w+phfQyfs1N1YxIpa2fa7PY2iLOFtKw1NC7KpMcrZoPC7mn5iCvv61r/r5PR8Zm5pIZUcM5TEKitpedMfgba6y0NGSw6xl9QUtrVxkK/MiJgdowySVYNZprZ1oLfw64iQgNhHsauEauTI6lCzV6oOZ6IFrB97/3nf9rw//8/atY7nRVV6UnWoi4HtDydQyhfAZcnTn8vRSWGlM0pZEQqKqZzlE+W3JgxI4hzjZYYalBXGWl0F6hEWghugFwI/kIe5PRR2F2T0maCM8Laa1YXfFg7MsgGRThS1nHHfI29/wKra5bJRLnL0n6xBq7Q8tLaPOf/dShT2SAvyB0mj/4HuD+ASC9kBsYFn8qF0vvfRSFLGgQ4wuvvKVr4Bi/+qv/opHID/gGrjNEiJYI8UjMBzQ0DS13HbvoACUBL6DLwGFZGFoFWjII5AouZAjDk/3ZOcdk0zJmgkPbIB6KS8qar6mhROgMGsLzH8QCFAeQRENoYGGOeKXVYV169ZxRZJwy2fKgF0M040TaYS6UQyP5s1bS0InEAPfPIVbrsiQMRrVO3yijCfEjJqYe7BFKRMSqhtmQOHUI985EJ9ddMDlMMwED9snwkH2lp1VB36b1HHLvOWCCy7AlB8jLrZUYotMvnLG/h7Hh84IgbSIEbILWFhjpn993iUwG7J3LdJxKSGdhj4XqZ0nIMWgIgu88yPSjnA/zJdAg420gSm8qV6VMyg5wyWXlc0N2ERrwymrM5lXpbKZm2+7szQ1nhgcLbNnXBILCBlJJb0ADjzin1f1Co29zAUt1i+W3IqIenYmYVAJDiIicaWjCNVH8RLetdwtuVHb7apLimnA0bBigBb5awUMXREF2FrXvVHbZ9js7chDcyeffOK1N/5cVfOgUhObiQ40bs11niPuNLkF0hYexIXB7nT+Q8+IyzO7WjL5oLNRpkZTMQwAopmod9JRSy+79JIvf/0HE2U2mQUzE1GqXOpXMIOAaF8URmJBr1GykBL5IpKZED0CF9W78yAor59rLRKvRhKcZRUo0GVjA605vsKRgy8kXpBWPUBpShKIzycznz/h6sBvt0izWpOt/V542JFvfsMrDtqHzZO8CP85PYBlEPkIQLiT4inSn0/Ge0gaA+WgNOMXeIrHMD2aXUAbaIzOHoiGXhbPd7/7XXDb6aefvn79eh7hwN+G4AGUeHOv838AAD0OSURBVGh8OORMZAcxuxcG/BhNkhuyBxEaiIQmIZDiEVepS2nwC9BIZmEPaGulu+uuuwDEzDcQEeDe0DCCAv6yL+TZZ5+NSn7t2rVs5U4gpYBtMD1w2eQAq5SLjJjw4CfQZDVL1r0+gmxLEvJiVYHJG/Mx+EElb6p65IkDcIPgzz333HXr1uExW3xqnJhcDegbQSKbzLl1HqtliBOTUvNlBbMCpPS1r33tV7/6FScA3HTTTQgEFT5bhXJygpsbtDDZv92jJaDIXrp+VwoGL+3bpUOno+e4Uh3qggjTblyi2TwyRoj2SEZmrGqhTi+g5q3BcfGyX7XCzJ3cG8zG5R7xDOlRV1o9jl+VKBWYSDFbBzXEUyxf6/gXi5fK1YFkHP3AaUePrln1+nJ+4qbb74ynE0l2pq7zIR1oKYb9DR0aNY3dHcmoLL/GfSsSyQjjW5cfN1SncwAVBTwuwDzN+Npgwk99hsNBC+u35tzl1bK2yOYXawzu1QkIU2DGHSpDC2yBR/LuKH6npC2okye2ksJVRjsRaVMyko5AHiFeQWGkloqwXDpdjTUdLWCkSc3Fh/9mcdQfPGoTOXi0M/+qfDpmEI1NFadiyXQ8Kl9IvvzsF9/187vHikXZrVwOU5P2KGpixKQmIex8GO6tOpL1H2CWLaV29YncoKkCouWq4Zl2dBYB4TM5bqHJvbVhq5jW6kH9lkqUS8V6NM2xTthPvPXiY9jv8j+v/HaVL0EhHonzcrKPfKDPEPAtCEsIWW9quFrvBfgbA34+rikKV0HLC71Tjh2fbSkN6FyIiE8SSev0n+ppFeonnmnfWVIIpCMPAr8LlHzFuTyh6VOzB9OfhsLEK+zwWmgvoX1LEAYnSECaMf9VFvyJNqrJ6vj+y4c/8M43HrN/kuMOIslqaXIqNcCnQVgYsZOPPy8SDlzRJYu90CEQIDgFA3qC0lwJgXc8AueJ4CKR/fbbD9UshuM4tsUEsVkS0gK4AXxEgwJXA38gV5ClwVlHc04P8QGLECF3Ihs1Wxng1vh0aB7EabB7TrLzjkDW5IIyHoU3ZjYsXHBqL3uDAoUPOOAAZAKIhx+ucGJTEfIilUmStNwiEPPgd/K0cK4L7hCa0URczC7InZ2O8KCGP/bYY7kCwVGxE8IkBD6JQBFwpKLK4BAPZkgUihJRLosANTyOW+JzS17EsXqHFPQ5oYwlAg4SZkslbJNQ5H/rW99iHsiZCcgt3MAcqb5nz5VAnB486Mz9UgQdJpgepFhhM3Tp1mWHOv4QPYHBhrU2QpzHtdqwLEimey/wnVZJTzEEOzKyVrjUS7VYha7cdr7T0VrH1XDyvn+mBILasSfufUaAYB5585vjbsTjvExqF50Xm2AcvMz72//xrs/8x5Vf/+HVXjSdWbRs01ghO7w0nh4cnyxF4hkvkeSEnZhX5tBH7bjjUT6jj8ZpB1UOrNFWohAfWCI9DhmJEo3TQ7GMDbGlEd19y3o5yJX2455aKRbyCm2D5l1eRW7ym4ZWXBHwwKsgMfmwUGIhGcw6whzLTfAZpcW2N8qmqTR7qKMJ4idfnKk9Cd+egXlEjArlBdJIFiAdiRIm7vzu/Qp7IMPp6XzESSBDFFZWtoYsOU4jQzuRMu50J8IK2mSYAdX0tuYukDNaoODpnHQOWJ1GvDOPGrp/w8mf/ep3YrnEeCk/umKfiWI+wTxU9lkvRiNxhcjd9j8ieJkJUHbqjL0dRe7yNWYjWqqSJUbbbMtdrCcEACl709YwXQmCIrWWQO5T7CFY5+Qn8gIs8OMlfM+lx2cihe9c/eNHnn0mO7KCfo4xFmXgxMTUgJcG93OsBJknONQqWi9y6lKpmM3lYE6/FMU8hgLSJOJ8FIO6Wr4OMKDtz7plbqJyhi9ecEolV/xYLtUj6E0EL0uznelc6xKPUKFnjrsqCzcSyxEKzafccFQUQiPfZnOSiLRan7KaPGnW2lB5yCbcwhf70AOyYhG6EkGcGHNI849EpzjVi1346Wdqjaktz7zixP3+4E0XvQBYX/Uy0p9xYFKWQ/ZifFUrBfQdrAv7e7VDpAbmZpbSpG1Xmi7HqdpO8xiisJ0iinwgHR0CycGywF/8FhlVsemtZ9K0EKoGDyCetIYduQVWQgfVuE0q8KMyB1CSi9F3cJ/IZOT6KKO5M67kTkaU68wzz/zzP/9zM6dpwbguX/g0v8OvLsR5iGAicqkWymOTHGRCTSEumGSZhYUXKuLyyy/H0N/xQJxOPLiWgBoexoymRQ76Lp9fu6WC7N7ikBzHnAHjexzmW5/61Kf4UIGlHr7D/uhHP4oYic+0wehbWjed8En3/+w5EgjGLOkyQ511s9tUMC89NR4ZIEW3KEOH38c6T9siW0+sWIuxht3fGK/oj1nwFf2ldu1GRwZ5GSF8qm2J9QPbSkBHdwFGYAv7uRCB9SbYRrHhFb0Vw9473/rqd735tStGkluffXT5SHpi6283PfM4B2qyqMIOWHQ65BGLy+ke1WqZ9U26eDcq8Ijqthq3q4T4tWtZWQXKx4qKYKX+wSuqfEX/CsYV24AQfwvsNwFZq+vuaod8AV5EUrRt++HXJioNVey85RFAQlqntNLm2+H7mm+OcaBXiokTukJab+wiEwN5lQTc634jBKNBlWs4WiiF8zbFri8gZVSjCSMosWzS4fjRbCy1seMo7TQPRbBfFznAHsgvLvtGokaootbGd/JRhx6wcmm0WhjMpAEiYD4GJwouIDEYoVvkMFtWInqZj2nNgTvNvEEFrR2aTNRkVdHv0aQaZjhXphaPRkSwNh+Q3daBn0yk5fitS1788nNPWzmanRr7bam0PT+5bXJqjONdSSLLZNhAA2epfv3ScWhoQHtXWps0CVh1BTReZNonLdCvT2mEyry2ojYsazuWVtfxh0z0qV6Y+NsvFF0FJpn6P+muIUdpVVounFeYJQLICW866ZWpAPz7DU5nJaJd9OuRem7UOdSWzbzKle1bNo0OZAeSbFs/zua8Lz7uiHdc9rLjD16JgjqJUkleCtZVYtEYEhV6Tv4mlv7VSQCjC/AiSllMzHlfEDdIDiHjp40RjVugJICypWk5CuYBMpIECMh8ACJQwEnlxePAPjwYb/CUyC4c+piwQ59A4tgjo7ZTr2SKVT1swBs8MFTB3k7NcQeJI1gcTPL6A6CZZmBSD02KsIOUe0rO5A07HCYVbIjJCbjY67/lLW/55je/CRGD9a6FuClHT/T7kXcHCdiY1IYT6ZrpV7HTkFGCCAJ+GCFlDKCvR0OjA4rzuNYQpsV4KapJRiVputb/yyAlViM2NOgIa0kkKHQbptP3z1sCjQpKMi+RBq57hZo3MuBddOFZS1bt863vX33zHXcvX77GSw48u/G38ewQGiJGzkKpVk2gMtRv/zDUkR2Co+UKu2NLU1EcQKuQ6pRdvFDac04l9gbTHfBEGoY6qtVGZf7gBQEoQLGHC3xFM+MDtC4J07SRjgCmpjO+pZEbQFG4b51vVNav5ueqNT5c1p8AJDkgTN4NdNWiS4ZpgFOD7YzgxHZUac3FvV9hD5Mlw1XCrYH61nS79T3jMBIQza2YHESLxWoiHT/6qOVnnH7y5668KpEZKNVKsSQr5vKNdxSbFjbIVO2763acp0M5ZcFEVkJopw109oBmhI0OWaQoMBp9N5vJyCON2IHKrMHWXvwo3PCjOOmo96bXnJEbXvK5L3/jiY3bhoaXFWvlZx5/eOWKfWvMbzlqNRGvysb9lRrrltIQmF1Ln8p7o1WJktWnKXNhZc+9R9L1avdrMaSjFjetGVvQwl6102c/ynZO3xcpPnMnac6wQ2VJqcTyEteIVOuCFFngQwUfiyU4vmBoILf9uWdymUx+0+Pnv+S8P3nXRUcs8YkTw/oQ15O0y7Uf5ksAWwuQLh9iYrFtCl0eACKtuwCLY68CsueoKT4eNRTeSXYI3MkcCqaVx4Qd4lDDUAT6oEP8FhNIjVE7t9i4YzKOdfsuQNhkzRe9XO+++26bHu/OMNRqAW6dZMDTfCOLc2ybPDtVykKFW21CjVpjMyWMlz7+8Y9Tcdhx8ZGG2dzzkhpXjtuFyr1PZ5dJIMBkwSjiZ0xXrGofMQKWtV/ACAopVSxGOKTQH1doqc0Bph2kYshhnVvjCB2iiD5KqOkZKZqZZiWhfbczJBBJxCqlfLSaBbdTHYh5KO2dc9oh+x9w4IFXXXf5F74cTQ2uWb12Il+JxePs3xfLZCtEwka4Jqg+EYlxbAarcslkMKBTdz7oEHBaETP9NoyDT/zQ0FNR7DXQ8O0sCAKCC3Jtw1KbIHgTVIdcSOlfWVzAr22eWaniP0zg7XtCabe9Ms9rI5ukKPDyF74AajLplQNYbe9RcgETAYkQjkN00/kNpEwB/XGC57KLs7yjFtXx1psQpueza+84foF2hbZbOhWx1ah56aR37jlnfOe6m5/a+lxiaCmHqoLsZUyMxbEJwMoAUzDrdqb1P+34VoQpuJ5+CPEyiZLKi3BWPJVOjsiU6ZZYw3PGW6/1qhkK21qz+lcvQlcU88B27+Lzjli3dv+PfuLyO+99YNGyVbllQ5PFyaooUiOJKktj1BylwXCC7lVqUcjJrJjWQri0Cf1Ogw5Tql3bqNWtY5Y4tFHi4zHnHgUBC/kXWYqG3jnuueUqvGu4MCqvjUZp1BIUCYNOBI2GoQbQ1PcnEkN5zJFesTpWH96WJx/44B++6+ILTxzJiNKgyCHE2OAkWfwQdaaDPi7TvmemBJASQgO7GxpzMJFbGhvqfBypbr311vXr189uZWEUwO5uhkAtYLmBghwwzQwBgoBpNz3gFoCIBtrt8ULITA4XNgTemGNgm85chYUCuIL+7OVaWAa6pIboLCYycY4QvgRgp3neAvwmap66WuuS+DyiUWtkivUUsqK1nHTSSRjnfOYzn+HgM9rGOeecQwTaEpzAlavieWTUT/L8SkCtY9qxIIhBwT0fY0XrnPhNu5MfO6ByvGLLD6zW9sf7LXgJ00wlJVfB95CRfGWU8HsAUfiIer8dJ/2wHZIAp8nnxBRYNPdxARz8GG0PXBl742vO+b9/81erR3MP3HV7tlGIFLeM5mLJOGvfCeqZNfNipZwvFU0j0mARHdNXqIhOTn4cZIvCW4d5NawSs1kB1sFPqhdAPPOnjYB2sPA/Gie/tk2xQyDHbcrHHuGrtnuZgaB9VASum5xIkSWk17oAyUirllaPDpNuHotXURVTIwBN+k9RIYsWWa72TnRgtc17Z/GFkuJ+Q1TIX+965fT5iS8fyYomXX4J+a7Dy+e9A/bzzjrzpFJha3Fqa608ifD0WEZR29PeWjofOe21Y//DVArBcnIbojY542HhBQAJoK8gUwHPWh2UnzruXQq8TO5HaunS+FVLjSHWwBreCw7M/N//897XvvzsLY/dN7Hl8ZhX4DPbRAprdTmhNsZxMZFUDNsTNsFHZ1Ljk1+tzUalUcckV9aIpK1g4C5rORAmL5yfI/TlPRLQL68bP32qKSzdgl6hD4t6Zi1X+emt/8bRJ0gX7vMveJ964ehrr1biWGHWDElON2SOsSTm1bZvfGpq8zP/+vcfevMrT9xnwBuOyVoHwMIwJTFJAOLRQvUvs0kAdIs6lh7A0JgBSocU0RBzjBTyBL1BxbD7bOSYZut5rsRB/lD75S9/SQjH37JNJIH4jQg0qS/WAQDZqH6xBSKydEQ72ZE7puRs6M4MEIhMjlgiWal3cs69kYcxnKUxZG9+7GGYKbHEwTG6tvER4Rgf9ka999jwAKAnHeCeNgN8P++885AhouNgBKRq3HKlZnnaew79FLuFBHSc8HtOGzOabJkpPP0ALVOMLL04Y4tUvAI7GUWme+w2fNXRlGGUHl4BvYx6QkGIBI5RiHFJwvsdeCCTBfxb0e3S2PZGtKOCirxyqY42jMWagbh35slrvn7F37znbZdtfPy+2uRzXmF7YXJbpZCPR+sDmXQ2zTd8YiKSTiVkuUWqW5z23eAkHCEVbFSiXMVTwx+v2a8Wr1dj/q8cq8svwhaBTAtBADvnpypw47OrqxbBLnwEAhaRK4XSxioFlEYuYCUo7LwqhrYOIcvGcJr6jaZkIXpMMD+wSNFn+A0K+2e+ccTn1YKmXIVtA3aduGx9wTvF22Xh8sajk4/RHqOF/CQSwHiDGSOMXvTysw5au0KQfWmK1lirVCvlRjKRRnQmk5nSCMvKjyMVCvpEsAhZlk1ExkJC/GSOl2qwsGaX1Ev5pXJ9nO2Sya4AuRS418NefDDmrRz0PviHr/hfH3hXtLAtP/5sYfK5SmlbtFGOsz0VBkYYasnpUpGoqrQFqMsqgswEhT2ZhIgHJ21aemCa50ynZZSi+O1qZowFCUGeSI/3VzMS8Tr52ehALiJY6fBlVlspFRq1Eu2Tj/mB8tKfNOgKirXC2PaNTx55yNpPfexvTz5y38UZL1qsJ2WgEdQI/jA6QA16G/SLTrh9T1sJoC8HFwLFMJUG4oO2iYbFhUVGpPvuuy9KbjZKx6jGnralQyACd5AOUkwVSM6Rt9SIHepEnP+/vTsPsuuo8gT86r2q96pKKkmWZY83bMmywIvAdjfYGNsNjQljAQbjZgmge4AOBmaG/gN6gq176ICAiQkgIKBZgiWAYI0e1p6IYTNbA4YYPDZmGYwxFm43GC/Y2mp79Zaq+U7me1elqpJckmVPSb4Zr7LuzZt58uTJvPf+8uTJc1FwmmG9YwHoxwDX8qCq7tsf8cOVjkmrEJs3b1bXF7/4RbHZy0NQ7yHwvyRX3OCQHh+U3NTk/cdEXWx7PYRalllEpXnup7MMFbwZJHkXL9//+lHXyyMd3M/34DIpl9lWlAQWv+x7KVT1+jW6Ngztq6HYyoAnP8jjjZzeiP2D4sUy/yBTSDgJkWh4ThF7fwXcKYQRL+r47U0pLpUHD0ACQ/bIc0RkY1NaFuScaJieMCH7tfXKqMX0mcob/vMzr/nyP11+8Z8MdvYct7o2POe9u3NwdmoVdSLHGbOtSic7zInXuf7VRwl4xNsXdh+cbQ11/Zrp1xrstgZnm43ZmUa3FfG8X90cAB/6+sH5ZTlhb5k/+TWBytivr7xNI30ufckzPIEYthBL/wDfBxmSNUWgs6RnzXHajBgicAcEBnLgrsNJDvPvoAXHSfJ777vI35dlgvh9XS6EtDSfi+/3pfM9ZKkxGNNtb0epYUUWa8w4K5WNJ1Sec/UVG9Zxo92ZY56RGtrh+nDfx858gSzudHTS7Cw9fGICFVLpyYyoQuo5hEa8f3zI/xOFHhOAbTiB8s0I+rHZZmVNtfLiq5/wz5/90J+ec+r60W5r952t3XfNtSYq7elqtxV7FQFm6un42RtQY54ThosxQCLs86iMBEMoQLDL6Rdy6/+KxMN/0ONETZmlWHqNlQR155l0MBFTkljflcc95cMaBO6zsq2ZSY+hamdi9UDzmHp3rNr8q7/Y9r63/+2l522ws9+eg8ZQpTs13m01k+KAHAM+QhhOo8VlOKAErr/+ej7dYXffrsoZid2wysckyRB/y5YtQFveK3kAYkplLTKQlymwZed7hx0/HTlcKD33EbIFHVbaECpkD60WE4Pi6oNxYPMAd+zWEH74wx/y1K6KjFkfjLoOmSYBGsM5zCdiZ4JNzyZaOi5LW9cU/TU/5+E91mW+4YUmzb0Js1P15lss6/Lx4BTDDlagPA+vNI5ianHnx0N0qeCax3YRei+ZWBeO96XYdQ90cT5eHHshxYM/4Zp4ocZ6cw60jA7ipeBf+eTuSeVB+Ofj0dxJN7jKAh5aLW9drvY8j8EoMWXpMcNxcPoJlbf+/cv+8b+/6YJzNp+4bmhu4t6p+/5Ai19rjVdaE+2pnZRtzAUSDPam1aNe3sEuQJkuueqATo49gdi8kAYytMjpai9OkCDD7uj/BJoPf7x4HB4gJRqiGWk8B7gPFqNpMWwdB9bKyt5efLBdhI4iA3PQKijJyWw1NqoEpgx8H3KMqwGIankSkODt/u6pBfddohxd0Jspm6Tk2znDqqhyZQfSSaOIQKrxQYbZ6eZk7AlOM89nbrtg0ykbRocYdOyuVw3aOa/A6KBlP3/kTAgYSQdhLaZw+HoP4NnrkVRVdE0SXebm4IUWY4jos7wTpq24I+inY3FsrF7h9gfEf9TJIx9459/+9QuecdZpG9bU28OV6VpnotZuDs5ZpnDXpAUiZHRn9GM2lcwtjqUz9wxG1ZOGbKpxb/QQPUTJzziFQdJBTIPx1x9oJsBZEJqQWuAJM9wYGKx129MzE7vaEztq7T1jtZnjRjv/+NY3vObll588VqnaQN4Ki0/GUNy2M8SBNjIeQhfIoDAuEcbeft7P0Y9+9CPInh08tXoWl1GU9yrkEja20nBDb1/72tcYruyHTJiqu5Qp6AXCZ2PzpS99CSkUzjrrrOwYB3FBThrfjOOZlzDIofdlG8PIZH/0D1e6QaJe/j0FB5/97GdxDo8eLvqHi04P1C9ijDx5pDEX8mlYH4hVHYV9YZZzuGpfTIeU7EnQa+4svewAD1z06GsHJEmw5e22WG5HXEryHbEv126OeHPMhpVVDLW5uZHGUA0gac1Ij/djtTbnF9+RCZ1NT9+ZjnNKEcvd7rQ4gOi2W7OdlnXn2U7byjqPzkaYRb7THnGipejZOTqAsOiy5L4vL+XZA5VAtREb0XSnHyP6hBbCPR80D3PkH5sBB/SLF2zd8LY3PP8fXvUfnr/t0s3HjTIemJu4b7C9Z2i2Sb8412lS3ndaM+1W09jQZ578+pEPOyFP/T0v8hO/t5Ui7AcGuP9odWd5AfHlrJYF+qV+TKEPyw9xit3lxz0LdxYGs1jtxSg0250ml0Btrvm0LZYqumGa7d5gyW+HQV4C8c3M2Bl4gPcJF4eutma6q4bHOjOzgzWakm59sA5ogpicolS7biGwLduPBAT1y/fU4njvnZXuQcxgC/34TkQyjOwyz07WG/PHDa5XbuhBwcQg29n4Ik/4jjQ+19UrL7j6GVM77mbHNWdFyC6RGqP62HQcQ6Xfy4YW/09LxqHjj1/awGzWwytNwsnQqOmtR85ch4kaI8Oh/OnVwzwRCm83tqYwMYppRAb3xw5U/vpZF/23v3vlVU+5cKw63d5zd6W1a6A1XqW8Z7HGFKk1kw2mB9keDQ9PTYxzaT9o0ZQ5ku9hdax6pYmgG23eliezuwP/Fm9OyCkHLuVqUZBf3Bj58by2q55fer5uknTZ0rcN4sF4BMQ6frDnEeGnK93yHgiNRn20MbCqOnPGvxt72V889WPv+q9PPv/YY2rh5HTENv34gGFMddOPqPYGOGPvyVF9RHTxLE0bERY01KXiAeuS4SGnA4n5FK6lt2a3/bznPS9PilxygFom5RRce/rTn85khRnGZz7zGbFLLK0LlC8zygTuoFDfqgjla665RifaXmmnrFL4KSjLCf3nZ/5rX/tafuV5WfnOd76TFcM5s1iGnMexgFWx6sQFqQyCYU3pEmGPXCST0pyCgoPMqmUEvvx93Qk+9t0l3ApoyuCgyC8Fz8VpFrXTIkUGIePdnJh5wxJOLIOYNZm0ZIHLWRR0NScSAmG6pIiqxfIU+YP6vkHBSy655JnPfKaPVWGekxy1u98VURyHQuYhl1tALXdfvoSUA3FmwHEWL1Jo5jw5A8qGgbJ6zYGttA7uuOMOn0FwydjQiodgdlGwVB48eBLY5zGaqjFKOFmLTTYNO9r4twIWDI9YDufhgB6Kwgb0T9rD+40Dc4SGGJBJusuoYcgTfKA6PjXZGJwa81j3gaW4p0NHFe/zMhx2CcR7E2jRs0CfZ09U4O2bHJKktZMEpKIDohcql2xdd94Zz9l++1NuuPGn19/4819tv/2enfcODq+u11cNMOWp1Vv2HtpQa/9serWY7HkfCIZDPOmSs+p4EFdjRU/XuhQ6UYMmwdfAcg5jmrg3hksD00bKA4o5nEE9PXqXFePZUJY1ySXi0AgboBy12OMXrAbey8ivxkYi2SDK5EBVNkDav+AFuz9Q6B0Vbl0qA1NTTcbGAD37E9MF5eNOI6Mw3IgKaEJjQ6cbLTTNC+8vyuZYV9g3PbhDCLCqtMyTR4dH6nW1JUlHi4QeX+muLm7BdGWFREZjlj1+MsAL+Xu/Qd/1P7tw62VPfPy3r/354EBn164/Do6McfFEBov7N5IQSteKGElQNPTc4W3GAEvTIPZloYboDPK2Q4FBnaADQ2MBu8Yu80MMWd4EHs0hb+3KSapGO1LQbgTCr5x3+obH/M3z/vwJF/2PL371+htvbje79cYa73PfsLKBndbMLHJ6csKcZZhX8vaUlbCGbzkB2h14BfAa8X0rNIN0Gj6IAyHi7J3WwQMPIcsU5h+o2gfRIAZQwN0NH7hRcDLTnKrXA+G1m+MK2aHjxu90pmdbMxPTe/jA2fKIE7ZdddkVT7zwjJNHaIOGM+1YtHK/xxsnxBPxwy5AYCQZD9D+NMazJR8TsidqxtnkAurR9QrkDL3BYcDZd7/73c997nOs5y+77DIGHtlW2yX5kRWjEO/XSuXcc8+V55Of/OR1113Hkbnvkmb/5S5laig7jidbCkAezPftb38bh1deeSWFfU7X6Sgjm0/FMkg855xzZPNx00984hPHH388vyusgzQEt7lFmX9kCyZzSvbWkqkVjbU4IBuW6JLzJXQ0RL1o5kZJ0SLrFd/73vfe//7320twwQUXyCwbfvLcINclRZA/49pMQZzzuARV56qxKpt6VUH+Dnzd1rSBPVL+vq8MxEsCSomF+ZxnJlFTUMiXFsdKYcz3oX7zm99YElHXq171KuIqeiRXTbCqw5gDlNHJcV45Ib1oVZpLaG8uq2AhXnw6FVSHGXnQUVZBNWYl/bXXXnvrrbcqazygL0/urFwX4ouZL1NWvgRq//CmN+m69HowbjxnwyhgulP53//npptuvX1usA7keODGGqyvk6Zps/cnPEhreb+xjVZ8ow8OsNBoe2yHjx0kah2GCKvrjYHO+MtfdEU9Ft8DzEQl5Tg6vENm/l0JAcRPBb0XdqoqNL5J+HFFHwCzfhRpJ20YPn/rxnMfff5pp5x88gnH3fn725vTk7t37mhOjPNkNzJcZ1ni61b8WJgRtDv08W3f+6bGi5naUH2iOcOPoLEEoPncZ5vm3s85HmKlHhf7xgHM9k1ZnGcZKal99z8yi9EbozsPvn7sOY2IoUgOUH7MQ1PsANifHt/xrG1PPuOk1SOe7XG/EGZgNSFKBYBzpkzQdULZ7xXw+7ua//y/vlkbWk1H733h46NzXXuOU2lvK+M/8LwXanTHkvdX7KdcdMcpFdzS6VL3dqa2bjn1seeePWqunKSQmOrN3DJ7RZwurZgIt8FwCDr9iyPqeT7fR+qVyam5G3/+y6aFjsZovdEIM4+Ycsly/3FsGe+QLamyZjH/ikljTGB9mLnWCHtwWL49NVrrbnvKJSceGx9s80tcLFc4vVtqfvYYEmlExMDKTetfdjrXtreWB1qj6xEnrr344sduOnWjG+kn1/+YD0zg2FKEr+40BqurhodG64Pt5oQbrVGDocPqXE5KQr+QQ4wZIR/E/eNPff4tDn0OFv5fnLNIKbJKcRzplerkdLM2VB8dGQXpDfE0jQy9/iybIhNffoe6zQG+LGtdLkxrs+3JPfeddtLxV2178n98yQu2PWnzCeuG6j4uC/Bw+2PFJG4RUgpKFq5Us0BgBQ//Hw+8lHzYlT30xo0bn/a0px32dxTUlWlyRU9BDm5yKw57ORAyRs/Nz9nEAgRm1+yXv/zlj3/84zzSwPQvfelLM/iGzNAE3fSYnFS5gCYIK966dSsF/M9+9rPbbruNfp19jpzQHuyorqzrzTWavFEkv/WtbzUNQOGNb3wj4vkSmvjJca5CXYoDlMzH6ba1guE70yB2+XKqGn35Zc7VOZBfCqnCl7TFsmEjs41/GSizv/Wtb3Hp89znPtdpIQF1yaY4F/tqBFhtIfAtVZAdvleReuFURDKWLQqaP+BfBsVVjSuGQ7z6ZN4yWYlKyaAUQOwSOavdKgS/n2z6806DzKc+IiWcZCicE7PY3/3ud4PpphmMozIDC2LZlCJ/6WTF6SSTmE2bNtkWrF40BQLBsMAgCg+6L3MlRY+w0Td9kpKyhK4dA9pIJnfddZdFBqf4R0cT5NFkNTpQRKIDNL/whS989KMf1e+2Sbz4xS+WqJSc8syPnZbhyJJAIHs3jc6MN4RfH9n/6Lr/+7Nf3tyhczfQ6SUHOt0OpWOnSqckP/yWcMaBYwrJuS53KDO1bpNyLK0YU/bSQ7Toclrj9/3NS69klu09l1+FRqdReGRJ8MjhNmOW3iOyz7Z+DySZT53E3M1ztcMfn4mWL1vVHrX5hMc99sxnP+upZ245G4jcfd89e3b+cbY5OeArQgwdQoft0/Gsfmr0dEpRK7IbyAs+FNSCVwwdf9i2tJpcZMhBj0SbOj+O6mKOF+D4gcTG6QDEQE21jFg7rStQeyeQrSBYFKY1dgjQ9YLg4TIRBIkXTYflwcBsc2r8vidfeuGjNq4HTrDK9Ud1cNidI0TBuIkSPskzBs/QgJGVe+7tXPPNaxurj5loNqdpN61ShdMh1tVmujH66Te92mIKEQtXMXNecGd5Ky5IkQe709NTjD3qA51qe+rsM0553Hlnj3gxBQ8Z9kWuHLAn5DinrKAYW8FZj7v4N9sdsrjh8wtrjr3jjntuvuXW+sjonsmJuqEGqceUJnb0F3ES4z4p6Wp8Gym2fISow1SdxAiZyAHjVnPaAF5Vn+PsddtTLj3hmKHkmbHPxDKl02N5fu4M6MX5mrj/C3uTGN5puWsWPDGF3njahgsvPPcZV161Z899v/z5je3WxNqxkY4977t3zrJBYirknuy0m1MTnRnoeagxZNOB8UMRi27MU3I9Pb1IYKAleJrP3/KPjXtB/l4cgypuaTezJYWZmUmY3krHXHuqWmFsNz7bmhyqtObak83x+5xS3vzlc5/14hc85zlXbDl5fW1kIDb20At0J3ZXWeBYSAlm802QVhziDjp83C+/nQfMqb0PKrKHDjOc4lXmAx/4wDe+8Q3gG+IE/iBUl3DnMQvnCfn9CHN//vOf/9jHPiYnfE9Z/upXv5qOXM5MTSkAMRcE9QBBmlopYjgYnoYL7XZVlikLiJ+BJlAL8ykl/Qc/+AFYb+8s5P3Od76TOburLuEhs2RIxDBMw8NBxqPmJKjJlv2jb9++neN2UBv/GQTLn2thXP6e97wHYjYnyUVQQEdZPKjit7/9LWSP4Re+8IUSc105gxhBl0BSAsHhk570JGsXpkbmAzx7QqhAMzqZK5kRzJAdHBeo+T/ykY9YXkBk48aNiORGaZ2yOb+UXB3DdHMnoiAxEIXElMISgoJ2AdCFWJRS79vf/nZzEir5jN1lXhBQJnOxvpNfj4Dj3//+94F48wcCwQNOlJINpsehxpIeXzof/vCHP/ShD1H229ugc7EkJyJCnqW85jWv+frXvw7c4xwptWDPVbyZ/zhGTXMMNuPHag8pvfnNbz7ppJO0BamCNwcL2C5PjxQJ9NSNid3ciz0kMLZmxPxthp5+oF23phP+49o+EF63HB7wJQDacuJ2bA5jTgcFDlLS0C8l/Vl3GLoZW6VKavx41cItvEnYRVeGwyuBg703bfas+WaQ/rXtIdToQ/VQZNIXXHHxxssvfqn1nFt+O3H9T278yQ0/vfX2O3bRzc9UwWDTNSYsenC0Plwdru3as2MA1B+MVwU4wkqkElp+b3W7NdLIyaOoH4cxRP84vd+XyLOsdHSWNzLz6E3bAiBFr8+9NQZsijcWKA9/GLOwFdToHdtdN7ba07PXRXM+5hUPXzbFw8S0VLBXZbZG18KgjdPPmWHDPR6xZhSxvZLTw3g5hh0C8dmS4GUZL/LFd5YLi9tF4tZZ60NV7tDDpCgFu1qmWxOrx1bl05UeZ0QX86scDIToi7TsMDtcqZ56fP0pT7zopzf9asfM1PHrj5luhm1umotGv0SvpTitNu2TIt1YoImIfpQtqej9I3HaBLrzWn2uESZOnm0tmubZ2dEAK6niHi/L+YfvPuvzMGnuxARbg4ihlYMDtlgtvTkyVDdvmWp6qA6tH63Ujqu+7e9f9Hf/5UX/9IVvf/2b/7IbP8OV3ZP3rT5mPY0IQnXrPJVB+z58Y0IrhhojMQ8NYaVBahilYU97Pq+6frUP4H+GbgikA6pgE/MWexx38+rR1Y16tdOanh5v8mzD7MJmLN/AGKlVtzx607YrLr/siX9igz5ZYK1RDWMkOyZ8LaPmCxuElhhO858ltns9AJaPsKL5eQJuQtuAaVaxA9ZgvT2pjLwpwiFIUA/IAzGhQKBNIwE1E4Crr7765S9/ucxSQLRMTWd5NMkgsbB1yafnn3/+O97xDjY5VMXve9/7AFyWOWzoTz/9dDywuqbRp3SnogbKudMBE5mjwIKZvqeXA/Qxk8FiRs8SQU9Ak6IavpcBHX54aNMZyVx00UX8PNIx84uvCsp1KmqNwq3mwMrxmkjwFJ0cYFAh85whZj6eH6uOWJQlok996lMgL8sW/LD4x7Y5A2bMK/ADMZMt9Kx2DccqZtROOBma50pzM9NQ7ymtXQW1X/KSl6iFWMgNILbfQI033HDD61//+uc///moYZ5A8CbGEvSMDcT7rVn4X7b87tDdlOXk/La3vc3MBHGdYj5gAkb+DrDEWsYlXc/vkCUR8wr0bT+wU9lyBzGijqBEnBtFv/jFL5wS7Lve9S6s6nFrNYC7QcK8Ss+SP2Rvl4JGqegtb3lL3kFRcEngQpZtkVgeHEESCFwixGM2H+U47OwrrFBrdke1ZtLqL3v7qSG7zcK0OplUQBoA+QHjeKPG49sjqellzVq04xPxvkg4MLt7anzDaHWmUxkd7MbOQhkHmWz234jzmSmPH4gEMuzo9W4Wrx4pwAjSC2QeH1OiUgcYqUeZHcs6PcPWM96+jhuDlcduWf2Y0y/998+61MaLH914247dk7//wx88d+68694du3dNN3fp0NH4jlW1S+ud5v0Qk+UgOpB66mLsIDU/9iRakDL/6jKPozHpZXa/I7MYt/Z3p2NC0L6Iw3eK2CyWw5qE7HMsrTsQz1NPz0Jk7Oyx7Y24P2Tvy18A3NDgXLs1ueveu+tr1hJpt2V+1Ao1s80O4ZUFJgIqwzghzTGWuLPwUvBctM49U6s0qHInuViZmfEs5lxEBw03ClifG/VABtCDWdbDIWCr0MN2PcESsPXB5pTdHbrh0WefcdHjzv/M//zamK83zRDnEs8fAHexfIB7a9HRsyFbdvaWXVRkKYDGOICP1+/Unrsbq3ypOXTJabAba8sO+t5vUchpuWHpYq9Z/rVYJrBkneMFaHp4eGR0WGd6GE6uHx2jYl3bqPynv7zsZS+67KZf3Xvdj2/41fZ/+8X226Z27pnpdEdXra1V6+0Zq6b1sbG1tnfHyoNW93dqxFkeJYv4OeSEDHFyHESMwW6HTZpb2Zpbc3zXVGe6OtcZcmfMtVeNDJ104oZzzt5yyeMfd965m0bo4pVoV5iHma62ml3WeqOjUMgAhwo1cCSeCYgWk7p930GHzPQRVRAa8+jz1ILPtm3bBoPSxUJmtN0wHC0+KOYqvSyI6QYHxcBZamYqYXDtiiuuoPTNLdZNrjrOgExmx4hTaWfw6iosyN6Ds0gThq985SvmD1AjyJtdVcKaGeyC2ldddZVabMmFazN2RD8D36I6KRn/SZEHls0p8Cic+tWvfpUSmp4bnratlvE9xlQBUIKYmMcJrfazn/3sTDAzTyAF2zYGMAFCdn69rqpFkK5S+fEgA8U2NG+XsOkEzA0xg7Y2CWQALSdAnElhT9VmMiYbGNBkjCGLAdTEihSglvA93k1+XvGKV4DIFhksaFCcmyroiCxbB+QsyCwoa/0kI+nctMWxbLkJeUpm5mPOwLbKgoNpG1spSxYY9roxvTEJyRudTeRwYqaEc8LRhIJPQshdwIURyX/60582h0EHjqeYN+GRIdvzGEuaz0xIcVt4ObPXChzmGSCCqRHxyMrSWMx8mbLyJdBD9gsY9axlUe3VN7JqbbPLeoa5fG3OKjC3FeGsOGGfjIMOGIfpZCxxV4Zma4zskeGSosOqIG2D2bC+MTXVWr/Gq6oRsIoagPOKyF6GwyYBcGepkJ76cSFhjiIPlMEufDA+CZ+ChZpYkRzV82ZxsxWeLtz2w/XqqDdIrLJUrrhgE/Tb6m7l7WDHzj13U8Xs2L1nYuqeHbtm2p3xialdHhgTU5PT7PCZT1Z27p4IA4JFc0IJi5HZwaZEexJOwH+GtPcb1+rhWzDj6SyNhOxjhhBMJvHlWHrMPjes9wS3YQBwcTmLKT+d8/GC2ApVC6RpTx137NjsRNW+lQ63lxBtANHwW45K7CuOZYLYQ2wuDY8u5j/MLxbda20zAbqi9myjxhjKV5y6O+8bH1g9uHrVkWPSRsoa35eaNjKOj4HlZ2Nwg/K+etKG6p/92eP/5brrxqdmVkGES8knzMAWyUcKnBPK7JCtl3esvBjjyQqEeWCLWxxrMKuGZ1vtiU7XdCicF+Vh0OfooP/r11RvtGBBiPnycKzju3uGB+vtLh9TrcHG4LpR88NW7GgfGFSWIf7jztrw2DOfannixzft2X7HPbf8Zvu/3v77O//wx2Zz1xSLrqnp+uhYVMRFEqYN4J7O3vLa0l0vwwJm8il4sWR6EOxfKg6o64eHhjvh92Zmrjs912nxeHPKiceeetLx5z36kVs2n3rWI0/dsCY86qrMGPa+sHGgwitWpzMyssrCgws8TQ00hqMzUsUFW4FJU8H0/+ESZdyptRkXQoQCMGe/JjtyQBykAyKhMeDVcwYmgyOZWGzatAnOU1xBHZRhsacWUgXay4DeVeAV0s3FAUfYGpijbKaqB3+BSN3tMa0ulF2yVgAgQv+5G7AB36NTjCIHqs4Do2gCDjEjYAMPz0jBBk0TFTm1QtV0zJrABt2EBEhFH3x0Vdk8MVA2EyQHxiRONW1+1fIrlfPkVQLCUZ3WqdqEAeVbbrnFBElzyBAQl45hAUSmwtdG4JiWOhNBHE0MZLJwvBoLGUpH3yXSMNWxDsB8hTWUskoxUiJbFHL+HCvyute9DowuBKj44pBnJnhDBygnk79KwSzLvA7zxK7XXMIPUWBebO5nYiZRKeME+kdZR+NBNkG6bK985SsVNzOE7EnADAFB4nJJHm2nqjc5zCp/RXCOJlL4kSEL3MFitsuUI0ICNpgJed8YJSvnZfxEDO6a7t61o/mTX24//uRNzc5cszVTHx6yZt2eaQ4PDO19D99fE717uvZZxXyAJ3WvijGbKbs+ysINHP/dkzuufNJmoD5sjMMuOT3Xiyf9/REvry9HAku9t4EHYCDeAf0w71iBwEhevPG08h9Ujo1y6Z0R6fT5VvwBhUiMOz8gquT0quaOEFiNbbQ1cL8yPlXZM96cak7H7toAcNV7dwWyjwL7hvxO2jftUM7COeWyA85r9YSEHOEuxcmLuLVmgtAStEIiZp1pdM5Nz0xdfMEZ64crjIYHbcrkS36gPu3RzDwxEJuhnOgQW9p1Xq1MUxK3K0PXfP/X3cGxuaFGa7a9avXwdHM8BBsmaixRwsZhLhSfSdp7lwT2tiTu0kWBJ5XayDE6aqTWnt5xF1h15sb19jmwlMh50YMm54t7hd1epJpFHIhWwGo8Xvxilj83tWdieM26VjWMma796e8mZ9oN1tpLycdrOzd5QRwa0SgQmyTQJXLdYXgOj4zt3LFjeHBgTaM6vfvOZ/z5n8acKyo2pOcLbAG9fU9zn+RY/X6p83NbZM1XijLBYrqG2TQTceIWm7UoavsS3oypZFZEnxcCYMgYdwtVSKXyuzsrd9298657d9786+2/vPk34tjgEkbqSWDJmq1r5tlYw2dTYiSz04tN0DGzID049CTIwQaAPrtJDonXuAsi2H8iti1haue97Jc2rD/mMVvP3HrOmac+4vgTj99w/PrVpxyfiHPbr2lJgrOVTiCFditUAtZ/4/t4hG+mFm0WNCoLOudPfBRpKccKiDLE4Xflgx/8INco733ve/c30g6NWaAKwQyhMgD11IUa4UuxpyIGHGfUm3NC9kplVJoV+TCZUnJKdCCbgpmyU1cVL6BzBnC4hQszKs2kgD+Z4UunuY34yUERPEjMl7JMcnuLYzkzt1LywxxvmXJunZkD+o6BURnyTCPnyQy7mpuQKSPoIJPKBZ1mDCo/OoKUDO4dKItJLSoyS9RwuFy6gmYUuYj0HFxFKlOTkpvQv9g7zQ3MNLPYM+c5W75aFNHGrP+WgjiC+Cmuzj9AyqkMRXc4lVgwkzsdEemI6PT57dIoMwe1y6AUkRbNl59MkJ3fWFcl6nE9YmKDFPpoyiwUlCUaJ3iQguz+mM+lynglSwCgiGd3/6karCY0EO8kz9/8XI87LIV47/aPl/k/UyhKFQSR8nNrJmzYJ1bk6yeU/x8cCRzMGzT32f746HdZkasYLYtT0CgS90fvIU5fzE+/QftlRIaM/vrK2QIRuTv6rQcmEz6io8zwWkXFDbWANIIFG/db+/yySuX6irupf4f22YiZwkHfs/OrePCPey3IEug1v3eS7OaTz6AsukNrSy6VSebm7JVOEo7eTH1ayPJgGl3QnddzRdpiQvNyuZhrnM+ORH2YQn+SkKmRgF1K5q1ihjh33jX5x527/vX23/16+/Zbf3vbv/3+Dyxxd0/P1Y7Z2B708egqQy2xHdxGQOw4CCdN3JSZRcaeBlocu99DCRswzCIdlY4VDW4SOlz9Wc4YDb+VNse2p8YneLRct2b15k0bNz3iuPPO2HDe1s3r166T/8QTj2H6JWhUZjq3rt8A6XrQdQ1Mipt0UzhfLJ99xRI0V04Ad1g/Mya5/PLLWSTDRkDPfEC2clgtOSklUEqglAAJ9JV7IYzeA9lDNtB27G19qMJKfq4/VDJ4aOspXr7LqHZ5vVPkyoNnGXSPgix7b5l+Y/qCTeJIUdblx/WH7obq38sqLfqlz+FK+79YhgXTCQ4W8/8HnfF+3x1URUvJd6m0JYnmGvdTbyi/bU4Kwy0LO6H0TgtiVLLUgGedturM01Y94byTO5XHT7cqE5PdiYnJ8Vb1O9fdfN/ETDYYEFPETk5bUmIME/q5sIOev/gz58OT68Ynp8ZbM+ztaP8N1pHhxrpVI4/cfOLasdHTTj7lzEdufuSWjSccZ1d9GM3X261j1/ZW7fNi0AJN577tzD3Yb2BfLv3/++ZdqWcZxDMzZNiQG5sVySuV35KvUgKlBB7uEthrTPlwl0TZ/lICpQRKCawsCfR3GIedGCO38O/DZJjO2x6EKj9LaZHIKa24n+UhPqicUu1nAA98Z2c/N938R6jUIrtYE/Oivw3GO6emxGvXrGZ+PLY6lnhic3GaW8U6SYdHq94pOD7TbK8edn1vKNbx9yYdXUcmRXT2TJZZMthXytaCvThDCEYLR1dDy9aUEiglcPRIoET2R09fli0pJVBK4CiTABdB2ZoFFmfWFa1LFvoFmo8d15EYizMu8/tDuR5JzlPcbbPj7zbsJ+mnFFd5OEAdgs9BcajflhJ21hT0Zg3hkNjuKy6u7MwJ621XGuyW4dpsxcvMN9te92kcbf+LFYlseUwImnyAHfNHW/vL9pQSKCVwBEqgRPZHYKeVLJcSKCXw8JAAk3cNjW214aQq1OWB4xMEL+Kc4jSQfTj+sbF7L7Lfexy7bNMMIAqw7IntsfbcmirQTLc7yWtqw7cXEj31+k+Hz1g/AL9olh1+rcGFYnzuPlJiGhD+UuyDLFJy+lETk0zeBupAS/N8poD7R00zy4aUEiglcDRJoET2R1Nvlm0pJVBK4KiSAGQPUNLWiwVtS7h7nzZSujOxYX7jy7pD4WSIGr+fKxXZJ/f8k058JYHHk/5MoXfN90J9zTJq6oYHj+QFK/bhhtZ/oMbRCIArFKY41NhHsXUKXygam32Bs8whj3L7bG+glP9KCZQSWJESKJH9iuyWkqlSAqUESgkkpXgWQ4b1i0WStOZ9HF+pJiS+MBez+8XfAFQGUJ9r+YxazAV8ZcgnHHinjNT4+Nqcr4T3CLHdTy4547Sf1ruU/h3FyD4vSmhl1tPnlhZTmvlCKI9LCZQSKCWwQiRQIvsV0hElG6UESgmUElimBGbbyb84Jy3JkX2aAbCWqQy0BmpztUGYvAfcExSnxmdSI8Uvvo2Wzu2sDRjvewepzqzlz/7rHcenLGq+B8RUJ4oxuo+Qvnyianj3aDW/Se3cG2WH8XT2rHE0ucT0e0VTHpUSKCWwUiVQIvuV2jMlX6UESgk87CUAhxehry5PVu9xIR0EXC8CM/oqTO77VbOx//V+4qJYcZAp5tNMd36KOUD2/V/kLw9KCZQSKCVQSmClSaBE9iutR0p+SgmUEigl0JPAvrA9J+4f2Qf27+P/QxGhDbPKRywsNW8IBf8DqeBQmCrLlBIoJVBKoJTAwUigRPYHI60ybymBUgKlBB5CCSyF7FU/T5PuU1bzw8Hi7lxBQvS9PbL5uGek0yd9sGT75cr/pQRKCZQSKCXwEEuApWUZSgmUEiglUErgCJJAto3nEKf3md5FrMsA8d9fDMQXv4zdnQo9cD+Pas4mT/7Nu1IelhIoJVBKoJTAipJAqbNfUd1RMlNKoJRAKYEDSSBj75xjgSbdJXB+foYDEcpG87mAMgtoLS6Z85TmOIslU6aUEiglUEpgJUmg1NmvpN4oeSklUEqglMCyJbAAxGeULl5mAObtiO1NBRbQWiaJMlspgVICpQRKCawwCfw/kRzzXd2Fj3MAAAAASUVORK5CYII="/>
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\";","var _path, _defs;\nfunction _extends() { _extends = Object.assign ? Object.assign.bind() : function (target) { for (var i = 1; i < arguments.length; i++) { var source = arguments[i]; for (var key in source) { if (Object.prototype.hasOwnProperty.call(source, key)) { target[key] = source[key]; } } } return target; }; return _extends.apply(this, arguments); }\nimport * as React from \"react\";\nvar SvgLinkIsn = function SvgLinkIsn(props) {\n  return /*#__PURE__*/React.createElement(\"svg\", _extends({\n    width: 268,\n    height: 103,\n    fill: \"none\",\n    xmlns: \"http://www.w3.org/2000/svg\",\n    xmlnsXlink: \"http://www.w3.org/1999/xlink\"\n  }, props), _path || (_path = /*#__PURE__*/React.createElement(\"path\", {\n    fill: \"url(#link-isn_svg__a)\",\n    d: \"M0 0h268v103H0z\"\n  })), _defs || (_defs = /*#__PURE__*/React.createElement(\"defs\", null, /*#__PURE__*/React.createElement(\"pattern\", {\n    id: \"link-isn_svg__a\",\n    patternContentUnits: \"objectBoundingBox\",\n    width: 1,\n    height: 1\n  }, /*#__PURE__*/React.createElement(\"use\", {\n    xlinkHref: \"#link-isn_svg__b\",\n    transform: \"matrix(.00339 0 0 .00882 0 -.117)\"\n  })), /*#__PURE__*/React.createElement(\"image\", {\n    id: \"link-isn_svg__b\",\n    width: 295,\n    height: 140,\n    xlinkHref: 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8x0GIGnHGKEZzZfnlgMcM9GSyRlL2sjqVwQceAY6AVDDjjFGM1u/2yomGcfMZL+ufmQ5eZcT7HQOsZcMYpwrE/YFeeGsopnHpglmbrI0mc1zHgGGgRA844RYj1ByIBvBexSTPBxE4jJ2egZrPjQo6B1jLgjFOE37hxmmJFfNq3i03WjSRwXseAY6BlDDjjFKE2MzDbAE1hmOyiuBs3RYhyXsdAGxhwxgmSZXiE7N7ZjE+hneFGHdfHVRwnjgHHQHsYcMYp5NnfN9f0XGAgNc39emCgnHFqz5+kK8Ux0GDAGafwL8HfP3tKJ/XuXRnWnBoGKpjeZeYasDC5cxwDjoGUGXDGKSQ0c89cZrduxThhkILRE7dlmpx5msuT0zgGWsGAM06w6l/LBstb5tK7dQvGCfVUOHpqvM7izNNcppzGMZA+A844wWn9nmSDsz+fCQzTeeLYPU+KmRw7/R/H5egYWM8MpHcqwSpk0RqazANz15vUnJt2YJTYfnmOiBd4XDdNNGeYVuEP7aq8KhlY1yMnmST/Wt6dS5jS6de8mffs+rcYcw6/Rk96neXSnkz8ThwDjoHWMeBGTg83XuptRvGt+ax569W6eYshk9ae9DpLb/C+XbMUa16fo4WDCa2soKsl6BdSKa8CyCVEVH6VEPIvJMpjcJ5Iymsx+TTLQnnnYjeVXyWmc8EUGFjXxslwdlPmXfOz+La7MuaLrxhzmmhv6XUWhlv963tupw46nsDag+i8BH2SKo+yBIbBNrAYeYlIHigBGYQkaVY3G/cYnqINLMMdJc1QLN0E4UJM54IpMLBup3WyL/V7mdJFDpdL4vMX78uY0+zCPMmI6ewMC+RsLVjftimJpSXp1MGPg0NgsYZJBRwETwEZoOWKylxJ+uWW69Itg4F1a5wCrh5jGLSA7Od9uyuuzZhTxHuTkdMFTJNeZ3GyZAZypKgAGZiViLeSxKQdXWF6l7xNDKxf4/QAU7rIwXLz8f2O+7LmDQzTSSLpyR0DqMA8ORM1H2tz7pXRaPSzEplcSeIw7RBuIYV8XBYtZmBdrjnJqPiPLZ7ZX/k7Peaffq5uftJbNzUs0/aeuunzV/2HDhZPwMpjFsnikXmy0XrSGPAicQbx50EBWKNWxZ+GaPSk/J10MQPrzjjJMNUfZq0pclb4Qr/Pjewgv5l3777/Ld/8lFHTzj7fbGTfU6/bV7AQdfZ+yXpiroxSEVRiegW9iC6PvwhqIA2RsSuCMnDSpQysv2mdntAtYq0p/ns9/r4e82Omdj/Bup3GveheAo5T1CysEcpAwk0t4xVAkmGKR6+iKIFRsBxRWXEpocjFlS7cPQysK+MUTOfeA/kLPKFL+nnuPZAxu+7JmB+w2vT6VMa8FTy1c0/ukriK6QqxsA2W8dRsoMVuklGTwRxpcbku+xUwsL6M0z6Yemj5bP2Dv99jfrTJN9/FQL3B9oILbvS0GDKbjU7GFpM4pTge+Uwk5CXj1Kx+CdGdqp0MrAvjFIyYNFp6cmXU7mRLwbve22O+yXrTJLsx38zWgyNVgvxXlrVL3XoGZIjisg1FKa504e5gYF0YJ1HtP85lkVsH5vtpHvtbPebGd2XNdzFQP2Pt6TyjJ7fvaT7Gmt4bbnqnNTcqZHssIeun0OUT9E7VYQbWhXHyH2Bss8BrKkv5HX7liR5zhhULjZ5qmbq5mNXYyUkTBmpN9DIKg03utUpdIuNmi+OtKtPlu0wG1rRxksmoY0TMP+L5f4qylSnik0d6zY8GfPMdDhp/QwYKuBFUIsleorah1L1Cw9uWa5VSRhNKOoSukKB3qg4ysGaNkwyTTrg0/7I17G7BQP3dD/aaE3nffPtixvyM9acLjKCY6QW7x1tT6qrMVdOpySY115rPOJDByDWJk7ZaZbnRU9qstiC/NWuctF3APwxjWghvkWwm7/dgoH7MCOoEBupUMMVz46cEuosJuqhKU7wqKIFWG6laWA7OLBkiVJilcYGOMrDmjFMwYpJh+kDyueBps72Jsv42Bur8UMZU2f90EgN1gVGUTJTq4iRgwOP63AJcaBR1BFRBCbTSSGn0lDSaK6N30iUMrCnjFBgDjEUdw2RuaR/DMlAPvD9r+h7PmG/1ZsyPMU1nMVA6mC4wllTFGapgw+OxRfwq7TJSIwl1GUBXTNA7VQcYWBPGyXZ8nz8tGaZmx+62mt+7/2bW7Plg1nznhow5rjOgeEH4QmSh3Naz1fXo4vyL1O1RkLTmE6+2NVIVbhTiN1MIj5HHREI+GlXlEvRO1WYG1oRxEmfBUzkWvztlmOzvdh3nP737Qz2m91ez5kSfCRbKz2kU5XaTW4pkFPJgMaMopdFoZhwUQdpSSshQRnEkQe9UbWZg1RsnjUZ8Thkw/xoP06tukb2Mog78+x5Te2fW/IANm6f1NI9RVHSq1y117UA9apRZBLvAYo3UUeKmbTS8JuWrnBxw0kEGVq1xCowSxih4IvdrmQ5S2LzoDdRvH2tRO5/tNa+9kyNXME41pnrnY0YqaEvzbNbynSqNKwIZqafBQtO9Z4lTAGlKKSEzjZ5GE/RO1UYGVq9x4kOYvv58Ej4j3kb+FlXUVl6b2YORuukPes3Zv8dIajsvDvfMBIvmOpPcbT649IQuD6ELjaTKiyJ98ZGqRE16kngIfR446RADq8o4BSMMNlbWD8PW4UxXTeMW8/tpJHUTn6K69dkes+l3eszZhzgz5Lq6OcOU7zxoGKrGkz07mpK7jqRGW4vgQdBsFDUQxsFJTUrklFSeGz2lRvHSM+pdepL2prjUOTWFe5iyBfyrXbawcC6YX+Xgutf5cMKrHMECsq/UTS/HbeqUzR4aTwykcY23OVkbj7Uqwx61LgC5mmLFpYCiHFeuICyjKEN0JJbHI4QLwANO2szAqjBOenE3o3WlNWCUkn7fDUz7NtxP+wQkMFYnmLYKfDMvO4nBOouxwkhlMVhZ3DVsmCxFFTwj4KhVRNxCxJ+Wt0RGRTAAolIiUIgqnL89DHSdcaLvBeLLEIUjpczmddAVw3bLCYyVzjh/Gxhu3LAGa1qjq0mM9SuNM8z19WEZLDEkk2WZsm4j9aq9lql5knGKG5C0GlhKKG8IXRGUgZM2MtBVxok+Fvy/VccoZbTQvUZHSsv5fWcZrDCDC4ysLpxguoubmYSz0GD1cL+HaWHUQMkf8LucwjubZoLiZSDaIWUK0WjtYKywEuFyTOeCLWag48Yp6DBa5Obpm3mADsVrJ9FO1eL2r+rs+2/JmP7gNZ3LjF28ZLDqgcHKMi3U2pWMVXZ1tjbf5mrLOI3HyhwgLL2TNjLQVuNEH7kkPm/y+zrT+5JButzBLkVyniUzsAGDtSFmsDTCusgIa4YpoXl+yVl2MkGewmUY4jIZV6QY9shrAgzF8iwRrsZ0LthCBlI1TlHjE62z9IEx2o9HIyO+YqJ1JGeOoiy1zn9phKUF99VlnIpNWKk00aelVrnHY5npqWF8uheL4oJpMpCqcVLFtJDtD+DRyIgPAuj/vexeTdWcMUrzh1sHeRVp45Em7fSa6NNSV8noGDiUVoYun6UzkJpxmv5dniIxpZDYa8NdXKW+XfVN7awxX/4Gb/OfM+br1UbqP/9GPVgr0XqJ3fezN58x+/LG3Hdnxrx3aCmlLK4unYr1teN1c+I133x9EoOeaRjzuFHftsWYA7Rd8vN8hXiViBfWs4w7BmphOMnJoRwBzQyTNkuWQaulRAHDQCMmJx1gIDXjZA1Tszacf8uY72GA3jzLsba43/uJMSf4fO7LdMg3MEoz9DPt3+E4JNPHc6WNuP2+MffSSfvJtE/6IA4js0ljflw15pPjxnz2k8Y8UewxQ/etvuVeGaLP/EXdfPllY77wFdpLO/WZ8411YzbxUks/PKjNevqm1uFFa8zHwTTcTOH2b8mY3bsy5rodHNeCuzdvzH6M95Xd96RziOoKR8FLwANVUAGSwRALGYRR4tWUoMVSJX+VdaTF5bjsmzCQmnFS/id/yueSfmrM67ivvcakvVo3pzFKLzH6UUfiiCO6Gwgfc/fhz9HldlKLzbxjtgVsxhhtRqetTVuIt5E4MlSKK9gOOo3/HJnV3qBj/7sZ0/N+9jAWut9AncI4//H/njGfeoGD6aq0E2N0JcTsh5mraHuOBl7V65srxAPYSBv7aLVtmYyT2n6R+Bdxz3M592rdnAITXsZ8jvhnuXfltVmzj68U37orY/S1Yo02OyiDsbK1drOc9ZsJ0pViebUyKOM0AtzoqZUsN8k7NeP06C+rqzSMB32q8T89HaUH/yb0V9DB+vFrdLCZnhYYH8JyZYy21rMYo0ZcxdtInH7mccGIiTTKRx0UJzBw6qQXiX9mxpifTGfNN/9wxuzcwSiiS6c6Mkq/+UdT5n++mDUXz2XNtqkZcyuGiQGP2UHjrstmAv81GOScuKB94m0Dw6YejDa3g7bLwE8TZwao/cIF4p3j/lmM2lnivsm90yd9c+oF33hfNOa/E6fOl4qvz4vBjkganVtL+cU2175GeTJOR9tcrisOBlIzTppFaJTTr//tMR8bcTfRYdTBrAFSWPE20c00GgpAeEOW+HSsDehUIY0UsEv4mehhhezrGty+JNxmiuObKdJuZ/53LQbqlT+om92codRt8tHPTJkPfYrR44U+Rkl1c2N92uzCTtyExbmRRu2Eq+20+Wr8W2n4JtokIx6MmGhoo/2N1vsYH7Udm2zqqHQ+lEZSGpnKUJ1HeQ7j9Bb+Mxi/N9Gfwl/j/47at5Sy7ZJfYYlaYyoBjWI6IWUKLYEB4KSNDKRmnH4xmzVbqbimIjJIwZoRnafhNgyPRkEbuKdCsUVBp5OrSQvHHOEKzZ/q6f5sYTRG+o102K1ksJHRQm3SN7mBuTFnp2tPSKOlJz8ybb7wl1lGjllz8wyjJYzSbojYRztvxDhtxxDlsKeBcceo9PpZk8XyaIzTnInL9af5mKeGwZKxqsPFDImncS+Sg6Z/mv6+xc0z5P/hy0mX69NoYiIhsfRJUkX5KCiAYTAAFiNalyqHaJZ3PJ+l1i2evlm4yI1Sk5uVJnqnXiEDqfXir1210dd0TKMfrQ3prXoZHr37pVGQ/venHwadLqnbraQiZBuMIE7rzG7OS7ru4ZXktkJGw+QyTA994KL59o/6zFUzdTPAiGkvq/0HMES7mbbt2uCbqzEim/BvCLiabYqW0wLxEBX7BRgZqmky1JEsO97QBLCjkqd0oQDiIuOizi7I72QdM5DayOkWzE4P/zvT3y69iCqDZEW+eOfRvcsxbMzluXpjf7OGDudVSlq5Lq8uSvXLv4th+mFvYJhuYwL6cximn2OktIeR5Q0M965ihNSPxdAkdL7R4vJr0PgPQUzo1RWNMBvjq5XkmEraKrkIHnDiGGjKQGrGaTMjgLjETUQ8HI+/3LDNV6O1TbcsN5f00v2rj0+Zr367z2xnxHQHhukeDNM9mO09DCWvg6bN9R7TR12tXPZZzfLcZvlc1l/2La8El8ox0D4GUjNO3fBnrzr08BJxJ0UbKZ/5bxlzjV83t2OY3o5hejujpf1M47ZrtMSGLo3yOsFXJ8rs5G/hyl7dDMwd7qzm9mCYem/ubBf850dneNqWMdezxrSHLQL7M1kWwA3GKsvmStbhOmSYVvPP6uq+PhlYU8bJv7ezP+IX/9+M+YtXs8E6U57FpD3YST2d287ISYYpugbX2Zq60h0D3c9AatO6bmhq5qHOjpo+9qd1Nk/ylRWWnvcyarqD7RU3ss60lTWmTk3luuF3WQV1yFHHwbCeXpvqm6ecYlhWKXTb4XSirctq15oxTjM6Z1xH2y4gep9tktdrgpiMaO5PaUe58v1f7Ge6gUVwjZpuJ++b2UNxJdO56OL3AtVbDbfViUfDio7gVpZQ6Rxxa0uI3+qotj6DFDQeFrbwH1E6tcqTzZEwq1Loxp0RFMMRZQX/KKhGdEv1DpJgOW3Nka621MJWEn9NGCeekhvz2Px/U1qo/q3/PG3+77d6G6/R8B5IP5sib+aVl3/yvh7zaGH+9AuR/Jk/n+E9uKy5llGTdn7fwNO4bWzs6tMbzWtL9Ec6FDZJ/sVInkij4BHQDYSUqcdwCA+3G0V8PRWrmHiXvp2Sp7CO/HZrYs3Jf4y/eL5g0kz0aP+B36qbr2OYdjCy2T01bQ6yYP12Wn/Tz3zzJx+dNs+AlcgnvsinnshT78rdQP+7po/XUDBWdjrXDT1yJe1bQtoccQdj8fOEZZiaieIr3XySb3Kz0EQvdR4k5XsIffR9P4+wfqKkn0np82Ahma8Ni83DlqH41jDpncKrwN3gMKiCuBTiilg4Hwl7+Ju1tRCJZ715PPP9djZe6u6qN06+tg483JyXJz9y0Tw3phENC9TT0+YXGM08zOsjwzzifwy8pydrHsXt/5JvPvkxvbG2dNGU7q++x7txbB9ovC+Hn6ldf2Qv09JzXTUpStRUg9cqqICT4EVQBXlQAuPAiuJ6YaCEWwOKr3RVMAgkJaC4Y6AKjoMCkE4YDd3x0C3iWommsfkOc7MAlNaKTVtCIX30nuJXgdIfBzVQAlY8PIpfBrpn2zCK30oJTxVE8ygSXkgGIxHK+JV/BUTzzhP2gOowHroK54GVEh6lVf0VrwoKQH7BivJVeDx0PdwckCudFcWJYtjewLV5PBfRrci7+o3Tr9F+vZiWIO9nNPT8n/WaG6bZoY3hKGCUHmah+m+wUF3YwGFt4K+x/+hd/ca8GwOV+6Ixf/l5nXewNNGZTBuZJmrJ60YY5bQSRlGN13eWltOqjj1A7fNgImyFwiVQBS8BK7pfAfrDPgK2gWNAeqXxQFQeISB9XJ5CoXwnwxtHcXOhX2nkV76Ko/RlUAMqx4ruKSx9VIYJfBoonY2zDf8RMAqicohAFSieRPUaDHwNQ6A8ngcqR3kcBXkwn3jcPBVGKOOqzDywksPjgSGgeMpbrsIe0P0iOAJU5iRQnAqIi/JWnZX+OaC4ymcMKP5LwIrysHGkG7Y3Iv7PR3Qr8q5q4+Tr81FCgvzj35sxn34ha7ZzNMmeDIfWYZjuM1kzyJ6j28EN+K+d6WEXd6+5lqdpA6wT7e/nmJH/4pvTr/sJOTZXffllpnBMF69mEVynC1yZ5UVn3Fa9ltK8Jh2/U6AGgv6AJXlQBiPASgGPwlb3NP4iKIBJoM4U/aMnaB4EV4GKAqEcwx0EhTAsR2HJoyAHiqAAJMpXUgiujctIGK5EdPKWwvAErvIsgMNAoo6svK3YOIp3KlQOh24JV/VWuABeApJ8cJ3/MhLeVr1V5nFQBjlQBANAMggKIXACvcqz6VW/PCgA6eNSDBU2zWAYloEaBSNhWE4BKDwGJMMNJ6iDrc+XQt2KneyKc+hQBsFZ5U8mF/7xCd/81xeYWmEwbs/45u5evk/J+s9eRkk7MRlX8KpNP9B6kAjQ0zS9fnMN2M1a0Td/30/OuIn2C18hT44nuQajdBV5bSFTvWe4zkQdrxK2ubaItuuPX3IEiHBhAEgGG05wVb4eUJ7RfMuEJdXgevmSw1sAHlD8k8CK7i1GDoaRypHIUf9gRO9F/JWIX94CGAM1oPbZfPEuKGVi7ALPgVNAcgiUgC1fhqcKJCpbYUke2LLK+JtJnhvbwpvjuKrjyTAsJx/xR73lMKC0w6AYho/hngn9K3botqtLxJ7EP8wlYTr3Zb7T9tTHeOOfqdxeXh95B9M1HfV7B4ZJr49swmgkjWi0QVIvDmtKVv9O3bz+CqOgfZmgrPkuL3DKZz8RdILlDsrRmUw6r0qGb52JOuByRMYnnraKLg8k8XsNbfPrKLfUidWh5ZccaThLvuYiKaL+iLqpd4Q7Klf1KIMakM4aA7wLSpUYSlMCHjgIBoHySkNykUwmIn7rVTnROFZfwaPfTfUZBgUgGWs46VzpiqtPfC2A75tb7++/bsyvf5jzkTBMezBM98owMTbau4F1IAyTdmknGSZrRuT2E2c7o5+z/2Nxa09f+gZHC7PedDXTQk3pcoy8NpJ+VRI7l9JWaEbCTG1n0B90IYIS/jJYruTDhKO4JVAJw1FHBkNi69IIXb6q40mGG05wLUb8SXlGbgdem9YjpHLKwBqmAv6FpECEfBipiCtDYMULPUO4g6FfrsKSGrBtKErRRCroLRdj+AshhnFHgO5HpRgJlEO/4g6ASTAW6lJxVl8fEg1sHYjLm5xV/uucpDb1Jk/MWPw+wML3AUYyt/ZjODAWG5myaXQkA5Qk0gsa8fRjyDZUfHOe89AXkpdPkDdTOo2cBL43YHr9Rirl5yRgwIvw8Cx+hUdD3ZEwrD/sGhgP9ct1lIdE+VbApxWIifSSR4D8gwpEpBT6h3B13wPKT/IcqAW++S/V8LYt4/j80efcLaNRmioQZ1Y8PGVgjYrCFngDI1HGHVUAURuqwAM+iEs5VKiMMeCBk8Cmr+C3Ip0XBsqhuy0WDoMrd1aVcRKz/pNcEqZzH2Ah+5tstLxe0zkZJkYyt/XwXhvGRpsjl2IotAZ1BTj9QtJvOZv0lycb1dlGAfac9Cxpncxh4ImIRh1GHUG6SaDwI0B/6M+DlUiJxMpTkgOPggkFIjKC33bug/gVLyqqm9IpH91X/RT/OaC0ixHFs+Xm8R8GT4OlykCYQOUrfQnUQAEof3Gm+slVuAB0vwwUX+mUh+Ikiepp4z2C38bzwsjK64nQb8tSUPrnQ72ccsSfijeTSi5kMrVtq59WXvF8bMbabJk0avpPn/fNB49xFjebKwcxSD+PYboXA3ULK2rbtPAdGovFNNaWpVMj37iOTZUfJsN55Kb31c3+mWnzbp4GFjiBYF8fZXJO7tLM4TwFpHyr79SZxdCQcqmzsssTqs7SNIyD9JWYfiVB5VddIIPFxMmRh1AFyxGlldQazpKvg6SogvnSF7jvgWaS50a12c2IPh/6qxFd1JsnUA0VapcHDoIJUACpCt13dUjwFeGE6dwr1YZh2o5h2s848F5siU6cvJm51RV64XYJhklM2J6ro4U3v8ZXTU6wTeAWq53N1Qne0etjvWkrqa4kyhae1mnU1XzyODv9Og1VE9qtjldJ0K9EVV1E4sXEUd2E5cpK0qrMxfDiLVC56gL37e2F4tn7oyQYBDJMknJwTflCd14FommcBsUx0TrToWf4Ysn0jMkz0tmPYdrLFO4mDNMW3IahuGxwYsnnDWrko7O9L3zVjqXmRtfO8F6m8f3c2kL8fgxUt46Y5tbeaRwDy2ZAhmkoTH0Mtxz6U3W6fuQk0+C/h0vCu3OH2Y/0QwzEbSyA6+MBe1kAH+BpmU4C0D6mlYqMm+Fjlc0kQ3kaOW2iKD4LF3xjz47UmqVxesfAGmBgmDbIQNVApVXt6X7jpC0DD81t/tHP+ebzXzHmOkZNd7G+dDdTuX20ZgcjGO1lWqlpwiwFo6Be9k01k68fZyc4Rin4/BVl9jF6Y2bnxDGw1hmQUfJa3ciV9uFW18/4j88t4lXWmX6bp3M51pn2YA3ehmHSJ5d24mqnd5obIDW1O/9qssXRp9a1XN6PUdqAK3/XEzqXzuVqciTU/5oiRxgBaYjyLYTI40ZlkEAB5EE3ikelxEUJtEuKFOSBUbCmpGv7kn7huo5CiX1N5QwG4YlndBZT3dzM34G2DdyOUdrJqGlLyoZJv7S+6DLTxDhp4VtDTx7UgcZnnoI/TSVc+6LOYBdEJ/FXUmqyDNB4iHIsT5Wpe8WYfj0H8zR+CIi3hSRPhBEgt+tFfasrpdnTuX/GC70/4CnajZyddDvrTPpyrhbA9b6cnrBJsBWpSZDXiTDjWK66l8Ua2Xf0dHsdPavLq73IS2AxHSOIvMSLOl0BeMBJMgNeqK4m356lPR6GKrjVWXe6MNB1xsmaAW22jBuZMa9uPsc60zVT7C3CMA0y7tvLXEobLfXaSZrTOftbydj0vBavib3LVI5bms6toyldnuYWgVxJDZRAGVSBDNUwsDKGpxIGCriCB3JgEJRBFTSTEjcKzW6iL4I8kNRAOXTzuEUgKQXXRrxi6JeuEMLDzYco41ZBEeSBJJpvQ5PcTntPbhHkgaQMqsBKEU8+DETzlq4IqqAMiiAPvBA53BEgGQVKGxfFKQK5EsWpgkFgpYinAMqgCKqgAoaBlSqesg3glkL/GK7itlwyaZWQ1iZMGaekzZY/Yk/RL3GapX+6bu5knel+jNM7gs8ucRIAR5/IMKXWmJAUaygvZOpmwx9n51D1zKd88/wnpoOzoX6JJ4QH9KoMR7DMjTknaccUKWzCLFD58YQGPIguD44m3HsaXSnEEVyNtuyUUOk8YKWAx+Z/Cv82YON4+IeAza+M/xCIivIugEFg88nglxRAVFcifATYcvAGO8NLuLZ+0kkmgTqvOmYRHAVROUxA94dAND/FUVj1qYIyOASi8hKBAlCccaCyJAMNJ7ge46r8xYdEaRS/BI6ACaD7HojX/Wl0ihOXB1HY8nL4bd6KpzpLJ1E5Lwa+xkkJ1dDfUqf7+pF+joTNlv/w39TNW2/65kamUfoe3O0Ygxt4VLYVtxUjJrGeCaH8LzRZd1K8rG/jKsWalwot1B+1OofkGFBYcrThXNLpnuQIKMgTijrPJND9WqhLckZC5WjCzQK6Q0Cd6FFwN1CdlHcRLEXUKSeA6lMCysPmq7yV7wBQPXKhixPoH8R9AoxJEYryOwyUVqLwMCiAxdRZZXlA6U8BidIVwdNAojrm5YnIIH7pJcfAg+AJUA79OIGobrpnReVJngshv62z/EVdkAlQlacd0tuOQhZbhk/EOk/nMrEEv/8ndfONqs+hcHVzGyOmfdrP1MvTOqZyG4AkniaWxYqCMj51TjyYI2GhtmzVfx1IjTZ6QK6kCjxQApJJUJQH8UAB6I9fblQKBKpRRYK/jK4E1OGKICqFMODhqi45IL/iDoMKWKyozoUwsv0ZS4THQp2cT4MhUATquBKVU5UnJscIj4a6CVyly4ECkFRADUjngaQ6j6BXnApQ+ufBWIgjuJJ8cE2+6J5QBpJqcG1clKcHCsBKEY/ylwyDgdCVTmFJObi26ZJtUzkLFuMTw3+YTzbtnR31rzBK/xbjtI3NjncwYjpIjfdl+aIu0LaBduzI1oTRP6EazhVptU0zqH9wnRtnnWmqsfbacCGifwm/1UfUid5SqLWujTQYeh7BHQ/xlL25RLeaEL8S0dUifttRpapG9FFvM72NM4RnoTpHy1S6aH1sPnHXQyHDKFEZR0EV5MFCMhaJMBr6h3EHwQA4BaJxCLZWusI4+bQx+FBB7PNOZ9k28Bsf1SeXfLOL4ctBxnkHOP9bT+e2htsGMqQVWilBGZNzS9i2RTrfaPCmNjgJGMjHeLDhSkRfi/gX8paJIPbVQYaAFZvfBIoHYxixkWLuYCw8XzAaNxeJOBbx5yP+pXiXUuel5Ku4RbALPA0k4q0oT0Si7YmoL3ltGzVCLIda6Wqhvy1OVxinoKVPco0dhfKRT86Yl4+zCxzjpOncHawvBdsGcLX/qJ2SnZxb2oGBTDBqYlCHy+hqbpT1pPHCxqozlEEBlIDCEvsH3wgt7VpKiF4JdUO4eaCw3CKIywiKYSB3IdH0SVICSlMAJSDRX8FY4Gtc5C8AG6+hbX71wluq8yCogDwogjQkRyYjQO58MsrNwjwRqtybCO9ryikpB9c2XrJtLCuxKB+t/wCX2HTuRU6Y/A+fZV2J9+ZuvbTOxGnxrDdp20C7K549iyE6N7sJGYINwxSd2q3bUZQHHcdChg7hjoMjYVh6L/QvxymTaDKWcIywLe8o/pNA7iGgzukBm+ZZ/J8GA2AhGSGC0m0DSjMODgJNa4ZBFRwGEul1X/EKYCHxiGDr/Cz+k+AoOARU55XKIBko3xfBkTAz1bsc+q3hHSA8DhS/mZQjN8SHFwm3xctEqcOi0ZI+7xQRO53bzFhkF2tLB3tYZ8Io3djDaQMcg2LXmTKRNK32Zn1jpid5TWXv7FJnGDFNU0998a7xijAR0a0DKdNGLwROIEWuZaBOrD/8ChgDHpB4wbX5Wo1uV8HT8sSkSLgQ6rzQLeLKr7KEKvCAypUUwAjQPQ+MgWFgxQs9VavAlV/xi6AAJB4ogxqQjIIKGAaDwAtRjfjxBlLm6oXACfIdwy0Apa0CD1RADsTbXkbnhcAJxMapEvICTSMf5aF7ymcQeKAMqkBSDDGM6wEbH+8cGUNzNNSOzrnbBkUmrTKWu89phv+DMrHPO33o6Iw5+tm6ydPp39mXMfcbDnHr19O6HqN33bJpVXqR+cjcsMPKnH8vJxAMXy5dZ0k9/hvT5v4+n3eTe8zgRt9cL+NJHVMjdpF1XGy0FPY5LbYoF291MpALqy2DdCj078Kthv62OR0bOanD67tzccOk6dx/ZDp3LcbgVp7O3UE3v2WDpneN85U60elVZoDYdoJ9ed67456FfWrXtl/PFeQYSJ+BQbIcj2T7HP5qJNw2b0eMkwxTsPjNnqaoaDr3m3o6h2G6iWncHUznduFu561/nc/UCcNk6xeMhRgpxUWaKQznFAMqZ5zi7LjwKmSgSp0nwnp7uKXQ33anI8ZJrUw6QO73PjFjvs/hcQMYpztZBD/AU7mbGTXpuF09neukcVKds5O6zpadO4y5+DPWo6jzNJZqrvmaHd+FHANdzkCV+hW6oY6XF1DaWBt/H134odkFBtO5P63zEq/PoXEZcxcjpt2sM12NgdKJlB2p6OwqGp1yOXVitvnZuQMd8S5gOWWc6ozynDgGHAMrZ6Ctff5St31y9hjorXA6t4n9TDfzdG4P07k8xulq2qdtA7Njr7zRy81BZCW9xjJFwy5SSW0ruNTG5Rbi0jkGHAMBA201TipRB8jFzwP/Q6ZzP2A6dz0d/HYM022sL13PE7C0T7UMWryCi8ykf2J2Bm+/szFyuohZ0ghKi+NOHAOOgZUz0F7jNECFYycOfE2bLZnOXU3n1rtzd2o6xzrTVUznNgCNmrpl5KR6+K/MHhtpFqeR07nA1S5x/XPiGHAMrJSBthgndVZBJw7E5XfY06RV+VuZzt3FqGkPNdqOgdqoF9a6ULKcwhmVvbs0cmIPFMqLNHI6qLYzT1GOnN8xsBwG2mKcVDH/YUZAsVdU/oh3575WZdGbzq1Ph+9mpHQdlsqeNtCN5in7+uzXWK7coh3iLIhjjzStc9sJ9Gs7cQysnIH2GKdrqWhsOvcaJ1s+w1EoW1hFvoVa3MZo6SbWma7kiRiHDnTVdE40y1AKIkyvsVjZw8hJBuk8qgu4M8zzLt+1sZzrGHAMLJWBlhsnddS63p2LnTjwLz6it9KMuYkaHGCtaQ/Tuuvwb2T01NntlvNTqHfs6pHtBFtp1wwGVe8En+dpo0ZPzjjNz6G76xhYDAMtM07qoIFhuocD5GLvzn3yszPmBRbC9YqKPu20X6Mmhkt6qddutuzGKZ0IDTY2nJhN7e48xonGNhbFMV7h6MkZqdk8uZBjYCkMtMw4BZXQaOnx2WZGr6hoOrc5sqdpgFHTNkZM7T6jaSlE2bhqTeans9u0lUPnNKXT6MmNnCxTznUMrIyBlhonvaKS2T67gr/9kWlz5iwHyNG/d7MIfit7mnYwaurEGU2za7b4UObl2WOiu+/MGu1zCp7YsQA1M9t2LT5jF9Mx4Bi4xEBq3Sh6ZErQdbfRSf86j9fptGfosDrx6kdstKxMsLmSCDsxiwNM5/Sl3q2s2XTLKyqXmGniUds0bbvA08fTGxunhf3wu7557au8E8gIkBmeuZq2ddseLdscd2SKZcK53c5AasbpQm5rqdsb6+rH60C1M+53cn8IjgHHgGPAMeAYcAw4BhwDjgHHgGPAMeAYcAw4BhwDjgHHgGPAMeAYcAw4BhwDjgHHgGPAMeAYcAw4BhwDjgHHgGPAMeAYcAw4BhwDjgHHgGPAMeAYcAw4BhwDjgHHgGPAMeAYcAw4BhwDjgHHgGPAMeAYcAw4BhwDjgHHgGPAMeAYcAw4BhwDjoF1wMD/BzSujYg2VABMAAAAAElFTkSuQmCC"/>
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CNS5LRhtapMMyClNEeSapg7/MChhWEXgsEL+uuu1EE67UCkftMm4bX604TnM1gLiJ1VhOJCLKk6Idt9GcyXTa7vQmk0mr1WqXrW5rspdlaZq2kqTYm/T7/Z1snKVJN5c4hMXES9yDEpYG6KyzSm9rA2vV+uC5QSgD7zxGqku+ln8F4mLyRDA1Jdy89V7jFDkMV0JZSIBB+YkDQyddm2ZZ3B5GUyl83m5H+fqknRTlcEPyR7r80CHKMlORuGgX/WZ1s7jswLIghVLVnjeLoGWW6HII6hrnLYjkj9w8MXNB54aErDIOtC+oaFnqQybTBMaEm1rmq0Cx0PBC+iDZVnE6xvJg9iqQFxB6dcuLLEsNjb4sc0laDIFSqYo7JwBektDS84XKVem1hIMc5sst3lGf1xsyDvLuWY5QRm9ZWNHqy0A9zcaIg9lV7bNRo6ouyD/w5ZGiWE7PSvnTH2sWAirIWAUfY9ctuCoGsLHJ36VBlD9Hi/UARim0Hfor8apQOQ39VwIP7ERmE7yKw11X8Fsz5dXYVRq1apxtmR12CXD1ALxzEUQUIjJ5FkjhN5CKjXVTQ3olIkOSx3RNOrwAocOLcIsND2WJzFCZXXLxgoo67Bq1yrwqy4/V69dW3BJAKTXi6hWBMDQQic2KgsC9eDNraXyheIAJ+EOKR1bpPyZ0AbJ5K5aMqcopaeaF+KoqA8CqiKRTNYEE7WICW6/NqBaNo3JsI2SG7yJPBqsetZJWK07HxaTEbLbbWZIPSaybnLJB0FQaZOQsVoxSUYNnZ88L4iGhIgT1hzjC8NM/uK1kRNzazB0pwXnTGozf+pWyVxSchoNFqA0Xx0nyXFpRykq9dg+zaDEKqwqBvtJ6DQvUuvPUFN1BYpamrKLcgVflhnZZipNEuM5xhMW7em9Lbiz/aV1xDp1JXOBQ2414jktk0AYSdcIFaHuL2NWhkBviwTmjF8f5OImSPM9abf1gH6bjSTttj4tpL07jTrvIpn08jlE5SUXgrO/q7nLBvC4BiFKcPiOGq+lRlRn6oRN2OXQr8g5K1aqotNsLqStZhwq3s+wyudju4kH2ozVJMYrzONpbK8tWUkwnaRl38laS4VslcbuH959HBcKVqT50kCJBgMGLkllBxZEAAGosS0e9cZtEnqm6O1gFwyYdUENUVVpqH+MxqwyJtK0c7FqTAJoxaGjDxQhokBAyPt4R8WAhRD7eFF1z9bsaO1l1U18ZkYeR7cFagi55pWgqFnKWWGubCtrTqWdxK3U1R6Sikt5FK1s2kYDhyni42tDOlEvG4ws10POMZkifEQ+MgGultTFU+TM8zqyDCdqHpRlu+G/aAr91sQiJTFYwM4jYe4eu1Kuqrzx4Kafwyks/WyWW+FKSSy2d5nh/pSRIxRI9sconMJmW+6MJ9pxHy04ySuNpFq2124iaqYJWwZhZxtM2JTDHabuT5dN2PKVStYocLm8DUREawNuhuoKobpgK1H+w6eoGFflYfMZde0CnnPl5VgcEgJa6CNb8FqkK6Yfc6YrnjzDf4+DC4ETCUR33iANoxDHHAvG65rmu6Qm21jWjU86HpGh8iaB6HCXiqJZeBRZH+Kv4IGCw/uNCUyn5rxq3FNRG+rHrs3gRvwpxiRvDY5ZGUOtjGjjVvHjQgsmZmNIt7Km3F3FbEYcQU0auUWsSkHSIrCdpJ2nn42GRtpjbaKXJcLDXZYDOW2nanmaTSZZhDcdFlq5147RdDsdGzeLFhbGYKonhQSl4YyFKtZO0UC2Dk+cC94Lmzy/HZDQbHgMNUg/pjiHcqhfWLR6UkwgdSsE6qXknam7RVqY4Udl02omSVlIyWcdlUox7edxN2m2eVqIuk3zM7+DS5NMs6YmtUIUhvdyl0hYDMbeYvmQazsSu7LRE4sTTmQDGfxJV6nHKklD0JKMm9okC96jIdG1EC+LKk0IHKhmCEG0ILhoOIjASv2kGKEOllyP9Y5NXqcnBykJTH8z6VExxJYFzV4orFUEovlDQdG2WFsCatRAPnTPY7aDYVT8yqwl1KBlTjTLCakDUsC5K/7fEUHBWayPWqKqRaojm7p/ZDbXAabiuqnRWiRNtLHkiUS9l5kDyqWRUjzLkkhjkOUNlsYAJQfkkhcrzyKanXLVJ7UVAJwUkQ7MWbrIqi7GAc+ltYM0pCbdLgT/2iXO+VBCKIrXaQFNIr+gLlqEB0yQdAQqB2Xd/9mW8AWC9le4nRZYUGPZyUnTypM0sH2t/vTwa570y6aYxbtVknHfbPc385/KlENmqVmxW6pBcHbhZRJbaSTXfDnTgJEEtjrU32rygjLsNz9yGEAB8QHW+Qi6Raga5mWRkBDk1iQGK53KuEEBBuVPEDVQTNhZXFUzImBYyeLD0IdxGsZet2LFkZR0IOFKgQLm948hxgSQTAlX40OW3B4o+dcICO6EA43qINyNOpkwSqbV7h9RlsiCswIXUdJQGYLwqhOPsagRFfVhJk+8CC6nR7R2cWyABpHV294dHuhs4NSnLiJNRPE364/xIt/tov11m+Xq3256WzHtmSTnIWQAcbbKK6AHHR27RUwczEwJzZZBzn8TTuqgmXfhX365CF+TmgAfBA4Bj4Dbo3kGciMsqFRr8KwjqtVu4SVnKQ0rWRlZl0cmmnWnZTphyzYZlNmG+rihaCR5m0llrR5nai77p+hCqcJsXbkOk0sNKCNZ1aRbcMmta1Il/pmIyllDuPp/EQqpx6yqXVgqoJXXA6OnAWGsylwYHtoRQc25ZUl06Akh59oI8dYqqpkDdxz+y0Hwzgq49Ume0fQxjK+VzhTSsxFNr3yp8tU5V+ZUBrHuuFBi9lWppxGECmgc8m7xNeCZRGTc9psuAVfDWDVfV+LFJtz5R2YoF4WCTF1IO2ikXCxzKgPOgE1b6XJ71gOhg8F3JrebNenZ1472SKjELjFqM7uh+rf5gXuKQgbYGqDGu+EXmHgzrElQryh02ecEMHrZYDTfnS3miKD4kczWWhV9vPPwS0MhX0qSDdLGTJBPpaQt/tTPKt9q4T8luNtoYTlyeY3bipPkwH07L6WQ66cfdBcx+G4TvZDaINY13s21XpyT4OhqtzcpThPbo8DytdlQTeUnMOvGAf6H2WVvWjVrRY3MRiyoL3w3KmqgKq01ipt9a1a6drOzJg6zEL8r4T4qvjzTx1/HlFWhGSipfKb1G1Ub1rjGhP0CkTYcJAsYdcxU5rJI3sC+N1s/riBtFaFVMa9sM0yRME+JI2byU/CjaSC6ueh1NxAKfgq4xWqM4ekWOBAWMKIw3++tRxuJhwv66QdItu0nSTweTfG1tfXeyxyaH0WTEDMrWxnp/mB1pp0NTCPF4OEcKZ496rTkkIFMP1Z6b5sy0Ikg5CFf0PtOgZqwbwiNIQ43LKp6ly6kyVyTLdnAZ6XJTTNl0mk41IdtFydv4UNNuUfa7vXYn3S+nw+lkvxgdiboMGKF3PCWhmmdyYqwhKqq0lmf3tJ1kZI+hEgWVY8iFFUjpo8mQa8vkw4V5KJpWjy8GlGjVlxvx6+0OW8ryYG1NuvTZllcrTbY+WwN9+vfTEliUQOhB6jRSQtM3KahBuvaZF2WGHIU0+8MieNzSfkM9FVCUnlJppfSZjoBOV5gWa7y69072EpyN2p0kUWW0OfBC3K2E2xLH6XGzt4Yr0QYm7SZFRly9gy2peHkS0nBjyJiiCSpVL8Gpi9cBtEak7smvkz8Zfpf4Us5WmAp5GlzSBK50UjVa1zWU+afJsNR8E/uhin7ObuHkzGS0t57edbGM+u29aDoqR2kvjcaDTbZ1FOl+tZixSILrAaluRRkRvVWk3QrmEFibea9xlSBVbYxbR1/hxxrZmxkDrhGF6RErryHdgqMNTV7j98ynuAYigTPtmemN+1jSM9Fqs1OGTCsl6LWNScoyZUZ4vhRi+o3zadw4sorMA5TY3I/3c28Lr9HlIHrULktcvUBnk/gD2Ff2gcuXEq/a8wQVVj1KIs9KoyWrvqzbsIMH7wZS6/meSt7eRWmaTPvcZC3QIQnKJvYQEm8tsCXoWHd9kE27rdZgNN1cW2/vjeNze9d1td6Vr6fnx7t71JDka2lXvpuFg6wtTfG+wJW+b2O9JAA9YPF2oJTDEFGzhtSl6FYnVmpcqx+Axm6FjlxuQ6LrqrxQmwCCsKO81THJJiM0nN7V5dllGrfYxp8whZfk/axo75EzTKNpq8ucVQf5Nn2VQJdjDreziBSIfqUEkVqrH+9MwLWCVFfUujS0Z9Zod7It36Ao6jxpv5zQcAuMjDgjlhYG0QMNYuzrEm7VpRYHLeqhuoBURTUFwnotBOfqICXXGp0HKbyaKVVzN9R4KXapUBWujnyCmtVo61/TLm6kRHUn4lYeE/OyNZT1aN1UAxY6iDtFWXU7ylVKjnYC6WWl4A2ENabqdyU9C3BP9/Yg/kAMkYB1VXwBQIOPHCkVdCvn42Bom6o6M7yhLJEmAHKasgvN3iEK7lQTmHigZxZR0wQ0C+Cz22CXHHjG4QzkUDGZsWWhMkoHsg5Z0ZwvVRlEiVKhsln1bajiqZlG1SgeCiAps4Blp8WOFsYaFvKYgbkwyR7bzJ/7pfftPzoo++1hkrUY6pL4/NveNbw02WIWYvm0VAOvtYGbb8m3ag+ZXQJN5UJ3GXkmw0dLTxoy4lhtHrXRG5TGmWVooYi3cYiE+la1QQDwiFdKfAZfdcMKkIUMYogRMl0yDolnQVl1VHGgIYQrWe5LCW3FoMDA4PNVFVJrL+dU8NZIjtYnWgOYR9y7Iu5FFnKv7i18GMFcRFaokRttZjM5MQozX2V9OJmqL8NCNTkRlqAy48ocKZOFLQaxErqbTDbW2pOofPLS7onn3Xnh7Nlh1tlor/3p1oXnHj9x+k8euPHYsc12d5hPR51kPx5ulf2GqZnxGvR/lmSxaUv7eGgXcxHMrLqSaH2ygg3aju8716kWcB24dWXzZJdPSJFjaYSS7hGuxE17JErEhPVTKXyOohiOk3GrO9xqZ0c2uzec2rzpxqOnbljb2kh3eMO12Nu5ePbxx0aPPpZevNDbnbSH+/lKQmea26TX5wWrFLO8Ts/U5u3UdhKRJEI6wnSZiDz0WG2tRT0kBq1eAS6elME6I8k2i6VGoAiFzNHTMKjHiboHCa3FHXmTvE/Hr3EJqFFNN54hnSjAcgxCvyR4vZZhhsjApEUr0Mh/wqeny5uCmkZSGh20PSemyb4yLuXVc/jyilfR2aBnCbWHTwp4mhU14wuo6j7kyTOaYZck8yCJaECExSYeKppBLyA192BmL3jbWsvxbvDtCiKf1+e3gYZkm1y+DOLFmprFyVu4XYS+Gpp2EOdlUpZYU1lqC6jaCmWrIVb/wqeahQsSc7aJtNMJD84FysdLe2vD9mTr+Xc+72/9tfKWW4SJN/nR4idO7/zT/333t9/ZOccTNes/9iZ0ZYqX1Cf01hxEGHEWIGoOBCFUuCb2dAtpEEb38G5ADHtNn2k2jxE+hw8MB2pQqasYjB3pMQMJP1Tn+JuErapugbaZfs8XWACbzzzU3UHJeLGVZyKYU+T1+tVpU1OIUc1OgQEemR1UEmZLfJOICIQbnSTCGOztpWw9T2oykTY9zjufefFYsn/+JTfc+/9+/203bBepdkTdUexEj1x6/Ov+x+yhi0emRZpk68f6F8tpOal7NW5J8NRUz/JA1Qz+KAkqgytgkUrrvEAgcnn5OjXIDQwK1Y/fWIJ0ck4JZ3kHYhKIVJ/ZTLgQRxfW+7e8+qW3fPnnR5/18ui6I2WrY52jjAdx2dNiXj/Kt8pR/OCZ0Y/83P0/+QvH7OyJA4hXJlQekOWbohJTe07pPNZAfvUsmow8e0xR23FiBUSSSAu6H6+Stot8ptv13ilxJS/L5GoysTo/fflEkgDNGhT+GqHbSQpX6KM7Y2V8agpt87GPUSsYdViQfqKodZL00nTy4EbDjxeborAOCzL3W2c5xIFtxsOtngzVlWeBggG1R3U7D+PGnGQvTaZEZIZVD041ghARAhNgoKGZNat7dexK4Vdjupo5euEcfFpskSw0OJkBk3m2enizqorJ9mEKEY0JglvtBj0QJKDg1HBTjYYgZyicbOQpr2Z3y+xsd6c/afeeyKJbbkI01D+Je13GhRtvWD+TbVzIJxtFXnA+jXBxNfsrbNSu7amN4ISRoP0Wy0J1PpaRTT7w1llgV2pAGdD61XuV9xub7bT5KtMGE4hW4TxAl0izHdBFMVvlICX0RF5Er6DtB/j6Fik2DI1LOoomvF8lCNUvbeRByBJapdY7yOCQHhX0XPGrv4MhY+h3oTFuWbaLCJxeHDRU5GUNm4DESw1MXFFbAWrWIKoQ4IwRK1BfqlL1bfiFYpeJCkp9tCjFVRunKpGIMHOZyCCVXc5wzvEmnLklA0eetbxe7IRgddEy4UQp+GJsHhf9OMn6rXT9oUl+66mk7Im1mFOUbshv2dx6dG+/l4/jtTLvdsbAZ+wfQp7U6D4cdNLWhFV85bj/VqmuRg8EQBWbC0QOQdVJ5taqWokkB2Eq3SLOp8/ZUJ21snFlMvJzYoK4xKqFhPYW65rLUduIaGXsR51jUTQYXyqOtovh8Ei+9fhouvWKl9z5fd998rnPKdMu9fLi4jCKNik6iEfrbLYvN8Zx0U0G8fr6bdFut7i5iPY7avCqMqvRL+xPb9xVUbhs2cQUvR4ymA2TB2fzSmxGA6hSe0MnmTDTD+8sq0oJtWcc+bBTin+amqZHW+9TQXV/zRWzw5eGYBKQCphMZTsd9CGMLJ7miZqTcjxisMcuZSMLk8qm3dYUKLNMhURlDeRoK9Lrn9DEghRm0aqr6XkNNft1sNn9U8bqhlsAXDkBsgA3u7VmNt5naatjlfU2phyK+RQizuBcAzuFK+hcKYe6TYMAHbOfe9SUUh2XPtCiIoL2hX+vcbl5ljpdUVgFH7S2JqPCWmuEbhES4qJCYBhe9Cu9wrBpElhGUcpp9KPb6sD2dMf4w1Zeq0BlzdNH40mAR9vrWdV1mB/fw9AkEvnIepgeijjaTv+5iFamnl2SljYzU26NBT0f/JzFKs1Nkmw55sQYgH5ZKlXjEd7M4d7hqZKuqSzkwIZLccszFOCiEDqRA8Rx70GQAlZxhyDiO2joy+AwVHpARh8EI0mCQnJut5MyF7vKkLeqirlWVBL3DS3kWhCu5SGIR9ngdyhH5LRVKU5n5Tx72uxqmbPbRsy5qOqXDOoqHMZvl8xLNVDURr+Z9FTxJunAchsqDlkLKdwyfC4gdhiutAfXeeIXYJ/+reN1Ip08NMZtBCO1GhUIk6Hp01xriigLQAXWmqjIDOkVprq5yFpKNFIImgQAI4erIOmMYfgNngsdy8svRTqfKJKeduF5VFfrriklcHJrLjvMilB4R1o2wqpC+bha1Kp2XnODElsbMXDPMQaj9FSw2YCuzqoR244MtT5uVkEoZS49xe4WL3JpCFroU3Hq0CymmlDNCZFcFeE/mfZEQhL+Ik5J2mrlLBZYc7tlMVxzF5VbGuoMyYEBob5N42K/KHBsOsM8znsPjgev/O++/cjXfll01x3MEVFxzqsbedlJ0wG63EdypHJGBKTCZ1G2o/Fa50IapaLK5j+NvEDC0mekoHGUARxi+JMQrH9StqZOaIgjdbqMYt4LGlV4c6uodQcJ0oIaASHT+pyTojks0oUVsArC4eprwOAJdlvnXY3fQNghkTUlcMgiVxFsQRpXEbOjcmlcqUyuOhlXC2FgBO0yJa0Qo2ouSa7Sv3kVBUi9nSx8E7PFXHzT7eEJw7Ew4Ia+mLtXmXfTdXV4e4gC0s2P43d6PF6h8Zvm9UBvUf+x2sRsiMt+zby0g/i9LhWxbhwAwORZoc4gMU9hgcJTAgARiphEFRFC3cisVwI3oarvN8t8QsXnfKlgrE1d5gb1pUw127gJEKRWJdZCRO0kxgNB8FomqLKIMXggZgeEGMQNbXg5Ckh/GRJy1CzLw5JKAeRtbgd3Y+5oqU6KoPrVrrR3EEvwQZRrbb8cL5mNcaJJraNVN1kWRD7cmSA0Qlt/krIZvzSVk6v0uuKZWAyhy2oZbqVBCQQ4PVzB4Yysgv+4pEMXD4QIGM+Fx5IW8tf8hBSEwZkM3Kz6hCoeb5hhQir0XSWanIJWVjKSLuHZyMegbAESOz5dYFodMx/IFWCVNPzxVK1hT6KAgZC2MlsqIel5UtK0q3l7AMiTaMknEB2KVq6hCiyGQPNcBjYanffycqfqEGf5ZB2W+8nOOF9bP/Ul925/61fv3XQj4lnj2LbJlDcZ++zgH2XRZD/aSouS4yAm5SRptdsbHPCVjSFv0Io22JpuflZFd40/qzz2+r7+hUrvCxSHd4TmEae+GiGsD4pljTCSHIxrg5TpmyANoEY598v0KwAcPjXVTJyfuaDppgCkBmrckm4pkj0F/LlZABBW63ko+ykVkViuvXANUkUnlaWVcmrKE71zDQ/Cg+YgymorApYISFQ7KGY9joRSl4+AUghqFfUauHdV59Ywy3B43bI7y4K9EL0kw+1VyHD6Zb6s83nViteOlE0uG08zXqvSwJhda94up2aBnaqA/TR7PHG4M7MGe7IHmoqWOGUYoEizWc0CTUTXdnzOl3JSXUV8nPD402DB2sAsnRUO7ccdcb/VtaoS8blB1j1jHvXyXrce/30NzpRAY6YV90JXcq3qWSji1UMG6c2rKV01nqDQ7ilbRJDSdUNUXU2JmpgdlSCtC0h5rIoKBuaWk2OjjBatVJDpZw1XVsY7PFEKIgHv7dLx2sskbh1cAEo0yKUqP0dJRdDH86dJT4jbfIbNTmhygqc1NELs+jd2JH9mL7wjsiokT4pzXrXMqpcJNMfZDDgYOheJuZapDrJqTbV2RBvoAz9gpZRUHfSS9oqGqU2aOU0zIBFlogYDZ7J7cRHq2DSm04jaEUYe+sx1adC5IcsCCKAcsQgPk1uGVoCwwzbYaWsybRUnr7v3b3zn+KYbz0fREZY7sVPdpFOOoodPj37rHY+9430PfvhDJy7tlmkn3Tp26p7PuO4Vd5e3nEz3RkWvm+9nmskLaGsa1PWWBVxGp0HZJj2JDo01huXvijRnXhmYSO5It0Nj9QWbKleCUUD49kODK8JFLaK1F19RMFtBQsOgU4RC/OPqYw9PPt57nTbdgqrZ41THJ3NAFs5viFyeW9fPy8M0c5t+fDNd7fkMQmijShueAaqnVzRM89tTuq0A2LwIT2WISNpogpWqWZB6o1fmerjWkYwIrlSelJKm1xYDFKpCHoYqcmx6bJaeX82gTga52rAgRubtpNEwX5s3EJNM3jvFaS2KecDZXQBQ2XlgrxS+JFiMtkRgBXlIrt2pUHyG8RMnVvlSLrVgrGUi60YNvGgUDzeHi4A2SMeqmOkGt5ZyABEqradeLYt4Y1ejI9BI35t1huZA8StJCAR4JNxqLFfwahSHC4ixp3HdkCS+TFeUbY80gVMVdQAcHE1ZCDggt8zlF6oI6qdxyOqnLGLXaGMDkemh+oNuEYn1+YAu3DpwSA+RJqeBqgpnAPp4RJryYf8Q9JsbwsKUeh/jsWaVvF0qwcjndkotQglkjUnixT51V0Zjcomz5MWkFHeoN1aSV3bVUnUuAEGrK3QH2Jc3YGOz2tLbwsTv9aulCLYJA6+JqIj3YO3uC3wirU5e+OUYm4WUummsBMSKcq9GgLwqU4zzlO/pbW/d+CWfG3/GHcjoVo7RKqMuMhqNPvrj/+GdP/ZT7SfOXZe1n5e3L5X78RqHqZ376PsfePfP/Md0s785nN42jM7UiwgLta8cO9UFq2B8yrMnhO85Wh/hUkmUjU1iBInJ9bVxyB3XGStWXst6jk9rrXKImWaUC6o2NYhQrd15Ut1VaFYNQpU/prq9zAz0UylWa861y/M1RSGqImNg/cxWpqThsqwyHebukG25CFTzUvY0i7oGo4FPUJ2vdmiRUykYhNjU3gY49RTNw4se6yRm8IkrpdZt6Jz1QM3o1JTNV619S40QbupxTfV6H3FsPqhSwqgK4J4AYfSwqiInuFmrFwlXB0B0Xr+nY5Pgw70Leje2oMZAxzUpyJ3SQzNSpYjtj2gw8AkSXTIv5VoS2A3tF7QnsBbaJqRUkUZzqPVNIZRVi1BRKZMNUYiObbs+OFl5dIvRUbstDA9Xqpa5lJS9oMEtuTQqnss9SLuytYLkwSl0eqjC6zWFqJ/FmfPw+oOaeERcgH3GY4VRwNpxV3NaMWu5lU9QQ4ZfaqBmsDkBpCsif8z0zxwzKKUbVN59reMaTmosoeHqhGv319pT5IWI02oWhahYmfI9bBboGFiRsZkeCVwqgWg0YQUcWzPJk8fDP+v6dbuSiV1hmzKvmjGTo7MhcUrs/G4pHKUR3cx1aJoqk6PyrVIQ0RaUgLZaMZVmiSQr0SvjKprURmZS5OJZM1KhZ1hu87JkHkjIKF4V4IfCbozImPDRYg7qKuIzW71XvP5Li26rPdE6Xm8tii7sn/nRn334R378uidOtzf7Pb7Syuuwvc5ommflXituryXlaH/n4mSaT8tWuqT7g1+VLwsuipDrEcm3ASyVryVmJh0oPliuKxcJmKixFbqMZn5JNikZJrUjTWqouM5JjVIk6HV1N8oAWu+o7MMcbIOspxUNTX/Y0vOkHrbU1YBzYTrBzfhS3KbaS3OWJy63nsthL5fqhF0O4mOcZ0+k1EnHxDIw7qhH1zRImKQoodIql5ue8xj4a1vRtL110af6Vc82hTeFwaS4ZPzq0pZRsmpVafU0Zt2noWOB1MvXB1/+vOf2B758sAi3Vv+MnoDN1ak5L0XWQiMGyh3YyxIn3VMUx3rZhB+JchxJMQAXfwVgphiL4aUCDZ9AkaYZ1CjuQe0XGrJOfOa/iGmppFzulcKatYUAhiKII4t0tbopuQiTrV6uRctTRffyHNl2C1aJYh7xdFMB62ZKn+VaCS4VL/wEuXkWSJxC0lVB0P46vcYw92voxBj/KYj+ofHymSygZNYolZC4DSMr6c6GNqeTbquioFYnr8AXKwK7YZ1Lv0ZuIKzUhiZ5TzavZ22vVSIytJpOFoYGNoONMI/KNlRpUczPuag4lyTxojhMIVFZvBb+OC8BZMpAdJjGSgsssY67TN1HtalS3/cjn8kskeDwZmQHNe7rjiRHxZ3jFog+sWLIAIOfZcHQLMlwa6p2t9YEpwHFkzjaKqKL2WR8/ZHoeTewJYsjIOwzPFH84Y88+HO/HD302PU3X/doMeDN0D2+IdBpszMqzaf9LNrKynGuNxA5yvOi1wl7DCUN0uyT0p43d61m4ODKgIN2Nd9j0kb/Ovh8nlwi4N2j1AtmzlYNxK89jurXGlwZ+mCfnCn0VJXWPUhSNStcCVqgcoWREA1t7pQlNXix+6d5kZJcUajpvKJCzxKwy+pZQn610FatebXQXSEedahGE7vBB0e1dVo9V7oXiKzUD4VmHqWxS7peQTls9RgiqVbtN4gMNF5OhkwLEevy0j05UZbpqHXTUMnV9dIbZmHWbY1ZM19Vrp7q8QvpyUK72G1MPBCmY7ZE42WDqLZAZAEQ3CFJjItbKsRSmCGhA5NtAuF5i5w5p2QB1zV8u4Rst93QHCKr6KcJaH9yscZhaNetyctlCowb1xCpAdTeQe4WESoXe0jn3uQ9cxEE4boo4GcUAp1EvEa/QocrI1X78wEpSEO2fVmonZkqT7cAmmQCI826QnVNZGKKrmOlNEKDobqrPCqErRaZJ4E7lxqojNoZSgS+EJyGkLiUjJD7MYs0qfI4jGhSQhLXPBB9VD1PDEqxZkJwp9MmokjEKWpMRwEnoyFLoNbQIQjuySAVRmmS1PW56rZqbvd5ljEuXAC7I0VEEym1EvrrPLgKFHSTQ0Ugp4hthzfdMvpX4V/x3py3t1rcp98q7qmI7+6N4qTfv+PVn8mqXh5nUDftQUD2nl/6xbN//tGbT20/0R5e3B0c3ehFvW53lyM8Y7xJDg5gjihLi0G7dTGfdPgIsvgSN/JIjAVSfP/TQTkAAO8ESZaCMOW3dUFk4nJw4ShXkitscLIzRU2vJakVAZ+uahN+hZ9W9dpUwCkMdJJCRVxMugIIjaKbT71wLbO/ija1phrx4xTsUUrW3pQSjZV5MU0z+zFPmD00kQ+MTYsK0szsPJiSn2ZASk4Av+pgjbBKgA2QKjrnSUGts2OYfWsmUWyRSf5g6VmKdzS/hlQr5v1OadyK1KrrzaU3m9UFK1QmKvXYWmb+LCQM1gjCNse3avmECO3G0RUVwc6kzFPNLZ/ocM+ALNgMg7SeQSvVo6ybPGWG9+NIZSRzcTNgkI7qMuOox3WEqVvWSQvMfKaBygPbQKKxfbKLB24ki1uthq8ykbS+o0I6Qc2oK+0ACMMECKegYkaLcVVfqi4YZnCA1/i8K24jx9jkecY8AeeuJ2kynSxonVQDeJWZhVnDOq+znBALehFSFFFnhHevo+ohsht25KG8BGF2YQIGDta5JXQTu9yCiulyoPN++B6Iq1vCAd9ICygWrnxKAJy4Azzxt7XVhMcMzl7iq2wFX+VJOz2QTnkHjlfevJH0sGPur4iUTmep5EmbsBiWIG42dOsbeWU3W4Mu5Mg7cMxuqL3I5Tj6puNsSOrLTFaglRtqQUcC0XvzuinjeKKDhKJJL/dHNJDSyTmOixNN+JBc0etproSNOJqMkgD9/CG+FSMZoC+akJevZTsGKDVlE7Y+fZzT8jnOBTRPaX6UDE8hJhFosZ3kHE1UPWQ1/SFxJb0NBM8YIb0HdZal2VI1izUmLg3Kq9sqOAwpCFoNxDQhBRCZhKsy/aLLnnEmycicgpL+EzMFV6Z2nnKtC/LHnA40mXZSFXbvThtk9lDrbtmeZDe86u4hh96WOsmpa8fFd976x1vbyelpduxi+1iy3bo0TNt7eZcPM1EuGqiPoQ0tYHUKiXEpQZrfgkq5hqT0UAukQzuCqm5rqdjjuvFuGfQqFwGAbjW08AbLGceB+ZOU3uOTeDVAwJLxU6m33SirbHFoFO2ruPqJ1UKVJR+8oUmxVHx2XntTaHD7+EzP5AKtBk5R0YvXzKkPqp4W0FoM+OQmwrrVKopVRR3Imt3Uif6rT71ejeDVUVFA5nFICynPJELXXlo8dMCFXH+o8MQ5qubRBCnZmzAilRSXCAIn+LoBqcTBI1SW7gLVrWU12K8kEPiuqpgJRmhDEIZlQbvqjBgHAIlHvF8eLLGyHfl4pQU1hM4BJkhmOldWMYJ6sdtlbui53JJuPVpXDWqi8anbEQpndFpc6F337ap5eEJg2SN2Re2Vox0KCsFwtfLpgoiq24DE4CucnEhe223v+WZaBOHtBXnerEARJV2nAxE0VKt9XTv4tfl1p8U5qOJsNBA2ajd4oipOMGxeS7W30t58rNSgYku9GNlSNe9uUwiLoe6sqHDqJuzJUdosAORBY5ydVOf0+4QcCLgVVRUhs4LEPH0u6cCNY/NrM3Oh7JJ5qSZ0Fa+5XSjMLYKljlANdJNWyegAInIZMjGuGkERt0scEzvXh6sbWPfqdDWBUkvVWRuYlct2GvnbcZJuRGWW8r4We0GKmE+/JTEfHYvOpaqU83g4b50BSUcsgkuGvmJfmE3WDcRXIboU5xw7daVLWaspoAQiZfoTZ0mCQEUYgBEeswrseSET4yKp8lG6nLf+pYs9ttPQanGXfSV8kQ7hoGR8uqfGOfuVTHP8ELmXwLG+pvEqL7ox3wkeU7GtZJWck4RLJC/B96pYi8ywHIipW9YwLt4CkuiY6DpZkJgka1GH6giUpn9iwvDl0nZnbGMzpUjXFU/LrF4xlZdL10ZlZFD0TNmwn3ZrfU98OEXqjVqVkwzBJUXWmpuGegEo2WycQVfOBfGacnJlOut7QyWaDLzSzypOmqHiFl9W8+baO11qXxJYOICylQwHA7n4icYgUPEgwel/SN5oQAoYMTcdahPwyYk1Go0L0aFUUSei+GQlAfeXBDBAVXZ+Z7KzG09yPCdOs8zTVpS3qY13HSuMKt0INUKSvNf5Y2sDwni0Sk1ezRwR4y3rqdJRixk7KiOqLBgCxUKKpz+Nq3FaUQVTEiPyUMuqlZAGt16Ly8ortVKBiqdR7aeLPH0JIHzvy08fxbKS3srkhMgyqCtOoyPIHlmPUDdDubTx1fuHbmVD7MFAv8qtqmjGq6TGz8yaqf9ScpbnegkmafLqEGRYwdfm8SD7ULI0OKnkuqEJtwCD3G89Cwks4CDfRiBBArM0YE5COmAeP0hegKmyGjIkS4lWFHGEskLG3wx9wKGI1wVwqDRke2LAE9KfjcicL1Xpy4F6KqnU6VAMcQQ5RN6i3KBXsIo62P6yGtZ+a7GC38rJw1WJ4KIZVKid8WSlNtROj4qbbEWCHaBMyrmCfbYanGx4UlU6kVz5LQZsttuirlhbJq1Y7NCoVXPv2IyKZ/ciamuFICKB1ePnZToSYOKFJyeJmekTc44oyMTTdJrpJG+mOoo0bqfMR2ELJtlYY3e7TJidiXhcSEvOmG3JT6It5JRpyPFxWxLT5IjOftSDF1ICXo5Va4uEhBkk3qvDWTOXh9klHDUc6MW+tlJu0gemjdI237LGvWMmyR8T8ZyGEI1PpLmwJIvKSa4d4hC8Md/+wOvzjXbgtVs3Bk6mhNBCUWHeuWkDGml61aAFTrnT0yNfMLLTtLlqH0+A8WHY2EHEAjbV8nwH0/HIJINEojMSNLlono7Bk+59RJGSD3TTCrQU5/PnPYpyppWOMDCUcqL0LYExosZzSmmnNB8PqEiNS558Re1eEokCNpLEhdfBLREmWWFVs49V1Vb95Mz5fGfQyvKSFT3m9Fq4alO8a01biQNQ4y6LGQ9UETqdM+C3XpNSHEB9WyWokiv+llTXUSIQ8+xID3iRgMtB/o0H+yWxurOIVPEQgVLUxn+woRuhFi9qLDheVco8AQ9Raiuo1QAoPTfBujwPUd+nKohEbL3gqgsgNHSILFbhDbiYWo2RB5KllkvDSvxLoVckomA8pZGJnVBnwQIqLndKZ91JSNJbppwtWDetesdh5edbrehBEKzyNT86pmVZwKaEZJopsGllaTPlWvPV8Rl4KKeIQ5JJPe4v6uQd9amqy4hTW1TSNLL6tQ30jf4OQLAYc6hX3IhBWYPFbOfCUYFToqhNijMlanEorL/bOCXv4gCaObRWUQUSpETiHNDqGwnw0MCOxpH7leJ82uFQlakmgsHiqjguEmmGCqMokesqKLfdDlRfKeNiQnD8KWiivmIee4dMD4aq3kaGVTcTGbUGmGOsaokeObRMPmBYWTYgssbL4jZby8vnCbNVRgAOwrhRtlHDFUcrdg6Uc8KgNQjZNcY5RSDqqZh748Y05gAKS9B2XU3lyHnlH66jsRhlfNxEaxjabd2K0jSPu6yUFWIZt0RFGNQpkU8mk+k0SdI09T6nTkLtjE/WEDg6UltNbeORkaGlM4Q0Gu0mLbmmjGNyc2gsXKx2q8wyWAtMLSe6TgWyA35Nm7HAChbsktw4GrzDvMlEE9jtNgTg2ZZxytpru5iMKU290Om1VHNXNslLUROgjpKSTIwRagm6RJKxxUVcYhABU9BqGmRwFlStwKbRoZP6rEy4hQaPQ6oJimKSvxUSBkUtgLspDQTLdBR+fIrAcOSZzmNlOc85+QmHGPOl/zIfSWtKB8x0doChyvH1fW7FKMRt9QrrpYgKjhU1BCpfSSvXVE17SUfiIVugWNBsjeWm0e5jaIhy8FcPDaZINdFQ7oqoviE2nDGulSRrT0sitkJeElItRf3IuXZnxSThgNJ4u1UJCd5KepKDVen1DXgE5u2m0rr1ZiQOPZSFWBK1l0spBwKTeDbjifI7ncA4qc4lRDrCAyU/aRO8dZawJ1E/iyHU69VYy6q6kP5M6/besgTLgootgWgmBS2qipkxDgB0VRs16PvqNzrFU4cWSA1J1+y9PCpjccUYiio2Q2CfHlulV6Wr2yXv8xocNoJfxEgACXdESHGE2ElLrGAEGfBb8XDx0Zlbn8SgPziF3kGEBKx0L6MK2wukEmuDYFHRsUr8TapqYFVu+BQJwXMdHuolU5k65ROpB0Q929Kbnbx5WVaYaoHIXHhcGExKRCoaKtjZDwCzm0PELo8nYNPGgkNgm4FoZK1dJfFs7epjHjx7rUtljeqheV4ZvzaaIiw1GEgYNkiUQPm12ty+h4pVtKEiVUWkmGVXLt8pSwdWRYvWgAapBgPJNFnb59mcQTXOktxWuHnxKeGzgJrcMBu9tJ1C1U874lQZS+LM8YgwW41CXNQrt8Zl6EPUsspgCr+ByQoUi0GTbTSwC8NFW4QzhqBuPGGwHN4uNGPR2ezmGYP3FA+Ij9a1W91yvdcqNLwD7/VCRtDaKaM7Xs4EF0euJoOxxMsXErXXio6p5So5WrhxlAKJmKnYWUbvYhqzSngSrQk+gDykFB+iLfdgqEGf9Twt71EjMBARTRM28XkQkdbu3twuz6AFeEj+dMVqlx/xMlMwuRrSF7QIoSE6WMLFxgVhYVTTPlWXQx1msyd1+ox+Uyv1ZtEjyRGkqGZS0TKTvwEJAJ/LJNwzxzNKaBBKakKKaUHc+ikb+nJ0UFV2cH+0V5B9aHm+Ll+HviCnBwey0EGihMoDEhfSFO8XQDLfyFt77TZOmtw/OVIWOLG0p2deKT8bB7SeKCebVrtcYynTlMGRcHV83gE91yuo+LXWr3LhuX7GJRoweMRTDKQioNmOTeBmWeIgEqS3vqgzhZfRULLjAor2sCrVH8jyUqR7LQhJKSCxmhCfR5r1fnLHTZDLWJxvqZVgy4p+MqdJoRRQIK6mPvjn6nrcofBMyruO8TjojzeYZSClqU8VXCcdSppqoUpcuK0yZz+u0gAHzfeo48HmSMmtTaGR/lgDzjB4LFgQR1RZDbFnUXVllXUp8DAm81UPUm4lgahktIhb9/TBheSKkprBhVysEylQpbUU+q+oF4imZKx3V6J3MM0mLIbAKRGVcSEYGdXNYgndO1jIWbgN6SHylAAOWa9y2Z1kWQcnzu9C24NU6TWM/7ojZW7J5QTtwGgkjeFtL0lVvVp7ZaSTdaCK2Y0lNuslTlozxcut6xECDWBylvWsqJNzAHSLHc3n+7hxZSdpdbSvPR9rBCtwLHiRnIKmR47gaV5XYfCR3pG66IhDthwUU3qRSoq4lSqsqt7mHKTXcKEpCDZT27DCjjDaI2GLNjUlyZQZqbi1z66p/Yv9tLvd7XFK5XQ0ZBKJj4eMmPPgW5JWCc4wbofTQKWM52Swo7ytbd0tVuMY/idlfmqwzkxJxnZpKNCmbnblT0lJtY//UMG7x2g8Zswn3tM0Oa/086J+Ns6n2x1tXWMVVt+uTZJexPnlUWtS7viYidLj76o1JWDEZlYDNJKYa5F79Xp+oZ/VumTAtTQlNk1f8Qfr/sdcjqjXyqWmOcwQ2QBsyQsNwS2+jYlLZVRQey+tI1glDq9mrU0J7iwf7pVLinM41KQ53h4+rVactc1Jq87M8GXsXWeNNuVlAq8Y9OoeGBV7k84SVR+BmnTrHgxPBbCTIi7UR/tf5WOTy1Sr0uOE1wQ6RdmP0ynfM2VizL5JLDTzQbzX3Sw8qgqkZkS5ePCCEf4ZsLUmD7W0F5luExd7bFVIDYemCSv/LxuCJKsmqJ+euMWJp07zh8zTY/gAnQCEXJiJC8YahhVY34Wq/qV1GQFT/rK1f2pmVqK+2szTLE3MzfjBqtR8VxLU5lcSmrUHwhQJaDyiZ1XMRaXPlobKoGoYF5SrmkOotEnlZUWBV2xZkOdlQQTb0KnIXKggPN39lbn8qrioCsGBYapyeyoahFmJeksjwM5H5tM1u+HDsUGBVs6WwdCtifu4Rt1ESEE6IPe+rLo0fszhdzvQ5NElbwTOQTZvHA+SrNwpyuuhVq3j46NXTZEmZm5NAuJawCZeT/RKF4DJWhoceGnWUyYulJ2bl2pKpgkXxAd2pbvtkudIzJjBEmujR0X/gogp5e3hIwEYfBpBEVctNZP9M/IRoiqS+oki/vPHXE4lNkRdz2qSAmZb5pA+H7uYZp32qJcOGJ8Y7pn+YCgpo0eOjVqjrDeebJXJRpx2mauJCzwqvQZWt4HVfJUvgX7wNmXo1UAwfLlkiAOw4HcjTcdgOg2v8hnUWUS0VD1mfxhvrZXlpIjhd9xrjTrRtJMeS44O9vZHk+GxpNtNe9l0nOE+MkJLnDau2HMAaL2lmCNh6O/wtnxU8jXcQTserbUm3c6TOyzDtdmuz7RSOR3z3iPOGG/LEQJtulkdHL+WXUp2yicTpmXiaJjGk/VO3u2vnS2mrWjCBu2y6CXtDVyOcVGOxmvHW1mW4WbgPNHWYteCuro6uSkefQ+ZSRyakCPMqJCoJE8ETCrlZTWUhEOIY4MrIlUSkEqLGYesjWsldoOpsjFPQimzQotZ1Trxs545spaCRgCgJGP11fY95a002sCf73CiEw8bHU0aQTXrAzioI2YK2UWGWwV7FGSZ0+0HL2ziAZASAnNb4pA0McHGrzZx2kHE1zZPEiKNrsWjtDbvd+jbNoOlZd6AqhmBFB8MSAQEKbgGIk5PsQokWs9V/dYWRkvpjpQgDV5CXFaP6DKyQ6bDNym5fBwJ+bw1TSWlNWopgsGhRu1cq/VZk3s1kUplslOOqZIgwwAvX9UnVe4qOYeGeJa4VYtL9uqeRAIZIbJQ70Hb6ACOZwFYt3JulgRae0lqgwByAw2KLAjCHClhkIGpxnP1TimarJ7OYULTzGp66YrCFSciCcZEIZwWqJQUs2O6D7l6PmbHgonLIcNVRbTBcp7ykF0jcb4cYcDfgFJd3j2bPYhnZhLVP2VI7FoJxWXBQ7QnytqEDk6E4NdmFbyE7WQ0E4kvby2zyU4q+FzE4lNB0lZ15tsidU9fsIqMDqE6cWfBiuuiu3DzzCKrMC2kr/Sl5mo3QpWC3OU1VkRay5lyEDPWBULMH3IbKJCmATeSLLpAjactAs3fUwQhhjS1sZFHqz98x/Xrt99w9GV3X/+S53ZuuWHc706yKYtdz3/gA/sf+ui5d71/94GHhxcG6URdAn/MfLmF/hQQP1sRyaEW4OXrCMJRRDy6iDVPwA189+LOhHfbeG+xv3bs9ptOvOj5p1764q1brsfn+tAv/MqfvuX3WnujbflIHRwSdqJrrxDFGmMexAiVtjFNRgUOaFpcd/To3XecvPeezefetnvnbWucMnDm/PB9f3bmbe8evPcD6enzpAyqbVeXJ3+W2+512QVdsKsd73azd+K2U0eff/vmrdfnL3pJa6tfbGp/djLM8tMXL33oYY5H2v6134NlSJuy9GgdhjgRbQ6z5qbjwQVxzbGzRYzi1t/MWFS64YYDQCGXxcC90OzG7LB7I9Arqmit9dZ1IsgfT5KC8saoUbiQmeLBRgRI6kYhtaLZaZcnjmy/4HnHXv6Zmy+8qzhxdJxy5nhc7uwNP/Lo2T95/84f/+n4zx/mts/e/qSLgaYgvjK9y5Yjdcf/KojKalIKKyH9QYmMSkTRMidB0kAeZoZEG3MzHDUoMDZqVZRaa1ed12Bq9F7M2VaaxQzQho9aZ6iW7m+ZJlLFBGXSsIgAhGBFuHzuikKzZCr10dJ1WNhM9IpYfAZqeiJrbMHqhbDqtgn2yRo3lakUdZHHuo2C3i4CPDv3Xp3rQKjab5+dCpdjlWRqCSyFkIF1Lbe9IqbqdE26o3ql9mtjiAyDo3pKhAtglCWFGoLrR4oSl+pnbW2cVAp67+R2NgrOa/byfVc8+VnXdBvlPQgkRILvRRzkTbTm4jQ6kThZ2cdVuhYsgIRavCttQlMIACNf5tRDsbr48l/HrxpXFGgQMIehSeRcxoqbVXgWwLUtNiThFwc+kK9XaU96WnQBzEWCfL0Iw5xFuKo63XBNEvZ0SxXZsas0NY1BUIxFiQlWvlOkE3YyFdkkYpcxhr56IkBF8ZTYf7yeoLH5WB8hE0n+tMmUBrKGku28PB2Pt9fWW+eH/bWts1F56ZaTn/EtX33rN31Bp7dOdTpVSgcrtXp4D0lavvil/STqMoEx2L/0pl9/9Aff1Dt9NisHJ6bFhelk1G2Np/mJznoyGk/b0U4r4y2oNO8wLvWL4lJn3M3a8c3PueP3fmQwnmxm3Yvd9pFy+ujffePgTb/CFEHG+plOS9JsmUlDF5d+v2wNYrBx0E5ZXn/jrX/wg53x5l672y8nvFn4wN/5X8c/+2sc9cNbXtpWU7Y5RHFt3J6m7W6ZjfJRj2W3O55316//wPmi2OaFsGzU3i4f/PbvPfv7f7A+YIzs8eLbZHN783Ne8bxvfv3Ga180iNttZkQ4uihaK37h7ScvxlsJZxuMdqJiVKYv/IqvOPa939WZJHmvv5MmW53Bn9/7l/ce+8h65+haHo/z9v7NN5/8r7/ihtf/xfKGI/gd+2h2MU6KbnR71Hnta45/R3Hyow8/+q9+fPKf3p7vPX70uuOXLlzc75XHcr2+8Eg/OrUXb8fR+W5rNBpd39nc2d8tT67vXDr3nPbG7oVhvrmR3Xbz9pfdd/wrXxfddVPCCtWE+SHebiuSju0xZ1d7mWx/YXSMmZ83jgZvfffjP/HmyS/9/jaeRbvsDIZ7J7oZ3ljVXRGXXA3fw4RrnbJ5jOkYAroUs0tMazuoVhzh1ND9OSaAgzLY8KOjInDsQsBHk96aSteuVJUJX96OXa0U1SV89lCDeKu/l4w5gQMXKSrSadlrrT+xt59tbfXueP4df+uvtP6rLxhF7XV/fQ9HLNbrlukk6b88Ov61X7UdRZsXzn703/7UxZ/+za2Lj7PGPeiUe0z7leX6mHcG2rudaCtvD0Z762m6OZ6eu/eu5/3sG0+30vVJfy2aXiomvc11WDLdsc1Ccaf7shfc9b6fzqbt9W4vH+dJxrxYmsUZ3+9rF51L1P/4Y0983htOxsVplgGLdhoexGvm/Fcb8+owE5UMguTPf3XD2vCro9fA/MrU1/a0KmvZSFIOnZnXYLsb5RR1UZmkK/voXUoL2+r7nKrBwVi0K/tWaEu6HrB6lYFcbBcy1KtXNsPHtWWzhkxL0XZqSk5F8QESKqyO+g6i7F4kPCvBtaiJ2kVUi7CZo/iqeUSXZ1DLEJm1VgMTTAtV3RaNnCXRikIchkYI5HGgXZVcc1K3uOYy6jRg+FNOsIQVWF26Gjgs1ckTWlo2jDpVNdUPZj/w2MzRxPSygA325JqkADQHT5cP0wFL4bVHykoYXeiba2POZkbpDsqmXLFh4kUBK/xkWUrljvTZc2KTWsZGlcVQwTE2LlF3bqBWge27M+cqUK4I6wZCi32jnG8Ftgpz+gGoLNS/uklrOXhWuIaRviK3KkoLKsGq5OGRtwAAQABJREFUEKyYNHTaiEXfMLGqndWOQu3N5VeNfDM8Ki5WpAMC5z/5DuHdLXQ1CuXqvwoO4frGVhyXJzSRDXJxbVXwTrI90Go6yi2/2klZWrswPMJGMBLIqxi1FENhuV6rKrVJGUjy4qvsEiKwchWYx7k6VeDxlLmNL0oMbULc9ICkUPjyERHnojfiQlekPCIIHtjlkTRznUO1h6UieSMwPh9Nblw/yixGurFxvpve8d983Yu+7avjpFumjDLsLmdEkt3eHwy6LHKxfxrh81jB8NHvr3/DF37GX/7s4qfe/If/+sfKvfOnjh7P93e7m5tnd3aOsvrHgVS0OZyYLJwYyPCwtrYWtTu9DodYsVdFh1WhD861A3icUh5heoLDGNmvQgr7rzvtXlJ0+h1OKeBtOJ2ZVC9goRAK2A5XNRrJETrAdm+jxcRFd204vbC+uXF6MOn3jj68Oxo8/8bX/e3vTL/4L+ibddNWZ8JSUqvoRaMpG5SyvNNio1Oe6dDKtW6/0087m5t6R75MNtnAnk87cXp88+hu2RrulK0vfvlz/9Zf7b3knjJvs6GJ5Rv8Mj5NoheCIX7axiNt33rLnf/8u8+86Bcf+3f/9+jPzx4/upWUWcHMX9o+wWpSO9vjgAZOser3cKbX+/39ncmJzROPXDyfbJ267eu/dPP195UvuzuL2hwFiRNFOJe2Gc97EX/mcjNIshiJ19PurH/Wvc994QvL7/yad/+dN3b+6IPDWzf3Lp7vtQSIOkm89VUptdJ6JFxdWwC4TAhlDcYVrQIPWSFCBlVzNZ0sd9aLjd7a7mifTeUbvd5Dpy8df+0rb/qGL+q8/nVxqnU9yJUF0SMB++spOcW1o6VwsJhyS44eufXvfdttf/0rz/3gT7zvx/7TrXmajUa97X7CDB5LnJNoxENBkk9Yo0TbkFTUPdLe6LB3vyiPSYLIgEp4YNESGAulrfZ6u7/Bbi59c7Cr5T6BsKspH0V5ZzPpTfHSWWBPpuycG+u0EADolzJ7bhcqzq/hH+RpW2Kx1/BWaYJHMMGyqWaClAJzxJl1RfAasK3ANczaIUmDKYcMkUMWvDyY96nLwzxLud6nliK/Ih4PCXxIsKX0XFEifIm1qrlmRbHqSq8D9DhJPvNdJ89+NcOAPkuHq1VM4MEg22JjrkBDRNEZcoaomUNxkJRZJdaVatXyZKeKuCKGsl6FnOFXrt25AfEioaBT4rdGvygQL416ryiKuyOu6wBrMEhoVuS3gQbLX8Kdp1/RtVkL+M2AzhDM+1LiEkppJTWVpGN+hft+s0IrYk3qJTI3aqDRbluJoCnuFTjmkv3pwOVFWacI29/qpLvjadpbH956/cv+/nd07nv1pNWbJGWPB09ebcNlZQtzEm311+RGTfJBp51lk622PIO97sao273u277ss+5+3jv/0fd9+H0fubm7uc9DfK/DrMVoMmHGhIo0wWE+kDPFlaDvJcnnxrnQkUikhGa1fJiugj+Zgce1V2X9EVtXfVO25J1C7QTCzdL5Akxstmvv20tJVrQCVVCX7fqY4nvFG3gb/bj32N5+/9UvefkP/i/p8ROQjcuWMlTzEhcthyfUwYkqx+2COTq2QqmyvOBYBHU+PRMxuKpB6GXjQXGu25p8wUs//wf+8WBj7WKRH03Yso/fFo3Ho2mUbrRb+5cubR3dZlNaxkFUG8XRN7z+luz8Y//iJ9nUznHy46QcJtOTk/QC/ZwpABaU+v2d0fholK6PmGjJs1tuvOu7/vrmV3/JeCMdlew2LzrQ2C5GUbLOK4dQjxDNtSo75S4bgcpoc5oMuq30uq3pqbvveeN3P/5PfviJd787aXPiqukkMtYxV3rK8o7kwufqzUGkboflv5KwG4j6uhwupNYIKahaUA/pcjzG+ZlOOFS8lUU7WbT5WS97zvd8a/w5L94ve332lo2iYZ/10LiXIm7WladMq1zIh710M8X5RVdzJv/GxclTx//mt7/i5tsf/6Gf23jgweHpC62TRy7sXzi2cSTK5GSzVetinE11ngUP8ClCNvcpRWYl51PILvEWBRZTEzb43LwFKfYwzCZVnmOjTgdpaeKG3WhRfnE0am+s4ZqpqD3CescM7Lp8wu1Vj6zCv7ThSGQyESPAL+896Fe6q3M7YEctXaGzpzVxpKYhAGpx74JXnYlPKoSrWsSZ9F72zBleVctTdNcDFS/VE6Dml6cOFLs2EkS8jvFXqBg3jeWW3ZyWfOBSj31YAN8AoLHUZ2YasIj3oGTUC+pwMLfO0e/BXH9c8dl6cjUl0Ah0Q3oa3hVVqOqa9oBHiQavDlnnkuD+UCOhgfQQUYpDScDZZLBZ2pRtiUCaMAtxK7KQZrc1rc6ag3F19kKpeV9K2bCvViLCncZcEmpcy+pZklZJ0OQrJ6JRHGoad0vKNpOcdASnMZRi3BPwGaLk8Z2d9Zfc/fJ/8J3J572K46NZutrvFpO0ZMDZAHg4KS9eOH/+dNyNj11/XX/SjzbWR1MWelos9qVRei7tHv3cl937D/7mO//FD44/8GQ8Hm+utfIxx3yzIYbX4rTV1xYWqzqtYlIkGxu92AwsPkiXx+NCaozQzoVmnjQnptDgqylQm8bWgCYYBI7gm/LB3WIpi8S2jtOMOjDAyQXd9e3PfM6L/un3DE7dpIbShiG0leVSThRg0EyO8hJeMdkfT/hE2ybHNXFiI9WrGfJLUb4Nxfhenc5kmpwbjtde/uJ7/80/i3vr6xkLUnmxVu6lEsNGt8sqyk6cdY5vs96H+9VjDONluzy6+Vu+tnznR3d/8bfW0iLr6/00zlTAgW13EB0Hc04GUd6bFMc7W4+m2d3f+vXtb/4K9pF3h1E3xSFrTfDV5Dvur03j7NHTxe5QHzc4fiy+bmsjZVVUS3RI9ELMymbUfukLb/2fvvnxb/7A9qXpPnM9OItSIfy9WZDs6kDqnLBnUMtjlAsZUBXizYjDkEvEYTylMxwNN7q7w/HJ7vHolhuf931/u7znzmHUWteRsR3+cRAHbZLs7UVndvrnLzBdevTWU8V6Meh0Ommfw642J+u0zWT9xPq3fNWN7fTxf/ZDR86dvVhMe8e31i4hs5zdbrtxOWKFutuNeH+iy/44fRwHPyxmM+AaG63orZn8rDh6LIqOTif9Tms/mmidusUbgvpaTFcTVW1cq9Yw6232y0v77OhKCj54POO9yW9Tts30VWarCXOYuHWdJYDqGAjZrmTLetMhzBBrGVWruhhuFk6EgG7h1BOnlLecPwT6fJwqwP8iw+AgfmEwWELBtZ3U1NU5Slfo7RxM46aeXWgkWTSsAS1mrLj3dvRWcJBmfEWhJcl16y3JuqKklfJZheUK5bYKzar0VXxV7xE3isl8a22ukdSI4nl5Dspvx/DRUNVTpKCapYwjTGSj9Cx6+faF2oMCJAVcNLT+DC0Rr1vejD3CcaseN19p4F0RmyagINR7WSLcXmnwEqrU8AR3KlAeIgGzk+G0NeMB4DAR95mA9KF/gdOAYc6X4rm2ahibl5IZo37CCr7dbw24QiQInYhWjK0xJHjEXUuQrBBCYsDgkfr8WW17QXxuMvmNstbm9Tfe/G1fWXzeq9o5b4XpOymbGk3GrTMX9n/1bY/9/K9P3/NgfzRMy+Lhcnr2c+69877P3vq6Lx0f2eLYzvZwdKzbB1v0eS97yc433//3v/8Eq017Q6qY9toDTcooQF7FvrFAil4Bw21geofvkJhcXcquH1Zo+QURaqKLoCt0SqAm2aqZVJfwmy9lygccefwhZG3H6ybsfMGDY8Xm7Hbv89/wDdndd+ioJN7Xn3CqOHuN+GxZ2R3yzdtuub9znC/AbK+3hqw/jTlKi17S0td0aG72mcctfKtuMcQzuOnUy7/1G4sjx/UeLa+arXE6wf4234r7yJn4o08m0X7/ppvKu24r05RlLBFNwaycrB+59Wu+/MHfe08+2uEdv+6UBonTLAVBN2pdxD9b5yzvZK8V3fS6z+1/4+v3i3gdz4LHLjYndZL2hQvx/X/20K/+VvmLv5WP8aziYZ5dTKPu829+zutee/wLPjt66T2bzFfxkRmkQP4r77nru75u7x/9mPa862GoEtpM1hLeLMx36ln61Y1ByUbCrq+4TDfOdtJ7//Hfnt5z+27UOjIsBmvJoMyOMev20SfO/vxbHvi1t8aPnt4aTDPmBo9tpi+5885v+Mvpfa8ZMUnXZcqINxuLJ9ba13/Tlx5/5Iknf/hn2dXX6aWjbBB1eOVUn5xZT9LWub3ozW8rjmxno4yTPdJJvBMn2/e9Zryt4021Iy+Jbpru7r757fiiU2ZpUZo8yrrplJYZo0nsnGrvnv7QFnvjuh2UgHkx9FZtaqqONl5d+VwNbNZlhEgWyEYIPXW4EpCqlRLzveBA9oHuxXYSgs9XuVa4O0XevJII+tPhE0ECtOc1qZyHkp0UtAZ0I48a+rjmt1WmQdWjb12g/hUG114sn96+4MaxLup0o7a68KF/5+ixUiFFEaOQbki8osVooD9ClD+laGybX74U+5BsLaiIu1NG+9zT8KGJBFB45MPJLSOuEERMlAoPDABLE63k1bzM+VJepejTBInI4rH6imyQYwgG2p2McNtg+VA8uFBoCGZveBhl4Q4zSUm+XZp88auv+4a/hCsfMU70on19jCTvvu3+9/74mz7y679/a9Y6ETPDsb/bmRYb6bG3v+ext//p6bf+lzv+7rf1PvMFeb/HM3o5jh/vda7/gtfc+K73PPGjP3djlrOr6ALrVGaN0Qk/MQsajAxZaZlzMvjlOHF+6gDXRA1MQgtxHT6pMxOlbhW0/+JRmfaZuIRFETAYTmTOYQCkeCBXyzEMHKjtpDzfjm/9qi+K7nvN6ai4YazTGDkPig1c8enzp//wjy+8/U8HDzzyvunD2/c/fISt+z1Oc+yyFVHnYbI/JuIre0yVCRm1DdrJ9iteGn3h5+qbsb1yxHg0Pp/89nv+7F//9N4HHx2kxZGdvcmxI72X3/PC7/7rnbtvvcRCIu/4p/pYX/Tal6YvuCN773u4KSblZK1gNZDz1cu1Vjye9ov+uFV8uF9+7l/5inKrv84m4TTaK/NN5rd29h/+/h998mfefP2l0emtSVRMcBQo28ny/fd+8MMPPnT653/1zv/5e+K/+JoW7hfHkrbLnWl+9Ctf9/5/+zNbg72q89TSluyeWUDIT4kgwIQIRaAkK+OtLD2dJi/8jm+MX33XMOq0JmPOIt3JB6fYvfaf3/7gP/vh+I/ef1OvM+FAiCI+gVvz6Pn43OCDb39/gh//N94QPf/2i1FrO+bA+vJs3Dvxhq86/aGPTn/+LWuD8WCLaU2NInysuzMeDd71/nf9+SPMMvFC5jTeT8fp7rETr+j2uq+7l4MraED8h+6vvvPJ7/0/zjEjuzntjiedcTxe648nOWe6TpNeN+kNu5PrH340PtXnQPRxO9qsH1SbfMGad9glYqmUeEnOFSWtevYAPY0BMVU99EQ9soRHORlyTUeRb3O4suOyquqaBG9IL64EwNF12tfRXBGJHxPgBbHP6qz4nyVc3dhC+wYy5FwvC4h7oYhDOZlNYj0uG30lwS3nZUo8JUBddlVfbtJYwz77v0GwC1Vp1l0sHaSqST/xCkDPD+oX9h6yhhM5EiBvzj95XRXOerRZqPdKb2fDt53X4DrASMJGFVFgVNH7lG41QmVFRtP91fZNaQRc21CoSSyCXjhqjKGW9hQX9XsDMQNQuVNeJtTLbTMeMJLoWuS5If0wkaDPFYa6zEJ3mfel1EKyQT5VLgeAmknS0LsszCcD6ZX51b1sbwDNKuOZVbohTVqGbiHNdxjhOWmbEuLjlSXn6txW/7P+3huGLDix+LFWXorLtfFud3fy4Pe8cfDwI6cG4/7aGq8LRrxsH092B4PNJD8y7V783Xe8fzi+55/89/FLnssun063dSRq81LUzd/xtRf+8B3D+x/opwknKGy1NkYFC00iMdAJZ2gwc0KQKKZtACYNjlAJp1uCqot43DuDI6lQScmstQ3YHDNyEM4MD0i0aMbgaM/dCJBsTs7s8BIDX6y9+/bbv+6Lyl56HM9S3lIUXTz/gZ/7hQ/8zC91Hr6w3uqdPn++dSy5fj/q99f2dHKT18fbgjo0cg1cHIrW05nvyfHtO/7SfZMNbaEvJtnaubMP/fufPv/jv3zj2WGvzHZ78fFs0noyf/KX3vqOJ8+88vv/fv/5t+9rGbHFEQvRdr/z2S8eve89nawcdRJ9MwWvpxUPE97LSzvDCe+i9V/y/OhlLzgftY5Pxrw5iB9VTAanv+/f7b/pV05A5GZnbX/K6ZVpVxNv7K7utzrD8aQ4c+mD/+jf3PNZz4+OnOC4cHaT9dqbybEyve/l8S/9tovaJVaJ1FvEM+yKaC+vX6Eg4HVLefmqKRvIaox1UhOeKanT2fTol3xe/2u+aNjqcdwXe/Jo9OvZW/brv/Phf/lj5dvffePR7WG/9cTgYmut9/hg/+brjkYX9k+ezfd/9Q8ey9Mb/s5fO3LX9WyJ2yxbO3j/x69/3v/whnf8wXu2d3cmrbE8fvpiGvXXuuvjyd65M5us0/W742K/u8/GNyYrMXJskdJH6PRa4/VHs+GoHA7itaibT3uchZDnvSJZG+6O4nEnH1/oZMe3+ntrSTmIp/o0tr7VczA0eZzLvbxY50Avd7MS/0IhjRkyFHYUht6CkGPF+i7mXH1PY4ua0hTcbQtXIOSA2TiDn8+TsnqrU76ieReq/VS4RW6HbQXa4CrJbVWN9RB5WMGvxHOYUeWwlVxNOKTtM6aO1Jan0UjTXktaxpH8V9ScoNFTB+Ppjm7OTkg2Dqp85VoIZr6JlgtCnWVZWFa74awHdOGnE+lEZGHQsMWsNynmUYksizs5oRaKKMe6JJAsaahj1uqE1XJvjMT6mQ6opwhgcx4UMeeMAgs+jaMwpiqH5CmQ1tmB8jqh+vUaQ6KDcbWxPCQvJ8MEZ+JbJeUZgkasSUrT+2qmA75w20CwEJW6QIVkpt6sP8YOEu/8xi+Pkz7DyIgxn/sy68St9333vxg/+Mg2X4xZWx8m+e50Mh1O+4PWndMj0052aWMcrxW79//xn/2fPxU9doEPme2V2dqAyZhWecP2c7/kL1xq5fvMB7E/aU9rXxC5QCei4F1aRINNl6tjAd0ieNypb8bDm3ooX+BNTHFrM1xSSmPSryAVwwR4kpfGeKFt57z0xQP6KIoG7fL2L/rsycmtQZz3htF4q33xbe/+/W//3j//hz989KEnk+lgb3DmlqObN2Sto3wOmJMexhnzUOza1jikYVdIeYOPzTbg3rr+VPe+v3CeZTR29+yN3v8vf+TMv3nTqfN7w94oP9bqx9OPHBsO08Gtcbv3/oceetMvs1Z0hPfBJpPWiI6RHH3ti3Se+iRj5q+fpGxHi7vpoMjZC9TmO4Fp9+7Pf220xluLCXufmZdJokH82LkP/MpvbO7vrx1tP9o+10nXO2ubk1bnUja9NEGm7K/uloOy/8ijH/znP6QPN3e0hwDGeX3y+jvulGAskBDkRkQSsxCEfPhIXVS/C6VCykEYUqi3g99yw9EjX/jq+MRRynaZJdUxD1l05vQf/vufvXj/e7ZvPPqR/vDh7MLJ9Y3jo+i6tfW9cnRhYxpttDez7LG3/u4DP/EmzW5xkD1vTZhxKW+/7eTnvvJ8UqwN860i3eIYwCwf8IVClqvX4nw7vtTb21kfZZt51s2QFivALEm3i6RXxIMkusB7DO2Upb2s3eLc0yFCTJJL/dFgvSjX2aTGlm1OAZnwFsB6VuukzfUu8H5N3Vpbs+MALVbAtqDHJFq6Ujzu7UWcUcdDABDQtRqcbKgLkWeb0qcnFi/F1SNXkUjHefB6sIqrXvXBKq5iSmhQIoHypWx6LjOuc3/2LTRNw9pg7t1VI6F5D9wGVKQE/KHSq8II2AJCeUJ1cBpCFaF2T6nYMZV2gpvwDG3NEGZYmomXiQczvYCHIoHUULyZ4rSHrKcRcYF7wSZmT+GlH7WR+5j2SexZFbDsrchOZS+Jd022Swe8CdMetZY0pYm9xuxVHqSm6fEMJD99g6RMeTt8kmQZn9AgQSOInqu9VhsW3UmVI9Eqxvvd9bVyjS+hDFp7R/emad575Majt/zVL4+Obvbz1oj39ovJGssnP/mbO2+/f5PTsjSwcjQVb/TzWRKsb7zHnEvU5/28jaJ7PC36v/O24ZtuSP7GX90se9N+tM1kTdnqftNXtH76P2ePnj3KPupkMCl4dZwRnHcmeO0MXWbhhtfu2PkNZs3isMaHaHDOmSrjJa0m786Ii0vTS5oS1QKMzfiptRGMOYkMB0VLcuKwWMCQY6GvuEQJcwVsXuKcReai+EYxg+wobXV4w7A3XcO1uOM2zg3gmXyyFvV+9lff+wP/1/CDH91aXxuPh+2U75Qkl7J9Ni2d7SO+nO/ntNnaBf8p27vTMctA7ZSvi+TjAd89jr/rm6LexlYU9fcvvfdf/m/Dt/z+sXbrYsYh6mkyiHpZ50jvSDncfeJEe3N/MvjFtxb/7dePjp7UFh5eLmQF9GUvYONUOZxs7iTDltb4itFofaPFXMAoap1Lk+fd++KJTo2KzrTZRxVvlu1Hfu0tcZbx0cT2OOp2Njgey/Qp6nd4K60cFwNNroAmKjZ+4+3di6O9I9oSxn/egVt/0T0URILcIXDzaf1OUkXEesxBYiZjPQtZs/gWNOtkmoum2fib64Su4tZsQt0M1NK8rePe3DTxxWSydv1NR77sCzi7j41mI61URtN01H7jj2782YfKo/3BNF+fdrba7NzLaNDuYNTp94pp+1LGK5BryWR47tfeEr3m5Re/+DVHRl3e7mPNNttKTn771z78lt+7LspYuaaWdSkhmscLpsxIMTfOou2R/Xa+PSz3O9P1pI0rzJ4p5sJ4+j024bzVaWtYcvZ/0UWs42l3kE63OM50HI37UXS+16XD5doSOESI/MjZrYPrrZaxDxGCGBelVIt0ufiCZThQhc87N1cunI6RbEkgSWvd/PGPY34wLIiE/sJqMK/ZYo8QFPN8cMYf5gqO9PqtHW2X0bGkFlrLUpI4l0Yt0j8jLFQ6S7pMbCbHeSC3fi5bz6nijh5lNa2GFo9gWuYRVHerqFlF/0G7tIAWMoAhECGYxZtD5ln2WCcxiSzEVoM4X02chsR3tinZb/0R0e6X8zXD2MSlbj53LxKtreqv4c3lcmNDzWKi7qv1jMWsg/RXEOHRV3oX2NWTrQBqskSMx+vFUWmXoXA+eYwRuKV4CyuqJQgU1tJN/pU4qamG9RIStaXwec8qRZVLpx0nuh6CS8Zu2XYheOGrg+dqwF0W6omhGbxTq7fCayTIinML/VY7MRvBBQSpHAxFsi3USLT6HoksNikKlfCMFTcwnLdnObqEiixFpZyaiiYrlfMIL5G7PrrZ4k4vGHKFR2WZ1jm/VTfyikMVgFmKgA2emir4K+13VfGqUoyOgjFwqEslOBgwrnxmxXlYKH9FaBfK+q3O5WEMYsNHIbXssn02Ta675/lbJ447AKraS5LucPDQW3+vGOzTif3gZ1vPFYgrHa+t9VgpYsGI19vG+w/f/97WziWToLoZn+mLt4+cfNmL2XKFHjTcZD37ekVX/QpeR+7yBD+3nrJQF4rOWMp5VJ1pxiDI3ifOt1rjvMn3PPTOH/qxh//sAeTMp1km+myIdnP1Uvke86FqXwCwKsC3uj320Nz6guciH6Cnv/LW/T9+sHNpxAuSXaaa9C05DpTjGFdGKAZvRnK82kHyxBm5ljIpkM90F2+KaZVFBJg6ssjH+arTiY57OMp7Z2cvdM6fPzLITl4cbj76RPwnD3YePXc0aq0h8pJPJfpJdXolz7pf1eWYfGSr2mh/EF24yIDHMV5Sz06ycfxIYOqZq1ZA9TQi1O4E9NY3bvnsl/GKHTzjYnaQTLvsXRx84L+888KTZzBpGB+3vwgMQa3xhUS8YJqpzfcGyjRPxmcvXnjzb/JmJdqo9Sm+1xdN12+74eQL7xxlelCBPAn702FeAi4ZJOnJ3FZ2ycZ7TVwhX8slgnZxxasWsByrquuR+qkpW8RFQBhBgC7GcA0ARFbBBOBP7ogL6trn8WPTTB9facBjYNPj4ZYGasavqL2edsFQi4ul2i/lN+4FB4gQYbCrhShPVQOD9bFVRDiekBsiAeEhIvLoOXywPeEl/WLE2ZE8NMXM0LRv+7zXRAywNsYAJNf2w0888LZ3nuIjKUYVRhM/j3g138XTZ6FjFHA0OPSbM77PvuNPbrj/gfXPOTWN8zQvOdW800pO3ffKs//fb7Htx8yrmV13fA9B62FAxE8dtCPWLLskg1eK82CeUNUKNgbgjjB/AAABxiaa86CxygnnZmIH93c/9AM/sfPgR7eT3navP5xOOLOKc4ey8ZjTpBhh6vbyR77K/YcGPSnJW5TT2d3sMnHWHk4/9P/8SvG+D/eHebubcjS9XDJkGHPSFJNC8nSY9cmHw/MPPdL/jOdypgSjPB+S0wJfr6uz1nV0viYBOEG+SPU9lP40Hn/o0Q/+3X/1ZDbJLo6ua/c5/z3ppy2Oxdods4V92muN04S9VtDCKOhDGo3MvBS0cswkq5XD02fiO25B3TSNx1HuJ45AWRBh/bSjBMmoeoyp85/lX3tzhdPk8zvvexVV8U1pJjHZssS/yW+9a/+R0/2MTfqcAMGjVJ7r+49xwqFiLK9mvHUZpay6Toteq9Ud5Q/89h++8pHT5U238kYgQtX70kc2T77qxefv/2NjAlUMXD/LXH3ioHdNsD6lHmRKXSmBd113raRXZgr07e7qbDXNCVRWz/lVb/RCH2v+nYuDtYbOu5C1Cn4BLNyuwoNMHBVXYEIIBa9uxGsBp88bUd2VMrJIT73au5i+oqesrG5mT+YwBQoD5XPZS24qA7uQo7nPZzOsIo/u4Cz7FXa456rZ7WVBw9GyYLNHVdbMwPrQtQz+Y5Pmc9LOY/UENW8gA9ehHS9PmORjIUQW4VfoyQLY4eal0H6z6E46U+s221dxEFrUSQkEhchClYe7Vau30k5atLolh2aiC2xwjvbTtPeql+BkTLLczw6LR9nu2/+kuzPc7K4hEq+Uwj48u+7wnNpiPSkfsS2FE8I3zu6f/513yUEAiMUyfToybd37gtEaKyHVCZ2HI/IKoA5qMTqBPHWV84L7MtOIIFIqgCObbMPLYO4CFULDJ+d/47cvvfn3T8T9Iy0mRaYjpqzouLbr1mkCg0dgUYes6ymdIceWwJRTsGrHh3aSaTH4g3eN/+ShzeGUj+YNkumQZUXtV2e1lLqYnmL1CM+pvTaNBo+fZfcSR0kZcoSto9u9lwoja1jTpDuNoYUd6N2tHpviT+zt3F5k1+Xjo9mgu3txuxUfObKFDzYdZtnOWDMx9hfaCzzU2uOMhyIaXtplegzVg2i5c6xgYhOqPxZFQ9wkCE0WwPBsB+rxvTvTjfXonts5uonWQ8AIk23RZ375d2mUY911FlhpGidGq71Mro4n4ke6TBuwdpmcavc650eDd76fAR4eeSOTk+PpXZuvuDtnYk9BXDmST9krKoE3KtVvRIhb90E5tNk83NKPvCspRXqPjmns1dSpSZBEdUYbKD6xRIryXFFYxR0y0QS8/XkH5IpAQE4Rv4ZIuF2F7WB6IDJkSYlrNQ6RkHsNRposePxpEGlML7k8DVSrijh2z23GV8F/Qqd714ZNWYP5EZM2WmB/4fYyjAN5mdzLZzV1A4MzC9ws/dPUgP0xmlVDumyULBJ0OBtcufWrYxSzBuDXp0OxZlDMRcDPKNhcU8bHTyTPfQ4v8LCbmfrMJpbnfvePjrP8N9EeZU2gAVZ7mqLATjPQdVpy4jb3J9POzjvfyxYLfZFEx2l29TrTzTekN10vC1svfpP2bAU36jV2X5JYaHtN2KiNtc7ImlhrnGn8ZhO6hpDk4f/4m0f296LRKBuz95vvD2tbEkcwIHPmkxyxI+RqjWKJE7bW8HAiCXXN9Yz2du7/if/Awmdnrcc3ZfbTgrO6OIaU1VUdoaDTnQoWEBmJenwm6cwF0PPHJjcZX7TFThMRfuTGAms2ZYaGxAFnenfbeTbqTidpvr8f7xZplkWDvWK4W4w4DJ3q17t9cyDUiDLoPDYZjQyQsNJp8+GTiTw1vpIiotkgr9a+FoIm00yxj99z93hjE93kXExcPj7M0imL7N0fKEaTZGJrnbhHmrdD95CiDoDlA3l8aw9mCXwohjXTrag1+qP34+b6aqChbnXuvmtc+VJzfepaYP9jTwNyc4EvRFAPzCunyTNZ7naWK4kAex+QLrH1EONlfgPpUmqaQ0KlE5ju8fsMjCn4PkGDc40YPkHp/xiQfWjhYJqW/MmTX/Z31SmnKQOpxAlU4dcQ4Zbh+4r+msTriX72R21LwlXnaynCanizkR4A7+8LzC4tuCoRTlZlHT4dJNpcFujwkv7E38QC9f5nD4KC10yPGktt1gz/P3tvAm1Zcp1lnnvPufMbcs4aswaVpJJK82hZMtgC21geMEtgsL0wvQxiaFhAT9CwutvdrGbRsHA3LBoMC0NjmraQDLQNGGwk40GjLUuyrLlKlTVnVU5vvvM99/b3731OvPPu8PK9ly+zSmpHvjw3Tgw7duzYEbHPjh0RTuBiyJH9At5PuXeDQ5z5ZNIqX6W6et89EZfiyah8wje/Zte4tP2li9iK7wzbKFTIZaOnWZ/YWInChtN3mLYZZdlhP2DBsFLqP/kCCi0magxcGrAdNt3sS3/45fq+5bK9W+0k7WlMh3xOQxHTpEZ/5WknKYKHcw7X43FEE12BrWLR8AuPbXzis7K9IXs1KVUS9EPM76zuIUhxq4kDCZWwqV+ASlXohskU4pSmHE7kih57qvuJzw1KQ65D2UlGHDFFYiYkVlfbHAI6GbK3Eb3dUIZApWgbU3FZTtL6ohk1yOyvaHZ1Zi6TQeqLY9m5Y4XGAQ3LXBTDxvzRCFmDV4B0JgMgd7g2WaZqUrSJCkaHwHio2RDThuxPUClCXx0GI/qcD6c81Dc4wbrVDipaY514zcuxX2Nmxg1GbJkcRxub4xeuw4fUDpGUhVcYT8eXs2CKMGpyLnZUbM1Tk9GULAJiBP65R7l2jz15Wp6W7FWOzp+pnT8rJvkdB28UdZDmp+9kwhOvlgCeFIfbq5ZUzTlrMaFJKYVQZSKUi+xwFRwLdYPnpU9pH11nn4fFHMbjz+dG9/gTOE4TLyK8HhZ+wDBk9OYwUZbWEOC9fyHhAT1T2cPrAbNnyQKeUx6iQdgTETXlyTIXfrLaMfPAlEVX5Fv7YAxDXCH38Xhdc+GwQn/RFFPA4bAlFfNaB8qgHRbOcaX3YR9oIKYnu9hsGpI/by9F3C43xRugJ5dxg/kZdHwMsjd/eO/Tk+lPV95hf2CSjEc70OITgLzeTA3JzkQ0qlY4CID5qjQaD+LSmfsfcPECajIyghCn9UyubCJuozmRasQq5KUDAZGLJOg3+uz9KHG5K6cecBpCP273xk88w/jbR+uDQKWGqbReeS8wUfF4pW7dE8JQoMOHIagLqIKokysnXdaHEQI14OMw79ImwujZD3+i0m53OeM8SqnX9qDb63O4uWYX5bU0AXmA+2wPrQA0wpIdWyf0TpB0nD770U/cuzUolWXVPkyHlfG4npYShEnOzjadP+IR7Q1VEbrTdhdM2YSikrIhRvjYFKWVwRo2W5wsOeJ0zdELwz6XwDxXGz+xNNk40dzgGMsqG/XZpcj5pZiIYfMOD0kq8Xkuo4b1fKmgOF4SYZlSbD0MZpO4udiRnchQ69vjKV+4Q1e4mzg44nAyzLw+/9VSv8f9PEmtWkpiGE+bMTmzIEkwPpOuaqTLh8bcl8ixpxwUzy3PcdR5/Jmo20bcFLuyqYOPhHJy+r77Zrrh7anW10Ep3ta0N5wIY5gglU9kxkKhDhoiTETQFqCMV9Xb3Pn4YElehEeOxUF/D4viPnAPC+pm0oeO6d0XUO4Jz5sBfpC8+9BhbhQwCT8I5GIafYTu7bGh4kpG1N7YYt5j93vRTmGA55jQG+b8ebK5z13EcvyPQJldIMfiM42Ufc9bMzGBzoz8syEHKXkuMxy8vnv0Uozy+/9lUoZ9FIJuKBtEvUgPmapJ8fXgmAGzwlkMtQTbcBaWmIKZmVqnTw8lBzC3snoCstEzzz2doBNgAufwQsffEAsoUTqTPQthsFHClXyNpJ1ycd/oyhNPIQW0dfJCSccddgfJqRPj4YhTCQ5C95tJI7zhb+uu0rowJRRptMv66gNIExxAgGoOOYglOi5def5XP7PUrG+Nhpw4KiuiSqLr3TibyYxyak0UbdlohQdS2fqyNxa3+vE5qk94NCUA/8qnPnNiMKnFNdR+HAfBTcMYliea73U0Ijq/tFJmUYp787D2GaeUb+t6kNJO2AI74edf/KN0q5p2kfhKMTfGLI0qJ9L6qU7lZK9293Zyem18fqt0ZlBZ4nrjSoKItlWW8RAAZx3KGYrJ5jm7+IaUklleYq5+7mSM1tw0HKg22cawcfFSvZ700mFXS9Kp7uJFcMRFpV6nS1pSsx0VoomeWn5ClRela5tpp4eAiyIQkhCLlFw7sfoSq+6LiU7oH8FTxMYD4UNYBL+ccVamA7FZLOifnOvCcxETFuF/XfiptOMZPAdHex8iFKOOAPngOLx0UlLlYq2nXufgCbct+Ntde5YCIvubA+FIQTRHsUWKfoc3FbIAR76x6Tpz/mYrpVUJ71pHQvgYM9EooXbBM7fWx1joLKgib7CioFEHo1ecDAlyV2Sm4jTGWI+SxG5pZyEq671Mez4rEsVo5lCCpt2JL4BYNugoeaYWvsbRTSDI6ySYDEpedPjtlXqc71wZRtzdin1P0ot6D5xcAuNxnwt+EYAa8eTMpctb1R4Hyyx36oOSJnt0U/AFCiahgV/rWaNaudpjNE2qvV6fremTwbh16SrVPo12RBbnHLKUNO89d6WU7CBtsCwzRo9ARViP4UQGxBSsrrEgsuMyLLnTxypl74UH9RUC6MMm8ebK8M7tdi9OlplBx7X1JDop4Uh9D/UMDsN3NJVgTTns48KHxI0tGKTivhedSaCjpkidbjXiFar07HPJl7+6nbKxbyVBvzEYVVjuLHEmU4SJOXknHUQsFsREVqYWYJeRJbnJVmRuNiDCMOrVomraK3c27/nsk0+tcLWwvu05eIAb/0qcoqUmHHDI5mScnGC273P+ZmMwLK0OMJUqoa8CEEoX0g7tQhqWUHWXTcLxqWl7Z3upmVQ5RnU8GVQq3K3bimtd7NWpfWXUqQ6ucXdPKcFIaLnLlXD1Sa3ONbyl5Wbj7Llqi/v3tH9wWD21dOHcuZe9kiOWJnW2FFTYaNAe13XcL6RV+dBFtHKHOlIXFVBJWkrsSSTYIzXCYzatCmdb/KVOdvAJGYsc7v6pPpmDX/jbu/BAk10QUcKV02iVOONgcuVyvwwS1rJwtnULcKPdyi24iJAIEzcE31E6AE3Jv31Oiq/1nnm+dfbOJT4eqEqNMymq/QfPLypYq4M07kzHoVS+N+A9ErCc2o/VE3WG2S6pFoHcE06uF8Vlok+xbCOgmtvHl2IUNKAtranVunwpMX4p/WQI05t8jzxOCvGAeMJORdWGS0YmXQJgxemmZAR3AR6bUlsfinI8tXHWnfdn+T1yD4VgHodvbJnl2PPjy4qFZsgaRB9481wWPS9qJiyU7jzM0z0kzLGayaNaqAyvlkYLo69t6LC5EgLZr9fWB3SgWWtoOHfIjI0CkrXRbnEaz8xl9cgT5MHTv7vU3RszNWuH6ixK7xaHe2HYWz5PeZTDMTrN46o8v3jO4ufWAiC7rbQAIc0881yF8b/ockiyvjBXhK2ABZ+RaeGcJ28Fr5SZsWaQ+HFoFJKD96jsSaxjIwh2QJRP3EQzL2SMYS0YaskdsGHs4WPRAOnJwkkGdO9PaEf3ZEylI992SVjs4KxUBOf18lfucQBbWT/K8VS/Y6DP70PJUKEUACiiCN9B2DMLL8Q6BQrFFlJTzFzCqQtpEiSpUymMFnsy8yKcb9QHpvPYu2q3r/P23jdJFilqyTSKEQzDHI1YSZWjMbXqwygKnxLFShAsmGFrJYcmJ58no0QSeLUJxAuwsMcqK4xjrLFn39vrsqhD/gQEaFSWyGSMXUrGda5cY2634ySRIRfAFJqGoTzwhF7NdCplfoU50ujqBvX1Qx+oHRRAwBA0y6hVcwMN03kDeznISlmBaEGMl8vD8fbjT7PsxCmaAKEgHymzZPbjLXXw9sL6Z+XkqcFoPMTmDNmRqWw8bnd3rp4ona/Wy5u9Sqd01+rZa4P+5krjjve8Y+eNrzp7/4XVB++dnF8t1esjLRCCaKXGbDcYTepJN2JfAIfa03TJalK9oib0iuTVKaJ7u/yQCxJCsFqdC1psfIBtjOwyMEf8RogxnpzFyBp0T7CaDBZmC4GOOtNED3xK4LyJPel+52UeBehr3t30/aBW0J4+d8ET8hnxGQs09tGCJISNMvVnnkhpbNzDg4P585iFvyTL44InD7j1v4XSVdgBcT5GvKYQcMi3Ao3jgnmQNj1G+syCuiECJAhUtVrPwpgfEnLNj54XKmRm+NwRKM4gU1kZ9cI0F6IW1SsftLOEPn4q++G7i4ooECcU/VLwaEtRwMNbohgSohZ5SCznM4kl0pt1ac+yN3IRmPnh+pyLMdbhC1KbcfhWimtVPjURFDLgWPkMfRLiiCatN+GM+eQjFyEwhKNECCKUD53MW2RUGrA1aGTQaUkaSQk+HgdxkxFKqJJOYji9ilVSFaHGiDXFRVbudMFeHVAhsQt5zNNXL72AFIiSibOZUAgR61I2cpXJSIJv7chsYeIRmXNAIogW7qyKk/LV3/xSwj0z2OcAzuSxUG0xuuVz6kE0OYGyiT6km/JMUKRN+pNRXOfY0yGHdnLn3jgu39svXS+N2stJc+nUA+/8pod+4PeN3/TyuFmPhrUJ5vD8K2NsJNh1LRpyqd+kiiSGogzhE41PjC4r2qx2vDS1L7XdH5MpxI711ekMPcqtOgf5+4gjJoK92MmI5om65Cw6t2TRspAA8pNRAr6UJPqHkg0tnWb8w1QTsBTnzyL8uTh8AwTKwCxzkA4iwvrSSqLwVuvoJaOGE1zE1SqF9fhCb1OI8ppqGK8gCLRTMi/i4L8F0Opwt9ypR1jT3/KSDlwA+MyitIgnZ1Nm5RQJWWiOvcFFnG4HtYvl7e9fWK/9s82MHgvhzKtuIHLw3Ki0Qh+xpBQXOCqQWoN/7hRor+pf6ju5XBVS5yn91/N6Mp+L6Fw+ioaEHl4sJUTt4zHKCIV90tx81EJK7q3vQr0UGDiIhQ15JByL0Ir+ucA0Y0Il8ECiYuULzXMS6xqaPDV1QSrKUUXeEE1twMw+Ur2yXpAPjvhpMP4ydQ5d1IQu5bQzFY9Tlirp2En2w4/i8tKD97AKBLm1SpXjH36LpAhkL6ajZqxZgvrGpefBHGVSV+ooqwswc4hwJNn9qXq5X8uyPotArJitA3Ll8dZnvnISzRG7CURC61F71XIuQrmsIDMrG6+nugElKLO5mIM/u/2kyXFUZU5CWNbKF6bxQ1SHlTvPPvTe77j7R/5A+f4LkzRJ4+j5KLrbsrKo4jCZ/XTSvXoVGwW0RDvoDxtsPkQ7FafNiEusVQz1ElvsFuuF374ndPBaIwLSRlCJsh0drbtJCHS+m49Sltfo5iRl06M3mepl4KgjrH4oQYrC1EIzc2qxgeYj9HUb6h1EzA/R2bHNqgSaWyQhYyL4VlQV4xv/y6d3J5Ri7buCaKcazWb5srkBccpZm+wFbvN29ucM4TLiL4idSX6MAY6rt37Rf4xFzILKCDQvQmGi9h4hb1GvWLQIvXc0mi1mOmSW+adTHNN7qDiefQoV581zGsH2dcAMReA3Qs4rqMBoIf0sYOU/kgvZdjtaAY5POuo+BTQK8Vk/CiEk88ROFoZ3XwHNBv8FQEJ2PFTEq2kUKca8JPxzZKlddA+DoTcY1A/ZvSWm2phXD7f08/gjL5SUOH8LREQlUxjXNDBi12vLw6Ky7IXcWTYVZABodb754SjmKfz4SExGIh2ZrJSRLfciolgnVoabcNQTiQCbp17aHyfVldc/zOFCNtcCNqvXFPhQXw+fesViC8OO7tqm1gy1VM5Sn3QZzAqy08bGOQeLR/O5qpdVwRfoeUI+pEjZh1D9i1eYxTlbSyuGhKtp+BxXlqx7ZLnzpdJ5WNsUltWDTf+1Sr3CdoHtzWZarlVqL+zsjJeWKu98zRv+8p8svenVkxILeWxei2rj6J7euNvEIkVoczoDzZoOuNEOO7ooaVeiwbi82pjUqzo0bJTW2KbprWNFoW0sskFW/O362W0XU35oVTUfUDAjcwLOxSVkDB5PxhZImafvOq1ZI4IT4APNbswhfV4Qz5tk5kMWe5uSo9EMJTFU2G1D2pOrvmFVVmfPU0jrRwexvq9xXAuCioPV+YP1IZEF8OHGOCLtlLv8N3vd74cSXlT3Umtop2jgPefGF5VCN1t4sQruPxrNA01uiJCXcvD0NwS4KAEFOasHhqdQ1Y730Isss0tRDodPcfWdeUBDD/Je6lOSElt3Iwff555vyswqR2Qe0DzMccvfXhK/c2Qpx0tEtKqaZz6uh2pgS8wjcwEixM1lgBAmD+mQPFLtoJdpsdZ8WD/a6eg4KMtij7hWqzEPjUdD1tFklWZfomE+81ZXFcyu3hsJ6xSs5jmdUhBycY0SezttFXzYryHlmeOMBTFZL3WRWlqt5mseAivphWTHIXZVLWac48MzeCyJJg1dX4fd2E4XsUk3C2JV7yuYWgCVypTKMpMzJysv1LMnpfifDllVCJAoHWVQqcnJ4xxiwN14mNcLGXG7phvrTJ4Ov6PpgTP47gbQXjQE9y6zYQ1750rceKE3uH769Fve+32r/+MPlZIWB3AOK2iqJsnmKMIQu4l2bWvy/Pr657+WfvHJ/pefnFx8Pl7bjruDS6utyZnTD/6pP9z69m/mOPaRBBRdyaenOxo0997+X8hIZVXuTi8529JIInpDt3FUTfqcZcZNMHNdPnaESAfVZ/tene2kGpdMyKV2k9FOl+awkJD8xp4MMUso4OYpBt4YxNdPCudJmNoY1kYM8zrni/HVLqJB4BZlIcRakHyM5hJ/TBsoOPzX4Wt40NvuEgIgirpd7mbKUqNblW8GyE1W1Cm3S3MDJxougrtgyLVBaU4eNdmL7Q5CXo3085xGjAM7a82FlAtgZvFxNiDBAfkBCF4Mz5AltJnPpOHVy6UaGqqUQQE5AI/Mo7LI7LOQqSr7dLe8WdID/wixvDPmSB448y1OuMdeyhU8hyqR+qhKhbbWa4Gsel3AOZ5yn+J0xRkXxLJtAKsehKl0srO93cozMNix/6zW4FqzmJO7Yy7VG+mwbnoyjSpPLhbIHAcBim9NxC0bXtFlNTjzM3fOD5ubm7nJ8J4q5KkO8QsOdHjskEtoF9iCeOJE6f67EODgJA5P4mglYE3x5Y2h87VN78QoWybd7BGRdbmqk+c0mye1BP9R9gwm2tUWnCXF7lyKH1GnNGz2B/3SpF0er3DuE5ZkphnxvhHmEXUwiGnt691JarBie5ttigr1sycmo36/d7LabKelrRMr9/2R7z/xJ38ECgwlXlQwdpsMopTFv51rG7/xqdGPf/DaC5f7a5vVWEfS05W70ag/6q9cSzaur632uSOZU5i0f5IdB9G1PlTTViPa0b6XQtVusyfw7fa1teULp1gZJgSMEJOrrdZWsitJWXChbxiVprCl2iMO/1huop6zNkK0LXOHzvr1dWvJqeT7vQbEQiKA43ZZJER8o3hM7tH2VZzMpKyq8IiJU5oSAieTsjgHKyP0NfMpp5s/d5doNcFrLFOybJa5IdWKJRQTByyKgd/AfqeDWgWq2oQgUhpt59R6YfictArSpV9zHc15K92B2SBDIqv5LEp7hoTZ6OmQReXOnVlJ7OUGj4NbiIxFexFZQT68kiHH00f+8CpPTuni1LB3XlDPcQA2ZKsYmg3OIIs3VADoGIZnXmwI2M9jaB4qx37Q5sZlZJmJc8ZWrPmmP6A9W2gMsu/fBg5/Kk2x7JupKnRHPlAL6dwA00t1e0HY95pwKQdKeWQLrXxp5KNmhaYOohV4qPn1JYqHq1BQaOX84LIFV5y0UdBIsWMuxGbvB/4BBUQTnph2xUiBnMGw3Jq06hwkgdW8Vtn0ySxwpDlIKfCiBg/MCtAmjZAJIQv/CCS3eo4qLTkjY3FeCWD5TK1nMSoMnWrKQZwEU6goFg91ciZXJZf6dlqFTzxKnzlKy73zf8HK1WBei3a/UzlR5yyvUlK53m+fecNbXv6jP7x554lVjkRIy71qtF2OmmgDP/X5L/74T0w++eVmvTHabi/FlTpHq2NpxQU2tbgZczjVuJtuRqAVR+0B1zZXKxw3xXkOYOH9L5s052N120K31zeXYSZvTRqFYyyWmmUOleBOPXPeLgEffw3PjCN5r9WqrSV28UFGV4cgKLfXN0PGA3ocoD1v0HAHBPgSTybBOneqMMKUER6m9+UDxTN4GDFgHD4DYFd1nzwXv5BfIUqpYPqUFMAMj5aomLKQ6ZZ7nUm8QW9Y2FTiqdcbZv8GS6AG9bnh1lfsdpZVrI03cTHE/YTjjlZ95bSeAc8XIexOK5KJVI53u92+N4vHTEgxI5He44ATwt0zk29+gNB7sXrmDEaBVroszGOLbeBTQVY9SQZzEAcEBx+RmRlXE0qehLx2spPaAxfA4iftuDusnGlttHeYH0vtEXfBTrgshJtQOKcijTg8moM5Oef8+iRtpWgp0npc7/ZHw5V40OssxUvNrzyDiMJW+QTDp2q0MxmceOeb4w6Tca086rdtpOTkGAiNrIH9BMooBDJMgjhXAMOqAdmYzkeVLSK/6Y0jDHyjSS8tNRAaet3mxatEbcS9vmVFv8CUXUcwGE3SPnvmGKhVQGPMDSejycpSNG6Na712qbvUiTEU0pHWVcmm3L3GwdfsYuvUeixknb4a1//S74FCnM5+an0Sn+RQUTATZXSDHj+Sa7Fh4jAkVE/YqetUJLu4BZpKZOL6uvogGjaiymhYBYPJ5Gq9nIyro7jP0J9NASbWSPnDCpNIMObsyDE3FLOJkAt2OIgTUifsk9M8wVSDZdIWIKLo9KCcSn8lNqA8dCOa0s3FQ6qgwNqINi0z2VNztFpqX5u1hhOOO5+MML8qJXwr9quQe6QDtHbSJ1dP/qG/8heju06usqOvzAlM6NSGp9Lx6O9/8PF//P7J2rWVVnU8bJclME36KR22vFxfwail1x+NakPMrbovvxOcl4fVbjXStTgcWGFICrUcQ8eTiROscOAh0ukLmMp4l7fkYj6roBHLcx386YDUTuYAJnhRtHLx4sZ3vP7EsCERV4uww+gdD9c3qoPmTr8uLelJdiRG8VqMkVj5ZFptt6JBu7vM4RuleKs0HCxjoj9odYZLrfuju84AsNyV8mRQQ0XYP/n45lUvT5hnRXtAmSVefFSJhDC0aQGQGficIDjgqSRCNHRNz737JJLE/vTE2TOv6W7SI/lCwcJixhXxdP9ug00lViee46StnOfGdE9VTQOTvijgKqmmNf46JiZd6TAcOoe+wbizCD9fGLIX5MR/6EhvR/9Jf59y1m1z/gOaA/Sn038qA6/ZMRcWEdJT5T2NWmw4i/GUDs39Mzmyooops6AitBCUe+i7XnQ2zksKldM5uzidwUI8jOUuazsJnJbNcy1ChjzZ/kplUE80aAbeN7lkYA/3U6wjgBz1AfsAAEAASURBVOdm5g4twtVbpj8CHeWZTAvwCXzodQw1tW9XAQGZIj6BICGlxxo604WShhGT0CDi4yfQgRCRrY0wlMKZNjtPM4ohILgQwuL8SaHkJVg73s3lLTefXJ6GJ0IAKZTZEioXHhpO6gs5NtHL5RkY6imWQtW+BErToZN2HI081e5vHFgpD1NWNj2TXxxC3eEsKztLEIraC3NXy4ytVUjPOkCmmSYbIKmFK1yyUIPpuHm53o6FCuVoLfgNelCyBDh4VH9rC1le04ksSI8FcPYLdmwCTsEzlcfDKaJarS8vLaGBqFeqHBBQSzCfobloShrLRi+euHSsG2DlNPjFVYxHxFiIF+uXLyOAVLiTQ2PepFbi6reo9Io7x9XSTqqJCzLRdZ2UoOEVq8cVrnarcg9fOuZWOB3iffbk5MxJDRtRqR5zaCTmOMnak0+zKocEwo2z5MUkaTDkqO8x4oksWsWjFGZWRzRWrFvwBp3uUszOfQ6+qoIhC1TD4YBlODQTHN0d90YnotrG3Uurb3mEsyx1lXITCdCcxvmsYZw+HjznqcFInO0OFvL0zkvWmopRTbIk2Y9S2piSpcybeP/isiy7HUfQQikSWWYmZx8FSESDsmevM+rtxKMLr304voOTUJHNsHWD9QdUfP3DH/vSz//S5vpauVHGHqjf72OsTY9CaOZva9Tf4WwAjlXtjpPzp1p33Vkp+3KojsWgTZx3wcf7fFbPF++n/eyVOkMQkg18oeXl0sod54enJBH2R5PuOOpB/2pS5tIeBMbSGGu/VrPJwNLhyHpk5/6o1OGU+bj6qnsYtyQpwtUVPiE4bDK9+uyzec3EKrn/d34PRAH6QmDaYgYf6Kbo6Qzs3QTW8tgijxWHR2KLr+4vhswWVwyZ6yf7Ighz07+4gV9f2L64tJotfZa7SGOrJeIrWJGnp/HnLIR9Qo7KRZQIVFjf/jSTWAeyUNBwTLInY51NJbmInL3ug9VslIMCjoPy52yyg4cUeyu5Fg2XXu7BwR4q5a4sdZP12QfLAJlTutOUs7XH9Up9vM3Z5eU2R5+O+GZkBU+cxO1ymIVzSrbEKJuzOfeRuYjLdQnh/pP15y5xAZ9m1QF6orjOzJ+Oore8bHuEoS7OT/fOKABAOALbdQQv7uhNUu7pHbaG8Wg4rr/qQolLV8S4mpm74wEj6M6jT/d0I62M47AZhzRIVdyYNqlUQMiGWqXWTM6x68sNVnO4dKXKNzCVwFQLIa8UrVQaK/UmIkBtUj49aQ6Hk8Z73hW95qHBeIIwsYOGp6AIzBAt/CwkI1QzEZi0YnjZzOpHVeB72nhHHt5N4+VCsieGDD5P8HpDl4Gy3kJGhCeyGCEzcY0Y73kOyrkWkoAe+yiH6ahTjrZq5Yfe8abJmWWUUaoRGkx2+Hd6n/+pf5V+8eKJBueEl5pV2lilyVi7Xo2XGtyHg8k61/+1Ro3ay18WnVxF+tS5YjrHQTcHQWgv1JG8YV1uYQLTlKx97svIUticQSSdqAXzrq4M7jsTT7SSCge1k6iDaT/Mw/qqPhrsKiR26GH8x67OQdRMq2WuAHjjK6QpQAXJqRD6qCpPrm2ml66EMcHpfwur840FGvZwirGkDo9pjDOdk9eSN1yosfhTWlbrOsbtYmbCcmYjpaUJOeRxCEU45qcT7PmzXa6ETLuQHY/7HWbxdTrPi/d+XFg5nNnnoWo22xaHyl5MPIUJUcWa4g+Jj7FQYIaJ31ks8Ael4Hx5OovSqBCwmPY4hgHPqdfp1HntSDbl8pR0Gx/OswDGWy5NQAPEIpAsS9RNGIWFEAlBFTg+nanzLHYM83P/dPOJzFb0ZxVFE8IwuUDb7BOfCXuknvqjcHVbC3dE9tRkMW7HGHMgWcqxnH0eBA8ovpusNOl0Oo1yLUkRVibjajw8s2raQQ1+0NXsmjF2kLU5xCmPuXBX6vqyvvw5Erqcrq9HX73ITTEsRKFMki13XFt652s70YRjIaWdCeKFtTeNzazGQh5aVTZLJSzSDdJutXLmXW8elNwye1zqDVOY5JlnJ89eH0Yj1qN8XzuagqTCdXQsj40RAb0WUi1KRZLWzp3sTkat6hJrhNyH3Bv0SabJEox7/WGvPxgO66Pq5ZXK3T/0ve0o2dGMKqlizCmbDgv1RU6c4BF3LnB0OWLFLjj4BoFOk7j+Mg/RJk65DjMrJIdXaIbpAiAkGaf+FGjICGqGZ9brjQaCx3uRfel2HAM2qVY71fjUqx/Cjk3nmI9R0kC9yfiLXx381mMn+/0VqWg6/ZgF3CqdSHsIIesgnXQx4EpZi+mXayvf9AbteGQDJ/MhBEeLnMug09i/eO/drz0Vra0xvoxYrMYUrcRJ5eXm215TnySI7KulJlIRd0XCz7oCOYrqSbXPpdpQxM4y5caYeqXBJUnJux4Z2iAFAD41OL6085u/vSQD20D5F6+SX4clw7r0iIyrWSsJfnF01h+Ch/qJn9WhGPJhMkYKlsYVYuO6j+56sunDQ/LukJHGoO4+GDd2X8x3QxJ6+hsmeykkAFVHI3gOjhUz7ty/qZEnvDpkDXf5OHnwso6QMtRoqjm89GPHAQbD0clVPRvPGbdDIFHuP0JFFmUJhJ3yCAFR2Cxw/cWeri2T1yadMK0ou08N5qFNd19n5hESqz8e4C9gtQj/ReHQEEEAJHm6lCKE84nPc1GJRdmPK3x/gfLGpTiKAVE8we+ZA4PymlRjDImwJ0KLU6+2NtDivJEzhzBLUr1Z6rX1L5ZGuINEFjJahmTpY1SuspaHsVIc1/vDwa99igU31BQSX0Wf+MybXlc7f76EMRSCimmVyOuOaBwjYLOqoxMqSW2nP+jefeLM736L5AATtseT3slofO2jn26022hAaA/yavFYRQo1sDW1CJyOXIY1F0bl49aFu14Y7NgipJAgS6NSY9RGEcVruVGN69XrnLH0Xe+KH3kQfZUWCcelpVGV6+gEKO8qgVzBQ9SsAw3nDZI5u5BGlbXzmSgdD6UXXWAmaooLr8U0wV8kl/spSJOQrYMmzA/U3cDgcVBFhL1kQpTXiFZZXcb6QsQoJ5OK1lW3v/bUWQ4rpWnbO4gRbTR5dkq4lnpHnPI5OlGqnqw06qXqxvkz577lLUNZp3HcJ1IYJPNKBHxfbI9M/6PVbr/76a+0pJDSfYAQC5zv/a5v6WGF00uXBlxQyGkduhhSJmiyh9YRaCxwI2tDK67p2+BavgfvOvHmRxIOgIfTjKa1NH36Qx9twLb5IPVi1/brrHybsGUzInEKBtY4bj6fABS2K6RCciR5/pgq2BwCb4u9S3xPTY+N5AqEUPOZ88A8SoNKrouS3/+IdecNGvy8AiPAfOl7wPw2I1mkjxP8NiNwK4rLeMyYwyuoASR3XmI23mEkMG37dQswQh/OYM+8slfWZbzSHxOLPgXtGyPX4IIE3Yonn7o8LXof3tjtC6FT4OGYHlZ9+MPjf/66qIZOtzlPI52GV6k59Be+eZyoDhA/Hn8uKuJmwqfHi7mw5mA/I/eR8YY9rdPvVJeaKGwG3MU7TjeqpTPvfAMtoHmJthmnOvFpbTPd3mFsY3ZC9uGOPKaUGjZJOhFg3ByNXvj4p6q9wajqW/hBLS7dfcfJb37b1QHn+qg51e6SATSAViSLlbrpsJEym2v22sEi/c2viB66gHDDDMfqU7nV5Krjtf/8Gw1mdHRVQ4QlDbUsCeqeGVNaYXSNFRSCAMiwZsPOq/jCHZOTyx325lUqAOZ8P2Q1MmJSH7fqrPtsTAa9177y4f/yj1IC64Cl9TXhJfVWpg+batSpV9LlLjNLzHpXHkp68HAmplytZZjsTwgpYSYcXOXOe2qedfoXQvkfAIt+p6c/lccWttTj5CRl+p+/Y3yIDVm1XIkHqa6SGSJccN8xua1RKnF/qzsc9NJGZYD5ELbv5RrzDrFVLthBU1NOGtUaJlNr487S9707ee2rWAiUGb/oRctSKzHJS8R5xauj4ZX//MmoP64iRfNVpBaKkze+qvSqe7dZtu73a5OkJms7tRTqKB3ugCwOa6VDbb3oda/UovPf+7vZ6onSFb5laNGRH5e3u5/5cnfUNoK/hGr9EiH+DdEIwhPMDPPpk8DEKTJm3MiwWxALvDUlPKEJtZPTfUT28NmnIwAEBxKeFpDJbi7BeUhA2FOG7EV84IqQ7CXoKVak6D8UqnTiBX+aBWf/ijQp+g9V6METh9aZqiBF34rSGS0EN59J8fhw7bwH2lMD/mxFlH2em03pIeoI8/6m0gc6ZLgxeVgK5kV+iaU30Y44+lfRzQVuvc/nFxPZ8rlGfbPADy40+hRWhDnrhyxTlAk9NEQFqnp2iDTlmQV78yFmz5K3x9HAOaIOY38I/QELObLdZkUDi+N73vq65bc8PKpDGinndBL3eHL5sScH1zdbSZXjCRCVJRRpnSfhhjKA11gI+toT5Y9+mkvk2HzPwTzI04NJ5cIffE/pwZfRNhBRgrSJZxTkEz8LfJUOu//SfjReue/u+3/gO/qc7MnmKnENdu+j6LNfHH72azIxx1baPhEkGDGXc7pVVGqhTdhqj57k1hOYSByAtr90evnl3/SmXmk04MAmtPpRMhgMqCC26pv97vqgE59cvft9P1R++ctGqCwmw/Wf/xi287AjZyyZ2+VDJ6Bwme8kEjnv5jysdA5GVbAD38XfJgmBsLcFcjppIIg6Jz3W+CmXhOaXNBVqglDoNhl69A2tmheQFXBZ+eiTHAJiBtQalfpX1pFWtXqHMqaPDFlp3HVua2tnWC1vNJL1QbfO5YTYm7G4N+KkVd3re3nYfSbq1B554Owf/a4B0nM/RcUFDB7UP0bk0syYkW8K1dv2agwmHsCNhv1rH/ut6NGn2eKIThWxL+FGwmb97h/5ntGDZ7dRdWDnVcEcTJcXYwiIrKljKYZDjkKjPUZJsvy6h8++9/fij9pDBEaJn4Nx95c/WX3ueq880K4y1wbetup9oxSkQZn1Zg3cMny0AV0dhBD9wNSF4dVUropCkKJ9bVrXJLfIFbUI3tf8maUXiOwvlEKJs9CIdVAeFUDNpnxxQ+YifwSURPd57gigjiXLFC7A9BAHjr9YSmjKYuDR/AjyPooZs6nZXYoCmnOdgqxwku0z3pFKWQqcXHydxU1g57mCeMN4awoqF3skPcnek091nkRh9qLZ1Rw/Ipd9qBBAF7uRo0p7SLonPUQxDcgU2feksRehuDfUexth7tmfaHuzHufbFFaHA027FDNMvXpUJgTYC+dqbg873C2SVsqNlZMPfc93lk6c4sACHd+NQ5cySq8/fam/vc2eO6CNsFNiXx1Hn1s5tCSh5Z3+Uz/3oSry2FAcOYrKO5D/7W+78+1vBgaGTzg4QD/miGThSFbqcblSb9z12lee+z3f1KNNKQ7kRuV21Hv0k7+ZXF6zO+AmXKvCAJckCXsMycv2de7UG261rzzxHAMtiJSG2sHP+ZP3vOOt2AZhOp1ySBPiGhuskcB0Y+D4xB13vP49337uvb9niw2CbN0b9C/94kfRHA3rkVRcuQsUC548pvgr/vOuVQzFzzzB08UpUHWPp3GAPN2DPOpS1A05HjhTpfDqjbgnyhAiPAQCf5COUAQiH9XTUvvKmoQhTmLnIKvJZDsaL739TadPn+6Nx9eQkxvN5qA8GKe9IepE7hdM0hpWVqUTr3rZI3/xfeNX3tcBsC4zjLm8GvUMWkzDiwa4KY6drdphQxCbQlsg+w+een7rS19DZ4mdE70BDgHzxh98d/zKuzuV8QBmiLVNAgNAqZ1N4qxWJEnt7OycOHv6le96a/TAnfAYuwERpPQtMBp//sO/2uiMynUtC+MChf31d543pEBgV/cU0wdiTnno1xqI8wFNo8i+nAZXK0mePitC/YEgfWv4n+YdQyKkDOV6Fn8lNiTIQL1Uf6bwvz1ofr0Q51DUCMNI8JCdmga5Cs8NAYpv9rqQ5WZayicL4VOYDQAISjxxU6MwIaHcWQ91mvuncdH+MJUp/s1C8BC63Nw/YglndC069c/b6ziKaBcFGcVoMPAmFLl8Bs5knRwzCOdpWulkQ9fYRpwzsJluncP8tt989s6Tq+sbnM7Cpb7YfUu/U56gv0GEWE1ZoxtfG24vP/z6l/+pH5l8+zdVS8kgGtW6Nb7ox5VhiaOdfv4jtYiTG4fdE1h0V6U3a6SdyYi1kuFgwrYnAq79wkfv+/Xvnbz9kcFkuDSonO4n48p45cf/fGPn6uOf+nR89eopNlelQ+4e6SRxr5o0BqNes9IeDs99/3ef+LE/3y2vVAYi9XOl0qnaZOU3n7rygV8qtzeq956/stk9Oa5v13oYPkkVhug2KD9X6pXvbN3xL/919O1v24nGjWqz0RmP2If2g9/e+MpvNz/wq8ySaU+ncjfKyfWtXum1Dz34Z/9Y9H3f1sPWfcT5VIPR+//DyUvPR8l2MqlNag1JcOPhqJpuVYZYtnNn3/Ig4ZirWjrsYV9f4aCiboWjIDoQlC3ykwqnVMYsEDEdc0RWbTSq1jnWsoqBGNOtJBUO8GBeZ9BmvZk2S5JGp8eZXAm239xnNzTxrjFgGUlX8rB1kpE+2qSntibj1mqpth111NbM9N76pnsjpDcpNVGOVKvtUtqddFcBESGFpgnLbjoDgD2Zmig4ZmIw6CHJlSulbjWZNCqt0Wjj1z9+6k9gdN88zUmqlckpNkjG5bt+5A889o/ff++17epq9NjqOgtitVG5NWzXouqV/mby1te/+r/645Pf9WYWZOsmJsKJHPLJ/zq7MUdd14apiny2UXSOp2qfotua9JvMh0PEEMhSiUaDUrWWcjZVudmPMZfrI53HEGMwHtWVPedn/bqkVgwp+MPAQbk4ijc5dryxOj6z3r/0T96/8sZXVV5xYZN9n1jN9+J2/fQbf+wvP179B1v/7sN3cshXI9mpTdYGO63KAI3pcn+5P2xduuPkiT/zg83/4vt3JrWlUTxeobxxi1POPvLR6FOfK2HVt1ytdNQ3NTdnLkc5bqadcbmy3BhVo3G/wtkgGoG5bQcz93HCXQGlUm+pstHr3YHdT4lTyJSRTxGeofPKbx0eTwbXB8T8o5lwd1SZXPj9qUC0bITkq6674Z4hfy6aDPQJiiObeYCfLyPkOff+cszO3oD8LRd31CgFN5SBh+AT7EKPtFMSVGU8Lu7BgT7MYrl0DrARAXRQTZERXTOfd9TPUETrKFV3/ulCRqUR8oY/eeUHghGE0JygBl3h9q2YvRV+rEWU0fB3zAR3T22U3uEXct6UF4PG0DTIfaiOXdlATxUZrHENDX074sm+ZQ0Rp6cLmnMQNbym8A+1WdTKKGzn1kc3KTjAqWjGupzyxIA+WBnCOZd6w1kawtmMNtc52edEBX5zmUHMJOeFilp56Q5BV0kQa+3uIc4fzuce4k+S4WEsUwMYB+pHjn7K4Ct1tYLRB9np03CdskgnJMUPeaGtgyIboz2pDRlN1CCly8CgRpppbojytvBPaPakq6gZp8tdp5xN+UPZJqhi8AsQJPeoT0lbpdqqJBFaIWRn/M/p7HXKamYxU+B5JZdZYok7so6TtxdigxeUJfPewTRXwF8VB0m6Wkn7dXCiD2UJT1GJ15EQpW0EjeRKJMTZK50hGkrxqEXPIDkGIBRkpVmODLCZRC8CsShcRABSSUdlYs/N5b0oJOJGuV+ptd70yLf+zf8u+s2vbl184tnPfGntiWei9a3WMGpE9Wa5tFlJVl7/soe/51tWv/dbt+8428UYPSqvUuc45TbbJYy8P/apnd/4wn2TMsLV1iht5kR0TEQQNV50dph+5v/4R2/4W3+pdOFCuzxs1SrYryOrLf3d/7r2D/7F+r/+UHRprVEpsd2v3x8ictQG0bX7zt71J37/Az/6Rzq1JZqgiRH0cHySXVfPr33mJ36q/9ylO88sX1u7ttxoYV6OhIf1iuYn7fOPq+VoZ6f9+FcefeDa9ZOnz3Efb1znRMVxu1p94H/9C503vObyz/zKztPPjDo7px556GXf822t3/v2/p13XsMoHpVKJY42e0984Bf7G5tM6umoVJcqM+G8cY7aXOKu3/GOCyV9bIsqqGFYtIQpOQRTajcxKROlhPeogoER4ksqfRziFgujbBuEY9CeqWUzZoI+OtOphggL0zCtol/DdJxzvOwkp2HMmdwy8Uea2am240qbbYcljizFqf8ITmATCmCdJO32GOs4DTXpc+YB40adfQE0HCtXqHzp+ClX0aQjbjJm7bPfHtiutuTS57/0sivrJ+9eapejFozSrERnVs7+4Hdur62t/7+/PLl8/f7WSrcalzY69ai5fXb5zve+++4/90Pju85uRgmXH58ejDvPPle7cHdcx3Rbna5nZ1gIPRyFq8/4C9wlc7EIXaZue8a8W/0awbJKAjInrJbRXGm5WhtNEM9VWXhYT+uQGZQD/mirF068sTSujZbi8Vefufr3P3jmx/98L6lh8IcxmKzm77vrZX/6h5870dr48CfSx1+oV8t3rdzdj3qjSvrUaFJ/7cvf+UO/v/w938YVSAyfvcpYp9kzc1y8dPFv//PG1XZ3hYNoB7Ce41lETbWetEecfFoq78SdGvZXnIMGS8EVnHHGWVYjncaFER+GaLI3kwZFGtYikEP5Z/Oif/XZ64ZwZvOSxQh4w6w3lQAq0fKAcASstacBwiL+Lesjq/YH5M56HlnnEG22RfJMR/+lIAc7t8Sjw32J5VxYuwLlj4ay9sbkk8XCUo4G+sC5phiD11mu8yAYT+K4iSDyiMsYsDJ23Z2wlTqT2/Ai7zCm+5BFUv2Jb8it7ey8G/CMY9XnDfOjDHF5lV2GkOBtIogTVoOrcDcxzlA3gUt5dinvWGS45OD2/hruyiJIeUdzT3j1HCGND/jUqOgI9Jp6rD9JIOHS0uFxUZ1Xp1vIbhQLbzfrYeJRE+7vfKzZk8bRZOzW4gufCeVKtZVuD58ejO56xYXoFfevTCavgkS9YbSxPtjaQUyiDZLX3C81igRvjhsqrzAtM2i1J2vLTO/j+JkXrvzsf1q+slFearbLaQvhilbMRUgv3elYHXarv/34s//sZ+/5H/7EdqVxZWf7bHWJfVDdxurDf+FPRb/vPesf/Y2nPvbZzqXLK7XW+fN3lN/26gff/bbSA+fbccy1Zwgh4gZu1+33t37635Y//gUm434di6cSZ1WjJKlwCwrTsyRPNXI9qQz6w83LV9d+/iNn/9B3T5YrzFDYSKFN6TGr/MB7HvjD34tAgdyFUqQblzo6gHJyhtdS1Jik1/6ff1d77Jn0XIvKNCbU2JblBlVOUqrypYAugS3YtEK13NdmMCZjaQbKSVKqJN2EOL4JGswMiHQ8IThyA1KU9C9avJZ6hoLFQ6aaomZIMzXUTzKf18HPEedjlTnUYYwZP5Y640imY1LblDut6mAyQvshrcisG5ZTDtCiIKGCOKbz0dndr1uWOeIb2QVFSDyBGsDmsLBJoz+ucw8x1v2sq250N//lL67+uT+2gxS2VE0xaqsmg3suXPif/2zzO9+x9gsfX//CE0v9Sf+e0ye+6133vvMt0d1n6f7l4WiF48Di9tr7f2m9P3zwfe+lBmk3LTXZ/uk2+zCFSUoFdLl8Bo0e8jGmV/oOQZah9/DRr9myh9ESIgZbCluVWn+nmwzSQVUryAAIHa8AbI6XxMXu7X2bdEmnFC9VShvd/q/8+vYH/sOpH/5uvpB6/c6JdGnYrPTf+JqTb3x563Nf7P7Kb3V//Uvbz60PWlHjwp0v+9a3tX7XW/t3nR5G1TrSfDfaqHFkeWllY+fq3/qnzS8/PUkq1WpjG23S7GBs2CX6bCn3qRInquuyACRlfYL1+XaYpE3Z8mOkxwCrg/U5fURDyGFcsbLFfB4OVjj8GpsWYOi5FsEJMD17ALIw/b6lBGjB46OEy7z4aeW5BKCTFx30UpeXaop7OzXE4xaiVMx5I/8iIHOxuhGwb8T4vYN8qOEiuoUEs56Qhbabjb1tIc45UziEVxjPxSnYTSkZqUysnzsVk4Ax2FlViTXbKnuonoZ+E27Q4BcJaUNhVmNn9Tnz+L4UMXyki6J0NAuUKGtioaJvM5tx9sgxi4AZgDmRoQohTlDnNZyHe1SWS/JoNoBDlAABSgHAFFIgnSVwVKfoFrIcl8cUEkcFNhlz+GXarJ8ashKWTk6mtbjDdBhvYYCMqTA1adZKzaXoDuQtNG1WDPe7sKmN+1m4tYx5AAPvpWh5Ejeeu3Txf/sn2//+l1vx+ErEvXiVZeYlNiYXnHMSAdvxoHK9t/Uzv7h58sTJP/2HO0vMR8htaR/ZnkMXHnlo6ZUPvuFHfxBbKm2iSvtrNdlZoadCnIHhetGwxSkFw/HmP/npr/zzf3V6YwcJobPTOVVrbHW6aBqqnAEk2yc+vlkW0o00zUodeeG5n/zZs29/ffrIg4hQDfb8oVhDcVSToDOOq6zfJFGdy17UcvQOJI7ScP3nPvzY//UzF9CPJUsc166UCetupaUk6nPLCNIO2iiUZBSCXdiYlalKg0Ou0LrWY9Q/bVR+pRjreBYDkYpYwgE00mgVwVQdEMahKPoa6k9tdCQMNkoHY6m/8Ou4CQTaHlY7kqw62jVXRiYZ9UtVHcteZwvZuMpNLgUym5c6sKEJNRrzNFISqKKToqQ4xjptSSdS2HoAS6VjhCSm9KSfDlsId+NJh8MOSqWT5frFf/kf3/jOt5x7x8M0NAfTs9qI8rCRrJx71+8+/85vRm5lB1y/jkCSbJUSLraTYREn1Ke92n/6xJWf+Jnmu98OAZHekONoiGrcMAbQcktw3sdajUZ7wtGvdjcD3ZwtdGjwWKAUdeJyp8thZCnaUw5pYN2zWsUQzyEEjgoAF3m8G4dYHx0QV8pb/Wipur15be3Hf+q1tUbtD3zrZKXOknayGWEWNWk06q97S/V1rzuL0VgpoZvoHPc+KrOkSnOifUSPVY+W4LadrbW/8ZPtf/sRVnFLK43OxlYzaSAbeZVDuRoOoAj3fVNbFI6pjPk4j0uSt8gZY7jFsjGSftofJXYOCGI03HWMTnV3IcOf+4CeYassrQ2XTlKn5D4wiNozChST5vCnBuW8sRRtjKxBtZhvyu/yFoHyWBziFHTmz+kvgDZdHQTbKeAHfAVyjvYBc7wIyQKGRpb9SDoXuYXUmzd9zoVQDHRojsksPqGsgHMx7/H65xahQJvjp2JBTBOEObzMiwxupLRP94V4OYuaNKDMBTFCSzWMcyZkIXXB8TCS4FCKZgvn6rzEhQXMi+A7XfKIQKkL8sUuPAXTml4yYNY1nRX8KUjT7wqbdaKEjSFOosLrbFpKzoYdh82KuwRKe3F6UtPgHC2p+pRNk778CKxGlpDseD1FBBZCBuOpP2pCSIyBtk6glKNiNS6prdc5z3k5ipvcvMKqrdUJmhsdNDBRH7UJdZMCgZAxZ+3UH3t67e99sPcLHztdqZY47HqYrjBH+HdljhSQjCx6T5ZqHCK+tNV+/h+8//pf+4f1Zy81okG9xqSWNLnbr4tiiVMSUVOV2Eu2Vau10FGQn7s7atEl1lM4sujq2sX//Se/8Hf+abK+1sH2ZJSeiLExGgzNmEi3zSD+08wJZhMTNufB6ExayVPPf+V/+ruNF9ZR7nB8+qgRcaUdElubFSjjL92KytUhtoFou98t/dqnn/o7//epy5vb3c0am+GjQbc2Yc1LAgh2UtVJL2YNjiOUWHBMsdRGSYjqaNzDLmzcKY+3Bz0OZUCt0JnEPU5xhFzkqsf98hghRNMn0hPih1a4dAmPBCnJVShi1JF8xV0divVEjr9ieb0VTzBGQ/yrcplgrTRucJcJGJj2j+7CahDZyECzqH25F47ZPkUaiSZbXElIDcy0ATsw6o6up1eftKOBriqsQlauISz3sIurxBMo2O8vX7ry1Z/4Z6UvfnmI8tL6VxM1Wi8qbyEcxp242Wm2yqX6KnqYUbSNWQN3/21sXv4Pv/rVH/t71a8+WW+UrkeDHSQEzm1iJRIhQ/3Cek/OFeIoTpPf2UHgY0EzHgxJnrQn9V7U6kfdfkfCc2myXKuuLC2hjWvXS5c5KDZ3gaPygMP8shLdiLVFtF7uj3srz6999a/9/Y2f/Dds+YRXONsAZaLjWpE2sFZKY+y+oiF8hPUXdnSYrnFqLWq2cfLoE9f/6v/5zPv/7QCj/XjS29lqc1aaPgF31+YcVZhSnDngekot5KLMRLJCQciq6KAmiZ+jJdBFQQ3kchwevgEOU6vptEUSQW1gOs15ErW/m4Y1792hzYs5ehgziiYVc+7x4WsWosdSi/xLVmOUu9nExx5SpB7AhUb+PPaybhJgkSb4gebPmwR7M9kdASfaLBxH2J+zsbcnZLb0rImZ4jVc6xnwxzPr9zo6nGxwzhkbltYqhcDwRCjRYoZmAH0FyJEA553f+X/RU+nmOaGnP74DmWIy/ReyQJ42G1hIczQXaufZp1490MniT5nk5iVlokVOSSdmBicXV/x1im5Mf7fIoZcqUiJvqH1LU5Nbd0JLUebszU6fiQJ77uuTdo/LxMp9lh0gPLbGiEw2cWkJizxtln4qKcM/bIBehvG+dK298+nPPfG3fnr7S19diSZcX4zxzamkMeT0hGa1zDSdi65GAVBlJmFX3SBarm/3B8vr/bWf+rnrX3vywff9QPLmR8rNOjMbCiFOUaBszkFHcoCdOmnaZat+zDEK5XvHw84vfOziv/h33U9/9cRmr3FmBa0MK1nj4QSNUr21POyw/YxvhfEAaafKRBWXuHoX7VQUnWg0N3/jC8/8N3/j3v/2j4/f8PLLBJkt/Crqoq7W0wbN2nAlqpcG5SvXer/5+ef+l39U+fKTzZV6Cf0E16hgXhbt1LEwRqHR36GSPYQwLPTRMJRQJHEIuDYtojTRifBISv3ymXJ9ss01yhjZo2EpRd1ejbW7StxmlRRtmficKU2NwZqpmehq3T1hUVLnPiKNopWIuZaYvYS17oDz4/sj7K9Q1kGUfrO6tFO6Mq5VaQ7nY5ghM5mCESgCfR3oYG9USlGeLWGis7nZrLSGTaJGw3SHxbteZTLEjJ5lKTU8WLJyWen0R6vNZn+7e/VXPt6ebL/pv/8r0b1nmeqxrB+3KhNM50AaU/3xZDAa9KtaglylEp997Nl/+IFr//lTyeYLqyfPlJulZS3saeG1htlZdk2QurcPE4FJWZVlxXZ9sDPGCqzC0lmVxkS6H5dqEHEzGSIHNuM6t/uhC8O8W2trh3E5cfYMfODRqY9q9epks3uKA6ZONAYXLz39d//5C08+cd+P/kDj7nOj5jLHbnBKFvc6Q0aOP6/Eta3Oem0JlStapAG3PkdrG1c/8pn1D/zHqx/62H2tlU2u+66XGx1M9NinMGxoyTdzjoN1B6isA2O53XLU7mNuqkFVKr9Jda19iuNsBztcJcm4oxPPUC2ORrEd8Q8EwnJ4+/2G+pKo6J/Kc0OA++R1UCHB/ohNNfcUGkJyNshCyChuWRBLsK1iSPDyb1w6jKtoxf58WRi5VE3A5E+DdyAyLi52OuaAdJjOdrveA3oUWPQftvxFeQvT8xTIhXR2huFZhDn1OgXrRXydYm/DcxcduirfrszxnsyZzWdYzZr2YUtqKa4YOG1tS690eiOPegcDvc3Izr4wvIZXgi2BuFpvB3UkdilJO5nkN/yAKe0OOGohkTSyPcECxQrKinMc8v5oMfsWmjefN6KRRQUU27SYnyheUcE4eqq3VdDUHkpYrDV+p5DRTVH+4eQ9vQj2uPwyzrkhLMc4JNNoYpkGO71SY4nRB0vnfsrK1Xi1vZ1+6BOTd7/Ohm2me+Z/jHugjvSFshji6l/W1/rdrU999vp//LXklz/ffPSFqDI61axyS1+/u5PwMb5U72xvDQfstoJuuxOYGhVsy2N25m13eyw91ZbrtUH6/C997Ne/8mjr1a+494e/Y/UND6d33sEmtybyFHbcKCEmaYtxcNSvv7A1+dhnv/JzH9r8zOdPdHvNwWC43FxfX2/UmlxRs5324+UWqyet/qBfwQ6I5RJ0RGnCagxLXUal651rzUa9/6FPfvniU6ff933nv/Pd5eWTUavWTtj8zmaquMoi3QtXdn7tU9f/zX+68uGPn03jk2dPvTDcOdla6ly+evWnfvZsurSNzRZ2Llw985VHm+PB+qSHpoZDSbmwhsU9BFBIlXK40mS0Gieta72ND/xiXO8m7HHE+LvfHzz6zCq2SYh4OqwU2ykdhUA3lOQA8yLCClUWuY3rbQcI52MNewP2AdT/xb/ClH40xFIraQ92lrbX2QrYjgfNAct+M2ygEU4Hl6OUo/FWWJj62lPbH/z55rjeT1LW+67VekvPrzUmcQdjJZaVKtVh2qlGVeS1brc7OKHjUe+Om2sf+dyv/sb7Xv/D37f6/b+r9sr7J1j6qBOycIm0U67H6eTq1a0Pffy5X/jY4DOPbj9/+eSZk6PVxtZoO/74Z1buPrvdS6PuoLm81H/+mnGgJAI6m1gh73UsnnZ7PVh5ZXV5vH6lfPIuTlIfRr3WzonS+vULq6eub17ZHA5OVprN4fhMqXXlJha9RORsSXRS6/ZGtdKo12Mv5Makfequ0931DUh08Wd+6fy3v+PMH/p9lde/cnJqVWyLKgldEQrXZTZUDMa97cqlqzsf/eL6B3+p94kv9uL+qdN8Rowb3ejZ7vaFU+fGz681T7FJIhuOKLTQByfDKjsjK81+d+OTn+xfe35F2xhQVE6uP3a11hkhaqPClHaQkrRKm7UsWIQuvL9n0VhGLqe5GM2g7ZNy/yKIJa9nD4j565yMB0U8y8qXgfmMfnQO4DoRMnLOKYFxVi1rWOE1teycZEcLChWczp7T0Kk6Hfv/+/eFdMspU+SfIvMU/Up7YM7PAR/nb6jFrkeTvKQkBl3v2vr00TqIyp1G3nAhkC/8bNGKfCTX3CgZCV2xKyzIrn9ythu1wO0u/RTGEEuVP6a6l0sqeaRspCiOXpSNRjraBfmEESlVP6EqeUzIMuWZWyPSCIh11ZkEFJgN8kVQWg81JFycCjKfems+QqqOVnGw1DoKtBC6RjIPzxV3IXuxiJvxlx69/63eJCbtAV91MGrqHB1bgI2wQQ5lEEs9/XUpKq/z7Tvg3OfSznj7LqxyOslTp1ZO9Ev186tLF+6tYlB89kSPrX5sAx2Nkuu9waXL7UefKF1f44AolDns/2piGjzkLIWk0+2dqba2Ojs99vQ1mvUO28NUkBPVS3SeQBxbkeVQuoadd7l8hl35Payhyl22g9fr0akzZ1/9qua954f1UpqMesNO9PS161+6OHz88nKcDJN0Z7hdRUybjLYm8fIYhVUyAL2VJuNpfbNzfpSs1fv1ZqPXw2yK9hDmtRj1VHm9PjrX5wBPzHEmk+64s9xqvvHVrYfuHZ1iC1tUWu90Pvdk6bGn652dUblTWi7XhsnlzuYQYa1cr3bGO3cs3fts9+KdjUE/naxWl1+4fve49EIVxU91qc+qFHc+swULvROWSf2r45270+XRZvyZC6fv2b5SGkzWULKsLrde2DmHcVYDW67RqKSDQulhyFLieLGO/BxvOdAxEVKVscRzImpttjs7d64mG+tLS6u9brpOQ52ovPYr6+1z8fW4vZSukGuGoSEwO+FGKcdWlEbnesn1dHjl3jOtzdI9O5OteHjtnurDn7/SWF25nAzb7LZDBu63MQNiAWtcq6xvbd514tR4Y5tu12HptgSHRJUH762/+qH41MmlSqs+TNZG7d7jF9tf+PJSr43Y1ku7tWZr1O2XKtUa5y1xEgb776rV0kqzu7V5msFDV/moYxdRhUt3MAwads4hjT7Z/q1vfrD6ZPt0Oa6OBhfZb3mh8rpPPNq5b/laUqrXVgbXNs8m8MnU6BG4e77HzNQU5ZzvT3CoYS7IqmprabTRRyG22RhV6skd1zrPrKRxFyXpae7qi++/5/xbHxljol4tXa01TlzrVr74zOjRp/o7W102ayA2N7CEH8pYfDRaTrjsuPREunWiWnvoSnRpWeMlVXa2zwYJbMwr3da4urQ2evyhU5zPdfb6QLb05cnn7r3nDZ99pnJHci0ZVNM6tnj1fq/UnIzZ5mfOqxCoBx0Ff8aJb/Ior+xUEkZ+QsRp5kLiqWQ+8E0F8soIoqc5PAG32ZQesmgOyAcugQJIQAMDMasYoxnQzQjBdpVzkwGfVjgsExGI6d1ef99zzmRGcrbQqh/JFIT1cMPNTkPg3fsI222dNkXKuD8g4GiHp+ER3nY9Tgd/X5R3N/Xx+cIsAl/xgarmZq6U5oMABgJTahpBIQW/MiDIXEZkm141t+fhB/pdVMdF9NH2kXkuUFuIGy9JiWguRO3JtwhOzuR7EqvRM2jOYCHVLPCsRvmy2hQcCeiGHuFwVMC2rAOC+NiF+FBc8yzDNokZQgXQTiiwFQczUZI0IG6k0+1Cs67n+ibOV3A0gOMJUHI5JqGHegMCYgpDf4UD5oZr85TpgKy/G77WIzDWJH1giuDJqKEOLnj+dMgeFfDnFb9TOeQSTCOXGWUpX0jvQHgGmFleqoxOjh025ojVXybARDJekRS4C4fExBbPVgiQ9/EsGienspQeu+/tIcgRNVREDHtV67r+MIvNm4PKOKc7Kb3ZPMSPq2BwM8gZX6pOBsKrRxTxTqxFY25AbMrja6UETqFUTCaq5aiiZLJK8RBKPp7Kr6O04RYbPQ0fJF8yml01QoryeyXAU+H+ojyHcMoauqPlcyqZ1+is/qOwFNUEwgtzH8ILC35SCzHJsthWF+rwH+d8yDrKWaS0rIOEdnklYEfP2wc/7708ITuweWojoVXQc4kI5nQKilrZpDSpkRQPr6Lc8pRTz0U8xxfVVEp/hdXxUK+pp2ayggMXf0OhaWRwvlJYlle3p2VAvOZ50wuOzw3BjoCg4hzmkP3p0Iohmd9m2YBG8IT0IcTTh4aYAnU0/pkCwquO2be6MwaKICKLQiQgiB+cBmIV5dWgvYeeCtzX+dg0VSlyeI/AEyq+L5iFkVodyJo0U7z76yKuxSAvwCpiJe19oWcV/fCDp9QPHdCKY61eyPtoGxBgfJNBpzo4U7KPALyREtmCCEJgPGIRomSvRpkKlgWJi1yAJLGy5yrAgK17wpQ2Fa5xZ54r1Gle9E2HSWthzkmB1ykvbQMVoV56athyOnhyI2+ekZmfNAtkKc8lWHtdaKApz1R/35tJb06nXWrtZeddaPlAEUIcVLG/F3Hz+pLG04dctFeosnucPpJp5jlbDc76nXjNW1UwlL5YohcRxsmM4XO2gd5hqoWBifXSywygedWK5bu2dbcRjG8oXaw8zzEizDog823h4ZY3qyThPt6GLEqZFxECF3kCMUngtViUcjY8VDZ4PE2G5UwGW80ToflPJEU7h0NPiAOr+jPkw1I4+IseJ34xxP0LRNCMLUP6edTNI8EJl78d4hcSBCq4P7weAsrNJaX9Akd5RcJrESWvoCegQHmy4SJbgQ5wQvhh8fIiirmK1NgTSzfUu0QJirMvFeWjjaeamd4egARPsYgD+ouVovcWkSn6b6aI/TEplrJ/SmI9cREZ/MXXG0K4mQQBVTzB7wCnXm+mlAPmXVSiMMv7bPAflkRG1LwbzEPosADnwThEWKgIeULt8ItjEW3s+949SmCiUhBfQFVZ9Om+ZyjzGYggiUX8WALEJofA051iBN/A8vkB8LzrKVCdlblHBKPc33FHoACkO0KuI2dxNphbaGhB98AV7pk/8RYwCNCCh8iiv5B22kuyImeGzxXC3ZEhyJqEkBgmLLqp11CLYpq5fi83ECQUR2L8PIuIzb7OhXm8gSAwhUMR/pTsEqgSCAIp3B9CitmP3b/nTIR98D5Cwd4eGoW8t2iMExgnTx57BMAHyhJ6AqkhuisBPZDjG9zQT4bbho83A0MzTEQAI6qGV/tc49sFcR7Nv5J6ugOVv1+iWTp7iH2L8MnuSl50aSpVpyW4BhuS2Vcy1aHLFcUpClOc1cULBqAF7EHDBwXvbFbzLBZW00o82am4TR5B76Qpp1BrTVE2V+2Bm78UEuZBB/gFT8d2Ls5zAXjVnGhzE+wfeOSMAezNQwigjuDx0u05n+REeZ8DOH4mhUOVMss5h8p+w8TOgSTzMS68Wo3m5M6+2wNLG6+CpHfqLJcPLsaccC+B6sTiZin6AUqPzohl/VvFGECltAL08WprV4qxpFpDgTmlIeAdGtrsys5ZjRNSOlAE0TY+qAcejsrC4BvTLWrH2dreak7zEtXEeX9wj2OIH4/7Sent5wm8WaW0z5hm1zNbi5sM2cXN+Iux3S+fFXrWc8EwoIon8JmwM56jI7jqxVblxNhzUQoZPdaGcnk9NexMcUwuu0XkdZ8L7dYF7raItVp4BbNioUHG9boTpQpgHaW99XLolUkzJXJZzPwHFZ8fkVFoQWQevEeWygP1qwoY5N2aFKP39TtOOWLWNIXW1fu+2Y8lMvQBoKHUcYLCc5DbRAcVAqG9djwVpRVcca0EC8eRCPNovWQ+f+6H7CLSZZawBSJr/QDbJrGCbkJGmSybeUwZsH5XQ4K/aAYOjPtMFbx6iBc/S9HZkCKiXnEkNUD6fMZT6xdOAW380Oe69toKkHpv4EhJV8fnBP7wjlxO2+A5PIxD5DAuEJ7B42iHV4/imYUfpU6Hw2cqtdNhCh+NlUdyXovZrICjCA8PFJhNdpAQ5zpSej8Nw+LcvOp8Vq7XxysLKqF+WUiOnncNMbeNrWQGLEW42omigUaQkilRtlRFmFdK697O7/piwfm50qo93YJU6q2ksJEkpqMQQZ+0heC5+BfHorkJXjqBRgGRC+fUEG0PNpd4rn2e3oj7JLgNUaGVKStYWXm5Xl/3+3IYDeececMWJG+xuxmojIwHrBRZxIzGsXCmDc5WrLEZLCZuNU4uAMwmLHLB1TCk4+ndpJDsBl6yi4enBClCpovL4BRrOgVatbBcRoGFEKZyLXotgiJNmIOm0ntnpAo0ViAFaRQ+lXTf10WJvS6zWafoPEeWogKH44LZQvaGAE/YaOA6XsB7i1n8lmmVjLI2TGYKeY2ZhlE2sjttjK0CMOQw17uyHWARrUPiA3oKBFaRejWSe9fFAhGRDumFMR07Jo3dptfl9CnGbboZaPBl7MhMNXP2Oo/MRCGmT6U3Qc0QAA31RrWUFSgQkqeMO/HjhU2PiwJOKAOv0gU7f3rU/k8S40jjz/0TH28sJTraDtYRCCFTscdbdBGal1tsZ3AIY5zhY4KCNVwx4036vaZeOqB4Df6DQz6UICWwpj9W0V5hbcuzjuPvzjzGDB4uKafAt+pNlsUD6Ts0YZCo4Gp2gNLNoR4pLTzr6piR8CprCY1cOitXPtsfBFLKYMO3dwqpuing69l541KD4LkVtTkaz9wkJs6lFB1Kx7MIJi3rztuz8JrpgWYy5hmMdLsvM+k8IBTtKcNrMbnwNPaWp9jPLZFXB/TgPTG3PGLpsJ5QBBX8QJzvjBSAoqyQRt/MN6zJXnDkJsAQzkoq+vemPc43UcpQpQrex/OKLuqQ3mWPEwdgzZGlQgnWRjlWIfRIHkAtZt0jQTxkJsQT1y2hzs/IbdT3xtbTBmrHkhGZzwLZM+PLj+4IK9mUHBrvkFhkyWH6zMEE3lEYl4UD51nrMEQ+cTm4AFUZAhw6KpL7sgWNQZ/hlT/vReRyp28sxvmcm/MC9vxaHW3XhyprGinNOsJADQQjkt8OeOTFSyE/fmaROR16D+zb95JRzHDOSgXXW+y8UCdv0e/Fino5f+MXKW+lcwRmS8ha34ZA/DkWx9OFi8UBO+CwW04xhflDmpkYBTiVfLTLKLYA0z1dL1TLQORFqK7Gx4KMfUkerulI04PlYk8usep9pqj2DwvmDK7ppgg3SSSjTj20jRbW++1N26oFiBCUW2wDpNY6mBf7cw6vVwGmFVDhclPjw20d0R2Dm3h6g+pZ4OqbgDedNTTNPpwzneeY3kPRwFND29ib1Zc2tMUBXhmVQ5PBMrz7AY+LZOVQEfOIGQ7urLgsuVgLhtV9XExA+pQFTeJGYls5By201Ti8SWPKbjXJ8TCjzXGSgQ7mQvVdsgATY2RxMi5/OxisvamU12jrcGxA2pvC3kKaOXEWBJxilKNXDHE/+DK/c3ssFGCy9NUnGs6oYr0x5MkGmvC+x7MI/iL892SekqVuWLepzPu/5k2VpTpe4PsXPRsryhqrhSgIxwAKVoyL/gXAfEgyxku/YwQGlQRjfYlcQUGl1HuaOIC8KY8w4coXKaOi4SRlix6DvjRBsLb6Dlop2aTzjiEVdSmOdOSF7Y6AlCoCeON79SA8ZjuCV6KZMRGzSPGLBwb1WWdObY+CgnXaQsdzZOYAF3aOo544r7UCD1nzRUUcioSLgDhut/QZilYL7aW5sYGTIxfvrIkPhU+AX8w1VVAx6rD+0H32CFIzdQlg90wPtHZeZZPvs7Y3nLNtOyTQmpvnF3soA4U6lwGNLg9Xs5juXzWKN+lKk5aYSwWayMW7lu7ySVQJycVpbBTH9dIcTEKQY8As6GP3LRofAjVe+p65/APaHp4T7KVSD7ACJdiDdnTcioIUWLogJfzzuWAWdVXN+SCPE0zx0oGcJVZqiVMa9jMXwvMA0RAGs8E5o+cIqw/xqDhW/KrlhZB8j2dKG6NMxrzZ03J5XkJeRDZ2fALqu69761VsDvwcJekrs54R/DNH3L5tl6fbHVhCiHtcPJgKnH2dIu9uAuf73fdj9d1S4HMwNVOGQPoghpPS24ln8BDorUCI42ltsQs1wNkNOj4fsgySCv2BolnsM7yyPpoRjR9zpAix7uF5BEQELM9HxXljVsA5KKYHinGKIXpmkv4RirlRloD8rCdkFVo5Yh449RpS3iLPPsUdLep48QykA6z7Q8g+6AUc9k9TjMUfIIfswUPUPrEh2WE9DjZAxoOeiT8+RvlzP/yJH0cs7OrOC2JsVXeyFxOnpG8gsdLkw67n5U2CFE99QTEISE/FH07KX3PE8utPFMnuV56Djdqe8neet58CxZbav/QwKgbRJPDJbEa+c3PmUmTRP5t4NgSsQpbg8WRTrwQGQcpsqsSIzq4B4Vn4c0OKkL1qTpw94YecU0Le4Jktmqh9Yovp908ZmiNDPpd0d2Ua5i5e7CkVgXmyyaxYzMH8N+ScpJginzTVPKqtBhSNF34ajAkkKpYskifAzVJkNdFnWSaFVDmYqDzZKfX5arvQ5RaN8uXG+Hw7ebq5s1zmxr5qr48MydfeJG7G10cdzgEHrDEEWhluSObi43K33YkbTStdhe4SjivvknLcH9Tj0lIlqffSz9W6D21WyvUap4BzJculVvrqa+XNJuetx0la3mQZM+beYQPiGHNFr72O4prqwvIYwyLCPoooTkoXybnkhXtJ6BKE6HOT0oEw0kPOBlH3ZkNq9jL9Y0OyBRbZXSsQxFCqDeNBzTOEbogyMgDX8F2282xrDOWxDhzkapyqTspKIY4v/aFoAxVUmhnd89KpRe7d89uzEwuVXNOA5hx1Q9WR65KtWa1bsstbF7mVtd+RmQRrM46C5NOHu44192AUz8Ejan05KaNzN7DvKhO/1F7AFFy1nafN0+W/foyiE8OfSpyLsFQqy5aXwLzpWQ3/HAMRUuoBD6TmAmVZaFAHy1PaN2Eikk0G/d5y/f7t6m8v9+/Ymmye5GrD8ant/rV6497tUrVefpY7url+e6ALrodDbvQr4m/ADE9IJMAZPbNaCRMVmyGtfmSveJwOIcora9myxBmI/AcYlp0eKAScTwQaJs0LteLFqDhdkR2cgbSyRBl3GbSQJuf3kzrcAABAAElEQVRnD6A4L5FDUXeT7PFlX+wOJ0ADeEhVjBJfBTwNQ7fPC9uUaDnSK5G5etK/XJ2sro/j5eVOlJ7qR5tRf6la4a4EOUtGeopTKbzawS8G2BLYgy6ufmFO1YAJ/cUFo9xvhRrPgFOF9PAozUlyu8HQmnBUGXMhJtZUfPnrAtqE/pdwpGpa7lUq3Jde7g9Br1apVLvdHcqKuRbRAKHbNk+GWpE+efn6ncJ8N8qas5jL/U7b3WS5b//wkBePU8+5ROE55R1CRdueAp3lBUPPYn6rlLW1eFzjYZ5faTMnGs4JtljnkwyCRhzPw42feDxX4DxenauVximV08tTenUsMo/w9ViqpSFUwL3LMH6CldJbgbQ6lcIfhqWMEDk+w3C+3S4GhkVsrORf5vRCg0kEN79TmtNQkK31+fFLxUXnvS7jTgsMrSB0OMgP9rWKAyOMrFzaqQ9sYvTEjtZWD6jNmPOuVS71Z34BH6/1wPgfSjIU8ycMrSLhnDanA+Hu4aYwRxDMKcHRBROKwxl4j7/xk/QhUciYN08e462QFZ4FekaVB2GNH/A4B+BxULznIPb+Wu2sZLUkiXQNM455UL82Vug98wTEFFZwgR8KYfI6lSQ77FZuKole97OXmpN8XpA3PzE0iHrCpLwV97ksLKlwXcZkq9Nv1+pX717d2Zmc3+bGkXgzHXW4dqbRPFGLd7588Y2r5546AavIcTQlHJVyEnhcbi4t+dl6ziWUIt61ns4xz3XEpEG6sdMudUbVt96/fSXd4CLb4XhpZTU5Wd145qlevVrmirhqaSMeMSgDfJaCSAa+FA31gcynbU5NtZm3nDMrKV0YmiXALNiQhkKDv+jxUpCZAW4pJKxaYq3rwc5qNUOYKuN4UorakvTqZDa5WhQZQ8cIRRB/OKd9SRLjvI4qWuXzZkIZ6xqOHCNSrO6O5OJtoVJsbvMRULj4KAue1hNE9JwGgPPqWCaNC4dDcnHqqSbwV4ePH6oZ4ZyUwueu1qnr2zu9yxsnHri/Veb8eIzThq3y8sapZO3q80ujeLSUNipVLfZyOaLlduHWUZgqbi5exTRF/9zERwicoh6v+5eyf+zB63VAVB09b2CI73ylZ6HNSYOQqpQ2FJKqvTZpPXR3dTzpcA35aNioxGl51NX13zuUG6rgnvB6QJSm6ugYOhB1P01d1s2YfhgHLBqxCW7hygO+ZfjgGoyGskocpkjY/W6Pi5jqSY2ZZ9Dtcjsld7pThCDlLO9FHAq9401cRMD9xZDZsuCh3UDz01xqtEJ4oQH3tGbIaGPafG4sQFdzepZiOwq9PDwAXOQJGcMYaM3oQ2eGm6cJOHtKMMTWDf/RnAMJQ5kDCcgcDebN57KWVZWMhpoU1GqmINA0U3BhQA6eEDnFHrOVykICQUNO80xlD5GzcELUlKeYMviDZyrxS+31pmQpZ0drNjQQmuL5w2xuZcDNxb3BOOX63MHK0qn3fMvr/+r7otVTE+650zVhNuLQay5f/sif+bGLv/Y4F/yKNWN0AdwzFw/HKeqlapkLkjNBgUaCoNlkXCqdvNauVarcobvTSsqvufPtP/03I+7Fq9W47GYy7EcXv/boH/9ro2vXUX8tocGSDmd3IN7TAPoQALKNnTCeDvwV/4FL6CoEas3LTuTbk/cwLz6XhN5rkwolSGaxm5PQJwhFk2b0jaDPdyqMY8yRKkhzTigQ7ZVOpJVMJWz5ynTDr5CA9MG/v8dK0PelnJpPpRjZ5SUWLBEpEJ58fkHjZWaRu5Klph2Kt+6qCuafU3zagT3/RE4DpW+6Al4AR59kxVr/LyDqWBUCbuC1wrPR2QEqA1B8XDbS5S+KeWyy3V4un3nwZa/993+7tHTmbm6STkdxnDT+0t++uv6rpV6/VsUYJonGA04AT7ggSXcU+IZ6ZT+yy/Ap5PeQXZwLUft4Z4kGHAV6fffJedujaHD1Plggb3rjLucx8YNTgATop5K//hce+qHvLtdWdJkgdiNIMhz5/Pzao9/yXg0sBmSWhgevk9/VSnqjVZYPP6XzMWCMiuZWGihHssI3RN7x7bhcDv6JuFScMSpKEr55QXCYDhmwliqNpJyMZDosbgOgPgptPKSYRThb2nnoH7IdF8KZB9vC8sbYmyBvIxtqchwghojvRCuk36dQMzAyIIX0eE3TH4p2eSu8Gs012tkHuY1CEHMvgOxN40rBQe3gRHkNR+InQJHOKmW9g2YxpGkO3eGCyyrqsRkMJclUMwFqHmV3qWW57POxqJX3RE4WwbY5axrELXinLKDqSVPlFBMDW919IoMUUsRaT3QUvBb+Dbw/Ug4/y+VcYaV4HffP67EBq4MkLhZ3kPRHSLMInwIf7YG6h9v2xOx52ZWlVEDef/YkudGLmo0ZPW8nmm1zOa4OuL+3xHW/XS5bJe6OO7jcvpKWUy4JY5Ydpu0kbd1xx6u/9dvan3yhX9oBXbWuvg3LlXLSGw3RMrFGQGMTLraw9mNOg32rNS3ElUfjcTe9vtZ94Nz54aS5USojTS3XktLZMzubO41UN5ewSjUcDctVfTLOdQ5fYL1fWaJAU5OBJE9QA1BjRcelIgd1w1Z3mNOClMoSD0M3nSPFSp6rpjmizQZsras5GhrlKUR9XngSmLeqRmpJURmmZHSU/AmexdfgXxAsTMjAH20HnbXMaAsjNCmU0Wc6hYEklvHqk+DCr2qhEcMWwIJ5JgIT0HBavbF24yFxNSBR8HibFp83JGkh965XFMrrVvR7CkKEkSVw/4VxY6s37A7b0alzkwgNd51u0I+i2p1n22Vu4ObeNgRoPghUtziuyEzmMM4LnJNjLhXmpDvmoIX4BH7aW+Ci2oprD+nss0EsMdUL9NGCnlLQtLTuiPSf3y7XWhFXhMfRIErq6rVpF06yYwuURl8fNm0YGqHR7W33YQy4+zrlgxri9sAwdmOfgIrHUY2XK3xiSf3KMj+rXvgZgBi16FXqFuVy0ulzvyiCAdd0lutlTBK0Fo5qipVxfXrw7SFIKjbrysaAU2jchtdQx+myboCPd5ddZsXHOOBOBMmze0/PY3Z/w7i0G2Q+TnVxyhsEoGTdluEGRxyx0E1jjufMC/K38LQJIbzt8WTWx1K0i1/0RWhiBD9wtV4sHMwF23kg5wSLtOjMpx+ltGx4hL050IO2xsNCPaAZKCNumgKbZT3OHy+OgoKnCJ26g6Ge4GemIzlPZqlu2J1DdchQ9Hv+2QrOhnjK2bwZBoWfYppAz0K8vLeeolMFHu5V9lJUYxEV9gfmY64YyxmO5Scpccod/jNHRdj3YOQjrTia8q2ofKIcoSWvpzL+KZcSQk5/57uf+OCvrDz/JGRiUXvcH7KqktRYnGMxkGVolQBwTcYSZYQOr1eamFuNz0TVVoy5VJXdkBUu1mUupMnTyiSulTuDalLqVUrXuJh4UloNI8He+vigB3jvLjbcqww+kXkiPDnzgYR7YlKSdqapnYZ7YevN5w88qoIl8pTew3VPLyveEtQkoyCnoR9iDLdvWzWKnFYcNCjQK/jcAg39k2pIoXbszmyxlKsePutU03lOtbMsfLtoXGPiYKe31pqtRJa6hAhGbRKqWBVNfPDTCYUqCNycAYADpfGbzZkKy7k/6+1ThUMND3Gy4FeND+9ET8uXAcz9s4MFdEa9f73ci6q1ThnWZPEWEZ/bMbnItnR12N3sY71nrDgexeXKIB2Mh2FL8uExuzU5xAiFbutEOxrpjgXB0I6OGDDdw8TmfXZXkCowoLeObZaVMAWQ8+VEgjp6HjKUK0OpgVjg2528g4Ha0dB2vVT2QWRd0uEgSXPMAXZR6lAlbsCM0PtqEpqUpZkEAe2eLQ/odWlKt600GzJgQZkJ2lJclXv9nq7nQwfOky7q+/ty9j4atseVKzTKDQFiizM3DVTBZa3MNuLgL7TmnowF+95i6dKjwxuSOOX0hJPV5TVAq80hnUho32owglIdwmkc0Genna0KfEBZiWPdZ6cPYStLwAnfldhmSsisbTw81BHYtlrm2P9/7L0HvGdHddh/+72/+vp27WrVkBASklADCdEkBKIKAQIpNGGMMcVOHCdO7CTYDv/P3yV2Ak4wEJvQHIMxGAOiNyGQaRISklBbaVVWW9++93799nzPzP3d93ttiwrFyezb+5s7d8qZM2fOnDlzZgZMAbjGFxmOOhAla8E/E0fFcBRFoaqVxKMmAjJwAAQQapQSR8fU0TTkwvnFlZXUr//v+UgwIHqpopM8kuSSFqKUNSZ4E1xIzpM0KokdpKi8U9ii42ICLu2NoNNllKUrsqCVIWkZYR4Z27dOvvDC/e+70wjjyWrD4lCAWPoVriRGxnWYMhSgOTIkUrfcTjJA5yR0Y4u+pC8M1+qiRkaZYCUJ1wTnKWUxTNq8qA5LT17WOeHfAjUEp340eVE0lKUJUz8lRHFeKI+KSH/XQ76mSh1/VXJUzFQy0dxBvaoOL/0RiocXJ4bwbgJ1EQhScGxqWnZUXVYJm2CGrwWb1tBIKxQg8XkEdepNQym9ZVn1CdGp4I58FoFXsR4yID+sx2gJ1dk0a7RTWcKQ3BJBueTNg5ZRo47kVRCSkqj4Kt1YYhVIU95VHjrVsiqsEm/toKJcFWHUr1MQAhjAreoiOoOgn7KAHCHPs4yHgb/juLY5bxme51f8IGBCgHkMSGU9x8Gem7ulddVUQ64Nxs/yy2hzj/ofExhUI6+Wk27O1b7oMDCtBWvdCsLN6TjqG3mCf9234QeE0e+QufEQTRGgkfS6QkRZbGL0L71VDv03k1A1nM5FT7KVn8ca8NCuazkhBrqXAoCnhpP8RfoXWuaH1BzSqcZa4UGIUKnJ6eay6yPGgtMy04NhjDXoZK2a9gbd3sDwvdx1sPF0E9aOFLkLQ1Fe9VwDTInwM3C6jkdS0Gi7j6YaXfIa1UuNMqXR/Bfbi1BhbIoDgHcdSfEukE9yCaEk1V48oBYhBkUqfCni61RLnkswSjQZgFS2+Om58k+yMkt9OV8lAtFUKTS1UOaSbBYLkJPDVnOa6QGxaHokf+IJ6Ms64LLX1XJ6bMJWFiR1VE55BCf6XS7jFmWEQrTizMQqm2llPsvgG41AlkUuyyKtwMOK74cKGC1izY59qAx+/t8W1/geASxCtZpFCg8V6qJ5+NfzUCzFYcz7AAtwtuTlnajGxI8pP1TMbhe1hmSZXuwbW95xZf/z1+7b+aCfJBWxmEJrxQxRX0onQEEHMiqrgsA4hdr91LMcO8mdKG3YlhUNqo4vk1iiwRTjdMK1rbBnuU7az4PIzRrS+it7vkBLeUJmSkDR/VCyUfb/ig5Vl1P39wnDLShVoow4TbFCZIpHl18k++GwQemFNkdRCoOELO2JOCWintrAJwxYC1JSR9VL4e44lCcQvpC+ZtHClTQkQ+GnYN1FyUuJfRFmDWcJpGStwJMTQvVIQs2F3YisJD8iXAlDU4Wz8KIGR0ZEVTH1AmJ1zxIIZBxVPU0rxob9mlwWYSiRI54yxpLQ5byp/KijA7OuyGI4hZdZjfilXXE8VRLBovhEX9oxotypWmnsZZnriiEHeim27CEwJv0oydLISCAxRlZ0q1HGAqBkpJ7y0DBo7JWBh/VoIBdBPWyCNSLocsmnBGDoWYRwjaSPe7Dup5oC6Tva6Vel8lwEQBtw6PGJmLZhVyr13GYhyEXoVyotlLaoqmSz7bCCRUPrV55Hh0ylyIVN0ZIqYdFRlOwFlQjtqokbQIJJehnKYJnf8YLiilDX94JaYI439+64z0uNZsZGGZb6zEhUy0lDKaXowrAUagd40j2GEuRizYe+tYAfom0Y73C/a+azlB0dLhukkEUeCTZ0fMm8QJAKGdVLFX1/ecZFvxsNFmYCuyuCpOGE2Q5f1S8hfCcOJFE0TPEzjLf4O8xIhchUUAIQf4t5OK/8w5pNfsXRhHBUOxY5WnqvzBILliqflxGSKCVXd4IByVWtEui8V23ftVpk9VyHoUNoh+9H8yu0JnQqTqotVCeDoe45gu6h022sQ3TvK5A0jLDyV1dHkbPgqixoZcxVQ9bChs5wWRIC14q/LOYjfl0r/xEkLc37yPrRYudZmvoo3krIaEIhM8NotrJqaLCBGAV9WneiumlWU7PhGA5GU3Fk9RjBiNhMbac7cKrVU592ztjGdbHNUguLLcx8hJRF9ldO50mQ5K9eOBTArfiRa3byMPT9PkMh2ic16tNrYieJAvkUobX3Pd+v6HzUs8hzGILEoP40f5VeIn/Dr9KxcQRJ9x4yFOpbVrmMiWdVytCRKaXYqajf5SkUQyAJIXqYvHoWr5qeNKFD9EBRdgZdSlEWICG+8ll5Fp8In6v+jYKr/BocYtPr+GMM4LmYWOaOmKzZQCIMS5zIsqCaAYOhkQdgkxNsSxCnq6M82q8LHPWvAOGoA1bmpkNGn2Q6Gm30E/BjYBxniSuDZO5i7WKwsByiBbEx5kPCTTPWl10/kDriIqVsWArmaOZLv/ws3pbQwJDwCpL4WZR/qDIgVCHIEbfstfyiAdZdDJkdY7yIQ00sdyCn6goNZQZnFaAeRYUtrbkM5ytDypzX8hSdHSplDU53fKFYzQToYrI8B/yK/uUJn/FEZykTTpgSHCCoVafXrX/hb/3LDcdua/d7ED+yH7uPe0kUCjVJXxAMKA9+Mvn5tosu/RHDUCK5rNFauB0NpzVX/Ssz0dkuvg4JRoccLbSawMo8R+lNB2rmqaeyfNWCEp4yiTTuiCP+qn+QilCi+qa0bPKq/kZr//Pxa/Apu6gH4hRCyRCxhGskHOF4r5ugzFNXiVfJZzgu68DRJ59WdaNxDu3XyQ8d5xf2qyyJAZxGEwQ1CqjGvoTA1mS81psrRa4YzmCULoiBHO4kjEPF5c1LOVyqjkYpd7x+Xuv7mD0ojVGl4+bY9rZRoydxwDE5tXoa5a3feVvty7dX+q09lW5Qrw5avbHMCy2Op0Ia0lxVchYglMA04PypfsqZUchnZruFrTpHxMhpxELZpms13G4eVhteH4WD3XNY+huubiltNbNHyQ6HvDaUgnVBemYgeBCTpCH5EUe4uxHLfEYTk+pCxFKENcxO5TnyEGEI2ybAksVrBA45MVw56iLWUUxnY/R0Rh5jXIapaySzCJoEuwuRbPiTBVHdLcgXxEv5/MeSg6eaZvMu+F/iVHvpEA3hKn6SqMGDT2XvEPXUIrL4IAf7UAprrPKkP+JMzG49OaBd0tH2wCMAQAr6YBUpi2CZyhdgoQcgJSEAo5CvLERlSyDtIlxMIZCnktNE9Vgce6ZT0c46rZY9YRC8g7SSLeoIelSmBEG4tCBmE2KaIUxT4U7olOVik3PPEJUsTtMwrLHYYhkvRnaC8XQty04NlJyJzTpgnHs2ujjbgeyLigDGMqfRq5/lpyU8TAOjvhX5SG0Kp1tUoNPIGbaEwC9oHVa8jK/C9WSDQstyC48iWMGngpc3nY9QlXJght+yOspOb5j1EfxKB1zNselOGkWYAGQhddIxWQvW0RVcwh901Ytyh5VVlCRKi50bzPV75oOpKqYAZOikiZOZfTcsyEVO1hH4JU95ItGvIubyEWNLXe6yZxmssFggR2UmBCg448Q7glUXoKwkD12xlcqTOPHcRrJp84Y3XbntDZf3jEH+O/0Zz215YS32BplR5YiWJI6EuAyZ6cm2EsClH6pcFf/RVKqbRgqVYqQuuo3wLPo1fKMhyr/Wo8DJis9Qu3QS5QqOLT2OyYTgTcqVzqdjSNdWeJbYEqoglwaTP6VDpBipjUwsdUOmcMQhD1xs4rWgkYSgR+DRaFHCDWxFQUkq+ShOcRJpEWY1Ut4Kt2yrTfFdUi+2u0xPhUjEiR2IqlTxVHWGZOHGivNIKdAk8VFES6ohoZT9SGWzyN90LTSGVFqFF41SFVUXXAKgky8+9TAEOlU8itcxmclBdcIsoR/11PmKHcLQwSQFZgF5WF8VSeqkHB4i6J5HgPhVu8lHmlvlI15NmQqAcu2PEYfvQqg0qwCiYuscyFecJBsGF1/LH/mskCAlKj8eQjBz1OHLYhJXh6hoRdoCxDLq4+bRsJG9hpanxgmQl5+Gha9eYx1N15SYj2qNb1jSIX8hEGkZBQ2CFHFd00tDy/GNKM09x/bM8cZ4ftkF+z/0YBDnbuCY6aBvJ6ytxMMmOWQBh/ooZHqo74uMrMQI0UkiFCMwSwPDJoo2P2RWKz8KLcKhZAjXz2JcFw7GFxWOT7OwgivxTsGKlOnJeOWpIuOB1qmR7uEUp1YiVxZbQEtanK4XHuJpMi243rBKfFhUAarMpL4SHYlGeBPNR4no/egQwKLSSZ8nS/RYMl4McaxZDDFkL3mBwCKBzlBVREZbYQWMngIe/E+yUJkr2VaVoCHXYEupmn4EqKNwqu6qJlJ3yYXEuqyjyOVRRNXIfxQZHCrp0paVZnlESDpUEUfyTRquwHERXRp3hSPaIRxfGVmbf31t5zv3zBt0fyZhbjKIKpaXdJgL4YqBp8zkEeB2WZJlRCUwlLmrXoa2ddyrzvX7vWb1lMtfcMxLXmicfipx6AsQqaLTkQQiuQjZwpERXOibbOvDXkGcGtIeGRNZBuRIeYf3qrRL2gZYdDIFFv188ZXI9Eb9lTT4il45TKPrWzKf0eoXn4YQEUdkghVO10V/xS/IIY5IMCq2HsOGzxWpDx8whLSISUMUQMKYhjxcKq7OuaBoyh2KU0Ch3RGVQtTDx3tkMZb1JZXJkRSn45QYGE0iNV5EgORYRhuFkSTS4sKcpVm06E8gkVeNP5p21K+LHgVg9Osvpn8U2lH/oaFdhpbHRZZSNFoMsKNdDu19EGF2bvm75ozN06KbytmCh77DGn/D8+//wpfGZtOoG9X8yr64O6Usfo+WZqECnYRy6c8yn3okTsZ7nGIcrAeIQb24NXLTxKdiLHkME8l8mkqqY5yEX8l+Pf5Y0hZCFfmImHQiiS9zK+QnQiUrBYDq5/JFcTcRCVRELZEQqZBTFoErZCwyEVMHlRF+ctN5qmfZLngQ6vRQVzAcFUGKV6mUrMOymIwQEqYUbOqXyZPAL7KyQg3rMTgqqzU5BS+WjHT2EkuAH+bP6MM3dXkzJlhYyPCPr6WISCqJoOsr2Ry9A7bFuSrlK6569NkcXYplfWzxdVjxo8tuRWydoUbLqH9FxMc3QCNTt7J0N9ptkQYLVC9DeEl1yyAjEz41Ht7VObiv2+9yiAnW3FacoJigC5h+0YaLmFyWfunrmtHWwD9F6z6kCU69UhOzVh3rz3WdIHjSiy7Z9K/ekE9PECgH/LLsLSqooUSlsiUBls5M8TmaDCqDseo5JP5CViAaMw96h8KSRFoKdvk22qaPhvhVhsJiQC9PqaNqIbU9WoBXPEWCZKzlZ9hVNADDTgvYokKSaIpBaD+Zq5MH+F06cSJxOTkrq6Q8wtZwYICnlKGxrniHikAYLIRPRdE6vvq05KGyWRKiXpbhSiqoHQptVZbmq2gD4e/UAkBUjVU7aqgEJbgipeadw7cis2WlDMt4TH4BqnSKGAtMCBtc6daCRE87yubTUhHJV89FUQFfQRExoU9QI2dTS4BqpZGCixJLxI58+iXyroW3taogpHoE7nGRpRhKoVHaEirUcNM8xZxP9MuRsWtP/sDD7lOfBLtxWUdi3/OJW9ZddlH8wWtdM0r8vOp4CBxC7UfjKEvXmuKkryinRvrD5DKKLOnORbnwSyQIDIYgQqHMtTBalrWsGFkXE0hECoE00V2Ln+2OCk5CECCkaKVwot/KRRWKDVERyJo/6oN/WBXRS42iZNjJFVwjwGlVbQHMsAl4LXsXfp2nhLCYslgB4bxFwmEcIBCZSd1HTh7gIpXRQGKKI6PhSoL0VYU9SaJiaCP0sgKy8KFylwGSfFS5VFI2xsMA+Ke2rVNJyZjqLcIihLTkvYRybQ/Zk6YYvURtTkGCDnmM5Lx2Bo/wS4lOaiFZlO33CPNbPZnOXFPHY1vQWsgZpR+BaYhD6ltWWfPr8lVnpROumq3WDegaztY4fyAyqgzSCCSc64spEoVwAXxF0cNiVyjqKzOFJRSr8ylL16/lc5iqYEoadfJV0YNOBahUQY9GUa9fyVjurbubN2STjTmWHqNkgqM6FZ16olIt+qnKhLOpJGfuliEPlFKuNLx0WF19lXMxXBFfS1SS8JBuEUjpW0OML02icb40TN7ALSnoSJJSPYTnKEe2hUpG9ZECY8OOTFpJMey3JT/RAaPtKB2ZUJWJLlEKXsOpuMwc0XPrihQdY5RFC8RDylqr3wDbGiWsHkxxggMaQlVJwFARyUUCmMoKv5X6SksdXd6rl/joQjW90Kraw88amDgcqNRIN9Zok62EbYR+JEfmAvDMVZ1G3FqkS2mrpvpFDhyFWeN5lPI15GuNO8vo8PGRpYQKBK9FQw5RzIacFAuILI8X5g7+4/c2P+WkjIs6GJlds21Ym157+W2f/na925lN5jf59dk0xCpYiEH16mVwr9o8EIIMnIoR6PjCI9YmuMWcFQ2URcArlR+DBwBgxKczCr2tldMILS6Bi5m6yFKGuq4JvRRm9YgL7BeT1QCJKaUIIxIllTA+MSBSi3pqZoAkR/UxnBJOMMJ8i65FTYc8RWOpLFvmXUOcE1h6mUcudoMh+5OcFTA6CVmWeCgwqQYErAuU6CMDBeZpOg7FyN4Z1eUJUSK01Er3fXJVGYMB+S36s0Ajqj5CxDpBsCoPxehEVydnCKnNB5oBEo2cl1WQwCN3AitlCAjSHHrufWjCOPLM/1/MUQzojqBpm3DBu7AC6Ti0Pk9NfkJDQ8eIPozCgSYBtv4c8GtESRKlHnseMFaDGOgVQz5AOp0tHtq09OvwUbIflnCkvxpCYgOdroibpBjWLWSps9CZic2Kb/kYCkbQLYt3IkXhWSwRQx8Wj6gNMGElKaQsPVc4oaJnZhfELlABJ1QGFo+GsA9bMWE+lAdEeNRiPKCJw/KVh5oXwY0VHgXD0j9UfIFKkklaYUIFPlQjjmid1Kcimta96eQlAUj6EVcYREqeSoentHR815LrSMTDeBdxriIeFofAr4hQWAA+hQyVUuusaSNqqvhhYfGpKn4YIB6PzyJpl/kyNEOG0lXU4lsZXnhoxuVBw3faQuOE7EblgLXapSwUWpBshzDo1tS5kuEw+38+v49JpTSqQcrjIkuh5xD7QTUxokNCqQXQmRlyUQyrOmnS+sb3N914p3ve6dwaQxv7mGyetG36+c/Y/XefCdwgG0SWT4+H7BnomcmQ22JbrklEw1aWdPxpp9IJTS1mMIyn+J5+GSVNIqviKIdkjtJ36lwWE476Vs2ZCGiZyELmgmoWyPwHP5OwRNni8VnYiDKyUDb2QKxUVywpSv8RLixSjqqtZDQMBNTytQRjlCwEoSq+TiLY0z1BdT/dQ6SPKieYUS/8SoCeGKpPooOShDIE8KMYrSzk+HIutKoLXFl2JEilpIhhf5NxBHaJ4AKsWkqSouUz/FMxDClLH7KAB8wgF6KuI3ciIO6o5uChQNJwDTNXoB3pg9KpIPRAlnp6DahanDrSLI4+nh6JJZ2CuaiF5otHn9taKUZbfOhXmForwRGHl7SxLIWmnGWBvFIqVZaGlmVrQbg+10dTKZ/0Urt+XSU5W0IhdOkkdh7LiV/YSrqOnPLD1ZxyRqxKTx1LTA4zWRZS0O4i/ofx9C90PBpQ5qZtbzWp8CScmGTi+bYZJpyCX/fYSGOjHEtjBY+cICr22HqDiEa+7AUTAma0loylz6keRYgopuUpVeSVeg0hIeZhmuywEcgZmFd3qtMJ/5F5jsKVTFTkVaeSsVYvrPMOckZgGVIUwVIR7YQdqVd5CBdiUiQBtKxGveraoqcuEoz86HQEFI0gEAkH0OxRhUueOJ0ID0lGMlj0rgxfGbIYmxLVH5yKtY4hbUspmHWSUJOl1JF4KkQ4r5bzVqnHaMaPk1+059KlhqLVEOalxdEEaxC6lggV+cncXTsyob6ayKl1iWe+cnwaTx1Ce8rqAdVX/GoRsbopVm+Qoohfop/FelH9ksxkRFZD/xBpukZL35bXssTk4yJL0X70OoYukajgSqoBaBvHRmKS8ZIWjWbn5j/+1caZJ2ack5izjcoYmO6617744e/eML5nTx+lVKYvflmDXpbXSN5hVgXLUF+FLSoSES5xOCIYLUbRsjBTIUfZxCY+NYFW+a54lNjUX6iv7p/6QHPygbkAGOsW8FvYDsSKkx7LizKnEIpXMofiSiKISKHIYiqOcCidRLizCFJglUJ1Z9LdQxetn7ovan9R7yGHIlByVlVTvwLD0oO9pdLFJ0lMYYobS7vxKqt2NAxURyhnWIrtF5CrBBFDhLQ3hcGxpXMKAahuqb6XjEze+JqhgUAPJXFFnKJKPBnY+C1QqsCm8sWrxoLK60geo6sYxKchdbvotIcliSMpYtU44KAoQsM/fKXOq8Y/2sAyfxKO+o82n8cqvu470I0m7PKARJ3/MkFqkbyGxUsVVGMkWex4NjcKy2WcrssvYzXxHQ7fXeGGJLHiwyFwshT/ZT/VWWjAeIJTagRJR3GnYtc5llOuvko4PJvjOOmLAgyEJL0SuPVgrBocbSv3BWBrQh7SPwxO2OCYB9NReilicpAbuYgGuiCQVYAnaLRND1HNMvGaVCUMUD4KB+YXPZmSFaSXqcSASOcCx3qaoYwZ1AfFYXT+wnpkUiUdltqqs+7kTe1BlA5MziBN9mqpoYiAUfjlu3RgfgVjCjfyikqP/HgFtEKyJA5ZDTu7lFt2HEm96OTTam5ZuWUUW+2Do0WUpZRwY6rP4TsipCtmJdlJwfIEKsoVaVrexJWFyafH1wGXoFo53URl4cPgkd+16gseNap5agLQDFTzXzAugSMZ6yIJkE/UUVn0KvKW17VLGQHll8p7tDVaq92X5aMb7LHHBG0opDni0AcMEKeU2ZQwEy/b+9nrewfmdEeCN0mLnrbtmLNOzWa7RqOCnn8ktXgBHTc6HC6LoOu8tNhlUdZ8LRExRJwQnpQ3zE4rsVdND6sa/SNO8TqMLTSqaFfCNckqz/C7/AqTWloihesQ+cAnINHCyjBcwAMhBWL0mzyL+CpA+/UTaQhFkZQ/fCrmikyz+h8xR5Pjl+VOWGtKPmpSzvHoyIIiDnKOgwBHHOqoYqqnsEupsq6cmICi5aOt8Uh3FqwzAoFzAUs5eJx6U71a8ig8OlAFPNIHUp2UU7iyZYcBj/2vaoGiOR7z3EczH/U/5gWtmuFK7GkKXzXyEQZWB4OxPA/SOO8tRO35vNt249DPYkU8i3loOll8H/Edmkg0lnjqFCL0KzeSgXipmuYGdpXr0ftRv4M0ZQbYIcQDFuqFciUO+UD8Oi9dLrK7LJ9pXQu6eXV2BTTPb+GGJen4UtYQmOGX5b8KwOKx/Nvh3nUpPEueWRanUcprGVJ6yBU/rSnfFHjSwbGm59hSGVhFFuQPJzGVTCn+oSBVMtISuhFSkV4++gdHWsa/dOll2pUeVTKq+yEr1O+HfJYcUssHwE1ziEg1yg2WNMQyilsJxS90iDTHCGnpgWwlxDpaGa7rXPZixFyNn1EslZH/2XiWIeFo6zWKaucQ6pYyX41fcI1HuoKIP9LZONTQQa0gS/9i+yIkqwbN3A7VrM2THoY6XEZwbKI02+FYTa9vGA26UTI3/x//e/Ov3hlx+pQVVDBCd934X79291e/vyUPB+nBjMvYuRpOzeo4PjGMOYzJ4JKP/iDvY2SV5ZhWDGRA5iiYNHVRe5k2WwMNLlFzOXAhtFJuyfLiIDfkPBW+yj+YoKiqhV02BtVWNWtZXT9N1udO2AoPmpm9eb3V7aUhZz8ZXsDNN0YvCtG+uNUgTKw6l5rGMTrR2DV6mT1IOdDPy7nDRnEI6aVatOedO3O8lFl2XLEGg8E6o8o5OR2H691IgEJHZkUgTy5SxYhV0Jn5qdwDJshlCqVkEoHZyOeC/kzo+pjCh4abmrvrlsNSiG1MKIUSkpGkHnGRTxNjpJE5ST5l+lkeHYh7RsWrWg2rG2ZZkjR8jhY0+okc8ZWzmtrNPbDKeUBu5FknHDTun87MJA1yszMIc8vxPAY4cCqXJPbDnu96IXeto5Rimo7pSBL7qRyr04gzcM4ybmLbEaZxaeqllm94bZtVTYsZeWRkYcKV1SmXwjJZb3NPsjoFVAlimMC76KggLibvqQNO5YD8CgSHdtqxemY6HpIxywKcO5NxhiaSkRyq6boHnMhth+tsFmKyTpKwRORmVsPwDmZtx62kmcMN0vwlVpJWrS6nH4ccI8VVMZ4oIEQXRjVAczoxMHY6g1Y+sOtj1ayatNptPxofj2IuP8KYODN8i2t3BTrWoViXGrfMg5z56Va8WJYP+lZcM9JGN1nwa9IAiuBFA6ClS7ibtHCeRD3P5eCPxPeqvSgeZNmU4S5YKZj34rTaTaqWnVTcA2a0pU+DG6FjhJ7PTUgcKepGUZ2vUj87jJJqUOE2yl6/bdfdQR75aRUiOQh6OA3JdpACCBxjG0fSrbrNedfpRgM/C+umPTaot6vV1GqnSQIFcFAQR5J6lu25dhrH09nUbCWdTXoN1wX4bppMOTV/djDXcKuDpFnxDuaDBSescY7lIPHlrgIPOyfppyKUkwJxgoGXvhibnHka2Y3IpunnODSXOvY4FlWN1mokA0vCrJU/dvqx5aPx6Fmhb6f1fJyim3GUcONPQd5C54JYNcXuBF6lE09yx4KRzNthGlhsr6O2bTvggk6I34JjZJbryWIyMjo3SllcVJMnAzfxDb+WIO4YkWu7xCLfLOm65rTpzBrdJBlM1ZtRnLieCXfIzEE26HtOnTzIirNakiA4tpvtqnTTrLPRDPbFeeCOBVG366FbizkSHY6T2H5qZhXTi6DvaLDR9LscoF+BBWRGUKlEuTvg7AfLDrx+v0+PiLk8xza6GQ0RNxJvNjDrRmD346Ri251uyMXtkS+3RVrm2MHwoSn4ILfX1CxZuRnwX9NbgSf1gxiHk+knaJPdP4h1IuBxObwL3GPe9L5ew7Lnxy1nrs2lE24eEB+ClUu3JG2B9bXWxMvlQYk65EBqskxAMQUSn24yEMzxOAII/xUL1l6RxgT9RRUU/yxWqdSSAJ9Wc0QvqoyHCFRf5NgRp8MJ0OpSTWN6udgR4ZCVaJGnWJqFC3DWHDRVWHzS2RVIyIci7UHRChPw/iL7AjHDwvTn4Ru/BUgqmgCmWAGBOpyhUAPKd4oGEnkaBuQgjEht0ypKVDnYa1glwIJ0WWRLETpzPNC5KlFmrDLgKXiopZfLsbeLTmXOKwy8DNSgqpaRmbsOVwpE8eoUS7BcppTPwxxHA6EobdMyzI2PMsQRrjISsIfpitLL96X5DPno0lBVO8lzNH/lVyqD5ZF517Sq0aVhLlG3SmxJsHqwlkx0ueRwRGt8xC4KHuYprwrcZeFSrrhhvGE99Tt9UrYIgDq5cMvutTq9+3bFt+1MTj2pliYcQU20Ddu2mS94RvtvP2P51YLgVOm6VRGnRO9vSZ/HYc2tPUAocy/hsYVcofGlJRu+Um16FB1IwrWO18zbtTwa9Bsut9HEDyW95vTUeGIt3HWgP1X1K01yXghRpXFxRINz2gft3rhbb4cLYcB0NAnDFBmqlrueY3RAhfQC4V1CukN0bQi9Xi9Brswxo+d+kjxtVit0zI6dMLFToieiLN1axCkCgF0ntkW4QpwCVj5xoGRV9HlRPkgzygjMoMGl9HJ2KCfgKKoUxOpeI/hYn7j9OA5dJK6cm3xAdmBXbZZK2r24ynH03HQfBx7n0VfsbjbRNudIXbUZU/KAu3mM7sGH7aBSddxdxmDDxKTHmNwfZD7b1BF1kprnUBM6JcJQ3hcEO44v54Onab8KOTku1zVwyiKHKAQ+N7G04269n8Xc58PkPjNqyLm2i1TSs7NgoEQn6kyvF/7C6pAoC3pO6iXphqDeG/R71MPnbPtkPLN6lheKEMPdaI7tVyGzOGSvVTgeVGInOMiJfL1+kNtNrz6b93eng2ZuxjJ6IIJzXzbXbJsZh+FzM7PsWC8ceNc+qHJfw2xk9njk7ur3F7J4/eRkLe0Pdu0dd8chTpFpZDJrVqwqF2kbYYKEMGl73X7iNavd/QfGuPLWyHo1X84tLZ0iOP3GgD7o9JxG4NX9fQ/vCXrhRK055VR7aY/xOoi5/s+Lm96cCCWZn3t7q0xUsPLI3a4RZMxBjHbTmvXyyYNIU5bl+61elzE4qNUH8cBz3YHH2a90aQZFs95Ng8SK3MCLEJab8e7B5HhzwqmELovpyf60lUTWuoxtEDZVy5Ar5IIN0bqYjvUwgnI72mAGVieJoPKKu9BrTTUqzTBru1knmp/yEFYqcxGiUrXWNbrQoB+EAdMeFrXSapyNhbaXGe2a2xtEtKDj1yH0LBrUHaRM6bQlj1DsohgU/aDWDdNKZK33akHitgcJhK8H4BKdo56pQd610v22nEPnplY9pCaMS26lh6CKAGr1lC1mkDKh4sIFs1OpVJKsmqcNGgiRCDHUzXoOwnHGnNI1HYS9ah/UV/uJ5XXswKpjvVX1axWrInfJgBY7Dw0zSJjKJb1+K6vL4EutOf0ciZRexh2jEJvHbMG0YxtRM0WJiwrXCWppJzE9N+vG1SzgxlLuX++MueTCecNh2PcblQbXOXfDcafKumASh9yLNYjTca9eTVIi1BpjE510PktbZuS5tfUyfTO6UQ94mIExXJUoHUVR6YeNcK8EEzViTube/KCDUZpnBkDXX+j5pkevCfvC7mgd4UM/c1f2xNJzaBDKaKXn0PHLr6OsksCRDipypB5RmA0U4hSjhrp9FMJaE8MFCylLOJxHICjiSHHC9Q+X5HDfNWwlKniFsfFajsU65NDZlMmXRVP5/DxoYhkcv2CvJbo08hcHlWVwlm2DZxkWVcBy6apMTgGKUiQRMUeJREwV+WjLCeAooWC9yX27dn7iy9vfeYLBnWcVOJ8sAk5eeXH7i9/IuvNKbayFP0hbRhokMeQn8iQfBj8EW3mR/sAXMi4cpWqYAUD0PIxN6uheEXaKtNCw3U8YnVFWJA7T7kp1gbmaZ7unHbdp6/b68Zut49Z36nIAd30uTHbs7t310M0P37cu2VBvtTmzPKgGCdaxvcztDxDtZC6uMqdopDoKJaETGp3uIJ1e12vWu60wQzGFOWsco5VSC/IJ0hJyGR0YGUKGTZWD6M+VIAXc0h3Y9xcag6AamWmfMcv1/LqbPbQ7cN10QuZvVI5/1F2jgtS1do6EkW2eGtTd/sKA4dj0A86aGJ/wu3MH6/WKX7Wj2XatW+vX6neNZ8a2UyY2bZjatnnymA1Jt33wPZ807B7cPKjWW635GlvBa2wAZ7d6VEXyY0xkvBUOYOXVir99S+3ME+yTtvdhxnle7Q2ynbMHb759/s77rFa/5tpNq9ZkyAis2SSkNcbq1SxMW+2+20QYYqCUStN8tBMe5kegAnN/Vgw7nU6D+3+QYgdpUGv05lutsYY13hynxBO2BsdsMMYbaAjRs/m79u++5+7WjgesvbNZN4n6ovnYUm/2MwYjmYczzZQLQVDjxXkF1R50NqRLmklwrKjiQBQ1YqoQBjXHbzTjucH+Xntiw4Y7KrWZE4+dOe3E9RtnEMqyhe7Cvbvmdu7q3XXXBEPngT3IQW7g+obVD41+lWuhC+GgIMfhTx72muO1Vtqfb/enJib8zA0XBlHW5fTaLPDj8Zq7df3EycfVtmy2G1XT8+bjsHvPQ72bd84+uMvohp4RVwdhba7nTFYX2h0/qLg1P5ZbfET7a0VmiCIRZSSjQJT0Fvp9hP4N07u6bQbNYMKvcAxudz6PekngjNfrMWo60+/4Rm+sUn3Ctk1PfmJzw8wgSVrdXn2+t+d7N8/fv9+en0fNMxaZfdPp+Vk9dwIzH5h2hEZ1kAeQ5WRz7oSxcZBz3NbG1g29dDD3wN7uPfc/fOdD6a5ZiK/h1RoNv530MYQai9yk3bY8WSMSoVl1GPBfTFsh4FYcu7WY26WpSmz2A9+ZrqU77jeaxdxpiEj1iyGjHPmbDsywYtgNM+DwhHnHnQusbVW/vnFm/KQtzrYN+VSdU+0SxL5e3JgNOw/vmd/xQO/hPVmrNZ5b04lbicz7gr5MtQAltlu9aDA1sWCOzaKZpp/aVr9RQwPXiFGVMneBlGxjb2+y1jBrgwxhic6Het71zdTdk2VotvzACg/Mx4PY5opHFHu+F6Y9OM/DnW711OPaCx2uKqq7fu66aBg9z+6mvWqd6UUWzw+8amMWLWFkmyedsP4pp0XHTY1VG92v/rB929379u2brdXjisFdylGl4ty9qz5edVEKV7gAdVE2HUURnRQHcWtGKn4hfDs/0Io3cEepe1A2fOR9rm2eaAQPLbADSDvhQMu5fvHp8fgpiys9Qzi0YHPkZQ579dopRIxRbLaMwiBSGLDKJF+Cdd0FVcKo9T9hd3xQqUqJq8xjeblURGVURFiGTM2o1ZYm4Xe4oTJveT5FevrKUkeGFCEqfHGyE0KUjtLWOgfJlA+jiQQktaqtkVxAqGMsiVgkkgirhY/meYT+ZZCMpFqjviMxfhG8S3C1FCBdNZ7EURvIVuCd+GV68egqHyVmi2JGymbcZ1896+5Mf1mhaPqB0wn3feEbx77hBcaxxzAPwNhaxJCnnDz+vAt3f+yzLsoUimfNJ2VDD+s0luHS79GOCKHghkRZ6EChSAZRqAoHzCUBqq6i1Kd6QVBWJakS6RPP8aPYne1E4Vgw/fRznnH15eb5Z3C8FSyGaQjqB+iVRRBBQZpt547mf/jyXR/+tHnfLoc74wc94FmwBmYeqB4BycuKJ3hSPMts1e14Yv3xV71g/XlPcZneJNjYO9HB+ev/zR/achSEsjxQN6HSJ2SEkbpSEqByMT21EUmL12Pf+trGqU/gNpNIrpDL4od2PfTnf9PuzrNaAHZV0YJlPJJBnu+vMcjNbL76hbXzn+QwQyeRl6W799/6n/5LLahl3UHfzGs1Vjjr9oVnPunKS2vnn2uymIEYi1n8bXfse98nszRhEarZgdV6LDz20j4jdNVxWPXoZWnHaxz/nKdteOmzjHNPysbGYsP1DHusF6ay2oNaioXF2GgPjFvu2/V3X7ztC9/qtvYHptfwnFbcO9hbCPx6BZmwa/TQXYkRq8Cs7BekKjSf1WUgQr6ttvuM2l7omnfVjNNe+qKNv35lbazmTE5zYR5nT6eGLSseDFjt/gx3wiDa3vXg/N9/afc/fivZtccORT3jG6jzbYbKBCJCQIstz/BQzAi+VriNwXjX9dIaSrekf7CVWbXkaaeOPe/CZ131iqyBObTVllEpY+Ren1nrB6lx045dH/v7wXd/GM7PI/t0BigPxsXeS929syJ7o1ardqIBlp0N6KAd99N4vu73x6tj55910iVPrz7zLKOONlSaMXItaGtDN0KQNnzHWIjiL11/7yc+27/l9rrfTLsszXgG62tN1mrNdqdfsXz271cSWV2S5XbfjjZMNs5+wparXtgLnNSqyopSO3zwfR827rnDd62o3Tctb8dpG8970fPqL7rYmGnQIEAG1a+3AycebAwz49a77/vS1/d+5qvOgwdmJqr39vdbVp2l8yBwO11ko9r4KafUXvrssV97NYvWdDzWfGtGNkGP4bLDW+5+8Me37/rwx3u37zwW6c5ktSzljgOurXN8uftAC1KQa4klemvcbGx/4fPHLr0QoVAWoVkam529+51/bvR7ZbRFT27NJQtVL5hGyZmaC3HcXj++6XmXnHLpRcYF21CPgkm0RmkuS//0Yj3VmoLrxXG+0Ir2PJzddm/ns9c//LnrqoGbsAbMkqBjZ8dMb73mJdapJ+Ym+lPLCXNZdDtlWz5egwlUImRVo795fPs7f72WZFuaGdo8sZNgaXGAnOP3QXa/e+dnvrL/hpuiLuu3LB7FXERjBIG3pXHu77wtrQYDIwtsN8QQ/SPX3nv9DXS7Qb9jWsiq/tyW6a0vfu7MSy82tjQNVnTHfLYO5pXqyb96+S67N9ZxWDnN4kH7wIH9v/9XvbDNNVT9KG4YokRf6YSZCEcpWIRiisL3WtP1Y3/nDes3HMOZEzFqZp+DHtr73/mR8KG7yEQ3ylEy+5WFH11ISQmlR9IvlQbKHJfEKUPX9pQcUqKMVIzstRADjohDK4lHz05VVFi0EiiKAodJy4GlKFKGm7UdX3V6aL4YSCWIBEhpMg8Sv/6wRibShEudjEdDyY/MAUhChk7Do/tWWTofyUcnLJ6K8Up4mVYVVNYWj85K4oz4l9d/WO4SPA8DD/Er1VdEOQQYAAtcHSLVL9SnAlcKpkIvNYqptWCVOEMxhcqvaN9V0kk05fQ3MuAgYxawWACWM5ZcuxIn/sOz9/zV35/yh+9AMY5ZDaN56FfHX/283Z//bhq2ZHu/zfYLtEeyfKBBFwKHcjQ0qwGieoWSSlTfEc2NsG8Zd9UT0mAqDxx2L0rnjHTbiy4+/m2vN07bnjkenE7kHpHIOOFGdouKvRZVR0feyCqvvvgpr3xu+PEv3vHev2k8sLeX98z1Y8ZBzFpwohYWCUi9gJ82XK9WD049aey5T8VgTILNLH1or9goqd6rzYOwJgMwCBp9BhFQWXFHn4qAykoUy+2Tjqk/F3GngoEPlhjeT+/p/tePcOCT5qBEKFsUP8AupP3E8d0nn+Bc8jQxOpJFxCS8814fZf7kWGJXsMEwzzzp+F9/rf2ss7G8yY0q0+3IwColcprVdDBoYPzkVuJO6oz5PTOqDPIJy5nvxQszjfXPOnfLW98wuWlzXqtgnzboR8ij2DpZgSvXfDF4WCarXkGjbpw/vfmM02d+4w33/8X7d37l28298zN+ZRbDEyOtsjSqbhoUhKlOr7RrhWauXmF51+qxmuu6rcA58bJLzn3bNeYmrEcYhhEMqaOdRwnjJMom5M2oWQGlsKXs5G3jv/f6sWte3P7Itbe8/5PjncxlJKqgk8oW2F/PGqWNygt5e3VZCtXdXDSoSCva7fHGCa+8YvKaF+THTMVGFSrEIkrP2yUxZFE1vPNP2XzGv5387Bd/+Ifv2TYfratNzidJPxkENODQ4dP8moABejff9VmgC007NWfZFnbR2U9+4xX+mecY9aAlarlsgpaIDS9CGWgg08vRj5jDTNrBqy95wuXPDD/9tRs++LeVH99xTGPcS6LOXNtgLTZwwzD3uT0wh2zEIgYa7nPw67ox8znn2dUKkMZgLI7af/epKmUEzv7AOPlp5530p2/nLG+M9xakc3CZk43+x8nyBdetulZ27hO2n33yseedefMfvGfh1tvXrRtHtA2atR4rQfXxU/7Fy/M3XmluHm9zIbRcZ4jFGNfUhQPTrLied+YTjz3zlK0nbLr5j/66+6M7AgbrzGjF3WqzJsOTTMkFhVQNtCgOyjPvRwP75O35pU/jggSH08VZrjywd/D72VBdMmToalpEwnpQ5SzNdn/QalY3vPy5p1xzVX7isSQNpRPxX1qa3gj+NbOCiQwcC9o0ZgJrZrJ2wpao0+3dctv03EKKnJdnfWzZ7GTruU+yLzo7gabpjrmBkVRsCWl7Ikib2Pzst/zJZ5/PujGCDTGQ1SBXujd2Ki4LjuHAvvEn6Q3MQlAwqVPSw8EAQc133Wee6zbqsB2UvLHlJj+8uXddWpnr19ZN7A7Mky5+7hN/443ZugYqq7ZlNWNkUAwn7bSb5F5l5mmns9qKGQAs25k7sPdvv96+8ZZ1bqUPxxwZ56hx6QCMmmuLWOGjRUezutPNyRc/3ZrexNIo3DjCNPH+na09sxrPulHKTP55e2CzZfcsawoGFEphyfjkowtkdQAAQABJREFUfADNYGEwEke4tfKUCRRiy7eVnoLOh6QuApuUK7xaugPPw0hUS4sbFgAccD1pZOU0kAI5VDkkCR1ICvEUY3aZmxpEh7np32WLxTp5Ab8GdbUBd2ke/3e9lchZXOMrkb4KJobSwUh7rBJrWZBu4JFAyIfbirFgNtCBcKXsQt5t5Nx4FTz8uW8bv3qlsXGr8AksYCGzp5zcfNb5Bz/3eTRSnsdl7aIbyrB1h3o0MEKF/B+Sh3hFiAHCgmBEeBIvgYyCOhEyluo8iDIyAKT9bH792OarXnj8W14TNRtzWYx0giBlZZgzwMY4uYHzZEREQqWBLToz19CttM3W5tdedvqpx/3wP787vemn9X1xxEiCDKGYGhDSSXStp1N7ECaOjL1OX66fInMUsty4DDiyQVfti8GamZOURdWmzluSfbuIP/IU7TIVYPuMgw0v6370YozdLadamw8rQFfWV4mVugUZPzYZ7twA+w9kI5cze7BCAgQ3d5rNRmeu22lUN73qpRvf8Zr2pmluEa6iGQpFn4fJeOyyAlOtcVWrMRgwfNQr3V676TtYXPd6g3T7MZtffvHWN73CbGykJtyk0QPHFTgw5lOyfGZjCM3NwUgP6B7RhTFasiQ2tfnE//w7te0n7P/o56K7d8yM1dqudaDVMmvjFgMs1mLDBgPVZEMDdTjTJ066zLeOmT7zDVdNX/0io+5hlIP6ITOxZ0fOYMEXuyBKxiIbpZkr5pxkZcS+YbsbZppvufLkZ5yx9zff1dm512PYAsWIxKyIWFZE8wzX+DQJ6caCXNtG4vmV9t798Smbj3/tlZNvuOJAc6yZx1jS0DoOFYYLiaZfFtLAKosjrZoxfuXFT3eDe//Tew88sMuerA0cbMDF+F9nW/ItXjEa63a6E0E9NJJwrH7Cyy8be/u/iDeOGR0fvVkDkRcCw6AXNU9mohwbYAAm9CuLRWLKZPj+5c97xnPO3vdv373j69cdkxp1yw17vdrEGAoQGD/GZOCA3uJlGIYhGlA4C3FB0LOyKmJ46nh+nOS7jWjjK144dc0bsg3rEQKgvEBonCZVch9FW5AcbRGgZalcesFJaXjX///e/k/u9dc3uvOtsNZ8wutfabzl5QcmxxmgpxD6WEZmCwa0wG4QSBbCtYwwS4JnPPWsxN/1R+8/eONN425lECEhulEoMgLF4aS3imRMO+A16zJwgV9Rltuh3fezSq3qhCODHdKMEAmjm2gzJzP/3tn9wVlPOu3XrvZf9pyFAJHXrZNeH5unRCEICnkGoiIpE7UKP1jbi/U3B+PWGkHNakcwmcx3As+u9GIMMm2WcVFowTWsyGG/cY6NVIy5IaChqyKvdaDGw45MgjDRiiMTo0lq1JNRza45djwIPdb2TTcyDQzvxvygazto4rEqAzqGTxfNlJ3ez3cXSbg5PzV1/JteuvEVL2N+csCwJhPZwyF6aDoQRS70H/rsdVuediJYibDT9CvB+My6p5//0G33sJOhxo6FNYY3zQo1qiEFwZy4/PgLLwzGNvaQ61MTQwWg7txw6/h8dyAaw9VcQcvLP+lRZHmoKmVl4CMKGbKGI028OqCLQ8LSfIhNAeBH8Kc4j/QihilYrqyRyDHNqNp1FEEcg4I4FVv5Vn0QswgftotGlORQZICJXhlF6liEr5qdKJrLcokxTKk6q+SpSkHnLv2ImFC4yIBaSKNqKlDqKDueVAllbvQm8escJGteia8iSfjQU5aiAxZjDCMUv2WCZeFrvJIPKaR0VSSDmBSkwtZIUYK2xvefR7AgTTnd0Y4UBI300edhU4q5SkFS2BUwGDHImj7DEoaTdtb1Gb+z2oGFuY98wYhCwaydy70NVmXsNc+tN8YsNtkw0QbrjBJM5pnSwedlkU7aTbddMVypFwrT4TIwK3GKEPoGjJQ/8qF7iM0PC1q50R6vn/Frr9nyay+fbYwzDV2f+BVJhswUmVHPzPpMLS22KDmMdDKQQqfVONxsN7um2z37lJPf9Y70tOP9RMYgvglTUh6NXF6cQehGScDAwREQjIRw+txmNFOCFKFif46KDkEKClLJqbnMgZQ4JWTFnxyhTC/huwhSmD9beQUphfVCFVF1AHzMJ+RdOaCPkihxTBmJ0WsI6AzQTi8LOxXnCVddsfHt1yxs2oySxELUg10zeJOPmsanUQSmQpafjLRt9Ek94VRbWbLn2Iktb7l66zveFK7bOKjIeIRs2MxMRI0qO5YwjPcYUxj3MOsJ6yjPMNTNzQEXWDfRa1U3XfOaU952deu4Gcx4pgxnzMYsHQuVRfIr2wsZpWpXDoRxeNzmp//uO2aueVlYr7bE7p2rli1fDh5C1GTbzSC1W6HT61QizOgwKK5HSb2PQMCuLDdrNifPevIJ17wiPn1ruwJSRDjlh3FbtB1DJx23IE75yhht2k5rvFl5wbOm3viqbnMCSc3Dwh/0kFZGeTUp5fBrJZ5CqAGbsdhu9ZwLxl56cW/DJMM81uhSkCK/YTnyS0HYoKG7SrrJft9a/7qXNN/6qnzjRCc0B3U265kdg+007M6k3Qa+3TGsdiWNp6J4gqolVouddmieOMHSn1j/m683n3raPh9MsUxuYoYlGsu4nyNws7kyQapnD6ZVxVIaOyyRk5VjvZa2rQT+macc/9qXGU/YgsQAHVFBtmEiPgAySsyBK1scsbhiIRTLspbpBhedfcxlFzvr1i/0u+lk8/irXlx70xULEzOcFlfnPiSxfiQpChjFvoV4aVk21Vl7UYlc+JTJqy87MB0go9TsGgvjHkq+odNwlaRL34+tOMpUC2ETTVt5KVskh020OORI3zCM+UGMImrLa1/uvOzSWb9J40fdjhUL6rHF9DFMZHdvwpbTLtqr1Oliay4diAV812C3aepZoYcNJpuRZXaTxKnPrCCMDHb/pTGXWAX0SxRVqKbE7kkGKyrXZSqIhRICJB0AimEsJjW0QWuw0xNWkxqYGDZMJGDUDSF7jlmM4xx3oGKzn0zI8EUGOK9n7mxvsH/T5HFvf/2W1706r1YR0pHK4Ah1xME8q/ZzL0rWR1Z4w+3mwjzTBg95Vfies+7Si9Lm+EIn7rUxvV/DUZBywkbUH2+izLjsXBqNVfLMZjuyWe0O9n7hm3lFDAbK7qAT/rN/KjoqagkSwRKOJwxTh2o7EmEbmkMVcZf8gLRV8UaGxCs/SSTNhUR+Q1gWrRd0o8dE8R/GEWFZHIY++VOMjSmHehXFvVRDfshUwcBr6RkWsjK34Rf1q+OvSLUynyWpVn3RkKz6XDX+L1ogSFjLjYIqU0AqORr0GPqX56zaFdphWhimWVJBk2N0+q0Jo7HjQ589661XmkadHo4ix3PN/IKzNm3atHv3bmyQAYmskCmAVWm0l8BYNBJkqoKXFSrkK3NfIQIZO4nEq4LEfclFE5dfko9Nsg+cdRBhh0gtVtz56vd2fvmG9jdvHj8Y2RW/d+LM5IueuuVFF1mT06KCGaB3iTquteGJJ13wjl+9/m1/UIf/ym4PJq6SOQ+AlFJcYrIwKWUDgJwghcjFhFNAEj2v/FN9SLTxMv8gLRtyGOJIL9Ng/rFmjzELMbGcQT/St+OGLEAmiRzEUK5+kE5lpVqSvUOCY8qEIyQIPSyT2kZoYu4UPPuc+ptekm+aqYTcHsv+JVRJxgE7mWaOKhMdOWkCPh6J6oaJsVvJk/b8XG99feo1l1Wves6gXoljNGspfBclkZ8Poh/dPXvt9eG3fmztPOAhch4z6V542voXXGSc/US3gqWyEg5ZrqkY3pWXnhrO7fiLj0S7Dk57XM2BakeERE5B0E0mLaW0586+fv24DSf/yiurlz0N3Q+qlDFmhBTJJUStCDuePV+74b5v3jB44IFp15+emgif95xtVzzXPGmmhQmwQVFibGZaFe/qSxv33dHZu9efjwSzMuURoXNE0VGwBiErw0Cgno3idZc+bdNvviGs1ayFdH0VqjBchCnaJkv6YQi7DSo1xBP2fIGCMVZPwfN4ffItr7z1B981b7l7s+3uYzykPGlSoTdGVNqBqrlsFOsnbmIef+FT1/36y9sTk70M+yQaUdAp53p858d7/u4rve/dYnb7GevMx5247qKzpy6/NDl+Y+S4yOB102SLm/Hk48978+tu3PXH++65d6rmozsMOEZSjudAhuDEhAj5mL328Gi2cKKc8qrGwSTcFLit9rxfr55z1cutk0+cF/0T17YIzbPlP+NGYUzLGiKbsSCIRMyJJkgIacQGuebUc5955wc/tSmx5844YeztrzbXzXitsFLF3Ds1/CzznB76EtuouCyQCk1zGAEqqIrt9m2jesVzN3zzG/2v/2DcDkJW8SoIwouuZPZA66OyErs5MmBcUKfjsgzK4r7e4bqYqPDtqZnTTz+7+ZLnx0EVneUGug8HlOeJEyfhTXfMfe37g+/cEt73kNFrmzXHavjxxvXeqSdtvPDp1VO3h1tQqmGNFlfbOZpvFIX0OG60wuorYuWvfdA36uiv4qhvBhWjUQvArtAI1TKtsGeGPdoLuzaC6EawFrVRuD4wehzumXKiS9yPWLXEND6w2f2bwtRQTXHCC4vXRj5li1JzZiG2x5vHvu6FY6+6ZDZ3J2XlNx9D9I8Mug67fUPs4IQy+smOXbM3/HjyeRvQl80ZRpPV2LNO9I7ZZC+0ZIOqCPurO6nj8CNAChla1vjF5xvdoMk2WBTRBB3sHbjuhz52lUoqWz2jNUJ1zxXOqvgenjUi/qIHSwtKFQR+4ckinuiHBMCQEaVKTB5tZUrkSA4wBBkcRKSGoEoJbdhKq+Zd9BKdTxlDzh4GZp1SdEzkKx95EM6bVEBVY5hkSSHqaxEy6ieyZKXcshKH+fxMf1Vdfgnoijk6bVoglKlliaQSm4TAzBROpXHkTBEVH2U3hwGr9iKQMBEX1KI8LcoIGkMo2D+JWIBjMKLVJbkUyJpGYMBixBTYRxPOHqZW69a/+F+n/fZbDFcuOCW6x3rHf/29/c+8ZsuMu7u9Kxuv1bvwOrTaqCc40CYT3ZbN8IrCikV/ppYimsApsEKuMTrAJeDKIsKYVaMRWyELWr24s79qTKcVThg6cNqWp/+7f23U65waUHWNLgMsp87cdOP8731g7803k+GYQG3E3dy/5YH+rTfd9yfv3/i7v1F57Qt6htXMvCbrNL5jPfvsjS95/vynP94cGAuMQo7X7GZdK+41Hbc7YMO6x8WsGfoG9rOjmQJxGcsGcuMYkBId4Jmnig0ZgIIYKAYsSUSK1jo2PqDyz0AVG/csY0YWHmI55YpNR8OGI4HgTBKLa9kYZSN3YAuMdYwr9l9R0q2bs+Mbz/r1N3e2bsGkPQCBvjkwutgLz4Tp/O13t35yp3PPQ+mdO/oTg+xgbyy2I0xyzGTSnPjp6ced+FtvjtglztoITCC0EKOshf3zf/y+2Y9+kROPqAGXbRA5fGBv8+P3PPiRT6Gnaf6Ht+UbNjD/zdkFCKWgBnvjS937Hq785RcWsHlleyKjb2JHsnHcojItl3OnjJle1q7Xp174nOrrXpoY1cp87DeFdhIUgLsfvucvPrr7M98Ya0duznAddnKvt2u/+8Edcx/+6PZ/9bqJN79yQQQXck3Ezqi27pR3vOWmr99yIN15vF3ZEw+ioIFZO5KQpkk4JDItGKYdCJz1kgN+cMav/kpvcqNIN5jHsWOzNZd/9ms//YcvWHfeF7Tacb3RuOSCqVe8wL3ovD4GfxxahNEJ6J+ePPZ1r+y85f9rTXMzr3A4HKXQeeSpGsYx2r3cO/Ck7ee95z/MNccnOGyIoTLqYaxj33D73r/80IFvfNvJMX1yUfFhyDy44/v33vqD7EOfDq5+wdTvvB49UQfdE2Nt6ETPOGfLVa/e+673dNIuUkLSJtVUJRn0rKRmegMLCYetYUh8vLLOa2KeLXTUCKZPf0r+omcPzIB9FfR2574H+p/60q6Pfybbu6fNntZjN533ysvdV76iP1Zl75vvuFWqhrh71tbpc5/cu/6Ok1//unTdphZnRDWhhaR6984HP/T3g09/iQ2MjleNn7TxjFe9wHj+s+cajUboNL005Lg3q7rh37/5rq9+v+ZFXs0PI4R6RaZC5YIcIX1xnMwUIPPWnDxA/KxY07QSq8U5Rt8hPVu7AqtqWJuJJo75zdcZU2MRqm6JhPYyNHc+1PmNP9hx5135IK55VEkaIl9gBdey9x6Mbrptx998GpKc2rh+7IwnYnXw8KZophX70kBsV4SpRfe/4XeLwgiyMjKfestrKr/9a+o0PboxSjz3/tNflaUHbTqlySpq5HNUB6dAyLESanRko4ZtscWT47429lj3QzDmKI4kQH2bszcVbTHToKTn17DwW/f6Kw8a1XEAwFLOz1tmPsWC9q593k/ujW+6o79z354dd3Wno+Z7P2U873kcp7cutnouK+rGhtdfEr31Fuz0sTSVJW85poNzHrCwYpulcOzxJH54rNKcT1I/a/uDsZZ1sDE588qXMTdDdcYKfafCXoH0vk/8wzZUelEL23qZT5YNMsSC8NVVHcFq0FXIkziKzHmq35FEOgTsShzhbYXTyh6ZPq7qhiP6so9DglkWzOvSfIYAKGIpIi8pXT5AgGKgykydXirruhw5Bn/EwyAEX5MswYlALqadDGEqO6YgRVZZZmNDoCrF16IYnS+zEs3TxX5PPqlZnKl4k+RLKp1QP+XONJWQEqQg/HpVUcypdMaL+UtMjT7hMaoa8lHgVDM5lZGMJYwwEiZ5LG1ZXahEJ7UWFEX2Er0DkPEYrQ4URUjhlN0YMUcj8Gmk9goeFYFouGHKJb+6HctvkluRxZJqSmOodDIMrOYK7Ix81fGkXVdzzHsIHi2j8I/kMJpu9VJHYuj+IetlBPKkJjorjaDST7uOfpX4o1CM5Ki9OkPtL5A1jA+qJLwATbc6vIfJb8ZhSPk3bw2v3hds22ZwMIGYbJrNTVvXv/jCzpe+XG020M2Lw8hBaEMv8RWNLQCvrK6SLfjEAiGHU4ZW1GXINo2G7cVh1q04F155OVvDYUkBEGN9TWa37vjef3i3e9OdHPtJQknLFmgYIfRIpZN07n0fP6ERjF9+iRCvYc5lnGFoHfe2K278xrXhrpblOQOGJ3QBSHHoUlS2CuhVHmB19XZeJe5RBwlXKEQr6YvCyFjZ8r3xVz/XeuKp9ShbQK6rWsEgrO9Z2P33n3n4Y19NWRzph1WbneU56xqIpWyyY9dVza7sG3Of/SuvZQAx6zBtYTToM6z9C7f+6V/2rv3mhJHs63U4QUAkWk4SsL32wTm/Urn7699BJffk335rcvwWcMWKBYLvWO6f+bIX7fj6Teau3RilYeYMuoCNDVu2g30VSoicFV1Odjr3NS+lRGx+zAYaFxogdua63/2DPz/w/Z94u2cbfhU+xz4rWV3J7YrYQIU/+dhnzj75Cc2nP4UaiMIzzlnda65ft/7Sp+/+xGzcQ3QUKwiXo7nkTCBkrgKxmnYgxGmjPnfO6caTTqDFx8AbrXz3/d99559at99TT7LKIAZSLN7u/vp1O/bMXsCOrIufLOvGbIwQKzhn8/bt906OcfGI5rwrmw0NCydanPTyS+1GbZz8UR8l8ULgNu7d8933fyz+5j9t92q9OO9y9jfLN/N9jh3Nw+SeeI/95a8fc8K69Vc8v171oVhXDnt11p/75M5J24x7bmWvmRn46FZt2fZZ1Gq0Q8i2wgo6JM42SOvXXMgyOSKLg/bp+7d/730f6Pzoxi0DpjPmmGm1dh74zp/9dWNf59S3X201xtg+V/XEYoTcNl547g7LCS45l50NkwHrukbv2m9/913vzgetcc5Oo+nmOq0f3fW9fQeO3z07/Y5r2D8qbY6MiiHUxFRl40x/3x7Tcn1OIVBn24KfEtqVuForRCVBUBD1dHbu8dbmdaiJa4lYVWWI+T998FvX/JuJA3uidq+KzpUTIxKWzVgfZ3GfFS3hAJxZgS3XwQcejlpdpjLJgQVOyZKpiPSVR+UENsmD3iOsWkiTH+ZPhPFJdUkpQLNF9oi4ztN+443GWDDJtnyxuuJAqnjq1jtv+dMPdHbtTfcd5By4JsIkAn3YO9DrbXpgn7NpKkLfJ0bu1uaLzr13eswKOdlAdjpTOmaKmFfhCMHyq0+P7Mec3Otllo9k53EWbL7torPpH6KuqFqiW43T/Tf9FOG9yQ5WAVqBLlD+83cMJDSFZsVUG78WO3TNhcAQgdTICL+QxlUO3OLnWSKo9BefRGaUCMJhZK1D6aCKZi+4/rIceJXNoMMcy7KGAY/7r65C+dQA6NeVfg3NoYEsszos6MQ8dFaHzWGt5IstdNgsVIQ18zmyjBabdqQ4ksof/U3+pHfJix579JPRGsqTQOVG0i4G8mU0XDKRbEsn1Cl0DMkiJ7qmd+M991/7DTFBUJJxTOSKO/Wa57FNHSuBSl9KyhJWlwpWJIQKUMMsC/CGheqKqX6CtTbyjRGjBTLNamLKmUPHb3Ze+hzURZiWkJDjmMx9++754/d737kZm6l6zoTRqcX8edUURZlbYYP9wKj+5K773/s32c4HEAuY2lU5vs+wF7bOTD/5lK6+gjXFYhGAxGZFDLzWcEBVNlvpLyuyRqKjCKaimilIntJSsEjTrVW2vP6KPMCI1mOYc1oLxhev/+mv/Lv9/+MTm+7fvW2uvbUXTnbDahTXXY5ixCzD9t0qJhXR+ScbF5xJTQVUuLrMtAb3/s//HX38GxO75uWGsobXHXRSdl32uvEgCZp1Mes4MJd+5lt3feBDZjwnpCKWRoBi5qdsr734opjJXIqAxeRLzLwwEGFyWGOWT+uY9sbLnmadsBmFHu0mK4As/OTpnf/9o/u/8YNgT3varzA6puwQIFtOso5YXEo5Bbx2997v/sn7zEHMaYtsbu9V3DEUL5G/7oLz3MTjWFESyMVqaolPTReXo3SwEJ/0L68WC2psf1Dp/dNPbn7rH1R/cNem+bjWYk2HAzHRPNocWWl+//b9f/wBjiySExBkLgCkjnPK8cHWjaUhcMkZy2LiXpZsnJq+4tnQBphkOQmzJP7v//3/4V130/r5qCEnmruoncyQVal61XTXWxVOOTV+fPved3/MuvkuN5FZBLRF+5pP3N48/0liKh2xF1NWAFe6ordarEjK4lvt2GO855/DTARVlfHDe/b9+z/Nv/Ld6fkOx1WmBkb9NqdgzMym+/72c+ENPwaL7Emkj3GTbz8PauedsfXNr0xMm6PLczYifO66e971/unbHpg80B5EfeYPFcvablSsW3Y++MmvGnc9BDwM8bQsncWdbI6deoLYAjGEPwaELpbnoNc+9xQ0erLnD0Mljyu3+zv/5H9uu3cPgtV4UG1Wa3L6ORGVIMXGYbTlLHMj4nOAFQeKJgfmsoMLW1xlca0EKY2ulWg80hAGX9lGjxMpSv1B+MpTMC3JSSQuNcrWLzpn/KnnsB6PxhArO+PBB+9913/7/Ot/q/qDu4Nb7xvb15oA2ihihjNRr7EKsPcTX2aWRw6cR8bmDGNm0n7Gk2uy21gVqcYk0UgNF81ZgXQ5oR/UYNrI9hkOuF03Y1zwZCYaLImyb5RppHHng50f3RFZnKQr/IqMBMT/OxyjWNlJdbPJYETrCOkqh48QoVpRN5aBeGg0jauVNCMTcD0MKUGKGdhQsSelkZt2y3CsIVENKV941f7HoLsMS5IMV3MFQMMfoo9CuJZ/mOvi7zCD5b+rlSlhOmXpWczo5+RbC87l9Rm+LwOzpCVBn/6mfhURKS2jND5kpCqulWlaKUT8EgtlWp2DDHKlsKUS6hwgCylPTX5kusqrkioYp5kT1Syz9zdf7ezfBafAflT+2VbtqacFF5yVt1GQC1t0czm+HKfh1k+hc5yAD0zyVSOFIoSRMQVnxQcRoiZGwQ5XSHD/w6XPNMc4hJiLG1gqYjeN0b7hew9f951NzXqHu0AAy+I8K8Qs+cOqAktNtpZN1GrhT+488IVv56xdGKImR7LgYKFtlzwjqVXVTIRzkjEGY6CXg901JALQUgcYOkBLPNpfBi6N+0jedO60m6jrwRGYAaDADzZtaTtZz8r9Tsv+/PU/+r0/y394W6PbXRgPF8bSuWYy54dzlpxZIJyCVLnVtq1jr3lp6GNGJVhlt6KM2Tff9sAnP31MO15Xr3MtSQVmzkDlW4HtJ4OQU8o5RWm6FmxO093XfiW/7gYM0skNxSLHT5kVf8Orn583aulADuoEQsQaxlj+KtjeYBw9NXnC617MtvBBwuKkgeEJOyPze3fd8qFPjnUT1k6JOp/1xVKbQ7ooN7P3WgNnqr6OSfntOxf+6UZUjKIfBE64GEsfZ56cVGuxzTGpXFLLSQo0nZxkrCvIs5R5nSc9ofaUM7gtB2G0f//9N/7HP6vdtmM9hu0Vl4NWc2ynfHeuPY+suclzWzffkv34LtlZCI3J1lN0P55/4ma5wVs5cLjUWc1gfOKyC4yNk32WxNCjMH67XuULP77vS9fOGFGj6c0O5rl/jqMQulE3YrT0ZOmpYlvT9UrlwT37vnwdS8QdTOCwLUeoqjgo4Vho9jmznMkvhDridJeUOlJb5H62TGbm5IueEVfqaFqdVmvnBz6y/6Yfbqg4Y02/zTEYFTsMxFqIXWLH7Jvf/eVvZdhdYX+mejLbE5Ljjpk87xykUg978717b/z9/+bu3JVvqNYCj6VApkMha1ieu6lac+7bPf+N70vJ0gayFo9sP3HGEy3mROhBIjlc+1E6cMvfxPat7I1ESy2HVWB9t2++ff2POKCDNXROOEj7YdKXy37ADYKUaKdQ5niIo3JRMd1T9KCJnA5VAqPRVb4erUd3YRGk8HE9lByjIoeSi1DFhAGyVKypyJbzWc9DrJEDJXIM3ffuvfPdH25/6mvjs/NzmMuN2cl6bzDhztvRXMoBuFy0EM5++muIXS6rjnAoGFuUTVx1Scq8AcJWJmVM4XBcB0RzUEHEJ/RXUpycXmWzDLn+wjM5xQpI6EQJKAzDA1/+dq0d1nxpGqAGA/THZa4A+Jf5hxqtBH+U/UKquvXVop6gQO/aY7CDPnjytyhRqcz0YRPEFPFIDZGqr6BfEp23/CFyMbYJGwLXImCpD9IrcEUPVbiWV5keCP5xOsajpEbJ6GjcShQBoQaSbEb9OqYCfMljWWkrM1wWQb+WRaz6dTRwSWFH8DKa9kj8uo4rn0eSljjSaiWalCRCCK0OsYhH/CJRKbJQQhb0VCRZhTgL+iDDQvrWEpWKKbKRdjK+i59CBN1ZHsgF6mwKdyu33b//U19HrcONZ/AADAHsSn3LG6/I/Wbkur4Nn+QCFNk7TnI9HBYEp0LIUMt5jPmEE4E/xkUWq5iMymzMYD+dNaj5W5//zJ4li3vIZ7on3PrRf5wwvDkzr3KNBKcmsfsYEwIvjhEP2EzEfkM/2WN0K35w8NrvmaGL4XcSIV8N2AaVn39GWAmSQcRVEmwBQj7A8pe+KXUcSqi66voJROBUAFMdWCFaYXk00qPz626pRwkxVcKxb5staTacNMw+f/1Pfu+/zOw7OM6JFJgbc7AXxkswWCzAEJsMGXsY6VkH807c6l/4FG6ugCeQGyy7YUS73/+3GztsdgrnOLqRRmxnTbF7zsZ8Niel7XaHfU+oEbtOPNnt7/2L/11h9BLzariV1eV4wa1b1p3/FIfTQWWpDVVVJNd4GAnbppjXN04+3jh5GxjikG3OSqpziEYS/+SDH1/H/i4jxTZlIYtaTsYOLM6P5wwAbPLmsnQhwy48nDGchTvuZrhm9g4o2HZCiPZMw9uwjpvVOEsBraGc4qUwr5DCQ8s8srNh/OUX91ptq+Jw7uPdf/RB+54HBhsqUbu1tzfP2VTgBHFETODCQRj2vKq99/obNWp5yko4911t36QzL9tdCoNDSjwWfs3qC85jb53nVCJ2eYmQG7f+8jMz40E/7y4YHW5bG8iKphz6YHD4I+c+YlG+EHMjTzpIdn3+O5yAyhFQiH+s5GC3F5x7et7kVkCH07ZkgWbEydiNU0OInHQpNbcmLzqHky5ojPTjX3nwW9dXt47Pp12O1LI8FK9mJ0u7Trov7bLk9NB3brDaPQTcHAsf9oKA+zFMp5D/OKsy2/HeD88caPXt7oEgXog6NeY4Vt6tWLv6s9wk08yyfdf9gBPrBQD2ckrf9CrHbwUG+iMzDQl/1A7EWhUkBNXXpaiCTVEiTanxD7ni6OMsa9IKPZY5AzvxOcY154+OO+BWH0ZJ5YQXPVpHTfVKDTowYW1wG7o5AJTDJLo6KQT5UgGMVR83FbIZ77o/es99n7i29fDu6Ua9k8JKki7m69A74p/NiVgmR8C5D+5tffcmBGkZmZHOPK/x1LMGm6ZFfmL6I/YPsroHq9NUR4/FuBxBO5ezx8y+kW942SU9BndWADkegoaIOCr5+iqMNclZ9wQuCHVJ53i0CPmFSK9btnziKfxKcASRejzSsOpPggppKunNcm6zehICaQlycYpYoLvFAXHI6onNd8lBKEriaUFKt7hKXDx0iTqykK9ywMOvBglgtAhefHs8fzQYR1hCiaVDxD/CDI8kK11KgbUVP4eA4ag+rci4CDjCTAptpE6ka6WfhJRZaGmDV+hGYg77m45TPrWHaESA4EglfvGIExaiJB71Jkt7sBueMDvmRJw418U82re7/+vz+UKbBSDicz41I/X4cy50Tz+xzbl43LfB3EoZ847K7JCdpmw9cpA/VSCQPwhRPBbbmznvmAUK7Ak8d/10ftxWBiRg47wrpobxXfftuvOBWdO+1zB7NscZMl9lZsufG7HCxOY2bgg2/Qdq9v6qt+vBvcY8J1LnmWfH7PUByE3TnGkdM/TBIsUGVM7B4igHXdOVTz31AZnS1R4DDr68BBlewICgX6ZElKKYhvjqWMHf/sDd7/nrsd376pPBXnXXiJc5YiHOJcBy/JfYVoIa2DfboiYuOZ/rZgOrJu0oFUrcAwudL9/gYarq5i2bQ8KrjBYM5xzDEPZ7rAuSLJBTL6xugOxr9a77cX7rvdy3K2CwOmZ43GNyzMuemyAPKDNXbpTDvowDojDU5QSkyaee1aWcAdKbMcCIBP3C3Tvvu/ab49wwVOEmWi5UFjUbIyaqQux+IsvZXt0UtRNAebi194Edd3KYc8uOF+yc7f1djx37RrR1fNYecFYkGXOAu2JPAg9OUw6tCCliCsa9NBDv4B+vj791EwdQdjhvgK1x3CGMrXY/d/opV+JwhnvKoUJG1r35Hs6pyLiXD0JSY6S5bsJiyVE1q+4OQubyVcqKZqZqZ5wOqtFjoaXjStHWgf0H73+Q5TUk09wZ85wJq+87HaPG3Sam3zKd+fHxrtfYE1Tmxxutg10Ir5oKmLBnhNOcUxs2sP0LWRQFxGKHlcKIgVO9GNaeyB4NjLpRIXlOu/vAB/7Ozwbz7DVDzEHQ4VJjua2aQxU8FhVRHCW755N9B0TdRsPQP7k5Ec1PbiygM77xJ51rv82FL+5ExWuHdb+ObQ73PtYaXP9idrgF0Ldbt96TJxydLp2eDSOynXNyPOVqaggTZclj4RhyOi1kXKUvpRrcqTnVqD797F6E9T7nmHC0LSvVXHeMIR+L8azuys3GcQoXYEXQxm4LS3U8puxcfCwAWsxDTeRgAqL7RAMqak7hRUUphcxHodUewy7kmez6x6+3Pv3t9ZVKPlObm5urpwYXQLJ0i02bK+c1oGFykYqQS+c+9kXRo3J7acahDJzTV524/NlKlhIDTWQp1G88yZX8OZEPhSVx4bFc25ds3WCf80RFPDS1U6E/73iwc89OWYniQgOAXcMt1uyX3CfIHjpB0cgrwTQMtrHLiEH4IraXdG/RC8jYh1NCUsE6yISepv/UqMcoKZwSPzFVuAyycGD6AUynPG2hLF3gUA4AhDjgHopUtC5ABTy+j2H5q//qsvW3Q8OxevqlSD50Dkf+lbLKyGuQ7WPWq4+wXtKztCMBJMBTs18C8RQQC7UMBXBNTIBfjNaLyYVgJJU4JY7DSiVEg1LEG/nRmUMxIStH8EQMRQMDq5eDH7528s1XUaTHAQJyLKI58+rLWjt35Nhj+p4Pdf8f7t4EXJKjuvPNWrKytlt36durWlJrFwKEBAIBAsQO8sJisPH4w4yX+QZ7PM9jP4/HeJvF4xn7szGMZ543xn62x/BsY2x2AwYk9k0SkkAbWlu9L7fvVltWZlbl+/1PVOWtW/feppG6MXZ0dt7IqFhPnDhx4sSJEyIUhnAjeDpmashRjepAS9xsDbOGVIHVOCo6yPp3Pe0qVAdQCGJWZdqAeyhNz77+rf+FQ86oEyF1CMuIDBxWq7o0B2JEbZ8u/XMuAfG97Q1+Zh3HuZcIuz6V0vSeXYVHTyQoPoiGKQltXwPuWKvx0jTbfBR8yd7YvrPQ8WSbVdpV2BVL1lKOznldbPu0c3f+999rHDo2s2N2MemUYBLSoJv22PaA92N2F+VO+zCPKCmFcBHPvzpE4wIe0TFlWAX7zJexVr/UjwsYN8JEQK8fVbANOailhYjbQ3y2UnJhBzFioVKudHqdmampRz/4iYsv26crxwLxzQGTy7VXim1DjQl7RlgTwyCAEah+4G+/4RpO8fd73XIZW41lbn/Jf/1AtR31uLEH/i7hYKQmxh77GJA+GABuL1lJsEnUDPK1SiM4cIIbV6ZLvbQwjVX2dj7yjjcrO2cKUw1/ZYVNwX6XU+7AaQgqgD9CIixTRQt+r9rJHf3j9/sw7rlB42grmp8qrYSYUsKaI7sqq60uW4/FCpuGg+Kjx1jjI7xBPobCFCwS7KPYeHMO7cG6rKw6rWbzGKkJCla6k6fk7dhW/9Uf7mAlssZFzFzVzNXDmDsCjmrepZgHqRTSbgjPWEBjEG7gvJ0YNNfViJiwhWPmHOu+vd27H6bX4CnZT8uKHna92sb98BgA45oUDtTD1RRb7//8sYcemtleXW31p2sziFe7K5FfYhccY0wsV3phhZuGit2jS6XLgLGOjMG+IsRgR5LbiY6875M7271TOcw11bdhxwo+if8xVwd3MZffTDqcXvIW+L3dny6LeaIOTOnlAEVFFhtiNUVOHqcTGtpY0SB66CiTHINOtznDp5WnLvnlN3/84YcvWDjZXmn2ZcgfmoZZEjHKpjtViCLkbOI52JzFQ18QUoHnt2H+OOs0SmZ9TWvBKdgp2j2kUiCsI62jiPpLQ1gbDBgpKytf/K13bG91FtrN6s5ty0GIBWO1EeRGHqkLp1FizyeFUoIq4M1f9U4t5bfvoR1S8eoPdn3/y3t/9k5UFWgLsKZpZI7ftr85xJvGjHoOcRSKO172DHY5Od/L6i8JBIDjH/4U4wu9d40Gsbxip8Yr+c/bD5CH6KSNAmN0gOkYBBwsiIMzKbIIO/RamCODBNaJY/EduAREIyosP5QQR1xkgUSXtNgCbFp08cffIho27ZK5jRxhu6vAeLTH53cZbkxr7bNg82Wfqvj6erocXPgm+ayR0o0/bhayAXSbRVoLGy933L8W44n5toIPMNg044k6DKf7LJfs5wxq2U9kx69AlxDcEM+ENiopS+hK1ecIsms/GeycvMpFs7Q5DA9X8qWolmsvdnfW5g78yQe2/dS/IAIruR7ryr43/boXT7/jLwvHTkVBoRzlUS4ez99lteEt2mCq87kIKzJo9fqFrkltr7jmaiJjrskoCMaLvXT7Nu8V8zQF1m0Zk0VrfQxRUsZu1zvONYOUS1dL2OvTOS8y6SSlShmLL9t27Q7L968O2GvRFfFAh8lSuyMOXOs7w022JB/OuirBRs5auRb0Lb6y3AAOpMFSQ15FW6XRzzYqvrvuS+7bH8fhIvNmO2405juYuIyLXBKM0jeWEuE+sSmOWlqPA1BYAb/yon6ulMNIUUCD0EJOTtx2bzdu5Wan/X4xWEXx2+e8OdwB8gjOsfdi7nbBBFLFx0BSH+uHlZOYZb774YvY9YS/xIJRyLmlajodzuza1T12ECCUNFP3kByADNyzUbxsH0DP12rYauxUvGo/Cb/2ENqzFD8Fl8dJLNEwP0TNH42XPFfNhHFQRvQQ5uJyN658+r6vPO9N8Djz7cJ8Pn+iFF8cFTv9lamTTQru1BV/BjHGmANcDp3ZjNkN43HbnSceeKQcYvA92J6UvxH2MDCBRkoXBgcL6EEdK1oRVh/76fYWGWFcqWwyKTgEVMYTbD86jobuMMw3waC6wNt+zZORtdJGbL9qTxSH8crXPbc+mMayDz2GtXHRWus6prgS1mu5Oy9XrGHFtljQ1d9UgvtE2H5FcZgEDI0LzmsFJS7Y1tzrxqQ1zWWiELQMObnfysVcTcx6Kekf/btPxzurXrtZzzVYx8jKDfbQqT4nMfJpzS/1BsUKFkN1m7IU9blv0i9pryrODepHu4c+cPO+XjeYqrEHmZMtSUQoxalCMW7H1XKB/OqlUi/2e90WtpIEFACBKI5bfAfo5yPh4kRZhqpj3XBm3vE2Vr52UHvvxQo2ILCCKc7pkvNe/ldvG/zMbzx43/291TYST+AQoVlnAhu6EJVJvJCPGGv4yHBKZYQ6DDsNGfB72GVnVpXNYhkuIYtSVkgmmJqRxVNncNvVXNINdTJ9nFvKeXM5/8g7/mqqGea216vNKDm+0t5VDdqow0GVBlzLTKPoWB+bo+0orqb5xdWjn/7Ktte/ilOvAebYg2Lx0r0zM5iUWW23OQAqDBhvSLVfPNXwvROhX/HPu/F6pKFcYUSWDHOu7HrkY5/L1QqF5W5pGruwYuA3a5ORpk1/+KcTKPBvRl3pFKBhHS9hAaQFhB+PzK8gBz+5wOFPo6ktA4D1+6iIsV8JtxwUEaygU8EF/BYuLTo8WSZknvnHPYRDKrb6dTzm4/O7nMdr4vIZL3Hcf+albJXzmecwHnNjDcd/3cS/BTw3iWlBW7VxrIvWxsLGytC7do0tN9myq8YqGwbAHgkqkRGzZpEiOMtLFFOY8TgSn3LJFNQCRSOOD7Fvz6qPfRSWnDrEwrJb1oa0c8dmD5ens3vkFHMZprpkRAwEiIlCMQfCELezfEJPctpv5rZzj+1M7lh8fCZpL/zOn1TTpozWRZxbJk115y//bDOaCgfFFXEykOOKj2oPy2wtm6HzWEzWMHCOVqGXDCTRH+dSVZqNBKYY5htFjvh0Dl13oU7hY4Wx0GeV1mI+xtISt8ixqeMHUxBBbuygRXpklpxHR8XgMdIGtqNRWJFFSCOHSbXMUWamseO7iydKUdBD8kJVkmqCR8J24EDpDNhR1UTpgB/CDCYqNg5ZNDPaoJYJ9qOIT7YM3SEHJ6rH8EMxKI/UiBs42FkhhNtQAHAsrW0eyIHzZO+pgQ81RgInFlBmmlmgYwMl3/Baj/7vvzh/qdXOcfMI97hhl6jL0blukVkUcqGbceFcKQviQT/GT9kXz+8q9LELzVpM9toptv6VewulqaA9SLu9sJrGQYzxa1bSKPogPqlg2J1dL7bGynHogyYxhrgad97ltRO6Uzmwb8Hh/HK5/aKn5tLmNByXF7TSYpHZI98LLtjm1WsSsTCFYyIRnOEe+8/eWUSuGESFCEkOe72AYVBiGkfpJW5X4NAGnULcLmnDyltFkrVyaufSYr53YiE5mu8sHIiP9Qdha67URQDGJl1cQp2qRxYia5rScNrgENMAQvUP/+Yf7U1CFKTgMw7PlJAXYT6onXQH8Gp0SBSW4/50Wq4nQad71JNFRqddLKSbCcu5BMOXJvNwXS5qKcek2rlkHs49yoUVDECgfZ7ko2A6x34OW6QwUghaVB0lw4/VB48J0AsQ+EnXLZ/jyP+gjDUCjbcW+6X0KzrU+eKJYqGLSZFeF+EDyAVrJBUcbYFiX6IP00bPkh2DhJzzX77Nu+2rU/C8hXLowxLC+2KgXgr+2nHF9Cg8ddLB7ELM5iPzuTeoY5MSQxhmuz9554d2RclKrluJi6UkaJcw3h1L7wZyUauKafHKi5SMauPBFWnO01c0neugox4Dok0pTAqAbLPHAez0b/UW/JC9777nruKXv4HN/U5MO6AW4Eox2n1B9Nd/MPuffnnqqqdXBuUKhMpHNoVkttfNJ72af6qI6CxplKso4be73XYZeoWIDwsY6BnBwjD23JNIZZDhLMuvw/GrfhRQOETKwNZvvKGFikRUxonu5ROrREzGMg/rKp2RSOMpBaC3L0aLXNCUqkMXFo8/+J4PoEZ+IuwMuCizVpjpaCea/LD4EXs69QLs+mmLDcA5D8NTvfaffpQt4hJA1rQMTvvdn39T7whjo8IOLUxsL1yF9xfVKtbTKW9mcSmer5zcd5n33Jc04eFZ+HBpAXY6b7u7cfj49NJqdyqPTl5k9uJPD/wn+CvnhmQSX9ueUkESh2JO8NvsgVZmz3iEraphSDHMc5izRh44TOfSp/IwCLKH+CKdTEcEs5XPdZZ5KUa6tIxhJdG16BrPPNSRHuRXhbPwtoedCNJrwaCOJj/Jad3jilN8lrLYw8d2iigNhBSUKzJdMb8a6sFmCShMChziYcUqZETkyPjllASbCihIqGTRkPEna6/zqDnOGdzEUoOhYsX1CFvXO+K6ANqIW/+jvhwCu/fasHBz07CkdX9Gvaq+pXG8qTrPukhjH67EycqPRZjwjuPApn7xGIZIoA1rpvH6j/uzEic8GyHgQkYEQWTBUQlHKDJEctFEEFyN6SyCJmo//MmwSgmM1MMx4dxbHotEZ5N1Fj4MzHpXmGbx1l4uir5LTAjFIie2cNVqtbu8eui2u71jXNyKKU6uedXVb/VL9s7deM2U1u/CjPHsVC8wYS3nNZ9DLzJ3QcREPbxeb7gkSL36SDJ0tS9GDT3uIeHWFy9iFwXTRwnviQfcyEJQUWHsIcDx0/5sfzAbFQshlosYVHmd5KKaYzVitGV1omir1XAJiB9Iqj60S/RRzlV7LYmNBA01OxnErxB3J8wnzkTkyZA1uOS8xebqsRMojiCoEAtK3xcF+qwg86wlqG2fo17DblXDUpRkVxcWR5ofazHX5zD5BdeVO8aNzppkpMMm+6TFyrY5tLlpKv+ZhqCxMAnlKQ7vGydlI1kFhL1OswmrD9EDrMoagZQ20kTZFEj7BR97RlM0SK/petQFBlMBWTRRf5Wx2jWKAC6SCzuOvUNHF06caHVR7JbwE/Yi5hpIlaoI6HDxFm0aIygqfv3YIcQFKpX2Toa935jZmWKcFjkcTeF2Hd1imOfyFnap7OHCNucZvgEMrV33QJ0EMI4McnYtglLVckVspdb6RW7EJTyrmNTNrM76Y3CTiCnnHb7zHiRzAAE+e8OQFEwEFjVH5FVEeNTJ9H8hHux/4AGsv0OmbUuJaFLot/gOqlo9C864jIYOW69sn7hzfed6ZFeY3PNnf+UtnCxyOUFJV01hpwxOhNMTO173wov+5jcq//lH2lftyyEd7aGRVkBXEmHbDKY3vPyh3uqpfIwp9t0n1Ryq7d54Rk7YupVzUOJXV5+JaFkgHnKb+HXtM+03774v4mAjh2CYX1nuAGTbpHNx1KHqESERfoTenMA5sf9A7/5H2YPXKWXy93J7rnlqcsH2aioT8YMwqVenWiHnBkg4iNtdGtZfDfe95Hpw1y2+GDzcwPjYxz+PVoXJtwZd7mcSI/8d6jJ4nt36DUkB4xwg44ZTIRICR1SGk0zWg4o2GiDjNRFNYWhpuAJDDVp1mQ06ojlczeKTw4RT0STZApcmIp/5p7Id0bdNU53+1yyJZbOGxqdJ5QaOS5gBLcvnn72H+ZlZSMiEE0qAAm7wM3rhjA1JNJ4FQv0DMyCviqeDI1pauPUumCB5lKVlxkGKw8DVbKeocvpl5Hch2VvSKmYBVsdE4Nxyt9v8+v2dD3x68OYfYprlNw4iNXbvmP2hFx299SuSbE/M/pthocofYRLkKVHWSN0x8FhpzExTQxoUl5El6CLZdOGEz4YFtpdYV1b9dJlrHtZYPdXOnHYNR35W/84BuuLBaPtKLwqqvXCZ02YMRE3lXI7KGtWcA9jwgz8abuhwGNRtJEvbBgg4MK/Fk4+GIESBa0D1lwaRCpZC81wRwWBWnfVp7Euxxxx1SL72YHjwCPaggwq7MAhU7LpWKrMuokokLZWrn78boSM6r+J5qOLA6x5Z6C4toz5lbgSCsVImvOoFXNJvPXY4f8VlRl6wqMTElavu2YH6Er9ryVhAQ4gdoNzU3LyaB3Fi3S+hRtpbbXUWV9iHLfuUDz9Jz5icQF0hCiaOZ2R3WEH8V5nWJIMAL+LRIB1ksETwGVpfjDWb/qA4MObkPQ8uLy1Mc8OgpD80XBwIk6o6DFtbrB4NCUB7HCchcBunXNdq3jjASKHyoM5/4W6pYrOzF0bFCvcxp/7i0uBYx98j4aWLo6pbtZVYhci5X/G4EK1tEWuw03l4sROu9tlQxb44muNUCYCwaLbtQormoeZsSgZoypAgTY59/na1iWmbu6hdPzqwkLmDmcataguOWeF88lf+wtLK4Xsf2IGqnN1bwniHYeVX4qsXxKmSBewUh8KTOJbg7Kw7WqRWWX1yrSaGvlb+9hPTP/bqVb9WKCMwRgRGy5DMFaJaefuPvm7+e16y/K4PPfquj9WOtudRhcyj5zVA+DDFYYIOhizblYpuCKCe7j1RYQsc74qJ34efWdpxz1gHbpoKE5rJHV++Fb1vmoMMl47SUp6LNGUN1zkhBgJDjQi0zlL0Bwb9U8vH3/eZ899ymS2CsN3SL+zbl3/e1bn3fy5XLVYjv1DFBkx+dlBexVYIyxTE91Fx5qYXwK9B92govBsqj0c/8rlpULHoof/Q4iIDZKNrGLdphZ9ooFaNmzth2Bm6DMJnGP800cgKnNcCCegaIwXtMcLOOB/ucjgGSwjHGQFwRIdmbURYPbIhwy+AdoiXTtAAMG26pAL0prJliFhDGTg4h1V6uww1uq0iG2psiTaEnvuAcVBn1OBxFDuez+NI/k8liRghNzFQ4yGmu64Tog1DNNsZjTaaA83VthsOJISIggJgnsahIRPh+MEeslEg761GkPKQ4xwQFCFfLhY5eBLGdTSOO/HB/++jV/zwa6WpoU0q7X8EL3tmdPWFc199cFHH2kFMQ07KUNGT+DbefxYbWYAIE7SFK/bEkiQDRAKQL6+1+rVf+YPeZ+9Mey1M+bHbxfUdKlFDwLDePni5kSCPhTi40fajO2crx07VwxDrDjSdLTF21Hq6pM+Nk8m6afCQA7V2AjWbupSpTaj6xZqjatuUZvykdguY4vgFsKPXBQtstdjkpWRjv7riKa371XtLLbRftGkXs6dGBlwyxsbMiHK7vJTaeq24cw4g2OYmcCCDgbfU5Hq8IXg2KXktiKYJfywrTnJ1jxwjLx3hkjI51y0O/D3bZRwKdolohQJ2ueDWZrdxlwbVAdug/MTOJZ1OGmEAAfkfXJeaAtiVjdhKsYFAhe0dnCsL6uiGPZ8UZ4H6SYyUWiXeCwdps6oNK+wAAFiXv3ofO7B+vcqGNQrecCcs2I1dA6VlD4tkiqy81oRA1laFWEUUyXl4Ez+rW7itgV55Uac8keV7pebKbb/xv/Lv/wL2UamS0o+c+yTeKEB/lRtvGIVI5qD61VK1VvFWOsXFZq7kF7lQjT0BG4ouOTHdNCFh0bAD++F9+7ECBfZow9UGluspGFXnXCpBZyiPU/Dwx+MnB4tLUlJjGofLRohC+9i2oWIqQOjupDuwVU+E+LqaZO8MgCpCcFJZtDHZXsmfPLH/7X92fhjP/dS/aMnaB7cCg0cYAMiVS9w93e9sL83+zJtmn/eC/X/+oePv/3vZBU8HlR59wG3m7MrHh7lUTzba5TYMeNk95gQAAEAASURBVA23ia5RPFE9w0Ohk/SisAYMKhLoetF5XOet60JLrJecjK4eufVrU9paoqdhASXXAG5aRsgpqVYxMhIDaDnmkI/i/s7y9NIHPnPBT7++51expougEtO4O179AgIRMzcKweJq25+updx5jPwt0DWC5Ssu8i65UMY5yRHj//AJX74nf2jBXbyDBBFJDDvTXCt0Tp313WYlrIcRABdGWRePx96kI8Z//tb9dJgREy14IMn0GgPcFU1m1IAQWzBo/cZSBK6LniEy+AfrlTXHTQQkcQOWcIegJqZStUQ3LKH+jJzLn/GaORJuXJhlv565xwFqLeORb3xSGM/NkcbxkMyfwTzz8JO1Josy5jH6PBwDLtiKFjT+MZyrzsaSs47b+NMWIVu2eDy+u7MOQuoeIYF7IBBrfltyZhhDemoDErC8N20AME0Ipk1fE3OBjhAHHB0wrLeIz5aOE+YgEUQEtSwW+pyTmmWCvPfe5b/7JCeBkUlA8xGgdmem5n/kVdx9MMxolKcaaoKdrQrgmirVRORIpai6NIEpG5lDCW3bSr7ZqiwuTg+SaVSiRNdYvnKIuMsb+szbPVz5NXwIyWMBi8vmIy/fqx05MZ/mG1PVgl/iOBwng+AN0XFRiZvRYgUj4FAlYO3AcDa4gDckVXsNOBpChVVVZm5mrABbfuoYcmO4EuJ+3aq9LiFxXATg5Hqhdcc9DdTapNCWliC02ueRCGGrfIqzaNgPneU2KHR7mDAYhZ3uL0VkPyNwSpfboAchMDjMwlKlnptWK7SvznwhosZPlfoU4iJDHKuVNlJBs0LFL8NaYfYQcDEXIpQxBaOUEPfAkskoovRWJG4hh9GEpFoof6BsD4tL/HoAs3EAWT3hRVbvup98+j5nziJ6kKpBQEmOIwkey0rTJ49za8lHvvFOVELrRzzFcpm7hWTMACpLdSqlbXF/13InLIQhai5FPfIXQufHiln2RKWQR59BOBvkp2A9V5fiEydhrErSvPd76CvTzQY7VZJHtzyqF0o2hwqljp/MLyxhVVWDW4ezJZQmBVp19ImNZTs3YehHdNJKyCrlHgV5DzzaSBI4YwSlAjRrKp0MMVbAgOkaLlbGqkHCs+XcoCC3IdCtbp1+ywuK073kwO++88Avvn3q4OEGAwq9TQQvZa7c9DoDDOpy8VHZu/rSC3/3/77yD39x5brLVrBLVaz1I67J5sphNEDX8F8IOuayshwo+GW8Gnxm4c4z/s5+zeKMMl4bF+nKaveRgyAZ6o8BECuaKSlO2kmlTGPcRgwclwSxSEk5aEnPojvHpZYnP3+bmeFkOYIQrjx74zMGF10QYsurUERIydk/qBCcLppz3TDe/ornYdmVtV0VioJlqdQ7+N5PTunALqcfdVK6wtEDQ/JRJb/j/m4A41mo4ZDFMTBn+ePRMBJbo03UrBi6nvhAiY7gyVBFvaQUmg9ZmDOTaizZ49LSZTj3dlMq9EmTTMZ7MV1aehf/O+Ht8HwcJlmtssAsJPPwk/vVeZw/+/WfvQdxvxQw3OxCf/Nkfjd56D1CBcBBr4MF6vsRw+RWtCAHZJdplsf1BINck5ohyunhyDqpyFqZwz9JDqvZXe6m6nfm/eDA/3lvqdfEaCHXqKJvmqSl7d/78uVL9sr8HtTG2JRNO8xVICtUk5ltDFkqGiRuAD9jowkfk+fqP68xyDfSfDXq1yMWgbTYCYMYJg7/7Y0fYFkIdcbDRIJe4RzMjZc0wx6K+tj+RvcASR5yFYdSWTXGPVp/KB9NZrz1pXlw6LJPdppwtYynGRE8mwbXxvl4zhv9Jr2mjLT7wCMVaIE2PFH2NlvJgHKc6VifOFerSktVvS+NZljPXIitgfWRtviiJdkv2C9NexwhcmAHVgJhvl7jFD4TsrbNjAkHXNqNFSTQOfMT9uFY8fsF1OlkMQc6xkyB0qYZP4THgtLpTAQ60VhBkkdoKawz5KR4B01xFaOHVsAbwU6B9uBBVkN1OG51dfDQEUxHtTlex9W+TGgywiD5jDraRoEbFG6kZMk39YxDwGFCMexgIFw7vxUvRKkuGKzUkpUqlxuxxYOhCOZFaeC5Bz/TqXsA+cjDioUrsbETVpjlGjmgAVPFwQgsPtqCAVQf4YjQTwyPVY4/7PS1v/ZAvtdj9xlOEAOWrtpr/aRvWjmcSBy5JxMXyp9Tt985jegL0KCPSx9pMcMpDjXOgVooLawG8ppN8JwjR4lMW/UoWPHiTjDYFnXjd330az/1awfe9V4PWwyVEO14rjrGsrnEb3R5sbTKMdXvuvFZf/72y3/hXx2Yr3bKQTVXjhbabAzSp5s+api5ja0AyPxCuHvTfIUASiBuJNRhyKZ4QizXK7kTJ6c5CCxJMxfgGNFRjkBUBEWrLWRvBOjsAOwUys5cWJ1f6ja57fn4395C02CE+vC2YGmtUX/xtVh67yVJlQtndJq2QvdHvSScDqqvvAGT/Rp+3B9BHVvhkVu+hE2SEEsLtnVFhZBhubZsbOzZChH3vdlDueNOMDCXlctX5n+CnuFIt1wACMgqfDUg8xNkwZXlBq8bSprajKpAPbTvb5FdEt5kMuxl+sHEkyKVlm3W+3hciP6MHMW5cPWLOU2XxsZNvEe/f/v+TgB8nJThF4xGjjqNvGt/xwPlt6Gx8X2u20P30aEi9SOP+1yr6Jn5zrCeMEI6swaGQ13JeWMyoZdVRThk8xOzOwA1UitZFNQTAgJlBX+GK10RWoKEQYZFyvU0pFV3zaIxoJtkhKq9Yr9T6PvcsvvAQ+F7bmbyJGtIQIAopTxV/5evKpWG9ug21taFTDRE/IgZ66NK0myWiF4tZfaFWdGiuxa0y/kTvvdYeXCognhNeqC0ijes1uiz0OfTfuIGiiwQjzS5i1w9g6kWTFxy74aPXKrL9Gbg2lhJwMcvNnK0wBH1tZhZz2pGBAMBcpHTPP70rp2awoezpMY+ImcASoRNnWsvb1e0mgrNxZ1aSrB1ELCzBkxVB6n7UJGtHGWLIVb9NNmge42pQ5kP+uYOcuCIFHMDKv4sgclDDeRyC5ACcVSRU50QKfUHvc5RRVge6gOe6Hw+O20ORtxAhjEAw0yQjWW044sQosCsShAlzEHzS8IqTCcQmImsyMphLNXFw6NBZcgseArqYy5Nm/sP5k4uU1jo6RS9jL9jP0x2QUkrKFElgK5PS+uAP5bFmtd1Jd/OoyQ0IdcHxd18gsCAszqYro4CyQkNn+iVMcTC0JStjGUYSTI592YGLDxUjg6XkqVyrusXwjwHInJ+Md9AgGulDEsc1YVWS70Q2Jdyq7fdxzLE63G0gqzZmJLhJefoFJxwUr2hxHj0BobWeD5O3HsfKtxQJ/UBiAGC2T4gQjoQlnKtg0ctHmOmld3Zc4IkDvtnYVzNlzphF/WARiFNPnfHod/5f2978y/Gt98xvdyeTnper8vRY7bA2NCfjunWQlJvTP2bNzzzf/5qfP1VxwpprTELIAwV4CRo+Lrn9FV26OSQASLpIg/rZv1OSPaZZWVzJbAlYLB66Cg2EcAv+hfRIGsFgVELvxGW29gET8gH3APYvDsc6+M06OfuGTx6kHBGFjuUrEDmX31jfXomZKVRLlcw81nSmoE1RuOaJ3mXXRhif0EYqEoNPnNbfGoZzYouhvTY+Iu5eSDHPQF0qKMpE5Qlq/wT9Ai3NnNnni3txZ15/I0x6S9Q2jnWX3YklOUYo1tqdqJxhBqYiCaO1rrKjXfRQOPMyUAExBxZMRTEa4kbVj5gEbMGnlEp+mukwwUodz04TUDqEsYdD57NwLNl2DC7c/PHlZrlPfGZhY93x8Tw4RMqIRq6hcsyOUeerG6Z53EWJInHZs/67LQWyTYshtOUm2xsynKVIBxQZgkdV8R7iBCQYMPODEeJ6RI6RFFC4LqWQZbT0ANHFvWTcqCLoiLOTk8FuUpxKWxOF3MP/OnfKhJ0k8U89YgLe3/8tcxzOIaBSz8aGsPcNv4hMmQCQzK0whIyaFRZ1ARkItnLlX3uMM5PJd58XNrdLwdRLnvKmP1e++TCOCw6epwt5Cn2UhTh/chbCZtYbmSTSaSQY+pMe4hTqlJOcG6iL93wBCg8Ri0dCR/ORC4JcVxtOYSIMSfGqsgtkMCNRtwo9+GgHX4yMs0Nu4yyYWvQUsIeKney8Jd82NoTlms70pjgUU7r6RSxJX2TRogiADv4CLigrKDTeKA+VEtQRnqX5xILNK1VT8Ih8eztYfVH5IOJg+ZIjY1pDFxU2+ClRPJEaiSpUp1tmnYYJGQzqTo/84gMcQYfqoQfpoS3BSqxk8gZoCka9CFbHo3uzap+9OCBIIxhIHEBZ784j4yBn4KuhnU1FxZbPd2nPsbQWvU35/Ie94uVwfU6vEJliymBfCHKzw2CKexyIW6z7rC3qI8endgzKQ9dYB5kyPKk6QW96o6Ov7NbnEJAJFux8XIuXiiId6d1ONdDa21kIQL4vXz34FG/zL3GidQkVXNRPwPP6G2MogUOZxFlZySed7iwiMV3biXRpq1t9eqQo3EA4BJN401nqRcNVS3p2X9lMO9N1Wph7jwvONY5dcBvYff0vP2Le2++567vf8vDP/87ye13lwKfqrRR2kb44yfTbKb10y6HQp7z5Gt+6+fmXvPC/XELC/2q4khhIKtuVkoWMu5xcF4X4pDEUGQ8fMIPAhICKoJaC0eOsN2m+3/6cQk7C4i04XCLZWRcjqICUuK5t8sH0VSpUV+NOzNHlh/66l3cKEg+kjWBqM+4YteO8zA7gK2SIM13JN1PZkqV+WuvRJOB4zu5pnZzi2lx/+duxSQYWuuDaomzoOWEG5mgeMIaYEFxBhFX4D/Ce7y94/6zUhWRBUdHDKvpZfeZtdqVCPw3IgAxs7RZZVx83hI6uA+D4TDbUVnEp2hRnrGQLJPvQI9rCkAYh8PEp6v2qNH6EgTMZS3iK/N/+z1PpPRvNS1LS+0Kw5jwLiWYNMHSD9Z2ITraauA2MBk9ZlLi3Bi7E9pT4EouCTuxloH9Z8kVmO84VCYOmyW9FnZujWsgFUqSmkfjfeT4abyHyqmuLun2uQKPY3zF8ipGl/O50tSgt1J/aP+pD30yjbvcqwDjA78CPpd/9eePLfc8LBWVuGShEoeFJcqOOhTvSkA+xoQNcovEY+6o1/e5WGJKt8QXViNvaVXcYRcxGgJ2iGh1+8WXnyhG9bC3UuS6NyZwbSDxAAMebLK7h2mjL6taZg5BajsSRyFyKfpoAucQqXPLa1hKm0W1NWhiRkT6pLQdEuk6Rq3uD5DD05oIVobD71iBKhbZdCNNMR+e9NHNKlVREC/lsRnUxsrCC58zqDcCaKAWjXQG5A9Q50oxVwLSXiDspi7zW0gsqyT0DxsxxpvQWDb0HjuJBSeudimyERlGHAVje6+cp65rg3vYKbZNQxOAHv0M4XecitAgV6jnde7JNWfUn6I7w7Sj4STIi03nb3++7XcrrL7ZNYsl5aOmpXyjHUW2YYq5MrAmycUVanJoUVxjOog4UAmbB1XfNde/YCcNQMEcrNRsaPIoqD6p3GIBmZa7+MzqKUTVPiB4CMbaXhPhZMqbn8BeIMBFr2qgGSNWb+kQReofO9SdZou5GPeLnU6nWsq3OBEVoceM3VBsntvVaTLRDoBUcgdlKpsV0ZPAWAdGR/mpg5aSWFDxQ1gwUA8ogSRw0UKS53y+xkNuFdvtQWH7k5/UipjFsFIBrmCTDOFTnzUFW1PMdSboYYZjsWP+Ed/TxqKSP1jJJ5RVKpU1aNgtLTAYaCRyJ2SwbFwj7RA8aBwHw2DZGQK540uFge+XppDrDgYtNQNphADF7xQtuYQe/o6MKkH6wTpGE38aRxfbVb+N9XOMlnohhskqeRYUFQwxsXowERXkBKtSGGbF/hEpJXBmYsYL4wzpgKYw2UsOoI4wDsbYYuuBNTzkc9wZug1fWTj4VsYQeDFdRg2oNFsdVFeTpD2dP+V3Z7kL/R8+cd+//NlD/+ZXK7d/teH1OZfboX/CLqStUqxiLzXdd8m+33rLnn/9pnZSn+I4RY0tMIzS+tg1Ied2HvqmaxKwMAfuKQiZFjMFbaE10DRogToWGkLHivlhZBnTq7dIoMCpBz/3spcQSdIlOu5CM3XQkEjl1Ra+Yr6OMZBo0K32QLcITJJ9ehBLul8iqECQXUqealLrgG9h1K8WBhjh/+MPeUkP0keESlJo50vHf/LlU3HFL1ZaFY9Wc33zMudMfuC7O/lKA8Dp0m/M07dbf/P35T7njgtTK6BieRWjZf08h5q1rtShFvHr7i1qbn4+s8cF8s76YsJDld2jdc7YAy5t+mTxs1TOI/NoEEZ7uwW/UGbEA9ELEw56woXNiIcYL/rLpVioWkDgLcwqrPYQwT3IhmWJLdWj+cKxSizAoFvA25Zkso+gAQtwSFaAhHLgGxU7bkWAvicSBkNjQGLDZrFg8utRAu3Lisqw4iClYOgAAv/OY1J2hihjQbu6jDwD94b3kM47aj/2lkVHe4zu2Wg3yb3I3YgOC4DQIVeeyc9EVGmRkAuRqMwnboD/sK+zcTfRv+5nq60xl2Q2XOUJJVwXA0we29sR3Hi0gBhNJUaKbWEK9o516LCgiQqNPt3fEQwFScQWPGshtmNGvnQGDYe14Ri6MThQwLUHnmXzB9I99qC/6D7FSJiACc+6RxOcHoeWwFyOWprjjx6qSRDNdPinCNZmFyn7BNYuJPNkER63Z7wglpXNfnL83Z/UDhEwRz8z7oN1O57z9NmnXeF3+x3IHbxe2Z+lJtKPtdpbrbIqMQwQ7bDFBTximBj4jFNLOhHP7EK7UE1N06nrruKWVKwnYrKcm1HG6zDeELBk3AFB3ETgeARyxjGs6ABc9hP8ItMVpWjSGjk+qWKjUJGiDlacud6U5nm5uSddRhuNBGcZnFuPQ1naFS8uc/+del7kmgqmXLeBze+tiidG5kw0pjbSSt3GUqSlDC6RE+E6ehvtpmgOw95YHLA+7kXLK4vilLS9pZhcoIhEpXbx3qSLzW26S3DctHQXSmH8qiLdG4/89qCGol/ww6lQu+EJcJdwuFiF6jEwJLgSIsEL6RmV6D4xR66hZbrAvA06aoLcCD0cSvAWySLQxGN8hsdOChtMoqNTBGyvXHp+lO/nqxU2WTqAt5Bvp4Nmr8cULpsXRqG0ATj0GGXGbwW5oq3gtRfw3NyNwh2IXJwJYE58ujgT8R2L7N5E2CyJhsUo3A0Rl5Og6pz7dRRHcCY8+xzFOqO/49WzBEI5bL1yMxEy18Mf/uzt//q/Pvbzb6/cdncVTriM/nU+hNK6Qx6l4Mqf+Yn6G1+2zFUunQ6NQqWMSZQcGJ/0MQjDs2k9Jsod9ghtGMMWfVjqLPLG3tHkO0Ja0BK/+8xglZVOZhEGiQGVrK6g9ThYWVhsfumuskyOCYCsaS9/+rWnGsGAS4GSCNa/mOSmnnrF9O6dGk1AWOPNa3/pHlcxvgjMSiTQYn0HvVzdNr63quJwGFqjiAMRcGB09MARMhFSjUxApoyJ5t5ZnnwCio3wH0bO4plHJdJp5LUeeO7T9b5LMe4nq2FuYxVwIeuzPydfI+oxxOz1FV9XolVzk9e6SKf9GG81ESc+T5v0HP4o/N/MOcTY+N6qayZAI3xjjBnWGZBtOIMi4pStOcb9raWyOVWfw3G/9sua74mAgTaOkqP266Frmdx8x8rnbmMnRIMDqQpM04Xze7/nBVEIX+X3OSVMJ4XMu6IYWkMYgvJnlA/MMcIlo9aEFnOrB9AzwEjdcMSwNTK44gIuY+fKKi5YEOu5ldMlAKoEj6sNI9PRS1dt10Gkdp9QZy1K9KGx6VqGCpRjpARDgzG/uxCIWwXmkGONmPfGjvSAmTWtPespEwN1q9qdrXBtl4mN9pIjxyUeofKYa+YbAG2fR9fKFbSR3ExUgHax+oGh6BVy9R27OI4uSAirWGlGvYVTRZs9WISzuGN5xDS2eOwoh9UJRsTIwlA9EaUz11+N+KRacnaA6FZKzpBEZQqB3WMHS7UckmyRpRBsmTSokKJIiYrH+W2Ror6UKFU5OIe2O4o/8sP9GBvEko6VK9VmkCBvGO62mfVihE0kdchGndQs1UT8Ez/xsPHoPPJLGSwfP3q4hYRL3CSWNhH2eOkl50dTdZbFyL24f4aLW9Iq0mGEd5IPOWcZ02ATsQI5VgXi9lRvKobDAxa6CrjI434X4t4uvnuPh1PQxsDxCM7vWKgspvMQ6LTYhSHODfuCj3UVGf8wNtTqb8PUre2Gyc/4zxBAY39Iyletk9Y4EpfL15LB/NFTS3/+/q//+9/ove3/cJliyfarwQkkwlqzNvxd/+GN8Z4dKdbeWaLLLpcZzAT8Q8Cq1q5la3zVCNiOChABj972iCJIb08MvY5JOzBZM8l/zdmxU2rLykFCU1Vcb8lALB9iSv7schZB5rwCKC0ldMRl6Ml1F1cPve8WdgkjCgGPWatceD4XaEqABvqSa+TNfdf1aQVlA0STYCbULT783o+J+jlFt7Xa/FPyOYhufDuaT7hmMpn/1XiUdMQWP+AYgJHASo+tby0Ccdzj4pOQT7pgjT92fTcabirXkkApnLzQwY5A51yX8dZjPciLeZNf6VByxil8vbPgc/vKaqgKQFAg8me1wAwsItCjrMc9KnRUYhY+Cjj7fzdiiAux3RLo1qQbxofgZ89YFhvrt74DdZjHdkNsBcZvjFiHAfxxUclC4RrkWqU5P4DCszH3Jx5C5UeZoEjg1VKOf6eHf/+v84M2dqj6CNS9tO3lK9/7ov6l5zcGaEyKE6R6UlhWrYbJs1wIdHfDk7MfcBOG137gANYmtfxEPKKZiWtmy8GlF9FK8lGpIzdWGQUNRxcDySKQlQP1KPrkX+nxUAogHYGL+KhSKSvbAtOP5lxKRCdFLN9wE1o/LnPOy8tHO6bTKy76NqDd+qqPgHfwpBTB6Xx4Cw6ZYR3+gj256RkXWeRmfTKaM+HEleXTsBxMXX4RObBBYlnnUdeIDh2l6WQAYdc2iaFT99RibmlZsxE8JatvSsDu2DMujf0SlxxZaaO6GUhdceoI+1Gf2tYyXM3bxh87NBKzCsnHH0KIRoauXNcOieJH2RIyJMGqsmZW0V+2qNgWtE0B3sPW2JBxOWhvAJGVPXbGkwmM8wogG3tA3uDRw6UCu8LEokrGZc/U60++DFU2TpyVsbvO8SsUtIrcGofJak2IjrKrgeC5KJGqAdgl4jOiryaMQGIwGPIvbiC7Wp3+nWHgOChOn4RfSUV8HMsA9aMhso0+NwypywR2rGWZ4bPatTbe1yKcoY9OnHjgn9Sz+VKpO5gdFGsVP67kakGu8Y1Hjv32H3/pLb+d3r2/Gmv1hWPXcXUw6O7cueP5z0A9jssAuP2uBMZC6NgdZtWlWNIoxll7hTFDtFFyaz8v/a5eGG/LuN9F4T0eqB7lEVHhoi0EZVoF0uFw/y5fSMfQN+rfhCUW8WCFuKQpxw2ZXufzd3pHT4j50iIRI2y5i9/w3dweFeu4JXdPlasvfx5bUehIkQqa4602u5+9w5g9ZepqLs96Yj7xqeb9YzggsOkzXpd1VdVI15gBhJI/gZlql5iqIZ+k7kSsa2yWISg4mj1gI34GOPnjAWIuxD71ZUFsxal8RbBs9WEObtbxSXxlQ9L9JNyw1Smp9KtBm7dKGPnXNcQlOwdvqoED5zLPaQqhSps7muAeh8Oj93hWrskuhOJEWA1ivB0Q3E/n9j3GFGXckTxWEyAw8Qyp6xonRVVFbycqmcFkIhyCMFrTiycBzTT54dGQlr0oWZAiMclcFmIOzDmaMpHdE/9U3q6fZUgSedIAg8ac0Ik+cyv7Qsx2oGxIPfft2v6DN8Xc+xqUSnAmga78UlLX8tHC0dWHJsmB67w40X3/Yxmu+5hMIlKxuuO7nneyx1WyLE6hnsNBQYbrW0Q4A3W4T81AQLQBL6ZhZmNvWNzoE+KIHhiZsPQEfDbGmeFlGFDShdFAypIXKF5bkcwGGvEn+t09L7wh413W1+Tb8ZU8diigA4AB0wpyFUbQVL2/B6ObQ5fRjlHA+r8jMDarJW/fXpCS6YJpDCYR/YT2/Y/QXc5pqKEwhInmTjd96ACIR5fC0pptvELpin25y87vwYGctljXWbw1mzqVqexMHx7btJdcCpYalV07Fkd+VECbbaA3drzYbUS9hbfNMq5fXBwq6B5nXYY32y0YTdBIU8fSxY74yvaMe+yCOLH4EnyKOcyv3vNIAK9lulravc8Fq2lh38uex5EAxK1TnPHj/tpuqP1okEqUXbIzEGzyAW7QcQnLjBwotsqgqq5HMvQmcKKPxhvlmsZ73GURxgOdH9hmjqGE372NbuiXURJRS/vOQka/jP66yIoDplvk0S9n4e/RWk4XF3Si3FI76TQTjgfX0SxLiu/71Jd+9tfTux4soKmIOlHfm0p1vebulz0/KHGDFLyGbJjBKiNPQphNu4bwtErRmAwFXS0zONMKQtzbecb9LvIwfPhBxuphESWxUCwcdMISRHKPRGT0pvWpEtp0pW8YV+RNHN700nqpHB082rnl81SUuxhZLLA2zF1/TbR7lpOdMIbBUy7xLtubiL3Q/IAW28Lnbi2fOuW6mDeVzPzDetmf0+DAeLTvBP94VdUio72uYowiWCjWMNnwYXkCmNjHHc15GkeiS6Nx5D5ByGH3WLjLTSTKegcPjrJMyiVVJCIP8WQ9VwEVJxwgKwJFMhGI31pDFYYPWWWo4go612/DLFEz59znWSkUuGnkm3PZ8s7ydz+5T8UcVWCU4uz/pY82dQB8U2foI9q64VE2G+s3kYmWcZkbLrlseJOS8GF6EBCEMEQBCgxsaXBkv47H3Fjgtx7CROoSocAZFtLeoFvJDY7+4bvt9LcoeN1DSbQ0/7qXt7ZPofjCgqsLZcfsXNZg0ec1R2QE+AwjcTAY/L7vAOrn8ERawarNanDtpueeqtuFVhC29cmzjDRhCTkAhc2iGoVyWQQ842BxEBv7VRIFbO3paN6Iirkkw08U/INyyMmawOdqwqX52mWvfQWbD2OQHsvs3HuTw0cLAMotuBn1MtRczF95kUqenKMtzIEje2uNJ1c4/7xBDb1qZgvOKGiNjDiwc9/DUlCh35B95dmXQB+9MJOk7c/fIV0VEBORI0VzAmtmtvLCp/VYXQNqk+ZMNJ26mPRAkizy5z18UKKDqcqEUpBC45NcCIpTkhqNcJw80TFGiFUi0BYUjnQiMwDZjWfRjObWtegHM23ZOmNYF5cNGIGCcaRtF934gSYsW4R0es8mv6Vv3O8ttOlNPZHRWS9ovOi5XLR7KmwxqkAMmZkHN0CkInUXr+boUebhkxmCPNehuI1KWodTYns7jz5GTgDczGXhmWezWGthqqI5gvg7/IFRY+suCxGohgubtXSjiDSQREzx1griZ58b4p4ugPZu+kh2XymEYFy5ONNo0ANHu0uLjcKT8+XK1+6//bf/ILfaZRR2VpvsxZa4c/naK+GLEVdxCIClFKdDOGECkkgDXxveIL4cwKPGPEBJa6MMzhAEo4cOYURRbcp0nxt7wTWJDpWRA1gjLd7IV28Q2c2+AITkvMeZA1Yg0tVDwiR9Qng9FMibD3/oH4qRLOT1qGqZ+8ArUy9+NmbZWv1oz/e9ouNxgsWX2RsqFfeOffAWtCJcBaybtLy0ppnUyv3wnfMGgzZ9tqihWmKODnLjBXINxwMYJRXg5+HG30hSRbzNHHmQijc/8iYrxhqZuPnRStCLcAicDjubcx2ddbf60TAEj0ue/aS+sJzd2yX/NrypBg/VoC04gMOT1WpjBTaDjcLWBp0xkYKrjcQsB5e/exOIZ1iixcjCs/jnyLNWz/WEQoNhM3cm1SCdi5Z5Miipo+EL3MN4NikUKIAUQm9mJkcz1AHW/VAWnMBhs5rLyO1YZZmeSZ1OEyerJZdqYSwo7PeKDX/183dEH/4CqXpcYYIaJkuMC3bOv+El0CMqj9Ebm90Nranh+pmeHSRqbyMp4bou77HjS/c9yGKfIRPmvekILYkCmiu7b7rBi/tSTR05wWC9MxrKXrumDVeIwwwHHN4SpFO+GyqmlOB0PC0bw9tCnvubxduZc/GHPcvVF5BLxCZoghVzu19y/eAZlxrtdnG/7e/ldveeh9g+RaZCy2CCIDHzz71O9RiD0jet1qXPuS7EJoXQRogIFAbHDiePHdVkghl0bsbg2npDwkYyOHTLFwEi+h/stnCcoKvLPvLTr7y+PC95GNDO0ENZmXMVgC4MQ9xMJvsINsnZdMjUCOqyxcubTtQjCjmcJl0OgRgpnffQ2z0SVDBG5Ciah1LEythOH4IM19EuAm9HnrQfD53F6jQyKjSuAB5JUOpbWDz15VtF3g0IwEHHUvdtv/Blzz1ZHixhI6EcAA1smJFEUyZMPVy7iiPuGmVQKaCYRFMjBDUBBuGGYaejj2rIKNUQSx2ujgKztmz0EH/cZRGsE0Y1WUOMUUgWL/NoQSSnJRoQGH26310Tsrin8YxXZty/k51STpnUSs1y7vjKctWv7p3ZHS/1TuZOnecXkq/em9z6VTSHgtm6FldFb7B7G3dnUy6nU8AKfBw6RZjhiqYfHdFzFG+8PmAG9adjiOtohTXIGmXx3CdePOMJRUYUBAbSaTgJqHDUwRbFa/1ILId/vLFJCzpxtLdXBkvSTq8T1Qqrd9zn3X9QnJ9lxEJg5/e9oBUUwmqpdtPz4PqQxbrpPndqKf7C3b0S2KTiXcEUmoFONfin4LIKT3gYmVARMaUmWqAH1VRJ89YkuxBuHpZp9khrCjjwzh6XJ2DI4INfHW0d5EgHIWRMTIYhj/WaAOfiuPj6VkL1igmo5HF8Ngn128hNfI6Cz9Vf8BknwJhDA8E5h4HDj8f1RzAZe8hD+D3KKiuRAEUbhX/7/0pgudnj9gE2vl0HbewmQlygeyNhWdeWrOWghRAIN+KiXDyXbF2ac/NByXAVOdj+EgiclIr5Q+/6KNMgtIFlFr9w78yFP/YaNtFAUd0kJebE8EKDxQbRqGLSKUYCgoQBU1L8OdU6+vCjOSxxp9w2wbZOX0aWSoWnvOHV1Xw+5ty8y2f9cCIzrT9tAiChW6MauNZDcFQof4GV4zJRnbFPcXxommLb3YmmLE8lF5iN3+9GMZfeJ1wiUi1f+JLnsgWh6pj7dkLelZhPotb+ownW3FV/u5jPK84866nDCo3RjqyGVHKdE11Ltz/z6ah32FjlEzROl44u5FfbNFusuo61FiWESnW8/vi9Dxw/eBhxjjRl+6hqi2HZ+cxrL77qyS5nx31mddjocUhrb1sMGGXV+B15KM9NZqQd7zxt8Gm5T500fWp+guUa8VJW0JDgQGcZOLyHBHdsjFBbuHT0VXhEaPUTTI8YKL8fP3bb1zlKSlYad9K4R6kld8EPvnqwe27Zi7uFtJNEYdRD36UnY2DW9+sXBq69GaEHJtQWp2FgHvfpomXvjHoDlixwwkNWEyHDz1EKB/+Nb8N0xxcpKgCgbVtl5vKkGiO8VsB4rSYokov/Lb2pIauRQieuYIypXA9XOuGp1p7K7OE6Rt+jRi9sPXIA6eEyxj6raYerZtjD7g8YlSiria9zO5e2EKJcoJpBe2M1HNA2wpxscFl8orneodUuCT/hIaF+sqEEEcrik1bzruXg4vMbV5Oi4oAxKvaVCIy6oTddKSy19v/D57GST07aF+ck8g1PKW2f2fvkK3vnTYO9jDHQHYMej9z1tfKR5X55uBfh6uMy5+08WQW+EzyuVhvfW9UNcLvIcOeCsxukxi25JBOoxadjhnjDS7lP8RbGlgIfxoNLQm7EcXhBVm7g83Yc2ER9bBKaCNvk0wF8/L1JpLMa5NqSVc99ZiVsRPKNkB+CN0uzhWfjcMgibiwl++lceDSENrgM5lkDKRr/hojDgI0V44fxQPdpQk9DDdN9ZFRrPJMvlAS+HqLE8l7au5JKaJphcNIZRIDQE5mHg2fZ40IGXncgDV1WCayvWRcNZTAbQewqa5iqgscfzST9/kyxUuhhTyWXhs3cXXfn3vsPzXSViS5MQ3FR5R0Hf+kNDASMBnFRiWquJto6d2xeKHB96SCqx4V2Lm3JTvCg/e6PpGkrLQYyu1JElWKw5PnLL7g+/eHXz6w0MHlNeVyrm4/a6CCUuM8k5y912bPB6jdSsrQbeB3f62JICC2fXJELR9hTaAlU1ImrsLrSMM4n3SkP0zWtXtePfWllDdISACPOi69b6MXVXKmZxpyBn/HKQSff9cv9fKcx49e6IQe6ei95Uec1L8cgqOwiLC12vKQL+GnfIAoAO1NVWlFbnVs3MREkeqAnm4YVgeebOEYXDyo+aPxAUxK/+NDNnypFqOQOOYp82vP2zlxy3fNXi6VWHLIpWit5qPc24z5avvW4keT9kM7ye1gq4wr6sFia23ml99LnYYgZLAvh+Wl/3Dry8Y/vQOstrdBxJa9THHSmZHy5eKTc35MknQ99Jmi2o+IgzPW3kSzmQFK9/wc/V91xcdsrJ1EyGw9q3XactDnw2Ip7yBK4+CVN4hz37vp5jo5H7K0V0tVcNCj7GFiPMGoExApodcOM440GBQ4wdAGi5nHxOWzHQTxjWXXCciFSMc7ScZ4S6+oJgcObdkBgLJMQhpWvgFs5GAs2F8KRueGke2/APpACwwfkldfuHpLOTq7f5jBfJ3ffl+8srvSwJxZ72DrzemhIUfTTr7j2ta8LMDK03Ay4toc9mXyuVcD0VxF5CQ+mu5GfoBzYyxXbSK10SLHYx5wOdeQWbe0H0QIsI6EwgyazDswzCFiWuyGvztcF0P2okHY9bqJj0KqWhiEcHRSqGK6IbXRMpDKwuYTtEDhCAoExkdwDX0D22sY0tgm9Z0zEqSYswIEoctVCoZJiJ7MMCUHu43sYEfNCLDx5pQaGm7D5DjZqkjd2FayWdCDlB6uydMtokHoHPoNNT52HtAsHKMPYXOR5PGGJ7VT1O/cMlHRDt9/LFdqFYivlisMkDvrdQo/rB9gmxnQ+At+9LfbiiquNaq9YyseFaQ5TRqGfxvVm58R0vxDHnInr9SNsV3Zl9K0Y+f2pATfl+c1Kics5qZ02h1B2zC82z5uZaeb9kteMjk9znAWJchB0Kh5WXiv0OvJWFkGYNYKOEB1VPPQw3QwthEMoImLVB5sk1aJW2ZpW60AoJg+01Ein7Phj4o8dg5DrvzFVVSj5bSzm5ZK6X1zpdmulI3/9Abb4evDiEOgOstz61Bt+oP1D34eRYbTBOInKWM4X4v7b/jKpFkIunZHdHMmarbdUH0Nw7RsCcoYHj060mkdvMiGqsb+Zf8uZB5wTQhlyueXL6E2TN3Wj6MN0LDBcCki1WcMRUkuDnJUsHomZ1iqj30wAjAw4tstGE7uHigRsXfCAO+QHWPHwyQYn62cutOLRRrwW5hpE2tinfDQtU+k4igACNigZ0wU2uLxBjZ3VPgbnzVaSTWxuviJvDuFiVp78KdRE4aRjoOj+IrAXzGdQaMNH8mlGEV3HENdDII9JyhAsgxJg1yaP6wgbDQwIPS6aI9cZS6Sc7KFiJqATnNyMPJS7adZYJ5JBzAn0tsrHzc4b3yOjVtKFQC+CNygqLOXTCf5FJ/W4EGgLmEzd6GgGuuSFwvkhV7AJSmQVogUksk88zo3Xx6XNQhw5UUdqY0OI7ZyoFZyOjOxImZVqgBMurSsKIkdPmBUwbbwL9YWEYmzE4VB1exveOezTe6LmxnZYgRM/ZCWNhxNx/POc+ikrwBJgr4cJ6la3Uy6X+53w6x+9eRZkpEOKZS3EKuUbXvACE2yw9KJvVD+aKCo85rTsQCMHUEph1iuDaUcWwg/cojFDmoTtp3Q+TWeTwgU/+f3xM69cYkosV3NBBe2lAHXwVttrtfc2uILdFESxF8xkHfa4tN1P+kF/UOJSm7QQkAtGz7n6q8AUDCcKfWcaKSQHTqa+ziRjEJ3xgoWbbVdfDf+WXwp3lerY8zuW73an2O/xBo2p3olWsJor79t30a+9uZpibArbcHH7vke4wFRasSykjNBwcJt7Q9aaKPQ4yw4YMh+FX38wvefBHvZqGPlUHWFN0c+9+dXNmdqOfqXeyS8dpfo9zC+frA1WfPijiDv7Wp1OOS5WW2lvpj77E99L7cpSQfFq0Ls4TldanY/c1nS87/qeog0Q60Pv/EDa6nY9OCWYEcxRSjZXZqfmLT9av+gCFFwiPzg1XfaqNSxCNnSjUBD4FWnOGRsFI8Qtscw+U4yCKOTemxL2Lnx0kXRqU7zz1mjMT4imqAYeBiB++Aa4dui7zIFK2UumHeBl3NnD8QGFn1TOKQf7JAdmS33yv+EXvvbwwx/4WOKFPkiD9fNirSar8NWLf/Am/5XXrwb5WmtQi4TAYBCXKUWVwaCci4pxiIFAZnsQTsYHMSkEY5T0YEJRKCx4bZYLZfDayA4lQ9lHollKz5qbAZvsNShMrkZkc0o1fCwetdZoGuPCRZDssdO0rP2ND9MEByeqKjuHX5ySy9Xe0CaKEzmjUDKHENGjsJ3m0URnn+SE089WASApqjislSTNPKozWZl/Ji4EBT8OCsvV9ETQbQIGL2oMBlW/XqLTpIXHqUhOxJahjyvtTj8olbuDRljcvvu8OPC527haqJfCvvfwkbKEDhpEmoNpDlNOnJQ4LpfE7UGvjGJBwRldgdSyLCjXt8+hvh6w/pkqH/NCLH02QpkeAy26eS6vGXTAX5C2EFTYMTantn0rzqGW42hJp34cUTX845/x4uLqp263Pod9FRNzyUtvuOTZT7dlg8whaMv4seNJs0Xtgar4bNfFYoWFbN+0Xls1wYWf4ZuO2/RZm51ssoJ5diE248KBDrkcQwb6iGlYCMAsx1vogaMBsNxigKwI0NuhjZh9hTjnGjv8UB7m7FsZiE1RTrzxC1DKVbAa9gUfJi8U8K1HlB7M159hZcw7nIOU1srA48J5r/myoHPjcXWmaDesKGTU4LNZXpZ5lqkrl0/GtHPqJvNlIaNfhkB2YM8Cxz3ZT5ln/Net/OMAH4+zabjL2d7gHR2sN12My+JnnvHcJvyiHywm3TPxm/JyaKINNHJbQ4MsfGOSsxjCpMX1CrlSkW0R7Dun3ejoZ2/1PnUnNaFXWiAqXMvMPBo3rMc1eoTDhqwTvEWKYCqHhMAsueQqnO0/tvLwO9+PfCLo9cNAVqy8JdaWBW9+1wX/86cvvuBJTFmL3aiVpitQ73pQa5RXm6fyYS/X7ZRiVq5cLpvWMFeMrU9YNLZzeki7chjHQ4aB5ILZgSUi4i6WuSdu/brTphf8zCxA7oVP8a6+fInWrUb1fGnGKzZa6ezRlfZyp7t9W3D+xRf+13/nbd/ToUP73sItX1w5fJz7Vx27ZOMB0UKfPaCzCOqJrFxfB/n+7NHVhQ9+olzIcd2vmNUEhqqUf9k121/63MPFdKHg1feeBwkLkuT8JC2zBIt7jVJ5b3Xex8J8Pt99+qXFH/0uyBnVhiFiRoUDDD/y+emHF2CU1tBrffE7Hj30yB/+0TSLQ27xhfqzeGTiwhrV616w/d++YeXSC7ut/o5ukDZh8fql3oALXCWAh8+J2dwRMwT9xdBAnd7BfjXadJSc6yMpZd/MDZL1BQ6/rNU2nDTdKB/INTy6j0DRw3Q1YkUOZsowGZ8+vHFGG4hnpEoLW7cmMwTQ4suEL077qtVvXZkv3/W/38Ulx1z5R6l5DJ9GpXYris/fe80vvjl94dMOmXExP+4Hvt8chO006eRiInOnYTdNeDroX4VYYk/gxqVVjESWyx+TqAe2cEYJblXqgyyJ4VpAOFFSjQxaI+rGKEEfizU0jBSQgJ9lprEltW7iwa9pDA+4ZZgGKDV7AV5NaRucAY7JxpgfY6dceeREXIrF8XfIpiBoJoiJXAcVBTBb/61xYVoGuiFMT1APGMYhw+dWwtYQiXAc95VrghtcSR4X5ru5PXFxFnNzkuKFhWan1E0acb6OGVQueorTmleaDer81izkp6++PP/kK2Cpt/kV9BMx9bv6xdu5O0hIwnq0IE0piesHaQ17X2hScotQs4OIzVrD6hhBW27Hc56ZNCreYojpBG5DquVys3FcS7hjIQyR3Qaa4YFvxKZiiEl8BwmXwTd/T6AolEQYTR+6iXw0HWef+Tg69oHPzKRFMDM06Zd3+e50xzaThCBrBaa5hY9+PlpcAVUkOoQfVL/QIkdUHucsazl88+ZMxGDuGJ8+QE4QZfPHyW1AYKxROzZaHQNF1uFWYa/2SzjVCEqwHkauILGTZFHCYfbZtbVCBLY4eKTFaPIGVVvsvjrUdYxGgnWvqxujmJ8IgQIQjU8DtcEfn3WES5v1FKk1yoAqj4045yHEheNRKdaDine23ThI6WKXvQvMyNR4nCdSPgDc1AlcBhxXovDWPp2HWoFtUArncZUknzOvyaaFniYH66u17Cc+sx/WhcsiokEPjMNBL3lGoy9LsqlHcil+ULJRB4zHc+RwCCMBYjT4slE4Hvts+MdBw2VjSNoZITBS7GCUB+muTnrgz9+vAaSpyEfUpCEh8R/UfqxXxGutOd1Ro/W1pkms1LEZMAsRvvvAsT96T47NE69Hfulcgx2hQTkfX7Jv7q0/13/xM6N6Y74wvYdNgMX2Yr/b3FWR1e+K3wvybLM14ST8/pFSzINRb0Zpza9gNh3Ih30seHMkyMPyJ8L15qMHBidOxKwPYQm1xVXwdpz/1Ne/qn71U09G/aiNseVBkh8Ec43+7Fx4xYU7/vRXci98Nts6FR1XTE7+6Xvq+UIFoi74S01e2h0a42PtXWvr2fG5Xugm3dncgINC3mMHq4W0yaqf+0rSQjvNP+UnfmTPTS9ejpKoGSflUrfuryTdbruNogam6jurPZpWv/H6G//dTyLHYSeD+wrZxNMx9KMLB//iw3A0ktI59FpfZfqIKy2W/+qj3ifuRExwsq6rX0uD4qrnHffSmde/4rrf/eX+c562GOfmgm3YqgeeuQJ3wPWYR7n1hQchIZrudHmC6YMg4Cw4xu51ZhCGSlfJwcRt5WzY2HAywoccnv1NOCdanaL5G8Af61Egjw0H8ShZVygVvBRCQ7aVmK4lBMPoT04CTdTYvTjM92oHjt/z1j+psCMDn4gsreTV6nX2rIrnXfic//YL5e9/yaFiP6jVTrRXMNrZ7cetfohOlV3XxCYFbfAq+SDuD5rdTifsYZKKbWEwXOIUMVLsKuaQi/QAAayIUXDeRh5g7ZC7SB2emEhR9MaemuYniWKY8y3c5FXsUxmztYZktoDRHDzkczTqtOE2mjnoOLBb21VuysgGpBEWbbUQ0/ZZDGJCMf6P3vKB1UOMsHlO0azCvHkYpE4gwcQpptCDgy8Dqh4qZj3qxS3B2NtN0YPs1fNhOV3143Y+ahajZpCsBPFSKcJU2SOXbd/+Cz+S7t3OdT9sfnmM94K39Nlby1EEV6oroux2aYmWQRTgp0zTaP8hbeBQGVkI4Rqe8rabbkwvv2RhqVPGaP3s7FI+eajYmmc1IW7Rq+a4p0Z3G4hQmbiL6hN+5g4g4rLJT5IZY0iNsYUIm66FIZvA3Y8Of+pL3qFT7EwC1AE7j6TFa1SRCgVptHrzV2QeQvJKcaKCtkAuMLqaUdMtH4u58UXCLR4VsdWD2Ikn+5VSxzMxhn6YLdHY1XTxbRte9+uIy+ceYrfxCzqBjbBTQl2tllHOcNfC2GoBjLIGCpnlGWLXqBsEOnsyUAMrHgJtHUXWjGX1nz1ghPQsCSB8bU7UHqg9AMjGgsseROFhDYJjQLjArLhRFc7a34mmOX6F3IVCuspVg3kiTlY24Zs+WYQJz6aRXeaugTSccglxoCM5HucEjQ0OyI2HCWSbufE4Z+53OZ1JfPWYESXb1xMjlaUiE8Fxs8pncdTG08RQT5hb8xhnTVedJtUwzeP6M54tDAoTJYtYdFO43xa+arboL33uK+lX76kwVrDBCUfFZMXo0kmNLctDVs/Je8g88x+pWNxXyqV6L1n5vfcsf/oLFTRIIqiMt1IptlBtH3itZz/5aW/9hct+7kce3Vl+LO37U9P1Qa20CCfAZlEQxKUg9muJX49LM3G5ngTFbdNdZFPcQMZMhe2iEhuS5emgDvCrpRK77Csf/0qNfRkUy0XfvJV8UHn9yxv/12tzr7gu3Dm/lOYXSv7qru1P+sk3PuvX33Ls2ictgYugPxcJfurL4RfuYPJmLGhhpaEuHQugBDRo8AQWbgmCx/WDuM5KyVs49fDb/qjUidD8WGDyZbePq+X37dz7H340+IGbTk1PlXrl6griAX93da69f2na33aqUeu94tmX/tpPp0+9OMLcch/BUa6D1ljaO/qOd4cPPrRaitOqbJZOOJqD6xaTPZ10/2/+fu6+/ciBOjmvMwjhWWbZKqTfn3H55X/7th3/6+ceuWS+Nds4ygRSLaFYwXnPKOn14rATd1FCGgTFe7itbKrSCUroUrDtx5Yxal/odU8UOvEJbEURUPSRgqB2+t3DxOSsqAN3+EBjlUQXHMZqphXJUL85LQH3ZvMXLoq5EI6qVK8s9JZng+Cxd35w5UOfLXtw4ZoeuFWW2qOXM7Pv4pf8zn9+9n/62Xsb+fZ27qVtIB/tgq+o3OQCTnjCYRe84IE0OhwUuztmw+naSjeEeYBqccmOzTdcPMmp9zyiKSxZqXrgiKqm6RjqBgbqsUnITUjwZzKFpf1uXaFCoDt+aCIiyQOGDmVn5INejrP3zqM33BscFDohokNmjxQwOckBweCnJZc4QNWTtAx2TXKFTZ/RvG4UTcWS3Ng7qiERGgrljgNA3sBT+f1/W/3VNyWveu7SntlTyaDZQj7s++Vp9pbh3dFZZPZDosHWm9i/Qjr18htf+o7/tnLdJUJszsSVMcsUtR56KLz3ITbY0eNSV+bMxJudoYQ7RQrIuF6+/35vqQkEWRFRiw7AvPL87W+4qXbt1X1UAo/2qgvhBcWZZifuFPzq/DxN5Z5CRCLc12lXH9GUbDYZgnOrPxmlBQktGZWSE05KUOoecUMjf44lQ+vEiRMfvoVeDdoxQktUKpHB8wLu9ED06P7efY+g70k+UumTYNDEgaPOJWir+pwm3I3WM38PeQ7Heax7r7FWGY+FR6Km0VsYa8pP4CeqToZLYKM8WgxYTHBYjJRwUg/UUk0dPXy6h57gcXIRoO3ACCSgqgxesR2MaYUrDq1zomXgQKDCeYCj85jfkN/Q3hoFKMFbYb5imV/dMMx2BPLTwPWJ/qRSjS5lbXQ5uvAnmvvW6cmfZvI7MJQbfRLiwi1UEdxnhjmKewZu65K/+S+uxKzojQmy2o4zUlqM0IFDtzZGXGUnMkHjQSTPubW4oxD3lzjOgUZZ5PVRzs2Xz93AXC5cyPXYl0DUkEbt1anAv/OP33XtW/9jrRGETHMgvtasGGAEbTevhhnG1KTAQhPYrHoh1xCL1LZOnfiV35v+3XrlGU+JkMx7JT+MKpUAXcJ0em7nv/rBnd/7Iu/rDxz8xJcWv/R170S71EWKFLHm61WLhfPnZ6+6dNdVl87u3RXe8oVv3PIlrwXt5L5AdlgGmEsKwzYyEI28pLf/L/9+/rWvRLxGXQlgmK2Ug8YbvuvaV9+YHjqZY1k9V+vvbPhMqsF0w8utWFNyrc7yW/9qfiZQ/ZmOGNps40A1Iki6pgOam6HI5i1fHwoGrA8Yfk1kQjQX0kf+kc/NlPxjH//M3Duv3PETr+/mRKVRLuHel/CyfVe99Re6H/1C8903L379wRNRd6mQXLDrqZUL9zzzNS9Kv/v53lQtTvPdHAcIkC5yk2+++f5m0thVAABAAElEQVRPHv2bj8HW1EolpAl1STW0FKDrIHM4ysUfBDW0WwYPH/zKW/77s972n7sXzheqlUK3W6gEsB9oF3HeLXj9K2/43hsHX75ncO/+k3/3of5iM2p1uE+IyquTa+Xy3NT2Vz7lgum5k1/5cvMbj0j5PEGDBukE13dbYaDCekdVSM0UCBsLWkn8B+4BcAzyWc2UO1BHUQjOXOwUu7kCqeimvfkLWolnoUUizXLaUJFQBg39WBz2oL/DK97xa//PU8uluZc+H9Y45Foh9kdbkhl45drcG1/9xpte0Lv93tV3f+rQgYMnDx+FS4Q9RCQVVMr1qSn/u5+04+LdF+7Z23nosbv/5iODldUo6nIveL2HujcVhcVJfG1qyLkRS7WZyZiNpFIs6oD2OII6VU9ziazyQgUllgPFYBnhYGBfbL5Q6ywjyXGco3nEHPrl0/Ibvoq8YMsQSLnJDMmIItm8gkiWaY8A9XVGUIb5Df9QCnVTCtVFCZ3teM3BQl0yQ+xDr6jeyIeK1121Y8/5O970quTUQvKNw6duvbt358PNhw7ueqwPvQBJ2qiY75iZetJFe57x5LlLzk+ve95g51TFCxCPssW86kVzafTQ2/+keoqTJzDcNF2Yrz7msByYAP2BC+/3ugvL6dcf9W7YFpTRw0OpfoCG4OybXjPzpCuXPvzJY1+4bfHgESynLe2qly/bfeFFFx34wM31EG15VO65Vz3CjPD6hp7uS4hiv9NUOgCMGEILEIsltel8CPxhdZFGTeX9h/7+0zt+/PtyAZuRg7r6XdkQH73pYzff1ltdGiBStpUYkhRmO34FQ8QuID0zoaMr16Ua76LJcWLV4+U6a/T1zf8aum0abUiXhK5jTmJ9UULDU+qpEvmv/tFfq65hptLwE8exgRjOVV6/Gz0xfBM202jD8yH2MigBkv4zCvhV+GuJlM4cIdQBMAuTwWO8yhyoKobVAy/8tTBH9z6pVkDVVYPhpNoYTyasMh5OdR8G22/n5oXkVkNacwbkS/Wnwga2Tcrbql+26nc1f+QAg9prn5RCw4eryhHqOozV7wLA0LkMsgBBbwSrUZSz8/dMsqV09SzSuyGiaUhQvE2whh7DutHKrUCl2g5lG5sW6TDDtYkIOuEgWeUQAg6T3K/n6I06CMwJ+xecXAIxIH/tfm/eDzqfuS396t3+86/lUqqURRn7CmDwgH3zdds3VFQdKQKcT9gKosuTBFVUrNi1YMyg+fmwc//9x//923f+j1/0n3QxZBLDLV7Yr5QKyJjyfjG/Z5c3M33+8569F/FXuxeW2kXOgiH097lm2UYlUKYPHt4fFlg2sVTWypttAnYOWd5G5XyYxlS+d+cD3b/9eOWHXukL6/LTuk4LLSAvqNS9S7DnQChsV3+hHM/1kkrJrzLNFeOT//Ed3sOPLa4e36ZSgLHmEJ0ukf4x8oGE3atzAfkMGWLkG4gDC7ltBe/BP/nrZ+7ZW3n+9d5sgethaXyp1/dqU5WbXlZ+/o3b/djrd+JerzS1XVMl557g9ToDP0lmguIgQPK2nL/vgYO/9x7vxMkc6uIxCv1NDFUaEA1zgYKNKNq4utqb3rattdoO7nrwzp/61Wve9uvp+dty9XIYtwqVqj/IV1qDuF5GmDf1/OuDp121+ydeI4alyaWMnA8DdHkP06Alf1+z4nV7zWZz4YH9gy79ERanSlxfA9UV3GxKHgegBpWc3rAX0i2B5UCiwQV5fBEqloi3KJURTzE/rg+otrpW5Hg4Ublw8mJM6leGT4Tiju9VC93VZnGlee9vvuP5lWp61ZMKs2xfF3KVPEKhAUcQ6+XC9p3llzZyN93QgBXvwBWIRVPJRY4icvIM0/nQsDj5uw+dbDXnW20OlDH9I3uFjyQiXAtMAFIIimWcOlJgch3AxBcNFa1V5QccyIA1JFDVhohIIxzQiMmVuomaLELHZJtD/OVwY+Jt2lEy706+LCRoMrjNJwdNyUBt11RNkXyJ0814Mlo07hgDVqBhAgWTEcJBTfmKBXEmIxE4IinXQWk15+0ssUQp7m0Uz7to5wueXRA1QNurKTU79GWgb6WiZ1r5WEDh9CWCt4Crtn22XPvbVpa77/pI6eNfDpJeq8zxz1Q3UmmHlnYwijknWOrn45lQMq1j7//Erqde3p+dgYlGM3IQRp2a7z33yrlnXToX/ZgEdqjADWbTmvb4k1vvjZtH4l7Xq3MqQzKwM3dGV9VgEyqKHacj5Gxe5K8+qZ/014gLMDjs0faL9ZX7H0m/cG/uxmuQh9OpkZ9QNCDot9snP/xZNCxZlXJuAdLi+CfSMvrUUs0iVoS9XBesfT8e3+Z0aayQdZmqMeaG42/0I+innhBWKgq/9m3pYoyPYEDrcAICv/MrnQpKG8Lzdk4pbIuN5EZtTKqvOIIjcRxb6WpAoCWkMEaYwccYTdqj4kb1oyxCHKukVQSqk8YfuXbwpmLk4z7VSeZIQv58jgKG4Wfrj4qzrNU0DW2tkDKXVSMLedweQJGlFeStWPJX47QS0xAkVNUwHKMyCrBfCXHh9jkMz3JzHiJPhJw+3GW4MclEuPvcPHPDEBdhgpGiM+ltfhqh28ZyhiFDYFPAxjKGY9hiCl5kaH4h6+aN3bKYx/eDLY5h+9E4KbATwXZ4uV5ZCZfm2/ED7/uwF8MPyQIkTkreWhjb4BrVjdq6enK5HXsjaiEGgnE+x8ulhFztd2sztVMP7r/jDW9ZeO8n2yUuvELlg2U5ehIcnc0v53IrtfpqvdrmuM/O6WR2vj81l1YbORThiyjiBFGhGOb8Tn6wGLa5mF0aJOANND9fxOImBfb83FTB35YWP/l7f3Zs8VgO8QIu9tijrCNnQ/coly7nub4eyXVx2vNZ1uc4AJQbLPzF3x/+yKe7nVWYB2fY0zULFOXWnKkyR+dH7bRhrGzPwAkII0wd92+atOLXG5iOjtEqKc4dX/naL/2P9kc/gzJ+v5zDCmI0XY7y/aVifmGuvFqve9Pz/Z3nHa4Wj1eDbiHX6Q3Car7dyHcCL4w7iwf2f/Fnfit/+8NB0Z9BptXunDdltjfXMFT46qrBMan2cms2KNeRP9398N0/8NMr7/04Rw1KPofWWO97CRpkiTcXFYK+352eaiGRyTe86R3e9G5vdk9uZmdUmm179c5Uod+oLAwwCZ2rcOOarK57IaesRk5kYL1zwBHaACXYB16waRYqWkow/Wv1hDGHZsBrkUHWE/hh0cWUiNe2886i5No4wM2mFb9UGbTDWiWYmZmauefwJ37q1x/84MfgihD3sVLpBLluHZsRir3qVxJ0qXLlcm22XJ/2a9PF+nShzERZxlRDvwxrwAVIAVP7bKE6XSz7cBxOqRwzQwx8UXsNWmqkWomGy8HKOLbGtj7E4uhbbROXw5stMQY+jxpNC4fNVVrWCVJslxmjdLgPCL9l+4bkgYEE95N+RfgGNQdZrVTNR+ZxAGc6Hz3JyKMQB3yVhHPxdfqTYH1oklOUzPW72PRmYYOs0WNEo6pUkVpa6jfLc93avFfd7pXn0kLDLErARQXUCRVGP59vAZA4Xnjnhx763T+bXlhW7+SpM21lBaBLjnljxqCNZRNOeicpB7/v/+DNi4eOcFCPmnTYvi1z5iTXoly/nFbr3Wp9MD3d3lE9WQu8mdpjcYfDMuSjWRW7DVZ/NeoMXIaTBgAlsNl9LaV61LrTxQSwJRYIcFr9/sOf+OIK2KNN3C4nD+l9OHt48ZU7vhHlY2R1pFMvszBw2GEVG2LGqISJz1HwWfu7Mf+sRyc8dD2PZPIISkdyVgvRDi9UloWBewASG7QuvlDXOE4HH958CmLmXDPw4uFN17sQaUEZI+U6S3GtAxRn5FESF3uUodJYVtlcaXEVyVVDSUZkTf7sZ0U5yy7L3HlouPPAOo/X4SyXOspOxY387u8E3q7/cfiVVWx8jEygQfa5aQ4TgeP5ZJlPxJn4XB9NA9xlYhigTxeBt/NMJM8+pVrncI4gdKPxc74ZWuwAw3Y/q3gx6BLOi7cESYxhEV6spbT8KMk1u4sZg7Dnx8lUo3530ppreHvDYlxFBkt6yFVUidIj2xo7jie6tKXa86QMYw2AX7MecJVG1IN4HGrUQSaGCrJ0QCAP1b6fHvvMVy6/5fbKS27g5vdu3qtioikpt4swQwNvKT0+U911Mu75vX6xty3EppQoRw5VqHIhDImsW9FoVbvQqHNKD7s/CwtHf+nttX+45aIfuil3w9N7BXR5kFBxxB4tFvRdoNBaUAcogxujxZzBwXpqzH0jrJo5q16vlVpRd4dfxkAAG4DLg0674ec77XoHWzvlTr63/cjyyTf+2vyPv774PS8YlDgCqDkWxgprQhKmIZKoeCe8eA9Xphw73Pnz9514/0cxN/T/s/emsbYt233XmmvN1e69T3v7d/06v+e859iAFSsEK5EdZDkNSGkkPiD4BgIhSIKEkPiUTwhLCCWKIpQPRAgEEUQQJaCAiP0Uo2Ab8wLWa33z/Hx9X3Pfbc89d5+zm9XNORe//xhVtWp1++y9z9n3nHu96+wzV82qUaNGjRpVNeaojpOVyrpkM/dg3KuH+tYfAfpO80Hd/Nhs+F4X6wOVom8y/lI9Dmb9d273ukcsKuk8lOWxdVB3p1gfrOsETLCxVSvQlsfKY4F0uQ550j6ds3+NDuuEE3m6nYfv/uCX/4sv/+pXTv/af7R3cMAF01g+WGhyoM15yE1n2Gm9gnZLpwazeqijbOHnuM+j4V/9W7/3G79ZHh4VNzuojafTWa8zOj2txFZzZGuLO4LU9tmn2C0e1FOJQXfRHb/38D//m3v/5X/d+du/PHzp+dZz/WmrPcVcpgleOtEu28Dta9RqBVxNwUZLivDOoHhpfjpacABMU5X9ZjSsJ/WterBXDMbT5hvPLX7iFEvRbNFwS2z3fnvxwrT5vVud3rvVS+XIDlOjC68pnGijpzCWgVa6htC3OYWodXry4MaonLT2OMiKordrltBNyxNvPwBpGxDQorRV9TGLVBjGVFnsN4C8w3uzv/rXvv6V3/wj/8afL37+Z0aD8gFHT7BiftG+gRGB4QJBVVLT2ayWeTksG1SqYTEbP/xwOOrNTh+MFhyvULJI6OC06i16N4fDN7A2jTB+ckt2c9oqDloNl/89OOhNyvaNE62FZ4tAn8VotpCWds/3uRneqBIsOu339hcvz4+70xPOEbjXbvZYTs0ezdRZin5bXQQ12J+KvQccaoUtqlrsV6N705MPn5v8PHZciqzhijMz5/sn49eer557MD/Q8T/BGMAvLPLGzhg/mQ3udPlwmk1YeVi2MTGNjpoflc2L0vBCH0cPgSrAqEmqlzWYgkxHZsAqrWuD1ZiixHCOnSBr6k15MJHKjTz3OS+qU9ES9r/6tdf/zj/44De+un9yxJ6FU2buOMEMsccsSN2YWPJZ35mM+2XvEG123v3UyfTtv/SffuHf+4vFX/iFUcNXD31Km42iCBqSMaxRhvsPWhxE1F1Mjg8m3BR0fMpi6NagNxmOypLj0r7zYvOl6XF7yPpMRKr4sChems6/c6vdvz+5OxtMJVScVDcpBl3tBDBHKXJHA+bVhm211aig8iXZO2rPWMDw7v/0D77wV/784rnnkY4RtkHWa3Xm3/vv/j7XpbdOWVPYZmNyhxnYumR7RkX3LXx8Mahvh5/aR4C4UtOrzpa7qQK8sngKEGe2M/2CRUNDcKzuw+dYBGYx+k3lSR5LscwvQ0IMhkWYC3lg0JlkoDD7gZZQODHivUYMmzChsejrBfUIyyLqLumkJUMb89XmIZUUIykZctyfYfnrIU3MnFDpYC+JkDv0aRw0YNXTAIWIaW5fK7FE4GIxYs6GLk/2R32QQA7WVLLGMCQiVGPiF3moBOJMwh2y8J/tocRZqfNYpy7wPDIN5F5KaBDCZYVYFyJKQsfuVRnIUCLNbkMXda/cInkq6za3y8zKzgbx1uhxnqHGwTmycxoTpYaVvkf4LWs93RGi3lZJ1p+6TT5zofhr/LSMHcq2Iwc8hCT8Wh+z6kIisU1KDa/QrOZAKv6bypOVK9KcyiPuebfB72M4qsgyDbSSpYhmM1E1LU6L273y9r2j1le/MbrJxuRijlVgPGn/3g9vT2vOa2LWZjrmJE51qSJBAp0xI6MKvlsXKi40J4edzuT9//u3nuekyJv7HALFkiOO4xnR43N80ffefo6P935vWlbTRWfKzSBOkmeR4WTZkVbQ9Nkl162Oxx/8n//fu9/+/ebu6DN/+d969fOf7n3qVekIHAJg8x20DL6229yZpntFaJ5sk2KZ+rSZzt7lmt7xjIkSGo9VByte1Y3zhcu5Vhx/xNRecTp5+J3f/9p///duvfatL/yVf6fF0h8mC2liNoMCUTTNTz0YH/6jf/Kd/+VXHnz167dOps8z9tPzQf3xm63vfrvkU5hTEDmQ780fntypfjiYDLgBR/yCaStq7f2DyWKvO33/B53feW1vb49jChfjce/dd3Np2MHmjDvYMDhXQHqWVGBaBXkcfXj47a994+G//B986c/8wq1/7Zd6P/nZsodGiGap2UuEEN2JPfyjssdO8eL1D4//x3/47f/9Hw+bhx+89d4eSmlX0wt88YNQ24lMRimgQrPa8TamovEZbYcGsrya19f/9L9756d/4uU/9XPDP/EzvS99rhgNqR5kjwlT+gW1Yg6Cohulv4Qxi+blk3brd99+/nA8q8qT2UM+FbjCtlWWb7ZP9w/YPNdfvPY7HKjfX4ww0u9zjtj33sZ8McR0xNmfFL0rayiHIBZ9bVpALl3OUa1M+WgtMA5+7Zudz7661+LM1241e2/y3rvVzcHi9ERN0VuayfUKW+OLFxlKb/yj3/7Wb742/fFXXvpXfu5Tf+7Ptj51t1XqQC/6Ng4JRd5VIERFvZKyfoFvj8lJ60dvd99698Wq2Gd1rFbUo7BwfS339kLz/Pnh8PmHk9Zvf4erwW+i53FG2oPpwfEEqwxADA9ajc9kZeomrNVicySnB6gr3d6UU0K+9Xpxc3/ESbRFb3bEQUypMJoM836GH2pnjFWKswNAWLRu7O8jECevfWfvpU9rWzpj3XRavf7m7XafLZXT8ZgDLX0wcE7Eto+uuTj9wduzr/1uHwtTv3vSHHfffr/DxoJDVBMZVCTr8EA1IRPVd//yf1b8sZ+98zNf7v/k54pPv0zli01AsGElkMpoKs5x6i8ifOfBw6Nf/+0f/spvnf7WN+bf+9ENtK+D4SFmvjk2wVi7JofeUm4UJSvmZlx1zGfPbH74u9/9xn/798r/55/+zH/yH7I/tHcw5DpuFvhr4MUC1V68wpo1dLt3PrhLbMkqSLpB5mTZWTJnwd/NvUHra78zxyaJFbI93CsXH37/LVYCwA0t+acz0aDTms1mrCx0zkBG3i5SIF2tKLRYyX3DrgTM6cXhePzO699/4fZdNUXOOgfNafP2N15b8OmAgih42f8QJ6SFloODL1IMbDi1E0TzmlEzgiYFWc2Tl7o476Fdj4Qmf4V68UA0OvOhXK3SlJRUxV6EtaeKvc3FuV3VtWC8mYPR68jKE2lRenogQKDZdALN0AMJuL70pEcYDJ6Qn4mRdTKKsFShaPYaos3PIyWXbucAoIY5VLKmn1V2OIAjhFz1FWW6gqA8gaV6ug9jnqgRVYnaJPORTivZR0RpIsmpclFZI8A4auR+RESdN5ucsOK1z/xLSYCwo+LnS0t2KXPoBxJNZtQ14EkuaVxRlNbtUp4E7Eez1i10mdmMPvN0Xh2VvfmdO++OJ5+ZlFhoeqPhqKqm33/nhbu3TvrNg0Gxz7kA2VDqfNQzdvQp1j3Pt+b359WkN6wPbsh+cHo6nNVcvPLGwUE97N4py+a7b93ZH57cLNF0Dlg3zG0k2xzXxUhZatpskGaI51djDH9MHtw9aL18q/PZl/b+8GcHn/sxRin2pbP5vxnPmg+PJ2/dm775/vyNd2Y/fJ91qfs3q+P7h3tsreNY9IqTiTl/uWFfeoc9M3zNlCU2hhHHSNb1eNSZ3xgUtz91+8ufu/vPfbH/6vNlny18k5PXf3T4+pvvf+Nr1YcP+pP6oCoGXCnWqh/OT+jNMcHMD0aTMU215AbnV0b9k+9/b3+fHvpAxZIiQS2ptXtVvjie3J9NyzvPHzU629sOZ+E8Bz5IqVtBrrvs+8CjnM/cssySC776Mc9AJ+uQDpk7aLeeb92caPqy23nh1nM/9eXb//wXO6++wOGHVacYTbgF5vC93/7mu197bf7W+0xlDjudI6YtOYOn26e7qeZTrUTHosBpQNZDenV7vu6HaXjcMdizLkgDYqv1fFEeV5z/vhjvD5vnbnZeff7WFz9/98de6b38Cjg1NcOYdDI+ep81ZvfGD47e/drv7H/wsP/uu6z3LgblRIfU9+en871Fvdd03j49Gv7k5350/94LVZ9tb/eL2XPPjUh4wL4ETs5gyz3Hw+qAY3Zg8kEUWgR0YynV7DO7GY+q6sdffuvwwc1pd8bh93c7nDD08v3p0R7fTyJYxhIcXmM7x5HHhuXdvcYqHGvzKCx9L1tVp4M+66XufPGzn/vDPzn7zIuc6DlA2ddUzezh4YPDw/vj43H362+8fe+95uikee/erZP57b2Dk/b4kHORKlToPvYJpnDGTf2QkyPvHLx/+pCtpbTVFw7uPHzzrZs26M77BbPPQwy9WbuDSF85Oqi6RxWHMvURmiNUyQXbUfvlHLvbMXQaySuPQd3iYHdOU0X14AhyzAn3q/HeZ17gYAw+IliHhQyMmvLk7R/duXkLo9GDMDO/goSX/ZP65MbotOxODqdMos3L2Uu3b5y+8YPRwZ6DwnyqAY76oMXBpb3h6GTCsW/F8JUX9j/36vNf+sKtV1/aG93glN1OfwC11cn48L33Pnj73dMPH85+5Tdm2Ms7Ra+DTjfdZ+YXbWnKfpNoIFWFyJbg2R0smuNOxYTgsByW44rmMyu7s0FR1aP9H3vpuZ/+wo2f/Fzvx16cHPTG7A+tZ3e+f/LByXv779/7/f/hf70zbY7RbjvlYF7slZpbfO/0tP2FT33w8JjDQnut8rCZjl7snbx3nwl0tgzwQdKhe6FodXZu2SqHqB4cZYcP7nGhtL01dIR7PyrqX/y7f/32z/4LzGRy6AXrQTvf/v2//6//x7fuf9DsSRT5VMCUrXO+pVDQt9OrU2Z0RekXCPZW5/kSRSvwHoZqBRvnhu9yTiGxiVr8CVwNIku5Ym2wKK8An0AXEv5bD+D1ju4YUpuqhBLJq2pNVcfXlewrBGoxrVUlZ5dDNk3PdKzQ6CxJ0P9SjbsHfdgzAsYT0iMJ3hqL9CQbJoJdChgmAKxS1HEZG2nPMJMlKHAJVjHK0GFADDSAhOFU6B7bJbIdE3ltRalsLUpcsBLxquqXmouXOQD1PxjaRB5adawcZ9cmzh1iIlwAgyElcf8avOUVIJW9VaJ7PKHbpdyfY/O14WvI0+suDxicAC8sYPS3W4FlszTnvbTLFQH0iiDBhWjVuEDXy/U4upT2MmUOCqyykKe+VgrMx+1mxgiHPjbXMdGdPYZVjnxsY8bulafz/f39+/XkuLvoT7FHyzlbnWg9oy7lUenJCpym6B1zCB6H87EumPOfWVjTKbrTwUmPD2HsDEwKLk6GbT7yBnO+wFe233suYOuTFD2BPd6oQGp+XYzh3VY50CHfJZYJC8d4J0OKVrIy44OH+Ti++Wy812c9cwGNzsGi5fCqcdeMvbO6GnIriE7xYQKgdZdDzDkvkhMZWkxxHtCds3D+RFfdtVhEo9Ws86pTnYwGw0Gnx41sOM5T5/Is7MWd6ckcS0Ex5IDvUy4PZBKA9eegnbIEfqUKKBSOCy1g96AY6WQi7GicFzA/YpCd6KSkLY7eQamypuh+mMO3HRLGtnBqFh2Rbz3UiAHDKgZ1aKJPw8jB+jOME4yhHDfe1qk8HGDBLjEOSEfiYBlDlxRyAOq5TnjiOC77VCtnZi7IiuDFQafHg/MPO7iKgySu/JDEaUFLl6zZZEVvy4bM+6wfIlptUkYClD8N/OyqPCgXh6zsmncH/Yet+Yyzz6mESTUZNLeoNB1pzTHs85fKPQicMEuF8WuxQDjHnGvPfM2A+2rYgq2u0/nj8u6vIon7YWhms/qF4Z3T6RGrnbTtiyMaWJVvX78UW1ZvtTq1Xq3xMBf7LLVGIo5bx3vt0QFyxv4FxKVE7WsfVeN2j+XoSmJjnqZIxNBigQZ9zHGdHY7QqkftPgah91vTyV7ZRdum40By2A9KpIRRsyFd3V6j4/lhXL/dn7EoGn20bI/mcUxarf2HnI/LIj3khv0crD9i5pKJTY7N1V7ZFWc8L1g5r6aO1ZS1O9PFfm8w1UUu01sYqzAR0ZDQxVHoul1mijl4jWtfVrHYQAedTOUQw4jNKr1+73T6AF20s9dlNTcFV1dIMixdpqDi5Uytsmu7XFEkMIqpQrBn9Y7GWnYoZyQhCVz3iH58gzMlGMjswgCdAEf30evRxntV7H+MEE8K/qGMwNQO3wjl/rzNufL0CwgEtSMbiekTxhkh57Pzw7t9Dlk4KOrh4cktjO5DzlRfdGYFlwDcxia/aB3OmPVr7tTS+1l3OKkbmidCzhGadBp4kPJqPufwjhX+xJdduhTNqr/o8W159IVX/9Tf+Zutu/tV0Zk0yMbpD//G3/3WL/9XN/uDExrthJOBu/qi4BPPRk0GeNls1Mw1zFMgV/pjhstfmO8vCD+Vjh+5nCclawlosYiqJEOhaumegIpdF58s2Tav5m7T2Gy9BGQSQlfC03NQZVlZCJEN0ibXyDOoL9b6mMqmlyZSZbRyuJYgA110jjm8xWaRt3dFUT3e7ast6y91O8gVvSXqElSRBX+MxIgEiaCJfGhHlJ58gfiIdSkvFIR5L8Sr0SXi5WcGPNjPwiQspDo3YNdWZ9WyJQZUhOacdP8ueI/1VPkzzfERuILNvr1TxinqbLECzAl4TF0qFS2RujZubm+0idwLebyGSLLHIQZzRs2CuQjNYDOIzqdcHTrWqd/oJFrmV9H9zMbjWdoDoaxy3smfZQ9HvAxI7WTaow+63RvRtbEfeN5mCQRrLYvhgGF7cTSdsEb9dMJGlt6oPWTbFreRJEypAgiZcthxVxqUdCgaCroOxqcFN+hN+Fgs2YxGGLe8tTHJ2Lg+1koyqsS7dSRHHSGjxAlDF0YoVRlnGOkOCjQP+nG0C/BztduiOUWUsb5xCxuTR0POIq7Qn7j5D1TzejZlZGevdqs35oa+aobWUgxZfcRmspqzrrmVpqspxI52I9Ys3J72OPaJYZ7BZ5urixFzC2PW9WiSEVV2wXczu4u6q/sctyVdDRNL2JXYQQ9D50C985UCjAcz9ntTBg7G5NDzorXHCFM1M8ZMpnFZEMftOXx6s0x+ocMtOTyJ1ipbD5oWR2pS0ShnugjFZrDUxaw46sirCX0FD5zkiZ9rU3DsOkKgKDlbODGkc7bCbRQX20GmK35M86HI6us4f5Fr4rq9k2J+Cjc42BENidGLS4Tr5gZj+5TrZYasyznleLAOh8EOubPPP74Z+ZE3aodxT9uHIqe9SyZKNd/UGEQ54KyYH3bm05vl8GQ+Z+c5gzRdLtKsz1kpASvOeygvsnfmL7RYIUZLQNTYgcAdJayxQ2dtblasONIOT40BWp5o496iOeJbgvO20TO4ko8DzyfFfgtLG7JWTlBjpR/oLB5dCjme7fVGrgJ9MBujOnC8Ap/dbEZlk52No5G22L545zQIXbgz5TrEGknUNc3s7ZD0DL0NxjSCpYDMZw+QUZoGpednVu2z6If5UV2dVIz6Xa3P4QOrP0AFxHCLKdbx+JPxEUZTxRUL7JCFdhsz35ztjGVnzOGm6O3WpzMOqd3ptFtVBmF8JXENo/W3xtQ5bWlasc+kh4zpXFZVAR9kYEf8itabe033dNYft7kdkmqt+J7p6iSTW9FurfkrnBWKLKYcYIfCynHiLE0wiw6mOTa8jDSPRGll1aCRlkxdcnxr0b774QM+rZC9YXeAWRoLoEbxdsPZ6xy+f4vZ9mo62hvNJ+MJh9y1kTesz5zXRUPgSBfWOWjWm9uVM/aey4uOzsbE9+vqx3/xj7fYGgxqju1AZ5o23/3Kr99qcwcB9M87ZjNHl2UtEUnQSJBhFcL0VHIKi/JinnAiVFOkSKNv/GAmClU9wuqXKnbZVv1YElql111QSnLozB/RZ0EbXroAk3/BqoJMADyETD2EpRf4EDk4qZNKRY80GKmMdCBmr4p5+agfOh4vZspTY4HBEU0JwR+bv2kblosDYzJALdUqXnVT/FJiGArjNL3j7UsCBR+etoMMJgO8IrxEoXSQ94w5ccycGJmx7kkRSvGfiMtpA+Fj6VJrNGlAs45gjtm8nnMaUIflycgRPOBuB7QK7htlDah1fiyw1Ue4LolFLZjANR84nT7nJn7nJm0+0U2XWt26MRmP+crRsX+cMdXXCQWI8VuLB/1On8MRuZS34epY3aC10AUjWpwcXMLD+8z69IYBla5QA3aj7a2c83Znb3Y6n3CVG4YOzOGca8UX6smszboZXR/Lsl7UCfppvkVq9hEN2FGl8UA9h75YtQphUTIdwGWkXcYYCMWkVc/pJtuDFhc9MAXD2eiY4E1jNhO97DWchMkgpylVGi8HLnLUu3Qx8tmDlccsRlo0fFlyd8hQS1hZpywdcdmFxTLqaNNGe9S5g26KwtMbYBQQJ2dsaFPXIHbl/WCUXRA4wx0Tigt4sCq0MWmwXnbKiZiq8w/LxbDT3UedQEmeowGgm7BOGPZxgleb+3h9cJp3sD8sjouGjXs6SoJBt4u5ikO4Zj0UQ42ayif0Z56lPbGJOBlwRuJD7aNULRZcyshWAO49pN4lUmWpG6br1vPST23vWHuC1Ur9mnpblg3V7IIgc6ZNMF9qPQ+A85plRVypeMKd2RBTFEcclsBZ1mUPMSI/jGWIMWMbVawDD1l+hRHQ+lP6btCiM4Pdu9dywA1E7RPsWL029kVUBm31os4ku0gvFh0VyYFTe/EiS35tqGHu+JgTN1EA+gP1yFM2HBQ32N1pCXTQkUYL1t6gkSIbqP6sN5IEshNUhg2K3HTGaJrSNVCpOL20O8WoancMazEZktnXxCVFxF5hp4FwvTIUGrshzxzUkhE4Xmb2lSGXSSJWKqMCs+KEfQUctqRjWmOakFQ/nPrWK/YpPYRgJqxOUMLUpliMWM9pLtJnILvm8iUGcm5oVo8uPPBTXmcR32BVVzYwhkG0MvZz9EZ9rnB+yG3D2pIGjahZNAbIdsPBmArlzBS+GDgNglbJzc3trja4oIHZNQFSCcmIVU1UA9XCHgSMzszX8V0zqTg8fr/uvtDmhF6kwMoFl6k173bw99hbws3IaLMMjMyQdbD3cvT/5CHyouuKwUwZikqnykHeS302tcjDbuHJvOZSdg32TeugM5zNJkfj8QQONu2HKKYIeK8coL/TGej2ctluGeylhfMxltkLMzbv9PK9xK3rJ8PeF/70L2jwpxqZSWdLxnd/8ME/e/1z/d6H9SEZIdJ0OHMd90K/SFNGRdbEEyQi6RRXk35yQsGPibzerX7kkWFO0RagcU6BS+fSrMShTQMON1TF5qz5LMGTz/bzpLelx8PBRe0wuKBDOyZqVMIAyfj4ocalwMgmLUiuVFAc8PyZU7uOS4mVJBDkSjqoQEApDWfIHbWD+QfZk1CswGa8IC/346GjFx/ox0hr5QQB4TQWIRIZAZWj1dOiABN1H61ziiAKxpEzNSLy4qvTgjDAGRyvTrP4ewVOvDEyPCOnLWV6RoapvwowibrI6jPSPmaUE5mTDUJ/dY7x1N6uJ0WJK1IietRhxbZ6N6aGJEKagmHO55CRlgpjTw2tly8n7sWjz2NySLN5SOl257TmcXvN7Jib2OiYWUjERjK6EvY41w27xslBvfmMbeNdhhY+3md06iqkxDtHgr8zGDEgQSUqEvMZAEiho2M5nGJNGfFB3+pwkDa2BmYJUZiYfyBSlmruV6Z75n3OBFdLS0756KFFqju00cF6EPaH0eI4qwFNUqM0ELRRBksuDmnoX3lqhTIHK+jgaToD7fHqs+0M1YeZCGYmKctsOj5EO2FyAVUUBYhCdOsjVAhlT4dorWK1YBWGIHV0i3rAJzVmgqqe883Owd8JeGed5+IAbQzVY9Z9cy6XOSawYBKnYWGBmGJhZGRoox6CV4vS6JsovpeV/rqnWT5MPQwS6HVY+K2KuVpxURxgU6zrYxVBDpx5vqmy8OAAIAP4xwIXlFf0pyl75jiZoZ7dmHXu6ABreIp9CDFSr0j3h65EzUoGme3lprqC2TLm/CABOagnnS47I/lSZ5cWVrSxHU2NsaaG92Y/07DG3Wqov9h9Zg06Ft0m4oo1zscDiQoTbZgd+A4mCTXabms+l0979EZ6bpM1aMa31gUgPiqyBh4rGv31lAnZPl2/rCzqpzF1yfLeZ4jjHQANdXYelNZXczF9ra9v9OMScyPzpExTcRj0grMBtB+i1oyzTIRsT0P97wwXsxm31SC4aEh8YPTUJFVjEid3JkXSxMibIwOYG2fBNXqdLH9qF5iLJovmhkm1RBrBy7qNvZs3peXA9RpbDyNYh4k2eMP11Qi8FHGElzMEkNeSQxya7iw2xqxFoo0cIgUSI3EMG+ZJH/HSxlyukZKE8Adb9FnFQUISpjt1+6TdMNF9qgMZmPpsd8fVUAdJ9ZgCnnMTAcuQMB8SroOn2scILPZwTJAs7GPLLaLBkfz1GCtV4IOJYhpBOt0hIqBrjWWPXnA/txoCs469odbTMbqTrVQXHBLavdecDpgeLfpMss7Jo2nQxWj8bEOe7nOjJhr93njQ5xXFHT60+/roogVpAcFsBk8lc9gbd37iZvyyrlxaAGsE+fAqmhe//OPNT32WO3FEkjbRTt/4336N6WruvDpp6j1UwXb3VILEzgO6Zan8mAIloBIyORdIBWiYUNdCIFGIc9KHqAGDNckPXg9YPqVekMQR2dPj3Aq7hIs+zz2+LX+RBEpnwi+PzDyeozSCkLcAyIKOlmpXOaQnkD0fDB6lTw77wqc8iJBoILEJvOdE5eGhvEpJixPBkkDaOxWeHNiAMYrUX6kjodJljF0ugkzASIeYYDSSKuOB9XUJ7qPyeBkpAtmrFPYN46+QYBSKMHFGL7F57iDPsW1GOp7N8LWQBOYesOFxP5B4qHf3pIQeaxWVwi7vyWr18kg8pag1+nlddiKPi1XVJKaA56TGPMCMigSbC9zokrUsaF58fjrAyMFwyyDG4ZZMAPA9OJ6Muck9UEafST1vc15/UnQQ+tkp1+7SJWhc4ZatOadxa1v7PdYJsHNvwa6hWZ9L3TDRsy6L86BRtcw5eQk9mwgZHDFesVUP3Y7OEYw0TfpiUKCDMLszY0xltESnMfMAKomKqCPvVOCyh87G0DBnBMLMzooEPhAZCvlOZQEwH5t8pnJu53DR3WfSEGWJgX8+b3OH/KB7zO5DBgvmR7AXzOvhmCXQQ5SEOQMjU41Mi1ZMVsrChLFtpG975iAnA9ZKlcWDHkd88x0+oizWLyB8S77prnp2HrEdnt6ZmRaMaRWKVO9Bi3UyYgWoEhPwSHIzl7jEvNNoxIZuCQlVy7DCCgk6IwZLildpkgncrSkoMWIw+tN9gUvWOxjKQjn6Iww7dNjsZqB7sS5Qe46gYH5yfLwYDb1aU45OBdqrZ+rhgpFctHuMZHXN3OdN7Z/SOhykCCvNjDMq1ePSU6I8IYXqdOkuRqwtlh2s1jiOhoMRiqVaUH0yK2+OMEuxtIu18IM2mh06Y3PYn7BmSSYOuGksYtZMImIrC5gkkuEHRU2dDQxs76FqTyrOydjHUNgsjjA+lsVeu3sCS+QkyzSC3KVmTBR9N0/cfMwoi/WMoXdW6IgMZIBdDE2NLtqBq9gzvVmQPV8n5HdLy+lsqGYlIGYTLAHc9sg3ikx6U3RDaohFQuBDVPlh5bjuqGGKmLV2mm0V8xpuO7KxUm0KtlFQDSbN4gUsOLM5E81kPuGMj6IDi+bjyWTfhiLN6eGWUqPldLLFSA/Fiov5DO5xcutzxQCWd+eLk6piqq9qxqjdbOUtu0wwekNyJoiZ4Hul3OcWIBQU1mDT5FjtPeW4/Hb/lMZn/ai1PBL6J8TiYFztUdlMoFO17brfZ5+/Vi9iDaaaCrPpYsqlcFiFmZ/n0FjkipZe1dUMFRuJLFss4Somag4uit6O3F+xO5KGjG2OhYBqqe2+2lH3fmeGSsthHRJK7gAgAzhYNyfc1zmv99gMg9KGjXIqy7uUzONJ78ZQOzmoiONmVJX71Ozx5MFI6/9EEj0yVkPtQ+Tazg4XeZ/HiUiTH77umJL+iZ/9I2wTGPLdRvsUhzrf+Mo/ofWe8AmAdmsqH9rzsKsuha4ELUBNEgGRYq89FvS+y3zVjORgjWTYXkAKm6w1KGTX4EEDgh+OTGkjVprPVkej3erIE6YTCW3IBwSpYcJt2U+DIxezV8kobnYmZavFbOoEVDDaDvwhFZkTR0LJhlDDv5VR3BUp4aXtm0IPGMBkCnJzytbDQEUfSH+Hh7zoHPwp8oxm+jucop8x56VeI8oCkYfQCrwU4tfVu5CXZZT8yXP1+Z8rB+jZrEoPTKQW3/r0v4iQoQqCko9+nss4Uhs3OQbQvMHIhGR6uInNNlJcu89qIsBriJOo4fC4nyg1bRNrB3MA/DaoLZN4Ko/luQa8EmuK7bLlrqoOCcMSYBWbD4Ch/RgqkgA8hWLb56ghFWefSjxZ/UHbw1BA+9E1HVLKgIenDAn6zKa1y/6s5q1Gbiqbmqg7DSPmAOPX2eIhgUWkMQcGXIKnMXv42tOnRDfx2MqWNVi9Jk7mSQgPlqTNFFa/HpzS8ppKtJniQiFoPMAnYpJHi6C2OQfIKXE/PeU2cDAH5HkSINWXRAdOYjcxe7yHp4pwulJlYI1xbIAlkkHn3+sSAxsVPDl1i6QBJlitOpNm46nSTgFnbMqOpVTgz4l3PwqmOy9IoicvV4C41I+v/7ho0k06HQOlTKjcnwhO4e5xvvkQ7sxx+Kk+feSce3i0qhflWVYK4ypwUWTIzE7QErxnlNjia5wdckmDBmHTBKwfS6XAw+lfwrLh8n1GYPPWChR3LjkstCzLDBmmRBACmXQdYE4F8QKSSiUwAvD0u/oWdTqZg7XZbK1MxfbGYbn/6v/8t6svfaZz1KBPFeV89utf+7V/8y+BmBlElzGeoMIt7ZGrReDbUdHWOrwv8le+FelSlNw6H9+eht+VD2CCJFtqUKo/NEcUv/6EsTpK1sP9GXkB5tylsusEOXMpJLzKYAVm1Fs9TTw0gnBsvTvPMflTeb1GUuWlBhWSpR/UReM8JNONE2yiglTJ73WURIgvRl2/IYfVHI2NzNU+xRXSW5/LulZkgyGA8ljbFx6cV6U/PWTrMwnSWiySISSR28mfFz9PkvpDEpLKiiAitaxzm9O3ghmxiFzSQHZWLZv5Oo48d/c7rzZzSAV35Ik8h3c+k8oHYquR7YSyO0sUWrOW1dylDvr4pDDm8PRAPHJWNSSRN4ooHieDwESq+7lUIoXknrVy7fq0yJNcrT+R7qXyzHL/1WYfsSe2ekD8EAnRa1z76MmLZFrHFGtWtZ9VfILZDIwEb5fFlPCinoj2oumePvwjKd/FWyc9JI8V8aTK4xWnrHe03ieV0dl4zi772WmvLpZePzVDmqeNUrJG4HgkDy1E8zih90e18oEwgNFBW4/pEAp0l7p1XoNfPYKam4xG6nBDt4snKWExdfhVZsllVcgEYQpe8VgwlDssGTocepWN2gZrBOBDf5jOZ2hO2LGwYlJgLbSSjiNOPPelL7aevylOMImKsW3Reu3/+i3DLJuMM4cn5eBP33rmYoaBKOkKRoHrVKLaXhlTLZ1bgLSKiIycjcaZYKjUsGy8klHMHKkEak+GuzBDZlGuP60xxulxeMfgT3LJv7c9U49Spu70gbelPwSnPme39ZMx5dZfEFvhVSaqY5lPDg39yCRPQMVefSOFMilfG6fR+JzhIMrTPvt+Z5rKJdulNHIVwNrCVRAvNgbBEXrnaspILTC9XNCTC8wFk14A/Fy6FKQYNak3uUAG5wclC688y+v86Z48pNq8YaVqISn14E8+p8fGeAavUpRz9bGzegQCZXfBziJR+AjUH1W007PJrl10Lhu++ZavHxXBV5fP9iJfujM7H6HbM7Ve1dUXBrTw1QlC1CkWG9HDWiP1HKgCG8+W+TESUKGRcBvBTQ+jUftwTnJf8LLZzNWzk1yduLo+H0pAzckXywwyn+8zyAKCdxOzR0SrGuOxZCfRSWYJCYFu4YAA02iweajEOpq11r5e5lSns/kf+qWfW9y1U7g6mM+52mb6xq/+BltCxdKsX1VZ+Fw3ux1ZOMMtC8tRI6YrSUEj4A0udWCzaQkkQVeA5zBAkCJalBIoZ37y07n+5mI5wqvUDXOumESonXYRB/an5xaeEZ/wmAbjMOhbCnC6rM5zv8PkTwqev9osgjBQOC9YqBdTpEAFtJJo5iEMhZIQc8RCiNJmKCVaWOm8wvKIkOhZ/4H+UKdWeGovqFNXQ3hiJsq6m8rInUCmhrVG+VHOqYXh3qx4df07paPuVH1X5oIuBa8kiFEy1rKTnJiDlORfg7nEqyrIykb5kxgqMOIKfU18vfTvTprP5KxXrdoWLcQZkCi7NCmXTZg4L8+uenoU8l188FrYTL2sidU4mLGGyl+fFHvCwgWrHcMcxW+VjEu/rRGf8PhgSWzitkftgl/pOBOWi3vIbo11Icf14IDalYDAFAvL/Zv576rHTUgPiZ8Sm/FrZG4CPFbIrg5T1WGI+QGGJikLioY7f0ocbYWOAXHtkNY2ASZqXYj0qoFNmpG1aFVxRNpiv6R6be3JExhI1cY0ZNrYaVgNVej9ZDfa5nbZn1iDtg2c9eFMIVnWVjyhdcT2XMqhi4EWj+uwCpZw1WwmgUKO7aBnZs/goPf8n/y502ahzSXsUO1MHnz7O4vX33QpUnE2GmxOTxJv7VcE1oZMvBauV7QBHDxlNg22OPNNCH1dFLqGGBvFEl3KymPIlDI650KSRhBSCUprGQO1xtbENst2WReOncBIr4x2JF9me7lxyqbOnVhpfSYfPijqUA0VXCXgf8hZMA4uWx1en2MUi0yLMhHTeYSKtRDSSjRjqpD4I/wRJ71JwKwd3UsiR5BKoEYhsq0RpepLYE/cA688O/hJdno1jrn8bGanyjLGAilqnckGpypIYrGZ8nwhamVb3SoDpUuRmdZn7naRml0od6c8M8YrFZCIf+k5M92VR1Il7rzy0qsHZi3oyinxDJxRerpsW2UlpiUYQhwyj0pMviJa87yebBZXh/mRdOZZbzKQkBzgkdieOsDHi1pnlzN5K6sZ0b1h6uw6c3SmNpaFQYqFKQSr4mxyJwCjGzm0DQkaw9XtClLjpVa0WC9sKB2vzqk1BwP5ZUuecILZe/qILf16qvSaPLvsWCA1m4WI0Hig4Vb5ubJCPqYiBKzQwFFqPNGl6K7ZLsrhF6ZXNbf/6E8Xn32FzQJsRWGbzc1W+dV/+JWDqmIzs9PgC84SPT4ypdfk8W/XFOvLE+ESd1exQp2s8Qd1KnRExlFxRjhCZrJ7yeu8SsjNo3AHxqPaM7tXsuepGvKEccBxVORvSCyhkjLiEhLsZEIYAdb8oPSEj3iK8RIW17lVE2aRkiJlVOU6tNZqgdUKo22/Gr+tdJwDwpQe+3M4S5DySA/QQVzwlkCjI5TiEcRcQbTzx6pR2O01DBmbuWnUE8WiWXyxNf6AUXDplVfpYKyPufAdxqbXs/O0KlBCCFctGv0piZVDb/JcTQ1Il5JFynqNK8ojlWeXR+W3ZpBXkULy912JzxHuyLcAumxvRDh8WOtqfJdIyaP/T4iojVwvGCCSVmlRQObSa/JclPYdQwZcCFWzVkcr2WeUXNgb17avVdwTw38RgtZoIOlmyEXwPQFYdeIuixGZdw67+LOrHmPq9V/Hth7KezZW5bGZgOXBF/Z7uTyZy1iQNCuYegk8Pnohytp4KMcOV7MKWNu0tUFa7qPu2AbGTEaZq/JPWAh2Xnm3Gt/UBeMnhceiKRicS3t4ApDGfic1Pb2PSK/JY11Helt62D6sFxBHjks30RSBKS6mwFkAFAmCY1jYtcpWSaOyM6lqLldgi+JP/8Vf4ux7PzKAI7eKk8UPf+XX75odzkviybNievlAueLiJEVQVsK0gLHdKwJFiv1ADL9Qo+BMHsgoKWGBfTGTlK8XkzIGgTQAXrXkXhUa8tWv8d3hiVKNZJ1bsJtK6RQdUmKyWC+sFyz4s1gP3/7M7FIAJEWKrI0SVAidC+bTT1gUpU5FRFCiUT9aJeBALL0gPNzUKcRVmydzIiOOj+6X3HN+bs2YIvhUphoXJTXrFJCq5VhsFTP6tyK5dGBgr1n4YPjZGTkNotBEi1f8yT2ypAlyl8e/uDZj14oemo/PNG9Ce0is+Nh0JFxO7Bq2XQgeER7xL8E2Q5ZxV++TVmtOlWQFvSKJiflc8jfWwvbkKRaPN55Yf9vhHzNUVXbOPivmtLOWN/A4/THdR/2bOLmW8XIuzNrBsjFkLXktydZX8KcUgSeOaxm8Nd0nLXCXPPjApP6RcTwWmtHLX3xE824ULUfhNqrDQucicumJ8Gj0ZdjTUKJWgZ9fTucP3XG0eHkPwNLufEwE0lJzoG+iwgI8lP1x28KVxa5wo09GtYgaYF5FsIZv+CEIJ1OZcAoJGhKZc0wDtwlMuaqnuHn71vN/8mcxGHGCFIlkP/jNr/d+cI+jQstGNxI6EiUHkW0S1Y3p20TLmWPMM3Ab8i3QLHckVxZilSlUfIGLD9SCAkVlYAsvhKgYnosVE7+uATQQ059IGZQqzzemNmzKXwGgDUgidkOmWGXuo2bEE4bSWDRP65QowYZLmInBnxjFiakOqxKqMohWiJgfIVGkJCRGgDgg+5NCZAJ0tcNKCloFGjoLkC9lZMFP+WHEJNKWxKiaLRhVRlqgXsWitIHAS71M8ER94ifLpKyyXWb0THW/LS+SOCSRonYDnLrAbUv6qLDQbWyCSQSSC7oU75fMJmG6rMfyXWHSMyJqqht9I+qAg6fu4JKzRZ6zZWpbVXrl+nOzLJdg+FqStdfNLB4/RFlcriWcO28vReISr5t+Qjzcgc+Nex1Qyc/drj3TdRRX9p5KvZbDWpH9dRfwWtrHedUo5Z1j5BhZm1cPVVIcTXkB0AlLdmXGQ0KlZKRzm2C+1CbDoYqQKcgoNA0ASH9DWeaWFVvRrGICaY0L7S0MtnmpdClS/r70L3XuZZh8vr6KRJ7OywhVjtyKFcri6VCEOHqNsrBsSqkWi739m5/5zGcWz9+BAQUXDg0ILr7+lV97qegfdid9pgTpK0wlAoOKYMMNZ67h1moTAFONlBXMJRYLIB6yw+9doH4jNvxECq1xHNxZ6wRIeBQd8gWp+e0Z0JrykZAvIQW4xVlShbMkxSnykKBUQQ+3GsRt8FvSnxnkCLeASDC8QrzAoWhAEupFFmONQ8YT4QisMXQCM8+z8BCFWT2dQRJF8JU/0g7dSY5BEDouCYaJxxlILhflaBN+GLiis5yJVM08AmwV8hh5sV9nmspu8uyeNRRcVkHbhcFaeDnn5FjpgmrMOsgbK6cmR7mhIdyx4GzlI0WlxcSqZrTFpRnxFBfqT52enAoZGhc/1G4CtCgosCDO4ycipzsDREDDGwDu985ISZb45MtrQlkbWsI5p8ePUVEpvcWYJqyDRLQugU8KTR/ww8VXUAAAQABJREFUFQW5JNT3nG8VSY0ZVHTT4VxmEcSfvv3gnz4C+dGx3yzGZOUFOKGQHPCTHf+hWy6Wn1039r7+sJ4dClL40peCcg83CKbXVFhCfB1Jikoe+3ayt9X8nbwcg/sT5zMMjyApQeJJCEPxY5xXur0FOsRH40ngUBjwYoL4m/YlxQBj7vJl07ed2lDeHDzlHkVX9Q1V9lzywfBR106tW094U7DNK6n+C+6PUzuibMgDIz3VyjAAjN916smJVTJDuOzFnIxImAZOCxE2NR/Lhx99A5vzFpSiVvdtRTShlYHBQ4TAUCGxhjiEE5tgAqTFhMzIZbPBGxwrR/RrD0/oou4ZLrET5wUM1Rxg049mtcwlTKKTl0h5EiTXgfzcNU8T6jTYqwJK721Tn6tjeGMZ1XKi1OkOZkuoZIlcAw2IgM1oHiT+p2jzSJejxq1i9VQagjjMQBcBqpezWPoNwCgYEKRDqVLPg5/JJeMwFyxK9BZcczTjRoTOoPdw0Hz+L/x8i0NApye63X3alPfuv/HbvzksTl+ajnz3kzoi0ohsecBM/fLq0kKPpEzt6R0lFBCSehBjoESZQDAYsLo2PHDNYlVIEYi8eg0pMzl+oD+8aDbWulmvOqI8gnVFRpXgbYFYwilGiSfKHWbRWESDjuY37HooPy8IkDqPEMKWkU6NTohIoXjUP5vk6KpJg7YfzfBZjOQCvzGNYycApn+3KCu12UFFDI7U0FZxyCr79Zy/uuBYWjI5dLnIkuzwAUPZlBm6OXygYq0sgV1eLiHc6hLxa7FQuxZi/FkLW76CB06I/ZYOLmpll+ouMNSLuczOOjJYAd3eFylK475wWuWrasQ0y4QDz+x3/eHyvBYqQTJ+LsOtUuxVleQe4Y9fSjoD24Kh05QU6kg5d3TNlZNg4dGvWnE0hksPg1Kr3u1AhUu8lYdxO6BXQvMbBn9ImhSd7pDR3KjShA4y1DQl8ezzrBWYOS9tFvBob07rGvQZUWuQl3v1YntayUSsAg9xoVCPowbKwgg97Z8kRs7gHMlmckeiIrhPfA+1EH9jxLbfXTBU5jbwMyVia4LHC9xF3uNh/QSmhlEuKXpa1SXJobTE0tKQp7WSX4i9IHR4z2gNlefCmLEWnlKtha+9JsyJJM8lva7Bf1xez+BVKkJexnROUop1j59ZGrGpgt2vY8vNnyMhRCOnCQKdiTpZXu1OJO99GHZR/hgvUKzoUrTYS0dYSU4YDGx4Cy2d6mRoJ5BDzHVTIJddHo+/90+/Mf/R35ozrGBBOz2+y4U433/vbtPfb7WPuR1QoqbsGZuUd+iNpAGsC4fAVtyyFzMySErWXlIKgtrKP0eCnzJqbDYEnkvgT5R/YhTCkeRAWu4WY1qOJYNUfWRGCldIyV6ExAri+EMuGUDyqryG2Xt1/EzM4VyRMg8v0nDI09V+/+YJI7baqBdIljDnnvEtND3h8jammvLSiMPSWKJTSUNMDHq2fyHfKmeFSvhAkRRlbFiJy14Su7KwnV4H3p5kyb+dyYkQYyOk4xHvCbNac/9Z6Z9QXMrI5/gwtshmoTbMId14dC8Z3wgiVtqj5aobAAiNnEYsfV2CBa/SFUu4GrrzzStpZ/SVRVA88X7D+dcKuiiF94qhjA4qxllVqfHEtpq4CZTDO0oDltdT8ZRHmEK2/rOVBsfgz9gana1LcCrGOocAZT/L2BxDgIhdw1qUU7UWyOtZuDahrz5kF50XzTmvozztY+LfTE5I3hQSAAQEy9KOGsmpOo/fS6TsIkLlFf1gIDzlfh6EDpPQnj/JswCZmLBGzG4OWPu2tqkeL3ha6dz5NTzeg+e5uJ9jMwXpbTyrC9k2zHjCZ7SWavGfeTpVSvh0lR4k7UThckxUcTSUmUYYjPFxMjuChMzogmod4MTlN60bRbeezN746jfLe/9vZ6hrc06np6fDvTsn1V6vz4wjt1RKUbP9hxAljGRq3RH00JeD1Qd7xHSzsYPQxVdJlNQ0Pn54MaqgKOAM2KQkCSyAK5FzxjGpdMikK15xHCHMkYgSxx3z9YqAYXhY4cUzNSdH609luc0lYCLxa0gjaxFFNamPV/fpbBHnyVzVhygYs51Thpd+1tRcRyggy1iJzbEKDCIJF4lEyY5CYdTGVSLjCYBgxiICiFtPPe2z8NRugkC2iPQibBImkEyqec1hssrJg8/yr2FIoEsztzM4sNnYbY0LnR7d3ZhrcZESRwgloDJ/TJlQX6WHK9RgnzQqkwAJFwHM69EOFQb3FKNiCMC4py8SCWKQEgq25rwwa4H+mtiX1wpRWflX/FuRPKlA6UOUhaqT+iiLOnnTkNamJtxUToMPNaOGLRJEcyZOFM16gxXqgPFU8Xcldu3F+5S1QF7VeuVC/v7iTw0CwW2JjVFP4DfRjydV4hPAuw0F+FN22+I/BmHQL3mxRm7sQsKWFaTIKEKPw8xNRjnf1JFHHsoX/TAu97tcJbKgKBPnwGRHeDbH02hxNthTj6XsW2lIc6lrhUW5wW2m4uJz8OTI3L+y5kF1ELoylmnh90GaERaE3CKFRSMsgTdFii7VVC7VCXcL0sXQyQBKn6Agy4BpPSYGOzOudl5wNhV99912Obl3eHPG7cbYqhY3ubT75GRvuF83zXFrXsrIJVopNrlLWbHKRp/IQ6g+9YG7nVKZSDkqnwImQHN8lorkzoHYHYnPgXVqBIHt6mBjb+ZBIsnIA1glhUuughjeJFdBUC0NkIZm/aFcYkZrcUJuKLz4MAMPyOMJkIqV9QBKbLbL6srIlhIlChMljpm8pEgZEkL4BYz/xmFJjLFTHqU3EUo8RKYs1BIkQq1QgYkp8CP0iKsSSwkbRgSV2l7XSCAMdgRdEyB3RrzqcTf/I+hj/UKXaa2ikzYrYTORoD4jIUaTkWGFeKzsHpl4LQtaJVfcq6EpJXc8maKAIuVKN/PP1LzkgKqXTAkuf1XERZy4ETnupKRX0OSxF8F6SVgrtwSY8puIQ4us626Xorg0b5oFIXzfiSE2L0uDcVLzBqaUyJKJk3lWm8olCQzJ+GzdisDXhWyNeoKBXk1PEOF5UImdH7k8nIew88BsFWNKZH3OeRA8AsZQqR1ttiBPmROQw2z6H5HTxzk6Z8IlykFy9Q82tJPcBdLx+EoIr00Pd78+SzMXhxgzQdm0nexSsv3Tk2jo5lVdRqELq9WpYkOKfYp95hEmHISFiquaUdmjay6rpuxyu13dLzsjbrO+qUkoTFb9Xu/o5IQJK85K6BA35055+vcOaC07TTFYVwI+TSBKuYECt59klG96vc93Ltg4IBD6pUiv0OC8n1JfqoIpkIwsRrHWuYbhL0AqWO3c2CB6KLjNp4UiE+maro9HYCOhS75z3p+GZZnEX9MzEC+C5UxhMruU1ZCm6bx35xJzo04h5sga/E6qh/gTYnApxKwPqiaH10ChWpahURJkcFZC+ZlA3LQ+JFRPxcMoD50UiCIhMJTXvuoh1qznVoDEZ4N6MmQmnBvolrzNo6Rq26BgdErY0jqmHOxp+Uutg9Mqc3XMEAe5sgzbTH1+rbc3CAAkE4DZMK6eYKvL5Gwz3qUw8ZFXsPDq4Xo1tP66mfwJhki3VSO2WjG8VBXCpDOFrZh6hRgrDh9hGOTgT6DTiu56VSIJykW7SYLA7J2Hlpn6fQ4JdJsHSiz9trhtYZC31VFNV+E+ghpZI1usM+bzvBBn1vA8rVfI1gax2DN4cWxnKPKg/htpsUCrsVTYJbk72tcSYCkwa/wR36wdZbCeV6AGeJfeSB3dfxp0lMg578ndn7JwshJxVyRvOeUX8ifKk+cRyX1DSeSY1YjEzkYUkhIQ5PBsPIk/BhY7AvUHYKM6bBjSk/yE38cC9SiyVekBLJkCShx9Mk9N3Vm3TFmqec2y6wEXF3ONTVFM6vmoafXK7jFgQBXtupqWVdVtz+i1urpLV/2YPuAZ7U0MGcXBh3WLXs7Qyhivvs6oIWSri3wIqhJJvaT6JQG84WEIg8SpAIoJJVHjtb6KooWIwFuXHHJHFHkSS17yg5AiOFkWDiqAE5mrrN5C9VqhUleJJtppGrdIgYQcjDFkyXylrY4lf8tGxLg2YUUhj8A0qDCSJF1OlfQtHRNBOUkKGE+UQrgBzcraxjhnCXHUhcL0CM79u3Ss3YXNcURcl/q1ighGUITHWCA9YA2ZOCYVXAXIG5f716HXEm+85hhWIoMYrYTxArxxVcKkzhPmW71SUwGVM9bJxn9RgtYzvNg7s3vGN2u4skIpf31toGdIVFQq62MjWSoAvOQ1FgA/8LlbfctjtvsDI7ZHXnkoxFME/qgXlVYZqk2omswo5WFAscvRq4eK5J+1+S1llbxZdZrgiXEMnwirCaIxNMlKyExZ4uLGbH9bPnfZpawTW4Itfd5zLd+Dbxef83D8RraSxDrfQPSRBzhJOZ2PQ8KTwrOLhoA/Ew2resAVpKZDbwWf6bQymAtRRUrg/ZnI8JD0mnvWIPOo5E/JnRJ/ptiPkWcX5SvstvIktuRl9+RELSsnKQeeKhtjljDUbBaetx6D0ThNr5KFB9WVz1LG3JphwVQq9UUx566mWzgek69cjRylVl5UZdGptHO406Y/4sTtpmrNFr0e98c07D3e6w3ongcA1lNyQ0Y016AvZITPCSGUDVeykAm5DfbegRt5W+rZywg2H0R9jQdwoexm9FLBrCO1cNNPDJNrUdKQ1JsKJEAaI1xLE1fMQQB+V6c8ROU3UWcWDi+BAYXDR0Z5PTqAJwRRQutkEw5+Om1XpHiF47DeuC1rAiEYCNU6tcAfUPJTZRgNAtMKYhv1BGvYKZRiDa28xgGN9wJnX6FtPIt0iAxARbOpLksCydmBfBaU14/UuXRBF8xh1PNSbFJgjDI+GLFiiNeIPTfhLx3iaJXcuRIZ6IQRyz7ouaqKf4pL8MmTBwrPR+KgCnmiVUOTGWylXmu6F7rNScakdaf6D+EGYIWMkOv0Jl6vR9g7+XrdeKxzwUPWorYmf1KBCLV/mVHCWDKUR0MvTkj/pW2riZnDr6NdVIneKkL4rh9KpEJZYb2MuyDPDheSVfc42FYxrbxtZuTRV5TdSt7bXqDnaWW9jZxzhSUeGuWi32vPw9UFmDqVnsETuySDX6/uszMOmA1Dnrv7eV6Ih5vAHpIwP5KYTQxnJ3nisYmAVPbkyfMK5YrVQVQCw5NafZ4EvwZZg3RgQRqH/bkGnL+SHWsxQWtjlmKkTFhVsz5K33LWzyjATB2oOxrUbbTA0ys7zWze6erIKzquXn+o5erj+aA1ajdt7jpGfyqH/flswup1jnTp29Z8VB+pcaZOkR3oIEOkQolI0MDuHZ697XwkiZQSZlSpHzRHcjcm+btjU5ZyAUab46RR2SvpLZIXBxM9jESEaywKSZLH8Jz1SJDJswJtlGzWplaCGxmqESl9MiugtOJ4SMPAeAwxpj+hGGkvfSBN6AnxXARBOQ1MiBSsiUQtOTbO2IJ3+S/tnEteOufVpVFtS+g1FarEi+U5JmB/VdY5C1K0ebYzP1bxKuwj3pZl1DSpq57JYzyOzHdEeda5/xHZPNHo4quf/mOisY3M0NBnUM3xGNoqYuM/3z1qafF8mrWs14hO5Q9Dxxo0rxGPV0yKd1FOr3gcYA1/ApAtctUFSO1bUUMnXm07rADkW86X06lOgPT2A4I2pdSS8wVfKjR1LqHkKiVex37gm7Vqb9skomkMIx7Pzom0pyqbhPQy4IEAGo+CdKqIPmZYJUqmsBQktMC5WSTwiwaBmXDwwRTP0bGw5UMa3TZnyu+WCArsFJKFCLBSC87mMrYksCARvltA81Shk4yp+CUtLuxj4tXqx7tUYrvWdyvQrNueC0945X5nhccK0Xr1hswR0uBLJbJ3UqTwq/CA3rNY489WORT5HEtNCo6ZaemEIvarI5CMayMWDZvxn6eXJBQ8fBWLdq9pF1EmdFLR3LOVjCVVaqxyosF4Hl71vRDcEpgAn2ywmJXwCLz2y+wQITklgR4am7mExHPP+4EUBaCfp+VJHENIbut/3Z/Hbp5b46na7VkCJoQsPBc/XRN/kkMP13Fy5lKm7nEbtEc5ZADzn+zp8K7fZMHBi/w7GbzjwXmE9t5ZCGJAF+GBimYFOoAsNu8oFAmh34DmmmVOJif0GGhL9BjICZlat6coI5JzjCSA+Du1Ar318SrMlvWiWe5E9FxBDsDMDhV1ShBUR8hy9ZyfMRd+l/1SQBvL5dJqxDhJQTZA5WQocRQYPMw+IqAu8+xMRGrw0xAg2cHAT0Icrzy71l8BRrWhEapftzMjvGN3YhJ+XtWfm/N652kwLFwiN6sRC6Hg4OE5j/AJiSdvF4yDsLXtq1zwu0RxB5Fn6hQ6MH6rdmdw4ICDzVs9PNSRXq3vggzgh61pe9r0O5yCsZi067LHxYpFv+l4/w+w4NVbq1pzR3iedR51Hr/3KpuQzq7N8Cofd2RQgR7+2t32fNz02q293qwq+D9o5rO6X/T6TCuj7FeTYjQ85WLIbl+KxBQL0tiRr9F/0bLsgmeZ9ybxhOTwnjUheDhPzmN5xSXIfFFTjnCzIjyW4yZzMJ0vxWDPk1BEFoZJJYhjqnJatpw84Ra/k7Ul4hxBntbJAPxsVNanSEAzMNGvTYn6jlBBJMGynVt/7koH9jfknuI4+xggYZKwaHIN+OXSFjRIH2aItE8RcIJvVzmmxlMaJ8oBq8+gCmw8e2YVziUYanxYE+U+QjsxWUk2c0lsWYsCwVqIvxoPjIfb47cmegTPt6eJoWeSb1+9LmNWWIgC/iKkxWyy39XazyKuxnt2AVOeXlM8Vbd033qaAMWTOYFE39csibU1+9W3uHODkQYPrPHXEGrDAKKaaPBcPFNxMoPLKUnhqPOEp+TJH7euKtZdDhPDlr+sM9GLugQrlF5EadKhFWn0UM94aqafliHLXGRziS4RaQFe7hjHr+UV7MQxmCROZx11oxCjlm251OoJ3Pm46z1G1zYsW7gyEh570TqZ6CA8einbBj3G6lT4BOkeqcwaApepvHSNj9nW4oFw9YV8AFTnAyWNvuj4hzJJiD5mVXRxkQcA/GDQYnGrO7QrSYNm6PRb1hrjqQX8AcJL1545AQRyvS6xgbaOdErqAHpN+1MiKQQNXz1LDMrfHFf+uYdnQojfdlOpgyVVkkHB2JtzL4fvG38QbylGphUJCR6XKF54tUzDU1+zOgNCWpfOjmaOU4v8xiWEiXw4CLtSFm1Wlxk1HqJKJbbgNHj6Zqtx+nlbWw234eEiKxewCQ/5QQXi6/T4+RTEQon+RbYQaw7b4VIiyAZIm93h1E68pn/R0owAGiL/ZmwS0G06XK7YnrdO9fmuZEzLhjZuhaCMoWmn9rWec6TgnL8SwK1uB14Rmxz0ih6C2Mpw2i3RpagRrJ8n/brfa3q9VnnCqaXsdOgU89npfv9gNp7Amb0u90OG9r6WD8xJ6HPPGlgWldGTh+5IkON3vz+TjOFxf4ZMXsDy8Ny/CrlCf+nfNqhQBPP0P+NbSCWxuqDLy7CSdAfvVmCyl114WAGg0mZWCk9ED4Hc0zSVkAYN4ZajGhxOLFHHhETRIF00gMSjNwJJ3dbhH9rGGLkEK0hlf/5p4Vz2aD2Jc2jaNcMkbVW5KgErPCFUOeNcmqK9ysOMouDVjwNbJ5GFEm7ayEqQv6gw29yFa2wbEhUjUr8evyUDyosLgM7v9VQ5tgi5DqP3JZ4dsU7YbvK2JbuCMPXx25zvr3TJQkh15D2iBaQp0hgYvKJhgZcUUU2YkgyQPOkc+HbxZCXKpFv5BPhAHnM/JMcRTiyeQLUr9gYVArcXKIBrhU6GIebCiJYuZ1FjMQIsiZfKg9QuQtapUSwhDTzYkcyfPSjViqAb9UYoJwNYr8XTmzgeFRNjjnTWQAp2Ay9wtVQJMiI9TeIJr+bAg30lvsVfA4OeJQ9jjP2KKutaQqj7U09FNH+BH/JYd8G7pcMojgcv5x6An34A/kG6vm8BZuy1sdYppafpYpCiuFIOrJNa8sByVzZ95aHZK/QAoZaVRPZgKz4Py07fkWiAgtdgmZwC3Ok0q+gMwqseZQMYZwVPlw3gojJpyY0AT8wgjIeCoPRROnksO0AsaxNyiqIyKUWoN1UCKJnGJG8SsY1RxVaZbH2KIFFDSSQoGKPETDV0ZRMoKr5CpDoad6zlGZ3C486IMq9zttUaeXMxSqzfBo1MU6ogyxho8wQMYnDulIHQ9zVJEZy0OXFfZDzozW6VB9WEc+yLdqdfcyGCJI3iaV7FRhDqQzhJkmeUZ3JlfmeMasoFbyUjfRVwkxFndrSrZtYecCfkcW+GDitFYg/lsZmwoXRWVf3hCDVx1p7M21WXAzusuk3uVvBtfTlfkZd0bkWyFghOHPwkPJRLjSaJ+Ao4kCvv53spuzYgqNloEkou5+A5C7+WF/W/FhJet0mGimhCA4y3qJTWuZVek0ctz+yqhDh38EgKrQ3GrlcCTizO5yY8H4fkI45w1CZ3FBkJBkAtB3sS/khqYLcNa3TRQuKtXe1b7+AZ2LcHHTWtmCCRAWb6PmvVykKdgHgCKWrqGXuE0Bw/aYrP2r4H2zPSmQXJu6FMhviIcg1852uiYQ3CBG8tbP11V9ocLlQEZBlDlMRYl7EhBxeXtjsLVz+1CrBjDAbHDsZtx74zdFcZqfqtaRBFvqBdTvjm5BWpAFJ3XFBrMIHBBBhrdISo15To8xPqVP4819gLCGLVJSiISd+vTlaYe4BIZUuYqDB4jydQVCUMa35e11xVhzk1LzgJ3VP2JLAxcJmo5n60bfiXo5fISsRApo1chiBRhQe7iL96jinKv4zg3jLEMzedkrIhSOSVYsXn6Jxa3hTr8FacBEwUsy5eKQHM0iqhak8uB7aA9YfL6aw6DRE2JLupjBBQqUNgiLUKctUcVoJWDgJ4KCdDY2sDLDjQnGY2tIBcqcBi0EpqITbH5H4foWX9ciALVU8VYJXHoh44ME8yMrFVFVf1NIW7B+3QPh2D5IpagydWhdJsgHPIwGMWExdyM2cR4UxUKzD+e4jT4wgNgDlOqUqgB43pXnBr2UEalZYLDzNTiZKYo0taXexFCIEI0NmeyR6BSmj9kibb4KYyFaKITAYlx+Ph7reEWWGzBBProCEGtHCKpxM23f9BhRXqtNgr9rusWCam1XDTYluLIaxvEKCyFV7IMEpIzdvjuCVfzsKSikt/tfQrhTRXil7caB1MxoPD+rh8qTwcN5NJr1+NMEMsplOoHw77g8GtB++Ne0V/0eWGxKnVoyFYLYGXcZOWi9K5Wo1LfOv4YaNxNZVKrxlJic4lCvdlMHnUGn5OfzMZMvS6nA9nKFVzJlh54sf3J4EIYrpWW1Ggz86ItBLL7Ak80mdnbOq7xDtNV48wa/v3DQV1aaSRGIQtwxB/4YCuSCOVkixafYJ0R5FzQ8It/HQRiSeGSKyzD4qDxg421ScFtzaoHbj9SeDY4fW08ZJf+8ReqwOQUxaRsaPYu+wfcQONkoHAicdvx5pYoB5P3/F9KGmED0anSyZMsFUiFyDPa9wTJEHidZOfF0B6BaAdW2/HeBMWhFlnSj5MTSjEVaqwok7Zuw7vmrG3Z5cEyWJ0SU8iYKXssQVJPuMQg+A5rwxP0e3ou9CdCVr0u1TaWx4eojd+Op2w/iZVhKdiW1mePPmLcmVsTvgiyQrIy6Klv9EtkWBHMTrzEIda2HopD+fpqMzjHUBQpBJW6iWiD78kAV4jmElmiiUIf2pHa7ENy+EivEN6wtzvIf4sy2DXCTnZWJ4AIE/h1kU4qanaFc7UUlxmKktb5J1otok+wxPKi1/zftLB5JqFdKCkuhHi8qQzPNXXBScC6LvQZNvHwKRgPP66KJfrrmKsftul8DhMSgjBrsHkkAEPXWrETzbJb8sCl6JOeIpKai5zfMrLlO1ZrEbASJYopmMna09LuKt06GplYbqsKltEuSIFWFJGhTkShn/eU16u14vNFsWTBbXJiWk4b2iiYulcqHj3tecaPwxDyJ0bqOufKt7b//6vvbn4YF61mh7f3GXZ7fZRp5yKJS2pbGS0zOGSPhvitqbNCpbHL+lQqLaOGuC7TCr36s4XZ5//91/4/CsPWHi2KO61+kdWUqxW+8Ubd77511/rfPDp+emCfadd5vq2OWfLlpioW69HxbnC9fBV/qfYXfj9uyKBJc8u+ASw5lllT6tMDRXxgVGgi6qIEnr17yB1pR/Ms/FUeUjwJ7PEapwk0kTFpdAFU/4dhhdpOYixmsbyCUoGKorgLYRYsUyjSlA9DV4Z08ZIhgdg/rzlq5nrg0qEyF4FI3D2K91L8KasGP8sxgL1+aJzUNjc53Yp18mUc8FW5bD9lgJ6UQI/RYWc43E/TzLa6mRPwOXVYIiCtudpZH0wbmi/yUfn8iIYl7ZkTb0QGmLNr1S7z6xLvfw6rliVwmZxjtNrcx1Y7N0Me7IhOyqMyjeBRoChEAGLNaXdvFAggcfF1E6nvzrJSAuvySpiTI7QKnvwr4STi4TRogxjSuC6uAGTuYKDf6U9ZuE7mIRdKiIRhPyemy6bDbkZQPBzi6vTwzPXBY03IY9AsL3ZRpcQDoznhacp5iE7y9SxE9u0l/YSAafqNl1HvYMkY9mqqqiUAEy+jh/MMVhZp0C9MIcWHeEpynVcyFCIsRoo/ImwHDlRMw4hdwCj0AgzMYhkBMz+0QYrw6JKpSEhzdn7jbqrOdZUm0iWczXX+TwjR5jwiDYb0T3rduwgHK10DpLh9HETvLwJiZopa32Wa/wDqRY7L2akTDfjGgrDEHkSkEThmDEpZx1jHo4W6RoSGTkGsvBcIkcpvilSkcykMCV490gnc5OYtHLNKDqejq3B98ICuexeomjE7MRtyJj31I48N4ICEokXH8oi0kOUqWXhI4herQ9PV3HPsWuaMyVD8xXu2p0P+pNiXD8YLPZ7nArGhifdV91mLFa+ht8zAl4hGT8Dikv+RApWk6uat7lYISHOp3Gg53Znv5p2H5xUi1vt1kGrOG2K9vC4P62nLKOq9xaj1rRz/O7i5ulo1ExmxTzK9Xoeu8q1lu96so33XXh2hWcyvoJrOxfy6l4B52XZWHjxrUIKovtmsZCCFgX7CwRoPBZBK0mIeYTb8mHiKcxEeLZwJBki310ipCYpfq8/m7burYIjxHqb1QyLvmvFJTUcXoiwDkNgrYb7RGMLNak1SEKI1Z/GPD1j7YoVIssYohiJPqur1MbIWkOHTSuQHSAaQZ0OQ6UoBVpGVjZQiTKjS56YjdCEGIv2h0r2COepUtqQAHSG+dHpV9HvqkfvzVdhs/6FCMspZWfsFCeWSbx0acxYRsiX6F8NDlFeFl7co+fO75Vlt7mJ6vFDzqAzkGclT1PJIUff9S29P3AIW6bgXUhcQuw1lZTYrXkBsBpOeTMmRz9rWtcweKpoLRVdAU+eWsErLq47isAxVbWxXsqTqYT2DeFtiEDPJZzaZkB5GdMUsIGFouFX24ppkT2fsqekRXtpLwn0h4znGr3cbx6Xg/SVCD3gQ3A8lfbGR3BP5K+Mce7hqSQRvpZ6o7QE6WFOL95+N9oaTMB58/XBnmSEmSEbrJJgw6MnSEpjmtMcUlkmrPaFCukuLKZRCQyHMcI+5aCDRCpwJIp9ZEan0JLCVBJyNX5qaKe6ycsq3SgIukIoET9elo7WpbkzOoNfmWJ8jVUTIZaWMEJyeA7JFIzaa8jUSYARgvTuVHy0wok/xNNaoEJ1zqtxo+mxACoKqnEswAuYyTNEBNCMC6zuWeYrAqQAqrLSV6c4pm6eJ94B1euU6ntPNFoFtiaswgqcVfaCdbz+6y/EGJXEDtSu9RVBQwC5xassx6PTftmesc0P7djvWmyzthbTG4hEgi35kockPFbaiGO51NO4sCXlrvMLt9qxRNZsUaBds2qqPxu3jgb1LTSGplvfqA+K6aw1np++8f6w3us3e+OmPVkc7e/on024ttDDIrItobAyaaNr0bvsWGtg8TWrrhh0qV/Va+ZYMqYS6WELOPAw8anJ8HNnSBKv9Qzto71bU4FHlDzKId8OFCi3RojUiXKL4IE3LFURecJIRYRGZm00pI0yTpHVTix3yZDwWAtDmMUcfxfvcsaAkEY312ZmCJc6Bd9U49ZW+0wGEEDqmIb0hGg/iDkV1omz1zS45oHEaJfPVrdLtlaqeGvKJxyoBnZm3Xm1+tMheV6aCMezK3nKZRfAY4aDf5P4vPgiwBQmafYSHDnqxKUKP8Ii+BhrwiWZBhYwT6FX7ScSl1J5116FN3Mam42pAT76WcucoByDvyLfeFZCzqwUVs44vImtE0ZyLP8rApcQVv5xsYHTChooSkXTu0pOewKzkS7S1Pg0QkbLls5hYjO7uabWGG98XCkFqd0IoHZnE4QOrxcvr4+1liNRythCyMVeFYDHFRY8ViOBJBLF9qz+gTYPAI4kzcq6LgEqHOeGH1WowFy/pItN68PI1ytdtQ+YLZyEeEerWPOXnJ3gOEMBnVcswoZLipJZxnL0Gin8zAhQR447OeyHM6KkmgBvaoM6TA5RD4wnmozimtSmkV1QIVZMz4JXJpXBrVfHKwJsF4X4LufweJyedmUHLAIcW4IYonWELJUQFY45PXV+qU1HanWFVLbApcpSrcHzyrGlpPVCOWZ/7dm3hAHwUC5kp2fNrB2Vi3YaZkVhlMC8GYrrqg4gQYrrsfxdiprXlaRM0NojqVj3e+X6K6IqRcqmYsGpelTaxbThNsX9BUap9gE7Mac6A0N5MoCQZTSWCd5xPhtP54poqTuzsttvd6pWOSuacas6WBS9PQ58YfJ1yMEC7Q/efu9G607/qCq7886gNYMppr6vFWRXAQMr16Av/roLP5ioIGL9eXHE21MUv/vpP+qoeXreOQUuE26EzcMDpDXFzeS5/ugYPHNrevKGzimKihcJnN4GvTEQmO8udgz+zHHm4TRuXlGhgjONnrymumEB581AT+9qu9Ku5ezjI1ClV8qVaIseFuKpPcQiO6muzHAjO6lAm57Ro/BNh+pFIKXIHSFt2Xpjflky8gXSk/BMGXWso8kAH+UN3eY6mCNfD+Xd7CX8bqUqTxXIixxI9egJVSPW79DB0VsQS59K1MB6MH2OUTpdMOplZG7rEa0psDWSt4XyEBSYmZO6G/ipxSx16FUS7PjGUPUe4wVZ7LAz2SiwisLfTCfz8Qy248CDYw4uQfO69CefeVJUEs0U4oD+2Y8fQZWLQ52/0WvhURIbVMyvEMhwgKXf5MEAAF/SswQzASaGdmcAIcM1YMY74TQE+DyWJF5uJ9OHR2/n3vyVxChPZLEjybN2DMtcIm2ahpU/jsSJ0JipB2BAcxh7FXqnMBDmobFjgU5fGySwmJGB6NVDuBBQnti7eEmB8Zr1hAD4vYHpNSFJnHcyLFyc9Jry6vOejSDC9ZGZOaeBANZPuz+FOBQrGwjxQJ4puyQgDpYArGNOXF+m9f3RDpYn2ZzTJBYwHHkFmSBIiqVRvtrvhcBUXtWNDaurYCBY42eiH4Y7ksAlIy6hdWKUXL4kG0aXCDR9c9F982+0u1h0e9VgvJiMWp05imycfDWEz+yD5lW368GN9qf+m1nVmXY6/YKlXsxnzau6y/Xao3f+7f7ivfmD/XL4AboUU8pBfhI/n9miPQ5h2WbXiCaXiRh2yd9zooLFl8xgWzLVtDUthnBag6Re3zVkoY17kv6Ymz4NrbEBKVuXeievdWl1Ip7RGogIv+yzDCpvSFuLsKv44IbwPHZr8m2Fewph4t+TqCDhsVL7R7KKbyGwES/jQmCvVRnlJNOcRU+h5NdZXnPgmgPXHLjmwG4O0HszuDKeMewW7S7HmRbvTSYcjDBnyQsG8W4bI2gddMRPdn++RZfazbfLx0QmRq3kHJjOGL93RbGOwHQgHe6gqTTgzFqucFOgmJO2bwsGdSyRqEpapKqLsPQNpzhGb5HGh78P8MAIFLuTvlwwpgBsRqhQAHKgSFvpAafOY9vq0oe8xabkbujeksKp2hLxZIISAWvojBfbS7cGefYrzcw+e5dQCnFOwz/4blqrGqSqIIBFmVmmuvZdc+CaA9ccuObAM8gBU6qYM92fvjmtxrOipauOOBtm1+DyDBbhMUla0aWe4Oh1CVRK4uNoHE0vUTa0Fx+MmZKTgR6UDNbMQ6tKWTbCmI7JUYoTag56EfHaDGyQKFwhZ0iRFiSbrx0UZPJggTYRJSgpBygEUqV2WlB2MSGpWEnOkgdsn0gnVpjWBN/EPt7tFG0UU5jPWg/VGvZ5k4G1OYXEkE88l1JJrz3XHLjmwDUHPhYcYCpZA6jsF02n6Z6+MWMpetHtyZZRtObz+qJLUT4Wpd4kckWX2ox+/JBd+sQaZrH9CVlfVtQp8DKRZwuBZVhiCWO0QDGkm23KRnY0LkZ616CgzKecGN9RyGTbEkpZtgQrJ0XKVDGeykCKgilfJFgphQMKJg+3M2BCIFGG7JP8oOxeSDHBJl396XoV7Y2NVFgAXaN1ln6S2XFdtmsOXHPgmgOfFA7YdjaNdDpvbFLOXtdeAo7R69ScO9WpF3Vaj/hJKfH2clyJLpX0huTZnnkM3dQnYkhUXiLk2b9SiMzCkalTzOMxo6ZhGiuUrQPkggaMj1oZxQBOAgHbtjvXh4AkxhdVhmVWCpHqI6UqqgVgwyqlE4DM9OWEAZMXWdiFTroWCOSX+cWoEUILkJpG/rYm6WLFVfJn3DlD4IMmVI3V1IQv6KXIshaKLzaFapvEiIXnYve1u+bANQeuOXDNgWeeA2GYQ5XqLlr3F9M3yrLmEPdaV1OzXIprZ3bs533mS3YxAq9El9okIdcwNmNTiIPJAnSmsyF4CcEgLV0paicanBmMwcEArrG5xaooDdda/MRAbbtrTQdCayahL9wBXmunXL9B+zIiNKzbdKCCGfv5b+O8FCmOlUL/sa28Wkd1xvhv+pPoiy6nH/w4QngK/TZnRG2LeEJhOT05Si9sHnJRvwoVnW+EJIT76XwtonOeKvD6Eh8MeCc9GbaI9fr3mgPXHLjmwDUHnhoH6L2tl9d9he3Dk9k73VHTn3JYJWfsMvhy6OPqHdJPjdArzvgKdal8HL3SUrgitZkFI7NWROFM03HFSK/UvIZtiyIZET6cx3Oc0LmkawEDpJ1sQhZsKXeZkegIrxQ4WTbN3OLY7M1Cwqjv8Sk4ejaUI6NJCton1XkBvXRuoIKBrkHy6uulXO1q0Lmq7ZzIkXxSGXVdrmsOXHPgmgMfRw7MZrPFcac67pWDkptAOOGBE+Y4b4qOnWm+HWPhx7Gg22k+py6lsS0ZBWwIFDoOc8ux+lCXDXj5iJj7pYgAtgwyA4VeLUiRS/NPnkPwpywcRUIE2txJeeLfojW3s+nc2sFN1pyM4KeQzO3GdK7OZFEUhakxmJiFS3cSm7IFNj97DU2K+8Y7fiCeq1DaicZpvLqSvuNr75QdW/GYCuQAFJUErSCnJ/lNPUtvmce0ulQ6IpxmaXEW5U9Hqucu+eQ0UEuboyLEToQTTq821xcJ37XWW2xxt1oORxvjBGFWPOhxvyo3pDOPbZ/0AM2o6qhSh1ywcRZYzc3KXKViUhfwPMctggNC4yqRro3Zzkthqn2bQcyUnBzedGElTweVebiZFQM9+Q90AOAwPJ35OcC1/5oD1xy4PAfshkp2VYcemDUXMuhXkw43qbAxiDanrc8K1vR/sXa+F1+zvtenauvsUOskOAqzEw7aXLTnhe4UsoGFLo3uQH+ErPQml6f+D3hKOt0w3M86zXC6eLDXeqXpcD9P0Z7M28dl/elu2f3ery7u3hhVD446+8XJqNPldvPTHkfAhsmfTzQLz6lLXZ4Hu8ak5QB5edyPm1LNTXQs8agl28oewgl1ADxA8S69TC96uGNU5hxEiyQAgeEWHg3CJLSmnoHGJGf8KrtV5yEXwxIxbGKLMVf7e/58DVJFDknUU6pzjfxc0pmHwGV4SzXRsuHM5ZizRH3tu+bANQc+Eg7Udi48X6doTn4RkJrwohxYM6aNs+uLk/6CUtVmhshUKvXS1kVwwq994fTs7nD6AKhesHHFek2Ztzu6r5BAP9bcy6Qk153EE6jfoEg5JowO5dCHSq8jO3xoXJ48OOpNq07JhQS69YCPWG6p+8RbpJwnj6VL5SPcrspahZGgh4FzV4KPOFy2EJEEZbRhlkzhM6uk6Aj2EzVOa6LYtLzhmt6khGrMOmmX9XWBcPYJolHxZWVxW0tzYQ5YZ7EV1Y7AZ0161+kRw+lEdc6WrvqhFM4+8cx6w63lou2qnsypmthTcN1NbuXUdeA1B55FDthhNJiRaf/SkOyKLXUC6h+84cv4pDHCAlozelhavLqLUBx1yfWUexh1Nwt/6m3V4SraxnN5hNwcOJPfQ66fj8MB1YXxGV1qcLNqdH0O3bBmYrQO+cHg+L3396bzUV+12XA1jkwN653/4xDwLKd9LF3qMQvmjecjkHXXqGNrFNXuRyw0JCMXSAKjsjVACUGIV/sGGAo1Zms/oI4A9RCeZnniV+0dh0GFK1IAtuZvE3yuFijmXPK0ixUXVRg0WbbNSRXxziUrhWWa82ZbyvOF7aLfOroNFOofVQPhMHpNQEKGKNlZXpKoDDIASgszjTb1shsZXAdcc+CaA88QB0q7F5IutG44DFkvnXYXG1VVnNB1SP/hYjwNz+pPoVu7pLWSQsspYzHkKdvc2SwtCkhdp4MOxe5fzF2VbxFWj23olkpVTH79+1gc8HGF2uG66Bt3sU0tqk5VVpzIWbaaqvXmoL5PBfEmi2KbilIF0Z3bBc8+Gj5W/s904qegS3k7cVl/FngDJdS2jFJ26gHtb2ZWqEQbRim10dquBJVtWvBq5hrN5aKCYh9Udje0tDcvJ57zKVJCZC5gS2hj+EV+z6W6XQThlcDS+7neilYaLYI7vyNd04WOpE65iqbLv1JPeyVkXiO95sA1B54AB/Qlp285ZvhspW3JAlSZlcqJOlK0Ii74oynz5co7r4PyljrnkEowsvbre3WqHpg+gyEbSBQz3utWbetW/d5JgD2t6A79tLzX7tIcUNVY4g5ri4ti+AJ1wO0ws15rz0bFunqjGEz3u2W/ah1Tad2ixMg4rabdUsd2Xjrfj0vCFV1qV4GvQu8hL0crzxULexhr89o0P0O42maYqltWWW0fRtYULVBfTEqAhqRWzueUTQsShjagd/QnK45pZXpHcpZMO7ddSqisC1jz+Ov5n06k0xxTiU6V1PqmQFtOZIS7il+6wxyt06AQY55Z7eARdWG9KLAWnicRrFUWHi1ctVqj7nAyGepXDphYdg+4fl5z4JoDzwoHGr57sD7LgK9LupqmomNghdSN1kuyVTEp1Kp8nWmHZcztRVVPNDrERq1e1frWXpd+t+hqhw39r9QxX35+XByvFTV0dGuh16+X4oA+fb0K0Fpbg73nJixCZ8U/38O68baoH35nvL+4U5a9cTPHmtjhTyapj8eH/aVYspJoRZdaidn9Ivk2HcI5uxtwM0aN4dmRbyjBtiGLiKTE1ktZu9V4LLWIQToM017S2ubONIJbsCtSgjNgzvs0P2O+QuwcKzOdbNildnFgFz/DXsINdu6Cj4DbVJIY9xR/E9muBolbxkP0UdQpIyywPSdS+pO9o+m6Uuuvrg0TA5JrRSrn2LX/mgPPFAc6LQ5zRIGacxY20wDtni2n6bQOq3cbjbgNhoy6XXX6HY3DdK+l9uXhvMewp7SxD8Z8u7ZZ2typy05TthvmmNod8I162ket+T85nWJjLnXjju36eTkOLPtt6U5F6442ULMcqmC1MJxu6gdvjIeL27C/bs065cFiZktidyw4uRwNz3KqLbqUs8zUCw1pmwP/ZsjlSpgyulzyS6dKRQODbBs2cMdfDcmyQNMkbayGyFRejfg+ZuucdFq41C8b4XmGRVboB+433l2YRs8ucSbP/SK4rEhbEliRsvCcFVnwVXrFKDpEcclYvCQJYjhhwpeib1Jg+paCLbE80q6ygvrrtTol1ly7aw48GxzIexj22dU6BsXWKvdbo72y3Bu2Bt3Fqz8qyqLVK1ujsumhAfF5i62D51CFsBUXoUu09n6r1dMRdLOmmRTFuN2aLhi2tVjq3b0Kx5zfTLYQT6LF7Azu1+7JcYD5GCHTSQesWqOm1IdjWTy9V99ZlE0z44pj9OG6YlXMolMWi+oPxnopNAUxQryJegHib4HBRqCYbMgCLEVIE9nibIlhEGWPdrFWDmJ6SOJ4pJSs4t+CcUdQUHciFfnIupKCygQGUxET6xAv+wfxbQ5m5Y2xfc7XjN0KRzhBWIyVnEU8tqIRAEvE5450KOwipJFlWTsaTNOitS9Ymc5/Afpwr6VAvKm8scCRdXmIMooOcOeJPwkOniWCCGq/O4LRMIz+FdiVF/U0OIpsvYwoN1L96eTxZFI8AFpOSYnBOg+kA/NcFicrqSfc8nRFigjal8mD1FLVjfLgRHS0+zm7ImG+fWJKldX90pzVFTKiZ8RvO23FL332GE5hsUqRGAiZ8IWnfRtRaleQdar9NpdWWijlecqyDcnHOky8bHGn1rh33Lo1eOnd7luv/rnBO723bvZeHJ5wWv20xcQKx/BhEWC5Csf9tOdccNlbaMyDYy4SZ3AA5GTRZ0KnU847rdniiG3ww1a3O98vJoOTW+8Mqptl05kUR7Py+LnyxTf/j5Ob73z6/o0PZ9V8v76xX+1/sHj35V+88fCFH047p/vFbawcnYqGzMoMWiRNjtkHZpKGjWaRpkgMR79yWiBfOKju895ShHMiiwXzFNzK2lRceVF3T//ZvPl6+7PNH/rR7d8t2oOiU9JOFuNZv9spRt2TZtar2PItl/R7fz3XM31LtFonxYM77Rfa4+695q0X//jto4NDmNut+kVnCsWcfsecV93mktg+/UpFMVvTbrfPTBhnC0ApNC0Wp2W3mDOspWalcY6eR18sxYCbZads6ihLtsxSNJoWdoSybO3NiodFCUfKcvLcO9+8/1L3xe6sPS4OH1mEVMtiaXc25wYDrEmdIRpQw6RcPeenrFUdmnkT19W1NpwIVczev/N+/3Y5erXbvlN39hd1e9YuJmzGrSu1bhqvjneEenU7jNedVoVdSheAhb1g9BfutAMIw5PUJkxYml9S4nZZ3evWRWfWGY5b1Uk1fVBPT6b1pOlM9yGbNT4dxK7p6zhAVICKfcSdKeatNqoZ4RSkmvXr+aAuxzJo/cHsAR4pAABMaW511Xz+tJwWe+3P3B/cv111i28eDKvOuLjX6vLvBups0Wc5OiqxzhP8g8DMLXap83DzYwFDG3btSqoFPQsKD/2MTcG5uhNUJsYA6UK0WTVitSkbagmhS5A6RYAGYY3cALiTcNjNx6WFEU1Cv0tOpinlpmEDp5SGMEvtOJ6VpxOWyMOj8i7L+nTolNlYOUNNZOXTIeQPSq7LSl/cbPXro2JaPVeN/sQLn3sJW2FZzLEoDJqueoy2htDWoldyIXxrPmv1TdK1f8Nq7JEMQ7RYZLzgw/Zmq4OFYU5niwo3LA5a0z5NcDBkU3XROjwYfWtaH05uVoOp9n3Vs9bDxY3TwU/fGH75uf+fvTdpkmy5EvPuPMSQY41vfg/vAXgYHwC2yB5AAt2yZqtJkWzKTJTRRNOmjTuZTKYVV1ppITP9AZlpJdNGMmklaaOJMpKgiGaPQHcD/TC8seaqnCLizoO+437j5s2IyKzIqqyszKrwirrp168Px4+7Hz9+/Phxo5cak74qymGeNOAozKx2jdI23agPK27Cs9GR2S5iNscMLzLPCA6j6UvTvyoD14XYG1xoD5dY9deG0YP9g917t73MyRFquIwF7hpjhVVVxGmGtSRUREHlsPzjkOkx3MpnwVDasbVVu+8FW29uMAsJaSo8SElg2fCcAG9YvlHJKXPD3cfSrYhkWHF4Tm33TGOIIZ/ACFT5MB3goSVRhpEFKkQ4MwkXSY9ihk07KMKa83PpmnEvsD7O03jE2XZtepnaCnE7xrVkAeJZFaHnIlBCFhTBRpkWikx+WYMqBBFGYWeZmWZe5q2Z/as9b3Nr49q2AUMXZLWdGxZ2oagdfUAMHuvSYM4FTqHGDH7GPbYP1PhX/Yq9IwArYczKsZyphinnMl2htiSgwfOCCmJ7yvGM0HbWAuea2S/XhZKlPSNOs/E4GaXRJK45W0TvqMx+3cfoJ14bBgumtbaSIssSlnL+CRjQoL7MT3TP7XV2VRlamJCCBDAknNHDyJDeKE7PINr/8jyfipfSeoKLkNUZz4s+n0+YWL5Qg1BOGYiUhQWMkmIAN051Af4K+VfBGirGpmKEhOqSCgQRUwarOKE2mjGSj/xnl1ikUTqQHOHUKBZ9O4iCDHfSSGiHNrXEiK8Xx81A9XwHA00gtFGGqEKy8pyAqxa9DUlu/ghZXrmlMSC8q8acnwubM0720nJiBL4R9pM0cszMtYZlmURlyhznOz5cj9j4qvwq2NWlSG9/HNKJU7LXkzpOUbs+CsQyGUf5CB5oYK/lTsaMaAe5awbWpF8Vo3xk9oHGQ8iRj+vxxH2Qu74dpJk7rrbHNjN35Yr6hsyyZQFHhcRi7S58gwxNZBsVtcnZeUDgE5iK9xIOaNpF6FqwDs4+ieseVxawN1F5X/T8T8zbO5++lr0BSoqcCzGYaS2jzJAUubbfTb40ehdE9EwPUU5cRbEdF/aoDOM8TDFoCZMDWFzWgARFqoZj9udSM68QDU+EggXVNV0XgwJlnmZceUbuUhGFf55Uj77vWwGUD8MDTHh5mVdmwfRnOWaMnMeKe7bnUIYLj2mlJQh2EelJPgsgnQ1ihAovVfeLrHKMjCPwgGI6bl4jGML6eJxVaRmkvZv++jtD61pohJlR7Yu6FHJDUTHH9jlyRBElUmDJbpBayiKekhUpVcF0ERx7FgEwkVjUQgnE9gG1IUHICXz4Z+BFkA1OBBQBMaQV64ILLDigQrciD4U9YxDz0ascD9YNTjQuiyTP0mL00T6TAgIqo+gbJYxZ37M8UC4HBJfoyVLiS+Z0H4PpDl7JmCaF+07VLkLh7n9yoHipqXLMS4YZqvtUvNRFR1dnlczhW60aLsdIcEKSZImjqyDER2k06yHpioBJBicjHJKhxhXckdpb0rRGjVzCEWKzGJTEMqA5igJFEbIAQ7UMSdKlP/en2owUeKUS1FrXXcBS9RTPc3CKXquTfQoqINPQCFl9OnCaVp/LRJ0UmAt9WQIOsTLhko+eifg+GKT1XmoGVUgThGGdxuy7DHpW3TfTMtuLJ47rD9c2jNGaGlTLYQp2IEcygfWZPMsiI2ca9kJrgx05w8+8lGvlGUQDLn4yoszyk3Qjzg7WS7tkhnQcd+Be8eJtY8LsnJfeSMYwCx4EUEgVmHFlAq1ChC5VpjbZQ7Psu6x48rTO2FGC3Kkh20AK1FJrjuZXZWYimKiTPNlzN1+/8rWru58dmJ/DhtSu5ebC4CB3kdxd2yuqRid6uQofGwsaAaPEFt7AHDqTgbUXuEVlIosKAmQ9dQEHUJqwnH5ReIjuCidDbMWdsR5MkBhCFMmNawsnpYiNWjpC8yBA2iW9AzY8LWoGG2HCAg7YODSjfBD2apCBbDHDvmIUIB2yUpvtWliN5RyyHAqBxSxT+D43dEPkguyqwQrLNuhgb/vGuvvmVr3FPuC4MPbhzRFa1ZMxAgxOdzEHy1iri6xOgNYbmLQjtg2otJAgmok9N9v2XF0Toa+0MuRWkdzaykS73JbWhB1DNMVP4Fb66yqesuFJq8qWghDwCJ5RLANbCoFDkw1mgsMrN+Dj0v3M2LWyzyidjQJ6uIUAAEAASURBVKuyxGQSO6hnxS8LXC+OA7lUBuQ7b7C/TN8SxWJ2SM0ymHzS7HzrSeTFqfPSNXmheSnZnRNaKf8Zj7IlJ4NTNvDVdKyGGb1DBrA8UYoUAZV0Fnni1FKPF8aurIcUzSKGDE/ZpqBjibRY7SXwQs9S3JWEy8qXV/LQ/U97pCD5euEcUHVhe75AShsICkV+KMoT0jaHaKQ5VCNdOBy+GAAhcRi4+0aWuXWY/sT+9L/5ZL9CqaWP2bWNr+70rvQHr/ftN4b9K1W/j6LLQRR/6lvsAj7O0ZQsZFXfR6vC6MEJJaVf+vXATDeMu55xJ8r+ajN+lE4eRAd7u4gqhsR5yJ3zA2voxm7kIMKKg8nH+7/8n+9lwSibJOvBetDzvW3Hu+54Nyrzldq74VoDtJLZeGesI2+gNuzxuWz8COvgTLpQCisj3cxGZctKUZeVFVSWH7jh2Lg+2Pr6IL4zKnMvUDtNMnmLsEMugOtm8jR+JCgwQiYny+/aD/6vnZSz5GaBUDsP6/4gXN8eelcH9WZprifuMBc9bHYYC1itwkAKJJWDO7Bd2525C5zBIvVi09LZJSfHWjfi9XqnMB+lyV6cJFl2F1YtRqaFmpVfrzuPNhzXUzpJnLxSMuETayU4UxEcM4JF8eoAWVRcJIkztq9Ywxu+981rcjyaXuSUyJFojLSss/1E9t4EZNkeMGWPDyOPkNoij4VMI0xyMN0JhyRn9Ax2mA1b83aYTgAskgqNkkUxGwQoe0GURTxG18tRXSfYjtjrhGEShWh2/6DNJBDigX2jvEA0V1U0M5ycXFMjrbjBvnDtB2RuJXfQmSNzN/RqpI/gcOVmMECnEgkBskMUh9+OaUL6GMOLzmgwOu+InPpldk/JSynSuAB/z78nqjE0ZYkadkoGoezgqT1yRh2ctYwZxptir6iHcEAyqgV+mbMVgRGxiFAY4ZMkA0mhgiSuDkcdg91Amfg1O0VEIWdTp4CZvqgkhy8dn8q28z716kKnb52/AuYZOKVFInXWAEhxHd7lDAp4oiykLWRLQ7HDCplnReDOKp8nqtbFTcTOBthmIi7cQVEcIGwYOIH5cLJZ9obhVlmPD/7368bAHoVZtRld+cAffO+K89qaU99CcLJMrUSLWK9rvHWznPDKplt127z3R/u7fzzKbqPb0vOKoF/0gnyIIgaHsxI7NsL9vNiCfOc1Ku69TZSzdtBtvu4lcCEiwiidfGSN4bLs68bwrcHGtaH5vdjoh6Y/Kss4g/Ew2BPiavJIts06TkaPmphN5EwBGdVW6IX9flGPnavW1q9u3P6zneh+bBayDYYeFgpbagJHdatLBzo5ntKbs23quIE59DPf2K29socOVGAGe77YAZ9Y5b71qAhj51Xz6vtrxhtb5tUIYZ6ZTmqkaAEKUxWSFNSm2cNTJcuAkToJuRLXr181H+bxx1Hy2SS+U6Doz/Ypsr3t8kplhIURw4uAkj4sC5xLFRkW8kfJ4WTXxsAgFPhLgAYtqLXCv+GsveFY15xiKDrsSu7PxiwlYOXA9312atFHg++iLdKizNGex0K2cFflBnwRLK8sYpmu2YNM0yKTy+YRVomsH7Gj61rwR/zgv7yRXL0nTFFm0igGjczCltyYzktYTYnJUT4hxrQcgjNovQ8XLGycEmEJwYdlyhCs0oWQ7ll5lbpVD/CKOnUs0ZdaBhUnI+oF+yqMFA7U1HXwdo7tCqR6jCnRKd4t7N2e+nxkiKmQl+XxVLzURe5t3flScUyqFwj/JJIkC3smDCZF3QlhuGkuiieVUmfEZMzBQfGkqzCcWQQx08hCR7FTkh1i94ZqSXdhD0AknioriJviq6Tj8UmYFZUzrxcQaQoo6gWkMlx0/XhSV17P36EdgghD5gfBlzTEyWKPwxbRsE6hvoCoPn9kLl+icP+KXHox+izoG1VuHqBd7lShBXNjme4QgY/rHtjjUXon3RtUO1e+67vvhSjIyDhgkaK7zrFFNmubyt6TvZ5kaH5kjf5tNP6TOHwwuG4PyhTRENMlTxRibNHrKV0rzfM6NVzg4Hy1aKkz26HwWpbhztoDV65RZZPK8dK1+rMqul8XQcLO4PYXXOMtNIJE0pObmHzMa+PAKW8AmhqDAq74qTHyG+/ANYY1mukcTXT8cXrg11U4GFz74Movf3g32037ZQ/dANgMmU6Yk6fVVFnpGebYOs9/UN2SkmWvJKsyq4rEPrTiBSBLiREjq/JqDg36VRmMRpPiF9H9g6T38x3/+6W7OcRIpVGMhKiQiHN+omYPJwJpawYK+WsInc+3sp8/ePRh6uz5a/VVEfmgWmbXWQoDE6KVD02zkAxaNntbnPBbdodPVYki/HwQGZOyN/FumP3XHftVz9g0UC3noJciKfCgqJoJnkWclo8tM4QuFkYiAig7NJCLpbbBTubuujlJ4r1RMo7LpDRzkUvJOpedPjGSkrHvRqU4qcmmEgR0cNXwe4677tUDv+4Z7JK6NscckTumUndhB6krDSvSKtXQ0GmEUrQ3VFkoMGCAatFqBSHgLhBGzasw2QBrLuRmtcenGnnxw/O88LW6ZLeWNRTILPPk0cSOegghnmxELC7msoU+FS91iSpLGwt3pYggRIehKnRRMU0tLWT86Bqp0S9MlYw+NCRhhBQjpVffMlyVIzJDFa+wYjJoxUkxDFeVlY6pw094Sg6SVQvIgrjdOPhPjrwg/eOC2jx1Qfr5uETn8V3jkAlDprGVe5YYaDuVWW2i3i37H15s+3FWRwfmfZSTfNeLd5218sp1+/q9W8ZH0WcTZ+3dzffr7Y9oHDpx24tOBvOBu3fNvWnet+/+YGf335Qb8c2BMcjHSbExTsoIPfFcJEic5QtcDgzWZS/zTHRc5cTgBKWhzEtcFxWZ2HZD7DTkWekaXoAIjSk4L8oou/W/7YW/thG6g/q622d5o+Qu8FRoM9OL5NAYPxh2ZdoDUNFYF82c2jc5Io9ms9H3vQCFK/fbr7q/2C33C7QfkaHI1obW9FlKDHc8Dhi/SrLl2V5ZIg6KUSIvnYqf2JiAq0EfP3XCsh/WQb8eZrmX388mB9ntK3e/9PX3jY0eYhtZFVro7yN9cbkVbTo8RBIjBSticvAv7kx2EmffXzO3kLVEeRKhF4UMvZfAPnloZqEFhjQOyYKdYVvBSITcLTnOpLeUfSRDwVYevusa74C/OK0SmJpB3q9tBD6yW6Z0oJCGVWbI0T7Fs7E5iWqa6Rr7RnI3ix4mzq0Umwk0nVmHPcOjNTFeAGBim0jRWrWXoBhx1JwsM/88ijhWasZZwKH8OrwRDq723fV+MfxU2giyDn2XDTvEYKK/Kg+6kVFI69FLYPrBHtIrVs18EdMTGcZh2IOmAbT9BdhqObG0cnMYoN0t17FhmkXAIEqKSEcno4mbDvJeDoYvztwxB/uzDRDuvXUtMW1D5j1H4uhxOxep2TOaMgctco+kVal0CGdq8ehmmI8zl/3xAbIcar5qj1qjyIVNhFJROfgB9wMRUbE46iFOmB/1lCg4GCf5w0eAkSgMaPUpEKNvjHGZMxiXkgmj0cJUCwol0GgWkiKPRvWAMSqDlOKVdgV7/JKj2j0kdzm7S1LyUcGdKjfRVNzuo2GepuA00TRU3XjaDzBtnhr5vIpHVq4CvOZLBBW6yuorlWZ2IYKk5T+yeLV3AJwkE0ZTo0U9peWZd1RuPCTJ6R2AtODp1DobOb2kkKMLEJhEKMCsqCYxRe5Zlavy0YsRzHcLVwBKgNxu0EGF8guoKFDocgnB0/ohp3ylH0rTAAGLYuV0fybyS+JKd4eh0swksm+CxhAihLBIK8+3C7eOi/u90LyRbdg/wNqMZ/7TrX3rjpPW/WoI+yVGf1BztrAdJUs1sEdzypTGsOANNZUYzXar/P8M54frgRmNw90yyYyN0spdz1hjdyZQaIfJITK7CJHPeAkc2CoTtUUP1oqjYGwvucokI4WwJ5SL7SuiG2zo3Eyu7f4LNh9T7z90U+N+6vpelvh1X0Q3WttDU3zZ8REX5OsMVsOPeGXDBzjrHAmHkV77w3d+8/pHt+D91rCKMMrhLO0MRZ+nc1KojB/Dz9EHV1wQHBx7kUzfIIiJXtcLu3dWootyqXfUX/ujVw7G8dpvh9H1kVk44XgTPfvSjNCcN6wh3b3u5VF+PzR7Vv7W+Ad3ik97vuGzsZWamCcQK1SIDjjgKH0b/lP01ilYREDY6BLTCtJIDBhd5uHTT8rMz8E67IVXhr2qz+HGrE4/3v7j196/Gb43rNfGlTlmk86v1/wEzkwOy4G/Gl4P6SYskW1zVjP3PwqdbTd/1bjdNz5ODz4bF6PCt2GUZU9NS8XoLZmZielONl1V9ekLLSjaz0kAjiM65po/rur9yryHAQm0thzn61vGumGsxYV7UGCToeqb9LQCk2GcmcAIlk/9qoyjmBw7NJIE+2QDDqoinkMbEJ4U+acjN/WGkJOXlpGiIVqEyyarI9uxgT+srDTLHgZ+WGRh9dd/ZozesTm9GxZ5ceCW6+kv3GIw4bStdK2X1cnkeir39Mjq5oAfpyinGuGnAmUucsOaqGmYj0K2T3RCOCAdJ7Z+27F0Tg1XQahKJbwAa59pJu2cTqCOT4j8pu9qvaS/SPizc1Kicg0YU3ieXYlPlrNu+vm0wA4r04Z360LgTKO00U72HFfWyalWX1tssxHCwp6LI4SPZpfGCpNxdf+vPqn3srDmAlOOXzGWFYcidpMaPlWNFGYxENmMSD/oG0i6PnuUxTnH+RAxYWEBsYBo2Dy9E8NEFofe9+4cGHcS3+Icn81ZPFbTkrfij6V3He+mAJsckjc2rFe/eWPXfAQjhzI+lrnzfPbSt+NzOrMvqgkq1KuKg9J4mDrsvapGwFyT/sQhY7gWTB34HhfN+saDZHy/PWyIqOYJnW562+duFsvILKdERcYeZ9HIGefr2Ztfe61/c2iENC1oRW4nQkSMYMIPwrgIZwa/67JxVmVJ5rAx5Hyt2rs6+Yvxzo/uPfxkko+xgtq32KVbzs20Gpmz7FEiK1nglmm2/9N49JdR/lHtjNbDalOETkFsrCUcYjRhVLH5AMcM0yqmZo2AK2wUJdF0WNd0OUBe5FhdPIgMUDn21Tn34NS+zcoKG5zbDKlEWbTQPctiZ9aVzdGX2i01ymY68RMjrJ0Rtad9dtvviTPXCaGD6iBskw1FiFBBhLpqw04VSRxOEeMYRYpuSmTN2LBOa9aqTQYyH0y95NGwfaqLCQslomIpQbz8EESRgRihYwHETy069ZNMDjNSObZFt/mfladF7IznuPypAKjQTzyycFWvx8V/FuFdbIA7XQSBVEHUGqaOVhMSqfhXwojQTTiN1fyVNu4same+rl5Pi4GixPoRR704SkYXtz17YBW9nbtR+nHCITulPcFokMGBpSeGyvH5o7Be7n50IHQZS1U5BkCtKS1+7Aro+Fz1F7YdMGSdlaNb4+jDkVGtIdTBhBRiGLqNkIIlHDHpVxZ2GTZM7wO/uhnFVdxDSxvj6FOOUB+KWCKzM4ii4LG8xCsfVtEnWI7oyXl/KIpioHKxKl5QS5TCHIydl2H+eVI+ULyjKvyJcSoYE9GgCARRjfeqATKhiXOQbkfee6b/rmdsI8BMZImIZQJOFEIJUXVEdVRROwkXLowNP7dGnvmz9eQnzu5P6vGnZrnvIjfCnleNgarlXDuWWw/pxP6UGIUv0iS3uEPmI3fyV072i379aL0qB5WVReYjmNBSzinkBtbNYffRZ8cAusX+gfRjYfHJQ+Wj63sCSVkO0hcllgjoaT16GWLNMjSGdilS6q23B3IkFgMebM+AUASpowyh8otS7SesBwPy0DGDLvwRQ3cyHRV/9/Uw/ZP6GAyte9I8JB2ZYEcKj2IF1KuinIwZTU2I0OYv7JSaownSoS0X1XBGmj+aPmW4yZYe2/AQDNFD58msLksylanmAMCMHClBLV1xJLo4YacUv0KBLV/QJGsBOjuPap8Fj+NKUOhq+CfgJJqG9rj4ZxXeNro0HGRt6shfNwF1oI34JHsR7M1Pm0z32lORPPLWYLees6rFS5SPEsMieGLDSw6Ylwgs1vxqc++vUisVPV8xq4aJcez90J5iIb3t7A2SaFB8ZVQkn5TuQeC5PcwCwKCgNtQVQz41Ss2A40X7zv4vizpmMa34n5RdQeHCl8lcdxL2sQyMEbw6uvrtQexNRP08r0MO1GsnK6jzc+gneFVg7NrRZ6kRhRabdDa6TvCsFVbQ5Yg/SlciAsI+gc+pPT9hu+tsXMSZOwvJ4dDIOIqQm1t1+J7nf90z+weGd1BYCVunlonxezbPQBISM8gfVFAuuS05VYcGWjlI7yajP46iX1jBaLBlbK25a76YGKU9nnDPtNuUUlZdhFbQq4bWbi/6eRl9mBu3LTse2HkAVBx5LEo2TFEUQ3+ustAzw8KW6nOSFg4QBIrKO7ulS/WQs8Hsxc5FkErDSn/PkIM6dZiz++xlvbd6hhNpmQUjhfmwTAp2R4knr1NKe7Erd/bQnYIc0OdwZw/C2eWo9A2kOTXnBEPAqkhgVnIpzTEwAfNjVubXLVmPIP21G976JR85+SddCL4Klp0kwlSRRpQbZfZn6hdxlMiRxSNMlXChik1hra7YKc2stNleBI+CU50qFi6q8RB4nrB1R2DbNLLkxClARI1JOR1IHPmiMH4ynDrVyXFWX5fBgFwMZ2EXE7vl6A8XeZo6hcsFJvEv6zrlgjgZaTIWpMFSGXUMssY1HtqCAOay5PNqUG/xii1xj90XRAWMjzNySCkC1/GL9clt1xjJ7pMUu9wGIj2qhUJ1vKgOo8E318N3vN3yIQfK3I4cBZJyPk6QKkfTHMx1IpoyIk/dQsdeGmwi2n8oQTFyoXZKCT21070yTAdnApsimwgbPZiVmLOOw6L3BW/4tmdeKSqHKZTr7pSWIWrz3M0CkiF8Dl0BYRamBtjADbnqx7xVswFX7RheZPcsP0AtvMDa66isI+xmPgGcNBO1xZEWzGhqkBljlNoDZJ1je/xxsf/z0rg98Cevok6F6r1M+TCb7INynlGRDilXqDVHCrBtpUxUkW+nAzwBYC9SEnVOnclOtlJpViSIMXc8Xc2Mq27upOBNdl7ESQfQVFrh73AEvUjYeGxdWmKnUKKmUrrnzK+bS9vVWk/368l+wfjj3Mk5zH/VTajDmWU15BSiyRw0qJUJdUum2lpsRF8gnHU0OegBKdEUv3XcE3ZKzMkhXRbxp4o8BYtChWESBKJgLl0KjgQyJz1MyfxE6H08/ZVoU0da7Z3m/Qz/KnKpGD6R1TcejcBnWOqJWYvijSKRIpESzlVmQ2FhVefUjS687GmGreT4sq6ZTkT2sh/p2cxe3FiGDR+5+gWJgtzaUph3A86dcX+t6urM6pgbwS43/VemOuVaj3rz3fRO6RW9pIzzqvQ8HwUW+IEm7tP9oYkzzCbUcWj2ix3fHLGu4Uge9subgUeEk/p2ZxMQ009xHIsRbK4g/s5wtP6AC5WNBHuS06xO0/2euFoUJiszhANOhlIa6tJ1hLSHIYJ5H0iemHxnH5xdGLHYxGkidlsjbLM3QD5xuTohYw2bA5WZx9U46429V421N1xjC8uXB6iQQQI5kid2oLBlqlgSw/PkjkXRh2DABlhlrW+lO38xqT/x5fob6F/JjchxWo4LMXpOTBnqpwJSx9fksWGnMP5lWrnDkYEIpi6wXS9zq3tm9Iuy+oVn5n2jHnJqQZAkJk4RcYvWh5APwZ+ULrJUWZqB0XNp1FNV+DlFttQkpm6yhOO0M8OI3PHGlzmsAQJRjANbcFGc/SndPrv0LzvejvBSxzUZXey4T6cKZwwc506VTzcyA6Ht/C3BVqNDsTVqwBEOTyMxlVOMlKRqXlXltCyETydiRKKSkAxFHAW7gxVkiAY9SlgknXoqnWJ7arpnSkwNmw7pwn+cv8V56zku5nz4aZGsi2gLmnmdz/8ZhegGInPgh9Kx5G6bTEIUc4mHRSX+duS2rT8PlcbDfPgq5MkwgAyJxuGMltyz4ZQOc7hI9ksuP6kzVg/sj8gNKCIB0poWh8U0BKTpWqYRPcwcLkbhpBAHy7i6gwNf6AOfhZMiPC5fjsSYUtbPxxg7gt3DNPYhDCf1mQ6tq12mDyxdcZNb5nzR2fx6kHupyzmvTpyzAPkxeWi4eaZWjKhHLtYb58gJEA0iq7U5AIfWCjfsyB13WH2grrGcjFbJzgRUH7teeZJ7kf+61f+Cb1ylF6R1mprcxFJYaCKJYjJ6UXLZH3OqLRw2kie28JBU3Y73fjk2bjlbk5vAlBgpxsG4ndjyUFgKOHWABdbTAkl8hjbSEhweXsVxsNfBACkXzOQYVQ9d0YeqHhXRR5P8VlQfgB+ucxblHoyIodIlVko1qQGVZMPWrejUnrTWfUw7vXCfsUQGqWW3luVI7XAXUVH0k/43uOAoAvNyjyGzH4TYKoKByyncFw4Bp6vQiZxDJyvpq1Oneu7h6zR4qb90/fl4TzPnQTKYcVsnQ2v62margVeSDh0mMXRgOyXrHPjcZjXvYdSy/iIcAQlP2C8RFiu/ZpV0EpGEqV/LHOjNx26c+czbkBbVraf99Iw8LcAznmdU3HHZSlOqbtZMdbBTHbZJt9xxaR8bfnLLPjb5yxzhEHXMfn6P2+CQUhQ1JnmwM1m4yBViy8hlDlMTOKIKjk3JMXimqineGk8zWIoym7BdLsrKxIzTiNxky/zpXAunxz0g2EyQFY6bZRmZJ7Xc7Nv0K8b+SSumBlQGL/cOBxiw5O5gFH+G6SsfXMvMxLO4zKVxLamZBjzbv7GY8WSIwMZgAEJtqKG3CeI4nSa602KNKUuiPBrB7nJnHzHBybIkfhHsejxy0WiGbfN+vfFK336NTd0UtSwPTgiLXHWA+S7YZ1GNQ3MLc1lJAj8H/jmgWSTpw88fje9GvQoTFduIMtC0g8XlSkG4KExk1iW/Zc/xzQCoWCktsFYifKAsfM/qgYi8mpRGzOk9n6KS8v5HD4z9FJRwmTSbebQaCGvkoPQJ6RaySzXNf0k6PY3+ov5F2IkNXHglRgvnf8QImVEFpfV6IDYpUDmXk1aCOsxquD2n4r4g5Z52GF9afLKMaPsQBGYxHuhoUsHD3iYcBFEVKo+tejMO1XfdU6WTqslyJo3sK1G0ljCpwU9aXKd/z6Q4fD1CzgCKRPIgAj2BbMUUK81OgLIHJZDrxPxFOn2YUeMlvfBKOlxRCOVVAax3mnDNURFRvcOC0M2Al/xEO0MCJQHGeMUnNZJPTDG6dF2sYFC51qOlzR28NggWvchF7jj8axZEY1Cn0zmzHORVVL1UQ7Ph2Ex2mMSSFkAVDEAxZQPEsolpoTiKg15JYwuDCPwK6obcaHRQN92qU9TqMg+fkvkip7Ex/0VUtVTrC6LkilrKlRxEs1UmQnEAI06oOF+Vf+4BvG1YFwaph3RecVKQ9ErJVUL5I90Gv6jA4dG4avN5CT0aOVJxh70Z7rJly0ed2eGYPBtPnLKw0oJ7eY0riC8gwGLmEHN+OZffLe645jgbptv7foTF5GHpHASJzwl7OzlsrSfCcgtnGXNdzBp7UqEdV3c5/nbT9PfFlrroe7CSDtDWwYiRa/jprSrw3ygHP7P8flROQhfrUT0jXTeGflx95mNyidNnlpX649qNvNd6N39t/db/8WHfuKrKkkvf0BYSk59YUZJDYtKLcHw9rm/rCE/29Lk+ZVKt+RvlPrICDHX7WEtCk8l0fQPFajNAF73v9Mo7TpCEsTfWMMjwWa48lyul7ZqNVyU3sopSaXhiMG903dmIna8m9VfGBpfvcVmyM+DiltpGOR9xEJrbSO/EUCrbfD3X2vXLzbRv3NmwfzyxP/HDLMzt3O/dFjNhMmLZzcUn+5NsFJs1hxCXg28aq6mXogaSoxr/PBHQIaxD+93AgifCMj2gbWO487VHP7p3pRwZb4U+PDZiUxi56qDO+2igGeZQ9lDDvXxnGBpbWIXHIpUu6hm147QeF/sveLK2suSRHwSZZQxNhkZY3ujVX/pMLNBnm1zhpC3HR9zU+QX3XlraPbU9o2jpS4i6p1m0nFlXUITpMLeZ18MPS/hm0upXPVSb2Zex11C8JruZ1yUKkdGLa2OKmFO9MIhx+LUCFmHdaBC1Lniao2ozeXaetiBdunCu7HTLelb5NOmfw4lSHWjq2K3FCXBKvovcCUlO9UmQu8gtkwnpFkZbGE4lFkZeBV5GDLQDXzgc1T+bBWRuIjLJf3zX6l3NizTsM70j46kM363SkWuGbCPRPaQzMLdiR3vg919b91/lEFjK6GBpXqTcRVewtUW0lpECRQs71cVEXbejo2cGjybyHugZtkO5mQfT84ZzYD6yr9iDa320usUsu5xUZmlItEMLT1S/wRXUD8qS+/W9cbQPA4vEDKOdcmfe83JyIVFlR4+qepetaMtyUadL2e/TvQENakggLc9rtxEvVzueIW7bdqzt3HYxUI0UEjtw4bjYf+W9LdkbpTk55SBstKAQE2IOhkd89vhldGlILtEQOCvUIcF7vDurwo7Lp22ANsJ8SPtpeQ/NqZ1OgnlbnOacCNf7dISw2bCkm+Z3yGE0IUp9UvNPjEdIDHuB9DhGph6cmpuhUpqdUoBImU34dJaX8bzotyR4M9G6mTOd8FMyMzo/BwwBUz0R3xJPTjs2QinIIO9k1SKK6rQ5677S4mHGo7/OP9vkT+mZKe6xr93igKr7ir+bXO8XtBH41PpXnsuOAbr01KllDusIBj2X6hZOebe+9ycH5gG2jiQKyl41RiatUZFFrtlDbJJXXA6HKXVE22JRvX7NWP92ULoojmWuaWO5SizsCKOF5PewmGlxl+Bvt6PnFbcdF3JaEEV9LHNWTsB1NoW/t/YwfN2yb2IlivOWslUqh5iRlmsN7k4tGTgMNK5/4ETd+NMiv49YD0tO8KglhhOmEVvPNODZ/G2HPCp9ZupF9530DkwejCLMYMbxxxZ+wMZOFU0o8F/OdjxDFII38ECG2N6w7R6dW0xImE4cjDc+2M5pRwz+IdyjqWGnMTHBKYhNN1uPmEUanB+29RnCddGzmunWYHDh75lXo2mDpyunzaT16PyghsLoTPVvRP9QfVBEgRPawjd0f8dBQSr9gw/j177qtGydiekp6UbCTkmgcpqnaZgqtabr5t9yPNrT/fTEfrJqsyWTlnWTQ4XcfjNl8jg/DVSYpNEVES4QzAC3pJFqaPifGIyLn1BXsH1efIBXED4NBpCicJUIHVyMDLLRZHphOrRuu/f+8J5d9rHdzJV4aE9zCy932XBal6HBiURKtO2A2zQyLJ6vTcJvDdzrdWqOWX4EXuhy9XPOTSkyWJ4GtguRlov9QAz1xd5pCSJgneQWQufNwn2Nu1mQRWCUCbOdjSaWwMy0Kkqkom/UOhT007tp+sCpE27Wg45wwBN9uBY/LUF6tpUW+ZpyaJF56PWNw+wu9yjnSBnhnMSeqHBOosDCfIFNBE5Bqs3HZwvVJcod3ppdY3jrwPYTs/Dfroy3UnWxGK2K3oy0I0dRYJTr9cq4lsh6nRC6hPp0iWp6JqA2ve1M8jqTTFo2qPWcNludkGc7tnUOmkkQcZQa1fr1tJkvjA95lp8MTfKWm9st4UtknaPJhmak9FPnQHhLUc6Qi+qCN59tK5cSAEV/TAy1iwVCYaeU9VFVCyoihxOZSKaum+0Jfi3dmX+ekORUn6bgzP49VSbzkcluPnAV8uJhAJmKUqZBiwtNdLYuzMBaw/Tgwz8cGbddt96wTb+UmUA2sOqce0kqZlgZKAUXaGDmuSy9iXE9vvrBermW7qc7jBSZgYWTgMdQ9rvPkKycewNwbx5kEyebnezfOFgJixDCrX8xNLZZhU2KIrOwg4BNGM7iyf1/ysiTsswAsIfjaMcbf5pamJKyB5A5VnBsnMoVQ+foAEYqohyCeJrFK4Nq5CV3S4OLIu1Qzfs8IIFCuJ0ArX6onvAC5wjmhS6K0wwsOnhyJnJk7F39Vq/u78rYIFwt14URlSt5THMQOW/Jpgr16TDNF7p2Zw7cBeKlZBBPe/+T1bObQ3cs4Wcs8YCR0rSu0Q8ncNHvuNLbyKzGWj8eDjsg9xKhlLAg3Jsqo1HPzwxOPTRbdkpoCyNYIX5u1NIXF/6Og+jx4boISpTfNHdGgiIlitAxONB7EC4Q0OXchrKedYS9EAQuYjhm2mthnMeDuHQM3b7zz+MymI+pQ+bjq/odqfJ8nFXIJcUAja57ZsZZfWwI0NU5dygDmMFRFVnpf74+/tOkjrZ9K+DsnhUE1LRki4NlEVfGVUmZRrL55wzQqq+qA+MDr/+ul9rjNJPD4Ti5yUTb8GSYXVqnsSQTIjjiQLyVpG7kXqn7r/StME/zCCtWtpjqAjmgEq0jooqj0pJWVPDFmR8H5f3KrxyXvVMxHYZ0ilOd7UGE85h04KQ0bDzFppQDEI6V++ldq3ro1bEr1vAlkgx9egKbfKJACoPdJnvpPb5o5csF8UVpp8ODrQ8C0zoInaBiX5vZwsYIAsJdFw7bcMbr7weMAsaC7kXHUdoXGKlH9aUQaS/6Pev6t2NSF3SGzSADBaeGlS6FYS+MlLR4Q/WWp34asCaf6Qu8keJSBHbFl4s4h9ODlCokRhWtx6dwUcrBxxBTl6s/SRaKHglYc+60+Ne5karNfJoDVEyMqwikSjMLSEUuxcYkXKDsWop0SnvYDMHphK1Hv06rLnVr/Xggo93X1j8t/Vn9bQua8RxX3mOjzdT3uHxW4ZcCA7QmLQ6oXHqPnxPcGMKWno1lBxut2uTqeGvvLwzzw5gNb+w3yeio3dJNxHQT/Bb8ACOJXe+ak2IWppuMazvbX+/3b/ipEYudX4RSynjhpcDGCUBi0gCDATjuq8EYIycr837af3PAXckirVMXHQo3BVdk1dgHk6hCNORHtlXJyb8yz/P0I9PnxkAjLzjgyZTC1TdcJJzH06JFl+BZO036dCmVA4HDFlbmsb83DpOHvjmBR4YPkI6hdM+RmylShg30J73T5lnX6Pzzd4qgNhKmrayyB6+79dsYP8lEkKfbHayyt21jATWPzWjzvQ14KRxw6uGmASbu+UP+XEo8jyXCwoppFHeRvjDa0we2RcjuHvRzOoznPcuXRZ5ttuRDXUQLUxEUjVC+NvkfaglI9pp/akmJfu0O++VheGxMLXnqRlM7kYIEXa6we1OcSBVEtCZP7YR8gi7l2sp2c5v3C1IWufmY5xPSwnJycTpaNw4h3deV/9JjQG3ccKUcCwdZYTA26PycMfPM2qt7ab++b336k/sm9+MGXhblloPcIhemoSiYax0kVRxSShnUtueEu9U9960r6ze30EYXFgLH+TCxlnm5HfUQuToiKRGcl7kZG5gxuN43CgwJVJ6YFvdgNbnbTrAnJsLFqavsZPqE12Q1Ba+Z3K97BqansDMVo5skJ70srywS6J4mffOk6cwRp0mcgIfVKxhk+OZqwsLRKcJsZJcjMXZKoYgOiCPjHYGlmvTVUvPMwbk0GQrGpq5OGSEIn+ScwdargbGtrgjPClYOsnBm/Q/elMEe0YfD9hjSWeVoZfn0kjm5hIgq65rLTo9yzwgRyvrEIYKFnsF/yB6ZPAUS1Y5tIzRQKQh1Mg0tW7K88lWPyYYzkMZrclB8DPemk606uqlznLauZMvik69HGZ0WspbNakMaz7SbNWBMP3OSWHlFZUrkTdM9BbQ0Ga2iogG06klEoEU0pGAVJoqDEDy1aJl9AkiZzlzDgJ9aCPGX6iqnYFBzAXyPON2nNQT6VYvThU+SiUO+qAJlwSUQ6qxRK0XJVOBlU3JKFtU3whUu+SbYE6eGjTCMzZuqEeA0ZEgHi4Cr8R3908J2NFhBNhOkX1VBgiLV9O0cpU2eEqVBzrRBhf4vdHItybTNmjg6puB81k1zmw1fvT8OA/AcIE91B+m9XGkrM5QQ1GNT6r6sG0f7eR421rHplvpAP9EW4uSUiRpkavRV3mTIVXZGTzqqh7E45CNFjRrNre1bW+m1+Idu/rrjfr/O/ftenjuxX/dgGsiJXS1OfdGRRD6FQHcre9249pf+3127c6t27vSG/e2xEyfWPbfsAx8DnLogrloK1lNGkpzRmy4x8eRVVcKFd2Iu6Yycb4WwUONyFNSBnwTjtNz4tme88TE0SZqmRCGfa2PEvDVtO8g44SVDUS4KdiJ4kzBd84ov5//8E2Q8MbjCNCamWJl/mXcxVYVCmiQ4JyckQjUEwDrpWpY+9Lh52Y09u5dE6cEvH25t3zSsxO45qR27yF/CiOuBQrZr4SXPD8xzwsbyxahhSDMzUVTseE+q4bWeM04+v/79Xu59au5fN3pRnWcyxcS2rCXqcS9fk/yDOw//pnft/w39/Si+VtejQVD7kXvgcBg0n84jy8NxCWMeMwldqprQ/E0PWA5sRjhuubhPEqvNXKgq/EynLClYTTDzxauYcsxYPIrl0gmpmhraQs6EPZJdB/6wHdf4+QwjKpSDT8LcCCkHbkHK1KNf26euVRcwHcJTB85/WiakzWTlWWHgUmBABogc7kefB7uhxc5fHVSfln17rbSSmk2qxsnOoPbKmBODCqO63LJd943vbMZhijjHrLDNhNRLHIOXiUj7L9cTbAC5nMNiC8/MMWbdX19jSTpfiwYhoEWtG0UKD2rguXYn2JnX8Ymj6c988vMM0aCKRoPUjPkOyukYRViN8aLPhclJUwwl5G7f7PXMwcAY6FY+TyAvXFlKjltkVb929uP46l8LjKuWVQwtd2wU7bgQqLu4ev1L61Ed104vjtCgQiLJDVEON3NeuNo9G4DOl5cSNmDR75R1Y4g+wShtxv8py1om+nE5K+0zoa04tbUg4xjSRAA/LQSET+LX9shG0qZkpTqw+YpYtUPTpP4qR/5Om1BU3XAa4K7qEiHyQWKyqFbAEFcJDnhqKtNWgWg6fhuiM1z41JEXfjrXwIWdSpGDcwVjVdjlwsCUQ/JqLzVSOnz0syL6cWkkfumgrZy2tTky9uCl3MiMBlUvcL9dG1/IojpyS8MzBm38ZcZOG/nieNi2g1CJoU5Rh0q8Lc+4IpI2XZ2ZwU4gJEgHMtTkZhbDS+/vlpFa+qlaXQQ8KAgzpccjtA+ZqV0HVeqbD9isRK0aIzGl2vP1bO4WjKtqLAa0usT24jTQOUAy3ZqSomjhQREgc938TdO4glpUz/TGRn6El+qCtPG+PQkntbdmlFzhCA8Fi2qz6duN8wL7pxPxuVSRPrrw9zSFtyO89cznxpDWo1p72ud8zCcLAYntDy6o9U9zE4sDrPU0OzUNbI7yta942GljEMNs0o1l+2z6ky1A1VDUURMqTcV0lfXOVyORUlxaiwrt4ak9FIEHDg94xeoBazW1hm6R0wLThrS46np0tDZPnW2bduVZYeByYGC68MAGZWbGHNrv720kPy7Lj3LHDFJ9gVJTExl2elDgwUIn1zxbnm9sjra+bab9kVFzVW+jL0GE7tBoMrgMf2QvL0f7HiWpMnGi4AaXynAxjmjHAH5bfV0VoSSQDwkXe78OCuaVd3BvbKboJE9r2y70pgHP568YIGXfV+AS+3+lY6ZB9oggdh5zDiaawgtXnDdA454dXalUW4XnA/FzK1VrjFA8yLK9ukyr/hcL+xtJyUELWE82bBtRwAII6yu71mt1ZJQ9Zw3DUzlahHL79suCSjVFL0DLJQhiMOMuCKCa1WiB0XRHrCRMVQS4PF3iyAoIgwrNukdLoUgloeqnPylzmpKZfhWGB81OYnDvFZ1ccWtqrdz4UckSqZTi6FS4ED6Q0zwVkuSsskSSWUGfVSGBooYio8JJeVM3HzL90vztYl77uyEzkVevKwxcZAzU2HKWk7f1wBqWn9s7P444+h3YIpLRTk8HbQ83rdBmainK1Mx6Xyn77xmjkpvpkjbCNN0l+8uBdhTIHAueoizD3L/h1HZ8QqW0LiaVRDvf4n6ZzM5GeVD1G7IG8bsYsmHYAggaFUF8hvFRKJ1VePmegakL+MTKyvMqM8w0d9IszAx06pSD9r6UrtnR5owBC4wDb/LKr5v51ZzbkpDb2txWqfZ8BZ9z+LGC/a1vBHvmQ9fmQpkS3TtWFVjZeUnQ+FT1pHcudMfhju688Hdc/CXDNQxLRn4W0YQpUT/RNtCSHvWkLPqc6HcLTbGwaMJrCwAcDi9tj2TAUxG4KDogcaBTmqMipYSrcxM6nPwwnCfhKjMdoc1He0iiy+KpSZ4QSsV6CnvHClQyqFAV5ke2XQ2PNmEL6oxH56MDu/6ZaOf4CsYW/s4RhFVRlxYDHD5zbQ/FjoJTS4mb/LTKfs6QXdcVooeL/Hbq5I3zTQMjScem3zc28m1ulbkySsv9aZRL+Re6QTVZ/dlys3FhUfur2O4ci9WljmvpDGEisBJpO6nY93GqvchMuFensckpEvaL4YQAyxlDLKvyH9qZy1+EJvuWWQxCc8O2sNrgILgi7CCPNNR62XkxanCeUDQsAbMAyvjGl0f9XwFZCOtc28mtylfLb7VQP9IvgFAOXGx+wy3Xd7m/D5NUpFBTyVPxGOdZ86cs67LWk1H8lDU/h+SKOgmbpcgRYxm/7PdpERQA6Dpo8iRmAMVHXDFHLuZ45RCSbMWJIRTs2KhPiKrl9gP8RKiJoDxKIqUjENitGojiKLMOgYvScjKKIgQuSiYGpR2v+S2NVRWo2LRuRiv/CgMvKgYYCQWbP3XkjJkx3Hv93T+a1Fh4Vk7NB+LXDJUMRY7jYjjdzjkUZtS+9VZ59QP0bBvs6EHUvFyeP9QOyOEpi6JEShdsYSuiSuqYNVi3EhoJOgQpN9gQEgJFw4LCbuLUvluG+uvzpSCq1RrAIXq6UTi6aVqYbs9sq0DBy7m/Zu6uW7tDaw8NKhTPN3yj5xzqVh+peBcJL7Zfo07mJt+/9tuFdaN085CrJ2GXTW62PrS52qBh2iXMxPKDt61X3mdrkPMLIabu5dIyrZ4y3Z95gVF3Bt2Fbqp7qn6eA7K6BXX951D0Y4vojmGJLKRGWCGdUBikqTxJhzThUxkV1RGnorGAwrE3143TdHQVp5GlqwwlpkSXIUAcHU37NZ+kM5l5TuGSJDqtTtI+Z+LPvLZJWs9MhOfx2q6GW8/zgGJV5mXAAGsVwHQ8p0oLrHQnTswhfi8ORj+PotsjVQMZULp761HJKxLmNCmCwK3TvCyHeRANvjV0vCkPwVBqhrvK4PI8IDWO7cq1v7YV9gPTp+4YLJ8yiULM5uYLLhRh3pRflY5jjJAg1BIUCdpA3Fx8FXwOjy5FMjHSwLpUrvqBFtPmJftUohv2WWX8Mnv00907f36//Pkk3S3tPPDrwzME5wDnBSyiRV1vbXPj163cTe0iwPAFxlsNOVkw27nb3p6WjrFevPqlbTTmXPZ8cXJbuO4Dz60nnBuGRV9S5hw1qWokgcp2Jm7RegJAbeRDjx5I82nUEqebp/YzjQsIbXxeVYjoYuOUv/mo/HI9devaUuVKTpWPDJjms/54HDg6Ure+01xPTtHEaivSdqZpqc1ft2HJZTNOrPpRFf4DG9vz4kfbCe1HeULP4Zxc7IbjxR0tv1BGcqgLhk94Eh0CR+mNFB26QHwxk9A4Rd5EI5R3OjPx9ccmV7GcQJhGpRSmab+IrwQStYLgo3xX7xJ2xB2ekm45MMmQnFoQjsQ/5PlUmUe+LX5pNkN18RrPPNvcFfyCCp16ujDSby3pt9u1kMKwkvrpyk0TzhTOLRJtiC60fV15XkgMICSmXhknuRzbyFhK93IzrQf1MLox/u8M/79OUaF1fDueHPTWNqqEm309w/aNYs+jpyAuLlI27m1nKxuM4//o7vp/+6bZ76XsIdXYMXI8tpYQ8XAvbJ0wBNp+eWEx6RlVXhf5wHhoP3z3rXdhjjwfI6XsecEmCjXAHvohbZVdPRO7jehH+Uh5HgzLT/J+tT4xdyWmjidzy2Iacp5IKNi7Aw6Tq5qlWNQa+CtHFms/vpX0jPXAXMu5T5G6WKOXcAXmBvFkrxcO7KJ65NlbVZa5rCsOfPe//PPU3fCM7cqOZa8EcaU7tKuMaaqhwMwSneZdy8NR+OHw997Z+7NH3r/ZCMuNUTi2vUdetAnamaTaiUCa4YVzh5PHC1e1ZSvUTsnLJnhcvONGY9vtKLFbKNO2nrk5jMuijufMT3dBOIa2L+r4R3kImJ+GWdIA6iK6zyZ8GqszCh5XpfP9PgMzr1SNZ+s0ODP1PV8YV6W9sBigX2myePcPdpxqI0+L3tCv0gnmMalzkY3E5DfcvhpHcvLLsbzh8ObN68EXnEm5h056WPcrNBwt7IXnGaeZWjnNxcaZLNZEqIadd7klhuEm8DbkTPxNiKoF1RcL6TgUPPPSjBOuoBE1hWMWKirR6nERMVDkteNzeimwizA/2HXt9QdpcuU3yo3tDdfvIdCjfVmUy+patXfbxGpG07IAqZdp7vfMK1WWvvsb19NNzMmWQZKbY263lD4k7PUL3TdeCl5KOsAi94z69QxONQuln/QpfrpL6Sdw4dHQsegT3XOEVUd/x8FJQpwovEMF8YhqQ/PaTcJXXpvn9INmpFgriIj+4jkNbQuXfqV+eFrH10WtehjWJl95VhhYEgO696g72qzRDzLjU+7n9QqM5XClDOOIA27IYhxXrkdmnMvNxxwMyWu79vu98K9Z0XDEbkiv6mFyPbdhozIyVEXr5wxtWBKoc4qGpWtk1IjH+2suT+ROUnBHWNuFQxM0CAgSC7ldYsxNbXrN02irgy6Rl6/chcdAwdELF5mk6Rf9oLYmaVG8Yq39LkuIdRtrpnRvZgs2c5mnWCIcXbELjzRt5dQ5sNIN07GdX/Hs940oOdiow36+zVJC42Au7YVHzWkAvNBjW9O1+edpKvg849IFNcXhKYS447qvWiOKas6Io9pXPsFdterhdN0ZFSjdim2fbsvRpbRtDARkRSAxeQgjpVwb/1Qe3S46Cf5TpV0ysgZPw0wSzYlSAe1pn0vmtoq2wsBjMcCwoNcpBqIa3r766A8eGeVGHhdYn+JaOoyjs4LX7IVoGsB7sHVXZEYaybnbb1TDtz2bq1MSzD5iUADRFBcp64Gvn4o7eSwQzymCjGK0CKyitxmYTgoTBdmR7bqjTvCjHBIslYTTcFYyxv4QhAWcNCn4NJf0aEart4uBAc7oMRnYbEgbfi+8ObZ3Xv2eX31zXFd0eLasa8exLBdlfWnutvUXwO5h7LQ2g0G9/nDzu2YUPnRrf6AVpxbEftGC2nn2IlZMT6Xzz4sI6/EwaXaK709MR+FToF4QJrJqyZNmp5SkXcpuGSk4JCFwymkP60b9KtFw6k0vGYWpar+dxtMWQSLt74acJqfFcds88QjInSq0n3TR3U+L81qFrjBwCgzowSKEcb28vvOTifGzNCw3bQtN7AJWwTadoqrysiizHP0hWa+jdApHZVf1tWj7awN7Kx9XBxyxxfIjzBS99xSFP9+oJff7ov9V9beC2s1qmyNv0Byt6nkIWTviOBaHyMHhgmgkGhFmHGdjHqZZ+S4wBtDNLzPU/sZxnjwq6/5Xkxu/kRTrrOBZ5nPyEdmjzD/s4UrTs5Q42qPb/mBgKcSKsSM/MqPNXymv/Kq3a47i+uAppr4LjLU50MTmUOvmvr7gAW3FZzxnWO2222mGhlcdQoltKZra8pROu+hHTFYErAq06SmxgKYSQ+81L9yyRyRvnS6ifeIhmlYvZ0OQaI2qeZtgzkOS41wblwit/6w8Os825/aV87VwkPrXYFJdX3jacslwoTttPqv4LyoGtOkQOIUgWrv7gwcGV7pWYe7kbHvV8BhcM2bJpSmiISQjlnvexPRIXI3dt9zgnTJaP8iwdJg6DruDXOt7SRwsoYwLIzXWPSbFysHcotiyA3xNYTr1EMIj4nIMTMF8GW6J6A7+Ed0auYhm5S4TBmoasOAMXp148b3h/bf/ztB49SG7JKwQ6Orojhhq5VDLTQCigd6dOBgF7WrBjR0jMJPxfq83sG8kr//d7YM3d/bdhzLVqJ3is58qLhKa9Vx8kSDqwEIjLXSdKEt5F06cQjSesdNsE4VoiVT7qovWTypIhKaaSIkW/XRCtcQ9PG4N9LpewmcpTqv7qv1NyDSmLqvLflF0l/16xvhYNvsu8PN+Ra8lWGdHpebj6JBly1vFW2HgKAbY28KN3VFo9bMPLePHkzoyMehYGNz5y6Rjma7nitYUp0XUYp1r3tDORVC1Xvlf9Z3Xy9xKvSr0674cGLssTia8qjALo2/XNpXJhIVCJ4zQWWmEJmlCS5hyrdLOokL2+ODGmj1NXWcd7bLU/yWFE5tbLguD3KvWzavfrZ3vYEOq8DEFL/q3dAHEU3RitrPZ6qPFVYdvVvFHmGwsHyKmxegpEkq4M+NbyfW/7TivKmmlthbwQiO4kUtdzDo2HMbcn2cE7TOagOfJyUxBun5USu8H6CfEvP219SVh6z/Zo2PqJ8yHjszrDOfEyKD0E7IiCe64CO2n1nNczNOG6wx5th5y6L4Cdvt62sx1fJ1zN9sny2eV6sXDgCxpTDP2YrtyB8nGrT/6BDPZHOPjcpXKCqIklusJLM55iKEDtMwxgwAT4mCv08qNd/qD10NMG3qm71vKyo7wKMJ2XHgnqk5sXNaqphra9mwKOGHICHfVOhHHyeligouMKRZNRj7j0fwjZOdS1Lqtz0vkOUL2zczHJFQW+hv+e7+zaW6Nqyqgp8sygKaUs5ksHmzbc9nOnmqZzExr0tC0e4kJkY3QONgtcnvfv33tt69svXm9RevM7NOGvxgesS/VGj5pZ5cW0dqjTVAJ0RB8HQ4mULwQC9pMUpsJcbr++SQyRNXU2EbTr3KZ4tG0OkIrnOkCo7JV8BwO9wZUxU3PF0vIYV1mClocW9V9FkgIhuzASQoBW3m0VlOF/qlK0j61B7Lc5C8kGxLFm5hNVqdL2QUEyc13/Ycta/GI7oKUIUtg9QHTafKXFLLDIAVL1entHNQmiFOBElaj0QGEYs9f5LH85FYbWXSoUgjAyrrkM+ckwiJOq0WwpNU4ESAEtLk8JIDSF4YLrAudrH5EmKcz17UmhJt0FL8pqZRdeGVxj3C1FNaS56ZS0hKM+sXwaFwdVq2t4wzeF8K2CnzhMIDMReokU7+MJT2GGW3b1aAqK8cbZnfHo/8nGvz2a0HwIAt2fQwW5RPHdIgvGlFom1teMh4F4Zt7+UfD69nwb4Tpp2n18z2zF+zUe/1iwBCUESnDT6Q3Qif4f9yweE4YDiojdy3nKnc9TyxzWMS1j40sbhpkaClQBeYObCm6Y04KJ2nurJujvlcPSivO3cwu9VWGUyrXSbLynj8GVE+TdvMqNxGJk2lkmZ1Owp4Dt/8wGX9p9O6H6U/zb91++x+t1e9yAQB7u55VDS0DVSfIpJpZRL9Ek9NuF2hro1grVNiNtMYGSOB53BY92a56D7f+mdn7rzY+/ujRwX1307rat+o8exgzdoJtf/IAZTuLNYrcQWQhEC2sQgaI2hBss74sntN1dz23zddNo3s+/MUO0WwTdYQuSpcTIiwesQzLN14VsZx/arSANO14nXoX/4U/sBXb0bAL9DuVheYbdHKdZ/fZgnckcI5+H9em3VTL+E/IZ3Gtjg/VxVFHonSL1im6Id1Cu/5unJV/hYHlMdCOKZKkJcrmHGSKUDoffRKbn2SWM0zrlLWZhfFdWYQqDgmz2ly60u9xwVvP6yWjGOuPV9/fTobjvMx61YB+2x4Z0ZDQVy9id2V3Dwucsr5WhAzuklntyJ7dEUQ2kwcrpeli6SJW6gjIL+Ovc3a4AABAAElEQVRL2ygj+5FlRc4oZzEwGA4jTKXt7Fz31n6R/Xz4FefL372x9U6fli9S7mFkqy59emSRG9NQ8F+ka99z1zdCP8+ySVyaV0J/20kf2QO36NWRNT4o9tE1ZDxxr7ZTihU3XAu2fr34z+YeytMC2tRzOjFfumqftr4L47NG0yw6hIcug54mlBXyI0yMWtyCli5mtJ8nynu4KZ+APKfxt4zDNOOmWMXzC+tO5nphSBHkoS7ma5aMsqiWYiUJKtp4pGz9Kh5h7BSFlHAKbLI+uy6rM2+z7XqO/3QIRjc+IPIKlNSIVXz7KiPzSDx5oTo6TNeKSYvpkMD5mG3S4z4eA02bbuV58TFwhOmxjcRO2OpgQV99lk/+NO69PjCucC0uh8RVP8MeAptbRWYhnULO69RwVXnK7FEYXx+4n+9Hfz7arm9M7LHuuHSwtlvSCacU4KJgFQukVN/1mRQUc6SkdBCq4+GjNqzvsBYBEyY8FyMUfeXj46++PD8MsCwIbTOqhmbOLXlJUtiuFxh9jMuO39l5+2+90vv+Rn19r0D/j5uEWCw89RkCIchChs1ka++V/2RYvpP/4n9Kq58MNpnGiqQsgijndr/SYixxErQ08iIVEyKyOy5YEmo/nbOeH9ZOUbKa1R8XX2RuDDJlPkQObkx/j0v38nzHyp1UFoZGC6XoRrh2zsbT+gmH/EBbeR73U2cnmq8SUxm94Yl0Sq+b5TKZKVXWZenSpVThseSpOLBDT/sqQVPXAKZXlvPPabT5vy171HqIg3+hm0++fEjbQdv6zqdVaJdgBqk82z39+airkBUGlsOAcBWumxlR5WSh0wvHm5MPy/xn0dBeYzLi4Dd7W3Q1DvSRHyqJZVGYKKdnec8d1MXIuHKw+a1BOcjsiqtWZGgwPqZDdjkIzj0WR4Wx1e776HixwFNqA8yF7aXNAs/RGsjN6lQeYxFMgGx3QrLkJOC5A74qcAkMmJVfXmOtb3iZHXD3j2VVfdPrZV7x+u/54a/ZxtWorvZLI/VddeyuyNtMn6Dj0g2Y3aTPm4aXFJP8kf09671/5g3+/u1Hw9tpVqPvPiivhPkGdyB6BUXCv+kZ7nCmUqOmheKie9qpallAm9l32egvRTzhi+g5HAkWmb/s8fFUHo2thri0VAZuVJ0rlUlfc6Zq9q/QY5r5wcM6YmBZ5S6SGhVfcQt8kr1lVRA3g+kS0SLiR9fXXAV73NqMgn5tAWg9NM8T9FedpE2IR7vjGnv6/XR/heNUK3edrAVVvzaYnf7hqx6CuqbyqhjK40Baha8wcDIG4BLoS9g0F0OFpdmz1u398O6Pdq37A9gLlBZFKzdn/IkZQ9bW/LCXIJewWE5WTjJr1/qCs/XltQPrkd6gb6VQ0z574XiO0hYjCE7YmIlapA47P6iEOJW5yKWm+Gw904DV3+eJgUPWxIlQFrH2K+Q/a2Hw5mhU7vj3rv5t7+ZvBcYb3F08GicppqYqa8JxCqOWYxOai2qX68vXAyqtZxlysIwstNaQ8Zpv5q/8U3vr9/fi9+47gVePc7dw++XALXtmzm20mNdAXLVYyXX5op9XzOX6vXAH4IapvPE0r88L6gtQ7gyrLmyRojMgiU9ylEW4m1lANR8AmVY/ZZVGiZp0CPHbn3AS0gvlia40P5qqeSVjVQq5UyiFUHK3u2t/GzL7qhaOmqBr+Oj1ZN6wY5opU89Z6Ofeqc5cWBOga6pf2sljSY9GAmnx4FTFG56vW2Lrp4IIpsm8Zafw66JXzxUGToeBdthw53GWYRHAN90kTwoTQ5Ze/Muq/FOGpVt7oaic6wErEmgmgKqIc9vzjbx0bUxRlUY/HX5rePDqg9MB8Pxio3rOdGb2fKRLMpSUZr1Izxc4Pb6IIdJ3eEo8HJ1BzQEatSD6Kui5YeCw+exqx7Lrwl3bzbx7cVS8kmx/rx78w9TcjEs7wsC55/ZdtmjlXkWYKqUO2DTmYSbL16Olz0bVt5DiBkaW2Ahzb/zW9pf+02vZ7+yUN+6NvM/28wdIeV3Dr3MrQxhmX1Ze6qn0pWbUejpYfvGHU4fkwtDortYwKbLFpr1yJOEQK7pv8YRrUaEKS6LaNHWHvmmI+svSD6dyRfIl/L6ovAr/5Or88QtR00yVFI7ECloupZAMNgMeWAo9nvVR+R0p9Clfnj5DqZFiGTWCQLFsMnd2GaQIpRYmKJVPQsWZA4gptRZh3mJ3LGzH42dxRqvQFw8D0o8aB28Q1oGZIhmuEith1PXitdEP8/5XImdtKIaXykQs7/BZulzpotNIF6oL23YDxiAT0uu93l93qv9V7YVNs72ofy2hVpAst5kUxMa7qt4igIVUiVScQ/LUvMSwo6/Hoxp/i1Kswp43BmofQ/Z+YHjjYN9+I37rb9pb3w2N1/erjD6beWYo3TZ3yyKRtbsRqRlDGpq9ls6wWKoaQrmFcItAgQFR22GSp543tth5GffM1/N3/rOy/KJ96y/Gj340zh5Va9W254ToHNZlhpUqyhDBsBR+adxx081sBRgnMlRW7ngMtNjRFllA10z/01O+ZCB8jYj4uh787V7ejEdSqGmeJz1Mvx7XzXS4sBSKF5HYHTffiDpkPryTaIFXw7Pgw1kHSZU7K92ZcmeAP20tzhrYVX4vAgbakeVzs6vpVFnpBm7p5Zz+75vD9GPz3u17xWjM/jmqINI/6aDCRJmmO0SWVYsNHtuAA2Mm8cZXv7Oh9/h47fbeC9VX9XKFp1zqLBc2C4eopzSZDVuMHG1eNdVJNVsLdt0KHo27envOGGDeKJCkVn422tu8Pvnqf+Bu/T2reOVhRPPWa5jZxOKqGEpLAqvesCy7sPbb1pyZyJapiVr0inBTOpWzQS/pmaWT20kZZVcfGltRmdn275Zv/ONX3v97b/XfDCY1NtssH3u4qRwmlT51TK9TXy/iozGApEFrJ622FhqblUz8R6FXUzv2UImgXfdzM8OBxikHoPmMhnx0s1IR2iO13Uzwt3ahmgz5o/g5Ha78DQOjC9JfhQg0Do/4j6MFxxKJjvBjmpX8bboUxUxLQKNCqt+s3hD/iGxceCI6kGG403gtx6pzUOFKcqLyaeoggB56pTgpUzsJ55UGovApaYaAF6LSIcw8dJ3FMaWLX+xJSfYimwE64KGm4lS9pn8lZyLrAiRwzmkS2X5qPdIfVDoJ6aRDAEaIzlNHbl7VqSApTpUiWNEyI2UMd65YdhUOMwVjxG+KQbuVcqmG2NOSdE2VVG01kglumkm+a/mdxMcdgiSNs8CJmTDl+NZAviDWKugFx0AzJDjDgWBJuir7IkLYfY6Ls2jmkNH/8Kb7nw+T4mPHu84KOjUi2+o7SVI7MSYNoWYskiwHOQ1dNyd18B9bt/7HnRu7b2KAac9+FDqBEVlB6BVy/O1CODVkMFXdt/3EuPqpITai1gpz3y0HZXBglaI6046gFmIwkRuFa/aq/SrgChknzpiPqyfc62izXXmWxADmOiwX80wcfePkdiENJIJFy05dLkgkxMk9vwrZuo39qAyN/sNrO+ufB38nuv4P1o2vlmm6a03M0O8ZdWq6rpoKUtNXphAq7HxsLAnGY6NZ5kjRfCK6oblpTJg9Kmwu7Jhl8NZe73X77V9L7v/L8aN/bni/fO16/v794UfczuSoyyxJU6LFh146Aq3UKTGx71BDjJUISZcas26pXU3bmbDwEJkPDC65j/wcXTvLH1smYB377aX7IDN19ydCExGLL5BGzmO2M8cL4uYjPBadM20hXYnij7aP7lWPzepMIgAArpvVya/dmEv6hZE6UsLhq8xvqjHarObr3oZoT/vaJll5VhhYBgO659ATRTBc5Xs/eBDUVwzjgO0Pq3Ids6htOck97f+qazZj0wxv9NffC5NwzLrfz/0yL5kC82wxQ78MMM88jlpUzJCo1dh55mhfooBpB5Oofg/23szTrMoKq0QlCRU/zkk45mDPxbhAMkysdGf94W4/qifexmfh3Td//PY/2HjvH33dfbufpAescB2vR89dotgzjiKyMNPYrENMjhR5bN7s3/idL3/ln3x58FvlT1/9YS/21o2twFor6zDn7mwstwUWm+wGvKFjB3ZgcCQxcYw8tI21wBkCXLdz4oedOmdGChjELtshnuaw2m25w2hT35G004XLyUmmSZf6S1bdIvDPhCyVy1lHEv5FnDAytJromCOZUiadtLSGb7I+ELor5BL7BV2GwJ4ieZ6UdisrJUzdNMWssETvKEtZiuxJgQq2Nv40gyf8eyw8U/5JR2hbvNOTnrDE+WTUbopw4T410nQgiIWAzDgBSYGnPDMfj7xehL50BKDVywXGgHRy1d3h4FkY3/uTfOMrlvN+mnLTccntY1VpoxUiFZCBf9SZm9bWN4YP7h54t9yhuX5Q7tZ+VUdwXzJkj8Z9nm/UT6rYnRGeJzirshdgQBpo6rI6EQGPZbumx2aFEqsLDxFH4yLcLwLfSLedGLbigX3twOytfeH3ncG7uXFzp6j4VWGwZhZenaHuLTlKzpLFNPdn+VdPiGZc+padWawq9tz1wvz1jRvvD7cfuPf/l/Lg9j3jXtGfDJwyjCewiF7u+86Q65XrSVbYpRU6fd9yMEQSxwdmX3hKVQUGVMMkENJOTM+yKod5Y+H08KXbToehJ/q6SZ4F9DPo6BZ3IlxP+XFxhxIRqnLNFpec15PJXe+BAmo70wucjbqBUEtZyyrLk5KavKd7Xiqzxz90rTUqNJLbJ6MA1QaJoGyjqzvdW47u8TmfKkanLRr8aJ5Kg0dWIKDjP8IHn6qgbuTu2Aa9euaRKiseSxA7xYCGCSAxU9LNAb9G13zgTMjqdYWBEzAAq6RFoY7RG0S92//6wStveLU3setts3BTawKPNZdcRn5hPnLeC4JPjOJh2iv6GMPMq9K3QzRY5uJfgIDpSukCgLIC4SQMZHXGlT/cAYmhyxJVJ65ckz3Wyupj52zDLIJelRR1FPXL7e/3rv77jvGaTxeEd+J8gev0zbSuypS9M12GUG8x0dnMcScVfFbf2ILzfM+xkmwyqvc8L3ZfCexr1qtfq83bw8kfOPf+73j/pwdB3RvANuXZQf7As/zAXTOdIC/MOGWzz3LXtupiwgFSmVZNNjvFaQDbyeis4D05nwUbisxGSwKho7WR9Vy7fPKTIbuIX5WWj8zuqsNBWHWVNYVt+yCt2p3MNQPWUtkpP3bq+oFnXVybUqtPqU4k/BOFat5Cw9NGO0+PhlB3Cd0T5HlGEDCZ6bykytR3+trNXoqetoTGWIs3DZV6HgPRedKRLtAr/2XAgJgo1goZZr9f5w9+ZsR/aYXf9OX0eOLUa6lRhvQuEUMrGZYaCwxaLA3E1qBe/2pv/6N69PEedB/Lnmg7TvvpRak8wOMMC4Ev87MeIxcNxouCq4sAh23TiRCLmujziT6RZ9dIamquabmxjZmofBQH2eBXi7d+p66/Uhgepy3FsodnebXpmwmmDxI5Yhf6sGKKrs7OL8+8jlzdl6eo+vrcC+j1UPqt4kz0nMxeufkg+N36nd8K858aD//lg8kfeva9tVe9t8eYcsA8P7aoUGK0I9PJa8+yS5/aIrtA0VYrSwG5nn2eeRU6BRyRS2kWQIaTcooWdOIu8raRl0+yKJvFYRqAtojWszj28aHHVmRpQkHRKpPDOVgzUnRBwiE9PAW85gphIaDyqpXb1W0TeuIX/XDyWLrcmTppMCRnOAmeDZuicxQIlZb5TKInf9UFkV7VfUE+bYSZbw02jk84E3/5VxDI4h9kspvZslMtGK1nmQyJfFy9lkm+ivOyYUB6tWyHFOhIJelozdp69AcHr73WN66b3LvnKfvgKo4gpu1apAlML69S762+/9Xo4cM0jIee5+dG7hxZcz1/dDIicEJZFIV5/gCtIDgRA0LA2OIQ4/s2pmJLt0iMKC7iYbH2yIrD70ze/fuW8e9gLSyL0iRwYztdQ+WEA0smdx3VuYPxCxupFkIt2eSb0tQTizyDj0x+Mj/KPMgihJ2dEu1x28ASQmE6ds/xXCMd2b7s5sRe6n0zuPGV6+bv1cadZPSvesWdyej+xEm8sAzXUsvMfTexRm4t+ul1yf4mxxGlLsqdAbCnyeKovpQaQi0VeGw+C4ccyReGPza34yKceYbHFXQYrk+ZHb7TNrzAGTXSJTqjOEgh4QKffKdv6IprRgoRkSSayoroOg0jpQIXPiTLo07ynlK3+a/EFa5ChoF66j0IDcrRfM7qTcNgcQOXdgretrkp/6wKOi4fjUZ9SY6OAwYWTkkC1aF4YEF+C/G5IN4qaIUBhQF6lOrhVm5OcrMeWoP84zT7U8P79cTsJU7RF2vRjdOS0+lb7TqcuHXj3tec3p20+rMqNAcHxq5jyPm4i+FEFNWFpB0draf7deV/jhhoCZ7c2FNWsBG2ja2BeFTsV/3c3ub64s++9A+v2r+5mXkPymofq7L9npcXvi3zmpg+r23sgYlXlqOcuxQaChEV1YnzqZeaSas8z1E4dphNHEztUxvAwTJiadjrZhIbVh64iNuwkXDXfNM2vmgNfiUZxq5xZzj5MH/0o8nBz43yvmcl4UYQJCkXkRfc+aFUv86nErOlTCfF2fAX8F0ThXbif+Iayg6a4iEO1570QaGzuk9KxmJiSjGmbSl8Fk5cxdGp208neOahFd5qynIpAc2RzPjIbrGyKXAk/IQinubTPHhPk9tj02ocgkbt6c5XQNIlA0ffGh6X/GfCH1viKsIKAy0GlHFzYThKY+IPt6u47Je9z//04c1vFOG12tjbMlzNSzH0ZFEhzLwahWZSm54X5fu91ze237u295cJx6y4z1UmL+3EOMgRVmb64Vz/NqODP4c05lwBWBW2FAYwsi87xHJxUV6WNBZqTlwIaQfmjXeuX33/NfMf/8jAXBPGcLBl5LmJYbqp4VYOgivEUZhWFRU+oZceZgfqEitqWDc6VHVdCoYnj6TptAwQ1xvKmKrKOk8YK0BQucgGMhM1MB/ZgydTNowicymqXVigCit/vbb7Vu9Nt/+3BkYUJHf2Ht652/vv3ye3RAab1AP/Wc31p6ql0+pTS7IT51+F/SbzmcVK+0ocHHjSHvKT1+nc32avyYZwH8qJnrbya1GO5jlIKYKfJoZCUPPSMCWSuYpAbg3u9IGEQ+kIwboMSQ4k0wyav01BM6FQNbZwVWQYF/1RGydHMa9gb9qCeWZfD66+yT8oG5ZUrlQQJ+a48HE5l07efUqh02w1/EJxtSYWfX+hK+n9khVQwXfrSknZBGJ4A3yIrJdIUjqGZQFPZ4NsTENAochyOHNIuOSgPvPUCNe8fNscsGg6eQs+5epCNVoQCusI03KaN4turxCuY+t8SAJs0/iqZHlITZvqq2/d/BuYp92G7/orixTxEU4MuFV2x1VahTZdJ3kXIFVauRpR3uWhK61aDINcTZD+0D7Za2/9usT2deVZYaBld8J8Lc33CqseBoP+g57xf4bGsL+7/rPNfA2OqGTPgh4oJhJQCk7R4qjd1HS8oOhjE8H8Wpw92D3416M3D770aPhxzjK8MkPXt5M0zzO7H6Z1HpCmIWXnhnXp+cyoohOGfpcQHCwA2YYrsoLpWp8hdmTgcH0ae0RSS4t6uE6FuUe0f21uWTs3uF+UgoRSBaaZcQGkuuURwo6NJwtVIgwx2ZFXGV5eu9BRq07tMraK1Klu7L0SOugcjUfB/vAD661/70b1zex++CfXJ5sYkq3NTGb33IUoK2NMEwt5qNyUkYp2dj3AsgBacVy9re0CnhsmIa16HsGyOv0JxqnyPCYnp8jdjPFi1xhgpK+BEv4CIrGYvLhlBiFcHcv2kGUbQWoEB/5m/dr7fePf/WzjwJ18ZDz8k3T0F2X9uRuMehgfqVxEcELrZc4AIXCeVsFeoFuLXiOYxFVYspIbb2FIKyf2OfQom55mWTDH1di1YiDWVpqosW/R4dX2KL1exsReT4YDyo8y/aPmdW4YvPgF0XaHc2kHXGlwNVPDSEkwfU/peOvwVkqk+od0ATJp+konk+foFWCl0R/jpMeq+s3Em0fLaWu3TPxl4swA9gSv51PKEwC2SnKJMCA2pYSJkINTdm7u3dr3P6k2P7ieVQcu3IXHBa2VleYwIqaDCURl8FONLFFdd+v1mwPzWrH/yY6bo+hix7AwOVwJ8wOCBsut5Jq/5+WYXTQVFA8/VoXTc14LQWqJg0ook58sgUVvk2l/yoMtTLkKnGJA5hE18+yYbHU5thm4hhnARmH2NUuyeAfrSnBUleOniJBquZ6ojymOxPpw7fOtt9zrf6P/6nc2jTdjy/28NuPrFYYOkNHgRPjE9IRKlGIW8LrMTnANUHphGjCkkE+s7KC21xUANOYzdzLLTAupwwrrWE6Vi3GsGpbPqzmCWKKJftAshuGl4J/oSTLcRDaBOXYBVWzhqB5Xwy5WxcC017PBV8zBl9w62zQfmvVH40ef7+z9Ky9NMRxh23ng1wMPFgqt9YzxFpFMVG55ojomvZbRZ++5IzVBMEYlkE+IAWDdsvIqtwTC3JoI8mx03yNhtqp8O8EOKri1sUuRu+drGHSKwwv6d4aRUl1cYVvoi5x1kH+i8ixcs8ilVAfkRk9tp1tdlMeKcjoynnctgUPoooApTFLbg+fhOiSIip2ijl1qPoMWyU3VcT6f40KOi69Gw3GJnlU4wJwS/GcFySrfS4oBllKy3EXKKzdihvv39+//WX7j1TfttYOszrH0gwAVmoGJZoYfYgYPjRAUftXRdTuo/LeHa/eSOzufXUlvcPjKq7BYjY4ItF34EG5QZq2uMCMTxrmiiAGJLJrJV5y6zYG543C0yMg5MmaFZ0IihYktV60z4bwQ2KN/01KUcwX/khYmoj/lwpIb60R7OsvSKK8ibllxPKvXw7SBbIhwfs0ocjvOe5m1Xto945u/n4ZXKvtGYfRoBbb70DJfr3KUjFJF4/SKHw5ES2cMB3MIsj/octavTnLXSJCp1OhLSYPrJpuC0kB09n/UzNLMRXXGQTwZKDKjYnCUavLq204Cxyea3KACnk92C0oBLLZj0ykYJ04ttg/gcjjJSJc0010MwNfwmY5pBbWx4RnvGFtl78o/CY29NLmTZ3fq8nYcfR4f3Cnivdz7/9l7syZLkuwwz2OPu+dWe/U2S0/PDsxgABAyYRuKACmAEiST6YV8IJ8lPesP6FmPNJOZREkvkoFGIwSIoEYUQBKYFZh9eqZ7pvel9szKzLvFHqHvuN8bGXnzZlVWZWZtnd7Ztzw8PNyPH9+OHz9LLPw9ZPYhgjwFpw6Gk8uz56IcKJbiCniymDytXCzKA4TTvo0YFyOf+1BIMIykguuiCsZcKXJugNgrucg640stHS3zuzpDTpEFQkqCKOrRBTPFPRYS4Q0KgTtb8uAAyrPQXEvLfUSJNdl0RI4UYJk5JIu3PjeYhss4FTpSQjNuUo7/q3F1/GKOVEKzLlq1/Jsacctfn6WeYUAwIMsnciriMrxs+WGYdCZvj9QPY+ergzLfzQp2KSxK94SBnUXaPZ/PDbxlQyRh7yd21zrhJ3zrVmr9lEQuc1i1uXzmuJyzHdrKmzN0mJSPbkTKlEdihUWOiz6RtKGdmi81h0Yn7Js4OO8z64ODGXdem9PkviyknoX7YKA2ONxTg3gyyapx6Zdey0NSCCtKjInzapKXPg6H877tvOj2v2KvfaVyXoKaL4TuLaJkc2zDzWp1xKNdWlTtqWYKyhUe0lF5lWUufJW0B8uzzJU7kfVefByF4hjJCSq1pUEUkal6wb8P0Md9LfweK2jBqWUW4RnGQp5LSL6p5UyrTiisWoYfVIoc7KHVhdxrRW0oH54ZmRBemZWl+BikDfYGV0U56oCMSMoV459we6PA6qhBGK464Wc492Sr2tWbHINuv6iSRA2TeJSku/F0N4omUZQUrWtXCojM4SQHfxGMu5ZTBeyIK3ZfpVnOcQg2lI0LaHx+4+FGjdopc5wCOT4hQX92x3fooDD0BKjCsjndKhFNaszJDhHWEXJqvtwJoasJKaGsjKSOloI6tIJTfgEhZZY1Dc8DVCbk1HxBNCSItF+TU7NSpJlLgsl28EWTjmm+PSx/M89Z/AwDTxoG9IJQcWbOsjzEjYW/WgzTOz/cPffZrrfSq/xhhuwFa0XMTuHILZ8wtZHD4KhlJ/nYDSbqsr/+ue70zYmIVLL/ifsECxYBC7SHuZzH0WCmPAuaSNKImCS7sEg3AwgP88VAwNq33aLownZnZeKvw8LADyuOXIo8DvCf4jrZRAyKU+s2AiJc7rWtNgb18zR1rawb+Lcsq/dKfv5Xy+6XSvVSWXZwAclAclaSnrLjKnSD8wOW7CLKUTGtrFZpr2CEH2PhCG5D7uKvzxfel1cN15AJsge5740qN4USS4oyCLu1+umjWZD1/gKcSMDbMKLwtizUFEAlgZUEsHHtu4WTZHmUZDGiXdqCluu4CCD2C8gb+QtKnMnQLuVAQSHbFNoecmEiVs/GC2vYKjuutZbZd+EjMfP4D8eYZR7YeYiH5ckLr0EDcbHoKT9UQa8cqHyVuangEMNdSnxoV7WbTzZ3t++Op5Nk8wcXK+CZcnFvh3noUg4KiKXdj8/nuQBfQPQi7/UUj8HTBN0QUtRgKCceWSEYasIC15QEawrEimYxSi5ZdSTolUSIY/2gkx7vj4EEUJeTPxo4PbglRmNNQ+oUA/y+BVTjwaQf8ffeU9RQWvfOc8SK7pHN1GIysL4sz3kPHC3/4Cz1o4gB5jf3DHjryLMsSqIg8ELVKTaz+Edx+MsD/7KaZtsFYhqVL3wBiCnEy50C8zdy7kJEJJ9g87z38V52NZncHgUIpuOflpWDywwuFB4TLUVHipwtdBx7EzsNdiA1lwqAm6tBc54a3Q7WQ0TEcHMsiySHLnOM/CiOi4dpMxiTg6peeVpVlVlBVoWT0p1Yo3J1Z/15de651pX/rG1hcKNXldzlcVEnim82PKWoL2JEcHaKSULfuXAHEc92R61sVV1HCnuy9XoSfxhY47ar+rg73r74YdCvLn6qPXixZb0Yuhto+43H5dsd1X4Y0B/2G0b5/JifVUWK7Ltd+eVoYL3j3/5BcuuNnd7rKzB7isKFbAQ7stXCu+UWrYqF9wQhExRWz26vrvQ3OmG3ZX/uF95Kqzy/biH35UwmyCoGYzeMu9trliVEUORNlJ+7TEdu7ri/E2k0UV1CfIpTjrh+Qt6ce8Q2clq+WJrgjrHyuvlKt1iTo8U/DqjZYk7fteM7RbJZxdtZMs52Xn2f+VJmOI+yoQvPaKklI4JFwQRzAIXSNXwpKCZDWtGvgn+xkgF1zdBAUIBvtBQVfTX7vqZMllRxqklytaeDQMm5V//eu0YDMvkBWtipQhWaCX7v707grV5LTqCcIxZB3xGWZp6jbenLs8QzDMwwoKke4dDYHlIqIikkhEdejX4wDdc7al089mVZIvYTORIXqP0mnhuKEJTtBx5XBTlLr+qEq1/sjb+3md8ufKFeKrnIgHUl5MzjCbLJsdKxObOBQUwRRAMMu9rzo6JmXTWBk2sP+FcY36adQiiWyPuITIQJfChr0Fk4FAN6LZqhaLsaxE5UDra956sLn6k2Phc4L+RqMN5ujV1YMEXhZZWTYIsJiwEhJhFux8NO0A5LP4RBxbKdtdT2JN3aee1/L8qhbd/tOTv9dqZ9bjsYRhgFN/pxHr//3dg+P3r+t7r9v7vmrURxvq1Um16S3Wy2vx0K7Ym8qBf8zE49Z0NtdarvT97/xubma1N3NAjtlSIaIycVwItyYdlCUZlQ+EWHzQyL5/DlinGW3czvWDvK3vX/v964iLLWHf+qu/JKOHi5Pbia2yup6saVnVYu0uKZbNyl59lQW54fIWMucs6I50NEQcEKXUVI2no0M2iZAjk0FShhHyyCu1aIeLtjvaha8P1yrTQvHNh1NSnUllVtWukN54yWOnR4CKt7/zog/QFxQqJIoImcFGMPjQBWDsYHI5Hu4KWsRDrIgePxBZkeD1U7zazXzroAadrjbU8NyjEipl+OUcDZp2cYYHYgnYppwBx+DEKwRQ7HHyrInVwv4uvT4JPKWocEEY4BfCaRgnJLNLNkWWBH9Fp2GZU55FShXl733t4ttoTaggwR1SrbRid+yfR7ZFiHZVvI/3WFspjVD3qv1UsBaWY5lGXPvJftSZhYJl2nSbzx9V45Z7EZBkBmvc0kv7N99ZPt/itd+2KkelP27djyozwc7LCpV9heQucttUoEnew8tfL0gkuOHQTOVdDO329t/tV0+nXPev8SH6jEcadYFwjcwK2CfOxEiYov7bYqdT5Pgw9vvH/bK3ovudYr/W4/xc225gU0Ou6U+8fsJl6/NfzR6O7Xtiff8FvXL7xg+66PX8HRsI2ZKYyyceWNMQJteIoP8BDjT7kIlxSZXJA6CCrpnSrttK2enxbOKC9+kmxmaCh2fS/IfuVa94Ve79Mb/scQSI9gWZXQlFVkYyNXrFn5lm2sG2EuAc4BGyaX7XKDw1TNFVUzE4VZjJl1qZT7RK7zeGuXIgSJ+JpzS3Ur9xw8Qs8v0LRsYK05aSR5/ix0gzRAmqH7Xn55rDdrkyif6ACRN4/Ovqofl0ZmfJz5O6FHdDAMEonqqk0ivzCKajD0S3mEdtXHJ2mQvNVUjfmEGW4iC7+O1lgx7TK/swy0Tuvr8YvmgyxwQpagnCPNQY4AspUqZL2E8QhNRV/YPGn8cD4A3YsgL9RcP+pPgM4sQBRhCtEIrOPSw7PCTdME+VDOfDf7B+pH7JHwJBIPpS1GG3hNR0BYC83N50De6BcgkO91irRWB8Gbxp6ARQb9u/czy8X4bY4andOAp3/r/MCo45Q6/7J+d5/IDAyTi8aaEjgg65Go3+rYvJjl5ddQMuGkEBmvAuJBSnFeztm/Zxi4PwYqYSzJJEDeBAUemUmMUKXOq09e+87PX3rpYqvXSuJN5bMwJMrNgqzFSdby9dVywujzRBhJZaNLP7v01SvvX/tATay2357KzsEdTa4FvwUM1i1hKj+qkPqZZcdqc93pT3Jn28natFS2mP0w6LVIkrDe4xdhhaTUGku1H8aDvNpOO0iPnM2wg33GMiyrMC9sq5/u5lufeLs9al0+d9G6mlz4TTt5cacnLCcGDAbKWOhsokFZhjkbEKp2Yi/Khrhip0ACjxQujqtz1ger8ffL0fdU9JYqd2FsQt2jHofbbJXjyBh3d+xgKDQUyGCFo67nJFtj1+51y+6r67t/0ln576NRNu3a7YUuPgj9Q6XQWKYFMwUTDnZSWKHbhvmzreKu0/aiUP2vL29//SfDt6uBWoGwGavYCrM0j90SNhv76HwUzf8VG4k6mP1kvmupKkRWfKb7itIHvOBY4Wtwmv3g3M7fcjKYetyRXlFrr/Rbn3LUZUt99qYUI9dJmIBniDPhQG/Zjlo4iKpUDk/WR5gKExWcKRIkriJpiVgHEQFzm9MOsu9VEvrguVQZZlEpwz8SX0pPHt0IvSfNYk/YP2y3psFGWFyjWzpBJy+HFXJk74WMdAm6HPmHd2zGs2KZBLof9aYueTT9Kl9LRH+7V9QxYrr82ffN+DGKPJlPab5g5H6hiYonCv77AX72/gwDx8VAViQ4Rdt6Y3tjYyDiwHbCMZpbr/3lGgpf1qrQaVV+cvFzF7e+sYNKNxSaHSISjOyrLFwQUiLJ8QgDq58cBFMWOwGAhVRIRm3f4TAouCHxyCukIVpSbEKHZTxLN7sNpBAcpq3+l7t/58sbqheqlqfSpOoKByorEadGIsjl7C50Q5lbfqoQdhpBqYqEXolRyzJ0p221WaW3xm9/bbe4W1U3LPsuTJiWx3HazqAhhO9yINC5mOdA7Cj0uFLO0jTPbu9035t2X+mahd3sfQe+e8gEypxtpXA57KSKvdBbgbgbWuNBL7Bvdm//5XD3L7+3eX3YS7qWD83CSKPNsGZ9xpHcsjFDHrLy2WdBGImlgtQvp870zXTrw2n8zWnupd3V3srF1oWXW/7HCvuSZXUnCu6dnUz9TRRwcf8shqyACOIVN4EiqUUiXqPFyJSA55ZJ4GdO3kmZH7bCgSB7YwHojQA2G0+N6CHJx21ro4YHjZqOrwHeH2FyM2Jnm7+QRaZ0ubyvWRWSVBO2s/f8Y0goPpASBR38Cq1EGZrbpFe3GTpIhJA6pSWPwutGGfAe2S/1SnsNDgQlGhJBxDwcGOMmvyDtsCE0//Ts3zMMPHsYYGVhdsRuEpbt3Z9ttzda4SqMgCk6RDjt4Dw7myB7LZcpZJceMsX+5zr2B9vT96Yhx3GxZyMLDfOIMh/xAksbxKxzLLs+AMjqhsToHswHYtx2EGAgQEu5ZY5ZIDHTcyDbWYJstnq7EQE0lWBK00vKSztVb8p9UT5yULRHD8wOogKjGWicwRbxGQlwplLU/r0+F8lJ2/LaRU+96w2/U9z+Tjp5322XXRshvBRWDOwYaDBk95K0yNFNE1JciOB9vYc0GwwYyGVoMm6o0+v57e8PL39ixfiRlHV+tmeeQIchWzxrMhwyxw6cQEGOeDkms6xbRfSXozv/CgkuZ61ab7e7fummtvB6RZUV8v0YQVoxb3U6nfoq9MRYFObjO514HexghmRwfTd/vfrwr+OonZTnou6L7vrLrcGV8+3PXlfINSpfzhIiJ5ijoWpjtWroY/QNc+lRCxZfjP0PN3ODyEW7RM4eBfxZ3KEcTY+vBm6xjXMqZTH9sT2bbmA2cykGkTMbGvMFgUPUPsiah6hmG40PFiHHZGGTVZLAP+aYyCrIfKhDM14nPlxEamuEvcdGdY33DxydteTAd3sVzV8ZbBhaU4iofXDJOmsymg95NJGD5czLO/v3DAPPMgbM0Q1dodDqpJvp5PWk/ZxbvYiIB7tgtf/EKngwU6aKSmRi1Lnp2uf7N27ttNN+lmFYyEYl7rEgiz0cMznZJPPEvKOcK/UKcI+9jRyc1jEUxO4PJ4FzunxUN/CxtOLJrLQ+t4OhdtG20qCsnOlkC4GcNlr+WQURW+5kGOe0AuitSYyBJagKkcgLQvhUm73h98rNb0TJG2kn6rXSwIuy0OGGGSZUiU3uDK4TMhBWwPfoVOodUHqiuXLbWMJkb0twpWIHoVNO1N1Xs8t/GKjWzCe3iIk0PzgGKvVeM6vfQ0/Q75fRGI84nXx9+O92b/2ryLt2zg1Qt8AalFgOFXMgjqc3bY/BB+gPB0i9NwG7qwbsXVD7ORJh6djCroKWe8ESBL0Q4pZmGERDN33LvvlX4abrbIb22tXs0mec7qcrdSWzB7bT7mCSYXuQeHbh20mrzFSGeQm83lB86LgjLF+VYrUdqupB9Pj0NHk8k3yhT2cr0XwLN+jjV3Z9CQKpIaf2E0+aX9UoC2rLBPm0EWdE1bnM2JJVRRM6PMp5kStsLrTN2dHwruoPPjIRgxCaS2QWl8l7Fs4w8BHFQIkd5dxatddH728Ofzbtb/ScHtp8KctFvUUxU1htZvMFFcAgL/zY+3i/87Y/egOvMj0Wa07yswyPFpFYTMRXyWQUr1QdahaZTJndi8tmDZQmtfipcJzr4Z8DzgNP2j7MY4G/BuyJjMzQSO/nVhTmCh5Np+ojUw7OFZ6EkCwPLpZOGlk7cEQ6fseCC7XlVLeTu3/u3X1vlLznhJO1Vh5G5bQIps7Awn8x4wr9fbHAj5FunBZVATaTcozR6zDf02a0OzsYtVfoPbRaKqy8ibv7oSMXaqcToOzMsLdjr3KKzJkGEIw/aW//Pz37LTtc8xA0QuYLUUJt6wmCEQu4qGsgeL6n+nA80BDmK5TIKXI6gYDKkB4nJO6qCKRVKezUTgFhZFUxtrjUJ+OLyY669qNsEibZWtZ5KTn3KWtwxV79lY44AxApLjCYi2JgGJfu0JmWKATInoe+of0genz0wvEadvpf793imYE7H76zMXWA+6zHloClM8waSOJ8DApxJuez+TNIM9YPTr8pp1GDMCR1oKXNRvFQp++LGPJxIfN8GBh0Ncsx3579nmHgo4mB3Coylfe87njoTV9Pes+51st2hZ51urc3yNSbk1aYuCyKHKPhqpeu//LgjdvXeruBG3scmTnmwRlamKenjVVIQW7soikWGoRlL4dFkYLCxfEhAV8bWEOwEixWh92AEzvBqESxoLAymCXikI8/asmy+/A/m2gR+AXUhR059rDCtLndVYFje527ozdCr4Pb3nZ0Tt1ZUa85t7++ff2Hd87tfrHtZ213nDtTx49Dr1vmg+SuylYwWibmphy8S2OWg40rj/M8RjgdVoLGv5ZD0n1B7aieIhbErRXGAablsKNaaowl8b1tvd74jt830vXzbQUlBYw8BfB4rlUf/Nmd5LWrK+3VuHrX9rDjzh6NKrwr948Z5l5t7BZwX3ZMAOSCDj27IqJFKd5mIJfYusGRVsfKCpwTIOHku7YX4HHHQxESVcbUnV7CO3cPW5wIQ90a5Lfd3e+GIzcs2ugDVuu/ZIdfKKqrpY1VdgjAqes5AzFuUu7kecS4P5K8FN2ytG17nbD09WkmmlWmnqt7Ebh3wiGEPKjJKeBY3jfzu78ZoHVzSK9JBKP7ZnhRLIJaOk6zphitmjSRlfE0W3qyZZs1um7d0sJrZO7hZ04/mfwavXtDgtJMgU8RHpY2/CzxDAPHxEDu5NMCVxfd+GYVv5q0LnhVW3YIU+x8msjyIpOIK44k51oGdWvreX/1M63oB4kf9SsVieitzKq9WXZMwI7yObPcVWEy3RLdXz4Qgdr58WvZ9yx9uNSAicIVh9d2cyfVkhXsWJr/QQsbC+myAj5CaeYOhHHAIpnFOMaFh1Th/UT2KdglWohqrX+l2nGst/yt7yWb372TvmN34v5zzi9Hg80olVtA1+0XWZmMMBCe91udLcgEhIF4wTjB8jz8KRvuS453ZI17qpoNvBmiRd9cLqXQF52qcd9ph9yCucs3x2P2jVZsZyDIbVrlJiL6FZ2Pvpnu/G3UwlJ5OI5SrLGPE7iY2MXEXDnWhWzHh5KyMPd03AAhRRF+gDQaJXuyoWO+TQyXIJpmeUUHIf3KQf9uROOLIqiKsCSR6zthpSHSBQZFqsdKcyeO02wl/kHx7vfTop26V9OVz6tzv+QGLyLVvqq6GF3HDNYkh7Y6ItSCET0x+D3iJ48jm158wMZ+GfOlkEhDGitVs10UYAgkoZYY5nphoRBK118IBswgBd1PV9BiELPzounTh4PfDIYZPvTSKZPn4co6++oMA08zBsxcoAXidNUtx9PRuWADWajtt++2vjTIL+Ceb6ZX1VxkyF+iK44SOzarPRac6cYrG2/98NZ5F5+pkSw1j4SQopYaKnMsRLpE7o2oXZZ6Fkm2peXbLRsCtJRYjbFKtkHlJPDlhJ3GAqyBfzRNeCrGjjGjw34Cts8FED6o1SXYEmOnEsPf+H4rs8mfBLde3d79cdm6vdqrLuLNJPV2xt7N1GlZnu3lroeCv3iEUVN3vGPvrEUh9ix1T0GTw/MS2X8b6emEnpHxJX4VG3ucxzUU7pFxLIeVAjV1AltMyFq7ZAUq2ewgZE5of9flyIZAZFjtdAO7ul7e+XbpjdbC9Wwr2lzxLqTONkL4WIVVWHgtSxeTEGUR49LZB+j9VOCD9DE1moGXJ0IOMRJxeWxZKXwqq0BWH+5cy7E8sbwAzhjauCzGNoKjht5tRM+g6kCi+CCAMMVGQpm3o3U0AVzHy2In+3m+/boa/UvHd91bf/9H51/sr73s9Z533DDErWYDzGa8kWxGAECZAKwE3hvGDBHdc/dX4IDHY77lYyKUZiqpy2nWKfFD8Mm9vrzVk5Z/hXmqi8LSiaTr0GxKbfzOwGl+yWVaARgSaYw5hztUU4r2BuOIhVPJjHl5HQQNJmaKanxqkuvfQ94wbgl7BF8T2PrbvUgNJ0kmzi8w1HbYAQPSGxjhPZLHEQ+QBLEyBTFI3DhdrpCDlVk2g0o+0OWwEpJbCpyhUacfDtRe8/XnUrNQ96ZXpOID4RA80IXLAgWaMk1Fdbyud+EjXf9Cmjya7pqVxTPfmwYe9sGSMs6SzjBwLwzo6SSHWYa4VfhOFXdDZxrvFEEnz/offiO6OnhZrVzP3YTjsVO6TsLuBfGURO7YK9a420Cdr7KiFHHii+5z/9H5d//tGxvueZWg0pQj/VLg/ivPMfzUV8HO3IbOvQB6wHfMDqF+9CbKsTvJ/K61pm6giq+KNmJbiEXTME0e6X1JT0amrZ7Rvo8+P6LTuZW6L7m7P5ysOetxNXFE/JmlinVd1uazAAbqtQv6Zrva7Toxhr1VK3Z2B+rDl9W/vrPzN9ndHXJtDFidHKwaDRNBHBaPWg4mEljNLRKRKQL1dqvoYNpIeCp0hSyi5sCP8xPU+uq9TAgpSjTrp5RQhtjgGFZ5p8ifH1+YOtnqP7QmrbvV0O9KeSgNphARXOyIcJGDnBFGaNkVRMKLt5wU+M0w6eC0YIjJKygOWJEmjmErSOl9AQpGdEITqz9I2tW/K8o3VxVOXYrci7EjDvO168LUlH1DiPUSV8VsVeKP6FgBuMz3XGY2Cyo4FbjSTPYFcJIzm4jpTcIg2M1FTFCGNg0V5GqPyhBfYrJBAkwVrLEDKWMbAxPn/vTTaZXfCPLba0Xn4519fKkaCPPls/orhNEM29LEeqjV7aUvQKZQIQzR+cishY3qbE9jZKGLFx6bLWqiqJn+aOJNwJrxR1P7WS1nGDgiBsxZVH6F5WCJ9CyuJ/Akz91FqqI7k/Int+zfbSNRVDipOELP8kpUiETEhfsHoas0bcV7hG7d9ar/Uid9J/JE0aqTVMiQkMcs/fs2hiOCd5RscthiEZQDhpgjxK9ePsYQEYYK8ZS7r9L5UjlfPWf7NBdHWKYSVT44Ig57qj5iQUidzdyD+Id0taxVx9uwr4fJ++/99JvvxW9MvFvqXHlRk7QQ1gc/eviUeZdJCTZXVriU8cIiiW23kwxuv/TFq7HqBNi4YrxiTgxCij7VgxKTlZaFzLX2rxJomPQR1GNg7L+FowqCObgaQOVoIZssynlC5LUhj25Yt98epxNIEYZ05vkhol6a1G5+9/DNfLRfyiGBJrrumFGPKfr8prq7FWsO4RwQMDKPLv/3vhmWf/awqSdVHZQ5IMiqUFNROmLWQQOd6X4Th1CGwmdUMYKgrIXoh6Yn0RCxJtNT+Hvo0nZItx82zOmXQ4t6CtFyBvIZBk4EA1xXINXCSlIhTcuhvQytTWvzR6PzX1ZqxbOsLM0S38HmAQ5RyeLg4p7jP+rU+Fh1rBS7NtZld+UL7Z0PphV666hwYx8wy5wAvleBw7uTWg8XGztnIJnyYUIM70zWihUL0V1YG7RD2iS7KY1qwkBceFpkgXz086ANa6HkMirlbkQHMpwtFAYVbB9QK0JhwNpBMOfV6N1/f6P8sOoMP9YrekU1LuxAWWjzzVBtvjrZX9dKRxneVbBdWU3CvPslq/ps7JcdhJlggnIMgEaQYwC3XACbYxcKc0wZo8P1Gb04rcmgA7kLk0Ggt1SzsQrppVNkv2wE2V7lFby1LHs3uPVG2Ukrv1OM0yxodTFSIDcoT22gcZE1dtwgrLpB3upl6FE2Avi6R2hklCg5F1Ie+lFWn2V/VHLI35Gq2nekmjHzhF42QYb1vAUyfufpvMXAnuBBk1A8EuPJCKHLt/tIcEl4WoI0alk4Dvx6EjVw92BlLe/fZTDqNE5My/4erM6z3GcYOFEMyDKilw+YUUwHfHag0Ideeqtye+WqsxXc/smdCnuMWCpEHR1tbIipNMMxH5eCKBwBCzLfjGtU5dUgDj9h955rJ3aU5gkex1B0J4MIIwo/QxYsWZceesItbbi+iaNwgEeUHEn46G6GNK6cveX0iEqU1EsgQ/1LhItBycDRHIDcxOlzYZNomQLJfBaaGJAugyLWiAxxOByX49cm3nutc+PVfh7i7iXLoS1mu+oJ9+98w8JQaGHFdJCNDavz46u/P6iCmzBSGZZJmsrSSkfT6XQnoxLlOtTcXAxW+fjthgBEGBBCWWwp1cPAiJTAl3QchmjdXj0b6ieFE7wbP81yHC37IfxYyEWR2JqNqb1sT1cM8HMPvRJ/qrBeFaEXudf+B2pJPbse6KtHnLlum4wSvfqYlLqnsbhlXtWROqceLsKa4jDBVywzMxqcNpwJAehV1cwo06fN+CPu5bPqzjDweDFQrycYBWRT4boEbSHx0VlWHasTZt3tn0ysa1WVtAKP2z1OjcK9Ys0RToCIdOiLldJDub3w4rIXdz7XK1fSYTbmwiyEnBKrjcKvMIHIKe1DEHbY6sTGcxV54okEzSqrQBpmjl69hs73e52YI7OrF0QsJ8RBH4vQmN2ew8kqMf/y7F/BALSMRkQ23YG9E+DJt29F/mRY3MmrcXsmnCM5Trh/5xtWkfthmE+z8agbrfxKrj5vT/GlWEbISPmeCzmEpSvMJ4mVUIgq7HxnQ84FDGMHK2n8QTll+EkSqS4oJwJDcbbyk39OcOsm7v/Z7W+9nrXyFVzWiQUHL5RDxdM/OJyUk5HIjKmgysP9TijBy9JgENN8tR9Vx31isi79O2a59RpgyjFLnhnNhmZiTCwNCA1o/UlWLylDjxPJOINnTuYfE7wn//MZlg6wgmrIGRLNeHOEHCVef3vEyH3hOWI5Z9nOMHDCGNCUTiFeVFglWGNEogKT52xMyJC3r/XiX2TWLgZp+kVOOopEHuZ0jB8FcY0OpYRgLDpE2E/AuuArVutjbt7O8HCHnpYIsgjLYL7+nDDomhuhT0dSMIpMyOjic2NXXO2JvNSe2NMiADSuZAOuxMoiTlGCVWR7RRLZAEjuxQ9OGvKnqDwhj+bksO92YPYNo2yqigSb433U9P0y5eZjhrATpzPMQg2pjqXxqbXjvDS6+Nvtyrndba+LxDRdzC0NAWNXOcqAgQq6lecVraQKUrGPgWYdJvEdL2+lJPKMrBCKbXxKdxNE6Wne70s65XqvuIZRcystI4pzgja6UJh7WpLzqUriyrKVVdiIE2X/ysM4xd52eFhD6OOjZDvs84dOF4vyywKry7LkxbS6rzgqmpLMeNaC+JK5zrDwJfIB/NHfLGHw00ViSrjfYErf7wqZvxywhXKetEfTiXVv1pGjNId1gPl2wuEwqnR+kDrh6s6KO8PAKWFA5gb+T0XuSUwDwmoSTzAZiyz2fM5Prk5+vmlfLL1BYOMmVaEeBQEl64/MQQvVKJY0fLBh54bVxlKD2xufWytvJ+n11LPQJrf1Znda4posC4ABYgQWZnmBwlZrenvcvmopNJi4XNQXkUswJysj66Ow2NhS7LXQ8xBYhkQU3lRd7JIPP3pJYhNBrMbIGqp3FESQeo7qJtkIa5nwNnw3wNWJQcwh+94xsKb7F6vjRdoLV0ZXf9stP1lOk7QrCuvwosSIAjYrhR6Csephm8DKhhPf+Vh1Ixq9l8Xbcs8brtm9F86rq2GiruOK23ZnimtmWwG4OSkoRKPeLChcCOvi+4k78pDWSu2otFEitEKr8MQH34nvKMdA0YN/GjqYmJfDg0jZQ102S6iR0kw8LN7YiQ/L8gSlm16rx6jpZJYQIgvBLAG1i075ULtF0O1dyPt0PEq3Nmi/upfryFGacRghZdB1lBLqPKZes3zXiWeRMww8jRhgXgi7QXYPhX0cDmj4FkOVT9+Y5AUeW3GQNtzYvHkrfn/7wsurzhq5sWGT21yZCL9Jdld00LVJG7TK2XnKkXWz9/ylzvnJ8NoEZ6rc6YkZ53qnkjpOGFUyJeWmEUIqx+QP2+l4OGzjEkb2xJmtk3qm1xF2ET4CFGkCVpK4psJ+t5BWEpoAzt7cBAAAQABJREFU64SP9I+4ZpR1WH6SMupUMeOiXXSzdIyx00KlUYFzN31WFzyBwoNb08Mj0Cz/jqfSYdD/eNj9jU7Z2sWUejnaVW7XcmCHStDy8a7Ky2Q4vnbtmvrnaXQzwxUgxq4wArXtbN25sNu+OvX/u0m73Q4hAKHytTCx6eua5q4JKUNUXf8ZzoE7LooZ6GQ4wXSSBOhd5MLFfPgmPdYvzRSYYBkBA6lIk2HaxNLC5zSYd/J6ry/3Q6r1NGW1qIPMHrh1c36V/pzO51+yHDaLSrBvLE7oTGTlzlWidbELkXpo7U9vKupSo14EBBLxj6iDAaAGg8WIZB6lMt195lWd33xV/wrJNaeyRCN5PqwdseaxNBzagqW5HzhRLg4M4PKpIFlXqGGjbUzQ2a+xg2HhglELywtmOPPozIx50VBdGvRlg2DDIEfXMatonr9GpiRolM/foMgDRPLlHGf1m1lkYVWoi2KZNjnqlMUvj/aMTyuTcTaS697Y63B5D4iGEb2nRrC/fOE86nBMePaX+lF4wqHYsCixMLmhiogrImwNQxzMu3cRA7ICcYvOBVgLnS+MP7u5VfriOuvpCwy5vSAHbewuyrLFvsJiJ5Ljidpe+9CfXMm+O3LOO+q3itibtLO2nQbKjxlwIv7EMiiXgUK14JG+l1zIgrc6/0nv9q0d+63n2p1+bO9om4rsRTL16zPhXtXHj8FCK9ujYOrZTisKo/cdFYVld2L5KQZ2KN5MCmZ6HbHdlugbFm636qf4jvW2up/u3fnmple1hAKEY+U4OR2clx2/V6TY+jbzlPVgNmGPD/XTUsJsbRWKtWrn/bg35ZJrUt5S7aITWXG769ggeS5rNt9xjt66Zr+wPGPTKUQWz0oSL7EDZ5rAP/Rf2Xrp1QvfuPxP8uJinESdNtcsfpalGAR3iBaVdmdUtLJvl7f+uOP+7NdyfyTmmDzAErl4F5Ozt4LpLZX904v2r62H//XE+vQ7UwyglSuq2rKt2C37cDKzIsMNTJWsjDtpOxjbb1/NXo1DjFdxeVy03HyyJgwcZxg+xWPATIHclQkrrWGu11QCsRMJR9mE6jx15DhVm0LMXk45PJqU45T5NH5bY+Aw4O+b4bAPSX/mUfrMN/AenXsirwwC5XdOj55IsU97IRzQwQkXd56HyzF1643t4oO04/axp4y8aqN1e4cBEmEOuQ4a8sXzX7yQD4Z5nqoEHXX2o1O4Z28AAaiGMpSNmc13J7FLue6ps5jmmEfyQgzbtniirRCixzJ3GKp2gElSu3KxK23hpLmASsRvB25LVIa5rRkJ9RRvojUqnrTIvOvMWk23YICZq2MOKJiPxXZq2LbCX7ivXvg11X3hXFW1uI1loHHb7CEU1fUyP2aAVndWN//PyY//2fXh29MovEMbl+4a4yS5/ZMPf/6/3Jz+h/WOtYrol110HOc5OdNr9iafIVMF8xUxdrU1u7g8rLQnDZMPDc8+lgGIe9DwcAiSSTubtg8Dufl86W9d3HHKPwwJdeFPSMTAaYAx7a1bLWw6HY4Dao1hSqprMYnNYuuUOlvz7SOI160+Yl11u+oIHz5oIUes66OQjX6HwSwI1ONkH6tmWfu5GzIIf+ZxDipgGWujUzHst9HbxfCnhZr6Nv4s7OlhiIrxF1yEWPVxPhV4L2ex2g2rEB6CxuW+FXsZdo+RJlp58NJkD0SuYXQzUmW3FlqFkALgZpfJ3onIFAxtw1EMVAmvY4DSIZaxsOjoVTlGd+BzBbh8xvPxiR/dj9HUZ/BTvd7PFmok2LBexk0M13d+1urBKUzz8Rc+uPh7LbXhTCeFC48wxCWNnRXDu+UNz+5Z19bf++e3bv5xdnHr42Hc1+xVrdB3AFVB2G7v+uqvV3f+dF296YZcTXNlve0LBSV9LEMU8wv0fZVWk/cmdQHN00Od+MxEjjQzZUVY9tfEQj3H6kjzbTNeZ6gjzbdHiTMpl/7V3z50yaYEOX4t+6vLf0IiB2kXPZhlLIMB0wSJm7aw5Glt6oO/922O2SkXsCpVNAjihcf7lnlKGZognVIVZ8UuYACcm8v6Ov0+y8r8rrle/Z/lXpM5aedVjChRN16fvp6rd3DJEUwOdwhTIU6C43n0gjpbq5+1sZIgmlR4dZEgZOgpBTZgGwkoMdAJb8lLblnWtAuHyVSHdLLmUzQ2RIdrTBG0kgyag2W1ys7lAIdvCB4IFQWNJQbR8TuYFYcIbJxSWz6CxdYrML2SY3dD6GLs7QfcJaM0WvrJlX/YUq8EVbbDhTL4yYux8mF4OqvVefV6/73/eRJ/vd9PN4oybbdaftRt0r5NET0UPf2yd666Mvx+ee3fjqy77bDtli4G86nSLAXYAEcEEIUEf/f6TBGBGvc4nM9i99xn0bt3k81SWO/oR18Q616/d/kP+pZil+76D1rOU5S/Rr6BWcgmTd8QIdQ9wkyo40dvHZ+YMCt8/2OdePQCTy/nQThPr66zkhcwIINQjzqt0kJ0Zs1vIVv9aAYtXUbKwgCu8zxLEbTwLFxnlPnAW3Hv9HZ+tFvt4HbM0EZLGuq6rjjWrIrYGXovuf2X3bG9teDqbMlnx07ilAVnykZyC1na0qu2PLWFLOKMCBLts8ZuSO/Bj6jwoCGCsz48qjLJlJ+2rvj4L8u4PXK4AZR0o0StJWOPtd0cu30flQKsCiOvuIBBWb8K7FZUxjve7f4XnEu/FqAzmKdJtwe960fZ2Eb7Mrtsf/uFn/5PH45/oMKsB28pd7Odybburz2MmZve2ZzFtkFZxe1hVUQ3vl7ufhuHt9V4EAtVLSbvtfIB0ldCmAfZbREoMh/uFfcsxo40uJcypQwLZAFNzS3tHug6YrbDSjgMnrrDjrlAg5Slf4fB87jSTTPrnanGKucSQOJRt0IfFnjQLPqlqLs3/KZYfpvZFh6brx5jvAlVM74AEhhbGhaynT0eEQMgU4ndY7H6rVXi5TtJPCRU6C0dWF7vkf+QYp6aZOwfYIxnUsaVk4dpMP5Flb9th8VgoQH1iEUI320hFZy5GM5sRb0vBMnaaFqMJL85JC18eVKPUFLC8AdarmgcOBPVzRSLDRQvPbu/P+le5Os5vEJS0em54rYINzi5Wq/8dWy8x0JOaXkduFPsqlrh4xSZaieFg2egHOah53kZFs0hplw1rXaK5yfn/kFH9UR11MWOuV1hLbMXrqm4q77n3vwfp+G7q2k6jD3GmO3E3ZWVlR3nVt3hjEzhS4l1DEnDhKvV9be9W+2BbV/vXP+LSN1kjA/RZNXT3hWqWxS1sAnSKne1o+tnAK33a8I+WgpMPUS4XxV77ymcBzqGYCL8msS9TEeImRIO/tZlmvJN4Q9R/mFIMKA9RIFHaNOxshiADbFT4xaKysSbR4oHqka+b5BQ5tH8LpTTzLbw6gl8vHf/PoEAP+EgSe+bix4A1ePj3nPEvCXjbNzqT57wNj4ceIb+EGPSXPMhBKx2EZXytnt3X5uqW7XSlpRtsGFqwaahmDK0sLHQE9Hvy+XG5wfc0fAWBqDJcxq/VMUFH70idkPRr8y72x+OMrhNGjz5rXdXUz0mHLTzNrnSQ2QOtW6/qMKk/3wn8+LcnopZaLGljkqnSOCfBsxnZRoMMH72UIFxRBvWpmgG4InIPVdd+s1B9atRzBHGiS2rxUAsnURVHfW94IM/2Y1uVGoUDsI1Ny8cNw88e/fudujhqnoWmKeMjVrtGuE3TgUFdj8qf02F6t2w+HGwGvfQZsM5jMxmUWXFkGsKc6oYzWxYUsg+IOeFPzP/7qOlHmWrTgOtpszTKLmJmdMuv1nXA8XrtQoI61WPqFxi6/BApd0jM4U13y48Nl89sXGzndfgLTzW6WeRI2KAMWD4UkfJX2P7aRw5R2mgyUMzDfPetZ2UTSZ0UjXm4iMsB7vvZZMPdppF1TiRxBz5VMxPY5UADFmpe7fzhfNeSyZdPa+b3x4/Pq9drBML1KwfWeWV/uRuJEYN5kGLTM0egISMbNo84wwHrXrbxbkzLMdInWsj14yOvTEM4Smu+jCBMVs05nXNCz379yQwUGNVug/2E+iHovKcOE87V7vnfuO5aP1O5QRVNVFZaqtOCyustyfv/9Xu7vcm2cYYJqi/u9qt1qfJ3ZF7Y2Wl7+2sAtc+4RAZjHoQcv2cTbvWRjX22/CgRu4H355UQ+4HJbDbaDO0Mipw0GhBUZt7krkjv5No7pNYhrjUIYAj4dGLwODsD3zUf4cBLvxgJhIzZv+fST/4awz4YnVGZhlHNTnVwDzkbkD+RKpg/ieWaXgrk1X+9F1V494N9YNlf4wg/jBrb36JmM/NxRYWPswfjyZSN/CIEYMHhgskP0HGzcMFxp+wQetAH8gf5S39qyXtzVvJyXiFSHLEio8e4XxOa0EfiMtxgIMOBX8oUph0cC3ypHBp9R+Wppp/cPH5Y6E0f8wgbTlwnx1XYJWJogMVwe7ll78cbrH+w4993Z6FiMG/GWm8qrG9kO2+j3U5CxGkNkyHSuEEPXRFvWjeR3MUyVvygHqw1xyf5pHGmRLqXyJn4b4YwCBR2Ur82HO9YuyPYu57As69Ru+MrxeniX/3hd3uB1aRtWI/xeGviC2rvJrJON+3uqclgxlsQIvZKb+ywxg+U3+E6ecwOjddSf6kne9iVyC0bL/MuQ3BXqLDlYzltHEhCzuKcVw4Oe7LfHc96b1f/SNs+7hYHph0ook3gjHgZ44VMW9neOODhz4ZG1BRvcKAIiZHbZTuwnjk31lX51tfe77y8xQpG7+VsnUWcJ9YvWCSpZaN8cccE+6o7XFrZOHzJuHk1iqvvBWc6/hqDfoptqZDp8hZqGCGLOzNT0tHPiVw0omMGdbusF2N07gX9so4zS4n5/+RU135Wfuu3+KGzwkiN616yr556f1/Zo2/1r3U+rgbOUHoZOFkak9dv+dUvSjNmNG0W9hR81WRpdPEC7+fJLnrYatygn9fah2+O65ee7GalMXaWMUl5D90VDtsoTYxtSYzY6/7trynBKcPAuZDz74HqeTYefUOvrgiH7vUhyzAjKeH/PgkPquJkjpiSj2sLw9LX4ClieRmfCHbwiMTiRTzu/Dq7PFZxwAjSwYXGu8oDDEIoNi5mZLBwLqJV8tZqCPzhIjj1EKiEP3z18/6v/NN5e6PRypti3ySZ1u+V+YQoVaWTjB1anNC0QuNmDzlaOS6vV6v/XE/sqZWYrctaBrso5aIEov/Ph3IfkwMNme9MLNLkaqJ41jdUoHXwndcmUcl3QrtixgOwlJ6SdZgCgT1IsAVT/+i7/ULxO1dK+RMlqexkWFnb27mlIezcEIY0N0n+N2JRgO7U46CXWfy0u93vItc5w2gda2kSLhyHVTWtfT2/5Xv/rzyoctzsVkg5tjvGepelswZJhA4eMtZmnSMkGW7ZfKDG17Q0wqCyMeRihA7TJMywHPfPUt+Zl7u22fryXCP5ukOuw/e7/H5A70yddW9uPD4QEU9UGbwsDSYQnj1QKWdVOaF3UeYK7J67i2gLG10Z23U26x0ex08V0Q/CI9BrElvxg/mXJpiEPK40AJICwAsPC6F+SzxJDBgWHtcSWUlvFDuA+CmoNQlCl6ivnVYFTlclVJMeKOET2cJl/OwrM90+vR7lfoABryVOymcY9mf5FYMzg9sd2EIIOMrCECy33VbqKl/0a4GMWLenQw5KrzUZ1UIM7vmB58MFoGBOiF6+IOWSpJk/C52tLs+rMNyqCeXrywUwGb9a6Zbs6PSoHKuWO3L2OekfzFTiux5gQWjOo+pon48i5wgBjRu2ytWC2nw1hec9u8m1drUSgOR9cDmVNuqhs7uX1S7/9p1P+i7LvJTctc8c7N9NDhwm8K1NRWx+3Ad4eJLcNS69t2baoKzSa5cEmWnENAYZqD/wwB6/yMRDp1+ssYtIxqa6WDzgcJDY9TU8tCfn+yHAHOyBd63NFlXzaI6j5hlbLaVNb4X9jvQsRLLdeF8i9KP5KKzl/6ZAppIbsYbxR8aNaPisN9DPzvlF0sbe+iIP2VgntniLSwyZuIAA6IIhgpyM9Dz4tSo3uMXm55t5w7EF/n1qJZ7CT4WTaGPVuje3Nj94Y6KUXSyEVhRvp+lcYA9IFcsn4IL0ZJjNnMLiugC8Vfi9gsik1QlsgBkVsZdHAyAE8ca05/egbajZKRexu9iH4EnjIfChzA8RWOR0dS8CEBSxqo7tS5masVKgRXbDrjpc8JTgPTEm/4sFNh2OqPhJDu/eeUP3fz8tgpDHGdXnSJtW27iRH/l3vi/reCOe849r6I17p5ps5mJR2w81leZsAVsR3Q3q9y3WyvWmn3Tm/58HKQd5Za5I/YRkNdiDHlyaJJz1jMfFncWsx3Wzeaxjh+MmMxH/z1YwtOYcm+cnF6LDDlF+bPzoEQMX4qVDyJpT9bNwLDYtScHWZPSavb+ydXwwCWZTjHA8PHj6qMHhvsZ+AAhuzaiPgxAuFJ49CSmh97hfKl0izssaCnuqGZ8KVnM9xiszwBSjtIEe1BsDN+I8ncyL+tDgHIV5nJVKrJ/M8GUGS0lIqCYFy/LlWnv5b67inWfMdMdhFlyp1JvU/XCcJTal+Spp4/QxDC50czTRFB10y2uparw8WxTFpm4e1OOY9XycPv2CLoVbgSSNOp80X3eTp0I0opykjx7oA17CXxnSUfDQGD7k3bU+5248+vjxHFV1LHK6bAcem0/+5az82dB+U4YtHy3ZWMa3anEN9EDBYaeBAaJiyFWYlYLGwll7+bf7NrcWaMKyHBl+OC+Bilo6CpNq9XD9IHqeooyL99wm1uRmWBLfx9ZO+tJ/shqfGIrMuslxFP9B6gMZwMw3Wl6VOTYCdzrmas9zZoyXKuDv+bbJpKbcfP2KL9LBwmJR/n2NPIcbKlJOY26PsplBl1PcUvFkGPtZFyKvT6hZw/DSXJX+FK8ZSGWjPClGCXLl6LDyngG0hEmSq0o3Pnx1LrTc91+nE8c36umsH6KYiYuJWgUPSiNTGw9qat++JKVrUQ4aHGKELuKmntUz/vjoqWerdznSZ8IPWWFU3d6Laru2KoI+N+yY3gPGKFaWhnDIMQ0Aoy0Qek9l7vnuPFBbAb2lOypZ+FUMWDYP3eLm+EvqYv/aT/vbYZ2X01EycuvPOtd59qfVflPvEE7mLjFdnEXTc0i7j4olSNG1fPCLT0HD+VIYZVxUqZsSNOfKrWJH0lfnwag80Vusghmtj8OXQ5OFSOPsPBjLWDg8YHCg7arLtx8uPD4oKUdPX9d0ULk6CWcbE5DNlFmTUiZ8lGfJIW3JugFVUBe6FS9Yc3yLP3HNNO8asaXZj6YaD7h9+CrR5Niqq4BWHh8NDB85GppjKqwizUk0eWFLYVCriiJCpN0YYneG5XZmOz6jo/By7ARQVXwZ0b3RwiRQ38YOu38Tat6LcaSQIl5nzK2y0C4UMLks1SG+K5oZsHXgZ6qsPQUTP1PO87z8PMi7Hg6mWEOgboTwJ7U2+DpQhURSOypINksR+9MEIjhzqZUSCunuGAzBzfy8FW9CgGJi5FR8cyXqAvp2sdCtu4YbT8cwJ2FU8OAdBWo12twfG57/Xds9VxVTNouvvJakQqc1qQ7/hft0WsMLVRDC1wuTtwocdEJQJ5tRqwfFTon4/CDt27E+vAcCVUVW3HiJf6NfvJOqiIbG7OFCJ9jXqzwVvYm/lHLfzrzHdrOeme6R7vIc/RAOWS+R2n3eGVquUeGj8KrpUuRLHb7G19vYSZifsl23xvrJpKb8f3FLz4d7FM9qReznT0/axgwm6eY1sBIdyBKPXLZhJaXTHJGxYFhsDdO4VDMRKUaFMDBgfSsYazRHrPnTb3UgzYZhpuvb5eTLGwH42iqvC6UE4p7TFiyCRpBJt9WmCbwVRmpy93ggovML7czos13csF0mZn7kFA88kvwbauIq7u343TiKK51qhSQSoxcS/dpapge1xTVDBYMGFXetEhUa6wuh2Gvx9btISavl3/aJUIJZ+FEMdCcPld/42L/P17Ns8TLLhTJsBqM0iif/mL75p94IWzF1Wwsvo0T1cUguhNiql4Gl2Yq32eDnk1hrvY0v1L8IolsLrZo3dwKbczz714bV5j3x4ond3wMFcboivhKkt1nLr57ou1+ggrDJqlgstkTZkYZGE26GfikmykgE8jMnPn8kTe6G/glYMhoWbBcbEotC7PSGq8ohKeaTljIUKuqNb6Q6N5qvfBi/2Ndmuadm4pk1SAX9TJK9K6w/xv9ZKBa8uJ4STU8e8ajdYF76cAmvHaRQJETq/4li7YmNbvUMyAAOesuKzCPs1aYznPE/h+igKRTbN2PpkU1PvlWXsqvPhbrQputNnFUYU11prS9uImZpb9OZSIxtXSg8kYy8NdP+9Lnw0q6o85x3wg1LORBcoMUqdnUO9uZ9mFs4ZOn4tGBN6ADnYyNMeRsaCIJFdI2rG1p2cq6/aqfl9bUHaedxE86DrYfEVbGxawrxn5S25rmaddjIBTslLGIsoSYicKKEEaQUKwzeAD/GnkiC0VKkIRwF/DgVdhYPpZK5XKurHY+dm1t+Cm1uhXZmy1rhW6rSgxN7hSITuB1LkGdvow6O1kr64z69rV1e8LRFRfykY/MDUQB1gBEonn5qvEQPeIXAcJH9HxWJjlbPvhy2ESY7qGydjDaUKaO1+7B9UnhAzkrYuT7dIP0S80vFvJTi3VvZAPU4dx2sHN9lH7LCcOX+u07E+fDoMCmYoGOlSjAYYrakkg6iZB3qUJAHYZeW8a0OxZ6Rmitk4Gela/kskZs3c3mLHGExkdO0lPrznvTyC28X29b61zqTEQ/K8kYA1hAYJww2ACY79D7C/yycjLXwpCR7a2m7hftbpDd+fn2RetKgWYgDmX8AB8j3PsVKvM8lL9mbkZk5TmhtpwMRp7sUhJn5MbrYUdtJrfX3Ev2cDzpbrY/e371H6P5edsu4RYPs04SlJ79zkvX/4cdiJ0q6jFc7BBJRbc9ciFzcv4zQQwc3LvBsxnKFR8XvVNGHup8nJ+gqJD2yzE4Nsz/Tev8H/bLeOh1w3LbLfq7neemu8UF18OpUEqtXgjlJep/mEorLAabDsz9xp5ybyCe2Lcneax5Yhv5NAIme9g8yJamaYLmqikZDll3HogEmVey79/jl9AsDlAF2rNwQhgQsknjU3fTjK4l3p+EEyfBRuYoiIbFqGrH1cYEgeWu14WvkOPMYcw7x4qdtte76K1GBS5KI3GVVuYIGyNSKqI5c0IKYGe9Nl/m8HKLxVfZ7SCisCqpqQO4J37P5wAKZ4oCNNXKJR8Fct+HEU5xtMpmLwdTbE6VQXRtB9/1BhOntHeCH2GP6XMRRyMxVFvlQvUJQSlTaRb0PRptPGQazbOdwr9sSkiJIcedOyA0xzfw5FocvrlrfS4ofWSg2lB+IpgPcjk8ATZegsOWWDfW4RFA3MQJ5g8A2MntfCfJryun74VBOy2mngsdDjoRRWZ3BOmYgrR91ytLwTYN5Ecc3batYN3pPh9mHyqn5XLrVJRTBoMnxJeXJpWvdyGhME8B1c9wkb3iXBKOh7laCy4E09jqdu+ujl75I25Xb1dVUNocjCZqatt3nnvzj7nb67kKywjNjj1h3Iix2bhK34jdz7sYccV+q8+F9YaQUKihUrWlWBAY0CwI+rBT1z9fYeqEpzFyKrSUrJtn4eQwwCAEoyz6glfi/DufEgurT2OjOLnqj12SAfzYxZwVMMMAtMJSXKw4F3aTtycrm2tf6F/89PkA/fkrWOlLrSTiHk5NWurt5PYPdsavFvbNvJzklh+wQXJkzNnbbI6n/EEPaVszkFTCSdk3k3NPhKJEdAcWZ+ZidR9OX14mvbUO7r8kq2jzyUhl0xcXKCI7pY2eifMC1HsQAOpuvvG2qy4Z+IUFetiBYGkLj5YIkNrZMgSV/CtNgfoUy2uOkIxMHtGBg1IRUSRYYphLOlrBJ5Frzn6D9kQJKveLWKFVHkQfJts/Gq28uBJ0sBAuLQA2QSgyKeCTjoBMzfddIJwENEcqA3qY4JVBshVP340G57rqqh3ndzwrgMFgOVDVhZCqQsKWsksKHxib6BYS9ILaVuFc8XqdcLqL8A5cSIV5dRpYJlbloRuIyJeYi9w/1o4E2Ec5EzPHidxqUGRJ7pcDHA1ct7af+wdr1VeGkL1VBMmLZ4G4P3ox/1qw/c2yO0igpU4JY2Yaow6RxeXO3yTnvxCo3KqY8HlgP8exCmOhTD4YwrncCbJAyJw8lBdwSkCedrGnQkudNtDPdvksW83TA4/Ce9WqTrJd6WAihpBiv+Cv9i3LkgRffp5x/7/19/uTT+ppAez6UVZimqC3TSJsZhIXcvCUATqphj155cxxqxELa0O4QuWt6W7rleDcb60P/k6lro7Y/dKySG32ucLyR24ndtbcc69snH9rdfTvJ+9862ZfXYTVH1qhz3lSTdnZ5XYYLTy9KiwQUuAgkxunvMU1OCQJmXDAi0yMXbXPYZwRSzNyi8aeKG6l5F9sA3oQBWj5mystP2+pcTh+O13du8qRkXDiQWpnFrDDV3B0WLnljhz7l9woyelYjDVhuVsoPm6B9cg8FTDu2y6h5JwYksqu+sHQyz+IyvfG/rqHjDmOYbnZ405eRE9Aor6FBPh5mUycOj5PO9F/TQUakVSFvEAZKL+KwvRGEb+XhR3b67YsaD6wCD3FRSDMTTGDnYNUsC80NcZH5cyHI8Ki8jO3V7Vu5sObk3TX7lp9321jUR1iyw8rdlhWMOm1s3BkDIAt7tSKzO97rhomw8ALvhKt/aEf29sBHGl721deLzmnvtt+72uj81A0HKjoi1Pg/clapJd3bnXx3jj8YX5+2ipxyOjFVdatNoqyzdUxBJ8HMxvT+VhpYMQIG1JLBB65xU96xgW+xpMO7jMPn17Z9TrPgqSDabJJJz6L6LHLI2tQHYSiajzW6feNMBkWAp+Qct8PFzIYgM0vr5Y+Lnxy9vgQGGAPrvsLJAvjgvFgW5svvn7lD8LBf7FRfCaLO9djeze1c0SFWsGGZ/uRisfhtnV1W31p2Plq1P+DZNLdjpwoLbFBDm0hjAIhL8TQ0fKAnjzsHL0isySL5l5cJVa39Aasiwk7KWdPOA9mbAr5IldUbMNwiTAqCeuqpbYs907rtHdNWCNwxCAvuT4TmTnxsApLRzPNzAxh09c6G4h4k215a08/VSxR47cMd8d52XEGXhRuvbqrbrdxZ+haAepWGkboFFZpUA++ZXrr3weemw/aGlOBWU5mHEqv8hzfmQajt7GEnoT5mkKXS2+M2vCKyBoDqJBUYhSb2IwjqNBR9OOyEwevVK3nq6SdjooiLhzXC2yk97JtadSpN+hBEfAU5M/alWcX3aqD0czo+d1P/NNBtv5hVfURk4QXmIxi6+fn3vwXd9PbeeiFYdQ5DUJK+s5MeL0ZIaRVfeCqD0Ib90YOh5cS+NoDB2eNIoErCwRUNksF1+4iNyifPwWYPhKIp0JLyQYPB0/bNDKR2e+RQProZqoHJShoxg/DSE1IyRLWGJJ8uzQcVs7BdAb9wcQHTdFzR8oxwDzo56eX3wBWg1dHTq/Gky25hp9i2YSgGqCuEAPt//5Q/fKO6m7vRpMi7bWqtTayntwMTTMnaXXUeSdb29meTLL3rc/vvPhPBv4rcbK6nRYjHGxhtU+8lBNEnHQvNMeVGIJih2T1Y7/klg+P817UveSpdo59Kf0N9NOMe6J5+ai2wBqCWIGyciGo8jd3O+P+XumnEwM/oMWQSIjvQEVRD8wdOG1QiqKsLd7EOC1U0AZkPh0o7l9qipARzJuMw3qGUD+06OTdrHwVBNsK6WwvmC+bMKo16jWojx5gG2k4kYmK0XPwVJDdtqM3K/Uh1rRdhZ8+bvOQQRcUaxJfOH0AKjhnsxSKFrGwHPWCstqI2y+Ha5/uF/1kt9hK3VT8y7BTnIWHwkCsnMDNosk0Wouu/lGlPrEzicoW3RF4YdFtbT13988m0c+sVhDE5VjOS6cWzJhkIjFSVBqUP5QxILbmGNOF3d3geID9TnGKAAgyJJid82XmsU2/k8bGqdBSINLASYQ16yycCAZqrC6UpsVb9tKam99e6iOJSXc3ApOHQMLByh/9fnAQBpNSQ1JHDsv55KQ3cCwnFtQzRYve9z72u8+pS860iKwsDPIe7AA1yVSKqlpuFYmTBO1isOKda/t9bAOl5e7l3+y2XszzIIJ1BH+GckCCMLjYCvfEeqTdphPZUX2ywUopcgcRYjstw7jzXKvyk4J7KT7jQy3Lxa6KII3sqWy3Yt5Ra7FF9s03N1vxnl+200IpbCctpi3UUugK4wcQYI8xFFnHaaLwovC+ws0USnKnBcV9y00R27d8NxWXO6kzBp9h0h3/sIy3RlAnmovAxST7Dj0yg3PpbLpvRQ+Rocnhdiv0CvOpPU6dGPGmMOtZN4Py1SgajUXEDtYU4BkDrbomB0OiWBaC5oZkFZrVQaMsyF1aaa9Z7Y/bG5+t/CvjzN1NyyqwVx8CvLNPwAASd0XaijvT3u9E3d92dneGfSQR06zsT+07A+svOze/MVprDTQFU2b+SKbnKQSKNcOSSIk0nFdufyfGvxHm7zGZZud+f72N+oLIzmneMEuNmZ6nAMvjLPJUaCkaVM950FbHH2dDn4m6DSabv6C3vqJg+ePRIJ88B8Np4+AeNdavThuGo5fPzCeY/HXk6J8/xpyGQjUoBQyAF1qKi5XWhpa1rtouBooQXvIsz1dOO4XchgFgxVaCWFRuJb6bbbjFpc5X1leebzkhezWXBY6HVLlsobIyztk6e62kFrfC57vc3EGXsH6yUCovdzc8rvuEmy/fzNgMZJZCyAn9BYAITLEOpOXWh1tuJudjeaXDXgXHjlGeKQOiSargEcFzz7dgiYndCJkonInFJJbOSAZzW2q+ejS/oIWKzJwFY4gNuQWYt3ALk1vparAWv682b97KJxM52KM5LpjMoQWh/PiwbuNpQyuU0DzAjUJmOFZxXE1gJ3TsnjcOhm9HW7e3svFYM5Y0QhGcQvRJvNuyrQh7iiI0hrns86zCL2wcDk4wOuV90jv3Kc/pJjk3w5nwKQ1a5hWe/XsoBgyNa3773LgOB60X/Mt/BG943HOfU1a7LKJt+7a6tfKzf3kzGCE0hUwjY96e2HcNkqFwDy39oV7UfScKHdz8+9b4TdT5hBXJNZ+deXY3ZDig3cl4kPHMEmKu2J+tfnf+m5WrIsXI6iL/SZDo/G+O29k0NtMLVsMsXZh4umOY50TE3hGqvKBLHvmfwlieEfvkVMURRdZsvpQ3C3+srOQ9+CfZ5JN5fuKmbhPh1/A9TGQO7eK/AhAlNIJJkS7VgTcmhYgkzDDR+EBHGQC8bJbUjMt3Ap38zXMuH7VIprCzUInJTURjawaUqbUJDyIqs5waQyKTWqGfbsoQWEE9X4n5KI2o2c+svL1/pBQdDPbJLWue7hB9r8AOKiu2/lz/6hzmUUCQrpA/tqBZQfN/aDBBANN/B3tylq5hqRvOngY2D/7pLpeiyT6v4d7/zhu2P5duigZc400QBehS6KxNGs46PkPU/jIexRPwLK9mNvb33hqEZHYCG6htd+zEhbdSOOnI3T33qTX3q3dsN3DHWEXk8gVaJ9YGAZh77IxsxkqEymHDwKYRMfNks/uD8+e+NPnmThF5KPUVU3ulvTLNNy3xAgEnR25opNfBLh1bWR3LSRPluiFWy/2yP8qL8aW7V/7LjuogdY7NKy2tzjyHAcGVXlWliee2WlaC5+NS7ar037iTvxl4qyKJKmP3YGAoUKnudxNZzDJDCHCZsaE7sDFMOO/SwWNvCv+sVYVRtrv6nz83XHkLi5jh5JLyp3m26zodNW6VPsLxkZ2f2/wPd2M3wdIg1pqTYgIR2m4htI8KEva6ZvXXUNXPc8AEYpkROswT5V/zySxlnkenSxqzjICb4grBEbk+A8Gu4wRsQJio9t/od6/0rBex3zSCRLYClU6nbtqzxHPLkrEidTH9eO1gPqyqrtnRB+B/TxSsCV4TMI1sgUQmicCso+afxm+JnWsFS7LtVEGBfUYnw0YXVGrvnbWgaqmNIh2MUztmIFpspBlEPAwKbgUZBLCsWFq407Gxl4X6HuQ64vaVF1mrbutCK/WjzexamffgrmIaQshKdgwnx4lb7nAttcrGi9SNKH0xENGiAA4H+T6sWSEAhzQconjgRBQI9SOakQwRGYLULUZGlQ+9Sj4YlHxPNll8KAHgHDVJ73oBCGUthQRA6AhFNy+q0JjQeJghQ5AyR+D8xWz4yTisw37Ezl/I8ibBYHjWefLSGX5HHFKiecCRJOc8AhQN0T3pT2mLfNHLVrMqTt0JHsQhScvIS2hCu2xF6XBt95P/rW99KZvEu76KrDjNV73eT3/nrf/tdfua3XXWpkimhdyxqk6+UTgYzhcEaHhqwE8sstPaWRueF6FKS61urOQv79L6DOtx6v3hn55rBauq2gqK1rbnhFbPRtXQsMBPrP7HXNB8tTg5MGRTbfTWbEwwMnQVJ96LdYF15LCmGEgOe3uU9GYVzbj51qRI6/XcO0qBNUjmq4VP9orSZdbFNjPPwGChmS2EC2Wc2CPl1/XWkRMr/dEWdBj8p4zCE26ktILjib6iwrATqtEYixIx61aQQwqkyvdxhJZB+0BImUWctXm++gtnpGOtqcHo6h9cfP3/uNbL1is734pv+2zJ7DWQFqBDT1q6XmixAgooysMoQTleBenIaa2r9S9eVhtmZlPeLIK0udAKpeWFWZEkpTP109C6MXj7R+902hfiUeJiMrMxnE4QLyIOVZUwTlAaiqaRdQVV/girAhCTCoyI9X99aoAocTCCVPpB7pyrusN+NsldTDxY3axIh5Mxu2476MSWdjJ4gvAdXhS9KR2qA8pww7eGnStusCHWU62sCFsdOoCX9KBGneD38MJO9Y30MqQIdAnucqNrqtsO/Fd61UqWOFMvr5xWB9YInBBIOeimUuW52E0A756VF9z+QYWx2WLsQfVag4/1BmvFrR9vY8DdSjDa6dslRHmnEJukRWJxGBAjZZjfgEoGP/A2CmieDF9F9CNcUgk2xDuMUqx/ViPTchi1Qhxq3qykQMFJgIISoTTQrPk61bp3lRKjYkpdYJZrKbizFvffIuEn1Kn+6vH80C4qlv8VNpu2OSi79qBMMkycegF2vLxpbG958af/vmVf8rJpbre4tgf40Bt1dv/yjfG1pF+uUghKkkJDyv393CYnxUKamqJ1+Sf1A//S8YWYh8S9/c7N8xCBZUoPYrfT7kIPQ9JCzQlBK/0lK8BJ1fxElLPIYFgK1MKoMt1Mzll/N5ZFxqhJlHEvo1Fk9eUf/bi08BNMpOqlwVTBqxOpy1RRl1nX2EwxcdPwe/ySzbw1+evfpYn1WxNpNqcZX8h2Go+A1yz2KNA285v4I4b5IABPbwoCEGBP5pcsigS5XcummRe2yiq2/Mr3EPOkj7BjzXyUziKT/DZmAMmteGXauqV+I68+ng3z3Qpr4ZjRtDFCgzl1auAb2PRynefKQZxd0Mm9NHISt9PLLc67tzZe8SY9MQ7U7E2h2DRQtjed+lmO8Eyyvv2tsrjj2m7C2gogJ45800BzsrfiwI5DxOkHn+5YPWg/10MyPkjZR4EUJIg2kVxHpVUnan3CahWtMA/Zy8V8BIGNeL5q1ag7cYAXCtTonqEFDs3OL6LpL2IFmwdqBJcsGIh3Zr6B9TYodNVjDIJIhhcMym2V/FxVr9nWrg8LTcRl8sjycyF+0A3lqC6EjrA37QojQxgdgj5gQMB6KionUiupet7e+K1La5/y88FwV21NuOskfwHPtSOEFHqhOer8SRYXQhVYoed2FPJbRciv/JUtMRBWti08PTNO5QIJKxyCSZGa0yNfxLVEt0Isp0FrB5UdWE7bcrPETVJcAWTKyzDr5cAWK4pQ2xmVz2W/ONL+SOZTCcJJlpDao8qH+A+dTAy2tjnncNzBFuaXK+/3HXUOA/JZlttJiEkvr/pu8N7XN6s7Qaj6oixno8rKzBXVElPa6f3CYsM2CsxJ7vSvvXFHcevISgUJsNat1hO6UmzXwb3kWMbCpM9bpwfMoy/5qHyp+VI1g1CPM+KzyT9/pLuEec8vKbIUMxxBoT7H1HmO38gZMAcKotYDaZJghqRM6UMyLP3qYGLz82bc5DQpBrZ5/GAZ+1JqkJpfkYPPTUozd13jQkQeZ/3QzH668RryB6qmhvyBvjrxzAdxa6p4QsC7b3thrujNHhtEXJtzlHaxU5SOMjW0XPS/ionledzDVBnH1yBH6pw9aDbyGSizOUIJKnLdfp6v7b70exd/8cGNYqvdclbjNGWPBAawlGdyfIQHIIJFhCxo2X3YJBW2rVe3Br+UWp/EwE2qYvZLjvJSMsWyX5qQpVwtFG21ql7zht/bXbEuVHncajmpkGcnPGZNA82w9JTPYu2sVf3PdUQ6pwzgSZXexK4wx4AYNbc9SMpz8VSpTtp6pYq+FeNMzLfdiRi/sawA9oronpmFY466WaNO7x8qEtRxKYVS33YreSPrfjy1LgRQxHjtwA0tgupz3C5f6E4PtrpkTssycnQI2NbZK0fV8OcJvJLwlY5ayzMvxjAGhD5jRlpj2eIpCKTL9sl9HGMR3pRochV417UjYTGttqyes375XHUzH12Pdzfvulngh20usLk0lLEo9DfiIzblihxWMOZRaF65JIL0AiYRdNZ32PA9NMcO7hfIkoliK2z762C+gIzTBiaKxK9UmDmDsrXiOYGffzCuxtAoFiYtZXxKM2ejmthjCKYhzKkATEA7xaFFzIuT8SQc9y60LvxXylqHOhk6OUoAbafdqu6k7/3ZJNgKvQJyEQfUmRVIyyFjCthSxhH2qbXESuzIZk1BLUUld5T60LU+EZbFrur2nEs72S2OOC6XlbJ8MRhkuTDj/dQAerQFH5WWWgqVXmXESCDzQ8Yz/5v1VCKyVsq4F1JGHwhFNWg+C5cWd+TEw1Y3qfXwcNhXh3/xkG9o9FHq0rg5UhXN0g6LH6mgU8hUt0Iih5OqTxrYp4CJR1ckfCk2DKTuWIv0pYVCOKaYVNt/O1r51Sulu5UV48DucaWiQqQVIthNAhwHQb3LGEClR4rUjwOuXdwv+utfbhd/UQVZyA1ZUY5F6w2JKbGzSTVce3BRyAbktbMV6JGdbLf9S/naVztqfWJHnJWE/zArtjEJXbXSyyJ1s/vu/3vL2uFSrXKdXknhmqlm8p/srxlmlp1jBcl7Pncu+1k5cq2QRaooEtvtiACNNLwQB3K2BwclfMGONqbTbWyadrmiSIoETggEIfbg2RFOFrz7lmbIFKZS31kdXd/c/cV0sLKKXoBVjmEFzQmpRi/et8STzmA4Uqazi6HttSDji2K3nL5WWIkXfMZzLis75p4HfUkRBWMjh1iCuBIukZD0csfqY4BUv+UWEJGhRMW2ZwdBS621By8O1Ga2e3082rzbnayxq0AcIe2kL2dRJYDzxNicSrPgt4jleuF7yZPc5EnnConM5Tb0EoSUcMTylreGbkRW4hAuUZjygMeH/gNC9Jccq6XcVcfuugz0dCdltPri61C4Z483AIMZzKDLsfoFF31qjL5uXva20k33uekLX12xf/nDyc5aG0Q4Xh/Vk0114987wx9O170e159MWLnS5soefhD/2qFSQoMSTCea+An+4q0xssZ9qweDsFdsjH4Stz/piXtbXryQ5T/GcnBfBVNYV1yqckCAzH3caD7B1ssieP9gBqvkm2+Ws24Weok0meMmzyynljEnlUnPXQFv5f/TD2YlWlLPCdVuWmfa3oybGmdtNwjR05voEmDmSXMcyrOJ1ykU1axl/sUsm3mUPPq4Jo8m/wk1s67u3pG6vffOtvC2buNC+qN8fBJgOE57zfDQF3wilwJrQLTQYzX8trP66YtOlx3jhqgVQAkwDkXAlQfx6K4POLMxKUOGS72pZbVwdXz78u+d396ebP3gOnM2xJmXDGDjrVYgFZ68pcbYW5hGwcDufLK48Pd61ctFMbnTdUUPC5QKK2I2AnV1kriq7ra3vzZKfuG1qV2WgiDDZIOYFVrCeT0+TkwJt6YfBlfL1S/11EVQxZaCBQd8lYjcGDI2NM3BpW4G/YlsTOmuqNXfDN/56xvJzWjgrnHeSwvEgHGXI01+LAG/0V2vY4/8+PVs5ZJXPQ9akZVnL5ROASTweOhad/oQ11gRHkkRMQ49O6yG5fT1NCvKkFvcjXXIJ9udllAA4uqRLZMhAcJLLLnCYcFuPmL3KCQVSFRZDrd4yJznYWbn4xImKp5R1uEWrag3nJw7uDhNptMMggs/0BiRsCwvG8xbyQpI4XIhLQFtQ3mg4+hGbNxDhwgBt2tti3C5Vzht2+86wWrg99FMQMx9C74UBFjFVEk6kzIO3MD3EVd/dHJy84Ys/ktrZkmcAzJcQSN0j5WudFoOs3Pp+ldc6+9BV3H3N2ACK9zeZUX+nfLan4fnUFmNY8vhAlRE9fEuncFdBv/iedoEpjjdcfIhtNoj565Y9M1VWK7c/emo+wdrQsJ5SfeTboKoFyY7sZHAdKQxdP3Jg/A4SzwSLbUAIN1sVnMdkWVUprZO3JdTOLSzBGY+GZbk2ffBUR8oZ2nWw9JlRzm5QNspzNRl4s2ymynNeDNPE86FeLPwvU+Wwc+Brz6fNgvZ++rUYgC5UONhLTUgLGQ+Nbg+KgVzs8cOgTFx9iU8u7BWebaXp5n62br69qT8/dDtBiJOgXOJPMMwAjsxHWQGTD0lhbpieUXDDpcOVex/IR4k2R3nTvGO642uQDyJSW490Yjzred5w+62dTntftre+PVAfTG03TxJ260OZJyU35iT84F5J1LfsaO/rjbKzq41arXddMo9RQcWACXfe8w8cF/Kzqk/YhNfyza+0ul+0YH88LMgwRIp7nMzr7J3S3EbjBgs5IiPLhpS0shRub/WGcRh+S033UHY2QvIi6Lh6ew3R2kXwjGjcuIWrvqwNf3ZpAWBt2ph2FKL9EsBTVwfpcBTylN1CnoS0/rw88SkVFql72Rq0+l+PrfWUMJrq1BsKTB8GGfYbIWBorhdZbBATmHekx7Tsjxdb00lSTwdob4XBDALW7BEcY6rvhy48DJTvxWFxThJx3k6mWZ5mW32kByBvGfT1trDDFPYX/AZxchV6WJKnjkhouaMbdI750rXd7y2T+dXoVO5GcJnwnmFV4YbSjhXEQYb2g5SgvKHTSRjePaU0PbAxdroklSW7/WANe2MLnwpvPzblvXS7XJrrdtCoy+zuF173dn8c7fzgRuuWLsQuPjDkxH8/7d3Zj2WJNdhzv3evFutXd1dPSuHi0iOJJoibdMSBFsvFjCQH2RIECT5yQ96Mvwz9KxXvYsQDEgWBAgSCHsk2DA0oiiSlmgPyeEMZ6Z7Znqp/S55c9d3IjKjsm7d21tVdVdP36iLrMhYT5yIjDhx4pwT2HYTqStGempjRk5XfSGEFEWL6ig6vCLj7gRx6+jDPetoZK/QEfnqa+FBYOcIA6CmCbGFouWnzj1mk+6/OjZjGdzsGjTezmv2bJb/JHtEw69rb/pPt65uaWN9mQeoaYj2mNc6u6JTa0LKxFJS0z9TMHlrfM/EnMOrKny2UQbac6jgiRSxGHvVZPNEoDifSkC+bFSQI4Fvfiv87ps/evXL/d7rXhJFLbvLFpW74RWHRe1/hFFV0cHkErN6Hc41DgP27tE7/V9c+UL/hvV3Gwd/lU7gBKRKgxqGU1FASLXb7Wtf6Gx841Xr58fW2s0J16olN8JWPx7eZJaf25h779+685fuK7uvTu2R029PixRNLdfZgpYivdqBzc33OIGURrdK/9nF537hs/Y3nPLqvXQ8CliYmd2JQtkd5TB04GW7TjIfS4Jcm8MBRLSxv/XV7XLfu/fWAfO86/hxMfVbPud9jwPKmfO4bT8aTVaDFS8KDt6/Y/98K7zileOY5fSSUFG6iQfl7oq/3k0HmdyvOwlagZuE5fv2u/n7a68O1l2hthHUgXT1ygDCPWMoYSVdjGdwxpbaKZxB2FJBuWfZrU5b7Khzpcw0KbgDhZhWHHyIqqUd2m7fszdbYYoptFCJlkOFcQSdlSLQDGnGjMRBINMeJXPnGyqDCGXlHNfhkUNwtFnFWCtCcujrodQmYluYBSmmHZFVt7xAjgN7XdQGMy+LkrJj5gFZvs7cn49TAIf3sO5kSMv5HHYvXTuAlhoj4XfjK1v2l/N72Y837a+V2SjKD7re9M73ewdvhS+E3gEXPHbaZMoTYUlz3EkLMTORZFMOux8HlAflOZ5SoGxh/qalmMDFNOvEHR1OOtfR7Qy8K6GLrJRYnsVsp9jvhWP2oIKfsXj7nZf/tQFZRqOabWdChN09z2lsgErmMXlUl5ouXOk1K7ZZks7V2Cs3I9VQOBFQv8jomOPkpHyeE6mPee1aVO+iCQspgHnFL9zALiqfxUm+fLCtGiJfjHLaZrSpgjANtsaSCTcek8CEzE2pk5k0pz1VL6jqdGwzS7PMpv90OafznoawmYtYnYDAZsmL8MYga2Y3/kX9ZRJccs8iOcJScR4NimiF9otob+1XTZPhxKw5mGztBB+0fmH68q9fKb/q2tbtKBm3grBMVpDblfMPduoIWmG8x4s4cGkfbMqHK9KMOTt4DkTUKV3hHK0U4yTen0wnbHnL1iAIN0Kr37KcyMK8ELapINzEUJerzg1Rxu5ZIdegDON0hASsnW/aH+W77w0nfygmrSsKBwipSI0xHdLs8cqvPgvdNJ0SeAHOL8PEGXNq0817cMsSFKvtdovbyNCkF3YEGmKTQ+9OfiXe+OJg/fMb1td3FVoYVVRfeWWXruYB8248rPFu2bOGof1udvD/RqN3E/+w3cZ6dOsQeTJkyJCPhm7wV5C+F0nqST3PiEiZtKj+nE2JJ3oH7otUrVukYIJPICNZh+i5lTFcvdJLkQ/LJy6jEMNcWdp6ze6/0Uu274hwW/0JVKUxgSAhlHZsWCmYY2TKHHes78W3vzPsx9dTxSLQFdW1Sy3HhSgwFNR6RKnvS01KoF2c6i96Wr1UD1MU+Nd+/aRY7Sm4VIZz44EV3nDbrwTWtcTy9yfZQVi8ArgwpQRvIpTGaBSQMRMlR3OQDgwqFhW9lOTc2FfJQiliSUgmPTOIsSjpWOFrqcQil0sJOkytQiSEIVPJ8MIKYYTruQOKiqYpOAs76nHwB0fNQWNj1z78YWTf8gfl5titbCtojqxCAzmkozUKBBKFkwpLKlSH6ATar/rYjA2VV3APnQNg/q0/gJlccuLVjsppx3LTII7GvcEgzsZyFOZwKsmBJ0zjwgqSlfFqMl3/+PqtF393eP1X17nGoHSOsl43nuz2rM9P/rz13jf3e4eYdMizwJX7Wk70mAbqQp40xdQFJet6Y3vctVu9obXTCfyXf31g/c47CBNEWfLJH3S63+pmWT9buWtNVoSDJWppMvM3UXchUD6RQmf5UjRMN48nLTzfdurSTJmmLvkq5jmG7HxXTyizsYvSz6Z7zPdFXb6w2gVwUs5MURoVM+XowMeE9RnJ9jy08eK7gqVaRlTZn7DDHv44fedPPtr+ZK37je3w6jBK7rQ6YnfSyYMy5cZcNKtRpUOsgoOXXX1XndKT4txLlnhC0q0IYinc7rXEpg/SRnnkIawywXCQKJmVfStrcweN7PIdLAkhhMQuhgTTbti2kw3rnd69vxnf/HZKHWd0eprOOD1i5rWdcRGx17VfKvLOTjzJJqu7vXZ/Y3Ntdau3sblVrqfW9cIaRJyPna5XjbSZL6xKNekfeWWB27MAABypSURBVOUw6Pe8zd7ql8KVg87k7iQe7tgf+ukojscxB56i/OWE8cdZP8G6VmWe4HQtjx1CSw0DBNNeoj4u9weKVYvhvaP2h3Zwda0s4K8InwWqtKpI6blDgnCuwmSDIQLyxZwRFl3bgiFX21si7iQ99NhwLsoIes2cZo+ByMvSbJjF8Wga7jnB9bWwvwlFhfAaoEOFY9xAKEp06HNsY6rRK9oOFZUqpXFAG0+rDuMfHC2aILSWSJergSFDQtguDFoViQCRgIfNSwFGxNurlSVjPMAAI4RTvwD5OQgUFAlbQQJVxukgNkDIJ4YTXGuK/mbtTIvqgAv8Lw3uCt8Ie1xyjwEXbEJwORydYhSB8b+507l77V9Ot7++wT3iZRqlQXcajQfBK/k/xDf/4Q7XRtkellTlJFV/NRcIa6PoZl30Gh0DKQ63EL4J267RXrSSY5MEmbTW2nZ3ZBGeY2WFjqAvoXop6UkiuQH4+XtPTDqCC7X866dup/GfS+WaJWPK1K8PU7LekSykrh6miEuTZu7oEZzUyJ9JYNBlwo3n0rTpcQAx7ZrJvIi2nkm2fG1iANHvveIWd0n0h5vJ95LbO8nm/mjlF8PwtRfTZMg2N0FF2hq67hSVeyz/lGlmYcha5E7gFAjRJGwCFjn+DWO6gHlR1PdctcKQBSs2UVdsV/usQGPRyypQqmqjBMVVX1ZctKMN66CTfTe9+eZH2U8HL5Zfnfq35LOV9ZB5UzZpj+hYGsnoJGVM6xAeR2i5XM9e+w8vF1/ioC6ynOuyaAImDqiCeOghVjPZyLdgccjR5ozTk8hMIHalox4YUBZ7jtw+dnmc7g2rhaTOLyOTZsvVeFxXmIX2B95P/2InvwcvBRNc5+xQExdxIuVgGdIleKEeOKiNDsYHPx5e2d62ryk9LLpKOZ2YqcBGXB5pGK6XxjYY5Bb2sRC0T7A5rpNAH18wJXVyRQydkLMeqM/pwTQeTrOdsvNRGQ788ouB7dONcBohBpO4jNH1k4uOJtg9l4GC4yZsngxXBkxTOFkUAJVThKTYQRAqSigrRq00lFUcDhNvrBGMTcgojKMJhQn55GOPCt0HoYcVJQr9hMaG3NDDgLJiGJtFceCKfplrx5xEV2jjH0PIkLjHoefsE8pYUYQe5McUYsizA0BhTAIosvsrXvhJNnH/RfLSG5Z1bVzGsd33J2nZD1zrk8FHb94d/mO0msM2xmQX0pGgReQXzxnIhygOHqP0i+9giwEdWeaP3duHgzS0GJxOe+O1zk5w0E9jztpLJ7YLLPY+RKHPTpLGsNHjrn7ShOP+WNBmBj1p1FO+g9q/sBfnJiCQD2Iuxk7MhfOTzM13UYG0cW7R80NB4H3XD8HYyeLAhA4wnuarqR2P9ptkvBr/ySIv5O1EvzRqqGa7Rsj9vQthXoDnTwclfX+cPF4smBTqB9tIGJTJ252if/jTw/eO7oUfOBtfXrvyy2IJyOkgcjFJnZR7RuQejbTwYpEERbYBDWqUfqCW+EO3yuqwaZfNJWsJi7oMNmIw6yOzBVKsHBi2OIbIOUtw94jsxj1rdyX7J/vgrSh6x/VGm60yiMo9G5pNrXNqTVr0ldynxXJ2w+bVb/uZ8GkChGnGcVp2Ymd1NA52OmPOttpQHWLtHR6FHQyclQx+jBNJZacqVKL6c6qzR6vo3CtT2XGO6A8CHdjabrkx8xLrE2hCPc1aRf5mNG11ymuWtT+nlLMGnfh6UG2T867CbrtemHWjW6Pk+5Pi34stAOgM+d6la6oquegO4RTsdqMzX2J7ErHtLJpwgU/7FArOCuRD5U+xcQCd7VJ/1ys62SiJIyuFAzV0eyu+f2VQrqR2exr4Q8STYGra7RWMI1C0kpjG2IcwjuQVg5yGShNCX2Y5RoQroukQ/ZIBior/MK1EJzAUs7E4RWbBMRGhEgirIh9BDDNqQRwHiaITSfGI9h8V8HemRxxnZ/nE5eY4TpOF1JPKxanFTXsv8llLDiUcXxcYjIBE4t4bbpfh00Th0Yog9V765MVfC63X3WR6yH4Jqb7SJ/HGvb8+OPq2tzHZClp5AmHqBlnCNqNeWCjZsDAvpgXNMz6IUyqGDBYjXWzLMm94b2rFV21vIgTvCzCuo+4QAx/d0jty0lDztHS3Xgx0T7TUE7QUNavJq3rqRspwPD9H+Q9f4KK1c6F8SU2LnB+851CSQaPGLSXOYOA4/Bxqex6LmMGnQYFBrAn5tHo0BtoO8klZzvpU5i3WqP3V+G/TO99Pbv397c+8/tLKV6/71xK/vT8JhkWAreesla6LshNLMl8l3w4rEzQFd86kIhsunyr0GYYumSBl/+/lvduYmpJbPjCtiBQwXCt2x3EavxXc/eHB5O003F3pYG0ZOW+oDjfuFRwzncnpdiE6zDEfl6X1rIGF+UFEgg7yTmct4+xRVkikiLD7zorq2CzQiJhwg53Qf8DN3GXWFaEDm9BIA4WPwQkE3AlZZ+UyPEgVwoUgSQNawtVh3IJWoPbFCs5FJ1xfkppSRLhndkPUrOFR/RQslAHWkaCUvMCHsEsKB7XMdJQf/miy+W9WbVQvMZSKAC9NkyVfwwKx2YLtUia+Pem1y2mvZYdFe5pPNQJrivZR4XnM9NPWRO64s7Et5ANuAOXNAQTiSW9baRj7/b3WFau9GTjrg9ZgvQw59bknZJJQrvSDqNdBySOk3LV7ZBNqQo9G2qo6M8euqhD3YlMbrhOjXVIg287BnXIymBnLghs80s9sIxzk3wu/nNjWQTw5jNJJkh200D/wi3YLISNNuCBONU1EQUGXc65rny7zPk+5tgnL+wjvccyHADcgox1RFDvW0RffCMKv51PkBNsbMErjabQ68Mq/yz78X/u9vVcHdhCnd9FSjJHt5niQ8aPdBRNSVNI84xO+FOJvpeYaonDQKo88+8CHgZYD0mpcbmXlGAMuGHalh/XQle65D06eoahZWqrqgoceQ3yrakqqngxd/fU+EgoWYbNC9qmy5Eh2rrvgTlkE532q1dhoPucCfv/AGZSeBuN0yP0LPGPsIhrXLFtnLX/R1yVT5hy3YDTMSflpDWKEMAaScelzOBBgllAYS32rv8bVKEet7Acv7P1w/Mm3PvBfzrZ+rtN//boFbwVp7hYHQ2L+kI0kkx3GDDllElZVLPwA2S1zczK7zIxb0hAwQVxngLQsxgWsKLBvW+lPottvH+3cOly7+6rnr/Uw/WknR+5O0A4QguX+Y9E6f+iZ5HTX0CKdPfSDccz1I1CJgX9kT/92FH0wRFfeyjCozYFGDFDwHZDWZTpj7FSKehWZczw6mvO+qY7BnLTG0C6y4hYcTUA1IkEjtGPkpQFS1MjW20mBsdFh2xkHLa4+qYtUYvv1iynx8T3V+MbsVdsFhS6WgSZJ1HHDFtYFDpK9/yFGpX2f9iFHdXyOg5HKKdpTYny+aKVeulemI7TlkBCqYBN67xzBfFADC+5sEb4R/Z8jDoVVToYnMF/thlBIk2E6GebjW5nTDTp9FwU+57NclYO0VyCmnkA9xDBEAEoSzi5NgLyiJ8UpskiIMqXpD7IEBWLdnNVbhPda5RVyoSrKCk+MHP4icAaHZ4T1jpyLAbLRJId1FTFS2m4x6MBt5GJGyock45SY665Fl8GaNmT2H9TWs8brudQwkhjw0lmi7ghZle/Hu4Wbrf3boPXvGALcQb5mdVASGQcu6h2TD/90VN70ekE7RcgL4tu2EPF22gMLY1xPw8EOhJjlTh69QGMnw0862e3Cewm+N1J8k8Fn/OynLseWfMwtBqsCUlBff+lPA+pzq3OWlpKubKxkei47t9pqlowuVoa7qm6RftyiNZvPaS5Ii/hVcxM/gcDT2NPt1c/TAJjYRQlMFt1HJDMhz6JnIfzyeS3dI2CAXR5DgaM6Vq8yEeEnXpMcu0+oJqfxeBRyVe9odfyDyXv/eFS299HL66yFwdf3er2wu9GzVnpuF+PJnGfxSXJ8hOIVgiJIimRw68tRmo5ZA3P/ZrC3k+5/MBp/Ytv7fjsO2nn3ujPoOltH0SHnNUEPiRUnjhBd90KvDaP/EdpwKqkeHsAzjZLc5R4Qse6I1vruj0bRT9IiLnvZCrMVRz5sxeVQAb6MsqaTYm1R5me0zGjC8Vwhu+FTDlwVziDguh25+wLpFNKotdl1Djv7WHWCY1F6rdhNOixncRtjObLANybJU0WeKYBllaMpuhCNRZFq8xEwgayShX7ygzxz3dwXqRR6WIPAGW2m7laBLMb2UsLJCmQlCo6wNBTxwbHWkxD6aTQaC/M4Gx4aJ2+OcKggwMV2ezLx3KDlBNzdEjM2J/Z0n7O/6eiDEZYS/E4edtpBL/C63PojEk0QDFIq5DyF4aEdwroq7URRSxBVdDE8KRoqR9KlfdQVVehETDSkUVZERZKkSB1lMBNBKobHypYPvcQ4wjQHfCtVGod/CO2zk0jgb2UOp6teddeKHDEvnKMa7T2LVygnxd1hpMqhurxyDolljuKoOBgHo6svbmz/houVJisJum6ZTO743Cgzvnb3L0fxtwc9hklrLFdeYuULa1mYPEWMsQboCcBfVyX/wRbPHGGpdlue0FJFsHcTgyOYGYHVll79mc7O/+TO0Bjqms2Kzit5zjZR6HKe+tOgXSBh3Gjs89SvVeA5MRxmxuVxdQtoowrZApo4kK+pK8Lnj5IL7hKNFg1M8zkDp4nSsiK6mTpwUQnEShRJ9aRxYTO1ge0Z8mikacw8Q2A/GVBZKFkS9Lwkkj1iVzqEMoCbguZdYh2lHjfLb0xzrnL1u8V6O19hsSnHWflxEX/nC4ln7wR57iRJwMYx87rI6bqDaS+145RTLhgjicV9xHJjadYukZRyw8AahAhyYLqnZIKEUWXf67+LxSAMGqMMh2UgbuFAizspIgSvzogE1fXcj+eX8FmQli84xMLin99zO96kn3TSFKNBbp6K+T9sDaXcqSd2q0XfTa+C1aGPBkPE6htOf3Gs8V45EHZGlsE8gacCUcY5IfhbSde9OEBpHXbFUbGHvaeCi/7yqR6QjZLO2cuqL3xC+qTtdno9scJaxJ7b7uQD6EmEswFA86UgOOA/QT6zAEN9REglY4mIlRW1StgrYqcVUkPPQ+cM5KLi+E779kBpuwsNJOLdUOQwkTAb21qHTZWp7oIegPQHyfSJP/qMcKEOi8wrEhHCS+V6PSgK2gqf1IEXJxw7WsiTtgn7lKIRGFOOuvTu2hPpPe5MYUPAvqDFdcDcFsMHQlKRxlbX+5GRF4vLgeUioTLGrEYbcq/EKjfVcWGcnfucI188EVXjryYpeIfopOuFMsT+Jnhy083t1c/80s/lr/+feG+z7W5Y5V3XPsLQVPLu7XfenH5x8uXD8M4w3+2F65xuJ9NRq9dDoNBYkXpyc6YSzGLQitW2ouCaa8AH607ROdq9vWWtcsMNF4R2rnMjtZ9niK9JU4U0/hQ5+8cv/atFzWHU6s4Q7QjlZvpG84FIRjriFXtJhjuOMP00hZC3+hgUAgnXm0T5HBQRQXoGvDzrBGwgNPGkA40fU6+EnHaB+oIJpy7ttJ/lxiTWgOlX0uCRbZsi1KpApbujo3Qhpi16J3i6BGmBcjqX9vNcyCcTW3FSNS2S0tSRJSGmHKKaRdXoNwXXHpWxCY/2V4U3CLK6OoXZOrf5X+1wzfuxp+r34wDlq0y1zIQyF6hGnQqWfiXwRIt08xsQnsil0hNielx79DAjXFcEWqoya/yfKKSRfSZ85tUgsAnhTJoLfV00TlhSqbcJlfbDPpkbDqLnw8myZL4+Wqu+a0JYTkz6E7WYUOUxUWY0mBCdUAm0iLeq/uQRvJo0VSuYXFW/6xCDdjJWfomXISr/5o0l6EQVq8hHSVBVOJNYcWKqwQPMOpZZRbdb5wIGCVefFmsYxeK0EoxpJuLuOlyXcFxLDRvHiSpQwV0HNrNo/yPbl6qmxhNdT1HUpaqj+QqT1Vzb+EzqGVunFKJBOf1q/AbzGlEqXCNWNV11n56EqZJYzRXS2XlqGPDM2JcyCUSYSzmd2FRn+kun1OXIUxhABuvHeTEMoUswJessehjMBKoKFZVpIoBbd0qNBx1TBUpDqkqhTgmcKZbEQKUT81SeCp9MR+q1WqpmiuVVxyrozdhQeQVAUUE09qWQHfInGA0V+1Ip2m3ckDMKuv3BQTqETB68kbb+6+5gfztp76hby3ddJNDufuGHv7+//n/D0Vm3Khrwc37qtotZ+rLEwG/Y7m788bvWtB93kmDk/P/fu7N672fvWR9t2S9M7aNzrvupFld/jvOA0EiZF/PgMJMXD3sCnYFRhKcewBKmQ8xaoqe0irhRn0EzMf7mqy6z+dSlmeexh26tfzLx1L8qkIGtfszMePTnovMaCJu1zPVLM/V3q6JnXk0WU6wJMbkMtCZq6dEY0ITUEhtLDCwxsMTApwwDFXWmtvQYsmhlnt3Lxul+hw3o6/c2frM7mK5aXfQiO+kUiwf9Mvr8x396x90rR/VJJAhBaOySoEWvYmYt5MB0Gk9KZSZML63rLwxSNwlcztNFQN4sf5cE/rOAsZCWMo00ntPVgDiNu9NRzRB2ezhSCjlek1OEIG6IU+XDZGVQQcKLvhC7JaQBZRPDfoIdmPIrdSOVxmzamnUov85Afjz6CQdFBRpSio2G2sax95KaJFs9mhGbMAy42aLv30zVBMmCp+lmS6mHDmlOR1WYmRd1OvGnO0TjULbDYEM98bBDPN1qkKbxdjpqGbLEwBIDSwxccgyY6Yt1DsO3cvKIjoVbRldvv/I7LWf7ljXlahsxcinmsuzt6Zuto792ilvYi6iUZClBBPQvgdNt0U+ZsTmNTdM4jktMxvLCSmxbm59bj52J5ynNPhbEms9yCcA/Kwhy+6H5ydpVOwrWXvEohtDp50zlddbjNY8Qkwa/DBeK0ic+0FW8qso5smGl1EeouhbsaphXAUCVovlVpsDTwweqiHNG/USGVOQ3kcmTCzDlp63l6qcQaKpQQ06ppboy+3dchaL8zOsiD63UP4YMP9Vo8Yh4KO1RjTQeeW04M/5mcKWTNAMbmT7l3oreFVRKS4WCVi0GG9rNtF+nP/2cSbZ8XWJgiYElBi4tBgKrN0V1IOvEfrT1W4H7lTTF5og9wu556u74nX72Pecn//3uyv4m9xJyvZBuCFMiwmWXoVFAosHQi5rSP7BRoSj25NBXouzM/1xv6O4j0SaMEiZ2WBs6z7P/vJA+0Dg1mDUeTIdojBlyiihxWAgU3Va0eIXEFkaU2K3Va6iEK5wLgwl+laHBq35r9IFwtBo/xZFSrC1FyCCkZH4InODXxA7J8CA2p0AQs3+GvtFlz7w2Kjz20gheVGOO4Wq+6gQ6w0x4s/yZKF3mcTXPk49xMNdpdM2NWgYuMbDEwBIDzyIGmNaSrtW115MiX/mV7sqv9DFC4tsbMZYbyl4bsx1305/8yV5403NR3eu1nfjSCRuZxUsL/kJLoWSKS/ekQ/CIIu2NouhjzUSZXBF+w6Jp/tnrQ7RWKvJWWoutjXkO3op2M6sbJE8dMRNzXEqThiAUcoZjPMhUkUyC/lC41KLESj0FigaN46o0ODwaON6FkK0ZFbr0uu7jugihujnhQvxSGFHVU/JQtUrKUSPUMXFa0FRURx6ZwtRC8xR6Ag+a9XUMX+3D+IokVfDUYdV/wUdNls1EPZ+vegDoD04jV+MHbFT9J6PidJ8Ltowc3vOJumWrlxhYYuAZwAA8AiUHM3SGg/FK+2v5ld/ETNjYSzuFnQbcup2H1njjvT/7JPunq5tub2yP0HV004mNYq6aExXf4ek3VC9eelrmqflS0FXFPiYpxJaFiPWsjVtXPPsey5+st0zmODOTP/02nAGCEzYRzlBOlRW8mEJmEKRQJkemIjXFX00xkEHROGJVg8VPBgc5FXFDBERHPVyEcNOl5ydJluMa0bw0L6c8ROmCTYxea+GAKZCqQqlOLhWXQ2hZomdaYfLO9ejETSTMTTZ39JBX6znOzfJ8BSpNIvoaQkqGgyKjwYD+/0g98nzhbdnaJQaWGHjmMIC+rrrZOky96IWPvvSftrPrOx5iUzBvvNLDhjwW2/53a/it3la6MUVWpd1JozF2OpgYZTIUk6zHDJGn2HqAYWnTqxt+HMDwLCYY5hBzaT6X9PWm6y8PirdZ6/XsruBVJhWeIuTnUvUjc2AeplaNRFKCVp1eexAj5tWQOw35p+q8DdYUWIeEYpAIYaWcWN046ZowmLoI1LQIaZsJmn6iSH/sTiY0gOksdDUptR+Pztsszfh1gc1X/PcHYyZWV2SqM0TVTDJTxfPgeezpYaY7ngdcLdu4xMASA886Bjanay//x075+o5n5eP8wOljvU2ukcnj5Dv/bfeFg5/1S64QxAwahgbatiey58L7uRyEFMAYmz6yVqpjJmFKYVI1RtNQeQgO0t5mT6yO1YcJsuo1Dsee3U6EuBWiWJM1Yj62QQSYNUnTQNLIk8RHzS+A/FE0hxyl6ZuAJJ0maXgqEkESxHL1YVWXJOBN5TNnMVigpRsq+k5U8FQ0SZW4ekWGW1YgVpnFCctKyC71YmPytTog0yHKhLEUwp3g0hZFG5nzO/JiiJDqsIQrWn2FWC3CnpU4ddZ5wtiVNENO5lQxqjr1qF9F2YwA/ZS6AF6MSFXhRBFkYhNzX1Jdko4yySoDQop5R7nkrBOe+F9j50SgFCJ4wVW5pHCVVBQpdYT6L+es93VC085zsiGa6+rPYzZS8ZmoTMerfpeq9VUDs4l5V3Apq8MSKd+aRm/VDLmLS+eqwushUwfq/9Ifte/Ef+meplPJpNP47JUjkv+zyZpZlv4lBpYYWGLgUTCgphQylOH4pXjt7Ym3v5HdkOtePCfgPp0ovfOfv/szv7qN0Vk357qdVhLtB8WqEwV7/2XltWTz0LsDbyeQO/uOOB5jdrpscxQSUWbOlCuihZyA2HOSw3YrP7Q7kT28nvkfr/1SeOubk41yK7ViEjEXz5+mHwW3lyGt0C31CnsZ4JlDrJjueQB8yuaCbotes6GNaJ62VU+47jCz3CO5pTlezfLR8tPumIx7QK0PiK6KU4u39j8gwzL6/DBgkP8wnvOrdlnSEgNLDCwxMIsBZiG9myy70WS3uNJ6MSnS3qBTjluH+X7xleFn37hhjQduZ3Pi3EqzyOFe7an3/h/dmaZJLqb8FWEil/OImy39kr0DoRYCA644imGXcA8S908LvRW2g1U3z5JqRb5kkD82OBdyxveo0MwQGWbl0+woSgNKGYi1LQq4msLYVGp9iviF/j3+aUtUlVaesJhEQgsnWnwKMsgp/ZOSaw4FcRTBk/vH+EkF6qdyHKfXr8vnpcKAGTAznkVAziQzr4vSL8OXGFhiYImBM2KgOi2wrEm5u9q7Gu25vt/G3EE36Mbrwxu/HVrbEytLymlmr0yj9tC3r43e8od/4yfJVKSNuJJFEVIajMtPTtFeplagzY/kQkmXEyC5Csm1uKrzZTsun84FzGfsxPtkF66N+d0n3ROImrukARuOKE30yauhqFQU4QZ+SCX90/STkMZyVsNpjaTBae6Upqh4JUZClYOK0uSUpqjgS/Ej5CzOtGjGc5Yyl3kfHgMzaDevD1/CMuUSA0sMLDFwLhg43rejPO/mbuBnEZfT2aP+7mu/dsP6WpqNpvbVqEz2As/3O0Hx9+69b1recAAdhalERynZ60kMeJqL17mAd76FCJyVFFRRjl1ulBZzo3mCJXS7lYaf9bn40ijMX/K2PCRm/hmRGhkNJoq8QwAAAABJRU5ErkJggg==\"}))));};export{SvgLinkJn as ReactComponent};export default\"data:image/svg+xml;base64,<svg width="250" height="97" viewBox="0 0 250 97" fill="none" xmlns="http://www.w3.org/2000/svg" xmlns:xlink="http://www.w3.org/1999/xlink">
<rect width="250" height="97" fill="url(#pattern0)"/>
<defs>
<pattern id="pattern0" patternContentUnits="objectBoundingBox" width="1" height="1">
<use xlink:href="#image0_322_510" transform="matrix(0.00126103 0 0 0.00325009 0 -0.000513514)"/>
</pattern>
<image id="image0_322_510" width="793" height="308" 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"/>
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\";","var _path, _defs;\nfunction _extends() { _extends = Object.assign ? Object.assign.bind() : function (target) { for (var i = 1; i < arguments.length; i++) { var source = arguments[i]; for (var key in source) { if (Object.prototype.hasOwnProperty.call(source, key)) { target[key] = source[key]; } } } return target; }; return _extends.apply(this, arguments); }\nimport * as React from \"react\";\nvar SvgLinkSn = function SvgLinkSn(props) {\n  return /*#__PURE__*/React.createElement(\"svg\", _extends({\n    width: 262,\n    height: 78,\n    fill: \"none\",\n    xmlns: \"http://www.w3.org/2000/svg\",\n    xmlnsXlink: \"http://www.w3.org/1999/xlink\"\n  }, props), _path || (_path = /*#__PURE__*/React.createElement(\"path\", {\n    fill: \"url(#link-sn_svg__a)\",\n    d: \"M0 0h262v78H0z\"\n  })), _defs || (_defs = /*#__PURE__*/React.createElement(\"defs\", null, /*#__PURE__*/React.createElement(\"pattern\", {\n    id: \"link-sn_svg__a\",\n    patternContentUnits: \"objectBoundingBox\",\n    width: 1,\n    height: 1\n  }, /*#__PURE__*/React.createElement(\"use\", {\n    xlinkHref: \"#link-sn_svg__b\",\n    transform: \"matrix(.00208 0 0 .007 0 -.004)\"\n  })), /*#__PURE__*/React.createElement(\"image\", {\n    id: \"link-sn_svg__b\",\n    width: 480,\n    height: 144,\n    xlinkHref: 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\"\n 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wBjgBHgCNQRxDgDLiOvAheDI4AR4AjwBE4uhDgDPjoet+8thwBjgBHgCNQRxDgDLiOvAheDI4AR4AjwBE4uhDgDPjoet+8thwBjgBHgCNQRxDgDLiOvAheDI4AR4AjwBE4uhDgDPjoet+8thwBjgBHgCNQRxDgDLiOvAheDI4AR4AjwBE4uhDgDPjoet+8thwBjgBHgCNQRxDgDLiOvAheDI4AR4AjwBE4uhDgDPjoet+8thwBjgBHgCNQRxBw1pFy1NtiNGoQz9o1b8SaNUpigYDE/t2Xz3bszWc+2LnhCHAEOAIcAY5AJAQ4A46ETBn+bZs1ZLcMOYWd16szOy6lBdu+7zDz+QMstXUT5nSITJIU9u2vm9gbX//KFv/4N/NzZlwGmjyII8AR4AgcnQhwBhzDe2+Q4GaTRg5kN1zQix0sKGZZby1jb33zGztc7FVTIeY75LTj2EM3nMfO732s+vszdxe7YepbLHfH/hhy4qQcAY4AR4AjcKQjwPeAo3zDJ3Rqy5bPHsNuvqgPW71hG+t/1zPsxUU/hZgvJROQZPbh9+vY2fc8x37ftENNuXtaK7bkqdtZ3+M6RJkTJ+MIcAQ4AhyBowEBPgOO4i2f1i2FvfXItaxhYpzKWK+c9JqB8ZqTyC/yshGgWf3C3Sw50c0aJcWxZ8cPY/3unMNKfAEzOXdXEoGZqY0bS6yoteyQmzkl5gww4ZAzKWHL+HX5fNmhktjy6BwBjkD1IcAZcDnYdkttxRY+ej1LinexgmIfu+GJt8pkvlpyuw8WsFnvfc8euP4c1SutTROWedVZ7PFXvtZI+LMSCMzo5O4m+aXbGRPOCSiHj1NgYRjbBIc3CgsUFLKsVMduhQmrBcZWCQL7NiM38F0lsuRROQIcAY5AlSLAl6DLgLNxgwT22oNXq8yXyB5f8DXbsutgGTGMQQu+WM1kGayh1Aw/q6dm5c8KIjCrU4MWWanO9wJ+6U8ge5fClOPVpATmEQThC4EJK8CKD5OforCW+DdYUZRHZEVZNC81Nb6C2fJoHIE6hYAyaZI4LTWp9axOCe3QvjHG5KY+IsAZcBlvbdLI81XJZiLx7DzAXv5sVRnU1qA9BwvZij/zQgEdWjZirZsmh9zcEhsCNOv1+ot/R4czjGKi15EEUZgS52rUeKJHSsv0BC7MzAucHu9Ma8EEcQzCi0M5KCx5n7itd8jNLRyBeoYAMdrsVPfV01Kdi7PmP17MlJIdJX7f1qw0547sNNet9aw6vLhAgDPgCM2ge1prdv3Ak0OhMxcuV4WsQh5RWhb/uD5ESceTDhWWhNzcEj0CNNqXAtJnmPW20WJhxntRZm7gwbGb9udrfvQcu2mTd6LH/6zD5eiDpefQCAj914l6Om7nCNQXBLI7uY8Hk/1BZtJ8UVFyReYYidWeLIxCfUxhrWRZfj47xaEOTOtLnXg5GeN7wBFawROjBzFRxBwKprDEz97/7o8IlGV7//rP9hABMeNirz/k5pboERBYyVQsKbfXYoCxvpHhCXyhue2e4zf51s1Idd4oMWUJ7RFjBpFuR8f9OAJ1GYGsVFdfJSB9jvbvdgrCwPF5gWVY/KEiv5md6sqRmfwsOdDGL8PjfbJzUz8Q4DNgm/d0cb/jWf+eqaGQj3C0iASwKmL+8uxidBaYZtCjs96tSBJHfZzgPhe7UQ+EKLI39e5I9vEe6qzY3GC40i4SHfevHQRmHpfYZlqnuI7VkfuM09olTOvoPL060q6pNKenuU5QmPwVmG9jgTlGl7bnUPa9Uk+fi1lwcFlNELaFArilXiDAZ8A2r+n+a88x+L7+1S8GdywOUtJxxn+eiSUKpzUhUBIIXAwvw2BREJx/l84CTNQ2TtExh8nSaCzZNbQJLdfrnW7d3FuLN5yBHYRzMI0GExdaYbbRCFOOvQJTdjF0fILIvu7Qa+jKEQsXVrkOUtr7ezo9vrNPkU8TFLkXRG5aMUVoio6XBAoOoQz7YN8PsjxBUNY74+NWj1tfFDyIrqtdVrrzPICoCArzSYrgczpJSZsQcDoUpxxgbgTgx9zA6VBGjj8k8JDV0d1dDMjYVxeKRSfzyRL23gVBlpCxLnmD1QHxc+AliLLiUBzMiWXTeCHevclcrkCJ705BZkOnpzvuFUVxO5UHb1o2JBajQwwoLklUWkg7do7HGlZcdlr8SMjHdxbVejOf4BQApaAuRQFbZMtcgCVOkITCCXn+X+2yQxopihjoKEpCEWEQwg31QmHjHYK4i1Zc7OJW1I8GEIEdO98EysnA/qtMj+8Nc1pnL10agFDi71jfSVFY3CztHICZjrvrJgKcAZveyyld26vqJTVvEr5asS5Pc/JnrSAgW8XHFblxtEXJzPWtzU51PgnGGdOLnNk5Pj3g8z+cV/D35eA0DSg/MKg96NRpptEAzK4XZiYuErdWJPaI5+f39+Ho0zsKi39soqdwZ7Tli0RH+fv9gZtR9lHIX937Jo6H/Hfi3y5YkbFyPPyOCbJCcjLmxzl0lCNPVIRRE/ICSyj9rJ6tklj+3lfBFFuTm6L6S3dD/Bq7o8QZk1HHZXiGR6GSlAGS68CsHFKUOyjB42ClQyQMSSgLsciXgcd0/EIG5e2HshwvSewTCYpsVKOVJ0QVm0UdASENqg6wmiMrgVvgelBLVgkEK6qligGFakD7NSzna/76p6IERrGA8jC2MwQNgxBuIJQE6RU8btTHqaxd2rkjG5U4DukEXIp4d6T0BKd4U5zDefA/Gyrf5iLlwf2rBwHOgE243nihUVD2y1UbTRTcWdMIYEbWEqzFkK0sKQPgsdrgWYYD+8X3lxFsCKKZh7x9RxaY763EYNExY8bHnmeC4xli5hrxO1dc4diy6oPz0LHfC853Nvybgf4OrAjekJXifCJj1INPCJMmaf2+Fq3cZ1bHBi1ZoHh6wOu/FsSYsNJ/4R+RCTMEh3PxhM3FW/WJzOiccIzsCwyXFXki/NtSGMqRIgtCZ1iXkDtz7a5CPNpkd05uLvuKpgBOq9SsKN4lJDedX0pL0VST6ZFGgoHfyfL3TUTCD2v+pc8AZsNT8NuOcgaLKjMXZtPJeGed4XMW6NKJVhbCe/jkntWpU5zXn3uqGkmdugnLwDF/QIUPob6FsCMK6i8rA5HW5RRHM2gTiyEB/zHlSTQA2SUypQkGCd2Q5xD4BwdMopA3MTeQDUxniwHvEFmQpwCb0kFIMDWUfa2TNRgwznMw4hlDSNhPmtM1eXZRcREGcgwMnV4Jg/CfODHOGff+2E0Fe4KpVc3/mSnu4/wynXOHEdh74zy+sDSnKYuMTb6/GGSxuKl/CNQJBtyhVWPWp0t71qtLO9auRSNGOpcbJMQxl9Oh6lzejtuFcrbvw17qTvX3L9zVYUjT1WX9uxmSXvrbZoObHKRWctiZ3VWBKq9fUi9boNuPSBUlOgDmwJpWQpyT7c8vZi99+rMlfnV4kMDYoL5d2UlQmUn71X5MKWhGQeeQHdBRTXqq3cCzAep4qKCEPQ0lIVTW+mEU9VyvvqyyoNz7UpfmL9y8Ya8lTE8Xq532m73bd34IZHoF2QnbJwrikAke/4/mJe/S5WYSBPsCwjB3gwHOgB0rnSwJfGFy9vzJJ+Ps8bWjPJ7gHl0UhclOd1+rSMVzkIY2wweDEzNT+lw2O5ifdQo6fmPxv0j6aWgEWxBgBW/jvQ4MZqU0NWeZsfHw3md6NLqvIL/AyIDB4Cfm+v/H1Im1OVaQgWPA8Vjez+9PCNYvSAPmtY6YkzVG0IfOq2bPf3wOmtodwEQdHGi0XtlzBtJKAAPd4XA4Lhif47OVdMTSeQ5kjkwMWHkZilXe19LSP59OT+jgk3xrkHZzvDt1KT5zc8Fu0Lw8LdX1C4YCq2DX9X1Kh8asMd5RRP6rJn/X34f3ZaU4SgdEWMp2iOdkbPavwZqDPvsqsQcEaRLan0iJQfAK74WbIxEBXSOs2eqRkotrzjuJ3TSoD+t4TLifOAjmUASp4xKfX2XCPdNbh6SRtRIeOFzMVv29ja3E0jD9fvnn3yq5cYgUZSRC45VmiKEuX5urOUPPn9ZvYUVeH3vy1sGsX/eUkL/ZQpc11JQhRrt45XoW73Kqai9dTvXbNWRPjHnam0vZ67ilqf4wX5oCCRvNM2B0Ti32eQ++h1nUxXTsyFDRCjpIIMhb5P0RHfcxahKYygqC45wJullvpKQzPP6nIa2aryjyyxoNMB62R9j26ZKzzhpIe3Waf6TntDTXnYokzUb+4Enqv2JMswZnevxLmWdhpGghf5rBYVAyfH/JgV+QRif8WoQCdZYxfxw6MC3VcQgYNtJ5e3R2WysNALDfuBWNp6uOoEhnt1hpBQArChMCO3YMw3sM4lpKBaZ8IawBRRAHR2K+KqlcquBMlzr23CPieXdO8RYc2blfkeUXBUk6oIvGcDztN9R9LuoenF0iEOVovEf49ypY5+tpzXZ19cBbdLXqLwgPBJmvmaryblUozR+4glLCAOfv8bmB5ZVPladQFxGocQZMs8NxV5zBJlx5Jot3O9nGrXvZE68tYT+s87B1kBamW4b0hmZtPdLbsNN7pLKrzz2Rde3QgjVJTmAD+xyr/oiWjgkRo/zi5w3sNQhMEeOsiBk+wLjVSEw+kvTzHzk72UX3vcyeuHUQu/2SU22zo8FETZv3cFyKZrlP3UVyS2FDZ5CHPfQKBi6G1cswQR22YSn1U/SSUyxFVJTzSwKeT3BG+IbK7rmqy6HFng9CzBeZCUy8X7/kbMnf5AFGOQ8zpHOQxnWhICxNr/Z8/xjc/xfys7GQIgWc5aSZr844boHgzVKdR7lWWhHITnddo0gyll6U1hEjKKwQYXoGTO7yTTBemM4yMgoHabbxK7cVQ3nEGxhJDdf81KfCzgDIrxBTNPhXgUMQnV8w2cckEUJdJhPvdE/xBnyjwHjjtCAI103AgGkBGJ7xFWgEeCq+4vF4JILm95TeQ2ey3PIHRbro0Vv90kgUQh2EoYzvRh+RU9Y3BKzTpGqswbHtmrNvZ96m6kcmxjvk/nms7x2z2bS3lrIf/vBYmC8VhZZ212zcpupVPm3MHHb+hBfZgs/XqExXKyrpab7wlM5sJphOWpvwbFoLj+bZqEE8IwEsvVlms/ysDyf7/S98xn7ZSCuAVmNezrZSVI/Pgs9Xs3+27TMk/s7StfWS+VIlqIPGnt97hgppDjBhaAT6C7NPdKi0HVgx4w14HkX8vlps7O/tTEnqHLP4epwrgSRvjaNIRblveqrLfpSGDEnYCsx3ppY3PZH/O5l5VqlXPU0kO0kwAy/spQrGBq2LgPQlnZM2mg1ufZjeDoSjotPHIXuc6HoKe+gkhBUyjZq1PDu1zzDjUngotHIWdZ9cFC4Qkpv9YE5p7KbibajvC3p/jCO6Z3d0Dtb76e1PpSVB8lwZS36Yfd9VHdLulDYt2WMMcCPZyTiY8H7Qxv8fiQjUGAPu0r4FW/zkTaxnx9ZYBl3GzsKVfcR0YzV0FeA9cz5mvW99mr29ZK0lerOGiRa/aDzOPbkT9kqN/fcq5BWNyd1hWOUKRenTtR275PTjQ+6atNBqgN4sWgE5jXps3A6XlbGF6wPhG/llzCJ/wUyLljVjMrT0rHWuoYiK8OKIdetilmxRhXEE4cVQOrDQbAa6qB/U++ntAW+A6EMNF61QcTgdNGuusBEd7BEw2a8qnECEiFS2CEFletOyMFYT3tET3bZme1F1MTLKB8JXX5oFyrT8HYlxT2COaViiwtGke7Vw8zMglzyAiifRwCgjJ/C9Obyq3DNenXwqZr3BgRP0m0c6FlVV+fF0aheBGmHA7Vs2Zh9PHcVaNE5i97/4OXvi9W/R31XoOw6htXP/YXb79PfYqCffMSwTY/gYoonFMrBPFwt5pJmthbAMjym3DMJlDu4yKKonaDOE1vRmw9Y9eme9s1MHjr3CMSh4xP0FtKkT0bA+wz7lElLdF20l/cW+e9EaE/T0goN9qXfHYsfx13lmesywLiJd1mZ/LBf3Qdg5en9FEL6r7JnSCTmBbyD5XSkmri/TkWan88hYJXjOUC9FOQPS66cZ/OCgM8AQx74NXYvXyVwRmbQ5XkXcOBJ1iRYPS9189quBcYQ+a2QPeOadF7OWTZLYJyvWs+c+WlmlUH4ILVV5uKHo46kjVelpuos3VoOGzs7DDFhvcrbvt10S19NEY2/XoiF78IZz1aXqaOiriuawCYf9h8uUlamqbKs1HSxFz4eUsB+CSgvAMB2RMgMjPguCAL+hM30ypUGXyeXOZBXTEReB+ZvJ7XDEyRMpizL9SwV9tmCu2EFPKPvlS+Fep/fDEZvwfnFpAJZHq3zmqs+zMnbgHtMIF+eRF0Bv8acTPL63K5NvdcR1CXFP+pWS2/SDLyyx34e86D2FjKL4H8G7dKOfeHKcp8QTCqgCy4x0V29ZgpKTUoPR5TDNDqAPQL/zIM1NT9Hl2GIenJGiGE/hxmugF+UykHTB3KYIewqrBYdjduZm35/6+GY7BP9uwKD1OrS5Y/Bm74RE+1KNRj0H7w1MAyadRSY+keHxvamF8WfVIFDtM+ChZ3Rn5/bqhHfM2EMvf1E1pTal8iukoG+ZFhSI2H2gwBRavvPkY49hzRqFVgDVCLTUXRHz26YdhisIKY1bh/RVjy5VJL2KxtHrnCbsa0MgrKJlLyteRo7vdSyvXoYx0+6y6FBnF2aWD3kKNyx6vldb48vVRcxKc/eEs53OC32tkBPL0SF9XM2ODm2ZZteeeA3nanZ6YqCAPla5Su9Hdsy+LXHNNPXBjSNY8ajzVXgPbetiee/JLdyliIJxn19RLpnZyXWyVl46j4sGcQO1tyZxjadq/lXxnNWpacOALOOCBfap9kOjOFZLGycbHtf8tSfuwL5bC6fn9HTnuVAUs44p8jxg3RBlfRGNKgfPWzEI/RFKXC7Q02t2SOY7MUBdiM5qAfI8H+8IK0bKaC2cVmv8Pj9OBGBwqig9FEXCUTJqr9xUJQLVzoDHXBZc0fn+j1yWB61S1WW+gMKMZz5cyXYfjJ0Bn9YtxVKsii4/07nhR+YZJzB0Rvd/9wzF2WCXJZ/q8sCHE0qajijh4wm567tlQo60KCE+8Xh0im+UWxd0Lvn7dn/2v24tVMUMZnrgcrrZD+5KN1QsI1tmHlBO0UefV3an5BZ4LS31fmRXXM5/zX511Y0uOWIfslfYPhzN0A3mYdhrrUt1iXfE/xdcxSABHggok7Qy+gV5Kr4cB85iP1TVZ87pFi+04eHoHobSD3nO1fLF8vgKzV//TEhIvF+jgeDhWCik+QLl64TZ+f9N9ATOwXWcM/C7Au5V8E8C9rNJsEuLoz1X5y5/Dr3CcNCRBLq6PIa2qHYSOE/eGIz+E7iaafSYHSctHDHCkk4onFsqhEC1LkGTgo3eXYKTi982ba9QAWOJ9MDcz2MhD9Ge2q1DyK5Z1ubs0KwxP+d88APrltaKXXXOCaG4dNb54RvPq/GlaCqAWbgsVKh6bCGlCCj+tVDSMA+7wtPBSGkma2sQdmZh4f7pCLzNTIDjJ23UXkcXgA650gwY6f5jThcdWjLNCrXZtVPwtvPr8tWsic5kbNjXWZ6lFTP4BO7TUhwvgpH4UV881F8cVhFSoX/7DCKCZ8zCbBSvJgwJzWGW+D+0kYlafrBfnN3R1UuQmEtS5MtQgT869L7speo4dpSZC0ZXarBcf7U2TgYDfh17+B9qYeHnYdUKhSJ3QPDwadUhsBewdPxEmAaDOMZWwN2HZtQz5k0eAPsSLXxauuNyRWbX4r1cgus8P8FM+Bvw3nNQT1WqNcAOP4uBleBiro5QM/QIxu8j8RZ/qk6BOa1sR9uzWkc0F+gEm0ibVV01p0Kzldmsg9atyph7Zn/M9FcRUlq3XXwqG3BiemWSrXBc7WrFCidQRyNm5gS+zhj54EnYo7rTPJMxFFnBLkWq60SDn+qwnpVF54W/yhmojTxol8J+x67Qfl8gIAelXXWEqIMy5s/dhhmZLrguWml5/xYwjjuA2u143kYdNpjYWQAxuE+P63zqYsFDZXInZAF3w9IZ9EU/KjPlv0SDTjKzupkPzVKBXWiLQol3fBYqn8mSnebE0Tt5Fnmj3DvinY0yTSQGJ5bZDVsseBtXQDHeFcT86fw7mlxfiiA6xUXZqY7LYB3qFB2X0H431H2+poYpQSzIzk3VIVCtDLgDpJ8106xRkmatU89OxzSz7P/m7TzIKiLMpa+Y1x9g101+k+05GO5LaXrwzD3DGJ05rmmDAW1NZ1lj+ZG2pYw8/zNYuj2Blu4iZAxVwUq2JQy3/1j8mHrLkI139F6KQzB06FpMl+AIT21ttDmBaQkzuzdqotHX9SfadB467t5Oh6Mn/aBo50Qs154qCo5rsLz5K5UfLQ+dfN01pJ4TZZ2jLyFmhBfRyglmhcvLu3daH6+i9pmvTKF95+CSryBsyNxQkmuXlqqNS1ZIoE1dvQTO42gp20wLGYROmh/aVCPNTs+JHukq2sYhuy/goYFSEr6bP6EAeBsGT//D6sXDmmay8Zv939I7nZAnfUr03FQtAtXKgNs0axgqbXoFFWSEEqgmy6nHp1hSJp3TVWG278tno/77jkEzV9vmyWzGmIurInmehgmBiZu8m5sL7c6lTtMUpDohJXqOetGBLhAdzy6dM0iHZWmzX6xuSDfbjTgD//nn8N5QWoIjL2TXWcQib2iWrPOum1ZF+JdUMlKHTb8Juf7foRHsJ5KYRcd9Y2mh6zQDpjIqjviZeARKyxt64FjjiyFHNVqwlztQl3zEvTTFX/Qo6NQBGg027aTL1dk0U07V0sPtjls0u/mJgcal5AflIm97A/mPIk1P5sgHQwNVDEwUeqfmeNxdNQhUKwN2u4IrUFTUM09IVy8DqJpiV10qdLGC2fxRRQyY0iVlIw+/bDxSShc5XHn2CeZsq9VNs++jwdD+qos1uATVzTXXFyN93K9TrC63hcOE7WF70Aa6dNqrNfvH5lYMsw41rsC2U4empRMnNLDtGAOKlKrR1LUncA2Vv7yyEUNGuzuIpdw6z4DVyxoEYaW5TrJDjLSiYiatlBt7rufrErBlwNmp7q7Yu71Vo8OAkuQaLGb6gsn94RkSoJIcznUWInhghg9RheCRKwwYQaPc4XCJt1bkBi+79Llf+QhUKwPeuju8DdYcx3wuH9Cj/BLVMMWJx1pPSPxRCQEsu+I/i7PP7y370xCUdccQltK63qw0GspeU47ne/Vy0TGL4D5V9LnSpQSCKD5pFwNCu8bZrYN9b0MnHhD+jSjUZUNv4yW2NnuCeS3R+5VKwdott5ylp6tLdnDf2IZygjDVobBVdakOkcui/GMOaxFoU+0S6cHBnhI8LgLtXM42rZeZy0FubKXfgYe69IyXkNvhlGEf2dIpqkR1MAjL2bQyZEeX1cnVD/7oAIVfsGp0O97tAvMZY7t43K/qEKhWBkzKLPTm3qvPZsm4ZrCuGDoWdFwHyykQ9crDqi7j2Fkfsr884aOryYlu9mLGcPXqwqrOyy49zLzsvOu0X/6+Py7HJRJfewN5I2MtqNuRsgBV9prjoZPBX9hM2ORD52O9g09SlEFhqorY5JPMsTD3/djsh+NKr5v9sA93ntmvrrjRigz4lVcuSNlmTcgLLCmPri6E4/2ox3G0slBdNYl1za86nnvZNlI/qXaMWAL+ji6vMOdD53ZRnKs0f7SbF+wEw+iOatBdrtHhG3hXs1ueEruC/EBD8hFgxvGPWGi4R7UiUK0MePGP63Enbfh7TWndmE2HVqy6YnqktbYc0TlU6GVboFmrqk2R18+un/qmQbiLdEXfe81ZVZ3VEZSeVNoRKffYnWUsq6J0RSGESTxmGlGQd+j91CVhISjpqfeHfajJHaNTMCx1o5Pbndy8lWVpUVTEudaEld50DMbqH5sPnefE3b98mSVa2ATBIK2NnivceUWbRsXoBmjRwIAtbYTCcKNWfzDp0GwhTnS8p8XRP7esev9i0KnS9WhzfqfL+bI+XLPT8jOYrsqoYT8RXDi7sjeKaWnzZ/QIVCsDJn3N3/yyyVCaK87qwTKuDLU3Q1hNO07ufIwly8oeP7IkqPOgFYE7pr+Pdh/2nDDiTNa/R1rYo5ps9W/+S0AIh+g/Ooiu2fOnjCZ7LAZ1NoykaEYjxsWtMadhp4wBeZ4AndJnmWmjcT+VFgd1gOjU9EYQH6fLB/ReZIew0t8YBFg6XUVS/s9MG4sb+Qt+peCbovyCx2OJVx4tmq6xKYFjlBfHHP50eoJV8MJMdBS5gWmoQ3Qo1rYQhELQtSdh3d05XstyOdHJTBirQYd0Xxq3sSRHc+uf2cHbudqpfgI71FBMfkofzu01g0C1MmCqAl28oJ8Fk98D15/DiPFUh2mYFM+i/fUxXT9I5dn0776o4ld0Kf3Tn/5mT70bFtKl87kvZFzOmlbwFqfqwLCupOkWXaHOA/tfWaQUP9qyEQMCvz3OSC+sJCX8Rj/GSm8wmmL2Rwf2cDAdc0jZbiirvt1IIaxr2LTn80a/sCs+zn0zChuWjkYQ8h02Pc1xSZgqNlt2ehyWF5WTZVFcbxcTg0Aj44ySkSKSIR7ScdmlH8lveprrBJ/k86hnWSMRmfxFc1kRjmV6QzlMUSrkhESSIU1zXSuUaDmRSs/havu/W8bl+ezfF5NDbRkSy1/YJTs9xXUSGs7ZpWFFCXFxEQdfqOmVWhq4tnLWbTkH1MGu5sefNYOAuqFfnVmRBiwSQrprGO33hw1dUEC3JGU+t5j5cedvVZlvZ9zGSOtURc0NF5zM6FeeoVlsn9tmMfOtQ+XFo/DJr37DenVuB8nwNJW8TbNk9sy4oeyqRy3bgdEkFxVNfdwDHnvDvduy5j1Os8ZELAYmK0rgZeyFXXD20qWB8iqdneY+Be+ooZ4Oa26T9W69PSPX/2RWmutUdGBhpofOLCvdfRfoZutpy7JndXR3x4jzTh3NPuZyXHrbmjV+nZ/B+p8NRduz0h0joXnpEzSrEBOQZDZ/Rse4U8Zv9hqXkQyxrY6sLvFpitevnmt1yKpGJCuRAMaJzHQmWkZqolNi+thwLeMjVEdFifvD5tSPrjhhK5iF21RW2rc0lSNMX1GbbMKEykl7qnZ7rRXNwxzPJ3n6om6axL1lJUSjxyDEK2sOJv4asuossqA8qeEkMMdoale64JCVtnPwXan7v2hthx1JiZj95ofCuaXmEKh2BkxVmfLaN6zv8R0Y7XnqzY0X9mJdU1riSsG32Y59h/VBFbafducc5oSal2jM2pfHM5LO1ptbpr3LaJYajSFlGxUxpJv5JpwP/m7WGEbngslc0Kczu/3S06r8tiitfOiw6p2h4xBYBl6O2eAFVHhSl7fKs/w1SEdfXxZDo1mF1++Zq68w6v9Whkf6TO+nt9NeMJTjX+/153+KfE4PhSnytKw0h0evMjAUZrKoZ4wDJW+j4w4yByztOQVh6PgIUqj66Jk50mLcfDMcfq8gvnaGuIkkBX6Azt9L6Gytnj6SfUa3hk2lgqJFCG+BV75jvMf32wTTy6dZPWagjZFP2CgsKkYKbMx0qZTn+HX5+8OJ2dswwLlLkeWh4J4bYtlvVJiIfWzzIF1EOcx+9vlG6wu8mhowQcSdv35G9d0TbRox0ynsLC0Oeq2I7RNCV/swOFRJBUW2lCcrxX0NLkwYSARoy09lenxvaOmanzPnTz4DfpB+Ji1fwrPRvDtzGtxdNQhEx6kqmVeJL8CufPQ1dXnXnFTf49qzFf+7i9HZ2KowNJumm4DK+zVpkGBhvpT/75u3lxtXS5sYaUXNvvwiNhIDD38gPK59dOT5rGfHNhVN8siMJwhGYROFXZm/9/eV6nKbTY3pdiMwX9JtG25QgvBVnDNtpA25wYuOBeH6wnPAr+aFAmh2IrMPMBC4d8Zp7RJC/ibL9I7OfopU8h3yxa0yNI0V/ooTnX3G5wbC+w2mOGZnRp70Pu487g//8NK7KngjL0P+Tz6f3sR6tliXSHaa6/pAYeFfWhlQitdoYKEjUa0zUt0noi9XpW61MJwI7V7WrVFEN6NzwjEYBRlH0ejDkedzs7skqh26lp7+STcKTUt1zsDNO7PIH4zOdglVH8dol4NLtDpPWZH76pyVtpKUMTDpbU7ILxVb8jbTVMaNr/8sio82528S1+SbSGlhBvydFgZm3EGz0zN4e5P0AtnR7t7rndo/k+yRjMQUdfkZeXodCW6+9xsJqBrwFxoPeWgnPqpWNZAXO6Z5Q/buYzewrh1a2Gb3/nd/svte+NSgvtGWsAo8B/ftyl5/6GpDSl6/xNpe/rjlOkEDkY1jbuYVOOMc7O+fevd79uj8r2yo7L3oqsL/3j44FLj53/1swN3PssISX8ivIpZBfbuwNx66JhS17eWT1YFFyKOSFny8bx1Y9LgRwEqmaRedzgLn7/t9IWZtl5rD0dmswBD+R3Scu7C8nI7uB1fHKaeD4zhKaQNgQFPQIU2OZtlanz6WhC9isjAF+Z6g+aPOu5HnfFkQ1omCQle+JYDmWDCvS5EvrnSj/o8dQp7TWXKzGZlrdxVqcWN50v2ueYUbcS5TfhB5hD8WLBeCeX0GtUVfgsluhcBOPhPl5ook9ERHPhRrBCEGQp2rILi6ZOSW5Gl5Z6c5hsuK0ANlvQV+FoaJctPS5tsA78fxnsAyiocl8E4BSe4PPt4JyhrofQPniOYAOMlelNmHcuJPwaUMrA2oDctMWBU4S0vfLiUaCOTv24utADkFaZyI9K5UsTURUxsE/8fKgJyb6ZE+MgWX6ySmuzpvxTBBljthmXsI3vVplkjAHFV5GTPFv3FWZ31Z5bbELceDVmpKArkHUb94NJxvcYvRuWVFwSBshVpGQVgf73QNbB2XvttTtPEqVS+0whrh/T2BrZQH8ARc9oaW1D2r3t9R2q7mTsyTRttTct+aQKBGlqC1ivyLCxkunDiXvfHgNaxfd3xbJkOz4HNP7sQeAQNb8PlqU2jVOk/oZOl/2Mate2NmvpUt1QuLfmKnQBuXxsBp/zp7zBB2x4z3K5v0ERG/dKn5MprxSoJ8OzqOIaiY+vLAhPphdtqPKhrscUr7HZzrRSf0OlSvzVF16nqWEklMhpaE0dl9mp3uHII8LkXKg8Do2yLPiWBg8NKMmqcPnfS3UFu4ODE5cf6YPw4dYNajxVqEcp8j1q1DemwWGPFzecV/n4+VVpqx9EclU5HbCHS4IygRzGRKV2HVMhDH+xfl+BF1/1p2il9lbgoz36yerZLk/H2PoWuG+JJAS5j/wuYD4wnAD3cnY58VPzxvDCjIiwXvJJYD0qVI+GbQehFvN2i3I45E3BU0FgNPGoSQwZgIqvwxaIGfA9ROeLvhu39crv+78QiIZA7v24sZnvwo4nmRBgYS7EfkKyEurTlhvIP0sMmJNI+FsztVCFh9VopbpGQt/qs8q5ojycex9+tFaUpQ8BVUNxDCi8rPoENEzecMaPM6D2HbELbMklAFPfT7v4oYeflZSz4hPuHi4pLiN9AuB5b4fVvz/H/TexAxI17qcLIHJ2wOrMgsA1dK59/fP0lBvWh7QhIdzqyqXsbXysqf0SFQowyYinSooIQNfXABmzp6ELv5oj6WUtJFBU/ddTG7+twT2bg5H7P1ebstNFXhcaINA/57S/XkVV557579Eeue3pp1ad9cJaVrDJevzWVvfE0Tkqox+ODqtZmQ5ycwbqNK0KxMDgR6MlFsjllZC3SV2HMVsAcp7HaLwprwEY1ApepcOpP4BInQj9HxGUkJtJaY3EpQHA0UUd7jYOIuqUGTnPBst+qESUsZymJkTT+mXuAuHe4KQaYmELhpCEX8bkGRDuNw1e64+Ph/Sq9oJFKLKS3f8ZaAcjwy8gLTQUK/KjPlMQk6moXMusSW4brYyEFdug8dYz4xZxMxAsZxZ2uBkFv5TLNHepa+3wumd0xoL8u+E3FqOaA4E9ZM3FwQdcdFx5JmpLv6YBTjnrDZuzFSXty/ZhCocQZM1fJhnzbj2UVsxToPmO2ljLRCmQ3tDS97+g42+/0f2LQ3l7KKCjyZ09Xcdgx4fd4uLbhGn7TcfMOUN9k3M29jDRKCWGTdfhFbs2Eb27DVIm9Ro2Wri5mVSgVvqunR+905xVuAB/1g9AJANdNuSm+9+TmYv74MVJaIQtZhcm6rawhcQAXCpHVrLCogJ2wu3opo9IMpCD5i+D8+x1+9y4sxlOVoJxVrEwDa8+0HqeUlv262LYbLKbLxI85gP8y5k53eI9WWpiKedOynZZMkS9TamgFTQTZu28toJqyZxHgXm3//lYzUZVaFwWyuKpLhaXAEOAJVgICqoUxRTqGksKT+YRUkyZOohwjUKgMmvLbtOcSGPfQKmM/HBjWNeixpX/STqaPY0/+5VFWSoQ+riN1u9kvprPPUzEwmUplpQPLCJ5ApKTUkrJaNSxuqwnD+WxUo8jQ4AlWDQGFBMQntQd6NNtOFN6smVZ5KfUOg1hmwBtgrX6xh/cbMYd+swcqijSEGQgoyfn7uP+zifjFvZRlStBPAOlzkqxYd0IaMo3A8+NIXbDWWnjVzzXknMtoT5oYjwBE4ghBQpAupNujWciH9vPIIqhmvSgwI1BkGTGUmKenhj7zK7nr6Q1VYy64erZo0YK/835XQHDWMJVZwedZuBrzOs9Muuxr3o3PMo558h+3PLw7lnT3mYta5XVBAK+QZo0UTTY0xGifnCHAEqgEBCGCp+7+KKDxTDcnzJOsJAnWKAWuYvf7Vr6zvHbPZ4pWRNVJdfe4JbCmEtI6HJq1YzQkd21qirMut3eVnfYFoWf7W7HfptItqkrAfPO++K1m8u1Zk5vRF43aOAEegkghM6+gkTWttMfstcCkN5lYyOR69HiNQJxkw4bnrQAG7DpLBNBvce6jIFuJj2zVjn2eNZufg7HC0pkXjJNa6aQML+Z+5dWMGrBWMbpGa9tZSzcmOT23Jsm6v+H4w3wMOQcktHIEaQQA3Dt0+PXjrkCE/UVIVocBPeHKc5+BBQyB3HFUI1FkGrL2FD79fx065fRZ7b9mfmpfhSUeY3n7kWvXcsCEggqNHOinmsZq6xoCphP99Y6lBQvy6gSdFXU9rDbkPR4AjUFMIQNf2mVCX+azM5M+yce5WyxdncHtjZet6nEr4rbnQrkrPV2t58Gf9QaDOM2CC8sDhYnZL1kI2ZuYHUNFoPe9Ily/MHnsZu+i048pFvqcNA6al3upS+FFugcoggMYbNjrrXXVvXCMjqehIqjw1GtsnnwLbwsI9OQLVgYCiiOo+Fz7hxookf5uV6ng5O8X5f1Dr+TkO/v6JKygvGuXxlFRH3jzN+oNAvWDAGpxvfvMbOwt6kv/Ztk/zCj0dDoHNzRyOG5fah/zsLHaXHdCVgpXVvWyXV1X40aUNtAyvXdpA54MX3H8VS4q3Ki+pivx4GhwBjkDlEeid2u9dzHJV7VYY3zcAIx4FLaDjoJtzVpwztW+kqwIrnzNPoT4hUK8YMAG76d997LwJL7Blv+VYcCYhpefGDytTWKkHVD6aDd1ZXJfNqr+3skfmfRkqYmeorHzqP9BVH4PhE+AYwOKkHIFKIkCXf+BihItEh3gKLgwZgVW6PnGutHYZnsBjYzdt8lYyeR79CEGg3jFgwj2/sIRd/vCrbPGPVinp9LZN2b3XnG37emjW2LFtM0tYXWfAVOBnP1rJPv7hr1DZhw/owW4efErIzS0cAY5A3UKAdIln5PhXTcyVFpL6R85469b7qQulqZcMmICTZJndhKXZb3+xqrGkK/40ncp6kLuntSa9qxbz2z91ewasFfiupz5kOdtx50CpmTr6QnbSscdoTv7kCHAEOAIcgXqEQL1lwIQxXeow8om32ZbdxhtoaJ906BndLa/BbvmZBLDWbt5hoa2LHoeLvezGJ97Cvb7BW37cLoeqL7pxg4Ryi8sVcZQLESfgCHAEOAI1ikC91+xATGnMzPdVXdH62e3gU49jr375iwHMSAJYlEZ9MX9CYUjmc4vYnLsvU4vcoWUj9kLG5WzEpNfqSxWiKue0dMflgiSQ4MpB6OujFxQcdSjYUWMsAUsZdJtGEnM67pi4yWtdBokiF1xw/iTITsIgjC6Qx323CuXjhZvuWaUxiwu3zybimQTH2xke/4IokuUkHAGOAEcgKgTqPQOmWv7wh4d9sWoju/CUzqFKp7RqErJrlhM7WZdrf9mIO8zrmSFNYf26pTLSE03m/N7HsolXnWVQ3FHPqmQtLjFagXWEpvqu+FkNLV3ACAGJzlIGRyOqT/T/cMH6XtxEA1VqSk+kJurzUVPX/iksB1fLy9GnzCk5AhwBjkD5CNTrJWh99eYuCt8iRP7tMTPUG9Ibbae28uf1pddq6onrgX3CM5/g9qbwPdz3XnMWO7cMjWD61YF6UD1GgiuZnsBxouhKhTDLEyhzcAZsKjzOSl8KjUM3mryjck7MDWQjj5MaNGzQHHnMskQShE/jXe72E/OkjpBofdUSzj04AhwBjkAlEDhiGPC3uFPY55dCUOjt5EkXMNBZYbP5af0Ws1e9cJf4AuzGqW8xusWJjCgK7EWcg27fsnG9KH+0hczILckDk/w/0eEYGSkONA49k9XRbd30jxTB5D/mj0MHkMfdWGZeoQsKNBKTrxm7qXibzo9bOQIcAY5AlSFwxDBg0hqVt+tgCBi60EBvetso6Cgo9rG/8urOJQz68kZjJwUiY2d9GCJtkpzAXnvg6jLPQYeI65klI8f3Ohjk9xGKnQix+Pde6tI8OUJ4dN4i+1wjRF5/35ZzwNiItED+5AhwBDgCVYDAEcOACYt9+YUhSCwMuEu7UJhmof1fWVY3+jSvevckXdkvfBJefu/ZsTV7+j+X1rt6RFVggS2PRIcBWOf93oPz8bQuc0SKZPZXxH9CXgLjM98QGNzCEeAIVAcC1SaE1bxREktr05SRFqeaMh1ahgWvvvvdqCmrV2crA/65BstWnRg8+NIXrDcGGCd3DgqZjTi7J2vbrGF1ZlkraWNWugtS0RHzBvMdBsX3j4PgwYhEZQSIDnmLFNppVsIb7DZxlpx1lvOX3B9ukJlQIjCpRBBZQIZFlMoooJaOg4k4xu7AUMEtMEdcZq7vNS2InjM7x6cHfNIAiJgVM0XyQjwsAIE0GSmLFEeUHW5ZUFwYPbvdjriPxm4q2KOPr9lndeoU55Pyrof0mA+ZeSHc7VVE5qd0kJpTcDgSMQLdC+1MX1AcWkE4FDjcCn5NFUFJxuC0gVpG2eGCTgkX7NRfiHgDkBiXCyGlvl0R4nInegqr7Cqxd7p1c28t3nCGpLBBKOdxEJJrhXfeClLvdEH2Trh3oRxrnE7xk/GbfOuo3JUxszoltPP5/Vfi3Z2JkVsq7gBthrxoJL8ddgzChF+han5Vu8QuP41Yty643xNDhjQgnJHu7olx/ql4haeivaQhelNBUZri6VOYsA/yGfuRF5bihA1oFb8JzsSfMjYe3qvPhq4wdASELrIo+PAC/LIi+UQHPSG7X9omIEzoRjtxJQsNFmqrNzOPS2wjF/kHyYJQRG1JFLFWFEU7lR0MTRppo50ogsMtyNLhjDxJVa1J5Zqe5jpBloVuoigVoC0F0CZAxhyygjalKEmOpISPxq/LDyst0FfGxj4jzXUK8uquOAQvlRPvwkfpyiKjjcM4pohJslP8PtYTD1R/v9fbD231VGDTE20KmphU7N2KIFD59qNN7cU72AyM1uED+3lCrncDKVHRiknvMDvNPRKCmD4mScX0rSMtmUn4lWdKv3WkjxMVYtKEXN8r+rSrjQG3aZbMXswYrt7r6/WHerXyilvh8IZJ8YzyJEN6kxcuWxtKi/zb2qxOfv9HboimPlv8peehv5s9hjVuEK9WpX/P1PpcJduyEyPRAtCg87HrYBllKLLyQHa6ez0tWWu0UT8VBzq90raqsPyy4q3ZvqYxOOKdYETdUQ639imGpRDKiK0RUa+Fr/iZHo0W0z60FkP2+ruCCUxkitwFJPSpGwx9+TAl6MzX+v3eNbDbMuCSwI4m6OhHoS/pBYYWpyai5U0OSSpA503MX2XA+0sOLgGz66XSaf9Ky4g6UmENRh0MKSUMFw1sRdBXoig+R5qfDERROuZ0TW5WXFx8n6fw79uQj7aVsA2d5HpA8C+6w3QMCvogn3iEDw/4pSeyUhybRSZOHT/qgfnCpEkmlMrOOKtnqySWv3d6id93MyipHyRmuAG4r0KH3wqdbv+gv3IduhO2pWjjaLjn4heVmdE54RjZ7x+Vneq8CWUmpqvCh3a7EZYtyOcf+DcBszoW2PYOJgofvB9FKmLTUh1vT/RIV4Uyk9hA9Pc3oS20016hpFlApLYJAcfpFOHvw45CkmVQt0+UEl8nnKnLoLYEP1EqRUkXNZSFwQKCEI2CUSXKi/AQA6YBBdruE0gvPOtRIwRjyQWF/wP9XYY0y3AghwF4v3ch0w4GMpQXqAAueTcGhmNg3WwIt3HQwNMb2DJUUeRbAkXecyg6tVVitLDSO/4Nfgl4z23xns9A+mKwfSvqp4bjiQeyOyd31gZBz3RvmQS6MYosd0e8eJXIJl9br1IQ1fQRcfaxid+ADgO7oKm2Jeh9uMM3pXVjNn7EmVpe1fq8aVAf4BrM4vOfN7D9uMRAM3azXy8Etn76a4tGUu+fW7Hnffv09/A921clkr89dd30RWMN1Q4D9EuoE7MrqSJLL5Veem4XHNHPJYqhRqOIGImXYejjnJgX6JWU1JRmTMvMpJit/4D2eBnCBmk/NM9hgijeiucchIVmjSWFxe308SfkSZ+qEuAOJxgxswgpYAT9SQvWvslET6DvhDz/r/q4ejvNTDPzAqezhs2bIb95+jCU6d6UBl2boZO/Q/Nv6Eg+V9VdLLDnND/dswgznCFOh6OnwymcDqm/sajHJgpH22qPN3OTLMk/060/se7FT0tz/aeopCgXnSQYBUsGdotFp9gb0uftUceB+F2KevQA1i1EQRyPfFXNOWgMHcGUXsqeP/nXmZ1cJ+vKWqYVA54m7NC+H1Hu20BIzPf1BskNWiOfnvgNBfb9nHHuVJTjWy0hdL4DNHtZzxmntUuYluJ8PODz5WAF4XGUMQ3Y78aZugySqEfaXVCX8/G8HHmdQ3V0uhzd6f2gXiAvNYpwrGalJ2gfIVrMS08CbVjYpZQIfu/EO9MaIt0TMjb5/tLijs8NLEfc412CqyNoLMuRkN2c73Cwi7U2im9sMHOw4er7FdgrKJO6r4eBnKGNZnr8z6eeMqwFBFvPA1OzrESgImOy0p0Ii85k5gay0BZTqH0hzzCTFdgeQRBPzfRIrSbmSO+Vl1pWuuMirz93vaJIbwLOc0GPiS1b4BTFvhmjHmoF7PsDo2H4DSKsnA2SWiD9cfjO9IPYJsznba7ldee6PQX41vs427Rpim8vJCeihaP+q4HjUA1DeqIO9K3fAvpZsIfOunr9/vbheIjZeMhDO/HaW+k9q8Ie53KynR88xHD9Frsw8yW2ZmOI6VdF8oY0aPa76rmxrGWTJEaCVf3u/B/bujvcRieNPJ/dPby/Ic73az3s4v+bZ/CrqGNu5hXs8gE0OGLsqXe/Z4/O/6qiSVU63iOo6z2mulKiaVc9yQ4WFFc6fS0BNOq3Dix6/GrNXRNPuuCc7lilvFxxro4BAS3X61+BjrS1Tf773KLz9HuwnGQTZutFHXNBfkFw2UwUpuKY0gO2hCbP6anuKyVFekvvDUZxBxR32DEylez59CaN8qXD34PpdKcPFp2kzYfNaCb0PGp5qyFtURiYkRuIqZGp+cn5e4AVlpPZburQ9Gnq7bTkhllAAfwSQ/6C8DPK2DfkhoUY7X7vgReQ5lV6f9RnSWpSlwvLW7JVl8gDuc9hNjWyNL5MHf/EXD/NniIaWlYMFPk+AXah2ToxCvyu0C+TRkogK8W5CHEvUsMF4SvUa6AdrTJpkgjmvhB4DENH+is67DKZ/LRU14mYaRKTSNfSIwaX3KzVnbet2R4a3Glh5uf0dMcQdJcYRWNFRWAeMKQ0Mw25Mch504y5QxBPm+Dx/2hHr/llpTmnY4VovOamJ1ZITy5rEDczxX2cX5BWokyNcFyvqX6lRksnq2ODlixQvB5Mt6nmpz7B1Jxu90njNxaHGJAhPIIjO811iyzLLwbTEJ7G+7knAmnIe15qavxetnUBcBmheeKdbWQO8fLMzb4/Nb9Iz9ldEtuWeH2f4l2fQDQ0yJywOaA/FaFGJQaPBYFF+nRocJWRF5iu99Pb1dWWQ/uWqe0Vgxv9QAIDnuoxtOxMzJDu6n1p4hWM9oSrwziwqfHK/VeqzJfSfwj7oXrmS36nHGdc1SC/ZaY9YvI7EszkV75hK/7MOxKqUmYdiPlmbijJFRVxMDqrwzbEzfxK4AtaCrQJs/VSZLc/FICb1EP2ciySQ7aMLtEZlTmDpj06VGEiJY392baRskAnYknbIYsWv0jxNX91T1AR1pIbi3G/a/52T+SJ4gu5+jD4hLEpDbh5w97DGSMfuhb0tKQXNopy9paCDRlhD6uNmHxJwPOWjvliIVC4tzzmSymNW1+0I7FBk7OQ799ayihwEl7Yx9PSnLbMVKPLTnOeGWK+8ATTnqqFmZ+0rB3njL8dNPtRXmsnootAe5hgvt/CK8R8sWf4cIZHGhUN86WkJuRIiwQm3kt24N2CnrZGsbYJl9NZbpvA8rSFBsyjxDaPUs9xeb71WAl4ipyFRcW231Lm5oLdwP99Szqog+T1v/N8r14uS1gZHpiRfqcFI+8y2yrREYPbw7aBeRqY708NxeRTomG+lAZdD6k4oX0PW1vkViSlJT3NBv2NBcPyVssy1+4qxL6xOvARZNGAYbUxYCq4tgxMS9HvPno9a5gYZ65Ppdx04cK8+0awAScG2/zzkAae//lqQ5qkgKNXqXCSPsAspKUPi9WuP1/swoCjNg1dUnHztIVsz8FCQzHQ6RjcR4pDHb0LwnDUJ2CuEz7IFHQAX87o1tA4MjcTlrqd8a4Q00WnGzVgEI6xzG4Qudz4E0Y99AU4wC4IVEXs3JFIsaW4gmj1sxDZeAgsODJTyhYwK40ZVR7EpDCNmmDODXUaS4JqZn/NnZXmmoS168s0N2bNyzNz/BFnESG6UgstC+Ju3auAX0guAEFOLJW+Oi01qbWZPuSWldAMifwEd0KZsyMScEMHOw+k4b3OUGJBS3aqu2tAkb820AjsTSyrPm4iLdeJpd2ngAVmSyzpf91aNLCLgH17S3sLxLksfjZxo3qn5nhOcY2rAwAAIexJREFUt/MV8oPWOcPyqZ4O78KyvE3h6Hf6Hdr323N62vLsQqsW4bRE7P2WYWggpxza9xHa0tkaGZjozvg49zBNEE3zL++pCngJYunAUbRtQ04hvE2lpYd3hb+yDVasvkOfkovSGr71auUWew+FmcAJndqwr6bfansdYNlFtw/tg3O9S5+6g13c7ziVYPrb37H7nv/UQnxqtxRGlxbozYHDxWx1FS6Jd9Apv+iR3kafVa3Yd+4/zEZnvwuZhXC7ADM6Yg2Wir/E3thouwqiAzg+UFj0WaTOTB+n0E0CvkGDTi5k1/wiPSGZKkUKK8ufmJdDEQfFOV1zI9FBKtOStuyw+kWKr/cHFnvJrY3y9WFmO2iirn/G9Q8uBSM0zqSwrfXr1pWp5nTJPSPd1RuM8iF9GDqiKcGZt963bPuEXP/v6NTm6anQzltCdXjEJWwIE3XT0wsBX7mDswS3ewYEzO6gzl4fl+y0TA1hn5eAVrIWBuwONhIbhvbWNf9on5gBPkO0xd5Dhs5ai49ChAaKIb9C0eKnhWlPlN7SlrSwsp7jNpbkQObinIQGTZdHokNj0VZ8tqN8xrYD+QCsTJS5IqJPd/zKbcVIo4D8MAM+pA8z27PS3RDMUvd6Q0E4WTCeZrQhjxgsjtatXkOmh/Ct2GLvpfMDFTWi4zKX4pyjj16tDHifThCKMqWL5L+bdQe7/9pzGN3NWxHTF8vJbz1yLfsy+xbW8ZimbNeBAnbTfxeyya9+Y5vcgBPSLf6kN1rPnCwEMXjQ/nOXDi1DMc7omcYG9e0ScteWZdlvOWzam0vD2R/JHBi1nOjxz4c2MEOnHqq8opxSVHDgAzriEvKzsTTZ4TR2HDY0Ve1FM/ia0raFzqx0llS2gFmsdaSBBNL+2xxPYpJtJybJyhQAjT42aGDZDGb6peaO6Rnn+i/iGxmLogylvUu7dPAZGGaVsixdbUen96POHKpIX7AbIGQtmHIHzfL09KjaU7HOvvTx4xwdPgKeDyqKWx0w6cPIjvpa2mmiSNsG1Wcm5AWW0KpDpByQuZo/Bh8fKaJ4t4VOVv4LqfWhFv9IHqFZfuS2SkfIBFl+0pCEIGyYMPL/3jb4xeAg5g+AR2Nn05ahuCqBM44brh3nKfHoi1OjDJgypqsCJ149gG14bSIj4SW6WP64lJbqXrG+YJo9pXUTdsnpx7Mpt1zI1r48nn2edTO7oE9nRqoYX1z0Mzvl9tnsg+V/auSWpx0D/vRHS19hiRetx5O3DsZgIrzFgQaI24mGs/490qJNotropr21jC2Bik4y8hHOgKmOWOaZDPhfJLvZoJM8L69gwxvvXHGFcTnETHhku4NLkDb7uVVQbQsDcMiCpcNWz3sqykB9foi4xI656Wki2UkOAFP6H/ThSE/wM0ndc9P7kx3f578GP0XJjEWC2hCX0pNli4AQVjReMtPF4h67aZMX0rpTaG81lni1SQtcg++fBBty/bOxnz/VVB7iNa9HezoBiakrKthRs8geaOmWBPyjQWcYUOH7n6dui2hEFXiSHvoJOQFbBlyB5MqMEnGPpsxYUQbePesjNhUz02NaNGKpYKTpbZuxTsc0x6+ZaifJYU16WMJBRboWkAS3fBDgopklnWklIS7NEA9Zu3kne+2rX9jbS35n+YXGVS+NTnu2bprMzFcQ0vGjb3/ZpJFU+JnetimbPuZidlbp/rM+Idqb/mjKjWzOByvY9He+K7ec+rhVaceSGRud9S5bjvPBVTXjr8ryVUdavdPOGLPa83071H2QOX0w4cs9P7//HPxtl6vN9NXlVqVlmfwRlil7VmamFHP56EQxdZOWk8Uxp2SJAGzNS01FrHWrP1iuUWZF0u/7lqaCJdcV5kmsJYMyPDD3+xjVOlNPAoYwRO/W7FiC/gr7hZeG3NhrDfjlr7I6Oq/I3Bz4VvOP5jk91XWqpMidDLSYgdXUioYh32pw0CUneK83Qfp7QLTJ484wamG4TCXwAGa87eG4XosLe4IgKYuy0twDaDao+ds98U7BESCgqDF2GyJsY1yrZqYLExwC7cXXGfNUWlwXnxL40i3En3JPbuEuc8GqlQH7oCCCzqfS70ebM7etmjRQtWWRxiya6ZL2pmYNk9QZZTFmuAWlDHnLrgPsl3/+Zb9CdWR+kbbVYK6K1T34VNJnYPRf+ttmVliil9swhkfjatYwETcrtWJz3v+BzQCDpYsfSPiJJLLpUgSX08GICZPQWY+01uyHPz3RJFstNLQNQEJZ9C6OBnP20qUB7PeOKCw4sAyrYifb1PkWHMfYBQGZB23CasQLQ8oB2J7vkN/AHaiRDLVMYpDs1qJE81Q7GTnQSE8LoZxZ6nKe3jNoH2z2EkTlH7NfLG4w1e/BVA1R4Gyd3cl9vP5MLBG0UI55aY+wlc4bp2oRELOpEFC+BsOYG+dKeCCSZjGNXntCecQIzR56KkrEfdIQTT2xoLlcAA0czSpa3IbNT7w5f+/vbWj1SUsD76UxtqK/mNYprn9ZWq3wTtQXCmUzxhdbmlB2R1cvOSB31NKlJ7r6wgnXP/BrxqRJeu9atfuZ3B816eB32NejWhlweTWn/Vv62THn8uJGEz64b1cL2TuYOVfWEFNbtHJ9ZZOpsfgr1+XVWF51ISPaq8JZ0SGBYu9KfPAp5jKRtiwof9gRzZEXc9xo3Rj42S5105EJ+dC+6yidlC5nlrC1C6NNss7S+RUpS1847F/+5XamTirV0xEKorOae5St6jnLkCcsEHA6oHfHam8a1+iv/SUHiAWjD9YZmZ0E1186HzbK4ymZnua4G9Orj/T+pXFHe/3FV+MM9PTEpCbZZe15Ulxk1tXMHVD3Hfp067o94LRvp0+nJ3Twyb5BqN+mitbhtjVr/DgrPgw62pdjRSr03mlwJPgDX+EbPZ2OlNmlD2zpfUY0CtRymgNBv6uyy8/mNKNxQ3TTlo+SUpbAjp03Uhpxgtt2udY2YjSZ2tHQ3uxA/E6G3uWmmCW6MROcjVniMx9ihamGTXJCHCOBKL05VOhli1f+rffi9iMUAfqwMQMaDE0wP+BLbmyppizPmpbu2Kk/FG+hqYyHIj8EhQ9hoRMc8ERyjaH+kISDqDzyiIUL68+yRLD8BkSCykTyJ6NzvTgUgCM0ONozfOzGTZalqn3CzlbBeU2IWrW4HE4w4IqvStF5ZCin2IO0w9KQSBkDLduztBNypY+zoNQFBM+i0zYwbbgboOt/pLBg/81g1HcSrbG0YRdo24VdpTZBsBWcstDVFQ9Jfg3tdFuoOND3je+lhVf2HQ884zGQjLgHG4pThoXeDZRcDC7xeknzWHuNFNilQZnKl1B+c6adcg+NLuJTkEn7mtHUEvZQDpQBDM8PFYa+FajJlbbvoG+9KfkHWiT62aagjp8QHSxVwoBpr3UBlGGcclwQXzrmc/8Ln7H3IRxFeoprw1zav5vl+NGHKE9N6KWujfryPK0I0PIjZjNQEad8gQ/CbaIQsV/1OhQz7KEzeqawSjvR2aSABeBXakydBY3wtaD68KQZDDqZB3Am9iD23o7BsmKnfDl/ACqhMb3tUL03qXfK6fNoG8CuTlAP2NrWX8IVEZU0UC5yCJBqZQmmJijNIyVLqhSzUt1QhiI9j3dl0SmOeO2gleoj1DkbAlGZtumY1DOqNILNuW3byHXDs3RmGpqdhlql1jrxoitbUpIix33dg6F7HFsFrJGWHpLuXphfuAgzxfMibFdopNanHfZ2Z+atMavDpx3qEh6M2SDm3BNve3yp0g2favPmw9eGmC+pnrz84VdVIanaYr5UpmvPp9Uno3nj61+NHtxVbxHAgSHDzCVSRSBAslRQHKPsGB463jh0QB/htpoekeJX1B9SvZNcQnIT7ZeYkNjc6XQeKzoc16Es+/GNOuqZRHYiOpnJkOabA8zuR0d6BfALMTzUaXFmrv/FSMyXcERnY/vOcMWMHQOMCXokXGSOgPJZpLD1NJke31txTnc3LBsv1vvr7ahzBgZxT+v9NLt9nrhNqR4Z0gOttVFSNRnvSmgpOB09IDxzL6pBTCOuKqpDGqkgIAWVnsYZNfDth2Xat2L9FvB9Wd432mTEAVdV1CFSGpB3mEbYaTjSt06qcgXRcSXqWyrJvt8Wx0rPgOm4zYlQsqGZbyBh/CsEpmrTdIS09anHdzAUge7+PVKuHzRU7ChyoDcIdeC4hy1kLw+CzDzfG9NSnR2wtPiEmRaddOOAJH0+MzX+dITtNIdX1I3xQd44z8GDpvj74N6EG3J6golNPJDzA32U1o7EFMnslJ1Kxb5buk6QRueCVWuYOQ+LG9K98U7XebgyTvQqgYvBiGeBJjSAR7KjMMuZVZbqP9wst9PuBjdc4kCzh78secbioSiG4yjBqEK577NUYnlIdoqDruybjjZCy4YGg3c1FookFqsKXwwhQh5m3cfovdDh2i5762nqkl2UHJvH5Vna6R6U8U98M4PRXqpsQEFS5tDzfDMUl7xiwEBRLsn7+f1n4Xerwb8sh6Jib6QoY8XDSFi1LrSbLTbL6PSt50Dgswva1GNexRcPd74559AHZA6I1k1nePXmz5xy27yevFrs1w082ZIu7UVzU78RgLBDiOnGgRHEUhsodH8SnePzEeK0DSj+r/Y4dxg60wi0VeCtrKRECksK6KMs00DDhXU51ysZP7oyUwgHYrbRSnUpwRtuwiHl2yDDuZeY1d05xVtIeA2zxhmmWE5FkueY/AzOxqz1TrxAy54UtH1ZmJ4hYnSO0NKmRi44lC2avbwnXeIQ70w9iWYzoLUuFyrsKYtqTcGaPgZ0ncrLq76E4wNbiWGu7cytonWAQpNX7RTmYAA3Ggz/0WjTFXB3t4UWe9ckl2Dxr00PganfOq5htsUxpk7Mrh5osAZvOoZTm4aEr0Zd2NtQBM/OA+zjFZUbYBsS5I5aQQA7haH26hcVV6yFSOkz7M5Iy43oADqxQKBGRmnx8YnLoah/otPbsrDcOuB4vJkGm9dBRmoOKMeNurclEhzbKXNptpxk1OCm8Y0fw3Bol4FWUQZAL/LVBj+dgySQMf3+UeelWiHE0sfsF4ubpE1B30QfB71QYXOpXUzSn6QAI8MTuBdLh1QHIxPGzPiX3O/PMOSBC9z17qBdGRDrcqo1jTri4xRfxVKvQcI9Uskw8FA7fjDs0DcaiZYU5iBsriVcUR7OTnGNsfjbeMgulw32TCxQ8gfYkNeaV5zY8Gf61uWkhlYJLJSqXLDKK/mGrbRaETZd2ldocB5OoJK2my7qg3uzjBOLmQuXHzWKKCoJX92OLithQSpFoU43JqNKHTdqdiUY0RrbiNVwLaddPnf9fXgf3X9KHb5duN5PUGQIFxmNwsSKfmQqA3YwOc+YYuwukm6FAo0HzDFlRcqe1alpWXu6n5njoOe+gHQqm/2jdSs7dp2AAZTx2JcgfB1k+NGmEqaDkoh30GlOCvsEbbjYvq/Rz/kq3CZGzRptXfVhpQYUxjxqz0VCjLSvH00J8A5VBgzaqN5jn7Qz7gBz/9ycNs4ez6ZBHBi58X2aCEkDGuJ/Z/JGP8/ON/vVpnvspv359K3TjUh25YgKLLuImt/P67ewohK/5lQ1QyXgBqLaMPFuJxtzaT9D1n/m7lI1Zxk8uaN+IqBbDhNlJbEilaAPwSXGXYTuwlOR+DUdR3CKW8x54nhNZ7NfeW7sY6KDDCqYF12uP8ujjyY848YH5tkMZtr6/IemRorvdrheBfaGM0dgns1nzJtc4ZkL4p9myU9UDIyDliZxt/KzT6UlRbV6kJjYZCYW94x7+IJRyCcjtyQPTOArc97QjnWX2S9WN92VnJ3u7B9rvNqixxaFyjDxLqLq/ElYD2etrwB+ZslYXG4hvYq95w7l1QVxLbNotPLrq2IZmlSmljOQLK94UYVXmgEXef1ssU63Mul6vvzMKhcqjaoydw09PXQvsBaBjkMdLWoYtTofqU98XCFBG+i2rrBwCKmEg0DQIOB0IBJW6FC0EX0kkjL9dTOCMum0QJyHbAIVfT01t/ZMbtxzLRiBcaYssIFaeLRPqBU8lQTOkNbuezYU50Ybryy6UqUH/yHOrqfDlPAOnLM1zRaDFLSHjL18A3OkEMSZoE8jFjsGF9ca6NWrDaXFer8iubgJSnm7T/FGtcQZVMIh/KRPA8fWrO1FZNnm+sN9FTQ9ddTHjdXu9XsycCft58GBU6yxo6eXXLG1cwgrptLPnAO+TXV1CnWPemBMGDsT3DQYNgwy0ZiImZfLm8TWrd5Ffsa2jGNOh6XDd5rLF4t7Rse4TgFZ/sHrP3RulPHKLas+HRogTE9xqcd0YoqoT0Rvz35rKY54hb/BCVeeqapl1NNUt51UWVK+evPB8nXs+z+M70cfzu31CwFBp1hBEcR2lSl9hsf3N+QVLrMwNy1R3X6z5hXpiU7S7jtSO6RIccz+hYcLnsIt4B+b/UmbEFb3VEEOLQz5nZCd7oppmRMCWDcF4wtvYOYQ/li1RM1PrHObvNDXWQ3OyK5EB/qKKQQ8VplXujdrCoLyATH+ceBuktZUBpNuZQtxOR4UB3n10sjofYoOYZzm1p6ueFdwL11R7szunNxc8y/7qewyhisWQZLMnMDXuHhgpp4O4DoEvzTfIrSlJyrDPqdrcjPcG5uJvfp1du8K6ZvfDZOSZIufJQvrO2VyQLetY4lg9KBtAj8LfBpg/v8aQ+BSgowX49ayth8s0Uhhjuh0DMJ7M642lFJCo4Vtu6Pg4M1F4tWIi28kbNAeHoREfvewT2w2SVLvcXa6HU7LShEGRRacsRoX07eO8/NPYKn9SyqVJbHYihqk3rhtL3vjm/BKAl28YCeJXJG0o42TfccQRkvQmtmy+xAb9z9Lf6YF82c9RAAfdxut2GBC6Zq9os+gAg7HSHzhFoYEj4gfvjk/Z+noX+8PHtdC7y7LPj09rjNKcC36mtV2dOiMnzH7Y1VnSrSzo9LOaCTSCDicomXZzpw2ubUZjRYGPCJ2Mg3FhneDLkejVZ8QWpJ27DAwJi2cViAUhzBc33ES3hDGepVUdWp05T2JwUH3/7N6OuxLj87Y7Lfs8dO+O14oCZ81k31Fc/RxItnR3jprYWrcRs3VTlPz054Nm55wHxilYbYMJtAfl4JM12iifVKdiouL30J7aIQWuDxCPMu78BUELH7muOZ3SuG4XS/qdpo9b+pV6jEtwaadlh4BAk4xD4yD+roFKMwxbk1Q+TCvK/M7hEKVnwRFuJ9oNYO2lACJ/HejH2hpMRnLSnONxkrRVch0x9jNJZvCIUGbLNgwW9PWhDmO3k0qPlG+m3HOWv3Wq4QBUwaPv/I12743OMgk96OjBqqXK5C9us3oIX3Zeb3C0v+kDOQWXEBwqABCl9wcQQiEL1fABxLt8lCZ9SdlDPgYDB8wRcAULjyaKzMFMCtZtsyocNnCaeVEU4NndWrQAnfSfoSP0gEtU0vs4vRJOeMDy16ropw/Pc011Y5e7wc1gG2hjpNGok4wicnjN/nW6cMj2s1L/GWcsaQbnUSnOMLcgaIjuw0d2s12eUzcDIlzwXEd4oQ+UmDQSTm076No9t5oNrbas3wuBiEnUvpoD+iqhXvpmItdfqqfIPyhPhV2JXW0EekQQBc5IMnQeUbg/0QkQRpapWga1xjCP8IifZoo21ioyFzwfK9eUe2LEvNd5Vn+PJj3eZSOQ2aL9emF7IpVw5fs8FvaYIi+1AINZs3MfkAtqnaqXtkoSOpgxyFY2ynAT6W0UedOtH9N9lgMKcwRRcdN6nvURXQ5y58kZuQFpjNBpK2FQCiqonRRvEU/qoPbkGfZlunpjiH4lrXB7qd2qw+4dceCM7ZPosMwtXFjn+z/GJi70dbVb73KGPCeg4Xs+qlvqvf0UjUbJcWxZ8YNrfal6AG4DnDq6AsNyGY+u5it+nurwY876i8CM9FwoShhDmrQVqsFPvSe6NyeoTDNr6JPfPz/RQ/+gj4+ZgtRM2BZFCyDAXR2g7JTnP+X1SU+zXwshTramZ3j06GU4NYSfzF05Cpd1bwdokUqlPxJYEUQnZdjxmhYtsU++H3Q0vSxtp+kLz9uhGpAzK+4xLsWH3saGMi7vVP7T9HTRLKXXmYfwprosGidQntjkeLQrBOd5wj8ivU06NBeQD2v1/tpdpI2dgriALi3a37ows8tCeR/PyPVSf62hjDNnj95ERj8jSqBwA6JDnYJznpPs40Q9gzNYFGu54Dd/XbS15S+EpDfoI4yGFVY1Cutf5lpk1R45qgHL4X09BT9QARlvOHQvt//QFu9FO8Z8Ngbqu+q3O9/Q543qRQQEhw/6sFlZup3unVzY2m6v9k/ICnnmP307tJ6nq33IzuY/QTIHlw3LTWptTmMLs8gLXGkgjQQkL9BXRqiDe4ed8MDv+hpp3dMaI/2fkqpX6JXyrtOHx6tPSPH9zpa2kN6ekWK7juc6PE/63AIF6J8oY4f7b4jlpN/pfPFuBQiWZ+u3k6CebgJ6xVJYp/AX/3uHaKwQE+j2aGIRh0caW71ieN3wOgx2vc3f+vkpj1zfKM3+VkBfesnUBys1KjfutB4yEM78RZaGRKshOMy6GCmC+ldziBvf/2rX9ldT39YiRQjR+3SvgX7POsW9d5gjYqErp77+EfNyZ/VhAAa+lsHFj1+dTUlryYLPc1n4qN/mpgtPGwHi+jRoNhB+A2d3kKVkVawQMQUsWS4GHkNpCSQ7pzMPOk/kZKjDwpLw13wkZ+AOBdEoiv1hz4NMCYoHsa35kCcBPgb6oPR9m8ovyqYESkt6iQFxfuqNkPS0yH9XHTMHjwL4N8aU5Huaj6YYSLtqRk5/sm2I3pdIhDUuh1aik4Gm7gM5bQuTeLcL9L/EJ3Hasw05+qihqzoiE4DLrSE2iHkCQu1FzCn/3VI6PLziHXrfPow6hxxY854YgaIF+ooUd6fkN8y1GsTlhkLsNTQFkCC0WCGSMwRS5ZId268O24K6RvWp2lnz+rYoCULFP8AXMIDCUH4B3m8zhTxH4wymiOPnqg/tgNwEQFN6HCtIhR03BvNkTEtTxpc+b3+x1C2EWi/odkv0vsXaX+C2dpfGBDtQupYboe+cIWdi7obmCpEEO7MyPNrszGG+4rPQedPmqkGIl4PLS/tibQl4PEefQuOpMTnx6/L3/98r7aJ+Xt33w5/yuN05NFLo4/wDIC2WK13cAUo0UyHOj2f6ZFuJ39odLsAbZ8E4OjWJP3MEMqhhC+R5/c4cTDX7h5cc7p6NwYrLwO3UaqfU+ivrpboCcqw06Bhj7DtLgwIMpFGS40UdcL3p94VjJUX8V8MKNFvKK0VJkOGgA1CWcPtjgkrINtwuhaXBihoF/Q99QD2gzX/CM/yv3Vow0PfcizFV7l9hIQq5P3h9+vYflzG8OoDV6n34ZJO5hLc7Tvx+cVVKo1MNx29+n9Xhc78khDYA3M/Z89/wplvhV5cXYykqIwKwhkCloOUInxQfnxIuCIUUpKKEIcPIg4dGi13YaaipFamCjTLhHTiiHz5cHBGKrAy9yKxF3QR8iNGWoTyvI0POFBaNhTLZIL7WMGrxaGoAHTEfPET6PujDjoO3vPxLNNM9BTSDPj86R2d/WRJuRV4nAF3OkVCpmnoHNIoc6RPy7F/4LkY6q5nZeYW7sxEz1mWoRkSZpWDEc+N2D+BHExS8VG9kCDKKbiRHzG9VHS6xJxtGTAJZWEw0/EXz4rLIWhyJeKkgLG1Bz0xkBPzSjbcCfu3+rLQ7BHuR2d0azhbKiy+lDo5MPHzkU9f1Kcv3FQ/zaBMwnLU5lPR4Vo4YXMxZjxFWliZz8zNBbtRtuNW5S0fCoZ+LdI/E2kfi7QnqeO4cCZbUP/PHE7H7OCS/aYy0zUHjttYkgO/61CfsVJR8VDkcRHyopkP3hGjW5j09aHo1GlvQltehcHNEqfL8U1pGhSmGiHATkV4TzCOLRgUbBaC78YHP9w0K7jwdCONhkj4PLHI+z4i7S8qOtgIVRqMOCV4b3kI/wdQ4jiz+g2Fa1uaB+IiWfxgUH+1jYLIgcEC3ZDkQkA8tJY9r2IFGvj1BmVTvKslCPMjLn2b1FbUbxMkZ8uC7ws8d+EXtWnY7MTb8vf93pHeD9KNaTm79Ox3NmaeM/PWfHA2k5XhGEX1QRlxu5N6a9fFEHZEUcMGeexFhVfi+YPgYF+f3L7/zyxvaZhAkQahTk3g4UX9KvytI0+Ii6gYvq1hWOUzYK3UXTu0YM+OvzykJ3rJr5vZLVnvsv24S7ey5kZousq6/aLQLJv2nkdnLWQrjrJ7byuLY2Xi4wOt9hlwZcpX0bh0uXxAkW5yO12zS/UEVzSpGolHx5e8+cWtMSBohEGKC3s++5PkpG20L1sjBajGTGh7QRCKWwUECfvkQoErwbXrmO4X7a6qaxzRwQszsUeu+APNweIbQb14PsZyO0sHOlVeM5rpF/gPt/YLckNRgu5qVA7S/AddYvu8WGbYVV6wOpggyUbgbub+0EyGFRcMISppaCl4y+pPcGuR3EgR5WTIeAhYZTgUn5SwzUaPcyVziz56tTFgKgKppSTFGPddezZLwvlguqbwsQVfswVfrMFgJHZMT+nank2+5ULWp2s7tYY0631n6Vr24EufVwljjx42TnmkMmD+ZjkCHAGOQE0hUK0MWKtEk+QEdisklUlauVmjREZHhBZ8vpotXPI727qn7IF6i8ZJ7II+XRjd76tJOpOU8ycr1rMnXv+W/YMjUNzUPAKcAdc85jxHjgBH4MhCoEYYsAYZndM95+RO7OJ+x4OpdmbEmLftyWerN2xlO/cfZgfyaZ8cN3w3acBaNUlm7Vs2Zt3TWqkz6UKou/wRS8wf/bBO1bxVFUvZWrn4M3YEOAOOHTMegyPAEeAI6BGoUQasz5jspLCjR3ob1rldc0gyJ6g/WrY+XOxlh4u8LL+whG3evo/95dnF6EYjbuoOApwB1513wUvCEeAI1E8ESAqz1gwxVc5Yaw1+njFHgCPAEeAI1CICJGrODUeAI8AR4AhwBDgCNYwAZ8A1DDjPjiPAEeAIcAQ4AoQAZ8C8HXAEOAIcAY4AR6AWEOAMuBZA51lyBDgCHAGOAEeAM2DeBjgCHAGOAEeAI1ALCHAGXAug8yw5AhwBjgBHgCPAGTBvAxwBjgBHgCPAEagFBDgDrgXQeZYcAY4AR4AjwBHgDJi3AY4AR4AjwBHgCNQCApwB1wLoPEuOAEeAI8AR4AhwBszbAEeAI8AR4AhwBGoBAc6AawF0niVHgCPAEeAIcAQ4A+ZtgCPAEeAIcAQ4ArWAAGfAtQA6z5IjwBHgCHAEOAKcAfM2wBHgCHAEOAIcgVpAgDPgWgCdZ8kR4AhwBDgCHAHOgHkb4AhwBDgCHAGOQC0gwBlwLYDOs+QIcAQ4AhwBjgBnwLwNcAQ4AhwBjgBHoBYQ4Ay4FkDnWXIEOAIcAY4AR4AzYN4GOAIcAY4AR4AjUAsIcAZcC6DzLDkCHAGOAEeAI8AZMG8DHAGOAEeAI8ARqAUEOAOuBdB5lhwBjgBHgCPAEXAKTNijCApHgiMQIwLiwRgjcHKOAEeAI8AR0CHw/8vZdlOLiEKuAAAAAElFTkSuQmCC"/>
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Object.assign.bind() : function (target) { for (var i = 1; i < arguments.length; i++) { var source = arguments[i]; for (var key in source) { if (Object.prototype.hasOwnProperty.call(source, key)) { target[key] = source[key]; } } } return target; }; return _extends.apply(this, arguments); }\nimport * as React from \"react\";\nvar SvgLinkedin = function SvgLinkedin(props) {\n  return /*#__PURE__*/React.createElement(\"svg\", _extends({\n    xmlns: \"http://www.w3.org/2000/svg\",\n    width: 50,\n    height: 50,\n    fill: \"none\"\n  }, props), _path || (_path = /*#__PURE__*/React.createElement(\"path\", {\n    d: \"M25 49c13.255 0 24-10.745 24-24S38.255 1 25 1 1 11.745 1 25s10.745 24 24 24Z\",\n    stroke: \"#fff\",\n    strokeWidth: 2,\n    strokeMiterlimit: 10\n  })), _path2 || (_path2 = /*#__PURE__*/React.createElement(\"path\", {\n    d: \"M27.405 27.156V37h-4.723V19.973h4.501v3.004h.2a4.75 4.75 0 0 1 1.895-2.35c.887-.584 1.963-.876 3.226-.876 1.183 0 2.214.259 3.093.776.88.517 1.563 1.256 2.05 2.217.489.953.733 2.091.733 3.414V37h-4.723V27c.008-1.041-.259-1.854-.798-2.438-.54-.591-1.282-.887-2.228-.887-.636 0-1.198.137-1.685.41-.48.274-.858.673-1.13 1.198-.267.517-.404 1.141-.411 1.873ZM14.177 37V19.973H18.9V37h-4.723Zm2.373-19.222a2.566 2.566 0 0 1-1.807-.699c-.495-.473-.743-1.038-.743-1.696 0-.65.248-1.208.743-1.673A2.544 2.544 0 0 1 16.55 13c.702 0 1.3.236 1.796.71.502.465.753 1.023.753 1.673 0 .658-.251 1.224-.753 1.696-.496.466-1.094.699-1.796.699Z\",\n    fill: \"#fff\"\n  })));\n};\nexport { SvgLinkedin as ReactComponent };\nexport default \"data:image/svg+xml;base64,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\";","var _rect, _path;\nfunction _extends() { _extends = Object.assign ? Object.assign.bind() : function (target) { for (var i = 1; i < arguments.length; i++) { var source = arguments[i]; for (var key in source) { if (Object.prototype.hasOwnProperty.call(source, key)) { target[key] = source[key]; } } } return target; }; return _extends.apply(this, arguments); }\nimport * as React from \"react\";\nvar SvgTickedCheckbox = function SvgTickedCheckbox(props) {\n  return /*#__PURE__*/React.createElement(\"svg\", _extends({\n    width: 18,\n    height: 18,\n    fill: \"none\",\n    xmlns: \"http://www.w3.org/2000/svg\"\n  }, props), _rect || (_rect = /*#__PURE__*/React.createElement(\"rect\", {\n    width: 18,\n    height: 18,\n    rx: 9,\n    fill: \"#4040DF\"\n  })), _path || (_path = /*#__PURE__*/React.createElement(\"path\", {\n    fillRule: \"evenodd\",\n    clipRule: \"evenodd\",\n    d: \"M13.837 5.18c.217.24.217.63 0 .87l-6.11 6.77a.518.518 0 0 1-.787 0L4.163 9.743a.663.663 0 0 1 0-.87.518.518 0 0 1 .785 0l2.385 2.641 5.719-6.334a.518.518 0 0 1 .785 0Z\",\n    fill: \"#fff\",\n    stroke: \"#fff\",\n    strokeWidth: 0.75,\n    strokeLinecap: \"round\",\n    strokeLinejoin: \"round\"\n  })));\n};\nexport { SvgTickedCheckbox as ReactComponent };\nexport default \"data:image/svg+xml;base64,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\";","var _path, _path2;\nfunction _extends() { _extends = Object.assign ? Object.assign.bind() : function (target) { for (var i = 1; i < arguments.length; i++) { var source = arguments[i]; for (var key in source) { if (Object.prototype.hasOwnProperty.call(source, key)) { target[key] = source[key]; } } } return target; }; return _extends.apply(this, arguments); }\nimport * as React from \"react\";\nvar SvgTwitter = function SvgTwitter(props) {\n  return /*#__PURE__*/React.createElement(\"svg\", _extends({\n    xmlns: \"http://www.w3.org/2000/svg\",\n    width: 50,\n    height: 50,\n    fill: \"none\"\n  }, props), _path || (_path = /*#__PURE__*/React.createElement(\"path\", {\n    d: \"M25 49c13.255 0 24-10.745 24-24S38.255 1 25 1 1 11.745 1 25s10.745 24 24 24Z\",\n    stroke: \"#fff\",\n    strokeWidth: 2,\n    strokeMiterlimit: 10\n  })), _path2 || (_path2 = /*#__PURE__*/React.createElement(\"path\", {\n    fillRule: \"evenodd\",\n    clipRule: \"evenodd\",\n    d: \"M36.716 11h2.536l-10.73 11.595 12.075 16.14h-8.796L11.104 11h8.744l7.533 10.068L36.716 11ZM22.525 26.305l1.145 1.534-10.083 10.895H11l11.525-12.43Zm-7.627-13.442h4.042L36.871 36.82h-4.087L14.898 12.863Z\",\n    fill: \"#fff\"\n  })));\n};\nexport { SvgTwitter as ReactComponent };\nexport default \"data:image/svg+xml;base64,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\";","var _path, _path2;\nfunction _extends() { _extends = Object.assign ? Object.assign.bind() : function (target) { for (var i = 1; i < arguments.length; i++) { var source = arguments[i]; for (var key in source) { if (Object.prototype.hasOwnProperty.call(source, key)) { target[key] = source[key]; } } } return target; }; return _extends.apply(this, arguments); }\nimport * as React from \"react\";\nvar SvgUpload = function SvgUpload(props) {\n  return /*#__PURE__*/React.createElement(\"svg\", _extends({\n    width: 36,\n    height: 30,\n    fill: \"none\",\n    xmlns: \"http://www.w3.org/2000/svg\"\n  }, props), _path || (_path = /*#__PURE__*/React.createElement(\"path\", {\n    d: \"M18.944 1.15A13.493 13.493 0 0 0 3.388 22.433a1.5 1.5 0 0 0 2.246-1.986 10.494 10.494 0 1 1 18.024-9.563 1.5 1.5 0 0 0 1.452 1.127h1.889a6 6 0 0 1 5.723 4.185 5.996 5.996 0 0 1-2.268 6.716 1.5 1.5 0 1 0 1.725 2.453 8.995 8.995 0 0 0-5.18-16.353h-.779a13.49 13.49 0 0 0-7.276-7.862Z\",\n    fill: \"#04049B\"\n  })), _path2 || (_path2 = /*#__PURE__*/React.createElement(\"path\", {\n    d: \"M18.004 13.51a1.5 1.5 0 0 1 1.5 1.499v9.873l3.437-3.438a1.5 1.5 0 0 1 2.12 2.12l-5.997 5.997a1.5 1.5 0 0 1-2.12 0l-5.997-5.997a1.499 1.499 0 1 1 2.12-2.12l3.438 3.438v-9.873a1.5 1.5 0 0 1 1.499-1.5Z\",\n    fill: \"#04049B\"\n  })));\n};\nexport { SvgUpload as ReactComponent };\nexport default \"data:image/svg+xml;base64,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\";","module.exports = require('./lib/axios');","'use strict';\n\nvar utils = require('./../utils');\nvar settle = require('./../core/settle');\nvar cookies = require('./../helpers/cookies');\nvar buildURL = require('./../helpers/buildURL');\nvar buildFullPath = require('../core/buildFullPath');\nvar parseHeaders = require('./../helpers/parseHeaders');\nvar isURLSameOrigin = require('./../helpers/isURLSameOrigin');\nvar createError = require('../core/createError');\n\nmodule.exports = function xhrAdapter(config) {\n  return new Promise(function dispatchXhrRequest(resolve, reject) {\n    var requestData = config.data;\n    var requestHeaders = config.headers;\n    var responseType = config.responseType;\n\n    if (utils.isFormData(requestData)) {\n      delete requestHeaders['Content-Type']; // Let the browser set it\n    }\n\n    var request = new XMLHttpRequest();\n\n    // HTTP basic authentication\n    if (config.auth) {\n      var username = config.auth.username || '';\n      var password = config.auth.password ? unescape(encodeURIComponent(config.auth.password)) : '';\n      requestHeaders.Authorization = 'Basic ' + btoa(username + ':' + password);\n    }\n\n    var fullPath = buildFullPath(config.baseURL, config.url);\n    request.open(config.method.toUpperCase(), buildURL(fullPath, config.params, config.paramsSerializer), true);\n\n    // Set the request timeout in MS\n    request.timeout = config.timeout;\n\n    function onloadend() {\n      if (!request) {\n        return;\n      }\n      // Prepare the response\n      var responseHeaders = 'getAllResponseHeaders' in request ? parseHeaders(request.getAllResponseHeaders()) : null;\n      var responseData = !responseType || responseType === 'text' ||  responseType === 'json' ?\n        request.responseText : request.response;\n      var response = {\n        data: responseData,\n        status: request.status,\n        statusText: request.statusText,\n        headers: responseHeaders,\n        config: config,\n        request: request\n      };\n\n      settle(resolve, reject, response);\n\n      // Clean up request\n      request = null;\n    }\n\n    if ('onloadend' in request) {\n      // Use onloadend if available\n      request.onloadend = onloadend;\n    } else {\n      // Listen for ready state to emulate onloadend\n      request.onreadystatechange = function handleLoad() {\n        if (!request || request.readyState !== 4) {\n          return;\n        }\n\n        // The request errored out and we didn't get a response, this will be\n        // handled by onerror instead\n        // With one exception: request that using file: protocol, most browsers\n        // will return status as 0 even though it's a successful request\n        if (request.status === 0 && !(request.responseURL && request.responseURL.indexOf('file:') === 0)) {\n          return;\n        }\n        // readystate handler is calling before onerror or ontimeout handlers,\n        // so we should call onloadend on the next 'tick'\n        setTimeout(onloadend);\n      };\n    }\n\n    // Handle browser request cancellation (as opposed to a manual cancellation)\n    request.onabort = function handleAbort() {\n      if (!request) {\n        return;\n      }\n\n      reject(createError('Request aborted', config, 'ECONNABORTED', request));\n\n      // Clean up request\n      request = null;\n    };\n\n    // Handle low level network errors\n    request.onerror = function handleError() {\n      // Real errors are hidden from us by the browser\n      // onerror should only fire if it's a network error\n      reject(createError('Network Error', config, null, request));\n\n      // Clean up request\n      request = null;\n    };\n\n    // Handle timeout\n    request.ontimeout = function handleTimeout() {\n      var timeoutErrorMessage = 'timeout of ' + config.timeout + 'ms exceeded';\n      if (config.timeoutErrorMessage) {\n        timeoutErrorMessage = config.timeoutErrorMessage;\n      }\n      reject(createError(\n        timeoutErrorMessage,\n        config,\n        config.transitional && config.transitional.clarifyTimeoutError ? 'ETIMEDOUT' : 'ECONNABORTED',\n        request));\n\n      // Clean up request\n      request = null;\n    };\n\n    // Add xsrf header\n    // This is only done if running in a standard browser environment.\n    // Specifically not if we're in a web worker, or react-native.\n    if (utils.isStandardBrowserEnv()) {\n      // Add xsrf header\n      var xsrfValue = (config.withCredentials || isURLSameOrigin(fullPath)) && config.xsrfCookieName ?\n        cookies.read(config.xsrfCookieName) :\n        undefined;\n\n      if (xsrfValue) {\n        requestHeaders[config.xsrfHeaderName] = xsrfValue;\n      }\n    }\n\n    // Add headers to the request\n    if ('setRequestHeader' in request) {\n      utils.forEach(requestHeaders, function setRequestHeader(val, key) {\n        if (typeof requestData === 'undefined' && key.toLowerCase() === 'content-type') {\n          // Remove Content-Type if data is undefined\n          delete requestHeaders[key];\n        } else {\n          // Otherwise add header to the request\n          request.setRequestHeader(key, val);\n        }\n      });\n    }\n\n    // Add withCredentials to request if needed\n    if (!utils.isUndefined(config.withCredentials)) {\n      request.withCredentials = !!config.withCredentials;\n    }\n\n    // Add responseType to request if needed\n    if (responseType && responseType !== 'json') {\n      request.responseType = config.responseType;\n    }\n\n    // Handle progress if needed\n    if (typeof config.onDownloadProgress === 'function') {\n      request.addEventListener('progress', config.onDownloadProgress);\n    }\n\n    // Not all browsers support upload events\n    if (typeof config.onUploadProgress === 'function' && request.upload) {\n      request.upload.addEventListener('progress', config.onUploadProgress);\n    }\n\n    if (config.cancelToken) {\n      // Handle cancellation\n      config.cancelToken.promise.then(function onCanceled(cancel) {\n        if (!request) {\n          return;\n        }\n\n        request.abort();\n        reject(cancel);\n        // Clean up request\n        request = null;\n      });\n    }\n\n    if (!requestData) {\n      requestData = null;\n    }\n\n    // Send the request\n    request.send(requestData);\n  });\n};\n","'use strict';\n\nvar utils = require('./utils');\nvar bind = require('./helpers/bind');\nvar Axios = require('./core/Axios');\nvar mergeConfig = require('./core/mergeConfig');\nvar defaults = require('./defaults');\n\n/**\n * Create an instance of Axios\n *\n * @param {Object} defaultConfig The default config for the instance\n * @return {Axios} A new instance of Axios\n */\nfunction createInstance(defaultConfig) {\n  var context = new Axios(defaultConfig);\n  var instance = bind(Axios.prototype.request, context);\n\n  // Copy axios.prototype to instance\n  utils.extend(instance, Axios.prototype, context);\n\n  // Copy context to instance\n  utils.extend(instance, context);\n\n  return instance;\n}\n\n// Create the default instance to be exported\nvar axios = createInstance(defaults);\n\n// Expose Axios class to allow class inheritance\naxios.Axios = Axios;\n\n// Factory for creating new instances\naxios.create = function create(instanceConfig) {\n  return createInstance(mergeConfig(axios.defaults, instanceConfig));\n};\n\n// Expose Cancel & CancelToken\naxios.Cancel = require('./cancel/Cancel');\naxios.CancelToken = require('./cancel/CancelToken');\naxios.isCancel = require('./cancel/isCancel');\n\n// Expose all/spread\naxios.all = function all(promises) {\n  return Promise.all(promises);\n};\naxios.spread = require('./helpers/spread');\n\n// Expose isAxiosError\naxios.isAxiosError = require('./helpers/isAxiosError');\n\nmodule.exports = axios;\n\n// Allow use of default import syntax in TypeScript\nmodule.exports.default = axios;\n","'use strict';\n\n/**\n * A `Cancel` is an object that is thrown when an operation is canceled.\n *\n * @class\n * @param {string=} message The message.\n */\nfunction Cancel(message) {\n  this.message = message;\n}\n\nCancel.prototype.toString = function toString() {\n  return 'Cancel' + (this.message ? ': ' + this.message : '');\n};\n\nCancel.prototype.__CANCEL__ = true;\n\nmodule.exports = Cancel;\n","'use strict';\n\nvar Cancel = require('./Cancel');\n\n/**\n * A `CancelToken` is an object that can be used to request cancellation of an operation.\n *\n * @class\n * @param {Function} executor The executor function.\n */\nfunction CancelToken(executor) {\n  if (typeof executor !== 'function') {\n    throw new TypeError('executor must be a function.');\n  }\n\n  var resolvePromise;\n  this.promise = new Promise(function promiseExecutor(resolve) {\n    resolvePromise = resolve;\n  });\n\n  var token = this;\n  executor(function cancel(message) {\n    if (token.reason) {\n      // Cancellation has already been requested\n      return;\n    }\n\n    token.reason = new Cancel(message);\n    resolvePromise(token.reason);\n  });\n}\n\n/**\n * Throws a `Cancel` if cancellation has been requested.\n */\nCancelToken.prototype.throwIfRequested = function throwIfRequested() {\n  if (this.reason) {\n    throw this.reason;\n  }\n};\n\n/**\n * Returns an object that contains a new `CancelToken` and a function that, when called,\n * cancels the `CancelToken`.\n */\nCancelToken.source = function source() {\n  var cancel;\n  var token = new CancelToken(function executor(c) {\n    cancel = c;\n  });\n  return {\n    token: token,\n    cancel: cancel\n  };\n};\n\nmodule.exports = CancelToken;\n","'use strict';\n\nmodule.exports = function isCancel(value) {\n  return !!(value && value.__CANCEL__);\n};\n","'use strict';\n\nvar utils = require('./../utils');\nvar buildURL = require('../helpers/buildURL');\nvar InterceptorManager = require('./InterceptorManager');\nvar dispatchRequest = require('./dispatchRequest');\nvar mergeConfig = require('./mergeConfig');\nvar validator = require('../helpers/validator');\n\nvar validators = validator.validators;\n/**\n * Create a new instance of Axios\n *\n * @param {Object} instanceConfig The default config for the instance\n */\nfunction Axios(instanceConfig) {\n  this.defaults = instanceConfig;\n  this.interceptors = {\n    request: new InterceptorManager(),\n    response: new InterceptorManager()\n  };\n}\n\n/**\n * Dispatch a request\n *\n * @param {Object} config The config specific for this request (merged with this.defaults)\n */\nAxios.prototype.request = function request(config) {\n  /*eslint no-param-reassign:0*/\n  // Allow for axios('example/url'[, config]) a la fetch API\n  if (typeof config === 'string') {\n    config = arguments[1] || {};\n    config.url = arguments[0];\n  } else {\n    config = config || {};\n  }\n\n  config = mergeConfig(this.defaults, config);\n\n  // Set config.method\n  if (config.method) {\n    config.method = config.method.toLowerCase();\n  } else if (this.defaults.method) {\n    config.method = this.defaults.method.toLowerCase();\n  } else {\n    config.method = 'get';\n  }\n\n  var transitional = config.transitional;\n\n  if (transitional !== undefined) {\n    validator.assertOptions(transitional, {\n      silentJSONParsing: validators.transitional(validators.boolean, '1.0.0'),\n      forcedJSONParsing: validators.transitional(validators.boolean, '1.0.0'),\n      clarifyTimeoutError: validators.transitional(validators.boolean, '1.0.0')\n    }, false);\n  }\n\n  // filter out skipped interceptors\n  var requestInterceptorChain = [];\n  var synchronousRequestInterceptors = true;\n  this.interceptors.request.forEach(function unshiftRequestInterceptors(interceptor) {\n    if (typeof interceptor.runWhen === 'function' && interceptor.runWhen(config) === false) {\n      return;\n    }\n\n    synchronousRequestInterceptors = synchronousRequestInterceptors && interceptor.synchronous;\n\n    requestInterceptorChain.unshift(interceptor.fulfilled, interceptor.rejected);\n  });\n\n  var responseInterceptorChain = [];\n  this.interceptors.response.forEach(function pushResponseInterceptors(interceptor) {\n    responseInterceptorChain.push(interceptor.fulfilled, interceptor.rejected);\n  });\n\n  var promise;\n\n  if (!synchronousRequestInterceptors) {\n    var chain = [dispatchRequest, undefined];\n\n    Array.prototype.unshift.apply(chain, requestInterceptorChain);\n    chain = chain.concat(responseInterceptorChain);\n\n    promise = Promise.resolve(config);\n    while (chain.length) {\n      promise = promise.then(chain.shift(), chain.shift());\n    }\n\n    return promise;\n  }\n\n\n  var newConfig = config;\n  while (requestInterceptorChain.length) {\n    var onFulfilled = requestInterceptorChain.shift();\n    var onRejected = requestInterceptorChain.shift();\n    try {\n      newConfig = onFulfilled(newConfig);\n    } catch (error) {\n      onRejected(error);\n      break;\n    }\n  }\n\n  try {\n    promise = dispatchRequest(newConfig);\n  } catch (error) {\n    return Promise.reject(error);\n  }\n\n  while (responseInterceptorChain.length) {\n    promise = promise.then(responseInterceptorChain.shift(), responseInterceptorChain.shift());\n  }\n\n  return promise;\n};\n\nAxios.prototype.getUri = function getUri(config) {\n  config = mergeConfig(this.defaults, config);\n  return buildURL(config.url, config.params, config.paramsSerializer).replace(/^\\?/, '');\n};\n\n// Provide aliases for supported request methods\nutils.forEach(['delete', 'get', 'head', 'options'], function forEachMethodNoData(method) {\n  /*eslint func-names:0*/\n  Axios.prototype[method] = function(url, config) {\n    return this.request(mergeConfig(config || {}, {\n      method: method,\n      url: url,\n      data: (config || {}).data\n    }));\n  };\n});\n\nutils.forEach(['post', 'put', 'patch'], function forEachMethodWithData(method) {\n  /*eslint func-names:0*/\n  Axios.prototype[method] = function(url, data, config) {\n    return this.request(mergeConfig(config || {}, {\n      method: method,\n      url: url,\n      data: data\n    }));\n  };\n});\n\nmodule.exports = Axios;\n","'use strict';\n\nvar utils = require('./../utils');\n\nfunction InterceptorManager() {\n  this.handlers = [];\n}\n\n/**\n * Add a new interceptor to the stack\n *\n * @param {Function} fulfilled The function to handle `then` for a `Promise`\n * @param {Function} rejected The function to handle `reject` for a `Promise`\n *\n * @return {Number} An ID used to remove interceptor later\n */\nInterceptorManager.prototype.use = function use(fulfilled, rejected, options) {\n  this.handlers.push({\n    fulfilled: fulfilled,\n    rejected: rejected,\n    synchronous: options ? options.synchronous : false,\n    runWhen: options ? options.runWhen : null\n  });\n  return this.handlers.length - 1;\n};\n\n/**\n * Remove an interceptor from the stack\n *\n * @param {Number} id The ID that was returned by `use`\n */\nInterceptorManager.prototype.eject = function eject(id) {\n  if (this.handlers[id]) {\n    this.handlers[id] = null;\n  }\n};\n\n/**\n * Iterate over all the registered interceptors\n *\n * This method is particularly useful for skipping over any\n * interceptors that may have become `null` calling `eject`.\n *\n * @param {Function} fn The function to call for each interceptor\n */\nInterceptorManager.prototype.forEach = function forEach(fn) {\n  utils.forEach(this.handlers, function forEachHandler(h) {\n    if (h !== null) {\n      fn(h);\n    }\n  });\n};\n\nmodule.exports = InterceptorManager;\n","'use strict';\n\nvar isAbsoluteURL = require('../helpers/isAbsoluteURL');\nvar combineURLs = require('../helpers/combineURLs');\n\n/**\n * Creates a new URL by combining the baseURL with the requestedURL,\n * only when the requestedURL is not already an absolute URL.\n * If the requestURL is absolute, this function returns the requestedURL untouched.\n *\n * @param {string} baseURL The base URL\n * @param {string} requestedURL Absolute or relative URL to combine\n * @returns {string} The combined full path\n */\nmodule.exports = function buildFullPath(baseURL, requestedURL) {\n  if (baseURL && !isAbsoluteURL(requestedURL)) {\n    return combineURLs(baseURL, requestedURL);\n  }\n  return requestedURL;\n};\n","'use strict';\n\nvar enhanceError = require('./enhanceError');\n\n/**\n * Create an Error with the specified message, config, error code, request and response.\n *\n * @param {string} message The error message.\n * @param {Object} config The config.\n * @param {string} [code] The error code (for example, 'ECONNABORTED').\n * @param {Object} [request] The request.\n * @param {Object} [response] The response.\n * @returns {Error} The created error.\n */\nmodule.exports = function createError(message, config, code, request, response) {\n  var error = new Error(message);\n  return enhanceError(error, config, code, request, response);\n};\n","'use strict';\n\nvar utils = require('./../utils');\nvar transformData = require('./transformData');\nvar isCancel = require('../cancel/isCancel');\nvar defaults = require('../defaults');\n\n/**\n * Throws a `Cancel` if cancellation has been requested.\n */\nfunction throwIfCancellationRequested(config) {\n  if (config.cancelToken) {\n    config.cancelToken.throwIfRequested();\n  }\n}\n\n/**\n * Dispatch a request to the server using the configured adapter.\n *\n * @param {object} config The config that is to be used for the request\n * @returns {Promise} The Promise to be fulfilled\n */\nmodule.exports = function dispatchRequest(config) {\n  throwIfCancellationRequested(config);\n\n  // Ensure headers exist\n  config.headers = config.headers || {};\n\n  // Transform request data\n  config.data = transformData.call(\n    config,\n    config.data,\n    config.headers,\n    config.transformRequest\n  );\n\n  // Flatten headers\n  config.headers = utils.merge(\n    config.headers.common || {},\n    config.headers[config.method] || {},\n    config.headers\n  );\n\n  utils.forEach(\n    ['delete', 'get', 'head', 'post', 'put', 'patch', 'common'],\n    function cleanHeaderConfig(method) {\n      delete config.headers[method];\n    }\n  );\n\n  var adapter = config.adapter || defaults.adapter;\n\n  return adapter(config).then(function onAdapterResolution(response) {\n    throwIfCancellationRequested(config);\n\n    // Transform response data\n    response.data = transformData.call(\n      config,\n      response.data,\n      response.headers,\n      config.transformResponse\n    );\n\n    return response;\n  }, function onAdapterRejection(reason) {\n    if (!isCancel(reason)) {\n      throwIfCancellationRequested(config);\n\n      // Transform response data\n      if (reason && reason.response) {\n        reason.response.data = transformData.call(\n          config,\n          reason.response.data,\n          reason.response.headers,\n          config.transformResponse\n        );\n      }\n    }\n\n    return Promise.reject(reason);\n  });\n};\n","'use strict';\n\n/**\n * Update an Error with the specified config, error code, and response.\n *\n * @param {Error} error The error to update.\n * @param {Object} config The config.\n * @param {string} [code] The error code (for example, 'ECONNABORTED').\n * @param {Object} [request] The request.\n * @param {Object} [response] The response.\n * @returns {Error} The error.\n */\nmodule.exports = function enhanceError(error, config, code, request, response) {\n  error.config = config;\n  if (code) {\n    error.code = code;\n  }\n\n  error.request = request;\n  error.response = response;\n  error.isAxiosError = true;\n\n  error.toJSON = function toJSON() {\n    return {\n      // Standard\n      message: this.message,\n      name: this.name,\n      // Microsoft\n      description: this.description,\n      number: this.number,\n      // Mozilla\n      fileName: this.fileName,\n      lineNumber: this.lineNumber,\n      columnNumber: this.columnNumber,\n      stack: this.stack,\n      // Axios\n      config: this.config,\n      code: this.code\n    };\n  };\n  return error;\n};\n","'use strict';\n\nvar utils = require('../utils');\n\n/**\n * Config-specific merge-function which creates a new config-object\n * by merging two configuration objects together.\n *\n * @param {Object} config1\n * @param {Object} config2\n * @returns {Object} New object resulting from merging config2 to config1\n */\nmodule.exports = function mergeConfig(config1, config2) {\n  // eslint-disable-next-line no-param-reassign\n  config2 = config2 || {};\n  var config = {};\n\n  var valueFromConfig2Keys = ['url', 'method', 'data'];\n  var mergeDeepPropertiesKeys = ['headers', 'auth', 'proxy', 'params'];\n  var defaultToConfig2Keys = [\n    'baseURL', 'transformRequest', 'transformResponse', 'paramsSerializer',\n    'timeout', 'timeoutMessage', 'withCredentials', 'adapter', 'responseType', 'xsrfCookieName',\n    'xsrfHeaderName', 'onUploadProgress', 'onDownloadProgress', 'decompress',\n    'maxContentLength', 'maxBodyLength', 'maxRedirects', 'transport', 'httpAgent',\n    'httpsAgent', 'cancelToken', 'socketPath', 'responseEncoding'\n  ];\n  var directMergeKeys = ['validateStatus'];\n\n  function getMergedValue(target, source) {\n    if (utils.isPlainObject(target) && utils.isPlainObject(source)) {\n      return utils.merge(target, source);\n    } else if (utils.isPlainObject(source)) {\n      return utils.merge({}, source);\n    } else if (utils.isArray(source)) {\n      return source.slice();\n    }\n    return source;\n  }\n\n  function mergeDeepProperties(prop) {\n    if (!utils.isUndefined(config2[prop])) {\n      config[prop] = getMergedValue(config1[prop], config2[prop]);\n    } else if (!utils.isUndefined(config1[prop])) {\n      config[prop] = getMergedValue(undefined, config1[prop]);\n    }\n  }\n\n  utils.forEach(valueFromConfig2Keys, function valueFromConfig2(prop) {\n    if (!utils.isUndefined(config2[prop])) {\n      config[prop] = getMergedValue(undefined, config2[prop]);\n    }\n  });\n\n  utils.forEach(mergeDeepPropertiesKeys, mergeDeepProperties);\n\n  utils.forEach(defaultToConfig2Keys, function defaultToConfig2(prop) {\n    if (!utils.isUndefined(config2[prop])) {\n      config[prop] = getMergedValue(undefined, config2[prop]);\n    } else if (!utils.isUndefined(config1[prop])) {\n      config[prop] = getMergedValue(undefined, config1[prop]);\n    }\n  });\n\n  utils.forEach(directMergeKeys, function merge(prop) {\n    if (prop in config2) {\n      config[prop] = getMergedValue(config1[prop], config2[prop]);\n    } else if (prop in config1) {\n      config[prop] = getMergedValue(undefined, config1[prop]);\n    }\n  });\n\n  var axiosKeys = valueFromConfig2Keys\n    .concat(mergeDeepPropertiesKeys)\n    .concat(defaultToConfig2Keys)\n    .concat(directMergeKeys);\n\n  var otherKeys = Object\n    .keys(config1)\n    .concat(Object.keys(config2))\n    .filter(function filterAxiosKeys(key) {\n      return axiosKeys.indexOf(key) === -1;\n    });\n\n  utils.forEach(otherKeys, mergeDeepProperties);\n\n  return config;\n};\n","'use strict';\n\nvar createError = require('./createError');\n\n/**\n * Resolve or reject a Promise based on response status.\n *\n * @param {Function} resolve A function that resolves the promise.\n * @param {Function} reject A function that rejects the promise.\n * @param {object} response The response.\n */\nmodule.exports = function settle(resolve, reject, response) {\n  var validateStatus = response.config.validateStatus;\n  if (!response.status || !validateStatus || validateStatus(response.status)) {\n    resolve(response);\n  } else {\n    reject(createError(\n      'Request failed with status code ' + response.status,\n      response.config,\n      null,\n      response.request,\n      response\n    ));\n  }\n};\n","'use strict';\n\nvar utils = require('./../utils');\nvar defaults = require('./../defaults');\n\n/**\n * Transform the data for a request or a response\n *\n * @param {Object|String} data The data to be transformed\n * @param {Array} headers The headers for the request or response\n * @param {Array|Function} fns A single function or Array of functions\n * @returns {*} The resulting transformed data\n */\nmodule.exports = function transformData(data, headers, fns) {\n  var context = this || defaults;\n  /*eslint no-param-reassign:0*/\n  utils.forEach(fns, function transform(fn) {\n    data = fn.call(context, data, headers);\n  });\n\n  return data;\n};\n","'use strict';\n\nvar utils = require('./utils');\nvar normalizeHeaderName = require('./helpers/normalizeHeaderName');\nvar enhanceError = require('./core/enhanceError');\n\nvar DEFAULT_CONTENT_TYPE = {\n  'Content-Type': 'application/x-www-form-urlencoded'\n};\n\nfunction setContentTypeIfUnset(headers, value) {\n  if (!utils.isUndefined(headers) && utils.isUndefined(headers['Content-Type'])) {\n    headers['Content-Type'] = value;\n  }\n}\n\nfunction getDefaultAdapter() {\n  var adapter;\n  if (typeof XMLHttpRequest !== 'undefined') {\n    // For browsers use XHR adapter\n    adapter = require('./adapters/xhr');\n  } else if (typeof process !== 'undefined' && Object.prototype.toString.call(process) === '[object process]') {\n    // For node use HTTP adapter\n    adapter = require('./adapters/http');\n  }\n  return adapter;\n}\n\nfunction stringifySafely(rawValue, parser, encoder) {\n  if (utils.isString(rawValue)) {\n    try {\n      (parser || JSON.parse)(rawValue);\n      return utils.trim(rawValue);\n    } catch (e) {\n      if (e.name !== 'SyntaxError') {\n        throw e;\n      }\n    }\n  }\n\n  return (encoder || JSON.stringify)(rawValue);\n}\n\nvar defaults = {\n\n  transitional: {\n    silentJSONParsing: true,\n    forcedJSONParsing: true,\n    clarifyTimeoutError: false\n  },\n\n  adapter: getDefaultAdapter(),\n\n  transformRequest: [function transformRequest(data, headers) {\n    normalizeHeaderName(headers, 'Accept');\n    normalizeHeaderName(headers, 'Content-Type');\n\n    if (utils.isFormData(data) ||\n      utils.isArrayBuffer(data) ||\n      utils.isBuffer(data) ||\n      utils.isStream(data) ||\n      utils.isFile(data) ||\n      utils.isBlob(data)\n    ) {\n      return data;\n    }\n    if (utils.isArrayBufferView(data)) {\n      return data.buffer;\n    }\n    if (utils.isURLSearchParams(data)) {\n      setContentTypeIfUnset(headers, 'application/x-www-form-urlencoded;charset=utf-8');\n      return data.toString();\n    }\n    if (utils.isObject(data) || (headers && headers['Content-Type'] === 'application/json')) {\n      setContentTypeIfUnset(headers, 'application/json');\n      return stringifySafely(data);\n    }\n    return data;\n  }],\n\n  transformResponse: [function transformResponse(data) {\n    var transitional = this.transitional;\n    var silentJSONParsing = transitional && transitional.silentJSONParsing;\n    var forcedJSONParsing = transitional && transitional.forcedJSONParsing;\n    var strictJSONParsing = !silentJSONParsing && this.responseType === 'json';\n\n    if (strictJSONParsing || (forcedJSONParsing && utils.isString(data) && data.length)) {\n      try {\n        return JSON.parse(data);\n      } catch (e) {\n        if (strictJSONParsing) {\n          if (e.name === 'SyntaxError') {\n            throw enhanceError(e, this, 'E_JSON_PARSE');\n          }\n          throw e;\n        }\n      }\n    }\n\n    return data;\n  }],\n\n  /**\n   * A timeout in milliseconds to abort a request. If set to 0 (default) a\n   * timeout is not created.\n   */\n  timeout: 0,\n\n  xsrfCookieName: 'XSRF-TOKEN',\n  xsrfHeaderName: 'X-XSRF-TOKEN',\n\n  maxContentLength: -1,\n  maxBodyLength: -1,\n\n  validateStatus: function validateStatus(status) {\n    return status >= 200 && status < 300;\n  }\n};\n\ndefaults.headers = {\n  common: {\n    'Accept': 'application/json, text/plain, */*'\n  }\n};\n\nutils.forEach(['delete', 'get', 'head'], function forEachMethodNoData(method) {\n  defaults.headers[method] = {};\n});\n\nutils.forEach(['post', 'put', 'patch'], function forEachMethodWithData(method) {\n  defaults.headers[method] = utils.merge(DEFAULT_CONTENT_TYPE);\n});\n\nmodule.exports = defaults;\n","'use strict';\n\nmodule.exports = function bind(fn, thisArg) {\n  return function wrap() {\n    var args = new Array(arguments.length);\n    for (var i = 0; i < args.length; i++) {\n      args[i] = arguments[i];\n    }\n    return fn.apply(thisArg, args);\n  };\n};\n","'use strict';\n\nvar utils = require('./../utils');\n\nfunction encode(val) {\n  return encodeURIComponent(val).\n    replace(/%3A/gi, ':').\n    replace(/%24/g, '$').\n    replace(/%2C/gi, ',').\n    replace(/%20/g, '+').\n    replace(/%5B/gi, '[').\n    replace(/%5D/gi, ']');\n}\n\n/**\n * Build a URL by appending params to the end\n *\n * @param {string} url The base of the url (e.g., http://www.google.com)\n * @param {object} [params] The params to be appended\n * @returns {string} The formatted url\n */\nmodule.exports = function buildURL(url, params, paramsSerializer) {\n  /*eslint no-param-reassign:0*/\n  if (!params) {\n    return url;\n  }\n\n  var serializedParams;\n  if (paramsSerializer) {\n    serializedParams = paramsSerializer(params);\n  } else if (utils.isURLSearchParams(params)) {\n    serializedParams = params.toString();\n  } else {\n    var parts = [];\n\n    utils.forEach(params, function serialize(val, key) {\n      if (val === null || typeof val === 'undefined') {\n        return;\n      }\n\n      if (utils.isArray(val)) {\n        key = key + '[]';\n      } else {\n        val = [val];\n      }\n\n      utils.forEach(val, function parseValue(v) {\n        if (utils.isDate(v)) {\n          v = v.toISOString();\n        } else if (utils.isObject(v)) {\n          v = JSON.stringify(v);\n        }\n        parts.push(encode(key) + '=' + encode(v));\n      });\n    });\n\n    serializedParams = parts.join('&');\n  }\n\n  if (serializedParams) {\n    var hashmarkIndex = url.indexOf('#');\n    if (hashmarkIndex !== -1) {\n      url = url.slice(0, hashmarkIndex);\n    }\n\n    url += (url.indexOf('?') === -1 ? '?' : '&') + serializedParams;\n  }\n\n  return url;\n};\n","'use strict';\n\n/**\n * Creates a new URL by combining the specified URLs\n *\n * @param {string} baseURL The base URL\n * @param {string} relativeURL The relative URL\n * @returns {string} The combined URL\n */\nmodule.exports = function combineURLs(baseURL, relativeURL) {\n  return relativeURL\n    ? baseURL.replace(/\\/+$/, '') + '/' + relativeURL.replace(/^\\/+/, '')\n    : baseURL;\n};\n","'use strict';\n\nvar utils = require('./../utils');\n\nmodule.exports = (\n  utils.isStandardBrowserEnv() ?\n\n  // Standard browser envs support document.cookie\n    (function standardBrowserEnv() {\n      return {\n        write: function write(name, value, expires, path, domain, secure) {\n          var cookie = [];\n          cookie.push(name + '=' + encodeURIComponent(value));\n\n          if (utils.isNumber(expires)) {\n            cookie.push('expires=' + new Date(expires).toGMTString());\n          }\n\n          if (utils.isString(path)) {\n            cookie.push('path=' + path);\n          }\n\n          if (utils.isString(domain)) {\n            cookie.push('domain=' + domain);\n          }\n\n          if (secure === true) {\n            cookie.push('secure');\n          }\n\n          document.cookie = cookie.join('; ');\n        },\n\n        read: function read(name) {\n          var match = document.cookie.match(new RegExp('(^|;\\\\s*)(' + name + ')=([^;]*)'));\n          return (match ? decodeURIComponent(match[3]) : null);\n        },\n\n        remove: function remove(name) {\n          this.write(name, '', Date.now() - 86400000);\n        }\n      };\n    })() :\n\n  // Non standard browser env (web workers, react-native) lack needed support.\n    (function nonStandardBrowserEnv() {\n      return {\n        write: function write() {},\n        read: function read() { return null; },\n        remove: function remove() {}\n      };\n    })()\n);\n","'use strict';\n\n/**\n * Determines whether the specified URL is absolute\n *\n * @param {string} url The URL to test\n * @returns {boolean} True if the specified URL is absolute, otherwise false\n */\nmodule.exports = function isAbsoluteURL(url) {\n  // A URL is considered absolute if it begins with \"<scheme>://\" or \"//\" (protocol-relative URL).\n  // RFC 3986 defines scheme name as a sequence of characters beginning with a letter and followed\n  // by any combination of letters, digits, plus, period, or hyphen.\n  return /^([a-z][a-z\\d\\+\\-\\.]*:)?\\/\\//i.test(url);\n};\n","'use strict';\n\n/**\n * Determines whether the payload is an error thrown by Axios\n *\n * @param {*} payload The value to test\n * @returns {boolean} True if the payload is an error thrown by Axios, otherwise false\n */\nmodule.exports = function isAxiosError(payload) {\n  return (typeof payload === 'object') && (payload.isAxiosError === true);\n};\n","'use strict';\n\nvar utils = require('./../utils');\n\nmodule.exports = (\n  utils.isStandardBrowserEnv() ?\n\n  // Standard browser envs have full support of the APIs needed to test\n  // whether the request URL is of the same origin as current location.\n    (function standardBrowserEnv() {\n      var msie = /(msie|trident)/i.test(navigator.userAgent);\n      var urlParsingNode = document.createElement('a');\n      var originURL;\n\n      /**\n    * Parse a URL to discover it's components\n    *\n    * @param {String} url The URL to be parsed\n    * @returns {Object}\n    */\n      function resolveURL(url) {\n        var href = url;\n\n        if (msie) {\n        // IE needs attribute set twice to normalize properties\n          urlParsingNode.setAttribute('href', href);\n          href = urlParsingNode.href;\n        }\n\n        urlParsingNode.setAttribute('href', href);\n\n        // urlParsingNode provides the UrlUtils interface - http://url.spec.whatwg.org/#urlutils\n        return {\n          href: urlParsingNode.href,\n          protocol: urlParsingNode.protocol ? urlParsingNode.protocol.replace(/:$/, '') : '',\n          host: urlParsingNode.host,\n          search: urlParsingNode.search ? urlParsingNode.search.replace(/^\\?/, '') : '',\n          hash: urlParsingNode.hash ? urlParsingNode.hash.replace(/^#/, '') : '',\n          hostname: urlParsingNode.hostname,\n          port: urlParsingNode.port,\n          pathname: (urlParsingNode.pathname.charAt(0) === '/') ?\n            urlParsingNode.pathname :\n            '/' + urlParsingNode.pathname\n        };\n      }\n\n      originURL = resolveURL(window.location.href);\n\n      /**\n    * Determine if a URL shares the same origin as the current location\n    *\n    * @param {String} requestURL The URL to test\n    * @returns {boolean} True if URL shares the same origin, otherwise false\n    */\n      return function isURLSameOrigin(requestURL) {\n        var parsed = (utils.isString(requestURL)) ? resolveURL(requestURL) : requestURL;\n        return (parsed.protocol === originURL.protocol &&\n            parsed.host === originURL.host);\n      };\n    })() :\n\n  // Non standard browser envs (web workers, react-native) lack needed support.\n    (function nonStandardBrowserEnv() {\n      return function isURLSameOrigin() {\n        return true;\n      };\n    })()\n);\n","'use strict';\n\nvar utils = require('../utils');\n\nmodule.exports = function normalizeHeaderName(headers, normalizedName) {\n  utils.forEach(headers, function processHeader(value, name) {\n    if (name !== normalizedName && name.toUpperCase() === normalizedName.toUpperCase()) {\n      headers[normalizedName] = value;\n      delete headers[name];\n    }\n  });\n};\n","'use strict';\n\nvar utils = require('./../utils');\n\n// Headers whose duplicates are ignored by node\n// c.f. https://nodejs.org/api/http.html#http_message_headers\nvar ignoreDuplicateOf = [\n  'age', 'authorization', 'content-length', 'content-type', 'etag',\n  'expires', 'from', 'host', 'if-modified-since', 'if-unmodified-since',\n  'last-modified', 'location', 'max-forwards', 'proxy-authorization',\n  'referer', 'retry-after', 'user-agent'\n];\n\n/**\n * Parse headers into an object\n *\n * ```\n * Date: Wed, 27 Aug 2014 08:58:49 GMT\n * Content-Type: application/json\n * Connection: keep-alive\n * Transfer-Encoding: chunked\n * ```\n *\n * @param {String} headers Headers needing to be parsed\n * @returns {Object} Headers parsed into an object\n */\nmodule.exports = function parseHeaders(headers) {\n  var parsed = {};\n  var key;\n  var val;\n  var i;\n\n  if (!headers) { return parsed; }\n\n  utils.forEach(headers.split('\\n'), function parser(line) {\n    i = line.indexOf(':');\n    key = utils.trim(line.substr(0, i)).toLowerCase();\n    val = utils.trim(line.substr(i + 1));\n\n    if (key) {\n      if (parsed[key] && ignoreDuplicateOf.indexOf(key) >= 0) {\n        return;\n      }\n      if (key === 'set-cookie') {\n        parsed[key] = (parsed[key] ? parsed[key] : []).concat([val]);\n      } else {\n        parsed[key] = parsed[key] ? parsed[key] + ', ' + val : val;\n      }\n    }\n  });\n\n  return parsed;\n};\n","'use strict';\n\n/**\n * Syntactic sugar for invoking a function and expanding an array for arguments.\n *\n * Common use case would be to use `Function.prototype.apply`.\n *\n *  ```js\n *  function f(x, y, z) {}\n *  var args = [1, 2, 3];\n *  f.apply(null, args);\n *  ```\n *\n * With `spread` this example can be re-written.\n *\n *  ```js\n *  spread(function(x, y, z) {})([1, 2, 3]);\n *  ```\n *\n * @param {Function} callback\n * @returns {Function}\n */\nmodule.exports = function spread(callback) {\n  return function wrap(arr) {\n    return callback.apply(null, arr);\n  };\n};\n","'use strict';\n\nvar pkg = require('./../../package.json');\n\nvar validators = {};\n\n// eslint-disable-next-line func-names\n['object', 'boolean', 'number', 'function', 'string', 'symbol'].forEach(function(type, i) {\n  validators[type] = function validator(thing) {\n    return typeof thing === type || 'a' + (i < 1 ? 'n ' : ' ') + type;\n  };\n});\n\nvar deprecatedWarnings = {};\nvar currentVerArr = pkg.version.split('.');\n\n/**\n * Compare package versions\n * @param {string} version\n * @param {string?} thanVersion\n * @returns {boolean}\n */\nfunction isOlderVersion(version, thanVersion) {\n  var pkgVersionArr = thanVersion ? thanVersion.split('.') : currentVerArr;\n  var destVer = version.split('.');\n  for (var i = 0; i < 3; i++) {\n    if (pkgVersionArr[i] > destVer[i]) {\n      return true;\n    } else if (pkgVersionArr[i] < destVer[i]) {\n      return false;\n    }\n  }\n  return false;\n}\n\n/**\n * Transitional option validator\n * @param {function|boolean?} validator\n * @param {string?} version\n * @param {string} message\n * @returns {function}\n */\nvalidators.transitional = function transitional(validator, version, message) {\n  var isDeprecated = version && isOlderVersion(version);\n\n  function formatMessage(opt, desc) {\n    return '[Axios v' + pkg.version + '] Transitional option \\'' + opt + '\\'' + desc + (message ? '. ' + message : '');\n  }\n\n  // eslint-disable-next-line func-names\n  return function(value, opt, opts) {\n    if (validator === false) {\n      throw new Error(formatMessage(opt, ' has been removed in ' + version));\n    }\n\n    if (isDeprecated && !deprecatedWarnings[opt]) {\n      deprecatedWarnings[opt] = true;\n      // eslint-disable-next-line no-console\n      console.warn(\n        formatMessage(\n          opt,\n          ' has been deprecated since v' + version + ' and will be removed in the near future'\n        )\n      );\n    }\n\n    return validator ? validator(value, opt, opts) : true;\n  };\n};\n\n/**\n * Assert object's properties type\n * @param {object} options\n * @param {object} schema\n * @param {boolean?} allowUnknown\n */\n\nfunction assertOptions(options, schema, allowUnknown) {\n  if (typeof options !== 'object') {\n    throw new TypeError('options must be an object');\n  }\n  var keys = Object.keys(options);\n  var i = keys.length;\n  while (i-- > 0) {\n    var opt = keys[i];\n    var validator = schema[opt];\n    if (validator) {\n      var value = options[opt];\n      var result = value === undefined || validator(value, opt, options);\n      if (result !== true) {\n        throw new TypeError('option ' + opt + ' must be ' + result);\n      }\n      continue;\n    }\n    if (allowUnknown !== true) {\n      throw Error('Unknown option ' + opt);\n    }\n  }\n}\n\nmodule.exports = {\n  isOlderVersion: isOlderVersion,\n  assertOptions: assertOptions,\n  validators: validators\n};\n","'use strict';\n\nvar bind = require('./helpers/bind');\n\n// utils is a library of generic helper functions non-specific to axios\n\nvar toString = Object.prototype.toString;\n\n/**\n * Determine if a value is an Array\n *\n * @param {Object} val The value to test\n * @returns {boolean} True if value is an Array, otherwise false\n */\nfunction isArray(val) {\n  return toString.call(val) === '[object Array]';\n}\n\n/**\n * Determine if a value is undefined\n *\n * @param {Object} val The value to test\n * @returns {boolean} True if the value is undefined, otherwise false\n */\nfunction isUndefined(val) {\n  return typeof val === 'undefined';\n}\n\n/**\n * Determine if a value is a Buffer\n *\n * @param {Object} val The value to test\n * @returns {boolean} True if value is a Buffer, otherwise false\n */\nfunction isBuffer(val) {\n  return val !== null && !isUndefined(val) && val.constructor !== null && !isUndefined(val.constructor)\n    && typeof val.constructor.isBuffer === 'function' && val.constructor.isBuffer(val);\n}\n\n/**\n * Determine if a value is an ArrayBuffer\n *\n * @param {Object} val The value to test\n * @returns {boolean} True if value is an ArrayBuffer, otherwise false\n */\nfunction isArrayBuffer(val) {\n  return toString.call(val) === '[object ArrayBuffer]';\n}\n\n/**\n * Determine if a value is a FormData\n *\n * @param {Object} val The value to test\n * @returns {boolean} True if value is an FormData, otherwise false\n */\nfunction isFormData(val) {\n  return (typeof FormData !== 'undefined') && (val instanceof FormData);\n}\n\n/**\n * Determine if a value is a view on an ArrayBuffer\n *\n * @param {Object} val The value to test\n * @returns {boolean} True if value is a view on an ArrayBuffer, otherwise false\n */\nfunction isArrayBufferView(val) {\n  var result;\n  if ((typeof ArrayBuffer !== 'undefined') && (ArrayBuffer.isView)) {\n    result = ArrayBuffer.isView(val);\n  } else {\n    result = (val) && (val.buffer) && (val.buffer instanceof ArrayBuffer);\n  }\n  return result;\n}\n\n/**\n * Determine if a value is a String\n *\n * @param {Object} val The value to test\n * @returns {boolean} True if value is a String, otherwise false\n */\nfunction isString(val) {\n  return typeof val === 'string';\n}\n\n/**\n * Determine if a value is a Number\n *\n * @param {Object} val The value to test\n * @returns {boolean} True if value is a Number, otherwise false\n */\nfunction isNumber(val) {\n  return typeof val === 'number';\n}\n\n/**\n * Determine if a value is an Object\n *\n * @param {Object} val The value to test\n * @returns {boolean} True if value is an Object, otherwise false\n */\nfunction isObject(val) {\n  return val !== null && typeof val === 'object';\n}\n\n/**\n * Determine if a value is a plain Object\n *\n * @param {Object} val The value to test\n * @return {boolean} True if value is a plain Object, otherwise false\n */\nfunction isPlainObject(val) {\n  if (toString.call(val) !== '[object Object]') {\n    return false;\n  }\n\n  var prototype = Object.getPrototypeOf(val);\n  return prototype === null || prototype === Object.prototype;\n}\n\n/**\n * Determine if a value is a Date\n *\n * @param {Object} val The value to test\n * @returns {boolean} True if value is a Date, otherwise false\n */\nfunction isDate(val) {\n  return toString.call(val) === '[object Date]';\n}\n\n/**\n * Determine if a value is a File\n *\n * @param {Object} val The value to test\n * @returns {boolean} True if value is a File, otherwise false\n */\nfunction isFile(val) {\n  return toString.call(val) === '[object File]';\n}\n\n/**\n * Determine if a value is a Blob\n *\n * @param {Object} val The value to test\n * @returns {boolean} True if value is a Blob, otherwise false\n */\nfunction isBlob(val) {\n  return toString.call(val) === '[object Blob]';\n}\n\n/**\n * Determine if a value is a Function\n *\n * @param {Object} val The value to test\n * @returns {boolean} True if value is a Function, otherwise false\n */\nfunction isFunction(val) {\n  return toString.call(val) === '[object Function]';\n}\n\n/**\n * Determine if a value is a Stream\n *\n * @param {Object} val The value to test\n * @returns {boolean} True if value is a Stream, otherwise false\n */\nfunction isStream(val) {\n  return isObject(val) && isFunction(val.pipe);\n}\n\n/**\n * Determine if a value is a URLSearchParams object\n *\n * @param {Object} val The value to test\n * @returns {boolean} True if value is a URLSearchParams object, otherwise false\n */\nfunction isURLSearchParams(val) {\n  return typeof URLSearchParams !== 'undefined' && val instanceof URLSearchParams;\n}\n\n/**\n * Trim excess whitespace off the beginning and end of a string\n *\n * @param {String} str The String to trim\n * @returns {String} The String freed of excess whitespace\n */\nfunction trim(str) {\n  return str.trim ? str.trim() : str.replace(/^\\s+|\\s+$/g, '');\n}\n\n/**\n * Determine if we're running in a standard browser environment\n *\n * This allows axios to run in a web worker, and react-native.\n * Both environments support XMLHttpRequest, but not fully standard globals.\n *\n * web workers:\n *  typeof window -> undefined\n *  typeof document -> undefined\n *\n * react-native:\n *  navigator.product -> 'ReactNative'\n * nativescript\n *  navigator.product -> 'NativeScript' or 'NS'\n */\nfunction isStandardBrowserEnv() {\n  if (typeof navigator !== 'undefined' && (navigator.product === 'ReactNative' ||\n                                           navigator.product === 'NativeScript' ||\n                                           navigator.product === 'NS')) {\n    return false;\n  }\n  return (\n    typeof window !== 'undefined' &&\n    typeof document !== 'undefined'\n  );\n}\n\n/**\n * Iterate over an Array or an Object invoking a function for each item.\n *\n * If `obj` is an Array callback will be called passing\n * the value, index, and complete array for each item.\n *\n * If 'obj' is an Object callback will be called passing\n * the value, key, and complete object for each property.\n *\n * @param {Object|Array} obj The object to iterate\n * @param {Function} fn The callback to invoke for each item\n */\nfunction forEach(obj, fn) {\n  // Don't bother if no value provided\n  if (obj === null || typeof obj === 'undefined') {\n    return;\n  }\n\n  // Force an array if not already something iterable\n  if (typeof obj !== 'object') {\n    /*eslint no-param-reassign:0*/\n    obj = [obj];\n  }\n\n  if (isArray(obj)) {\n    // Iterate over array values\n    for (var i = 0, l = obj.length; i < l; i++) {\n      fn.call(null, obj[i], i, obj);\n    }\n  } else {\n    // Iterate over object keys\n    for (var key in obj) {\n      if (Object.prototype.hasOwnProperty.call(obj, key)) {\n        fn.call(null, obj[key], key, obj);\n      }\n    }\n  }\n}\n\n/**\n * Accepts varargs expecting each argument to be an object, then\n * immutably merges the properties of each object and returns result.\n *\n * When multiple objects contain the same key the later object in\n * the arguments list will take precedence.\n *\n * Example:\n *\n * ```js\n * var result = merge({foo: 123}, {foo: 456});\n * console.log(result.foo); // outputs 456\n * ```\n *\n * @param {Object} obj1 Object to merge\n * @returns {Object} Result of all merge properties\n */\nfunction merge(/* obj1, obj2, obj3, ... */) {\n  var result = {};\n  function assignValue(val, key) {\n    if (isPlainObject(result[key]) && isPlainObject(val)) {\n      result[key] = merge(result[key], val);\n    } else if (isPlainObject(val)) {\n      result[key] = merge({}, val);\n    } else if (isArray(val)) {\n      result[key] = val.slice();\n    } else {\n      result[key] = val;\n    }\n  }\n\n  for (var i = 0, l = arguments.length; i < l; i++) {\n    forEach(arguments[i], assignValue);\n  }\n  return result;\n}\n\n/**\n * Extends object a by mutably adding to it the properties of object b.\n *\n * @param {Object} a The object to be extended\n * @param {Object} b The object to copy properties from\n * @param {Object} thisArg The object to bind function to\n * @return {Object} The resulting value of object a\n */\nfunction extend(a, b, thisArg) {\n  forEach(b, function assignValue(val, key) {\n    if (thisArg && typeof val === 'function') {\n      a[key] = bind(val, thisArg);\n    } else {\n      a[key] = val;\n    }\n  });\n  return a;\n}\n\n/**\n * Remove byte order marker. This catches EF BB BF (the UTF-8 BOM)\n *\n * @param {string} content with BOM\n * @return {string} content value without BOM\n */\nfunction stripBOM(content) {\n  if (content.charCodeAt(0) === 0xFEFF) {\n    content = content.slice(1);\n  }\n  return content;\n}\n\nmodule.exports = {\n  isArray: isArray,\n  isArrayBuffer: isArrayBuffer,\n  isBuffer: isBuffer,\n  isFormData: isFormData,\n  isArrayBufferView: isArrayBufferView,\n  isString: isString,\n  isNumber: isNumber,\n  isObject: isObject,\n  isPlainObject: isPlainObject,\n  isUndefined: isUndefined,\n  isDate: isDate,\n  isFile: isFile,\n  isBlob: isBlob,\n  isFunction: isFunction,\n  isStream: isStream,\n  isURLSearchParams: isURLSearchParams,\n  isStandardBrowserEnv: isStandardBrowserEnv,\n  forEach: forEach,\n  merge: merge,\n  extend: extend,\n  trim: trim,\n  stripBOM: stripBOM\n};\n","import React from \"react\";\r\nimport \"./App.css\";\r\nimport { BrowserRouter, Route, Routes } from \"react-router-dom\";\r\nimport HomePage from \"./pages/HomePage/HomePage.js\";\r\nimport AboutPage from \"./pages/AboutPage/AboutPage.js\";\r\nimport MembershipPage from \"./pages/MembershipPage/MembershipPage.js\";\r\nimport AwardsPage from \"./pages/AwardsPage/AwardsPage.js\";\r\nimport MeetingsPage from \"./pages/MeetingsPage/MeetingsPage.js\";\r\nimport ContactPage from \"./pages/ContactPage/ContactPage.js\";\r\nimport NewsletterPage from \"./pages/NewsletterPage/NewsletterPage.js\";\r\nimport SingleNewsPage from \"./pages/SingleNewsPage/SingleNewsPage.js\";\r\nimport MembershipPaymentPage from \"./pages/MembershipPaymentPage/MembershipPaymentPage\";\r\nimport SingleMeetsPage from \"./pages/SingleMeetsPage/SingleMeetsPage.js\";\r\nimport SingleHighPage from \"./pages/SingleHighPage/SingleHighPage\";\r\nimport FinancialSupportPage from \"./pages/FinancialSupportPage/FinancialSupportPage.js\";\r\nimport SingleFinancialPage from \"./pages/SingleFinancialPage/SingleFinancialPage.js\";\r\n\r\n\r\nfunction App() {\r\n\treturn (\r\n\t\t<BrowserRouter>\r\n\t\t\t<Routes>\r\n\t\t\t\t<Route path=\"/\" element={<HomePage />} />\r\n\t\t\t\t<Route path=\"/about/:section\" element={<AboutPage />} />\r\n\t\t\t\t<Route path=\"/awards/:section\" element={<AwardsPage />} />\r\n\t\t\t\t<Route path=\"/news-archive\" element={<NewsletterPage />} />\r\n\t\t\t\t<Route\r\n\t\t\t\t\tpath=\"/news-archive/:postSlug\"\r\n\t\t\t\t\telement={<SingleNewsPage />}\r\n\t\t\t\t/>\r\n\t\t\t\t<Route path=\"/financial-archive\" element={<FinancialSupportPage />} />\r\n\t\t\t\t<Route\r\n\t\t\t\t\tpath=\"/financial-archive/:postSlug\"\r\n\t\t\t\t\telement={<SingleFinancialPage />}\r\n\t\t\t\t/>\r\n\t\t\t\t<Route\r\n\t\t\t\t\tpath=\"/highlight/:postSlug\"\r\n\t\t\t\t\telement={<SingleHighPage />}\r\n\t\t\t\t/>\r\n\t\t\t\t<Route path=\"/membership\" element={<MembershipPage />} />\r\n\t\t\t\t<Route\r\n\t\t\t\t\tpath=\"/membership/payment\"\r\n\t\t\t\t\telement={<MembershipPaymentPage />}\r\n\t\t\t\t/>\r\n\t\t\t\t<Route path=\"/awards\" element={<AwardsPage />} />\r\n\t\t\t\t<Route path=\"/conference&schools\" element={<MeetingsPage />} />\r\n\t\t\t\t<Route\r\n\t\t\t\t\tpath=\"/meetings/:postSlug\"\r\n\t\t\t\t\telement={<SingleMeetsPage />}\r\n\t\t\t\t/>\r\n\t\t\t\t<Route path=\"/contact\" element={<ContactPage />} />\r\n\t\t\t</Routes>\r\n\t\t</BrowserRouter>\r\n\t);\r\n}\r\n\r\nexport default App;\r\n","import React from \"react\";\nimport \"./CouncilsListTitle.css\";\n\nconst CouncilsListTitle = ({ data }) => {\n\treturn (\n\t\t<div className=\"councils-list-tile\">\n\t\t\t<p className=\"councils-years\">{data?.acf?.years}</p>\n\t\t\t<p className=\"councils-president\">{data?.acf?.president}</p>\n\t\t\t<p className=\"councils-others-info\">{data?.acf?.secretary}</p>\n\t\t\t<p className=\"councils-others-info\">{data?.acf?.treasurer}</p>\n\t\t\t<p className=\"councils-others-info council-members\">\n\t\t\t\t{data?.acf?.council_members}\n\t\t\t</p>\n\t\t</div>\n\t);\n};\n\nexport default CouncilsListTitle;\n","import React from \"react\";\r\nimport \"./CouncilsListTitleMobile.css\";\r\n\r\nconst CouncilsListTitleMobile = ({ data }) => {\r\n\treturn (\r\n\t\t<div className=\"councils-list-tile-mobile\">\r\n\t\t\t<div>\r\n\t\t\t<h3 className=\"councils-years-mobile council-list-title-topic-mobile\">\r\n\t\t\t\t{data?.acf?.years}\r\n\t\t\t</h3>\r\n\t\t\t</div>\r\n\t\t\t<div>\r\n\t\t\t<h3 className=\"council-list-title-topic-mobile\">President</h3>\r\n\t\t\t<p className=\"councils-president-mobile\">{data?.acf?.president}</p>\r\n\t\t\t</div>\r\n\t\t\t<div>\r\n\t\t\t<h3 className=\"council-list-title-topic-mobile\">Secretary</h3>\r\n\t\t\t<p className=\"councils-others-info-mobile\">\r\n\t\t\t\t{data?.acf?.secretary}\r\n\t\t\t</p>\r\n\t\t\t</div>\r\n\t\t\t<div>\r\n\t\t\t<h3 className=\"council-list-title-topic-mobile\">Treasurer</h3>\r\n\t\t\t<p className=\"councils-others-info-mobile\">\r\n\t\t\t\t{data?.acf?.treasurer}\r\n\t\t\t</p>\r\n\t\t\t</div>\r\n\t\t\t<div>\r\n\t\t\t<h3 className=\"council-list-title-topic-mobile\">Council Members</h3>\r\n\t\t\t<p className=\"councils-others-info-mobile council-members-mobile\">\r\n\t\t\t\t{data?.acf?.council_members}\r\n\t\t\t</p>\r\n\t\t\t</div>\r\n\t\t</div>\r\n\t);\r\n};\r\n\r\nexport default CouncilsListTitleMobile;\r\n","import React, { useState, useEffect } from \"react\";\nimport \"./CouncilsSection.css\";\nimport { fetchData } from \"../../../utility/utils\";\nimport CouncilsListTile from \"./CouncilsListTitle/CouncilsListTitle.js\";\nimport CouncilsListTileMobile from \"./CouncilsListTitleMobile/CouncilsListTitleMobile.js\";\n\nconst CouncilsSection = () => {\n\tconst [availablePosts, setAvailablePosts] = useState([]);\n\n\t// Posts fetching\n\tuseEffect(() => {\n\t\tfetchData(\"/wp-json/wp/v2/past-councils\", setAvailablePosts);\n\t}, []);\n\n\tuseEffect(() => {\n\t\tdocument.title = \"Past Councils\";\n\t}, []);\n\n\treturn (\n\t\t<div className=\"councils-section\">\n\t\t\t<div className=\"investigator-top council-section-desktop\">\n\t\t\t\t<p>About ESN</p>\n\t\t\t\t<p>{\">\"}</p>\n\t\t\t\t<p>History</p>\n\t\t\t\t<p>{\">\"}</p>\n\t\t\t\t<p>Past Councils</p>\n\t\t\t</div>\n\n\t\t\t<h2 className=\"councils-subtitle\">Past Councils</h2>\n\n\t\t\t<table className=\"councils-table\">\n\t\t\t\t<tr className=\"councils-table-header council-section-desktop\">\n\t\t\t\t\t<th>Years</th>\n\t\t\t\t\t<th>President</th>\n\t\t\t\t\t<th>Secretary</th>\n\t\t\t\t\t<th>Treasurer</th>\n\t\t\t\t\t<th>Council members</th>\n\t\t\t\t</tr>\n\t\t\t\t<div className=\"table-list council-section-desktop\">\n\t\t\t\t\t{availablePosts?.map((post, index) => (\n\t\t\t\t\t\t<tr className=\"councils-table-row\">\n\t\t\t\t\t\t\t<CouncilsListTile data={post} key={index} />\n\t\t\t\t\t\t</tr>\n\t\t\t\t\t))}\n\t\t\t\t</div>\n\t\t\t\t<div className=\"table-list council-section-mobile\">\n\t\t\t\t\t{availablePosts?.map((post, index) => (\n\t\t\t\t\t\t<tr className=\"councils-table-row\">\n\t\t\t\t\t\t\t<CouncilsListTileMobile data={post} key={index} />\n\t\t\t\t\t\t</tr>\n\t\t\t\t\t))}\n\t\t\t\t</div>\n\t\t\t</table>\n\t\t\t<div className=\"councils-country-codes\">\n\t\t\t\t<h2>Country codes</h2>\n\t\t\t\t<div className=\"councils-contry-codes-flex-container\">\n\t\t\t\t\t<div className=\"councils-country-codes-flex council-section-desktop\">\n\t\t\t\t\t\t<div className=\"councils-contry-codes-colum1\">\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(BE)</span>Belgium\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(BRD)</span>Former West Germany\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(CH)</span>Switzerland\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(CZ)</span>Czech Republic\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(DDR)</span>Former East Germany\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(DE)</span>Germany\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t</div>\n\t\t\t\t\t\t<div className=\"councils-contry-codes-colum2\">\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(DK)</span>Denmark\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(EE)</span>Estonia\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(ES)</span>Spain\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(FI)</span>Finland\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(FR)</span>France\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(HU)</span>Hungary\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t</div>\n\t\t\t\t\t\t<div className=\"councils-contry-codes-colum3\">\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(IE)</span>Ireland\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(IL)</span>Israel\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(IT)</span>Italy\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(NL)</span>Netherlands\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(NO)</span>Norway\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(PL)</span>Poland\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t</div>\n\t\t\t\t\t\t<div className=\"councils-contry-codes-colum4\">\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(PT)</span>Portugal\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(RS)</span>Serbia\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(RU)</span>Russia\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(SE)</span>Sweden\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(SK)</span>Slovak Republic\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(UK)</span>United Kingdom\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t</div>\n\t\t\t\t\t</div>\n\n\t\t\t\t\t<div className=\"councils-country-codes-flex council-section-mobile\">\n\t\t\t\t\t\t<div className=\"councils-contry-codes-colum1\">\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(BE)</span>Belgium\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t<br />\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(BRD)</span>Former West Germany\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t<br />\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(CH)</span>Switzerland\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t<br />\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(CZ)</span>Czech Republic\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t<br />\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(DDR)</span>Former East Germany\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t<br />\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(DE)</span>Germany\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t<br />\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(DK)</span>Denmark\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t<br />\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(EE)</span>Estonia\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(ES)</span>Spain\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t<br />\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(FI)</span>Finland\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t<br />\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(FR)</span>France\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t<br />\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(HU)</span>Hungary\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t<br />\n\t\t\t\t\t\t</div>\n\t\t\t\t\t\t<div className=\"councils-contry-codes-colum3\">\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(IE)</span>Ireland\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t<br />\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(IL)</span>Israel\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t<br />\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(IT)</span>Italy\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t<br />\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(NL)</span>Netherlands\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t<br />\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(NO)</span>Norway\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t<br />\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(PL)</span>Poland\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t<br />\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(PT)</span>Portugal\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t<br />\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(RS)</span>Serbia\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t<br />\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(RU)</span>Russia\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t<br />\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(SE)</span>Sweden\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t<br />\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(SK)</span>Slovak Republic\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t<br />\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(UK)</span>United Kingdom\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t<br />\n\t\t\t\t\t\t</div>\n\t\t\t\t\t</div>\n\t\t\t\t</div>\n\t\t\t</div>\n\t\t</div>\n\t);\n};\n\nexport default CouncilsSection;\n","import React from \"react\";\nimport \"./MeetingsListTitle.css\";\n\nconst MeetingsListTitle = ({ data }) => {\n\treturn (\n\t\t<div className=\"meetings-list-tile\">\n\t\t\t<p className=\"meetings-years\">{data?.acf?.year}</p>\n\t\t\t<p className=\"meetings-president\">{data?.acf?.location}</p>\n\t\t\t<p className=\"meetings-others-info\">{data?.acf?.secretary}</p>\n\t\t\t<p className=\"meetings-others-info\">{data?.acf?.publications}</p>\n\t\t\t<p className=\"meetings-others-info\">\n\t\t\t\t{data?.acf?.participants ? data?.acf?.participants : \"-\"}\n\t\t\t</p>\n\t\t\t<p className=\"meetings-others-info\">\n\t\t\t\t{data?.acf?.notes ? data?.acf?.notes : \"-\"}\n\t\t\t</p>\n\t\t</div>\n\t);\n};\n\nexport default MeetingsListTitle;\n","import React from \"react\";\r\nimport \"./MeetingsListTitleMobile.css\";\r\n\r\nconst MeetingsListTitleMobile = ({ data }) => {\r\n\treturn (\r\n\t\t<div className=\"meetings-list-tile-mobile\">\r\n\t\t\t<div>\r\n\t\t\t\t<h3 className=\"meetings-years-mobile meetings-list-title-topic-mobile bigger\">\r\n\t\t\t\t\t{data?.acf?.year}\r\n\t\t\t\t</h3>\r\n\t\t\t</div>\r\n\t\t\t<div>\r\n\t\t\t\t<h3 className=\"meetings-list-title-topic-mobile\">Location</h3>\r\n\t\t\t\t<p className=\"meetings-president-mobile\">\r\n\t\t\t\t\t{data?.acf?.location}\r\n\t\t\t\t</p>\r\n\t\t\t</div>\r\n\t\t\t<div>\r\n\t\t\t\t<h3 className=\"meetings-list-title-topic-mobile\">\r\n\t\t\t\t\tOrganising Secretary/Chair\r\n\t\t\t\t</h3>\r\n\t\t\t\t<p className=\"meetings-others-info-mobile\">\r\n\t\t\t\t\t{data?.acf?.secretary}\r\n\t\t\t\t</p>\r\n\t\t\t</div>\r\n\t\t\t<div>\r\n\t\t\t\t{data?.acf?.publications ? (\r\n\t\t\t\t\t<div>\r\n\t\t\t\t\t\t<h3 className=\"meetings-list-title-topic-mobile\">\r\n\t\t\t\t\t\t\tPublications\r\n\t\t\t\t\t\t</h3>\r\n\t\t\t\t\t\t<p className=\"meetings-others-info-mobile\">\r\n\t\t\t\t\t\t\t{data?.acf?.publications}\r\n\t\t\t\t\t\t</p>\r\n\t\t\t\t\t</div>\r\n\t\t\t\t) : null}\r\n\t\t\t</div>\r\n\t\t\t<div>\r\n\t\t\t\t{data?.acf?.participants ? (\r\n\t\t\t\t\t<div>\r\n\t\t\t\t\t\t<h3 className=\"meetings-list-title-topic-mobile\">\r\n\t\t\t\t\t\t\tNumber os participants\r\n\t\t\t\t\t\t</h3>\r\n\t\t\t\t\t\t<p className=\"meetings-others-info-mobile meetings-members-mobile\">\r\n\t\t\t\t\t\t\t{data?.acf?.participants}\r\n\t\t\t\t\t\t</p>\r\n\t\t\t\t\t</div>\r\n\t\t\t\t) : null}\r\n\t\t\t</div>\r\n\t\t</div>\r\n\t);\r\n};\r\n\r\nexport default MeetingsListTitleMobile;\r\n","import React, { useState, useEffect } from \"react\";\nimport \"./MeetingsSection.css\";\nimport { fetchData } from \"../../../utility/utils\";\nimport MeetingsListTitle from \"./MeetingsListTitle/MeetingsListTitle\";\nimport MeetingsListTitleMobile from \"./MeetingsListTitleMobile/MeetingsListTitleMobile\";\n\nconst MeetingsSection = () => {\n\tconst [availablePosts, setAvailablePosts] = useState([]);\n\tconst [otherEvents, setOtherEvents] = useState([]);\n\n\t// Posts fetching\n\tuseEffect(() => {\n\t\tfetchData(\"/wp-json/wp/v2/pastmeetings\", setAvailablePosts);\n\t\tfetchData(\"/wp-json/wp/v2/other-meetings\", setOtherEvents);\n\t}, []);\n\n\tuseEffect(() => {\n\t\tdocument.title = \"Past Meetings\";\n\t}, []);\n\n\treturn (\n\t\t<div className=\"meetings-section\">\n\t\t\t<div className=\"investigator-top meetings-tablet\">\n\t\t\t\t<p>About ESN</p>\n\t\t\t\t<p>{\">\"}</p>\n\t\t\t\t<p>History</p>\n\t\t\t\t<p>{\">\"}</p>\n\t\t\t\t<p>Past Meetings</p>\n\t\t\t</div>\n\n\t\t\t<h2 className=\"meetings-subtitle\">Past Meetings</h2>\n\n\t\t\t<div className=\"meetings-list-container\">\n\t\t\t\t<table className=\"meetings-table\">\n\t\t\t\t\t<tr className=\"meetings-table-header meetings-desktop\">\n\t\t\t\t\t\t<th>Year</th>\n\t\t\t\t\t\t<th>Location</th>\n\t\t\t\t\t\t<th>Organising Secretary/Chair</th>\n\t\t\t\t\t\t<th>Publications</th>\n\t\t\t\t\t\t<th>Number of participants</th>\n\t\t\t\t\t\t<th>Notes</th>\n\t\t\t\t\t</tr>\n\t\t\t\t\t<div className=\"meetings-table-list meetings-desktop\">\n\t\t\t\t\t\t{availablePosts?.map((post, index) => (\n\t\t\t\t\t\t\t<tr className=\"councils-table-row\">\n\t\t\t\t\t\t\t\t<MeetingsListTitle data={post} key={index} />\n\t\t\t\t\t\t\t</tr>\n\t\t\t\t\t\t))}\n\t\t\t\t\t</div>\n\t\t\t\t\t{\n\t\t\t\t\t\t<div className=\"meetings-table-list meetings-mobile\">\n\t\t\t\t\t\t\t{availablePosts?.map((post, index) => (\n\t\t\t\t\t\t\t\t<tr className=\"councils-table-row\">\n\t\t\t\t\t\t\t\t\t<MeetingsListTitleMobile\n\t\t\t\t\t\t\t\t\t\tdata={post}\n\t\t\t\t\t\t\t\t\t\tkey={index}\n\t\t\t\t\t\t\t\t\t/>\n\t\t\t\t\t\t\t\t</tr>\n\t\t\t\t\t\t\t))}\n\t\t\t\t\t\t</div>\n\t\t\t\t\t}\n\t\t\t\t</table>\n\t\t\t</div>\n\n\t\t\t<h2 className=\"meetings-subtitle\">Other ESN Events</h2>\n\n\t\t\t<div className=\"meetings-list-container\">\n\t\t\t\t<table className=\"meetings-table\">\n\t\t\t\t\t<tr className=\"meetings-table2-header meetings-desktop\">\n\t\t\t\t\t\t<th>Year</th>\n\t\t\t\t\t\t<th>Location</th>\n\t\t\t\t\t\t<th>Event</th>\n\t\t\t\t\t</tr>\n\t\t\t\t\t<div className=\"meetings-table-list meetings-desktop\">\n\t\t\t\t\t\t{otherEvents?.map((data, index) => (\n\t\t\t\t\t\t\t<tr key={index} className=\"councils-table-row\">\n\t\t\t\t\t\t\t\t<div className=\"otherEvents-list-tile\">\n\t\t\t\t\t\t\t\t\t<p className=\"otherEvents-years\">\n\t\t\t\t\t\t\t\t\t\t{data?.acf?.year}\n\t\t\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t\t\t<p className=\"otherEvents-president\">\n\t\t\t\t\t\t\t\t\t\t{data?.acf?.location\n\t\t\t\t\t\t\t\t\t\t\t? data?.acf?.location\n\t\t\t\t\t\t\t\t\t\t\t: \"-\"}\n\t\t\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t\t\t<p className=\"meetings-others-info\">\n\t\t\t\t\t\t\t\t\t\t{data?.acf?.event}\n\t\t\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t\t</div>\n\t\t\t\t\t\t\t</tr>\n\t\t\t\t\t\t))}\n\t\t\t\t\t</div>\n\t\t\t\t\t{\n\t\t\t\t\t<div className=\"meetings-table-list meetings-mobile\">\n\t\t\t\t\t\t{otherEvents?.map((data, index) => (\n\t\t\t\t\t\t\t<tr className=\"councils-table-row meetings-list-tile-mobile\">\n\t\t\t\t\t\t\t\t<h3 className=\"meetings-years-mobile meetings-list-title-topic-mobile bigger\">\n\t\t\t\t\t\t\t\t\t{data?.acf?.year}\n\t\t\t\t\t\t\t\t</h3>\n\t\t\t\t\t\t\t\t<h3 className=\"meetings-list-title-topic-mobile\">Location</h3>\n\t\t\t\t\t\t\t\t<p className=\"meetings-president-mobile\">{data?.acf?.location}</p>\n\t\t\t\t\t\t\t\t<h3 className=\"meetings-list-title-topic-mobile\">Event</h3>\n\t\t\t\t\t\t\t\t<p className=\"meetings-president-mobile\">{data?.acf?.event}</p>\n\t\t\t\t\t\t\t</tr>\n\t\t\t\t\t\t))}\n\t\t\t\t\t</div>\n\t\t\t\t\t}\n\t\t\t\t</table>\n\t\t\t</div> \n\n\t\t\t<div className=\"councils-country-codes\">\n\t\t\t\t<h2>Country codes</h2>\n\t\t\t\t<div className=\"councils-contry-codes-flex-container\">\n\t\t\t\t\t<div className=\"councils-country-codes-flex meetings-desktop\">\n\t\t\t\t\t\t<div className=\"councils-contry-codes-colum1\">\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(BE)</span>Belgium\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(BRD)</span>Former West Germany\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(CH)</span>Switzerland\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(CZ)</span>Czech Republic\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(DDR)</span>Former East Germany\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(DE)</span>Germany\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t</div>\n\t\t\t\t\t\t<div className=\"councils-contry-codes-colum2\">\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(DK)</span>Denmark\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(EE)</span>Estonia\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(ES)</span>Spain\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(FI)</span>Finland\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(FR)</span>France\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(HU)</span>Hungary\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t</div>\n\t\t\t\t\t\t<div className=\"councils-contry-codes-colum3\">\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(IE)</span>Ireland\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(IL)</span>Israel\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(IT)</span>Italy\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(NL)</span>Netherlands\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(NO)</span>Norway\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(PL)</span>Poland\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t</div>\n\t\t\t\t\t\t<div className=\"councils-contry-codes-colum4\">\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(PT)</span>Portugal\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(RS)</span>Serbia\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(RU)</span>Russia\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(SE)</span>Sweden\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(SK)</span>Slovak Republic\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(UK)</span>United Kingdom\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t</div>\n\t\t\t\t\t</div>\n\n\t\t\t\t\t<div className=\"councils-country-codes-flex meetings-mobile\">\n\t\t\t\t\t\t<div className=\"councils-contry-codes-colum1\">\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(BE)</span>Belgium\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t<br />\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(BRD)</span>Former West Germany\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t<br />\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(CH)</span>Switzerland\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t<br />\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(CZ)</span>Czech Republic\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t<br />\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(DDR)</span>Former East Germany\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t<br />\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(DE)</span>Germany\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t<br />\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(DK)</span>Denmark\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t<br />\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(EE)</span>Estonia\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(ES)</span>Spain\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t<br />\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(FI)</span>Finland\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t<br />\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(FR)</span>France\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t<br />\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(HU)</span>Hungary\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t<br />\n\t\t\t\t\t\t</div>\n\t\t\t\t\t\t<div className=\"councils-contry-codes-colum3\">\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(IE)</span>Ireland\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t<br />\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(IL)</span>Israel\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t<br />\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(IT)</span>Italy\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t<br />\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(NL)</span>Netherlands\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t<br />\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(NO)</span>Norway\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t<br />\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(PL)</span>Poland\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t<br />\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(PT)</span>Portugal\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t<br />\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(RS)</span>Serbia\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t<br />\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(RU)</span>Russia\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t<br />\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(SE)</span>Sweden\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t<br />\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(SK)</span>Slovak Republic\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t<br />\n\t\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t\t<span>(UK)</span>United Kingdom\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t<br />\n\t\t\t\t\t\t</div>\n\t\t\t\t\t</div>\n\t\t\t\t</div>\n\t\t\t</div>\n\t\t</div>\n\t);\n};\n\nexport default MeetingsSection;\n","import React, { useEffect } from \"react\";\nimport \"./AboutSection.css\";\n\nconst AboutSection = () => {\n  useEffect(() => {\n    document.title = \"About ESN\";\n  }, []);\n\n  return (\n    <div className=\"about-section\">\n      <div className=\"about-top about-section-desktop\">\n        <p>About ESN</p>\n      </div>\n      <div className=\"about-container\">\n        <h1>About ESN</h1>\n        <div className=\"about-content\">\n          <p>\n            The European Society for Neurochemistry (ESN) was founded in 1976\n            with the objectives to advance Neurochemistry for the public benefit\n            and to promote the development of Neurochemistry in Europe.\n          </p>\n          <p className=\"diff-paragraph\">\n            ESN is a sister society of the International Society for\n            Neurochemistry (ISN) and a member of FENS.\n          </p>\n        </div>\n      </div>\n    </div>\n  );\n};\n\nexport default AboutSection;\n","import React, { useEffect, useState } from \"react\";\n\nimport { fetchData } from \"../../../utility/utils\";\n\nimport bachelard from \"../../../assets/imgs/bachelard.png\";\n\nimport \"./BachelardSection.css\";\n\nconst BachelardSection = () => {\n\tconst [bachelards, setBachelards] = useState([]);\n\n\tuseEffect(() => {\n\t\tdocument.title = \"ESN Bachelard Award\";\n\t}, []);\n\n\tuseEffect(() => {\n\t\tfetchData(\"/wp-json/wp/v2/bachelards/\", setBachelards);\n\t}, []);\n\n\tconst formatDate = (startDate, endDate) => {\n\t\tconst months = [\n\t\t\t\"January\",\n\t\t\t\"February\",\n\t\t\t\"March\",\n\t\t\t\"April\",\n\t\t\t\"May\",\n\t\t\t\"June\",\n\t\t\t\"July\",\n\t\t\t\"August\",\n\t\t\t\"September\",\n\t\t\t\"October\",\n\t\t\t\"November\",\n\t\t\t\"December\",\n\t\t];\n\n\t\tconst startYear = startDate.substring(0, 4);\n\t\tconst startMonth = months[Number(startDate.substring(4, 6)) - 1];\n\t\tconst startDay = startDate.substring(6, 8);\n\n\t\tconst endYear = endDate.substring(0, 4);\n\t\tconst endMonth = months[Number(endDate.substring(4, 6)) - 1];\n\t\tconst endDay = endDate.substring(6, 8);\n\n\t\tconst formattedDate = `${startMonth} ${startDay}-${endDay}, ${startYear}`;\n\t\treturn formattedDate;\n\t};\n\n\treturn (\n\t\t<div className=\"bachelard-section\">\n\t\t\t<div className=\"bachelard-top bachelarddesktop\">\n\t\t\t\t<p>Awards</p>\n        \t\t<p>{\">\"}</p>\n\t\t\t\t<p>ESN Bachelard Award</p>\n\t\t\t</div>\n\t\t\t<div className=\"bachelard-container\">\n\t\t\t\t<h1>ESN Bachelard Award</h1>\n\t\t\t\t<div className=\"bachelard-content-top\">\n\t\t\t\t\t<div>\n\t\t\t\t\t\t<img src={bachelard} alt=\"\"/>\n\t\t\t\t\t\t<h3>Herman Bachelard</h3>\n\t\t\t\t\t</div>\n\t\t\t\t\t<p>\n\t\t\t\t\t\tStarting from the ISN/ESN Biennial Meeting in Paris, ESN introduced the ESN Bachelard Lectureship Award to be presented to leading neurochemists at its biennial meetings. This award commemorates the outstanding contributions of Prof Herman Bachelard (1929–2006) to neurochemistry and ESN.\n\t\t\t\t\t</p>\n\t\t\t\t\t<p>\n\t\t\t\t\t\tProf Herman Bachelard was born in Melbourne, Australia, and gained his BSc in Chemistry and Microbiology from Melbourne University in 1951. After spending the first 5 years of his career in chemical industry at Sydney and Melbourne, Herman returned back to academia in 1956 to gain MS and PhD degrees in Biochemistry at Monash University. In 1960 he received a CJ Martin Travelling Fellowship which enabled him to come to England for two years. Working at the Institute of Psychiatry, University of London with Professor Henry McIlwain, Herman started his research in brain biochemistry which became the main research focus throughout all his life. On return to Australia Herman took up a lectureship in biochemistry at Monash University, where he stayed until 1965, and then returned to the UK for a permanent academic post at the Institute of Psychiatry. In 1975 Herman was appointed to the Chair of Biochemistry at the University of Bath, becoming its first Professor of Biochemistry and then Head of Biological Sciences (within a year of his arrival).\n\t\t\t\t\t</p>\n\t\t\t\t\t<p>\n\t\t\t\t\t\t In 1979 Herman was offered the post of Professor of Biochemistry at St. Thomas’ Hospital Medical School where he moved to develop further his research and, in 1991, he became a Research Professor in Residence at Nottingham University. The main research area of Prof Bachelard was brain metabolism, and he was a pioneer of NMR applications in studies of bioenergetics. But apart from wide research interests and dedication to science he was also a founder of the Neurochemical Group of the Biochemical Society (UK) in 1967 which developed rapidly as a major force in national and international neurochemistry. Herman was also an important figure in the ISN and a founder member and first Secretary of the ESN organizing its extraordinarily successful inaugural meeting at Bath in 1976. He served as Chief Editor of the Journal of Neurochemistry from 1980-1985 and was Historian of the ISN from 1999 until his death. Prof Bachelard was an incredibly kind and encouraging person for scientists of all generations and with his persistent charm he melted the ice of the cold war and extended scientific boundaries and research collaboration between Western and Eastern European countries, including the former USSR. ESN believes that the Bachelard Lectureship Award will become a long-lasting tradition at future ESN and joint ISN/ESN meetings.\n\t\t\t\t\t</p>\n\t\t\t\t\t<p>\n\t\t\t\t\t\tNominees for the Award should be distinguished scientists who have achieved significant scientific contributions in neurochemistry while working predominantly in European research institutions and being involved in ESN/ISN activities. Candidates could be of any age and located in any country at the moment of nomination. The Bachelard Award will offer free registration, accommodation, and travel to attend the ESN Biennial where the awardee will present a 45 min lecture.\n\t\t\t\t\t</p>\n\t\t\t\t\t<p>\n\t\t\t\t\t\tNominations can be put forward by any ESN member. Nomination letters should be accompanied by a curriculum vitae and a short description (with literature references) of the research and ESN/ISN activities and accomplishments of the candidate with a brief outline of the nominee’s profile that would be announced at the award presentation. The Call for nomination will be issued well before the meetings and advertised at the ESN and ISN websites. \n\t\t\t\t\t</p>\n\t\t\t\t</div>\n\t\t\t\t<div className=\"bachelard-content\">\n\t\t\t\t\t<div className=\"bachelard-content-bottom\">\n\t\t\t\t\t\t<h2>ESN Bachelard Award winners:</h2>\n\n\t\t\t\t\t\t{bachelards.map((bachelard) => (\n\t\t\t\t\t\t\t<div className=\"bachelard-winner\">\n\t\t\t\t\t\t\t\t<h3>\n\t\t\t\t\t\t\t\t\t{formatDate(\n\t\t\t\t\t\t\t\t\t\tbachelard?.acf?.initialdate,\n\t\t\t\t\t\t\t\t\t\tbachelard?.acf?.finaldate\n\t\t\t\t\t\t\t\t\t) +\n\t\t\t\t\t\t\t\t\t\t\", \" +\n\t\t\t\t\t\t\t\t\t\tbachelard?.acf?.location}\n\t\t\t\t\t\t\t\t</h3>\n\t\t\t\t\t\t\t\t<li>\n\t\t\t\t\t\t\t\t\t<b>{bachelard?.acf?.name}</b> (\n\t\t\t\t\t\t\t\t\t{bachelard?.acf?.university})\n\t\t\t\t\t\t\t\t</li>\n\t\t\t\t\t\t\t</div>\n\t\t\t\t\t\t))}\n\t\t\t\t\t</div>\n\t\t\t\t</div>\n\t\t\t</div>\n\t\t</div>\n\t);\n};\n\nexport default BachelardSection;\n","import React, { useEffect } from \"react\";\n\nimport \"./ConstitutionSection.css\";\n\nconst ConstitutionSection = () => {\n\tuseEffect(() => {\n\t\tdocument.title = \"Constitution\";\n\t}, []);\n\n\treturn (\n\t\t<div className=\"constitution-section\">\n\t\t\t<div className=\"constitution-top constitution-desktop\">\n\t\t\t\t<p>About ESN</p>\n\t\t\t\t<p>{\">\"}</p>\n\t\t\t\t<p>Constitution</p>\n\t\t\t</div>\n\t\t\t<div className=\"constitution-container\">\n\t\t\t\t<h1>Constitution</h1>\n\n\t\t\t\t<div className=\"constitution-content\">\n\t\t\t\t\t<div className=\"proposal-text\">\n\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\tProposed at the Council Meeting on the 31st of\n\t\t\t\t\t\t\tJanuary 2008 in Berlin and approved at the Business\n\t\t\t\t\t\t\tMeeting on the 13th of July 2009 in Leipzig.{\" \"}\n\t\t\t\t\t\t</p>\n\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\tChanges approved by the General Business Meeting on\n\t\t\t\t\t\t\tthe 25th of May 2021\n\t\t\t\t\t\t</p>\n\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\tFurther changes proposed at the ESN trustees meeting\n\t\t\t\t\t\t\ton the 21st of February 2023 and approved at the\n\t\t\t\t\t\t\tESN General Business Meeting on 10th of August 2023\n\t\t\t\t\t\t\tin Porto.\n\t\t\t\t\t\t</p>\n\t\t\t\t\t</div>\n\t\t\t\t\t<div>\n\t\t\t\t\t\t<h1>A. Name</h1>\n\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\tThe name of the Association is:{\" \"}\n\t\t\t\t\t\t\t<span className=\"marked_text\">\n\t\t\t\t\t\t\t\tThe European Society for Neurochemistry\n\t\t\t\t\t\t\t</span>{\" \"}\n\t\t\t\t\t\t\t(“the Society”)\n\t\t\t\t\t\t</p>\n\t\t\t\t\t</div>\n\t\t\t\t\t<div>\n\t\t\t\t\t\t<h1>B. Administration</h1>\n\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\tESN is a Charity registered in the UK (No. 1098662)\n\t\t\t\t\t\t</p>\n\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\tSubject to the matters set out below the Society and\n\t\t\t\t\t\t\tits property shall be administered and managed in\n\t\t\t\t\t\t\taccordance with this constitution by the members of\n\t\t\t\t\t\t\tthe Council, constituted by clause{\" \"}\n\t\t\t\t\t\t\t<span className=\"marked_text\">H</span> of this\n\t\t\t\t\t\t\tconstitution (“\n\t\t\t\t\t\t\t<span className=\"marked_text\">Council</span>”).\n\t\t\t\t\t\t</p>\n\t\t\t\t\t</div>\n\t\t\t\t\t<div>\n\t\t\t\t\t\t<h1>C. Objects</h1>\n\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\ta{\")\"} The object for which the Society is\n\t\t\t\t\t\t\testablished is the advancement of the science of\n\t\t\t\t\t\t\tNeurochemistry for the public benefit.\n\t\t\t\t\t\t</p>\n\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\tb{\")\"} In furtherance of these objectives the\n\t\t\t\t\t\t\tSociety shall endeavour to:{\" \"}\n\t\t\t\t\t\t</p>\n\t\t\t\t\t\t<p className=\"points\">\n\t\t\t\t\t\t\ti{\")\"} Aim to promote the development of\n\t\t\t\t\t\t\tNeurochemistry in Europe and to facilitate exchange\n\t\t\t\t\t\t\tof ideas and interests amongst its members. [Europe\n\t\t\t\t\t\t\tis defined as including those countries bordering\n\t\t\t\t\t\t\tthe Mediterranean Sea.]\n\t\t\t\t\t\t</p>\n\t\t\t\t\t\t<p className=\"points\">\n\t\t\t\t\t\t\tii{\")\"} Foster the interaction between clinical and\n\t\t\t\t\t\t\tbasic Neurochemistry.\n\t\t\t\t\t\t</p>\n\t\t\t\t\t\t<p className=\"points\">\n\t\t\t\t\t\t\tiii{\")\"} It should be open to all who are interested\n\t\t\t\t\t\t\tin Neurochemistry and allied subjects. No one should\n\t\t\t\t\t\t\tbe excluded from membership of the Society or from\n\t\t\t\t\t\t\tattendance at its meetings on grounds of gender,\n\t\t\t\t\t\t\trace, ethnicity, religion or nationality.\n\t\t\t\t\t\t</p>\n\t\t\t\t\t\t<p className=\"points\">\n\t\t\t\t\t\t\tiv{\")\"} It should seek to be represented on the\n\t\t\t\t\t\t\tappropriate advisory and consultative bodies that\n\t\t\t\t\t\t\tmight impinge upon Neurochemistry, and should seek\n\t\t\t\t\t\t\tclose relationships with related professional bodies\n\t\t\t\t\t\t\tof disciplines interested in Neurobiology.\n\t\t\t\t\t\t</p>\n\t\t\t\t\t\t<p className=\"points\">\n\t\t\t\t\t\t\tv{\")\"} Promote general scientific meetings for the\n\t\t\t\t\t\t\tdiscussion and dissemination of research findings in\n\t\t\t\t\t\t\tNeurochemistry.\n\t\t\t\t\t\t</p>\n\t\t\t\t\t\t<p className=\"points\">\n\t\t\t\t\t\t\tvi{\")\"} Arrange and provide for exhibitions,\n\t\t\t\t\t\t\tlectures, and training courses.\n\t\t\t\t\t\t</p>\n\t\t\t\t\t\t<p className=\"points\">\n\t\t\t\t\t\t\tvii{\")\"} Publish leaflets, pamphlets, journals and\n\t\t\t\t\t\t\tbooks upon the science of Neurochemistry.\n\t\t\t\t\t\t</p>\n\t\t\t\t\t\t<p className=\"points\">\n\t\t\t\t\t\t\tviii{\")\"} Collect, tabulate and distribute\n\t\t\t\t\t\t\tinformation on all matters relating\n\t\t\t\t\t\t\tto Neurochemistry.\n\t\t\t\t\t\t</p>\n\t\t\t\t\t\t<p className=\"points\">\n\t\t\t\t\t\t\tix{\")\"} Promote, organise and support research\n\t\t\t\t\t\t\trelating to Neurochemistry.\n\t\t\t\t\t\t</p>\n\t\t\t\t\t\t<p className=\"points\">\n\t\t\t\t\t\t\tx{\")\"} Raise funds and invite and receive\n\t\t\t\t\t\t\tcontributions from any person or organisation by way\n\t\t\t\t\t\t\tof subscription or donation, provided that the\n\t\t\t\t\t\t\tSociety shall not undertake any trading activities\n\t\t\t\t\t\t\tin raising funds for the said objectives.\n\t\t\t\t\t\t</p>\n\t\t\t\t\t</div>\n\t\t\t\t\t<div>\n\t\t\t\t\t\t<h1>D. Powers</h1>\n\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\tIn furtherance of the objects but not otherwise the\n\t\t\t\t\t\t\tCouncil may exercise the following powers:{\" \"}\n\t\t\t\t\t\t</p>\n\t\t\t\t\t\t<p className=\"points\">\n\t\t\t\t\t\t\ti{\")\"} Power to raise funds and to invite and\n\t\t\t\t\t\t\treceive contributions provided that in raising funds\n\t\t\t\t\t\t\tthe Council shall not undertake any substantial\n\t\t\t\t\t\t\tpermanent trading activities and shall conform to\n\t\t\t\t\t\t\tany relevant requirements of the law.\n\t\t\t\t\t\t</p>\n\t\t\t\t\t\t<p className=\"points\">\n\t\t\t\t\t\t\tii {\")\"} power, subject to any consents required by\n\t\t\t\t\t\t\tlaw, to borrow money with repayment of the money so\n\t\t\t\t\t\t\tborrowed;\n\t\t\t\t\t\t</p>\n\t\t\t\t\t\t<p className=\"points\">\n\t\t\t\t\t\t\tiii {\")\"} power to co-operate with other charities,\n\t\t\t\t\t\t\tvoluntary bodies and statutory authorities operating\n\t\t\t\t\t\t\tin furtherance of the objects or of similar\n\t\t\t\t\t\t\tcharitable purposes and to exchange information and\n\t\t\t\t\t\t\tadvice with them;\n\t\t\t\t\t\t</p>\n\t\t\t\t\t\t<p className=\"points\">\n\t\t\t\t\t\t\tiv {\")\"} power to establish or support any\n\t\t\t\t\t\t\tcharitable trusts, associations or institutions\n\t\t\t\t\t\t\tformed for all or any of the objects;\n\t\t\t\t\t\t</p>\n\t\t\t\t\t\t<p className=\"points\">\n\t\t\t\t\t\t\tv {\")\"} power to appoint and constitute such\n\t\t\t\t\t\t\tadvisory committees as the Council may think fit;\n\t\t\t\t\t\t</p>\n\t\t\t\t\t\t<p className=\"points\">\n\t\t\t\t\t\t\tvi {\")\"} power to do all such other lawful things as\n\t\t\t\t\t\t\tare necessary for the achievement of the objects.\n\t\t\t\t\t\t</p>\n\t\t\t\t\t</div>\n\t\t\t\t\t<div>\n\t\t\t\t\t\t<h1>E. Membership</h1>\n\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t1. Membership of the Society shall be open to any\n\t\t\t\t\t\t\tperson over the age of 18 years interested in\n\t\t\t\t\t\t\tfurthering the objects and who has paid the annual\n\t\t\t\t\t\t\tsubscription laid down from time to time by the\n\t\t\t\t\t\t\tCouncil, unless the subscription has been waived for\n\t\t\t\t\t\t\tsome categories of membership (below).{\" \"}\n\t\t\t\t\t\t</p>\n\t\t\t\t\t\t<p>2. Categories of membership are:</p>\n\t\t\t\t\t\t<p className=\"points\">\n\t\t\t\t\t\t\ta{\")\"}{\" \"}\n\t\t\t\t\t\t\t<span className=\"strong_text\">\n\t\t\t\t\t\t\t\tOrdinary Members\n\t\t\t\t\t\t\t</span>\n\t\t\t\t\t\t\t. Applications are welcome from neurochemists (and\n\t\t\t\t\t\t\tneuroscientists or clinicians interested in the\n\t\t\t\t\t\t\tsubject) from all countries.\n\t\t\t\t\t\t</p>\n\t\t\t\t\t\t<p className=\"points\">\n\t\t\t\t\t\t\tb{\")\"}{\" \"}\n\t\t\t\t\t\t\t<span className=\"strong_text\">\n\t\t\t\t\t\t\t\tHonorary Members\n\t\t\t\t\t\t\t</span>\n\t\t\t\t\t\t\t. Individuals who in the opinion of the Society have\n\t\t\t\t\t\t\tmade an exceptional contribution to Neurochemistry\n\t\t\t\t\t\t\tmay be nominated as non fee-paying Honorary Members\n\t\t\t\t\t\t\tby the Council and elected by a majority of\n\t\t\t\t\t\t\ttwo-thirds of the Ordinary Members at a Business\n\t\t\t\t\t\t\tMeeting.\n\t\t\t\t\t\t</p>\n\t\t\t\t\t\t<p className=\"points\">\n\t\t\t\t\t\t\tc{\")\"}{\" \"}\n\t\t\t\t\t\t\t<span className=\"strong_text\">\n\t\t\t\t\t\t\t\tEmeritus Members\n\t\t\t\t\t\t\t</span>\n\t\t\t\t\t\t\t. Ordinary Members will be eligible on\n\t\t\t\t\t\t\trecommendation by Council for non fee-paying\n\t\t\t\t\t\t\tEmeritus Membership upon retiring from regular\n\t\t\t\t\t\t\tprofessional duties.\n\t\t\t\t\t\t</p>\n\t\t\t\t\t\t<p className=\"points\">\n\t\t\t\t\t\t\td{\")\"}{\" \"}\n\t\t\t\t\t\t\t<span className=\"strong_text\">\n\t\t\t\t\t\t\t\tSustaining Members\n\t\t\t\t\t\t\t</span>\n\t\t\t\t\t\t\t. Any organisation, society, company, industry or\n\t\t\t\t\t\t\tfoundation which has an interest in Neurochemistry\n\t\t\t\t\t\t\tor associated scientific disciplines which makes a\n\t\t\t\t\t\t\tdonation to the Society may at the discretion of the\n\t\t\t\t\t\t\tCouncil be eligible for election as a Sustaining\n\t\t\t\t\t\t\tMember. Such an organisation may then nominate one\n\t\t\t\t\t\t\tof its staff or alternate as representative as the\n\t\t\t\t\t\t\tSustaining member. If the representative or\n\t\t\t\t\t\t\talternate resigns from or otherwise leaves the\n\t\t\t\t\t\t\tmember organisation, he or she shall forthwith cease\n\t\t\t\t\t\t\tto be the representative of the member organisation.\n\t\t\t\t\t\t</p>\n\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t3. Every member of any category shall have one vote.\n\t\t\t\t\t\t</p>\n\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t4. The Council may by unanimous vote and for good\n\t\t\t\t\t\t\treason terminate the membership of any individual:\n\t\t\t\t\t\t\tProvided that the individual concerned shall have\n\t\t\t\t\t\t\tthe right to be heard by the Council, accompanied by\n\t\t\t\t\t\t\ta friend, before a final decision is made.\n\t\t\t\t\t\t</p>\n\t\t\t\t\t</div>\n\t\t\t\t\t<div>\n\t\t\t\t\t\t<h1>F. Subscriptions</h1>\n\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\tAnnual membership subscriptions shall be approved at\n\t\t\t\t\t\t\tthe Business Meeting. The amount of the subscription\n\t\t\t\t\t\t\tshould be determined by Council, who should bear the\n\t\t\t\t\t\t\tfollowing points in mind: it should be kept as low as\n\t\t\t\t\t\t\tpossible and designed to cover costs of notices\n\t\t\t\t\t\t\trather than the costs of Council meetings. The\n\t\t\t\t\t\t\tlatter should be included in the costs of the\n\t\t\t\t\t\t\tScientific meetings.\n\t\t\t\t\t\t</p>\n\t\t\t\t\t</div>\n\t\t\t\t\t<div>\n\t\t\t\t\t\t<h1>G. Officers</h1>\n\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\tThe preferred practice of the Society is to appoint\n\t\t\t\t\t\t\tthe Secretary and the Treasurer in rotation as the\n\t\t\t\t\t\t\tPresident. In accordance with this practice, each of\n\t\t\t\t\t\t\tthe Secretary and the Treasurer is elected by ballot\n\t\t\t\t\t\t\tfor a four-year-term and the appointments are\n\t\t\t\t\t\t\tstaggered so that the Treasurer is appointed two\n\t\t\t\t\t\t\tyears after the appointment of the then Secretary.\n\t\t\t\t\t\t\tHaving served for four years the Secretary or the\n\t\t\t\t\t\t\tTreasurer as appropriate shall be appointed by the\n\t\t\t\t\t\t\tCouncil as the President.\n\t\t\t\t\t\t</p>\n\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\tThe President is appointed for a two-year-term. All\n\t\t\t\t\t\t\tsuch appointments shall take effect from the\n\t\t\t\t\t\t\tBusiness Meeting. If this practice cannot be\n\t\t\t\t\t\t\tfollowed in any particular case the Council shall be\n\t\t\t\t\t\t\tempowered to implement alternative arrangements\n\t\t\t\t\t\t\tuntil new arrangements have been approved by the\n\t\t\t\t\t\t\tOrdinary Members and are fully implemented.\n\t\t\t\t\t\t</p>\n\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\tAfter finishing their term of office, the President\n\t\t\t\t\t\t\tholds the position of the “Past-President of ESN”\n\t\t\t\t\t\t\tfor two further years.\n\t\t\t\t\t\t</p>\n\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\tThe Company Secretary is an ESN member appointed by\n\t\t\t\t\t\t\tCouncil for an indefinite term and sits on ESN\n\t\t\t\t\t\t\tCouncil. The company secretary’s role is to support\n\t\t\t\t\t\t\tthe business of ESN so that it is in line with the\n\t\t\t\t\t\t\trules and expectations govern the Charity’s\n\t\t\t\t\t\t\toperation under the UK Charity Act (2022) or any\n\t\t\t\t\t\t\tstatutory re-enactment or modification of that Act.\n\t\t\t\t\t\t\tThis role includes being the named point of contact\n\t\t\t\t\t\t\tfor the UK Charity Commission, convening regular\n\t\t\t\t\t\t\tboard of trustee meetings (no less than 3 per year)\n\t\t\t\t\t\t\tand ensuring that ESN provides an annual return to\n\t\t\t\t\t\t\tthe Charity Commission.\n\t\t\t\t\t\t</p>\n\t\t\t\t\t</div>\n\t\t\t\t\t<div>\n\t\t\t\t\t\t<h1>H. Council</h1>\n\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t1. The Council shall consist of European members,\n\t\t\t\t\t\t\tnot less than 10, nor more than 15, being:\n\t\t\t\t\t\t</p>\n\t\t\t\t\t\t<p className=\"points\">\n\t\t\t\t\t\t\ta{\")\"} the Officers specified in the preceding\n\t\t\t\t\t\t\tclause;\n\t\t\t\t\t\t</p>\n\t\t\t\t\t\t<p className=\"points\">\n\t\t\t\t\t\t\tb{\")\"} not less than 7 members elected at the\n\t\t\t\t\t\t\tBusiness Meeting who shall hold office from the\n\t\t\t\t\t\t\tconclusion of that meeting.\n\t\t\t\t\t\t</p>\n\t\t\t\t\t\t<p className=\"points\">\n\t\t\t\t\t\t\tc{\")\"} The Council may in addition appoint up to 5\n\t\t\t\t\t\t\tco-opted members. Each appointment of a co-opted\n\t\t\t\t\t\t\tmember shall be confirmed at the next business\n\t\t\t\t\t\t\tmeeting.\n\t\t\t\t\t\t</p>\n\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\td{\")\"} Council should take note of the desirability\n\t\t\t\t\t\t\tof representation from younger neurochemists and as\n\t\t\t\t\t\t\tbroad a spread of geographical distribution as\n\t\t\t\t\t\t\tpossible and that it should include clinical as well\n\t\t\t\t\t\t\tas basic neurochemists.\n\t\t\t\t\t\t</p>\n\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t2. Elections to the Council should be by postal or\n\t\t\t\t\t\t\telectronic ballot. The Secretary should advertise\n\t\t\t\t\t\t\tfor nominations in the ESN news and ESN web site.\n\t\t\t\t\t\t\tNominations for election of members to Council shall\n\t\t\t\t\t\t\tbe made in writing or by email by the proposer and\n\t\t\t\t\t\t\tseconder, with written agreement of the candidate.\n\t\t\t\t\t\t\tAfter the nomination period, ESN members will be\n\t\t\t\t\t\t\tinformed about the nominees and asked to vote within\n\t\t\t\t\t\t\ta voting period of at least 2 weeks, which will\n\t\t\t\t\t\t\tstart not earlier than 2 weeks after ESN members\n\t\t\t\t\t\t\twere informed about the nominees. The results of the\n\t\t\t\t\t\t\telection (after scrutiny by three members of\n\t\t\t\t\t\t\tCouncil) must be published as soon as possible in\n\t\t\t\t\t\t\tthe web site.\n\t\t\t\t\t\t</p>\n\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t3. All the members of the Council shall retire from\n\t\t\t\t\t\t\toffice together at the end of the Business Meeting\n\t\t\t\t\t\t\tnext after the date on which they came into office\n\t\t\t\t\t\t\tbut they may be re-elected or re-appointed for a\n\t\t\t\t\t\t\tmaximum of 8 years.\n\t\t\t\t\t\t</p>\n\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t4. The proceedings of the Council shall not be\n\t\t\t\t\t\t\tinvalidated by any vacancy among their number or by\n\t\t\t\t\t\t\tany failure to appoint or any defect in the\n\t\t\t\t\t\t\tappointment or qualification of a member.\n\t\t\t\t\t\t</p>\n\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t5. No less than 5 and no more than 7 members of the\n\t\t\t\t\t\t\tCouncil shall be appointed by Council as named ESN\n\t\t\t\t\t\t\ttrustees including current officers, a past\n\t\t\t\t\t\t\tpresident, company secretary and some UK based ESN\n\t\t\t\t\t\t\tmembers in good standing. The trustees have specific\n\t\t\t\t\t\t\tresponsibilities associated with this role. The\n\t\t\t\t\t\t\tboard of trustees reports to ESN Council and shall\n\t\t\t\t\t\t\tkeep minutes of trustee meetings.\n\t\t\t\t\t\t</p>\n\t\t\t\t\t</div>\n\t\t\t\t\t<div>\n\t\t\t\t\t\t<h1>I. Termination of Membership of Council</h1>\n\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\tA member of the Council shall cease to hold office\n\t\t\t\t\t\t\tif he or she:\n\t\t\t\t\t\t</p>\n\t\t\t\t\t\t<p className=\"points\">\n\t\t\t\t\t\t\t1. is disqualified from acting as a member of the\n\t\t\t\t\t\t\tCouncil by virtue of the Charities Act 2022 (or any\n\t\t\t\t\t\t\tstatutory re-enactment or modification of that\n\t\t\t\t\t\t\tprovision);\n\t\t\t\t\t\t</p>\n\t\t\t\t\t\t<p className=\"points\">\n\t\t\t\t\t\t\t2. becomes incapable by reason of mental disorder,\n\t\t\t\t\t\t\tillness or injury of managing and administering his\n\t\t\t\t\t\t\tor her own affairs;\n\t\t\t\t\t\t</p>\n\t\t\t\t\t\t<p className=\"points\">\n\t\t\t\t\t\t\t3. is absent without the permission of the Council\n\t\t\t\t\t\t\tfrom all their meetings held within a period of one\n\t\t\t\t\t\t\tyear and the Council resolve that his or her office\n\t\t\t\t\t\t\tbe vacated; or\n\t\t\t\t\t\t</p>\n\t\t\t\t\t\t<p className=\"points\">\n\t\t\t\t\t\t\t4. notifies to the Council a wish to resign (but\n\t\t\t\t\t\t\tonly if at least three members of the Council will\n\t\t\t\t\t\t\tremain in office when the notice of resignation is\n\t\t\t\t\t\t\tto take effect).\n\t\t\t\t\t\t</p>\n\t\t\t\t\t</div>\n\t\t\t\t\t<div>\n\t\t\t\t\t\t<h1>\n\t\t\t\t\t\t\tJ. Council Members not to be personally interested\n\t\t\t\t\t\t</h1>\n\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t1. [Subject to the provisions of sub-clause (2) of\n\t\t\t\t\t\t\tthis clause], no member of the Council shall receive\n\t\t\t\t\t\t\tremuneration or be interested (otherwise than as a\n\t\t\t\t\t\t\tmember of the Council) in any contract entered into\n\t\t\t\t\t\t\tby the Council.\n\t\t\t\t\t\t</p>\n\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t2. Any member of the Council for the time being who\n\t\t\t\t\t\t\tis a solicitor, accountant or other person engaged\n\t\t\t\t\t\t\tin a profession may charge and be paid all the usual\n\t\t\t\t\t\t\tprofessional charges for business done by him or her\n\t\t\t\t\t\t\tor his or her firm when instructed by the other\n\t\t\t\t\t\t\tmembers of the Council to act in a professional\n\t\t\t\t\t\t\tcapacity on behalf of the Society: Provided that at\n\t\t\t\t\t\t\tno time shall a majority of the members of the\n\t\t\t\t\t\t\tCouncil benefit under this provision and that a\n\t\t\t\t\t\t\tmember of the Council shall withdraw from any\n\t\t\t\t\t\t\tmeeting at which his or her own instruction or\n\t\t\t\t\t\t\tremuneration, or that of his or her firm, is under\n\t\t\t\t\t\t\tdiscussion.\n\t\t\t\t\t\t</p>\n\t\t\t\t\t</div>\n\t\t\t\t\t<div>\n\t\t\t\t\t\t<h1>K. Meetings and Proceedings of the Council</h1>\n\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t1. The Council shall hold at least two ordinary\n\t\t\t\t\t\t\tmeetings each year. A special meeting may be called\n\t\t\t\t\t\t\tat any time by the President or by any three members\n\t\t\t\t\t\t\tof the Council upon not less than 30 days' notice\n\t\t\t\t\t\t\tbeing given to the other members of the Council of\n\t\t\t\t\t\t\tthe matters to be discussed.\n\t\t\t\t\t\t</p>\n\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t2. The President shall act as chairman at meetings\n\t\t\t\t\t\t\tof the Council. If the President is absent from any\n\t\t\t\t\t\t\tmeeting, the members of the Council present shall\n\t\t\t\t\t\t\tchoose one of their number to be chairman of the\n\t\t\t\t\t\t\tmeeting before any other business is transacted\n\t\t\t\t\t\t</p>\n\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t3. There shall be a quorum when at least one third\n\t\t\t\t\t\t\tof the number of members of the Council for the time\n\t\t\t\t\t\t\tbeing or three members of the Council, whichever is\n\t\t\t\t\t\t\tthe greater, are present at a meeting.\n\t\t\t\t\t\t</p>\n\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t4. Every matter shall be determined by a majority of\n\t\t\t\t\t\t\tvotes of the members of the Council present and\n\t\t\t\t\t\t\tvoting on the question but in the case of equality\n\t\t\t\t\t\t\tof votes the chairman of the meeting shall have a\n\t\t\t\t\t\t\tsecond or casting vote.\n\t\t\t\t\t\t</p>\n\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t5. The Council shall keep minutes, in books or\n\t\t\t\t\t\t\telectronic form kept for the purpose, of the\n\t\t\t\t\t\t\tproceedings at meetings of the Council and any\n\t\t\t\t\t\t\tsub-committee.\n\t\t\t\t\t\t</p>\n\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t6. The Council may from time to time make and alter\n\t\t\t\t\t\t\trules for the conduct of their business, the\n\t\t\t\t\t\t\tsummoning and conduct of their meetings and the\n\t\t\t\t\t\t\tcustody of documents. No rule may be made which is\n\t\t\t\t\t\t\tinconsistent with this constitution.\n\t\t\t\t\t\t</p>\n\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t7. The Council may appoint one or more\n\t\t\t\t\t\t\tsub-committees consisting of two or more members of\n\t\t\t\t\t\t\tthe Council plus persons from the ordinary\n\t\t\t\t\t\t\tmembership, for the purpose of making any inquiry or\n\t\t\t\t\t\t\tsupervising or performing any function or duty which\n\t\t\t\t\t\t\tin the opinion of the Council would be more\n\t\t\t\t\t\t\tconveniently undertaken or carried out by a sub-\n\t\t\t\t\t\t\tcommittee: provided that all acts and proceedings of\n\t\t\t\t\t\t\tany such sub-committees shall be fully and promptly\n\t\t\t\t\t\t\treported to the Council.\n\t\t\t\t\t\t</p>\n\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t8. Taking into account the importance of involving\n\t\t\t\t\t\t\tyoung ESN members in ESN strategic development, the\n\t\t\t\t\t\t\tCouncil may establish an ESN Young Scientists\n\t\t\t\t\t\t\tSteering Committee (ESN-YSSC) consisting of 5-7\n\t\t\t\t\t\t\tmembers with its Chair being a representative on the\n\t\t\t\t\t\t\tCouncil ex-officio and may represent ESN on the\n\t\t\t\t\t\t\tISN-YSSC. New YSSC members may be solicited by the\n\t\t\t\t\t\t\tacting ESN-YSSC or nominated by any ESN member\n\t\t\t\t\t\t\t(including selfnomination) with further selection by\n\t\t\t\t\t\t\tESN-YSSC and approval by the ESN Council. The\n\t\t\t\t\t\t\tnomination and selection campaign should be run\n\t\t\t\t\t\t\tsimultaneously with ESN elections. The term of ESN\n\t\t\t\t\t\t\tYSSC membership is for two years and each member\n\t\t\t\t\t\t\tshould serve on it for not more than 2 consecutive\n\t\t\t\t\t\t\tterms. ESN-YSSC members also have the right to leave\n\t\t\t\t\t\t\tthe Committee after one term depending on their\n\t\t\t\t\t\t\tcareer development. The Chair of YSSC is selected by\n\t\t\t\t\t\t\tits members with formal approval by the Council.\n\t\t\t\t\t\t</p>\n\t\t\t\t\t</div>\n\t\t\t\t\t<div>\n\t\t\t\t\t\t<h1>L. Receipts, expenditure and reserve</h1>\n\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t1. The funds of the Society, including all\n\t\t\t\t\t\t\tdonations, contributions and bequests, shall be paid\n\t\t\t\t\t\t\tinto an account (or accounts) operated by the\n\t\t\t\t\t\t\tCouncil in the name of the Society at such banks as\n\t\t\t\t\t\t\tthe Council shall from time to time decide. All\n\t\t\t\t\t\t\tcheques drawn on the account must be signed by at\n\t\t\t\t\t\t\tleast two members of the Council.\n\t\t\t\t\t\t</p>\n\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t2. The funds belonging to the Society shall be\n\t\t\t\t\t\t\tapplied only in furthering the objectives of ESN.\n\t\t\t\t\t\t</p>\n\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t3. The Council shall decide annually what financial\n\t\t\t\t\t\t\treserve should be held by ESN. The reserve held\n\t\t\t\t\t\t\tshould be a contingency fund sufficient for no less\n\t\t\t\t\t\t\tthan 1 and no more than 2 years of regular ESN\n\t\t\t\t\t\t\tbusiness without additional income e.g. to allow for\n\t\t\t\t\t\t\tpayment in advance for meetings that have been\n\t\t\t\t\t\t\tapproved for funding and/or to accommodate\n\t\t\t\t\t\t\tinterruptions or lack of budgeted funding from\n\t\t\t\t\t\t\texternal bodies. Use of reserves is defined in the\n\t\t\t\t\t\t\tESN Policy on use of reserves.\n\t\t\t\t\t\t</p>\n\t\t\t\t\t</div>\n\t\t\t\t\t<div>\n\t\t\t\t\t\t<h1>M. Property</h1>\n\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t1. Subject to the provisions of sub-clause (2) of\n\t\t\t\t\t\t\tthis clause, the Council shall cause the title to:\n\t\t\t\t\t\t\tall investments held by or on behalf of the Society\n\t\t\t\t\t\t\tto be vested either in a corporation entitled to act\n\t\t\t\t\t\t\tas custodian trustee or in not less than three\n\t\t\t\t\t\t\tindividuals appointed by them as holding trustees.\n\t\t\t\t\t\t\tHolding trustees may be removed by the Council at\n\t\t\t\t\t\t\ttheir pleasure and shall act in accordance with the\n\t\t\t\t\t\t\tlawful directions of the Council. Provided they act\n\t\t\t\t\t\t\tonly in accordance with the lawful directions of the\n\t\t\t\t\t\t\tCouncil, the holding trustees shall not be liable\n\t\t\t\t\t\t\tfor the acts and defaults of its members.\n\t\t\t\t\t\t</p>\n\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t2. If a corporation entitled to act as custodian\n\t\t\t\t\t\t\ttrustee has not been appointed to hold the property\n\t\t\t\t\t\t\tof the Society, the Council may permit any\n\t\t\t\t\t\t\tinvestments held by or in trust for the Society to\n\t\t\t\t\t\t\tbe held in the name of a clearing bank, trust\n\t\t\t\t\t\t\tcorporation or any stockbroking company which is a\n\t\t\t\t\t\t\tmember of the International Stock Exchange (or any\n\t\t\t\t\t\t\tsubsidiary of any such stockbroking company) as\n\t\t\t\t\t\t\tnominee for the Council, and may pay such a nominee\n\t\t\t\t\t\t\treasonable and proper remuneration for acting as\n\t\t\t\t\t\t\tsuch.\n\t\t\t\t\t\t</p>\n\t\t\t\t\t</div>\n\t\t\t\t\t<div>\n\t\t\t\t\t\t<h1>N. Accounts</h1>\n\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\tThe Council shall comply with their obligations\n\t\t\t\t\t\t\tunder the Charities Act 2022 (or any statutory\n\t\t\t\t\t\t\tre-enactment or modification of that Act) with\n\t\t\t\t\t\t\tregard to:\n\t\t\t\t\t\t</p>\n\t\t\t\t\t\t<p className=\"points\">\n\t\t\t\t\t\t\t1. the keeping of accounting records for the\n\t\t\t\t\t\t\tSociety;\n\t\t\t\t\t\t</p>\n\t\t\t\t\t\t<p className=\"points\">\n\t\t\t\t\t\t\t2. the preparation of annual statements of account\n\t\t\t\t\t\t\tfor the Society;\n\t\t\t\t\t\t</p>\n\t\t\t\t\t\t<p className=\"points\">\n\t\t\t\t\t\t\t3. the auditing or independent examination of the\n\t\t\t\t\t\t\tstatements of account of the Society; and\n\t\t\t\t\t\t</p>\n\t\t\t\t\t\t<p className=\"points\">\n\t\t\t\t\t\t\t4. the transmission of the statements of account of\n\t\t\t\t\t\t\tthe Society to the Commission.\n\t\t\t\t\t\t</p>\n\t\t\t\t\t</div>\n\n\t\t\t\t\t<div>\n\t\t\t\t\t\t<h1>O. Annual Report</h1>\n\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\tThe Council shall comply with their obligations\n\t\t\t\t\t\t\tunder the Charities Act 2022 (or any statutory\n\t\t\t\t\t\t\tre-enactment or modification of that Act) with\n\t\t\t\t\t\t\tregard to the preparation of an annual report and\n\t\t\t\t\t\t\tits transmission to the Commission.\n\t\t\t\t\t\t</p>\n\t\t\t\t\t</div>\n\t\t\t\t\t<div>\n\t\t\t\t\t\t<h1>P. Annual Return</h1>\n\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\tThe Council shall comply with their obligations\n\t\t\t\t\t\t\tunder the Charities Act 2022 (or any statutory\n\t\t\t\t\t\t\tre-enactment or modification of that Act) with\n\t\t\t\t\t\t\tregard to the preparation of an annual return and\n\t\t\t\t\t\t\tits transmission to the Commission.\n\t\t\t\t\t\t</p>\n\t\t\t\t\t</div>\n\t\t\t\t\t<div>\n\t\t\t\t\t\t<h1>Q. Business Meeting</h1>\n\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t1. There shall be a Business Meeting of the Society,\n\t\t\t\t\t\t\twhich shall take place at least every year. In years\n\t\t\t\t\t\t\twhen ESN holds an in person meeting, it will be held\n\t\t\t\t\t\t\tat the Conference. In other years, meetings may be\n\t\t\t\t\t\t\tremote.\n\t\t\t\t\t\t</p>\n\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t2. Every Business Meeting shall be called by the\n\t\t\t\t\t\t\tCouncil. The Secretary shall give at least 30 days’\n\t\t\t\t\t\t\tnotice of the Business Meeting to all the members of\n\t\t\t\t\t\t\tthe Society. All the members of the Society shall be\n\t\t\t\t\t\t\tentitled to attend and vote at the meeting.\n\t\t\t\t\t\t</p>\n\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t3. The President will normally act as chairman of\n\t\t\t\t\t\t\tthe meeting. In his or her absence, before any\n\t\t\t\t\t\t\tbusiness is transacted at the Business Meeting the\n\t\t\t\t\t\t\tpersons present shall appoint a chairman of the\n\t\t\t\t\t\t\tmeeting.\n\t\t\t\t\t\t</p>\n\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t4. The Council shall present to each Business\n\t\t\t\t\t\t\tMeeting the report and accounts of the Society for\n\t\t\t\t\t\t\tthe preceding year.\n\t\t\t\t\t\t</p>\n\t\t\t\t\t</div>\n\t\t\t\t\t<div>\n\t\t\t\t\t\t<h1>R. Special Business Meetings</h1>\n\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t{\" \"}\n\t\t\t\t\t\t\tThe Council may call a Special Business Meeting of\n\t\t\t\t\t\t\tthe Society at any time. If at least ten members\n\t\t\t\t\t\t\trequest such a meeting in writing stating the\n\t\t\t\t\t\t\tbusiness to be considered the Secretary shall call\n\t\t\t\t\t\t\tsuch a meeting. At least 30 days’ notice must be\n\t\t\t\t\t\t\tgiven. The notice must state the business to be\n\t\t\t\t\t\t\tdiscussed.\n\t\t\t\t\t\t</p>\n\t\t\t\t\t</div>\n\n\t\t\t\t\t<div>\n\t\t\t\t\t\t<h1>S. Procedure at Business Meetings</h1>\n\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t1. The Secretary or other person specially appointed\n\t\t\t\t\t\t\tby the Council shall keep a full record of\n\t\t\t\t\t\t\tproceedings at every Business Meeting of the\n\t\t\t\t\t\t\tSociety.\n\t\t\t\t\t\t</p>\n\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t2. There shall be a quorum when at least one tenth\n\t\t\t\t\t\t\tof the number of members of the Society for the time\n\t\t\t\t\t\t\tbeing or ten members of the Society, whichever is\n\t\t\t\t\t\t\tthe greater, are present at any Business Meeting.\n\t\t\t\t\t\t</p>\n\t\t\t\t\t</div>\n\t\t\t\t\t<div>\n\t\t\t\t\t\t<h1>T. Notices</h1>\n\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\tAny notice required to be served on any member of\n\t\t\t\t\t\t\tthe Society shall be in writing and shall be served\n\t\t\t\t\t\t\tby the Secretary or the Council on any member either\n\t\t\t\t\t\t\tpersonally or by sending it through the post in a\n\t\t\t\t\t\t\tprepaid letter addressed to such member at his or\n\t\t\t\t\t\t\ther last known address, and any letter so sent shall\n\t\t\t\t\t\t\tbe deemed to have been received within 14 days of\n\t\t\t\t\t\t\tposting.\n\t\t\t\t\t\t</p>\n\t\t\t\t\t</div>\n\t\t\t\t\t<div>\n\t\t\t\t\t\t<h1>U. Alterations to the Constitution</h1>\n\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t1. Subject to the following provisions of this\n\t\t\t\t\t\t\tclause the Constitution may be altered by a\n\t\t\t\t\t\t\tresolution passed by not less than two-thirds of the\n\t\t\t\t\t\t\tmembers present and voting at a Business Meeting.\n\t\t\t\t\t\t\tThe notice of the Business Meeting must include\n\t\t\t\t\t\t\tnotice of the resolution, setting out the terms of\n\t\t\t\t\t\t\tthe alteration proposed.\n\t\t\t\t\t\t</p>\n\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t2. No amendment may be made to clause{\" \"}\n\t\t\t\t\t\t\t<span className=\"strong_text\">A</span> (the name of\n\t\t\t\t\t\t\tthe charity clause), clause{\" \"}\n\t\t\t\t\t\t\t<span className=\"strong_text\">C</span> (the objects\n\t\t\t\t\t\t\tclause), clause{\" \"}\n\t\t\t\t\t\t\t<span className=\"strong_text\">J</span> (Council\n\t\t\t\t\t\t\tmembers not to be personally interested clause),\n\t\t\t\t\t\t\tclause <span className=\"strong_text\">V</span> (the\n\t\t\t\t\t\t\tdissolution clause) or this clause without the prior\n\t\t\t\t\t\t\tconsent in writing of the Commissioners.{\" \"}\n\t\t\t\t\t\t</p>\n\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t3. No amendment may be made which would have the\n\t\t\t\t\t\t\teffect of making the Society cease to be a charity\n\t\t\t\t\t\t\tat law.\n\t\t\t\t\t\t</p>\n\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t4. The Council should promptly send to the\n\t\t\t\t\t\t\tCommission a copy of any amendment made under this\n\t\t\t\t\t\t\tclause.\n\t\t\t\t\t\t</p>\n\t\t\t\t\t</div>\n\t\t\t\t\t<div>\n\t\t\t\t\t\t<h1>V. Dissolution</h1>\n\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\tIf the Council decides that it is necessary or\n\t\t\t\t\t\t\tadvisable to dissolve the Society it shall call a\n\t\t\t\t\t\t\tmeeting of all members of the Society, of which not\n\t\t\t\t\t\t\tless than 30 days’ notice (stating the terms of the\n\t\t\t\t\t\t\tresolution to be proposed) shall be given. If the\n\t\t\t\t\t\t\tproposal is confirmed by a two- thirds majority of\n\t\t\t\t\t\t\tthose present and voting the Council shall have\n\t\t\t\t\t\t\tpower to realise any assets held by or on behalf of\n\t\t\t\t\t\t\tthe Society. Any assets remaining after the\n\t\t\t\t\t\t\tsatisfaction of any proper debts and liabilities\n\t\t\t\t\t\t\tshall be given or transferred to such other\n\t\t\t\t\t\t\tcharitable institution or institutions having\n\t\t\t\t\t\t\tobjects similar to the objects of the Society as the\n\t\t\t\t\t\t\tmembers of the Society may determine or failing that\n\t\t\t\t\t\t\tshall be applied for some other charitable purpose.\n\t\t\t\t\t\t\tA copy of the statement of accounts, or account and\n\t\t\t\t\t\t\tstatement, for the final accounting period of the\n\t\t\t\t\t\t\tSociety must be sent to the Commission.\n\t\t\t\t\t\t</p>\n\t\t\t\t\t</div>\n\t\t\t\t</div>\n\t\t\t</div>\n\t\t</div>\n\t);\n};\n\nexport default ConstitutionSection;\n","import React, { useEffect } from \"react\";\nimport \"./HistorySection.css\";\nimport historyLogo from \"../../../assets/imgs/history_logo.png\";\n\nconst HistorySection = () => {\n  useEffect(() => {\n    document.title = \"History\";\n  }, []);\n\n  return (\n    <div className=\"history-section\">\n      <div className=\"history-top history-desktop\">\n        <p>About ESN</p>\n        <p>{\">\"}</p>\n        <p>ESN Bachelard Award</p>\n      </div>\n      <div className=\"history-container\">\n        <h1>History</h1>\n\n        <div className=\"history-content\">\n          <div>\n            <h2>A Brief History of the ESN</h2>\n            <p>\n              The European Society for Neurochemistry (ESN), which provides for\n              “the advancement of the science of neurochemistry for the public\n              benefit”, was founded on two fundamental principles in the\n              mid-1970s at a time when Europe was a divided continent. These\n              were that it should be open to members from all European\n              countries, East and West, and that it should aim to bridge basic\n              and clinical neurochemistry. Following informal discussions among\n              a group of European neurochemists at meetings in Brussels (1974)\n              and Sweden (1975) co-ordinated by Armand Lowenthal and Lars\n              Svennerholm respectively, a working group was established to\n              organise the structure of a new scientific society. This group\n              consisted of D. Biesold (Leipzig), A.N. Davison (London), Z. Lodin\n              (Prague), A Lowenthal (Brussels), P. Mandel (Strasbourg), G.\n              Porcellati (Perugia), L. Svennerholm (Goteborg), H.J. van der Helm\n              (Amsterdam) and H. Woelk (Erlangen). Alan Davison, on behalf of\n              the Neurochemical Group of the British Biochemical Society,\n              proposed that the newly established Society should meet at the\n              University of Bath, U.K. and the inaugural meeting was duly held\n              from 19-23 September 1976 with around 350 registered participants.\n              To ensure a clinical flavour to the meeting, the theme of “Basic\n              Aspects of Neurochemistry Related to the Epilepsies” was chosen.\n              The local organising committee consisted of four leading British\n              neurochemists of the time (Brian Ansell, Tim Hawthorne, George\n              Lunt, Herman Bachelard).\n            </p>\n            <div className=\"history-mobile history-side\">\n              <img className=\"esn_history_logo history-mobile\" src={historyLogo}></img>\n              <p className=\"history-image-description history-mobile\">\n                Cover page of the Abstract book of the inaugural meeting in\n                Bath.\n              </p>\n            </div>\n            <img className=\"esn_history_logo history-desktop\" src={historyLogo}></img>\n            <p className=\"history-image-description history-desktop\">\n              Cover page of the Abstract book of the inaugural meeting in Bath.\n            </p>\n            <p>\n              The ESN logo for the meeting depicting a nerve terminal, which\n              survives to this day (see below), was designed by Lunt and\n              Bachelard. Apart from the science discussed at the meeting, the\n              Society agreed that future meetings should be held every two\n              years, moving between European countries, both East and West, and\n              in alternate years to meetings of the international society (ISN).\n              Another key provision, given strict currency restrictions in place\n              at the time, was to operate without any membership subscription\n              and, even to this day, the subscription has been kept at a minimum\n              (€25 in 2017). The first elected officers of the Society were\n              Dietmar Biesold (President), Herman Bachelard (Secretary) and\n              Volker Neuhoff (Treasurer). The officers are ably supported by the\n              ESN Council of (currently) seven elected members, as well as\n              ex-officio positions of Company Secretary and Society Historian.\n            </p>\n            <span className=\"link-text\">\n              Click{\" \"}\n              <a className=\"small-link\" href=\"/about/past-councils\">\n                {\" \"}\n                here{\" \"}\n              </a>{\" \"}\n              to see the ESN Officers and Council from 1976 to present.\n            </span>\n          </div>\n          <div>\n            <p>\n              The second meeting of the Society was held in Göttingen in 1978\n              organised by Volker Neuhoff, which was both a scientific and a\n              financial success providing a very significant surplus to support\n              promising young scientists to attend future meetings and for the\n              presentation of ESN honorary lectures. The ESN young lectureship\n              awards recognise up to 2 or 3 promising young neurochemists and\n              the awardees are documented &#123;see a dedicated file on the\n              website&#125;.\n            </p>\n            <p>\n              The 8th meeting of the Society (organised by Dietmar Biesold and\n              Volker Bigl) was held in Leipzig in 1990 at a historic time with\n              European frontiers being opened up between East and West and the\n              imminent re-unification of Germany. The Society returned to\n              Leipzig for its 18th meeting in 2009, organised by Thomas Arendt,\n              and subsequently re-visited the site of the inaugural meeting in\n              Bath in 2013, at the 20th ESN meeting, which was organised by\n              Robert Williams and Marcus Rattray and this time welcomed 260\n              participants including several who had attended in 1976 (this\n              author included). The next meeting brought 150 delegates to\n              Estonia to the historic University city of Tartu in June 2015 for\n              a 4-day conference focused on molecular mechanisms of regulation\n              in the nervous system, the local organising committee being\n              chaired by the ESN Treasurer, Ago Rinken, with Council member,\n              Illana Gozes, providing a highly topical and stimulating\n              scientific programme as chair of the international programme\n              committee. The meeting was also characterized by enjoyable social\n              events ranging from a spectacular opening reception in the Science\n              Center to the conference dinner at the University museum.\n            </p>\n            <span className=\"link-text\">\n              Click{\" \"}\n              <a className=\"small-link\" href=\"/conference&schools\">\n                {\" \"}\n                here{\" \"}\n              </a>{\" \"}\n              to access the meeting abstracts.\n            </span>\n            <p>\n              The 2017 ESN meeting has been organized jointly with ISN and took\n              place in Paris (France) with the Organizing Committee being\n              chaired by Boris Zalc. This meeting celebrated multiple\n              anniversaries: the 40th of ESN, 50th of ISN and 60th of Journal of\n              Neurochemistry. At this meeting a new award in memory of Herman\n              Bachelard has been introduced with the awardee being Ferdinand\n              Hucho. The award is given to an ESN member who has contributed\n              significantly to development of neurochemistry and the Society.\n              The 2019 Biennial ESN meeting was held in Milan (Italy) chaired by\n              Nico Mitro, Angelo Poletti and Massimo Aureli. The Programme\n              Committee has been chaired by Tony Turner. The second Bachelard\n              award was presented at this meeting to Pam Fredman.\n            </p>\n            <span className=\"link-text\">\n              Click{\" \"}\n              <a className=\"small-link\" href=\"/about/past-meetings\">\n                {\" \"}\n                here{\" \"}\n              </a>{\" \"}\n              to see the list of ESN Meetings from 1974 to present.\n            </span>\n          </div>\n          <div>\n            <p>\n              For some of the earlier meetings, the Proceedings have been\n              published, usually by local publishers, and the abstracts have\n              been made available either in Neurochemistry International or more\n              frequently in Journal of Neurochemistry. Since the Berlin meeting\n              in 1999 the ESN meetings have been held jointly with ISN when ISN\n              met in Europe (every 6 years). From the 2001 meeting in Perugia,\n              the theme of ESN meetings has been “Advances in Molecular\n              Mechanisms of Neurological Disorders” maintaining the original key\n              aim of linking basic and clinical neurochemistry. For a complete\n              list of ESN meetings and publications associated with the\n              meetings, &#123;see a dedicated file on the website &#125;. The\n              Society has also long had a policy of organising smaller workshops\n              and more focused meetings often in association with other related\n              societies. For example in 1995, the recently established Russian\n              Society for Neurochemistry actively supported a highly successful\n              School for Young Russian Neurochemists under the auspices of ESN.\n              This initiative led to the 12th ESN meeting being held in St\n              Petersburg in 1998, and organised by Svetlana Dambinova and Pam\n              Fredman, who was ESN President at the time.\n            </p>\n            <p>\n              A recurring debate within the Society has been whether to operate\n              a Society-linked journal of its own although it has resisted the\n              temptation to date and the financial benefits that might bring.\n              Nevertheless, the Society is able to provide some funding to\n              support a variety of European neurochemistry initiatives that you\n              can access in the Funding section.\n            </p>\n            <p>\n              An annual newsletter compiled by the Secretary updates members on\n              Society activities. For almost 40 years, at the time of writing,\n              ESN has been a forum for effective communication of neurochemistry\n              among European scientists, for stimulating collaborations within\n              Europe and beyond, for the support of young neuroscientists, and\n              for close interactions with related scientific societies. A more\n              extended account of the first 20 years of ESN was provided by\n              Herman Bachelard as an introduction to the 11th ESN meeting in\n              Groningen in 19961.\n            </p>\n            <p>\n              A more detailed history of ESN and its sister societies (ISN, ASN,\n              APSN) has been published in Journal of Neurochemistry in 2020.\n            </p>\n          </div>\n          <div>\n            <p>Tony Turner,</p>\n            <p>ESN Historian</p>\n            <p>(ESN President, 1992-1996)</p>\n            <p className=\"reference\">\n              1. Bachelard, H. (1997) A Brief History of the European Society\n              for Neurochemistry, in: Neurochemistry (ed. Teelken, A. & Korf,\n              J.), pp. 1-7, Plenum Press, New York.\n            </p>\n            <p className=\"reference\">\n              2. Boullerne, A.I., Foley, P., Turner, A.J., Johnston, G.A.R.,\n              Beart, P.M. (2020) The origins and early history of neurochemistry\n              and its societies. J. Neurochem., 152(1):8-28. doi:\n              10.1111/jnc.14839.\n            </p>\n          </div>\n        </div>\n      </div>\n    </div>\n  );\n};\n\nexport default HistorySection;\n","import React, { useEffect, useState } from \"react\";\n\nimport investigatoraward from \"../../../assets/imgs/investigatoraward.png\";\nimport { fetchData } from \"../../../utility/utils\";\n\nimport \"./InvestigatorSection.css\";\n\nconst InvestigatorSection = () => {\n  const [allInvestigators, setAllInvestigators] = useState([]);\n  const [allInvestigatorsEditions, setAllInvestigatorsEditions] = useState([]);\n\n  useEffect(() => {\n    document.title = \"ESN Young Investigator Award\";\n  }, []);\n\n  useEffect(() => {\n    fetchData(\"/wp-json/wp/v2/investigators/\", setAllInvestigators);\n    fetchData(\n      \"/wp-json/wp/v2/young-investigator-edition/\",\n      setAllInvestigatorsEditions\n    );\n  }, []);\n\n  return (\n    <div className=\"investigator-section\">\n      <div className=\"investigator-top investigator-desktop\">\n        <p>Awards</p>\n        <p>{\">\"}</p>\n        <p>ESN Young Investigator Award</p>\n      </div>\n      <div className=\"investigator-container\">\n        <h1 className=\"investigator-desktop\">ESN Young Investigator Award</h1>\n        <h1 className=\"investigator-mobile\">Young Investigator Award</h1>\n        <div className=\"investigator-content\">\n          <div className=\"investigator-content-top\">\n            <p>\n              The financial success of the 2nd ESN meeting in Göttingen in 1978\n              allowed the endowment of funds to support the ESN Young\n              Investigator Lectureship Awards (now named “Young Scientist\n              Lectureship Awards”) which recognize the research achievements of\n              up to three promising young scientists in neurochemistry research.\n              Candidates of 38 years of age or younger at the submission\n              deadline should be based in a European country and/or should have\n              achieved most of their outstanding achievements in European\n              research groups. The ESN awards currently consist of an award\n              medal (see picture below) and a paid trip to the ESN meeting,\n              where the awardee(s) present a 30 minute lecture.\n            </p>\n            <div className=\"investigator-medal\">\n              <img src={investigatoraward} alt=\"award\" />\n              <span>\n                ESN Young Investigator Lectureship Award medal designed by\n                Volker Neuhoff\n              </span>\n            </div>\n          </div>\n          <div className=\"investigator-content-bottom\">\n            <h2>\n              ESN Young Scientist (Investigator) Lectureship Award winners:\n            </h2>\n\n            {allInvestigatorsEditions\n              ?.sort((a, b) => b.id - a.id)\n              .map((investigatorEdition, index) => {\n                const investigators = allInvestigators.filter(\n                  (investigator) =>\n                    investigator[\"young-investigator-edition\"]?.[0] ===\n                    investigatorEdition?.id\n                );\n\n                if (!investigators) return null;\n\n                return (\n                  <div className=\"investigator-winner\">\n                    <h3>{investigatorEdition.name}</h3>\n                    {investigators?.map((investigator, index) => {\n                      return (\n                        <li>\n                          <b>{investigator?.acf?.name}</b> (\n                          {investigator?.acf?.personlocation}):{\" \"}\n                          {investigator?.acf?.description}\n                        </li>\n                      );\n                    })}\n                  </div>\n                );\n              })}\n          </div>\n        </div>\n      </div>\n    </div>\n  );\n};\n\nexport default InvestigatorSection;\n","import React, {useEffect} from 'react'\nimport './LegacySection.css'\n\nconst LegacySection = () => {\n    useEffect (() => {\n        document.title = 'Legacy'\n    }, [])\n\n    return (\n        <div className=\"legacy-section\">\n            <div className='legacy-top legacy-desktop'>\n                <p>About ESN</p>\n                <p>{'>'}</p>\n                <p>Legacy</p>\n            </div>\n            <div className=\"legacy-container\">\n                <h1>Legacy</h1>\n                <div className=\"legacy-section-content\">\n                   <div className=\"legacy-section-content-intro\">\n                        <p>An additional legacy of the 2013 meeting was a specially commissioned poem, written by the 12th Bard of Bath, Thomasin Gillow, who performed it for the first time at the conference banquet.</p>\n                        <p>Thommie’s personal view of neurochemistry created a synergy between literature and science that was highly appreciated. The poem was published in J. Neurochem. (2013) 127, 1–3.</p>\n\n                   </div>\n                     <div className=\"legacy-section-content-poem\">\n                        <div className=\"legacy-section-content-poem-header\">\n                            <h2>When the Poet met up with the Neurologist</h2>\n                            <p>Thomasin Gillow</p>\n                        </div>\n                        <p className='legacy-poem-text points'>When the poet met up with the neurologist the first thing she said was this,<br/>\n                            how is it? that my brain,<br/>\n                            with all the wonderful things it is, has not yet learnt to kiss?<br/>\n                            How is it that I cannot open my head, and take the thread<br/>\n                            of my thoughts<br/>\n                            and tie them to yours, intertwine us together,<br/>\n                            make you mine again, forever?<br/>\n                            To me your words taste like wishes, dropped deep into a well<br/>\n                            clinking like fishes echoing bellowing<br/>\n                            yellowing in the canals of my mind.<br/>\n                            To me your neck smells of promises and fear, and if I could open my skull to you<br/>\n                            you would see electricity through my glia, bolts and lightning strikes on fire<br/>\n                            through my glia.<br/>\n                            and each word that passes your lips<br/>\n                            you would see my dopamine levels get higher and higher and higher and then you would see them dip.<br/>\n                            If my brain could hold yours it would hold yours in hands as big as arm chairs,<br/>\n                            for all that it thinks it knows<br/>\n                            only with your brain could mine ever really smell a rose.<br/>\n                            Rip open my skull<br/>\n                            and my brain will wave at you,<br/>\n                            it will spill down my spine in its longing for you reaching out efferent fibres, limbic desire Crawl through memories that crown us, through memories that drown us,<br/>\n                            through memories we side step lest they indelibly stamp us,<br/>\n                            Rip open my skull<br/>\n                            and you will see my hippocampus flushed with you.<br/>\n                            It has been too long neurologist<br/>\n                            and my poetry has turned my brain from matter into smoke. You once said my love was a joke,<br/>\n                            a biochemical reaction so each time we had sex<br/>\n                            I tried to open my cortex to you<br/>\n                            so you could see each hemisphere glow and know<br/>\n                            that my love was true,<br/>\n                            but it was more than I could do.<br/>\n                            When the poet met up with the neurologist the first thing she said was this,<br/>\n                            how is it? I ask you why, that my brain,<br/>\n                            with all the wonderful things it is, it has not yet learnt to kiss goodbye?\n                        </p>       \n                    </div>\n                </div>\n            </div>\n        </div>\n    )\n}\n\nexport default LegacySection","import React, {useEffect, useState} from 'react'\n\nimport './NewCouncilSection.css'\nimport { fetchData } from '../../../utility/utils'\n\nconst NewCouncilSection = () => {\n    const [councils, setCouncils] = useState([])\n    const [categories, setCategories] = useState([])\n    const [images, setImages] = useState([])\n\n    useEffect(() => {\n        document.title = \"Council\"\n    }, [])\n\n    useEffect(() => {\n        fetchData(\"/wp-json/wp/v2/councils/\", setCouncils)\n        fetchData(\"/wp-json/wp/v2/media/\", setImages)\n        fetchData(\"/wp-json/wp/v2/council-categorie/\", setCategories)\n    }, [])\n\n    const compareCouncilCategorie = (council) => {\n        const categorie = categories.find(\n\t\t\t(categorie) => categorie.id === council[\"council-categorie\"][0]\n\t\t);\n\t\treturn categorie?.name;\n    }\n\n    return (\n        <div className=\"council-section\">\n        <div className='council-top council-desktop'>\n            <p>About ESN</p>\n            <p>{'>'}</p>\n            <p>Council</p>\n        </div>\n        <div className=\"council-container\">\n            <h1>Council</h1>     \n\n            <div className=\"council-content\">\n\n                <div className='council-officers'>\n                    <h2>Officers</h2>\n                    <div className='council-officers-grid'>\n\n                        {councils?.sort((a, b) => a.id - b.id).filter(council => compareCouncilCategorie(council) === \"Officer\" ).map((council) => (\n                            <div className='council-single-officer'>\n                            <img src={(images?.find(image => image.id === council?.acf.image))?.source_url} alt=''/>\n                            <div className='council-single-officer-info'>\n                                <div>\n                                    <h3>{council?.acf.name}</h3>\n                                    <h4>{council?.acf.position+\", \"+council?.acf.location}</h4>\n                                </div>\n                                <div className='council-officer-space'>\n                                    <p>{council?.acf.department}</p>\n                                    <p>{council?.acf.faculty}</p>\n                                    <p>{council?.acf.university}</p>\n                                    <p>{council?.acf.address}</p>\n                                </div>\n                                <p>Email: <span>{council?.acf.email}</span></p>\n                            </div>\n                        </div>\n                        ))}\n\n                    </div>\n                </div>\n\n                <div className='council-members'>\n                    <h2>Council Members</h2>\n                    <div className='council-members-grid'>\n                        \n                        {councils?.sort((a, b) => a.id - b.id).filter(council => compareCouncilCategorie(council) === \"Council Member\" ).map((council) => (\n\n                            <div className='council-single-member'>\n                                <img src={(images?.find(image => image.id === council?.acf.image))?.source_url} alt=''/>\n                                <div>\n                                    <h3>{council?.acf.name}</h3>\n                                    <p>{council?.acf.position? council?.acf.position+\", \"+council?.acf.location : council?.acf.location}</p>\n                                </div>\n                            </div>\n                        ))}\n                    </div>\n                </div>\n\n            </div>\n        </div>\n    </div>\n    )\n}\n\nexport default NewCouncilSection","import React, { useState, useEffect } from \"react\";\nimport Navbar from \"../../Navbar/Navbar\";\nimport Footer from \"../../Footer/Footer\";\nimport { fetchData } from \"../../../utility/utils\";\nimport \"./YsscSection.css\";\n\nconst YsscSection = () => {\n\tconst [mission, setMission] = useState(true);\n\tconst [committe, setCommitte] = useState([]);\n\tconst [media, setMedia] = useState([]);\n\n\tuseEffect(() => {\n\t\tdocument.title = \"ESN YSSC\";\n\t}, []);\n\n\tuseEffect(() => {\n\t\tfetchData(\"/wp-json/wp/v2/yssc-comitees\", setCommitte);\n\t\tfetchData(\"/wp-json/wp/v2/media\", setMedia);\n\t}, []);\n\n\tconst handlePageChange = (word) => {\n\t\tsetMission(!mission);\n\t\tif (word === \"Committe\") {\n\t\t} else if (word === \"Mission\") {\n\t\t}\n\t};\n\n\tconst renderYsscMissionPage = () => {\n\t\treturn (\n\t\t\t<div>\n\t\t\t\t<div className=\"yssc-container\">\n\t\t\t\t\t<div className=\"yssc-top ysscdesktop\">\n\t\t\t\t\t\t<p>About ESN</p>\n\t\t\t\t\t\t<p>{\">\"}</p>\n\t\t\t\t\t\t<p>ESN YSSC</p>\n\t\t\t\t\t\t<p>{\">\"}</p>\n\t\t\t\t\t\t<p>Mission</p>\n\t\t\t\t\t</div>\n\t\t\t\t\t<h1>Young Scientists Steering Committee</h1>\n\t\t\t\t\t<div className=\"yssc-top\">\n\t\t\t\t\t\t<h2\n\t\t\t\t\t\t\tonClick={() => handlePageChange(\"Committe\")}\n\t\t\t\t\t\t\tclassName=\"clickable\">\n\t\t\t\t\t\t\tCommittee\n\t\t\t\t\t\t</h2>\n\t\t\t\t\t\t<h2\n\t\t\t\t\t\t\tonClick={() => handlePageChange(\"Mission\")}\n\t\t\t\t\t\t\tclassName=\"clickable sublinhada\">\n\t\t\t\t\t\t\tMission\n\t\t\t\t\t\t</h2>\n\t\t\t\t\t</div>\n\t\t\t\t\t<div className=\"yssc-middle\">\n\t\t\t\t\t\t<h3>Europe’s next generation for neurochemistry</h3>\n\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\tBeing a junior scientist has big advantages: you\n\t\t\t\t\t\t\tgrow up with the methods that are currently state of\n\t\t\t\t\t\t\tthe art, your mind is fresh and full of questions\n\t\t\t\t\t\t\tand you are most probably driven, flexible and\n\t\t\t\t\t\t\tinterested in many topics. The disadvantage,\n\t\t\t\t\t\t\thowever, is that young scientist’s lack two of the\n\t\t\t\t\t\t\tmost important things in a scientific career:\n\t\t\t\t\t\t\tconnections and experience.{\" \"}\n\t\t\t\t\t\t</p>\n\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\tThe latter will come to you as you go along.\n\t\t\t\t\t\t\tScientific societies can help with the first one.\n\t\t\t\t\t\t\tThese societies, especially smaller ones like ESN,\n\t\t\t\t\t\t\tare closely connected, provide the chance for you to\n\t\t\t\t\t\t\thave a direct impact on decisions and network with\n\t\t\t\t\t\t\tsenior scientists that could have a major impact on\n\t\t\t\t\t\t\tyour career. In addition, ESN offers memberships in\n\t\t\t\t\t\t\tFENS and ISN and even attending SfN meetings at no\n\t\t\t\t\t\t\textra cost, opening the doors for international\n\t\t\t\t\t\t\tconnections with scientists all around the world.{\" \"}\n\t\t\t\t\t\t</p>\n\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\tTo make all these benefits for young scientists more\n\t\t\t\t\t\t\taccessible, easier to understand and to get involved\n\t\t\t\t\t\t\tin is one of the aims of the ESN Young Scientist\n\t\t\t\t\t\t\tSteering Committee (ESN-YSSC). We represent PhD\n\t\t\t\t\t\t\tstudents and early career Postdocs, listen to their\n\t\t\t\t\t\t\tideas and organize events at meetings specifically\n\t\t\t\t\t\t\ttargeted to those not yet established in their\n\t\t\t\t\t\t\tfield. ESN has always been supportive for young\n\t\t\t\t\t\t\tscientists, but many who could benefit from that\n\t\t\t\t\t\t\t(outside and even within the society) are not aware\n\t\t\t\t\t\t\tof the opportunities and advantages of being an ESN\n\t\t\t\t\t\t\tmember.{\" \"}\n\t\t\t\t\t\t</p>\n\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\tThe ESN-YSSC was established in 2019 to improve this\n\t\t\t\t\t\t\tsituation and build up an active, collaborative\n\t\t\t\t\t\t\tnetwork of young members within the Society. To do\n\t\t\t\t\t\t\tso, we want to get in touch with you! So should you\n\t\t\t\t\t\t\thave any ideas you would like to discuss, wish to\n\t\t\t\t\t\t\twork with us or simply have a question, do not\n\t\t\t\t\t\t\thesitate to get in touch:{\" \"}\n\t\t\t\t\t\t</p>\n\t\t\t\t\t\t<ul className=\"topic-list\">\n\t\t\t\t\t\t\t<li>esn-yssc@outlook.com</li>\n\t\t\t\t\t\t\t<li>Facebook (EuroSocNeurochemistry)</li>\n\t\t\t\t\t\t\t<li>Twitter @ESNsociety</li>\n\t\t\t\t\t\t</ul>\n\t\t\t\t\t</div>\n\t\t\t\t</div>\n\t\t\t</div>\n\t\t);\n\t};\n\n\tconst renderYsscCommittePage = () => {\n\t\treturn (\n\t\t\t<div>\n\t\t\t\t<div className=\"yssc-container\">\n\t\t\t\t\t<div className=\"yssc-top ysscdesktop\">\n\t\t\t\t\t\t<p>About ESN</p>\n\t\t\t\t\t\t<p>{\">\"}</p>\n\t\t\t\t\t\t<p>ESN YSSC</p>\n\t\t\t\t\t\t<p>{\">\"}</p>\n\t\t\t\t\t\t<p>Committee</p>\n\t\t\t\t\t</div>\n\t\t\t\t\t<h1>Young Scientists Steering Committee</h1>\n\t\t\t\t\t<div className=\"yssc-top\">\n\t\t\t\t\t\t<h2\n\t\t\t\t\t\t\tonClick={() => handlePageChange(\"Committe\")}\n\t\t\t\t\t\t\tclassName=\"clickable sublinhada\">\n\t\t\t\t\t\t\tCommittee\n\t\t\t\t\t\t</h2>\n\t\t\t\t\t\t<h2\n\t\t\t\t\t\t\tonClick={() => handlePageChange(\"Mission\")}\n\t\t\t\t\t\t\tclassName=\"clickable\">\n\t\t\t\t\t\t\tMission\n\t\t\t\t\t\t</h2>\n\t\t\t\t\t</div>\n\t\t\t\t\t<div className=\"committe-container\">\n\t\t\t\t\t\t{committe.map((member) => {\n\t\t\t\t\t\t\treturn (\n\t\t\t\t\t\t\t\t<div className=\"photo-name\">\n\t\t\t\t\t\t\t\t\t<img\n\t\t\t\t\t\t\t\t\t\tsrc={\n\t\t\t\t\t\t\t\t\t\t\tmedia?.find(\n\t\t\t\t\t\t\t\t\t\t\t\t(media) =>\n\t\t\t\t\t\t\t\t\t\t\t\t\tmedia?.id ===\n\t\t\t\t\t\t\t\t\t\t\t\t\tmember?.acf?.image\n\t\t\t\t\t\t\t\t\t\t\t)?.source_url\n\t\t\t\t\t\t\t\t\t\t}></img>\n\t\t\t\t\t\t\t\t\t<div className=\"name-container\">\n\t\t\t\t\t\t\t\t\t\t<h2>{member?.acf?.name}</h2>\n\t\t\t\t\t\t\t\t\t\t<h3>{member?.acf?.location}</h3>\n\t\t\t\t\t\t\t\t\t</div>\n\t\t\t\t\t\t\t\t</div>\n\t\t\t\t\t\t\t);\n\t\t\t\t\t\t})}\n\t\t\t\t\t</div>\n\t\t\t\t</div>\n\t\t\t</div>\n\t\t);\n\t};\n\n\treturn mission ? renderYsscCommittePage() : renderYsscMissionPage();\n};\n\nexport default YsscSection;\n","import React, { useState } from \"react\";\n\nimport ArrowBack from \"../../assets/imgs/dropdown_arrow_back.svg\";\nimport ArrowBackW from \"../../assets/imgs/dropdown_arrow_backW.svg\";\nimport ArrowFront from \"../../assets/imgs/dropdown_arrow_front.svg\";\nimport ArrowFrontW from \"../../assets/imgs/dropdown_arrow_frontW.svg\";\n\nimport \"./Dropdown.css\";\n\nconst Dropdown = (props) => {\n  const [showSubMenu, setShowSubMenu] = useState(false);\n  const option = props.option;\n  const color = props.color;\n\n  const handleAboutChange = (page) => {\n    if (page === \"History\") {\n      window.location.href = \"/about/history\";\n    } else if (page === \"Past Councils\") {\n      window.location.href = \"/about/past-councils\";\n    } else if (page === \"Past Meetings\") {\n      window.location.href = \"/about/past-meetings\";\n    } else if (page === \"Constitution\") {\n      window.location.href = \"/about/constitution\";\n    } else if (page === \"Council\") {\n      window.location.href = \"/about/council\";\n    } else if (page === \"ESN YSSC\") {\n      window.location.href = \"/about/esn-yssc\";\n    } else if (page === \"Legacy\") {\n      window.location.href = \"/about/legacy\";\n    }\n  };\n\n  const handleMembershipChange = (page) => {\n    if (page === \"Membership Application Form\") {\n      window.location.href = \"/membership\";\n    } else if (page === \"Membership Payment Options\") {\n      window.location.href = \"/membership/payment\";\n    }\n  };\n\n  const handleAwardsChange = (page) => {\n    if (page === \"ESN Bachelard Award\") {\n      window.location.href = \"/awards/esn-bachelard-award\";\n    } else if (page === \"Young Investigator Award\") {\n      window.location.href = \"/awards/young-investigator-award\";\n    }\n  };\n\n  const handleArchivesChange = (page) => {\n    if (page === \"News\") {\n      window.location.href = \"/news-archive\";\n    } else if (page === \"ESN Financial Support\") {\n      window.location.href = \"/financial-archive\";\n    }\n  };\n\n  return (\n    <div className=\"about_popup\">\n      <div\n        className={`about_popup_main ${\n          color === \"blue\" ? \"blue_background\" : \"white_background\"\n        }`}\n      >\n        {option === \"about\" ? (\n          <div className=\"about_popup_content\">\n            <span\n              onClick={() => handleAboutChange(\"History\")}\n              onMouseOver={() => setShowSubMenu(!showSubMenu)}\n              \n              className={`popup_item popup_text_history ${\n                showSubMenu ? \"active_history\" : \"disabled_history\"\n              } ${color === \"blue\" ? \"white-text\" : \"blue-text\"}`}\n            \n            >\n              History\n              {showSubMenu ? (\n                <img\n                  onMouseEnter={() => setShowSubMenu(false)}\n                  src={color === \"blue\" ? ArrowBackW : ArrowBack}\n                ></img>\n              ) : (\n                <img\n                  onMouseEnter={() => setShowSubMenu(true)}\n                  src={color === \"blue\" ? ArrowFrontW : ArrowFront}\n                ></img>\n              )}\n            </span>\n            <span\n              onClick={() => handleAboutChange(\"Constitution\")}\n              className={`popup_item popup_text ${color === \"blue\" ? \"white-text\" : \"blue-text\"} `}\n            >\n              Constitution\n            </span>\n            <span\n              onClick={() => handleAboutChange(\"Council\")}\n              className={`popup_item popup_text ${color === \"blue\" ? \"white-text\" : \"blue-text\"} `}\n             \n            >\n              Council\n            </span>\n            <span\n              onClick={() => handleAboutChange(\"ESN YSSC\")}\n              className={`popup_item popup_text ${color === \"blue\" ? \"white-text\" : \"blue-text\"} `}\n            >\n              ESN YSSC\n            </span>\n            <span\n              onClick={() => handleAboutChange(\"Legacy\")}\n              className={` popup_text ${color === \"blue\" ? \"white-text\" : \"blue-text\"} `}\n            >\n              Legacy\n            </span>\n          </div>\n        ) : null}\n        {option === \"membership\" ? (\n          <div className=\"about_popup_content\">\n            <span\n              onClick={() =>\n                handleMembershipChange(\"Membership Application Form\")\n              }\n              className={`popup_item popup_text_history ${color === \"blue\" ? \"white-text\" : \"blue-text\"} `}\n            >\n              Membership Application Form\n            </span>\n            <span\n              onClick={() =>\n                handleMembershipChange(\"Membership Payment Options\")\n              }\n              className={` popup_text ${color === \"blue\" ? \"white-text\" : \"blue-text\"} `}\n            >\n              Membership Payment Options\n            </span>\n          </div>\n        ) : null}\n        {option === \"awards\" ? (\n          <div className=\"about_popup_content\">\n            <span\n              onClick={() => handleAwardsChange(\"ESN Bachelard Award\")}\n              className={`popup_item popup_text ${color === \"blue\" ? \"white-text\" : \"blue-text\"} `}\n            >\n              ESN Bachelard Award\n            </span>\n            <span\n              onClick={() => handleAwardsChange(\"Young Investigator Award\")}\n              className={`popup_item popup_text ${color === \"blue\" ? \"white-text\" : \"blue-text\"} `}\n            >\n              Young Investigator Award\n            </span>\n          </div>\n        ) : null}\n        {option === \"archives\" ? (\n          <div className=\"about_popup_content\">\n            <span\n              onClick={() => handleArchivesChange(\"News\")}\n              className={`popup_item popup_text ${color === \"blue\" ? \"white-text\" : \"blue-text\"} `}\n            >\n              News\n            </span>\n            <span\n              onClick={() => handleArchivesChange(\"ESN Financial Support\")}\n              className={`popup_item popup_text ${color === \"blue\" ? \"white-text\" : \"blue-text\"} `}\n            >\n              ESN Financial Support\n            </span>\n          </div>\n        ) : null}\n      </div>\n      <div className=\"about_popup_submenu\">\n        {showSubMenu && (\n          <div\n            className={`about_popup_content ${\n              color === \"blue\" ? \"blue_background\" : \"white_background\"\n            }`}\n          >\n            <span\n              onClick={() => handleAboutChange(\"Past Meetings\")}\n              className={`popup_item popup_text_history ${color === \"blue\" ? \"white-text\" : \"blue-text\"} `}\n            >\n              Past Meetings\n            </span>\n            <span\n              onClick={() => handleAboutChange(\"Past Councils\")}\n              className={`popup_item popup_text ${color === \"blue\" ? \"white-text\" : \"blue-text\"} `}\n            >\n              Past Councils\n            </span>\n          </div>\n        )}\n      </div>\n    </div>\n  );\n};\n\nexport default Dropdown;\n","import React, { useState, useEffect } from \"react\";\nimport \"./FinancialCard.css\";\nimport { fetchData } from \"../../utility/utils\";\nimport { useMediaQuery } from \"react-responsive\";\n\nconst FinancialCard = ({ data, slug }) => {\n\tconst [availableCategories, setAvailableCategories] = useState([]);\n\tconst [selectedCategories, setSelectedCategories] = useState([]);\n\n\tuseEffect(() => {\n\t\tfetchData(\"/wp-json/wp/v2/financial-categorie\", setAvailableCategories);\n\t}, []);\n\n\tuseEffect(() => {\n\t\tif (availableCategories && data) {\n\t\t\tconst categories = data[\"financial-categorie\"].map((categoryId) =>\n\t\t\t\tavailableCategories.find(\n\t\t\t\t\t(category) => category.id === categoryId\n\t\t\t\t)\n\t\t\t);\n\t\t\tsetSelectedCategories(categories);\n\t\t}\n\t}, [availableCategories, data]);\n\n\tfunction formatDate(startDate, endDate) {\n\t\tconst startYear = startDate?.substring(0, 4);\n\t\tconst startMonth = parseInt(startDate?.substring(4, 6), 10);\n\t\tconst startDay = startDate?.substring(6, 8);\n\n\t\tconst endYear = endDate?.substring(0, 4);\n\t\tconst endMonth = parseInt(endDate?.substring(4, 6), 10);\n\t\tconst endDay = endDate?.substring(6, 8);\n\n\t\tconst months = [\n\t\t\t\"January\",\n\t\t\t\"February\",\n\t\t\t\"March\",\n\t\t\t\"April\",\n\t\t\t\"May\",\n\t\t\t\"June\",\n\t\t\t\"July\",\n\t\t\t\"August\",\n\t\t\t\"September\",\n\t\t\t\"October\",\n\t\t\t\"November\",\n\t\t\t\"December\",\n\t\t];\n\n\t\tif (startMonth === endMonth) {\n\t\t\treturn `${startDay} - ${endDay} ${\n\t\t\t\tmonths[startMonth - 1]\n\t\t\t} ${startYear}`;\n\t\t} else {\n\t\t\treturn `${startDay} ${months[startMonth - 1]} - ${endDay} ${\n\t\t\t\tmonths[endMonth - 1]\n\t\t\t} ${startYear}`;\n\t\t}\n\t}\n\tconst isMobile = useMediaQuery({ maxWidth: 900 });\n\n\treturn (\n\t\t<a\n\t\t\thref={data.link}\n\t\t\t/* block click */\n\t\t\tstyle={{ pointerEvents: data?.acf?.description ? \"auto\" : \"none\" }}\n\t\t\tclassName={`card-box ${slug === \"high1\" ? \"side\" : null}`}>\n\t\t\t<div className=\"card-container\">\n\t\t\t\t<div className=\"card-top\">\n\t\t\t\t\t<p>\n\t\t\t\t\t\t{formatDate(data?.acf?.start_date, data?.acf?.end_date)}\n\t\t\t\t\t</p>\n\t\t\t\t\t{selectedCategories.map((category, index) => (\n\t\t\t\t\t\t<h3 key={index}>{category?.name}</h3>\n\t\t\t\t\t))}\n\t\t\t\t</div>\n\t\t\t\t<h1>{data?.acf.title}</h1>\n\t\t\t\t<h2>{data?.acf.place}</h2>\n\t\t\t\t{data?.acf?.link && (\n\t\t\t\t\t<a\n\t\t\t\t\t\thref={data?.acf?.link}\n\t\t\t\t\t\ttarget=\"_blank\"\n\t\t\t\t\t\trel=\"noopener noreferrer\"\n\t\t\t\t\t\tstyle={{ pointerEvents: \"auto\", cursor: \"pointer\" }}>\n\t\t\t\t\t\tVisit Website\n\t\t\t\t\t</a>\n\t\t\t\t)}\n\t\t\t</div>\n\t\t</a>\n\t);\n};\n\nexport default FinancialCard;\n","import React, { useEffect } from \"react\";\r\nimport logo from \"../../assets/imgs/esn-logoW.svg\";\r\nimport face from \"../../assets/imgs/face.svg\";\r\nimport twitter from \"../../assets/imgs/twitter.svg\";\r\nimport linkedin from \"../../assets/imgs/linkedin.svg\";\r\nimport jek from \"../../assets/imgs/jeknowledge.svg\";\r\nimport \"./Footer.css\";\r\n\r\nconst Footer = () => {\r\n\tconst [year, setYear] = React.useState(0);\r\n\r\n\tuseEffect(() => {\r\n\t\tlet date = new Date().getFullYear();\r\n\t\tsetYear(date);\r\n\t}, []);\r\n\r\n\tuseEffect(() => {\r\n\t\tdocument.title = \"Membership Payment\";\r\n\t}, []);\r\n\r\n\r\n\treturn (\r\n\t\t<div className=\"footer\">\r\n\t\t\t<div className=\"footer-container\">\r\n\t\t\t\t<div className=\"footer-left\">\r\n\t\t\t\t\t<img src={logo} alt=\"logo\" />\r\n\t\t\t\t\t<p className=\"footer-text1\">\r\n\t\t\t\t\t\t© Copyright {year} by European Society for Neurochemistry\r\n\t\t\t\t\t\t<br /> Registered charity in England <br />\r\n\t\t\t\t\t\tCompany no. 1098662\r\n\t\t\t\t\t</p>\r\n\t\t\t\t</div>\r\n\t\t\t\t<div className=\"footer-right\">\r\n\t\t\t\t\t<div className=\"footer-icons\">\r\n\t\t\t\t\t\t<div>\r\n\t\t\t\t\t\t\t<a href=\"https://www.facebook.com/euneurochemsoc/\">\r\n\t\t\t\t\t\t\t\t<img src={face} alt=\"social1\" />\r\n\t\t\t\t\t\t\t</a>\r\n\t\t\t\t\t\t</div>\r\n\t\t\t\t\t\t<div>\r\n\t\t\t\t\t\t\t<a href=\"https://twitter.com/ESNsociety\">\r\n\t\t\t\t\t\t\t\t<img src={twitter} alt=\"social2\" />\r\n\t\t\t\t\t\t\t</a>\r\n\t\t\t\t\t\t</div>\r\n\t\t\t\t\t\t<div>\r\n\t\t\t\t\t\t\t<a href=\"https://www.linkedin.com/company/european-society-for-neurochemistry/\">\r\n\t\t\t\t\t\t\t\t<img src={linkedin} alt=\"social3\" />\r\n\t\t\t\t\t\t\t</a>\r\n\t\t\t\t\t\t</div>\r\n\t\t\t\t\t</div>\r\n\t\t\t\t\t<div className=\"footer-jek\">\r\n\t\t\t\t\t\t<p className=\"footer-text2\">Designed & Developed by</p>\r\n\t\t\t\t\t\t<a href=\"https://jeknowledge.pt/\">\r\n\t\t\t\t\t\t\t<img src={jek} alt=\"jek\" />\r\n\t\t\t\t\t\t</a>\r\n\t\t\t\t\t</div>\r\n\t\t\t\t</div>\r\n\t\t\t</div>\r\n\t\t</div>\r\n\t);\r\n};\r\n\r\nexport default Footer;\r\n","import React, { useState, useEffect } from \"react\";\nimport { fetchData } from \"../../utility/utils\";\nimport \"./MeetCard.css\";\n\nconst MeetCard = ({ data }) => {\n\tconst [availableMedia, setAvailableMedia] = useState([]);\n\tconst [media, setMedia] = useState(\"\");\n\n\tuseEffect(() => {\n\t\tfetchData(\"/wp-json/wp/v2/media\", setAvailableMedia);\n\t}, []);\n\n\tuseEffect(() => {\n\t\tif (availableMedia && data) {\n\t\t\tconst media = availableMedia.find(\n\t\t\t\t(media) => media?.id === data?.acf?.image\n\t\t\t);\n\t\t\tsetMedia(media);\n\t\t}\n\t}, [availableMedia]);\n\n\treturn (\n\t\t<a href={\"/\" + data.slug} className=\"meetcard-box\">\n\t\t\t<div className=\"meetcard-container\">\n\t\t\t\t<img alt={data?.acf.title} src={media?.source_url} />\n\t\t\t\t<h2>{data?.acf.title}</h2>\n\t\t\t</div>\n\t\t</a>\n\t);\n};\n\nexport default MeetCard;\n","import React , { useState } from 'react';\nimport ReCAPTCHA from 'react-google-recaptcha';\nimport './AdditionalInfo.css';\n \n // Render a terceira pagina ( additional information )\nconst AdditionalInfo = (props) => {\n\n    const { setStep, step, formData, sendData } = props;\n    const [recaptchaToken, setRecaptchaToken] = useState('');\n    const [additionalInfo, setAdditionalInfo] = useState(formData.get('additional_info') || ''); // Informacao adicional\n    const [recaptchaCompleted, setRecaptchaCompleted] = useState(false);\n\n    const additionalInfoChange = (event) => {\n      setAdditionalInfo(event.target.value);\n    \n    };\n\n    const handleRecaptchaToken = (token) => {\n      setRecaptchaToken(token);\n      setRecaptchaCompleted(true)\n    };\n    const submit = () => {\n      if (additionalInfo === null) {\n        setAdditionalInfo('');\n        formData.append('additional_info', '');\n          \n      }\n      else {\n        formData.append('additional_info', `${additionalInfo}`);\n      }\n\n        \n        setStep(step + 1);\n        sendData();\n    };\n    const prevSection = () => {\n        setStep(step - 1);\n    };\n\n   \n    return (\n      <div className=\"form_boxes\">\n        <h2>Additional Information</h2>\n        <div className=\"additional_box\">\n          \n          <textarea className=\"text\" id=\"additional_info\" rows=\"10\" cols=\"\" \n          value={additionalInfo} \n          onChange={additionalInfoChange}\n          ></textarea>\n        </div>\n        <div className=\"form_additional_buttons\">\n          <div className=\"membership_recaptcha\">\n          <ReCAPTCHA\n              sitekey=\"6LeIxAcTAAAAAJcZVRqyHh71UMIEGNQ_MXjiZKhI\"\n              onChange={handleRecaptchaToken}\n            />\n          </div>\n        <div className=\"form_buttons submit_button\">\n          <button className=\"previous_page\" onClick={prevSection}>\n            {step === 3 ? 'Previous' : ''}\n          </button>\n          <button className={`next_page ${!recaptchaCompleted ? 'disabled-button' : ''}`}\n              onClick={submit}\n              disabled={!recaptchaCompleted}\n            >\n              Send\n            </button>\n          </div>\n          </div>\n      </div>\n    );\n  };\n\n  export default AdditionalInfo;\n\n\n\n","import React, { useState,useEffect } from 'react';\nimport \"./AdditionalInfo.css\";\n\n\n\nconst InstitutionInfo = (props) => {\n\n    const { setStep, step, formData } = props;\n    const [institution, setInstitution] = useState(formData.get('institution') || ''); // Nome da instituicao\n    const [institutionAddress, setStreetAddress] = useState(formData.get('street_address') || ''); // Morada da instituicao\n    const [department, setDepartment] = useState(formData.get('department') || ''); // Departamento\n    const [city, setCity] = useState(formData.get('city')|| ''); // Cidade\n    const [zip, setZip] = useState(formData.get('zipcode') || ''); // Codigo postal\n    const [country, setCountry] = useState(formData.get('country') || ''); // Pais\n    const [errors, setErrors] = useState({})\n    const [allInputsFilled, setAllInputsFilled] = useState(false);\n\n\n    const checkInputsFilled = () => {\n        return (\n          institution !== '' &&\n          department !== '' &&\n          institutionAddress !== '' &&\n          zip !== '' &&\n          city !== '' &&\n          country !== ''\n        );\n      };\n\n    useEffect(() => {\n        setAllInputsFilled(checkInputsFilled());\n        \n    }, [institution, department, institutionAddress, zip, city, country]);\n\n    const validateFields = () => {\n        const fieldErrors = {};\n    \n        if (!institution) fieldErrors.institution = 'Field is required';\n        if (!institutionAddress) fieldErrors.address = 'Field is required';\n        if (!department) fieldErrors.department = 'Field is required';\n        if (!city) fieldErrors.city = 'Field is required';\n        if (!zip) fieldErrors.zip = 'Field is required';\n        if (!country) fieldErrors.country = 'Field is required';\n  \n        \n        setErrors(fieldErrors);\n    \n        return Object.keys(fieldErrors).length === 0;\n      };\n\n    const nextSection = () => {\n        const isValid = validateFields();\n       \n        if (!isValid) {\n            return\n        }\n        \n        formData.append('institution', `${institution}`);\n        formData.append('street_address', `${institutionAddress}`);\n        formData.append('department', `${department}`);\n        formData.append('city', `${city}`);\n        formData.append('zipcode', `${zip}`);\n        formData.append('country', `${country}`);\n        \n        setStep(step + 1);  \n    };\n    const prevSection = () => {\n        setStep(step - 1);\n    };\n\n    return (\n      <div className=\"form_boxes\">\n        <div className=\"box_input\">\n          <label className=\"box_input_label\" htmlFor=\"institution_name\">Institution*</label>\n          <input className=\"membership_box\" type=\"text\" value={institution} onChange={(e) => setInstitution(e.target.value)} />\n          {errors.institution && <span className=\"error_message small_text\">{errors.institution}</span>}\n        </div>\n        <div className=\"box_input\">\n          <label className=\"box_input_label\" htmlFor=\"department\">Department *</label>\n          <input className=\"membership_box\" type=\"text\" value= {department} onChange={(e) => setDepartment(e.target.value)}/>\n          {errors.department && <span className=\"error_message small_text\">{errors.department}</span>}\n        </div>\n        <div className=\"box_input\">\n          <label className=\"box_input_label\" htmlFor=\"institution_address\">Street Address *</label>\n          <input className=\"membership_box\" type=\"text\" value={institutionAddress} onChange={(e) => setStreetAddress(e.target.value)} />\n          {errors.address && <span className=\"error_message small_text\">{errors.address}</span>}\n        </div>\n        <div className=\"box_input\">\n          <label className=\"box_input_label\" htmlFor=\"position\">Zip code*</label>\n          <input className=\"membership_box\" type=\"text\" value= {zip} onChange={(e) => setZip(e.target.value)}/>\n          {errors.zip && <span className=\"error_message small_text\">{errors.zip}</span>}\n        </div>\n        <div className=\"box_input\">\n          <label className=\"box_input_label\" htmlFor=\"position\">City*</label>\n          <input className=\"membership_box\" type=\"text\" value= {city} onChange={(e) => setCity(e.target.value)}/>\n          {errors.city && <span className=\"error_message small_text\">{errors.city}</span>}\n        </div>\n        <div className=\"box_input\">\n          <label className=\"box_input_label\" htmlFor=\"position\">Country*</label>\n          <input className=\"membership_box\" type=\"text\" value= {country} onChange={(e) => setCountry(e.target.value)}/>\n          {errors.country && <span className=\"error_message small_text\">{errors.country}</span>}\n        </div>\n        \n        <div className=\"form_buttons\">\n          <button className=\"previous_page\" onClick={prevSection}>\n            {step === 2 ? 'Previous' : 'Submit'}\n          </button>\n          <button className= {`next_page ${!allInputsFilled ? 'disabled-button' : ''}`} onClick={nextSection} disabled={!allInputsFilled}>\n            {step === 2 ? 'Next' : 'Submit'}\n          </button>\n        </div>\n      </div>\n    );\n  };\n\nexport default InstitutionInfo;","import React, { useState, useEffect } from \"react\";\nimport \"./AdditionalInfo.css\";\nimport upload from \"../../assets/imgs/upload.svg\";\nimport fileIcon from \"../../assets/imgs/file_icon.svg\";\nimport validator from \"validator\";\n\nconst PersonalInfo = (props) => {\n\tconst setStep = props.setStep;\n\tconst step = props.step;\n\tconst formData = props.formData;\n\n\t//Use states para todas as variaveis ( acho q podemos juntar tudo se preferirem)\n\tconst [title, setTitle] = useState(formData.get(\"title\") || \"\"); // TITULO DA PESSOA\n\tconst [firstMiddle, setFirstMiddle] = useState(formData.get(\"name\") || \"\"); // nome do meio\n\tconst [surname, setSurname] = useState(formData.get(\"surname\") || \"\"); // sobrenome\n\tconst [email, setEmail] = useState(formData.get(\"email\") || \"\"); // mail\n\tconst [phone, setPhone] = useState(formData.get(\"phone\") || \"\"); // telefone\n\tconst [orcid, setOrcid] = useState(formData.get(\"orcid_id\") || \"\"); //\n\tconst [file, setFile] = useState(formData.get(\"cv\") || null); // ficheiro\n\tconst [errors, setErrors] = useState({});\n\n\tconst [allInputsFilled, setAllInputsFilled] = useState(false);\n\n\tconst checkInputsFilled = () => {\n\t\treturn (\n\t\t\ttitle !== \"\" &&\n\t\t\tfirstMiddle !== \"\" &&\n\t\t\tsurname !== \"\" &&\n\t\t\temail !== \"\" &&\n\t\t\tphone !== \"\" &&\n\t\t\tfile !== null\n\t\t);\n\t};\n\n\tuseEffect(() => {\n\t\tsetAllInputsFilled(checkInputsFilled());\n\t}, [title, firstMiddle, surname, email, phone, file]);\n\n\t/*const validateFields = () => {\n        const fieldErrors = {};\n    \n        if (!title) fieldErrors.title = 'Field is required';\n        if (!firstMiddle) fieldErrors.firstMiddle = 'Field is required';\n        if (!surname) fieldErrors.surname = 'Field is required';\n        if (!email) fieldErrors.email = 'Field is required';\n        if (!phone) fieldErrors.phone = 'Field is required';\n  \n        \n        setErrors(fieldErrors);\n    \n        return Object.keys(fieldErrors).length === 0;\n      };\n    */\n\n\t// Enviar a data para o backend\n\tconst nextStep = (setStep, step, formData) => {\n\t\tconst fieldErrors = {};\n\t\tif (!validator.isEmail(email)) {\n\t\t\tfieldErrors.email = \"Please enter a valid email address.\";\n\t\t\tsetErrors(fieldErrors);\n\t\t} else if (!validator.isMobilePhone(phone)) {\n\t\t\tfieldErrors.phone = \"Please enter a valid phone number.\";\n\t\t\tsetErrors(fieldErrors);\n\t\t} else {\n\t\t\tif (orcid === null) {\n\t\t\t\tsetOrcid(\"\");\n\t\t\t\tformData.append(\"orcid_id\", \"\");\n\t\t\t} else {\n\t\t\t\tformData.append(\"orcid_id\", `${orcid}`);\n\t\t\t}\n\n\t\t\tformData.append(\"title\", `${title}`);\n\t\t\tformData.append(\"name\", `${firstMiddle}`);\n\t\t\tformData.append(\"surname\", `${surname}`);\n\t\t\tformData.append(\"email\", `${email}`);\n\t\t\tformData.append(\"phone\", `${phone}`);\n\n\t\t\tformData.append(\"cv\", file);\n\n\t\t\t// enviar data\n\n\t\t\tsetStep(step + 1);\n\t\t}\n\t};\n\n\tconst dropFile = (e) => {\n\t\te.preventDefault();\n\t\tif (e.dataTransfer.files[0].name.toLowerCase().endsWith(\".pdf\")) {\n\t\t\tsetFile(e.dataTransfer.files[0]);\n\t\t} else {\n\t\t\talert(\"File must be a PDF\");\n\t\t}\n\t};\n\tconst handleDragOver = (e) => {\n\t\te.preventDefault();\n\t};\n\n\tconst changeFile = (e) => {\n\t\tconst selectedFile = e.target.files[0];\n\t\tif (selectedFile && selectedFile.name.toLowerCase().endsWith(\".pdf\")) {\n\t\t\tsetFile(selectedFile);\n\t\t} else {\n\t\t\talert(\"File must be a PDF\");\n\t\t}\n\t};\n\n\tconst handleOpenFileExplorer = () => {\n\t\tdocument.getElementById(\"file-input\").click();\n\t};\n\n\tconst removeFile = () => {\n\t\tsetFile(null);\n\t};\n\n\treturn (\n\t\t<div className=\"personal_info\">\n\t\t\t<div className=\"form_boxes\">\n\t\t\t\t<div className=\"box_input\">\n\t\t\t\t\t<label className=\"box_input_label\" htmlFor=\"title\">\n\t\t\t\t\t\tTitle *\n\t\t\t\t\t</label>\n\t\t\t\t\t<input\n\t\t\t\t\t\tclassName=\"membership_box\"\n\t\t\t\t\t\ttype=\"text\"\n\t\t\t\t\t\tvalue={title}\n\t\t\t\t\t\tonChange={(e) => setTitle(e.target.value)}\n\t\t\t\t\t/>\n\t\t\t\t\t{errors.title && (\n\t\t\t\t\t\t<span className=\"error_message small_text\">\n\t\t\t\t\t\t\t{errors.title}\n\t\t\t\t\t\t</span>\n\t\t\t\t\t)}\n\t\t\t\t</div>\n\t\t\t\t<div className=\"box_input\">\n\t\t\t\t\t<label className=\"box_input_label\" htmlFor=\"first_middle\">\n\t\t\t\t\t\tFirst and Middle Name *\n\t\t\t\t\t</label>\n\t\t\t\t\t<input\n\t\t\t\t\t\tclassName=\"membership_box\"\n\t\t\t\t\t\ttype=\"text\"\n\t\t\t\t\t\tvalue={firstMiddle}\n\t\t\t\t\t\tonChange={(e) => setFirstMiddle(e.target.value)}\n\t\t\t\t\t/>\n\t\t\t\t\t{errors.firstMiddle && (\n\t\t\t\t\t\t<span className=\"error_message small_text\">\n\t\t\t\t\t\t\t{errors.firstMiddle}\n\t\t\t\t\t\t</span>\n\t\t\t\t\t)}\n\t\t\t\t</div>\n\t\t\t\t<div className=\"box_input\">\n\t\t\t\t\t<label className=\"box_input_label\" htmlFor=\"surname\">\n\t\t\t\t\t\tSurname *\n\t\t\t\t\t</label>\n\t\t\t\t\t<input\n\t\t\t\t\t\tclassName=\"membership_box\"\n\t\t\t\t\t\ttype=\"text\"\n\t\t\t\t\t\tvalue={surname}\n\t\t\t\t\t\tonChange={(e) => setSurname(e.target.value)}\n\t\t\t\t\t/>\n\t\t\t\t\t{errors.surname && (\n\t\t\t\t\t\t<span className=\"error_message small_text\">\n\t\t\t\t\t\t\t{errors.surname}\n\t\t\t\t\t\t</span>\n\t\t\t\t\t)}\n\t\t\t\t</div>\n\t\t\t\t<div className=\"box_input\">\n\t\t\t\t\t<label className=\"box_input_label\" htmlFor=\"email\">\n\t\t\t\t\t\tEmail *\n\t\t\t\t\t</label>\n\t\t\t\t\t<input\n\t\t\t\t\t\tclassName=\"membership_box\"\n\t\t\t\t\t\ttype=\"text\"\n\t\t\t\t\t\tvalue={email}\n\t\t\t\t\t\tonChange={(e) => setEmail(e.target.value)}\n\t\t\t\t\t/>\n\t\t\t\t\t{errors.email && (\n\t\t\t\t\t\t<span className=\"error_message small_text\">\n\t\t\t\t\t\t\t{errors.email}\n\t\t\t\t\t\t</span>\n\t\t\t\t\t)}\n\t\t\t\t</div>\n\t\t\t\t<div className=\"box_input\">\n\t\t\t\t\t<label className=\"box_input_label\">Phone *</label>\n\t\t\t\t\t<input\n\t\t\t\t\t\tclassName=\"membership_box\"\n\t\t\t\t\t\ttype=\"text\"\n\t\t\t\t\t\tvalue={phone}\n\t\t\t\t\t\tonChange={(e) => setPhone(e.target.value)}\n\t\t\t\t\t/>\n\t\t\t\t\t{errors.phone && (\n\t\t\t\t\t\t<span className=\"error_message small_text\">\n\t\t\t\t\t\t\t{errors.phone}\n\t\t\t\t\t\t</span>\n\t\t\t\t\t)}\n\t\t\t\t</div>\n\t\t\t\t<div className=\"box_input\">\n\t\t\t\t\t<label className=\"box_input_label\">ORCID ID</label>\n\t\t\t\t\t<input\n\t\t\t\t\t\tclassName=\"membership_box\"\n\t\t\t\t\t\ttype=\"text\"\n\t\t\t\t\t\tvalue={orcid}\n\t\t\t\t\t\tonChange={(e) => setOrcid(e.target.value)}\n\t\t\t\t\t/>\n\t\t\t\t</div>\n\t\t\t</div>\n\t\t\t<div className=\"cv\">\n\t\t\t\t<h2 className=\"text\">\n\t\t\t\t\tAttach CV or Letter (pdf file only,{\" \"}\n\t\t\t\t\t<p className=\"text-red\"> max 5Mb</p>)*\n\t\t\t\t</h2>\n\t\t\t\t<p className=\"text\">\n\t\t\t\t\tApplicants must enclose a short CV with a list of recent\n\t\t\t\t\tpublications OR should be supported by the signature of one\n\t\t\t\t\tESN Ordinary Member.\n\t\t\t\t</p>\n\t\t\t\t{file ? (\n\t\t\t\t\t<div className=\"file_info\">\n\t\t\t\t\t\t<img src={fileIcon} alt=\"file icon\" />\n\t\t\t\t\t\t<div className=\"file_actions\">\n\t\t\t\t\t\t\t<h1>{file.name}</h1>\n\t\t\t\t\t\t\t<div>\n\t\t\t\t\t\t\t\t<p\n\t\t\t\t\t\t\t\t\tclassName=\"small_text\"\n\t\t\t\t\t\t\t\t\tonClick={handleOpenFileExplorer}>\n\t\t\t\t\t\t\t\t\tReplace\n\t\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t\t<p className=\"small_text\" onClick={removeFile}>\n\t\t\t\t\t\t\t\t\tRemove\n\t\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t</div>\n\t\t\t\t\t\t</div>\n\t\t\t\t\t</div>\n\t\t\t\t) : (\n\t\t\t\t\t<div\n\t\t\t\t\t\tclassName=\"drag-drop-box\"\n\t\t\t\t\t\tonDrop={dropFile}\n\t\t\t\t\t\tonDragOver={handleDragOver}>\n\t\t\t\t\t\t<div className=\"drag-drop-inner\">\n\t\t\t\t\t\t\t<img src={upload}></img>\n\t\t\t\t\t\t\t<p className=\"text drag_text\">\n\t\t\t\t\t\t\t\tDrag & drop or{\" \"}\n\t\t\t\t\t\t\t\t<span\n\t\t\t\t\t\t\t\t\tonClick={handleOpenFileExplorer}\n\t\t\t\t\t\t\t\t\tclassName=\"text drag_text browse\">\n\t\t\t\t\t\t\t\t\tBrowse\n\t\t\t\t\t\t\t\t</span>\n\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t</div>\n\t\t\t\t\t</div>\n\t\t\t\t)}\n\t\t\t\t<input\n\t\t\t\t\tid=\"file-input\"\n\t\t\t\t\ttype=\"file\"\n\t\t\t\t\tstyle={{ display: \"none\" }}\n\t\t\t\t\tonChange={changeFile}\n\t\t\t\t\tdefaultValue={file}\n\t\t\t\t/>\n\t\t\t\t<div className=\"form_buttons\">\n\t\t\t\t\t<button\n\t\t\t\t\t\tclassName={`next_page ${\n\t\t\t\t\t\t\t!allInputsFilled ? \"disabled-button\" : \"\"\n\t\t\t\t\t\t}`}\n\t\t\t\t\t\tonClick={() => nextStep(setStep, step, formData)}\n\t\t\t\t\t\tdisabled={!allInputsFilled}>\n\t\t\t\t\t\t{step === 1 ? \"Next\" : \"Submit\"}\n\t\t\t\t\t</button>\n\t\t\t\t</div>\n\t\t\t</div>\n\t\t</div>\n\t);\n};\n\nexport default PersonalInfo;\n","import React, { useEffect, useState } from \"react\";\nimport esnlogo from \"../../assets/imgs/esn-logo.svg\";\nimport { slide as Menu } from \"react-burger-menu\";\nimport hamburguer from \"../../assets/imgs/hamburguer.svg\";\nimport HistoryFront from \"../../assets/imgs/history_front.svg\";\nimport HistoryDown from \"../../assets/imgs/history_down.svg\";\nimport close from \"../../assets/imgs/close.svg\";\nimport \"./Navbar.css\";\n\nimport Dropdown from \"../Dropdown/Dropdown\";\n\nconst Navbar = (props) => {\n\tconst [menu, setMenu] = useState(false);\n\tconst [windowHref, setWindowHref] = useState(window.location.href);\n\tconst [aboutsubdropdown, setAboutsubdropdown] = useState(false);\n\tconst [membershipsubdropdown, setMembershipsubdropdown] = useState(false);\n\tconst [awardssubdropdown, setAwardssubdropdown] = useState(false);\n\tconst [archivessubdropdown, setArchivessubdropdown] = useState(false);\n\tconst [historysubdropdown, setHistorysubdropdown] = useState(false);\n\tconst [page, setPage] = useState(props.page);\n\n\tvar styles = {\n\t\tbmMenuWrap: {\n\t\t\ttop: \"0\",\n\t\t\theight: \"100vh\",\n\t\t\twidth: \"100vw\",\n\t\t},\n\t\tbmMenu: {\n\t\t\tbackground: \"#FFFFFF\",\n\t\t},\n\t\tbmItemList: {\n\t\t\tdisplay: \"flex\",\n\t\t\tflexDirection: \"column\",\n\t\t\talignItems: \"center\",\n\t\t\tjustifyContent: \"center\",\n\t\t},\n\t\tbmItem: {\n\t\t\tdisplay: \"flex\",\n\t\t\tfontFamily: \"Open Sans\",\n\t\t\tfontSize: \"1.25rem\",\n\t\t\tlineHeight: \"1.688rem\",\n\t\t\tfontWeight: \"600\",\n\t\t\ttextAlign: \"center\",\n\t\t\tcolor: \"#FFFFFF\",\n\t\t\ttextDecoration: \"none\",\n\t\t\toutline: \"none\",\n\t\t\talignItems: \"center\",\n\t\t\tjustifyContent: \"center\",\n\t\t\tmarginBotton: \"2rem\",\n\t\t},\n\t\tbmItemList: {\n\t\t\tdisplay: \"flex\",\n\t\t\tflexDirection: \"column\",\n\t\t\talignItems: \"flex-start\",\n\t\t\tgap: \"2rem\",\n\t\t\tpadding: \"13.86vh 0 0 8.4vw\",\n\t\t\ttextDecoration: \"none\",\n\t\t},\n\t\tbmBurguerButton: {\n\t\t\tboxShadow: \"0px 0px 16px 0px rgba(0, 0, 0, 0.12)\",\n\t\t},\n\t\tbmCrossButton: {\n\t\t\tmargin: \"1.1rem 3.2vw 0 0\",\n\t\t},\n\t\tbmBurguerButton: {\n\t\t\theight: \"80px\",\n\t\t},\n\t};\n\n\tconst list = [\n\t\t{ name: \"Home\", link: \"/\" },\n\t\t{ name: \"About ESN\", link: \"/about/main\", hasDropdown: true },\n\t\t{ name: \"Archives\", link: \"/news-archive\", hasDropdown: true },\n\t\t{ name: \"Membership\", link: \"/membership\", hasDropdown: true },\n\t\t{\n\t\t\tname: \"Awards\",\n\t\t\tlink: \"/awards/esn-bachelard-award\",\n\t\t\thasDropdown: true,\n\t\t},\n\t\t{ name: \"Conferences & Schools\", link: \"/conference&schools\" },\n\t\t{ name: \"Contact\", link: \"/contact\" },\n\t];\n\n\tconst aboutDropList = [\n\t\t{ name: \"History\", link: \"/about/history\", hasDropdown: true },\n\t\t{ name: \"Constitution\", link: \"/about/constitution\" },\n\t\t{ name: \"Council\", link: \"/about/council\" },\n\t\t{ name: \"ESN YSSC\", link: \"/about/esn-yssc\" },\n\t\t{ name: \"Legacy\", link: \"/about/constitution\" },\n\t];\n\n\tconst membershipDropList = [\n\t\t{ name: \"Membership Application Form\", link: \"/about/past-councils\" },\n\t\t{ name: \"Membership Payment Options\", link: \"/about/past-meetings\" },\n\t];\n\n\tconst awardsDropList = [\n\t\t{ name: \"ESN Bachelard Award\", link: \"/awards/esn-bachelard-award\" },\n\t\t{\n\t\t\tname: \"ESN Young Investigator Award\",\n\t\t\tlink: \"/awards/young-investigator-award\",\n\t\t},\n\t];\n\n\tconst archivesDropList = [\n\t\t{ name: \"News\", link: \"/news-archive\" },\n\t\t{ name: \"ESN Financial Support\", link: \"/financial-archive\" },\n\t];\n\n\tconst changePage = (page) => {\n\t\tsetPage(page);\n\t};\n\n\tuseEffect(() => {\n\t\tsetWindowHref(window.location.href);\n\t}, []);\n\n\treturn (\n\t\t<div className=\"navbar\">\n\t\t\t<div className=\"navbar-container\">\n\t\t\t\t<div className=\"navbar-logo\">\n\t\t\t\t\t<a href=\"/\">\n\t\t\t\t\t\t<img\n\t\t\t\t\t\t\tclassName=\"index\"\n\t\t\t\t\t\t\thref=\"/ \"\n\t\t\t\t\t\t\tsrc={esnlogo}\n\t\t\t\t\t\t\talt=\"logo\"\n\t\t\t\t\t\t/>\n\t\t\t\t\t</a>\n\t\t\t\t</div>\n\n\t\t\t\t<div className=\"navbar-list navbar-desktop\">\n\t\t\t\t\t<li>\n\t\t\t\t\t\t{list.map((item, index) => (\n\t\t\t\t\t\t\t<div className=\"navbar-item\" key={index}>\n\t\t\t\t\t\t\t\t{item.hasDropdown ? (\n\t\t\t\t\t\t\t\t\t<div>\n\t\t\t\t\t\t\t\t\t\t<div className=\"navbar_item dropdown_trigger\">\n\t\t\t\t\t\t\t\t\t\t\t<a\n\t\t\t\t\t\t\t\t\t\t\t\thref={item.link}\n\t\t\t\t\t\t\t\t\t\t\t\tclassName={`item-hover ${\n\t\t\t\t\t\t\t\t\t\t\t\t\tpage === item.name\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t? \"selected-page\"\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t: \"not-selected\"\n\t\t\t\t\t\t\t\t\t\t\t\t}`}\n\t\t\t\t\t\t\t\t\t\t\t\tonClick={() => {\n\t\t\t\t\t\t\t\t\t\t\t\t\tchangePage(item.name);\n\t\t\t\t\t\t\t\t\t\t\t\t}}>\n\t\t\t\t\t\t\t\t\t\t\t\t{item.name}\n\t\t\t\t\t\t\t\t\t\t\t</a>\n\t\t\t\t\t\t\t\t\t\t</div>\n\t\t\t\t\t\t\t\t\t\t<div className=\"dropdown_menu\">\n\t\t\t\t\t\t\t\t\t\t\t<Dropdown\n\t\t\t\t\t\t\t\t\t\t\t\toption={\n\t\t\t\t\t\t\t\t\t\t\t\t\titem.name === \"About ESN\"\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t? \"about\"\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t: item.name ===\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t  \"Membership\"\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t? \"membership\"\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t: item.name === \"Awards\"\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t? \"awards\"\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t: item.name ===\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t  \"Archives\"\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t? \"archives\"\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t: \"\"\n\t\t\t\t\t\t\t\t\t\t\t\t}\n\t\t\t\t\t\t\t\t\t\t\t\tcolor=\"white\"\n\t\t\t\t\t\t\t\t\t\t\t/>\n\t\t\t\t\t\t\t\t\t\t</div>\n\t\t\t\t\t\t\t\t\t</div>\n\t\t\t\t\t\t\t\t) : (\n\t\t\t\t\t\t\t\t\t<a\n\t\t\t\t\t\t\t\t\t\thref={item.link}\n\t\t\t\t\t\t\t\t\t\tclassName={`item-hover ${\n\t\t\t\t\t\t\t\t\t\t\tpage === item.name\n\t\t\t\t\t\t\t\t\t\t\t\t? \"selected-page\"\n\t\t\t\t\t\t\t\t\t\t\t\t: \"not-selected\"\n\t\t\t\t\t\t\t\t\t\t}`}\n\t\t\t\t\t\t\t\t\t\tonClick={() => {\n\t\t\t\t\t\t\t\t\t\t\tchangePage(item.name);\n\t\t\t\t\t\t\t\t\t\t}}>\n\t\t\t\t\t\t\t\t\t\t{item.name}\n\t\t\t\t\t\t\t\t\t</a>\n\t\t\t\t\t\t\t\t)}\n\t\t\t\t\t\t\t</div>\n\t\t\t\t\t\t))}\n\t\t\t\t\t</li>\n\t\t\t\t</div>\n\n\t\t\t\t<div className=\"navbar-mobile\">\n\t\t\t\t\t<Menu\n\t\t\t\t\t\tstyles={styles}\n\t\t\t\t\t\tonStateChange={() => setMenu(!menu)}\n\t\t\t\t\t\tright\n\t\t\t\t\t\tcustomBurgerIcon={<img src={hamburguer} alt=\"hamb\" />}\n\t\t\t\t\t\tcustomCrossIcon={<img src={close} alt=\"close\" />}>\n\t\t\t\t\t\t{list.map((item, index) => (\n\t\t\t\t\t\t\t<div className=\"navbar-item\" key={index}>\n\t\t\t\t\t\t\t\t{item.hasDropdown ? (\n\t\t\t\t\t\t\t\t\t<div>\n\t\t\t\t\t\t\t\t\t\t<div className=\" dropdown_item \">\n\t\t\t\t\t\t\t\t\t\t\t<a\n\t\t\t\t\t\t\t\t\t\t\t\thref={item.link}\n\t\t\t\t\t\t\t\t\t\t\t\tclassName=\"item-hover\">\n\t\t\t\t\t\t\t\t\t\t\t\t{item.name}\n\t\t\t\t\t\t\t\t\t\t\t</a>\n\t\t\t\t\t\t\t\t\t\t\t{item.name === \"About ESN\" ? (\n\t\t\t\t\t\t\t\t\t\t\t\t<img\n\t\t\t\t\t\t\t\t\t\t\t\t\tclassName=\"drop-arrow\"\n\t\t\t\t\t\t\t\t\t\t\t\t\tsrc={\n\t\t\t\t\t\t\t\t\t\t\t\t\t\taboutsubdropdown\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t? HistoryDown\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t: HistoryFront\n\t\t\t\t\t\t\t\t\t\t\t\t\t}\n\t\t\t\t\t\t\t\t\t\t\t\t\talt=\"open\"\n\t\t\t\t\t\t\t\t\t\t\t\t\tonClick={() => {\n\t\t\t\t\t\t\t\t\t\t\t\t\t\tsetAboutsubdropdown(\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t!aboutsubdropdown\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t);\n\t\t\t\t\t\t\t\t\t\t\t\t\t\tsetMembershipsubdropdown(\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tfalse\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t);\n\t\t\t\t\t\t\t\t\t\t\t\t\t\tsetAwardssubdropdown(\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tfalse\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t);\n\t\t\t\t\t\t\t\t\t\t\t\t\t\tsetArchivessubdropdown(\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tfalse\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t);\n\t\t\t\t\t\t\t\t\t\t\t\t\t}}\n\t\t\t\t\t\t\t\t\t\t\t\t/>\n\t\t\t\t\t\t\t\t\t\t\t) : item.name === \"Membership\" ? (\n\t\t\t\t\t\t\t\t\t\t\t\t<img\n\t\t\t\t\t\t\t\t\t\t\t\t\tclassName=\"drop-arrow corno\"\n\t\t\t\t\t\t\t\t\t\t\t\t\tsrc={\n\t\t\t\t\t\t\t\t\t\t\t\t\t\tmembershipsubdropdown\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t? HistoryDown\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t: HistoryFront\n\t\t\t\t\t\t\t\t\t\t\t\t\t}\n\t\t\t\t\t\t\t\t\t\t\t\t\talt=\"open\"\n\t\t\t\t\t\t\t\t\t\t\t\t\tonClick={() => {\n\t\t\t\t\t\t\t\t\t\t\t\t\t\tsetMembershipsubdropdown(\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t!membershipsubdropdown\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t);\n\t\t\t\t\t\t\t\t\t\t\t\t\t\tsetAboutsubdropdown(\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tfalse\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t);\n\t\t\t\t\t\t\t\t\t\t\t\t\t\tsetAwardssubdropdown(\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tfalse\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t);\n\t\t\t\t\t\t\t\t\t\t\t\t\t\tsetArchivessubdropdown(\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tfalse\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t);\n\t\t\t\t\t\t\t\t\t\t\t\t\t}}\n\t\t\t\t\t\t\t\t\t\t\t\t/>\n\t\t\t\t\t\t\t\t\t\t\t) : item.name === \"Awards\" ? (\n\t\t\t\t\t\t\t\t\t\t\t\t<img\n\t\t\t\t\t\t\t\t\t\t\t\t\tclassName=\"drop-arrow corno\"\n\t\t\t\t\t\t\t\t\t\t\t\t\tsrc={\n\t\t\t\t\t\t\t\t\t\t\t\t\t\tawardssubdropdown\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t? HistoryDown\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t: HistoryFront\n\t\t\t\t\t\t\t\t\t\t\t\t\t}\n\t\t\t\t\t\t\t\t\t\t\t\t\talt=\"open\"\n\t\t\t\t\t\t\t\t\t\t\t\t\tonClick={() => {\n\t\t\t\t\t\t\t\t\t\t\t\t\t\tsetAwardssubdropdown(\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t!awardssubdropdown\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t);\n\t\t\t\t\t\t\t\t\t\t\t\t\t\tsetAboutsubdropdown(\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tfalse\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t);\n\t\t\t\t\t\t\t\t\t\t\t\t\t\tsetMembershipsubdropdown(\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tfalse\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t);\n\t\t\t\t\t\t\t\t\t\t\t\t\t\tsetArchivessubdropdown(\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tfalse\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t);\n\t\t\t\t\t\t\t\t\t\t\t\t\t}}\n\t\t\t\t\t\t\t\t\t\t\t\t/>\n\t\t\t\t\t\t\t\t\t\t\t) : item.name === \"Archives\" ? (\n\t\t\t\t\t\t\t\t\t\t\t\t<img\n\t\t\t\t\t\t\t\t\t\t\t\t\tclassName=\"drop-arrow corno\"\n\t\t\t\t\t\t\t\t\t\t\t\t\tsrc={\n\t\t\t\t\t\t\t\t\t\t\t\t\t\tarchivessubdropdown\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t? HistoryDown\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t: HistoryFront\n\t\t\t\t\t\t\t\t\t\t\t\t\t}\n\t\t\t\t\t\t\t\t\t\t\t\t\talt=\"open\"\n\t\t\t\t\t\t\t\t\t\t\t\t\tonClick={() => {\n\t\t\t\t\t\t\t\t\t\t\t\t\t\tsetArchivessubdropdown(\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t!archivessubdropdown\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t);\n\t\t\t\t\t\t\t\t\t\t\t\t\t\tsetAboutsubdropdown(\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tfalse\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t);\n\t\t\t\t\t\t\t\t\t\t\t\t\t\tsetMembershipsubdropdown(\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tfalse\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t);\n\t\t\t\t\t\t\t\t\t\t\t\t\t\tsetAwardssubdropdown(\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tfalse\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t);\n\t\t\t\t\t\t\t\t\t\t\t\t\t}}\n\t\t\t\t\t\t\t\t\t\t\t\t/>\n\t\t\t\t\t\t\t\t\t\t\t) : null}\n\t\t\t\t\t\t\t\t\t\t</div>\n\t\t\t\t\t\t\t\t\t\t{item.name === \"About ESN\" ? (\n\t\t\t\t\t\t\t\t\t\t\t<div>\n\t\t\t\t\t\t\t\t\t\t\t\t{aboutsubdropdown ? (\n\t\t\t\t\t\t\t\t\t\t\t\t\t<div className=\"Aboutsubdrop-menu-list\">\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t{aboutDropList.map(\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t(\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\taboutItem,\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tindex\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t) => (\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t<div\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tclassName=\"subdropdown_item\"\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tkey={index}>\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t{aboutItem.hasDropdown ? (\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t<div>\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t<div className=\"subdropdown_item history-item\">\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t<a\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\thref={\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\taboutItem.link\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t}\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tclassName=\"item-hover\">\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t{\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\taboutItem.name\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t}\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t</a>\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t<img\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tclassName=\"drop-arrow history-arrow\"\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tsrc={\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\thistorysubdropdown &&\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\taboutsubdropdown\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t? HistoryDown\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t: HistoryFront\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t}\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\talt=\"open\"\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tonClick={() =>\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tsetHistorysubdropdown(\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t!historysubdropdown\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t)\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t}\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t/>\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t</div>\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t{historysubdropdown &&\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\taboutsubdropdown ? (\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t<div className=\"item-hover subdropdown_item history-subitem\">\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t<a className=\"item-hover\">\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tPast\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tCouncils\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t</a>\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t<a className=\"item-hover\">\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tPast\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tCouncils\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t</a>\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t</div>\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t) : null}\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t</div>\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t) : (\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t<a\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\thref={\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\taboutItem.link\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t}\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tclassName=\"item-hover\">\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t{\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\taboutItem.name\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t}\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t</a>\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t)}\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t</div>\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t)\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t)}\n\t\t\t\t\t\t\t\t\t\t\t\t\t</div>\n\t\t\t\t\t\t\t\t\t\t\t\t) : null}\n\t\t\t\t\t\t\t\t\t\t\t</div>\n\t\t\t\t\t\t\t\t\t\t) : item.name === \"Membership\" ? (\n\t\t\t\t\t\t\t\t\t\t\t<div>\n\t\t\t\t\t\t\t\t\t\t\t\t{\" \"}\n\t\t\t\t\t\t\t\t\t\t\t\t{membershipsubdropdown ? (\n\t\t\t\t\t\t\t\t\t\t\t\t\t<div className=\"Aboutsubdrop-menu-list\">\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t{membershipDropList.map(\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t(\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tmembershipItem,\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tindex\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t) => (\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t<div\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tclassName=\"subdropdown_item\"\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tkey={index}>\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t<a\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\thref={\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tmembershipItem.link\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t}\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tclassName=\"item-hover\">\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t{\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tmembershipItem.name\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t}\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t</a>\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t</div>\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t)\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t)}\n\t\t\t\t\t\t\t\t\t\t\t\t\t</div>\n\t\t\t\t\t\t\t\t\t\t\t\t) : null}{\" \"}\n\t\t\t\t\t\t\t\t\t\t\t</div>\n\t\t\t\t\t\t\t\t\t\t) : item.name === \"Awards\" ? (\n\t\t\t\t\t\t\t\t\t\t\t<div>\n\t\t\t\t\t\t\t\t\t\t\t\t{\" \"}\n\t\t\t\t\t\t\t\t\t\t\t\t{awardssubdropdown ? (\n\t\t\t\t\t\t\t\t\t\t\t\t\t<div className=\"Aboutsubdrop-menu-list\">\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t{awardsDropList.map(\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t(\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tawardsItem,\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tindex\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t) => (\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t<div\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tclassName=\"subdropdown_item\"\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tkey={index}>\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t<a\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\thref={\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tawardsItem.link\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t}\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tclassName=\"item-hover\">\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t{\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tawardsItem.name\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t}\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t</a>\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t</div>\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t)\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t)}\n\t\t\t\t\t\t\t\t\t\t\t\t\t</div>\n\t\t\t\t\t\t\t\t\t\t\t\t) : null}{\" \"}\n\t\t\t\t\t\t\t\t\t\t\t</div>\n\t\t\t\t\t\t\t\t\t\t) : item.name === \"Archives\" ? (\n\t\t\t\t\t\t\t\t\t\t\t<div>\n\t\t\t\t\t\t\t\t\t\t\t\t{\" \"}\n\t\t\t\t\t\t\t\t\t\t\t\t{archivessubdropdown ? (\n\t\t\t\t\t\t\t\t\t\t\t\t\t<div className=\"Aboutsubdrop-menu-list\">\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t{archivesDropList.map(\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t(\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tarchivesItem,\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tindex\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t) => (\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t<div\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tclassName=\"subdropdown_item\"\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tkey={index}>\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t<a\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\thref={\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tarchivesItem.link\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t}\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tclassName=\"item-hover\">\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t{\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tarchivesItem.name\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t}\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t</a>\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t</div>\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t)\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t)}\n\t\t\t\t\t\t\t\t\t\t\t\t\t</div>\n\t\t\t\t\t\t\t\t\t\t\t\t) : null}{\" \"}\n\t\t\t\t\t\t\t\t\t\t\t</div>\n\t\t\t\t\t\t\t\t\t\t) : null}\n\t\t\t\t\t\t\t\t\t</div>\n\t\t\t\t\t\t\t\t) : (\n\t\t\t\t\t\t\t\t\t<div>\n\t\t\t\t\t\t\t\t\t\t<a\n\t\t\t\t\t\t\t\t\t\t\thref={item.link}\n\t\t\t\t\t\t\t\t\t\t\tclassName=\"item-hover \">\n\t\t\t\t\t\t\t\t\t\t\t{item.name}\n\t\t\t\t\t\t\t\t\t\t</a>\n\t\t\t\t\t\t\t\t\t</div>\n\t\t\t\t\t\t\t\t)}\n\t\t\t\t\t\t\t</div>\n\t\t\t\t\t\t))}\n\t\t\t\t\t</Menu>\n\t\t\t\t</div>\n\t\t\t</div>\n\t\t</div>\n\t);\n};\n\nexport default Navbar;\n","import React, { useState } from \"react\";\nimport esnlogoW from \"../../assets/imgs/esn-logoW.svg\";\nimport esnlogo from \"../../assets/imgs/esn-logo.svg\";\nimport { slide as Menu } from \"react-burger-menu\";\nimport hamburguerW from \"../../assets/imgs/hamburguerW.svg\";\nimport close from \"../../assets/imgs/close.svg\";\nimport HistoryFront from \"../../assets/imgs/history_front.svg\";\nimport HistoryDown from \"../../assets/imgs/history_down.svg\";\nimport \"./NavbarWhite.css\";\nimport Dropdown from \"../Dropdown/Dropdown\";\n\nconst NavbarWhite = () => {\n\tconst [menu, setMenu] = useState(false);\n\tconst [aboutsubdropdown, setAboutsubdropdown] = useState(false);\n\tconst [membershipsubdropdown, setMembershipsubdropdown] = useState(false);\n\tconst [awardssubdropdown, setAwardssubdropdown] = useState(false);\n\tconst [archivessubdropdown, setArchivessubdropdown] = useState(false);\n\tconst [historysubdropdown, setHistorysubdropdown] = useState(false);\n\tconst [page, setPage] = useState(\"Home\");\n\n\tvar styles = {\n\t\tbmMenuWrap: {\n\t\t\ttop: \"0\",\n\t\t\theight: \"100vh\",\n\t\t\twidth: \"100vw\",\n\t\t},\n\t\tbmMenu: {\n\t\t\tbackground: \"#FFFFFF\",\n\t\t},\n\t\tbmItemList: {\n\t\t\tdisplay: \"flex\",\n\t\t\tflexDirection: \"column\",\n\t\t\talignItems: \"center\",\n\t\t\tjustifyContent: \"center\",\n\t\t},\n\t\tbmItem: {\n\t\t\tdisplay: \"flex\",\n\t\t\tfontFamily: \"Open Sans\",\n\t\t\tfontSize: \"1.25rem\",\n\t\t\tlineHeight: \"1.688rem\",\n\t\t\tfontWeight: \"600\",\n\t\t\ttextAlign: \"center\",\n\t\t\tcolor: \"#FFFFFF\",\n\t\t\ttextDecoration: \"none\",\n\t\t\toutline: \"none\",\n\t\t\talignItems: \"center\",\n\t\t\tjustifyContent: \"center\",\n\t\t\tmarginBotton: \"2rem\",\n\t\t},\n\t\tbmItemList: {\n\t\t\tdisplay: \"flex\",\n\t\t\tflexDirection: \"column\",\n\t\t\talignItems: \"flex-start\",\n\t\t\tgap: \"2rem\",\n\t\t\tpadding: \"13.86vh 0 0 8.4vw\",\n\t\t\ttextDecoration: \"none\",\n\t\t},\n\t\tbmBurguerButton: {\n\t\t\tboxShadow: \"0px 0px 16px 0px rgba(0, 0, 0, 0.12)\",\n\t\t},\n\t\tbmCrossButton: {\n\t\t\tmargin: \"1.1rem 3.2vw 0 0\",\n\t\t},\n\t\tbmBurguerButton: {\n\t\t\theight: \"80px\",\n\t\t},\n\t};\n\n\tconst list = [\n\t\t{ name: \"Home\", link: \"/\" },\n\t\t{ name: \"About ESN\", link: \"/about/main\", hasDropdown: true },\n\t\t{ name: \"Archives\", link: \"/news-archive\", hasDropdown: true },\n\t\t{ name: \"Membership\", link: \"/membership\", hasDropdown: true },\n\t\t{\n\t\t\tname: \"Awards\",\n\t\t\tlink: \"/awards/esn-bachelard-award\",\n\t\t\thasDropdown: true,\n\t\t},\n\t\t{ name: \"Conferences & Schools\", link: \"/conference&schools\" },\n\t\t{ name: \"Contact\", link: \"/contact\" },\n\t];\n\n\tconst aboutDropList = [\n\t\t{ name: \"History\", link: \"/about/history\", hasDropdown: true },\n\t\t{ name: \"Constitution\", link: \"/about/constitution\" },\n\t\t{ name: \"Council\", link: \"/about/council\" },\n\t\t{ name: \"ESN YSSC\", link: \"/about/esn-yssc\" },\n\t\t{ name: \"Legacy\", link: \"/about/constitution\" },\n\t];\n\n\tconst membershipDropList = [\n\t\t{ name: \"Membership Application Form\", link: \"/about/past-councils\" },\n\t\t{ name: \"Membership Payment Options\", link: \"/about/past-meetings\" },\n\t];\n\n\tconst awardsDropList = [\n\t\t{ name: \"ESN Bachelard Award\", link: \"/awards/esn-bachelard-award\" },\n\t\t{\n\t\t\tname: \"ESN Young Investigator Award\",\n\t\t\tlink: \"/awards/young-investigator-award\",\n\t\t},\n\t];\n\n\tconst archivesDropList = [\n\t\t{ name: \"News\", link: \"/news-archive\" },\n\t\t{ name: \"ESN Financial Support\", link: \"/financial-archive\" },\n\t];\n\n\tconst changePage = (page) => {\n\t\tsetPage(page);\n\t};\n\n\treturn (\n\t\t<div className=\"navbarW\">\n\t\t\t<div className=\"navbarW-container\">\n\t\t\t\t<div className=\"navbarW-logo\">\n\t\t\t\t\t<a href=\"/\">\n\t\t\t\t\t\t<img\n\t\t\t\t\t\t\tclassName=\"index\"\n\t\t\t\t\t\t\thref=\"/ \"\n\t\t\t\t\t\t\tsrc={menu ? esnlogoW : esnlogo}\n\t\t\t\t\t\t\talt=\"logo\"\n\t\t\t\t\t\t/>\n\t\t\t\t\t</a>\n\t\t\t\t</div>\n\t\t\t\t<div className=\"navbarW-list navbarW-desktop\">\n\t\t\t\t\t<li>\n\t\t\t\t\t\t{list.map((item, index) => (\n\t\t\t\t\t\t\t<div className=\"navbar-item\" key={index}>\n\t\t\t\t\t\t\t\t{item.hasDropdown ? (\n\t\t\t\t\t\t\t\t\t<div>\n\t\t\t\t\t\t\t\t\t\t<div className=\"navbar_item dropdown_trigger\">\n\t\t\t\t\t\t\t\t\t\t\t<a\n\t\t\t\t\t\t\t\t\t\t\t\thref={item.link}\n\t\t\t\t\t\t\t\t\t\t\t\tclassName={`item-hover ${\n\t\t\t\t\t\t\t\t\t\t\t\t\tpage === item.name\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t? \"selected\"\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t: \"not-selected\"\n\t\t\t\t\t\t\t\t\t\t\t\t}`}\n\t\t\t\t\t\t\t\t\t\t\t\tonClick={() => {\n\t\t\t\t\t\t\t\t\t\t\t\t\tchangePage(item.name);\n\t\t\t\t\t\t\t\t\t\t\t\t}}>\n\t\t\t\t\t\t\t\t\t\t\t\t{item.name}\n\t\t\t\t\t\t\t\t\t\t\t</a>\n\t\t\t\t\t\t\t\t\t\t</div>\n\t\t\t\t\t\t\t\t\t\t<div className=\"dropdown_menu\">\n\t\t\t\t\t\t\t\t\t\t\t<Dropdown\n\t\t\t\t\t\t\t\t\t\t\t\toption={\n\t\t\t\t\t\t\t\t\t\t\t\t\titem.name === \"About ESN\"\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t? \"about\"\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t: item.name ===\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t  \"Membership\"\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t? \"membership\"\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t: item.name === \"Awards\"\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t? \"awards\"\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t: item.name ===\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t  \"Archives\"\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t? \"archives\"\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t: \"\"\n\t\t\t\t\t\t\t\t\t\t\t\t}\n\t\t\t\t\t\t\t\t\t\t\t\tcolor=\"blue\"\n\t\t\t\t\t\t\t\t\t\t\t/>\n\t\t\t\t\t\t\t\t\t\t</div>\n\t\t\t\t\t\t\t\t\t</div>\n\t\t\t\t\t\t\t\t) : (\n\t\t\t\t\t\t\t\t\t<a\n\t\t\t\t\t\t\t\t\t\thref={item.link}\n\t\t\t\t\t\t\t\t\t\tclassName={`item-hover ${\n\t\t\t\t\t\t\t\t\t\t\tpage === item.name\n\t\t\t\t\t\t\t\t\t\t\t\t? \"selected\"\n\t\t\t\t\t\t\t\t\t\t\t\t: \"not-selected\"\n\t\t\t\t\t\t\t\t\t\t}`}\n\t\t\t\t\t\t\t\t\t\tonClick={() => {\n\t\t\t\t\t\t\t\t\t\t\tchangePage(item.name);\n\t\t\t\t\t\t\t\t\t\t}}>\n\t\t\t\t\t\t\t\t\t\t{item.name}\n\t\t\t\t\t\t\t\t\t</a>\n\t\t\t\t\t\t\t\t)}\n\t\t\t\t\t\t\t</div>\n\t\t\t\t\t\t))}\n\t\t\t\t\t</li>\n\t\t\t\t</div>\n\n\t\t\t\t<div className=\"navbarW-mobile\">\n\t\t\t\t\t<Menu\n\t\t\t\t\t\tstyles={styles}\n\t\t\t\t\t\tonStateChange={() => setMenu(!menu)}\n\t\t\t\t\t\tright\n\t\t\t\t\t\tcustomBurgerIcon={<img src={hamburguerW} alt=\"hamb\" />}\n\t\t\t\t\t\tcustomCrossIcon={<img src={close} alt=\"close\" />}>\n\t\t\t\t\t\t{list.map((item, index) => (\n\t\t\t\t\t\t\t<div className=\"navbar-item\" key={index}>\n\t\t\t\t\t\t\t\t{item.hasDropdown ? (\n\t\t\t\t\t\t\t\t\t<div>\n\t\t\t\t\t\t\t\t\t\t<div className=\" dropdown_item \">\n\t\t\t\t\t\t\t\t\t\t\t<a\n\t\t\t\t\t\t\t\t\t\t\t\thref={item.link}\n\t\t\t\t\t\t\t\t\t\t\t\tclassName=\"item-hover\">\n\t\t\t\t\t\t\t\t\t\t\t\t{item.name}\n\t\t\t\t\t\t\t\t\t\t\t</a>\n\t\t\t\t\t\t\t\t\t\t\t{item.name === \"About ESN\" ? (\n\t\t\t\t\t\t\t\t\t\t\t\t<img\n\t\t\t\t\t\t\t\t\t\t\t\t\tclassName=\"drop-arrow\"\n\t\t\t\t\t\t\t\t\t\t\t\t\tsrc={\n\t\t\t\t\t\t\t\t\t\t\t\t\t\taboutsubdropdown\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t? HistoryDown\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t: HistoryFront\n\t\t\t\t\t\t\t\t\t\t\t\t\t}\n\t\t\t\t\t\t\t\t\t\t\t\t\talt=\"open\"\n\t\t\t\t\t\t\t\t\t\t\t\t\tonClick={() => {\n\t\t\t\t\t\t\t\t\t\t\t\t\t\tsetAboutsubdropdown(\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t!aboutsubdropdown\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t);\n\t\t\t\t\t\t\t\t\t\t\t\t\t\tsetMembershipsubdropdown(\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tfalse\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t);\n\t\t\t\t\t\t\t\t\t\t\t\t\t\tsetAwardssubdropdown(\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tfalse\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t);\n\t\t\t\t\t\t\t\t\t\t\t\t\t\tsetArchivessubdropdown(\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tfalse\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t);\n\t\t\t\t\t\t\t\t\t\t\t\t\t}}\n\t\t\t\t\t\t\t\t\t\t\t\t/>\n\t\t\t\t\t\t\t\t\t\t\t) : item.name === \"Membership\" ? (\n\t\t\t\t\t\t\t\t\t\t\t\t<img\n\t\t\t\t\t\t\t\t\t\t\t\t\tclassName=\"drop-arrow corno\"\n\t\t\t\t\t\t\t\t\t\t\t\t\tsrc={\n\t\t\t\t\t\t\t\t\t\t\t\t\t\tmembershipsubdropdown\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t? HistoryDown\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t: HistoryFront\n\t\t\t\t\t\t\t\t\t\t\t\t\t}\n\t\t\t\t\t\t\t\t\t\t\t\t\talt=\"open\"\n\t\t\t\t\t\t\t\t\t\t\t\t\tonClick={() => {\n\t\t\t\t\t\t\t\t\t\t\t\t\t\tsetMembershipsubdropdown(\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t!membershipsubdropdown\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t);\n\t\t\t\t\t\t\t\t\t\t\t\t\t\tsetAboutsubdropdown(\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tfalse\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t);\n\t\t\t\t\t\t\t\t\t\t\t\t\t\tsetAwardssubdropdown(\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tfalse\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t);\n\t\t\t\t\t\t\t\t\t\t\t\t\t\tsetArchivessubdropdown(\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tfalse\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t);\n\t\t\t\t\t\t\t\t\t\t\t\t\t}}\n\t\t\t\t\t\t\t\t\t\t\t\t/>\n\t\t\t\t\t\t\t\t\t\t\t) : item.name === \"Awards\" ? (\n\t\t\t\t\t\t\t\t\t\t\t\t<img\n\t\t\t\t\t\t\t\t\t\t\t\t\tclassName=\"drop-arrow corno\"\n\t\t\t\t\t\t\t\t\t\t\t\t\tsrc={\n\t\t\t\t\t\t\t\t\t\t\t\t\t\tawardssubdropdown\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t? HistoryDown\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t: HistoryFront\n\t\t\t\t\t\t\t\t\t\t\t\t\t}\n\t\t\t\t\t\t\t\t\t\t\t\t\talt=\"open\"\n\t\t\t\t\t\t\t\t\t\t\t\t\tonClick={() => {\n\t\t\t\t\t\t\t\t\t\t\t\t\t\tsetAwardssubdropdown(\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t!awardssubdropdown\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t);\n\t\t\t\t\t\t\t\t\t\t\t\t\t\tsetAboutsubdropdown(\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tfalse\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t);\n\t\t\t\t\t\t\t\t\t\t\t\t\t\tsetMembershipsubdropdown(\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tfalse\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t);\n\t\t\t\t\t\t\t\t\t\t\t\t\t\tsetArchivessubdropdown(\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tfalse\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t);\n\t\t\t\t\t\t\t\t\t\t\t\t\t}}\n\t\t\t\t\t\t\t\t\t\t\t\t/>\n\t\t\t\t\t\t\t\t\t\t\t) : item.name === \"Archives\" ? (\n\t\t\t\t\t\t\t\t\t\t\t\t<img\n\t\t\t\t\t\t\t\t\t\t\t\t\tclassName=\"drop-arrow corno\"\n\t\t\t\t\t\t\t\t\t\t\t\t\tsrc={\n\t\t\t\t\t\t\t\t\t\t\t\t\t\tarchivessubdropdown\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t? HistoryDown\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t: HistoryFront\n\t\t\t\t\t\t\t\t\t\t\t\t\t}\n\t\t\t\t\t\t\t\t\t\t\t\t\talt=\"open\"\n\t\t\t\t\t\t\t\t\t\t\t\t\tonClick={() => {\n\t\t\t\t\t\t\t\t\t\t\t\t\t\tsetArchivessubdropdown(\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t!archivessubdropdown\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t);\n\t\t\t\t\t\t\t\t\t\t\t\t\t\tsetAboutsubdropdown(\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tfalse\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t);\n\t\t\t\t\t\t\t\t\t\t\t\t\t\tsetMembershipsubdropdown(\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tfalse\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t);\n\t\t\t\t\t\t\t\t\t\t\t\t\t\tsetAwardssubdropdown(\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tfalse\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t);\n\t\t\t\t\t\t\t\t\t\t\t\t\t}}\n\t\t\t\t\t\t\t\t\t\t\t\t/>\n\t\t\t\t\t\t\t\t\t\t\t) : null}\n\t\t\t\t\t\t\t\t\t\t</div>\n\t\t\t\t\t\t\t\t\t\t{item.name === \"About ESN\" ? (\n\t\t\t\t\t\t\t\t\t\t\t<div>\n\t\t\t\t\t\t\t\t\t\t\t\t{aboutsubdropdown ? (\n\t\t\t\t\t\t\t\t\t\t\t\t\t<div className=\"Aboutsubdrop-menu-list\">\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t{aboutDropList.map(\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t(\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\taboutItem,\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tindex\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t) => (\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t<div\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tclassName=\"subdropdown_item\"\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tkey={index}>\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t{aboutItem.hasDropdown ? (\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t<div>\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t<div className=\"subdropdown_item history-item\">\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t<a\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\thref={\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\taboutItem.link\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t}\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tclassName=\"item-hover\">\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t{\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\taboutItem.name\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t}\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t</a>\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t<img\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tclassName=\"drop-arrow history-arrow\"\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tsrc={\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\thistorysubdropdown &&\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\taboutsubdropdown\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t? HistoryDown\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t: HistoryFront\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t}\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\talt=\"open\"\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tonClick={() =>\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tsetHistorysubdropdown(\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t!historysubdropdown\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t)\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t}\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t/>\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t</div>\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t{historysubdropdown &&\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\taboutsubdropdown ? (\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t<div className=\"item-hover subdropdown_item history-subitem\">\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t<a className=\"item-hover\">\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tPast\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tCouncils\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t</a>\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t<a className=\"item-hover\">\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tPast\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tCouncils\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t</a>\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t</div>\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t) : null}\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t</div>\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t) : (\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t<a\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\thref={\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\taboutItem.link\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t}\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tclassName=\"item-hover\">\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t{\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\taboutItem.name\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t}\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t</a>\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t)}\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t</div>\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t)\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t)}\n\t\t\t\t\t\t\t\t\t\t\t\t\t</div>\n\t\t\t\t\t\t\t\t\t\t\t\t) : null}\n\t\t\t\t\t\t\t\t\t\t\t</div>\n\t\t\t\t\t\t\t\t\t\t) : item.name === \"Membership\" ? (\n\t\t\t\t\t\t\t\t\t\t\t<div>\n\t\t\t\t\t\t\t\t\t\t\t\t{\" \"}\n\t\t\t\t\t\t\t\t\t\t\t\t{membershipsubdropdown ? (\n\t\t\t\t\t\t\t\t\t\t\t\t\t<div className=\"Aboutsubdrop-menu-list\">\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t{membershipDropList.map(\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t(\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tmembershipItem,\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tindex\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t) => (\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t<div\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tclassName=\"subdropdown_item\"\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tkey={index}>\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t<a\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\thref={\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tmembershipItem.link\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t}\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tclassName=\"item-hover\">\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t{\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tmembershipItem.name\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t}\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t</a>\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t</div>\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t)\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t)}\n\t\t\t\t\t\t\t\t\t\t\t\t\t</div>\n\t\t\t\t\t\t\t\t\t\t\t\t) : null}{\" \"}\n\t\t\t\t\t\t\t\t\t\t\t</div>\n\t\t\t\t\t\t\t\t\t\t) : item.name === \"Awards\" ? (\n\t\t\t\t\t\t\t\t\t\t\t<div>\n\t\t\t\t\t\t\t\t\t\t\t\t{\" \"}\n\t\t\t\t\t\t\t\t\t\t\t\t{awardssubdropdown ? (\n\t\t\t\t\t\t\t\t\t\t\t\t\t<div className=\"Aboutsubdrop-menu-list\">\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t{awardsDropList.map(\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t(\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tawardsItem,\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tindex\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t) => (\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t<div\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tclassName=\"subdropdown_item\"\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tkey={index}>\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t<a\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\thref={\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tawardsItem.link\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t}\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tclassName=\"item-hover\">\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t{\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tawardsItem.name\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t}\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t</a>\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t</div>\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t)\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t)}\n\t\t\t\t\t\t\t\t\t\t\t\t\t</div>\n\t\t\t\t\t\t\t\t\t\t\t\t) : null}{\" \"}\n\t\t\t\t\t\t\t\t\t\t\t</div>\n\t\t\t\t\t\t\t\t\t\t) : item.name === \"Archives\" ? (\n\t\t\t\t\t\t\t\t\t\t\t<div>\n\t\t\t\t\t\t\t\t\t\t\t\t{\" \"}\n\t\t\t\t\t\t\t\t\t\t\t\t{archivessubdropdown ? (\n\t\t\t\t\t\t\t\t\t\t\t\t\t<div className=\"Aboutsubdrop-menu-list\">\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t{archivesDropList.map(\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t(\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tarchivesItem,\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tindex\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t) => (\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t<div\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tclassName=\"subdropdown_item\"\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tkey={index}>\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t<a\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\thref={\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tarchivesItem.link\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t}\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tclassName=\"item-hover\">\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t{\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tarchivesItem.name\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t}\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t</a>\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t</div>\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t)\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t)}\n\t\t\t\t\t\t\t\t\t\t\t\t\t</div>\n\t\t\t\t\t\t\t\t\t\t\t\t) : null}{\" \"}\n\t\t\t\t\t\t\t\t\t\t\t</div>\n\t\t\t\t\t\t\t\t\t\t) : null}\n\t\t\t\t\t\t\t\t\t</div>\n\t\t\t\t\t\t\t\t) : (\n\t\t\t\t\t\t\t\t\t<div>\n\t\t\t\t\t\t\t\t\t\t<a\n\t\t\t\t\t\t\t\t\t\t\thref={item.link}\n\t\t\t\t\t\t\t\t\t\t\tclassName=\"item-hover \">\n\t\t\t\t\t\t\t\t\t\t\t{item.name}\n\t\t\t\t\t\t\t\t\t\t</a>\n\t\t\t\t\t\t\t\t\t</div>\n\t\t\t\t\t\t\t\t)}\n\t\t\t\t\t\t\t</div>\n\t\t\t\t\t\t))}\n\t\t\t\t\t</Menu>\n\t\t\t\t</div>\n\t\t\t</div>\n\t\t</div>\n\t);\n};\n\nexport default NavbarWhite;\n","import React, { useState, useEffect } from \"react\";\r\nimport \"./NewsCard.css\";\r\nimport dot from \"../../assets/imgs/dot.svg\";\r\nimport { fetchData } from \"../../utility/utils\";\r\nimport { useMediaQuery } from \"react-responsive\";\r\n\r\nconst NewsCard = ({ data, slug }) => {\r\n\tconst [availableCategories, setAvailableCategories] = useState([]);\r\n\tconst [selectedCategory, setSelectedCategory] = useState({});\r\n\r\n\tconst [availableMedia, setAvailableMedia] = useState([]);\r\n\tconst [media, setMedia] = useState(\"\");\r\n\r\n\tuseEffect(() => {\r\n\t\tfetchData(\"/wp-json/wp/v2/news-categorie\", setAvailableCategories);\r\n\t\tfetchData(\"/wp-json/wp/v2/media\", setAvailableMedia);\r\n\t}, []);\r\n\r\n\tuseEffect(() => {\r\n\t\tif (availableCategories && data)\r\n\t\t\tsetSelectedCategory(\r\n\t\t\t\tavailableCategories?.find(\r\n\t\t\t\t\t(category) => category?.id === data[\"news-categorie\"][0]\r\n\t\t\t\t)\r\n\t\t\t);\r\n\t}, [availableCategories]);\r\n\r\n\tuseEffect(() => {\r\n\t\tif (availableMedia && data) {\r\n\t\t\tconst media = availableMedia.find(\r\n\t\t\t\t(media) => media?.id === data?.acf?.highlightimage\r\n\t\t\t);\r\n\t\t\tsetMedia(media);\r\n\t\t}\r\n\t}, [availableMedia]);\r\n\r\n\tfunction formatDate(dateString) {\r\n\t\tconst year = dateString?.substring(0, 4);\r\n\t\tconst month = dateString?.substring(4, 6);\r\n\t\tconst day = dateString?.substring(6, 8);\r\n\r\n\t\treturn `${day}/${month}/${year}`;\r\n\t}\r\n\r\n\tconst isMobile = useMediaQuery({ maxWidth: 900 });\r\n\r\n\treturn (\r\n\t\t<a\r\n\t\t\thref={\"/\" + data.slug}\r\n\t\t\tclassName={`card-box ${slug === \"high1\" ? \"side\" : null}`}>\r\n\t\t\t{media ? (\r\n\t\t\t\t<div\r\n\t\t\t\t\tclassName=\"card-box-img\"\r\n\t\t\t\t\tstyle={{\r\n\t\t\t\t\t\theight: \"20.4375rem\",\r\n\t\t\t\t\t\tbackgroundSize: \"cover\",\r\n\t\t\t\t\t\tbackgroundPosition: \"top left\",\r\n\t\t\t\t\t\tborderRadius: \"10.81px 10.81px 0px 0px\",\r\n\t\t\t\t\t\twidth: slug === \"high1\" && !isMobile ? \"50%\" : \"auto\",\r\n\t\t\t\t\t\tposition: \"relative\",\r\n\t\t\t\t\t}}>\r\n\t\t\t\t\t<img\r\n\t\t\t\t\t\tsrc={`${media?.source_url}`}\r\n\t\t\t\t\t\talt=\".\"\r\n\t\t\t\t\t\tstyle={{\r\n\t\t\t\t\t\t\tmaxHeight: \"100%\",\r\n\t\t\t\t\t\t\tposition: \"absolute\",\r\n\t\t\t\t\t\t\ttop: \"50%\",\r\n\t\t\t\t\t\t\tleft: \"50%\",\r\n\t\t\t\t\t\t\ttransform: \"translate(-50%, -50%)\",\r\n\t\t\t\t\t\t}}\r\n\t\t\t\t\t/>\r\n\t\t\t\t</div>\r\n\t\t\t) : null}\r\n\t\t\t<div className=\"card-container\">\r\n\t\t\t\t<div className=\"card-top\">\r\n\t\t\t\t\t<p>{formatDate(data?.acf?.date)}</p>\r\n\t\t\t\t\t<img src={dot} alt=\".\" />\r\n\t\t\t\t\t<h3>{selectedCategory?.name}</h3>\r\n\t\t\t\t</div>\r\n\t\t\t\t<h1>{data?.acf.title}</h1>\r\n\t\t\t\t<h2>\r\n\t\t\t\t\t{data?.acf.description\r\n\t\t\t\t\t\t?.substring(0, 73)\r\n\t\t\t\t\t\t.replace(\"$**\", \"\")\r\n\t\t\t\t\t\t.replace(\"$*\", \"\")\r\n\t\t\t\t\t\t.replace(\"**$\", \"\")\r\n\t\t\t\t\t\t.replace(\"*$\", \"\")\r\n\t\t\t\t\t\t.replace(\"$N\", \"\")\r\n\t\t\t\t\t\t.replace(\"$n\", \"\") + \"...\"}\r\n\t\t\t\t</h2>\r\n\t\t\t</div>\r\n\t\t</a>\r\n\t);\r\n};\r\n\r\nexport default NewsCard;\r\n","import React, { useState, useEffect } from \"react\";\nimport { useNavigate } from \"react-router-dom\";\nimport Navbar from \"../../components/Navbar/Navbar\";\nimport Footer from \"../../components/Footer/Footer\";\nimport AboutSection from \"../../components/AboutESNComponents/AboutSection/AboutSection\";\nimport HistorySection from \"../../components/AboutESNComponents/HistorySection/HistorySection\";\nimport ConstitutionSection from \"../../components/AboutESNComponents/ConstitutionSection/ConstitutionSection\";\nimport NewCouncilSection from \"../../components/AboutESNComponents/NewCouncilSection/NewCouncilSection\";\nimport YsscSection from \"../../components/AboutESNComponents/YsscSection/YsscSection\";\nimport LegacySection from \"../../components/AboutESNComponents/LegacySection/LegacySection\";\nimport CouncilsSection from \"../../components/AboutESNComponents/AboutCouncils/CouncilsSection\";\nimport MeetingsSection from \"../../components/AboutESNComponents/AboutMeetings/MeetingsSection\";\nimport HistoryFront from \"../../assets/imgs/history_front.svg\";\nimport HistoryDown from \"../../assets/imgs/history_down.svg\";\nimport \"./AboutPage.css\";\n\nconst AboutPage = () => {\n  const navigate = useNavigate();\n  const [selectedItem, setSelectedItem] = useState(null);\n  const [showDropdown, setShowDropdown] = useState(false);\n\n  useEffect(() => {\n    const { pathname } = window.location;\n    const selectedItem = pathname.substring(pathname.lastIndexOf(\"/\") + 1);\n    setSelectedItem(selectedItem);\n\n    const checkDropdown = () => {\n      if (\n        selectedItem === \"past-meetings\" ||\n        selectedItem === \"past-councils\"\n      ) {\n        setShowDropdown(true);\n      }\n    };\n    checkDropdown();\n  }, []);\n\n  const handleItemClick = (item) => {\n    setSelectedItem(item);\n\n    if (item !== \"past-meetings\" && item !== \"past-councils\") {\n      setShowDropdown(false);\n    }\n\n    navigate(`/about/${item}`);\n  };\n\n  const handleArrowClick = () => {\n    setShowDropdown(!showDropdown);\n  };\n  return (\n    <div className=\"about_page\">\n      <Navbar page=\"About ESN\" />\n      <div className=\"aboutpage-container\">\n        <div className=\"about-sidebar\">\n          <div className=\"about-sidebar-title\">\n            <h1>About ESN</h1>\n          </div>\n          <div className=\"about-sidebar-content\">\n            <span\n              className={`sidebar-item sidebar-text ${\n                selectedItem === \"main\" ? \"selected-item\" : \"\"\n              }`}\n              onClick={() => handleItemClick(\"main\")}\n            >\n              About ESN\n            </span>\n            <span\n              className={`sidebar-item sidebar-text ${\n                selectedItem === \"history\" ? \"selected-item\" : \"\"\n              }`}\n              onClick={handleArrowClick}\n            >\n              <p onClick={() => handleItemClick(\"history\")}>History</p>{\" \"}\n              {showDropdown ? (\n                <img\n                  src={HistoryDown}\n                  alt=\"History Dropdown\"\n                  onClick={handleArrowClick}\n                />\n              ) : (\n                <img\n                  src={HistoryFront}\n                  alt=\"History\"\n                  onClick={handleArrowClick}\n                />\n              )}\n            </span>\n            {showDropdown && (\n              <div className=\"history-dropdown\">\n                <span\n                  className={`sidebar-item sidebar-text ${\n                    selectedItem === \"past-councils\" ? \"selected-item\" : \"\"\n                  }`}\n                  onClick={() => handleItemClick(\"past-councils\")}\n                >\n                  Past Councils\n                </span>\n                <span\n                  className={`sidebar-item sidebar-text ${\n                    selectedItem === \"past-meetings\" ? \"selected-item\" : \"\"\n                  }`}\n                  onClick={() => handleItemClick(\"past-meetings\")}\n                >\n                  {\" \"}\n                  Past Meetings\n                </span>\n              </div>\n            )}\n            <span\n              className={`sidebar-item sidebar-text ${\n                selectedItem === \"constitution\" ? \"selected-item\" : \"\"\n              }`}\n              onClick={() => handleItemClick(\"constitution\")}\n            >\n              Constitution\n            </span>\n            <span\n              className={`sidebar-item sidebar-text ${\n                selectedItem === \"council\" ? \"selected-item\" : \"\"\n              }`}\n              onClick={() => handleItemClick(\"council\")}\n            >\n              Council\n            </span>\n            <span\n              className={`sidebar-item sidebar-text ${\n                selectedItem === \"esn-yssc\" ? \"selected-item\" : \"\"\n              }`}\n              onClick={() => handleItemClick(\"esn-yssc\")}\n            >\n               ESN YSSC\n            </span>\n            <span\n              className={` sidebar-text ${\n                selectedItem === \"legacy\" ? \"selected-item\" : \"\"\n              }`}\n              onClick={() => handleItemClick(\"legacy\")}\n            >\n              Legacy\n            </span>\n          </div>\n        </div>\n        <div className=\"aboutpage-content\">\n          {selectedItem === \"main\" && <AboutSection />}\n          {selectedItem === \"history\" && <HistorySection />}\n          {selectedItem === \"constitution\" && <ConstitutionSection />}\n          {selectedItem === \"council\" && <NewCouncilSection />}\n          {selectedItem === \"esn-yssc\" && <YsscSection />}\n          {selectedItem === \"legacy\" && <LegacySection />}\n          {selectedItem === \"past-councils\" && <CouncilsSection />}\n          {selectedItem === \"past-meetings\" && <MeetingsSection />}\n        </div>\n      </div>\n      <Footer />\n    </div>\n  );\n};\n\nexport default AboutPage;","import { useState, useEffect } from \"react\";\nimport { useNavigate } from \"react-router-dom\";\nimport Navbar from \"../../components/Navbar/Navbar\";\nimport Footer from \"../../components/Footer/Footer\";\nimport BachelardSection from \"../../components/AboutESNComponents/BachelardSection/BachelardSection\";\nimport InvestigatorSection from \"../../components/AboutESNComponents/InvestigatorSection/InvestigatorSection\";\nimport \"./AwardsPage.css\";\n\nconst AwardsPage = () => {\n  const [selectedItem, setSelectedItem] = useState(null);\n  const navigate = useNavigate();\n\n  useEffect(() => {\n\n    \n    const { pathname } = window.location;\n    const selectedItem = pathname.substring(pathname.lastIndexOf(\"/\") + 1);\n    setSelectedItem(selectedItem);\n\n  }, [navigate]);\n\n  const handleItemClick = (item) => {\n    setSelectedItem(item);\n  };\n\n  return (\n    <div className=\"awards_page\">\n      <Navbar page=\"Awards\" />\n      <div className=\"awardspage-container\">\n        <div className=\"awards-sidebar\">\n          <div className=\"awards-sidebar-title\">\n            <h1>Awards</h1>\n          </div>\n          <div className=\"awards-sidebar-content\">\n            <span\n              className={`sidebar-item sidebar-text ${\n                selectedItem === \"esn-bachelard-award\" ? \"selected-item\" : \"\"\n              }`}\n              onClick={() => handleItemClick(\"esn-bachelard-award\")}\n            >\n              ESN Bachelard Award\n            </span>\n            <span\n              className={`sidebar-item sidebar-text ${\n                selectedItem === \"young-investigator-award\" ? \"selected-item\" : \"\"\n              }`}\n              onClick={() => handleItemClick(\"young-investigator-award\")}\n            >\n              Young Investigator Award\n            </span>\n          </div>\n        </div>\n        <div className=\"awardspage-content\">\n          {selectedItem === \"esn-bachelard-award\" && <BachelardSection />}\n          {selectedItem === \"young-investigator-award\" && <InvestigatorSection />}\n        </div>\n      </div>\n      <Footer />\n    </div>\n  );\n};\n\nexport default AwardsPage;\n","import React, { useState, useEffect } from \"react\";\nimport validator from \"validator\";\nimport Footer from \"../../components/Footer/Footer\";\nimport Navbar from \"../../components/Navbar/Navbar\";\nimport ReCAPTCHA from \"react-google-recaptcha\";\nimport \"./ContactPage.css\";\nimport axios from \"axios\";\n\nconst ContactPage = () => {\n\tconst [name, setName] = useState(\"\");\n\tconst [email, setEmail] = useState(\"\");\n\tconst [subject, setSubject] = useState(\"\");\n\tconst [message, setMessage] = useState(\"\");\n\tconst [errorMessage, setErrorMessage] = useState(\"\");\n\tconst [submitted, setSubmitted] = useState(false);\n\tconst [recaptchaCompleted, setRecaptchaCompleted] = useState(false);\n\n\tuseEffect(() => {\n\t\tdocument.title = \"Contact\";\n\t}, []);\n\n\tconst handleNameChange = (event) => {\n\t\tsetName(event.target.value);\n\t};\n\n\tconst handleEmailChange = (event) => {\n\t\tsetEmail(event.target.value);\n\t};\n\n\tconst handleSubjectChange = (event) => {\n\t\tsetSubject(event.target.value);\n\t};\n\n\tconst handleMessageChange = (event) => {\n\t\tsetMessage(event.target.value);\n\t};\n\n\tconst handleRecaptchaChange = (value) => {\n\t\tsetRecaptchaCompleted(true);\n\t};\n\n\tconst [buttonClass, setButtonClass] = useState(\"\");\n\n\tuseEffect(() => {\n\t\tif (\n\t\t\tname &&\n\t\t\temail &&\n\t\t\tsubject &&\n\t\t\tmessage &&\n\t\t\temail &&\n\t\t\trecaptchaCompleted\n\t\t) {\n\t\t\tsetButtonClass(\"filled\");\n\t\t} else {\n\t\t\tsetButtonClass(\"\");\n\t\t}\n\t}, [name, email, subject, message, recaptchaCompleted]);\n\n\tconst handleFormSubmit = (event) => {\n\t\tevent.preventDefault();\n\n\t\tif (!name || !email || !subject || !message) {\n\t\t\tsetErrorMessage(\"Required field.\");\n\t\t} else if (!validator.isEmail(email)) {\n\t\t\tsetErrorMessage(\"Please enter a valid email address.\");\n\t\t} else {\n\t\t\tsetErrorMessage(\"\");\n\t\t\tconst data = {\n\t\t\t\tname: name,\n\t\t\t\temail: email,\n\t\t\t\tsubject: subject,\n\t\t\t\tmessage: message,\n\t\t\t};\n\n\t\t\taxios\n\t\t\t\t.post(\"http://esnwebsite.pythonanywhere.com/api/contact/\", data)\n\t\t\t\t.then((response) => {\n\t\t\t\t\t// Handle successful form submission if needed\n\t\t\t\t\tsetSubmitted(true);\n\t\t\t\t})\n\t\t\t\t.catch((error) => {\n\t\t\t\t\t// Handle error if needed\n\t\t\t\t});\n\t\t}\n\t};\n\n\tconst renderContactPage = () => {\n\t\treturn (\n\t\t\t<div>\n\t\t\t\t<Navbar page=\"Contact\" />\n\n\t\t\t\t<div className=\"cp-container\">\n\t\t\t\t\t<h1>Contact</h1>\n\t\t\t\t\t<p>\n\t\t\t\t\t\tE-mail:{\" \"}\n\t\t\t\t\t\t<span className=\"not-bold-400\">\n\t\t\t\t\t\t\tinfo@neurochemsoc.eu\n\t\t\t\t\t\t</span>\n\t\t\t\t\t</p>\n\t\t\t\t\t<div className=\"cp-form\">\n\t\t\t\t\t\t<form onSubmit={handleFormSubmit}>\n\t\t\t\t\t\t\t<div className=\"cp-form-multiple-inputs\">\n\t\t\t\t\t\t\t\t<div className=\"box_input\">\n\t\t\t\t\t\t\t\t\t<label\n\t\t\t\t\t\t\t\t\t\tclassName=\"contact-page-label\"\n\t\t\t\t\t\t\t\t\t\thtmlFor=\"name\">\n\t\t\t\t\t\t\t\t\t\tName *\n\t\t\t\t\t\t\t\t\t</label>\n\t\t\t\t\t\t\t\t\t<input\n\t\t\t\t\t\t\t\t\t\tclassName=\"box\"\n\t\t\t\t\t\t\t\t\t\ttype=\"text\"\n\t\t\t\t\t\t\t\t\t\tid=\"name\"\n\t\t\t\t\t\t\t\t\t\tvalue={name}\n\t\t\t\t\t\t\t\t\t\tonChange={handleNameChange}\n\t\t\t\t\t\t\t\t\t/>\n\t\t\t\t\t\t\t\t\t{errorMessage && !name && (\n\t\t\t\t\t\t\t\t\t\t<span className=\"error-message\">\n\t\t\t\t\t\t\t\t\t\t\tRequired field.\n\t\t\t\t\t\t\t\t\t\t</span>\n\t\t\t\t\t\t\t\t\t)}\n\t\t\t\t\t\t\t\t</div>\n\t\t\t\t\t\t\t\t<div className=\"box_input\">\n\t\t\t\t\t\t\t\t\t<label\n\t\t\t\t\t\t\t\t\t\tclassName=\"contact-page-label\"\n\t\t\t\t\t\t\t\t\t\thtmlFor=\"email\">\n\t\t\t\t\t\t\t\t\t\tE-mail *\n\t\t\t\t\t\t\t\t\t</label>\n\t\t\t\t\t\t\t\t\t<input\n\t\t\t\t\t\t\t\t\t\tclassName=\"box\"\n\t\t\t\t\t\t\t\t\t\ttype=\"text\"\n\t\t\t\t\t\t\t\t\t\tid=\"email\"\n\t\t\t\t\t\t\t\t\t\tvalue={email}\n\t\t\t\t\t\t\t\t\t\tonChange={handleEmailChange}\n\t\t\t\t\t\t\t\t\t/>\n\t\t\t\t\t\t\t\t\t{errorMessage && (\n\t\t\t\t\t\t\t\t\t\t<span className=\"error-message\">\n\t\t\t\t\t\t\t\t\t\t\t{errorMessage}\n\t\t\t\t\t\t\t\t\t\t</span>\n\t\t\t\t\t\t\t\t\t)}\n\t\t\t\t\t\t\t\t</div>\n\t\t\t\t\t\t\t\t<div className=\"box_input\">\n\t\t\t\t\t\t\t\t\t<label\n\t\t\t\t\t\t\t\t\t\tclassName=\"contact-page-label\"\n\t\t\t\t\t\t\t\t\t\thtmlFor=\"subject\">\n\t\t\t\t\t\t\t\t\t\tSubject *\n\t\t\t\t\t\t\t\t\t</label>\n\t\t\t\t\t\t\t\t\t<input\n\t\t\t\t\t\t\t\t\t\tclassName=\"box\"\n\t\t\t\t\t\t\t\t\t\ttype=\"text\"\n\t\t\t\t\t\t\t\t\t\tid=\"subject\"\n\t\t\t\t\t\t\t\t\t\tvalue={subject}\n\t\t\t\t\t\t\t\t\t\tonChange={handleSubjectChange}\n\t\t\t\t\t\t\t\t\t/>\n\t\t\t\t\t\t\t\t\t{errorMessage && !subject && (\n\t\t\t\t\t\t\t\t\t\t<span className=\"error-message\">\n\t\t\t\t\t\t\t\t\t\t\tRequired field.\n\t\t\t\t\t\t\t\t\t\t</span>\n\t\t\t\t\t\t\t\t\t)}\n\t\t\t\t\t\t\t\t</div>\n\t\t\t\t\t\t\t\t<div className=\"box_input\">\n\t\t\t\t\t\t\t\t\t<label\n\t\t\t\t\t\t\t\t\t\tclassName=\"contact-page-label\"\n\t\t\t\t\t\t\t\t\t\thtmlFor=\"message\">\n\t\t\t\t\t\t\t\t\t\tMessage *\n\t\t\t\t\t\t\t\t\t</label>\n\t\t\t\t\t\t\t\t\t<textarea\n\t\t\t\t\t\t\t\t\t\tclassName=\"box higher\"\n\t\t\t\t\t\t\t\t\t\ttype=\"text\"\n\t\t\t\t\t\t\t\t\t\tid=\"message\"\n\t\t\t\t\t\t\t\t\t\tvalue={message}\n\t\t\t\t\t\t\t\t\t\tonChange={handleMessageChange}\n\t\t\t\t\t\t\t\t\t/>\n\t\t\t\t\t\t\t\t\t{errorMessage && !message && (\n\t\t\t\t\t\t\t\t\t\t<span className=\"error-message\">\n\t\t\t\t\t\t\t\t\t\t\tRequired field.\n\t\t\t\t\t\t\t\t\t\t</span>\n\t\t\t\t\t\t\t\t\t)}\n\t\t\t\t\t\t\t\t</div>\n\t\t\t\t\t\t\t</div>\n\t\t\t\t\t\t\t<div className=\"cp-button\">\n\t\t\t\t\t\t\t\t<div className=\"recaptcha-container\">\n\t\t\t\t\t\t\t\t\t<ReCAPTCHA\n\t\t\t\t\t\t\t\t\t\tsitekey=\"6LeIxAcTAAAAAJcZVRqyHh71UMIEGNQ_MXjiZKhI\"\n\t\t\t\t\t\t\t\t\t\tonChange={handleRecaptchaChange}\n\t\t\t\t\t\t\t\t\t/>\n\t\t\t\t\t\t\t\t</div>\n\t\t\t\t\t\t\t\t<div className=\"cp-button-send\">\n\t\t\t\t\t\t\t\t\t<button\n\t\t\t\t\t\t\t\t\t\ttype=\"submit\"\n\t\t\t\t\t\t\t\t\t\tclassName={buttonClass}>\n\t\t\t\t\t\t\t\t\t\tSend\n\t\t\t\t\t\t\t\t\t</button>\n\t\t\t\t\t\t\t\t</div>\n\t\t\t\t\t\t\t</div>\n\t\t\t\t\t\t</form>\n\t\t\t\t\t</div>\n\t\t\t\t</div>\n\t\t\t\t<Footer />\n\t\t\t</div>\n\t\t);\n\t};\n\n\tconst renderContactPageSuccess = () => {\n\t\treturn (\n\t\t\t<div>\n\t\t\t\t<Navbar />\n\t\t\t\t<div className=\"cp-container\">\n\t\t\t\t\t<h1>Contact</h1>\n\t\t\t\t\t<p>\n\t\t\t\t\t\tE-mail:{\" \"}\n\t\t\t\t\t\t<span className=\"not-bold-400\">\n\t\t\t\t\t\t\tinfo@neurochemsoc.eu\n\t\t\t\t\t\t</span>\n\t\t\t\t\t</p>\n\t\t\t\t\t<div className=\"cp-success\">\n\t\t\t\t\t\t<p>Message sent.</p>\n\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t<span className=\"not-bold\">\n\t\t\t\t\t\t\t\tMessages are normally replied within one week.\n\t\t\t\t\t\t\t\tPlease check your spam folder and/or contact\n\t\t\t\t\t\t\t\tdirectly the ESN Treasurer (cbduarte@ci.uc.pt)\n\t\t\t\t\t\t\t\tin case you do not hear back from us in this\n\t\t\t\t\t\t\t\ttimeframe.\n\t\t\t\t\t\t\t</span>\n\t\t\t\t\t\t</p>\n\t\t\t\t\t</div>\n\t\t\t\t</div>\n\t\t\t\t<Footer />\n\t\t\t</div>\n\t\t);\n\t};\n\n\treturn submitted ? renderContactPageSuccess() : renderContactPage();\n};\n\nexport default ContactPage;\n","import React, { useState, useEffect } from \"react\";\nimport \"./FinancialSupportPage.css\";\nimport Navbar from \"../../components/Navbar/Navbar\";\nimport Footer from \"../../components/Footer/Footer\";\nimport FinancialCard from \"../../components/FinancialCard/FinancialCard\";\nimport { useMediaQuery } from \"react-responsive\";\nimport { fetchData } from \"../../utility/utils\";\nimport filterIcon from \"../../assets/imgs/filter_icon.svg\";\nimport { IoIosArrowBack, IoIosArrowForward } from \"react-icons/io\";\nimport ticked_checkbox from \"../../assets/imgs/ticked_checkbox.svg\";\n\nconst FinancialSupportPage = () => {\n\tconst [availablePosts, setAvailablePosts] = useState([]);\n\tconst [availableCategories, setAvailableCategories] = useState([]);\n\tconst [filterType, setFilterType] = useState(0);\n\tconst [currentPage, setCurrentPage] = useState(1);\n\tconst [filterPopup, setFilterPopup] = useState(false);\n\tconst [filteredPosts, setFilteredPosts] = useState([]);\n\t// Posts fetching\n\tuseEffect(() => {\n\t\tfetchData(\"/wp-json/wp/v2/financial-archive\", (data) => {\n\t\t\t// If no filter is applied (filterType is 0), set all posts as available\n\t\t\tif (filterType === 0) {\n\t\t\t\tsetAvailablePosts(data);\n\t\t\t\tsetFilteredPosts([]);\n\t\t\t} else {\n\t\t\t\t// If filterType is set, filter the posts based on the selected category\n\n\t\t\t\tconst filtered = data.filter(\n\t\t\t\t\t(post) =>\n\t\t\t\t\t\tpost[\"financial-categorie\"] &&\n\t\t\t\t\t\tpost[\"financial-categorie\"].includes(filterType)\n\t\t\t\t\t\t).sort((a, b) => {\n\t\t\t\t\tif (!a?.acf?.date || !b?.acf?.date) return 0;\n\n\t\t\t\t\tconst dateA = convertStringToDate(a?.acf?.date);\n\t\t\t\t\tconst dateB = convertStringToDate(b?.acf?.date);\n\t\t\t\t\treturn dateB - dateA;\n\t\t\t\t});\n\t\t\t\tsetAvailablePosts([]);\n\t\t\t\tsetFilteredPosts(filtered);\n\t\t\t}\n\t\t});\n\n\t\tfetchData(\"/wp-json/wp/v2/financial-categorie\", setAvailableCategories);\n\t}, [filterType]);\n\n\tfunction convertStringToDate(dateString) {\n  const year = Number(dateString.slice(0, 4));\n  const month = Number(dateString.slice(4, 6)) - 1;\n  const day = Number(dateString.slice(6, 8));\n\n  return new Date(year, month, day);\n}\n\n\tuseEffect(() => {\n\t\tif (!availablePosts) return;\n\n\t\tconst orderedPosts = availablePosts.sort((a, b) => {\n\t\t\tif (!a?.acf?.date || !b?.acf?.date) return 0;\n\n\t\t\tconst dateA = convertStringToDate(a?.acf?.date);\n\t\t\tconst dateB = convertStringToDate(b?.acf?.date);\n\t\t\treturn dateB - dateA;\n\t\t});\n\n\t\tsetAvailablePosts(orderedPosts);\n\n\t}, [availablePosts]);\n\n\tconst isMobile = useMediaQuery({ maxWidth: 900 });\n\tconst postsPerPage = isMobile ? 6 : 12;\n\n\tconst totalPosts =\n\t\tfilterType === 0 ? availablePosts.length : filteredPosts.length;\n\tconst totalPages = Math.ceil(totalPosts / postsPerPage);\n\n\tconst handlePageChange = (pageNumber) => {\n\t\tsetCurrentPage(pageNumber);\n\t};\n\n\tconst handleFilterType = (type) => {\n\t\tif (type === filterType) {\n\t\t\tsetFilterType(0);\n\t\t} else {\n\t\t\tsetFilterType(type);\n\t\t}\n\t};\n\n\tconst handleFilterPopup = () => {\n\t\tsetFilterPopup(!filterPopup);\n\t};\n\n\tconst startIndex = (currentPage - 1) * postsPerPage;\n\tconst endIndex = startIndex + postsPerPage;\n\tconst currentPosts =\n\t\tfilterType === 0\n\t\t\t? availablePosts.slice(startIndex, endIndex)\n\t\t\t: filteredPosts.slice(startIndex, endIndex);\n\n\tlet displayEllipsis = false;\n\n\treturn (\n\t\t<div>\n\t\t\t<header>\n\t\t\t\t<Navbar  page =\"Financial Archive\" />\n\t\t\t</header>\n\n\t\t\t<main>\n\t\t\t\t<section id=\"financialsupport\">\n\t\t\t\t\t<div className=\"financialsupport-container\">\n\t\t\t\t\t\t<div className=\"financialsupport-top\">\n\t\t\t\t\t\t\t<div className=\"financialsupport-header\">\n\t\t\t\t\t\t\t\t<h1>Financial Archive</h1>\n\t\t\t\t\t\t\t</div>\n\t\t\t\t\t\t\t<div className=\"financialsupport-filter\">\n\t\t\t\t\t\t\t\t{!isMobile ? (\n\t\t\t\t\t\t\t\t\t<li>\n\t\t\t\t\t\t\t\t\t\t<a\n\t\t\t\t\t\t\t\t\t\t\tclassName={`financial-filter ${\n\t\t\t\t\t\t\t\t\t\t\t\t0 ===\n\t\t\t\t\t\t\t\t\t\t\t\tfilterType\n\t\t\t\t\t\t\t\t\t\t\t\t\t? \"selected-financial-filter\"\n\t\t\t\t\t\t\t\t\t\t\t\t\t: \"\"\n\t\t\t\t\t\t\t\t\t\t\t}`}\n\t\t\t\t\t\t\t\t\t\t\tonClick={() => setFilterType(0)}>\n\t\t\t\t\t\t\t\t\t\t\tSee all\n\t\t\t\t\t\t\t\t\t\t</a>\n\t\t\t\t\t\t\t\t\t\t{availableCategories\n\t\t\t\t\t\t\t\t\t\t\t?.filter(\n\t\t\t\t\t\t\t\t\t\t\t\t(category) =>\n\t\t\t\t\t\t\t\t\t\t\t\t\tcategory?.name !==\n\t\t\t\t\t\t\t\t\t\t\t\t\t\"Uncategorized\"\n\t\t\t\t\t\t\t\t\t\t\t)\n\t\t\t\t\t\t\t\t\t\t\t.map((category, index) => (\n\t\t\t\t\t\t\t\t\t\t\t\t<a\n\t\t\t\t\t\t\t\t\t\t\t\t\tclassName={`financial-filter ${\n\t\t\t\t\t\t\t\t\t\t\t\t\t\tcategory?.id ===\n\t\t\t\t\t\t\t\t\t\t\t\t\t\tfilterType\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t? \"selected-financial-filter\"\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t: \"\"\n\t\t\t\t\t\t\t\t\t\t\t\t\t}`}\n\t\t\t\t\t\t\t\t\t\t\t\t\tonClick={() =>\n\t\t\t\t\t\t\t\t\t\t\t\t\t\thandleFilterType(\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tcategory?.id\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t)\n\t\t\t\t\t\t\t\t\t\t\t\t\t}\n\t\t\t\t\t\t\t\t\t\t\t\t\tkey={index} >\n\t\t\t\t\t\t\t\t\t\t\t\t\t{category?.name}\n\t\t\t\t\t\t\t\t\t\t\t\t</a>\n\t\t\t\t\t\t\t\t\t\t\t))}\n\t\t\t\t\t\t\t\t\t</li>\n\t\t\t\t\t\t\t\t) : (\n\t\t\t\t\t\t\t\t\t<div className=\"financialsupport-filter-container\">\n\t\t\t\t\t\t\t\t\t\t<div\n\t\t\t\t\t\t\t\t\t\t\tclassName=\"financialsupport-filter-mobile\"\n\t\t\t\t\t\t\t\t\t\t\tonClick={handleFilterPopup}>\n\t\t\t\t\t\t\t\t\t\t\t<img\n\t\t\t\t\t\t\t\t\t\t\t\tsrc={filterIcon}\n\t\t\t\t\t\t\t\t\t\t\t\talt=\"Filter icon\"\n\t\t\t\t\t\t\t\t\t\t\t/>\n\t\t\t\t\t\t\t\t\t\t\t<p>Filter</p>\n\t\t\t\t\t\t\t\t\t\t</div>\n\t\t\t\t\t\t\t\t\t\t{filterPopup && (\n\t\t\t\t\t\t\t\t\t\t\t<div\n\t\t\t\t\t\t\t\t\t\t\t\tclassName=\"popup\"\n\t\t\t\t\t\t\t\t\t\t\t\tonMouseLeave={() =>\n\t\t\t\t\t\t\t\t\t\t\t\t\tsetFilterPopup(false)\n\t\t\t\t\t\t\t\t\t\t\t\t}>\n\t\t\t\t\t\t\t\t\t\t\t\t{availableCategories\n\t\t\t\t\t\t\t\t\t\t\t\t\t?.filter(\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t(category) =>\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tcategory?.name !==\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\"Uncategorized\"\n\t\t\t\t\t\t\t\t\t\t\t\t\t)\n\t\t\t\t\t\t\t\t\t\t\t\t\t.map((category, index) => (\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t<div key={index}>\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t{/* Check if the category is the selected one */}\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t{category?.id ===\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tfilterType ? (\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t// Render the SVG checkmark when category is selected\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t<img\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tonClick={() =>\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\thandleFilterType(\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tcategory?.id\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t)\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t}\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tsrc={\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tticked_checkbox\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t}\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tclassName=\"ticked-circle\"\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\talt=\"Ticked checkbox\"\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t/>\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t) : (\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t// Render an empty circle when the category is not selected\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t<span className=\"empty-circle\"></span>\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t)}\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t<a\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tclassName={`underline ${\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tcategory?.id ===\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tfilterType\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t? \"selected-category\"\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t: \"\"\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t}`}\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tonClick={() =>\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\thandleFilterType(\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tcategory?.id\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t)\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t}>\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t{category?.name}\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t</a>\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t</div>\n\t\t\t\t\t\t\t\t\t\t\t\t\t))}\n\t\t\t\t\t\t\t\t\t\t\t</div>\n\t\t\t\t\t\t\t\t\t\t)}\n\t\t\t\t\t\t\t\t\t</div>\n\t\t\t\t\t\t\t\t)}\n\t\t\t\t\t\t\t</div>\n\t\t\t\t\t\t</div>\n\t\t\t\t\t\t<div className=\"financialsupport-grid\">\n\t\t\t\t\t\t\t{filterType === 0\n\t\t\t\t\t\t\t\t? currentPosts.map((post, index) => (\n\t\t\t\t\t\t\t\t\t\t<FinancialCard data={post} key={index} />\n\t\t\t\t\t\t\t\t  ))\n\t\t\t\t\t\t\t\t: currentPosts\n\t\t\t\t\t\t\t\t\t\t.filter((post) =>\n\t\t\t\t\t\t\t\t\t\t\tpost[\"financial-categorie\"]?.includes(\n\t\t\t\t\t\t\t\t\t\t\t\tfilterType\n\t\t\t\t\t\t\t\t\t\t\t)\n\t\t\t\t\t\t\t\t\t\t)\n\t\t\t\t\t\t\t\t\t\t.map((post, index) => (\n\t\t\t\t\t\t\t\t\t\t\t<FinancialCard data={post} key={index} />\n\t\t\t\t\t\t\t\t\t\t))}\n\t\t\t\t\t\t</div>\n\n\t\t\t\t\t\t<div className=\"financialsupport-pagination\">\n\t\t\t\t\t\t\t<div></div>\n\t\t\t\t\t\t\t<div className=\"financialsupport-pagination-page-changer\">\n\t\t\t\t\t\t\t\t<IoIosArrowBack\n\t\t\t\t\t\t\t\t\tonClick={() =>\n\t\t\t\t\t\t\t\t\t\thandlePageChange(currentPage - 1)\n\t\t\t\t\t\t\t\t\t}\n\t\t\t\t\t\t\t\t\tclassName={\n\t\t\t\t\t\t\t\t\t\tcurrentPage === 1 ? \"disabled\" : \"\"\n\t\t\t\t\t\t\t\t\t}\n\t\t\t\t\t\t\t\t/>\n\t\t\t\t\t\t\t\t<div className=\"financialsupport-pagination-numbers\">\n\t\t\t\t\t\t\t\t\t{Array.from({ length: totalPages }).map(\n\t\t\t\t\t\t\t\t\t\t(_, index) => {\n\t\t\t\t\t\t\t\t\t\t\tindex = index + 1;\n\n\t\t\t\t\t\t\t\t\t\t\t// Case for displaying buttons 1 to 5 when totalPages is 5 or less\n\t\t\t\t\t\t\t\t\t\t\tif (totalPages <= 3) {\n\t\t\t\t\t\t\t\t\t\t\t\treturn (\n\t\t\t\t\t\t\t\t\t\t\t\t\t<button\n\t\t\t\t\t\t\t\t\t\t\t\t\t\tkey={index}\n\t\t\t\t\t\t\t\t\t\t\t\t\t\tonClick={() =>\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\thandlePageChange(\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tindex\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t)\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t}\n\t\t\t\t\t\t\t\t\t\t\t\t\t\tclassName={\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tcurrentPage ===\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tindex\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t? \"active\"\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t: \"\"\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t}>\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t{index}\n\t\t\t\t\t\t\t\t\t\t\t\t\t</button>\n\t\t\t\t\t\t\t\t\t\t\t\t);\n\t\t\t\t\t\t\t\t\t\t\t}\n\n\t\t\t\t\t\t\t\t\t\t\t// Case for displaying buttons with ellipsis when totalPages is greater than 5\n\t\t\t\t\t\t\t\t\t\t\telse {\n\t\t\t\t\t\t\t\t\t\t\t\t// Flag to track if ellipsis is displayed\n\n\t\t\t\t\t\t\t\t\t\t\t\t// Displaying buttons 1, 2, ..., 5 and the last page\n\t\t\t\t\t\t\t\t\t\t\t\tif (\n\t\t\t\t\t\t\t\t\t\t\t\t\tindex === currentPage + 1 ||\n\t\t\t\t\t\t\t\t\t\t\t\t\tindex === currentPage - 1 ||\n\t\t\t\t\t\t\t\t\t\t\t\t\tindex === currentPage ||\n\t\t\t\t\t\t\t\t\t\t\t\t\tindex === 1 ||\n\t\t\t\t\t\t\t\t\t\t\t\t\tindex === totalPages\n\t\t\t\t\t\t\t\t\t\t\t\t) {\n\t\t\t\t\t\t\t\t\t\t\t\t\t// If the current button is one of the above, show the page number\n\t\t\t\t\t\t\t\t\t\t\t\t\tdisplayEllipsis = false;\n\t\t\t\t\t\t\t\t\t\t\t\t\treturn (\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t<button\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tkey={index}\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tonClick={() =>\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\thandlePageChange(\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tindex\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t)\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t}\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tclassName={\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tcurrentPage ===\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tindex\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t? \"active\"\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t: \"\"\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t}>\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t{index}\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t</button>\n\t\t\t\t\t\t\t\t\t\t\t\t\t);\n\t\t\t\t\t\t\t\t\t\t\t\t} else if (\n\t\t\t\t\t\t\t\t\t\t\t\t\tindex >= currentPage + 2 ||\n\t\t\t\t\t\t\t\t\t\t\t\t\tindex <= currentPage - 2\n\t\t\t\t\t\t\t\t\t\t\t\t) {\n\t\t\t\t\t\t\t\t\t\t\t\t\t// If the current button is two positions away from the selected page, show an ellipsis\n\n\t\t\t\t\t\t\t\t\t\t\t\t\tif (\n\t\t\t\t\t\t\t\t\t\t\t\t\t\tdisplayEllipsis === true\n\t\t\t\t\t\t\t\t\t\t\t\t\t) {\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t// If the ellipsis flag is true, skip the affected indexes by returning null\n\t\t\t\t\t\t\t\t\t\t\t\t\t\treturn null;\n\t\t\t\t\t\t\t\t\t\t\t\t\t} else {\n\t\t\t\t\t\t\t\t\t\t\t\t\t\tdisplayEllipsis = true;\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t// Otherwise, render the index as a button\n\t\t\t\t\t\t\t\t\t\t\t\t\t\treturn <span>...</span>;\n\t\t\t\t\t\t\t\t\t\t\t\t\t}\n\t\t\t\t\t\t\t\t\t\t\t\t}\n\t\t\t\t\t\t\t\t\t\t\t}\n\t\t\t\t\t\t\t\t\t\t}\n\t\t\t\t\t\t\t\t\t)}\n\t\t\t\t\t\t\t\t</div>\n\t\t\t\t\t\t\t\t<IoIosArrowForward\n\t\t\t\t\t\t\t\t\tonClick={() =>\n\t\t\t\t\t\t\t\t\t\thandlePageChange(currentPage + 1)\n\t\t\t\t\t\t\t\t\t}\n\t\t\t\t\t\t\t\t\tclassName={\n\t\t\t\t\t\t\t\t\t\tcurrentPage === totalPages\n\t\t\t\t\t\t\t\t\t\t\t? \"disabled\"\n\t\t\t\t\t\t\t\t\t\t\t: \"\"\n\t\t\t\t\t\t\t\t\t}\n\t\t\t\t\t\t\t\t/>\n\t\t\t\t\t\t\t</div>\n\t\t\t\t\t\t\t{!isMobile && (\n\t\t\t\t\t\t\t\t<div className=\"financialsupport-pagination-page-counter\">\n\t\t\t\t\t\t\t\t\t<p>Results:</p>\n\t\t\t\t\t\t\t\t\t{Array.from({ length: totalPages }).map(\n\t\t\t\t\t\t\t\t\t\t(_, index) => {\n\t\t\t\t\t\t\t\t\t\t\tconst pageStart =\n\t\t\t\t\t\t\t\t\t\t\t\tindex * postsPerPage + 1;\n\t\t\t\t\t\t\t\t\t\t\tconst pageEnd = Math.min(\n\t\t\t\t\t\t\t\t\t\t\t\t(index + 1) * postsPerPage,\n\t\t\t\t\t\t\t\t\t\t\t\ttotalPosts\n\t\t\t\t\t\t\t\t\t\t\t);\n\t\t\t\t\t\t\t\t\t\t\tconst currentPageStart =\n\t\t\t\t\t\t\t\t\t\t\t\t(currentPage - 1) *\n\t\t\t\t\t\t\t\t\t\t\t\t\tpostsPerPage +\n\t\t\t\t\t\t\t\t\t\t\t\t1;\n\t\t\t\t\t\t\t\t\t\t\tconst currentPageEnd = Math.min(\n\t\t\t\t\t\t\t\t\t\t\t\tcurrentPage * postsPerPage,\n\t\t\t\t\t\t\t\t\t\t\t\ttotalPosts\n\t\t\t\t\t\t\t\t\t\t\t);\n\n\t\t\t\t\t\t\t\t\t\t\tif (index === currentPage - 1) {\n\t\t\t\t\t\t\t\t\t\t\t\treturn (\n\t\t\t\t\t\t\t\t\t\t\t\t\t<p key={index}>\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t{currentPageStart} -{\" \"}\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t{currentPageEnd} of{\" \"}\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t{totalPosts}\n\t\t\t\t\t\t\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t\t\t\t\t\t);\n\t\t\t\t\t\t\t\t\t\t\t}\n\t\t\t\t\t\t\t\t\t\t\treturn null;\n\t\t\t\t\t\t\t\t\t\t}\n\t\t\t\t\t\t\t\t\t)}\n\t\t\t\t\t\t\t\t</div>\n\t\t\t\t\t\t\t)}\n\t\t\t\t\t\t</div>\n\t\t\t\t\t</div>\n\t\t\t\t\t{/* Pagination */}\n\t\t\t\t</section>\n\t\t\t</main>\n\t\t\t<footer>\n\t\t\t\t<Footer />\n\t\t\t</footer>\n\t\t</div>\n\t);\n};\n\nexport default FinancialSupportPage;\n","import React, { useEffect, useState } from \"react\";\r\nimport \"./HomePage.css\";\r\nimport NavbarWhite from \"../../components/NavbarWhite/NavbarWhite\";\r\nimport Footer from \"../../components/Footer/Footer\";\r\nimport NewsCard from \"../../components/NewsCard/NewsCard\";\r\nimport { useMediaQuery } from \"react-responsive\";\r\nimport linkisn from \"../../assets/imgs/link-isn.svg\";\r\nimport linkaps from \"../../assets/imgs/link-aps.svg\";\r\nimport linkasn from \"../../assets/imgs/link-asn.svg\";\r\nimport linkjn from \"../../assets/imgs/link-jn.svg\";\r\nimport linkfens from \"../../assets/imgs/link-fens.svg\";\r\nimport linksn from \"../../assets/imgs/link-sn.svg\";\r\nimport ibro from \"../../assets/imgs/ibro.png\";\r\nimport arrowDW from \"../../assets/imgs/arrowDW.svg\";\r\nimport arrowRB from \"../../assets/imgs/arrowRB.svg\";\r\nimport Advantage_2_1 from \"../../assets/imgs/adv_2_1.png\";\r\nimport Advantage_2_2 from \"../../assets/imgs/adv_2_2.png\";\r\nimport Advantage_3_1 from \"../../assets/imgs/adv_3_1.png\";\r\nimport Advantage_3_2 from \"../../assets/imgs/adv_3_2.png\";\r\nimport Advantage_3_3 from \"../../assets/imgs/adv_3_3.png\";\r\nimport Advantage_3_4 from \"../../assets/imgs/adv_3_4.png\";\r\nimport Advantage_3_5 from \"../../assets/imgs/adv_3_5.png\";\r\nimport Advantage_3_6 from \"../../assets/imgs/adv_3_6.png\";\r\nimport Advantage_3_7 from \"../../assets/imgs/adv_3_7.png\";\r\nimport Advantage_3_8 from \"../../assets/imgs/adv_3_8.png\";\r\nimport Advantage_3_9 from \"../../assets/imgs/adv_3_9.png\";\r\nimport Advantage_3_10 from \"../../assets/imgs/adv_3_10.png\";\r\nimport { fetchData } from \"../../utility/utils\";\r\nimport { Carousel } from \"react-responsive-carousel\";\r\nimport \"react-responsive-carousel/lib/styles/carousel.min.css\";\r\nimport FinancialCard from \"../../components/FinancialCard/FinancialCard\";\r\nimport arrowUP from \"../../assets/imgs/arrowUP.svg\";\r\nimport full from \"../../assets/imgs/full.svg\";\r\nimport empty from \"../../assets/imgs/empty.svg\";\r\n\r\nconst HomePage = () => {\r\n\tconst [availablePosts, setAvailablePosts] = useState([]);\r\n\tconst [availableMedia, setAvailableMedia] = useState([]);\r\n\tconst [financialcards, setFinancialCards] = useState([]);\r\n\tconst [highlights, setHighlights] = useState([]);\r\n\r\n\tconst [lastIndex, setLastIndex] = React.useState(0);\r\n\tconst [currentIndex, setCurrentIndex] = useState(0);\r\n\r\n\tconst [lastIndex2, setLastIndex2] = React.useState(0);\r\n\tconst [currentIndex2, setCurrentIndex2] = useState(0);\r\n\r\n\tconst [first, setFirst] = React.useState(false);\r\n\tconst [second, setSecond] = React.useState(false);\r\n\tconst [third, setThird] = React.useState(false);\r\n\r\n\tconst [first2, setFirst2] = React.useState(false);\r\n\tconst [second2, setSecond2] = React.useState(false);\r\n\tconst [third2, setThird2] = React.useState(false);\r\n\r\n\tuseEffect(() => {\r\n\t\tsetLastIndex(currentIndex);\r\n\t}, [currentIndex]);\r\n\r\n\tuseEffect(() => {\r\n\t\tsetLastIndex2(currentIndex2);\r\n\t}, [currentIndex2]);\r\n\r\n\tconst onChange = (index, item) => {\r\n\t\t/* const slide = document.querySelector('.carousel .slide');\r\n\t\tconst previous = document.querySelector('.carousel .previous'); */\r\n\t\tsetCurrentIndex(index);\r\n\r\n\t\tif (index === 0 || index === 12) {\r\n\t\t\tsetFirst(false);\r\n\t\t\tsetSecond(false);\r\n\t\t\tsetThird(false);\r\n\t\t} else {\r\n\t\t\tsetFirst(index >= 1 && index < 5);\r\n\t\t\tsetSecond(index >= 5 && index < 8);\r\n\t\t\tsetThird(index >= 8 && index < 12);\r\n\t\t}\r\n\r\n\t\t/* if(lastIndex < index) {\r\n\t\t\t\tconsole.log('right');\r\n\t\t\t\tslide.style.alignContent = 'flex-start';\r\n\t\t\t\tprevious.style.alignContent = 'flex-end';\r\n\t\t}\r\n\t\telse {\r\n\t\t\t\tconsole.log('left');\r\n\t\t\t\tslide.style.alignContent = 'flex-end';\r\n\t\t\t\tprevious.style.alignContent = 'flex-start';\r\n\t\t} */\r\n\t};\r\n\r\n\tconst onChange2 = (index, item) => {\r\n\t\t/* const slide = document.querySelector('.carousel .slide');\r\n\t\tconst previous = document.querySelector('.carousel .previous'); */\r\n\t\tsetCurrentIndex2(index);\r\n\r\n\t\tif (index === 0 || index === 12) {\r\n\t\t\tsetFirst2(false);\r\n\t\t\tsetSecond2(false);\r\n\t\t\tsetThird2(false);\r\n\t\t} else {\r\n\t\t\tsetFirst2(index >= 1 && index < 5);\r\n\t\t\tsetSecond2(index >= 5 && index < 8);\r\n\t\t\tsetThird2(index >= 8 && index < 12);\r\n\t\t}\r\n\r\n\t\t/* if(lastIndex < index) {\r\n\t\t\t\tconsole.log('right');\r\n\t\t\t\tslide.style.alignContent = 'flex-start';\r\n\t\t\t\tprevious.style.alignContent = 'flex-end';\r\n\t\t}\r\n\t\telse {\r\n\t\t\t\tconsole.log('left');\r\n\t\t\t\tslide.style.alignContent = 'flex-end';\r\n\t\t\t\tprevious.style.alignContent = 'flex-start';\r\n\t\t} */\r\n\t};\r\n\r\n\t// Posts fetching\r\n\tuseEffect(() => {\r\n\t\tfetchData(\"/wp-json/wp/v2/news-archive\", setAvailablePosts);\r\n\t\tfetchData(\"/wp-json/wp/v2/media\", setAvailableMedia);\r\n\t\tfetchData(\"/wp-json/wp/v2/highlight\", setHighlights);\r\n\t\tfetchData(\"/wp-json/wp/v2/financial-archive\", setFinancialCards);\r\n\t}, []);\r\n\r\n\tfunction convertStringToDate(dateString) {\r\n\t\tconst year = Number(dateString.slice(0, 4));\r\n\t\tconst month = Number(dateString.slice(4, 6)) - 1;\r\n\t\tconst day = Number(dateString.slice(6, 8));\r\n\r\n\t\treturn new Date(year, month, day);\r\n\t}\r\n\r\n\tuseEffect(() => {\r\n\t\tif (!availablePosts) return;\r\n\r\n\t\tconst orderedPosts = availablePosts.sort((a, b) => {\r\n\t\t\tif (!a?.acf?.date || !b?.acf?.date) return 0;\r\n\r\n\t\t\tconst dateA = convertStringToDate(a?.acf?.date);\r\n\t\t\tconst dateB = convertStringToDate(b?.acf?.date);\r\n\t\t\treturn dateB - dateA;\r\n\t\t});\r\n\r\n\t\tsetAvailablePosts(orderedPosts);\r\n\t}, [availablePosts]);\r\n\r\n\tuseEffect(() => {\r\n\t\tif (!highlights) return;\r\n\r\n\t\tconst orderedHighlights = highlights.sort((a, b) => {\r\n\t\t\tif (!a?.acf?.date || !b?.acf?.date) return 0;\r\n\r\n\t\t\tconst dateA = convertStringToDate(a?.acf?.date);\r\n\t\t\tconst dateB = convertStringToDate(b?.acf?.date);\r\n\t\t\treturn dateB - dateA;\r\n\t\t});\r\n\r\n\t\tsetHighlights(orderedHighlights);\r\n\t}, [highlights]);\r\n\r\n\tconst scrollToSection = (sectionId) => {\r\n\t\tconst section = document.getElementById(sectionId);\r\n\t\tif (section) {\r\n\t\t\tsection.scrollIntoView({ behavior: \"smooth\" });\r\n\t\t}\r\n\t};\r\n\r\n\tconst isMobile = useMediaQuery({ maxWidth: 900 });\r\n\r\n\tconst advantagesData = [\r\n\t\t{\r\n\t\t\timage: Advantage_3_1,\r\n\t\t\ttext: \"ESN Council members at the ISN-APSN 2015 meeting (Cairns, Australia). From left to right: Prof Alessandro Prinetti (Italy, ESN President), Dr Natalia Nalivaeva (UK/Russia, ESN Secretary) and ESN Council members Prof Illana Gozes (Israel), Prof Anthony J Turner (UK) and Jean-Pierre Mothet (France).\",\r\n\t\t},\r\n\t\t{\r\n\t\t\timage: Advantage_3_2,\r\n\t\t\ttext: \"ESN members attending FENS Forum 2016 (Copenhagen, Denmark). From left to right: Prof Alessandro Prinetti (Italy, ESN President), ESN travel grant awardees Sara Grassi (Italy) and Joanna Ślusarczyk (Poland), and Prof Helle Waagepetersen (Denmark, ESN Council member).\",\r\n\t\t},\r\n\t\t{\r\n\t\t\timage: Advantage_3_3,\r\n\t\t\ttext: \"ESN Officers visit to Prof Ralf Dringen's lab in Bremen (Germany) in March 2016. From left to right: Dr Natalia Nalivaeva (UK/Russia, ESN Secretary), Prof Anthony J Turner (UK, ESN Council member and Historian), Prof Ago Rinken (Estonia, ESN Treasurer), Prof Alessandro Prinetti (Italy, ESN President), and Prof Ralf Dringen (Germany, former ESN President, ISN Secretary).\",\r\n\t\t},\r\n\t\t{\r\n\t\t\timage: Advantage_3_4,\r\n\t\t\ttext: \"Awarding ESN Bachelard award 2017 to Prof Ferdinand Hucho (Germany) at the ISN-ESN meeting 2017 (Paris, France). From left to right: Prof Ago Rinken (Estonia, ESN Treasurer), Prof Ferdinand Hucho, Dr Natalia Nalivaeva (UK/Russia, ESN Secretary) and Prof Alessandro Prinetti (Italy, ESN President).\",\r\n\t\t},\r\n\t\t{\r\n\t\t\timage: Advantage_3_5,\r\n\t\t\ttext: \"ESN members at the ISN-ASN 2019 meeting (Montreal, Canada). From left to right: Giulia Lunghi (Italy, ESN member), Dr Natalia Nalivaeva (UK/Russia, ESN Secretary), Livia Cabitta (Italy, ESN member), Prof Anthony J Turner (UK, ESN Council member and Historian) and Maria Fazzari (Italy, ESN member).\",\r\n\t\t},\r\n\t\t{\r\n\t\t\timage: Advantage_3_6,\r\n\t\t\ttext: \"Awarding ESN Bachelard award 2019 to Prof Pam Fredman (Sweden) at the ESN meeting 2019 (Milan, Italy). From left to right: Prof Pam Fredman and Dr Natalia Nalivaeva (UK/Russia, ESN President).\",\r\n\t\t},\r\n\t\t{\r\n\t\t\timage: Advantage_3_7,\r\n\t\t\ttext: \"ESN Council members at the ESN meeting 2019 in Milan (Italy). From left to right 1st row: Prof Carlos Duarte (Portugal), Dr Natalia Nalivaeva (UK/Russia, ESN President), Prof Illana Gozes (Israel, ESN Secretary), Dr Eva-Maria Blumrich (Germany, Chair of ESN Young Scientist Steering Committee), Prof Fabrizio Michetti (Italy), Prof Anthony J Turner, Historian); 2nd row: Prof Ago Rinken (Estonia, ESN Past President), Prof Nico Mitro (Italy), Prof Johannes Hirlinger (Germany, ESN Treasurer), Prof Jean-Pierre Mothet (France).\",\r\n\t\t},\r\n\t\t{\r\n\t\t\timage: Advantage_3_8,\r\n\t\t\ttext: \"ESN Mini-conference at the FENS Forum 2022 (Paris, France). From left to right: Prof Carlos Duarte (Portugal, ESN Treasurer), Salma Ellouze (France, ESN member), Géraldine Dilhet (France, ESN member), Laloe Monteiro (France, ESN member), Dr Julien Courchet (France, ESN member), Prof Illana Gozes (Israel, ESN Secretary), Rebecca Piccarducci (Italy, ESN member), Adva Hadar (Israel, member of the ESN Young Scientist Steering Committee), Prof Lawrance Cheung (Hong-Kong).\",\r\n\t\t},\r\n\t\t{\r\n\t\t\timage: Advantage_3_9,\r\n\t\t\ttext: \"ESN Council members at the ISN-ESN 2023 meeting in Porto (Portugal). From left to right 1st row: Jessica Kwok (UK), Dimitra Mangoura (Greece, ESN Secretary), Sara Grassi (Italy, former Chair of ESN Young Scientist Steering Committee); 2nd row: Prof Antonio Rodriguez-Moreno (Spain), Prof Clévio Nóbrega (Portugal), Prof Anthony J Turner (UK, Historian), Prof. Marcus Rattray (UK), Dr. Natalia Nalivaeva (UK/Russia, ESN past-president), Prof. Carlos Duarte (Portugal, ESN Treasurer), Prof Illana Gozes (Israel, ESN President), Adva Hadar (Israel, Chair of ESN Young Scientist Steering Committee), Prof Johannes Hirrlinger (Germany, ESN past-President), Prof Pavle Andjus (Serbia), Prof Angelo Poletti (Italy).\",\r\n\t\t},\r\n\t\t{\r\n\t\t\timage: Advantage_3_10,\r\n\t\t\ttext: \"ESN Bachelard award 2023 to Prof Juan Bolaños (Spain) at the ISN-ESN meeting 2023 (Porto, Portugal)\",\r\n\t\t},\r\n\t];\r\n\r\n\treturn (\r\n\t\t<div>\r\n\t\t\t<section id=\"hp-top\">\r\n\t\t\t\t<div className=\"hp-title-background\">\r\n\t\t\t\t\t<NavbarWhite />\r\n\t\t\t\t\t<div className=\"hp-title-background-int\">\r\n\t\t\t\t\t\t<div className=\"hp-title-box\">\r\n\t\t\t\t\t\t\t<div className=\"hp-title-text\">\r\n\t\t\t\t\t\t\t\t<h1>European Society for Neurochemistry </h1>\r\n\t\t\t\t\t\t\t\t<p> is a scientific society with the aims:</p>\r\n\t\t\t\t\t\t\t\t<ul>\r\n\t\t\t\t\t\t\t\t\t<li className=\"advantages-topic-list\">\r\n\t\t\t\t\t\t\t\t\t\tto advance Neurochemistry for the public\r\n\t\t\t\t\t\t\t\t\t\tbenefit\r\n\t\t\t\t\t\t\t\t\t</li>\r\n\t\t\t\t\t\t\t\t\t<li className=\"advantages-topic-list\">\r\n\t\t\t\t\t\t\t\t\t\tto promote the development of\r\n\t\t\t\t\t\t\t\t\t\tNeurochemistry in Europe\r\n\t\t\t\t\t\t\t\t\t</li>\r\n\t\t\t\t\t\t\t\t\t<li className=\"advantages-topic-list\">\r\n\t\t\t\t\t\t\t\t\t\tto promote young neurochemists\r\n\t\t\t\t\t\t\t\t\t</li>\r\n\t\t\t\t\t\t\t\t</ul>\r\n\t\t\t\t\t\t\t</div>\r\n\t\t\t\t\t\t\t<div className=\"fast-redirection\">\r\n\t\t\t\t\t\t\t\t<div className=\"inner-fd\">\r\n\t\t\t\t\t\t\t\t\t<li\r\n\t\t\t\t\t\t\t\t\t\tclassName=\"with-vertical-line\"\r\n\t\t\t\t\t\t\t\t\t\tonClick={() =>\r\n\t\t\t\t\t\t\t\t\t\t\tscrollToSection(\"hp-newsletter\")\r\n\t\t\t\t\t\t\t\t\t\t}>\r\n\t\t\t\t\t\t\t\t\t\t<span>Latest News</span>\r\n\t\t\t\t\t\t\t\t\t</li>\r\n\t\t\t\t\t\t\t\t\t<li\r\n\t\t\t\t\t\t\t\t\t\tclassName=\"with-vertical-line\"\r\n\t\t\t\t\t\t\t\t\t\tonClick={() =>\r\n\t\t\t\t\t\t\t\t\t\t\tscrollToSection(\"hp-financialcard\")\r\n\t\t\t\t\t\t\t\t\t\t}>\r\n\t\t\t\t\t\t\t\t\t\t<span>ESN Financial Support</span>\r\n\t\t\t\t\t\t\t\t\t</li>\r\n\t\t\t\t\t\t\t\t\t<li\r\n\t\t\t\t\t\t\t\t\t\tclassName=\"with-vertical-line\"\r\n\t\t\t\t\t\t\t\t\t\tonClick={() =>\r\n\t\t\t\t\t\t\t\t\t\t\tscrollToSection(\"hp-advantages\")\r\n\t\t\t\t\t\t\t\t\t\t}>\r\n\t\t\t\t\t\t\t\t\t\t<span>Advantages of being an ESN member</span>\r\n\t\t\t\t\t\t\t\t\t</li>\r\n\t\t\t\t\t\t\t\t\t<li\r\n\t\t\t\t\t\t\t\t\t\tclassName=\"with-vertical-line\"\r\n\t\t\t\t\t\t\t\t\t\tonClick={() =>\r\n\t\t\t\t\t\t\t\t\t\t\tscrollToSection(\"hp-links\")\r\n\t\t\t\t\t\t\t\t\t\t}>\r\n\t\t\t\t\t\t\t\t\t\t<span>Useful Links</span>\r\n\t\t\t\t\t\t\t\t\t</li>\r\n\t\t\t\t\t\t\t\t</div>\r\n\t\t\t\t\t\t\t</div>\r\n\t\t\t\t\t\t\t<div className=\"hp-button\">\r\n\t\t\t\t\t\t\t\t<a href=\"#hp-newsletter\">\r\n\t\t\t\t\t\t\t\t\t<img src={arrowDW} alt=\"down\" />\r\n\t\t\t\t\t\t\t\t</a>\r\n\t\t\t\t\t\t\t</div>\r\n\t\t\t\t\t\t</div>\r\n\t\t\t\t\t</div>\r\n\t\t\t\t</div>\r\n\t\t\t</section>\r\n\r\n\t\t\t<section id=\"hp-newsletter\">\r\n\t\t\t\t<div className=\"news-container\">\r\n\t\t\t\t\t{highlights?.length >= 2 ? (\r\n\t\t\t\t\t\t<div className=\"news-grid-high\">\r\n\t\t\t\t\t\t\t{highlights?.slice(0, 2).map((post, index) => (\r\n\t\t\t\t\t\t\t\t<NewsCard\r\n\t\t\t\t\t\t\t\t\tdata={post}\r\n\t\t\t\t\t\t\t\t\tslug={\"high2\"}\r\n\t\t\t\t\t\t\t\t\tkey={index}\r\n\t\t\t\t\t\t\t\t/>\r\n\t\t\t\t\t\t\t))}\r\n\t\t\t\t\t\t</div>\r\n\t\t\t\t\t) : (\r\n\t\t\t\t\t\t<div className=\"news-grid-high2\">\r\n\t\t\t\t\t\t\t{highlights?.slice(0, 1).map((post, index) => (\r\n\t\t\t\t\t\t\t\t<NewsCard\r\n\t\t\t\t\t\t\t\t\tdata={post}\r\n\t\t\t\t\t\t\t\t\tslug={\"high1\"}\r\n\t\t\t\t\t\t\t\t\tkey={index}\r\n\t\t\t\t\t\t\t\t/>\r\n\t\t\t\t\t\t\t))}\r\n\t\t\t\t\t\t</div>\r\n\t\t\t\t\t)}\r\n\r\n\t\t\t\t\t<div className=\"news-top\">\r\n\t\t\t\t\t\t<h1>Latest News</h1>\r\n\t\t\t\t\t\t<a href=\"/news-archive\" className=\"news-link\">\r\n\t\t\t\t\t\t\t<a>See all</a>\r\n\t\t\t\t\t\t\t<img src={arrowRB} alt=\"arrow\" />\r\n\t\t\t\t\t\t</a>\r\n\t\t\t\t\t</div>\r\n\r\n\t\t\t\t\t<div className=\"news-grid\">\r\n\t\t\t\t\t\t{availablePosts?.slice(0, 6).map((post, index) => (\r\n\t\t\t\t\t\t\t<NewsCard\r\n\t\t\t\t\t\t\t\tdata={post}\r\n\t\t\t\t\t\t\t\tslug={\"news-archive\"}\r\n\t\t\t\t\t\t\t\tkey={index}\r\n\t\t\t\t\t\t\t/>\r\n\t\t\t\t\t\t))}\r\n\t\t\t\t\t</div>\r\n\t\t\t\t</div>\r\n\t\t\t</section>\r\n\r\n\t\t\t<section id=\"hp-financialcard\">\r\n\t\t\t\t<div className=\"init-container\">\r\n\t\t\t\t\t<div className=\"init-top\">\r\n\t\t\t\t\t\t<h1>ESN Financial Support</h1>\r\n\t\t\t\t\t\t<a href=\"/financial-archive\" className=\"news-link\">\r\n\t\t\t\t\t\t\t<a>See all</a>\r\n\t\t\t\t\t\t\t<img src={arrowRB} alt=\"arrow\" />\r\n\t\t\t\t\t\t</a>\r\n\t\t\t\t\t</div>\r\n\t\t\t\t\t<div className=\"init-grid\">\r\n\t\t\t\t\t\t{financialcards\r\n\t\t\t\t\t\t\t?.slice(0, 4)\r\n\t\t\t\t\t\t\t.map((financialcard, index) => (\r\n\t\t\t\t\t\t\t\t<FinancialCard\r\n\t\t\t\t\t\t\t\t\tdata={financialcard}\r\n\t\t\t\t\t\t\t\t\tkey={index}\r\n\t\t\t\t\t\t\t\t/>\r\n\t\t\t\t\t\t\t))}\r\n\t\t\t\t\t</div>\r\n\t\t\t\t</div>\r\n\t\t\t</section>\r\n\r\n\t\t\t<section id=\"hp-advantages\">\r\n\t\t\t\t<div className=\"advantages-container\">\r\n\t\t\t\t\t<div className=\"advantages-text\">\r\n\t\t\t\t\t\t<div className=\"advantages-top\">\r\n\t\t\t\t\t\t\t<h1>Advantages of being an ESN member</h1>\r\n\t\t\t\t\t\t</div>\r\n\r\n\t\t\t\t\t\t{!isMobile ? (\r\n\t\t\t\t\t\t\t<div className=\"advantages-grid\">\r\n\t\t\t\t\t\t\t\t<div className=\"advantages-topic\">\r\n\t\t\t\t\t\t\t\t\t<div\r\n\t\t\t\t\t\t\t\t\t\tstyle={{\r\n\t\t\t\t\t\t\t\t\t\t\ttextAlign: \"center\",\r\n\t\t\t\t\t\t\t\t\t\t\tmarginTop: \"1.5rem\",\r\n\t\t\t\t\t\t\t\t\t\t}}>\r\n\t\t\t\t\t\t\t\t\t\t<iframe\r\n\t\t\t\t\t\t\t\t\t\t\twidth=\"90%\"\r\n\t\t\t\t\t\t\t\t\t\t\theight=\"200\"\r\n\t\t\t\t\t\t\t\t\t\t\tsrc=\"https://www.youtube.com/embed/Pxpc5m69Nt4?showinfo=0&modestbranding=1\"\r\n\t\t\t\t\t\t\t\t\t\t\ttitle=\"YouTube video player\"\r\n\t\t\t\t\t\t\t\t\t\t\tframeBorder=\"0\"\r\n\t\t\t\t\t\t\t\t\t\t\tallow=\"accelerometer; autoplay; clipboard-write; encrypted-media; gyroscope; picture-in-picture\"\r\n\t\t\t\t\t\t\t\t\t\t\tallowFullScreen></iframe>\r\n\t\t\t\t\t\t\t\t\t</div>\r\n\t\t\t\t\t\t\t\t\t<ul>\r\n\t\t\t\t\t\t\t\t\t\t<li className=\"advantages-topic-list\">\r\n\t\t\t\t\t\t\t\t\t\t\t<span>\r\n\t\t\t\t\t\t\t\t\t\t\t\tYou will be a member of a highly\r\n\t\t\t\t\t\t\t\t\t\t\t\tinteractive and supportive\r\n\t\t\t\t\t\t\t\t\t\t\t\tnetwork of scientists with many\r\n\t\t\t\t\t\t\t\t\t\t\t\topportunities for interaction.\r\n\t\t\t\t\t\t\t\t\t\t\t</span>\r\n\t\t\t\t\t\t\t\t\t\t</li>\r\n\t\t\t\t\t\t\t\t\t\t<li className=\"advantages-topic-list\">\r\n\t\t\t\t\t\t\t\t\t\t\t<span>\r\n\t\t\t\t\t\t\t\t\t\t\t\tYou get free ISN and FENS\r\n\t\t\t\t\t\t\t\t\t\t\t\tmembership.\r\n\t\t\t\t\t\t\t\t\t\t\t</span>\r\n\t\t\t\t\t\t\t\t\t\t</li>\r\n\t\t\t\t\t\t\t\t\t\t<li className=\"advantages-topic-list\">\r\n\t\t\t\t\t\t\t\t\t\t\t<span>\r\n\t\t\t\t\t\t\t\t\t\t\t\tYou will have reduced\r\n\t\t\t\t\t\t\t\t\t\t\t\tregistration fees for ESN\r\n\t\t\t\t\t\t\t\t\t\t\t\tConferences, biennial ISN\r\n\t\t\t\t\t\t\t\t\t\t\t\tMeetings, biennial FENS Forums\r\n\t\t\t\t\t\t\t\t\t\t\t\tand other FENS meetings.\r\n\t\t\t\t\t\t\t\t\t\t\t</span>\r\n\t\t\t\t\t\t\t\t\t\t</li>\r\n\t\t\t\t\t\t\t\t\t</ul>\r\n\t\t\t\t\t\t\t\t</div>\r\n\t\t\t\t\t\t\t\t<div className=\"advantages-topic flex123\">\r\n\t\t\t\t\t\t\t\t\t<Carousel\r\n\t\t\t\t\t\t\t\t\t\tinfiniteLoop={true}\r\n\t\t\t\t\t\t\t\t\t\tautoPlay={false}\r\n\t\t\t\t\t\t\t\t\t\tshowThumbs={false}\r\n\t\t\t\t\t\t\t\t\t\tshowStatus={false}\r\n\t\t\t\t\t\t\t\t\t\tshowIndicators={false}\r\n\t\t\t\t\t\t\t\t\t\tstopOnHover={true}\r\n\t\t\t\t\t\t\t\t\t\ttransitionTime={500}\r\n\t\t\t\t\t\t\t\t\t\tinterval={5000}\r\n\t\t\t\t\t\t\t\t\t\tthumbWidth={90}\r\n\t\t\t\t\t\t\t\t\t\tshowArrows={true}\r\n\t\t\t\t\t\t\t\t\t\tswipeable={true}\r\n\t\t\t\t\t\t\t\t\t\tonChange={(index, item) =>\r\n\t\t\t\t\t\t\t\t\t\t\tonChange2(index, item)\r\n\t\t\t\t\t\t\t\t\t\t}>\r\n\t\t\t\t\t\t\t\t\t\t<img\r\n\t\t\t\t\t\t\t\t\t\t\tsrc={Advantage_2_1}\r\n\t\t\t\t\t\t\t\t\t\t\talt=\"link1\"\r\n\t\t\t\t\t\t\t\t\t\t\tstyle={{\r\n\t\t\t\t\t\t\t\t\t\t\t\twidth: \"67.87%\",\r\n\t\t\t\t\t\t\t\t\t\t\t\theight: \"auto\",\r\n\t\t\t\t\t\t\t\t\t\t\t\tobjectFit: \"contain\",\r\n\t\t\t\t\t\t\t\t\t\t\t}}\r\n\t\t\t\t\t\t\t\t\t\t\ttitle=\"Designed by vectorjuice / Freepik\"\r\n\t\t\t\t\t\t\t\t\t\t/>\r\n\t\t\t\t\t\t\t\t\t\t<img\r\n\t\t\t\t\t\t\t\t\t\t\tsrc={Advantage_2_2}\r\n\t\t\t\t\t\t\t\t\t\t\talt=\"link1\"\r\n\t\t\t\t\t\t\t\t\t\t\tstyle={{\r\n\t\t\t\t\t\t\t\t\t\t\t\twidth: \"67.87%\",\r\n\t\t\t\t\t\t\t\t\t\t\t\theight: \"auto\",\r\n\t\t\t\t\t\t\t\t\t\t\t\tobjectFit: \"contain\",\r\n\t\t\t\t\t\t\t\t\t\t\t}}\r\n\t\t\t\t\t\t\t\t\t\t\ttitle=\"Designed by vectorjuice / Freepik\"\r\n\t\t\t\t\t\t\t\t\t\t/>\r\n\t\t\t\t\t\t\t\t\t</Carousel>\r\n\t\t\t\t\t\t\t\t\t<div className=\"flex-dots\">\r\n\t\t\t\t\t\t\t\t\t\t<img\r\n\t\t\t\t\t\t\t\t\t\t\tclassName={\r\n\t\t\t\t\t\t\t\t\t\t\t\t\"dots \" +\r\n\t\t\t\t\t\t\t\t\t\t\t\t(currentIndex2 !== 0 &&\r\n\t\t\t\t\t\t\t\t\t\t\t\t\tcurrentIndex2 >= 5\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t? \"small\"\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t: \"\")\r\n\t\t\t\t\t\t\t\t\t\t\t}\r\n\t\t\t\t\t\t\t\t\t\t\tsrc={\r\n\t\t\t\t\t\t\t\t\t\t\t\tcurrentIndex2 === 0\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t? full\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t: empty\r\n\t\t\t\t\t\t\t\t\t\t\t}\r\n\t\t\t\t\t\t\t\t\t\t\talt=\"1\"\r\n\t\t\t\t\t\t\t\t\t\t/>\r\n\t\t\t\t\t\t\t\t\t\t<img\r\n\t\t\t\t\t\t\t\t\t\t\tclassName=\"dots\"\r\n\t\t\t\t\t\t\t\t\t\t\tsrc={first2 ? full : empty}\r\n\t\t\t\t\t\t\t\t\t\t\talt=\"2\"\r\n\t\t\t\t\t\t\t\t\t\t/>\r\n\t\t\t\t\t\t\t\t\t</div>\r\n\t\t\t\t\t\t\t\t\t<ul>\r\n\t\t\t\t\t\t\t\t\t\t<li className=\"advantages-topic-list\">\r\n\t\t\t\t\t\t\t\t\t\t\t<span>\r\n\t\t\t\t\t\t\t\t\t\t\t\tYou will have free access to\r\n\t\t\t\t\t\t\t\t\t\t\t\t<a href=\"https://onlinelibrary.wiley.com/journal/14714159\">\r\n\t\t\t\t\t\t\t\t\t\t\t\t\tJournal of Neurochemistry\r\n\t\t\t\t\t\t\t\t\t\t\t\t</a>{\" \"}\r\n\t\t\t\t\t\t\t\t\t\t\t\tand all ISN initiatives and\r\n\t\t\t\t\t\t\t\t\t\t\t\tfunding schemes.\r\n\t\t\t\t\t\t\t\t\t\t\t</span>\r\n\t\t\t\t\t\t\t\t\t\t</li>\r\n\t\t\t\t\t\t\t\t\t\t<li className=\"advantages-topic-list\">\r\n\t\t\t\t\t\t\t\t\t\t\t<span>\r\n\t\t\t\t\t\t\t\t\t\t\t\tYou will have free access to\r\n\t\t\t\t\t\t\t\t\t\t\t\t<a href=\"https://onlinelibrary.wiley.com/journal/14609568\">\r\n\t\t\t\t\t\t\t\t\t\t\t\t\tEuropean Journal of\r\n\t\t\t\t\t\t\t\t\t\t\t\t\tNeuroscience,\r\n\t\t\t\t\t\t\t\t\t\t\t\t</a>{\" \"}\r\n\t\t\t\t\t\t\t\t\t\t\t\tFENS higher education and\r\n\t\t\t\t\t\t\t\t\t\t\t\ttraining initiatives and FENS\r\n\t\t\t\t\t\t\t\t\t\t\t\ttravel stipends.\r\n\t\t\t\t\t\t\t\t\t\t\t</span>\r\n\t\t\t\t\t\t\t\t\t\t</li>\r\n\t\t\t\t\t\t\t\t\t</ul>\r\n\t\t\t\t\t\t\t\t</div>\r\n\t\t\t\t\t\t\t\t<div className=\"advantages-topic\">\r\n\t\t\t\t\t\t\t\t\t<Carousel\r\n\t\t\t\t\t\t\t\t\t\tinfiniteLoop={true}\r\n\t\t\t\t\t\t\t\t\t\tautoPlay={false}\r\n\t\t\t\t\t\t\t\t\t\tshowThumbs={false}\r\n\t\t\t\t\t\t\t\t\t\tshowStatus={false}\r\n\t\t\t\t\t\t\t\t\t\tshowIndicators={false}\r\n\t\t\t\t\t\t\t\t\t\tstopOnHover={true}\r\n\t\t\t\t\t\t\t\t\t\ttransitionTime={500}\r\n\t\t\t\t\t\t\t\t\t\tinterval={5000}\r\n\t\t\t\t\t\t\t\t\t\tshowArrows={true}\r\n\t\t\t\t\t\t\t\t\t\tonChange={(index, item) =>\r\n\t\t\t\t\t\t\t\t\t\t\tonChange(index, item)\r\n\t\t\t\t\t\t\t\t\t\t}>\r\n\t\t\t\t\t\t\t\t\t\t{advantagesData.map((item, index) => (\r\n\t\t\t\t\t\t\t\t\t\t\t<ul>\r\n\t\t\t\t\t\t\t\t\t\t\t\t<div\r\n\t\t\t\t\t\t\t\t\t\t\t\t\tkey={index}\r\n\t\t\t\t\t\t\t\t\t\t\t\t\tclassName=\"flex123\">\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t<img\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\tsrc={item.image}\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\talt={`advantage_${index}`}\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\twidth=\"auto\"\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\ttitle=\"Designed by vectorjuice / Freepik\"\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t/>\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t<div className=\"flex-dots\">\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t<img\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tclassName={\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\"dots \" +\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t(currentIndex !==\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t0 &&\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tcurrentIndex >=\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t3\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t? \"small\"\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t: \"\")\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t}\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tsrc={\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tcurrentIndex ===\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t0\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t? full\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t: empty\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t}\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\talt=\"1\"\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t/>\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t<img\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tclassName=\"dots\"\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tsrc={\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tfirst\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t? full\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t: empty\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t}\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\talt=\"2\"\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t/>\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t<img\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tclassName=\"dots\"\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tsrc={\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tsecond\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t? full\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t: empty\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t}\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\talt=\"3\"\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t/>\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t<img\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tclassName=\"dots\"\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tsrc={\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tthird\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t? full\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t: empty\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t}\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\talt=\"4\"\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t/>\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t<img\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tclassName={\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\"dots \" +\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t(currentIndex !==\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t10 &&\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tcurrentIndex <=\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t5\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t? \"small\"\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t: \"\")\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t}\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tsrc={\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tcurrentIndex ===\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t110\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t? full\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t: empty\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t}\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\talt=\"5\"\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t/>\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t</div>\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t<li className=\"advantages-topic-list\">\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t<span>{item.text}</span>\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t</li>\r\n\t\t\t\t\t\t\t\t\t\t\t\t</div>\r\n\t\t\t\t\t\t\t\t\t\t\t</ul>\r\n\t\t\t\t\t\t\t\t\t\t))}\r\n\t\t\t\t\t\t\t\t\t</Carousel>\r\n\t\t\t\t\t\t\t\t</div>\r\n\t\t\t\t\t\t\t</div>\r\n\t\t\t\t\t\t) : (\r\n\t\t\t\t\t\t\t<div className=\"advantages-carousel\">\r\n\t\t\t\t\t\t\t\t<Carousel\r\n\t\t\t\t\t\t\t\t\tinfiniteLoop={true}\r\n\t\t\t\t\t\t\t\t\tautoPlay={false}\r\n\t\t\t\t\t\t\t\t\tshowThumbs={false}\r\n\t\t\t\t\t\t\t\t\tshowStatus={false}\r\n\t\t\t\t\t\t\t\t\tshowIndicators={true}\r\n\t\t\t\t\t\t\t\t\tstopOnHover={true}\r\n\t\t\t\t\t\t\t\t\ttransitionTime={500}\r\n\t\t\t\t\t\t\t\t\tinterval={20000}\r\n\t\t\t\t\t\t\t\t\tthumbWidth={90}\r\n\t\t\t\t\t\t\t\t\tshowArrows={false}\r\n\t\t\t\t\t\t\t\t\tswipeable={true}>\r\n\t\t\t\t\t\t\t\t\t<div className=\"advantages-topic\">\r\n\t\t\t\t\t\t\t\t\t\t<div\r\n\t\t\t\t\t\t\t\t\t\t\tstyle={{\r\n\t\t\t\t\t\t\t\t\t\t\t\ttextAlign: \"center\",\r\n\t\t\t\t\t\t\t\t\t\t\t\tmarginTop: \"1.5rem\",\r\n\t\t\t\t\t\t\t\t\t\t\t}}>\r\n\t\t\t\t\t\t\t\t\t\t\t<iframe\r\n\t\t\t\t\t\t\t\t\t\t\t\twidth=\"350\"\r\n\t\t\t\t\t\t\t\t\t\t\t\theight=\"200\"\r\n\t\t\t\t\t\t\t\t\t\t\t\tsrc=\"https://www.youtube.com/embed/Pxpc5m69Nt4?showinfo=0&modestbranding=1\"\r\n\t\t\t\t\t\t\t\t\t\t\t\ttitle=\"YouTube video player\"\r\n\t\t\t\t\t\t\t\t\t\t\t\tframeBorder=\"0\"\r\n\t\t\t\t\t\t\t\t\t\t\t\tallow=\"accelerometer; autoplay; clipboard-write; encrypted-media; gyroscope; picture-in-picture\"\r\n\t\t\t\t\t\t\t\t\t\t\t\tallowFullScreen></iframe>\r\n\t\t\t\t\t\t\t\t\t\t</div>\r\n\t\t\t\t\t\t\t\t\t\t<ul>\r\n\t\t\t\t\t\t\t\t\t\t\t<li className=\"advantages-topic-list\">\r\n\t\t\t\t\t\t\t\t\t\t\t\t<span>\r\n\t\t\t\t\t\t\t\t\t\t\t\t\tYou will be a member of a\r\n\t\t\t\t\t\t\t\t\t\t\t\t\thighly interactive and\r\n\t\t\t\t\t\t\t\t\t\t\t\t\tsupportive network of\r\n\t\t\t\t\t\t\t\t\t\t\t\t\tscientists with many\r\n\t\t\t\t\t\t\t\t\t\t\t\t\topportunities for\r\n\t\t\t\t\t\t\t\t\t\t\t\t\tinteraction.\r\n\t\t\t\t\t\t\t\t\t\t\t\t</span>\r\n\t\t\t\t\t\t\t\t\t\t\t</li>\r\n\t\t\t\t\t\t\t\t\t\t\t<li className=\"advantages-topic-list\">\r\n\t\t\t\t\t\t\t\t\t\t\t\t<span>\r\n\t\t\t\t\t\t\t\t\t\t\t\t\tYou get free ISN and FENS\r\n\t\t\t\t\t\t\t\t\t\t\t\t\tmembership.\r\n\t\t\t\t\t\t\t\t\t\t\t\t</span>\r\n\t\t\t\t\t\t\t\t\t\t\t</li>\r\n\t\t\t\t\t\t\t\t\t\t\t<li className=\"advantages-topic-list\">\r\n\t\t\t\t\t\t\t\t\t\t\t\t<span>\r\n\t\t\t\t\t\t\t\t\t\t\t\t\tYou will have reduced\r\n\t\t\t\t\t\t\t\t\t\t\t\t\tregistration fees for ESN\r\n\t\t\t\t\t\t\t\t\t\t\t\t\tConferences, biennial ISN\r\n\t\t\t\t\t\t\t\t\t\t\t\t\tMeetings, biennial FENS\r\n\t\t\t\t\t\t\t\t\t\t\t\t\tForums and other FENS\r\n\t\t\t\t\t\t\t\t\t\t\t\t\tmeetings.\r\n\t\t\t\t\t\t\t\t\t\t\t\t</span>\r\n\t\t\t\t\t\t\t\t\t\t\t</li>\r\n\t\t\t\t\t\t\t\t\t\t</ul>\r\n\t\t\t\t\t\t\t\t\t</div>\r\n\t\t\t\t\t\t\t\t\t<div className=\"advantages-topic flex123\">\r\n\t\t\t\t\t\t\t\t\t\t<Carousel\r\n\t\t\t\t\t\t\t\t\t\t\tinfiniteLoop={true}\r\n\t\t\t\t\t\t\t\t\t\t\tautoPlay={false}\r\n\t\t\t\t\t\t\t\t\t\t\tshowThumbs={false}\r\n\t\t\t\t\t\t\t\t\t\t\tshowStatus={false}\r\n\t\t\t\t\t\t\t\t\t\t\tshowIndicators={false}\r\n\t\t\t\t\t\t\t\t\t\t\tstopOnHover={true}\r\n\t\t\t\t\t\t\t\t\t\t\ttransitionTime={500}\r\n\t\t\t\t\t\t\t\t\t\t\tinterval={5000}\r\n\t\t\t\t\t\t\t\t\t\t\tthumbWidth={90}\r\n\t\t\t\t\t\t\t\t\t\t\tshowArrows={true}\r\n\t\t\t\t\t\t\t\t\t\t\tswipeable={true}\r\n\t\t\t\t\t\t\t\t\t\t\tonChange={(index, item) =>\r\n\t\t\t\t\t\t\t\t\t\t\t\tonChange2(index, item)\r\n\t\t\t\t\t\t\t\t\t\t\t}>\r\n\t\t\t\t\t\t\t\t\t\t\t<img\r\n\t\t\t\t\t\t\t\t\t\t\t\tsrc={Advantage_2_1}\r\n\t\t\t\t\t\t\t\t\t\t\t\talt=\"link1\"\r\n\t\t\t\t\t\t\t\t\t\t\t\tstyle={{\r\n\t\t\t\t\t\t\t\t\t\t\t\t\twidth: \"67.87%\",\r\n\t\t\t\t\t\t\t\t\t\t\t\t\theight: \"auto\",\r\n\t\t\t\t\t\t\t\t\t\t\t\t\tobjectFit: \"contain\",\r\n\t\t\t\t\t\t\t\t\t\t\t\t}}\r\n\t\t\t\t\t\t\t\t\t\t\t\ttitle=\"Designed by vectorjuice / Freepik\"\r\n\t\t\t\t\t\t\t\t\t\t\t/>\r\n\t\t\t\t\t\t\t\t\t\t\t<img\r\n\t\t\t\t\t\t\t\t\t\t\t\tsrc={Advantage_2_2}\r\n\t\t\t\t\t\t\t\t\t\t\t\talt=\"link1\"\r\n\t\t\t\t\t\t\t\t\t\t\t\tstyle={{\r\n\t\t\t\t\t\t\t\t\t\t\t\t\twidth: \"67.87%\",\r\n\t\t\t\t\t\t\t\t\t\t\t\t\theight: \"auto\",\r\n\t\t\t\t\t\t\t\t\t\t\t\t\tobjectFit: \"contain\",\r\n\t\t\t\t\t\t\t\t\t\t\t\t}}\r\n\t\t\t\t\t\t\t\t\t\t\t\ttitle=\"Designed by vectorjuice / Freepik\"\r\n\t\t\t\t\t\t\t\t\t\t\t/>\r\n\t\t\t\t\t\t\t\t\t\t</Carousel>\r\n\t\t\t\t\t\t\t\t\t\t<div className=\"flex-dots\">\r\n\t\t\t\t\t\t\t\t\t\t\t<img\r\n\t\t\t\t\t\t\t\t\t\t\t\tclassName={\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\"dots \" +\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t(currentIndex2 !== 0 &&\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\tcurrentIndex2 >= 5\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t? \"small\"\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t: \"\")\r\n\t\t\t\t\t\t\t\t\t\t\t\t}\r\n\t\t\t\t\t\t\t\t\t\t\t\tsrc={\r\n\t\t\t\t\t\t\t\t\t\t\t\t\tcurrentIndex2 === 0\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t? full\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t: empty\r\n\t\t\t\t\t\t\t\t\t\t\t\t}\r\n\t\t\t\t\t\t\t\t\t\t\t\talt=\"1\"\r\n\t\t\t\t\t\t\t\t\t\t\t/>\r\n\t\t\t\t\t\t\t\t\t\t\t<img\r\n\t\t\t\t\t\t\t\t\t\t\t\tclassName=\"dots\"\r\n\t\t\t\t\t\t\t\t\t\t\t\tsrc={first2 ? full : empty}\r\n\t\t\t\t\t\t\t\t\t\t\t\talt=\"2\"\r\n\t\t\t\t\t\t\t\t\t\t\t/>\r\n\t\t\t\t\t\t\t\t\t\t</div>\r\n\t\t\t\t\t\t\t\t\t\t<ul>\r\n\t\t\t\t\t\t\t\t\t\t\t<li className=\"advantages-topic-list\">\r\n\t\t\t\t\t\t\t\t\t\t\t\t<span>\r\n\t\t\t\t\t\t\t\t\t\t\t\t\tYou will have free access to\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t<a href=\"https://onlinelibrary.wiley.com/journal/14714159\">\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\tJournal of\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\tNeurochemistry\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t</a>{\" \"}\r\n\t\t\t\t\t\t\t\t\t\t\t\t\tand all ISN initiatives and\r\n\t\t\t\t\t\t\t\t\t\t\t\t\tfunding schemes.\r\n\t\t\t\t\t\t\t\t\t\t\t\t</span>\r\n\t\t\t\t\t\t\t\t\t\t\t</li>\r\n\t\t\t\t\t\t\t\t\t\t\t<li className=\"advantages-topic-list\">\r\n\t\t\t\t\t\t\t\t\t\t\t\t<span>\r\n\t\t\t\t\t\t\t\t\t\t\t\t\tYou will have free access to\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t<a href=\"https://onlinelibrary.wiley.com/journal/14609568\">\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\tEuropean Journal of\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\tNeuroscience,\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t</a>{\" \"}\r\n\t\t\t\t\t\t\t\t\t\t\t\t\tFENS higher education and\r\n\t\t\t\t\t\t\t\t\t\t\t\t\ttraining initiatives and\r\n\t\t\t\t\t\t\t\t\t\t\t\t\tFENS travel stipends.\r\n\t\t\t\t\t\t\t\t\t\t\t\t</span>\r\n\t\t\t\t\t\t\t\t\t\t\t</li>\r\n\t\t\t\t\t\t\t\t\t\t</ul>\r\n\t\t\t\t\t\t\t\t\t</div>\r\n\t\t\t\t\t\t\t\t\t<div className=\"advantages-topic\">\r\n\t\t\t\t\t\t\t\t\t\t<Carousel\r\n\t\t\t\t\t\t\t\t\t\t\tinfiniteLoop={true}\r\n\t\t\t\t\t\t\t\t\t\t\tautoPlay={false}\r\n\t\t\t\t\t\t\t\t\t\t\tshowThumbs={false}\r\n\t\t\t\t\t\t\t\t\t\t\tshowStatus={false}\r\n\t\t\t\t\t\t\t\t\t\t\tshowIndicators={false}\r\n\t\t\t\t\t\t\t\t\t\t\tstopOnHover={true}\r\n\t\t\t\t\t\t\t\t\t\t\ttransitionTime={500}\r\n\t\t\t\t\t\t\t\t\t\t\tinterval={5000}\r\n\t\t\t\t\t\t\t\t\t\t\tshowArrows={true}\r\n\t\t\t\t\t\t\t\t\t\t\tonChange={(index, item) =>\r\n\t\t\t\t\t\t\t\t\t\t\t\tonChange(index, item)\r\n\t\t\t\t\t\t\t\t\t\t\t}>\r\n\t\t\t\t\t\t\t\t\t\t\t{advantagesData.map(\r\n\t\t\t\t\t\t\t\t\t\t\t\t(item, index) => (\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t<ul>\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t<div\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tkey={index}\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tclassName=\"flex123\">\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t<img\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tsrc={item.image}\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\talt={`advantage_${index}`}\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\twidth=\"100%\"\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\ttitle=\"Designed by vectorjuice / Freepik\"\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t/>\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t<div className=\"flex-dots\">\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t<img\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tclassName={\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\"dots \" +\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t(currentIndex !==\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t0 &&\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tcurrentIndex >=\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t3\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t? \"small\"\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t: \"\")\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t}\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tsrc={\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tcurrentIndex ===\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t0\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t? full\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t: empty\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t}\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\talt=\"1\"\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t/>\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t<img\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tclassName=\"dots\"\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tsrc={\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tfirst\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t? full\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t: empty\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t}\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\talt=\"2\"\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t/>\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t<img\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tclassName=\"dots\"\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tsrc={\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tsecond\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t? full\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t: empty\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t}\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\talt=\"3\"\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t/>\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t<img\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tclassName=\"dots\"\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tsrc={\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tthird\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t? full\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t: empty\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t}\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\talt=\"4\"\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t/>\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t<img\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tclassName={\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\"dots \" +\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t(currentIndex !==\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t10 &&\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tcurrentIndex <=\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t5\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t? \"small\"\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t: \"\")\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t}\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tsrc={\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tcurrentIndex ===\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t10\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t? full\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t: empty\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t}\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\talt=\"5\"\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t/>\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t</div>\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t<li className=\"advantages-topic-list\">\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t<span>\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t{item.text}\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t</span>\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t</li>\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t</div>\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t</ul>\r\n\t\t\t\t\t\t\t\t\t\t\t\t)\r\n\t\t\t\t\t\t\t\t\t\t\t)}\r\n\t\t\t\t\t\t\t\t\t\t</Carousel>\r\n\t\t\t\t\t\t\t\t\t</div>\r\n\t\t\t\t\t\t\t\t</Carousel>\r\n\t\t\t\t\t\t\t</div>\r\n\t\t\t\t\t\t)}\r\n\t\t\t\t\t</div>\r\n\t\t\t\t\t<a href=\"/membership\" className=\"advantages-button\">\r\n\t\t\t\t\t\tJoin ESN Now\r\n\t\t\t\t\t</a>\r\n\t\t\t\t</div>\r\n\t\t\t</section>\r\n\r\n\t\t\t<section id=\"hp-links\">\r\n\t\t\t\t<div className=\"links-container\">\r\n\t\t\t\t\t<div className=\"links-top\">\r\n\t\t\t\t\t\t<h1>Useful Links</h1>\r\n\t\t\t\t\t\t<div className=\"links-top-div\">\r\n\t\t\t\t\t\t\t<h2>Sister Societies</h2>\r\n\t\t\t\t\t\t\t<div className=\"links-grid\">\r\n\t\t\t\t\t\t\t\t<a\r\n\t\t\t\t\t\t\t\t\thref=\"https://neurochemistry.org\"\r\n\t\t\t\t\t\t\t\t\tclassName=\"links-box\">\r\n\t\t\t\t\t\t\t\t\t<img\r\n\t\t\t\t\t\t\t\t\t\tsrc={linkisn}\r\n\t\t\t\t\t\t\t\t\t\talt=\"link1\"\r\n\t\t\t\t\t\t\t\t\t\twidth=\"66.67%\"\r\n\t\t\t\t\t\t\t\t\t/>\r\n\t\t\t\t\t\t\t\t</a>\r\n\t\t\t\t\t\t\t\t<a\r\n\t\t\t\t\t\t\t\t\thref=\"https://apsn-neurochemistry.org\"\r\n\t\t\t\t\t\t\t\t\tclassName=\"links-box\">\r\n\t\t\t\t\t\t\t\t\t<img\r\n\t\t\t\t\t\t\t\t\t\tsrc={linkaps}\r\n\t\t\t\t\t\t\t\t\t\talt=\"link2\"\r\n\t\t\t\t\t\t\t\t\t\twidth=\"73.38%\"\r\n\t\t\t\t\t\t\t\t\t/>\r\n\t\t\t\t\t\t\t\t</a>\r\n\t\t\t\t\t\t\t\t<a\r\n\t\t\t\t\t\t\t\t\thref=\"https://asneurochem.org\"\r\n\t\t\t\t\t\t\t\t\tclassName=\"links-box\">\r\n\t\t\t\t\t\t\t\t\t<img\r\n\t\t\t\t\t\t\t\t\t\tsrc={linkasn}\r\n\t\t\t\t\t\t\t\t\t\talt=\"link3\"\r\n\t\t\t\t\t\t\t\t\t\twidth=\"79.85%\"\r\n\t\t\t\t\t\t\t\t\t/>\r\n\t\t\t\t\t\t\t\t</a>\r\n\t\t\t\t\t\t\t</div>\r\n\t\t\t\t\t\t</div>\r\n\t\t\t\t\t\t<div className=\"links-top-div\">\r\n\t\t\t\t\t\t\t<h2>Other Entities</h2>\r\n\t\t\t\t\t\t\t<div className=\"links-grid\">\r\n\t\t\t\t\t\t\t\t<a\r\n\t\t\t\t\t\t\t\t\thref=\"https://fens.org\"\r\n\t\t\t\t\t\t\t\t\tclassName=\"links-box\">\r\n\t\t\t\t\t\t\t\t\t<img\r\n\t\t\t\t\t\t\t\t\t\tsrc={linkfens}\r\n\t\t\t\t\t\t\t\t\t\talt=\"link5\"\r\n\t\t\t\t\t\t\t\t\t\twidth=\"73.88%\"\r\n\t\t\t\t\t\t\t\t\t/>\r\n\t\t\t\t\t\t\t\t</a>\r\n\t\t\t\t\t\t\t\t<a\r\n\t\t\t\t\t\t\t\t\thref=\"https://ibro.org\"\r\n\t\t\t\t\t\t\t\t\tclassName=\"links-box ibro\">\r\n\t\t\t\t\t\t\t\t\t<img src={ibro} alt=\"link6\" width=\"auto\" />\r\n\t\t\t\t\t\t\t\t</a>\r\n\t\t\t\t\t\t\t\t<a href=\"https://sfn.org\" className=\"links-box\">\r\n\t\t\t\t\t\t\t\t\t<img\r\n\t\t\t\t\t\t\t\t\t\tsrc={linksn}\r\n\t\t\t\t\t\t\t\t\t\talt=\"link6\"\r\n\t\t\t\t\t\t\t\t\t\twidth=\"65.17%\"\r\n\t\t\t\t\t\t\t\t\t/>\r\n\t\t\t\t\t\t\t\t</a>\r\n\t\t\t\t\t\t\t</div>\r\n\t\t\t\t\t\t</div>\r\n\t\t\t\t\t</div>\r\n\t\t\t\t</div>\r\n\t\t\t</section>\r\n\r\n\t\t\t<footer>\r\n\t\t\t\t<Footer />\r\n\t\t\t</footer>\r\n\t\t</div>\r\n\t);\r\n};\r\n\r\nexport default HomePage;\r\n","import React, { useEffect, useState } from \"react\";\nimport { fetchData } from \"../../utility/utils\";\nimport Navbar from \"../../components/Navbar/Navbar\";\nimport Footer from \"../../components/Footer/Footer\";\nimport \"./MeetingsPage.css\";\nimport MeetCard from \"../../components/MeetCard/MeetCard\";\n\nconst MeetingsPage = () => {\n\tconst [meetings, setMeetings] = useState([]);\n\tconst [categories, setCategories] = useState([]);\n\n\tuseEffect(() => {\n\t\tdocument.title = \"Meetings\";\n\t}, []);\n\n\tuseEffect(() => {\n\t\tfetchData(\"/wp-json/wp/v2/meetings\", setMeetings);\n\t\tfetchData(\"/wp-json/wp/v2/meetings-categories\", setCategories);\n\t}, []);\n\n\tconst compareMeetingCategorie = (meeting) => {\n\t\tconst categorie = categories.find(\n\t\t\t(categorie) => categorie.id === meeting[\"meetings-categories\"][0]\n\t\t);\n\t\treturn categorie?.name;\n\t};\n\n\treturn (\n\t\t<div>\n\t\t\t<Navbar page=\"Meetings\" />\n\t\t\t<div className=\"meetings-container\">\n\t\t\t\t<h1>Conferences & Schools</h1>\n\t\t\t\t<div className=\"meetings-content\">\n\t\t\t\t\t<div className=\"meetings-top\">\n\t\t\t\t\t\t<h2>ESN Biennial Conferences</h2>\n\t\t\t\t\t\t<div className=\"meetings-grid\">\n\t\t\t\t\t\t\t{meetings\n\t\t\t\t\t\t\t\t?.filter(\n\t\t\t\t\t\t\t\t\t(meeting) =>\n\t\t\t\t\t\t\t\t\t\tcompareMeetingCategorie(meeting) ===\n\t\t\t\t\t\t\t\t\t\t\"ESN Biennial Conferences\"\n\t\t\t\t\t\t\t\t)\n\t\t\t\t\t\t\t\t.map((meeting) => (\n\t\t\t\t\t\t\t\t\t<MeetCard data={meeting} />\n\t\t\t\t\t\t\t\t))}\n\t\t\t\t\t\t</div>\n\t\t\t\t\t</div>\n\t\t\t\t\t<div className=\"meetings-mid\">\n\t\t\t\t\t\t<h2>Other Conferences</h2>\n\t\t\t\t\t\t<div className=\"meetings-grid\">\n\t\t\t\t\t\t\t{meetings\n\t\t\t\t\t\t\t\t?.filter(\n\t\t\t\t\t\t\t\t\t(meeting) =>\n\t\t\t\t\t\t\t\t\t\tcompareMeetingCategorie(meeting) ===\n\t\t\t\t\t\t\t\t\t\t\"Other Conferences\"\n\t\t\t\t\t\t\t\t)\n\t\t\t\t\t\t\t\t.map((meeting) => (\n\t\t\t\t\t\t\t\t\t<MeetCard data={meeting} />\n\t\t\t\t\t\t\t\t))}\n\t\t\t\t\t\t</div>\n\t\t\t\t\t</div>\n\t\t\t\t\t<div className=\"meetings-bottom\">\n\t\t\t\t\t\t<h2>ESN-ISN Neurochemistry Schools</h2>\n\t\t\t\t\t\t<div className=\"meetings-grid\">\n\t\t\t\t\t\t\t{meetings\n\t\t\t\t\t\t\t\t?.filter(\n\t\t\t\t\t\t\t\t\t(meeting) =>\n\t\t\t\t\t\t\t\t\t\tcompareMeetingCategorie(meeting) ===\n\t\t\t\t\t\t\t\t\t\t\"ESN-ISN Neurochemistry Schools\"\n\t\t\t\t\t\t\t\t)\n\t\t\t\t\t\t\t\t.map((meeting) => (\n\t\t\t\t\t\t\t\t\t<MeetCard data={meeting} />\n\t\t\t\t\t\t\t\t))}\n\t\t\t\t\t\t</div>\n\t\t\t\t\t</div>\n\t\t\t\t</div>\n\t\t\t</div>\n\t\t\t<Footer />\n\t\t</div>\n\t);\n};\n\nexport default MeetingsPage;\n","import React from \"react\";\nimport Navbar from \"../../components/Navbar/Navbar\";\nimport Footer from \"../../components/Footer/Footer\";\nimport \"./MembershipPage.css\";\nimport axios from \"axios\";\nimport PersonalInfo from \"../../components/MembershipInfo/PersonalInfo\";\nimport InstitutionInfo from \"../../components/MembershipInfo/InstitutionInfo\";\nimport AdditionalInfo from \"../../components/MembershipInfo/AdditionalInfo\";\nimport { useState, useRef, useEffect } from \"react\";\n\nconst MembershipPage = () => {\n\t// Step = pagina em questao   Comecamos na primeira pagina de informacao\n\tconst [step, setStep] = useState(1);\n\tconst formDataRef = useRef(new FormData());\n\n\tuseEffect(() => {\n\t\tdocument.title = \"Membership\";\n\t}, []);\n\n\t// Enviar a data para o backend\n\tconst sendData = async () => {\n\t\t// enviar data\n\t\ttry {\n\t\t\tconst response = await axios.post(\n\t\t\t\t\"http://esnwebsite.pythonanywhere.com/api/memberships/\",\n\t\t\t\tformDataRef.current\n\t\t\t);\n\n\t\t\tif (!response.ok) {\n\t\t\t\tthrow new Error(\"Network response was not ok\");\n\t\t\t}\n\n\t\t\t// Handle successful response\n\t\t} catch (error) {\n\t\t\t// Handle error\n\t\t}\n\t\t// Apos ser feito o post, ir para a pagina seguinte automaticamente\n\t\tsetStep(step + 1);\n\t};\n\n\tconst FinalInformation = () => {\n\t\treturn (\n\t\t\t<div className=\"final_info text\">\n\t\t\t\t<h2>Application registered.</h2>\n\t\t\t\t<div>\n\t\t\t\t\t<p>\n\t\t\t\t\t\tApplications are typically assessed within one week.\n\t\t\t\t\t\tPlease check your spam{\" \"}\n\t\t\t\t\t</p>\n\t\t\t\t\t<p>\n\t\t\t\t\t\t{\" \"}\n\t\t\t\t\t\tfolder and/or contact directly the ESN Treasurer\n\t\t\t\t\t\t(cbduarte@ci.uc.pt) in case{\" \"}\n\t\t\t\t\t</p>\n\t\t\t\t\t<p> you do not hear back from us in this timeframe.</p>\n\t\t\t\t</div>\n\t\t\t</div>\n\t\t);\n\t};\n\n\treturn (\n\t\t<div>\n\t\t\t<Navbar page=\"Membership\" />\n\n\t\t\t<div className=\"app_membership_form\">\n\t\t\t\t<h1>Membership Application Form</h1>\n\t\t\t\t<p className=\"fee text\">\n\t\t\t\t\tThere is an annual fee of 25 euros to become an Ordinary\n\t\t\t\t\tMember of the ESN.\n\t\t\t\t</p>\n\t\t\t\t<div className=\"form_levels\">\n\t\t\t\t\t<div\n\t\t\t\t\t\tclassName={`info ${\n\t\t\t\t\t\t\tstep === 1 ? \"selected_step\" : \"not_selected\"\n\t\t\t\t\t\t} ${step > 1 ? \"done\" : \"\"}`}>\n\t\t\t\t\t\t<div className=\"circle\">\n\t\t\t\t\t\t\t<span>1</span>\n\t\t\t\t\t\t</div>\n\t\t\t\t\t\t<p className=\"step text\">Personal Information</p>\n\t\t\t\t\t</div>\n\n\t\t\t\t\t<div\n\t\t\t\t\t\tclassName={`info ${\n\t\t\t\t\t\t\tstep === 2 ? \"selected_step\" : \"not_selected\"\n\t\t\t\t\t\t} ${step > 2 ? \"done\" : \"\"}`}>\n\t\t\t\t\t\t<div className=\"circle\">\n\t\t\t\t\t\t\t<span>2</span>\n\t\t\t\t\t\t</div>\n\t\t\t\t\t\t<p className=\"step text\">Institution Information</p>\n\t\t\t\t\t</div>\n\t\t\t\t\t<div\n\t\t\t\t\t\tclassName={`info ${\n\t\t\t\t\t\t\tstep === 3 ? \"selected_step\" : \"not_selected\"\n\t\t\t\t\t\t} ${step > 3 ? \"done\" : \"\"}`}>\n\t\t\t\t\t\t<div className=\"circle\">\n\t\t\t\t\t\t\t<span>3</span>\n\t\t\t\t\t\t</div>\n\t\t\t\t\t\t<p className=\"step text\"> Additional Information</p>\n\t\t\t\t\t</div>\n\t\t\t\t</div>\n\t\t\t\t{step === 1 ? (\n\t\t\t\t\t<PersonalInfo\n\t\t\t\t\t\tstep={step}\n\t\t\t\t\t\tsetStep={setStep}\n\t\t\t\t\t\tformData={formDataRef.current}\n\t\t\t\t\t/>\n\t\t\t\t) : null}\n\t\t\t\t{step === 2 ? (\n\t\t\t\t\t<InstitutionInfo\n\t\t\t\t\t\tstep={step}\n\t\t\t\t\t\tsetStep={setStep}\n\t\t\t\t\t\tformData={formDataRef.current}\n\t\t\t\t\t/>\n\t\t\t\t) : null}\n\t\t\t\t{step === 3 ? (\n\t\t\t\t\t<AdditionalInfo\n\t\t\t\t\t\tstep={step}\n\t\t\t\t\t\tsetStep={setStep}\n\t\t\t\t\t\tformData={formDataRef.current}\n\t\t\t\t\t\tsendData={sendData}\n\t\t\t\t\t/>\n\t\t\t\t) : null}\n\t\t\t\t{step === 4 ? FinalInformation() : null}\n\t\t\t</div>\n\n\t\t\t<Footer />\n\t\t</div>\n\t);\n};\n\nexport default MembershipPage;\n","import React, { useEffect } from \"react\";\nimport Navbar from \"../../components/Navbar/Navbar\";\nimport Footer from \"../../components/Footer/Footer\";\nimport shape from \"../../assets/imgs/Shape.svg\";\nimport \"./MembershipPaymentPage.css\";\n\nconst MembershipPaymentPage = () => {\n\tconst [year, setYear] = React.useState(0);\n\n\tuseEffect(() => {\n\t\tlet date = new Date().getFullYear();\n\t\tsetYear(date);\n\t}, []);\n\n\tuseEffect(() => {\n\t\tdocument.title = \"Membership Payment\";\n\t}, []);\n\n\treturn (\n\t\t<div>\n\t\t\t<Navbar />\n\t\t\t<div className=\"mpayment-container\">\n\t\t\t\t<h1>Membership Payment Options</h1>\n\t\t\t\t<div className=\"mpayment-top\">\n\t\t\t\t\t<h3>\n\t\t\t\t\t\tHow to pay ESN membership fee for the year {year}\n\t\t\t\t\t</h3>\n\t\t\t\t\t<p>\n\t\t\t\t\t\tThe ESN membership fee has not changed and is still{\" \"}\n\t\t\t\t\t\t<span class=\"bold\">25€ per year.</span> <br />\n\t\t\t\t\t\tThe options for payment are described below, so please\n\t\t\t\t\t\tselect the method of payment most appropriate for you.{\" \"}\n\t\t\t\t\t\t<br />\n\t\t\t\t\t\tIf you wish, you can also pay the fees for extra years\n\t\t\t\t\t\t(beyond {year}) to reduce money transfer fees.\n\t\t\t\t\t</p>\n\t\t\t\t\t<p>\n\t\t\t\t\t\tAll ESN members can apply for free ISN membership at the society website (\n\t\t\t\t\t\t<a href=\"https://www.neurochemistry.org/\">\n\t\t\t\t\t\t\tinstructions\n\t\t\t\t\t\t</a>\n\t\t\t\t\t\t). <br />\n\t\t\t\t\t\tSince ESN is a member of FENS, you will also be a member\n\t\t\t\t\t\tof FENS!\n\t\t\t\t\t</p>\n\t\t\t\t\t<p>Options to pay your ESN annual membership fee:</p>\n\t\t\t\t</div>\n\n\t\t\t\t<div className=\"mpayment-topic\">\n\t\t\t\t\t<div className=\"mpayment-flex\">\n\t\t\t\t\t\t<h2>1.Transfer</h2>\n\t\t\t\t\t\t<img src={shape}></img>\n\t\t\t\t\t\t<span>Preferred mode payment</span>\n\t\t\t\t\t</div>\n\n\t\t\t\t\t<p>\n\t\t\t\t\t\tTransfer the 25 € membership fee to the Euro bank\n\t\t\t\t\t\taccount of ESN at the Sparkasse Nienburg (Goetheplatz 4,\n\t\t\t\t\t\tD-31582 Nienburg) using/giving the following\n\t\t\t\t\t\tinformation:\n\t\t\t\t\t</p>\n\n\t\t\t\t\t<div className=\"topic-margin\">\n\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t<span class=\"bold\">Beneficiary:</span> ESN\n\t\t\t\t\t\t</p>\n\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t<span class=\"bold\">Amount:</span> 25 €\n\t\t\t\t\t\t</p>\n\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t<span class=\"bold\">IBAN number:</span> DE 3325 6501\n\t\t\t\t\t\t\t0600 3603 1185\n\t\t\t\t\t\t</p>\n\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t<span class=\"bold\">BIC-/ SWIFT code</span>:\n\t\t\t\t\t\t\tNOLADE21NIB\n\t\t\t\t\t\t</p>\n\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t<span class=\"bold\">Payment details:</span> “ESN fee{\" \"}\n\t\t\t\t\t\t\t{year} for [\n\t\t\t\t\t\t\t<span className=\"italic\">INSERT YOUR NAME</span>]”\n\t\t\t\t\t\t</p>\n\t\t\t\t\t</div>\n\t\t\t\t</div>\n\n\t\t\t\t<div className=\"mpayment-topic\">\n\t\t\t\t\t<div className=\"mpayment-flex\">\n\t\t\t\t\t\t<h2>2.Transfer (based in the UK)</h2>\n\t\t\t\t\t</div>\n\n\t\t\t\t\t<p>\n\t\t\t\t\t\tIf you are based in the UK, you can transfer the\n\t\t\t\t\t\tequivalent of the 25 € membership fee (in Pound\n\t\t\t\t\t\tSterling) to the ESN bank account at The Cooperative\n\t\t\t\t\t\tBank (Stockport Business Direct, PO Box 250,\n\t\t\t\t\t\tSkelmersdale, WN8 6WT, UK) using/giving the following\n\t\t\t\t\t\tinformation:\n\t\t\t\t\t</p>\n\n\t\t\t\t\t<div className=\"topic-margin\">\n\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t<span class=\"bold\">Beneficiary:</span> European\n\t\t\t\t\t\t\tSociety of Neurochemistry (ESN)\n\t\t\t\t\t\t</p>\n\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t<span class=\"bold\">ESN account number:</span>{\" \"}\n\t\t\t\t\t\t\t65120763\n\t\t\t\t\t\t</p>\n\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t<span class=\"bold\">Amount:</span> 25 € (or\n\t\t\t\t\t\t\tequivalent in pounds)\n\t\t\t\t\t\t</p>\n\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t<span class=\"bold\">Bank Sort Code:</span> 08 92 99\n\t\t\t\t\t\t</p>\n\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t<span class=\"bold\">IBAN number:</span> GB 92CP BK08\n\t\t\t\t\t\t\t9299 6512 0763\n\t\t\t\t\t\t</p>\n\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t<span class=\"bold\">BIC-/ SWIFT code</span>: CPBKGB22\n\t\t\t\t\t\t</p>\n\t\t\t\t\t\t<p>\n\t\t\t\t\t\t\t<span class=\"bold\">Payment details:</span> “ESN fee{\" \"}\n\t\t\t\t\t\t\t{year} for [\n\t\t\t\t\t\t\t<span className=\"italic\">INSERT YOUR NAME</span>]”\n\t\t\t\t\t\t</p>\n\t\t\t\t\t</div>\n\t\t\t\t</div>\n\n\t\t\t\t<div className=\"mpayment-topic\">\n\t\t\t\t\t<div className=\"mpayment-flex\">\n\t\t\t\t\t\t<h2>3 .Paypal</h2>\n\t\t\t\t\t</div>\n\t\t\t\t\t<p>\n\t\t\t\t\t\tYou can also transfer your membership fee from your\n\t\t\t\t\t\tPayPal account to: esn.meetings@neurochemsoc.eu <br />\n\t\t\t\t\t\tThis e-mail address identifies the PayPal account of\n\t\t\t\t\t\tESN.\n\t\t\t\t\t</p>\n\t\t\t\t</div>\n\n\t\t\t\t<div className=\"mpayment-topic\">\n\t\t\t\t\t<div className=\"mpayment-flex\">\n\t\t\t\t\t\t<h2>Note</h2>\n\t\t\t\t\t</div>\n\t\t\t\t\t<p>\n\t\t\t\t\t\tIf you are based in a non-Euro-Country, bank transfer of\n\t\t\t\t\t\t25 € may be quite costly. Alternatively, you should\n\t\t\t\t\t\tconsider joining together with some colleagues in your\n\t\t\t\t\t\tcountry and transferring the fees for as many ESN\n\t\t\t\t\t\tmembers as you can by one bank transfer. You should also\n\t\t\t\t\t\tconsider asking a friend/colleague who is based in a\n\t\t\t\t\t\tEuro-Country to do you a favor and transfer the money\n\t\t\t\t\t\tfrom their account for your name to the ESN Euro account\n\t\t\t\t\t\tlisted above and arranging reimbursement to your\n\t\t\t\t\t\tfriend/colleague at any convenient opportunity.\n\t\t\t\t\t</p>\n\t\t\t\t\t<p>\n\t\t\t\t\t\tPlease address further enquiries on the payment of the\n\t\t\t\t\t\tannual ESN membership fee to the Treasurer of ESN\n\t\t\t\t\t\t(cbduarte@ci.uc.pt).\n\t\t\t\t\t</p>\n\t\t\t\t</div>\n\n\t\t\t\t<div className=\"mpayment-bottom\">\n\t\t\t\t\t<p>\n\t\t\t\t\t\tThank you very much for being an ESN member now and in\n\t\t\t\t\t\tthe future.\n\t\t\t\t\t</p>\n\t\t\t\t\t<div className=\"mpayment-people\">\n\t\t\t\t\t\t<div className=\"person\">\n\t\t\t\t\t\t\t<h3>Illana Gozes</h3>\n\t\t\t\t\t\t\t<p>President</p>\n\t\t\t\t\t\t</div>\n\t\t\t\t\t\t<div className=\"person\">\n\t\t\t\t\t\t\t<h3>Dimitra Mangoura</h3>\n\t\t\t\t\t\t\t<p>Secretary</p>\n\t\t\t\t\t\t</div>\n\t\t\t\t\t\t<div className=\"person\">\n\t\t\t\t\t\t\t<h3>Carlos Duarte</h3>\n\t\t\t\t\t\t\t<p>Treasurer</p>\n\t\t\t\t\t\t</div>\n\t\t\t\t\t</div>\n\t\t\t\t</div>\n\t\t\t</div>\n\t\t\t<p className=\"space_footer\"></p>\n\t\t\t<Footer />\n\t\t</div>\n\t);\n};\n\nexport default MembershipPaymentPage;\n","import React, { useState, useEffect } from \"react\";\nimport \"./NewsletterPage.css\";\nimport Navbar from \"../../components/Navbar/Navbar\";\nimport Footer from \"../../components/Footer/Footer\";\nimport NewsCard from \"../../components/NewsCard/NewsCard\";\nimport { useMediaQuery } from \"react-responsive\";\nimport { fetchData } from \"../../utility/utils\";\nimport filterIcon from \"../../assets/imgs/filter_icon.svg\";\nimport { IoIosArrowBack, IoIosArrowForward } from \"react-icons/io\";\nimport ticked_checkbox from \"../../assets/imgs/ticked_checkbox.svg\";\n\nconst NewsletterPage = () => {\n\tconst [availablePosts, setAvailablePosts] = useState([]);\n\tconst [availableCategories, setAvailableCategories] = useState([]);\n\tconst [filterType, setFilterType] = useState(0);\n\tconst [currentPage, setCurrentPage] = useState(1);\n\tconst [filterPopup, setFilterPopup] = useState(false);\n\tconst [filteredPosts, setFilteredPosts] = useState([]);\n\t// Posts fetching\n\tuseEffect(() => {\n\t\tfetchData(\"/wp-json/wp/v2/news-archive\", (data) => {\n\t\t\t// If no filter is applied (filterType is 0), set all posts as available\n\t\t\tif (filterType === 0) {\n\t\t\t\tsetAvailablePosts(data);\n\t\t\t\tsetFilteredPosts([]);\n\t\t\t} else {\n\t\t\t\t// If filterType is set, filter the posts based on the selected category\n\n\t\t\t\tconst filtered = data.filter(\n\t\t\t\t\t(post) =>\n\t\t\t\t\t\tpost[\"news-categorie\"] &&\n\t\t\t\t\t\tpost[\"news-categorie\"].includes(filterType)\n\t\t\t\t\t\t).sort((a, b) => {\n\t\t\t\t\tif (!a?.acf?.date || !b?.acf?.date) return 0;\n\n\t\t\t\t\tconst dateA = convertStringToDate(a?.acf?.date);\n\t\t\t\t\tconst dateB = convertStringToDate(b?.acf?.date);\n\t\t\t\t\treturn dateB - dateA;\n\t\t\t\t});\n\t\t\t\tsetAvailablePosts([]);\n\t\t\t\tsetFilteredPosts(filtered);\n\t\t\t}\n\t\t});\n\n\t\tfetchData(\"/wp-json/wp/v2/news-categorie\", setAvailableCategories);\n\t}, [filterType]);\n\n\tfunction convertStringToDate(dateString) {\n  const year = Number(dateString.slice(0, 4));\n  const month = Number(dateString.slice(4, 6)) - 1;\n  const day = Number(dateString.slice(6, 8));\n\n  return new Date(year, month, day);\n}\n\n\tuseEffect(() => {\n\t\tif (!availablePosts) return;\n\n\t\tconst orderedPosts = availablePosts.sort((a, b) => {\n\t\t\tif (!a?.acf?.date || !b?.acf?.date) return 0;\n\n\t\t\tconst dateA = convertStringToDate(a?.acf?.date);\n\t\t\tconst dateB = convertStringToDate(b?.acf?.date);\n\t\t\treturn dateB - dateA;\n\t\t});\n\n\t\tsetAvailablePosts(orderedPosts);\n\n\t}, [availablePosts]);\n\n\tconst isMobile = useMediaQuery({ maxWidth: 900 });\n\tconst postsPerPage = isMobile ? 6 : 12;\n\n\tconst totalPosts =\n\t\tfilterType === 0 ? availablePosts.length : filteredPosts.length;\n\tconst totalPages = Math.ceil(totalPosts / postsPerPage);\n\n\tconst handlePageChange = (pageNumber) => {\n\t\tsetCurrentPage(pageNumber);\n\t};\n\n\tconst handleFilterType = (type) => {\n\t\tif (type === filterType) {\n\t\t\tsetFilterType(0);\n\t\t} else {\n\t\t\tsetFilterType(type);\n\t\t}\n\t};\n\n\tconst handleFilterPopup = () => {\n\t\tsetFilterPopup(!filterPopup);\n\t};\n\n\tconst startIndex = (currentPage - 1) * postsPerPage;\n\tconst endIndex = startIndex + postsPerPage;\n\tconst currentPosts =\n\t\tfilterType === 0\n\t\t\t? availablePosts.slice(startIndex, endIndex)\n\t\t\t: filteredPosts.slice(startIndex, endIndex);\n\n\tlet displayEllipsis = false;\n\n\treturn (\n\t\t<div>\n\t\t\t<header>\n\t\t\t\t<Navbar  page =\"News Archive\" />\n\t\t\t</header>\n\n\t\t\t<main>\n\t\t\t\t<section id=\"newsletter\">\n\t\t\t\t\t<div className=\"newsletter-container\">\n\t\t\t\t\t\t<div className=\"newsletter-top\">\n\t\t\t\t\t\t\t<div className=\"newsletter-header\">\n\t\t\t\t\t\t\t\t<h1>News Archive</h1>\n\t\t\t\t\t\t\t</div>\n\t\t\t\t\t\t\t<div className=\"newsletter-filter\">\n\t\t\t\t\t\t\t\t{!isMobile ? (\n\t\t\t\t\t\t\t\t\t<li>\n\t\t\t\t\t\t\t\t\t\t<a\n\t\t\t\t\t\t\t\t\t\t\tclassName={`news-filter ${\n\t\t\t\t\t\t\t\t\t\t\t\t0 ===\n\t\t\t\t\t\t\t\t\t\t\t\tfilterType\n\t\t\t\t\t\t\t\t\t\t\t\t\t? \"selected-news-filter\"\n\t\t\t\t\t\t\t\t\t\t\t\t\t: \"\"\n\t\t\t\t\t\t\t\t\t\t\t}`}\n\t\t\t\t\t\t\t\t\t\t\tonClick={() => setFilterType(0)}>\n\t\t\t\t\t\t\t\t\t\t\tSee all\n\t\t\t\t\t\t\t\t\t\t</a>\n\t\t\t\t\t\t\t\t\t\t{availableCategories\n\t\t\t\t\t\t\t\t\t\t\t?.filter(\n\t\t\t\t\t\t\t\t\t\t\t\t(category) =>\n\t\t\t\t\t\t\t\t\t\t\t\t\tcategory?.name !==\n\t\t\t\t\t\t\t\t\t\t\t\t\t\"Uncategorized\"\n\t\t\t\t\t\t\t\t\t\t\t)\n\t\t\t\t\t\t\t\t\t\t\t.map((category, index) => (\n\t\t\t\t\t\t\t\t\t\t\t\t<a\n\t\t\t\t\t\t\t\t\t\t\t\t\tclassName={`news-filter ${\n\t\t\t\t\t\t\t\t\t\t\t\t\t\tcategory?.id ===\n\t\t\t\t\t\t\t\t\t\t\t\t\t\tfilterType\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t? \"selected-news-filter\"\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t: \"\"\n\t\t\t\t\t\t\t\t\t\t\t\t\t}`}\n\t\t\t\t\t\t\t\t\t\t\t\t\tonClick={() =>\n\t\t\t\t\t\t\t\t\t\t\t\t\t\thandleFilterType(\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tcategory?.id\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t)\n\t\t\t\t\t\t\t\t\t\t\t\t\t}\n\t\t\t\t\t\t\t\t\t\t\t\t\tkey={index} >\n\t\t\t\t\t\t\t\t\t\t\t\t\t{category?.name}\n\t\t\t\t\t\t\t\t\t\t\t\t</a>\n\t\t\t\t\t\t\t\t\t\t\t))}\n\t\t\t\t\t\t\t\t\t</li>\n\t\t\t\t\t\t\t\t) : (\n\t\t\t\t\t\t\t\t\t<div className=\"newsletter-filter-container\">\n\t\t\t\t\t\t\t\t\t\t<div\n\t\t\t\t\t\t\t\t\t\t\tclassName=\"newsletter-filter-mobile\"\n\t\t\t\t\t\t\t\t\t\t\tonClick={handleFilterPopup}>\n\t\t\t\t\t\t\t\t\t\t\t<img\n\t\t\t\t\t\t\t\t\t\t\t\tsrc={filterIcon}\n\t\t\t\t\t\t\t\t\t\t\t\talt=\"Filter icon\"\n\t\t\t\t\t\t\t\t\t\t\t/>\n\t\t\t\t\t\t\t\t\t\t\t<p>Filter</p>\n\t\t\t\t\t\t\t\t\t\t</div>\n\t\t\t\t\t\t\t\t\t\t{filterPopup && (\n\t\t\t\t\t\t\t\t\t\t\t<div\n\t\t\t\t\t\t\t\t\t\t\t\tclassName=\"popup\"\n\t\t\t\t\t\t\t\t\t\t\t\tonMouseLeave={() =>\n\t\t\t\t\t\t\t\t\t\t\t\t\tsetFilterPopup(false)\n\t\t\t\t\t\t\t\t\t\t\t\t}>\n\t\t\t\t\t\t\t\t\t\t\t\t{availableCategories\n\t\t\t\t\t\t\t\t\t\t\t\t\t?.filter(\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t(category) =>\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tcategory?.name !==\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\"Uncategorized\"\n\t\t\t\t\t\t\t\t\t\t\t\t\t)\n\t\t\t\t\t\t\t\t\t\t\t\t\t.map((category, index) => (\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t<div key={index}>\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t{/* Check if the category is the selected one */}\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t{category?.id ===\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tfilterType ? (\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t// Render the SVG checkmark when category is selected\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t<img\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tonClick={() =>\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\thandleFilterType(\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tcategory?.id\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t)\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t}\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tsrc={\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tticked_checkbox\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t}\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tclassName=\"ticked-circle\"\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\talt=\"Ticked checkbox\"\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t/>\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t) : (\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t// Render an empty circle when the category is not selected\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t<span className=\"empty-circle\"></span>\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t)}\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t<a\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tclassName={`underline ${\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tcategory?.id ===\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tfilterType\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t? \"selected-category\"\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t: \"\"\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t}`}\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tonClick={() =>\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\thandleFilterType(\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tcategory?.id\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t)\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t}>\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t{category?.name}\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t</a>\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t</div>\n\t\t\t\t\t\t\t\t\t\t\t\t\t))}\n\t\t\t\t\t\t\t\t\t\t\t</div>\n\t\t\t\t\t\t\t\t\t\t)}\n\t\t\t\t\t\t\t\t\t</div>\n\t\t\t\t\t\t\t\t)}\n\t\t\t\t\t\t\t</div>\n\t\t\t\t\t\t</div>\n\t\t\t\t\t\t<div className=\"newsletter-grid\">\n\t\t\t\t\t\t\t{filterType === 0\n\t\t\t\t\t\t\t\t? currentPosts.map((post, index) => (\n\t\t\t\t\t\t\t\t\t\t<NewsCard data={post} key={index} />\n\t\t\t\t\t\t\t\t  ))\n\t\t\t\t\t\t\t\t: currentPosts\n\t\t\t\t\t\t\t\t\t\t.filter((post) =>\n\t\t\t\t\t\t\t\t\t\t\tpost[\"news-categorie\"]?.includes(\n\t\t\t\t\t\t\t\t\t\t\t\tfilterType\n\t\t\t\t\t\t\t\t\t\t\t)\n\t\t\t\t\t\t\t\t\t\t)\n\t\t\t\t\t\t\t\t\t\t.map((post, index) => (\n\t\t\t\t\t\t\t\t\t\t\t<NewsCard data={post} key={index} />\n\t\t\t\t\t\t\t\t\t\t))}\n\t\t\t\t\t\t</div>\n\n\t\t\t\t\t\t<div className=\"newsletter-pagination\">\n\t\t\t\t\t\t\t<div></div>\n\t\t\t\t\t\t\t<div className=\"newsletter-pagination-page-changer\">\n\t\t\t\t\t\t\t\t<IoIosArrowBack\n\t\t\t\t\t\t\t\t\tonClick={() =>\n\t\t\t\t\t\t\t\t\t\thandlePageChange(currentPage - 1)\n\t\t\t\t\t\t\t\t\t}\n\t\t\t\t\t\t\t\t\tclassName={\n\t\t\t\t\t\t\t\t\t\tcurrentPage === 1 ? \"disabled\" : \"\"\n\t\t\t\t\t\t\t\t\t}\n\t\t\t\t\t\t\t\t/>\n\t\t\t\t\t\t\t\t<div className=\"newsletter-pagination-numbers\">\n\t\t\t\t\t\t\t\t\t{Array.from({ length: totalPages }).map(\n\t\t\t\t\t\t\t\t\t\t(_, index) => {\n\t\t\t\t\t\t\t\t\t\t\tindex = index + 1;\n\n\t\t\t\t\t\t\t\t\t\t\t// Case for displaying buttons 1 to 5 when totalPages is 5 or less\n\t\t\t\t\t\t\t\t\t\t\tif (totalPages <= 3) {\n\t\t\t\t\t\t\t\t\t\t\t\treturn (\n\t\t\t\t\t\t\t\t\t\t\t\t\t<button\n\t\t\t\t\t\t\t\t\t\t\t\t\t\tkey={index}\n\t\t\t\t\t\t\t\t\t\t\t\t\t\tonClick={() =>\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\thandlePageChange(\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tindex\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t)\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t}\n\t\t\t\t\t\t\t\t\t\t\t\t\t\tclassName={\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tcurrentPage ===\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tindex\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t? \"active\"\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t: \"\"\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t}>\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t{index}\n\t\t\t\t\t\t\t\t\t\t\t\t\t</button>\n\t\t\t\t\t\t\t\t\t\t\t\t);\n\t\t\t\t\t\t\t\t\t\t\t}\n\n\t\t\t\t\t\t\t\t\t\t\t// Case for displaying buttons with ellipsis when totalPages is greater than 5\n\t\t\t\t\t\t\t\t\t\t\telse {\n\t\t\t\t\t\t\t\t\t\t\t\t// Flag to track if ellipsis is displayed\n\n\t\t\t\t\t\t\t\t\t\t\t\t// Displaying buttons 1, 2, ..., 5 and the last page\n\t\t\t\t\t\t\t\t\t\t\t\tif (\n\t\t\t\t\t\t\t\t\t\t\t\t\tindex === currentPage + 1 ||\n\t\t\t\t\t\t\t\t\t\t\t\t\tindex === currentPage - 1 ||\n\t\t\t\t\t\t\t\t\t\t\t\t\tindex === currentPage ||\n\t\t\t\t\t\t\t\t\t\t\t\t\tindex === 1 ||\n\t\t\t\t\t\t\t\t\t\t\t\t\tindex === totalPages\n\t\t\t\t\t\t\t\t\t\t\t\t) {\n\t\t\t\t\t\t\t\t\t\t\t\t\t// If the current button is one of the above, show the page number\n\t\t\t\t\t\t\t\t\t\t\t\t\tdisplayEllipsis = false;\n\t\t\t\t\t\t\t\t\t\t\t\t\treturn (\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t<button\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tkey={index}\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tonClick={() =>\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\thandlePageChange(\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tindex\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t)\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t}\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tclassName={\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tcurrentPage ===\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\tindex\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t? \"active\"\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t: \"\"\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t}>\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t{index}\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t</button>\n\t\t\t\t\t\t\t\t\t\t\t\t\t);\n\t\t\t\t\t\t\t\t\t\t\t\t} else if (\n\t\t\t\t\t\t\t\t\t\t\t\t\tindex >= currentPage + 2 ||\n\t\t\t\t\t\t\t\t\t\t\t\t\tindex <= currentPage - 2\n\t\t\t\t\t\t\t\t\t\t\t\t) {\n\t\t\t\t\t\t\t\t\t\t\t\t\t// If the current button is two positions away from the selected page, show an ellipsis\n\n\t\t\t\t\t\t\t\t\t\t\t\t\tif (\n\t\t\t\t\t\t\t\t\t\t\t\t\t\tdisplayEllipsis === true\n\t\t\t\t\t\t\t\t\t\t\t\t\t) {\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t// If the ellipsis flag is true, skip the affected indexes by returning null\n\t\t\t\t\t\t\t\t\t\t\t\t\t\treturn null;\n\t\t\t\t\t\t\t\t\t\t\t\t\t} else {\n\t\t\t\t\t\t\t\t\t\t\t\t\t\tdisplayEllipsis = true;\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t// Otherwise, render the index as a button\n\t\t\t\t\t\t\t\t\t\t\t\t\t\treturn <span>...</span>;\n\t\t\t\t\t\t\t\t\t\t\t\t\t}\n\t\t\t\t\t\t\t\t\t\t\t\t}\n\t\t\t\t\t\t\t\t\t\t\t}\n\t\t\t\t\t\t\t\t\t\t}\n\t\t\t\t\t\t\t\t\t)}\n\t\t\t\t\t\t\t\t</div>\n\t\t\t\t\t\t\t\t<IoIosArrowForward\n\t\t\t\t\t\t\t\t\tonClick={() =>\n\t\t\t\t\t\t\t\t\t\thandlePageChange(currentPage + 1)\n\t\t\t\t\t\t\t\t\t}\n\t\t\t\t\t\t\t\t\tclassName={\n\t\t\t\t\t\t\t\t\t\tcurrentPage === totalPages\n\t\t\t\t\t\t\t\t\t\t\t? \"disabled\"\n\t\t\t\t\t\t\t\t\t\t\t: \"\"\n\t\t\t\t\t\t\t\t\t}\n\t\t\t\t\t\t\t\t/>\n\t\t\t\t\t\t\t</div>\n\t\t\t\t\t\t\t{!isMobile && (\n\t\t\t\t\t\t\t\t<div className=\"newsletter-pagination-page-counter\">\n\t\t\t\t\t\t\t\t\t<p>Results:</p>\n\t\t\t\t\t\t\t\t\t{Array.from({ length: totalPages }).map(\n\t\t\t\t\t\t\t\t\t\t(_, index) => {\n\t\t\t\t\t\t\t\t\t\t\tconst pageStart =\n\t\t\t\t\t\t\t\t\t\t\t\tindex * postsPerPage + 1;\n\t\t\t\t\t\t\t\t\t\t\tconst pageEnd = Math.min(\n\t\t\t\t\t\t\t\t\t\t\t\t(index + 1) * postsPerPage,\n\t\t\t\t\t\t\t\t\t\t\t\ttotalPosts\n\t\t\t\t\t\t\t\t\t\t\t);\n\t\t\t\t\t\t\t\t\t\t\tconst currentPageStart =\n\t\t\t\t\t\t\t\t\t\t\t\t(currentPage - 1) *\n\t\t\t\t\t\t\t\t\t\t\t\t\tpostsPerPage +\n\t\t\t\t\t\t\t\t\t\t\t\t1;\n\t\t\t\t\t\t\t\t\t\t\tconst currentPageEnd = Math.min(\n\t\t\t\t\t\t\t\t\t\t\t\tcurrentPage * postsPerPage,\n\t\t\t\t\t\t\t\t\t\t\t\ttotalPosts\n\t\t\t\t\t\t\t\t\t\t\t);\n\n\t\t\t\t\t\t\t\t\t\t\tif (index === currentPage - 1) {\n\t\t\t\t\t\t\t\t\t\t\t\treturn (\n\t\t\t\t\t\t\t\t\t\t\t\t\t<p key={index}>\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t{currentPageStart} -{\" \"}\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t{currentPageEnd} of{\" \"}\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t{totalPosts}\n\t\t\t\t\t\t\t\t\t\t\t\t\t</p>\n\t\t\t\t\t\t\t\t\t\t\t\t);\n\t\t\t\t\t\t\t\t\t\t\t}\n\t\t\t\t\t\t\t\t\t\t\treturn null;\n\t\t\t\t\t\t\t\t\t\t}\n\t\t\t\t\t\t\t\t\t)}\n\t\t\t\t\t\t\t\t</div>\n\t\t\t\t\t\t\t)}\n\t\t\t\t\t\t</div>\n\t\t\t\t\t</div>\n\t\t\t\t\t{/* Pagination */}\n\t\t\t\t</section>\n\t\t\t</main>\n\t\t\t<footer>\n\t\t\t\t<Footer />\n\t\t\t</footer>\n\t\t</div>\n\t);\n};\n\nexport default NewsletterPage;\n","import React, { useState, useEffect } from \"react\";\nimport { useParams } from \"react-router-dom\";\nimport Navbar from \"../../components/Navbar/Navbar\";\nimport Footer from \"../../components/Footer/Footer\";\nimport \"./SingleFinancialPage.css\";\nimport { fetchData } from \"../../utility/utils\";\n\nimport { Viewer, Worker } from \"@react-pdf-viewer/core\";\nimport { defaultLayoutPlugin } from \"@react-pdf-viewer/default-layout\";\nimport \"@react-pdf-viewer/core/lib/styles/index.css\";\nimport \"@react-pdf-viewer/default-layout/lib/styles/index.css\";\n\nconst SingleFinancialPage = () => {\n\tconst { postSlug } = useParams();\n\tconst [availablePosts, setAvailablePosts] = useState([]);\n\tconst [selectedPost, setSelectedPost] = useState({});\n\tconst [postTitle, setPostTitle] = useState(\"\");\n\tconst [postDescription, setPostDescription] = useState(\"\");\n\tconst [postDate, setPostDate] = useState(\"\");\n\n\tconst [availableMedia, setAvailableMedia] = useState();\n\tconst [postMedia, setPostMedia] = useState(\"\");\n\n\tconst [availableCategories, setAvailableCategories] = useState([]);\n\tconst [postCategory, setPostCategory] = useState(\"\");\n\n\tconst newplugin = defaultLayoutPlugin();\n\n\t// Function to format date\n\tfunction formatDate(startDate, endDate) {\n\t\tconst startYear = startDate?.substring(0, 4);\n\t\tconst startMonth = parseInt(startDate?.substring(4, 6), 10);\n\t\tconst startDay = startDate?.substring(6, 8);\n\n\t\tconst endYear = endDate?.substring(0, 4);\n\t\tconst endMonth = parseInt(endDate?.substring(4, 6), 10);\n\t\tconst endDay = endDate?.substring(6, 8);\n\n\t\tconst months = [\n\t\t\t\"January\",\n\t\t\t\"February\",\n\t\t\t\"March\",\n\t\t\t\"April\",\n\t\t\t\"May\",\n\t\t\t\"June\",\n\t\t\t\"July\",\n\t\t\t\"August\",\n\t\t\t\"September\",\n\t\t\t\"October\",\n\t\t\t\"November\",\n\t\t\t\"December\",\n\t\t];\n\n\t\tif (startMonth === endMonth) {\n\t\t\treturn `${startDay} - ${endDay} ${\n\t\t\t\tmonths[startMonth - 1]\n\t\t\t} ${startYear}`;\n\t\t} else {\n\t\t\treturn `${startDay} ${months[startMonth - 1]} - ${endDay} ${\n\t\t\t\tmonths[endMonth - 1]\n\t\t\t} ${startYear}`;\n\t\t}\n\t}\n\n\t// Fetching posts and categories\n\tuseEffect(() => {\n\t\tfetchData(\"/wp-json/wp/v2/financial-archive\", setAvailablePosts);\n\t\tfetchData(\"/wp-json/wp/v2/media\", setAvailableMedia);\n\t\tfetchData(\"/wp-json/wp/v2/financial-categorie\", setAvailableCategories);\n\t}, []);\n\n\t// Update selected post and its details when availablePosts change\n\tuseEffect(() => {\n\t\tif (availablePosts) {\n\t\t\tconst post = availablePosts.find((post) => post?.slug === postSlug);\n\t\t\tsetSelectedPost(post);\n\n\t\t\tconst postTitle = post?.acf?.title;\n\t\t\tconst postDescription = post?.acf?.description.replaceAll(\n\t\t\t\t\"$N\",\n\t\t\t\t\"$n$n\"\n\t\t\t);\n\n\t\t\tconst postStartDate = post?.acf?.start_date;\n\t\t\tconst postEndDate = post?.acf?.end_date;\n\n\t\t\tsetPostTitle(postTitle);\n\t\t\tsetPostDescription(postDescription);\n\t\t\tsetPostDate(formatDate(postStartDate, postEndDate));\n\t\t}\n\t}, [availablePosts]);\n\n\tuseEffect(() => {\n\t\tif (availableMedia && selectedPost) {\n\t\t\tconst media = availableMedia?.find(\n\t\t\t\t(media) => media.id === selectedPost?.acf?.file\n\t\t\t);\n\t\t\tconst mediaUrl = media?.source_url;\n\t\t\tsetPostMedia(mediaUrl);\n\t\t}\n\t}, [availableMedia, selectedPost]);\n\n\t// Update post category when availableCategories and selectedPost change\n\tuseEffect(() => {\n\t\tif (availableCategories && selectedPost) {\n\t\t\tconst categories = availableCategories?.find(\n\t\t\t\t(category) =>\n\t\t\t\t\tcategory?.id === selectedPost[\"financial-categorie\"][0]\n\t\t\t);\n\t\t\tsetPostCategory(categories?.name);\n\t\t}\n\t}, [availableCategories, selectedPost]);\n\n\treturn (\n\t\t<div>\n\t\t\t<navbar>\n\t\t\t\t<Navbar />\n\t\t\t</navbar>\n\t\t\t<main className=\"singleN-container\">\n\t\t\t\t<div className=\"singleNew-top single-financial-desktop\">\n\t\t\t\t\t<p>Archives</p>\n\t\t\t\t\t<p>{\">\"}</p>\n\t\t\t\t\t<p>Financial</p>\n\t\t\t\t\t<p>{\">\"}</p>\n\t\t\t\t\t<p>{postCategory}</p>\n\t\t\t\t\t<p>{\">\"}</p>\n\t\t\t\t\t<p>{postTitle}</p>\n\t\t\t\t</div>\n\t\t\t\t<div className=\"singleN-content\">\n\t\t\t\t\t<div className=\"singleN-content-top\">\n\t\t\t\t\t\t<h1>{postTitle}</h1>\n\t\t\t\t\t\t<h2>{postDate}</h2>\n\t\t\t\t\t</div>\n\t\t\t\t\t<div className=\"singleN-content-bottom\">\n\t\t\t\t\t\t{postDescription?.split(\"$n\").map((line, index) => {\n\t\t\t\t\t\t\tconst updatedLine = line.replace(/\\r\\n/g, \"\");\n\t\t\t\t\t\t\tif (\n\t\t\t\t\t\t\t\tupdatedLine.startsWith(\"$**\") &&\n\t\t\t\t\t\t\t\tupdatedLine.endsWith(\"**$\")\n\t\t\t\t\t\t\t) {\n\t\t\t\t\t\t\t\tconst content = updatedLine.substring(\n\t\t\t\t\t\t\t\t\t3,\n\t\t\t\t\t\t\t\t\tupdatedLine.length - 3\n\t\t\t\t\t\t\t\t);\n\t\t\t\t\t\t\t\treturn <h2 key={index}>{content}</h2>;\n\t\t\t\t\t\t\t} else if (\n\t\t\t\t\t\t\t\tupdatedLine.startsWith(\"$*\") &&\n\t\t\t\t\t\t\t\tupdatedLine.endsWith(\"*$\")\n\t\t\t\t\t\t\t) {\n\t\t\t\t\t\t\t\tconst content = updatedLine.substring(\n\t\t\t\t\t\t\t\t\t2,\n\t\t\t\t\t\t\t\t\tupdatedLine.length - 2\n\t\t\t\t\t\t\t\t);\n\t\t\t\t\t\t\t\treturn <h3 key={index}>{content}</h3>;\n\t\t\t\t\t\t\t} else if (\n\t\t\t\t\t\t\t\t/\\$\\*(.*?)\\*\\$/.test(updatedLine) &&\n\t\t\t\t\t\t\t\t!updatedLine.startsWith(\"$*\")\n\t\t\t\t\t\t\t) {\n\t\t\t\t\t\t\t\tconst parts =\n\t\t\t\t\t\t\t\t\tupdatedLine.split(/\\$\\*(.*?)\\*\\$/);\n\n\t\t\t\t\t\t\t\tconst result = parts.map((part, index) => {\n\t\t\t\t\t\t\t\t\tif (index % 2 !== 0) {\n\t\t\t\t\t\t\t\t\t\treturn (\n\t\t\t\t\t\t\t\t\t\t\t<span\n\t\t\t\t\t\t\t\t\t\t\t\tclassName=\"bolded\"\n\t\t\t\t\t\t\t\t\t\t\t\tkey={index}>\n\t\t\t\t\t\t\t\t\t\t\t\t{part}\n\t\t\t\t\t\t\t\t\t\t\t</span>\n\t\t\t\t\t\t\t\t\t\t);\n\t\t\t\t\t\t\t\t\t} else {\n\t\t\t\t\t\t\t\t\t\treturn part;\n\t\t\t\t\t\t\t\t\t}\n\t\t\t\t\t\t\t\t});\n\t\t\t\t\t\t\t\treturn <p key={index}>{result}</p>;\n\t\t\t\t\t\t\t} else if (/\\$\\%(.*?)\\%\\$/.test(updatedLine)) {\n\t\t\t\t\t\t\t\tconst parts =\n\t\t\t\t\t\t\t\t\tupdatedLine.split(/\\$\\%(.*?)\\%\\$/);\n\n\t\t\t\t\t\t\t\tconst result = parts.map((part, index) => {\n\t\t\t\t\t\t\t\t\tif (index % 2 !== 0) {\n\t\t\t\t\t\t\t\t\t\treturn (\n\t\t\t\t\t\t\t\t\t\t\t<span\n\t\t\t\t\t\t\t\t\t\t\t\tclassName=\"italic\"\n\t\t\t\t\t\t\t\t\t\t\t\tkey={index}>\n\t\t\t\t\t\t\t\t\t\t\t\t{part}\n\t\t\t\t\t\t\t\t\t\t\t</span>\n\t\t\t\t\t\t\t\t\t\t);\n\t\t\t\t\t\t\t\t\t} else {\n\t\t\t\t\t\t\t\t\t\treturn part;\n\t\t\t\t\t\t\t\t\t}\n\t\t\t\t\t\t\t\t});\n\t\t\t\t\t\t\t\treturn <p key={index}>{result}</p>;\n\t\t\t\t\t\t\t} else if (/\\$\\_(.*?)\\_\\$/.test(updatedLine)) {\n\t\t\t\t\t\t\t\tconst parts =\n\t\t\t\t\t\t\t\t\tupdatedLine.split(/\\$\\_(.*?)\\_\\$/);\n\n\t\t\t\t\t\t\t\tconst result = parts.map((part, index) => {\n\t\t\t\t\t\t\t\t\tif (index % 2 !== 0) {\n\t\t\t\t\t\t\t\t\t\treturn (\n\t\t\t\t\t\t\t\t\t\t\t<span\n\t\t\t\t\t\t\t\t\t\t\t\tclassName=\"underlined\"\n\t\t\t\t\t\t\t\t\t\t\t\tkey={index}>\n\t\t\t\t\t\t\t\t\t\t\t\t{part}\n\t\t\t\t\t\t\t\t\t\t\t</span>\n\t\t\t\t\t\t\t\t\t\t);\n\t\t\t\t\t\t\t\t\t} else {\n\t\t\t\t\t\t\t\t\t\treturn part;\n\t\t\t\t\t\t\t\t\t}\n\t\t\t\t\t\t\t\t});\n\t\t\t\t\t\t\t\treturn <p key={index}>{result}</p>;\n\t\t\t\t\t\t\t} else if (\n\t\t\t\t\t\t\t\tupdatedLine.startsWith(\"$~\") &&\n\t\t\t\t\t\t\t\tupdatedLine.endsWith(\"~$\")\n\t\t\t\t\t\t\t) {\n\t\t\t\t\t\t\t\tconst content = updatedLine.substring(\n\t\t\t\t\t\t\t\t\t2,\n\t\t\t\t\t\t\t\t\tupdatedLine.length - 2\n\t\t\t\t\t\t\t\t);\n\t\t\t\t\t\t\t\treturn (\n\t\t\t\t\t\t\t\t\t<ul>\n\t\t\t\t\t\t\t\t\t\t<li key={index}>{content}</li>\n\t\t\t\t\t\t\t\t\t</ul>\n\t\t\t\t\t\t\t\t);\n\t\t\t\t\t\t\t} else if (\n\t\t\t\t\t\t\t\tupdatedLine.startsWith(\"$b\") &&\n\t\t\t\t\t\t\t\tupdatedLine.endsWith(\"b$\")\n\t\t\t\t\t\t\t) {\n\t\t\t\t\t\t\t\tconst content = updatedLine.substring(\n\t\t\t\t\t\t\t\t\t2,\n\t\t\t\t\t\t\t\t\tupdatedLine.length - 2\n\t\t\t\t\t\t\t\t);\n\t\t\t\t\t\t\t\treturn (\n\t\t\t\t\t\t\t\t\t<h3 className=\"blue\" key={index}>\n\t\t\t\t\t\t\t\t\t\t{content}\n\t\t\t\t\t\t\t\t\t</h3>\n\t\t\t\t\t\t\t\t);\n\t\t\t\t\t\t\t} else if (\n\t\t\t\t\t\t\t\tupdatedLine.startsWith(\"$file\") &&\n\t\t\t\t\t\t\t\tupdatedLine.endsWith(\"$\")\n\t\t\t\t\t\t\t) {\n\t\t\t\t\t\t\t\treturn (\n\t\t\t\t\t\t\t\t\t<Worker workerUrl=\"https://unpkg.com/pdfjs-dist@3.4.120/build/pdf.worker.min.js\">\n\t\t\t\t\t\t\t\t\t\t{postMedia ? (\n\t\t\t\t\t\t\t\t\t\t\t<Viewer\n\t\t\t\t\t\t\t\t\t\t\t\tfileUrl={postMedia}\n\t\t\t\t\t\t\t\t\t\t\t\tplugins={[newplugin]}\n\t\t\t\t\t\t\t\t\t\t\t/>\n\t\t\t\t\t\t\t\t\t\t) : null}\n\t\t\t\t\t\t\t\t\t</Worker>\n\t\t\t\t\t\t\t\t);\n\t\t\t\t\t\t\t} else if (/\\$\\>(.*?)\\<\\$/.test(updatedLine)) {\n\t\t\t\t\t\t\t\tconst parts =\n\t\t\t\t\t\t\t\t\tupdatedLine.split(/\\$\\>(.*?)\\<\\$/);\n\n\t\t\t\t\t\t\t\tconst result = parts.map((part, index) => {\n\t\t\t\t\t\t\t\t\tif (index % 2 !== 0) {\n\t\t\t\t\t\t\t\t\t\treturn (\n\t\t\t\t\t\t\t\t\t\t\t<a\n\t\t\t\t\t\t\t\t\t\t\t\thref={part}\n\t\t\t\t\t\t\t\t\t\t\t\tclassName=\"link-card\"\n\t\t\t\t\t\t\t\t\t\t\t\tkey={index}>\n\t\t\t\t\t\t\t\t\t\t\t\there\n\t\t\t\t\t\t\t\t\t\t\t</a>\n\t\t\t\t\t\t\t\t\t\t);\n\t\t\t\t\t\t\t\t\t} else {\n\t\t\t\t\t\t\t\t\t\treturn part;\n\t\t\t\t\t\t\t\t\t}\n\t\t\t\t\t\t\t\t});\n\t\t\t\t\t\t\t\treturn <p key={index}>{result}</p>;\n\t\t\t\t\t\t\t} else {\n\t\t\t\t\t\t\t\treturn <p key={index}>{updatedLine}</p>;\n\t\t\t\t\t\t\t}\n\t\t\t\t\t\t})}\n\t\t\t\t\t</div>\n\t\t\t\t</div>\n\t\t\t</main>\n\t\t\t<footer>\n\t\t\t\t<Footer />\n\t\t\t</footer>\n\t\t</div>\n\t);\n};\n\nexport default SingleFinancialPage;\n","import React, { useState, useEffect } from \"react\";\r\nimport { useParams } from \"react-router-dom\";\r\nimport Navbar from \"../../components/Navbar/Navbar\";\r\nimport Footer from \"../../components/Footer/Footer\";\r\nimport \"./SingleHighPage.css\";\r\nimport { fetchData, formatDescription } from \"../../utility/utils\";\r\n\r\nconst SingleHighPage = () => {\r\n\tconst { postSlug } = useParams();\r\n\tconst [availablePosts, setAvailablePosts] = useState([]);\r\n\tconst [selectedPost, setSelectedPost] = useState({});\r\n\tconst [postTitle, setPostTitle] = useState(\"\");\r\n\tconst [postImgDescription, setPostImgDescription] = useState(\"\");\r\n\tconst [postDescription, setPostDescription] = useState(\"\");\r\n\tconst [postDate, setPostDate] = useState(\"\");\r\n\r\n\tconst [availableMedia, setAvailableMedia] = useState();\r\n\tconst [postMedia, setPostMedia] = useState(\"\");\r\n\r\n\tconst [availableCategories, setAvailableCategories] = useState([]);\r\n\tconst [postCategory, setPostCategory] = useState(\"\");\r\n\r\n\tfunction formatDate(dateString) {\r\n\t\tconst year = dateString?.substring(0, 4);\r\n\t\tconst month = dateString?.substring(4, 6);\r\n\t\tconst day = dateString?.substring(6, 8);\r\n\r\n\t\treturn `${day}/${month}/${year}`;\r\n\t}\r\n\r\n\t// Posts fetching\r\n\tuseEffect(() => {\r\n\t\tfetchData(\"/wp-json/wp/v2/highlight\", setAvailablePosts);\r\n\t\tfetchData(\"/wp-json/wp/v2/media\", setAvailableMedia);\r\n\t\tfetchData(\"/wp-json/wp/v2/news-categorie\", setAvailableCategories);\r\n\t}, []);\r\n\r\n\tuseEffect(() => {\r\n\t\tif (availablePosts) {\r\n\t\t\tconst post = availablePosts.find((post) => post?.slug === postSlug);\r\n\t\t\tsetSelectedPost(post);\r\n\r\n\t\t\tconst postTitle = post?.acf?.title;\r\n\t\t\tconst postImgDescription = post?.acf?.imagedescription;\r\n\t\t\tconst postDescription = post?.acf?.description.replaceAll(\r\n\t\t\t\t\"$N\",\r\n\t\t\t\t\"$n$n\"\r\n\t\t\t);\r\n\r\n\t\t\tconst postDate = post?.acf?.date;\r\n\r\n\t\t\tsetPostTitle(postTitle);\r\n\t\t\tsetPostImgDescription(postImgDescription);\r\n\t\t\tsetPostDescription(postDescription);\r\n\t\t\tsetPostDate(postDate);\r\n\t\t}\r\n\t}, [availablePosts]);\r\n\r\n\tuseEffect(() => {\r\n\t\tif (availableMedia && selectedPost) {\r\n\t\t\tconst media = availableMedia?.find(\r\n\t\t\t\t(media) => media.id === selectedPost?.acf?.image\r\n\t\t\t);\r\n\t\t\tconst mediaUrl = media?.source_url;\r\n\t\t\tsetPostMedia(mediaUrl);\r\n\t\t}\r\n\t}, [availableMedia, selectedPost]);\r\n\r\n\tuseEffect(() => {\r\n\t\tif (availableCategories && selectedPost) {\r\n\t\t\tconst categories = availableCategories?.find(\r\n\t\t\t\t(category) => category?.id === selectedPost[\"news-categorie\"][0]\r\n\t\t\t);\r\n\t\t\tsetPostCategory(categories?.name);\r\n\t\t}\r\n\t}, [availableCategories, selectedPost]);\r\n\r\n\treturn (\r\n\t\t<div>\r\n\t\t\t<navbar>\r\n\t\t\t\t<Navbar />\r\n\t\t\t</navbar>\r\n\t\t\t{postMedia ? (\r\n\t\t\t\t<img className=\"single-news-mobile\" src={postMedia} alt=\"image\" />\r\n\t\t\t) : null}\r\n\t\t\t<main className=\"singleN-container\">\r\n\t\t\t\t<div className=\"singleNew-top single-news-desktop\">\r\n\t\t\t\t\t<p>Highlights</p>\r\n\t\t\t\t\t<p>{\">\"}</p>\r\n\t\t\t\t\t<p>{postCategory}</p>\r\n\t\t\t\t\t<p>{\">\"}</p>\r\n\t\t\t\t\t<p>{postTitle}</p>\r\n\t\t\t\t</div>\r\n\t\t\t\t{postMedia ? (\r\n\t\t\t\t\t<img className=\"single-news-desktop\" src={postMedia} alt=\"image\" />\r\n\t\t\t\t) : null}\r\n\t\t\t\t<span>{postImgDescription}</span>\r\n\t\t\t\t<div className=\"singleN-content\">\r\n\t\t\t\t\t<div className=\"singleN-content-top\">\r\n\t\t\t\t\t\t<h1>{postTitle}</h1>\r\n\t\t\t\t\t\t<h2>{formatDate(postDate)}</h2>\r\n\t\t\t\t\t</div>\r\n\t\t\t\t\t<div className=\"singleN-content-bottom\">\r\n\t\t\t\t\t\t{postDescription?.split(\"$n\").map((line, index) => {\r\n\t\t\t\t\t\t\tconst updatedLine = line.replace(/\\r\\n/g, \"\");\r\n\t\t\t\t\t\t\tif (\r\n\t\t\t\t\t\t\t\tupdatedLine.startsWith(\"$**\") &&\r\n\t\t\t\t\t\t\t\tupdatedLine.endsWith(\"**$\")\r\n\t\t\t\t\t\t\t) {\r\n\t\t\t\t\t\t\t\tconst content = updatedLine.substring(\r\n\t\t\t\t\t\t\t\t\t3,\r\n\t\t\t\t\t\t\t\t\tupdatedLine.length - 3\r\n\t\t\t\t\t\t\t\t);\r\n\t\t\t\t\t\t\t\treturn <h2 key={index}>{content}</h2>;\r\n\t\t\t\t\t\t\t} else if (\r\n\t\t\t\t\t\t\t\tupdatedLine.startsWith(\"$*\") &&\r\n\t\t\t\t\t\t\t\tupdatedLine.endsWith(\"*$\")\r\n\t\t\t\t\t\t\t) {\r\n\t\t\t\t\t\t\t\tconst content = updatedLine.substring(\r\n\t\t\t\t\t\t\t\t\t2,\r\n\t\t\t\t\t\t\t\t\tupdatedLine.length - 2\r\n\t\t\t\t\t\t\t\t);\r\n\t\t\t\t\t\t\t\treturn <h3 key={index}>{content}</h3>;\r\n\t\t\t\t\t\t\t} else if (\r\n\t\t\t\t\t\t\t\t/\\$\\*(.*?)\\*\\$/.test(updatedLine) &&\r\n\t\t\t\t\t\t\t\t!updatedLine.startsWith(\"$*\")\r\n\t\t\t\t\t\t\t) {\r\n\t\t\t\t\t\t\t\tconst parts =\r\n\t\t\t\t\t\t\t\t\tupdatedLine.split(/\\$\\*(.*?)\\*\\$/);\r\n\r\n\t\t\t\t\t\t\t\tconst result = parts.map((part, index) => {\r\n\t\t\t\t\t\t\t\t\tif (index % 2 !== 0) {\r\n\t\t\t\t\t\t\t\t\t\treturn (\r\n\t\t\t\t\t\t\t\t\t\t\t<span\r\n\t\t\t\t\t\t\t\t\t\t\t\tclassName=\"bolded\"\r\n\t\t\t\t\t\t\t\t\t\t\t\tkey={index}>\r\n\t\t\t\t\t\t\t\t\t\t\t\t{part}\r\n\t\t\t\t\t\t\t\t\t\t\t</span>\r\n\t\t\t\t\t\t\t\t\t\t);\r\n\t\t\t\t\t\t\t\t\t} else {\r\n\t\t\t\t\t\t\t\t\t\treturn part;\r\n\t\t\t\t\t\t\t\t\t}\r\n\t\t\t\t\t\t\t\t});\r\n\t\t\t\t\t\t\t\treturn <p key={index}>{result}</p>;\r\n\t\t\t\t\t\t\t} else if (/\\$\\%(.*?)\\%\\$/.test(updatedLine)) {\r\n\t\t\t\t\t\t\t\tconst parts =\r\n\t\t\t\t\t\t\t\t\tupdatedLine.split(/\\$\\%(.*?)\\%\\$/);\r\n\r\n\t\t\t\t\t\t\t\tconst result = parts.map((part, index) => {\r\n\t\t\t\t\t\t\t\t\tif (index % 2 !== 0) {\r\n\t\t\t\t\t\t\t\t\t\treturn (\r\n\t\t\t\t\t\t\t\t\t\t\t<span\r\n\t\t\t\t\t\t\t\t\t\t\t\tclassName=\"italic\"\r\n\t\t\t\t\t\t\t\t\t\t\t\tkey={index}>\r\n\t\t\t\t\t\t\t\t\t\t\t\t{part}\r\n\t\t\t\t\t\t\t\t\t\t\t</span>\r\n\t\t\t\t\t\t\t\t\t\t);\r\n\t\t\t\t\t\t\t\t\t} else {\r\n\t\t\t\t\t\t\t\t\t\treturn part;\r\n\t\t\t\t\t\t\t\t\t}\r\n\t\t\t\t\t\t\t\t});\r\n\t\t\t\t\t\t\t\treturn <p key={index}>{result}</p>;\r\n\t\t\t\t\t\t\t} else if (/\\$\\_(.*?)\\_\\$/.test(updatedLine)) {\r\n\t\t\t\t\t\t\t\tconst parts =\r\n\t\t\t\t\t\t\t\t\tupdatedLine.split(/\\$\\_(.*?)\\_\\$/);\r\n\r\n\t\t\t\t\t\t\t\tconst result = parts.map((part, index) => {\r\n\t\t\t\t\t\t\t\t\tif (index % 2 !== 0) {\r\n\t\t\t\t\t\t\t\t\t\treturn (\r\n\t\t\t\t\t\t\t\t\t\t\t<span\r\n\t\t\t\t\t\t\t\t\t\t\t\tclassName=\"underlined\"\r\n\t\t\t\t\t\t\t\t\t\t\t\tkey={index}>\r\n\t\t\t\t\t\t\t\t\t\t\t\t{part}\r\n\t\t\t\t\t\t\t\t\t\t\t</span>\r\n\t\t\t\t\t\t\t\t\t\t);\r\n\t\t\t\t\t\t\t\t\t} else {\r\n\t\t\t\t\t\t\t\t\t\treturn part;\r\n\t\t\t\t\t\t\t\t\t}\r\n\t\t\t\t\t\t\t\t});\r\n\t\t\t\t\t\t\t\treturn <p key={index}>{result}</p>;\r\n\t\t\t\t\t\t\t} else if (\r\n\t\t\t\t\t\t\t\tupdatedLine.startsWith(\"$~\") &&\r\n\t\t\t\t\t\t\t\tupdatedLine.endsWith(\"~$\")\r\n\t\t\t\t\t\t\t) {\r\n\t\t\t\t\t\t\t\tconst content = updatedLine.substring(\r\n\t\t\t\t\t\t\t\t\t2,\r\n\t\t\t\t\t\t\t\t\tupdatedLine.length - 2\r\n\t\t\t\t\t\t\t\t);\r\n\t\t\t\t\t\t\t\treturn (\r\n\t\t\t\t\t\t\t\t\t<ul>\r\n\t\t\t\t\t\t\t\t\t\t<li key={index}>{content}</li>\r\n\t\t\t\t\t\t\t\t\t</ul>\r\n\t\t\t\t\t\t\t\t);\r\n\t\t\t\t\t\t\t} else if (\r\n\t\t\t\t\t\t\t\tupdatedLine.startsWith(\"$b\") &&\r\n\t\t\t\t\t\t\t\tupdatedLine.endsWith(\"b$\")\r\n\t\t\t\t\t\t\t) {\r\n\t\t\t\t\t\t\t\tconst content = updatedLine.substring(\r\n\t\t\t\t\t\t\t\t\t2,\r\n\t\t\t\t\t\t\t\t\tupdatedLine.length - 2\r\n\t\t\t\t\t\t\t\t);\r\n\t\t\t\t\t\t\t\treturn (\r\n\t\t\t\t\t\t\t\t\t<h3 className=\"blue\" key={index}>\r\n\t\t\t\t\t\t\t\t\t\t{content}\r\n\t\t\t\t\t\t\t\t\t</h3>\r\n\t\t\t\t\t\t\t\t);\r\n\t\t\t\t\t\t\t} else if (\r\n\t\t\t\t\t\t\t\tupdatedLine.startsWith(\"$file\") &&\r\n\t\t\t\t\t\t\t\tupdatedLine.endsWith(\"$\")\r\n\t\t\t\t\t\t\t) {\r\n\t\t\t\t\t\t\t\treturn (\r\n\t\t\t\t\t\t\t\t\t<Worker workerUrl=\"https://unpkg.com/pdfjs-dist@3.4.120/build/pdf.worker.min.js\">\r\n\t\t\t\t\t\t\t\t\t\t{postMedia ? (\r\n\t\t\t\t\t\t\t\t\t\t\t<Viewer\r\n\t\t\t\t\t\t\t\t\t\t\t\tfileUrl={postMedia}\r\n\t\t\t\t\t\t\t\t\t\t\t\tplugins={[newplugin]}\r\n\t\t\t\t\t\t\t\t\t\t\t/>\r\n\t\t\t\t\t\t\t\t\t\t) : null}\r\n\t\t\t\t\t\t\t\t\t</Worker>\r\n\t\t\t\t\t\t\t\t);\r\n\t\t\t\t\t\t\t} else if (/\\$\\>(.*?)\\<\\$/.test(updatedLine)) {\r\n\t\t\t\t\t\t\t\tconst parts =\r\n\t\t\t\t\t\t\t\t\tupdatedLine.split(/\\$\\>(.*?)\\<\\$/);\r\n\r\n\t\t\t\t\t\t\t\tconst result = parts.map((part, index) => {\r\n\t\t\t\t\t\t\t\t\tif (index % 2 !== 0) {\r\n\t\t\t\t\t\t\t\t\t\treturn (\r\n\t\t\t\t\t\t\t\t\t\t\t<a\r\n\t\t\t\t\t\t\t\t\t\t\t\thref={part}\r\n\t\t\t\t\t\t\t\t\t\t\t\tclassName=\"link-card\"\r\n\t\t\t\t\t\t\t\t\t\t\t\tkey={index}>\r\n\t\t\t\t\t\t\t\t\t\t\t\there\r\n\t\t\t\t\t\t\t\t\t\t\t</a>\r\n\t\t\t\t\t\t\t\t\t\t);\r\n\t\t\t\t\t\t\t\t\t} else {\r\n\t\t\t\t\t\t\t\t\t\treturn part;\r\n\t\t\t\t\t\t\t\t\t}\r\n\t\t\t\t\t\t\t\t});\r\n\t\t\t\t\t\t\t\treturn <p key={index}>{result}</p>;\r\n\t\t\t\t\t\t\t} else {\r\n\t\t\t\t\t\t\t\treturn <p key={index}>{updatedLine}</p>;\r\n\t\t\t\t\t\t\t}\r\n\t\t\t\t\t\t})}\r\n\t\t\t\t\t</div>\r\n\t\t\t\t</div>\r\n\t\t\t</main>\r\n\t\t\t<footer>\r\n\t\t\t\t<Footer />\r\n\t\t\t</footer>\r\n\t\t</div>\r\n\t);\r\n};\r\n\r\nexport default SingleHighPage;\r\n","import React, { useState, useEffect } from \"react\";\r\nimport { useParams } from \"react-router-dom\";\r\nimport Navbar from \"../../components/Navbar/Navbar\";\r\nimport Footer from \"../../components/Footer/Footer\";\r\nimport { Document } from \"react-pdf\";\r\nimport \"./../SingleNewsPage/SingleNewsPage.css\";\r\nimport \"./SingleMeetsPage.css\";\r\nimport { fetchData } from \"../../utility/utils\";\r\n\r\nimport { Viewer, Worker } from \"@react-pdf-viewer/core\";\r\nimport { defaultLayoutPlugin } from \"@react-pdf-viewer/default-layout\";\r\nimport \"@react-pdf-viewer/core/lib/styles/index.css\";\r\nimport \"@react-pdf-viewer/default-layout/lib/styles/index.css\";\r\n\r\nconst SingleMeetsPage = () => {\r\n\tconst { postSlug } = useParams();\r\n\tconst [availablePosts, setAvailablePosts] = useState([]);\r\n\tconst [selectedPost, setSelectedPost] = useState({});\r\n\tconst [postTitle, setPostTitle] = useState(\"\");\r\n\tconst [postDescription, setPostDescription] = useState(\"\");\r\n\r\n\tconst [availableMedia, setAvailableMedia] = useState();\r\n\tconst [postMedia, setPostMedia] = useState(\"\");\r\n\r\n\tconst [availableCategories, setAvailableCategories] = useState([]);\r\n\tconst [postCategory, setPostCategory] = useState(\"\");\r\n\r\n\tconst newplugin = defaultLayoutPlugin();\r\n\r\n\t// Posts fetching\r\n\tuseEffect(() => {\r\n\t\tfetchData(\"/wp-json/wp/v2/meetings\", setAvailablePosts);\r\n\t\tfetchData(\"/wp-json/wp/v2/meetings-categories\", setAvailableCategories);\r\n\t\tfetchData(\"/wp-json/wp/v2/media\", setAvailableMedia);\r\n\t}, []);\r\n\r\n\tuseEffect(() => {\r\n\t\tif (availablePosts) {\r\n\t\t\tconst post = availablePosts.find((post) => post?.slug === postSlug);\r\n\t\t\tsetSelectedPost(post);\r\n\r\n\t\t\tconst postTitle = post?.acf?.title;\r\n\t\t\tconst postDescription = post?.acf?.description.replaceAll(\r\n\t\t\t\t\"$N\",\r\n\t\t\t\t\"$n$n\"\r\n\t\t\t);\r\n\r\n\t\t\tsetPostTitle(postTitle);\r\n\t\t\tsetPostDescription(postDescription);\r\n\t\t}\r\n\t}, [availablePosts]);\r\n\r\n\tuseEffect(() => {\r\n\t\tif (availableMedia && selectedPost) {\r\n\t\t\tconst media = availableMedia?.find(\r\n\t\t\t\t(media) => media?.id === selectedPost?.acf?.file\r\n\t\t\t);\r\n\t\t\tconst mediaUrl = media?.source_url;\r\n\t\t\tsetPostMedia(mediaUrl);\r\n\t\t}\r\n\t}, [availableMedia, selectedPost]);\r\n\r\n\tuseEffect(() => {\r\n\t\tif (availableCategories && selectedPost) {\r\n\t\t\tconst categories = availableCategories?.find(\r\n\t\t\t\t(category) =>\r\n\t\t\t\t\tcategory?.id === selectedPost[\"meetings-categories\"][0]\r\n\t\t\t);\r\n\t\t\tsetPostCategory(categories?.name);\r\n\t\t}\r\n\t}, [availableCategories, selectedPost]);\r\n\r\n\treturn (\r\n\t\t<div>\r\n\t\t\t<navbar>\r\n\t\t\t\t<Navbar />\r\n\t\t\t</navbar>\r\n\t\t\t<main className=\"singleN-container\">\r\n\t\t\t\t<div className=\"singleN-top single-meet-desktop\">\r\n\t\t\t\t\t<p>Conferences & Schools</p>\r\n\t\t\t\t\t<p>{\">\"}</p>\r\n\t\t\t\t\t<p>{postCategory}</p>\r\n\t\t\t\t\t<p>{\">\"}</p>\r\n\t\t\t\t\t<p>{postTitle}</p>\r\n\t\t\t\t</div>\r\n\t\t\t\t<div className=\"singleN-content\">\r\n\t\t\t\t\t<div className=\"singleN-content-top\">\r\n\t\t\t\t\t\t<h1>{postTitle}</h1>\r\n\t\t\t\t\t</div>\r\n\t\t\t\t\t<div className=\"singleN-content-bottom\">\r\n\t\t\t\t\t\t{postDescription?.split(\"$n\").map((line, index) => {\r\n\t\t\t\t\t\t\tconst updatedLine = line.replace(/\\r\\n/g, \"\");\r\n\t\t\t\t\t\t\tif (\r\n\t\t\t\t\t\t\t\tupdatedLine.startsWith(\"$**\") &&\r\n\t\t\t\t\t\t\t\tupdatedLine.endsWith(\"**$\")\r\n\t\t\t\t\t\t\t) {\r\n\t\t\t\t\t\t\t\tconst content = updatedLine.substring(\r\n\t\t\t\t\t\t\t\t\t3,\r\n\t\t\t\t\t\t\t\t\tupdatedLine.length - 3\r\n\t\t\t\t\t\t\t\t);\r\n\t\t\t\t\t\t\t\treturn <h2 key={index}>{content}</h2>;\r\n\t\t\t\t\t\t\t} else if (\r\n\t\t\t\t\t\t\t\tupdatedLine.startsWith(\"$*\") &&\r\n\t\t\t\t\t\t\t\tupdatedLine.endsWith(\"*$\")\r\n\t\t\t\t\t\t\t) {\r\n\t\t\t\t\t\t\t\tconst content = updatedLine.substring(\r\n\t\t\t\t\t\t\t\t\t2,\r\n\t\t\t\t\t\t\t\t\tupdatedLine.length - 2\r\n\t\t\t\t\t\t\t\t);\r\n\t\t\t\t\t\t\t\treturn <h3 key={index}>{content}</h3>;\r\n\t\t\t\t\t\t\t} else if (\r\n\t\t\t\t\t\t\t\t/\\$\\*(.*?)\\*\\$/.test(updatedLine) &&\r\n\t\t\t\t\t\t\t\t!updatedLine.startsWith(\"$*\")\r\n\t\t\t\t\t\t\t) {\r\n\t\t\t\t\t\t\t\tconst parts =\r\n\t\t\t\t\t\t\t\t\tupdatedLine.split(/\\$\\*(.*?)\\*\\$/);\r\n\r\n\t\t\t\t\t\t\t\tconst result = parts.map((part, index) => {\r\n\t\t\t\t\t\t\t\t\tif (index % 2 !== 0) {\r\n\t\t\t\t\t\t\t\t\t\treturn (\r\n\t\t\t\t\t\t\t\t\t\t\t<span\r\n\t\t\t\t\t\t\t\t\t\t\t\tclassName=\"bolded\"\r\n\t\t\t\t\t\t\t\t\t\t\t\tkey={index}>\r\n\t\t\t\t\t\t\t\t\t\t\t\t{part}\r\n\t\t\t\t\t\t\t\t\t\t\t</span>\r\n\t\t\t\t\t\t\t\t\t\t);\r\n\t\t\t\t\t\t\t\t\t} else {\r\n\t\t\t\t\t\t\t\t\t\treturn part;\r\n\t\t\t\t\t\t\t\t\t}\r\n\t\t\t\t\t\t\t\t});\r\n\t\t\t\t\t\t\t\treturn <p key={index}>{result}</p>;\r\n\t\t\t\t\t\t\t} else if (/\\$\\%(.*?)\\%\\$/.test(updatedLine)) {\r\n\t\t\t\t\t\t\t\tconst parts =\r\n\t\t\t\t\t\t\t\t\tupdatedLine.split(/\\$\\%(.*?)\\%\\$/);\r\n\r\n\t\t\t\t\t\t\t\tconst result = parts.map((part, index) => {\r\n\t\t\t\t\t\t\t\t\tif (index % 2 !== 0) {\r\n\t\t\t\t\t\t\t\t\t\treturn (\r\n\t\t\t\t\t\t\t\t\t\t\t<span\r\n\t\t\t\t\t\t\t\t\t\t\t\tclassName=\"italic\"\r\n\t\t\t\t\t\t\t\t\t\t\t\tkey={index}>\r\n\t\t\t\t\t\t\t\t\t\t\t\t{part}\r\n\t\t\t\t\t\t\t\t\t\t\t</span>\r\n\t\t\t\t\t\t\t\t\t\t);\r\n\t\t\t\t\t\t\t\t\t} else {\r\n\t\t\t\t\t\t\t\t\t\treturn part;\r\n\t\t\t\t\t\t\t\t\t}\r\n\t\t\t\t\t\t\t\t});\r\n\t\t\t\t\t\t\t\treturn <p key={index}>{result}</p>;\r\n\t\t\t\t\t\t\t} else if (/\\$\\_(.*?)\\_\\$/.test(updatedLine)) {\r\n\t\t\t\t\t\t\t\tconst parts =\r\n\t\t\t\t\t\t\t\t\tupdatedLine.split(/\\$\\_(.*?)\\_\\$/);\r\n\r\n\t\t\t\t\t\t\t\tconst result = parts.map((part, index) => {\r\n\t\t\t\t\t\t\t\t\tif (index % 2 !== 0) {\r\n\t\t\t\t\t\t\t\t\t\treturn (\r\n\t\t\t\t\t\t\t\t\t\t\t<span\r\n\t\t\t\t\t\t\t\t\t\t\t\tclassName=\"underlined\"\r\n\t\t\t\t\t\t\t\t\t\t\t\tkey={index}>\r\n\t\t\t\t\t\t\t\t\t\t\t\t{part}\r\n\t\t\t\t\t\t\t\t\t\t\t</span>\r\n\t\t\t\t\t\t\t\t\t\t);\r\n\t\t\t\t\t\t\t\t\t} else {\r\n\t\t\t\t\t\t\t\t\t\treturn part;\r\n\t\t\t\t\t\t\t\t\t}\r\n\t\t\t\t\t\t\t\t});\r\n\t\t\t\t\t\t\t\treturn <p key={index}>{result}</p>;\r\n\t\t\t\t\t\t\t} else if (\r\n\t\t\t\t\t\t\t\tupdatedLine.startsWith(\"$~\") &&\r\n\t\t\t\t\t\t\t\tupdatedLine.endsWith(\"~$\")\r\n\t\t\t\t\t\t\t) {\r\n\t\t\t\t\t\t\t\tconst content = updatedLine.substring(\r\n\t\t\t\t\t\t\t\t\t2,\r\n\t\t\t\t\t\t\t\t\tupdatedLine.length - 2\r\n\t\t\t\t\t\t\t\t);\r\n\t\t\t\t\t\t\t\treturn (\r\n\t\t\t\t\t\t\t\t\t<ul>\r\n\t\t\t\t\t\t\t\t\t\t<li key={index}>{content}</li>\r\n\t\t\t\t\t\t\t\t\t</ul>\r\n\t\t\t\t\t\t\t\t);\r\n\t\t\t\t\t\t\t} else if (\r\n\t\t\t\t\t\t\t\tupdatedLine.startsWith(\"$b\") &&\r\n\t\t\t\t\t\t\t\tupdatedLine.endsWith(\"b$\")\r\n\t\t\t\t\t\t\t) {\r\n\t\t\t\t\t\t\t\tconst content = updatedLine.substring(\r\n\t\t\t\t\t\t\t\t\t2,\r\n\t\t\t\t\t\t\t\t\tupdatedLine.length - 2\r\n\t\t\t\t\t\t\t\t);\r\n\t\t\t\t\t\t\t\treturn (\r\n\t\t\t\t\t\t\t\t\t<h3 className=\"blue\" key={index}>\r\n\t\t\t\t\t\t\t\t\t\t{content}\r\n\t\t\t\t\t\t\t\t\t</h3>\r\n\t\t\t\t\t\t\t\t);\r\n\t\t\t\t\t\t\t} else if (\r\n\t\t\t\t\t\t\t\tupdatedLine.startsWith(\"$file\") &&\r\n\t\t\t\t\t\t\t\tupdatedLine.endsWith(\"$\")\r\n\t\t\t\t\t\t\t) {\r\n\t\t\t\t\t\t\t\treturn (\r\n\t\t\t\t\t\t\t\t\t<Worker workerUrl=\"https://unpkg.com/pdfjs-dist@3.4.120/build/pdf.worker.min.js\">\r\n\t\t\t\t\t\t\t\t\t\t{postMedia ? (\r\n\t\t\t\t\t\t\t\t\t\t\t<Viewer\r\n\t\t\t\t\t\t\t\t\t\t\t\tfileUrl={postMedia}\r\n\t\t\t\t\t\t\t\t\t\t\t\tplugins={[newplugin]}\r\n\t\t\t\t\t\t\t\t\t\t\t/>\r\n\t\t\t\t\t\t\t\t\t\t) : null}\r\n\t\t\t\t\t\t\t\t\t</Worker>\r\n\t\t\t\t\t\t\t\t);\r\n\t\t\t\t\t\t\t} else if (/\\$\\>(.*?)\\<\\$/.test(updatedLine)) {\r\n\t\t\t\t\t\t\t\tconst parts =\r\n\t\t\t\t\t\t\t\t\tupdatedLine.split(/\\$\\>(.*?)\\<\\$/);\r\n\r\n\t\t\t\t\t\t\t\tconst result = parts.map((part, index) => {\r\n\t\t\t\t\t\t\t\t\tif (index % 2 !== 0) {\r\n\t\t\t\t\t\t\t\t\t\treturn (\r\n\t\t\t\t\t\t\t\t\t\t\t<a\r\n\t\t\t\t\t\t\t\t\t\t\t\thref={part}\r\n\t\t\t\t\t\t\t\t\t\t\t\tclassName=\"link-card\"\r\n\t\t\t\t\t\t\t\t\t\t\t\tkey={index}>\r\n\t\t\t\t\t\t\t\t\t\t\t\there\r\n\t\t\t\t\t\t\t\t\t\t\t</a>\r\n\t\t\t\t\t\t\t\t\t\t);\r\n\t\t\t\t\t\t\t\t\t} else {\r\n\t\t\t\t\t\t\t\t\t\treturn part;\r\n\t\t\t\t\t\t\t\t\t}\r\n\t\t\t\t\t\t\t\t});\r\n\t\t\t\t\t\t\t\treturn <p key={index}>{result}</p>;\r\n\t\t\t\t\t\t\t} else {\r\n\t\t\t\t\t\t\t\treturn <p key={index}>{updatedLine}</p>;\r\n\t\t\t\t\t\t\t}\r\n\t\t\t\t\t\t})}\r\n\t\t\t\t\t</div>\r\n\t\t\t\t</div>\r\n\t\t\t</main>\r\n\t\t\t<footer>\r\n\t\t\t\t<Footer />\r\n\t\t\t</footer>\r\n\t\t</div>\r\n\t);\r\n};\r\n\r\nexport default SingleMeetsPage;\r\n","import React, { useState, useEffect } from \"react\";\r\nimport { useParams } from \"react-router-dom\";\r\nimport Navbar from \"../../components/Navbar/Navbar\";\r\nimport Footer from \"../../components/Footer/Footer\";\r\nimport \"./SingleNewsPage.css\";\r\nimport { fetchData, formatDescription } from \"../../utility/utils\";\r\n\r\nconst SingleNewsPage = () => {\r\n\tconst { postSlug } = useParams();\r\n\tconst [availablePosts, setAvailablePosts] = useState([]);\r\n\tconst [selectedPost, setSelectedPost] = useState({});\r\n\tconst [postTitle, setPostTitle] = useState(\"\");\r\n\tconst [postImgDescription, setPostImgDescription] = useState(\"\");\r\n\tconst [postDescription, setPostDescription] = useState(\"\");\r\n\tconst [postDate, setPostDate] = useState(\"\");\r\n\r\n\tconst [availableMedia, setAvailableMedia] = useState();\r\n\tconst [postMedia, setPostMedia] = useState(\"\");\r\n\r\n\tconst [availableCategories, setAvailableCategories] = useState([]);\r\n\tconst [postCategory, setPostCategory] = useState(\"\");\r\n\r\n\tfunction formatDate(dateString) {\r\n\t\tconst year = dateString?.substring(0, 4);\r\n\t\tconst month = dateString?.substring(4, 6);\r\n\t\tconst day = dateString?.substring(6, 8);\r\n\r\n\t\treturn `${day}/${month}/${year}`;\r\n\t}\r\n\r\n\t// Posts fetching\r\n\tuseEffect(() => {\r\n\t\tfetchData(\"/wp-json/wp/v2/news-archive\", setAvailablePosts);\r\n\t\tfetchData(\"/wp-json/wp/v2/media\", setAvailableMedia);\r\n\t\tfetchData(\"/wp-json/wp/v2/news-categorie\", setAvailableCategories);\r\n\t}, []);\r\n\r\n\tuseEffect(() => {\r\n\t\tif (availablePosts) {\r\n\t\t\tconst post = availablePosts.find((post) => post?.slug === postSlug);\r\n\t\t\tsetSelectedPost(post);\r\n\r\n\t\t\tconst postTitle = post?.acf?.title;\r\n\t\t\tconst postImgDescription = post?.acf?.imagedescription;\r\n\t\t\tconst postDescription = post?.acf?.description.replaceAll(\r\n\t\t\t\t\"$N\",\r\n\t\t\t\t\"$n$n\"\r\n\t\t\t);\r\n\r\n\t\t\tconst postDate = post?.acf?.date;\r\n\r\n\t\t\tsetPostTitle(postTitle);\r\n\t\t\tsetPostImgDescription(postImgDescription);\r\n\t\t\tsetPostDescription(postDescription);\r\n\t\t\tsetPostDate(postDate);\r\n\t\t}\r\n\t}, [availablePosts]);\r\n\r\n\tuseEffect(() => {\r\n\t\tif (availableMedia && selectedPost) {\r\n\t\t\tconst media = availableMedia?.find(\r\n\t\t\t\t(media) => media.id === selectedPost?.acf?.image\r\n\t\t\t);\r\n\t\t\tconst mediaUrl = media?.source_url;\r\n\t\t\tsetPostMedia(mediaUrl);\r\n\t\t}\r\n\t}, [availableMedia, selectedPost]);\r\n\r\n\tuseEffect(() => {\r\n\t\tif (availableCategories && selectedPost) {\r\n\t\t\tconst categories = availableCategories?.find(\r\n\t\t\t\t(category) => category?.id === selectedPost[\"news-categorie\"][0]\r\n\t\t\t);\r\n\t\t\tsetPostCategory(categories?.name);\r\n\t\t}\r\n\t}, [availableCategories, selectedPost]);\r\n\r\n\treturn (\r\n\t\t<div>\r\n\t\t\t<navbar>\r\n\t\t\t\t<Navbar />\r\n\t\t\t</navbar>\r\n\t\t\t{postMedia ? (\r\n\t\t\t\t<img className=\"single-news-mobile\" src={postMedia} alt=\"image\" />\r\n\t\t\t) : null}\r\n\t\t\t<main className=\"singleN-container\">\r\n\t\t\t\t<div className=\"singleNew-top single-news-desktop\">\r\n\t\t\t\t\t<p>Archives</p>\r\n\t\t\t\t\t<p>{\">\"}</p>\r\n\t\t\t\t\t<p>News</p>\r\n\t\t\t\t\t<p>{\">\"}</p>\r\n\t\t\t\t\t<p>{postCategory}</p>\r\n\t\t\t\t\t<p>{\">\"}</p>\r\n\t\t\t\t\t<p>{postTitle}</p>\r\n\t\t\t\t</div>\r\n\t\t\t\t{postMedia ? (\r\n\t\t\t\t\t<img className=\"single-news-desktop\" src={postMedia} alt=\"image\" />\r\n\t\t\t\t) : null}\r\n\t\t\t\t<span>{postImgDescription}</span>\r\n\t\t\t\t<div className=\"singleN-content\">\r\n\t\t\t\t\t<div className=\"singleN-content-top\">\r\n\t\t\t\t\t\t<h1>{postTitle}</h1>\r\n\t\t\t\t\t\t<h2>{formatDate(postDate)}</h2>\r\n\t\t\t\t\t</div>\r\n\t\t\t\t\t<div className=\"singleN-content-bottom\">\r\n\t\t\t\t\t\t{postDescription?.split(\"$n\").map((line, index) => {\r\n\t\t\t\t\t\t\tconst updatedLine = line.replace(/\\r\\n/g, \"\");\r\n\t\t\t\t\t\t\tif (\r\n\t\t\t\t\t\t\t\tupdatedLine.startsWith(\"$**\") &&\r\n\t\t\t\t\t\t\t\tupdatedLine.endsWith(\"**$\")\r\n\t\t\t\t\t\t\t) {\r\n\t\t\t\t\t\t\t\tconst content = updatedLine.substring(\r\n\t\t\t\t\t\t\t\t\t3,\r\n\t\t\t\t\t\t\t\t\tupdatedLine.length - 3\r\n\t\t\t\t\t\t\t\t);\r\n\t\t\t\t\t\t\t\treturn <h2 key={index}>{content}</h2>;\r\n\t\t\t\t\t\t\t} else if (\r\n\t\t\t\t\t\t\t\tupdatedLine.startsWith(\"$*\") &&\r\n\t\t\t\t\t\t\t\tupdatedLine.endsWith(\"*$\")\r\n\t\t\t\t\t\t\t) {\r\n\t\t\t\t\t\t\t\tconst content = updatedLine.substring(\r\n\t\t\t\t\t\t\t\t\t2,\r\n\t\t\t\t\t\t\t\t\tupdatedLine.length - 2\r\n\t\t\t\t\t\t\t\t);\r\n\t\t\t\t\t\t\t\treturn <h3 key={index}>{content}</h3>;\r\n\t\t\t\t\t\t\t} else if (\r\n\t\t\t\t\t\t\t\t/\\$\\*(.*?)\\*\\$/.test(updatedLine) &&\r\n\t\t\t\t\t\t\t\t!updatedLine.startsWith(\"$*\")\r\n\t\t\t\t\t\t\t) {\r\n\t\t\t\t\t\t\t\tconst parts =\r\n\t\t\t\t\t\t\t\t\tupdatedLine.split(/\\$\\*(.*?)\\*\\$/);\r\n\r\n\t\t\t\t\t\t\t\tconst result = parts.map((part, index) => {\r\n\t\t\t\t\t\t\t\t\tif (index % 2 !== 0) {\r\n\t\t\t\t\t\t\t\t\t\treturn (\r\n\t\t\t\t\t\t\t\t\t\t\t<span\r\n\t\t\t\t\t\t\t\t\t\t\t\tclassName=\"bolded\"\r\n\t\t\t\t\t\t\t\t\t\t\t\tkey={index}>\r\n\t\t\t\t\t\t\t\t\t\t\t\t{part}\r\n\t\t\t\t\t\t\t\t\t\t\t</span>\r\n\t\t\t\t\t\t\t\t\t\t);\r\n\t\t\t\t\t\t\t\t\t} else {\r\n\t\t\t\t\t\t\t\t\t\treturn part;\r\n\t\t\t\t\t\t\t\t\t}\r\n\t\t\t\t\t\t\t\t});\r\n\t\t\t\t\t\t\t\treturn <p key={index}>{result}</p>;\r\n\t\t\t\t\t\t\t} else if (/\\$\\%(.*?)\\%\\$/.test(updatedLine)) {\r\n\t\t\t\t\t\t\t\tconst parts =\r\n\t\t\t\t\t\t\t\t\tupdatedLine.split(/\\$\\%(.*?)\\%\\$/);\r\n\r\n\t\t\t\t\t\t\t\tconst result = parts.map((part, index) => {\r\n\t\t\t\t\t\t\t\t\tif (index % 2 !== 0) {\r\n\t\t\t\t\t\t\t\t\t\treturn (\r\n\t\t\t\t\t\t\t\t\t\t\t<span\r\n\t\t\t\t\t\t\t\t\t\t\t\tclassName=\"italic\"\r\n\t\t\t\t\t\t\t\t\t\t\t\tkey={index}>\r\n\t\t\t\t\t\t\t\t\t\t\t\t{part}\r\n\t\t\t\t\t\t\t\t\t\t\t</span>\r\n\t\t\t\t\t\t\t\t\t\t);\r\n\t\t\t\t\t\t\t\t\t} else {\r\n\t\t\t\t\t\t\t\t\t\treturn part;\r\n\t\t\t\t\t\t\t\t\t}\r\n\t\t\t\t\t\t\t\t});\r\n\t\t\t\t\t\t\t\treturn <p key={index}>{result}</p>;\r\n\t\t\t\t\t\t\t} else if (/\\$\\_(.*?)\\_\\$/.test(updatedLine)) {\r\n\t\t\t\t\t\t\t\tconst parts =\r\n\t\t\t\t\t\t\t\t\tupdatedLine.split(/\\$\\_(.*?)\\_\\$/);\r\n\r\n\t\t\t\t\t\t\t\tconst result = parts.map((part, index) => {\r\n\t\t\t\t\t\t\t\t\tif (index % 2 !== 0) {\r\n\t\t\t\t\t\t\t\t\t\treturn (\r\n\t\t\t\t\t\t\t\t\t\t\t<span\r\n\t\t\t\t\t\t\t\t\t\t\t\tclassName=\"underlined\"\r\n\t\t\t\t\t\t\t\t\t\t\t\tkey={index}>\r\n\t\t\t\t\t\t\t\t\t\t\t\t{part}\r\n\t\t\t\t\t\t\t\t\t\t\t</span>\r\n\t\t\t\t\t\t\t\t\t\t);\r\n\t\t\t\t\t\t\t\t\t} else {\r\n\t\t\t\t\t\t\t\t\t\treturn part;\r\n\t\t\t\t\t\t\t\t\t}\r\n\t\t\t\t\t\t\t\t});\r\n\t\t\t\t\t\t\t\treturn <p key={index}>{result}</p>;\r\n\t\t\t\t\t\t\t} else if (\r\n\t\t\t\t\t\t\t\tupdatedLine.startsWith(\"$~\") &&\r\n\t\t\t\t\t\t\t\tupdatedLine.endsWith(\"~$\")\r\n\t\t\t\t\t\t\t) {\r\n\t\t\t\t\t\t\t\tconst content = updatedLine.substring(\r\n\t\t\t\t\t\t\t\t\t2,\r\n\t\t\t\t\t\t\t\t\tupdatedLine.length - 2\r\n\t\t\t\t\t\t\t\t);\r\n\t\t\t\t\t\t\t\treturn (\r\n\t\t\t\t\t\t\t\t\t<ul>\r\n\t\t\t\t\t\t\t\t\t\t<li key={index}>{content}</li>\r\n\t\t\t\t\t\t\t\t\t</ul>\r\n\t\t\t\t\t\t\t\t);\r\n\t\t\t\t\t\t\t} else if (\r\n\t\t\t\t\t\t\t\tupdatedLine.startsWith(\"$b\") &&\r\n\t\t\t\t\t\t\t\tupdatedLine.endsWith(\"b$\")\r\n\t\t\t\t\t\t\t) {\r\n\t\t\t\t\t\t\t\tconst content = updatedLine.substring(\r\n\t\t\t\t\t\t\t\t\t2,\r\n\t\t\t\t\t\t\t\t\tupdatedLine.length - 2\r\n\t\t\t\t\t\t\t\t);\r\n\t\t\t\t\t\t\t\treturn (\r\n\t\t\t\t\t\t\t\t\t<h3 className=\"blue\" key={index}>\r\n\t\t\t\t\t\t\t\t\t\t{content}\r\n\t\t\t\t\t\t\t\t\t</h3>\r\n\t\t\t\t\t\t\t\t);\r\n\t\t\t\t\t\t\t} else if (\r\n\t\t\t\t\t\t\t\tupdatedLine.startsWith(\"$file\") &&\r\n\t\t\t\t\t\t\t\tupdatedLine.endsWith(\"$\")\r\n\t\t\t\t\t\t\t) {\r\n\t\t\t\t\t\t\t\treturn (\r\n\t\t\t\t\t\t\t\t\t<Worker workerUrl=\"https://unpkg.com/pdfjs-dist@3.4.120/build/pdf.worker.min.js\">\r\n\t\t\t\t\t\t\t\t\t\t{postMedia ? (\r\n\t\t\t\t\t\t\t\t\t\t\t<Viewer\r\n\t\t\t\t\t\t\t\t\t\t\t\tfileUrl={postMedia}\r\n\t\t\t\t\t\t\t\t\t\t\t\tplugins={[newplugin]}\r\n\t\t\t\t\t\t\t\t\t\t\t/>\r\n\t\t\t\t\t\t\t\t\t\t) : null}\r\n\t\t\t\t\t\t\t\t\t</Worker>\r\n\t\t\t\t\t\t\t\t);\r\n\t\t\t\t\t\t\t} else if (/\\$\\>(.*?)\\<\\$/.test(updatedLine)) {\r\n\t\t\t\t\t\t\t\tconst parts =\r\n\t\t\t\t\t\t\t\t\tupdatedLine.split(/\\$\\>(.*?)\\<\\$/);\r\n\r\n\t\t\t\t\t\t\t\tconst result = parts.map((part, index) => {\r\n\t\t\t\t\t\t\t\t\tif (index % 2 !== 0) {\r\n\t\t\t\t\t\t\t\t\t\treturn (\r\n\t\t\t\t\t\t\t\t\t\t\t<a\r\n\t\t\t\t\t\t\t\t\t\t\t\thref={part}\r\n\t\t\t\t\t\t\t\t\t\t\t\tclassName=\"link-card\"\r\n\t\t\t\t\t\t\t\t\t\t\t\tkey={index}>\r\n\t\t\t\t\t\t\t\t\t\t\t\there\r\n\t\t\t\t\t\t\t\t\t\t\t</a>\r\n\t\t\t\t\t\t\t\t\t\t);\r\n\t\t\t\t\t\t\t\t\t} else {\r\n\t\t\t\t\t\t\t\t\t\treturn part;\r\n\t\t\t\t\t\t\t\t\t}\r\n\t\t\t\t\t\t\t\t});\r\n\t\t\t\t\t\t\t\treturn <p key={index}>{result}</p>;\r\n\t\t\t\t\t\t\t} else {\r\n\t\t\t\t\t\t\t\treturn <p key={index}>{updatedLine}</p>;\r\n\t\t\t\t\t\t\t}\r\n\t\t\t\t\t\t})}\r\n\t\t\t\t\t</div>\r\n\t\t\t\t</div>\r\n\t\t\t</main>\r\n\t\t\t<footer>\r\n\t\t\t\t<Footer />\r\n\t\t\t</footer>\r\n\t\t</div>\r\n\t);\r\n};\r\n\r\nexport default SingleNewsPage;\r\n","export const fetchData = async (url, setData) => {\r\n\tconst totalData = [];\r\n\tlet page = 1;\r\n\tconst perPage = 100;\r\n\tlet hasMoreData = true;\r\n\r\n\twhile (hasMoreData) {\r\n\t\tconst responseData = await fetch(\r\n\t\t\t`${url}?per_page=${perPage}&page=${page}`\r\n\t\t);\r\n\t\tconst data = await responseData.json();\r\n\r\n\t\tdata.length > 0 ? totalData.push(...data) : (hasMoreData = false);\r\n\r\n\t\tif (data.length < perPage) {\r\n\t\t\thasMoreData = false;\r\n\t\t} else {\r\n\t\t\tpage++;\r\n\t\t}\r\n\t}\r\n\r\n\tsetData(totalData);\r\n};\r\n","/*!\n\tCopyright (c) 2018 Jed Watson.\n\tLicensed under the MIT License (MIT), see\n\thttp://jedwatson.github.io/classnames\n*/\n/* global define */\n\n(function () {\n\t'use strict';\n\n\tvar hasOwn = {}.hasOwnProperty;\n\tvar nativeCodeString = '[native code]';\n\n\tfunction classNames() {\n\t\tvar classes = [];\n\n\t\tfor (var i = 0; i < arguments.length; i++) {\n\t\t\tvar arg = arguments[i];\n\t\t\tif (!arg) continue;\n\n\t\t\tvar argType = typeof arg;\n\n\t\t\tif (argType === 'string' || argType === 'number') {\n\t\t\t\tclasses.push(arg);\n\t\t\t} else if (Array.isArray(arg)) {\n\t\t\t\tif (arg.length) {\n\t\t\t\t\tvar inner = classNames.apply(null, arg);\n\t\t\t\t\tif (inner) {\n\t\t\t\t\t\tclasses.push(inner);\n\t\t\t\t\t}\n\t\t\t\t}\n\t\t\t} else if (argType === 'object') {\n\t\t\t\tif (arg.toString !== Object.prototype.toString && !arg.toString.toString().includes('[native code]')) {\n\t\t\t\t\tclasses.push(arg.toString());\n\t\t\t\t\tcontinue;\n\t\t\t\t}\n\n\t\t\t\tfor (var key in arg) {\n\t\t\t\t\tif (hasOwn.call(arg, key) && arg[key]) {\n\t\t\t\t\t\tclasses.push(key);\n\t\t\t\t\t}\n\t\t\t\t}\n\t\t\t}\n\t\t}\n\n\t\treturn classes.join(' ');\n\t}\n\n\tif (typeof module !== 'undefined' && module.exports) {\n\t\tclassNames.default = classNames;\n\t\tmodule.exports = classNames;\n\t} else if (typeof define === 'function' && typeof define.amd === 'object' && define.amd) {\n\t\t// register as 'classnames', consistent with npm package name\n\t\tdefine('classnames', [], function () {\n\t\t\treturn classNames;\n\t\t});\n\t} else {\n\t\twindow.classNames = classNames;\n\t}\n}());\n","// Copyright (c) 2017 Adobe Systems Incorporated. All rights reserved.\n//\n// Licensed under the Apache License, Version 2.0 (the \"License\");\n// you may not use this file except in compliance with the License.\n// You may obtain a copy of the License at\n//\n// http://www.apache.org/licenses/LICENSE-2.0\n//\n// Unless required by applicable law or agreed to in writing, software\n// distributed under the License is distributed on an \"AS IS\" BASIS,\n// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.\n// See the License for the specific language governing permissions and\n// limitations under the License.\n// ┌────────────────────────────────────────────────────────────┐ \\\\\n// │ Eve 0.5.4 - JavaScript Events Library                      │ \\\\\n// ├────────────────────────────────────────────────────────────┤ \\\\\n// │ Author Dmitry Baranovskiy (http://dmitry.baranovskiy.com/) │ \\\\\n// └────────────────────────────────────────────────────────────┘ \\\\\n\n(function (glob) {\n    var version = \"0.5.4\",\n        has = \"hasOwnProperty\",\n        separator = /[\\.\\/]/,\n        comaseparator = /\\s*,\\s*/,\n        wildcard = \"*\",\n        numsort = function (a, b) {\n            return a - b;\n        },\n        current_event,\n        stop,\n        events = {n: {}},\n        firstDefined = function () {\n            for (var i = 0, ii = this.length; i < ii; i++) {\n                if (typeof this[i] != \"undefined\") {\n                    return this[i];\n                }\n            }\n        },\n        lastDefined = function () {\n            var i = this.length;\n            while (--i) {\n                if (typeof this[i] != \"undefined\") {\n                    return this[i];\n                }\n            }\n        },\n        objtos = Object.prototype.toString,\n        Str = String,\n        isArray = Array.isArray || function (ar) {\n            return ar instanceof Array || objtos.call(ar) == \"[object Array]\";\n        },\n    /*\\\n     * eve\n     [ method ]\n\n     * Fires event with given `name`, given scope and other parameters.\n\n     - name (string) name of the *event*, dot (`.`) or slash (`/`) separated\n     - scope (object) context for the event handlers\n     - varargs (...) the rest of arguments will be sent to event handlers\n\n     = (object) array of returned values from the listeners. Array has two methods `.firstDefined()` and `.lastDefined()` to get first or last not `undefined` value.\n    \\*/\n        eve = function (name, scope) {\n            var oldstop = stop,\n                args = Array.prototype.slice.call(arguments, 2),\n                listeners = eve.listeners(name),\n                z = 0,\n                l,\n                indexed = [],\n                queue = {},\n                out = [],\n                ce = current_event;\n            out.firstDefined = firstDefined;\n            out.lastDefined = lastDefined;\n            current_event = name;\n            stop = 0;\n            for (var i = 0, ii = listeners.length; i < ii; i++) if (\"zIndex\" in listeners[i]) {\n                indexed.push(listeners[i].zIndex);\n                if (listeners[i].zIndex < 0) {\n                    queue[listeners[i].zIndex] = listeners[i];\n                }\n            }\n            indexed.sort(numsort);\n            while (indexed[z] < 0) {\n                l = queue[indexed[z++]];\n                out.push(l.apply(scope, args));\n                if (stop) {\n                    stop = oldstop;\n                    return out;\n                }\n            }\n            for (i = 0; i < ii; i++) {\n                l = listeners[i];\n                if (\"zIndex\" in l) {\n                    if (l.zIndex == indexed[z]) {\n                        out.push(l.apply(scope, args));\n                        if (stop) {\n                            break;\n                        }\n                        do {\n                            z++;\n                            l = queue[indexed[z]];\n                            l && out.push(l.apply(scope, args));\n                            if (stop) {\n                                break;\n                            }\n                        } while (l)\n                    } else {\n                        queue[l.zIndex] = l;\n                    }\n                } else {\n                    out.push(l.apply(scope, args));\n                    if (stop) {\n                        break;\n                    }\n                }\n            }\n            stop = oldstop;\n            current_event = ce;\n            return out;\n        };\n    // Undocumented. Debug only.\n    eve._events = events;\n    /*\\\n     * eve.listeners\n     [ method ]\n\n     * Internal method which gives you array of all event handlers that will be triggered by the given `name`.\n\n     - name (string) name of the event, dot (`.`) or slash (`/`) separated\n\n     = (array) array of event handlers\n    \\*/\n    eve.listeners = function (name) {\n        var names = isArray(name) ? name : name.split(separator),\n            e = events,\n            item,\n            items,\n            k,\n            i,\n            ii,\n            j,\n            jj,\n            nes,\n            es = [e],\n            out = [];\n        for (i = 0, ii = names.length; i < ii; i++) {\n            nes = [];\n            for (j = 0, jj = es.length; j < jj; j++) {\n                e = es[j].n;\n                items = [e[names[i]], e[wildcard]];\n                k = 2;\n                while (k--) {\n                    item = items[k];\n                    if (item) {\n                        nes.push(item);\n                        out = out.concat(item.f || []);\n                    }\n                }\n            }\n            es = nes;\n        }\n        return out;\n    };\n    /*\\\n     * eve.separator\n     [ method ]\n\n     * If for some reasons you don’t like default separators (`.` or `/`) you can specify yours\n     * here. Be aware that if you pass a string longer than one character it will be treated as\n     * a list of characters.\n\n     - separator (string) new separator. Empty string resets to default: `.` or `/`.\n    \\*/\n    eve.separator = function (sep) {\n        if (sep) {\n            sep = Str(sep).replace(/(?=[\\.\\^\\]\\[\\-])/g, \"\\\\\");\n            sep = \"[\" + sep + \"]\";\n            separator = new RegExp(sep);\n        } else {\n            separator = /[\\.\\/]/;\n        }\n    };\n    /*\\\n     * eve.on\n     [ method ]\n     **\n     * Binds given event handler with a given name. You can use wildcards “`*`” for the names:\n     | eve.on(\"*.under.*\", f);\n     | eve(\"mouse.under.floor\"); // triggers f\n     * Use @eve to trigger the listener.\n     **\n     - name (string) name of the event, dot (`.`) or slash (`/`) separated, with optional wildcards\n     - f (function) event handler function\n     **\n     - name (array) if you don’t want to use separators, you can use array of strings\n     - f (function) event handler function\n     **\n     = (function) returned function accepts a single numeric parameter that represents z-index of the handler. It is an optional feature and only used when you need to ensure that some subset of handlers will be invoked in a given order, despite of the order of assignment.\n     > Example:\n     | eve.on(\"mouse\", eatIt)(2);\n     | eve.on(\"mouse\", scream);\n     | eve.on(\"mouse\", catchIt)(1);\n     * This will ensure that `catchIt` function will be called before `eatIt`.\n     *\n     * If you want to put your handler before non-indexed handlers, specify a negative value.\n     * Note: I assume most of the time you don’t need to worry about z-index, but it’s nice to have this feature “just in case”.\n    \\*/\n    eve.on = function (name, f) {\n        if (typeof f != \"function\") {\n            return function () {};\n        }\n        var names = isArray(name) ? isArray(name[0]) ? name : [name] : Str(name).split(comaseparator);\n        for (var i = 0, ii = names.length; i < ii; i++) {\n            (function (name) {\n                var names = isArray(name) ? name : Str(name).split(separator),\n                    e = events,\n                    exist;\n                for (var i = 0, ii = names.length; i < ii; i++) {\n                    e = e.n;\n                    e = e.hasOwnProperty(names[i]) && e[names[i]] || (e[names[i]] = {n: {}});\n                }\n                e.f = e.f || [];\n                for (i = 0, ii = e.f.length; i < ii; i++) if (e.f[i] == f) {\n                    exist = true;\n                    break;\n                }\n                !exist && e.f.push(f);\n            }(names[i]));\n        }\n        return function (zIndex) {\n            if (+zIndex == +zIndex) {\n                f.zIndex = +zIndex;\n            }\n        };\n    };\n    /*\\\n     * eve.f\n     [ method ]\n     **\n     * Returns function that will fire given event with optional arguments.\n     * Arguments that will be passed to the result function will be also\n     * concated to the list of final arguments.\n     | el.onclick = eve.f(\"click\", 1, 2);\n     | eve.on(\"click\", function (a, b, c) {\n     |     console.log(a, b, c); // 1, 2, [event object]\n     | });\n     - event (string) event name\n     - varargs (…) and any other arguments\n     = (function) possible event handler function\n    \\*/\n    eve.f = function (event) {\n        var attrs = [].slice.call(arguments, 1);\n        return function () {\n            eve.apply(null, [event, null].concat(attrs).concat([].slice.call(arguments, 0)));\n        };\n    };\n    /*\\\n     * eve.stop\n     [ method ]\n     **\n     * Is used inside an event handler to stop the event, preventing any subsequent listeners from firing.\n    \\*/\n    eve.stop = function () {\n        stop = 1;\n    };\n    /*\\\n     * eve.nt\n     [ method ]\n     **\n     * Could be used inside event handler to figure out actual name of the event.\n     **\n     - subname (string) #optional subname of the event\n     **\n     = (string) name of the event, if `subname` is not specified\n     * or\n     = (boolean) `true`, if current event’s name contains `subname`\n    \\*/\n    eve.nt = function (subname) {\n        var cur = isArray(current_event) ? current_event.join(\".\") : current_event;\n        if (subname) {\n            return new RegExp(\"(?:\\\\.|\\\\/|^)\" + subname + \"(?:\\\\.|\\\\/|$)\").test(cur);\n        }\n        return cur;\n    };\n    /*\\\n     * eve.nts\n     [ method ]\n     **\n     * Could be used inside event handler to figure out actual name of the event.\n     **\n     **\n     = (array) names of the event\n    \\*/\n    eve.nts = function () {\n        return isArray(current_event) ? current_event : current_event.split(separator);\n    };\n    /*\\\n     * eve.off\n     [ method ]\n     **\n     * Removes given function from the list of event listeners assigned to given name.\n     * If no arguments specified all the events will be cleared.\n     **\n     - name (string) name of the event, dot (`.`) or slash (`/`) separated, with optional wildcards\n     - f (function) event handler function\n    \\*/\n    /*\\\n     * eve.unbind\n     [ method ]\n     **\n     * See @eve.off\n    \\*/\n    eve.off = eve.unbind = function (name, f) {\n        if (!name) {\n            eve._events = events = {n: {}};\n            return;\n        }\n        var names = isArray(name) ? isArray(name[0]) ? name : [name] : Str(name).split(comaseparator);\n        if (names.length > 1) {\n            for (var i = 0, ii = names.length; i < ii; i++) {\n                eve.off(names[i], f);\n            }\n            return;\n        }\n        names = isArray(name) ? name : Str(name).split(separator);\n        var e,\n            key,\n            splice,\n            i, ii, j, jj,\n            cur = [events],\n            inodes = [];\n        for (i = 0, ii = names.length; i < ii; i++) {\n            for (j = 0; j < cur.length; j += splice.length - 2) {\n                splice = [j, 1];\n                e = cur[j].n;\n                if (names[i] != wildcard) {\n                    if (e[names[i]]) {\n                        splice.push(e[names[i]]);\n                        inodes.unshift({\n                            n: e,\n                            name: names[i]\n                        });\n                    }\n                } else {\n                    for (key in e) if (e[has](key)) {\n                        splice.push(e[key]);\n                        inodes.unshift({\n                            n: e,\n                            name: key\n                        });\n                    }\n                }\n                cur.splice.apply(cur, splice);\n            }\n        }\n        for (i = 0, ii = cur.length; i < ii; i++) {\n            e = cur[i];\n            while (e.n) {\n                if (f) {\n                    if (e.f) {\n                        for (j = 0, jj = e.f.length; j < jj; j++) if (e.f[j] == f) {\n                            e.f.splice(j, 1);\n                            break;\n                        }\n                        !e.f.length && delete e.f;\n                    }\n                    for (key in e.n) if (e.n[has](key) && e.n[key].f) {\n                        var funcs = e.n[key].f;\n                        for (j = 0, jj = funcs.length; j < jj; j++) if (funcs[j] == f) {\n                            funcs.splice(j, 1);\n                            break;\n                        }\n                        !funcs.length && delete e.n[key].f;\n                    }\n                } else {\n                    delete e.f;\n                    for (key in e.n) if (e.n[has](key) && e.n[key].f) {\n                        delete e.n[key].f;\n                    }\n                }\n                e = e.n;\n            }\n        }\n        // prune inner nodes in path\n        prune: for (i = 0, ii = inodes.length; i < ii; i++) {\n            e = inodes[i];\n            for (key in e.n[e.name].f) {\n                // not empty (has listeners)\n                continue prune;\n            }\n            for (key in e.n[e.name].n) {\n                // not empty (has children)\n                continue prune;\n            }\n            // is empty\n            delete e.n[e.name];\n        }\n    };\n    /*\\\n     * eve.once\n     [ method ]\n     **\n     * Binds given event handler with a given name to only run once then unbind itself.\n     | eve.once(\"login\", f);\n     | eve(\"login\"); // triggers f\n     | eve(\"login\"); // no listeners\n     * Use @eve to trigger the listener.\n     **\n     - name (string) name of the event, dot (`.`) or slash (`/`) separated, with optional wildcards\n     - f (function) event handler function\n     **\n     = (function) same return function as @eve.on\n    \\*/\n    eve.once = function (name, f) {\n        var f2 = function () {\n            eve.off(name, f2);\n            return f.apply(this, arguments);\n        };\n        return eve.on(name, f2);\n    };\n    /*\\\n     * eve.version\n     [ property (string) ]\n     **\n     * Current version of the library.\n    \\*/\n    eve.version = version;\n    eve.toString = function () {\n        return \"You are running Eve \" + version;\n    };\n    glob.eve = eve;\n    typeof module != \"undefined\" && module.exports ? module.exports = eve : typeof define === \"function\" && define.amd ? define(\"eve\", [], function () { return eve; }) : glob.eve = eve;\n})(typeof window != \"undefined\" ? window : this);\n","'use strict';\n\nvar reactIs = require('react-is');\n\n/**\n * Copyright 2015, Yahoo! Inc.\n * Copyrights licensed under the New BSD License. See the accompanying LICENSE file for terms.\n */\nvar REACT_STATICS = {\n  childContextTypes: true,\n  contextType: true,\n  contextTypes: true,\n  defaultProps: true,\n  displayName: true,\n  getDefaultProps: true,\n  getDerivedStateFromError: true,\n  getDerivedStateFromProps: true,\n  mixins: true,\n  propTypes: true,\n  type: true\n};\nvar KNOWN_STATICS = {\n  name: true,\n  length: true,\n  prototype: true,\n  caller: true,\n  callee: true,\n  arguments: true,\n  arity: true\n};\nvar FORWARD_REF_STATICS = {\n  '$$typeof': true,\n  render: true,\n  defaultProps: true,\n  displayName: true,\n  propTypes: true\n};\nvar MEMO_STATICS = {\n  '$$typeof': true,\n  compare: true,\n  defaultProps: true,\n  displayName: true,\n  propTypes: true,\n  type: true\n};\nvar TYPE_STATICS = {};\nTYPE_STATICS[reactIs.ForwardRef] = FORWARD_REF_STATICS;\nTYPE_STATICS[reactIs.Memo] = MEMO_STATICS;\n\nfunction getStatics(component) {\n  // React v16.11 and below\n  if (reactIs.isMemo(component)) {\n    return MEMO_STATICS;\n  } // React v16.12 and above\n\n\n  return TYPE_STATICS[component['$$typeof']] || REACT_STATICS;\n}\n\nvar defineProperty = Object.defineProperty;\nvar getOwnPropertyNames = Object.getOwnPropertyNames;\nvar getOwnPropertySymbols = Object.getOwnPropertySymbols;\nvar getOwnPropertyDescriptor = Object.getOwnPropertyDescriptor;\nvar getPrototypeOf = Object.getPrototypeOf;\nvar objectPrototype = Object.prototype;\nfunction hoistNonReactStatics(targetComponent, sourceComponent, blacklist) {\n  if (typeof sourceComponent !== 'string') {\n    // don't hoist over string (html) components\n    if (objectPrototype) {\n      var inheritedComponent = getPrototypeOf(sourceComponent);\n\n      if (inheritedComponent && inheritedComponent !== objectPrototype) {\n        hoistNonReactStatics(targetComponent, inheritedComponent, blacklist);\n      }\n    }\n\n    var keys = getOwnPropertyNames(sourceComponent);\n\n    if (getOwnPropertySymbols) {\n      keys = keys.concat(getOwnPropertySymbols(sourceComponent));\n    }\n\n    var targetStatics = getStatics(targetComponent);\n    var sourceStatics = getStatics(sourceComponent);\n\n    for (var i = 0; i < keys.length; ++i) {\n      var key = keys[i];\n\n      if (!KNOWN_STATICS[key] && !(blacklist && blacklist[key]) && !(sourceStatics && sourceStatics[key]) && !(targetStatics && targetStatics[key])) {\n        var descriptor = getOwnPropertyDescriptor(sourceComponent, key);\n\n        try {\n          // Avoid failures from read-only properties\n          defineProperty(targetComponent, key, descriptor);\n        } catch (e) {}\n      }\n    }\n  }\n\n  return targetComponent;\n}\n\nmodule.exports = hoistNonReactStatics;\n","/** @license React v16.13.1\n * react-is.development.js\n *\n * Copyright (c) Facebook, Inc. and its affiliates.\n *\n * This source code is licensed under the MIT license found in the\n * LICENSE file in the root directory of this source tree.\n */\n\n'use strict';\n\n\n\nif (process.env.NODE_ENV !== \"production\") {\n  (function() {\n'use strict';\n\n// The Symbol used to tag the ReactElement-like types. If there is no native Symbol\n// nor polyfill, then a plain number is used for performance.\nvar hasSymbol = typeof Symbol === 'function' && Symbol.for;\nvar REACT_ELEMENT_TYPE = hasSymbol ? Symbol.for('react.element') : 0xeac7;\nvar REACT_PORTAL_TYPE = hasSymbol ? Symbol.for('react.portal') : 0xeaca;\nvar REACT_FRAGMENT_TYPE = hasSymbol ? Symbol.for('react.fragment') : 0xeacb;\nvar REACT_STRICT_MODE_TYPE = hasSymbol ? Symbol.for('react.strict_mode') : 0xeacc;\nvar REACT_PROFILER_TYPE = hasSymbol ? Symbol.for('react.profiler') : 0xead2;\nvar REACT_PROVIDER_TYPE = hasSymbol ? Symbol.for('react.provider') : 0xeacd;\nvar REACT_CONTEXT_TYPE = hasSymbol ? Symbol.for('react.context') : 0xeace; // TODO: We don't use AsyncMode or ConcurrentMode anymore. They were temporary\n// (unstable) APIs that have been removed. Can we remove the symbols?\n\nvar REACT_ASYNC_MODE_TYPE = hasSymbol ? Symbol.for('react.async_mode') : 0xeacf;\nvar REACT_CONCURRENT_MODE_TYPE = hasSymbol ? Symbol.for('react.concurrent_mode') : 0xeacf;\nvar REACT_FORWARD_REF_TYPE = hasSymbol ? Symbol.for('react.forward_ref') : 0xead0;\nvar REACT_SUSPENSE_TYPE = hasSymbol ? Symbol.for('react.suspense') : 0xead1;\nvar REACT_SUSPENSE_LIST_TYPE = hasSymbol ? Symbol.for('react.suspense_list') : 0xead8;\nvar REACT_MEMO_TYPE = hasSymbol ? Symbol.for('react.memo') : 0xead3;\nvar REACT_LAZY_TYPE = hasSymbol ? Symbol.for('react.lazy') : 0xead4;\nvar REACT_BLOCK_TYPE = hasSymbol ? Symbol.for('react.block') : 0xead9;\nvar REACT_FUNDAMENTAL_TYPE = hasSymbol ? Symbol.for('react.fundamental') : 0xead5;\nvar REACT_RESPONDER_TYPE = hasSymbol ? Symbol.for('react.responder') : 0xead6;\nvar REACT_SCOPE_TYPE = hasSymbol ? Symbol.for('react.scope') : 0xead7;\n\nfunction isValidElementType(type) {\n  return typeof type === 'string' || typeof type === 'function' || // Note: its typeof might be other than 'symbol' or 'number' if it's a polyfill.\n  type === REACT_FRAGMENT_TYPE || type === REACT_CONCURRENT_MODE_TYPE || type === REACT_PROFILER_TYPE || type === REACT_STRICT_MODE_TYPE || type === REACT_SUSPENSE_TYPE || type === REACT_SUSPENSE_LIST_TYPE || typeof type === 'object' && type !== null && (type.$$typeof === REACT_LAZY_TYPE || type.$$typeof === REACT_MEMO_TYPE || type.$$typeof === REACT_PROVIDER_TYPE || type.$$typeof === REACT_CONTEXT_TYPE || type.$$typeof === REACT_FORWARD_REF_TYPE || type.$$typeof === REACT_FUNDAMENTAL_TYPE || type.$$typeof === REACT_RESPONDER_TYPE || type.$$typeof === REACT_SCOPE_TYPE || type.$$typeof === REACT_BLOCK_TYPE);\n}\n\nfunction typeOf(object) {\n  if (typeof object === 'object' && object !== null) {\n    var $$typeof = object.$$typeof;\n\n    switch ($$typeof) {\n      case REACT_ELEMENT_TYPE:\n        var type = object.type;\n\n        switch (type) {\n          case REACT_ASYNC_MODE_TYPE:\n          case REACT_CONCURRENT_MODE_TYPE:\n          case REACT_FRAGMENT_TYPE:\n          case REACT_PROFILER_TYPE:\n          case REACT_STRICT_MODE_TYPE:\n          case REACT_SUSPENSE_TYPE:\n            return type;\n\n          default:\n            var $$typeofType = type && type.$$typeof;\n\n            switch ($$typeofType) {\n              case REACT_CONTEXT_TYPE:\n              case REACT_FORWARD_REF_TYPE:\n              case REACT_LAZY_TYPE:\n              case REACT_MEMO_TYPE:\n              case REACT_PROVIDER_TYPE:\n                return $$typeofType;\n\n              default:\n                return $$typeof;\n            }\n\n        }\n\n      case REACT_PORTAL_TYPE:\n        return $$typeof;\n    }\n  }\n\n  return undefined;\n} // AsyncMode is deprecated along with isAsyncMode\n\nvar AsyncMode = REACT_ASYNC_MODE_TYPE;\nvar ConcurrentMode = REACT_CONCURRENT_MODE_TYPE;\nvar ContextConsumer = REACT_CONTEXT_TYPE;\nvar ContextProvider = REACT_PROVIDER_TYPE;\nvar Element = REACT_ELEMENT_TYPE;\nvar ForwardRef = REACT_FORWARD_REF_TYPE;\nvar Fragment = REACT_FRAGMENT_TYPE;\nvar Lazy = REACT_LAZY_TYPE;\nvar Memo = REACT_MEMO_TYPE;\nvar Portal = REACT_PORTAL_TYPE;\nvar Profiler = REACT_PROFILER_TYPE;\nvar StrictMode = REACT_STRICT_MODE_TYPE;\nvar Suspense = REACT_SUSPENSE_TYPE;\nvar hasWarnedAboutDeprecatedIsAsyncMode = false; // AsyncMode should be deprecated\n\nfunction isAsyncMode(object) {\n  {\n    if (!hasWarnedAboutDeprecatedIsAsyncMode) {\n      hasWarnedAboutDeprecatedIsAsyncMode = true; // Using console['warn'] to evade Babel and ESLint\n\n      console['warn']('The ReactIs.isAsyncMode() alias has been deprecated, ' + 'and will be removed in React 17+. Update your code to use ' + 'ReactIs.isConcurrentMode() instead. It has the exact same API.');\n    }\n  }\n\n  return isConcurrentMode(object) || typeOf(object) === REACT_ASYNC_MODE_TYPE;\n}\nfunction isConcurrentMode(object) {\n  return typeOf(object) === REACT_CONCURRENT_MODE_TYPE;\n}\nfunction isContextConsumer(object) {\n  return typeOf(object) === REACT_CONTEXT_TYPE;\n}\nfunction isContextProvider(object) {\n  return typeOf(object) === REACT_PROVIDER_TYPE;\n}\nfunction isElement(object) {\n  return typeof object === 'object' && object !== null && object.$$typeof === REACT_ELEMENT_TYPE;\n}\nfunction isForwardRef(object) {\n  return typeOf(object) === REACT_FORWARD_REF_TYPE;\n}\nfunction isFragment(object) {\n  return typeOf(object) === REACT_FRAGMENT_TYPE;\n}\nfunction isLazy(object) {\n  return typeOf(object) === REACT_LAZY_TYPE;\n}\nfunction isMemo(object) {\n  return typeOf(object) === REACT_MEMO_TYPE;\n}\nfunction isPortal(object) {\n  return typeOf(object) === REACT_PORTAL_TYPE;\n}\nfunction isProfiler(object) {\n  return typeOf(object) === REACT_PROFILER_TYPE;\n}\nfunction isStrictMode(object) {\n  return typeOf(object) === REACT_STRICT_MODE_TYPE;\n}\nfunction isSuspense(object) {\n  return typeOf(object) === REACT_SUSPENSE_TYPE;\n}\n\nexports.AsyncMode = AsyncMode;\nexports.ConcurrentMode = ConcurrentMode;\nexports.ContextConsumer = ContextConsumer;\nexports.ContextProvider = ContextProvider;\nexports.Element = Element;\nexports.ForwardRef = ForwardRef;\nexports.Fragment = Fragment;\nexports.Lazy = Lazy;\nexports.Memo = Memo;\nexports.Portal = Portal;\nexports.Profiler = Profiler;\nexports.StrictMode = StrictMode;\nexports.Suspense = Suspense;\nexports.isAsyncMode = isAsyncMode;\nexports.isConcurrentMode = isConcurrentMode;\nexports.isContextConsumer = isContextConsumer;\nexports.isContextProvider = isContextProvider;\nexports.isElement = isElement;\nexports.isForwardRef = isForwardRef;\nexports.isFragment = isFragment;\nexports.isLazy = isLazy;\nexports.isMemo = isMemo;\nexports.isPortal = isPortal;\nexports.isProfiler = isProfiler;\nexports.isStrictMode = isStrictMode;\nexports.isSuspense = isSuspense;\nexports.isValidElementType = isValidElementType;\nexports.typeOf = typeOf;\n  })();\n}\n","'use strict';\n\nif (process.env.NODE_ENV === 'production') {\n  module.exports = require('./cjs/react-is.production.min.js');\n} else {\n  module.exports = require('./cjs/react-is.development.js');\n}\n","// extracted by mini-css-extract-plugin\nexport {};","// extracted by mini-css-extract-plugin\nexport {};","// extracted by mini-css-extract-plugin\nexport {};","// extracted by mini-css-extract-plugin\nexport {};","// extracted by mini-css-extract-plugin\nexport {};","// extracted by mini-css-extract-plugin\nexport {};","// extracted by mini-css-extract-plugin\nexport {};","// extracted by mini-css-extract-plugin\nexport {};","// extracted by mini-css-extract-plugin\nexport {};","// extracted by mini-css-extract-plugin\nexport {};","// extracted by 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new TypeError('Object.assign cannot be called with null or undefined');\n\t}\n\n\treturn Object(val);\n}\n\nfunction shouldUseNative() {\n\ttry {\n\t\tif (!Object.assign) {\n\t\t\treturn false;\n\t\t}\n\n\t\t// Detect buggy property enumeration order in older V8 versions.\n\n\t\t// https://bugs.chromium.org/p/v8/issues/detail?id=4118\n\t\tvar test1 = new String('abc');  // eslint-disable-line no-new-wrappers\n\t\ttest1[5] = 'de';\n\t\tif (Object.getOwnPropertyNames(test1)[0] === '5') {\n\t\t\treturn false;\n\t\t}\n\n\t\t// https://bugs.chromium.org/p/v8/issues/detail?id=3056\n\t\tvar test2 = {};\n\t\tfor (var i = 0; i < 10; i++) {\n\t\t\ttest2['_' + String.fromCharCode(i)] = i;\n\t\t}\n\t\tvar order2 = Object.getOwnPropertyNames(test2).map(function (n) {\n\t\t\treturn test2[n];\n\t\t});\n\t\tif (order2.join('') !== '0123456789') {\n\t\t\treturn false;\n\t\t}\n\n\t\t// https://bugs.chromium.org/p/v8/issues/detail?id=3056\n\t\tvar test3 = {};\n\t\t'abcdefghijklmnopqrst'.split('').forEach(function (letter) {\n\t\t\ttest3[letter] = letter;\n\t\t});\n\t\tif (Object.keys(Object.assign({}, test3)).join('') !==\n\t\t\t\t'abcdefghijklmnopqrst') {\n\t\t\treturn false;\n\t\t}\n\n\t\treturn true;\n\t} catch (err) {\n\t\t// We don't expect any of the above to throw, but better to be safe.\n\t\treturn false;\n\t}\n}\n\nmodule.exports = shouldUseNative() ? Object.assign : function (target, source) {\n\tvar from;\n\tvar to = toObject(target);\n\tvar symbols;\n\n\tfor (var s = 1; s < arguments.length; s++) {\n\t\tfrom = Object(arguments[s]);\n\n\t\tfor (var key in from) {\n\t\t\tif (hasOwnProperty.call(from, key)) {\n\t\t\t\tto[key] = from[key];\n\t\t\t}\n\t\t}\n\n\t\tif (getOwnPropertySymbols) {\n\t\t\tsymbols = getOwnPropertySymbols(from);\n\t\t\tfor (var i = 0; i < symbols.length; i++) {\n\t\t\t\tif (propIsEnumerable.call(from, symbols[i])) {\n\t\t\t\t\tto[symbols[i]] = from[symbols[i]];\n\t\t\t\t}\n\t\t\t}\n\t\t}\n\t}\n\n\treturn to;\n};\n","/**\n * @licstart The following is the entire license notice for the\n * JavaScript code in this page\n *\n * Copyright 2023 Mozilla Foundation\n *\n * Licensed under the Apache License, Version 2.0 (the \"License\");\n * you may not use this file except in compliance with the License.\n * You may obtain a copy of the License at\n *\n *     http://www.apache.org/licenses/LICENSE-2.0\n *\n * Unless required by applicable law or agreed to in writing, software\n * distributed under the License is distributed on an \"AS IS\" BASIS,\n * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.\n * See the License for the specific language governing permissions and\n * limitations under the License.\n *\n * @licend The above is the entire license notice for the\n * JavaScript code in this page\n */\n\n(function webpackUniversalModuleDefinition(root, factory) {\n\tif(typeof exports === 'object' && typeof module === 'object')\n\t\tmodule.exports = factory();\n\telse if(typeof define === 'function' && define.amd)\n\t\tdefine(\"pdfjs-dist/build/pdf\", [], factory);\n\telse if(typeof exports === 'object')\n\t\texports[\"pdfjs-dist/build/pdf\"] = factory();\n\telse\n\t\troot[\"pdfjs-dist/build/pdf\"] = root.pdfjsLib = factory();\n})(globalThis, () => {\nreturn /******/ (() => { // webpackBootstrap\n/******/ \t\"use strict\";\n/******/ \tvar __webpack_modules__ = ([\n/* 0 */,\n/* 1 */\n/***/ ((__unused_webpack_module, exports) => {\n\n\n\nObject.defineProperty(exports, \"__esModule\", ({\n  value: true\n}));\nexports.VerbosityLevel = exports.Util = exports.UnknownErrorException = exports.UnexpectedResponseException = exports.UNSUPPORTED_FEATURES = exports.TextRenderingMode = exports.RenderingIntentFlag = exports.PermissionFlag = exports.PasswordResponses = exports.PasswordException = exports.PageActionEventType = exports.OPS = exports.MissingPDFException = exports.LINE_FACTOR = exports.LINE_DESCENT_FACTOR = exports.InvalidPDFException = exports.ImageKind = exports.IDENTITY_MATRIX = exports.FormatError = exports.FeatureTest = exports.FONT_IDENTITY_MATRIX = exports.DocumentActionEventType = exports.CMapCompressionType = exports.BaseException = exports.BASELINE_FACTOR = exports.AnnotationType = exports.AnnotationStateModelType = exports.AnnotationReviewState = exports.AnnotationReplyType = exports.AnnotationMode = exports.AnnotationMarkedState = exports.AnnotationFlag = exports.AnnotationFieldFlag = exports.AnnotationEditorType = exports.AnnotationEditorPrefix = exports.AnnotationEditorParamsType = exports.AnnotationBorderStyleType = exports.AnnotationActionEventType = exports.AbortException = void 0;\nexports.assert = assert;\nexports.bytesToString = bytesToString;\nexports.createPromiseCapability = createPromiseCapability;\nexports.createValidAbsoluteUrl = createValidAbsoluteUrl;\nexports.getModificationDate = getModificationDate;\nexports.getVerbosityLevel = getVerbosityLevel;\nexports.info = info;\nexports.isArrayBuffer = isArrayBuffer;\nexports.isArrayEqual = isArrayEqual;\nexports.objectFromMap = objectFromMap;\nexports.objectSize = objectSize;\nexports.setVerbosityLevel = setVerbosityLevel;\nexports.shadow = shadow;\nexports.string32 = string32;\nexports.stringToBytes = stringToBytes;\nexports.stringToPDFString = stringToPDFString;\nexports.stringToUTF8String = stringToUTF8String;\nexports.unreachable = unreachable;\nexports.utf8StringToString = utf8StringToString;\nexports.warn = warn;\n;\nconst IDENTITY_MATRIX = [1, 0, 0, 1, 0, 0];\nexports.IDENTITY_MATRIX = IDENTITY_MATRIX;\nconst FONT_IDENTITY_MATRIX = [0.001, 0, 0, 0.001, 0, 0];\nexports.FONT_IDENTITY_MATRIX = FONT_IDENTITY_MATRIX;\nconst LINE_FACTOR = 1.35;\nexports.LINE_FACTOR = LINE_FACTOR;\nconst LINE_DESCENT_FACTOR = 0.35;\nexports.LINE_DESCENT_FACTOR = LINE_DESCENT_FACTOR;\nconst BASELINE_FACTOR = LINE_DESCENT_FACTOR / LINE_FACTOR;\nexports.BASELINE_FACTOR = BASELINE_FACTOR;\nconst RenderingIntentFlag = {\n  ANY: 0x01,\n  DISPLAY: 0x02,\n  PRINT: 0x04,\n  SAVE: 0x08,\n  ANNOTATIONS_FORMS: 0x10,\n  ANNOTATIONS_STORAGE: 0x20,\n  ANNOTATIONS_DISABLE: 0x40,\n  OPLIST: 0x100\n};\nexports.RenderingIntentFlag = RenderingIntentFlag;\nconst AnnotationMode = {\n  DISABLE: 0,\n  ENABLE: 1,\n  ENABLE_FORMS: 2,\n  ENABLE_STORAGE: 3\n};\nexports.AnnotationMode = AnnotationMode;\nconst AnnotationEditorPrefix = \"pdfjs_internal_editor_\";\nexports.AnnotationEditorPrefix = AnnotationEditorPrefix;\nconst AnnotationEditorType = {\n  DISABLE: -1,\n  NONE: 0,\n  FREETEXT: 3,\n  INK: 15\n};\nexports.AnnotationEditorType = AnnotationEditorType;\nconst AnnotationEditorParamsType = {\n  FREETEXT_SIZE: 1,\n  FREETEXT_COLOR: 2,\n  FREETEXT_OPACITY: 3,\n  INK_COLOR: 11,\n  INK_THICKNESS: 12,\n  INK_OPACITY: 13\n};\nexports.AnnotationEditorParamsType = AnnotationEditorParamsType;\nconst PermissionFlag = {\n  PRINT: 0x04,\n  MODIFY_CONTENTS: 0x08,\n  COPY: 0x10,\n  MODIFY_ANNOTATIONS: 0x20,\n  FILL_INTERACTIVE_FORMS: 0x100,\n  COPY_FOR_ACCESSIBILITY: 0x200,\n  ASSEMBLE: 0x400,\n  PRINT_HIGH_QUALITY: 0x800\n};\nexports.PermissionFlag = PermissionFlag;\nconst TextRenderingMode = {\n  FILL: 0,\n  STROKE: 1,\n  FILL_STROKE: 2,\n  INVISIBLE: 3,\n  FILL_ADD_TO_PATH: 4,\n  STROKE_ADD_TO_PATH: 5,\n  FILL_STROKE_ADD_TO_PATH: 6,\n  ADD_TO_PATH: 7,\n  FILL_STROKE_MASK: 3,\n  ADD_TO_PATH_FLAG: 4\n};\nexports.TextRenderingMode = TextRenderingMode;\nconst ImageKind = {\n  GRAYSCALE_1BPP: 1,\n  RGB_24BPP: 2,\n  RGBA_32BPP: 3\n};\nexports.ImageKind = ImageKind;\nconst AnnotationType = {\n  TEXT: 1,\n  LINK: 2,\n  FREETEXT: 3,\n  LINE: 4,\n  SQUARE: 5,\n  CIRCLE: 6,\n  POLYGON: 7,\n  POLYLINE: 8,\n  HIGHLIGHT: 9,\n  UNDERLINE: 10,\n  SQUIGGLY: 11,\n  STRIKEOUT: 12,\n  STAMP: 13,\n  CARET: 14,\n  INK: 15,\n  POPUP: 16,\n  FILEATTACHMENT: 17,\n  SOUND: 18,\n  MOVIE: 19,\n  WIDGET: 20,\n  SCREEN: 21,\n  PRINTERMARK: 22,\n  TRAPNET: 23,\n  WATERMARK: 24,\n  THREED: 25,\n  REDACT: 26\n};\nexports.AnnotationType = AnnotationType;\nconst AnnotationStateModelType = {\n  MARKED: \"Marked\",\n  REVIEW: \"Review\"\n};\nexports.AnnotationStateModelType = AnnotationStateModelType;\nconst AnnotationMarkedState = {\n  MARKED: \"Marked\",\n  UNMARKED: \"Unmarked\"\n};\nexports.AnnotationMarkedState = AnnotationMarkedState;\nconst AnnotationReviewState = {\n  ACCEPTED: \"Accepted\",\n  REJECTED: \"Rejected\",\n  CANCELLED: \"Cancelled\",\n  COMPLETED: \"Completed\",\n  NONE: \"None\"\n};\nexports.AnnotationReviewState = AnnotationReviewState;\nconst AnnotationReplyType = {\n  GROUP: \"Group\",\n  REPLY: \"R\"\n};\nexports.AnnotationReplyType = AnnotationReplyType;\nconst AnnotationFlag = {\n  INVISIBLE: 0x01,\n  HIDDEN: 0x02,\n  PRINT: 0x04,\n  NOZOOM: 0x08,\n  NOROTATE: 0x10,\n  NOVIEW: 0x20,\n  READONLY: 0x40,\n  LOCKED: 0x80,\n  TOGGLENOVIEW: 0x100,\n  LOCKEDCONTENTS: 0x200\n};\nexports.AnnotationFlag = AnnotationFlag;\nconst AnnotationFieldFlag = {\n  READONLY: 0x0000001,\n  REQUIRED: 0x0000002,\n  NOEXPORT: 0x0000004,\n  MULTILINE: 0x0001000,\n  PASSWORD: 0x0002000,\n  NOTOGGLETOOFF: 0x0004000,\n  RADIO: 0x0008000,\n  PUSHBUTTON: 0x0010000,\n  COMBO: 0x0020000,\n  EDIT: 0x0040000,\n  SORT: 0x0080000,\n  FILESELECT: 0x0100000,\n  MULTISELECT: 0x0200000,\n  DONOTSPELLCHECK: 0x0400000,\n  DONOTSCROLL: 0x0800000,\n  COMB: 0x1000000,\n  RICHTEXT: 0x2000000,\n  RADIOSINUNISON: 0x2000000,\n  COMMITONSELCHANGE: 0x4000000\n};\nexports.AnnotationFieldFlag = AnnotationFieldFlag;\nconst AnnotationBorderStyleType = {\n  SOLID: 1,\n  DASHED: 2,\n  BEVELED: 3,\n  INSET: 4,\n  UNDERLINE: 5\n};\nexports.AnnotationBorderStyleType = AnnotationBorderStyleType;\nconst AnnotationActionEventType = {\n  E: \"Mouse Enter\",\n  X: \"Mouse Exit\",\n  D: \"Mouse Down\",\n  U: \"Mouse Up\",\n  Fo: \"Focus\",\n  Bl: \"Blur\",\n  PO: \"PageOpen\",\n  PC: \"PageClose\",\n  PV: \"PageVisible\",\n  PI: \"PageInvisible\",\n  K: \"Keystroke\",\n  F: \"Format\",\n  V: \"Validate\",\n  C: \"Calculate\"\n};\nexports.AnnotationActionEventType = AnnotationActionEventType;\nconst DocumentActionEventType = {\n  WC: \"WillClose\",\n  WS: \"WillSave\",\n  DS: \"DidSave\",\n  WP: \"WillPrint\",\n  DP: \"DidPrint\"\n};\nexports.DocumentActionEventType = DocumentActionEventType;\nconst PageActionEventType = {\n  O: \"PageOpen\",\n  C: \"PageClose\"\n};\nexports.PageActionEventType = PageActionEventType;\nconst VerbosityLevel = {\n  ERRORS: 0,\n  WARNINGS: 1,\n  INFOS: 5\n};\nexports.VerbosityLevel = VerbosityLevel;\nconst CMapCompressionType = {\n  NONE: 0,\n  BINARY: 1\n};\nexports.CMapCompressionType = CMapCompressionType;\nconst OPS = {\n  dependency: 1,\n  setLineWidth: 2,\n  setLineCap: 3,\n  setLineJoin: 4,\n  setMiterLimit: 5,\n  setDash: 6,\n  setRenderingIntent: 7,\n  setFlatness: 8,\n  setGState: 9,\n  save: 10,\n  restore: 11,\n  transform: 12,\n  moveTo: 13,\n  lineTo: 14,\n  curveTo: 15,\n  curveTo2: 16,\n  curveTo3: 17,\n  closePath: 18,\n  rectangle: 19,\n  stroke: 20,\n  closeStroke: 21,\n  fill: 22,\n  eoFill: 23,\n  fillStroke: 24,\n  eoFillStroke: 25,\n  closeFillStroke: 26,\n  closeEOFillStroke: 27,\n  endPath: 28,\n  clip: 29,\n  eoClip: 30,\n  beginText: 31,\n  endText: 32,\n  setCharSpacing: 33,\n  setWordSpacing: 34,\n  setHScale: 35,\n  setLeading: 36,\n  setFont: 37,\n  setTextRenderingMode: 38,\n  setTextRise: 39,\n  moveText: 40,\n  setLeadingMoveText: 41,\n  setTextMatrix: 42,\n  nextLine: 43,\n  showText: 44,\n  showSpacedText: 45,\n  nextLineShowText: 46,\n  nextLineSetSpacingShowText: 47,\n  setCharWidth: 48,\n  setCharWidthAndBounds: 49,\n  setStrokeColorSpace: 50,\n  setFillColorSpace: 51,\n  setStrokeColor: 52,\n  setStrokeColorN: 53,\n  setFillColor: 54,\n  setFillColorN: 55,\n  setStrokeGray: 56,\n  setFillGray: 57,\n  setStrokeRGBColor: 58,\n  setFillRGBColor: 59,\n  setStrokeCMYKColor: 60,\n  setFillCMYKColor: 61,\n  shadingFill: 62,\n  beginInlineImage: 63,\n  beginImageData: 64,\n  endInlineImage: 65,\n  paintXObject: 66,\n  markPoint: 67,\n  markPointProps: 68,\n  beginMarkedContent: 69,\n  beginMarkedContentProps: 70,\n  endMarkedContent: 71,\n  beginCompat: 72,\n  endCompat: 73,\n  paintFormXObjectBegin: 74,\n  paintFormXObjectEnd: 75,\n  beginGroup: 76,\n  endGroup: 77,\n  beginAnnotation: 80,\n  endAnnotation: 81,\n  paintImageMaskXObject: 83,\n  paintImageMaskXObjectGroup: 84,\n  paintImageXObject: 85,\n  paintInlineImageXObject: 86,\n  paintInlineImageXObjectGroup: 87,\n  paintImageXObjectRepeat: 88,\n  paintImageMaskXObjectRepeat: 89,\n  paintSolidColorImageMask: 90,\n  constructPath: 91\n};\nexports.OPS = OPS;\nconst UNSUPPORTED_FEATURES = {\n  forms: \"forms\",\n  javaScript: \"javaScript\",\n  signatures: \"signatures\",\n  smask: \"smask\",\n  shadingPattern: \"shadingPattern\",\n  errorTilingPattern: \"errorTilingPattern\",\n  errorExtGState: \"errorExtGState\",\n  errorXObject: \"errorXObject\",\n  errorFontLoadType3: \"errorFontLoadType3\",\n  errorFontState: \"errorFontState\",\n  errorFontMissing: \"errorFontMissing\",\n  errorFontTranslate: \"errorFontTranslate\",\n  errorColorSpace: \"errorColorSpace\",\n  errorOperatorList: \"errorOperatorList\",\n  errorFontToUnicode: \"errorFontToUnicode\",\n  errorFontLoadNative: \"errorFontLoadNative\",\n  errorFontBuildPath: \"errorFontBuildPath\",\n  errorFontGetPath: \"errorFontGetPath\",\n  errorMarkedContent: \"errorMarkedContent\",\n  errorContentSubStream: \"errorContentSubStream\"\n};\nexports.UNSUPPORTED_FEATURES = UNSUPPORTED_FEATURES;\nconst PasswordResponses = {\n  NEED_PASSWORD: 1,\n  INCORRECT_PASSWORD: 2\n};\nexports.PasswordResponses = PasswordResponses;\nlet verbosity = VerbosityLevel.WARNINGS;\nfunction setVerbosityLevel(level) {\n  if (Number.isInteger(level)) {\n    verbosity = level;\n  }\n}\nfunction getVerbosityLevel() {\n  return verbosity;\n}\nfunction info(msg) {\n  if (verbosity >= VerbosityLevel.INFOS) {\n    console.log(`Info: ${msg}`);\n  }\n}\nfunction warn(msg) {\n  if (verbosity >= VerbosityLevel.WARNINGS) {\n    console.log(`Warning: ${msg}`);\n  }\n}\nfunction unreachable(msg) {\n  throw new Error(msg);\n}\nfunction assert(cond, msg) {\n  if (!cond) {\n    unreachable(msg);\n  }\n}\nfunction _isValidProtocol(url) {\n  if (!url) {\n    return false;\n  }\n  switch (url.protocol) {\n    case \"http:\":\n    case \"https:\":\n    case \"ftp:\":\n    case \"mailto:\":\n    case \"tel:\":\n      return true;\n    default:\n      return false;\n  }\n}\nfunction createValidAbsoluteUrl(url, baseUrl = null, options = null) {\n  if (!url) {\n    return null;\n  }\n  try {\n    if (options && typeof url === \"string\") {\n      if (options.addDefaultProtocol && url.startsWith(\"www.\")) {\n        const dots = url.match(/\\./g);\n        if (dots && dots.length >= 2) {\n          url = `http://${url}`;\n        }\n      }\n      if (options.tryConvertEncoding) {\n        try {\n          url = stringToUTF8String(url);\n        } catch (ex) {}\n      }\n    }\n    const absoluteUrl = baseUrl ? new URL(url, baseUrl) : new URL(url);\n    if (_isValidProtocol(absoluteUrl)) {\n      return absoluteUrl;\n    }\n  } catch (ex) {}\n  return null;\n}\nfunction shadow(obj, prop, value, nonSerializable = false) {\n  Object.defineProperty(obj, prop, {\n    value,\n    enumerable: !nonSerializable,\n    configurable: true,\n    writable: false\n  });\n  return value;\n}\nconst BaseException = function BaseExceptionClosure() {\n  function BaseException(message, name) {\n    if (this.constructor === BaseException) {\n      unreachable(\"Cannot initialize BaseException.\");\n    }\n    this.message = message;\n    this.name = name;\n  }\n  BaseException.prototype = new Error();\n  BaseException.constructor = BaseException;\n  return BaseException;\n}();\nexports.BaseException = BaseException;\nclass PasswordException extends BaseException {\n  constructor(msg, code) {\n    super(msg, \"PasswordException\");\n    this.code = code;\n  }\n}\nexports.PasswordException = PasswordException;\nclass UnknownErrorException extends BaseException {\n  constructor(msg, details) {\n    super(msg, \"UnknownErrorException\");\n    this.details = details;\n  }\n}\nexports.UnknownErrorException = UnknownErrorException;\nclass InvalidPDFException extends BaseException {\n  constructor(msg) {\n    super(msg, \"InvalidPDFException\");\n  }\n}\nexports.InvalidPDFException = InvalidPDFException;\nclass MissingPDFException extends BaseException {\n  constructor(msg) {\n    super(msg, \"MissingPDFException\");\n  }\n}\nexports.MissingPDFException = MissingPDFException;\nclass UnexpectedResponseException extends BaseException {\n  constructor(msg, status) {\n    super(msg, \"UnexpectedResponseException\");\n    this.status = status;\n  }\n}\nexports.UnexpectedResponseException = UnexpectedResponseException;\nclass FormatError extends BaseException {\n  constructor(msg) {\n    super(msg, \"FormatError\");\n  }\n}\nexports.FormatError = FormatError;\nclass AbortException extends BaseException {\n  constructor(msg) {\n    super(msg, \"AbortException\");\n  }\n}\nexports.AbortException = AbortException;\nfunction bytesToString(bytes) {\n  if (typeof bytes !== \"object\" || bytes === null || bytes.length === undefined) {\n    unreachable(\"Invalid argument for bytesToString\");\n  }\n  const length = bytes.length;\n  const MAX_ARGUMENT_COUNT = 8192;\n  if (length < MAX_ARGUMENT_COUNT) {\n    return String.fromCharCode.apply(null, bytes);\n  }\n  const strBuf = [];\n  for (let i = 0; i < length; i += MAX_ARGUMENT_COUNT) {\n    const chunkEnd = Math.min(i + MAX_ARGUMENT_COUNT, length);\n    const chunk = bytes.subarray(i, chunkEnd);\n    strBuf.push(String.fromCharCode.apply(null, chunk));\n  }\n  return strBuf.join(\"\");\n}\nfunction stringToBytes(str) {\n  if (typeof str !== \"string\") {\n    unreachable(\"Invalid argument for stringToBytes\");\n  }\n  const length = str.length;\n  const bytes = new Uint8Array(length);\n  for (let i = 0; i < length; ++i) {\n    bytes[i] = str.charCodeAt(i) & 0xff;\n  }\n  return bytes;\n}\nfunction string32(value) {\n  return String.fromCharCode(value >> 24 & 0xff, value >> 16 & 0xff, value >> 8 & 0xff, value & 0xff);\n}\nfunction objectSize(obj) {\n  return Object.keys(obj).length;\n}\nfunction objectFromMap(map) {\n  const obj = Object.create(null);\n  for (const [key, value] of map) {\n    obj[key] = value;\n  }\n  return obj;\n}\nfunction isLittleEndian() {\n  const buffer8 = new Uint8Array(4);\n  buffer8[0] = 1;\n  const view32 = new Uint32Array(buffer8.buffer, 0, 1);\n  return view32[0] === 1;\n}\nfunction isEvalSupported() {\n  try {\n    new Function(\"\");\n    return true;\n  } catch (e) {\n    return false;\n  }\n}\nclass FeatureTest {\n  static get isLittleEndian() {\n    return shadow(this, \"isLittleEndian\", isLittleEndian());\n  }\n  static get isEvalSupported() {\n    return shadow(this, \"isEvalSupported\", isEvalSupported());\n  }\n  static get isOffscreenCanvasSupported() {\n    return shadow(this, \"isOffscreenCanvasSupported\", typeof OffscreenCanvas !== \"undefined\");\n  }\n  static get platform() {\n    if (typeof navigator === \"undefined\") {\n      return shadow(this, \"platform\", {\n        isWin: false,\n        isMac: false\n      });\n    }\n    return shadow(this, \"platform\", {\n      isWin: navigator.platform.includes(\"Win\"),\n      isMac: navigator.platform.includes(\"Mac\")\n    });\n  }\n}\nexports.FeatureTest = FeatureTest;\nconst hexNumbers = [...Array(256).keys()].map(n => n.toString(16).padStart(2, \"0\"));\nclass Util {\n  static makeHexColor(r, g, b) {\n    return `#${hexNumbers[r]}${hexNumbers[g]}${hexNumbers[b]}`;\n  }\n  static scaleMinMax(transform, minMax) {\n    let temp;\n    if (transform[0]) {\n      if (transform[0] < 0) {\n        temp = minMax[0];\n        minMax[0] = minMax[1];\n        minMax[1] = temp;\n      }\n      minMax[0] *= transform[0];\n      minMax[1] *= transform[0];\n      if (transform[3] < 0) {\n        temp = minMax[2];\n        minMax[2] = minMax[3];\n        minMax[3] = temp;\n      }\n      minMax[2] *= transform[3];\n      minMax[3] *= transform[3];\n    } else {\n      temp = minMax[0];\n      minMax[0] = minMax[2];\n      minMax[2] = temp;\n      temp = minMax[1];\n      minMax[1] = minMax[3];\n      minMax[3] = temp;\n      if (transform[1] < 0) {\n        temp = minMax[2];\n        minMax[2] = minMax[3];\n        minMax[3] = temp;\n      }\n      minMax[2] *= transform[1];\n      minMax[3] *= transform[1];\n      if (transform[2] < 0) {\n        temp = minMax[0];\n        minMax[0] = minMax[1];\n        minMax[1] = temp;\n      }\n      minMax[0] *= transform[2];\n      minMax[1] *= transform[2];\n    }\n    minMax[0] += transform[4];\n    minMax[1] += transform[4];\n    minMax[2] += transform[5];\n    minMax[3] += transform[5];\n  }\n  static transform(m1, m2) {\n    return [m1[0] * m2[0] + m1[2] * m2[1], m1[1] * m2[0] + m1[3] * m2[1], m1[0] * m2[2] + m1[2] * m2[3], m1[1] * m2[2] + m1[3] * m2[3], m1[0] * m2[4] + m1[2] * m2[5] + m1[4], m1[1] * m2[4] + m1[3] * m2[5] + m1[5]];\n  }\n  static applyTransform(p, m) {\n    const xt = p[0] * m[0] + p[1] * m[2] + m[4];\n    const yt = p[0] * m[1] + p[1] * m[3] + m[5];\n    return [xt, yt];\n  }\n  static applyInverseTransform(p, m) {\n    const d = m[0] * m[3] - m[1] * m[2];\n    const xt = (p[0] * m[3] - p[1] * m[2] + m[2] * m[5] - m[4] * m[3]) / d;\n    const yt = (-p[0] * m[1] + p[1] * m[0] + m[4] * m[1] - m[5] * m[0]) / d;\n    return [xt, yt];\n  }\n  static getAxialAlignedBoundingBox(r, m) {\n    const p1 = Util.applyTransform(r, m);\n    const p2 = Util.applyTransform(r.slice(2, 4), m);\n    const p3 = Util.applyTransform([r[0], r[3]], m);\n    const p4 = Util.applyTransform([r[2], r[1]], m);\n    return [Math.min(p1[0], p2[0], p3[0], p4[0]), Math.min(p1[1], p2[1], p3[1], p4[1]), Math.max(p1[0], p2[0], p3[0], p4[0]), Math.max(p1[1], p2[1], p3[1], p4[1])];\n  }\n  static inverseTransform(m) {\n    const d = m[0] * m[3] - m[1] * m[2];\n    return [m[3] / d, -m[1] / d, -m[2] / d, m[0] / d, (m[2] * m[5] - m[4] * m[3]) / d, (m[4] * m[1] - m[5] * m[0]) / d];\n  }\n  static singularValueDecompose2dScale(m) {\n    const transpose = [m[0], m[2], m[1], m[3]];\n    const a = m[0] * transpose[0] + m[1] * transpose[2];\n    const b = m[0] * transpose[1] + m[1] * transpose[3];\n    const c = m[2] * transpose[0] + m[3] * transpose[2];\n    const d = m[2] * transpose[1] + m[3] * transpose[3];\n    const first = (a + d) / 2;\n    const second = Math.sqrt((a + d) ** 2 - 4 * (a * d - c * b)) / 2;\n    const sx = first + second || 1;\n    const sy = first - second || 1;\n    return [Math.sqrt(sx), Math.sqrt(sy)];\n  }\n  static normalizeRect(rect) {\n    const r = rect.slice(0);\n    if (rect[0] > rect[2]) {\n      r[0] = rect[2];\n      r[2] = rect[0];\n    }\n    if (rect[1] > rect[3]) {\n      r[1] = rect[3];\n      r[3] = rect[1];\n    }\n    return r;\n  }\n  static intersect(rect1, rect2) {\n    const xLow = Math.max(Math.min(rect1[0], rect1[2]), Math.min(rect2[0], rect2[2]));\n    const xHigh = Math.min(Math.max(rect1[0], rect1[2]), Math.max(rect2[0], rect2[2]));\n    if (xLow > xHigh) {\n      return null;\n    }\n    const yLow = Math.max(Math.min(rect1[1], rect1[3]), Math.min(rect2[1], rect2[3]));\n    const yHigh = Math.min(Math.max(rect1[1], rect1[3]), Math.max(rect2[1], rect2[3]));\n    if (yLow > yHigh) {\n      return null;\n    }\n    return [xLow, yLow, xHigh, yHigh];\n  }\n  static bezierBoundingBox(x0, y0, x1, y1, x2, y2, x3, y3) {\n    const tvalues = [],\n      bounds = [[], []];\n    let a, b, c, t, t1, t2, b2ac, sqrtb2ac;\n    for (let i = 0; i < 2; ++i) {\n      if (i === 0) {\n        b = 6 * x0 - 12 * x1 + 6 * x2;\n        a = -3 * x0 + 9 * x1 - 9 * x2 + 3 * x3;\n        c = 3 * x1 - 3 * x0;\n      } else {\n        b = 6 * y0 - 12 * y1 + 6 * y2;\n        a = -3 * y0 + 9 * y1 - 9 * y2 + 3 * y3;\n        c = 3 * y1 - 3 * y0;\n      }\n      if (Math.abs(a) < 1e-12) {\n        if (Math.abs(b) < 1e-12) {\n          continue;\n        }\n        t = -c / b;\n        if (0 < t && t < 1) {\n          tvalues.push(t);\n        }\n        continue;\n      }\n      b2ac = b * b - 4 * c * a;\n      sqrtb2ac = Math.sqrt(b2ac);\n      if (b2ac < 0) {\n        continue;\n      }\n      t1 = (-b + sqrtb2ac) / (2 * a);\n      if (0 < t1 && t1 < 1) {\n        tvalues.push(t1);\n      }\n      t2 = (-b - sqrtb2ac) / (2 * a);\n      if (0 < t2 && t2 < 1) {\n        tvalues.push(t2);\n      }\n    }\n    let j = tvalues.length,\n      mt;\n    const jlen = j;\n    while (j--) {\n      t = tvalues[j];\n      mt = 1 - t;\n      bounds[0][j] = mt * mt * mt * x0 + 3 * mt * mt * t * x1 + 3 * mt * t * t * x2 + t * t * t * x3;\n      bounds[1][j] = mt * mt * mt * y0 + 3 * mt * mt * t * y1 + 3 * mt * t * t * y2 + t * t * t * y3;\n    }\n    bounds[0][jlen] = x0;\n    bounds[1][jlen] = y0;\n    bounds[0][jlen + 1] = x3;\n    bounds[1][jlen + 1] = y3;\n    bounds[0].length = bounds[1].length = jlen + 2;\n    return [Math.min(...bounds[0]), Math.min(...bounds[1]), Math.max(...bounds[0]), Math.max(...bounds[1])];\n  }\n}\nexports.Util = Util;\nconst PDFStringTranslateTable = [0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0x2d8, 0x2c7, 0x2c6, 0x2d9, 0x2dd, 0x2db, 0x2da, 0x2dc, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0x2022, 0x2020, 0x2021, 0x2026, 0x2014, 0x2013, 0x192, 0x2044, 0x2039, 0x203a, 0x2212, 0x2030, 0x201e, 0x201c, 0x201d, 0x2018, 0x2019, 0x201a, 0x2122, 0xfb01, 0xfb02, 0x141, 0x152, 0x160, 0x178, 0x17d, 0x131, 0x142, 0x153, 0x161, 0x17e, 0, 0x20ac];\nfunction stringToPDFString(str) {\n  if (str[0] >= \"\\xEF\") {\n    let encoding;\n    if (str[0] === \"\\xFE\" && str[1] === \"\\xFF\") {\n      encoding = \"utf-16be\";\n    } else if (str[0] === \"\\xFF\" && str[1] === \"\\xFE\") {\n      encoding = \"utf-16le\";\n    } else if (str[0] === \"\\xEF\" && str[1] === \"\\xBB\" && str[2] === \"\\xBF\") {\n      encoding = \"utf-8\";\n    }\n    if (encoding) {\n      try {\n        const decoder = new TextDecoder(encoding, {\n          fatal: true\n        });\n        const buffer = stringToBytes(str);\n        return decoder.decode(buffer);\n      } catch (ex) {\n        warn(`stringToPDFString: \"${ex}\".`);\n      }\n    }\n  }\n  const strBuf = [];\n  for (let i = 0, ii = str.length; i < ii; i++) {\n    const code = PDFStringTranslateTable[str.charCodeAt(i)];\n    strBuf.push(code ? String.fromCharCode(code) : str.charAt(i));\n  }\n  return strBuf.join(\"\");\n}\nfunction stringToUTF8String(str) {\n  return decodeURIComponent(escape(str));\n}\nfunction utf8StringToString(str) {\n  return unescape(encodeURIComponent(str));\n}\nfunction isArrayBuffer(v) {\n  return typeof v === \"object\" && v !== null && v.byteLength !== undefined;\n}\nfunction isArrayEqual(arr1, arr2) {\n  if (arr1.length !== arr2.length) {\n    return false;\n  }\n  for (let i = 0, ii = arr1.length; i < ii; i++) {\n    if (arr1[i] !== arr2[i]) {\n      return false;\n    }\n  }\n  return true;\n}\nfunction getModificationDate(date = new Date()) {\n  const buffer = [date.getUTCFullYear().toString(), (date.getUTCMonth() + 1).toString().padStart(2, \"0\"), date.getUTCDate().toString().padStart(2, \"0\"), date.getUTCHours().toString().padStart(2, \"0\"), date.getUTCMinutes().toString().padStart(2, \"0\"), date.getUTCSeconds().toString().padStart(2, \"0\")];\n  return buffer.join(\"\");\n}\nfunction createPromiseCapability() {\n  const capability = Object.create(null);\n  let isSettled = false;\n  Object.defineProperty(capability, \"settled\", {\n    get() {\n      return isSettled;\n    }\n  });\n  capability.promise = new Promise(function (resolve, reject) {\n    capability.resolve = function (data) {\n      isSettled = true;\n      resolve(data);\n    };\n    capability.reject = function (reason) {\n      isSettled = true;\n      reject(reason);\n    };\n  });\n  return capability;\n}\n\n/***/ }),\n/* 2 */\n/***/ ((__unused_webpack_module, exports, __w_pdfjs_require__) => {\n\n\n\nObject.defineProperty(exports, \"__esModule\", ({\n  value: true\n}));\nexports.build = exports.RenderTask = exports.PDFWorkerUtil = exports.PDFWorker = exports.PDFPageProxy = exports.PDFDocumentProxy = exports.PDFDocumentLoadingTask = exports.PDFDataRangeTransport = exports.LoopbackPort = exports.DefaultStandardFontDataFactory = exports.DefaultCanvasFactory = exports.DefaultCMapReaderFactory = void 0;\nexports.getDocument = getDocument;\nexports.version = void 0;\nvar _util = __w_pdfjs_require__(1);\nvar _annotation_storage = __w_pdfjs_require__(3);\nvar _display_utils = __w_pdfjs_require__(6);\nvar _font_loader = __w_pdfjs_require__(9);\nvar _canvas = __w_pdfjs_require__(11);\nvar _worker_options = __w_pdfjs_require__(14);\nvar _is_node = __w_pdfjs_require__(10);\nvar _message_handler = __w_pdfjs_require__(15);\nvar _metadata = __w_pdfjs_require__(16);\nvar _optional_content_config = __w_pdfjs_require__(17);\nvar _transport_stream = __w_pdfjs_require__(18);\nvar _xfa_text = __w_pdfjs_require__(19);\nconst DEFAULT_RANGE_CHUNK_SIZE = 65536;\nconst RENDERING_CANCELLED_TIMEOUT = 100;\nlet DefaultCanvasFactory = _display_utils.DOMCanvasFactory;\nexports.DefaultCanvasFactory = DefaultCanvasFactory;\nlet DefaultCMapReaderFactory = _display_utils.DOMCMapReaderFactory;\nexports.DefaultCMapReaderFactory = DefaultCMapReaderFactory;\nlet DefaultStandardFontDataFactory = _display_utils.DOMStandardFontDataFactory;\nexports.DefaultStandardFontDataFactory = DefaultStandardFontDataFactory;\nif (_is_node.isNodeJS) {\n  const {\n    NodeCanvasFactory,\n    NodeCMapReaderFactory,\n    NodeStandardFontDataFactory\n  } = __w_pdfjs_require__(20);\n  exports.DefaultCanvasFactory = DefaultCanvasFactory = NodeCanvasFactory;\n  exports.DefaultCMapReaderFactory = DefaultCMapReaderFactory = NodeCMapReaderFactory;\n  exports.DefaultStandardFontDataFactory = DefaultStandardFontDataFactory = NodeStandardFontDataFactory;\n}\nlet createPDFNetworkStream;\n{\n  if (_is_node.isNodeJS) {\n    const {\n      PDFNodeStream\n    } = __w_pdfjs_require__(21);\n    createPDFNetworkStream = params => {\n      return new PDFNodeStream(params);\n    };\n  } else {\n    const {\n      PDFNetworkStream\n    } = __w_pdfjs_require__(24);\n    const {\n      PDFFetchStream\n    } = __w_pdfjs_require__(25);\n    createPDFNetworkStream = params => {\n      return (0, _display_utils.isValidFetchUrl)(params.url) ? new PDFFetchStream(params) : new PDFNetworkStream(params);\n    };\n  }\n}\nfunction getDocument(src) {\n  if (typeof src === \"string\" || src instanceof URL) {\n    src = {\n      url: src\n    };\n  } else if ((0, _util.isArrayBuffer)(src)) {\n    src = {\n      data: src\n    };\n  } else if (src instanceof PDFDataRangeTransport) {\n    (0, _display_utils.deprecated)(\"`PDFDataRangeTransport`-instance, \" + \"please use a parameter object with `range`-property instead.\");\n    src = {\n      range: src\n    };\n  } else {\n    if (typeof src !== \"object\") {\n      throw new Error(\"Invalid parameter in getDocument, \" + \"need either string, URL, TypedArray, or parameter object.\");\n    }\n  }\n  if (!src.url && !src.data && !src.range) {\n    throw new Error(\"Invalid parameter object: need either .data, .range or .url\");\n  }\n  const task = new PDFDocumentLoadingTask();\n  const url = src.url ? getUrlProp(src.url) : null;\n  const data = src.data ? getDataProp(src.data) : null;\n  const httpHeaders = src.httpHeaders || null;\n  const withCredentials = src.withCredentials === true;\n  const password = src.password ?? null;\n  const rangeTransport = src.range instanceof PDFDataRangeTransport ? src.range : null;\n  const rangeChunkSize = Number.isInteger(src.rangeChunkSize) && src.rangeChunkSize > 0 ? src.rangeChunkSize : DEFAULT_RANGE_CHUNK_SIZE;\n  let worker = src.worker instanceof PDFWorker ? src.worker : null;\n  const verbosity = src.verbosity;\n  const docBaseUrl = typeof src.docBaseUrl === \"string\" && !(0, _display_utils.isDataScheme)(src.docBaseUrl) ? src.docBaseUrl : null;\n  const cMapUrl = typeof src.cMapUrl === \"string\" ? src.cMapUrl : null;\n  const cMapPacked = src.cMapPacked !== false;\n  const CMapReaderFactory = src.CMapReaderFactory || DefaultCMapReaderFactory;\n  const standardFontDataUrl = typeof src.standardFontDataUrl === \"string\" ? src.standardFontDataUrl : null;\n  const StandardFontDataFactory = src.StandardFontDataFactory || DefaultStandardFontDataFactory;\n  const ignoreErrors = src.stopAtErrors !== true;\n  const maxImageSize = Number.isInteger(src.maxImageSize) && src.maxImageSize > -1 ? src.maxImageSize : -1;\n  const isEvalSupported = src.isEvalSupported !== false;\n  const isOffscreenCanvasSupported = typeof src.isOffscreenCanvasSupported === \"boolean\" ? src.isOffscreenCanvasSupported : !_is_node.isNodeJS;\n  const disableFontFace = typeof src.disableFontFace === \"boolean\" ? src.disableFontFace : _is_node.isNodeJS;\n  const fontExtraProperties = src.fontExtraProperties === true;\n  const enableXfa = src.enableXfa === true;\n  const ownerDocument = src.ownerDocument || globalThis.document;\n  const disableRange = src.disableRange === true;\n  const disableStream = src.disableStream === true;\n  const disableAutoFetch = src.disableAutoFetch === true;\n  const pdfBug = src.pdfBug === true;\n  const length = rangeTransport ? rangeTransport.length : src.length ?? NaN;\n  const useSystemFonts = typeof src.useSystemFonts === \"boolean\" ? src.useSystemFonts : !_is_node.isNodeJS && !disableFontFace;\n  const useWorkerFetch = typeof src.useWorkerFetch === \"boolean\" ? src.useWorkerFetch : CMapReaderFactory === _display_utils.DOMCMapReaderFactory && StandardFontDataFactory === _display_utils.DOMStandardFontDataFactory && (0, _display_utils.isValidFetchUrl)(cMapUrl, document.baseURI) && (0, _display_utils.isValidFetchUrl)(standardFontDataUrl, document.baseURI);\n  const styleElement = null;\n  (0, _util.setVerbosityLevel)(verbosity);\n  const transportFactory = useWorkerFetch ? null : {\n    cMapReaderFactory: new CMapReaderFactory({\n      baseUrl: cMapUrl,\n      isCompressed: cMapPacked\n    }),\n    standardFontDataFactory: new StandardFontDataFactory({\n      baseUrl: standardFontDataUrl\n    })\n  };\n  if (!worker) {\n    const workerParams = {\n      verbosity,\n      port: _worker_options.GlobalWorkerOptions.workerPort\n    };\n    worker = workerParams.port ? PDFWorker.fromPort(workerParams) : new PDFWorker(workerParams);\n    task._worker = worker;\n  }\n  const docId = task.docId;\n  const fetchDocParams = {\n    docId,\n    apiVersion: '3.4.120',\n    data,\n    password,\n    disableAutoFetch,\n    rangeChunkSize,\n    length,\n    docBaseUrl,\n    enableXfa,\n    evaluatorOptions: {\n      maxImageSize,\n      disableFontFace,\n      ignoreErrors,\n      isEvalSupported,\n      isOffscreenCanvasSupported,\n      fontExtraProperties,\n      useSystemFonts,\n      cMapUrl: useWorkerFetch ? cMapUrl : null,\n      standardFontDataUrl: useWorkerFetch ? standardFontDataUrl : null\n    }\n  };\n  const transportParams = {\n    ignoreErrors,\n    isEvalSupported,\n    disableFontFace,\n    fontExtraProperties,\n    enableXfa,\n    ownerDocument,\n    disableAutoFetch,\n    pdfBug,\n    styleElement\n  };\n  worker.promise.then(function () {\n    if (task.destroyed) {\n      throw new Error(\"Loading aborted\");\n    }\n    const workerIdPromise = _fetchDocument(worker, fetchDocParams);\n    const networkStreamPromise = new Promise(function (resolve) {\n      let networkStream;\n      if (rangeTransport) {\n        networkStream = new _transport_stream.PDFDataTransportStream({\n          length,\n          initialData: rangeTransport.initialData,\n          progressiveDone: rangeTransport.progressiveDone,\n          contentDispositionFilename: rangeTransport.contentDispositionFilename,\n          disableRange,\n          disableStream\n        }, rangeTransport);\n      } else if (!data) {\n        networkStream = createPDFNetworkStream({\n          url,\n          length,\n          httpHeaders,\n          withCredentials,\n          rangeChunkSize,\n          disableRange,\n          disableStream\n        });\n      }\n      resolve(networkStream);\n    });\n    return Promise.all([workerIdPromise, networkStreamPromise]).then(function ([workerId, networkStream]) {\n      if (task.destroyed) {\n        throw new Error(\"Loading aborted\");\n      }\n      const messageHandler = new _message_handler.MessageHandler(docId, workerId, worker.port);\n      const transport = new WorkerTransport(messageHandler, task, networkStream, transportParams, transportFactory);\n      task._transport = transport;\n      messageHandler.send(\"Ready\", null);\n    });\n  }).catch(task._capability.reject);\n  return task;\n}\nasync function _fetchDocument(worker, source) {\n  if (worker.destroyed) {\n    throw new Error(\"Worker was destroyed\");\n  }\n  const workerId = await worker.messageHandler.sendWithPromise(\"GetDocRequest\", source, source.data ? [source.data.buffer] : null);\n  if (worker.destroyed) {\n    throw new Error(\"Worker was destroyed\");\n  }\n  return workerId;\n}\nfunction getUrlProp(val) {\n  if (val instanceof URL) {\n    return val.href;\n  }\n  try {\n    return new URL(val, window.location).href;\n  } catch (ex) {\n    if (_is_node.isNodeJS && typeof val === \"string\") {\n      return val;\n    }\n  }\n  throw new Error(\"Invalid PDF url data: \" + \"either string or URL-object is expected in the url property.\");\n}\nfunction getDataProp(val) {\n  if (_is_node.isNodeJS && typeof Buffer !== \"undefined\" && val instanceof Buffer) {\n    (0, _display_utils.deprecated)(\"Please provide binary data as `Uint8Array`, rather than `Buffer`.\");\n    return new Uint8Array(val);\n  }\n  if (val instanceof Uint8Array && val.byteLength === val.buffer.byteLength) {\n    return val;\n  }\n  if (typeof val === \"string\") {\n    return (0, _util.stringToBytes)(val);\n  }\n  if (typeof val === \"object\" && !isNaN(val?.length) || (0, _util.isArrayBuffer)(val)) {\n    return new Uint8Array(val);\n  }\n  throw new Error(\"Invalid PDF binary data: either TypedArray, \" + \"string, or array-like object is expected in the data property.\");\n}\nclass PDFDocumentLoadingTask {\n  static #docId = 0;\n  #onUnsupportedFeature = null;\n  constructor() {\n    this._capability = (0, _util.createPromiseCapability)();\n    this._transport = null;\n    this._worker = null;\n    this.docId = `d${PDFDocumentLoadingTask.#docId++}`;\n    this.destroyed = false;\n    this.onPassword = null;\n    this.onProgress = null;\n  }\n  get onUnsupportedFeature() {\n    return this.#onUnsupportedFeature;\n  }\n  set onUnsupportedFeature(callback) {\n    (0, _display_utils.deprecated)(\"The PDFDocumentLoadingTask onUnsupportedFeature property will be removed in the future.\");\n    this.#onUnsupportedFeature = callback;\n  }\n  get promise() {\n    return this._capability.promise;\n  }\n  async destroy() {\n    this.destroyed = true;\n    await this._transport?.destroy();\n    this._transport = null;\n    if (this._worker) {\n      this._worker.destroy();\n      this._worker = null;\n    }\n  }\n}\nexports.PDFDocumentLoadingTask = PDFDocumentLoadingTask;\nclass PDFDataRangeTransport {\n  constructor(length, initialData, progressiveDone = false, contentDispositionFilename = null) {\n    this.length = length;\n    this.initialData = initialData;\n    this.progressiveDone = progressiveDone;\n    this.contentDispositionFilename = contentDispositionFilename;\n    this._rangeListeners = [];\n    this._progressListeners = [];\n    this._progressiveReadListeners = [];\n    this._progressiveDoneListeners = [];\n    this._readyCapability = (0, _util.createPromiseCapability)();\n  }\n  addRangeListener(listener) {\n    this._rangeListeners.push(listener);\n  }\n  addProgressListener(listener) {\n    this._progressListeners.push(listener);\n  }\n  addProgressiveReadListener(listener) {\n    this._progressiveReadListeners.push(listener);\n  }\n  addProgressiveDoneListener(listener) {\n    this._progressiveDoneListeners.push(listener);\n  }\n  onDataRange(begin, chunk) {\n    for (const listener of this._rangeListeners) {\n      listener(begin, chunk);\n    }\n  }\n  onDataProgress(loaded, total) {\n    this._readyCapability.promise.then(() => {\n      for (const listener of this._progressListeners) {\n        listener(loaded, total);\n      }\n    });\n  }\n  onDataProgressiveRead(chunk) {\n    this._readyCapability.promise.then(() => {\n      for (const listener of this._progressiveReadListeners) {\n        listener(chunk);\n      }\n    });\n  }\n  onDataProgressiveDone() {\n    this._readyCapability.promise.then(() => {\n      for (const listener of this._progressiveDoneListeners) {\n        listener();\n      }\n    });\n  }\n  transportReady() {\n    this._readyCapability.resolve();\n  }\n  requestDataRange(begin, end) {\n    (0, _util.unreachable)(\"Abstract method PDFDataRangeTransport.requestDataRange\");\n  }\n  abort() {}\n}\nexports.PDFDataRangeTransport = PDFDataRangeTransport;\nclass PDFDocumentProxy {\n  constructor(pdfInfo, transport) {\n    this._pdfInfo = pdfInfo;\n    this._transport = transport;\n  }\n  get annotationStorage() {\n    return this._transport.annotationStorage;\n  }\n  get numPages() {\n    return this._pdfInfo.numPages;\n  }\n  get fingerprints() {\n    return this._pdfInfo.fingerprints;\n  }\n  get isPureXfa() {\n    return (0, _util.shadow)(this, \"isPureXfa\", !!this._transport._htmlForXfa);\n  }\n  get allXfaHtml() {\n    return this._transport._htmlForXfa;\n  }\n  getPage(pageNumber) {\n    return this._transport.getPage(pageNumber);\n  }\n  getPageIndex(ref) {\n    return this._transport.getPageIndex(ref);\n  }\n  getDestinations() {\n    return this._transport.getDestinations();\n  }\n  getDestination(id) {\n    return this._transport.getDestination(id);\n  }\n  getPageLabels() {\n    return this._transport.getPageLabels();\n  }\n  getPageLayout() {\n    return this._transport.getPageLayout();\n  }\n  getPageMode() {\n    return this._transport.getPageMode();\n  }\n  getViewerPreferences() {\n    return this._transport.getViewerPreferences();\n  }\n  getOpenAction() {\n    return this._transport.getOpenAction();\n  }\n  getAttachments() {\n    return this._transport.getAttachments();\n  }\n  getJavaScript() {\n    return this._transport.getJavaScript();\n  }\n  getJSActions() {\n    return this._transport.getDocJSActions();\n  }\n  getOutline() {\n    return this._transport.getOutline();\n  }\n  getOptionalContentConfig() {\n    return this._transport.getOptionalContentConfig();\n  }\n  getPermissions() {\n    return this._transport.getPermissions();\n  }\n  getMetadata() {\n    return this._transport.getMetadata();\n  }\n  getMarkInfo() {\n    return this._transport.getMarkInfo();\n  }\n  getData() {\n    return this._transport.getData();\n  }\n  saveDocument() {\n    return this._transport.saveDocument();\n  }\n  getDownloadInfo() {\n    return this._transport.downloadInfoCapability.promise;\n  }\n  cleanup(keepLoadedFonts = false) {\n    return this._transport.startCleanup(keepLoadedFonts || this.isPureXfa);\n  }\n  destroy() {\n    return this.loadingTask.destroy();\n  }\n  get loadingParams() {\n    return this._transport.loadingParams;\n  }\n  get loadingTask() {\n    return this._transport.loadingTask;\n  }\n  getFieldObjects() {\n    return this._transport.getFieldObjects();\n  }\n  hasJSActions() {\n    return this._transport.hasJSActions();\n  }\n  getCalculationOrderIds() {\n    return this._transport.getCalculationOrderIds();\n  }\n}\nexports.PDFDocumentProxy = PDFDocumentProxy;\nclass PDFPageProxy {\n  constructor(pageIndex, pageInfo, transport, ownerDocument, pdfBug = false) {\n    this._pageIndex = pageIndex;\n    this._pageInfo = pageInfo;\n    this._ownerDocument = ownerDocument;\n    this._transport = transport;\n    this._stats = pdfBug ? new _display_utils.StatTimer() : null;\n    this._pdfBug = pdfBug;\n    this.commonObjs = transport.commonObjs;\n    this.objs = new PDFObjects();\n    this.cleanupAfterRender = false;\n    this.pendingCleanup = false;\n    this._intentStates = new Map();\n    this.destroyed = false;\n  }\n  get pageNumber() {\n    return this._pageIndex + 1;\n  }\n  get rotate() {\n    return this._pageInfo.rotate;\n  }\n  get ref() {\n    return this._pageInfo.ref;\n  }\n  get userUnit() {\n    return this._pageInfo.userUnit;\n  }\n  get view() {\n    return this._pageInfo.view;\n  }\n  getViewport({\n    scale,\n    rotation = this.rotate,\n    offsetX = 0,\n    offsetY = 0,\n    dontFlip = false\n  } = {}) {\n    return new _display_utils.PageViewport({\n      viewBox: this.view,\n      scale,\n      rotation,\n      offsetX,\n      offsetY,\n      dontFlip\n    });\n  }\n  getAnnotations({\n    intent = \"display\"\n  } = {}) {\n    const intentArgs = this._transport.getRenderingIntent(intent);\n    return this._transport.getAnnotations(this._pageIndex, intentArgs.renderingIntent);\n  }\n  getJSActions() {\n    return this._transport.getPageJSActions(this._pageIndex);\n  }\n  get isPureXfa() {\n    return (0, _util.shadow)(this, \"isPureXfa\", !!this._transport._htmlForXfa);\n  }\n  async getXfa() {\n    return this._transport._htmlForXfa?.children[this._pageIndex] || null;\n  }\n  render({\n    canvasContext,\n    viewport,\n    intent = \"display\",\n    annotationMode = _util.AnnotationMode.ENABLE,\n    transform = null,\n    canvasFactory = null,\n    background = null,\n    optionalContentConfigPromise = null,\n    annotationCanvasMap = null,\n    pageColors = null,\n    printAnnotationStorage = null\n  }) {\n    this._stats?.time(\"Overall\");\n    const intentArgs = this._transport.getRenderingIntent(intent, annotationMode, printAnnotationStorage);\n    this.pendingCleanup = false;\n    if (!optionalContentConfigPromise) {\n      optionalContentConfigPromise = this._transport.getOptionalContentConfig();\n    }\n    let intentState = this._intentStates.get(intentArgs.cacheKey);\n    if (!intentState) {\n      intentState = Object.create(null);\n      this._intentStates.set(intentArgs.cacheKey, intentState);\n    }\n    if (intentState.streamReaderCancelTimeout) {\n      clearTimeout(intentState.streamReaderCancelTimeout);\n      intentState.streamReaderCancelTimeout = null;\n    }\n    const canvasFactoryInstance = canvasFactory || new DefaultCanvasFactory({\n      ownerDocument: this._ownerDocument\n    });\n    const intentPrint = !!(intentArgs.renderingIntent & _util.RenderingIntentFlag.PRINT);\n    if (!intentState.displayReadyCapability) {\n      intentState.displayReadyCapability = (0, _util.createPromiseCapability)();\n      intentState.operatorList = {\n        fnArray: [],\n        argsArray: [],\n        lastChunk: false,\n        separateAnnots: null\n      };\n      this._stats?.time(\"Page Request\");\n      this._pumpOperatorList(intentArgs);\n    }\n    const complete = error => {\n      intentState.renderTasks.delete(internalRenderTask);\n      if (this.cleanupAfterRender || intentPrint) {\n        this.pendingCleanup = true;\n      }\n      this._tryCleanup();\n      if (error) {\n        internalRenderTask.capability.reject(error);\n        this._abortOperatorList({\n          intentState,\n          reason: error instanceof Error ? error : new Error(error)\n        });\n      } else {\n        internalRenderTask.capability.resolve();\n      }\n      this._stats?.timeEnd(\"Rendering\");\n      this._stats?.timeEnd(\"Overall\");\n    };\n    const internalRenderTask = new InternalRenderTask({\n      callback: complete,\n      params: {\n        canvasContext,\n        viewport,\n        transform,\n        background\n      },\n      objs: this.objs,\n      commonObjs: this.commonObjs,\n      annotationCanvasMap,\n      operatorList: intentState.operatorList,\n      pageIndex: this._pageIndex,\n      canvasFactory: canvasFactoryInstance,\n      useRequestAnimationFrame: !intentPrint,\n      pdfBug: this._pdfBug,\n      pageColors\n    });\n    (intentState.renderTasks ||= new Set()).add(internalRenderTask);\n    const renderTask = internalRenderTask.task;\n    Promise.all([intentState.displayReadyCapability.promise, optionalContentConfigPromise]).then(([transparency, optionalContentConfig]) => {\n      if (this.pendingCleanup) {\n        complete();\n        return;\n      }\n      this._stats?.time(\"Rendering\");\n      internalRenderTask.initializeGraphics({\n        transparency,\n        optionalContentConfig\n      });\n      internalRenderTask.operatorListChanged();\n    }).catch(complete);\n    return renderTask;\n  }\n  getOperatorList({\n    intent = \"display\",\n    annotationMode = _util.AnnotationMode.ENABLE,\n    printAnnotationStorage = null\n  } = {}) {\n    function operatorListChanged() {\n      if (intentState.operatorList.lastChunk) {\n        intentState.opListReadCapability.resolve(intentState.operatorList);\n        intentState.renderTasks.delete(opListTask);\n      }\n    }\n    const intentArgs = this._transport.getRenderingIntent(intent, annotationMode, printAnnotationStorage, true);\n    let intentState = this._intentStates.get(intentArgs.cacheKey);\n    if (!intentState) {\n      intentState = Object.create(null);\n      this._intentStates.set(intentArgs.cacheKey, intentState);\n    }\n    let opListTask;\n    if (!intentState.opListReadCapability) {\n      opListTask = Object.create(null);\n      opListTask.operatorListChanged = operatorListChanged;\n      intentState.opListReadCapability = (0, _util.createPromiseCapability)();\n      (intentState.renderTasks ||= new Set()).add(opListTask);\n      intentState.operatorList = {\n        fnArray: [],\n        argsArray: [],\n        lastChunk: false,\n        separateAnnots: null\n      };\n      this._stats?.time(\"Page Request\");\n      this._pumpOperatorList(intentArgs);\n    }\n    return intentState.opListReadCapability.promise;\n  }\n  streamTextContent({\n    disableCombineTextItems = false,\n    includeMarkedContent = false\n  } = {}) {\n    const TEXT_CONTENT_CHUNK_SIZE = 100;\n    return this._transport.messageHandler.sendWithStream(\"GetTextContent\", {\n      pageIndex: this._pageIndex,\n      combineTextItems: disableCombineTextItems !== true,\n      includeMarkedContent: includeMarkedContent === true\n    }, {\n      highWaterMark: TEXT_CONTENT_CHUNK_SIZE,\n      size(textContent) {\n        return textContent.items.length;\n      }\n    });\n  }\n  getTextContent(params = {}) {\n    if (this._transport._htmlForXfa) {\n      return this.getXfa().then(xfa => {\n        return _xfa_text.XfaText.textContent(xfa);\n      });\n    }\n    const readableStream = this.streamTextContent(params);\n    return new Promise(function (resolve, reject) {\n      function pump() {\n        reader.read().then(function ({\n          value,\n          done\n        }) {\n          if (done) {\n            resolve(textContent);\n            return;\n          }\n          Object.assign(textContent.styles, value.styles);\n          textContent.items.push(...value.items);\n          pump();\n        }, reject);\n      }\n      const reader = readableStream.getReader();\n      const textContent = {\n        items: [],\n        styles: Object.create(null)\n      };\n      pump();\n    });\n  }\n  getStructTree() {\n    return this._transport.getStructTree(this._pageIndex);\n  }\n  _destroy() {\n    this.destroyed = true;\n    const waitOn = [];\n    for (const intentState of this._intentStates.values()) {\n      this._abortOperatorList({\n        intentState,\n        reason: new Error(\"Page was destroyed.\"),\n        force: true\n      });\n      if (intentState.opListReadCapability) {\n        continue;\n      }\n      for (const internalRenderTask of intentState.renderTasks) {\n        waitOn.push(internalRenderTask.completed);\n        internalRenderTask.cancel();\n      }\n    }\n    this.objs.clear();\n    this.pendingCleanup = false;\n    return Promise.all(waitOn);\n  }\n  cleanup(resetStats = false) {\n    this.pendingCleanup = true;\n    return this._tryCleanup(resetStats);\n  }\n  _tryCleanup(resetStats = false) {\n    if (!this.pendingCleanup) {\n      return false;\n    }\n    for (const {\n      renderTasks,\n      operatorList\n    } of this._intentStates.values()) {\n      if (renderTasks.size > 0 || !operatorList.lastChunk) {\n        return false;\n      }\n    }\n    this._intentStates.clear();\n    this.objs.clear();\n    if (resetStats && this._stats) {\n      this._stats = new _display_utils.StatTimer();\n    }\n    this.pendingCleanup = false;\n    return true;\n  }\n  _startRenderPage(transparency, cacheKey) {\n    const intentState = this._intentStates.get(cacheKey);\n    if (!intentState) {\n      return;\n    }\n    this._stats?.timeEnd(\"Page Request\");\n    intentState.displayReadyCapability?.resolve(transparency);\n  }\n  _renderPageChunk(operatorListChunk, intentState) {\n    for (let i = 0, ii = operatorListChunk.length; i < ii; i++) {\n      intentState.operatorList.fnArray.push(operatorListChunk.fnArray[i]);\n      intentState.operatorList.argsArray.push(operatorListChunk.argsArray[i]);\n    }\n    intentState.operatorList.lastChunk = operatorListChunk.lastChunk;\n    intentState.operatorList.separateAnnots = operatorListChunk.separateAnnots;\n    for (const internalRenderTask of intentState.renderTasks) {\n      internalRenderTask.operatorListChanged();\n    }\n    if (operatorListChunk.lastChunk) {\n      this._tryCleanup();\n    }\n  }\n  _pumpOperatorList({\n    renderingIntent,\n    cacheKey,\n    annotationStorageMap\n  }) {\n    const readableStream = this._transport.messageHandler.sendWithStream(\"GetOperatorList\", {\n      pageIndex: this._pageIndex,\n      intent: renderingIntent,\n      cacheKey,\n      annotationStorage: annotationStorageMap\n    });\n    const reader = readableStream.getReader();\n    const intentState = this._intentStates.get(cacheKey);\n    intentState.streamReader = reader;\n    const pump = () => {\n      reader.read().then(({\n        value,\n        done\n      }) => {\n        if (done) {\n          intentState.streamReader = null;\n          return;\n        }\n        if (this._transport.destroyed) {\n          return;\n        }\n        this._renderPageChunk(value, intentState);\n        pump();\n      }, reason => {\n        intentState.streamReader = null;\n        if (this._transport.destroyed) {\n          return;\n        }\n        if (intentState.operatorList) {\n          intentState.operatorList.lastChunk = true;\n          for (const internalRenderTask of intentState.renderTasks) {\n            internalRenderTask.operatorListChanged();\n          }\n          this._tryCleanup();\n        }\n        if (intentState.displayReadyCapability) {\n          intentState.displayReadyCapability.reject(reason);\n        } else if (intentState.opListReadCapability) {\n          intentState.opListReadCapability.reject(reason);\n        } else {\n          throw reason;\n        }\n      });\n    };\n    pump();\n  }\n  _abortOperatorList({\n    intentState,\n    reason,\n    force = false\n  }) {\n    if (!intentState.streamReader) {\n      return;\n    }\n    if (intentState.streamReaderCancelTimeout) {\n      clearTimeout(intentState.streamReaderCancelTimeout);\n      intentState.streamReaderCancelTimeout = null;\n    }\n    if (!force) {\n      if (intentState.renderTasks.size > 0) {\n        return;\n      }\n      if (reason instanceof _display_utils.RenderingCancelledException) {\n        let delay = RENDERING_CANCELLED_TIMEOUT;\n        if (reason.extraDelay > 0 && reason.extraDelay < 1000) {\n          delay += reason.extraDelay;\n        }\n        intentState.streamReaderCancelTimeout = setTimeout(() => {\n          intentState.streamReaderCancelTimeout = null;\n          this._abortOperatorList({\n            intentState,\n            reason,\n            force: true\n          });\n        }, delay);\n        return;\n      }\n    }\n    intentState.streamReader.cancel(new _util.AbortException(reason.message)).catch(() => {});\n    intentState.streamReader = null;\n    if (this._transport.destroyed) {\n      return;\n    }\n    for (const [curCacheKey, curIntentState] of this._intentStates) {\n      if (curIntentState === intentState) {\n        this._intentStates.delete(curCacheKey);\n        break;\n      }\n    }\n    this.cleanup();\n  }\n  get stats() {\n    return this._stats;\n  }\n}\nexports.PDFPageProxy = PDFPageProxy;\nclass LoopbackPort {\n  #listeners = new Set();\n  #deferred = Promise.resolve();\n  postMessage(obj, transfers) {\n    const event = {\n      data: structuredClone(obj, transfers)\n    };\n    this.#deferred.then(() => {\n      for (const listener of this.#listeners) {\n        listener.call(this, event);\n      }\n    });\n  }\n  addEventListener(name, listener) {\n    this.#listeners.add(listener);\n  }\n  removeEventListener(name, listener) {\n    this.#listeners.delete(listener);\n  }\n  terminate() {\n    this.#listeners.clear();\n  }\n}\nexports.LoopbackPort = LoopbackPort;\nconst PDFWorkerUtil = {\n  isWorkerDisabled: false,\n  fallbackWorkerSrc: null,\n  fakeWorkerId: 0\n};\nexports.PDFWorkerUtil = PDFWorkerUtil;\n{\n  if (_is_node.isNodeJS && typeof require === \"function\") {\n    PDFWorkerUtil.isWorkerDisabled = true;\n    PDFWorkerUtil.fallbackWorkerSrc = \"./pdf.worker.js\";\n  } else if (typeof document === \"object\") {\n    const pdfjsFilePath = document?.currentScript?.src;\n    if (pdfjsFilePath) {\n      PDFWorkerUtil.fallbackWorkerSrc = pdfjsFilePath.replace(/(\\.(?:min\\.)?js)(\\?.*)?$/i, \".worker$1$2\");\n    }\n  }\n  PDFWorkerUtil.isSameOrigin = function (baseUrl, otherUrl) {\n    let base;\n    try {\n      base = new URL(baseUrl);\n      if (!base.origin || base.origin === \"null\") {\n        return false;\n      }\n    } catch (e) {\n      return false;\n    }\n    const other = new URL(otherUrl, base);\n    return base.origin === other.origin;\n  };\n  PDFWorkerUtil.createCDNWrapper = function (url) {\n    const wrapper = `importScripts(\"${url}\");`;\n    return URL.createObjectURL(new Blob([wrapper]));\n  };\n}\nclass PDFWorker {\n  static #workerPorts = new WeakMap();\n  constructor({\n    name = null,\n    port = null,\n    verbosity = (0, _util.getVerbosityLevel)()\n  } = {}) {\n    if (port && PDFWorker.#workerPorts.has(port)) {\n      throw new Error(\"Cannot use more than one PDFWorker per port.\");\n    }\n    this.name = name;\n    this.destroyed = false;\n    this.verbosity = verbosity;\n    this._readyCapability = (0, _util.createPromiseCapability)();\n    this._port = null;\n    this._webWorker = null;\n    this._messageHandler = null;\n    if (port) {\n      PDFWorker.#workerPorts.set(port, this);\n      this._initializeFromPort(port);\n      return;\n    }\n    this._initialize();\n  }\n  get promise() {\n    return this._readyCapability.promise;\n  }\n  get port() {\n    return this._port;\n  }\n  get messageHandler() {\n    return this._messageHandler;\n  }\n  _initializeFromPort(port) {\n    this._port = port;\n    this._messageHandler = new _message_handler.MessageHandler(\"main\", \"worker\", port);\n    this._messageHandler.on(\"ready\", function () {});\n    this._readyCapability.resolve();\n    this._messageHandler.send(\"configure\", {\n      verbosity: this.verbosity\n    });\n  }\n  _initialize() {\n    if (!PDFWorkerUtil.isWorkerDisabled && !PDFWorker._mainThreadWorkerMessageHandler) {\n      let {\n        workerSrc\n      } = PDFWorker;\n      try {\n        if (!PDFWorkerUtil.isSameOrigin(window.location.href, workerSrc)) {\n          workerSrc = PDFWorkerUtil.createCDNWrapper(new URL(workerSrc, window.location).href);\n        }\n        const worker = new Worker(workerSrc);\n        const messageHandler = new _message_handler.MessageHandler(\"main\", \"worker\", worker);\n        const terminateEarly = () => {\n          worker.removeEventListener(\"error\", onWorkerError);\n          messageHandler.destroy();\n          worker.terminate();\n          if (this.destroyed) {\n            this._readyCapability.reject(new Error(\"Worker was destroyed\"));\n          } else {\n            this._setupFakeWorker();\n          }\n        };\n        const onWorkerError = () => {\n          if (!this._webWorker) {\n            terminateEarly();\n          }\n        };\n        worker.addEventListener(\"error\", onWorkerError);\n        messageHandler.on(\"test\", data => {\n          worker.removeEventListener(\"error\", onWorkerError);\n          if (this.destroyed) {\n            terminateEarly();\n            return;\n          }\n          if (data) {\n            this._messageHandler = messageHandler;\n            this._port = worker;\n            this._webWorker = worker;\n            this._readyCapability.resolve();\n            messageHandler.send(\"configure\", {\n              verbosity: this.verbosity\n            });\n          } else {\n            this._setupFakeWorker();\n            messageHandler.destroy();\n            worker.terminate();\n          }\n        });\n        messageHandler.on(\"ready\", data => {\n          worker.removeEventListener(\"error\", onWorkerError);\n          if (this.destroyed) {\n            terminateEarly();\n            return;\n          }\n          try {\n            sendTest();\n          } catch (e) {\n            this._setupFakeWorker();\n          }\n        });\n        const sendTest = () => {\n          const testObj = new Uint8Array();\n          messageHandler.send(\"test\", testObj, [testObj.buffer]);\n        };\n        sendTest();\n        return;\n      } catch (e) {\n        (0, _util.info)(\"The worker has been disabled.\");\n      }\n    }\n    this._setupFakeWorker();\n  }\n  _setupFakeWorker() {\n    if (!PDFWorkerUtil.isWorkerDisabled) {\n      (0, _util.warn)(\"Setting up fake worker.\");\n      PDFWorkerUtil.isWorkerDisabled = true;\n    }\n    PDFWorker._setupFakeWorkerGlobal.then(WorkerMessageHandler => {\n      if (this.destroyed) {\n        this._readyCapability.reject(new Error(\"Worker was destroyed\"));\n        return;\n      }\n      const port = new LoopbackPort();\n      this._port = port;\n      const id = `fake${PDFWorkerUtil.fakeWorkerId++}`;\n      const workerHandler = new _message_handler.MessageHandler(id + \"_worker\", id, port);\n      WorkerMessageHandler.setup(workerHandler, port);\n      const messageHandler = new _message_handler.MessageHandler(id, id + \"_worker\", port);\n      this._messageHandler = messageHandler;\n      this._readyCapability.resolve();\n      messageHandler.send(\"configure\", {\n        verbosity: this.verbosity\n      });\n    }).catch(reason => {\n      this._readyCapability.reject(new Error(`Setting up fake worker failed: \"${reason.message}\".`));\n    });\n  }\n  destroy() {\n    this.destroyed = true;\n    if (this._webWorker) {\n      this._webWorker.terminate();\n      this._webWorker = null;\n    }\n    PDFWorker.#workerPorts.delete(this._port);\n    this._port = null;\n    if (this._messageHandler) {\n      this._messageHandler.destroy();\n      this._messageHandler = null;\n    }\n  }\n  static fromPort(params) {\n    if (!params?.port) {\n      throw new Error(\"PDFWorker.fromPort - invalid method signature.\");\n    }\n    if (this.#workerPorts.has(params.port)) {\n      return this.#workerPorts.get(params.port);\n    }\n    return new PDFWorker(params);\n  }\n  static get workerSrc() {\n    if (_worker_options.GlobalWorkerOptions.workerSrc) {\n      return _worker_options.GlobalWorkerOptions.workerSrc;\n    }\n    if (PDFWorkerUtil.fallbackWorkerSrc !== null) {\n      if (!_is_node.isNodeJS) {\n        (0, _display_utils.deprecated)('No \"GlobalWorkerOptions.workerSrc\" specified.');\n      }\n      return PDFWorkerUtil.fallbackWorkerSrc;\n    }\n    throw new Error('No \"GlobalWorkerOptions.workerSrc\" specified.');\n  }\n  static get _mainThreadWorkerMessageHandler() {\n    try {\n      return globalThis.pdfjsWorker?.WorkerMessageHandler || null;\n    } catch (ex) {\n      return null;\n    }\n  }\n  static get _setupFakeWorkerGlobal() {\n    const loader = async () => {\n      const mainWorkerMessageHandler = this._mainThreadWorkerMessageHandler;\n      if (mainWorkerMessageHandler) {\n        return mainWorkerMessageHandler;\n      }\n      if (_is_node.isNodeJS && typeof require === \"function\") {\n        const worker = eval(\"require\")(this.workerSrc);\n        return worker.WorkerMessageHandler;\n      }\n      await (0, _display_utils.loadScript)(this.workerSrc);\n      return window.pdfjsWorker.WorkerMessageHandler;\n    };\n    return (0, _util.shadow)(this, \"_setupFakeWorkerGlobal\", loader());\n  }\n}\nexports.PDFWorker = PDFWorker;\nclass WorkerTransport {\n  #methodPromises = new Map();\n  #pageCache = new Map();\n  #pagePromises = new Map();\n  constructor(messageHandler, loadingTask, networkStream, params, factory) {\n    this.messageHandler = messageHandler;\n    this.loadingTask = loadingTask;\n    this.commonObjs = new PDFObjects();\n    this.fontLoader = new _font_loader.FontLoader({\n      onUnsupportedFeature: this._onUnsupportedFeature.bind(this),\n      ownerDocument: params.ownerDocument,\n      styleElement: params.styleElement\n    });\n    this._params = params;\n    this.cMapReaderFactory = factory?.cMapReaderFactory;\n    this.standardFontDataFactory = factory?.standardFontDataFactory;\n    this.destroyed = false;\n    this.destroyCapability = null;\n    this._passwordCapability = null;\n    this._networkStream = networkStream;\n    this._fullReader = null;\n    this._lastProgress = null;\n    this.downloadInfoCapability = (0, _util.createPromiseCapability)();\n    this.setupMessageHandler();\n  }\n  #cacheSimpleMethod(name, data = null) {\n    const cachedPromise = this.#methodPromises.get(name);\n    if (cachedPromise) {\n      return cachedPromise;\n    }\n    const promise = this.messageHandler.sendWithPromise(name, data);\n    this.#methodPromises.set(name, promise);\n    return promise;\n  }\n  get annotationStorage() {\n    return (0, _util.shadow)(this, \"annotationStorage\", new _annotation_storage.AnnotationStorage());\n  }\n  getRenderingIntent(intent, annotationMode = _util.AnnotationMode.ENABLE, printAnnotationStorage = null, isOpList = false) {\n    let renderingIntent = _util.RenderingIntentFlag.DISPLAY;\n    let annotationMap = null;\n    switch (intent) {\n      case \"any\":\n        renderingIntent = _util.RenderingIntentFlag.ANY;\n        break;\n      case \"display\":\n        break;\n      case \"print\":\n        renderingIntent = _util.RenderingIntentFlag.PRINT;\n        break;\n      default:\n        (0, _util.warn)(`getRenderingIntent - invalid intent: ${intent}`);\n    }\n    switch (annotationMode) {\n      case _util.AnnotationMode.DISABLE:\n        renderingIntent += _util.RenderingIntentFlag.ANNOTATIONS_DISABLE;\n        break;\n      case _util.AnnotationMode.ENABLE:\n        break;\n      case _util.AnnotationMode.ENABLE_FORMS:\n        renderingIntent += _util.RenderingIntentFlag.ANNOTATIONS_FORMS;\n        break;\n      case _util.AnnotationMode.ENABLE_STORAGE:\n        renderingIntent += _util.RenderingIntentFlag.ANNOTATIONS_STORAGE;\n        const annotationStorage = renderingIntent & _util.RenderingIntentFlag.PRINT && printAnnotationStorage instanceof _annotation_storage.PrintAnnotationStorage ? printAnnotationStorage : this.annotationStorage;\n        annotationMap = annotationStorage.serializable;\n        break;\n      default:\n        (0, _util.warn)(`getRenderingIntent - invalid annotationMode: ${annotationMode}`);\n    }\n    if (isOpList) {\n      renderingIntent += _util.RenderingIntentFlag.OPLIST;\n    }\n    return {\n      renderingIntent,\n      cacheKey: `${renderingIntent}_${_annotation_storage.AnnotationStorage.getHash(annotationMap)}`,\n      annotationStorageMap: annotationMap\n    };\n  }\n  destroy() {\n    if (this.destroyCapability) {\n      return this.destroyCapability.promise;\n    }\n    this.destroyed = true;\n    this.destroyCapability = (0, _util.createPromiseCapability)();\n    if (this._passwordCapability) {\n      this._passwordCapability.reject(new Error(\"Worker was destroyed during onPassword callback\"));\n    }\n    const waitOn = [];\n    for (const page of this.#pageCache.values()) {\n      waitOn.push(page._destroy());\n    }\n    this.#pageCache.clear();\n    this.#pagePromises.clear();\n    if (this.hasOwnProperty(\"annotationStorage\")) {\n      this.annotationStorage.resetModified();\n    }\n    const terminated = this.messageHandler.sendWithPromise(\"Terminate\", null);\n    waitOn.push(terminated);\n    Promise.all(waitOn).then(() => {\n      this.commonObjs.clear();\n      this.fontLoader.clear();\n      this.#methodPromises.clear();\n      if (this._networkStream) {\n        this._networkStream.cancelAllRequests(new _util.AbortException(\"Worker was terminated.\"));\n      }\n      if (this.messageHandler) {\n        this.messageHandler.destroy();\n        this.messageHandler = null;\n      }\n      this.destroyCapability.resolve();\n    }, this.destroyCapability.reject);\n    return this.destroyCapability.promise;\n  }\n  setupMessageHandler() {\n    const {\n      messageHandler,\n      loadingTask\n    } = this;\n    messageHandler.on(\"GetReader\", (data, sink) => {\n      (0, _util.assert)(this._networkStream, \"GetReader - no `IPDFStream` instance available.\");\n      this._fullReader = this._networkStream.getFullReader();\n      this._fullReader.onProgress = evt => {\n        this._lastProgress = {\n          loaded: evt.loaded,\n          total: evt.total\n        };\n      };\n      sink.onPull = () => {\n        this._fullReader.read().then(function ({\n          value,\n          done\n        }) {\n          if (done) {\n            sink.close();\n            return;\n          }\n          (0, _util.assert)(value instanceof ArrayBuffer, \"GetReader - expected an ArrayBuffer.\");\n          sink.enqueue(new Uint8Array(value), 1, [value]);\n        }).catch(reason => {\n          sink.error(reason);\n        });\n      };\n      sink.onCancel = reason => {\n        this._fullReader.cancel(reason);\n        sink.ready.catch(readyReason => {\n          if (this.destroyed) {\n            return;\n          }\n          throw readyReason;\n        });\n      };\n    });\n    messageHandler.on(\"ReaderHeadersReady\", data => {\n      const headersCapability = (0, _util.createPromiseCapability)();\n      const fullReader = this._fullReader;\n      fullReader.headersReady.then(() => {\n        if (!fullReader.isStreamingSupported || !fullReader.isRangeSupported) {\n          if (this._lastProgress) {\n            loadingTask.onProgress?.(this._lastProgress);\n          }\n          fullReader.onProgress = evt => {\n            loadingTask.onProgress?.({\n              loaded: evt.loaded,\n              total: evt.total\n            });\n          };\n        }\n        headersCapability.resolve({\n          isStreamingSupported: fullReader.isStreamingSupported,\n          isRangeSupported: fullReader.isRangeSupported,\n          contentLength: fullReader.contentLength\n        });\n      }, headersCapability.reject);\n      return headersCapability.promise;\n    });\n    messageHandler.on(\"GetRangeReader\", (data, sink) => {\n      (0, _util.assert)(this._networkStream, \"GetRangeReader - no `IPDFStream` instance available.\");\n      const rangeReader = this._networkStream.getRangeReader(data.begin, data.end);\n      if (!rangeReader) {\n        sink.close();\n        return;\n      }\n      sink.onPull = () => {\n        rangeReader.read().then(function ({\n          value,\n          done\n        }) {\n          if (done) {\n            sink.close();\n            return;\n          }\n          (0, _util.assert)(value instanceof ArrayBuffer, \"GetRangeReader - expected an ArrayBuffer.\");\n          sink.enqueue(new Uint8Array(value), 1, [value]);\n        }).catch(reason => {\n          sink.error(reason);\n        });\n      };\n      sink.onCancel = reason => {\n        rangeReader.cancel(reason);\n        sink.ready.catch(readyReason => {\n          if (this.destroyed) {\n            return;\n          }\n          throw readyReason;\n        });\n      };\n    });\n    messageHandler.on(\"GetDoc\", ({\n      pdfInfo\n    }) => {\n      this._numPages = pdfInfo.numPages;\n      this._htmlForXfa = pdfInfo.htmlForXfa;\n      delete pdfInfo.htmlForXfa;\n      loadingTask._capability.resolve(new PDFDocumentProxy(pdfInfo, this));\n    });\n    messageHandler.on(\"DocException\", function (ex) {\n      let reason;\n      switch (ex.name) {\n        case \"PasswordException\":\n          reason = new _util.PasswordException(ex.message, ex.code);\n          break;\n        case \"InvalidPDFException\":\n          reason = new _util.InvalidPDFException(ex.message);\n          break;\n        case \"MissingPDFException\":\n          reason = new _util.MissingPDFException(ex.message);\n          break;\n        case \"UnexpectedResponseException\":\n          reason = new _util.UnexpectedResponseException(ex.message, ex.status);\n          break;\n        case \"UnknownErrorException\":\n          reason = new _util.UnknownErrorException(ex.message, ex.details);\n          break;\n        default:\n          (0, _util.unreachable)(\"DocException - expected a valid Error.\");\n      }\n      loadingTask._capability.reject(reason);\n    });\n    messageHandler.on(\"PasswordRequest\", exception => {\n      this._passwordCapability = (0, _util.createPromiseCapability)();\n      if (loadingTask.onPassword) {\n        const updatePassword = password => {\n          if (password instanceof Error) {\n            this._passwordCapability.reject(password);\n          } else {\n            this._passwordCapability.resolve({\n              password\n            });\n          }\n        };\n        try {\n          loadingTask.onPassword(updatePassword, exception.code);\n        } catch (ex) {\n          this._passwordCapability.reject(ex);\n        }\n      } else {\n        this._passwordCapability.reject(new _util.PasswordException(exception.message, exception.code));\n      }\n      return this._passwordCapability.promise;\n    });\n    messageHandler.on(\"DataLoaded\", data => {\n      loadingTask.onProgress?.({\n        loaded: data.length,\n        total: data.length\n      });\n      this.downloadInfoCapability.resolve(data);\n    });\n    messageHandler.on(\"StartRenderPage\", data => {\n      if (this.destroyed) {\n        return;\n      }\n      const page = this.#pageCache.get(data.pageIndex);\n      page._startRenderPage(data.transparency, data.cacheKey);\n    });\n    messageHandler.on(\"commonobj\", ([id, type, exportedData]) => {\n      if (this.destroyed) {\n        return;\n      }\n      if (this.commonObjs.has(id)) {\n        return;\n      }\n      switch (type) {\n        case \"Font\":\n          const params = this._params;\n          if (\"error\" in exportedData) {\n            const exportedError = exportedData.error;\n            (0, _util.warn)(`Error during font loading: ${exportedError}`);\n            this.commonObjs.resolve(id, exportedError);\n            break;\n          }\n          let fontRegistry = null;\n          if (params.pdfBug && globalThis.FontInspector?.enabled) {\n            fontRegistry = {\n              registerFont(font, url) {\n                globalThis.FontInspector.fontAdded(font, url);\n              }\n            };\n          }\n          const font = new _font_loader.FontFaceObject(exportedData, {\n            isEvalSupported: params.isEvalSupported,\n            disableFontFace: params.disableFontFace,\n            ignoreErrors: params.ignoreErrors,\n            onUnsupportedFeature: this._onUnsupportedFeature.bind(this),\n            fontRegistry\n          });\n          this.fontLoader.bind(font).catch(reason => {\n            return messageHandler.sendWithPromise(\"FontFallback\", {\n              id\n            });\n          }).finally(() => {\n            if (!params.fontExtraProperties && font.data) {\n              font.data = null;\n            }\n            this.commonObjs.resolve(id, font);\n          });\n          break;\n        case \"FontPath\":\n        case \"Image\":\n          this.commonObjs.resolve(id, exportedData);\n          break;\n        default:\n          throw new Error(`Got unknown common object type ${type}`);\n      }\n    });\n    messageHandler.on(\"obj\", ([id, pageIndex, type, imageData]) => {\n      if (this.destroyed) {\n        return;\n      }\n      const pageProxy = this.#pageCache.get(pageIndex);\n      if (pageProxy.objs.has(id)) {\n        return;\n      }\n      switch (type) {\n        case \"Image\":\n          pageProxy.objs.resolve(id, imageData);\n          const MAX_IMAGE_SIZE_TO_STORE = 8000000;\n          if (imageData) {\n            let length;\n            if (imageData.bitmap) {\n              const {\n                width,\n                height\n              } = imageData;\n              length = width * height * 4;\n            } else {\n              length = imageData.data?.length || 0;\n            }\n            if (length > MAX_IMAGE_SIZE_TO_STORE) {\n              pageProxy.cleanupAfterRender = true;\n            }\n          }\n          break;\n        case \"Pattern\":\n          pageProxy.objs.resolve(id, imageData);\n          break;\n        default:\n          throw new Error(`Got unknown object type ${type}`);\n      }\n    });\n    messageHandler.on(\"DocProgress\", data => {\n      if (this.destroyed) {\n        return;\n      }\n      loadingTask.onProgress?.({\n        loaded: data.loaded,\n        total: data.total\n      });\n    });\n    messageHandler.on(\"UnsupportedFeature\", this._onUnsupportedFeature.bind(this));\n    messageHandler.on(\"FetchBuiltInCMap\", data => {\n      if (this.destroyed) {\n        return Promise.reject(new Error(\"Worker was destroyed.\"));\n      }\n      if (!this.cMapReaderFactory) {\n        return Promise.reject(new Error(\"CMapReaderFactory not initialized, see the `useWorkerFetch` parameter.\"));\n      }\n      return this.cMapReaderFactory.fetch(data);\n    });\n    messageHandler.on(\"FetchStandardFontData\", data => {\n      if (this.destroyed) {\n        return Promise.reject(new Error(\"Worker was destroyed.\"));\n      }\n      if (!this.standardFontDataFactory) {\n        return Promise.reject(new Error(\"StandardFontDataFactory not initialized, see the `useWorkerFetch` parameter.\"));\n      }\n      return this.standardFontDataFactory.fetch(data);\n    });\n  }\n  _onUnsupportedFeature({\n    featureId\n  }) {\n    if (this.destroyed) {\n      return;\n    }\n    this.loadingTask.onUnsupportedFeature?.(featureId);\n  }\n  getData() {\n    return this.messageHandler.sendWithPromise(\"GetData\", null);\n  }\n  saveDocument() {\n    if (this.annotationStorage.size <= 0) {\n      (0, _util.warn)(\"saveDocument called while `annotationStorage` is empty, \" + \"please use the getData-method instead.\");\n    }\n    return this.messageHandler.sendWithPromise(\"SaveDocument\", {\n      isPureXfa: !!this._htmlForXfa,\n      numPages: this._numPages,\n      annotationStorage: this.annotationStorage.serializable,\n      filename: this._fullReader?.filename ?? null\n    }).finally(() => {\n      this.annotationStorage.resetModified();\n    });\n  }\n  getPage(pageNumber) {\n    if (!Number.isInteger(pageNumber) || pageNumber <= 0 || pageNumber > this._numPages) {\n      return Promise.reject(new Error(\"Invalid page request.\"));\n    }\n    const pageIndex = pageNumber - 1,\n      cachedPromise = this.#pagePromises.get(pageIndex);\n    if (cachedPromise) {\n      return cachedPromise;\n    }\n    const promise = this.messageHandler.sendWithPromise(\"GetPage\", {\n      pageIndex\n    }).then(pageInfo => {\n      if (this.destroyed) {\n        throw new Error(\"Transport destroyed\");\n      }\n      const page = new PDFPageProxy(pageIndex, pageInfo, this, this._params.ownerDocument, this._params.pdfBug);\n      this.#pageCache.set(pageIndex, page);\n      return page;\n    });\n    this.#pagePromises.set(pageIndex, promise);\n    return promise;\n  }\n  getPageIndex(ref) {\n    if (typeof ref !== \"object\" || ref === null || !Number.isInteger(ref.num) || ref.num < 0 || !Number.isInteger(ref.gen) || ref.gen < 0) {\n      return Promise.reject(new Error(\"Invalid pageIndex request.\"));\n    }\n    return this.messageHandler.sendWithPromise(\"GetPageIndex\", {\n      num: ref.num,\n      gen: ref.gen\n    });\n  }\n  getAnnotations(pageIndex, intent) {\n    return this.messageHandler.sendWithPromise(\"GetAnnotations\", {\n      pageIndex,\n      intent\n    });\n  }\n  getFieldObjects() {\n    return this.#cacheSimpleMethod(\"GetFieldObjects\");\n  }\n  hasJSActions() {\n    return this.#cacheSimpleMethod(\"HasJSActions\");\n  }\n  getCalculationOrderIds() {\n    return this.messageHandler.sendWithPromise(\"GetCalculationOrderIds\", null);\n  }\n  getDestinations() {\n    return this.messageHandler.sendWithPromise(\"GetDestinations\", null);\n  }\n  getDestination(id) {\n    if (typeof id !== \"string\") {\n      return Promise.reject(new Error(\"Invalid destination request.\"));\n    }\n    return this.messageHandler.sendWithPromise(\"GetDestination\", {\n      id\n    });\n  }\n  getPageLabels() {\n    return this.messageHandler.sendWithPromise(\"GetPageLabels\", null);\n  }\n  getPageLayout() {\n    return this.messageHandler.sendWithPromise(\"GetPageLayout\", null);\n  }\n  getPageMode() {\n    return this.messageHandler.sendWithPromise(\"GetPageMode\", null);\n  }\n  getViewerPreferences() {\n    return this.messageHandler.sendWithPromise(\"GetViewerPreferences\", null);\n  }\n  getOpenAction() {\n    return this.messageHandler.sendWithPromise(\"GetOpenAction\", null);\n  }\n  getAttachments() {\n    return this.messageHandler.sendWithPromise(\"GetAttachments\", null);\n  }\n  getJavaScript() {\n    return this.messageHandler.sendWithPromise(\"GetJavaScript\", null);\n  }\n  getDocJSActions() {\n    return this.messageHandler.sendWithPromise(\"GetDocJSActions\", null);\n  }\n  getPageJSActions(pageIndex) {\n    return this.messageHandler.sendWithPromise(\"GetPageJSActions\", {\n      pageIndex\n    });\n  }\n  getStructTree(pageIndex) {\n    return this.messageHandler.sendWithPromise(\"GetStructTree\", {\n      pageIndex\n    });\n  }\n  getOutline() {\n    return this.messageHandler.sendWithPromise(\"GetOutline\", null);\n  }\n  getOptionalContentConfig() {\n    return this.messageHandler.sendWithPromise(\"GetOptionalContentConfig\", null).then(results => {\n      return new _optional_content_config.OptionalContentConfig(results);\n    });\n  }\n  getPermissions() {\n    return this.messageHandler.sendWithPromise(\"GetPermissions\", null);\n  }\n  getMetadata() {\n    const name = \"GetMetadata\",\n      cachedPromise = this.#methodPromises.get(name);\n    if (cachedPromise) {\n      return cachedPromise;\n    }\n    const promise = this.messageHandler.sendWithPromise(name, null).then(results => {\n      return {\n        info: results[0],\n        metadata: results[1] ? new _metadata.Metadata(results[1]) : null,\n        contentDispositionFilename: this._fullReader?.filename ?? null,\n        contentLength: this._fullReader?.contentLength ?? null\n      };\n    });\n    this.#methodPromises.set(name, promise);\n    return promise;\n  }\n  getMarkInfo() {\n    return this.messageHandler.sendWithPromise(\"GetMarkInfo\", null);\n  }\n  async startCleanup(keepLoadedFonts = false) {\n    if (this.destroyed) {\n      return;\n    }\n    await this.messageHandler.sendWithPromise(\"Cleanup\", null);\n    for (const page of this.#pageCache.values()) {\n      const cleanupSuccessful = page.cleanup();\n      if (!cleanupSuccessful) {\n        throw new Error(`startCleanup: Page ${page.pageNumber} is currently rendering.`);\n      }\n    }\n    this.commonObjs.clear();\n    if (!keepLoadedFonts) {\n      this.fontLoader.clear();\n    }\n    this.#methodPromises.clear();\n  }\n  get loadingParams() {\n    const {\n      disableAutoFetch,\n      enableXfa\n    } = this._params;\n    return (0, _util.shadow)(this, \"loadingParams\", {\n      disableAutoFetch,\n      enableXfa\n    });\n  }\n}\nclass PDFObjects {\n  #objs = Object.create(null);\n  #ensureObj(objId) {\n    const obj = this.#objs[objId];\n    if (obj) {\n      return obj;\n    }\n    return this.#objs[objId] = {\n      capability: (0, _util.createPromiseCapability)(),\n      data: null\n    };\n  }\n  get(objId, callback = null) {\n    if (callback) {\n      const obj = this.#ensureObj(objId);\n      obj.capability.promise.then(() => callback(obj.data));\n      return null;\n    }\n    const obj = this.#objs[objId];\n    if (!obj?.capability.settled) {\n      throw new Error(`Requesting object that isn't resolved yet ${objId}.`);\n    }\n    return obj.data;\n  }\n  has(objId) {\n    const obj = this.#objs[objId];\n    return obj?.capability.settled || false;\n  }\n  resolve(objId, data = null) {\n    const obj = this.#ensureObj(objId);\n    obj.data = data;\n    obj.capability.resolve();\n  }\n  clear() {\n    for (const objId in this.#objs) {\n      const {\n        data\n      } = this.#objs[objId];\n      data?.bitmap?.close();\n    }\n    this.#objs = Object.create(null);\n  }\n}\nclass RenderTask {\n  #internalRenderTask = null;\n  constructor(internalRenderTask) {\n    this.#internalRenderTask = internalRenderTask;\n    this.onContinue = null;\n  }\n  get promise() {\n    return this.#internalRenderTask.capability.promise;\n  }\n  cancel(extraDelay = 0) {\n    this.#internalRenderTask.cancel(null, extraDelay);\n  }\n  get separateAnnots() {\n    const {\n      separateAnnots\n    } = this.#internalRenderTask.operatorList;\n    if (!separateAnnots) {\n      return false;\n    }\n    const {\n      annotationCanvasMap\n    } = this.#internalRenderTask;\n    return separateAnnots.form || separateAnnots.canvas && annotationCanvasMap?.size > 0;\n  }\n}\nexports.RenderTask = RenderTask;\nclass InternalRenderTask {\n  static #canvasInUse = new WeakSet();\n  constructor({\n    callback,\n    params,\n    objs,\n    commonObjs,\n    annotationCanvasMap,\n    operatorList,\n    pageIndex,\n    canvasFactory,\n    useRequestAnimationFrame = false,\n    pdfBug = false,\n    pageColors = null\n  }) {\n    this.callback = callback;\n    this.params = params;\n    this.objs = objs;\n    this.commonObjs = commonObjs;\n    this.annotationCanvasMap = annotationCanvasMap;\n    this.operatorListIdx = null;\n    this.operatorList = operatorList;\n    this._pageIndex = pageIndex;\n    this.canvasFactory = canvasFactory;\n    this._pdfBug = pdfBug;\n    this.pageColors = pageColors;\n    this.running = false;\n    this.graphicsReadyCallback = null;\n    this.graphicsReady = false;\n    this._useRequestAnimationFrame = useRequestAnimationFrame === true && typeof window !== \"undefined\";\n    this.cancelled = false;\n    this.capability = (0, _util.createPromiseCapability)();\n    this.task = new RenderTask(this);\n    this._cancelBound = this.cancel.bind(this);\n    this._continueBound = this._continue.bind(this);\n    this._scheduleNextBound = this._scheduleNext.bind(this);\n    this._nextBound = this._next.bind(this);\n    this._canvas = params.canvasContext.canvas;\n  }\n  get completed() {\n    return this.capability.promise.catch(function () {});\n  }\n  initializeGraphics({\n    transparency = false,\n    optionalContentConfig\n  }) {\n    if (this.cancelled) {\n      return;\n    }\n    if (this._canvas) {\n      if (InternalRenderTask.#canvasInUse.has(this._canvas)) {\n        throw new Error(\"Cannot use the same canvas during multiple render() operations. \" + \"Use different canvas or ensure previous operations were \" + \"cancelled or completed.\");\n      }\n      InternalRenderTask.#canvasInUse.add(this._canvas);\n    }\n    if (this._pdfBug && globalThis.StepperManager?.enabled) {\n      this.stepper = globalThis.StepperManager.create(this._pageIndex);\n      this.stepper.init(this.operatorList);\n      this.stepper.nextBreakPoint = this.stepper.getNextBreakPoint();\n    }\n    const {\n      canvasContext,\n      viewport,\n      transform,\n      background\n    } = this.params;\n    this.gfx = new _canvas.CanvasGraphics(canvasContext, this.commonObjs, this.objs, this.canvasFactory, {\n      optionalContentConfig\n    }, this.annotationCanvasMap, this.pageColors);\n    this.gfx.beginDrawing({\n      transform,\n      viewport,\n      transparency,\n      background\n    });\n    this.operatorListIdx = 0;\n    this.graphicsReady = true;\n    this.graphicsReadyCallback?.();\n  }\n  cancel(error = null, extraDelay = 0) {\n    this.running = false;\n    this.cancelled = true;\n    this.gfx?.endDrawing();\n    if (this._canvas) {\n      InternalRenderTask.#canvasInUse.delete(this._canvas);\n    }\n    this.callback(error || new _display_utils.RenderingCancelledException(`Rendering cancelled, page ${this._pageIndex + 1}`, \"canvas\", extraDelay));\n  }\n  operatorListChanged() {\n    if (!this.graphicsReady) {\n      if (!this.graphicsReadyCallback) {\n        this.graphicsReadyCallback = this._continueBound;\n      }\n      return;\n    }\n    this.stepper?.updateOperatorList(this.operatorList);\n    if (this.running) {\n      return;\n    }\n    this._continue();\n  }\n  _continue() {\n    this.running = true;\n    if (this.cancelled) {\n      return;\n    }\n    if (this.task.onContinue) {\n      this.task.onContinue(this._scheduleNextBound);\n    } else {\n      this._scheduleNext();\n    }\n  }\n  _scheduleNext() {\n    if (this._useRequestAnimationFrame) {\n      window.requestAnimationFrame(() => {\n        this._nextBound().catch(this._cancelBound);\n      });\n    } else {\n      Promise.resolve().then(this._nextBound).catch(this._cancelBound);\n    }\n  }\n  async _next() {\n    if (this.cancelled) {\n      return;\n    }\n    this.operatorListIdx = this.gfx.executeOperatorList(this.operatorList, this.operatorListIdx, this._continueBound, this.stepper);\n    if (this.operatorListIdx === this.operatorList.argsArray.length) {\n      this.running = false;\n      if (this.operatorList.lastChunk) {\n        this.gfx.endDrawing();\n        if (this._canvas) {\n          InternalRenderTask.#canvasInUse.delete(this._canvas);\n        }\n        this.callback();\n      }\n    }\n  }\n}\nconst version = '3.4.120';\nexports.version = version;\nconst build = 'af6414988';\nexports.build = build;\n\n/***/ }),\n/* 3 */\n/***/ ((__unused_webpack_module, exports, __w_pdfjs_require__) => {\n\n\n\nObject.defineProperty(exports, \"__esModule\", ({\n  value: true\n}));\nexports.PrintAnnotationStorage = exports.AnnotationStorage = void 0;\nvar _util = __w_pdfjs_require__(1);\nvar _editor = __w_pdfjs_require__(4);\nvar _murmurhash = __w_pdfjs_require__(8);\nclass AnnotationStorage {\n  #modified = false;\n  #storage = new Map();\n  constructor() {\n    this.onSetModified = null;\n    this.onResetModified = null;\n    this.onAnnotationEditor = null;\n  }\n  getValue(key, defaultValue) {\n    const value = this.#storage.get(key);\n    if (value === undefined) {\n      return defaultValue;\n    }\n    return Object.assign(defaultValue, value);\n  }\n  getRawValue(key) {\n    return this.#storage.get(key);\n  }\n  remove(key) {\n    this.#storage.delete(key);\n    if (this.#storage.size === 0) {\n      this.resetModified();\n    }\n    if (typeof this.onAnnotationEditor === \"function\") {\n      for (const value of this.#storage.values()) {\n        if (value instanceof _editor.AnnotationEditor) {\n          return;\n        }\n      }\n      this.onAnnotationEditor(null);\n    }\n  }\n  setValue(key, value) {\n    const obj = this.#storage.get(key);\n    let modified = false;\n    if (obj !== undefined) {\n      for (const [entry, val] of Object.entries(value)) {\n        if (obj[entry] !== val) {\n          modified = true;\n          obj[entry] = val;\n        }\n      }\n    } else {\n      modified = true;\n      this.#storage.set(key, value);\n    }\n    if (modified) {\n      this.#setModified();\n    }\n    if (value instanceof _editor.AnnotationEditor && typeof this.onAnnotationEditor === \"function\") {\n      this.onAnnotationEditor(value.constructor._type);\n    }\n  }\n  has(key) {\n    return this.#storage.has(key);\n  }\n  getAll() {\n    return this.#storage.size > 0 ? (0, _util.objectFromMap)(this.#storage) : null;\n  }\n  setAll(obj) {\n    for (const [key, val] of Object.entries(obj)) {\n      this.setValue(key, val);\n    }\n  }\n  get size() {\n    return this.#storage.size;\n  }\n  #setModified() {\n    if (!this.#modified) {\n      this.#modified = true;\n      if (typeof this.onSetModified === \"function\") {\n        this.onSetModified();\n      }\n    }\n  }\n  resetModified() {\n    if (this.#modified) {\n      this.#modified = false;\n      if (typeof this.onResetModified === \"function\") {\n        this.onResetModified();\n      }\n    }\n  }\n  get print() {\n    return new PrintAnnotationStorage(this);\n  }\n  get serializable() {\n    if (this.#storage.size === 0) {\n      return null;\n    }\n    const clone = new Map();\n    for (const [key, val] of this.#storage) {\n      const serialized = val instanceof _editor.AnnotationEditor ? val.serialize() : val;\n      if (serialized) {\n        clone.set(key, serialized);\n      }\n    }\n    return clone;\n  }\n  static getHash(map) {\n    if (!map) {\n      return \"\";\n    }\n    const hash = new _murmurhash.MurmurHash3_64();\n    for (const [key, val] of map) {\n      hash.update(`${key}:${JSON.stringify(val)}`);\n    }\n    return hash.hexdigest();\n  }\n}\nexports.AnnotationStorage = AnnotationStorage;\nclass PrintAnnotationStorage extends AnnotationStorage {\n  #serializable = null;\n  constructor(parent) {\n    super();\n    this.#serializable = structuredClone(parent.serializable);\n  }\n  get print() {\n    (0, _util.unreachable)(\"Should not call PrintAnnotationStorage.print\");\n  }\n  get serializable() {\n    return this.#serializable;\n  }\n}\nexports.PrintAnnotationStorage = PrintAnnotationStorage;\n\n/***/ }),\n/* 4 */\n/***/ ((__unused_webpack_module, exports, __w_pdfjs_require__) => {\n\n\n\nObject.defineProperty(exports, \"__esModule\", ({\n  value: true\n}));\nexports.AnnotationEditor = void 0;\nvar _tools = __w_pdfjs_require__(5);\nvar _util = __w_pdfjs_require__(1);\nclass AnnotationEditor {\n  #boundFocusin = this.focusin.bind(this);\n  #boundFocusout = this.focusout.bind(this);\n  #hasBeenSelected = false;\n  #isEditing = false;\n  #isInEditMode = false;\n  _uiManager = null;\n  #zIndex = AnnotationEditor._zIndex++;\n  static _colorManager = new _tools.ColorManager();\n  static _zIndex = 1;\n  constructor(parameters) {\n    if (this.constructor === AnnotationEditor) {\n      (0, _util.unreachable)(\"Cannot initialize AnnotationEditor.\");\n    }\n    this.parent = parameters.parent;\n    this.id = parameters.id;\n    this.width = this.height = null;\n    this.pageIndex = parameters.parent.pageIndex;\n    this.name = parameters.name;\n    this.div = null;\n    this._uiManager = parameters.uiManager;\n    const {\n      rotation,\n      rawDims: {\n        pageWidth,\n        pageHeight,\n        pageX,\n        pageY\n      }\n    } = this.parent.viewport;\n    this.rotation = rotation;\n    this.pageDimensions = [pageWidth, pageHeight];\n    this.pageTranslation = [pageX, pageY];\n    const [width, height] = this.parentDimensions;\n    this.x = parameters.x / width;\n    this.y = parameters.y / height;\n    this.isAttachedToDOM = false;\n  }\n  static get _defaultLineColor() {\n    return (0, _util.shadow)(this, \"_defaultLineColor\", this._colorManager.getHexCode(\"CanvasText\"));\n  }\n  addCommands(params) {\n    this._uiManager.addCommands(params);\n  }\n  get currentLayer() {\n    return this._uiManager.currentLayer;\n  }\n  setInBackground() {\n    this.div.style.zIndex = 0;\n  }\n  setInForeground() {\n    this.div.style.zIndex = this.#zIndex;\n  }\n  setParent(parent) {\n    if (parent !== null) {\n      this.pageIndex = parent.pageIndex;\n      this.pageDimensions = parent.pageDimensions;\n    }\n    this.parent = parent;\n  }\n  focusin(event) {\n    if (!this.#hasBeenSelected) {\n      this.parent.setSelected(this);\n    } else {\n      this.#hasBeenSelected = false;\n    }\n  }\n  focusout(event) {\n    if (!this.isAttachedToDOM) {\n      return;\n    }\n    const target = event.relatedTarget;\n    if (target?.closest(`#${this.id}`)) {\n      return;\n    }\n    event.preventDefault();\n    if (!this.parent?.isMultipleSelection) {\n      this.commitOrRemove();\n    }\n  }\n  commitOrRemove() {\n    if (this.isEmpty()) {\n      this.remove();\n    } else {\n      this.commit();\n    }\n  }\n  commit() {\n    this.addToAnnotationStorage();\n  }\n  addToAnnotationStorage() {\n    this._uiManager.addToAnnotationStorage(this);\n  }\n  dragstart(event) {\n    const rect = this.parent.div.getBoundingClientRect();\n    this.startX = event.clientX - rect.x;\n    this.startY = event.clientY - rect.y;\n    event.dataTransfer.setData(\"text/plain\", this.id);\n    event.dataTransfer.effectAllowed = \"move\";\n  }\n  setAt(x, y, tx, ty) {\n    const [width, height] = this.parentDimensions;\n    [tx, ty] = this.screenToPageTranslation(tx, ty);\n    this.x = (x + tx) / width;\n    this.y = (y + ty) / height;\n    this.div.style.left = `${100 * this.x}%`;\n    this.div.style.top = `${100 * this.y}%`;\n  }\n  translate(x, y) {\n    const [width, height] = this.parentDimensions;\n    [x, y] = this.screenToPageTranslation(x, y);\n    this.x += x / width;\n    this.y += y / height;\n    this.div.style.left = `${100 * this.x}%`;\n    this.div.style.top = `${100 * this.y}%`;\n  }\n  screenToPageTranslation(x, y) {\n    switch (this.parentRotation) {\n      case 90:\n        return [y, -x];\n      case 180:\n        return [-x, -y];\n      case 270:\n        return [-y, x];\n      default:\n        return [x, y];\n    }\n  }\n  get parentScale() {\n    return this._uiManager.viewParameters.realScale;\n  }\n  get parentRotation() {\n    return this._uiManager.viewParameters.rotation;\n  }\n  get parentDimensions() {\n    const {\n      realScale\n    } = this._uiManager.viewParameters;\n    const [pageWidth, pageHeight] = this.pageDimensions;\n    return [pageWidth * realScale, pageHeight * realScale];\n  }\n  setDims(width, height) {\n    const [parentWidth, parentHeight] = this.parentDimensions;\n    this.div.style.width = `${100 * width / parentWidth}%`;\n    this.div.style.height = `${100 * height / parentHeight}%`;\n  }\n  fixDims() {\n    const {\n      style\n    } = this.div;\n    const {\n      height,\n      width\n    } = style;\n    const widthPercent = width.endsWith(\"%\");\n    const heightPercent = height.endsWith(\"%\");\n    if (widthPercent && heightPercent) {\n      return;\n    }\n    const [parentWidth, parentHeight] = this.parentDimensions;\n    if (!widthPercent) {\n      style.width = `${100 * parseFloat(width) / parentWidth}%`;\n    }\n    if (!heightPercent) {\n      style.height = `${100 * parseFloat(height) / parentHeight}%`;\n    }\n  }\n  getInitialTranslation() {\n    return [0, 0];\n  }\n  render() {\n    this.div = document.createElement(\"div\");\n    this.div.setAttribute(\"data-editor-rotation\", (360 - this.rotation) % 360);\n    this.div.className = this.name;\n    this.div.setAttribute(\"id\", this.id);\n    this.div.setAttribute(\"tabIndex\", 0);\n    this.setInForeground();\n    this.div.addEventListener(\"focusin\", this.#boundFocusin);\n    this.div.addEventListener(\"focusout\", this.#boundFocusout);\n    const [tx, ty] = this.getInitialTranslation();\n    this.translate(tx, ty);\n    (0, _tools.bindEvents)(this, this.div, [\"dragstart\", \"pointerdown\"]);\n    return this.div;\n  }\n  pointerdown(event) {\n    const {\n      isMac\n    } = _util.FeatureTest.platform;\n    if (event.button !== 0 || event.ctrlKey && isMac) {\n      event.preventDefault();\n      return;\n    }\n    if (event.ctrlKey && !isMac || event.shiftKey || event.metaKey && isMac) {\n      this.parent.toggleSelected(this);\n    } else {\n      this.parent.setSelected(this);\n    }\n    this.#hasBeenSelected = true;\n  }\n  getRect(tx, ty) {\n    const scale = this.parentScale;\n    const [pageWidth, pageHeight] = this.pageDimensions;\n    const [pageX, pageY] = this.pageTranslation;\n    const shiftX = tx / scale;\n    const shiftY = ty / scale;\n    const x = this.x * pageWidth;\n    const y = this.y * pageHeight;\n    const width = this.width * pageWidth;\n    const height = this.height * pageHeight;\n    switch (this.rotation) {\n      case 0:\n        return [x + shiftX + pageX, pageHeight - y - shiftY - height + pageY, x + shiftX + width + pageX, pageHeight - y - shiftY + pageY];\n      case 90:\n        return [x + shiftY + pageX, pageHeight - y + shiftX + pageY, x + shiftY + height + pageX, pageHeight - y + shiftX + width + pageY];\n      case 180:\n        return [x - shiftX - width + pageX, pageHeight - y + shiftY + pageY, x - shiftX + pageX, pageHeight - y + shiftY + height + pageY];\n      case 270:\n        return [x - shiftY - height + pageX, pageHeight - y - shiftX - width + pageY, x - shiftY + pageX, pageHeight - y - shiftX + pageY];\n      default:\n        throw new Error(\"Invalid rotation\");\n    }\n  }\n  getRectInCurrentCoords(rect, pageHeight) {\n    const [x1, y1, x2, y2] = rect;\n    const width = x2 - x1;\n    const height = y2 - y1;\n    switch (this.rotation) {\n      case 0:\n        return [x1, pageHeight - y2, width, height];\n      case 90:\n        return [x1, pageHeight - y1, height, width];\n      case 180:\n        return [x2, pageHeight - y1, width, height];\n      case 270:\n        return [x2, pageHeight - y2, height, width];\n      default:\n        throw new Error(\"Invalid rotation\");\n    }\n  }\n  onceAdded() {}\n  isEmpty() {\n    return false;\n  }\n  enableEditMode() {\n    this.#isInEditMode = true;\n  }\n  disableEditMode() {\n    this.#isInEditMode = false;\n  }\n  isInEditMode() {\n    return this.#isInEditMode;\n  }\n  shouldGetKeyboardEvents() {\n    return false;\n  }\n  needsToBeRebuilt() {\n    return this.div && !this.isAttachedToDOM;\n  }\n  rebuild() {\n    this.div?.addEventListener(\"focusin\", this.#boundFocusin);\n  }\n  serialize() {\n    (0, _util.unreachable)(\"An editor must be serializable\");\n  }\n  static deserialize(data, parent, uiManager) {\n    const editor = new this.prototype.constructor({\n      parent,\n      id: parent.getNextId(),\n      uiManager\n    });\n    editor.rotation = data.rotation;\n    const [pageWidth, pageHeight] = editor.pageDimensions;\n    const [x, y, width, height] = editor.getRectInCurrentCoords(data.rect, pageHeight);\n    editor.x = x / pageWidth;\n    editor.y = y / pageHeight;\n    editor.width = width / pageWidth;\n    editor.height = height / pageHeight;\n    return editor;\n  }\n  remove() {\n    this.div.removeEventListener(\"focusin\", this.#boundFocusin);\n    this.div.removeEventListener(\"focusout\", this.#boundFocusout);\n    if (!this.isEmpty()) {\n      this.commit();\n    }\n    this.parent.remove(this);\n  }\n  select() {\n    this.div?.classList.add(\"selectedEditor\");\n  }\n  unselect() {\n    this.div?.classList.remove(\"selectedEditor\");\n  }\n  updateParams(type, value) {}\n  disableEditing() {}\n  enableEditing() {}\n  get propertiesToUpdate() {\n    return {};\n  }\n  get contentDiv() {\n    return this.div;\n  }\n  get isEditing() {\n    return this.#isEditing;\n  }\n  set isEditing(value) {\n    this.#isEditing = value;\n    if (value) {\n      this.parent.setSelected(this);\n      this.parent.setActiveEditor(this);\n    } else {\n      this.parent.setActiveEditor(null);\n    }\n  }\n}\nexports.AnnotationEditor = AnnotationEditor;\n\n/***/ }),\n/* 5 */\n/***/ ((__unused_webpack_module, exports, __w_pdfjs_require__) => {\n\n\n\nObject.defineProperty(exports, \"__esModule\", ({\n  value: true\n}));\nexports.KeyboardManager = exports.CommandManager = exports.ColorManager = exports.AnnotationEditorUIManager = void 0;\nexports.bindEvents = bindEvents;\nexports.opacityToHex = opacityToHex;\nvar _util = __w_pdfjs_require__(1);\nvar _display_utils = __w_pdfjs_require__(6);\nfunction bindEvents(obj, element, names) {\n  for (const name of names) {\n    element.addEventListener(name, obj[name].bind(obj));\n  }\n}\nfunction opacityToHex(opacity) {\n  return Math.round(Math.min(255, Math.max(1, 255 * opacity))).toString(16).padStart(2, \"0\");\n}\nclass IdManager {\n  #id = 0;\n  getId() {\n    return `${_util.AnnotationEditorPrefix}${this.#id++}`;\n  }\n}\nclass CommandManager {\n  #commands = [];\n  #locked = false;\n  #maxSize;\n  #position = -1;\n  constructor(maxSize = 128) {\n    this.#maxSize = maxSize;\n  }\n  add({\n    cmd,\n    undo,\n    mustExec,\n    type = NaN,\n    overwriteIfSameType = false,\n    keepUndo = false\n  }) {\n    if (mustExec) {\n      cmd();\n    }\n    if (this.#locked) {\n      return;\n    }\n    const save = {\n      cmd,\n      undo,\n      type\n    };\n    if (this.#position === -1) {\n      if (this.#commands.length > 0) {\n        this.#commands.length = 0;\n      }\n      this.#position = 0;\n      this.#commands.push(save);\n      return;\n    }\n    if (overwriteIfSameType && this.#commands[this.#position].type === type) {\n      if (keepUndo) {\n        save.undo = this.#commands[this.#position].undo;\n      }\n      this.#commands[this.#position] = save;\n      return;\n    }\n    const next = this.#position + 1;\n    if (next === this.#maxSize) {\n      this.#commands.splice(0, 1);\n    } else {\n      this.#position = next;\n      if (next < this.#commands.length) {\n        this.#commands.splice(next);\n      }\n    }\n    this.#commands.push(save);\n  }\n  undo() {\n    if (this.#position === -1) {\n      return;\n    }\n    this.#locked = true;\n    this.#commands[this.#position].undo();\n    this.#locked = false;\n    this.#position -= 1;\n  }\n  redo() {\n    if (this.#position < this.#commands.length - 1) {\n      this.#position += 1;\n      this.#locked = true;\n      this.#commands[this.#position].cmd();\n      this.#locked = false;\n    }\n  }\n  hasSomethingToUndo() {\n    return this.#position !== -1;\n  }\n  hasSomethingToRedo() {\n    return this.#position < this.#commands.length - 1;\n  }\n  destroy() {\n    this.#commands = null;\n  }\n}\nexports.CommandManager = CommandManager;\nclass KeyboardManager {\n  constructor(callbacks) {\n    this.buffer = [];\n    this.callbacks = new Map();\n    this.allKeys = new Set();\n    const {\n      isMac\n    } = _util.FeatureTest.platform;\n    for (const [keys, callback] of callbacks) {\n      for (const key of keys) {\n        const isMacKey = key.startsWith(\"mac+\");\n        if (isMac && isMacKey) {\n          this.callbacks.set(key.slice(4), callback);\n          this.allKeys.add(key.split(\"+\").at(-1));\n        } else if (!isMac && !isMacKey) {\n          this.callbacks.set(key, callback);\n          this.allKeys.add(key.split(\"+\").at(-1));\n        }\n      }\n    }\n  }\n  #serialize(event) {\n    if (event.altKey) {\n      this.buffer.push(\"alt\");\n    }\n    if (event.ctrlKey) {\n      this.buffer.push(\"ctrl\");\n    }\n    if (event.metaKey) {\n      this.buffer.push(\"meta\");\n    }\n    if (event.shiftKey) {\n      this.buffer.push(\"shift\");\n    }\n    this.buffer.push(event.key);\n    const str = this.buffer.join(\"+\");\n    this.buffer.length = 0;\n    return str;\n  }\n  exec(self, event) {\n    if (!this.allKeys.has(event.key)) {\n      return;\n    }\n    const callback = this.callbacks.get(this.#serialize(event));\n    if (!callback) {\n      return;\n    }\n    callback.bind(self)();\n    event.stopPropagation();\n    event.preventDefault();\n  }\n}\nexports.KeyboardManager = KeyboardManager;\nclass ColorManager {\n  static _colorsMapping = new Map([[\"CanvasText\", [0, 0, 0]], [\"Canvas\", [255, 255, 255]]]);\n  get _colors() {\n    const colors = new Map([[\"CanvasText\", null], [\"Canvas\", null]]);\n    (0, _display_utils.getColorValues)(colors);\n    return (0, _util.shadow)(this, \"_colors\", colors);\n  }\n  convert(color) {\n    const rgb = (0, _display_utils.getRGB)(color);\n    if (!window.matchMedia(\"(forced-colors: active)\").matches) {\n      return rgb;\n    }\n    for (const [name, RGB] of this._colors) {\n      if (RGB.every((x, i) => x === rgb[i])) {\n        return ColorManager._colorsMapping.get(name);\n      }\n    }\n    return rgb;\n  }\n  getHexCode(name) {\n    const rgb = this._colors.get(name);\n    if (!rgb) {\n      return name;\n    }\n    return _util.Util.makeHexColor(...rgb);\n  }\n}\nexports.ColorManager = ColorManager;\nclass AnnotationEditorUIManager {\n  #activeEditor = null;\n  #allEditors = new Map();\n  #allLayers = new Map();\n  #annotationStorage = null;\n  #commandManager = new CommandManager();\n  #currentPageIndex = 0;\n  #editorTypes = null;\n  #editorsToRescale = new Set();\n  #eventBus = null;\n  #idManager = new IdManager();\n  #isEnabled = false;\n  #mode = _util.AnnotationEditorType.NONE;\n  #selectedEditors = new Set();\n  #boundCopy = this.copy.bind(this);\n  #boundCut = this.cut.bind(this);\n  #boundPaste = this.paste.bind(this);\n  #boundKeydown = this.keydown.bind(this);\n  #boundOnEditingAction = this.onEditingAction.bind(this);\n  #boundOnPageChanging = this.onPageChanging.bind(this);\n  #boundOnScaleChanging = this.onScaleChanging.bind(this);\n  #boundOnRotationChanging = this.onRotationChanging.bind(this);\n  #previousStates = {\n    isEditing: false,\n    isEmpty: true,\n    hasSomethingToUndo: false,\n    hasSomethingToRedo: false,\n    hasSelectedEditor: false\n  };\n  #container = null;\n  static _keyboardManager = new KeyboardManager([[[\"ctrl+a\", \"mac+meta+a\"], AnnotationEditorUIManager.prototype.selectAll], [[\"ctrl+z\", \"mac+meta+z\"], AnnotationEditorUIManager.prototype.undo], [[\"ctrl+y\", \"ctrl+shift+Z\", \"mac+meta+shift+Z\"], AnnotationEditorUIManager.prototype.redo], [[\"Backspace\", \"alt+Backspace\", \"ctrl+Backspace\", \"shift+Backspace\", \"mac+Backspace\", \"mac+alt+Backspace\", \"mac+ctrl+Backspace\", \"Delete\", \"ctrl+Delete\", \"shift+Delete\"], AnnotationEditorUIManager.prototype.delete], [[\"Escape\", \"mac+Escape\"], AnnotationEditorUIManager.prototype.unselectAll]]);\n  constructor(container, eventBus, annotationStorage) {\n    this.#container = container;\n    this.#eventBus = eventBus;\n    this.#eventBus._on(\"editingaction\", this.#boundOnEditingAction);\n    this.#eventBus._on(\"pagechanging\", this.#boundOnPageChanging);\n    this.#eventBus._on(\"scalechanging\", this.#boundOnScaleChanging);\n    this.#eventBus._on(\"rotationchanging\", this.#boundOnRotationChanging);\n    this.#annotationStorage = annotationStorage;\n    this.viewParameters = {\n      realScale: _display_utils.PixelsPerInch.PDF_TO_CSS_UNITS,\n      rotation: 0\n    };\n  }\n  destroy() {\n    this.#removeKeyboardManager();\n    this.#eventBus._off(\"editingaction\", this.#boundOnEditingAction);\n    this.#eventBus._off(\"pagechanging\", this.#boundOnPageChanging);\n    this.#eventBus._off(\"scalechanging\", this.#boundOnScaleChanging);\n    this.#eventBus._off(\"rotationchanging\", this.#boundOnRotationChanging);\n    for (const layer of this.#allLayers.values()) {\n      layer.destroy();\n    }\n    this.#allLayers.clear();\n    this.#allEditors.clear();\n    this.#editorsToRescale.clear();\n    this.#activeEditor = null;\n    this.#selectedEditors.clear();\n    this.#commandManager.destroy();\n  }\n  onPageChanging({\n    pageNumber\n  }) {\n    this.#currentPageIndex = pageNumber - 1;\n  }\n  focusMainContainer() {\n    this.#container.focus();\n  }\n  addShouldRescale(editor) {\n    this.#editorsToRescale.add(editor);\n  }\n  removeShouldRescale(editor) {\n    this.#editorsToRescale.delete(editor);\n  }\n  onScaleChanging({\n    scale\n  }) {\n    this.commitOrRemove();\n    this.viewParameters.realScale = scale * _display_utils.PixelsPerInch.PDF_TO_CSS_UNITS;\n    for (const editor of this.#editorsToRescale) {\n      editor.onScaleChanging();\n    }\n  }\n  onRotationChanging({\n    pagesRotation\n  }) {\n    this.commitOrRemove();\n    this.viewParameters.rotation = pagesRotation;\n  }\n  addToAnnotationStorage(editor) {\n    if (!editor.isEmpty() && this.#annotationStorage && !this.#annotationStorage.has(editor.id)) {\n      this.#annotationStorage.setValue(editor.id, editor);\n    }\n  }\n  #addKeyboardManager() {\n    this.#container.addEventListener(\"keydown\", this.#boundKeydown);\n  }\n  #removeKeyboardManager() {\n    this.#container.removeEventListener(\"keydown\", this.#boundKeydown);\n  }\n  #addCopyPasteListeners() {\n    document.addEventListener(\"copy\", this.#boundCopy);\n    document.addEventListener(\"cut\", this.#boundCut);\n    document.addEventListener(\"paste\", this.#boundPaste);\n  }\n  #removeCopyPasteListeners() {\n    document.removeEventListener(\"copy\", this.#boundCopy);\n    document.removeEventListener(\"cut\", this.#boundCut);\n    document.removeEventListener(\"paste\", this.#boundPaste);\n  }\n  copy(event) {\n    event.preventDefault();\n    if (this.#activeEditor) {\n      this.#activeEditor.commitOrRemove();\n    }\n    if (!this.hasSelection) {\n      return;\n    }\n    const editors = [];\n    for (const editor of this.#selectedEditors) {\n      if (!editor.isEmpty()) {\n        editors.push(editor.serialize());\n      }\n    }\n    if (editors.length === 0) {\n      return;\n    }\n    event.clipboardData.setData(\"application/pdfjs\", JSON.stringify(editors));\n  }\n  cut(event) {\n    this.copy(event);\n    this.delete();\n  }\n  paste(event) {\n    event.preventDefault();\n    let data = event.clipboardData.getData(\"application/pdfjs\");\n    if (!data) {\n      return;\n    }\n    try {\n      data = JSON.parse(data);\n    } catch (ex) {\n      (0, _util.warn)(`paste: \"${ex.message}\".`);\n      return;\n    }\n    if (!Array.isArray(data)) {\n      return;\n    }\n    this.unselectAll();\n    const layer = this.#allLayers.get(this.#currentPageIndex);\n    try {\n      const newEditors = [];\n      for (const editor of data) {\n        const deserializedEditor = layer.deserialize(editor);\n        if (!deserializedEditor) {\n          return;\n        }\n        newEditors.push(deserializedEditor);\n      }\n      const cmd = () => {\n        for (const editor of newEditors) {\n          this.#addEditorToLayer(editor);\n        }\n        this.#selectEditors(newEditors);\n      };\n      const undo = () => {\n        for (const editor of newEditors) {\n          editor.remove();\n        }\n      };\n      this.addCommands({\n        cmd,\n        undo,\n        mustExec: true\n      });\n    } catch (ex) {\n      (0, _util.warn)(`paste: \"${ex.message}\".`);\n    }\n  }\n  keydown(event) {\n    if (!this.getActive()?.shouldGetKeyboardEvents()) {\n      AnnotationEditorUIManager._keyboardManager.exec(this, event);\n    }\n  }\n  onEditingAction(details) {\n    if ([\"undo\", \"redo\", \"delete\", \"selectAll\"].includes(details.name)) {\n      this[details.name]();\n    }\n  }\n  #dispatchUpdateStates(details) {\n    const hasChanged = Object.entries(details).some(([key, value]) => this.#previousStates[key] !== value);\n    if (hasChanged) {\n      this.#eventBus.dispatch(\"annotationeditorstateschanged\", {\n        source: this,\n        details: Object.assign(this.#previousStates, details)\n      });\n    }\n  }\n  #dispatchUpdateUI(details) {\n    this.#eventBus.dispatch(\"annotationeditorparamschanged\", {\n      source: this,\n      details\n    });\n  }\n  setEditingState(isEditing) {\n    if (isEditing) {\n      this.#addKeyboardManager();\n      this.#addCopyPasteListeners();\n      this.#dispatchUpdateStates({\n        isEditing: this.#mode !== _util.AnnotationEditorType.NONE,\n        isEmpty: this.#isEmpty(),\n        hasSomethingToUndo: this.#commandManager.hasSomethingToUndo(),\n        hasSomethingToRedo: this.#commandManager.hasSomethingToRedo(),\n        hasSelectedEditor: false\n      });\n    } else {\n      this.#removeKeyboardManager();\n      this.#removeCopyPasteListeners();\n      this.#dispatchUpdateStates({\n        isEditing: false\n      });\n    }\n  }\n  registerEditorTypes(types) {\n    if (this.#editorTypes) {\n      return;\n    }\n    this.#editorTypes = types;\n    for (const editorType of this.#editorTypes) {\n      this.#dispatchUpdateUI(editorType.defaultPropertiesToUpdate);\n    }\n  }\n  getId() {\n    return this.#idManager.getId();\n  }\n  get currentLayer() {\n    return this.#allLayers.get(this.#currentPageIndex);\n  }\n  get currentPageIndex() {\n    return this.#currentPageIndex;\n  }\n  addLayer(layer) {\n    this.#allLayers.set(layer.pageIndex, layer);\n    if (this.#isEnabled) {\n      layer.enable();\n    } else {\n      layer.disable();\n    }\n  }\n  removeLayer(layer) {\n    this.#allLayers.delete(layer.pageIndex);\n  }\n  updateMode(mode) {\n    this.#mode = mode;\n    if (mode === _util.AnnotationEditorType.NONE) {\n      this.setEditingState(false);\n      this.#disableAll();\n    } else {\n      this.setEditingState(true);\n      this.#enableAll();\n      for (const layer of this.#allLayers.values()) {\n        layer.updateMode(mode);\n      }\n    }\n  }\n  updateToolbar(mode) {\n    if (mode === this.#mode) {\n      return;\n    }\n    this.#eventBus.dispatch(\"switchannotationeditormode\", {\n      source: this,\n      mode\n    });\n  }\n  updateParams(type, value) {\n    if (!this.#editorTypes) {\n      return;\n    }\n    for (const editor of this.#selectedEditors) {\n      editor.updateParams(type, value);\n    }\n    for (const editorType of this.#editorTypes) {\n      editorType.updateDefaultParams(type, value);\n    }\n  }\n  #enableAll() {\n    if (!this.#isEnabled) {\n      this.#isEnabled = true;\n      for (const layer of this.#allLayers.values()) {\n        layer.enable();\n      }\n    }\n  }\n  #disableAll() {\n    this.unselectAll();\n    if (this.#isEnabled) {\n      this.#isEnabled = false;\n      for (const layer of this.#allLayers.values()) {\n        layer.disable();\n      }\n    }\n  }\n  getEditors(pageIndex) {\n    const editors = [];\n    for (const editor of this.#allEditors.values()) {\n      if (editor.pageIndex === pageIndex) {\n        editors.push(editor);\n      }\n    }\n    return editors;\n  }\n  getEditor(id) {\n    return this.#allEditors.get(id);\n  }\n  addEditor(editor) {\n    this.#allEditors.set(editor.id, editor);\n  }\n  removeEditor(editor) {\n    this.#allEditors.delete(editor.id);\n    this.unselect(editor);\n    this.#annotationStorage?.remove(editor.id);\n  }\n  #addEditorToLayer(editor) {\n    const layer = this.#allLayers.get(editor.pageIndex);\n    if (layer) {\n      layer.addOrRebuild(editor);\n    } else {\n      this.addEditor(editor);\n    }\n  }\n  setActiveEditor(editor) {\n    if (this.#activeEditor === editor) {\n      return;\n    }\n    this.#activeEditor = editor;\n    if (editor) {\n      this.#dispatchUpdateUI(editor.propertiesToUpdate);\n    }\n  }\n  toggleSelected(editor) {\n    if (this.#selectedEditors.has(editor)) {\n      this.#selectedEditors.delete(editor);\n      editor.unselect();\n      this.#dispatchUpdateStates({\n        hasSelectedEditor: this.hasSelection\n      });\n      return;\n    }\n    this.#selectedEditors.add(editor);\n    editor.select();\n    this.#dispatchUpdateUI(editor.propertiesToUpdate);\n    this.#dispatchUpdateStates({\n      hasSelectedEditor: true\n    });\n  }\n  setSelected(editor) {\n    for (const ed of this.#selectedEditors) {\n      if (ed !== editor) {\n        ed.unselect();\n      }\n    }\n    this.#selectedEditors.clear();\n    this.#selectedEditors.add(editor);\n    editor.select();\n    this.#dispatchUpdateUI(editor.propertiesToUpdate);\n    this.#dispatchUpdateStates({\n      hasSelectedEditor: true\n    });\n  }\n  isSelected(editor) {\n    return this.#selectedEditors.has(editor);\n  }\n  unselect(editor) {\n    editor.unselect();\n    this.#selectedEditors.delete(editor);\n    this.#dispatchUpdateStates({\n      hasSelectedEditor: this.hasSelection\n    });\n  }\n  get hasSelection() {\n    return this.#selectedEditors.size !== 0;\n  }\n  undo() {\n    this.#commandManager.undo();\n    this.#dispatchUpdateStates({\n      hasSomethingToUndo: this.#commandManager.hasSomethingToUndo(),\n      hasSomethingToRedo: true,\n      isEmpty: this.#isEmpty()\n    });\n  }\n  redo() {\n    this.#commandManager.redo();\n    this.#dispatchUpdateStates({\n      hasSomethingToUndo: true,\n      hasSomethingToRedo: this.#commandManager.hasSomethingToRedo(),\n      isEmpty: this.#isEmpty()\n    });\n  }\n  addCommands(params) {\n    this.#commandManager.add(params);\n    this.#dispatchUpdateStates({\n      hasSomethingToUndo: true,\n      hasSomethingToRedo: false,\n      isEmpty: this.#isEmpty()\n    });\n  }\n  #isEmpty() {\n    if (this.#allEditors.size === 0) {\n      return true;\n    }\n    if (this.#allEditors.size === 1) {\n      for (const editor of this.#allEditors.values()) {\n        return editor.isEmpty();\n      }\n    }\n    return false;\n  }\n  delete() {\n    this.commitOrRemove();\n    if (!this.hasSelection) {\n      return;\n    }\n    const editors = [...this.#selectedEditors];\n    const cmd = () => {\n      for (const editor of editors) {\n        editor.remove();\n      }\n    };\n    const undo = () => {\n      for (const editor of editors) {\n        this.#addEditorToLayer(editor);\n      }\n    };\n    this.addCommands({\n      cmd,\n      undo,\n      mustExec: true\n    });\n  }\n  commitOrRemove() {\n    this.#activeEditor?.commitOrRemove();\n  }\n  #selectEditors(editors) {\n    this.#selectedEditors.clear();\n    for (const editor of editors) {\n      if (editor.isEmpty()) {\n        continue;\n      }\n      this.#selectedEditors.add(editor);\n      editor.select();\n    }\n    this.#dispatchUpdateStates({\n      hasSelectedEditor: true\n    });\n  }\n  selectAll() {\n    for (const editor of this.#selectedEditors) {\n      editor.commit();\n    }\n    this.#selectEditors(this.#allEditors.values());\n  }\n  unselectAll() {\n    if (this.#activeEditor) {\n      this.#activeEditor.commitOrRemove();\n      return;\n    }\n    if (this.#selectedEditors.size === 0) {\n      return;\n    }\n    for (const editor of this.#selectedEditors) {\n      editor.unselect();\n    }\n    this.#selectedEditors.clear();\n    this.#dispatchUpdateStates({\n      hasSelectedEditor: false\n    });\n  }\n  isActive(editor) {\n    return this.#activeEditor === editor;\n  }\n  getActive() {\n    return this.#activeEditor;\n  }\n  getMode() {\n    return this.#mode;\n  }\n}\nexports.AnnotationEditorUIManager = AnnotationEditorUIManager;\n\n/***/ }),\n/* 6 */\n/***/ ((__unused_webpack_module, exports, __w_pdfjs_require__) => {\n\n\n\nObject.defineProperty(exports, \"__esModule\", ({\n  value: true\n}));\nexports.StatTimer = exports.RenderingCancelledException = exports.PixelsPerInch = exports.PageViewport = exports.PDFDateString = exports.DOMStandardFontDataFactory = exports.DOMSVGFactory = exports.DOMCanvasFactory = exports.DOMCMapReaderFactory = exports.AnnotationPrefix = void 0;\nexports.deprecated = deprecated;\nexports.getColorValues = getColorValues;\nexports.getCurrentTransform = getCurrentTransform;\nexports.getCurrentTransformInverse = getCurrentTransformInverse;\nexports.getFilenameFromUrl = getFilenameFromUrl;\nexports.getPdfFilenameFromUrl = getPdfFilenameFromUrl;\nexports.getRGB = getRGB;\nexports.getXfaPageViewport = getXfaPageViewport;\nexports.isDataScheme = isDataScheme;\nexports.isPdfFile = isPdfFile;\nexports.isValidFetchUrl = isValidFetchUrl;\nexports.loadScript = loadScript;\nexports.setLayerDimensions = setLayerDimensions;\nvar _base_factory = __w_pdfjs_require__(7);\nvar _util = __w_pdfjs_require__(1);\nconst SVG_NS = \"http://www.w3.org/2000/svg\";\nconst AnnotationPrefix = \"pdfjs_internal_id_\";\nexports.AnnotationPrefix = AnnotationPrefix;\nclass PixelsPerInch {\n  static CSS = 96.0;\n  static PDF = 72.0;\n  static PDF_TO_CSS_UNITS = this.CSS / this.PDF;\n}\nexports.PixelsPerInch = PixelsPerInch;\nclass DOMCanvasFactory extends _base_factory.BaseCanvasFactory {\n  constructor({\n    ownerDocument = globalThis.document\n  } = {}) {\n    super();\n    this._document = ownerDocument;\n  }\n  _createCanvas(width, height) {\n    const canvas = this._document.createElement(\"canvas\");\n    canvas.width = width;\n    canvas.height = height;\n    return canvas;\n  }\n}\nexports.DOMCanvasFactory = DOMCanvasFactory;\nasync function fetchData(url, asTypedArray = false) {\n  if (isValidFetchUrl(url, document.baseURI)) {\n    const response = await fetch(url);\n    if (!response.ok) {\n      throw new Error(response.statusText);\n    }\n    return asTypedArray ? new Uint8Array(await response.arrayBuffer()) : (0, _util.stringToBytes)(await response.text());\n  }\n  return new Promise((resolve, reject) => {\n    const request = new XMLHttpRequest();\n    request.open(\"GET\", url, true);\n    if (asTypedArray) {\n      request.responseType = \"arraybuffer\";\n    }\n    request.onreadystatechange = () => {\n      if (request.readyState !== XMLHttpRequest.DONE) {\n        return;\n      }\n      if (request.status === 200 || request.status === 0) {\n        let data;\n        if (asTypedArray && request.response) {\n          data = new Uint8Array(request.response);\n        } else if (!asTypedArray && request.responseText) {\n          data = (0, _util.stringToBytes)(request.responseText);\n        }\n        if (data) {\n          resolve(data);\n          return;\n        }\n      }\n      reject(new Error(request.statusText));\n    };\n    request.send(null);\n  });\n}\nclass DOMCMapReaderFactory extends _base_factory.BaseCMapReaderFactory {\n  _fetchData(url, compressionType) {\n    return fetchData(url, this.isCompressed).then(data => {\n      return {\n        cMapData: data,\n        compressionType\n      };\n    });\n  }\n}\nexports.DOMCMapReaderFactory = DOMCMapReaderFactory;\nclass DOMStandardFontDataFactory extends _base_factory.BaseStandardFontDataFactory {\n  _fetchData(url) {\n    return fetchData(url, true);\n  }\n}\nexports.DOMStandardFontDataFactory = DOMStandardFontDataFactory;\nclass DOMSVGFactory extends _base_factory.BaseSVGFactory {\n  _createSVG(type) {\n    return document.createElementNS(SVG_NS, type);\n  }\n}\nexports.DOMSVGFactory = DOMSVGFactory;\nclass PageViewport {\n  constructor({\n    viewBox,\n    scale,\n    rotation,\n    offsetX = 0,\n    offsetY = 0,\n    dontFlip = false\n  }) {\n    this.viewBox = viewBox;\n    this.scale = scale;\n    this.rotation = rotation;\n    this.offsetX = offsetX;\n    this.offsetY = offsetY;\n    const centerX = (viewBox[2] + viewBox[0]) / 2;\n    const centerY = (viewBox[3] + viewBox[1]) / 2;\n    let rotateA, rotateB, rotateC, rotateD;\n    rotation %= 360;\n    if (rotation < 0) {\n      rotation += 360;\n    }\n    switch (rotation) {\n      case 180:\n        rotateA = -1;\n        rotateB = 0;\n        rotateC = 0;\n        rotateD = 1;\n        break;\n      case 90:\n        rotateA = 0;\n        rotateB = 1;\n        rotateC = 1;\n        rotateD = 0;\n        break;\n      case 270:\n        rotateA = 0;\n        rotateB = -1;\n        rotateC = -1;\n        rotateD = 0;\n        break;\n      case 0:\n        rotateA = 1;\n        rotateB = 0;\n        rotateC = 0;\n        rotateD = -1;\n        break;\n      default:\n        throw new Error(\"PageViewport: Invalid rotation, must be a multiple of 90 degrees.\");\n    }\n    if (dontFlip) {\n      rotateC = -rotateC;\n      rotateD = -rotateD;\n    }\n    let offsetCanvasX, offsetCanvasY;\n    let width, height;\n    if (rotateA === 0) {\n      offsetCanvasX = Math.abs(centerY - viewBox[1]) * scale + offsetX;\n      offsetCanvasY = Math.abs(centerX - viewBox[0]) * scale + offsetY;\n      width = (viewBox[3] - viewBox[1]) * scale;\n      height = (viewBox[2] - viewBox[0]) * scale;\n    } else {\n      offsetCanvasX = Math.abs(centerX - viewBox[0]) * scale + offsetX;\n      offsetCanvasY = Math.abs(centerY - viewBox[1]) * scale + offsetY;\n      width = (viewBox[2] - viewBox[0]) * scale;\n      height = (viewBox[3] - viewBox[1]) * scale;\n    }\n    this.transform = [rotateA * scale, rotateB * scale, rotateC * scale, rotateD * scale, offsetCanvasX - rotateA * scale * centerX - rotateC * scale * centerY, offsetCanvasY - rotateB * scale * centerX - rotateD * scale * centerY];\n    this.width = width;\n    this.height = height;\n  }\n  get rawDims() {\n    const {\n      viewBox\n    } = this;\n    return (0, _util.shadow)(this, \"rawDims\", {\n      pageWidth: viewBox[2] - viewBox[0],\n      pageHeight: viewBox[3] - viewBox[1],\n      pageX: viewBox[0],\n      pageY: viewBox[1]\n    });\n  }\n  clone({\n    scale = this.scale,\n    rotation = this.rotation,\n    offsetX = this.offsetX,\n    offsetY = this.offsetY,\n    dontFlip = false\n  } = {}) {\n    return new PageViewport({\n      viewBox: this.viewBox.slice(),\n      scale,\n      rotation,\n      offsetX,\n      offsetY,\n      dontFlip\n    });\n  }\n  convertToViewportPoint(x, y) {\n    return _util.Util.applyTransform([x, y], this.transform);\n  }\n  convertToViewportRectangle(rect) {\n    const topLeft = _util.Util.applyTransform([rect[0], rect[1]], this.transform);\n    const bottomRight = _util.Util.applyTransform([rect[2], rect[3]], this.transform);\n    return [topLeft[0], topLeft[1], bottomRight[0], bottomRight[1]];\n  }\n  convertToPdfPoint(x, y) {\n    return _util.Util.applyInverseTransform([x, y], this.transform);\n  }\n}\nexports.PageViewport = PageViewport;\nclass RenderingCancelledException extends _util.BaseException {\n  constructor(msg, type, extraDelay = 0) {\n    super(msg, \"RenderingCancelledException\");\n    this.type = type;\n    this.extraDelay = extraDelay;\n  }\n}\nexports.RenderingCancelledException = RenderingCancelledException;\nfunction isDataScheme(url) {\n  const ii = url.length;\n  let i = 0;\n  while (i < ii && url[i].trim() === \"\") {\n    i++;\n  }\n  return url.substring(i, i + 5).toLowerCase() === \"data:\";\n}\nfunction isPdfFile(filename) {\n  return typeof filename === \"string\" && /\\.pdf$/i.test(filename);\n}\nfunction getFilenameFromUrl(url, onlyStripPath = false) {\n  if (!onlyStripPath) {\n    [url] = url.split(/[#?]/, 1);\n  }\n  return url.substring(url.lastIndexOf(\"/\") + 1);\n}\nfunction getPdfFilenameFromUrl(url, defaultFilename = \"document.pdf\") {\n  if (typeof url !== \"string\") {\n    return defaultFilename;\n  }\n  if (isDataScheme(url)) {\n    (0, _util.warn)('getPdfFilenameFromUrl: ignore \"data:\"-URL for performance reasons.');\n    return defaultFilename;\n  }\n  const reURI = /^(?:(?:[^:]+:)?\\/\\/[^/]+)?([^?#]*)(\\?[^#]*)?(#.*)?$/;\n  const reFilename = /[^/?#=]+\\.pdf\\b(?!.*\\.pdf\\b)/i;\n  const splitURI = reURI.exec(url);\n  let suggestedFilename = reFilename.exec(splitURI[1]) || reFilename.exec(splitURI[2]) || reFilename.exec(splitURI[3]);\n  if (suggestedFilename) {\n    suggestedFilename = suggestedFilename[0];\n    if (suggestedFilename.includes(\"%\")) {\n      try {\n        suggestedFilename = reFilename.exec(decodeURIComponent(suggestedFilename))[0];\n      } catch (ex) {}\n    }\n  }\n  return suggestedFilename || defaultFilename;\n}\nclass StatTimer {\n  started = Object.create(null);\n  times = [];\n  time(name) {\n    if (name in this.started) {\n      (0, _util.warn)(`Timer is already running for ${name}`);\n    }\n    this.started[name] = Date.now();\n  }\n  timeEnd(name) {\n    if (!(name in this.started)) {\n      (0, _util.warn)(`Timer has not been started for ${name}`);\n    }\n    this.times.push({\n      name,\n      start: this.started[name],\n      end: Date.now()\n    });\n    delete this.started[name];\n  }\n  toString() {\n    const outBuf = [];\n    let longest = 0;\n    for (const {\n      name\n    } of this.times) {\n      longest = Math.max(name.length, longest);\n    }\n    for (const {\n      name,\n      start,\n      end\n    } of this.times) {\n      outBuf.push(`${name.padEnd(longest)} ${end - start}ms\\n`);\n    }\n    return outBuf.join(\"\");\n  }\n}\nexports.StatTimer = StatTimer;\nfunction isValidFetchUrl(url, baseUrl) {\n  try {\n    const {\n      protocol\n    } = baseUrl ? new URL(url, baseUrl) : new URL(url);\n    return protocol === \"http:\" || protocol === \"https:\";\n  } catch (ex) {\n    return false;\n  }\n}\nfunction loadScript(src, removeScriptElement = false) {\n  return new Promise((resolve, reject) => {\n    const script = document.createElement(\"script\");\n    script.src = src;\n    script.onload = function (evt) {\n      if (removeScriptElement) {\n        script.remove();\n      }\n      resolve(evt);\n    };\n    script.onerror = function () {\n      reject(new Error(`Cannot load script at: ${script.src}`));\n    };\n    (document.head || document.documentElement).append(script);\n  });\n}\nfunction deprecated(details) {\n  console.log(\"Deprecated API usage: \" + details);\n}\nlet pdfDateStringRegex;\nclass PDFDateString {\n  static toDateObject(input) {\n    if (!input || typeof input !== \"string\") {\n      return null;\n    }\n    if (!pdfDateStringRegex) {\n      pdfDateStringRegex = new RegExp(\"^D:\" + \"(\\\\d{4})\" + \"(\\\\d{2})?\" + \"(\\\\d{2})?\" + \"(\\\\d{2})?\" + \"(\\\\d{2})?\" + \"(\\\\d{2})?\" + \"([Z|+|-])?\" + \"(\\\\d{2})?\" + \"'?\" + \"(\\\\d{2})?\" + \"'?\");\n    }\n    const matches = pdfDateStringRegex.exec(input);\n    if (!matches) {\n      return null;\n    }\n    const year = parseInt(matches[1], 10);\n    let month = parseInt(matches[2], 10);\n    month = month >= 1 && month <= 12 ? month - 1 : 0;\n    let day = parseInt(matches[3], 10);\n    day = day >= 1 && day <= 31 ? day : 1;\n    let hour = parseInt(matches[4], 10);\n    hour = hour >= 0 && hour <= 23 ? hour : 0;\n    let minute = parseInt(matches[5], 10);\n    minute = minute >= 0 && minute <= 59 ? minute : 0;\n    let second = parseInt(matches[6], 10);\n    second = second >= 0 && second <= 59 ? second : 0;\n    const universalTimeRelation = matches[7] || \"Z\";\n    let offsetHour = parseInt(matches[8], 10);\n    offsetHour = offsetHour >= 0 && offsetHour <= 23 ? offsetHour : 0;\n    let offsetMinute = parseInt(matches[9], 10) || 0;\n    offsetMinute = offsetMinute >= 0 && offsetMinute <= 59 ? offsetMinute : 0;\n    if (universalTimeRelation === \"-\") {\n      hour += offsetHour;\n      minute += offsetMinute;\n    } else if (universalTimeRelation === \"+\") {\n      hour -= offsetHour;\n      minute -= offsetMinute;\n    }\n    return new Date(Date.UTC(year, month, day, hour, minute, second));\n  }\n}\nexports.PDFDateString = PDFDateString;\nfunction getXfaPageViewport(xfaPage, {\n  scale = 1,\n  rotation = 0\n}) {\n  const {\n    width,\n    height\n  } = xfaPage.attributes.style;\n  const viewBox = [0, 0, parseInt(width), parseInt(height)];\n  return new PageViewport({\n    viewBox,\n    scale,\n    rotation\n  });\n}\nfunction getRGB(color) {\n  if (color.startsWith(\"#\")) {\n    const colorRGB = parseInt(color.slice(1), 16);\n    return [(colorRGB & 0xff0000) >> 16, (colorRGB & 0x00ff00) >> 8, colorRGB & 0x0000ff];\n  }\n  if (color.startsWith(\"rgb(\")) {\n    return color.slice(4, -1).split(\",\").map(x => parseInt(x));\n  }\n  if (color.startsWith(\"rgba(\")) {\n    return color.slice(5, -1).split(\",\").map(x => parseInt(x)).slice(0, 3);\n  }\n  (0, _util.warn)(`Not a valid color format: \"${color}\"`);\n  return [0, 0, 0];\n}\nfunction getColorValues(colors) {\n  const span = document.createElement(\"span\");\n  span.style.visibility = \"hidden\";\n  document.body.append(span);\n  for (const name of colors.keys()) {\n    span.style.color = name;\n    const computedColor = window.getComputedStyle(span).color;\n    colors.set(name, getRGB(computedColor));\n  }\n  span.remove();\n}\nfunction getCurrentTransform(ctx) {\n  const {\n    a,\n    b,\n    c,\n    d,\n    e,\n    f\n  } = ctx.getTransform();\n  return [a, b, c, d, e, f];\n}\nfunction getCurrentTransformInverse(ctx) {\n  const {\n    a,\n    b,\n    c,\n    d,\n    e,\n    f\n  } = ctx.getTransform().invertSelf();\n  return [a, b, c, d, e, f];\n}\nfunction setLayerDimensions(div, viewport, mustFlip = false, mustRotate = true) {\n  if (viewport instanceof PageViewport) {\n    const {\n      pageWidth,\n      pageHeight\n    } = viewport.rawDims;\n    const {\n      style\n    } = div;\n    const widthStr = `calc(var(--scale-factor) * ${pageWidth}px)`;\n    const heightStr = `calc(var(--scale-factor) * ${pageHeight}px)`;\n    if (!mustFlip || viewport.rotation % 180 === 0) {\n      style.width = widthStr;\n      style.height = heightStr;\n    } else {\n      style.width = heightStr;\n      style.height = widthStr;\n    }\n  }\n  if (mustRotate) {\n    div.setAttribute(\"data-main-rotation\", viewport.rotation);\n  }\n}\n\n/***/ }),\n/* 7 */\n/***/ ((__unused_webpack_module, exports, __w_pdfjs_require__) => {\n\n\n\nObject.defineProperty(exports, \"__esModule\", ({\n  value: true\n}));\nexports.BaseStandardFontDataFactory = exports.BaseSVGFactory = exports.BaseCanvasFactory = exports.BaseCMapReaderFactory = void 0;\nvar _util = __w_pdfjs_require__(1);\nclass BaseCanvasFactory {\n  constructor() {\n    if (this.constructor === BaseCanvasFactory) {\n      (0, _util.unreachable)(\"Cannot initialize BaseCanvasFactory.\");\n    }\n  }\n  create(width, height) {\n    if (width <= 0 || height <= 0) {\n      throw new Error(\"Invalid canvas size\");\n    }\n    const canvas = this._createCanvas(width, height);\n    return {\n      canvas,\n      context: canvas.getContext(\"2d\")\n    };\n  }\n  reset(canvasAndContext, width, height) {\n    if (!canvasAndContext.canvas) {\n      throw new Error(\"Canvas is not specified\");\n    }\n    if (width <= 0 || height <= 0) {\n      throw new Error(\"Invalid canvas size\");\n    }\n    canvasAndContext.canvas.width = width;\n    canvasAndContext.canvas.height = height;\n  }\n  destroy(canvasAndContext) {\n    if (!canvasAndContext.canvas) {\n      throw new Error(\"Canvas is not specified\");\n    }\n    canvasAndContext.canvas.width = 0;\n    canvasAndContext.canvas.height = 0;\n    canvasAndContext.canvas = null;\n    canvasAndContext.context = null;\n  }\n  _createCanvas(width, height) {\n    (0, _util.unreachable)(\"Abstract method `_createCanvas` called.\");\n  }\n}\nexports.BaseCanvasFactory = BaseCanvasFactory;\nclass BaseCMapReaderFactory {\n  constructor({\n    baseUrl = null,\n    isCompressed = true\n  }) {\n    if (this.constructor === BaseCMapReaderFactory) {\n      (0, _util.unreachable)(\"Cannot initialize BaseCMapReaderFactory.\");\n    }\n    this.baseUrl = baseUrl;\n    this.isCompressed = isCompressed;\n  }\n  async fetch({\n    name\n  }) {\n    if (!this.baseUrl) {\n      throw new Error('The CMap \"baseUrl\" parameter must be specified, ensure that ' + 'the \"cMapUrl\" and \"cMapPacked\" API parameters are provided.');\n    }\n    if (!name) {\n      throw new Error(\"CMap name must be specified.\");\n    }\n    const url = this.baseUrl + name + (this.isCompressed ? \".bcmap\" : \"\");\n    const compressionType = this.isCompressed ? _util.CMapCompressionType.BINARY : _util.CMapCompressionType.NONE;\n    return this._fetchData(url, compressionType).catch(reason => {\n      throw new Error(`Unable to load ${this.isCompressed ? \"binary \" : \"\"}CMap at: ${url}`);\n    });\n  }\n  _fetchData(url, compressionType) {\n    (0, _util.unreachable)(\"Abstract method `_fetchData` called.\");\n  }\n}\nexports.BaseCMapReaderFactory = BaseCMapReaderFactory;\nclass BaseStandardFontDataFactory {\n  constructor({\n    baseUrl = null\n  }) {\n    if (this.constructor === BaseStandardFontDataFactory) {\n      (0, _util.unreachable)(\"Cannot initialize BaseStandardFontDataFactory.\");\n    }\n    this.baseUrl = baseUrl;\n  }\n  async fetch({\n    filename\n  }) {\n    if (!this.baseUrl) {\n      throw new Error('The standard font \"baseUrl\" parameter must be specified, ensure that ' + 'the \"standardFontDataUrl\" API parameter is provided.');\n    }\n    if (!filename) {\n      throw new Error(\"Font filename must be specified.\");\n    }\n    const url = `${this.baseUrl}${filename}`;\n    return this._fetchData(url).catch(reason => {\n      throw new Error(`Unable to load font data at: ${url}`);\n    });\n  }\n  _fetchData(url) {\n    (0, _util.unreachable)(\"Abstract method `_fetchData` called.\");\n  }\n}\nexports.BaseStandardFontDataFactory = BaseStandardFontDataFactory;\nclass BaseSVGFactory {\n  constructor() {\n    if (this.constructor === BaseSVGFactory) {\n      (0, _util.unreachable)(\"Cannot initialize BaseSVGFactory.\");\n    }\n  }\n  create(width, height, skipDimensions = false) {\n    if (width <= 0 || height <= 0) {\n      throw new Error(\"Invalid SVG dimensions\");\n    }\n    const svg = this._createSVG(\"svg:svg\");\n    svg.setAttribute(\"version\", \"1.1\");\n    if (!skipDimensions) {\n      svg.setAttribute(\"width\", `${width}px`);\n      svg.setAttribute(\"height\", `${height}px`);\n    }\n    svg.setAttribute(\"preserveAspectRatio\", \"none\");\n    svg.setAttribute(\"viewBox\", `0 0 ${width} ${height}`);\n    return svg;\n  }\n  createElement(type) {\n    if (typeof type !== \"string\") {\n      throw new Error(\"Invalid SVG element type\");\n    }\n    return this._createSVG(type);\n  }\n  _createSVG(type) {\n    (0, _util.unreachable)(\"Abstract method `_createSVG` called.\");\n  }\n}\nexports.BaseSVGFactory = BaseSVGFactory;\n\n/***/ }),\n/* 8 */\n/***/ ((__unused_webpack_module, exports, __w_pdfjs_require__) => {\n\n\n\nObject.defineProperty(exports, \"__esModule\", ({\n  value: true\n}));\nexports.MurmurHash3_64 = void 0;\nvar _util = __w_pdfjs_require__(1);\nconst SEED = 0xc3d2e1f0;\nconst MASK_HIGH = 0xffff0000;\nconst MASK_LOW = 0xffff;\nclass MurmurHash3_64 {\n  constructor(seed) {\n    this.h1 = seed ? seed & 0xffffffff : SEED;\n    this.h2 = seed ? seed & 0xffffffff : SEED;\n  }\n  update(input) {\n    let data, length;\n    if (typeof input === \"string\") {\n      data = new Uint8Array(input.length * 2);\n      length = 0;\n      for (let i = 0, ii = input.length; i < ii; i++) {\n        const code = input.charCodeAt(i);\n        if (code <= 0xff) {\n          data[length++] = code;\n        } else {\n          data[length++] = code >>> 8;\n          data[length++] = code & 0xff;\n        }\n      }\n    } else if ((0, _util.isArrayBuffer)(input)) {\n      data = input.slice();\n      length = data.byteLength;\n    } else {\n      throw new Error(\"Wrong data format in MurmurHash3_64_update. \" + \"Input must be a string or array.\");\n    }\n    const blockCounts = length >> 2;\n    const tailLength = length - blockCounts * 4;\n    const dataUint32 = new Uint32Array(data.buffer, 0, blockCounts);\n    let k1 = 0,\n      k2 = 0;\n    let h1 = this.h1,\n      h2 = this.h2;\n    const C1 = 0xcc9e2d51,\n      C2 = 0x1b873593;\n    const C1_LOW = C1 & MASK_LOW,\n      C2_LOW = C2 & MASK_LOW;\n    for (let i = 0; i < blockCounts; i++) {\n      if (i & 1) {\n        k1 = dataUint32[i];\n        k1 = k1 * C1 & MASK_HIGH | k1 * C1_LOW & MASK_LOW;\n        k1 = k1 << 15 | k1 >>> 17;\n        k1 = k1 * C2 & MASK_HIGH | k1 * C2_LOW & MASK_LOW;\n        h1 ^= k1;\n        h1 = h1 << 13 | h1 >>> 19;\n        h1 = h1 * 5 + 0xe6546b64;\n      } else {\n        k2 = dataUint32[i];\n        k2 = k2 * C1 & MASK_HIGH | k2 * C1_LOW & MASK_LOW;\n        k2 = k2 << 15 | k2 >>> 17;\n        k2 = k2 * C2 & MASK_HIGH | k2 * C2_LOW & MASK_LOW;\n        h2 ^= k2;\n        h2 = h2 << 13 | h2 >>> 19;\n        h2 = h2 * 5 + 0xe6546b64;\n      }\n    }\n    k1 = 0;\n    switch (tailLength) {\n      case 3:\n        k1 ^= data[blockCounts * 4 + 2] << 16;\n      case 2:\n        k1 ^= data[blockCounts * 4 + 1] << 8;\n      case 1:\n        k1 ^= data[blockCounts * 4];\n        k1 = k1 * C1 & MASK_HIGH | k1 * C1_LOW & MASK_LOW;\n        k1 = k1 << 15 | k1 >>> 17;\n        k1 = k1 * C2 & MASK_HIGH | k1 * C2_LOW & MASK_LOW;\n        if (blockCounts & 1) {\n          h1 ^= k1;\n        } else {\n          h2 ^= k1;\n        }\n    }\n    this.h1 = h1;\n    this.h2 = h2;\n  }\n  hexdigest() {\n    let h1 = this.h1,\n      h2 = this.h2;\n    h1 ^= h2 >>> 1;\n    h1 = h1 * 0xed558ccd & MASK_HIGH | h1 * 0x8ccd & MASK_LOW;\n    h2 = h2 * 0xff51afd7 & MASK_HIGH | ((h2 << 16 | h1 >>> 16) * 0xafd7ed55 & MASK_HIGH) >>> 16;\n    h1 ^= h2 >>> 1;\n    h1 = h1 * 0x1a85ec53 & MASK_HIGH | h1 * 0xec53 & MASK_LOW;\n    h2 = h2 * 0xc4ceb9fe & MASK_HIGH | ((h2 << 16 | h1 >>> 16) * 0xb9fe1a85 & MASK_HIGH) >>> 16;\n    h1 ^= h2 >>> 1;\n    return (h1 >>> 0).toString(16).padStart(8, \"0\") + (h2 >>> 0).toString(16).padStart(8, \"0\");\n  }\n}\nexports.MurmurHash3_64 = MurmurHash3_64;\n\n/***/ }),\n/* 9 */\n/***/ ((__unused_webpack_module, exports, __w_pdfjs_require__) => {\n\n\n\nObject.defineProperty(exports, \"__esModule\", ({\n  value: true\n}));\nexports.FontLoader = exports.FontFaceObject = void 0;\nvar _util = __w_pdfjs_require__(1);\nvar _is_node = __w_pdfjs_require__(10);\nclass FontLoader {\n  constructor({\n    onUnsupportedFeature,\n    ownerDocument = globalThis.document,\n    styleElement = null\n  }) {\n    this._onUnsupportedFeature = onUnsupportedFeature;\n    this._document = ownerDocument;\n    this.nativeFontFaces = [];\n    this.styleElement = null;\n    this.loadingRequests = [];\n    this.loadTestFontId = 0;\n  }\n  addNativeFontFace(nativeFontFace) {\n    this.nativeFontFaces.push(nativeFontFace);\n    this._document.fonts.add(nativeFontFace);\n  }\n  insertRule(rule) {\n    if (!this.styleElement) {\n      this.styleElement = this._document.createElement(\"style\");\n      this._document.documentElement.getElementsByTagName(\"head\")[0].append(this.styleElement);\n    }\n    const styleSheet = this.styleElement.sheet;\n    styleSheet.insertRule(rule, styleSheet.cssRules.length);\n  }\n  clear() {\n    for (const nativeFontFace of this.nativeFontFaces) {\n      this._document.fonts.delete(nativeFontFace);\n    }\n    this.nativeFontFaces.length = 0;\n    if (this.styleElement) {\n      this.styleElement.remove();\n      this.styleElement = null;\n    }\n  }\n  async bind(font) {\n    if (font.attached || font.missingFile) {\n      return;\n    }\n    font.attached = true;\n    if (this.isFontLoadingAPISupported) {\n      const nativeFontFace = font.createNativeFontFace();\n      if (nativeFontFace) {\n        this.addNativeFontFace(nativeFontFace);\n        try {\n          await nativeFontFace.loaded;\n        } catch (ex) {\n          this._onUnsupportedFeature({\n            featureId: _util.UNSUPPORTED_FEATURES.errorFontLoadNative\n          });\n          (0, _util.warn)(`Failed to load font '${nativeFontFace.family}': '${ex}'.`);\n          font.disableFontFace = true;\n          throw ex;\n        }\n      }\n      return;\n    }\n    const rule = font.createFontFaceRule();\n    if (rule) {\n      this.insertRule(rule);\n      if (this.isSyncFontLoadingSupported) {\n        return;\n      }\n      await new Promise(resolve => {\n        const request = this._queueLoadingCallback(resolve);\n        this._prepareFontLoadEvent(font, request);\n      });\n    }\n  }\n  get isFontLoadingAPISupported() {\n    const hasFonts = !!this._document?.fonts;\n    return (0, _util.shadow)(this, \"isFontLoadingAPISupported\", hasFonts);\n  }\n  get isSyncFontLoadingSupported() {\n    let supported = false;\n    if (_is_node.isNodeJS) {\n      supported = true;\n    } else if (typeof navigator !== \"undefined\" && /Mozilla\\/5.0.*?rv:\\d+.*? Gecko/.test(navigator.userAgent)) {\n      supported = true;\n    }\n    return (0, _util.shadow)(this, \"isSyncFontLoadingSupported\", supported);\n  }\n  _queueLoadingCallback(callback) {\n    function completeRequest() {\n      (0, _util.assert)(!request.done, \"completeRequest() cannot be called twice.\");\n      request.done = true;\n      while (loadingRequests.length > 0 && loadingRequests[0].done) {\n        const otherRequest = loadingRequests.shift();\n        setTimeout(otherRequest.callback, 0);\n      }\n    }\n    const {\n      loadingRequests\n    } = this;\n    const request = {\n      done: false,\n      complete: completeRequest,\n      callback\n    };\n    loadingRequests.push(request);\n    return request;\n  }\n  get _loadTestFont() {\n    const testFont = atob(\"T1RUTwALAIAAAwAwQ0ZGIDHtZg4AAAOYAAAAgUZGVE1lkzZwAAAEHAAAABxHREVGABQA\" + \"FQAABDgAAAAeT1MvMlYNYwkAAAEgAAAAYGNtYXABDQLUAAACNAAAAUJoZWFk/xVFDQAA\" + \"ALwAAAA2aGhlYQdkA+oAAAD0AAAAJGhtdHgD6AAAAAAEWAAAAAZtYXhwAAJQAAAAARgA\" + \"AAAGbmFtZVjmdH4AAAGAAAAAsXBvc3T/hgAzAAADeAAAACAAAQAAAAEAALZRFsRfDzz1\" + \"AAsD6AAAAADOBOTLAAAAAM4KHDwAAAAAA+gDIQAAAAgAAgAAAAAAAAABAAADIQAAAFoD\" + \"6AAAAAAD6AABAAAAAAAAAAAAAAAAAAAAAQAAUAAAAgAAAAQD6AH0AAUAAAKKArwAAACM\" + \"AooCvAAAAeAAMQECAAACAAYJAAAAAAAAAAAAAQAAAAAAAAAAAAAAAFBmRWQAwAAuAC4D\" + \"IP84AFoDIQAAAAAAAQAAAAAAAAAAACAAIAABAAAADgCuAAEAAAAAAAAAAQAAAAEAAAAA\" + \"AAEAAQAAAAEAAAAAAAIAAQAAAAEAAAAAAAMAAQAAAAEAAAAAAAQAAQAAAAEAAAAAAAUA\" + \"AQAAAAEAAAAAAAYAAQAAAAMAAQQJAAAAAgABAAMAAQQJAAEAAgABAAMAAQQJAAIAAgAB\" + \"AAMAAQQJAAMAAgABAAMAAQQJAAQAAgABAAMAAQQJAAUAAgABAAMAAQQJAAYAAgABWABY\" + \"AAAAAAAAAwAAAAMAAAAcAAEAAAAAADwAAwABAAAAHAAEACAAAAAEAAQAAQAAAC7//wAA\" + \"AC7////TAAEAAAAAAAABBgAAAQAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA\" + \"AAAAAAAAAAAAAAAAAAEAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA\" + \"AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA\" + \"AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA\" + \"AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA\" + \"AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAMAAAAAAAD/gwAyAAAAAQAAAAAAAAAAAAAAAAAA\" + \"AAABAAQEAAEBAQJYAAEBASH4DwD4GwHEAvgcA/gXBIwMAYuL+nz5tQXkD5j3CBLnEQAC\" + \"AQEBIVhYWFhYWFhYWFhYWFhYWFhYWFhYWFhYWFhYWFhYWFhYAAABAQAADwACAQEEE/t3\" + \"Dov6fAH6fAT+fPp8+nwHDosMCvm1Cvm1DAz6fBQAAAAAAAABAAAAAMmJbzEAAAAAzgTj\" + \"FQAAAADOBOQpAAEAAAAAAAAADAAUAAQAAAABAAAAAgABAAAAAAAAAAAD6AAAAAAAAA==\");\n    return (0, _util.shadow)(this, \"_loadTestFont\", testFont);\n  }\n  _prepareFontLoadEvent(font, request) {\n    function int32(data, offset) {\n      return data.charCodeAt(offset) << 24 | data.charCodeAt(offset + 1) << 16 | data.charCodeAt(offset + 2) << 8 | data.charCodeAt(offset + 3) & 0xff;\n    }\n    function spliceString(s, offset, remove, insert) {\n      const chunk1 = s.substring(0, offset);\n      const chunk2 = s.substring(offset + remove);\n      return chunk1 + insert + chunk2;\n    }\n    let i, ii;\n    const canvas = this._document.createElement(\"canvas\");\n    canvas.width = 1;\n    canvas.height = 1;\n    const ctx = canvas.getContext(\"2d\");\n    let called = 0;\n    function isFontReady(name, callback) {\n      if (++called > 30) {\n        (0, _util.warn)(\"Load test font never loaded.\");\n        callback();\n        return;\n      }\n      ctx.font = \"30px \" + name;\n      ctx.fillText(\".\", 0, 20);\n      const imageData = ctx.getImageData(0, 0, 1, 1);\n      if (imageData.data[3] > 0) {\n        callback();\n        return;\n      }\n      setTimeout(isFontReady.bind(null, name, callback));\n    }\n    const loadTestFontId = `lt${Date.now()}${this.loadTestFontId++}`;\n    let data = this._loadTestFont;\n    const COMMENT_OFFSET = 976;\n    data = spliceString(data, COMMENT_OFFSET, loadTestFontId.length, loadTestFontId);\n    const CFF_CHECKSUM_OFFSET = 16;\n    const XXXX_VALUE = 0x58585858;\n    let checksum = int32(data, CFF_CHECKSUM_OFFSET);\n    for (i = 0, ii = loadTestFontId.length - 3; i < ii; i += 4) {\n      checksum = checksum - XXXX_VALUE + int32(loadTestFontId, i) | 0;\n    }\n    if (i < loadTestFontId.length) {\n      checksum = checksum - XXXX_VALUE + int32(loadTestFontId + \"XXX\", i) | 0;\n    }\n    data = spliceString(data, CFF_CHECKSUM_OFFSET, 4, (0, _util.string32)(checksum));\n    const url = `url(data:font/opentype;base64,${btoa(data)});`;\n    const rule = `@font-face {font-family:\"${loadTestFontId}\";src:${url}}`;\n    this.insertRule(rule);\n    const div = this._document.createElement(\"div\");\n    div.style.visibility = \"hidden\";\n    div.style.width = div.style.height = \"10px\";\n    div.style.position = \"absolute\";\n    div.style.top = div.style.left = \"0px\";\n    for (const name of [font.loadedName, loadTestFontId]) {\n      const span = this._document.createElement(\"span\");\n      span.textContent = \"Hi\";\n      span.style.fontFamily = name;\n      div.append(span);\n    }\n    this._document.body.append(div);\n    isFontReady(loadTestFontId, () => {\n      div.remove();\n      request.complete();\n    });\n  }\n}\nexports.FontLoader = FontLoader;\nclass FontFaceObject {\n  constructor(translatedData, {\n    isEvalSupported = true,\n    disableFontFace = false,\n    ignoreErrors = false,\n    onUnsupportedFeature,\n    fontRegistry = null\n  }) {\n    this.compiledGlyphs = Object.create(null);\n    for (const i in translatedData) {\n      this[i] = translatedData[i];\n    }\n    this.isEvalSupported = isEvalSupported !== false;\n    this.disableFontFace = disableFontFace === true;\n    this.ignoreErrors = ignoreErrors === true;\n    this._onUnsupportedFeature = onUnsupportedFeature;\n    this.fontRegistry = fontRegistry;\n  }\n  createNativeFontFace() {\n    if (!this.data || this.disableFontFace) {\n      return null;\n    }\n    let nativeFontFace;\n    if (!this.cssFontInfo) {\n      nativeFontFace = new FontFace(this.loadedName, this.data, {});\n    } else {\n      const css = {\n        weight: this.cssFontInfo.fontWeight\n      };\n      if (this.cssFontInfo.italicAngle) {\n        css.style = `oblique ${this.cssFontInfo.italicAngle}deg`;\n      }\n      nativeFontFace = new FontFace(this.cssFontInfo.fontFamily, this.data, css);\n    }\n    this.fontRegistry?.registerFont(this);\n    return nativeFontFace;\n  }\n  createFontFaceRule() {\n    if (!this.data || this.disableFontFace) {\n      return null;\n    }\n    const data = (0, _util.bytesToString)(this.data);\n    const url = `url(data:${this.mimetype};base64,${btoa(data)});`;\n    let rule;\n    if (!this.cssFontInfo) {\n      rule = `@font-face {font-family:\"${this.loadedName}\";src:${url}}`;\n    } else {\n      let css = `font-weight: ${this.cssFontInfo.fontWeight};`;\n      if (this.cssFontInfo.italicAngle) {\n        css += `font-style: oblique ${this.cssFontInfo.italicAngle}deg;`;\n      }\n      rule = `@font-face {font-family:\"${this.cssFontInfo.fontFamily}\";${css}src:${url}}`;\n    }\n    this.fontRegistry?.registerFont(this, url);\n    return rule;\n  }\n  getPathGenerator(objs, character) {\n    if (this.compiledGlyphs[character] !== undefined) {\n      return this.compiledGlyphs[character];\n    }\n    let cmds;\n    try {\n      cmds = objs.get(this.loadedName + \"_path_\" + character);\n    } catch (ex) {\n      if (!this.ignoreErrors) {\n        throw ex;\n      }\n      this._onUnsupportedFeature({\n        featureId: _util.UNSUPPORTED_FEATURES.errorFontGetPath\n      });\n      (0, _util.warn)(`getPathGenerator - ignoring character: \"${ex}\".`);\n      return this.compiledGlyphs[character] = function (c, size) {};\n    }\n    if (this.isEvalSupported && _util.FeatureTest.isEvalSupported) {\n      const jsBuf = [];\n      for (const current of cmds) {\n        const args = current.args !== undefined ? current.args.join(\",\") : \"\";\n        jsBuf.push(\"c.\", current.cmd, \"(\", args, \");\\n\");\n      }\n      return this.compiledGlyphs[character] = new Function(\"c\", \"size\", jsBuf.join(\"\"));\n    }\n    return this.compiledGlyphs[character] = function (c, size) {\n      for (const current of cmds) {\n        if (current.cmd === \"scale\") {\n          current.args = [size, -size];\n        }\n        c[current.cmd].apply(c, current.args);\n      }\n    };\n  }\n}\nexports.FontFaceObject = FontFaceObject;\n\n/***/ }),\n/* 10 */\n/***/ ((__unused_webpack_module, exports) => {\n\n\n\nObject.defineProperty(exports, \"__esModule\", ({\n  value: true\n}));\nexports.isNodeJS = void 0;\nconst isNodeJS = typeof process === \"object\" && process + \"\" === \"[object process]\" && !process.versions.nw && !(process.versions.electron && process.type && process.type !== \"browser\");\nexports.isNodeJS = isNodeJS;\n\n/***/ }),\n/* 11 */\n/***/ ((__unused_webpack_module, exports, __w_pdfjs_require__) => {\n\n\n\nObject.defineProperty(exports, \"__esModule\", ({\n  value: true\n}));\nexports.CanvasGraphics = void 0;\nvar _util = __w_pdfjs_require__(1);\nvar _display_utils = __w_pdfjs_require__(6);\nvar _pattern_helper = __w_pdfjs_require__(12);\nvar _image_utils = __w_pdfjs_require__(13);\nconst MIN_FONT_SIZE = 16;\nconst MAX_FONT_SIZE = 100;\nconst MAX_GROUP_SIZE = 4096;\nconst EXECUTION_TIME = 15;\nconst EXECUTION_STEPS = 10;\nconst MAX_SIZE_TO_COMPILE = 1000;\nconst FULL_CHUNK_HEIGHT = 16;\nfunction mirrorContextOperations(ctx, destCtx) {\n  if (ctx._removeMirroring) {\n    throw new Error(\"Context is already forwarding operations.\");\n  }\n  ctx.__originalSave = ctx.save;\n  ctx.__originalRestore = ctx.restore;\n  ctx.__originalRotate = ctx.rotate;\n  ctx.__originalScale = ctx.scale;\n  ctx.__originalTranslate = ctx.translate;\n  ctx.__originalTransform = ctx.transform;\n  ctx.__originalSetTransform = ctx.setTransform;\n  ctx.__originalResetTransform = ctx.resetTransform;\n  ctx.__originalClip = ctx.clip;\n  ctx.__originalMoveTo = ctx.moveTo;\n  ctx.__originalLineTo = ctx.lineTo;\n  ctx.__originalBezierCurveTo = ctx.bezierCurveTo;\n  ctx.__originalRect = ctx.rect;\n  ctx.__originalClosePath = ctx.closePath;\n  ctx.__originalBeginPath = ctx.beginPath;\n  ctx._removeMirroring = () => {\n    ctx.save = ctx.__originalSave;\n    ctx.restore = ctx.__originalRestore;\n    ctx.rotate = ctx.__originalRotate;\n    ctx.scale = ctx.__originalScale;\n    ctx.translate = ctx.__originalTranslate;\n    ctx.transform = ctx.__originalTransform;\n    ctx.setTransform = ctx.__originalSetTransform;\n    ctx.resetTransform = ctx.__originalResetTransform;\n    ctx.clip = ctx.__originalClip;\n    ctx.moveTo = ctx.__originalMoveTo;\n    ctx.lineTo = ctx.__originalLineTo;\n    ctx.bezierCurveTo = ctx.__originalBezierCurveTo;\n    ctx.rect = ctx.__originalRect;\n    ctx.closePath = ctx.__originalClosePath;\n    ctx.beginPath = ctx.__originalBeginPath;\n    delete ctx._removeMirroring;\n  };\n  ctx.save = function ctxSave() {\n    destCtx.save();\n    this.__originalSave();\n  };\n  ctx.restore = function ctxRestore() {\n    destCtx.restore();\n    this.__originalRestore();\n  };\n  ctx.translate = function ctxTranslate(x, y) {\n    destCtx.translate(x, y);\n    this.__originalTranslate(x, y);\n  };\n  ctx.scale = function ctxScale(x, y) {\n    destCtx.scale(x, y);\n    this.__originalScale(x, y);\n  };\n  ctx.transform = function ctxTransform(a, b, c, d, e, f) {\n    destCtx.transform(a, b, c, d, e, f);\n    this.__originalTransform(a, b, c, d, e, f);\n  };\n  ctx.setTransform = function ctxSetTransform(a, b, c, d, e, f) {\n    destCtx.setTransform(a, b, c, d, e, f);\n    this.__originalSetTransform(a, b, c, d, e, f);\n  };\n  ctx.resetTransform = function ctxResetTransform() {\n    destCtx.resetTransform();\n    this.__originalResetTransform();\n  };\n  ctx.rotate = function ctxRotate(angle) {\n    destCtx.rotate(angle);\n    this.__originalRotate(angle);\n  };\n  ctx.clip = function ctxRotate(rule) {\n    destCtx.clip(rule);\n    this.__originalClip(rule);\n  };\n  ctx.moveTo = function (x, y) {\n    destCtx.moveTo(x, y);\n    this.__originalMoveTo(x, y);\n  };\n  ctx.lineTo = function (x, y) {\n    destCtx.lineTo(x, y);\n    this.__originalLineTo(x, y);\n  };\n  ctx.bezierCurveTo = function (cp1x, cp1y, cp2x, cp2y, x, y) {\n    destCtx.bezierCurveTo(cp1x, cp1y, cp2x, cp2y, x, y);\n    this.__originalBezierCurveTo(cp1x, cp1y, cp2x, cp2y, x, y);\n  };\n  ctx.rect = function (x, y, width, height) {\n    destCtx.rect(x, y, width, height);\n    this.__originalRect(x, y, width, height);\n  };\n  ctx.closePath = function () {\n    destCtx.closePath();\n    this.__originalClosePath();\n  };\n  ctx.beginPath = function () {\n    destCtx.beginPath();\n    this.__originalBeginPath();\n  };\n}\nclass CachedCanvases {\n  constructor(canvasFactory) {\n    this.canvasFactory = canvasFactory;\n    this.cache = Object.create(null);\n  }\n  getCanvas(id, width, height) {\n    let canvasEntry;\n    if (this.cache[id] !== undefined) {\n      canvasEntry = this.cache[id];\n      this.canvasFactory.reset(canvasEntry, width, height);\n    } else {\n      canvasEntry = this.canvasFactory.create(width, height);\n      this.cache[id] = canvasEntry;\n    }\n    return canvasEntry;\n  }\n  delete(id) {\n    delete this.cache[id];\n  }\n  clear() {\n    for (const id in this.cache) {\n      const canvasEntry = this.cache[id];\n      this.canvasFactory.destroy(canvasEntry);\n      delete this.cache[id];\n    }\n  }\n}\nfunction drawImageAtIntegerCoords(ctx, srcImg, srcX, srcY, srcW, srcH, destX, destY, destW, destH) {\n  const [a, b, c, d, tx, ty] = (0, _display_utils.getCurrentTransform)(ctx);\n  if (b === 0 && c === 0) {\n    const tlX = destX * a + tx;\n    const rTlX = Math.round(tlX);\n    const tlY = destY * d + ty;\n    const rTlY = Math.round(tlY);\n    const brX = (destX + destW) * a + tx;\n    const rWidth = Math.abs(Math.round(brX) - rTlX) || 1;\n    const brY = (destY + destH) * d + ty;\n    const rHeight = Math.abs(Math.round(brY) - rTlY) || 1;\n    ctx.setTransform(Math.sign(a), 0, 0, Math.sign(d), rTlX, rTlY);\n    ctx.drawImage(srcImg, srcX, srcY, srcW, srcH, 0, 0, rWidth, rHeight);\n    ctx.setTransform(a, b, c, d, tx, ty);\n    return [rWidth, rHeight];\n  }\n  if (a === 0 && d === 0) {\n    const tlX = destY * c + tx;\n    const rTlX = Math.round(tlX);\n    const tlY = destX * b + ty;\n    const rTlY = Math.round(tlY);\n    const brX = (destY + destH) * c + tx;\n    const rWidth = Math.abs(Math.round(brX) - rTlX) || 1;\n    const brY = (destX + destW) * b + ty;\n    const rHeight = Math.abs(Math.round(brY) - rTlY) || 1;\n    ctx.setTransform(0, Math.sign(b), Math.sign(c), 0, rTlX, rTlY);\n    ctx.drawImage(srcImg, srcX, srcY, srcW, srcH, 0, 0, rHeight, rWidth);\n    ctx.setTransform(a, b, c, d, tx, ty);\n    return [rHeight, rWidth];\n  }\n  ctx.drawImage(srcImg, srcX, srcY, srcW, srcH, destX, destY, destW, destH);\n  const scaleX = Math.hypot(a, b);\n  const scaleY = Math.hypot(c, d);\n  return [scaleX * destW, scaleY * destH];\n}\nfunction compileType3Glyph(imgData) {\n  const {\n    width,\n    height\n  } = imgData;\n  if (width > MAX_SIZE_TO_COMPILE || height > MAX_SIZE_TO_COMPILE) {\n    return null;\n  }\n  const POINT_TO_PROCESS_LIMIT = 1000;\n  const POINT_TYPES = new Uint8Array([0, 2, 4, 0, 1, 0, 5, 4, 8, 10, 0, 8, 0, 2, 1, 0]);\n  const width1 = width + 1;\n  let points = new Uint8Array(width1 * (height + 1));\n  let i, j, j0;\n  const lineSize = width + 7 & ~7;\n  let data = new Uint8Array(lineSize * height),\n    pos = 0;\n  for (const elem of imgData.data) {\n    let mask = 128;\n    while (mask > 0) {\n      data[pos++] = elem & mask ? 0 : 255;\n      mask >>= 1;\n    }\n  }\n  let count = 0;\n  pos = 0;\n  if (data[pos] !== 0) {\n    points[0] = 1;\n    ++count;\n  }\n  for (j = 1; j < width; j++) {\n    if (data[pos] !== data[pos + 1]) {\n      points[j] = data[pos] ? 2 : 1;\n      ++count;\n    }\n    pos++;\n  }\n  if (data[pos] !== 0) {\n    points[j] = 2;\n    ++count;\n  }\n  for (i = 1; i < height; i++) {\n    pos = i * lineSize;\n    j0 = i * width1;\n    if (data[pos - lineSize] !== data[pos]) {\n      points[j0] = data[pos] ? 1 : 8;\n      ++count;\n    }\n    let sum = (data[pos] ? 4 : 0) + (data[pos - lineSize] ? 8 : 0);\n    for (j = 1; j < width; j++) {\n      sum = (sum >> 2) + (data[pos + 1] ? 4 : 0) + (data[pos - lineSize + 1] ? 8 : 0);\n      if (POINT_TYPES[sum]) {\n        points[j0 + j] = POINT_TYPES[sum];\n        ++count;\n      }\n      pos++;\n    }\n    if (data[pos - lineSize] !== data[pos]) {\n      points[j0 + j] = data[pos] ? 2 : 4;\n      ++count;\n    }\n    if (count > POINT_TO_PROCESS_LIMIT) {\n      return null;\n    }\n  }\n  pos = lineSize * (height - 1);\n  j0 = i * width1;\n  if (data[pos] !== 0) {\n    points[j0] = 8;\n    ++count;\n  }\n  for (j = 1; j < width; j++) {\n    if (data[pos] !== data[pos + 1]) {\n      points[j0 + j] = data[pos] ? 4 : 8;\n      ++count;\n    }\n    pos++;\n  }\n  if (data[pos] !== 0) {\n    points[j0 + j] = 4;\n    ++count;\n  }\n  if (count > POINT_TO_PROCESS_LIMIT) {\n    return null;\n  }\n  const steps = new Int32Array([0, width1, -1, 0, -width1, 0, 0, 0, 1]);\n  const path = new Path2D();\n  for (i = 0; count && i <= height; i++) {\n    let p = i * width1;\n    const end = p + width;\n    while (p < end && !points[p]) {\n      p++;\n    }\n    if (p === end) {\n      continue;\n    }\n    path.moveTo(p % width1, i);\n    const p0 = p;\n    let type = points[p];\n    do {\n      const step = steps[type];\n      do {\n        p += step;\n      } while (!points[p]);\n      const pp = points[p];\n      if (pp !== 5 && pp !== 10) {\n        type = pp;\n        points[p] = 0;\n      } else {\n        type = pp & 0x33 * type >> 4;\n        points[p] &= type >> 2 | type << 2;\n      }\n      path.lineTo(p % width1, p / width1 | 0);\n      if (!points[p]) {\n        --count;\n      }\n    } while (p0 !== p);\n    --i;\n  }\n  data = null;\n  points = null;\n  const drawOutline = function (c) {\n    c.save();\n    c.scale(1 / width, -1 / height);\n    c.translate(0, -height);\n    c.fill(path);\n    c.beginPath();\n    c.restore();\n  };\n  return drawOutline;\n}\nclass CanvasExtraState {\n  constructor(width, height) {\n    this.alphaIsShape = false;\n    this.fontSize = 0;\n    this.fontSizeScale = 1;\n    this.textMatrix = _util.IDENTITY_MATRIX;\n    this.textMatrixScale = 1;\n    this.fontMatrix = _util.FONT_IDENTITY_MATRIX;\n    this.leading = 0;\n    this.x = 0;\n    this.y = 0;\n    this.lineX = 0;\n    this.lineY = 0;\n    this.charSpacing = 0;\n    this.wordSpacing = 0;\n    this.textHScale = 1;\n    this.textRenderingMode = _util.TextRenderingMode.FILL;\n    this.textRise = 0;\n    this.fillColor = \"#000000\";\n    this.strokeColor = \"#000000\";\n    this.patternFill = false;\n    this.fillAlpha = 1;\n    this.strokeAlpha = 1;\n    this.lineWidth = 1;\n    this.activeSMask = null;\n    this.transferMaps = null;\n    this.startNewPathAndClipBox([0, 0, width, height]);\n  }\n  clone() {\n    const clone = Object.create(this);\n    clone.clipBox = this.clipBox.slice();\n    return clone;\n  }\n  setCurrentPoint(x, y) {\n    this.x = x;\n    this.y = y;\n  }\n  updatePathMinMax(transform, x, y) {\n    [x, y] = _util.Util.applyTransform([x, y], transform);\n    this.minX = Math.min(this.minX, x);\n    this.minY = Math.min(this.minY, y);\n    this.maxX = Math.max(this.maxX, x);\n    this.maxY = Math.max(this.maxY, y);\n  }\n  updateRectMinMax(transform, rect) {\n    const p1 = _util.Util.applyTransform(rect, transform);\n    const p2 = _util.Util.applyTransform(rect.slice(2), transform);\n    this.minX = Math.min(this.minX, p1[0], p2[0]);\n    this.minY = Math.min(this.minY, p1[1], p2[1]);\n    this.maxX = Math.max(this.maxX, p1[0], p2[0]);\n    this.maxY = Math.max(this.maxY, p1[1], p2[1]);\n  }\n  updateScalingPathMinMax(transform, minMax) {\n    _util.Util.scaleMinMax(transform, minMax);\n    this.minX = Math.min(this.minX, minMax[0]);\n    this.maxX = Math.max(this.maxX, minMax[1]);\n    this.minY = Math.min(this.minY, minMax[2]);\n    this.maxY = Math.max(this.maxY, minMax[3]);\n  }\n  updateCurvePathMinMax(transform, x0, y0, x1, y1, x2, y2, x3, y3, minMax) {\n    const box = _util.Util.bezierBoundingBox(x0, y0, x1, y1, x2, y2, x3, y3);\n    if (minMax) {\n      minMax[0] = Math.min(minMax[0], box[0], box[2]);\n      minMax[1] = Math.max(minMax[1], box[0], box[2]);\n      minMax[2] = Math.min(minMax[2], box[1], box[3]);\n      minMax[3] = Math.max(minMax[3], box[1], box[3]);\n      return;\n    }\n    this.updateRectMinMax(transform, box);\n  }\n  getPathBoundingBox(pathType = _pattern_helper.PathType.FILL, transform = null) {\n    const box = [this.minX, this.minY, this.maxX, this.maxY];\n    if (pathType === _pattern_helper.PathType.STROKE) {\n      if (!transform) {\n        (0, _util.unreachable)(\"Stroke bounding box must include transform.\");\n      }\n      const scale = _util.Util.singularValueDecompose2dScale(transform);\n      const xStrokePad = scale[0] * this.lineWidth / 2;\n      const yStrokePad = scale[1] * this.lineWidth / 2;\n      box[0] -= xStrokePad;\n      box[1] -= yStrokePad;\n      box[2] += xStrokePad;\n      box[3] += yStrokePad;\n    }\n    return box;\n  }\n  updateClipFromPath() {\n    const intersect = _util.Util.intersect(this.clipBox, this.getPathBoundingBox());\n    this.startNewPathAndClipBox(intersect || [0, 0, 0, 0]);\n  }\n  isEmptyClip() {\n    return this.minX === Infinity;\n  }\n  startNewPathAndClipBox(box) {\n    this.clipBox = box;\n    this.minX = Infinity;\n    this.minY = Infinity;\n    this.maxX = 0;\n    this.maxY = 0;\n  }\n  getClippedPathBoundingBox(pathType = _pattern_helper.PathType.FILL, transform = null) {\n    return _util.Util.intersect(this.clipBox, this.getPathBoundingBox(pathType, transform));\n  }\n}\nfunction putBinaryImageData(ctx, imgData, transferMaps = null) {\n  if (typeof ImageData !== \"undefined\" && imgData instanceof ImageData) {\n    ctx.putImageData(imgData, 0, 0);\n    return;\n  }\n  const height = imgData.height,\n    width = imgData.width;\n  const partialChunkHeight = height % FULL_CHUNK_HEIGHT;\n  const fullChunks = (height - partialChunkHeight) / FULL_CHUNK_HEIGHT;\n  const totalChunks = partialChunkHeight === 0 ? fullChunks : fullChunks + 1;\n  const chunkImgData = ctx.createImageData(width, FULL_CHUNK_HEIGHT);\n  let srcPos = 0,\n    destPos;\n  const src = imgData.data;\n  const dest = chunkImgData.data;\n  let i, j, thisChunkHeight, elemsInThisChunk;\n  let transferMapRed, transferMapGreen, transferMapBlue, transferMapGray;\n  if (transferMaps) {\n    switch (transferMaps.length) {\n      case 1:\n        transferMapRed = transferMaps[0];\n        transferMapGreen = transferMaps[0];\n        transferMapBlue = transferMaps[0];\n        transferMapGray = transferMaps[0];\n        break;\n      case 4:\n        transferMapRed = transferMaps[0];\n        transferMapGreen = transferMaps[1];\n        transferMapBlue = transferMaps[2];\n        transferMapGray = transferMaps[3];\n        break;\n    }\n  }\n  if (imgData.kind === _util.ImageKind.GRAYSCALE_1BPP) {\n    const srcLength = src.byteLength;\n    const dest32 = new Uint32Array(dest.buffer, 0, dest.byteLength >> 2);\n    const dest32DataLength = dest32.length;\n    const fullSrcDiff = width + 7 >> 3;\n    let white = 0xffffffff;\n    let black = _util.FeatureTest.isLittleEndian ? 0xff000000 : 0x000000ff;\n    if (transferMapGray) {\n      if (transferMapGray[0] === 0xff && transferMapGray[0xff] === 0) {\n        [white, black] = [black, white];\n      }\n    }\n    for (i = 0; i < totalChunks; i++) {\n      thisChunkHeight = i < fullChunks ? FULL_CHUNK_HEIGHT : partialChunkHeight;\n      destPos = 0;\n      for (j = 0; j < thisChunkHeight; j++) {\n        const srcDiff = srcLength - srcPos;\n        let k = 0;\n        const kEnd = srcDiff > fullSrcDiff ? width : srcDiff * 8 - 7;\n        const kEndUnrolled = kEnd & ~7;\n        let mask = 0;\n        let srcByte = 0;\n        for (; k < kEndUnrolled; k += 8) {\n          srcByte = src[srcPos++];\n          dest32[destPos++] = srcByte & 128 ? white : black;\n          dest32[destPos++] = srcByte & 64 ? white : black;\n          dest32[destPos++] = srcByte & 32 ? white : black;\n          dest32[destPos++] = srcByte & 16 ? white : black;\n          dest32[destPos++] = srcByte & 8 ? white : black;\n          dest32[destPos++] = srcByte & 4 ? white : black;\n          dest32[destPos++] = srcByte & 2 ? white : black;\n          dest32[destPos++] = srcByte & 1 ? white : black;\n        }\n        for (; k < kEnd; k++) {\n          if (mask === 0) {\n            srcByte = src[srcPos++];\n            mask = 128;\n          }\n          dest32[destPos++] = srcByte & mask ? white : black;\n          mask >>= 1;\n        }\n      }\n      while (destPos < dest32DataLength) {\n        dest32[destPos++] = 0;\n      }\n      ctx.putImageData(chunkImgData, 0, i * FULL_CHUNK_HEIGHT);\n    }\n  } else if (imgData.kind === _util.ImageKind.RGBA_32BPP) {\n    const hasTransferMaps = !!(transferMapRed || transferMapGreen || transferMapBlue);\n    j = 0;\n    elemsInThisChunk = width * FULL_CHUNK_HEIGHT * 4;\n    for (i = 0; i < fullChunks; i++) {\n      dest.set(src.subarray(srcPos, srcPos + elemsInThisChunk));\n      srcPos += elemsInThisChunk;\n      if (hasTransferMaps) {\n        for (let k = 0; k < elemsInThisChunk; k += 4) {\n          if (transferMapRed) {\n            dest[k + 0] = transferMapRed[dest[k + 0]];\n          }\n          if (transferMapGreen) {\n            dest[k + 1] = transferMapGreen[dest[k + 1]];\n          }\n          if (transferMapBlue) {\n            dest[k + 2] = transferMapBlue[dest[k + 2]];\n          }\n        }\n      }\n      ctx.putImageData(chunkImgData, 0, j);\n      j += FULL_CHUNK_HEIGHT;\n    }\n    if (i < totalChunks) {\n      elemsInThisChunk = width * partialChunkHeight * 4;\n      dest.set(src.subarray(srcPos, srcPos + elemsInThisChunk));\n      if (hasTransferMaps) {\n        for (let k = 0; k < elemsInThisChunk; k += 4) {\n          if (transferMapRed) {\n            dest[k + 0] = transferMapRed[dest[k + 0]];\n          }\n          if (transferMapGreen) {\n            dest[k + 1] = transferMapGreen[dest[k + 1]];\n          }\n          if (transferMapBlue) {\n            dest[k + 2] = transferMapBlue[dest[k + 2]];\n          }\n        }\n      }\n      ctx.putImageData(chunkImgData, 0, j);\n    }\n  } else if (imgData.kind === _util.ImageKind.RGB_24BPP) {\n    const hasTransferMaps = !!(transferMapRed || transferMapGreen || transferMapBlue);\n    thisChunkHeight = FULL_CHUNK_HEIGHT;\n    elemsInThisChunk = width * thisChunkHeight;\n    for (i = 0; i < totalChunks; i++) {\n      if (i >= fullChunks) {\n        thisChunkHeight = partialChunkHeight;\n        elemsInThisChunk = width * thisChunkHeight;\n      }\n      destPos = 0;\n      for (j = elemsInThisChunk; j--;) {\n        dest[destPos++] = src[srcPos++];\n        dest[destPos++] = src[srcPos++];\n        dest[destPos++] = src[srcPos++];\n        dest[destPos++] = 255;\n      }\n      if (hasTransferMaps) {\n        for (let k = 0; k < destPos; k += 4) {\n          if (transferMapRed) {\n            dest[k + 0] = transferMapRed[dest[k + 0]];\n          }\n          if (transferMapGreen) {\n            dest[k + 1] = transferMapGreen[dest[k + 1]];\n          }\n          if (transferMapBlue) {\n            dest[k + 2] = transferMapBlue[dest[k + 2]];\n          }\n        }\n      }\n      ctx.putImageData(chunkImgData, 0, i * FULL_CHUNK_HEIGHT);\n    }\n  } else {\n    throw new Error(`bad image kind: ${imgData.kind}`);\n  }\n}\nfunction putBinaryImageMask(ctx, imgData) {\n  if (imgData.bitmap) {\n    ctx.drawImage(imgData.bitmap, 0, 0);\n    return;\n  }\n  const height = imgData.height,\n    width = imgData.width;\n  const partialChunkHeight = height % FULL_CHUNK_HEIGHT;\n  const fullChunks = (height - partialChunkHeight) / FULL_CHUNK_HEIGHT;\n  const totalChunks = partialChunkHeight === 0 ? fullChunks : fullChunks + 1;\n  const chunkImgData = ctx.createImageData(width, FULL_CHUNK_HEIGHT);\n  let srcPos = 0;\n  const src = imgData.data;\n  const dest = chunkImgData.data;\n  for (let i = 0; i < totalChunks; i++) {\n    const thisChunkHeight = i < fullChunks ? FULL_CHUNK_HEIGHT : partialChunkHeight;\n    ({\n      srcPos\n    } = (0, _image_utils.applyMaskImageData)({\n      src,\n      srcPos,\n      dest,\n      width,\n      height: thisChunkHeight\n    }));\n    ctx.putImageData(chunkImgData, 0, i * FULL_CHUNK_HEIGHT);\n  }\n}\nfunction copyCtxState(sourceCtx, destCtx) {\n  const properties = [\"strokeStyle\", \"fillStyle\", \"fillRule\", \"globalAlpha\", \"lineWidth\", \"lineCap\", \"lineJoin\", \"miterLimit\", \"globalCompositeOperation\", \"font\"];\n  for (const property of properties) {\n    if (sourceCtx[property] !== undefined) {\n      destCtx[property] = sourceCtx[property];\n    }\n  }\n  if (sourceCtx.setLineDash !== undefined) {\n    destCtx.setLineDash(sourceCtx.getLineDash());\n    destCtx.lineDashOffset = sourceCtx.lineDashOffset;\n  }\n}\nfunction resetCtxToDefault(ctx, foregroundColor) {\n  ctx.strokeStyle = ctx.fillStyle = foregroundColor || \"#000000\";\n  ctx.fillRule = \"nonzero\";\n  ctx.globalAlpha = 1;\n  ctx.lineWidth = 1;\n  ctx.lineCap = \"butt\";\n  ctx.lineJoin = \"miter\";\n  ctx.miterLimit = 10;\n  ctx.globalCompositeOperation = \"source-over\";\n  ctx.font = \"10px sans-serif\";\n  if (ctx.setLineDash !== undefined) {\n    ctx.setLineDash([]);\n    ctx.lineDashOffset = 0;\n  }\n}\nfunction composeSMaskBackdrop(bytes, r0, g0, b0) {\n  const length = bytes.length;\n  for (let i = 3; i < length; i += 4) {\n    const alpha = bytes[i];\n    if (alpha === 0) {\n      bytes[i - 3] = r0;\n      bytes[i - 2] = g0;\n      bytes[i - 1] = b0;\n    } else if (alpha < 255) {\n      const alpha_ = 255 - alpha;\n      bytes[i - 3] = bytes[i - 3] * alpha + r0 * alpha_ >> 8;\n      bytes[i - 2] = bytes[i - 2] * alpha + g0 * alpha_ >> 8;\n      bytes[i - 1] = bytes[i - 1] * alpha + b0 * alpha_ >> 8;\n    }\n  }\n}\nfunction composeSMaskAlpha(maskData, layerData, transferMap) {\n  const length = maskData.length;\n  const scale = 1 / 255;\n  for (let i = 3; i < length; i += 4) {\n    const alpha = transferMap ? transferMap[maskData[i]] : maskData[i];\n    layerData[i] = layerData[i] * alpha * scale | 0;\n  }\n}\nfunction composeSMaskLuminosity(maskData, layerData, transferMap) {\n  const length = maskData.length;\n  for (let i = 3; i < length; i += 4) {\n    const y = maskData[i - 3] * 77 + maskData[i - 2] * 152 + maskData[i - 1] * 28;\n    layerData[i] = transferMap ? layerData[i] * transferMap[y >> 8] >> 8 : layerData[i] * y >> 16;\n  }\n}\nfunction genericComposeSMask(maskCtx, layerCtx, width, height, subtype, backdrop, transferMap, layerOffsetX, layerOffsetY, maskOffsetX, maskOffsetY) {\n  const hasBackdrop = !!backdrop;\n  const r0 = hasBackdrop ? backdrop[0] : 0;\n  const g0 = hasBackdrop ? backdrop[1] : 0;\n  const b0 = hasBackdrop ? backdrop[2] : 0;\n  let composeFn;\n  if (subtype === \"Luminosity\") {\n    composeFn = composeSMaskLuminosity;\n  } else {\n    composeFn = composeSMaskAlpha;\n  }\n  const PIXELS_TO_PROCESS = 1048576;\n  const chunkSize = Math.min(height, Math.ceil(PIXELS_TO_PROCESS / width));\n  for (let row = 0; row < height; row += chunkSize) {\n    const chunkHeight = Math.min(chunkSize, height - row);\n    const maskData = maskCtx.getImageData(layerOffsetX - maskOffsetX, row + (layerOffsetY - maskOffsetY), width, chunkHeight);\n    const layerData = layerCtx.getImageData(layerOffsetX, row + layerOffsetY, width, chunkHeight);\n    if (hasBackdrop) {\n      composeSMaskBackdrop(maskData.data, r0, g0, b0);\n    }\n    composeFn(maskData.data, layerData.data, transferMap);\n    layerCtx.putImageData(layerData, layerOffsetX, row + layerOffsetY);\n  }\n}\nfunction composeSMask(ctx, smask, layerCtx, layerBox) {\n  const layerOffsetX = layerBox[0];\n  const layerOffsetY = layerBox[1];\n  const layerWidth = layerBox[2] - layerOffsetX;\n  const layerHeight = layerBox[3] - layerOffsetY;\n  if (layerWidth === 0 || layerHeight === 0) {\n    return;\n  }\n  genericComposeSMask(smask.context, layerCtx, layerWidth, layerHeight, smask.subtype, smask.backdrop, smask.transferMap, layerOffsetX, layerOffsetY, smask.offsetX, smask.offsetY);\n  ctx.save();\n  ctx.globalAlpha = 1;\n  ctx.globalCompositeOperation = \"source-over\";\n  ctx.setTransform(1, 0, 0, 1, 0, 0);\n  ctx.drawImage(layerCtx.canvas, 0, 0);\n  ctx.restore();\n}\nfunction getImageSmoothingEnabled(transform, interpolate) {\n  const scale = _util.Util.singularValueDecompose2dScale(transform);\n  scale[0] = Math.fround(scale[0]);\n  scale[1] = Math.fround(scale[1]);\n  const actualScale = Math.fround((globalThis.devicePixelRatio || 1) * _display_utils.PixelsPerInch.PDF_TO_CSS_UNITS);\n  if (interpolate !== undefined) {\n    return interpolate;\n  } else if (scale[0] <= actualScale || scale[1] <= actualScale) {\n    return true;\n  }\n  return false;\n}\nconst LINE_CAP_STYLES = [\"butt\", \"round\", \"square\"];\nconst LINE_JOIN_STYLES = [\"miter\", \"round\", \"bevel\"];\nconst NORMAL_CLIP = {};\nconst EO_CLIP = {};\nclass CanvasGraphics {\n  constructor(canvasCtx, commonObjs, objs, canvasFactory, {\n    optionalContentConfig,\n    markedContentStack = null\n  }, annotationCanvasMap, pageColors) {\n    this.ctx = canvasCtx;\n    this.current = new CanvasExtraState(this.ctx.canvas.width, this.ctx.canvas.height);\n    this.stateStack = [];\n    this.pendingClip = null;\n    this.pendingEOFill = false;\n    this.res = null;\n    this.xobjs = null;\n    this.commonObjs = commonObjs;\n    this.objs = objs;\n    this.canvasFactory = canvasFactory;\n    this.groupStack = [];\n    this.processingType3 = null;\n    this.baseTransform = null;\n    this.baseTransformStack = [];\n    this.groupLevel = 0;\n    this.smaskStack = [];\n    this.smaskCounter = 0;\n    this.tempSMask = null;\n    this.suspendedCtx = null;\n    this.contentVisible = true;\n    this.markedContentStack = markedContentStack || [];\n    this.optionalContentConfig = optionalContentConfig;\n    this.cachedCanvases = new CachedCanvases(this.canvasFactory);\n    this.cachedPatterns = new Map();\n    this.annotationCanvasMap = annotationCanvasMap;\n    this.viewportScale = 1;\n    this.outputScaleX = 1;\n    this.outputScaleY = 1;\n    this.backgroundColor = pageColors?.background || null;\n    this.foregroundColor = pageColors?.foreground || null;\n    this._cachedScaleForStroking = null;\n    this._cachedGetSinglePixelWidth = null;\n    this._cachedBitmapsMap = new Map();\n  }\n  getObject(data, fallback = null) {\n    if (typeof data === \"string\") {\n      return data.startsWith(\"g_\") ? this.commonObjs.get(data) : this.objs.get(data);\n    }\n    return fallback;\n  }\n  beginDrawing({\n    transform,\n    viewport,\n    transparency = false,\n    background = null\n  }) {\n    const width = this.ctx.canvas.width;\n    const height = this.ctx.canvas.height;\n    const defaultBackgroundColor = background || \"#ffffff\";\n    this.ctx.save();\n    if (this.foregroundColor && this.backgroundColor) {\n      this.ctx.fillStyle = this.foregroundColor;\n      const fg = this.foregroundColor = this.ctx.fillStyle;\n      this.ctx.fillStyle = this.backgroundColor;\n      const bg = this.backgroundColor = this.ctx.fillStyle;\n      let isValidDefaultBg = true;\n      let defaultBg = defaultBackgroundColor;\n      this.ctx.fillStyle = defaultBackgroundColor;\n      defaultBg = this.ctx.fillStyle;\n      isValidDefaultBg = typeof defaultBg === \"string\" && /^#[0-9A-Fa-f]{6}$/.test(defaultBg);\n      if (fg === \"#000000\" && bg === \"#ffffff\" || fg === bg || !isValidDefaultBg) {\n        this.foregroundColor = this.backgroundColor = null;\n      } else {\n        const [rB, gB, bB] = (0, _display_utils.getRGB)(defaultBg);\n        const newComp = x => {\n          x /= 255;\n          return x <= 0.03928 ? x / 12.92 : ((x + 0.055) / 1.055) ** 2.4;\n        };\n        const lumB = Math.round(0.2126 * newComp(rB) + 0.7152 * newComp(gB) + 0.0722 * newComp(bB));\n        this.selectColor = (r, g, b) => {\n          const lumC = 0.2126 * newComp(r) + 0.7152 * newComp(g) + 0.0722 * newComp(b);\n          return Math.round(lumC) === lumB ? bg : fg;\n        };\n      }\n    }\n    this.ctx.fillStyle = this.backgroundColor || defaultBackgroundColor;\n    this.ctx.fillRect(0, 0, width, height);\n    this.ctx.restore();\n    if (transparency) {\n      const transparentCanvas = this.cachedCanvases.getCanvas(\"transparent\", width, height);\n      this.compositeCtx = this.ctx;\n      this.transparentCanvas = transparentCanvas.canvas;\n      this.ctx = transparentCanvas.context;\n      this.ctx.save();\n      this.ctx.transform(...(0, _display_utils.getCurrentTransform)(this.compositeCtx));\n    }\n    this.ctx.save();\n    resetCtxToDefault(this.ctx, this.foregroundColor);\n    if (transform) {\n      this.ctx.transform(...transform);\n      this.outputScaleX = transform[0];\n      this.outputScaleY = transform[0];\n    }\n    this.ctx.transform(...viewport.transform);\n    this.viewportScale = viewport.scale;\n    this.baseTransform = (0, _display_utils.getCurrentTransform)(this.ctx);\n  }\n  executeOperatorList(operatorList, executionStartIdx, continueCallback, stepper) {\n    const argsArray = operatorList.argsArray;\n    const fnArray = operatorList.fnArray;\n    let i = executionStartIdx || 0;\n    const argsArrayLen = argsArray.length;\n    if (argsArrayLen === i) {\n      return i;\n    }\n    const chunkOperations = argsArrayLen - i > EXECUTION_STEPS && typeof continueCallback === \"function\";\n    const endTime = chunkOperations ? Date.now() + EXECUTION_TIME : 0;\n    let steps = 0;\n    const commonObjs = this.commonObjs;\n    const objs = this.objs;\n    let fnId;\n    while (true) {\n      if (stepper !== undefined && i === stepper.nextBreakPoint) {\n        stepper.breakIt(i, continueCallback);\n        return i;\n      }\n      fnId = fnArray[i];\n      if (fnId !== _util.OPS.dependency) {\n        this[fnId].apply(this, argsArray[i]);\n      } else {\n        for (const depObjId of argsArray[i]) {\n          const objsPool = depObjId.startsWith(\"g_\") ? commonObjs : objs;\n          if (!objsPool.has(depObjId)) {\n            objsPool.get(depObjId, continueCallback);\n            return i;\n          }\n        }\n      }\n      i++;\n      if (i === argsArrayLen) {\n        return i;\n      }\n      if (chunkOperations && ++steps > EXECUTION_STEPS) {\n        if (Date.now() > endTime) {\n          continueCallback();\n          return i;\n        }\n        steps = 0;\n      }\n    }\n  }\n  #restoreInitialState() {\n    while (this.stateStack.length || this.inSMaskMode) {\n      this.restore();\n    }\n    this.ctx.restore();\n    if (this.transparentCanvas) {\n      this.ctx = this.compositeCtx;\n      this.ctx.save();\n      this.ctx.setTransform(1, 0, 0, 1, 0, 0);\n      this.ctx.drawImage(this.transparentCanvas, 0, 0);\n      this.ctx.restore();\n      this.transparentCanvas = null;\n    }\n  }\n  endDrawing() {\n    this.#restoreInitialState();\n    this.cachedCanvases.clear();\n    this.cachedPatterns.clear();\n    for (const cache of this._cachedBitmapsMap.values()) {\n      for (const canvas of cache.values()) {\n        if (typeof HTMLCanvasElement !== \"undefined\" && canvas instanceof HTMLCanvasElement) {\n          canvas.width = canvas.height = 0;\n        }\n      }\n      cache.clear();\n    }\n    this._cachedBitmapsMap.clear();\n  }\n  _scaleImage(img, inverseTransform) {\n    const width = img.width;\n    const height = img.height;\n    let widthScale = Math.max(Math.hypot(inverseTransform[0], inverseTransform[1]), 1);\n    let heightScale = Math.max(Math.hypot(inverseTransform[2], inverseTransform[3]), 1);\n    let paintWidth = width,\n      paintHeight = height;\n    let tmpCanvasId = \"prescale1\";\n    let tmpCanvas, tmpCtx;\n    while (widthScale > 2 && paintWidth > 1 || heightScale > 2 && paintHeight > 1) {\n      let newWidth = paintWidth,\n        newHeight = paintHeight;\n      if (widthScale > 2 && paintWidth > 1) {\n        newWidth = Math.ceil(paintWidth / 2);\n        widthScale /= paintWidth / newWidth;\n      }\n      if (heightScale > 2 && paintHeight > 1) {\n        newHeight = Math.ceil(paintHeight / 2);\n        heightScale /= paintHeight / newHeight;\n      }\n      tmpCanvas = this.cachedCanvases.getCanvas(tmpCanvasId, newWidth, newHeight);\n      tmpCtx = tmpCanvas.context;\n      tmpCtx.clearRect(0, 0, newWidth, newHeight);\n      tmpCtx.drawImage(img, 0, 0, paintWidth, paintHeight, 0, 0, newWidth, newHeight);\n      img = tmpCanvas.canvas;\n      paintWidth = newWidth;\n      paintHeight = newHeight;\n      tmpCanvasId = tmpCanvasId === \"prescale1\" ? \"prescale2\" : \"prescale1\";\n    }\n    return {\n      img,\n      paintWidth,\n      paintHeight\n    };\n  }\n  _createMaskCanvas(img) {\n    const ctx = this.ctx;\n    const {\n      width,\n      height\n    } = img;\n    const fillColor = this.current.fillColor;\n    const isPatternFill = this.current.patternFill;\n    const currentTransform = (0, _display_utils.getCurrentTransform)(ctx);\n    let cache, cacheKey, scaled, maskCanvas;\n    if ((img.bitmap || img.data) && img.count > 1) {\n      const mainKey = img.bitmap || img.data.buffer;\n      cacheKey = JSON.stringify(isPatternFill ? currentTransform : [currentTransform.slice(0, 4), fillColor]);\n      cache = this._cachedBitmapsMap.get(mainKey);\n      if (!cache) {\n        cache = new Map();\n        this._cachedBitmapsMap.set(mainKey, cache);\n      }\n      const cachedImage = cache.get(cacheKey);\n      if (cachedImage && !isPatternFill) {\n        const offsetX = Math.round(Math.min(currentTransform[0], currentTransform[2]) + currentTransform[4]);\n        const offsetY = Math.round(Math.min(currentTransform[1], currentTransform[3]) + currentTransform[5]);\n        return {\n          canvas: cachedImage,\n          offsetX,\n          offsetY\n        };\n      }\n      scaled = cachedImage;\n    }\n    if (!scaled) {\n      maskCanvas = this.cachedCanvases.getCanvas(\"maskCanvas\", width, height);\n      putBinaryImageMask(maskCanvas.context, img);\n    }\n    let maskToCanvas = _util.Util.transform(currentTransform, [1 / width, 0, 0, -1 / height, 0, 0]);\n    maskToCanvas = _util.Util.transform(maskToCanvas, [1, 0, 0, 1, 0, -height]);\n    const cord1 = _util.Util.applyTransform([0, 0], maskToCanvas);\n    const cord2 = _util.Util.applyTransform([width, height], maskToCanvas);\n    const rect = _util.Util.normalizeRect([cord1[0], cord1[1], cord2[0], cord2[1]]);\n    const drawnWidth = Math.round(rect[2] - rect[0]) || 1;\n    const drawnHeight = Math.round(rect[3] - rect[1]) || 1;\n    const fillCanvas = this.cachedCanvases.getCanvas(\"fillCanvas\", drawnWidth, drawnHeight);\n    const fillCtx = fillCanvas.context;\n    const offsetX = Math.min(cord1[0], cord2[0]);\n    const offsetY = Math.min(cord1[1], cord2[1]);\n    fillCtx.translate(-offsetX, -offsetY);\n    fillCtx.transform(...maskToCanvas);\n    if (!scaled) {\n      scaled = this._scaleImage(maskCanvas.canvas, (0, _display_utils.getCurrentTransformInverse)(fillCtx));\n      scaled = scaled.img;\n      if (cache && isPatternFill) {\n        cache.set(cacheKey, scaled);\n      }\n    }\n    fillCtx.imageSmoothingEnabled = getImageSmoothingEnabled((0, _display_utils.getCurrentTransform)(fillCtx), img.interpolate);\n    drawImageAtIntegerCoords(fillCtx, scaled, 0, 0, scaled.width, scaled.height, 0, 0, width, height);\n    fillCtx.globalCompositeOperation = \"source-in\";\n    const inverse = _util.Util.transform((0, _display_utils.getCurrentTransformInverse)(fillCtx), [1, 0, 0, 1, -offsetX, -offsetY]);\n    fillCtx.fillStyle = isPatternFill ? fillColor.getPattern(ctx, this, inverse, _pattern_helper.PathType.FILL) : fillColor;\n    fillCtx.fillRect(0, 0, width, height);\n    if (cache && !isPatternFill) {\n      this.cachedCanvases.delete(\"fillCanvas\");\n      cache.set(cacheKey, fillCanvas.canvas);\n    }\n    return {\n      canvas: fillCanvas.canvas,\n      offsetX: Math.round(offsetX),\n      offsetY: Math.round(offsetY)\n    };\n  }\n  setLineWidth(width) {\n    if (width !== this.current.lineWidth) {\n      this._cachedScaleForStroking = null;\n    }\n    this.current.lineWidth = width;\n    this.ctx.lineWidth = width;\n  }\n  setLineCap(style) {\n    this.ctx.lineCap = LINE_CAP_STYLES[style];\n  }\n  setLineJoin(style) {\n    this.ctx.lineJoin = LINE_JOIN_STYLES[style];\n  }\n  setMiterLimit(limit) {\n    this.ctx.miterLimit = limit;\n  }\n  setDash(dashArray, dashPhase) {\n    const ctx = this.ctx;\n    if (ctx.setLineDash !== undefined) {\n      ctx.setLineDash(dashArray);\n      ctx.lineDashOffset = dashPhase;\n    }\n  }\n  setRenderingIntent(intent) {}\n  setFlatness(flatness) {}\n  setGState(states) {\n    for (const [key, value] of states) {\n      switch (key) {\n        case \"LW\":\n          this.setLineWidth(value);\n          break;\n        case \"LC\":\n          this.setLineCap(value);\n          break;\n        case \"LJ\":\n          this.setLineJoin(value);\n          break;\n        case \"ML\":\n          this.setMiterLimit(value);\n          break;\n        case \"D\":\n          this.setDash(value[0], value[1]);\n          break;\n        case \"RI\":\n          this.setRenderingIntent(value);\n          break;\n        case \"FL\":\n          this.setFlatness(value);\n          break;\n        case \"Font\":\n          this.setFont(value[0], value[1]);\n          break;\n        case \"CA\":\n          this.current.strokeAlpha = value;\n          break;\n        case \"ca\":\n          this.current.fillAlpha = value;\n          this.ctx.globalAlpha = value;\n          break;\n        case \"BM\":\n          this.ctx.globalCompositeOperation = value;\n          break;\n        case \"SMask\":\n          this.current.activeSMask = value ? this.tempSMask : null;\n          this.tempSMask = null;\n          this.checkSMaskState();\n          break;\n        case \"TR\":\n          this.current.transferMaps = value;\n      }\n    }\n  }\n  get inSMaskMode() {\n    return !!this.suspendedCtx;\n  }\n  checkSMaskState() {\n    const inSMaskMode = this.inSMaskMode;\n    if (this.current.activeSMask && !inSMaskMode) {\n      this.beginSMaskMode();\n    } else if (!this.current.activeSMask && inSMaskMode) {\n      this.endSMaskMode();\n    }\n  }\n  beginSMaskMode() {\n    if (this.inSMaskMode) {\n      throw new Error(\"beginSMaskMode called while already in smask mode\");\n    }\n    const drawnWidth = this.ctx.canvas.width;\n    const drawnHeight = this.ctx.canvas.height;\n    const cacheId = \"smaskGroupAt\" + this.groupLevel;\n    const scratchCanvas = this.cachedCanvases.getCanvas(cacheId, drawnWidth, drawnHeight);\n    this.suspendedCtx = this.ctx;\n    this.ctx = scratchCanvas.context;\n    const ctx = this.ctx;\n    ctx.setTransform(...(0, _display_utils.getCurrentTransform)(this.suspendedCtx));\n    copyCtxState(this.suspendedCtx, ctx);\n    mirrorContextOperations(ctx, this.suspendedCtx);\n    this.setGState([[\"BM\", \"source-over\"], [\"ca\", 1], [\"CA\", 1]]);\n  }\n  endSMaskMode() {\n    if (!this.inSMaskMode) {\n      throw new Error(\"endSMaskMode called while not in smask mode\");\n    }\n    this.ctx._removeMirroring();\n    copyCtxState(this.ctx, this.suspendedCtx);\n    this.ctx = this.suspendedCtx;\n    this.suspendedCtx = null;\n  }\n  compose(dirtyBox) {\n    if (!this.current.activeSMask) {\n      return;\n    }\n    if (!dirtyBox) {\n      dirtyBox = [0, 0, this.ctx.canvas.width, this.ctx.canvas.height];\n    } else {\n      dirtyBox[0] = Math.floor(dirtyBox[0]);\n      dirtyBox[1] = Math.floor(dirtyBox[1]);\n      dirtyBox[2] = Math.ceil(dirtyBox[2]);\n      dirtyBox[3] = Math.ceil(dirtyBox[3]);\n    }\n    const smask = this.current.activeSMask;\n    const suspendedCtx = this.suspendedCtx;\n    composeSMask(suspendedCtx, smask, this.ctx, dirtyBox);\n    this.ctx.save();\n    this.ctx.setTransform(1, 0, 0, 1, 0, 0);\n    this.ctx.clearRect(0, 0, this.ctx.canvas.width, this.ctx.canvas.height);\n    this.ctx.restore();\n  }\n  save() {\n    if (this.inSMaskMode) {\n      copyCtxState(this.ctx, this.suspendedCtx);\n      this.suspendedCtx.save();\n    } else {\n      this.ctx.save();\n    }\n    const old = this.current;\n    this.stateStack.push(old);\n    this.current = old.clone();\n  }\n  restore() {\n    if (this.stateStack.length === 0 && this.inSMaskMode) {\n      this.endSMaskMode();\n    }\n    if (this.stateStack.length !== 0) {\n      this.current = this.stateStack.pop();\n      if (this.inSMaskMode) {\n        this.suspendedCtx.restore();\n        copyCtxState(this.suspendedCtx, this.ctx);\n      } else {\n        this.ctx.restore();\n      }\n      this.checkSMaskState();\n      this.pendingClip = null;\n      this._cachedScaleForStroking = null;\n      this._cachedGetSinglePixelWidth = null;\n    }\n  }\n  transform(a, b, c, d, e, f) {\n    this.ctx.transform(a, b, c, d, e, f);\n    this._cachedScaleForStroking = null;\n    this._cachedGetSinglePixelWidth = null;\n  }\n  constructPath(ops, args, minMax) {\n    const ctx = this.ctx;\n    const current = this.current;\n    let x = current.x,\n      y = current.y;\n    let startX, startY;\n    const currentTransform = (0, _display_utils.getCurrentTransform)(ctx);\n    const isScalingMatrix = currentTransform[0] === 0 && currentTransform[3] === 0 || currentTransform[1] === 0 && currentTransform[2] === 0;\n    const minMaxForBezier = isScalingMatrix ? minMax.slice(0) : null;\n    for (let i = 0, j = 0, ii = ops.length; i < ii; i++) {\n      switch (ops[i] | 0) {\n        case _util.OPS.rectangle:\n          x = args[j++];\n          y = args[j++];\n          const width = args[j++];\n          const height = args[j++];\n          const xw = x + width;\n          const yh = y + height;\n          ctx.moveTo(x, y);\n          if (width === 0 || height === 0) {\n            ctx.lineTo(xw, yh);\n          } else {\n            ctx.lineTo(xw, y);\n            ctx.lineTo(xw, yh);\n            ctx.lineTo(x, yh);\n          }\n          if (!isScalingMatrix) {\n            current.updateRectMinMax(currentTransform, [x, y, xw, yh]);\n          }\n          ctx.closePath();\n          break;\n        case _util.OPS.moveTo:\n          x = args[j++];\n          y = args[j++];\n          ctx.moveTo(x, y);\n          if (!isScalingMatrix) {\n            current.updatePathMinMax(currentTransform, x, y);\n          }\n          break;\n        case _util.OPS.lineTo:\n          x = args[j++];\n          y = args[j++];\n          ctx.lineTo(x, y);\n          if (!isScalingMatrix) {\n            current.updatePathMinMax(currentTransform, x, y);\n          }\n          break;\n        case _util.OPS.curveTo:\n          startX = x;\n          startY = y;\n          x = args[j + 4];\n          y = args[j + 5];\n          ctx.bezierCurveTo(args[j], args[j + 1], args[j + 2], args[j + 3], x, y);\n          current.updateCurvePathMinMax(currentTransform, startX, startY, args[j], args[j + 1], args[j + 2], args[j + 3], x, y, minMaxForBezier);\n          j += 6;\n          break;\n        case _util.OPS.curveTo2:\n          startX = x;\n          startY = y;\n          ctx.bezierCurveTo(x, y, args[j], args[j + 1], args[j + 2], args[j + 3]);\n          current.updateCurvePathMinMax(currentTransform, startX, startY, x, y, args[j], args[j + 1], args[j + 2], args[j + 3], minMaxForBezier);\n          x = args[j + 2];\n          y = args[j + 3];\n          j += 4;\n          break;\n        case _util.OPS.curveTo3:\n          startX = x;\n          startY = y;\n          x = args[j + 2];\n          y = args[j + 3];\n          ctx.bezierCurveTo(args[j], args[j + 1], x, y, x, y);\n          current.updateCurvePathMinMax(currentTransform, startX, startY, args[j], args[j + 1], x, y, x, y, minMaxForBezier);\n          j += 4;\n          break;\n        case _util.OPS.closePath:\n          ctx.closePath();\n          break;\n      }\n    }\n    if (isScalingMatrix) {\n      current.updateScalingPathMinMax(currentTransform, minMaxForBezier);\n    }\n    current.setCurrentPoint(x, y);\n  }\n  closePath() {\n    this.ctx.closePath();\n  }\n  stroke(consumePath = true) {\n    const ctx = this.ctx;\n    const strokeColor = this.current.strokeColor;\n    ctx.globalAlpha = this.current.strokeAlpha;\n    if (this.contentVisible) {\n      if (typeof strokeColor === \"object\" && strokeColor?.getPattern) {\n        ctx.save();\n        ctx.strokeStyle = strokeColor.getPattern(ctx, this, (0, _display_utils.getCurrentTransformInverse)(ctx), _pattern_helper.PathType.STROKE);\n        this.rescaleAndStroke(false);\n        ctx.restore();\n      } else {\n        this.rescaleAndStroke(true);\n      }\n    }\n    if (consumePath) {\n      this.consumePath(this.current.getClippedPathBoundingBox());\n    }\n    ctx.globalAlpha = this.current.fillAlpha;\n  }\n  closeStroke() {\n    this.closePath();\n    this.stroke();\n  }\n  fill(consumePath = true) {\n    const ctx = this.ctx;\n    const fillColor = this.current.fillColor;\n    const isPatternFill = this.current.patternFill;\n    let needRestore = false;\n    if (isPatternFill) {\n      ctx.save();\n      ctx.fillStyle = fillColor.getPattern(ctx, this, (0, _display_utils.getCurrentTransformInverse)(ctx), _pattern_helper.PathType.FILL);\n      needRestore = true;\n    }\n    const intersect = this.current.getClippedPathBoundingBox();\n    if (this.contentVisible && intersect !== null) {\n      if (this.pendingEOFill) {\n        ctx.fill(\"evenodd\");\n        this.pendingEOFill = false;\n      } else {\n        ctx.fill();\n      }\n    }\n    if (needRestore) {\n      ctx.restore();\n    }\n    if (consumePath) {\n      this.consumePath(intersect);\n    }\n  }\n  eoFill() {\n    this.pendingEOFill = true;\n    this.fill();\n  }\n  fillStroke() {\n    this.fill(false);\n    this.stroke(false);\n    this.consumePath();\n  }\n  eoFillStroke() {\n    this.pendingEOFill = true;\n    this.fillStroke();\n  }\n  closeFillStroke() {\n    this.closePath();\n    this.fillStroke();\n  }\n  closeEOFillStroke() {\n    this.pendingEOFill = true;\n    this.closePath();\n    this.fillStroke();\n  }\n  endPath() {\n    this.consumePath();\n  }\n  clip() {\n    this.pendingClip = NORMAL_CLIP;\n  }\n  eoClip() {\n    this.pendingClip = EO_CLIP;\n  }\n  beginText() {\n    this.current.textMatrix = _util.IDENTITY_MATRIX;\n    this.current.textMatrixScale = 1;\n    this.current.x = this.current.lineX = 0;\n    this.current.y = this.current.lineY = 0;\n  }\n  endText() {\n    const paths = this.pendingTextPaths;\n    const ctx = this.ctx;\n    if (paths === undefined) {\n      ctx.beginPath();\n      return;\n    }\n    ctx.save();\n    ctx.beginPath();\n    for (const path of paths) {\n      ctx.setTransform(...path.transform);\n      ctx.translate(path.x, path.y);\n      path.addToPath(ctx, path.fontSize);\n    }\n    ctx.restore();\n    ctx.clip();\n    ctx.beginPath();\n    delete this.pendingTextPaths;\n  }\n  setCharSpacing(spacing) {\n    this.current.charSpacing = spacing;\n  }\n  setWordSpacing(spacing) {\n    this.current.wordSpacing = spacing;\n  }\n  setHScale(scale) {\n    this.current.textHScale = scale / 100;\n  }\n  setLeading(leading) {\n    this.current.leading = -leading;\n  }\n  setFont(fontRefName, size) {\n    const fontObj = this.commonObjs.get(fontRefName);\n    const current = this.current;\n    if (!fontObj) {\n      throw new Error(`Can't find font for ${fontRefName}`);\n    }\n    current.fontMatrix = fontObj.fontMatrix || _util.FONT_IDENTITY_MATRIX;\n    if (current.fontMatrix[0] === 0 || current.fontMatrix[3] === 0) {\n      (0, _util.warn)(\"Invalid font matrix for font \" + fontRefName);\n    }\n    if (size < 0) {\n      size = -size;\n      current.fontDirection = -1;\n    } else {\n      current.fontDirection = 1;\n    }\n    this.current.font = fontObj;\n    this.current.fontSize = size;\n    if (fontObj.isType3Font) {\n      return;\n    }\n    const name = fontObj.loadedName || \"sans-serif\";\n    let bold = \"normal\";\n    if (fontObj.black) {\n      bold = \"900\";\n    } else if (fontObj.bold) {\n      bold = \"bold\";\n    }\n    const italic = fontObj.italic ? \"italic\" : \"normal\";\n    const typeface = `\"${name}\", ${fontObj.fallbackName}`;\n    let browserFontSize = size;\n    if (size < MIN_FONT_SIZE) {\n      browserFontSize = MIN_FONT_SIZE;\n    } else if (size > MAX_FONT_SIZE) {\n      browserFontSize = MAX_FONT_SIZE;\n    }\n    this.current.fontSizeScale = size / browserFontSize;\n    this.ctx.font = `${italic} ${bold} ${browserFontSize}px ${typeface}`;\n  }\n  setTextRenderingMode(mode) {\n    this.current.textRenderingMode = mode;\n  }\n  setTextRise(rise) {\n    this.current.textRise = rise;\n  }\n  moveText(x, y) {\n    this.current.x = this.current.lineX += x;\n    this.current.y = this.current.lineY += y;\n  }\n  setLeadingMoveText(x, y) {\n    this.setLeading(-y);\n    this.moveText(x, y);\n  }\n  setTextMatrix(a, b, c, d, e, f) {\n    this.current.textMatrix = [a, b, c, d, e, f];\n    this.current.textMatrixScale = Math.hypot(a, b);\n    this.current.x = this.current.lineX = 0;\n    this.current.y = this.current.lineY = 0;\n  }\n  nextLine() {\n    this.moveText(0, this.current.leading);\n  }\n  paintChar(character, x, y, patternTransform) {\n    const ctx = this.ctx;\n    const current = this.current;\n    const font = current.font;\n    const textRenderingMode = current.textRenderingMode;\n    const fontSize = current.fontSize / current.fontSizeScale;\n    const fillStrokeMode = textRenderingMode & _util.TextRenderingMode.FILL_STROKE_MASK;\n    const isAddToPathSet = !!(textRenderingMode & _util.TextRenderingMode.ADD_TO_PATH_FLAG);\n    const patternFill = current.patternFill && !font.missingFile;\n    let addToPath;\n    if (font.disableFontFace || isAddToPathSet || patternFill) {\n      addToPath = font.getPathGenerator(this.commonObjs, character);\n    }\n    if (font.disableFontFace || patternFill) {\n      ctx.save();\n      ctx.translate(x, y);\n      ctx.beginPath();\n      addToPath(ctx, fontSize);\n      if (patternTransform) {\n        ctx.setTransform(...patternTransform);\n      }\n      if (fillStrokeMode === _util.TextRenderingMode.FILL || fillStrokeMode === _util.TextRenderingMode.FILL_STROKE) {\n        ctx.fill();\n      }\n      if (fillStrokeMode === _util.TextRenderingMode.STROKE || fillStrokeMode === _util.TextRenderingMode.FILL_STROKE) {\n        ctx.stroke();\n      }\n      ctx.restore();\n    } else {\n      if (fillStrokeMode === _util.TextRenderingMode.FILL || fillStrokeMode === _util.TextRenderingMode.FILL_STROKE) {\n        ctx.fillText(character, x, y);\n      }\n      if (fillStrokeMode === _util.TextRenderingMode.STROKE || fillStrokeMode === _util.TextRenderingMode.FILL_STROKE) {\n        ctx.strokeText(character, x, y);\n      }\n    }\n    if (isAddToPathSet) {\n      const paths = this.pendingTextPaths || (this.pendingTextPaths = []);\n      paths.push({\n        transform: (0, _display_utils.getCurrentTransform)(ctx),\n        x,\n        y,\n        fontSize,\n        addToPath\n      });\n    }\n  }\n  get isFontSubpixelAAEnabled() {\n    const {\n      context: ctx\n    } = this.cachedCanvases.getCanvas(\"isFontSubpixelAAEnabled\", 10, 10);\n    ctx.scale(1.5, 1);\n    ctx.fillText(\"I\", 0, 10);\n    const data = ctx.getImageData(0, 0, 10, 10).data;\n    let enabled = false;\n    for (let i = 3; i < data.length; i += 4) {\n      if (data[i] > 0 && data[i] < 255) {\n        enabled = true;\n        break;\n      }\n    }\n    return (0, _util.shadow)(this, \"isFontSubpixelAAEnabled\", enabled);\n  }\n  showText(glyphs) {\n    const current = this.current;\n    const font = current.font;\n    if (font.isType3Font) {\n      return this.showType3Text(glyphs);\n    }\n    const fontSize = current.fontSize;\n    if (fontSize === 0) {\n      return undefined;\n    }\n    const ctx = this.ctx;\n    const fontSizeScale = current.fontSizeScale;\n    const charSpacing = current.charSpacing;\n    const wordSpacing = current.wordSpacing;\n    const fontDirection = current.fontDirection;\n    const textHScale = current.textHScale * fontDirection;\n    const glyphsLength = glyphs.length;\n    const vertical = font.vertical;\n    const spacingDir = vertical ? 1 : -1;\n    const defaultVMetrics = font.defaultVMetrics;\n    const widthAdvanceScale = fontSize * current.fontMatrix[0];\n    const simpleFillText = current.textRenderingMode === _util.TextRenderingMode.FILL && !font.disableFontFace && !current.patternFill;\n    ctx.save();\n    ctx.transform(...current.textMatrix);\n    ctx.translate(current.x, current.y + current.textRise);\n    if (fontDirection > 0) {\n      ctx.scale(textHScale, -1);\n    } else {\n      ctx.scale(textHScale, 1);\n    }\n    let patternTransform;\n    if (current.patternFill) {\n      ctx.save();\n      const pattern = current.fillColor.getPattern(ctx, this, (0, _display_utils.getCurrentTransformInverse)(ctx), _pattern_helper.PathType.FILL);\n      patternTransform = (0, _display_utils.getCurrentTransform)(ctx);\n      ctx.restore();\n      ctx.fillStyle = pattern;\n    }\n    let lineWidth = current.lineWidth;\n    const scale = current.textMatrixScale;\n    if (scale === 0 || lineWidth === 0) {\n      const fillStrokeMode = current.textRenderingMode & _util.TextRenderingMode.FILL_STROKE_MASK;\n      if (fillStrokeMode === _util.TextRenderingMode.STROKE || fillStrokeMode === _util.TextRenderingMode.FILL_STROKE) {\n        lineWidth = this.getSinglePixelWidth();\n      }\n    } else {\n      lineWidth /= scale;\n    }\n    if (fontSizeScale !== 1.0) {\n      ctx.scale(fontSizeScale, fontSizeScale);\n      lineWidth /= fontSizeScale;\n    }\n    ctx.lineWidth = lineWidth;\n    if (font.isInvalidPDFjsFont) {\n      const chars = [];\n      let width = 0;\n      for (const glyph of glyphs) {\n        chars.push(glyph.unicode);\n        width += glyph.width;\n      }\n      ctx.fillText(chars.join(\"\"), 0, 0);\n      current.x += width * widthAdvanceScale * textHScale;\n      ctx.restore();\n      this.compose();\n      return undefined;\n    }\n    let x = 0,\n      i;\n    for (i = 0; i < glyphsLength; ++i) {\n      const glyph = glyphs[i];\n      if (typeof glyph === \"number\") {\n        x += spacingDir * glyph * fontSize / 1000;\n        continue;\n      }\n      let restoreNeeded = false;\n      const spacing = (glyph.isSpace ? wordSpacing : 0) + charSpacing;\n      const character = glyph.fontChar;\n      const accent = glyph.accent;\n      let scaledX, scaledY;\n      let width = glyph.width;\n      if (vertical) {\n        const vmetric = glyph.vmetric || defaultVMetrics;\n        const vx = -(glyph.vmetric ? vmetric[1] : width * 0.5) * widthAdvanceScale;\n        const vy = vmetric[2] * widthAdvanceScale;\n        width = vmetric ? -vmetric[0] : width;\n        scaledX = vx / fontSizeScale;\n        scaledY = (x + vy) / fontSizeScale;\n      } else {\n        scaledX = x / fontSizeScale;\n        scaledY = 0;\n      }\n      if (font.remeasure && width > 0) {\n        const measuredWidth = ctx.measureText(character).width * 1000 / fontSize * fontSizeScale;\n        if (width < measuredWidth && this.isFontSubpixelAAEnabled) {\n          const characterScaleX = width / measuredWidth;\n          restoreNeeded = true;\n          ctx.save();\n          ctx.scale(characterScaleX, 1);\n          scaledX /= characterScaleX;\n        } else if (width !== measuredWidth) {\n          scaledX += (width - measuredWidth) / 2000 * fontSize / fontSizeScale;\n        }\n      }\n      if (this.contentVisible && (glyph.isInFont || font.missingFile)) {\n        if (simpleFillText && !accent) {\n          ctx.fillText(character, scaledX, scaledY);\n        } else {\n          this.paintChar(character, scaledX, scaledY, patternTransform);\n          if (accent) {\n            const scaledAccentX = scaledX + fontSize * accent.offset.x / fontSizeScale;\n            const scaledAccentY = scaledY - fontSize * accent.offset.y / fontSizeScale;\n            this.paintChar(accent.fontChar, scaledAccentX, scaledAccentY, patternTransform);\n          }\n        }\n      }\n      let charWidth;\n      if (vertical) {\n        charWidth = width * widthAdvanceScale - spacing * fontDirection;\n      } else {\n        charWidth = width * widthAdvanceScale + spacing * fontDirection;\n      }\n      x += charWidth;\n      if (restoreNeeded) {\n        ctx.restore();\n      }\n    }\n    if (vertical) {\n      current.y -= x;\n    } else {\n      current.x += x * textHScale;\n    }\n    ctx.restore();\n    this.compose();\n    return undefined;\n  }\n  showType3Text(glyphs) {\n    const ctx = this.ctx;\n    const current = this.current;\n    const font = current.font;\n    const fontSize = current.fontSize;\n    const fontDirection = current.fontDirection;\n    const spacingDir = font.vertical ? 1 : -1;\n    const charSpacing = current.charSpacing;\n    const wordSpacing = current.wordSpacing;\n    const textHScale = current.textHScale * fontDirection;\n    const fontMatrix = current.fontMatrix || _util.FONT_IDENTITY_MATRIX;\n    const glyphsLength = glyphs.length;\n    const isTextInvisible = current.textRenderingMode === _util.TextRenderingMode.INVISIBLE;\n    let i, glyph, width, spacingLength;\n    if (isTextInvisible || fontSize === 0) {\n      return;\n    }\n    this._cachedScaleForStroking = null;\n    this._cachedGetSinglePixelWidth = null;\n    ctx.save();\n    ctx.transform(...current.textMatrix);\n    ctx.translate(current.x, current.y);\n    ctx.scale(textHScale, fontDirection);\n    for (i = 0; i < glyphsLength; ++i) {\n      glyph = glyphs[i];\n      if (typeof glyph === \"number\") {\n        spacingLength = spacingDir * glyph * fontSize / 1000;\n        this.ctx.translate(spacingLength, 0);\n        current.x += spacingLength * textHScale;\n        continue;\n      }\n      const spacing = (glyph.isSpace ? wordSpacing : 0) + charSpacing;\n      const operatorList = font.charProcOperatorList[glyph.operatorListId];\n      if (!operatorList) {\n        (0, _util.warn)(`Type3 character \"${glyph.operatorListId}\" is not available.`);\n        continue;\n      }\n      if (this.contentVisible) {\n        this.processingType3 = glyph;\n        this.save();\n        ctx.scale(fontSize, fontSize);\n        ctx.transform(...fontMatrix);\n        this.executeOperatorList(operatorList);\n        this.restore();\n      }\n      const transformed = _util.Util.applyTransform([glyph.width, 0], fontMatrix);\n      width = transformed[0] * fontSize + spacing;\n      ctx.translate(width, 0);\n      current.x += width * textHScale;\n    }\n    ctx.restore();\n    this.processingType3 = null;\n  }\n  setCharWidth(xWidth, yWidth) {}\n  setCharWidthAndBounds(xWidth, yWidth, llx, lly, urx, ury) {\n    this.ctx.rect(llx, lly, urx - llx, ury - lly);\n    this.ctx.clip();\n    this.endPath();\n  }\n  getColorN_Pattern(IR) {\n    let pattern;\n    if (IR[0] === \"TilingPattern\") {\n      const color = IR[1];\n      const baseTransform = this.baseTransform || (0, _display_utils.getCurrentTransform)(this.ctx);\n      const canvasGraphicsFactory = {\n        createCanvasGraphics: ctx => {\n          return new CanvasGraphics(ctx, this.commonObjs, this.objs, this.canvasFactory, {\n            optionalContentConfig: this.optionalContentConfig,\n            markedContentStack: this.markedContentStack\n          });\n        }\n      };\n      pattern = new _pattern_helper.TilingPattern(IR, color, this.ctx, canvasGraphicsFactory, baseTransform);\n    } else {\n      pattern = this._getPattern(IR[1], IR[2]);\n    }\n    return pattern;\n  }\n  setStrokeColorN() {\n    this.current.strokeColor = this.getColorN_Pattern(arguments);\n  }\n  setFillColorN() {\n    this.current.fillColor = this.getColorN_Pattern(arguments);\n    this.current.patternFill = true;\n  }\n  setStrokeRGBColor(r, g, b) {\n    const color = this.selectColor?.(r, g, b) || _util.Util.makeHexColor(r, g, b);\n    this.ctx.strokeStyle = color;\n    this.current.strokeColor = color;\n  }\n  setFillRGBColor(r, g, b) {\n    const color = this.selectColor?.(r, g, b) || _util.Util.makeHexColor(r, g, b);\n    this.ctx.fillStyle = color;\n    this.current.fillColor = color;\n    this.current.patternFill = false;\n  }\n  _getPattern(objId, matrix = null) {\n    let pattern;\n    if (this.cachedPatterns.has(objId)) {\n      pattern = this.cachedPatterns.get(objId);\n    } else {\n      pattern = (0, _pattern_helper.getShadingPattern)(this.objs.get(objId));\n      this.cachedPatterns.set(objId, pattern);\n    }\n    if (matrix) {\n      pattern.matrix = matrix;\n    }\n    return pattern;\n  }\n  shadingFill(objId) {\n    if (!this.contentVisible) {\n      return;\n    }\n    const ctx = this.ctx;\n    this.save();\n    const pattern = this._getPattern(objId);\n    ctx.fillStyle = pattern.getPattern(ctx, this, (0, _display_utils.getCurrentTransformInverse)(ctx), _pattern_helper.PathType.SHADING);\n    const inv = (0, _display_utils.getCurrentTransformInverse)(ctx);\n    if (inv) {\n      const canvas = ctx.canvas;\n      const width = canvas.width;\n      const height = canvas.height;\n      const bl = _util.Util.applyTransform([0, 0], inv);\n      const br = _util.Util.applyTransform([0, height], inv);\n      const ul = _util.Util.applyTransform([width, 0], inv);\n      const ur = _util.Util.applyTransform([width, height], inv);\n      const x0 = Math.min(bl[0], br[0], ul[0], ur[0]);\n      const y0 = Math.min(bl[1], br[1], ul[1], ur[1]);\n      const x1 = Math.max(bl[0], br[0], ul[0], ur[0]);\n      const y1 = Math.max(bl[1], br[1], ul[1], ur[1]);\n      this.ctx.fillRect(x0, y0, x1 - x0, y1 - y0);\n    } else {\n      this.ctx.fillRect(-1e10, -1e10, 2e10, 2e10);\n    }\n    this.compose(this.current.getClippedPathBoundingBox());\n    this.restore();\n  }\n  beginInlineImage() {\n    (0, _util.unreachable)(\"Should not call beginInlineImage\");\n  }\n  beginImageData() {\n    (0, _util.unreachable)(\"Should not call beginImageData\");\n  }\n  paintFormXObjectBegin(matrix, bbox) {\n    if (!this.contentVisible) {\n      return;\n    }\n    this.save();\n    this.baseTransformStack.push(this.baseTransform);\n    if (Array.isArray(matrix) && matrix.length === 6) {\n      this.transform(...matrix);\n    }\n    this.baseTransform = (0, _display_utils.getCurrentTransform)(this.ctx);\n    if (bbox) {\n      const width = bbox[2] - bbox[0];\n      const height = bbox[3] - bbox[1];\n      this.ctx.rect(bbox[0], bbox[1], width, height);\n      this.current.updateRectMinMax((0, _display_utils.getCurrentTransform)(this.ctx), bbox);\n      this.clip();\n      this.endPath();\n    }\n  }\n  paintFormXObjectEnd() {\n    if (!this.contentVisible) {\n      return;\n    }\n    this.restore();\n    this.baseTransform = this.baseTransformStack.pop();\n  }\n  beginGroup(group) {\n    if (!this.contentVisible) {\n      return;\n    }\n    this.save();\n    if (this.inSMaskMode) {\n      this.endSMaskMode();\n      this.current.activeSMask = null;\n    }\n    const currentCtx = this.ctx;\n    if (!group.isolated) {\n      (0, _util.info)(\"TODO: Support non-isolated groups.\");\n    }\n    if (group.knockout) {\n      (0, _util.warn)(\"Knockout groups not supported.\");\n    }\n    const currentTransform = (0, _display_utils.getCurrentTransform)(currentCtx);\n    if (group.matrix) {\n      currentCtx.transform(...group.matrix);\n    }\n    if (!group.bbox) {\n      throw new Error(\"Bounding box is required.\");\n    }\n    let bounds = _util.Util.getAxialAlignedBoundingBox(group.bbox, (0, _display_utils.getCurrentTransform)(currentCtx));\n    const canvasBounds = [0, 0, currentCtx.canvas.width, currentCtx.canvas.height];\n    bounds = _util.Util.intersect(bounds, canvasBounds) || [0, 0, 0, 0];\n    const offsetX = Math.floor(bounds[0]);\n    const offsetY = Math.floor(bounds[1]);\n    let drawnWidth = Math.max(Math.ceil(bounds[2]) - offsetX, 1);\n    let drawnHeight = Math.max(Math.ceil(bounds[3]) - offsetY, 1);\n    let scaleX = 1,\n      scaleY = 1;\n    if (drawnWidth > MAX_GROUP_SIZE) {\n      scaleX = drawnWidth / MAX_GROUP_SIZE;\n      drawnWidth = MAX_GROUP_SIZE;\n    }\n    if (drawnHeight > MAX_GROUP_SIZE) {\n      scaleY = drawnHeight / MAX_GROUP_SIZE;\n      drawnHeight = MAX_GROUP_SIZE;\n    }\n    this.current.startNewPathAndClipBox([0, 0, drawnWidth, drawnHeight]);\n    let cacheId = \"groupAt\" + this.groupLevel;\n    if (group.smask) {\n      cacheId += \"_smask_\" + this.smaskCounter++ % 2;\n    }\n    const scratchCanvas = this.cachedCanvases.getCanvas(cacheId, drawnWidth, drawnHeight);\n    const groupCtx = scratchCanvas.context;\n    groupCtx.scale(1 / scaleX, 1 / scaleY);\n    groupCtx.translate(-offsetX, -offsetY);\n    groupCtx.transform(...currentTransform);\n    if (group.smask) {\n      this.smaskStack.push({\n        canvas: scratchCanvas.canvas,\n        context: groupCtx,\n        offsetX,\n        offsetY,\n        scaleX,\n        scaleY,\n        subtype: group.smask.subtype,\n        backdrop: group.smask.backdrop,\n        transferMap: group.smask.transferMap || null,\n        startTransformInverse: null\n      });\n    } else {\n      currentCtx.setTransform(1, 0, 0, 1, 0, 0);\n      currentCtx.translate(offsetX, offsetY);\n      currentCtx.scale(scaleX, scaleY);\n      currentCtx.save();\n    }\n    copyCtxState(currentCtx, groupCtx);\n    this.ctx = groupCtx;\n    this.setGState([[\"BM\", \"source-over\"], [\"ca\", 1], [\"CA\", 1]]);\n    this.groupStack.push(currentCtx);\n    this.groupLevel++;\n  }\n  endGroup(group) {\n    if (!this.contentVisible) {\n      return;\n    }\n    this.groupLevel--;\n    const groupCtx = this.ctx;\n    const ctx = this.groupStack.pop();\n    this.ctx = ctx;\n    this.ctx.imageSmoothingEnabled = false;\n    if (group.smask) {\n      this.tempSMask = this.smaskStack.pop();\n      this.restore();\n    } else {\n      this.ctx.restore();\n      const currentMtx = (0, _display_utils.getCurrentTransform)(this.ctx);\n      this.restore();\n      this.ctx.save();\n      this.ctx.setTransform(...currentMtx);\n      const dirtyBox = _util.Util.getAxialAlignedBoundingBox([0, 0, groupCtx.canvas.width, groupCtx.canvas.height], currentMtx);\n      this.ctx.drawImage(groupCtx.canvas, 0, 0);\n      this.ctx.restore();\n      this.compose(dirtyBox);\n    }\n  }\n  beginAnnotation(id, rect, transform, matrix, hasOwnCanvas) {\n    this.#restoreInitialState();\n    resetCtxToDefault(this.ctx, this.foregroundColor);\n    this.ctx.save();\n    this.save();\n    if (this.baseTransform) {\n      this.ctx.setTransform(...this.baseTransform);\n    }\n    if (Array.isArray(rect) && rect.length === 4) {\n      const width = rect[2] - rect[0];\n      const height = rect[3] - rect[1];\n      if (hasOwnCanvas && this.annotationCanvasMap) {\n        transform = transform.slice();\n        transform[4] -= rect[0];\n        transform[5] -= rect[1];\n        rect = rect.slice();\n        rect[0] = rect[1] = 0;\n        rect[2] = width;\n        rect[3] = height;\n        const [scaleX, scaleY] = _util.Util.singularValueDecompose2dScale((0, _display_utils.getCurrentTransform)(this.ctx));\n        const {\n          viewportScale\n        } = this;\n        const canvasWidth = Math.ceil(width * this.outputScaleX * viewportScale);\n        const canvasHeight = Math.ceil(height * this.outputScaleY * viewportScale);\n        this.annotationCanvas = this.canvasFactory.create(canvasWidth, canvasHeight);\n        const {\n          canvas,\n          context\n        } = this.annotationCanvas;\n        this.annotationCanvasMap.set(id, canvas);\n        this.annotationCanvas.savedCtx = this.ctx;\n        this.ctx = context;\n        this.ctx.setTransform(scaleX, 0, 0, -scaleY, 0, height * scaleY);\n        resetCtxToDefault(this.ctx, this.foregroundColor);\n      } else {\n        resetCtxToDefault(this.ctx, this.foregroundColor);\n        this.ctx.rect(rect[0], rect[1], width, height);\n        this.ctx.clip();\n        this.endPath();\n      }\n    }\n    this.current = new CanvasExtraState(this.ctx.canvas.width, this.ctx.canvas.height);\n    this.transform(...transform);\n    this.transform(...matrix);\n  }\n  endAnnotation() {\n    if (this.annotationCanvas) {\n      this.ctx = this.annotationCanvas.savedCtx;\n      delete this.annotationCanvas.savedCtx;\n      delete this.annotationCanvas;\n    }\n  }\n  paintImageMaskXObject(img) {\n    if (!this.contentVisible) {\n      return;\n    }\n    const count = img.count;\n    img = this.getObject(img.data, img);\n    img.count = count;\n    const ctx = this.ctx;\n    const glyph = this.processingType3;\n    if (glyph) {\n      if (glyph.compiled === undefined) {\n        glyph.compiled = compileType3Glyph(img);\n      }\n      if (glyph.compiled) {\n        glyph.compiled(ctx);\n        return;\n      }\n    }\n    const mask = this._createMaskCanvas(img);\n    const maskCanvas = mask.canvas;\n    ctx.save();\n    ctx.setTransform(1, 0, 0, 1, 0, 0);\n    ctx.drawImage(maskCanvas, mask.offsetX, mask.offsetY);\n    ctx.restore();\n    this.compose();\n  }\n  paintImageMaskXObjectRepeat(img, scaleX, skewX = 0, skewY = 0, scaleY, positions) {\n    if (!this.contentVisible) {\n      return;\n    }\n    img = this.getObject(img.data, img);\n    const ctx = this.ctx;\n    ctx.save();\n    const currentTransform = (0, _display_utils.getCurrentTransform)(ctx);\n    ctx.transform(scaleX, skewX, skewY, scaleY, 0, 0);\n    const mask = this._createMaskCanvas(img);\n    ctx.setTransform(1, 0, 0, 1, mask.offsetX - currentTransform[4], mask.offsetY - currentTransform[5]);\n    for (let i = 0, ii = positions.length; i < ii; i += 2) {\n      const trans = _util.Util.transform(currentTransform, [scaleX, skewX, skewY, scaleY, positions[i], positions[i + 1]]);\n      const [x, y] = _util.Util.applyTransform([0, 0], trans);\n      ctx.drawImage(mask.canvas, x, y);\n    }\n    ctx.restore();\n    this.compose();\n  }\n  paintImageMaskXObjectGroup(images) {\n    if (!this.contentVisible) {\n      return;\n    }\n    const ctx = this.ctx;\n    const fillColor = this.current.fillColor;\n    const isPatternFill = this.current.patternFill;\n    for (const image of images) {\n      const {\n        data,\n        width,\n        height,\n        transform\n      } = image;\n      const maskCanvas = this.cachedCanvases.getCanvas(\"maskCanvas\", width, height);\n      const maskCtx = maskCanvas.context;\n      maskCtx.save();\n      const img = this.getObject(data, image);\n      putBinaryImageMask(maskCtx, img);\n      maskCtx.globalCompositeOperation = \"source-in\";\n      maskCtx.fillStyle = isPatternFill ? fillColor.getPattern(maskCtx, this, (0, _display_utils.getCurrentTransformInverse)(ctx), _pattern_helper.PathType.FILL) : fillColor;\n      maskCtx.fillRect(0, 0, width, height);\n      maskCtx.restore();\n      ctx.save();\n      ctx.transform(...transform);\n      ctx.scale(1, -1);\n      drawImageAtIntegerCoords(ctx, maskCanvas.canvas, 0, 0, width, height, 0, -1, 1, 1);\n      ctx.restore();\n    }\n    this.compose();\n  }\n  paintImageXObject(objId) {\n    if (!this.contentVisible) {\n      return;\n    }\n    const imgData = this.getObject(objId);\n    if (!imgData) {\n      (0, _util.warn)(\"Dependent image isn't ready yet\");\n      return;\n    }\n    this.paintInlineImageXObject(imgData);\n  }\n  paintImageXObjectRepeat(objId, scaleX, scaleY, positions) {\n    if (!this.contentVisible) {\n      return;\n    }\n    const imgData = this.getObject(objId);\n    if (!imgData) {\n      (0, _util.warn)(\"Dependent image isn't ready yet\");\n      return;\n    }\n    const width = imgData.width;\n    const height = imgData.height;\n    const map = [];\n    for (let i = 0, ii = positions.length; i < ii; i += 2) {\n      map.push({\n        transform: [scaleX, 0, 0, scaleY, positions[i], positions[i + 1]],\n        x: 0,\n        y: 0,\n        w: width,\n        h: height\n      });\n    }\n    this.paintInlineImageXObjectGroup(imgData, map);\n  }\n  paintInlineImageXObject(imgData) {\n    if (!this.contentVisible) {\n      return;\n    }\n    const width = imgData.width;\n    const height = imgData.height;\n    const ctx = this.ctx;\n    this.save();\n    ctx.scale(1 / width, -1 / height);\n    let imgToPaint;\n    if (typeof HTMLElement === \"function\" && imgData instanceof HTMLElement || !imgData.data) {\n      imgToPaint = imgData;\n    } else {\n      const tmpCanvas = this.cachedCanvases.getCanvas(\"inlineImage\", width, height);\n      const tmpCtx = tmpCanvas.context;\n      putBinaryImageData(tmpCtx, imgData, this.current.transferMaps);\n      imgToPaint = tmpCanvas.canvas;\n    }\n    const scaled = this._scaleImage(imgToPaint, (0, _display_utils.getCurrentTransformInverse)(ctx));\n    ctx.imageSmoothingEnabled = getImageSmoothingEnabled((0, _display_utils.getCurrentTransform)(ctx), imgData.interpolate);\n    drawImageAtIntegerCoords(ctx, scaled.img, 0, 0, scaled.paintWidth, scaled.paintHeight, 0, -height, width, height);\n    this.compose();\n    this.restore();\n  }\n  paintInlineImageXObjectGroup(imgData, map) {\n    if (!this.contentVisible) {\n      return;\n    }\n    const ctx = this.ctx;\n    const w = imgData.width;\n    const h = imgData.height;\n    const tmpCanvas = this.cachedCanvases.getCanvas(\"inlineImage\", w, h);\n    const tmpCtx = tmpCanvas.context;\n    putBinaryImageData(tmpCtx, imgData, this.current.transferMaps);\n    for (const entry of map) {\n      ctx.save();\n      ctx.transform(...entry.transform);\n      ctx.scale(1, -1);\n      drawImageAtIntegerCoords(ctx, tmpCanvas.canvas, entry.x, entry.y, entry.w, entry.h, 0, -1, 1, 1);\n      ctx.restore();\n    }\n    this.compose();\n  }\n  paintSolidColorImageMask() {\n    if (!this.contentVisible) {\n      return;\n    }\n    this.ctx.fillRect(0, 0, 1, 1);\n    this.compose();\n  }\n  markPoint(tag) {}\n  markPointProps(tag, properties) {}\n  beginMarkedContent(tag) {\n    this.markedContentStack.push({\n      visible: true\n    });\n  }\n  beginMarkedContentProps(tag, properties) {\n    if (tag === \"OC\") {\n      this.markedContentStack.push({\n        visible: this.optionalContentConfig.isVisible(properties)\n      });\n    } else {\n      this.markedContentStack.push({\n        visible: true\n      });\n    }\n    this.contentVisible = this.isContentVisible();\n  }\n  endMarkedContent() {\n    this.markedContentStack.pop();\n    this.contentVisible = this.isContentVisible();\n  }\n  beginCompat() {}\n  endCompat() {}\n  consumePath(clipBox) {\n    const isEmpty = this.current.isEmptyClip();\n    if (this.pendingClip) {\n      this.current.updateClipFromPath();\n    }\n    if (!this.pendingClip) {\n      this.compose(clipBox);\n    }\n    const ctx = this.ctx;\n    if (this.pendingClip) {\n      if (!isEmpty) {\n        if (this.pendingClip === EO_CLIP) {\n          ctx.clip(\"evenodd\");\n        } else {\n          ctx.clip();\n        }\n      }\n      this.pendingClip = null;\n    }\n    this.current.startNewPathAndClipBox(this.current.clipBox);\n    ctx.beginPath();\n  }\n  getSinglePixelWidth() {\n    if (!this._cachedGetSinglePixelWidth) {\n      const m = (0, _display_utils.getCurrentTransform)(this.ctx);\n      if (m[1] === 0 && m[2] === 0) {\n        this._cachedGetSinglePixelWidth = 1 / Math.min(Math.abs(m[0]), Math.abs(m[3]));\n      } else {\n        const absDet = Math.abs(m[0] * m[3] - m[2] * m[1]);\n        const normX = Math.hypot(m[0], m[2]);\n        const normY = Math.hypot(m[1], m[3]);\n        this._cachedGetSinglePixelWidth = Math.max(normX, normY) / absDet;\n      }\n    }\n    return this._cachedGetSinglePixelWidth;\n  }\n  getScaleForStroking() {\n    if (!this._cachedScaleForStroking) {\n      const {\n        lineWidth\n      } = this.current;\n      const m = (0, _display_utils.getCurrentTransform)(this.ctx);\n      let scaleX, scaleY;\n      if (m[1] === 0 && m[2] === 0) {\n        const normX = Math.abs(m[0]);\n        const normY = Math.abs(m[3]);\n        if (lineWidth === 0) {\n          scaleX = 1 / normX;\n          scaleY = 1 / normY;\n        } else {\n          const scaledXLineWidth = normX * lineWidth;\n          const scaledYLineWidth = normY * lineWidth;\n          scaleX = scaledXLineWidth < 1 ? 1 / scaledXLineWidth : 1;\n          scaleY = scaledYLineWidth < 1 ? 1 / scaledYLineWidth : 1;\n        }\n      } else {\n        const absDet = Math.abs(m[0] * m[3] - m[2] * m[1]);\n        const normX = Math.hypot(m[0], m[1]);\n        const normY = Math.hypot(m[2], m[3]);\n        if (lineWidth === 0) {\n          scaleX = normY / absDet;\n          scaleY = normX / absDet;\n        } else {\n          const baseArea = lineWidth * absDet;\n          scaleX = normY > baseArea ? normY / baseArea : 1;\n          scaleY = normX > baseArea ? normX / baseArea : 1;\n        }\n      }\n      this._cachedScaleForStroking = [scaleX, scaleY];\n    }\n    return this._cachedScaleForStroking;\n  }\n  rescaleAndStroke(saveRestore) {\n    const {\n      ctx\n    } = this;\n    const {\n      lineWidth\n    } = this.current;\n    const [scaleX, scaleY] = this.getScaleForStroking();\n    ctx.lineWidth = lineWidth || 1;\n    if (scaleX === 1 && scaleY === 1) {\n      ctx.stroke();\n      return;\n    }\n    let savedMatrix, savedDashes, savedDashOffset;\n    if (saveRestore) {\n      savedMatrix = (0, _display_utils.getCurrentTransform)(ctx);\n      savedDashes = ctx.getLineDash().slice();\n      savedDashOffset = ctx.lineDashOffset;\n    }\n    ctx.scale(scaleX, scaleY);\n    const scale = Math.max(scaleX, scaleY);\n    ctx.setLineDash(ctx.getLineDash().map(x => x / scale));\n    ctx.lineDashOffset /= scale;\n    ctx.stroke();\n    if (saveRestore) {\n      ctx.setTransform(...savedMatrix);\n      ctx.setLineDash(savedDashes);\n      ctx.lineDashOffset = savedDashOffset;\n    }\n  }\n  isContentVisible() {\n    for (let i = this.markedContentStack.length - 1; i >= 0; i--) {\n      if (!this.markedContentStack[i].visible) {\n        return false;\n      }\n    }\n    return true;\n  }\n}\nexports.CanvasGraphics = CanvasGraphics;\nfor (const op in _util.OPS) {\n  if (CanvasGraphics.prototype[op] !== undefined) {\n    CanvasGraphics.prototype[_util.OPS[op]] = CanvasGraphics.prototype[op];\n  }\n}\n\n/***/ }),\n/* 12 */\n/***/ ((__unused_webpack_module, exports, __w_pdfjs_require__) => {\n\n\n\nObject.defineProperty(exports, \"__esModule\", ({\n  value: true\n}));\nexports.TilingPattern = exports.PathType = void 0;\nexports.getShadingPattern = getShadingPattern;\nvar _util = __w_pdfjs_require__(1);\nvar _display_utils = __w_pdfjs_require__(6);\nconst PathType = {\n  FILL: \"Fill\",\n  STROKE: \"Stroke\",\n  SHADING: \"Shading\"\n};\nexports.PathType = PathType;\nfunction applyBoundingBox(ctx, bbox) {\n  if (!bbox) {\n    return;\n  }\n  const width = bbox[2] - bbox[0];\n  const height = bbox[3] - bbox[1];\n  const region = new Path2D();\n  region.rect(bbox[0], bbox[1], width, height);\n  ctx.clip(region);\n}\nclass BaseShadingPattern {\n  constructor() {\n    if (this.constructor === BaseShadingPattern) {\n      (0, _util.unreachable)(\"Cannot initialize BaseShadingPattern.\");\n    }\n  }\n  getPattern() {\n    (0, _util.unreachable)(\"Abstract method `getPattern` called.\");\n  }\n}\nclass RadialAxialShadingPattern extends BaseShadingPattern {\n  constructor(IR) {\n    super();\n    this._type = IR[1];\n    this._bbox = IR[2];\n    this._colorStops = IR[3];\n    this._p0 = IR[4];\n    this._p1 = IR[5];\n    this._r0 = IR[6];\n    this._r1 = IR[7];\n    this.matrix = null;\n  }\n  _createGradient(ctx) {\n    let grad;\n    if (this._type === \"axial\") {\n      grad = ctx.createLinearGradient(this._p0[0], this._p0[1], this._p1[0], this._p1[1]);\n    } else if (this._type === \"radial\") {\n      grad = ctx.createRadialGradient(this._p0[0], this._p0[1], this._r0, this._p1[0], this._p1[1], this._r1);\n    }\n    for (const colorStop of this._colorStops) {\n      grad.addColorStop(colorStop[0], colorStop[1]);\n    }\n    return grad;\n  }\n  getPattern(ctx, owner, inverse, pathType) {\n    let pattern;\n    if (pathType === PathType.STROKE || pathType === PathType.FILL) {\n      const ownerBBox = owner.current.getClippedPathBoundingBox(pathType, (0, _display_utils.getCurrentTransform)(ctx)) || [0, 0, 0, 0];\n      const width = Math.ceil(ownerBBox[2] - ownerBBox[0]) || 1;\n      const height = Math.ceil(ownerBBox[3] - ownerBBox[1]) || 1;\n      const tmpCanvas = owner.cachedCanvases.getCanvas(\"pattern\", width, height, true);\n      const tmpCtx = tmpCanvas.context;\n      tmpCtx.clearRect(0, 0, tmpCtx.canvas.width, tmpCtx.canvas.height);\n      tmpCtx.beginPath();\n      tmpCtx.rect(0, 0, tmpCtx.canvas.width, tmpCtx.canvas.height);\n      tmpCtx.translate(-ownerBBox[0], -ownerBBox[1]);\n      inverse = _util.Util.transform(inverse, [1, 0, 0, 1, ownerBBox[0], ownerBBox[1]]);\n      tmpCtx.transform(...owner.baseTransform);\n      if (this.matrix) {\n        tmpCtx.transform(...this.matrix);\n      }\n      applyBoundingBox(tmpCtx, this._bbox);\n      tmpCtx.fillStyle = this._createGradient(tmpCtx);\n      tmpCtx.fill();\n      pattern = ctx.createPattern(tmpCanvas.canvas, \"no-repeat\");\n      const domMatrix = new DOMMatrix(inverse);\n      pattern.setTransform(domMatrix);\n    } else {\n      applyBoundingBox(ctx, this._bbox);\n      pattern = this._createGradient(ctx);\n    }\n    return pattern;\n  }\n}\nfunction drawTriangle(data, context, p1, p2, p3, c1, c2, c3) {\n  const coords = context.coords,\n    colors = context.colors;\n  const bytes = data.data,\n    rowSize = data.width * 4;\n  let tmp;\n  if (coords[p1 + 1] > coords[p2 + 1]) {\n    tmp = p1;\n    p1 = p2;\n    p2 = tmp;\n    tmp = c1;\n    c1 = c2;\n    c2 = tmp;\n  }\n  if (coords[p2 + 1] > coords[p3 + 1]) {\n    tmp = p2;\n    p2 = p3;\n    p3 = tmp;\n    tmp = c2;\n    c2 = c3;\n    c3 = tmp;\n  }\n  if (coords[p1 + 1] > coords[p2 + 1]) {\n    tmp = p1;\n    p1 = p2;\n    p2 = tmp;\n    tmp = c1;\n    c1 = c2;\n    c2 = tmp;\n  }\n  const x1 = (coords[p1] + context.offsetX) * context.scaleX;\n  const y1 = (coords[p1 + 1] + context.offsetY) * context.scaleY;\n  const x2 = (coords[p2] + context.offsetX) * context.scaleX;\n  const y2 = (coords[p2 + 1] + context.offsetY) * context.scaleY;\n  const x3 = (coords[p3] + context.offsetX) * context.scaleX;\n  const y3 = (coords[p3 + 1] + context.offsetY) * context.scaleY;\n  if (y1 >= y3) {\n    return;\n  }\n  const c1r = colors[c1],\n    c1g = colors[c1 + 1],\n    c1b = colors[c1 + 2];\n  const c2r = colors[c2],\n    c2g = colors[c2 + 1],\n    c2b = colors[c2 + 2];\n  const c3r = colors[c3],\n    c3g = colors[c3 + 1],\n    c3b = colors[c3 + 2];\n  const minY = Math.round(y1),\n    maxY = Math.round(y3);\n  let xa, car, cag, cab;\n  let xb, cbr, cbg, cbb;\n  for (let y = minY; y <= maxY; y++) {\n    if (y < y2) {\n      let k;\n      if (y < y1) {\n        k = 0;\n      } else {\n        k = (y1 - y) / (y1 - y2);\n      }\n      xa = x1 - (x1 - x2) * k;\n      car = c1r - (c1r - c2r) * k;\n      cag = c1g - (c1g - c2g) * k;\n      cab = c1b - (c1b - c2b) * k;\n    } else {\n      let k;\n      if (y > y3) {\n        k = 1;\n      } else if (y2 === y3) {\n        k = 0;\n      } else {\n        k = (y2 - y) / (y2 - y3);\n      }\n      xa = x2 - (x2 - x3) * k;\n      car = c2r - (c2r - c3r) * k;\n      cag = c2g - (c2g - c3g) * k;\n      cab = c2b - (c2b - c3b) * k;\n    }\n    let k;\n    if (y < y1) {\n      k = 0;\n    } else if (y > y3) {\n      k = 1;\n    } else {\n      k = (y1 - y) / (y1 - y3);\n    }\n    xb = x1 - (x1 - x3) * k;\n    cbr = c1r - (c1r - c3r) * k;\n    cbg = c1g - (c1g - c3g) * k;\n    cbb = c1b - (c1b - c3b) * k;\n    const x1_ = Math.round(Math.min(xa, xb));\n    const x2_ = Math.round(Math.max(xa, xb));\n    let j = rowSize * y + x1_ * 4;\n    for (let x = x1_; x <= x2_; x++) {\n      k = (xa - x) / (xa - xb);\n      if (k < 0) {\n        k = 0;\n      } else if (k > 1) {\n        k = 1;\n      }\n      bytes[j++] = car - (car - cbr) * k | 0;\n      bytes[j++] = cag - (cag - cbg) * k | 0;\n      bytes[j++] = cab - (cab - cbb) * k | 0;\n      bytes[j++] = 255;\n    }\n  }\n}\nfunction drawFigure(data, figure, context) {\n  const ps = figure.coords;\n  const cs = figure.colors;\n  let i, ii;\n  switch (figure.type) {\n    case \"lattice\":\n      const verticesPerRow = figure.verticesPerRow;\n      const rows = Math.floor(ps.length / verticesPerRow) - 1;\n      const cols = verticesPerRow - 1;\n      for (i = 0; i < rows; i++) {\n        let q = i * verticesPerRow;\n        for (let j = 0; j < cols; j++, q++) {\n          drawTriangle(data, context, ps[q], ps[q + 1], ps[q + verticesPerRow], cs[q], cs[q + 1], cs[q + verticesPerRow]);\n          drawTriangle(data, context, ps[q + verticesPerRow + 1], ps[q + 1], ps[q + verticesPerRow], cs[q + verticesPerRow + 1], cs[q + 1], cs[q + verticesPerRow]);\n        }\n      }\n      break;\n    case \"triangles\":\n      for (i = 0, ii = ps.length; i < ii; i += 3) {\n        drawTriangle(data, context, ps[i], ps[i + 1], ps[i + 2], cs[i], cs[i + 1], cs[i + 2]);\n      }\n      break;\n    default:\n      throw new Error(\"illegal figure\");\n  }\n}\nclass MeshShadingPattern extends BaseShadingPattern {\n  constructor(IR) {\n    super();\n    this._coords = IR[2];\n    this._colors = IR[3];\n    this._figures = IR[4];\n    this._bounds = IR[5];\n    this._bbox = IR[7];\n    this._background = IR[8];\n    this.matrix = null;\n  }\n  _createMeshCanvas(combinedScale, backgroundColor, cachedCanvases) {\n    const EXPECTED_SCALE = 1.1;\n    const MAX_PATTERN_SIZE = 3000;\n    const BORDER_SIZE = 2;\n    const offsetX = Math.floor(this._bounds[0]);\n    const offsetY = Math.floor(this._bounds[1]);\n    const boundsWidth = Math.ceil(this._bounds[2]) - offsetX;\n    const boundsHeight = Math.ceil(this._bounds[3]) - offsetY;\n    const width = Math.min(Math.ceil(Math.abs(boundsWidth * combinedScale[0] * EXPECTED_SCALE)), MAX_PATTERN_SIZE);\n    const height = Math.min(Math.ceil(Math.abs(boundsHeight * combinedScale[1] * EXPECTED_SCALE)), MAX_PATTERN_SIZE);\n    const scaleX = boundsWidth / width;\n    const scaleY = boundsHeight / height;\n    const context = {\n      coords: this._coords,\n      colors: this._colors,\n      offsetX: -offsetX,\n      offsetY: -offsetY,\n      scaleX: 1 / scaleX,\n      scaleY: 1 / scaleY\n    };\n    const paddedWidth = width + BORDER_SIZE * 2;\n    const paddedHeight = height + BORDER_SIZE * 2;\n    const tmpCanvas = cachedCanvases.getCanvas(\"mesh\", paddedWidth, paddedHeight, false);\n    const tmpCtx = tmpCanvas.context;\n    const data = tmpCtx.createImageData(width, height);\n    if (backgroundColor) {\n      const bytes = data.data;\n      for (let i = 0, ii = bytes.length; i < ii; i += 4) {\n        bytes[i] = backgroundColor[0];\n        bytes[i + 1] = backgroundColor[1];\n        bytes[i + 2] = backgroundColor[2];\n        bytes[i + 3] = 255;\n      }\n    }\n    for (const figure of this._figures) {\n      drawFigure(data, figure, context);\n    }\n    tmpCtx.putImageData(data, BORDER_SIZE, BORDER_SIZE);\n    const canvas = tmpCanvas.canvas;\n    return {\n      canvas,\n      offsetX: offsetX - BORDER_SIZE * scaleX,\n      offsetY: offsetY - BORDER_SIZE * scaleY,\n      scaleX,\n      scaleY\n    };\n  }\n  getPattern(ctx, owner, inverse, pathType) {\n    applyBoundingBox(ctx, this._bbox);\n    let scale;\n    if (pathType === PathType.SHADING) {\n      scale = _util.Util.singularValueDecompose2dScale((0, _display_utils.getCurrentTransform)(ctx));\n    } else {\n      scale = _util.Util.singularValueDecompose2dScale(owner.baseTransform);\n      if (this.matrix) {\n        const matrixScale = _util.Util.singularValueDecompose2dScale(this.matrix);\n        scale = [scale[0] * matrixScale[0], scale[1] * matrixScale[1]];\n      }\n    }\n    const temporaryPatternCanvas = this._createMeshCanvas(scale, pathType === PathType.SHADING ? null : this._background, owner.cachedCanvases);\n    if (pathType !== PathType.SHADING) {\n      ctx.setTransform(...owner.baseTransform);\n      if (this.matrix) {\n        ctx.transform(...this.matrix);\n      }\n    }\n    ctx.translate(temporaryPatternCanvas.offsetX, temporaryPatternCanvas.offsetY);\n    ctx.scale(temporaryPatternCanvas.scaleX, temporaryPatternCanvas.scaleY);\n    return ctx.createPattern(temporaryPatternCanvas.canvas, \"no-repeat\");\n  }\n}\nclass DummyShadingPattern extends BaseShadingPattern {\n  getPattern() {\n    return \"hotpink\";\n  }\n}\nfunction getShadingPattern(IR) {\n  switch (IR[0]) {\n    case \"RadialAxial\":\n      return new RadialAxialShadingPattern(IR);\n    case \"Mesh\":\n      return new MeshShadingPattern(IR);\n    case \"Dummy\":\n      return new DummyShadingPattern();\n  }\n  throw new Error(`Unknown IR type: ${IR[0]}`);\n}\nconst PaintType = {\n  COLORED: 1,\n  UNCOLORED: 2\n};\nclass TilingPattern {\n  static get MAX_PATTERN_SIZE() {\n    return (0, _util.shadow)(this, \"MAX_PATTERN_SIZE\", 3000);\n  }\n  constructor(IR, color, ctx, canvasGraphicsFactory, baseTransform) {\n    this.operatorList = IR[2];\n    this.matrix = IR[3] || [1, 0, 0, 1, 0, 0];\n    this.bbox = IR[4];\n    this.xstep = IR[5];\n    this.ystep = IR[6];\n    this.paintType = IR[7];\n    this.tilingType = IR[8];\n    this.color = color;\n    this.ctx = ctx;\n    this.canvasGraphicsFactory = canvasGraphicsFactory;\n    this.baseTransform = baseTransform;\n  }\n  createPatternCanvas(owner) {\n    const operatorList = this.operatorList;\n    const bbox = this.bbox;\n    const xstep = this.xstep;\n    const ystep = this.ystep;\n    const paintType = this.paintType;\n    const tilingType = this.tilingType;\n    const color = this.color;\n    const canvasGraphicsFactory = this.canvasGraphicsFactory;\n    (0, _util.info)(\"TilingType: \" + tilingType);\n    const x0 = bbox[0],\n      y0 = bbox[1],\n      x1 = bbox[2],\n      y1 = bbox[3];\n    const matrixScale = _util.Util.singularValueDecompose2dScale(this.matrix);\n    const curMatrixScale = _util.Util.singularValueDecompose2dScale(this.baseTransform);\n    const combinedScale = [matrixScale[0] * curMatrixScale[0], matrixScale[1] * curMatrixScale[1]];\n    const dimx = this.getSizeAndScale(xstep, this.ctx.canvas.width, combinedScale[0]);\n    const dimy = this.getSizeAndScale(ystep, this.ctx.canvas.height, combinedScale[1]);\n    const tmpCanvas = owner.cachedCanvases.getCanvas(\"pattern\", dimx.size, dimy.size, true);\n    const tmpCtx = tmpCanvas.context;\n    const graphics = canvasGraphicsFactory.createCanvasGraphics(tmpCtx);\n    graphics.groupLevel = owner.groupLevel;\n    this.setFillAndStrokeStyleToContext(graphics, paintType, color);\n    let adjustedX0 = x0;\n    let adjustedY0 = y0;\n    let adjustedX1 = x1;\n    let adjustedY1 = y1;\n    if (x0 < 0) {\n      adjustedX0 = 0;\n      adjustedX1 += Math.abs(x0);\n    }\n    if (y0 < 0) {\n      adjustedY0 = 0;\n      adjustedY1 += Math.abs(y0);\n    }\n    tmpCtx.translate(-(dimx.scale * adjustedX0), -(dimy.scale * adjustedY0));\n    graphics.transform(dimx.scale, 0, 0, dimy.scale, 0, 0);\n    tmpCtx.save();\n    this.clipBbox(graphics, adjustedX0, adjustedY0, adjustedX1, adjustedY1);\n    graphics.baseTransform = (0, _display_utils.getCurrentTransform)(graphics.ctx);\n    graphics.executeOperatorList(operatorList);\n    graphics.endDrawing();\n    return {\n      canvas: tmpCanvas.canvas,\n      scaleX: dimx.scale,\n      scaleY: dimy.scale,\n      offsetX: adjustedX0,\n      offsetY: adjustedY0\n    };\n  }\n  getSizeAndScale(step, realOutputSize, scale) {\n    step = Math.abs(step);\n    const maxSize = Math.max(TilingPattern.MAX_PATTERN_SIZE, realOutputSize);\n    let size = Math.ceil(step * scale);\n    if (size >= maxSize) {\n      size = maxSize;\n    } else {\n      scale = size / step;\n    }\n    return {\n      scale,\n      size\n    };\n  }\n  clipBbox(graphics, x0, y0, x1, y1) {\n    const bboxWidth = x1 - x0;\n    const bboxHeight = y1 - y0;\n    graphics.ctx.rect(x0, y0, bboxWidth, bboxHeight);\n    graphics.current.updateRectMinMax((0, _display_utils.getCurrentTransform)(graphics.ctx), [x0, y0, x1, y1]);\n    graphics.clip();\n    graphics.endPath();\n  }\n  setFillAndStrokeStyleToContext(graphics, paintType, color) {\n    const context = graphics.ctx,\n      current = graphics.current;\n    switch (paintType) {\n      case PaintType.COLORED:\n        const ctx = this.ctx;\n        context.fillStyle = ctx.fillStyle;\n        context.strokeStyle = ctx.strokeStyle;\n        current.fillColor = ctx.fillStyle;\n        current.strokeColor = ctx.strokeStyle;\n        break;\n      case PaintType.UNCOLORED:\n        const cssColor = _util.Util.makeHexColor(color[0], color[1], color[2]);\n        context.fillStyle = cssColor;\n        context.strokeStyle = cssColor;\n        current.fillColor = cssColor;\n        current.strokeColor = cssColor;\n        break;\n      default:\n        throw new _util.FormatError(`Unsupported paint type: ${paintType}`);\n    }\n  }\n  getPattern(ctx, owner, inverse, pathType) {\n    let matrix = inverse;\n    if (pathType !== PathType.SHADING) {\n      matrix = _util.Util.transform(matrix, owner.baseTransform);\n      if (this.matrix) {\n        matrix = _util.Util.transform(matrix, this.matrix);\n      }\n    }\n    const temporaryPatternCanvas = this.createPatternCanvas(owner);\n    let domMatrix = new DOMMatrix(matrix);\n    domMatrix = domMatrix.translate(temporaryPatternCanvas.offsetX, temporaryPatternCanvas.offsetY);\n    domMatrix = domMatrix.scale(1 / temporaryPatternCanvas.scaleX, 1 / temporaryPatternCanvas.scaleY);\n    const pattern = ctx.createPattern(temporaryPatternCanvas.canvas, \"repeat\");\n    pattern.setTransform(domMatrix);\n    return pattern;\n  }\n}\nexports.TilingPattern = TilingPattern;\n\n/***/ }),\n/* 13 */\n/***/ ((__unused_webpack_module, exports, __w_pdfjs_require__) => {\n\n\n\nObject.defineProperty(exports, \"__esModule\", ({\n  value: true\n}));\nexports.applyMaskImageData = applyMaskImageData;\nvar _util = __w_pdfjs_require__(1);\nfunction applyMaskImageData({\n  src,\n  srcPos = 0,\n  dest,\n  destPos = 0,\n  width,\n  height,\n  inverseDecode = false\n}) {\n  const opaque = _util.FeatureTest.isLittleEndian ? 0xff000000 : 0x000000ff;\n  const [zeroMapping, oneMapping] = !inverseDecode ? [opaque, 0] : [0, opaque];\n  const widthInSource = width >> 3;\n  const widthRemainder = width & 7;\n  const srcLength = src.length;\n  dest = new Uint32Array(dest.buffer);\n  for (let i = 0; i < height; i++) {\n    for (const max = srcPos + widthInSource; srcPos < max; srcPos++) {\n      const elem = srcPos < srcLength ? src[srcPos] : 255;\n      dest[destPos++] = elem & 0b10000000 ? oneMapping : zeroMapping;\n      dest[destPos++] = elem & 0b1000000 ? oneMapping : zeroMapping;\n      dest[destPos++] = elem & 0b100000 ? oneMapping : zeroMapping;\n      dest[destPos++] = elem & 0b10000 ? oneMapping : zeroMapping;\n      dest[destPos++] = elem & 0b1000 ? oneMapping : zeroMapping;\n      dest[destPos++] = elem & 0b100 ? oneMapping : zeroMapping;\n      dest[destPos++] = elem & 0b10 ? oneMapping : zeroMapping;\n      dest[destPos++] = elem & 0b1 ? oneMapping : zeroMapping;\n    }\n    if (widthRemainder === 0) {\n      continue;\n    }\n    const elem = srcPos < srcLength ? src[srcPos++] : 255;\n    for (let j = 0; j < widthRemainder; j++) {\n      dest[destPos++] = elem & 1 << 7 - j ? oneMapping : zeroMapping;\n    }\n  }\n  return {\n    srcPos,\n    destPos\n  };\n}\n\n/***/ }),\n/* 14 */\n/***/ ((__unused_webpack_module, exports) => {\n\n\n\nObject.defineProperty(exports, \"__esModule\", ({\n  value: true\n}));\nexports.GlobalWorkerOptions = void 0;\nconst GlobalWorkerOptions = Object.create(null);\nexports.GlobalWorkerOptions = GlobalWorkerOptions;\nGlobalWorkerOptions.workerPort = null;\nGlobalWorkerOptions.workerSrc = \"\";\n\n/***/ }),\n/* 15 */\n/***/ ((__unused_webpack_module, exports, __w_pdfjs_require__) => {\n\n\n\nObject.defineProperty(exports, \"__esModule\", ({\n  value: true\n}));\nexports.MessageHandler = void 0;\nvar _util = __w_pdfjs_require__(1);\nconst CallbackKind = {\n  UNKNOWN: 0,\n  DATA: 1,\n  ERROR: 2\n};\nconst StreamKind = {\n  UNKNOWN: 0,\n  CANCEL: 1,\n  CANCEL_COMPLETE: 2,\n  CLOSE: 3,\n  ENQUEUE: 4,\n  ERROR: 5,\n  PULL: 6,\n  PULL_COMPLETE: 7,\n  START_COMPLETE: 8\n};\nfunction wrapReason(reason) {\n  if (!(reason instanceof Error || typeof reason === \"object\" && reason !== null)) {\n    (0, _util.unreachable)('wrapReason: Expected \"reason\" to be a (possibly cloned) Error.');\n  }\n  switch (reason.name) {\n    case \"AbortException\":\n      return new _util.AbortException(reason.message);\n    case \"MissingPDFException\":\n      return new _util.MissingPDFException(reason.message);\n    case \"PasswordException\":\n      return new _util.PasswordException(reason.message, reason.code);\n    case \"UnexpectedResponseException\":\n      return new _util.UnexpectedResponseException(reason.message, reason.status);\n    case \"UnknownErrorException\":\n      return new _util.UnknownErrorException(reason.message, reason.details);\n    default:\n      return new _util.UnknownErrorException(reason.message, reason.toString());\n  }\n}\nclass MessageHandler {\n  constructor(sourceName, targetName, comObj) {\n    this.sourceName = sourceName;\n    this.targetName = targetName;\n    this.comObj = comObj;\n    this.callbackId = 1;\n    this.streamId = 1;\n    this.streamSinks = Object.create(null);\n    this.streamControllers = Object.create(null);\n    this.callbackCapabilities = Object.create(null);\n    this.actionHandler = Object.create(null);\n    this._onComObjOnMessage = event => {\n      const data = event.data;\n      if (data.targetName !== this.sourceName) {\n        return;\n      }\n      if (data.stream) {\n        this._processStreamMessage(data);\n        return;\n      }\n      if (data.callback) {\n        const callbackId = data.callbackId;\n        const capability = this.callbackCapabilities[callbackId];\n        if (!capability) {\n          throw new Error(`Cannot resolve callback ${callbackId}`);\n        }\n        delete this.callbackCapabilities[callbackId];\n        if (data.callback === CallbackKind.DATA) {\n          capability.resolve(data.data);\n        } else if (data.callback === CallbackKind.ERROR) {\n          capability.reject(wrapReason(data.reason));\n        } else {\n          throw new Error(\"Unexpected callback case\");\n        }\n        return;\n      }\n      const action = this.actionHandler[data.action];\n      if (!action) {\n        throw new Error(`Unknown action from worker: ${data.action}`);\n      }\n      if (data.callbackId) {\n        const cbSourceName = this.sourceName;\n        const cbTargetName = data.sourceName;\n        new Promise(function (resolve) {\n          resolve(action(data.data));\n        }).then(function (result) {\n          comObj.postMessage({\n            sourceName: cbSourceName,\n            targetName: cbTargetName,\n            callback: CallbackKind.DATA,\n            callbackId: data.callbackId,\n            data: result\n          });\n        }, function (reason) {\n          comObj.postMessage({\n            sourceName: cbSourceName,\n            targetName: cbTargetName,\n            callback: CallbackKind.ERROR,\n            callbackId: data.callbackId,\n            reason: wrapReason(reason)\n          });\n        });\n        return;\n      }\n      if (data.streamId) {\n        this._createStreamSink(data);\n        return;\n      }\n      action(data.data);\n    };\n    comObj.addEventListener(\"message\", this._onComObjOnMessage);\n  }\n  on(actionName, handler) {\n    const ah = this.actionHandler;\n    if (ah[actionName]) {\n      throw new Error(`There is already an actionName called \"${actionName}\"`);\n    }\n    ah[actionName] = handler;\n  }\n  send(actionName, data, transfers) {\n    this.comObj.postMessage({\n      sourceName: this.sourceName,\n      targetName: this.targetName,\n      action: actionName,\n      data\n    }, transfers);\n  }\n  sendWithPromise(actionName, data, transfers) {\n    const callbackId = this.callbackId++;\n    const capability = (0, _util.createPromiseCapability)();\n    this.callbackCapabilities[callbackId] = capability;\n    try {\n      this.comObj.postMessage({\n        sourceName: this.sourceName,\n        targetName: this.targetName,\n        action: actionName,\n        callbackId,\n        data\n      }, transfers);\n    } catch (ex) {\n      capability.reject(ex);\n    }\n    return capability.promise;\n  }\n  sendWithStream(actionName, data, queueingStrategy, transfers) {\n    const streamId = this.streamId++,\n      sourceName = this.sourceName,\n      targetName = this.targetName,\n      comObj = this.comObj;\n    return new ReadableStream({\n      start: controller => {\n        const startCapability = (0, _util.createPromiseCapability)();\n        this.streamControllers[streamId] = {\n          controller,\n          startCall: startCapability,\n          pullCall: null,\n          cancelCall: null,\n          isClosed: false\n        };\n        comObj.postMessage({\n          sourceName,\n          targetName,\n          action: actionName,\n          streamId,\n          data,\n          desiredSize: controller.desiredSize\n        }, transfers);\n        return startCapability.promise;\n      },\n      pull: controller => {\n        const pullCapability = (0, _util.createPromiseCapability)();\n        this.streamControllers[streamId].pullCall = pullCapability;\n        comObj.postMessage({\n          sourceName,\n          targetName,\n          stream: StreamKind.PULL,\n          streamId,\n          desiredSize: controller.desiredSize\n        });\n        return pullCapability.promise;\n      },\n      cancel: reason => {\n        (0, _util.assert)(reason instanceof Error, \"cancel must have a valid reason\");\n        const cancelCapability = (0, _util.createPromiseCapability)();\n        this.streamControllers[streamId].cancelCall = cancelCapability;\n        this.streamControllers[streamId].isClosed = true;\n        comObj.postMessage({\n          sourceName,\n          targetName,\n          stream: StreamKind.CANCEL,\n          streamId,\n          reason: wrapReason(reason)\n        });\n        return cancelCapability.promise;\n      }\n    }, queueingStrategy);\n  }\n  _createStreamSink(data) {\n    const streamId = data.streamId,\n      sourceName = this.sourceName,\n      targetName = data.sourceName,\n      comObj = this.comObj;\n    const self = this,\n      action = this.actionHandler[data.action];\n    const streamSink = {\n      enqueue(chunk, size = 1, transfers) {\n        if (this.isCancelled) {\n          return;\n        }\n        const lastDesiredSize = this.desiredSize;\n        this.desiredSize -= size;\n        if (lastDesiredSize > 0 && this.desiredSize <= 0) {\n          this.sinkCapability = (0, _util.createPromiseCapability)();\n          this.ready = this.sinkCapability.promise;\n        }\n        comObj.postMessage({\n          sourceName,\n          targetName,\n          stream: StreamKind.ENQUEUE,\n          streamId,\n          chunk\n        }, transfers);\n      },\n      close() {\n        if (this.isCancelled) {\n          return;\n        }\n        this.isCancelled = true;\n        comObj.postMessage({\n          sourceName,\n          targetName,\n          stream: StreamKind.CLOSE,\n          streamId\n        });\n        delete self.streamSinks[streamId];\n      },\n      error(reason) {\n        (0, _util.assert)(reason instanceof Error, \"error must have a valid reason\");\n        if (this.isCancelled) {\n          return;\n        }\n        this.isCancelled = true;\n        comObj.postMessage({\n          sourceName,\n          targetName,\n          stream: StreamKind.ERROR,\n          streamId,\n          reason: wrapReason(reason)\n        });\n      },\n      sinkCapability: (0, _util.createPromiseCapability)(),\n      onPull: null,\n      onCancel: null,\n      isCancelled: false,\n      desiredSize: data.desiredSize,\n      ready: null\n    };\n    streamSink.sinkCapability.resolve();\n    streamSink.ready = streamSink.sinkCapability.promise;\n    this.streamSinks[streamId] = streamSink;\n    new Promise(function (resolve) {\n      resolve(action(data.data, streamSink));\n    }).then(function () {\n      comObj.postMessage({\n        sourceName,\n        targetName,\n        stream: StreamKind.START_COMPLETE,\n        streamId,\n        success: true\n      });\n    }, function (reason) {\n      comObj.postMessage({\n        sourceName,\n        targetName,\n        stream: StreamKind.START_COMPLETE,\n        streamId,\n        reason: wrapReason(reason)\n      });\n    });\n  }\n  _processStreamMessage(data) {\n    const streamId = data.streamId,\n      sourceName = this.sourceName,\n      targetName = data.sourceName,\n      comObj = this.comObj;\n    const streamController = this.streamControllers[streamId],\n      streamSink = this.streamSinks[streamId];\n    switch (data.stream) {\n      case StreamKind.START_COMPLETE:\n        if (data.success) {\n          streamController.startCall.resolve();\n        } else {\n          streamController.startCall.reject(wrapReason(data.reason));\n        }\n        break;\n      case StreamKind.PULL_COMPLETE:\n        if (data.success) {\n          streamController.pullCall.resolve();\n        } else {\n          streamController.pullCall.reject(wrapReason(data.reason));\n        }\n        break;\n      case StreamKind.PULL:\n        if (!streamSink) {\n          comObj.postMessage({\n            sourceName,\n            targetName,\n            stream: StreamKind.PULL_COMPLETE,\n            streamId,\n            success: true\n          });\n          break;\n        }\n        if (streamSink.desiredSize <= 0 && data.desiredSize > 0) {\n          streamSink.sinkCapability.resolve();\n        }\n        streamSink.desiredSize = data.desiredSize;\n        new Promise(function (resolve) {\n          resolve(streamSink.onPull && streamSink.onPull());\n        }).then(function () {\n          comObj.postMessage({\n            sourceName,\n            targetName,\n            stream: StreamKind.PULL_COMPLETE,\n            streamId,\n            success: true\n          });\n        }, function (reason) {\n          comObj.postMessage({\n            sourceName,\n            targetName,\n            stream: StreamKind.PULL_COMPLETE,\n            streamId,\n            reason: wrapReason(reason)\n          });\n        });\n        break;\n      case StreamKind.ENQUEUE:\n        (0, _util.assert)(streamController, \"enqueue should have stream controller\");\n        if (streamController.isClosed) {\n          break;\n        }\n        streamController.controller.enqueue(data.chunk);\n        break;\n      case StreamKind.CLOSE:\n        (0, _util.assert)(streamController, \"close should have stream controller\");\n        if (streamController.isClosed) {\n          break;\n        }\n        streamController.isClosed = true;\n        streamController.controller.close();\n        this._deleteStreamController(streamController, streamId);\n        break;\n      case StreamKind.ERROR:\n        (0, _util.assert)(streamController, \"error should have stream controller\");\n        streamController.controller.error(wrapReason(data.reason));\n        this._deleteStreamController(streamController, streamId);\n        break;\n      case StreamKind.CANCEL_COMPLETE:\n        if (data.success) {\n          streamController.cancelCall.resolve();\n        } else {\n          streamController.cancelCall.reject(wrapReason(data.reason));\n        }\n        this._deleteStreamController(streamController, streamId);\n        break;\n      case StreamKind.CANCEL:\n        if (!streamSink) {\n          break;\n        }\n        new Promise(function (resolve) {\n          resolve(streamSink.onCancel && streamSink.onCancel(wrapReason(data.reason)));\n        }).then(function () {\n          comObj.postMessage({\n            sourceName,\n            targetName,\n            stream: StreamKind.CANCEL_COMPLETE,\n            streamId,\n            success: true\n          });\n        }, function (reason) {\n          comObj.postMessage({\n            sourceName,\n            targetName,\n            stream: StreamKind.CANCEL_COMPLETE,\n            streamId,\n            reason: wrapReason(reason)\n          });\n        });\n        streamSink.sinkCapability.reject(wrapReason(data.reason));\n        streamSink.isCancelled = true;\n        delete this.streamSinks[streamId];\n        break;\n      default:\n        throw new Error(\"Unexpected stream case\");\n    }\n  }\n  async _deleteStreamController(streamController, streamId) {\n    await Promise.allSettled([streamController.startCall && streamController.startCall.promise, streamController.pullCall && streamController.pullCall.promise, streamController.cancelCall && streamController.cancelCall.promise]);\n    delete this.streamControllers[streamId];\n  }\n  destroy() {\n    this.comObj.removeEventListener(\"message\", this._onComObjOnMessage);\n  }\n}\nexports.MessageHandler = MessageHandler;\n\n/***/ }),\n/* 16 */\n/***/ ((__unused_webpack_module, exports, __w_pdfjs_require__) => {\n\n\n\nObject.defineProperty(exports, \"__esModule\", ({\n  value: true\n}));\nexports.Metadata = void 0;\nvar _util = __w_pdfjs_require__(1);\nclass Metadata {\n  #metadataMap;\n  #data;\n  constructor({\n    parsedData,\n    rawData\n  }) {\n    this.#metadataMap = parsedData;\n    this.#data = rawData;\n  }\n  getRaw() {\n    return this.#data;\n  }\n  get(name) {\n    return this.#metadataMap.get(name) ?? null;\n  }\n  getAll() {\n    return (0, _util.objectFromMap)(this.#metadataMap);\n  }\n  has(name) {\n    return this.#metadataMap.has(name);\n  }\n}\nexports.Metadata = Metadata;\n\n/***/ }),\n/* 17 */\n/***/ ((__unused_webpack_module, exports, __w_pdfjs_require__) => {\n\n\n\nObject.defineProperty(exports, \"__esModule\", ({\n  value: true\n}));\nexports.OptionalContentConfig = void 0;\nvar _util = __w_pdfjs_require__(1);\nvar _murmurhash = __w_pdfjs_require__(8);\nconst INTERNAL = Symbol(\"INTERNAL\");\nclass OptionalContentGroup {\n  #visible = true;\n  constructor(name, intent) {\n    this.name = name;\n    this.intent = intent;\n  }\n  get visible() {\n    return this.#visible;\n  }\n  _setVisible(internal, visible) {\n    if (internal !== INTERNAL) {\n      (0, _util.unreachable)(\"Internal method `_setVisible` called.\");\n    }\n    this.#visible = visible;\n  }\n}\nclass OptionalContentConfig {\n  #cachedGetHash = null;\n  #groups = new Map();\n  #initialHash = null;\n  #order = null;\n  constructor(data) {\n    this.name = null;\n    this.creator = null;\n    if (data === null) {\n      return;\n    }\n    this.name = data.name;\n    this.creator = data.creator;\n    this.#order = data.order;\n    for (const group of data.groups) {\n      this.#groups.set(group.id, new OptionalContentGroup(group.name, group.intent));\n    }\n    if (data.baseState === \"OFF\") {\n      for (const group of this.#groups.values()) {\n        group._setVisible(INTERNAL, false);\n      }\n    }\n    for (const on of data.on) {\n      this.#groups.get(on)._setVisible(INTERNAL, true);\n    }\n    for (const off of data.off) {\n      this.#groups.get(off)._setVisible(INTERNAL, false);\n    }\n    this.#initialHash = this.getHash();\n  }\n  #evaluateVisibilityExpression(array) {\n    const length = array.length;\n    if (length < 2) {\n      return true;\n    }\n    const operator = array[0];\n    for (let i = 1; i < length; i++) {\n      const element = array[i];\n      let state;\n      if (Array.isArray(element)) {\n        state = this.#evaluateVisibilityExpression(element);\n      } else if (this.#groups.has(element)) {\n        state = this.#groups.get(element).visible;\n      } else {\n        (0, _util.warn)(`Optional content group not found: ${element}`);\n        return true;\n      }\n      switch (operator) {\n        case \"And\":\n          if (!state) {\n            return false;\n          }\n          break;\n        case \"Or\":\n          if (state) {\n            return true;\n          }\n          break;\n        case \"Not\":\n          return !state;\n        default:\n          return true;\n      }\n    }\n    return operator === \"And\";\n  }\n  isVisible(group) {\n    if (this.#groups.size === 0) {\n      return true;\n    }\n    if (!group) {\n      (0, _util.warn)(\"Optional content group not defined.\");\n      return true;\n    }\n    if (group.type === \"OCG\") {\n      if (!this.#groups.has(group.id)) {\n        (0, _util.warn)(`Optional content group not found: ${group.id}`);\n        return true;\n      }\n      return this.#groups.get(group.id).visible;\n    } else if (group.type === \"OCMD\") {\n      if (group.expression) {\n        return this.#evaluateVisibilityExpression(group.expression);\n      }\n      if (!group.policy || group.policy === \"AnyOn\") {\n        for (const id of group.ids) {\n          if (!this.#groups.has(id)) {\n            (0, _util.warn)(`Optional content group not found: ${id}`);\n            return true;\n          }\n          if (this.#groups.get(id).visible) {\n            return true;\n          }\n        }\n        return false;\n      } else if (group.policy === \"AllOn\") {\n        for (const id of group.ids) {\n          if (!this.#groups.has(id)) {\n            (0, _util.warn)(`Optional content group not found: ${id}`);\n            return true;\n          }\n          if (!this.#groups.get(id).visible) {\n            return false;\n          }\n        }\n        return true;\n      } else if (group.policy === \"AnyOff\") {\n        for (const id of group.ids) {\n          if (!this.#groups.has(id)) {\n            (0, _util.warn)(`Optional content group not found: ${id}`);\n            return true;\n          }\n          if (!this.#groups.get(id).visible) {\n            return true;\n          }\n        }\n        return false;\n      } else if (group.policy === \"AllOff\") {\n        for (const id of group.ids) {\n          if (!this.#groups.has(id)) {\n            (0, _util.warn)(`Optional content group not found: ${id}`);\n            return true;\n          }\n          if (this.#groups.get(id).visible) {\n            return false;\n          }\n        }\n        return true;\n      }\n      (0, _util.warn)(`Unknown optional content policy ${group.policy}.`);\n      return true;\n    }\n    (0, _util.warn)(`Unknown group type ${group.type}.`);\n    return true;\n  }\n  setVisibility(id, visible = true) {\n    if (!this.#groups.has(id)) {\n      (0, _util.warn)(`Optional content group not found: ${id}`);\n      return;\n    }\n    this.#groups.get(id)._setVisible(INTERNAL, !!visible);\n    this.#cachedGetHash = null;\n  }\n  get hasInitialVisibility() {\n    return this.getHash() === this.#initialHash;\n  }\n  getOrder() {\n    if (!this.#groups.size) {\n      return null;\n    }\n    if (this.#order) {\n      return this.#order.slice();\n    }\n    return [...this.#groups.keys()];\n  }\n  getGroups() {\n    return this.#groups.size > 0 ? (0, _util.objectFromMap)(this.#groups) : null;\n  }\n  getGroup(id) {\n    return this.#groups.get(id) || null;\n  }\n  getHash() {\n    if (this.#cachedGetHash !== null) {\n      return this.#cachedGetHash;\n    }\n    const hash = new _murmurhash.MurmurHash3_64();\n    for (const [id, group] of this.#groups) {\n      hash.update(`${id}:${group.visible}`);\n    }\n    return this.#cachedGetHash = hash.hexdigest();\n  }\n}\nexports.OptionalContentConfig = OptionalContentConfig;\n\n/***/ }),\n/* 18 */\n/***/ ((__unused_webpack_module, exports, __w_pdfjs_require__) => {\n\n\n\nObject.defineProperty(exports, \"__esModule\", ({\n  value: true\n}));\nexports.PDFDataTransportStream = void 0;\nvar _util = __w_pdfjs_require__(1);\nvar _display_utils = __w_pdfjs_require__(6);\nclass PDFDataTransportStream {\n  constructor({\n    length,\n    initialData,\n    progressiveDone = false,\n    contentDispositionFilename = null,\n    disableRange = false,\n    disableStream = false\n  }, pdfDataRangeTransport) {\n    (0, _util.assert)(pdfDataRangeTransport, 'PDFDataTransportStream - missing required \"pdfDataRangeTransport\" argument.');\n    this._queuedChunks = [];\n    this._progressiveDone = progressiveDone;\n    this._contentDispositionFilename = contentDispositionFilename;\n    if (initialData?.length > 0) {\n      const buffer = initialData instanceof Uint8Array && initialData.byteLength === initialData.buffer.byteLength ? initialData.buffer : new Uint8Array(initialData).buffer;\n      this._queuedChunks.push(buffer);\n    }\n    this._pdfDataRangeTransport = pdfDataRangeTransport;\n    this._isStreamingSupported = !disableStream;\n    this._isRangeSupported = !disableRange;\n    this._contentLength = length;\n    this._fullRequestReader = null;\n    this._rangeReaders = [];\n    this._pdfDataRangeTransport.addRangeListener((begin, chunk) => {\n      this._onReceiveData({\n        begin,\n        chunk\n      });\n    });\n    this._pdfDataRangeTransport.addProgressListener((loaded, total) => {\n      this._onProgress({\n        loaded,\n        total\n      });\n    });\n    this._pdfDataRangeTransport.addProgressiveReadListener(chunk => {\n      this._onReceiveData({\n        chunk\n      });\n    });\n    this._pdfDataRangeTransport.addProgressiveDoneListener(() => {\n      this._onProgressiveDone();\n    });\n    this._pdfDataRangeTransport.transportReady();\n  }\n  _onReceiveData({\n    begin,\n    chunk\n  }) {\n    const buffer = chunk instanceof Uint8Array && chunk.byteLength === chunk.buffer.byteLength ? chunk.buffer : new Uint8Array(chunk).buffer;\n    if (begin === undefined) {\n      if (this._fullRequestReader) {\n        this._fullRequestReader._enqueue(buffer);\n      } else {\n        this._queuedChunks.push(buffer);\n      }\n    } else {\n      const found = this._rangeReaders.some(function (rangeReader) {\n        if (rangeReader._begin !== begin) {\n          return false;\n        }\n        rangeReader._enqueue(buffer);\n        return true;\n      });\n      (0, _util.assert)(found, \"_onReceiveData - no `PDFDataTransportStreamRangeReader` instance found.\");\n    }\n  }\n  get _progressiveDataLength() {\n    return this._fullRequestReader?._loaded ?? 0;\n  }\n  _onProgress(evt) {\n    if (evt.total === undefined) {\n      this._rangeReaders[0]?.onProgress?.({\n        loaded: evt.loaded\n      });\n    } else {\n      this._fullRequestReader?.onProgress?.({\n        loaded: evt.loaded,\n        total: evt.total\n      });\n    }\n  }\n  _onProgressiveDone() {\n    this._fullRequestReader?.progressiveDone();\n    this._progressiveDone = true;\n  }\n  _removeRangeReader(reader) {\n    const i = this._rangeReaders.indexOf(reader);\n    if (i >= 0) {\n      this._rangeReaders.splice(i, 1);\n    }\n  }\n  getFullReader() {\n    (0, _util.assert)(!this._fullRequestReader, \"PDFDataTransportStream.getFullReader can only be called once.\");\n    const queuedChunks = this._queuedChunks;\n    this._queuedChunks = null;\n    return new PDFDataTransportStreamReader(this, queuedChunks, this._progressiveDone, this._contentDispositionFilename);\n  }\n  getRangeReader(begin, end) {\n    if (end <= this._progressiveDataLength) {\n      return null;\n    }\n    const reader = new PDFDataTransportStreamRangeReader(this, begin, end);\n    this._pdfDataRangeTransport.requestDataRange(begin, end);\n    this._rangeReaders.push(reader);\n    return reader;\n  }\n  cancelAllRequests(reason) {\n    this._fullRequestReader?.cancel(reason);\n    for (const reader of this._rangeReaders.slice(0)) {\n      reader.cancel(reason);\n    }\n    this._pdfDataRangeTransport.abort();\n  }\n}\nexports.PDFDataTransportStream = PDFDataTransportStream;\nclass PDFDataTransportStreamReader {\n  constructor(stream, queuedChunks, progressiveDone = false, contentDispositionFilename = null) {\n    this._stream = stream;\n    this._done = progressiveDone || false;\n    this._filename = (0, _display_utils.isPdfFile)(contentDispositionFilename) ? contentDispositionFilename : null;\n    this._queuedChunks = queuedChunks || [];\n    this._loaded = 0;\n    for (const chunk of this._queuedChunks) {\n      this._loaded += chunk.byteLength;\n    }\n    this._requests = [];\n    this._headersReady = Promise.resolve();\n    stream._fullRequestReader = this;\n    this.onProgress = null;\n  }\n  _enqueue(chunk) {\n    if (this._done) {\n      return;\n    }\n    if (this._requests.length > 0) {\n      const requestCapability = this._requests.shift();\n      requestCapability.resolve({\n        value: chunk,\n        done: false\n      });\n    } else {\n      this._queuedChunks.push(chunk);\n    }\n    this._loaded += chunk.byteLength;\n  }\n  get headersReady() {\n    return this._headersReady;\n  }\n  get filename() {\n    return this._filename;\n  }\n  get isRangeSupported() {\n    return this._stream._isRangeSupported;\n  }\n  get isStreamingSupported() {\n    return this._stream._isStreamingSupported;\n  }\n  get contentLength() {\n    return this._stream._contentLength;\n  }\n  async read() {\n    if (this._queuedChunks.length > 0) {\n      const chunk = this._queuedChunks.shift();\n      return {\n        value: chunk,\n        done: false\n      };\n    }\n    if (this._done) {\n      return {\n        value: undefined,\n        done: true\n      };\n    }\n    const requestCapability = (0, _util.createPromiseCapability)();\n    this._requests.push(requestCapability);\n    return requestCapability.promise;\n  }\n  cancel(reason) {\n    this._done = true;\n    for (const requestCapability of this._requests) {\n      requestCapability.resolve({\n        value: undefined,\n        done: true\n      });\n    }\n    this._requests.length = 0;\n  }\n  progressiveDone() {\n    if (this._done) {\n      return;\n    }\n    this._done = true;\n  }\n}\nclass PDFDataTransportStreamRangeReader {\n  constructor(stream, begin, end) {\n    this._stream = stream;\n    this._begin = begin;\n    this._end = end;\n    this._queuedChunk = null;\n    this._requests = [];\n    this._done = false;\n    this.onProgress = null;\n  }\n  _enqueue(chunk) {\n    if (this._done) {\n      return;\n    }\n    if (this._requests.length === 0) {\n      this._queuedChunk = chunk;\n    } else {\n      const requestsCapability = this._requests.shift();\n      requestsCapability.resolve({\n        value: chunk,\n        done: false\n      });\n      for (const requestCapability of this._requests) {\n        requestCapability.resolve({\n          value: undefined,\n          done: true\n        });\n      }\n      this._requests.length = 0;\n    }\n    this._done = true;\n    this._stream._removeRangeReader(this);\n  }\n  get isStreamingSupported() {\n    return false;\n  }\n  async read() {\n    if (this._queuedChunk) {\n      const chunk = this._queuedChunk;\n      this._queuedChunk = null;\n      return {\n        value: chunk,\n        done: false\n      };\n    }\n    if (this._done) {\n      return {\n        value: undefined,\n        done: true\n      };\n    }\n    const requestCapability = (0, _util.createPromiseCapability)();\n    this._requests.push(requestCapability);\n    return requestCapability.promise;\n  }\n  cancel(reason) {\n    this._done = true;\n    for (const requestCapability of this._requests) {\n      requestCapability.resolve({\n        value: undefined,\n        done: true\n      });\n    }\n    this._requests.length = 0;\n    this._stream._removeRangeReader(this);\n  }\n}\n\n/***/ }),\n/* 19 */\n/***/ ((__unused_webpack_module, exports) => {\n\n\n\nObject.defineProperty(exports, \"__esModule\", ({\n  value: true\n}));\nexports.XfaText = void 0;\nclass XfaText {\n  static textContent(xfa) {\n    const items = [];\n    const output = {\n      items,\n      styles: Object.create(null)\n    };\n    function walk(node) {\n      if (!node) {\n        return;\n      }\n      let str = null;\n      const name = node.name;\n      if (name === \"#text\") {\n        str = node.value;\n      } else if (!XfaText.shouldBuildText(name)) {\n        return;\n      } else if (node?.attributes?.textContent) {\n        str = node.attributes.textContent;\n      } else if (node.value) {\n        str = node.value;\n      }\n      if (str !== null) {\n        items.push({\n          str\n        });\n      }\n      if (!node.children) {\n        return;\n      }\n      for (const child of node.children) {\n        walk(child);\n      }\n    }\n    walk(xfa);\n    return output;\n  }\n  static shouldBuildText(name) {\n    return !(name === \"textarea\" || name === \"input\" || name === \"option\" || name === \"select\");\n  }\n}\nexports.XfaText = XfaText;\n\n/***/ }),\n/* 20 */\n/***/ ((__unused_webpack_module, exports, __w_pdfjs_require__) => {\n\n\n\nObject.defineProperty(exports, \"__esModule\", ({\n  value: true\n}));\nexports.NodeStandardFontDataFactory = exports.NodeCanvasFactory = exports.NodeCMapReaderFactory = void 0;\nvar _base_factory = __w_pdfjs_require__(7);\n;\nconst fetchData = function (url) {\n  return new Promise((resolve, reject) => {\n    const fs = require(\"fs\");\n    fs.readFile(url, (error, data) => {\n      if (error || !data) {\n        reject(new Error(error));\n        return;\n      }\n      resolve(new Uint8Array(data));\n    });\n  });\n};\nclass NodeCanvasFactory extends _base_factory.BaseCanvasFactory {\n  _createCanvas(width, height) {\n    const Canvas = require(\"canvas\");\n    return Canvas.createCanvas(width, height);\n  }\n}\nexports.NodeCanvasFactory = NodeCanvasFactory;\nclass NodeCMapReaderFactory extends _base_factory.BaseCMapReaderFactory {\n  _fetchData(url, compressionType) {\n    return fetchData(url).then(data => {\n      return {\n        cMapData: data,\n        compressionType\n      };\n    });\n  }\n}\nexports.NodeCMapReaderFactory = NodeCMapReaderFactory;\nclass NodeStandardFontDataFactory extends _base_factory.BaseStandardFontDataFactory {\n  _fetchData(url) {\n    return fetchData(url);\n  }\n}\nexports.NodeStandardFontDataFactory = NodeStandardFontDataFactory;\n\n/***/ }),\n/* 21 */\n/***/ ((__unused_webpack_module, exports, __w_pdfjs_require__) => {\n\n\n\nObject.defineProperty(exports, \"__esModule\", ({\n  value: true\n}));\nexports.PDFNodeStream = void 0;\nvar _util = __w_pdfjs_require__(1);\nvar _network_utils = __w_pdfjs_require__(22);\n;\nconst fs = require(\"fs\");\nconst http = require(\"http\");\nconst https = require(\"https\");\nconst url = require(\"url\");\nconst fileUriRegex = /^file:\\/\\/\\/[a-zA-Z]:\\//;\nfunction parseUrl(sourceUrl) {\n  const parsedUrl = url.parse(sourceUrl);\n  if (parsedUrl.protocol === \"file:\" || parsedUrl.host) {\n    return parsedUrl;\n  }\n  if (/^[a-z]:[/\\\\]/i.test(sourceUrl)) {\n    return url.parse(`file:///${sourceUrl}`);\n  }\n  if (!parsedUrl.host) {\n    parsedUrl.protocol = \"file:\";\n  }\n  return parsedUrl;\n}\nclass PDFNodeStream {\n  constructor(source) {\n    this.source = source;\n    this.url = parseUrl(source.url);\n    this.isHttp = this.url.protocol === \"http:\" || this.url.protocol === \"https:\";\n    this.isFsUrl = this.url.protocol === \"file:\";\n    this.httpHeaders = this.isHttp && source.httpHeaders || {};\n    this._fullRequestReader = null;\n    this._rangeRequestReaders = [];\n  }\n  get _progressiveDataLength() {\n    return this._fullRequestReader?._loaded ?? 0;\n  }\n  getFullReader() {\n    (0, _util.assert)(!this._fullRequestReader, \"PDFNodeStream.getFullReader can only be called once.\");\n    this._fullRequestReader = this.isFsUrl ? new PDFNodeStreamFsFullReader(this) : new PDFNodeStreamFullReader(this);\n    return this._fullRequestReader;\n  }\n  getRangeReader(start, end) {\n    if (end <= this._progressiveDataLength) {\n      return null;\n    }\n    const rangeReader = this.isFsUrl ? new PDFNodeStreamFsRangeReader(this, start, end) : new PDFNodeStreamRangeReader(this, start, end);\n    this._rangeRequestReaders.push(rangeReader);\n    return rangeReader;\n  }\n  cancelAllRequests(reason) {\n    this._fullRequestReader?.cancel(reason);\n    for (const reader of this._rangeRequestReaders.slice(0)) {\n      reader.cancel(reason);\n    }\n  }\n}\nexports.PDFNodeStream = PDFNodeStream;\nclass BaseFullReader {\n  constructor(stream) {\n    this._url = stream.url;\n    this._done = false;\n    this._storedError = null;\n    this.onProgress = null;\n    const source = stream.source;\n    this._contentLength = source.length;\n    this._loaded = 0;\n    this._filename = null;\n    this._disableRange = source.disableRange || false;\n    this._rangeChunkSize = source.rangeChunkSize;\n    if (!this._rangeChunkSize && !this._disableRange) {\n      this._disableRange = true;\n    }\n    this._isStreamingSupported = !source.disableStream;\n    this._isRangeSupported = !source.disableRange;\n    this._readableStream = null;\n    this._readCapability = (0, _util.createPromiseCapability)();\n    this._headersCapability = (0, _util.createPromiseCapability)();\n  }\n  get headersReady() {\n    return this._headersCapability.promise;\n  }\n  get filename() {\n    return this._filename;\n  }\n  get contentLength() {\n    return this._contentLength;\n  }\n  get isRangeSupported() {\n    return this._isRangeSupported;\n  }\n  get isStreamingSupported() {\n    return this._isStreamingSupported;\n  }\n  async read() {\n    await this._readCapability.promise;\n    if (this._done) {\n      return {\n        value: undefined,\n        done: true\n      };\n    }\n    if (this._storedError) {\n      throw this._storedError;\n    }\n    const chunk = this._readableStream.read();\n    if (chunk === null) {\n      this._readCapability = (0, _util.createPromiseCapability)();\n      return this.read();\n    }\n    this._loaded += chunk.length;\n    this.onProgress?.({\n      loaded: this._loaded,\n      total: this._contentLength\n    });\n    const buffer = new Uint8Array(chunk).buffer;\n    return {\n      value: buffer,\n      done: false\n    };\n  }\n  cancel(reason) {\n    if (!this._readableStream) {\n      this._error(reason);\n      return;\n    }\n    this._readableStream.destroy(reason);\n  }\n  _error(reason) {\n    this._storedError = reason;\n    this._readCapability.resolve();\n  }\n  _setReadableStream(readableStream) {\n    this._readableStream = readableStream;\n    readableStream.on(\"readable\", () => {\n      this._readCapability.resolve();\n    });\n    readableStream.on(\"end\", () => {\n      readableStream.destroy();\n      this._done = true;\n      this._readCapability.resolve();\n    });\n    readableStream.on(\"error\", reason => {\n      this._error(reason);\n    });\n    if (!this._isStreamingSupported && this._isRangeSupported) {\n      this._error(new _util.AbortException(\"streaming is disabled\"));\n    }\n    if (this._storedError) {\n      this._readableStream.destroy(this._storedError);\n    }\n  }\n}\nclass BaseRangeReader {\n  constructor(stream) {\n    this._url = stream.url;\n    this._done = false;\n    this._storedError = null;\n    this.onProgress = null;\n    this._loaded = 0;\n    this._readableStream = null;\n    this._readCapability = (0, _util.createPromiseCapability)();\n    const source = stream.source;\n    this._isStreamingSupported = !source.disableStream;\n  }\n  get isStreamingSupported() {\n    return this._isStreamingSupported;\n  }\n  async read() {\n    await this._readCapability.promise;\n    if (this._done) {\n      return {\n        value: undefined,\n        done: true\n      };\n    }\n    if (this._storedError) {\n      throw this._storedError;\n    }\n    const chunk = this._readableStream.read();\n    if (chunk === null) {\n      this._readCapability = (0, _util.createPromiseCapability)();\n      return this.read();\n    }\n    this._loaded += chunk.length;\n    this.onProgress?.({\n      loaded: this._loaded\n    });\n    const buffer = new Uint8Array(chunk).buffer;\n    return {\n      value: buffer,\n      done: false\n    };\n  }\n  cancel(reason) {\n    if (!this._readableStream) {\n      this._error(reason);\n      return;\n    }\n    this._readableStream.destroy(reason);\n  }\n  _error(reason) {\n    this._storedError = reason;\n    this._readCapability.resolve();\n  }\n  _setReadableStream(readableStream) {\n    this._readableStream = readableStream;\n    readableStream.on(\"readable\", () => {\n      this._readCapability.resolve();\n    });\n    readableStream.on(\"end\", () => {\n      readableStream.destroy();\n      this._done = true;\n      this._readCapability.resolve();\n    });\n    readableStream.on(\"error\", reason => {\n      this._error(reason);\n    });\n    if (this._storedError) {\n      this._readableStream.destroy(this._storedError);\n    }\n  }\n}\nfunction createRequestOptions(parsedUrl, headers) {\n  return {\n    protocol: parsedUrl.protocol,\n    auth: parsedUrl.auth,\n    host: parsedUrl.hostname,\n    port: parsedUrl.port,\n    path: parsedUrl.path,\n    method: \"GET\",\n    headers\n  };\n}\nclass PDFNodeStreamFullReader extends BaseFullReader {\n  constructor(stream) {\n    super(stream);\n    const handleResponse = response => {\n      if (response.statusCode === 404) {\n        const error = new _util.MissingPDFException(`Missing PDF \"${this._url}\".`);\n        this._storedError = error;\n        this._headersCapability.reject(error);\n        return;\n      }\n      this._headersCapability.resolve();\n      this._setReadableStream(response);\n      const getResponseHeader = name => {\n        return this._readableStream.headers[name.toLowerCase()];\n      };\n      const {\n        allowRangeRequests,\n        suggestedLength\n      } = (0, _network_utils.validateRangeRequestCapabilities)({\n        getResponseHeader,\n        isHttp: stream.isHttp,\n        rangeChunkSize: this._rangeChunkSize,\n        disableRange: this._disableRange\n      });\n      this._isRangeSupported = allowRangeRequests;\n      this._contentLength = suggestedLength || this._contentLength;\n      this._filename = (0, _network_utils.extractFilenameFromHeader)(getResponseHeader);\n    };\n    this._request = null;\n    if (this._url.protocol === \"http:\") {\n      this._request = http.request(createRequestOptions(this._url, stream.httpHeaders), handleResponse);\n    } else {\n      this._request = https.request(createRequestOptions(this._url, stream.httpHeaders), handleResponse);\n    }\n    this._request.on(\"error\", reason => {\n      this._storedError = reason;\n      this._headersCapability.reject(reason);\n    });\n    this._request.end();\n  }\n}\nclass PDFNodeStreamRangeReader extends BaseRangeReader {\n  constructor(stream, start, end) {\n    super(stream);\n    this._httpHeaders = {};\n    for (const property in stream.httpHeaders) {\n      const value = stream.httpHeaders[property];\n      if (value === undefined) {\n        continue;\n      }\n      this._httpHeaders[property] = value;\n    }\n    this._httpHeaders.Range = `bytes=${start}-${end - 1}`;\n    const handleResponse = response => {\n      if (response.statusCode === 404) {\n        const error = new _util.MissingPDFException(`Missing PDF \"${this._url}\".`);\n        this._storedError = error;\n        return;\n      }\n      this._setReadableStream(response);\n    };\n    this._request = null;\n    if (this._url.protocol === \"http:\") {\n      this._request = http.request(createRequestOptions(this._url, this._httpHeaders), handleResponse);\n    } else {\n      this._request = https.request(createRequestOptions(this._url, this._httpHeaders), handleResponse);\n    }\n    this._request.on(\"error\", reason => {\n      this._storedError = reason;\n    });\n    this._request.end();\n  }\n}\nclass PDFNodeStreamFsFullReader extends BaseFullReader {\n  constructor(stream) {\n    super(stream);\n    let path = decodeURIComponent(this._url.path);\n    if (fileUriRegex.test(this._url.href)) {\n      path = path.replace(/^\\//, \"\");\n    }\n    fs.lstat(path, (error, stat) => {\n      if (error) {\n        if (error.code === \"ENOENT\") {\n          error = new _util.MissingPDFException(`Missing PDF \"${path}\".`);\n        }\n        this._storedError = error;\n        this._headersCapability.reject(error);\n        return;\n      }\n      this._contentLength = stat.size;\n      this._setReadableStream(fs.createReadStream(path));\n      this._headersCapability.resolve();\n    });\n  }\n}\nclass PDFNodeStreamFsRangeReader extends BaseRangeReader {\n  constructor(stream, start, end) {\n    super(stream);\n    let path = decodeURIComponent(this._url.path);\n    if (fileUriRegex.test(this._url.href)) {\n      path = path.replace(/^\\//, \"\");\n    }\n    this._setReadableStream(fs.createReadStream(path, {\n      start,\n      end: end - 1\n    }));\n  }\n}\n\n/***/ }),\n/* 22 */\n/***/ ((__unused_webpack_module, exports, __w_pdfjs_require__) => {\n\n\n\nObject.defineProperty(exports, \"__esModule\", ({\n  value: true\n}));\nexports.createResponseStatusError = createResponseStatusError;\nexports.extractFilenameFromHeader = extractFilenameFromHeader;\nexports.validateRangeRequestCapabilities = validateRangeRequestCapabilities;\nexports.validateResponseStatus = validateResponseStatus;\nvar _util = __w_pdfjs_require__(1);\nvar _content_disposition = __w_pdfjs_require__(23);\nvar _display_utils = __w_pdfjs_require__(6);\nfunction validateRangeRequestCapabilities({\n  getResponseHeader,\n  isHttp,\n  rangeChunkSize,\n  disableRange\n}) {\n  const returnValues = {\n    allowRangeRequests: false,\n    suggestedLength: undefined\n  };\n  const length = parseInt(getResponseHeader(\"Content-Length\"), 10);\n  if (!Number.isInteger(length)) {\n    return returnValues;\n  }\n  returnValues.suggestedLength = length;\n  if (length <= 2 * rangeChunkSize) {\n    return returnValues;\n  }\n  if (disableRange || !isHttp) {\n    return returnValues;\n  }\n  if (getResponseHeader(\"Accept-Ranges\") !== \"bytes\") {\n    return returnValues;\n  }\n  const contentEncoding = getResponseHeader(\"Content-Encoding\") || \"identity\";\n  if (contentEncoding !== \"identity\") {\n    return returnValues;\n  }\n  returnValues.allowRangeRequests = true;\n  return returnValues;\n}\nfunction extractFilenameFromHeader(getResponseHeader) {\n  const contentDisposition = getResponseHeader(\"Content-Disposition\");\n  if (contentDisposition) {\n    let filename = (0, _content_disposition.getFilenameFromContentDispositionHeader)(contentDisposition);\n    if (filename.includes(\"%\")) {\n      try {\n        filename = decodeURIComponent(filename);\n      } catch (ex) {}\n    }\n    if ((0, _display_utils.isPdfFile)(filename)) {\n      return filename;\n    }\n  }\n  return null;\n}\nfunction createResponseStatusError(status, url) {\n  if (status === 404 || status === 0 && url.startsWith(\"file:\")) {\n    return new _util.MissingPDFException('Missing PDF \"' + url + '\".');\n  }\n  return new _util.UnexpectedResponseException(`Unexpected server response (${status}) while retrieving PDF \"${url}\".`, status);\n}\nfunction validateResponseStatus(status) {\n  return status === 200 || status === 206;\n}\n\n/***/ }),\n/* 23 */\n/***/ ((__unused_webpack_module, exports, __w_pdfjs_require__) => {\n\n\n\nObject.defineProperty(exports, \"__esModule\", ({\n  value: true\n}));\nexports.getFilenameFromContentDispositionHeader = getFilenameFromContentDispositionHeader;\nvar _util = __w_pdfjs_require__(1);\nfunction getFilenameFromContentDispositionHeader(contentDisposition) {\n  let needsEncodingFixup = true;\n  let tmp = toParamRegExp(\"filename\\\\*\", \"i\").exec(contentDisposition);\n  if (tmp) {\n    tmp = tmp[1];\n    let filename = rfc2616unquote(tmp);\n    filename = unescape(filename);\n    filename = rfc5987decode(filename);\n    filename = rfc2047decode(filename);\n    return fixupEncoding(filename);\n  }\n  tmp = rfc2231getparam(contentDisposition);\n  if (tmp) {\n    const filename = rfc2047decode(tmp);\n    return fixupEncoding(filename);\n  }\n  tmp = toParamRegExp(\"filename\", \"i\").exec(contentDisposition);\n  if (tmp) {\n    tmp = tmp[1];\n    let filename = rfc2616unquote(tmp);\n    filename = rfc2047decode(filename);\n    return fixupEncoding(filename);\n  }\n  function toParamRegExp(attributePattern, flags) {\n    return new RegExp(\"(?:^|;)\\\\s*\" + attributePattern + \"\\\\s*=\\\\s*\" + \"(\" + '[^\";\\\\s][^;\\\\s]*' + \"|\" + '\"(?:[^\"\\\\\\\\]|\\\\\\\\\"?)+\"?' + \")\", flags);\n  }\n  function textdecode(encoding, value) {\n    if (encoding) {\n      if (!/^[\\x00-\\xFF]+$/.test(value)) {\n        return value;\n      }\n      try {\n        const decoder = new TextDecoder(encoding, {\n          fatal: true\n        });\n        const buffer = (0, _util.stringToBytes)(value);\n        value = decoder.decode(buffer);\n        needsEncodingFixup = false;\n      } catch (e) {}\n    }\n    return value;\n  }\n  function fixupEncoding(value) {\n    if (needsEncodingFixup && /[\\x80-\\xff]/.test(value)) {\n      value = textdecode(\"utf-8\", value);\n      if (needsEncodingFixup) {\n        value = textdecode(\"iso-8859-1\", value);\n      }\n    }\n    return value;\n  }\n  function rfc2231getparam(contentDispositionStr) {\n    const matches = [];\n    let match;\n    const iter = toParamRegExp(\"filename\\\\*((?!0\\\\d)\\\\d+)(\\\\*?)\", \"ig\");\n    while ((match = iter.exec(contentDispositionStr)) !== null) {\n      let [, n, quot, part] = match;\n      n = parseInt(n, 10);\n      if (n in matches) {\n        if (n === 0) {\n          break;\n        }\n        continue;\n      }\n      matches[n] = [quot, part];\n    }\n    const parts = [];\n    for (let n = 0; n < matches.length; ++n) {\n      if (!(n in matches)) {\n        break;\n      }\n      let [quot, part] = matches[n];\n      part = rfc2616unquote(part);\n      if (quot) {\n        part = unescape(part);\n        if (n === 0) {\n          part = rfc5987decode(part);\n        }\n      }\n      parts.push(part);\n    }\n    return parts.join(\"\");\n  }\n  function rfc2616unquote(value) {\n    if (value.startsWith('\"')) {\n      const parts = value.slice(1).split('\\\\\"');\n      for (let i = 0; i < parts.length; ++i) {\n        const quotindex = parts[i].indexOf('\"');\n        if (quotindex !== -1) {\n          parts[i] = parts[i].slice(0, quotindex);\n          parts.length = i + 1;\n        }\n        parts[i] = parts[i].replace(/\\\\(.)/g, \"$1\");\n      }\n      value = parts.join('\"');\n    }\n    return value;\n  }\n  function rfc5987decode(extvalue) {\n    const encodingend = extvalue.indexOf(\"'\");\n    if (encodingend === -1) {\n      return extvalue;\n    }\n    const encoding = extvalue.slice(0, encodingend);\n    const langvalue = extvalue.slice(encodingend + 1);\n    const value = langvalue.replace(/^[^']*'/, \"\");\n    return textdecode(encoding, value);\n  }\n  function rfc2047decode(value) {\n    if (!value.startsWith(\"=?\") || /[\\x00-\\x19\\x80-\\xff]/.test(value)) {\n      return value;\n    }\n    return value.replace(/=\\?([\\w-]*)\\?([QqBb])\\?((?:[^?]|\\?(?!=))*)\\?=/g, function (matches, charset, encoding, text) {\n      if (encoding === \"q\" || encoding === \"Q\") {\n        text = text.replace(/_/g, \" \");\n        text = text.replace(/=([0-9a-fA-F]{2})/g, function (match, hex) {\n          return String.fromCharCode(parseInt(hex, 16));\n        });\n        return textdecode(charset, text);\n      }\n      try {\n        text = atob(text);\n      } catch (e) {}\n      return textdecode(charset, text);\n    });\n  }\n  return \"\";\n}\n\n/***/ }),\n/* 24 */\n/***/ ((__unused_webpack_module, exports, __w_pdfjs_require__) => {\n\n\n\nObject.defineProperty(exports, \"__esModule\", ({\n  value: true\n}));\nexports.PDFNetworkStream = void 0;\nvar _util = __w_pdfjs_require__(1);\nvar _network_utils = __w_pdfjs_require__(22);\n;\nconst OK_RESPONSE = 200;\nconst PARTIAL_CONTENT_RESPONSE = 206;\nfunction getArrayBuffer(xhr) {\n  const data = xhr.response;\n  if (typeof data !== \"string\") {\n    return data;\n  }\n  return (0, _util.stringToBytes)(data).buffer;\n}\nclass NetworkManager {\n  constructor(url, args = {}) {\n    this.url = url;\n    this.isHttp = /^https?:/i.test(url);\n    this.httpHeaders = this.isHttp && args.httpHeaders || Object.create(null);\n    this.withCredentials = args.withCredentials || false;\n    this.getXhr = args.getXhr || function NetworkManager_getXhr() {\n      return new XMLHttpRequest();\n    };\n    this.currXhrId = 0;\n    this.pendingRequests = Object.create(null);\n  }\n  requestRange(begin, end, listeners) {\n    const args = {\n      begin,\n      end\n    };\n    for (const prop in listeners) {\n      args[prop] = listeners[prop];\n    }\n    return this.request(args);\n  }\n  requestFull(listeners) {\n    return this.request(listeners);\n  }\n  request(args) {\n    const xhr = this.getXhr();\n    const xhrId = this.currXhrId++;\n    const pendingRequest = this.pendingRequests[xhrId] = {\n      xhr\n    };\n    xhr.open(\"GET\", this.url);\n    xhr.withCredentials = this.withCredentials;\n    for (const property in this.httpHeaders) {\n      const value = this.httpHeaders[property];\n      if (value === undefined) {\n        continue;\n      }\n      xhr.setRequestHeader(property, value);\n    }\n    if (this.isHttp && \"begin\" in args && \"end\" in args) {\n      xhr.setRequestHeader(\"Range\", `bytes=${args.begin}-${args.end - 1}`);\n      pendingRequest.expectedStatus = PARTIAL_CONTENT_RESPONSE;\n    } else {\n      pendingRequest.expectedStatus = OK_RESPONSE;\n    }\n    xhr.responseType = \"arraybuffer\";\n    if (args.onError) {\n      xhr.onerror = function (evt) {\n        args.onError(xhr.status);\n      };\n    }\n    xhr.onreadystatechange = this.onStateChange.bind(this, xhrId);\n    xhr.onprogress = this.onProgress.bind(this, xhrId);\n    pendingRequest.onHeadersReceived = args.onHeadersReceived;\n    pendingRequest.onDone = args.onDone;\n    pendingRequest.onError = args.onError;\n    pendingRequest.onProgress = args.onProgress;\n    xhr.send(null);\n    return xhrId;\n  }\n  onProgress(xhrId, evt) {\n    const pendingRequest = this.pendingRequests[xhrId];\n    if (!pendingRequest) {\n      return;\n    }\n    pendingRequest.onProgress?.(evt);\n  }\n  onStateChange(xhrId, evt) {\n    const pendingRequest = this.pendingRequests[xhrId];\n    if (!pendingRequest) {\n      return;\n    }\n    const xhr = pendingRequest.xhr;\n    if (xhr.readyState >= 2 && pendingRequest.onHeadersReceived) {\n      pendingRequest.onHeadersReceived();\n      delete pendingRequest.onHeadersReceived;\n    }\n    if (xhr.readyState !== 4) {\n      return;\n    }\n    if (!(xhrId in this.pendingRequests)) {\n      return;\n    }\n    delete this.pendingRequests[xhrId];\n    if (xhr.status === 0 && this.isHttp) {\n      pendingRequest.onError?.(xhr.status);\n      return;\n    }\n    const xhrStatus = xhr.status || OK_RESPONSE;\n    const ok_response_on_range_request = xhrStatus === OK_RESPONSE && pendingRequest.expectedStatus === PARTIAL_CONTENT_RESPONSE;\n    if (!ok_response_on_range_request && xhrStatus !== pendingRequest.expectedStatus) {\n      pendingRequest.onError?.(xhr.status);\n      return;\n    }\n    const chunk = getArrayBuffer(xhr);\n    if (xhrStatus === PARTIAL_CONTENT_RESPONSE) {\n      const rangeHeader = xhr.getResponseHeader(\"Content-Range\");\n      const matches = /bytes (\\d+)-(\\d+)\\/(\\d+)/.exec(rangeHeader);\n      pendingRequest.onDone({\n        begin: parseInt(matches[1], 10),\n        chunk\n      });\n    } else if (chunk) {\n      pendingRequest.onDone({\n        begin: 0,\n        chunk\n      });\n    } else {\n      pendingRequest.onError?.(xhr.status);\n    }\n  }\n  getRequestXhr(xhrId) {\n    return this.pendingRequests[xhrId].xhr;\n  }\n  isPendingRequest(xhrId) {\n    return xhrId in this.pendingRequests;\n  }\n  abortRequest(xhrId) {\n    const xhr = this.pendingRequests[xhrId].xhr;\n    delete this.pendingRequests[xhrId];\n    xhr.abort();\n  }\n}\nclass PDFNetworkStream {\n  constructor(source) {\n    this._source = source;\n    this._manager = new NetworkManager(source.url, {\n      httpHeaders: source.httpHeaders,\n      withCredentials: source.withCredentials\n    });\n    this._rangeChunkSize = source.rangeChunkSize;\n    this._fullRequestReader = null;\n    this._rangeRequestReaders = [];\n  }\n  _onRangeRequestReaderClosed(reader) {\n    const i = this._rangeRequestReaders.indexOf(reader);\n    if (i >= 0) {\n      this._rangeRequestReaders.splice(i, 1);\n    }\n  }\n  getFullReader() {\n    (0, _util.assert)(!this._fullRequestReader, \"PDFNetworkStream.getFullReader can only be called once.\");\n    this._fullRequestReader = new PDFNetworkStreamFullRequestReader(this._manager, this._source);\n    return this._fullRequestReader;\n  }\n  getRangeReader(begin, end) {\n    const reader = new PDFNetworkStreamRangeRequestReader(this._manager, begin, end);\n    reader.onClosed = this._onRangeRequestReaderClosed.bind(this);\n    this._rangeRequestReaders.push(reader);\n    return reader;\n  }\n  cancelAllRequests(reason) {\n    this._fullRequestReader?.cancel(reason);\n    for (const reader of this._rangeRequestReaders.slice(0)) {\n      reader.cancel(reason);\n    }\n  }\n}\nexports.PDFNetworkStream = PDFNetworkStream;\nclass PDFNetworkStreamFullRequestReader {\n  constructor(manager, source) {\n    this._manager = manager;\n    const args = {\n      onHeadersReceived: this._onHeadersReceived.bind(this),\n      onDone: this._onDone.bind(this),\n      onError: this._onError.bind(this),\n      onProgress: this._onProgress.bind(this)\n    };\n    this._url = source.url;\n    this._fullRequestId = manager.requestFull(args);\n    this._headersReceivedCapability = (0, _util.createPromiseCapability)();\n    this._disableRange = source.disableRange || false;\n    this._contentLength = source.length;\n    this._rangeChunkSize = source.rangeChunkSize;\n    if (!this._rangeChunkSize && !this._disableRange) {\n      this._disableRange = true;\n    }\n    this._isStreamingSupported = false;\n    this._isRangeSupported = false;\n    this._cachedChunks = [];\n    this._requests = [];\n    this._done = false;\n    this._storedError = undefined;\n    this._filename = null;\n    this.onProgress = null;\n  }\n  _onHeadersReceived() {\n    const fullRequestXhrId = this._fullRequestId;\n    const fullRequestXhr = this._manager.getRequestXhr(fullRequestXhrId);\n    const getResponseHeader = name => {\n      return fullRequestXhr.getResponseHeader(name);\n    };\n    const {\n      allowRangeRequests,\n      suggestedLength\n    } = (0, _network_utils.validateRangeRequestCapabilities)({\n      getResponseHeader,\n      isHttp: this._manager.isHttp,\n      rangeChunkSize: this._rangeChunkSize,\n      disableRange: this._disableRange\n    });\n    if (allowRangeRequests) {\n      this._isRangeSupported = true;\n    }\n    this._contentLength = suggestedLength || this._contentLength;\n    this._filename = (0, _network_utils.extractFilenameFromHeader)(getResponseHeader);\n    if (this._isRangeSupported) {\n      this._manager.abortRequest(fullRequestXhrId);\n    }\n    this._headersReceivedCapability.resolve();\n  }\n  _onDone(data) {\n    if (data) {\n      if (this._requests.length > 0) {\n        const requestCapability = this._requests.shift();\n        requestCapability.resolve({\n          value: data.chunk,\n          done: false\n        });\n      } else {\n        this._cachedChunks.push(data.chunk);\n      }\n    }\n    this._done = true;\n    if (this._cachedChunks.length > 0) {\n      return;\n    }\n    for (const requestCapability of this._requests) {\n      requestCapability.resolve({\n        value: undefined,\n        done: true\n      });\n    }\n    this._requests.length = 0;\n  }\n  _onError(status) {\n    this._storedError = (0, _network_utils.createResponseStatusError)(status, this._url);\n    this._headersReceivedCapability.reject(this._storedError);\n    for (const requestCapability of this._requests) {\n      requestCapability.reject(this._storedError);\n    }\n    this._requests.length = 0;\n    this._cachedChunks.length = 0;\n  }\n  _onProgress(evt) {\n    this.onProgress?.({\n      loaded: evt.loaded,\n      total: evt.lengthComputable ? evt.total : this._contentLength\n    });\n  }\n  get filename() {\n    return this._filename;\n  }\n  get isRangeSupported() {\n    return this._isRangeSupported;\n  }\n  get isStreamingSupported() {\n    return this._isStreamingSupported;\n  }\n  get contentLength() {\n    return this._contentLength;\n  }\n  get headersReady() {\n    return this._headersReceivedCapability.promise;\n  }\n  async read() {\n    if (this._storedError) {\n      throw this._storedError;\n    }\n    if (this._cachedChunks.length > 0) {\n      const chunk = this._cachedChunks.shift();\n      return {\n        value: chunk,\n        done: false\n      };\n    }\n    if (this._done) {\n      return {\n        value: undefined,\n        done: true\n      };\n    }\n    const requestCapability = (0, _util.createPromiseCapability)();\n    this._requests.push(requestCapability);\n    return requestCapability.promise;\n  }\n  cancel(reason) {\n    this._done = true;\n    this._headersReceivedCapability.reject(reason);\n    for (const requestCapability of this._requests) {\n      requestCapability.resolve({\n        value: undefined,\n        done: true\n      });\n    }\n    this._requests.length = 0;\n    if (this._manager.isPendingRequest(this._fullRequestId)) {\n      this._manager.abortRequest(this._fullRequestId);\n    }\n    this._fullRequestReader = null;\n  }\n}\nclass PDFNetworkStreamRangeRequestReader {\n  constructor(manager, begin, end) {\n    this._manager = manager;\n    const args = {\n      onDone: this._onDone.bind(this),\n      onError: this._onError.bind(this),\n      onProgress: this._onProgress.bind(this)\n    };\n    this._url = manager.url;\n    this._requestId = manager.requestRange(begin, end, args);\n    this._requests = [];\n    this._queuedChunk = null;\n    this._done = false;\n    this._storedError = undefined;\n    this.onProgress = null;\n    this.onClosed = null;\n  }\n  _close() {\n    this.onClosed?.(this);\n  }\n  _onDone(data) {\n    const chunk = data.chunk;\n    if (this._requests.length > 0) {\n      const requestCapability = this._requests.shift();\n      requestCapability.resolve({\n        value: chunk,\n        done: false\n      });\n    } else {\n      this._queuedChunk = chunk;\n    }\n    this._done = true;\n    for (const requestCapability of this._requests) {\n      requestCapability.resolve({\n        value: undefined,\n        done: true\n      });\n    }\n    this._requests.length = 0;\n    this._close();\n  }\n  _onError(status) {\n    this._storedError = (0, _network_utils.createResponseStatusError)(status, this._url);\n    for (const requestCapability of this._requests) {\n      requestCapability.reject(this._storedError);\n    }\n    this._requests.length = 0;\n    this._queuedChunk = null;\n  }\n  _onProgress(evt) {\n    if (!this.isStreamingSupported) {\n      this.onProgress?.({\n        loaded: evt.loaded\n      });\n    }\n  }\n  get isStreamingSupported() {\n    return false;\n  }\n  async read() {\n    if (this._storedError) {\n      throw this._storedError;\n    }\n    if (this._queuedChunk !== null) {\n      const chunk = this._queuedChunk;\n      this._queuedChunk = null;\n      return {\n        value: chunk,\n        done: false\n      };\n    }\n    if (this._done) {\n      return {\n        value: undefined,\n        done: true\n      };\n    }\n    const requestCapability = (0, _util.createPromiseCapability)();\n    this._requests.push(requestCapability);\n    return requestCapability.promise;\n  }\n  cancel(reason) {\n    this._done = true;\n    for (const requestCapability of this._requests) {\n      requestCapability.resolve({\n        value: undefined,\n        done: true\n      });\n    }\n    this._requests.length = 0;\n    if (this._manager.isPendingRequest(this._requestId)) {\n      this._manager.abortRequest(this._requestId);\n    }\n    this._close();\n  }\n}\n\n/***/ }),\n/* 25 */\n/***/ ((__unused_webpack_module, exports, __w_pdfjs_require__) => {\n\n\n\nObject.defineProperty(exports, \"__esModule\", ({\n  value: true\n}));\nexports.PDFFetchStream = void 0;\nvar _util = __w_pdfjs_require__(1);\nvar _network_utils = __w_pdfjs_require__(22);\n;\nfunction createFetchOptions(headers, withCredentials, abortController) {\n  return {\n    method: \"GET\",\n    headers,\n    signal: abortController.signal,\n    mode: \"cors\",\n    credentials: withCredentials ? \"include\" : \"same-origin\",\n    redirect: \"follow\"\n  };\n}\nfunction createHeaders(httpHeaders) {\n  const headers = new Headers();\n  for (const property in httpHeaders) {\n    const value = httpHeaders[property];\n    if (value === undefined) {\n      continue;\n    }\n    headers.append(property, value);\n  }\n  return headers;\n}\nfunction getArrayBuffer(val) {\n  if (val instanceof Uint8Array) {\n    return val.buffer;\n  }\n  if (val instanceof ArrayBuffer) {\n    return val;\n  }\n  (0, _util.warn)(`getArrayBuffer - unexpected data format: ${val}`);\n  return new Uint8Array(val).buffer;\n}\nclass PDFFetchStream {\n  constructor(source) {\n    this.source = source;\n    this.isHttp = /^https?:/i.test(source.url);\n    this.httpHeaders = this.isHttp && source.httpHeaders || {};\n    this._fullRequestReader = null;\n    this._rangeRequestReaders = [];\n  }\n  get _progressiveDataLength() {\n    return this._fullRequestReader?._loaded ?? 0;\n  }\n  getFullReader() {\n    (0, _util.assert)(!this._fullRequestReader, \"PDFFetchStream.getFullReader can only be called once.\");\n    this._fullRequestReader = new PDFFetchStreamReader(this);\n    return this._fullRequestReader;\n  }\n  getRangeReader(begin, end) {\n    if (end <= this._progressiveDataLength) {\n      return null;\n    }\n    const reader = new PDFFetchStreamRangeReader(this, begin, end);\n    this._rangeRequestReaders.push(reader);\n    return reader;\n  }\n  cancelAllRequests(reason) {\n    this._fullRequestReader?.cancel(reason);\n    for (const reader of this._rangeRequestReaders.slice(0)) {\n      reader.cancel(reason);\n    }\n  }\n}\nexports.PDFFetchStream = PDFFetchStream;\nclass PDFFetchStreamReader {\n  constructor(stream) {\n    this._stream = stream;\n    this._reader = null;\n    this._loaded = 0;\n    this._filename = null;\n    const source = stream.source;\n    this._withCredentials = source.withCredentials || false;\n    this._contentLength = source.length;\n    this._headersCapability = (0, _util.createPromiseCapability)();\n    this._disableRange = source.disableRange || false;\n    this._rangeChunkSize = source.rangeChunkSize;\n    if (!this._rangeChunkSize && !this._disableRange) {\n      this._disableRange = true;\n    }\n    this._abortController = new AbortController();\n    this._isStreamingSupported = !source.disableStream;\n    this._isRangeSupported = !source.disableRange;\n    this._headers = createHeaders(this._stream.httpHeaders);\n    const url = source.url;\n    fetch(url, createFetchOptions(this._headers, this._withCredentials, this._abortController)).then(response => {\n      if (!(0, _network_utils.validateResponseStatus)(response.status)) {\n        throw (0, _network_utils.createResponseStatusError)(response.status, url);\n      }\n      this._reader = response.body.getReader();\n      this._headersCapability.resolve();\n      const getResponseHeader = name => {\n        return response.headers.get(name);\n      };\n      const {\n        allowRangeRequests,\n        suggestedLength\n      } = (0, _network_utils.validateRangeRequestCapabilities)({\n        getResponseHeader,\n        isHttp: this._stream.isHttp,\n        rangeChunkSize: this._rangeChunkSize,\n        disableRange: this._disableRange\n      });\n      this._isRangeSupported = allowRangeRequests;\n      this._contentLength = suggestedLength || this._contentLength;\n      this._filename = (0, _network_utils.extractFilenameFromHeader)(getResponseHeader);\n      if (!this._isStreamingSupported && this._isRangeSupported) {\n        this.cancel(new _util.AbortException(\"Streaming is disabled.\"));\n      }\n    }).catch(this._headersCapability.reject);\n    this.onProgress = null;\n  }\n  get headersReady() {\n    return this._headersCapability.promise;\n  }\n  get filename() {\n    return this._filename;\n  }\n  get contentLength() {\n    return this._contentLength;\n  }\n  get isRangeSupported() {\n    return this._isRangeSupported;\n  }\n  get isStreamingSupported() {\n    return this._isStreamingSupported;\n  }\n  async read() {\n    await this._headersCapability.promise;\n    const {\n      value,\n      done\n    } = await this._reader.read();\n    if (done) {\n      return {\n        value,\n        done\n      };\n    }\n    this._loaded += value.byteLength;\n    this.onProgress?.({\n      loaded: this._loaded,\n      total: this._contentLength\n    });\n    return {\n      value: getArrayBuffer(value),\n      done: false\n    };\n  }\n  cancel(reason) {\n    this._reader?.cancel(reason);\n    this._abortController.abort();\n  }\n}\nclass PDFFetchStreamRangeReader {\n  constructor(stream, begin, end) {\n    this._stream = stream;\n    this._reader = null;\n    this._loaded = 0;\n    const source = stream.source;\n    this._withCredentials = source.withCredentials || false;\n    this._readCapability = (0, _util.createPromiseCapability)();\n    this._isStreamingSupported = !source.disableStream;\n    this._abortController = new AbortController();\n    this._headers = createHeaders(this._stream.httpHeaders);\n    this._headers.append(\"Range\", `bytes=${begin}-${end - 1}`);\n    const url = source.url;\n    fetch(url, createFetchOptions(this._headers, this._withCredentials, this._abortController)).then(response => {\n      if (!(0, _network_utils.validateResponseStatus)(response.status)) {\n        throw (0, _network_utils.createResponseStatusError)(response.status, url);\n      }\n      this._readCapability.resolve();\n      this._reader = response.body.getReader();\n    }).catch(this._readCapability.reject);\n    this.onProgress = null;\n  }\n  get isStreamingSupported() {\n    return this._isStreamingSupported;\n  }\n  async read() {\n    await this._readCapability.promise;\n    const {\n      value,\n      done\n    } = await this._reader.read();\n    if (done) {\n      return {\n        value,\n        done\n      };\n    }\n    this._loaded += value.byteLength;\n    this.onProgress?.({\n      loaded: this._loaded\n    });\n    return {\n      value: getArrayBuffer(value),\n      done: false\n    };\n  }\n  cancel(reason) {\n    this._reader?.cancel(reason);\n    this._abortController.abort();\n  }\n}\n\n/***/ }),\n/* 26 */\n/***/ ((__unused_webpack_module, exports, __w_pdfjs_require__) => {\n\n\n\nObject.defineProperty(exports, \"__esModule\", ({\n  value: true\n}));\nexports.TextLayerRenderTask = void 0;\nexports.renderTextLayer = renderTextLayer;\nexports.updateTextLayer = updateTextLayer;\nvar _util = __w_pdfjs_require__(1);\nvar _display_utils = __w_pdfjs_require__(6);\nconst MAX_TEXT_DIVS_TO_RENDER = 100000;\nconst DEFAULT_FONT_SIZE = 30;\nconst DEFAULT_FONT_ASCENT = 0.8;\nconst ascentCache = new Map();\nfunction getCtx(size, isOffscreenCanvasSupported) {\n  let ctx;\n  if (isOffscreenCanvasSupported && _util.FeatureTest.isOffscreenCanvasSupported) {\n    ctx = new OffscreenCanvas(size, size).getContext(\"2d\", {\n      alpha: false\n    });\n  } else {\n    const canvas = document.createElement(\"canvas\");\n    canvas.width = canvas.height = size;\n    ctx = canvas.getContext(\"2d\", {\n      alpha: false\n    });\n  }\n  return ctx;\n}\nfunction getAscent(fontFamily, isOffscreenCanvasSupported) {\n  const cachedAscent = ascentCache.get(fontFamily);\n  if (cachedAscent) {\n    return cachedAscent;\n  }\n  const ctx = getCtx(DEFAULT_FONT_SIZE, isOffscreenCanvasSupported);\n  ctx.font = `${DEFAULT_FONT_SIZE}px ${fontFamily}`;\n  const metrics = ctx.measureText(\"\");\n  let ascent = metrics.fontBoundingBoxAscent;\n  let descent = Math.abs(metrics.fontBoundingBoxDescent);\n  if (ascent) {\n    const ratio = ascent / (ascent + descent);\n    ascentCache.set(fontFamily, ratio);\n    ctx.canvas.width = ctx.canvas.height = 0;\n    return ratio;\n  }\n  ctx.strokeStyle = \"red\";\n  ctx.clearRect(0, 0, DEFAULT_FONT_SIZE, DEFAULT_FONT_SIZE);\n  ctx.strokeText(\"g\", 0, 0);\n  let pixels = ctx.getImageData(0, 0, DEFAULT_FONT_SIZE, DEFAULT_FONT_SIZE).data;\n  descent = 0;\n  for (let i = pixels.length - 1 - 3; i >= 0; i -= 4) {\n    if (pixels[i] > 0) {\n      descent = Math.ceil(i / 4 / DEFAULT_FONT_SIZE);\n      break;\n    }\n  }\n  ctx.clearRect(0, 0, DEFAULT_FONT_SIZE, DEFAULT_FONT_SIZE);\n  ctx.strokeText(\"A\", 0, DEFAULT_FONT_SIZE);\n  pixels = ctx.getImageData(0, 0, DEFAULT_FONT_SIZE, DEFAULT_FONT_SIZE).data;\n  ascent = 0;\n  for (let i = 0, ii = pixels.length; i < ii; i += 4) {\n    if (pixels[i] > 0) {\n      ascent = DEFAULT_FONT_SIZE - Math.floor(i / 4 / DEFAULT_FONT_SIZE);\n      break;\n    }\n  }\n  ctx.canvas.width = ctx.canvas.height = 0;\n  if (ascent) {\n    const ratio = ascent / (ascent + descent);\n    ascentCache.set(fontFamily, ratio);\n    return ratio;\n  }\n  ascentCache.set(fontFamily, DEFAULT_FONT_ASCENT);\n  return DEFAULT_FONT_ASCENT;\n}\nfunction appendText(task, geom, styles) {\n  const textDiv = document.createElement(\"span\");\n  const textDivProperties = {\n    angle: 0,\n    canvasWidth: 0,\n    hasText: geom.str !== \"\",\n    hasEOL: geom.hasEOL,\n    fontSize: 0\n  };\n  task._textDivs.push(textDiv);\n  const tx = _util.Util.transform(task._transform, geom.transform);\n  let angle = Math.atan2(tx[1], tx[0]);\n  const style = styles[geom.fontName];\n  if (style.vertical) {\n    angle += Math.PI / 2;\n  }\n  const fontHeight = Math.hypot(tx[2], tx[3]);\n  const fontAscent = fontHeight * getAscent(style.fontFamily, task._isOffscreenCanvasSupported);\n  let left, top;\n  if (angle === 0) {\n    left = tx[4];\n    top = tx[5] - fontAscent;\n  } else {\n    left = tx[4] + fontAscent * Math.sin(angle);\n    top = tx[5] - fontAscent * Math.cos(angle);\n  }\n  const scaleFactorStr = \"calc(var(--scale-factor)*\";\n  const divStyle = textDiv.style;\n  if (task._container === task._rootContainer) {\n    divStyle.left = `${(100 * left / task._pageWidth).toFixed(2)}%`;\n    divStyle.top = `${(100 * top / task._pageHeight).toFixed(2)}%`;\n  } else {\n    divStyle.left = `${scaleFactorStr}${left.toFixed(2)}px)`;\n    divStyle.top = `${scaleFactorStr}${top.toFixed(2)}px)`;\n  }\n  divStyle.fontSize = `${scaleFactorStr}${fontHeight.toFixed(2)}px)`;\n  divStyle.fontFamily = style.fontFamily;\n  textDivProperties.fontSize = fontHeight;\n  textDiv.setAttribute(\"role\", \"presentation\");\n  textDiv.textContent = geom.str;\n  textDiv.dir = geom.dir;\n  if (task._fontInspectorEnabled) {\n    textDiv.dataset.fontName = geom.fontName;\n  }\n  if (angle !== 0) {\n    textDivProperties.angle = angle * (180 / Math.PI);\n  }\n  let shouldScaleText = false;\n  if (geom.str.length > 1) {\n    shouldScaleText = true;\n  } else if (geom.str !== \" \" && geom.transform[0] !== geom.transform[3]) {\n    const absScaleX = Math.abs(geom.transform[0]),\n      absScaleY = Math.abs(geom.transform[3]);\n    if (absScaleX !== absScaleY && Math.max(absScaleX, absScaleY) / Math.min(absScaleX, absScaleY) > 1.5) {\n      shouldScaleText = true;\n    }\n  }\n  if (shouldScaleText) {\n    textDivProperties.canvasWidth = style.vertical ? geom.height : geom.width;\n  }\n  task._textDivProperties.set(textDiv, textDivProperties);\n  if (task._isReadableStream) {\n    task._layoutText(textDiv);\n  }\n}\nfunction layout(params) {\n  const {\n    div,\n    scale,\n    properties,\n    ctx,\n    prevFontSize,\n    prevFontFamily\n  } = params;\n  const {\n    style\n  } = div;\n  let transform = \"\";\n  if (properties.canvasWidth !== 0 && properties.hasText) {\n    const {\n      fontFamily\n    } = style;\n    const {\n      canvasWidth,\n      fontSize\n    } = properties;\n    if (prevFontSize !== fontSize || prevFontFamily !== fontFamily) {\n      ctx.font = `${fontSize * scale}px ${fontFamily}`;\n      params.prevFontSize = fontSize;\n      params.prevFontFamily = fontFamily;\n    }\n    const {\n      width\n    } = ctx.measureText(div.textContent);\n    if (width > 0) {\n      transform = `scaleX(${canvasWidth * scale / width})`;\n    }\n  }\n  if (properties.angle !== 0) {\n    transform = `rotate(${properties.angle}deg) ${transform}`;\n  }\n  if (transform.length > 0) {\n    style.transform = transform;\n  }\n}\nfunction render(task) {\n  if (task._canceled) {\n    return;\n  }\n  const textDivs = task._textDivs;\n  const capability = task._capability;\n  const textDivsLength = textDivs.length;\n  if (textDivsLength > MAX_TEXT_DIVS_TO_RENDER) {\n    capability.resolve();\n    return;\n  }\n  if (!task._isReadableStream) {\n    for (const textDiv of textDivs) {\n      task._layoutText(textDiv);\n    }\n  }\n  capability.resolve();\n}\nclass TextLayerRenderTask {\n  constructor({\n    textContentSource,\n    container,\n    viewport,\n    textDivs,\n    textDivProperties,\n    textContentItemsStr,\n    isOffscreenCanvasSupported\n  }) {\n    this._textContentSource = textContentSource;\n    this._isReadableStream = textContentSource instanceof ReadableStream;\n    this._container = this._rootContainer = container;\n    this._textDivs = textDivs || [];\n    this._textContentItemsStr = textContentItemsStr || [];\n    this._isOffscreenCanvasSupported = isOffscreenCanvasSupported;\n    this._fontInspectorEnabled = !!globalThis.FontInspector?.enabled;\n    this._reader = null;\n    this._textDivProperties = textDivProperties || new WeakMap();\n    this._canceled = false;\n    this._capability = (0, _util.createPromiseCapability)();\n    this._layoutTextParams = {\n      prevFontSize: null,\n      prevFontFamily: null,\n      div: null,\n      scale: viewport.scale * (globalThis.devicePixelRatio || 1),\n      properties: null,\n      ctx: getCtx(0, isOffscreenCanvasSupported)\n    };\n    const {\n      pageWidth,\n      pageHeight,\n      pageX,\n      pageY\n    } = viewport.rawDims;\n    this._transform = [1, 0, 0, -1, -pageX, pageY + pageHeight];\n    this._pageWidth = pageWidth;\n    this._pageHeight = pageHeight;\n    (0, _display_utils.setLayerDimensions)(container, viewport);\n    this._capability.promise.finally(() => {\n      this._layoutTextParams = null;\n    }).catch(() => {});\n  }\n  get promise() {\n    return this._capability.promise;\n  }\n  cancel() {\n    this._canceled = true;\n    if (this._reader) {\n      this._reader.cancel(new _util.AbortException(\"TextLayer task cancelled.\")).catch(() => {});\n      this._reader = null;\n    }\n    this._capability.reject(new _util.AbortException(\"TextLayer task cancelled.\"));\n  }\n  _processItems(items, styleCache) {\n    for (const item of items) {\n      if (item.str === undefined) {\n        if (item.type === \"beginMarkedContentProps\" || item.type === \"beginMarkedContent\") {\n          const parent = this._container;\n          this._container = document.createElement(\"span\");\n          this._container.classList.add(\"markedContent\");\n          if (item.id !== null) {\n            this._container.setAttribute(\"id\", `${item.id}`);\n          }\n          parent.append(this._container);\n        } else if (item.type === \"endMarkedContent\") {\n          this._container = this._container.parentNode;\n        }\n        continue;\n      }\n      this._textContentItemsStr.push(item.str);\n      appendText(this, item, styleCache);\n    }\n  }\n  _layoutText(textDiv) {\n    const textDivProperties = this._layoutTextParams.properties = this._textDivProperties.get(textDiv);\n    this._layoutTextParams.div = textDiv;\n    layout(this._layoutTextParams);\n    if (textDivProperties.hasText) {\n      this._container.append(textDiv);\n    }\n    if (textDivProperties.hasEOL) {\n      const br = document.createElement(\"br\");\n      br.setAttribute(\"role\", \"presentation\");\n      this._container.append(br);\n    }\n  }\n  _render() {\n    const capability = (0, _util.createPromiseCapability)();\n    let styleCache = Object.create(null);\n    if (this._isReadableStream) {\n      const pump = () => {\n        this._reader.read().then(({\n          value,\n          done\n        }) => {\n          if (done) {\n            capability.resolve();\n            return;\n          }\n          Object.assign(styleCache, value.styles);\n          this._processItems(value.items, styleCache);\n          pump();\n        }, capability.reject);\n      };\n      this._reader = this._textContentSource.getReader();\n      pump();\n    } else if (this._textContentSource) {\n      const {\n        items,\n        styles\n      } = this._textContentSource;\n      this._processItems(items, styles);\n      capability.resolve();\n    } else {\n      throw new Error('No \"textContentSource\" parameter specified.');\n    }\n    capability.promise.then(() => {\n      styleCache = null;\n      render(this);\n    }, this._capability.reject);\n  }\n}\nexports.TextLayerRenderTask = TextLayerRenderTask;\nfunction renderTextLayer(params) {\n  if (!params.textContentSource && (params.textContent || params.textContentStream)) {\n    (0, _display_utils.deprecated)(\"The TextLayerRender `textContent`/`textContentStream` parameters \" + \"will be removed in the future, please use `textContentSource` instead.\");\n    params.textContentSource = params.textContent || params.textContentStream;\n  }\n  const task = new TextLayerRenderTask(params);\n  task._render();\n  return task;\n}\nfunction updateTextLayer({\n  container,\n  viewport,\n  textDivs,\n  textDivProperties,\n  isOffscreenCanvasSupported,\n  mustRotate = true,\n  mustRescale = true\n}) {\n  if (mustRotate) {\n    (0, _display_utils.setLayerDimensions)(container, {\n      rotation: viewport.rotation\n    });\n  }\n  if (mustRescale) {\n    const ctx = getCtx(0, isOffscreenCanvasSupported);\n    const scale = viewport.scale * (globalThis.devicePixelRatio || 1);\n    const params = {\n      prevFontSize: null,\n      prevFontFamily: null,\n      div: null,\n      scale,\n      properties: null,\n      ctx\n    };\n    for (const div of textDivs) {\n      params.properties = textDivProperties.get(div);\n      params.div = div;\n      layout(params);\n    }\n  }\n}\n\n/***/ }),\n/* 27 */\n/***/ ((__unused_webpack_module, exports, __w_pdfjs_require__) => {\n\n\n\nObject.defineProperty(exports, \"__esModule\", ({\n  value: true\n}));\nexports.AnnotationEditorLayer = void 0;\nvar _util = __w_pdfjs_require__(1);\nvar _tools = __w_pdfjs_require__(5);\nvar _freetext = __w_pdfjs_require__(28);\nvar _ink = __w_pdfjs_require__(29);\nvar _display_utils = __w_pdfjs_require__(6);\nclass AnnotationEditorLayer {\n  #accessibilityManager;\n  #allowClick = false;\n  #boundPointerup = this.pointerup.bind(this);\n  #boundPointerdown = this.pointerdown.bind(this);\n  #editors = new Map();\n  #hadPointerDown = false;\n  #isCleaningUp = false;\n  #uiManager;\n  static _initialized = false;\n  constructor(options) {\n    if (!AnnotationEditorLayer._initialized) {\n      AnnotationEditorLayer._initialized = true;\n      _freetext.FreeTextEditor.initialize(options.l10n);\n      _ink.InkEditor.initialize(options.l10n);\n    }\n    options.uiManager.registerEditorTypes([_freetext.FreeTextEditor, _ink.InkEditor]);\n    this.#uiManager = options.uiManager;\n    this.pageIndex = options.pageIndex;\n    this.div = options.div;\n    this.#accessibilityManager = options.accessibilityManager;\n    this.#uiManager.addLayer(this);\n  }\n  get isEmpty() {\n    return this.#editors.size === 0;\n  }\n  updateToolbar(mode) {\n    this.#uiManager.updateToolbar(mode);\n  }\n  updateMode(mode = this.#uiManager.getMode()) {\n    this.#cleanup();\n    if (mode === _util.AnnotationEditorType.INK) {\n      this.addInkEditorIfNeeded(false);\n      this.disableClick();\n    } else {\n      this.enableClick();\n    }\n    this.#uiManager.unselectAll();\n    if (mode !== _util.AnnotationEditorType.NONE) {\n      this.div.classList.toggle(\"freeTextEditing\", mode === _util.AnnotationEditorType.FREETEXT);\n      this.div.classList.toggle(\"inkEditing\", mode === _util.AnnotationEditorType.INK);\n      this.div.hidden = false;\n    }\n  }\n  addInkEditorIfNeeded(isCommitting) {\n    if (!isCommitting && this.#uiManager.getMode() !== _util.AnnotationEditorType.INK) {\n      return;\n    }\n    if (!isCommitting) {\n      for (const editor of this.#editors.values()) {\n        if (editor.isEmpty()) {\n          editor.setInBackground();\n          return;\n        }\n      }\n    }\n    const editor = this.#createAndAddNewEditor({\n      offsetX: 0,\n      offsetY: 0\n    });\n    editor.setInBackground();\n  }\n  setEditingState(isEditing) {\n    this.#uiManager.setEditingState(isEditing);\n  }\n  addCommands(params) {\n    this.#uiManager.addCommands(params);\n  }\n  enable() {\n    this.div.style.pointerEvents = \"auto\";\n    for (const editor of this.#editors.values()) {\n      editor.enableEditing();\n    }\n  }\n  disable() {\n    this.div.style.pointerEvents = \"none\";\n    for (const editor of this.#editors.values()) {\n      editor.disableEditing();\n    }\n    this.#cleanup();\n    if (this.isEmpty) {\n      this.div.hidden = true;\n    }\n  }\n  setActiveEditor(editor) {\n    const currentActive = this.#uiManager.getActive();\n    if (currentActive === editor) {\n      return;\n    }\n    this.#uiManager.setActiveEditor(editor);\n  }\n  enableClick() {\n    this.div.addEventListener(\"pointerdown\", this.#boundPointerdown);\n    this.div.addEventListener(\"pointerup\", this.#boundPointerup);\n  }\n  disableClick() {\n    this.div.removeEventListener(\"pointerdown\", this.#boundPointerdown);\n    this.div.removeEventListener(\"pointerup\", this.#boundPointerup);\n  }\n  attach(editor) {\n    this.#editors.set(editor.id, editor);\n  }\n  detach(editor) {\n    this.#editors.delete(editor.id);\n    this.#accessibilityManager?.removePointerInTextLayer(editor.contentDiv);\n  }\n  remove(editor) {\n    this.#uiManager.removeEditor(editor);\n    this.detach(editor);\n    editor.div.style.display = \"none\";\n    setTimeout(() => {\n      editor.div.style.display = \"\";\n      editor.div.remove();\n      editor.isAttachedToDOM = false;\n      if (document.activeElement === document.body) {\n        this.#uiManager.focusMainContainer();\n      }\n    }, 0);\n    if (!this.#isCleaningUp) {\n      this.addInkEditorIfNeeded(false);\n    }\n  }\n  #changeParent(editor) {\n    if (editor.parent === this) {\n      return;\n    }\n    this.attach(editor);\n    editor.parent?.detach(editor);\n    editor.setParent(this);\n    if (editor.div && editor.isAttachedToDOM) {\n      editor.div.remove();\n      this.div.append(editor.div);\n    }\n  }\n  add(editor) {\n    this.#changeParent(editor);\n    this.#uiManager.addEditor(editor);\n    this.attach(editor);\n    if (!editor.isAttachedToDOM) {\n      const div = editor.render();\n      this.div.append(div);\n      editor.isAttachedToDOM = true;\n    }\n    this.moveEditorInDOM(editor);\n    editor.onceAdded();\n    this.#uiManager.addToAnnotationStorage(editor);\n  }\n  moveEditorInDOM(editor) {\n    this.#accessibilityManager?.moveElementInDOM(this.div, editor.div, editor.contentDiv, true);\n  }\n  addOrRebuild(editor) {\n    if (editor.needsToBeRebuilt()) {\n      editor.rebuild();\n    } else {\n      this.add(editor);\n    }\n  }\n  addANewEditor(editor) {\n    const cmd = () => {\n      this.addOrRebuild(editor);\n    };\n    const undo = () => {\n      editor.remove();\n    };\n    this.addCommands({\n      cmd,\n      undo,\n      mustExec: true\n    });\n  }\n  addUndoableEditor(editor) {\n    const cmd = () => {\n      this.addOrRebuild(editor);\n    };\n    const undo = () => {\n      editor.remove();\n    };\n    this.addCommands({\n      cmd,\n      undo,\n      mustExec: false\n    });\n  }\n  getNextId() {\n    return this.#uiManager.getId();\n  }\n  #createNewEditor(params) {\n    switch (this.#uiManager.getMode()) {\n      case _util.AnnotationEditorType.FREETEXT:\n        return new _freetext.FreeTextEditor(params);\n      case _util.AnnotationEditorType.INK:\n        return new _ink.InkEditor(params);\n    }\n    return null;\n  }\n  deserialize(data) {\n    switch (data.annotationType) {\n      case _util.AnnotationEditorType.FREETEXT:\n        return _freetext.FreeTextEditor.deserialize(data, this, this.#uiManager);\n      case _util.AnnotationEditorType.INK:\n        return _ink.InkEditor.deserialize(data, this, this.#uiManager);\n    }\n    return null;\n  }\n  #createAndAddNewEditor(event) {\n    const id = this.getNextId();\n    const editor = this.#createNewEditor({\n      parent: this,\n      id,\n      x: event.offsetX,\n      y: event.offsetY,\n      uiManager: this.#uiManager\n    });\n    if (editor) {\n      this.add(editor);\n    }\n    return editor;\n  }\n  setSelected(editor) {\n    this.#uiManager.setSelected(editor);\n  }\n  toggleSelected(editor) {\n    this.#uiManager.toggleSelected(editor);\n  }\n  isSelected(editor) {\n    return this.#uiManager.isSelected(editor);\n  }\n  unselect(editor) {\n    this.#uiManager.unselect(editor);\n  }\n  pointerup(event) {\n    const {\n      isMac\n    } = _util.FeatureTest.platform;\n    if (event.button !== 0 || event.ctrlKey && isMac) {\n      return;\n    }\n    if (event.target !== this.div) {\n      return;\n    }\n    if (!this.#hadPointerDown) {\n      return;\n    }\n    this.#hadPointerDown = false;\n    if (!this.#allowClick) {\n      this.#allowClick = true;\n      return;\n    }\n    this.#createAndAddNewEditor(event);\n  }\n  pointerdown(event) {\n    const {\n      isMac\n    } = _util.FeatureTest.platform;\n    if (event.button !== 0 || event.ctrlKey && isMac) {\n      return;\n    }\n    if (event.target !== this.div) {\n      return;\n    }\n    this.#hadPointerDown = true;\n    const editor = this.#uiManager.getActive();\n    this.#allowClick = !editor || editor.isEmpty();\n  }\n  drop(event) {\n    const id = event.dataTransfer.getData(\"text/plain\");\n    const editor = this.#uiManager.getEditor(id);\n    if (!editor) {\n      return;\n    }\n    event.preventDefault();\n    event.dataTransfer.dropEffect = \"move\";\n    this.#changeParent(editor);\n    const rect = this.div.getBoundingClientRect();\n    const endX = event.clientX - rect.x;\n    const endY = event.clientY - rect.y;\n    editor.translate(endX - editor.startX, endY - editor.startY);\n    this.moveEditorInDOM(editor);\n    editor.div.focus();\n  }\n  dragover(event) {\n    event.preventDefault();\n  }\n  destroy() {\n    if (this.#uiManager.getActive()?.parent === this) {\n      this.#uiManager.setActiveEditor(null);\n    }\n    for (const editor of this.#editors.values()) {\n      this.#accessibilityManager?.removePointerInTextLayer(editor.contentDiv);\n      editor.setParent(null);\n      editor.isAttachedToDOM = false;\n      editor.div.remove();\n    }\n    this.div = null;\n    this.#editors.clear();\n    this.#uiManager.removeLayer(this);\n  }\n  #cleanup() {\n    this.#isCleaningUp = true;\n    for (const editor of this.#editors.values()) {\n      if (editor.isEmpty()) {\n        editor.remove();\n      }\n    }\n    this.#isCleaningUp = false;\n  }\n  render({\n    viewport\n  }) {\n    this.viewport = viewport;\n    (0, _display_utils.setLayerDimensions)(this.div, viewport);\n    (0, _tools.bindEvents)(this, this.div, [\"dragover\", \"drop\"]);\n    for (const editor of this.#uiManager.getEditors(this.pageIndex)) {\n      this.add(editor);\n    }\n    this.updateMode();\n  }\n  update({\n    viewport\n  }) {\n    this.#uiManager.commitOrRemove();\n    this.viewport = viewport;\n    (0, _display_utils.setLayerDimensions)(this.div, {\n      rotation: viewport.rotation\n    });\n    this.updateMode();\n  }\n  get pageDimensions() {\n    const {\n      pageWidth,\n      pageHeight\n    } = this.viewport.rawDims;\n    return [pageWidth, pageHeight];\n  }\n}\nexports.AnnotationEditorLayer = AnnotationEditorLayer;\n\n/***/ }),\n/* 28 */\n/***/ ((__unused_webpack_module, exports, __w_pdfjs_require__) => {\n\n\n\nObject.defineProperty(exports, \"__esModule\", ({\n  value: true\n}));\nexports.FreeTextEditor = void 0;\nvar _util = __w_pdfjs_require__(1);\nvar _tools = __w_pdfjs_require__(5);\nvar _editor = __w_pdfjs_require__(4);\nclass FreeTextEditor extends _editor.AnnotationEditor {\n  #boundEditorDivBlur = this.editorDivBlur.bind(this);\n  #boundEditorDivFocus = this.editorDivFocus.bind(this);\n  #boundEditorDivInput = this.editorDivInput.bind(this);\n  #boundEditorDivKeydown = this.editorDivKeydown.bind(this);\n  #color;\n  #content = \"\";\n  #editorDivId = `${this.id}-editor`;\n  #hasAlreadyBeenCommitted = false;\n  #fontSize;\n  static _freeTextDefaultContent = \"\";\n  static _l10nPromise;\n  static _internalPadding = 0;\n  static _defaultColor = null;\n  static _defaultFontSize = 10;\n  static _keyboardManager = new _tools.KeyboardManager([[[\"ctrl+Enter\", \"mac+meta+Enter\", \"Escape\", \"mac+Escape\"], FreeTextEditor.prototype.commitOrRemove]]);\n  static _type = \"freetext\";\n  constructor(params) {\n    super({\n      ...params,\n      name: \"freeTextEditor\"\n    });\n    this.#color = params.color || FreeTextEditor._defaultColor || _editor.AnnotationEditor._defaultLineColor;\n    this.#fontSize = params.fontSize || FreeTextEditor._defaultFontSize;\n  }\n  static initialize(l10n) {\n    this._l10nPromise = new Map([\"free_text2_default_content\", \"editor_free_text2_aria_label\"].map(str => [str, l10n.get(str)]));\n    const style = getComputedStyle(document.documentElement);\n    this._internalPadding = parseFloat(style.getPropertyValue(\"--freetext-padding\"));\n  }\n  static updateDefaultParams(type, value) {\n    switch (type) {\n      case _util.AnnotationEditorParamsType.FREETEXT_SIZE:\n        FreeTextEditor._defaultFontSize = value;\n        break;\n      case _util.AnnotationEditorParamsType.FREETEXT_COLOR:\n        FreeTextEditor._defaultColor = value;\n        break;\n    }\n  }\n  updateParams(type, value) {\n    switch (type) {\n      case _util.AnnotationEditorParamsType.FREETEXT_SIZE:\n        this.#updateFontSize(value);\n        break;\n      case _util.AnnotationEditorParamsType.FREETEXT_COLOR:\n        this.#updateColor(value);\n        break;\n    }\n  }\n  static get defaultPropertiesToUpdate() {\n    return [[_util.AnnotationEditorParamsType.FREETEXT_SIZE, FreeTextEditor._defaultFontSize], [_util.AnnotationEditorParamsType.FREETEXT_COLOR, FreeTextEditor._defaultColor || _editor.AnnotationEditor._defaultLineColor]];\n  }\n  get propertiesToUpdate() {\n    return [[_util.AnnotationEditorParamsType.FREETEXT_SIZE, this.#fontSize], [_util.AnnotationEditorParamsType.FREETEXT_COLOR, this.#color]];\n  }\n  #updateFontSize(fontSize) {\n    const setFontsize = size => {\n      this.editorDiv.style.fontSize = `calc(${size}px * var(--scale-factor))`;\n      this.translate(0, -(size - this.#fontSize) * this.parentScale);\n      this.#fontSize = size;\n      this.#setEditorDimensions();\n    };\n    const savedFontsize = this.#fontSize;\n    this.addCommands({\n      cmd: () => {\n        setFontsize(fontSize);\n      },\n      undo: () => {\n        setFontsize(savedFontsize);\n      },\n      mustExec: true,\n      type: _util.AnnotationEditorParamsType.FREETEXT_SIZE,\n      overwriteIfSameType: true,\n      keepUndo: true\n    });\n  }\n  #updateColor(color) {\n    const savedColor = this.#color;\n    this.addCommands({\n      cmd: () => {\n        this.#color = this.editorDiv.style.color = color;\n      },\n      undo: () => {\n        this.#color = this.editorDiv.style.color = savedColor;\n      },\n      mustExec: true,\n      type: _util.AnnotationEditorParamsType.FREETEXT_COLOR,\n      overwriteIfSameType: true,\n      keepUndo: true\n    });\n  }\n  getInitialTranslation() {\n    const scale = this.parentScale;\n    return [-FreeTextEditor._internalPadding * scale, -(FreeTextEditor._internalPadding + this.#fontSize) * scale];\n  }\n  rebuild() {\n    super.rebuild();\n    if (this.div === null) {\n      return;\n    }\n    if (!this.isAttachedToDOM) {\n      this.parent.add(this);\n    }\n  }\n  enableEditMode() {\n    if (this.isInEditMode()) {\n      return;\n    }\n    this.parent.setEditingState(false);\n    this.parent.updateToolbar(_util.AnnotationEditorType.FREETEXT);\n    super.enableEditMode();\n    this.overlayDiv.classList.remove(\"enabled\");\n    this.editorDiv.contentEditable = true;\n    this.div.draggable = false;\n    this.div.removeAttribute(\"aria-activedescendant\");\n    this.editorDiv.addEventListener(\"keydown\", this.#boundEditorDivKeydown);\n    this.editorDiv.addEventListener(\"focus\", this.#boundEditorDivFocus);\n    this.editorDiv.addEventListener(\"blur\", this.#boundEditorDivBlur);\n    this.editorDiv.addEventListener(\"input\", this.#boundEditorDivInput);\n  }\n  disableEditMode() {\n    if (!this.isInEditMode()) {\n      return;\n    }\n    this.parent.setEditingState(true);\n    super.disableEditMode();\n    this.overlayDiv.classList.add(\"enabled\");\n    this.editorDiv.contentEditable = false;\n    this.div.setAttribute(\"aria-activedescendant\", this.#editorDivId);\n    this.div.draggable = true;\n    this.editorDiv.removeEventListener(\"keydown\", this.#boundEditorDivKeydown);\n    this.editorDiv.removeEventListener(\"focus\", this.#boundEditorDivFocus);\n    this.editorDiv.removeEventListener(\"blur\", this.#boundEditorDivBlur);\n    this.editorDiv.removeEventListener(\"input\", this.#boundEditorDivInput);\n    this.div.focus({\n      preventScroll: true\n    });\n    this.isEditing = false;\n    this.parent.div.classList.add(\"freeTextEditing\");\n  }\n  focusin(event) {\n    super.focusin(event);\n    if (event.target !== this.editorDiv) {\n      this.editorDiv.focus();\n    }\n  }\n  onceAdded() {\n    if (this.width) {\n      return;\n    }\n    this.enableEditMode();\n    this.editorDiv.focus();\n  }\n  isEmpty() {\n    return !this.editorDiv || this.editorDiv.innerText.trim() === \"\";\n  }\n  remove() {\n    this.isEditing = false;\n    this.parent.setEditingState(true);\n    this.parent.div.classList.add(\"freeTextEditing\");\n    super.remove();\n  }\n  #extractText() {\n    const divs = this.editorDiv.getElementsByTagName(\"div\");\n    if (divs.length === 0) {\n      return this.editorDiv.innerText;\n    }\n    const buffer = [];\n    for (const div of divs) {\n      buffer.push(div.innerText.replace(/\\r\\n?|\\n/, \"\"));\n    }\n    return buffer.join(\"\\n\");\n  }\n  #setEditorDimensions() {\n    const [parentWidth, parentHeight] = this.parentDimensions;\n    let rect;\n    if (this.isAttachedToDOM) {\n      rect = this.div.getBoundingClientRect();\n    } else {\n      const {\n        currentLayer,\n        div\n      } = this;\n      const savedDisplay = div.style.display;\n      div.style.display = \"hidden\";\n      currentLayer.div.append(this.div);\n      rect = div.getBoundingClientRect();\n      div.remove();\n      div.style.display = savedDisplay;\n    }\n    this.width = rect.width / parentWidth;\n    this.height = rect.height / parentHeight;\n  }\n  commit() {\n    if (!this.isInEditMode()) {\n      return;\n    }\n    super.commit();\n    if (!this.#hasAlreadyBeenCommitted) {\n      this.#hasAlreadyBeenCommitted = true;\n      this.parent.addUndoableEditor(this);\n    }\n    this.disableEditMode();\n    this.#content = this.#extractText().trimEnd();\n    this.#setEditorDimensions();\n  }\n  shouldGetKeyboardEvents() {\n    return this.isInEditMode();\n  }\n  dblclick(event) {\n    this.enableEditMode();\n    this.editorDiv.focus();\n  }\n  keydown(event) {\n    if (event.target === this.div && event.key === \"Enter\") {\n      this.enableEditMode();\n      this.editorDiv.focus();\n    }\n  }\n  editorDivKeydown(event) {\n    FreeTextEditor._keyboardManager.exec(this, event);\n  }\n  editorDivFocus(event) {\n    this.isEditing = true;\n  }\n  editorDivBlur(event) {\n    this.isEditing = false;\n  }\n  editorDivInput(event) {\n    this.parent.div.classList.toggle(\"freeTextEditing\", this.isEmpty());\n  }\n  disableEditing() {\n    this.editorDiv.setAttribute(\"role\", \"comment\");\n    this.editorDiv.removeAttribute(\"aria-multiline\");\n  }\n  enableEditing() {\n    this.editorDiv.setAttribute(\"role\", \"textbox\");\n    this.editorDiv.setAttribute(\"aria-multiline\", true);\n  }\n  render() {\n    if (this.div) {\n      return this.div;\n    }\n    let baseX, baseY;\n    if (this.width) {\n      baseX = this.x;\n      baseY = this.y;\n    }\n    super.render();\n    this.editorDiv = document.createElement(\"div\");\n    this.editorDiv.className = \"internal\";\n    this.editorDiv.setAttribute(\"id\", this.#editorDivId);\n    this.enableEditing();\n    FreeTextEditor._l10nPromise.get(\"editor_free_text2_aria_label\").then(msg => this.editorDiv?.setAttribute(\"aria-label\", msg));\n    FreeTextEditor._l10nPromise.get(\"free_text2_default_content\").then(msg => this.editorDiv?.setAttribute(\"default-content\", msg));\n    this.editorDiv.contentEditable = true;\n    const {\n      style\n    } = this.editorDiv;\n    style.fontSize = `calc(${this.#fontSize}px * var(--scale-factor))`;\n    style.color = this.#color;\n    this.div.append(this.editorDiv);\n    this.overlayDiv = document.createElement(\"div\");\n    this.overlayDiv.classList.add(\"overlay\", \"enabled\");\n    this.div.append(this.overlayDiv);\n    (0, _tools.bindEvents)(this, this.div, [\"dblclick\", \"keydown\"]);\n    if (this.width) {\n      const [parentWidth, parentHeight] = this.parentDimensions;\n      this.setAt(baseX * parentWidth, baseY * parentHeight, this.width * parentWidth, this.height * parentHeight);\n      for (const line of this.#content.split(\"\\n\")) {\n        const div = document.createElement(\"div\");\n        div.append(line ? document.createTextNode(line) : document.createElement(\"br\"));\n        this.editorDiv.append(div);\n      }\n      this.div.draggable = true;\n      this.editorDiv.contentEditable = false;\n    } else {\n      this.div.draggable = false;\n      this.editorDiv.contentEditable = true;\n    }\n    return this.div;\n  }\n  get contentDiv() {\n    return this.editorDiv;\n  }\n  static deserialize(data, parent, uiManager) {\n    const editor = super.deserialize(data, parent, uiManager);\n    editor.#fontSize = data.fontSize;\n    editor.#color = _util.Util.makeHexColor(...data.color);\n    editor.#content = data.value;\n    return editor;\n  }\n  serialize() {\n    if (this.isEmpty()) {\n      return null;\n    }\n    const padding = FreeTextEditor._internalPadding * this.parentScale;\n    const rect = this.getRect(padding, padding);\n    const color = _editor.AnnotationEditor._colorManager.convert(this.isAttachedToDOM ? getComputedStyle(this.editorDiv).color : this.#color);\n    return {\n      annotationType: _util.AnnotationEditorType.FREETEXT,\n      color,\n      fontSize: this.#fontSize,\n      value: this.#content,\n      pageIndex: this.pageIndex,\n      rect,\n      rotation: this.rotation\n    };\n  }\n}\nexports.FreeTextEditor = FreeTextEditor;\n\n/***/ }),\n/* 29 */\n/***/ ((__unused_webpack_module, exports, __w_pdfjs_require__) => {\n\n\n\nObject.defineProperty(exports, \"__esModule\", ({\n  value: true\n}));\nexports.InkEditor = void 0;\nObject.defineProperty(exports, \"fitCurve\", ({\n  enumerable: true,\n  get: function () {\n    return _pdfjsFitCurve.fitCurve;\n  }\n}));\nvar _util = __w_pdfjs_require__(1);\nvar _editor = __w_pdfjs_require__(4);\nvar _pdfjsFitCurve = __w_pdfjs_require__(30);\nvar _tools = __w_pdfjs_require__(5);\nconst RESIZER_SIZE = 16;\nconst TIME_TO_WAIT_BEFORE_FIXING_DIMS = 100;\nclass InkEditor extends _editor.AnnotationEditor {\n  #aspectRatio = 0;\n  #baseHeight = 0;\n  #baseWidth = 0;\n  #boundCanvasPointermove = this.canvasPointermove.bind(this);\n  #boundCanvasPointerleave = this.canvasPointerleave.bind(this);\n  #boundCanvasPointerup = this.canvasPointerup.bind(this);\n  #boundCanvasPointerdown = this.canvasPointerdown.bind(this);\n  #disableEditing = false;\n  #isCanvasInitialized = false;\n  #lastPoint = null;\n  #observer = null;\n  #realWidth = 0;\n  #realHeight = 0;\n  #requestFrameCallback = null;\n  static _defaultColor = null;\n  static _defaultOpacity = 1;\n  static _defaultThickness = 1;\n  static _l10nPromise;\n  static _type = \"ink\";\n  constructor(params) {\n    super({\n      ...params,\n      name: \"inkEditor\"\n    });\n    this.color = params.color || null;\n    this.thickness = params.thickness || null;\n    this.opacity = params.opacity || null;\n    this.paths = [];\n    this.bezierPath2D = [];\n    this.currentPath = [];\n    this.scaleFactor = 1;\n    this.translationX = this.translationY = 0;\n    this.x = 0;\n    this.y = 0;\n  }\n  static initialize(l10n) {\n    this._l10nPromise = new Map([\"editor_ink_canvas_aria_label\", \"editor_ink2_aria_label\"].map(str => [str, l10n.get(str)]));\n  }\n  static updateDefaultParams(type, value) {\n    switch (type) {\n      case _util.AnnotationEditorParamsType.INK_THICKNESS:\n        InkEditor._defaultThickness = value;\n        break;\n      case _util.AnnotationEditorParamsType.INK_COLOR:\n        InkEditor._defaultColor = value;\n        break;\n      case _util.AnnotationEditorParamsType.INK_OPACITY:\n        InkEditor._defaultOpacity = value / 100;\n        break;\n    }\n  }\n  updateParams(type, value) {\n    switch (type) {\n      case _util.AnnotationEditorParamsType.INK_THICKNESS:\n        this.#updateThickness(value);\n        break;\n      case _util.AnnotationEditorParamsType.INK_COLOR:\n        this.#updateColor(value);\n        break;\n      case _util.AnnotationEditorParamsType.INK_OPACITY:\n        this.#updateOpacity(value);\n        break;\n    }\n  }\n  static get defaultPropertiesToUpdate() {\n    return [[_util.AnnotationEditorParamsType.INK_THICKNESS, InkEditor._defaultThickness], [_util.AnnotationEditorParamsType.INK_COLOR, InkEditor._defaultColor || _editor.AnnotationEditor._defaultLineColor], [_util.AnnotationEditorParamsType.INK_OPACITY, Math.round(InkEditor._defaultOpacity * 100)]];\n  }\n  get propertiesToUpdate() {\n    return [[_util.AnnotationEditorParamsType.INK_THICKNESS, this.thickness || InkEditor._defaultThickness], [_util.AnnotationEditorParamsType.INK_COLOR, this.color || InkEditor._defaultColor || _editor.AnnotationEditor._defaultLineColor], [_util.AnnotationEditorParamsType.INK_OPACITY, Math.round(100 * (this.opacity ?? InkEditor._defaultOpacity))]];\n  }\n  #updateThickness(thickness) {\n    const savedThickness = this.thickness;\n    this.addCommands({\n      cmd: () => {\n        this.thickness = thickness;\n        this.#fitToContent();\n      },\n      undo: () => {\n        this.thickness = savedThickness;\n        this.#fitToContent();\n      },\n      mustExec: true,\n      type: _util.AnnotationEditorParamsType.INK_THICKNESS,\n      overwriteIfSameType: true,\n      keepUndo: true\n    });\n  }\n  #updateColor(color) {\n    const savedColor = this.color;\n    this.addCommands({\n      cmd: () => {\n        this.color = color;\n        this.#redraw();\n      },\n      undo: () => {\n        this.color = savedColor;\n        this.#redraw();\n      },\n      mustExec: true,\n      type: _util.AnnotationEditorParamsType.INK_COLOR,\n      overwriteIfSameType: true,\n      keepUndo: true\n    });\n  }\n  #updateOpacity(opacity) {\n    opacity /= 100;\n    const savedOpacity = this.opacity;\n    this.addCommands({\n      cmd: () => {\n        this.opacity = opacity;\n        this.#redraw();\n      },\n      undo: () => {\n        this.opacity = savedOpacity;\n        this.#redraw();\n      },\n      mustExec: true,\n      type: _util.AnnotationEditorParamsType.INK_OPACITY,\n      overwriteIfSameType: true,\n      keepUndo: true\n    });\n  }\n  rebuild() {\n    super.rebuild();\n    if (this.div === null) {\n      return;\n    }\n    if (!this.canvas) {\n      this.#createCanvas();\n      this.#createObserver();\n    }\n    if (!this.isAttachedToDOM) {\n      this.parent.add(this);\n      this.#setCanvasDims();\n    }\n    this.#fitToContent();\n  }\n  remove() {\n    if (this.canvas === null) {\n      return;\n    }\n    if (!this.isEmpty()) {\n      this.commit();\n    }\n    this.canvas.width = this.canvas.height = 0;\n    this.canvas.remove();\n    this.canvas = null;\n    this.#observer.disconnect();\n    this.#observer = null;\n    super.remove();\n  }\n  setParent(parent) {\n    if (!this.parent && parent) {\n      this._uiManager.removeShouldRescale(this);\n    } else if (this.parent && parent === null) {\n      this._uiManager.addShouldRescale(this);\n    }\n    super.setParent(parent);\n  }\n  onScaleChanging() {\n    const [parentWidth, parentHeight] = this.parentDimensions;\n    const width = this.width * parentWidth;\n    const height = this.height * parentHeight;\n    this.setDimensions(width, height);\n  }\n  enableEditMode() {\n    if (this.#disableEditing || this.canvas === null) {\n      return;\n    }\n    super.enableEditMode();\n    this.div.draggable = false;\n    this.canvas.addEventListener(\"pointerdown\", this.#boundCanvasPointerdown);\n    this.canvas.addEventListener(\"pointerup\", this.#boundCanvasPointerup);\n  }\n  disableEditMode() {\n    if (!this.isInEditMode() || this.canvas === null) {\n      return;\n    }\n    super.disableEditMode();\n    this.div.draggable = !this.isEmpty();\n    this.div.classList.remove(\"editing\");\n    this.canvas.removeEventListener(\"pointerdown\", this.#boundCanvasPointerdown);\n    this.canvas.removeEventListener(\"pointerup\", this.#boundCanvasPointerup);\n  }\n  onceAdded() {\n    this.div.draggable = !this.isEmpty();\n  }\n  isEmpty() {\n    return this.paths.length === 0 || this.paths.length === 1 && this.paths[0].length === 0;\n  }\n  #getInitialBBox() {\n    const {\n      parentRotation,\n      parentDimensions: [width, height]\n    } = this;\n    switch (parentRotation) {\n      case 90:\n        return [0, height, height, width];\n      case 180:\n        return [width, height, width, height];\n      case 270:\n        return [width, 0, height, width];\n      default:\n        return [0, 0, width, height];\n    }\n  }\n  #setStroke() {\n    const {\n      ctx,\n      color,\n      opacity,\n      thickness,\n      parentScale,\n      scaleFactor\n    } = this;\n    ctx.lineWidth = thickness * parentScale / scaleFactor;\n    ctx.lineCap = \"round\";\n    ctx.lineJoin = \"round\";\n    ctx.miterLimit = 10;\n    ctx.strokeStyle = `${color}${(0, _tools.opacityToHex)(opacity)}`;\n  }\n  #startDrawing(x, y) {\n    this.isEditing = true;\n    if (!this.#isCanvasInitialized) {\n      this.#isCanvasInitialized = true;\n      this.#setCanvasDims();\n      this.thickness ||= InkEditor._defaultThickness;\n      this.color ||= InkEditor._defaultColor || _editor.AnnotationEditor._defaultLineColor;\n      this.opacity ??= InkEditor._defaultOpacity;\n    }\n    this.currentPath.push([x, y]);\n    this.#lastPoint = null;\n    this.#setStroke();\n    this.ctx.beginPath();\n    this.ctx.moveTo(x, y);\n    this.#requestFrameCallback = () => {\n      if (!this.#requestFrameCallback) {\n        return;\n      }\n      if (this.#lastPoint) {\n        if (this.isEmpty()) {\n          this.ctx.setTransform(1, 0, 0, 1, 0, 0);\n          this.ctx.clearRect(0, 0, this.canvas.width, this.canvas.height);\n        } else {\n          this.#redraw();\n        }\n        this.ctx.lineTo(...this.#lastPoint);\n        this.#lastPoint = null;\n        this.ctx.stroke();\n      }\n      window.requestAnimationFrame(this.#requestFrameCallback);\n    };\n    window.requestAnimationFrame(this.#requestFrameCallback);\n  }\n  #draw(x, y) {\n    const [lastX, lastY] = this.currentPath.at(-1);\n    if (x === lastX && y === lastY) {\n      return;\n    }\n    this.currentPath.push([x, y]);\n    this.#lastPoint = [x, y];\n  }\n  #stopDrawing(x, y) {\n    this.ctx.closePath();\n    this.#requestFrameCallback = null;\n    x = Math.min(Math.max(x, 0), this.canvas.width);\n    y = Math.min(Math.max(y, 0), this.canvas.height);\n    const [lastX, lastY] = this.currentPath.at(-1);\n    if (x !== lastX || y !== lastY) {\n      this.currentPath.push([x, y]);\n    }\n    let bezier;\n    if (this.currentPath.length !== 1) {\n      bezier = (0, _pdfjsFitCurve.fitCurve)(this.currentPath, 30, null);\n    } else {\n      const xy = [x, y];\n      bezier = [[xy, xy.slice(), xy.slice(), xy]];\n    }\n    const path2D = InkEditor.#buildPath2D(bezier);\n    this.currentPath.length = 0;\n    const cmd = () => {\n      this.paths.push(bezier);\n      this.bezierPath2D.push(path2D);\n      this.rebuild();\n    };\n    const undo = () => {\n      this.paths.pop();\n      this.bezierPath2D.pop();\n      if (this.paths.length === 0) {\n        this.remove();\n      } else {\n        if (!this.canvas) {\n          this.#createCanvas();\n          this.#createObserver();\n        }\n        this.#fitToContent();\n      }\n    };\n    this.addCommands({\n      cmd,\n      undo,\n      mustExec: true\n    });\n  }\n  #redraw() {\n    if (this.isEmpty()) {\n      this.#updateTransform();\n      return;\n    }\n    this.#setStroke();\n    const {\n      canvas,\n      ctx\n    } = this;\n    ctx.setTransform(1, 0, 0, 1, 0, 0);\n    ctx.clearRect(0, 0, canvas.width, canvas.height);\n    this.#updateTransform();\n    for (const path of this.bezierPath2D) {\n      ctx.stroke(path);\n    }\n  }\n  commit() {\n    if (this.#disableEditing) {\n      return;\n    }\n    super.commit();\n    this.isEditing = false;\n    this.disableEditMode();\n    this.setInForeground();\n    this.#disableEditing = true;\n    this.div.classList.add(\"disabled\");\n    this.#fitToContent(true);\n    this.parent.addInkEditorIfNeeded(true);\n    this.parent.moveEditorInDOM(this);\n    this.div.focus({\n      preventScroll: true\n    });\n  }\n  focusin(event) {\n    super.focusin(event);\n    this.enableEditMode();\n  }\n  canvasPointerdown(event) {\n    if (event.button !== 0 || !this.isInEditMode() || this.#disableEditing) {\n      return;\n    }\n    this.setInForeground();\n    if (event.type !== \"mouse\") {\n      this.div.focus();\n    }\n    event.stopPropagation();\n    this.canvas.addEventListener(\"pointerleave\", this.#boundCanvasPointerleave);\n    this.canvas.addEventListener(\"pointermove\", this.#boundCanvasPointermove);\n    this.#startDrawing(event.offsetX, event.offsetY);\n  }\n  canvasPointermove(event) {\n    event.stopPropagation();\n    this.#draw(event.offsetX, event.offsetY);\n  }\n  canvasPointerup(event) {\n    if (event.button !== 0) {\n      return;\n    }\n    if (this.isInEditMode() && this.currentPath.length !== 0) {\n      event.stopPropagation();\n      this.#endDrawing(event);\n      this.setInBackground();\n    }\n  }\n  canvasPointerleave(event) {\n    this.#endDrawing(event);\n    this.setInBackground();\n  }\n  #endDrawing(event) {\n    this.#stopDrawing(event.offsetX, event.offsetY);\n    this.canvas.removeEventListener(\"pointerleave\", this.#boundCanvasPointerleave);\n    this.canvas.removeEventListener(\"pointermove\", this.#boundCanvasPointermove);\n    this.addToAnnotationStorage();\n  }\n  #createCanvas() {\n    this.canvas = document.createElement(\"canvas\");\n    this.canvas.width = this.canvas.height = 0;\n    this.canvas.className = \"inkEditorCanvas\";\n    InkEditor._l10nPromise.get(\"editor_ink_canvas_aria_label\").then(msg => this.canvas?.setAttribute(\"aria-label\", msg));\n    this.div.append(this.canvas);\n    this.ctx = this.canvas.getContext(\"2d\");\n  }\n  #createObserver() {\n    let timeoutId = null;\n    this.#observer = new ResizeObserver(entries => {\n      const rect = entries[0].contentRect;\n      if (rect.width && rect.height) {\n        if (timeoutId !== null) {\n          clearTimeout(timeoutId);\n        }\n        timeoutId = setTimeout(() => {\n          this.fixDims();\n          timeoutId = null;\n        }, TIME_TO_WAIT_BEFORE_FIXING_DIMS);\n        this.setDimensions(rect.width, rect.height);\n      }\n    });\n    this.#observer.observe(this.div);\n  }\n  render() {\n    if (this.div) {\n      return this.div;\n    }\n    let baseX, baseY;\n    if (this.width) {\n      baseX = this.x;\n      baseY = this.y;\n    }\n    super.render();\n    InkEditor._l10nPromise.get(\"editor_ink2_aria_label\").then(msg => this.div?.setAttribute(\"aria-label\", msg));\n    const [x, y, w, h] = this.#getInitialBBox();\n    this.setAt(x, y, 0, 0);\n    this.setDims(w, h);\n    this.#createCanvas();\n    if (this.width) {\n      const [parentWidth, parentHeight] = this.parentDimensions;\n      this.setAt(baseX * parentWidth, baseY * parentHeight, this.width * parentWidth, this.height * parentHeight);\n      this.#isCanvasInitialized = true;\n      this.#setCanvasDims();\n      this.setDims(this.width * parentWidth, this.height * parentHeight);\n      this.#redraw();\n      this.#setMinDims();\n      this.div.classList.add(\"disabled\");\n    } else {\n      this.div.classList.add(\"editing\");\n      this.enableEditMode();\n    }\n    this.#createObserver();\n    return this.div;\n  }\n  #setCanvasDims() {\n    if (!this.#isCanvasInitialized) {\n      return;\n    }\n    const [parentWidth, parentHeight] = this.parentDimensions;\n    this.canvas.width = Math.ceil(this.width * parentWidth);\n    this.canvas.height = Math.ceil(this.height * parentHeight);\n    this.#updateTransform();\n  }\n  setDimensions(width, height) {\n    const roundedWidth = Math.round(width);\n    const roundedHeight = Math.round(height);\n    if (this.#realWidth === roundedWidth && this.#realHeight === roundedHeight) {\n      return;\n    }\n    this.#realWidth = roundedWidth;\n    this.#realHeight = roundedHeight;\n    this.canvas.style.visibility = \"hidden\";\n    if (this.#aspectRatio && Math.abs(this.#aspectRatio - width / height) > 1e-2) {\n      height = Math.ceil(width / this.#aspectRatio);\n      this.setDims(width, height);\n    }\n    const [parentWidth, parentHeight] = this.parentDimensions;\n    this.width = width / parentWidth;\n    this.height = height / parentHeight;\n    if (this.#disableEditing) {\n      this.#setScaleFactor(width, height);\n    }\n    this.#setCanvasDims();\n    this.#redraw();\n    this.canvas.style.visibility = \"visible\";\n  }\n  #setScaleFactor(width, height) {\n    const padding = this.#getPadding();\n    const scaleFactorW = (width - padding) / this.#baseWidth;\n    const scaleFactorH = (height - padding) / this.#baseHeight;\n    this.scaleFactor = Math.min(scaleFactorW, scaleFactorH);\n  }\n  #updateTransform() {\n    const padding = this.#getPadding() / 2;\n    this.ctx.setTransform(this.scaleFactor, 0, 0, this.scaleFactor, this.translationX * this.scaleFactor + padding, this.translationY * this.scaleFactor + padding);\n  }\n  static #buildPath2D(bezier) {\n    const path2D = new Path2D();\n    for (let i = 0, ii = bezier.length; i < ii; i++) {\n      const [first, control1, control2, second] = bezier[i];\n      if (i === 0) {\n        path2D.moveTo(...first);\n      }\n      path2D.bezierCurveTo(control1[0], control1[1], control2[0], control2[1], second[0], second[1]);\n    }\n    return path2D;\n  }\n  #serializePaths(s, tx, ty, h) {\n    const NUMBER_OF_POINTS_ON_BEZIER_CURVE = 4;\n    const paths = [];\n    const padding = this.thickness / 2;\n    let buffer, points;\n    for (const bezier of this.paths) {\n      buffer = [];\n      points = [];\n      for (let i = 0, ii = bezier.length; i < ii; i++) {\n        const [first, control1, control2, second] = bezier[i];\n        const p10 = s * (first[0] + tx) + padding;\n        const p11 = h - s * (first[1] + ty) - padding;\n        const p20 = s * (control1[0] + tx) + padding;\n        const p21 = h - s * (control1[1] + ty) - padding;\n        const p30 = s * (control2[0] + tx) + padding;\n        const p31 = h - s * (control2[1] + ty) - padding;\n        const p40 = s * (second[0] + tx) + padding;\n        const p41 = h - s * (second[1] + ty) - padding;\n        if (i === 0) {\n          buffer.push(p10, p11);\n          points.push(p10, p11);\n        }\n        buffer.push(p20, p21, p30, p31, p40, p41);\n        this.#extractPointsOnBezier(p10, p11, p20, p21, p30, p31, p40, p41, NUMBER_OF_POINTS_ON_BEZIER_CURVE, points);\n      }\n      paths.push({\n        bezier: buffer,\n        points\n      });\n    }\n    return paths;\n  }\n  #extractPointsOnBezier(p10, p11, p20, p21, p30, p31, p40, p41, n, points) {\n    if (this.#isAlmostFlat(p10, p11, p20, p21, p30, p31, p40, p41)) {\n      points.push(p40, p41);\n      return;\n    }\n    for (let i = 1; i < n - 1; i++) {\n      const t = i / n;\n      const mt = 1 - t;\n      let q10 = t * p10 + mt * p20;\n      let q11 = t * p11 + mt * p21;\n      let q20 = t * p20 + mt * p30;\n      let q21 = t * p21 + mt * p31;\n      const q30 = t * p30 + mt * p40;\n      const q31 = t * p31 + mt * p41;\n      q10 = t * q10 + mt * q20;\n      q11 = t * q11 + mt * q21;\n      q20 = t * q20 + mt * q30;\n      q21 = t * q21 + mt * q31;\n      q10 = t * q10 + mt * q20;\n      q11 = t * q11 + mt * q21;\n      points.push(q10, q11);\n    }\n    points.push(p40, p41);\n  }\n  #isAlmostFlat(p10, p11, p20, p21, p30, p31, p40, p41) {\n    const tol = 10;\n    const ax = (3 * p20 - 2 * p10 - p40) ** 2;\n    const ay = (3 * p21 - 2 * p11 - p41) ** 2;\n    const bx = (3 * p30 - p10 - 2 * p40) ** 2;\n    const by = (3 * p31 - p11 - 2 * p41) ** 2;\n    return Math.max(ax, bx) + Math.max(ay, by) <= tol;\n  }\n  #getBbox() {\n    let xMin = Infinity;\n    let xMax = -Infinity;\n    let yMin = Infinity;\n    let yMax = -Infinity;\n    for (const path of this.paths) {\n      for (const [first, control1, control2, second] of path) {\n        const bbox = _util.Util.bezierBoundingBox(...first, ...control1, ...control2, ...second);\n        xMin = Math.min(xMin, bbox[0]);\n        yMin = Math.min(yMin, bbox[1]);\n        xMax = Math.max(xMax, bbox[2]);\n        yMax = Math.max(yMax, bbox[3]);\n      }\n    }\n    return [xMin, yMin, xMax, yMax];\n  }\n  #getPadding() {\n    return this.#disableEditing ? Math.ceil(this.thickness * this.parentScale) : 0;\n  }\n  #fitToContent(firstTime = false) {\n    if (this.isEmpty()) {\n      return;\n    }\n    if (!this.#disableEditing) {\n      this.#redraw();\n      return;\n    }\n    const bbox = this.#getBbox();\n    const padding = this.#getPadding();\n    this.#baseWidth = Math.max(RESIZER_SIZE, bbox[2] - bbox[0]);\n    this.#baseHeight = Math.max(RESIZER_SIZE, bbox[3] - bbox[1]);\n    const width = Math.ceil(padding + this.#baseWidth * this.scaleFactor);\n    const height = Math.ceil(padding + this.#baseHeight * this.scaleFactor);\n    const [parentWidth, parentHeight] = this.parentDimensions;\n    this.width = width / parentWidth;\n    this.height = height / parentHeight;\n    this.#aspectRatio = width / height;\n    this.#setMinDims();\n    const prevTranslationX = this.translationX;\n    const prevTranslationY = this.translationY;\n    this.translationX = -bbox[0];\n    this.translationY = -bbox[1];\n    this.#setCanvasDims();\n    this.#redraw();\n    this.#realWidth = width;\n    this.#realHeight = height;\n    this.setDims(width, height);\n    const unscaledPadding = firstTime ? padding / this.scaleFactor / 2 : 0;\n    this.translate(prevTranslationX - this.translationX - unscaledPadding, prevTranslationY - this.translationY - unscaledPadding);\n  }\n  #setMinDims() {\n    const {\n      style\n    } = this.div;\n    if (this.#aspectRatio >= 1) {\n      style.minHeight = `${RESIZER_SIZE}px`;\n      style.minWidth = `${Math.round(this.#aspectRatio * RESIZER_SIZE)}px`;\n    } else {\n      style.minWidth = `${RESIZER_SIZE}px`;\n      style.minHeight = `${Math.round(RESIZER_SIZE / this.#aspectRatio)}px`;\n    }\n  }\n  static deserialize(data, parent, uiManager) {\n    const editor = super.deserialize(data, parent, uiManager);\n    editor.thickness = data.thickness;\n    editor.color = _util.Util.makeHexColor(...data.color);\n    editor.opacity = data.opacity;\n    const [pageWidth, pageHeight] = editor.pageDimensions;\n    const width = editor.width * pageWidth;\n    const height = editor.height * pageHeight;\n    const scaleFactor = editor.parentScale;\n    const padding = data.thickness / 2;\n    editor.#aspectRatio = width / height;\n    editor.#disableEditing = true;\n    editor.#realWidth = Math.round(width);\n    editor.#realHeight = Math.round(height);\n    for (const {\n      bezier\n    } of data.paths) {\n      const path = [];\n      editor.paths.push(path);\n      let p0 = scaleFactor * (bezier[0] - padding);\n      let p1 = scaleFactor * (height - bezier[1] - padding);\n      for (let i = 2, ii = bezier.length; i < ii; i += 6) {\n        const p10 = scaleFactor * (bezier[i] - padding);\n        const p11 = scaleFactor * (height - bezier[i + 1] - padding);\n        const p20 = scaleFactor * (bezier[i + 2] - padding);\n        const p21 = scaleFactor * (height - bezier[i + 3] - padding);\n        const p30 = scaleFactor * (bezier[i + 4] - padding);\n        const p31 = scaleFactor * (height - bezier[i + 5] - padding);\n        path.push([[p0, p1], [p10, p11], [p20, p21], [p30, p31]]);\n        p0 = p30;\n        p1 = p31;\n      }\n      const path2D = this.#buildPath2D(path);\n      editor.bezierPath2D.push(path2D);\n    }\n    const bbox = editor.#getBbox();\n    editor.#baseWidth = Math.max(RESIZER_SIZE, bbox[2] - bbox[0]);\n    editor.#baseHeight = Math.max(RESIZER_SIZE, bbox[3] - bbox[1]);\n    editor.#setScaleFactor(width, height);\n    return editor;\n  }\n  serialize() {\n    if (this.isEmpty()) {\n      return null;\n    }\n    const rect = this.getRect(0, 0);\n    const height = this.rotation % 180 === 0 ? rect[3] - rect[1] : rect[2] - rect[0];\n    const color = _editor.AnnotationEditor._colorManager.convert(this.ctx.strokeStyle);\n    return {\n      annotationType: _util.AnnotationEditorType.INK,\n      color,\n      thickness: this.thickness,\n      opacity: this.opacity,\n      paths: this.#serializePaths(this.scaleFactor / this.parentScale, this.translationX, this.translationY, height),\n      pageIndex: this.pageIndex,\n      rect,\n      rotation: this.rotation\n    };\n  }\n}\nexports.InkEditor = InkEditor;\n\n/***/ }),\n/* 30 */\n/***/ ((__unused_webpack_module, exports, __w_pdfjs_require__) => {\n\n\n\nObject.defineProperty(exports, \"__esModule\", ({\n  value: true\n}));\nexports.fitCurve = void 0;\nconst fitCurve = __w_pdfjs_require__(31);\nexports.fitCurve = fitCurve;\n\n/***/ }),\n/* 31 */\n/***/ ((module) => {\n\n\n\nfunction fitCurve(points, maxError, progressCallback) {\n  if (!Array.isArray(points)) {\n    throw new TypeError(\"First argument should be an array\");\n  }\n  points.forEach(point => {\n    if (!Array.isArray(point) || point.some(item => typeof item !== 'number') || point.length !== points[0].length) {\n      throw Error(\"Each point should be an array of numbers. Each point should have the same amount of numbers.\");\n    }\n  });\n  points = points.filter((point, i) => i === 0 || !point.every((val, j) => val === points[i - 1][j]));\n  if (points.length < 2) {\n    return [];\n  }\n  const len = points.length;\n  const leftTangent = createTangent(points[1], points[0]);\n  const rightTangent = createTangent(points[len - 2], points[len - 1]);\n  return fitCubic(points, leftTangent, rightTangent, maxError, progressCallback);\n}\nfunction fitCubic(points, leftTangent, rightTangent, error, progressCallback) {\n  const MaxIterations = 20;\n  var bezCurve, u, uPrime, maxError, prevErr, splitPoint, prevSplit, centerVector, toCenterTangent, fromCenterTangent, beziers, dist, i;\n  if (points.length === 2) {\n    dist = maths.vectorLen(maths.subtract(points[0], points[1])) / 3.0;\n    bezCurve = [points[0], maths.addArrays(points[0], maths.mulItems(leftTangent, dist)), maths.addArrays(points[1], maths.mulItems(rightTangent, dist)), points[1]];\n    return [bezCurve];\n  }\n  u = chordLengthParameterize(points);\n  [bezCurve, maxError, splitPoint] = generateAndReport(points, u, u, leftTangent, rightTangent, progressCallback);\n  if (maxError === 0 || maxError < error) {\n    return [bezCurve];\n  }\n  if (maxError < error * error) {\n    uPrime = u;\n    prevErr = maxError;\n    prevSplit = splitPoint;\n    for (i = 0; i < MaxIterations; i++) {\n      uPrime = reparameterize(bezCurve, points, uPrime);\n      [bezCurve, maxError, splitPoint] = generateAndReport(points, u, uPrime, leftTangent, rightTangent, progressCallback);\n      if (maxError < error) {\n        return [bezCurve];\n      } else if (splitPoint === prevSplit) {\n        let errChange = maxError / prevErr;\n        if (errChange > .9999 && errChange < 1.0001) {\n          break;\n        }\n      }\n      prevErr = maxError;\n      prevSplit = splitPoint;\n    }\n  }\n  beziers = [];\n  centerVector = maths.subtract(points[splitPoint - 1], points[splitPoint + 1]);\n  if (centerVector.every(val => val === 0)) {\n    centerVector = maths.subtract(points[splitPoint - 1], points[splitPoint]);\n    [centerVector[0], centerVector[1]] = [-centerVector[1], centerVector[0]];\n  }\n  toCenterTangent = maths.normalize(centerVector);\n  fromCenterTangent = maths.mulItems(toCenterTangent, -1);\n  beziers = beziers.concat(fitCubic(points.slice(0, splitPoint + 1), leftTangent, toCenterTangent, error, progressCallback));\n  beziers = beziers.concat(fitCubic(points.slice(splitPoint), fromCenterTangent, rightTangent, error, progressCallback));\n  return beziers;\n}\n;\nfunction generateAndReport(points, paramsOrig, paramsPrime, leftTangent, rightTangent, progressCallback) {\n  var bezCurve, maxError, splitPoint;\n  bezCurve = generateBezier(points, paramsPrime, leftTangent, rightTangent, progressCallback);\n  [maxError, splitPoint] = computeMaxError(points, bezCurve, paramsOrig);\n  if (progressCallback) {\n    progressCallback({\n      bez: bezCurve,\n      points: points,\n      params: paramsOrig,\n      maxErr: maxError,\n      maxPoint: splitPoint\n    });\n  }\n  return [bezCurve, maxError, splitPoint];\n}\nfunction generateBezier(points, parameters, leftTangent, rightTangent) {\n  var bezCurve,\n    A,\n    a,\n    C,\n    X,\n    det_C0_C1,\n    det_C0_X,\n    det_X_C1,\n    alpha_l,\n    alpha_r,\n    epsilon,\n    segLength,\n    i,\n    len,\n    tmp,\n    u,\n    ux,\n    firstPoint = points[0],\n    lastPoint = points[points.length - 1];\n  bezCurve = [firstPoint, null, null, lastPoint];\n  A = maths.zeros_Xx2x2(parameters.length);\n  for (i = 0, len = parameters.length; i < len; i++) {\n    u = parameters[i];\n    ux = 1 - u;\n    a = A[i];\n    a[0] = maths.mulItems(leftTangent, 3 * u * (ux * ux));\n    a[1] = maths.mulItems(rightTangent, 3 * ux * (u * u));\n  }\n  C = [[0, 0], [0, 0]];\n  X = [0, 0];\n  for (i = 0, len = points.length; i < len; i++) {\n    u = parameters[i];\n    a = A[i];\n    C[0][0] += maths.dot(a[0], a[0]);\n    C[0][1] += maths.dot(a[0], a[1]);\n    C[1][0] += maths.dot(a[0], a[1]);\n    C[1][1] += maths.dot(a[1], a[1]);\n    tmp = maths.subtract(points[i], bezier.q([firstPoint, firstPoint, lastPoint, lastPoint], u));\n    X[0] += maths.dot(a[0], tmp);\n    X[1] += maths.dot(a[1], tmp);\n  }\n  det_C0_C1 = C[0][0] * C[1][1] - C[1][0] * C[0][1];\n  det_C0_X = C[0][0] * X[1] - C[1][0] * X[0];\n  det_X_C1 = X[0] * C[1][1] - X[1] * C[0][1];\n  alpha_l = det_C0_C1 === 0 ? 0 : det_X_C1 / det_C0_C1;\n  alpha_r = det_C0_C1 === 0 ? 0 : det_C0_X / det_C0_C1;\n  segLength = maths.vectorLen(maths.subtract(firstPoint, lastPoint));\n  epsilon = 1.0e-6 * segLength;\n  if (alpha_l < epsilon || alpha_r < epsilon) {\n    bezCurve[1] = maths.addArrays(firstPoint, maths.mulItems(leftTangent, segLength / 3.0));\n    bezCurve[2] = maths.addArrays(lastPoint, maths.mulItems(rightTangent, segLength / 3.0));\n  } else {\n    bezCurve[1] = maths.addArrays(firstPoint, maths.mulItems(leftTangent, alpha_l));\n    bezCurve[2] = maths.addArrays(lastPoint, maths.mulItems(rightTangent, alpha_r));\n  }\n  return bezCurve;\n}\n;\nfunction reparameterize(bezier, points, parameters) {\n  return parameters.map((p, i) => newtonRaphsonRootFind(bezier, points[i], p));\n}\n;\nfunction newtonRaphsonRootFind(bez, point, u) {\n  var d = maths.subtract(bezier.q(bez, u), point),\n    qprime = bezier.qprime(bez, u),\n    numerator = maths.mulMatrix(d, qprime),\n    denominator = maths.sum(maths.squareItems(qprime)) + 2 * maths.mulMatrix(d, bezier.qprimeprime(bez, u));\n  if (denominator === 0) {\n    return u;\n  } else {\n    return u - numerator / denominator;\n  }\n}\n;\nfunction chordLengthParameterize(points) {\n  var u = [],\n    currU,\n    prevU,\n    prevP;\n  points.forEach((p, i) => {\n    currU = i ? prevU + maths.vectorLen(maths.subtract(p, prevP)) : 0;\n    u.push(currU);\n    prevU = currU;\n    prevP = p;\n  });\n  u = u.map(x => x / prevU);\n  return u;\n}\n;\nfunction computeMaxError(points, bez, parameters) {\n  var dist, maxDist, splitPoint, v, i, count, point, t;\n  maxDist = 0;\n  splitPoint = Math.floor(points.length / 2);\n  const t_distMap = mapTtoRelativeDistances(bez, 10);\n  for (i = 0, count = points.length; i < count; i++) {\n    point = points[i];\n    t = find_t(bez, parameters[i], t_distMap, 10);\n    v = maths.subtract(bezier.q(bez, t), point);\n    dist = v[0] * v[0] + v[1] * v[1];\n    if (dist > maxDist) {\n      maxDist = dist;\n      splitPoint = i;\n    }\n  }\n  return [maxDist, splitPoint];\n}\n;\nvar mapTtoRelativeDistances = function (bez, B_parts) {\n  var B_t_curr;\n  var B_t_dist = [0];\n  var B_t_prev = bez[0];\n  var sumLen = 0;\n  for (var i = 1; i <= B_parts; i++) {\n    B_t_curr = bezier.q(bez, i / B_parts);\n    sumLen += maths.vectorLen(maths.subtract(B_t_curr, B_t_prev));\n    B_t_dist.push(sumLen);\n    B_t_prev = B_t_curr;\n  }\n  B_t_dist = B_t_dist.map(x => x / sumLen);\n  return B_t_dist;\n};\nfunction find_t(bez, param, t_distMap, B_parts) {\n  if (param < 0) {\n    return 0;\n  }\n  if (param > 1) {\n    return 1;\n  }\n  var lenMax, lenMin, tMax, tMin, t;\n  for (var i = 1; i <= B_parts; i++) {\n    if (param <= t_distMap[i]) {\n      tMin = (i - 1) / B_parts;\n      tMax = i / B_parts;\n      lenMin = t_distMap[i - 1];\n      lenMax = t_distMap[i];\n      t = (param - lenMin) / (lenMax - lenMin) * (tMax - tMin) + tMin;\n      break;\n    }\n  }\n  return t;\n}\nfunction createTangent(pointA, pointB) {\n  return maths.normalize(maths.subtract(pointA, pointB));\n}\nclass maths {\n  static zeros_Xx2x2(x) {\n    var zs = [];\n    while (x--) {\n      zs.push([0, 0]);\n    }\n    return zs;\n  }\n  static mulItems(items, multiplier) {\n    return items.map(x => x * multiplier);\n  }\n  static mulMatrix(m1, m2) {\n    return m1.reduce((sum, x1, i) => sum + x1 * m2[i], 0);\n  }\n  static subtract(arr1, arr2) {\n    return arr1.map((x1, i) => x1 - arr2[i]);\n  }\n  static addArrays(arr1, arr2) {\n    return arr1.map((x1, i) => x1 + arr2[i]);\n  }\n  static addItems(items, addition) {\n    return items.map(x => x + addition);\n  }\n  static sum(items) {\n    return items.reduce((sum, x) => sum + x);\n  }\n  static dot(m1, m2) {\n    return maths.mulMatrix(m1, m2);\n  }\n  static vectorLen(v) {\n    return Math.hypot(...v);\n  }\n  static divItems(items, divisor) {\n    return items.map(x => x / divisor);\n  }\n  static squareItems(items) {\n    return items.map(x => x * x);\n  }\n  static normalize(v) {\n    return this.divItems(v, this.vectorLen(v));\n  }\n}\nclass bezier {\n  static q(ctrlPoly, t) {\n    var tx = 1.0 - t;\n    var pA = maths.mulItems(ctrlPoly[0], tx * tx * tx),\n      pB = maths.mulItems(ctrlPoly[1], 3 * tx * tx * t),\n      pC = maths.mulItems(ctrlPoly[2], 3 * tx * t * t),\n      pD = maths.mulItems(ctrlPoly[3], t * t * t);\n    return maths.addArrays(maths.addArrays(pA, pB), maths.addArrays(pC, pD));\n  }\n  static qprime(ctrlPoly, t) {\n    var tx = 1.0 - t;\n    var pA = maths.mulItems(maths.subtract(ctrlPoly[1], ctrlPoly[0]), 3 * tx * tx),\n      pB = maths.mulItems(maths.subtract(ctrlPoly[2], ctrlPoly[1]), 6 * tx * t),\n      pC = maths.mulItems(maths.subtract(ctrlPoly[3], ctrlPoly[2]), 3 * t * t);\n    return maths.addArrays(maths.addArrays(pA, pB), pC);\n  }\n  static qprimeprime(ctrlPoly, t) {\n    return maths.addArrays(maths.mulItems(maths.addArrays(maths.subtract(ctrlPoly[2], maths.mulItems(ctrlPoly[1], 2)), ctrlPoly[0]), 6 * (1.0 - t)), maths.mulItems(maths.addArrays(maths.subtract(ctrlPoly[3], maths.mulItems(ctrlPoly[2], 2)), ctrlPoly[1]), 6 * t));\n  }\n}\nmodule.exports = fitCurve;\nmodule.exports.fitCubic = fitCubic;\nmodule.exports.createTangent = createTangent;\n\n/***/ }),\n/* 32 */\n/***/ ((__unused_webpack_module, exports, __w_pdfjs_require__) => {\n\n\n\nObject.defineProperty(exports, \"__esModule\", ({\n  value: true\n}));\nexports.AnnotationLayer = void 0;\nvar _util = __w_pdfjs_require__(1);\nvar _display_utils = __w_pdfjs_require__(6);\nvar _annotation_storage = __w_pdfjs_require__(3);\nvar _scripting_utils = __w_pdfjs_require__(33);\nvar _xfa_layer = __w_pdfjs_require__(34);\nconst DEFAULT_TAB_INDEX = 1000;\nconst DEFAULT_FONT_SIZE = 9;\nconst GetElementsByNameSet = new WeakSet();\nfunction getRectDims(rect) {\n  return {\n    width: rect[2] - rect[0],\n    height: rect[3] - rect[1]\n  };\n}\nclass AnnotationElementFactory {\n  static create(parameters) {\n    const subtype = parameters.data.annotationType;\n    switch (subtype) {\n      case _util.AnnotationType.LINK:\n        return new LinkAnnotationElement(parameters);\n      case _util.AnnotationType.TEXT:\n        return new TextAnnotationElement(parameters);\n      case _util.AnnotationType.WIDGET:\n        const fieldType = parameters.data.fieldType;\n        switch (fieldType) {\n          case \"Tx\":\n            return new TextWidgetAnnotationElement(parameters);\n          case \"Btn\":\n            if (parameters.data.radioButton) {\n              return new RadioButtonWidgetAnnotationElement(parameters);\n            } else if (parameters.data.checkBox) {\n              return new CheckboxWidgetAnnotationElement(parameters);\n            }\n            return new PushButtonWidgetAnnotationElement(parameters);\n          case \"Ch\":\n            return new ChoiceWidgetAnnotationElement(parameters);\n        }\n        return new WidgetAnnotationElement(parameters);\n      case _util.AnnotationType.POPUP:\n        return new PopupAnnotationElement(parameters);\n      case _util.AnnotationType.FREETEXT:\n        return new FreeTextAnnotationElement(parameters);\n      case _util.AnnotationType.LINE:\n        return new LineAnnotationElement(parameters);\n      case _util.AnnotationType.SQUARE:\n        return new SquareAnnotationElement(parameters);\n      case _util.AnnotationType.CIRCLE:\n        return new CircleAnnotationElement(parameters);\n      case _util.AnnotationType.POLYLINE:\n        return new PolylineAnnotationElement(parameters);\n      case _util.AnnotationType.CARET:\n        return new CaretAnnotationElement(parameters);\n      case _util.AnnotationType.INK:\n        return new InkAnnotationElement(parameters);\n      case _util.AnnotationType.POLYGON:\n        return new PolygonAnnotationElement(parameters);\n      case _util.AnnotationType.HIGHLIGHT:\n        return new HighlightAnnotationElement(parameters);\n      case _util.AnnotationType.UNDERLINE:\n        return new UnderlineAnnotationElement(parameters);\n      case _util.AnnotationType.SQUIGGLY:\n        return new SquigglyAnnotationElement(parameters);\n      case _util.AnnotationType.STRIKEOUT:\n        return new StrikeOutAnnotationElement(parameters);\n      case _util.AnnotationType.STAMP:\n        return new StampAnnotationElement(parameters);\n      case _util.AnnotationType.FILEATTACHMENT:\n        return new FileAttachmentAnnotationElement(parameters);\n      default:\n        return new AnnotationElement(parameters);\n    }\n  }\n}\nclass AnnotationElement {\n  constructor(parameters, {\n    isRenderable = false,\n    ignoreBorder = false,\n    createQuadrilaterals = false\n  } = {}) {\n    this.isRenderable = isRenderable;\n    this.data = parameters.data;\n    this.layer = parameters.layer;\n    this.page = parameters.page;\n    this.viewport = parameters.viewport;\n    this.linkService = parameters.linkService;\n    this.downloadManager = parameters.downloadManager;\n    this.imageResourcesPath = parameters.imageResourcesPath;\n    this.renderForms = parameters.renderForms;\n    this.svgFactory = parameters.svgFactory;\n    this.annotationStorage = parameters.annotationStorage;\n    this.enableScripting = parameters.enableScripting;\n    this.hasJSActions = parameters.hasJSActions;\n    this._fieldObjects = parameters.fieldObjects;\n    if (isRenderable) {\n      this.container = this._createContainer(ignoreBorder);\n    }\n    if (createQuadrilaterals) {\n      this.quadrilaterals = this._createQuadrilaterals(ignoreBorder);\n    }\n  }\n  _createContainer(ignoreBorder = false) {\n    const {\n      data,\n      page,\n      viewport\n    } = this;\n    const container = document.createElement(\"section\");\n    container.setAttribute(\"data-annotation-id\", data.id);\n    const {\n      pageWidth,\n      pageHeight,\n      pageX,\n      pageY\n    } = viewport.rawDims;\n    const {\n      width,\n      height\n    } = getRectDims(data.rect);\n    const rect = _util.Util.normalizeRect([data.rect[0], page.view[3] - data.rect[1] + page.view[1], data.rect[2], page.view[3] - data.rect[3] + page.view[1]]);\n    if (!ignoreBorder && data.borderStyle.width > 0) {\n      container.style.borderWidth = `${data.borderStyle.width}px`;\n      const horizontalRadius = data.borderStyle.horizontalCornerRadius;\n      const verticalRadius = data.borderStyle.verticalCornerRadius;\n      if (horizontalRadius > 0 || verticalRadius > 0) {\n        const radius = `calc(${horizontalRadius}px * var(--scale-factor)) / calc(${verticalRadius}px * var(--scale-factor))`;\n        container.style.borderRadius = radius;\n      } else if (this instanceof RadioButtonWidgetAnnotationElement) {\n        const radius = `calc(${width}px * var(--scale-factor)) / calc(${height}px * var(--scale-factor))`;\n        container.style.borderRadius = radius;\n      }\n      switch (data.borderStyle.style) {\n        case _util.AnnotationBorderStyleType.SOLID:\n          container.style.borderStyle = \"solid\";\n          break;\n        case _util.AnnotationBorderStyleType.DASHED:\n          container.style.borderStyle = \"dashed\";\n          break;\n        case _util.AnnotationBorderStyleType.BEVELED:\n          (0, _util.warn)(\"Unimplemented border style: beveled\");\n          break;\n        case _util.AnnotationBorderStyleType.INSET:\n          (0, _util.warn)(\"Unimplemented border style: inset\");\n          break;\n        case _util.AnnotationBorderStyleType.UNDERLINE:\n          container.style.borderBottomStyle = \"solid\";\n          break;\n        default:\n          break;\n      }\n      const borderColor = data.borderColor || null;\n      if (borderColor) {\n        container.style.borderColor = _util.Util.makeHexColor(borderColor[0] | 0, borderColor[1] | 0, borderColor[2] | 0);\n      } else {\n        container.style.borderWidth = 0;\n      }\n    }\n    container.style.left = `${100 * (rect[0] - pageX) / pageWidth}%`;\n    container.style.top = `${100 * (rect[1] - pageY) / pageHeight}%`;\n    const {\n      rotation\n    } = data;\n    if (data.hasOwnCanvas || rotation === 0) {\n      container.style.width = `${100 * width / pageWidth}%`;\n      container.style.height = `${100 * height / pageHeight}%`;\n    } else {\n      this.setRotation(rotation, container);\n    }\n    return container;\n  }\n  setRotation(angle, container = this.container) {\n    const {\n      pageWidth,\n      pageHeight\n    } = this.viewport.rawDims;\n    const {\n      width,\n      height\n    } = getRectDims(this.data.rect);\n    let elementWidth, elementHeight;\n    if (angle % 180 === 0) {\n      elementWidth = 100 * width / pageWidth;\n      elementHeight = 100 * height / pageHeight;\n    } else {\n      elementWidth = 100 * height / pageWidth;\n      elementHeight = 100 * width / pageHeight;\n    }\n    container.style.width = `${elementWidth}%`;\n    container.style.height = `${elementHeight}%`;\n    container.setAttribute(\"data-main-rotation\", (360 - angle) % 360);\n  }\n  get _commonActions() {\n    const setColor = (jsName, styleName, event) => {\n      const color = event.detail[jsName];\n      event.target.style[styleName] = _scripting_utils.ColorConverters[`${color[0]}_HTML`](color.slice(1));\n    };\n    return (0, _util.shadow)(this, \"_commonActions\", {\n      display: event => {\n        const hidden = event.detail.display % 2 === 1;\n        this.container.style.visibility = hidden ? \"hidden\" : \"visible\";\n        this.annotationStorage.setValue(this.data.id, {\n          hidden,\n          print: event.detail.display === 0 || event.detail.display === 3\n        });\n      },\n      print: event => {\n        this.annotationStorage.setValue(this.data.id, {\n          print: event.detail.print\n        });\n      },\n      hidden: event => {\n        this.container.style.visibility = event.detail.hidden ? \"hidden\" : \"visible\";\n        this.annotationStorage.setValue(this.data.id, {\n          hidden: event.detail.hidden\n        });\n      },\n      focus: event => {\n        setTimeout(() => event.target.focus({\n          preventScroll: false\n        }), 0);\n      },\n      userName: event => {\n        event.target.title = event.detail.userName;\n      },\n      readonly: event => {\n        if (event.detail.readonly) {\n          event.target.setAttribute(\"readonly\", \"\");\n        } else {\n          event.target.removeAttribute(\"readonly\");\n        }\n      },\n      required: event => {\n        this._setRequired(event.target, event.detail.required);\n      },\n      bgColor: event => {\n        setColor(\"bgColor\", \"backgroundColor\", event);\n      },\n      fillColor: event => {\n        setColor(\"fillColor\", \"backgroundColor\", event);\n      },\n      fgColor: event => {\n        setColor(\"fgColor\", \"color\", event);\n      },\n      textColor: event => {\n        setColor(\"textColor\", \"color\", event);\n      },\n      borderColor: event => {\n        setColor(\"borderColor\", \"borderColor\", event);\n      },\n      strokeColor: event => {\n        setColor(\"strokeColor\", \"borderColor\", event);\n      },\n      rotation: event => {\n        const angle = event.detail.rotation;\n        this.setRotation(angle);\n        this.annotationStorage.setValue(this.data.id, {\n          rotation: angle\n        });\n      }\n    });\n  }\n  _dispatchEventFromSandbox(actions, jsEvent) {\n    const commonActions = this._commonActions;\n    for (const name of Object.keys(jsEvent.detail)) {\n      const action = actions[name] || commonActions[name];\n      action?.(jsEvent);\n    }\n  }\n  _setDefaultPropertiesFromJS(element) {\n    if (!this.enableScripting) {\n      return;\n    }\n    const storedData = this.annotationStorage.getRawValue(this.data.id);\n    if (!storedData) {\n      return;\n    }\n    const commonActions = this._commonActions;\n    for (const [actionName, detail] of Object.entries(storedData)) {\n      const action = commonActions[actionName];\n      if (action) {\n        const eventProxy = {\n          detail: {\n            [actionName]: detail\n          },\n          target: element\n        };\n        action(eventProxy);\n        delete storedData[actionName];\n      }\n    }\n  }\n  _createQuadrilaterals(ignoreBorder = false) {\n    if (!this.data.quadPoints) {\n      return null;\n    }\n    const quadrilaterals = [];\n    const savedRect = this.data.rect;\n    for (const quadPoint of this.data.quadPoints) {\n      this.data.rect = [quadPoint[2].x, quadPoint[2].y, quadPoint[1].x, quadPoint[1].y];\n      quadrilaterals.push(this._createContainer(ignoreBorder));\n    }\n    this.data.rect = savedRect;\n    return quadrilaterals;\n  }\n  _createPopup(trigger, data) {\n    let container = this.container;\n    if (this.quadrilaterals) {\n      trigger = trigger || this.quadrilaterals;\n      container = this.quadrilaterals[0];\n    }\n    if (!trigger) {\n      trigger = document.createElement(\"div\");\n      trigger.className = \"popupTriggerArea\";\n      container.append(trigger);\n    }\n    const popupElement = new PopupElement({\n      container,\n      trigger,\n      color: data.color,\n      titleObj: data.titleObj,\n      modificationDate: data.modificationDate,\n      contentsObj: data.contentsObj,\n      richText: data.richText,\n      hideWrapper: true\n    });\n    const popup = popupElement.render();\n    popup.style.left = \"100%\";\n    container.append(popup);\n  }\n  _renderQuadrilaterals(className) {\n    for (const quadrilateral of this.quadrilaterals) {\n      quadrilateral.className = className;\n    }\n    return this.quadrilaterals;\n  }\n  render() {\n    (0, _util.unreachable)(\"Abstract method `AnnotationElement.render` called\");\n  }\n  _getElementsByName(name, skipId = null) {\n    const fields = [];\n    if (this._fieldObjects) {\n      const fieldObj = this._fieldObjects[name];\n      if (fieldObj) {\n        for (const {\n          page,\n          id,\n          exportValues\n        } of fieldObj) {\n          if (page === -1) {\n            continue;\n          }\n          if (id === skipId) {\n            continue;\n          }\n          const exportValue = typeof exportValues === \"string\" ? exportValues : null;\n          const domElement = document.querySelector(`[data-element-id=\"${id}\"]`);\n          if (domElement && !GetElementsByNameSet.has(domElement)) {\n            (0, _util.warn)(`_getElementsByName - element not allowed: ${id}`);\n            continue;\n          }\n          fields.push({\n            id,\n            exportValue,\n            domElement\n          });\n        }\n      }\n      return fields;\n    }\n    for (const domElement of document.getElementsByName(name)) {\n      const {\n        exportValue\n      } = domElement;\n      const id = domElement.getAttribute(\"data-element-id\");\n      if (id === skipId) {\n        continue;\n      }\n      if (!GetElementsByNameSet.has(domElement)) {\n        continue;\n      }\n      fields.push({\n        id,\n        exportValue,\n        domElement\n      });\n    }\n    return fields;\n  }\n}\nclass LinkAnnotationElement extends AnnotationElement {\n  constructor(parameters, options = null) {\n    super(parameters, {\n      isRenderable: true,\n      ignoreBorder: !!options?.ignoreBorder,\n      createQuadrilaterals: true\n    });\n    this.isTooltipOnly = parameters.data.isTooltipOnly;\n  }\n  render() {\n    const {\n      data,\n      linkService\n    } = this;\n    const link = document.createElement(\"a\");\n    link.setAttribute(\"data-element-id\", data.id);\n    let isBound = false;\n    if (data.url) {\n      linkService.addLinkAttributes(link, data.url, data.newWindow);\n      isBound = true;\n    } else if (data.action) {\n      this._bindNamedAction(link, data.action);\n      isBound = true;\n    } else if (data.attachment) {\n      this._bindAttachment(link, data.attachment);\n      isBound = true;\n    } else if (data.setOCGState) {\n      this.#bindSetOCGState(link, data.setOCGState);\n      isBound = true;\n    } else if (data.dest) {\n      this._bindLink(link, data.dest);\n      isBound = true;\n    } else {\n      if (data.actions && (data.actions.Action || data.actions[\"Mouse Up\"] || data.actions[\"Mouse Down\"]) && this.enableScripting && this.hasJSActions) {\n        this._bindJSAction(link, data);\n        isBound = true;\n      }\n      if (data.resetForm) {\n        this._bindResetFormAction(link, data.resetForm);\n        isBound = true;\n      } else if (this.isTooltipOnly && !isBound) {\n        this._bindLink(link, \"\");\n        isBound = true;\n      }\n    }\n    if (this.quadrilaterals) {\n      return this._renderQuadrilaterals(\"linkAnnotation\").map((quadrilateral, index) => {\n        const linkElement = index === 0 ? link : link.cloneNode();\n        quadrilateral.append(linkElement);\n        return quadrilateral;\n      });\n    }\n    this.container.className = \"linkAnnotation\";\n    if (isBound) {\n      this.container.append(link);\n    }\n    return this.container;\n  }\n  #setInternalLink() {\n    this.container.setAttribute(\"data-internal-link\", \"\");\n  }\n  _bindLink(link, destination) {\n    link.href = this.linkService.getDestinationHash(destination);\n    link.onclick = () => {\n      if (destination) {\n        this.linkService.goToDestination(destination);\n      }\n      return false;\n    };\n    if (destination || destination === \"\") {\n      this.#setInternalLink();\n    }\n  }\n  _bindNamedAction(link, action) {\n    link.href = this.linkService.getAnchorUrl(\"\");\n    link.onclick = () => {\n      this.linkService.executeNamedAction(action);\n      return false;\n    };\n    this.#setInternalLink();\n  }\n  _bindAttachment(link, attachment) {\n    link.href = this.linkService.getAnchorUrl(\"\");\n    link.onclick = () => {\n      this.downloadManager?.openOrDownloadData(this.container, attachment.content, attachment.filename);\n      return false;\n    };\n    this.#setInternalLink();\n  }\n  #bindSetOCGState(link, action) {\n    link.href = this.linkService.getAnchorUrl(\"\");\n    link.onclick = () => {\n      this.linkService.executeSetOCGState(action);\n      return false;\n    };\n    this.#setInternalLink();\n  }\n  _bindJSAction(link, data) {\n    link.href = this.linkService.getAnchorUrl(\"\");\n    const map = new Map([[\"Action\", \"onclick\"], [\"Mouse Up\", \"onmouseup\"], [\"Mouse Down\", \"onmousedown\"]]);\n    for (const name of Object.keys(data.actions)) {\n      const jsName = map.get(name);\n      if (!jsName) {\n        continue;\n      }\n      link[jsName] = () => {\n        this.linkService.eventBus?.dispatch(\"dispatcheventinsandbox\", {\n          source: this,\n          detail: {\n            id: data.id,\n            name\n          }\n        });\n        return false;\n      };\n    }\n    if (!link.onclick) {\n      link.onclick = () => false;\n    }\n    this.#setInternalLink();\n  }\n  _bindResetFormAction(link, resetForm) {\n    const otherClickAction = link.onclick;\n    if (!otherClickAction) {\n      link.href = this.linkService.getAnchorUrl(\"\");\n    }\n    this.#setInternalLink();\n    if (!this._fieldObjects) {\n      (0, _util.warn)(`_bindResetFormAction - \"resetForm\" action not supported, ` + \"ensure that the `fieldObjects` parameter is provided.\");\n      if (!otherClickAction) {\n        link.onclick = () => false;\n      }\n      return;\n    }\n    link.onclick = () => {\n      otherClickAction?.();\n      const {\n        fields: resetFormFields,\n        refs: resetFormRefs,\n        include\n      } = resetForm;\n      const allFields = [];\n      if (resetFormFields.length !== 0 || resetFormRefs.length !== 0) {\n        const fieldIds = new Set(resetFormRefs);\n        for (const fieldName of resetFormFields) {\n          const fields = this._fieldObjects[fieldName] || [];\n          for (const {\n            id\n          } of fields) {\n            fieldIds.add(id);\n          }\n        }\n        for (const fields of Object.values(this._fieldObjects)) {\n          for (const field of fields) {\n            if (fieldIds.has(field.id) === include) {\n              allFields.push(field);\n            }\n          }\n        }\n      } else {\n        for (const fields of Object.values(this._fieldObjects)) {\n          allFields.push(...fields);\n        }\n      }\n      const storage = this.annotationStorage;\n      const allIds = [];\n      for (const field of allFields) {\n        const {\n          id\n        } = field;\n        allIds.push(id);\n        switch (field.type) {\n          case \"text\":\n            {\n              const value = field.defaultValue || \"\";\n              storage.setValue(id, {\n                value\n              });\n              break;\n            }\n          case \"checkbox\":\n          case \"radiobutton\":\n            {\n              const value = field.defaultValue === field.exportValues;\n              storage.setValue(id, {\n                value\n              });\n              break;\n            }\n          case \"combobox\":\n          case \"listbox\":\n            {\n              const value = field.defaultValue || \"\";\n              storage.setValue(id, {\n                value\n              });\n              break;\n            }\n          default:\n            continue;\n        }\n        const domElement = document.querySelector(`[data-element-id=\"${id}\"]`);\n        if (!domElement) {\n          continue;\n        } else if (!GetElementsByNameSet.has(domElement)) {\n          (0, _util.warn)(`_bindResetFormAction - element not allowed: ${id}`);\n          continue;\n        }\n        domElement.dispatchEvent(new Event(\"resetform\"));\n      }\n      if (this.enableScripting) {\n        this.linkService.eventBus?.dispatch(\"dispatcheventinsandbox\", {\n          source: this,\n          detail: {\n            id: \"app\",\n            ids: allIds,\n            name: \"ResetForm\"\n          }\n        });\n      }\n      return false;\n    };\n  }\n}\nclass TextAnnotationElement extends AnnotationElement {\n  constructor(parameters) {\n    const isRenderable = !!(parameters.data.hasPopup || parameters.data.titleObj?.str || parameters.data.contentsObj?.str || parameters.data.richText?.str);\n    super(parameters, {\n      isRenderable\n    });\n  }\n  render() {\n    this.container.className = \"textAnnotation\";\n    const image = document.createElement(\"img\");\n    image.src = this.imageResourcesPath + \"annotation-\" + this.data.name.toLowerCase() + \".svg\";\n    image.alt = \"[{{type}} Annotation]\";\n    image.dataset.l10nId = \"text_annotation_type\";\n    image.dataset.l10nArgs = JSON.stringify({\n      type: this.data.name\n    });\n    if (!this.data.hasPopup) {\n      this._createPopup(image, this.data);\n    }\n    this.container.append(image);\n    return this.container;\n  }\n}\nclass WidgetAnnotationElement extends AnnotationElement {\n  render() {\n    if (this.data.alternativeText) {\n      this.container.title = this.data.alternativeText;\n    }\n    return this.container;\n  }\n  _getKeyModifier(event) {\n    const {\n      isWin,\n      isMac\n    } = _util.FeatureTest.platform;\n    return isWin && event.ctrlKey || isMac && event.metaKey;\n  }\n  _setEventListener(element, baseName, eventName, valueGetter) {\n    if (baseName.includes(\"mouse\")) {\n      element.addEventListener(baseName, event => {\n        this.linkService.eventBus?.dispatch(\"dispatcheventinsandbox\", {\n          source: this,\n          detail: {\n            id: this.data.id,\n            name: eventName,\n            value: valueGetter(event),\n            shift: event.shiftKey,\n            modifier: this._getKeyModifier(event)\n          }\n        });\n      });\n    } else {\n      element.addEventListener(baseName, event => {\n        this.linkService.eventBus?.dispatch(\"dispatcheventinsandbox\", {\n          source: this,\n          detail: {\n            id: this.data.id,\n            name: eventName,\n            value: valueGetter(event)\n          }\n        });\n      });\n    }\n  }\n  _setEventListeners(element, names, getter) {\n    for (const [baseName, eventName] of names) {\n      if (eventName === \"Action\" || this.data.actions?.[eventName]) {\n        this._setEventListener(element, baseName, eventName, getter);\n      }\n    }\n  }\n  _setBackgroundColor(element) {\n    const color = this.data.backgroundColor || null;\n    element.style.backgroundColor = color === null ? \"transparent\" : _util.Util.makeHexColor(color[0], color[1], color[2]);\n  }\n  _setTextStyle(element) {\n    const TEXT_ALIGNMENT = [\"left\", \"center\", \"right\"];\n    const {\n      fontColor\n    } = this.data.defaultAppearanceData;\n    const fontSize = this.data.defaultAppearanceData.fontSize || DEFAULT_FONT_SIZE;\n    const style = element.style;\n    let computedFontSize;\n    const BORDER_SIZE = 2;\n    const roundToOneDecimal = x => Math.round(10 * x) / 10;\n    if (this.data.multiLine) {\n      const height = Math.abs(this.data.rect[3] - this.data.rect[1] - BORDER_SIZE);\n      const numberOfLines = Math.round(height / (_util.LINE_FACTOR * fontSize)) || 1;\n      const lineHeight = height / numberOfLines;\n      computedFontSize = Math.min(fontSize, roundToOneDecimal(lineHeight / _util.LINE_FACTOR));\n    } else {\n      const height = Math.abs(this.data.rect[3] - this.data.rect[1] - BORDER_SIZE);\n      computedFontSize = Math.min(fontSize, roundToOneDecimal(height / _util.LINE_FACTOR));\n    }\n    style.fontSize = `calc(${computedFontSize}px * var(--scale-factor))`;\n    style.color = _util.Util.makeHexColor(fontColor[0], fontColor[1], fontColor[2]);\n    if (this.data.textAlignment !== null) {\n      style.textAlign = TEXT_ALIGNMENT[this.data.textAlignment];\n    }\n  }\n  _setRequired(element, isRequired) {\n    if (isRequired) {\n      element.setAttribute(\"required\", true);\n    } else {\n      element.removeAttribute(\"required\");\n    }\n    element.setAttribute(\"aria-required\", isRequired);\n  }\n}\nclass TextWidgetAnnotationElement extends WidgetAnnotationElement {\n  constructor(parameters) {\n    const isRenderable = parameters.renderForms || !parameters.data.hasAppearance && !!parameters.data.fieldValue;\n    super(parameters, {\n      isRenderable\n    });\n  }\n  setPropertyOnSiblings(base, key, value, keyInStorage) {\n    const storage = this.annotationStorage;\n    for (const element of this._getElementsByName(base.name, base.id)) {\n      if (element.domElement) {\n        element.domElement[key] = value;\n      }\n      storage.setValue(element.id, {\n        [keyInStorage]: value\n      });\n    }\n  }\n  render() {\n    const storage = this.annotationStorage;\n    const id = this.data.id;\n    this.container.className = \"textWidgetAnnotation\";\n    let element = null;\n    if (this.renderForms) {\n      const storedData = storage.getValue(id, {\n        value: this.data.fieldValue\n      });\n      let textContent = storedData.formattedValue || storedData.value || \"\";\n      const maxLen = storage.getValue(id, {\n        charLimit: this.data.maxLen\n      }).charLimit;\n      if (maxLen && textContent.length > maxLen) {\n        textContent = textContent.slice(0, maxLen);\n      }\n      const elementData = {\n        userValue: textContent,\n        formattedValue: null,\n        lastCommittedValue: null,\n        commitKey: 1\n      };\n      if (this.data.multiLine) {\n        element = document.createElement(\"textarea\");\n        element.textContent = textContent;\n        if (this.data.doNotScroll) {\n          element.style.overflowY = \"hidden\";\n        }\n      } else {\n        element = document.createElement(\"input\");\n        element.type = \"text\";\n        element.setAttribute(\"value\", textContent);\n        if (this.data.doNotScroll) {\n          element.style.overflowX = \"hidden\";\n        }\n      }\n      GetElementsByNameSet.add(element);\n      element.setAttribute(\"data-element-id\", id);\n      element.disabled = this.data.readOnly;\n      element.name = this.data.fieldName;\n      element.tabIndex = DEFAULT_TAB_INDEX;\n      this._setRequired(element, this.data.required);\n      if (maxLen) {\n        element.maxLength = maxLen;\n      }\n      element.addEventListener(\"input\", event => {\n        storage.setValue(id, {\n          value: event.target.value\n        });\n        this.setPropertyOnSiblings(element, \"value\", event.target.value, \"value\");\n      });\n      element.addEventListener(\"resetform\", event => {\n        const defaultValue = this.data.defaultFieldValue ?? \"\";\n        element.value = elementData.userValue = defaultValue;\n        elementData.formattedValue = null;\n      });\n      let blurListener = event => {\n        const {\n          formattedValue\n        } = elementData;\n        if (formattedValue !== null && formattedValue !== undefined) {\n          event.target.value = formattedValue;\n        }\n        event.target.scrollLeft = 0;\n      };\n      if (this.enableScripting && this.hasJSActions) {\n        element.addEventListener(\"focus\", event => {\n          const {\n            target\n          } = event;\n          if (elementData.userValue) {\n            target.value = elementData.userValue;\n          }\n          elementData.lastCommittedValue = target.value;\n          elementData.commitKey = 1;\n        });\n        element.addEventListener(\"updatefromsandbox\", jsEvent => {\n          const actions = {\n            value(event) {\n              elementData.userValue = event.detail.value ?? \"\";\n              storage.setValue(id, {\n                value: elementData.userValue.toString()\n              });\n              event.target.value = elementData.userValue;\n            },\n            formattedValue(event) {\n              const {\n                formattedValue\n              } = event.detail;\n              elementData.formattedValue = formattedValue;\n              if (formattedValue !== null && formattedValue !== undefined && event.target !== document.activeElement) {\n                event.target.value = formattedValue;\n              }\n              storage.setValue(id, {\n                formattedValue\n              });\n            },\n            selRange(event) {\n              event.target.setSelectionRange(...event.detail.selRange);\n            },\n            charLimit: event => {\n              const {\n                charLimit\n              } = event.detail;\n              const {\n                target\n              } = event;\n              if (charLimit === 0) {\n                target.removeAttribute(\"maxLength\");\n                return;\n              }\n              target.setAttribute(\"maxLength\", charLimit);\n              let value = elementData.userValue;\n              if (!value || value.length <= charLimit) {\n                return;\n              }\n              value = value.slice(0, charLimit);\n              target.value = elementData.userValue = value;\n              storage.setValue(id, {\n                value\n              });\n              this.linkService.eventBus?.dispatch(\"dispatcheventinsandbox\", {\n                source: this,\n                detail: {\n                  id,\n                  name: \"Keystroke\",\n                  value,\n                  willCommit: true,\n                  commitKey: 1,\n                  selStart: target.selectionStart,\n                  selEnd: target.selectionEnd\n                }\n              });\n            }\n          };\n          this._dispatchEventFromSandbox(actions, jsEvent);\n        });\n        element.addEventListener(\"keydown\", event => {\n          elementData.commitKey = 1;\n          let commitKey = -1;\n          if (event.key === \"Escape\") {\n            commitKey = 0;\n          } else if (event.key === \"Enter\" && !this.data.multiLine) {\n            commitKey = 2;\n          } else if (event.key === \"Tab\") {\n            elementData.commitKey = 3;\n          }\n          if (commitKey === -1) {\n            return;\n          }\n          const {\n            value\n          } = event.target;\n          if (elementData.lastCommittedValue === value) {\n            return;\n          }\n          elementData.lastCommittedValue = value;\n          elementData.userValue = value;\n          this.linkService.eventBus?.dispatch(\"dispatcheventinsandbox\", {\n            source: this,\n            detail: {\n              id,\n              name: \"Keystroke\",\n              value,\n              willCommit: true,\n              commitKey,\n              selStart: event.target.selectionStart,\n              selEnd: event.target.selectionEnd\n            }\n          });\n        });\n        const _blurListener = blurListener;\n        blurListener = null;\n        element.addEventListener(\"blur\", event => {\n          if (!event.relatedTarget) {\n            return;\n          }\n          const {\n            value\n          } = event.target;\n          elementData.userValue = value;\n          if (elementData.lastCommittedValue !== value) {\n            this.linkService.eventBus?.dispatch(\"dispatcheventinsandbox\", {\n              source: this,\n              detail: {\n                id,\n                name: \"Keystroke\",\n                value,\n                willCommit: true,\n                commitKey: elementData.commitKey,\n                selStart: event.target.selectionStart,\n                selEnd: event.target.selectionEnd\n              }\n            });\n          }\n          _blurListener(event);\n        });\n        if (this.data.actions?.Keystroke) {\n          element.addEventListener(\"beforeinput\", event => {\n            elementData.lastCommittedValue = null;\n            const {\n              data,\n              target\n            } = event;\n            const {\n              value,\n              selectionStart,\n              selectionEnd\n            } = target;\n            let selStart = selectionStart,\n              selEnd = selectionEnd;\n            switch (event.inputType) {\n              case \"deleteWordBackward\":\n                {\n                  const match = value.substring(0, selectionStart).match(/\\w*[^\\w]*$/);\n                  if (match) {\n                    selStart -= match[0].length;\n                  }\n                  break;\n                }\n              case \"deleteWordForward\":\n                {\n                  const match = value.substring(selectionStart).match(/^[^\\w]*\\w*/);\n                  if (match) {\n                    selEnd += match[0].length;\n                  }\n                  break;\n                }\n              case \"deleteContentBackward\":\n                if (selectionStart === selectionEnd) {\n                  selStart -= 1;\n                }\n                break;\n              case \"deleteContentForward\":\n                if (selectionStart === selectionEnd) {\n                  selEnd += 1;\n                }\n                break;\n            }\n            event.preventDefault();\n            this.linkService.eventBus?.dispatch(\"dispatcheventinsandbox\", {\n              source: this,\n              detail: {\n                id,\n                name: \"Keystroke\",\n                value,\n                change: data || \"\",\n                willCommit: false,\n                selStart,\n                selEnd\n              }\n            });\n          });\n        }\n        this._setEventListeners(element, [[\"focus\", \"Focus\"], [\"blur\", \"Blur\"], [\"mousedown\", \"Mouse Down\"], [\"mouseenter\", \"Mouse Enter\"], [\"mouseleave\", \"Mouse Exit\"], [\"mouseup\", \"Mouse Up\"]], event => event.target.value);\n      }\n      if (blurListener) {\n        element.addEventListener(\"blur\", blurListener);\n      }\n      if (this.data.comb) {\n        const fieldWidth = this.data.rect[2] - this.data.rect[0];\n        const combWidth = fieldWidth / maxLen;\n        element.classList.add(\"comb\");\n        element.style.letterSpacing = `calc(${combWidth}px * var(--scale-factor) - 1ch)`;\n      }\n    } else {\n      element = document.createElement(\"div\");\n      element.textContent = this.data.fieldValue;\n      element.style.verticalAlign = \"middle\";\n      element.style.display = \"table-cell\";\n    }\n    this._setTextStyle(element);\n    this._setBackgroundColor(element);\n    this._setDefaultPropertiesFromJS(element);\n    this.container.append(element);\n    return this.container;\n  }\n}\nclass CheckboxWidgetAnnotationElement extends WidgetAnnotationElement {\n  constructor(parameters) {\n    super(parameters, {\n      isRenderable: parameters.renderForms\n    });\n  }\n  render() {\n    const storage = this.annotationStorage;\n    const data = this.data;\n    const id = data.id;\n    let value = storage.getValue(id, {\n      value: data.exportValue === data.fieldValue\n    }).value;\n    if (typeof value === \"string\") {\n      value = value !== \"Off\";\n      storage.setValue(id, {\n        value\n      });\n    }\n    this.container.className = \"buttonWidgetAnnotation checkBox\";\n    const element = document.createElement(\"input\");\n    GetElementsByNameSet.add(element);\n    element.setAttribute(\"data-element-id\", id);\n    element.disabled = data.readOnly;\n    this._setRequired(element, this.data.required);\n    element.type = \"checkbox\";\n    element.name = data.fieldName;\n    if (value) {\n      element.setAttribute(\"checked\", true);\n    }\n    element.setAttribute(\"exportValue\", data.exportValue);\n    element.tabIndex = DEFAULT_TAB_INDEX;\n    element.addEventListener(\"change\", event => {\n      const {\n        name,\n        checked\n      } = event.target;\n      for (const checkbox of this._getElementsByName(name, id)) {\n        const curChecked = checked && checkbox.exportValue === data.exportValue;\n        if (checkbox.domElement) {\n          checkbox.domElement.checked = curChecked;\n        }\n        storage.setValue(checkbox.id, {\n          value: curChecked\n        });\n      }\n      storage.setValue(id, {\n        value: checked\n      });\n    });\n    element.addEventListener(\"resetform\", event => {\n      const defaultValue = data.defaultFieldValue || \"Off\";\n      event.target.checked = defaultValue === data.exportValue;\n    });\n    if (this.enableScripting && this.hasJSActions) {\n      element.addEventListener(\"updatefromsandbox\", jsEvent => {\n        const actions = {\n          value(event) {\n            event.target.checked = event.detail.value !== \"Off\";\n            storage.setValue(id, {\n              value: event.target.checked\n            });\n          }\n        };\n        this._dispatchEventFromSandbox(actions, jsEvent);\n      });\n      this._setEventListeners(element, [[\"change\", \"Validate\"], [\"change\", \"Action\"], [\"focus\", \"Focus\"], [\"blur\", \"Blur\"], [\"mousedown\", \"Mouse Down\"], [\"mouseenter\", \"Mouse Enter\"], [\"mouseleave\", \"Mouse Exit\"], [\"mouseup\", \"Mouse Up\"]], event => event.target.checked);\n    }\n    this._setBackgroundColor(element);\n    this._setDefaultPropertiesFromJS(element);\n    this.container.append(element);\n    return this.container;\n  }\n}\nclass RadioButtonWidgetAnnotationElement extends WidgetAnnotationElement {\n  constructor(parameters) {\n    super(parameters, {\n      isRenderable: parameters.renderForms\n    });\n  }\n  render() {\n    this.container.className = \"buttonWidgetAnnotation radioButton\";\n    const storage = this.annotationStorage;\n    const data = this.data;\n    const id = data.id;\n    let value = storage.getValue(id, {\n      value: data.fieldValue === data.buttonValue\n    }).value;\n    if (typeof value === \"string\") {\n      value = value !== data.buttonValue;\n      storage.setValue(id, {\n        value\n      });\n    }\n    const element = document.createElement(\"input\");\n    GetElementsByNameSet.add(element);\n    element.setAttribute(\"data-element-id\", id);\n    element.disabled = data.readOnly;\n    this._setRequired(element, this.data.required);\n    element.type = \"radio\";\n    element.name = data.fieldName;\n    if (value) {\n      element.setAttribute(\"checked\", true);\n    }\n    element.tabIndex = DEFAULT_TAB_INDEX;\n    element.addEventListener(\"change\", event => {\n      const {\n        name,\n        checked\n      } = event.target;\n      for (const radio of this._getElementsByName(name, id)) {\n        storage.setValue(radio.id, {\n          value: false\n        });\n      }\n      storage.setValue(id, {\n        value: checked\n      });\n    });\n    element.addEventListener(\"resetform\", event => {\n      const defaultValue = data.defaultFieldValue;\n      event.target.checked = defaultValue !== null && defaultValue !== undefined && defaultValue === data.buttonValue;\n    });\n    if (this.enableScripting && this.hasJSActions) {\n      const pdfButtonValue = data.buttonValue;\n      element.addEventListener(\"updatefromsandbox\", jsEvent => {\n        const actions = {\n          value: event => {\n            const checked = pdfButtonValue === event.detail.value;\n            for (const radio of this._getElementsByName(event.target.name)) {\n              const curChecked = checked && radio.id === id;\n              if (radio.domElement) {\n                radio.domElement.checked = curChecked;\n              }\n              storage.setValue(radio.id, {\n                value: curChecked\n              });\n            }\n          }\n        };\n        this._dispatchEventFromSandbox(actions, jsEvent);\n      });\n      this._setEventListeners(element, [[\"change\", \"Validate\"], [\"change\", \"Action\"], [\"focus\", \"Focus\"], [\"blur\", \"Blur\"], [\"mousedown\", \"Mouse Down\"], [\"mouseenter\", \"Mouse Enter\"], [\"mouseleave\", \"Mouse Exit\"], [\"mouseup\", \"Mouse Up\"]], event => event.target.checked);\n    }\n    this._setBackgroundColor(element);\n    this._setDefaultPropertiesFromJS(element);\n    this.container.append(element);\n    return this.container;\n  }\n}\nclass PushButtonWidgetAnnotationElement extends LinkAnnotationElement {\n  constructor(parameters) {\n    super(parameters, {\n      ignoreBorder: parameters.data.hasAppearance\n    });\n  }\n  render() {\n    const container = super.render();\n    container.className = \"buttonWidgetAnnotation pushButton\";\n    if (this.data.alternativeText) {\n      container.title = this.data.alternativeText;\n    }\n    const linkElement = container.lastChild;\n    if (this.enableScripting && this.hasJSActions && linkElement) {\n      this._setDefaultPropertiesFromJS(linkElement);\n      linkElement.addEventListener(\"updatefromsandbox\", jsEvent => {\n        this._dispatchEventFromSandbox({}, jsEvent);\n      });\n    }\n    return container;\n  }\n}\nclass ChoiceWidgetAnnotationElement extends WidgetAnnotationElement {\n  constructor(parameters) {\n    super(parameters, {\n      isRenderable: parameters.renderForms\n    });\n  }\n  render() {\n    this.container.className = \"choiceWidgetAnnotation\";\n    const storage = this.annotationStorage;\n    const id = this.data.id;\n    const storedData = storage.getValue(id, {\n      value: this.data.fieldValue\n    });\n    const selectElement = document.createElement(\"select\");\n    GetElementsByNameSet.add(selectElement);\n    selectElement.setAttribute(\"data-element-id\", id);\n    selectElement.disabled = this.data.readOnly;\n    this._setRequired(selectElement, this.data.required);\n    selectElement.name = this.data.fieldName;\n    selectElement.tabIndex = DEFAULT_TAB_INDEX;\n    let addAnEmptyEntry = this.data.combo && this.data.options.length > 0;\n    if (!this.data.combo) {\n      selectElement.size = this.data.options.length;\n      if (this.data.multiSelect) {\n        selectElement.multiple = true;\n      }\n    }\n    selectElement.addEventListener(\"resetform\", event => {\n      const defaultValue = this.data.defaultFieldValue;\n      for (const option of selectElement.options) {\n        option.selected = option.value === defaultValue;\n      }\n    });\n    for (const option of this.data.options) {\n      const optionElement = document.createElement(\"option\");\n      optionElement.textContent = option.displayValue;\n      optionElement.value = option.exportValue;\n      if (storedData.value.includes(option.exportValue)) {\n        optionElement.setAttribute(\"selected\", true);\n        addAnEmptyEntry = false;\n      }\n      selectElement.append(optionElement);\n    }\n    let removeEmptyEntry = null;\n    if (addAnEmptyEntry) {\n      const noneOptionElement = document.createElement(\"option\");\n      noneOptionElement.value = \" \";\n      noneOptionElement.setAttribute(\"hidden\", true);\n      noneOptionElement.setAttribute(\"selected\", true);\n      selectElement.prepend(noneOptionElement);\n      removeEmptyEntry = () => {\n        noneOptionElement.remove();\n        selectElement.removeEventListener(\"input\", removeEmptyEntry);\n        removeEmptyEntry = null;\n      };\n      selectElement.addEventListener(\"input\", removeEmptyEntry);\n    }\n    const getValue = isExport => {\n      const name = isExport ? \"value\" : \"textContent\";\n      const {\n        options,\n        multiple\n      } = selectElement;\n      if (!multiple) {\n        return options.selectedIndex === -1 ? null : options[options.selectedIndex][name];\n      }\n      return Array.prototype.filter.call(options, option => option.selected).map(option => option[name]);\n    };\n    let selectedValues = getValue(false);\n    const getItems = event => {\n      const options = event.target.options;\n      return Array.prototype.map.call(options, option => {\n        return {\n          displayValue: option.textContent,\n          exportValue: option.value\n        };\n      });\n    };\n    if (this.enableScripting && this.hasJSActions) {\n      selectElement.addEventListener(\"updatefromsandbox\", jsEvent => {\n        const actions = {\n          value(event) {\n            removeEmptyEntry?.();\n            const value = event.detail.value;\n            const values = new Set(Array.isArray(value) ? value : [value]);\n            for (const option of selectElement.options) {\n              option.selected = values.has(option.value);\n            }\n            storage.setValue(id, {\n              value: getValue(true)\n            });\n            selectedValues = getValue(false);\n          },\n          multipleSelection(event) {\n            selectElement.multiple = true;\n          },\n          remove(event) {\n            const options = selectElement.options;\n            const index = event.detail.remove;\n            options[index].selected = false;\n            selectElement.remove(index);\n            if (options.length > 0) {\n              const i = Array.prototype.findIndex.call(options, option => option.selected);\n              if (i === -1) {\n                options[0].selected = true;\n              }\n            }\n            storage.setValue(id, {\n              value: getValue(true),\n              items: getItems(event)\n            });\n            selectedValues = getValue(false);\n          },\n          clear(event) {\n            while (selectElement.length !== 0) {\n              selectElement.remove(0);\n            }\n            storage.setValue(id, {\n              value: null,\n              items: []\n            });\n            selectedValues = getValue(false);\n          },\n          insert(event) {\n            const {\n              index,\n              displayValue,\n              exportValue\n            } = event.detail.insert;\n            const selectChild = selectElement.children[index];\n            const optionElement = document.createElement(\"option\");\n            optionElement.textContent = displayValue;\n            optionElement.value = exportValue;\n            if (selectChild) {\n              selectChild.before(optionElement);\n            } else {\n              selectElement.append(optionElement);\n            }\n            storage.setValue(id, {\n              value: getValue(true),\n              items: getItems(event)\n            });\n            selectedValues = getValue(false);\n          },\n          items(event) {\n            const {\n              items\n            } = event.detail;\n            while (selectElement.length !== 0) {\n              selectElement.remove(0);\n            }\n            for (const item of items) {\n              const {\n                displayValue,\n                exportValue\n              } = item;\n              const optionElement = document.createElement(\"option\");\n              optionElement.textContent = displayValue;\n              optionElement.value = exportValue;\n              selectElement.append(optionElement);\n            }\n            if (selectElement.options.length > 0) {\n              selectElement.options[0].selected = true;\n            }\n            storage.setValue(id, {\n              value: getValue(true),\n              items: getItems(event)\n            });\n            selectedValues = getValue(false);\n          },\n          indices(event) {\n            const indices = new Set(event.detail.indices);\n            for (const option of event.target.options) {\n              option.selected = indices.has(option.index);\n            }\n            storage.setValue(id, {\n              value: getValue(true)\n            });\n            selectedValues = getValue(false);\n          },\n          editable(event) {\n            event.target.disabled = !event.detail.editable;\n          }\n        };\n        this._dispatchEventFromSandbox(actions, jsEvent);\n      });\n      selectElement.addEventListener(\"input\", event => {\n        const exportValue = getValue(true);\n        storage.setValue(id, {\n          value: exportValue\n        });\n        event.preventDefault();\n        this.linkService.eventBus?.dispatch(\"dispatcheventinsandbox\", {\n          source: this,\n          detail: {\n            id,\n            name: \"Keystroke\",\n            value: selectedValues,\n            changeEx: exportValue,\n            willCommit: false,\n            commitKey: 1,\n            keyDown: false\n          }\n        });\n      });\n      this._setEventListeners(selectElement, [[\"focus\", \"Focus\"], [\"blur\", \"Blur\"], [\"mousedown\", \"Mouse Down\"], [\"mouseenter\", \"Mouse Enter\"], [\"mouseleave\", \"Mouse Exit\"], [\"mouseup\", \"Mouse Up\"], [\"input\", \"Action\"], [\"input\", \"Validate\"]], event => event.target.value);\n    } else {\n      selectElement.addEventListener(\"input\", function (event) {\n        storage.setValue(id, {\n          value: getValue(true)\n        });\n      });\n    }\n    if (this.data.combo) {\n      this._setTextStyle(selectElement);\n    } else {}\n    this._setBackgroundColor(selectElement);\n    this._setDefaultPropertiesFromJS(selectElement);\n    this.container.append(selectElement);\n    return this.container;\n  }\n}\nclass PopupAnnotationElement extends AnnotationElement {\n  static IGNORE_TYPES = new Set([\"Line\", \"Square\", \"Circle\", \"PolyLine\", \"Polygon\", \"Ink\"]);\n  constructor(parameters) {\n    const {\n      data\n    } = parameters;\n    const isRenderable = !PopupAnnotationElement.IGNORE_TYPES.has(data.parentType) && !!(data.titleObj?.str || data.contentsObj?.str || data.richText?.str);\n    super(parameters, {\n      isRenderable\n    });\n  }\n  render() {\n    this.container.className = \"popupAnnotation\";\n    const parentElements = this.layer.querySelectorAll(`[data-annotation-id=\"${this.data.parentId}\"]`);\n    if (parentElements.length === 0) {\n      return this.container;\n    }\n    const popup = new PopupElement({\n      container: this.container,\n      trigger: Array.from(parentElements),\n      color: this.data.color,\n      titleObj: this.data.titleObj,\n      modificationDate: this.data.modificationDate,\n      contentsObj: this.data.contentsObj,\n      richText: this.data.richText\n    });\n    const page = this.page;\n    const rect = _util.Util.normalizeRect([this.data.parentRect[0], page.view[3] - this.data.parentRect[1] + page.view[1], this.data.parentRect[2], page.view[3] - this.data.parentRect[3] + page.view[1]]);\n    const popupLeft = rect[0] + this.data.parentRect[2] - this.data.parentRect[0];\n    const popupTop = rect[1];\n    const {\n      pageWidth,\n      pageHeight,\n      pageX,\n      pageY\n    } = this.viewport.rawDims;\n    this.container.style.left = `${100 * (popupLeft - pageX) / pageWidth}%`;\n    this.container.style.top = `${100 * (popupTop - pageY) / pageHeight}%`;\n    this.container.append(popup.render());\n    return this.container;\n  }\n}\nclass PopupElement {\n  constructor(parameters) {\n    this.container = parameters.container;\n    this.trigger = parameters.trigger;\n    this.color = parameters.color;\n    this.titleObj = parameters.titleObj;\n    this.modificationDate = parameters.modificationDate;\n    this.contentsObj = parameters.contentsObj;\n    this.richText = parameters.richText;\n    this.hideWrapper = parameters.hideWrapper || false;\n    this.pinned = false;\n  }\n  render() {\n    const BACKGROUND_ENLIGHT = 0.7;\n    const wrapper = document.createElement(\"div\");\n    wrapper.className = \"popupWrapper\";\n    this.hideElement = this.hideWrapper ? wrapper : this.container;\n    this.hideElement.hidden = true;\n    const popup = document.createElement(\"div\");\n    popup.className = \"popup\";\n    const color = this.color;\n    if (color) {\n      const r = BACKGROUND_ENLIGHT * (255 - color[0]) + color[0];\n      const g = BACKGROUND_ENLIGHT * (255 - color[1]) + color[1];\n      const b = BACKGROUND_ENLIGHT * (255 - color[2]) + color[2];\n      popup.style.backgroundColor = _util.Util.makeHexColor(r | 0, g | 0, b | 0);\n    }\n    const title = document.createElement(\"h1\");\n    title.dir = this.titleObj.dir;\n    title.textContent = this.titleObj.str;\n    popup.append(title);\n    const dateObject = _display_utils.PDFDateString.toDateObject(this.modificationDate);\n    if (dateObject) {\n      const modificationDate = document.createElement(\"span\");\n      modificationDate.className = \"popupDate\";\n      modificationDate.textContent = \"{{date}}, {{time}}\";\n      modificationDate.dataset.l10nId = \"annotation_date_string\";\n      modificationDate.dataset.l10nArgs = JSON.stringify({\n        date: dateObject.toLocaleDateString(),\n        time: dateObject.toLocaleTimeString()\n      });\n      popup.append(modificationDate);\n    }\n    if (this.richText?.str && (!this.contentsObj?.str || this.contentsObj.str === this.richText.str)) {\n      _xfa_layer.XfaLayer.render({\n        xfaHtml: this.richText.html,\n        intent: \"richText\",\n        div: popup\n      });\n      popup.lastChild.className = \"richText popupContent\";\n    } else {\n      const contents = this._formatContents(this.contentsObj);\n      popup.append(contents);\n    }\n    if (!Array.isArray(this.trigger)) {\n      this.trigger = [this.trigger];\n    }\n    for (const element of this.trigger) {\n      element.addEventListener(\"click\", this._toggle.bind(this));\n      element.addEventListener(\"mouseover\", this._show.bind(this, false));\n      element.addEventListener(\"mouseout\", this._hide.bind(this, false));\n    }\n    popup.addEventListener(\"click\", this._hide.bind(this, true));\n    wrapper.append(popup);\n    return wrapper;\n  }\n  _formatContents({\n    str,\n    dir\n  }) {\n    const p = document.createElement(\"p\");\n    p.className = \"popupContent\";\n    p.dir = dir;\n    const lines = str.split(/(?:\\r\\n?|\\n)/);\n    for (let i = 0, ii = lines.length; i < ii; ++i) {\n      const line = lines[i];\n      p.append(document.createTextNode(line));\n      if (i < ii - 1) {\n        p.append(document.createElement(\"br\"));\n      }\n    }\n    return p;\n  }\n  _toggle() {\n    if (this.pinned) {\n      this._hide(true);\n    } else {\n      this._show(true);\n    }\n  }\n  _show(pin = false) {\n    if (pin) {\n      this.pinned = true;\n    }\n    if (this.hideElement.hidden) {\n      this.hideElement.hidden = false;\n      this.container.style.zIndex = parseInt(this.container.style.zIndex) + 1000;\n    }\n  }\n  _hide(unpin = true) {\n    if (unpin) {\n      this.pinned = false;\n    }\n    if (!this.hideElement.hidden && !this.pinned) {\n      this.hideElement.hidden = true;\n      this.container.style.zIndex = parseInt(this.container.style.zIndex) - 1000;\n    }\n  }\n}\nclass FreeTextAnnotationElement extends AnnotationElement {\n  constructor(parameters) {\n    const isRenderable = !!(parameters.data.hasPopup || parameters.data.titleObj?.str || parameters.data.contentsObj?.str || parameters.data.richText?.str);\n    super(parameters, {\n      isRenderable,\n      ignoreBorder: true\n    });\n    this.textContent = parameters.data.textContent;\n  }\n  render() {\n    this.container.className = \"freeTextAnnotation\";\n    if (this.textContent) {\n      const content = document.createElement(\"div\");\n      content.className = \"annotationTextContent\";\n      content.setAttribute(\"role\", \"comment\");\n      for (const line of this.textContent) {\n        const lineSpan = document.createElement(\"span\");\n        lineSpan.textContent = line;\n        content.append(lineSpan);\n      }\n      this.container.append(content);\n    }\n    if (!this.data.hasPopup) {\n      this._createPopup(null, this.data);\n    }\n    return this.container;\n  }\n}\nclass LineAnnotationElement extends AnnotationElement {\n  constructor(parameters) {\n    const isRenderable = !!(parameters.data.hasPopup || parameters.data.titleObj?.str || parameters.data.contentsObj?.str || parameters.data.richText?.str);\n    super(parameters, {\n      isRenderable,\n      ignoreBorder: true\n    });\n  }\n  render() {\n    this.container.className = \"lineAnnotation\";\n    const data = this.data;\n    const {\n      width,\n      height\n    } = getRectDims(data.rect);\n    const svg = this.svgFactory.create(width, height, true);\n    const line = this.svgFactory.createElement(\"svg:line\");\n    line.setAttribute(\"x1\", data.rect[2] - data.lineCoordinates[0]);\n    line.setAttribute(\"y1\", data.rect[3] - data.lineCoordinates[1]);\n    line.setAttribute(\"x2\", data.rect[2] - data.lineCoordinates[2]);\n    line.setAttribute(\"y2\", data.rect[3] - data.lineCoordinates[3]);\n    line.setAttribute(\"stroke-width\", data.borderStyle.width || 1);\n    line.setAttribute(\"stroke\", \"transparent\");\n    line.setAttribute(\"fill\", \"transparent\");\n    svg.append(line);\n    this.container.append(svg);\n    this._createPopup(line, data);\n    return this.container;\n  }\n}\nclass SquareAnnotationElement extends AnnotationElement {\n  constructor(parameters) {\n    const isRenderable = !!(parameters.data.hasPopup || parameters.data.titleObj?.str || parameters.data.contentsObj?.str || parameters.data.richText?.str);\n    super(parameters, {\n      isRenderable,\n      ignoreBorder: true\n    });\n  }\n  render() {\n    this.container.className = \"squareAnnotation\";\n    const data = this.data;\n    const {\n      width,\n      height\n    } = getRectDims(data.rect);\n    const svg = this.svgFactory.create(width, height, true);\n    const borderWidth = data.borderStyle.width;\n    const square = this.svgFactory.createElement(\"svg:rect\");\n    square.setAttribute(\"x\", borderWidth / 2);\n    square.setAttribute(\"y\", borderWidth / 2);\n    square.setAttribute(\"width\", width - borderWidth);\n    square.setAttribute(\"height\", height - borderWidth);\n    square.setAttribute(\"stroke-width\", borderWidth || 1);\n    square.setAttribute(\"stroke\", \"transparent\");\n    square.setAttribute(\"fill\", \"transparent\");\n    svg.append(square);\n    this.container.append(svg);\n    this._createPopup(square, data);\n    return this.container;\n  }\n}\nclass CircleAnnotationElement extends AnnotationElement {\n  constructor(parameters) {\n    const isRenderable = !!(parameters.data.hasPopup || parameters.data.titleObj?.str || parameters.data.contentsObj?.str || parameters.data.richText?.str);\n    super(parameters, {\n      isRenderable,\n      ignoreBorder: true\n    });\n  }\n  render() {\n    this.container.className = \"circleAnnotation\";\n    const data = this.data;\n    const {\n      width,\n      height\n    } = getRectDims(data.rect);\n    const svg = this.svgFactory.create(width, height, true);\n    const borderWidth = data.borderStyle.width;\n    const circle = this.svgFactory.createElement(\"svg:ellipse\");\n    circle.setAttribute(\"cx\", width / 2);\n    circle.setAttribute(\"cy\", height / 2);\n    circle.setAttribute(\"rx\", width / 2 - borderWidth / 2);\n    circle.setAttribute(\"ry\", height / 2 - borderWidth / 2);\n    circle.setAttribute(\"stroke-width\", borderWidth || 1);\n    circle.setAttribute(\"stroke\", \"transparent\");\n    circle.setAttribute(\"fill\", \"transparent\");\n    svg.append(circle);\n    this.container.append(svg);\n    this._createPopup(circle, data);\n    return this.container;\n  }\n}\nclass PolylineAnnotationElement extends AnnotationElement {\n  constructor(parameters) {\n    const isRenderable = !!(parameters.data.hasPopup || parameters.data.titleObj?.str || parameters.data.contentsObj?.str || parameters.data.richText?.str);\n    super(parameters, {\n      isRenderable,\n      ignoreBorder: true\n    });\n    this.containerClassName = \"polylineAnnotation\";\n    this.svgElementName = \"svg:polyline\";\n  }\n  render() {\n    this.container.className = this.containerClassName;\n    const data = this.data;\n    const {\n      width,\n      height\n    } = getRectDims(data.rect);\n    const svg = this.svgFactory.create(width, height, true);\n    let points = [];\n    for (const coordinate of data.vertices) {\n      const x = coordinate.x - data.rect[0];\n      const y = data.rect[3] - coordinate.y;\n      points.push(x + \",\" + y);\n    }\n    points = points.join(\" \");\n    const polyline = this.svgFactory.createElement(this.svgElementName);\n    polyline.setAttribute(\"points\", points);\n    polyline.setAttribute(\"stroke-width\", data.borderStyle.width || 1);\n    polyline.setAttribute(\"stroke\", \"transparent\");\n    polyline.setAttribute(\"fill\", \"transparent\");\n    svg.append(polyline);\n    this.container.append(svg);\n    this._createPopup(polyline, data);\n    return this.container;\n  }\n}\nclass PolygonAnnotationElement extends PolylineAnnotationElement {\n  constructor(parameters) {\n    super(parameters);\n    this.containerClassName = \"polygonAnnotation\";\n    this.svgElementName = \"svg:polygon\";\n  }\n}\nclass CaretAnnotationElement extends AnnotationElement {\n  constructor(parameters) {\n    const isRenderable = !!(parameters.data.hasPopup || parameters.data.titleObj?.str || parameters.data.contentsObj?.str || parameters.data.richText?.str);\n    super(parameters, {\n      isRenderable,\n      ignoreBorder: true\n    });\n  }\n  render() {\n    this.container.className = \"caretAnnotation\";\n    if (!this.data.hasPopup) {\n      this._createPopup(null, this.data);\n    }\n    return this.container;\n  }\n}\nclass InkAnnotationElement extends AnnotationElement {\n  constructor(parameters) {\n    const isRenderable = !!(parameters.data.hasPopup || parameters.data.titleObj?.str || parameters.data.contentsObj?.str || parameters.data.richText?.str);\n    super(parameters, {\n      isRenderable,\n      ignoreBorder: true\n    });\n    this.containerClassName = \"inkAnnotation\";\n    this.svgElementName = \"svg:polyline\";\n  }\n  render() {\n    this.container.className = this.containerClassName;\n    const data = this.data;\n    const {\n      width,\n      height\n    } = getRectDims(data.rect);\n    const svg = this.svgFactory.create(width, height, true);\n    for (const inkList of data.inkLists) {\n      let points = [];\n      for (const coordinate of inkList) {\n        const x = coordinate.x - data.rect[0];\n        const y = data.rect[3] - coordinate.y;\n        points.push(`${x},${y}`);\n      }\n      points = points.join(\" \");\n      const polyline = this.svgFactory.createElement(this.svgElementName);\n      polyline.setAttribute(\"points\", points);\n      polyline.setAttribute(\"stroke-width\", data.borderStyle.width || 1);\n      polyline.setAttribute(\"stroke\", \"transparent\");\n      polyline.setAttribute(\"fill\", \"transparent\");\n      this._createPopup(polyline, data);\n      svg.append(polyline);\n    }\n    this.container.append(svg);\n    return this.container;\n  }\n}\nclass HighlightAnnotationElement extends AnnotationElement {\n  constructor(parameters) {\n    const isRenderable = !!(parameters.data.hasPopup || parameters.data.titleObj?.str || parameters.data.contentsObj?.str || parameters.data.richText?.str);\n    super(parameters, {\n      isRenderable,\n      ignoreBorder: true,\n      createQuadrilaterals: true\n    });\n  }\n  render() {\n    if (!this.data.hasPopup) {\n      this._createPopup(null, this.data);\n    }\n    if (this.quadrilaterals) {\n      return this._renderQuadrilaterals(\"highlightAnnotation\");\n    }\n    this.container.className = \"highlightAnnotation\";\n    return this.container;\n  }\n}\nclass UnderlineAnnotationElement extends AnnotationElement {\n  constructor(parameters) {\n    const isRenderable = !!(parameters.data.hasPopup || parameters.data.titleObj?.str || parameters.data.contentsObj?.str || parameters.data.richText?.str);\n    super(parameters, {\n      isRenderable,\n      ignoreBorder: true,\n      createQuadrilaterals: true\n    });\n  }\n  render() {\n    if (!this.data.hasPopup) {\n      this._createPopup(null, this.data);\n    }\n    if (this.quadrilaterals) {\n      return this._renderQuadrilaterals(\"underlineAnnotation\");\n    }\n    this.container.className = \"underlineAnnotation\";\n    return this.container;\n  }\n}\nclass SquigglyAnnotationElement extends AnnotationElement {\n  constructor(parameters) {\n    const isRenderable = !!(parameters.data.hasPopup || parameters.data.titleObj?.str || parameters.data.contentsObj?.str || parameters.data.richText?.str);\n    super(parameters, {\n      isRenderable,\n      ignoreBorder: true,\n      createQuadrilaterals: true\n    });\n  }\n  render() {\n    if (!this.data.hasPopup) {\n      this._createPopup(null, this.data);\n    }\n    if (this.quadrilaterals) {\n      return this._renderQuadrilaterals(\"squigglyAnnotation\");\n    }\n    this.container.className = \"squigglyAnnotation\";\n    return this.container;\n  }\n}\nclass StrikeOutAnnotationElement extends AnnotationElement {\n  constructor(parameters) {\n    const isRenderable = !!(parameters.data.hasPopup || parameters.data.titleObj?.str || parameters.data.contentsObj?.str || parameters.data.richText?.str);\n    super(parameters, {\n      isRenderable,\n      ignoreBorder: true,\n      createQuadrilaterals: true\n    });\n  }\n  render() {\n    if (!this.data.hasPopup) {\n      this._createPopup(null, this.data);\n    }\n    if (this.quadrilaterals) {\n      return this._renderQuadrilaterals(\"strikeoutAnnotation\");\n    }\n    this.container.className = \"strikeoutAnnotation\";\n    return this.container;\n  }\n}\nclass StampAnnotationElement extends AnnotationElement {\n  constructor(parameters) {\n    const isRenderable = !!(parameters.data.hasPopup || parameters.data.titleObj?.str || parameters.data.contentsObj?.str || parameters.data.richText?.str);\n    super(parameters, {\n      isRenderable,\n      ignoreBorder: true\n    });\n  }\n  render() {\n    this.container.className = \"stampAnnotation\";\n    if (!this.data.hasPopup) {\n      this._createPopup(null, this.data);\n    }\n    return this.container;\n  }\n}\nclass FileAttachmentAnnotationElement extends AnnotationElement {\n  constructor(parameters) {\n    super(parameters, {\n      isRenderable: true\n    });\n    const {\n      filename,\n      content\n    } = this.data.file;\n    this.filename = (0, _display_utils.getFilenameFromUrl)(filename, true);\n    this.content = content;\n    this.linkService.eventBus?.dispatch(\"fileattachmentannotation\", {\n      source: this,\n      filename,\n      content\n    });\n  }\n  render() {\n    this.container.className = \"fileAttachmentAnnotation\";\n    let trigger;\n    if (this.data.hasAppearance) {\n      trigger = document.createElement(\"div\");\n    } else {\n      trigger = document.createElement(\"img\");\n      trigger.src = `${this.imageResourcesPath}annotation-${/paperclip/i.test(this.data.name) ? \"paperclip\" : \"pushpin\"}.svg`;\n    }\n    trigger.className = \"popupTriggerArea\";\n    trigger.addEventListener(\"dblclick\", this._download.bind(this));\n    if (!this.data.hasPopup && (this.data.titleObj?.str || this.data.contentsObj?.str || this.data.richText)) {\n      this._createPopup(trigger, this.data);\n    }\n    this.container.append(trigger);\n    return this.container;\n  }\n  _download() {\n    this.downloadManager?.openOrDownloadData(this.container, this.content, this.filename);\n  }\n}\nclass AnnotationLayer {\n  static #appendElement(element, id, div, accessibilityManager) {\n    const contentElement = element.firstChild || element;\n    contentElement.id = `${_display_utils.AnnotationPrefix}${id}`;\n    div.append(element);\n    accessibilityManager?.moveElementInDOM(div, element, contentElement, false);\n  }\n  static render(params) {\n    const {\n      annotations,\n      div,\n      viewport,\n      accessibilityManager\n    } = params;\n    (0, _display_utils.setLayerDimensions)(div, viewport);\n    const elementParams = {\n      data: null,\n      layer: div,\n      page: params.page,\n      viewport,\n      linkService: params.linkService,\n      downloadManager: params.downloadManager,\n      imageResourcesPath: params.imageResourcesPath || \"\",\n      renderForms: params.renderForms !== false,\n      svgFactory: new _display_utils.DOMSVGFactory(),\n      annotationStorage: params.annotationStorage || new _annotation_storage.AnnotationStorage(),\n      enableScripting: params.enableScripting === true,\n      hasJSActions: params.hasJSActions,\n      fieldObjects: params.fieldObjects\n    };\n    let zIndex = 0;\n    for (const data of annotations) {\n      if (data.annotationType !== _util.AnnotationType.POPUP) {\n        const {\n          width,\n          height\n        } = getRectDims(data.rect);\n        if (width <= 0 || height <= 0) {\n          continue;\n        }\n      }\n      elementParams.data = data;\n      const element = AnnotationElementFactory.create(elementParams);\n      if (!element.isRenderable) {\n        continue;\n      }\n      const rendered = element.render();\n      if (data.hidden) {\n        rendered.style.visibility = \"hidden\";\n      }\n      if (Array.isArray(rendered)) {\n        for (const renderedElement of rendered) {\n          renderedElement.style.zIndex = zIndex++;\n          AnnotationLayer.#appendElement(renderedElement, data.id, div, accessibilityManager);\n        }\n      } else {\n        rendered.style.zIndex = zIndex++;\n        if (element instanceof PopupAnnotationElement) {\n          div.prepend(rendered);\n        } else {\n          AnnotationLayer.#appendElement(rendered, data.id, div, accessibilityManager);\n        }\n      }\n    }\n    this.#setAnnotationCanvasMap(div, params.annotationCanvasMap);\n  }\n  static update(params) {\n    const {\n      annotationCanvasMap,\n      div,\n      viewport\n    } = params;\n    (0, _display_utils.setLayerDimensions)(div, {\n      rotation: viewport.rotation\n    });\n    this.#setAnnotationCanvasMap(div, annotationCanvasMap);\n    div.hidden = false;\n  }\n  static #setAnnotationCanvasMap(div, annotationCanvasMap) {\n    if (!annotationCanvasMap) {\n      return;\n    }\n    for (const [id, canvas] of annotationCanvasMap) {\n      const element = div.querySelector(`[data-annotation-id=\"${id}\"]`);\n      if (!element) {\n        continue;\n      }\n      const {\n        firstChild\n      } = element;\n      if (!firstChild) {\n        element.append(canvas);\n      } else if (firstChild.nodeName === \"CANVAS\") {\n        firstChild.replaceWith(canvas);\n      } else {\n        firstChild.before(canvas);\n      }\n    }\n    annotationCanvasMap.clear();\n  }\n}\nexports.AnnotationLayer = AnnotationLayer;\n\n/***/ }),\n/* 33 */\n/***/ ((__unused_webpack_module, exports) => {\n\n\n\nObject.defineProperty(exports, \"__esModule\", ({\n  value: true\n}));\nexports.ColorConverters = void 0;\nfunction makeColorComp(n) {\n  return Math.floor(Math.max(0, Math.min(1, n)) * 255).toString(16).padStart(2, \"0\");\n}\nclass ColorConverters {\n  static CMYK_G([c, y, m, k]) {\n    return [\"G\", 1 - Math.min(1, 0.3 * c + 0.59 * m + 0.11 * y + k)];\n  }\n  static G_CMYK([g]) {\n    return [\"CMYK\", 0, 0, 0, 1 - g];\n  }\n  static G_RGB([g]) {\n    return [\"RGB\", g, g, g];\n  }\n  static G_HTML([g]) {\n    const G = makeColorComp(g);\n    return `#${G}${G}${G}`;\n  }\n  static RGB_G([r, g, b]) {\n    return [\"G\", 0.3 * r + 0.59 * g + 0.11 * b];\n  }\n  static RGB_HTML([r, g, b]) {\n    const R = makeColorComp(r);\n    const G = makeColorComp(g);\n    const B = makeColorComp(b);\n    return `#${R}${G}${B}`;\n  }\n  static T_HTML() {\n    return \"#00000000\";\n  }\n  static CMYK_RGB([c, y, m, k]) {\n    return [\"RGB\", 1 - Math.min(1, c + k), 1 - Math.min(1, m + k), 1 - Math.min(1, y + k)];\n  }\n  static CMYK_HTML(components) {\n    const rgb = this.CMYK_RGB(components).slice(1);\n    return this.RGB_HTML(rgb);\n  }\n  static RGB_CMYK([r, g, b]) {\n    const c = 1 - r;\n    const m = 1 - g;\n    const y = 1 - b;\n    const k = Math.min(c, m, y);\n    return [\"CMYK\", c, m, y, k];\n  }\n}\nexports.ColorConverters = ColorConverters;\n\n/***/ }),\n/* 34 */\n/***/ ((__unused_webpack_module, exports, __w_pdfjs_require__) => {\n\n\n\nObject.defineProperty(exports, \"__esModule\", ({\n  value: true\n}));\nexports.XfaLayer = void 0;\nvar _xfa_text = __w_pdfjs_require__(19);\nclass XfaLayer {\n  static setupStorage(html, id, element, storage, intent) {\n    const storedData = storage.getValue(id, {\n      value: null\n    });\n    switch (element.name) {\n      case \"textarea\":\n        if (storedData.value !== null) {\n          html.textContent = storedData.value;\n        }\n        if (intent === \"print\") {\n          break;\n        }\n        html.addEventListener(\"input\", event => {\n          storage.setValue(id, {\n            value: event.target.value\n          });\n        });\n        break;\n      case \"input\":\n        if (element.attributes.type === \"radio\" || element.attributes.type === \"checkbox\") {\n          if (storedData.value === element.attributes.xfaOn) {\n            html.setAttribute(\"checked\", true);\n          } else if (storedData.value === element.attributes.xfaOff) {\n            html.removeAttribute(\"checked\");\n          }\n          if (intent === \"print\") {\n            break;\n          }\n          html.addEventListener(\"change\", event => {\n            storage.setValue(id, {\n              value: event.target.checked ? event.target.getAttribute(\"xfaOn\") : event.target.getAttribute(\"xfaOff\")\n            });\n          });\n        } else {\n          if (storedData.value !== null) {\n            html.setAttribute(\"value\", storedData.value);\n          }\n          if (intent === \"print\") {\n            break;\n          }\n          html.addEventListener(\"input\", event => {\n            storage.setValue(id, {\n              value: event.target.value\n            });\n          });\n        }\n        break;\n      case \"select\":\n        if (storedData.value !== null) {\n          for (const option of element.children) {\n            if (option.attributes.value === storedData.value) {\n              option.attributes.selected = true;\n            }\n          }\n        }\n        html.addEventListener(\"input\", event => {\n          const options = event.target.options;\n          const value = options.selectedIndex === -1 ? \"\" : options[options.selectedIndex].value;\n          storage.setValue(id, {\n            value\n          });\n        });\n        break;\n    }\n  }\n  static setAttributes({\n    html,\n    element,\n    storage = null,\n    intent,\n    linkService\n  }) {\n    const {\n      attributes\n    } = element;\n    const isHTMLAnchorElement = html instanceof HTMLAnchorElement;\n    if (attributes.type === \"radio\") {\n      attributes.name = `${attributes.name}-${intent}`;\n    }\n    for (const [key, value] of Object.entries(attributes)) {\n      if (value === null || value === undefined) {\n        continue;\n      }\n      switch (key) {\n        case \"class\":\n          if (value.length) {\n            html.setAttribute(key, value.join(\" \"));\n          }\n          break;\n        case \"dataId\":\n          break;\n        case \"id\":\n          html.setAttribute(\"data-element-id\", value);\n          break;\n        case \"style\":\n          Object.assign(html.style, value);\n          break;\n        case \"textContent\":\n          html.textContent = value;\n          break;\n        default:\n          if (!isHTMLAnchorElement || key !== \"href\" && key !== \"newWindow\") {\n            html.setAttribute(key, value);\n          }\n      }\n    }\n    if (isHTMLAnchorElement) {\n      linkService.addLinkAttributes(html, attributes.href, attributes.newWindow);\n    }\n    if (storage && attributes.dataId) {\n      this.setupStorage(html, attributes.dataId, element, storage);\n    }\n  }\n  static render(parameters) {\n    const storage = parameters.annotationStorage;\n    const linkService = parameters.linkService;\n    const root = parameters.xfaHtml;\n    const intent = parameters.intent || \"display\";\n    const rootHtml = document.createElement(root.name);\n    if (root.attributes) {\n      this.setAttributes({\n        html: rootHtml,\n        element: root,\n        intent,\n        linkService\n      });\n    }\n    const stack = [[root, -1, rootHtml]];\n    const rootDiv = parameters.div;\n    rootDiv.append(rootHtml);\n    if (parameters.viewport) {\n      const transform = `matrix(${parameters.viewport.transform.join(\",\")})`;\n      rootDiv.style.transform = transform;\n    }\n    if (intent !== \"richText\") {\n      rootDiv.setAttribute(\"class\", \"xfaLayer xfaFont\");\n    }\n    const textDivs = [];\n    while (stack.length > 0) {\n      const [parent, i, html] = stack.at(-1);\n      if (i + 1 === parent.children.length) {\n        stack.pop();\n        continue;\n      }\n      const child = parent.children[++stack.at(-1)[1]];\n      if (child === null) {\n        continue;\n      }\n      const {\n        name\n      } = child;\n      if (name === \"#text\") {\n        const node = document.createTextNode(child.value);\n        textDivs.push(node);\n        html.append(node);\n        continue;\n      }\n      let childHtml;\n      if (child?.attributes?.xmlns) {\n        childHtml = document.createElementNS(child.attributes.xmlns, name);\n      } else {\n        childHtml = document.createElement(name);\n      }\n      html.append(childHtml);\n      if (child.attributes) {\n        this.setAttributes({\n          html: childHtml,\n          element: child,\n          storage,\n          intent,\n          linkService\n        });\n      }\n      if (child.children && child.children.length > 0) {\n        stack.push([child, -1, childHtml]);\n      } else if (child.value) {\n        const node = document.createTextNode(child.value);\n        if (_xfa_text.XfaText.shouldBuildText(name)) {\n          textDivs.push(node);\n        }\n        childHtml.append(node);\n      }\n    }\n    for (const el of rootDiv.querySelectorAll(\".xfaNonInteractive input, .xfaNonInteractive textarea\")) {\n      el.setAttribute(\"readOnly\", true);\n    }\n    return {\n      textDivs\n    };\n  }\n  static update(parameters) {\n    const transform = `matrix(${parameters.viewport.transform.join(\",\")})`;\n    parameters.div.style.transform = transform;\n    parameters.div.hidden = false;\n  }\n}\nexports.XfaLayer = XfaLayer;\n\n/***/ }),\n/* 35 */\n/***/ ((__unused_webpack_module, exports, __w_pdfjs_require__) => {\n\n\n\nObject.defineProperty(exports, \"__esModule\", ({\n  value: true\n}));\nexports.SVGGraphics = void 0;\nvar _display_utils = __w_pdfjs_require__(6);\nvar _util = __w_pdfjs_require__(1);\nvar _is_node = __w_pdfjs_require__(10);\nlet SVGGraphics = class {\n  constructor() {\n    (0, _util.unreachable)(\"Not implemented: SVGGraphics\");\n  }\n};\nexports.SVGGraphics = SVGGraphics;\n{\n  const SVG_DEFAULTS = {\n    fontStyle: \"normal\",\n    fontWeight: \"normal\",\n    fillColor: \"#000000\"\n  };\n  const XML_NS = \"http://www.w3.org/XML/1998/namespace\";\n  const XLINK_NS = \"http://www.w3.org/1999/xlink\";\n  const LINE_CAP_STYLES = [\"butt\", \"round\", \"square\"];\n  const LINE_JOIN_STYLES = [\"miter\", \"round\", \"bevel\"];\n  const createObjectURL = function (data, contentType = \"\", forceDataSchema = false) {\n    if (URL.createObjectURL && typeof Blob !== \"undefined\" && !forceDataSchema) {\n      return URL.createObjectURL(new Blob([data], {\n        type: contentType\n      }));\n    }\n    const digits = \"ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/=\";\n    let buffer = `data:${contentType};base64,`;\n    for (let i = 0, ii = data.length; i < ii; i += 3) {\n      const b1 = data[i] & 0xff;\n      const b2 = data[i + 1] & 0xff;\n      const b3 = data[i + 2] & 0xff;\n      const d1 = b1 >> 2,\n        d2 = (b1 & 3) << 4 | b2 >> 4;\n      const d3 = i + 1 < ii ? (b2 & 0xf) << 2 | b3 >> 6 : 64;\n      const d4 = i + 2 < ii ? b3 & 0x3f : 64;\n      buffer += digits[d1] + digits[d2] + digits[d3] + digits[d4];\n    }\n    return buffer;\n  };\n  const convertImgDataToPng = function () {\n    const PNG_HEADER = new Uint8Array([0x89, 0x50, 0x4e, 0x47, 0x0d, 0x0a, 0x1a, 0x0a]);\n    const CHUNK_WRAPPER_SIZE = 12;\n    const crcTable = new Int32Array(256);\n    for (let i = 0; i < 256; i++) {\n      let c = i;\n      for (let h = 0; h < 8; h++) {\n        if (c & 1) {\n          c = 0xedb88320 ^ c >> 1 & 0x7fffffff;\n        } else {\n          c = c >> 1 & 0x7fffffff;\n        }\n      }\n      crcTable[i] = c;\n    }\n    function crc32(data, start, end) {\n      let crc = -1;\n      for (let i = start; i < end; i++) {\n        const a = (crc ^ data[i]) & 0xff;\n        const b = crcTable[a];\n        crc = crc >>> 8 ^ b;\n      }\n      return crc ^ -1;\n    }\n    function writePngChunk(type, body, data, offset) {\n      let p = offset;\n      const len = body.length;\n      data[p] = len >> 24 & 0xff;\n      data[p + 1] = len >> 16 & 0xff;\n      data[p + 2] = len >> 8 & 0xff;\n      data[p + 3] = len & 0xff;\n      p += 4;\n      data[p] = type.charCodeAt(0) & 0xff;\n      data[p + 1] = type.charCodeAt(1) & 0xff;\n      data[p + 2] = type.charCodeAt(2) & 0xff;\n      data[p + 3] = type.charCodeAt(3) & 0xff;\n      p += 4;\n      data.set(body, p);\n      p += body.length;\n      const crc = crc32(data, offset + 4, p);\n      data[p] = crc >> 24 & 0xff;\n      data[p + 1] = crc >> 16 & 0xff;\n      data[p + 2] = crc >> 8 & 0xff;\n      data[p + 3] = crc & 0xff;\n    }\n    function adler32(data, start, end) {\n      let a = 1;\n      let b = 0;\n      for (let i = start; i < end; ++i) {\n        a = (a + (data[i] & 0xff)) % 65521;\n        b = (b + a) % 65521;\n      }\n      return b << 16 | a;\n    }\n    function deflateSync(literals) {\n      if (!_is_node.isNodeJS) {\n        return deflateSyncUncompressed(literals);\n      }\n      try {\n        let input;\n        if (parseInt(process.versions.node) >= 8) {\n          input = literals;\n        } else {\n          input = Buffer.from(literals);\n        }\n        const output = require(\"zlib\").deflateSync(input, {\n          level: 9\n        });\n        return output instanceof Uint8Array ? output : new Uint8Array(output);\n      } catch (e) {\n        (0, _util.warn)(\"Not compressing PNG because zlib.deflateSync is unavailable: \" + e);\n      }\n      return deflateSyncUncompressed(literals);\n    }\n    function deflateSyncUncompressed(literals) {\n      let len = literals.length;\n      const maxBlockLength = 0xffff;\n      const deflateBlocks = Math.ceil(len / maxBlockLength);\n      const idat = new Uint8Array(2 + len + deflateBlocks * 5 + 4);\n      let pi = 0;\n      idat[pi++] = 0x78;\n      idat[pi++] = 0x9c;\n      let pos = 0;\n      while (len > maxBlockLength) {\n        idat[pi++] = 0x00;\n        idat[pi++] = 0xff;\n        idat[pi++] = 0xff;\n        idat[pi++] = 0x00;\n        idat[pi++] = 0x00;\n        idat.set(literals.subarray(pos, pos + maxBlockLength), pi);\n        pi += maxBlockLength;\n        pos += maxBlockLength;\n        len -= maxBlockLength;\n      }\n      idat[pi++] = 0x01;\n      idat[pi++] = len & 0xff;\n      idat[pi++] = len >> 8 & 0xff;\n      idat[pi++] = ~len & 0xffff & 0xff;\n      idat[pi++] = (~len & 0xffff) >> 8 & 0xff;\n      idat.set(literals.subarray(pos), pi);\n      pi += literals.length - pos;\n      const adler = adler32(literals, 0, literals.length);\n      idat[pi++] = adler >> 24 & 0xff;\n      idat[pi++] = adler >> 16 & 0xff;\n      idat[pi++] = adler >> 8 & 0xff;\n      idat[pi++] = adler & 0xff;\n      return idat;\n    }\n    function encode(imgData, kind, forceDataSchema, isMask) {\n      const width = imgData.width;\n      const height = imgData.height;\n      let bitDepth, colorType, lineSize;\n      const bytes = imgData.data;\n      switch (kind) {\n        case _util.ImageKind.GRAYSCALE_1BPP:\n          colorType = 0;\n          bitDepth = 1;\n          lineSize = width + 7 >> 3;\n          break;\n        case _util.ImageKind.RGB_24BPP:\n          colorType = 2;\n          bitDepth = 8;\n          lineSize = width * 3;\n          break;\n        case _util.ImageKind.RGBA_32BPP:\n          colorType = 6;\n          bitDepth = 8;\n          lineSize = width * 4;\n          break;\n        default:\n          throw new Error(\"invalid format\");\n      }\n      const literals = new Uint8Array((1 + lineSize) * height);\n      let offsetLiterals = 0,\n        offsetBytes = 0;\n      for (let y = 0; y < height; ++y) {\n        literals[offsetLiterals++] = 0;\n        literals.set(bytes.subarray(offsetBytes, offsetBytes + lineSize), offsetLiterals);\n        offsetBytes += lineSize;\n        offsetLiterals += lineSize;\n      }\n      if (kind === _util.ImageKind.GRAYSCALE_1BPP && isMask) {\n        offsetLiterals = 0;\n        for (let y = 0; y < height; y++) {\n          offsetLiterals++;\n          for (let i = 0; i < lineSize; i++) {\n            literals[offsetLiterals++] ^= 0xff;\n          }\n        }\n      }\n      const ihdr = new Uint8Array([width >> 24 & 0xff, width >> 16 & 0xff, width >> 8 & 0xff, width & 0xff, height >> 24 & 0xff, height >> 16 & 0xff, height >> 8 & 0xff, height & 0xff, bitDepth, colorType, 0x00, 0x00, 0x00]);\n      const idat = deflateSync(literals);\n      const pngLength = PNG_HEADER.length + CHUNK_WRAPPER_SIZE * 3 + ihdr.length + idat.length;\n      const data = new Uint8Array(pngLength);\n      let offset = 0;\n      data.set(PNG_HEADER, offset);\n      offset += PNG_HEADER.length;\n      writePngChunk(\"IHDR\", ihdr, data, offset);\n      offset += CHUNK_WRAPPER_SIZE + ihdr.length;\n      writePngChunk(\"IDATA\", idat, data, offset);\n      offset += CHUNK_WRAPPER_SIZE + idat.length;\n      writePngChunk(\"IEND\", new Uint8Array(0), data, offset);\n      return createObjectURL(data, \"image/png\", forceDataSchema);\n    }\n    return function convertImgDataToPng(imgData, forceDataSchema, isMask) {\n      const kind = imgData.kind === undefined ? _util.ImageKind.GRAYSCALE_1BPP : imgData.kind;\n      return encode(imgData, kind, forceDataSchema, isMask);\n    };\n  }();\n  class SVGExtraState {\n    constructor() {\n      this.fontSizeScale = 1;\n      this.fontWeight = SVG_DEFAULTS.fontWeight;\n      this.fontSize = 0;\n      this.textMatrix = _util.IDENTITY_MATRIX;\n      this.fontMatrix = _util.FONT_IDENTITY_MATRIX;\n      this.leading = 0;\n      this.textRenderingMode = _util.TextRenderingMode.FILL;\n      this.textMatrixScale = 1;\n      this.x = 0;\n      this.y = 0;\n      this.lineX = 0;\n      this.lineY = 0;\n      this.charSpacing = 0;\n      this.wordSpacing = 0;\n      this.textHScale = 1;\n      this.textRise = 0;\n      this.fillColor = SVG_DEFAULTS.fillColor;\n      this.strokeColor = \"#000000\";\n      this.fillAlpha = 1;\n      this.strokeAlpha = 1;\n      this.lineWidth = 1;\n      this.lineJoin = \"\";\n      this.lineCap = \"\";\n      this.miterLimit = 0;\n      this.dashArray = [];\n      this.dashPhase = 0;\n      this.dependencies = [];\n      this.activeClipUrl = null;\n      this.clipGroup = null;\n      this.maskId = \"\";\n    }\n    clone() {\n      return Object.create(this);\n    }\n    setCurrentPoint(x, y) {\n      this.x = x;\n      this.y = y;\n    }\n  }\n  function opListToTree(opList) {\n    let opTree = [];\n    const tmp = [];\n    for (const opListElement of opList) {\n      if (opListElement.fn === \"save\") {\n        opTree.push({\n          fnId: 92,\n          fn: \"group\",\n          items: []\n        });\n        tmp.push(opTree);\n        opTree = opTree.at(-1).items;\n        continue;\n      }\n      if (opListElement.fn === \"restore\") {\n        opTree = tmp.pop();\n      } else {\n        opTree.push(opListElement);\n      }\n    }\n    return opTree;\n  }\n  function pf(value) {\n    if (Number.isInteger(value)) {\n      return value.toString();\n    }\n    const s = value.toFixed(10);\n    let i = s.length - 1;\n    if (s[i] !== \"0\") {\n      return s;\n    }\n    do {\n      i--;\n    } while (s[i] === \"0\");\n    return s.substring(0, s[i] === \".\" ? i : i + 1);\n  }\n  function pm(m) {\n    if (m[4] === 0 && m[5] === 0) {\n      if (m[1] === 0 && m[2] === 0) {\n        if (m[0] === 1 && m[3] === 1) {\n          return \"\";\n        }\n        return `scale(${pf(m[0])} ${pf(m[3])})`;\n      }\n      if (m[0] === m[3] && m[1] === -m[2]) {\n        const a = Math.acos(m[0]) * 180 / Math.PI;\n        return `rotate(${pf(a)})`;\n      }\n    } else {\n      if (m[0] === 1 && m[1] === 0 && m[2] === 0 && m[3] === 1) {\n        return `translate(${pf(m[4])} ${pf(m[5])})`;\n      }\n    }\n    return `matrix(${pf(m[0])} ${pf(m[1])} ${pf(m[2])} ${pf(m[3])} ${pf(m[4])} ` + `${pf(m[5])})`;\n  }\n  let clipCount = 0;\n  let maskCount = 0;\n  let shadingCount = 0;\n  exports.SVGGraphics = SVGGraphics = class {\n    constructor(commonObjs, objs, forceDataSchema = false) {\n      (0, _display_utils.deprecated)(\"The SVG back-end is no longer maintained and *may* be removed in the future.\");\n      this.svgFactory = new _display_utils.DOMSVGFactory();\n      this.current = new SVGExtraState();\n      this.transformMatrix = _util.IDENTITY_MATRIX;\n      this.transformStack = [];\n      this.extraStack = [];\n      this.commonObjs = commonObjs;\n      this.objs = objs;\n      this.pendingClip = null;\n      this.pendingEOFill = false;\n      this.embedFonts = false;\n      this.embeddedFonts = Object.create(null);\n      this.cssStyle = null;\n      this.forceDataSchema = !!forceDataSchema;\n      this._operatorIdMapping = [];\n      for (const op in _util.OPS) {\n        this._operatorIdMapping[_util.OPS[op]] = op;\n      }\n    }\n    getObject(data, fallback = null) {\n      if (typeof data === \"string\") {\n        return data.startsWith(\"g_\") ? this.commonObjs.get(data) : this.objs.get(data);\n      }\n      return fallback;\n    }\n    save() {\n      this.transformStack.push(this.transformMatrix);\n      const old = this.current;\n      this.extraStack.push(old);\n      this.current = old.clone();\n    }\n    restore() {\n      this.transformMatrix = this.transformStack.pop();\n      this.current = this.extraStack.pop();\n      this.pendingClip = null;\n      this.tgrp = null;\n    }\n    group(items) {\n      this.save();\n      this.executeOpTree(items);\n      this.restore();\n    }\n    loadDependencies(operatorList) {\n      const fnArray = operatorList.fnArray;\n      const argsArray = operatorList.argsArray;\n      for (let i = 0, ii = fnArray.length; i < ii; i++) {\n        if (fnArray[i] !== _util.OPS.dependency) {\n          continue;\n        }\n        for (const obj of argsArray[i]) {\n          const objsPool = obj.startsWith(\"g_\") ? this.commonObjs : this.objs;\n          const promise = new Promise(resolve => {\n            objsPool.get(obj, resolve);\n          });\n          this.current.dependencies.push(promise);\n        }\n      }\n      return Promise.all(this.current.dependencies);\n    }\n    transform(a, b, c, d, e, f) {\n      const transformMatrix = [a, b, c, d, e, f];\n      this.transformMatrix = _util.Util.transform(this.transformMatrix, transformMatrix);\n      this.tgrp = null;\n    }\n    getSVG(operatorList, viewport) {\n      this.viewport = viewport;\n      const svgElement = this._initialize(viewport);\n      return this.loadDependencies(operatorList).then(() => {\n        this.transformMatrix = _util.IDENTITY_MATRIX;\n        this.executeOpTree(this.convertOpList(operatorList));\n        return svgElement;\n      });\n    }\n    convertOpList(operatorList) {\n      const operatorIdMapping = this._operatorIdMapping;\n      const argsArray = operatorList.argsArray;\n      const fnArray = operatorList.fnArray;\n      const opList = [];\n      for (let i = 0, ii = fnArray.length; i < ii; i++) {\n        const fnId = fnArray[i];\n        opList.push({\n          fnId,\n          fn: operatorIdMapping[fnId],\n          args: argsArray[i]\n        });\n      }\n      return opListToTree(opList);\n    }\n    executeOpTree(opTree) {\n      for (const opTreeElement of opTree) {\n        const fn = opTreeElement.fn;\n        const fnId = opTreeElement.fnId;\n        const args = opTreeElement.args;\n        switch (fnId | 0) {\n          case _util.OPS.beginText:\n            this.beginText();\n            break;\n          case _util.OPS.dependency:\n            break;\n          case _util.OPS.setLeading:\n            this.setLeading(args);\n            break;\n          case _util.OPS.setLeadingMoveText:\n            this.setLeadingMoveText(args[0], args[1]);\n            break;\n          case _util.OPS.setFont:\n            this.setFont(args);\n            break;\n          case _util.OPS.showText:\n            this.showText(args[0]);\n            break;\n          case _util.OPS.showSpacedText:\n            this.showText(args[0]);\n            break;\n          case _util.OPS.endText:\n            this.endText();\n            break;\n          case _util.OPS.moveText:\n            this.moveText(args[0], args[1]);\n            break;\n          case _util.OPS.setCharSpacing:\n            this.setCharSpacing(args[0]);\n            break;\n          case _util.OPS.setWordSpacing:\n            this.setWordSpacing(args[0]);\n            break;\n          case _util.OPS.setHScale:\n            this.setHScale(args[0]);\n            break;\n          case _util.OPS.setTextMatrix:\n            this.setTextMatrix(args[0], args[1], args[2], args[3], args[4], args[5]);\n            break;\n          case _util.OPS.setTextRise:\n            this.setTextRise(args[0]);\n            break;\n          case _util.OPS.setTextRenderingMode:\n            this.setTextRenderingMode(args[0]);\n            break;\n          case _util.OPS.setLineWidth:\n            this.setLineWidth(args[0]);\n            break;\n          case _util.OPS.setLineJoin:\n            this.setLineJoin(args[0]);\n            break;\n          case _util.OPS.setLineCap:\n            this.setLineCap(args[0]);\n            break;\n          case _util.OPS.setMiterLimit:\n            this.setMiterLimit(args[0]);\n            break;\n          case _util.OPS.setFillRGBColor:\n            this.setFillRGBColor(args[0], args[1], args[2]);\n            break;\n          case _util.OPS.setStrokeRGBColor:\n            this.setStrokeRGBColor(args[0], args[1], args[2]);\n            break;\n          case _util.OPS.setStrokeColorN:\n            this.setStrokeColorN(args);\n            break;\n          case _util.OPS.setFillColorN:\n            this.setFillColorN(args);\n            break;\n          case _util.OPS.shadingFill:\n            this.shadingFill(args[0]);\n            break;\n          case _util.OPS.setDash:\n            this.setDash(args[0], args[1]);\n            break;\n          case _util.OPS.setRenderingIntent:\n            this.setRenderingIntent(args[0]);\n            break;\n          case _util.OPS.setFlatness:\n            this.setFlatness(args[0]);\n            break;\n          case _util.OPS.setGState:\n            this.setGState(args[0]);\n            break;\n          case _util.OPS.fill:\n            this.fill();\n            break;\n          case _util.OPS.eoFill:\n            this.eoFill();\n            break;\n          case _util.OPS.stroke:\n            this.stroke();\n            break;\n          case _util.OPS.fillStroke:\n            this.fillStroke();\n            break;\n          case _util.OPS.eoFillStroke:\n            this.eoFillStroke();\n            break;\n          case _util.OPS.clip:\n            this.clip(\"nonzero\");\n            break;\n          case _util.OPS.eoClip:\n            this.clip(\"evenodd\");\n            break;\n          case _util.OPS.paintSolidColorImageMask:\n            this.paintSolidColorImageMask();\n            break;\n          case _util.OPS.paintImageXObject:\n            this.paintImageXObject(args[0]);\n            break;\n          case _util.OPS.paintInlineImageXObject:\n            this.paintInlineImageXObject(args[0]);\n            break;\n          case _util.OPS.paintImageMaskXObject:\n            this.paintImageMaskXObject(args[0]);\n            break;\n          case _util.OPS.paintFormXObjectBegin:\n            this.paintFormXObjectBegin(args[0], args[1]);\n            break;\n          case _util.OPS.paintFormXObjectEnd:\n            this.paintFormXObjectEnd();\n            break;\n          case _util.OPS.closePath:\n            this.closePath();\n            break;\n          case _util.OPS.closeStroke:\n            this.closeStroke();\n            break;\n          case _util.OPS.closeFillStroke:\n            this.closeFillStroke();\n            break;\n          case _util.OPS.closeEOFillStroke:\n            this.closeEOFillStroke();\n            break;\n          case _util.OPS.nextLine:\n            this.nextLine();\n            break;\n          case _util.OPS.transform:\n            this.transform(args[0], args[1], args[2], args[3], args[4], args[5]);\n            break;\n          case _util.OPS.constructPath:\n            this.constructPath(args[0], args[1]);\n            break;\n          case _util.OPS.endPath:\n            this.endPath();\n            break;\n          case 92:\n            this.group(opTreeElement.items);\n            break;\n          default:\n            (0, _util.warn)(`Unimplemented operator ${fn}`);\n            break;\n        }\n      }\n    }\n    setWordSpacing(wordSpacing) {\n      this.current.wordSpacing = wordSpacing;\n    }\n    setCharSpacing(charSpacing) {\n      this.current.charSpacing = charSpacing;\n    }\n    nextLine() {\n      this.moveText(0, this.current.leading);\n    }\n    setTextMatrix(a, b, c, d, e, f) {\n      const current = this.current;\n      current.textMatrix = current.lineMatrix = [a, b, c, d, e, f];\n      current.textMatrixScale = Math.hypot(a, b);\n      current.x = current.lineX = 0;\n      current.y = current.lineY = 0;\n      current.xcoords = [];\n      current.ycoords = [];\n      current.tspan = this.svgFactory.createElement(\"svg:tspan\");\n      current.tspan.setAttributeNS(null, \"font-family\", current.fontFamily);\n      current.tspan.setAttributeNS(null, \"font-size\", `${pf(current.fontSize)}px`);\n      current.tspan.setAttributeNS(null, \"y\", pf(-current.y));\n      current.txtElement = this.svgFactory.createElement(\"svg:text\");\n      current.txtElement.append(current.tspan);\n    }\n    beginText() {\n      const current = this.current;\n      current.x = current.lineX = 0;\n      current.y = current.lineY = 0;\n      current.textMatrix = _util.IDENTITY_MATRIX;\n      current.lineMatrix = _util.IDENTITY_MATRIX;\n      current.textMatrixScale = 1;\n      current.tspan = this.svgFactory.createElement(\"svg:tspan\");\n      current.txtElement = this.svgFactory.createElement(\"svg:text\");\n      current.txtgrp = this.svgFactory.createElement(\"svg:g\");\n      current.xcoords = [];\n      current.ycoords = [];\n    }\n    moveText(x, y) {\n      const current = this.current;\n      current.x = current.lineX += x;\n      current.y = current.lineY += y;\n      current.xcoords = [];\n      current.ycoords = [];\n      current.tspan = this.svgFactory.createElement(\"svg:tspan\");\n      current.tspan.setAttributeNS(null, \"font-family\", current.fontFamily);\n      current.tspan.setAttributeNS(null, \"font-size\", `${pf(current.fontSize)}px`);\n      current.tspan.setAttributeNS(null, \"y\", pf(-current.y));\n    }\n    showText(glyphs) {\n      const current = this.current;\n      const font = current.font;\n      const fontSize = current.fontSize;\n      if (fontSize === 0) {\n        return;\n      }\n      const fontSizeScale = current.fontSizeScale;\n      const charSpacing = current.charSpacing;\n      const wordSpacing = current.wordSpacing;\n      const fontDirection = current.fontDirection;\n      const textHScale = current.textHScale * fontDirection;\n      const vertical = font.vertical;\n      const spacingDir = vertical ? 1 : -1;\n      const defaultVMetrics = font.defaultVMetrics;\n      const widthAdvanceScale = fontSize * current.fontMatrix[0];\n      let x = 0;\n      for (const glyph of glyphs) {\n        if (glyph === null) {\n          x += fontDirection * wordSpacing;\n          continue;\n        } else if (typeof glyph === \"number\") {\n          x += spacingDir * glyph * fontSize / 1000;\n          continue;\n        }\n        const spacing = (glyph.isSpace ? wordSpacing : 0) + charSpacing;\n        const character = glyph.fontChar;\n        let scaledX, scaledY;\n        let width = glyph.width;\n        if (vertical) {\n          let vx;\n          const vmetric = glyph.vmetric || defaultVMetrics;\n          vx = glyph.vmetric ? vmetric[1] : width * 0.5;\n          vx = -vx * widthAdvanceScale;\n          const vy = vmetric[2] * widthAdvanceScale;\n          width = vmetric ? -vmetric[0] : width;\n          scaledX = vx / fontSizeScale;\n          scaledY = (x + vy) / fontSizeScale;\n        } else {\n          scaledX = x / fontSizeScale;\n          scaledY = 0;\n        }\n        if (glyph.isInFont || font.missingFile) {\n          current.xcoords.push(current.x + scaledX);\n          if (vertical) {\n            current.ycoords.push(-current.y + scaledY);\n          }\n          current.tspan.textContent += character;\n        } else {}\n        let charWidth;\n        if (vertical) {\n          charWidth = width * widthAdvanceScale - spacing * fontDirection;\n        } else {\n          charWidth = width * widthAdvanceScale + spacing * fontDirection;\n        }\n        x += charWidth;\n      }\n      current.tspan.setAttributeNS(null, \"x\", current.xcoords.map(pf).join(\" \"));\n      if (vertical) {\n        current.tspan.setAttributeNS(null, \"y\", current.ycoords.map(pf).join(\" \"));\n      } else {\n        current.tspan.setAttributeNS(null, \"y\", pf(-current.y));\n      }\n      if (vertical) {\n        current.y -= x;\n      } else {\n        current.x += x * textHScale;\n      }\n      current.tspan.setAttributeNS(null, \"font-family\", current.fontFamily);\n      current.tspan.setAttributeNS(null, \"font-size\", `${pf(current.fontSize)}px`);\n      if (current.fontStyle !== SVG_DEFAULTS.fontStyle) {\n        current.tspan.setAttributeNS(null, \"font-style\", current.fontStyle);\n      }\n      if (current.fontWeight !== SVG_DEFAULTS.fontWeight) {\n        current.tspan.setAttributeNS(null, \"font-weight\", current.fontWeight);\n      }\n      const fillStrokeMode = current.textRenderingMode & _util.TextRenderingMode.FILL_STROKE_MASK;\n      if (fillStrokeMode === _util.TextRenderingMode.FILL || fillStrokeMode === _util.TextRenderingMode.FILL_STROKE) {\n        if (current.fillColor !== SVG_DEFAULTS.fillColor) {\n          current.tspan.setAttributeNS(null, \"fill\", current.fillColor);\n        }\n        if (current.fillAlpha < 1) {\n          current.tspan.setAttributeNS(null, \"fill-opacity\", current.fillAlpha);\n        }\n      } else if (current.textRenderingMode === _util.TextRenderingMode.ADD_TO_PATH) {\n        current.tspan.setAttributeNS(null, \"fill\", \"transparent\");\n      } else {\n        current.tspan.setAttributeNS(null, \"fill\", \"none\");\n      }\n      if (fillStrokeMode === _util.TextRenderingMode.STROKE || fillStrokeMode === _util.TextRenderingMode.FILL_STROKE) {\n        const lineWidthScale = 1 / (current.textMatrixScale || 1);\n        this._setStrokeAttributes(current.tspan, lineWidthScale);\n      }\n      let textMatrix = current.textMatrix;\n      if (current.textRise !== 0) {\n        textMatrix = textMatrix.slice();\n        textMatrix[5] += current.textRise;\n      }\n      current.txtElement.setAttributeNS(null, \"transform\", `${pm(textMatrix)} scale(${pf(textHScale)}, -1)`);\n      current.txtElement.setAttributeNS(XML_NS, \"xml:space\", \"preserve\");\n      current.txtElement.append(current.tspan);\n      current.txtgrp.append(current.txtElement);\n      this._ensureTransformGroup().append(current.txtElement);\n    }\n    setLeadingMoveText(x, y) {\n      this.setLeading(-y);\n      this.moveText(x, y);\n    }\n    addFontStyle(fontObj) {\n      if (!fontObj.data) {\n        throw new Error(\"addFontStyle: No font data available, \" + 'ensure that the \"fontExtraProperties\" API parameter is set.');\n      }\n      if (!this.cssStyle) {\n        this.cssStyle = this.svgFactory.createElement(\"svg:style\");\n        this.cssStyle.setAttributeNS(null, \"type\", \"text/css\");\n        this.defs.append(this.cssStyle);\n      }\n      const url = createObjectURL(fontObj.data, fontObj.mimetype, this.forceDataSchema);\n      this.cssStyle.textContent += `@font-face { font-family: \"${fontObj.loadedName}\";` + ` src: url(${url}); }\\n`;\n    }\n    setFont(details) {\n      const current = this.current;\n      const fontObj = this.commonObjs.get(details[0]);\n      let size = details[1];\n      current.font = fontObj;\n      if (this.embedFonts && !fontObj.missingFile && !this.embeddedFonts[fontObj.loadedName]) {\n        this.addFontStyle(fontObj);\n        this.embeddedFonts[fontObj.loadedName] = fontObj;\n      }\n      current.fontMatrix = fontObj.fontMatrix || _util.FONT_IDENTITY_MATRIX;\n      let bold = \"normal\";\n      if (fontObj.black) {\n        bold = \"900\";\n      } else if (fontObj.bold) {\n        bold = \"bold\";\n      }\n      const italic = fontObj.italic ? \"italic\" : \"normal\";\n      if (size < 0) {\n        size = -size;\n        current.fontDirection = -1;\n      } else {\n        current.fontDirection = 1;\n      }\n      current.fontSize = size;\n      current.fontFamily = fontObj.loadedName;\n      current.fontWeight = bold;\n      current.fontStyle = italic;\n      current.tspan = this.svgFactory.createElement(\"svg:tspan\");\n      current.tspan.setAttributeNS(null, \"y\", pf(-current.y));\n      current.xcoords = [];\n      current.ycoords = [];\n    }\n    endText() {\n      const current = this.current;\n      if (current.textRenderingMode & _util.TextRenderingMode.ADD_TO_PATH_FLAG && current.txtElement?.hasChildNodes()) {\n        current.element = current.txtElement;\n        this.clip(\"nonzero\");\n        this.endPath();\n      }\n    }\n    setLineWidth(width) {\n      if (width > 0) {\n        this.current.lineWidth = width;\n      }\n    }\n    setLineCap(style) {\n      this.current.lineCap = LINE_CAP_STYLES[style];\n    }\n    setLineJoin(style) {\n      this.current.lineJoin = LINE_JOIN_STYLES[style];\n    }\n    setMiterLimit(limit) {\n      this.current.miterLimit = limit;\n    }\n    setStrokeAlpha(strokeAlpha) {\n      this.current.strokeAlpha = strokeAlpha;\n    }\n    setStrokeRGBColor(r, g, b) {\n      this.current.strokeColor = _util.Util.makeHexColor(r, g, b);\n    }\n    setFillAlpha(fillAlpha) {\n      this.current.fillAlpha = fillAlpha;\n    }\n    setFillRGBColor(r, g, b) {\n      this.current.fillColor = _util.Util.makeHexColor(r, g, b);\n      this.current.tspan = this.svgFactory.createElement(\"svg:tspan\");\n      this.current.xcoords = [];\n      this.current.ycoords = [];\n    }\n    setStrokeColorN(args) {\n      this.current.strokeColor = this._makeColorN_Pattern(args);\n    }\n    setFillColorN(args) {\n      this.current.fillColor = this._makeColorN_Pattern(args);\n    }\n    shadingFill(args) {\n      const width = this.viewport.width;\n      const height = this.viewport.height;\n      const inv = _util.Util.inverseTransform(this.transformMatrix);\n      const bl = _util.Util.applyTransform([0, 0], inv);\n      const br = _util.Util.applyTransform([0, height], inv);\n      const ul = _util.Util.applyTransform([width, 0], inv);\n      const ur = _util.Util.applyTransform([width, height], inv);\n      const x0 = Math.min(bl[0], br[0], ul[0], ur[0]);\n      const y0 = Math.min(bl[1], br[1], ul[1], ur[1]);\n      const x1 = Math.max(bl[0], br[0], ul[0], ur[0]);\n      const y1 = Math.max(bl[1], br[1], ul[1], ur[1]);\n      const rect = this.svgFactory.createElement(\"svg:rect\");\n      rect.setAttributeNS(null, \"x\", x0);\n      rect.setAttributeNS(null, \"y\", y0);\n      rect.setAttributeNS(null, \"width\", x1 - x0);\n      rect.setAttributeNS(null, \"height\", y1 - y0);\n      rect.setAttributeNS(null, \"fill\", this._makeShadingPattern(args));\n      if (this.current.fillAlpha < 1) {\n        rect.setAttributeNS(null, \"fill-opacity\", this.current.fillAlpha);\n      }\n      this._ensureTransformGroup().append(rect);\n    }\n    _makeColorN_Pattern(args) {\n      if (args[0] === \"TilingPattern\") {\n        return this._makeTilingPattern(args);\n      }\n      return this._makeShadingPattern(args);\n    }\n    _makeTilingPattern(args) {\n      const color = args[1];\n      const operatorList = args[2];\n      const matrix = args[3] || _util.IDENTITY_MATRIX;\n      const [x0, y0, x1, y1] = args[4];\n      const xstep = args[5];\n      const ystep = args[6];\n      const paintType = args[7];\n      const tilingId = `shading${shadingCount++}`;\n      const [tx0, ty0, tx1, ty1] = _util.Util.normalizeRect([..._util.Util.applyTransform([x0, y0], matrix), ..._util.Util.applyTransform([x1, y1], matrix)]);\n      const [xscale, yscale] = _util.Util.singularValueDecompose2dScale(matrix);\n      const txstep = xstep * xscale;\n      const tystep = ystep * yscale;\n      const tiling = this.svgFactory.createElement(\"svg:pattern\");\n      tiling.setAttributeNS(null, \"id\", tilingId);\n      tiling.setAttributeNS(null, \"patternUnits\", \"userSpaceOnUse\");\n      tiling.setAttributeNS(null, \"width\", txstep);\n      tiling.setAttributeNS(null, \"height\", tystep);\n      tiling.setAttributeNS(null, \"x\", `${tx0}`);\n      tiling.setAttributeNS(null, \"y\", `${ty0}`);\n      const svg = this.svg;\n      const transformMatrix = this.transformMatrix;\n      const fillColor = this.current.fillColor;\n      const strokeColor = this.current.strokeColor;\n      const bbox = this.svgFactory.create(tx1 - tx0, ty1 - ty0);\n      this.svg = bbox;\n      this.transformMatrix = matrix;\n      if (paintType === 2) {\n        const cssColor = _util.Util.makeHexColor(...color);\n        this.current.fillColor = cssColor;\n        this.current.strokeColor = cssColor;\n      }\n      this.executeOpTree(this.convertOpList(operatorList));\n      this.svg = svg;\n      this.transformMatrix = transformMatrix;\n      this.current.fillColor = fillColor;\n      this.current.strokeColor = strokeColor;\n      tiling.append(bbox.childNodes[0]);\n      this.defs.append(tiling);\n      return `url(#${tilingId})`;\n    }\n    _makeShadingPattern(args) {\n      if (typeof args === \"string\") {\n        args = this.objs.get(args);\n      }\n      switch (args[0]) {\n        case \"RadialAxial\":\n          const shadingId = `shading${shadingCount++}`;\n          const colorStops = args[3];\n          let gradient;\n          switch (args[1]) {\n            case \"axial\":\n              const point0 = args[4];\n              const point1 = args[5];\n              gradient = this.svgFactory.createElement(\"svg:linearGradient\");\n              gradient.setAttributeNS(null, \"id\", shadingId);\n              gradient.setAttributeNS(null, \"gradientUnits\", \"userSpaceOnUse\");\n              gradient.setAttributeNS(null, \"x1\", point0[0]);\n              gradient.setAttributeNS(null, \"y1\", point0[1]);\n              gradient.setAttributeNS(null, \"x2\", point1[0]);\n              gradient.setAttributeNS(null, \"y2\", point1[1]);\n              break;\n            case \"radial\":\n              const focalPoint = args[4];\n              const circlePoint = args[5];\n              const focalRadius = args[6];\n              const circleRadius = args[7];\n              gradient = this.svgFactory.createElement(\"svg:radialGradient\");\n              gradient.setAttributeNS(null, \"id\", shadingId);\n              gradient.setAttributeNS(null, \"gradientUnits\", \"userSpaceOnUse\");\n              gradient.setAttributeNS(null, \"cx\", circlePoint[0]);\n              gradient.setAttributeNS(null, \"cy\", circlePoint[1]);\n              gradient.setAttributeNS(null, \"r\", circleRadius);\n              gradient.setAttributeNS(null, \"fx\", focalPoint[0]);\n              gradient.setAttributeNS(null, \"fy\", focalPoint[1]);\n              gradient.setAttributeNS(null, \"fr\", focalRadius);\n              break;\n            default:\n              throw new Error(`Unknown RadialAxial type: ${args[1]}`);\n          }\n          for (const colorStop of colorStops) {\n            const stop = this.svgFactory.createElement(\"svg:stop\");\n            stop.setAttributeNS(null, \"offset\", colorStop[0]);\n            stop.setAttributeNS(null, \"stop-color\", colorStop[1]);\n            gradient.append(stop);\n          }\n          this.defs.append(gradient);\n          return `url(#${shadingId})`;\n        case \"Mesh\":\n          (0, _util.warn)(\"Unimplemented pattern Mesh\");\n          return null;\n        case \"Dummy\":\n          return \"hotpink\";\n        default:\n          throw new Error(`Unknown IR type: ${args[0]}`);\n      }\n    }\n    setDash(dashArray, dashPhase) {\n      this.current.dashArray = dashArray;\n      this.current.dashPhase = dashPhase;\n    }\n    constructPath(ops, args) {\n      const current = this.current;\n      let x = current.x,\n        y = current.y;\n      let d = [];\n      let j = 0;\n      for (const op of ops) {\n        switch (op | 0) {\n          case _util.OPS.rectangle:\n            x = args[j++];\n            y = args[j++];\n            const width = args[j++];\n            const height = args[j++];\n            const xw = x + width;\n            const yh = y + height;\n            d.push(\"M\", pf(x), pf(y), \"L\", pf(xw), pf(y), \"L\", pf(xw), pf(yh), \"L\", pf(x), pf(yh), \"Z\");\n            break;\n          case _util.OPS.moveTo:\n            x = args[j++];\n            y = args[j++];\n            d.push(\"M\", pf(x), pf(y));\n            break;\n          case _util.OPS.lineTo:\n            x = args[j++];\n            y = args[j++];\n            d.push(\"L\", pf(x), pf(y));\n            break;\n          case _util.OPS.curveTo:\n            x = args[j + 4];\n            y = args[j + 5];\n            d.push(\"C\", pf(args[j]), pf(args[j + 1]), pf(args[j + 2]), pf(args[j + 3]), pf(x), pf(y));\n            j += 6;\n            break;\n          case _util.OPS.curveTo2:\n            d.push(\"C\", pf(x), pf(y), pf(args[j]), pf(args[j + 1]), pf(args[j + 2]), pf(args[j + 3]));\n            x = args[j + 2];\n            y = args[j + 3];\n            j += 4;\n            break;\n          case _util.OPS.curveTo3:\n            x = args[j + 2];\n            y = args[j + 3];\n            d.push(\"C\", pf(args[j]), pf(args[j + 1]), pf(x), pf(y), pf(x), pf(y));\n            j += 4;\n            break;\n          case _util.OPS.closePath:\n            d.push(\"Z\");\n            break;\n        }\n      }\n      d = d.join(\" \");\n      if (current.path && ops.length > 0 && ops[0] !== _util.OPS.rectangle && ops[0] !== _util.OPS.moveTo) {\n        d = current.path.getAttributeNS(null, \"d\") + d;\n      } else {\n        current.path = this.svgFactory.createElement(\"svg:path\");\n        this._ensureTransformGroup().append(current.path);\n      }\n      current.path.setAttributeNS(null, \"d\", d);\n      current.path.setAttributeNS(null, \"fill\", \"none\");\n      current.element = current.path;\n      current.setCurrentPoint(x, y);\n    }\n    endPath() {\n      const current = this.current;\n      current.path = null;\n      if (!this.pendingClip) {\n        return;\n      }\n      if (!current.element) {\n        this.pendingClip = null;\n        return;\n      }\n      const clipId = `clippath${clipCount++}`;\n      const clipPath = this.svgFactory.createElement(\"svg:clipPath\");\n      clipPath.setAttributeNS(null, \"id\", clipId);\n      clipPath.setAttributeNS(null, \"transform\", pm(this.transformMatrix));\n      const clipElement = current.element.cloneNode(true);\n      if (this.pendingClip === \"evenodd\") {\n        clipElement.setAttributeNS(null, \"clip-rule\", \"evenodd\");\n      } else {\n        clipElement.setAttributeNS(null, \"clip-rule\", \"nonzero\");\n      }\n      this.pendingClip = null;\n      clipPath.append(clipElement);\n      this.defs.append(clipPath);\n      if (current.activeClipUrl) {\n        current.clipGroup = null;\n        for (const prev of this.extraStack) {\n          prev.clipGroup = null;\n        }\n        clipPath.setAttributeNS(null, \"clip-path\", current.activeClipUrl);\n      }\n      current.activeClipUrl = `url(#${clipId})`;\n      this.tgrp = null;\n    }\n    clip(type) {\n      this.pendingClip = type;\n    }\n    closePath() {\n      const current = this.current;\n      if (current.path) {\n        const d = `${current.path.getAttributeNS(null, \"d\")}Z`;\n        current.path.setAttributeNS(null, \"d\", d);\n      }\n    }\n    setLeading(leading) {\n      this.current.leading = -leading;\n    }\n    setTextRise(textRise) {\n      this.current.textRise = textRise;\n    }\n    setTextRenderingMode(textRenderingMode) {\n      this.current.textRenderingMode = textRenderingMode;\n    }\n    setHScale(scale) {\n      this.current.textHScale = scale / 100;\n    }\n    setRenderingIntent(intent) {}\n    setFlatness(flatness) {}\n    setGState(states) {\n      for (const [key, value] of states) {\n        switch (key) {\n          case \"LW\":\n            this.setLineWidth(value);\n            break;\n          case \"LC\":\n            this.setLineCap(value);\n            break;\n          case \"LJ\":\n            this.setLineJoin(value);\n            break;\n          case \"ML\":\n            this.setMiterLimit(value);\n            break;\n          case \"D\":\n            this.setDash(value[0], value[1]);\n            break;\n          case \"RI\":\n            this.setRenderingIntent(value);\n            break;\n          case \"FL\":\n            this.setFlatness(value);\n            break;\n          case \"Font\":\n            this.setFont(value);\n            break;\n          case \"CA\":\n            this.setStrokeAlpha(value);\n            break;\n          case \"ca\":\n            this.setFillAlpha(value);\n            break;\n          default:\n            (0, _util.warn)(`Unimplemented graphic state operator ${key}`);\n            break;\n        }\n      }\n    }\n    fill() {\n      const current = this.current;\n      if (current.element) {\n        current.element.setAttributeNS(null, \"fill\", current.fillColor);\n        current.element.setAttributeNS(null, \"fill-opacity\", current.fillAlpha);\n        this.endPath();\n      }\n    }\n    stroke() {\n      const current = this.current;\n      if (current.element) {\n        this._setStrokeAttributes(current.element);\n        current.element.setAttributeNS(null, \"fill\", \"none\");\n        this.endPath();\n      }\n    }\n    _setStrokeAttributes(element, lineWidthScale = 1) {\n      const current = this.current;\n      let dashArray = current.dashArray;\n      if (lineWidthScale !== 1 && dashArray.length > 0) {\n        dashArray = dashArray.map(function (value) {\n          return lineWidthScale * value;\n        });\n      }\n      element.setAttributeNS(null, \"stroke\", current.strokeColor);\n      element.setAttributeNS(null, \"stroke-opacity\", current.strokeAlpha);\n      element.setAttributeNS(null, \"stroke-miterlimit\", pf(current.miterLimit));\n      element.setAttributeNS(null, \"stroke-linecap\", current.lineCap);\n      element.setAttributeNS(null, \"stroke-linejoin\", current.lineJoin);\n      element.setAttributeNS(null, \"stroke-width\", pf(lineWidthScale * current.lineWidth) + \"px\");\n      element.setAttributeNS(null, \"stroke-dasharray\", dashArray.map(pf).join(\" \"));\n      element.setAttributeNS(null, \"stroke-dashoffset\", pf(lineWidthScale * current.dashPhase) + \"px\");\n    }\n    eoFill() {\n      this.current.element?.setAttributeNS(null, \"fill-rule\", \"evenodd\");\n      this.fill();\n    }\n    fillStroke() {\n      this.stroke();\n      this.fill();\n    }\n    eoFillStroke() {\n      this.current.element?.setAttributeNS(null, \"fill-rule\", \"evenodd\");\n      this.fillStroke();\n    }\n    closeStroke() {\n      this.closePath();\n      this.stroke();\n    }\n    closeFillStroke() {\n      this.closePath();\n      this.fillStroke();\n    }\n    closeEOFillStroke() {\n      this.closePath();\n      this.eoFillStroke();\n    }\n    paintSolidColorImageMask() {\n      const rect = this.svgFactory.createElement(\"svg:rect\");\n      rect.setAttributeNS(null, \"x\", \"0\");\n      rect.setAttributeNS(null, \"y\", \"0\");\n      rect.setAttributeNS(null, \"width\", \"1px\");\n      rect.setAttributeNS(null, \"height\", \"1px\");\n      rect.setAttributeNS(null, \"fill\", this.current.fillColor);\n      this._ensureTransformGroup().append(rect);\n    }\n    paintImageXObject(objId) {\n      const imgData = this.getObject(objId);\n      if (!imgData) {\n        (0, _util.warn)(`Dependent image with object ID ${objId} is not ready yet`);\n        return;\n      }\n      this.paintInlineImageXObject(imgData);\n    }\n    paintInlineImageXObject(imgData, mask) {\n      const width = imgData.width;\n      const height = imgData.height;\n      const imgSrc = convertImgDataToPng(imgData, this.forceDataSchema, !!mask);\n      const cliprect = this.svgFactory.createElement(\"svg:rect\");\n      cliprect.setAttributeNS(null, \"x\", \"0\");\n      cliprect.setAttributeNS(null, \"y\", \"0\");\n      cliprect.setAttributeNS(null, \"width\", pf(width));\n      cliprect.setAttributeNS(null, \"height\", pf(height));\n      this.current.element = cliprect;\n      this.clip(\"nonzero\");\n      const imgEl = this.svgFactory.createElement(\"svg:image\");\n      imgEl.setAttributeNS(XLINK_NS, \"xlink:href\", imgSrc);\n      imgEl.setAttributeNS(null, \"x\", \"0\");\n      imgEl.setAttributeNS(null, \"y\", pf(-height));\n      imgEl.setAttributeNS(null, \"width\", pf(width) + \"px\");\n      imgEl.setAttributeNS(null, \"height\", pf(height) + \"px\");\n      imgEl.setAttributeNS(null, \"transform\", `scale(${pf(1 / width)} ${pf(-1 / height)})`);\n      if (mask) {\n        mask.append(imgEl);\n      } else {\n        this._ensureTransformGroup().append(imgEl);\n      }\n    }\n    paintImageMaskXObject(img) {\n      const imgData = this.getObject(img.data, img);\n      if (imgData.bitmap) {\n        (0, _util.warn)(\"paintImageMaskXObject: ImageBitmap support is not implemented, \" + \"ensure that the `isOffscreenCanvasSupported` API parameter is disabled.\");\n        return;\n      }\n      const current = this.current;\n      const width = imgData.width;\n      const height = imgData.height;\n      const fillColor = current.fillColor;\n      current.maskId = `mask${maskCount++}`;\n      const mask = this.svgFactory.createElement(\"svg:mask\");\n      mask.setAttributeNS(null, \"id\", current.maskId);\n      const rect = this.svgFactory.createElement(\"svg:rect\");\n      rect.setAttributeNS(null, \"x\", \"0\");\n      rect.setAttributeNS(null, \"y\", \"0\");\n      rect.setAttributeNS(null, \"width\", pf(width));\n      rect.setAttributeNS(null, \"height\", pf(height));\n      rect.setAttributeNS(null, \"fill\", fillColor);\n      rect.setAttributeNS(null, \"mask\", `url(#${current.maskId})`);\n      this.defs.append(mask);\n      this._ensureTransformGroup().append(rect);\n      this.paintInlineImageXObject(imgData, mask);\n    }\n    paintFormXObjectBegin(matrix, bbox) {\n      if (Array.isArray(matrix) && matrix.length === 6) {\n        this.transform(matrix[0], matrix[1], matrix[2], matrix[3], matrix[4], matrix[5]);\n      }\n      if (bbox) {\n        const width = bbox[2] - bbox[0];\n        const height = bbox[3] - bbox[1];\n        const cliprect = this.svgFactory.createElement(\"svg:rect\");\n        cliprect.setAttributeNS(null, \"x\", bbox[0]);\n        cliprect.setAttributeNS(null, \"y\", bbox[1]);\n        cliprect.setAttributeNS(null, \"width\", pf(width));\n        cliprect.setAttributeNS(null, \"height\", pf(height));\n        this.current.element = cliprect;\n        this.clip(\"nonzero\");\n        this.endPath();\n      }\n    }\n    paintFormXObjectEnd() {}\n    _initialize(viewport) {\n      const svg = this.svgFactory.create(viewport.width, viewport.height);\n      const definitions = this.svgFactory.createElement(\"svg:defs\");\n      svg.append(definitions);\n      this.defs = definitions;\n      const rootGroup = this.svgFactory.createElement(\"svg:g\");\n      rootGroup.setAttributeNS(null, \"transform\", pm(viewport.transform));\n      svg.append(rootGroup);\n      this.svg = rootGroup;\n      return svg;\n    }\n    _ensureClipGroup() {\n      if (!this.current.clipGroup) {\n        const clipGroup = this.svgFactory.createElement(\"svg:g\");\n        clipGroup.setAttributeNS(null, \"clip-path\", this.current.activeClipUrl);\n        this.svg.append(clipGroup);\n        this.current.clipGroup = clipGroup;\n      }\n      return this.current.clipGroup;\n    }\n    _ensureTransformGroup() {\n      if (!this.tgrp) {\n        this.tgrp = this.svgFactory.createElement(\"svg:g\");\n        this.tgrp.setAttributeNS(null, \"transform\", pm(this.transformMatrix));\n        if (this.current.activeClipUrl) {\n          this._ensureClipGroup().append(this.tgrp);\n        } else {\n          this.svg.append(this.tgrp);\n        }\n      }\n      return this.tgrp;\n    }\n  };\n}\n\n/***/ })\n/******/ \t]);\n/************************************************************************/\n/******/ \t// The module cache\n/******/ \tvar __webpack_module_cache__ = {};\n/******/ \t\n/******/ \t// The require function\n/******/ \tfunction __w_pdfjs_require__(moduleId) {\n/******/ \t\t// Check if module is in cache\n/******/ \t\tvar cachedModule = __webpack_module_cache__[moduleId];\n/******/ \t\tif (cachedModule !== undefined) {\n/******/ \t\t\treturn cachedModule.exports;\n/******/ \t\t}\n/******/ \t\t// Create a new module (and put it into the cache)\n/******/ \t\tvar module = __webpack_module_cache__[moduleId] = {\n/******/ \t\t\t// no module.id needed\n/******/ \t\t\t// no module.loaded needed\n/******/ \t\t\texports: {}\n/******/ \t\t};\n/******/ \t\n/******/ \t\t// Execute the module function\n/******/ \t\t__webpack_modules__[moduleId](module, module.exports, __w_pdfjs_require__);\n/******/ \t\n/******/ \t\t// Return the exports of the module\n/******/ \t\treturn module.exports;\n/******/ \t}\n/******/ \t\n/************************************************************************/\nvar __webpack_exports__ = {};\n// This entry need to be wrapped in an IIFE because it need to be isolated against other modules in the chunk.\n(() => {\nvar exports = __webpack_exports__;\n\n\nObject.defineProperty(exports, \"__esModule\", ({\n  value: true\n}));\nObject.defineProperty(exports, \"AbortException\", ({\n  enumerable: true,\n  get: function () {\n    return _util.AbortException;\n  }\n}));\nObject.defineProperty(exports, \"AnnotationEditorLayer\", ({\n  enumerable: true,\n  get: function () {\n    return _annotation_editor_layer.AnnotationEditorLayer;\n  }\n}));\nObject.defineProperty(exports, \"AnnotationEditorParamsType\", ({\n  enumerable: true,\n  get: function () {\n    return _util.AnnotationEditorParamsType;\n  }\n}));\nObject.defineProperty(exports, \"AnnotationEditorType\", ({\n  enumerable: true,\n  get: function () {\n    return _util.AnnotationEditorType;\n  }\n}));\nObject.defineProperty(exports, \"AnnotationEditorUIManager\", ({\n  enumerable: true,\n  get: function () {\n    return _tools.AnnotationEditorUIManager;\n  }\n}));\nObject.defineProperty(exports, \"AnnotationLayer\", ({\n  enumerable: true,\n  get: function () {\n    return _annotation_layer.AnnotationLayer;\n  }\n}));\nObject.defineProperty(exports, \"AnnotationMode\", ({\n  enumerable: true,\n  get: function () {\n    return _util.AnnotationMode;\n  }\n}));\nObject.defineProperty(exports, \"CMapCompressionType\", ({\n  enumerable: true,\n  get: function () {\n    return _util.CMapCompressionType;\n  }\n}));\nObject.defineProperty(exports, \"FeatureTest\", ({\n  enumerable: true,\n  get: function () {\n    return _util.FeatureTest;\n  }\n}));\nObject.defineProperty(exports, \"GlobalWorkerOptions\", ({\n  enumerable: true,\n  get: function () {\n    return _worker_options.GlobalWorkerOptions;\n  }\n}));\nObject.defineProperty(exports, \"InvalidPDFException\", ({\n  enumerable: true,\n  get: function () {\n    return _util.InvalidPDFException;\n  }\n}));\nObject.defineProperty(exports, \"MissingPDFException\", ({\n  enumerable: true,\n  get: function () {\n    return _util.MissingPDFException;\n  }\n}));\nObject.defineProperty(exports, \"OPS\", ({\n  enumerable: true,\n  get: function () {\n    return _util.OPS;\n  }\n}));\nObject.defineProperty(exports, \"PDFDataRangeTransport\", ({\n  enumerable: true,\n  get: function () {\n    return _api.PDFDataRangeTransport;\n  }\n}));\nObject.defineProperty(exports, \"PDFDateString\", ({\n  enumerable: true,\n  get: function () {\n    return _display_utils.PDFDateString;\n  }\n}));\nObject.defineProperty(exports, \"PDFWorker\", ({\n  enumerable: true,\n  get: function () {\n    return _api.PDFWorker;\n  }\n}));\nObject.defineProperty(exports, \"PasswordResponses\", ({\n  enumerable: true,\n  get: function () {\n    return _util.PasswordResponses;\n  }\n}));\nObject.defineProperty(exports, \"PermissionFlag\", ({\n  enumerable: true,\n  get: function () {\n    return _util.PermissionFlag;\n  }\n}));\nObject.defineProperty(exports, \"PixelsPerInch\", ({\n  enumerable: true,\n  get: function () {\n    return _display_utils.PixelsPerInch;\n  }\n}));\nObject.defineProperty(exports, \"RenderingCancelledException\", ({\n  enumerable: true,\n  get: function () {\n    return _display_utils.RenderingCancelledException;\n  }\n}));\nObject.defineProperty(exports, \"SVGGraphics\", ({\n  enumerable: true,\n  get: function () {\n    return _svg.SVGGraphics;\n  }\n}));\nObject.defineProperty(exports, \"UNSUPPORTED_FEATURES\", ({\n  enumerable: true,\n  get: function () {\n    return _util.UNSUPPORTED_FEATURES;\n  }\n}));\nObject.defineProperty(exports, \"UnexpectedResponseException\", ({\n  enumerable: true,\n  get: function () {\n    return _util.UnexpectedResponseException;\n  }\n}));\nObject.defineProperty(exports, \"Util\", ({\n  enumerable: true,\n  get: function () {\n    return _util.Util;\n  }\n}));\nObject.defineProperty(exports, \"VerbosityLevel\", ({\n  enumerable: true,\n  get: function () {\n    return _util.VerbosityLevel;\n  }\n}));\nObject.defineProperty(exports, \"XfaLayer\", ({\n  enumerable: true,\n  get: function () {\n    return _xfa_layer.XfaLayer;\n  }\n}));\nObject.defineProperty(exports, \"build\", ({\n  enumerable: true,\n  get: function () {\n    return _api.build;\n  }\n}));\nObject.defineProperty(exports, \"createPromiseCapability\", ({\n  enumerable: true,\n  get: function () {\n    return _util.createPromiseCapability;\n  }\n}));\nObject.defineProperty(exports, \"createValidAbsoluteUrl\", ({\n  enumerable: true,\n  get: function () {\n    return _util.createValidAbsoluteUrl;\n  }\n}));\nObject.defineProperty(exports, \"getDocument\", ({\n  enumerable: true,\n  get: function () {\n    return _api.getDocument;\n  }\n}));\nObject.defineProperty(exports, \"getFilenameFromUrl\", ({\n  enumerable: true,\n  get: function () {\n    return _display_utils.getFilenameFromUrl;\n  }\n}));\nObject.defineProperty(exports, \"getPdfFilenameFromUrl\", ({\n  enumerable: true,\n  get: function () {\n    return _display_utils.getPdfFilenameFromUrl;\n  }\n}));\nObject.defineProperty(exports, \"getXfaPageViewport\", ({\n  enumerable: true,\n  get: function () {\n    return _display_utils.getXfaPageViewport;\n  }\n}));\nObject.defineProperty(exports, \"isDataScheme\", ({\n  enumerable: true,\n  get: function () {\n    return _display_utils.isDataScheme;\n  }\n}));\nObject.defineProperty(exports, \"isPdfFile\", ({\n  enumerable: true,\n  get: function () {\n    return _display_utils.isPdfFile;\n  }\n}));\nObject.defineProperty(exports, \"loadScript\", ({\n  enumerable: true,\n  get: function () {\n    return _display_utils.loadScript;\n  }\n}));\nObject.defineProperty(exports, \"renderTextLayer\", ({\n  enumerable: true,\n  get: function () {\n    return _text_layer.renderTextLayer;\n  }\n}));\nObject.defineProperty(exports, \"setLayerDimensions\", ({\n  enumerable: true,\n  get: function () {\n    return _display_utils.setLayerDimensions;\n  }\n}));\nObject.defineProperty(exports, \"shadow\", ({\n  enumerable: true,\n  get: function () {\n    return _util.shadow;\n  }\n}));\nObject.defineProperty(exports, \"updateTextLayer\", ({\n  enumerable: true,\n  get: function () {\n    return _text_layer.updateTextLayer;\n  }\n}));\nObject.defineProperty(exports, \"version\", ({\n  enumerable: true,\n  get: function () {\n    return _api.version;\n  }\n}));\nvar _util = __w_pdfjs_require__(1);\nvar _api = __w_pdfjs_require__(2);\nvar _display_utils = __w_pdfjs_require__(6);\nvar _text_layer = __w_pdfjs_require__(26);\nvar _annotation_editor_layer = __w_pdfjs_require__(27);\nvar _tools = __w_pdfjs_require__(5);\nvar _annotation_layer = __w_pdfjs_require__(32);\nvar _worker_options = __w_pdfjs_require__(14);\nvar _svg = __w_pdfjs_require__(35);\nvar _xfa_layer = __w_pdfjs_require__(34);\nconst pdfjsVersion = '3.4.120';\nconst pdfjsBuild = 'af6414988';\n})();\n\n/******/ \treturn __webpack_exports__;\n/******/ })()\n;\n});\n//# sourceMappingURL=pdf.js.map","/**\n * Copyright (c) 2013-present, Facebook, Inc.\n *\n * This source code is licensed under the MIT license found in the\n * LICENSE file in the root directory of this source tree.\n */\n\n'use strict';\n\nvar printWarning = function() {};\n\nif (process.env.NODE_ENV !== 'production') {\n  var ReactPropTypesSecret = require('./lib/ReactPropTypesSecret');\n  var loggedTypeFailures = {};\n  var has = require('./lib/has');\n\n  printWarning = function(text) {\n    var message = 'Warning: ' + text;\n    if (typeof console !== 'undefined') {\n      console.error(message);\n    }\n    try {\n      // --- Welcome to debugging React ---\n      // This error was thrown as a convenience so that you can use this stack\n      // to find the callsite that caused this warning to fire.\n      throw new Error(message);\n    } catch (x) { /**/ }\n  };\n}\n\n/**\n * Assert that the values match with the type specs.\n * Error messages are memorized and will only be shown once.\n *\n * @param {object} typeSpecs Map of name to a ReactPropType\n * @param {object} values Runtime values that need to be type-checked\n * @param {string} location e.g. \"prop\", \"context\", \"child context\"\n * @param {string} componentName Name of the component for error messages.\n * @param {?Function} getStack Returns the component stack.\n * @private\n */\nfunction checkPropTypes(typeSpecs, values, location, componentName, getStack) {\n  if (process.env.NODE_ENV !== 'production') {\n    for (var typeSpecName in typeSpecs) {\n      if (has(typeSpecs, typeSpecName)) {\n        var error;\n        // Prop type validation may throw. In case they do, we don't want to\n        // fail the render phase where it didn't fail before. So we log it.\n        // After these have been cleaned up, we'll let them throw.\n        try {\n          // This is intentionally an invariant that gets caught. It's the same\n          // behavior as without this statement except with a better message.\n          if (typeof typeSpecs[typeSpecName] !== 'function') {\n            var err = Error(\n              (componentName || 'React class') + ': ' + location + ' type `' + typeSpecName + '` is invalid; ' +\n              'it must be a function, usually from the `prop-types` package, but received `' + typeof typeSpecs[typeSpecName] + '`.' +\n              'This often happens because of typos such as `PropTypes.function` instead of `PropTypes.func`.'\n            );\n            err.name = 'Invariant Violation';\n            throw err;\n          }\n          error = typeSpecs[typeSpecName](values, typeSpecName, componentName, location, null, ReactPropTypesSecret);\n        } catch (ex) {\n          error = ex;\n        }\n        if (error && !(error instanceof Error)) {\n          printWarning(\n            (componentName || 'React class') + ': type specification of ' +\n            location + ' `' + typeSpecName + '` is invalid; the type checker ' +\n            'function must return `null` or an `Error` but returned a ' + typeof error + '. ' +\n            'You may have forgotten to pass an argument to the type checker ' +\n            'creator (arrayOf, instanceOf, objectOf, oneOf, oneOfType, and ' +\n            'shape all require an argument).'\n          );\n        }\n        if (error instanceof Error && !(error.message in loggedTypeFailures)) {\n          // Only monitor this failure once because there tends to be a lot of the\n          // same error.\n          loggedTypeFailures[error.message] = true;\n\n          var stack = getStack ? getStack() : '';\n\n          printWarning(\n            'Failed ' + location + ' type: ' + error.message + (stack != null ? stack : '')\n          );\n        }\n      }\n    }\n  }\n}\n\n/**\n * Resets warning cache when testing.\n *\n * @private\n */\ncheckPropTypes.resetWarningCache = function() {\n  if (process.env.NODE_ENV !== 'production') {\n    loggedTypeFailures = {};\n  }\n}\n\nmodule.exports = checkPropTypes;\n","/**\n * Copyright (c) 2013-present, Facebook, Inc.\n *\n * This source code is licensed under the MIT license found in the\n * LICENSE file in the root directory of this source tree.\n */\n\n'use strict';\n\nvar ReactIs = require('react-is');\nvar assign = require('object-assign');\n\nvar ReactPropTypesSecret = require('./lib/ReactPropTypesSecret');\nvar has = require('./lib/has');\nvar checkPropTypes = require('./checkPropTypes');\n\nvar printWarning = function() {};\n\nif (process.env.NODE_ENV !== 'production') {\n  printWarning = function(text) {\n    var message = 'Warning: ' + text;\n    if (typeof console !== 'undefined') {\n      console.error(message);\n    }\n    try {\n      // --- Welcome to debugging React ---\n      // This error was thrown as a convenience so that you can use this stack\n      // to find the callsite that caused this warning to fire.\n      throw new Error(message);\n    } catch (x) {}\n  };\n}\n\nfunction emptyFunctionThatReturnsNull() {\n  return null;\n}\n\nmodule.exports = function(isValidElement, throwOnDirectAccess) {\n  /* global Symbol */\n  var ITERATOR_SYMBOL = typeof Symbol === 'function' && Symbol.iterator;\n  var FAUX_ITERATOR_SYMBOL = '@@iterator'; // Before Symbol spec.\n\n  /**\n   * Returns the iterator method function contained on the iterable object.\n   *\n   * Be sure to invoke the function with the iterable as context:\n   *\n   *     var iteratorFn = getIteratorFn(myIterable);\n   *     if (iteratorFn) {\n   *       var iterator = iteratorFn.call(myIterable);\n   *       ...\n   *     }\n   *\n   * @param {?object} maybeIterable\n   * @return {?function}\n   */\n  function getIteratorFn(maybeIterable) {\n    var iteratorFn = maybeIterable && (ITERATOR_SYMBOL && maybeIterable[ITERATOR_SYMBOL] || maybeIterable[FAUX_ITERATOR_SYMBOL]);\n    if (typeof iteratorFn === 'function') {\n      return iteratorFn;\n    }\n  }\n\n  /**\n   * Collection of methods that allow declaration and validation of props that are\n   * supplied to React components. Example usage:\n   *\n   *   var Props = require('ReactPropTypes');\n   *   var MyArticle = React.createClass({\n   *     propTypes: {\n   *       // An optional string prop named \"description\".\n   *       description: Props.string,\n   *\n   *       // A required enum prop named \"category\".\n   *       category: Props.oneOf(['News','Photos']).isRequired,\n   *\n   *       // A prop named \"dialog\" that requires an instance of Dialog.\n   *       dialog: Props.instanceOf(Dialog).isRequired\n   *     },\n   *     render: function() { ... }\n   *   });\n   *\n   * A more formal specification of how these methods are used:\n   *\n   *   type := array|bool|func|object|number|string|oneOf([...])|instanceOf(...)\n   *   decl := ReactPropTypes.{type}(.isRequired)?\n   *\n   * Each and every declaration produces a function with the same signature. This\n   * allows the creation of custom validation functions. For example:\n   *\n   *  var MyLink = React.createClass({\n   *    propTypes: {\n   *      // An optional string or URI prop named \"href\".\n   *      href: function(props, propName, componentName) {\n   *        var propValue = props[propName];\n   *        if (propValue != null && typeof propValue !== 'string' &&\n   *            !(propValue instanceof URI)) {\n   *          return new Error(\n   *            'Expected a string or an URI for ' + propName + ' in ' +\n   *            componentName\n   *          );\n   *        }\n   *      }\n   *    },\n   *    render: function() {...}\n   *  });\n   *\n   * @internal\n   */\n\n  var ANONYMOUS = '<<anonymous>>';\n\n  // Important!\n  // Keep this list in sync with production version in `./factoryWithThrowingShims.js`.\n  var ReactPropTypes = {\n    array: createPrimitiveTypeChecker('array'),\n    bigint: createPrimitiveTypeChecker('bigint'),\n    bool: createPrimitiveTypeChecker('boolean'),\n    func: createPrimitiveTypeChecker('function'),\n    number: createPrimitiveTypeChecker('number'),\n    object: createPrimitiveTypeChecker('object'),\n    string: createPrimitiveTypeChecker('string'),\n    symbol: createPrimitiveTypeChecker('symbol'),\n\n    any: createAnyTypeChecker(),\n    arrayOf: createArrayOfTypeChecker,\n    element: createElementTypeChecker(),\n    elementType: createElementTypeTypeChecker(),\n    instanceOf: createInstanceTypeChecker,\n    node: createNodeChecker(),\n    objectOf: createObjectOfTypeChecker,\n    oneOf: createEnumTypeChecker,\n    oneOfType: createUnionTypeChecker,\n    shape: createShapeTypeChecker,\n    exact: createStrictShapeTypeChecker,\n  };\n\n  /**\n   * inlined Object.is polyfill to avoid requiring consumers ship their own\n   * https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/Object/is\n   */\n  /*eslint-disable no-self-compare*/\n  function is(x, y) {\n    // SameValue algorithm\n    if (x === y) {\n      // Steps 1-5, 7-10\n      // Steps 6.b-6.e: +0 != -0\n      return x !== 0 || 1 / x === 1 / y;\n    } else {\n      // Step 6.a: NaN == NaN\n      return x !== x && y !== y;\n    }\n  }\n  /*eslint-enable no-self-compare*/\n\n  /**\n   * We use an Error-like object for backward compatibility as people may call\n   * PropTypes directly and inspect their output. However, we don't use real\n   * Errors anymore. We don't inspect their stack anyway, and creating them\n   * is prohibitively expensive if they are created too often, such as what\n   * happens in oneOfType() for any type before the one that matched.\n   */\n  function PropTypeError(message, data) {\n    this.message = message;\n    this.data = data && typeof data === 'object' ? data: {};\n    this.stack = '';\n  }\n  // Make `instanceof Error` still work for returned errors.\n  PropTypeError.prototype = Error.prototype;\n\n  function createChainableTypeChecker(validate) {\n    if (process.env.NODE_ENV !== 'production') {\n      var manualPropTypeCallCache = {};\n      var manualPropTypeWarningCount = 0;\n    }\n    function checkType(isRequired, props, propName, componentName, location, propFullName, secret) {\n      componentName = componentName || ANONYMOUS;\n      propFullName = propFullName || propName;\n\n      if (secret !== ReactPropTypesSecret) {\n        if (throwOnDirectAccess) {\n          // New behavior only for users of `prop-types` package\n          var err = new Error(\n            'Calling PropTypes validators directly is not supported by the `prop-types` package. ' +\n            'Use `PropTypes.checkPropTypes()` to call them. ' +\n            'Read more at http://fb.me/use-check-prop-types'\n          );\n          err.name = 'Invariant Violation';\n          throw err;\n        } else if (process.env.NODE_ENV !== 'production' && typeof console !== 'undefined') {\n          // Old behavior for people using React.PropTypes\n          var cacheKey = componentName + ':' + propName;\n          if (\n            !manualPropTypeCallCache[cacheKey] &&\n            // Avoid spamming the console because they are often not actionable except for lib authors\n            manualPropTypeWarningCount < 3\n          ) {\n            printWarning(\n              'You are manually calling a React.PropTypes validation ' +\n              'function for the `' + propFullName + '` prop on `' + componentName + '`. This is deprecated ' +\n              'and will throw in the standalone `prop-types` package. ' +\n              'You may be seeing this warning due to a third-party PropTypes ' +\n              'library. See https://fb.me/react-warning-dont-call-proptypes ' + 'for details.'\n            );\n            manualPropTypeCallCache[cacheKey] = true;\n            manualPropTypeWarningCount++;\n          }\n        }\n      }\n      if (props[propName] == null) {\n        if (isRequired) {\n          if (props[propName] === null) {\n            return new PropTypeError('The ' + location + ' `' + propFullName + '` is marked as required ' + ('in `' + componentName + '`, but its value is `null`.'));\n          }\n          return new PropTypeError('The ' + location + ' `' + propFullName + '` is marked as required in ' + ('`' + componentName + '`, but its value is `undefined`.'));\n        }\n        return null;\n      } else {\n        return validate(props, propName, componentName, location, propFullName);\n      }\n    }\n\n    var chainedCheckType = checkType.bind(null, false);\n    chainedCheckType.isRequired = checkType.bind(null, true);\n\n    return chainedCheckType;\n  }\n\n  function createPrimitiveTypeChecker(expectedType) {\n    function validate(props, propName, componentName, location, propFullName, secret) {\n      var propValue = props[propName];\n      var propType = getPropType(propValue);\n      if (propType !== expectedType) {\n        // `propValue` being instance of, say, date/regexp, pass the 'object'\n        // check, but we can offer a more precise error message here rather than\n        // 'of type `object`'.\n        var preciseType = getPreciseType(propValue);\n\n        return new PropTypeError(\n          'Invalid ' + location + ' `' + propFullName + '` of type ' + ('`' + preciseType + '` supplied to `' + componentName + '`, expected ') + ('`' + expectedType + '`.'),\n          {expectedType: expectedType}\n        );\n      }\n      return null;\n    }\n    return createChainableTypeChecker(validate);\n  }\n\n  function createAnyTypeChecker() {\n    return createChainableTypeChecker(emptyFunctionThatReturnsNull);\n  }\n\n  function createArrayOfTypeChecker(typeChecker) {\n    function validate(props, propName, componentName, location, propFullName) {\n      if (typeof typeChecker !== 'function') {\n        return new PropTypeError('Property `' + propFullName + '` of component `' + componentName + '` has invalid PropType notation inside arrayOf.');\n      }\n      var propValue = props[propName];\n      if (!Array.isArray(propValue)) {\n        var propType = getPropType(propValue);\n        return new PropTypeError('Invalid ' + location + ' `' + propFullName + '` of type ' + ('`' + propType + '` supplied to `' + componentName + '`, expected an array.'));\n      }\n      for (var i = 0; i < propValue.length; i++) {\n        var error = typeChecker(propValue, i, componentName, location, propFullName + '[' + i + ']', ReactPropTypesSecret);\n        if (error instanceof Error) {\n          return error;\n        }\n      }\n      return null;\n    }\n    return createChainableTypeChecker(validate);\n  }\n\n  function createElementTypeChecker() {\n    function validate(props, propName, componentName, location, propFullName) {\n      var propValue = props[propName];\n      if (!isValidElement(propValue)) {\n        var propType = getPropType(propValue);\n        return new PropTypeError('Invalid ' + location + ' `' + propFullName + '` of type ' + ('`' + propType + '` supplied to `' + componentName + '`, expected a single ReactElement.'));\n      }\n      return null;\n    }\n    return createChainableTypeChecker(validate);\n  }\n\n  function createElementTypeTypeChecker() {\n    function validate(props, propName, componentName, location, propFullName) {\n      var propValue = props[propName];\n      if (!ReactIs.isValidElementType(propValue)) {\n        var propType = getPropType(propValue);\n        return new PropTypeError('Invalid ' + location + ' `' + propFullName + '` of type ' + ('`' + propType + '` supplied to `' + componentName + '`, expected a single ReactElement type.'));\n      }\n      return null;\n    }\n    return createChainableTypeChecker(validate);\n  }\n\n  function createInstanceTypeChecker(expectedClass) {\n    function validate(props, propName, componentName, location, propFullName) {\n      if (!(props[propName] instanceof expectedClass)) {\n        var expectedClassName = expectedClass.name || ANONYMOUS;\n        var actualClassName = getClassName(props[propName]);\n        return new PropTypeError('Invalid ' + location + ' `' + propFullName + '` of type ' + ('`' + actualClassName + '` supplied to `' + componentName + '`, expected ') + ('instance of `' + expectedClassName + '`.'));\n      }\n      return null;\n    }\n    return createChainableTypeChecker(validate);\n  }\n\n  function createEnumTypeChecker(expectedValues) {\n    if (!Array.isArray(expectedValues)) {\n      if (process.env.NODE_ENV !== 'production') {\n        if (arguments.length > 1) {\n          printWarning(\n            'Invalid arguments supplied to oneOf, expected an array, got ' + arguments.length + ' arguments. ' +\n            'A common mistake is to write oneOf(x, y, z) instead of oneOf([x, y, z]).'\n          );\n        } else {\n          printWarning('Invalid argument supplied to oneOf, expected an array.');\n        }\n      }\n      return emptyFunctionThatReturnsNull;\n    }\n\n    function validate(props, propName, componentName, location, propFullName) {\n      var propValue = props[propName];\n      for (var i = 0; i < expectedValues.length; i++) {\n        if (is(propValue, expectedValues[i])) {\n          return null;\n        }\n      }\n\n      var valuesString = JSON.stringify(expectedValues, function replacer(key, value) {\n        var type = getPreciseType(value);\n        if (type === 'symbol') {\n          return String(value);\n        }\n        return value;\n      });\n      return new PropTypeError('Invalid ' + location + ' `' + propFullName + '` of value `' + String(propValue) + '` ' + ('supplied to `' + componentName + '`, expected one of ' + valuesString + '.'));\n    }\n    return createChainableTypeChecker(validate);\n  }\n\n  function createObjectOfTypeChecker(typeChecker) {\n    function validate(props, propName, componentName, location, propFullName) {\n      if (typeof typeChecker !== 'function') {\n        return new PropTypeError('Property `' + propFullName + '` of component `' + componentName + '` has invalid PropType notation inside objectOf.');\n      }\n      var propValue = props[propName];\n      var propType = getPropType(propValue);\n      if (propType !== 'object') {\n        return new PropTypeError('Invalid ' + location + ' `' + propFullName + '` of type ' + ('`' + propType + '` supplied to `' + componentName + '`, expected an object.'));\n      }\n      for (var key in propValue) {\n        if (has(propValue, key)) {\n          var error = typeChecker(propValue, key, componentName, location, propFullName + '.' + key, ReactPropTypesSecret);\n          if (error instanceof Error) {\n            return error;\n          }\n        }\n      }\n      return null;\n    }\n    return createChainableTypeChecker(validate);\n  }\n\n  function createUnionTypeChecker(arrayOfTypeCheckers) {\n    if (!Array.isArray(arrayOfTypeCheckers)) {\n      process.env.NODE_ENV !== 'production' ? printWarning('Invalid argument supplied to oneOfType, expected an instance of array.') : void 0;\n      return emptyFunctionThatReturnsNull;\n    }\n\n    for (var i = 0; i < arrayOfTypeCheckers.length; i++) {\n      var checker = arrayOfTypeCheckers[i];\n      if (typeof checker !== 'function') {\n        printWarning(\n          'Invalid argument supplied to oneOfType. Expected an array of check functions, but ' +\n          'received ' + getPostfixForTypeWarning(checker) + ' at index ' + i + '.'\n        );\n        return emptyFunctionThatReturnsNull;\n      }\n    }\n\n    function validate(props, propName, componentName, location, propFullName) {\n      var expectedTypes = [];\n      for (var i = 0; i < arrayOfTypeCheckers.length; i++) {\n        var checker = arrayOfTypeCheckers[i];\n        var checkerResult = checker(props, propName, componentName, location, propFullName, ReactPropTypesSecret);\n        if (checkerResult == null) {\n          return null;\n        }\n        if (checkerResult.data && has(checkerResult.data, 'expectedType')) {\n          expectedTypes.push(checkerResult.data.expectedType);\n        }\n      }\n      var expectedTypesMessage = (expectedTypes.length > 0) ? ', expected one of type [' + expectedTypes.join(', ') + ']': '';\n      return new PropTypeError('Invalid ' + location + ' `' + propFullName + '` supplied to ' + ('`' + componentName + '`' + expectedTypesMessage + '.'));\n    }\n    return createChainableTypeChecker(validate);\n  }\n\n  function createNodeChecker() {\n    function validate(props, propName, componentName, location, propFullName) {\n      if (!isNode(props[propName])) {\n        return new PropTypeError('Invalid ' + location + ' `' + propFullName + '` supplied to ' + ('`' + componentName + '`, expected a ReactNode.'));\n      }\n      return null;\n    }\n    return createChainableTypeChecker(validate);\n  }\n\n  function invalidValidatorError(componentName, location, propFullName, key, type) {\n    return new PropTypeError(\n      (componentName || 'React class') + ': ' + location + ' type `' + propFullName + '.' + key + '` is invalid; ' +\n      'it must be a function, usually from the `prop-types` package, but received `' + type + '`.'\n    );\n  }\n\n  function createShapeTypeChecker(shapeTypes) {\n    function validate(props, propName, componentName, location, propFullName) {\n      var propValue = props[propName];\n      var propType = getPropType(propValue);\n      if (propType !== 'object') {\n        return new PropTypeError('Invalid ' + location + ' `' + propFullName + '` of type `' + propType + '` ' + ('supplied to `' + componentName + '`, expected `object`.'));\n      }\n      for (var key in shapeTypes) {\n        var checker = shapeTypes[key];\n        if (typeof checker !== 'function') {\n          return invalidValidatorError(componentName, location, propFullName, key, getPreciseType(checker));\n        }\n        var error = checker(propValue, key, componentName, location, propFullName + '.' + key, ReactPropTypesSecret);\n        if (error) {\n          return error;\n        }\n      }\n      return null;\n    }\n    return createChainableTypeChecker(validate);\n  }\n\n  function createStrictShapeTypeChecker(shapeTypes) {\n    function validate(props, propName, componentName, location, propFullName) {\n      var propValue = props[propName];\n      var propType = getPropType(propValue);\n      if (propType !== 'object') {\n        return new PropTypeError('Invalid ' + location + ' `' + propFullName + '` of type `' + propType + '` ' + ('supplied to `' + componentName + '`, expected `object`.'));\n      }\n      // We need to check all keys in case some are required but missing from props.\n      var allKeys = assign({}, props[propName], shapeTypes);\n      for (var key in allKeys) {\n        var checker = shapeTypes[key];\n        if (has(shapeTypes, key) && typeof checker !== 'function') {\n          return invalidValidatorError(componentName, location, propFullName, key, getPreciseType(checker));\n        }\n        if (!checker) {\n          return new PropTypeError(\n            'Invalid ' + location + ' `' + propFullName + '` key `' + key + '` supplied to `' + componentName + '`.' +\n            '\\nBad object: ' + JSON.stringify(props[propName], null, '  ') +\n            '\\nValid keys: ' + JSON.stringify(Object.keys(shapeTypes), null, '  ')\n          );\n        }\n        var error = checker(propValue, key, componentName, location, propFullName + '.' + key, ReactPropTypesSecret);\n        if (error) {\n          return error;\n        }\n      }\n      return null;\n    }\n\n    return createChainableTypeChecker(validate);\n  }\n\n  function isNode(propValue) {\n    switch (typeof propValue) {\n      case 'number':\n      case 'string':\n      case 'undefined':\n        return true;\n      case 'boolean':\n        return !propValue;\n      case 'object':\n        if (Array.isArray(propValue)) {\n          return propValue.every(isNode);\n        }\n        if (propValue === null || isValidElement(propValue)) {\n          return true;\n        }\n\n        var iteratorFn = getIteratorFn(propValue);\n        if (iteratorFn) {\n          var iterator = iteratorFn.call(propValue);\n          var step;\n          if (iteratorFn !== propValue.entries) {\n            while (!(step = iterator.next()).done) {\n              if (!isNode(step.value)) {\n                return false;\n              }\n            }\n          } else {\n            // Iterator will provide entry [k,v] tuples rather than values.\n            while (!(step = iterator.next()).done) {\n              var entry = step.value;\n              if (entry) {\n                if (!isNode(entry[1])) {\n                  return false;\n                }\n              }\n            }\n          }\n        } else {\n          return false;\n        }\n\n        return true;\n      default:\n        return false;\n    }\n  }\n\n  function isSymbol(propType, propValue) {\n    // Native Symbol.\n    if (propType === 'symbol') {\n      return true;\n    }\n\n    // falsy value can't be a Symbol\n    if (!propValue) {\n      return false;\n    }\n\n    // 19.4.3.5 Symbol.prototype[@@toStringTag] === 'Symbol'\n    if (propValue['@@toStringTag'] === 'Symbol') {\n      return true;\n    }\n\n    // Fallback for non-spec compliant Symbols which are polyfilled.\n    if (typeof Symbol === 'function' && propValue instanceof Symbol) {\n      return true;\n    }\n\n    return false;\n  }\n\n  // Equivalent of `typeof` but with special handling for array and regexp.\n  function getPropType(propValue) {\n    var propType = typeof propValue;\n    if (Array.isArray(propValue)) {\n      return 'array';\n    }\n    if (propValue instanceof RegExp) {\n      // Old webkits (at least until Android 4.0) return 'function' rather than\n      // 'object' for typeof a RegExp. We'll normalize this here so that /bla/\n      // passes PropTypes.object.\n      return 'object';\n    }\n    if (isSymbol(propType, propValue)) {\n      return 'symbol';\n    }\n    return propType;\n  }\n\n  // This handles more types than `getPropType`. Only used for error messages.\n  // See `createPrimitiveTypeChecker`.\n  function getPreciseType(propValue) {\n    if (typeof propValue === 'undefined' || propValue === null) {\n      return '' + propValue;\n    }\n    var propType = getPropType(propValue);\n    if (propType === 'object') {\n      if (propValue instanceof Date) {\n        return 'date';\n      } else if (propValue instanceof RegExp) {\n        return 'regexp';\n      }\n    }\n    return propType;\n  }\n\n  // Returns a string that is postfixed to a warning about an invalid type.\n  // For example, \"undefined\" or \"of type array\"\n  function getPostfixForTypeWarning(value) {\n    var type = getPreciseType(value);\n    switch (type) {\n      case 'array':\n      case 'object':\n        return 'an ' + type;\n      case 'boolean':\n      case 'date':\n      case 'regexp':\n        return 'a ' + type;\n      default:\n        return type;\n    }\n  }\n\n  // Returns class name of the object, if any.\n  function getClassName(propValue) {\n    if (!propValue.constructor || !propValue.constructor.name) {\n      return ANONYMOUS;\n    }\n    return propValue.constructor.name;\n  }\n\n  ReactPropTypes.checkPropTypes = checkPropTypes;\n  ReactPropTypes.resetWarningCache = checkPropTypes.resetWarningCache;\n  ReactPropTypes.PropTypes = ReactPropTypes;\n\n  return ReactPropTypes;\n};\n","/**\n * Copyright (c) 2013-present, Facebook, Inc.\n *\n * This source code is licensed under the MIT license found in the\n * LICENSE file in the root directory of this source tree.\n */\n\nif (process.env.NODE_ENV !== 'production') {\n  var ReactIs = require('react-is');\n\n  // By explicitly using `prop-types` you are opting into new development behavior.\n  // http://fb.me/prop-types-in-prod\n  var throwOnDirectAccess = true;\n  module.exports = require('./factoryWithTypeCheckers')(ReactIs.isElement, throwOnDirectAccess);\n} else {\n  // By explicitly using `prop-types` you are opting into new production behavior.\n  // http://fb.me/prop-types-in-prod\n  module.exports = require('./factoryWithThrowingShims')();\n}\n","/**\n * Copyright (c) 2013-present, Facebook, Inc.\n *\n * This source code is licensed under the MIT license found in the\n * LICENSE file in the root directory of this source tree.\n */\n\n'use strict';\n\nvar ReactPropTypesSecret = 'SECRET_DO_NOT_PASS_THIS_OR_YOU_WILL_BE_FIRED';\n\nmodule.exports = ReactPropTypesSecret;\n","module.exports = Function.call.bind(Object.prototype.hasOwnProperty);\n","/** @license React v16.13.1\n * react-is.development.js\n *\n * Copyright (c) Facebook, Inc. and its affiliates.\n *\n * This source code is licensed under the MIT license found in the\n * LICENSE file in the root directory of this source tree.\n */\n\n'use strict';\n\n\n\nif (process.env.NODE_ENV !== \"production\") {\n  (function() {\n'use strict';\n\n// The Symbol used to tag the ReactElement-like types. If there is no native Symbol\n// nor polyfill, then a plain number is used for performance.\nvar hasSymbol = typeof Symbol === 'function' && Symbol.for;\nvar REACT_ELEMENT_TYPE = hasSymbol ? Symbol.for('react.element') : 0xeac7;\nvar REACT_PORTAL_TYPE = hasSymbol ? Symbol.for('react.portal') : 0xeaca;\nvar REACT_FRAGMENT_TYPE = hasSymbol ? Symbol.for('react.fragment') : 0xeacb;\nvar REACT_STRICT_MODE_TYPE = hasSymbol ? Symbol.for('react.strict_mode') : 0xeacc;\nvar REACT_PROFILER_TYPE = hasSymbol ? Symbol.for('react.profiler') : 0xead2;\nvar REACT_PROVIDER_TYPE = hasSymbol ? Symbol.for('react.provider') : 0xeacd;\nvar REACT_CONTEXT_TYPE = hasSymbol ? Symbol.for('react.context') : 0xeace; // TODO: We don't use AsyncMode or ConcurrentMode anymore. They were temporary\n// (unstable) APIs that have been removed. Can we remove the symbols?\n\nvar REACT_ASYNC_MODE_TYPE = hasSymbol ? Symbol.for('react.async_mode') : 0xeacf;\nvar REACT_CONCURRENT_MODE_TYPE = hasSymbol ? Symbol.for('react.concurrent_mode') : 0xeacf;\nvar REACT_FORWARD_REF_TYPE = hasSymbol ? Symbol.for('react.forward_ref') : 0xead0;\nvar REACT_SUSPENSE_TYPE = hasSymbol ? Symbol.for('react.suspense') : 0xead1;\nvar REACT_SUSPENSE_LIST_TYPE = hasSymbol ? Symbol.for('react.suspense_list') : 0xead8;\nvar REACT_MEMO_TYPE = hasSymbol ? Symbol.for('react.memo') : 0xead3;\nvar REACT_LAZY_TYPE = hasSymbol ? Symbol.for('react.lazy') : 0xead4;\nvar REACT_BLOCK_TYPE = hasSymbol ? Symbol.for('react.block') : 0xead9;\nvar REACT_FUNDAMENTAL_TYPE = hasSymbol ? Symbol.for('react.fundamental') : 0xead5;\nvar REACT_RESPONDER_TYPE = hasSymbol ? Symbol.for('react.responder') : 0xead6;\nvar REACT_SCOPE_TYPE = hasSymbol ? Symbol.for('react.scope') : 0xead7;\n\nfunction isValidElementType(type) {\n  return typeof type === 'string' || typeof type === 'function' || // Note: its typeof might be other than 'symbol' or 'number' if it's a polyfill.\n  type === REACT_FRAGMENT_TYPE || type === REACT_CONCURRENT_MODE_TYPE || type === REACT_PROFILER_TYPE || type === REACT_STRICT_MODE_TYPE || type === REACT_SUSPENSE_TYPE || type === REACT_SUSPENSE_LIST_TYPE || typeof type === 'object' && type !== null && (type.$$typeof === REACT_LAZY_TYPE || type.$$typeof === REACT_MEMO_TYPE || type.$$typeof === REACT_PROVIDER_TYPE || type.$$typeof === REACT_CONTEXT_TYPE || type.$$typeof === REACT_FORWARD_REF_TYPE || type.$$typeof === REACT_FUNDAMENTAL_TYPE || type.$$typeof === REACT_RESPONDER_TYPE || type.$$typeof === REACT_SCOPE_TYPE || type.$$typeof === REACT_BLOCK_TYPE);\n}\n\nfunction typeOf(object) {\n  if (typeof object === 'object' && object !== null) {\n    var $$typeof = object.$$typeof;\n\n    switch ($$typeof) {\n      case REACT_ELEMENT_TYPE:\n        var type = object.type;\n\n        switch (type) {\n          case REACT_ASYNC_MODE_TYPE:\n          case REACT_CONCURRENT_MODE_TYPE:\n          case REACT_FRAGMENT_TYPE:\n          case REACT_PROFILER_TYPE:\n          case REACT_STRICT_MODE_TYPE:\n          case REACT_SUSPENSE_TYPE:\n            return type;\n\n          default:\n            var $$typeofType = type && type.$$typeof;\n\n            switch ($$typeofType) {\n              case REACT_CONTEXT_TYPE:\n              case REACT_FORWARD_REF_TYPE:\n              case REACT_LAZY_TYPE:\n              case REACT_MEMO_TYPE:\n              case REACT_PROVIDER_TYPE:\n                return $$typeofType;\n\n              default:\n                return $$typeof;\n            }\n\n        }\n\n      case REACT_PORTAL_TYPE:\n        return $$typeof;\n    }\n  }\n\n  return undefined;\n} // AsyncMode is deprecated along with isAsyncMode\n\nvar AsyncMode = REACT_ASYNC_MODE_TYPE;\nvar ConcurrentMode = REACT_CONCURRENT_MODE_TYPE;\nvar ContextConsumer = REACT_CONTEXT_TYPE;\nvar ContextProvider = REACT_PROVIDER_TYPE;\nvar Element = REACT_ELEMENT_TYPE;\nvar ForwardRef = REACT_FORWARD_REF_TYPE;\nvar Fragment = REACT_FRAGMENT_TYPE;\nvar Lazy = REACT_LAZY_TYPE;\nvar Memo = REACT_MEMO_TYPE;\nvar Portal = REACT_PORTAL_TYPE;\nvar Profiler = REACT_PROFILER_TYPE;\nvar StrictMode = REACT_STRICT_MODE_TYPE;\nvar Suspense = REACT_SUSPENSE_TYPE;\nvar hasWarnedAboutDeprecatedIsAsyncMode = false; // AsyncMode should be deprecated\n\nfunction isAsyncMode(object) {\n  {\n    if (!hasWarnedAboutDeprecatedIsAsyncMode) {\n      hasWarnedAboutDeprecatedIsAsyncMode = true; // Using console['warn'] to evade Babel and ESLint\n\n      console['warn']('The ReactIs.isAsyncMode() alias has been deprecated, ' + 'and will be removed in React 17+. Update your code to use ' + 'ReactIs.isConcurrentMode() instead. It has the exact same API.');\n    }\n  }\n\n  return isConcurrentMode(object) || typeOf(object) === REACT_ASYNC_MODE_TYPE;\n}\nfunction isConcurrentMode(object) {\n  return typeOf(object) === REACT_CONCURRENT_MODE_TYPE;\n}\nfunction isContextConsumer(object) {\n  return typeOf(object) === REACT_CONTEXT_TYPE;\n}\nfunction isContextProvider(object) {\n  return typeOf(object) === REACT_PROVIDER_TYPE;\n}\nfunction isElement(object) {\n  return typeof object === 'object' && object !== null && object.$$typeof === REACT_ELEMENT_TYPE;\n}\nfunction isForwardRef(object) {\n  return typeOf(object) === REACT_FORWARD_REF_TYPE;\n}\nfunction isFragment(object) {\n  return typeOf(object) === REACT_FRAGMENT_TYPE;\n}\nfunction isLazy(object) {\n  return typeOf(object) === REACT_LAZY_TYPE;\n}\nfunction isMemo(object) {\n  return typeOf(object) === REACT_MEMO_TYPE;\n}\nfunction isPortal(object) {\n  return typeOf(object) === REACT_PORTAL_TYPE;\n}\nfunction isProfiler(object) {\n  return typeOf(object) === REACT_PROFILER_TYPE;\n}\nfunction isStrictMode(object) {\n  return typeOf(object) === REACT_STRICT_MODE_TYPE;\n}\nfunction isSuspense(object) {\n  return typeOf(object) === REACT_SUSPENSE_TYPE;\n}\n\nexports.AsyncMode = AsyncMode;\nexports.ConcurrentMode = ConcurrentMode;\nexports.ContextConsumer = ContextConsumer;\nexports.ContextProvider = ContextProvider;\nexports.Element = Element;\nexports.ForwardRef = ForwardRef;\nexports.Fragment = Fragment;\nexports.Lazy = Lazy;\nexports.Memo = Memo;\nexports.Portal = Portal;\nexports.Profiler = Profiler;\nexports.StrictMode = StrictMode;\nexports.Suspense = Suspense;\nexports.isAsyncMode = isAsyncMode;\nexports.isConcurrentMode = isConcurrentMode;\nexports.isContextConsumer = isContextConsumer;\nexports.isContextProvider = isContextProvider;\nexports.isElement = isElement;\nexports.isForwardRef = isForwardRef;\nexports.isFragment = isFragment;\nexports.isLazy = isLazy;\nexports.isMemo = isMemo;\nexports.isPortal = isPortal;\nexports.isProfiler = isProfiler;\nexports.isStrictMode = isStrictMode;\nexports.isSuspense = isSuspense;\nexports.isValidElementType = isValidElementType;\nexports.typeOf = typeOf;\n  })();\n}\n","'use strict';\n\nif (process.env.NODE_ENV === 'production') {\n  module.exports = require('./cjs/react-is.production.min.js');\n} else {\n  module.exports = require('./cjs/react-is.development.js');\n}\n","function _extends() { _extends = Object.assign || function (target) { for (var i = 1; i < arguments.length; i++) { var source = arguments[i]; for (var key in source) { if (Object.prototype.hasOwnProperty.call(source, key)) { target[key] = source[key]; } } } return target; }; return _extends.apply(this, arguments); }\n\nfunction _objectWithoutPropertiesLoose(source, excluded) { if (source == null) return {}; var target = {}; var sourceKeys = Object.keys(source); var key, i; for (i = 0; i < sourceKeys.length; i++) { key = sourceKeys[i]; if (excluded.indexOf(key) >= 0) continue; target[key] = source[key]; } return target; }\n\nfunction _inheritsLoose(subClass, superClass) { subClass.prototype = Object.create(superClass.prototype); subClass.prototype.constructor = subClass; subClass.__proto__ = superClass; }\n\nimport { Component, createElement, forwardRef } from \"react\";\nimport PropTypes from \"prop-types\";\nimport hoistStatics from \"hoist-non-react-statics\";\nvar SCRIPT_MAP = {}; // A counter used to generate a unique id for each component that uses the function\n\nvar idCount = 0;\nexport default function makeAsyncScript(getScriptURL, options) {\n  options = options || {};\n  return function wrapWithAsyncScript(WrappedComponent) {\n    var wrappedComponentName = WrappedComponent.displayName || WrappedComponent.name || \"Component\";\n\n    var AsyncScriptLoader =\n    /*#__PURE__*/\n    function (_Component) {\n      _inheritsLoose(AsyncScriptLoader, _Component);\n\n      function AsyncScriptLoader(props, context) {\n        var _this;\n\n        _this = _Component.call(this, props, context) || this;\n        _this.state = {};\n        _this.__scriptURL = \"\";\n        return _this;\n      }\n\n      var _proto = AsyncScriptLoader.prototype;\n\n      _proto.asyncScriptLoaderGetScriptLoaderID = function asyncScriptLoaderGetScriptLoaderID() {\n        if (!this.__scriptLoaderID) {\n          this.__scriptLoaderID = \"async-script-loader-\" + idCount++;\n        }\n\n        return this.__scriptLoaderID;\n      };\n\n      _proto.setupScriptURL = function setupScriptURL() {\n        this.__scriptURL = typeof getScriptURL === \"function\" ? getScriptURL() : getScriptURL;\n        return this.__scriptURL;\n      };\n\n      _proto.asyncScriptLoaderHandleLoad = function asyncScriptLoaderHandleLoad(state) {\n        var _this2 = this;\n\n        // use reacts setState callback to fire props.asyncScriptOnLoad with new state/entry\n        this.setState(state, function () {\n          return _this2.props.asyncScriptOnLoad && _this2.props.asyncScriptOnLoad(_this2.state);\n        });\n      };\n\n      _proto.asyncScriptLoaderTriggerOnScriptLoaded = function asyncScriptLoaderTriggerOnScriptLoaded() {\n        var mapEntry = SCRIPT_MAP[this.__scriptURL];\n\n        if (!mapEntry || !mapEntry.loaded) {\n          throw new Error(\"Script is not loaded.\");\n        }\n\n        for (var obsKey in mapEntry.observers) {\n          mapEntry.observers[obsKey](mapEntry);\n        }\n\n        delete window[options.callbackName];\n      };\n\n      _proto.componentDidMount = function componentDidMount() {\n        var _this3 = this;\n\n        var scriptURL = this.setupScriptURL();\n        var key = this.asyncScriptLoaderGetScriptLoaderID();\n        var _options = options,\n            globalName = _options.globalName,\n            callbackName = _options.callbackName,\n            scriptId = _options.scriptId; // check if global object already attached to window\n\n        if (globalName && typeof window[globalName] !== \"undefined\") {\n          SCRIPT_MAP[scriptURL] = {\n            loaded: true,\n            observers: {}\n          };\n        } // check if script loading already\n\n\n        if (SCRIPT_MAP[scriptURL]) {\n          var entry = SCRIPT_MAP[scriptURL]; // if loaded or errored then \"finish\"\n\n          if (entry && (entry.loaded || entry.errored)) {\n            this.asyncScriptLoaderHandleLoad(entry);\n            return;\n          } // if still loading then callback to observer queue\n\n\n          entry.observers[key] = function (entry) {\n            return _this3.asyncScriptLoaderHandleLoad(entry);\n          };\n\n          return;\n        }\n        /*\n         * hasn't started loading\n         * start the \"magic\"\n         * setup script to load and observers\n         */\n\n\n        var observers = {};\n\n        observers[key] = function (entry) {\n          return _this3.asyncScriptLoaderHandleLoad(entry);\n        };\n\n        SCRIPT_MAP[scriptURL] = {\n          loaded: false,\n          observers: observers\n        };\n        var script = document.createElement(\"script\");\n        script.src = scriptURL;\n        script.async = true;\n\n        for (var attribute in options.attributes) {\n          script.setAttribute(attribute, options.attributes[attribute]);\n        }\n\n        if (scriptId) {\n          script.id = scriptId;\n        }\n\n        var callObserverFuncAndRemoveObserver = function callObserverFuncAndRemoveObserver(func) {\n          if (SCRIPT_MAP[scriptURL]) {\n            var mapEntry = SCRIPT_MAP[scriptURL];\n            var observersMap = mapEntry.observers;\n\n            for (var obsKey in observersMap) {\n              if (func(observersMap[obsKey])) {\n                delete observersMap[obsKey];\n              }\n            }\n          }\n        };\n\n        if (callbackName && typeof window !== \"undefined\") {\n          window[callbackName] = function () {\n            return _this3.asyncScriptLoaderTriggerOnScriptLoaded();\n          };\n        }\n\n        script.onload = function () {\n          var mapEntry = SCRIPT_MAP[scriptURL];\n\n          if (mapEntry) {\n            mapEntry.loaded = true;\n            callObserverFuncAndRemoveObserver(function (observer) {\n              if (callbackName) {\n                return false;\n              }\n\n              observer(mapEntry);\n              return true;\n            });\n          }\n        };\n\n        script.onerror = function () {\n          var mapEntry = SCRIPT_MAP[scriptURL];\n\n          if (mapEntry) {\n            mapEntry.errored = true;\n            callObserverFuncAndRemoveObserver(function (observer) {\n              observer(mapEntry);\n              return true;\n            });\n          }\n        };\n\n        document.body.appendChild(script);\n      };\n\n      _proto.componentWillUnmount = function componentWillUnmount() {\n        // Remove tag script\n        var scriptURL = this.__scriptURL;\n\n        if (options.removeOnUnmount === true) {\n          var allScripts = document.getElementsByTagName(\"script\");\n\n          for (var i = 0; i < allScripts.length; i += 1) {\n            if (allScripts[i].src.indexOf(scriptURL) > -1) {\n              if (allScripts[i].parentNode) {\n                allScripts[i].parentNode.removeChild(allScripts[i]);\n              }\n            }\n          }\n        } // Clean the observer entry\n\n\n        var mapEntry = SCRIPT_MAP[scriptURL];\n\n        if (mapEntry) {\n          delete mapEntry.observers[this.asyncScriptLoaderGetScriptLoaderID()];\n\n          if (options.removeOnUnmount === true) {\n            delete SCRIPT_MAP[scriptURL];\n          }\n        }\n      };\n\n      _proto.render = function render() {\n        var globalName = options.globalName; // remove asyncScriptOnLoad from childProps\n\n        var _this$props = this.props,\n            asyncScriptOnLoad = _this$props.asyncScriptOnLoad,\n            forwardedRef = _this$props.forwardedRef,\n            childProps = _objectWithoutPropertiesLoose(_this$props, [\"asyncScriptOnLoad\", \"forwardedRef\"]); // eslint-disable-line no-unused-vars\n\n\n        if (globalName && typeof window !== \"undefined\") {\n          childProps[globalName] = typeof window[globalName] !== \"undefined\" ? window[globalName] : undefined;\n        }\n\n        childProps.ref = forwardedRef;\n        return createElement(WrappedComponent, childProps);\n      };\n\n      return AsyncScriptLoader;\n    }(Component); // Note the second param \"ref\" provided by React.forwardRef.\n    // We can pass it along to AsyncScriptLoader as a regular prop, e.g. \"forwardedRef\"\n    // And it can then be attached to the Component.\n\n\n    var ForwardedComponent = forwardRef(function (props, ref) {\n      return createElement(AsyncScriptLoader, _extends({}, props, {\n        forwardedRef: ref\n      }));\n    });\n    ForwardedComponent.displayName = \"AsyncScriptLoader(\" + wrappedComponentName + \")\";\n    ForwardedComponent.propTypes = {\n      asyncScriptOnLoad: PropTypes.func\n    };\n    return hoistStatics(ForwardedComponent, WrappedComponent);\n  };\n}","'use strict';\n\nObject.defineProperty(exports, '__esModule', {\n  value: true\n});\nexports['default'] = {\n  slide: require('./menus/slide'),\n  stack: require('./menus/stack'),\n  elastic: require('./menus/elastic'),\n  bubble: require('./menus/bubble'),\n  push: require('./menus/push'),\n  pushRotate: require('./menus/pushRotate'),\n  scaleDown: require('./menus/scaleDown'),\n  scaleRotate: require('./menus/scaleRotate'),\n  fallDown: require('./menus/fallDown'),\n  reveal: require('./menus/reveal')\n};\nmodule.exports = exports['default'];","'use strict';\n\nObject.defineProperty(exports, '__esModule', {\n  value: true\n});\n\nvar _extends = Object.assign || function (target) { for (var i = 1; i < arguments.length; i++) { var source = arguments[i]; for (var key in source) { if (Object.prototype.hasOwnProperty.call(source, key)) { target[key] = source[key]; } } } return target; };\n\nvar _createClass = (function () { function defineProperties(target, props) { for (var i = 0; i < props.length; i++) { var descriptor = props[i]; descriptor.enumerable = descriptor.enumerable || false; descriptor.configurable = true; if ('value' in descriptor) descriptor.writable = true; Object.defineProperty(target, descriptor.key, descriptor); } } return function (Constructor, protoProps, staticProps) { if (protoProps) defineProperties(Constructor.prototype, protoProps); if (staticProps) defineProperties(Constructor, staticProps); return Constructor; }; })();\n\nvar _get = function get(_x, _x2, _x3) { var _again = true; _function: while (_again) { var object = _x, property = _x2, receiver = _x3; _again = false; if (object === null) object = Function.prototype; var desc = Object.getOwnPropertyDescriptor(object, property); if (desc === undefined) { var parent = Object.getPrototypeOf(object); if (parent === null) { return undefined; } else { _x = parent; _x2 = property; _x3 = receiver; _again = true; desc = parent = undefined; continue _function; } } else if ('value' in desc) { return desc.value; } else { var getter = desc.get; if (getter === undefined) { return undefined; } return getter.call(receiver); } } };\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { 'default': obj }; }\n\nfunction _classCallCheck(instance, Constructor) { if (!(instance instanceof Constructor)) { throw new TypeError('Cannot call a class as a function'); } }\n\nfunction _inherits(subClass, superClass) { if (typeof superClass !== 'function' && superClass !== null) { throw new TypeError('Super expression must either be null or a function, not ' + typeof superClass); } subClass.prototype = Object.create(superClass && superClass.prototype, { constructor: { value: subClass, enumerable: false, writable: true, configurable: true } }); if (superClass) Object.setPrototypeOf ? Object.setPrototypeOf(subClass, superClass) : subClass.__proto__ = superClass; }\n\nvar _react = require('react');\n\nvar _react2 = _interopRequireDefault(_react);\n\nvar _propTypes = require('prop-types');\n\nvar _propTypes2 = _interopRequireDefault(_propTypes);\n\nvar BurgerIcon = (function (_Component) {\n  _inherits(BurgerIcon, _Component);\n\n  function BurgerIcon(props) {\n    _classCallCheck(this, BurgerIcon);\n\n    _get(Object.getPrototypeOf(BurgerIcon.prototype), 'constructor', this).call(this, props);\n    this.state = {\n      hover: false\n    };\n  }\n\n  _createClass(BurgerIcon, [{\n    key: 'getLineStyle',\n    value: function getLineStyle(index) {\n      return _extends({\n        position: 'absolute',\n        height: '20%',\n        left: 0,\n        right: 0,\n        top: 20 * (index * 2) + '%',\n        opacity: this.state.hover ? 0.6 : 1\n      }, this.state.hover && this.props.styles.bmBurgerBarsHover);\n    }\n  }, {\n    key: 'render',\n    value: function render() {\n      var _this = this;\n\n      var icon = undefined;\n      var buttonStyle = {\n        position: 'absolute',\n        left: 0,\n        top: 0,\n        zIndex: 1,\n        width: '100%',\n        height: '100%',\n        margin: 0,\n        padding: 0,\n        border: 'none',\n        fontSize: 0,\n        background: 'transparent',\n        cursor: 'pointer'\n      };\n\n      if (this.props.customIcon) {\n        var extraProps = {\n          className: ('bm-icon ' + (this.props.customIcon.props.className || '')).trim(),\n          style: _extends({ width: '100%', height: '100%' }, this.props.styles.bmIcon)\n        };\n        icon = _react2['default'].cloneElement(this.props.customIcon, extraProps);\n      } else {\n        icon = _react2['default'].createElement(\n          'span',\n          null,\n          [0, 1, 2].map(function (bar) {\n            return _react2['default'].createElement('span', {\n              key: bar,\n              className: ('bm-burger-bars ' + _this.props.barClassName + ' ' + (_this.state.hover ? 'bm-burger-bars-hover' : '')).trim(),\n              style: _extends({}, _this.getLineStyle(bar), _this.props.styles.bmBurgerBars)\n            });\n          })\n        );\n      }\n\n      return _react2['default'].createElement(\n        'div',\n        {\n          className: ('bm-burger-button ' + this.props.className).trim(),\n          style: _extends({ zIndex: 1000 }, this.props.styles.bmBurgerButton)\n        },\n        _react2['default'].createElement(\n          'button',\n          {\n            type: 'button',\n            id: 'react-burger-menu-btn',\n            onClick: this.props.onClick,\n            onMouseOver: function () {\n              _this.setState({ hover: true });\n              if (_this.props.onIconHoverChange) {\n                _this.props.onIconHoverChange({ isMouseIn: true });\n              }\n            },\n            onMouseOut: function () {\n              _this.setState({ hover: false });\n              if (_this.props.onIconHoverChange) {\n                _this.props.onIconHoverChange({ isMouseIn: false });\n              }\n            },\n            style: buttonStyle\n          },\n          'Open Menu'\n        ),\n        icon\n      );\n    }\n  }]);\n\n  return BurgerIcon;\n})(_react.Component);\n\nexports['default'] = BurgerIcon;\n\nBurgerIcon.propTypes = {\n  barClassName: _propTypes2['default'].string,\n  customIcon: _propTypes2['default'].element,\n  styles: _propTypes2['default'].object\n};\n\nBurgerIcon.defaultProps = {\n  barClassName: '',\n  className: '',\n  styles: {}\n};\nmodule.exports = exports['default'];","'use strict';\n\nObject.defineProperty(exports, '__esModule', {\n  value: true\n});\n\nvar _extends = Object.assign || function (target) { for (var i = 1; i < arguments.length; i++) { var source = arguments[i]; for (var key in source) { if (Object.prototype.hasOwnProperty.call(source, key)) { target[key] = source[key]; } } } return target; };\n\nvar _createClass = (function () { function defineProperties(target, props) { for (var i = 0; i < props.length; i++) { var descriptor = props[i]; descriptor.enumerable = descriptor.enumerable || false; descriptor.configurable = true; if ('value' in descriptor) descriptor.writable = true; Object.defineProperty(target, descriptor.key, descriptor); } } return function (Constructor, protoProps, staticProps) { if (protoProps) defineProperties(Constructor.prototype, protoProps); if (staticProps) defineProperties(Constructor, staticProps); return Constructor; }; })();\n\nvar _get = function get(_x, _x2, _x3) { var _again = true; _function: while (_again) { var object = _x, property = _x2, receiver = _x3; _again = false; if (object === null) object = Function.prototype; var desc = Object.getOwnPropertyDescriptor(object, property); if (desc === undefined) { var parent = Object.getPrototypeOf(object); if (parent === null) { return undefined; } else { _x = parent; _x2 = property; _x3 = receiver; _again = true; desc = parent = undefined; continue _function; } } else if ('value' in desc) { return desc.value; } else { var getter = desc.get; if (getter === undefined) { return undefined; } return getter.call(receiver); } } };\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { 'default': obj }; }\n\nfunction _classCallCheck(instance, Constructor) { if (!(instance instanceof Constructor)) { throw new TypeError('Cannot call a class as a function'); } }\n\nfunction _inherits(subClass, superClass) { if (typeof superClass !== 'function' && superClass !== null) { throw new TypeError('Super expression must either be null or a function, not ' + typeof superClass); } subClass.prototype = Object.create(superClass && superClass.prototype, { constructor: { value: subClass, enumerable: false, writable: true, configurable: true } }); if (superClass) Object.setPrototypeOf ? Object.setPrototypeOf(subClass, superClass) : subClass.__proto__ = superClass; }\n\nvar _react = require('react');\n\nvar _react2 = _interopRequireDefault(_react);\n\nvar _propTypes = require('prop-types');\n\nvar _propTypes2 = _interopRequireDefault(_propTypes);\n\nvar CrossIcon = (function (_Component) {\n  _inherits(CrossIcon, _Component);\n\n  function CrossIcon() {\n    _classCallCheck(this, CrossIcon);\n\n    _get(Object.getPrototypeOf(CrossIcon.prototype), 'constructor', this).apply(this, arguments);\n  }\n\n  _createClass(CrossIcon, [{\n    key: 'getCrossStyle',\n    value: function getCrossStyle(type) {\n      return {\n        position: 'absolute',\n        width: 3,\n        height: 14,\n        transform: type === 'before' ? 'rotate(45deg)' : 'rotate(-45deg)'\n      };\n    }\n  }, {\n    key: 'render',\n    value: function render() {\n      var _this = this;\n\n      var icon;\n      var buttonWrapperStyle = {\n        position: 'absolute',\n        width: 24,\n        height: 24,\n        right: 8,\n        top: 8\n      };\n      var buttonStyle = {\n        position: 'absolute',\n        left: 0,\n        top: 0,\n        zIndex: 1,\n        width: '100%',\n        height: '100%',\n        margin: 0,\n        padding: 0,\n        border: 'none',\n        fontSize: 0,\n        background: 'transparent',\n        cursor: 'pointer'\n      };\n\n      if (this.props.customIcon) {\n        var extraProps = {\n          className: ('bm-cross ' + (this.props.customIcon.props.className || '')).trim(),\n          style: _extends({ width: '100%', height: '100%' }, this.props.styles.bmCross)\n        };\n        icon = _react2['default'].cloneElement(this.props.customIcon, extraProps);\n      } else {\n        icon = _react2['default'].createElement(\n          'span',\n          { style: { position: 'absolute', top: '6px', right: '14px' } },\n          ['before', 'after'].map(function (type, i) {\n            return _react2['default'].createElement('span', {\n              key: i,\n              className: ('bm-cross ' + _this.props.crossClassName).trim(),\n              style: _extends({}, _this.getCrossStyle(type), _this.props.styles.bmCross)\n            });\n          })\n        );\n      }\n\n      return _react2['default'].createElement(\n        'div',\n        {\n          className: ('bm-cross-button ' + this.props.className).trim(),\n          style: _extends({}, buttonWrapperStyle, this.props.styles.bmCrossButton)\n        },\n        _react2['default'].createElement(\n          'button',\n          _extends({\n            type: 'button',\n            id: 'react-burger-cross-btn',\n            onClick: this.props.onClick,\n            style: buttonStyle\n          }, !this.props.isOpen && { tabIndex: -1 }),\n          'Close Menu'\n        ),\n        icon\n      );\n    }\n  }]);\n\n  return CrossIcon;\n})(_react.Component);\n\nexports['default'] = CrossIcon;\n\nCrossIcon.propTypes = {\n  crossClassName: _propTypes2['default'].string,\n  customIcon: _propTypes2['default'].element,\n  isOpen: _propTypes2['default'].bool,\n  styles: _propTypes2['default'].object\n};\n\nCrossIcon.defaultProps = {\n  crossClassName: '',\n  className: '',\n  styles: {},\n  isOpen: false\n};\nmodule.exports = exports['default'];","'use strict';\n\nObject.defineProperty(exports, '__esModule', {\n  value: true\n});\nvar styles = {\n  overlay: function overlay(isOpen) {\n    return {\n      position: 'fixed',\n      zIndex: 1000,\n      width: '100%',\n      height: '100%',\n      background: 'rgba(0, 0, 0, 0.3)',\n      opacity: isOpen ? 1 : 0,\n      MozTransform: isOpen ? '' : 'translate3d(100%, 0, 0)',\n      MsTransform: isOpen ? '' : 'translate3d(100%, 0, 0)',\n      OTransform: isOpen ? '' : 'translate3d(100%, 0, 0)',\n      WebkitTransform: isOpen ? '' : 'translate3d(100%, 0, 0)',\n      transform: isOpen ? '' : 'translate3d(100%, 0, 0)',\n      transition: isOpen ? 'opacity 0.3s' : 'opacity 0.3s, transform 0s 0.3s'\n    };\n  },\n\n  menuWrap: function menuWrap(isOpen, width, right) {\n    return {\n      position: 'fixed',\n      right: right ? 0 : 'inherit',\n      zIndex: 1100,\n      width: width,\n      height: '100%',\n      MozTransform: isOpen ? '' : right ? 'translate3d(100%, 0, 0)' : 'translate3d(-100%, 0, 0)',\n      MsTransform: isOpen ? '' : right ? 'translate3d(100%, 0, 0)' : 'translate3d(-100%, 0, 0)',\n      OTransform: isOpen ? '' : right ? 'translate3d(100%, 0, 0)' : 'translate3d(-100%, 0, 0)',\n      WebkitTransform: isOpen ? '' : right ? 'translate3d(100%, 0, 0)' : 'translate3d(-100%, 0, 0)',\n      transform: isOpen ? '' : right ? 'translate3d(100%, 0, 0)' : 'translate3d(-100%, 0, 0)',\n      transition: 'all 0.5s'\n    };\n  },\n\n  menu: function menu() {\n    return {\n      height: '100%',\n      boxSizing: 'border-box',\n      overflow: 'auto'\n    };\n  },\n\n  itemList: function itemList() {\n    return {\n      height: '100%'\n    };\n  },\n\n  item: function item() {\n    return {\n      display: 'block'\n    };\n  }\n};\n\nexports['default'] = styles;\nmodule.exports = exports['default'];","'use strict';\n\nObject.defineProperty(exports, '__esModule', {\n  value: true\n});\nexports.focusOnFirstMenuItem = focusOnFirstMenuItem;\nexports.focusOnLastMenuItem = focusOnLastMenuItem;\nexports.focusOnCrossButton = focusOnCrossButton;\nexports.focusOnMenuButton = focusOnMenuButton;\nexports.focusOnMenuItem = focusOnMenuItem;\nexports.focusOnNextMenuItem = focusOnNextMenuItem;\nexports.focusOnPreviousMenuItem = focusOnPreviousMenuItem;\n\nfunction focusOnFirstMenuItem() {\n  var firstItem = Array.from(document.getElementsByClassName('bm-item')).shift();\n  if (firstItem) {\n    firstItem.focus();\n  }\n}\n\nfunction focusOnLastMenuItem() {\n  var lastItem = Array.from(document.getElementsByClassName('bm-item')).pop();\n  if (lastItem) {\n    lastItem.focus();\n  }\n}\n\nfunction focusOnCrossButton() {\n  var crossButton = document.getElementById('react-burger-cross-btn');\n  if (crossButton) {\n    crossButton.focus();\n  }\n}\n\nfunction focusOnMenuButton() {\n  var menuButton = document.getElementById('react-burger-menu-btn');\n  if (menuButton) {\n    menuButton.focus();\n  }\n}\n\nfunction focusOnMenuItem(siblingType) {\n  if (document.activeElement.className.includes('bm-item')) {\n    var sibling = document.activeElement[siblingType];\n    if (sibling) {\n      sibling.focus();\n    } else {\n      focusOnCrossButton();\n    }\n  } else {\n    if (siblingType === 'previousElementSibling') {\n      focusOnLastMenuItem();\n    } else {\n      focusOnFirstMenuItem();\n    }\n  }\n}\n\nfunction focusOnNextMenuItem() {\n  focusOnMenuItem('nextElementSibling');\n}\n\nfunction focusOnPreviousMenuItem() {\n  focusOnMenuItem('previousElementSibling');\n}","'use strict';\n\nObject.defineProperty(exports, '__esModule', {\n  value: true\n});\n\nexports['default'] = function () {\n  var Snap = undefined;\n  try {\n    Snap = require('snapsvg-cjs');\n  } finally {\n    return Snap;\n  }\n};\n\nmodule.exports = exports['default'];","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nvar pxToNum = function pxToNum(val) {\n  return parseInt(val.slice(0, -2), 10);\n};\nexports.pxToNum = pxToNum;","'use strict';\n\nObject.defineProperty(exports, '__esModule', {\n  value: true\n});\n\nvar _slicedToArray = (function () { function sliceIterator(arr, i) { var _arr = []; var _n = true; var _d = false; var _e = undefined; try { for (var _i = arr[Symbol.iterator](), _s; !(_n = (_s = _i.next()).done); _n = true) { _arr.push(_s.value); if (i && _arr.length === i) break; } } catch (err) { _d = true; _e = err; } finally { try { if (!_n && _i['return']) _i['return'](); } finally { if (_d) throw _e; } } return _arr; } return function (arr, i) { if (Array.isArray(arr)) { return arr; } else if (Symbol.iterator in Object(arr)) { return sliceIterator(arr, i); } else { throw new TypeError('Invalid attempt to destructure non-iterable instance'); } }; })();\n\nvar _extends = Object.assign || function (target) { for (var i = 1; i < arguments.length; i++) { var source = arguments[i]; for (var key in source) { if (Object.prototype.hasOwnProperty.call(source, key)) { target[key] = source[key]; } } } return target; };\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { 'default': obj }; }\n\nvar _react = require('react');\n\nvar _react2 = _interopRequireDefault(_react);\n\nvar _reactDom = require('react-dom');\n\nvar _reactDom2 = _interopRequireDefault(_reactDom);\n\nvar _propTypes = require('prop-types');\n\nvar _propTypes2 = _interopRequireDefault(_propTypes);\n\nvar _helpersBaseStyles = require('./helpers/baseStyles');\n\nvar _helpersBaseStyles2 = _interopRequireDefault(_helpersBaseStyles);\n\nvar _helpersDom = require('./helpers/dom');\n\nvar _componentsBurgerIcon = require('./components/BurgerIcon');\n\nvar _componentsBurgerIcon2 = _interopRequireDefault(_componentsBurgerIcon);\n\nvar _componentsCrossIcon = require('./components/CrossIcon');\n\nvar _componentsCrossIcon2 = _interopRequireDefault(_componentsCrossIcon);\n\nexports['default'] = function (styles) {\n  if (!styles) {\n    throw new Error('No styles supplied');\n  }\n\n  var ARROW_DOWN = 'ArrowDown';\n  var ARROW_UP = 'ArrowUp';\n  var ESCAPE = 'Escape';\n  var SPACE = ' ';\n  var HOME = 'Home';\n  var END = 'End';\n\n  function usePrevious(value) {\n    var ref = _react2['default'].useRef(value);\n    _react2['default'].useEffect(function () {\n      ref.current = value;\n    });\n    return ref.current;\n  }\n\n  var Menu = function Menu(props) {\n    var _React$useState = _react2['default'].useState(false);\n\n    var _React$useState2 = _slicedToArray(_React$useState, 2);\n\n    var isOpen = _React$useState2[0];\n    var setIsOpen = _React$useState2[1];\n\n    var timeoutId = _react2['default'].useRef();\n    var toggleOptions = _react2['default'].useRef({});\n    var prevIsOpenProp = usePrevious(props.isOpen);\n\n    _react2['default'].useEffect(function () {\n      if (props.isOpen) {\n        toggleMenu({ isOpen: true, noStateChange: true });\n      }\n\n      return function cleanup() {\n        applyWrapperStyles(false);\n        clearCurrentTimeout();\n      };\n    }, []);\n\n    _react2['default'].useEffect(function () {\n      var wasToggled = typeof props.isOpen !== 'undefined' && props.isOpen !== isOpen && props.isOpen !== prevIsOpenProp;\n\n      if (wasToggled) {\n        toggleMenu();\n        // Toggling changes SVG animation requirements, so defer these until next update\n        return;\n      }\n\n      if (styles.svg) {\n        (function () {\n          var morphShape = document.getElementById('bm-morph-shape');\n          var path = styles.svg.lib(morphShape).select('path');\n\n          if (isOpen) {\n            // Animate SVG path\n            styles.svg.animate(path);\n          } else {\n            // Reset path (timeout ensures animation happens off screen)\n            setTimeout(function () {\n              path.attr('d', styles.svg.pathInitial);\n            }, 300);\n          }\n        })();\n      }\n    });\n\n    _react2['default'].useEffect(function () {\n      var _toggleOptions$current = toggleOptions.current;\n      var noStateChange = _toggleOptions$current.noStateChange;\n      var focusOnLastItem = _toggleOptions$current.focusOnLastItem;\n\n      if (!noStateChange) {\n        props.onStateChange({ isOpen: isOpen });\n      }\n\n      if (!props.disableAutoFocus) {\n        // For accessibility reasons, ensures that when we toggle open,\n        // we focus the first or last menu item according to given parameter\n        if (isOpen) {\n          focusOnLastItem ? (0, _helpersDom.focusOnLastMenuItem)() : (0, _helpersDom.focusOnFirstMenuItem)();\n        } else {\n          if (document.activeElement) {\n            document.activeElement.blur();\n          } else {\n            document.body.blur(); // Needed for IE\n          }\n        }\n      }\n\n      // Timeout ensures wrappers are cleared after animation finishes\n      clearCurrentTimeout();\n      timeoutId.current = setTimeout(function () {\n        timeoutId.current = null;\n        if (!isOpen) {\n          applyWrapperStyles(false);\n        }\n      }, 500);\n\n      // Bind keydown handlers (or custom function if supplied)\n      var defaultOnKeyDown = isOpen ? onKeyDownOpen : onKeyDownClosed;\n      var onKeyDown = props.customOnKeyDown || defaultOnKeyDown;\n      window.addEventListener('keydown', onKeyDown);\n\n      return function cleanup() {\n        window.removeEventListener('keydown', onKeyDown);\n      };\n    }, [isOpen]);\n\n    function toggleMenu() {\n      var options = arguments.length <= 0 || arguments[0] === undefined ? {} : arguments[0];\n\n      toggleOptions.current = options;\n\n      applyWrapperStyles();\n\n      // Ensures wrapper styles are applied before the menu is toggled\n      setTimeout(function () {\n        setIsOpen(function (open) {\n          return typeof options.isOpen !== 'undefined' ? options.isOpen : !open;\n        });\n      });\n    }\n\n    function open() {\n      if (typeof props.onOpen === 'function') {\n        props.onOpen();\n      } else {\n        toggleMenu();\n      }\n    }\n\n    function close() {\n      if (typeof props.onClose === 'function') {\n        props.onClose();\n      } else {\n        toggleMenu();\n      }\n    }\n\n    function getStyle(style, index) {\n      var width = props.width;\n      var right = props.right;\n\n      var formattedWidth = typeof width !== 'string' ? width + 'px' : width;\n      return style(isOpen, formattedWidth, right, index);\n    }\n\n    // Builds styles incrementally for a given element\n    function getStyles(el, index, inline) {\n      var propName = 'bm' + el.replace(el.charAt(0), el.charAt(0).toUpperCase());\n\n      // Set base styles\n      var output = _helpersBaseStyles2['default'][el] ? getStyle(_helpersBaseStyles2['default'][el]) : {};\n\n      // Add animation-specific styles\n      if (styles[el]) {\n        output = _extends({}, output, getStyle(styles[el], index + 1));\n      }\n\n      // Add custom styles\n      if (props.styles[propName]) {\n        output = _extends({}, output, props.styles[propName]);\n      }\n\n      // Add element inline styles\n      if (inline) {\n        output = _extends({}, output, inline);\n      }\n\n      // Remove transition if required\n      // (useful if rendering open initially)\n      if (props.noTransition) {\n        delete output.transition;\n      }\n\n      return output;\n    }\n\n    // Sets or unsets styles on DOM elements outside the menu component\n    // This is necessary for correct page interaction with some of the menus\n    // Throws and returns if the required external elements don't exist,\n    // which means any external page animations won't be applied\n    function handleExternalWrapper(id, wrapperStyles, set) {\n      var wrapper = document.getElementById(id);\n\n      if (!wrapper) {\n        console.error(\"Element with ID '\" + id + \"' not found\");\n        return;\n      }\n\n      var builtStyles = getStyle(wrapperStyles);\n\n      for (var prop in builtStyles) {\n        if (builtStyles.hasOwnProperty(prop)) {\n          wrapper.style[prop] = set ? builtStyles[prop] : '';\n        }\n      }\n\n      // Prevent any horizontal scroll\n      // Only set overflow-x as an inline style if htmlClassName or\n      // bodyClassName is not passed in. Otherwise, it is up to the caller to\n      // decide if they want to set the overflow style in CSS using the custom\n      // class names\n      var applyOverflow = function applyOverflow(el) {\n        return el.style['overflow-x'] = set ? 'hidden' : '';\n      };\n      if (!props.htmlClassName) {\n        applyOverflow(document.querySelector('html'));\n      }\n      if (!props.bodyClassName) {\n        applyOverflow(document.querySelector('body'));\n      }\n    }\n\n    // Applies component-specific styles to external wrapper elements\n    function applyWrapperStyles() {\n      var set = arguments.length <= 0 || arguments[0] === undefined ? true : arguments[0];\n\n      var applyClass = function applyClass(el, className) {\n        return el.classList[set ? 'add' : 'remove'](className);\n      };\n\n      if (props.htmlClassName) {\n        applyClass(document.querySelector('html'), props.htmlClassName);\n      }\n      if (props.bodyClassName) {\n        applyClass(document.querySelector('body'), props.bodyClassName);\n      }\n\n      if (styles.pageWrap && props.pageWrapId) {\n        handleExternalWrapper(props.pageWrapId, styles.pageWrap, set);\n      }\n\n      if (styles.outerContainer && props.outerContainerId) {\n        handleExternalWrapper(props.outerContainerId, styles.outerContainer, set);\n      }\n\n      var menuWrap = document.querySelector('.bm-menu-wrap');\n      if (menuWrap) {\n        if (set) {\n          menuWrap.removeAttribute('hidden');\n        } else {\n          menuWrap.setAttribute('hidden', true);\n        }\n      }\n    }\n\n    // Avoids potentially attempting to update an unmounted component\n    function clearCurrentTimeout() {\n      if (timeoutId.current) {\n        clearTimeout(timeoutId.current);\n      }\n    }\n\n    function onKeyDownOpen(e) {\n      e = e || window.event;\n      switch (e.key) {\n        case ESCAPE:\n          // Close on ESC, unless disabled\n          if (!props.disableCloseOnEsc) {\n            close();\n            (0, _helpersDom.focusOnMenuButton)();\n          }\n          break;\n        case ARROW_DOWN:\n          (0, _helpersDom.focusOnNextMenuItem)();\n          break;\n        case ARROW_UP:\n          (0, _helpersDom.focusOnPreviousMenuItem)();\n          break;\n        case HOME:\n          (0, _helpersDom.focusOnFirstMenuItem)();\n          break;\n        case END:\n          (0, _helpersDom.focusOnLastMenuItem)();\n          break;\n      }\n    }\n\n    function onKeyDownClosed(e) {\n      e = e || window.event;\n      // Key downs came from menu button\n      if (e.target === document.getElementById('react-burger-menu-btn')) {\n        switch (e.key) {\n          case ARROW_DOWN:\n          case SPACE:\n            // If down arrow, space or enter, open menu and focus on first menuitem\n            toggleMenu();\n            break;\n          case ARROW_UP:\n            // If arrow up, open menu and focus on last menuitem\n            toggleMenu({ focusOnLastItem: true });\n            break;\n        }\n      }\n    }\n\n    function handleOverlayClick() {\n      if (props.disableOverlayClick === true || typeof props.disableOverlayClick === 'function' && props.disableOverlayClick()) {\n        return;\n      } else {\n        close();\n      }\n    }\n\n    return _react2['default'].createElement(\n      'div',\n      null,\n      !props.noOverlay && _react2['default'].createElement('div', {\n        className: ('bm-overlay ' + props.overlayClassName).trim(),\n        onClick: handleOverlayClick,\n        style: getStyles('overlay')\n      }),\n      props.customBurgerIcon !== false && _react2['default'].createElement(\n        'div',\n        { style: getStyles('burgerIcon') },\n        _react2['default'].createElement(_componentsBurgerIcon2['default'], {\n          onClick: open,\n          styles: props.styles,\n          customIcon: props.customBurgerIcon,\n          className: props.burgerButtonClassName,\n          barClassName: props.burgerBarClassName,\n          onIconStateChange: props.onIconStateChange\n        })\n      ),\n      _react2['default'].createElement(\n        'div',\n        {\n          id: props.id,\n          className: ('bm-menu-wrap ' + props.className).trim(),\n          style: getStyles('menuWrap'),\n          'aria-hidden': !isOpen\n        },\n        styles.svg && _react2['default'].createElement(\n          'div',\n          {\n            id: 'bm-morph-shape',\n            className: ('bm-morph-shape ' + props.morphShapeClassName).trim(),\n            style: getStyles('morphShape')\n          },\n          _react2['default'].createElement(\n            'svg',\n            {\n              width: '100%',\n              height: '100%',\n              viewBox: '0 0 100 800',\n              preserveAspectRatio: 'none'\n            },\n            _react2['default'].createElement('path', { d: styles.svg.pathInitial })\n          )\n        ),\n        _react2['default'].createElement(\n          'div',\n          {\n            className: ('bm-menu ' + props.menuClassName).trim(),\n            style: getStyles('menu')\n          },\n          _react2['default'].createElement(props.itemListElement, {\n            className: ('bm-item-list ' + props.itemListClassName).trim(),\n            style: getStyles('itemList')\n          }, _react2['default'].Children.map(props.children, function (item, index) {\n            if (item) {\n              var classList = ['bm-item', props.itemClassName, item.props.className].filter(function (className) {\n                return !!className;\n              }).join(' ');\n              var extraProps = _extends({\n                key: index,\n                className: classList,\n                style: getStyles('item', index, item.props.style)\n              }, !isOpen && { tabIndex: -1 });\n              return _react2['default'].cloneElement(item, extraProps);\n            }\n          }))\n        ),\n        props.customCrossIcon !== false && _react2['default'].createElement(\n          'div',\n          { style: getStyles('closeButton') },\n          _react2['default'].createElement(_componentsCrossIcon2['default'], {\n            onClick: close,\n            styles: props.styles,\n            customIcon: props.customCrossIcon,\n            className: props.crossButtonClassName,\n            crossClassName: props.crossClassName,\n            isOpen: isOpen\n          })\n        )\n      )\n    );\n  };\n\n  Menu.propTypes = {\n    bodyClassName: _propTypes2['default'].string,\n    burgerBarClassName: _propTypes2['default'].string,\n    burgerButtonClassName: _propTypes2['default'].string,\n    className: _propTypes2['default'].string,\n    crossButtonClassName: _propTypes2['default'].string,\n    crossClassName: _propTypes2['default'].string,\n    customBurgerIcon: _propTypes2['default'].oneOfType([_propTypes2['default'].element, _propTypes2['default'].oneOf([false])]),\n    customCrossIcon: _propTypes2['default'].oneOfType([_propTypes2['default'].element, _propTypes2['default'].oneOf([false])]),\n    customOnKeyDown: _propTypes2['default'].func,\n    disableAutoFocus: _propTypes2['default'].bool,\n    disableCloseOnEsc: _propTypes2['default'].bool,\n    disableOverlayClick: _propTypes2['default'].oneOfType([_propTypes2['default'].bool, _propTypes2['default'].func]),\n    htmlClassName: _propTypes2['default'].string,\n    id: _propTypes2['default'].string,\n    isOpen: _propTypes2['default'].bool,\n    itemClassName: _propTypes2['default'].string,\n    itemListClassName: _propTypes2['default'].string,\n    itemListElement: _propTypes2['default'].oneOf(['div', 'nav']),\n    menuClassName: _propTypes2['default'].string,\n    morphShapeClassName: _propTypes2['default'].string,\n    noOverlay: _propTypes2['default'].bool,\n    noTransition: _propTypes2['default'].bool,\n    onClose: _propTypes2['default'].func,\n    onIconHoverChange: _propTypes2['default'].func,\n    onOpen: _propTypes2['default'].func,\n    onStateChange: _propTypes2['default'].func,\n    outerContainerId: styles && styles.outerContainer ? _propTypes2['default'].string.isRequired : _propTypes2['default'].string,\n    overlayClassName: _propTypes2['default'].string,\n    pageWrapId: styles && styles.pageWrap ? _propTypes2['default'].string.isRequired : _propTypes2['default'].string,\n    right: _propTypes2['default'].bool,\n    styles: _propTypes2['default'].object,\n    width: _propTypes2['default'].oneOfType([_propTypes2['default'].number, _propTypes2['default'].string])\n  };\n\n  Menu.defaultProps = {\n    bodyClassName: '',\n    burgerBarClassName: '',\n    burgerButtonClassName: '',\n    className: '',\n    crossButtonClassName: '',\n    crossClassName: '',\n    disableAutoFocus: false,\n    disableCloseOnEsc: false,\n    htmlClassName: '',\n    id: '',\n    itemClassName: '',\n    itemListClassName: '',\n    menuClassName: '',\n    morphShapeClassName: '',\n    noOverlay: false,\n    noTransition: false,\n    onStateChange: function onStateChange() {},\n    outerContainerId: '',\n    overlayClassName: '',\n    pageWrapId: '',\n    styles: {},\n    width: 300,\n    onIconHoverChange: function onIconHoverChange() {},\n    itemListElement: 'nav'\n  };\n\n  return Menu;\n};\n\nmodule.exports = exports['default'];","'use strict';\n\nObject.defineProperty(exports, '__esModule', {\n  value: true\n});\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { 'default': obj }; }\n\nvar _helpersSnapsvgImporter = require('../helpers/snapsvgImporter');\n\nvar _helpersSnapsvgImporter2 = _interopRequireDefault(_helpersSnapsvgImporter);\n\nvar _menuFactory = require('../menuFactory');\n\nvar _menuFactory2 = _interopRequireDefault(_menuFactory);\n\nvar _helpersUtils = require('../helpers/utils');\n\nvar BUBBLE_WIDTH = 140;\n\nvar styles = {\n  svg: {\n    lib: _helpersSnapsvgImporter2['default'],\n    pathInitial: 'M-7.312,0H0c0,0,0,113.839,0,400c0,264.506,0,400,0,400h-7.312V0z',\n    pathOpen: 'M-7.312,0H15c0,0,66,113.339,66,399.5C81,664.006,15,800,15,800H-7.312V0z;M-7.312,0H100c0,0,0,113.839,0,400c0,264.506,0,400,0,400H-7.312V0z',\n    animate: function animate(path) {\n      var pos = 0;\n      var steps = this.pathOpen.split(';');\n      var stepsTotal = steps.length;\n      var mina = window.mina;\n\n      var nextStep = function nextStep() {\n        if (pos > stepsTotal - 1) return;\n\n        path.animate({ path: steps[pos] }, pos === 0 ? 400 : 500, pos === 0 ? mina.easein : mina.elastic, function () {\n          nextStep();\n        });\n\n        pos++;\n      };\n\n      nextStep();\n    }\n  },\n\n  morphShape: function morphShape(isOpen, width, right) {\n    return {\n      position: 'absolute',\n      width: '100%',\n      height: '100%',\n      right: right ? 'inherit' : 0,\n      left: right ? 0 : 'inherit',\n      MozTransform: right ? 'rotateY(180deg)' : 'rotateY(0deg)',\n      MsTransform: right ? 'rotateY(180deg)' : 'rotateY(0deg)',\n      OTransform: right ? 'rotateY(180deg)' : 'rotateY(0deg)',\n      WebkitTransform: right ? 'rotateY(180deg)' : 'rotateY(0deg)',\n      transform: right ? 'rotateY(180deg)' : 'rotateY(0deg)'\n    };\n  },\n\n  menuWrap: function menuWrap(isOpen, width, right) {\n    return {\n      MozTransform: isOpen ? 'translate3d(0, 0, 0)' : right ? 'translate3d(100%, 0, 0)' : 'translate3d(-100%, 0, 0)',\n      MsTransform: isOpen ? 'translate3d(0, 0, 0)' : right ? 'translate3d(100%, 0, 0)' : 'translate3d(-100%, 0, 0)',\n      OTransform: isOpen ? 'translate3d(0, 0, 0)' : right ? 'translate3d(100%, 0, 0)' : 'translate3d(-100%, 0, 0)',\n      WebkitTransform: isOpen ? 'translate3d(0, 0, 0)' : right ? 'translate3d(100%, 0, 0)' : 'translate3d(-100%, 0, 0)',\n      transform: isOpen ? 'translate3d(0, 0, 0)' : right ? 'translate3d(100%, 0, 0)' : 'translate3d(-100%, 0, 0)',\n      transition: isOpen ? 'transform 0.4s 0s' : 'transform 0.4s'\n    };\n  },\n\n  menu: function menu(isOpen, width, right) {\n    var finalWidth = (0, _helpersUtils.pxToNum)(width) - BUBBLE_WIDTH;\n    return {\n      position: 'fixed',\n      MozTransform: isOpen ? '' : right ? 'translate3d(' + finalWidth + ', 0, 0)' : 'translate3d(-' + finalWidth + ', 0, 0)',\n      MsTransform: isOpen ? '' : right ? 'translate3d(' + finalWidth + ', 0, 0)' : 'translate3d(-' + finalWidth + ', 0, 0)',\n      OTransform: isOpen ? '' : right ? 'translate3d(' + finalWidth + ', 0, 0)' : 'translate3d(-' + finalWidth + ', 0, 0)',\n      WebkitTransform: isOpen ? '' : right ? 'translate3d(' + finalWidth + ', 0, 0)' : 'translate3d(-' + finalWidth + ', 0, 0)',\n      transform: isOpen ? '' : right ? 'translate3d(' + finalWidth + ', 0, 0)' : 'translate3d(-' + finalWidth + ', 0, 0)',\n      transition: isOpen ? 'opacity 0.1s 0.4s cubic-bezier(.17, .67, .1, 1.27), transform 0.1s 0.4s cubic-bezier(.17, .67, .1, 1.27)' : 'opacity 0s 0.3s cubic-bezier(.17, .67, .1, 1.27), transform 0s 0.3s cubic-bezier(.17, .67, .1, 1.27)',\n      opacity: isOpen ? 1 : 0\n    };\n  },\n\n  item: function item(isOpen, width, right, nthChild) {\n    var finalWidth = (0, _helpersUtils.pxToNum)(width) - BUBBLE_WIDTH;\n    return {\n      MozTransform: isOpen ? 'translate3d(0, 0, 0)' : right ? 'translate3d(' + finalWidth + ', 0, 0)' : 'translate3d(-' + finalWidth + ', 0, 0)',\n      MsTransform: isOpen ? 'translate3d(0, 0, 0)' : right ? 'translate3d(' + finalWidth + ', 0, 0)' : 'translate3d(-' + finalWidth + ', 0, 0)',\n      OTransform: isOpen ? 'translate3d(0, 0, 0)' : right ? 'translate3d(' + finalWidth + ', 0, 0)' : 'translate3d(-' + finalWidth + ', 0, 0)',\n      WebkitTransform: isOpen ? 'translate3d(0, 0, 0)' : right ? 'translate3d(' + finalWidth + ', 0, 0)' : 'translate3d(-' + finalWidth + ', 0, 0)',\n      transform: isOpen ? 'translate3d(0, 0, 0)' : right ? 'translate3d(' + finalWidth + ', 0, 0)' : 'translate3d(-' + finalWidth + ', 0, 0)',\n      transition: isOpen ? 'opacity 0.3s 0.4s, transform 0.3s 0.4s' : 'opacity 0s 0.3s cubic-bezier(.17, .67, .1, 1.27), transform 0s 0.3s cubic-bezier(.17, .67, .1, 1.27)',\n      opacity: isOpen ? 1 : 0\n    };\n  },\n\n  closeButton: function closeButton(isOpen, width, right) {\n    var finalWidth = (0, _helpersUtils.pxToNum)(width) - BUBBLE_WIDTH;\n    return {\n      MozTransform: isOpen ? 'translate3d(0, 0, 0)' : right ? 'translate3d(' + finalWidth + ', 0, 0)' : 'translate3d(-' + finalWidth + ', 0, 0)',\n      MsTransform: isOpen ? 'translate3d(0, 0, 0)' : right ? 'translate3d(' + finalWidth + ', 0, 0)' : 'translate3d(-' + finalWidth + ', 0, 0)',\n      OTransform: isOpen ? 'translate3d(0, 0, 0)' : right ? 'translate3d(' + finalWidth + ', 0, 0)' : 'translate3d(-' + finalWidth + ', 0, 0)',\n      WebkitTransform: isOpen ? 'translate3d(0, 0, 0)' : right ? 'translate3d(' + finalWidth + ', 0, 0)' : 'translate3d(-' + finalWidth + ', 0, 0)',\n      transform: isOpen ? 'translate3d(0, 0, 0)' : right ? 'translate3d(' + finalWidth + ', 0, 0)' : 'translate3d(-' + finalWidth + ', 0, 0)',\n      transition: isOpen ? 'opacity 0.3s 0.4s cubic-bezier(.17, .67, .1, 1.27), transform 0.3s 0.4s cubic-bezier(.17, .67, .1, 1.27)' : 'opacity 0s 0.3s cubic-bezier(.17, .67, .1, 1.27), transform 0s 0.3s cubic-bezier(.17, .67, .1, 1.27)',\n      opacity: isOpen ? 1 : 0\n    };\n  }\n};\n\nexports['default'] = (0, _menuFactory2['default'])(styles);\nmodule.exports = exports['default'];","'use strict';\n\nObject.defineProperty(exports, '__esModule', {\n  value: true\n});\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { 'default': obj }; }\n\nvar _helpersSnapsvgImporter = require('../helpers/snapsvgImporter');\n\nvar _helpersSnapsvgImporter2 = _interopRequireDefault(_helpersSnapsvgImporter);\n\nvar _menuFactory = require('../menuFactory');\n\nvar _menuFactory2 = _interopRequireDefault(_menuFactory);\n\nvar _helpersUtils = require('../helpers/utils');\n\nvar MORPH_SHAPE_WIDTH = 120;\n\nvar styles = {\n  svg: {\n    lib: _helpersSnapsvgImporter2['default'],\n    pathInitial: 'M-1,0h101c0,0-97.833,153.603-97.833,396.167C2.167,627.579,100,800,100,800H-1V0z',\n    pathOpen: 'M-1,0h101c0,0,0-1,0,395c0,404,0,405,0,405H-1V0z',\n    animate: function animate(path) {\n      path.animate({ path: this.pathOpen }, 400, window.mina.easeinout);\n    }\n  },\n\n  morphShape: function morphShape(isOpen, width, right) {\n    return {\n      position: 'absolute',\n      width: MORPH_SHAPE_WIDTH,\n      height: '100%',\n      right: right ? 'inherit' : 0,\n      left: right ? 0 : 'inherit',\n      MozTransform: right ? 'rotateY(180deg)' : '',\n      MsTransform: right ? 'rotateY(180deg)' : '',\n      OTransform: right ? 'rotateY(180deg)' : '',\n      WebkitTransform: right ? 'rotateY(180deg)' : '',\n      transform: right ? 'rotateY(180deg)' : ''\n    };\n  },\n\n  menuWrap: function menuWrap(isOpen, width, right) {\n    return {\n      MozTransform: isOpen ? 'translate3d(0, 0, 0)' : right ? 'translate3d(100%, 0, 0)' : 'translate3d(-100%, 0, 0)',\n      MsTransform: isOpen ? 'translate3d(0, 0, 0)' : right ? 'translate3d(100%, 0, 0)' : 'translate3d(-100%, 0, 0)',\n      OTransform: isOpen ? 'translate3d(0, 0, 0)' : right ? 'translate3d(100%, 0, 0)' : 'translate3d(-100%, 0, 0)',\n      WebkitTransform: isOpen ? 'translate3d(0, 0, 0)' : right ? 'translate3d(100%, 0, 0)' : 'translate3d(-100%, 0, 0)',\n      transform: isOpen ? 'translate3d(0, 0, 0)' : right ? 'translate3d(100%, 0, 0)' : 'translate3d(-100%, 0, 0)',\n      transition: 'all 0.3s'\n    };\n  },\n\n  menu: function menu(isOpen, width, right) {\n    return {\n      position: 'fixed',\n      right: right ? 0 : 'inherit',\n      width: (0, _helpersUtils.pxToNum)(width) - MORPH_SHAPE_WIDTH,\n      whiteSpace: 'nowrap',\n      boxSizing: 'border-box',\n      overflow: 'visible'\n    };\n  },\n\n  itemList: function itemList(isOpen, width, right) {\n    if (right) {\n      return {\n        position: 'relative',\n        left: '-110px',\n        width: '170%',\n        overflow: 'auto'\n      };\n    }\n  },\n\n  pageWrap: function pageWrap(isOpen, width, right) {\n    return {\n      MozTransform: isOpen ? '' : right ? 'translate3d(-100px, 0, 0)' : 'translate3d(100px, 0, 0)',\n      MsTransform: isOpen ? '' : right ? 'translate3d(-100px, 0, 0)' : 'translate3d(100px, 0, 0)',\n      OTransform: isOpen ? '' : right ? 'translate3d(-100px, 0, 0)' : 'translate3d(100px, 0, 0)',\n      WebkitTransform: isOpen ? '' : right ? 'translate3d(-100px, 0, 0)' : 'translate3d(100px, 0, 0)',\n      transform: isOpen ? '' : right ? 'translate3d(-100px, 0, 0)' : 'translate3d(100px, 0, 0)',\n      transition: isOpen ? 'all 0.3s' : 'all 0.3s 0.1s'\n    };\n  },\n\n  outerContainer: function outerContainer(isOpen) {\n    return {\n      overflow: isOpen ? '' : 'hidden'\n    };\n  }\n};\n\nexports['default'] = (0, _menuFactory2['default'])(styles);\nmodule.exports = exports['default'];","'use strict';\n\nObject.defineProperty(exports, '__esModule', {\n  value: true\n});\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { 'default': obj }; }\n\nvar _menuFactory = require('../menuFactory');\n\nvar _menuFactory2 = _interopRequireDefault(_menuFactory);\n\nvar styles = {\n  menuWrap: function menuWrap(isOpen) {\n    return {\n      MozTransform: isOpen ? '' : 'translate3d(0, -100%, 0)',\n      MsTransform: isOpen ? '' : 'translate3d(0, -100%, 0)',\n      OTransform: isOpen ? '' : 'translate3d(0, -100%, 0)',\n      WebkitTransform: isOpen ? '' : 'translate3d(0, -100%, 0)',\n      transform: isOpen ? '' : 'translate3d(0, -100%, 0)',\n      transition: 'all 0.5s ease-in-out'\n    };\n  },\n\n  pageWrap: function pageWrap(isOpen, width, right) {\n    return {\n      MozTransform: isOpen ? '' : right ? 'translate3d(-' + width + ', 0, 0)' : 'translate3d(' + width + ', 0, 0)',\n      MsTransform: isOpen ? '' : right ? 'translate3d(-' + width + ', 0, 0)' : 'translate3d(' + width + ', 0, 0)',\n      OTransform: isOpen ? '' : right ? 'translate3d(-' + width + ', 0, 0)' : 'translate3d(' + width + ', 0, 0)',\n      WebkitTransform: isOpen ? '' : right ? 'translate3d(-' + width + ', 0, 0)' : 'translate3d(' + width + ', 0, 0)',\n      transform: isOpen ? '' : right ? 'translate3d(-' + width + ', 0, 0)' : 'translate3d(' + width + ', 0, 0)',\n      transition: 'all 0.5s'\n    };\n  },\n\n  outerContainer: function outerContainer(isOpen) {\n    return {\n      perspective: '1500px',\n      perspectiveOrigin: '0% 50%',\n      overflow: isOpen ? '' : 'hidden'\n    };\n  }\n};\n\nexports['default'] = (0, _menuFactory2['default'])(styles);\nmodule.exports = exports['default'];","'use strict';\n\nObject.defineProperty(exports, '__esModule', {\n  value: true\n});\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { 'default': obj }; }\n\nvar _menuFactory = require('../menuFactory');\n\nvar _menuFactory2 = _interopRequireDefault(_menuFactory);\n\nvar styles = {\n  pageWrap: function pageWrap(isOpen, width, right) {\n    return {\n      MozTransform: isOpen ? '' : right ? 'translate3d(-' + width + ', 0, 0)' : 'translate3d(' + width + ', 0, 0)',\n      MsTransform: isOpen ? '' : right ? 'translate3d(-' + width + ', 0, 0)' : 'translate3d(' + width + ', 0, 0)',\n      OTransform: isOpen ? '' : right ? 'translate3d(-' + width + ', 0, 0)' : 'translate3d(' + width + ', 0, 0)',\n      WebkitTransform: isOpen ? '' : right ? 'translate3d(-' + width + ', 0, 0)' : 'translate3d(' + width + ', 0, 0)',\n      transform: isOpen ? '' : right ? 'translate3d(-' + width + ', 0, 0)' : 'translate3d(' + width + ', 0, 0)',\n      transition: 'all 0.5s'\n    };\n  },\n\n  outerContainer: function outerContainer(isOpen) {\n    return {\n      overflow: isOpen ? '' : 'hidden'\n    };\n  }\n};\n\nexports['default'] = (0, _menuFactory2['default'])(styles);\nmodule.exports = exports['default'];","'use strict';\n\nObject.defineProperty(exports, '__esModule', {\n  value: true\n});\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { 'default': obj }; }\n\nvar _menuFactory = require('../menuFactory');\n\nvar _menuFactory2 = _interopRequireDefault(_menuFactory);\n\nvar styles = {\n  pageWrap: function pageWrap(isOpen, width, right) {\n    return {\n      MozTransform: isOpen ? '' : right ? 'translate3d(-' + width + ', 0, 0) rotateY(15deg)' : 'translate3d(' + width + ', 0, 0) rotateY(-15deg)',\n      MsTransform: isOpen ? '' : right ? 'translate3d(-' + width + ', 0, 0) rotateY(15deg)' : 'translate3d(' + width + ', 0, 0) rotateY(-15deg)',\n      OTransform: isOpen ? '' : right ? 'translate3d(-' + width + ', 0, 0) rotateY(15deg)' : 'translate3d(' + width + ', 0, 0) rotateY(-15deg)',\n      WebkitTransform: isOpen ? '' : right ? 'translate3d(-' + width + ', 0, 0) rotateY(15deg)' : 'translate3d(' + width + ', 0, 0) rotateY(-15deg)',\n      transform: isOpen ? '' : right ? 'translate3d(-' + width + ', 0, 0) rotateY(15deg)' : 'translate3d(' + width + ', 0, 0) rotateY(-15deg)',\n      transformOrigin: right ? '100% 50%' : '0% 50%',\n      transformStyle: 'preserve-3d',\n      transition: 'all 0.5s'\n    };\n  },\n\n  outerContainer: function outerContainer(isOpen) {\n    return {\n      perspective: '1500px',\n      overflow: isOpen ? '' : 'hidden'\n    };\n  }\n};\n\nexports['default'] = (0, _menuFactory2['default'])(styles);\nmodule.exports = exports['default'];","'use strict';\n\nObject.defineProperty(exports, '__esModule', {\n  value: true\n});\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { 'default': obj }; }\n\nvar _menuFactory = require('../menuFactory');\n\nvar _menuFactory2 = _interopRequireDefault(_menuFactory);\n\nvar styles = {\n  menuWrap: function menuWrap(isOpen, width, right) {\n    return {\n      MozTransform: 'translate3d(0, 0, 0)',\n      MsTransform: 'translate3d(0, 0, 0)',\n      OTransform: 'translate3d(0, 0, 0)',\n      WebkitTransform: 'translate3d(0, 0, 0)',\n      transform: 'translate3d(0, 0, 0)',\n      zIndex: isOpen ? 1000 : -1\n    };\n  },\n\n  overlay: function overlay(isOpen, width, right) {\n    return {\n      zIndex: 1400,\n      MozTransform: isOpen ? right ? 'translate3d(-' + width + ', 0, 0)' : 'translate3d(' + width + ', 0, 0)' : 'translate3d(0, 0, 0)',\n      MsTransform: isOpen ? right ? 'translate3d(-' + width + ', 0, 0)' : 'translate3d(' + width + ', 0, 0)' : 'translate3d(0, 0, 0)',\n      OTransform: isOpen ? right ? 'translate3d(-' + width + ', 0, 0)' : 'translate3d(' + width + ', 0, 0)' : 'translate3d(0, 0, 0)',\n      WebkitTransform: isOpen ? right ? 'translate3d(-' + width + ', 0, 0)' : 'translate3d(' + width + ', 0, 0)' : 'translate3d(0, 0, 0)',\n      transform: isOpen ? right ? 'translate3d(-' + width + ', 0, 0)' : 'translate3d(' + width + ', 0, 0)' : 'translate3d(0, 0, 0)',\n      transition: 'all 0.5s',\n      visibility: isOpen ? 'visible' : 'hidden'\n    };\n  },\n\n  pageWrap: function pageWrap(isOpen, width, right) {\n    return {\n      MozTransform: isOpen ? '' : right ? 'translate3d(-' + width + ', 0, 0)' : 'translate3d(' + width + ', 0, 0)',\n      MsTransform: isOpen ? '' : right ? 'translate3d(-' + width + ', 0, 0)' : 'translate3d(' + width + ', 0, 0)',\n      OTransform: isOpen ? '' : right ? 'translate3d(-' + width + ', 0, 0)' : 'translate3d(' + width + ', 0, 0)',\n      WebkitTransform: isOpen ? '' : right ? 'translate3d(-' + width + ', 0, 0)' : 'translate3d(' + width + ', 0, 0)',\n      transform: isOpen ? '' : right ? 'translate3d(-' + width + ', 0, 0)' : 'translate3d(' + width + ', 0, 0)',\n      transition: 'all 0.5s',\n      zIndex: 1200,\n      position: 'relative'\n    };\n  },\n\n  burgerIcon: function burgerIcon(isOpen, width, right) {\n    return {\n      MozTransform: isOpen ? right ? 'translate3d(' + width + ', 0, 0)' : 'translate3d(-' + width + ', 0, 0)' : 'translate3d(0, 0, 0)',\n      MsTransform: isOpen ? right ? 'translate3d(' + width + ', 0, 0)' : 'translate3d(-' + width + ', 0, 0)' : 'translate3d(0, 0, 0)',\n      OTransform: isOpen ? right ? 'translate3d(' + width + ', 0, 0)' : 'translate3d(-' + width + ', 0, 0)' : 'translate3d(0, 0, 0)',\n      WebkitTransform: isOpen ? right ? 'translate3d(' + width + ', 0, 0)' : 'translate3d(-' + width + ', 0, 0)' : 'translate3d(0, 0, 0)',\n      transform: isOpen ? right ? 'translate3d(' + width + ', 0, 0)' : 'translate3d(-' + width + ', 0, 0)' : 'translate3d(0, 0, 0)',\n      transition: 'all 0.1s',\n      position: 'relative',\n      zIndex: 1300\n    };\n  },\n\n  outerContainer: function outerContainer(isOpen) {\n    return {\n      overflow: isOpen ? '' : 'hidden'\n    };\n  }\n};\n\nexports['default'] = (0, _menuFactory2['default'])(styles);\nmodule.exports = exports['default'];","'use strict';\n\nObject.defineProperty(exports, '__esModule', {\n  value: true\n});\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { 'default': obj }; }\n\nvar _menuFactory = require('../menuFactory');\n\nvar _menuFactory2 = _interopRequireDefault(_menuFactory);\n\nvar styles = {\n  pageWrap: function pageWrap(isOpen, width) {\n    return {\n      MozTransform: isOpen ? '' : 'translate3d(0, 0, -' + width + ')',\n      MsTransform: isOpen ? '' : 'translate3d(0, 0, -' + width + ')',\n      OTransform: isOpen ? '' : 'translate3d(0, 0, -' + width + ')',\n      WebkitTransform: isOpen ? '' : 'translate3d(0, 0, -' + width + ')',\n      transform: isOpen ? '' : 'translate3d(0, 0, -' + width + ')',\n      transformOrigin: '100%',\n      transformStyle: 'preserve-3d',\n      transition: 'all 0.5s'\n    };\n  },\n\n  outerContainer: function outerContainer() {\n    return {\n      perspective: '1500px'\n    };\n  }\n};\n\nexports['default'] = (0, _menuFactory2['default'])(styles);\nmodule.exports = exports['default'];","'use strict';\n\nObject.defineProperty(exports, '__esModule', {\n  value: true\n});\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { 'default': obj }; }\n\nvar _menuFactory = require('../menuFactory');\n\nvar _menuFactory2 = _interopRequireDefault(_menuFactory);\n\nvar styles = {\n  pageWrap: function pageWrap(isOpen, width, right) {\n    return {\n      MozTransform: isOpen ? '' : right ? 'translate3d(-100px, 0, -600px) rotateY(20deg)' : 'translate3d(100px, 0, -600px) rotateY(-20deg)',\n      MsTransform: isOpen ? '' : right ? 'translate3d(-100px, 0, -600px) rotateY(20deg)' : 'translate3d(100px, 0, -600px) rotateY(-20deg)',\n      OTransform: isOpen ? '' : right ? 'translate3d(-100px, 0, -600px) rotateY(20deg)' : 'translate3d(100px, 0, -600px) rotateY(-20deg)',\n      WebkitTransform: isOpen ? '' : right ? 'translate3d(-100px, 0, -600px) rotateY(20deg)' : 'translate3d(100px, 0, -600px) rotateY(-20deg)',\n      transform: isOpen ? '' : right ? 'translate3d(-100px, 0, -600px) rotateY(20deg)' : 'translate3d(100px, 0, -600px) rotateY(-20deg)',\n      transformStyle: 'preserve-3d',\n      transition: 'all 0.5s',\n      overflow: isOpen ? '' : 'hidden'\n    };\n  },\n\n  outerContainer: function outerContainer(isOpen) {\n    return {\n      perspective: '1500px',\n      overflow: isOpen ? '' : 'hidden'\n    };\n  }\n};\n\nexports['default'] = (0, _menuFactory2['default'])(styles);\nmodule.exports = exports['default'];","'use strict';\n\nObject.defineProperty(exports, '__esModule', {\n  value: true\n});\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { 'default': obj }; }\n\nvar _menuFactory = require('../menuFactory');\n\nvar _menuFactory2 = _interopRequireDefault(_menuFactory);\n\nvar styles = {};\n\nexports['default'] = (0, _menuFactory2['default'])(styles);\nmodule.exports = exports['default'];","'use strict';\n\nObject.defineProperty(exports, '__esModule', {\n  value: true\n});\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { 'default': obj }; }\n\nvar _menuFactory = require('../menuFactory');\n\nvar _menuFactory2 = _interopRequireDefault(_menuFactory);\n\nvar styles = {\n  menuWrap: function menuWrap(isOpen, width, right) {\n    return {\n      MozTransform: isOpen ? '' : right ? 'translate3d(' + width + ', 0, 0)' : 'translate3d(-' + width + ', 0, 0)',\n      MsTransform: isOpen ? '' : right ? 'translate3d(' + width + ', 0, 0)' : 'translate3d(-' + width + ', 0, 0)',\n      OTransform: isOpen ? '' : right ? 'translate3d(' + width + ', 0, 0)' : 'translate3d(-' + width + ', 0, 0)',\n      WebkitTransform: isOpen ? '' : right ? 'translate3d(' + width + ', 0, 0)' : 'translate3d(-' + width + ', 0, 0)',\n      transform: isOpen ? '' : right ? 'translate3d(' + width + ', 0, 0)' : 'translate3d(-' + width + ', 0, 0)',\n      transition: isOpen ? 'transform 0.8s cubic-bezier(0.7, 0, 0.3, 1)' : 'transform 0.4s cubic-bezier(0.7, 0, 0.3, 1)'\n    };\n  },\n\n  item: function item(isOpen, width, right, nthChild) {\n    return {\n      MozTransform: isOpen ? '' : 'translate3d(0, ' + nthChild * 500 + 'px, 0)',\n      MsTransform: isOpen ? '' : 'translate3d(0, ' + nthChild * 500 + 'px, 0)',\n      OTransform: isOpen ? '' : 'translate3d(0, ' + nthChild * 500 + 'px, 0)',\n      WebkitTransform: isOpen ? '' : 'translate3d(0, ' + nthChild * 500 + 'px, 0)',\n      transform: isOpen ? '' : 'translate3d(0, ' + nthChild * 500 + 'px, 0)',\n      transition: isOpen ? 'transform 0.8s cubic-bezier(0.7, 0, 0.3, 1)' : 'transform 0s 0.2s cubic-bezier(0.7, 0, 0.3, 1)'\n    };\n  }\n};\n\nexports['default'] = (0, _menuFactory2['default'])(styles);\nmodule.exports = exports['default'];","(function (global, factory) {\n  if (typeof define === \"function\" && define.amd) {\n    define(['exports', './react-swipe'], factory);\n  } else if (typeof exports !== \"undefined\") {\n    factory(exports, require('./react-swipe'));\n  } else {\n    var mod = {\n      exports: {}\n    };\n    factory(mod.exports, global.reactSwipe);\n    global.index = mod.exports;\n  }\n})(this, function (exports, _reactSwipe) {\n  'use strict';\n\n  Object.defineProperty(exports, \"__esModule\", {\n    value: true\n  });\n\n  var _reactSwipe2 = _interopRequireDefault(_reactSwipe);\n\n  function _interopRequireDefault(obj) {\n    return obj && obj.__esModule ? obj : {\n      default: obj\n    };\n  }\n\n  exports.default = _reactSwipe2.default;\n});","(function (global, factory) {\n  if (typeof define === \"function\" && define.amd) {\n    define(['exports', 'react', 'prop-types'], factory);\n  } else if (typeof exports !== \"undefined\") {\n    factory(exports, require('react'), require('prop-types'));\n  } else {\n    var mod = {\n      exports: {}\n    };\n    factory(mod.exports, global.react, global.propTypes);\n    global.reactSwipe = mod.exports;\n  }\n})(this, function (exports, _react, _propTypes) {\n  'use strict';\n\n  Object.defineProperty(exports, \"__esModule\", {\n    value: true\n  });\n  exports.setHasSupportToCaptureOption = setHasSupportToCaptureOption;\n\n  var _react2 = _interopRequireDefault(_react);\n\n  var _propTypes2 = _interopRequireDefault(_propTypes);\n\n  function _interopRequireDefault(obj) {\n    return obj && obj.__esModule ? obj : {\n      default: obj\n    };\n  }\n\n  var _extends = Object.assign || function (target) {\n    for (var i = 1; i < arguments.length; i++) {\n      var source = arguments[i];\n\n      for (var key in source) {\n        if (Object.prototype.hasOwnProperty.call(source, key)) {\n          target[key] = source[key];\n        }\n      }\n    }\n\n    return target;\n  };\n\n  function _objectWithoutProperties(obj, keys) {\n    var target = {};\n\n    for (var i in obj) {\n      if (keys.indexOf(i) >= 0) continue;\n      if (!Object.prototype.hasOwnProperty.call(obj, i)) continue;\n      target[i] = obj[i];\n    }\n\n    return target;\n  }\n\n  function _classCallCheck(instance, Constructor) {\n    if (!(instance instanceof Constructor)) {\n      throw new TypeError(\"Cannot call a class as a function\");\n    }\n  }\n\n  var _createClass = function () {\n    function defineProperties(target, props) {\n      for (var i = 0; i < props.length; i++) {\n        var descriptor = props[i];\n        descriptor.enumerable = descriptor.enumerable || false;\n        descriptor.configurable = true;\n        if (\"value\" in descriptor) descriptor.writable = true;\n        Object.defineProperty(target, descriptor.key, descriptor);\n      }\n    }\n\n    return function (Constructor, protoProps, staticProps) {\n      if (protoProps) defineProperties(Constructor.prototype, protoProps);\n      if (staticProps) defineProperties(Constructor, staticProps);\n      return Constructor;\n    };\n  }();\n\n  function _possibleConstructorReturn(self, call) {\n    if (!self) {\n      throw new ReferenceError(\"this hasn't been initialised - super() hasn't been called\");\n    }\n\n    return call && (typeof call === \"object\" || typeof call === \"function\") ? call : self;\n  }\n\n  function _inherits(subClass, superClass) {\n    if (typeof superClass !== \"function\" && superClass !== null) {\n      throw new TypeError(\"Super expression must either be null or a function, not \" + typeof superClass);\n    }\n\n    subClass.prototype = Object.create(superClass && superClass.prototype, {\n      constructor: {\n        value: subClass,\n        enumerable: false,\n        writable: true,\n        configurable: true\n      }\n    });\n    if (superClass) Object.setPrototypeOf ? Object.setPrototypeOf(subClass, superClass) : subClass.__proto__ = superClass;\n  }\n\n  var supportsCaptureOption = false;\n  function setHasSupportToCaptureOption(hasSupport) {\n    supportsCaptureOption = hasSupport;\n  }\n\n  try {\n    addEventListener('test', null, Object.defineProperty({}, 'capture', { get: function get() {\n        setHasSupportToCaptureOption(true);\n      } }));\n  } catch (e) {} // eslint-disable-line no-empty\n\n  function getSafeEventHandlerOpts() {\n    var options = arguments.length > 0 && arguments[0] !== undefined ? arguments[0] : { capture: true };\n\n    return supportsCaptureOption ? options : options.capture;\n  }\n\n  /**\n   * [getPosition returns a position element that works for mouse or touch events]\n   * @param  {[Event]} event [the received event]\n   * @return {[Object]}      [x and y coords]\n   */\n  function getPosition(event) {\n    if ('touches' in event) {\n      var _event$touches$ = event.touches[0],\n          pageX = _event$touches$.pageX,\n          pageY = _event$touches$.pageY;\n\n      return { x: pageX, y: pageY };\n    }\n\n    var screenX = event.screenX,\n        screenY = event.screenY;\n\n    return { x: screenX, y: screenY };\n  }\n\n  var ReactSwipe = function (_Component) {\n    _inherits(ReactSwipe, _Component);\n\n    function ReactSwipe() {\n      var _ref;\n\n      _classCallCheck(this, ReactSwipe);\n\n      for (var _len = arguments.length, args = Array(_len), _key = 0; _key < _len; _key++) {\n        args[_key] = arguments[_key];\n      }\n\n      var _this = _possibleConstructorReturn(this, (_ref = ReactSwipe.__proto__ || Object.getPrototypeOf(ReactSwipe)).call.apply(_ref, [this].concat(args)));\n\n      _this._handleSwipeStart = _this._handleSwipeStart.bind(_this);\n      _this._handleSwipeMove = _this._handleSwipeMove.bind(_this);\n      _this._handleSwipeEnd = _this._handleSwipeEnd.bind(_this);\n\n      _this._onMouseDown = _this._onMouseDown.bind(_this);\n      _this._onMouseMove = _this._onMouseMove.bind(_this);\n      _this._onMouseUp = _this._onMouseUp.bind(_this);\n\n      _this._setSwiperRef = _this._setSwiperRef.bind(_this);\n      return _this;\n    }\n\n    _createClass(ReactSwipe, [{\n      key: 'componentDidMount',\n      value: function componentDidMount() {\n        if (this.swiper) {\n          this.swiper.addEventListener('touchmove', this._handleSwipeMove, getSafeEventHandlerOpts({\n            capture: true,\n            passive: false\n          }));\n        }\n      }\n    }, {\n      key: 'componentWillUnmount',\n      value: function componentWillUnmount() {\n        if (this.swiper) {\n          this.swiper.removeEventListener('touchmove', this._handleSwipeMove, getSafeEventHandlerOpts({\n            capture: true,\n            passive: false\n          }));\n        }\n      }\n    }, {\n      key: '_onMouseDown',\n      value: function _onMouseDown(event) {\n        if (!this.props.allowMouseEvents) {\n          return;\n        }\n\n        this.mouseDown = true;\n\n        document.addEventListener('mouseup', this._onMouseUp);\n        document.addEventListener('mousemove', this._onMouseMove);\n\n        this._handleSwipeStart(event);\n      }\n    }, {\n      key: '_onMouseMove',\n      value: function _onMouseMove(event) {\n        if (!this.mouseDown) {\n          return;\n        }\n\n        this._handleSwipeMove(event);\n      }\n    }, {\n      key: '_onMouseUp',\n      value: function _onMouseUp(event) {\n        this.mouseDown = false;\n\n        document.removeEventListener('mouseup', this._onMouseUp);\n        document.removeEventListener('mousemove', this._onMouseMove);\n\n        this._handleSwipeEnd(event);\n      }\n    }, {\n      key: '_handleSwipeStart',\n      value: function _handleSwipeStart(event) {\n        var _getPosition = getPosition(event),\n            x = _getPosition.x,\n            y = _getPosition.y;\n\n        this.moveStart = { x: x, y: y };\n        this.props.onSwipeStart(event);\n      }\n    }, {\n      key: '_handleSwipeMove',\n      value: function _handleSwipeMove(event) {\n        if (!this.moveStart) {\n          return;\n        }\n\n        var _getPosition2 = getPosition(event),\n            x = _getPosition2.x,\n            y = _getPosition2.y;\n\n        var deltaX = x - this.moveStart.x;\n        var deltaY = y - this.moveStart.y;\n        this.moving = true;\n\n        // handling the responsability of cancelling the scroll to\n        // the component handling the event\n        var shouldPreventDefault = this.props.onSwipeMove({\n          x: deltaX,\n          y: deltaY\n        }, event);\n\n        if (shouldPreventDefault && event.cancelable) {\n          event.preventDefault();\n        }\n\n        this.movePosition = { deltaX: deltaX, deltaY: deltaY };\n      }\n    }, {\n      key: '_handleSwipeEnd',\n      value: function _handleSwipeEnd(event) {\n        this.props.onSwipeEnd(event);\n\n        var tolerance = this.props.tolerance;\n\n\n        if (this.moving && this.movePosition) {\n          if (this.movePosition.deltaX < -tolerance) {\n            this.props.onSwipeLeft(1, event);\n          } else if (this.movePosition.deltaX > tolerance) {\n            this.props.onSwipeRight(1, event);\n          }\n          if (this.movePosition.deltaY < -tolerance) {\n            this.props.onSwipeUp(1, event);\n          } else if (this.movePosition.deltaY > tolerance) {\n            this.props.onSwipeDown(1, event);\n          }\n        }\n\n        this.moveStart = null;\n        this.moving = false;\n        this.movePosition = null;\n      }\n    }, {\n      key: '_setSwiperRef',\n      value: function _setSwiperRef(node) {\n        this.swiper = node;\n        this.props.innerRef(node);\n      }\n    }, {\n      key: 'render',\n      value: function render() {\n        var _props = this.props,\n            tagName = _props.tagName,\n            className = _props.className,\n            style = _props.style,\n            children = _props.children,\n            allowMouseEvents = _props.allowMouseEvents,\n            onSwipeUp = _props.onSwipeUp,\n            onSwipeDown = _props.onSwipeDown,\n            onSwipeLeft = _props.onSwipeLeft,\n            onSwipeRight = _props.onSwipeRight,\n            onSwipeStart = _props.onSwipeStart,\n            onSwipeMove = _props.onSwipeMove,\n            onSwipeEnd = _props.onSwipeEnd,\n            innerRef = _props.innerRef,\n            tolerance = _props.tolerance,\n            props = _objectWithoutProperties(_props, ['tagName', 'className', 'style', 'children', 'allowMouseEvents', 'onSwipeUp', 'onSwipeDown', 'onSwipeLeft', 'onSwipeRight', 'onSwipeStart', 'onSwipeMove', 'onSwipeEnd', 'innerRef', 'tolerance']);\n\n        return _react2.default.createElement(\n          this.props.tagName,\n          _extends({\n            ref: this._setSwiperRef,\n            onMouseDown: this._onMouseDown,\n            onTouchStart: this._handleSwipeStart,\n            onTouchEnd: this._handleSwipeEnd,\n            className: className,\n            style: style\n          }, props),\n          children\n        );\n      }\n    }]);\n\n    return ReactSwipe;\n  }(_react.Component);\n\n  ReactSwipe.displayName = 'ReactSwipe';\n  ReactSwipe.propTypes = {\n    tagName: _propTypes2.default.string,\n    className: _propTypes2.default.string,\n    style: _propTypes2.default.object,\n    children: _propTypes2.default.node,\n    allowMouseEvents: _propTypes2.default.bool,\n    onSwipeUp: _propTypes2.default.func,\n    onSwipeDown: _propTypes2.default.func,\n    onSwipeLeft: _propTypes2.default.func,\n    onSwipeRight: _propTypes2.default.func,\n    onSwipeStart: _propTypes2.default.func,\n    onSwipeMove: _propTypes2.default.func,\n    onSwipeEnd: _propTypes2.default.func,\n    innerRef: _propTypes2.default.func,\n    tolerance: _propTypes2.default.number.isRequired\n  };\n  ReactSwipe.defaultProps = {\n    tagName: 'div',\n    allowMouseEvents: false,\n    onSwipeUp: function onSwipeUp() {},\n    onSwipeDown: function onSwipeDown() {},\n    onSwipeLeft: function onSwipeLeft() {},\n    onSwipeRight: function onSwipeRight() {},\n    onSwipeStart: function onSwipeStart() {},\n    onSwipeMove: function onSwipeMove() {},\n    onSwipeEnd: function onSwipeEnd() {},\n    innerRef: function innerRef() {},\n\n    tolerance: 0\n  };\n  exports.default = ReactSwipe;\n});","import RecaptchaWrapper from \"./recaptcha-wrapper\";\nimport ReCAPTCHA from \"./recaptcha\";\nexport default RecaptchaWrapper;\nexport { ReCAPTCHA };","import ReCAPTCHA from \"./recaptcha\";\nimport makeAsyncScriptLoader from \"react-async-script\";\nvar callbackName = \"onloadcallback\";\nvar globalName = \"grecaptcha\";\nfunction getOptions() {\n  return typeof window !== \"undefined\" && window.recaptchaOptions || {};\n}\nfunction getURL() {\n  var dynamicOptions = getOptions();\n  var hostname = dynamicOptions.useRecaptchaNet ? \"recaptcha.net\" : \"www.google.com\";\n  if (dynamicOptions.enterprise) {\n    return \"https://\" + hostname + \"/recaptcha/enterprise.js?onload=\" + callbackName + \"&render=explicit\";\n  }\n  return \"https://\" + hostname + \"/recaptcha/api.js?onload=\" + callbackName + \"&render=explicit\";\n}\nexport default makeAsyncScriptLoader(getURL, {\n  callbackName: callbackName,\n  globalName: globalName,\n  attributes: getOptions().nonce ? {\n    nonce: getOptions().nonce\n  } : {}\n})(ReCAPTCHA);","var _excluded = [\"sitekey\", \"onChange\", \"theme\", \"type\", \"tabindex\", \"onExpired\", \"onErrored\", \"size\", \"stoken\", \"grecaptcha\", \"badge\", \"hl\", \"isolated\"];\nfunction _extends() { _extends = Object.assign ? Object.assign.bind() : function (target) { for (var i = 1; i < arguments.length; i++) { var source = arguments[i]; for (var key in source) { if (Object.prototype.hasOwnProperty.call(source, key)) { target[key] = source[key]; } } } return target; }; return _extends.apply(this, arguments); }\nfunction _objectWithoutPropertiesLoose(source, excluded) { if (source == null) return {}; var target = {}; var sourceKeys = Object.keys(source); var key, i; for (i = 0; i < sourceKeys.length; i++) { key = sourceKeys[i]; if (excluded.indexOf(key) >= 0) continue; target[key] = source[key]; } return target; }\nfunction _assertThisInitialized(self) { if (self === void 0) { throw new ReferenceError(\"this hasn't been initialised - super() hasn't been called\"); } return self; }\nfunction _inheritsLoose(subClass, superClass) { subClass.prototype = Object.create(superClass.prototype); subClass.prototype.constructor = subClass; _setPrototypeOf(subClass, superClass); }\nfunction _setPrototypeOf(o, p) { _setPrototypeOf = Object.setPrototypeOf ? Object.setPrototypeOf.bind() : function _setPrototypeOf(o, p) { o.__proto__ = p; return o; }; return _setPrototypeOf(o, p); }\nimport * as React from \"react\";\nimport PropTypes from \"prop-types\";\nvar ReCAPTCHA = /*#__PURE__*/function (_React$Component) {\n  _inheritsLoose(ReCAPTCHA, _React$Component);\n  function ReCAPTCHA() {\n    var _this;\n    _this = _React$Component.call(this) || this;\n    _this.handleExpired = _this.handleExpired.bind(_assertThisInitialized(_this));\n    _this.handleErrored = _this.handleErrored.bind(_assertThisInitialized(_this));\n    _this.handleChange = _this.handleChange.bind(_assertThisInitialized(_this));\n    _this.handleRecaptchaRef = _this.handleRecaptchaRef.bind(_assertThisInitialized(_this));\n    return _this;\n  }\n  var _proto = ReCAPTCHA.prototype;\n  _proto.getCaptchaFunction = function getCaptchaFunction(fnName) {\n    if (this.props.grecaptcha) {\n      if (this.props.grecaptcha.enterprise) {\n        return this.props.grecaptcha.enterprise[fnName];\n      }\n      return this.props.grecaptcha[fnName];\n    }\n    return null;\n  };\n  _proto.getValue = function getValue() {\n    var getResponse = this.getCaptchaFunction(\"getResponse\");\n    if (getResponse && this._widgetId !== undefined) {\n      return getResponse(this._widgetId);\n    }\n    return null;\n  };\n  _proto.getWidgetId = function getWidgetId() {\n    if (this.props.grecaptcha && this._widgetId !== undefined) {\n      return this._widgetId;\n    }\n    return null;\n  };\n  _proto.execute = function execute() {\n    var execute = this.getCaptchaFunction(\"execute\");\n    if (execute && this._widgetId !== undefined) {\n      return execute(this._widgetId);\n    } else {\n      this._executeRequested = true;\n    }\n  };\n  _proto.executeAsync = function executeAsync() {\n    var _this2 = this;\n    return new Promise(function (resolve, reject) {\n      _this2.executionResolve = resolve;\n      _this2.executionReject = reject;\n      _this2.execute();\n    });\n  };\n  _proto.reset = function reset() {\n    var resetter = this.getCaptchaFunction(\"reset\");\n    if (resetter && this._widgetId !== undefined) {\n      resetter(this._widgetId);\n    }\n  };\n  _proto.forceReset = function forceReset() {\n    var resetter = this.getCaptchaFunction(\"reset\");\n    if (resetter) {\n      resetter();\n    }\n  };\n  _proto.handleExpired = function handleExpired() {\n    if (this.props.onExpired) {\n      this.props.onExpired();\n    } else {\n      this.handleChange(null);\n    }\n  };\n  _proto.handleErrored = function handleErrored() {\n    if (this.props.onErrored) {\n      this.props.onErrored();\n    }\n    if (this.executionReject) {\n      this.executionReject();\n      delete this.executionResolve;\n      delete this.executionReject;\n    }\n  };\n  _proto.handleChange = function handleChange(token) {\n    if (this.props.onChange) {\n      this.props.onChange(token);\n    }\n    if (this.executionResolve) {\n      this.executionResolve(token);\n      delete this.executionReject;\n      delete this.executionResolve;\n    }\n  };\n  _proto.explicitRender = function explicitRender() {\n    var render = this.getCaptchaFunction(\"render\");\n    if (render && this._widgetId === undefined) {\n      var wrapper = document.createElement(\"div\");\n      this._widgetId = render(wrapper, {\n        sitekey: this.props.sitekey,\n        callback: this.handleChange,\n        theme: this.props.theme,\n        type: this.props.type,\n        tabindex: this.props.tabindex,\n        \"expired-callback\": this.handleExpired,\n        \"error-callback\": this.handleErrored,\n        size: this.props.size,\n        stoken: this.props.stoken,\n        hl: this.props.hl,\n        badge: this.props.badge,\n        isolated: this.props.isolated\n      });\n      this.captcha.appendChild(wrapper);\n    }\n    if (this._executeRequested && this.props.grecaptcha && this._widgetId !== undefined) {\n      this._executeRequested = false;\n      this.execute();\n    }\n  };\n  _proto.componentDidMount = function componentDidMount() {\n    this.explicitRender();\n  };\n  _proto.componentDidUpdate = function componentDidUpdate() {\n    this.explicitRender();\n  };\n  _proto.handleRecaptchaRef = function handleRecaptchaRef(elem) {\n    this.captcha = elem;\n  };\n  _proto.render = function render() {\n    // consume properties owned by the reCATPCHA, pass the rest to the div so the user can style it.\n    /* eslint-disable no-unused-vars */\n    var _this$props = this.props,\n      sitekey = _this$props.sitekey,\n      onChange = _this$props.onChange,\n      theme = _this$props.theme,\n      type = _this$props.type,\n      tabindex = _this$props.tabindex,\n      onExpired = _this$props.onExpired,\n      onErrored = _this$props.onErrored,\n      size = _this$props.size,\n      stoken = _this$props.stoken,\n      grecaptcha = _this$props.grecaptcha,\n      badge = _this$props.badge,\n      hl = _this$props.hl,\n      isolated = _this$props.isolated,\n      childProps = _objectWithoutPropertiesLoose(_this$props, _excluded);\n    /* eslint-enable no-unused-vars */\n    return /*#__PURE__*/React.createElement(\"div\", _extends({}, childProps, {\n      ref: this.handleRecaptchaRef\n    }));\n  };\n  return ReCAPTCHA;\n}(React.Component);\nexport { ReCAPTCHA as default };\nReCAPTCHA.displayName = \"ReCAPTCHA\";\nReCAPTCHA.propTypes = {\n  sitekey: PropTypes.string.isRequired,\n  onChange: PropTypes.func,\n  grecaptcha: PropTypes.object,\n  theme: PropTypes.oneOf([\"dark\", \"light\"]),\n  type: PropTypes.oneOf([\"image\", \"audio\"]),\n  tabindex: PropTypes.number,\n  onExpired: PropTypes.func,\n  onErrored: PropTypes.func,\n  size: PropTypes.oneOf([\"compact\", \"normal\", \"invisible\"]),\n  stoken: PropTypes.string,\n  hl: PropTypes.string,\n  badge: PropTypes.oneOf([\"bottomright\", \"bottomleft\", \"inline\"]),\n  isolated: PropTypes.bool\n};\nReCAPTCHA.defaultProps = {\n  onChange: function onChange() {},\n  theme: \"light\",\n  type: \"image\",\n  tabindex: 0,\n  size: \"normal\",\n  badge: \"bottomright\"\n};","// THIS FILE IS AUTO GENERATED\nimport { GenIcon } from '../lib';\nexport function IoIosAddCircleOutline (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M346.5 240H272v-74.5c0-8.8-7.2-16-16-16s-16 7.2-16 16V240h-74.5c-8.8 0-16 6-16 16s7.5 16 16 16H240v74.5c0 9.5 7 16 16 16s16-7.2 16-16V272h74.5c8.8 0 16-7.2 16-16s-7.2-16-16-16z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M256 76c48.1 0 93.3 18.7 127.3 52.7S436 207.9 436 256s-18.7 93.3-52.7 127.3S304.1 436 256 436c-48.1 0-93.3-18.7-127.3-52.7S76 304.1 76 256s18.7-93.3 52.7-127.3S207.9 76 256 76m0-28C141.1 48 48 141.1 48 256s93.1 208 208 208 208-93.1 208-208S370.9 48 256 48z\"}}]})(props);\n};\nexport function IoIosAddCircle (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M256 48C141.1 48 48 141.1 48 256s93.1 208 208 208 208-93.1 208-208S370.9 48 256 48zm90.5 224H272v74.5c0 8.8-7.2 16-16 16-4.4 0-8.4-1.8-11.3-4.7-2.9-2.9-4.7-6.9-4.7-11.3V272h-74.5c-4.4 0-8.4-1.8-11.3-4.7-2.9-2.9-4.7-6.9-4.7-11.3 0-8.8 7.2-16 16-16H240v-74.5c0-8.8 7.2-16 16-16s16 7.2 16 16V240h74.5c8.8 0 16 7.2 16 16s-7.2 16-16 16z\"}}]})(props);\n};\nexport function IoIosAdd (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M368.5 240H272v-96.5c0-8.8-7.2-16-16-16s-16 7.2-16 16V240h-96.5c-8.8 0-16 7.2-16 16 0 4.4 1.8 8.4 4.7 11.3 2.9 2.9 6.9 4.7 11.3 4.7H240v96.5c0 4.4 1.8 8.4 4.7 11.3 2.9 2.9 6.9 4.7 11.3 4.7 8.8 0 16-7.2 16-16V272h96.5c8.8 0 16-7.2 16-16s-7.2-16-16-16z\"}}]})(props);\n};\nexport function IoIosAirplane (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M407.7 224c-3.4 0-14.8.1-18 .3l-64.9 1.7c-.7 0-1.4-.3-1.7-.9L225.8 79.4c-2.9-4.6-8.1-7.4-13.5-7.4h-23.7c-5.6 0-7.5 5.6-5.5 10.8l50.1 142.8c.5 1.3-.4 2.7-1.8 2.7L109 230.1c-2.6.1-5-1.1-6.6-3.1l-37-45c-3-3.9-7.7-6.1-12.6-6.1H36c-2.8 0-4.7 2.7-3.8 5.3l19.9 68.7c1.5 3.8 1.5 8.1 0 11.9l-19.9 68.7c-.9 2.6 1 5.3 3.8 5.3h16.7c4.9 0 9.6-2.3 12.6-6.1L103 284c1.6-2 4.1-3.2 6.6-3.1l121.7 2.7c1.4.1 2.3 1.4 1.8 2.7L183 429.2c-2 5.2-.1 10.8 5.5 10.8h23.7c5.5 0 10.6-2.8 13.5-7.4L323.1 287c.4-.6 1-.9 1.7-.9l64.9 1.7c3.3.2 14.6.3 18 .3 44.3 0 72.3-14.3 72.3-32S452.1 224 407.7 224z\"}}]})(props);\n};\nexport function IoIosAlarm (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M381.2 64.1c-1.3-.1-2.6-.1-3.9-.1h-.2c-16.2 0-32 5.4-44.6 15.1-1.6 1.3-2.6 3.2-2.7 5.2-.1 2 .8 4 2.3 5.4l89.8 80.5c1.3 1.1 2.9 1.8 4.6 1.8h.4c1.9-.1 3.6-1 4.8-2.4C440.9 159 448 150.8 448 133c.1-36.4-29.1-66.8-66.8-68.9zM64 133c0 17.8 7.1 26 16.3 36.6 1.2 1.4 2.9 2.3 4.8 2.4h.4c1.7 0 3.3-.6 4.6-1.8L180 89.7c1.5-1.4 2.4-3.3 2.3-5.4-.1-2-1-3.9-2.7-5.2C167 69.4 151.2 64 135 64h-.2c-1.3 0-2.6 0-3.9.1-37.7 2.1-67 32.5-66.9 68.9z\"}},{\"tag\":\"g\",\"attr\":{},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M390 386c26.2-30.7 42-70.5 42-114 0-97.2-78.8-176-176-176S80 174.8 80 272c0 43.5 15.8 83.3 42 114l-34.7 35.5c-6.2 6.3-6 15.5.3 21.6 3.1 3 7.4 4.8 11.4 4.8 4.2 0 8.1-1.9 11.2-5.1l34.6-34.5c30.3 24.7 69 39.6 111.2 39.6s80.9-14.8 111.2-39.6l33.6 34.5c3.1 3.2 7.3 5.1 11.5 5.1 4 0 8.1-1.8 11.2-4.8 6.3-6.2 7.5-15.3 1.3-21.6L390 386zM270 274c0 7.7-6.3 14-14 14h-82c-7.7 0-14-6.3-14-14s6.3-14 14-14h68V158c0-7.7 6.3-14 14-14s14 6.3 14 14v116z\"}}]}]})(props);\n};\nexport function IoIosAlbums (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M460.9 161H51.1C31.8 161 16 176.8 16 196.1V428c0 19.3 15.8 35.1 35.1 35.1H461c19.3 0 35.1-15.8 35.1-35.1V196.1c-.1-19.3-15.9-35.1-35.2-35.1zM434 133H78c-7.7 0-14-6.3-14-14s6.3-14 14-14h356c7.7 0 14 6.3 14 14s-6.3 14-14 14zM403.2 77H108.8c-7 0-12.8-5.8-12.8-12.8v-2.4c0-7 5.8-12.8 12.8-12.8h294.4c7 0 12.8 5.8 12.8 12.8v2.4c0 7-5.8 12.8-12.8 12.8z\"}}]})(props);\n};\nexport function IoIosAlert (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M256 48C141.1 48 48 141.1 48 256s93.1 208 208 208 208-93.1 208-208S370.9 48 256 48zm17.2 109.6l-3.1 115.1c-.2 8.2-5.9 14.8-14.1 14.8s-13.9-6.6-14.1-14.8l-3.1-115.1c-.2-9.6 7.5-17.6 17.2-17.6 9.6 0 17.4 7.9 17.2 17.6zM256 354c-10.7 0-19.1-8.1-19.1-18.4s8.4-18.4 19.1-18.4c10.7 0 19.1 8.1 19.1 18.4S266.7 354 256 354z\"}}]})(props);\n};\nexport function IoIosAmericanFootball (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M378.6 133.4C338.1 92.9 283.9 71 231.4 59.6L59.6 231.4C71 284 92.9 338.1 133.4 378.6c40.5 40.5 94.7 62.4 147.2 73.8l171.8-171.8c-11.4-52.5-33.3-106.7-73.8-147.2zM344.1 288l-19.2 19.2 14.8 14.8c4.9 4.9 4.9 12.7 0 17.6-4.9 4.9-12.7 4.9-17.6 0l-14.8-14.8-19.3 19.4c-2 2-4.5 3.4-7.3 3.9-4.2.7-8.4-.7-11.3-3.6-1.5-1.5-2.6-3.3-3.2-5.3-1.4-4.9-.1-9.7 3.2-13.1l19.5-19.5-15.6-15.6-19.3 19.3c-2.1 2.1-4.7 3.5-7.6 3.9-5.5.7-10.7-1.9-13.4-7-.3-.6-.6-1.2-.8-1.9-1.5-4.9-.2-9.8 3.2-13.2l19.5-19.5-15.5-15.6-19.3 19.3c-2.1 2.1-4.7 3.5-7.6 3.9-5.5.7-10.7-1.9-13.4-7-.3-.6-.6-1.2-.8-1.9-1.5-4.9-.2-9.8 3.2-13.2l19.5-19.5-15.5-15.6-19.3 19.3c-2.1 2.1-4.7 3.5-7.6 3.9-5.5.7-10.7-1.9-13.4-7-.3-.6-.6-1.2-.8-1.9-1.5-4.9-.2-9.8 3.2-13.2l19.5-19.5-14.8-14.8c-4.9-4.9-4.9-12.7 0-17.6 4.9-4.9 12.7-4.9 17.6 0l14.8 14.8 19.3-19.3c2.1-2.1 4.7-3.5 7.6-3.9 5.5-.7 10.7 1.9 13.4 7 .3.6.6 1.2.8 1.9 1.5 4.9.2 9.8-3.2 13.2l-19.5 19.5 15.6 15.6 19.3-19.3c2-2 4.5-3.4 7.3-3.9 4.2-.7 8.4.7 11.3 3.6 1.5 1.4 2.6 3.2 3.2 5.2 1.5 4.9.2 9.8-3.2 13.2L257 239.4l15.6 15.6 19.3-19.3c2.1-2.1 4.7-3.5 7.6-3.9 5.5-.7 10.7 1.9 13.4 7 .3.6.6 1.2.8 1.9 1.5 4.9.2 9.8-3.2 13.2L291 273.4l15.6 15.6 19.3-19.3c2.2-2.2 5-3.6 8-4 4.4-.5 8.6 1.2 11.4 4.6 4.1 5 3.5 13.1-1.2 17.7zM395.1 464c27.6 0 48.8-1.8 58.8-2.9 3.7-.4 6.7-3.4 7.1-7.1 2-18.9 6.8-77.6-3.2-143.7L310.3 457.9c31 4.7 60.4 6.1 84.8 6.1zM116.8 48C89.3 48 68 49.8 58 50.9c-3.7.4-6.7 3.4-7.1 7.1-2 18.9-6.8 77.6 3.2 143.6L201.6 54.1c-31-4.7-60.4-6.1-84.8-6.1z\"}}]})(props);\n};\nexport function IoIosAnalytics (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M256 48C141.1 48 48 141.1 48 256s93.1 208 208 208 208-93.1 208-208S370.9 48 256 48zM76 256c0-48.1 18.7-93.3 52.7-127.3S207.9 76 256 76c48.1 0 93.3 18.7 127.3 52.7 32.2 32.2 50.7 74.5 52.6 119.7-8.8-10.3-24.2-24-43.8-24-27.5 0-41.7 25.7-51 42.7-1.4 2.5-2.7 4.9-3.9 7-11.4 19.2-27.3 30-42.5 28.9-13.4-.9-24.8-11.2-32.2-28.8-9.2-22.1-29.1-45.8-52.9-49.2-11.3-1.6-28.1.8-44.7 21.4-3.2 4-6.9 9.4-11.1 15.6-10.4 15.5-26.2 38.8-38.1 40.8-17.3 2.8-30.9-7.5-36.4-12.3-2.2-11.2-3.3-22.8-3.3-34.5z\"}}]})(props);\n};\nexport function IoIosAperture (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M250.2 371.4c-1.8 0-2.7 2.2-1.4 3.4l54.9 54.9L326 452c42.4-15.2 78.5-43.7 103.1-80.6H250.2zM167 334.6V444c27 12.8 57.1 20 89 20 14.1 0 27.9-1.4 41.2-4.1L170.4 333.2c-1.2-1.3-3.4-.4-3.4 1.4zM256 48c-13.9 0-27.4 1.4-40.5 4l126.8 126.8c1.3 1.3 3.4.4 3.4-1.4V68.3C318.6 55.3 288.2 48 256 48zM68.1 166.6C55.2 193.7 48 224 48 256c0 14.1 1.4 27.9 4.1 41.2L179.2 170c1.3-1.3.4-3.4-1.4-3.4H68.1zM186.7 59.9C144 75 107.7 103.6 83 140.7h179.7c1.8 0 2.7-2.2 1.4-3.4l-77.4-77.4zM167 220.6v70.7c0 1.1.4 2.1 1.2 2.8l50 50c.8.8 1.8 1.2 2.8 1.2h70.7c1.1 0 2.1-.4 2.8-1.2l50-50c.8-.8 1.2-1.8 1.2-2.8v-70.7c0-1.1-.4-2.1-1.2-2.8l-50-50c-.8-.8-1.8-1.2-2.8-1.2H221c-1.1 0-2.1.4-2.8 1.2l-50 50c-.7.8-1.2 1.8-1.2 2.8zM460 215.5L333.6 342c-1.3 1.3-.4 3.4 1.4 3.4h108.8c13-27.1 20.2-57.4 20.2-89.4 0-13.9-1.4-27.4-4-40.5zM371.8 83.2v179c0 1.8 2.2 2.7 3.4 1.4l76.9-76.9c-15-42.6-43.5-78.8-80.3-103.5zM60.1 325.9c15.2 42.6 43.9 78.8 81 103.4V249.8c0-1.8-2.2-2.7-3.4-1.4l-77.6 77.5z\"}}]})(props);\n};\nexport function IoIosApps (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M434.8 137.6L285.4 69.5c-16.2-7.4-42.7-7.4-58.9 0L77.2 137.6c-17.6 8-17.6 21.1 0 29.1l148 67.5c16.9 7.7 44.7 7.7 61.6 0l148-67.5c17.6-8 17.6-21.1 0-29.1zM225.2 375.2l-99.8-45.5c-4.2-1.9-9.1-1.9-13.3 0l-34.9 15.9c-17.6 8-17.6 21.1 0 29.1l148 67.5c16.9 7.7 44.7 7.7 61.6 0l148-67.5c17.6-8 17.6-21.1 0-29.1l-34.9-15.9c-4.2-1.9-9.1-1.9-13.3 0l-99.8 45.5c-16.9 7.7-44.7 7.7-61.6 0z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M434.8 241.6l-31.7-14.4c-4.2-1.9-9-1.9-13.2 0l-108 48.9c-15.3 5.2-36.6 5.2-51.9 0l-108-48.9c-4.2-1.9-9-1.9-13.2 0l-31.7 14.4c-17.6 8-17.6 21.1 0 29.1l148 67.5c16.9 7.7 44.7 7.7 61.6 0l148-67.5c17.7-8 17.7-21.1.1-29.1z\"}}]})(props);\n};\nexport function IoIosAppstore (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M256 48C141.1 48 48 141.1 48 256s93.1 208 208 208 208-93.1 208-208S370.9 48 256 48zm-78.9 296.9c-2.7 4.6-7.5 7.1-12.5 7.1-2.5 0-5-.6-7.3-2-6.9-4-9.2-12.8-5.2-19.7l14.2-23.6c1.5-2.5 4.1-4 7-4h2.1c10.3 0 17.5 6.2 19.6 12.2l-17.9 30zm120.2-46.4l-93 .1h-61.8c-8.2 0-14.8-6.8-14.4-15 .3-7.8 7.1-13.7 14.9-13.7h44.8l53.1-90.4-17.2-29.3c-3.9-6.7-2.2-15.5 4.4-19.7 7-4.5 16.2-2.2 20.3 4.8l9.2 15.7h.1l9.2-15.7c4.1-7 13.4-9.3 20.3-4.8 6.6 4.2 8.3 13 4.4 19.7l-17.2 29.3-16.7 28.5-36.3 61.9v.1h53.5c6.7 0 15.1 3.6 18.5 9.4l.3.6c3 5.1 4.7 8.6 4.7 13.7-.1 2.8-1.1 4.8-1.1 4.8zm72.2.1h-25.2v.1l18.4 31.3c4 6.8 2.1 15.8-4.8 20-2.3 1.4-4.9 2.1-7.5 2.1-5 0-9.8-2.6-12.5-7.1l-27.2-46.3-16.9-28.8-21.8-37.3c-6.4-10.9-6.7-24.5-.6-35.3 4.3-7.6 7.6-9.6 7.6-9.6l48.5 82.1h41.7c7.8 0 14.5 6 14.9 13.7.3 8.3-6.3 15.1-14.6 15.1z\"}}]})(props);\n};\nexport function IoIosArchive (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M460 120H52c-2.2 0-4-1.8-4-4V96c0-17.7 14.3-32 32-32h352c17.7 0 32 14.3 32 32v20c0 2.2-1.8 4-4 4zM440 146H72c-4.4 0-8 3.6-8 8v262c0 17.6 14.4 32 32 32h320c17.6 0 32-14.4 32-32V154c0-4.4-3.6-8-8-8zM306 288h-99.6c-7.1 0-13.4-5.2-14.3-12.3-1-8.5 5.6-15.7 13.9-15.7h99.6c7.1 0 13.4 5.2 14.3 12.3 1 8.4-5.6 15.7-13.9 15.7z\"}}]})(props);\n};\nexport function IoIosArrowBack (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M217.9 256L345 129c9.4-9.4 9.4-24.6 0-33.9-9.4-9.4-24.6-9.3-34 0L167 239c-9.1 9.1-9.3 23.7-.7 33.1L310.9 417c4.7 4.7 10.9 7 17 7s12.3-2.3 17-7c9.4-9.4 9.4-24.6 0-33.9L217.9 256z\"}}]})(props);\n};\nexport function IoIosArrowDown (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M256 294.1L383 167c9.4-9.4 24.6-9.4 33.9 0s9.3 24.6 0 34L273 345c-9.1 9.1-23.7 9.3-33.1.7L95 201.1c-4.7-4.7-7-10.9-7-17s2.3-12.3 7-17c9.4-9.4 24.6-9.4 33.9 0l127.1 127z\"}}]})(props);\n};\nexport function IoIosArrowDropdownCircle (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M48 256c0 114.9 93.1 208 208 208s208-93.1 208-208S370.9 48 256 48 48 141.1 48 256zm289.1-43.4c7.5-7.5 19.8-7.5 27.3 0 3.8 3.8 5.6 8.7 5.6 13.6s-1.9 9.9-5.7 13.7l-94.3 94c-7.6 6.9-19.3 6.7-26.6-.6l-95.7-95.4c-7.5-7.5-7.6-19.7 0-27.3 7.5-7.5 19.7-7.6 27.3 0l81.1 81.9 81-79.9z\"}}]})(props);\n};\nexport function IoIosArrowDropdown (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M147.6 210.7c-7.5 7.5-7.5 19.8 0 27.3l95.7 95.4c7.3 7.3 19.1 7.5 26.6.6l94.3-94c3.8-3.8 5.7-8.7 5.7-13.7 0-4.9-1.9-9.9-5.6-13.6-7.5-7.5-19.7-7.6-27.3 0l-81 79.8-81.1-81.9c-7.5-7.5-19.7-7.5-27.3.1z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M48 256c0 114.9 93.1 208 208 208s208-93.1 208-208S370.9 48 256 48 48 141.1 48 256zm332.4-124.4C413.7 164.8 432 209 432 256s-18.3 91.2-51.6 124.4C347.2 413.7 303 432 256 432s-91.2-18.3-124.4-51.6C98.3 347.2 80 303 80 256s18.3-91.2 51.6-124.4C164.8 98.3 209 80 256 80s91.2 18.3 124.4 51.6z\"}}]})(props);\n};\nexport function IoIosArrowDropleftCircle (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M256 48C141.1 48 48 141.1 48 256s93.1 208 208 208 208-93.1 208-208S370.9 48 256 48zm43.4 289.1c7.5 7.5 7.5 19.8 0 27.3-3.8 3.8-8.7 5.6-13.6 5.6s-9.9-1.9-13.7-5.7l-94-94.3c-6.9-7.6-6.7-19.3.6-26.6l95.4-95.7c7.5-7.5 19.7-7.6 27.3 0 7.5 7.5 7.6 19.7 0 27.3l-81.9 81 79.9 81.1z\"}}]})(props);\n};\nexport function IoIosArrowDropleft (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M301.3 147.6c-7.5-7.5-19.8-7.5-27.3 0l-95.4 95.7c-7.3 7.3-7.5 19.1-.6 26.6l94 94.3c3.8 3.8 8.7 5.7 13.7 5.7 4.9 0 9.9-1.9 13.6-5.6 7.5-7.5 7.6-19.7 0-27.3l-79.8-81 81.9-81.1c7.5-7.5 7.5-19.7-.1-27.3z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M256 48C141.1 48 48 141.1 48 256s93.1 208 208 208 208-93.1 208-208S370.9 48 256 48zm124.4 332.4C347.2 413.7 303 432 256 432s-91.2-18.3-124.4-51.6C98.3 347.2 80 303 80 256s18.3-91.2 51.6-124.4C164.8 98.3 209 80 256 80s91.2 18.3 124.4 51.6C413.7 164.8 432 209 432 256s-18.3 91.2-51.6 124.4z\"}}]})(props);\n};\nexport function IoIosArrowDroprightCircle (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M48 256c0 114.9 93.1 208 208 208s208-93.1 208-208S370.9 48 256 48 48 141.1 48 256zm244.5 0l-81.9-81.1c-7.5-7.5-7.5-19.8 0-27.3s19.8-7.5 27.3 0l95.4 95.7c7.3 7.3 7.5 19.1.6 26.6l-94 94.3c-3.8 3.8-8.7 5.7-13.7 5.7-4.9 0-9.9-1.9-13.6-5.6-7.5-7.5-7.6-19.7 0-27.3l79.9-81z\"}}]})(props);\n};\nexport function IoIosArrowDropright (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M210.7 147.6c7.5-7.5 19.8-7.5 27.3 0l95.4 95.7c7.3 7.3 7.5 19.1.6 26.6l-94 94.3c-3.8 3.8-8.7 5.7-13.7 5.7-4.9 0-9.9-1.9-13.6-5.6-7.5-7.5-7.6-19.7 0-27.3l79.9-81.1-81.9-81.1c-7.6-7.4-7.6-19.6 0-27.2z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M48 256c0 114.9 93.1 208 208 208s208-93.1 208-208S370.9 48 256 48 48 141.1 48 256zm32 0c0-47 18.3-91.2 51.6-124.4C164.8 98.3 209 80 256 80s91.2 18.3 124.4 51.6C413.7 164.8 432 209 432 256s-18.3 91.2-51.6 124.4C347.2 413.7 303 432 256 432s-91.2-18.3-124.4-51.6C98.3 347.2 80 303 80 256z\"}}]})(props);\n};\nexport function IoIosArrowDropupCircle (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M256 464c114.9 0 208-93.1 208-208S370.9 48 256 48 48 141.1 48 256s93.1 208 208 208zm0-244.5l-81.1 81.9c-7.5 7.5-19.8 7.5-27.3 0s-7.5-19.8 0-27.3l95.7-95.4c7.3-7.3 19.1-7.5 26.6-.6l94.3 94c3.8 3.8 5.7 8.7 5.7 13.7 0 4.9-1.9 9.9-5.6 13.6-7.5 7.5-19.7 7.6-27.3 0l-81-79.9z\"}}]})(props);\n};\nexport function IoIosArrowDropup (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M147.6 301.3c-7.5-7.5-7.5-19.8 0-27.3l95.7-95.4c7.3-7.3 19.1-7.5 26.6-.6l94.3 94c3.8 3.8 5.7 8.7 5.7 13.7 0 4.9-1.9 9.9-5.6 13.6-7.5 7.5-19.7 7.6-27.3 0l-81-79.8-81.1 81.9c-7.5 7.5-19.7 7.5-27.3-.1z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M256 464c114.9 0 208-93.1 208-208S370.9 48 256 48 48 141.1 48 256s93.1 208 208 208zm0-32c-47 0-91.2-18.3-124.4-51.6C98.3 347.2 80 303 80 256s18.3-91.2 51.6-124.4C164.8 98.3 209 80 256 80s91.2 18.3 124.4 51.6C413.7 164.8 432 209 432 256s-18.3 91.2-51.6 124.4C347.2 413.7 303 432 256 432z\"}}]})(props);\n};\nexport function IoIosArrowForward (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M294.1 256L167 129c-9.4-9.4-9.4-24.6 0-33.9s24.6-9.3 34 0L345 239c9.1 9.1 9.3 23.7.7 33.1L201.1 417c-4.7 4.7-10.9 7-17 7s-12.3-2.3-17-7c-9.4-9.4-9.4-24.6 0-33.9l127-127.1z\"}}]})(props);\n};\nexport function IoIosArrowRoundBack (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M216.4 163.7c5.1 5 5.1 13.3.1 18.4L155.8 243h231.3c7.1 0 12.9 5.8 12.9 13s-5.8 13-12.9 13H155.8l60.8 60.9c5 5.1 4.9 13.3-.1 18.4-5.1 5-13.2 5-18.3-.1l-82.4-83c-1.1-1.2-2-2.5-2.7-4.1-.7-1.6-1-3.3-1-5 0-3.4 1.3-6.6 3.7-9.1l82.4-83c4.9-5.2 13.1-5.3 18.2-.3z\"}}]})(props);\n};\nexport function IoIosArrowRoundDown (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M348.3 295.6c-5-5.1-13.3-5.1-18.4-.1L269 356.2V124.9c0-7.1-5.8-12.9-13-12.9s-13 5.8-13 12.9v231.3l-60.9-60.8c-5.1-5-13.3-4.9-18.4.1-5 5.1-5 13.2.1 18.3l83 82.4c1.2 1.1 2.5 2 4.1 2.7 1.6.7 3.3 1 5 1 3.4 0 6.6-1.3 9.1-3.7l83-82.4c5.2-4.9 5.3-13.1.3-18.2z\"}}]})(props);\n};\nexport function IoIosArrowRoundForward (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M295.6 163.7c-5.1 5-5.1 13.3-.1 18.4l60.8 60.9H124.9c-7.1 0-12.9 5.8-12.9 13s5.8 13 12.9 13h231.3l-60.8 60.9c-5 5.1-4.9 13.3.1 18.4 5.1 5 13.2 5 18.3-.1l82.4-83c1.1-1.2 2-2.5 2.7-4.1.7-1.6 1-3.3 1-5 0-3.4-1.3-6.6-3.7-9.1l-82.4-83c-4.9-5.2-13.1-5.3-18.2-.3z\"}}]})(props);\n};\nexport function IoIosArrowRoundUp (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M348.3 216.4c-5 5.1-13.3 5.1-18.4.1L269 155.8v231.3c0 7.1-5.8 12.9-13 12.9s-13-5.8-13-12.9V155.8l-60.9 60.8c-5.1 5-13.3 4.9-18.4-.1-5-5.1-5-13.2.1-18.3l83-82.4c1.2-1.1 2.5-2 4.1-2.7 1.6-.7 3.3-1 5-1 3.4 0 6.6 1.3 9.1 3.7l83 82.4c5.2 4.9 5.3 13.1.3 18.2z\"}}]})(props);\n};\nexport function IoIosArrowUp (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M256 217.9L383 345c9.4 9.4 24.6 9.4 33.9 0 9.4-9.4 9.3-24.6 0-34L273 167c-9.1-9.1-23.7-9.3-33.1-.7L95 310.9c-4.7 4.7-7 10.9-7 17s2.3 12.3 7 17c9.4 9.4 24.6 9.4 33.9 0l127.1-127z\"}}]})(props);\n};\nexport function IoIosAt (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M448 234.3c0 74.1-34.7 120.8-89.6 120.8-28.1 0-49.5-15-53.2-37.3h-4c-9.9 23.2-30.3 35.9-57.7 35.9-48.8 0-81.4-39.1-81.4-97.3 0-55.9 32.8-94.8 80.7-94.8 24.6 0 45.5 12.4 54.7 32.7h4v-27.8h39.9v129.3c0 16.1 8.9 25.8 24.9 25.8 27.7 0 45.3-33.6 45.3-85.8 0-83.3-62.4-139-154.6-139-91.2 0-156.2 66.5-156.2 160.6 0 96.2 64.3 157.6 164.4 157.6 19.6 0 39.3-1.7 54.4-4.6 9.8-1.8 18.8 5.6 18.8 15.5 0 7.3-5 13.7-12.1 15.4-18.2 4.3-40.1 6.8-62.7 6.8C141.9 448 64 372.8 64 256.1 64 142.2 143.5 64 259.4 64 370.8 64 448 133.5 448 234.3zm-242.8 23c0 37 17.4 59.4 45.7 59.4 29.8 0 48.6-23 48.6-59.4s-18.8-58.9-48.1-58.9c-29.1 0-46.2 21.8-46.2 58.9z\"}}]})(props);\n};\nexport function IoIosAttach (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M355.9 161.1c-8.6 0-15.6 7-15.6 15.6v194.4c0 20.3-8 40.4-22 55.1-13.9 14.6-35.2 23.7-55.5 23.7h-13.6c-19.6 0-39.5-8.9-54.8-24.6-15.2-15.5-23.9-35.6-23.9-55.2V119.3c0-14.9 6.2-28.9 17.3-39.5 11.1-10.5 25.7-16.3 41-16.3 15.1 0 29.3 5.8 39.8 16.2 10.5 10.5 16.4 24.6 16.4 39.6v234.2c0 17.1-13.6 32.2-29 32.2-13.6 0-28.2-12.9-28.2-32.2V219.9c0-8.6-7-15.6-15.6-15.6s-15.6 7-15.6 15.6v133.6c0 35.5 25.5 62.3 59.4 62.3 16.5 0 31.7-6.1 42.7-17.3 11.3-11.4 17.5-27.4 17.5-45V119.3c0-23.4-9.1-45.4-25.7-61.8C274 41 252 32 228.5 32s-45.5 9-62.2 25.5c-16.7 16.5-25.9 38.4-25.9 61.9v250.8c0 28.7 12.2 57.9 32.6 78 20.9 20.6 47.9 31.9 76.1 31.9h13.6c27.6 0 55.3-11.7 75.9-32.1 10.2-10.1 18.2-21.7 23.9-34.6 5.9-13.5 8.9-27.7 8.9-42.1V176.7c.1-8.6-6.9-15.6-15.5-15.6z\"}}]})(props);\n};\nexport function IoIosBackspace (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M395 96H230c-46.7 0-73.2 34.7-102 63.5s-72.1 74.7-72.1 74.7C51 239.8 48 247 48 255.1c0 8 3 15.3 7.9 21 0 0 34.3 37.6 72.1 75.5 37.8 37.8 56.7 64.5 102 64.5h165c38.5 0 69-32.5 69-71V165c0-38.5-30.5-69-69-69zm-17.7 212.7c6.2 6.2 6.2 16.4 0 22.6-6.2 6.2-16.4 6.2-22.6 0L302 278.6l-52.7 52.7c-6.2 6.2-16.3 6.4-22.6 0-6.4-6.4-6.7-15.9 0-22.6l52.7-52.7-52.7-52.7c-6-6-7.1-15.6 0-22.6 7.1-7.1 16.4-6.2 22.6 0l52.7 52.7 52.7-52.7c6.2-6.2 16.4-6.2 22.6 0 6.2 6.2 6.2 16.4 0 22.6L324.6 256l52.7 52.7z\"}}]})(props);\n};\nexport function IoIosBarcode (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M121.6 388H80.8c-2.2 0-4-1.8-4-4V128c0-2.2 1.8-4 4-4h40.5c7.9 0 14.5-6.4 14.7-14 .1-3.9-1.3-7.2-4.1-10-2.7-2.8-8-4-11.9-4H66c-10 0-18 6-18 16v288c0 10 7 16 17 16h56.3c7.9 0 14.5-5.2 14.7-12.8.1-3.9-1.3-7.5-4.1-10.3-2.7-2.8-6.4-4.9-10.3-4.9zM447 96h-56.3c-9.5 0-17.1 8.3-14 18.3.2.7.5 1.3.8 1.9 2.7 5.2 7.6 7.8 12.9 7.8h40.8c2.2 0 4 1.8 4 4v255.9c0 2.2-1.8 4-4 4h-40.5c-7.9 0-14.5 6.2-14.7 13.9-.1 3.9 1.3 7.6 4.1 10.4 2.7 2.8 6.4 3.8 10.3 3.8H447c10 0 17-6 17-16.4V112c0-10-7-16-17-16z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M122.5 176c-7.7 0-14 6.3-14 13.9V322c0 7.7 6.3 13.9 14 13.9s14-6.3 14-13.9V189.9c0-7.6-6.3-13.9-14-13.9zM389.5 336c7.7 0 14-6.3 14-13.9V189.9c0-7.7-6.3-13.9-14-13.9s-14 6.3-14 13.9V322c0 7.7 6.3 14 14 14zM326.5 144c-7.7 0-14 6.5-14 14.4v195.1c0 8 6.3 14.4 14 14.4s14-6.5 14-14.4V158.4c0-7.9-6.3-14.4-14-14.4zM185.5 144c-7.7 0-14 6.5-14 14.4v195.1c0 8 6.3 14.4 14 14.4s14-6.5 14-14.4V158.4c0-7.9-6.2-14.4-14-14.4zM256 160c-7.7 0-14 6.4-14 14.2v163.5c0 7.8 6.3 14.2 14 14.2s14-6.4 14-14.2V174.2c0-7.8-6.3-14.2-14-14.2z\"}}]})(props);\n};\nexport function IoIosBaseball (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M256.3 74.2l9.7-3.1c4.7-1.5 9.7 1.1 11.2 5.7l.1.4c1.5 4.7-1.1 9.7-5.7 11.2L260.1 92c-2.1.7-3.2 2.9-2.6 4.9 2.1 6.9 4.5 13.7 7.2 20.5 1.9 4.6 3.9 9.2 6.1 13.7 1.1 2.2 3.8 3 5.9 1.6l8.5-5.8c4.1-2.7 9.6-1.7 12.3 2.4l.2.3c2.7 4.1 1.7 9.6-2.4 12.3l-10.4 7.1a4 4 0 0 0-1.2 5.4c7 11 14.9 21.5 23.7 31.3 1.5 1.7 4.2 1.8 5.8.2l7.5-7.5c3.5-3.5 9.1-3.5 12.5 0l.3.3c3.5 3.5 3.5 9.1 0 12.5l-7.5 7.5c-1.6 1.6-1.5 4.3.2 5.8 10.2 9.1 21 17.3 32.5 24.4a4 4 0 0 0 5.4-1.2l6.9-10.2c2.7-4.1 8.3-5.1 12.3-2.4l.3.2c4.1 2.7 5.1 8.3 2.4 12.3l-5.5 8.1c-1.4 2-.6 4.8 1.6 5.9 4.1 1.9 8.2 3.8 12.4 5.5 7.1 2.9 14.3 5.4 21.7 7.6 2.1.6 4.3-.5 5-2.6l3.5-10.8c1.5-4.7 6.5-7.2 11.2-5.7l.4.1c4.7 1.5 7.2 6.5 5.7 11.2l-2.8 8.8c-.7 2.3.7 4.7 3.1 5.2 7.1 1.3 14.3 2.3 21.5 2.9.1-2.6.2-5.3.2-7.9 0-114.9-93.1-208-208-208-2.7 0-5.3.1-8 .2.7 7.7 1.7 15.3 3.1 22.9.4 2.5 2.9 3.9 5.2 3.2zM258 447.2c-.4-2.4-2.8-3.9-5.2-3.2l-11.6 3.7c-4.7 1.5-9.7-1.1-11.2-5.7l-.1-.4c-1.5-4.7 1.1-9.7 5.7-11.2l13.8-4.4c2-.7 3.2-2.8 2.6-4.9-2.3-7.9-5-15.6-8.1-23.3-1.6-4-3.3-7.9-5.2-11.8-1-2.2-3.8-3-5.9-1.6l-10.9 7.4c-4.1 2.7-9.6 1.7-12.3-2.4l-.2-.3c-2.7-4.1-1.7-9.6 2.4-12.3l13-8.8a4 4 0 0 0 1.2-5.4c-7.2-11.7-15.5-22.7-24.8-33.1-1.5-1.7-4.2-1.8-5.8-.2l-9.9 9.9c-3.5 3.5-9.1 3.5-12.5 0l-.3-.3c-3.5-3.5-3.5-9.1 0-12.5l9.9-9.9c1.6-1.6 1.5-4.3-.2-5.8-10-9-20.6-17-31.9-24a4 4 0 0 0-5.4 1.2l-9 13.3c-2.7 4.1-8.3 5.1-12.3 2.4l-.3-.2c-4.1-2.7-5.1-8.3-2.4-12.3l7.6-11.3c1.4-2 .6-4.8-1.6-5.9-4.3-2.1-8.6-4-13.1-5.8-7.3-2.9-14.6-5.5-22.1-7.7-2-.6-4.3.6-4.9 2.6l-4.6 14.4c-1.5 4.7-6.5 7.2-11.2 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1.8 22.4 3.2 2 .4 4-.8 4.6-2.7l4.7-14.8c1.5-4.7 6.5-7.2 11.2-5.7l.4.1c4.7 1.5 7.2 6.5 5.7 11.2l-4.2 13c-.7 2.2.5 4.4 2.7 5.1 13.9 4.1 27.5 9.4 40.7 16 1.8.9 4 .3 5.1-1.3l8.3-12.3c2.7-4.1 8.3-5.1 12.3-2.4l.3.2c4.1 2.7 5.1 8.3 2.4 12.3l-7.1 10.5c-1.3 1.9-.7 4.4 1.2 5.6 12.1 7.7 23.7 16.4 34.6 26.3 1.6 1.4 4 1.4 5.5-.1l10.4-10.4c3.5-3.5 9.1-3.5 12.5 0l.3.3c3.5 3.5 3.5 9.1 0 12.5L214 310.8c-1.5 1.5-1.6 3.9-.1 5.5 10.2 11.3 19.2 23.3 27 35.8 1.2 2 3.7 2.5 5.7 1.2l10.8-7.3c4.1-2.7 9.6-1.7 12.3 2.4l.2.3c2.7 4.1 1.7 9.6-2.4 12.3l-12.7 8.6c-1.7 1.1-2.2 3.3-1.3 5.1 6.4 13.2 11.7 26.7 15.7 40.6.6 2.2 2.9 3.4 5.1 2.7l13.6-4.4c4.7-1.5 9.7 1.1 11.2 5.7l.1.4c1.5 4.7-1.1 9.7-5.7 11.2l-15.6 5c-1.9.6-3.1 2.6-2.7 4.6 1.3 7 2.3 14.1 3 21.2v1c95.9-10.2 172.3-85.6 184.1-181-8.9-.7-17.9-1.9-26.7-3.6-1.9-.3-3.9.9-4.5 2.8z\"}}]})(props);\n};\nexport function IoIosBasket (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M387.9 373.7h49.2l17.5-75.4h-66.7zM387.9 448h.5c18.7 0 33.4-12.5 38.3-29.5l6-25.9h-44.8V448zM265.4 392.5h103.7V448H265.4zM75 373.7h49v-75.4H57.5zM142.9 192h103.7v87.5H142.9zM265.4 192h103.7v87.5H265.4zM85.5 418.3c4.7 17 19.4 29.7 38.1 29.7h.5v-55.5H79.4l6.1 25.8zM142.9 392.5h103.7V448H142.9zM265.4 298.3h103.7v75.4H265.4zM142.9 298.3h103.7v75.4H142.9z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M464 192h-47.9V96c0-17.6-14.4-32-32-32H127.9c-17.6 0-32 14.4-32 32v96H48c-10.3 0-17.9 9.6-15.6 19.6l19.7 67.9H124V106c0-7.7 6.3-14 14-14h236c7.7 0 14 6.3 14 14v173.5h72l19.6-67.9c2.3-10-5.3-19.6-15.6-19.6z\"}}]})(props);\n};\nexport function IoIosBasketball (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M218.6 306.4c14.3-11.8 28.3-24.4 41.4-37.6l6.1-6.1c-2.8-2.9-5.6-5.8-8.3-8.5-49.9-49.9-107.7-89.6-171.8-118.1-18.4 26.1-31 56.6-35.8 89.6 32.2 2.3 63.2 10.5 92.2 24.5 28.8 13.9 54.4 32.8 76.2 56.2zM326.1 185.6c.5.5 1.1 1.1 1.7 1.6 20.9-30.5 38.8-63.2 53.5-97.4-33.8-25.5-75.6-41-121-41.9 2.4 22.3 8 44.1 16.7 64.7 11.5 27.4 28.1 52 49.1 73zM399 234.8c20.7 8.8 42.6 14.4 65 16.7-1.2-56.3-24.8-107.1-62.2-143.9-15 33.8-33.3 66.3-54.4 96.8 15.8 12.4 33.2 22.6 51.6 30.4zM193.9 318.1c-21.1-21.1-45.6-37.6-72.9-49.2-23.2-9.8-47.7-15.6-72.9-17.4 0 1.5-.1 3-.1 4.4 0 48.7 16.7 93.5 44.8 128.9 37.3-17 72.7-37.9 105.4-62.4-1.5-1.4-2.9-2.9-4.3-4.3zM283.8 243.6c10.1-11.3 19.7-23.1 28.8-35.1-44.5-42.3-72.1-98.6-78.2-159.5-51.9 5.4-98.1 29.8-131.5 66.2 33.4 15.3 65.5 33.8 95.6 55.1 30.5 21.7 59.2 46.3 85.3 73.3zM301.4 262.8c38.9 44 70.9 93.2 95.3 146.4 36.4-33.5 60.9-79.8 66.2-131.7-47.7-4.7-92.8-22.6-130.8-52-9.6 12.7-20 25.3-30.7 37.3zM235.3 326.2c29.9 39.5 47.5 86.2 51 135.6 33-4.8 63.5-17.4 89.5-35.8-23.4-52.6-54.3-101-92.2-144.2-15.2 15.6-31.4 30.5-48.3 44.4zM214.9 342.3c-32.4 24.4-67.4 45.5-104 62.8 37.5 36.5 88.6 59 145.1 59 1.5 0 3 0 4.5-.1-1.8-25.2-7.6-49.7-17.4-72.9-7.4-17.5-16.8-33.8-28.2-48.8z\"}}]})(props);\n};\nexport function IoIosBatteryCharging (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M396 144H64c-26.4 0-48 21.6-48 48v128c0 26.4 21.6 48 48 48h332c26.4 0 48-21.6 48-48V192c0-26.4-21.6-48-48-48zm20 176c0 11-9 20-20 20H64c-11 0-20-9-20-20V192c0-11 9-20 20-20h332c11 0 20 9 20 20v128zM464 204.6v102.8c16 0 32-27.7 32-51.4s-16-51.4-32-51.4z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M384 192H76c-6.6 0-12 5.4-12 12v104c0 6.6 5.4 12 12 12h308c6.6 0 12-5.4 12-12V204c0-6.6-5.4-12-12-12zM218.8 308l8.4-43H200l45.2-61-8.4 43H264l-45.2 61z\"}}]})(props);\n};\nexport function IoIosBatteryDead (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M396 144H64c-26.4 0-48 21.6-48 48v128c0 26.4 21.6 48 48 48h332c26.4 0 48-21.6 48-48V192c0-26.4-21.6-48-48-48zm20 176c0 11-9 20-20 20H64c-11 0-20-9-20-20V192c0-11 9-20 20-20h332c11 0 20 9 20 20v128zM464 204.6v102.8c16 0 32-27.7 32-51.4s-16-51.4-32-51.4z\"}}]})(props);\n};\nexport function IoIosBatteryFull (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M396 144H64c-26.4 0-48 21.6-48 48v128c0 26.4 21.6 48 48 48h332c26.4 0 48-21.6 48-48V192c0-26.4-21.6-48-48-48zm20 176c0 11-9 20-20 20H64c-11 0-20-9-20-20V192c0-11 9-20 20-20h332c11 0 20 9 20 20v128zM464 204.6v102.8c16 0 32-27.7 32-51.4s-16-51.4-32-51.4z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M384 192H76c-6.6 0-12 5.4-12 12v104c0 6.6 5.4 12 12 12h308c6.6 0 12-5.4 12-12V204c0-6.6-5.4-12-12-12z\"}}]})(props);\n};\nexport function IoIosBeaker (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M445.2 48H128.5C74.1 48 64 75.9 64 88.2c30.3 4.2 32 4.2 32 36.2v275.5c0 35.3 28.9 64 64.2 64H368c35.4 0 63-29.2 63-64.5V89.2c2-17.5 12.5-31.6 13.6-33.3 1.2-1.9 3.4-4.4 3.4-5.5 0-1.2-.3-2.4-2.8-2.4zm-333 29.3c0-.1 0-.1 0 0 6-1 12-1.3 16.3-1.3H405c-.9 3.7-1.5 7.1-1.8 10-.1 1.1-.2 2.1-.2 3.2v70.9-.1H124v-35.5c0-17.6 0-34.2-11.8-47.2z\"}}]})(props);\n};\nexport function IoIosBed (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M458.2 208h-.4c-12 0-21.8 9.8-21.8 21.8 0 1.2-1 2.2-2.2 2.2H78.2c-1.2 0-2.2-1-2.2-2.2 0-12-9.8-21.8-21.8-21.8h-.4c-12 0-21.8 9.8-21.8 21.8v180.4c0 12 9.8 21.8 21.8 21.8h.4c12 0 21.8-9.8 21.8-21.8V404c0-2.2 1.8-4 4-4h352c2.2 0 4 1.8 4 4v6.2c0 12 9.8 21.8 21.8 21.8h.4c12 0 21.8-9.8 21.8-21.8V229.8c0-12-9.8-21.8-21.8-21.8z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M84 214h22.5c2.2 0 4-1.8 4-4v-13c0-8.8 7.2-16 16-16H224c8.8 0 16 7.2 16 16v13c0 2.2 1.8 4 4 4h24c2.2 0 4-1.8 4-4v-13c0-8.8 7.2-16 16-16h97.5c8.8 0 16 7.2 16 16v13c0 2.2 1.8 4 4 4H428c4.4 0 8-3.6 8-8v-94c0-17.6-14.4-32-32-32H108c-17.6 0-32 14.4-32 32v94c0 4.4 3.6 8 8 8z\"}}]})(props);\n};\nexport function IoIosBeer (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M112 162c0-13.3 10.7-24 24-24h229.5c4.9 0 9.6 1.5 13.5 4.4 2 1.5 4.9 0 4.8-2.5-.1-5.7-.2-9.3-.2-21.6 0-20.8-17.2-38.3-38.1-38.3h-.2c-5.7-.4-10.8-4-12.9-9.3-9-22.6-32.3-38.6-56.4-38.6-21 0-34.2 7-44 18.3-4.4 5-11.8 5.9-17.4 2.4-7.3-4.6-16.1-7.1-25.5-7.1-14.4 0-27.2 7.1-35.8 17.4-4 4.9-10.4 7-16.6 5.9-5.2-1-12.6-1.8-22.7-1.8-25 0-50 16.6-50 42.4v4c0 28.8 16 22.9 16 41.8v50.8c0 13.4-11.2 19.3-11.2 35.2 0 8.8 8 16.8 16.8 16.8H112V162zM386 452H110c-7.7 0-14 6.3-14 14s6.3 14 14 14h276c7.7 0 14-6.3 14-14s-6.3-14-14-14z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M400 194h-32v-24c0-8.8-7.2-16-16-16H144c-8.8 0-16 7.2-16 16v213.8c0 12.1-1.1 18.2-3.2 30.1l-.1.5c-.8 4.7.2 9.5 2.8 13.5 3.4 5.1 9.1 8.2 15.3 8.2h213.9c4.1 0 8.1-1.4 11.1-4.1 4.7-4.1 6.5-10.3 5.2-16-2.7-11.8-4.5-17.8-4.8-29.9H400c26.4 0 48-21.6 48-48v-96c0-26.5-21.6-48.1-48-48.1zm20 144c0 11-9 20-20 20h-32V222h32c11 0 20 9 20 20v96z\"}}]})(props);\n};\nexport function IoIosBicycle (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M125.3 289.3c17.3 0 33.7 6.8 46.1 19.2 12.4 12.4 19.2 28.8 19.2 46.1s-6.8 33.7-19.2 46.1c-12.4 12.4-28.8 19.2-46.1 19.2s-33.7-6.8-46.1-19.2C66.8 388.4 60 372 60 354.7s6.8-33.7 19.2-46.1c12.4-12.4 28.8-19.3 46.1-19.3m0-28c-51.3 0-93.3 42-93.3 93.3C32 406 74 448 125.3 448s93.3-42 93.3-93.3c.1-51.4-41.9-93.4-93.3-93.4zM319.8 127.8c17.8 0 32-14.2 32-32S337.8 64 320 64s-32.2 14-32.2 31.8c0 17.7 14.3 32 32 32zM386.7 289.3c17.3 0 33.7 6.8 46.1 19.2 12.4 12.4 19.2 28.8 19.2 46.1s-6.8 33.7-19.2 46.1C420.4 413.2 404 420 386.7 420s-33.7-6.8-46.1-19.2c-12.4-12.4-19.2-28.8-19.2-46.1s6.8-33.7 19.2-46.1c12.3-12.4 28.7-19.3 46.1-19.3m0-28c-51.3 0-93.3 42-93.3 93.3s42 93.3 93.3 93.3 93.3-42 93.3-93.3-42-93.3-93.3-93.3z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M368 192h-48l-29.5-60.1c-5.6-9.3-15.9-15.9-27.1-15.9-8.4 0-16.8 3.7-22.4 9.3l-71.7 69.1c-5.6 5.6-9.3 14-9.3 22.4 0 17.4 12.6 23.6 18.5 27.1C224 270.1 240 273 240 286.1V352c0 8.8 7.2 16 16 16s16-7.2 16-16v-90c0-13.2-30.4-24-48.3-38l48.9-51.5c18.7 28.5 27.3 51.5 38 51.5H368c8.8 0 16-7.2 16-16s-7.2-16-16-16z\"}}]})(props);\n};\nexport function IoIosBluetooth (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M378.5 333l-88.3-77 88.2-76.1c6.9-6 7.4-16.3 1.1-22.9L262.7 35.6c-2.2-2.3-5.4-3.6-8.6-3.6-6.1 0-11.1 4.9-11.1 10.8V212l-86.3-73.3c-7.1-6-17.8-5.3-24.1 1.5-6.5 7-5.8 17.9 1.6 24.1L243 256l-108.1 90.9c-7.3 6.1-8.1 16.8-1.7 23.9l.3.3c6.3 7 17.3 7.7 24.5 1.5l85-73.6v169.8c0 6.2 5.1 11.2 11.5 11.2 3.2 0 6.2-1.3 8.4-3.5L379.6 356c6.3-6.6 5.8-16.9-1.1-23zm-99.1-232.1l62.7 65.9c.8.8.7 2.1-.2 2.9l-62.7 53c-1.3 1.1-3.4.2-3.4-1.5V102.3c.1-1.9 2.4-2.7 3.6-1.4zm-3.5 309V291.6c0-1.7 2.1-2.6 3.4-1.5l62.7 53c.9.7.9 2 .2 2.9l-62.7 65.3c-1.3 1.3-3.6.4-3.6-1.4z\"}}]})(props);\n};\nexport function IoIosBoat (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M351.8 422c-26.2 9.2-66.5 14.9-96.1 14.9-29.6 0-69.9-5.7-96.1-14.9 0 0-26.1 23.9-62.3 36.2-2.3.8-1.5 4.2.9 3.9 22.6-2.6 40.2-6.5 61.4-12 23 9 66.7 13.9 96.1 13.9 29.4 0 74.1-3.8 96.1-13.9 21.5 5.6 38.8 9.6 62 12.1 2.4.3 3.2-3.1.9-3.9-35.7-12.4-62.9-36.3-62.9-36.3zM445.5 263l-186.2-85.5c-2.1-1-4.6-1-6.7 0L66.5 263c-6.2 2.9-10.5 9.1-10.5 16.4 0 2.4.5 4.6 1.3 6.7L112 422c27.5 0 56.7-22 56.7-22 18 9 53.1 17.1 79.3 18.6 2.8.2 5.5.2 8 .2s5.2-.1 8-.2c26.2-1.5 61.3-9.5 79.3-18.6 0 0 29.2 22 56.7 22l54.7-135.9c.8-2.1 1.3-4.3 1.3-6.7 0-7.3-4.3-13.5-10.5-16.4zM212 288c-6.6 0-12-9.8-12-22s5.4-22 12-22 12 9.8 12 22-5.4 22-12 22zm88 0c-6.6 0-12-9.8-12-22s5.4-22 12-22 12 9.8 12 22-5.4 22-12 22z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M391.9 127v-.1C386.3 100.3 374.4 80 352 80h-34.6l-2-8c-3.6-14.1-16.4-24-31-24h-57c-14.6 0-27.4 9.9-31 24.1l-2 7.9H160c-22.9 0-35.1 20.7-39.8 47L102 223.8c-.6 3.2 2.6 5.7 5.6 4.4l25.3-11.6c1.2-.5 2-1.6 2.3-2.9l16.2-85.6c2.5-10.7 7.3-16 16.1-16h177.1c8.9 0 13.1 5 16.1 16l16.2 85.6c.2 1.3 1.1 2.4 2.3 2.9l25.4 11.7c3 1.4 6.2-1.2 5.6-4.4L391.9 127z\"}}]})(props);\n};\nexport function IoIosBody (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"ellipse\",\"attr\":{\"cx\":\"256\",\"cy\":\"80\",\"rx\":\"48\",\"ry\":\"48\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M424 144H88c-13.3 0-24 10.7-24 24s10.7 24 24 24h98.5c5.6 1 13.2 3.8 17.2 14.2 4.7 12.1 2.4 33.6-.5 51.7l-3.8 21.4c0 .1 0 .2-.1.3l-30.4 172.2c-2.3 13 6.4 25.5 19.5 27.8 13.1 2.3 25.3-6.4 27.6-19.5l21-119.9v.2s6.2-32.5 18.5-32.5h1.1c12.5 0 18.5 32.5 18.5 32.5v-.1l21 119.9c2.3 13 14.7 21.7 27.7 19.4 13.1-2.3 21.7-14.8 19.4-27.8l-30.4-172.2c0-.1 0-.2-.1-.3l-3.8-21.4c-2.9-18.1-5.2-39.6-.5-51.7 4-10.4 11.6-13.2 17.2-14.2H424c13.3 0 24-10.7 24-24s-10.7-24-24-24z\"}}]})(props);\n};\nexport function IoIosBonfire (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M270.9 350.6c-.7-8.2-7.6-14.6-15.9-14.6-7.6 0-14 5.4-15.6 12.5L223.8 427c-.5 2.3-.8 4.6-.8 7 0 17.7 14.3 30 32 30s32-12.3 32-30c0-2.9-.4-5.7-1.1-8.4l-15-75zM305.9 355zM388.9 386.3c-1.7-1.4-3.3-2.9-5.1-3.9l-59.6-43.5c-5.8-3.8-12-3.7-16.5.9-4.1 4.1-4.7 10.4-1.7 15.4l45 61.8c.9 1.5 2.2 2.8 3.4 4.2 7.8 9.1 25.1 9.6 34.6 0 9.4-9.8 9.3-27.2-.1-34.9zM372.5 335zM435.4 320h-59.5c-3.9 0-7.4 2.2-8.1 6.2-.6 3.6 1.3 7.1 4.7 8.8h.1l57.7 17.8c8.3 1.9 17.7-5.5 17.7-14.8 0-11.8-4.8-18-12.6-18zM139.2 335zM139.2 335c3.3-1.6 5.3-5.2 4.7-8.8-.7-4-3.9-6.2-8.1-6.2H76.3c-7.6 0-12.3 8.3-12.3 17.6s9.1 17.1 17.4 15.2l57.7-17.8h.1zM187.9 338.8l-59.6 43.4c-1.8 1.1-3.6 2.4-5.1 3.9-9.6 9.6-9.6 25.1 0 34.6 9.6 9.6 25.1 9.6 34.6 0 1.3-1.3 2.4-2.7 3.4-4.2l45-61.6c3-5 2.5-11.2-1.7-15.3-4.6-4.5-11.8-4.8-16.6-.8zM358.7 138.7c0-57.6-72.4-90.7-96-90.7 12 80.8-101.7 113-112 181.3-10.3 68.3 48 90.7 48 90.7 16.3-56.6 72.4-75.6 109.7-99.8 40.7-26.4 50.3-51.3 50.3-81.5zM358.7 259.6c5-14.7 1.9-49.3-3-63.4-9 17.5-26.3 32.4-47.2 46-8.6 5.6-20.9 10.8-29.8 15.9-18.7 10.5-34 20.6-46.3 34.4 11.3 16.4 31.3 27.7 46.3 27.7 36-.2 64-13.7 80-60.6z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M161.8 171.9c11.7-15.1 24.9-23.8 38.2-36.2 13.4-12.5 22.1-21.2 27.5-31.3-10.7-20.1-30.8-28.1-44.7-26.1 2.3 28.6-30 44-32 64.8-1.3 12.6 5.4 25 11 28.8z\"}}]})(props);\n};\nexport function IoIosBook (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M146 64.1c54.1 0 100 27.9 100 82V446c0 2.2-3.1 2.7-3.8.7v-.1c-10.3-34.2-38.2-67.6-82.3-70.5-34.2-2.2-66.9 12.9-93.1 37.1-1.6 1.5-4.3 2.9-6.6 2.9h-4.5c-3.7 0-7.6-2.7-7.6-6.1V120.2C48 88.1 91.9 64.1 146 64.1zM366 64c-54.1 0-100 27.9-100 82v299.9c0 2.2 3.1 2.7 3.8.7v-.1c10.3-34.2 39.4-67.9 82.3-70.5 32.9-2 63.9 11 93.1 37.1 1.6 1.4 4.3 2.9 6.6 2.9h4.5c3.7 0 7.6-2.7 7.6-6.1V120c.1-32-43.8-56-97.9-56z\"}}]})(props);\n};\nexport function IoIosBookmark (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M128 80v380c0 3.3 3.8 5.2 6.4 3.2l116.8-92c2.9-2.1 6.8-2.1 9.6 0l116.8 92c2.6 2 6.4.1 6.4-3.2V80c0-17.7-14.3-32-32-32H160c-17.7 0-32 14.3-32 32z\"}}]})(props);\n};\nexport function IoIosBookmarks (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M416 32v127.9l-22.9-14.5-9.1-6.4-9.1 6.4-22.9 14.5V32h-41.4c-22.5.2-40.6 18.8-40.6 41.4v313.2c0 7.5-5.8 14-13.3 14.4-8 .4-14.7-6-14.7-14V73.4c0-22.6-18.1-41.2-40.6-41.4H95.1C64.8 32 40 56.8 40 87.1v289.8c0 30.3 24.8 55.1 55.1 55.1l108-.1c4.2.1 8.3.6 12.2 1.4 15.3 3.1 26.8 16.6 26.6 32.2-.1 7.2 5.2 13.6 12.4 14.4 8.5.9 15.7-5.7 15.6-14.1-.2-15.8 11.4-29.4 26.9-32.5 3.8-.8 7.9-1.2 12-1.3l108 .1c30.3 0 55.1-24.8 55.1-55.1V87.1C472 56.8 446.3 32 416 32z\"}}]})(props);\n};\nexport function IoIosBowtie (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M290.8 213.5C286 205 277 202.2 266 202.2v-.2c-6 0-14.3 1.3-22.6 2.9-11.9 2.3-19.7 7.1-19.7 7.1s3.6 27.3.1 58.5-7.9 42.5-7.9 42.5 5.3 12.1 40 15c3.9.3 7.6.5 11 .5 24.5 0 36.4-7.3 36.4-7.3s3.3-5.4 4.3-22.1c1.9-32.2-7-68.5-16.8-85.6zM205.7 208.8c-22-40.2-86.2-96.8-121.3-96.8C57.9 112 32 180.5 32 256s23 144 51.5 144c33.4 0 110.5-80 110.5-80s5.7-12.6 9.9-33.6l1.8-10.4c.7-4.7 1.3-9.7 1.7-15 .3-3.5.5-6.8.6-9.9l.3-9.8c.7-16-2.6-32.5-2.6-32.5zM427.6 112c-36.4 0-96.4 56.5-118.3 96.8l-.8 1.4s1.4 2.5 1.9 3.4c3.4 6 6.7 14.3 9.4 24l2.9 11.7c2.2 10.2 3.7 21.2 4.2 32.2l.2 9c0 2.9-.1 5.7-.3 8.5-1 16.7-4.6 22.1-4.6 22.1 7.6 10.5 69 78.9 106.2 78.9 28.5 0 51.5-68.5 51.5-144s-25.8-144-52.3-144z\"}}]})(props);\n};\nexport function IoIosBriefcase (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M80 448h352c17.7 0 32-14.3 32-32V224H48v192c0 17.7 14.3 32 32 32zM432 128h-8v-8c0-4.4-3.6-8-8-8h-32c-4.4 0-8 3.6-8 8v8h-28V96c0-17.6-14.4-32-32-32H196c-17.6 0-32 14.4-32 32v32h-28v-8c0-4.4-3.6-8-8-8H96c-4.4 0-8 3.6-8 8v8h-8c-17.7 0-32 14.3-32 32v40h416v-40c0-17.7-14.3-32-32-32zm-112 0H192v-28c0-4.4 3.6-8 8-8h112c4.4 0 8 3.6 8 8v28z\"}}]})(props);\n};\nexport function IoIosBrowsers (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M48 181.4V424c0 22.1 17.9 40 40 40h242.6c22.1 0 40-17.9 40-40V181.4c0-22.1-17.9-40-40-40H88c-22.1 0-40 17.9-40 40z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M141.4 88v28.4c0 2.2 1.8 4 4 4h198.2c26.4 0 48 21.6 48 48v198.2c0 2.2 1.8 4 4 4H424c22.1 0 40-17.9 40-40V88c0-22.1-17.9-40-40-40H181.4c-22.1 0-40 17.9-40 40z\"}}]})(props);\n};\nexport function IoIosBrush (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M149.6 283.3c-51.9 0-83.9 45.7-83.9 95.1 0 21.3-10.9 37.1-31.4 46.4-2.2 1-3 3.8-1.7 5.8 16.7 24.6 63.3 33.3 95.3 33.3 8.4 0 15.9-.6 21.8-1.7 35.6-6.4 80.1-24.9 90.7-77 12.2-60.5-38.9-101.9-90.8-101.9z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M467.7 60.4C460 52.7 450.9 48 441.6 48c-6.3 0-12.7 2.2-18.8 7L257.7 200.3c-5.4 4.8-12.4 7.4-19.7 7.4h-.1-.1c-5.6 0-11.1 2.1-15.4 5.8l-53.6 43.8c-2.1 1.8-2.7 4.8-1.4 7.2.9 1.7 2.6 2.9 4.5 3.1 45.6 4.5 87 37 87.3 86.6 0 1.7.7 3.4 2 4.5 2.5 2.1 6 1.7 8-.6l45.1-52.2c3.5-4 5.8-9.1 6-14.5v-1.2c0-7.5 3-14.8 8-20.4l144.8-164.4c11.9-15.1 7.6-32.1-5.4-45z\"}}]})(props);\n};\nexport function IoIosBug (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M374.6 127.3C345.4 88.5 303.1 64 256 64c-47.1 0-89.4 24.5-118.6 63.3 6.4 15.6 15.8 30 28.1 42.3 24.2 24.2 56.3 37.5 90.5 37.5s66.3-13.3 90.5-37.5c12.3-12.3 21.8-26.6 28.1-42.3z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M122 150s-3.8-1.6-5.9-3.3c-2.1-1.7-5-4.9-6.5-8.4 5.4-11.3 1.2-25-9.9-31.3-11.8-6.6-26.9-2.2-33.1 10-4.5 8.9-2.9 19.8 3.8 27.1 1.8 1.9 3.7 3.4 5.7 4.6 2.8 1.6 4.9 4 6.4 6.8 2.7 5.2 6.4 10.7 11.1 14.6 4.2 3.5 8.8 7.1 15.2 10.7-7.2 20.3-11.6 42.3-12.5 65.4-11 .2-18.6 2.1-25.5 4.1-4.2 1.2-8.2 3.4-11.8 5.9-1-.1-1.9-.2-2.9-.2-13.8 0-24.8 11.6-24 25.6.7 11.8 10.3 21.5 22.2 22.4 11 .8 20.6-5.9 24.3-15.5 2-5.3 6.7-9.2 12.4-9.9 1.9-.2 3.9-.4 6.2-.4 3.2 33 13.3 63.5 28.6 89.2-14.2 11-22.9 23-26.6 36.3 0 0-.8.4-1.9 1.4-1 .8-1.9 1.6-2.8 2.6-8.9 9.9-8.1 25 1.8 33.9 9.9 8.9 25 8.1 33.9-1.8 6.2-6.9 7.6-16.3 4.6-24.5-2.2-6-.7-12.7 3.9-17 1.6-1.5 3.5-3.1 5.7-4.9 27.1 31.7 59.4 52 99.7 54.4V232.9C190.8 230 144.4 195.3 122 150zM456 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1.1l-46.4-8.4c-1.6-.3-2.9-1.6-3.2-3.2l-8.3-46.4c-.2-1.3.2-2.6 1.1-3.5l44.8-45c3.5-3.5 3-9.3-1-12.1-10.1-7.2-22.1-10.7-31.8-10.7-.7 0-1.4 0-2 .1-12.5.7-39.3 7.7-60 29.7-20.1 21.2-41.1 60.6-22.5 104.5 2.2 5.3 4.7 12.3-2.7 19.7C253.1 209.4 61 390.3 61 390.3c-18 15.5-16.7 44.2-.1 60.9 8.5 8.4 20 12.8 31.3 12.8 11.1 0 21.9-4.2 29.6-13.1 0 0 179.4-191.1 188.2-199.8 4-3.9 7.7-5.1 11.1-5.1 3.3 0 6.3 1.2 8.6 2.4 9.9 5.1 21 7.4 32.4 7.4 26.8 0 55-12.4 72.2-29.6 24.4-24.4 28.9-48 29.6-60.1.6-9.9-2.2-22.6-10.7-34.2-2.9-3.8-8.6-4.2-12.1-.8zM102.5 429.3c-5.5 5.4-14.4 5.4-19.9 0-5.4-5.5-5.4-14.4 0-19.9 5.5-5.4 14.4-5.4 19.9 0 5.4 5.6 5.4 14.5 0 19.9z\"}}]})(props);\n};\nexport function IoIosBulb (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M404 188.9C404 111 333.9 48 256 48s-148 63.1-148 140.9c0 31 13.2 56.1 30.2 80.1h-.3c10.9 15 21.4 17.7 31.5 35 14.7 25.2 18.1 40.7 18.7 55.7.4 8.6 7.5 15.3 16 15.3h8.9c2.2 0 4-1.8 4-4v-94.5c0-5-1.2-9.8-3.4-14.3l-21-42c-3.5-7 1.6-15.2 9.4-15.2 4 0 7.7 2.3 9.4 5.9l25.3 51.4c2.2 4.4 3.3 9.2 3.3 14.1V371c0 2.2 1.8 4 4 4h24c2.2 0 4-1.8 4-4v-94.6c0-4.9 1.1-9.7 3.3-14.1l25.4-51.6c1.7-3.4 5.2-5.6 9-5.6 7.5 0 12.4 7.9 9 14.6l-21.3 42.6c-2.2 4.5-3.4 9.4-3.4 14.3V371c0 2.2 1.8 4 4 4h10c8.5 0 15.5-6.6 16-15 .9-15.4 4.7-32.3 18.4-56 10.1-17.3 20.6-20 31.5-35h-.1c17-24 30.2-49.1 30.2-80.1zM238 464h36c7.7 0 14-6.3 14-14s-6.3-14-14-14h-36c-7.7 0-14 6.3-14 14s6.3 14 14 14zM218 420h76c7.7 0 14-6.3 14-14s-6.3-14-14-14h-76c-7.7 0-14 6.3-14 14s6.3 14 14 14z\"}}]})(props);\n};\nexport function IoIosBus (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M109.6 416.7c-1.9-1.9-5.7-.5-5.6 2.2 1 21.5 1.4 29 5.5 29h55.1c4.4 0 3.3-11.5 3.3-22-34.3.1-46.9 2.3-58.3-9.2zM402.4 416.7c1.9-1.9 5.7-.5 5.6 2.2-1 21.5-1.4 29-5.5 29h-55.1c-4.4 0-3.3-11.5-3.3-22 34.3.1 46.9 2.3 58.3-9.2zM384 64H128c-17.6 0-32 14.4-32 32v276c0 22 18 40 40 40h240c22 0 40-18 40-40V96c0-17.6-14.4-32-32-32zM162 375.9c-14.8 1.2-27-11.1-25.9-25.9.9-11.6 10.3-21.1 22-22 14.8-1.2 27 11.1 25.9 25.9-1 11.7-10.4 21.1-22 22zm76-77.9h-97.8c-8.9 0-16.2-7.3-16.2-16.2V166.2c0-8.9 7.3-16.2 16.2-16.2H238c2.2 0 4 1.8 4 4v140c0 2.2-1.8 4-4 4zm115.9 77.9c-14.8 1.2-27-11.1-25.9-25.9.9-11.6 10.3-21.1 22-22 14.8-1.2 27 11.1 25.9 25.9-.9 11.7-10.3 21.1-22 22zM388 282c0 8.8-7.2 16-16 16h-98c-2.2 0-4-1.8-4-4V154c0-2.2 1.8-4 4-4h98c8.8 0 16 7.2 16 16v116zm-15-162H139c-8.8 0-15-6.3-15-14s6.2-14 15-14h234c8.8 0 15 6.3 15 14s-6.2 14-15 14z\"}}]})(props);\n};\nexport function IoIosBusiness (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M146 80h220c9.9 0 18-8.1 18-18s-8.1-18-18-18H146c-9.9 0-18 8.1-18 18s8.1 18 18 18zM398 100H114c-9.9 0-18 8.1-18 18 0 9.3 6.9 17.1 16 18v300c0 13.2 10.8 24 24 24h88c4.4 0 8-3.6 8-8v-40c0-4.4 3.6-8 8-8h32c4.4 0 8 3.6 8 8v40c0 4.4 3.6 8 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GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M372 48H140c-17.7 0-32 14.3-32 32v352c0 17.7 14.3 32 32 32h232c17.7 0 32-14.3 32-32V80c0-17.7-14.3-32-32-32zm-12 272v80c0 13.3-10.7 24-24 24s-24-10.7-24-24v-80c0-13.3 10.7-24 24-24s24 10.7 24 24zm0-80c0 13.3-10.7 24-24 24s-24-10.7-24-24 10.7-24 24-24 24 10.7 24 24zm-80 160c0 13.3-10.7 24-24 24s-24-10.7-24-24 10.7-24 24-24 24 10.7 24 24zm0-80c0 13.3-10.7 24-24 24s-24-10.7-24-24 10.7-24 24-24 24 10.7 24 24zm0-80c0 13.3-10.7 24-24 24s-24-10.7-24-24 10.7-24 24-24 24 10.7 24 24zm-80 160c0 13.3-10.7 24-24 24s-24-10.7-24-24 10.7-24 24-24 24 10.7 24 24zm0-80c0 13.3-10.7 24-24 24s-24-10.7-24-24 10.7-24 24-24 24 10.7 24 24zm0-80c0 13.3-10.7 24-24 24s-24-10.7-24-24 10.7-24 24-24 24 10.7 24 24zm-48-80v-48c0-8.8 7.2-16 16-16h176c8.8 0 16 7.2 16 16v48c0 8.8-7.2 16-16 16H168c-8.8 0-16-7.2-16-16z\"}}]})(props);\n};\nexport function IoIosCalendar (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M424 96h-40v24c0 4.4-3.6 8-8 8h-16c-4.4 0-8-3.6-8-8V96H160v24c0 4.4-3.6 8-8 8h-16c-4.4 0-8-3.6-8-8V96H88c-22 0-40 18-40 40v272c0 22 18 40 40 40h336c22 0 40-18 40-40V136c0-22-18-40-40-40zm8 300c0 11-9 20-20 20H100c-11 0-20-9-20-20V216c0-4.4 3.6-8 8-8h336c4.4 0 8 3.6 8 8v180zM160 72c0-4.4-3.6-8-8-8h-16c-4.4 0-8 3.6-8 8v24h32V72zM384 72c0-4.4-3.6-8-8-8h-16c-4.4 0-8 3.6-8 8v24h32V72z\"}}]})(props);\n};\nexport function IoIosCall (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M436.9 364.8c-14.7-14.7-50-36.8-67.4-45.1-20.2-9.7-27.6-9.5-41.9.8-11.9 8.6-19.6 16.6-33.3 13.6-13.7-2.9-40.7-23.4-66.9-49.5-26.2-26.2-46.6-53.2-49.5-66.9-2.9-13.8 5.1-21.4 13.6-33.3 10.3-14.3 10.6-21.7.8-41.9C184 125 162 89.8 147.2 75.1c-14.7-14.7-18-11.5-26.1-8.6 0 0-12 4.8-23.9 12.7-14.7 9.8-22.9 18-28.7 30.3-5.7 12.3-12.3 35.2 21.3 95 27.1 48.3 53.7 84.9 93.2 124.3l.1.1.1.1c39.5 39.5 76 66.1 124.3 93.2 59.8 33.6 82.7 27 95 21.3 12.3-5.7 20.5-13.9 30.3-28.7 7.9-11.9 12.7-23.9 12.7-23.9 2.9-8.1 6.2-11.4-8.6-26.1z\"}}]})(props);\n};\nexport function IoIosCamera (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"circle\",\"attr\":{\"cx\":\"256\",\"cy\":\"275\",\"r\":\"57.5\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M417.5 160H363c-4.6 0-8.9-2-12-5.4-28.4-31.8-39.1-42.6-50.7-42.6h-85.5c-11.7 0-23.2 10.8-51.7 42.7-3 3.4-7.4 5.3-11.9 5.3h-4.1v-8c0-4.4-3.6-8-8-8h-26c-4.4 0-8 3.6-8 8v8h-7.5C79.9 160 64 173.2 64 190.7v176c0 17.5 15.9 33.3 33.5 33.3h320c17.6 0 30.5-15.8 30.5-33.3v-176c0-17.5-12.9-30.7-30.5-30.7zM260 360.4c-50.3 2.3-91.7-39.1-89.4-89.4 2-43.9 37.5-79.4 81.4-81.4 50.3-2.3 91.7 39.1 89.4 89.4-2 43.9-37.5 79.4-81.4 81.4zM352 218c-7.2 0-13-5.8-13-13s5.8-13 13-13 13 5.8 13 13-5.8 13-13 13z\"}}]})(props);\n};\nexport function IoIosCar (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M416 196.2c-13.8-30.8-49-92.2-100-92.2H196c-51 0-84.8 59.4-100 92.2-24 23-48 45.7-48 84.8v76c0 3.7 2.6 7 6.2 7.8C69.1 368.2 116.4 375 256 375s186.9-6.8 201.8-10.2c3.6-.8 6.2-4.1 6.2-7.8v-76c0-39-22.3-63.1-48-84.8zM190 128h132c40.5 0 62 60 62 70H128c0-10 27-70 62-70zm-78 203.7c-17.7 0-32-14.3-32-32s14.3-32 32-32 32 14.3 32 32c0 17.6-14.3 32-32 32zM328 300c0 8.8-7.2 16-16 16H200c-8.8 0-16-7.2-16-16s7.2-16 16-16h112c8.8 0 16 7.2 16 16zm72 32c-17.7 0-32-14.3-32-32s14.3-32 32-32 32 14.3 32 32-14.3 32-32 32zM160 384c-47.9 0-96-5-96-5 0 17-.3 29 6 29h85c6.3 0 5-13.2 5-24zM352 384c48 0 96-5 96-5 0 16 2 29-5 29h-86c-6.7 0-5-13.5-5-24z\"}}]})(props);\n};\nexport function IoIosCard (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M480 128c0-17.6-14.4-32-32-32H64c-17.6 0-32 14.4-32 32v48h448v-48zM32 384c0 17.6 14.4 32 32 32h384c17.6 0 32-14.4 32-32V224H32v160zm142-48h164c7.7 0 14 6.3 14 14s-6.3 14-14 14H174c-7.7 0-14-6.3-14-14s6.3-14 14-14zm-72 0h12c7.7 0 14 6.3 14 14s-6.3 14-14 14h-12c-7.7 0-14-6.3-14-14s6.3-14 14-14z\"}}]})(props);\n};\nexport function IoIosCart (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"ellipse\",\"attr\":{\"transform\":\"rotate(-1.057 159.995 423.97) scale(.99997)\",\"cx\":\"160\",\"cy\":\"424\",\"rx\":\"24\",\"ry\":\"24\"}},{\"tag\":\"ellipse\",\"attr\":{\"transform\":\"matrix(.02382 -.9997 .9997 .02382 -48.51 798.282)\",\"cx\":\"384.5\",\"cy\":\"424\",\"rx\":\"24\",\"ry\":\"24\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M463.8 132.2c-.7-2.4-2.8-4-5.2-4.2L132.9 96.5c-2.8-.3-6.2-2.1-7.5-4.7-3.8-7.1-6.2-11.1-12.2-18.6-7.7-9.4-22.2-9.1-48.8-9.3-9-.1-16.3 5.2-16.3 14.1 0 8.7 6.9 14.1 15.6 14.1s21.3.5 26 1.9c4.7 1.4 8.5 9.1 9.9 15.8 0 .1 0 .2.1.3.2 1.2 2 10.2 2 10.3l40 211.6c2.4 14.5 7.3 26.5 14.5 35.7 8.4 10.8 19.5 16.2 32.9 16.2h236.6c7.6 0 14.1-5.8 14.4-13.4.4-8-6-14.6-14-14.6H188.9c-2 0-4.9 0-8.3-2.8-3.5-3-8.3-9.9-11.5-26l-4.3-23.7c0-.3.1-.5.4-.6l277.7-47c2.6-.4 4.6-2.5 4.9-5.2l16-115.8c.2-.8.2-1.7 0-2.6z\"}}]})(props);\n};\nexport function IoIosCash (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M466 355.9H46c-7.7 0-14 6.3-14 14s6.3 14 14 14h420c7.7 0 14-6.3 14-14s-6.3-14-14-14zM466 403.9H46c-7.7 0-14 6.3-14 14s6.3 14 14 14h420c7.7 0 14-6.3 14-14s-6.3-14-14-14zM444.9 80.1H67.1C47.8 80.1 32 95.9 32 115.2V293c0 19.3 15.8 35.1 35.1 35.1h377.8c19.3 0 35.1-15.8 35.1-35.1V115.2c0-19.3-15.8-35.1-35.1-35.1zM114 296.1H78c-7.7 0-14-6.3-14-14s6.3-14 14-14h36c7.7 0 14 6.3 14 14s-6.3 14-14 14zm0-156H78c-7.7 0-14-6.3-14-14s6.3-14 14-14h36c7.7 0 14 6.3 14 14s-6.3 14-14 14zm142 144c-44.1 0-80-35.9-80-80s35.9-80 80-80 80 35.9 80 80-35.9 80-80 80zm178 12h-36c-7.7 0-14-6.3-14-14s6.3-14 14-14h36c7.7 0 14 6.3 14 14s-6.3 14-14 14zm0-156h-36c-7.7 0-14-6.3-14-14s6.3-14 14-14h36c7.7 0 14 6.3 14 14s-6.3 14-14 14z\"}},{\"tag\":\"circle\",\"attr\":{\"cx\":\"256\",\"cy\":\"206\",\"r\":\"53\"}}]})(props);\n};\nexport function IoIosCellular (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M408.4 51.8c-2.6-2.5-6.1-3.8-9.7-3.8-3.7 0-7.2 1.4-9.9 3.9-2.7 2.6-4.1 6-4.1 9.6 0 3.6 1.5 7 4.2 9.6 30.4 28.5 47.1 66.5 47.1 107.1 0 40.5-16.7 78.5-47.1 107.1-2.7 2.5-4.2 5.9-4.2 9.6 0 3.6 1.4 7 4.1 9.6 2.6 2.5 6.1 3.9 9.9 3.9 3.7 0 7.1-1.4 9.7-3.8C444.3 271 464 226.1 464 178.2v-.1c0-47.9-19.8-92.7-55.6-126.3z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M351 96.8c-2.4-2.3-5.6-3.5-9-3.5-3.3 0-6.5 1.2-8.9 3.4-2.5 2.3-3.9 5.4-3.9 8.7 0 3.3 1.3 6.4 3.8 8.7 18 17 27.8 39.8 27.8 64 0 24.2-9.9 47-27.8 64-2.5 2.3-3.8 5.4-3.8 8.7 0 3.3 1.4 6.4 3.9 8.7 2.4 2.2 5.5 3.4 8.9 3.4 3.4 0 6.6-1.3 9-3.5 22.8-21.7 35.4-50.5 35.4-81.3v-.1c0-30.7-12.6-59.5-35.4-81.2zM123.1 71.1c2.7-2.5 4.2-5.9 4.2-9.6 0-3.6-1.4-7-4.1-9.6-2.6-2.5-6.1-3.9-9.9-3.9-3.7 0-7.1 1.4-9.7 3.8C67.7 85.4 48 130.3 48 178.2v.2c0 47.8 19.8 92.6 55.6 126.2 2.6 2.5 6.1 3.8 9.7 3.8 3.7 0 7.2-1.4 9.9-3.9 2.7-2.6 4.1-6 4.1-9.6 0-3.6-1.5-7-4.2-9.6C92.7 256.8 76 218.8 76 178.2c-.1-40.6 16.7-78.6 47.1-107.1z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M179 114.1c2.5-2.3 3.8-5.4 3.8-8.7 0-3.3-1.4-6.4-3.9-8.7-2.4-2.2-5.5-3.4-8.9-3.4-3.4 0-6.6 1.3-9 3.5-22.8 21.7-35.4 50.5-35.4 81.3v.1c0 30.8 12.6 59.6 35.4 81.2 2.4 2.3 5.6 3.5 9 3.5 3.3 0 6.5-1.2 8.9-3.4 2.5-2.3 3.9-5.4 3.9-8.7 0-3.3-1.3-6.4-3.8-8.7-18-17-27.8-39.8-27.8-64-.1-24.2 9.8-46.9 27.8-64zM256 123.2c-26.5 0-48 21.5-48 48 0 21.6 14.3 39.9 34 45.9v233c0 7.7 6.3 13.9 14 13.9s14-6.2 14-13.9v-233c19.7-6 34-24.3 34-45.9 0-26.5-21.5-48-48-48z\"}}]})(props);\n};\nexport function IoIosChatboxes (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M425.9 170.4H204.3c-21 0-38.1 17.1-38.1 38.1v154.3c0 21 17.1 38 38.1 38h126.8c2.8 0 5.6 1.2 7.6 3.2l63 58.1c3.5 3.4 9.3 2 9.3-2.9v-50.6c0-6 3.8-7.9 9.8-7.9h1c21 0 42.1-16.9 42.1-38V208.5c.1-21.1-17-38.1-38-38.1z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M174.4 145.9h177.4V80.6c0-18-14.6-32.6-32.6-32.6H80.6C62.6 48 48 62.6 48 80.6v165.2c0 18 14.6 32.6 32.6 32.6h61.1v-99.9c.1-18 14.7-32.6 32.7-32.6z\"}}]})(props);\n};\nexport function IoIosChatbubbles (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M431 320.6c0-4.4 1.2-8.6 3.3-12.2.6-1.1 1.4-2.1 2.1-3.1 17.4-26 27.6-57.1 27.6-90.3.3-92.2-77.5-167-173.7-167-83.9 0-153.9 57.1-170.3 132.9-2.4 11.1-3.7 22.4-3.7 34.2 0 92.3 74.8 169.1 171 169.1 15.3 0 35.9-4.6 47.2-7.7 11.3-3.1 22.5-7.2 25.4-8.3 2.9-1.1 6.1-1.7 9.3-1.7 3.6 0 7 .7 10.1 2l56.7 20.1s2.4 1 3.9 1c4.4 0 8-3.5 8-8 0-1-.5-2.7-.5-2.7L431 320.6z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M318.5 392.5c-3.6 1-8.2 2.1-13.2 3.2-10.5 2.2-23.9 4.5-34 4.5-96.2 0-171-76.8-171-169.1 0-6.6.7-15 1.5-21.4.6-4.3 1.3-8.6 2.3-12.8 1-4.5 2.2-9 3.5-13.4l-8 7.1C66.8 219.2 48 260 48 302.5c0 29.3 8.5 57.5 24.8 82 2.3 3.5 3.6 6.2 3.2 8-.4 1.8-11.9 62-11.9 62-.6 2.9.5 5.8 2.7 7.7 1.5 1.2 3.3 1.8 5.1 1.8 1 0 2-.2 2.9-.6l56.1-22.1c1.8-.7 3.7-1.1 5.7-1.1 0 0 2.4-.2 6.3 1.3 18.9 7.4 39.8 12 60.7 12 46.6 0 90.4-20.1 120.1-55.1 0 0 3.2-4.4 6.9-9.6-3.7 1.3-7.9 2.6-12.1 3.7z\"}}]})(props);\n};\nexport function IoIosCheckboxOutline (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M416 64H96c-17.7 0-32 14.3-32 32v320c0 17.7 14.3 32 32 32h320c17.7 0 32-14.3 32-32V96c0-17.7-14.3-32-32-32zm4 348c0 4.4-3.6 8-8 8H100c-4.4 0-8-3.6-8-8V100c0-4.4 3.6-8 8-8h312c4.4 0 8 3.6 8 8v312z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M363.6 192.9L346 174.8c-.7-.8-1.8-1.2-2.8-1.2-1.1 0-2.1.4-2.8 1.2l-122 122.9-44.4-44.4c-.8-.8-1.8-1.2-2.8-1.2-1 0-2 .4-2.8 1.2l-17.8 17.8c-1.6 1.6-1.6 4.1 0 5.7l56 56c3.6 3.6 8 5.7 11.7 5.7 5.3 0 9.9-3.9 11.6-5.5h.1l133.7-134.4c1.4-1.7 1.4-4.2-.1-5.7z\"}}]})(props);\n};\nexport function IoIosCheckbox (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M416 64H96c-17.7 0-32 14.3-32 32v320c0 17.7 14.3 32 32 32h320c17.7 0 32-14.3 32-32V96c0-17.7-14.3-32-32-32zm-52.5 134.5L229.8 332.8h-.1c-1.7 1.7-6.3 5.5-11.6 5.5-3.8 0-8.1-2.1-11.7-5.7l-56-56c-1.6-1.6-1.6-4.1 0-5.7l17.8-17.8c.8-.8 1.8-1.2 2.8-1.2 1 0 2 .4 2.8 1.2l44.4 44.4 122-122.9c.8-.8 1.8-1.2 2.8-1.2 1.1 0 2.1.4 2.8 1.2l17.5 18.1c1.8 1.7 1.8 4.2.2 5.8z\"}}]})(props);\n};\nexport function IoIosCheckmarkCircleOutline (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M362.6 192.9L345 174.8c-.7-.8-1.8-1.2-2.8-1.2-1.1 0-2.1.4-2.8 1.2l-122 122.9-44.4-44.4c-.8-.8-1.8-1.2-2.8-1.2-1 0-2 .4-2.8 1.2l-17.8 17.8c-1.6 1.6-1.6 4.1 0 5.7l56 56c3.6 3.6 8 5.7 11.7 5.7 5.3 0 9.9-3.9 11.6-5.5h.1l133.7-134.4c1.4-1.7 1.4-4.2-.1-5.7z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M256 76c48.1 0 93.3 18.7 127.3 52.7S436 207.9 436 256s-18.7 93.3-52.7 127.3S304.1 436 256 436c-48.1 0-93.3-18.7-127.3-52.7S76 304.1 76 256s18.7-93.3 52.7-127.3S207.9 76 256 76m0-28C141.1 48 48 141.1 48 256s93.1 208 208 208 208-93.1 208-208S370.9 48 256 48z\"}}]})(props);\n};\nexport function IoIosCheckmarkCircle (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M256 48C141.1 48 48 141.1 48 256s93.1 208 208 208 208-93.1 208-208S370.9 48 256 48zm106.5 150.5L228.8 332.8h-.1c-1.7 1.7-6.3 5.5-11.6 5.5-3.8 0-8.1-2.1-11.7-5.7l-56-56c-1.6-1.6-1.6-4.1 0-5.7l17.8-17.8c.8-.8 1.8-1.2 2.8-1.2 1 0 2 .4 2.8 1.2l44.4 44.4 122-122.9c.8-.8 1.8-1.2 2.8-1.2 1.1 0 2.1.4 2.8 1.2l17.5 18.1c1.8 1.7 1.8 4.2.2 5.8z\"}}]})(props);\n};\nexport function IoIosCheckmark (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M362.6 192.9L345 174.8c-.7-.8-1.8-1.2-2.8-1.2-1.1 0-2.1.4-2.8 1.2l-122 122.9-44.4-44.4c-.8-.8-1.8-1.2-2.8-1.2-1 0-2 .4-2.8 1.2l-17.8 17.8c-1.6 1.6-1.6 4.1 0 5.7l56 56c3.6 3.6 8 5.7 11.7 5.7 5.3 0 9.9-3.9 11.6-5.5h.1l133.7-134.4c1.4-1.7 1.4-4.2-.1-5.7z\"}}]})(props);\n};\nexport function IoIosClipboard (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M140.5 160v240c0 8.8 7.2 16 16 16h200c8.8 0 16-7.2 16-16V160c0-8.8-7.2-16-16-16h-200c-8.8 0-16 7.2-16 16zM321.5 81h-17c0-5.6-1-11-2.7-16-2.1-6-5.3-11.4-9.4-16-8.8-9.9-21.6-17-35.9-17s-27.1 7.1-35.9 17c-4.1 4.6-7.3 10-9.4 16-1.7 5-2.7 10.4-2.7 16H194c-9.6 0-17.5 7.9-17.5 17.5V114c0 1.1.9 2 2 2h156c1.1 0 2-.9 2-2V96c0-8.3-6.7-15-15-15zm-62.9 15.5c-10.5 1.3-19.3-7.5-17.9-17.9.9-7.1 6.7-12.9 13.8-13.8 10.5-1.3 19.3 7.5 17.9 17.9-.9 7.2-6.7 12.9-13.8 13.8z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M400 48h-75.2c-1.7 0-2.6 1.9-1.6 3.2 2.9 3.9 5.3 8.1 7 12.8.3.8 1 1.3 1.9 1.3h.5c18.7 0 26.9 14.9 27.5 33.5V114c0 1.1.9 2 2 2h20.3c8.8 0 16 7.2 16 16v297.4c0 8.8-7.2 16-16 16h-253c-8.8 0-16-7.2-16-16V132c0-8.8 7.2-16 16-16h21.3c1.1 0 2-.9 2-2v-8.8c0-19.1 5.6-36.7 27.6-36.7h.3c.9 0 1.8-.6 1.9-1.6 1.5-6.9 4.1-11.7 7.2-15.8 1-1.3.1-3.2-1.6-3.2l-76.3-.1C94.3 47.9 80 62.1 80 79.7V424c0 41.7 14.3 56 32 56h288.5c17.4 0 31.5-14.1 31.5-31.5V80c0-17.7-14.3-32-32-32z\"}}]})(props);\n};\nexport function IoIosClock (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M403.1 108.9c-81.2-81.2-212.9-81.2-294.2 0-81.3 81.2-81.2 212.9 0 294.2 81.2 81.2 212.9 81.2 294.2 0 81.2-81.2 81.2-213 0-294.2zM89.6 263.8c-5.6 1.1-10.5-3.8-9.4-9.4.6-3.1 3.1-5.7 6.3-6.3 5.6-1.1 10.5 3.8 9.4 9.4-.6 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365.4 96 288 96z\"}}]})(props);\n};\nexport function IoIosCloudUpload (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M437.1 165.8C429 90.6 365.4 32 288 32c-51.2 0-96.3 25.6-123.4 64.7-8.3-3.4-17.4-5.3-26.9-5.3-39.1 0-70.8 34.4-71.4 73.4C26.4 177.5 0 216.5 0 257.5 0 307.7 40.7 352 90.9 352H243V210.1l-47.9 47.2c-5.1 5-13.3 5-18.4-.1-5-5.1-5-13.3.1-18.4l70-69c1.2-1.1 2.5-2.1 4.1-2.7 1.6-.7 3.3-1 5-1 3.4 0 6.6 1.3 9.1 3.7l70 69c5.1 5 5.2 13.3.1 18.4-5 5.1-13.3 5.2-18.4.1L269 210.1V352h152.1c50.2 0 90.9-44.3 90.9-94.5 0-44.7-32.3-84.1-74.9-91.7zM243 467c0 7.2 5.8 13 13 13s13-5.8 13-13V352h-26v115z\"}}]})(props);\n};\nexport function IoIosCloud (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M437.1 229.8C429 154.6 365.4 96 288 96c-51.2 0-96.3 25.6-123.4 64.7-8.3-3.4-17.4-5.3-26.9-5.3-39.1 0-70.8 34.4-71.4 73.4C26.4 241.5 0 280.5 0 321.5 0 371.7 40.7 416 90.9 416h330.3c50.2 0 90.9-44.3 90.9-94.5-.1-44.7-32.4-84.1-75-91.7z\"}}]})(props);\n};\nexport function IoIosCloudyNight (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M277.8 294.8c-.5 0-1.1-.1-1.6-.1-2.6 0-5.2 0-7.8.3-9.3-40.8-45.9-71.5-89.7-71.5-50.8 0-91.9 40.9-91.9 91.4 0 3.1.2 6.1.5 9.1-31 2.7-55.3 30.1-55.3 61.6C32 419 58.8 448 92.3 448h185.5c41.9 0 75.8-34.7 75.8-76.3 0-41.6-33.9-76.9-75.8-76.9z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M452.1 305.4c-2.5.1-5 .2-7.6.2-41.7 0-80.8-15.7-110.3-44.3-29.5-28.5-45.7-66.5-45.7-106.8 0-23 5.3-45.2 15.2-65.3L315.4 70c1.7-2.9-.8-6.5-4.1-6-7.6 1.2-15.7 4-23.2 6.3-59.5 18.2-104.4 68.1-113.7 129.3 1.4-.1 2.9-.1 4.3-.1 26.5 0 52.4 9.2 73 25.9 15.1 12.2 26.9 28 34.2 45.7 23.7 2 45.7 12.4 62.7 29.8 18.7 19.1 29 44.2 29 70.7 0 2.3-.1 4.6-.2 6.8 34.2-8.1 64.3-26.6 86.4-51.8 4.8-5.5 11.3-12.8 15.3-18.5 2-2.8-.3-6.7-3.8-6.3-6.8 1-15.9 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4.1-1.7l114.2-109c1.2-1.1 1.9-2.7 1.9-4.3-.1-1.7-.8-3.2-2-4.4zM106.3 256l95.8-91.5c1.2-1.1 1.9-2.7 1.9-4.3 0-1.6-.7-3.2-1.9-4.3l-13.8-13.2c-1.2-1.1-2.7-1.7-4.1-1.7s-3 .6-4.1 1.7l-114.2 109c-1.2 1.1-1.9 2.7-1.9 4.3 0 1.6.7 3.2 1.9 4.3l114.2 109c1.2 1.1 2.7 1.7 4.1 1.7 1.5 0 3-.6 4.1-1.7l13.8-13.2c1.2-1.1 1.9-2.7 1.9-4.3 0-1.6-.7-3.2-1.9-4.3L106.3 256z\"}},{\"tag\":\"circle\",\"attr\":{\"cx\":\"256\",\"cy\":\"256\",\"r\":\"22\"}},{\"tag\":\"circle\",\"attr\":{\"cx\":\"192\",\"cy\":\"256\",\"r\":\"22\"}},{\"tag\":\"circle\",\"attr\":{\"cx\":\"320\",\"cy\":\"256\",\"r\":\"22\"}}]})(props);\n};\nexport function IoIosCode (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M332 142.7c-1.2-1.1-2.7-1.7-4.1-1.7s-3 .6-4.1 1.7L310 155.9c-1.2 1.1-1.9 2.7-1.9 4.3 0 1.6.7 3.2 1.9 4.3l95.8 91.5-95.8 91.5c-1.2 1.1-1.9 2.7-1.9 4.3 0 1.6.7 3.2 1.9 4.3l13.8 13.2c1.2 1.1 2.6 1.7 4.1 1.7 1.5 0 3-.6 4.1-1.7l114.2-109c1.2-1.1 1.9-2.7 1.9-4.3 0-1.6-.7-3.2-1.9-4.3L332 142.7zM204 160.2c0-1.6-.7-3.2-1.9-4.3l-13.8-13.2c-1.2-1.1-2.7-1.7-4.1-1.7s-3 .6-4.1 1.7l-114.2 109c-1.2 1.1-1.9 2.7-1.9 4.3 0 1.6.7 3.2 1.9 4.3l114.2 109c1.2 1.1 2.7 1.7 4.1 1.7 1.5 0 3-.6 4.1-1.7l13.8-13.2c1.2-1.1 1.9-2.7 1.9-4.3 0-1.6-.7-3.2-1.9-4.3L106.3 256l95.8-91.5c1.2-1.1 1.9-2.7 1.9-4.3z\"}}]})(props);\n};\nexport function IoIosCog (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M456.9 242.2l-26.1-4.2c-3.5-.6-6.1-3.3-6.6-6.8-.5-3.2-1-6.4-1.7-9.5-.7-3.4.9-6.9 3.9-8.6l23.1-12.8c3.6-1.8 5.3-6.1 3.9-9.9l-4-11c-1.4-3.8-5.4-6-9.4-5l-25.9 5c-3.4.7-6.9-1-8.6-4.1-1.5-2.8-3.1-5.6-4.8-8.4-1.8-3-1.6-6.8.7-9.5l17.3-19.9c2.8-3 2.9-7.5.3-10.6l-7.5-9c-2.6-3.1-7.1-3.8-10.5-1.5L378.3 130c-3 1.8-6.8 1.4-9.4-.9-2.4-2.1-4.9-4.2-7.4-6.2-2.7-2.2-3.8-5.9-2.5-9.1l9.4-24.7c1.6-3.7.2-8.1-3.3-10.1l-10.2-5.9c-3.5-2-8-1.1-10.4 2.2l-16.6 20.8c-2 2.5-4.9 3.8-8.5 2.5 0 0-5.6-2.3-9.8-3.7-3.3-1.1-5.6-4.2-5.5-7.7l.4-26.4c.2-4.1-2.6-7.7-6.6-8.4l-11.6-2c-4-.7-7.9 1.7-9.1 5.6l-8.6 25c-1.1 3.3-4.3 5.5-7.8 5.4-1.6 0-3.3-.1-4.9-.1s-3.3 0-4.9.1c-3.5.1-6.6-2.1-7.8-5.4l-8.6-25c-1.2-3.9-5.1-6.3-9.1-5.6l-11.6 2c-4 .7-6.8 4.3-6.6 8.4l.4 26.4c.1 3.5-2.1 6.4-5.5 7.7-2.3.9-7.3 2.8-9.7 3.7-2.8 1-6.1.2-8.8-2.9l-16.5-20.3c-2.4-3.3-6.9-4.2-10.4-2.2l-10.2 5.9c-3.5 2-5 6.4-3.3 10.1l9.4 24.7c1.2 3.3.2 7-2.5 9.1-2.5 2-5 4.1-7.4 6.2-2.6 2.3-6.4 2.7-9.4.9L111 116.3c-3.4-2.2-7.9-1.6-10.5 1.5l-7.5 9c-2.6 3.1-2.5 7.7.3 10.6l17.3 19.9c2.3 2.6 2.6 6.5.7 9.5-1.7 2.7-3.3 5.5-4.8 8.4-1.7 3.1-5.1 4.7-8.6 4.1l-25.9-5c-4-.9-8 1.2-9.4 5l-4 11c-1.4 3.8.3 8.1 3.9 9.9L85.6 213c3.1 1.7 4.6 5.2 3.9 8.6-.6 3.2-1.2 6.3-1.7 9.5-.5 3.5-3.2 6.2-6.6 6.8l-26.1 4.2c-4 .5-7.1 3.9-7.1 7.9v11.7c0 4.1 3 7.5 7.1 7.9l26.1 4.2c3.5.6 6.1 3.3 6.6 6.8.5 3.2 1 6.4 1.7 9.5.7 3.4-.9 6.9-3.9 8.6l-23.1 12.8c-3.6 1.8-5.3 6.1-3.9 9.9l4 11c1.4 3.8 5.4 6 9.4 5l25.9-5c3.4-.7 6.9 1 8.6 4.1 1.5 2.8 3.1 5.6 4.8 8.4 1.8 3 1.6 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6.6-6.8l26.1-4.2c4-.5 7.1-3.9 7.1-7.9v-11.7c-.2-3.8-3.2-7.3-7.3-7.7zM181.8 356.9c-5.2 9-17.4 10.7-25 3.6C129.2 334.2 112 297.1 112 256c0-40.9 17.1-77.9 44.5-104.1 7.5-7.2 19.8-5.5 25 3.5l56 96.6c1.4 2.5 1.4 5.5 0 8l-55.7 96.9zM396 289.7C380.9 353 323.9 400 256 400c-14.1 0-27.8-2-40.6-5.8-9.9-2.9-14.5-14.4-9.3-23.3l55.7-96.9c1.4-2.5 4.1-4 6.9-4h111.7c10.4 0 18 9.6 15.6 19.7zM380.5 242H268.7c-2.9 0-5.5-1.5-6.9-4l-56.1-96.7c-5.2-8.9-.7-20.4 9.2-23.4 13-3.9 26.8-5.9 41.1-5.9 67.9 0 124.9 47 140 110.3 2.4 10.1-5.2 19.7-15.5 19.7z\"}}]})(props);\n};\nexport function IoIosColorFill (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M231.5 118.3c.1 0 .1-.1 0 0L175.3 62c-9.3-9.3-21.6-14-33.9-14-12.3 0-24.6 4.7-33.9 14-18.7 18.7-18.7 49.2 0 67.9l49.3 49.3-84.5 84c-11.1 11.1-11 29.2.3 40l131.2 126c10.9 10.4 28 10.4 38.9-.1 37.8-36.6 118.3-114.5 126.7-122.9 5.8-5.8 18.2-7.1 28.7-7.1h.3c5.9 0 8.8-7.1 4.6-11.2L231.5 118.3zm-103.9-7.9c-7.2-7.2-8.3-18.8-2-26.8 3.8-4.9 9.6-7.6 15.8-7.6 5.4 0 10.4 2.1 14.1 5.8l49.3 49.3-28.3 28.3-48.9-49zM403 339.5c-1.6-1.9-4.5-1.9-6.1 0-10.5 12.2-45 53.9-45 76.4 0 26.6 21.5 48.1 48 48.1s48-21.6 48-48.1c.1-22.6-34.3-64.2-44.9-76.4z\"}}]})(props);\n};\nexport function IoIosColorFilter (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M442 248.9c-15.7-20.6-37.7-35.9-62.1-43.6 1-6.3 1.4-12.7 1.4-19.1 0-33.7-13-65.4-36.7-89.2C321 73.1 289.5 60 256 60s-65 13.1-88.6 37c-23.7 23.8-36.7 55.5-36.7 89.2 0 6.4.5 12.8 1.4 19.1-24.5 7.7-46.4 23.1-62.1 43.6-17 22.2-26 48.8-26 76.9 0 33.7 13 65.4 36.7 89.2 23.7 23.8 55.2 37 88.6 37 32.6 0 63.2-12.4 86.7-35 23.4 22.6 54.1 35 86.7 35 33.5 0 65-13.1 88.6-37 23.7-23.8 36.7-55.5 36.7-89.2 0-28.1-9-54.7-26-76.9zM256 85.5c55.1 0 100 45.2 100 100.7 0 4.7-.3 9.4-1 14.1-4.1-.4-8.2-.6-12.4-.6-32.6 0-63.2 12.4-86.7 35-23.4-22.6-54.1-35-86.7-35-4.1 0-8.3.2-12.4.6-.6-4.6-1-9.4-1-14.1.2-55.6 45.1-100.7 100.2-100.7zm0 201.4c-1.8 0-3.7-.1-5.5-.2 1.6-3.8 3.4-7.5 5.5-11.1 2.1 3.6 3.9 7.3 5.5 11.1-1.8.2-3.7.2-5.5.2zm-46.6 131.2c-12.7 5.6-26.1 8.4-40.1 8.4-55.1 0-100-45.2-100-100.7 0-22.3 7.1-43.5 20.6-61.2 12.3-16.1 29.4-28.3 48.5-34.6 6.6 17.9 17.3 34.3 31.2 47.6 13.9 13.4 30.9 23.4 49.2 29.1-1 6.3-1.4 12.7-1.4 19.1 0 25.8 7.7 50.6 22.2 71.7-8.8 8.7-19 15.6-30.2 20.6zM225.1 282c-27.6-9-50-29.8-61.3-56.7 1.8-.1 3.7-.2 5.5-.2 13.9 0 27.4 2.8 40.1 8.4 11.2 5 21.4 11.9 30.1 20.6-5.9 8.7-10.8 18-14.4 27.9zm30.9 94c-8.7-15.2-13.3-32.5-13.3-50.2 0-4.7.3-9.4 1-14.1a128.658 128.658 0 0 0 24.8 0c.6 4.6 1 9.4 1 14.1-.2 17.7-4.8 35-13.5 50.2zm46.6-142.5c12.7-5.6 26.1-8.4 40.1-8.4 1.8 0 3.7.1 5.5.2-11.3 26.9-33.7 47.7-61.3 56.7-3.6-9.8-8.5-19.2-14.4-27.9 8.7-8.7 18.9-15.6 30.1-20.6zm40.1 193c-13.9 0-27.4-2.8-40.1-8.4-11.2-5-21.4-11.9-30.1-20.6 14.5-21.1 22.2-45.8 22.2-71.7 0-6.4-.5-12.8-1.4-19.1 18.3-5.7 35.2-15.7 49.2-29.1 13.8-13.3 24.5-29.6 31.2-47.6 19.1 6.3 36.2 18.4 48.5 34.6 13.5 17.7 20.6 38.9 20.6 61.2-.1 55.6-45 100.7-100.1 100.7z\"}}]})(props);\n};\nexport function IoIosColorPalette (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M430.1 347.9c-6.6-6.1-16.3-7.6-24.6-9-11.5-1.9-15.9-4-22.6-10-14.3-12.7-14.3-31.1 0-43.8l30.3-26.9c46.4-41 46.4-108.2 0-149.2-34.2-30.1-80.1-45-127.8-45-55.7 0-113.9 20.3-158.8 60.1-83.5 73.8-83.5 194.7 0 268.5 41.5 36.7 97.5 55 152.9 55.4h1.7c55.4 0 110-17.9 148.8-52.4 14.4-12.7 12-36.6.1-47.7zM120 216c0-17.7 14.3-32 32-32s32 14.3 32 32-14.3 32-32 32-32-14.3-32-32zm40 126c-17.7 0-32-14.3-32-32s14.3-32 32-32 32 14.3 32 32-14.3 32-32 32zm64-161c-17.7 0-32-14.3-32-32s14.3-32 32-32 32 14.3 32 32-14.3 32-32 32zm72 219c-26.5 0-48-21.5-48-48s21.5-48 48-48 48 21.5 48 48-21.5 48-48 48zm24-208c-17.7 0-32-14.3-32-32s14.3-32 32-32 32 14.3 32 32-14.3 32-32 32z\"}}]})(props);\n};\nexport function IoIosColorWand (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M445.7 405.6L201.3 160.4c-3.1-3.1-8.2-3.1-11.3 0l-28.7 28.8c-3.1 3.1-3.1 8.2 0 11.3l244.4 245.2c3.1 3.1 8.2 3.1 11.3 0l28.6-28.8c3.2-3.1 3.2-8.2.1-11.3zm-25.5 14.3l-.1.1c-3.1 3.1-8.2 3.1-11.3 0L218.9 229.5c-3.1-3.1-3.1-8.2 0-11.3l.1-.1c3.1-3.1 8.2-3.1 11.3 0l189.9 190.5c3.1 3.1 3.1 8.2 0 11.3zM192.8 120.1c6.6 0 12-5.4 12-12V76c0-6.6-5.4-12-12-12s-12 5.4-12 12v32.1c0 6.6 5.4 12 12 12zM192.8 263.3c-6.6 0-12 5.4-12 12v32.1c0 6.6 5.4 12 12 12s12-5.4 12-12v-32.1c0-6.6-5.4-12-12-12zM270.7 190.2c0 6.6 5.4 12 12 12h32c6.6 0 12-5.4 12-12s-5.4-12-12-12h-32c-6.6 0-12 5.4-12 12zM119.9 190.2c0-6.6-5.4-12-12-12H76c-6.6 0-12 5.4-12 12s5.4 12 12 12h32c6.5 0 11.9-5.4 11.9-12zM124.8 141c2.3 2.3 5.3 3.5 8.5 3.5s6.2-1.3 8.5-3.5c4.7-4.7 4.7-12.3 0-17l-20.9-21c-2.3-2.3-5.3-3.5-8.5-3.5s-6.2 1.3-8.5 3.5c-4.7 4.7-4.7 12.3 0 17l20.9 21zM133.3 239.9c-3.2 0-6.2 1.3-8.5 3.5l-20.9 21c-2.3 2.3-3.5 5.3-3.5 8.5s1.2 6.2 3.5 8.5 5.3 3.5 8.5 3.5 6.2-1.3 8.5-3.5l20.9-21c4.7-4.7 4.7-12.3 0-17-2.3-2.2-5.3-3.5-8.5-3.5zM252.4 144.5c3.2 0 6.2-1.3 8.5-3.5l20.9-21c4.7-4.7 4.7-12.3 0-17-2.3-2.3-5.3-3.5-8.5-3.5s-6.2 1.3-8.5 3.5l-20.9 21c-2.3 2.3-3.5 5.3-3.5 8.5s1.2 6.2 3.5 8.5c2.3 2.2 5.3 3.5 8.5 3.5z\"}}]})(props);\n};\nexport function IoIosCompass (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M280.5 280.5l-49-49c-.9-.9-2.5-.7-3.2.4l-49.5 98.5c-1.1 1.8 1 3.9 2.8 2.8l98.5-49.5c1.1-.7 1.3-2.3.4-3.2z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M256 48C141.1 48 48 141.1 48 256s93.1 208 208 208 208-93.1 208-208S370.9 48 256 48zm40.6 249.3L137 377.8c-1.8 1.1-3.9-1-2.8-2.8l80.6-159.6c.2-.3.4-.5.7-.7L375 134.2c1.8-1.1 3.9 1 2.8 2.8l-80.6 159.6c-.1.3-.3.5-.6.7z\"}}]})(props);\n};\nexport function IoIosConstruct (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M380 64.4zM275.1 57.6c-9.4-5.9-23.3-9.6-37.9-9.6-14.3 0-30.3 2.5-46.7 9.2-46.5 19-74 45.4-81.1 52.4-7 7-16.8 18-22.9 26.6-6.1 8.7 1.9 21-6.1 29s-24.7 0-24.7 0c-1.4 0-2.9.5-3.9 1.6l-34.1 33.9c-2.2 2.1-2.2 5.7 0 7.8l63.5 63.1c1.1 1.1 2.5 1.6 3.9 1.6s2.9-.5 3.9-1.6l33.2-34.8c2.2-2.1 2.2-5.7 0-7.8 0 0-5.3-5.2-12.1-12s.8-19.3 5.3-23.4c4.5-4.1 11.6-6.8 21.1-6.8 4.3 0 7.4.7 11.4 1.8 12.2 3.4 25.8 15.9 50.9 40.8l-3.9 6.5c-2.3 3.8-.9 8.3 1.3 10.4 0 0-5-4.9 13.1 13.1l50-47.2c-19.1-18.9-14.5-14.1-14.5-14.1-1.4-1.4-3.8-2.3-6.3-2.3-1.4 0-2.9.3-4.2 1l-5.6 3c-28-27.8-35.3-40.2-34.3-61.7 1.1-22.4 12.3-37.1 30.5-52.7 24.7-21.1 60.6-15.2 60.6-15.2 8-.1-4.2-8.6-10.4-12.6zM462.5 399.9s-68.9-57.2-130.2-115.7l-47.7 50.6c58.5 60.6 114.9 127.6 114.9 127.6 1.1 1.1 2.5 1.6 3.9 1.6s2.9-.5 3.9-1.6l55.1-54.7c2.2-2.1 2.2-5.7.1-7.8z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M479.2 125.3l-52.4 52.6-51.1-9.3-9.2-51.1 52.4-52.6c-11.1-11.1-26.8-16.6-39-16.6-.7 0-1.4 0-2 .1-12.5.6-39.2 7.7-59.9 29.7-20 21.1-41.1 60.6-22.4 104.3 2.2 5.3 4.7 12.2-2.7 19.7-1.5 1.4-9.9 9.4-22.5 21.3-3.6 3.4-7.4 7-11.6 11-8 7.6-17.1 16.2-26.8 25.2-3.8 3.6-7.7 7.2-11.6 11-57 53.8-126.9 119.5-126.9 119.5-18 15.5-16.7 44.1-.1 60.8 8.5 8.4 20 12.8 31.3 12.8 11 0 21.9-4.2 29.5-13.1 0 0 65.5-69.8 119.3-126.9 3.7-4 7.4-7.8 11-11.7 9.3-9.9 18-19.1 25.8-27.3 3.9-4.2 7.6-8.1 11-11.6 11.5-12.2 19.3-20.4 21-22 4-3.9 7.7-5.1 11.1-5.1 3.3 0 6.2 1.2 8.6 2.4 9.9 5.1 21 7.3 32.4 7.3 26.7 0 55-12.4 72.1-29.5 24.4-24.4 28.8-47.9 29.6-60 .6-11.8-3.6-27.6-16.9-40.9zM137.4 426.1c-5.5 5.4-14.4 5.4-19.8 0-5.4-5.5-5.4-14.4 0-19.8 5.5-5.4 14.4-5.4 19.8 0 5.4 5.5 5.4 14.4 0 19.8z\"}}]})(props);\n};\nexport function IoIosContact (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M256 48C148.5 48 60.1 129.5 49.2 234.1c-.8 7.2-1.2 14.5-1.2 21.9 0 7.4.4 14.7 1.2 21.9C60.1 382.5 148.5 464 256 464c114.9 0 208-93.1 208-208S370.9 48 256 48zm135.8 326.1c-22.7-8.6-59.5-21.2-82.4-28-2.4-.7-2.7-.9-2.7-10.7 0-8.1 3.3-16.3 6.6-23.3 3.6-7.5 7.7-20.2 9.2-31.6 4.2-4.9 10-14.5 13.6-32.9 3.2-16.2 1.7-22.1-.4-27.6-.2-.6-.5-1.2-.6-1.7-.8-3.8.3-23.5 3.1-38.8 1.9-10.5-.5-32.8-14.9-51.3-9.1-11.7-26.6-26-58.5-28h-17.5c-31.4 2-48.8 16.3-58 28-14.5 18.5-16.9 40.8-15 51.3 2.8 15.3 3.9 35 3.1 38.8-.2.7-.4 1.2-.6 1.8-2.1 5.5-3.7 11.4-.4 27.6 3.7 18.4 9.4 28 13.6 32.9 1.5 11.4 5.7 24 9.2 31.6 2.6 5.5 3.8 13 3.8 23.6 0 9.9-.4 10-2.6 10.7-23.7 7-58.9 19.4-80 27.8C91.6 341.4 76 299.9 76 256c0-48.1 18.7-93.3 52.7-127.3S207.9 76 256 76c48.1 0 93.3 18.7 127.3 52.7S436 207.9 436 256c0 43.9-15.6 85.4-44.2 118.1z\"}}]})(props);\n};\nexport function IoIosContacts (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M256 48C141.1 48 48 141.1 48 256s93.1 208 208 208 208-93.1 208-208S370.9 48 256 48zm143.3 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23.8s-18.7 10.8-25.4 12.2c-14.8 3-28.6 4.7-41.4 11.5C84.8 320.6 76 289 76 256c0-47.9 19.2-94 53.2-127.7C162.7 95 207.1 76.4 254.3 76c47.6-.4 93.7 18.1 127.8 51.5 34.8 34.1 54 79.9 54 128.5 0 24.9-5 48.9-14.5 71.1-5.6-7-13.4-12.3-22.3-15.2z\"}}]})(props);\n};\nexport function IoIosContract (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M184.3 204.8h-77.7c-7.7 0-13.9 6.2-13.9 13.9v.2c0 7.7 6.2 13.9 13.9 13.9h112.2c7.7 0 13.9-6.2 13.9-13.9V106.6c0-7.7-6.2-13.9-13.9-13.9h-.2c-7.7 0-13.9 6.2-13.9 13.9v77.7L87.7 68c-2.6-2.6-6.1-4-9.8-4-3.7 0-7.2 1.4-9.8 4.1-5.4 5.4-5.4 14.2 0 19.6l116.2 117.1zM293.1 232.8h112.2c7.7 0 13.9-6.2 13.9-13.9v-.2c0-7.7-6.2-13.9-13.9-13.9h-77.7L444 87.7c5.4-5.4 5.4-14.2 0-19.6-2.6-2.6-6.1-4.1-9.8-4.1-3.7 0-7.2 1.4-9.8 4L307.3 184.3v-77.7c0-7.7-6.2-13.9-13.9-13.9h-.2c-7.7 0-13.9 6.2-13.9 13.9v112.2c0 7.7 6.2 14 13.8 14zM77.9 448c3.7 0 7.2-1.4 9.8-4l117.1-116.3v77.7c0 7.7 6.2 13.9 13.9 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512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M352 115h90c3.3 0 6-2.7 6-6 0-8.2-3.7-16-10-21.3l-77.1-64.2c-4.9-4.1-14.2-7.4-20.6-7.4-4.1 0-7.4 3.3-7.4 7.4V96c.1 10.5 8.6 19 19.1 19z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M307 96V16H176c-17.6 0-32 14.4-32 32v336c0 17.6 14.4 32 32 32h240c17.6 0 32-14.4 32-32V141h-96c-24.8 0-45-20.2-45-45z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M116 412V80H96c-17.6 0-32 14.4-32 32v352c0 17.6 14.4 32 32 32h256c17.6 0 32-14.4 32-32v-20H148c-17.6 0-32-14.4-32-32z\"}}]})(props);\n};\nexport function IoIosCreate (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M404.3 86l-202 202c-1.5 1.5-2.3 3.5-2.3 5.6v26.5c0 4.4 3.6 7.9 7.9 7.9h26.3c2.1 0 4.2-.8 5.7-2.3l202.1-202c3.1-3.1 3.1-8.1 0-11.2L415.5 86c-3.1-3.1-8.1-3.1-11.2 0zM475.6 67l-14.4-14.4-.2-.2c-3.1-2.7-7.2-4.4-11.5-4.4-4.4 0-8.5 1.7-11.6 4.5l-11.3 11.4c-1.5 1.6-1.5 4.1 0 5.6L437 79.9l21.7 21.7c1.6 1.6 4.1 1.6 5.7 0l11.3-11.3c2.8-3.1 4.4-7.1 4.4-11.6-.1-4.4-1.7-8.6-4.5-11.7z\"}},{\"tag\":\"g\",\"attr\":{},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M250 342c-3 3-7.1 4.7-11.3 4.7H197.3c-8.8 0-16-7.2-16-16V289.2c0-4.2 1.7-8.3 4.7-11.3l.8-.8 147.6-147.6c2.5-2.5.7-6.8-2.8-6.8H90.7C58.3 122.7 32 149 32 181.4v224c0 32.4 26.3 58.7 58.7 58.7h256c32.4 0 58.7-26.3 58.7-58.7v-209c0-3.6-4.3-5.3-6.8-2.8L250.8 341.2l-.8.8z\"}}]}]})(props);\n};\nexport function IoIosCrop (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M142 64c-7.7 0-14 6.3-14 14v20c0 7.7 6.3 14 14 14s14-6.3 14-14V78c0-7.7-6.3-14-14-14zM156 342V190c0-7.7-6.3-14-14-14s-14 6.3-14 14v166c0 15.5 12.5 28 28 28h166c7.7 0 14-6.3 14-14s-6.3-14-14-14H170c-7.7 0-14-6.3-14-14zM434 356h-20c-7.7 0-14 6.3-14 14s6.3 14 14 14h20c7.7 0 14-6.3 14-14s-6.3-14-14-14z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M64 142c0 7.7 6.3 14 14 14h264c7.7 0 14 6.3 14 14v264c0 7.7 6.3 14 14 14s14-6.3 14-14V156c0-15.5-12.5-28-28-28H78c-7.7 0-14 6.3-14 14z\"}}]})(props);\n};\nexport function IoIosCube (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M440.8 129.5L261.7 49.2c-3.6-1.6-7.7-1.6-11.3 0L71.2 129.5c-6 2.7-6.2 11.8-.4 14.8l178.7 94.1c4.1 2.2 8.9 2.2 13 0l178.7-94.1c5.8-3 5.6-12.1-.4-14.8zM280.2 462.9l180.1-95.3c2.2-1.4 3.6-4 3.6-6.8V175.9c0-5.9-5.8-9.7-10.7-7.1l-180.1 92.8c-2.6 1.3-4.2 4.1-4.2 7.1V456c.1 6.2 6.4 10 11.3 6.9zM48 175.9v184.8c0 2.8 1.4 5.4 3.6 6.8l180.1 95.3c5 3.2 11.2-.6 11.2-6.8V268.7c0-3-1.6-5.8-4.2-7.1l-180-92.8c-4.9-2.6-10.7 1.3-10.7 7.1z\"}}]})(props);\n};\nexport function IoIosCut (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M308 277.2c25.5-33 80.5-111.5 90.2-135.4 7.2-17.6 10.6-32.8 10.4-46.2-.2-17.9-6-29.3-18.3-40.6-5.2-4.8-13.5-6.9-20-6.9L255.9 201.7l-10 13.4-2.9 3.9-.1.1-14.5 19.7c-.1.1-.2.3-.3.4-.5.8-7.5 10.9-15.2 22.7-3 4.6-6.1 9.5-9 14.1-3.5 5.6-6.6 11-8.8 15.2-3.6 7.1-7.3 14.4-10.7 21.5-3.7 7.5-7.2 14.6-10.4 20.7-10.2-7.3-22-11.1-34.3-11.1-17.5 0-33.7 7.7-45.8 21.6C82.4 357.1 76 374.6 76 393.1c0 18.5 6.4 36 17.9 49.3 12.1 13.9 28.4 21.6 45.8 21.6 14.4 0 28-5.2 39.2-15 10.5-9.1 18-21.3 21.8-35.4 1-3.1 11.6-34.7 26.1-57.3 9.2-14.4 22.2-23.4 29.6-27.8l13.5-9.7c0 .1 12.7-8.7 38.1-41.6zM139.9 421.1c-13.3 0-24-12.6-24-28s10.7-28 24-28 24 12.6 24 28c0 15.5-10.8 28-24 28zm116.2-132.9c-8.8 0-16-7.2-16-16s7.2-16 16-16 16 7.2 16 16-7.2 16-16 16z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M191.5 260.4c.7 1 1.6 1.9 2.5 2.7 1.7-2.8 3.6-5.7 5.4-8.6l46.5-65.8L140.9 48c-8.9 0-14.4.9-18.5 3.9-11.9 8.9-19.1 25.6-19.3 43.6-.2 13.5 3.3 28.6 10.4 46.2 8.6 21 42.6 70.2 78 118.7zM372 322.3c-12.3 0-24.1 3.8-34.3 11.1-3.2-6.1-6.7-13.2-10.4-20.7-3.4-6.9-6.9-14-10.4-20.8L306 305.8l-36.4 33.1c5.2 4.6 10.7 10.4 15.3 17.5 14.5 22.6 25 54.2 26 57.3 3.8 14.1 11.3 26.3 21.8 35.4 11.3 9.8 24.9 15 39.2 15 35.3 0 64-31.8 64-70.9s-28.6-70.9-63.9-70.9zm.1 98.8c-13.3 0-24-12.6-24-28s10.7-28 24-28 24 12.6 24 28c0 15.5-10.7 28-24 28z\"}}]})(props);\n};\nexport function IoIosDesktop (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M352 442.2c-.3-2.2-2-3.9-4.2-4.3l-22.3-1.9c-11.8-3.1-20.5-16.2-22.3-28.3L302 400h-92l-1.2 7.6c-1.9 12.1-10.5 25.2-22.3 28.3l-22.3 1.9c-2.1.5-3.9 2.2-4.2 4.3-.4 3.1 2 5.8 5.1 5.8h181.8c3 .1 5.5-2.6 5.1-5.7zM472.9 71c-4.5-4.5-10.7-7-17-7H56.2c-6.4 0-12.5 2.5-17 7S32 81.7 32 88v272c0 6.4 2.7 12.5 7.2 17s10.5 7 16.8 7h400c6.4 0 12.3-2.5 16.8-7s7.2-10.7 7.2-17V88c.1-6.3-2.6-12.5-7.1-17zM256 360c-4.4 0-8-3.6-8-8s3.6-8 8-8 8 3.6 8 8-3.6 8-8 8zm203.9-40H52.2c-2.2 0-4-1.8-4-4V92c0-6.6 5.4-12 12-12h391.7c6.6 0 12 5.4 12 12v224c0 2.2-1.8 4-4 4z\"}}]})(props);\n};\nexport function IoIosDisc (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M256 165.8c-49.9 0-90.3 40.4-90.3 90.3s40.4 90.2 90.3 90.2 90.3-40.4 90.3-90.2c0-49.9-40.4-90.3-90.3-90.3zm0 130.6c-22.3 0-40.4-18.1-40.4-40.4s18.1-40.4 40.4-40.4 40.4 18.1 40.4 40.4-18.1 40.4-40.4 40.4z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M256 48C141.1 48 48 141.1 48 256s93.1 208 208 208 208-93.1 208-208S370.9 48 256 48zm0 322c-63 0-114-51.1-114-114 0-63 51.1-114 114-114s114 51 114 114-51 114-114 114z\"}}]})(props);\n};\nexport function IoIosDocument (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M312 155h91c2.8 0 5-2.2 5-5 0-8.9-3.9-17.3-10.7-22.9L321 63.5c-5.8-4.8-13-7.4-20.6-7.4-4.1 0-7.4 3.3-7.4 7.4V136c0 10.5 8.5 19 19 19z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M267 136V56H136c-17.6 0-32 14.4-32 32v336c0 17.6 14.4 32 32 32h240c17.6 0 32-14.4 32-32V181h-96c-24.8 0-45-20.2-45-45z\"}}]})(props);\n};\nexport function IoIosDoneAll (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M317.5 210.3c1.7-1.8 1.8-4.7 0-6.5l-19.8-21c-.8-.9-2-1.4-3.2-1.4-1.2 0-2.4.5-3.2 1.4l-66.5 69.1 26.4 27.1 66.3-68.7zM123.8 253.1c-.9-.9-2-1.4-3.2-1.4-1.2 0-2.3.5-3.2 1.4l-20.1 20.7c-1.8 1.8-1.8 4.8 0 6.6l63.2 65c4 4.2 9 6.6 13.2 6.6 6 0 11.1-4.5 13.1-6.4l.1-.1 13.4-13.8-76.5-78.6z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M414.7 182.4l-19.8-21c-.8-.9-2-1.4-3.2-1.4-1.2 0-2.4.5-3.2 1.4L250.7 304.1l-50.1-51.6c-.9-.9-2-1.4-3.2-1.4-1.2 0-2.3.5-3.2 1.4l-20.1 20.7c-1.8 1.8-1.8 4.8 0 6.6l63.2 65c4 4.2 9 6.6 13.2 6.6 6 0 11.1-4.5 13.1-6.4l.1-.1 151-156.1c1.7-1.7 1.7-4.6 0-6.4z\"}}]})(props);\n};\nexport function IoIosDownload (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M376 144H269v179.9l47.9-47.2c5.1-5 13.3-5 18.4.1 5 5.1 5 13.3-.1 18.4l-70 69c-2.5 2.4-5.8 3.7-9.1 3.7-1.7 0-3.4-.3-5-1-1.5-.6-2.9-1.6-4.1-2.7l-70-69c-5.1-5-5.2-13.3-.1-18.4 5-5.1 13.3-5.2 18.4-.1l47.9 47.2V144H136c-22 0-40 18-40 40v240c0 22 18 40 40 40h240c22 0 40-18 40-40V184c0-22-18-40-40-40zM269 61c0-7.2-5.8-13-13-13s-13 5.8-13 13v83h26V61z\"}}]})(props);\n};\nexport function IoIosEasel (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M434 461.5l-26.6-69.1c-2.1-5.1-7-8.4-12.4-8.4-4.5 0-8.6 2.2-11.1 5.9s-3 8.4-1.4 12.5l26 69.1c2.1 5.1 7 8.5 12.5 8.5h.5c4.5 0 8.7-2.2 11.2-5.9 2.5-3.8 3-8.5 1.3-12.6zM117.6 384c-5.5 0-10.4 3.3-12.4 8.4l-26.6 69.1c-1.7 4.2-1.2 8.9 1.3 12.6 2.5 3.7 6.7 5.9 11.2 5.9h.5c5.5 0 10.4-3.3 12.5-8.5l26-69.1c1.7-4.1 1.2-8.8-1.4-12.5-2.4-3.7-6.6-5.9-11.1-5.9zM256.6 384h-1.1c-7.4 0-13.4 6-13.4 13.4v36.1c0 7.4 6 14.4 13.4 14.4h1.1c7.4 0 13.4-7 13.4-14.4v-36.1c0-7.4-6-13.4-13.4-13.4z\"}},{\"tag\":\"g\",\"attr\":{},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M424 128H88c-4.4 0-8 3.6-8 8v176c0 4.4 3.6 8 8 8h336c4.4 0 8-3.6 8-8V136c0-4.4-3.6-8-8-8z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M448 80H63.9C46.3 80 32 94.3 32 111.9v224.2c0 17.6 14.3 31.9 31.9 31.9H448c17.7 0 32-14.3 32-32V112c0-17.7-14.3-32-32-32zm4 244c0 8.8-7.2 16-16 16H76c-8.8 0-16-7.2-16-16V124c0-8.8 7.2-16 16-16h364.6c3 0 5.9 1.2 8 3.3 2.1 2.1 3.3 5 3.3 8V324z\"}}]},{\"tag\":\"path\",\"attr\":{\"d\":\"M256 32c-13.4-.2-24.4 12.2-24.4 25.6h48.7c.1-13.4-10.9-25.8-24.3-25.6z\"}}]})(props);\n};\nexport function IoIosEgg (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M256 32C192 32 96 165.2 96 288.9 96 412.6 160 480 256 480s160-67.4 160-191.1C416 165.2 320 32 256 32z\"}}]})(props);\n};\nexport function IoIosExit (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M144 136v107h179.9l-47.2-47.9c-5-5.1-5-13.3.1-18.4 5.1-5 13.3-5 18.4.1l69 70c2.4 2.5 3.7 5.8 3.7 9.1 0 1.7-.3 3.4-1 5-.6 1.5-1.6 2.9-2.7 4.1l-69 70c-5 5.1-13.3 5.2-18.4.1-5.1-5-5.2-13.3-.1-18.4l47.2-47.9H144v107c0 22 18 40 40 40h240c22 0 40-18 40-40V136c0-22-18-40-40-40H184c-22 0-40 18-40 40zM61 243c-7.2 0-13 5.8-13 13s5.8 13 13 13h83v-26H61z\"}}]})(props);\n};\nexport function IoIosExpand (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M112.4 92h77.7c7.7 0 13.9-6.2 13.9-13.9v-.2c0-7.7-6.2-13.9-13.9-13.9H77.9C70.2 64 64 70.2 64 77.9v112.2c0 7.7 6.2 13.9 13.9 13.9h.2c7.7 0 13.9-6.2 13.9-13.9v-77.7l117.1 116.3c2.6 2.6 6.1 4 9.8 4 3.7 0 7.2-1.4 9.8-4.1 5.4-5.4 5.4-14.2 0-19.6L112.4 92zM434.1 64H321.9c-7.7 0-13.9 6.2-13.9 13.9v.2c0 7.7 6.2 13.9 13.9 13.9h77.7L283.3 209.1c-5.4 5.4-5.4 14.2 0 19.6 2.6 2.6 6.1 4.1 9.8 4.1 3.7 0 7.2-1.4 9.8-4L420 112.4v77.7c0 7.7 6.2 13.9 13.9 13.9h.2c7.7 0 13.9-6.2 13.9-13.9V77.9c0-7.7-6.2-13.9-13.9-13.9zM218.9 279.2c-3.7 0-7.2 1.4-9.8 4L92 399.6v-77.7c0-7.7-6.2-13.9-13.9-13.9h-.2c-7.7 0-13.9 6.2-13.9 13.9v112.2c0 7.7 6.2 13.9 13.9 13.9h112.2c7.7 0 13.9-6.2 13.9-13.9v-.2c0-7.7-6.2-13.9-13.9-13.9h-77.7l116.3-117.1c5.4-5.4 5.4-14.2 0-19.6-2.6-2.6-6.1-4.1-9.8-4.1zM434.1 308h-.2c-7.7 0-13.9 6.2-13.9 13.9v77.7L302.9 283.3c-2.6-2.6-6.1-4-9.8-4-3.7 0-7.2 1.4-9.8 4.1-5.4 5.4-5.4 14.2 0 19.6l116.3 117h-77.7c-7.7 0-13.9 6.2-13.9 13.9v.2c0 7.7 6.2 13.9 13.9 13.9h112.2c7.7 0 13.9-6.2 13.9-13.9V321.9c0-7.7-6.2-13.9-13.9-13.9z\"}}]})(props);\n};\nexport function IoIosEyeOff (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M88.3 68.1c-5.6-5.5-14.6-5.5-20.1.1-5.5 5.5-5.5 14.5 0 20l355.5 355.7c3.7 3.7 9 4.9 13.7 3.6 2.4-.6 4.6-1.9 6.4-3.7 5.5-5.5 5.5-14.5 0-20L88.3 68.1zM260.2 345.9c-53 2.4-96.6-41.2-94.1-94.1.6-12.2 3.6-23.8 8.6-34.3L121.3 164c-27.7 21.4-55.4 48.9-85.1 81.3-5.5 6.1-5.6 15.2-.1 21.3C101 338.3 158.2 400 255.8 400c29.7 0 57.1-7.4 82.3-19.2l-43.5-43.5c-10.6 5-22.2 8-34.4 8.6zM475.8 266c5.3-5.8 5.6-14.6.5-20.7C424 181.8 351.5 112 255.8 112c-29.1 0-56 6.6-82 19l43.7 43.7c10.5-5 22.1-8.1 34.3-8.6 53-2.4 96.6 41.2 94.1 94.1-.6 12.2-3.6 23.8-8.6 34.3l53.5 53.5c33-25.3 61.3-55.9 85-82z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M192.2 260.9c2.4 31.3 27.6 56.5 58.9 58.9 8.2.6 16.1-.3 23.4-2.6l-79.8-79.8c-2.2 7.4-3.1 15.3-2.5 23.5zM320 256c0-1.3-.1-2.6-.1-3.9-5.6 2.5-11.7 3.9-18.2 3.9-1.1 0-2.1 0-3.1-.1l18.6 18.7c1.8-5.9 2.8-12.2 2.8-18.6zM256 209c0-6 1.1-11.7 3.1-16.9-1 0-2-.1-3.1-.1-6.4 0-12.6 1-18.5 2.8l18.7 18.7c-.1-1.5-.2-3-.2-4.5z\"}}]})(props);\n};\nexport function IoIosEye (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M255.8 112c-80.4 0-143.8 50.6-219.6 133.3-5.5 6.1-5.6 15.2-.1 21.3C101 338.3 158.2 400 255.8 400c96.4 0 168.7-77.7 220.1-134 5.3-5.8 5.6-14.6.5-20.7C424 181.8 351.5 112 255.8 112zm4.4 233.9c-53 2.4-96.6-41.2-94.1-94.1 2.1-46.2 39.5-83.6 85.7-85.7 53-2.4 96.6 41.2 94.1 94.1-2.1 46.2-39.5 83.6-85.7 85.7z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M256 209c0-6 1.1-11.7 3.1-16.9-1 0-2-.1-3.1-.1-36.9 0-66.6 31.4-63.8 68.9 2.4 31.3 27.6 56.5 58.9 58.9 37.5 2.8 68.9-26.9 68.9-63.8 0-1.3-.1-2.6-.1-3.9-5.6 2.5-11.7 3.9-18.2 3.9-25.2 0-45.7-21.1-45.7-47z\"}}]})(props);\n};\nexport function IoIosFastforward (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M476.1 249.3L268 129.1c-5.4-3.1-12.3.6-12.3 6.7V251L44.3 129.1c-5.4-3.1-12.3.6-12.3 6.7v240.3c0 6.1 6.9 9.8 12.3 6.7L255.6 261v115.2c0 6.1 6.9 9.8 12.3 6.7L476 262.7c5.3-3 5.3-10.4.1-13.4z\"}}]})(props);\n};\nexport function IoIosFemale (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M61.6 464c3.6 0 7.1-1.4 9.6-4l44.8-44.8 37 37c2.6 2.6 6 4 9.6 4 3.6 0 7.1-1.4 9.6-4 5.3-5.3 5.3-13.9 0-19.2l-37-37 50-50c30.6 26 69.3 40.3 109.6 40.3 22.8 0 45-4.5 65.8-13.3 20.1-8.5 38.2-20.7 53.8-36.2 15.5-15.5 27.7-33.6 36.2-53.8 8.8-20.9 13.3-43 13.3-65.8s-4.5-45-13.3-65.8c-8.5-20.1-20.7-38.2-36.2-53.8-15.5-15.5-33.6-27.7-53.8-36.2-20.9-8.8-43-13.3-65.8-13.3-22.8 0-45 4.5-65.8 13.3-20.1 8.5-38.2 20.7-53.8 36.2-15.5 15.5-27.7 33.6-36.2 53.8-8.8 20.9-13.3 43-13.3 65.8 0 40.3 14.3 79 40.3 109.6l-50 50-37-37c-2.6-2.6-6-4-9.6-4-3.6 0-7.1 1.4-9.6 4-5.3 5.3-5.3 13.9 0 19.2l37 37L52 440.8c-5.3 5.3-5.3 13.9 0 19.2 2.6 2.6 6 4 9.6 4zm132.9-347.2C221.3 90 257 75.2 294.9 75.2c37.9 0 73.5 14.8 100.3 41.6 26.8 26.8 41.6 62.4 41.6 100.3s-14.8 73.5-41.6 100.3c-26.8 26.8-62.4 41.6-100.3 41.6s-73.5-14.8-100.3-41.6C167.7 290.7 153 255 153 217.1s14.7-73.5 41.5-100.3z\"}}]})(props);\n};\nexport function IoIosFiling (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M424 64H88c-22 0-40 18-40 40v304c0 22 18 40 40 40h336c22 0 40-18 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8-8h48c4.4 0 8 3.6 8 8v48zm0-80c0 4.4-3.6 8-8 8H64c-4.4 0-8-3.6-8-8v-48c0-4.4 3.6-8 8-8h48c4.4 0 8 3.6 8 8v48zm232 108H160c-6.6 0-12-5.4-12-12s5.4-12 12-12h192c6.6 0 12 5.4 12 12s-5.4 12-12 12zm104 132c0 4.4-3.6 8-8 8h-48c-4.4 0-8-3.6-8-8v-48c0-4.4 3.6-8 8-8h48c4.4 0 8 3.6 8 8v48zm0-80c0 4.4-3.6 8-8 8h-48c-4.4 0-8-3.6-8-8v-48c0-4.4 3.6-8 8-8h48c4.4 0 8 3.6 8 8v48zm0-80c0 4.4-3.6 8-8 8h-48c-4.4 0-8-3.6-8-8v-48c0-4.4 3.6-8 8-8h48c4.4 0 8 3.6 8 8v48zm0-80c0 4.4-3.6 8-8 8h-48c-4.4 0-8-3.6-8-8v-48c0-4.4 3.6-8 8-8h48c4.4 0 8 3.6 8 8v48z\"}}]})(props);\n};\nexport function IoIosFingerPrint (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M450.8 182c-8.6-24.4-20.3-44.9-33-57.5-2.6-2.6-6-4-9.7-4-3.7 0-7.1 1.4-9.7 4-5.3 5.3-5.3 14 0 19.4 9.9 9.9 19.6 27.4 26.8 48.1 7.3 21.2 11.4 43.6 11.4 63.1 0 3-.1 7.6-.2 10.1-.2 3.7 1.1 7.1 3.6 9.8 2.5 2.7 5.8 4.3 9.5 4.4h.6c7.3 0 13.3-5.7 13.7-13.1.1-3.1.2-8.1.2-11.3 0-22.8-4.7-48.8-13.2-73zM143 110.6c2.9 0 5.6-.9 8-2.6 29.9-21.4 66.2-32.7 105-32.7 40.8 0 80.1 14.8 113.7 42.8 2.5 2 5.6 3.2 8.8 3.2 4.1 0 7.9-1.8 10.5-4.9 4.8-5.8 4-14.4-1.7-19.3C348.6 65 303.3 48 256 48c-44.6 0-86.4 13.1-121 37.8-3 2.1-4.9 5.3-5.5 8.9-.6 3.6.2 7.2 2.4 10.2 2.5 3.6 6.7 5.7 11.1 5.7zM75.4 255c0-43.7 15.8-85.8 44.5-118.7 2.4-2.8 3.6-6.3 3.3-9.9-.2-3.6-1.9-7-4.7-9.4-2.5-2.2-5.7-3.4-9-3.4-4 0-7.7 1.7-10.3 4.7C66.2 156.2 48 204.7 48 255c0 32.8 5.9 58.8 15.4 90.2 1.8 5.8 7 9.7 13.1 9.7 1.3 0 2.7-.2 4-.6 3.5-1.1 6.4-3.4 8.1-6.6 1.7-3.2 2.1-6.9 1-10.4-8.8-29-14.2-52.8-14.2-82.3z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M355.7 129.8C328.4 106.1 295 93.6 259 93.6c-48.3 0-91.4 17.8-121.5 50.1-28.7 30.8-42.8 71.7-39.7 115.1 2.3 32.7 6 50.7 9.3 66.6 4.3 21.1 7.7 37.8 5.1 84.1-.4 6.7 3.7 12.7 10 14.6 1.2.4 2.3.5 3.6.5 7.2 0 13.2-5.7 13.7-12.9 2.9-50.4-.8-68.7-5.5-91.9-3.1-15.1-6.6-32.2-8.8-63.1-2.6-35.7 9-69.3 32.4-94.5 24.8-26.7 60.9-41.4 101.4-41.4 29.3 0 56.5 10.2 78.7 29.5 22.3 19.3 39.2 47.4 49 81.1 11.4 39.3 14.5 89.3 9.1 144.5-.7 7.5 4.8 14.2 12.3 15 .4 0 .9.1 1.3.1 7.1 0 12.9-5.3 13.6-12.4 5.8-58.7 2.3-112.2-10.1-154.8-11.1-38.6-30.9-71.2-57.2-94z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M373.5 267.5c-5.9-37.5-19.9-68.8-40.6-90.6-20.8-22-47.4-33.7-76.9-33.7-19 0-37.7 4.1-54.1 12-3.7 1.8-6.4 5.1-7.4 9.1-1 4.1-.1 8.3 2.5 11.6 2.6 3.4 6.5 5.3 10.8 5.3 2.1 0 4-.5 5.9-1.3 12.6-6 27.2-9.2 42.2-9.2 22.4 0 42.5 9.2 58.3 26.6 16.1 17.8 27.3 43.6 32.1 74.6 4.7 29.6 7 53.5 7.1 73.1.2 39.7-4.8 72.7-4.8 73.1-.6 3.6.3 7.2 2.5 10.2 2.2 3 5.3 4.9 8.9 5.5.7.1 1.4.2 2.1.2 6.8 0 12.5-4.9 13.5-11.6.2-1.4 5.4-35.2 5.2-77.5 0-21.3-2.4-46.5-7.3-77.4zM185.3 203.5c4-5.8 2.9-13.6-2.5-18.2-2.5-2.1-5.6-3.2-8.8-3.2-4.5 0-8.7 2.2-11.3 5.9-14.7 21.5-19.7 49.1-14.4 79.8 8.9 51.3 16.9 111.1 9.4 165-.5 3.8.5 7.7 2.9 10.7 2.3 3 5.7 4.8 9.4 5.1.4 0 .8.1 1.2.1 6.8 0 12.6-5.1 13.5-11.8 8.2-57.7-.2-120.2-9.5-173.8-4.1-23.8-.7-43.9 10.1-59.6zM317.5 388h-.5c-7.6.3-13.5 6.6-13.2 14.2 0 .2.6 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GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M352 280H160c-4.4 0-8-3.6-8-8v-32c0-4.4 3.6-8 8-8h192c4.4 0 8 3.6 8 8v32c0 4.4-3.6 8-8 8zM378 362V150c0-12.1 9.9-22 22-22s22 9.9 22 22v212c0 12.1-9.9 22-22 22s-22-9.9-22-22zM460 192h-12c-4.4 0-8 3.6-8 8v112c0 4.4 3.6 8 8 8h12c11 0 20-9 20-20v-88c0-11-9-20-20-20zM134 362V150c0-12.1-9.9-22-22-22s-22 9.9-22 22v212c0 12.1 9.9 22 22 22s22-9.9 22-22zM64 192H52c-11 0-20 9-20 20v88c0 11 9 20 20 20h12c4.4 0 8-3.6 8-8V200c0-4.4-3.6-8-8-8z\"}}]})(props);\n};\nexport function IoIosFlag (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M406.7 80.8c-3.1.5-6.4 1-9.9 1.4-13.2 1.7-42.8 5.2-60.6 5.2-27.7 0-52.8-6.8-78.2-12.2-25.8-5.5-52.4-11.2-80.6-11.2-56.2 0-75.3 12.1-77.3 13.4L96 80.3v353.3c0 7.2 5.2 13.4 12.3 14.3 8.5 1 15.7-5.6 15.7-13.9V279.6c0-3.8 2.7-7.1 6.4-7.9 10.5-2.1 25.8-3.9 47-3.9 26.2 0 50.7 10 76.6 15.5 26.4 5.6 48.6 11.5 83.4 11.5s71.8-6.6 71.8-6.6c3.9-.6 6.9-3.9 6.9-7.9V88.7c-.1-4.9-4.5-8.7-9.4-7.9z\"}}]})(props);\n};\nexport function IoIosFlame (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M220.1 48C249.1 182.6 111 179.9 112 315.4c.8 111 118.4 148.6 144.5 148.6 26.1 0 134.8-23.6 143.1-148.6 7.1-106.4-81.7-208-179.5-267.4zm74.3 354.7c-10.2 38.9-66 39-76.4.1-1.5-5.6-2.4-11.5-2.4-17.5 0-41 40.6-88.3 40.6-88.3s40.4 47.3 40.4 88.3c.1 6-.7 11.8-2.2 17.4z\"}}]})(props);\n};\nexport function IoIosFlashOff (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M382.1 442.7L154.5 55c-4-6.7-12.7-9-19.5-5.1-6.8 3.9-9.1 12.6-5.1 19.3L357.5 457c2.6 4.5 7.4 7 12.3 7 2.4 0 4.9-.6 7.2-1.9 6.7-4 9-12.6 5.1-19.4zM324.6 313.3l57.9-75.8c3.8-5.6.2-13.4-6.3-13.4h-104l52.4 89.2zM320.4 37.1c.9-4.5-4.6-7.1-7.2-3.4L227 146.9l42.4 72.3 51-182.1zM187.4 198.7l-57.9 75.8c-3.8 5.6-.2 13.4 6.3 13.4h103.9l-52.3-89.2zM191.6 474.9c-.9 4.5 4.6 7.1 7.2 3.4L285 365.1l-42.4-72.3-51 182.1z\"}}]})(props);\n};\nexport function IoIosFlash (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M376.2 224H268l52.4-186.9c.9-4.5-4.6-7.1-7.2-3.4L129.5 274.6c-3.8 5.6-.2 13.4 6.3 13.4H244l-52.4 186.9c-.9 4.5 4.6 7.1 7.2 3.4l183.7-240.8c3.7-5.7.2-13.5-6.3-13.5z\"}}]})(props);\n};\nexport function IoIosFlashlight (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M317 32H195c-17.6 0-24 14.4-24 32h170c0-17.6-6.4-32-24-32zM196.1 147.5c7.6 8.8 11.9 20 11.9 31.7v265.9c0 21.9 17.9 34.9 39.9 34.9h16.3c21.9 0 39.9-12.9 39.9-34.9V179.2c0-11.7 4.3-22.8 11.9-31.7 15.4-17.9 25-34.5 25-67.5H171c0 35 9.6 49.6 25.1 67.5zm31.9 90.8c0-15.6 12.6-28.3 28-28.3s28 12.7 28 28.3v35.4c0 15.6-12.6 28.3-28 28.3s-28-12.7-28-28.3v-35.4z\"}},{\"tag\":\"circle\",\"attr\":{\"cx\":\"256\",\"cy\":\"273\",\"r\":\"20\"}}]})(props);\n};\nexport function IoIosFlask (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M437.4 354.4L320.7 159.9c-.4-.6-.6-1.3-.6-2.1V80c0-2.2 1.8-4 4-4 6.6 0 12-5.4 12-12v-4c0-6.6-5.4-12-12-12H187.8c-6.6 0-12 5.4-12 12v4c0 6.6 5.4 12 12 12 2.2 0 4 1.8 4 4v77.9c0 .7-.2 1.4-.6 2L75.7 354.4c-8.4 15.8-12.5 31.4-12.1 45.6 1.1 36.5 28.8 64 65.2 64h256.6c36.4 0 62.3-27.6 63.2-64 .2-14.2-2.7-29.7-11.2-45.6zM161.8 288c-6.2 0-10.1-6.8-6.9-12.1l60.5-101.7c2.9-4.9 4.5-10.6 4.5-16.3V80c0-1.4-.1-2.7-.2-4h72.7c-.2 1.3-.2 2.6-.2 4v77.9c0 5.8 1.6 11.5 4.6 16.4l60.4 101.6c3.2 5.3-.7 12.1-6.9 12.1H161.8z\"}}]})(props);\n};\nexport function IoIosFlower (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M385.1 230.2c-26.7 0-60.1 6.9-86.3 13.5-.9-3.2-2.1-6.2-3.7-9.1 23.2-13.8 51.7-32.5 70.5-51.4 36.7-36.7 48.3-63.6 37.6-74.3-2.6-2.6-6-3.8-10.3-3.8-13.8 0-36 13.4-64 41.4-18.8 18.8-37.6 47.2-51.4 70.4-2.8-1.6-5.9-2.8-9.1-3.8 6.7-26.2 13.5-59.5 13.5-86.1 0-51.9-10.8-79.1-26-79.1s-26 27.2-26 79.1c0 26.6 6.8 60 13.5 86.1-3.2.9-6.2 2.2-9.1 3.8-13.8-23.2-32.5-51.6-51.4-70.4-28-28-50.3-41.4-64-41.4-4.3 0-7.7 1.3-10.3 3.8-10.8 10.8.8 37.6 37.6 74.3 18.9 18.9 47.3 37.6 70.5 51.4-1.5 2.8-2.8 5.9-3.7 9.1-26.2-6.7-59.6-13.5-86.3-13.5-51.8 0-78.7 10.6-78.7 25.8s26.9 26.2 78.9 26.2c26.7 0 60.2-6.9 86.4-13.6.9 3.1 2.2 6.2 3.8 9-23.3 13.8-51.8 32.6-70.7 51.5-36.7 36.7-48.3 63.6-37.6 74.3 2.6 2.6 6 3.8 10.3 3.8 13.8 0 36-13.4 64-41.4 18.9-18.9 37.8-47.5 51.6-70.8 2.8 1.5 5.8 2.8 9 3.7-6.7 26.2-13.6 59.8-13.6 86.5 0 51.9 10.8 78.6 26 78.6s26-26.7 26-78.6c0-26.8-6.9-60.3-13.6-86.5 3.1-.9 6.1-2.1 9-3.7 13.8 23.3 32.6 51.9 51.6 70.8 28 28 50.3 41.4 64 41.4 4.3 0 7.7-1.3 10.3-3.8 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15h6.2c3.3 21.2 13.3 40.6 28.5 55.3 17.3 16.6 39.8 25.8 63.4 25.8 51.3 0 93.1-43 93.1-95.9v-.2c0-5.9 6.9-14.9 17.3-14.9s17.3 9 17.3 14.9v.1c0 52.9 41.8 95.9 93.1 95.9 23.7 0 46.2-9.1 63.4-25.8 15.2-14.7 25.2-34.2 28.5-55.4h6.2c8 0 14.5-6.7 14.5-15 0-8.1-6.5-14.9-14.5-14.9z\"}}]})(props);\n};\nexport function IoIosGlobe (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M256 48h-.7c-55.4.2-107.4 21.9-146.6 61.1C69.6 148.4 48 200.5 48 256s21.6 107.6 60.8 146.9c39.1 39.2 91.2 60.9 146.6 61.1h.7c114.7 0 208-93.3 208-208S370.7 48 256 48zm180.2 194h-77.6c-.9-26.7-4.2-52.2-9.8-76.2 17.1-5.5 33.7-12.5 49.7-21 22 28.2 35 61.6 37.7 97.2zM242 242h-61.8c.8-24.5 3.8-47.7 8.8-69.1 17.4 3.9 35.1 6.3 53 7.1v62zm0 28v61.9c-17.8.8-35.6 3.2-53 7.1-5-21.4-8-44.6-8.8-69H242zm28 0h61.3c-.8 24.4-3.8 47.6-8.8 68.9-17.2-3.9-34.8-6.2-52.5-7V270zm0-28v-62c17.8-.8 35.4-3.2 52.5-7 5 21.4 8 44.5 8.8 69H270zm109.4-117.9c-12.3 6.1-25 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GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M206 308h100c1.1 0 2-.9 2-2V206c0-1.1-.9-2-2-2H206c-1.1 0-2 .9-2 2v100c0 1.1.9 2 2 2z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M64 96v320c0 17.7 14.3 32 32 32h320c17.7 0 32-14.3 32-32V96c0-17.7-14.3-32-32-32H96c-17.7 0-32 14.3-32 32zm330 108h-56c-1.1 0-2 .9-2 2v100c0 1.1.9 2 2 2h56c7.7 0 14 6.3 14 14s-6.3 14-14 14h-56c-1.1 0-2 .9-2 2v56c0 7.7-6.3 14-14 14s-14-6.3-14-14v-56c0-1.1-.9-2-2-2H206c-1.1 0-2 .9-2 2v56c0 7.7-6.3 14-14 14s-14-6.3-14-14v-56c0-1.1-.9-2-2-2h-56c-7.7 0-14-6.3-14-14s6.3-14 14-14h56c1.1 0 2-.9 2-2V206c0-1.1-.9-2-2-2h-56c-7.7 0-14-6.3-14-14s6.3-14 14-14h56c1.1 0 2-.9 2-2v-56c0-7.7 6.3-14 14-14s14 6.3 14 14v56c0 1.1.9 2 2 2h100c1.1 0 2-.9 2-2v-56c0-7.7 6.3-14 14-14s14 6.3 14 14v56c0 1.1.9 2 2 2h56c7.7 0 14 6.3 14 14s-6.3 14-14 14z\"}}]})(props);\n};\nexport function IoIosHammer (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M277.6 246.9c-1.1-2-2.5-3.9-4.1-5.5l-18.4-18.2c-1.9-1.9-4.1-3.5-6.6-4.6-8.2-3.6-17.4-1.7-23.4 4.3-6.4 6.3-18.1 17.8-39.2 38.7-40.4 40-98.1 89.6-132 118.2-7.2 6.1-7.7 17-1.1 23.7L92 443.2c6.7 6.7 17.6 6.3 23.8-.9 29.4-34.6 79.5-92.3 119.4-131.8 20.5-20.2 32-31.8 38.5-38.2 6.5-6.6 8.3-16.7 3.9-25.4zM462.4 218.1l-34.5-34.2c-1.1-1.1-2.5-1.6-4-1.6-1.4 0-2.9.5-4 1.6-2.5 2.5-6.1 3.8-9.6 3.3-4.5-.5-9.3-1.9-12.4-4.9-7-6.9 1.1-20.5-5.1-29.2-6.2-8.7-16.1-19.8-23.2-26.9-7.1-7-35-33.7-82-52.9-16.6-6.8-32.8-9.3-47.3-9.3-26.5 0-47.4 8.5-54.8 15.3-5.5 5.1-11.2 14.1-3.1 14.1.7 0 1.5-.1 2.4-.2 4.5-.7 13.3-1.5 23.4-1.5 15.7 0 34.5 2.1 44.6 10.1 16.3 13.1 29.8 30.6 30.9 53.2.8 16.8-3.4 28.2-18.7 45.5-2.8 3.2-2.6 8 .4 10.9l19.2 19.2c3.1 3.1 8.1 3.1 11.2.1 14-13.6 22.1-20.2 31.3-22.7 4-1.1 8.4-1.6 12.8-1.6 9.7 0 19.2 2.2 23.6 4.6 1.1.6 2.1 1.4 3.1 2.4 6.5 6.6 6.1 17.4-.5 23.9l-2 1.9c-2.2 2.2-2.2 5.7 0 7.9l34.5 34.2c1.1 1.1 2.5 1.6 4 1.6 1.4 0 2.9-.5 4-1.6l55.8-55.2c2.1-2.3 2.1-5.8 0-8z\"}}]})(props);\n};\nexport function IoIosHand (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M394.9 117.3c-11.6 0-21.1 9.3-21.1 20.6v109.4c0 4.8-4 8.7-8.9 8.7s-8.9-3.9-8.9-8.7V85.9c0-11.3-9.5-20.6-21.1-20.6-11.6 0-21.1 9.3-21.1 20.6v126.8c0 4.8-4 8.7-8.9 8.7s-8.9-3.9-8.9-8.7V68.6c0-11.3-9.5-20.6-21.1-20.6-11.6 0-21.1 9.3-21.1 20.6V230c0 4.8-4 8.7-8.9 8.7s-8.9-3.9-8.9-8.7V103.2c0-11.3-9.5-20.6-21.1-20.6-11.6 0-21.1 9.3-21.1 20.6v218.3L166 297.9c-26.1-22.7-48.2-32.4-66.2-15.7-12.1 11.8 6.9 30.9 26.8 53.2 19.2 21.5 70 91.9 113.3 117.3 0 0 16.7 11.4 40.6 11.4h57.2c46.1 0 78.4-37.9 78.4-93.2v-233c-.1-11.3-9.6-20.6-21.2-20.6z\"}}]})(props);\n};\nexport function IoIosHappy (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M256 48C141.1 48 48 141.1 48 256s93.1 208 208 208 208-93.1 208-208S370.9 48 256 48zm72 152c13.3 0 24 10.7 24 24s-10.7 24-24 24-24-10.7-24-24 10.7-24 24-24zm-144 0c13.3 0 24 10.7 24 24s-10.7 24-24 24-24-10.7-24-24 10.7-24 24-24zm72 169c-44.7 0-82.3-29.9-94.2-70.7-1.5-5.1 2.3-10.3 7.7-10.3h172.9c5.3 0 9.2 5.1 7.7 10.3-11.8 40.8-49.4 70.7-94.1 70.7z\"}}]})(props);\n};\nexport function IoIosHeadset (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M256 123.8c-24.3 0-46.9 10.1-63.9 28.4-17 18.3-26.1 33.2-26.1 59.6 0 7.7 5.9 14 13.2 14 7.3 0 13.2-6.3 13.2-14 0-17.3 6.6-32.4 19-43.5 11.8-10.6 27.7-16.5 44.7-16.5s32.9 5.8 44.7 16.5c12.4 11.2 19 26.2 19 43.5 0 7.7 5.9 14 13.2 14 7.3 0 13.2-6.3 13.2-14 0-26.4-9.2-41.3-26.1-59.6-17.2-18.4-39.8-28.4-64.1-28.4z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M457.1 278.9C442.3 264.1 422.8 256 402 256h-8c-2.2 0-4-1.8-4-4v-37.8c0-35.7-14-69.3-39.4-94.7C325.3 94 291.7 80 256 80c-35.7 0-69.3 14-94.6 39.4-25.4 25.4-39.4 59-39.4 94.7V252c0 2.2-1.8 4-4 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GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M352 56h-1c-39.7 0-74.8 21-95 52-20.2-31-55.3-52-95-52h-1c-61.9.6-112 50.9-112 113 0 37 16.2 89.5 47.8 132.7C156 384 256 456 256 456s100-72 160.2-154.3C447.8 258.5 464 206 464 169c0-62.1-50.1-112.4-112-113zm41.6 229.2C356.4 336 302.2 383.6 269 410.5c-5.2 4.2-13 .5-13-6.2V198.6c0-26.8 8.5-52.7 23.3-75 .1-.1.1-.2.2-.2 7.7-11.8 18.2-21.6 30.4-28.5 12.6-7.1 26.8-10.8 41.1-10.8h.9c22.5.2 43.7 9.1 59.6 25.1 15.9 16 24.6 37.3 24.6 59.8-.1 29-13.2 76.1-42.5 116.2z\"}}]})(props);\n};\nexport function IoIosHeart (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M352 56h-1c-39.7 0-74.8 21-95 52-20.2-31-55.3-52-95-52h-1c-61.9.6-112 50.9-112 113 0 37 16.2 89.5 47.8 132.7C156 384 256 456 256 456s100-72 160.2-154.3C447.8 258.5 464 206 464 169c0-62.1-50.1-112.4-112-113z\"}}]})(props);\n};\nexport function IoIosHelpBuoy (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M256 48C141.1 48 48 141.1 48 256s93.1 208 208 208 208-93.1 208-208S370.9 48 256 48zm54.6 36.4c27.1 8.6 52 23.6 72.7 44.3 20.7 20.7 35.7 45.6 44.3 72.7l-88.8 6c-8.2-14-19.9-25.7-33.9-34l5.7-89zm-181.9 44.3c20.7-20.7 45.5-35.7 72.7-44.3l5.7 89c-13.9 8.3-25.6 20-33.9 33.9l-88.9-5.9c8.7-27.1 23.7-52 44.4-72.7zm72.7 298.9c-27.1-8.6-52-23.6-72.7-44.3-20.7-20.7-35.7-45.6-44.3-72.7l89-5.7c8.2 13.9 19.9 25.5 33.8 33.8l-5.8 88.9zM256 324c-37.5 0-68-30.5-68-68s30.5-68 68-68 68 30.5 68 68-30.5 68-68 68zm127.3 59.3c-20.7 20.7-45.6 35.7-72.7 44.3l-5.9-88.9c14.1-8.3 25.8-20.1 34.1-34.2l88.8 6c-8.6 27.2-23.6 52.1-44.3 72.8z\"}}]})(props);\n};\nexport function IoIosHelpCircleOutline (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M256 76c48.1 0 93.3 18.7 127.3 52.7S436 207.9 436 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17.5-23.3 30.3v7.9h-34.7l-.3-8.6c-1.7-20.6 5.5-33.4 23.6-44 16.9-10.1 24-16.5 24-28.9s-12-21.5-26.9-21.5c-15.1 0-26 9.8-26.8 24.6H192c.7-32.2 24.5-55 64.7-55 37.5 0 63.3 20.8 63.3 50.7 0 19.9-9.6 33.6-28.1 44.5z\"}}]})(props);\n};\nexport function IoIosHelp (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M256.7 160c37.5 0 63.3 20.8 63.3 50.7 0 19.8-9.6 33.5-28.1 44.4-17.4 10.1-23.3 17.5-23.3 30.3v7.9h-34.7l-.3-8.6c-1.7-20.6 5.5-33.4 23.6-44 16.9-10.1 24-16.5 24-28.9s-12-21.5-26.9-21.5c-15.1 0-26 9.8-26.8 24.6H192c.7-32.2 24.5-54.9 64.7-54.9zm-26.3 171.4c0-11.5 9.6-20.6 21.4-20.6 11.9 0 21.5 9 21.5 20.6s-9.6 20.6-21.5 20.6-21.4-9-21.4-20.6z\"}}]})(props);\n};\nexport function IoIosHome (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M258.5 104.1c-1.5-1.2-3.5-1.2-5 0l-156 124.8c-.9.8-1.5 1.9-1.5 3.1v230c0 1.1.9 2 2 2h108c1.1 0 2-.9 2-2V322c0-1.1.9-2 2-2h92c1.1 0 2 .9 2 2v140c0 1.1.9 2 2 2h108c1.1 0 2-.9 2-2V232c0-1.2-.6-2.4-1.5-3.1l-156-124.8z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M458.7 204.2l-189-151.4C265.9 49.7 261 48 256 48s-9.9 1.7-13.7 4.8L160 119.7V77.5c0-1.1-.9-2-2-2H98c-1.1 0-2 .9-2 2v92.2l-42.7 35.1c-3.1 2.5-5.1 6.2-5.3 10.2-.2 4 1.3 7.9 4.1 10.7 2.6 2.6 6.1 4.1 9.9 4.1 3.2 0 6.3-1.1 8.8-3.1l183.9-148c.5-.4.9-.4 1.3-.4s.8.1 1.3.4l183.9 147.4c2.5 2 5.6 3.1 8.8 3.1 3.7 0 7.2-1.4 9.9-4.1 2.9-2.8 4.4-6.7 4.2-10.7-.3-4-2.2-7.7-5.4-10.2z\"}}]})(props);\n};\nexport function IoIosHourglass (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M415.6 434h-5.1c-6.5 0-12-.9-12.7-7.4v-.1C383.2 290.6 297.6 288 297.6 256s85.7-34.6 100.2-170.5v-.1c.7-6.5 6.2-7.4 12.7-7.4h5.1c7.5 0 14-5.8 14.4-13.3.4-8-6-14.7-14-14.7H96.4c-7.5 0-14 5.8-14.4 13.3-.4 8 6 14.7 14 14.7h5.5c6.5 0 12 .9 12.7 7.4v.1C128.8 221.4 214.4 224 214.4 256s-85.7 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32-14.3 32-32V80c0-17.7-14.3-32-32-32zm-2.7 280c0 4.4-3.6 8-8 8H90.7c-4.4 0-8-3.6-8-8V90.7c0-4.4 3.6-8 8-8h330.7c4.4 0 8 3.6 8 8V328z\"}}]})(props);\n};\nexport function IoIosImages (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M262.3 199.2c-1.6-2.8-5.6-3.2-7.7-.7l-91.9 122.2c-2.5 2.9-.6 7.4 3.2 7.7l161.1 14c3.8.3 6.4-3.8 4.5-7.1l-69.2-136.1zM367.2 264.1c-1.6-2.8-5.6-3.2-7.7-.7l-24.8 25.1a4.68 4.68 0 0 0-.5 5.4l25.4 49.5c.8 1.3 2.1 2.2 3.7 2.3l44.9 3.9c3.8.3 6.4-3.8 4.5-7.1l-45.5-78.4zM378.1 224.4c11.2-.1 20.9-8.3 23-19.2 2.8-14.8-8.6-28.3-23.7-28.1-11.2.1-20.9 8.3-23 19.2-2.8 14.8 8.6 28.3 23.7 28.1z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M455.2 129.3l-65.8-5.7-6.1-67c-1.3-14.9-14.5-25.9-29.5-24.5L56.7 58.9c-14.9 1.3-25.9 14.5-24.6 29.4l26.8 296.5c1.3 14.9 14.5 25.9 29.5 24.5l15.7-1.4-1.5 16.7c-1.3 14.9 9.7 28 24.7 29.3l297.3 25.9c14.9 1.3 28.1-9.7 29.4-24.6l26-296.6c1.2-14.8-9.8-28-24.8-29.3zM87.6 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48z\"}}]})(props);\n};\nexport function IoIosInformationCircle (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M256 48C141.1 48 48 141.1 48 256s93.1 208 208 208 208-93.1 208-208S370.9 48 256 48zm19 304h-38.2V207.9H275V352zm-19.1-159.8c-11.3 0-20.5-8.6-20.5-20s9.3-19.9 20.5-19.9c11.4 0 20.7 8.5 20.7 19.9s-9.3 20-20.7 20z\"}}]})(props);\n};\nexport function IoIosInformation (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M235.4 176c0-11.4 9.3-19.9 20.5-19.9 11.4 0 20.7 8.5 20.7 19.9s-9.3 20-20.7 20c-11.2.1-20.5-8.6-20.5-20zm1.4 35.8H275v144.1h-38.2V211.8z\"}}]})(props);\n};\nexport function IoIosJet (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M464 48s-19.8 1.4-53.1 27.2c-15.5 12-162.2 120.6-162.2 120.6L89 187.9l-41 36.5 102 51.2-8 10.1-81.6 4.1-6.7 33.6 60.6 47.2-26.7 53.6 53.7-26.5 47.3 60.6 33.6-6.7 4.1-81.6 10.1-7.9L287.6 464l36.5-40.9-7.9-159.7s108.6-146.7 120.6-162C462.7 67.8 464 48 464 48z\"}}]})(props);\n};\nexport function IoIosJournal (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M92.1 32C76.6 32 64 44.6 64 60.1V452c0 15.5 12.6 28.1 28.1 28.1H432c8.8 0 16-7.2 16-16s-7.2-16-16-16H112.5c-8.2 0-15.4-6-16.4-14.1-1.1-9.7 6.5-18 15.9-18h208V32H92.1z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M432 416c8.8 0 16-7.2 16-16V60.1c0-15.5-12.6-28.1-28.1-28.1H368v384h64z\"}}]})(props);\n};\nexport function IoIosKey (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M344.8 218.1c-13 0-25.6 0-37.4 4.1-50.6-43.1-184.3-156.9-194.5-167.5-4.7-4.9-9.9-6.7-15-6.7-8.5 0-16.7 5.2-21.3 9.6-6.9 6.6-33 34.8-28 40 15 15.4 19 18.5 25.2 24.8 9.3 9.5 28.3-1 36 2.3 7.6 3.3 9.2 6.8 10.4 12.5s-2.9 15.8-3 23.7c-.1 8.3 3.4 12.8 9.2 19 4.6 5 8.9 8.6 15.6 8.7 9 .2 20.9-12.8 30.4-3.1s-6.2 23.7-5 34 15.5 22.8 21.6 24.1c6.1 1.3 21.8-11.7 30.7-9.7 3 .7 10 6.8 11 11.4s-6.9 25-5.9 29.6c1.2 5.6 7.1 12.1 10.4 17.4-6.7 15.5-9.4 29.6-9.4 47.7 0 68.5 53.4 124 119.2 124s119-55.5 119-124-53.4-121.9-119.2-121.9zM368 400c-17.7 0-32-14.3-32-32s14.3-32 32-32 32 14.3 32 32-14.3 32-32 32z\"}}]})(props);\n};\nexport function IoIosKeypad (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M394.6 341.2c-29.5 0-53.4 23.9-53.4 53.4s23.9 53.4 53.4 53.4 53.4-23.9 53.4-53.4-23.9-53.4-53.4-53.4zM256 341.2c-29.5 0-53.4 23.9-53.4 53.4S226.5 448 256 448s53.4-23.9 53.4-53.4-23.9-53.4-53.4-53.4zM117.4 341.2c-29.5 0-53.4 23.9-53.4 53.4S87.9 448 117.4 448s53.4-23.9 53.4-53.4-23.9-53.4-53.4-53.4zM394.6 202.6c-29.5 0-53.4 23.9-53.4 53.4s23.9 53.4 53.4 53.4S448 285.5 448 256s-23.9-53.4-53.4-53.4zM256 202.6c-29.5 0-53.4 23.9-53.4 53.4s23.9 53.4 53.4 53.4 53.4-23.9 53.4-53.4-23.9-53.4-53.4-53.4zM117.4 202.6C87.9 202.6 64 226.5 64 256s23.9 53.4 53.4 53.4 53.4-23.9 53.4-53.4-23.9-53.4-53.4-53.4zM394.6 64c-29.5 0-53.4 23.9-53.4 53.4s23.9 53.4 53.4 53.4 53.4-23.9 53.4-53.4S424.1 64 394.6 64zM256 64c-29.5 0-53.4 23.9-53.4 53.4s23.9 53.4 53.4 53.4 53.4-23.9 53.4-53.4S285.5 64 256 64zM117.4 64C87.9 64 64 87.9 64 117.4s23.9 53.4 53.4 53.4 53.4-23.9 53.4-53.4S146.9 64 117.4 64z\"}}]})(props);\n};\nexport function IoIosLaptop (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M448 367.5V129.1c0-9.4-7.9-17.1-17.2-17.1H81.2c-9.3 0-17.2 7.6-17.2 17.1v238.4H15.9c0 9.9 9.9 18.8 18.9 22.7C45.7 394.8 64 400 84 400h344c20 0 38.2-4.5 48.3-8.8 9.5-4 19.8-13.4 19.8-23.7H448zM256 120c2.2 0 4 1.8 4 4s-1.8 4-4 4-4-1.8-4-4 1.8-4 4-4zM82 136.2h348c1.1 0 2 .9 2 2v211.3c0 1.1-.9 2-2 2H82c-1.1 0-2-.9-2-2V138.2c0-1.2.9-2 2-2zm216.3 239.3h-84.6c-5.2 0-9.7-6-9.7-7.5h104c0 1.5-3 7.5-9.7 7.5z\"}}]})(props);\n};\nexport function IoIosLeaf (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M453.9 378.7c-51.8-8-55.7-11.7-55.7-11.7 15.6-74-22.4-151.1-76.3-195.6C250.1 112.2 141 155.2 56 65.2c-19.8-21-8.3 235.5 98.1 332.7 77.8 71 169.4 49.2 194.5 37.6 22.8-10.6 38.7-33.9 38.7-33.9 41.5 13 62 14.2 62 14.2 14.6 1.8 22-34.4 4.6-37.1zm-91.8 7.4c-77.7-23.3-145.3-81-189.1-126.2-3.6-3.7 1.6-9.2 5.5-6 43.1 35.5 108.9 80 193.3 107.9.2 8.1-4.5 19.7-9.7 24.3z\"}}]})(props);\n};\nexport function IoIosLink (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M280 341.1l-1.2.1c-3.6.4-7 2-9.6 4.5l-64.6 64.6c-13.7 13.7-32 21.2-51.5 21.2s-37.8-7.5-51.5-21.2c-13.7-13.7-21.2-32-21.2-51.5s7.5-37.8 21.2-51.5l68.6-68.6c3.5-3.5 7.3-6.6 11.4-9.3 4.6-3 9.6-5.6 14.8-7.5 4.8-1.8 9.9-3 15-3.7 3.4-.5 6.9-.7 10.2-.7 1.4 0 2.8.1 4.6.2 17.7 1.1 34.4 8.6 46.8 21 7.7 7.7 13.6 17.1 17.1 27.3 2.8 8 11.2 12.5 19.3 10.1.1 0 .2-.1.3-.1.1 0 .2 0 .2-.1 8.1-2.5 12.8-11 10.5-19.1-4.4-15.6-12.2-28.7-24.6-41-15.6-15.6-35.9-25.8-57.6-29.3-1.9-.3-3.8-.6-5.7-.8-3.7-.4-7.4-.6-11.1-.6-2.6 0-5.2.1-7.7.3-5.4.4-10.8 1.2-16.2 2.5-1.1.2-2.1.5-3.2.8-6.7 1.8-13.3 4.2-19.5 7.3-10.3 5.1-19.6 11.7-27.7 19.9l-68.6 68.6C58.9 304.4 48 330.8 48 359c0 28.2 10.9 54.6 30.7 74.4C98.5 453.1 124.9 464 153 464c28.2 0 54.6-10.9 74.4-30.7l65.3-65.3c10.4-10.5 2-28.3-12.7-26.9z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M433.3 78.7C413.5 58.9 387.1 48 359 48s-54.6 10.9-74.4 30.7l-63.7 63.7c-9.7 9.7-3.6 26.3 10.1 27.4 4.7.4 9.3-1.3 12.7-4.6l63.8-63.6c13.7-13.7 32-21.2 51.5-21.2s37.8 7.5 51.5 21.2c13.7 13.7 21.2 32 21.2 51.5s-7.5 37.8-21.2 51.5l-68.6 68.6c-3.5 3.5-7.3 6.6-11.4 9.3-4.6 3-9.6 5.6-14.8 7.5-4.8 1.8-9.9 3-15 3.7-3.4.5-6.9.7-10.2.7-1.4 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9.3 22.4 22.4-1.1 8.9-8.3 16.1-17.2 17.2zM384.7 374h-180c-7.7 0-14-6.3-14-14s6.3-14 14-14h180c7.7 0 14 6.3 14 14s-6.3 14-14 14zm0-104h-180c-7.7 0-14-6.3-14-14s6.3-14 14-14h180c7.7 0 14 6.3 14 14s-6.3 14-14 14zm0-104h-180c-7.7 0-14-6.3-14-14s6.3-14 14-14h180c7.7 0 14 6.3 14 14s-6.3 14-14 14z\"}}]})(props);\n};\nexport function IoIosList (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"circle\",\"attr\":{\"cx\":\"92\",\"cy\":\"256\",\"r\":\"28\"}},{\"tag\":\"circle\",\"attr\":{\"cx\":\"92\",\"cy\":\"132\",\"r\":\"28\"}},{\"tag\":\"circle\",\"attr\":{\"cx\":\"92\",\"cy\":\"380\",\"r\":\"28\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M432 240H191.5c-8.8 0-16 7.2-16 16s7.2 16 16 16H432c8.8 0 16-7.2 16-16s-7.2-16-16-16zM432 364H191.5c-8.8 0-16 7.2-16 16s7.2 16 16 16H432c8.8 0 16-7.2 16-16s-7.2-16-16-16zM191.5 148H432c8.8 0 16-7.2 16-16s-7.2-16-16-16H191.5c-8.8 0-16 7.2-16 16s7.2 16 16 16z\"}}]})(props);\n};\nexport function IoIosLocate (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M395.3 259c-.3-1.2-.4-2.4-.3-3.6 0-.8.2-1.6.3-2.4-.4.9-.6 2-.6 3 .1 1.1.3 2.1.6 3z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M459.4 270H409c-6.7 0-12.3-4.7-13.7-11-.3-.9-.5-1.9-.5-3s.2-2.1.6-3c1.4-6.4 7.3-11 14.1-11h49.9c2.4 0 4.2-2 4-4.4-8.8-100.3-88.7-180.2-189-189-2.3-.2-4.4 1.6-4.4 4V103c0 7.9-6.6 14.3-14.6 14-7.6-.3-13.4-6.9-13.4-14.4v-50c0-2.4-2-4.2-4.4-4-100.3 8.8-180.2 88.7-189 189-.2 2.3 1.6 4.4 4 4.4H103c7.9 0 14.3 6.6 14 14.6-.3 7.6-6.9 13.4-14.4 13.4h-50c-2.4 0-4.2 2-4 4.4 8.8 100.3 88.7 180.2 189 189 2.3.2 4.4-1.6 4.4-4V409c0-7.9 6.6-14.3 14.6-14 7.6.3 13.4 6.9 13.4 14.4v49.9c0 2.4 2 4.2 4.4 4 100.3-8.8 180.2-88.7 189-189 .2-2.3-1.7-4.3-4-4.3zM256 326c-38.7 0-70-31.3-70-70s31.3-70 70-70 70 31.3 70 70-31.3 70-70 70z\"}}]})(props);\n};\nexport function IoIosLock (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M376 192h-24v-46.7c0-52.7-42-96.5-94.7-97.3-53.4-.7-97.3 42.8-97.3 96v48h-24c-22 0-40 18-40 40v192c0 22 18 40 40 40h240c22 0 40-18 40-40V232c0-22-18-40-40-40zM270 316.8v68.8c0 7.5-5.8 14-13.3 14.4-8 .4-14.7-6-14.7-14v-69.2c-11.5-5.6-19.1-17.8-17.9-31.7 1.4-15.5 14.1-27.9 29.6-29 18.7-1.3 34.3 13.5 34.3 31.9 0 12.7-7.3 23.6-18 28.8zM324 192H188v-48c0-18.1 7.1-35.1 20-48s29.9-20 48-20 35.1 7.1 48 20 20 29.9 20 48v48z\"}}]})(props);\n};\nexport function IoIosLogIn (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M417 80H137c-25.4 0-46 20.6-46 46 0 7.7 6.3 14 14 14s14-6.3 14-14c0-9.9 8.1-18 18-18h280c9.9 0 18 8.1 18 18v260c0 9.9-8.1 18-18 18H137c-9.9 0-18-8.1-18-18 0-7.7-6.3-14-14-14s-14 6.3-14 14c0 25.4 20.6 46 46 46h280c25.4 0 46-20.6 46-46V126c0-25.4-20.6-46-46-46z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M224 334.2c-5.4 5.4-5.4 14.3 0 19.8l.1.1c2.7 2.5 6.2 3.9 9.8 3.9 3.8 0 7.3-1.4 9.9-4.1l82.6-82.4c4.3-4.3 6.5-9.3 6.5-14.7 0-5.3-2.3-10.3-6.5-14.5l-84.6-84.4c-2.6-2.6-6.1-4.1-9.9-4.1-3.7 0-7.3 1.4-9.9 4.1-5.5 5.5-5.5 14.3 0 19.8l65.2 64.2H63c-7.7 0-14 6.3-14 14s6.3 14 14 14h224.6L224 334.2z\"}}]})(props);\n};\nexport function IoIosLogOut (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M312 372c-7.7 0-14 6.3-14 14 0 9.9-8.1 18-18 18H94c-9.9 0-18-8.1-18-18V126c0-9.9 8.1-18 18-18h186c9.9 0 18 8.1 18 18 0 7.7 6.3 14 14 14s14-6.3 14-14c0-25.4-20.6-46-46-46H94c-25.4 0-46 20.6-46 46v260c0 25.4 20.6 46 46 46h186c25.4 0 46-20.6 46-46 0-7.7-6.3-14-14-14z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M372.9 158.1c-2.6-2.6-6.1-4.1-9.9-4.1-3.7 0-7.3 1.4-9.9 4.1-5.5 5.5-5.5 14.3 0 19.8l65.2 64.2H162c-7.7 0-14 6.3-14 14s6.3 14 14 14h256.6L355 334.2c-5.4 5.4-5.4 14.3 0 19.8l.1.1c2.7 2.5 6.2 3.9 9.8 3.9 3.8 0 7.3-1.4 9.9-4.1l82.6-82.4c4.3-4.3 6.5-9.3 6.5-14.7 0-5.3-2.3-10.3-6.5-14.5l-84.5-84.2z\"}}]})(props);\n};\nexport function IoIosMagnet (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M462.2 261.9L289.6 89.3C263 62.7 227.4 48 189.5 48c-38 0-73.5 14.7-100.2 41.3C62.7 116 48 151.5 48 189.5S62.7 263 89.3 289.6l172.6 172.6c1.1 1.1 2.7 1.8 4.3 1.8 1.6 0 3.1-.6 4.3-1.8l57.5-57.5c2.4-2.4 2.4-6.2 0-8.5L165.2 233.3c-13-13-21.2-27.8-22.9-41.7-1.8-13.6 2.7-25.8 13.1-36.3 9.9-9.9 22.4-14.3 36-12.6 14.3 1.7 29.2 9.7 42 22.5L396.2 328c2.4 2.4 6.2 2.4 8.5 0l57.5-57.5c2.4-2.4 2.4-6.2 0-8.6zM275.8 380.2l20.2 20.2-29.8 29.8-20.3-20.2 29.9-29.8zM400.4 296l-20.2-20.2L410 246l20.2 20.2-29.8 29.8z\"}}]})(props);\n};\nexport function IoIosMailOpen (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M453.5 209.8c-4-4-158.3-161.4-158.3-161.4C284.8 37.8 270.9 32 256 32c-14.9 0-28.8 5.8-39.2 16.5 0 0-153.6 156.5-158.3 161.4C53.9 214.7 48 224.7 48 236v212c0 17.6 14.4 32 32 32h352c17.6 0 32-14.4 32-32V235c0-11.7-6.6-21.1-10.5-25.2zm-19.4 42.3L353 336.9c-.8.8-.8 2 0 2.8l75.3 80.2c5.1 5.1 5.1 13.3 0 18.4-2.5 2.5-5.9 3.8-9.2 3.8s-6.7-1.3-9.2-3.8l-151-161.2c-1.6-1.7-4.3-1.7-5.8 0L102.2 438.2c-2.5 2.5-5.9 3.8-9.2 3.8s-6.7-1.3-9.2-3.8c-5.1-5.1-5.1-13.3 0-18.4l75.3-80.2c.7-.8.7-2 0-2.8L77.7 252c-9.7-9.9-2.4-35.8 16.1-35.8h324.4c16.5-.1 25.6 26.1 15.9 35.9z\"}}]})(props);\n};\nexport function IoIosMailUnread (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"circle\",\"attr\":{\"cx\":\"416\",\"cy\":\"152\",\"r\":\"48\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M416 218.5c-5.4 0-10.6-.7-15.6-1.9L353 264.9c-.8.8-.8 2 0 2.8l75.3 80.2c5.1 5.1 5.1 13.3 0 18.4-2.5 2.5-5.9 3.8-9.2 3.8s-6.7-1.3-9.2-3.8l-75-79.9c-.8-.8-2.1-.8-2.9 0L313.7 305c-15.3 15.5-35.6 24.1-57.4 24.2-22.1.1-43.1-9.2-58.6-24.9l-17.6-17.9c-.8-.8-2.1-.8-2.9 0l-75 79.9c-2.5 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32-14.4 32-32V148.7c0-1.8-2.2-2.6-3.4-1.4z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M256 295.1c14.8 0 28.7-5.8 39.1-16.4L452 119c-5.5-4.4-12.3-7-19.8-7H79.9c-7.5 0-14.4 2.6-19.8 7L217 278.7c10.3 10.5 24.2 16.4 39 16.4z\"}}]})(props);\n};\nexport function IoIosMale (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M450.4 48H341.5c-7.5 0-13.6 6.1-13.6 13.6s6.1 13.6 13.6 13.6h75.4L326.7 166c-30.6-26-69.3-40.3-109.6-40.3-22.8 0-45 4.5-65.8 13.3-20.1 8.5-38.2 20.7-53.8 36.2C82 190.8 69.8 208.9 61.3 229 52.5 249.9 48 272 48 294.9s4.5 45 13.3 65.8c8.5 20.1 20.7 38.2 36.2 53.8 15.5 15.5 33.6 27.7 53.8 36.2 20.9 8.8 43 13.3 65.8 13.3 22.8 0 45-4.5 65.8-13.3 20.1-8.5 38.2-20.7 53.8-36.2 15.5-15.5 27.7-33.6 36.2-53.8 8.8-20.9 13.3-43 13.3-65.8 0-40.3-14.3-79-40.3-109.6L436.7 95v75.4c0 7.5 6.1 13.6 13.6 13.6s13.6-6.1 13.6-13.6V61.6c.1-7.5-6-13.6-13.5-13.6zM359 294.9c0 37.9-14.8 73.5-41.6 100.3-26.8 26.8-62.4 41.6-100.3 41.6s-73.5-14.8-100.3-41.6C90 368.4 75.2 332.8 75.2 294.9s14.8-73.5 41.6-100.3c26.8-26.8 62.4-41.6 100.3-41.6s73.5 14.8 100.3 41.6C344.3 221.3 359 257 359 294.9z\"}}]})(props);\n};\nexport function IoIosMan (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M255.7 106.6h-.2c-25 0-45.5-20.3-45.5-45.3 0-25 20.4-45.3 45.5-45.3S301 36.3 301 61.3c0 12.1-4.7 23.5-13.3 32-8.5 8.6-19.9 13.3-32 13.3zM221.2 496c-14.4 0-27-10.5-27-30.4l1-277.6h-10v105c0 9.3-3 15.1-6.4 18.3-4.3 4.1-9.1 6.4-15.2 6.4-6.2 0-10.9-2.3-15.2-6.4-3.4-3.2-6.4-8.9-6.4-18.3V171.4c0-13.8 4.4-27.8 13.8-38.4 10.4-11.6 23.6-18 39-18h122.3c15.4 0 28.6 6.4 39 18.1 9.4 10.6 13.8 24.5 13.8 38.3V293c0 7.3-1.7 13.8-6.6 18.3-4.4 4-9.3 6.2-15.5 6.2s-11.1-2.2-15.5-6.2c-4.9-4.5-6.6-11-6.6-18.3V188h-9v277.6c0 19.7-13.4 30.4-27.8 30.4-13.4 0-26.3-9.3-27.4-29.8V325h-12v140.9c-.7 19.7-13.8 30.1-28.3 30.1z\"}}]})(props);\n};\nexport function IoIosMap (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M64 72.5v316.3c0 2.8 1.3 5.5 3.5 7l69.8 50.2c5.2 3.7 12.1-.3 12.1-7V122.7c0-2.8-1.3-5.5-3.5-7L76.1 65.4c-5.2-3.7-12.1.3-12.1 7.1zM168.7 123.3v316.3c0 6.7 6.9 10.8 12.1 7l62-36.7c2.2-1.6 3.5-4.2 3.5-7V86.6c0-6.7-6.9-10.8-12.1-7l-62 36.7c-2.2 1.5-3.5 4.1-3.5 7zM435.9 65.5l-69.8 50.7c-2.2 1.6-3.5 4.2-3.5 7v316.2c0 6.8 6.9 10.8 12.1 7l69.8-50.7c2.2-1.6 3.5-4.2 3.5-7V72.5c0-6.7-6.9-10.7-12.1-7zM265.7 85.6v316.2c0 2.8 1.3 5.5 3.5 7l62 37c5.2 3.8 12.1-.3 12.1-7V122.6c0-2.8-1.3-5.5-3.5-7l-62-37c-5.2-3.7-12.1.3-12.1 7z\"}}]})(props);\n};\nexport function IoIosMedal (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M50 124c-1.1 0-2 .9-2 2v59.9c0 14.4 9.6 27 23.4 30.8l104 29.4c1.3.4 2.5-.6 2.5-1.9V126c0-1.1-.9-2-2-2H50zM204 126v126.2c0 .9.6 1.7 1.5 1.9l50 13.9c.4.1.7.1 1.1 0l56-15.6c.9-.2 1.5-1 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1.5-6-.4-6-3.5v-114c0-8.6-6.9-15.5-15.5-15.5h-33c-8.6 0-15.5 6.9-15.5 15.5v114.1c0 3.1-3.3 5-6 3.5l-98.6-57c-7.4-4.3-16.9-1.7-21.2 5.7l-16.5 28.6c-4.3 7.4-1.7 16.9 5.7 21.1l98.7 57.1c2.7 1.5 2.7 5.4 0 6.9l-98.7 57.1c-7.4 4.3-9.9 13.7-5.7 21.1l16.5 28.6c4.3 7.4 13.8 10 21.2 5.7l98.6-57c2.7-1.5 6 .4 6 3.5v114.1c0 8.6 6.9 15.5 15.5 15.5h33c8.6 0 15.5-6.9 15.5-15.5V318.4c0-3.1 3.4-5 6-3.5l98.6 57c7.4 4.3 16.9 1.7 21.2-5.7l16.5-28.6c4.3-7.4 1.7-16.9-5.7-21.1l-98.7-57.1c-2.7-1.5-2.7-5.4 0-6.9l98.7-57.1c7.4-4.2 9.9-13.7 5.7-21.1z\"}}]})(props);\n};\nexport function IoIosMedkit (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M432 128h-84V96c0-17.6-14.4-32-32-32H196c-17.6 0-32 14.4-32 32v32H80c-17.7 0-32 14.3-32 32v256c0 17.7 14.3 32 32 32h352c17.7 0 32-14.3 32-32V160c0-17.7-14.3-32-32-32zm-240-28c0-4.4 3.6-8 8-8h112c4.4 0 8 3.6 8 8v28H192v-28zm128 204h-48v48c0 8.8-7.2 16-16 16s-16-7.2-16-16v-48h-48c-8.8 0-16-7.2-16-16s7.2-16 16-16h48v-48c0-8.8 7.2-16 16-16s16 7.2 16 16v48h48c8.8 0 16 7.2 16 16s-7.2 16-16 16z\"}}]})(props);\n};\nexport function IoIosMegaphone (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M90.1 187c0-33.4 17.1-62.8 43.5-78.9 2.8-1.7 1.6-6-1.7-6-38.2 0-68.5 30.4-74.1 69.8-5.6.9-9.9 7.3-9.9 14.9 0 8 4.7 14.3 10.8 14.8 6.7 33.8 33.8 55.4 61.2 64.5 4.3.9 7.1-4.5 3.8-7.5-19.6-17.7-33.6-44.3-33.6-71.6z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M450.2 102.8c-1-2.7-2.1-5.2-3.2-7.7-6-13.4-13.4-24.2-21.7-32.2-10.5-9.7-21.4-14.9-34.8-14.9-13.5 0-21.5 5.2-25.8 7.8-43.1 25.9-112.3 46-154 46s-39.4.2-39.4.2c-31.6 14-54.8 46.9-54.8 85 0 34.2 17.8 64.2 44.4 80 12.1 10.1 23.6 8.8 21.1 22.2-2.5 13.4-22.5 97.5-25 115s-2.9 27.5 4 36c7 8.5 49.5 23.8 68 23.8s13.8-8.7 13.8-43.8-9.3-131.7 16.5-131.7c48.3 0 73.5 17.3 111.3 31.7 9 3.4 14.1 4.7 20.1 4.7 6 0 18.7-1.9 34.7-18.2 9.2-9.4 15.7-18.8 21.7-32.2 1.1-2.6 2.2-5.2 3.3-8 8.9-23.2 13.7-51.9 13.7-81.9-.1-29.8-4.9-58.6-13.9-81.8zm-26.6 157c-6.4 15.7-17.6 28.2-26.9 28.2-9.3 0-17.8-12.5-24.2-28.2-7.5-18.3-12.3-45-12.3-74.7 0-29.8 4.8-56.6 12.3-74.9 6.4-15.6 14.9-25 24.1-25 9.3 0 20.3 9.5 26.8 25 7.6 18.3 14.5 45.1 14.5 74.9.1 29.7-6.8 56.4-14.3 74.7z\"}}]})(props);\n};\nexport function IoIosMenu (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M432 176H80c-8.8 0-16-7.2-16-16s7.2-16 16-16h352c8.8 0 16 7.2 16 16s-7.2 16-16 16zM432 272H80c-8.8 0-16-7.2-16-16s7.2-16 16-16h352c8.8 0 16 7.2 16 16s-7.2 16-16 16zM432 368H80c-8.8 0-16-7.2-16-16s7.2-16 16-16h352c8.8 0 16 7.2 16 16s-7.2 16-16 16z\"}}]})(props);\n};\nexport function IoIosMicOff (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M369.8 464c-4.9 0-9.7-2.5-12.3-7L129.9 69.3c-4-6.7-1.7-15.4 5.1-19.3 6.8-3.9 15.5-1.7 19.5 5.1l227.6 387.7c4 6.7 1.7 15.4-5.1 19.3-2.3 1.3-4.8 1.9-7.2 1.9zM320 272V112c0-35.2-28.8-64-64-64-28.4 0-52.6 18.8-60.9 44.5L315 296.8c3.2-7.6 5-16 5-24.8zM192 272c0 35.2 28.8 64 64 64 3.9 0 7.6-.4 11.3-1L192 206.6V272zM366 275v-69c0-7.7-6.3-14-14-14s-14 6.3-14 14v69c0 15.2-4.2 29.4-11.4 41.6l15.6 26.6c14.9-18.7 23.8-42.4 23.8-68.2z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M256 357c-45.2 0-82-36.8-82-82v-69c0-7.7-6.3-14-14-14s-14 6.3-14 14v69c0 55.9 41.9 102.2 96 109.1V436h-36c-7.7 0-14 6.3-14 14s6.3 14 14 14h100c7.7 0 14-6.3 14-14s-6.3-14-14-14h-36v-51.9c7.9-1 15.6-2.9 22.9-5.5l-14.5-24.8c-7.1 2.1-14.6 3.2-22.4 3.2z\"}}]})(props);\n};\nexport function IoIosMic (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M256 336c35.2 0 64-28.8 64-64V112c0-35.2-28.8-64-64-64s-64 28.8-64 64v160c0 35.2 28.8 64 64 64z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M352 192c-7.7 0-14 6.3-14 14v69c0 45.2-36.8 82-82 82s-82-36.8-82-82v-69c0-7.7-6.3-14-14-14s-14 6.3-14 14v69c0 55.9 41.9 102.2 96 109.1V436h-36c-7.7 0-14 6.3-14 14s6.3 14 14 14h100c7.7 0 14-6.3 14-14s-6.3-14-14-14h-36v-51.9c54.1-6.9 96-53.2 96-109.1v-69c0-7.7-6.3-14-14-14z\"}}]})(props);\n};\nexport function IoIosMicrophone (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M315 204h72.6c6.6 0 12.3-5.2 12.4-11.8.1-6.7-5.3-12.2-12-12.2h-73c-6.7 0-12.1-5.5-12-12.2.1-6.6 5.8-11.8 12.4-11.8h76.5c4.5 0 8.2-3.7 8-8.2-1.7-47.5-31.2-88.1-72.7-106-5.3-2.3-11.2 1.6-11.2 7.3v35.5c0 6.6-5.2 12.3-11.8 12.4-6.7.1-12.2-5.3-12.2-12V44c0-6.6-5.4-12-12-12s-12 5.4-12 12v56.6c0 6.6-5.2 12.3-11.8 12.4-6.7.1-12.2-5.3-12.2-12V44c0-6.6-5.4-12-12-12s-12 5.4-12 12v40.6c0 6.6-5.2 12.3-11.8 12.4-6.7.1-12.2-5.3-12.2-12V49.1c0-5.8-5.9-9.6-11.2-7.3-41.5 17.9-71.1 58.6-72.7 106-.2 4.5 3.5 8.2 8 8.2h76.5c6.6 0 12.3 5.2 12.4 11.8.1 6.7-5.3 12.2-12 12.2h-72.6c-6.6 0-12.3 5.2-12.4 11.8-.1 6.7 5.3 12.2 12 12.2h72.6c6.6 0 12.3 5.2 12.4 11.8.1 6.7-5.3 12.2-12 12.2h-72.6c-6.6 0-12.3 5.2-12.4 11.8-.1 6.7 5.3 12.2 12 12.2h72.6c6.6 0 12.3 5.2 12.4 11.8.1 6.7-5.3 12.2-12 12.2h-76.9c-4.5 0-8.2 3.7-8 8.2.5 13.6 3.3 26.7 7.9 38.8 1.2 3.1 4.2 5 7.4 5h257.1c3.3 0 6.3-2 7.4-5 4.7-12.1 7.5-25.2 7.9-38.8.2-4.5-3.5-8.2-8-8.2h-76.5c-6.6 0-12.3-5.2-12.4-11.8-.1-6.7 5.3-12.2 12-12.2h72.6c6.6 0 12.3-5.2 12.4-11.8.1-6.7-5.3-12.2-12-12.2h-72.6c-6.6 0-12.3-5.2-12.4-11.8 0-6.7 5.4-12.2 12.1-12.2zM141.5 358.6c19 22 45.2 37.2 75.4 40.8 4 .5 7.1 3.9 7.1 7.9V448c0 17.7 14.3 32 32 32s32-14.3 32-32v-40.7c0-4.1 3.1-7.5 7.1-7.9 30.3-3.5 56.4-18.7 75.4-40.8 2.2-2.6.3-6.6-3.1-6.6H144.5c-3.4 0-5.2 4-3 6.6z\"}}]})(props);\n};\nexport function IoIosMoon (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M401.4 354.2c-2.9.1-5.8.2-8.7.2-47.9 0-93-18.9-126.8-53.4-33.9-34.4-52.5-80.1-52.5-128.8 0-27.7 6.1-54.5 17.5-78.7 3.1-6.6 9.3-16.6 13.6-23.4 1.9-2.9-.5-6.7-3.9-6.1-6 .9-15.2 2.9-27.7 6.8C135.1 95.5 80 168.7 80 255c0 106.6 85.1 193 190.1 193 58 0 110-26.4 144.9-68.1 6-7.2 11.5-13.8 16.4-21.8 1.8-3-.7-6.7-4.1-6.1-8.5 1.7-17.1 1.8-25.9 2.2z\"}}]})(props);\n};\nexport function IoIosMore (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M255.8 218c-21 0-38 17-38 38s17 38 38 38 38-17 38-38-17-38-38-38zM102 218c-21 0-38 17-38 38s17 38 38 38 38-17 38-38-17-38-38-38zM410 218c-21 0-38 17-38 38s17 38 38 38 38-17 38-38-17-38-38-38z\"}}]})(props);\n};\nexport function IoIosMove (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M475.9 246.2l-79.4-79.4c-5.4-5.4-14.2-5.4-19.6 0l-.2.2c-5.4 5.4-5.4 14.2 0 19.6l54.9 54.9-161.8.5.5-161.8 54.9 54.9c5.4 5.4 14.2 5.4 19.6 0l.2-.2c5.4-5.4 5.4-14.2 0-19.6l-79.4-79.4c-5.4-5.4-14.2-5.4-19.6 0l-79.4 79.4c-5.4 5.4-5.4 14.2 0 19.6l.2.2c5.4 5.4 14.2 5.4 19.6 0l54.9-54.9.5 161.8-161.8-.5 54.9-54.9c5.4-5.4 5.4-14.2 0-19.6l-.2-.2c-5.4-5.4-14.2-5.4-19.6 0l-79.4 79.4c-5.4 5.4-5.4 14.2 0 19.6l79.4 79.4c5.4 5.4 14.2 5.4 19.6 0l.2-.2c5.4-5.4 5.4-14.2 0-19.6L80 270.5l161.8-.5-.5 161.8-54.9-54.9c-5.4-5.4-14.2-5.4-19.6 0l-.2.2c-5.4 5.4-5.4 14.2 0 19.6l79.4 79.4c5.4 5.4 14.2 5.4 19.6 0l79.4-79.4c5.4-5.4 5.4-14.2 0-19.6l-.2-.2c-5.4-5.4-14.2-5.4-19.6 0l-54.9 54.9-.5-161.8 161.8.5-54.9 54.9c-5.4 5.4-5.4 14.2 0 19.6l.2.2c5.4 5.4 14.2 5.4 19.6 0l79.4-79.4c5.5-5.4 5.5-14.2 0-19.6z\"}}]})(props);\n};\nexport function IoIosMusicalNote (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M364.3 48.2c-4.7.9-118 24.1-122.2 24.9-4.2.8-8.1 3.6-8.1 8v255.1c0 1.6-.1 7.2-2.4 11.7-3.1 5.9-8.5 10.2-16.1 12.7-3.3 1.1-7.8 2.1-13.1 3.3-24.1 5.4-64.4 14.6-64.4 51.8 0 30.1 21.7 44.5 35 47.1 5 1 11 1 13.8 1 8.2 0 36-3.3 51.2-13.2 11-7.2 24.1-21.4 24.1-47.8V173.1c0-3.8 2.7-7.1 6.4-7.8l92.8-19c7.4-1.5 12.8-8.1 12.8-15.7V55.8c-.1-4.3-3.8-8.8-9.8-7.6z\"}}]})(props);\n};\nexport function IoIosMusicalNotes (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M406.3 48.2c-4.7.9-202 39.2-206.2 40-4.2.8-8.1 3.6-8.1 8v240.1c0 1.6-.1 7.2-2.4 11.7-3.1 5.9-8.5 10.2-16.1 12.7-3.3 1.1-7.8 2.1-13.1 3.3-24.1 5.4-64.4 14.6-64.4 51.8 0 31.1 22.4 45.1 41.7 47.5 2.1.3 4.5.7 7.1.7 6.7 0 36-3.3 51.2-13.2 11-7.2 24.1-21.4 24.1-47.8V190.5c0-3.8 2.7-7.1 6.4-7.8l152-30.7c5-1 9.6 2.8 9.6 7.8v130.9c0 4.1-.2 8.9-2.5 13.4-3.1 5.9-8.5 10.2-16.2 12.7-3.3 1.1-8.8 2.1-14.1 3.3-24.1 5.4-64.4 14.5-64.4 51.7 0 33.7 25.4 47.2 41.8 48.3 6.5.4 11.2.3 19.4-.9s23.5-5.5 36.5-13c17.9-10.3 27.5-26.8 27.5-48.2V55.9c-.1-4.4-3.8-8.9-9.8-7.7z\"}}]})(props);\n};\nexport function IoIosNavigate (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M256 48C141.1 48 48 141.1 48 256s93.1 208 208 208 208-93.1 208-208S370.9 48 256 48zm0 336V256H128.3L352 160l-96 224z\"}}]})(props);\n};\nexport function IoIosNotificationsOff (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M255.9 456c31.1 0 48.1-22 48.1-53h-96.3c0 31 17 53 48.2 53zM154.5 55c-2.5-4.3-7-6.8-11.6-7h.3-1.2c-2.3 0-4.7.7-6.9 1.9-6.8 3.9-9.1 12.6-5.1 19.3L357.5 457c2.6 4.5 7.4 7 12.3 7 2.4 0 4.9-.6 7.2-1.9 6.8-3.9 9.1-12.6 5.1-19.3L154.5 55zM296.1 384L159 150.5c-8.2 20.2-13.3 46-13.3 78.6 0 90.9-30.3 102.7-45.7 123.1-9.9 13.1-.5 31.8 15.9 31.8h180.2zM412 352.2c-15.4-20.3-45.7-32.2-45.7-123.1 0-93.3-41.2-130.8-79.6-139.8-3.6-.9-6.2-2.1-6.2-5.9v-2.9c0-13.4-11-24.7-24.4-24.6-13.4-.2-24.4 11.2-24.4 24.6v2.9c0 3.7-2.6 5-6.2 5.9-8.7 2-17.5 5.5-25.9 10.8L366.1 384H396c16.5 0 25.9-18.8 16-31.8z\"}}]})(props);\n};\nexport function IoIosNotificationsOutline (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M289.7 403c-6.1 0-11.4 4.2-12.7 10.2-1 4.5-2.7 8.2-5 10.9-1.3 1.5-5.1 5.9-16.1 5.9-11 0-14.8-4.5-16.1-5.9-2.3-2.7-4-6.4-5-10.9-1.3-6-6.6-10.2-12.7-10.2-8.4 0-14.5 7.8-12.7 15.9 5 22.3 21 37.1 46.5 37.1s41.5-14.7 46.5-37.1c1.8-8.1-4.4-15.9-12.7-15.9zM412 352.2c-15.4-20.3-45.7-32.2-45.7-123.1 0-93.3-41.2-130.8-79.6-139.8-3.6-.9-6.2-2.1-6.2-5.9v-2.9c0-13.3-10.8-24.6-24-24.6h-.6c-13.2 0-24 11.3-24 24.6v2.9c0 3.7-2.6 5-6.2 5.9-38.5 9.1-79.6 46.5-79.6 139.8 0 90.9-30.3 102.7-45.7 123.1-9.9 13.1-.5 31.8 15.9 31.8h280.1c16.1 0 25.4-18.8 15.6-31.8zm-39 5.8H139.8c-3.8 0-5.8-4.4-3.3-7.3 7-8 14.7-18.5 21-33.4 9.6-22.6 14.3-51.5 14.3-88.2 0-37.3 7-66.5 20.9-86.8 12.4-18.2 27.9-25.1 38.7-27.6 8.4-2 14.4-5.8 18.6-10.5 3.2-3.6 8.7-3.8 11.9-.2 5.1 5.7 12 9.1 18.8 10.7 10.8 2.5 26.3 9.4 38.7 27.6 13.9 20.3 20.9 49.5 20.9 86.8 0 36.7 4.7 65.6 14.3 88.2 6.5 15.2 14.4 25.9 21.5 33.9 2.2 2.7.4 6.8-3.1 6.8z\"}}]})(props);\n};\nexport function IoIosNotifications (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M255.9 456c31.1 0 48.1-22 48.1-53h-96.3c0 31 17 53 48.2 53zM412 352.2c-15.4-20.3-45.7-32.2-45.7-123.1 0-93.3-41.2-130.8-79.6-139.8-3.6-.9-6.2-2.1-6.2-5.9v-2.9c0-13.4-11-24.7-24.4-24.6-13.4-.2-24.4 11.2-24.4 24.6v2.9c0 3.7-2.6 5-6.2 5.9-38.5 9.1-79.6 46.5-79.6 139.8 0 90.9-30.3 102.7-45.7 123.1-9.9 13.1-.5 31.8 15.9 31.8h280.1c16.3 0 25.7-18.8 15.8-31.8z\"}}]})(props);\n};\nexport function IoIosNuclear (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M256 48C141.1 48 48 141.1 48 256s93.1 208 208 208 208-93.1 208-208S370.9 48 256 48zm-88.5 364.8l49.2-85.8c1.1-1.9.5-4.2-1.3-5.4-20.2-12.9-34-35-35.2-60.3-.1-2.1-1.8-3.8-4-3.8H76V256c0-48.1 18.7-93.3 52.7-127.3 10.8-10.8 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46.5-3 5.1-5 11.2-5 17.8 0 17.8 14.2 32.2 31.9 32.2 7.8 0 14.4-3.4 20.6-7.6L221 378.8c3.4-2.5 4.2-7.2 2-10.7L202.5 336c-2.9-3.8-3.3-8-1.4-9.9l.1-.1c2.3-2.3 5.9-1.5 9.8 1.4l37.4 25.6c2.8 1.9 6.5 1.9 9.3-.2 53-39.1 97.5-72.2 97.5-72.2 7.9-6 13-15.4 13-26 0-8.7-3.1-16.8-9.1-22.7zM446.9 131.2l-11.2-17.9c-2.2-3.8-7.1-5.1-10.9-2.9L365.4 147l47.3-78.9c2.2-3.8.9-8.8-2.9-11l-17.7-8c-3.9-2.3-8.8-.9-11 3l-57.6 108.3 28.6 28.8 91.8-46.8c3.9-2.2 5.3-7.2 3-11.2z\"}}]})(props);\n};\nexport function IoIosOpen (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M227.8 300.2c-5.1-5.1-5.1-13.3 0-18.4l133.7-133.7c-5.3-2.6-11.2-4.1-17.5-4.1H88c-22 0-40 18-40 40v224c0 22 18 40 40 40h256c22 0 40-18 40-40V184c0-6.3-1.5-12.2-4.1-17.5L246.2 300.2c-5.1 5.1-13.3 5.1-18.4 0z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M459.5 68.5C457 66 453 64 449 64h-97c-7.2-.1-13.1 5.7-13.1 12.9-.1 7.2 5.7 13.1 12.9 13.1l67.3.5-57.6 57.6c8 3.9 14.5 10.4 18.4 18.4l57.6-57.6.5 67.3c.1 7.2 5.9 13 13.1 12.9 7.2-.1 13-5.9 12.9-13.1V78c0-3.5-2-7-4.5-9.5z\"}}]})(props);\n};\nexport function IoIosOptions (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M299.3 376c6.2-14.1 20.3-24 36.7-24s30.5 9.9 36.7 24H448c8.8 0 16 7.2 16 16s-7.2 16-16 16h-75.3c-6.2 14.1-20.3 24-36.7 24s-30.5-9.9-36.7-24H64c-8.8 0-16-7.2-16-16s7.2-16 16-16h235.3zM139.3 240c6.2-14.1 20.3-24 36.7-24s30.5 9.9 36.7 24H448c8.8 0 16 7.2 16 16s-7.2 16-16 16H212.7c-6.2 14.1-20.3 24-36.7 24s-30.5-9.9-36.7-24H64c-8.8 0-16-7.2-16-16s7.2-16 16-16h75.3zM299.3 104c6.2-14.1 20.3-24 36.7-24s30.5 9.9 36.7 24H448c8.8 0 16 7.2 16 16s-7.2 16-16 16h-75.3c-6.2 14.1-20.3 24-36.7 24s-30.5-9.9-36.7-24H64c-8.8 0-16-7.2-16-16s7.2-16 16-16h235.3z\"}}]})(props);\n};\nexport function IoIosOutlet (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M359 78H153c-2.8 0-5.6.8-8 2.3C86.7 116.9 48 182 48 256c0 73.9 38.7 138.1 97 175.6 2.4 1.6 5.2 2.4 8.1 2.4h205.8c2.9 0 5.7-.8 8.1-2.4 58.3-37.5 97-101.7 97-175.6 0-74-38.7-139.1-97-175.7-2.4-1.5-5.2-2.3-8-2.3zM192.9 270.8h-22.3c-2.1 0-3.7-1.7-3.7-3.7V155.9c0-2 1.7-3.7 3.7-3.7h22.3c2.1 0 3.7 1.7 3.7 3.7v111.2c0 2.1-1.7 3.7-3.7 3.7zM282 389.5h-52c-2.1 0-3.7-1.7-3.7-3.7v-40.2c0-16.5 13.6-30.5 30.1-30.3 16.2.2 29.3 13.5 29.3 29.7v40.8c0 2-1.6 3.7-3.7 3.7zM341.4 256h-22.3c-2.1 0-3.7-1.7-3.7-3.7v-81.6c0-2 1.7-3.7 3.7-3.7h22.3c2.1 0 3.7 1.7 3.7 3.7v81.6c0 2-1.6 3.7-3.7 3.7z\"}}]})(props);\n};\nexport function IoIosPaperPlane (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M452.1 49L52.3 265.3c-6 3.3-5.6 12.1.6 14.9l68.2 25.7c4 1.5 7.2 4.5 9 8.4l53 109.1c1 4.8 9.9 6.1 10 1.2l-8.1-90.2c.5-6.7 3-13 7.3-18.2l207.3-203.1c1.2-1.2 2.9-1.6 4.5-1.3 3.4.8 4.8 4.9 2.6 7.6L228 338c-4 6-6 11-7 18l-10.7 77.9c.9 6.8 6.2 9.4 10.5 3.3l38.5-45.2c2.6-3.7 7.7-4.5 11.3-1.9l99.2 72.3c4.7 3.5 11.4.9 12.6-4.9L463.8 58c1.5-6.8-5.6-12.3-11.7-9z\"}}]})(props);\n};\nexport function IoIosPaper (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M124 80v322c0 7.7-6.3 14-14 14s-14-6.3-14-14V112H80c-17.7 0-32 14.3-32 32v288c0 17.7 14.3 32 32 32h353.1c17 0 30.9-13.8 30.9-30.9V80c0-17.7-14.3-32-32-32l-278 2c-17.7 0-30 12.3-30 30zm66 32h84c7.7 0 14 6.3 14 14s-6.3 14-14 14h-84c-7.7 0-14-6.3-14-14s6.3-14 14-14zm0 160h148c7.7 0 14 6.3 14 14s-6.3 14-14 14H190c-7.7 0-14-6.3-14-14s6.3-14 14-14zm196 108H190c-7.7 0-14-6.3-14-14s6.3-14 14-14h196c7.7 0 14 6.3 14 14s-6.3 14-14 14zm0-160H190c-7.7 0-14-6.3-14-14s6.3-14 14-14h196c7.7 0 14 6.3 14 14s-6.3 14-14 14z\"}}]})(props);\n};\nexport function IoIosPartlySunny (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M168.2 64h-.3c-8.7 0-15.8 7.1-15.8 15.8v30.3c0 8.7 7.1 15.8 15.8 15.8h.3c8.7 0 15.8-7.1 15.8-15.8V79.8c0-8.7-7.1-15.8-15.8-15.8zM79 216.2v-.3c0-8.7-7.1-15.8-15.8-15.8H31.8c-8.7 0-15.8 7.1-15.8 15.8v.3c0 8.7 7.1 15.8 15.8 15.8h31.3c8.8 0 15.9-7.1 15.9-15.8zM79.7 149c3 3 7 4.7 11.2 4.7 4.2 0 8.2-1.7 11.2-4.7 6.1-6.2 6.1-16.2 0-22.3l-20.3-20.5c-3-3-7-4.7-11.2-4.7-4.2 0-8.2 1.7-11.2 4.7-6.1 6.2-6.1 16.2 0 22.3L79.7 149zM271 105.2c-3-3-7-4.7-11.2-4.7-4.2 0-8.2 1.7-11.2 4.7l-20.3 20.4c-6.1 6.2-6.1 16.2 0 22.3l.3.3h.1c2.9 2.8 6.8 4.3 10.8 4.3 4.2 0 8.2-1.7 11.2-4.7l20.3-20.4c6.1-6 6.1-16 0-22.2zM92.9 273.3c-4.2 0-8.2 1.7-11.2 4.7l-20.3 20.5c-6.1 6.2-6.1 16.2 0 22.3 3 3 7 4.7 11.2 4.7 4.2 0 8.2-1.7 11.2-4.7l20.3-20.5c6.1-6.2 6.1-16.2 0-22.3-3-3-7-4.7-11.2-4.7zM403.3 259.2h-2.4c-3.1 0-6.1 0-9 .4-11.3-50.3-56.1-88.2-109.7-88.2-14.6 0-28.6 2.8-41.4 7.9-5.1 2-10 4.4-14.7 7.1-32 18.5-54.1 52.4-56.2 91.6-.1 2.1-.2 4.1-.2 6.2 0 3.4.2 6.8.5 10.1 0 .4.1.8.1 1.1-37.9 3.4-67.6 37.1-67.6 76 0 41.1 33.3 76.7 74.3 76.7h226.4c51.2 0 92.7-43.4 92.7-94.8-.1-51.4-41.6-94.1-92.8-94.1z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M150.7 283.6v-.3c-.3-3.4-.5-6.8-.5-10.2 0-2.1.1-4.2.2-6.3 2.2-39.9 24.6-74.3 57.2-93.1 4.8-2.8 9.8-5.2 14.9-7.2h.1c-13.4-17-34.2-28-57.6-28-40.5 0-73.3 32.8-73.3 73.3 0 35.5 25.3 65.1 59 71.8z\"}}]})(props);\n};\nexport function IoIosPause (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M199.9 416h-63.8c-4.5 0-8.1-3.6-8.1-8V104c0-4.4 3.6-8 8.1-8h63.8c4.5 0 8.1 3.6 8.1 8v304c0 4.4-3.6 8-8.1 8zM375.9 416h-63.8c-4.5 0-8.1-3.6-8.1-8V104c0-4.4 3.6-8 8.1-8h63.8c4.5 0 8.1 3.6 8.1 8v304c0 4.4-3.6 8-8.1 8z\"}}]})(props);\n};\nexport function IoIosPaw (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M324.3 80.3c-1.2-.2-2.4-.3-3.6-.3v.4-.3h-.4c-22 0-42.9 25.9-47.8 60.3-5.3 36.6 9.4 69 32.7 72.4 1.3.2 2.7.3 4 .3 22 0 42.9-25.9 47.8-60.3 5.3-36.7-9.4-69.1-32.7-72.5zM320.6 80zM442.3 169.4c-3.5-1.4-7.1-2.1-10.9-2.1h-.4c-19.7.3-41.8 19.2-53.4 47.8-13.9 34.2-7.5 69.2 14.4 78.2 3.5 1.4 7.1 2.1 10.9 2.1 19.8 0 42.2-19 53.9-47.8 13.8-34.2 7.3-69.2-14.5-78.2zM327.6 295.4c-27.8-43.6-39.8-60-71.6-60s-43.9 16.5-71.7 60c-23.8 37.2-71.9 40.3-83.9 71.9-2.4 5.6-3.6 11.7-3.6 18.2 0 25.7 20.8 46.5 46.4 46.5 31.8 0 75.1-24 112.9-24s80.9 24 112.7 24c25.6 0 46.3-20.8 46.3-46.5 0-6.5-1.3-12.6-3.7-18.2-12-31.7-60-34.7-83.8-71.9zM202.8 213c1.3 0 2.7-.1 4-.3 23.4-3.4 38-35.8 32.7-72.4-5-34.5-25.9-60.3-47.8-60.3-1.3 0-2.7.1-4 .3-23.4 3.4-38 35.8-32.7 72.4 5 34.4 25.9 60.3 47.8 60.3zM120.1 293.3c21.9-9 28.3-44 14.4-78.2-11.7-28.8-34.1-47.8-53.9-47.8-3.8 0-7.4.7-10.9 2.1-21.9 9-28.3 44-14.4 78.2 11.7 28.8 34.1 47.8 53.9 47.8 3.8 0 7.4-.7 10.9-2.1z\"}}]})(props);\n};\nexport function IoIosPeople (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M349.1 334.7c-11.2-4-29.5-4.2-37.6-7.3-5.6-2.2-14.5-4.6-17.4-8.1-2.9-3.5-2.9-28.5-2.9-28.5s7-6.6 9.9-14c2.9-7.3 4.8-27.5 4.8-27.5s6.6 2.8 9.2-10.4c2.2-11.4 6.4-17.4 5.3-25.8-1.2-8.4-5.8-6.4-5.8-6.4s5.8-8.5 5.8-37.4c0-29.8-22.5-59.1-64.6-59.1-42 0-64.7 29.4-64.7 59.1 0 28.9 5.7 37.4 5.7 37.4s-4.7-2-5.8 6.4c-1.2 8.4 3 14.4 5.3 25.8 2.6 13.3 9.2 10.4 9.2 10.4s1.9 20.1 4.8 27.5c2.9 7.4 9.9 14 9.9 14s0 25-2.9 28.5-11.8 5.9-17.4 8c-8 3.1-26.3 3.5-37.6 7.5-11.2 4-45.8 22.2-45.8 67.2h278.3c.1-45.1-34.5-63.3-45.7-67.3z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M140 286s23.9-.8 33.4-9.3c-15.5-23.5-7.1-50.9-10.3-76.5-3.2-25.5-17.7-40.8-46.7-40.8h-.4c-28 0-43.1 15.2-46.3 40.8-3.2 25.5 5.7 56-10.2 76.5C69 285.3 93 285 93 285s1 14.4-1 16.8c-2 2.4-7.9 4.7-12 5.5-8.8 1.9-18.1 4.5-25.9 7.2-7.8 2.7-22.6 17.2-22.6 37.2h80.3c2.2-8 17.3-22.3 32-29.8 9-4.6 17.9-4.3 24.7-5.2 0 0 3.8-6-8.7-8.3 0 0-17.2-4.3-19.2-6.7-1.9-2.2-.6-15.7-.6-15.7zM372 286s-23.9-.8-33.4-9.3c15.5-23.5 7.1-50.9 10.3-76.5 3.2-25.5 17.7-40.8 46.7-40.8h.4c28 0 43.1 15.2 46.3 40.8 3.2 25.5-5.7 56 10.2 76.5-9.5 8.6-33.5 8.3-33.5 8.3s-1 14.4 1 16.8c2 2.4 7.9 4.7 12 5.5 8.8 1.9 18.1 4.5 25.9 7.2 7.8 2.7 22.6 17.2 22.6 37.2h-80.3c-2.2-8-17.3-22.3-32-29.8-9-4.6-17.9-4.3-24.7-5.2 0 0-3.8-6 8.7-8.3 0 0 17.2-4.3 19.2-6.7 1.9-2.2.6-15.7.6-15.7z\"}}]})(props);\n};\nexport function IoIosPersonAdd (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M385.3 386c-15.6-5.5-37.8-6.8-52.1-10-8.2-1.8-20.1-6.3-24.1-11.1-3.5-4.2-2.1-38.4-1.7-47.2.1-1.3.5-2.6 1.1-3.8 2.2-3.6 7.2-12.2 10.3-20 3-7.6 6.2-25 7.6-33.3.4-2.4 1.9-4.5 4-5.6 2.6-1.5 6.1-4.9 7.8-13.4 3.1-15.7 8-21.8 7.4-33.5-.3-5.2-1.7-8-3.2-9.5-2-1.9-2.7-4.8-2-7.4 1.9-7.6 4.7-22.6 5.2-45.6.9-41.1-31.3-81.6-89.5-81.6-59.1 0-90.5 40.5-89.6 81.6.5 23 3.3 38 5.1 45.6.6 2.7-.1 5.5-2 7.4-1.5 1.5-3 4.3-3.2 9.5-.6 11.7 4.3 17.8 7.4 33.5 1.7 8.4 5.2 11.9 7.8 13.4 2.1 1.2 3.6 3.2 4 5.6 1.4 8.3 4.6 25.7 7.6 33.3 3.1 7.8 8.2 16.5 10.3 20 .7 1.1 1.1 2.4 1.1 3.8.4 8.8 1.8 43.1-1.7 47.2-4 4.8-15.9 9.3-24.1 11.1-14.3 3.2-36.5 4.5-52.1 10-14.2 5-55.3 20.5-62.5 52.3-1.1 5 2.7 9.7 7.9 9.7H440c5.1 0 8.9-4.7 7.8-9.7-7.2-31.8-48.3-47.3-62.5-52.3z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M437.5 293.5h-27v-27c0-5.8-4.7-10.5-10.5-10.5s-10.5 4.7-10.5 10.5v27h-27c-5.8 0-10.5 4.7-10.5 10.5s4.7 10.5 10.5 10.5h27v27c0 5.8 4.7 10.5 10.5 10.5s10.5-4.7 10.5-10.5v-27h27c5.8 0 10.5-4.7 10.5-10.5s-4.7-10.5-10.5-10.5z\"}}]})(props);\n};\nexport function IoIosPerson (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M447.8 438.3c-7.2-31.8-48.3-47.3-62.5-52.3-15.6-5.5-37.8-6.8-52.1-10-8.2-1.8-20.1-6.3-24.1-11.1s-1.6-49.3-1.6-49.3 7.4-11.5 11.4-21.7c4-10.1 8.4-37.9 8.4-37.9s8.2 0 11.1-14.4c3.1-15.7 8-21.8 7.4-33.5-.6-11.5-6.9-11.2-6.9-11.2s6.1-16.7 6.8-51.3c.9-41.1-31.3-81.6-89.6-81.6-59.1 0-90.6 40.5-89.7 81.6.8 34.6 6.7 51.3 6.7 51.3s-6.3-.3-6.9 11.2c-.6 11.7 4.3 17.8 7.4 33.5 2.8 14.4 11.1 14.4 11.1 14.4s4.4 27.8 8.4 37.9c4 10.2 11.4 21.7 11.4 21.7s2.4 44.5-1.6 49.3c-4 4.8-15.9 9.3-24.1 11.1-14.3 3.2-36.5 4.5-52.1 10-14.2 5-55.3 20.5-62.5 52.3-1.1 5 2.7 9.7 7.9 9.7H440c5.1 0 8.9-4.7 7.8-9.7z\"}}]})(props);\n};\nexport function IoIosPhoneLandscape (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M32 176.3v158.5c0 18.3 14.6 33.1 32.9 33.1h381c18.4 0 34.1-14.8 34.1-33.1V176.3c0-18.3-15.7-32.3-34.1-32.3h-381C46.6 144 32 158 32 176.3zM55 271v-30c0-2.2 1.8-4 4-4s4 1.8 4 4v30c0 2.2-1.8 4-4 4s-4-1.8-4-4zm414-15.5c0 9.6-7.8 17.4-17.4 17.4-9.6 0-17.4-7.8-17.4-17.4 0-9.6 7.8-17.4 17.4-17.4 9.6 0 17.4 7.8 17.4 17.4zM424 160v192H83V160h341z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M441.6 255.5c0 5.5 4.5 10 9.9 10 5.5 0 10-4.5 10-10s-4.5-10-10-10c-5.4.1-9.9 4.5-9.9 10z\"}}]})(props);\n};\nexport function IoIosPhonePortrait (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M335.7 32H177.1C158.8 32 144 46.6 144 64.9v381c0 18.4 14.8 34.1 33.1 34.1h158.5c18.3 0 32.3-15.7 32.3-34.1v-381C368 46.6 354 32 335.7 32zM241 55h30c2.2 0 4 1.8 4 4s-1.8 4-4 4h-30c-2.2 0-4-1.8-4-4s1.8-4 4-4zm15.5 410c-9.6 0-17.4-7.8-17.4-17.4 0-9.6 7.8-17.4 17.4-17.4 9.6 0 17.4 7.8 17.4 17.4 0 9.6-7.8 17.4-17.4 17.4zm93.5-49H162c-1.1 0-2-.9-2-2V85c0-1.1.9-2 2-2h188c1.1 0 2 .9 2 2v329c0 1.1-.9 2-2 2z\"}}]})(props);\n};\nexport function IoIosPhotos (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M464 144H128c-17.6 0-32 14.4-32 32v240c0 17.6 14.4 32 32 32h336c17.6 0 32-14.4 32-32V176c0-17.6-14.4-32-32-32z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M100 116h332V96c0-17.6-14.4-32-32-32H48c-17.6 0-32 14.4-32 32v256c0 17.6 14.4 32 32 32h20V148c0-17.6 14.4-32 32-32z\"}}]})(props);\n};\nexport function IoIosPie (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M276 68.1v219c0 3.7-2.5 6.8-6 7.7L81.1 343.4c-2.3.6-3.6 3.1-2.7 5.4C109.1 426 184.9 480.6 273.2 480c114.6-.7 206.8-93.5 206.8-208 0-112.1-88.6-203.5-199.8-207.8-2.3-.1-4.2 1.7-4.2 3.9z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M32 239.3s.2 48.8 15.2 81.1c.8 1.8 2.8 2.7 4.6 2.2l193.8-49.7c3.5-.9 6.4-4.6 6.4-8.2V36c0-2.2-1.8-4-4-4C91 33.9 32 149 32 239.3z\"}}]})(props);\n};\nexport function IoIosPin (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M256 48c-79.5 0-144 59.9-144 133.7 0 104 144 282.3 144 282.3s144-178.3 144-282.3C400 107.9 335.5 48 256 48zm0 190.9c-25.9 0-46.9-21-46.9-46.9s21-46.9 46.9-46.9 46.9 21 46.9 46.9-21 46.9-46.9 46.9z\"}}]})(props);\n};\nexport function IoIosPint (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M372 175.2c0-19.5-1-81.7-19.3-115.6-4.5-8.2-9.5-11.6-28.7-11.6H188c-19.3 0-24.2 3.4-28.7 11.6-18.3 33.9-19.3 96.5-19.3 116 0 91 36 93.1 36 167.8 0 36.7-16 66.7-16 92.7 0 25.1 6 27.8 29 27.8h134c23 0 29-2.9 29-27.9 0-26-16-55.7-16-92.4 0-74.7 36-77.4 36-168.4zM188 76h136c2.4 0 4.3.1 5.7.2 5.4 11.6 9.4 29.3 11.8 50.8h-171c2.4-21.6 6.5-39.3 11.8-50.8 1.4-.1 3.3-.2 5.7-.2z\"}}]})(props);\n};\nexport function IoIosPizza (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M446.6 109.8c-2.7-7.3-14.2-14-25-18.7-27-11.6-73.5-27.1-164.9-27.1-94 0-137.5 14.5-165 27.1-12.3 5.7-24.2 12.5-26.7 19.5-2.9 8 .8 15.3 4.1 21.8l1.5 3c3.1 6.4 12.9 12.8 22.8 13.8L251.3 445c1 1.9 3.1 3.1 5.3 3.1 2.2 0 4.3-1.2 5.3-3.1l157.6-295.1c5.6-.6 17.2-2.6 23.1-14.3 3.9-7.7 7.4-16.7 4-25.8zm-266 112.8c-1.2 3.5-2.9 6.6-5.1 9.5-1.8 2.3-5.3 2-6.7-.6-8.8-16.6-17.3-32.4-24.8-46.5-1.4-2.6.5-5.8 3.4-5.9h1c3.7 0 7.3.6 10.9 1.7 8.6 2.8 15.5 8.7 19.6 16.6 3.9 7.9 4.6 16.8 1.7 25.2zm116.6 97.5c-.8 1.4-2.3 2.3-3.9 2.1-17-1.8-30.2-15.8-30.2-32.8 0-18.2 15.2-33 33.9-33 9.9 0 19 4 25.3 11 1.1 1.2 1.3 3.1.5 4.5l-25.6 48.2zm35.2-176.8c-5.7 4.1-12.4 6.3-19.5 6.3-1.6 0-3.3-.1-4.9-.3-8.7-1.2-16.3-5.7-21.5-12.5-2-2.6-3.6-5.5-4.6-8.4-1-2.7 1.2-5.5 4-5.3 18.3 1 35.3 2.9 51.4 5.9 3.1.6 4.5 4.1 2.7 6.7-2 2.8-4.6 5.4-7.6 7.6z\"}}]})(props);\n};\nexport function IoIosPlanet (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M462.5 352.3c-1.9-5.5-5.6-11.5-11.4-18.3-10.2-12-30.8-29.3-54.8-47.2-2.6-2-6.4-.8-7.5 2.3l-4.7 13.4c-.7 2 0 4.3 1.7 5.5 15.9 11.6 35.9 27.9 41.8 35.9 2 2.8-.5 6.6-3.9 5.8-10-2.3-29-7.3-44.2-12.8-8.6-3.1-17.7-6.7-27.2-10.6 16-20.8 24.7-46.3 24.7-72.6 0-32.8-13.2-63.6-37.1-86.4-22.9-21.9-53.8-34.1-85.7-33.7-25.7.3-50.1 8.4-70.7 23.5-18.3 13.4-32.2 31.3-40.6 52-8.3-6-16.1-11.9-23.2-17.6-13.7-10.9-28.4-22-38.7-34.7-2.2-2.8.9-6.7 4.4-5.9 11.3 2.6 35.4 10.9 56.4 18.9 1.5.6 3.2.3 4.5-.8l11.1-10.1c2.4-2.1 1.7-6-1.3-7.2C121 137.4 89.2 128 73.2 128c-11.5 0-19.3 3.5-23.3 10.4-7.6 13.3 7.1 35.2 45.1 66.8 34.1 28.5 82.6 61.8 136.5 92 87.5 49.1 171.1 81 208 81 11.2 0 18.7-3.1 22.1-9.1 2.8-4.7 3.1-10.4.9-16.8zM312 354c-29.1-12.8-59.3-26-92.6-44.8-30.1-16.9-59.4-36.5-84.4-53.6-1-.7-2.2-1.1-3.4-1.1-.9 0-1.9.2-2.8.7-2 1-3.3 3-3.3 5.2 0 1.2-.1 2.4-.1 3.5 0 32.1 12.6 62.3 35.5 84.9 22.9 22.7 53.4 35.2 85.8 35.2 23.6 0 46.5-6.7 66.2-19.5 1.9-1.2 2.9-3.3 2.7-5.5-.1-2.2-1.5-4.1-3.6-5z\"}}]})(props);\n};\nexport function IoIosPlayCircle (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M256 48C141.1 48 48 141.1 48 256s93.1 208 208 208 208-93.1 208-208S370.9 48 256 48zm83.8 211.9l-137.2 83c-2.9 1.8-6.7-.4-6.7-3.9V173c0-3.5 3.7-5.7 6.7-3.9l137.2 83c2.9 1.7 2.9 6.1 0 7.8z\"}}]})(props);\n};\nexport function IoIosPlay (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M128 104.3v303.4c0 6.4 6.5 10.4 11.7 7.2l240.5-151.7c5.1-3.2 5.1-11.1 0-14.3L139.7 97.2c-5.2-3.3-11.7.7-11.7 7.1z\"}}]})(props);\n};\nexport function IoIosPodium (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M64 199.9v208.2c0 4.4 3.5 7.9 7.9 7.9h96.2c4.4 0 7.9-3.5 7.9-7.9V199.9c0-4.4-3.5-7.9-7.9-7.9H71.9c-4.4 0-7.9 3.5-7.9 7.9zM199.9 96c-4.4 0-7.9 3.5-7.9 7.9V416h120.1c4.4 0 7.9-3.5 7.9-7.9V103.9c0-4.4-3.5-7.9-7.9-7.9H199.9zM440.1 256h-96.2c-4.4 0-7.9 3.5-7.9 7.9v144.2c0 4.4 3.5 7.9 7.9 7.9h96.2c4.4 0 7.9-3.5 7.9-7.9V263.9c0-4.4-3.5-7.9-7.9-7.9z\"}}]})(props);\n};\nexport function IoIosPower (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M380.4 111.7c-3.3-2.8-7.5-4.3-11.8-4.3-5.3 0-10.4 2.3-13.8 6.4-3.2 3.7-4.7 8.4-4.3 13.3.4 4.8 2.7 9.3 6.4 12.4 34.8 29.5 54.8 72.3 54.8 117.4 0 85.4-69.8 154.8-155.6 154.8s-155.6-69.5-155.6-154.8c0-45.2 20-88 54.8-117.4 3.7-3.1 6-7.5 6.4-12.4.4-4.8-1.1-9.6-4.3-13.3-3.5-4-8.5-6.4-13.8-6.4-4.3 0-8.5 1.5-11.8 4.3C88.7 148.1 64 201 64 256.8 64 362.2 150.1 448 256 448s192-85.8 192-191.2c0-55.8-24.7-108.7-67.6-145.1z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M256.9 274.5c10.2 0 18.5-8.3 18.5-18.5V82.5c0-10.2-8.3-18.5-18.5-18.5s-18.5 8.3-18.5 18.5V256c0 10.2 8.3 18.5 18.5 18.5z\"}}]})(props);\n};\nexport function IoIosPricetag (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M435.2 48H312.3c-3.8 0-7.5 1.5-10.2 4.2L56.4 297.9c-11.2 11.2-11.2 29.5 0 40.7l117 117c11.2 11.2 29.5 11.2 40.7 0L459.7 210c2.7-2.7 4.2-6.4 4.2-10.2v-123C464 60.9 451.1 48 435.2 48zm-47.7 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7.2 16 16 16h224c8.8 0 16-7.2 16-16V248c0-8.8-7.2-16-16-16H144c-8.8 0-16 7.2-16 16zM384 48H128c-8.8 0-16 7.2-16 16v20c0 2.2 1.8 4 4 4h280c2.2 0 4-1.8 4-4V64c0-8.8-7.2-16-16-16z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M432.5 112h-352C62.9 112 48 125.8 48 143.3v174.4c0 17.5 14.9 32.3 32.5 32.3H96c4.4 0 8-3.6 8-8V236c0-15.5 12.5-28 28-28h248c15.5 0 28 12.5 28 28v106c0 4.4 3.6 8 8 8h16.5c17.6 0 31.5-14.8 31.5-32.3V143.3c0-17.5-13.9-31.3-31.5-31.3z\"}}]})(props);\n};\nexport function IoIosPulse (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M434.6 272.1c-22.4-1.2-41.6 13.2-48.2 32.9h-38.9l-28.4-85.4c-2.2-6.6-8.3-11-15.2-11h-.3c-7 .1-13.1 4.8-15 11.6l-44.5 155.3-52.3-314.1c-1.2-7.5-7.6-13.1-15.2-13.4-7.6-.3-14.3 4.8-16.2 12.1l-53 244.9H48c-8.8 0-16 7.2-16 16s7.2 16 16 16h72c7.3 0 13.8-5 15.5-12.1l37.4-182.2 51.3 307.9c1.2 7.4 7.4 12.9 14.9 13.3h.9c7.1 0 13.4-4.7 15.4-11.6l49.7-173.6 15.7 47.3c2.2 6.5 8.3 11 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(props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M209 96h-65c-26.4 0-48 21.6-48 48v128c0 26.4 21.6 48 48 48h38.7c4.6 0 8.3 3.9 8 8.6-2.3 35.5-18.8 60.2-31.3 74.1-4.7 5.2-1 13.4 5.9 13.4h39.9c2.5 0 4.8-1.1 6.3-3.1 7.4-9.6 28.5-41.6 28.5-93.9v-192c0-17.8-13.3-31.1-31-31.1zM385 96h-65c-26.4 0-48 21.6-48 48v128c0 26.4 21.6 48 48 48h38.7c4.6 0 8.3 3.9 8 8.6-2.3 35.5-18.8 60.2-31.3 74.1-4.7 5.2-1 13.4 5.9 13.4h39.9c2.5 0 4.8-1.1 6.3-3.1 7.4-9.6 28.5-41.6 28.5-93.9v-192c0-17.8-13.3-31.1-31-31.1z\"}}]})(props);\n};\nexport function IoIosRadioButtonOff (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M256 76c48.1 0 93.3 18.7 127.3 52.7S436 207.9 436 256s-18.7 93.3-52.7 127.3S304.1 436 256 436c-48.1 0-93.3-18.7-127.3-52.7S76 304.1 76 256s18.7-93.3 52.7-127.3S207.9 76 256 76m0-28C141.1 48 48 141.1 48 256s93.1 208 208 208 208-93.1 208-208S370.9 48 256 48z\"}}]})(props);\n};\nexport function IoIosRadioButtonOn (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M256 76c48.1 0 93.3 18.7 127.3 52.7S436 207.9 436 256s-18.7 93.3-52.7 127.3S304.1 436 256 436c-48.1 0-93.3-18.7-127.3-52.7S76 304.1 76 256s18.7-93.3 52.7-127.3S207.9 76 256 76m0-28C141.1 48 48 141.1 48 256s93.1 208 208 208 208-93.1 208-208S370.9 48 256 48z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M363.5 148.5C334.8 119.8 296.6 104 256 104c-40.6 0-78.8 15.8-107.5 44.5C119.8 177.2 104 215.4 104 256s15.8 78.8 44.5 107.5C177.2 392.2 215.4 408 256 408c40.6 0 78.8-15.8 107.5-44.5C392.2 334.8 408 296.6 408 256s-15.8-78.8-44.5-107.5z\"}}]})(props);\n};\nexport function IoIosRadio (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M60 256c0-51 18.6-97.9 54-135.6 5.3-5.7 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175.6c-19-17.6-44.6-27.3-72.1-27.3h-5.6c-6.5-23.5-19.4-43.5-37.6-58.2C297.3 73 269.5 64 238.1 64c-32.7 0-63.2 11.7-86 32.9-22.8 21.2-35.5 50-36.1 81.4-17.5 4-33.6 13.7-46 27.9-14.2 16.2-22 36.6-22 57.4 0 44.6 34.9 82.6 77.4 86L101.2 382c-2.4 3.2-3.3 7.2-2.7 11.1.6 3.9 2.8 7.3 6 9.6 2.5 1.8 5.5 2.7 8.6 2.7 5.2 0 9.8-2.1 12.5-5.8l37.1-50h35.1l-55.3 75.1c-2.3 3.2-3.4 6.9-2.9 10.6.5 3.9 2.6 7.4 5.9 9.8 3.5 2.5 7.5 2.8 9 2.8 7.2 0 11.2-3.5 13.4-6.4l67.4-91.8H270L246 382c-2.4 3.3-3.4 7.2-2.7 11.1.6 3.9 2.8 7.3 6 9.6 2.5 1.8 5.5 2.7 8.6 2.7 5.2 0 9.8-2.1 12.5-5.8l37-50h35.1l-55.3 75.1c-2.3 3.2-3.4 7-2.9 10.6.5 3.8 2.6 7.2 5.9 9.6 2.6 1.9 5.9 3 8.9 3 5.1 0 9.7-2.2 12.5-6l69.7-95.1c22.4-4.5 43-16.6 58.1-34.5 15.9-18.8 24.7-42.6 24.7-67.1-.1-26.8-10.8-51.6-30.2-69.6z\"}}]})(props);\n};\nexport function IoIosRecording (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M386.2 146h-.1c-60.6 0-109.8 49.2-109.8 110.1 0 30.5 12.3 58 32.3 77.9H203.5c19.9-19.9 32.3-47.5 32.3-77.9 0-60.8-49.2-110.1-109.8-110.1h-.1-.1C65.2 146 16 195.2 16 256s49.2 110 109.8 110h260.4c60.6 0 109.8-49.2 109.8-110s-49.2-110-109.8-110zM464 256c0 43.1-34.9 78.2-77.9 78.2s-77.9-35.1-77.9-78.2 34.9-78.2 77.9-78.2S464 212.9 464 256zm-338.1 78.2C83 334.2 48 299.1 48 256s34.9-78.2 77.9-78.2 77.9 35.1 77.9 78.2-34.9 78.2-77.9 78.2z\"}}]})(props);\n};\nexport function IoIosRedo (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M32 432h2.9c1.8 0 3.5-1.1 4.1-2.8 2.2-5.7 8.3-19.8 21.4-39.7 21.5-32.7 58.4-67.4 94.5-83.5 27.6-12.4 53-21.5 97.1-23.2 2.3-.1 4.2 1.7 4.2 4v81.6c0 3.2 3.6 5.1 6.2 3.4l215.9-142.2c2.4-1.6 2.4-5.1 0-6.7l-216-142.2c-2.7-1.8-6.2.1-6.2 3.4v82.6c0 2.2-1.7 3.9-3.8 4-71.6 3.8-123.1 24.8-163.4 65.5-61 61.6-56.8 139.1-56.8 158.7 0 10.3-.1 25.3-.1 37.1z\"}}]})(props);\n};\nexport function IoIosRefreshCircle (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M256 48C141.1 48 48 141.1 48 256s93.1 208 208 208 208-93.1 208-208S370.9 48 256 48zm0 336.1c-70.7 0-128-57.3-128-128.1s57.3-128.1 128-128.1v-37c0-6.4 7.1-10.2 12.4-6.7l72.9 52.6c4.9 3.3 4.7 10.6-.4 13.6L268 196.7c-5.3 3.1-12-.8-12-6.9v-41.9c-60.3 0-109.2 49.7-108.1 110.2 1.1 59.1 50.3 106.7 109.5 106 55.9-.7 101.8-43.7 106.3-99 .4-5.2 4.7-9.1 9.9-9.1 5.8 0 10.4 4.9 9.9 10.7-5.4 66-60.4 117.4-127.5 117.4z\"}}]})(props);\n};\nexport function IoIosRefresh (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M433 288.8c-7.7 0-14.3 5.9-14.9 13.6-6.9 83.1-76.8 147.9-161.8 147.9-89.5 0-162.4-72.4-162.4-161.4 0-87.6 70.6-159.2 158.2-161.4 2.3-.1 4.1 1.7 4.1 4v50.3c0 12.6 13.9 20.2 24.6 13.5L377 128c10-6.3 10-20.8 0-27.1l-96.1-66.4c-10.7-6.7-24.6.9-24.6 13.5v45.7c0 2.2-1.7 4-3.9 4C148 99.8 64 184.6 64 288.9 64 394.5 150.1 480 256.3 480c100.8 0 183.4-76.7 191.6-175.1.8-8.7-6.2-16.1-14.9-16.1z\"}}]})(props);\n};\nexport function IoIosRemoveCircleOutline (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M346.5 240h-181c-8.8 0-16 6-16 16s7.5 16 16 16h181c8.8 0 16-7.2 16-16s-7.2-16-16-16z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M256 76c48.1 0 93.3 18.7 127.3 52.7S436 207.9 436 256s-18.7 93.3-52.7 127.3S304.1 436 256 436c-48.1 0-93.3-18.7-127.3-52.7S76 304.1 76 256s18.7-93.3 52.7-127.3S207.9 76 256 76m0-28C141.1 48 48 141.1 48 256s93.1 208 208 208 208-93.1 208-208S370.9 48 256 48z\"}}]})(props);\n};\nexport function IoIosRemoveCircle (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M256 48C141.1 48 48 141.1 48 256s93.1 208 208 208 208-93.1 208-208S370.9 48 256 48zm90.5 224h-181c-8.5 0-16-6-16-16s7.2-16 16-16h181c8.8 0 16 7.2 16 16s-7.2 16-16 16z\"}}]})(props);\n};\nexport function IoIosRemove (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M368.5 240h-225c-8.8 0-16 7.2-16 16 0 4.4 1.8 8.4 4.7 11.3 2.9 2.9 6.9 4.7 11.3 4.7h225c8.8 0 16-7.2 16-16s-7.2-16-16-16z\"}}]})(props);\n};\nexport function IoIosReorder (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M80 304h352v16H80zM80 248h352v16H80zM80 192h352v16H80z\"}}]})(props);\n};\nexport function IoIosRepeat (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M336.6 157.5L303 124.1c-3.5-3.5-8.5-4.9-13.6-3.6-1.2.3-2.4.8-3.5 1.5-4.7 2.9-7.2 7.8-6.8 13.1.2 3.4 1.9 6.6 4.3 9.1l16 15.9H142c-20.8 0-40.3 8.1-55.1 22.9C72.1 197.7 64 217.2 64 238v16c0 7.7 6.3 14 14 14s14-6.3 14-14v-16c0-13.3 5.2-25.8 14.7-35.3 9.5-9.5 22-14.7 35.3-14.7h155.4l-16 15.9c-2.4 2.4-4 5.4-4.3 8.7-.4 4.2 1.1 8.3 4.1 11.3 2.6 2.6 6.2 4.1 9.9 4.1s7.2-1.4 9.9-4.1l35.6-35.4c4.2-4.1 6.5-9.7 6.5-15.5-.1-5.9-2.4-11.4-6.5-15.5zM434 244c-7.7 0-14 6.3-14 14v16c0 13.3-5.2 25.8-14.7 35.3-9.5 9.5-22 14.7-35.3 14.7H214.6l16-15.9c2.4-2.4 4-5.4 4.3-8.8.4-4.2-1.1-8.3-4.1-11.3-2.6-2.6-6.2-4.1-9.9-4.1s-7.2 1.4-9.9 4.1l-35.6 35.4c-4.2 4.1-6.5 9.7-6.5 15.5 0 5.9 2.3 11.4 6.5 15.5l33.6 33.4c3.5 3.5 8.5 4.9 13.6 3.6 1.2-.3 2.4-.8 3.5-1.5 4.7-2.9 7.2-7.8 6.8-13.1-.2-3.4-1.9-6.6-4.3-9.1l-16-15.9H370c43 0 78-35 78-78v-16c0-7.5-6.3-13.8-14-13.8z\"}}]})(props);\n};\nexport function IoIosResize (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M418.3 80H307.8c-7.5 0-13.7 6.1-13.7 13.7v.2c0 7.5 6.1 13.7 13.7 13.7h76.5L107.6 384.3v-76.5c0-7.5-6.1-13.7-13.7-13.7h-.2c-7.5 0-13.7 6.1-13.7 13.7v110.5c0 7.5 6.1 13.7 13.7 13.7h110.5c7.5 0 13.7-6.1 13.7-13.7v-.2c0-7.5-6.1-13.7-13.7-13.7h-76.5l276.7-276.7v76.5c0 7.5 6.1 13.7 13.7 13.7h.2c7.5 0 13.7-6.1 13.7-13.7V93.7c0-7.6-6.1-13.7-13.7-13.7z\"}}]})(props);\n};\nexport function IoIosRestaurant (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M384 64c-24.8 0-48 77.3-48 160 0 57 32 80 32 80v128c0 8.8 7.2 16 16 16s16-7.2 16-16V75c0-11-11-11-16-11zM288 64l10 104c0 4.4-3.6 8-8 8s-8-3.6-8-8l-6-104h-8l-6 104c0 4.4-3.6 8-8 8s-8-3.6-8-8l10-104h-8s-24 107.2-24 128 13.4 38.6 32 45.2V432c0 8.8 7.2 16 16 16s16-7.2 16-16V237.2c18.6-6.6 32-24.2 32-45.2S296 64 296 64h-8zM160 64c-26.5 0-48 64-48 128 0 20.8 13.4 38.6 32 45.2V432c0 8.8 7.2 16 16 16s16-7.2 16-16V237.2c18.6-6.6 32-24.2 32-45.2 0-64-21.5-128-48-128z\"}}]})(props);\n};\nexport function IoIosReturnLeft (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M70.5 265.4l59.6-59.4c2.6-2.6 6.1-4.1 9.9-4.1 3.7 0 7.3 1.4 9.9 4.1 2.6 2.6 4.1 6.1 4.1 9.9s-1.5 7.3-4.1 9.9l-.1.1-41.1 40.1H370c13.2 0 25.8-5.2 35.3-14.7 9.5-9.4 14.7-21.9 14.7-35.3v-48c0-7.7 6.3-14 14-14s14 6.3 14 14v48c0 20.8-8.1 40.3-22.9 55.1-14.8 14.8-34.3 22.9-55.1 22.9H108.3l39.6 40.2c2.6 2.6 4.1 6.1 4.1 9.9 0 3.7-1.4 7.3-4.1 9.9l-.1.1c-2.7 2.5-6.2 3.9-9.8 3.9-3.9 0-7.3-1.4-9.9-4.1l-57.6-57.4c-4.2-4.2-6.5-9.8-6.5-15.7 0-5.8 2.3-11.3 6.5-15.4z\"}}]})(props);\n};\nexport function IoIosReturnRight (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M441.5 265.4L381.9 206c-2.6-2.6-6.1-4.1-9.9-4.1-3.7 0-7.3 1.4-9.9 4.1-2.6 2.6-4.1 6.1-4.1 9.9s1.5 7.3 4.1 9.9l.1.1 41.1 40.1H142c-13.2 0-25.8-5.2-35.3-14.7-9.5-9.5-14.7-22-14.7-35.3v-48c0-7.7-6.3-14-14-14s-14 6.3-14 14v48c0 20.8 8.1 40.3 22.9 55.1 14.8 14.8 34.3 22.9 55.1 22.9h261.7L364 334.2c-2.6 2.6-4.1 6.1-4.1 9.9 0 3.7 1.4 7.3 4.1 9.9l.1.1c2.7 2.5 6.2 3.9 9.8 3.9 3.9 0 7.3-1.4 9.9-4.1l57.6-57.4c4.2-4.2 6.5-9.8 6.5-15.7.1-5.8-2.2-11.3-6.4-15.4z\"}}]})(props);\n};\nexport function IoIosReverseCamera (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M417.5 160H363c-4.6 0-8.9-2-12-5.4-28.4-31.8-39.1-42.6-50.7-42.6h-85.5c-11.7 0-23.2 10.8-51.7 42.7-3 3.4-7.4 5.3-11.9 5.3h-4.1v-8c0-4.4-3.6-8-8-8h-26c-4.4 0-8 3.6-8 8v8h-7.5C79.9 160 64 173.2 64 190.7v176c0 17.5 15.9 33.3 33.5 33.3h320c17.6 0 30.5-15.8 30.5-33.3v-176c0-17.5-12.9-30.7-30.5-30.7zM308.3 340.5c-.8 2.5-2.6 4.6-4.8 6.1-14.1 9.7-30.5 14.8-47.5 14.8-21 0-41.2-8.1-57.1-22.7-14.6-13.5-24.1-31.2-27-50.2h-20.4c-3.2 0-6-2.8-5.6-6.6.1-.7.3-1.3.7-1.8l31.5-42.3c1.1-1.4 2.7-2.2 4.4-2.2 1.7 0 3.3.8 4.4 2.2l32.2 41.8c2 2.6 1.5 6.4-1.8 8.5-.6.4-1.2.5-1.9.5h-20.8c2.7 12.8 9.7 24.8 19.9 34 11.6 10.6 26.3 16.4 41.4 16.4 12.3 0 24.4-4 35.1-11.5 1.9-1.3 4.2-2.1 6.5-2.1 3.2 0 6.2 1.3 8.3 3.7 2.9 3 3.9 7.3 2.5 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22.4-14.7 22.4 0 0-34.7-4-73.1-4-38.5 0-76.1 4-76.1 4zm148.5-104.1c-14.8 1.2-27-11.1-25.9-25.9.9-11.6 10.3-21.1 22-22 14.8-1.2 27 11.1 25.9 25.9-.9 11.7-10.3 21.1-22 22z\"}}]})(props);\n};\nexport function IoIosSave (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M272 64h-16c-4.4 0-8 3.6-8 8v72c0 4.4 7.6 8 12 8h12c4.4 0 8-3.6 8-8V72c0-4.4-3.6-8-8-8z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M433.9 130.1L382 78.2c-9-9-21.3-14.2-34.1-14.2h-28c-8.8 0-16 7.3-16 16.2v80c0 8.8-7.2 16-16 16H160c-8.8 0-16-7.2-16-16v-80c0-8.8-7.2-16.2-16-16.2H96c-17.6 0-32 14.4-32 32v320c0 17.6 14.4 32 32 32h320c17.6 0 32-14.4 32-32V164c0-12.7-5.1-24.9-14.1-33.9zM322 400.1c0 8.8-8 16-17.8 16H143.8c-9.8 0-17.8-7.2-17.8-16v-96c0-8.8 8-16 17.8-16h160.4c9.8 0 17.8 7.2 17.8 16v96z\"}}]})(props);\n};\nexport function IoIosSchool (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M96.9 270.3V363c0 2.9 1.5 5.5 4 7l132 75.9c5.3 3.1 12-.8 12-7v-93.8c0-2.9-1.5-5.5-4-7l-132-74.9c-5.4-2.9-12 1-12 7.1zM280.9 445.9L413 370c2.5-1.4 4-4.1 4-7v-93.7c0-6.2-6.6-10-12-7l-132 75.9c-2.5 1.4-4 4.1-4 7V439c-.1 6.1 6.6 10 11.9 6.9z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M249 65.1L37 188.9c-5.4 3.1-5.4 10.8 0 13.9l212 117.8c4.9 2.8 11 2.8 15.9 0L453 212.9c5.3-3.1 7 .8 7 7v153.4c0 6.8 3.9 10 11 10 4.4 0 10-3.2 10-10V201.5c0-2.9-1.5-5.5-4-7L264.9 65.1c-4.9-2.8-11-2.8-15.9 0z\"}}]})(props);\n};\nexport function IoIosSearch (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M443.5 420.2L336.7 312.4c20.9-26.2 33.5-59.4 33.5-95.5 0-84.5-68.5-153-153.1-153S64 132.5 64 217s68.5 153 153.1 153c36.6 0 70.1-12.8 96.5-34.2l106.1 107.1c3.2 3.4 7.6 5.1 11.9 5.1 4.1 0 8.2-1.5 11.3-4.5 6.6-6.3 6.8-16.7.6-23.3zm-226.4-83.1c-32.1 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6.5-15.5s-2.3-11.4-6.5-15.5l-35.6-35.5z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M279.4 235.4c1.1 1.4 2.8 2.1 4.6 2.1h.1c1.8 0 3.5-.8 4.6-2.2l37.9-47.3h75.8l-16.3 16.2c-2.7 2.6-4.1 6.1-4.1 9.9 0 3.7 1.5 7.2 4.1 9.9 2.6 2.6 6.2 4.1 9.9 4.1s7.2-1.4 9.9-4.1l35.6-35.4c4.2-4.1 6.5-9.7 6.5-15.5 0-5.9-2.3-11.4-6.5-15.5l-33.6-33.4c-2.6-2.6-6.2-4.1-9.9-4.1s-7.2 1.4-9.9 4.1c-2.7 2.6-4.1 6.2-4.1 9.9s1.5 7.2 4.1 9.9l16.3 16.2H320c-4.1 0-8 1.8-10.7 5l-.1.1-40.3 50.2c-1.8 2.2-1.8 5.4.1 7.6l10.4 12.3z\"}}]})(props);\n};\nexport function IoIosSkipBackward (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M175 100v137.8L403.9 98.1c5.3-3.1 12.1.7 12.1 6.9v302c0 6.2-6.7 10-12.1 6.9L175 274.2V412c0 2.2-1.8 4-4 4h-71c-2.2 0-4-1.8-4-4V100c0-2.2 1.8-4 4-4h71c2.2 0 4 1.8 4 4z\"}}]})(props);\n};\nexport function IoIosSkipForward (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M337 100v137.8L108.1 98.1C102.7 95 96 98.8 96 105v302c0 6.2 6.7 10 12.1 6.9L337 274.2V412c0 2.2 1.8 4 4 4h71c2.2 0 4-1.8 4-4V100c0-2.2-1.8-4-4-4h-71c-2.2 0-4 1.8-4 4z\"}}]})(props);\n};\nexport function IoIosSnow (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M440.5 345.8L408.1 327c11.8-12.3 26-18.2 26.2-18.3 7.5-3 11.4-11.4 8.9-19.1-1.9-5.9-7.4-9.8-13.5-9.8-1.9 0-3.7.4-5.5 1.1-1 .4-24.4 10-41.9 31.2l-96.3-56 96.3-56c17.5 21.2 40.8 30.8 41.9 31.2 1.8.7 3.6 1.1 5.5 1.1 6.1 0 11.6-4 13.5-9.8 2.5-7.7-1.4-16.1-8.9-19.1-.1-.1-14.3-6-26.2-18.3l32.4-18.8c7.2-4.2 9.6-13.4 5.5-20.6-2.7-4.7-7.7-7.6-13.1-7.6-2.6 0-5.3.7-7.6 2L393.1 159c-4.5-16.2-2.7-31.4-2.6-32 1.1-8.1-4.1-15.6-12-17.3-1-.2-2-.3-3-.3-7.1 0-13 5.2-14.1 12.4-.2 1.1-3.6 26 6.1 52.2l-96 56v-99.2c26.9-4.7 46.8-20.2 47.7-20.9 3.1-2.5 5.1-6 5.4-10 .3-4-.9-7.8-3.6-10.8-2.9-3.2-7-5.1-11.4-5.1-3.4 0-6.8 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11.4 5.1 3.4 0 6.8-1.2 9.5-3.3.1-.1 12.3-9.4 28.6-13.6v37.5c0 8.2 7.1 15.1 15.5 15.1s15.5-6.9 15.5-15.1v-37.5c16.3 4.2 28.4 13.5 28.6 13.6 2.7 2.1 6.1 3.3 9.5 3.3 4.4 0 8.5-1.9 11.4-5.1 2.7-3 4-7 3.6-10.9-.3-3.9-2.3-7.4-5.4-9.9-.9-.7-20.8-16.2-47.7-20.9V282l96 56c-9.6 26-6.2 51.1-6 52.2 1 7.2 6.9 12.4 14 12.4 1 0 2-.1 3-.3 7.9-1.6 13.1-9.2 12-17.3-.1-.5-1.9-15.7 2.6-32l32.2 18.8c2.3 1.3 4.9 2 7.6 2 5.4 0 10.4-2.9 13.1-7.6 4.1-6.9 1.7-16.2-5.5-20.4z\"}}]})(props);\n};\nexport function IoIosSpeedometer (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M256 64C132.3 64 32 164.2 32 287.9c0 57 21.3 109 56.3 148.5 1.1 1.2 2.1 2.4 3.2 3.5C96.3 445 103 448 110 448c7.1 0 13.8-3 18.6-8.2 31.6-34.4 77-55.9 127.4-55.9s95.8 21.6 127.4 55.9c4.8 5.2 11.5 8.2 18.6 8.2 7 0 13.7-2.9 18.5-8.1 1.1-1.2 2.1-2.3 3.2-3.5 35-39.5 56.3-91.5 56.3-148.5C480 164.2 379.7 64 256 64zm-14 45.9c0-7.7 6.3-14 14-14s14 6.3 14 14v36c0 7.7-6.3 14-14 14s-14-6.3-14-14v-36zm-128 192H78c-7.7 0-14-6.3-14-14s6.3-14 14-14h36c7.7 0 14 6.3 14 14s-6.3 14-14 14zm51.5-104.5c-5.4 5.4-14.4 5.4-19.8 0L120.2 172c-5.4-5.4-5.4-14.4 0-19.8s14.4-5.4 19.8 0l25.5 25.5c5.4 5.4 5.4 14.3 0 19.7zm160.6 34.5l-47.5 75.5c-1.9 2.6-4.3 5.1-7 7-13.5 9.7-32.3 6.5-42-7s-6.5-32.3 7-42l75.5-47.5c3.4-2.4 8.1-2.5 11.7 0 4.5 3.2 5.5 9.5 2.3 14zm40.2-34.5c-5.4 5.4-14.4 5.4-19.8 0s-5.4-14.4 0-19.8l25.5-25.5c5.4-5.4 14.4-5.4 19.8 0s5.4 14.4 0 19.8l-25.5 25.5zM434 301.9h-36c-7.7 0-14-6.3-14-14s6.3-14 14-14h36c7.7 0 14 6.3 14 14s-6.3 14-14 14z\"}}]})(props);\n};\nexport function IoIosSquareOutline (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M388 96H124c-15.4 0-28 12.6-28 28v264c0 15.4 12.6 28 28 28h264c15.4 0 28-12.6 28-28V124c0-15.4-12.6-28-28-28zm0 284c0 4.4-3.6 8-8 8H132c-4.4 0-8-3.6-8-8V132c0-4.4 3.6-8 8-8h248c4.4 0 8 3.6 8 8v248z\"}}]})(props);\n};\nexport function IoIosSquare (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M388 416H124c-15.4 0-28-12.6-28-28V124c0-15.4 12.6-28 28-28h264c15.4 0 28 12.6 28 28v264c0 15.4-12.6 28-28 28z\"}}]})(props);\n};\nexport function IoIosStarHalf (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M463 192H315.9L271.2 58.6C269 52.1 262.9 48 256 48s-13 4.1-15.2 10.6L196.1 192H48c-8.8 0-16 7.2-16 16 0 .9.1 1.9.3 2.7.2 3.5 1.8 7.4 6.7 11.3l120.9 85.2-46.4 134.9c-2.3 6.5 0 13.8 5.5 18 2.9 2.1 5.6 3.9 9 3.9 3.3 0 7.2-1.7 10-3.6l118-84.1 118 84.1c2.8 2 6.7 3.6 10 3.6 3.4 0 6.1-1.7 8.9-3.9 5.6-4.2 7.8-11.4 5.5-18L352 307.2l119.9-86 2.9-2.5c2.6-2.8 5.2-6.6 5.2-10.7 0-8.8-8.2-16-17-16zm-47.4 35.2l-79.8 57.3c-10 7.2-14.2 20.2-10.2 31.8l30.1 87.7c1.3 3.7-2.9 6.8-6.1 4.6l-77.4-55.2-.1-.1c-10-7-16.1-18.3-16.1-30.5V113.3c0-2.2 3.1-2.7 3.8-.6l29.6 88.2c3.8 11.4 14.5 19.1 26.5 19.1h97.3c3.9 0 5.5 5 2.4 7.2z\"}}]})(props);\n};\nexport function IoIosStarOutline (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M463 192H315.9L271.2 58.6C269 52.1 262.9 48 256 48s-13 4.1-15.2 10.6L196.1 192H48c-8.8 0-16 7.2-16 16 0 .9.1 1.9.3 2.7.2 3.5 1.8 7.4 6.7 11.3l120.9 85.2-46.4 134.9c-2.3 6.5 0 13.8 5.5 18 2.9 2.1 5.6 3.9 9 3.9 3.3 0 7.2-1.7 10-3.6l118-84.1 118 84.1c2.8 2 6.7 3.6 10 3.6 3.4 0 6.1-1.7 8.9-3.9 5.6-4.2 7.8-11.4 5.5-18L352 307.2l119.9-86 2.9-2.5c2.6-2.8 5.2-6.6 5.2-10.7 0-8.8-8.2-16-17-16zm-127.2 92.5c-10 7.2-14.2 20.2-10.2 31.8l30.1 87.7c1.3 3.7-2.9 6.8-6.1 4.6l-77.4-55.2c-4.9-3.5-10.6-5.2-16.3-5.2-5.7 0-11.4 1.7-16.2 5.2l-77.4 55.1c-3.2 2.3-7.4-.9-6.1-4.6l30.1-87.7c4-11.8-.2-24.8-10.3-32l-81-57.1c-3.2-2.2-1.6-7.3 2.3-7.3H196c12 0 22.7-7.7 26.5-19.1l29.6-88.2c1.2-3.6 6.4-3.6 7.6 0l29.6 88.2c3.8 11.4 14.5 19.1 26.5 19.1h97.3c3.9 0 5.5 5 2.3 7.2l-79.6 57.5z\"}}]})(props);\n};\nexport function IoIosStar (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M463 192H315.9L271.2 58.6C269 52.1 262.9 48 256 48s-13 4.1-15.2 10.6L196.1 192H48c-8.8 0-16 7.2-16 16 0 .9.1 1.9.3 2.7.2 3.5 1.8 7.4 6.7 11.3l120.9 85.2-46.4 134.9c-2.3 6.5 0 13.8 5.5 18 2.9 2.1 5.6 3.9 9 3.9 3.3 0 7.2-1.7 10-3.6l118-84.1 118 84.1c2.8 2 6.7 3.6 10 3.6 3.4 0 6.1-1.7 8.9-3.9 5.6-4.2 7.8-11.4 5.5-18L352 307.2l119.9-86 2.9-2.5c2.6-2.8 5.2-6.6 5.2-10.7 0-8.8-8.2-16-17-16z\"}}]})(props);\n};\nexport function IoIosStats (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M184 448h48c4.4 0 8-3.6 8-8V72c0-4.4-3.6-8-8-8h-48c-4.4 0-8 3.6-8 8v368c0 4.4 3.6 8 8 8zM88 448h48c4.4 0 8-3.6 8-8V296c0-4.4-3.6-8-8-8H88c-4.4 0-8 3.6-8 8v144c0 4.4 3.6 8 8 8zM280.1 448h47.8c4.5 0 8.1-3.6 8.1-8.1V232.1c0-4.5-3.6-8.1-8.1-8.1h-47.8c-4.5 0-8.1 3.6-8.1 8.1v207.8c0 4.5 3.6 8.1 8.1 8.1zM368 136.1v303.8c0 4.5 3.6 8.1 8.1 8.1h47.8c4.5 0 8.1-3.6 8.1-8.1V136.1c0-4.5-3.6-8.1-8.1-8.1h-47.8c-4.5 0-8.1 3.6-8.1 8.1z\"}}]})(props);\n};\nexport function IoIosStopwatch (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M415.9 143.7c3.1 3.1 8.2 3.1 11.3 0l11.3-11.3c3.1-3.1 3.1-8.2 0-11.3L413 95.6c-3.1-3.1-8.2-3.1-11.3 0l-11.3 11.3c-3.1 3.1-3.1 8.2 0 11.3l25.5 25.5zM84.8 143.7c3.1 3.1 8.2 3.1 11.3 0l25.5-25.5c3.1-3.1 3.1-8.2 0-11.3l-11.3-11.3c-3.1-3.1-8.2-3.1-11.3 0L73.5 121c-3.1 3.1-3.1 8.2 0 11.3l11.3 11.4z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M280 81.5V64c0-8.8-7.2-16-16-16h-16c-8.8 0-16 7.2-16 16v17.5C137.3 93.3 64 174.1 64 272c0 106 86 192 192 192s192-86 192-192c0-97.9-73.3-178.7-168-190.5zm-10 219.3V320c0 7.7-6.3 14-14 14s-14-6.3-14-14v-19.2c-10.7-5.2-18-16.1-18-28.8s7.3-23.6 18-28.8V144c0-7.7 6.3-14 14-14s14 6.3 14 14v99.2c10.7 5.2 18 16.1 18 28.8s-7.3 23.6-18 28.8z\"}}]})(props);\n};\nexport function IoIosSubway (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M352 32H160c-35.2 0-64 28.8-64 64v232c0 35.2 28.8 64 64 64h192c35.2 0 64-28.8 64-64V96c0-35.2-28.8-64-64-64zM200 56h112c4.4 0 8 3.6 8 8s-3.6 8-8 8H200c-4.4 0-8-3.6-8-8s3.6-8 8-8zm-32 304c-15.5 0-28-12.5-28-28s12.5-28 28-28 28 12.5 28 28-12.5 28-28 28zm176 0c-15.5 0-28-12.5-28-28s12.5-28 28-28 28 12.5 28 28-12.5 28-28 28zm40-152c0 8.8-7.2 16-16 16H144.2c-8.8 0-16.2-7.2-16.2-16v-95.8c0-8.8 7.4-16.2 16.2-16.2H368c8.8 0 16 7.4 16 16.2V208zM393.7 455.9l-50-48c-5.6-5.4-14.4-5.2-19.8.4-5.4 5.6-5.2 14.4.4 19.8l6.1 5.9H181.5l6.1-5.9c5.6-5.4 5.8-14.2.4-19.8-5.4-5.6-14.2-5.8-19.8-.4l-50 48c-5.6 5.4-5.8 14.2-.4 19.8 2.7 2.9 6.4 4.3 10.1 4.3 3.5 0 7-1.3 9.7-3.9l14.7-14.1h207.2l14.7 14.1c2.7 2.6 6.2 3.9 9.7 3.9 3.7 0 7.4-1.4 10.1-4.3 5.5-5.6 5.3-14.4-.3-19.8z\"}}]})(props);\n};\nexport function IoIosSunny (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M256 387c-8.5 0-15.4 6.9-15.4 15.4v46.2c0 8.5 6.9 15.4 15.4 15.4s15.4-6.9 15.4-15.4v-46.2c0-8.5-6.9-15.4-15.4-15.4zM256 48c-8.5 0-15.4 6.9-15.4 15.4v46.2c0 8.5 6.9 15.4 15.4 15.4s15.4-6.9 15.4-15.4V63.4c0-8.5-6.9-15.4-15.4-15.4zM125 256c0-8.5-6.9-15.4-15.4-15.4H63.4c-8.5 0-15.4 6.9-15.4 15.4s6.9 15.4 15.4 15.4h46.2c8.5 0 15.4-6.9 15.4-15.4zM448.6 240.6h-46.2c-8.5 0-15.4 6.9-15.4 15.4s6.9 15.4 15.4 15.4h46.2c8.5 0 15.4-6.9 15.4-15.4s-6.9-15.4-15.4-15.4zM152.5 344.1c-4.1 0-8 1.6-10.9 4.5l-32.7 32.7c-2.9 2.9-4.5 6.8-4.5 10.9s1.6 8 4.5 10.9c2.9 2.9 6.8 4.5 10.9 4.5 4.1 0 8-1.6 10.9-4.5l32.7-32.7c6-6 6-15.8 0-21.8-2.9-2.9-6.8-4.5-10.9-4.5zM359.5 167.9c4.1 0 8-1.6 10.9-4.5l32.7-32.7c2.9-2.9 4.5-6.8 4.5-10.9s-1.6-8-4.5-10.9c-2.9-2.9-6.8-4.5-10.9-4.5-4.1 0-8 1.6-10.9 4.5l-32.7 32.7c-2.9 2.9-4.5 6.8-4.5 10.9s1.6 8 4.5 10.9c2.9 2.9 6.8 4.5 10.9 4.5zM130.7 108.9c-2.9-2.9-6.8-4.5-10.9-4.5-4.1 0-8 1.6-10.9 4.5-2.9 2.9-4.5 6.8-4.5 10.9 0 4.1 1.6 8 4.5 10.9l32.7 32.7c2.9 2.9 6.8 4.5 10.9 4.5 4.1 0 8-1.6 10.9-4.5 2.9-2.9 4.5-6.8 4.5-10.9s-1.6-8-4.5-10.9l-32.7-32.7zM370.4 348.6c-2.9-2.9-6.8-4.5-10.9-4.5-4.1 0-8 1.6-10.9 4.5-6 6-6 15.8 0 21.8l32.7 32.7c2.9 2.9 6.8 4.5 10.9 4.5 4.1 0 8-1.6 10.9-4.5 2.9-2.9 4.5-6.8 4.5-10.9s-1.6-8-4.5-10.9l-32.7-32.7zM256 160c-52.9 0-96 43.1-96 96s43.1 96 96 96 96-43.1 96-96-43.1-96-96-96z\"}}]})(props);\n};\nexport function IoIosSwap (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M388.9 266.3c-5.1-5-5.2-13.3-.1-18.4L436 200H211c-7.2 0-13-5.8-13-13s5.8-13 13-13h224.9l-47.2-47.9c-5-5.1-5-13.3.1-18.4 5.1-5 13.3-5 18.4.1l69 70c1.1 1.2 2.1 2.5 2.7 4.1.7 1.6 1 3.3 1 5 0 3.4-1.3 6.6-3.7 9.1l-69 70c-5 5.2-13.2 5.3-18.3.3zM123.1 404.3c5.1-5 5.2-13.3.1-18.4L76.1 338H301c7.2 0 13-5.8 13-13s-5.8-13-13-13H76.1l47.2-47.9c5-5.1 5-13.3-.1-18.4-5.1-5-13.3-5-18.4.1l-69 70c-1.1 1.2-2.1 2.5-2.7 4.1-.7 1.6-1 3.3-1 5 0 3.4 1.3 6.6 3.7 9.1l69 70c5 5.2 13.2 5.3 18.3.3z\"}}]})(props);\n};\nexport function IoIosSwitch (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"circle\",\"attr\":{\"cx\":\"144\",\"cy\":\"368\",\"r\":\"42\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M367.5 272h-223C91.2 272 48 315.2 48 368.5S91.2 464 144.5 464h223c53.3 0 96.5-42.2 96.5-95.5S420.8 272 367.5 272zM144 432c-35.3 0-64-28.7-64-64s28.7-64 64-64 64 28.7 64 64-28.7 64-64 64z\"}},{\"tag\":\"circle\",\"attr\":{\"cx\":\"368\",\"cy\":\"144\",\"r\":\"42\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M144.5 240h223c53.3 0 96.5-42.2 96.5-95.5S420.8 48 367.5 48h-223C91.2 48 48 91.2 48 144.5S91.2 240 144.5 240zM368 80c35.3 0 64 28.7 64 64s-28.7 64-64 64-64-28.7-64-64 28.7-64 64-64z\"}}]})(props);\n};\nexport function IoIosSync (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M492 257.1c-2.6-2.6-6-4-9.6-4-3.6 0-7 1.4-9.6 4l-13 13c4.3-61.8-19.5-122.5-65.3-165C356.9 70.2 307.7 51 256.1 51c-26.7 0-52.8 5.1-77.4 15.1-25.5 10.4-48.3 25.6-67.7 45.3-13.2 13.4-24.6 28.5-33.6 44.8-1.9 3.4-2.3 7.4-1.2 11.1 1.1 3.7 3.8 6.8 7.2 8.5 2 1 4.2 1.5 6.4 1.5 5.2 0 9.9-2.8 12.4-7.3 7.9-14.3 17.8-27.5 29.4-39.1 16.8-16.8 36.3-29.8 58.1-38.7 21.1-8.6 43.4-12.9 66.2-12.9 22.9 0 45.2 4.3 66.3 12.9 21.8 8.9 41.4 21.9 58.2 38.8 20.3 20.4 35.4 45.6 43.8 73 7 22.9 9.2 47.3 6.6 71.2l-18.9-18.5c-2.5-2.4-5.8-3.8-9.3-3.8-3.5 0-6.9 1.4-9.4 3.9-5.2 5.2-5.2 13.6 0 18.8l42.8 42.9c1.9 1.9 4.4 2.9 7 2.9 2.6 0 5.1-1 7-2.9l42.1-42.2c5.2-5.3 5.2-13.9-.1-19.2zM428.6 335.9c-2-1-4.2-1.5-6.4-1.5-5.2 0-9.9 2.8-12.4 7.3-7.9 14.3-17.8 27.5-29.4 39.1-16.8 16.8-36.3 29.9-58.2 38.7-21.1 8.6-43.4 12.9-66.3 12.9s-45.2-4.3-66.2-12.9c-21.8-8.9-41.4-21.9-58.2-38.7-37.6-37.8-56-90.9-50.3-143.9l18.4 18.5c2.4 2.4 5.6 3.7 9 3.7 3.4 0 6.6-1.3 9-3.7l1.3-1.3c4.9-4.9 4.9-13 0-17.9l-42.9-43c-1.9-1.9-4.4-2.9-7-2.9-2.6 0-5.1 1-7 2.9l-42 42.3c-5.3 5.3-5.3 13.9 0 19.2 2.6 2.6 6 4 9.6 4 3.6 0 7-1.4 9.6-4l13-13.1c-1.8 25.8 1.3 52 9 76.5 9.9 31.4 26.8 59.3 50.3 82.8 19.5 19.6 42.2 34.7 67.6 45.1 24.5 10 50.4 15 76.9 15 26.5 0 52.4-5.1 76.9-15 25.4-10.3 48.1-25.5 67.6-45.1 13.5-13.5 25-28.8 34.2-45.4 1.9-3.4 2.3-7.4 1.2-11.1-1.2-3.7-3.8-6.8-7.3-8.5z\"}}]})(props);\n};\nexport function IoIosTabletLandscape (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M39 103c-4.5 4.5-7 10.6-7 16.9V392c0 6.4 2.5 12.4 7 16.9 4.5 4.5 10.6 7 16.9 7H456c6.4 0 12.4-2.5 16.9-7 4.5-4.5 7-10.6 7-16.9V119.9c0-6.4-2.5-12.4-7-16.9-4.5-4.5-10.6-7-16.9-7H55.9c-6.3 0-12.4 2.5-16.9 7zm9.7 153.4c0-3.9 3.1-7 7-7s7 3.1 7 7-3.1 7-7 7c-3.8 0-7-3.2-7-7zM470 256c0 7.7-6.5 14-14.1 14-7.5 0-14-6.2-14-14 0-7.7 6.4-14.1 14-14.1 7.6.1 14.1 6.4 14.1 14.1zm-38-144v288H80V112h352z\"}}]})(props);\n};\nexport function IoIosTabletPortrait (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M409 39c-4.5-4.5-10.6-7-16.9-7H119.9c-6.4 0-12.4 2.5-16.9 7-4.5 4.5-7 10.6-7 16.9V456c0 6.4 2.5 12.4 7 16.9 4.5 4.5 10.6 7 16.9 7H392c6.4 0 12.4-2.5 16.9-7 4.5-4.5 7-10.6 7-16.9V55.9c.1-6.3-2.4-12.4-6.9-16.9zm-153.4 9.7c3.9 0 7 3.1 7 7s-3.1 7-7 7-7-3.1-7-7c0-3.8 3.2-7 7-7zM256 470c-7.7 0-14-6.5-14-14.1 0-7.5 6.2-14 14-14 7.7 0 14.1 6.4 14.1 14-.1 7.6-6.4 14.1-14.1 14.1zm144-38H112V80h288v352z\"}}]})(props);\n};\nexport function IoIosTennisball (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M250.4 464c1-7.9 1.6-15.9 1.6-23.9 0-48.1-18.7-94.3-52.7-128.3S119 260 70.9 260c-7.7 0-15.4.5-22.9 1.4 2.8 110.3 92.3 199.3 202.4 202.6z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M230 74c0-8.3.5-16.4 1.4-24.5-95.3 11.7-171.7 89-182.2 184.7 7.2-.7 14.4-1.1 21.8-1.1 114.9 0 207.1 92.2 207.1 207 0 7.7-.4 15.3-1.3 22.8 96.6-10.1 174.6-86.2 185.8-182.4-8.4 1-16.9.6-25.5.6C322.1 281 230 188.9 230 74z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M308.7 202.3c34 34 80.2 52.7 128.3 52.7 9.1 0 18.1-.7 27-2-2.2-112-93.9-203.5-206.1-205-1.2 8.5-1.9 17.2-1.9 26 0 48.1 18.7 94.3 52.7 128.3zM232 49.3z\"}}]})(props);\n};\nexport function IoIosText (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M256 64C141.1 64 48 139.2 48 232c0 64.9 45.6 121.2 112.3 149.2-5.2 25.8-21 47-33.5 60.5-2.3 2.5.2 6.5 3.6 6.3 11.5-.8 32.9-4.4 51-12.7 21.5-9.9 40.3-30.1 46.3-36.9 9.3 1 18.8 1.6 28.5 1.6 114.9 0 208-75.2 208-168C464 139.2 370.9 64 256 64z\"}}]})(props);\n};\nexport function IoIosThermometer (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M309.8 304.6c-4.3-3-6.9-7.9-6.9-13.1v-213c0-25.7-21-46.5-47-46.5s-47 20.8-47 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12-42 7.5-16.6 39.7-45.1 57-60.4 4.1-3.6 7.6-6.7 10.1-9.1 8.7-8.1 17.6-21.1 25.5-32.7 5.4-7.8 10.4-15.2 13.7-18.5 7.1-7.1 16.6-10.9 22.3-10.9 4.4 0 8-3.6 8-8V88.1c0-4.6-3.7-8.3-8.3-8.3C404 79.8 389 74 373.1 68c-12.2-4.7-24.9-9.5-46.4-12.1-32.4-4-74.2-8.1-112.6-8.1-20.4 0-39.9 2-56.6 3.9-31 3.6-64.2 10.8-75.2 37-4.1 9.7-2.2 17.6.5 23.7.4.8.7 1.7.8 2.6.6 3.3-.6 6.3-2.9 8.2z\"}}]})(props);\n};\nexport function IoIosThumbsUp (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M431.3 388.8c7.5-6.3 16.7-16.1 16.7-31.4 0-13.7-5.7-22.8-10.9-29.1-.6-1.2-1.1-2.3-1.6-3.4l-.2-1.1c-.7-3.5 0-7.1 2-10 3.4-5 5.8-12.3 5.8-25.7 0-11.6-4.8-18.4-9.7-23.2-4.4-4.3-6.1-12.5-4.1-18.3 4.8-13.9.2-28.4-8.2-37.8-10.5-11.8-20.3-13.2-46.4-11.7-18 1.1-55.5 6.9-80.2 10.8-10.1 1.6-18.9 3-21.6 3.2-12.7 1.3-15.2 0-16.4-4.9-.5-2.1 1.9-6.9 4.9-13 4-8.1 9.5-19.2 14.5-35.8 10.1-33.2 9-69.2-2.7-90.2-5.5-9.9-14.8-19.1-26.3-19.1S223.6 50.5 219 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106.9z\"}}]})(props);\n};\nexport function IoIosTime (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M256 48C141.1 48 48 141.1 48 256s93.1 208 208 208 208-93.1 208-208S370.9 48 256 48zm14 226c0 7.7-6.3 14-14 14h-96c-7.7 0-14-6.3-14-14s6.3-14 14-14h82V128c0-7.7 6.3-14 14-14s14 6.3 14 14v146z\"}}]})(props);\n};\nexport function IoIosTimer (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M256 456c-110.3 0-200-89.7-200-200 0-54.8 21.7-105.9 61.2-144 6.4-6.2 16.6-6 22.7.4 6.2 6.4 6 16.6-.4 22.7-33.1 32-51.3 74.9-51.3 120.9 0 92.5 75.3 167.8 167.8 167.8S423.8 348.5 423.8 256c0-87.1-66.7-159-151.8-167.1v62.6c0 8.9-7.2 16.1-16.1 16.1s-16.1-7.2-16.1-16.1V72.1c0-8.9 7.2-16.1 16.1-16.1 110.3 0 200 89.7 200 200S366.3 456 256 456z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M175.9 161.9l99.5 71.5c13.5 9.7 16.7 28.5 7 42s-28.5 16.7-42 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5.8-14.2.4-19.8-5.4-5.6-14.2-5.8-19.8-.4l-50 48c-5.6 5.4-5.8 14.2-.4 19.8 2.7 2.9 6.4 4.3 10.1 4.3 3.5 0 7-1.3 9.7-3.9l14.7-14.1h207.2l14.7 14.1c2.7 2.6 6.2 3.9 9.7 3.9 3.7 0 7.4-1.4 10.1-4.3 5.5-5.6 5.3-14.4-.3-19.8z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M337 48h-17c0-8.8-7.2-16-16-16h-96c-8.8 0-16 7.2-16 16h-15c-35.3 0-65 27.7-65 63v236c0 35.3 144 65 144 65s144-29.7 144-65V111c0-35.3-27.7-63-63-63zm-81 304c-26.5 0-48-21.5-48-48s21.5-48 48-48 48 21.5 48 48-21.5 48-48 48zm96-160c0 8.8-7.2 16-16 16H176c-8.8 0-16-7.2-16-16v-64c0-8.8 7.2-16 16-16h160c8.8 0 16 7.2 16 16v64z\"}},{\"tag\":\"circle\",\"attr\":{\"cx\":\"256\",\"cy\":\"304\",\"r\":\"30.5\"}}]})(props);\n};\nexport function IoIosTransgender (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M450.4 168.5c7.5 0 13.6-6.1 13.6-13.6V61.6c0-7.5-6.1-13.6-13.6-13.6h-93.3c-7.5 0-13.6 6.1-13.6 13.6s6.1 13.6 13.6 13.6H417l-75 75.4c-25.7-16.3-55.4-24.8-86-24.8-30.7 0-60.3 8.6-86 24.8l-19-19.1 28.2-28.2c5.3-5.3 5.3-13.9 0-19.2-2.6-2.6-6-4-9.6-4-3.6 0-7.1 1.4-9.6 4l-28.1 28.1-36.8-37H155c7.5 0 13.6-6.1 13.6-13.6S162.5 48 155 48H61.6C54.1 48 48 54.1 48 61.6v93.3c0 7.5 6.1 13.6 13.6 13.6s13.6-6.1 13.6-13.6V95.1l36.9 36.7-30 30c-5.3 5.3-5.3 13.9 0 19.2 2.6 2.6 6 4 9.6 4 3.6 0 7.1-1.4 9.6-4l30.1-30.1 16.5 16.4c-33.9 30.6-53.3 73.9-53.3 119.8 0 43.1 16.8 83.6 47.3 114.1 30.5 30.5 71 47.3 114.1 47.3 45.9 0 89.2-19.4 119.9-53.3l16.4 16.4-29.3 29.2c-5.3 5.3-5.3 13.9 0 19.2 2.6 2.6 6 4 9.6 4 3.6 0 7.1-1.4 9.6-4l29.3-29.3 29.3 29.3c2.6 2.6 6 4 9.6 4 3.6 0 7.1-1.4 9.6-4 5.3-5.3 5.3-13.9 0-19.2l-29.3-29.3 29.3-29.3c5.3-5.3 5.3-13.9 0-19.2-2.6-2.6-6-4-9.6-4-3.6 0-7.1 1.4-9.6 4l-29.3 29.3-19-19c16.3-25.8 24.9-55.4 24.9-86.1 0-45.9-19.3-89.2-53.3-119.8l72.7-72.2v59.9c0 7.3 6.1 13.4 13.6 13.4zm-60.3 118.6c0 35.8-14 69.5-39.3 94.8-25.3 25.3-59 39.3-94.8 39.3s-69.5-14-94.8-39.3c-25.3-25.3-39.3-59-39.3-94.8s14-69.5 39.3-94.8c25.3-25.3 59-39.3 94.8-39.3s69.5 14 94.8 39.3c25.4 25.3 39.3 59 39.3 94.8z\"}}]})(props);\n};\nexport function IoIosTrash (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M133.1 128l23.6 290.7c0 16.2 13.1 29.3 29.3 29.3h141c16.2 0 29.3-13.1 29.3-29.3L379.6 128H133.1zm61.6 265L188 160h18.5l6.9 233h-18.7zm70.3 0h-18V160h18v233zm52.3 0h-18.6l6.8-233H324l-6.7 233zM364 92h-36l-26.3-23c-3.7-3.2-8.4-5-13.2-5h-64.8c-4.9 0-9.7 1.8-13.4 5L184 92h-36c-17.6 0-30 8.4-30 26h276c0-17.6-12.4-26-30-26z\"}}]})(props);\n};\nexport function IoIosTrendingDown (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M480 369.2V251.1c0-8.1-6.8-14.8-15.1-14.8s-15.1 6.6-15.1 14.8v81.7L300.5 181c-2.8-2.8-6.6-4.3-10.7-4.3-4 0-7.8 1.5-10.7 4.3l-85.9 84.1L57.5 132.3c-2.9-2.8-6.6-4.3-10.7-4.3-4 0-7.8 1.5-10.7 4.3-2.8 2.7-4.2 6.2-4.2 10.2 0 5.4 2.3 8.8 4.2 10.7l146.3 143.2c2.9 2.8 6.6 4.3 10.7 4.3 4 0 7.8-1.5 10.7-4.3l85.9-84.1 138 142.2H344c-8.3 0-15.1 6.6-15.1 14.8 0 8.1 6.8 14.8 15.1 14.8h120.8c8.4-.1 15.2-6.7 15.2-14.9z\"}}]})(props);\n};\nexport function IoIosTrendingUp (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M464.9 128H344.1c-8.3 0-15.1 6.6-15.1 14.8s6.8 14.8 15.1 14.8h83.7l-138 142.2-85.9-84.1c-2.9-2.8-6.6-4.3-10.7-4.3-4 0-7.8 1.5-10.7 4.3L36.2 358.8c-1.9 1.9-4.2 5.2-4.2 10.7 0 4.1 1.4 7.5 4.2 10.2 2.9 2.8 6.6 4.3 10.7 4.3 4 0 7.8-1.5 10.7-4.3L193.2 247l85.9 84.1c2.9 2.8 6.6 4.3 10.7 4.3 4 0 7.8-1.5 10.7-4.3l149.4-151.9v81.7c0 8.1 6.8 14.8 15.1 14.8s15.1-6.6 15.1-14.8V142.8c-.1-8.2-6.9-14.8-15.2-14.8z\"}}]})(props);\n};\nexport function IoIosTrophy (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M450 100h-66V80c0-8.8-7.2-16-16-16H144c-8.8 0-16 7.2-16 16v20H62c-7.7 0-14 6.3-14 14 0 41.3 7.8 66 22.6 90.4 13.6 22.4 32.9 36.2 56.3 40.3 2.8.5 5.1 2.3 6.2 4.9 6.2 15.4 20.2 34.8 51.1 52.2 20.2 11.4 36.9 18.3 51.7 21.6 3.6.8 6.2 4.1 6.2 7.8V412c0 4.4-3.6 8-8 8h-65.6c-7.5 0-14 5.8-14.4 13.3-.4 8 6 14.7 14 14.7h175.6c7.5 0 14-5.8 14.4-13.3.4-8-6-14.7-14-14.7h-66c-4.4 0-8-3.6-8-8v-80.7c0-3.7 2.6-7 6.2-7.8 14.7-3.3 31.5-10.3 51.7-21.6 30.9-17.4 44.9-36.8 51.1-52.2 1.1-2.6 3.4-4.5 6.2-4.9 23.4-4.1 42.7-17.9 56.3-40.3C456.2 180 464 155.3 464 114c0-7.7-6.3-14-14-14zM128 210.6c0 2.8-2.8 4.8-5.4 3.8-12.8-4.9-23.2-14.7-30.6-28.9-5.8-11-12.6-21.4-15.1-48.8-.4-4.7 3.3-8.7 8-8.7H120c4.4 0 8 3.6 8 8v74.6zm292-25.1c-7.4 14.2-17.8 24-30.6 28.9-2.6 1-5.4-1-5.4-3.8V136c0-4.4 3.6-8 8-8h35.1c4.7 0 8.4 4 8 8.7-2.5 27.4-9.4 37.8-15.1 48.8z\"}}]})(props);\n};\nexport function IoIosTv (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M451.7 78H60.3C34.8 78 14 98.8 14 124.3v215.5c0 25.5 20.8 46.3 46.3 46.3h391.5c25.5 0 46.3-20.8 46.3-46.3V124.3C498 98.8 477.2 78 451.7 78zM470 339.7c0 10.1-8.2 18.3-18.3 18.3H60.3c-10.1 0-18.3-8.2-18.3-18.3V124.3c0-10.1 8.2-18.3 18.3-18.3h391.5c10.1 0 18.3 8.2 18.3 18.3v215.4z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M436 128H76c-6.6 0-12 5.4-12 12v184c0 6.6 5.4 12 12 12h360c6.6 0 12-5.4 12-12V140c0-6.6-5.4-12-12-12zM370 406H142c-7.7 0-14 6.3-14 14s6.3 14 14 14h228c7.7 0 14-6.3 14-14s-6.3-14-14-14z\"}}]})(props);\n};\nexport function IoIosUmbrella (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M407.1 137.9c-34.9-41.6-81.3-67.3-131.2-72.6-2-9.9-10.2-17.3-19.9-17.3s-17.9 7.3-19.9 17.2c-50.6 5.2-97.4 30.3-132.1 71.2-35.8 42.2-55.6 85.5-55.8 143.7-.1.5-.2 1.2-.2 2.1.1 3.2 2.7 5.8 5.8 5.8h3.1c2.6 0 4.9-1.8 5.6-4.4 2.7-10.1 8.4-19.1 16-25.5 7.7-6.5 16.9-9.9 26.6-9.9 9.6 0 18.8 3.4 26.5 10 7.6 6.4 13.2 15.4 16 25.5.7 2.6 3 4.4 5.6 4.4h4.8c2.6 0 4.9-1.8 5.6-4.4 5.7-20.9 23.3-35.4 42.8-35.4 14.8 0 28.8 8.4 36.9 21.9V418c0 9.9-8 18-17.7 18s-17.6-8.1-17.6-18c0-7.7-6.1-14-13.7-14-7.5 0-13.6 6.3-13.6 14 0 25.4 20.2 46 44.9 46 24.8 0 44.9-20.6 44.9-46V270.8c8.2-14.2 21.9-22.6 36.9-22.6 9.6 0 18.7 3.4 26.4 9.9 7.5 6.4 13.1 15.4 15.9 25.5.7 2.6 3 4.4 5.6 4.4h4.8c2.6 0 4.9-1.8 5.6-4.4 2.7-10.1 8.4-19.2 16-25.6 7.7-6.5 16.9-10 26.6-10 9.7 0 19 3.4 26.7 10 7.6 6.4 13.2 15.5 15.9 25.6.7 2.6 3 4.4 5.6 4.4h1.5c1.6 0 3.1-.6 4.2-1.8s1.7-2.7 1.7-4.3c-.8-57.9-21-101.3-56.8-144z\"}}]})(props);\n};\nexport function IoIosUndo (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M479.9 394.9c0-19.6 4.2-97.1-56.8-158.7-40.4-40.7-91.9-61.7-163.4-65.5-2.1-.1-3.8-1.9-3.8-4V84c0-3.2-3.5-5.1-6.2-3.4L33.8 222.8c-2.4 1.6-2.4 5.1 0 6.7l215.9 142.2c2.7 1.8 6.2-.1 6.2-3.4v-81.6c0-2.3 1.9-4.1 4.2-4 44.1 1.7 69.5 10.9 97.1 23.2 36.1 16.2 72.9 50.9 94.5 83.5 13.1 19.9 19.2 33.9 21.4 39.7.7 1.7 2.3 2.8 4.1 2.8h2.9c-.1-11.7-.2-26.7-.2-37z\"}}]})(props);\n};\nexport function IoIosUnlock (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M376 192H188v-48c0-18.1 7.1-35.1 20-48s29.9-20 48-20 35.1 7.1 48 20 20 29.9 20 48c0 7.7 6.3 14 14 14s14-6.3 14-14c0-53.2-43.9-96.7-97.3-96-52.7.7-94.7 44.5-94.7 97.3V192h-24c-22 0-40 18-40 40v192c0 22 18 40 40 40h240c22 0 40-18 40-40V232c0-22-18-40-40-40zM270 316.8v68.8c0 7.5-5.8 14-13.3 14.4-8 .4-14.7-6-14.7-14v-69.2c-11.5-5.6-19.1-17.8-17.9-31.7 1.4-15.5 14.1-27.9 29.6-29 18.7-1.3 34.3 13.5 34.3 31.9 0 12.7-7.3 23.6-18 28.8z\"}}]})(props);\n};\nexport function IoIosVideocam (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M450.6 153.6c-3.3 0-6.5.9-9.3 2.7l-86.5 54.6c-2.5 1.6-4 4.3-4 7.2v76c0 2.9 1.5 5.6 4 7.2l86.5 54.6c2.8 1.7 6 2.7 9.3 2.7h20.8c4.8 0 8.6-3.8 8.6-8.5v-188c0-4.7-3.9-8.5-8.6-8.5h-20.8zM273.5 384h-190C55.2 384 32 360.8 32 332.6V179.4c0-28.3 23.2-51.4 51.4-51.4h190c28.3 0 51.4 23.2 51.4 51.4v153.1c.1 28.3-23 51.5-51.3 51.5z\"}}]})(props);\n};\nexport function IoIosVolumeHigh (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M215.4 145.5c-2.2-1.1-4.6-1.6-6.9-1.6-3.6 0-7.1 1.2-10 3.5L133.3 200H80.5c-8.8 0-16 7.2-16 16v80c0 8.8 7.2 16 16 16h52.8l65.2 52.5c2.9 2.3 6.5 3.5 10 3.5 2.3 0 4.7-.5 6.9-1.6 5.6-2.7 9.1-8.3 9.1-14.4V160c0-6.2-3.5-11.8-9.1-14.5zM447.5 256c0-59.3-23.2-114.8-65.4-156.5-4.7-4.7-12.3-4.6-17 .1-4.7 4.7-4.6 12.3.1 17 37.6 37.1 58.2 86.6 58.2 139.4 0 52.8-20.7 102.3-58.2 139.4-4.7 4.7-4.8 12.3-.1 17 2.3 2.4 5.4 3.6 8.5 3.6 3 0 6.1-1.2 8.4-3.5 42.3-41.6 65.5-97.2 65.5-156.5z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M384.9 256c0-43.5-16.6-84.3-46.8-114.9-4.7-4.7-12.3-4.8-17-.1-4.7 4.7-4.8 12.3-.1 17 25.7 26.1 39.9 60.9 39.9 98.1 0 37.2-14.2 72-39.9 98.1-4.7 4.7-4.6 12.3.1 17 2.3 2.3 5.4 3.5 8.4 3.5 3.1 0 6.2-1.2 8.5-3.6 30.2-30.8 46.9-71.6 46.9-115.1z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M287.5 182.5c-4.7-4.7-12.3-4.8-17-.1-4.7 4.7-4.8 12.3-.1 17 14.8 15 23 35.1 23 56.6 0 21.4-8.2 41.5-23 56.6-4.7 4.7-4.6 12.3.1 17 2.3 2.3 5.4 3.5 8.4 3.5 3.1 0 6.2-1.2 8.5-3.6 19.3-19.6 29.9-45.6 29.9-73.4.1-27.9-10.5-54-29.8-73.6z\"}}]})(props);\n};\nexport function IoIosVolumeLow (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M278.9 145.6c-2.2-1.1-4.6-1.6-6.9-1.6-3.6 0-7.1 1.2-10 3.5L196.8 200H144c-8.8 0-16 7.2-16 16v80c0 8.8 7.2 16 16 16h52.8l65.2 52.5c2.9 2.3 6.5 3.5 10 3.5 2.3 0 4.7-.5 6.9-1.6 5.6-2.7 9.1-8.3 9.1-14.4V160c0-6.2-3.5-11.8-9.1-14.4zM354.4 182.6c-4.6-4.7-12.1-4.8-16.8-.1-4.7 4.7-4.7 12.3-.1 17 14.7 15 22.8 35.1 22.8 56.6 0 21.4-8.1 41.5-22.8 56.6-4.6 4.7-4.6 12.3.1 17 2.3 2.3 5.3 3.5 8.3 3.5 3.1 0 6.1-1.2 8.5-3.6C373.5 310 384 284 384 256.2h-.2c0-28-10.3-54.1-29.4-73.6z\"}}]})(props);\n};\nexport function IoIosVolumeMute (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M326.9 145.6c-2.2-1.1-4.6-1.6-6.9-1.6-3.6 0-7.1 1.2-10 3.5L244.8 200H192c-8.8 0-16 7.2-16 16v80c0 8.8 7.2 16 16 16h52.8l65.2 52.5c2.9 2.3 6.5 3.5 10 3.5 2.3 0 4.7-.5 6.9-1.6 5.6-2.7 9.1-8.3 9.1-14.4V160c0-6.2-3.5-11.8-9.1-14.4z\"}}]})(props);\n};\nexport function IoIosVolumeOff (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M390.1 464c-4.9 0-9.7-2.5-12.3-7L149.7 69.3c-4-6.7-1.7-15.4 5.1-19.3 6.8-3.9 15.5-1.7 19.5 5.1l228.1 387.7c4 6.7 1.7 15.4-5.1 19.3-2.2 1.3-4.7 1.9-7.2 1.9zM133 200H80c-8.9 0-16 7.2-16 16v80c0 8.8 7.2 16 16 16h53l65.4 52.5c2.9 2.3 6.5 3.5 10.1 3.5 2.4 0 4.7-.5 6.9-1.6 5.6-2.7 9.1-8.3 9.1-14.4V227.9L184 159.1 133 200zM448 256c0-59.3-23.3-114.9-65.5-156.5-4.7-4.7-12.3-4.6-17 .1-4.7 4.7-4.6 12.3.1 17C403.3 153.7 424 203.2 424 256c0 44.4-14.7 86.4-41.7 120.8l13 22C429.4 359.1 448 309 448 256z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M385.2 256c0-43.5-16.7-84.3-46.9-114.9-4.7-4.7-12.3-4.8-17-.1-4.7 4.7-4.8 12.3-.1 17 25.8 26.1 40 60.9 40 98.1 0 21.6-4.8 42.5-13.9 61.2l14.2 24.1c15.4-25.4 23.7-54.7 23.7-85.4zM317.6 256c0-27.8-10.7-53.9-30-73.4-4.7-4.7-12.3-4.8-17-.1-.6.6-1.1 1.2-1.6 1.9l48.1 81.8c.3-3.4.5-6.8.5-10.2z\"}}]})(props);\n};\nexport function IoIosWalk (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M201.1 361.2l-67.8 48.9c-3.7 3.6-5.2 9.1-5.3 13.9-.1 4.8 1.2 8.8 4.7 12.5 3.6 3.9 8.8 6.2 13.6 6.2 4.5 0 12.5-4.9 16-8.4l69.7-51.6c3.6-3.5 5.7-8.4 5.7-13.5l9.1-52.5-45.7-46.7v91.2z\"}},{\"tag\":\"ellipse\",\"attr\":{\"transform\":\"rotate(-80.781 274.673 69.329)\",\"cx\":\"274.7\",\"cy\":\"69.3\",\"rx\":\"37.3\",\"ry\":\"37.3\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M350.7 459.2l-15.2-117.4c-.5-3.5-1.9-6.8-4.2-9.5l-57-68.8V143.9c0-11.3-6.3-15.9-18.3-15.9h-37c-2.8 0-5.2 1-7.7 2.3l-68 31.7c-10 5.3-15.3 15.4-15.3 28.7V256c0 10.3 8.2 18.7 18.3 18.7 10.1 0 18.3-8.4 18.3-18.7v-58.2c0-3 1.7-5.8 4.4-7.1l32.2-16.4v75.3c0 4.2 1.6 8.2 4.6 11.2l92.4 94.4c1.2 1.2 2 2.8 2.2 4.5l14.2 104.7c1.3 9.3 9.1 15.7 18.1 15.7h2c9.9-1.5 17.4-10.7 16-20.9z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M378.4 232.4l-95-96.2v52.6l69.2 70.1c7.2 7.3 18.7 7.2 25.9-.1 3.5-3.6 5.5-7.5 5.5-12.2 0-4.8-2-10.5-5.6-14.2z\"}}]})(props);\n};\nexport function IoIosWallet (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M404 160H108c-33.1 0-60 26.9-60 60v168c0 33.1 26.9 60 60 60h296c33.1 0 60-26.9 60-60V220c0-33.1-26.9-60-60-60zM342.9 65L108 110.9c-18 4-44 22.1-44 44.1 0 0 15-19 49-19h287v-20.5c0-12.6-5-28.7-13.9-37.6-11.3-11.3-27.5-16.2-43.2-12.9z\"}}]})(props);\n};\nexport function IoIosWarning (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M228.9 79.9L51.8 403.1C40.6 423.3 55.5 448 78.9 448h354.3c23.3 0 38.2-24.7 27.1-44.9L283.1 79.9c-11.7-21.2-42.5-21.2-54.2 0zM273.6 214L270 336h-28l-3.6-122h35.2zM256 402.4c-10.7 0-19.1-8.1-19.1-18.4s8.4-18.4 19.1-18.4 19.1 8.1 19.1 18.4-8.4 18.4-19.1 18.4z\"}}]})(props);\n};\nexport function IoIosWatch (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M440.3 161.3c-15-23.9-36.3-43.3-61.4-56.1-1.9-.9-3.9-1.4-6-1.4-5 0-9.5 2.8-11.8 7.2-1.6 3.1-1.9 6.7-.8 10 1.1 3.3 3.4 6.1 6.6 7.7 20.9 10.7 38.6 26.8 51.1 46.7 12.8 20.4 19.6 44 19.6 68v40.5c0 17.2-3.3 33.4-9.9 48-6.3 14-15.4 26.3-27 36.6-23.2 20.5-55.1 31.9-89.9 31.9-34.4 0-43.6-5.2-52.4-10.2-8.1-4.6-17.3-9.8-37.7-11-31.7-2-56.9-12.4-77.2-31.8-2.5-2.4-5.7-3.7-9.1-3.7-3.6 0-7 1.5-9.5 4.1-2.4 2.5-3.7 5.7-3.7 9.1 0 3.6 1.5 7 4.1 9.5 25 23.9 55.7 36.7 93.8 39.1 14.4.9 19.4 3.7 26.4 7.7 11.3 6.4 24.1 13.6 65.4 13.6 41.6 0 80-13.9 108.1-39.2 14.2-12.8 25.3-28 33-45.2 8-18 12.1-37.6 12.1-58.5v-40.5c-.1-29.1-8.3-57.5-23.8-82.1z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M284 383c8.7 1.4 17.2 2.1 25.4 2.1 16 0 31.2-2.7 45-8 13.9-5.4 26.5-13.4 37.5-23.9 5.3-5 5.4-13.4.4-18.6-2.5-2.6-5.9-4.1-9.5-4.1-3.4 0-6.7 1.3-9.1 3.7-17.1 16.3-38.8 24.6-64.5 24.6-6.8 0-13.8-.6-21-1.8-.7-.1-1.4-.2-2.1-.2-6.5 0-12 4.6-13 11-.1.7-.2 1.4-.2 2.1 0 6.6 4.7 12 11.1 13.1zm2.1-21.1h.1-.3.2zM222.9 421.7c-39.9 0-72.8-13.4-102.7-40.3-29.1-26.2-45.8-60.7-45.8-94.5v-43.6c0-24.1 6.8-47.6 19.6-68 12.5-19.9 30.2-36 51.1-46.7 3.1-1.6 5.5-4.3 6.6-7.7 1.1-3.3.8-6.9-.8-10.1-2.3-4.4-6.8-7.2-11.8-7.2-2.1 0-4.1.5-6 1.4-25.1 12.8-46.4 32.2-61.4 56.1-15.5 24.6-23.7 53-23.7 82v43.6c0 41.2 19.9 82.8 54.5 114 34.6 31.2 74 47.1 120.4 47.1 7.3 0 13.2-5.9 13.2-13.2-.1-7-6-12.9-13.2-12.9z\"}},{\"tag\":\"g\",\"attr\":{},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M348.4 115.1c.8-11.9 10.3-21.6 22.2-22.6 4.3-.4 8.4.4 12 2 2.6 1.1 5.1-1.6 3.9-4.1-2.7-5.7-6.6-10.9-11.5-15.1C366.6 68 355.9 64 344.8 64H167.2c-17.9 0-33.9 10.3-41.5 25.8-1.2 2.5 1.2 5.2 3.9 4.2 3.3-1.3 7-1.8 10.8-1.5 11.9 1 21.4 10.8 22.2 22.7.8 13.6-9.5 25-22.8 25.8-.9.1-1.8.7-2.1 1.5-.4 1.1-.1 2.3.8 3 8.1 6.2 18.1 9.7 28.7 9.7h177.6c10.9 0 21.2-3.6 29.4-10.2 1.7-1.3.7-4-1.4-4h-.1c-14 0-25.2-11.7-24.3-25.9zm-21.6-10.3c3.5 15.8-10.7 30-26.5 26.5-8.4-1.9-15.2-8.6-17-17-3.5-15.8 10.7-30 26.5-26.5 8.4 1.9 15.2 8.6 17 17z\"}}]}]})(props);\n};\nexport function IoIosWater (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M352 146.4c-34.4-48.6-67.5-78.5-90.8-96.6-3.1-2.4-7.3-2.4-10.4-.1-23 17.1-56.1 48.4-90.5 96.5-37.3 52-63 108.4-64.2 170.9 0 1.2-.1 2.5-.1 3.7 0 18.4 3.9 35.9 10.9 52.1 4.1 9.3 9.2 18.1 15.2 26.3 28.5 39 77.8 64.8 133.8 64.8 88.4 0 160.1-64.1 160.1-143.2 0-63.7-27-122.2-64-174.4zm-86 264.3h-.5c-9.9 0-12-14.1-2.6-17.1 45.1-14.2 69.6-38.5 86.4-80.8 3.5-8.9 16.7-6.5 16.8 3.1v1.4c-.1 51.6-44.9 93.4-100.1 93.4z\"}}]})(props);\n};\nexport function IoIosWifi (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M256 96c-81.5 0-163 33.6-221.5 88.3-3.3 3-3.4 8.1-.3 11.4l26.7 27.9c3.1 3.3 8.3 3.4 11.6.3 23.3-21.6 49.9-38.8 79.3-51 33-13.8 68.1-20.7 104.3-20.7s71.3 7 104.3 20.7c29.4 12.3 56 29.4 79.3 51 3.3 3.1 8.5 3 11.6-.3l26.7-27.9c3.1-3.2 3-8.3-.3-11.4C419 129.6 337.5 96 256 96z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M113.2 277.5l28.6 28.3c3.1 3 8 3.2 11.2.3 28.3-25.1 64.6-38.9 102.9-38.9s74.6 13.7 102.9 38.9c3.2 2.9 8.1 2.7 11.2-.3l28.6-28.3c3.3-3.3 3.2-8.6-.3-11.7-37.5-33.9-87.6-54.6-142.5-54.6s-105 20.7-142.5 54.6c-3.3 3.1-3.4 8.4-.1 11.7zM256 324.2c-23.4 0-44.6 9.8-59.4 25.5-3 3.2-2.9 8.1.2 11.2l53.4 52.7c3.2 3.2 8.4 3.2 11.6 0l53.4-52.7c3.1-3.1 3.2-8 .2-11.2-14.8-15.6-36-25.5-59.4-25.5z\"}}]})(props);\n};\nexport function IoIosWine (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M328.9 51.2c-2-5.5-7-9.2-12.9-9.2H196c-6 0-10.9 3.7-13 9.2-9.3 25-31 87.1-31 124.8v4.8c0 19.2 0 45.4 28.4 74.5 6.5 6.7 14.3 12.9 22.5 19.5 19.1 15.3 38.8 31.1 38.8 50.2v115c0 1.1-.9 2-2 2h-57.1c-7.9 0-14.3 6.3-14.3 14s6.4 14 14.3 14h146.8c7.9 0 14.3-6.3 14.3-14s-6.4-14-14.3-14h-57.1c-1.1 0-2-.9-2-2V325c0-19.1 19.7-34.9 38.8-50.2 8.2-6.6 15.9-12.8 22.5-19.5C360 226.2 360 200 360 180.8V176c0-37.5-21.7-99.8-31.1-124.8zm-1.4 102.1c-.2.3-.7.7-1.6.7H186.1c-.8 0-1.3-.5-1.6-.7-.2-.3-.6-.8-.4-1.7 5.1-26.1 14.8-59.6 21.6-80.2.3-.8 1.1-1.4 1.9-1.4h96.8c.9 0 1.7.6 1.9 1.4 6.7 20.7 16.4 54.1 21.6 80.2.2.8-.2 1.4-.4 1.7z\"}}]})(props);\n};\nexport function IoIosWoman (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M286 496c-6.1 0-11.8-2.3-16-6.6-3.2-3.3-7.1-9.1-7.1-18.6V351.4H249v119.4c0 9.5-4 15.4-7.4 18.7-4.3 4.2-10.1 6.5-16.3 6.5-6.2 0-11.9-2.3-16.3-6.5-3.4-3.3-7.4-9.1-7.4-18.7V351.4h-43.9l44.5-170.6h-6.8L171 271.2c-4 13.1-13.7 17.8-21.4 17.8-6.6 0-12.9-3.2-17-8.7-4.8-6.4-6.1-14.9-3.6-23.9l29-104.1c4.2-15.2 20.7-38.2 48.7-39.3H305.1c28.4 1.2 44.1 26 48.5 38.9l.1.4 29 104.3c2.4 9 1 17.6-3.9 24-4.1 5.4-10.4 8.6-16.9 8.6-7.7 0-17.3-4.8-21.3-18.1v-.2l-24.3-90.1h-7.7l45.5 170.6H309v119.4c0 9.5-3.9 15.3-7.1 18.6-4.2 4.3-9.8 6.6-15.9 6.6zM255.9 106.4c-24.2 0-43.9-20.3-43.9-45.2S231.7 16 255.9 16s43.9 20.3 43.9 45.2-19.7 45.2-43.9 45.2z\"}}]})(props);\n};\nexport function IoLogoAndroid (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M144 268.4V358c0 6.9 4.5 14 11.4 14H184v52c0 13.3 10.7 24 24 24s24-10.7 24-24v-52h49v52c0 7.5 3.4 14.2 8.8 18.6 3.9 3.4 9.1 5.4 14.7 5.4h.5c13.3 0 24-10.7 24-24v-52h27.6c7 0 11.4-7.1 11.4-13.9V192H144v76.4zM408 176c-13.3 0-24 10.7-24 24v96c0 13.3 10.7 24 24 24s24-10.7 24-24v-96c0-13.3-10.7-24-24-24zM104 176c-13.3 0-24 10.7-24 24v96c0 13.3 10.7 24 24 24s24-10.7 24-24v-96c0-13.3-10.7-24-24-24z\"}},{\"tag\":\"g\",\"attr\":{},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M311.2 89.1l18.5-21.9c.4-.5-.2-1.6-1.3-2.5-1.1-.8-2.4-1-2.7-.4l-19.2 22.8c-13.6-5.4-30.2-8.8-50.6-8.8-20.5-.1-37.2 3.2-50.8 8.5l-19-22.4c-.4-.5-1.6-.4-2.7.4s-1.7 1.8-1.3 2.5l18.3 21.6c-48.2 20.9-55.4 72.2-56.4 87.2h223.6c-.9-15.1-8-65.7-56.4-87zm-104.4 49.8c-7.4 0-13.5-6-13.5-13.3 0-7.3 6-13.3 13.5-13.3 7.4 0 13.5 6 13.5 13.3 0 7.3-6 13.3-13.5 13.3zm98.4 0c-7.4 0-13.5-6-13.5-13.3 0-7.3 6-13.3 13.5-13.3 7.4 0 13.5 6 13.5 13.3 0 7.3-6.1 13.3-13.5 13.3z\"}}]}]})(props);\n};\nexport function IoLogoAngular (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M213.573 256h84.846l-42.427-89.356z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M255.981 32L32 112l46.12 272L256 480l177.75-96L480 112 255.981 32zM344 352l-26.589-56H194.584L168 352h-40L256 72l128 280h-40z\"}}]})(props);\n};\nexport function IoLogoApple (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M333.6 153.9c-33.6 0-47.8 16.5-71.2 16.5-24 0-42.3-16.4-71.4-16.4-28.5 0-58.9 17.9-78.2 48.4-27.1 43-22.5 124 21.4 193 15.7 24.7 36.7 52.4 64.2 52.7h.5c23.9 0 31-16.1 63.9-16.3h.5c32.4 0 38.9 16.2 62.7 16.2h.5c27.5-.3 49.6-31 65.3-55.6 11.3-17.7 15.5-26.6 24.2-46.6-63.5-24.8-73.7-117.4-10.9-152.9-19.2-24.7-46.1-39-71.5-39z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M326.2 64c-20 1.4-43.3 14.5-57 31.6-12.4 15.5-22.6 38.5-18.6 60.8h1.6c21.3 0 43.1-13.2 55.8-30.1 12.3-16.1 21.6-38.9 18.2-62.3z\"}}]})(props);\n};\nexport function IoLogoBitbucket (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M452.9 64.2c-.7-.1-1.5-.2-2.2-.2H61.5c-7.4-.1-13.4 5.9-13.5 13.5 0 .8 0 1.6.2 2.4l56.6 352.5c.7 4.3 2.9 8.2 6.1 11.1 3.2 2.9 7.4 4.5 11.7 4.5H394c6.6.1 12.3-4.8 13.3-11.5L441 224H316l-16 96h-88l-22.3-126.9h256.2l18-113.1c1.1-7.5-3.8-14.6-11-15.8z\"}}]})(props);\n};\nexport function IoLogoBitcoin (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M410.5 279.2c-5-11.5-12.7-21.6-28.1-30.1-8.2-4.5-16.1-7.8-25.4-10 5.4-2.5 10-5.4 16.3-11 7.5-6.6 13.1-15.7 15.6-23.3 2.6-7.5 4.1-18 3.5-28.2-1.1-16.8-4.4-33.1-13.2-44.8-8.8-11.7-21.2-20.7-37.6-27-12.6-4.8-25.5-7.8-45.5-8.9V32h-40v64h-32V32h-41v64H96v48h27.9c8.7 0 14.6.8 17.6 2.3 3.1 1.5 5.3 3.5 6.5 6 1.3 2.5 1.9 8.4 1.9 17.5V343c0 9-.6 14.8-1.9 17.4-1.3 2.6-2 4.9-5.1 6.3-3.1 1.4-3.2 1.3-11.8 1.3h-26.4L96 416h87v64h41v-64h32v64h40v-64.4c26-1.3 44.5-4.7 59.4-10.3 19.3-7.2 34.1-17.7 44.7-31.5 10.6-13.8 14.9-34.9 15.8-51.2.7-14.5-.9-33.2-5.4-43.4zM224 150h32v74h-32v-74zm0 212v-90h32v90h-32zm72-208.1c6 2.5 9.9 7.5 13.8 12.7 4.3 5.7 6.5 13.3 6.5 21.4 0 7.8-2.9 14.5-7.5 20.5-3.8 4.9-6.8 8.3-12.8 11.1v-65.7zm28.8 186.7c-7.8 6.9-12.3 10.1-22.1 13.8-2 .8-4.7 1.4-6.7 1.9v-82.8c5 .8 7.6 1.8 11.3 3.4 7.8 3.3 15.2 6.9 19.8 13.2 4.6 6.3 8 15.6 8 24.7 0 10.9-2.8 19.2-10.3 25.8z\"}}]})(props);\n};\nexport function IoLogoBuffer (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M70.7 164.5l169.2 81.7c4.4 2.1 10.3 3.2 16.1 3.2s11.7-1.1 16.1-3.2l169.2-81.7c8.9-4.3 8.9-11.3 0-15.6L272.1 67.2c-4.4-2.1-10.3-3.2-16.1-3.2s-11.7 1.1-16.1 3.2L70.7 148.9c-8.9 4.3-8.9 11.3 0 15.6z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M441.3 248.2s-30.9-14.9-35-16.9-5.2-1.9-9.5.1S272 291.6 272 291.6c-4.5 2.1-10.3 3.2-16.1 3.2s-11.7-1.1-16.1-3.2c0 0-117.3-56.6-122.8-59.3-6-2.9-7.7-2.9-13.1-.3l-33.4 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41090.004 0 0 0 123.261 82.195c4.678 3.106 7.453 6.943 7.453 12.66v80.622z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M316.247 273.234a3826.352 3826.352 0 0 1-45.386 30.332c-2.412 1.588-2.888 3.318-2.861 6.189v51.346l93.039-62.004-38.527-25.882c-2.345-1.604-3.93-1.567-6.265.019zM370 276.676V237.06l-29.59 19.873z\"}}]})(props);\n};\nexport function IoLogoCss3 (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M256.282 339.488zM64 32l34.946 403.219L255.767 480l157.259-44.85L448 32H64zm290.676 334.898l-98.607 28.125-98.458-28.248L150.864 289h48.253l3.433 39.562 53.586 15.163.132.273h.034l53.467-14.852L315.381 265H203l-4-50h120.646l4.396-51H140l-4-49h240.58l-21.904 251.898z\"}}]})(props);\n};\nexport function IoLogoDesignernews (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M290.4 145L227 96l63.6 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512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M234 272v-48h131.094l7.149-48H234v-1.83c0-35.92 14.975-58.086 79.25-58.086 26.264 0 55.867 2.498 93.189 8.742L416 59.866C377.988 51.123 345.306 48 310.057 48 195.326 48 146 89.225 146 165.43V176H96v48h50v48H96v48h50v26.57C146 422.774 195.297 464 310.027 464c35.25 0 67.848-3.123 105.859-11.866l-9.619-64.96c-37.322 6.244-66.781 8.742-93.045 8.742-64.276 0-79.223-18.739-79.223-63.086V320h116.795l7.148-48H234z\"}}]})(props);\n};\nexport function IoLogoFacebook (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M426.8 64H85.2C73.5 64 64 73.5 64 85.2v341.6c0 11.7 9.5 21.2 21.2 21.2H256V296h-45.9v-56H256v-41.4c0-49.6 34.4-76.6 78.7-76.6 21.2 0 44 1.6 49.3 2.3v51.8h-35.3c-24.1 0-28.7 11.4-28.7 28.2V240h57.4l-7.5 56H320v152h106.8c11.7 0 21.2-9.5 21.2-21.2V85.2c0-11.7-9.5-21.2-21.2-21.2z\"}}]})(props);\n};\nexport function IoLogoFlickr (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M352 64H160c-52.8 0-96 43.2-96 96v192c0 52.8 43.2 96 96 96h192c52.8 0 96-43.2 96-96V160c0-52.8-43.2-96-96-96zM184 304c-26.5 0-48-21.5-48-48s21.5-48 48-48 48 21.5 48 48-21.5 48-48 48zm144 0c-26.5 0-48-21.5-48-48s21.5-48 48-48 48 21.5 48 48-21.5 48-48 48z\"}}]})(props);\n};\nexport function IoLogoFoursquare (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M376.764 32H138.541C105.666 32 96 56.798 96 72.414v379.64c0 17.591 9.425 24.117 14.718 26.267 5.299 2.155 19.916 3.971 28.673-6.168 0 0 112.469-130.895 114.4-132.834 2.921-2.93 2.921-2.93 5.844-2.93h72.767c30.574 0 35.49-21.869 38.684-34.752 2.659-10.789 32.489-163.962 42.452-212.559C421.143 51.993 411.745 32 376.764 32zm-5.678 269.637c2.659-10.789 32.489-163.962 42.452-212.559m-50.846 7.592l-9.999 51.734c-1.195 5.65-8.287 11.595-14.863 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0 19.3-8.7 19.3-19.4s-8.6-19.4-19.3-19.4z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M466.3 248.9c-21.2-88.5-43.6-135.5-88.5-148.8-9.8-2.9-18.1-4-25.7-4-27.6 0-46.9 14.7-96.1 14.7-49.2 0-68.5-14.7-96.1-14.7-7.7 0-16 1.1-25.7 4-44.9 13.3-67.3 60.4-88.5 148.8-21.2 88.5-17.3 152.4 7.7 164.3 4.1 1.9 8.2 2.8 12.5 2.8 21.7 0 45.1-23.8 67.7-52 25.7-32.1 32.1-33 110.3-33h24.3c78.1 0 84.6.8 110.3 33 22.5 28.2 46 52 67.7 52 4.2 0 8.4-.9 12.5-2.8 24.9-12 28.7-75.9 7.6-164.3zm-331.1 14.7c-21.6 0-39.2-17.8-39.2-39.6s17.6-39.6 39.2-39.6c21.7 0 39.2 17.8 39.2 39.6.1 21.9-17.5 39.6-39.2 39.6zm172.9-19.5c-11.1 0-20.1-9-20.1-20.1 0-11.1 9-20.1 20.1-20.1 11.1 0 20.1 9 20.1 20.1 0 11.1-9 20.1-20.1 20.1zM352 288c-11.1 0-20.1-9-20.1-20 0-11.2 9-20.1 20.1-20.1 11.1 0 20.1 8.9 20.1 20.1 0 11-9 20-20.1 20zm0-87.8c-11.1 0-20.1-9-20.1-20.1 0-11.1 9-20.1 20.1-20.1 11.1 0 20.1 9 20.1 20.1 0 11.1-9 20.1-20.1 20.1zm43.9 43.9c-11.1 0-20.1-9-20.1-20.1 0-11.1 9-20.1 20.1-20.1 11.1 0 20.1 9 20.1 20.1 0 11.1-9 20.1-20.1 20.1z\"}}]})(props);\n};\nexport function IoLogoGithub (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M256 32C132.3 32 32 134.9 32 261.7c0 101.5 64.2 187.5 153.2 217.9 1.4.3 2.6.4 3.8.4 8.3 0 11.5-6.1 11.5-11.4 0-5.5-.2-19.9-.3-39.1-8.4 1.9-15.9 2.7-22.6 2.7-43.1 0-52.9-33.5-52.9-33.5-10.2-26.5-24.9-33.6-24.9-33.6-19.5-13.7-.1-14.1 1.4-14.1h.1c22.5 2 34.3 23.8 34.3 23.8 11.2 19.6 26.2 25.1 39.6 25.1 10.5 0 20-3.4 25.6-6 2-14.8 7.8-24.9 14.2-30.7-49.7-5.8-102-25.5-102-113.5 0-25.1 8.7-45.6 23-61.6-2.3-5.8-10-29.2 2.2-60.8 0 0 1.6-.5 5-.5 8.1 0 26.4 3.1 56.6 24.1 17.9-5.1 37-7.6 56.1-7.7 19 .1 38.2 2.6 56.1 7.7 30.2-21 48.5-24.1 56.6-24.1 3.4 0 5 .5 5 .5 12.2 31.6 4.5 55 2.2 60.8 14.3 16.1 23 36.6 23 61.6 0 88.2-52.4 107.6-102.3 113.3 8 7.1 15.2 21.1 15.2 42.5 0 30.7-.3 55.5-.3 63 0 5.4 3.1 11.5 11.4 11.5 1.2 0 2.6-.1 4-.4C415.9 449.2 480 363.1 480 261.7 480 134.9 379.7 32 256 32z\"}}]})(props);\n};\nexport function IoLogoGoogle (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M457.6 224l-2.1-8.9H262V297h115.6c-12 57-67.7 87-113.2 87-33.1 0-68-13.9-91.1-36.3-23.7-23-38.8-56.9-38.8-91.8 0-34.5 15.5-69 38.1-91.7 22.5-22.6 56.6-35.4 90.5-35.4 38.8 0 66.6 20.6 77 30l58.2-57.9c-17.1-15-64-52.8-137.1-52.8-56.4 0-110.5 21.6-150 61C72.2 147.9 52 204 52 256s19.1 105.4 56.9 144.5c40.4 41.7 97.6 63.5 156.5 63.5 53.6 0 104.4-21 140.6-59.1 35.6-37.5 54-89.4 54-143.8 0-22.9-2.3-36.5-2.4-37.1z\"}}]})(props);\n};\nexport function IoLogoGoogleplus (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M318.2 230.9l-1.6-7H160V288h90.7c-9.4 45-48.4 63.6-84.1 63.6-26 0-50.2-7.8-68.3-25.3-18.6-18.1-28.9-43.1-28.9-70.4 0-27.1 9.8-51.8 27.6-69.6 17.7-17.7 42-25.4 68.7-25.4 30.5 0 49.9 13.8 58.1 21.1l48-47.7C258.3 122.6 221.5 93 164.1 93c-44.3 0-86.7 16.8-117.7 47.8C15.9 171.3 0 215.2 0 256s15 82.6 44.6 113.3C76.3 402 121.2 419 167.5 419c42.1 0 81.9-16.5 110.3-46.3 28-29.4 42.4-70.1 42.4-112.7-.1-18-1.9-28.7-2-29.1zM512 224h-57v-57h-41v57h-57v41h57v57h41v-57h57z\"}}]})(props);\n};\nexport function IoLogoHackernews (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M64 64v384h384V64H64zm214 215v72h-40v-72l-66-120h47.1l39.7 83.6 38-83.6H342l-64 120z\"}}]})(props);\n};\nexport function IoLogoHtml5 (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M64 32l34.936 403.213L255.769 480l157.245-44.854L448 32H64zm307.997 132h-184l3.991 51h176.008l-13.505 151.386-98.5 28.094-98.682-27.976L150.545 289h48.254l3.423 39.287 53.769 14.781 53.422-14.915L314.987 264H147.986l-12.571-149.589 240.789.016L371.997 164z\"}}]})(props);\n};\nexport function IoLogoInstagram (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M336 96c21.2 0 41.3 8.4 56.5 23.5S416 154.8 416 176v160c0 21.2-8.4 41.3-23.5 56.5S357.2 416 336 416H176c-21.2 0-41.3-8.4-56.5-23.5S96 357.2 96 336V176c0-21.2 8.4-41.3 23.5-56.5S154.8 96 176 96h160m0-32H176c-61.6 0-112 50.4-112 112v160c0 61.6 50.4 112 112 112h160c61.6 0 112-50.4 112-112V176c0-61.6-50.4-112-112-112z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M360 176c-13.3 0-24-10.7-24-24s10.7-24 24-24c13.2 0 24 10.7 24 24s-10.8 24-24 24zM256 192c35.3 0 64 28.7 64 64s-28.7 64-64 64-64-28.7-64-64 28.7-64 64-64m0-32c-53 0-96 43-96 96s43 96 96 96 96-43 96-96-43-96-96-96z\"}}]})(props);\n};\nexport function IoLogoIonic (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M256 161.2c-52.3 0-94.8 42.5-94.8 94.8s42.5 94.8 94.8 94.8 94.8-42.5 94.8-94.8-42.5-94.8-94.8-94.8z\"}},{\"tag\":\"circle\",\"attr\":{\"cx\":\"392.1\",\"cy\":\"126.4\",\"r\":\"43.2\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M445.3 169.8l-1.8-4-2.9 3.3c-7.1 8-16.1 14.2-26.1 17.9l-2.8 1 1.1 2.7c8.6 20.7 13 42.7 13 65.2 0 93.7-76.2 169.9-169.9 169.9S86.1 349.7 86.1 256 162.3 86.1 256 86.1c25.4 0 49.9 5.5 72.8 16.4l2.7 1.3 1.2-2.7c4.2-9.8 10.8-18.5 19.2-25.2l3.4-2.7-3.9-2C321.6 55.8 289.5 48 256 48 141.3 48 48 141.3 48 256s93.3 208 208 208 208-93.3 208-208c0-30-6.3-59-18.7-86.2z\"}}]})(props);\n};\nexport function IoLogoIonitron (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M468.4 269.2c-2.7-34.2-12.2-59.2-32.9-57.3 6.4 14.6 12.2 48.1 8.7 72-1.4-25.9-6.3-50.2-17.2-72-32.1-64.6-100.6-107.4-177.5-103.1-85.9 4.8-155 66.7-172 146.8l-11.4 1.6c-17.2 2.4-26.9 34.9-21.7 72.5 5.3 37.7 23.5 66.2 40.7 63.8l15.8-2.2c34.7 56.3 98.5 92.3 169.3 88.4 85.3-4.7 154-65.9 171.7-145.2l7.4-.4c15.2-2.5 21.8-31.2 19.1-64.9zM90.3 264c10.7 8.2 25.4 28.3 29.1 55.1 3.9 27.7-4.8 54.1-13.4 64.3 6-14.8 8.1-37.3 4.7-61.9-3.3-24-11-44.7-20.4-57.5zm183.8 116.2c-8.5.5-15.8-6-16.3-14.5s6-15.7 14.6-16.2c8.5-.5 15.8 6 16.3 14.5s-6.1 15.7-14.6 16.2zm81-4.7c-8.5.5-15.8-6-16.3-14.5s6-15.7 14.6-16.2c8.5-.5 15.8 6 16.3 14.5.4 8.5-6.1 15.8-14.6 16.2zM165.5 70s0 .1 0 0c.1.1.1.2.1.2.1.2.2.3.3.5v.1c.4 1 1.1 1.9 2.3 2.7 2 1.5 5 2.4 8.6 3 3.4.5 7.5.7 11.9.5 1 0 1.9-.1 2.9-.2-.4-.4-.8-.9-1.2-1.3h-1.3c-4.3.1-8.2-.2-11.6-.9-3.5-.7-6.4-1.8-8.4-3.4-.6-.5-1-.9-1.4-1.4-.2-.7-.2-1.5 0-2.3.5-2.3 2.4-4.8 5.5-7.4 2.7-2.3 6.4-4.7 10.9-7 .9-.4 1.7-.9 2.6-1.3.1-.1.3-.1.5-.2-.8 3.3-.9 6.9-.2 10.5 2.3 11.9 11.6 20.3 23.2 20.6l4 24.3 12.7-2-4-24.3c10.8-4.6 16.3-16.1 14-28-.7-3.5-2-6.7-3.9-9.5-5.3-.8-15.6-.8-29.2 2.1 1.1-.3 2.1-.7 3.2-1 7.6-2.1 14.9-3.5 21.5-4.2.6-.1 1.2-.1 1.8-.2 1.2-.1 2.4-.2 3.5-.3h.6c4.1-.2 7.7-.1 10.8.3 2.4.3 4.4.8 6.1 1.4-.6.9-.9 2-.9 3.2 0 2.7 1.8 5 4.3 5.8-.6.9-1.3 1.9-2.1 2.8-.8.9-1.8 1.9-2.9 2.8-1.1.9-2.3 1.8-3.5 2.7l-6.5 3.8-.3 1.5c.1 0 .2-.1.2-.1l8.4-4.7c1.2-.8 2.4-1.6 3.4-2.4 1.2-.9 2.2-1.8 3.2-2.8.9-.9 1.7-1.9 2.4-2.8l.3-.6c3-.4 5.4-2.9 5.4-6 0-3.4-2.7-6.1-6.1-6.1-1 0-1.9.3-2.8.7-2-1.2-4.8-2.1-8.2-2.7-4.3-.8-9.6-1-15.5-.6-.7 0-1.4.1-2.1.2-.7.1-1.3.2-2 .2-5.3-3.5-11.9-5-18.7-3.7-7.9 1.5-14.2 6.5-17.8 13-1.3.5-2.6 1.1-3.8 1.7-.7.3-1.3.6-2 .9-5.9 2.9-10.6 6.1-13.9 9.1-3.1 2.9-4.9 5.7-5.3 8.3-.2 1.4 0 2.8.7 4 .1.1.2.3.3.5z\"}}]})(props);\n};\nexport function IoLogoJavascript (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M208 88.001h-80v212.498c0 52.58-18.032 67.261-49.412 67.261-14.705 0-27.948-2.521-38.25-6.063L32 423.904C46.7 428.966 69.259 432 86.907 432 158.955 432 208 398.129 208 301.02V88.001zM382.463 80C305.02 80 256 123.998 256 182.154c0 50.083 37.751 81.44 92.641 101.665 39.7 14.158 55.392 26.808 55.392 47.539 0 22.756-18.139 37.425-52.448 37.425-31.863 0-60.789-10.64-80.394-21.255v-.021L256 410.727c18.639 10.638 53.441 21.255 91.167 21.255C437.854 431.98 480 383.43 480 326.284c0-48.55-26.958-79.9-85.278-102.163-43.139-17.191-61.27-26.795-61.27-48.542 0-17.2 15.688-32.869 48.043-32.869 31.846 0 53.744 10.707 66.505 17.291l19.125-64C447.125 87.22 420.188 80 382.463 80z\"}}]})(props);\n};\nexport function IoLogoLinkedin (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M417.2 64H96.8C79.3 64 64 76.6 64 93.9V415c0 17.4 15.3 32.9 32.8 32.9h320.3c17.6 0 30.8-15.6 30.8-32.9V93.9C448 76.6 434.7 64 417.2 64zM183 384h-55V213h55v171zm-25.6-197h-.4c-17.6 0-29-13.1-29-29.5 0-16.7 11.7-29.5 29.7-29.5s29 12.7 29.4 29.5c0 16.4-11.4 29.5-29.7 29.5zM384 384h-55v-93.5c0-22.4-8-37.7-27.9-37.7-15.2 0-24.2 10.3-28.2 20.3-1.5 3.6-1.9 8.5-1.9 13.5V384h-55V213h55v23.8c8-11.4 20.5-27.8 49.6-27.8 36.1 0 63.4 23.8 63.4 75.1V384z\"}}]})(props);\n};\nexport function IoLogoMarkdown (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M447.659 96H64.341C46.504 96 32 110.484 32 128.308v255.349C32 401.493 46.504 416 64.341 416h383.318C465.496 416 480 401.493 480 383.656V128.308C480 110.484 465.496 96 447.659 96zM284.023 352h-56.048v-96l-42.04 53.878L143.913 256v96H87.869V160h56.044l42.022 67.98 42.04-67.98h56.048v192zm83.657 0l-69.635-96h42v-96h56.043v96h42.027l-70.453 96h.018z\"}}]})(props);\n};\nexport function IoLogoModelS (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M443.6 208.4c-3.1-1.9-2.2-6.6 1.3-7.3l5.3-1.1c7.1 0 22.4-2.3 25.6-5.4 3.1-3.2 4.2-5.4 4.2-8.2s-1.7-7.7-4.8-11.1c-3-3.4-16-5.2-23.7-6.2s-8.7 0-10.7 1.2c-2 1.3-2.8 9.5-3.1 15-.1 1.2-.9 2.2-2.1 2.5l-.4.1c-3.3.7-6.6-1.1-7.8-4.3-4.6-13-10.7-32.5-19.4-48.4-11.5-20.8-23.5-27.4-28.5-29-4.9-1.5-9.4-2.6-43-6.1-33.8-3.6-63.1-4.1-80.5-4.1s-46.7.5-80.6 4.1c-33.6 3.4-38.1 4.5-43 6.1-5 1.6-17 8.2-28.5 29-9.4 17.1-15.7 38.3-20.4 51.3-.6 1.5-2.2 2.4-3.8 2.1-3.1-.7-5.4-3.3-5.6-6.5-.4-5-1.2-10.7-2.9-11.7-2-1.3-3-2.2-10.7-1.2s-20.6 2.8-23.7 6.2c-3 3.4-4.7 8.3-4.7 11.1s1.1 5.1 4.2 8.3c3.1 3.2 18.5 5.4 25.6 5.4l5.3 1.1c3.5.7 4.4 5.4 1.3 7.3-9.1 5.7-23.2 15.3-32.3 25.6 0 0-4.1 28.7-4.1 62.1 0 48 5.8 92.4 5.8 92.4 1.8.3 3.6.6 5.3.9 0 1.2.7 13.1 2 21.2.3 2 1.3 5.5 6.2 5.5h64.7c1.9 0 5.1-1.6 5.1-3.7l1-17c7.2.1 3.2.1 10.9 0 24.8-.3 15.6-7.5 27.1-7.3 11.3.2 55 3 96 3s84.7-2.8 96-3c11.5-.2 2.3 7.1 27.1 7.3 7.7.1 4.7.1 11.9 0l1 17c0 2.1 3.2 3.7 5.1 3.7h63.5c4.9 0 5.9-3.5 6.2-5.5 1.3-8.1 1.9-19.9 2-21.2l5.4-.9s5.8-44.3 5.8-92.4c0-33.5-4.1-62.1-4.1-62.1-9.3-10.5-23.4-20.1-32.5-25.8zm-320.2-53.6c2.2-5.1 5.9-11.6 10-17.2 5-6.7 12.4-11.2 20.6-12.5 16.7-2.7 52.6-7.3 101.9-7.3 49.3 0 85.2 4.6 101.9 7.3 8.2 1.3 15.6 5.8 20.6 12.5 4.2 5.6 7.9 12.1 10.1 17.2 3.9 9.2 10.4 30.7 9.4 33.2-1 2.5 1 3.7-12.2 2.6-13.1-1-90.6-2.1-129.7-2.1-39.2 0-116.7 1.1-129.7 2.1-13.2 1.1-11.3-.2-12.2-2.6s5.4-24 9.3-33.2zm8.4 116c-9.9 0-29.8-1-34.5-1.2-4.7-.1-8.8 3.8-11.2 3.8s-25.5-3.6-28-14.9c-1.7-7.5-1.1-15.2-.6-19.5.3-1.9 1.9-3.4 3.8-3.5 14.4-.5 29.2.5 55.3 7.9 17.3 4.9 29.8 12.6 36.9 17.8 2.8 2.1 1.8 6.5-1.7 7.2-6.1 1.1-14.4 2.4-20 2.4zm210.4 73c-12.7 1.7-58.5 2.2-86.2 2.2s-73.5-.5-86.2-2.2c-13.1-1.7-29.8-17.3-18.4-30.2 7.6-8.5 20.8-13.6 48.9-17.3 29.8-3.8 48.6-4.3 55.6-4.3s25.8.5 55.6 4.3c28.1 3.7 43.2 9.6 48.9 17.3 10.4 13.8-5.1 28.4-18.2 30.2zm111.7-85.2c-2.5 11.2-25.6 14.9-28 14.9s-6.5-3.9-11.2-3.8c-4.7.2-24.6 1.2-34.5 1.2-5.5 0-13.8-1.3-20-2.4-3.5-.6-4.5-5.1-1.7-7.2 7.1-5.2 19.6-12.9 36.9-17.8 26.1-7.4 40.8-8.4 55.3-7.9 2 .1 3.6 1.5 3.8 3.5.5 4.3 1.1 12-.6 19.5z\"}}]})(props);\n};\nexport function IoLogoNoSmoking (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M360 256h16v48h-16zM112 304h129.6l-48-48H112z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M364.5 60.1c-.4-.2-.7-.4-1-.6-10.9-6-22.5-10.7-34.4-14.8l-5.4-1.8C302.3 36.1 279.6 32 256 32 132.3 32 32 132.3 32 256c0 84.3 46.6 157.6 115.4 195.8.4.2.7.5 1.1.7 10.9 6 22.5 10.7 34.4 14.8l5.4 1.8c21.4 6.8 44 10.9 67.7 10.9 123.7 0 224-100.3 224-224 0-84.3-46.6-157.7-115.5-195.9zM256 426.4c-9.3 0-18.4-.9-27.2-2.4-9.8-1.6-19.3-4.1-28.5-7.3-1.9-.6-3.8-1.2-5.6-1.9-6.5-2.5-12.9-5.3-19-8.6-53.6-28.7-90.1-85.2-90.1-150.3 0-37.2 12.4-71.4 32.7-99.4l237.2 237.2c-28.1 20.3-62.3 32.7-99.5 32.7zm137.8-71L156.6 118.2c28-20.2 62.1-32.6 99.4-32.6 9.3 0 18.3.9 27.2 2.4 9.8 1.6 19.3 4.1 28.5 7.3 1.8.6 3.7 1.2 5.6 1.9 6.2 2.4 12.2 5 18 8.1 54.2 28.5 91.2 85.3 91.2 150.8-.1 37.2-12.5 71.3-32.7 99.3z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M352 256h-34l34 34zM384 256h16v48h-16zM360.1 212.7c-8.8-4.1-22-5.7-45.6-5.7h-3.6c-12.7.1-15.9-.1-20-6.1-2.8-4.2-1-14.8 3.7-21.9 1.6-2.4 1.8-5.6.4-8.2-1.4-2.6-4.1-4.2-7-4.3-.1 0-9.4-.1-18.3-3.9-10.6-4.5-15.6-12.1-15.6-23.1 0-25.8 21.8-27.7 22.8-27.7v-16c-12 0-38.8 11-38.8 43.7 0 17.5 9 31 25.7 38 4.2 1.7 8.4 2.9 12 3.6-3.3 9.8-3.6 20.9 1.7 28.7 9 13.3 20.3 13.2 33.3 13.1h3.5c26.3 0 34.6 2.3 38.9 4.3 5.7 2.6 6.8 7.5 6.6 15.7v1h16v-1c0-7.1.3-22.8-15.7-30.2z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M400 244c0-25.7-3-39.2-9.1-49.6C382.3 180 368.5 172 352 172h-17.4c2.9-8.3 5.4-19.8 3.5-30.9-3.2-18.8-19.1-30-43.1-30v16c21 0 26.1 9.1 27.4 16.7 2.5 14.5-6.8 32.1-6.9 32.3-1.4 2.5-1.3 5.5.1 7.9s4.1 3.9 6.9 3.9H352c10.9 0 19.4 4.9 25.1 14.6 3.1 5.3 6.9 13.5 6.9 41.4h16v.1z\"}}]})(props);\n};\nexport function IoLogoNodejs (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M255.917 480a32.536 32.536 0 0 1-16.633-4.599l-52.985-32.44c-7.914-4.562-4.023-6.203-1.443-7.141 10.565-3.781 13.713-5.657 24.947-12.285 1.206-.667 2.747-.424 3.955.322l39.71 23.504c1.476.85 3.557.85 4.931 0l155.188-92.246c1.475-.877 2.415-2.646 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0-33.135 26.996-52.49 72.234-52.49 46.128 0 76.462 14 79.173 50.829.102 1.337-.368 2.629-1.241 3.644-.871.965-2.078 1.527-3.353 1.527h-20.591c-2.146 0-4.024-1.562-4.459-3.713-4.401-16.953-16.97-23.402-49.563-23.402-36.486 0-40.746 12.753-40.746 22.607 0 11.963 5.031 15.441 54.294 22.172 48.761 6.663 71.933 16.117 71.933 51.552 0 35.781-28.808 58.783-79.075 58.783l.035.001z\"}}]})(props);\n};\nexport function IoLogoNpm (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M227.6 213.1H256v57.1h-28.4z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M0 156v171.4h142.2V356H256v-28.6h256V156H0zm142.2 142.9h-28.4v-85.7H85.3v85.7H28.4V184.6h113.8v114.3zm142.2 0h-56.9v28.6h-56.9V184.6h113.8v114.3zm199.2 0h-28.4v-85.7h-28.4v85.7h-28.4v-85.7H370v85.7h-56.9V184.6h170.7v114.3z\"}}]})(props);\n};\nexport function IoLogoOctocat (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M178.4 287.5c-9.1 0-16.9 4.2-23.2 12.8-6.3 8.5-9.4 19-9.4 31.4 0 12.5 3.2 23 9.4 31.5 6.3 8.5 14 12.8 23.2 12.8 8.5 0 15.9-4.3 22.1-12.8 6.3-8.5 9.4-19 9.4-31.5 0-12.4-3.2-22.9-9.4-31.4-6.3-8.6-13.6-12.8-22.1-12.8zM334.7 287.5c-9 0-16.9 4.2-23.2 12.8-6.3 8.5-9.4 19-9.4 31.4 0 12.5 3.2 23 9.4 31.5 6.3 8.5 14.1 12.8 23.2 12.8 8.5 0 15.9-4.3 22.2-12.8 6.3-8.5 9.4-19 9.4-31.5 0-12.4-3.2-22.9-9.4-31.4-6.3-8.6-13.6-12.8-22.2-12.8z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M445.8 172c-.1 0 2.7-14.3.3-39.2-2.2-24.9-7.5-47.8-16.1-68.8 0 0-4.4.8-12.8 2.9s-22.1 6.3-40.9 14.8c-18.5 8.5-38 19.8-58.3 33.5-13.8-3.9-34.4-5.9-62-5.9-26.3 0-46.9 2-62 5.9-44.6-30.9-81.9-48-112.1-51.2-8.6 21-13.9 44-16 69-2.4 24.9.4 39.3.4 39.3C42 198.6 32 236.5 32 267.8c0 24.2.7 46.1 6.1 65.5 5.6 19.3 12.7 35.1 21.1 47.2 8.6 12.1 19 22.8 31.6 31.9 12.5 9.3 24 16 34.4 20.2 10.5 4.4 22.4 7.6 36 9.9 13.3 2.4 23.4 3.6 30.5 4 0 0 28 1.5 64.4 1.5s64.3-1.5 64.3-1.5c7-.4 17.1-1.6 30.5-4 13.5-2.3 25.5-5.6 35.9-9.9 10.4-4.3 21.9-10.9 34.5-20.2 12.5-9 22.9-19.7 31.5-31.9 8.4-12.1 15.5-27.9 21.1-47.2 5.5-19.4 6.1-41.4 6.1-65.6 0-30.3-10-68.7-34.2-95.7zm-65.4 233.6c-27.9 13.1-68.9 18.4-123.3 18.4H255c-54.4 0-95.4-5.2-122.8-18.4-27.5-13.1-41.3-40.1-41.3-80.7 0-24.3 8.6-44 25.5-59.1 7.4-6.5 16.4-11 27.6-13.7 11.1-2.6 21.4-2.8 31-2.5 9.4.4 22.6 2.2 39.3 3.5 16.8 1.3 29.3 3 41.8 3 11.7 0 27.2-2 52.1-4 25-2 43.5-3 55.5-1 12.3 2 23 6.2 32.1 14.7 17.7 15.8 26.6 35.5 26.6 59.1-.1 40.6-14.2 67.6-42 80.7z\"}}]})(props);\n};\nexport function IoLogoPinterest (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M256 32C132.3 32 32 132.3 32 256c0 91.7 55.2 170.5 134.1 205.2-.6-15.6-.1-34.4 3.9-51.4 4.3-18.2 28.8-122.1 28.8-122.1s-7.2-14.3-7.2-35.4c0-33.2 19.2-58 43.2-58 20.4 0 30.2 15.3 30.2 33.6 0 20.5-13.1 51.1-19.8 79.5-5.6 23.8 11.9 43.1 35.4 43.1 42.4 0 71-54.5 71-119.1 0-49.1-33.1-85.8-93.2-85.8-67.9 0-110.3 50.7-110.3 107.3 0 19.5 5.8 33.3 14.8 43.9 4.1 4.9 4.7 6.9 3.2 12.5-1.1 4.1-3.5 14-4.6 18-1.5 5.7-6.1 7.7-11.2 5.6-31.3-12.8-45.9-47-45.9-85.6 0-63.6 53.7-139.9 160.1-139.9 85.5 0 141.8 61.9 141.8 128.3 0 87.9-48.9 153.5-120.9 153.5-24.2 0-46.9-13.1-54.7-27.9 0 0-13 51.6-15.8 61.6-4.7 17.3-14 34.5-22.5 48 20.1 5.9 41.4 9.2 63.5 9.2 123.7 0 224-100.3 224-224C480 132.3 379.7 32 256 32z\"}}]})(props);\n};\nexport function IoLogoPlaystation (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M399.8 203c-.8-17.1-3.3-34.5-10.8-50.1-4.1-8.6-9.7-16.5-16.5-23.2-6.3-6.4-13.6-11.7-21.3-16.3-17.1-10.2-37.5-17-84.4-31S192 64 192 64v358.3l79.9 25.7s.1-198.8.1-299.5v-3.8c0-9.3 7.5-16.8 16.1-16.8h.5c8.5 0 15.5 7.5 15.5 16.8V278c11 5.3 29.2 9.3 41.8 9.1 8.3.2 16.7-1.7 24-5.7 7.6-4.1 13.9-10.4 18.4-17.8 5.1-8.3 8.2-17.8 9.9-27.3 1.9-10.8 2-22.1 1.6-33.3zM86.7 357.8c27.4-9.8 89.3-29.5 89.3-29.5v-47.2s-76.5 24.8-111.3 37.1c-8.6 3.1-17.3 5.9-25.7 9.5-9.8 4.1-19.4 8.7-28.1 14.8-3.8 2.6-7.2 5.9-9.2 10.1s-2.2 9.2-.5 13.6c2 5.1 5.8 9.3 10.1 12.6 7.8 5.9 17.1 9.5 26.4 12.2 28.4 9.4 58.4 14 88.4 13.3 14.5-.2 36-1.9 50-4.4v-42s-11 2.5-41.3 12.5c-4.6 1.5-9.2 3.3-14 4.3-7.1 1.6-14.4 2.1-21.6 2.2-6.5-.3-13.2-.7-19.3-3.1-2.2-1-4.6-2.2-5.5-4.6-.8-2 .3-4 1.7-5.4 2.8-2.9 6.8-4.5 10.6-6z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M512 345.9c-.1-6-3.7-11.2-7.9-15-7.1-6.3-15.9-10.3-24.7-13.5-5.5-1.9-9.3-3.3-14.7-5-25.2-8.2-51.9-11.2-78.3-11.3-8 .3-23.1.5-31 1.4-21.9 2.5-67.3 15.4-67.3 15.4v48.8s67.5-21.6 96.5-31.8c9.7-3.3 20.1-4.6 30.3-4.6 6.5.2 13.2.7 19.4 3.1 2.2.9 4.5 2.2 5.5 4.5.9 2.6-.9 5-2.9 6.5-4.7 3.8-10.7 5.3-16.2 7.4-41 14.5-132.7 44.7-132.7 44.7v47s117.2-39.6 170.8-58.8c8.9-3.3 17.9-6.1 26.4-10.4 7.9-4 15.8-8.6 21.8-15.3 3.1-3.6 5-8 5-13.1z\"}}]})(props);\n};\nexport function IoLogoPolymer (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M392.3 96h-77.9L160.8 348.6 109.9 256l87.7-160h-77.9L32 256l87.7 160h77.9l153.7-252.6 50.8 92.6-87.7 160h77.9L480 256 392.3 96z\"}}]})(props);\n};\nexport function IoLogoPython (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M193.46 249.056a65.316 65.316 0 0 1 11.586-1.041l-3.122-.015h103.823c4.503 0 8.806-.617 12.908-1.754 19.37-5.363 33.345-22.537 33.345-43.663v-87.224c0-24.832-21.15-43.484-46.289-47.606-15.931-2.624-39.258-3.827-55.089-3.749-15.829.086-30.981 1.404-44.277 3.749C167.143 74.576 160 88.928 160 115.359V144h96v16H128.82c-35.628 0-64.538 42.571-64.813 95.242-.002.253-.007.505-.007.758 0 9.523.94 18.72 2.685 27.404C74.648 323.07 99.451 352 128.82 352H144v-45.935c0-26.827 20.146-51.733 49.46-57.009zm10.196-122.054c-9.592 0-17.384-7.785-17.384-17.403 0-9.664 7.774-17.52 17.384-17.52 9.574 0 17.399 7.855 17.399 17.52.001 9.618-7.809 17.403-17.399 17.403z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M443.951 222.543C434.78 186.021 411.033 160 383.18 160H368v40.672c0 33.915-22.286 58.474-49.489 62.681a53.943 53.943 0 0 1-8.301.646H206.351a51.41 51.41 0 0 0-13.049 1.672C174.18 270.689 160 286.6 160 307.236v87.227c0 24.832 24.977 39.426 49.481 46.551 29.327 8.531 61.267 10.068 96.366 0C329.15 434.354 352 420.893 352 394.463V368h-96v-16h127.18c25.24 0 47.107-21.365 57.814-52.549C445.474 286.404 448 271.641 448 256c0-11.768-1.433-23.038-4.049-33.457zM307.867 382.82c9.59 0 17.381 7.785 17.381 17.4 0 9.65-7.791 17.521-17.381 17.521-9.577 0-17.399-7.871-17.399-17.521 0-9.63 7.806-17.4 17.399-17.4z\"}}]})(props);\n};\nexport function IoLogoReddit (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 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0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M321.2 396.3c-11.8 0-22.4-2.8-31.5-8.3-6.9-4.1-11.5-9.6-14-16.4-2.6-6.9-3.6-22.3-3.6-46.4V224h96v-64h-96V48h-61.9c-2.7 21.5-7.5 44.7-14.5 58.6-7 13.9-14 25.8-25.6 35.7-11.6 9.9-25.6 17.9-41.9 23.3V224h48v140.4c0 19 2 33.5 5.9 43.5 4 10 11.1 19.5 21.4 28.4 10.3 8.9 22.8 15.7 37.3 20.5 14.6 4.8 31.4 7.2 50.4 7.2 16.7 0 30.3-1.7 44.7-5.1 14.4-3.4 30.5-9.3 48.2-17.6v-65.6c-20.9 13.7-41.8 20.6-62.9 20.6z\"}}]})(props);\n};\nexport function IoLogoTux (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M426.3 396c-6.7-4-13.2-11-12-18.8 2.3-15.3 2.5-21.5-.2-25.8-1.9-3.2-5.5-5-8.6-5.8 2-2.5 3.1-5.4 3.8-10.9 1.3-10-4.7-41-12.7-65.7s-29.9-50-44.7-68c-26-31.8-22.8-39.2-26.3-99.7C323.4 62.8 306.3 32 256 32s-67 32-67 59c0 28.7 2 51 2 51 1.3 33.4 1 39.4-8 55.3-4.9 8.7-27 30-35.7 44.7s-7.6 29.5-24.6 52.8c-12.4 17-13.8 28.4-9.7 44-7 8.2-3.6 19.9-5 24.9-2.6 8.7-13.7 10.3-22.3 11s-15.3 0-18.7 5.3.7 16 4.3 30-7.3 15-7.3 31 30 16 59.7 22.7 40.7 16.3 56 16.3 26.8-10.2 38-19.3c7.2-5.9 29-3.7 42.3-3.7s34.3-.6 45.7 2.4S317 480 345 480s34.7-20.7 61-34.3 42-20 42-29.7-15-16-21.7-20zm-226.5 55.5c-1.3 13-12.6 17.1-24.1 16.1-13-1.1-29-7.6-44.1-12.1s-35.5-7.5-49-9.9c-15.3-2.7 0-13.6-.2-34.2-.1-8-7.1-19.4-4.2-24.7s17.3-2.4 22.3-3.8 12.7-5.7 15.3-11.9c1.4-3.4 1.8-17.7 2.9-22.8 1.1-4.9 7.9-7.2 22.2.1s28.9 38.1 42.3 59.8 17.9 30.4 16.6 43.4zm118.5-65.8c2 10.3 3.2 24.5.7 36.3s-7 15.5-10.7 23c-2.2-6.8 5.3-13.8 4.4-30.8-.5-9.5-.8-7.8-11.5 1.8-12.2 10.8-27.6 20.1-53 22.5-21 2-32.5-8.3-32.5-8.3 5 16-4.3 24.7-4.3 24.7.3-3.7.8-14.3-2.5-21.6-4-9-9.3-18.7-9.3-18.7s8.6-2.7 11.6-10 2-17.3-8.7-27.7-52.5-37.6-55.9-42.1c-4.9-6.5-6.7-10.2-7-23.2s5.4-24.8 4.3-20.3c-.8 3.2.1 6.8.1 19.8s7.6 23.3 13.9 25c9.5 2.6 2-26.1 8-53.1s11.7-32.8 19.2-43.8 19.2-20.5 17-43.1-.1-20.1 5.1-11.8c4 6.5 13.3 24 24.7 22 19.4-3.3 43.9-24.6 47.6-28.2 3.7-3.6.7-7.1-2.3-5.8-15.5 6.7-44.3 21.5-51.5 18.2s-18.1-20.6-16.8-19.5c15.4 13.6 19.9 11.1 26.4 9 8.4-2.8 12.8-4.3 28.5-11.3s20.7-5.3 22.3-8.7-.4-6.7-4.7-5.7c-6.4 1.5-3.4 5.1-22.7 12.3-25.3 9.5-33.3 10.3-44 3-8.6-5.9-15-12.7-15-16.7s8.3-8.3 12.3-11.3 12.3-10.9 12.3-10.9 1-7.2-.6-12.7c-1.9-6.5-7.8-9.3-11.9-8.1-4.1 1.1-8 5.5-6.8 14.8 1 8.3 7 11 7 11s-2.7 3.5-5.2 4.7c0 0-.8-.3-3.5-6.3s-6.6-19.5-.3-31.1 19.6-5.2 23.8 3.8c3.9 8.3 2.4 22.7 2.4 22.7 6-2.2 13-2 21 3.5-7.1-29.8 9.5-41.1 22-41.1s22.3 9.6 22.3 25c0 12-3.5 18.2-6.9 22-4.1-.5-8.2-1.5-6.3-3.4 1.3-1.4 4.4-5.7 4.4-13.2s-5.9-13.7-13.7-13.7c-9.2 0-12.6 8.3-13.7 13s-.4 8.6-.2 10.4c.6 5 10.9 9.6 23.9 12.9s11.3 9 8.3 25.3 6.3 18.3 14.3 33.8 5.7 21.8 15.9 35.2 19 47.8 16.4 76.8c-.9 10.5-3.9 10.2 7.3 6.7 5.6-1.7 12-2.7 12-2.7 3.1-6.3 3.4-16.3 3.5-22.3.2-13.5.7-41.5-26.7-71.5 0 0 29.5 21.7 34 62 2.5 22.3-2 32.4-2 32.4 5.3 1.3 9.8 7.3 12.6 11.8 3.7 6.1-3.9-5.8-20-5.8-8.5 0-15.3 3.9-18.5 7.9s-3.1 7.6-3.2 11.7c-7.1-1.2-12.4 0-16.8 4.9-5.6 7-2.8 24.2-.8 34.6zm90.1 47.2c-24.1 10.4-32.7 23.5-47.7 31.5s-27.7 2.3-33.7-8 10.4-28.2 4.7-59.6c-4.4-24.2-6.3-31-4.9-36.8 1.4-5.5 9.4-4.4 11.5-3.9 1.3 5.4 6.7 19.5 27 19.5 0 0 23.2 2.6 32.7-21.2 0 0 5.7-.2 7.2 3.5 2.3 5.8-2.9 16.5-2.8 21.3.3 15.7 11.7 21.1 28.4 32 8.2 5.6 2.1 11.1-22.4 21.7z\"}}]})(props);\n};\nexport function IoLogoTwitch (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M80 32l-32 80v304h96v64h64l64-64h80l112-112V32H80zm336 256l-64 64h-96.001L192 416v-64h-80V80h304v208z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M320 143h48v129h-48zM208 143h48v129h-48z\"}}]})(props);\n};\nexport function IoLogoTwitter (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M492 109.5c-17.4 7.7-36 12.9-55.6 15.3 20-12 35.4-31 42.6-53.6-18.7 11.1-39.4 19.2-61.5 23.5C399.8 75.8 374.6 64 346.8 64c-53.5 0-96.8 43.4-96.8 96.9 0 7.6.8 15 2.5 22.1-80.5-4-151.9-42.6-199.6-101.3-8.3 14.3-13.1 31-13.1 48.7 0 33.6 17.2 63.3 43.2 80.7-16-.4-31-4.8-44-12.1v1.2c0 47 33.4 86.1 77.7 95-8.1 2.2-16.7 3.4-25.5 3.4-6.2 0-12.3-.6-18.2-1.8 12.3 38.5 48.1 66.5 90.5 67.3-33.1 26-74.9 41.5-120.3 41.5-7.8 0-15.5-.5-23.1-1.4C62.8 432 113.7 448 168.3 448 346.6 448 444 300.3 444 172.2c0-4.2-.1-8.4-.3-12.5C462.6 146 479 129 492 109.5z\"}}]})(props);\n};\nexport function IoLogoUsd (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M411.387 303.256c-3.119-9.577-7.891-18.561-14.301-26.952-6.422-8.382-14.396-15.826-23.93-22.331-9.539-6.498-20.721-11.63-33.553-15.4-5.143-1.363-14.189-3.506-26.104-6.418-8.516-2.074-16.5-4.2-25.5-6.367V120.065c9 2.396 15.252 6.202 21.926 10.43C324.204 139.535 333.157 155 335.78 176h69.174c-.654-18-4.65-32.76-11.996-46.02-8.07-14.543-18.977-27.024-32.73-36.956-13.75-9.922-30.225-17.49-48.377-22.455C303.967 68.416 297 66.605 288 65.386V32h-64v33.167c-7 1.044-15.148 2.445-22.426 4.25-17.242 4.283-32.388 10.868-45.951 19.764-13.571 8.905-24.352 20.112-32.604 33.627-8.251 13.523-12.312 29.52-12.312 48 0 9.585 1.407 18.993 4.157 28.235 2.752 9.241 7.442 17.967 14.042 26.181 6.603 8.214 15.495 15.658 26.687 22.332 11.183 6.672 24.705 12.064 41.576 16.171 9.287 2.345 18.83 4.534 26.83 6.576v119.586c-11-2.919-21.889-7.399-30.678-13.479-9.17-6.327-16.066-13.953-21.198-23.884-4.779-9.229-7.073-20.526-7.407-32.526H96c.695 21 5.25 39.494 13.672 55.371 8.799 16.604 20.533 29.96 35.204 40.562 14.662 10.613 31.393 18.356 51.198 23.491 8.885 2.304 18.926 3.96 27.926 5.23V480h64v-34.54c10-1.069 18.957-2.69 28.527-4.879 18.701-4.273 35.645-11.036 50.316-20.276 14.662-9.24 26.621-21.128 35.611-35.681 8.98-14.541 13.545-32.085 13.545-52.619.001-9.578-1.501-19.164-4.612-28.749zM224 209.699c-12-3.743-23.912-9.088-32.051-16.048-8.621-7.355-12.673-17.534-12.673-30.545 0-9.241 2.414-16.94 7.004-23.102 4.58-6.161 9.912-11.038 16.88-14.631 6.18-3.189 13.84-5.565 20.84-7.138v91.464zm118.902 149.772c-2.939 6.673-7.699 12.576-14.303 17.711-6.602 5.133-15.744 9.328-26.377 12.577-4.5 1.378-8.223 2.444-14.223 3.236v-107.11c10 2.624 18.18 5.332 26.326 8.131 8.062 2.744 15.748 7.443 22.537 14.116 6.785 6.676 10.309 17.03 10.309 31.06.001 6.85-1.337 13.605-4.269 20.279z\"}}]})(props);\n};\nexport function IoLogoVimeo (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M476.9 114c-5-23.4-17.5-38.8-40.6-46.3s-64.9-4.5-94.1 16.8c-29.9 21.8-47.6 59.7-53.8 83.8 14.7-6.3 24-7.7 39-6.9s24.5 12 24.9 25.3c.3 9.8-.2 18.7-3.6 27.7-10.8 28.7-27.7 56.5-47.6 80.8-2.9 3.6-6.4 6.9-10 9.9-10.2 8.3-18.8 6.1-25.4-5.2-5.4-9.3-9-18.9-12.2-29.1-12.4-39.7-16.8-80.9-23.8-121.6-3.3-19.5-7-39.8-18-56.9-11.6-17.8-28.6-24.6-50-22-14.7 1.8-36.9 17.5-47.8 26.4 0 0-56 46.9-81.8 71.4l21.2 27s17.9-12.5 27.5-18.3c5.7-3.4 12.4-4.1 17.2.2 4.5 3.9 9.6 9 12.3 14.1 5.7 10.7 11.2 21.9 14.7 33.4 13.2 44.3 25.5 88.7 37.8 133.3 6.3 22.8 13.9 44.2 28 63.6 19.3 26.6 39.6 32.7 70.9 21.5 25.4-9.1 46.6-26.2 66-43.9 33.1-30.2 59.1-65.4 85.5-101.2 20.4-27.7 37.3-55.7 51.4-87 13.9-31 19.4-63.5 12.3-96.8z\"}}]})(props);\n};\nexport function IoLogoVk (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M427 299.1c-8.6-8-15.7-12.8-18.5-20.5-1-2.7-1.3-4.3-1-7.6.4-6 5.5-13.8 39.6-58.9 14.2-18.8 32.7-41.5 32.7-58.5 0-11-4.5-13.7-20.8-13.7h-74c-6.5 0-10.9 8.9-13.6 16.4-2.8 7.5-8.2 19-21.4 43.8-13.8 26-32.3 48.8-40 52.4-2.2 1-3.6 1-5.5.8-1.2-.1-3.8-.8-6.2-3.7-2.3-2.8-5.9-7.7-4.5-53.9.8-25.8 3.7-43.8-1.7-54.8-1.1-2.2-3.5-4.5-4.8-5.5-7.7-5.5-29.4-7.5-48-7.5s-32.9 2.1-40 4.2c-7.1 2.1-15.1 6.9-18.9 12-2.5 3.3 4.3 1.6 10.9 4.6 4 1.8 9.3 4.6 11.2 9.3 8 20.8 9.7 37.3 5.3 66.7-1.1 7.2-2.3 18.5-6.6 25.5-2.4 3.9-7.9 3.6-9.5 3.1-16.1-4.9-28.6-26-41.2-50.7-13.1-25.8-19.8-43.9-23.4-51.3s-9.1-11.4-18.4-11.4H42.3c-5.2 0-9.9 4.3-9.9 9 0 11 18.6 43 29.8 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11.486-6.352 15.232-6.413 4.428-.072 7.296-.132 10.573-.011 3.274.124 8.192-.685 12.45 10.639 4.256 11.323 14.443 39.153 15.746 41.989 1.302 2.839 2.108 6.126.102 9.771-2.012 3.653-3.042 5.935-5.961 9.083-2.935 3.148-6.174 7.042-8.792 9.449-2.92 2.665-5.97 5.572-2.9 11.269 3.068 5.693 13.653 24.356 29.779 39.736 20.725 19.771 38.598 26.329 44.098 29.317 5.515 3.004 8.806 2.67 12.226-.929 3.404-3.599 14.639-15.746 18.596-21.169 3.955-5.438 7.661-4.373 12.742-2.329 5.078 2.052 32.157 16.556 37.673 19.551 5.51 2.989 9.193 4.529 10.51 6.9 1.317 2.38.901 13.531-4.271 26.359z\"}}]})(props);\n};\nexport function IoLogoWindows (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M480 265H232v179l248 36V265zM216 265H32v150l184 26.7V265zM480 32L232 67.4V249h248V32zM216 69.7L32 96v153h184V69.7z\"}}]})(props);\n};\nexport function IoLogoWordpress (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M259 271.3L226.2 367h-.1l-25.4 73.1c1.8.5 3.5.9 5.3 1.4h.3c15.8 4.2 32.4 6.5 49.5 6.5 8.5 0 16.8-.5 24.9-1.8 11.2-1.4 22-3.8 32.5-7.1 2.6-.8 5.2-1.7 7.8-2.6-2.8-6-8.8-19.3-9.1-19.9L259 271.3zM80.8 180.5C70.8 203.1 64 230.9 64 256c0 6.3.3 12.6.9 18.8 6.9 71.2 52.9 131 116.1 157.9 2.6 1.1 5.3 2.2 8 3.2L96 180.6c-8-.3-9.5.2-15.2-.1z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M430.2 175.4c-4.3-9.3-9.4-18.2-15.1-26.6-1.6-2.4-3.4-4.8-5.1-7.2-21.5-28.8-50.8-51.4-84.9-64.6-21.4-8.4-44.8-13-69.2-13-60.3 0-114.2 28-149.4 71.7-6.5 8-12.3 16.6-17.5 25.6 14.2.1 31.8.1 33.8.1 18.1 0 46-2.2 46-2.2 9.4-.6 10.4 13.1 1.1 14.2 0 0-9.4 1.1-19.8 1.6L213 362l37.8-113.3-26.8-73.6c-9.4-.5-18.1-1.6-18.1-1.6-9.4-.5-8.2-14.8 1-14.2 0 0 28.5 2.2 45.5 2.2 18.1 0 46-2.2 46-2.2 9.3-.6 10.5 13.1 1.1 14.2 0 0-9.3 1.1-19.7 1.6l62.3 185.6 17.3-57.6c8.7-22.4 13.1-40.9 13.1-55.7 0-21.3-7.7-36.1-14.3-47.6-8.7-14.3-16.9-26.3-16.9-40.4 0-15.9 12-30.7 29-30.7h2.2c26.2-.7 34.8 25.3 35.9 43v.6c.4 7.2.1 12.5.1 18.8 0 17.4-3.3 37.1-13.1 61.8l-39 112.8-22.3 65.7c1.8-.8 3.5-1.6 5.3-2.5 56.7-27.4 98-82 106.7-146.7 1.3-8.5 1.9-17.2 1.9-26 0-28.9-6.4-56.3-17.8-80.8z\"}}]})(props);\n};\nexport function IoLogoXbox (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M126.8 248.3c39.7-58.6 77.9-92.8 77.9-92.8s-42.1-48.9-92.8-67.4l-3.3-.8C61.7 128.4 32 188.7 32 256c0 50.7 16.9 97.5 45.2 135 0-4.4.6-70.3 49.6-142.7zM480 256c0-67.3-29.7-127.6-76.6-168.7l-3.2.9c-50.7 18.5-92.9 67.4-92.9 67.4s38.2 34.2 77.9 92.8c49 72.4 49.6 138.3 49.5 142.7C463.2 353.5 480 306.7 480 256zM201.2 80.9c29.3 13.1 54.6 34.6 54.6 34.6s25.5-21.4 54.8-34.6c36.8-16.5 64.9-11.3 72.3-9.5C346.8 46.6 303.1 32 256 32s-90.8 14.6-126.9 39.4c7.2-1.8 35.2-7.1 72.1 9.5zM358.7 292.9C312.4 236 255.8 199 255.8 199s-56.3 37-102.7 93.9c-39.8 48.9-54.6 84.8-62.6 107.8l-1.3 4.8c41 45.7 100.5 74.5 166.8 74.5s125.8-28.8 166.8-74.5l-1.4-4.8c-8-23-22.9-58.9-62.7-107.8z\"}}]})(props);\n};\nexport function IoLogoXing (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M313.8 303.9L469 32H365L209.4 303.8c-.4.7-.4 1.1 0 1.7l98.9 173.8c.4.7.8.7 1.6.7H413l-99.3-174.7c-.2-.3-.1-1 .1-1.4zM221.9 216.2L163 113c-.5-.8-1-1-2-1H65l58.9 104.4c.1.2.2.6.1.8L43 352h96.8c.8 0 1.2-.2 1.6-.9l80.5-133.7c.1-.3.1-.9 0-1.2z\"}}]})(props);\n};\nexport function IoLogoYahoo (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M384.6 68.4c-11.3 0-22.5-.8-32.6-4.4l-96 160-96-160c-10.1 3.6-20.7 4.4-32 4.4-11.1 0-22.1-.9-32-4.4l128 212.7V448c10-3.5 20.8-4.4 32-4.4s22 .9 32 4.4V277L416 64c-9.9 3.4-20.3 4.4-31.4 4.4z\"}}]})(props);\n};\nexport function IoLogoYen (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M448 32h-80L256 253.128 144 32H64l112.368 208H128v48h73.564L216 319v17h-88v48h88v96h80v-96h88v-48h-88v-17l14.891-31H384v-48h-48.289L448 32z\"}}]})(props);\n};\nexport function IoLogoYoutube (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M508.6 148.8c0-45-33.1-81.2-74-81.2C379.2 65 322.7 64 265 64h-18c-57.6 0-114.2 1-169.6 3.6C36.6 67.6 3.5 104 3.5 149 1 184.6-.1 220.2 0 255.8c-.1 35.6 1 71.2 3.4 106.9 0 45 33.1 81.5 73.9 81.5 58.2 2.7 117.9 3.9 178.6 3.8 60.8.2 120.3-1 178.6-3.8 40.9 0 74-36.5 74-81.5 2.4-35.7 3.5-71.3 3.4-107 .2-35.6-.9-71.2-3.3-106.9zM207 353.9V157.4l145 98.2-145 98.3z\"}}]})(props);\n};\nexport function IoMdAddCircleOutline (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M363 277h-86v86h-42v-86h-86v-42h86v-86h42v86h86v42z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M256 90c44.3 0 86 17.3 117.4 48.6C404.7 170 422 211.7 422 256s-17.3 86-48.6 117.4C342 404.7 300.3 422 256 422c-44.3 0-86-17.3-117.4-48.6C107.3 342 90 300.3 90 256c0-44.3 17.3-86 48.6-117.4C170 107.3 211.7 90 256 90m0-42C141.1 48 48 141.1 48 256s93.1 208 208 208 208-93.1 208-208S370.9 48 256 48z\"}}]})(props);\n};\nexport function IoMdAddCircle (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M256 48C141.125 48 48 141.125 48 256s93.125 208 208 208 208-93.125 208-208S370.875 48 256 48zm107 229h-86v86h-42v-86h-86v-42h86v-86h42v86h86v42z\"}}]})(props);\n};\nexport function IoMdAdd (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M416 277.333H277.333V416h-42.666V277.333H96v-42.666h138.667V96h42.666v138.667H416v42.666z\"}}]})(props);\n};\nexport function IoMdAirplane (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M448 336v-40L288 192V79.2c0-17.7-14.8-31.2-32-31.2s-32 13.5-32 31.2V192L64 296v40l160-48v113.6l-48 31.2V464l80-16 80 16v-31.2l-48-31.2V288l160 48z\"}}]})(props);\n};\nexport function IoMdAlarm (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M470 124.837l-98.443-81.78-27.814 32.931 98.442 81.769L470 124.837zM167.192 74.919L139.366 42 42 124.837l27.814 32.919 97.378-82.837zm99.509 97.709H234.6v127.446l101.649 60.539L352.3 334.06l-85.6-49.917V172.628zM256 87.665c-107 0-192.601 86.021-192.601 191.166C63.399 383.98 149 470 256 470c105.936 0 192.601-86.02 192.601-191.169 0-105.144-86.665-191.166-192.601-191.166zm0 339.855c-82.393 0-149.8-66.906-149.8-148.688 0-81.777 67.407-148.684 149.8-148.684 82.394 0 149.8 66.906 149.8 148.684 0 82.839-67.406 148.688-149.8 148.688z\"}}]})(props);\n};\nexport function IoMdAlbums (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M154.7 464h266.7c23.5 0 42.7-19.2 42.7-42.7V154.7c0-23.5-19.2-42.7-42.7-42.7H154.7c-23.5 0-42.7 19.2-42.7 42.7v266.7c0 23.4 19.2 42.6 42.7 42.6z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M90.7 48h266.7c23.5 0 42.7 19.2 42.7 42.7V96H138.7C115.2 96 96 115.2 96 138.7V400h-5.3C67.2 400 48 380.8 48 357.3V90.7C48 67.2 67.2 48 90.7 48z\"}}]})(props);\n};\nexport function IoMdAlert (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M256 48C141.6 48 48 141.601 48 256s93.6 208 208 208 208-93.601 208-208S370.4 48 256 48zm24 312h-48v-40h48v40zm0-88h-48V144h48v128z\"}}]})(props);\n};\nexport function IoMdAmericanFootball (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M32 256c14.1 35 36.2 66 64 90.6V165.4C68.2 190 46.1 221 32 256zM480 256c-14.1-35-36.2-66-64-90.6v181.2c27.8-24.6 49.9-55.6 64-90.6z\"}},{\"tag\":\"g\",\"attr\":{},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M256 105c-47.1 0-91 13.4-128 36.5v228.9c37 23.1 80.9 36.5 128 36.5s91-13.4 128-36.5V141.5c-37-23.1-80.9-36.5-128-36.5zm96 135v64h-32v-32h-48v32h-32v-32h-48v32h-32v-96h32v32h48v-32h32v32h48v-32h32v32z\"}}]}]})(props);\n};\nexport function IoMdAnalytics (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M379.4 178.3l-87.2 133.4C299 320 303 330.5 303 342c0 26.5-21.5 48-48 48s-48-21.5-48-48c0-3 .3-6 .8-8.9l-57.6-33.5c-8.6 8.3-20.3 13.4-33.3 13.4-8.6 0-16.6-2.3-23.6-6.2L32 364.2v57.2c0 23.5 19.2 42.7 42.7 42.7h362.7c23.5 0 42.7-19.2 42.7-42.7V208.8l-58.6-38.9c-8.1 6.3-18.3 10.1-29.4 10.1-4.4 0-8.7-.6-12.7-1.7z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M117 217c26.5 0 48 21.5 48 48 0 2.1-.2 4.2-.4 6.2l60.1 33.6c8.3-6.8 18.8-10.8 30.4-10.8 3.6 0 7.1.4 10.4 1.1l87.4-135.4c-5.6-7.8-8.9-17.4-8.9-27.8 0-26.5 21.5-48 48-48s48 21.5 48 48c0 3.9-.5 7.7-1.3 11.3l41.3 27.6V90.7c0-23.5-19.2-42.7-42.7-42.7H74.7C51.2 48 32 67.2 32 90.7V320l40-38.3c-1.9-5.2-3-10.8-3-16.7 0-26.5 21.5-48 48-48z\"}}]})(props);\n};\nexport function IoMdAperture (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M256 32C132.288 32 32 132.288 32 256s100.288 224 224 224 224-100.288 224-224S379.712 32 256 32zm135.765 359.765C355.5 428.028 307.285 448 256 448s-99.5-19.972-135.765-56.235C83.972 355.5 64 307.285 64 256s19.972-99.5 56.235-135.765C156.5 83.972 204.715 64 256 64s99.5 19.972 135.765 56.235C428.028 156.5 448 204.715 448 256s-19.972 99.5-56.235 135.765z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M200.043 106.067c-40.631 15.171-73.434 46.382-90.717 85.933H256l-55.957-85.933zM412.797 288A160.723 160.723 0 0 0 416 256c0-36.624-12.314-70.367-33.016-97.334L311 288h101.797zM359.973 134.395C332.007 110.461 295.694 96 256 96c-7.966 0-15.794.591-23.448 1.715L310.852 224l49.121-89.605zM99.204 224A160.65 160.65 0 0 0 96 256c0 36.639 12.324 70.394 33.041 97.366L201 224H99.204zM311.959 405.932c40.631-15.171 73.433-46.382 90.715-85.932H256l55.959 85.932zM152.046 377.621C180.009 401.545 216.314 416 256 416c7.969 0 15.799-.592 23.456-1.716L201.164 288l-49.118 89.621z\"}}]})(props);\n};\nexport function IoMdApps (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M96 176h80V96H96v80zm120 240h80v-80h-80v80zm-120 0h80v-80H96v80zm0-120h80v-80H96v80zm120 0h80v-80h-80v80zM336 96v80h80V96h-80zm-120 80h80V96h-80v80zm120 120h80v-80h-80v80zm0 120h80v-80h-80v80z\"}}]})(props);\n};\nexport function IoMdAppstore (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M464 152H360c0-57-46.562-103.859-104-103.859S152 95 152 152H48c18.688 216 13 312 13 312h389.999c-.001 0-5.688-98 13.001-312zM256 74.105c43.008 0 77.999 34.895 77.999 77.895H178c0-43 34.991-77.895 78-77.895zM204 397.64V228.867l142.999 84.387L204 397.64z\"}}]})(props);\n};\nexport function IoMdArchive (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M453.594 100.001l-32.353-39.299C415.469 52.627 405.083 48 394.664 48H117.335c-10.416 0-20.801 4.627-26.576 12.702l-32.351 39.299C51.468 106.923 48 117.335 48 128.886v288.89C48 443.2 68.8 464 94.225 464h323.553C443.202 464 464 443.2 464 417.775v-288.89c0-11.55-3.463-21.962-10.406-28.884zM256 383.109L128.89 256h80.89v-46.224h92.443V256h80.89L256 383.109zM96.534 94.221L115.02 71.11h277.331l21.965 23.111H96.534z\"}}]})(props);\n};\nexport function IoMdArrowBack (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M427 234.625H167.296l119.702-119.702L256 85 85 256l171 171 29.922-29.924-118.626-119.701H427v-42.75z\"}}]})(props);\n};\nexport function IoMdArrowDown (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M277.375 85v259.704l119.702-119.702L427 256 256 427 85 256l29.924-29.922 119.701 118.626V85h42.75z\"}}]})(props);\n};\nexport function IoMdArrowDropdownCircle (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M256 48C141.125 48 48 141.125 48 256s93.125 208 208 208 208-93.125 208-208S370.875 48 256 48zm0 272l-96-96h192l-96 96z\"}}]})(props);\n};\nexport function IoMdArrowDropdown (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M128 192l128 128 128-128z\"}}]})(props);\n};\nexport function IoMdArrowDropleftCircle (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M464 256c0-114.875-93.125-208-208-208S48 141.125 48 256s93.125 208 208 208 208-93.125 208-208zm-272 0l96-96v192l-96-96z\"}}]})(props);\n};\nexport function IoMdArrowDropleft (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M320 128L192 256l128 128z\"}}]})(props);\n};\nexport function IoMdArrowDroprightCircle (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M256 464c114.875 0 208-93.125 208-208S370.875 48 256 48 48 141.125 48 256s93.125 208 208 208zm-32-112V160l96 96-96 96z\"}}]})(props);\n};\nexport function IoMdArrowDropright (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M192 128l128 128-128 128z\"}}]})(props);\n};\nexport function IoMdArrowDropupCircle (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M464 256c0-114.875-93.125-208-208-208S48 141.125 48 256s93.125 208 208 208 208-93.125 208-208zm-112 32H160l96-96 96 96z\"}}]})(props);\n};\nexport function IoMdArrowDropup (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M128 320l128-128 128 128z\"}}]})(props);\n};\nexport function IoMdArrowForward (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M85 277.375h259.704L225.002 397.077 256 427l171-171L256 85l-29.922 29.924 118.626 119.701H85v42.75z\"}}]})(props);\n};\nexport function IoMdArrowRoundBack (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M401.4 224h-214l83-79.4c11.9-12.5 11.9-32.7 0-45.2s-31.2-12.5-43.2 0L89 233.4c-6 5.8-9 13.7-9 22.4v.4c0 8.7 3 16.6 9 22.4l138.1 134c12 12.5 31.3 12.5 43.2 0 11.9-12.5 11.9-32.7 0-45.2l-83-79.4h214c16.9 0 30.6-14.3 30.6-32 .1-18-13.6-32-30.5-32z\"}}]})(props);\n};\nexport function IoMdArrowRoundDown (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M99.4 284.9l134 138.1c5.8 6 13.7 9 22.4 9h.4c8.7 0 16.6-3 22.4-9l134-138.1c12.5-12 12.5-31.3 0-43.2-12.5-11.9-32.7-11.9-45.2 0l-79.4 83v-214c0-16.9-14.3-30.6-32-30.6-18 0-32 13.7-32 30.6v214l-79.4-83c-12.5-11.9-32.7-11.9-45.2 0s-12.5 31.2 0 43.2z\"}}]})(props);\n};\nexport function IoMdArrowRoundForward (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M284.9 412.6l138.1-134c6-5.8 9-13.7 9-22.4v-.4c0-8.7-3-16.6-9-22.4l-138.1-134c-12-12.5-31.3-12.5-43.2 0-11.9 12.5-11.9 32.7 0 45.2l83 79.4h-214c-17 0-30.7 14.3-30.7 32 0 18 13.7 32 30.6 32h214l-83 79.4c-11.9 12.5-11.9 32.7 0 45.2 12 12.5 31.3 12.5 43.3 0z\"}}]})(props);\n};\nexport function IoMdArrowRoundUp (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M412.6 227.1L278.6 89c-5.8-6-13.7-9-22.4-9h-.4c-8.7 0-16.6 3-22.4 9l-134 138.1c-12.5 12-12.5 31.3 0 43.2 12.5 11.9 32.7 11.9 45.2 0l79.4-83v214c0 16.9 14.3 30.6 32 30.6 18 0 32-13.7 32-30.6v-214l79.4 83c12.5 11.9 32.7 11.9 45.2 0s12.5-31.2 0-43.2z\"}}]})(props);\n};\nexport function IoMdArrowUp (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M277.375 427V167.296l119.702 119.702L427 256 256 85 85 256l29.924 29.922 119.701-118.626V427h42.75z\"}}]})(props);\n};\nexport function IoMdAt (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M265.6 212.3c-10.5 0-18.5 4.4-24 13.2-5.5 8.8-9.1 22-10.8 39.6-.9 11.7 0 20.5 2.7 26.5s7.1 9 13.1 9c5.5 0 10.3-1.5 14.6-4.4 4.3-2.9 8.1-8.3 11.3-16.2l6.1-66c-2.2-.5-4.4-.9-6.5-1.2-2.3-.4-4.4-.5-6.5-.5z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M256 48C141.1 48 48 141.1 48 256s93.1 208 208 208 208-93.1 208-208S370.9 48 256 48zm127.8 201.9c-.9 21.4-7.6 39.9-20 55.6-12.4 15.6-31 23.4-55.6 23.4-8.2 0-15.3-2.2-21.2-6.6-6-4.4-10.2-10.7-12.6-18.8-4.1 8.3-9.4 14.5-15.7 18.6-6.3 4.1-13.7 6.2-22.2 6.2-15.1 0-26.6-5.8-34.6-17.3s-10.9-26.8-8.8-45.9c2.6-24.4 10-44 22.2-58.7 12.2-14.7 27-22 44.4-22 12.2 0 22.1 1.3 29.5 3.8 7.4 2.5 15.6 5.7 24.5 11l-.5-.1h.8l-7.7 83.4c-.5 8.5.1 14.6 1.7 17.8 1.7 3.2 3.9 4.9 6.7 4.9 11.3 0 20.4-5.1 27.2-15.6 6.8-10.5 10.6-23.6 11.4-39.6 1.6-33-5.1-58.7-20.2-77.1-15.1-18.4-38.3-27.7-69.7-27.7-30.5 0-54.8 9.9-72.8 29.8s-27.7 46.9-29.3 81.2c-1.7 33.4 5.6 59.8 21.9 79.1 16.3 19.4 39.7 29.1 70.3 29.1 8.5 0 17.3-.9 26.5-2.7 9.1-1.8 17.1-4.1 23.7-6.8l5.8 24.2c-6.8 4.1-15.4 7.3-25.9 9.6-10.5 2.3-20.7 3.4-30.7 3.4-40.8 0-72.3-12.1-94.3-36.4-22-24.2-32.2-57.4-30.5-99.6 1.8-41.8 14.9-74.9 39.1-99.4 24.3-24.5 56.5-36.7 96.7-36.7 39.5 0 69.8 11.6 90.7 34.7 21.2 23.2 30.8 54.9 29.2 95.2z\"}}]})(props);\n};\nexport function IoMdAttach (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M341.334 128v234.666C341.334 409.604 302.938 448 256 448c-46.937 0-85.333-38.396-85.333-85.334V117.334C170.667 87.469 194.135 64 224 64c29.864 0 53.333 23.469 53.333 53.334v245.333c0 11.729-9.605 21.333-21.334 21.333s-21.333-9.604-21.333-21.333V160h-32v202.667C202.667 392.531 226.135 416 256 416c29.865 0 53.334-23.469 53.334-53.333V117.334C309.334 70.401 270.938 32 224 32s-85.334 38.401-85.334 85.334v245.332C138.667 427.729 190.938 480 256 480c65.062 0 117.334-52.271 117.334-117.334V128h-32z\"}}]})(props);\n};\nexport function IoMdBackspace (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M433.5 96H167.2c-12.2 0-21.8 6.2-28.2 15.6L43 256l96 144.2c6.4 9.4 16 15.8 28.2 15.8h266.2c19.5 0 35.5-16 35.5-35.6V131.6C469 112 453 96 433.5 96zm-53.3 223.8l-25 25.1-63.7-63.8-63.7 63.8-25-25.1 63.7-63.8-63.7-63.8 25-25.1 63.7 63.8 63.7-63.8 25 25.1-63.7 63.8 63.7 63.8z\"}}]})(props);\n};\nexport function IoMdBarcode (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M88 128h48v256H88zM232 128h48v256h-48zM160 144h48v224h-48zM304 144h48v224h-48zM376 128h48v256h-48z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M104 104V56H16v400h88v-48H64V104zM408 56v48h40v304h-40v48h88V56z\"}}]})(props);\n};\nexport function IoMdBaseball (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M365.9 402.6L343 416.1l-16-28 20.2-11.9c-5.2-8.5-9.8-17.4-13.9-26.7-1.4-3.1-2.7-6.3-3.9-9.5l-25.1 5.8-7.1-31.6 22.6-5.2c-2.8-12.1-4.7-24-5.5-37H290v-32h24.3c.8-12 2.7-24.8 5.5-36.8l-22.6-5.2 7.1-31.6 25.1 5.8c1.3-3.2 2.6-6.4 4-9.6 4.1-9.2 8.7-18.1 13.8-26.6L327 124.1l16-28 22.8 13.5c5.2-6.4 10.8-12.5 16.7-18.3C347.4 64.1 303.5 48 256 48s-91.4 16.1-126.5 43.2c5.9 5.8 11.5 12 16.7 18.3L169 96.1l16 28-20.2 11.9c5.1 8.5 9.8 17.4 13.8 26.6 1.4 3.2 2.7 6.4 4 9.6l25.1-5.8 7.1 31.6-22.6 5.2c2.8 12.1 4.6 24.8 5.5 36.8H222v32h-24.3c-.8 13-2.7 24.9-5.5 37l22.6 5.2-7.1 31.6-25.1-5.8c-1.2 3.2-2.5 6.3-3.9 9.5-4.1 9.2-8.7 18.1-13.9 26.7l20.2 11.9-16 28-22.9-13.5c-5.2 6.3-10.7 12.4-16.6 18.2 35.1 27.1 79 43.2 126.5 43.2s91.4-16.1 126.5-43.2c-5.9-5.8-11.4-11.9-16.6-18.2z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M393.8 126l18.1 10.7-16 28-21.2-12.5c-5 8.3-9.5 16.9-13.3 25.9-.2.4-.4.9-.5 1.3l21 4.9-7.1 31.6-23.9-5.5c-2.3 9.7-3.8 19.6-4.6 29.6H370v32h-23.6c.8 10 2.3 20 4.6 29.8l23.9-5.5 7.1 31.6-21 4.9c.2.4.3.8.5 1.2 3.8 9 8.3 17.7 13.3 26l21.1-12.4 16 28-18 10.6c3.3 3.9 6.8 7.7 10.5 11.3l2 2C442 362 464 311.4 464 256s-22-106-57.7-143.4c-.7.7-1.4 1.3-2 2-3.7 3.7-7.2 7.5-10.5 11.4zM118.2 386.1l-18-10.6 16-28 21.1 12.4c5.1-8.3 9.5-17 13.3-26 .2-.4.3-.8.5-1.2l-21-4.9 7.1-31.6 23.9 5.5c2.3-9.8 3.8-19.8 4.6-29.8H142v-32h23.6c-.8-10-2.3-19.9-4.6-29.6l-23.9 5.5-7.1-31.6 21-4.9c-.2-.4-.3-.9-.5-1.3-3.8-9-8.2-17.7-13.3-25.9L116 164.6l-16-28 18.1-10.7c-3.4-3.9-6.9-7.7-10.6-11.4l-2-2C70 150 48 200.6 48 256s22 106 57.7 143.4c.7-.7 1.4-1.3 2-2 3.6-3.6 7.1-7.4 10.5-11.3z\"}}]})(props);\n};\nexport function IoMdBasket (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M362.1 205.2L272.9 72.5C269 66.8 262.5 64 256 64c-6.5 0-13 2.8-16.9 8.7l-89.2 132.5H52.4c-11.2 0-20.4 9.1-20.4 20.2 0 1.8.2 3.6.8 5.5l51.7 187.5c4.7 17 20.4 29.5 39.1 29.5h264.7c18.7 0 34.4-12.5 39.3-29.5l51.7-187.5.6-5.5c0-11.1-9.2-20.2-20.4-20.2h-97.4zm-167.2 0l61.1-89 61.1 89H194.9zM256 367.1c-22.4 0-40.7-18.2-40.7-40.5s18.3-40.5 40.7-40.5 40.7 18.2 40.7 40.5-18.3 40.5-40.7 40.5z\"}}]})(props);\n};\nexport function IoMdBasketball (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M191.6 272c-3.8 55-26.4 107.1-64.5 147.7 31.6 25 70.9 41 112.9 44.3V272h-48.4zM272 464c42-3.3 81.5-19.4 113.1-44.5-38-40.6-60.5-92.5-64.3-147.5H272v192zM240 48c-42 3.2-80.5 19-111.9 43.6 38 40.9 60.3 93.4 63.7 148.4H240V48zM320.7 240c3.4-55 25.6-107.4 63.5-148.3C352.7 67.1 314 51.2 272 48v192h48.7zM408.6 114.2c-17.2 18.5-30.7 39.7-40.1 62.9-8.2 20.2-13.1 40.9-14.6 62.9H464c-3.7-48-24.1-92.2-55.4-125.8zM368.5 333.1c9.6 23.7 23.3 45.1 40.9 63.8C440.3 363.4 460.3 320 464 272H354.1c1.6 21 6.5 41.5 14.4 61.1zM143.9 177.1c-9.5-23.3-23-44.5-40.3-63.1-31.4 33.6-51.9 78-55.6 126h110.5c-1.6-22-6.5-42.8-14.6-62.9zM102.7 397.1c17.7-18.8 31.5-40.3 41.1-64 8-19.6 12.8-40.1 14.5-61.1H48c3.7 48 23.8 91.6 54.7 125.1z\"}}]})(props);\n};\nexport function IoMdBatteryCharging (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M338.2 76.8h-37.4V32h-89.6v44.8h-37.4c-16.4 0-29.8 13.4-29.8 29.8V450c0 16.6 13.4 30 29.8 30H338c16.6 0 30-13.4 30-29.8V106.6c0-16.4-13.4-29.8-29.8-29.8zM233.6 435.2V312h-44.8l89.6-168v123.2h44.8l-89.6 168z\"}}]})(props);\n};\nexport function IoMdBatteryDead (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M338.2 76.8h-37.4V32h-89.6v44.8h-37.4c-16.4 0-29.8 13.4-29.8 29.8V450c0 16.6 13.4 30 29.8 30H338c16.6 0 30-13.4 30-29.8V106.6c0-16.4-13.4-29.8-29.8-29.8zM320 432H192V124.8h128V432z\"}}]})(props);\n};\nexport function IoMdBatteryFull (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M338.2 76.8h-37.4V32h-89.6v44.8h-37.4c-16.4 0-29.8 13.4-29.8 29.8V450c0 16.6 13.4 30 29.8 30H338c16.6 0 30-13.4 30-29.8V106.6c0-16.4-13.4-29.8-29.8-29.8z\"}}]})(props);\n};\nexport function IoMdBeaker (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M448.1 34.9c0-1.2-.4-2.9-2.9-2.9H128.5c-54.3 0-64.4 27.4-64.4 39.8C94.4 76 96 76.5 96 108.5v307c0 35.3 28.9 64.5 64.3 64.5H368c35.3 0 64-29.2 64-64.5V73.3c2.2-17.5 12-31.8 13.1-33.5 1.2-1.9 3-3.8 3-4.9zM354.2 432H176.3c-15.9 0-29.7-11.9-32.3-27.1V80h240v319.7c0 18-12.4 32.3-29.8 32.3z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M182 160v226c0 4.4 3.6 8 8 8h148c4.4 0 8-3.6 8-8V160H182z\"}}]})(props);\n};\nexport function IoMdBed (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M168.7 264.5c29 0 52.4-22.9 52.4-51.2s-23.4-51.2-52.4-51.2-52.4 22.9-52.4 51.2 23.5 51.2 52.4 51.2zm209.5-102.4H238.5v119.5H98.9V128H64v256h34.9v-51.2h314.2V384H448V230.4c0-37.7-31.2-68.3-69.8-68.3z\"}}]})(props);\n};\nexport function IoMdBeer (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M416 140h-16v-6c8.9-9 16-22.9 16-38 0-35.3-28.7-64-64-64-16.3 0-31.1 6.1-42.4 16.1C297.2 38 281.4 32 264.2 32c-15.8 0-30.4 5.1-42.3 13.7C212 37.2 199 32 184.9 32c-17.1 0-32.4 7.6-42.8 19.5-11.7-12-28-19.5-46.1-19.5-35.3 0-64 28.7-64 64 0 16.2 6.1 31 16 42.3V193c0 26.5 21.5 48 48 48v174.5c0 35.3 28.8 64.5 64.2 64.5H336c35.3 0 64.1-29.2 64.1-64.5V372h16c50 0 64-32.7 64-68v-96c-.1-35.3-17.1-68-64.1-68zm-64 52H144v-53.7c.3-.4.7-.8 1-1.2 1.2-1.5 2.4-3 3.5-4.6 1.5 1.2 3 2.4 4.6 3.4 9.1 6.1 20 9.7 31.7 9.7 6.4 0 12.6-1.1 18.3-3 12.8 20.2 35.3 33.7 61 33.7 22 0 41.7-9.9 54.9-25.4 5.7-6.7 10.2-14.4 13.1-22.9H352v64zM96 128.1v75c-9 0-16-7.2-16-16v-63.3c-8-4.5-13.4-12.1-15.3-21-.5-2.1-.7-4.4-.7-6.7 0-17.6 14.4-32 32-32 11.8 0 23.3 7.7 30.1 15.4s26.7 7.7 33.9 0c6.8-7.3 14.3-15.4 24.8-15.4 6 0 11.6 2.2 15.9 5.8 1.9 1.6 3.6 3.5 4.9 5.6 1.1 1.8 2 4.2 3.1 5.8 2.7 3.4 6.5 5.5 11.2 5.5 4.4 0 8.3-1.9 11-5 .6-.7 1.2-1.5 1.7-2.3 2-2.5 4.2-4.8 6.7-6.8 6.8-5.4 15.5-8.6 24.8-8.6 10.6 0 20.2 4.1 27.4 10.9 1.7 1.6 6.7 4.5 13.2 5.1 4.5.4 6.1.3 8.2 0 10.3-1.3 14.4-4.7 16.4-6.6 5.8-5.8 13.8-9.4 22.6-9.4 17.6 0 32 14.4 32 32 .2 3.1-.3 6.2-1.2 9.1-2.5-5.5-8.1-9.2-14.6-9.2h-55s-8.7-.7-8.7 8.2c0 8.9-2.9 17.1-7.8 23.7-7.3 9.9-19.1 16.4-32.4 16.4-14.9 0-27.9-8.1-34.8-20.2-1.6-2.7-2.8-5.6-3.7-8.6-.1-.6-.3-1.1-.4-1.6-2-5.9-7.5-10.2-14.1-10.2-3.9 0-7.5 1.5-10.2 4l-.1.1c-2.4 2.1-5.3 3.7-8.4 4.7-2.4.8-5 1.2-7.7 1.2-7.5 0-14.7-4-18.8-8.6-10-11.4-23.7-6.8-29.7-5.5-6 1.3-12.2 11.7-12.2 11.7-1.1 2.1-2.4 4-3.9 5.8-6 6.7-15.2 11-24.2 11zM432 304c0 17.7-6.3 24-24 24h-8V184h8c17.7 0 24 6.3 24 24v96z\"}}]})(props);\n};\nexport function IoMdBicycle (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M330.666 131.202c18.668 0 33.598-14.935 33.598-33.601S349.334 64 330.666 64C312 64 297.07 78.935 297.07 97.601s14.93 33.601 33.596 33.601zm56 130.132c-51.332 0-93.332 42-93.332 93.333s42 93.333 93.332 93.333C438 448 480 406 480 354.667s-42-93.333-93.334-93.333zm0 158.666c-36.402 0-65.332-28.93-65.332-65.333s28.93-65.333 65.332-65.333c36.404 0 65.334 28.93 65.334 65.333S423.07 420 386.666 420zm-81.069-196H384v-32h-58.845l-34.62-60.134c-5.605-9.333-15.869-15.864-27.07-15.864-8.399 0-16.798 3.732-22.399 9.333L169.334 194.4c-5.601 5.601-9.333 14-9.333 22.399 0 12.131 9.202 21.465 18.535 27.065L240 282.134V368h32V256l-39.333-32 42.929-44.533L305.597 224zm-180.264 37.334C74 261.334 32 303.334 32 354.667S74 448 125.333 448s93.333-42 93.333-93.333-41.999-93.333-93.333-93.333zm0 158.666C88.934 420 60 391.07 60 354.667s28.934-65.333 65.333-65.333 65.333 28.93 65.333 65.333S161.732 420 125.333 420z\"}}]})(props);\n};\nexport function IoMdBluetooth (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M399 159.9L270.5 32H248v170L144.7 99.2 113 130.8 238.8 256 113 381.2l31.7 31.6L248 310v170h22.5L399 352.1 302.2 256l96.8-96.1zm-106-42.1l42.3 42.1L293 202v-84.2zm42.3 234.3L293 394.2V310l42.3 42.1z\"}}]})(props);\n};\nexport function IoMdBoat (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M84.255 413h1.063c34.123 0 63.977-19.021 85.305-42.494 21.325 23.473 51.18 42.762 85.304 42.762s63.979-19.334 85.305-42.806C362.559 393.934 392.412 413 426.535 413h1.062l51.253-138.78c2.126-5.329 1.063-11.641-1.07-16.976-2.136-5.333-7.237-8.487-12.567-10.623L427 234.133v-98.15C427 112.51 407.344 93 383.884 93h-63.979l-15.993-53h-95.969l-15.995 53h-63.979C104.511 93 85 112.51 85 135.982v98.15l-38.074 12.533c-5.33 2.136-10.582 5.334-12.718 10.667-2.135 5.335-3.158 10.49-1.031 16.887L84.255 413zM128 136h256v84.261l-128-41.605-128 41.605V136z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M341.231 408.007c-52.253 36.267-118.356 36.258-170.608-.009 0 0-57.638 64.002-106.632 64.002h21.327c29.854 0 58.646-11.726 85.305-25.594 53.315 27.734 117.293 27.728 170.608-.007C367.89 460.268 396.681 472 426.535 472h21.328c-47.651 0-106.632-63.993-106.632-63.993z\"}}]})(props);\n};\nexport function IoMdBody (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M256 48c22 0 40 18 40 40s-18 40-40 40-40-18-40-40 18-40 40-40zm192 144.1H320V464h-42.7V320h-42.7v144H192V192.1H64v-42.7h384v42.7z\"}}]})(props);\n};\nexport function IoMdBonfire (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M272.2 350.6c-.8-8.2-8.2-14.6-17.3-14.6-8.3 0-15.2 5.4-16.9 12.5L221.1 441c-.5 2.3-.8 4.6-.8 7 0 17.7 15.5 32 34.7 32s34.7-14.3 34.7-32c0-2.9-.4-5.7-1.2-8.4l-16.3-89zM310.1 355zM404.3 390.3c-1.9-1.4-3.6-2.9-5.6-3.9l-68.9-47.5c-6.3-3.8-13-3.7-17.9.9-4.5 4.1-5.1 10.4-1.8 15.4l53 65.8c1 1.5 2.3 2.8 3.6 4.2 8.5 9.1 27.2 9.6 37.5 0 10.4-9.8 10.3-27.2.1-34.9zM382.2 335zM450.4 322.5l-64.5-2.3c-4.2-.6-8 2.1-8.7 6-.7 3.6 1.5 7.1 5.1 8.8h.1l62.5 17.8c9 1.9 19.1-2.3 19.1-11.6 0-11.9-3.3-17.5-13.6-18.7zM129.5 335zM129.5 335c3.6-1.6 5.7-5.2 5.1-8.8-.7-4-4.5-6.6-8.7-6l-64.5 2.3C51 323.7 48 329.3 48 341.1c0 9.3 9.9 13.6 18.8 11.6l62.5-17.8c.1.1.1.1.2.1zM182.2 338.8l-68.9 47.4c-2 1.1-3.9 2.4-5.6 3.9-10.4 9.6-10.4 25.1 0 34.6 10.4 9.6 27.1 9.6 37.5 0 1.4-1.3 2.6-2.7 3.6-4.2l53-65.6c3.3-5 2.7-11.2-1.8-15.3-4.8-4.5-12.6-4.8-17.8-.8zM256 32s30.2 35.4 30.2 64.4c0 27.8-18.2 50.3-45.9 50.3-27.9 0-48.9-22.5-48.9-50.3l.4-6.9c-27.2 32.3-43.5 76.2-43.5 121.8 0 59.6 48.2 107.8 107.8 107.8s107.8-48.2 107.8-107.8C363.8 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512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M405.2 64h-21c15 5.7 22.8 20.6 22.8 42.7v298.7c0 22.1-7 37.3-22.8 42.7h21c23.7 0 42.8-19.2 42.8-42.7V106.7c0-23.5-19.1-42.7-42.8-42.7zM345.5 64.2c-1.4-.1-2.8-.2-4.2-.2H106.7C83.2 64 64 83.2 64 106.7v298.7c0 23.5 19.2 42.7 42.7 42.7h234.7c1.4 0 2.8-.1 4.2-.2 21.5-2.1 38.5-20.4 38.5-42.5V106.7c-.1-22.1-17.1-40.4-38.6-42.5zM208 256l-56-32-56 32V96h112v160z\"}}]})(props);\n};\nexport function IoMdBowtie (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M276 304h-40c-15.4 0-28-12.6-28-28v-40c0-15.4 12.6-28 28-28h40c15.4 0 28 12.6 28 28v40c0 15.4-12.6 28-28 28zM176 280v-48c0-18.2 8.7-34.4 22.2-44.6C192 160 96 96 64 96c-17.6 0-32 14.4-32 32v256c0 17.6 14.3 32 32 32 32 0 128-64 134.2-91.4-13.5-10.2-22.2-26.4-22.2-44.6zM448 96c-32 0-128 64-134.2 91.4 13.5 10.2 22.2 26.4 22.2 44.6v48c0 18.2-8.7 34.4-22.2 44.6C320 352 416 416 448 416c17.7 0 32-14.4 32-32V128c0-17.6-14.4-32-32-32z\"}}]})(props);\n};\nexport function IoMdBriefcase (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M352 144v-39.6C352 82 334 64 311.6 64H200.4C178 64 160 82 160 104.4V144H48v263.6C48 430 66 448 88.4 448h335.2c22.4 0 40.4-18 40.4-40.4V144H352zm-40 0H200v-40h112v40z\"}}]})(props);\n};\nexport function IoMdBrowsers (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M424 64H88c-26.6 0-48 21.6-48 48v288c0 26.4 21.4 48 48 48h336c26.4 0 48-21.6 48-48V112c0-26.4-21.4-48-48-48zm0 336H88V176h336v224z\"}}]})(props);\n};\nexport function IoMdBrush (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M149.9 302.2c-39.1 0-70.7 31-70.7 69.3 0 30.3-27.3 46.2-47.2 46.2C53.7 446 90.7 464 126.3 464c52.1 0 94.3-41.4 94.3-92.4 0-38.4-31.6-69.4-70.7-69.4zM473.1 85.7l-31.6-31c-9.2-9-24-9-33.2 0L197 261.8l64.8 63.5 211.2-207c9.3-9 9.3-23.6.1-32.6z\"}}]})(props);\n};\nexport function IoMdBug (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M448 160h-67.4c-10.8-18.7-25.7-34.8-43.7-47L376 73.8 342.2 40l-52.1 52.1C279 89.4 267.8 88 256 88s-23 1.4-33.8 4.1L169.8 40 136 73.8l38.9 39.1c-17.8 12.2-32.6 28.3-43.4 47H64v48h50.2c-1.2 7.9-2.2 15.8-2.2 24v24H64v48h48v24c0 8.2 1 16.1 2.2 24H64v48h67.4c25 43 71.3 72 124.6 72s99.6-29 124.6-72H448v-48h-50.2c1.2-7.9 2.2-15.8 2.2-24v-24h48v-48h-48v-24c0-8.2-1-16.1-2.2-24H448V160z\"}}]})(props);\n};\nexport function IoMdBuild (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M474.1 398.2L289.1 212c18.3-47 8.1-102.3-30.5-141.1C217.9 30 156.9 21.8 108.1 44.3l87.4 88-61 61.4-89.5-88c-24.3 49-14.1 110.4 26.5 151.3 38.6 38.9 93.5 49.1 140.3 30.7l185 186.2c8.1 8.2 20.3 8.2 28.5 0l46.8-47c10.2-8.3 10.2-22.6 2-28.7z\"}}]})(props);\n};\nexport function IoMdBulb (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M192 428c0 10.6 8.6 20 20 20h88c11.4 0 20-9.4 20-20v-18H192v18zm64-364c-79.7 0-144 59.9-144 134 0 45.7 24.1 86.2 61.4 110.6V352c0 10.6 9.3 19.2 20.6 19.2h123.9c11.4 0 20.6-8.6 20.6-19.2v-43.4C375.9 284.2 400 243.7 400 198c0-74.1-64.3-134-144-134z\"}}]})(props);\n};\nexport function IoMdBus (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M80 352c0 19.198 13.864 24.531 26.667 36.271v38.396c0 11.729 9.599 21.334 21.333 21.334h21.333c11.734 0 21.334-9.604 21.334-21.334v-21.333h170.666v21.333c0 11.729 9.604 21.334 21.334 21.334H384c11.729 0 21.333-9.604 21.333-21.334v-38.396C418.136 376.531 432 370.136 432 352V148.334C432 73.667 349.864 64 256 64S80 73.667 80 148.334V352zm80 15.989c-18.136 0-32-13.864-32-32 0-18.135 13.864-32 32-32s32 13.865 32 32c0 18.136-13.864 32-32 32zm192 0c-18.136 0-32-13.864-32-32 0-18.135 13.864-32 32-32s32 13.865 32 32c0 18.136-13.864 32-32 32zm32-122.656H128V138.667h256v106.666z\"}}]})(props);\n};\nexport function IoMdBusiness (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M261 149.3V64H48v384h416V149.3H261zm-127.8 256H90.6v-42.7h42.6v42.7zm0-85.3H90.6v-42.7h42.6V320zm0-85.3H90.6V192h42.6v42.7zm0-85.4H90.6v-42.7h42.6v42.7zm85.2 256h-42.6v-42.7h42.6v42.7zm0-85.3h-42.6v-42.7h42.6V320zm0-85.3h-42.6V192h42.6v42.7zm0-85.4h-42.6v-42.7h42.6v42.7zm203 256H261v-42.7h42.6V320H261v-42.7h42.6v-42.7H261V192h160.4v213.3zm-37.6-170.6h-42.6v42.7h42.6v-42.7zm0 85.3h-42.6v42.7h42.6V320z\"}}]})(props);\n};\nexport function IoMdCafe (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M48 400h368v48H48zM424 64H80v224c0 44 36 80 80 80h144c44 0 80-36 80-80v-64h40c22 0 40-18 40-40v-80c0-22-18-40-40-40zm0 112h-40v-64h40v64z\"}}]})(props);\n};\nexport function IoMdCalculator (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M368 48H144c-26.6 0-48 21.6-48 48v320c0 26.4 21.4 48 48 48h224c26.4 0 48-21.6 48-48V96c0-26.4-21.4-48-48-48zM200 416h-48v-48h48v48zm0-88h-48v-48h48v48zm0-88h-48v-48h48v48zm80 176h-48v-48h48v48zm0-88h-48v-48h48v48zm0-88h-48v-48h48v48zm80 176h-48V280h48v136zm0-176h-48v-48h48v48zm0-96H152V96h208v48z\"}}]})(props);\n};\nexport function IoMdCalendar (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M368.005 272h-96v96h96v-96zm-32-208v32h-160V64h-48v32h-24.01c-22.002 0-40 17.998-40 40v272c0 22.002 17.998 40 40 40h304.01c22.002 0 40-17.998 40-40V136c0-22.002-17.998-40-40-40h-24V64h-48zm72 344h-304.01V196h304.01v212z\"}}]})(props);\n};\nexport function IoMdCall (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M426.666 330.667a250.385 250.385 0 0 1-75.729-11.729c-7.469-2.136-16-1.073-21.332 5.333l-46.939 46.928c-60.802-30.928-109.864-80-140.802-140.803l46.939-46.927c5.332-5.333 7.462-13.864 5.332-21.333-8.537-24.531-12.802-50.136-12.802-76.803C181.333 73.604 171.734 64 160 64H85.333C73.599 64 64 73.604 64 85.333 64 285.864 226.136 448 426.666 448c11.73 0 21.334-9.604 21.334-21.333V352c0-11.729-9.604-21.333-21.334-21.333z\"}}]})(props);\n};\nexport function IoMdCamera (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"circle\",\"attr\":{\"cx\":\"256\",\"cy\":\"280\",\"r\":\"63\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M440 96h-88l-32-32H192l-32 32H72c-22.092 0-40 17.908-40 40v272c0 22.092 17.908 40 40 40h368c22.092 0 40-17.908 40-40V136c0-22.092-17.908-40-40-40zM256 392c-61.855 0-112-50.145-112-112s50.145-112 112-112 112 50.145 112 112-50.145 112-112 112z\"}}]})(props);\n};\nexport function IoMdCar (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M403.208 117.333c-4.271-12.802-16-21.333-29.875-21.333H138.667c-13.875 0-25.604 8.531-29.875 21.333L64 234.667v160C64 406.396 73.604 416 85.333 416h21.334c11.729 0 21.333-9.604 21.333-21.333V384h256v10.667c0 11.729 9.604 21.333 21.333 21.333h21.334c11.729 0 21.333-9.604 21.333-21.333v-160l-44.792-117.334zM138.667 320c-18.125 0-32-13.865-32-32s13.875-32 32-32 32 13.866 32 32-13.875 32-32 32zm234.666 0c-18.125 0-32-13.865-32-32s13.875-32 32-32 32 13.866 32 32-13.875 32-32 32zM106.667 213.333l32-85.333h234.666l32 85.333H106.667z\"}}]})(props);\n};\nexport function IoMdCard (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M435.2 80H76.8c-24.9 0-44.6 19.6-44.6 44L32 388c0 24.4 19.9 44 44.8 44h358.4c24.9 0 44.8-19.6 44.8-44V124c0-24.4-19.9-44-44.8-44zm0 308H76.8V256h358.4v132zm0-220H76.8v-44h358.4v44z\"}}]})(props);\n};\nexport function IoMdCart (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M169.6 377.6c-22.882 0-41.6 18.718-41.6 41.601 0 22.882 18.718 41.6 41.6 41.6s41.601-18.718 41.601-41.6c-.001-22.884-18.72-41.601-41.601-41.601zM48 51.2v41.6h41.6l74.883 151.682-31.308 50.954c-3.118 5.2-5.2 12.482-5.2 19.765 0 27.85 19.025 41.6 44.825 41.6H416v-40H177.893c-3.118 0-5.2-2.082-5.2-5.2 0-1.036 2.207-5.2 2.207-5.2l20.782-32.8h154.954c15.601 0 29.128-8.317 36.4-21.836l74.882-128.8c1.237-2.461 2.082-6.246 2.082-10.399 0-11.446-9.364-19.765-20.8-19.765H135.364L115.6 51.2H48zm326.399 326.4c-22.882 0-41.6 18.718-41.6 41.601 0 22.882 18.718 41.6 41.6 41.6S416 442.082 416 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295h186.425c4.477 0 7.447-4.211 7.447-8.624V72.159c0-4.414-2.971-8.159-7.447-8.159z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M456.396 127H424v166.57c0 15.987-6.915 26.43-25.152 26.43H218.096l-38.905 39h129.688L399 448v-89h57.396c4.478 0 7.604-4.262 7.604-8.682V136.103c0-4.414-3.126-9.103-7.604-9.103z\"}}]})(props);\n};\nexport function IoMdChatbubbles (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M132.8 368c-20.2 0-44.8-24.6-44.8-44.8V160h-9.6C61.7 160 48 173.7 48 190.4V464l58.5-58h215.1c16.7 0 30.4-14.1 30.4-30.9V368H132.8z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M429.1 48H149.9C130.7 48 115 63.7 115 82.9V309c0 19.2 15.7 35 34.9 35h238.2l75.9 53V82.9c0-19.2-15.7-34.9-34.9-34.9z\"}}]})(props);\n};\nexport function IoMdCheckboxOutline (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M168.531 215.469l-29.864 29.864 96 96L448 128l-29.864-29.864-183.469 182.395-66.136-65.062zm236.802 189.864H106.667V106.667H320V64H106.667C83.198 64 64 83.198 64 106.667v298.666C64 428.802 83.198 448 106.667 448h298.666C428.802 448 448 428.802 448 405.333V234.667h-42.667v170.666z\"}}]})(props);\n};\nexport function IoMdCheckbox (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M405.333 64H106.667C83.198 64 64 83.198 64 106.667v298.666C64 428.802 83.198 448 106.667 448h298.666C428.802 448 448 428.802 448 405.333V106.667C448 83.198 428.802 64 405.333 64zm-192 298.667L106.667 256l29.864-29.864 76.802 76.802 162.136-162.136 29.864 29.865-192 192z\"}}]})(props);\n};\nexport function IoMdCheckmarkCircleOutline (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M170.718 216.482L141.6 245.6l93.6 93.6 208-208-29.118-29.118L235.2 279.918l-64.482-63.436zM422.4 256c0 91.518-74.883 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GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M403.002 217.001C388.998 148.002 328.998 96 256 96c-57.998 0-107.998 32.998-132.998 81.001C63.002 183.002 16 233.998 16 296c0 65.996 53.999 120 120 120h260c55 0 100-45 100-100 0-52.998-40.996-96.001-92.998-98.999zM213.333 362.667L138.667 288l29.864-29.864 44.802 44.802L324.271 192l29.865 29.864-140.803 140.803z\"}}]})(props);\n};\nexport function IoMdCloudDownload (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M403.002 217.001C388.998 148.002 328.998 96 256 96c-57.998 0-107.998 32.998-132.998 81.001C63.002 183.002 16 233.998 16 296c0 65.996 53.999 120 120 120h260c55 0 100-45 100-100 0-52.998-40.996-96.001-92.998-98.999zM224 268v-76h64v76h68L256 368 156 268h68z\"}}]})(props);\n};\nexport function IoMdCloudOutline (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M403.001 217.001C388.997 148.002 328.998 96 256 96c-57.998 0-107.999 32.998-132.997 81C63.002 183.002 16 233.998 16 296c0 65.996 54.004 120 120 120h260c55 0 100-45 100-100.001 0-52.997-40.997-95.999-92.999-98.998zM396 376H136c-44.004 0-80-35.996-80-80 0-44 35.996-80 80-80h14.004c12.998-46 55-80 105.996-80 60.996 0 110 49 110 110v10h30c32.998 0 60 27.003 60 60 0 32.998-27.002 60-60 60z\"}}]})(props);\n};\nexport function IoMdCloudUpload (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M403.002 217.001C388.998 148.002 328.998 96 256 96c-57.998 0-107.998 32.998-132.998 81.001C63.002 183.002 16 233.998 16 296c0 65.996 53.999 120 120 120h260c55 0 100-45 100-100 0-52.998-40.996-96.001-92.998-98.999zM288 276v76h-64v-76h-68l100-100 100 100h-68z\"}}]})(props);\n};\nexport function IoMdCloud (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M403.002 217.001C388.998 148.002 328.998 96 256 96c-57.998 0-107.998 32.998-132.998 81.001C63.002 183.002 16 233.998 16 296c0 65.996 53.999 120 120 120h260c55 0 100-45 100-100 0-52.998-40.996-96.001-92.998-98.999z\"}}]})(props);\n};\nexport function IoMdCloudyNight (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M123.4 183c.4-.1.8-.1 1.2-.2-.5.1-.8.2-1.2.2zM341.5 303.4C330.7 247.7 282.2 206 224 206c-34 0-65.1 12-86.5 39.1 29.4 2.2 56.7 13.1 77.7 34.2 15.6 15.7 26.6 34.9 32.1 55.8h-28.7c-13.1-37.6-48-64.5-90.6-64.5-5.1 0-12.3.6-17.7 1.7-45.7 9.4-78.3 47.6-78.3 95 0 53.4 43 96.8 96 96.8h208c44.1 0 80-36.1 80-80.6-.1-42.7-32.9-77.2-74.5-80.1z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M112.5 225.4c13.6-17.3 30.7-30.5 50.8-39.2 18.4-8 38.8-12 60.7-12 6.1 0 12.2.4 18.2 1.1-6.1-18.1-9.4-37.6-9.4-57.8 0-24.6 4.9-48.1 13.8-69.4C161.9 68.7 99 145.7 99 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44.7V160h-42.8z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M190.4 354.1L91.9 256l98.4-98.1-30-29.9L32 256l128.4 128 30-29.9zm131.2 0L420 256l-98.4-98.1 30-29.9L480 256 351.6 384l-30-29.9z\"}}]})(props);\n};\nexport function IoMdCodeWorking (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M190.4 354.1L91.9 256l98.4-98.1-30-29.9L32 256l128.4 128 30-29.9zm131.2 0L420 256l-98.4-98.1 30-29.9L480 256 351.6 384l-30-29.9z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M155.6 276h40v-40h-40v40zm200.8-40h-40v40h40v-40zM236 276h40v-40h-40v40z\"}}]})(props);\n};\nexport function IoMdCode (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M190.4 354.1L91.9 256l98.4-98.1-30-29.9L32 256l128.4 128 30-29.9zm131.2 0L420 256l-98.4-98.1 30-29.9L480 256 351.6 384l-30-29.9z\"}}]})(props);\n};\nexport function IoMdCog (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M480 288v-64h-34.7c-2-12.1-5.2-23.8-9.3-35l30-17.3-32-55.4-30 17.3c-7.7-9.3-16.3-17.9-25.6-25.6l17.3-30-55.4-32L323 76c-11.2-4.2-22.9-7.3-35-9.3V32h-64v34.7c-12.1 2-23.8 5.2-35 9.3l-17.3-30-55.4 32 17.3 30c-9.3 7.7-17.9 16.3-25.6 25.6l-30-17.3-32 55.4L76 189c-4.2 11.2-7.3 22.9-9.3 35H32v64h34.7c2 12.1 5.2 23.8 9.3 35l-30 17.3 32 55.4 30-17.3c7.7 9.3 16.3 17.9 25.6 25.6l-17.3 30 55.4 32 17.3-30c11.2 4.2 22.9 7.3 35 9.3V480h64v-34.7c12.1-2 23.8-5.2 35-9.3l17.3 30 55.4-32-17.3-30c9.3-7.7 17.9-16.3 25.6-25.6l30 17.3 32-55.4-30-17.3c4.2-11.2 7.3-22.9 9.3-35H480zm-224-64c17.7 0 32 14.3 32 32s-14.3 32-32 32-32-14.3-32-32 14.3-32 32-32zM141.2 343c-18.3-24.2-29.2-54.3-29.2-87 0-6.1.4-12.1 1.1-18l46.9 17.1v.9c0 17.8 4.9 34.5 13.3 48.8L141.2 343zm40.7-148L135 177.9c20.1-31.1 51.8-53.9 89-62.3v49.9c-16.6 5.9-31.1 16.2-42.1 29.5zM256 400c-23.7 0-46-5.7-65.8-15.9l32.1-38.2c10.5 3.9 21.8 6.1 33.7 6.1s23.2-2.2 33.7-6.1l32.1 38.2C302 394.3 279.7 400 256 400zm32-234.5v-49.9c37.2 8.4 68.9 31.2 89 62.3L330.1 195c-11-13.3-25.5-23.6-42.1-29.5zM370.8 343l-32.1-38.2c8.4-14.3 13.3-31 13.3-48.8v-.9l46.9-17.1c.7 5.9 1.1 11.9 1.1 18 0 32.7-10.9 62.8-29.2 87z\"}}]})(props);\n};\nexport function IoMdColorFill (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M136.5 77.7l37 67L32 285.7 216.4 464l152.4-148.6 54.4-11.4L166.4 48l-29.9 29.7zm184 208H114.9l102.8-102.3 102.8 102.3zM423.3 304s-56.7 61.5-56.7 92.1c0 30.7 25.4 55.5 56.7 55.5 31.3 0 56.7-24.9 56.7-55.5S423.3 304 423.3 304z\"}}]})(props);\n};\nexport function IoMdColorFilter (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M441.8 120.1l-49.9-49.9c-8.3-8.3-21.8-8.3-30.1 0l-66.6 66.6L254.1 96 224 126.1l30.3 30.3L64 346.7V448h101.3l190.3-190.3 30.3 30.3 30.1-30.1-41-41 66.6-66.6c8.5-8.4 8.5-21.8.2-30.2zM147.6 405.4l-41-41 171.9-171.9 41 41-171.9 171.9z\"}}]})(props);\n};\nexport function IoMdColorPalette (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M256 64C150.401 64 64 150.401 64 256c0 105.604 86.401 192 192 192 18.136 0 32-13.864 32-32 0-8.531-3.198-16-8.531-21.333-5.333-5.334-8.531-12.803-8.531-21.334 0-18.135 13.864-32 32-32h38.396c58.667 0 106.667-48 106.667-106.666C448 140.802 361.604 64 256 64zM138.667 256c-18.136 0-32-13.864-32-32s13.864-32 32-32c18.135 0 32 13.864 32 32s-13.865 32-32 32zm64-85.333c-18.136 0-32-13.865-32-32 0-18.136 13.864-32 32-32 18.135 0 32 13.864 32 32 0 18.135-13.865 32-32 32zm106.666 0c-18.135 0-32-13.865-32-32 0-18.136 13.865-32 32-32 18.136 0 32 13.864 32 32 0 18.135-13.864 32-32 32zm64 85.333c-18.135 0-32-13.864-32-32s13.865-32 32-32c18.136 0 32 13.864 32 32s-13.864 32-32 32z\"}}]})(props);\n};\nexport function IoMdColorWand (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M200.8 157.2l-36.4 37.4L411.7 448l36.3-37.4zM181 64h37v68h-37zM181 262h37v68h-37zM270 176h69v37h-69zM305.6 115.8l-25.7-26.3-47.1 48.3 25.6 26.2zM168.8 137.8l-47.1-48.3-25.6 26.3 47.1 48.2zM96.1 277.9l25.6 26.2 47.1-48.2-25.6-26.3zM64 176h65v37H64z\"}}]})(props);\n};\nexport function IoMdCompass (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M256 231.358c-13.442 0-24.643 11.2-24.643 24.642s11.2 24.643 24.643 24.643 24.643-11.2 24.643-24.643-11.201-24.642-24.643-24.642zM256 32C132.8 32 32 132.8 32 256s100.8 224 224 224 224-100.8 224-224S379.2 32 256 32zm49.284 273.284L121.6 390.4l85.116-183.679L390.4 121.6l-85.116 183.684z\"}}]})(props);\n};\nexport function IoMdConstruct (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M430.9 393.4l-119.6-119-58.1-57.9-13.4-13.3c15.9-40.6 7.1-88.2-26.6-121.7-35.4-35.3-88.5-42.3-131-22.9l76.1 75.8-53.1 52.9-77.9-75.8C6.2 153.8 15 206.7 50.4 242c33.6 33.5 81.4 42.3 122.1 26.5l14.4 14.3L81.7 388c-7.6 5.7-7.6 19 1.9 26.6l43.8 43.7c7.6 7.6 19.1 7.6 26.7 0l96.1-112.4 113.4 112.9c7.1 7.1 17.7 7.1 24.8 0l40.7-40.6c8.9-7.1 8.9-19.5 1.8-24.8z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M494.4 216.6l-34.5-34.1c-2.2-2.2-5.8-2.2-8 0l-3.7 3.7-18.5-15.8s1.2-10-4.9-18.7c-6.2-8.7-16.1-19.8-23.2-26.9-7.1-7-34.1-33.9-69.7-51.4C296.2 55.7 271 48 241 48v29.7s28.7 16.6 45.1 29.7c16.3 13.1 16.8 59.5 16.8 59.5l-28.5 28.5 56.5 56.1 31-36.3c12.9-3.5 23.8-3.8 30.2-.3l13.7 13.3-9.6 9.5c-2.2 2.2-2.2 5.7 0 7.9l34.5 34.1c2.2 2.2 5.8 2.2 8 0l55.7-55.2c2.1-2.2 2.1-5.8 0-7.9z\"}}]})(props);\n};\nexport function IoMdContact (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M256 48C141.6 48 48 141.6 48 256s93.6 208 208 208 208-93.6 208-208S370.4 48 256 48zm0 62.4c34.3 0 62.4 28.1 62.4 62.4s-28.1 62.4-62.4 62.4-62.4-28.1-62.4-62.4 28.1-62.4 62.4-62.4zm0 300.4c-52 0-97.8-27-124.8-66.6 1-41.6 83.2-64.5 124.8-64.5s123.8 22.9 124.8 64.5c-27 39.5-72.8 66.6-124.8 66.6z\"}}]})(props);\n};\nexport function IoMdContacts (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M239.208 343.937c-17.78 10.103-38.342 15.876-60.255 15.876-21.909 0-42.467-5.771-60.246-15.87C71.544 358.331 42.643 406 32 448h293.912c-10.639-42-39.537-89.683-86.704-104.063zM178.953 120.035c-58.479 0-105.886 47.394-105.886 105.858 0 58.464 47.407 105.857 105.886 105.857s105.886-47.394 105.886-105.857c0-58.464-47.408-105.858-105.886-105.858zm0 186.488c-33.671 0-62.445-22.513-73.997-50.523H252.95c-11.554 28.011-40.326 50.523-73.997 50.523z\"}},{\"tag\":\"g\",\"attr\":{},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M322.602 384H480c-10.638-42-39.537-81.691-86.703-96.072-17.781 10.104-38.343 15.873-60.256 15.873-14.823 0-29.024-2.654-42.168-7.49-7.445 12.47-16.927 25.592-27.974 34.906C289.245 341.354 309.146 364 322.602 384zM306.545 200h100.493c-11.554 28-40.327 50.293-73.997 50.293-8.875 0-17.404-1.692-25.375-4.51a128.411 128.411 0 0 1-6.52 25.118c10.066 3.174 20.779 4.862 31.895 4.862 58.479 0 105.886-47.41 105.886-105.872 0-58.465-47.407-105.866-105.886-105.866-37.49 0-70.427 19.703-89.243 49.09C275.607 131.383 298.961 163 306.545 200z\"}}]}]})(props);\n};\nexport function IoMdContract (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M64 371.2h76.795V448H192V320H64v51.2zm76.795-230.4H64V192h128V64h-51.205v76.8zM320 448h51.2v-76.8H448V320H320v128zm51.2-307.2V64H320v128h128v-51.2h-76.8z\"}}]})(props);\n};\nexport function IoMdContrast (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M256 48C141.1 48 48 141.1 48 256s93.1 208 208 208 208-93.1 208-208S370.9 48 256 48zm113.1 321.1C338.9 399.4 298.7 416 256 416V96c42.7 0 82.9 16.6 113.1 46.9C399.4 173.1 416 213.3 416 256s-16.6 82.9-46.9 113.1z\"}}]})(props);\n};\nexport function IoMdCopy (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M296 48H176.5C154.4 48 136 65.4 136 87.5V96h-7.5C106.4 96 88 113.4 88 135.5v288c0 22.1 18.4 40.5 40.5 40.5h208c22.1 0 39.5-18.4 39.5-40.5V416h8.5c22.1 0 39.5-18.4 39.5-40.5V176L296 48zm0 44.6l83.4 83.4H296V92.6zm48 330.9c0 4.7-3.4 8.5-7.5 8.5h-208c-4.4 0-8.5-4.1-8.5-8.5v-288c0-4.1 3.8-7.5 8.5-7.5h7.5v255.5c0 22.1 10.4 32.5 32.5 32.5H344v7.5zm48-48c0 4.7-3.4 8.5-7.5 8.5h-208c-4.4 0-8.5-4.1-8.5-8.5v-288c0-4.1 3.8-7.5 8.5-7.5H264v128h128v167.5z\"}}]})(props);\n};\nexport function IoMdCreate (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M64 368v80h80l235.727-235.729-79.999-79.998L64 368zm377.602-217.602c8.531-8.531 8.531-21.334 0-29.865l-50.135-50.135c-8.531-8.531-21.334-8.531-29.865 0l-39.468 39.469 79.999 79.998 39.469-39.467z\"}}]})(props);\n};\nexport function IoMdCrop (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M352 312.7h37.8V160c0-20.8-17-37.8-37.8-37.8H199.3V160H352v152.7zm-192 33.5V48h-37.8v74.2H48V160h74.2v186.2c0 20.8 17 37.8 37.8 37.8h192v80h37.8v-80H464v-37.8H160z\"}}]})(props);\n};\nexport function IoMdCube (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M467.3 168.1c-1.8 0-3.5.3-5.1 1l-177.6 92.1h-.1c-7.6 4.7-12.5 12.5-12.5 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89.6-89.6c0-13.2-2.9-25.5-8.1-36.7l52.9-52.9 156.8 156.8H480v-22.4L203.1 158.3zm-81.5 8.1c-24.6 0-44.8-19.9-44.8-44.8S97 76.8 121.6 76.8s44.8 19.9 44.8 44.8-20.2 44.8-44.8 44.8zm0 268.8c-24.6 0-44.8-19.9-44.8-44.8s20.2-44.8 44.8-44.8 44.8 19.9 44.8 44.8-20.2 44.8-44.8 44.8zm134.4-168c-6.3 0-11.2-4.9-11.2-11.2 0-6.3 4.9-11.2 11.2-11.2 6.3 0 11.2 4.9 11.2 11.2 0 6.3-4.9 11.2-11.2 11.2zM412.8 54.4L278.4 188.8l44.8 44.8L480 76.8V54.4h-67.2z\"}}]})(props);\n};\nexport function IoMdDesktop (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M437.333 32H74.667C51.198 32 32 51.197 32 74.666v282.667C32 380.802 51.198 400 74.667 400h138.666l-42.666 48v32h170.666v-32l-42.666-48h138.666C460.802 400 480 380.802 480 357.333V74.666C480 51.197 460.802 32 437.333 32zm0 288H74.667V74.666h362.666V320z\"}}]})(props);\n};\nexport function IoMdDisc (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M256 48C141.2 48 48 141.2 48 256s93.2 208 208 208 208-93.2 208-208S370.8 48 256 48zm0 301.6c-51.8 0-93.6-41.8-93.6-93.6s41.8-93.6 93.6-93.6 93.6 41.8 93.6 93.6-41.8 93.6-93.6 93.6zm0-114.4c-11.4 0-20.8 9.4-20.8 20.8s9.4 20.8 20.8 20.8 20.8-9.4 20.8-20.8-9.4-20.8-20.8-20.8z\"}}]})(props);\n};\nexport function IoMdDocument (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M288 48H136c-22.092 0-40 17.908-40 40v336c0 22.092 17.908 40 40 40h240c22.092 0 40-17.908 40-40V176L288 48zm-16 144V80l112 112H272z\"}}]})(props);\n};\nexport function IoMdDoneAll (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M387.581 139.712L356.755 109 216.913 248.319l30.831 30.719 139.837-139.326zM481.172 109L247.744 340.469l-91.39-91.051-30.827 30.715L247.744 403 512 139.712 481.172 109zM0 280.133L123.321 403l30.829-30.713L31.934 249.418 0 280.133z\"}}]})(props);\n};\nexport function IoMdDownload (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M416 199.5h-91.4V64H187.4v135.5H96l160 158.1 160-158.1zM96 402.8V448h320v-45.2H96z\"}}]})(props);\n};\nexport function IoMdEasel (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M128 176h256v128H128z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M448 96H64c-8.8 0-16 7.2-16 16v256c0 8.8 6.9 16 15.8 16H448c8.8 0 16-7.2 16-16V112c0-8.8-7.2-16-16-16zm-32 240H96V144h320v192zM80 464h57l22.5-64h-56.4zM279.4 48h-46.8l-11.5 32h69.8zM375 464h57l-23-64h-56.5zM232 400h48v32h-48z\"}}]})(props);\n};\nexport function IoMdEgg (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M256 32C185.6 32 80 165.2 80 288.9S150.4 480 256 480s176-67.4 176-191.1S326.4 32 256 32z\"}}]})(props);\n};\nexport function IoMdExit (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M215.469 332.802l29.863 29.864L352 256 245.332 149.333l-29.863 29.865 55.469 55.469H64v42.666h205.864l-54.395 55.469zM405.334 64H106.666C83.198 64 64 83.198 64 106.666V192h42.666v-85.333h298.668v298.668H106.666V320H64v85.334C64 428.802 83.198 448 106.666 448h298.668C428.802 448 448 428.802 448 405.334V106.666C448 83.198 428.802 64 405.334 64z\"}}]})(props);\n};\nexport function IoMdExpand (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M396.795 396.8H320V448h128V320h-51.205zM396.8 115.205V192H448V64H320v51.205zM115.205 115.2H192V64H64v128h51.205zM115.2 396.795V320H64v128h128v-51.205z\"}}]})(props);\n};\nexport function IoMdEyeOff (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M256.1 144.8c56.2 0 101.9 45.3 101.9 101.1 0 13.1-2.6 25.5-7.3 37l59.5 59c30.8-25.5 55-58.4 69.9-96-35.3-88.7-122.3-151.6-224.2-151.6-28.5 0-55.8 5.1-81.1 14.1l44 43.7c11.6-4.6 24.1-7.3 37.3-7.3zM52.4 89.7l46.5 46.1 9.4 9.3c-33.9 26-60.4 60.8-76.3 100.8 35.2 88.7 122.2 151.6 224.1 151.6 31.6 0 61.7-6.1 89.2-17l8.6 8.5 59.7 59 25.9-25.7L78.2 64 52.4 89.7zM165 201.4l31.6 31.3c-1 4.2-1.6 8.7-1.6 13.1 0 33.5 27.3 60.6 61.1 60.6 4.5 0 9-.6 13.2-1.6l31.6 31.3c-13.6 6.7-28.7 10.7-44.8 10.7-56.2 0-101.9-45.3-101.9-101.1 0-15.8 4.1-30.7 10.8-44.3zm87.8-15.7l64.2 63.7.4-3.2c0-33.5-27.3-60.6-61.1-60.6l-3.5.1z\"}}]})(props);\n};\nexport function IoMdEye (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M256 105c-101.8 0-188.4 62.4-224 151 35.6 88.6 122.2 151 224 151s188.4-62.4 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512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M449.2 208H423v-32l-14.4-48H383V96l-15-48H144l-15 48v32h-25.6L89 176v32H62.8L48 256v165.3c0 23.5 35.2 42.7 58.7 42.7h314.7c21.8 0 42.7-19.7 42.7-41V256l-14.9-48zM176 96h160v32H176V96zm-41 80h242v32H135v-32zm282 112h-82.6c-7.4 36.5-39.7 64-78.4 64s-71-27.5-78.4-64H95v-32h322v32z\"}}]})(props);\n};\nexport function IoMdFilm (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M376 64v42.667h-40V64H176v42.667h-40V64H96v384h40v-42.666h40V448h160v-42.666h40V448h40V64h-40zM176 362.667h-40V320h40v42.667zm0-85.333h-40v-42.667h40v42.667zM176 192h-40v-42.666h40V192zm200 170.667h-40V320h40v42.667zm0-85.333h-40v-42.667h40v42.667zM376 192h-40v-42.666h40V192z\"}}]})(props);\n};\nexport function IoMdFingerPrint (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M78.1 205.6c-2.4 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function IoMdFlower (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M405.1 256c25.2-11.9 42.9-37.1 42.9-66.9 0-41-33.6-74.3-75-74.3-15.9 0-30.3 4.8-42.6 13.1l.6-5.6c0-41-33.6-74.3-75-74.3s-75 33.3-75 74.3l.6 5.6c-12-8.3-26.7-13.1-42.6-13.1-41.4 0-75 33.3-75 74.3 0 29.7 17.7 55 42.9 66.9C81.7 267.9 64 293.1 64 322.9c0 41 33.6 74.3 75 74.3 15.9 0 30.3-4.8 42.6-13.1l-.6 5.6c0 41 33.6 74.3 75 74.3s75-33.3 75-74.3l-.6-5.6c12 8.3 26.7 13.1 42.6 13.1 41.4 0 75-33.3 75-74.3 0-29.8-17.7-55-42.9-66.9zM256 330.3c-41.4 0-75-33.3-75-74.3s33.6-74.3 75-74.3 75 33.3 75 74.3-33.6 74.3-75 74.3z\"}}]})(props);\n};\nexport function IoMdFolderOpen (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M437.334 144H256.006l-42.668-48H74.666C51.197 96 32 115.198 32 138.667v234.666C32 396.802 51.197 416 74.666 416h362.668C460.803 416 480 396.802 480 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GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M256 48C141.1 48 48 141.1 48 256s93.1 208 208 208 208-93.1 208-208S370.9 48 256 48zm61 356l-12.2-39.6c13-5.8 24.9-14 35.3-24.4 10.4-10.4 18.6-22.3 24.4-35.3l39.5 12.1c-7.9 19.3-19.7 37-34.9 52.2-15.1 15.3-32.8 27.1-52.1 35zM195 108l12.2 39.6c-13 5.8-24.9 14-35.3 24.4-10.4 10.4-18.6 22.3-24.4 35.3L108 195.2c7.9-19.3 19.7-37 34.9-52.2 15.1-15.3 32.8-27.1 52.1-35zm61 84c35.3 0 64 28.7 64 64s-28.7 64-64 64-64-28.7-64-64 28.7-64 64-64zm113.1-49.1c15.2 15.2 26.9 32.9 34.9 52.1l-39.5 12.2c-5.9-13-14-24.9-24.4-35.3-10.4-10.4-22.3-18.6-35.3-24.4l12.1-39.5c19.3 7.9 37 19.7 52.2 34.9zM142.9 369.1c-15.2-15.1-27-32.8-34.9-52.1l39.5-12.2c5.9 13 14 24.9 24.4 35.3 10.4 10.4 22.3 18.6 35.3 24.4L195.1 404c-19.3-7.9-37-19.7-52.2-34.9z\"}}]})(props);\n};\nexport function IoMdHelpCircleOutline (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M256 90c44.3 0 86 17.3 117.4 48.6C404.7 170 422 211.7 422 256s-17.3 86-48.6 117.4C342 404.7 300.3 422 256 422s-86-17.3-117.4-48.6C107.3 342 90 300.3 90 256s17.3-86 48.6-117.4C170 107.3 211.7 90 256 90m0-42C141.1 48 48 141.1 48 256s93.1 208 208 208 208-93.1 208-208S370.9 48 256 48z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M235 339h42v42h-42zM276.8 318h-41.6c0-67 62.4-62.2 62.4-103.8 0-22.9-18.7-41.7-41.6-41.7S214.4 192 214.4 214h-41.6c0-46 37.2-83 83.2-83s83.2 37.1 83.2 83.1c0 52-62.4 57.9-62.4 103.9z\"}}]})(props);\n};\nexport function IoMdHelpCircle (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M256 48C141.2 48 48 141.2 48 256s93.2 208 208 208 208-93.2 208-208S370.8 48 256 48zm21 333h-42v-42h42v42zm-.2-63h-41.6c0-67 62.4-62.2 62.4-103.8 0-22.9-18.7-41.7-41.6-41.7S214.4 192 214.4 214h-41.6c0-46 37.2-83 83.2-83s83.2 37.1 83.2 83.1c0 52-62.4 57.9-62.4 103.9z\"}}]})(props);\n};\nexport function IoMdHelp (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M289 448h-66v-65h66v65zm-1-98h-64c0-101 96-95.1 96-159 0-35.2-28.8-63.4-64-63.4S192 158 192 192h-64c0-71 57.3-128 128-128s128 56.4 128 127c0 79.9-96 89-96 159z\"}}]})(props);\n};\nexport function IoMdHome (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M208 448V320h96v128h97.6V256H464L256 64 48 256h62.4v192z\"}}]})(props);\n};\nexport function IoMdHourglass (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M128 48v122.8h.2l-.2.2 85.3 85-85.3 85.2.2.2h-.2V464h256V341.4h-.2l.2-.2-85.3-85.2 85.3-85-.2-.2h.2V48H128zm213.3 303.9v71.5H170.7v-71.5l85.3-85.2 85.3 85.2zM256 245.4l-85.3-85.2V87.6h170.7v72.5L256 245.4z\"}}]})(props);\n};\nexport function IoMdIceCream (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M128.1 256l128 224 128-224zM392 161c3-9 4.7-22.7 4.7-32.9 0-53.1-43-96.1-96.1-96.1-31.4 0-59.2 15-76.8 38.3 0 0-9.1 14-10.8 29l-3.4-1c-2.3-9-3.7-20 1.6-31.5-7.4-2.5-9.4-2.8-17.6-2.8-41.7 0-75.6 33.8-75.6 75.6 0 6.3.8 15.5 2.3 21.4-13.9 3.5-24.3 16.1-24.3 31 0 17.6 14.4 32 32 32h256c17.6 0 32-14.4 32-32 0-14.8-10.2-27.4-24-31z\"}}]})(props);\n};\nexport function IoMdImage (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M448 405.333V106.667C448 83.198 428.802 64 405.333 64H106.667C83.198 64 64 83.198 64 106.667v298.666C64 428.802 83.198 448 106.667 448h298.666C428.802 448 448 428.802 448 405.333zM181.333 288l53.334 64 74.666-96 96 128H106.667l74.666-96z\"}}]})(props);\n};\nexport function IoMdImages (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M457.6 140.2l-82.5-4-4.8-53.8c-1-11.3-11.1-19.2-22.9-18.3L51.5 88.4c-11.8 1-20.3 10.5-19.4 21.7l21.2 235.8c1 11.3 11.2 19.2 22.9 18.3l15-1.2-2.4 45.8c-.6 12.6 9.2 22.8 22.4 23.5L441.3 448c13.2.6 24.1-8.6 24.8-21.2L480 163.5c.6-12.5-9.3-22.7-22.4-23.3zm-354.9 5.3l-7.1 134.8L78.1 305 62 127v-.5-.5c1-5 4.4-9 9.6-9.4l261-21.4c5.2-.4 9.7 3 10.5 7.9 0 .2.3.2.3.4 0 .1.3.2.3.4l2.7 30.8-219-10.5c-13.2-.4-24.1 8.8-24.7 21.3zm334 236.9l-84.8-99.5-37.4 34.3-69.2-80.8-122.7 130.7L133 168v-.4c1-5.4 6.2-9.3 11.9-9l291.2 14c5.8.3 10.3 4.7 10.4 10.2 0 .2.3.3.3.5l-10.1 199.1z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M384 256c17.6 0 32-14.4 32-32s-14.3-32-32-32c-17.6 0-32 14.3-32 32s14.3 32 32 32z\"}}]})(props);\n};\nexport function IoMdInfinite (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M434.7 188c-18.8-18-43.8-28-70.5-28-26.6 0-51.6 9.9-70.4 27.9l-17.6 15.9 33.1 32.1 17-15.4.1-.1c10.1-9.6 23.5-15 37.7-15 14.2 0 27.6 5.3 37.7 14.9 10 9.6 15.4 22.3 15.4 35.8 0 13.5-5.5 26.1-15.4 35.6-10.1 9.6-23.5 15-37.7 15s-27.6-5.3-37.7-14.9L218.2 188c-18.9-18-43.9-28-70.4-28-26.7 0-51.7 9.9-70.5 28C58.4 206.1 48 230.2 48 256c0 25.7 10.4 49.9 29.3 68 18.8 18 43.8 28 70.5 28 26.7 0 51.7-9.9 70.4-28l37.8-36.1 37.7 36.1c18.9 18 43.9 28 70.4 28 26.7 0 51.7-9.9 70.4-27.9 19-18.1 29.4-42.2 29.4-68 .1-25.8-10.3-50-29.2-68.1zM185.5 291.7c-10.1 9.6-23.5 15-37.7 15-14.2 0-27.6-5.3-37.7-14.9-10-9.6-15.4-22.3-15.4-35.8 0-13.5 5.5-26.1 15.4-35.6 10.1-9.6 23.5-15 37.7-15 14.2 0 27.6 5.3 37.7 14.9l37.4 35.8-37.4 35.6z\"}}]})(props);\n};\nexport function IoMdInformationCircleOutline (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M256 90c44.3 0 86 17.3 117.4 48.6C404.7 170 422 211.7 422 256s-17.3 86-48.6 117.4C342 404.7 300.3 422 256 422s-86-17.3-117.4-48.6C107.3 342 90 300.3 90 256s17.3-86 48.6-117.4C170 107.3 211.7 90 256 90m0-42C141.1 48 48 141.1 48 256s93.1 208 208 208 208-93.1 208-208S370.9 48 256 48z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M277 360h-42V235h42v125zm0-166h-42v-42h42v42z\"}}]})(props);\n};\nexport function IoMdInformationCircle (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M256 48C141.2 48 48 141.2 48 256s93.2 208 208 208 208-93.2 208-208S370.8 48 256 48zm21 312h-42V235h42v125zm0-166h-42v-42h42v42z\"}}]})(props);\n};\nexport function IoMdInformation (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M232 235h48v137h-48zM232 140h48v48h-48z\"}}]})(props);\n};\nexport function IoMdJet (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M480 32s-23.4-.7-59.3 27.1C404 72 244.9 186.8 244.9 186.8l-168.8-4.2L32 222l109.8 55.2-8.6 10.8-87.9.1-7.2 40.5 63.1 48.7-26.6 59.8 60-26.4 48.7 63.1 40.5-7.2.1-87.8 10.9-8.5L290.1 480l39.3-44.1-4.2-168.7S440.1 108.2 453 91.6C480.7 55.5 480 32 480 32z\"}}]})(props);\n};\nexport function IoMdJournal (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M117.3 42.7c-17.6 0-32 14.4-32 32v362.7c0 17.6 14.4 32 32 32H320V42.7H117.3zM384.7 42.7H368v426.7h16.7c23.1 0 42-18.9 42-42V84.7c0-23.1-18.9-42-42-42z\"}}]})(props);\n};\nexport function IoMdKey (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M249.2 224c-14.2-40.2-55.1-72-100.2-72-57.2 0-101 46.8-101 104s45.8 104 103 104c45.1 0 84.1-31.8 98.2-72H352v64h69.1v-64H464v-64H249.2zm-97.6 66.5c-19 0-34.5-15.5-34.5-34.5s15.5-34.5 34.5-34.5 34.5 15.5 34.5 34.5-15.5 34.5-34.5 34.5z\"}}]})(props);\n};\nexport function IoMdKeypad (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M256 398.5c-22.3 0-40.5 18.3-40.5 40.7 0 22.4 18.2 40.7 40.5 40.7s40.5-18.3 40.5-40.7c0-22.3-18.2-40.7-40.5-40.7zM136.5 32C114.2 32 96 50.3 96 72.7s18.2 40.7 40.5 40.7S177 95.1 177 72.7 158.8 32 136.5 32zm0 122.2c-22.3 0-40.5 18.3-40.5 40.7s18.2 40.7 40.5 40.7 40.5-18.3 40.5-40.7-18.2-40.7-40.5-40.7zm0 122.2c-22.3 0-40.5 18.3-40.5 40.7 0 22.4 18.2 40.7 40.5 40.7s40.5-18.3 40.5-40.7c0-22.4-18.2-40.7-40.5-40.7zm239-162.9c22.3 0 40.5-18.3 40.5-40.7S397.8 32 375.5 32 335 50.3 335 72.7s18.2 40.8 40.5 40.8zM256 276.4c-22.3 0-40.5 18.3-40.5 40.7 0 22.4 18.2 40.7 40.5 40.7s40.5-18.3 40.5-40.7c0-22.4-18.2-40.7-40.5-40.7zm119.5 0c-22.3 0-40.5 18.3-40.5 40.7 0 22.4 18.2 40.7 40.5 40.7s40.5-18.3 40.5-40.7c0-22.4-18.2-40.7-40.5-40.7zm0-122.2c-22.3 0-40.5 18.3-40.5 40.7s18.2 40.7 40.5 40.7 40.5-18.3 40.5-40.7-18.2-40.7-40.5-40.7zm-119.5 0c-22.3 0-40.5 18.3-40.5 40.7s18.2 40.7 40.5 40.7 40.5-18.3 40.5-40.7-18.2-40.7-40.5-40.7zM256 32c-22.3 0-40.5 18.3-40.5 40.7s18.2 40.7 40.5 40.7 40.5-18.3 40.5-40.7S278.3 32 256 32z\"}}]})(props);\n};\nexport function IoMdLaptop (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M437.334 416C460.803 416 480 396.803 480 373.334V106.668C480 83.199 460.803 64 437.334 64H74.666C51.197 64 32 83.199 32 106.668v266.666C32 396.803 51.197 416 74.666 416H0c0 23.469 64 32 96 32h320c32 0 96-8.531 96-32h-74.666zM74.666 106.668h362.668v271.998H74.666V106.668zM256 434.666c-11.729 0-21.333-9.604-21.333-21.334 0-11.729 9.604-21.332 21.333-21.332s21.333 9.604 21.333 21.332c0 11.73-9.604 21.334-21.333 21.334z\"}}]})(props);\n};\nexport function IoMdLeaf (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M416 287.6C416 120.9 256 32 256 32S96 120.9 96 287.6c0 118.8 81.3 140.5 128 143.2V480h64v-49.3c46.7-2.6 128-24.3 128-143.1z\"}}]})(props);\n};\nexport function IoMdLink (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M74.6 256c0-38.3 31.1-69.4 69.4-69.4h88V144h-88c-61.8 0-112 50.2-112 112s50.2 112 112 112h88v-42.6h-88c-38.3 0-69.4-31.1-69.4-69.4zm85.4 22h192v-44H160v44zm208-134h-88v42.6h88c38.3 0 69.4 31.1 69.4 69.4s-31.1 69.4-69.4 69.4h-88V368h88c61.8 0 112-50.2 112-112s-50.2-112-112-112z\"}}]})(props);\n};\nexport function IoMdListBox (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M408 64H104c-22.091 0-40 17.908-40 40v304c0 22.092 17.909 40 40 40h304c22.092 0 40-17.908 40-40V104c0-22.092-17.908-40-40-40zM304 368H144v-48h160v48zm64-88H144v-48h224v48zm0-88H144v-48h224v48z\"}}]})(props);\n};\nexport function IoMdList (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M80 280h256v48H80zM80 184h320v48H80zM80 88h352v48H80z\"}},{\"tag\":\"g\",\"attr\":{},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M80 376h288v48H80z\"}}]}]})(props);\n};\nexport function IoMdLocate (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M256 176c-44.004 0-80.001 36-80.001 80 0 44.004 35.997 80 80.001 80 44.005 0 79.999-35.996 79.999-80 0-44-35.994-80-79.999-80zm190.938 58.667c-9.605-88.531-81.074-160-169.605-169.599V32h-42.666v33.067c-88.531 9.599-160 81.068-169.604 169.599H32v42.667h33.062c9.604 88.531 81.072 160 169.604 169.604V480h42.666v-33.062c88.531-9.604 160-81.073 169.605-169.604H480v-42.667h-33.062zM256 405.333c-82.137 0-149.334-67.198-149.334-149.333 0-82.136 67.197-149.333 149.334-149.333 82.135 0 149.332 67.198 149.332 149.333S338.135 405.333 256 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0-85.6-17.2-116.9-48.4-14-14-25.3-30.1-33.5-47.9l-1.9-5H58l3.6 10.4c14.9 38.9 40.9 72.1 75.1 96.1C171.8 451.1 213 464 256 464c114.7 0 208-93.3 208-208S370.7 48 256 48z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M48 277.4h189.7l-43.6 44.7L224 352l96-96-96-96-31 29.9 44.7 44.7H48v42.8z\"}}]})(props);\n};\nexport function IoMdLogOut (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M192 277.4h189.7l-43.6 44.7L368 352l96-96-96-96-31 29.9 44.7 44.7H192v42.8z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M255.7 421.3c-44.1 0-85.5-17.2-116.7-48.4-31.2-31.2-48.3-72.7-48.3-116.9 0-44.1 17.2-85.7 48.3-116.9 31.2-31.2 72.6-48.4 116.7-48.4 44 0 85.3 17.1 116.5 48.2l30.3-30.3c-8.5-8.4-17.8-16.2-27.7-23.2C339.7 61 298.6 48 255.7 48 141.2 48 48 141.3 48 256s93.2 208 207.7 208c42.9 0 84-13 119-37.5 10-7 19.2-14.7 27.7-23.2l-30.2-30.2c-31.1 31.1-72.5 48.2-116.5 48.2zM448.004 256.847l-.849-.848.849-.849.848.849z\"}}]})(props);\n};\nexport function IoMdMagnet (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M383.6 98.8C352.1 65.8 308 48.2 256 48c-51.9.2-96 17.8-127.5 50.8C96.8 132 80 178.8 80 234c0 43.5 1.8 69.2 12.9 115.8 0 0 22.7 75.7 35.5 104.1 3.5 7.8 7.4 11.8 15.5 9.3 6.4-2 46.8-17.9 54.7-21.6 7.9-3.6 11.6-8.6 8.9-15.2-3.8-9.2-33.9-95.6-33.9-95.6-8.4-36.3-11.6-53.9-11.6-94.3 0-28.2 9.8-54.1 27.7-72.9 17.5-18.3 41-28.4 66.3-28.4s48.8 10.1 66.3 28.4c17.9 18.8 27.7 44.6 27.7 72.8 0 40-3.2 64-11.7 94.4s-32.2 90.1-33.9 95.6c-1.7 5.6 2.1 12.5 8.9 15.2 6.8 2.7 49.3 19.6 54.7 21.6 5.4 2 10.6.6 14.5-7.7 4-8.3 24.6-61.4 36.5-105.7 12-44.3 13-72.3 13-115.8 0-55.2-16.7-101.9-48.4-135.2zM173.1 419.7l-22.9 9.6c-6.9-16.3-17.2-43.2-25.9-77.2l22-6.5 26.8 74.1zm188.6 9.6l-22.9-9.6c7.2-16.6 19.1-45.1 26.6-74.1l22 6.5c-8.4 33.9-18.7 60.9-25.7 77.2z\"}}]})(props);\n};\nexport function IoMdMailOpen (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M480 201.667c0-14.933-7.469-28.803-20.271-36.266L256 64 52.271 165.401C40.531 172.864 32 186.734 32 201.667v203.666C32 428.802 51.197 448 74.666 448h362.668C460.803 448 480 428.802 480 405.333V201.667zM256 304L84.631 192 256 106.667 427.369 192 256 304z\"}}]})(props);\n};\nexport function IoMdMailUnread (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"circle\",\"attr\":{\"cx\":\"432\",\"cy\":\"128\",\"r\":\"64\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M382.9 203.4L256 288 80 170.7V128l176 117.3 101.1-67.4c-9.5-14.3-15.1-31.5-15.1-49.9 0-17.6 5.1-34.1 13.9-48H74.7C51.2 80 32 99.2 32 122.7v266.7c0 23.5 19.2 42.7 42.7 42.7h362.7c23.5 0 42.7-19.2 42.7-42.7V204.1c-13.9 8.8-30.4 13.9-48 13.9-18.2 0-35.1-5.4-49.2-14.6z\"}}]})(props);\n};\nexport function IoMdMail (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M437.332 80H74.668C51.199 80 32 99.198 32 122.667v266.666C32 412.802 51.199 432 74.668 432h362.664C460.801 432 480 412.802 480 389.333V122.667C480 99.198 460.801 80 437.332 80zM432 170.667L256 288 80 170.667V128l176 117.333L432 128v42.667z\"}}]})(props);\n};\nexport function IoMdMale (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M416 48H288v48h94.1L275.4 202.6C251.9 185.9 223.1 176 192 176c-79.5 0-144 64.5-144 144s64.5 144 144 144 144-64.5 144-144c0-31.1-9.9-59.9-26.6-83.4L416 129.9V224h48V48h-48zM192 416c-52.9 0-96-43.1-96-96s43.1-96 96-96 96 43.1 96 96-43.1 96-96 96z\"}}]})(props);\n};\nexport function IoMdMan (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M256 106.6c20.6.1 37.3-16.6 37.3-37.3 0-20.6-16.7-37.3-37.3-37.3-20.6 0-37.3 16.7-37.3 37.3 0 20.6 16.7 37.3 37.3 37.3zM293.4 115h-74.8c-28.2 0-46.6 24.8-46.6 48.4V277c0 22 31 22 31 0V172h6v285.6c0 30.4 42 29.4 43 0V293h8v164.7c1.7 31.2 43 28.2 43-.1V172h5v105c0 22 32 22 32 0V163.4c0-23.5-18.5-48.4-46.6-48.4z\"}}]})(props);\n};\nexport function IoMdMap (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M437.333 64c-2.176 0-4.396 1.369-9.176 3.207L320 108.802 192 64 71.469 104.531C67.197 105.604 64 109.864 64 115.197v322.136C64 443.729 68.271 448 74.666 448c1.828 0 6.505-2.33 9.087-3.319L192 403.197 320 448l120.531-40.531c4.271-1.073 7.469-5.334 7.469-10.667V74.666C448 68.271 443.729 64 437.333 64zM320 405.333l-128-44.802V106.666l128 44.803v253.864z\"}}]})(props);\n};\nexport function IoMdMedal (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M273.5 152.1H48l54.1-103.9h240.7z\"}},{\"tag\":\"circle\",\"attr\":{\"cx\":\"256.2\",\"cy\":\"377.2\",\"r\":\"86.6\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M348.9 299.1l115.1-147-69.3-103.9L256.4 256c32.3 0 62.7 12.7 85.5 35.5 2.5 2.5 4.8 5 7 7.6zM205.8 266.6L152.3 186H48.4l90.1 161.5c5.2-21.2 16.1-40.6 32-56.4 10.4-10.3 22.3-18.6 35.3-24.5z\"}}]})(props);\n};\nexport function IoMdMedical (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M351.9 256L460 193.6l-48-83.2-108 62.4V48h-96v124.8l-108-62.4-48 83.2L160.1 256 52 318.4l48 83.2 108-62.4V464h96V339.2l108 62.4 48-83.2z\"}}]})(props);\n};\nexport function IoMdMedkit (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M352 144v-39.6C352 82 334 64 311.6 64H200.4C178 64 160 82 160 104.4V144H48v263.6C48 430 66 448 88.4 448h335.2c22.4 0 40.4-18 40.4-40.4V144H352zm-152-40h112v40H200v-40zm136 224h-56v56h-48v-56h-56v-48h56v-56h48v56h56v48z\"}}]})(props);\n};\nexport function IoMdMegaphone (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M382.1 143.4l-23.1 23c14.7 14.7 23.9 35.2 23.9 57.6s-9.2 42.9-23.9 57.6l23.1 23.1c20.6-20.6 33.4-49.2 33.4-80.6s-12.8-60.1-33.4-80.7z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M428.2 99l-22.7 22.7c26.1 26.1 42.3 62.4 42.3 102.3 0 39.8-16.1 76.1-42.3 102.3l22.7 22.7c31.9-32.1 51.8-76.3 51.8-125s-19.8-92.9-51.8-125zM320 184.1V80h-32l-96 80H64l-32 16v112l32 16 80 128h48l-30-128h30l96 64h32V263.9c18.4-1.7 32-18.9 32-39.9s-13.6-38.2-32-39.9z\"}}]})(props);\n};\nexport function IoMdMenu (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M64 384h384v-42.666H64V384zm0-106.666h384v-42.667H64v42.667zM64 128v42.665h384V128H64z\"}}]})(props);\n};\nexport function IoMdMicOff (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M367.951 354.654l-26.616-26.562-9.568-9.548-4.698-4.706L187 174.041v.346L76.112 63.531 51.921 87.572 187 222.47v28.816c0 37.79 31.121 68.714 68.91 68.714a68.6 68.6 0 0 0 24.565-4.545l32.389 32.274c-17.333 8.793-36.812 13.86-56.782 13.86-62.986 0-121.365-48.59-121.365-116.59H95.773C95.773 322 158 387.701 233 398.013V480h46v-81.987c22-3.352 43.066-11.222 61.627-22.622l95.278 95.078 24.033-24-33.847-33.785-58.216-57.959 58.224 57.959-58.148-58.03zM325 251.286V100.714C325 62.924 293.791 32 256 32s-69 30.924-69 68.714v25.244l137.109 136.968c.67-3.791.891-7.679.891-11.64zM416.439 245h-38.941c0 20.496-5.498 39.676-14.931 56.197l27.572 27.516c16.523-24.11 26.3-52.787 26.3-83.713zM459.999 446.427l-33.897-33.743 33.855 33.785z\"}}]})(props);\n};\nexport function IoMdMic (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M256 320c37.712 0 68.571-30.924 68.571-68.714V100.714C324.571 62.924 293.712 32 256 32s-68.571 30.924-68.571 68.714v150.572c0 37.79 30.859 68.714 68.571 68.714zm121.139-75.452c0 68.714-58.282 116.815-121.139 116.815s-121.139-48.102-121.139-116.815H96c0 77.873 61.719 143.153 137.144 153.465V480h45.713v-81.987C354.281 386.561 416 322.421 416 244.548h-38.861z\"}}]})(props);\n};\nexport function IoMdMicrophone (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M384 112V84.4c0-29-24.5-52.4-54.8-52.4H182.9C152.5 32 128 55.4 128 84.4V112h152v37H128v43h152v37H128v43h152v37H128v41.8c0 29 24.5 52.2 54.9 52.2H213v77h86v-77h30.2c30.3 0 54.8-23.2 54.8-52.2V309h-56v-37h56v-43h-56v-37h56v-43h-56v-37h56z\"}}]})(props);\n};\nexport function IoMdMoon (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M195 125c0-26.3 5.3-51.3 14.9-74.1C118.7 73 51 155.1 51 253c0 114.8 93.2 208 208 208 97.9 0 180-67.7 202.1-158.9-22.8 9.6-47.9 14.9-74.1 14.9-106 0-192-86-192-192z\"}}]})(props);\n};\nexport function IoMdMore (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M296 136c0-22.002-17.998-40-40-40s-40 17.998-40 40 17.998 40 40 40 40-17.998 40-40zm0 240c0-22.002-17.998-40-40-40s-40 17.998-40 40 17.998 40 40 40 40-17.998 40-40zm0-120c0-22.002-17.998-40-40-40s-40 17.998-40 40 17.998 40 40 40 40-17.998 40-40z\"}}]})(props);\n};\nexport function IoMdMove (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M480 256l-96-96v64h-96v-96h64l-96-96-96 96h64v96h-96v-64l-96 96 96 96v-64h96v96h-64l96 96 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448 256 384l145.062 64L416 433.062z\"}}]})(props);\n};\nexport function IoMdNotificationsOff (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M256 463.656c22.814 0 41.475-18.656 41.475-41.656h-82.95c0 23 18.661 41.656 41.475 41.656z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M131.083 107.172l.053.074L98.09 74.277 74.004 98.383l63.042 63.153C126.888 180.521 121 202.196 121 225.07v114.555l-41 41.656V402h297.743l36.182 36.33 24.079-24.301L425.9 402h.316L131.083 107.172zM391 225.07c0-63.526-45-117.677-104-131.218V79.274c0-17.706-13.371-31.243-31-31.243-17.628 0-31 13.537-31 31.243v14.578c-15 3.438-29.048 9.501-41.75 17.663L391 319.355V225.07z\"}}]})(props);\n};\nexport function IoMdNotificationsOutline (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M257 120.471c7.083 0 23.911 4.479 23.911 4.479 45.589 10.447 77.678 52.439 77.678 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GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M336 272c0-29.8-16.3-55.7-40.4-69.5l73.1-124.1C335.6 59.1 297.1 48 256 48c-41.2 0-79.9 11.2-113.1 30.6l71.6 125C191.4 217.6 176 243 176 272H32c0 83.3 46.9 153.4 114.4 192l70.1-122.4c11.7 6.6 25.1 10.4 39.5 10.4 14.3 0 27.7-3.8 39.3-10.3L365.6 464C433.1 425.4 480 355.3 480 272H336z\"}}]})(props);\n};\nexport function IoMdNutrition (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M357.2 235.6L274.7 153h-.8c-8.1-6-18.2-10.3-28.4-10.3-13.7 0-26.1 6.3-34.3 16.3h-.6L53 414.1v.8c-3 6.2-5 13.3-5 20.8 0 24.4 19.7 44.3 44.3 44.3 9.4 0 18-2.9 27.4-9.1l232.9-168.1c10.9-8.3 17.4-21.6 17.4-36 0-12-4.7-23.2-12.8-31.2zM464 145.1l-29.2-49-36.6 20.3 31.5-55.9L380.6 32l-67.3 127.8 41.3 41.4z\"}}]})(props);\n};\nexport function IoMdOpen (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M405.34 405.332H106.66V106.668H240V64H106.66C83.191 64 64 83.197 64 106.668v298.664C64 428.803 83.191 448 106.66 448h298.68c23.469 0 42.66-19.197 42.66-42.668V272h-42.66v133.332zM288 64v42.668h87.474L159.999 322.133l29.866 29.866 215.476-215.47V224H448V64H288z\"}}]})(props);\n};\nexport function IoMdOptions (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M32 384h272v32H32zM400 384h80v32h-80zM384 447.5c0 17.949-14.327 32.5-32 32.5-17.673 0-32-14.551-32-32.5v-95c0-17.949 14.327-32.5 32-32.5 17.673 0 32 14.551 32 32.5v95z\"}},{\"tag\":\"g\",\"attr\":{},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M32 240h80v32H32zM208 240h272v32H208zM192 303.5c0 17.949-14.327 32.5-32 32.5-17.673 0-32-14.551-32-32.5v-95c0-17.949 14.327-32.5 32-32.5 17.673 0 32 14.551 32 32.5v95z\"}}]},{\"tag\":\"g\",\"attr\":{},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M32 96h272v32H32zM400 96h80v32h-80zM384 159.5c0 17.949-14.327 32.5-32 32.5-17.673 0-32-14.551-32-32.5v-95c0-17.949 14.327-32.5 32-32.5 17.673 0 32 14.551 32 32.5v95z\"}}]}]})(props);\n};\nexport function IoMdOutlet (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M369.5 32H142.4C81.5 32 32 82.6 32 144.6v222.8c0 62 49.5 112.6 110.4 112.6h227.2c60.9 0 110.5-50.6 110.5-112.6V144.6C480 82.6 430.5 32 369.5 32zM175 251v.7c0 10.9-9.1 20.4-19.9 20.4h-23.3c-10.8 0-19.9-9.5-19.9-20.4V148.1c1-10.8 9.2-20.2 19.9-20.2h23.3c10.9 0 19.9 9.8 19.9 20.8V251zm122 147.4c0 11.4-8.9 17.6-20.1 17.6h-41.8c-11.2 0-20.1-8.1-20.1-19.6v-29.3c0-23.3 18.1-42.3 41-42.3s41 19 41 42.3v31.3zM400 251v.7c0 10.9-9.1 20.4-19.9 20.4h-24.3c-10.8 0-19.9-9.5-19.9-20.4V148.1c1-10.8 9.2-20.2 19.9-20.2h24.3c10.8 0 19.9 9.8 19.9 20.8V251z\"}}]})(props);\n};\nexport function IoMdPaperPlane (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M48 270.9l118.9 44.6L181.7 464 256 360l104 104L464 48 48 270.9zm294.9 126L260 313.4 374.9 152 193.6 289.8 124.9 265l291-156.2-73 288.1z\"}}]})(props);\n};\nexport function IoMdPaper (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M464 64H192c-8.8 0-16 7.7-16 16.5V112H74c-23.1 0-42 18.9-42 42v207.5c0 47.6 39 86.5 86 86.5h279.7c45.1 0 82.3-36.9 82.3-82V80c0-8.8-7.2-16-16-16zm-288 80v192h-42V163.2c0-6.8-.8-13.3-3.3-19.2H176zm-17 255.4C148 410 133.2 416 118.5 416c-14.5 0-28.1-5.7-38.5-16-10.3-10.3-16-24-16-38.5V163.2c0-10.6 8.4-19.2 19-19.2s19 8.6 19 19.2V352c0 8.8 7.2 16 16 16h57.5c-1.5 11.6-7.2 22.6-16.5 31.4zM448 366c0 13.3-5.4 25.8-14.9 35.3-9.5 9.5-22.2 14.7-35.4 14.7H187.3c12.8-14.9 20.7-33.9 20.7-54.5V97h240v269z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M248 136h160v56H248zM248 224h160v32H248zM248 288h160v32H248zM408 352H248s0 32-8 32h148.7c19.3 0 19.3-21 19.3-32z\"}}]})(props);\n};\nexport function IoMdPartlySunny (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M248.03 116.81l24.679-24.678 19.233 19.234-24.678 24.677zM176 125.7c-45.3 0-82.3 37-82.3 82.3 0 17.5 5.5 33.7 14.9 47 15.3-13 33.9-22.6 54.7-27.6l13.2-16.6c13.6-17.1 30.7-30.2 50.8-38.9 6.1-2.6 12.4-4.8 19-6.6-14.5-23.7-40.6-39.6-70.3-39.6zM162 64h28v41h-28zM32 194h41v28H32zM81.6 276.8l-.8-.8-24.7 24.7 19.2 19.2 24.7-24.7zM79.289 92.13l24.678 24.678-19.233 19.233-24.678-24.678zM405.6 288.6C394.7 233.4 346.2 192 288 192c-34 0-65.1 11.9-86.5 38.8 29.4 2.2 56.7 13 77.8 33.9 15.6 15.6 26.6 34.6 32.1 55.3h-28.7c-13.1-37.3-48-64-90.6-64-5.1 0-12.3.6-17.7 1.7C128.6 267.1 96 305 96 352c0 53 43 96 96 96h208c44.2 0 80-35.8 80-80 0-42.2-32.8-76.5-74.4-79.4z\"}}]})(props);\n};\nexport function IoMdPause (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M96 448h106.7V64H96v384zM309.3 64v384H416V64H309.3z\"}}]})(props);\n};\nexport function IoMdPaw (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M459.5 165.9c-4.7-10.5-12.7-18.1-23.1-22-4.8-1.7-9.7-2.6-14.8-2.6-21.7 0-43.7 16.7-54.9 41.6-13.8 30.9-5.8 61 18.6 70.3 4.9 1.8 10.1 2.8 15.6 2.8 22.1 0 44.6-15.3 55.9-38.1 8.5-17.5 9.5-36.8 2.7-52zM145.3 182.8c-11.1-24.9-33.2-41.6-54.9-41.6-5.1 0-10.1.9-14.8 2.6-10.4 3.9-18.3 11.5-23.1 22-6.9 15.2-5.9 34.6 2.7 51.9 11.3 22.8 33.8 38.1 55.9 38.1 5.4 0 10.7-.9 15.6-2.8 24.4-9.1 32.4-39.3 18.6-70.2zM193.5 179.4c2 .1 4 0 6-.2 11.7-.9 22.3-5.9 30.6-14.3 13.4-13.6 17.1-34.9 14.3-56.8-4.3-33.7-25.8-59-54.8-60.1 0 0-4.1 0-6.2.2-12.8 1.1-24.4 6.5-33.5 15.9-13.3 13.6-19.7 33.7-17.1 53.8 4.3 33.4 30.9 60.4 60.7 61.5zM256 224c-69.3 0-138.7 97.1-138.7 176.3 0 23.6 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0-17.454.997 23.426 17.002 32 28 32 58v54h128v-54c0-47.002-94.688-58.997-142.546-58.997z\"}}]})(props);\n};\nexport function IoMdPersonAdd (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M304 256c52.805 0 96-43.201 96-96s-43.195-96-96-96-96 43.201-96 96 43.195 96 96 96zm0 48c-63.598 0-192 32.402-192 96v48h384v-48c0-63.598-128.402-96-192-96zM112 224v-64H80v64H16v32h64v64h32v-64h64v-32h-64z\"}}]})(props);\n};\nexport function IoMdPerson (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M256 256c52.805 0 96-43.201 96-96s-43.195-96-96-96-96 43.201-96 96 43.195 96 96 96zm0 48c-63.598 0-192 32.402-192 96v48h384v-48c0-63.598-128.402-96-192-96z\"}}]})(props);\n};\nexport function IoMdPhoneLandscape (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M480 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128H90.7l66.6-96z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M421.3 48H154.7C131.2 48 112 67.2 112 90.7V96h261.3c23.5 0 42.7 19.2 42.7 42.7V400h5.3c23.5 0 42.7-19.2 42.7-42.7V90.7c0-23.5-19.2-42.7-42.7-42.7z\"}}]})(props);\n};\nexport function IoMdPie (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M32.6 256H256V32.6c-5-.4-10.6-.6-16-.6-114.9 0-208 93.1-208 208 0 5.4.2 11 .6 16z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M109.8 402.2C147.9 449.6 206.4 480 272 480c114.9 0 208-93.1 208-208 0-65.6-30.4-124.1-77.8-162.2C370.5 84.3 331 67.9 288 64.6V288H64.6c3.3 43 19.7 82.5 45.2 114.2z\"}}]})(props);\n};\nexport function IoMdPin (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M256 32c-88.004 0-160 70.557-160 156.801C96 306.4 256 480 256 480s160-173.6 160-291.199C416 102.557 344.004 32 256 32zm0 212.801c-31.996 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32z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M436.9 66C384.7 45.4 320.3 32 256 32c-64.3 0-127.6 12.1-180.9 33.4C70.4 67.3 64 71 64 79.2l9.7 24.1c2.8 4.9 8.7 8.2 15.1 8.2 1.8 0 4.3-.3 7.3-1.5 49-18.9 103.1-29.6 160-29.6 56.9 0 115.2 11.6 160 29.6 3.6 1.4 5.6 1.5 7.3 1.5 6.6 0 12.2-3.3 15-8.1l9.8-24.1c-.2-7.3-5-10.8-11.3-13.3z\"}}]})(props);\n};\nexport function IoMdPlanet (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M135.7 151c-2.5 3-4.9 6-7.2 9.2 32.2 36.3 76.1 76.5 124.2 113.7 37.8 29.2 76.3 55.2 111.4 75.1 5.9 3.3 11.7 6.5 17.3 9.4 2.5-3 4.9-6 7.2-9.2 11.7-16.1 18.1-33.2 23.3-53.6.8-3.2 1.5-6.4 2.1-9.5 15.8-83-35.6-164.9-118.5-185.9-37-9.4-74.1-5.1-106.3 9.7-21.4 9.9-38.2 22.9-53.5 41.1z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M418.2 326.8c-4.1 11-7.4 17.5-7.4 17.5 18.2 21.1 24.6 33.9 31.9 46.4 2.4 4.1 7.4 13.1.9 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52z\"}}]})(props);\n};\nexport function IoMdPodium (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M32 224h128v192H32zM192 128h128v288H192zM352 288h128v128H352z\"}}]})(props);\n};\nexport function IoMdPower (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M279.1 48h-46.2v231.1h46.2V48zm111.6 50.2L357.9 131c36.5 29.4 59.9 74.4 59.9 125 0 89.4-72.3 161.8-161.8 161.8S94.2 345.4 94.2 256c0-50.6 23.3-95.7 59.6-125.3l-32.6-32.6C76.4 136.3 48 192.7 48 256c0 114.9 93.1 208 208 208s208-93.1 208-208c0-63.3-28.4-119.7-73.3-157.8z\"}}]})(props);\n};\nexport function IoMdPricetag (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M416 64H257.6L76.5 251.6c-8 8-12.3 18.5-12.5 29-.3 11.3 3.9 22.6 12.5 31.2l123.7 123.6c8 8 20.8 12.5 28.8 12.5s22.8-3.9 31.4-12.5L448 256V96l-32-32zm-30.7 102.7c-21.7 6.1-41.3-10-41.3-30.7 0-17.7 14.3-32 32-32 20.7 0 36.8 19.6 30.7 41.3-2.9 10.3-11.1 18.5-21.4 21.4z\"}}]})(props);\n};\nexport function IoMdPricetags (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M442 107v141L229.2 451.7c8 8 20.8 12.3 28.8 12.3s22.8-3.7 31.4-12.3L480 272V144l-38-37z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M384 48H224L44.3 235.6c-8 8-12 17.8-12.3 28.4-.3 11.3 3.7 23.3 12.3 31.9l123.8 123.6c8 8 20.8 12.5 28.8 12.5s22.7-3.9 31.3-12.5L416 240V80l-32-32zm-30.7 102.7c-21.7 6.1-41.3-10-41.3-30.7 0-17.7 14.3-32 32-32 20.7 0 36.8 19.6 30.7 41.3-2.9 10.3-11.1 18.5-21.4 21.4z\"}}]})(props);\n};\nexport function IoMdPrint (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M399.95 160h-287.9C76.824 160 48 188.803 48 224v138.667h79.899V448H384.1v-85.333H464V224c0-35.197-28.825-64-64.05-64zM352 416H160V288h192v128zm32.101-352H127.899v80H384.1V64z\"}}]})(props);\n};\nexport function IoMdPulse (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M428 269c-21.5 0-40.6 13.1-48.4 33h-41.2L307 221.3c-2.7-8.2-10.3-13.7-19-13.7h-.4c-8.8.2-16.4 6-18.8 14.5l-33.6 135.4-55.5-291.8C178 55.6 169.6 48 160 48c-9.5 0-16.9 6.2-19.4 16.2L90.3 302H32v40h74c9.2 0 17.2-6.2 19.4-15.2l30.7-160.6 54.1 282.1c1.5 8.8 8.9 15.1 18.6 15.7h1.2c9.3 0 16.9-5.3 19.2-13.5l40.2-162.9 15.5 40.7c2.7 8.2 10.3 13.7 19 13.7h56.4c8.3 19 27.1 31 47.6 31 13.9 0 26.9-5.6 36.8-15.8 9.8-10.1 15.2-23.3 15.2-37.2.1-28.6-22.7-51-51.9-51z\"}}]})(props);\n};\nexport function IoMdQrScanner (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M96 124.2c0-6.9 5.2-12.2 12.2-12.2H176V64h-66.8C75.7 64 48 90.7 48 124.2V192h48v-67.8zM403.6 64H336v48h67.2c6.9 0 12.8 5.2 12.8 12.2V192h48v-67.8c0-33.5-27-60.2-60.4-60.2zM416 386.8c0 6.9-5.2 12.2-12.2 12.2H336v49h67.8c33.5 0 60.2-27.7 60.2-61.2V320h-48v66.8zM108.2 399c-6.9 0-12.2-5.2-12.2-12.2V320H48v66.8c0 33.5 27.7 61.2 61.2 61.2H176v-49h-67.8z\"}}]})(props);\n};\nexport function IoMdQuote (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M96.4 416h77.1l50.9-96.6V96h-160v223.4h77.1L96.4 416zm224 0h77.1l50-96.6V96H288.4v223.4h82l-50 96.6z\"}}]})(props);\n};\nexport function IoMdRadioButtonOff (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M256 48C141.601 48 48 141.601 48 256s93.601 208 208 208 208-93.601 208-208S370.399 48 256 48zm0 374.399c-91.518 0-166.399-74.882-166.399-166.399S164.482 89.6 256 89.6 422.4 164.482 422.4 256 347.518 422.399 256 422.399z\"}}]})(props);\n};\nexport function IoMdRadioButtonOn (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M256 152c-57.2 0-104 46.8-104 104s46.8 104 104 104 104-46.8 104-104-46.8-104-104-104zm0-104C141.601 48 48 141.601 48 256s93.601 208 208 208 208-93.601 208-208S370.399 48 256 48zm0 374.4c-91.518 0-166.4-74.883-166.4-166.4S164.482 89.6 256 89.6 422.4 164.482 422.4 256 347.518 422.4 256 422.4z\"}}]})(props);\n};\nexport function IoMdRadio (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M73.8 141.9c-15.2 6-25.8 21.8-25.8 39.5v256c0 23.5 18.5 42.7 41.6 42.7h332.8c23.1 0 41.6-19.2 41.6-42.7v-256c0-23.7-18.5-42.7-41.6-42.7H179l171.8-71.3L336.7 32 73.8 141.9zM160 438c-35.4 0-64-28.6-64-64s28.6-64 64-64 64 28.6 64 64-28.6 64-64 64zm256-171.3h-32v-46.2h-44.8v46.2H96v-85.3h320v85.3z\"}}]})(props);\n};\nexport function IoMdRainy (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M139 400s-23 25.3-23 40.7c0 12.8 10.3 23.3 23 23.3s23-10.5 23-23.3c0-15.4-23-40.7-23-40.7zM217 368s-23 25.3-23 40.7c0 12.8 10.4 23.3 23 23.3 12.7 0 23-10.5 23-23.3 0-15.4-23-40.7-23-40.7zM295 400s-23 25.3-23 40.7c0 12.8 10.3 23.3 23 23.3 12.6 0 23-10.5 23-23.3 0-15.4-23-40.7-23-40.7zM373 368s-23 25.3-23 40.7c0 12.8 10.4 23.3 23 23.3 12.7 0 23-10.5 23-23.3 0-15.4-23-40.7-23-40.7zM393.2 161.2C380.5 96.6 323.9 48 256 48c-39.7 0-76 14-100.9 45.4 34.3 2.6 66.1 15.2 90.7 39.8 18.2 18.2 31 40.5 37.4 64.8h-33.5c-15.3-43.7-56-75-105.7-75-6 0-14.3.7-20.6 2C70 136 32 180.4 32 235.5 32 297.6 79.4 352 141.2 352h242.7c51.5 0 96.2-46 96.2-97.8-.1-49.4-38.4-89.6-86.9-93z\"}}]})(props);\n};\nexport function IoMdRecording (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M369.8 160c-53.4 0-96.2 42.8-96.2 96 0 23.6 7.9 44.5 21.9 61.1h-78.8c14-16.6 21.9-37.5 21.9-61.1 0-53.2-42.9-96-96.2-96S46 202.8 46 256s42.9 96 96.2 96h227.5c53.4 0 96.2-42.8 96.2-96s-42.8-96-96.1-96zM142.2 317.1C108.1 317.1 81 290 81 256s27.1-61.1 61.2-61.1 61.2 27.1 61.2 61.1-27 61.1-61.2 61.1zm227.6 0c-34.1 0-61.2-27.1-61.2-61.1s27.1-61.1 61.2-61.1S431 222 431 256s-27.1 61.1-61.2 61.1z\"}}]})(props);\n};\nexport function IoMdRedo (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M32 337.2L83.8 352c22.9-69.7 88.7-117.8 166-117.8 42.8 0 81.5 15.7 111.8 41.1L282.5 352H480V160l-79.6 76.3c-40.4-35.2-92.8-56.8-150.7-56.8-101.5.1-187.3 66.2-217.7 157.7z\"}}]})(props);\n};\nexport function IoMdRefreshCircle (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M256 48C141.6 48 48 141.6 48 256s93.6 208 208 208 208-93.6 208-208S370.4 48 256 48zm112 194h-98l44.8-44.8C300.1 181.8 279.1 172 256 172c-46.2 0-84 37.8-84 84s37.8 84 84 84c34.9 0 65.3-21.2 77.6-52h29.8c-13.9 46.3-56.3 80-107.4 80-62.3 0-112-50.4-112-112s50.4-112 112-112c30.8 0 58.8 12.6 79.1 32.9L368 144v98z\"}}]})(props);\n};\nexport function IoMdRefresh (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M256 388c-72.597 0-132-59.405-132-132 0-72.601 59.403-132 132-132 36.3 0 69.299 15.4 92.406 39.601L278 234h154V80l-51.698 51.702C348.406 99.798 304.406 80 256 80c-96.797 0-176 79.203-176 176s78.094 176 176 176c81.045 0 148.287-54.134 169.401-128H378.85c-18.745 49.561-67.138 84-122.85 84z\"}}]})(props);\n};\nexport function IoMdRemoveCircleOutline (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M256 90c44.3 0 86 17.3 117.4 48.6C404.7 170 422 211.7 422 256s-17.3 86-48.6 117.4C342 404.7 300.3 422 256 422s-86-17.3-117.4-48.6C107.3 342 90 300.3 90 256s17.3-86 48.6-117.4C170 107.3 211.7 90 256 90m0-42C141.1 48 48 141.1 48 256s93.1 208 208 208 208-93.1 208-208S370.9 48 256 48z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M363 277H149v-42h214v42z\"}}]})(props);\n};\nexport function IoMdRemoveCircle (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M256 48C141.125 48 48 141.125 48 256s93.125 208 208 208 208-93.125 208-208S370.875 48 256 48zm107 229H149v-42h214v42z\"}}]})(props);\n};\nexport function IoMdRemove (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M96 235h320v42H96z\"}}]})(props);\n};\nexport function IoMdReorder (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M96 348h320v36H96zM96 128h320v36H96zM96 200.7h320v35.6H96zM96 275.8h320v35.6H96z\"}}]})(props);\n};\nexport function IoMdRepeat (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M149.3 152h213.3v62.4l85.3-83.2L362.7 48v62.4h-256v124.8h42.7V152zm213.4 208H149.3v-62.4L64 380.8l85.3 83.2v-62.4h256V276.8h-42.7V360z\"}}]})(props);\n};\nexport function IoMdResize (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M297.6 48l64.9 64.9-249.6 249.6L48 297.6V464h166.4l-64.9-64.9 249.6-249.6 64.9 64.9V48z\"}}]})(props);\n};\nexport function IoMdRestaurant (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M164.852 279.939l61.834-60.251L73.72 71.706c-33.626 32.764-33.626 86.677 0 119.44l91.132 88.793z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M312.389 241.88c33.636 14.802 80.283 4.232 113.91-29.593 41.222-40.165 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288c-45.443 0-83.675 26.076-102.205 64h204.41c-18.53-37.924-56.762-64-102.205-64z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M256 48C140.563 48 48 141.6 48 256s92.563 208 208 208 208-93.6 208-208S370.401 48 256 48zm0 374.4c-91.518 0-166.404-74.883-166.404-166.4 0-91.518 74.887-166.4 166.404-166.4S422.404 164.482 422.404 256 347.518 422.4 256 422.4z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M328.8 235.2c17.683 0 31.201-13.518 31.201-31.2s-13.519-31.2-31.201-31.2c-17.682 0-31.2 13.518-31.2 31.2s13.518 31.2 31.2 31.2zM183.2 235.2c17.682 0 31.2-13.518 31.2-31.2s-13.519-31.2-31.2-31.2c-17.683 0-31.201 13.518-31.201 31.2s13.519 31.2 31.201 31.2z\"}}]})(props);\n};\nexport function IoMdSave (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M362.7 64h-256C83 64 64 83.2 64 106.7v298.7c0 23.5 19 42.7 42.7 42.7h298.7c23.5 0 42.7-19.2 42.7-42.7v-256L362.7 64zM256 405.3c-35.4 0-64-28.6-64-64s28.6-64 64-64 64 28.6 64 64-28.6 64-64 64zM320 192H106.7v-85.3H320V192z\"}}]})(props);\n};\nexport function IoMdSchool (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M113.5 281.2v85.3L256 448l142.5-81.5v-85.3L256 362.7l-142.5-81.5zM256 64L32 192l224 128 183.3-104.7v147.4H480V192L256 64z\"}}]})(props);\n};\nexport function IoMdSearch (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M337.509 305.372h-17.501l-6.571-5.486c20.791-25.232 33.922-57.054 33.922-93.257C347.358 127.632 283.896 64 205.135 64 127.452 64 64 127.632 64 206.629s63.452 142.628 142.225 142.628c35.011 0 67.831-13.167 92.991-34.008l6.561 5.487v17.551L415.18 448 448 415.086 337.509 305.372zm-131.284 0c-54.702 0-98.463-43.887-98.463-98.743 0-54.858 43.761-98.742 98.463-98.742 54.7 0 98.462 43.884 98.462 98.742 0 54.856-43.762 98.743-98.462 98.743z\"}}]})(props);\n};\nexport function IoMdSend (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M48 448l416-192L48 64v149.333L346 256 48 298.667z\"}}]})(props);\n};\nexport function IoMdSettings (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M413.967 276.8c1.06-6.235 1.06-13.518 1.06-20.8s-1.06-13.518-1.06-20.8l44.667-34.318c4.26-3.118 5.319-8.317 2.13-13.518L418.215 115.6c-2.129-4.164-8.507-6.235-12.767-4.164l-53.186 20.801c-10.638-8.318-23.394-15.601-36.16-20.801l-7.448-55.117c-1.06-4.154-5.319-8.318-10.638-8.318h-85.098c-5.318 0-9.577 4.164-10.637 8.318l-8.508 55.117c-12.767 5.2-24.464 12.482-36.171 20.801l-53.186-20.801c-5.319-2.071-10.638 0-12.767 4.164L49.1 187.365c-2.119 4.153-1.061 10.399 2.129 13.518L96.97 235.2c0 7.282-1.06 13.518-1.06 20.8s1.06 13.518 1.06 20.8l-44.668 34.318c-4.26 3.118-5.318 8.317-2.13 13.518L92.721 396.4c2.13 4.164 8.508 6.235 12.767 4.164l53.187-20.801c10.637 8.318 23.394 15.601 36.16 20.801l8.508 55.117c1.069 5.2 5.318 8.318 10.637 8.318h85.098c5.319 0 9.578-4.164 10.638-8.318l8.518-55.117c12.757-5.2 24.464-12.482 36.16-20.801l53.187 20.801c5.318 2.071 10.637 0 12.767-4.164l42.549-71.765c2.129-4.153 1.06-10.399-2.13-13.518l-46.8-34.317zm-158.499 52c-41.489 0-74.46-32.235-74.46-72.8s32.971-72.8 74.46-72.8 74.461 32.235 74.461 72.8-32.972 72.8-74.461 72.8z\"}}]})(props);\n};\nexport function IoMdShareAlt (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M448 248L288 96v85.334C138.666 202.667 85.333 309.334 64 416c53.333-74.666 117.333-108.802 224-108.802v87.469L448 248z\"}}]})(props);\n};\nexport function IoMdShare (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M383.822 344.427c-16.045 0-31.024 5.326-41.721 15.979l-152.957-88.42c1.071-5.328 2.142-9.593 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512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M222.2 188.1L97.8 64 64 97.8l124.1 124.1 34.1-33.8zM316 64l49 49L64 414.2 97.8 448 399 147l49 49V64H316zm7.9 225.8l-33.8 33.8 75.1 75.1L316 448h132V316l-49 49-75.1-75.2z\"}}]})(props);\n};\nexport function IoMdSkipBackward (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M170.7 256L448 448V64L170.7 256zM64 64h64v384H64z\"}}]})(props);\n};\nexport function IoMdSkipForward (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M64 64v384l277.3-192L64 64zM384 64h64v384h-64z\"}}]})(props);\n};\nexport function IoMdSnow (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M461.4 298.5l-8.3-30.9-88 23.6-60.4-34.9 60.4-34.9 88 23.6 8.3-30.9-57.1-15.3 57.7-33.3-24-41.5-56.6 32.7 15.3-57.1-30.9-8.3-23.6 88-62.2 35.9v-71.1l64.5-64.4-22.7-22.6L280 98.9V32h-48v65.6l-41.7-41.7-22.6 22.6 64.3 64.4v71.4l-60.7-35-23.6-88-30.9 8.3 15.3 57.1-57.7-33.4-24 41.6 56.7 32.7L50 212.9l8.3 30.9 87.9-23.6 62.6 36.1-62.6 36.2-87.9-23.6-8.3 30.9 57.1 15.3-56.7 32.7 24 41.5 57.7-33.3-15.3 57 30.9 8.3 23.6-87.9 60.7-35.1v70.9l-64.3 64.4 22.6 22.6 41.7-41.8V480h48v-66.8l41.9 41.7 22.5-22.6L280 368v-70.6l62.2 36 23.6 87.9 30.9-8.3-15.3-57 56.6 32.7 24-41.6-57.7-33.3z\"}}]})(props);\n};\nexport function IoMdSpeedometer (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M128 416h256v48H128zM256 288c17.7 0 32-14.3 32-32s-14.3-32-32-32c-3 0-6 .4-8.8 1.2l-66.7-48.7-4 3.5 48.9 66.7c-.9 2.9-1.4 6-1.4 9.3 0 17.7 14.3 32 32 32z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M256 48C141.1 48 48 141.1 48 256c0 48.3 16.5 92.7 44.1 128h58.8l4-4 22.1-22.1-22.9-22.9-22.1 22c-19.9-24.3-32.1-54-35.2-85H128v-32H96.8c3.1-31 15.3-60.7 35.2-85l22.1 22 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64z\"}}]})(props);\n};\nexport function IoMdStarHalf (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M458 210.409l-145.267-12.476L256 64l-56.743 133.934L54 210.409l110.192 95.524L131.161 448 256 372.686 380.83 448l-33.021-142.066L458 210.409zM272.531 345.287L256 335.313l-.002-189.277 27.27 64.379 7.52 17.751 19.208 1.65 69.846 5.998-52.993 45.939-14.576 12.636 4.367 18.788 15.875 68.299-59.984-36.189z\"}}]})(props);\n};\nexport function IoMdStarOutline (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M458 210.409l-145.267-12.476L256 64l-56.743 133.934L54 210.409l110.192 95.524L131.161 448 256 372.686 380.83 448l-33.021-142.066L458 210.409zM272.531 345.286L256 335.312l-16.53 9.973-59.988 36.191 15.879-68.296 4.369-18.79-14.577-12.637-52.994-45.939 69.836-5.998 19.206-1.65 7.521-17.75 27.276-64.381 27.27 64.379 7.52 17.751 19.208 1.65 69.846 5.998-52.993 45.939-14.576 12.636 4.367 18.788 15.875 68.299-59.984-36.189z\"}}]})(props);\n};\nexport function IoMdStar (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M256 372.686L380.83 448l-33.021-142.066L458 210.409l-145.267-12.475L256 64l-56.743 133.934L54 210.409l110.192 95.525L131.161 448z\"}}]})(props);\n};\nexport function IoMdStats (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M176 64h64v384h-64zM80 336h64v112H80zM272 272h64v176h-64zM368 176h64v272h-64z\"}}]})(props);\n};\nexport function IoMdStopwatch (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M232 306.667h48V176h-48v130.667z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M407.67 170.271l30.786-30.786-33.942-33.941-30.785 30.786C341.217 111.057 300.369 96 256 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GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M168 216h94.9c14.5 14.8 34.7 24 57.1 24 44.2 0 80-35.8 80-80s-35.8-80-80-80c-22.4 0-42.6 9.2-57.1 24H168c-30.8 0-56 25.2-56 56s25.2 56 56 56zm-16.9-72.9c4.6-4.6 10.6-7.1 16.9-7.1h75.7c-2.4 7.6-3.7 15.6-3.7 24s1.3 16.4 3.7 24H168c-6.3 0-12.4-2.5-16.9-7.1-4.6-4.6-7.1-10.6-7.1-16.9s2.5-12.4 7.1-16.9zM344 296h-94.9c-14.5-14.8-34.7-24-57.1-24-44.2 0-80 35.8-80 80s35.8 80 80 80c22.4 0 42.6-9.2 57.1-24H344c30.8 0 56-25.2 56-56s-25.2-56-56-56zm16.9 72.9c-4.6 4.6-10.6 7.1-16.9 7.1h-75.7c2.4-7.6 3.7-15.6 3.7-24s-1.3-16.4-3.7-24H344c6.3 0 12.4 2.5 16.9 7.1 4.6 4.6 7.1 10.6 7.1 16.9s-2.5 12.4-7.1 16.9z\"}}]})(props);\n};\nexport function IoMdSync (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M256 93.09V32l-80 81.454 80 81.456v-61.093c65.996 0 120 54.982 120 122.183 0 20.363-5 39.714-14.004 57.016L391 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GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M408 64H96c-22.002 0-32 17.998-32 40v344l64-64h280c22.002 0 40-17.998 40-40V104c0-22.002-17.998-40-40-40zM198.4 242H160v-40h38.4v40zm76.8 0h-38.4v-40h38.4v40zm76.8 0h-38.4v-40H352v40z\"}}]})(props);\n};\nexport function IoMdThermometer (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M303 300.2V78.4c0-25.7-21-46.5-47-46.5s-47 20.8-47 46.5v221.9c-29 16.5-48.9 47.8-48.9 83.7 0 53 43 96 96 96s96-43 96-96c0-36-20.1-67.3-49.1-83.8zM240 78.4c0-8 7.7-14.5 16-14.5s16 6.5 16 14.5V128h-32V78.4z\"}}]})(props);\n};\nexport function IoMdThumbsDown (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M314 64H142c-15.7 0-28.6 9.6-34.2 23.4L50.6 222.8c-1.7 4.4-2.6 9-2.6 14v38.6c0 21.1 17 44.6 37.8 44.6h119.3l-18 81.5-.6 6c0 7.9 3.2 15.1 8.3 20.3l20 20.1L341 320.7c6.8-6.9 11-16.5 11-27.1v-192c0-21.1-17.2-37.6-38-37.6zM400 64h64v224h-64z\"}}]})(props);\n};\nexport function IoMdThumbsUp (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M198 448h172c15.7 0 28.6-9.6 34.2-23.4l57.1-135.4c1.7-4.4 2.6-9 2.6-14v-38.6c0-21.1-17-44.6-37.8-44.6H306.9l18-81.5.6-6c0-7.9-3.2-15.1-8.3-20.3L297 64 171 191.3c-6.8 6.9-11 16.5-11 27.1v192c0 21.1 17.2 37.6 38 37.6zM48 224h64v224H48z\"}}]})(props);\n};\nexport function IoMdThunderstorm (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M393.2 161.2C380.5 96.6 323.9 48 256 48c-39.7 0-76 14-100.9 45.4 34.3 2.6 66.1 15.2 90.7 39.8 18.2 18.2 31 40.5 37.4 64.8h-33.5c-15.3-43.7-56-75-105.7-75-6 0-14.3.7-20.6 2C70 136 32 180.4 32 235.5 32 297.6 82.2 336 144 336h68V233h99.1l-33.2 67H311l-18 36h93.7c51.5 0 93.3-30 93.3-81.8 0-49.4-38.3-89.6-86.8-93zM212 368h22v96l59-128h-81z\"}}]})(props);\n};\nexport function IoMdTime (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"g\",\"attr\":{\"fillOpacity\":\".9\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M255.8 48C141 48 48 141.2 48 256s93 208 207.8 208c115 0 208.2-93.2 208.2-208S370.8 48 255.8 48zm.2 374.4c-91.9 0-166.4-74.5-166.4-166.4S164.1 89.6 256 89.6 422.4 164.1 422.4 256 347.9 422.4 256 422.4z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M266.4 152h-31.2v124.8l109.2 65.5 15.6-25.6-93.6-55.5V152z\"}}]}]})(props);\n};\nexport function IoMdTimer (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M232.9 371.6c0 12.7 10.4 23.1 23.1 23.1s23.1-10.4 23.1-23.1c0-12.7-10.4-23.1-23.1-23.1s-23.1 10.3-23.1 23.1zm0-323.6v92.4h46.2V96.1c78.3 11.3 138.7 78.3 138.7 159.9 0 89.4-72.3 161.8-161.8 161.8S94.2 345.4 94.2 256c0-38.8 13.6-74.4 36.5-102.2L256 279.1l32.6-32.6L131.4 89.4v.5C80.8 127.7 48 187.8 48 256c0 114.9 92.9 208 208 208 114.9 0 208-93.1 208-208S370.9 48 256 48h-23.1zm161.8 208c0-12.7-10.4-23.1-23.1-23.1-12.7 0-23.1 10.4-23.1 23.1s10.4 23.1 23.1 23.1c12.7 0 23.1-10.4 23.1-23.1zm-277.4 0c0 12.7 10.4 23.1 23.1 23.1s23.1-10.4 23.1-23.1-10.4-23.1-23.1-23.1-23.1 10.4-23.1 23.1z\"}}]})(props);\n};\nexport function IoMdToday (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M405.3 32H106.7C83.2 32 64 51.2 64 74.7v362.7c0 23.5 19.2 42.7 42.7 42.7h298.7c23.5 0 42.7-19.2 42.7-42.7V74.7C448 51.2 428.8 32 405.3 32zm-4 405.3H110.7c-2.2 0-4-1.8-4-4V78.7c0-2.2 1.8-4 4-4h290.7c2.2 0 4 1.8 4 4v354.7c-.1 2.1-1.9 3.9-4.1 3.9z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M145 194v204c0 1.1.9 2 2 2h218c1.1 0 2-.9 2-2V194c0-1.1-.9-2-2-2H147c-1.1 0-2 .9-2 2zM145 114.7v34c0 1.1.9 2 2 2h171c1.1 0 2-.9 2-2v-34c0-1.1-.9-2-2-2H147c-1.1 0-2 .9-2 2z\"}}]})(props);\n};\nexport function IoMdTrain (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M256 48c-88 0-176 10.9-176 87.6v208c0 42.3 34.5 76.6 77 76.6L124 453v11h49.1l44-43.8H300l44 43.8h44v-10.9l-33-32.8c42.5 0 77-34.4 77-76.6v-208C432 58.9 353.2 48 256 48zm-99 328.4c-18.3 0-33-14.7-33-32.8s14.7-32.8 33-32.8 33 14.7 33 32.8-14.7 32.8-33 32.8zm77-153.2H124v-87.6h110v87.6zm44 0v-87.6h110v87.6H278zm77 153.2c-18.3 0-33-14.7-33-32.8s14.7-32.8 33-32.8 33 14.7 33 32.8-14.7 32.8-33 32.8z\"}}]})(props);\n};\nexport function IoMdTransgender (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M352 32v35h63.1l-81.4 80.5c-7.5-7.2-13.2-11-13.2-11C302.2 123.6 280 116 256 116c-30.2 0-57.6 12-77.8 31.4l-15.2-15 31.4-31.4-28.5-28.5-31.5 31.5-37.5-37H160V32H32v128h35V91.3l40.3 39.9-31.2 31.2 28.5 28.5 31.4-31.4 19.4 19.2c-7.3 14.9-11.5 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512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M345.6 128l51.3 51.3-109.3 109.4-89.6-89.6L32 365.4 63.6 397 198 262.5l89.6 89.7 141.1-141 51.3 51.3V128H345.6z\"}}]})(props);\n};\nexport function IoMdTrophy (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M392 105c.9-27 .2-56 .1-57H119.3c0 1-.8 30 .1 57H48c0 68 9.9 102.3 21 126.7S95.4 277 127.7 302c30.1 23.3 95.5 53.6 104.3 57.6v28.3c-4.6 10-23.5 28.2-83.3 28.2H128v48h256v-48h-25.7c-60.7 0-75-19.1-78.3-28.2v-28.3c9.3-4.6 80.9-40.3 104.4-57.5 25.2-18.4 50.9-51.5 58.7-70.3S464 167 464 105h-72zM109.6 211.9c-8.8-18.2-14-37.9-15.7-61.9h28.7c.7 6 1.4 11.3 2.3 16.3 6.6 39.2 14.8 70.2 25.7 96.5-17.3-13.5-31.3-30.8-41-50.9zm292.8 0c-9.9 20.3-24 37.7-41.6 51.3 11-26.2 19-56.8 25.8-96.9.8-5 1.6-10.3 2.3-16.3h29.3c-1.8 24-6.9 43.7-15.8 61.9z\"}}]})(props);\n};\nexport function IoMdTv (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M439.3 76H72.7C50.3 76 32 94 32 116v240c0 22 18.3 40 40.7 40h101.8v40h162.9v-40h101.8c22.4 0 40.5-18 40.5-40l.2-240c.1-22-18.2-40-40.6-40zm0 280H72.7V116h366.5v240z\"}}]})(props);\n};\nexport function IoMdUmbrella (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M410.1 244.1c12 0 26.6 10.9 33.8 25.9H464c-.3-50-21.2-101.5-59.4-140.9-36.3-37.4-83-60.5-132.6-65.7-3-9-11.5-15.4-21.6-15.4-10 0-18.5 6.5-21.5 15.3C125.3 73.8 48 159.7 48 266.2c0 1.1.1 1.8.4 3.8h21.8c6.8-15 22.2-25.9 35.3-25.9 17 0 31.5 10.9 36.5 25.9h19.8c4.1-15 16.9-25.7 33-25.7 17.8 0 33.1 14.5 34.1 32.6v118.3c0 9.3.1 24.1-13.4 24.1-6.9 0-16.6-1.8-16.6-16V382h-43v21.3c0 34.6 23.6 60.7 60 60.7 19.5 0 33.3-8.5 43.5-18.7 13.1-13.2 13.5-34.7 13.5-50.1V276.1c2-25.8 23.9-31.7 41.9-31.7 17.2 0 32.3 11.6 37.8 25.6h20.5c5.1-15 19.8-25.9 37-25.9z\"}}]})(props);\n};\nexport function IoMdUndo (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M262.3 179.6c-57.9 0-110.3 21.6-150.7 56.8L32 160v192h197.5l-79.1-76.8c30.4-25.3 69-41.1 111.8-41.1 77.3 0 143.1 48.2 166 117.8l51.8-14.8c-30.4-91.4-116.2-157.5-217.7-157.5z\"}}]})(props);\n};\nexport function IoMdUnlock (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M376 186h-20v-40c0-55-45-100-100-100S156 91 156 146h37.998c0-34.004 28.003-62.002 62.002-62.002 34.004 0 62.002 27.998 62.002 62.002H318v40H136c-22.002 0-40 17.998-40 40v200c0 22.002 17.998 40 40 40h240c22.002 0 40-17.998 40-40V226c0-22.002-17.998-40-40-40zM256 368c-22.002 0-40-17.998-40-40s17.998-40 40-40 40 17.998 40 40-17.998 40-40 40z\"}}]})(props);\n};\nexport function IoMdVideocam (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M384 219.5v-85.2c0-13.4-11.2-24.3-24.9-24.3H56.9C43.2 110 32 120.9 32 134.3v243.3C32 391 43.2 402 56.9 402h302.2c13.7 0 24.9-11 24.9-24.3v-85.2l96 97.3V122.2l-96 97.3z\"}}]})(props);\n};\nexport function IoMdVolumeHigh (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M64 192v128h85.334L256 431.543V80.458L149.334 192H64zm288 64c0-38.399-21.333-72.407-53.333-88.863v176.636C330.667 328.408 352 294.4 352 256zM298.667 64v44.978C360.531 127.632 405.334 186.882 405.334 256c0 69.119-44.803 128.369-106.667 147.022V448C384 428.254 448 349.257 448 256c0-93.256-64-172.254-149.333-192z\"}}]})(props);\n};\nexport function IoMdVolumeLow (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M64 192v128h85.334L256 431.543V80.458L149.334 192H64zm288 64c0-38.399-21.333-72.407-53.333-88.863v176.636C330.667 328.408 352 294.4 352 256z\"}}]})(props);\n};\nexport function IoMdVolumeMute (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M64 192v128h85.334L256 431.543V80.458L149.334 192H64z\"}}]})(props);\n};\nexport function IoMdVolumeOff (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M405.5 256c0 22.717-4.883 44.362-13.603 63.855l31.88 31.88C439.283 323.33 448 290.653 448 256c0-93.256-64-172.254-149-192v44.978C361 127.632 405.5 186.882 405.5 256zM256 80.458l-51.021 52.48L256 183.957zM420.842 396.885L91.116 67.157l-24 24 90.499 90.413-8.28 10.43H64v128h85.334L256 431.543V280l94.915 94.686C335.795 387.443 318 397.213 299 403.022V448c31-7.172 58.996-22.163 82.315-42.809l39.61 39.693 24-24.043-24.002-24.039-.081.083z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M352.188 256c0-38.399-21.188-72.407-53.188-88.863v59.82l50.801 50.801A100.596 100.596 0 0 0 352.188 256z\"}}]})(props);\n};\nexport function IoMdWalk (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M288 112c22.223 0 39.997-17.776 39.997-40 0-22.225-17.774-40-39.997-40s-40.003 17.775-40.003 40c0 22.224 17.78 40 40.003 40zM288 232h104v-40h-72l-44.802-69.333c-7.698-11.667-18.136-18.136-30.933-18.136-3.198 0-8.828.531-12.799 1.747L120 144v112h40v-80l40.531-16L120 480h40l56.698-164.271L267 384v96h38V352l-57.031-96 19.745-61.864L288 232z\"}}]})(props);\n};\nexport function IoMdWallet (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M202.7 341.3V170.7c0-23.5 19-42.7 42.7-42.7h197v-21.3c0-23.5-18.9-42.7-42.3-42.7H92c-23.7 0-44 18.5-44 42v300c0 23.5 20.3 42 44 42h308c23.5 0 42.3-19.2 42.3-42.7V384h-197c-23.6 0-42.6-19.2-42.6-42.7z\"}},{\"tag\":\"path\",\"attr\":{\"d\":\"M245 186v140c0 8.8 7.2 16 16 16h187c8.8 0 16-7.2 16-16V186c0-8.8-7.2-16-16-16H261c-8.8 0-16 7.2-16 16zm77.1 101.9c-19.3 1.2-35.2-14.7-34-34 1-15.9 13.9-28.8 29.9-29.9 19.3-1.2 35.2 14.7 34 34-1.1 16-14 28.9-29.9 29.9z\"}}]})(props);\n};\nexport function IoMdWarning (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M32 464h448L256 48 32 464zm248-64h-48v-48h48v48zm0-80h-48v-96h48v96z\"}}]})(props);\n};\nexport function IoMdWatch (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M416 256c0-51.001-24.004-96.001-60.996-125L336 16H176l-19.004 115C120.004 159.999 96 204.999 96 256c0 50.996 24.004 95.996 60.996 125L176 496h160l19.004-115C391.996 351.996 416 306.996 416 256zm-280 0c0-66.001 54.004-120 120-120s120 53.999 120 120c0 65.996-54.004 120-120 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62.396-61.769 62.396-107.072zM256 64C141.597 64 48 156.654 48 269.898 48 346.085 89.592 411.968 152 448l20.799-36.032c-49.919-28.824-83.207-81.324-83.207-142.069 0-90.593 74.891-164.718 166.408-164.718 91.517 0 166.406 74.125 166.406 164.718 0 60.745-33.284 114.271-83.205 142.069L360 448c62.406-36.032 104-101.915 104-178.102C464 156.654 370.403 64 256 64z\"}}]})(props);\n};\nexport function IoMdWine (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M234.667 277.333V408H128v40h256v-40H277.333V277.333L448 106.667V64H64v42.667l170.667 170.666zm-74.667-128l-42.667-42.666h277.334L352 149.333H160z\"}}]})(props);\n};\nexport function IoMdWoman (props) {\n  return GenIcon({\"tag\":\"svg\",\"attr\":{\"viewBox\":\"0 0 512 512\"},\"child\":[{\"tag\":\"path\",\"attr\":{\"d\":\"M190.4 148.6L161 252.9c-6.3 22.8 20.7 31.7 27.3 10.3l26.3-96.2h7.4l-45.2 169H219v127c0 23 32 23 32 0V336h10v127c0 23 31 23 31 0V336h43.4l-46.2-169h8.4l26.3 96.2c6.5 21.9 33.3 12.5 27.3-10.2l-29.4-104.4c-4-11.8-18.2-32.6-42-33.6h-47.3c-24.6 1-38.7 21.6-42.1 33.6zM292.6 69.2c0-20.6-16.4-37.3-36.6-37.3-20.2 0-36.6 16.7-36.6 37.3 0 20.6 16.4 37.3 36.6 37.3 20.2 0 36.6-16.7 36.6-37.3z\"}}]})(props);\n};\n","var __assign = this && this.__assign || function () {\n  __assign = Object.assign || function (t) {\n    for (var s, i = 1, n = arguments.length; i < n; i++) {\n      s = arguments[i];\n      for (var p in s) if (Object.prototype.hasOwnProperty.call(s, p)) t[p] = s[p];\n    }\n    return t;\n  };\n  return __assign.apply(this, arguments);\n};\nvar __rest = this && this.__rest || function (s, e) {\n  var t = {};\n  for (var p in s) if (Object.prototype.hasOwnProperty.call(s, p) && e.indexOf(p) < 0) t[p] = s[p];\n  if (s != null && typeof Object.getOwnPropertySymbols === \"function\") for (var i = 0, p = Object.getOwnPropertySymbols(s); i < p.length; i++) {\n    if (e.indexOf(p[i]) < 0 && Object.prototype.propertyIsEnumerable.call(s, p[i])) t[p[i]] = s[p[i]];\n  }\n  return t;\n};\nimport React from \"react\";\nimport { IconContext, DefaultContext } from \"./iconContext\";\nfunction Tree2Element(tree) {\n  return tree && tree.map(function (node, i) {\n    return React.createElement(node.tag, __assign({\n      key: i\n    }, node.attr), Tree2Element(node.child));\n  });\n}\nexport function GenIcon(data) {\n  // eslint-disable-next-line react/display-name\n  return function (props) {\n    return React.createElement(IconBase, __assign({\n      attr: __assign({}, data.attr)\n    }, props), Tree2Element(data.child));\n  };\n}\nexport function IconBase(props) {\n  var elem = function (conf) {\n    var attr = props.attr,\n      size = props.size,\n      title = props.title,\n      svgProps = __rest(props, [\"attr\", \"size\", \"title\"]);\n    var computedSize = size || conf.size || \"1em\";\n    var className;\n    if (conf.className) className = conf.className;\n    if (props.className) className = (className ? className + \" \" : \"\") + props.className;\n    return React.createElement(\"svg\", __assign({\n      stroke: \"currentColor\",\n      fill: \"currentColor\",\n      strokeWidth: \"0\"\n    }, conf.attr, attr, svgProps, {\n      className: className,\n      style: __assign(__assign({\n        color: props.color || conf.color\n      }, conf.style), props.style),\n      height: computedSize,\n      width: computedSize,\n      xmlns: \"http://www.w3.org/2000/svg\"\n    }), title && React.createElement(\"title\", null, title), props.children);\n  };\n  return IconContext !== undefined ? React.createElement(IconContext.Consumer, null, function (conf) {\n    return elem(conf);\n  }) : elem(DefaultContext);\n}","import React from \"react\";\nexport var DefaultContext = {\n  color: undefined,\n  size: undefined,\n  className: undefined,\n  style: undefined,\n  attr: undefined\n};\nexport var IconContext = React.createContext && React.createContext(DefaultContext);","export var IconsManifest = [\n  {\n    \"id\": \"ci\",\n    \"name\": \"Circum Icons\",\n    \"projectUrl\": \"https://circumicons.com/\",\n    \"license\": \"MPL-2.0 license\",\n    \"licenseUrl\": \"https://github.com/Klarr-Agency/Circum-Icons/blob/main/LICENSE\"\n  },\n  {\n    \"id\": \"fa\",\n    \"name\": \"Font Awesome 5\",\n    \"projectUrl\": \"https://fontawesome.com/\",\n    \"license\": \"CC BY 4.0 License\",\n    \"licenseUrl\": \"https://creativecommons.org/licenses/by/4.0/\"\n  },\n  {\n    \"id\": \"fa6\",\n    \"name\": \"Font Awesome 6\",\n    \"projectUrl\": \"https://fontawesome.com/\",\n    \"license\": \"CC BY 4.0 License\",\n    \"licenseUrl\": \"https://creativecommons.org/licenses/by/4.0/\"\n  },\n  {\n    \"id\": \"io\",\n    \"name\": \"Ionicons 4\",\n    \"projectUrl\": \"https://ionicons.com/\",\n    \"license\": \"MIT\",\n    \"licenseUrl\": \"https://github.com/ionic-team/ionicons/blob/master/LICENSE\"\n  },\n  {\n    \"id\": \"io5\",\n    \"name\": \"Ionicons 5\",\n    \"projectUrl\": \"https://ionicons.com/\",\n    \"license\": \"MIT\",\n    \"licenseUrl\": \"https://github.com/ionic-team/ionicons/blob/master/LICENSE\"\n  },\n  {\n    \"id\": \"md\",\n    \"name\": \"Material Design icons\",\n    \"projectUrl\": \"http://google.github.io/material-design-icons/\",\n    \"license\": \"Apache License Version 2.0\",\n    \"licenseUrl\": \"https://github.com/google/material-design-icons/blob/master/LICENSE\"\n  },\n  {\n    \"id\": \"ti\",\n    \"name\": \"Typicons\",\n    \"projectUrl\": \"http://s-ings.com/typicons/\",\n    \"license\": \"CC BY-SA 3.0\",\n    \"licenseUrl\": \"https://creativecommons.org/licenses/by-sa/3.0/\"\n  },\n  {\n    \"id\": \"go\",\n    \"name\": \"Github Octicons icons\",\n    \"projectUrl\": \"https://octicons.github.com/\",\n    \"license\": \"MIT\",\n    \"licenseUrl\": \"https://github.com/primer/octicons/blob/master/LICENSE\"\n  },\n  {\n    \"id\": \"fi\",\n    \"name\": \"Feather\",\n    \"projectUrl\": \"https://feathericons.com/\",\n    \"license\": \"MIT\",\n    \"licenseUrl\": \"https://github.com/feathericons/feather/blob/master/LICENSE\"\n  },\n  {\n    \"id\": \"lu\",\n    \"name\": \"Lucide\",\n    \"projectUrl\": \"https://lucide.dev/\",\n    \"license\": \"ISC\",\n    \"licenseUrl\": \"https://github.com/lucide-icons/lucide/blob/main/LICENSE\"\n  },\n  {\n    \"id\": \"gi\",\n    \"name\": \"Game Icons\",\n    \"projectUrl\": \"https://game-icons.net/\",\n    \"license\": \"CC BY 3.0\",\n    \"licenseUrl\": \"https://creativecommons.org/licenses/by/3.0/\"\n  },\n  {\n    \"id\": \"wi\",\n    \"name\": \"Weather Icons\",\n    \"projectUrl\": \"https://erikflowers.github.io/weather-icons/\",\n    \"license\": \"SIL OFL 1.1\",\n    \"licenseUrl\": \"http://scripts.sil.org/OFL\"\n  },\n  {\n    \"id\": \"di\",\n    \"name\": \"Devicons\",\n    \"projectUrl\": \"https://vorillaz.github.io/devicons/\",\n    \"license\": \"MIT\",\n    \"licenseUrl\": \"https://opensource.org/licenses/MIT\"\n  },\n  {\n    \"id\": \"ai\",\n    \"name\": \"Ant Design Icons\",\n    \"projectUrl\": \"https://github.com/ant-design/ant-design-icons\",\n    \"license\": \"MIT\",\n    \"licenseUrl\": \"https://opensource.org/licenses/MIT\"\n  },\n  {\n    \"id\": \"bs\",\n    \"name\": \"Bootstrap Icons\",\n    \"projectUrl\": \"https://github.com/twbs/icons\",\n    \"license\": \"MIT\",\n    \"licenseUrl\": \"https://opensource.org/licenses/MIT\"\n  },\n  {\n    \"id\": \"ri\",\n    \"name\": \"Remix Icon\",\n    \"projectUrl\": \"https://github.com/Remix-Design/RemixIcon\",\n    \"license\": \"Apache License Version 2.0\",\n    \"licenseUrl\": \"http://www.apache.org/licenses/\"\n  },\n  {\n    \"id\": \"fc\",\n    \"name\": \"Flat Color Icons\",\n    \"projectUrl\": \"https://github.com/icons8/flat-color-icons\",\n    \"license\": \"MIT\",\n    \"licenseUrl\": \"https://opensource.org/licenses/MIT\"\n  },\n  {\n    \"id\": \"gr\",\n    \"name\": \"Grommet-Icons\",\n    \"projectUrl\": \"https://github.com/grommet/grommet-icons\",\n    \"license\": \"Apache License Version 2.0\",\n    \"licenseUrl\": \"http://www.apache.org/licenses/\"\n  },\n  {\n    \"id\": \"hi\",\n    \"name\": \"Heroicons\",\n    \"projectUrl\": \"https://github.com/tailwindlabs/heroicons\",\n    \"license\": \"MIT\",\n    \"licenseUrl\": \"https://opensource.org/licenses/MIT\"\n  },\n  {\n    \"id\": \"hi2\",\n    \"name\": \"Heroicons 2\",\n    \"projectUrl\": \"https://github.com/tailwindlabs/heroicons\",\n    \"license\": \"MIT\",\n    \"licenseUrl\": \"https://opensource.org/licenses/MIT\"\n  },\n  {\n    \"id\": \"si\",\n    \"name\": \"Simple Icons\",\n    \"projectUrl\": \"https://simpleicons.org/\",\n    \"license\": \"CC0 1.0 Universal\",\n    \"licenseUrl\": \"https://creativecommons.org/publicdomain/zero/1.0/\"\n  },\n  {\n    \"id\": \"sl\",\n    \"name\": \"Simple Line Icons\",\n    \"projectUrl\": \"https://thesabbir.github.io/simple-line-icons/\",\n    \"license\": \"MIT\",\n    \"licenseUrl\": \"https://opensource.org/licenses/MIT\"\n  },\n  {\n    \"id\": \"im\",\n    \"name\": \"IcoMoon Free\",\n    \"projectUrl\": \"https://github.com/Keyamoon/IcoMoon-Free\",\n    \"license\": \"CC BY 4.0 License\",\n    \"licenseUrl\": \"https://github.com/Keyamoon/IcoMoon-Free/blob/master/License.txt\"\n  },\n  {\n    \"id\": \"bi\",\n    \"name\": \"BoxIcons\",\n    \"projectUrl\": \"https://github.com/atisawd/boxicons\",\n    \"license\": \"CC BY 4.0 License\",\n    \"licenseUrl\": \"https://github.com/atisawd/boxicons/blob/master/LICENSE\"\n  },\n  {\n    \"id\": \"cg\",\n    \"name\": \"css.gg\",\n    \"projectUrl\": \"https://github.com/astrit/css.gg\",\n    \"license\": \"MIT\",\n    \"licenseUrl\": \"https://opensource.org/licenses/MIT\"\n  },\n  {\n    \"id\": \"vsc\",\n    \"name\": \"VS Code Icons\",\n    \"projectUrl\": \"https://github.com/microsoft/vscode-codicons\",\n    \"license\": \"CC BY 4.0\",\n    \"licenseUrl\": \"https://creativecommons.org/licenses/by/4.0/\"\n  },\n  {\n    \"id\": \"tb\",\n    \"name\": \"Tabler Icons\",\n    \"projectUrl\": \"https://github.com/tabler/tabler-icons\",\n    \"license\": \"MIT\",\n    \"licenseUrl\": \"https://opensource.org/licenses/MIT\"\n  },\n  {\n    \"id\": \"tfi\",\n    \"name\": \"Themify Icons\",\n    \"projectUrl\": \"https://github.com/lykmapipo/themify-icons\",\n    \"license\": \"MIT\",\n    \"licenseUrl\": \"https://github.com/thecreation/standard-icons/blob/master/modules/themify-icons/LICENSE\"\n  },\n  {\n    \"id\": \"rx\",\n    \"name\": \"Radix Icons\",\n    \"projectUrl\": \"https://icons.radix-ui.com\",\n    \"license\": \"MIT\",\n    \"licenseUrl\": \"https://github.com/radix-ui/icons/blob/master/LICENSE\"\n  },\n  {\n    \"id\": \"pi\",\n    \"name\": \"Phosphor Icons\",\n    \"projectUrl\": \"https://github.com/phosphor-icons/core\",\n    \"license\": \"MIT\",\n    \"licenseUrl\": \"https://github.com/phosphor-icons/core/blob/main/LICENSE\"\n  },\n  {\n    \"id\": \"lia\",\n    \"name\": \"Icons8 Line Awesome\",\n    \"projectUrl\": \"https://icons8.com/line-awesome\",\n    \"license\": \"MIT\",\n    \"licenseUrl\": \"https://github.com/icons8/line-awesome/blob/master/LICENSE.md\"\n  }\n]","export * from \"./iconsManifest\";\nexport * from \"./iconBase\";\nexport * from \"./iconContext\";","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = void 0;\n\nvar _default = function _default(position, metric, axis) {\n  var positionPercent = position === 0 ? position : position + metric;\n  var positionCss = axis === 'horizontal' ? [positionPercent, 0, 0] : [0, positionPercent, 0];\n  var transitionProp = 'translate3d';\n  var translatedPosition = '(' + positionCss.join(',') + ')';\n  return transitionProp + translatedPosition;\n};\n\nexports.default = _default;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.fadeAnimationHandler = exports.slideStopSwipingHandler = exports.slideSwipeAnimationHandler = exports.slideAnimationHandler = void 0;\n\nvar _react = require(\"react\");\n\nvar _CSSTranslate = _interopRequireDefault(require(\"../../CSSTranslate\"));\n\nvar _utils = require(\"./utils\");\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\nfunction ownKeys(object, enumerableOnly) { var keys = Object.keys(object); if (Object.getOwnPropertySymbols) { var symbols = Object.getOwnPropertySymbols(object); if (enumerableOnly) symbols = symbols.filter(function (sym) { return Object.getOwnPropertyDescriptor(object, sym).enumerable; }); keys.push.apply(keys, symbols); } return keys; }\n\nfunction _objectSpread(target) { for (var i = 1; i < arguments.length; i++) { var source = arguments[i] != null ? arguments[i] : {}; if (i % 2) { ownKeys(Object(source), true).forEach(function (key) { _defineProperty(target, key, source[key]); }); } else if (Object.getOwnPropertyDescriptors) { Object.defineProperties(target, Object.getOwnPropertyDescriptors(source)); } else { ownKeys(Object(source)).forEach(function (key) { Object.defineProperty(target, key, Object.getOwnPropertyDescriptor(source, key)); }); } } return target; }\n\nfunction _defineProperty(obj, key, value) { if (key in obj) { Object.defineProperty(obj, key, { value: value, enumerable: true, configurable: true, writable: true }); } else { obj[key] = value; } return obj; }\n\n/**\n * Main animation handler for the default 'sliding' style animation\n * @param props\n * @param state\n */\nvar slideAnimationHandler = function slideAnimationHandler(props, state) {\n  var returnStyles = {};\n  var selectedItem = state.selectedItem;\n  var previousItem = selectedItem;\n  var lastPosition = _react.Children.count(props.children) - 1;\n  var needClonedSlide = props.infiniteLoop && (selectedItem < 0 || selectedItem > lastPosition); // Handle list position if it needs a clone\n\n  if (needClonedSlide) {\n    if (previousItem < 0) {\n      if (props.centerMode && props.centerSlidePercentage && props.axis === 'horizontal') {\n        returnStyles.itemListStyle = (0, _utils.setPosition)(-(lastPosition + 2) * props.centerSlidePercentage - (100 - props.centerSlidePercentage) / 2, props.axis);\n      } else {\n        returnStyles.itemListStyle = (0, _utils.setPosition)(-(lastPosition + 2) * 100, props.axis);\n      }\n    } else if (previousItem > lastPosition) {\n      returnStyles.itemListStyle = (0, _utils.setPosition)(0, props.axis);\n    }\n\n    return returnStyles;\n  }\n\n  var currentPosition = (0, _utils.getPosition)(selectedItem, props); // if 3d is available, let's take advantage of the performance of transform\n\n  var transformProp = (0, _CSSTranslate.default)(currentPosition, '%', props.axis);\n  var transitionTime = props.transitionTime + 'ms';\n  returnStyles.itemListStyle = {\n    WebkitTransform: transformProp,\n    msTransform: transformProp,\n    OTransform: transformProp,\n    transform: transformProp\n  };\n\n  if (!state.swiping) {\n    returnStyles.itemListStyle = _objectSpread(_objectSpread({}, returnStyles.itemListStyle), {}, {\n      WebkitTransitionDuration: transitionTime,\n      MozTransitionDuration: transitionTime,\n      OTransitionDuration: transitionTime,\n      transitionDuration: transitionTime,\n      msTransitionDuration: transitionTime\n    });\n  }\n\n  return returnStyles;\n};\n/**\n * Swiping animation handler for the default 'sliding' style animation\n * @param delta\n * @param props\n * @param state\n * @param setState\n */\n\n\nexports.slideAnimationHandler = slideAnimationHandler;\n\nvar slideSwipeAnimationHandler = function slideSwipeAnimationHandler(delta, props, state, setState) {\n  var returnStyles = {};\n  var isHorizontal = props.axis === 'horizontal';\n\n  var childrenLength = _react.Children.count(props.children);\n\n  var initialBoundry = 0;\n  var currentPosition = (0, _utils.getPosition)(state.selectedItem, props);\n  var finalBoundry = props.infiniteLoop ? (0, _utils.getPosition)(childrenLength - 1, props) - 100 : (0, _utils.getPosition)(childrenLength - 1, props);\n  var axisDelta = isHorizontal ? delta.x : delta.y;\n  var handledDelta = axisDelta; // prevent user from swiping left out of boundaries\n\n  if (currentPosition === initialBoundry && axisDelta > 0) {\n    handledDelta = 0;\n  } // prevent user from swiping right out of boundaries\n\n\n  if (currentPosition === finalBoundry && axisDelta < 0) {\n    handledDelta = 0;\n  }\n\n  var position = currentPosition + 100 / (state.itemSize / handledDelta);\n  var hasMoved = Math.abs(axisDelta) > props.swipeScrollTolerance;\n\n  if (props.infiniteLoop && hasMoved) {\n    // When allowing infinite loop, if we slide left from position 0 we reveal the cloned last slide that appears before it\n    // if we slide even further we need to jump to other side so it can continue - and vice versa for the last slide\n    if (state.selectedItem === 0 && position > -100) {\n      position -= childrenLength * 100;\n    } else if (state.selectedItem === childrenLength - 1 && position < -childrenLength * 100) {\n      position += childrenLength * 100;\n    }\n  }\n\n  if (!props.preventMovementUntilSwipeScrollTolerance || hasMoved || state.swipeMovementStarted) {\n    if (!state.swipeMovementStarted) {\n      setState({\n        swipeMovementStarted: true\n      });\n    }\n\n    returnStyles.itemListStyle = (0, _utils.setPosition)(position, props.axis);\n  } //allows scroll if the swipe was within the tolerance\n\n\n  if (hasMoved && !state.cancelClick) {\n    setState({\n      cancelClick: true\n    });\n  }\n\n  return returnStyles;\n};\n/**\n * Default 'sliding' style animination handler for when a swipe action stops.\n * @param props\n * @param state\n */\n\n\nexports.slideSwipeAnimationHandler = slideSwipeAnimationHandler;\n\nvar slideStopSwipingHandler = function slideStopSwipingHandler(props, state) {\n  var currentPosition = (0, _utils.getPosition)(state.selectedItem, props);\n  var itemListStyle = (0, _utils.setPosition)(currentPosition, props.axis);\n  return {\n    itemListStyle: itemListStyle\n  };\n};\n/**\n * Main animation handler for the default 'fade' style animation\n * @param props\n * @param state\n */\n\n\nexports.slideStopSwipingHandler = slideStopSwipingHandler;\n\nvar fadeAnimationHandler = function fadeAnimationHandler(props, state) {\n  var transitionTime = props.transitionTime + 'ms';\n  var transitionTimingFunction = 'ease-in-out';\n  var slideStyle = {\n    position: 'absolute',\n    display: 'block',\n    zIndex: -2,\n    minHeight: '100%',\n    opacity: 0,\n    top: 0,\n    right: 0,\n    left: 0,\n    bottom: 0,\n    transitionTimingFunction: transitionTimingFunction,\n    msTransitionTimingFunction: transitionTimingFunction,\n    MozTransitionTimingFunction: transitionTimingFunction,\n    WebkitTransitionTimingFunction: transitionTimingFunction,\n    OTransitionTimingFunction: transitionTimingFunction\n  };\n\n  if (!state.swiping) {\n    slideStyle = _objectSpread(_objectSpread({}, slideStyle), {}, {\n      WebkitTransitionDuration: transitionTime,\n      MozTransitionDuration: transitionTime,\n      OTransitionDuration: transitionTime,\n      transitionDuration: transitionTime,\n      msTransitionDuration: transitionTime\n    });\n  }\n\n  return {\n    slideStyle: slideStyle,\n    selectedStyle: _objectSpread(_objectSpread({}, slideStyle), {}, {\n      opacity: 1,\n      position: 'relative'\n    }),\n    prevStyle: _objectSpread({}, slideStyle)\n  };\n};\n\nexports.fadeAnimationHandler = fadeAnimationHandler;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = void 0;\n\nvar _react = _interopRequireWildcard(require(\"react\"));\n\nvar _reactEasySwipe = _interopRequireDefault(require(\"react-easy-swipe\"));\n\nvar _cssClasses = _interopRequireDefault(require(\"../../cssClasses\"));\n\nvar _Thumbs = _interopRequireDefault(require(\"../Thumbs\"));\n\nvar _document = _interopRequireDefault(require(\"../../shims/document\"));\n\nvar _window = _interopRequireDefault(require(\"../../shims/window\"));\n\nvar _utils = require(\"./utils\");\n\nvar _animations = require(\"./animations\");\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\nfunction _getRequireWildcardCache() { if (typeof WeakMap !== \"function\") return null; var cache = new WeakMap(); _getRequireWildcardCache = function _getRequireWildcardCache() { return cache; }; return cache; }\n\nfunction _interopRequireWildcard(obj) { if (obj && obj.__esModule) { return obj; } if (obj === null || _typeof(obj) !== \"object\" && typeof obj !== \"function\") { return { default: obj }; } var cache = _getRequireWildcardCache(); if (cache && cache.has(obj)) { return cache.get(obj); } var newObj = {}; var hasPropertyDescriptor = Object.defineProperty && Object.getOwnPropertyDescriptor; for (var key in obj) { if (Object.prototype.hasOwnProperty.call(obj, key)) { var desc = hasPropertyDescriptor ? Object.getOwnPropertyDescriptor(obj, key) : null; if (desc && (desc.get || desc.set)) { Object.defineProperty(newObj, key, desc); } else { newObj[key] = obj[key]; } } } newObj.default = obj; if (cache) { cache.set(obj, newObj); } return newObj; }\n\nfunction _typeof(obj) { \"@babel/helpers - typeof\"; if (typeof Symbol === \"function\" && typeof Symbol.iterator === \"symbol\") { _typeof = function _typeof(obj) { return typeof obj; }; } else { _typeof = function _typeof(obj) { return obj && typeof Symbol === \"function\" && obj.constructor === Symbol && obj !== Symbol.prototype ? \"symbol\" : typeof obj; }; } return _typeof(obj); }\n\nfunction _extends() { _extends = Object.assign || function (target) { for (var i = 1; i < arguments.length; i++) { var source = arguments[i]; for (var key in source) { if (Object.prototype.hasOwnProperty.call(source, key)) { target[key] = source[key]; } } } return target; }; return _extends.apply(this, arguments); }\n\nfunction ownKeys(object, enumerableOnly) { var keys = Object.keys(object); if (Object.getOwnPropertySymbols) { var symbols = Object.getOwnPropertySymbols(object); if (enumerableOnly) symbols = symbols.filter(function (sym) { return Object.getOwnPropertyDescriptor(object, sym).enumerable; }); keys.push.apply(keys, symbols); } return keys; }\n\nfunction _objectSpread(target) { for (var i = 1; i < arguments.length; i++) { var source = arguments[i] != null ? arguments[i] : {}; if (i % 2) { ownKeys(Object(source), true).forEach(function (key) { _defineProperty(target, key, source[key]); }); } else if (Object.getOwnPropertyDescriptors) { Object.defineProperties(target, Object.getOwnPropertyDescriptors(source)); } else { ownKeys(Object(source)).forEach(function (key) { Object.defineProperty(target, key, Object.getOwnPropertyDescriptor(source, key)); }); } } return target; }\n\nfunction _classCallCheck(instance, Constructor) { if (!(instance instanceof Constructor)) { throw new TypeError(\"Cannot call a class as a function\"); } }\n\nfunction _defineProperties(target, props) { for (var i = 0; i < props.length; i++) { var descriptor = props[i]; descriptor.enumerable = descriptor.enumerable || false; descriptor.configurable = true; if (\"value\" in descriptor) descriptor.writable = true; Object.defineProperty(target, descriptor.key, descriptor); } }\n\nfunction _createClass(Constructor, protoProps, staticProps) { if (protoProps) _defineProperties(Constructor.prototype, protoProps); if (staticProps) _defineProperties(Constructor, staticProps); return Constructor; }\n\nfunction _inherits(subClass, superClass) { if (typeof superClass !== \"function\" && superClass !== null) { throw new TypeError(\"Super expression must either be null or a function\"); } subClass.prototype = Object.create(superClass && superClass.prototype, { constructor: { value: subClass, writable: true, configurable: true } }); if (superClass) _setPrototypeOf(subClass, superClass); }\n\nfunction _setPrototypeOf(o, p) { _setPrototypeOf = Object.setPrototypeOf || function _setPrototypeOf(o, p) { o.__proto__ = p; return o; }; return _setPrototypeOf(o, p); }\n\nfunction _createSuper(Derived) { var hasNativeReflectConstruct = _isNativeReflectConstruct(); return function _createSuperInternal() { var Super = _getPrototypeOf(Derived), result; if (hasNativeReflectConstruct) { var NewTarget = _getPrototypeOf(this).constructor; result = Reflect.construct(Super, arguments, NewTarget); } else { result = Super.apply(this, arguments); } return _possibleConstructorReturn(this, result); }; }\n\nfunction _possibleConstructorReturn(self, call) { if (call && (_typeof(call) === \"object\" || typeof call === \"function\")) { return call; } return _assertThisInitialized(self); }\n\nfunction _assertThisInitialized(self) { if (self === void 0) { throw new ReferenceError(\"this hasn't been initialised - super() hasn't been called\"); } return self; }\n\nfunction _isNativeReflectConstruct() { if (typeof Reflect === \"undefined\" || !Reflect.construct) return false; if (Reflect.construct.sham) return false; if (typeof Proxy === \"function\") return true; try { Date.prototype.toString.call(Reflect.construct(Date, [], function () {})); return true; } catch (e) { return false; } }\n\nfunction _getPrototypeOf(o) { _getPrototypeOf = Object.setPrototypeOf ? Object.getPrototypeOf : function _getPrototypeOf(o) { return o.__proto__ || Object.getPrototypeOf(o); }; return _getPrototypeOf(o); }\n\nfunction _defineProperty(obj, key, value) { if (key in obj) { Object.defineProperty(obj, key, { value: value, enumerable: true, configurable: true, writable: true }); } else { obj[key] = value; } return obj; }\n\nvar Carousel = /*#__PURE__*/function (_React$Component) {\n  _inherits(Carousel, _React$Component);\n\n  var _super = _createSuper(Carousel);\n\n  // @ts-ignore\n  function Carousel(props) {\n    var _this;\n\n    _classCallCheck(this, Carousel);\n\n    _this = _super.call(this, props);\n\n    _defineProperty(_assertThisInitialized(_this), \"thumbsRef\", void 0);\n\n    _defineProperty(_assertThisInitialized(_this), \"carouselWrapperRef\", void 0);\n\n    _defineProperty(_assertThisInitialized(_this), \"listRef\", void 0);\n\n    _defineProperty(_assertThisInitialized(_this), \"itemsRef\", void 0);\n\n    _defineProperty(_assertThisInitialized(_this), \"timer\", void 0);\n\n    _defineProperty(_assertThisInitialized(_this), \"animationHandler\", void 0);\n\n    _defineProperty(_assertThisInitialized(_this), \"setThumbsRef\", function (node) {\n      _this.thumbsRef = node;\n    });\n\n    _defineProperty(_assertThisInitialized(_this), \"setCarouselWrapperRef\", function (node) {\n      _this.carouselWrapperRef = node;\n    });\n\n    _defineProperty(_assertThisInitialized(_this), \"setListRef\", function (node) {\n      _this.listRef = node;\n    });\n\n    _defineProperty(_assertThisInitialized(_this), \"setItemsRef\", function (node, index) {\n      if (!_this.itemsRef) {\n        _this.itemsRef = [];\n      }\n\n      _this.itemsRef[index] = node;\n    });\n\n    _defineProperty(_assertThisInitialized(_this), \"autoPlay\", function () {\n      if (_react.Children.count(_this.props.children) <= 1) {\n        return;\n      }\n\n      _this.clearAutoPlay();\n\n      if (!_this.props.autoPlay) {\n        return;\n      }\n\n      _this.timer = setTimeout(function () {\n        _this.increment();\n      }, _this.props.interval);\n    });\n\n    _defineProperty(_assertThisInitialized(_this), \"clearAutoPlay\", function () {\n      if (_this.timer) clearTimeout(_this.timer);\n    });\n\n    _defineProperty(_assertThisInitialized(_this), \"resetAutoPlay\", function () {\n      _this.clearAutoPlay();\n\n      _this.autoPlay();\n    });\n\n    _defineProperty(_assertThisInitialized(_this), \"stopOnHover\", function () {\n      _this.setState({\n        isMouseEntered: true\n      }, _this.clearAutoPlay);\n    });\n\n    _defineProperty(_assertThisInitialized(_this), \"startOnLeave\", function () {\n      _this.setState({\n        isMouseEntered: false\n      }, _this.autoPlay);\n    });\n\n    _defineProperty(_assertThisInitialized(_this), \"isFocusWithinTheCarousel\", function () {\n      if (!_this.carouselWrapperRef) {\n        return false;\n      }\n\n      if ((0, _document.default)().activeElement === _this.carouselWrapperRef || _this.carouselWrapperRef.contains((0, _document.default)().activeElement)) {\n        return true;\n      }\n\n      return false;\n    });\n\n    _defineProperty(_assertThisInitialized(_this), \"navigateWithKeyboard\", function (e) {\n      if (!_this.isFocusWithinTheCarousel()) {\n        return;\n      }\n\n      var axis = _this.props.axis;\n      var isHorizontal = axis === 'horizontal';\n      var keyNames = {\n        ArrowUp: 38,\n        ArrowRight: 39,\n        ArrowDown: 40,\n        ArrowLeft: 37\n      };\n      var nextKey = isHorizontal ? keyNames.ArrowRight : keyNames.ArrowDown;\n      var prevKey = isHorizontal ? keyNames.ArrowLeft : keyNames.ArrowUp;\n\n      if (nextKey === e.keyCode) {\n        _this.increment();\n      } else if (prevKey === e.keyCode) {\n        _this.decrement();\n      }\n    });\n\n    _defineProperty(_assertThisInitialized(_this), \"updateSizes\", function () {\n      if (!_this.state.initialized || !_this.itemsRef || _this.itemsRef.length === 0) {\n        return;\n      }\n\n      var isHorizontal = _this.props.axis === 'horizontal';\n      var firstItem = _this.itemsRef[0];\n\n      if (!firstItem) {\n        return;\n      }\n\n      var itemSize = isHorizontal ? firstItem.clientWidth : firstItem.clientHeight;\n\n      _this.setState({\n        itemSize: itemSize\n      });\n\n      if (_this.thumbsRef) {\n        _this.thumbsRef.updateSizes();\n      }\n    });\n\n    _defineProperty(_assertThisInitialized(_this), \"setMountState\", function () {\n      _this.setState({\n        hasMount: true\n      });\n\n      _this.updateSizes();\n    });\n\n    _defineProperty(_assertThisInitialized(_this), \"handleClickItem\", function (index, item) {\n      if (_react.Children.count(_this.props.children) === 0) {\n        return;\n      }\n\n      if (_this.state.cancelClick) {\n        _this.setState({\n          cancelClick: false\n        });\n\n        return;\n      }\n\n      _this.props.onClickItem(index, item);\n\n      if (index !== _this.state.selectedItem) {\n        _this.setState({\n          selectedItem: index\n        });\n      }\n    });\n\n    _defineProperty(_assertThisInitialized(_this), \"handleOnChange\", function (index, item) {\n      if (_react.Children.count(_this.props.children) <= 1) {\n        return;\n      }\n\n      _this.props.onChange(index, item);\n    });\n\n    _defineProperty(_assertThisInitialized(_this), \"handleClickThumb\", function (index, item) {\n      _this.props.onClickThumb(index, item);\n\n      _this.moveTo(index);\n    });\n\n    _defineProperty(_assertThisInitialized(_this), \"onSwipeStart\", function (event) {\n      _this.setState({\n        swiping: true\n      });\n\n      _this.props.onSwipeStart(event);\n    });\n\n    _defineProperty(_assertThisInitialized(_this), \"onSwipeEnd\", function (event) {\n      _this.setState({\n        swiping: false,\n        cancelClick: false,\n        swipeMovementStarted: false\n      });\n\n      _this.props.onSwipeEnd(event);\n\n      _this.clearAutoPlay();\n\n      if (_this.state.autoPlay) {\n        _this.autoPlay();\n      }\n    });\n\n    _defineProperty(_assertThisInitialized(_this), \"onSwipeMove\", function (delta, event) {\n      _this.props.onSwipeMove(event);\n\n      var animationHandlerResponse = _this.props.swipeAnimationHandler(delta, _this.props, _this.state, _this.setState.bind(_assertThisInitialized(_this)));\n\n      _this.setState(_objectSpread({}, animationHandlerResponse)); // If we have not moved, we should have an empty object returned\n      // Return false to allow scrolling when not swiping\n\n\n      return !!Object.keys(animationHandlerResponse).length;\n    });\n\n    _defineProperty(_assertThisInitialized(_this), \"decrement\", function () {\n      var positions = arguments.length > 0 && arguments[0] !== undefined ? arguments[0] : 1;\n\n      _this.moveTo(_this.state.selectedItem - (typeof positions === 'number' ? positions : 1));\n    });\n\n    _defineProperty(_assertThisInitialized(_this), \"increment\", function () {\n      var positions = arguments.length > 0 && arguments[0] !== undefined ? arguments[0] : 1;\n\n      _this.moveTo(_this.state.selectedItem + (typeof positions === 'number' ? positions : 1));\n    });\n\n    _defineProperty(_assertThisInitialized(_this), \"moveTo\", function (position) {\n      if (typeof position !== 'number') {\n        return;\n      }\n\n      var lastPosition = _react.Children.count(_this.props.children) - 1;\n\n      if (position < 0) {\n        position = _this.props.infiniteLoop ? lastPosition : 0;\n      }\n\n      if (position > lastPosition) {\n        position = _this.props.infiniteLoop ? 0 : lastPosition;\n      }\n\n      _this.selectItem({\n        // if it's not a slider, we don't need to set position here\n        selectedItem: position\n      }); // don't reset auto play when stop on hover is enabled, doing so will trigger a call to auto play more than once\n      // and will result in the interval function not being cleared correctly.\n\n\n      if (_this.state.autoPlay && _this.state.isMouseEntered === false) {\n        _this.resetAutoPlay();\n      }\n    });\n\n    _defineProperty(_assertThisInitialized(_this), \"onClickNext\", function () {\n      _this.increment(1);\n    });\n\n    _defineProperty(_assertThisInitialized(_this), \"onClickPrev\", function () {\n      _this.decrement(1);\n    });\n\n    _defineProperty(_assertThisInitialized(_this), \"onSwipeForward\", function () {\n      _this.increment(1);\n\n      if (_this.props.emulateTouch) {\n        _this.setState({\n          cancelClick: true\n        });\n      }\n    });\n\n    _defineProperty(_assertThisInitialized(_this), \"onSwipeBackwards\", function () {\n      _this.decrement(1);\n\n      if (_this.props.emulateTouch) {\n        _this.setState({\n          cancelClick: true\n        });\n      }\n    });\n\n    _defineProperty(_assertThisInitialized(_this), \"changeItem\", function (newIndex) {\n      return function (e) {\n        if (!(0, _utils.isKeyboardEvent)(e) || e.key === 'Enter') {\n          _this.moveTo(newIndex);\n        }\n      };\n    });\n\n    _defineProperty(_assertThisInitialized(_this), \"selectItem\", function (state) {\n      // Merge in the new state while updating updating previous item\n      _this.setState(_objectSpread({\n        previousItem: _this.state.selectedItem\n      }, state), function () {\n        // Run animation handler and update styles based on it\n        _this.setState(_this.animationHandler(_this.props, _this.state));\n      });\n\n      _this.handleOnChange(state.selectedItem, _react.Children.toArray(_this.props.children)[state.selectedItem]);\n    });\n\n    _defineProperty(_assertThisInitialized(_this), \"getInitialImage\", function () {\n      var selectedItem = _this.props.selectedItem;\n      var item = _this.itemsRef && _this.itemsRef[selectedItem];\n      var images = item && item.getElementsByTagName('img') || [];\n      return images[0];\n    });\n\n    _defineProperty(_assertThisInitialized(_this), \"getVariableItemHeight\", function (position) {\n      var item = _this.itemsRef && _this.itemsRef[position];\n\n      if (_this.state.hasMount && item && item.children.length) {\n        var slideImages = item.children[0].getElementsByTagName('img') || [];\n\n        if (slideImages.length > 0) {\n          var image = slideImages[0];\n\n          if (!image.complete) {\n            // if the image is still loading, the size won't be available so we trigger a new render after it's done\n            var onImageLoad = function onImageLoad() {\n              _this.forceUpdate();\n\n              image.removeEventListener('load', onImageLoad);\n            };\n\n            image.addEventListener('load', onImageLoad);\n          }\n        } // try to get img first, if img not there find first display tag\n\n\n        var displayItem = slideImages[0] || item.children[0];\n        var height = displayItem.clientHeight;\n        return height > 0 ? height : null;\n      }\n\n      return null;\n    });\n\n    var initState = {\n      initialized: false,\n      previousItem: props.selectedItem,\n      selectedItem: props.selectedItem,\n      hasMount: false,\n      isMouseEntered: false,\n      autoPlay: props.autoPlay,\n      swiping: false,\n      swipeMovementStarted: false,\n      cancelClick: false,\n      itemSize: 1,\n      itemListStyle: {},\n      slideStyle: {},\n      selectedStyle: {},\n      prevStyle: {}\n    };\n    _this.animationHandler = typeof props.animationHandler === 'function' && props.animationHandler || props.animationHandler === 'fade' && _animations.fadeAnimationHandler || _animations.slideAnimationHandler;\n    _this.state = _objectSpread(_objectSpread({}, initState), _this.animationHandler(props, initState));\n    return _this;\n  }\n\n  _createClass(Carousel, [{\n    key: \"componentDidMount\",\n    value: function componentDidMount() {\n      if (!this.props.children) {\n        return;\n      }\n\n      this.setupCarousel();\n    }\n  }, {\n    key: \"componentDidUpdate\",\n    value: function componentDidUpdate(prevProps, prevState) {\n      if (!prevProps.children && this.props.children && !this.state.initialized) {\n        this.setupCarousel();\n      }\n\n      if (!prevProps.autoFocus && this.props.autoFocus) {\n        this.forceFocus();\n      }\n\n      if (prevState.swiping && !this.state.swiping) {\n        // We stopped swiping, ensure we are heading to the new/current slide and not stuck\n        this.setState(_objectSpread({}, this.props.stopSwipingHandler(this.props, this.state)));\n      }\n\n      if (prevProps.selectedItem !== this.props.selectedItem || prevProps.centerMode !== this.props.centerMode) {\n        this.updateSizes();\n        this.moveTo(this.props.selectedItem);\n      }\n\n      if (prevProps.autoPlay !== this.props.autoPlay) {\n        if (this.props.autoPlay) {\n          this.setupAutoPlay();\n        } else {\n          this.destroyAutoPlay();\n        }\n\n        this.setState({\n          autoPlay: this.props.autoPlay\n        });\n      }\n    }\n  }, {\n    key: \"componentWillUnmount\",\n    value: function componentWillUnmount() {\n      this.destroyCarousel();\n    }\n  }, {\n    key: \"setupCarousel\",\n    value: function setupCarousel() {\n      var _this2 = this;\n\n      this.bindEvents();\n\n      if (this.state.autoPlay && _react.Children.count(this.props.children) > 1) {\n        this.setupAutoPlay();\n      }\n\n      if (this.props.autoFocus) {\n        this.forceFocus();\n      }\n\n      this.setState({\n        initialized: true\n      }, function () {\n        var initialImage = _this2.getInitialImage();\n\n        if (initialImage && !initialImage.complete) {\n          // if it's a carousel of images, we set the mount state after the first image is loaded\n          initialImage.addEventListener('load', _this2.setMountState);\n        } else {\n          _this2.setMountState();\n        }\n      });\n    }\n  }, {\n    key: \"destroyCarousel\",\n    value: function destroyCarousel() {\n      if (this.state.initialized) {\n        this.unbindEvents();\n        this.destroyAutoPlay();\n      }\n    }\n  }, {\n    key: \"setupAutoPlay\",\n    value: function setupAutoPlay() {\n      this.autoPlay();\n      var carouselWrapper = this.carouselWrapperRef;\n\n      if (this.props.stopOnHover && carouselWrapper) {\n        carouselWrapper.addEventListener('mouseenter', this.stopOnHover);\n        carouselWrapper.addEventListener('mouseleave', this.startOnLeave);\n      }\n    }\n  }, {\n    key: \"destroyAutoPlay\",\n    value: function destroyAutoPlay() {\n      this.clearAutoPlay();\n      var carouselWrapper = this.carouselWrapperRef;\n\n      if (this.props.stopOnHover && carouselWrapper) {\n        carouselWrapper.removeEventListener('mouseenter', this.stopOnHover);\n        carouselWrapper.removeEventListener('mouseleave', this.startOnLeave);\n      }\n    }\n  }, {\n    key: \"bindEvents\",\n    value: function bindEvents() {\n      // as the widths are calculated, we need to resize\n      // the carousel when the window is resized\n      (0, _window.default)().addEventListener('resize', this.updateSizes); // issue #2 - image loading smaller\n\n      (0, _window.default)().addEventListener('DOMContentLoaded', this.updateSizes);\n\n      if (this.props.useKeyboardArrows) {\n        (0, _document.default)().addEventListener('keydown', this.navigateWithKeyboard);\n      }\n    }\n  }, {\n    key: \"unbindEvents\",\n    value: function unbindEvents() {\n      // removing listeners\n      (0, _window.default)().removeEventListener('resize', this.updateSizes);\n      (0, _window.default)().removeEventListener('DOMContentLoaded', this.updateSizes);\n      var initialImage = this.getInitialImage();\n\n      if (initialImage) {\n        initialImage.removeEventListener('load', this.setMountState);\n      }\n\n      if (this.props.useKeyboardArrows) {\n        (0, _document.default)().removeEventListener('keydown', this.navigateWithKeyboard);\n      }\n    }\n  }, {\n    key: \"forceFocus\",\n    value: function forceFocus() {\n      var _this$carouselWrapper;\n\n      (_this$carouselWrapper = this.carouselWrapperRef) === null || _this$carouselWrapper === void 0 ? void 0 : _this$carouselWrapper.focus();\n    }\n  }, {\n    key: \"renderItems\",\n    value: function renderItems(isClone) {\n      var _this3 = this;\n\n      if (!this.props.children) {\n        return [];\n      }\n\n      return _react.Children.map(this.props.children, function (item, index) {\n        var isSelected = index === _this3.state.selectedItem;\n        var isPrevious = index === _this3.state.previousItem;\n        var style = isSelected && _this3.state.selectedStyle || isPrevious && _this3.state.prevStyle || _this3.state.slideStyle || {};\n\n        if (_this3.props.centerMode && _this3.props.axis === 'horizontal') {\n          style = _objectSpread(_objectSpread({}, style), {}, {\n            minWidth: _this3.props.centerSlidePercentage + '%'\n          });\n        }\n\n        if (_this3.state.swiping && _this3.state.swipeMovementStarted) {\n          style = _objectSpread(_objectSpread({}, style), {}, {\n            pointerEvents: 'none'\n          });\n        }\n\n        var slideProps = {\n          ref: function ref(e) {\n            return _this3.setItemsRef(e, index);\n          },\n          key: 'itemKey' + index + (isClone ? 'clone' : ''),\n          className: _cssClasses.default.ITEM(true, index === _this3.state.selectedItem, index === _this3.state.previousItem),\n          onClick: _this3.handleClickItem.bind(_this3, index, item),\n          style: style\n        };\n        return /*#__PURE__*/_react.default.createElement(\"li\", slideProps, _this3.props.renderItem(item, {\n          isSelected: index === _this3.state.selectedItem,\n          isPrevious: index === _this3.state.previousItem\n        }));\n      });\n    }\n  }, {\n    key: \"renderControls\",\n    value: function renderControls() {\n      var _this4 = this;\n\n      var _this$props = this.props,\n          showIndicators = _this$props.showIndicators,\n          labels = _this$props.labels,\n          renderIndicator = _this$props.renderIndicator,\n          children = _this$props.children;\n\n      if (!showIndicators) {\n        return null;\n      }\n\n      return /*#__PURE__*/_react.default.createElement(\"ul\", {\n        className: \"control-dots\"\n      }, _react.Children.map(children, function (_, index) {\n        return renderIndicator && renderIndicator(_this4.changeItem(index), index === _this4.state.selectedItem, index, labels.item);\n      }));\n    }\n  }, {\n    key: \"renderStatus\",\n    value: function renderStatus() {\n      if (!this.props.showStatus) {\n        return null;\n      }\n\n      return /*#__PURE__*/_react.default.createElement(\"p\", {\n        className: \"carousel-status\"\n      }, this.props.statusFormatter(this.state.selectedItem + 1, _react.Children.count(this.props.children)));\n    }\n  }, {\n    key: \"renderThumbs\",\n    value: function renderThumbs() {\n      if (!this.props.showThumbs || !this.props.children || _react.Children.count(this.props.children) === 0) {\n        return null;\n      }\n\n      return /*#__PURE__*/_react.default.createElement(_Thumbs.default, {\n        ref: this.setThumbsRef,\n        onSelectItem: this.handleClickThumb,\n        selectedItem: this.state.selectedItem,\n        transitionTime: this.props.transitionTime,\n        thumbWidth: this.props.thumbWidth,\n        labels: this.props.labels,\n        emulateTouch: this.props.emulateTouch\n      }, this.props.renderThumbs(this.props.children));\n    }\n  }, {\n    key: \"render\",\n    value: function render() {\n      var _this5 = this;\n\n      if (!this.props.children || _react.Children.count(this.props.children) === 0) {\n        return null;\n      }\n\n      var isSwipeable = this.props.swipeable && _react.Children.count(this.props.children) > 1;\n      var isHorizontal = this.props.axis === 'horizontal';\n      var canShowArrows = this.props.showArrows && _react.Children.count(this.props.children) > 1; // show left arrow?\n\n      var hasPrev = canShowArrows && (this.state.selectedItem > 0 || this.props.infiniteLoop) || false; // show right arrow\n\n      var hasNext = canShowArrows && (this.state.selectedItem < _react.Children.count(this.props.children) - 1 || this.props.infiniteLoop) || false;\n      var itemsClone = this.renderItems(true);\n      var firstClone = itemsClone.shift();\n      var lastClone = itemsClone.pop();\n      var swiperProps = {\n        className: _cssClasses.default.SLIDER(true, this.state.swiping),\n        onSwipeMove: this.onSwipeMove,\n        onSwipeStart: this.onSwipeStart,\n        onSwipeEnd: this.onSwipeEnd,\n        style: this.state.itemListStyle,\n        tolerance: this.props.swipeScrollTolerance\n      };\n      var containerStyles = {};\n\n      if (isHorizontal) {\n        swiperProps.onSwipeLeft = this.onSwipeForward;\n        swiperProps.onSwipeRight = this.onSwipeBackwards;\n\n        if (this.props.dynamicHeight) {\n          var itemHeight = this.getVariableItemHeight(this.state.selectedItem); // swiperProps.style.height = itemHeight || 'auto';\n\n          containerStyles.height = itemHeight || 'auto';\n        }\n      } else {\n        swiperProps.onSwipeUp = this.props.verticalSwipe === 'natural' ? this.onSwipeBackwards : this.onSwipeForward;\n        swiperProps.onSwipeDown = this.props.verticalSwipe === 'natural' ? this.onSwipeForward : this.onSwipeBackwards;\n        swiperProps.style = _objectSpread(_objectSpread({}, swiperProps.style), {}, {\n          height: this.state.itemSize\n        });\n        containerStyles.height = this.state.itemSize;\n      }\n\n      return /*#__PURE__*/_react.default.createElement(\"div\", {\n        \"aria-label\": this.props.ariaLabel,\n        className: _cssClasses.default.ROOT(this.props.className),\n        ref: this.setCarouselWrapperRef,\n        tabIndex: this.props.useKeyboardArrows ? 0 : undefined\n      }, /*#__PURE__*/_react.default.createElement(\"div\", {\n        className: _cssClasses.default.CAROUSEL(true),\n        style: {\n          width: this.props.width\n        }\n      }, this.renderControls(), this.props.renderArrowPrev(this.onClickPrev, hasPrev, this.props.labels.leftArrow), /*#__PURE__*/_react.default.createElement(\"div\", {\n        className: _cssClasses.default.WRAPPER(true, this.props.axis),\n        style: containerStyles\n      }, isSwipeable ? /*#__PURE__*/_react.default.createElement(_reactEasySwipe.default, _extends({\n        tagName: \"ul\",\n        innerRef: this.setListRef\n      }, swiperProps, {\n        allowMouseEvents: this.props.emulateTouch\n      }), this.props.infiniteLoop && lastClone, this.renderItems(), this.props.infiniteLoop && firstClone) : /*#__PURE__*/_react.default.createElement(\"ul\", {\n        className: _cssClasses.default.SLIDER(true, this.state.swiping),\n        ref: function ref(node) {\n          return _this5.setListRef(node);\n        },\n        style: this.state.itemListStyle || {}\n      }, this.props.infiniteLoop && lastClone, this.renderItems(), this.props.infiniteLoop && firstClone)), this.props.renderArrowNext(this.onClickNext, hasNext, this.props.labels.rightArrow), this.renderStatus()), this.renderThumbs());\n    }\n  }]);\n\n  return Carousel;\n}(_react.default.Component);\n\nexports.default = Carousel;\n\n_defineProperty(Carousel, \"displayName\", 'Carousel');\n\n_defineProperty(Carousel, \"defaultProps\", {\n  ariaLabel: undefined,\n  axis: 'horizontal',\n  centerSlidePercentage: 80,\n  interval: 3000,\n  labels: {\n    leftArrow: 'previous slide / item',\n    rightArrow: 'next slide / item',\n    item: 'slide item'\n  },\n  onClickItem: _utils.noop,\n  onClickThumb: _utils.noop,\n  onChange: _utils.noop,\n  onSwipeStart: function onSwipeStart() {},\n  onSwipeEnd: function onSwipeEnd() {},\n  onSwipeMove: function onSwipeMove() {\n    return false;\n  },\n  preventMovementUntilSwipeScrollTolerance: false,\n  renderArrowPrev: function renderArrowPrev(onClickHandler, hasPrev, label) {\n    return /*#__PURE__*/_react.default.createElement(\"button\", {\n      type: \"button\",\n      \"aria-label\": label,\n      className: _cssClasses.default.ARROW_PREV(!hasPrev),\n      onClick: onClickHandler\n    });\n  },\n  renderArrowNext: function renderArrowNext(onClickHandler, hasNext, label) {\n    return /*#__PURE__*/_react.default.createElement(\"button\", {\n      type: \"button\",\n      \"aria-label\": label,\n      className: _cssClasses.default.ARROW_NEXT(!hasNext),\n      onClick: onClickHandler\n    });\n  },\n  renderIndicator: function renderIndicator(onClickHandler, isSelected, index, label) {\n    return /*#__PURE__*/_react.default.createElement(\"li\", {\n      className: _cssClasses.default.DOT(isSelected),\n      onClick: onClickHandler,\n      onKeyDown: onClickHandler,\n      value: index,\n      key: index,\n      role: \"button\",\n      tabIndex: 0,\n      \"aria-label\": \"\".concat(label, \" \").concat(index + 1)\n    });\n  },\n  renderItem: function renderItem(item) {\n    return item;\n  },\n  renderThumbs: function renderThumbs(children) {\n    var images = _react.Children.map(children, function (item) {\n      var img = item; // if the item is not an image, try to find the first image in the item's children.\n\n      if (item.type !== 'img') {\n        img = _react.Children.toArray(item.props.children).find(function (children) {\n          return children.type === 'img';\n        });\n      }\n\n      if (!img) {\n        return undefined;\n      }\n\n      return img;\n    });\n\n    if (images.filter(function (image) {\n      return image;\n    }).length === 0) {\n      console.warn(\"No images found! Can't build the thumb list without images. If you don't need thumbs, set showThumbs={false} in the Carousel. Note that it's not possible to get images rendered inside custom components. More info at https://github.com/leandrowd/react-responsive-carousel/blob/master/TROUBLESHOOTING.md\");\n      return [];\n    }\n\n    return images;\n  },\n  statusFormatter: _utils.defaultStatusFormatter,\n  selectedItem: 0,\n  showArrows: true,\n  showIndicators: true,\n  showStatus: true,\n  showThumbs: true,\n  stopOnHover: true,\n  swipeScrollTolerance: 5,\n  swipeable: true,\n  transitionTime: 350,\n  verticalSwipe: 'standard',\n  width: '100%',\n  animationHandler: 'slide',\n  swipeAnimationHandler: _animations.slideSwipeAnimationHandler,\n  stopSwipingHandler: _animations.slideStopSwipingHandler\n});","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.setPosition = exports.getPosition = exports.isKeyboardEvent = exports.defaultStatusFormatter = exports.noop = void 0;\n\nvar _react = require(\"react\");\n\nvar _CSSTranslate = _interopRequireDefault(require(\"../../CSSTranslate\"));\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\nvar noop = function noop() {};\n\nexports.noop = noop;\n\nvar defaultStatusFormatter = function defaultStatusFormatter(current, total) {\n  return \"\".concat(current, \" of \").concat(total);\n};\n\nexports.defaultStatusFormatter = defaultStatusFormatter;\n\nvar isKeyboardEvent = function isKeyboardEvent(e) {\n  return e ? e.hasOwnProperty('key') : false;\n};\n/**\n * Gets the list 'position' relative to a current index\n * @param index\n */\n\n\nexports.isKeyboardEvent = isKeyboardEvent;\n\nvar getPosition = function getPosition(index, props) {\n  if (props.infiniteLoop) {\n    // index has to be added by 1 because of the first cloned slide\n    ++index;\n  }\n\n  if (index === 0) {\n    return 0;\n  }\n\n  var childrenLength = _react.Children.count(props.children);\n\n  if (props.centerMode && props.axis === 'horizontal') {\n    var currentPosition = -index * props.centerSlidePercentage;\n    var lastPosition = childrenLength - 1;\n\n    if (index && (index !== lastPosition || props.infiniteLoop)) {\n      currentPosition += (100 - props.centerSlidePercentage) / 2;\n    } else if (index === lastPosition) {\n      currentPosition += 100 - props.centerSlidePercentage;\n    }\n\n    return currentPosition;\n  }\n\n  return -index * 100;\n};\n/**\n * Sets the 'position' transform for sliding animations\n * @param position\n * @param forceReflow\n */\n\n\nexports.getPosition = getPosition;\n\nvar setPosition = function setPosition(position, axis) {\n  var style = {};\n  ['WebkitTransform', 'MozTransform', 'MsTransform', 'OTransform', 'transform', 'msTransform'].forEach(function (prop) {\n    // @ts-ignore\n    style[prop] = (0, _CSSTranslate.default)(position, '%', axis);\n  });\n  return style;\n};\n\nexports.setPosition = setPosition;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = void 0;\n\nvar _react = _interopRequireWildcard(require(\"react\"));\n\nvar _cssClasses = _interopRequireDefault(require(\"../cssClasses\"));\n\nvar _dimensions = require(\"../dimensions\");\n\nvar _CSSTranslate = _interopRequireDefault(require(\"../CSSTranslate\"));\n\nvar _reactEasySwipe = _interopRequireDefault(require(\"react-easy-swipe\"));\n\nvar _window = _interopRequireDefault(require(\"../shims/window\"));\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\nfunction _getRequireWildcardCache() { if (typeof WeakMap !== \"function\") return null; var cache = new WeakMap(); _getRequireWildcardCache = function _getRequireWildcardCache() { return cache; }; return cache; }\n\nfunction _interopRequireWildcard(obj) { if (obj && obj.__esModule) { return obj; } if (obj === null || _typeof(obj) !== \"object\" && typeof obj !== \"function\") { return { default: obj }; } var cache = _getRequireWildcardCache(); if (cache && cache.has(obj)) { return cache.get(obj); } var newObj = {}; var hasPropertyDescriptor = Object.defineProperty && Object.getOwnPropertyDescriptor; for (var key in obj) { if (Object.prototype.hasOwnProperty.call(obj, key)) { var desc = hasPropertyDescriptor ? Object.getOwnPropertyDescriptor(obj, key) : null; if (desc && (desc.get || desc.set)) { Object.defineProperty(newObj, key, desc); } else { newObj[key] = obj[key]; } } } newObj.default = obj; if (cache) { cache.set(obj, newObj); } return newObj; }\n\nfunction _typeof(obj) { \"@babel/helpers - typeof\"; if (typeof Symbol === \"function\" && typeof Symbol.iterator === \"symbol\") { _typeof = function _typeof(obj) { return typeof obj; }; } else { _typeof = function _typeof(obj) { return obj && typeof Symbol === \"function\" && obj.constructor === Symbol && obj !== Symbol.prototype ? \"symbol\" : typeof obj; }; } return _typeof(obj); }\n\nfunction _extends() { _extends = Object.assign || function (target) { for (var i = 1; i < arguments.length; i++) { var source = arguments[i]; for (var key in source) { if (Object.prototype.hasOwnProperty.call(source, key)) { target[key] = source[key]; } } } return target; }; return _extends.apply(this, arguments); }\n\nfunction _classCallCheck(instance, Constructor) { if (!(instance instanceof Constructor)) { throw new TypeError(\"Cannot call a class as a function\"); } }\n\nfunction _defineProperties(target, props) { for (var i = 0; i < props.length; i++) { var descriptor = props[i]; descriptor.enumerable = descriptor.enumerable || false; descriptor.configurable = true; if (\"value\" in descriptor) descriptor.writable = true; Object.defineProperty(target, descriptor.key, descriptor); } }\n\nfunction _createClass(Constructor, protoProps, staticProps) { if (protoProps) _defineProperties(Constructor.prototype, protoProps); if (staticProps) _defineProperties(Constructor, staticProps); return Constructor; }\n\nfunction _inherits(subClass, superClass) { if (typeof superClass !== \"function\" && superClass !== null) { throw new TypeError(\"Super expression must either be null or a function\"); } subClass.prototype = Object.create(superClass && superClass.prototype, { constructor: { value: subClass, writable: true, configurable: true } }); if (superClass) _setPrototypeOf(subClass, superClass); }\n\nfunction _setPrototypeOf(o, p) { _setPrototypeOf = Object.setPrototypeOf || function _setPrototypeOf(o, p) { o.__proto__ = p; return o; }; return _setPrototypeOf(o, p); }\n\nfunction _createSuper(Derived) { var hasNativeReflectConstruct = _isNativeReflectConstruct(); return function _createSuperInternal() { var Super = _getPrototypeOf(Derived), result; if (hasNativeReflectConstruct) { var NewTarget = _getPrototypeOf(this).constructor; result = Reflect.construct(Super, arguments, NewTarget); } else { result = Super.apply(this, arguments); } return _possibleConstructorReturn(this, result); }; }\n\nfunction _possibleConstructorReturn(self, call) { if (call && (_typeof(call) === \"object\" || typeof call === \"function\")) { return call; } return _assertThisInitialized(self); }\n\nfunction _assertThisInitialized(self) { if (self === void 0) { throw new ReferenceError(\"this hasn't been initialised - super() hasn't been called\"); } return self; }\n\nfunction _isNativeReflectConstruct() { if (typeof Reflect === \"undefined\" || !Reflect.construct) return false; if (Reflect.construct.sham) return false; if (typeof Proxy === \"function\") return true; try { Date.prototype.toString.call(Reflect.construct(Date, [], function () {})); return true; } catch (e) { return false; } }\n\nfunction _getPrototypeOf(o) { _getPrototypeOf = Object.setPrototypeOf ? Object.getPrototypeOf : function _getPrototypeOf(o) { return o.__proto__ || Object.getPrototypeOf(o); }; return _getPrototypeOf(o); }\n\nfunction _defineProperty(obj, key, value) { if (key in obj) { Object.defineProperty(obj, key, { value: value, enumerable: true, configurable: true, writable: true }); } else { obj[key] = value; } return obj; }\n\nvar isKeyboardEvent = function isKeyboardEvent(e) {\n  return e.hasOwnProperty('key');\n};\n\nvar Thumbs = /*#__PURE__*/function (_Component) {\n  _inherits(Thumbs, _Component);\n\n  var _super = _createSuper(Thumbs);\n\n  function Thumbs(_props) {\n    var _this;\n\n    _classCallCheck(this, Thumbs);\n\n    _this = _super.call(this, _props);\n\n    _defineProperty(_assertThisInitialized(_this), \"itemsWrapperRef\", void 0);\n\n    _defineProperty(_assertThisInitialized(_this), \"itemsListRef\", void 0);\n\n    _defineProperty(_assertThisInitialized(_this), \"thumbsRef\", void 0);\n\n    _defineProperty(_assertThisInitialized(_this), \"setItemsWrapperRef\", function (node) {\n      _this.itemsWrapperRef = node;\n    });\n\n    _defineProperty(_assertThisInitialized(_this), \"setItemsListRef\", function (node) {\n      _this.itemsListRef = node;\n    });\n\n    _defineProperty(_assertThisInitialized(_this), \"setThumbsRef\", function (node, index) {\n      if (!_this.thumbsRef) {\n        _this.thumbsRef = [];\n      }\n\n      _this.thumbsRef[index] = node;\n    });\n\n    _defineProperty(_assertThisInitialized(_this), \"updateSizes\", function () {\n      if (!_this.props.children || !_this.itemsWrapperRef || !_this.thumbsRef) {\n        return;\n      }\n\n      var total = _react.Children.count(_this.props.children);\n\n      var wrapperSize = _this.itemsWrapperRef.clientWidth;\n      var itemSize = _this.props.thumbWidth ? _this.props.thumbWidth : (0, _dimensions.outerWidth)(_this.thumbsRef[0]);\n      var visibleItems = Math.floor(wrapperSize / itemSize);\n      var showArrows = visibleItems < total;\n      var lastPosition = showArrows ? total - visibleItems : 0;\n\n      _this.setState(function (_state, props) {\n        return {\n          itemSize: itemSize,\n          visibleItems: visibleItems,\n          firstItem: showArrows ? _this.getFirstItem(props.selectedItem) : 0,\n          lastPosition: lastPosition,\n          showArrows: showArrows\n        };\n      });\n    });\n\n    _defineProperty(_assertThisInitialized(_this), \"handleClickItem\", function (index, item, e) {\n      if (!isKeyboardEvent(e) || e.key === 'Enter') {\n        var handler = _this.props.onSelectItem;\n\n        if (typeof handler === 'function') {\n          handler(index, item);\n        }\n      }\n    });\n\n    _defineProperty(_assertThisInitialized(_this), \"onSwipeStart\", function () {\n      _this.setState({\n        swiping: true\n      });\n    });\n\n    _defineProperty(_assertThisInitialized(_this), \"onSwipeEnd\", function () {\n      _this.setState({\n        swiping: false\n      });\n    });\n\n    _defineProperty(_assertThisInitialized(_this), \"onSwipeMove\", function (delta) {\n      var deltaX = delta.x;\n\n      if (!_this.state.itemSize || !_this.itemsWrapperRef || !_this.state.visibleItems) {\n        return false;\n      }\n\n      var leftBoundary = 0;\n\n      var childrenLength = _react.Children.count(_this.props.children);\n\n      var currentPosition = -(_this.state.firstItem * 100) / _this.state.visibleItems;\n      var lastLeftItem = Math.max(childrenLength - _this.state.visibleItems, 0);\n      var lastLeftBoundary = -lastLeftItem * 100 / _this.state.visibleItems; // prevent user from swiping left out of boundaries\n\n      if (currentPosition === leftBoundary && deltaX > 0) {\n        deltaX = 0;\n      } // prevent user from swiping right out of boundaries\n\n\n      if (currentPosition === lastLeftBoundary && deltaX < 0) {\n        deltaX = 0;\n      }\n\n      var wrapperSize = _this.itemsWrapperRef.clientWidth;\n      var position = currentPosition + 100 / (wrapperSize / deltaX); // if 3d isn't available we will use left to move\n\n      if (_this.itemsListRef) {\n        ['WebkitTransform', 'MozTransform', 'MsTransform', 'OTransform', 'transform', 'msTransform'].forEach(function (prop) {\n          _this.itemsListRef.style[prop] = (0, _CSSTranslate.default)(position, '%', _this.props.axis);\n        });\n      }\n\n      return true;\n    });\n\n    _defineProperty(_assertThisInitialized(_this), \"slideRight\", function (positions) {\n      _this.moveTo(_this.state.firstItem - (typeof positions === 'number' ? positions : 1));\n    });\n\n    _defineProperty(_assertThisInitialized(_this), \"slideLeft\", function (positions) {\n      _this.moveTo(_this.state.firstItem + (typeof positions === 'number' ? positions : 1));\n    });\n\n    _defineProperty(_assertThisInitialized(_this), \"moveTo\", function (position) {\n      // position can't be lower than 0\n      position = position < 0 ? 0 : position; // position can't be higher than last postion\n\n      position = position >= _this.state.lastPosition ? _this.state.lastPosition : position;\n\n      _this.setState({\n        firstItem: position\n      });\n    });\n\n    _this.state = {\n      selectedItem: _props.selectedItem,\n      swiping: false,\n      showArrows: false,\n      firstItem: 0,\n      visibleItems: 0,\n      lastPosition: 0\n    };\n    return _this;\n  }\n\n  _createClass(Thumbs, [{\n    key: \"componentDidMount\",\n    value: function componentDidMount() {\n      this.setupThumbs();\n    }\n  }, {\n    key: \"componentDidUpdate\",\n    value: function componentDidUpdate(prevProps) {\n      if (this.props.selectedItem !== this.state.selectedItem) {\n        this.setState({\n          selectedItem: this.props.selectedItem,\n          firstItem: this.getFirstItem(this.props.selectedItem)\n        });\n      }\n\n      if (this.props.children === prevProps.children) {\n        return;\n      } // This will capture any size changes for arrow adjustments etc.\n      // usually in the same render cycle so we don't see any flickers\n\n\n      this.updateSizes();\n    }\n  }, {\n    key: \"componentWillUnmount\",\n    value: function componentWillUnmount() {\n      this.destroyThumbs();\n    }\n  }, {\n    key: \"setupThumbs\",\n    value: function setupThumbs() {\n      // as the widths are calculated, we need to resize\n      // the carousel when the window is resized\n      (0, _window.default)().addEventListener('resize', this.updateSizes); // issue #2 - image loading smaller\n\n      (0, _window.default)().addEventListener('DOMContentLoaded', this.updateSizes); // when the component is rendered we need to calculate\n      // the container size to adjust the responsive behaviour\n\n      this.updateSizes();\n    }\n  }, {\n    key: \"destroyThumbs\",\n    value: function destroyThumbs() {\n      // removing listeners\n      (0, _window.default)().removeEventListener('resize', this.updateSizes);\n      (0, _window.default)().removeEventListener('DOMContentLoaded', this.updateSizes);\n    }\n  }, {\n    key: \"getFirstItem\",\n    value: function getFirstItem(selectedItem) {\n      var firstItem = selectedItem;\n\n      if (selectedItem >= this.state.lastPosition) {\n        firstItem = this.state.lastPosition;\n      }\n\n      if (selectedItem < this.state.firstItem + this.state.visibleItems) {\n        firstItem = this.state.firstItem;\n      }\n\n      if (selectedItem < this.state.firstItem) {\n        firstItem = selectedItem;\n      }\n\n      return firstItem;\n    }\n  }, {\n    key: \"renderItems\",\n    value: function renderItems() {\n      var _this2 = this;\n\n      return this.props.children.map(function (img, index) {\n        var itemClass = _cssClasses.default.ITEM(false, index === _this2.state.selectedItem);\n\n        var thumbProps = {\n          key: index,\n          ref: function ref(e) {\n            return _this2.setThumbsRef(e, index);\n          },\n          className: itemClass,\n          onClick: _this2.handleClickItem.bind(_this2, index, _this2.props.children[index]),\n          onKeyDown: _this2.handleClickItem.bind(_this2, index, _this2.props.children[index]),\n          'aria-label': \"\".concat(_this2.props.labels.item, \" \").concat(index + 1),\n          style: {\n            width: _this2.props.thumbWidth\n          }\n        };\n        return /*#__PURE__*/_react.default.createElement(\"li\", _extends({}, thumbProps, {\n          role: \"button\",\n          tabIndex: 0\n        }), img);\n      });\n    }\n  }, {\n    key: \"render\",\n    value: function render() {\n      var _this3 = this;\n\n      if (!this.props.children) {\n        return null;\n      }\n\n      var isSwipeable = _react.Children.count(this.props.children) > 1; // show left arrow?\n\n      var hasPrev = this.state.showArrows && this.state.firstItem > 0; // show right arrow\n\n      var hasNext = this.state.showArrows && this.state.firstItem < this.state.lastPosition; // obj to hold the transformations and styles\n\n      var itemListStyles = {};\n      var currentPosition = -this.state.firstItem * (this.state.itemSize || 0);\n      var transformProp = (0, _CSSTranslate.default)(currentPosition, 'px', this.props.axis);\n      var transitionTime = this.props.transitionTime + 'ms';\n      itemListStyles = {\n        WebkitTransform: transformProp,\n        MozTransform: transformProp,\n        MsTransform: transformProp,\n        OTransform: transformProp,\n        transform: transformProp,\n        msTransform: transformProp,\n        WebkitTransitionDuration: transitionTime,\n        MozTransitionDuration: transitionTime,\n        MsTransitionDuration: transitionTime,\n        OTransitionDuration: transitionTime,\n        transitionDuration: transitionTime,\n        msTransitionDuration: transitionTime\n      };\n      return /*#__PURE__*/_react.default.createElement(\"div\", {\n        className: _cssClasses.default.CAROUSEL(false)\n      }, /*#__PURE__*/_react.default.createElement(\"div\", {\n        className: _cssClasses.default.WRAPPER(false),\n        ref: this.setItemsWrapperRef\n      }, /*#__PURE__*/_react.default.createElement(\"button\", {\n        type: \"button\",\n        className: _cssClasses.default.ARROW_PREV(!hasPrev),\n        onClick: function onClick() {\n          return _this3.slideRight();\n        },\n        \"aria-label\": this.props.labels.leftArrow\n      }), isSwipeable ? /*#__PURE__*/_react.default.createElement(_reactEasySwipe.default, {\n        tagName: \"ul\",\n        className: _cssClasses.default.SLIDER(false, this.state.swiping),\n        onSwipeLeft: this.slideLeft,\n        onSwipeRight: this.slideRight,\n        onSwipeMove: this.onSwipeMove,\n        onSwipeStart: this.onSwipeStart,\n        onSwipeEnd: this.onSwipeEnd,\n        style: itemListStyles,\n        innerRef: this.setItemsListRef,\n        allowMouseEvents: this.props.emulateTouch\n      }, this.renderItems()) : /*#__PURE__*/_react.default.createElement(\"ul\", {\n        className: _cssClasses.default.SLIDER(false, this.state.swiping),\n        ref: function ref(node) {\n          return _this3.setItemsListRef(node);\n        },\n        style: itemListStyles\n      }, this.renderItems()), /*#__PURE__*/_react.default.createElement(\"button\", {\n        type: \"button\",\n        className: _cssClasses.default.ARROW_NEXT(!hasNext),\n        onClick: function onClick() {\n          return _this3.slideLeft();\n        },\n        \"aria-label\": this.props.labels.rightArrow\n      })));\n    }\n  }]);\n\n  return Thumbs;\n}(_react.Component);\n\nexports.default = Thumbs;\n\n_defineProperty(Thumbs, \"displayName\", 'Thumbs');\n\n_defineProperty(Thumbs, \"defaultProps\", {\n  axis: 'horizontal',\n  labels: {\n    leftArrow: 'previous slide / item',\n    rightArrow: 'next slide / item',\n    item: 'slide item'\n  },\n  selectedItem: 0,\n  thumbWidth: 80,\n  transitionTime: 350\n});","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = void 0;\n\nvar _classnames = _interopRequireDefault(require(\"classnames\"));\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\nfunction _defineProperty(obj, key, value) { if (key in obj) { Object.defineProperty(obj, key, { value: value, enumerable: true, configurable: true, writable: true }); } else { obj[key] = value; } return obj; }\n\nvar _default = {\n  ROOT: function ROOT(customClassName) {\n    return (0, _classnames.default)(_defineProperty({\n      'carousel-root': true\n    }, customClassName || '', !!customClassName));\n  },\n  CAROUSEL: function CAROUSEL(isSlider) {\n    return (0, _classnames.default)({\n      carousel: true,\n      'carousel-slider': isSlider\n    });\n  },\n  WRAPPER: function WRAPPER(isSlider, axis) {\n    return (0, _classnames.default)({\n      'thumbs-wrapper': !isSlider,\n      'slider-wrapper': isSlider,\n      'axis-horizontal': axis === 'horizontal',\n      'axis-vertical': axis !== 'horizontal'\n    });\n  },\n  SLIDER: function SLIDER(isSlider, isSwiping) {\n    return (0, _classnames.default)({\n      thumbs: !isSlider,\n      slider: isSlider,\n      animated: !isSwiping\n    });\n  },\n  ITEM: function ITEM(isSlider, selected, previous) {\n    return (0, _classnames.default)({\n      thumb: !isSlider,\n      slide: isSlider,\n      selected: selected,\n      previous: previous\n    });\n  },\n  ARROW_PREV: function ARROW_PREV(disabled) {\n    return (0, _classnames.default)({\n      'control-arrow control-prev': true,\n      'control-disabled': disabled\n    });\n  },\n  ARROW_NEXT: function ARROW_NEXT(disabled) {\n    return (0, _classnames.default)({\n      'control-arrow control-next': true,\n      'control-disabled': disabled\n    });\n  },\n  DOT: function DOT(selected) {\n    return (0, _classnames.default)({\n      dot: true,\n      selected: selected\n    });\n  }\n};\nexports.default = _default;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.outerWidth = void 0;\n\nvar outerWidth = function outerWidth(el) {\n  var width = el.offsetWidth;\n  var style = getComputedStyle(el);\n  width += parseInt(style.marginLeft) + parseInt(style.marginRight);\n  return width;\n};\n\nexports.outerWidth = outerWidth;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nObject.defineProperty(exports, \"Carousel\", {\n  enumerable: true,\n  get: function get() {\n    return _Carousel.default;\n  }\n});\nObject.defineProperty(exports, \"CarouselProps\", {\n  enumerable: true,\n  get: function get() {\n    return _types.CarouselProps;\n  }\n});\nObject.defineProperty(exports, \"Thumbs\", {\n  enumerable: true,\n  get: function get() {\n    return _Thumbs.default;\n  }\n});\n\nvar _Carousel = _interopRequireDefault(require(\"./components/Carousel\"));\n\nvar _types = require(\"./components/Carousel/types\");\n\nvar _Thumbs = _interopRequireDefault(require(\"./components/Thumbs\"));\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = void 0;\n\nvar _default = function _default() {\n  return document;\n};\n\nexports.default = _default;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = void 0;\n\nvar _default = function _default() {\n  return window;\n};\n\nexports.default = _default;","(function webpackUniversalModuleDefinition(root, factory) {\n\tif(typeof exports === 'object' && typeof module === 'object')\n\t\tmodule.exports = factory(require(\"react\"));\n\telse if(typeof define === 'function' && define.amd)\n\t\tdefine([\"react\"], factory);\n\telse if(typeof exports === 'object')\n\t\texports[\"MediaQuery\"] = factory(require(\"react\"));\n\telse\n\t\troot[\"MediaQuery\"] = factory(root[\"React\"]);\n})(this, (__WEBPACK_EXTERNAL_MODULE_react__) => {\nreturn /******/ (() => { // webpackBootstrap\n/******/ \tvar __webpack_modules__ = ({\n\n/***/ \"./node_modules/css-mediaquery/index.js\":\n/*!**********************************************!*\\\n  !*** ./node_modules/css-mediaquery/index.js ***!\n  \\**********************************************/\n/***/ ((__unused_webpack_module, exports) => {\n\n\"use strict\";\n/*\nCopyright (c) 2014, Yahoo! Inc. All rights reserved.\nCopyrights licensed under the New BSD License.\nSee the accompanying LICENSE file for terms.\n*/\n\n\n\nexports.match = matchQuery;\nexports.parse = parseQuery;\n\n// -----------------------------------------------------------------------------\n\nvar RE_MEDIA_QUERY     = /(?:(only|not)?\\s*([^\\s\\(\\)]+)(?:\\s*and)?\\s*)?(.+)?/i,\n    RE_MQ_EXPRESSION   = /\\(\\s*([^\\s\\:\\)]+)\\s*(?:\\:\\s*([^\\s\\)]+))?\\s*\\)/,\n    RE_MQ_FEATURE      = /^(?:(min|max)-)?(.+)/,\n    RE_LENGTH_UNIT     = /(em|rem|px|cm|mm|in|pt|pc)?$/,\n    RE_RESOLUTION_UNIT = /(dpi|dpcm|dppx)?$/;\n\nfunction matchQuery(mediaQuery, values) {\n    return parseQuery(mediaQuery).some(function (query) {\n        var inverse = query.inverse;\n\n        // Either the parsed or specified `type` is \"all\", or the types must be\n        // equal for a match.\n        var typeMatch = query.type === 'all' || values.type === query.type;\n\n        // Quit early when `type` doesn't match, but take \"not\" into account.\n        if ((typeMatch && inverse) || !(typeMatch || inverse)) {\n            return false;\n        }\n\n        var expressionsMatch = query.expressions.every(function (expression) {\n            var feature  = expression.feature,\n                modifier = expression.modifier,\n                expValue = expression.value,\n                value    = values[feature];\n\n            // Missing or falsy values don't match.\n            if (!value) { return false; }\n\n            switch (feature) {\n                case 'orientation':\n                case 'scan':\n                    return value.toLowerCase() === expValue.toLowerCase();\n\n                case 'width':\n                case 'height':\n                case 'device-width':\n                case 'device-height':\n                    expValue = toPx(expValue);\n                    value    = toPx(value);\n                    break;\n\n                case 'resolution':\n                    expValue = toDpi(expValue);\n                    value    = toDpi(value);\n                    break;\n\n                case 'aspect-ratio':\n                case 'device-aspect-ratio':\n                case /* Deprecated */ 'device-pixel-ratio':\n                    expValue = toDecimal(expValue);\n                    value    = toDecimal(value);\n                    break;\n\n                case 'grid':\n                case 'color':\n                case 'color-index':\n                case 'monochrome':\n                    expValue = parseInt(expValue, 10) || 1;\n                    value    = parseInt(value, 10) || 0;\n                    break;\n            }\n\n            switch (modifier) {\n                case 'min': return value >= expValue;\n                case 'max': return value <= expValue;\n                default   : return value === expValue;\n            }\n        });\n\n        return (expressionsMatch && !inverse) || (!expressionsMatch && inverse);\n    });\n}\n\nfunction parseQuery(mediaQuery) {\n    return mediaQuery.split(',').map(function (query) {\n        query = query.trim();\n\n        var captures    = query.match(RE_MEDIA_QUERY),\n            modifier    = captures[1],\n            type        = captures[2],\n            expressions = captures[3] || '',\n            parsed      = {};\n\n        parsed.inverse = !!modifier && modifier.toLowerCase() === 'not';\n        parsed.type    = type ? type.toLowerCase() : 'all';\n\n        // Split expressions into a list.\n        expressions = expressions.match(/\\([^\\)]+\\)/g) || [];\n\n        parsed.expressions = expressions.map(function (expression) {\n            var captures = expression.match(RE_MQ_EXPRESSION),\n                feature  = captures[1].toLowerCase().match(RE_MQ_FEATURE);\n\n            return {\n                modifier: feature[1],\n                feature : feature[2],\n                value   : captures[2]\n            };\n        });\n\n        return parsed;\n    });\n}\n\n// -- Utilities ----------------------------------------------------------------\n\nfunction toDecimal(ratio) {\n    var decimal = Number(ratio),\n        numbers;\n\n    if (!decimal) {\n        numbers = ratio.match(/^(\\d+)\\s*\\/\\s*(\\d+)$/);\n        decimal = numbers[1] / numbers[2];\n    }\n\n    return decimal;\n}\n\nfunction toDpi(resolution) {\n    var value = parseFloat(resolution),\n        units = String(resolution).match(RE_RESOLUTION_UNIT)[1];\n\n    switch (units) {\n        case 'dpcm': return value / 2.54;\n        case 'dppx': return value * 96;\n        default    : return value;\n    }\n}\n\nfunction toPx(length) {\n    var value = parseFloat(length),\n        units = String(length).match(RE_LENGTH_UNIT)[1];\n\n    switch (units) {\n        case 'em' : return value * 16;\n        case 'rem': return value * 16;\n        case 'cm' : return value * 96 / 2.54;\n        case 'mm' : return value * 96 / 2.54 / 10;\n        case 'in' : return value * 96;\n        case 'pt' : return value * 72;\n        case 'pc' : return value * 72 / 12;\n        default   : return value;\n    }\n}\n\n\n/***/ }),\n\n/***/ \"./node_modules/hyphenate-style-name/index.js\":\n/*!****************************************************!*\\\n  !*** ./node_modules/hyphenate-style-name/index.js ***!\n  \\****************************************************/\n/***/ ((__unused_webpack_module, __webpack_exports__, __webpack_require__) => {\n\n\"use strict\";\n__webpack_require__.r(__webpack_exports__);\n/* harmony export */ __webpack_require__.d(__webpack_exports__, {\n/* harmony export */   \"default\": () => (__WEBPACK_DEFAULT_EXPORT__)\n/* harmony export */ });\n/* eslint-disable no-var, prefer-template */\nvar uppercasePattern = /[A-Z]/g\nvar msPattern = /^ms-/\nvar cache = {}\n\nfunction toHyphenLower(match) {\n  return '-' + match.toLowerCase()\n}\n\nfunction hyphenateStyleName(name) {\n  if (cache.hasOwnProperty(name)) {\n    return cache[name]\n  }\n\n  var hName = name.replace(uppercasePattern, toHyphenLower)\n  return (cache[name] = msPattern.test(hName) ? '-' + hName : hName)\n}\n\n/* harmony default export */ const __WEBPACK_DEFAULT_EXPORT__ = (hyphenateStyleName);\n\n\n/***/ }),\n\n/***/ \"./node_modules/matchmediaquery/index.js\":\n/*!***********************************************!*\\\n  !*** ./node_modules/matchmediaquery/index.js ***!\n  \\***********************************************/\n/***/ ((module, __unused_webpack_exports, __webpack_require__) => {\n\n\"use strict\";\n\n\nvar staticMatch = (__webpack_require__(/*! css-mediaquery */ \"./node_modules/css-mediaquery/index.js\").match);\nvar dynamicMatch = typeof window !== 'undefined' ? window.matchMedia : null;\n\n// our fake MediaQueryList\nfunction Mql(query, values, forceStatic){\n  var self = this;\n  if(dynamicMatch && !forceStatic){\n    var mql = dynamicMatch.call(window, query);\n    this.matches = mql.matches;\n    this.media = mql.media;\n    // TODO: is there a time it makes sense to remove this listener?\n    mql.addListener(update);\n  } else {\n    this.matches = staticMatch(query, values);\n    this.media = query;\n  }\n\n  this.addListener = addListener;\n  this.removeListener = removeListener;\n  this.dispose = dispose;\n\n  function addListener(listener){\n    if(mql){\n      mql.addListener(listener);\n    }\n  }\n\n  function removeListener(listener){\n    if(mql){\n      mql.removeListener(listener);\n    }\n  }\n\n  // update ourselves!\n  function update(evt){\n    self.matches = evt.matches;\n    self.media = evt.media;\n  }\n\n  function dispose(){\n    if(mql){\n      mql.removeListener(update);\n    }\n  }\n}\n\nfunction matchMedia(query, values, forceStatic){\n  return new Mql(query, values, forceStatic);\n}\n\nmodule.exports = matchMedia;\n\n\n/***/ }),\n\n/***/ \"./node_modules/object-assign/index.js\":\n/*!*********************************************!*\\\n  !*** ./node_modules/object-assign/index.js ***!\n  \\*********************************************/\n/***/ ((module) => {\n\n\"use strict\";\n/*\nobject-assign\n(c) Sindre Sorhus\n@license MIT\n*/\n\n\n/* eslint-disable no-unused-vars */\nvar getOwnPropertySymbols = Object.getOwnPropertySymbols;\nvar hasOwnProperty = Object.prototype.hasOwnProperty;\nvar propIsEnumerable = Object.prototype.propertyIsEnumerable;\n\nfunction toObject(val) {\n\tif (val === null || val === undefined) {\n\t\tthrow new TypeError('Object.assign cannot be called with null or undefined');\n\t}\n\n\treturn Object(val);\n}\n\nfunction shouldUseNative() {\n\ttry {\n\t\tif (!Object.assign) {\n\t\t\treturn false;\n\t\t}\n\n\t\t// Detect buggy property enumeration order in older V8 versions.\n\n\t\t// https://bugs.chromium.org/p/v8/issues/detail?id=4118\n\t\tvar test1 = new String('abc');  // eslint-disable-line no-new-wrappers\n\t\ttest1[5] = 'de';\n\t\tif (Object.getOwnPropertyNames(test1)[0] === '5') {\n\t\t\treturn false;\n\t\t}\n\n\t\t// https://bugs.chromium.org/p/v8/issues/detail?id=3056\n\t\tvar test2 = {};\n\t\tfor (var i = 0; i < 10; i++) {\n\t\t\ttest2['_' + String.fromCharCode(i)] = i;\n\t\t}\n\t\tvar order2 = Object.getOwnPropertyNames(test2).map(function (n) {\n\t\t\treturn test2[n];\n\t\t});\n\t\tif (order2.join('') !== '0123456789') {\n\t\t\treturn false;\n\t\t}\n\n\t\t// https://bugs.chromium.org/p/v8/issues/detail?id=3056\n\t\tvar test3 = {};\n\t\t'abcdefghijklmnopqrst'.split('').forEach(function (letter) {\n\t\t\ttest3[letter] = letter;\n\t\t});\n\t\tif (Object.keys(Object.assign({}, test3)).join('') !==\n\t\t\t\t'abcdefghijklmnopqrst') {\n\t\t\treturn false;\n\t\t}\n\n\t\treturn true;\n\t} catch (err) {\n\t\t// We don't expect any of the above to throw, but better to be safe.\n\t\treturn false;\n\t}\n}\n\nmodule.exports = shouldUseNative() ? Object.assign : function (target, source) {\n\tvar from;\n\tvar to = toObject(target);\n\tvar symbols;\n\n\tfor (var s = 1; s < arguments.length; s++) {\n\t\tfrom = Object(arguments[s]);\n\n\t\tfor (var key in from) {\n\t\t\tif (hasOwnProperty.call(from, key)) {\n\t\t\t\tto[key] = from[key];\n\t\t\t}\n\t\t}\n\n\t\tif (getOwnPropertySymbols) {\n\t\t\tsymbols = getOwnPropertySymbols(from);\n\t\t\tfor (var i = 0; i < symbols.length; i++) {\n\t\t\t\tif (propIsEnumerable.call(from, symbols[i])) {\n\t\t\t\t\tto[symbols[i]] = from[symbols[i]];\n\t\t\t\t}\n\t\t\t}\n\t\t}\n\t}\n\n\treturn to;\n};\n\n\n/***/ }),\n\n/***/ \"./node_modules/prop-types/checkPropTypes.js\":\n/*!***************************************************!*\\\n  !*** ./node_modules/prop-types/checkPropTypes.js ***!\n  \\***************************************************/\n/***/ ((module, __unused_webpack_exports, __webpack_require__) => {\n\n\"use strict\";\n/**\n * Copyright (c) 2013-present, Facebook, Inc.\n *\n * This source code is licensed under the MIT license found in the\n * LICENSE file in the root directory of this source tree.\n */\n\n\n\nvar printWarning = function() {};\n\nif (true) {\n  var ReactPropTypesSecret = __webpack_require__(/*! ./lib/ReactPropTypesSecret */ \"./node_modules/prop-types/lib/ReactPropTypesSecret.js\");\n  var loggedTypeFailures = {};\n  var has = __webpack_require__(/*! ./lib/has */ \"./node_modules/prop-types/lib/has.js\");\n\n  printWarning = function(text) {\n    var message = 'Warning: ' + text;\n    if (typeof console !== 'undefined') {\n      console.error(message);\n    }\n    try {\n      // --- Welcome to debugging React ---\n      // This error was thrown as a convenience so that you can use this stack\n      // to find the callsite that caused this warning to fire.\n      throw new Error(message);\n    } catch (x) { /**/ }\n  };\n}\n\n/**\n * Assert that the values match with the type specs.\n * Error messages are memorized and will only be shown once.\n *\n * @param {object} typeSpecs Map of name to a ReactPropType\n * @param {object} values Runtime values that need to be type-checked\n * @param {string} location e.g. \"prop\", \"context\", \"child context\"\n * @param {string} componentName Name of the component for error messages.\n * @param {?Function} getStack Returns the component stack.\n * @private\n */\nfunction checkPropTypes(typeSpecs, values, location, componentName, getStack) {\n  if (true) {\n    for (var typeSpecName in typeSpecs) {\n      if (has(typeSpecs, typeSpecName)) {\n        var error;\n        // Prop type validation may throw. In case they do, we don't want to\n        // fail the render phase where it didn't fail before. So we log it.\n        // After these have been cleaned up, we'll let them throw.\n        try {\n          // This is intentionally an invariant that gets caught. It's the same\n          // behavior as without this statement except with a better message.\n          if (typeof typeSpecs[typeSpecName] !== 'function') {\n            var err = Error(\n              (componentName || 'React class') + ': ' + location + ' type `' + typeSpecName + '` is invalid; ' +\n              'it must be a function, usually from the `prop-types` package, but received `' + typeof typeSpecs[typeSpecName] + '`.' +\n              'This often happens because of typos such as `PropTypes.function` instead of `PropTypes.func`.'\n            );\n            err.name = 'Invariant Violation';\n            throw err;\n          }\n          error = typeSpecs[typeSpecName](values, typeSpecName, componentName, location, null, ReactPropTypesSecret);\n        } catch (ex) {\n          error = ex;\n        }\n        if (error && !(error instanceof Error)) {\n          printWarning(\n            (componentName || 'React class') + ': type specification of ' +\n            location + ' `' + typeSpecName + '` is invalid; the type checker ' +\n            'function must return `null` or an `Error` but returned a ' + typeof error + '. ' +\n            'You may have forgotten to pass an argument to the type checker ' +\n            'creator (arrayOf, instanceOf, objectOf, oneOf, oneOfType, and ' +\n            'shape all require an argument).'\n          );\n        }\n        if (error instanceof Error && !(error.message in loggedTypeFailures)) {\n          // Only monitor this failure once because there tends to be a lot of the\n          // same error.\n          loggedTypeFailures[error.message] = true;\n\n          var stack = getStack ? getStack() : '';\n\n          printWarning(\n            'Failed ' + location + ' type: ' + error.message + (stack != null ? stack : '')\n          );\n        }\n      }\n    }\n  }\n}\n\n/**\n * Resets warning cache when testing.\n *\n * @private\n */\ncheckPropTypes.resetWarningCache = function() {\n  if (true) {\n    loggedTypeFailures = {};\n  }\n}\n\nmodule.exports = checkPropTypes;\n\n\n/***/ }),\n\n/***/ \"./node_modules/prop-types/factoryWithTypeCheckers.js\":\n/*!************************************************************!*\\\n  !*** ./node_modules/prop-types/factoryWithTypeCheckers.js ***!\n  \\************************************************************/\n/***/ ((module, __unused_webpack_exports, __webpack_require__) => {\n\n\"use strict\";\n/**\n * Copyright (c) 2013-present, Facebook, Inc.\n *\n * This source code is licensed under the MIT license found in the\n * LICENSE file in the root directory of this source tree.\n */\n\n\n\nvar ReactIs = __webpack_require__(/*! react-is */ \"./node_modules/react-is/index.js\");\nvar assign = __webpack_require__(/*! object-assign */ \"./node_modules/object-assign/index.js\");\n\nvar ReactPropTypesSecret = __webpack_require__(/*! ./lib/ReactPropTypesSecret */ \"./node_modules/prop-types/lib/ReactPropTypesSecret.js\");\nvar has = __webpack_require__(/*! ./lib/has */ \"./node_modules/prop-types/lib/has.js\");\nvar checkPropTypes = __webpack_require__(/*! ./checkPropTypes */ \"./node_modules/prop-types/checkPropTypes.js\");\n\nvar printWarning = function() {};\n\nif (true) {\n  printWarning = function(text) {\n    var message = 'Warning: ' + text;\n    if (typeof console !== 'undefined') {\n      console.error(message);\n    }\n    try {\n      // --- Welcome to debugging React ---\n      // This error was thrown as a convenience so that you can use this stack\n      // to find the callsite that caused this warning to fire.\n      throw new Error(message);\n    } catch (x) {}\n  };\n}\n\nfunction emptyFunctionThatReturnsNull() {\n  return null;\n}\n\nmodule.exports = function(isValidElement, throwOnDirectAccess) {\n  /* global Symbol */\n  var ITERATOR_SYMBOL = typeof Symbol === 'function' && Symbol.iterator;\n  var FAUX_ITERATOR_SYMBOL = '@@iterator'; // Before Symbol spec.\n\n  /**\n   * Returns the iterator method function contained on the iterable object.\n   *\n   * Be sure to invoke the function with the iterable as context:\n   *\n   *     var iteratorFn = getIteratorFn(myIterable);\n   *     if (iteratorFn) {\n   *       var iterator = iteratorFn.call(myIterable);\n   *       ...\n   *     }\n   *\n   * @param {?object} maybeIterable\n   * @return {?function}\n   */\n  function getIteratorFn(maybeIterable) {\n    var iteratorFn = maybeIterable && (ITERATOR_SYMBOL && maybeIterable[ITERATOR_SYMBOL] || maybeIterable[FAUX_ITERATOR_SYMBOL]);\n    if (typeof iteratorFn === 'function') {\n      return iteratorFn;\n    }\n  }\n\n  /**\n   * Collection of methods that allow declaration and validation of props that are\n   * supplied to React components. Example usage:\n   *\n   *   var Props = require('ReactPropTypes');\n   *   var MyArticle = React.createClass({\n   *     propTypes: {\n   *       // An optional string prop named \"description\".\n   *       description: Props.string,\n   *\n   *       // A required enum prop named \"category\".\n   *       category: Props.oneOf(['News','Photos']).isRequired,\n   *\n   *       // A prop named \"dialog\" that requires an instance of Dialog.\n   *       dialog: Props.instanceOf(Dialog).isRequired\n   *     },\n   *     render: function() { ... }\n   *   });\n   *\n   * A more formal specification of how these methods are used:\n   *\n   *   type := array|bool|func|object|number|string|oneOf([...])|instanceOf(...)\n   *   decl := ReactPropTypes.{type}(.isRequired)?\n   *\n   * Each and every declaration produces a function with the same signature. This\n   * allows the creation of custom validation functions. For example:\n   *\n   *  var MyLink = React.createClass({\n   *    propTypes: {\n   *      // An optional string or URI prop named \"href\".\n   *      href: function(props, propName, componentName) {\n   *        var propValue = props[propName];\n   *        if (propValue != null && typeof propValue !== 'string' &&\n   *            !(propValue instanceof URI)) {\n   *          return new Error(\n   *            'Expected a string or an URI for ' + propName + ' in ' +\n   *            componentName\n   *          );\n   *        }\n   *      }\n   *    },\n   *    render: function() {...}\n   *  });\n   *\n   * @internal\n   */\n\n  var ANONYMOUS = '<<anonymous>>';\n\n  // Important!\n  // Keep this list in sync with production version in `./factoryWithThrowingShims.js`.\n  var ReactPropTypes = {\n    array: createPrimitiveTypeChecker('array'),\n    bigint: createPrimitiveTypeChecker('bigint'),\n    bool: createPrimitiveTypeChecker('boolean'),\n    func: createPrimitiveTypeChecker('function'),\n    number: createPrimitiveTypeChecker('number'),\n    object: createPrimitiveTypeChecker('object'),\n    string: createPrimitiveTypeChecker('string'),\n    symbol: createPrimitiveTypeChecker('symbol'),\n\n    any: createAnyTypeChecker(),\n    arrayOf: createArrayOfTypeChecker,\n    element: createElementTypeChecker(),\n    elementType: createElementTypeTypeChecker(),\n    instanceOf: createInstanceTypeChecker,\n    node: createNodeChecker(),\n    objectOf: createObjectOfTypeChecker,\n    oneOf: createEnumTypeChecker,\n    oneOfType: createUnionTypeChecker,\n    shape: createShapeTypeChecker,\n    exact: createStrictShapeTypeChecker,\n  };\n\n  /**\n   * inlined Object.is polyfill to avoid requiring consumers ship their own\n   * https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/Object/is\n   */\n  /*eslint-disable no-self-compare*/\n  function is(x, y) {\n    // SameValue algorithm\n    if (x === y) {\n      // Steps 1-5, 7-10\n      // Steps 6.b-6.e: +0 != -0\n      return x !== 0 || 1 / x === 1 / y;\n    } else {\n      // Step 6.a: NaN == NaN\n      return x !== x && y !== y;\n    }\n  }\n  /*eslint-enable no-self-compare*/\n\n  /**\n   * We use an Error-like object for backward compatibility as people may call\n   * PropTypes directly and inspect their output. However, we don't use real\n   * Errors anymore. We don't inspect their stack anyway, and creating them\n   * is prohibitively expensive if they are created too often, such as what\n   * happens in oneOfType() for any type before the one that matched.\n   */\n  function PropTypeError(message, data) {\n    this.message = message;\n    this.data = data && typeof data === 'object' ? data: {};\n    this.stack = '';\n  }\n  // Make `instanceof Error` still work for returned errors.\n  PropTypeError.prototype = Error.prototype;\n\n  function createChainableTypeChecker(validate) {\n    if (true) {\n      var manualPropTypeCallCache = {};\n      var manualPropTypeWarningCount = 0;\n    }\n    function checkType(isRequired, props, propName, componentName, location, propFullName, secret) {\n      componentName = componentName || ANONYMOUS;\n      propFullName = propFullName || propName;\n\n      if (secret !== ReactPropTypesSecret) {\n        if (throwOnDirectAccess) {\n          // New behavior only for users of `prop-types` package\n          var err = new Error(\n            'Calling PropTypes validators directly is not supported by the `prop-types` package. ' +\n            'Use `PropTypes.checkPropTypes()` to call them. ' +\n            'Read more at http://fb.me/use-check-prop-types'\n          );\n          err.name = 'Invariant Violation';\n          throw err;\n        } else if ( true && typeof console !== 'undefined') {\n          // Old behavior for people using React.PropTypes\n          var cacheKey = componentName + ':' + propName;\n          if (\n            !manualPropTypeCallCache[cacheKey] &&\n            // Avoid spamming the console because they are often not actionable except for lib authors\n            manualPropTypeWarningCount < 3\n          ) {\n            printWarning(\n              'You are manually calling a React.PropTypes validation ' +\n              'function for the `' + propFullName + '` prop on `' + componentName + '`. This is deprecated ' +\n              'and will throw in the standalone `prop-types` package. ' +\n              'You may be seeing this warning due to a third-party PropTypes ' +\n              'library. See https://fb.me/react-warning-dont-call-proptypes ' + 'for details.'\n            );\n            manualPropTypeCallCache[cacheKey] = true;\n            manualPropTypeWarningCount++;\n          }\n        }\n      }\n      if (props[propName] == null) {\n        if (isRequired) {\n          if (props[propName] === null) {\n            return new PropTypeError('The ' + location + ' `' + propFullName + '` is marked as required ' + ('in `' + componentName + '`, but its value is `null`.'));\n          }\n          return new PropTypeError('The ' + location + ' `' + propFullName + '` is marked as required in ' + ('`' + componentName + '`, but its value is `undefined`.'));\n        }\n        return null;\n      } else {\n        return validate(props, propName, componentName, location, propFullName);\n      }\n    }\n\n    var chainedCheckType = checkType.bind(null, false);\n    chainedCheckType.isRequired = checkType.bind(null, true);\n\n    return chainedCheckType;\n  }\n\n  function createPrimitiveTypeChecker(expectedType) {\n    function validate(props, propName, componentName, location, propFullName, secret) {\n      var propValue = props[propName];\n      var propType = getPropType(propValue);\n      if (propType !== expectedType) {\n        // `propValue` being instance of, say, date/regexp, pass the 'object'\n        // check, but we can offer a more precise error message here rather than\n        // 'of type `object`'.\n        var preciseType = getPreciseType(propValue);\n\n        return new PropTypeError(\n          'Invalid ' + location + ' `' + propFullName + '` of type ' + ('`' + preciseType + '` supplied to `' + componentName + '`, expected ') + ('`' + expectedType + '`.'),\n          {expectedType: expectedType}\n        );\n      }\n      return null;\n    }\n    return createChainableTypeChecker(validate);\n  }\n\n  function createAnyTypeChecker() {\n    return createChainableTypeChecker(emptyFunctionThatReturnsNull);\n  }\n\n  function createArrayOfTypeChecker(typeChecker) {\n    function validate(props, propName, componentName, location, propFullName) {\n      if (typeof typeChecker !== 'function') {\n        return new PropTypeError('Property `' + propFullName + '` of component `' + componentName + '` has invalid PropType notation inside arrayOf.');\n      }\n      var propValue = props[propName];\n      if (!Array.isArray(propValue)) {\n        var propType = getPropType(propValue);\n        return new PropTypeError('Invalid ' + location + ' `' + propFullName + '` of type ' + ('`' + propType + '` supplied to `' + componentName + '`, expected an array.'));\n      }\n      for (var i = 0; i < propValue.length; i++) {\n        var error = typeChecker(propValue, i, componentName, location, propFullName + '[' + i + ']', ReactPropTypesSecret);\n        if (error instanceof Error) {\n          return error;\n        }\n      }\n      return null;\n    }\n    return createChainableTypeChecker(validate);\n  }\n\n  function createElementTypeChecker() {\n    function validate(props, propName, componentName, location, propFullName) {\n      var propValue = props[propName];\n      if (!isValidElement(propValue)) {\n        var propType = getPropType(propValue);\n        return new PropTypeError('Invalid ' + location + ' `' + propFullName + '` of type ' + ('`' + propType + '` supplied to `' + componentName + '`, expected a single ReactElement.'));\n      }\n      return null;\n    }\n    return createChainableTypeChecker(validate);\n  }\n\n  function createElementTypeTypeChecker() {\n    function validate(props, propName, componentName, location, propFullName) {\n      var propValue = props[propName];\n      if (!ReactIs.isValidElementType(propValue)) {\n        var propType = getPropType(propValue);\n        return new PropTypeError('Invalid ' + location + ' `' + propFullName + '` of type ' + ('`' + propType + '` supplied to `' + componentName + '`, expected a single ReactElement type.'));\n      }\n      return null;\n    }\n    return createChainableTypeChecker(validate);\n  }\n\n  function createInstanceTypeChecker(expectedClass) {\n    function validate(props, propName, componentName, location, propFullName) {\n      if (!(props[propName] instanceof expectedClass)) {\n        var expectedClassName = expectedClass.name || ANONYMOUS;\n        var actualClassName = getClassName(props[propName]);\n        return new PropTypeError('Invalid ' + location + ' `' + propFullName + '` of type ' + ('`' + actualClassName + '` supplied to `' + componentName + '`, expected ') + ('instance of `' + expectedClassName + '`.'));\n      }\n      return null;\n    }\n    return createChainableTypeChecker(validate);\n  }\n\n  function createEnumTypeChecker(expectedValues) {\n    if (!Array.isArray(expectedValues)) {\n      if (true) {\n        if (arguments.length > 1) {\n          printWarning(\n            'Invalid arguments supplied to oneOf, expected an array, got ' + arguments.length + ' arguments. ' +\n            'A common mistake is to write oneOf(x, y, z) instead of oneOf([x, y, z]).'\n          );\n        } else {\n          printWarning('Invalid argument supplied to oneOf, expected an array.');\n        }\n      }\n      return emptyFunctionThatReturnsNull;\n    }\n\n    function validate(props, propName, componentName, location, propFullName) {\n      var propValue = props[propName];\n      for (var i = 0; i < expectedValues.length; i++) {\n        if (is(propValue, expectedValues[i])) {\n          return null;\n        }\n      }\n\n      var valuesString = JSON.stringify(expectedValues, function replacer(key, value) {\n        var type = getPreciseType(value);\n        if (type === 'symbol') {\n          return String(value);\n        }\n        return value;\n      });\n      return new PropTypeError('Invalid ' + location + ' `' + propFullName + '` of value `' + String(propValue) + '` ' + ('supplied to `' + componentName + '`, expected one of ' + valuesString + '.'));\n    }\n    return createChainableTypeChecker(validate);\n  }\n\n  function createObjectOfTypeChecker(typeChecker) {\n    function validate(props, propName, componentName, location, propFullName) {\n      if (typeof typeChecker !== 'function') {\n        return new PropTypeError('Property `' + propFullName + '` of component `' + componentName + '` has invalid PropType notation inside objectOf.');\n      }\n      var propValue = props[propName];\n      var propType = getPropType(propValue);\n      if (propType !== 'object') {\n        return new PropTypeError('Invalid ' + location + ' `' + propFullName + '` of type ' + ('`' + propType + '` supplied to `' + componentName + '`, expected an object.'));\n      }\n      for (var key in propValue) {\n        if (has(propValue, key)) {\n          var error = typeChecker(propValue, key, componentName, location, propFullName + '.' + key, ReactPropTypesSecret);\n          if (error instanceof Error) {\n            return error;\n          }\n        }\n      }\n      return null;\n    }\n    return createChainableTypeChecker(validate);\n  }\n\n  function createUnionTypeChecker(arrayOfTypeCheckers) {\n    if (!Array.isArray(arrayOfTypeCheckers)) {\n       true ? printWarning('Invalid argument supplied to oneOfType, expected an instance of array.') : 0;\n      return emptyFunctionThatReturnsNull;\n    }\n\n    for (var i = 0; i < arrayOfTypeCheckers.length; i++) {\n      var checker = arrayOfTypeCheckers[i];\n      if (typeof checker !== 'function') {\n        printWarning(\n          'Invalid argument supplied to oneOfType. Expected an array of check functions, but ' +\n          'received ' + getPostfixForTypeWarning(checker) + ' at index ' + i + '.'\n        );\n        return emptyFunctionThatReturnsNull;\n      }\n    }\n\n    function validate(props, propName, componentName, location, propFullName) {\n      var expectedTypes = [];\n      for (var i = 0; i < arrayOfTypeCheckers.length; i++) {\n        var checker = arrayOfTypeCheckers[i];\n        var checkerResult = checker(props, propName, componentName, location, propFullName, ReactPropTypesSecret);\n        if (checkerResult == null) {\n          return null;\n        }\n        if (checkerResult.data && has(checkerResult.data, 'expectedType')) {\n          expectedTypes.push(checkerResult.data.expectedType);\n        }\n      }\n      var expectedTypesMessage = (expectedTypes.length > 0) ? ', expected one of type [' + expectedTypes.join(', ') + ']': '';\n      return new PropTypeError('Invalid ' + location + ' `' + propFullName + '` supplied to ' + ('`' + componentName + '`' + expectedTypesMessage + '.'));\n    }\n    return createChainableTypeChecker(validate);\n  }\n\n  function createNodeChecker() {\n    function validate(props, propName, componentName, location, propFullName) {\n      if (!isNode(props[propName])) {\n        return new PropTypeError('Invalid ' + location + ' `' + propFullName + '` supplied to ' + ('`' + componentName + '`, expected a ReactNode.'));\n      }\n      return null;\n    }\n    return createChainableTypeChecker(validate);\n  }\n\n  function invalidValidatorError(componentName, location, propFullName, key, type) {\n    return new PropTypeError(\n      (componentName || 'React class') + ': ' + location + ' type `' + propFullName + '.' + key + '` is invalid; ' +\n      'it must be a function, usually from the `prop-types` package, but received `' + type + '`.'\n    );\n  }\n\n  function createShapeTypeChecker(shapeTypes) {\n    function validate(props, propName, componentName, location, propFullName) {\n      var propValue = props[propName];\n      var propType = getPropType(propValue);\n      if (propType !== 'object') {\n        return new PropTypeError('Invalid ' + location + ' `' + propFullName + '` of type `' + propType + '` ' + ('supplied to `' + componentName + '`, expected `object`.'));\n      }\n      for (var key in shapeTypes) {\n        var checker = shapeTypes[key];\n        if (typeof checker !== 'function') {\n          return invalidValidatorError(componentName, location, propFullName, key, getPreciseType(checker));\n        }\n        var error = checker(propValue, key, componentName, location, propFullName + '.' + key, ReactPropTypesSecret);\n        if (error) {\n          return error;\n        }\n      }\n      return null;\n    }\n    return createChainableTypeChecker(validate);\n  }\n\n  function createStrictShapeTypeChecker(shapeTypes) {\n    function validate(props, propName, componentName, location, propFullName) {\n      var propValue = props[propName];\n      var propType = getPropType(propValue);\n      if (propType !== 'object') {\n        return new PropTypeError('Invalid ' + location + ' `' + propFullName + '` of type `' + propType + '` ' + ('supplied to `' + componentName + '`, expected `object`.'));\n      }\n      // We need to check all keys in case some are required but missing from props.\n      var allKeys = assign({}, props[propName], shapeTypes);\n      for (var key in allKeys) {\n        var checker = shapeTypes[key];\n        if (has(shapeTypes, key) && typeof checker !== 'function') {\n          return invalidValidatorError(componentName, location, propFullName, key, getPreciseType(checker));\n        }\n        if (!checker) {\n          return new PropTypeError(\n            'Invalid ' + location + ' `' + propFullName + '` key `' + key + '` supplied to `' + componentName + '`.' +\n            '\\nBad object: ' + JSON.stringify(props[propName], null, '  ') +\n            '\\nValid keys: ' + JSON.stringify(Object.keys(shapeTypes), null, '  ')\n          );\n        }\n        var error = checker(propValue, key, componentName, location, propFullName + '.' + key, ReactPropTypesSecret);\n        if (error) {\n          return error;\n        }\n      }\n      return null;\n    }\n\n    return createChainableTypeChecker(validate);\n  }\n\n  function isNode(propValue) {\n    switch (typeof propValue) {\n      case 'number':\n      case 'string':\n      case 'undefined':\n        return true;\n      case 'boolean':\n        return !propValue;\n      case 'object':\n        if (Array.isArray(propValue)) {\n          return propValue.every(isNode);\n        }\n        if (propValue === null || isValidElement(propValue)) {\n          return true;\n        }\n\n        var iteratorFn = getIteratorFn(propValue);\n        if (iteratorFn) {\n          var iterator = iteratorFn.call(propValue);\n          var step;\n          if (iteratorFn !== propValue.entries) {\n            while (!(step = iterator.next()).done) {\n              if (!isNode(step.value)) {\n                return false;\n              }\n            }\n          } else {\n            // Iterator will provide entry [k,v] tuples rather than values.\n            while (!(step = iterator.next()).done) {\n              var entry = step.value;\n              if (entry) {\n                if (!isNode(entry[1])) {\n                  return false;\n                }\n              }\n            }\n          }\n        } else {\n          return false;\n        }\n\n        return true;\n      default:\n        return false;\n    }\n  }\n\n  function isSymbol(propType, propValue) {\n    // Native Symbol.\n    if (propType === 'symbol') {\n      return true;\n    }\n\n    // falsy value can't be a Symbol\n    if (!propValue) {\n      return false;\n    }\n\n    // 19.4.3.5 Symbol.prototype[@@toStringTag] === 'Symbol'\n    if (propValue['@@toStringTag'] === 'Symbol') {\n      return true;\n    }\n\n    // Fallback for non-spec compliant Symbols which are polyfilled.\n    if (typeof Symbol === 'function' && propValue instanceof Symbol) {\n      return true;\n    }\n\n    return false;\n  }\n\n  // Equivalent of `typeof` but with special handling for array and regexp.\n  function getPropType(propValue) {\n    var propType = typeof propValue;\n    if (Array.isArray(propValue)) {\n      return 'array';\n    }\n    if (propValue instanceof RegExp) {\n      // Old webkits (at least until Android 4.0) return 'function' rather than\n      // 'object' for typeof a RegExp. We'll normalize this here so that /bla/\n      // passes PropTypes.object.\n      return 'object';\n    }\n    if (isSymbol(propType, propValue)) {\n      return 'symbol';\n    }\n    return propType;\n  }\n\n  // This handles more types than `getPropType`. Only used for error messages.\n  // See `createPrimitiveTypeChecker`.\n  function getPreciseType(propValue) {\n    if (typeof propValue === 'undefined' || propValue === null) {\n      return '' + propValue;\n    }\n    var propType = getPropType(propValue);\n    if (propType === 'object') {\n      if (propValue instanceof Date) {\n        return 'date';\n      } else if (propValue instanceof RegExp) {\n        return 'regexp';\n      }\n    }\n    return propType;\n  }\n\n  // Returns a string that is postfixed to a warning about an invalid type.\n  // For example, \"undefined\" or \"of type array\"\n  function getPostfixForTypeWarning(value) {\n    var type = getPreciseType(value);\n    switch (type) {\n      case 'array':\n      case 'object':\n        return 'an ' + type;\n      case 'boolean':\n      case 'date':\n      case 'regexp':\n        return 'a ' + type;\n      default:\n        return type;\n    }\n  }\n\n  // Returns class name of the object, if any.\n  function getClassName(propValue) {\n    if (!propValue.constructor || !propValue.constructor.name) {\n      return ANONYMOUS;\n    }\n    return propValue.constructor.name;\n  }\n\n  ReactPropTypes.checkPropTypes = checkPropTypes;\n  ReactPropTypes.resetWarningCache = checkPropTypes.resetWarningCache;\n  ReactPropTypes.PropTypes = ReactPropTypes;\n\n  return ReactPropTypes;\n};\n\n\n/***/ }),\n\n/***/ \"./node_modules/prop-types/index.js\":\n/*!******************************************!*\\\n  !*** ./node_modules/prop-types/index.js ***!\n  \\******************************************/\n/***/ ((module, __unused_webpack_exports, __webpack_require__) => {\n\n/**\n * Copyright (c) 2013-present, Facebook, Inc.\n *\n * This source code is licensed under the MIT license found in the\n * LICENSE file in the root directory of this source tree.\n */\n\nif (true) {\n  var ReactIs = __webpack_require__(/*! react-is */ \"./node_modules/react-is/index.js\");\n\n  // By explicitly using `prop-types` you are opting into new development behavior.\n  // http://fb.me/prop-types-in-prod\n  var throwOnDirectAccess = true;\n  module.exports = __webpack_require__(/*! ./factoryWithTypeCheckers */ \"./node_modules/prop-types/factoryWithTypeCheckers.js\")(ReactIs.isElement, throwOnDirectAccess);\n} else {}\n\n\n/***/ }),\n\n/***/ \"./node_modules/prop-types/lib/ReactPropTypesSecret.js\":\n/*!*************************************************************!*\\\n  !*** ./node_modules/prop-types/lib/ReactPropTypesSecret.js ***!\n  \\*************************************************************/\n/***/ ((module) => {\n\n\"use strict\";\n/**\n * Copyright (c) 2013-present, Facebook, Inc.\n *\n * This source code is licensed under the MIT license found in the\n * LICENSE file in the root directory of this source tree.\n */\n\n\n\nvar ReactPropTypesSecret = 'SECRET_DO_NOT_PASS_THIS_OR_YOU_WILL_BE_FIRED';\n\nmodule.exports = ReactPropTypesSecret;\n\n\n/***/ }),\n\n/***/ \"./node_modules/prop-types/lib/has.js\":\n/*!********************************************!*\\\n  !*** ./node_modules/prop-types/lib/has.js ***!\n  \\********************************************/\n/***/ ((module) => {\n\nmodule.exports = Function.call.bind(Object.prototype.hasOwnProperty);\n\n\n/***/ }),\n\n/***/ \"./node_modules/react-is/cjs/react-is.development.js\":\n/*!***********************************************************!*\\\n  !*** ./node_modules/react-is/cjs/react-is.development.js ***!\n  \\***********************************************************/\n/***/ ((__unused_webpack_module, exports) => {\n\n\"use strict\";\n/** @license React v16.13.1\n * react-is.development.js\n *\n * Copyright (c) Facebook, Inc. and its affiliates.\n *\n * This source code is licensed under the MIT license found in the\n * LICENSE file in the root directory of this source tree.\n */\n\n\n\n\n\nif (true) {\n  (function() {\n'use strict';\n\n// The Symbol used to tag the ReactElement-like types. If there is no native Symbol\n// nor polyfill, then a plain number is used for performance.\nvar hasSymbol = typeof Symbol === 'function' && Symbol.for;\nvar REACT_ELEMENT_TYPE = hasSymbol ? Symbol.for('react.element') : 0xeac7;\nvar REACT_PORTAL_TYPE = hasSymbol ? Symbol.for('react.portal') : 0xeaca;\nvar REACT_FRAGMENT_TYPE = hasSymbol ? Symbol.for('react.fragment') : 0xeacb;\nvar REACT_STRICT_MODE_TYPE = hasSymbol ? Symbol.for('react.strict_mode') : 0xeacc;\nvar REACT_PROFILER_TYPE = hasSymbol ? Symbol.for('react.profiler') : 0xead2;\nvar REACT_PROVIDER_TYPE = hasSymbol ? Symbol.for('react.provider') : 0xeacd;\nvar REACT_CONTEXT_TYPE = hasSymbol ? Symbol.for('react.context') : 0xeace; // TODO: We don't use AsyncMode or ConcurrentMode anymore. They were temporary\n// (unstable) APIs that have been removed. Can we remove the symbols?\n\nvar REACT_ASYNC_MODE_TYPE = hasSymbol ? Symbol.for('react.async_mode') : 0xeacf;\nvar REACT_CONCURRENT_MODE_TYPE = hasSymbol ? Symbol.for('react.concurrent_mode') : 0xeacf;\nvar REACT_FORWARD_REF_TYPE = hasSymbol ? Symbol.for('react.forward_ref') : 0xead0;\nvar REACT_SUSPENSE_TYPE = hasSymbol ? Symbol.for('react.suspense') : 0xead1;\nvar REACT_SUSPENSE_LIST_TYPE = hasSymbol ? Symbol.for('react.suspense_list') : 0xead8;\nvar REACT_MEMO_TYPE = hasSymbol ? Symbol.for('react.memo') : 0xead3;\nvar REACT_LAZY_TYPE = hasSymbol ? Symbol.for('react.lazy') : 0xead4;\nvar REACT_BLOCK_TYPE = hasSymbol ? Symbol.for('react.block') : 0xead9;\nvar REACT_FUNDAMENTAL_TYPE = hasSymbol ? Symbol.for('react.fundamental') : 0xead5;\nvar REACT_RESPONDER_TYPE = hasSymbol ? Symbol.for('react.responder') : 0xead6;\nvar REACT_SCOPE_TYPE = hasSymbol ? Symbol.for('react.scope') : 0xead7;\n\nfunction isValidElementType(type) {\n  return typeof type === 'string' || typeof type === 'function' || // Note: its typeof might be other than 'symbol' or 'number' if it's a polyfill.\n  type === REACT_FRAGMENT_TYPE || type === REACT_CONCURRENT_MODE_TYPE || type === REACT_PROFILER_TYPE || type === REACT_STRICT_MODE_TYPE || type === REACT_SUSPENSE_TYPE || type === REACT_SUSPENSE_LIST_TYPE || typeof type === 'object' && type !== null && (type.$$typeof === REACT_LAZY_TYPE || type.$$typeof === REACT_MEMO_TYPE || type.$$typeof === REACT_PROVIDER_TYPE || type.$$typeof === REACT_CONTEXT_TYPE || type.$$typeof === REACT_FORWARD_REF_TYPE || type.$$typeof === REACT_FUNDAMENTAL_TYPE || type.$$typeof === REACT_RESPONDER_TYPE || type.$$typeof === REACT_SCOPE_TYPE || type.$$typeof === REACT_BLOCK_TYPE);\n}\n\nfunction typeOf(object) {\n  if (typeof object === 'object' && object !== null) {\n    var $$typeof = object.$$typeof;\n\n    switch ($$typeof) {\n      case REACT_ELEMENT_TYPE:\n        var type = object.type;\n\n        switch (type) {\n          case REACT_ASYNC_MODE_TYPE:\n          case REACT_CONCURRENT_MODE_TYPE:\n          case REACT_FRAGMENT_TYPE:\n          case REACT_PROFILER_TYPE:\n          case REACT_STRICT_MODE_TYPE:\n          case REACT_SUSPENSE_TYPE:\n            return type;\n\n          default:\n            var $$typeofType = type && type.$$typeof;\n\n            switch ($$typeofType) {\n              case REACT_CONTEXT_TYPE:\n              case REACT_FORWARD_REF_TYPE:\n              case REACT_LAZY_TYPE:\n              case REACT_MEMO_TYPE:\n              case REACT_PROVIDER_TYPE:\n                return $$typeofType;\n\n              default:\n                return $$typeof;\n            }\n\n        }\n\n      case REACT_PORTAL_TYPE:\n        return $$typeof;\n    }\n  }\n\n  return undefined;\n} // AsyncMode is deprecated along with isAsyncMode\n\nvar AsyncMode = REACT_ASYNC_MODE_TYPE;\nvar ConcurrentMode = REACT_CONCURRENT_MODE_TYPE;\nvar ContextConsumer = REACT_CONTEXT_TYPE;\nvar ContextProvider = REACT_PROVIDER_TYPE;\nvar Element = REACT_ELEMENT_TYPE;\nvar ForwardRef = REACT_FORWARD_REF_TYPE;\nvar Fragment = REACT_FRAGMENT_TYPE;\nvar Lazy = REACT_LAZY_TYPE;\nvar Memo = REACT_MEMO_TYPE;\nvar Portal = REACT_PORTAL_TYPE;\nvar Profiler = REACT_PROFILER_TYPE;\nvar StrictMode = REACT_STRICT_MODE_TYPE;\nvar Suspense = REACT_SUSPENSE_TYPE;\nvar hasWarnedAboutDeprecatedIsAsyncMode = false; // AsyncMode should be deprecated\n\nfunction isAsyncMode(object) {\n  {\n    if (!hasWarnedAboutDeprecatedIsAsyncMode) {\n      hasWarnedAboutDeprecatedIsAsyncMode = true; // Using console['warn'] to evade Babel and ESLint\n\n      console['warn']('The ReactIs.isAsyncMode() alias has been deprecated, ' + 'and will be removed in React 17+. Update your code to use ' + 'ReactIs.isConcurrentMode() instead. It has the exact same API.');\n    }\n  }\n\n  return isConcurrentMode(object) || typeOf(object) === REACT_ASYNC_MODE_TYPE;\n}\nfunction isConcurrentMode(object) {\n  return typeOf(object) === REACT_CONCURRENT_MODE_TYPE;\n}\nfunction isContextConsumer(object) {\n  return typeOf(object) === REACT_CONTEXT_TYPE;\n}\nfunction isContextProvider(object) {\n  return typeOf(object) === REACT_PROVIDER_TYPE;\n}\nfunction isElement(object) {\n  return typeof object === 'object' && object !== null && object.$$typeof === REACT_ELEMENT_TYPE;\n}\nfunction isForwardRef(object) {\n  return typeOf(object) === REACT_FORWARD_REF_TYPE;\n}\nfunction isFragment(object) {\n  return typeOf(object) === REACT_FRAGMENT_TYPE;\n}\nfunction isLazy(object) {\n  return typeOf(object) === REACT_LAZY_TYPE;\n}\nfunction isMemo(object) {\n  return typeOf(object) === REACT_MEMO_TYPE;\n}\nfunction isPortal(object) {\n  return typeOf(object) === REACT_PORTAL_TYPE;\n}\nfunction isProfiler(object) {\n  return typeOf(object) === REACT_PROFILER_TYPE;\n}\nfunction isStrictMode(object) {\n  return typeOf(object) === REACT_STRICT_MODE_TYPE;\n}\nfunction isSuspense(object) {\n  return typeOf(object) === REACT_SUSPENSE_TYPE;\n}\n\nexports.AsyncMode = AsyncMode;\nexports.ConcurrentMode = ConcurrentMode;\nexports.ContextConsumer = ContextConsumer;\nexports.ContextProvider = ContextProvider;\nexports.Element = Element;\nexports.ForwardRef = ForwardRef;\nexports.Fragment = Fragment;\nexports.Lazy = Lazy;\nexports.Memo = Memo;\nexports.Portal = Portal;\nexports.Profiler = Profiler;\nexports.StrictMode = StrictMode;\nexports.Suspense = Suspense;\nexports.isAsyncMode = isAsyncMode;\nexports.isConcurrentMode = isConcurrentMode;\nexports.isContextConsumer = isContextConsumer;\nexports.isContextProvider = isContextProvider;\nexports.isElement = isElement;\nexports.isForwardRef = isForwardRef;\nexports.isFragment = isFragment;\nexports.isLazy = isLazy;\nexports.isMemo = isMemo;\nexports.isPortal = isPortal;\nexports.isProfiler = isProfiler;\nexports.isStrictMode = isStrictMode;\nexports.isSuspense = isSuspense;\nexports.isValidElementType = isValidElementType;\nexports.typeOf = typeOf;\n  })();\n}\n\n\n/***/ }),\n\n/***/ \"./node_modules/react-is/index.js\":\n/*!****************************************!*\\\n  !*** ./node_modules/react-is/index.js ***!\n  \\****************************************/\n/***/ ((module, __unused_webpack_exports, __webpack_require__) => {\n\n\"use strict\";\n\n\nif (false) {} else {\n  module.exports = __webpack_require__(/*! ./cjs/react-is.development.js */ \"./node_modules/react-is/cjs/react-is.development.js\");\n}\n\n\n/***/ }),\n\n/***/ \"./node_modules/shallow-equal/dist/index.esm.js\":\n/*!******************************************************!*\\\n  !*** ./node_modules/shallow-equal/dist/index.esm.js ***!\n  \\******************************************************/\n/***/ ((__unused_webpack_module, __webpack_exports__, __webpack_require__) => {\n\n\"use strict\";\n__webpack_require__.r(__webpack_exports__);\n/* harmony export */ __webpack_require__.d(__webpack_exports__, {\n/* harmony export */   \"shallowEqualArrays\": () => (/* binding */ shallowEqualArrays),\n/* harmony export */   \"shallowEqualObjects\": () => (/* binding */ shallowEqualObjects)\n/* harmony export */ });\nfunction shallowEqualObjects(objA, objB) {\n  if (objA === objB) {\n    return true;\n  }\n\n  if (!objA || !objB) {\n    return false;\n  }\n\n  var aKeys = Object.keys(objA);\n  var bKeys = Object.keys(objB);\n  var len = aKeys.length;\n\n  if (bKeys.length !== len) {\n    return false;\n  }\n\n  for (var i = 0; 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};\nvar keyVal = function (k, v) {\n    var realKey = (0, hyphenate_style_name_1.default)(k);\n    // px shorthand\n    if (typeof v === 'number') {\n        v = \"\".concat(v, \"px\");\n    }\n    if (v === true) {\n        return realKey;\n    }\n    if (v === false) {\n        return negate(realKey);\n    }\n    return \"(\".concat(realKey, \": \").concat(v, \")\");\n};\nvar join = function (conds) { return conds.join(' and '); };\nvar toQuery = function (obj) {\n    var rules = [];\n    Object.keys(mediaQuery_1.default.all).forEach(function (k) {\n        var v = obj[k];\n        if (v != null) {\n            rules.push(keyVal(k, v));\n        }\n    });\n    return join(rules);\n};\nexports[\"default\"] = toQuery;\n\n\n/***/ }),\n\n/***/ \"./src/useMediaQuery.ts\":\n/*!******************************!*\\\n  !*** ./src/useMediaQuery.ts ***!\n  \\******************************/\n/***/ (function(__unused_webpack_module, exports, __webpack_require__) {\n\n\"use strict\";\n\nvar __importDefault = (this && this.__importDefault) || function (mod) {\n    return (mod && mod.__esModule) ? mod : { \"default\": mod };\n};\nObject.defineProperty(exports, \"__esModule\", ({ value: true }));\nvar react_1 = __webpack_require__(/*! react */ \"react\");\nvar matchmediaquery_1 = __importDefault(__webpack_require__(/*! matchmediaquery */ \"./node_modules/matchmediaquery/index.js\"));\nvar hyphenate_style_name_1 = __importDefault(__webpack_require__(/*! hyphenate-style-name */ \"./node_modules/hyphenate-style-name/index.js\"));\nvar shallow_equal_1 = __webpack_require__(/*! shallow-equal */ \"./node_modules/shallow-equal/dist/index.esm.js\");\nvar toQuery_1 = __importDefault(__webpack_require__(/*! ./toQuery */ \"./src/toQuery.ts\"));\nvar Context_1 = __importDefault(__webpack_require__(/*! ./Context */ \"./src/Context.ts\"));\nvar makeQuery = function (settings) { return settings.query || (0, toQuery_1.default)(settings); };\nvar hyphenateKeys = function (obj) {\n    if (!obj)\n        return undefined;\n    var keys = Object.keys(obj);\n    return keys.reduce(function (result, key) {\n        result[(0, hyphenate_style_name_1.default)(key)] = obj[key];\n        return result;\n    }, {});\n};\nvar useIsUpdate = function () {\n    var ref = (0, react_1.useRef)(false);\n    (0, react_1.useEffect)(function () {\n        ref.current = true;\n    }, []);\n    return ref.current;\n};\nvar useDevice = function (deviceFromProps) {\n    var deviceFromContext = (0, react_1.useContext)(Context_1.default);\n    var getDevice = function () {\n        return hyphenateKeys(deviceFromProps) || hyphenateKeys(deviceFromContext);\n    };\n    var _a = (0, react_1.useState)(getDevice), device = _a[0], setDevice = _a[1];\n    (0, react_1.useEffect)(function () {\n        var newDevice = getDevice();\n        if (!(0, shallow_equal_1.shallowEqualObjects)(device, newDevice)) {\n            setDevice(newDevice);\n        }\n    }, [deviceFromProps, deviceFromContext]);\n    return device;\n};\nvar useQuery = function (settings) {\n    var getQuery = function () { return makeQuery(settings); };\n    var _a = (0, react_1.useState)(getQuery), query = _a[0], setQuery = _a[1];\n    (0, react_1.useEffect)(function () {\n        var newQuery = getQuery();\n        if (query !== newQuery) {\n            setQuery(newQuery);\n        }\n    }, [settings]);\n    return query;\n};\nvar useMatchMedia = function (query, device) {\n    var getMatchMedia = function () { return (0, matchmediaquery_1.default)(query, device || {}, !!device); };\n    var _a = (0, react_1.useState)(getMatchMedia), mq = _a[0], setMq = _a[1];\n    var isUpdate = useIsUpdate();\n    (0, react_1.useEffect)(function () {\n        if (isUpdate) {\n            // skip on mounting, it has already been set\n            var newMq_1 = getMatchMedia();\n            setMq(newMq_1);\n            return function () {\n                if (newMq_1) {\n                    newMq_1.dispose();\n                }\n            };\n        }\n    }, [query, device]);\n    return mq;\n};\nvar useMatches = function (mediaQuery) {\n    var _a = (0, react_1.useState)(mediaQuery.matches), matches = _a[0], setMatches = _a[1];\n    (0, react_1.useEffect)(function () {\n        var updateMatches = function (ev) {\n            setMatches(ev.matches);\n        };\n        mediaQuery.addListener(updateMatches);\n        setMatches(mediaQuery.matches);\n        return function () {\n            mediaQuery.removeListener(updateMatches);\n        };\n    }, [mediaQuery]);\n    return matches;\n};\nvar useMediaQuery = function (settings, device, onChange) {\n    var deviceSettings = useDevice(device);\n    var query = useQuery(settings);\n    if (!query)\n        throw new Error('Invalid or missing MediaQuery!');\n    var mq = useMatchMedia(query, deviceSettings);\n    var matches = useMatches(mq);\n    var isUpdate = useIsUpdate();\n    (0, react_1.useEffect)(function () {\n        if (isUpdate && onChange) {\n            onChange(matches);\n        }\n    }, [matches]);\n    (0, react_1.useEffect)(function () { return function () {\n        if (mq) {\n            mq.dispose();\n        }\n    }; }, []);\n    return matches;\n};\nexports[\"default\"] = useMediaQuery;\n\n\n/***/ }),\n\n/***/ \"react\":\n/*!**************************************************************************************!*\\\n  !*** external {\"commonjs\":\"react\",\"commonjs2\":\"react\",\"amd\":\"react\",\"root\":\"React\"} ***!\n  \\**************************************************************************************/\n/***/ ((module) => {\n\n\"use strict\";\nmodule.exports = __WEBPACK_EXTERNAL_MODULE_react__;\n\n/***/ })\n\n/******/ \t});\n/************************************************************************/\n/******/ \t// The module cache\n/******/ \tvar __webpack_module_cache__ = {};\n/******/ \t\n/******/ \t// The require function\n/******/ \tfunction __webpack_require__(moduleId) {\n/******/ \t\t// Check if module is in cache\n/******/ \t\tvar cachedModule = __webpack_module_cache__[moduleId];\n/******/ \t\tif (cachedModule !== undefined) {\n/******/ \t\t\treturn cachedModule.exports;\n/******/ \t\t}\n/******/ \t\t// Create a new module (and put it into the cache)\n/******/ \t\tvar module = __webpack_module_cache__[moduleId] = {\n/******/ \t\t\t// no module.id needed\n/******/ \t\t\t// no module.loaded needed\n/******/ \t\t\texports: {}\n/******/ \t\t};\n/******/ \t\n/******/ \t\t// Execute the module function\n/******/ \t\t__webpack_modules__[moduleId].call(module.exports, module, module.exports, __webpack_require__);\n/******/ \t\n/******/ \t\t// Return the exports of the module\n/******/ \t\treturn module.exports;\n/******/ \t}\n/******/ \t\n/************************************************************************/\n/******/ \t/* webpack/runtime/define property getters */\n/******/ \t(() => {\n/******/ \t\t// define getter functions for harmony exports\n/******/ \t\t__webpack_require__.d = (exports, definition) => {\n/******/ \t\t\tfor(var key in definition) {\n/******/ \t\t\t\tif(__webpack_require__.o(definition, key) && !__webpack_require__.o(exports, key)) {\n/******/ \t\t\t\t\tObject.defineProperty(exports, key, { enumerable: true, get: definition[key] });\n/******/ \t\t\t\t}\n/******/ \t\t\t}\n/******/ \t\t};\n/******/ \t})();\n/******/ \t\n/******/ \t/* webpack/runtime/hasOwnProperty shorthand */\n/******/ \t(() => {\n/******/ \t\t__webpack_require__.o = (obj, prop) => (Object.prototype.hasOwnProperty.call(obj, prop))\n/******/ \t})();\n/******/ \t\n/******/ \t/* webpack/runtime/make namespace object */\n/******/ \t(() => {\n/******/ \t\t// define __esModule on exports\n/******/ \t\t__webpack_require__.r = (exports) => {\n/******/ \t\t\tif(typeof Symbol !== 'undefined' && Symbol.toStringTag) {\n/******/ \t\t\t\tObject.defineProperty(exports, Symbol.toStringTag, { value: 'Module' });\n/******/ \t\t\t}\n/******/ \t\t\tObject.defineProperty(exports, '__esModule', { value: true });\n/******/ \t\t};\n/******/ \t})();\n/******/ \t\n/************************************************************************/\n/******/ \t\n/******/ \t// startup\n/******/ \t// Load entry module and return exports\n/******/ \t// This entry module is referenced by other modules so it can't be inlined\n/******/ \tvar __webpack_exports__ = __webpack_require__(\"./src/index.ts\");\n/******/ \t\n/******/ \treturn __webpack_exports__;\n/******/ })()\n;\n});\n//# sourceMappingURL=react-responsive.js.map","/**\n * React Router DOM v6.14.1\n *\n * Copyright (c) Remix Software Inc.\n *\n * This source code is licensed under the MIT license found in the\n * LICENSE.md file in the root directory of this source tree.\n *\n * @license MIT\n */\nimport * as React from 'react';\nimport { UNSAFE_mapRouteProperties, Router, UNSAFE_NavigationContext, useHref, useResolvedPath, useLocation, UNSAFE_DataRouterStateContext, useNavigate, createPath, UNSAFE_useRouteId, UNSAFE_RouteContext, useMatches, useNavigation, unstable_useBlocker, UNSAFE_DataRouterContext } from 'react-router';\nexport { AbortedDeferredError, Await, MemoryRouter, Navigate, NavigationType, Outlet, Route, Router, RouterProvider, Routes, UNSAFE_DataRouterContext, UNSAFE_DataRouterStateContext, UNSAFE_LocationContext, UNSAFE_NavigationContext, UNSAFE_RouteContext, UNSAFE_useRouteId, createMemoryRouter, createPath, createRoutesFromChildren, createRoutesFromElements, defer, generatePath, isRouteErrorResponse, json, matchPath, matchRoutes, parsePath, redirect, renderMatches, resolvePath, unstable_useBlocker, useActionData, useAsyncError, useAsyncValue, useHref, useInRouterContext, useLoaderData, useLocation, useMatch, useMatches, useNavigate, useNavigation, useNavigationType, useOutlet, useOutletContext, useParams, useResolvedPath, useRevalidator, useRouteError, useRouteLoaderData, useRoutes } from 'react-router';\nimport { stripBasename, UNSAFE_warning, createRouter, createBrowserHistory, createHashHistory, ErrorResponse, UNSAFE_invariant, joinPaths } from '@remix-run/router';\n\nfunction _extends() {\n  _extends = Object.assign ? Object.assign.bind() : function (target) {\n    for (var i = 1; i < arguments.length; i++) {\n      var source = arguments[i];\n      for (var key in source) {\n        if (Object.prototype.hasOwnProperty.call(source, key)) {\n          target[key] = source[key];\n        }\n      }\n    }\n    return target;\n  };\n  return _extends.apply(this, arguments);\n}\nfunction _objectWithoutPropertiesLoose(source, excluded) {\n  if (source == null) return {};\n  var target = {};\n  var sourceKeys = Object.keys(source);\n  var key, i;\n  for (i = 0; i < sourceKeys.length; i++) {\n    key = sourceKeys[i];\n    if (excluded.indexOf(key) >= 0) continue;\n    target[key] = source[key];\n  }\n  return target;\n}\n\nconst defaultMethod = \"get\";\nconst defaultEncType = \"application/x-www-form-urlencoded\";\nfunction isHtmlElement(object) {\n  return object != null && typeof object.tagName === \"string\";\n}\nfunction isButtonElement(object) {\n  return isHtmlElement(object) && object.tagName.toLowerCase() === \"button\";\n}\nfunction isFormElement(object) {\n  return isHtmlElement(object) && object.tagName.toLowerCase() === \"form\";\n}\nfunction isInputElement(object) {\n  return isHtmlElement(object) && object.tagName.toLowerCase() === \"input\";\n}\nfunction isModifiedEvent(event) {\n  return !!(event.metaKey || event.altKey || event.ctrlKey || event.shiftKey);\n}\nfunction shouldProcessLinkClick(event, target) {\n  return event.button === 0 && (\n  // Ignore everything but left clicks\n  !target || target === \"_self\") &&\n  // Let browser handle \"target=_blank\" etc.\n  !isModifiedEvent(event) // Ignore clicks with modifier keys\n  ;\n}\n/**\n * Creates a URLSearchParams object using the given initializer.\n *\n * This is identical to `new URLSearchParams(init)` except it also\n * supports arrays as values in the object form of the initializer\n * instead of just strings. This is convenient when you need multiple\n * values for a given key, but don't want to use an array initializer.\n *\n * For example, instead of:\n *\n *   let searchParams = new URLSearchParams([\n *     ['sort', 'name'],\n *     ['sort', 'price']\n *   ]);\n *\n * you can do:\n *\n *   let searchParams = createSearchParams({\n *     sort: ['name', 'price']\n *   });\n */\nfunction createSearchParams(init) {\n  if (init === void 0) {\n    init = \"\";\n  }\n  return new URLSearchParams(typeof init === \"string\" || Array.isArray(init) || init instanceof URLSearchParams ? init : Object.keys(init).reduce((memo, key) => {\n    let value = init[key];\n    return memo.concat(Array.isArray(value) ? value.map(v => [key, v]) : [[key, value]]);\n  }, []));\n}\nfunction getSearchParamsForLocation(locationSearch, defaultSearchParams) {\n  let searchParams = createSearchParams(locationSearch);\n  if (defaultSearchParams) {\n    for (let key of defaultSearchParams.keys()) {\n      if (!searchParams.has(key)) {\n        defaultSearchParams.getAll(key).forEach(value => {\n          searchParams.append(key, value);\n        });\n      }\n    }\n  }\n  return searchParams;\n}\n// One-time check for submitter support\nlet _formDataSupportsSubmitter = null;\nfunction isFormDataSubmitterSupported() {\n  if (_formDataSupportsSubmitter === null) {\n    try {\n      new FormData(document.createElement(\"form\"),\n      // @ts-expect-error if FormData supports the submitter parameter, this will throw\n      0);\n      _formDataSupportsSubmitter = false;\n    } catch (e) {\n      _formDataSupportsSubmitter = true;\n    }\n  }\n  return _formDataSupportsSubmitter;\n}\nconst supportedFormEncTypes = new Set([\"application/x-www-form-urlencoded\", \"multipart/form-data\", \"text/plain\"]);\nfunction getFormEncType(encType) {\n  if (encType != null && !supportedFormEncTypes.has(encType)) {\n    process.env.NODE_ENV !== \"production\" ? UNSAFE_warning(false, \"\\\"\" + encType + \"\\\" is not a valid `encType` for `<Form>`/`<fetcher.Form>` \" + (\"and will default to \\\"\" + defaultEncType + \"\\\"\")) : void 0;\n    return null;\n  }\n  return encType;\n}\nfunction getFormSubmissionInfo(target, basename) {\n  let method;\n  let action;\n  let encType;\n  let formData;\n  let body;\n  if (isFormElement(target)) {\n    // When grabbing the action from the element, it will have had the basename\n    // prefixed to ensure non-JS scenarios work, so strip it since we'll\n    // re-prefix in the router\n    let attr = target.getAttribute(\"action\");\n    action = attr ? stripBasename(attr, basename) : null;\n    method = target.getAttribute(\"method\") || defaultMethod;\n    encType = getFormEncType(target.getAttribute(\"enctype\")) || defaultEncType;\n    formData = new FormData(target);\n  } else if (isButtonElement(target) || isInputElement(target) && (target.type === \"submit\" || target.type === \"image\")) {\n    let form = target.form;\n    if (form == null) {\n      throw new Error(\"Cannot submit a <button> or <input type=\\\"submit\\\"> without a <form>\");\n    }\n    // <button>/<input type=\"submit\"> may override attributes of <form>\n    // When grabbing the action from the element, it will have had the basename\n    // prefixed to ensure non-JS scenarios work, so strip it since we'll\n    // re-prefix in the router\n    let attr = target.getAttribute(\"formaction\") || form.getAttribute(\"action\");\n    action = attr ? stripBasename(attr, basename) : null;\n    method = target.getAttribute(\"formmethod\") || form.getAttribute(\"method\") || defaultMethod;\n    encType = getFormEncType(target.getAttribute(\"formenctype\")) || getFormEncType(form.getAttribute(\"enctype\")) || defaultEncType;\n    // Build a FormData object populated from a form and submitter\n    formData = new FormData(form, target);\n    // If this browser doesn't support the `FormData(el, submitter)` format,\n    // then tack on the submitter value at the end.  This is a lightweight\n    // solution that is not 100% spec compliant.  For complete support in older\n    // browsers, consider using the `formdata-submitter-polyfill` package\n    if (!isFormDataSubmitterSupported()) {\n      let {\n        name,\n        type,\n        value\n      } = target;\n      if (type === \"image\") {\n        let prefix = name ? name + \".\" : \"\";\n        formData.append(prefix + \"x\", \"0\");\n        formData.append(prefix + \"y\", \"0\");\n      } else if (name) {\n        formData.append(name, value);\n      }\n    }\n  } else if (isHtmlElement(target)) {\n    throw new Error(\"Cannot submit element that is not <form>, <button>, or \" + \"<input type=\\\"submit|image\\\">\");\n  } else {\n    method = defaultMethod;\n    action = null;\n    encType = defaultEncType;\n    body = target;\n  }\n  // Send body for <Form encType=\"text/plain\" so we encode it into text\n  if (formData && encType === \"text/plain\") {\n    body = formData;\n    formData = undefined;\n  }\n  return {\n    action,\n    method: method.toLowerCase(),\n    encType,\n    formData,\n    body\n  };\n}\n\nconst _excluded = [\"onClick\", \"relative\", \"reloadDocument\", \"replace\", \"state\", \"target\", \"to\", \"preventScrollReset\"],\n  _excluded2 = [\"aria-current\", \"caseSensitive\", \"className\", \"end\", \"style\", \"to\", \"children\"],\n  _excluded3 = [\"reloadDocument\", \"replace\", \"method\", \"action\", \"onSubmit\", \"submit\", \"relative\", \"preventScrollReset\"];\nfunction createBrowserRouter(routes, opts) {\n  return createRouter({\n    basename: opts == null ? void 0 : opts.basename,\n    future: _extends({}, opts == null ? void 0 : opts.future, {\n      v7_prependBasename: true\n    }),\n    history: createBrowserHistory({\n      window: opts == null ? void 0 : opts.window\n    }),\n    hydrationData: (opts == null ? void 0 : opts.hydrationData) || parseHydrationData(),\n    routes,\n    mapRouteProperties: UNSAFE_mapRouteProperties\n  }).initialize();\n}\nfunction createHashRouter(routes, opts) {\n  return createRouter({\n    basename: opts == null ? void 0 : opts.basename,\n    future: _extends({}, opts == null ? void 0 : opts.future, {\n      v7_prependBasename: true\n    }),\n    history: createHashHistory({\n      window: opts == null ? void 0 : opts.window\n    }),\n    hydrationData: (opts == null ? void 0 : opts.hydrationData) || parseHydrationData(),\n    routes,\n    mapRouteProperties: UNSAFE_mapRouteProperties\n  }).initialize();\n}\nfunction parseHydrationData() {\n  var _window;\n  let state = (_window = window) == null ? void 0 : _window.__staticRouterHydrationData;\n  if (state && state.errors) {\n    state = _extends({}, state, {\n      errors: deserializeErrors(state.errors)\n    });\n  }\n  return state;\n}\nfunction deserializeErrors(errors) {\n  if (!errors) return null;\n  let entries = Object.entries(errors);\n  let serialized = {};\n  for (let [key, val] of entries) {\n    // Hey you!  If you change this, please change the corresponding logic in\n    // serializeErrors in react-router-dom/server.tsx :)\n    if (val && val.__type === \"RouteErrorResponse\") {\n      serialized[key] = new ErrorResponse(val.status, val.statusText, val.data, val.internal === true);\n    } else if (val && val.__type === \"Error\") {\n      let error = new Error(val.message);\n      // Wipe away the client-side stack trace.  Nothing to fill it in with\n      // because we don't serialize SSR stack traces for security reasons\n      error.stack = \"\";\n      serialized[key] = error;\n    } else {\n      serialized[key] = val;\n    }\n  }\n  return serialized;\n}\n//#endregion\n////////////////////////////////////////////////////////////////////////////////\n//#region Components\n////////////////////////////////////////////////////////////////////////////////\n/**\n  Webpack + React 17 fails to compile on any of the following because webpack\n  complains that `startTransition` doesn't exist in `React`:\n  * import { startTransition } from \"react\"\n  * import * as React from from \"react\";\n    \"startTransition\" in React ? React.startTransition(() => setState()) : setState()\n  * import * as React from from \"react\";\n    \"startTransition\" in React ? React[\"startTransition\"](() => setState()) : setState()\n\n  Moving it to a constant such as the following solves the Webpack/React 17 issue:\n  * import * as React from from \"react\";\n    const START_TRANSITION = \"startTransition\";\n    START_TRANSITION in React ? React[START_TRANSITION](() => setState()) : setState()\n\n  However, that introduces webpack/terser minification issues in production builds\n  in React 18 where minification/obfuscation ends up removing the call of\n  React.startTransition entirely from the first half of the ternary.  Grabbing\n  this exported reference once up front resolves that issue.\n\n  See https://github.com/remix-run/react-router/issues/10579\n*/\nconst START_TRANSITION = \"startTransition\";\nconst startTransitionImpl = React[START_TRANSITION];\n/**\n * A `<Router>` for use in web browsers. Provides the cleanest URLs.\n */\nfunction BrowserRouter(_ref) {\n  let {\n    basename,\n    children,\n    future,\n    window\n  } = _ref;\n  let historyRef = React.useRef();\n  if (historyRef.current == null) {\n    historyRef.current = createBrowserHistory({\n      window,\n      v5Compat: true\n    });\n  }\n  let history = historyRef.current;\n  let [state, setStateImpl] = React.useState({\n    action: history.action,\n    location: history.location\n  });\n  let {\n    v7_startTransition\n  } = future || {};\n  let setState = React.useCallback(newState => {\n    v7_startTransition && startTransitionImpl ? startTransitionImpl(() => setStateImpl(newState)) : setStateImpl(newState);\n  }, [setStateImpl, v7_startTransition]);\n  React.useLayoutEffect(() => history.listen(setState), [history, setState]);\n  return /*#__PURE__*/React.createElement(Router, {\n    basename: basename,\n    children: children,\n    location: state.location,\n    navigationType: state.action,\n    navigator: history\n  });\n}\n/**\n * A `<Router>` for use in web browsers. Stores the location in the hash\n * portion of the URL so it is not sent to the server.\n */\nfunction HashRouter(_ref2) {\n  let {\n    basename,\n    children,\n    future,\n    window\n  } = _ref2;\n  let historyRef = React.useRef();\n  if (historyRef.current == null) {\n    historyRef.current = createHashHistory({\n      window,\n      v5Compat: true\n    });\n  }\n  let history = historyRef.current;\n  let [state, setStateImpl] = React.useState({\n    action: history.action,\n    location: history.location\n  });\n  let {\n    v7_startTransition\n  } = future || {};\n  let setState = React.useCallback(newState => {\n    v7_startTransition && startTransitionImpl ? startTransitionImpl(() => setStateImpl(newState)) : setStateImpl(newState);\n  }, [setStateImpl, v7_startTransition]);\n  React.useLayoutEffect(() => history.listen(setState), [history, setState]);\n  return /*#__PURE__*/React.createElement(Router, {\n    basename: basename,\n    children: children,\n    location: state.location,\n    navigationType: state.action,\n    navigator: history\n  });\n}\n/**\n * A `<Router>` that accepts a pre-instantiated history object. It's important\n * to note that using your own history object is highly discouraged and may add\n * two versions of the history library to your bundles unless you use the same\n * version of the history library that React Router uses internally.\n */\nfunction HistoryRouter(_ref3) {\n  let {\n    basename,\n    children,\n    future,\n    history\n  } = _ref3;\n  let [state, setStateImpl] = React.useState({\n    action: history.action,\n    location: history.location\n  });\n  let {\n    v7_startTransition\n  } = future || {};\n  let setState = React.useCallback(newState => {\n    v7_startTransition && startTransitionImpl ? startTransitionImpl(() => setStateImpl(newState)) : setStateImpl(newState);\n  }, [setStateImpl, v7_startTransition]);\n  React.useLayoutEffect(() => history.listen(setState), [history, setState]);\n  return /*#__PURE__*/React.createElement(Router, {\n    basename: basename,\n    children: children,\n    location: state.location,\n    navigationType: state.action,\n    navigator: history\n  });\n}\nif (process.env.NODE_ENV !== \"production\") {\n  HistoryRouter.displayName = \"unstable_HistoryRouter\";\n}\nconst isBrowser = typeof window !== \"undefined\" && typeof window.document !== \"undefined\" && typeof window.document.createElement !== \"undefined\";\nconst ABSOLUTE_URL_REGEX = /^(?:[a-z][a-z0-9+.-]*:|\\/\\/)/i;\n/**\n * The public API for rendering a history-aware <a>.\n */\nconst Link = /*#__PURE__*/React.forwardRef(function LinkWithRef(_ref4, ref) {\n  let {\n      onClick,\n      relative,\n      reloadDocument,\n      replace,\n      state,\n      target,\n      to,\n      preventScrollReset\n    } = _ref4,\n    rest = _objectWithoutPropertiesLoose(_ref4, _excluded);\n  let {\n    basename\n  } = React.useContext(UNSAFE_NavigationContext);\n  // Rendered into <a href> for absolute URLs\n  let absoluteHref;\n  let isExternal = false;\n  if (typeof to === \"string\" && ABSOLUTE_URL_REGEX.test(to)) {\n    // Render the absolute href server- and client-side\n    absoluteHref = to;\n    // Only check for external origins client-side\n    if (isBrowser) {\n      try {\n        let currentUrl = new URL(window.location.href);\n        let targetUrl = to.startsWith(\"//\") ? new URL(currentUrl.protocol + to) : new URL(to);\n        let path = stripBasename(targetUrl.pathname, basename);\n        if (targetUrl.origin === currentUrl.origin && path != null) {\n          // Strip the protocol/origin/basename for same-origin absolute URLs\n          to = path + targetUrl.search + targetUrl.hash;\n        } else {\n          isExternal = true;\n        }\n      } catch (e) {\n        // We can't do external URL detection without a valid URL\n        process.env.NODE_ENV !== \"production\" ? UNSAFE_warning(false, \"<Link to=\\\"\" + to + \"\\\"> contains an invalid URL which will probably break \" + \"when clicked - please update to a valid URL path.\") : void 0;\n      }\n    }\n  }\n  // Rendered into <a href> for relative URLs\n  let href = useHref(to, {\n    relative\n  });\n  let internalOnClick = useLinkClickHandler(to, {\n    replace,\n    state,\n    target,\n    preventScrollReset,\n    relative\n  });\n  function handleClick(event) {\n    if (onClick) onClick(event);\n    if (!event.defaultPrevented) {\n      internalOnClick(event);\n    }\n  }\n  return (\n    /*#__PURE__*/\n    // eslint-disable-next-line jsx-a11y/anchor-has-content\n    React.createElement(\"a\", _extends({}, rest, {\n      href: absoluteHref || href,\n      onClick: isExternal || reloadDocument ? onClick : handleClick,\n      ref: ref,\n      target: target\n    }))\n  );\n});\nif (process.env.NODE_ENV !== \"production\") {\n  Link.displayName = \"Link\";\n}\n/**\n * A <Link> wrapper that knows if it's \"active\" or not.\n */\nconst NavLink = /*#__PURE__*/React.forwardRef(function NavLinkWithRef(_ref5, ref) {\n  let {\n      \"aria-current\": ariaCurrentProp = \"page\",\n      caseSensitive = false,\n      className: classNameProp = \"\",\n      end = false,\n      style: styleProp,\n      to,\n      children\n    } = _ref5,\n    rest = _objectWithoutPropertiesLoose(_ref5, _excluded2);\n  let path = useResolvedPath(to, {\n    relative: rest.relative\n  });\n  let location = useLocation();\n  let routerState = React.useContext(UNSAFE_DataRouterStateContext);\n  let {\n    navigator\n  } = React.useContext(UNSAFE_NavigationContext);\n  let toPathname = navigator.encodeLocation ? navigator.encodeLocation(path).pathname : path.pathname;\n  let locationPathname = location.pathname;\n  let nextLocationPathname = routerState && routerState.navigation && routerState.navigation.location ? routerState.navigation.location.pathname : null;\n  if (!caseSensitive) {\n    locationPathname = locationPathname.toLowerCase();\n    nextLocationPathname = nextLocationPathname ? nextLocationPathname.toLowerCase() : null;\n    toPathname = toPathname.toLowerCase();\n  }\n  let isActive = locationPathname === toPathname || !end && locationPathname.startsWith(toPathname) && locationPathname.charAt(toPathname.length) === \"/\";\n  let isPending = nextLocationPathname != null && (nextLocationPathname === toPathname || !end && nextLocationPathname.startsWith(toPathname) && nextLocationPathname.charAt(toPathname.length) === \"/\");\n  let ariaCurrent = isActive ? ariaCurrentProp : undefined;\n  let className;\n  if (typeof classNameProp === \"function\") {\n    className = classNameProp({\n      isActive,\n      isPending\n    });\n  } else {\n    // If the className prop is not a function, we use a default `active`\n    // class for <NavLink />s that are active. In v5 `active` was the default\n    // value for `activeClassName`, but we are removing that API and can still\n    // use the old default behavior for a cleaner upgrade path and keep the\n    // simple styling rules working as they currently do.\n    className = [classNameProp, isActive ? \"active\" : null, isPending ? \"pending\" : null].filter(Boolean).join(\" \");\n  }\n  let style = typeof styleProp === \"function\" ? styleProp({\n    isActive,\n    isPending\n  }) : styleProp;\n  return /*#__PURE__*/React.createElement(Link, _extends({}, rest, {\n    \"aria-current\": ariaCurrent,\n    className: className,\n    ref: ref,\n    style: style,\n    to: to\n  }), typeof children === \"function\" ? children({\n    isActive,\n    isPending\n  }) : children);\n});\nif (process.env.NODE_ENV !== \"production\") {\n  NavLink.displayName = \"NavLink\";\n}\n/**\n * A `@remix-run/router`-aware `<form>`. It behaves like a normal form except\n * that the interaction with the server is with `fetch` instead of new document\n * requests, allowing components to add nicer UX to the page as the form is\n * submitted and returns with data.\n */\nconst Form = /*#__PURE__*/React.forwardRef((props, ref) => {\n  let submit = useSubmit();\n  return /*#__PURE__*/React.createElement(FormImpl, _extends({}, props, {\n    submit: submit,\n    ref: ref\n  }));\n});\nif (process.env.NODE_ENV !== \"production\") {\n  Form.displayName = \"Form\";\n}\nconst FormImpl = /*#__PURE__*/React.forwardRef((_ref6, forwardedRef) => {\n  let {\n      reloadDocument,\n      replace,\n      method = defaultMethod,\n      action,\n      onSubmit,\n      submit,\n      relative,\n      preventScrollReset\n    } = _ref6,\n    props = _objectWithoutPropertiesLoose(_ref6, _excluded3);\n  let formMethod = method.toLowerCase() === \"get\" ? \"get\" : \"post\";\n  let formAction = useFormAction(action, {\n    relative\n  });\n  let submitHandler = event => {\n    onSubmit && onSubmit(event);\n    if (event.defaultPrevented) return;\n    event.preventDefault();\n    let submitter = event.nativeEvent.submitter;\n    let submitMethod = (submitter == null ? void 0 : submitter.getAttribute(\"formmethod\")) || method;\n    submit(submitter || event.currentTarget, {\n      method: submitMethod,\n      replace,\n      relative,\n      preventScrollReset\n    });\n  };\n  return /*#__PURE__*/React.createElement(\"form\", _extends({\n    ref: forwardedRef,\n    method: formMethod,\n    action: formAction,\n    onSubmit: reloadDocument ? onSubmit : submitHandler\n  }, props));\n});\nif (process.env.NODE_ENV !== \"production\") {\n  FormImpl.displayName = \"FormImpl\";\n}\n/**\n * This component will emulate the browser's scroll restoration on location\n * changes.\n */\nfunction ScrollRestoration(_ref7) {\n  let {\n    getKey,\n    storageKey\n  } = _ref7;\n  useScrollRestoration({\n    getKey,\n    storageKey\n  });\n  return null;\n}\nif (process.env.NODE_ENV !== \"production\") {\n  ScrollRestoration.displayName = \"ScrollRestoration\";\n}\n//#endregion\n////////////////////////////////////////////////////////////////////////////////\n//#region Hooks\n////////////////////////////////////////////////////////////////////////////////\nvar DataRouterHook;\n(function (DataRouterHook) {\n  DataRouterHook[\"UseScrollRestoration\"] = \"useScrollRestoration\";\n  DataRouterHook[\"UseSubmit\"] = \"useSubmit\";\n  DataRouterHook[\"UseSubmitFetcher\"] = \"useSubmitFetcher\";\n  DataRouterHook[\"UseFetcher\"] = \"useFetcher\";\n})(DataRouterHook || (DataRouterHook = {}));\nvar DataRouterStateHook;\n(function (DataRouterStateHook) {\n  DataRouterStateHook[\"UseFetchers\"] = \"useFetchers\";\n  DataRouterStateHook[\"UseScrollRestoration\"] = \"useScrollRestoration\";\n})(DataRouterStateHook || (DataRouterStateHook = {}));\nfunction getDataRouterConsoleError(hookName) {\n  return hookName + \" must be used within a data router.  See https://reactrouter.com/routers/picking-a-router.\";\n}\nfunction useDataRouterContext(hookName) {\n  let ctx = React.useContext(UNSAFE_DataRouterContext);\n  !ctx ? process.env.NODE_ENV !== \"production\" ? UNSAFE_invariant(false, getDataRouterConsoleError(hookName)) : UNSAFE_invariant(false) : void 0;\n  return ctx;\n}\nfunction useDataRouterState(hookName) {\n  let state = React.useContext(UNSAFE_DataRouterStateContext);\n  !state ? process.env.NODE_ENV !== \"production\" ? UNSAFE_invariant(false, getDataRouterConsoleError(hookName)) : UNSAFE_invariant(false) : void 0;\n  return state;\n}\n/**\n * Handles the click behavior for router `<Link>` components. This is useful if\n * you need to create custom `<Link>` components with the same click behavior we\n * use in our exported `<Link>`.\n */\nfunction useLinkClickHandler(to, _temp) {\n  let {\n    target,\n    replace: replaceProp,\n    state,\n    preventScrollReset,\n    relative\n  } = _temp === void 0 ? {} : _temp;\n  let navigate = useNavigate();\n  let location = useLocation();\n  let path = useResolvedPath(to, {\n    relative\n  });\n  return React.useCallback(event => {\n    if (shouldProcessLinkClick(event, target)) {\n      event.preventDefault();\n      // If the URL hasn't changed, a regular <a> will do a replace instead of\n      // a push, so do the same here unless the replace prop is explicitly set\n      let replace = replaceProp !== undefined ? replaceProp : createPath(location) === createPath(path);\n      navigate(to, {\n        replace,\n        state,\n        preventScrollReset,\n        relative\n      });\n    }\n  }, [location, navigate, path, replaceProp, state, target, to, preventScrollReset, relative]);\n}\n/**\n * A convenient wrapper for reading and writing search parameters via the\n * URLSearchParams interface.\n */\nfunction useSearchParams(defaultInit) {\n  process.env.NODE_ENV !== \"production\" ? UNSAFE_warning(typeof URLSearchParams !== \"undefined\", \"You cannot use the `useSearchParams` hook in a browser that does not \" + \"support the URLSearchParams API. If you need to support Internet \" + \"Explorer 11, we recommend you load a polyfill such as \" + \"https://github.com/ungap/url-search-params\\n\\n\" + \"If you're unsure how to load polyfills, we recommend you check out \" + \"https://polyfill.io/v3/ which provides some recommendations about how \" + \"to load polyfills only for users that need them, instead of for every \" + \"user.\") : void 0;\n  let defaultSearchParamsRef = React.useRef(createSearchParams(defaultInit));\n  let hasSetSearchParamsRef = React.useRef(false);\n  let location = useLocation();\n  let searchParams = React.useMemo(() =>\n  // Only merge in the defaults if we haven't yet called setSearchParams.\n  // Once we call that we want those to take precedence, otherwise you can't\n  // remove a param with setSearchParams({}) if it has an initial value\n  getSearchParamsForLocation(location.search, hasSetSearchParamsRef.current ? null : defaultSearchParamsRef.current), [location.search]);\n  let navigate = useNavigate();\n  let setSearchParams = React.useCallback((nextInit, navigateOptions) => {\n    const newSearchParams = createSearchParams(typeof nextInit === \"function\" ? nextInit(searchParams) : nextInit);\n    hasSetSearchParamsRef.current = true;\n    navigate(\"?\" + newSearchParams, navigateOptions);\n  }, [navigate, searchParams]);\n  return [searchParams, setSearchParams];\n}\nfunction validateClientSideSubmission() {\n  if (typeof document === \"undefined\") {\n    throw new Error(\"You are calling submit during the server render. \" + \"Try calling submit within a `useEffect` or callback instead.\");\n  }\n}\n/**\n * Returns a function that may be used to programmatically submit a form (or\n * some arbitrary data) to the server.\n */\nfunction useSubmit() {\n  let {\n    router\n  } = useDataRouterContext(DataRouterHook.UseSubmit);\n  let {\n    basename\n  } = React.useContext(UNSAFE_NavigationContext);\n  let currentRouteId = UNSAFE_useRouteId();\n  return React.useCallback(function (target, options) {\n    if (options === void 0) {\n      options = {};\n    }\n    validateClientSideSubmission();\n    let {\n      action,\n      method,\n      encType,\n      formData,\n      body\n    } = getFormSubmissionInfo(target, basename);\n    router.navigate(options.action || action, {\n      preventScrollReset: options.preventScrollReset,\n      formData,\n      body,\n      formMethod: options.method || method,\n      formEncType: options.encType || encType,\n      replace: options.replace,\n      fromRouteId: currentRouteId\n    });\n  }, [router, basename, currentRouteId]);\n}\n/**\n * Returns the implementation for fetcher.submit\n */\nfunction useSubmitFetcher(fetcherKey, fetcherRouteId) {\n  let {\n    router\n  } = useDataRouterContext(DataRouterHook.UseSubmitFetcher);\n  let {\n    basename\n  } = React.useContext(UNSAFE_NavigationContext);\n  return React.useCallback(function (target, options) {\n    if (options === void 0) {\n      options = {};\n    }\n    validateClientSideSubmission();\n    let {\n      action,\n      method,\n      encType,\n      formData,\n      body\n    } = getFormSubmissionInfo(target, basename);\n    !(fetcherRouteId != null) ? process.env.NODE_ENV !== \"production\" ? UNSAFE_invariant(false, \"No routeId available for useFetcher()\") : UNSAFE_invariant(false) : void 0;\n    router.fetch(fetcherKey, fetcherRouteId, options.action || action, {\n      preventScrollReset: options.preventScrollReset,\n      formData,\n      body,\n      formMethod: options.method || method,\n      formEncType: options.encType || encType\n    });\n  }, [router, basename, fetcherKey, fetcherRouteId]);\n}\n// v7: Eventually we should deprecate this entirely in favor of using the\n// router method directly?\nfunction useFormAction(action, _temp2) {\n  let {\n    relative\n  } = _temp2 === void 0 ? {} : _temp2;\n  let {\n    basename\n  } = React.useContext(UNSAFE_NavigationContext);\n  let routeContext = React.useContext(UNSAFE_RouteContext);\n  !routeContext ? process.env.NODE_ENV !== \"production\" ? UNSAFE_invariant(false, \"useFormAction must be used inside a RouteContext\") : UNSAFE_invariant(false) : void 0;\n  let [match] = routeContext.matches.slice(-1);\n  // Shallow clone path so we can modify it below, otherwise we modify the\n  // object referenced by useMemo inside useResolvedPath\n  let path = _extends({}, useResolvedPath(action ? action : \".\", {\n    relative\n  }));\n  // Previously we set the default action to \".\". The problem with this is that\n  // `useResolvedPath(\".\")` excludes search params and the hash of the resolved\n  // URL. This is the intended behavior of when \".\" is specifically provided as\n  // the form action, but inconsistent w/ browsers when the action is omitted.\n  // https://github.com/remix-run/remix/issues/927\n  let location = useLocation();\n  if (action == null) {\n    // Safe to write to these directly here since if action was undefined, we\n    // would have called useResolvedPath(\".\") which will never include a search\n    // or hash\n    path.search = location.search;\n    path.hash = location.hash;\n    // When grabbing search params from the URL, remove the automatically\n    // inserted ?index param so we match the useResolvedPath search behavior\n    // which would not include ?index\n    if (match.route.index) {\n      let params = new URLSearchParams(path.search);\n      params.delete(\"index\");\n      path.search = params.toString() ? \"?\" + params.toString() : \"\";\n    }\n  }\n  if ((!action || action === \".\") && match.route.index) {\n    path.search = path.search ? path.search.replace(/^\\?/, \"?index&\") : \"?index\";\n  }\n  // If we're operating within a basename, prepend it to the pathname prior\n  // to creating the form action.  If this is a root navigation, then just use\n  // the raw basename which allows the basename to have full control over the\n  // presence of a trailing slash on root actions\n  if (basename !== \"/\") {\n    path.pathname = path.pathname === \"/\" ? basename : joinPaths([basename, path.pathname]);\n  }\n  return createPath(path);\n}\nfunction createFetcherForm(fetcherKey, routeId) {\n  let FetcherForm = /*#__PURE__*/React.forwardRef((props, ref) => {\n    let submit = useSubmitFetcher(fetcherKey, routeId);\n    return /*#__PURE__*/React.createElement(FormImpl, _extends({}, props, {\n      ref: ref,\n      submit: submit\n    }));\n  });\n  if (process.env.NODE_ENV !== \"production\") {\n    FetcherForm.displayName = \"fetcher.Form\";\n  }\n  return FetcherForm;\n}\nlet fetcherId = 0;\n/**\n * Interacts with route loaders and actions without causing a navigation. Great\n * for any interaction that stays on the same page.\n */\nfunction useFetcher() {\n  var _route$matches;\n  let {\n    router\n  } = useDataRouterContext(DataRouterHook.UseFetcher);\n  let route = React.useContext(UNSAFE_RouteContext);\n  !route ? process.env.NODE_ENV !== \"production\" ? UNSAFE_invariant(false, \"useFetcher must be used inside a RouteContext\") : UNSAFE_invariant(false) : void 0;\n  let routeId = (_route$matches = route.matches[route.matches.length - 1]) == null ? void 0 : _route$matches.route.id;\n  !(routeId != null) ? process.env.NODE_ENV !== \"production\" ? UNSAFE_invariant(false, \"useFetcher can only be used on routes that contain a unique \\\"id\\\"\") : UNSAFE_invariant(false) : void 0;\n  let [fetcherKey] = React.useState(() => String(++fetcherId));\n  let [Form] = React.useState(() => {\n    !routeId ? process.env.NODE_ENV !== \"production\" ? UNSAFE_invariant(false, \"No routeId available for fetcher.Form()\") : UNSAFE_invariant(false) : void 0;\n    return createFetcherForm(fetcherKey, routeId);\n  });\n  let [load] = React.useState(() => href => {\n    !router ? process.env.NODE_ENV !== \"production\" ? UNSAFE_invariant(false, \"No router available for fetcher.load()\") : UNSAFE_invariant(false) : void 0;\n    !routeId ? process.env.NODE_ENV !== \"production\" ? UNSAFE_invariant(false, \"No routeId available for fetcher.load()\") : UNSAFE_invariant(false) : void 0;\n    router.fetch(fetcherKey, routeId, href);\n  });\n  let submit = useSubmitFetcher(fetcherKey, routeId);\n  let fetcher = router.getFetcher(fetcherKey);\n  let fetcherWithComponents = React.useMemo(() => _extends({\n    Form,\n    submit,\n    load\n  }, fetcher), [fetcher, Form, submit, load]);\n  React.useEffect(() => {\n    // Is this busted when the React team gets real weird and calls effects\n    // twice on mount?  We really just need to garbage collect here when this\n    // fetcher is no longer around.\n    return () => {\n      if (!router) {\n        console.warn(\"No router available to clean up from useFetcher()\");\n        return;\n      }\n      router.deleteFetcher(fetcherKey);\n    };\n  }, [router, fetcherKey]);\n  return fetcherWithComponents;\n}\n/**\n * Provides all fetchers currently on the page. Useful for layouts and parent\n * routes that need to provide pending/optimistic UI regarding the fetch.\n */\nfunction useFetchers() {\n  let state = useDataRouterState(DataRouterStateHook.UseFetchers);\n  return [...state.fetchers.values()];\n}\nconst SCROLL_RESTORATION_STORAGE_KEY = \"react-router-scroll-positions\";\nlet savedScrollPositions = {};\n/**\n * When rendered inside a RouterProvider, will restore scroll positions on navigations\n */\nfunction useScrollRestoration(_temp3) {\n  let {\n    getKey,\n    storageKey\n  } = _temp3 === void 0 ? {} : _temp3;\n  let {\n    router\n  } = useDataRouterContext(DataRouterHook.UseScrollRestoration);\n  let {\n    restoreScrollPosition,\n    preventScrollReset\n  } = useDataRouterState(DataRouterStateHook.UseScrollRestoration);\n  let {\n    basename\n  } = React.useContext(UNSAFE_NavigationContext);\n  let location = useLocation();\n  let matches = useMatches();\n  let navigation = useNavigation();\n  // Trigger manual scroll restoration while we're active\n  React.useEffect(() => {\n    window.history.scrollRestoration = \"manual\";\n    return () => {\n      window.history.scrollRestoration = \"auto\";\n    };\n  }, []);\n  // Save positions on pagehide\n  usePageHide(React.useCallback(() => {\n    if (navigation.state === \"idle\") {\n      let key = (getKey ? getKey(location, matches) : null) || location.key;\n      savedScrollPositions[key] = window.scrollY;\n    }\n    sessionStorage.setItem(storageKey || SCROLL_RESTORATION_STORAGE_KEY, JSON.stringify(savedScrollPositions));\n    window.history.scrollRestoration = \"auto\";\n  }, [storageKey, getKey, navigation.state, location, matches]));\n  // Read in any saved scroll locations\n  if (typeof document !== \"undefined\") {\n    // eslint-disable-next-line react-hooks/rules-of-hooks\n    React.useLayoutEffect(() => {\n      try {\n        let sessionPositions = sessionStorage.getItem(storageKey || SCROLL_RESTORATION_STORAGE_KEY);\n        if (sessionPositions) {\n          savedScrollPositions = JSON.parse(sessionPositions);\n        }\n      } catch (e) {\n        // no-op, use default empty object\n      }\n    }, [storageKey]);\n    // Enable scroll restoration in the router\n    // eslint-disable-next-line react-hooks/rules-of-hooks\n    React.useLayoutEffect(() => {\n      let getKeyWithoutBasename = getKey && basename !== \"/\" ? (location, matches) => getKey( // Strip the basename to match useLocation()\n      _extends({}, location, {\n        pathname: stripBasename(location.pathname, basename) || location.pathname\n      }), matches) : getKey;\n      let disableScrollRestoration = router == null ? void 0 : router.enableScrollRestoration(savedScrollPositions, () => window.scrollY, getKeyWithoutBasename);\n      return () => disableScrollRestoration && disableScrollRestoration();\n    }, [router, basename, getKey]);\n    // Restore scrolling when state.restoreScrollPosition changes\n    // eslint-disable-next-line react-hooks/rules-of-hooks\n    React.useLayoutEffect(() => {\n      // Explicit false means don't do anything (used for submissions)\n      if (restoreScrollPosition === false) {\n        return;\n      }\n      // been here before, scroll to it\n      if (typeof restoreScrollPosition === \"number\") {\n        window.scrollTo(0, restoreScrollPosition);\n        return;\n      }\n      // try to scroll to the hash\n      if (location.hash) {\n        let el = document.getElementById(location.hash.slice(1));\n        if (el) {\n          el.scrollIntoView();\n          return;\n        }\n      }\n      // Don't reset if this navigation opted out\n      if (preventScrollReset === true) {\n        return;\n      }\n      // otherwise go to the top on new locations\n      window.scrollTo(0, 0);\n    }, [location, restoreScrollPosition, preventScrollReset]);\n  }\n}\n/**\n * Setup a callback to be fired on the window's `beforeunload` event. This is\n * useful for saving some data to `window.localStorage` just before the page\n * refreshes.\n *\n * Note: The `callback` argument should be a function created with\n * `React.useCallback()`.\n */\nfunction useBeforeUnload(callback, options) {\n  let {\n    capture\n  } = options || {};\n  React.useEffect(() => {\n    let opts = capture != null ? {\n      capture\n    } : undefined;\n    window.addEventListener(\"beforeunload\", callback, opts);\n    return () => {\n      window.removeEventListener(\"beforeunload\", callback, opts);\n    };\n  }, [callback, capture]);\n}\n/**\n * Setup a callback to be fired on the window's `pagehide` event. This is\n * useful for saving some data to `window.localStorage` just before the page\n * refreshes.  This event is better supported than beforeunload across browsers.\n *\n * Note: The `callback` argument should be a function created with\n * `React.useCallback()`.\n */\nfunction usePageHide(callback, options) {\n  let {\n    capture\n  } = options || {};\n  React.useEffect(() => {\n    let opts = capture != null ? {\n      capture\n    } : undefined;\n    window.addEventListener(\"pagehide\", callback, opts);\n    return () => {\n      window.removeEventListener(\"pagehide\", callback, opts);\n    };\n  }, [callback, capture]);\n}\n/**\n * Wrapper around useBlocker to show a window.confirm prompt to users instead\n * of building a custom UI with useBlocker.\n *\n * Warning: This has *a lot of rough edges* and behaves very differently (and\n * very incorrectly in some cases) across browsers if user click addition\n * back/forward navigations while the confirm is open.  Use at your own risk.\n */\nfunction usePrompt(_ref8) {\n  let {\n    when,\n    message\n  } = _ref8;\n  let blocker = unstable_useBlocker(when);\n  React.useEffect(() => {\n    if (blocker.state === \"blocked\" && !when) {\n      blocker.reset();\n    }\n  }, [blocker, when]);\n  React.useEffect(() => {\n    if (blocker.state === \"blocked\") {\n      let proceed = window.confirm(message);\n      if (proceed) {\n        setTimeout(blocker.proceed, 0);\n      } else {\n        blocker.reset();\n      }\n    }\n  }, [blocker, message]);\n}\n//#endregion\n\nexport { BrowserRouter, Form, HashRouter, Link, NavLink, ScrollRestoration, useScrollRestoration as UNSAFE_useScrollRestoration, createBrowserRouter, createHashRouter, createSearchParams, HistoryRouter as unstable_HistoryRouter, usePrompt as unstable_usePrompt, useBeforeUnload, useFetcher, useFetchers, useFormAction, useLinkClickHandler, useSearchParams, useSubmit };\n//# sourceMappingURL=index.js.map\n","/**\n * React Router v6.14.1\n *\n * Copyright (c) Remix Software Inc.\n *\n * This source code is licensed under the MIT license found in the\n * LICENSE.md file in the root directory of this source tree.\n *\n * @license MIT\n */\nimport * as React from 'react';\nimport { UNSAFE_invariant, joinPaths, matchPath, UNSAFE_getPathContributingMatches, UNSAFE_warning, resolveTo, parsePath, matchRoutes, Action, stripBasename, IDLE_BLOCKER, isRouteErrorResponse, createMemoryHistory, AbortedDeferredError, createRouter } from '@remix-run/router';\nexport { AbortedDeferredError, Action as NavigationType, createPath, defer, generatePath, isRouteErrorResponse, json, matchPath, matchRoutes, parsePath, redirect, resolvePath } from '@remix-run/router';\n\nfunction _extends() {\n  _extends = Object.assign ? Object.assign.bind() : function (target) {\n    for (var i = 1; i < arguments.length; i++) {\n      var source = arguments[i];\n      for (var key in source) {\n        if (Object.prototype.hasOwnProperty.call(source, key)) {\n          target[key] = source[key];\n        }\n      }\n    }\n    return target;\n  };\n  return _extends.apply(this, arguments);\n}\n\n// Create react-specific types from the agnostic types in @remix-run/router to\n// export from react-router\nconst DataRouterContext = /*#__PURE__*/React.createContext(null);\nif (process.env.NODE_ENV !== \"production\") {\n  DataRouterContext.displayName = \"DataRouter\";\n}\nconst DataRouterStateContext = /*#__PURE__*/React.createContext(null);\nif (process.env.NODE_ENV !== \"production\") {\n  DataRouterStateContext.displayName = \"DataRouterState\";\n}\nconst AwaitContext = /*#__PURE__*/React.createContext(null);\nif (process.env.NODE_ENV !== \"production\") {\n  AwaitContext.displayName = \"Await\";\n}\n\n/**\n * A Navigator is a \"location changer\"; it's how you get to different locations.\n *\n * Every history instance conforms to the Navigator interface, but the\n * distinction is useful primarily when it comes to the low-level <Router> API\n * where both the location and a navigator must be provided separately in order\n * to avoid \"tearing\" that may occur in a suspense-enabled app if the action\n * and/or location were to be read directly from the history instance.\n */\n\nconst NavigationContext = /*#__PURE__*/React.createContext(null);\nif (process.env.NODE_ENV !== \"production\") {\n  NavigationContext.displayName = \"Navigation\";\n}\nconst LocationContext = /*#__PURE__*/React.createContext(null);\nif (process.env.NODE_ENV !== \"production\") {\n  LocationContext.displayName = \"Location\";\n}\nconst RouteContext = /*#__PURE__*/React.createContext({\n  outlet: null,\n  matches: [],\n  isDataRoute: false\n});\nif (process.env.NODE_ENV !== \"production\") {\n  RouteContext.displayName = \"Route\";\n}\nconst RouteErrorContext = /*#__PURE__*/React.createContext(null);\nif (process.env.NODE_ENV !== \"production\") {\n  RouteErrorContext.displayName = \"RouteError\";\n}\n\n/**\n * Returns the full href for the given \"to\" value. This is useful for building\n * custom links that are also accessible and preserve right-click behavior.\n *\n * @see https://reactrouter.com/hooks/use-href\n */\nfunction useHref(to, _temp) {\n  let {\n    relative\n  } = _temp === void 0 ? {} : _temp;\n  !useInRouterContext() ? process.env.NODE_ENV !== \"production\" ? UNSAFE_invariant(false, // TODO: This error is probably because they somehow have 2 versions of the\n  // router loaded. We can help them understand how to avoid that.\n  \"useHref() may be used only in the context of a <Router> component.\") : UNSAFE_invariant(false) : void 0;\n  let {\n    basename,\n    navigator\n  } = React.useContext(NavigationContext);\n  let {\n    hash,\n    pathname,\n    search\n  } = useResolvedPath(to, {\n    relative\n  });\n  let joinedPathname = pathname;\n\n  // If we're operating within a basename, prepend it to the pathname prior\n  // to creating the href.  If this is a root navigation, then just use the raw\n  // basename which allows the basename to have full control over the presence\n  // of a trailing slash on root links\n  if (basename !== \"/\") {\n    joinedPathname = pathname === \"/\" ? basename : joinPaths([basename, pathname]);\n  }\n  return navigator.createHref({\n    pathname: joinedPathname,\n    search,\n    hash\n  });\n}\n\n/**\n * Returns true if this component is a descendant of a <Router>.\n *\n * @see https://reactrouter.com/hooks/use-in-router-context\n */\nfunction useInRouterContext() {\n  return React.useContext(LocationContext) != null;\n}\n\n/**\n * Returns the current location object, which represents the current URL in web\n * browsers.\n *\n * Note: If you're using this it may mean you're doing some of your own\n * \"routing\" in your app, and we'd like to know what your use case is. We may\n * be able to provide something higher-level to better suit your needs.\n *\n * @see https://reactrouter.com/hooks/use-location\n */\nfunction useLocation() {\n  !useInRouterContext() ? process.env.NODE_ENV !== \"production\" ? UNSAFE_invariant(false, // TODO: This error is probably because they somehow have 2 versions of the\n  // router loaded. We can help them understand how to avoid that.\n  \"useLocation() may be used only in the context of a <Router> component.\") : UNSAFE_invariant(false) : void 0;\n  return React.useContext(LocationContext).location;\n}\n\n/**\n * Returns the current navigation action which describes how the router came to\n * the current location, either by a pop, push, or replace on the history stack.\n *\n * @see https://reactrouter.com/hooks/use-navigation-type\n */\nfunction useNavigationType() {\n  return React.useContext(LocationContext).navigationType;\n}\n\n/**\n * Returns a PathMatch object if the given pattern matches the current URL.\n * This is useful for components that need to know \"active\" state, e.g.\n * <NavLink>.\n *\n * @see https://reactrouter.com/hooks/use-match\n */\nfunction useMatch(pattern) {\n  !useInRouterContext() ? process.env.NODE_ENV !== \"production\" ? UNSAFE_invariant(false, // TODO: This error is probably because they somehow have 2 versions of the\n  // router loaded. We can help them understand how to avoid that.\n  \"useMatch() may be used only in the context of a <Router> component.\") : UNSAFE_invariant(false) : void 0;\n  let {\n    pathname\n  } = useLocation();\n  return React.useMemo(() => matchPath(pattern, pathname), [pathname, pattern]);\n}\n\n/**\n * The interface for the navigate() function returned from useNavigate().\n */\n\nconst navigateEffectWarning = \"You should call navigate() in a React.useEffect(), not when \" + \"your component is first rendered.\";\n\n// Mute warnings for calls to useNavigate in SSR environments\nfunction useIsomorphicLayoutEffect(cb) {\n  let isStatic = React.useContext(NavigationContext).static;\n  if (!isStatic) {\n    // We should be able to get rid of this once react 18.3 is released\n    // See: https://github.com/facebook/react/pull/26395\n    // eslint-disable-next-line react-hooks/rules-of-hooks\n    React.useLayoutEffect(cb);\n  }\n}\n\n/**\n * Returns an imperative method for changing the location. Used by <Link>s, but\n * may also be used by other elements to change the location.\n *\n * @see https://reactrouter.com/hooks/use-navigate\n */\nfunction useNavigate() {\n  let {\n    isDataRoute\n  } = React.useContext(RouteContext);\n  // Conditional usage is OK here because the usage of a data router is static\n  // eslint-disable-next-line react-hooks/rules-of-hooks\n  return isDataRoute ? useNavigateStable() : useNavigateUnstable();\n}\nfunction useNavigateUnstable() {\n  !useInRouterContext() ? process.env.NODE_ENV !== \"production\" ? UNSAFE_invariant(false, // TODO: This error is probably because they somehow have 2 versions of the\n  // router loaded. We can help them understand how to avoid that.\n  \"useNavigate() may be used only in the context of a <Router> component.\") : UNSAFE_invariant(false) : void 0;\n  let dataRouterContext = React.useContext(DataRouterContext);\n  let {\n    basename,\n    navigator\n  } = React.useContext(NavigationContext);\n  let {\n    matches\n  } = React.useContext(RouteContext);\n  let {\n    pathname: locationPathname\n  } = useLocation();\n  let routePathnamesJson = JSON.stringify(UNSAFE_getPathContributingMatches(matches).map(match => match.pathnameBase));\n  let activeRef = React.useRef(false);\n  useIsomorphicLayoutEffect(() => {\n    activeRef.current = true;\n  });\n  let navigate = React.useCallback(function (to, options) {\n    if (options === void 0) {\n      options = {};\n    }\n    process.env.NODE_ENV !== \"production\" ? UNSAFE_warning(activeRef.current, navigateEffectWarning) : void 0;\n\n    // Short circuit here since if this happens on first render the navigate\n    // is useless because we haven't wired up our history listener yet\n    if (!activeRef.current) return;\n    if (typeof to === \"number\") {\n      navigator.go(to);\n      return;\n    }\n    let path = resolveTo(to, JSON.parse(routePathnamesJson), locationPathname, options.relative === \"path\");\n\n    // If we're operating within a basename, prepend it to the pathname prior\n    // to handing off to history (but only if we're not in a data router,\n    // otherwise it'll prepend the basename inside of the router).\n    // If this is a root navigation, then we navigate to the raw basename\n    // which allows the basename to have full control over the presence of a\n    // trailing slash on root links\n    if (dataRouterContext == null && basename !== \"/\") {\n      path.pathname = path.pathname === \"/\" ? basename : joinPaths([basename, path.pathname]);\n    }\n    (!!options.replace ? navigator.replace : navigator.push)(path, options.state, options);\n  }, [basename, navigator, routePathnamesJson, locationPathname, dataRouterContext]);\n  return navigate;\n}\nconst OutletContext = /*#__PURE__*/React.createContext(null);\n\n/**\n * Returns the context (if provided) for the child route at this level of the route\n * hierarchy.\n * @see https://reactrouter.com/hooks/use-outlet-context\n */\nfunction useOutletContext() {\n  return React.useContext(OutletContext);\n}\n\n/**\n * Returns the element for the child route at this level of the route\n * hierarchy. Used internally by <Outlet> to render child routes.\n *\n * @see https://reactrouter.com/hooks/use-outlet\n */\nfunction useOutlet(context) {\n  let outlet = React.useContext(RouteContext).outlet;\n  if (outlet) {\n    return /*#__PURE__*/React.createElement(OutletContext.Provider, {\n      value: context\n    }, outlet);\n  }\n  return outlet;\n}\n\n/**\n * Returns an object of key/value pairs of the dynamic params from the current\n * URL that were matched by the route path.\n *\n * @see https://reactrouter.com/hooks/use-params\n */\nfunction useParams() {\n  let {\n    matches\n  } = React.useContext(RouteContext);\n  let routeMatch = matches[matches.length - 1];\n  return routeMatch ? routeMatch.params : {};\n}\n\n/**\n * Resolves the pathname of the given `to` value against the current location.\n *\n * @see https://reactrouter.com/hooks/use-resolved-path\n */\nfunction useResolvedPath(to, _temp2) {\n  let {\n    relative\n  } = _temp2 === void 0 ? {} : _temp2;\n  let {\n    matches\n  } = React.useContext(RouteContext);\n  let {\n    pathname: locationPathname\n  } = useLocation();\n  let routePathnamesJson = JSON.stringify(UNSAFE_getPathContributingMatches(matches).map(match => match.pathnameBase));\n  return React.useMemo(() => resolveTo(to, JSON.parse(routePathnamesJson), locationPathname, relative === \"path\"), [to, routePathnamesJson, locationPathname, relative]);\n}\n\n/**\n * Returns the element of the route that matched the current location, prepared\n * with the correct context to render the remainder of the route tree. Route\n * elements in the tree must render an <Outlet> to render their child route's\n * element.\n *\n * @see https://reactrouter.com/hooks/use-routes\n */\nfunction useRoutes(routes, locationArg) {\n  return useRoutesImpl(routes, locationArg);\n}\n\n// Internal implementation with accept optional param for RouterProvider usage\nfunction useRoutesImpl(routes, locationArg, dataRouterState) {\n  !useInRouterContext() ? process.env.NODE_ENV !== \"production\" ? UNSAFE_invariant(false, // TODO: This error is probably because they somehow have 2 versions of the\n  // router loaded. We can help them understand how to avoid that.\n  \"useRoutes() may be used only in the context of a <Router> component.\") : UNSAFE_invariant(false) : void 0;\n  let {\n    navigator\n  } = React.useContext(NavigationContext);\n  let {\n    matches: parentMatches\n  } = React.useContext(RouteContext);\n  let routeMatch = parentMatches[parentMatches.length - 1];\n  let parentParams = routeMatch ? routeMatch.params : {};\n  let parentPathname = routeMatch ? routeMatch.pathname : \"/\";\n  let parentPathnameBase = routeMatch ? routeMatch.pathnameBase : \"/\";\n  let parentRoute = routeMatch && routeMatch.route;\n  if (process.env.NODE_ENV !== \"production\") {\n    // You won't get a warning about 2 different <Routes> under a <Route>\n    // without a trailing *, but this is a best-effort warning anyway since we\n    // cannot even give the warning unless they land at the parent route.\n    //\n    // Example:\n    //\n    // <Routes>\n    //   {/* This route path MUST end with /* because otherwise\n    //       it will never match /blog/post/123 */}\n    //   <Route path=\"blog\" element={<Blog />} />\n    //   <Route path=\"blog/feed\" element={<BlogFeed />} />\n    // </Routes>\n    //\n    // function Blog() {\n    //   return (\n    //     <Routes>\n    //       <Route path=\"post/:id\" element={<Post />} />\n    //     </Routes>\n    //   );\n    // }\n    let parentPath = parentRoute && parentRoute.path || \"\";\n    warningOnce(parentPathname, !parentRoute || parentPath.endsWith(\"*\"), \"You rendered descendant <Routes> (or called `useRoutes()`) at \" + (\"\\\"\" + parentPathname + \"\\\" (under <Route path=\\\"\" + parentPath + \"\\\">) but the \") + \"parent route path has no trailing \\\"*\\\". This means if you navigate \" + \"deeper, the parent won't match anymore and therefore the child \" + \"routes will never render.\\n\\n\" + (\"Please change the parent <Route path=\\\"\" + parentPath + \"\\\"> to <Route \") + (\"path=\\\"\" + (parentPath === \"/\" ? \"*\" : parentPath + \"/*\") + \"\\\">.\"));\n  }\n  let locationFromContext = useLocation();\n  let location;\n  if (locationArg) {\n    var _parsedLocationArg$pa;\n    let parsedLocationArg = typeof locationArg === \"string\" ? parsePath(locationArg) : locationArg;\n    !(parentPathnameBase === \"/\" || ((_parsedLocationArg$pa = parsedLocationArg.pathname) == null ? void 0 : _parsedLocationArg$pa.startsWith(parentPathnameBase))) ? process.env.NODE_ENV !== \"production\" ? UNSAFE_invariant(false, \"When overriding the location using `<Routes location>` or `useRoutes(routes, location)`, \" + \"the location pathname must begin with the portion of the URL pathname that was \" + (\"matched by all parent routes. The current pathname base is \\\"\" + parentPathnameBase + \"\\\" \") + (\"but pathname \\\"\" + parsedLocationArg.pathname + \"\\\" was given in the `location` prop.\")) : UNSAFE_invariant(false) : void 0;\n    location = parsedLocationArg;\n  } else {\n    location = locationFromContext;\n  }\n  let pathname = location.pathname || \"/\";\n  let remainingPathname = parentPathnameBase === \"/\" ? pathname : pathname.slice(parentPathnameBase.length) || \"/\";\n  let matches = matchRoutes(routes, {\n    pathname: remainingPathname\n  });\n  if (process.env.NODE_ENV !== \"production\") {\n    process.env.NODE_ENV !== \"production\" ? UNSAFE_warning(parentRoute || matches != null, \"No routes matched location \\\"\" + location.pathname + location.search + location.hash + \"\\\" \") : void 0;\n    process.env.NODE_ENV !== \"production\" ? UNSAFE_warning(matches == null || matches[matches.length - 1].route.element !== undefined || matches[matches.length - 1].route.Component !== undefined, \"Matched leaf route at location \\\"\" + location.pathname + location.search + location.hash + \"\\\" \" + \"does not have an element or Component. This means it will render an <Outlet /> with a \" + \"null value by default resulting in an \\\"empty\\\" page.\") : void 0;\n  }\n  let renderedMatches = _renderMatches(matches && matches.map(match => Object.assign({}, match, {\n    params: Object.assign({}, parentParams, match.params),\n    pathname: joinPaths([parentPathnameBase,\n    // Re-encode pathnames that were decoded inside matchRoutes\n    navigator.encodeLocation ? navigator.encodeLocation(match.pathname).pathname : match.pathname]),\n    pathnameBase: match.pathnameBase === \"/\" ? parentPathnameBase : joinPaths([parentPathnameBase,\n    // Re-encode pathnames that were decoded inside matchRoutes\n    navigator.encodeLocation ? navigator.encodeLocation(match.pathnameBase).pathname : match.pathnameBase])\n  })), parentMatches, dataRouterState);\n\n  // When a user passes in a `locationArg`, the associated routes need to\n  // be wrapped in a new `LocationContext.Provider` in order for `useLocation`\n  // to use the scoped location instead of the global location.\n  if (locationArg && renderedMatches) {\n    return /*#__PURE__*/React.createElement(LocationContext.Provider, {\n      value: {\n        location: _extends({\n          pathname: \"/\",\n          search: \"\",\n          hash: \"\",\n          state: null,\n          key: \"default\"\n        }, location),\n        navigationType: Action.Pop\n      }\n    }, renderedMatches);\n  }\n  return renderedMatches;\n}\nfunction DefaultErrorComponent() {\n  let error = useRouteError();\n  let message = isRouteErrorResponse(error) ? error.status + \" \" + error.statusText : error instanceof Error ? error.message : JSON.stringify(error);\n  let stack = error instanceof Error ? error.stack : null;\n  let lightgrey = \"rgba(200,200,200, 0.5)\";\n  let preStyles = {\n    padding: \"0.5rem\",\n    backgroundColor: lightgrey\n  };\n  let codeStyles = {\n    padding: \"2px 4px\",\n    backgroundColor: lightgrey\n  };\n  let devInfo = null;\n  if (process.env.NODE_ENV !== \"production\") {\n    console.error(\"Error handled by React Router default ErrorBoundary:\", error);\n    devInfo = /*#__PURE__*/React.createElement(React.Fragment, null, /*#__PURE__*/React.createElement(\"p\", null, \"\\uD83D\\uDCBF Hey developer \\uD83D\\uDC4B\"), /*#__PURE__*/React.createElement(\"p\", null, \"You can provide a way better UX than this when your app throws errors by providing your own \", /*#__PURE__*/React.createElement(\"code\", {\n      style: codeStyles\n    }, \"ErrorBoundary\"), \" or\", \" \", /*#__PURE__*/React.createElement(\"code\", {\n      style: codeStyles\n    }, \"errorElement\"), \" prop on your route.\"));\n  }\n  return /*#__PURE__*/React.createElement(React.Fragment, null, /*#__PURE__*/React.createElement(\"h2\", null, \"Unexpected Application Error!\"), /*#__PURE__*/React.createElement(\"h3\", {\n    style: {\n      fontStyle: \"italic\"\n    }\n  }, message), stack ? /*#__PURE__*/React.createElement(\"pre\", {\n    style: preStyles\n  }, stack) : null, devInfo);\n}\nconst defaultErrorElement = /*#__PURE__*/React.createElement(DefaultErrorComponent, null);\nclass RenderErrorBoundary extends React.Component {\n  constructor(props) {\n    super(props);\n    this.state = {\n      location: props.location,\n      revalidation: props.revalidation,\n      error: props.error\n    };\n  }\n  static getDerivedStateFromError(error) {\n    return {\n      error: error\n    };\n  }\n  static getDerivedStateFromProps(props, state) {\n    // When we get into an error state, the user will likely click \"back\" to the\n    // previous page that didn't have an error. Because this wraps the entire\n    // application, that will have no effect--the error page continues to display.\n    // This gives us a mechanism to recover from the error when the location changes.\n    //\n    // Whether we're in an error state or not, we update the location in state\n    // so that when we are in an error state, it gets reset when a new location\n    // comes in and the user recovers from the error.\n    if (state.location !== props.location || state.revalidation !== \"idle\" && props.revalidation === \"idle\") {\n      return {\n        error: props.error,\n        location: props.location,\n        revalidation: props.revalidation\n      };\n    }\n\n    // If we're not changing locations, preserve the location but still surface\n    // any new errors that may come through. We retain the existing error, we do\n    // this because the error provided from the app state may be cleared without\n    // the location changing.\n    return {\n      error: props.error || state.error,\n      location: state.location,\n      revalidation: props.revalidation || state.revalidation\n    };\n  }\n  componentDidCatch(error, errorInfo) {\n    console.error(\"React Router caught the following error during render\", error, errorInfo);\n  }\n  render() {\n    return this.state.error ? /*#__PURE__*/React.createElement(RouteContext.Provider, {\n      value: this.props.routeContext\n    }, /*#__PURE__*/React.createElement(RouteErrorContext.Provider, {\n      value: this.state.error,\n      children: this.props.component\n    })) : this.props.children;\n  }\n}\nfunction RenderedRoute(_ref) {\n  let {\n    routeContext,\n    match,\n    children\n  } = _ref;\n  let dataRouterContext = React.useContext(DataRouterContext);\n\n  // Track how deep we got in our render pass to emulate SSR componentDidCatch\n  // in a DataStaticRouter\n  if (dataRouterContext && dataRouterContext.static && dataRouterContext.staticContext && (match.route.errorElement || match.route.ErrorBoundary)) {\n    dataRouterContext.staticContext._deepestRenderedBoundaryId = match.route.id;\n  }\n  return /*#__PURE__*/React.createElement(RouteContext.Provider, {\n    value: routeContext\n  }, children);\n}\nfunction _renderMatches(matches, parentMatches, dataRouterState) {\n  var _dataRouterState2;\n  if (parentMatches === void 0) {\n    parentMatches = [];\n  }\n  if (dataRouterState === void 0) {\n    dataRouterState = null;\n  }\n  if (matches == null) {\n    var _dataRouterState;\n    if ((_dataRouterState = dataRouterState) != null && _dataRouterState.errors) {\n      // Don't bail if we have data router errors so we can render them in the\n      // boundary.  Use the pre-matched (or shimmed) matches\n      matches = dataRouterState.matches;\n    } else {\n      return null;\n    }\n  }\n  let renderedMatches = matches;\n\n  // If we have data errors, trim matches to the highest error boundary\n  let errors = (_dataRouterState2 = dataRouterState) == null ? void 0 : _dataRouterState2.errors;\n  if (errors != null) {\n    let errorIndex = renderedMatches.findIndex(m => m.route.id && (errors == null ? void 0 : errors[m.route.id]));\n    !(errorIndex >= 0) ? process.env.NODE_ENV !== \"production\" ? UNSAFE_invariant(false, \"Could not find a matching route for errors on route IDs: \" + Object.keys(errors).join(\",\")) : UNSAFE_invariant(false) : void 0;\n    renderedMatches = renderedMatches.slice(0, Math.min(renderedMatches.length, errorIndex + 1));\n  }\n  return renderedMatches.reduceRight((outlet, match, index) => {\n    let error = match.route.id ? errors == null ? void 0 : errors[match.route.id] : null;\n    // Only data routers handle errors\n    let errorElement = null;\n    if (dataRouterState) {\n      errorElement = match.route.errorElement || defaultErrorElement;\n    }\n    let matches = parentMatches.concat(renderedMatches.slice(0, index + 1));\n    let getChildren = () => {\n      let children;\n      if (error) {\n        children = errorElement;\n      } else if (match.route.Component) {\n        // Note: This is a de-optimized path since React won't re-use the\n        // ReactElement since it's identity changes with each new\n        // React.createElement call.  We keep this so folks can use\n        // `<Route Component={...}>` in `<Routes>` but generally `Component`\n        // usage is only advised in `RouterProvider` when we can convert it to\n        // `element` ahead of time.\n        children = /*#__PURE__*/React.createElement(match.route.Component, null);\n      } else if (match.route.element) {\n        children = match.route.element;\n      } else {\n        children = outlet;\n      }\n      return /*#__PURE__*/React.createElement(RenderedRoute, {\n        match: match,\n        routeContext: {\n          outlet,\n          matches,\n          isDataRoute: dataRouterState != null\n        },\n        children: children\n      });\n    };\n    // Only wrap in an error boundary within data router usages when we have an\n    // ErrorBoundary/errorElement on this route.  Otherwise let it bubble up to\n    // an ancestor ErrorBoundary/errorElement\n    return dataRouterState && (match.route.ErrorBoundary || match.route.errorElement || index === 0) ? /*#__PURE__*/React.createElement(RenderErrorBoundary, {\n      location: dataRouterState.location,\n      revalidation: dataRouterState.revalidation,\n      component: errorElement,\n      error: error,\n      children: getChildren(),\n      routeContext: {\n        outlet: null,\n        matches,\n        isDataRoute: true\n      }\n    }) : getChildren();\n  }, null);\n}\nvar DataRouterHook;\n(function (DataRouterHook) {\n  DataRouterHook[\"UseBlocker\"] = \"useBlocker\";\n  DataRouterHook[\"UseRevalidator\"] = \"useRevalidator\";\n  DataRouterHook[\"UseNavigateStable\"] = \"useNavigate\";\n})(DataRouterHook || (DataRouterHook = {}));\nvar DataRouterStateHook;\n(function (DataRouterStateHook) {\n  DataRouterStateHook[\"UseBlocker\"] = \"useBlocker\";\n  DataRouterStateHook[\"UseLoaderData\"] = \"useLoaderData\";\n  DataRouterStateHook[\"UseActionData\"] = \"useActionData\";\n  DataRouterStateHook[\"UseRouteError\"] = \"useRouteError\";\n  DataRouterStateHook[\"UseNavigation\"] = \"useNavigation\";\n  DataRouterStateHook[\"UseRouteLoaderData\"] = \"useRouteLoaderData\";\n  DataRouterStateHook[\"UseMatches\"] = \"useMatches\";\n  DataRouterStateHook[\"UseRevalidator\"] = \"useRevalidator\";\n  DataRouterStateHook[\"UseNavigateStable\"] = \"useNavigate\";\n  DataRouterStateHook[\"UseRouteId\"] = \"useRouteId\";\n})(DataRouterStateHook || (DataRouterStateHook = {}));\nfunction getDataRouterConsoleError(hookName) {\n  return hookName + \" must be used within a data router.  See https://reactrouter.com/routers/picking-a-router.\";\n}\nfunction useDataRouterContext(hookName) {\n  let ctx = React.useContext(DataRouterContext);\n  !ctx ? process.env.NODE_ENV !== \"production\" ? UNSAFE_invariant(false, getDataRouterConsoleError(hookName)) : UNSAFE_invariant(false) : void 0;\n  return ctx;\n}\nfunction useDataRouterState(hookName) {\n  let state = React.useContext(DataRouterStateContext);\n  !state ? process.env.NODE_ENV !== \"production\" ? UNSAFE_invariant(false, getDataRouterConsoleError(hookName)) : UNSAFE_invariant(false) : void 0;\n  return state;\n}\nfunction useRouteContext(hookName) {\n  let route = React.useContext(RouteContext);\n  !route ? process.env.NODE_ENV !== \"production\" ? UNSAFE_invariant(false, getDataRouterConsoleError(hookName)) : UNSAFE_invariant(false) : void 0;\n  return route;\n}\n\n// Internal version with hookName-aware debugging\nfunction useCurrentRouteId(hookName) {\n  let route = useRouteContext(hookName);\n  let thisRoute = route.matches[route.matches.length - 1];\n  !thisRoute.route.id ? process.env.NODE_ENV !== \"production\" ? UNSAFE_invariant(false, hookName + \" can only be used on routes that contain a unique \\\"id\\\"\") : UNSAFE_invariant(false) : void 0;\n  return thisRoute.route.id;\n}\n\n/**\n * Returns the ID for the nearest contextual route\n */\nfunction useRouteId() {\n  return useCurrentRouteId(DataRouterStateHook.UseRouteId);\n}\n\n/**\n * Returns the current navigation, defaulting to an \"idle\" navigation when\n * no navigation is in progress\n */\nfunction useNavigation() {\n  let state = useDataRouterState(DataRouterStateHook.UseNavigation);\n  return state.navigation;\n}\n\n/**\n * Returns a revalidate function for manually triggering revalidation, as well\n * as the current state of any manual revalidations\n */\nfunction useRevalidator() {\n  let dataRouterContext = useDataRouterContext(DataRouterHook.UseRevalidator);\n  let state = useDataRouterState(DataRouterStateHook.UseRevalidator);\n  return {\n    revalidate: dataRouterContext.router.revalidate,\n    state: state.revalidation\n  };\n}\n\n/**\n * Returns the active route matches, useful for accessing loaderData for\n * parent/child routes or the route \"handle\" property\n */\nfunction useMatches() {\n  let {\n    matches,\n    loaderData\n  } = useDataRouterState(DataRouterStateHook.UseMatches);\n  return React.useMemo(() => matches.map(match => {\n    let {\n      pathname,\n      params\n    } = match;\n    // Note: This structure matches that created by createUseMatchesMatch\n    // in the @remix-run/router , so if you change this please also change\n    // that :)  Eventually we'll DRY this up\n    return {\n      id: match.route.id,\n      pathname,\n      params,\n      data: loaderData[match.route.id],\n      handle: match.route.handle\n    };\n  }), [matches, loaderData]);\n}\n\n/**\n * Returns the loader data for the nearest ancestor Route loader\n */\nfunction useLoaderData() {\n  let state = useDataRouterState(DataRouterStateHook.UseLoaderData);\n  let routeId = useCurrentRouteId(DataRouterStateHook.UseLoaderData);\n  if (state.errors && state.errors[routeId] != null) {\n    console.error(\"You cannot `useLoaderData` in an errorElement (routeId: \" + routeId + \")\");\n    return undefined;\n  }\n  return state.loaderData[routeId];\n}\n\n/**\n * Returns the loaderData for the given routeId\n */\nfunction useRouteLoaderData(routeId) {\n  let state = useDataRouterState(DataRouterStateHook.UseRouteLoaderData);\n  return state.loaderData[routeId];\n}\n\n/**\n * Returns the action data for the nearest ancestor Route action\n */\nfunction useActionData() {\n  let state = useDataRouterState(DataRouterStateHook.UseActionData);\n  let route = React.useContext(RouteContext);\n  !route ? process.env.NODE_ENV !== \"production\" ? UNSAFE_invariant(false, \"useActionData must be used inside a RouteContext\") : UNSAFE_invariant(false) : void 0;\n  return Object.values((state == null ? void 0 : state.actionData) || {})[0];\n}\n\n/**\n * Returns the nearest ancestor Route error, which could be a loader/action\n * error or a render error.  This is intended to be called from your\n * ErrorBoundary/errorElement to display a proper error message.\n */\nfunction useRouteError() {\n  var _state$errors;\n  let error = React.useContext(RouteErrorContext);\n  let state = useDataRouterState(DataRouterStateHook.UseRouteError);\n  let routeId = useCurrentRouteId(DataRouterStateHook.UseRouteError);\n\n  // If this was a render error, we put it in a RouteError context inside\n  // of RenderErrorBoundary\n  if (error) {\n    return error;\n  }\n\n  // Otherwise look for errors from our data router state\n  return (_state$errors = state.errors) == null ? void 0 : _state$errors[routeId];\n}\n\n/**\n * Returns the happy-path data from the nearest ancestor <Await /> value\n */\nfunction useAsyncValue() {\n  let value = React.useContext(AwaitContext);\n  return value == null ? void 0 : value._data;\n}\n\n/**\n * Returns the error from the nearest ancestor <Await /> value\n */\nfunction useAsyncError() {\n  let value = React.useContext(AwaitContext);\n  return value == null ? void 0 : value._error;\n}\nlet blockerId = 0;\n\n/**\n * Allow the application to block navigations within the SPA and present the\n * user a confirmation dialog to confirm the navigation.  Mostly used to avoid\n * using half-filled form data.  This does not handle hard-reloads or\n * cross-origin navigations.\n */\nfunction useBlocker(shouldBlock) {\n  let {\n    router,\n    basename\n  } = useDataRouterContext(DataRouterHook.UseBlocker);\n  let state = useDataRouterState(DataRouterStateHook.UseBlocker);\n  let [blockerKey, setBlockerKey] = React.useState(\"\");\n  let blockerFunction = React.useCallback(arg => {\n    if (typeof shouldBlock !== \"function\") {\n      return !!shouldBlock;\n    }\n    if (basename === \"/\") {\n      return shouldBlock(arg);\n    }\n\n    // If they provided us a function and we've got an active basename, strip\n    // it from the locations we expose to the user to match the behavior of\n    // useLocation\n    let {\n      currentLocation,\n      nextLocation,\n      historyAction\n    } = arg;\n    return shouldBlock({\n      currentLocation: _extends({}, currentLocation, {\n        pathname: stripBasename(currentLocation.pathname, basename) || currentLocation.pathname\n      }),\n      nextLocation: _extends({}, nextLocation, {\n        pathname: stripBasename(nextLocation.pathname, basename) || nextLocation.pathname\n      }),\n      historyAction\n    });\n  }, [basename, shouldBlock]);\n\n  // This effect is in charge of blocker key assignment and deletion (which is\n  // tightly coupled to the key)\n  React.useEffect(() => {\n    let key = String(++blockerId);\n    setBlockerKey(key);\n    return () => router.deleteBlocker(key);\n  }, [router]);\n\n  // This effect handles assigning the blockerFunction.  This is to handle\n  // unstable blocker function identities, and happens only after the prior\n  // effect so we don't get an orphaned blockerFunction in the router with a\n  // key of \"\".  Until then we just have the IDLE_BLOCKER.\n  React.useEffect(() => {\n    if (blockerKey !== \"\") {\n      router.getBlocker(blockerKey, blockerFunction);\n    }\n  }, [router, blockerKey, blockerFunction]);\n\n  // Prefer the blocker from `state` not `router.state` since DataRouterContext\n  // is memoized so this ensures we update on blocker state updates\n  return blockerKey && state.blockers.has(blockerKey) ? state.blockers.get(blockerKey) : IDLE_BLOCKER;\n}\n\n/**\n * Stable version of useNavigate that is used when we are in the context of\n * a RouterProvider.\n */\nfunction useNavigateStable() {\n  let {\n    router\n  } = useDataRouterContext(DataRouterHook.UseNavigateStable);\n  let id = useCurrentRouteId(DataRouterStateHook.UseNavigateStable);\n  let activeRef = React.useRef(false);\n  useIsomorphicLayoutEffect(() => {\n    activeRef.current = true;\n  });\n  let navigate = React.useCallback(function (to, options) {\n    if (options === void 0) {\n      options = {};\n    }\n    process.env.NODE_ENV !== \"production\" ? UNSAFE_warning(activeRef.current, navigateEffectWarning) : void 0;\n\n    // Short circuit here since if this happens on first render the navigate\n    // is useless because we haven't wired up our router subscriber yet\n    if (!activeRef.current) return;\n    if (typeof to === \"number\") {\n      router.navigate(to);\n    } else {\n      router.navigate(to, _extends({\n        fromRouteId: id\n      }, options));\n    }\n  }, [router, id]);\n  return navigate;\n}\nconst alreadyWarned = {};\nfunction warningOnce(key, cond, message) {\n  if (!cond && !alreadyWarned[key]) {\n    alreadyWarned[key] = true;\n    process.env.NODE_ENV !== \"production\" ? UNSAFE_warning(false, message) : void 0;\n  }\n}\n\n/**\n  Webpack + React 17 fails to compile on any of the following because webpack\n  complains that `startTransition` doesn't exist in `React`:\n  * import { startTransition } from \"react\"\n  * import * as React from from \"react\";\n    \"startTransition\" in React ? React.startTransition(() => setState()) : setState()\n  * import * as React from from \"react\";\n    \"startTransition\" in React ? React[\"startTransition\"](() => setState()) : setState()\n\n  Moving it to a constant such as the following solves the Webpack/React 17 issue:\n  * import * as React from from \"react\";\n    const START_TRANSITION = \"startTransition\";\n    START_TRANSITION in React ? React[START_TRANSITION](() => setState()) : setState()\n\n  However, that introduces webpack/terser minification issues in production builds\n  in React 18 where minification/obfuscation ends up removing the call of\n  React.startTransition entirely from the first half of the ternary.  Grabbing\n  this exported reference once up front resolves that issue.\n\n  See https://github.com/remix-run/react-router/issues/10579\n*/\nconst START_TRANSITION = \"startTransition\";\nconst startTransitionImpl = React[START_TRANSITION];\n\n/**\n * Given a Remix Router instance, render the appropriate UI\n */\nfunction RouterProvider(_ref) {\n  let {\n    fallbackElement,\n    router,\n    future\n  } = _ref;\n  // Need to use a layout effect here so we are subscribed early enough to\n  // pick up on any render-driven redirects/navigations (useEffect/<Navigate>)\n  let [state, setStateImpl] = React.useState(router.state);\n  let {\n    v7_startTransition\n  } = future || {};\n  let setState = React.useCallback(newState => {\n    v7_startTransition && startTransitionImpl ? startTransitionImpl(() => setStateImpl(newState)) : setStateImpl(newState);\n  }, [setStateImpl, v7_startTransition]);\n  React.useLayoutEffect(() => router.subscribe(setState), [router, setState]);\n  let navigator = React.useMemo(() => {\n    return {\n      createHref: router.createHref,\n      encodeLocation: router.encodeLocation,\n      go: n => router.navigate(n),\n      push: (to, state, opts) => router.navigate(to, {\n        state,\n        preventScrollReset: opts == null ? void 0 : opts.preventScrollReset\n      }),\n      replace: (to, state, opts) => router.navigate(to, {\n        replace: true,\n        state,\n        preventScrollReset: opts == null ? void 0 : opts.preventScrollReset\n      })\n    };\n  }, [router]);\n  let basename = router.basename || \"/\";\n  let dataRouterContext = React.useMemo(() => ({\n    router,\n    navigator,\n    static: false,\n    basename\n  }), [router, navigator, basename]);\n\n  // The fragment and {null} here are important!  We need them to keep React 18's\n  // useId happy when we are server-rendering since we may have a <script> here\n  // containing the hydrated server-side staticContext (from StaticRouterProvider).\n  // useId relies on the component tree structure to generate deterministic id's\n  // so we need to ensure it remains the same on the client even though\n  // we don't need the <script> tag\n  return /*#__PURE__*/React.createElement(React.Fragment, null, /*#__PURE__*/React.createElement(DataRouterContext.Provider, {\n    value: dataRouterContext\n  }, /*#__PURE__*/React.createElement(DataRouterStateContext.Provider, {\n    value: state\n  }, /*#__PURE__*/React.createElement(Router, {\n    basename: basename,\n    location: state.location,\n    navigationType: state.historyAction,\n    navigator: navigator\n  }, state.initialized ? /*#__PURE__*/React.createElement(DataRoutes, {\n    routes: router.routes,\n    state: state\n  }) : fallbackElement))), null);\n}\nfunction DataRoutes(_ref2) {\n  let {\n    routes,\n    state\n  } = _ref2;\n  return useRoutesImpl(routes, undefined, state);\n}\n/**\n * A <Router> that stores all entries in memory.\n *\n * @see https://reactrouter.com/router-components/memory-router\n */\nfunction MemoryRouter(_ref3) {\n  let {\n    basename,\n    children,\n    initialEntries,\n    initialIndex,\n    future\n  } = _ref3;\n  let historyRef = React.useRef();\n  if (historyRef.current == null) {\n    historyRef.current = createMemoryHistory({\n      initialEntries,\n      initialIndex,\n      v5Compat: true\n    });\n  }\n  let history = historyRef.current;\n  let [state, setStateImpl] = React.useState({\n    action: history.action,\n    location: history.location\n  });\n  let {\n    v7_startTransition\n  } = future || {};\n  let setState = React.useCallback(newState => {\n    v7_startTransition && startTransitionImpl ? startTransitionImpl(() => setStateImpl(newState)) : setStateImpl(newState);\n  }, [setStateImpl, v7_startTransition]);\n  React.useLayoutEffect(() => history.listen(setState), [history, setState]);\n  return /*#__PURE__*/React.createElement(Router, {\n    basename: basename,\n    children: children,\n    location: state.location,\n    navigationType: state.action,\n    navigator: history\n  });\n}\n/**\n * Changes the current location.\n *\n * Note: This API is mostly useful in React.Component subclasses that are not\n * able to use hooks. In functional components, we recommend you use the\n * `useNavigate` hook instead.\n *\n * @see https://reactrouter.com/components/navigate\n */\nfunction Navigate(_ref4) {\n  let {\n    to,\n    replace,\n    state,\n    relative\n  } = _ref4;\n  !useInRouterContext() ? process.env.NODE_ENV !== \"production\" ? UNSAFE_invariant(false, // TODO: This error is probably because they somehow have 2 versions of\n  // the router loaded. We can help them understand how to avoid that.\n  \"<Navigate> may be used only in the context of a <Router> component.\") : UNSAFE_invariant(false) : void 0;\n  process.env.NODE_ENV !== \"production\" ? UNSAFE_warning(!React.useContext(NavigationContext).static, \"<Navigate> must not be used on the initial render in a <StaticRouter>. \" + \"This is a no-op, but you should modify your code so the <Navigate> is \" + \"only ever rendered in response to some user interaction or state change.\") : void 0;\n  let {\n    matches\n  } = React.useContext(RouteContext);\n  let {\n    pathname: locationPathname\n  } = useLocation();\n  let navigate = useNavigate();\n\n  // Resolve the path outside of the effect so that when effects run twice in\n  // StrictMode they navigate to the same place\n  let path = resolveTo(to, UNSAFE_getPathContributingMatches(matches).map(match => match.pathnameBase), locationPathname, relative === \"path\");\n  let jsonPath = JSON.stringify(path);\n  React.useEffect(() => navigate(JSON.parse(jsonPath), {\n    replace,\n    state,\n    relative\n  }), [navigate, jsonPath, relative, replace, state]);\n  return null;\n}\n/**\n * Renders the child route's element, if there is one.\n *\n * @see https://reactrouter.com/components/outlet\n */\nfunction Outlet(props) {\n  return useOutlet(props.context);\n}\n/**\n * Declares an element that should be rendered at a certain URL path.\n *\n * @see https://reactrouter.com/components/route\n */\nfunction Route(_props) {\n  process.env.NODE_ENV !== \"production\" ? UNSAFE_invariant(false, \"A <Route> is only ever to be used as the child of <Routes> element, \" + \"never rendered directly. Please wrap your <Route> in a <Routes>.\") : UNSAFE_invariant(false) ;\n}\n/**\n * Provides location context for the rest of the app.\n *\n * Note: You usually won't render a <Router> directly. Instead, you'll render a\n * router that is more specific to your environment such as a <BrowserRouter>\n * in web browsers or a <StaticRouter> for server rendering.\n *\n * @see https://reactrouter.com/router-components/router\n */\nfunction Router(_ref5) {\n  let {\n    basename: basenameProp = \"/\",\n    children = null,\n    location: locationProp,\n    navigationType = Action.Pop,\n    navigator,\n    static: staticProp = false\n  } = _ref5;\n  !!useInRouterContext() ? process.env.NODE_ENV !== \"production\" ? UNSAFE_invariant(false, \"You cannot render a <Router> inside another <Router>.\" + \" You should never have more than one in your app.\") : UNSAFE_invariant(false) : void 0;\n\n  // Preserve trailing slashes on basename, so we can let the user control\n  // the enforcement of trailing slashes throughout the app\n  let basename = basenameProp.replace(/^\\/*/, \"/\");\n  let navigationContext = React.useMemo(() => ({\n    basename,\n    navigator,\n    static: staticProp\n  }), [basename, navigator, staticProp]);\n  if (typeof locationProp === \"string\") {\n    locationProp = parsePath(locationProp);\n  }\n  let {\n    pathname = \"/\",\n    search = \"\",\n    hash = \"\",\n    state = null,\n    key = \"default\"\n  } = locationProp;\n  let locationContext = React.useMemo(() => {\n    let trailingPathname = stripBasename(pathname, basename);\n    if (trailingPathname == null) {\n      return null;\n    }\n    return {\n      location: {\n        pathname: trailingPathname,\n        search,\n        hash,\n        state,\n        key\n      },\n      navigationType\n    };\n  }, [basename, pathname, search, hash, state, key, navigationType]);\n  process.env.NODE_ENV !== \"production\" ? UNSAFE_warning(locationContext != null, \"<Router basename=\\\"\" + basename + \"\\\"> is not able to match the URL \" + (\"\\\"\" + pathname + search + hash + \"\\\" because it does not start with the \") + \"basename, so the <Router> won't render anything.\") : void 0;\n  if (locationContext == null) {\n    return null;\n  }\n  return /*#__PURE__*/React.createElement(NavigationContext.Provider, {\n    value: navigationContext\n  }, /*#__PURE__*/React.createElement(LocationContext.Provider, {\n    children: children,\n    value: locationContext\n  }));\n}\n/**\n * A container for a nested tree of <Route> elements that renders the branch\n * that best matches the current location.\n *\n * @see https://reactrouter.com/components/routes\n */\nfunction Routes(_ref6) {\n  let {\n    children,\n    location\n  } = _ref6;\n  return useRoutes(createRoutesFromChildren(children), location);\n}\n/**\n * Component to use for rendering lazily loaded data from returning defer()\n * in a loader function\n */\nfunction Await(_ref7) {\n  let {\n    children,\n    errorElement,\n    resolve\n  } = _ref7;\n  return /*#__PURE__*/React.createElement(AwaitErrorBoundary, {\n    resolve: resolve,\n    errorElement: errorElement\n  }, /*#__PURE__*/React.createElement(ResolveAwait, null, children));\n}\nvar AwaitRenderStatus;\n(function (AwaitRenderStatus) {\n  AwaitRenderStatus[AwaitRenderStatus[\"pending\"] = 0] = \"pending\";\n  AwaitRenderStatus[AwaitRenderStatus[\"success\"] = 1] = \"success\";\n  AwaitRenderStatus[AwaitRenderStatus[\"error\"] = 2] = \"error\";\n})(AwaitRenderStatus || (AwaitRenderStatus = {}));\nconst neverSettledPromise = new Promise(() => {});\nclass AwaitErrorBoundary extends React.Component {\n  constructor(props) {\n    super(props);\n    this.state = {\n      error: null\n    };\n  }\n  static getDerivedStateFromError(error) {\n    return {\n      error\n    };\n  }\n  componentDidCatch(error, errorInfo) {\n    console.error(\"<Await> caught the following error during render\", error, errorInfo);\n  }\n  render() {\n    let {\n      children,\n      errorElement,\n      resolve\n    } = this.props;\n    let promise = null;\n    let status = AwaitRenderStatus.pending;\n    if (!(resolve instanceof Promise)) {\n      // Didn't get a promise - provide as a resolved promise\n      status = AwaitRenderStatus.success;\n      promise = Promise.resolve();\n      Object.defineProperty(promise, \"_tracked\", {\n        get: () => true\n      });\n      Object.defineProperty(promise, \"_data\", {\n        get: () => resolve\n      });\n    } else if (this.state.error) {\n      // Caught a render error, provide it as a rejected promise\n      status = AwaitRenderStatus.error;\n      let renderError = this.state.error;\n      promise = Promise.reject().catch(() => {}); // Avoid unhandled rejection warnings\n      Object.defineProperty(promise, \"_tracked\", {\n        get: () => true\n      });\n      Object.defineProperty(promise, \"_error\", {\n        get: () => renderError\n      });\n    } else if (resolve._tracked) {\n      // Already tracked promise - check contents\n      promise = resolve;\n      status = promise._error !== undefined ? AwaitRenderStatus.error : promise._data !== undefined ? AwaitRenderStatus.success : AwaitRenderStatus.pending;\n    } else {\n      // Raw (untracked) promise - track it\n      status = AwaitRenderStatus.pending;\n      Object.defineProperty(resolve, \"_tracked\", {\n        get: () => true\n      });\n      promise = resolve.then(data => Object.defineProperty(resolve, \"_data\", {\n        get: () => data\n      }), error => Object.defineProperty(resolve, \"_error\", {\n        get: () => error\n      }));\n    }\n    if (status === AwaitRenderStatus.error && promise._error instanceof AbortedDeferredError) {\n      // Freeze the UI by throwing a never resolved promise\n      throw neverSettledPromise;\n    }\n    if (status === AwaitRenderStatus.error && !errorElement) {\n      // No errorElement, throw to the nearest route-level error boundary\n      throw promise._error;\n    }\n    if (status === AwaitRenderStatus.error) {\n      // Render via our errorElement\n      return /*#__PURE__*/React.createElement(AwaitContext.Provider, {\n        value: promise,\n        children: errorElement\n      });\n    }\n    if (status === AwaitRenderStatus.success) {\n      // Render children with resolved value\n      return /*#__PURE__*/React.createElement(AwaitContext.Provider, {\n        value: promise,\n        children: children\n      });\n    }\n\n    // Throw to the suspense boundary\n    throw promise;\n  }\n}\n\n/**\n * @private\n * Indirection to leverage useAsyncValue for a render-prop API on <Await>\n */\nfunction ResolveAwait(_ref8) {\n  let {\n    children\n  } = _ref8;\n  let data = useAsyncValue();\n  let toRender = typeof children === \"function\" ? children(data) : children;\n  return /*#__PURE__*/React.createElement(React.Fragment, null, toRender);\n}\n\n///////////////////////////////////////////////////////////////////////////////\n// UTILS\n///////////////////////////////////////////////////////////////////////////////\n\n/**\n * Creates a route config from a React \"children\" object, which is usually\n * either a `<Route>` element or an array of them. Used internally by\n * `<Routes>` to create a route config from its children.\n *\n * @see https://reactrouter.com/utils/create-routes-from-children\n */\nfunction createRoutesFromChildren(children, parentPath) {\n  if (parentPath === void 0) {\n    parentPath = [];\n  }\n  let routes = [];\n  React.Children.forEach(children, (element, index) => {\n    if (! /*#__PURE__*/React.isValidElement(element)) {\n      // Ignore non-elements. This allows people to more easily inline\n      // conditionals in their route config.\n      return;\n    }\n    let treePath = [...parentPath, index];\n    if (element.type === React.Fragment) {\n      // Transparently support React.Fragment and its children.\n      routes.push.apply(routes, createRoutesFromChildren(element.props.children, treePath));\n      return;\n    }\n    !(element.type === Route) ? process.env.NODE_ENV !== \"production\" ? UNSAFE_invariant(false, \"[\" + (typeof element.type === \"string\" ? element.type : element.type.name) + \"] is not a <Route> component. All component children of <Routes> must be a <Route> or <React.Fragment>\") : UNSAFE_invariant(false) : void 0;\n    !(!element.props.index || !element.props.children) ? process.env.NODE_ENV !== \"production\" ? UNSAFE_invariant(false, \"An index route cannot have child routes.\") : UNSAFE_invariant(false) : void 0;\n    let route = {\n      id: element.props.id || treePath.join(\"-\"),\n      caseSensitive: element.props.caseSensitive,\n      element: element.props.element,\n      Component: element.props.Component,\n      index: element.props.index,\n      path: element.props.path,\n      loader: element.props.loader,\n      action: element.props.action,\n      errorElement: element.props.errorElement,\n      ErrorBoundary: element.props.ErrorBoundary,\n      hasErrorBoundary: element.props.ErrorBoundary != null || element.props.errorElement != null,\n      shouldRevalidate: element.props.shouldRevalidate,\n      handle: element.props.handle,\n      lazy: element.props.lazy\n    };\n    if (element.props.children) {\n      route.children = createRoutesFromChildren(element.props.children, treePath);\n    }\n    routes.push(route);\n  });\n  return routes;\n}\n\n/**\n * Renders the result of `matchRoutes()` into a React element.\n */\nfunction renderMatches(matches) {\n  return _renderMatches(matches);\n}\n\nfunction mapRouteProperties(route) {\n  let updates = {\n    // Note: this check also occurs in createRoutesFromChildren so update\n    // there if you change this -- please and thank you!\n    hasErrorBoundary: route.ErrorBoundary != null || route.errorElement != null\n  };\n  if (route.Component) {\n    if (process.env.NODE_ENV !== \"production\") {\n      if (route.element) {\n        process.env.NODE_ENV !== \"production\" ? UNSAFE_warning(false, \"You should not include both `Component` and `element` on your route - \" + \"`Component` will be used.\") : void 0;\n      }\n    }\n    Object.assign(updates, {\n      element: /*#__PURE__*/React.createElement(route.Component),\n      Component: undefined\n    });\n  }\n  if (route.ErrorBoundary) {\n    if (process.env.NODE_ENV !== \"production\") {\n      if (route.errorElement) {\n        process.env.NODE_ENV !== \"production\" ? UNSAFE_warning(false, \"You should not include both `ErrorBoundary` and `errorElement` on your route - \" + \"`ErrorBoundary` will be used.\") : void 0;\n      }\n    }\n    Object.assign(updates, {\n      errorElement: /*#__PURE__*/React.createElement(route.ErrorBoundary),\n      ErrorBoundary: undefined\n    });\n  }\n  return updates;\n}\nfunction createMemoryRouter(routes, opts) {\n  return createRouter({\n    basename: opts == null ? void 0 : opts.basename,\n    future: _extends({}, opts == null ? void 0 : opts.future, {\n      v7_prependBasename: true\n    }),\n    history: createMemoryHistory({\n      initialEntries: opts == null ? void 0 : opts.initialEntries,\n      initialIndex: opts == null ? void 0 : opts.initialIndex\n    }),\n    hydrationData: opts == null ? void 0 : opts.hydrationData,\n    routes,\n    mapRouteProperties\n  }).initialize();\n}\n\nexport { Await, MemoryRouter, Navigate, Outlet, Route, Router, RouterProvider, Routes, DataRouterContext as UNSAFE_DataRouterContext, DataRouterStateContext as UNSAFE_DataRouterStateContext, LocationContext as UNSAFE_LocationContext, NavigationContext as UNSAFE_NavigationContext, RouteContext as UNSAFE_RouteContext, mapRouteProperties as UNSAFE_mapRouteProperties, useRouteId as UNSAFE_useRouteId, useRoutesImpl as UNSAFE_useRoutesImpl, createMemoryRouter, createRoutesFromChildren, createRoutesFromChildren as createRoutesFromElements, renderMatches, useBlocker as unstable_useBlocker, useActionData, useAsyncError, useAsyncValue, useHref, useInRouterContext, useLoaderData, useLocation, useMatch, useMatches, useNavigate, useNavigation, useNavigationType, useOutlet, useOutletContext, useParams, useResolvedPath, useRevalidator, useRouteError, useRouteLoaderData, useRoutes };\n//# sourceMappingURL=index.js.map\n","window.eve = require('eve')\n\n// Copyright (c) 2017 Adobe Systems Incorporated. All rights reserved.\n//\n// Licensed under the Apache License, Version 2.0 (the \"License\");\n// you may not use this file except in compliance with the License.\n// You may obtain a copy of the License at\n//\n// http://www.apache.org/licenses/LICENSE-2.0\n//\n// Unless required by applicable law or agreed to in writing, software\n// distributed under the License is distributed on an \"AS IS\" BASIS,\n// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.\n// See the License for the specific language governing permissions and\n// limitations under the License.\nvar mina = (function (eve) {\n    var animations = {},\n    requestAnimFrame = window.requestAnimationFrame       ||\n                       window.webkitRequestAnimationFrame ||\n                       window.mozRequestAnimationFrame    ||\n                       window.oRequestAnimationFrame      ||\n                       window.msRequestAnimationFrame     ||\n                       function (callback) {\n                           setTimeout(callback, 16, new Date().getTime());\n                           return true;\n                       },\n    requestID,\n    isArray = Array.isArray || function (a) {\n        return a instanceof Array ||\n            Object.prototype.toString.call(a) == \"[object Array]\";\n    },\n    idgen = 0,\n    idprefix = \"M\" + (+new Date).toString(36),\n    ID = function () {\n        return idprefix + (idgen++).toString(36);\n    },\n    diff = function (a, b, A, B) {\n        if (isArray(a)) {\n            res = [];\n            for (var i = 0, ii = a.length; i < ii; i++) {\n                res[i] = diff(a[i], b, A[i], B);\n            }\n            return res;\n        }\n        var dif = (A - a) / (B - b);\n        return function (bb) {\n            return a + dif * (bb - b);\n        };\n    },\n    timer = Date.now || function () {\n        return +new Date;\n    },\n    sta = function (val) {\n        var a = this;\n        if (val == null) {\n            return a.s;\n        }\n        var ds = a.s - val;\n        a.b += a.dur * ds;\n        a.B += a.dur * ds;\n        a.s = val;\n    },\n    speed = function (val) {\n        var a = this;\n        if (val == null) {\n            return a.spd;\n        }\n        a.spd = val;\n    },\n    duration = function (val) {\n        var a = this;\n        if (val == null) {\n            return a.dur;\n        }\n        a.s = a.s * val / a.dur;\n        a.dur = val;\n    },\n    stopit = function () {\n        var a = this;\n        delete animations[a.id];\n        a.update();\n        eve(\"mina.stop.\" + a.id, a);\n    },\n    pause = function () {\n        var a = this;\n        if (a.pdif) {\n            return;\n        }\n        delete animations[a.id];\n        a.update();\n        a.pdif = a.get() - a.b;\n    },\n    resume = function () {\n        var a = this;\n        if (!a.pdif) {\n            return;\n        }\n        a.b = a.get() - a.pdif;\n        delete a.pdif;\n        animations[a.id] = a;\n        frame();\n    },\n    update = function () {\n        var a = this,\n            res;\n        if (isArray(a.start)) {\n            res = [];\n            for (var j = 0, jj = a.start.length; j < jj; j++) {\n                res[j] = +a.start[j] +\n                    (a.end[j] - a.start[j]) * a.easing(a.s);\n            }\n        } else {\n            res = +a.start + (a.end - a.start) * a.easing(a.s);\n        }\n        a.set(res);\n    },\n    frame = function (timeStamp) {\n        // Manual invokation?\n        if (!timeStamp) {\n            // Frame loop stopped?\n            if (!requestID) {\n                // Start frame loop...\n                requestID = requestAnimFrame(frame);\n            }\n            return;\n        }\n        var len = 0;\n        for (var i in animations) if (animations.hasOwnProperty(i)) {\n            var a = animations[i],\n                b = a.get(),\n                res;\n            len++;\n            a.s = (b - a.b) / (a.dur / a.spd);\n            if (a.s >= 1) {\n                delete animations[i];\n                a.s = 1;\n                len--;\n                (function (a) {\n                    setTimeout(function () {\n                        eve(\"mina.finish.\" + a.id, a);\n                    });\n                }(a));\n            }\n            a.update();\n        }\n        requestID = len ? requestAnimFrame(frame) : false;\n    },\n    /*\\\n     * mina\n     [ method ]\n     **\n     * Generic animation of numbers\n     **\n     - a (number) start _slave_ number\n     - A (number) end _slave_ number\n     - b (number) start _master_ number (start time in general case)\n     - B (number) end _master_ number (end time in general case)\n     - get (function) getter of _master_ number (see @mina.time)\n     - set (function) setter of _slave_ number\n     - easing (function) #optional easing function, default is @mina.linear\n     = (object) animation descriptor\n     o {\n     o         id (string) animation id,\n     o         start (number) start _slave_ number,\n     o         end (number) end _slave_ number,\n     o         b (number) start _master_ number,\n     o         s (number) animation status (0..1),\n     o         dur (number) animation duration,\n     o         spd (number) animation speed,\n     o         get (function) getter of _master_ number (see @mina.time),\n     o         set (function) setter of _slave_ number,\n     o         easing (function) easing function, default is @mina.linear,\n     o         status (function) status getter/setter,\n     o         speed (function) speed getter/setter,\n     o         duration (function) duration getter/setter,\n     o         stop (function) animation stopper\n     o         pause (function) pauses the animation\n     o         resume (function) resumes the animation\n     o         update (function) calles setter with the right value of the animation\n     o }\n    \\*/\n    mina = function (a, A, b, B, get, set, easing) {\n        var anim = {\n            id: ID(),\n            start: a,\n            end: A,\n            b: b,\n            s: 0,\n            dur: B - b,\n            spd: 1,\n            get: get,\n            set: set,\n            easing: easing || mina.linear,\n            status: sta,\n            speed: speed,\n            duration: duration,\n            stop: stopit,\n            pause: pause,\n            resume: resume,\n            update: update\n        };\n        animations[anim.id] = anim;\n        var len = 0, i;\n        for (i in animations) if (animations.hasOwnProperty(i)) {\n            len++;\n            if (len == 2) {\n                break;\n            }\n        }\n        len == 1 && frame();\n        return anim;\n    };\n    /*\\\n     * mina.time\n     [ method ]\n     **\n     * Returns the current time. Equivalent to:\n     | function () {\n     |     return (new Date).getTime();\n     | }\n    \\*/\n    mina.time = timer;\n    /*\\\n     * mina.getById\n     [ method ]\n     **\n     * Returns an animation by its id\n     - id (string) animation's id\n     = (object) See @mina\n    \\*/\n    mina.getById = function (id) {\n        return animations[id] || null;\n    };\n\n    /*\\\n     * mina.linear\n     [ method ]\n     **\n     * Default linear easing\n     - n (number) input 0..1\n     = (number) output 0..1\n    \\*/\n    mina.linear = function (n) {\n        return n;\n    };\n    /*\\\n     * mina.easeout\n     [ method ]\n     **\n     * Easeout easing\n     - n (number) input 0..1\n     = (number) output 0..1\n    \\*/\n    mina.easeout = function (n) {\n        return Math.pow(n, 1.7);\n    };\n    /*\\\n     * mina.easein\n     [ method ]\n     **\n     * Easein easing\n     - n (number) input 0..1\n     = (number) output 0..1\n    \\*/\n    mina.easein = function (n) {\n        return Math.pow(n, .48);\n    };\n    /*\\\n     * mina.easeinout\n     [ method ]\n     **\n     * Easeinout easing\n     - n (number) input 0..1\n     = (number) output 0..1\n    \\*/\n    mina.easeinout = function (n) {\n        if (n == 1) {\n            return 1;\n        }\n        if (n == 0) {\n            return 0;\n        }\n        var q = .48 - n / 1.04,\n            Q = Math.sqrt(.1734 + q * q),\n            x = Q - q,\n            X = Math.pow(Math.abs(x), 1 / 3) * (x < 0 ? -1 : 1),\n            y = -Q - q,\n            Y = Math.pow(Math.abs(y), 1 / 3) * (y < 0 ? -1 : 1),\n            t = X + Y + .5;\n        return (1 - t) * 3 * t * t + t * t * t;\n    };\n    /*\\\n     * mina.backin\n     [ method ]\n     **\n     * Backin easing\n     - n (number) input 0..1\n     = (number) output 0..1\n    \\*/\n    mina.backin = function (n) {\n        if (n == 1) {\n            return 1;\n        }\n        var s = 1.70158;\n        return n * n * ((s + 1) * n - s);\n    };\n    /*\\\n     * mina.backout\n     [ method ]\n     **\n     * Backout easing\n     - n (number) input 0..1\n     = (number) output 0..1\n    \\*/\n    mina.backout = function (n) {\n        if (n == 0) {\n            return 0;\n        }\n        n = n - 1;\n        var s = 1.70158;\n        return n * n * ((s + 1) * n + s) + 1;\n    };\n    /*\\\n     * mina.elastic\n     [ method ]\n     **\n     * Elastic easing\n     - n (number) input 0..1\n     = (number) output 0..1\n    \\*/\n    mina.elastic = function (n) {\n        if (n == !!n) {\n            return n;\n        }\n        return Math.pow(2, -10 * n) * Math.sin((n - .075) *\n            (2 * Math.PI) / .3) + 1;\n    };\n    /*\\\n     * mina.bounce\n     [ method ]\n     **\n     * Bounce easing\n     - n (number) input 0..1\n     = (number) output 0..1\n    \\*/\n    mina.bounce = function (n) {\n        var s = 7.5625,\n            p = 2.75,\n            l;\n        if (n < 1 / p) {\n            l = s * n * n;\n        } else {\n            if (n < 2 / p) {\n                n -= 1.5 / p;\n                l = s * n * n + .75;\n            } else {\n                if (n < 2.5 / p) {\n                    n -= 2.25 / p;\n                    l = s * n * n + .9375;\n                } else {\n                    n -= 2.625 / p;\n                    l = s * n * n + .984375;\n                }\n            }\n        }\n        return l;\n    };\n    window.mina = mina;\n    return mina;\n})(typeof eve == \"undefined\" ? function () {} : eve);\n\n// Copyright (c) 2013 - 2017 Adobe Systems Incorporated. All rights reserved.\n//\n// Licensed under the Apache License, Version 2.0 (the \"License\");\n// you may not use this file except in compliance with the License.\n// You may obtain a copy of the License at\n//\n// http://www.apache.org/licenses/LICENSE-2.0\n//\n// Unless required by applicable law or agreed to in writing, software\n// distributed under the License is distributed on an \"AS IS\" BASIS,\n// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.\n// See the License for the specific language governing permissions and\n// limitations under the License.\n\nvar Snap = (function(root) {\nSnap.version = \"0.5.1\";\n/*\\\n * Snap\n [ method ]\n **\n * Creates a drawing surface or wraps existing SVG element.\n **\n - width (number|string) width of surface\n - height (number|string) height of surface\n * or\n - DOM (SVGElement) element to be wrapped into Snap structure\n * or\n - array (array) array of elements (will return set of elements)\n * or\n - query (string) CSS query selector\n = (object) @Element\n\\*/\nfunction Snap(w, h) {\n    if (w) {\n        if (w.nodeType) {\n            return wrap(w);\n        }\n        if (is(w, \"array\") && Snap.set) {\n            return Snap.set.apply(Snap, w);\n        }\n        if (w instanceof Element) {\n            return w;\n        }\n        if (h == null) {\n            try {\n                w = glob.doc.querySelector(String(w));\n                return wrap(w);\n            } catch (e) {\n                return null;\n            }\n        }\n    }\n    w = w == null ? \"100%\" : w;\n    h = h == null ? \"100%\" : h;\n    return new Paper(w, h);\n}\nSnap.toString = function () {\n    return \"Snap v\" + this.version;\n};\nSnap._ = {};\nvar glob = {\n    win: root.window,\n    doc: root.window.document\n};\nSnap._.glob = glob;\nvar has = \"hasOwnProperty\",\n    Str = String,\n    toFloat = parseFloat,\n    toInt = parseInt,\n    math = Math,\n    mmax = math.max,\n    mmin = math.min,\n    abs = math.abs,\n    pow = math.pow,\n    PI = math.PI,\n    round = math.round,\n    E = \"\",\n    S = \" \",\n    objectToString = Object.prototype.toString,\n    ISURL = /^url\\(['\"]?([^\\)]+?)['\"]?\\)$/i,\n    colourRegExp = /^\\s*((#[a-f\\d]{6})|(#[a-f\\d]{3})|rgba?\\(\\s*([\\d\\.]+%?\\s*,\\s*[\\d\\.]+%?\\s*,\\s*[\\d\\.]+%?(?:\\s*,\\s*[\\d\\.]+%?)?)\\s*\\)|hsba?\\(\\s*([\\d\\.]+(?:deg|\\xb0|%)?\\s*,\\s*[\\d\\.]+%?\\s*,\\s*[\\d\\.]+(?:%?\\s*,\\s*[\\d\\.]+)?%?)\\s*\\)|hsla?\\(\\s*([\\d\\.]+(?:deg|\\xb0|%)?\\s*,\\s*[\\d\\.]+%?\\s*,\\s*[\\d\\.]+(?:%?\\s*,\\s*[\\d\\.]+)?%?)\\s*\\))\\s*$/i,\n    bezierrg = /^(?:cubic-)?bezier\\(([^,]+),([^,]+),([^,]+),([^\\)]+)\\)/,\n    separator = Snap._.separator = /[,\\s]+/,\n    whitespace = /[\\s]/g,\n    commaSpaces = /[\\s]*,[\\s]*/,\n    hsrg = {hs: 1, rg: 1},\n    pathCommand = /([a-z])[\\s,]*((-?\\d*\\.?\\d*(?:e[\\-+]?\\d+)?[\\s]*,?[\\s]*)+)/ig,\n    tCommand = /([rstm])[\\s,]*((-?\\d*\\.?\\d*(?:e[\\-+]?\\d+)?[\\s]*,?[\\s]*)+)/ig,\n    pathValues = /(-?\\d*\\.?\\d*(?:e[\\-+]?\\d+)?)[\\s]*,?[\\s]*/ig,\n    idgen = 0,\n    idprefix = \"S\" + (+new Date).toString(36),\n    ID = function (el) {\n        return (el && el.type ? el.type : E) + idprefix + (idgen++).toString(36);\n    },\n    xlink = \"http://www.w3.org/1999/xlink\",\n    xmlns = \"http://www.w3.org/2000/svg\",\n    hub = {},\n    /*\\\n     * Snap.url\n     [ method ]\n     **\n     * Wraps path into `\"url('<path>')\"`.\n     - value (string) path\n     = (string) wrapped path\n    \\*/\n    URL = Snap.url = function (url) {\n        return \"url('#\" + url + \"')\";\n    };\n\nfunction $(el, attr) {\n    if (attr) {\n        if (el == \"#text\") {\n            el = glob.doc.createTextNode(attr.text || attr[\"#text\"] || \"\");\n        }\n        if (el == \"#comment\") {\n            el = glob.doc.createComment(attr.text || attr[\"#text\"] || \"\");\n        }\n        if (typeof el == \"string\") {\n            el = $(el);\n        }\n        if (typeof attr == \"string\") {\n            if (el.nodeType == 1) {\n                if (attr.substring(0, 6) == \"xlink:\") {\n                    return el.getAttributeNS(xlink, attr.substring(6));\n                }\n                if (attr.substring(0, 4) == \"xml:\") {\n                    return el.getAttributeNS(xmlns, attr.substring(4));\n                }\n                return el.getAttribute(attr);\n            } else if (attr == \"text\") {\n                return el.nodeValue;\n            } else {\n                return null;\n            }\n        }\n        if (el.nodeType == 1) {\n            for (var key in attr) if (attr[has](key)) {\n                var val = Str(attr[key]);\n                if (val) {\n                    if (key.substring(0, 6) == \"xlink:\") {\n                        el.setAttributeNS(xlink, key.substring(6), val);\n                    } else if (key.substring(0, 4) == \"xml:\") {\n                        el.setAttributeNS(xmlns, key.substring(4), val);\n                    } else {\n                        el.setAttribute(key, val);\n                    }\n                } else {\n                    el.removeAttribute(key);\n                }\n            }\n        } else if (\"text\" in attr) {\n            el.nodeValue = attr.text;\n        }\n    } else {\n        el = glob.doc.createElementNS(xmlns, el);\n    }\n    return el;\n}\nSnap._.$ = $;\nSnap._.id = ID;\nfunction getAttrs(el) {\n    var attrs = el.attributes,\n        name,\n        out = {};\n    for (var i = 0; i < attrs.length; i++) {\n        if (attrs[i].namespaceURI == xlink) {\n            name = \"xlink:\";\n        } else {\n            name = \"\";\n        }\n        name += attrs[i].name;\n        out[name] = attrs[i].textContent;\n    }\n    return out;\n}\nfunction is(o, type) {\n    type = Str.prototype.toLowerCase.call(type);\n    if (type == \"finite\") {\n        return isFinite(o);\n    }\n    if (type == \"array\" &&\n        (o instanceof Array || Array.isArray && Array.isArray(o))) {\n        return true;\n    }\n    return  type == \"null\" && o === null ||\n            type == typeof o && o !== null ||\n            type == \"object\" && o === Object(o) ||\n            objectToString.call(o).slice(8, -1).toLowerCase() == type;\n}\n/*\\\n * Snap.format\n [ method ]\n **\n * Replaces construction of type `{<name>}` to the corresponding argument\n **\n - token (string) string to format\n - json (object) object which properties are used as a replacement\n = (string) formatted string\n > Usage\n | // this draws a rectangular shape equivalent to \"M10,20h40v50h-40z\"\n | paper.path(Snap.format(\"M{x},{y}h{dim.width}v{dim.height}h{dim['negative width']}z\", {\n |     x: 10,\n |     y: 20,\n |     dim: {\n |         width: 40,\n |         height: 50,\n |         \"negative width\": -40\n |     }\n | }));\n\\*/\nSnap.format = (function () {\n    var tokenRegex = /\\{([^\\}]+)\\}/g,\n        objNotationRegex = /(?:(?:^|\\.)(.+?)(?=\\[|\\.|$|\\()|\\[('|\")(.+?)\\2\\])(\\(\\))?/g, // matches .xxxxx or [\"xxxxx\"] to run over object properties\n        replacer = function (all, key, obj) {\n            var res = obj;\n            key.replace(objNotationRegex, function (all, name, quote, quotedName, isFunc) {\n                name = name || quotedName;\n                if (res) {\n                    if (name in res) {\n                        res = res[name];\n                    }\n                    typeof res == \"function\" && isFunc && (res = res());\n                }\n            });\n            res = (res == null || res == obj ? all : res) + \"\";\n            return res;\n        };\n    return function (str, obj) {\n        return Str(str).replace(tokenRegex, function (all, key) {\n            return replacer(all, key, obj);\n        });\n    };\n})();\nfunction clone(obj) {\n    if (typeof obj == \"function\" || Object(obj) !== obj) {\n        return obj;\n    }\n    var res = new obj.constructor;\n    for (var key in obj) if (obj[has](key)) {\n        res[key] = clone(obj[key]);\n    }\n    return res;\n}\nSnap._.clone = clone;\nfunction repush(array, item) {\n    for (var i = 0, ii = array.length; i < ii; i++) if (array[i] === item) {\n        return array.push(array.splice(i, 1)[0]);\n    }\n}\nfunction cacher(f, scope, postprocessor) {\n    function newf() {\n        var arg = Array.prototype.slice.call(arguments, 0),\n            args = arg.join(\"\\u2400\"),\n            cache = newf.cache = newf.cache || {},\n            count = newf.count = newf.count || [];\n        if (cache[has](args)) {\n            repush(count, args);\n            return postprocessor ? postprocessor(cache[args]) : cache[args];\n        }\n        count.length >= 1e3 && delete cache[count.shift()];\n        count.push(args);\n        cache[args] = f.apply(scope, arg);\n        return postprocessor ? postprocessor(cache[args]) : cache[args];\n    }\n    return newf;\n}\nSnap._.cacher = cacher;\nfunction angle(x1, y1, x2, y2, x3, y3) {\n    if (x3 == null) {\n        var x = x1 - x2,\n            y = y1 - y2;\n        if (!x && !y) {\n            return 0;\n        }\n        return (180 + math.atan2(-y, -x) * 180 / PI + 360) % 360;\n    } else {\n        return angle(x1, y1, x3, y3) - angle(x2, y2, x3, y3);\n    }\n}\nfunction rad(deg) {\n    return deg % 360 * PI / 180;\n}\nfunction deg(rad) {\n    return rad * 180 / PI % 360;\n}\nfunction x_y() {\n    return this.x + S + this.y;\n}\nfunction x_y_w_h() {\n    return this.x + S + this.y + S + this.width + \" \\xd7 \" + this.height;\n}\n\n/*\\\n * Snap.rad\n [ method ]\n **\n * Transform angle to radians\n - deg (number) angle in degrees\n = (number) angle in radians\n\\*/\nSnap.rad = rad;\n/*\\\n * Snap.deg\n [ method ]\n **\n * Transform angle to degrees\n - rad (number) angle in radians\n = (number) angle in degrees\n\\*/\nSnap.deg = deg;\n/*\\\n * Snap.sin\n [ method ]\n **\n * Equivalent to `Math.sin()` only works with degrees, not radians.\n - angle (number) angle in degrees\n = (number) sin\n\\*/\nSnap.sin = function (angle) {\n    return math.sin(Snap.rad(angle));\n};\n/*\\\n * Snap.tan\n [ method ]\n **\n * Equivalent to `Math.tan()` only works with degrees, not radians.\n - angle (number) angle in degrees\n = (number) tan\n\\*/\nSnap.tan = function (angle) {\n    return math.tan(Snap.rad(angle));\n};\n/*\\\n * Snap.cos\n [ method ]\n **\n * Equivalent to `Math.cos()` only works with degrees, not radians.\n - angle (number) angle in degrees\n = (number) cos\n\\*/\nSnap.cos = function (angle) {\n    return math.cos(Snap.rad(angle));\n};\n/*\\\n * Snap.asin\n [ method ]\n **\n * Equivalent to `Math.asin()` only works with degrees, not radians.\n - num (number) value\n = (number) asin in degrees\n\\*/\nSnap.asin = function (num) {\n    return Snap.deg(math.asin(num));\n};\n/*\\\n * Snap.acos\n [ method ]\n **\n * Equivalent to `Math.acos()` only works with degrees, not radians.\n - num (number) value\n = (number) acos in degrees\n\\*/\nSnap.acos = function (num) {\n    return Snap.deg(math.acos(num));\n};\n/*\\\n * Snap.atan\n [ method ]\n **\n * Equivalent to `Math.atan()` only works with degrees, not radians.\n - num (number) value\n = (number) atan in degrees\n\\*/\nSnap.atan = function (num) {\n    return Snap.deg(math.atan(num));\n};\n/*\\\n * Snap.atan2\n [ method ]\n **\n * Equivalent to `Math.atan2()` only works with degrees, not radians.\n - num (number) value\n = (number) atan2 in degrees\n\\*/\nSnap.atan2 = function (num) {\n    return Snap.deg(math.atan2(num));\n};\n/*\\\n * Snap.angle\n [ method ]\n **\n * Returns an angle between two or three points\n - x1 (number) x coord of first point\n - y1 (number) y coord of first point\n - x2 (number) x coord of second point\n - y2 (number) y coord of second point\n - x3 (number) #optional x coord of third point\n - y3 (number) #optional y coord of third point\n = (number) angle in degrees\n\\*/\nSnap.angle = angle;\n/*\\\n * Snap.len\n [ method ]\n **\n * Returns distance between two points\n - x1 (number) x coord of first point\n - y1 (number) y coord of first point\n - x2 (number) x coord of second point\n - y2 (number) y coord of second point\n = (number) distance\n\\*/\nSnap.len = function (x1, y1, x2, y2) {\n    return Math.sqrt(Snap.len2(x1, y1, x2, y2));\n};\n/*\\\n * Snap.len2\n [ method ]\n **\n * Returns squared distance between two points\n - x1 (number) x coord of first point\n - y1 (number) y coord of first point\n - x2 (number) x coord of second point\n - y2 (number) y coord of second point\n = (number) distance\n\\*/\nSnap.len2 = function (x1, y1, x2, y2) {\n    return (x1 - x2) * (x1 - x2) + (y1 - y2) * (y1 - y2);\n};\n/*\\\n * Snap.closestPoint\n [ method ]\n **\n * Returns closest point to a given one on a given path.\n - path (Element) path element\n - x (number) x coord of a point\n - y (number) y coord of a point\n = (object) in format\n {\n    x (number) x coord of the point on the path\n    y (number) y coord of the point on the path\n    length (number) length of the path to the point\n    distance (number) distance from the given point to the path\n }\n\\*/\n// Copied from http://bl.ocks.org/mbostock/8027637\nSnap.closestPoint = function (path, x, y) {\n    function distance2(p) {\n        var dx = p.x - x,\n            dy = p.y - y;\n        return dx * dx + dy * dy;\n    }\n    var pathNode = path.node,\n        pathLength = pathNode.getTotalLength(),\n        precision = pathLength / pathNode.pathSegList.numberOfItems * .125,\n        best,\n        bestLength,\n        bestDistance = Infinity;\n\n    // linear scan for coarse approximation\n    for (var scan, scanLength = 0, scanDistance; scanLength <= pathLength; scanLength += precision) {\n        if ((scanDistance = distance2(scan = pathNode.getPointAtLength(scanLength))) < bestDistance) {\n            best = scan;\n            bestLength = scanLength;\n            bestDistance = scanDistance;\n        }\n    }\n\n    // binary search for precise estimate\n    precision *= .5;\n    while (precision > .5) {\n        var before,\n            after,\n            beforeLength,\n            afterLength,\n            beforeDistance,\n            afterDistance;\n        if ((beforeLength = bestLength - precision) >= 0 && (beforeDistance = distance2(before = pathNode.getPointAtLength(beforeLength))) < bestDistance) {\n            best = before;\n            bestLength = beforeLength;\n            bestDistance = beforeDistance;\n        } else if ((afterLength = bestLength + precision) <= pathLength && (afterDistance = distance2(after = pathNode.getPointAtLength(afterLength))) < bestDistance) {\n            best = after;\n            bestLength = afterLength;\n            bestDistance = afterDistance;\n        } else {\n            precision *= .5;\n        }\n    }\n\n    best = {\n        x: best.x,\n        y: best.y,\n        length: bestLength,\n        distance: Math.sqrt(bestDistance)\n    };\n    return best;\n}\n/*\\\n * Snap.is\n [ method ]\n **\n * Handy replacement for the `typeof` operator\n - o (…) any object or primitive\n - type (string) name of the type, e.g., `string`, `function`, `number`, etc.\n = (boolean) `true` if given value is of given type\n\\*/\nSnap.is = is;\n/*\\\n * Snap.snapTo\n [ method ]\n **\n * Snaps given value to given grid\n - values (array|number) given array of values or step of the grid\n - value (number) value to adjust\n - tolerance (number) #optional maximum distance to the target value that would trigger the snap. Default is `10`.\n = (number) adjusted value\n\\*/\nSnap.snapTo = function (values, value, tolerance) {\n    tolerance = is(tolerance, \"finite\") ? tolerance : 10;\n    if (is(values, \"array\")) {\n        var i = values.length;\n        while (i--) if (abs(values[i] - value) <= tolerance) {\n            return values[i];\n        }\n    } else {\n        values = +values;\n        var rem = value % values;\n        if (rem < tolerance) {\n            return value - rem;\n        }\n        if (rem > values - tolerance) {\n            return value - rem + values;\n        }\n    }\n    return value;\n};\n// Colour\n/*\\\n * Snap.getRGB\n [ method ]\n **\n * Parses color string as RGB object\n - color (string) color string in one of the following formats:\n # <ul>\n #     <li>Color name (<code>red</code>, <code>green</code>, <code>cornflowerblue</code>, etc)</li>\n #     <li>#••• — shortened HTML color: (<code>#000</code>, <code>#fc0</code>, etc.)</li>\n #     <li>#•••••• — full length HTML color: (<code>#000000</code>, <code>#bd2300</code>)</li>\n #     <li>rgb(•••, •••, •••) — red, green and blue channels values: (<code>rgb(200,&nbsp;100,&nbsp;0)</code>)</li>\n #     <li>rgba(•••, •••, •••, •••) — also with opacity</li>\n #     <li>rgb(•••%, •••%, •••%) — same as above, but in %: (<code>rgb(100%,&nbsp;175%,&nbsp;0%)</code>)</li>\n #     <li>rgba(•••%, •••%, •••%, •••%) — also with opacity</li>\n #     <li>hsb(•••, •••, •••) — hue, saturation and brightness values: (<code>hsb(0.5,&nbsp;0.25,&nbsp;1)</code>)</li>\n #     <li>hsba(•••, •••, •••, •••) — also with opacity</li>\n #     <li>hsb(•••%, •••%, •••%) — same as above, but in %</li>\n #     <li>hsba(•••%, •••%, •••%, •••%) — also with opacity</li>\n #     <li>hsl(•••, •••, •••) — hue, saturation and luminosity values: (<code>hsb(0.5,&nbsp;0.25,&nbsp;0.5)</code>)</li>\n #     <li>hsla(•••, •••, •••, •••) — also with opacity</li>\n #     <li>hsl(•••%, •••%, •••%) — same as above, but in %</li>\n #     <li>hsla(•••%, •••%, •••%, •••%) — also with opacity</li>\n # </ul>\n * Note that `%` can be used any time: `rgb(20%, 255, 50%)`.\n = (object) RGB object in the following format:\n o {\n o     r (number) red,\n o     g (number) green,\n o     b (number) blue,\n o     hex (string) color in HTML/CSS format: #••••••,\n o     error (boolean) true if string can't be parsed\n o }\n\\*/\nSnap.getRGB = cacher(function (colour) {\n    if (!colour || !!((colour = Str(colour)).indexOf(\"-\") + 1)) {\n        return {r: -1, g: -1, b: -1, hex: \"none\", error: 1, toString: rgbtoString};\n    }\n    if (colour == \"none\") {\n        return {r: -1, g: -1, b: -1, hex: \"none\", toString: rgbtoString};\n    }\n    !(hsrg[has](colour.toLowerCase().substring(0, 2)) || colour.charAt() == \"#\") && (colour = toHex(colour));\n    if (!colour) {\n        return {r: -1, g: -1, b: -1, hex: \"none\", error: 1, toString: rgbtoString};\n    }\n    var res,\n        red,\n        green,\n        blue,\n        opacity,\n        t,\n        values,\n        rgb = colour.match(colourRegExp);\n    if (rgb) {\n        if (rgb[2]) {\n            blue = toInt(rgb[2].substring(5), 16);\n            green = toInt(rgb[2].substring(3, 5), 16);\n            red = toInt(rgb[2].substring(1, 3), 16);\n        }\n        if (rgb[3]) {\n            blue = toInt((t = rgb[3].charAt(3)) + t, 16);\n            green = toInt((t = rgb[3].charAt(2)) + t, 16);\n            red = toInt((t = rgb[3].charAt(1)) + t, 16);\n        }\n        if (rgb[4]) {\n            values = rgb[4].split(commaSpaces);\n            red = toFloat(values[0]);\n            values[0].slice(-1) == \"%\" && (red *= 2.55);\n            green = toFloat(values[1]);\n            values[1].slice(-1) == \"%\" && (green *= 2.55);\n            blue = toFloat(values[2]);\n            values[2].slice(-1) == \"%\" && (blue *= 2.55);\n            rgb[1].toLowerCase().slice(0, 4) == \"rgba\" && (opacity = toFloat(values[3]));\n            values[3] && values[3].slice(-1) == \"%\" && (opacity /= 100);\n        }\n        if (rgb[5]) {\n            values = rgb[5].split(commaSpaces);\n            red = toFloat(values[0]);\n            values[0].slice(-1) == \"%\" && (red /= 100);\n            green = toFloat(values[1]);\n            values[1].slice(-1) == \"%\" && (green /= 100);\n            blue = toFloat(values[2]);\n            values[2].slice(-1) == \"%\" && (blue /= 100);\n            (values[0].slice(-3) == \"deg\" || values[0].slice(-1) == \"\\xb0\") && (red /= 360);\n            rgb[1].toLowerCase().slice(0, 4) == \"hsba\" && (opacity = toFloat(values[3]));\n            values[3] && values[3].slice(-1) == \"%\" && (opacity /= 100);\n            return Snap.hsb2rgb(red, green, blue, opacity);\n        }\n        if (rgb[6]) {\n            values = rgb[6].split(commaSpaces);\n            red = toFloat(values[0]);\n            values[0].slice(-1) == \"%\" && (red /= 100);\n            green = toFloat(values[1]);\n            values[1].slice(-1) == \"%\" && (green /= 100);\n            blue = toFloat(values[2]);\n            values[2].slice(-1) == \"%\" && (blue /= 100);\n            (values[0].slice(-3) == \"deg\" || values[0].slice(-1) == \"\\xb0\") && (red /= 360);\n            rgb[1].toLowerCase().slice(0, 4) == \"hsla\" && (opacity = toFloat(values[3]));\n            values[3] && values[3].slice(-1) == \"%\" && (opacity /= 100);\n            return Snap.hsl2rgb(red, green, blue, opacity);\n        }\n        red = mmin(math.round(red), 255);\n        green = mmin(math.round(green), 255);\n        blue = mmin(math.round(blue), 255);\n        opacity = mmin(mmax(opacity, 0), 1);\n        rgb = {r: red, g: green, b: blue, toString: rgbtoString};\n        rgb.hex = \"#\" + (16777216 | blue | green << 8 | red << 16).toString(16).slice(1);\n        rgb.opacity = is(opacity, \"finite\") ? opacity : 1;\n        return rgb;\n    }\n    return {r: -1, g: -1, b: -1, hex: \"none\", error: 1, toString: rgbtoString};\n}, Snap);\n/*\\\n * Snap.hsb\n [ method ]\n **\n * Converts HSB values to a hex representation of the color\n - h (number) hue\n - s (number) saturation\n - b (number) value or brightness\n = (string) hex representation of the color\n\\*/\nSnap.hsb = cacher(function (h, s, b) {\n    return Snap.hsb2rgb(h, s, b).hex;\n});\n/*\\\n * Snap.hsl\n [ method ]\n **\n * Converts HSL values to a hex representation of the color\n - h (number) hue\n - s (number) saturation\n - l (number) luminosity\n = (string) hex representation of the color\n\\*/\nSnap.hsl = cacher(function (h, s, l) {\n    return Snap.hsl2rgb(h, s, l).hex;\n});\n/*\\\n * Snap.rgb\n [ method ]\n **\n * Converts RGB values to a hex representation of the color\n - r (number) red\n - g (number) green\n - b (number) blue\n = (string) hex representation of the color\n\\*/\nSnap.rgb = cacher(function (r, g, b, o) {\n    if (is(o, \"finite\")) {\n        var round = math.round;\n        return \"rgba(\" + [round(r), round(g), round(b), +o.toFixed(2)] + \")\";\n    }\n    return \"#\" + (16777216 | b | g << 8 | r << 16).toString(16).slice(1);\n});\nvar toHex = function (color) {\n    var i = glob.doc.getElementsByTagName(\"head\")[0] || glob.doc.getElementsByTagName(\"svg\")[0],\n        red = \"rgb(255, 0, 0)\";\n    toHex = cacher(function (color) {\n        if (color.toLowerCase() == \"red\") {\n            return red;\n        }\n        i.style.color = red;\n        i.style.color = color;\n        var out = glob.doc.defaultView.getComputedStyle(i, E).getPropertyValue(\"color\");\n        return out == red ? null : out;\n    });\n    return toHex(color);\n},\nhsbtoString = function () {\n    return \"hsb(\" + [this.h, this.s, this.b] + \")\";\n},\nhsltoString = function () {\n    return \"hsl(\" + [this.h, this.s, this.l] + \")\";\n},\nrgbtoString = function () {\n    return this.opacity == 1 || this.opacity == null ?\n            this.hex :\n            \"rgba(\" + [this.r, this.g, this.b, this.opacity] + \")\";\n},\nprepareRGB = function (r, g, b) {\n    if (g == null && is(r, \"object\") && \"r\" in r && \"g\" in r && \"b\" in r) {\n        b = r.b;\n        g = r.g;\n        r = r.r;\n    }\n    if (g == null && is(r, string)) {\n        var clr = Snap.getRGB(r);\n        r = clr.r;\n        g = clr.g;\n        b = clr.b;\n    }\n    if (r > 1 || g > 1 || b > 1) {\n        r /= 255;\n        g /= 255;\n        b /= 255;\n    }\n\n    return [r, g, b];\n},\npackageRGB = function (r, g, b, o) {\n    r = math.round(r * 255);\n    g = math.round(g * 255);\n    b = math.round(b * 255);\n    var rgb = {\n        r: r,\n        g: g,\n        b: b,\n        opacity: is(o, \"finite\") ? o : 1,\n        hex: Snap.rgb(r, g, b),\n        toString: rgbtoString\n    };\n    is(o, \"finite\") && (rgb.opacity = o);\n    return rgb;\n};\n/*\\\n * Snap.color\n [ method ]\n **\n * Parses the color string and returns an object featuring the color's component values\n - clr (string) color string in one of the supported formats (see @Snap.getRGB)\n = (object) Combined RGB/HSB object in the following format:\n o {\n o     r (number) red,\n o     g (number) green,\n o     b (number) blue,\n o     hex (string) color in HTML/CSS format: #••••••,\n o     error (boolean) `true` if string can't be parsed,\n o     h (number) hue,\n o     s (number) saturation,\n o     v (number) value (brightness),\n o     l (number) lightness\n o }\n\\*/\nSnap.color = function (clr) {\n    var rgb;\n    if (is(clr, \"object\") && \"h\" in clr && \"s\" in clr && \"b\" in clr) {\n        rgb = Snap.hsb2rgb(clr);\n        clr.r = rgb.r;\n        clr.g = rgb.g;\n        clr.b = rgb.b;\n        clr.opacity = 1;\n        clr.hex = rgb.hex;\n    } else if (is(clr, \"object\") && \"h\" in clr && \"s\" in clr && \"l\" in clr) {\n        rgb = Snap.hsl2rgb(clr);\n        clr.r = rgb.r;\n        clr.g = rgb.g;\n        clr.b = rgb.b;\n        clr.opacity = 1;\n        clr.hex = rgb.hex;\n    } else {\n        if (is(clr, \"string\")) {\n            clr = Snap.getRGB(clr);\n        }\n        if (is(clr, \"object\") && \"r\" in clr && \"g\" in clr && \"b\" in clr && !(\"error\" in clr)) {\n            rgb = Snap.rgb2hsl(clr);\n            clr.h = rgb.h;\n            clr.s = rgb.s;\n            clr.l = rgb.l;\n            rgb = Snap.rgb2hsb(clr);\n            clr.v = rgb.b;\n        } else {\n            clr = {hex: \"none\"};\n            clr.r = clr.g = clr.b = clr.h = clr.s = clr.v = clr.l = -1;\n            clr.error = 1;\n        }\n    }\n    clr.toString = rgbtoString;\n    return clr;\n};\n/*\\\n * Snap.hsb2rgb\n [ method ]\n **\n * Converts HSB values to an RGB object\n - h (number) hue\n - s (number) saturation\n - v (number) value or brightness\n = (object) RGB object in the following format:\n o {\n o     r (number) red,\n o     g (number) green,\n o     b (number) blue,\n o     hex (string) color in HTML/CSS format: #••••••\n o }\n\\*/\nSnap.hsb2rgb = function (h, s, v, o) {\n    if (is(h, \"object\") && \"h\" in h && \"s\" in h && \"b\" in h) {\n        v = h.b;\n        s = h.s;\n        o = h.o;\n        h = h.h;\n    }\n    h *= 360;\n    var R, G, B, X, C;\n    h = h % 360 / 60;\n    C = v * s;\n    X = C * (1 - abs(h % 2 - 1));\n    R = G = B = v - C;\n\n    h = ~~h;\n    R += [C, X, 0, 0, X, C][h];\n    G += [X, C, C, X, 0, 0][h];\n    B += [0, 0, X, C, C, X][h];\n    return packageRGB(R, G, B, o);\n};\n/*\\\n * Snap.hsl2rgb\n [ method ]\n **\n * Converts HSL values to an RGB object\n - h (number) hue\n - s (number) saturation\n - l (number) luminosity\n = (object) RGB object in the following format:\n o {\n o     r (number) red,\n o     g (number) green,\n o     b (number) blue,\n o     hex (string) color in HTML/CSS format: #••••••\n o }\n\\*/\nSnap.hsl2rgb = function (h, s, l, o) {\n    if (is(h, \"object\") && \"h\" in h && \"s\" in h && \"l\" in h) {\n        l = h.l;\n        s = h.s;\n        h = h.h;\n    }\n    if (h > 1 || s > 1 || l > 1) {\n        h /= 360;\n        s /= 100;\n        l /= 100;\n    }\n    h *= 360;\n    var R, G, B, X, C;\n    h = h % 360 / 60;\n    C = 2 * s * (l < .5 ? l : 1 - l);\n    X = C * (1 - abs(h % 2 - 1));\n    R = G = B = l - C / 2;\n\n    h = ~~h;\n    R += [C, X, 0, 0, X, C][h];\n    G += [X, C, C, X, 0, 0][h];\n    B += [0, 0, X, C, C, X][h];\n    return packageRGB(R, G, B, o);\n};\n/*\\\n * Snap.rgb2hsb\n [ method ]\n **\n * Converts RGB values to an HSB object\n - r (number) red\n - g (number) green\n - b (number) blue\n = (object) HSB object in the following format:\n o {\n o     h (number) hue,\n o     s (number) saturation,\n o     b (number) brightness\n o }\n\\*/\nSnap.rgb2hsb = function (r, g, b) {\n    b = prepareRGB(r, g, b);\n    r = b[0];\n    g = b[1];\n    b = b[2];\n\n    var H, S, V, C;\n    V = mmax(r, g, b);\n    C = V - mmin(r, g, b);\n    H = C == 0 ? null :\n        V == r ? (g - b) / C :\n        V == g ? (b - r) / C + 2 :\n                 (r - g) / C + 4;\n    H = (H + 360) % 6 * 60 / 360;\n    S = C == 0 ? 0 : C / V;\n    return {h: H, s: S, b: V, toString: hsbtoString};\n};\n/*\\\n * Snap.rgb2hsl\n [ method ]\n **\n * Converts RGB values to an HSL object\n - r (number) red\n - g (number) green\n - b (number) blue\n = (object) HSL object in the following format:\n o {\n o     h (number) hue,\n o     s (number) saturation,\n o     l (number) luminosity\n o }\n\\*/\nSnap.rgb2hsl = function (r, g, b) {\n    b = prepareRGB(r, g, b);\n    r = b[0];\n    g = b[1];\n    b = b[2];\n\n    var H, S, L, M, m, C;\n    M = mmax(r, g, b);\n    m = mmin(r, g, b);\n    C = M - m;\n    H = C == 0 ? null :\n        M == r ? (g - b) / C :\n        M == g ? (b - r) / C + 2 :\n                 (r - g) / C + 4;\n    H = (H + 360) % 6 * 60 / 360;\n    L = (M + m) / 2;\n    S = C == 0 ? 0 :\n         L < .5 ? C / (2 * L) :\n                  C / (2 - 2 * L);\n    return {h: H, s: S, l: L, toString: hsltoString};\n};\n\n// Transformations\n/*\\\n * Snap.parsePathString\n [ method ]\n **\n * Utility method\n **\n * Parses given path string into an array of arrays of path segments\n - pathString (string|array) path string or array of segments (in the last case it is returned straight away)\n = (array) array of segments\n\\*/\nSnap.parsePathString = function (pathString) {\n    if (!pathString) {\n        return null;\n    }\n    var pth = Snap.path(pathString);\n    if (pth.arr) {\n        return Snap.path.clone(pth.arr);\n    }\n\n    var paramCounts = {a: 7, c: 6, o: 2, h: 1, l: 2, m: 2, r: 4, q: 4, s: 4, t: 2, v: 1, u: 3, z: 0},\n        data = [];\n    if (is(pathString, \"array\") && is(pathString[0], \"array\")) { // rough assumption\n        data = Snap.path.clone(pathString);\n    }\n    if (!data.length) {\n        Str(pathString).replace(pathCommand, function (a, b, c) {\n            var params = [],\n                name = b.toLowerCase();\n            c.replace(pathValues, function (a, b) {\n                b && params.push(+b);\n            });\n            if (name == \"m\" && params.length > 2) {\n                data.push([b].concat(params.splice(0, 2)));\n                name = \"l\";\n                b = b == \"m\" ? \"l\" : \"L\";\n            }\n            if (name == \"o\" && params.length == 1) {\n                data.push([b, params[0]]);\n            }\n            if (name == \"r\") {\n                data.push([b].concat(params));\n            } else while (params.length >= paramCounts[name]) {\n                data.push([b].concat(params.splice(0, paramCounts[name])));\n                if (!paramCounts[name]) {\n                    break;\n                }\n            }\n        });\n    }\n    data.toString = Snap.path.toString;\n    pth.arr = Snap.path.clone(data);\n    return data;\n};\n/*\\\n * Snap.parseTransformString\n [ method ]\n **\n * Utility method\n **\n * Parses given transform string into an array of transformations\n - TString (string|array) transform string or array of transformations (in the last case it is returned straight away)\n = (array) array of transformations\n\\*/\nvar parseTransformString = Snap.parseTransformString = function (TString) {\n    if (!TString) {\n        return null;\n    }\n    var paramCounts = {r: 3, s: 4, t: 2, m: 6},\n        data = [];\n    if (is(TString, \"array\") && is(TString[0], \"array\")) { // rough assumption\n        data = Snap.path.clone(TString);\n    }\n    if (!data.length) {\n        Str(TString).replace(tCommand, function (a, b, c) {\n            var params = [],\n                name = b.toLowerCase();\n            c.replace(pathValues, function (a, b) {\n                b && params.push(+b);\n            });\n            data.push([b].concat(params));\n        });\n    }\n    data.toString = Snap.path.toString;\n    return data;\n};\nfunction svgTransform2string(tstr) {\n    var res = [];\n    tstr = tstr.replace(/(?:^|\\s)(\\w+)\\(([^)]+)\\)/g, function (all, name, params) {\n        params = params.split(/\\s*,\\s*|\\s+/);\n        if (name == \"rotate\" && params.length == 1) {\n            params.push(0, 0);\n        }\n        if (name == \"scale\") {\n            if (params.length > 2) {\n                params = params.slice(0, 2);\n            } else if (params.length == 2) {\n                params.push(0, 0);\n            }\n            if (params.length == 1) {\n                params.push(params[0], 0, 0);\n            }\n        }\n        if (name == \"skewX\") {\n            res.push([\"m\", 1, 0, math.tan(rad(params[0])), 1, 0, 0]);\n        } else if (name == \"skewY\") {\n            res.push([\"m\", 1, math.tan(rad(params[0])), 0, 1, 0, 0]);\n        } else {\n            res.push([name.charAt(0)].concat(params));\n        }\n        return all;\n    });\n    return res;\n}\nSnap._.svgTransform2string = svgTransform2string;\nSnap._.rgTransform = /^[a-z][\\s]*-?\\.?\\d/i;\nfunction transform2matrix(tstr, bbox) {\n    var tdata = parseTransformString(tstr),\n        m = new Snap.Matrix;\n    if (tdata) {\n        for (var i = 0, ii = tdata.length; i < ii; i++) {\n            var t = tdata[i],\n                tlen = t.length,\n                command = Str(t[0]).toLowerCase(),\n                absolute = t[0] != command,\n                inver = absolute ? m.invert() : 0,\n                x1,\n                y1,\n                x2,\n                y2,\n                bb;\n            if (command == \"t\" && tlen == 2){\n                m.translate(t[1], 0);\n            } else if (command == \"t\" && tlen == 3) {\n                if (absolute) {\n                    x1 = inver.x(0, 0);\n                    y1 = inver.y(0, 0);\n                    x2 = inver.x(t[1], t[2]);\n                    y2 = inver.y(t[1], t[2]);\n                    m.translate(x2 - x1, y2 - y1);\n                } else {\n                    m.translate(t[1], t[2]);\n                }\n            } else if (command == \"r\") {\n                if (tlen == 2) {\n                    bb = bb || bbox;\n                    m.rotate(t[1], bb.x + bb.width / 2, bb.y + bb.height / 2);\n                } else if (tlen == 4) {\n                    if (absolute) {\n                        x2 = inver.x(t[2], t[3]);\n                        y2 = inver.y(t[2], t[3]);\n                        m.rotate(t[1], x2, y2);\n                    } else {\n                        m.rotate(t[1], t[2], t[3]);\n                    }\n                }\n            } else if (command == \"s\") {\n                if (tlen == 2 || tlen == 3) {\n                    bb = bb || bbox;\n                    m.scale(t[1], t[tlen - 1], bb.x + bb.width / 2, bb.y + bb.height / 2);\n                } else if (tlen == 4) {\n                    if (absolute) {\n                        x2 = inver.x(t[2], t[3]);\n                        y2 = inver.y(t[2], t[3]);\n                        m.scale(t[1], t[1], x2, y2);\n                    } else {\n                        m.scale(t[1], t[1], t[2], t[3]);\n                    }\n                } else if (tlen == 5) {\n                    if (absolute) {\n                        x2 = inver.x(t[3], t[4]);\n                        y2 = inver.y(t[3], t[4]);\n                        m.scale(t[1], t[2], x2, y2);\n                    } else {\n                        m.scale(t[1], t[2], t[3], t[4]);\n                    }\n                }\n            } else if (command == \"m\" && tlen == 7) {\n                m.add(t[1], t[2], t[3], t[4], t[5], t[6]);\n            }\n        }\n    }\n    return m;\n}\nSnap._.transform2matrix = transform2matrix;\nSnap._unit2px = unit2px;\nvar contains = glob.doc.contains || glob.doc.compareDocumentPosition ?\n    function (a, b) {\n        var adown = a.nodeType == 9 ? a.documentElement : a,\n            bup = b && b.parentNode;\n            return a == bup || !!(bup && bup.nodeType == 1 && (\n                adown.contains ?\n                    adown.contains(bup) :\n                    a.compareDocumentPosition && a.compareDocumentPosition(bup) & 16\n            ));\n    } :\n    function (a, b) {\n        if (b) {\n            while (b) {\n                b = b.parentNode;\n                if (b == a) {\n                    return true;\n                }\n            }\n        }\n        return false;\n    };\nfunction getSomeDefs(el) {\n    var p = el.node.ownerSVGElement && wrap(el.node.ownerSVGElement) ||\n            el.node.parentNode && wrap(el.node.parentNode) ||\n            Snap.select(\"svg\") ||\n            Snap(0, 0),\n        pdefs = p.select(\"defs\"),\n        defs  = pdefs == null ? false : pdefs.node;\n    if (!defs) {\n        defs = make(\"defs\", p.node).node;\n    }\n    return defs;\n}\nfunction getSomeSVG(el) {\n    return el.node.ownerSVGElement && wrap(el.node.ownerSVGElement) || Snap.select(\"svg\");\n}\nSnap._.getSomeDefs = getSomeDefs;\nSnap._.getSomeSVG = getSomeSVG;\nfunction unit2px(el, name, value) {\n    var svg = getSomeSVG(el).node,\n        out = {},\n        mgr = svg.querySelector(\".svg---mgr\");\n    if (!mgr) {\n        mgr = $(\"rect\");\n        $(mgr, {x: -9e9, y: -9e9, width: 10, height: 10, \"class\": \"svg---mgr\", fill: \"none\"});\n        svg.appendChild(mgr);\n    }\n    function getW(val) {\n        if (val == null) {\n            return E;\n        }\n        if (val == +val) {\n            return val;\n        }\n        $(mgr, {width: val});\n        try {\n            return mgr.getBBox().width;\n        } catch (e) {\n            return 0;\n        }\n    }\n    function getH(val) {\n        if (val == null) {\n            return E;\n        }\n        if (val == +val) {\n            return val;\n        }\n        $(mgr, {height: val});\n        try {\n            return mgr.getBBox().height;\n        } catch (e) {\n            return 0;\n        }\n    }\n    function set(nam, f) {\n        if (name == null) {\n            out[nam] = f(el.attr(nam) || 0);\n        } else if (nam == name) {\n            out = f(value == null ? el.attr(nam) || 0 : value);\n        }\n    }\n    switch (el.type) {\n        case \"rect\":\n            set(\"rx\", getW);\n            set(\"ry\", getH);\n        case \"image\":\n            set(\"width\", getW);\n            set(\"height\", getH);\n        case \"text\":\n            set(\"x\", getW);\n            set(\"y\", getH);\n        break;\n        case \"circle\":\n            set(\"cx\", getW);\n            set(\"cy\", getH);\n            set(\"r\", getW);\n        break;\n        case \"ellipse\":\n            set(\"cx\", getW);\n            set(\"cy\", getH);\n            set(\"rx\", getW);\n            set(\"ry\", getH);\n        break;\n        case \"line\":\n            set(\"x1\", getW);\n            set(\"x2\", getW);\n            set(\"y1\", getH);\n            set(\"y2\", getH);\n        break;\n        case \"marker\":\n            set(\"refX\", getW);\n            set(\"markerWidth\", getW);\n            set(\"refY\", getH);\n            set(\"markerHeight\", getH);\n        break;\n        case \"radialGradient\":\n            set(\"fx\", getW);\n            set(\"fy\", getH);\n        break;\n        case \"tspan\":\n            set(\"dx\", getW);\n            set(\"dy\", getH);\n        break;\n        default:\n            set(name, getW);\n    }\n    svg.removeChild(mgr);\n    return out;\n}\n/*\\\n * Snap.select\n [ method ]\n **\n * Wraps a DOM element specified by CSS selector as @Element\n - query (string) CSS selector of the element\n = (Element) the current element\n\\*/\nSnap.select = function (query) {\n    query = Str(query).replace(/([^\\\\]):/g, \"$1\\\\:\");\n    return wrap(glob.doc.querySelector(query));\n};\n/*\\\n * Snap.selectAll\n [ method ]\n **\n * Wraps DOM elements specified by CSS selector as set or array of @Element\n - query (string) CSS selector of the element\n = (Element) the current element\n\\*/\nSnap.selectAll = function (query) {\n    var nodelist = glob.doc.querySelectorAll(query),\n        set = (Snap.set || Array)();\n    for (var i = 0; i < nodelist.length; i++) {\n        set.push(wrap(nodelist[i]));\n    }\n    return set;\n};\n\nfunction add2group(list) {\n    if (!is(list, \"array\")) {\n        list = Array.prototype.slice.call(arguments, 0);\n    }\n    var i = 0,\n        j = 0,\n        node = this.node;\n    while (this[i]) delete this[i++];\n    for (i = 0; i < list.length; i++) {\n        if (list[i].type == \"set\") {\n            list[i].forEach(function (el) {\n                node.appendChild(el.node);\n            });\n        } else {\n            node.appendChild(list[i].node);\n        }\n    }\n    var children = node.childNodes;\n    for (i = 0; i < children.length; i++) {\n        this[j++] = wrap(children[i]);\n    }\n    return this;\n}\n// Hub garbage collector every 10s\nsetInterval(function () {\n    for (var key in hub) if (hub[has](key)) {\n        var el = hub[key],\n            node = el.node;\n        if (el.type != \"svg\" && !node.ownerSVGElement || el.type == \"svg\" && (!node.parentNode || \"ownerSVGElement\" in node.parentNode && !node.ownerSVGElement)) {\n            delete hub[key];\n        }\n    }\n}, 1e4);\nfunction Element(el) {\n    if (el.snap in hub) {\n        return hub[el.snap];\n    }\n    var svg;\n    try {\n        svg = el.ownerSVGElement;\n    } catch(e) {}\n    /*\\\n     * Element.node\n     [ property (object) ]\n     **\n     * Gives you a reference to the DOM object, so you can assign event handlers or just mess around.\n     > Usage\n     | // draw a circle at coordinate 10,10 with radius of 10\n     | var c = paper.circle(10, 10, 10);\n     | c.node.onclick = function () {\n     |     c.attr(\"fill\", \"red\");\n     | };\n    \\*/\n    this.node = el;\n    if (svg) {\n        this.paper = new Paper(svg);\n    }\n    /*\\\n     * Element.type\n     [ property (string) ]\n     **\n     * SVG tag name of the given element.\n    \\*/\n    this.type = el.tagName || el.nodeName;\n    var id = this.id = ID(this);\n    this.anims = {};\n    this._ = {\n        transform: []\n    };\n    el.snap = id;\n    hub[id] = this;\n    if (this.type == \"g\") {\n        this.add = add2group;\n    }\n    if (this.type in {g: 1, mask: 1, pattern: 1, symbol: 1}) {\n        for (var method in Paper.prototype) if (Paper.prototype[has](method)) {\n            this[method] = Paper.prototype[method];\n        }\n    }\n}\n   /*\\\n     * Element.attr\n     [ method ]\n     **\n     * Gets or sets given attributes of the element.\n     **\n     - params (object) contains key-value pairs of attributes you want to set\n     * or\n     - param (string) name of the attribute\n     = (Element) the current element\n     * or\n     = (string) value of attribute\n     > Usage\n     | el.attr({\n     |     fill: \"#fc0\",\n     |     stroke: \"#000\",\n     |     strokeWidth: 2, // CamelCase...\n     |     \"fill-opacity\": 0.5, // or dash-separated names\n     |     width: \"*=2\" // prefixed values\n     | });\n     | console.log(el.attr(\"fill\")); // #fc0\n     * Prefixed values in format `\"+=10\"` supported. All four operations\n     * (`+`, `-`, `*` and `/`) could be used. Optionally you can use units for `+`\n     * and `-`: `\"+=2em\"`.\n    \\*/\n    Element.prototype.attr = function (params, value) {\n        var el = this,\n            node = el.node;\n        if (!params) {\n            if (node.nodeType != 1) {\n                return {\n                    text: node.nodeValue\n                };\n            }\n            var attr = node.attributes,\n                out = {};\n            for (var i = 0, ii = attr.length; i < ii; i++) {\n                out[attr[i].nodeName] = attr[i].nodeValue;\n            }\n            return out;\n        }\n        if (is(params, \"string\")) {\n            if (arguments.length > 1) {\n                var json = {};\n                json[params] = value;\n                params = json;\n            } else {\n                return eve(\"snap.util.getattr.\" + params, el).firstDefined();\n            }\n        }\n        for (var att in params) {\n            if (params[has](att)) {\n                eve(\"snap.util.attr.\" + att, el, params[att]);\n            }\n        }\n        return el;\n    };\n/*\\\n * Snap.parse\n [ method ]\n **\n * Parses SVG fragment and converts it into a @Fragment\n **\n - svg (string) SVG string\n = (Fragment) the @Fragment\n\\*/\nSnap.parse = function (svg) {\n    var f = glob.doc.createDocumentFragment(),\n        full = true,\n        div = glob.doc.createElement(\"div\");\n    svg = Str(svg);\n    if (!svg.match(/^\\s*<\\s*svg(?:\\s|>)/)) {\n        svg = \"<svg>\" + svg + \"</svg>\";\n        full = false;\n    }\n    div.innerHTML = svg;\n    svg = div.getElementsByTagName(\"svg\")[0];\n    if (svg) {\n        if (full) {\n            f = svg;\n        } else {\n            while (svg.firstChild) {\n                f.appendChild(svg.firstChild);\n            }\n        }\n    }\n    return new Fragment(f);\n};\nfunction Fragment(frag) {\n    this.node = frag;\n}\n/*\\\n * Snap.fragment\n [ method ]\n **\n * Creates a DOM fragment from a given list of elements or strings\n **\n - varargs (…) SVG string\n = (Fragment) the @Fragment\n\\*/\nSnap.fragment = function () {\n    var args = Array.prototype.slice.call(arguments, 0),\n        f = glob.doc.createDocumentFragment();\n    for (var i = 0, ii = args.length; i < ii; i++) {\n        var item = args[i];\n        if (item.node && item.node.nodeType) {\n            f.appendChild(item.node);\n        }\n        if (item.nodeType) {\n            f.appendChild(item);\n        }\n        if (typeof item == \"string\") {\n            f.appendChild(Snap.parse(item).node);\n        }\n    }\n    return new Fragment(f);\n};\n\nfunction make(name, parent) {\n    var res = $(name);\n    parent.appendChild(res);\n    var el = wrap(res);\n    return el;\n}\nfunction Paper(w, h) {\n    var res,\n        desc,\n        defs,\n        proto = Paper.prototype;\n    if (w && w.tagName && w.tagName.toLowerCase() == \"svg\") {\n        if (w.snap in hub) {\n            return hub[w.snap];\n        }\n        var doc = w.ownerDocument;\n        res = new Element(w);\n        desc = w.getElementsByTagName(\"desc\")[0];\n        defs = w.getElementsByTagName(\"defs\")[0];\n        if (!desc) {\n            desc = $(\"desc\");\n            desc.appendChild(doc.createTextNode(\"Created with Snap\"));\n            res.node.appendChild(desc);\n        }\n        if (!defs) {\n            defs = $(\"defs\");\n            res.node.appendChild(defs);\n        }\n        res.defs = defs;\n        for (var key in proto) if (proto[has](key)) {\n            res[key] = proto[key];\n        }\n        res.paper = res.root = res;\n    } else {\n        res = make(\"svg\", glob.doc.body);\n        $(res.node, {\n            height: h,\n            version: 1.1,\n            width: w,\n            xmlns: xmlns\n        });\n    }\n    return res;\n}\nfunction wrap(dom) {\n    if (!dom) {\n        return dom;\n    }\n    if (dom instanceof Element || dom instanceof Fragment) {\n        return dom;\n    }\n    if (dom.tagName && dom.tagName.toLowerCase() == \"svg\") {\n        return new Paper(dom);\n    }\n    if (dom.tagName && dom.tagName.toLowerCase() == \"object\" && dom.type == \"image/svg+xml\") {\n        return new Paper(dom.contentDocument.getElementsByTagName(\"svg\")[0]);\n    }\n    return new Element(dom);\n}\n\nSnap._.make = make;\nSnap._.wrap = wrap;\n/*\\\n * Paper.el\n [ method ]\n **\n * Creates an element on paper with a given name and no attributes\n **\n - name (string) tag name\n - attr (object) attributes\n = (Element) the current element\n > Usage\n | var c = paper.circle(10, 10, 10); // is the same as...\n | var c = paper.el(\"circle\").attr({\n |     cx: 10,\n |     cy: 10,\n |     r: 10\n | });\n | // and the same as\n | var c = paper.el(\"circle\", {\n |     cx: 10,\n |     cy: 10,\n |     r: 10\n | });\n\\*/\nPaper.prototype.el = function (name, attr) {\n    var el = make(name, this.node);\n    attr && el.attr(attr);\n    return el;\n};\n/*\\\n * Element.children\n [ method ]\n **\n * Returns array of all the children of the element.\n = (array) array of Elements\n\\*/\nElement.prototype.children = function () {\n    var out = [],\n        ch = this.node.childNodes;\n    for (var i = 0, ii = ch.length; i < ii; i++) {\n        out[i] = Snap(ch[i]);\n    }\n    return out;\n};\nfunction jsonFiller(root, o) {\n    for (var i = 0, ii = root.length; i < ii; i++) {\n        var item = {\n                type: root[i].type,\n                attr: root[i].attr()\n            },\n            children = root[i].children();\n        o.push(item);\n        if (children.length) {\n            jsonFiller(children, item.childNodes = []);\n        }\n    }\n}\n/*\\\n * Element.toJSON\n [ method ]\n **\n * Returns object representation of the given element and all its children.\n = (object) in format\n o {\n o     type (string) this.type,\n o     attr (object) attributes map,\n o     childNodes (array) optional array of children in the same format\n o }\n\\*/\nElement.prototype.toJSON = function () {\n    var out = [];\n    jsonFiller([this], out);\n    return out[0];\n};\n// default\neve.on(\"snap.util.getattr\", function () {\n    var att = eve.nt();\n    att = att.substring(att.lastIndexOf(\".\") + 1);\n    var css = att.replace(/[A-Z]/g, function (letter) {\n        return \"-\" + letter.toLowerCase();\n    });\n    if (cssAttr[has](css)) {\n        return this.node.ownerDocument.defaultView.getComputedStyle(this.node, null).getPropertyValue(css);\n    } else {\n        return $(this.node, att);\n    }\n});\nvar cssAttr = {\n    \"alignment-baseline\": 0,\n    \"baseline-shift\": 0,\n    \"clip\": 0,\n    \"clip-path\": 0,\n    \"clip-rule\": 0,\n    \"color\": 0,\n    \"color-interpolation\": 0,\n    \"color-interpolation-filters\": 0,\n    \"color-profile\": 0,\n    \"color-rendering\": 0,\n    \"cursor\": 0,\n    \"direction\": 0,\n    \"display\": 0,\n    \"dominant-baseline\": 0,\n    \"enable-background\": 0,\n    \"fill\": 0,\n    \"fill-opacity\": 0,\n    \"fill-rule\": 0,\n    \"filter\": 0,\n    \"flood-color\": 0,\n    \"flood-opacity\": 0,\n    \"font\": 0,\n    \"font-family\": 0,\n    \"font-size\": 0,\n    \"font-size-adjust\": 0,\n    \"font-stretch\": 0,\n    \"font-style\": 0,\n    \"font-variant\": 0,\n    \"font-weight\": 0,\n    \"glyph-orientation-horizontal\": 0,\n    \"glyph-orientation-vertical\": 0,\n    \"image-rendering\": 0,\n    \"kerning\": 0,\n    \"letter-spacing\": 0,\n    \"lighting-color\": 0,\n    \"marker\": 0,\n    \"marker-end\": 0,\n    \"marker-mid\": 0,\n    \"marker-start\": 0,\n    \"mask\": 0,\n    \"opacity\": 0,\n    \"overflow\": 0,\n    \"pointer-events\": 0,\n    \"shape-rendering\": 0,\n    \"stop-color\": 0,\n    \"stop-opacity\": 0,\n    \"stroke\": 0,\n    \"stroke-dasharray\": 0,\n    \"stroke-dashoffset\": 0,\n    \"stroke-linecap\": 0,\n    \"stroke-linejoin\": 0,\n    \"stroke-miterlimit\": 0,\n    \"stroke-opacity\": 0,\n    \"stroke-width\": 0,\n    \"text-anchor\": 0,\n    \"text-decoration\": 0,\n    \"text-rendering\": 0,\n    \"unicode-bidi\": 0,\n    \"visibility\": 0,\n    \"word-spacing\": 0,\n    \"writing-mode\": 0\n};\n\neve.on(\"snap.util.attr\", function (value) {\n    var att = eve.nt(),\n        attr = {};\n    att = att.substring(att.lastIndexOf(\".\") + 1);\n    attr[att] = value;\n    var style = att.replace(/-(\\w)/gi, function (all, letter) {\n            return letter.toUpperCase();\n        }),\n        css = att.replace(/[A-Z]/g, function (letter) {\n            return \"-\" + letter.toLowerCase();\n        });\n    if (cssAttr[has](css)) {\n        this.node.style[style] = value == null ? E : value;\n    } else {\n        $(this.node, attr);\n    }\n});\n(function (proto) {}(Paper.prototype));\n\n// simple ajax\n/*\\\n * Snap.ajax\n [ method ]\n **\n * Simple implementation of Ajax\n **\n - url (string) URL\n - postData (object|string) data for post request\n - callback (function) callback\n - scope (object) #optional scope of callback\n * or\n - url (string) URL\n - callback (function) callback\n - scope (object) #optional scope of callback\n = (XMLHttpRequest) the XMLHttpRequest object, just in case\n\\*/\nSnap.ajax = function (url, postData, callback, scope){\n    var req = new XMLHttpRequest,\n        id = ID();\n    if (req) {\n        if (is(postData, \"function\")) {\n            scope = callback;\n            callback = postData;\n            postData = null;\n        } else if (is(postData, \"object\")) {\n            var pd = [];\n            for (var key in postData) if (postData.hasOwnProperty(key)) {\n                pd.push(encodeURIComponent(key) + \"=\" + encodeURIComponent(postData[key]));\n            }\n            postData = pd.join(\"&\");\n        }\n        req.open(postData ? \"POST\" : \"GET\", url, true);\n        if (postData) {\n            req.setRequestHeader(\"X-Requested-With\", \"XMLHttpRequest\");\n            req.setRequestHeader(\"Content-type\", \"application/x-www-form-urlencoded\");\n        }\n        if (callback) {\n            eve.once(\"snap.ajax.\" + id + \".0\", callback);\n            eve.once(\"snap.ajax.\" + id + \".200\", callback);\n            eve.once(\"snap.ajax.\" + id + \".304\", callback);\n        }\n        req.onreadystatechange = function() {\n            if (req.readyState != 4) return;\n            eve(\"snap.ajax.\" + id + \".\" + req.status, scope, req);\n        };\n        if (req.readyState == 4) {\n            return req;\n        }\n        req.send(postData);\n        return req;\n    }\n};\n/*\\\n * Snap.load\n [ method ]\n **\n * Loads external SVG file as a @Fragment (see @Snap.ajax for more advanced AJAX)\n **\n - url (string) URL\n - callback (function) callback\n - scope (object) #optional scope of callback\n\\*/\nSnap.load = function (url, callback, scope) {\n    Snap.ajax(url, function (req) {\n        var f = Snap.parse(req.responseText);\n        scope ? callback.call(scope, f) : callback(f);\n    });\n};\nvar getOffset = function (elem) {\n    var box = elem.getBoundingClientRect(),\n        doc = elem.ownerDocument,\n        body = doc.body,\n        docElem = doc.documentElement,\n        clientTop = docElem.clientTop || body.clientTop || 0, clientLeft = docElem.clientLeft || body.clientLeft || 0,\n        top  = box.top  + (g.win.pageYOffset || docElem.scrollTop || body.scrollTop ) - clientTop,\n        left = box.left + (g.win.pageXOffset || docElem.scrollLeft || body.scrollLeft) - clientLeft;\n    return {\n        y: top,\n        x: left\n    };\n};\n/*\\\n * Snap.getElementByPoint\n [ method ]\n **\n * Returns you topmost element under given point.\n **\n = (object) Snap element object\n - x (number) x coordinate from the top left corner of the window\n - y (number) y coordinate from the top left corner of the window\n > Usage\n | Snap.getElementByPoint(mouseX, mouseY).attr({stroke: \"#f00\"});\n\\*/\nSnap.getElementByPoint = function (x, y) {\n    var paper = this,\n        svg = paper.canvas,\n        target = glob.doc.elementFromPoint(x, y);\n    if (glob.win.opera && target.tagName == \"svg\") {\n        var so = getOffset(target),\n            sr = target.createSVGRect();\n        sr.x = x - so.x;\n        sr.y = y - so.y;\n        sr.width = sr.height = 1;\n        var hits = target.getIntersectionList(sr, null);\n        if (hits.length) {\n            target = hits[hits.length - 1];\n        }\n    }\n    if (!target) {\n        return null;\n    }\n    return wrap(target);\n};\n/*\\\n * Snap.plugin\n [ method ]\n **\n * Let you write plugins. You pass in a function with five arguments, like this:\n | Snap.plugin(function (Snap, Element, Paper, global, Fragment) {\n |     Snap.newmethod = function () {};\n |     Element.prototype.newmethod = function () {};\n |     Paper.prototype.newmethod = function () {};\n | });\n * Inside the function you have access to all main objects (and their\n * prototypes). This allow you to extend anything you want.\n **\n - f (function) your plugin body\n\\*/\nSnap.plugin = function (f) {\n    f(Snap, Element, Paper, glob, Fragment);\n};\nglob.win.Snap = Snap;\nreturn Snap;\n}(window || this));\n\n// Copyright (c) 2013 Adobe Systems Incorporated. All rights reserved.\n//\n// Licensed under the Apache License, Version 2.0 (the \"License\");\n// you may not use this file except in compliance with the License.\n// You may obtain a copy of the License at\n//\n// http://www.apache.org/licenses/LICENSE-2.0\n//\n// Unless required by applicable law or agreed to in writing, software\n// distributed under the License is distributed on an \"AS IS\" BASIS,\n// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.\n// See the License for the specific language governing permissions and\n// limitations under the License.\nSnap.plugin(function (Snap, Element, Paper, glob, Fragment) {\n    var elproto = Element.prototype,\n        is = Snap.is,\n        Str = String,\n        unit2px = Snap._unit2px,\n        $ = Snap._.$,\n        make = Snap._.make,\n        getSomeDefs = Snap._.getSomeDefs,\n        has = \"hasOwnProperty\",\n        wrap = Snap._.wrap;\n    /*\\\n     * Element.getBBox\n     [ method ]\n     **\n     * Returns the bounding box descriptor for the given element\n     **\n     = (object) bounding box descriptor:\n     o {\n     o     cx: (number) x of the center,\n     o     cy: (number) x of the center,\n     o     h: (number) height,\n     o     height: (number) height,\n     o     path: (string) path command for the box,\n     o     r0: (number) radius of a circle that fully encloses the box,\n     o     r1: (number) radius of the smallest circle that can be enclosed,\n     o     r2: (number) radius of the largest circle that can be enclosed,\n     o     vb: (string) box as a viewbox command,\n     o     w: (number) width,\n     o     width: (number) width,\n     o     x2: (number) x of the right side,\n     o     x: (number) x of the left side,\n     o     y2: (number) y of the bottom edge,\n     o     y: (number) y of the top edge\n     o }\n    \\*/\n    elproto.getBBox = function (isWithoutTransform) {\n        if (this.type == \"tspan\") {\n            return Snap._.box(this.node.getClientRects().item(0));\n        }\n        if (!Snap.Matrix || !Snap.path) {\n            return this.node.getBBox();\n        }\n        var el = this,\n            m = new Snap.Matrix;\n        if (el.removed) {\n            return Snap._.box();\n        }\n        while (el.type == \"use\") {\n            if (!isWithoutTransform) {\n                m = m.add(el.transform().localMatrix.translate(el.attr(\"x\") || 0, el.attr(\"y\") || 0));\n            }\n            if (el.original) {\n                el = el.original;\n            } else {\n                var href = el.attr(\"xlink:href\");\n                el = el.original = el.node.ownerDocument.getElementById(href.substring(href.indexOf(\"#\") + 1));\n            }\n        }\n        var _ = el._,\n            pathfinder = Snap.path.get[el.type] || Snap.path.get.deflt;\n        try {\n            if (isWithoutTransform) {\n                _.bboxwt = pathfinder ? Snap.path.getBBox(el.realPath = pathfinder(el)) : Snap._.box(el.node.getBBox());\n                return Snap._.box(_.bboxwt);\n            } else {\n                el.realPath = pathfinder(el);\n                el.matrix = el.transform().localMatrix;\n                _.bbox = Snap.path.getBBox(Snap.path.map(el.realPath, m.add(el.matrix)));\n                return Snap._.box(_.bbox);\n            }\n        } catch (e) {\n            // Firefox doesn’t give you bbox of hidden element\n            return Snap._.box();\n        }\n    };\n    var propString = function () {\n        return this.string;\n    };\n    function extractTransform(el, tstr) {\n        if (tstr == null) {\n            var doReturn = true;\n            if (el.type == \"linearGradient\" || el.type == \"radialGradient\") {\n                tstr = el.node.getAttribute(\"gradientTransform\");\n            } else if (el.type == \"pattern\") {\n                tstr = el.node.getAttribute(\"patternTransform\");\n            } else {\n                tstr = el.node.getAttribute(\"transform\");\n            }\n            if (!tstr) {\n                return new Snap.Matrix;\n            }\n            tstr = Snap._.svgTransform2string(tstr);\n        } else {\n            if (!Snap._.rgTransform.test(tstr)) {\n                tstr = Snap._.svgTransform2string(tstr);\n            } else {\n                tstr = Str(tstr).replace(/\\.{3}|\\u2026/g, el._.transform || \"\");\n            }\n            if (is(tstr, \"array\")) {\n                tstr = Snap.path ? Snap.path.toString.call(tstr) : Str(tstr);\n            }\n            el._.transform = tstr;\n        }\n        var m = Snap._.transform2matrix(tstr, el.getBBox(1));\n        if (doReturn) {\n            return m;\n        } else {\n            el.matrix = m;\n        }\n    }\n    /*\\\n     * Element.transform\n     [ method ]\n     **\n     * Gets or sets transformation of the element\n     **\n     - tstr (string) transform string in Snap or SVG format\n     = (Element) the current element\n     * or\n     = (object) transformation descriptor:\n     o {\n     o     string (string) transform string,\n     o     globalMatrix (Matrix) matrix of all transformations applied to element or its parents,\n     o     localMatrix (Matrix) matrix of transformations applied only to the element,\n     o     diffMatrix (Matrix) matrix of difference between global and local transformations,\n     o     global (string) global transformation as string,\n     o     local (string) local transformation as string,\n     o     toString (function) returns `string` property\n     o }\n    \\*/\n    elproto.transform = function (tstr) {\n        var _ = this._;\n        if (tstr == null) {\n            var papa = this,\n                global = new Snap.Matrix(this.node.getCTM()),\n                local = extractTransform(this),\n                ms = [local],\n                m = new Snap.Matrix,\n                i,\n                localString = local.toTransformString(),\n                string = Str(local) == Str(this.matrix) ?\n                            Str(_.transform) : localString;\n            while (papa.type != \"svg\" && (papa = papa.parent())) {\n                ms.push(extractTransform(papa));\n            }\n            i = ms.length;\n            while (i--) {\n                m.add(ms[i]);\n            }\n            return {\n                string: string,\n                globalMatrix: global,\n                totalMatrix: m,\n                localMatrix: local,\n                diffMatrix: global.clone().add(local.invert()),\n                global: global.toTransformString(),\n                total: m.toTransformString(),\n                local: localString,\n                toString: propString\n            };\n        }\n        if (tstr instanceof Snap.Matrix) {\n            this.matrix = tstr;\n            this._.transform = tstr.toTransformString();\n        } else {\n            extractTransform(this, tstr);\n        }\n\n        if (this.node) {\n            if (this.type == \"linearGradient\" || this.type == \"radialGradient\") {\n                $(this.node, {gradientTransform: this.matrix});\n            } else if (this.type == \"pattern\") {\n                $(this.node, {patternTransform: this.matrix});\n            } else {\n                $(this.node, {transform: this.matrix});\n            }\n        }\n\n        return this;\n    };\n    /*\\\n     * Element.parent\n     [ method ]\n     **\n     * Returns the element's parent\n     **\n     = (Element) the parent element\n    \\*/\n    elproto.parent = function () {\n        return wrap(this.node.parentNode);\n    };\n    /*\\\n     * Element.append\n     [ method ]\n     **\n     * Appends the given element to current one\n     **\n     - el (Element|Set) element to append\n     = (Element) the parent element\n    \\*/\n    /*\\\n     * Element.add\n     [ method ]\n     **\n     * See @Element.append\n    \\*/\n    elproto.append = elproto.add = function (el) {\n        if (el) {\n            if (el.type == \"set\") {\n                var it = this;\n                el.forEach(function (el) {\n                    it.add(el);\n                });\n                return this;\n            }\n            el = wrap(el);\n            this.node.appendChild(el.node);\n            el.paper = this.paper;\n        }\n        return this;\n    };\n    /*\\\n     * Element.appendTo\n     [ method ]\n     **\n     * Appends the current element to the given one\n     **\n     - el (Element) parent element to append to\n     = (Element) the child element\n    \\*/\n    elproto.appendTo = function (el) {\n        if (el) {\n            el = wrap(el);\n            el.append(this);\n        }\n        return this;\n    };\n    /*\\\n     * Element.prepend\n     [ method ]\n     **\n     * Prepends the given element to the current one\n     **\n     - el (Element) element to prepend\n     = (Element) the parent element\n    \\*/\n    elproto.prepend = function (el) {\n        if (el) {\n            if (el.type == \"set\") {\n                var it = this,\n                    first;\n                el.forEach(function (el) {\n                    if (first) {\n                        first.after(el);\n                    } else {\n                        it.prepend(el);\n                    }\n                    first = el;\n                });\n                return this;\n            }\n            el = wrap(el);\n            var parent = el.parent();\n            this.node.insertBefore(el.node, this.node.firstChild);\n            this.add && this.add();\n            el.paper = this.paper;\n            this.parent() && this.parent().add();\n            parent && parent.add();\n        }\n        return this;\n    };\n    /*\\\n     * Element.prependTo\n     [ method ]\n     **\n     * Prepends the current element to the given one\n     **\n     - el (Element) parent element to prepend to\n     = (Element) the child element\n    \\*/\n    elproto.prependTo = function (el) {\n        el = wrap(el);\n        el.prepend(this);\n        return this;\n    };\n    /*\\\n     * Element.before\n     [ method ]\n     **\n     * Inserts given element before the current one\n     **\n     - el (Element) element to insert\n     = (Element) the parent element\n    \\*/\n    elproto.before = function (el) {\n        if (el.type == \"set\") {\n            var it = this;\n            el.forEach(function (el) {\n                var parent = el.parent();\n                it.node.parentNode.insertBefore(el.node, it.node);\n                parent && parent.add();\n            });\n            this.parent().add();\n            return this;\n        }\n        el = wrap(el);\n        var parent = el.parent();\n        this.node.parentNode.insertBefore(el.node, this.node);\n        this.parent() && this.parent().add();\n        parent && parent.add();\n        el.paper = this.paper;\n        return this;\n    };\n    /*\\\n     * Element.after\n     [ method ]\n     **\n     * Inserts given element after the current one\n     **\n     - el (Element) element to insert\n     = (Element) the parent element\n    \\*/\n    elproto.after = function (el) {\n        el = wrap(el);\n        var parent = el.parent();\n        if (this.node.nextSibling) {\n            this.node.parentNode.insertBefore(el.node, this.node.nextSibling);\n        } else {\n            this.node.parentNode.appendChild(el.node);\n        }\n        this.parent() && this.parent().add();\n        parent && parent.add();\n        el.paper = this.paper;\n        return this;\n    };\n    /*\\\n     * Element.insertBefore\n     [ method ]\n     **\n     * Inserts the element after the given one\n     **\n     - el (Element) element next to whom insert to\n     = (Element) the parent element\n    \\*/\n    elproto.insertBefore = function (el) {\n        el = wrap(el);\n        var parent = this.parent();\n        el.node.parentNode.insertBefore(this.node, el.node);\n        this.paper = el.paper;\n        parent && parent.add();\n        el.parent() && el.parent().add();\n        return this;\n    };\n    /*\\\n     * Element.insertAfter\n     [ method ]\n     **\n     * Inserts the element after the given one\n     **\n     - el (Element) element next to whom insert to\n     = (Element) the parent element\n    \\*/\n    elproto.insertAfter = function (el) {\n        el = wrap(el);\n        var parent = this.parent();\n        el.node.parentNode.insertBefore(this.node, el.node.nextSibling);\n        this.paper = el.paper;\n        parent && parent.add();\n        el.parent() && el.parent().add();\n        return this;\n    };\n    /*\\\n     * Element.remove\n     [ method ]\n     **\n     * Removes element from the DOM\n     = (Element) the detached element\n    \\*/\n    elproto.remove = function () {\n        var parent = this.parent();\n        this.node.parentNode && this.node.parentNode.removeChild(this.node);\n        delete this.paper;\n        this.removed = true;\n        parent && parent.add();\n        return this;\n    };\n    /*\\\n     * Element.select\n     [ method ]\n     **\n     * Gathers the nested @Element matching the given set of CSS selectors\n     **\n     - query (string) CSS selector\n     = (Element) result of query selection\n    \\*/\n    elproto.select = function (query) {\n        return wrap(this.node.querySelector(query));\n    };\n    /*\\\n     * Element.selectAll\n     [ method ]\n     **\n     * Gathers nested @Element objects matching the given set of CSS selectors\n     **\n     - query (string) CSS selector\n     = (Set|array) result of query selection\n    \\*/\n    elproto.selectAll = function (query) {\n        var nodelist = this.node.querySelectorAll(query),\n            set = (Snap.set || Array)();\n        for (var i = 0; i < nodelist.length; i++) {\n            set.push(wrap(nodelist[i]));\n        }\n        return set;\n    };\n    /*\\\n     * Element.asPX\n     [ method ]\n     **\n     * Returns given attribute of the element as a `px` value (not %, em, etc.)\n     **\n     - attr (string) attribute name\n     - value (string) #optional attribute value\n     = (Element) result of query selection\n    \\*/\n    elproto.asPX = function (attr, value) {\n        if (value == null) {\n            value = this.attr(attr);\n        }\n        return +unit2px(this, attr, value);\n    };\n    // SIERRA Element.use(): I suggest adding a note about how to access the original element the returned <use> instantiates. It's a part of SVG with which ordinary web developers may be least familiar.\n    /*\\\n     * Element.use\n     [ method ]\n     **\n     * Creates a `<use>` element linked to the current element\n     **\n     = (Element) the `<use>` element\n    \\*/\n    elproto.use = function () {\n        var use,\n            id = this.node.id;\n        if (!id) {\n            id = this.id;\n            $(this.node, {\n                id: id\n            });\n        }\n        if (this.type == \"linearGradient\" || this.type == \"radialGradient\" ||\n            this.type == \"pattern\") {\n            use = make(this.type, this.node.parentNode);\n        } else {\n            use = make(\"use\", this.node.parentNode);\n        }\n        $(use.node, {\n            \"xlink:href\": \"#\" + id\n        });\n        use.original = this;\n        return use;\n    };\n    function fixids(el) {\n        var els = el.selectAll(\"*\"),\n            it,\n            url = /^\\s*url\\((\"|'|)(.*)\\1\\)\\s*$/,\n            ids = [],\n            uses = {};\n        function urltest(it, name) {\n            var val = $(it.node, name);\n            val = val && val.match(url);\n            val = val && val[2];\n            if (val && val.charAt() == \"#\") {\n                val = val.substring(1);\n            } else {\n                return;\n            }\n            if (val) {\n                uses[val] = (uses[val] || []).concat(function (id) {\n                    var attr = {};\n                    attr[name] = Snap.url(id);\n                    $(it.node, attr);\n                });\n            }\n        }\n        function linktest(it) {\n            var val = $(it.node, \"xlink:href\");\n            if (val && val.charAt() == \"#\") {\n                val = val.substring(1);\n            } else {\n                return;\n            }\n            if (val) {\n                uses[val] = (uses[val] || []).concat(function (id) {\n                    it.attr(\"xlink:href\", \"#\" + id);\n                });\n            }\n        }\n        for (var i = 0, ii = els.length; i < ii; i++) {\n            it = els[i];\n            urltest(it, \"fill\");\n            urltest(it, \"stroke\");\n            urltest(it, \"filter\");\n            urltest(it, \"mask\");\n            urltest(it, \"clip-path\");\n            linktest(it);\n            var oldid = $(it.node, \"id\");\n            if (oldid) {\n                $(it.node, {id: it.id});\n                ids.push({\n                    old: oldid,\n                    id: it.id\n                });\n            }\n        }\n        for (i = 0, ii = ids.length; i < ii; i++) {\n            var fs = uses[ids[i].old];\n            if (fs) {\n                for (var j = 0, jj = fs.length; j < jj; j++) {\n                    fs[j](ids[i].id);\n                }\n            }\n        }\n    }\n    /*\\\n     * Element.clone\n     [ method ]\n     **\n     * Creates a clone of the element and inserts it after the element\n     **\n     = (Element) the clone\n    \\*/\n    elproto.clone = function () {\n        var clone = wrap(this.node.cloneNode(true));\n        if ($(clone.node, \"id\")) {\n            $(clone.node, {id: clone.id});\n        }\n        fixids(clone);\n        clone.insertAfter(this);\n        return clone;\n    };\n    /*\\\n     * Element.toDefs\n     [ method ]\n     **\n     * Moves element to the shared `<defs>` area\n     **\n     = (Element) the element\n    \\*/\n    elproto.toDefs = function () {\n        var defs = getSomeDefs(this);\n        defs.appendChild(this.node);\n        return this;\n    };\n    /*\\\n     * Element.toPattern\n     [ method ]\n     **\n     * Creates a `<pattern>` element from the current element\n     **\n     * To create a pattern you have to specify the pattern rect:\n     - x (string|number)\n     - y (string|number)\n     - width (string|number)\n     - height (string|number)\n     = (Element) the `<pattern>` element\n     * You can use pattern later on as an argument for `fill` attribute:\n     | var p = paper.path(\"M10-5-10,15M15,0,0,15M0-5-20,15\").attr({\n     |         fill: \"none\",\n     |         stroke: \"#bada55\",\n     |         strokeWidth: 5\n     |     }).pattern(0, 0, 10, 10),\n     |     c = paper.circle(200, 200, 100);\n     | c.attr({\n     |     fill: p\n     | });\n    \\*/\n    elproto.pattern = elproto.toPattern = function (x, y, width, height) {\n        var p = make(\"pattern\", getSomeDefs(this));\n        if (x == null) {\n            x = this.getBBox();\n        }\n        if (is(x, \"object\") && \"x\" in x) {\n            y = x.y;\n            width = x.width;\n            height = x.height;\n            x = x.x;\n        }\n        $(p.node, {\n            x: x,\n            y: y,\n            width: width,\n            height: height,\n            patternUnits: \"userSpaceOnUse\",\n            id: p.id,\n            viewBox: [x, y, width, height].join(\" \")\n        });\n        p.node.appendChild(this.node);\n        return p;\n    };\n// SIERRA Element.marker(): clarify what a reference point is. E.g., helps you offset the object from its edge such as when centering it over a path.\n// SIERRA Element.marker(): I suggest the method should accept default reference point values.  Perhaps centered with (refX = width/2) and (refY = height/2)? Also, couldn't it assume the element's current _width_ and _height_? And please specify what _x_ and _y_ mean: offsets? If so, from where?  Couldn't they also be assigned default values?\n    /*\\\n     * Element.marker\n     [ method ]\n     **\n     * Creates a `<marker>` element from the current element\n     **\n     * To create a marker you have to specify the bounding rect and reference point:\n     - x (number)\n     - y (number)\n     - width (number)\n     - height (number)\n     - refX (number)\n     - refY (number)\n     = (Element) the `<marker>` element\n     * You can specify the marker later as an argument for `marker-start`, `marker-end`, `marker-mid`, and `marker` attributes. The `marker` attribute places the marker at every point along the path, and `marker-mid` places them at every point except the start and end.\n    \\*/\n    // TODO add usage for markers\n    elproto.marker = function (x, y, width, height, refX, refY) {\n        var p = make(\"marker\", getSomeDefs(this));\n        if (x == null) {\n            x = this.getBBox();\n        }\n        if (is(x, \"object\") && \"x\" in x) {\n            y = x.y;\n            width = x.width;\n            height = x.height;\n            refX = x.refX || x.cx;\n            refY = x.refY || x.cy;\n            x = x.x;\n        }\n        $(p.node, {\n            viewBox: [x, y, width, height].join(\" \"),\n            markerWidth: width,\n            markerHeight: height,\n            orient: \"auto\",\n            refX: refX || 0,\n            refY: refY || 0,\n            id: p.id\n        });\n        p.node.appendChild(this.node);\n        return p;\n    };\n    var eldata = {};\n    /*\\\n     * Element.data\n     [ method ]\n     **\n     * Adds or retrieves given value associated with given key. (Don’t confuse\n     * with `data-` attributes)\n     *\n     * See also @Element.removeData\n     - key (string) key to store data\n     - value (any) #optional value to store\n     = (object) @Element\n     * or, if value is not specified:\n     = (any) value\n     > Usage\n     | for (var i = 0, i < 5, i++) {\n     |     paper.circle(10 + 15 * i, 10, 10)\n     |          .attr({fill: \"#000\"})\n     |          .data(\"i\", i)\n     |          .click(function () {\n     |             alert(this.data(\"i\"));\n     |          });\n     | }\n    \\*/\n    elproto.data = function (key, value) {\n        var data = eldata[this.id] = eldata[this.id] || {};\n        if (arguments.length == 0){\n            eve(\"snap.data.get.\" + this.id, this, data, null);\n            return data;\n        }\n        if (arguments.length == 1) {\n            if (Snap.is(key, \"object\")) {\n                for (var i in key) if (key[has](i)) {\n                    this.data(i, key[i]);\n                }\n                return this;\n            }\n            eve(\"snap.data.get.\" + this.id, this, data[key], key);\n            return data[key];\n        }\n        data[key] = value;\n        eve(\"snap.data.set.\" + this.id, this, value, key);\n        return this;\n    };\n    /*\\\n     * Element.removeData\n     [ method ]\n     **\n     * Removes value associated with an element by given key.\n     * If key is not provided, removes all the data of the element.\n     - key (string) #optional key\n     = (object) @Element\n    \\*/\n    elproto.removeData = function (key) {\n        if (key == null) {\n            eldata[this.id] = {};\n        } else {\n            eldata[this.id] && delete eldata[this.id][key];\n        }\n        return this;\n    };\n    /*\\\n     * Element.outerSVG\n     [ method ]\n     **\n     * Returns SVG code for the element, equivalent to HTML's `outerHTML`.\n     *\n     * See also @Element.innerSVG\n     = (string) SVG code for the element\n    \\*/\n    /*\\\n     * Element.toString\n     [ method ]\n     **\n     * See @Element.outerSVG\n    \\*/\n    elproto.outerSVG = elproto.toString = toString(1);\n    /*\\\n     * Element.innerSVG\n     [ method ]\n     **\n     * Returns SVG code for the element's contents, equivalent to HTML's `innerHTML`\n     = (string) SVG code for the element\n    \\*/\n    elproto.innerSVG = toString();\n    function toString(type) {\n        return function () {\n            var res = type ? \"<\" + this.type : \"\",\n                attr = this.node.attributes,\n                chld = this.node.childNodes;\n            if (type) {\n                for (var i = 0, ii = attr.length; i < ii; i++) {\n                    res += \" \" + attr[i].name + '=\"' +\n                            attr[i].value.replace(/\"/g, '\\\\\"') + '\"';\n                }\n            }\n            if (chld.length) {\n                type && (res += \">\");\n                for (i = 0, ii = chld.length; i < ii; i++) {\n                    if (chld[i].nodeType == 3) {\n                        res += chld[i].nodeValue;\n                    } else if (chld[i].nodeType == 1) {\n                        res += wrap(chld[i]).toString();\n                    }\n                }\n                type && (res += \"</\" + this.type + \">\");\n            } else {\n                type && (res += \"/>\");\n            }\n            return res;\n        };\n    }\n    elproto.toDataURL = function () {\n        if (window && window.btoa) {\n            var bb = this.getBBox(),\n                svg = Snap.format('<svg version=\"1.1\" xmlns=\"http://www.w3.org/2000/svg\" xmlns:xlink=\"http://www.w3.org/1999/xlink\" width=\"{width}\" height=\"{height}\" viewBox=\"{x} {y} {width} {height}\">{contents}</svg>', {\n                x: +bb.x.toFixed(3),\n                y: +bb.y.toFixed(3),\n                width: +bb.width.toFixed(3),\n                height: +bb.height.toFixed(3),\n                contents: this.outerSVG()\n            });\n            return \"data:image/svg+xml;base64,\" + btoa(unescape(encodeURIComponent(svg)));\n        }\n    };\n    /*\\\n     * Fragment.select\n     [ method ]\n     **\n     * See @Element.select\n    \\*/\n    Fragment.prototype.select = elproto.select;\n    /*\\\n     * Fragment.selectAll\n     [ method ]\n     **\n     * See @Element.selectAll\n    \\*/\n    Fragment.prototype.selectAll = elproto.selectAll;\n});\n\n// Copyright (c) 2013 Adobe Systems Incorporated. All rights reserved.\n//\n// Licensed under the Apache License, Version 2.0 (the \"License\");\n// you may not use this file except in compliance with the License.\n// You may obtain a copy of the License at\n//\n// http://www.apache.org/licenses/LICENSE-2.0\n//\n// Unless required by applicable law or agreed to in writing, software\n// distributed under the License is distributed on an \"AS IS\" BASIS,\n// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.\n// See the License for the specific language governing permissions and\n// limitations under the License.\nSnap.plugin(function (Snap, Element, Paper, glob, Fragment) {\n    var objectToString = Object.prototype.toString,\n        Str = String,\n        math = Math,\n        E = \"\";\n    function Matrix(a, b, c, d, e, f) {\n        if (b == null && objectToString.call(a) == \"[object SVGMatrix]\") {\n            this.a = a.a;\n            this.b = a.b;\n            this.c = a.c;\n            this.d = a.d;\n            this.e = a.e;\n            this.f = a.f;\n            return;\n        }\n        if (a != null) {\n            this.a = +a;\n            this.b = +b;\n            this.c = +c;\n            this.d = +d;\n            this.e = +e;\n            this.f = +f;\n        } else {\n            this.a = 1;\n            this.b = 0;\n            this.c = 0;\n            this.d = 1;\n            this.e = 0;\n            this.f = 0;\n        }\n    }\n    (function (matrixproto) {\n        /*\\\n         * Matrix.add\n         [ method ]\n         **\n         * Adds the given matrix to existing one\n         - a (number)\n         - b (number)\n         - c (number)\n         - d (number)\n         - e (number)\n         - f (number)\n         * or\n         - matrix (object) @Matrix\n        \\*/\n        matrixproto.add = function (a, b, c, d, e, f) {\n            if (a && a instanceof Matrix) {\n                return this.add(a.a, a.b, a.c, a.d, a.e, a.f);\n            }\n            var aNew = a * this.a + b * this.c,\n                bNew = a * this.b + b * this.d;\n            this.e += e * this.a + f * this.c;\n            this.f += e * this.b + f * this.d;\n            this.c = c * this.a + d * this.c;\n            this.d = c * this.b + d * this.d;\n\n            this.a = aNew;\n            this.b = bNew;\n            return this;\n        };\n        /*\\\n         * Matrix.multLeft\n         [ method ]\n         **\n         * Multiplies a passed affine transform to the left: M * this.\n         - a (number)\n         - b (number)\n         - c (number)\n         - d (number)\n         - e (number)\n         - f (number)\n         * or\n         - matrix (object) @Matrix\n        \\*/\n        Matrix.prototype.multLeft = function (a, b, c, d, e, f) {\n            if (a && a instanceof Matrix) {\n                return this.multLeft(a.a, a.b, a.c, a.d, a.e, a.f);\n            }\n            var aNew = a * this.a + c * this.b,\n                cNew = a * this.c + c * this.d,\n                eNew = a * this.e + c * this.f + e;\n            this.b = b * this.a + d * this.b;\n            this.d = b * this.c + d * this.d;\n            this.f = b * this.e + d * this.f + f;\n\n            this.a = aNew;\n            this.c = cNew;\n            this.e = eNew;\n            return this;\n        };\n        /*\\\n         * Matrix.invert\n         [ method ]\n         **\n         * Returns an inverted version of the matrix\n         = (object) @Matrix\n        \\*/\n        matrixproto.invert = function () {\n            var me = this,\n                x = me.a * me.d - me.b * me.c;\n            return new Matrix(me.d / x, -me.b / x, -me.c / x, me.a / x, (me.c * me.f - me.d * me.e) / x, (me.b * me.e - me.a * me.f) / x);\n        };\n        /*\\\n         * Matrix.clone\n         [ method ]\n         **\n         * Returns a copy of the matrix\n         = (object) @Matrix\n        \\*/\n        matrixproto.clone = function () {\n            return new Matrix(this.a, this.b, this.c, this.d, this.e, this.f);\n        };\n        /*\\\n         * Matrix.translate\n         [ method ]\n         **\n         * Translate the matrix\n         - x (number) horizontal offset distance\n         - y (number) vertical offset distance\n        \\*/\n        matrixproto.translate = function (x, y) {\n            this.e += x * this.a + y * this.c;\n            this.f += x * this.b + y * this.d;\n            return this;\n        };\n        /*\\\n         * Matrix.scale\n         [ method ]\n         **\n         * Scales the matrix\n         - x (number) amount to be scaled, with `1` resulting in no change\n         - y (number) #optional amount to scale along the vertical axis. (Otherwise `x` applies to both axes.)\n         - cx (number) #optional horizontal origin point from which to scale\n         - cy (number) #optional vertical origin point from which to scale\n         * Default cx, cy is the middle point of the element.\n        \\*/\n        matrixproto.scale = function (x, y, cx, cy) {\n            y == null && (y = x);\n            (cx || cy) && this.translate(cx, cy);\n            this.a *= x;\n            this.b *= x;\n            this.c *= y;\n            this.d *= y;\n            (cx || cy) && this.translate(-cx, -cy);\n            return this;\n        };\n        /*\\\n         * Matrix.rotate\n         [ method ]\n         **\n         * Rotates the matrix\n         - a (number) angle of rotation, in degrees\n         - x (number) horizontal origin point from which to rotate\n         - y (number) vertical origin point from which to rotate\n        \\*/\n        matrixproto.rotate = function (a, x, y) {\n            a = Snap.rad(a);\n            x = x || 0;\n            y = y || 0;\n            var cos = +math.cos(a).toFixed(9),\n                sin = +math.sin(a).toFixed(9);\n            this.add(cos, sin, -sin, cos, x, y);\n            return this.add(1, 0, 0, 1, -x, -y);\n        };\n        /*\\\n         * Matrix.skewX\n         [ method ]\n         **\n         * Skews the matrix along the x-axis\n         - x (number) Angle to skew along the x-axis (in degrees).\n        \\*/\n        matrixproto.skewX = function (x) {\n            return this.skew(x, 0);\n        };\n        /*\\\n         * Matrix.skewY\n         [ method ]\n         **\n         * Skews the matrix along the y-axis\n         - y (number) Angle to skew along the y-axis (in degrees).\n        \\*/\n        matrixproto.skewY = function (y) {\n            return this.skew(0, y);\n        };\n        /*\\\n         * Matrix.skew\n         [ method ]\n         **\n         * Skews the matrix\n         - y (number) Angle to skew along the y-axis (in degrees).\n         - x (number) Angle to skew along the x-axis (in degrees).\n        \\*/\n        matrixproto.skew = function (x, y) {\n            x = x || 0;\n            y = y || 0;\n            x = Snap.rad(x);\n            y = Snap.rad(y);\n            var c = math.tan(x).toFixed(9);\n            var b = math.tan(y).toFixed(9);\n            return this.add(1, b, c, 1, 0, 0);\n        };\n        /*\\\n         * Matrix.x\n         [ method ]\n         **\n         * Returns x coordinate for given point after transformation described by the matrix. See also @Matrix.y\n         - x (number)\n         - y (number)\n         = (number) x\n        \\*/\n        matrixproto.x = function (x, y) {\n            return x * this.a + y * this.c + this.e;\n        };\n        /*\\\n         * Matrix.y\n         [ method ]\n         **\n         * Returns y coordinate for given point after transformation described by the matrix. See also @Matrix.x\n         - x (number)\n         - y (number)\n         = (number) y\n        \\*/\n        matrixproto.y = function (x, y) {\n            return x * this.b + y * this.d + this.f;\n        };\n        matrixproto.get = function (i) {\n            return +this[Str.fromCharCode(97 + i)].toFixed(4);\n        };\n        matrixproto.toString = function () {\n            return \"matrix(\" + [this.get(0), this.get(1), this.get(2), this.get(3), this.get(4), this.get(5)].join() + \")\";\n        };\n        matrixproto.offset = function () {\n            return [this.e.toFixed(4), this.f.toFixed(4)];\n        };\n        function norm(a) {\n            return a[0] * a[0] + a[1] * a[1];\n        }\n        function normalize(a) {\n            var mag = math.sqrt(norm(a));\n            a[0] && (a[0] /= mag);\n            a[1] && (a[1] /= mag);\n        }\n        /*\\\n         * Matrix.determinant\n         [ method ]\n         **\n         * Finds determinant of the given matrix.\n         = (number) determinant\n        \\*/\n        matrixproto.determinant = function () {\n            return this.a * this.d - this.b * this.c;\n        };\n        /*\\\n         * Matrix.split\n         [ method ]\n         **\n         * Splits matrix into primitive transformations\n         = (object) in format:\n         o dx (number) translation by x\n         o dy (number) translation by y\n         o scalex (number) scale by x\n         o scaley (number) scale by y\n         o shear (number) shear\n         o rotate (number) rotation in deg\n         o isSimple (boolean) could it be represented via simple transformations\n        \\*/\n        matrixproto.split = function () {\n            var out = {};\n            // translation\n            out.dx = this.e;\n            out.dy = this.f;\n\n            // scale and shear\n            var row = [[this.a, this.b], [this.c, this.d]];\n            out.scalex = math.sqrt(norm(row[0]));\n            normalize(row[0]);\n\n            out.shear = row[0][0] * row[1][0] + row[0][1] * row[1][1];\n            row[1] = [row[1][0] - row[0][0] * out.shear, row[1][1] - row[0][1] * out.shear];\n\n            out.scaley = math.sqrt(norm(row[1]));\n            normalize(row[1]);\n            out.shear /= out.scaley;\n\n            if (this.determinant() < 0) {\n                out.scalex = -out.scalex;\n            }\n\n            // rotation\n            var sin = row[0][1],\n                cos = row[1][1];\n            if (cos < 0) {\n                out.rotate = Snap.deg(math.acos(cos));\n                if (sin < 0) {\n                    out.rotate = 360 - out.rotate;\n                }\n            } else {\n                out.rotate = Snap.deg(math.asin(sin));\n            }\n\n            out.isSimple = !+out.shear.toFixed(9) && (out.scalex.toFixed(9) == out.scaley.toFixed(9) || !out.rotate);\n            out.isSuperSimple = !+out.shear.toFixed(9) && out.scalex.toFixed(9) == out.scaley.toFixed(9) && !out.rotate;\n            out.noRotation = !+out.shear.toFixed(9) && !out.rotate;\n            return out;\n        };\n        /*\\\n         * Matrix.toTransformString\n         [ method ]\n         **\n         * Returns transform string that represents given matrix\n         = (string) transform string\n        \\*/\n        matrixproto.toTransformString = function (shorter) {\n            var s = shorter || this.split();\n            if (!+s.shear.toFixed(9)) {\n                s.scalex = +s.scalex.toFixed(4);\n                s.scaley = +s.scaley.toFixed(4);\n                s.rotate = +s.rotate.toFixed(4);\n                return  (s.dx || s.dy ? \"t\" + [+s.dx.toFixed(4), +s.dy.toFixed(4)] : E) +\n                        (s.rotate ? \"r\" + [+s.rotate.toFixed(4), 0, 0] : E) +\n                        (s.scalex != 1 || s.scaley != 1 ? \"s\" + [s.scalex, s.scaley, 0, 0] : E);\n            } else {\n                return \"m\" + [this.get(0), this.get(1), this.get(2), this.get(3), this.get(4), this.get(5)];\n            }\n        };\n    })(Matrix.prototype);\n    /*\\\n     * Snap.Matrix\n     [ method ]\n     **\n     * Matrix constructor, extend on your own risk.\n     * To create matrices use @Snap.matrix.\n    \\*/\n    Snap.Matrix = Matrix;\n    /*\\\n     * Snap.matrix\n     [ method ]\n     **\n     * Utility method\n     **\n     * Returns a matrix based on the given parameters\n     - a (number)\n     - b (number)\n     - c (number)\n     - d (number)\n     - e (number)\n     - f (number)\n     * or\n     - svgMatrix (SVGMatrix)\n     = (object) @Matrix\n    \\*/\n    Snap.matrix = function (a, b, c, d, e, f) {\n        return new Matrix(a, b, c, d, e, f);\n    };\n});\n\n// Copyright (c) 2013 Adobe Systems Incorporated. All rights reserved.\n//\n// Licensed under the Apache License, Version 2.0 (the \"License\");\n// you may not use this file except in compliance with the License.\n// You may obtain a copy of the License at\n//\n// http://www.apache.org/licenses/LICENSE-2.0\n//\n// Unless required by applicable law or agreed to in writing, software\n// distributed under the License is distributed on an \"AS IS\" BASIS,\n// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.\n// See the License for the specific language governing permissions and\n// limitations under the License.\nSnap.plugin(function (Snap, Element, Paper, glob, Fragment) {\n    var has = \"hasOwnProperty\",\n        make = Snap._.make,\n        wrap = Snap._.wrap,\n        is = Snap.is,\n        getSomeDefs = Snap._.getSomeDefs,\n        reURLValue = /^url\\((['\"]?)([^)]+)\\1\\)$/,\n        $ = Snap._.$,\n        URL = Snap.url,\n        Str = String,\n        separator = Snap._.separator,\n        E = \"\";\n    /*\\\n     * Snap.deurl\n     [ method ]\n     **\n     * Unwraps path from `\"url(<path>)\"`.\n     - value (string) url path\n     = (string) unwrapped path\n    \\*/\n    Snap.deurl = function (value) {\n        var res = String(value).match(reURLValue);\n        return res ? res[2] : value;\n    }\n    // Attributes event handlers\n    eve.on(\"snap.util.attr.mask\", function (value) {\n        if (value instanceof Element || value instanceof Fragment) {\n            eve.stop();\n            if (value instanceof Fragment && value.node.childNodes.length == 1) {\n                value = value.node.firstChild;\n                getSomeDefs(this).appendChild(value);\n                value = wrap(value);\n            }\n            if (value.type == \"mask\") {\n                var mask = value;\n            } else {\n                mask = make(\"mask\", getSomeDefs(this));\n                mask.node.appendChild(value.node);\n            }\n            !mask.node.id && $(mask.node, {\n                id: mask.id\n            });\n            $(this.node, {\n                mask: URL(mask.id)\n            });\n        }\n    });\n    (function (clipIt) {\n        eve.on(\"snap.util.attr.clip\", clipIt);\n        eve.on(\"snap.util.attr.clip-path\", clipIt);\n        eve.on(\"snap.util.attr.clipPath\", clipIt);\n    }(function (value) {\n        if (value instanceof Element || value instanceof Fragment) {\n            eve.stop();\n            var clip,\n                node = value.node;\n            while (node) {\n                if (node.nodeName === \"clipPath\") {\n                    clip = new Element(node);\n                    break;\n                }\n                if (node.nodeName === \"svg\") {\n                    clip = undefined;\n                    break;\n                }\n                node = node.parentNode;\n            }\n            if (!clip) {\n                clip = make(\"clipPath\", getSomeDefs(this));\n                clip.node.appendChild(value.node);\n                !clip.node.id && $(clip.node, {\n                    id: clip.id\n                });\n            }\n            $(this.node, {\n                \"clip-path\": URL(clip.node.id || clip.id)\n            });\n        }\n    }));\n    function fillStroke(name) {\n        return function (value) {\n            eve.stop();\n            if (value instanceof Fragment && value.node.childNodes.length == 1 &&\n                (value.node.firstChild.tagName == \"radialGradient\" ||\n                value.node.firstChild.tagName == \"linearGradient\" ||\n                value.node.firstChild.tagName == \"pattern\")) {\n                value = value.node.firstChild;\n                getSomeDefs(this).appendChild(value);\n                value = wrap(value);\n            }\n            if (value instanceof Element) {\n                if (value.type == \"radialGradient\" || value.type == \"linearGradient\"\n                   || value.type == \"pattern\") {\n                    if (!value.node.id) {\n                        $(value.node, {\n                            id: value.id\n                        });\n                    }\n                    var fill = URL(value.node.id);\n                } else {\n                    fill = value.attr(name);\n                }\n            } else {\n                fill = Snap.color(value);\n                if (fill.error) {\n                    var grad = Snap(getSomeDefs(this).ownerSVGElement).gradient(value);\n                    if (grad) {\n                        if (!grad.node.id) {\n                            $(grad.node, {\n                                id: grad.id\n                            });\n                        }\n                        fill = URL(grad.node.id);\n                    } else {\n                        fill = value;\n                    }\n                } else {\n                    fill = Str(fill);\n                }\n            }\n            var attrs = {};\n            attrs[name] = fill;\n            $(this.node, attrs);\n            this.node.style[name] = E;\n        };\n    }\n    eve.on(\"snap.util.attr.fill\", fillStroke(\"fill\"));\n    eve.on(\"snap.util.attr.stroke\", fillStroke(\"stroke\"));\n    var gradrg = /^([lr])(?:\\(([^)]*)\\))?(.*)$/i;\n    eve.on(\"snap.util.grad.parse\", function parseGrad(string) {\n        string = Str(string);\n        var tokens = string.match(gradrg);\n        if (!tokens) {\n            return null;\n        }\n        var type = tokens[1],\n            params = tokens[2],\n            stops = tokens[3];\n        params = params.split(/\\s*,\\s*/).map(function (el) {\n            return +el == el ? +el : el;\n        });\n        if (params.length == 1 && params[0] == 0) {\n            params = [];\n        }\n        stops = stops.split(\"-\");\n        stops = stops.map(function (el) {\n            el = el.split(\":\");\n            var out = {\n                color: el[0]\n            };\n            if (el[1]) {\n                out.offset = parseFloat(el[1]);\n            }\n            return out;\n        });\n        var len = stops.length,\n            start = 0,\n            j = 0;\n        function seed(i, end) {\n            var step = (end - start) / (i - j);\n            for (var k = j; k < i; k++) {\n                stops[k].offset = +(+start + step * (k - j)).toFixed(2);\n            }\n            j = i;\n            start = end;\n        }\n        len--;\n        for (var i = 0; i < len; i++) if (\"offset\" in stops[i]) {\n            seed(i, stops[i].offset);\n        }\n        stops[len].offset = stops[len].offset || 100;\n        seed(len, stops[len].offset);\n        return {\n            type: type,\n            params: params,\n            stops: stops\n        };\n    });\n\n    eve.on(\"snap.util.attr.d\", function (value) {\n        eve.stop();\n        if (is(value, \"array\") && is(value[0], \"array\")) {\n            value = Snap.path.toString.call(value);\n        }\n        value = Str(value);\n        if (value.match(/[ruo]/i)) {\n            value = Snap.path.toAbsolute(value);\n        }\n        $(this.node, {d: value});\n    })(-1);\n    eve.on(\"snap.util.attr.#text\", function (value) {\n        eve.stop();\n        value = Str(value);\n        var txt = glob.doc.createTextNode(value);\n        while (this.node.firstChild) {\n            this.node.removeChild(this.node.firstChild);\n        }\n        this.node.appendChild(txt);\n    })(-1);\n    eve.on(\"snap.util.attr.path\", function (value) {\n        eve.stop();\n        this.attr({d: value});\n    })(-1);\n    eve.on(\"snap.util.attr.class\", function (value) {\n        eve.stop();\n        this.node.className.baseVal = value;\n    })(-1);\n    eve.on(\"snap.util.attr.viewBox\", function (value) {\n        var vb;\n        if (is(value, \"object\") && \"x\" in value) {\n            vb = [value.x, value.y, value.width, value.height].join(\" \");\n        } else if (is(value, \"array\")) {\n            vb = value.join(\" \");\n        } else {\n            vb = value;\n        }\n        $(this.node, {\n            viewBox: vb\n        });\n        eve.stop();\n    })(-1);\n    eve.on(\"snap.util.attr.transform\", function (value) {\n        this.transform(value);\n        eve.stop();\n    })(-1);\n    eve.on(\"snap.util.attr.r\", function (value) {\n        if (this.type == \"rect\") {\n            eve.stop();\n            $(this.node, {\n                rx: value,\n                ry: value\n            });\n        }\n    })(-1);\n    eve.on(\"snap.util.attr.textpath\", function (value) {\n        eve.stop();\n        if (this.type == \"text\") {\n            var id, tp, node;\n            if (!value && this.textPath) {\n                tp = this.textPath;\n                while (tp.node.firstChild) {\n                    this.node.appendChild(tp.node.firstChild);\n                }\n                tp.remove();\n                delete this.textPath;\n                return;\n            }\n            if (is(value, \"string\")) {\n                var defs = getSomeDefs(this),\n                    path = wrap(defs.parentNode).path(value);\n                defs.appendChild(path.node);\n                id = path.id;\n                path.attr({id: id});\n            } else {\n                value = wrap(value);\n                if (value instanceof Element) {\n                    id = value.attr(\"id\");\n                    if (!id) {\n                        id = value.id;\n                        value.attr({id: id});\n                    }\n                }\n            }\n            if (id) {\n                tp = this.textPath;\n                node = this.node;\n                if (tp) {\n                    tp.attr({\"xlink:href\": \"#\" + id});\n                } else {\n                    tp = $(\"textPath\", {\n                        \"xlink:href\": \"#\" + id\n                    });\n                    while (node.firstChild) {\n                        tp.appendChild(node.firstChild);\n                    }\n                    node.appendChild(tp);\n                    this.textPath = wrap(tp);\n                }\n            }\n        }\n    })(-1);\n    eve.on(\"snap.util.attr.text\", function (value) {\n        if (this.type == \"text\") {\n            var i = 0,\n                node = this.node,\n                tuner = function (chunk) {\n                    var out = $(\"tspan\");\n                    if (is(chunk, \"array\")) {\n                        for (var i = 0; i < chunk.length; i++) {\n                            out.appendChild(tuner(chunk[i]));\n                        }\n                    } else {\n                        out.appendChild(glob.doc.createTextNode(chunk));\n                    }\n                    out.normalize && out.normalize();\n                    return out;\n                };\n            while (node.firstChild) {\n                node.removeChild(node.firstChild);\n            }\n            var tuned = tuner(value);\n            while (tuned.firstChild) {\n                node.appendChild(tuned.firstChild);\n            }\n        }\n        eve.stop();\n    })(-1);\n    function setFontSize(value) {\n        eve.stop();\n        if (value == +value) {\n            value += \"px\";\n        }\n        this.node.style.fontSize = value;\n    }\n    eve.on(\"snap.util.attr.fontSize\", setFontSize)(-1);\n    eve.on(\"snap.util.attr.font-size\", setFontSize)(-1);\n\n\n    eve.on(\"snap.util.getattr.transform\", function () {\n        eve.stop();\n        return this.transform();\n    })(-1);\n    eve.on(\"snap.util.getattr.textpath\", function () {\n        eve.stop();\n        return this.textPath;\n    })(-1);\n    // Markers\n    (function () {\n        function getter(end) {\n            return function () {\n                eve.stop();\n                var style = glob.doc.defaultView.getComputedStyle(this.node, null).getPropertyValue(\"marker-\" + end);\n                if (style == \"none\") {\n                    return style;\n                } else {\n                    return Snap(glob.doc.getElementById(style.match(reURLValue)[1]));\n                }\n            };\n        }\n        function setter(end) {\n            return function (value) {\n                eve.stop();\n                var name = \"marker\" + end.charAt(0).toUpperCase() + end.substring(1);\n                if (value == \"\" || !value) {\n                    this.node.style[name] = \"none\";\n                    return;\n                }\n                if (value.type == \"marker\") {\n                    var id = value.node.id;\n                    if (!id) {\n                        $(value.node, {id: value.id});\n                    }\n                    this.node.style[name] = URL(id);\n                    return;\n                }\n            };\n        }\n        eve.on(\"snap.util.getattr.marker-end\", getter(\"end\"))(-1);\n        eve.on(\"snap.util.getattr.markerEnd\", getter(\"end\"))(-1);\n        eve.on(\"snap.util.getattr.marker-start\", getter(\"start\"))(-1);\n        eve.on(\"snap.util.getattr.markerStart\", getter(\"start\"))(-1);\n        eve.on(\"snap.util.getattr.marker-mid\", getter(\"mid\"))(-1);\n        eve.on(\"snap.util.getattr.markerMid\", getter(\"mid\"))(-1);\n        eve.on(\"snap.util.attr.marker-end\", setter(\"end\"))(-1);\n        eve.on(\"snap.util.attr.markerEnd\", setter(\"end\"))(-1);\n        eve.on(\"snap.util.attr.marker-start\", setter(\"start\"))(-1);\n        eve.on(\"snap.util.attr.markerStart\", setter(\"start\"))(-1);\n        eve.on(\"snap.util.attr.marker-mid\", setter(\"mid\"))(-1);\n        eve.on(\"snap.util.attr.markerMid\", setter(\"mid\"))(-1);\n    }());\n    eve.on(\"snap.util.getattr.r\", function () {\n        if (this.type == \"rect\" && $(this.node, \"rx\") == $(this.node, \"ry\")) {\n            eve.stop();\n            return $(this.node, \"rx\");\n        }\n    })(-1);\n    function textExtract(node) {\n        var out = [];\n        var children = node.childNodes;\n        for (var i = 0, ii = children.length; i < ii; i++) {\n            var chi = children[i];\n            if (chi.nodeType == 3) {\n                out.push(chi.nodeValue);\n            }\n            if (chi.tagName == \"tspan\") {\n                if (chi.childNodes.length == 1 && chi.firstChild.nodeType == 3) {\n                    out.push(chi.firstChild.nodeValue);\n                } else {\n                    out.push(textExtract(chi));\n                }\n            }\n        }\n        return out;\n    }\n    eve.on(\"snap.util.getattr.text\", function () {\n        if (this.type == \"text\" || this.type == \"tspan\") {\n            eve.stop();\n            var out = textExtract(this.node);\n            return out.length == 1 ? out[0] : out;\n        }\n    })(-1);\n    eve.on(\"snap.util.getattr.#text\", function () {\n        return this.node.textContent;\n    })(-1);\n    eve.on(\"snap.util.getattr.fill\", function (internal) {\n        if (internal) {\n            return;\n        }\n        eve.stop();\n        var value = eve(\"snap.util.getattr.fill\", this, true).firstDefined();\n        return Snap(Snap.deurl(value)) || value;\n    })(-1);\n    eve.on(\"snap.util.getattr.stroke\", function (internal) {\n        if (internal) {\n            return;\n        }\n        eve.stop();\n        var value = eve(\"snap.util.getattr.stroke\", this, true).firstDefined();\n        return Snap(Snap.deurl(value)) || value;\n    })(-1);\n    eve.on(\"snap.util.getattr.viewBox\", function () {\n        eve.stop();\n        var vb = $(this.node, \"viewBox\");\n        if (vb) {\n            vb = vb.split(separator);\n            return Snap._.box(+vb[0], +vb[1], +vb[2], +vb[3]);\n        } else {\n            return;\n        }\n    })(-1);\n    eve.on(\"snap.util.getattr.points\", function () {\n        var p = $(this.node, \"points\");\n        eve.stop();\n        if (p) {\n            return p.split(separator);\n        } else {\n            return;\n        }\n    })(-1);\n    eve.on(\"snap.util.getattr.path\", function () {\n        var p = $(this.node, \"d\");\n        eve.stop();\n        return p;\n    })(-1);\n    eve.on(\"snap.util.getattr.class\", function () {\n        return this.node.className.baseVal;\n    })(-1);\n    function getFontSize() {\n        eve.stop();\n        return this.node.style.fontSize;\n    }\n    eve.on(\"snap.util.getattr.fontSize\", getFontSize)(-1);\n    eve.on(\"snap.util.getattr.font-size\", getFontSize)(-1);\n});\n\n// Copyright (c) 2014 Adobe Systems Incorporated. All rights reserved.\n//\n// Licensed under the Apache License, Version 2.0 (the \"License\");\n// you may not use this file except in compliance with the License.\n// You may obtain a copy of the License at\n//\n// http://www.apache.org/licenses/LICENSE-2.0\n//\n// Unless required by applicable law or agreed to in writing, software\n// distributed under the License is distributed on an \"AS IS\" BASIS,\n// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.\n// See the License for the specific language governing permissions and\n// limitations under the License.\nSnap.plugin(function (Snap, Element, Paper, glob, Fragment) {\n    var rgNotSpace = /\\S+/g,\n        rgBadSpace = /[\\t\\r\\n\\f]/g,\n        rgTrim = /(^\\s+|\\s+$)/g,\n        Str = String,\n        elproto = Element.prototype;\n    /*\\\n     * Element.addClass\n     [ method ]\n     **\n     * Adds given class name or list of class names to the element.\n     - value (string) class name or space separated list of class names\n     **\n     = (Element) original element.\n    \\*/\n    elproto.addClass = function (value) {\n        var classes = Str(value || \"\").match(rgNotSpace) || [],\n            elem = this.node,\n            className = elem.className.baseVal,\n            curClasses = className.match(rgNotSpace) || [],\n            j,\n            pos,\n            clazz,\n            finalValue;\n\n        if (classes.length) {\n            j = 0;\n            while (clazz = classes[j++]) {\n                pos = curClasses.indexOf(clazz);\n                if (!~pos) {\n                    curClasses.push(clazz);\n                }\n            }\n\n            finalValue = curClasses.join(\" \");\n            if (className != finalValue) {\n                elem.className.baseVal = finalValue;\n            }\n        }\n        return this;\n    };\n    /*\\\n     * Element.removeClass\n     [ method ]\n     **\n     * Removes given class name or list of class names from the element.\n     - value (string) class name or space separated list of class names\n     **\n     = (Element) original element.\n    \\*/\n    elproto.removeClass = function (value) {\n        var classes = Str(value || \"\").match(rgNotSpace) || [],\n            elem = this.node,\n            className = elem.className.baseVal,\n            curClasses = className.match(rgNotSpace) || [],\n            j,\n            pos,\n            clazz,\n            finalValue;\n        if (curClasses.length) {\n            j = 0;\n            while (clazz = classes[j++]) {\n                pos = curClasses.indexOf(clazz);\n                if (~pos) {\n                    curClasses.splice(pos, 1);\n                }\n            }\n\n            finalValue = curClasses.join(\" \");\n            if (className != finalValue) {\n                elem.className.baseVal = finalValue;\n            }\n        }\n        return this;\n    };\n    /*\\\n     * Element.hasClass\n     [ method ]\n     **\n     * Checks if the element has a given class name in the list of class names applied to it.\n     - value (string) class name\n     **\n     = (boolean) `true` if the element has given class\n    \\*/\n    elproto.hasClass = function (value) {\n        var elem = this.node,\n            className = elem.className.baseVal,\n            curClasses = className.match(rgNotSpace) || [];\n        return !!~curClasses.indexOf(value);\n    };\n    /*\\\n     * Element.toggleClass\n     [ method ]\n     **\n     * Add or remove one or more classes from the element, depending on either\n     * the class’s presence or the value of the `flag` argument.\n     - value (string) class name or space separated list of class names\n     - flag (boolean) value to determine whether the class should be added or removed\n     **\n     = (Element) original element.\n    \\*/\n    elproto.toggleClass = function (value, flag) {\n        if (flag != null) {\n            if (flag) {\n                return this.addClass(value);\n            } else {\n                return this.removeClass(value);\n            }\n        }\n        var classes = (value || \"\").match(rgNotSpace) || [],\n            elem = this.node,\n            className = elem.className.baseVal,\n            curClasses = className.match(rgNotSpace) || [],\n            j,\n            pos,\n            clazz,\n            finalValue;\n        j = 0;\n        while (clazz = classes[j++]) {\n            pos = curClasses.indexOf(clazz);\n            if (~pos) {\n                curClasses.splice(pos, 1);\n            } else {\n                curClasses.push(clazz);\n            }\n        }\n\n        finalValue = curClasses.join(\" \");\n        if (className != finalValue) {\n            elem.className.baseVal = finalValue;\n        }\n        return this;\n    };\n});\n\n// Copyright (c) 2013 Adobe Systems Incorporated. All rights reserved.\n//\n// Licensed under the Apache License, Version 2.0 (the \"License\");\n// you may not use this file except in compliance with the License.\n// You may obtain a copy of the License at\n//\n// http://www.apache.org/licenses/LICENSE-2.0\n//\n// Unless required by applicable law or agreed to in writing, software\n// distributed under the License is distributed on an \"AS IS\" BASIS,\n// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.\n// See the License for the specific language governing permissions and\n// limitations under the License.\nSnap.plugin(function (Snap, Element, Paper, glob, Fragment) {\n    var operators = {\n            \"+\": function (x, y) {\n                    return x + y;\n                },\n            \"-\": function (x, y) {\n                    return x - y;\n                },\n            \"/\": function (x, y) {\n                    return x / y;\n                },\n            \"*\": function (x, y) {\n                    return x * y;\n                }\n        },\n        Str = String,\n        reUnit = /[a-z]+$/i,\n        reAddon = /^\\s*([+\\-\\/*])\\s*=\\s*([\\d.eE+\\-]+)\\s*([^\\d\\s]+)?\\s*$/;\n    function getNumber(val) {\n        return val;\n    }\n    function getUnit(unit) {\n        return function (val) {\n            return +val.toFixed(3) + unit;\n        };\n    }\n    eve.on(\"snap.util.attr\", function (val) {\n        var plus = Str(val).match(reAddon);\n        if (plus) {\n            var evnt = eve.nt(),\n                name = evnt.substring(evnt.lastIndexOf(\".\") + 1),\n                a = this.attr(name),\n                atr = {};\n            eve.stop();\n            var unit = plus[3] || \"\",\n                aUnit = a.match(reUnit),\n                op = operators[plus[1]];\n            if (aUnit && aUnit == unit) {\n                val = op(parseFloat(a), +plus[2]);\n            } else {\n                a = this.asPX(name);\n                val = op(this.asPX(name), this.asPX(name, plus[2] + unit));\n            }\n            if (isNaN(a) || isNaN(val)) {\n                return;\n            }\n            atr[name] = val;\n            this.attr(atr);\n        }\n    })(-10);\n    eve.on(\"snap.util.equal\", function (name, b) {\n        var A, B, a = Str(this.attr(name) || \"\"),\n            el = this,\n            bplus = Str(b).match(reAddon);\n        if (bplus) {\n            eve.stop();\n            var unit = bplus[3] || \"\",\n                aUnit = a.match(reUnit),\n                op = operators[bplus[1]];\n            if (aUnit && aUnit == unit) {\n                return {\n                    from: parseFloat(a),\n                    to: op(parseFloat(a), +bplus[2]),\n                    f: getUnit(aUnit)\n                };\n            } else {\n                a = this.asPX(name);\n                return {\n                    from: a,\n                    to: op(a, this.asPX(name, bplus[2] + unit)),\n                    f: getNumber\n                };\n            }\n        }\n    })(-10);\n});\n\n// Copyright (c) 2013 Adobe Systems Incorporated. All rights reserved.\n//\n// Licensed under the Apache License, Version 2.0 (the \"License\");\n// you may not use this file except in compliance with the License.\n// You may obtain a copy of the License at\n//\n// http://www.apache.org/licenses/LICENSE-2.0\n//\n// Unless required by applicable law or agreed to in writing, software\n// distributed under the License is distributed on an \"AS IS\" BASIS,\n// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.\n// See the License for the specific language governing permissions and\n// limitations under the License.\nSnap.plugin(function (Snap, Element, Paper, glob, Fragment) {\n    var proto = Paper.prototype,\n        is = Snap.is;\n    /*\\\n     * Paper.rect\n     [ method ]\n     *\n     * Draws a rectangle\n     **\n     - x (number) x coordinate of the top left corner\n     - y (number) y coordinate of the top left corner\n     - width (number) width\n     - height (number) height\n     - rx (number) #optional horizontal radius for rounded corners, default is 0\n     - ry (number) #optional vertical radius for rounded corners, default is rx or 0\n     = (object) the `rect` element\n     **\n     > Usage\n     | // regular rectangle\n     | var c = paper.rect(10, 10, 50, 50);\n     | // rectangle with rounded corners\n     | var c = paper.rect(40, 40, 50, 50, 10);\n    \\*/\n    proto.rect = function (x, y, w, h, rx, ry) {\n        var attr;\n        if (ry == null) {\n            ry = rx;\n        }\n        if (is(x, \"object\") && x == \"[object Object]\") {\n            attr = x;\n        } else if (x != null) {\n            attr = {\n                x: x,\n                y: y,\n                width: w,\n                height: h\n            };\n            if (rx != null) {\n                attr.rx = rx;\n                attr.ry = ry;\n            }\n        }\n        return this.el(\"rect\", attr);\n    };\n    /*\\\n     * Paper.circle\n     [ method ]\n     **\n     * Draws a circle\n     **\n     - x (number) x coordinate of the centre\n     - y (number) y coordinate of the centre\n     - r (number) radius\n     = (object) the `circle` element\n     **\n     > Usage\n     | var c = paper.circle(50, 50, 40);\n    \\*/\n    proto.circle = function (cx, cy, r) {\n        var attr;\n        if (is(cx, \"object\") && cx == \"[object Object]\") {\n            attr = cx;\n        } else if (cx != null) {\n            attr = {\n                cx: cx,\n                cy: cy,\n                r: r\n            };\n        }\n        return this.el(\"circle\", attr);\n    };\n\n    var preload = (function () {\n        function onerror() {\n            this.parentNode.removeChild(this);\n        }\n        return function (src, f) {\n            var img = glob.doc.createElement(\"img\"),\n                body = glob.doc.body;\n            img.style.cssText = \"position:absolute;left:-9999em;top:-9999em\";\n            img.onload = function () {\n                f.call(img);\n                img.onload = img.onerror = null;\n                body.removeChild(img);\n            };\n            img.onerror = onerror;\n            body.appendChild(img);\n            img.src = src;\n        };\n    }());\n\n    /*\\\n     * Paper.image\n     [ method ]\n     **\n     * Places an image on the surface\n     **\n     - src (string) URI of the source image\n     - x (number) x offset position\n     - y (number) y offset position\n     - width (number) width of the image\n     - height (number) height of the image\n     = (object) the `image` element\n     * or\n     = (object) Snap element object with type `image`\n     **\n     > Usage\n     | var c = paper.image(\"apple.png\", 10, 10, 80, 80);\n    \\*/\n    proto.image = function (src, x, y, width, height) {\n        var el = this.el(\"image\");\n        if (is(src, \"object\") && \"src\" in src) {\n            el.attr(src);\n        } else if (src != null) {\n            var set = {\n                \"xlink:href\": src,\n                preserveAspectRatio: \"none\"\n            };\n            if (x != null && y != null) {\n                set.x = x;\n                set.y = y;\n            }\n            if (width != null && height != null) {\n                set.width = width;\n                set.height = height;\n            } else {\n                preload(src, function () {\n                    Snap._.$(el.node, {\n                        width: this.offsetWidth,\n                        height: this.offsetHeight\n                    });\n                });\n            }\n            Snap._.$(el.node, set);\n        }\n        return el;\n    };\n    /*\\\n     * Paper.ellipse\n     [ method ]\n     **\n     * Draws an ellipse\n     **\n     - x (number) x coordinate of the centre\n     - y (number) y coordinate of the centre\n     - rx (number) horizontal radius\n     - ry (number) vertical radius\n     = (object) the `ellipse` element\n     **\n     > Usage\n     | var c = paper.ellipse(50, 50, 40, 20);\n    \\*/\n    proto.ellipse = function (cx, cy, rx, ry) {\n        var attr;\n        if (is(cx, \"object\") && cx == \"[object Object]\") {\n            attr = cx;\n        } else if (cx != null) {\n            attr ={\n                cx: cx,\n                cy: cy,\n                rx: rx,\n                ry: ry\n            };\n        }\n        return this.el(\"ellipse\", attr);\n    };\n    // SIERRA Paper.path(): Unclear from the link what a Catmull-Rom curveto is, and why it would make life any easier.\n    /*\\\n     * Paper.path\n     [ method ]\n     **\n     * Creates a `<path>` element using the given string as the path's definition\n     - pathString (string) #optional path string in SVG format\n     * Path string consists of one-letter commands, followed by comma seprarated arguments in numerical form. Example:\n     | \"M10,20L30,40\"\n     * This example features two commands: `M`, with arguments `(10, 20)` and `L` with arguments `(30, 40)`. Uppercase letter commands express coordinates in absolute terms, while lowercase commands express them in relative terms from the most recently declared coordinates.\n     *\n     # <p>Here is short list of commands available, for more details see <a href=\"http://www.w3.org/TR/SVG/paths.html#PathData\" title=\"Details of a path's data attribute's format are described in the SVG specification.\">SVG path string format</a> or <a href=\"https://developer.mozilla.org/en/SVG/Tutorial/Paths\">article about path strings at MDN</a>.</p>\n     # <table><thead><tr><th>Command</th><th>Name</th><th>Parameters</th></tr></thead><tbody>\n     # <tr><td>M</td><td>moveto</td><td>(x y)+</td></tr>\n     # <tr><td>Z</td><td>closepath</td><td>(none)</td></tr>\n     # <tr><td>L</td><td>lineto</td><td>(x y)+</td></tr>\n     # <tr><td>H</td><td>horizontal lineto</td><td>x+</td></tr>\n     # <tr><td>V</td><td>vertical lineto</td><td>y+</td></tr>\n     # <tr><td>C</td><td>curveto</td><td>(x1 y1 x2 y2 x y)+</td></tr>\n     # <tr><td>S</td><td>smooth curveto</td><td>(x2 y2 x y)+</td></tr>\n     # <tr><td>Q</td><td>quadratic Bézier curveto</td><td>(x1 y1 x y)+</td></tr>\n     # <tr><td>T</td><td>smooth quadratic Bézier curveto</td><td>(x y)+</td></tr>\n     # <tr><td>A</td><td>elliptical arc</td><td>(rx ry x-axis-rotation large-arc-flag sweep-flag x y)+</td></tr>\n     # <tr><td>R</td><td><a href=\"http://en.wikipedia.org/wiki/Catmull–Rom_spline#Catmull.E2.80.93Rom_spline\">Catmull-Rom curveto</a>*</td><td>x1 y1 (x y)+</td></tr></tbody></table>\n     * * _Catmull-Rom curveto_ is a not standard SVG command and added to make life easier.\n     * Note: there is a special case when a path consists of only three commands: `M10,10R…z`. In this case the path connects back to its starting point.\n     > Usage\n     | var c = paper.path(\"M10 10L90 90\");\n     | // draw a diagonal line:\n     | // move to 10,10, line to 90,90\n    \\*/\n    proto.path = function (d) {\n        var attr;\n        if (is(d, \"object\") && !is(d, \"array\")) {\n            attr = d;\n        } else if (d) {\n            attr = {d: d};\n        }\n        return this.el(\"path\", attr);\n    };\n    /*\\\n     * Paper.g\n     [ method ]\n     **\n     * Creates a group element\n     **\n     - varargs (…) #optional elements to nest within the group\n     = (object) the `g` element\n     **\n     > Usage\n     | var c1 = paper.circle(),\n     |     c2 = paper.rect(),\n     |     g = paper.g(c2, c1); // note that the order of elements is different\n     * or\n     | var c1 = paper.circle(),\n     |     c2 = paper.rect(),\n     |     g = paper.g();\n     | g.add(c2, c1);\n    \\*/\n    /*\\\n     * Paper.group\n     [ method ]\n     **\n     * See @Paper.g\n    \\*/\n    proto.group = proto.g = function (first) {\n        var attr,\n            el = this.el(\"g\");\n        if (arguments.length == 1 && first && !first.type) {\n            el.attr(first);\n        } else if (arguments.length) {\n            el.add(Array.prototype.slice.call(arguments, 0));\n        }\n        return el;\n    };\n    /*\\\n     * Paper.svg\n     [ method ]\n     **\n     * Creates a nested SVG element.\n     - x (number) @optional X of the element\n     - y (number) @optional Y of the element\n     - width (number) @optional width of the element\n     - height (number) @optional height of the element\n     - vbx (number) @optional viewbox X\n     - vby (number) @optional viewbox Y\n     - vbw (number) @optional viewbox width\n     - vbh (number) @optional viewbox height\n     **\n     = (object) the `svg` element\n     **\n    \\*/\n    proto.svg = function (x, y, width, height, vbx, vby, vbw, vbh) {\n        var attrs = {};\n        if (is(x, \"object\") && y == null) {\n            attrs = x;\n        } else {\n            if (x != null) {\n                attrs.x = x;\n            }\n            if (y != null) {\n                attrs.y = y;\n            }\n            if (width != null) {\n                attrs.width = width;\n            }\n            if (height != null) {\n                attrs.height = height;\n            }\n            if (vbx != null && vby != null && vbw != null && vbh != null) {\n                attrs.viewBox = [vbx, vby, vbw, vbh];\n            }\n        }\n        return this.el(\"svg\", attrs);\n    };\n    /*\\\n     * Paper.mask\n     [ method ]\n     **\n     * Equivalent in behaviour to @Paper.g, except it’s a mask.\n     **\n     = (object) the `mask` element\n     **\n    \\*/\n    proto.mask = function (first) {\n        var attr,\n            el = this.el(\"mask\");\n        if (arguments.length == 1 && first && !first.type) {\n            el.attr(first);\n        } else if (arguments.length) {\n            el.add(Array.prototype.slice.call(arguments, 0));\n        }\n        return el;\n    };\n    /*\\\n     * Paper.ptrn\n     [ method ]\n     **\n     * Equivalent in behaviour to @Paper.g, except it’s a pattern.\n     - x (number) @optional X of the element\n     - y (number) @optional Y of the element\n     - width (number) @optional width of the element\n     - height (number) @optional height of the element\n     - vbx (number) @optional viewbox X\n     - vby (number) @optional viewbox Y\n     - vbw (number) @optional viewbox width\n     - vbh (number) @optional viewbox height\n     **\n     = (object) the `pattern` element\n     **\n    \\*/\n    proto.ptrn = function (x, y, width, height, vx, vy, vw, vh) {\n        if (is(x, \"object\")) {\n            var attr = x;\n        } else {\n            attr = {patternUnits: \"userSpaceOnUse\"};\n            if (x) {\n                attr.x = x;\n            }\n            if (y) {\n                attr.y = y;\n            }\n            if (width != null) {\n                attr.width = width;\n            }\n            if (height != null) {\n                attr.height = height;\n            }\n            if (vx != null && vy != null && vw != null && vh != null) {\n                attr.viewBox = [vx, vy, vw, vh];\n            } else {\n                attr.viewBox = [x || 0, y || 0, width || 0, height || 0];\n            }\n        }\n        return this.el(\"pattern\", attr);\n    };\n    /*\\\n     * Paper.use\n     [ method ]\n     **\n     * Creates a <use> element.\n     - id (string) @optional id of element to link\n     * or\n     - id (Element) @optional element to link\n     **\n     = (object) the `use` element\n     **\n    \\*/\n    proto.use = function (id) {\n        if (id != null) {\n            if (id instanceof Element) {\n                if (!id.attr(\"id\")) {\n                    id.attr({id: Snap._.id(id)});\n                }\n                id = id.attr(\"id\");\n            }\n            if (String(id).charAt() == \"#\") {\n                id = id.substring(1);\n            }\n            return this.el(\"use\", {\"xlink:href\": \"#\" + id});\n        } else {\n            return Element.prototype.use.call(this);\n        }\n    };\n    /*\\\n     * Paper.symbol\n     [ method ]\n     **\n     * Creates a <symbol> element.\n     - vbx (number) @optional viewbox X\n     - vby (number) @optional viewbox Y\n     - vbw (number) @optional viewbox width\n     - vbh (number) @optional viewbox height\n     = (object) the `symbol` element\n     **\n    \\*/\n    proto.symbol = function (vx, vy, vw, vh) {\n        var attr = {};\n        if (vx != null && vy != null && vw != null && vh != null) {\n            attr.viewBox = [vx, vy, vw, vh];\n        }\n\n        return this.el(\"symbol\", attr);\n    };\n    /*\\\n     * Paper.text\n     [ method ]\n     **\n     * Draws a text string\n     **\n     - x (number) x coordinate position\n     - y (number) y coordinate position\n     - text (string|array) The text string to draw or array of strings to nest within separate `<tspan>` elements\n     = (object) the `text` element\n     **\n     > Usage\n     | var t1 = paper.text(50, 50, \"Snap\");\n     | var t2 = paper.text(50, 50, [\"S\",\"n\",\"a\",\"p\"]);\n     | // Text path usage\n     | t1.attr({textpath: \"M10,10L100,100\"});\n     | // or\n     | var pth = paper.path(\"M10,10L100,100\");\n     | t1.attr({textpath: pth});\n    \\*/\n    proto.text = function (x, y, text) {\n        var attr = {};\n        if (is(x, \"object\")) {\n            attr = x;\n        } else if (x != null) {\n            attr = {\n                x: x,\n                y: y,\n                text: text || \"\"\n            };\n        }\n        return this.el(\"text\", attr);\n    };\n    /*\\\n     * Paper.line\n     [ method ]\n     **\n     * Draws a line\n     **\n     - x1 (number) x coordinate position of the start\n     - y1 (number) y coordinate position of the start\n     - x2 (number) x coordinate position of the end\n     - y2 (number) y coordinate position of the end\n     = (object) the `line` element\n     **\n     > Usage\n     | var t1 = paper.line(50, 50, 100, 100);\n    \\*/\n    proto.line = function (x1, y1, x2, y2) {\n        var attr = {};\n        if (is(x1, \"object\")) {\n            attr = x1;\n        } else if (x1 != null) {\n            attr = {\n                x1: x1,\n                x2: x2,\n                y1: y1,\n                y2: y2\n            };\n        }\n        return this.el(\"line\", attr);\n    };\n    /*\\\n     * Paper.polyline\n     [ method ]\n     **\n     * Draws a polyline\n     **\n     - points (array) array of points\n     * or\n     - varargs (…) points\n     = (object) the `polyline` element\n     **\n     > Usage\n     | var p1 = paper.polyline([10, 10, 100, 100]);\n     | var p2 = paper.polyline(10, 10, 100, 100);\n    \\*/\n    proto.polyline = function (points) {\n        if (arguments.length > 1) {\n            points = Array.prototype.slice.call(arguments, 0);\n        }\n        var attr = {};\n        if (is(points, \"object\") && !is(points, \"array\")) {\n            attr = points;\n        } else if (points != null) {\n            attr = {points: points};\n        }\n        return this.el(\"polyline\", attr);\n    };\n    /*\\\n     * Paper.polygon\n     [ method ]\n     **\n     * Draws a polygon. See @Paper.polyline\n    \\*/\n    proto.polygon = function (points) {\n        if (arguments.length > 1) {\n            points = Array.prototype.slice.call(arguments, 0);\n        }\n        var attr = {};\n        if (is(points, \"object\") && !is(points, \"array\")) {\n            attr = points;\n        } else if (points != null) {\n            attr = {points: points};\n        }\n        return this.el(\"polygon\", attr);\n    };\n    // gradients\n    (function () {\n        var $ = Snap._.$;\n        // gradients' helpers\n        /*\\\n         * Element.stops\n         [ method ]\n         **\n         * Only for gradients!\n         * Returns array of gradient stops elements.\n         = (array) the stops array.\n        \\*/\n        function Gstops() {\n            return this.selectAll(\"stop\");\n        }\n        /*\\\n         * Element.addStop\n         [ method ]\n         **\n         * Only for gradients!\n         * Adds another stop to the gradient.\n         - color (string) stops color\n         - offset (number) stops offset 0..100\n         = (object) gradient element\n        \\*/\n        function GaddStop(color, offset) {\n            var stop = $(\"stop\"),\n                attr = {\n                    offset: +offset + \"%\"\n                };\n            color = Snap.color(color);\n            attr[\"stop-color\"] = color.hex;\n            if (color.opacity < 1) {\n                attr[\"stop-opacity\"] = color.opacity;\n            }\n            $(stop, attr);\n            var stops = this.stops(),\n                inserted;\n            for (var i = 0; i < stops.length; i++) {\n                var stopOffset = parseFloat(stops[i].attr(\"offset\"));\n                if (stopOffset > offset) {\n                    this.node.insertBefore(stop, stops[i].node);\n                    inserted = true;\n                    break;\n                }\n            }\n            if (!inserted) {\n                this.node.appendChild(stop);\n            }\n            return this;\n        }\n        function GgetBBox() {\n            if (this.type == \"linearGradient\") {\n                var x1 = $(this.node, \"x1\") || 0,\n                    x2 = $(this.node, \"x2\") || 1,\n                    y1 = $(this.node, \"y1\") || 0,\n                    y2 = $(this.node, \"y2\") || 0;\n                return Snap._.box(x1, y1, math.abs(x2 - x1), math.abs(y2 - y1));\n            } else {\n                var cx = this.node.cx || .5,\n                    cy = this.node.cy || .5,\n                    r = this.node.r || 0;\n                return Snap._.box(cx - r, cy - r, r * 2, r * 2);\n            }\n        }\n        /*\\\n         * Element.setStops\n         [ method ]\n         **\n         * Only for gradients!\n         * Updates stops of the gradient based on passed gradient descriptor. See @Ppaer.gradient\n         - str (string) gradient descriptor part after `()`.\n         = (object) gradient element\n         | var g = paper.gradient(\"l(0, 0, 1, 1)#000-#f00-#fff\");\n         | g.setStops(\"#fff-#000-#f00-#fc0\");\n        \\*/\n        function GsetStops(str) {\n            var grad = str,\n                stops = this.stops();\n            if (typeof str == \"string\") {\n                grad = eve(\"snap.util.grad.parse\", null, \"l(0,0,0,1)\" + str).firstDefined().stops;\n            }\n            if (!Snap.is(grad, \"array\")) {\n                return;\n            }\n            for (var i = 0; i < stops.length; i++) {\n                if (grad[i]) {\n                    var color = Snap.color(grad[i].color),\n                        attr = {\"offset\": grad[i].offset + \"%\"};\n                    attr[\"stop-color\"] = color.hex;\n                    if (color.opacity < 1) {\n                        attr[\"stop-opacity\"] = color.opacity;\n                    }\n                    stops[i].attr(attr);\n                } else {\n                    stops[i].remove();\n                }\n            }\n            for (i = stops.length; i < grad.length; i++) {\n                this.addStop(grad[i].color, grad[i].offset);\n            }\n            return this;\n        }\n        function gradient(defs, str) {\n            var grad = eve(\"snap.util.grad.parse\", null, str).firstDefined(),\n                el;\n            if (!grad) {\n                return null;\n            }\n            grad.params.unshift(defs);\n            if (grad.type.toLowerCase() == \"l\") {\n                el = gradientLinear.apply(0, grad.params);\n            } else {\n                el = gradientRadial.apply(0, grad.params);\n            }\n            if (grad.type != grad.type.toLowerCase()) {\n                $(el.node, {\n                    gradientUnits: \"userSpaceOnUse\"\n                });\n            }\n            var stops = grad.stops,\n                len = stops.length;\n            for (var i = 0; i < len; i++) {\n                var stop = stops[i];\n                el.addStop(stop.color, stop.offset);\n            }\n            return el;\n        }\n        function gradientLinear(defs, x1, y1, x2, y2) {\n            var el = Snap._.make(\"linearGradient\", defs);\n            el.stops = Gstops;\n            el.addStop = GaddStop;\n            el.getBBox = GgetBBox;\n            el.setStops = GsetStops;\n            if (x1 != null) {\n                $(el.node, {\n                    x1: x1,\n                    y1: y1,\n                    x2: x2,\n                    y2: y2\n                });\n            }\n            return el;\n        }\n        function gradientRadial(defs, cx, cy, r, fx, fy) {\n            var el = Snap._.make(\"radialGradient\", defs);\n            el.stops = Gstops;\n            el.addStop = GaddStop;\n            el.getBBox = GgetBBox;\n            if (cx != null) {\n                $(el.node, {\n                    cx: cx,\n                    cy: cy,\n                    r: r\n                });\n            }\n            if (fx != null && fy != null) {\n                $(el.node, {\n                    fx: fx,\n                    fy: fy\n                });\n            }\n            return el;\n        }\n        /*\\\n         * Paper.gradient\n         [ method ]\n         **\n         * Creates a gradient element\n         **\n         - gradient (string) gradient descriptor\n         > Gradient Descriptor\n         * The gradient descriptor is an expression formatted as\n         * follows: `<type>(<coords>)<colors>`.  The `<type>` can be\n         * either linear or radial.  The uppercase `L` or `R` letters\n         * indicate absolute coordinates offset from the SVG surface.\n         * Lowercase `l` or `r` letters indicate coordinates\n         * calculated relative to the element to which the gradient is\n         * applied.  Coordinates specify a linear gradient vector as\n         * `x1`, `y1`, `x2`, `y2`, or a radial gradient as `cx`, `cy`,\n         * `r` and optional `fx`, `fy` specifying a focal point away\n         * from the center of the circle. Specify `<colors>` as a list\n         * of dash-separated CSS color values.  Each color may be\n         * followed by a custom offset value, separated with a colon\n         * character.\n         > Examples\n         * Linear gradient, relative from top-left corner to bottom-right\n         * corner, from black through red to white:\n         | var g = paper.gradient(\"l(0, 0, 1, 1)#000-#f00-#fff\");\n         * Linear gradient, absolute from (0, 0) to (100, 100), from black\n         * through red at 25% to white:\n         | var g = paper.gradient(\"L(0, 0, 100, 100)#000-#f00:25-#fff\");\n         * Radial gradient, relative from the center of the element with radius\n         * half the width, from black to white:\n         | var g = paper.gradient(\"r(0.5, 0.5, 0.5)#000-#fff\");\n         * To apply the gradient:\n         | paper.circle(50, 50, 40).attr({\n         |     fill: g\n         | });\n         = (object) the `gradient` element\n        \\*/\n        proto.gradient = function (str) {\n            return gradient(this.defs, str);\n        };\n        proto.gradientLinear = function (x1, y1, x2, y2) {\n            return gradientLinear(this.defs, x1, y1, x2, y2);\n        };\n        proto.gradientRadial = function (cx, cy, r, fx, fy) {\n            return gradientRadial(this.defs, cx, cy, r, fx, fy);\n        };\n        /*\\\n         * Paper.toString\n         [ method ]\n         **\n         * Returns SVG code for the @Paper\n         = (string) SVG code for the @Paper\n        \\*/\n        proto.toString = function () {\n            var doc = this.node.ownerDocument,\n                f = doc.createDocumentFragment(),\n                d = doc.createElement(\"div\"),\n                svg = this.node.cloneNode(true),\n                res;\n            f.appendChild(d);\n            d.appendChild(svg);\n            Snap._.$(svg, {xmlns: \"http://www.w3.org/2000/svg\"});\n            res = d.innerHTML;\n            f.removeChild(f.firstChild);\n            return res;\n        };\n        /*\\\n         * Paper.toDataURL\n         [ method ]\n         **\n         * Returns SVG code for the @Paper as Data URI string.\n         = (string) Data URI string\n        \\*/\n        proto.toDataURL = function () {\n            if (window && window.btoa) {\n                return \"data:image/svg+xml;base64,\" + btoa(unescape(encodeURIComponent(this)));\n            }\n        };\n        /*\\\n         * Paper.clear\n         [ method ]\n         **\n         * Removes all child nodes of the paper, except <defs>.\n        \\*/\n        proto.clear = function () {\n            var node = this.node.firstChild,\n                next;\n            while (node) {\n                next = node.nextSibling;\n                if (node.tagName != \"defs\") {\n                    node.parentNode.removeChild(node);\n                } else {\n                    proto.clear.call({node: node});\n                }\n                node = next;\n            }\n        };\n    }());\n});\n\n// Copyright (c) 2013 Adobe Systems Incorporated. All rights reserved.\n//\n// Licensed under the Apache License, Version 2.0 (the \"License\");\n// you may not use this file except in compliance with the License.\n// You may obtain a copy of the License at\n//\n// http://www.apache.org/licenses/LICENSE-2.0\n//\n// Unless required by applicable law or agreed to in writing, software\n// distributed under the License is distributed on an \"AS IS\" BASIS,\n// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.\n// See the License for the specific language governing permissions and\n// limitations under the License.\nSnap.plugin(function (Snap, Element, Paper, glob) {\n    var elproto = Element.prototype,\n        is = Snap.is,\n        clone = Snap._.clone,\n        has = \"hasOwnProperty\",\n        p2s = /,?([a-z]),?/gi,\n        toFloat = parseFloat,\n        math = Math,\n        PI = math.PI,\n        mmin = math.min,\n        mmax = math.max,\n        pow = math.pow,\n        abs = math.abs;\n    function paths(ps) {\n        var p = paths.ps = paths.ps || {};\n        if (p[ps]) {\n            p[ps].sleep = 100;\n        } else {\n            p[ps] = {\n                sleep: 100\n            };\n        }\n        setTimeout(function () {\n            for (var key in p) if (p[has](key) && key != ps) {\n                p[key].sleep--;\n                !p[key].sleep && delete p[key];\n            }\n        });\n        return p[ps];\n    }\n    function box(x, y, width, height) {\n        if (x == null) {\n            x = y = width = height = 0;\n        }\n        if (y == null) {\n            y = x.y;\n            width = x.width;\n            height = x.height;\n            x = x.x;\n        }\n        return {\n            x: x,\n            y: y,\n            width: width,\n            w: width,\n            height: height,\n            h: height,\n            x2: x + width,\n            y2: y + height,\n            cx: x + width / 2,\n            cy: y + height / 2,\n            r1: math.min(width, height) / 2,\n            r2: math.max(width, height) / 2,\n            r0: math.sqrt(width * width + height * height) / 2,\n            path: rectPath(x, y, width, height),\n            vb: [x, y, width, height].join(\" \")\n        };\n    }\n    function toString() {\n        return this.join(\",\").replace(p2s, \"$1\");\n    }\n    function pathClone(pathArray) {\n        var res = clone(pathArray);\n        res.toString = toString;\n        return res;\n    }\n    function getPointAtSegmentLength(p1x, p1y, c1x, c1y, c2x, c2y, p2x, p2y, length) {\n        if (length == null) {\n            return bezlen(p1x, p1y, c1x, c1y, c2x, c2y, p2x, p2y);\n        } else {\n            return findDotsAtSegment(p1x, p1y, c1x, c1y, c2x, c2y, p2x, p2y,\n                getTotLen(p1x, p1y, c1x, c1y, c2x, c2y, p2x, p2y, length));\n        }\n    }\n    function getLengthFactory(istotal, subpath) {\n        function O(val) {\n            return +(+val).toFixed(3);\n        }\n        return Snap._.cacher(function (path, length, onlystart) {\n            if (path instanceof Element) {\n                path = path.attr(\"d\");\n            }\n            path = path2curve(path);\n            var x, y, p, l, sp = \"\", subpaths = {}, point,\n                len = 0;\n            for (var i = 0, ii = path.length; i < ii; i++) {\n                p = path[i];\n                if (p[0] == \"M\") {\n                    x = +p[1];\n                    y = +p[2];\n                } else {\n                    l = getPointAtSegmentLength(x, y, p[1], p[2], p[3], p[4], p[5], p[6]);\n                    if (len + l > length) {\n                        if (subpath && !subpaths.start) {\n                            point = getPointAtSegmentLength(x, y, p[1], p[2], p[3], p[4], p[5], p[6], length - len);\n                            sp += [\n                                \"C\" + O(point.start.x),\n                                O(point.start.y),\n                                O(point.m.x),\n                                O(point.m.y),\n                                O(point.x),\n                                O(point.y)\n                            ];\n                            if (onlystart) {return sp;}\n                            subpaths.start = sp;\n                            sp = [\n                                \"M\" + O(point.x),\n                                O(point.y) + \"C\" + O(point.n.x),\n                                O(point.n.y),\n                                O(point.end.x),\n                                O(point.end.y),\n                                O(p[5]),\n                                O(p[6])\n                            ].join();\n                            len += l;\n                            x = +p[5];\n                            y = +p[6];\n                            continue;\n                        }\n                        if (!istotal && !subpath) {\n                            point = getPointAtSegmentLength(x, y, p[1], p[2], p[3], p[4], p[5], p[6], length - len);\n                            return point;\n                        }\n                    }\n                    len += l;\n                    x = +p[5];\n                    y = +p[6];\n                }\n                sp += p.shift() + p;\n            }\n            subpaths.end = sp;\n            point = istotal ? len : subpath ? subpaths : findDotsAtSegment(x, y, p[0], p[1], p[2], p[3], p[4], p[5], 1);\n            return point;\n        }, null, Snap._.clone);\n    }\n    var getTotalLength = getLengthFactory(1),\n        getPointAtLength = getLengthFactory(),\n        getSubpathsAtLength = getLengthFactory(0, 1);\n    function findDotsAtSegment(p1x, p1y, c1x, c1y, c2x, c2y, p2x, p2y, t) {\n        var t1 = 1 - t,\n            t13 = pow(t1, 3),\n            t12 = pow(t1, 2),\n            t2 = t * t,\n            t3 = t2 * t,\n            x = t13 * p1x + t12 * 3 * t * c1x + t1 * 3 * t * t * c2x + t3 * p2x,\n            y = t13 * p1y + t12 * 3 * t * c1y + t1 * 3 * t * t * c2y + t3 * p2y,\n            mx = p1x + 2 * t * (c1x - p1x) + t2 * (c2x - 2 * c1x + p1x),\n            my = p1y + 2 * t * (c1y - p1y) + t2 * (c2y - 2 * c1y + p1y),\n            nx = c1x + 2 * t * (c2x - c1x) + t2 * (p2x - 2 * c2x + c1x),\n            ny = c1y + 2 * t * (c2y - c1y) + t2 * (p2y - 2 * c2y + c1y),\n            ax = t1 * p1x + t * c1x,\n            ay = t1 * p1y + t * c1y,\n            cx = t1 * c2x + t * p2x,\n            cy = t1 * c2y + t * p2y,\n            alpha = 90 - math.atan2(mx - nx, my - ny) * 180 / PI;\n        // (mx > nx || my < ny) && (alpha += 180);\n        return {\n            x: x,\n            y: y,\n            m: {x: mx, y: my},\n            n: {x: nx, y: ny},\n            start: {x: ax, y: ay},\n            end: {x: cx, y: cy},\n            alpha: alpha\n        };\n    }\n    function bezierBBox(p1x, p1y, c1x, c1y, c2x, c2y, p2x, p2y) {\n        if (!Snap.is(p1x, \"array\")) {\n            p1x = [p1x, p1y, c1x, c1y, c2x, c2y, p2x, p2y];\n        }\n        var bbox = curveDim.apply(null, p1x);\n        return box(\n            bbox.min.x,\n            bbox.min.y,\n            bbox.max.x - bbox.min.x,\n            bbox.max.y - bbox.min.y\n        );\n    }\n    function isPointInsideBBox(bbox, x, y) {\n        return  x >= bbox.x &&\n                x <= bbox.x + bbox.width &&\n                y >= bbox.y &&\n                y <= bbox.y + bbox.height;\n    }\n    function isBBoxIntersect(bbox1, bbox2) {\n        bbox1 = box(bbox1);\n        bbox2 = box(bbox2);\n        return isPointInsideBBox(bbox2, bbox1.x, bbox1.y)\n            || isPointInsideBBox(bbox2, bbox1.x2, bbox1.y)\n            || isPointInsideBBox(bbox2, bbox1.x, bbox1.y2)\n            || isPointInsideBBox(bbox2, bbox1.x2, bbox1.y2)\n            || isPointInsideBBox(bbox1, bbox2.x, bbox2.y)\n            || isPointInsideBBox(bbox1, bbox2.x2, bbox2.y)\n            || isPointInsideBBox(bbox1, bbox2.x, bbox2.y2)\n            || isPointInsideBBox(bbox1, bbox2.x2, bbox2.y2)\n            || (bbox1.x < bbox2.x2 && bbox1.x > bbox2.x\n                || bbox2.x < bbox1.x2 && bbox2.x > bbox1.x)\n            && (bbox1.y < bbox2.y2 && bbox1.y > bbox2.y\n                || bbox2.y < bbox1.y2 && bbox2.y > bbox1.y);\n    }\n    function base3(t, p1, p2, p3, p4) {\n        var t1 = -3 * p1 + 9 * p2 - 9 * p3 + 3 * p4,\n            t2 = t * t1 + 6 * p1 - 12 * p2 + 6 * p3;\n        return t * t2 - 3 * p1 + 3 * p2;\n    }\n    function bezlen(x1, y1, x2, y2, x3, y3, x4, y4, z) {\n        if (z == null) {\n            z = 1;\n        }\n        z = z > 1 ? 1 : z < 0 ? 0 : z;\n        var z2 = z / 2,\n            n = 12,\n            Tvalues = [-.1252,.1252,-.3678,.3678,-.5873,.5873,-.7699,.7699,-.9041,.9041,-.9816,.9816],\n            Cvalues = [0.2491,0.2491,0.2335,0.2335,0.2032,0.2032,0.1601,0.1601,0.1069,0.1069,0.0472,0.0472],\n            sum = 0;\n        for (var i = 0; i < n; i++) {\n            var ct = z2 * Tvalues[i] + z2,\n                xbase = base3(ct, x1, x2, x3, x4),\n                ybase = base3(ct, y1, y2, y3, y4),\n                comb = xbase * xbase + ybase * ybase;\n            sum += Cvalues[i] * math.sqrt(comb);\n        }\n        return z2 * sum;\n    }\n    function getTotLen(x1, y1, x2, y2, x3, y3, x4, y4, ll) {\n        if (ll < 0 || bezlen(x1, y1, x2, y2, x3, y3, x4, y4) < ll) {\n            return;\n        }\n        var t = 1,\n            step = t / 2,\n            t2 = t - step,\n            l,\n            e = .01;\n        l = bezlen(x1, y1, x2, y2, x3, y3, x4, y4, t2);\n        while (abs(l - ll) > e) {\n            step /= 2;\n            t2 += (l < ll ? 1 : -1) * step;\n            l = bezlen(x1, y1, x2, y2, x3, y3, x4, y4, t2);\n        }\n        return t2;\n    }\n    function intersect(x1, y1, x2, y2, x3, y3, x4, y4) {\n        if (\n            mmax(x1, x2) < mmin(x3, x4) ||\n            mmin(x1, x2) > mmax(x3, x4) ||\n            mmax(y1, y2) < mmin(y3, y4) ||\n            mmin(y1, y2) > mmax(y3, y4)\n        ) {\n            return;\n        }\n        var nx = (x1 * y2 - y1 * x2) * (x3 - x4) - (x1 - x2) * (x3 * y4 - y3 * x4),\n            ny = (x1 * y2 - y1 * x2) * (y3 - y4) - (y1 - y2) * (x3 * y4 - y3 * x4),\n            denominator = (x1 - x2) * (y3 - y4) - (y1 - y2) * (x3 - x4);\n\n        if (!denominator) {\n            return;\n        }\n        var px = nx / denominator,\n            py = ny / denominator,\n            px2 = +px.toFixed(2),\n            py2 = +py.toFixed(2);\n        if (\n            px2 < +mmin(x1, x2).toFixed(2) ||\n            px2 > +mmax(x1, x2).toFixed(2) ||\n            px2 < +mmin(x3, x4).toFixed(2) ||\n            px2 > +mmax(x3, x4).toFixed(2) ||\n            py2 < +mmin(y1, y2).toFixed(2) ||\n            py2 > +mmax(y1, y2).toFixed(2) ||\n            py2 < +mmin(y3, y4).toFixed(2) ||\n            py2 > +mmax(y3, y4).toFixed(2)\n        ) {\n            return;\n        }\n        return {x: px, y: py};\n    }\n    function inter(bez1, bez2) {\n        return interHelper(bez1, bez2);\n    }\n    function interCount(bez1, bez2) {\n        return interHelper(bez1, bez2, 1);\n    }\n    function interHelper(bez1, bez2, justCount) {\n        var bbox1 = bezierBBox(bez1),\n            bbox2 = bezierBBox(bez2);\n        if (!isBBoxIntersect(bbox1, bbox2)) {\n            return justCount ? 0 : [];\n        }\n        var l1 = bezlen.apply(0, bez1),\n            l2 = bezlen.apply(0, bez2),\n            n1 = ~~(l1 / 8),\n            n2 = ~~(l2 / 8),\n            dots1 = [],\n            dots2 = [],\n            xy = {},\n            res = justCount ? 0 : [];\n        for (var i = 0; i < n1 + 1; i++) {\n            var p = findDotsAtSegment.apply(0, bez1.concat(i / n1));\n            dots1.push({x: p.x, y: p.y, t: i / n1});\n        }\n        for (i = 0; i < n2 + 1; i++) {\n            p = findDotsAtSegment.apply(0, bez2.concat(i / n2));\n            dots2.push({x: p.x, y: p.y, t: i / n2});\n        }\n        for (i = 0; i < n1; i++) {\n            for (var j = 0; j < n2; j++) {\n                var di = dots1[i],\n                    di1 = dots1[i + 1],\n                    dj = dots2[j],\n                    dj1 = dots2[j + 1],\n                    ci = abs(di1.x - di.x) < .001 ? \"y\" : \"x\",\n                    cj = abs(dj1.x - dj.x) < .001 ? \"y\" : \"x\",\n                    is = intersect(di.x, di.y, di1.x, di1.y, dj.x, dj.y, dj1.x, dj1.y);\n                if (is) {\n                    if (xy[is.x.toFixed(4)] == is.y.toFixed(4)) {\n                        continue;\n                    }\n                    xy[is.x.toFixed(4)] = is.y.toFixed(4);\n                    var t1 = di.t + abs((is[ci] - di[ci]) / (di1[ci] - di[ci])) * (di1.t - di.t),\n                        t2 = dj.t + abs((is[cj] - dj[cj]) / (dj1[cj] - dj[cj])) * (dj1.t - dj.t);\n                    if (t1 >= 0 && t1 <= 1 && t2 >= 0 && t2 <= 1) {\n                        if (justCount) {\n                            res++;\n                        } else {\n                            res.push({\n                                x: is.x,\n                                y: is.y,\n                                t1: t1,\n                                t2: t2\n                            });\n                        }\n                    }\n                }\n            }\n        }\n        return res;\n    }\n    function pathIntersection(path1, path2) {\n        return interPathHelper(path1, path2);\n    }\n    function pathIntersectionNumber(path1, path2) {\n        return interPathHelper(path1, path2, 1);\n    }\n    function interPathHelper(path1, path2, justCount) {\n        path1 = path2curve(path1);\n        path2 = path2curve(path2);\n        var x1, y1, x2, y2, x1m, y1m, x2m, y2m, bez1, bez2,\n            res = justCount ? 0 : [];\n        for (var i = 0, ii = path1.length; i < ii; i++) {\n            var pi = path1[i];\n            if (pi[0] == \"M\") {\n                x1 = x1m = pi[1];\n                y1 = y1m = pi[2];\n            } else {\n                if (pi[0] == \"C\") {\n                    bez1 = [x1, y1].concat(pi.slice(1));\n                    x1 = bez1[6];\n                    y1 = bez1[7];\n                } else {\n                    bez1 = [x1, y1, x1, y1, x1m, y1m, x1m, y1m];\n                    x1 = x1m;\n                    y1 = y1m;\n                }\n                for (var j = 0, jj = path2.length; j < jj; j++) {\n                    var pj = path2[j];\n                    if (pj[0] == \"M\") {\n                        x2 = x2m = pj[1];\n                        y2 = y2m = pj[2];\n                    } else {\n                        if (pj[0] == \"C\") {\n                            bez2 = [x2, y2].concat(pj.slice(1));\n                            x2 = bez2[6];\n                            y2 = bez2[7];\n                        } else {\n                            bez2 = [x2, y2, x2, y2, x2m, y2m, x2m, y2m];\n                            x2 = x2m;\n                            y2 = y2m;\n                        }\n                        var intr = interHelper(bez1, bez2, justCount);\n                        if (justCount) {\n                            res += intr;\n                        } else {\n                            for (var k = 0, kk = intr.length; k < kk; k++) {\n                                intr[k].segment1 = i;\n                                intr[k].segment2 = j;\n                                intr[k].bez1 = bez1;\n                                intr[k].bez2 = bez2;\n                            }\n                            res = res.concat(intr);\n                        }\n                    }\n                }\n            }\n        }\n        return res;\n    }\n    function isPointInsidePath(path, x, y) {\n        var bbox = pathBBox(path);\n        return isPointInsideBBox(bbox, x, y) &&\n               interPathHelper(path, [[\"M\", x, y], [\"H\", bbox.x2 + 10]], 1) % 2 == 1;\n    }\n    function pathBBox(path) {\n        var pth = paths(path);\n        if (pth.bbox) {\n            return clone(pth.bbox);\n        }\n        if (!path) {\n            return box();\n        }\n        path = path2curve(path);\n        var x = 0,\n            y = 0,\n            X = [],\n            Y = [],\n            p;\n        for (var i = 0, ii = path.length; i < ii; i++) {\n            p = path[i];\n            if (p[0] == \"M\") {\n                x = p[1];\n                y = p[2];\n                X.push(x);\n                Y.push(y);\n            } else {\n                var dim = curveDim(x, y, p[1], p[2], p[3], p[4], p[5], p[6]);\n                X = X.concat(dim.min.x, dim.max.x);\n                Y = Y.concat(dim.min.y, dim.max.y);\n                x = p[5];\n                y = p[6];\n            }\n        }\n        var xmin = mmin.apply(0, X),\n            ymin = mmin.apply(0, Y),\n            xmax = mmax.apply(0, X),\n            ymax = mmax.apply(0, Y),\n            bb = box(xmin, ymin, xmax - xmin, ymax - ymin);\n        pth.bbox = clone(bb);\n        return bb;\n    }\n    function rectPath(x, y, w, h, r) {\n        if (r) {\n            return [\n                [\"M\", +x + +r, y],\n                [\"l\", w - r * 2, 0],\n                [\"a\", r, r, 0, 0, 1, r, r],\n                [\"l\", 0, h - r * 2],\n                [\"a\", r, r, 0, 0, 1, -r, r],\n                [\"l\", r * 2 - w, 0],\n                [\"a\", r, r, 0, 0, 1, -r, -r],\n                [\"l\", 0, r * 2 - h],\n                [\"a\", r, r, 0, 0, 1, r, -r],\n                [\"z\"]\n            ];\n        }\n        var res = [[\"M\", x, y], [\"l\", w, 0], [\"l\", 0, h], [\"l\", -w, 0], [\"z\"]];\n        res.toString = toString;\n        return res;\n    }\n    function ellipsePath(x, y, rx, ry, a) {\n        if (a == null && ry == null) {\n            ry = rx;\n        }\n        x = +x;\n        y = +y;\n        rx = +rx;\n        ry = +ry;\n        if (a != null) {\n            var rad = Math.PI / 180,\n                x1 = x + rx * Math.cos(-ry * rad),\n                x2 = x + rx * Math.cos(-a * rad),\n                y1 = y + rx * Math.sin(-ry * rad),\n                y2 = y + rx * Math.sin(-a * rad),\n                res = [[\"M\", x1, y1], [\"A\", rx, rx, 0, +(a - ry > 180), 0, x2, y2]];\n        } else {\n            res = [\n                [\"M\", x, y],\n                [\"m\", 0, -ry],\n                [\"a\", rx, ry, 0, 1, 1, 0, 2 * ry],\n                [\"a\", rx, ry, 0, 1, 1, 0, -2 * ry],\n                [\"z\"]\n            ];\n        }\n        res.toString = toString;\n        return res;\n    }\n    var unit2px = Snap._unit2px,\n        getPath = {\n        path: function (el) {\n            return el.attr(\"path\");\n        },\n        circle: function (el) {\n            var attr = unit2px(el);\n            return ellipsePath(attr.cx, attr.cy, attr.r);\n        },\n        ellipse: function (el) {\n            var attr = unit2px(el);\n            return ellipsePath(attr.cx || 0, attr.cy || 0, attr.rx, attr.ry);\n        },\n        rect: function (el) {\n            var attr = unit2px(el);\n            return rectPath(attr.x || 0, attr.y || 0, attr.width, attr.height, attr.rx, attr.ry);\n        },\n        image: function (el) {\n            var attr = unit2px(el);\n            return rectPath(attr.x || 0, attr.y || 0, attr.width, attr.height);\n        },\n        line: function (el) {\n            return \"M\" + [el.attr(\"x1\") || 0, el.attr(\"y1\") || 0, el.attr(\"x2\"), el.attr(\"y2\")];\n        },\n        polyline: function (el) {\n            return \"M\" + el.attr(\"points\");\n        },\n        polygon: function (el) {\n            return \"M\" + el.attr(\"points\") + \"z\";\n        },\n        deflt: function (el) {\n            var bbox = el.node.getBBox();\n            return rectPath(bbox.x, bbox.y, bbox.width, bbox.height);\n        }\n    };\n    function pathToRelative(pathArray) {\n        var pth = paths(pathArray),\n            lowerCase = String.prototype.toLowerCase;\n        if (pth.rel) {\n            return pathClone(pth.rel);\n        }\n        if (!Snap.is(pathArray, \"array\") || !Snap.is(pathArray && pathArray[0], \"array\")) {\n            pathArray = Snap.parsePathString(pathArray);\n        }\n        var res = [],\n            x = 0,\n            y = 0,\n            mx = 0,\n            my = 0,\n            start = 0;\n        if (pathArray[0][0] == \"M\") {\n            x = pathArray[0][1];\n            y = pathArray[0][2];\n            mx = x;\n            my = y;\n            start++;\n            res.push([\"M\", x, y]);\n        }\n        for (var i = start, ii = pathArray.length; i < ii; i++) {\n            var r = res[i] = [],\n                pa = pathArray[i];\n            if (pa[0] != lowerCase.call(pa[0])) {\n                r[0] = lowerCase.call(pa[0]);\n                switch (r[0]) {\n                    case \"a\":\n                        r[1] = pa[1];\n                        r[2] = pa[2];\n                        r[3] = pa[3];\n                        r[4] = pa[4];\n                        r[5] = pa[5];\n                        r[6] = +(pa[6] - x).toFixed(3);\n                        r[7] = +(pa[7] - y).toFixed(3);\n                        break;\n                    case \"v\":\n                        r[1] = +(pa[1] - y).toFixed(3);\n                        break;\n                    case \"m\":\n                        mx = pa[1];\n                        my = pa[2];\n                    default:\n                        for (var j = 1, jj = pa.length; j < jj; j++) {\n                            r[j] = +(pa[j] - (j % 2 ? x : y)).toFixed(3);\n                        }\n                }\n            } else {\n                r = res[i] = [];\n                if (pa[0] == \"m\") {\n                    mx = pa[1] + x;\n                    my = pa[2] + y;\n                }\n                for (var k = 0, kk = pa.length; k < kk; k++) {\n                    res[i][k] = pa[k];\n                }\n            }\n            var len = res[i].length;\n            switch (res[i][0]) {\n                case \"z\":\n                    x = mx;\n                    y = my;\n                    break;\n                case \"h\":\n                    x += +res[i][len - 1];\n                    break;\n                case \"v\":\n                    y += +res[i][len - 1];\n                    break;\n                default:\n                    x += +res[i][len - 2];\n                    y += +res[i][len - 1];\n            }\n        }\n        res.toString = toString;\n        pth.rel = pathClone(res);\n        return res;\n    }\n    function pathToAbsolute(pathArray) {\n        var pth = paths(pathArray);\n        if (pth.abs) {\n            return pathClone(pth.abs);\n        }\n        if (!is(pathArray, \"array\") || !is(pathArray && pathArray[0], \"array\")) { // rough assumption\n            pathArray = Snap.parsePathString(pathArray);\n        }\n        if (!pathArray || !pathArray.length) {\n            return [[\"M\", 0, 0]];\n        }\n        var res = [],\n            x = 0,\n            y = 0,\n            mx = 0,\n            my = 0,\n            start = 0,\n            pa0;\n        if (pathArray[0][0] == \"M\") {\n            x = +pathArray[0][1];\n            y = +pathArray[0][2];\n            mx = x;\n            my = y;\n            start++;\n            res[0] = [\"M\", x, y];\n        }\n        var crz = pathArray.length == 3 &&\n            pathArray[0][0] == \"M\" &&\n            pathArray[1][0].toUpperCase() == \"R\" &&\n            pathArray[2][0].toUpperCase() == \"Z\";\n        for (var r, pa, i = start, ii = pathArray.length; i < ii; i++) {\n            res.push(r = []);\n            pa = pathArray[i];\n            pa0 = pa[0];\n            if (pa0 != pa0.toUpperCase()) {\n                r[0] = pa0.toUpperCase();\n                switch (r[0]) {\n                    case \"A\":\n                        r[1] = pa[1];\n                        r[2] = pa[2];\n                        r[3] = pa[3];\n                        r[4] = pa[4];\n                        r[5] = pa[5];\n                        r[6] = +pa[6] + x;\n                        r[7] = +pa[7] + y;\n                        break;\n                    case \"V\":\n                        r[1] = +pa[1] + y;\n                        break;\n                    case \"H\":\n                        r[1] = +pa[1] + x;\n                        break;\n                    case \"R\":\n                        var dots = [x, y].concat(pa.slice(1));\n                        for (var j = 2, jj = dots.length; j < jj; j++) {\n                            dots[j] = +dots[j] + x;\n                            dots[++j] = +dots[j] + y;\n                        }\n                        res.pop();\n                        res = res.concat(catmullRom2bezier(dots, crz));\n                        break;\n                    case \"O\":\n                        res.pop();\n                        dots = ellipsePath(x, y, pa[1], pa[2]);\n                        dots.push(dots[0]);\n                        res = res.concat(dots);\n                        break;\n                    case \"U\":\n                        res.pop();\n                        res = res.concat(ellipsePath(x, y, pa[1], pa[2], pa[3]));\n                        r = [\"U\"].concat(res[res.length - 1].slice(-2));\n                        break;\n                    case \"M\":\n                        mx = +pa[1] + x;\n                        my = +pa[2] + y;\n                    default:\n                        for (j = 1, jj = pa.length; j < jj; j++) {\n                            r[j] = +pa[j] + (j % 2 ? x : y);\n                        }\n                }\n            } else if (pa0 == \"R\") {\n                dots = [x, y].concat(pa.slice(1));\n                res.pop();\n                res = res.concat(catmullRom2bezier(dots, crz));\n                r = [\"R\"].concat(pa.slice(-2));\n            } else if (pa0 == \"O\") {\n                res.pop();\n                dots = ellipsePath(x, y, pa[1], pa[2]);\n                dots.push(dots[0]);\n                res = res.concat(dots);\n            } else if (pa0 == \"U\") {\n                res.pop();\n                res = res.concat(ellipsePath(x, y, pa[1], pa[2], pa[3]));\n                r = [\"U\"].concat(res[res.length - 1].slice(-2));\n            } else {\n                for (var k = 0, kk = pa.length; k < kk; k++) {\n                    r[k] = pa[k];\n                }\n            }\n            pa0 = pa0.toUpperCase();\n            if (pa0 != \"O\") {\n                switch (r[0]) {\n                    case \"Z\":\n                        x = +mx;\n                        y = +my;\n                        break;\n                    case \"H\":\n                        x = r[1];\n                        break;\n                    case \"V\":\n                        y = r[1];\n                        break;\n                    case \"M\":\n                        mx = r[r.length - 2];\n                        my = r[r.length - 1];\n                    default:\n                        x = r[r.length - 2];\n                        y = r[r.length - 1];\n                }\n            }\n        }\n        res.toString = toString;\n        pth.abs = pathClone(res);\n        return res;\n    }\n    function l2c(x1, y1, x2, y2) {\n        return [x1, y1, x2, y2, x2, y2];\n    }\n    function q2c(x1, y1, ax, ay, x2, y2) {\n        var _13 = 1 / 3,\n            _23 = 2 / 3;\n        return [\n                _13 * x1 + _23 * ax,\n                _13 * y1 + _23 * ay,\n                _13 * x2 + _23 * ax,\n                _13 * y2 + _23 * ay,\n                x2,\n                y2\n            ];\n    }\n    function a2c(x1, y1, rx, ry, angle, large_arc_flag, sweep_flag, x2, y2, recursive) {\n        // for more information of where this math came from visit:\n        // http://www.w3.org/TR/SVG11/implnote.html#ArcImplementationNotes\n        var _120 = PI * 120 / 180,\n            rad = PI / 180 * (+angle || 0),\n            res = [],\n            xy,\n            rotate = Snap._.cacher(function (x, y, rad) {\n                var X = x * math.cos(rad) - y * math.sin(rad),\n                    Y = x * math.sin(rad) + y * math.cos(rad);\n                return {x: X, y: Y};\n            });\n        if (!rx || !ry) {\n            return [x1, y1, x2, y2, x2, y2];\n        }\n        if (!recursive) {\n            xy = rotate(x1, y1, -rad);\n            x1 = xy.x;\n            y1 = xy.y;\n            xy = rotate(x2, y2, -rad);\n            x2 = xy.x;\n            y2 = xy.y;\n            var cos = math.cos(PI / 180 * angle),\n                sin = math.sin(PI / 180 * angle),\n                x = (x1 - x2) / 2,\n                y = (y1 - y2) / 2;\n            var h = x * x / (rx * rx) + y * y / (ry * ry);\n            if (h > 1) {\n                h = math.sqrt(h);\n                rx = h * rx;\n                ry = h * ry;\n            }\n            var rx2 = rx * rx,\n                ry2 = ry * ry,\n                k = (large_arc_flag == sweep_flag ? -1 : 1) *\n                    math.sqrt(abs((rx2 * ry2 - rx2 * y * y - ry2 * x * x) / (rx2 * y * y + ry2 * x * x))),\n                cx = k * rx * y / ry + (x1 + x2) / 2,\n                cy = k * -ry * x / rx + (y1 + y2) / 2,\n                f1 = math.asin(((y1 - cy) / ry).toFixed(9)),\n                f2 = math.asin(((y2 - cy) / ry).toFixed(9));\n\n            f1 = x1 < cx ? PI - f1 : f1;\n            f2 = x2 < cx ? PI - f2 : f2;\n            f1 < 0 && (f1 = PI * 2 + f1);\n            f2 < 0 && (f2 = PI * 2 + f2);\n            if (sweep_flag && f1 > f2) {\n                f1 = f1 - PI * 2;\n            }\n            if (!sweep_flag && f2 > f1) {\n                f2 = f2 - PI * 2;\n            }\n        } else {\n            f1 = recursive[0];\n            f2 = recursive[1];\n            cx = recursive[2];\n            cy = recursive[3];\n        }\n        var df = f2 - f1;\n        if (abs(df) > _120) {\n            var f2old = f2,\n                x2old = x2,\n                y2old = y2;\n            f2 = f1 + _120 * (sweep_flag && f2 > f1 ? 1 : -1);\n            x2 = cx + rx * math.cos(f2);\n            y2 = cy + ry * math.sin(f2);\n            res = a2c(x2, y2, rx, ry, angle, 0, sweep_flag, x2old, y2old, [f2, f2old, cx, cy]);\n        }\n        df = f2 - f1;\n        var c1 = math.cos(f1),\n            s1 = math.sin(f1),\n            c2 = math.cos(f2),\n            s2 = math.sin(f2),\n            t = math.tan(df / 4),\n            hx = 4 / 3 * rx * t,\n            hy = 4 / 3 * ry * t,\n            m1 = [x1, y1],\n            m2 = [x1 + hx * s1, y1 - hy * c1],\n            m3 = [x2 + hx * s2, y2 - hy * c2],\n            m4 = [x2, y2];\n        m2[0] = 2 * m1[0] - m2[0];\n        m2[1] = 2 * m1[1] - m2[1];\n        if (recursive) {\n            return [m2, m3, m4].concat(res);\n        } else {\n            res = [m2, m3, m4].concat(res).join().split(\",\");\n            var newres = [];\n            for (var i = 0, ii = res.length; i < ii; i++) {\n                newres[i] = i % 2 ? rotate(res[i - 1], res[i], rad).y : rotate(res[i], res[i + 1], rad).x;\n            }\n            return newres;\n        }\n    }\n    function findDotAtSegment(p1x, p1y, c1x, c1y, c2x, c2y, p2x, p2y, t) {\n        var t1 = 1 - t;\n        return {\n            x: pow(t1, 3) * p1x + pow(t1, 2) * 3 * t * c1x + t1 * 3 * t * t * c2x + pow(t, 3) * p2x,\n            y: pow(t1, 3) * p1y + pow(t1, 2) * 3 * t * c1y + t1 * 3 * t * t * c2y + pow(t, 3) * p2y\n        };\n    }\n\n    // Returns bounding box of cubic bezier curve.\n    // Source: http://blog.hackers-cafe.net/2009/06/how-to-calculate-bezier-curves-bounding.html\n    // Original version: NISHIO Hirokazu\n    // Modifications: https://github.com/timo22345\n    function curveDim(x0, y0, x1, y1, x2, y2, x3, y3) {\n        var tvalues = [],\n            bounds = [[], []],\n            a, b, c, t, t1, t2, b2ac, sqrtb2ac;\n        for (var i = 0; i < 2; ++i) {\n            if (i == 0) {\n                b = 6 * x0 - 12 * x1 + 6 * x2;\n                a = -3 * x0 + 9 * x1 - 9 * x2 + 3 * x3;\n                c = 3 * x1 - 3 * x0;\n            } else {\n                b = 6 * y0 - 12 * y1 + 6 * y2;\n                a = -3 * y0 + 9 * y1 - 9 * y2 + 3 * y3;\n                c = 3 * y1 - 3 * y0;\n            }\n            if (abs(a) < 1e-12) {\n                if (abs(b) < 1e-12) {\n                    continue;\n                }\n                t = -c / b;\n                if (0 < t && t < 1) {\n                    tvalues.push(t);\n                }\n                continue;\n            }\n            b2ac = b * b - 4 * c * a;\n            sqrtb2ac = math.sqrt(b2ac);\n            if (b2ac < 0) {\n                continue;\n            }\n            t1 = (-b + sqrtb2ac) / (2 * a);\n            if (0 < t1 && t1 < 1) {\n                tvalues.push(t1);\n            }\n            t2 = (-b - sqrtb2ac) / (2 * a);\n            if (0 < t2 && t2 < 1) {\n                tvalues.push(t2);\n            }\n        }\n\n        var x, y, j = tvalues.length,\n            jlen = j,\n            mt;\n        while (j--) {\n            t = tvalues[j];\n            mt = 1 - t;\n            bounds[0][j] = mt * mt * mt * x0 + 3 * mt * mt * t * x1 + 3 * mt * t * t * x2 + t * t * t * x3;\n            bounds[1][j] = mt * mt * mt * y0 + 3 * mt * mt * t * y1 + 3 * mt * t * t * y2 + t * t * t * y3;\n        }\n\n        bounds[0][jlen] = x0;\n        bounds[1][jlen] = y0;\n        bounds[0][jlen + 1] = x3;\n        bounds[1][jlen + 1] = y3;\n        bounds[0].length = bounds[1].length = jlen + 2;\n\n\n        return {\n          min: {x: mmin.apply(0, bounds[0]), y: mmin.apply(0, bounds[1])},\n          max: {x: mmax.apply(0, bounds[0]), y: mmax.apply(0, bounds[1])}\n        };\n    }\n\n    function path2curve(path, path2) {\n        var pth = !path2 && paths(path);\n        if (!path2 && pth.curve) {\n            return pathClone(pth.curve);\n        }\n        var p = pathToAbsolute(path),\n            p2 = path2 && pathToAbsolute(path2),\n            attrs = {x: 0, y: 0, bx: 0, by: 0, X: 0, Y: 0, qx: null, qy: null},\n            attrs2 = {x: 0, y: 0, bx: 0, by: 0, X: 0, Y: 0, qx: null, qy: null},\n            processPath = function (path, d, pcom) {\n                var nx, ny;\n                if (!path) {\n                    return [\"C\", d.x, d.y, d.x, d.y, d.x, d.y];\n                }\n                !(path[0] in {T: 1, Q: 1}) && (d.qx = d.qy = null);\n                switch (path[0]) {\n                    case \"M\":\n                        d.X = path[1];\n                        d.Y = path[2];\n                        break;\n                    case \"A\":\n                        path = [\"C\"].concat(a2c.apply(0, [d.x, d.y].concat(path.slice(1))));\n                        break;\n                    case \"S\":\n                        if (pcom == \"C\" || pcom == \"S\") { // In \"S\" case we have to take into account, if the previous command is C/S.\n                            nx = d.x * 2 - d.bx;          // And reflect the previous\n                            ny = d.y * 2 - d.by;          // command's control point relative to the current point.\n                        }\n                        else {                            // or some else or nothing\n                            nx = d.x;\n                            ny = d.y;\n                        }\n                        path = [\"C\", nx, ny].concat(path.slice(1));\n                        break;\n                    case \"T\":\n                        if (pcom == \"Q\" || pcom == \"T\") { // In \"T\" case we have to take into account, if the previous command is Q/T.\n                            d.qx = d.x * 2 - d.qx;        // And make a reflection similar\n                            d.qy = d.y * 2 - d.qy;        // to case \"S\".\n                        }\n                        else {                            // or something else or nothing\n                            d.qx = d.x;\n                            d.qy = d.y;\n                        }\n                        path = [\"C\"].concat(q2c(d.x, d.y, d.qx, d.qy, path[1], path[2]));\n                        break;\n                    case \"Q\":\n                        d.qx = path[1];\n                        d.qy = path[2];\n                        path = [\"C\"].concat(q2c(d.x, d.y, path[1], path[2], path[3], path[4]));\n                        break;\n                    case \"L\":\n                        path = [\"C\"].concat(l2c(d.x, d.y, path[1], path[2]));\n                        break;\n                    case \"H\":\n                        path = [\"C\"].concat(l2c(d.x, d.y, path[1], d.y));\n                        break;\n                    case \"V\":\n                        path = [\"C\"].concat(l2c(d.x, d.y, d.x, path[1]));\n                        break;\n                    case \"Z\":\n                        path = [\"C\"].concat(l2c(d.x, d.y, d.X, d.Y));\n                        break;\n                }\n                return path;\n            },\n            fixArc = function (pp, i) {\n                if (pp[i].length > 7) {\n                    pp[i].shift();\n                    var pi = pp[i];\n                    while (pi.length) {\n                        pcoms1[i] = \"A\"; // if created multiple C:s, their original seg is saved\n                        p2 && (pcoms2[i] = \"A\"); // the same as above\n                        pp.splice(i++, 0, [\"C\"].concat(pi.splice(0, 6)));\n                    }\n                    pp.splice(i, 1);\n                    ii = mmax(p.length, p2 && p2.length || 0);\n                }\n            },\n            fixM = function (path1, path2, a1, a2, i) {\n                if (path1 && path2 && path1[i][0] == \"M\" && path2[i][0] != \"M\") {\n                    path2.splice(i, 0, [\"M\", a2.x, a2.y]);\n                    a1.bx = 0;\n                    a1.by = 0;\n                    a1.x = path1[i][1];\n                    a1.y = path1[i][2];\n                    ii = mmax(p.length, p2 && p2.length || 0);\n                }\n            },\n            pcoms1 = [], // path commands of original path p\n            pcoms2 = [], // path commands of original path p2\n            pfirst = \"\", // temporary holder for original path command\n            pcom = \"\"; // holder for previous path command of original path\n        for (var i = 0, ii = mmax(p.length, p2 && p2.length || 0); i < ii; i++) {\n            p[i] && (pfirst = p[i][0]); // save current path command\n\n            if (pfirst != \"C\") // C is not saved yet, because it may be result of conversion\n            {\n                pcoms1[i] = pfirst; // Save current path command\n                i && ( pcom = pcoms1[i - 1]); // Get previous path command pcom\n            }\n            p[i] = processPath(p[i], attrs, pcom); // Previous path command is inputted to processPath\n\n            if (pcoms1[i] != \"A\" && pfirst == \"C\") pcoms1[i] = \"C\"; // A is the only command\n            // which may produce multiple C:s\n            // so we have to make sure that C is also C in original path\n\n            fixArc(p, i); // fixArc adds also the right amount of A:s to pcoms1\n\n            if (p2) { // the same procedures is done to p2\n                p2[i] && (pfirst = p2[i][0]);\n                if (pfirst != \"C\") {\n                    pcoms2[i] = pfirst;\n                    i && (pcom = pcoms2[i - 1]);\n                }\n                p2[i] = processPath(p2[i], attrs2, pcom);\n\n                if (pcoms2[i] != \"A\" && pfirst == \"C\") {\n                    pcoms2[i] = \"C\";\n                }\n\n                fixArc(p2, i);\n            }\n            fixM(p, p2, attrs, attrs2, i);\n            fixM(p2, p, attrs2, attrs, i);\n            var seg = p[i],\n                seg2 = p2 && p2[i],\n                seglen = seg.length,\n                seg2len = p2 && seg2.length;\n            attrs.x = seg[seglen - 2];\n            attrs.y = seg[seglen - 1];\n            attrs.bx = toFloat(seg[seglen - 4]) || attrs.x;\n            attrs.by = toFloat(seg[seglen - 3]) || attrs.y;\n            attrs2.bx = p2 && (toFloat(seg2[seg2len - 4]) || attrs2.x);\n            attrs2.by = p2 && (toFloat(seg2[seg2len - 3]) || attrs2.y);\n            attrs2.x = p2 && seg2[seg2len - 2];\n            attrs2.y = p2 && seg2[seg2len - 1];\n        }\n        if (!p2) {\n            pth.curve = pathClone(p);\n        }\n        return p2 ? [p, p2] : p;\n    }\n    function mapPath(path, matrix) {\n        if (!matrix) {\n            return path;\n        }\n        var x, y, i, j, ii, jj, pathi;\n        path = path2curve(path);\n        for (i = 0, ii = path.length; i < ii; i++) {\n            pathi = path[i];\n            for (j = 1, jj = pathi.length; j < jj; j += 2) {\n                x = matrix.x(pathi[j], pathi[j + 1]);\n                y = matrix.y(pathi[j], pathi[j + 1]);\n                pathi[j] = x;\n                pathi[j + 1] = y;\n            }\n        }\n        return path;\n    }\n\n    // http://schepers.cc/getting-to-the-point\n    function catmullRom2bezier(crp, z) {\n        var d = [];\n        for (var i = 0, iLen = crp.length; iLen - 2 * !z > i; i += 2) {\n            var p = [\n                        {x: +crp[i - 2], y: +crp[i - 1]},\n                        {x: +crp[i],     y: +crp[i + 1]},\n                        {x: +crp[i + 2], y: +crp[i + 3]},\n                        {x: +crp[i + 4], y: +crp[i + 5]}\n                    ];\n            if (z) {\n                if (!i) {\n                    p[0] = {x: +crp[iLen - 2], y: +crp[iLen - 1]};\n                } else if (iLen - 4 == i) {\n                    p[3] = {x: +crp[0], y: +crp[1]};\n                } else if (iLen - 2 == i) {\n                    p[2] = {x: +crp[0], y: +crp[1]};\n                    p[3] = {x: +crp[2], y: +crp[3]};\n                }\n            } else {\n                if (iLen - 4 == i) {\n                    p[3] = p[2];\n                } else if (!i) {\n                    p[0] = {x: +crp[i], y: +crp[i + 1]};\n                }\n            }\n            d.push([\"C\",\n                  (-p[0].x + 6 * p[1].x + p[2].x) / 6,\n                  (-p[0].y + 6 * p[1].y + p[2].y) / 6,\n                  (p[1].x + 6 * p[2].x - p[3].x) / 6,\n                  (p[1].y + 6*p[2].y - p[3].y) / 6,\n                  p[2].x,\n                  p[2].y\n            ]);\n        }\n\n        return d;\n    }\n\n    // export\n    Snap.path = paths;\n\n    /*\\\n     * Snap.path.getTotalLength\n     [ method ]\n     **\n     * Returns the length of the given path in pixels\n     **\n     - path (string) SVG path string\n     **\n     = (number) length\n    \\*/\n    Snap.path.getTotalLength = getTotalLength;\n    /*\\\n     * Snap.path.getPointAtLength\n     [ method ]\n     **\n     * Returns the coordinates of the point located at the given length along the given path\n     **\n     - path (string) SVG path string\n     - length (number) length, in pixels, from the start of the path, excluding non-rendering jumps\n     **\n     = (object) representation of the point:\n     o {\n     o     x: (number) x coordinate,\n     o     y: (number) y coordinate,\n     o     alpha: (number) angle of derivative\n     o }\n    \\*/\n    Snap.path.getPointAtLength = getPointAtLength;\n    /*\\\n     * Snap.path.getSubpath\n     [ method ]\n     **\n     * Returns the subpath of a given path between given start and end lengths\n     **\n     - path (string) SVG path string\n     - from (number) length, in pixels, from the start of the path to the start of the segment\n     - to (number) length, in pixels, from the start of the path to the end of the segment\n     **\n     = (string) path string definition for the segment\n    \\*/\n    Snap.path.getSubpath = function (path, from, to) {\n        if (this.getTotalLength(path) - to < 1e-6) {\n            return getSubpathsAtLength(path, from).end;\n        }\n        var a = getSubpathsAtLength(path, to, 1);\n        return from ? getSubpathsAtLength(a, from).end : a;\n    };\n    /*\\\n     * Element.getTotalLength\n     [ method ]\n     **\n     * Returns the length of the path in pixels (only works for `path` elements)\n     = (number) length\n    \\*/\n    elproto.getTotalLength = function () {\n        if (this.node.getTotalLength) {\n            return this.node.getTotalLength();\n        }\n    };\n    // SIERRA Element.getPointAtLength()/Element.getTotalLength(): If a <path> is broken into different segments, is the jump distance to the new coordinates set by the _M_ or _m_ commands calculated as part of the path's total length?\n    /*\\\n     * Element.getPointAtLength\n     [ method ]\n     **\n     * Returns coordinates of the point located at the given length on the given path (only works for `path` elements)\n     **\n     - length (number) length, in pixels, from the start of the path, excluding non-rendering jumps\n     **\n     = (object) representation of the point:\n     o {\n     o     x: (number) x coordinate,\n     o     y: (number) y coordinate,\n     o     alpha: (number) angle of derivative\n     o }\n    \\*/\n    elproto.getPointAtLength = function (length) {\n        return getPointAtLength(this.attr(\"d\"), length);\n    };\n    // SIERRA Element.getSubpath(): Similar to the problem for Element.getPointAtLength(). Unclear how this would work for a segmented path. Overall, the concept of _subpath_ and what I'm calling a _segment_ (series of non-_M_ or _Z_ commands) is unclear.\n    /*\\\n     * Element.getSubpath\n     [ method ]\n     **\n     * Returns subpath of a given element from given start and end lengths (only works for `path` elements)\n     **\n     - from (number) length, in pixels, from the start of the path to the start of the segment\n     - to (number) length, in pixels, from the start of the path to the end of the segment\n     **\n     = (string) path string definition for the segment\n    \\*/\n    elproto.getSubpath = function (from, to) {\n        return Snap.path.getSubpath(this.attr(\"d\"), from, to);\n    };\n    Snap._.box = box;\n    /*\\\n     * Snap.path.findDotsAtSegment\n     [ method ]\n     **\n     * Utility method\n     **\n     * Finds dot coordinates on the given cubic beziér curve at the given t\n     - p1x (number) x of the first point of the curve\n     - p1y (number) y of the first point of the curve\n     - c1x (number) x of the first anchor of the curve\n     - c1y (number) y of the first anchor of the curve\n     - c2x (number) x of the second anchor of the curve\n     - c2y (number) y of the second anchor of the curve\n     - p2x (number) x of the second point of the curve\n     - p2y (number) y of the second point of the curve\n     - t (number) position on the curve (0..1)\n     = (object) point information in format:\n     o {\n     o     x: (number) x coordinate of the point,\n     o     y: (number) y coordinate of the point,\n     o     m: {\n     o         x: (number) x coordinate of the left anchor,\n     o         y: (number) y coordinate of the left anchor\n     o     },\n     o     n: {\n     o         x: (number) x coordinate of the right anchor,\n     o         y: (number) y coordinate of the right anchor\n     o     },\n     o     start: {\n     o         x: (number) x coordinate of the start of the curve,\n     o         y: (number) y coordinate of the start of the curve\n     o     },\n     o     end: {\n     o         x: (number) x coordinate of the end of the curve,\n     o         y: (number) y coordinate of the end of the curve\n     o     },\n     o     alpha: (number) angle of the curve derivative at the point\n     o }\n    \\*/\n    Snap.path.findDotsAtSegment = findDotsAtSegment;\n    /*\\\n     * Snap.path.bezierBBox\n     [ method ]\n     **\n     * Utility method\n     **\n     * Returns the bounding box of a given cubic beziér curve\n     - p1x (number) x of the first point of the curve\n     - p1y (number) y of the first point of the curve\n     - c1x (number) x of the first anchor of the curve\n     - c1y (number) y of the first anchor of the curve\n     - c2x (number) x of the second anchor of the curve\n     - c2y (number) y of the second anchor of the curve\n     - p2x (number) x of the second point of the curve\n     - p2y (number) y of the second point of the curve\n     * or\n     - bez (array) array of six points for beziér curve\n     = (object) bounding box\n     o {\n     o     x: (number) x coordinate of the left top point of the box,\n     o     y: (number) y coordinate of the left top point of the box,\n     o     x2: (number) x coordinate of the right bottom point of the box,\n     o     y2: (number) y coordinate of the right bottom point of the box,\n     o     width: (number) width of the box,\n     o     height: (number) height of the box\n     o }\n    \\*/\n    Snap.path.bezierBBox = bezierBBox;\n    /*\\\n     * Snap.path.isPointInsideBBox\n     [ method ]\n     **\n     * Utility method\n     **\n     * Returns `true` if given point is inside bounding box\n     - bbox (string) bounding box\n     - x (string) x coordinate of the point\n     - y (string) y coordinate of the point\n     = (boolean) `true` if point is inside\n    \\*/\n    Snap.path.isPointInsideBBox = isPointInsideBBox;\n    Snap.closest = function (x, y, X, Y) {\n        var r = 100,\n            b = box(x - r / 2, y - r / 2, r, r),\n            inside = [],\n            getter = X[0].hasOwnProperty(\"x\") ? function (i) {\n                return {\n                    x: X[i].x,\n                    y: X[i].y\n                };\n            } : function (i) {\n                return {\n                    x: X[i],\n                    y: Y[i]\n                };\n            },\n            found = 0;\n        while (r <= 1e6 && !found) {\n            for (var i = 0, ii = X.length; i < ii; i++) {\n                var xy = getter(i);\n                if (isPointInsideBBox(b, xy.x, xy.y)) {\n                    found++;\n                    inside.push(xy);\n                    break;\n                }\n            }\n            if (!found) {\n                r *= 2;\n                b = box(x - r / 2, y - r / 2, r, r)\n            }\n        }\n        if (r == 1e6) {\n            return;\n        }\n        var len = Infinity,\n            res;\n        for (i = 0, ii = inside.length; i < ii; i++) {\n            var l = Snap.len(x, y, inside[i].x, inside[i].y);\n            if (len > l) {\n                len = l;\n                inside[i].len = l;\n                res = inside[i];\n            }\n        }\n        return res;\n    };\n    /*\\\n     * Snap.path.isBBoxIntersect\n     [ method ]\n     **\n     * Utility method\n     **\n     * Returns `true` if two bounding boxes intersect\n     - bbox1 (string) first bounding box\n     - bbox2 (string) second bounding box\n     = (boolean) `true` if bounding boxes intersect\n    \\*/\n    Snap.path.isBBoxIntersect = isBBoxIntersect;\n    /*\\\n     * Snap.path.intersection\n     [ method ]\n     **\n     * Utility method\n     **\n     * Finds intersections of two paths\n     - path1 (string) path string\n     - path2 (string) path string\n     = (array) dots of intersection\n     o [\n     o     {\n     o         x: (number) x coordinate of the point,\n     o         y: (number) y coordinate of the point,\n     o         t1: (number) t value for segment of path1,\n     o         t2: (number) t value for segment of path2,\n     o         segment1: (number) order number for segment of path1,\n     o         segment2: (number) order number for segment of path2,\n     o         bez1: (array) eight coordinates representing beziér curve for the segment of path1,\n     o         bez2: (array) eight coordinates representing beziér curve for the segment of path2\n     o     }\n     o ]\n    \\*/\n    Snap.path.intersection = pathIntersection;\n    Snap.path.intersectionNumber = pathIntersectionNumber;\n    /*\\\n     * Snap.path.isPointInside\n     [ method ]\n     **\n     * Utility method\n     **\n     * Returns `true` if given point is inside a given closed path.\n     *\n     * Note: fill mode doesn’t affect the result of this method.\n     - path (string) path string\n     - x (number) x of the point\n     - y (number) y of the point\n     = (boolean) `true` if point is inside the path\n    \\*/\n    Snap.path.isPointInside = isPointInsidePath;\n    /*\\\n     * Snap.path.getBBox\n     [ method ]\n     **\n     * Utility method\n     **\n     * Returns the bounding box of a given path\n     - path (string) path string\n     = (object) bounding box\n     o {\n     o     x: (number) x coordinate of the left top point of the box,\n     o     y: (number) y coordinate of the left top point of the box,\n     o     x2: (number) x coordinate of the right bottom point of the box,\n     o     y2: (number) y coordinate of the right bottom point of the box,\n     o     width: (number) width of the box,\n     o     height: (number) height of the box\n     o }\n    \\*/\n    Snap.path.getBBox = pathBBox;\n    Snap.path.get = getPath;\n    /*\\\n     * Snap.path.toRelative\n     [ method ]\n     **\n     * Utility method\n     **\n     * Converts path coordinates into relative values\n     - path (string) path string\n     = (array) path string\n    \\*/\n    Snap.path.toRelative = pathToRelative;\n    /*\\\n     * Snap.path.toAbsolute\n     [ method ]\n     **\n     * Utility method\n     **\n     * Converts path coordinates into absolute values\n     - path (string) path string\n     = (array) path string\n    \\*/\n    Snap.path.toAbsolute = pathToAbsolute;\n    /*\\\n     * Snap.path.toCubic\n     [ method ]\n     **\n     * Utility method\n     **\n     * Converts path to a new path where all segments are cubic beziér curves\n     - pathString (string|array) path string or array of segments\n     = (array) array of segments\n    \\*/\n    Snap.path.toCubic = path2curve;\n    /*\\\n     * Snap.path.map\n     [ method ]\n     **\n     * Transform the path string with the given matrix\n     - path (string) path string\n     - matrix (object) see @Matrix\n     = (string) transformed path string\n    \\*/\n    Snap.path.map = mapPath;\n    Snap.path.toString = toString;\n    Snap.path.clone = pathClone;\n});\n\n// Copyright (c) 2013 Adobe Systems Incorporated. All rights reserved.\n//\n// Licensed under the Apache License, Version 2.0 (the \"License\");\n// you may not use this file except in compliance with the License.\n// You may obtain a copy of the License at\n//\n// http://www.apache.org/licenses/LICENSE-2.0\n//\n// Unless required by applicable law or agreed to in writing, software\n// distributed under the License is distributed on an \"AS IS\" BASIS,\n// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.\n// See the License for the specific language governing permissions and\n// limitations under the License.\nSnap.plugin(function (Snap, Element, Paper, glob) {\n    var mmax = Math.max,\n        mmin = Math.min;\n\n    // Set\n    var Set = function (items) {\n        this.items = [];\n\tthis.bindings = {};\n        this.length = 0;\n        this.type = \"set\";\n        if (items) {\n            for (var i = 0, ii = items.length; i < ii; i++) {\n                if (items[i]) {\n                    this[this.items.length] = this.items[this.items.length] = items[i];\n                    this.length++;\n                }\n            }\n        }\n    },\n    setproto = Set.prototype;\n    /*\\\n     * Set.push\n     [ method ]\n     **\n     * Adds each argument to the current set\n     = (object) original element\n    \\*/\n    setproto.push = function () {\n        var item,\n            len;\n        for (var i = 0, ii = arguments.length; i < ii; i++) {\n            item = arguments[i];\n            if (item) {\n                len = this.items.length;\n                this[len] = this.items[len] = item;\n                this.length++;\n            }\n        }\n        return this;\n    };\n    /*\\\n     * Set.pop\n     [ method ]\n     **\n     * Removes last element and returns it\n     = (object) element\n    \\*/\n    setproto.pop = function () {\n        this.length && delete this[this.length--];\n        return this.items.pop();\n    };\n    /*\\\n     * Set.forEach\n     [ method ]\n     **\n     * Executes given function for each element in the set\n     *\n     * If the function returns `false`, the loop stops running.\n     **\n     - callback (function) function to run\n     - thisArg (object) context object for the callback\n     = (object) Set object\n    \\*/\n    setproto.forEach = function (callback, thisArg) {\n        for (var i = 0, ii = this.items.length; i < ii; i++) {\n            if (callback.call(thisArg, this.items[i], i) === false) {\n                return this;\n            }\n        }\n        return this;\n    };\n    /*\\\n     * Set.animate\n     [ method ]\n     **\n     * Animates each element in set in sync.\n     *\n     **\n     - attrs (object) key-value pairs of destination attributes\n     - duration (number) duration of the animation in milliseconds\n     - easing (function) #optional easing function from @mina or custom\n     - callback (function) #optional callback function that executes when the animation ends\n     * or\n     - animation (array) array of animation parameter for each element in set in format `[attrs, duration, easing, callback]`\n     > Usage\n     | // animate all elements in set to radius 10\n     | set.animate({r: 10}, 500, mina.easein);\n     | // or\n     | // animate first element to radius 10, but second to radius 20 and in different time\n     | set.animate([{r: 10}, 500, mina.easein], [{r: 20}, 1500, mina.easein]);\n     = (Element) the current element\n    \\*/\n    setproto.animate = function (attrs, ms, easing, callback) {\n        if (typeof easing == \"function\" && !easing.length) {\n            callback = easing;\n            easing = mina.linear;\n        }\n        if (attrs instanceof Snap._.Animation) {\n            callback = attrs.callback;\n            easing = attrs.easing;\n            ms = easing.dur;\n            attrs = attrs.attr;\n        }\n        var args = arguments;\n        if (Snap.is(attrs, \"array\") && Snap.is(args[args.length - 1], \"array\")) {\n            var each = true;\n        }\n        var begin,\n            handler = function () {\n                if (begin) {\n                    this.b = begin;\n                } else {\n                    begin = this.b;\n                }\n            },\n            cb = 0,\n            set = this,\n            callbacker = callback && function () {\n                if (++cb == set.length) {\n                    callback.call(this);\n                }\n            };\n        return this.forEach(function (el, i) {\n            eve.once(\"snap.animcreated.\" + el.id, handler);\n            if (each) {\n                args[i] && el.animate.apply(el, args[i]);\n            } else {\n                el.animate(attrs, ms, easing, callbacker);\n            }\n        });\n    };\n    /*\\\n     * Set.remove\n     [ method ]\n     **\n     * Removes all children of the set.\n     *\n     = (object) Set object\n    \\*/\n    setproto.remove = function () {\n        while (this.length) {\n            this.pop().remove();\n        }\n        return this;\n    };\n    /*\\\n     * Set.bind\n     [ method ]\n     **\n     * Specifies how to handle a specific attribute when applied\n     * to a set.\n     *\n     **\n     - attr (string) attribute name\n     - callback (function) function to run\n     * or\n     - attr (string) attribute name\n     - element (Element) specific element in the set to apply the attribute to\n     * or\n     - attr (string) attribute name\n     - element (Element) specific element in the set to apply the attribute to\n     - eattr (string) attribute on the element to bind the attribute to\n     = (object) Set object\n    \\*/\n    setproto.bind = function (attr, a, b) {\n        var data = {};\n        if (typeof a == \"function\") {\n            this.bindings[attr] = a;\n        } else {\n            var aname = b || attr;\n            this.bindings[attr] = function (v) {\n                data[aname] = v;\n                a.attr(data);\n            };\n        }\n        return this;\n    };\n    /*\\\n     * Set.attr\n     [ method ]\n     **\n     * Equivalent of @Element.attr.\n     = (object) Set object\n    \\*/\n    setproto.attr = function (value) {\n        var unbound = {};\n        for (var k in value) {\n            if (this.bindings[k]) {\n                this.bindings[k](value[k]);\n            } else {\n                unbound[k] = value[k];\n            }\n        }\n        for (var i = 0, ii = this.items.length; i < ii; i++) {\n            this.items[i].attr(unbound);\n        }\n        return this;\n    };\n    /*\\\n     * Set.clear\n     [ method ]\n     **\n     * Removes all elements from the set\n    \\*/\n    setproto.clear = function () {\n        while (this.length) {\n            this.pop();\n        }\n    };\n    /*\\\n     * Set.splice\n     [ method ]\n     **\n     * Removes range of elements from the set\n     **\n     - index (number) position of the deletion\n     - count (number) number of element to remove\n     - insertion… (object) #optional elements to insert\n     = (object) set elements that were deleted\n    \\*/\n    setproto.splice = function (index, count, insertion) {\n        index = index < 0 ? mmax(this.length + index, 0) : index;\n        count = mmax(0, mmin(this.length - index, count));\n        var tail = [],\n            todel = [],\n            args = [],\n            i;\n        for (i = 2; i < arguments.length; i++) {\n            args.push(arguments[i]);\n        }\n        for (i = 0; i < count; i++) {\n            todel.push(this[index + i]);\n        }\n        for (; i < this.length - index; i++) {\n            tail.push(this[index + i]);\n        }\n        var arglen = args.length;\n        for (i = 0; i < arglen + tail.length; i++) {\n            this.items[index + i] = this[index + i] = i < arglen ? args[i] : tail[i - arglen];\n        }\n        i = this.items.length = this.length -= count - arglen;\n        while (this[i]) {\n            delete this[i++];\n        }\n        return new Set(todel);\n    };\n    /*\\\n     * Set.exclude\n     [ method ]\n     **\n     * Removes given element from the set\n     **\n     - element (object) element to remove\n     = (boolean) `true` if object was found and removed from the set\n    \\*/\n    setproto.exclude = function (el) {\n        for (var i = 0, ii = this.length; i < ii; i++) if (this[i] == el) {\n            this.splice(i, 1);\n            return true;\n        }\n        return false;\n    };\n    /*\\\n     * Set.insertAfter\n     [ method ]\n     **\n     * Inserts set elements after given element.\n     **\n     - element (object) set will be inserted after this element\n     = (object) Set object\n    \\*/\n    setproto.insertAfter = function (el) {\n        var i = this.items.length;\n        while (i--) {\n            this.items[i].insertAfter(el);\n        }\n        return this;\n    };\n    /*\\\n     * Set.getBBox\n     [ method ]\n     **\n     * Union of all bboxes of the set. See @Element.getBBox.\n     = (object) bounding box descriptor. See @Element.getBBox.\n    \\*/\n    setproto.getBBox = function () {\n        var x = [],\n            y = [],\n            x2 = [],\n            y2 = [];\n        for (var i = this.items.length; i--;) if (!this.items[i].removed) {\n            var box = this.items[i].getBBox();\n            x.push(box.x);\n            y.push(box.y);\n            x2.push(box.x + box.width);\n            y2.push(box.y + box.height);\n        }\n        x = mmin.apply(0, x);\n        y = mmin.apply(0, y);\n        x2 = mmax.apply(0, x2);\n        y2 = mmax.apply(0, y2);\n        return {\n            x: x,\n            y: y,\n            x2: x2,\n            y2: y2,\n            width: x2 - x,\n            height: y2 - y,\n            cx: x + (x2 - x) / 2,\n            cy: y + (y2 - y) / 2\n        };\n    };\n    /*\\\n     * Set.insertAfter\n     [ method ]\n     **\n     * Creates a clone of the set.\n     **\n     = (object) New Set object\n    \\*/\n    setproto.clone = function (s) {\n        s = new Set;\n        for (var i = 0, ii = this.items.length; i < ii; i++) {\n            s.push(this.items[i].clone());\n        }\n        return s;\n    };\n    setproto.toString = function () {\n        return \"Snap\\u2018s set\";\n    };\n    setproto.type = \"set\";\n    // export\n    /*\\\n     * Snap.Set\n     [ property ]\n     **\n     * Set constructor.\n    \\*/\n    Snap.Set = Set;\n    /*\\\n     * Snap.set\n     [ method ]\n     **\n     * Creates a set and fills it with list of arguments.\n     **\n     = (object) New Set object\n     | var r = paper.rect(0, 0, 10, 10),\n     |     s1 = Snap.set(), // empty set\n     |     s2 = Snap.set(r, paper.circle(100, 100, 20)); // prefilled set\n    \\*/\n    Snap.set = function () {\n        var set = new Set;\n        if (arguments.length) {\n            set.push.apply(set, Array.prototype.slice.call(arguments, 0));\n        }\n        return set;\n    };\n});\n\n// Copyright (c) 2013 Adobe Systems Incorporated. All rights reserved.\n//\n// Licensed under the Apache License, Version 2.0 (the \"License\");\n// you may not use this file except in compliance with the License.\n// You may obtain a copy of the License at\n//\n// http://www.apache.org/licenses/LICENSE-2.0\n//\n// Unless required by applicable law or agreed to in writing, software\n// distributed under the License is distributed on an \"AS IS\" BASIS,\n// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.\n// See the License for the specific language governing permissions and\n// limitations under the License.\nSnap.plugin(function (Snap, Element, Paper, glob) {\n    var names = {},\n        reUnit = /[%a-z]+$/i,\n        Str = String;\n    names.stroke = names.fill = \"colour\";\n    function getEmpty(item) {\n        var l = item[0];\n        switch (l.toLowerCase()) {\n            case \"t\": return [l, 0, 0];\n            case \"m\": return [l, 1, 0, 0, 1, 0, 0];\n            case \"r\": if (item.length == 4) {\n                return [l, 0, item[2], item[3]];\n            } else {\n                return [l, 0];\n            }\n            case \"s\": if (item.length == 5) {\n                return [l, 1, 1, item[3], item[4]];\n            } else if (item.length == 3) {\n                return [l, 1, 1];\n            } else {\n                return [l, 1];\n            }\n        }\n    }\n    function equaliseTransform(t1, t2, getBBox) {\n        t1 = t1 || new Snap.Matrix;\n        t2 = t2 || new Snap.Matrix;\n        t1 = Snap.parseTransformString(t1.toTransformString()) || [];\n        t2 = Snap.parseTransformString(t2.toTransformString()) || [];\n        var maxlength = Math.max(t1.length, t2.length),\n            from = [],\n            to = [],\n            i = 0, j, jj,\n            tt1, tt2;\n        for (; i < maxlength; i++) {\n            tt1 = t1[i] || getEmpty(t2[i]);\n            tt2 = t2[i] || getEmpty(tt1);\n            if (tt1[0] != tt2[0] ||\n                tt1[0].toLowerCase() == \"r\" && (tt1[2] != tt2[2] || tt1[3] != tt2[3]) ||\n                tt1[0].toLowerCase() == \"s\" && (tt1[3] != tt2[3] || tt1[4] != tt2[4])\n                ) {\n                    t1 = Snap._.transform2matrix(t1, getBBox());\n                    t2 = Snap._.transform2matrix(t2, getBBox());\n                    from = [[\"m\", t1.a, t1.b, t1.c, t1.d, t1.e, t1.f]];\n                    to = [[\"m\", t2.a, t2.b, t2.c, t2.d, t2.e, t2.f]];\n                    break;\n            }\n            from[i] = [];\n            to[i] = [];\n            for (j = 0, jj = Math.max(tt1.length, tt2.length); j < jj; j++) {\n                j in tt1 && (from[i][j] = tt1[j]);\n                j in tt2 && (to[i][j] = tt2[j]);\n            }\n        }\n        return {\n            from: path2array(from),\n            to: path2array(to),\n            f: getPath(from)\n        };\n    }\n    function getNumber(val) {\n        return val;\n    }\n    function getUnit(unit) {\n        return function (val) {\n            return +val.toFixed(3) + unit;\n        };\n    }\n    function getViewBox(val) {\n        return val.join(\" \");\n    }\n    function getColour(clr) {\n        return Snap.rgb(clr[0], clr[1], clr[2], clr[3]);\n    }\n    function getPath(path) {\n        var k = 0, i, ii, j, jj, out, a, b = [];\n        for (i = 0, ii = path.length; i < ii; i++) {\n            out = \"[\";\n            a = ['\"' + path[i][0] + '\"'];\n            for (j = 1, jj = path[i].length; j < jj; j++) {\n                a[j] = \"val[\" + k++ + \"]\";\n            }\n            out += a + \"]\";\n            b[i] = out;\n        }\n        return Function(\"val\", \"return Snap.path.toString.call([\" + b + \"])\");\n    }\n    function path2array(path) {\n        var out = [];\n        for (var i = 0, ii = path.length; i < ii; i++) {\n            for (var j = 1, jj = path[i].length; j < jj; j++) {\n                out.push(path[i][j]);\n            }\n        }\n        return out;\n    }\n    function isNumeric(obj) {\n        return isFinite(obj);\n    }\n    function arrayEqual(arr1, arr2) {\n        if (!Snap.is(arr1, \"array\") || !Snap.is(arr2, \"array\")) {\n            return false;\n        }\n        return arr1.toString() == arr2.toString();\n    }\n    Element.prototype.equal = function (name, b) {\n        return eve(\"snap.util.equal\", this, name, b).firstDefined();\n    };\n    eve.on(\"snap.util.equal\", function (name, b) {\n        var A, B, a = Str(this.attr(name) || \"\"),\n            el = this;\n        if (names[name] == \"colour\") {\n            A = Snap.color(a);\n            B = Snap.color(b);\n            return {\n                from: [A.r, A.g, A.b, A.opacity],\n                to: [B.r, B.g, B.b, B.opacity],\n                f: getColour\n            };\n        }\n        if (name == \"viewBox\") {\n            A = this.attr(name).vb.split(\" \").map(Number);\n            B = b.split(\" \").map(Number);\n            return {\n                from: A,\n                to: B,\n                f: getViewBox\n            };\n        }\n        if (name == \"transform\" || name == \"gradientTransform\" || name == \"patternTransform\") {\n            if (typeof b == \"string\") {\n                b = Str(b).replace(/\\.{3}|\\u2026/g, a);\n            }\n            a = this.matrix;\n            if (!Snap._.rgTransform.test(b)) {\n                b = Snap._.transform2matrix(Snap._.svgTransform2string(b), this.getBBox());\n            } else {\n                b = Snap._.transform2matrix(b, this.getBBox());\n            }\n            return equaliseTransform(a, b, function () {\n                return el.getBBox(1);\n            });\n        }\n        if (name == \"d\" || name == \"path\") {\n            A = Snap.path.toCubic(a, b);\n            return {\n                from: path2array(A[0]),\n                to: path2array(A[1]),\n                f: getPath(A[0])\n            };\n        }\n        if (name == \"points\") {\n            A = Str(a).split(Snap._.separator);\n            B = Str(b).split(Snap._.separator);\n            return {\n                from: A,\n                to: B,\n                f: function (val) { return val; }\n            };\n        }\n        if (isNumeric(a) && isNumeric(b)) {\n            return {\n                from: parseFloat(a),\n                to: parseFloat(b),\n                f: getNumber\n            };\n        }\n        var aUnit = a.match(reUnit),\n            bUnit = Str(b).match(reUnit);\n        if (aUnit && arrayEqual(aUnit, bUnit)) {\n            return {\n                from: parseFloat(a),\n                to: parseFloat(b),\n                f: getUnit(aUnit)\n            };\n        } else {\n            return {\n                from: this.asPX(name),\n                to: this.asPX(name, b),\n                f: getNumber\n            };\n        }\n    });\n});\n\n// Copyright (c) 2013 Adobe Systems Incorporated. All rights reserved.\n// \n// Licensed under the Apache License, Version 2.0 (the \"License\");\n// you may not use this file except in compliance with the License.\n// You may obtain a copy of the License at\n// \n// http://www.apache.org/licenses/LICENSE-2.0\n// \n// Unless required by applicable law or agreed to in writing, software\n// distributed under the License is distributed on an \"AS IS\" BASIS,\n// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.\n// See the License for the specific language governing permissions and\n// limitations under the License.\nSnap.plugin(function (Snap, Element, Paper, glob) {\n    var elproto = Element.prototype,\n    has = \"hasOwnProperty\",\n    supportsTouch = \"createTouch\" in glob.doc,\n    events = [\n        \"click\", \"dblclick\", \"mousedown\", \"mousemove\", \"mouseout\",\n        \"mouseover\", \"mouseup\", \"touchstart\", \"touchmove\", \"touchend\",\n        \"touchcancel\"\n    ],\n    touchMap = {\n        mousedown: \"touchstart\",\n        mousemove: \"touchmove\",\n        mouseup: \"touchend\"\n    },\n    getScroll = function (xy, el) {\n        var name = xy == \"y\" ? \"scrollTop\" : \"scrollLeft\",\n            doc = el && el.node ? el.node.ownerDocument : glob.doc;\n        return doc[name in doc.documentElement ? \"documentElement\" : \"body\"][name];\n    },\n    preventDefault = function () {\n        this.returnValue = false;\n    },\n    preventTouch = function () {\n        return this.originalEvent.preventDefault();\n    },\n    stopPropagation = function () {\n        this.cancelBubble = true;\n    },\n    stopTouch = function () {\n        return this.originalEvent.stopPropagation();\n    },\n    addEvent = function (obj, type, fn, element) {\n        var realName = supportsTouch && touchMap[type] ? touchMap[type] : type,\n            f = function (e) {\n                var scrollY = getScroll(\"y\", element),\n                    scrollX = getScroll(\"x\", element);\n                if (supportsTouch && touchMap[has](type)) {\n                    for (var i = 0, ii = e.targetTouches && e.targetTouches.length; i < ii; i++) {\n                        if (e.targetTouches[i].target == obj || obj.contains(e.targetTouches[i].target)) {\n                            var olde = e;\n                            e = e.targetTouches[i];\n                            e.originalEvent = olde;\n                            e.preventDefault = preventTouch;\n                            e.stopPropagation = stopTouch;\n                            break;\n                        }\n                    }\n                }\n                var x = e.clientX + scrollX,\n                    y = e.clientY + scrollY;\n                return fn.call(element, e, x, y);\n            };\n\n        if (type !== realName) {\n            obj.addEventListener(type, f, false);\n        }\n\n        obj.addEventListener(realName, f, false);\n\n        return function () {\n            if (type !== realName) {\n                obj.removeEventListener(type, f, false);\n            }\n\n            obj.removeEventListener(realName, f, false);\n            return true;\n        };\n    },\n    drag = [],\n    dragMove = function (e) {\n        var x = e.clientX,\n            y = e.clientY,\n            scrollY = getScroll(\"y\"),\n            scrollX = getScroll(\"x\"),\n            dragi,\n            j = drag.length;\n        while (j--) {\n            dragi = drag[j];\n            if (supportsTouch) {\n                var i = e.touches && e.touches.length,\n                    touch;\n                while (i--) {\n                    touch = e.touches[i];\n                    if (touch.identifier == dragi.el._drag.id || dragi.el.node.contains(touch.target)) {\n                        x = touch.clientX;\n                        y = touch.clientY;\n                        (e.originalEvent ? e.originalEvent : e).preventDefault();\n                        break;\n                    }\n                }\n            } else {\n                e.preventDefault();\n            }\n            var node = dragi.el.node,\n                o,\n                next = node.nextSibling,\n                parent = node.parentNode,\n                display = node.style.display;\n            // glob.win.opera && parent.removeChild(node);\n            // node.style.display = \"none\";\n            // o = dragi.el.paper.getElementByPoint(x, y);\n            // node.style.display = display;\n            // glob.win.opera && (next ? parent.insertBefore(node, next) : parent.appendChild(node));\n            // o && eve(\"snap.drag.over.\" + dragi.el.id, dragi.el, o);\n            x += scrollX;\n            y += scrollY;\n            eve(\"snap.drag.move.\" + dragi.el.id, dragi.move_scope || dragi.el, x - dragi.el._drag.x, y - dragi.el._drag.y, x, y, e);\n        }\n    },\n    dragUp = function (e) {\n        Snap.unmousemove(dragMove).unmouseup(dragUp);\n        var i = drag.length,\n            dragi;\n        while (i--) {\n            dragi = drag[i];\n            dragi.el._drag = {};\n            eve(\"snap.drag.end.\" + dragi.el.id, dragi.end_scope || dragi.start_scope || dragi.move_scope || dragi.el, e);\n            eve.off(\"snap.drag.*.\" + dragi.el.id);\n        }\n        drag = [];\n    };\n    /*\\\n     * Element.click\n     [ method ]\n     **\n     * Adds a click event handler to the element\n     - handler (function) handler for the event\n     = (object) @Element\n    \\*/\n    /*\\\n     * Element.unclick\n     [ method ]\n     **\n     * Removes a click event handler from the element\n     - handler (function) handler for the event\n     = (object) @Element\n    \\*/\n    \n    /*\\\n     * Element.dblclick\n     [ method ]\n     **\n     * Adds a double click event handler to the element\n     - handler (function) handler for the event\n     = (object) @Element\n    \\*/\n    /*\\\n     * Element.undblclick\n     [ method ]\n     **\n     * Removes a double click event handler from the element\n     - handler (function) handler for the event\n     = (object) @Element\n    \\*/\n    \n    /*\\\n     * Element.mousedown\n     [ method ]\n     **\n     * Adds a mousedown event handler to the element\n     - handler (function) handler for the event\n     = (object) @Element\n    \\*/\n    /*\\\n     * Element.unmousedown\n     [ method ]\n     **\n     * Removes a mousedown event handler from the element\n     - handler (function) handler for the event\n     = (object) @Element\n    \\*/\n    \n    /*\\\n     * Element.mousemove\n     [ method ]\n     **\n     * Adds a mousemove event handler to the element\n     - handler (function) handler for the event\n     = (object) @Element\n    \\*/\n    /*\\\n     * Element.unmousemove\n     [ method ]\n     **\n     * Removes a mousemove event handler from the element\n     - handler (function) handler for the event\n     = (object) @Element\n    \\*/\n    \n    /*\\\n     * Element.mouseout\n     [ method ]\n     **\n     * Adds a mouseout event handler to the element\n     - handler (function) handler for the event\n     = (object) @Element\n    \\*/\n    /*\\\n     * Element.unmouseout\n     [ method ]\n     **\n     * Removes a mouseout event handler from the element\n     - handler (function) handler for the event\n     = (object) @Element\n    \\*/\n    \n    /*\\\n     * Element.mouseover\n     [ method ]\n     **\n     * Adds a mouseover event handler to the element\n     - handler (function) handler for the event\n     = (object) @Element\n    \\*/\n    /*\\\n     * Element.unmouseover\n     [ method ]\n     **\n     * Removes a mouseover event handler from the element\n     - handler (function) handler for the event\n     = (object) @Element\n    \\*/\n    \n    /*\\\n     * Element.mouseup\n     [ method ]\n     **\n     * Adds a mouseup event handler to the element\n     - handler (function) handler for the event\n     = (object) @Element\n    \\*/\n    /*\\\n     * Element.unmouseup\n     [ method ]\n     **\n     * Removes a mouseup event handler from the element\n     - handler (function) handler for the event\n     = (object) @Element\n    \\*/\n    \n    /*\\\n     * Element.touchstart\n     [ method ]\n     **\n     * Adds a touchstart event handler to the element\n     - handler (function) handler for the event\n     = (object) @Element\n    \\*/\n    /*\\\n     * Element.untouchstart\n     [ method ]\n     **\n     * Removes a touchstart event handler from the element\n     - handler (function) handler for the event\n     = (object) @Element\n    \\*/\n    \n    /*\\\n     * Element.touchmove\n     [ method ]\n     **\n     * Adds a touchmove event handler to the element\n     - handler (function) handler for the event\n     = (object) @Element\n    \\*/\n    /*\\\n     * Element.untouchmove\n     [ method ]\n     **\n     * Removes a touchmove event handler from the element\n     - handler (function) handler for the event\n     = (object) @Element\n    \\*/\n    \n    /*\\\n     * Element.touchend\n     [ method ]\n     **\n     * Adds a touchend event handler to the element\n     - handler (function) handler for the event\n     = (object) @Element\n    \\*/\n    /*\\\n     * Element.untouchend\n     [ method ]\n     **\n     * Removes a touchend event handler from the element\n     - handler (function) handler for the event\n     = (object) @Element\n    \\*/\n    \n    /*\\\n     * Element.touchcancel\n     [ method ]\n     **\n     * Adds a touchcancel event handler to the element\n     - handler (function) handler for the event\n     = (object) @Element\n    \\*/\n    /*\\\n     * Element.untouchcancel\n     [ method ]\n     **\n     * Removes a touchcancel event handler from the element\n     - handler (function) handler for the event\n     = (object) @Element\n    \\*/\n    for (var i = events.length; i--;) {\n        (function (eventName) {\n            Snap[eventName] = elproto[eventName] = function (fn, scope) {\n                if (Snap.is(fn, \"function\")) {\n                    this.events = this.events || [];\n                    this.events.push({\n                        name: eventName,\n                        f: fn,\n                        unbind: addEvent(this.node || document, eventName, fn, scope || this)\n                    });\n                } else {\n                    for (var i = 0, ii = this.events.length; i < ii; i++) if (this.events[i].name == eventName) {\n                        try {\n                            this.events[i].f.call(this);\n                        } catch (e) {}\n                    }\n                }\n                return this;\n            };\n            Snap[\"un\" + eventName] =\n            elproto[\"un\" + eventName] = function (fn) {\n                var events = this.events || [],\n                    l = events.length;\n                while (l--) if (events[l].name == eventName &&\n                               (events[l].f == fn || !fn)) {\n                    events[l].unbind();\n                    events.splice(l, 1);\n                    !events.length && delete this.events;\n                    return this;\n                }\n                return this;\n            };\n        })(events[i]);\n    }\n    /*\\\n     * Element.hover\n     [ method ]\n     **\n     * Adds hover event handlers to the element\n     - f_in (function) handler for hover in\n     - f_out (function) handler for hover out\n     - icontext (object) #optional context for hover in handler\n     - ocontext (object) #optional context for hover out handler\n     = (object) @Element\n    \\*/\n    elproto.hover = function (f_in, f_out, scope_in, scope_out) {\n        return this.mouseover(f_in, scope_in).mouseout(f_out, scope_out || scope_in);\n    };\n    /*\\\n     * Element.unhover\n     [ method ]\n     **\n     * Removes hover event handlers from the element\n     - f_in (function) handler for hover in\n     - f_out (function) handler for hover out\n     = (object) @Element\n    \\*/\n    elproto.unhover = function (f_in, f_out) {\n        return this.unmouseover(f_in).unmouseout(f_out);\n    };\n    var draggable = [];\n    // SIERRA unclear what _context_ refers to for starting, ending, moving the drag gesture.\n    // SIERRA Element.drag(): _x position of the mouse_: Where are the x/y values offset from?\n    // SIERRA Element.drag(): much of this member's doc appears to be duplicated for some reason.\n    // SIERRA Unclear about this sentence: _Additionally following drag events will be triggered: drag.start.<id> on start, drag.end.<id> on end and drag.move.<id> on every move._ Is there a global _drag_ object to which you can assign handlers keyed by an element's ID?\n    /*\\\n     * Element.drag\n     [ method ]\n     **\n     * Adds event handlers for an element's drag gesture\n     **\n     - onmove (function) handler for moving\n     - onstart (function) handler for drag start\n     - onend (function) handler for drag end\n     - mcontext (object) #optional context for moving handler\n     - scontext (object) #optional context for drag start handler\n     - econtext (object) #optional context for drag end handler\n     * Additionaly following `drag` events are triggered: `drag.start.<id>` on start, \n     * `drag.end.<id>` on end and `drag.move.<id>` on every move. When element is dragged over another element \n     * `drag.over.<id>` fires as well.\n     *\n     * Start event and start handler are called in specified context or in context of the element with following parameters:\n     o x (number) x position of the mouse\n     o y (number) y position of the mouse\n     o event (object) DOM event object\n     * Move event and move handler are called in specified context or in context of the element with following parameters:\n     o dx (number) shift by x from the start point\n     o dy (number) shift by y from the start point\n     o x (number) x position of the mouse\n     o y (number) y position of the mouse\n     o event (object) DOM event object\n     * End event and end handler are called in specified context or in context of the element with following parameters:\n     o event (object) DOM event object\n     = (object) @Element\n    \\*/\n    elproto.drag = function (onmove, onstart, onend, move_scope, start_scope, end_scope) {\n        var el = this;\n        if (!arguments.length) {\n            var origTransform;\n            return el.drag(function (dx, dy) {\n                this.attr({\n                    transform: origTransform + (origTransform ? \"T\" : \"t\") + [dx, dy]\n                });\n            }, function () {\n                origTransform = this.transform().local;\n            });\n        }\n        function start(e, x, y) {\n            (e.originalEvent || e).preventDefault();\n            el._drag.x = x;\n            el._drag.y = y;\n            el._drag.id = e.identifier;\n            !drag.length && Snap.mousemove(dragMove).mouseup(dragUp);\n            drag.push({el: el, move_scope: move_scope, start_scope: start_scope, end_scope: end_scope});\n            onstart && eve.on(\"snap.drag.start.\" + el.id, onstart);\n            onmove && eve.on(\"snap.drag.move.\" + el.id, onmove);\n            onend && eve.on(\"snap.drag.end.\" + el.id, onend);\n            eve(\"snap.drag.start.\" + el.id, start_scope || move_scope || el, x, y, e);\n        }\n        function init(e, x, y) {\n            eve(\"snap.draginit.\" + el.id, el, e, x, y);\n        }\n        eve.on(\"snap.draginit.\" + el.id, start);\n        el._drag = {};\n        draggable.push({el: el, start: start, init: init});\n        el.mousedown(init);\n        return el;\n    };\n    /*\n     * Element.onDragOver\n     [ method ]\n     **\n     * Shortcut to assign event handler for `drag.over.<id>` event, where `id` is the element's `id` (see @Element.id)\n     - f (function) handler for event, first argument would be the element you are dragging over\n    \\*/\n    // elproto.onDragOver = function (f) {\n    //     f ? eve.on(\"snap.drag.over.\" + this.id, f) : eve.unbind(\"snap.drag.over.\" + this.id);\n    // };\n    /*\\\n     * Element.undrag\n     [ method ]\n     **\n     * Removes all drag event handlers from the given element\n    \\*/\n    elproto.undrag = function () {\n        var i = draggable.length;\n        while (i--) if (draggable[i].el == this) {\n            this.unmousedown(draggable[i].init);\n            draggable.splice(i, 1);\n            eve.unbind(\"snap.drag.*.\" + this.id);\n            eve.unbind(\"snap.draginit.\" + this.id);\n        }\n        !draggable.length && Snap.unmousemove(dragMove).unmouseup(dragUp);\n        return this;\n    };\n});\n\n// Copyright (c) 2013 Adobe Systems Incorporated. All rights reserved.\n//\n// Licensed under the Apache License, Version 2.0 (the \"License\");\n// you may not use this file except in compliance with the License.\n// You may obtain a copy of the License at\n//\n// http://www.apache.org/licenses/LICENSE-2.0\n//\n// Unless required by applicable law or agreed to in writing, software\n// distributed under the License is distributed on an \"AS IS\" BASIS,\n// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.\n// See the License for the specific language governing permissions and\n// limitations under the License.\nSnap.plugin(function (Snap, Element, Paper, glob) {\n    var elproto = Element.prototype,\n        pproto = Paper.prototype,\n        rgurl = /^\\s*url\\((.+)\\)/,\n        Str = String,\n        $ = Snap._.$;\n    Snap.filter = {};\n    /*\\\n     * Paper.filter\n     [ method ]\n     **\n     * Creates a `<filter>` element\n     **\n     - filstr (string) SVG fragment of filter provided as a string\n     = (object) @Element\n     * Note: It is recommended to use filters embedded into the page inside an empty SVG element.\n     > Usage\n     | var f = paper.filter('<feGaussianBlur stdDeviation=\"2\"/>'),\n     |     c = paper.circle(10, 10, 10).attr({\n     |         filter: f\n     |     });\n    \\*/\n    pproto.filter = function (filstr) {\n        var paper = this;\n        if (paper.type != \"svg\") {\n            paper = paper.paper;\n        }\n        var f = Snap.parse(Str(filstr)),\n            id = Snap._.id(),\n            width = paper.node.offsetWidth,\n            height = paper.node.offsetHeight,\n            filter = $(\"filter\");\n        $(filter, {\n            id: id,\n            filterUnits: \"userSpaceOnUse\"\n        });\n        filter.appendChild(f.node);\n        paper.defs.appendChild(filter);\n        return new Element(filter);\n    };\n\n    eve.on(\"snap.util.getattr.filter\", function () {\n        eve.stop();\n        var p = $(this.node, \"filter\");\n        if (p) {\n            var match = Str(p).match(rgurl);\n            return match && Snap.select(match[1]);\n        }\n    });\n    eve.on(\"snap.util.attr.filter\", function (value) {\n        if (value instanceof Element && value.type == \"filter\") {\n            eve.stop();\n            var id = value.node.id;\n            if (!id) {\n                $(value.node, {id: value.id});\n                id = value.id;\n            }\n            $(this.node, {\n                filter: Snap.url(id)\n            });\n        }\n        if (!value || value == \"none\") {\n            eve.stop();\n            this.node.removeAttribute(\"filter\");\n        }\n    });\n    /*\\\n     * Snap.filter.blur\n     [ method ]\n     **\n     * Returns an SVG markup string for the blur filter\n     **\n     - x (number) amount of horizontal blur, in pixels\n     - y (number) #optional amount of vertical blur, in pixels\n     = (string) filter representation\n     > Usage\n     | var f = paper.filter(Snap.filter.blur(5, 10)),\n     |     c = paper.circle(10, 10, 10).attr({\n     |         filter: f\n     |     });\n    \\*/\n    Snap.filter.blur = function (x, y) {\n        if (x == null) {\n            x = 2;\n        }\n        var def = y == null ? x : [x, y];\n        return Snap.format('\\<feGaussianBlur stdDeviation=\"{def}\"/>', {\n            def: def\n        });\n    };\n    Snap.filter.blur.toString = function () {\n        return this();\n    };\n    /*\\\n     * Snap.filter.shadow\n     [ method ]\n     **\n     * Returns an SVG markup string for the shadow filter\n     **\n     - dx (number) #optional horizontal shift of the shadow, in pixels\n     - dy (number) #optional vertical shift of the shadow, in pixels\n     - blur (number) #optional amount of blur\n     - color (string) #optional color of the shadow\n     - opacity (number) #optional `0..1` opacity of the shadow\n     * or\n     - dx (number) #optional horizontal shift of the shadow, in pixels\n     - dy (number) #optional vertical shift of the shadow, in pixels\n     - color (string) #optional color of the shadow\n     - opacity (number) #optional `0..1` opacity of the shadow\n     * which makes blur default to `4`. Or\n     - dx (number) #optional horizontal shift of the shadow, in pixels\n     - dy (number) #optional vertical shift of the shadow, in pixels\n     - opacity (number) #optional `0..1` opacity of the shadow\n     = (string) filter representation\n     > Usage\n     | var f = paper.filter(Snap.filter.shadow(0, 2, .3)),\n     |     c = paper.circle(10, 10, 10).attr({\n     |         filter: f\n     |     });\n    \\*/\n    Snap.filter.shadow = function (dx, dy, blur, color, opacity) {\n        if (opacity == null) {\n            if (color == null) {\n                opacity = blur;\n                blur = 4;\n                color = \"#000\";\n            } else {\n                opacity = color;\n                color = blur;\n                blur = 4;\n            }\n        }\n        if (blur == null) {\n            blur = 4;\n        }\n        if (opacity == null) {\n            opacity = 1;\n        }\n        if (dx == null) {\n            dx = 0;\n            dy = 2;\n        }\n        if (dy == null) {\n            dy = dx;\n        }\n        color = Snap.color(color);\n        return Snap.format('<feGaussianBlur in=\"SourceAlpha\" stdDeviation=\"{blur}\"/><feOffset dx=\"{dx}\" dy=\"{dy}\" result=\"offsetblur\"/><feFlood flood-color=\"{color}\"/><feComposite in2=\"offsetblur\" operator=\"in\"/><feComponentTransfer><feFuncA type=\"linear\" slope=\"{opacity}\"/></feComponentTransfer><feMerge><feMergeNode/><feMergeNode in=\"SourceGraphic\"/></feMerge>', {\n            color: color,\n            dx: dx,\n            dy: dy,\n            blur: blur,\n            opacity: opacity\n        });\n    };\n    Snap.filter.shadow.toString = function () {\n        return this();\n    };\n    /*\\\n     * Snap.filter.grayscale\n     [ method ]\n     **\n     * Returns an SVG markup string for the grayscale filter\n     **\n     - amount (number) amount of filter (`0..1`)\n     = (string) filter representation\n    \\*/\n    Snap.filter.grayscale = function (amount) {\n        if (amount == null) {\n            amount = 1;\n        }\n        return Snap.format('<feColorMatrix type=\"matrix\" values=\"{a} {b} {c} 0 0 {d} {e} {f} 0 0 {g} {b} {h} 0 0 0 0 0 1 0\"/>', {\n            a: 0.2126 + 0.7874 * (1 - amount),\n            b: 0.7152 - 0.7152 * (1 - amount),\n            c: 0.0722 - 0.0722 * (1 - amount),\n            d: 0.2126 - 0.2126 * (1 - amount),\n            e: 0.7152 + 0.2848 * (1 - amount),\n            f: 0.0722 - 0.0722 * (1 - amount),\n            g: 0.2126 - 0.2126 * (1 - amount),\n            h: 0.0722 + 0.9278 * (1 - amount)\n        });\n    };\n    Snap.filter.grayscale.toString = function () {\n        return this();\n    };\n    /*\\\n     * Snap.filter.sepia\n     [ method ]\n     **\n     * Returns an SVG markup string for the sepia filter\n     **\n     - amount (number) amount of filter (`0..1`)\n     = (string) filter representation\n    \\*/\n    Snap.filter.sepia = function (amount) {\n        if (amount == null) {\n            amount = 1;\n        }\n        return Snap.format('<feColorMatrix type=\"matrix\" values=\"{a} {b} {c} 0 0 {d} {e} {f} 0 0 {g} {h} {i} 0 0 0 0 0 1 0\"/>', {\n            a: 0.393 + 0.607 * (1 - amount),\n            b: 0.769 - 0.769 * (1 - amount),\n            c: 0.189 - 0.189 * (1 - amount),\n            d: 0.349 - 0.349 * (1 - amount),\n            e: 0.686 + 0.314 * (1 - amount),\n            f: 0.168 - 0.168 * (1 - amount),\n            g: 0.272 - 0.272 * (1 - amount),\n            h: 0.534 - 0.534 * (1 - amount),\n            i: 0.131 + 0.869 * (1 - amount)\n        });\n    };\n    Snap.filter.sepia.toString = function () {\n        return this();\n    };\n    /*\\\n     * Snap.filter.saturate\n     [ method ]\n     **\n     * Returns an SVG markup string for the saturate filter\n     **\n     - amount (number) amount of filter (`0..1`)\n     = (string) filter representation\n    \\*/\n    Snap.filter.saturate = function (amount) {\n        if (amount == null) {\n            amount = 1;\n        }\n        return Snap.format('<feColorMatrix type=\"saturate\" values=\"{amount}\"/>', {\n            amount: 1 - amount\n        });\n    };\n    Snap.filter.saturate.toString = function () {\n        return this();\n    };\n    /*\\\n     * Snap.filter.hueRotate\n     [ method ]\n     **\n     * Returns an SVG markup string for the hue-rotate filter\n     **\n     - angle (number) angle of rotation\n     = (string) filter representation\n    \\*/\n    Snap.filter.hueRotate = function (angle) {\n        angle = angle || 0;\n        return Snap.format('<feColorMatrix type=\"hueRotate\" values=\"{angle}\"/>', {\n            angle: angle\n        });\n    };\n    Snap.filter.hueRotate.toString = function () {\n        return this();\n    };\n    /*\\\n     * Snap.filter.invert\n     [ method ]\n     **\n     * Returns an SVG markup string for the invert filter\n     **\n     - amount (number) amount of filter (`0..1`)\n     = (string) filter representation\n    \\*/\n    Snap.filter.invert = function (amount) {\n        if (amount == null) {\n            amount = 1;\n        }\n//        <feColorMatrix type=\"matrix\" values=\"-1 0 0 0 1  0 -1 0 0 1  0 0 -1 0 1  0 0 0 1 0\" color-interpolation-filters=\"sRGB\"/>\n        return Snap.format('<feComponentTransfer><feFuncR type=\"table\" tableValues=\"{amount} {amount2}\"/><feFuncG type=\"table\" tableValues=\"{amount} {amount2}\"/><feFuncB type=\"table\" tableValues=\"{amount} {amount2}\"/></feComponentTransfer>', {\n            amount: amount,\n            amount2: 1 - amount\n        });\n    };\n    Snap.filter.invert.toString = function () {\n        return this();\n    };\n    /*\\\n     * Snap.filter.brightness\n     [ method ]\n     **\n     * Returns an SVG markup string for the brightness filter\n     **\n     - amount (number) amount of filter (`0..1`)\n     = (string) filter representation\n    \\*/\n    Snap.filter.brightness = function (amount) {\n        if (amount == null) {\n            amount = 1;\n        }\n        return Snap.format('<feComponentTransfer><feFuncR type=\"linear\" slope=\"{amount}\"/><feFuncG type=\"linear\" slope=\"{amount}\"/><feFuncB type=\"linear\" slope=\"{amount}\"/></feComponentTransfer>', {\n            amount: amount\n        });\n    };\n    Snap.filter.brightness.toString = function () {\n        return this();\n    };\n    /*\\\n     * Snap.filter.contrast\n     [ method ]\n     **\n     * Returns an SVG markup string for the contrast filter\n     **\n     - amount (number) amount of filter (`0..1`)\n     = (string) filter representation\n    \\*/\n    Snap.filter.contrast = function (amount) {\n        if (amount == null) {\n            amount = 1;\n        }\n        return Snap.format('<feComponentTransfer><feFuncR type=\"linear\" slope=\"{amount}\" intercept=\"{amount2}\"/><feFuncG type=\"linear\" slope=\"{amount}\" intercept=\"{amount2}\"/><feFuncB type=\"linear\" slope=\"{amount}\" intercept=\"{amount2}\"/></feComponentTransfer>', {\n            amount: amount,\n            amount2: .5 - amount / 2\n        });\n    };\n    Snap.filter.contrast.toString = function () {\n        return this();\n    };\n});\n\n// Copyright (c) 2014 Adobe Systems Incorporated. All rights reserved.\n//\n// Licensed under the Apache License, Version 2.0 (the \"License\");\n// you may not use this file except in compliance with the License.\n// You may obtain a copy of the License at\n//\n// http://www.apache.org/licenses/LICENSE-2.0\n//\n// Unless required by applicable law or agreed to in writing, software\n// distributed under the License is distributed on an \"AS IS\" BASIS,\n// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.\n// See the License for the specific language governing permissions and\n// limitations under the License.\nSnap.plugin(function (Snap, Element, Paper, glob, Fragment) {\n    var box = Snap._.box,\n        is = Snap.is,\n        firstLetter = /^[^a-z]*([tbmlrc])/i,\n        toString = function () {\n            return \"T\" + this.dx + \",\" + this.dy;\n        };\n    /*\\\n     * Element.getAlign\n     [ method ]\n     **\n     * Returns shift needed to align the element relatively to given element.\n     * If no elements specified, parent `<svg>` container will be used.\n     - el (object) @optional alignment element\n     - way (string) one of six values: `\"top\"`, `\"middle\"`, `\"bottom\"`, `\"left\"`, `\"center\"`, `\"right\"`\n     = (object|string) Object in format `{dx: , dy: }` also has a string representation as a transformation string\n     > Usage\n     | el.transform(el.getAlign(el2, \"top\"));\n     * or\n     | var dy = el.getAlign(el2, \"top\").dy;\n    \\*/\n    Element.prototype.getAlign = function (el, way) {\n        if (way == null && is(el, \"string\")) {\n            way = el;\n            el = null;\n        }\n        el = el || this.paper;\n        var bx = el.getBBox ? el.getBBox() : box(el),\n            bb = this.getBBox(),\n            out = {};\n        way = way && way.match(firstLetter);\n        way = way ? way[1].toLowerCase() : \"c\";\n        switch (way) {\n            case \"t\":\n                out.dx = 0;\n                out.dy = bx.y - bb.y;\n            break;\n            case \"b\":\n                out.dx = 0;\n                out.dy = bx.y2 - bb.y2;\n            break;\n            case \"m\":\n                out.dx = 0;\n                out.dy = bx.cy - bb.cy;\n            break;\n            case \"l\":\n                out.dx = bx.x - bb.x;\n                out.dy = 0;\n            break;\n            case \"r\":\n                out.dx = bx.x2 - bb.x2;\n                out.dy = 0;\n            break;\n            default:\n                out.dx = bx.cx - bb.cx;\n                out.dy = 0;\n            break;\n        }\n        out.toString = toString;\n        return out;\n    };\n    /*\\\n     * Element.align\n     [ method ]\n     **\n     * Aligns the element relatively to given one via transformation.\n     * If no elements specified, parent `<svg>` container will be used.\n     - el (object) @optional alignment element\n     - way (string) one of six values: `\"top\"`, `\"middle\"`, `\"bottom\"`, `\"left\"`, `\"center\"`, `\"right\"`\n     = (object) this element\n     > Usage\n     | el.align(el2, \"top\");\n     * or\n     | el.align(\"middle\");\n    \\*/\n    Element.prototype.align = function (el, way) {\n        return this.transform(\"...\" + this.getAlign(el, way));\n    };\n});\n\n// Copyright (c) 2016 Adobe Systems Incorporated. All rights reserved.\n//\n// Licensed under the Apache License, Version 2.0 (the \"License\");\n// you may not use this file except in compliance with the License.\n// You may obtain a copy of the License at\n//\n// http://www.apache.org/licenses/LICENSE-2.0\n//\n// Unless required by applicable law or agreed to in writing, software\n// distributed under the License is distributed on an \"AS IS\" BASIS,\n// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.\n// See the License for the specific language governing permissions and\n// limitations under the License.\nSnap.plugin(function (Snap, Element, Paper, glob, Fragment) {\n    var elproto = Element.prototype,\n        is = Snap.is,\n        Str = String,\n        has = \"hasOwnProperty\";\n    function slice(from, to, f) {\n        return function (arr) {\n            var res = arr.slice(from, to);\n            if (res.length == 1) {\n                res = res[0];\n            }\n            return f ? f(res) : res;\n        };\n    }\n    var Animation = function (attr, ms, easing, callback) {\n        if (typeof easing == \"function\" && !easing.length) {\n            callback = easing;\n            easing = mina.linear;\n        }\n        this.attr = attr;\n        this.dur = ms;\n        easing && (this.easing = easing);\n        callback && (this.callback = callback);\n    };\n    Snap._.Animation = Animation;\n    /*\\\n     * Snap.animation\n     [ method ]\n     **\n     * Creates an animation object\n     **\n     - attr (object) attributes of final destination\n     - duration (number) duration of the animation, in milliseconds\n     - easing (function) #optional one of easing functions of @mina or custom one\n     - callback (function) #optional callback function that fires when animation ends\n     = (object) animation object\n    \\*/\n    Snap.animation = function (attr, ms, easing, callback) {\n        return new Animation(attr, ms, easing, callback);\n    };\n    /*\\\n     * Element.inAnim\n     [ method ]\n     **\n     * Returns a set of animations that may be able to manipulate the current element\n     **\n     = (object) in format:\n     o {\n     o     anim (object) animation object,\n     o     mina (object) @mina object,\n     o     curStatus (number) 0..1 — status of the animation: 0 — just started, 1 — just finished,\n     o     status (function) gets or sets the status of the animation,\n     o     stop (function) stops the animation\n     o }\n    \\*/\n    elproto.inAnim = function () {\n        var el = this,\n            res = [];\n        for (var id in el.anims) if (el.anims[has](id)) {\n            (function (a) {\n                res.push({\n                    anim: new Animation(a._attrs, a.dur, a.easing, a._callback),\n                    mina: a,\n                    curStatus: a.status(),\n                    status: function (val) {\n                        return a.status(val);\n                    },\n                    stop: function () {\n                        a.stop();\n                    }\n                });\n            }(el.anims[id]));\n        }\n        return res;\n    };\n    /*\\\n     * Snap.animate\n     [ method ]\n     **\n     * Runs generic animation of one number into another with a caring function\n     **\n     - from (number|array) number or array of numbers\n     - to (number|array) number or array of numbers\n     - setter (function) caring function that accepts one number argument\n     - duration (number) duration, in milliseconds\n     - easing (function) #optional easing function from @mina or custom\n     - callback (function) #optional callback function to execute when animation ends\n     = (object) animation object in @mina format\n     o {\n     o     id (string) animation id, consider it read-only,\n     o     duration (function) gets or sets the duration of the animation,\n     o     easing (function) easing,\n     o     speed (function) gets or sets the speed of the animation,\n     o     status (function) gets or sets the status of the animation,\n     o     stop (function) stops the animation\n     o }\n     | var rect = Snap().rect(0, 0, 10, 10);\n     | Snap.animate(0, 10, function (val) {\n     |     rect.attr({\n     |         x: val\n     |     });\n     | }, 1000);\n     | // in given context is equivalent to\n     | rect.animate({x: 10}, 1000);\n    \\*/\n    Snap.animate = function (from, to, setter, ms, easing, callback) {\n        if (typeof easing == \"function\" && !easing.length) {\n            callback = easing;\n            easing = mina.linear;\n        }\n        var now = mina.time(),\n            anim = mina(from, to, now, now + ms, mina.time, setter, easing);\n        callback && eve.once(\"mina.finish.\" + anim.id, callback);\n        return anim;\n    };\n    /*\\\n     * Element.stop\n     [ method ]\n     **\n     * Stops all the animations for the current element\n     **\n     = (Element) the current element\n    \\*/\n    elproto.stop = function () {\n        var anims = this.inAnim();\n        for (var i = 0, ii = anims.length; i < ii; i++) {\n            anims[i].stop();\n        }\n        return this;\n    };\n    /*\\\n     * Element.animate\n     [ method ]\n     **\n     * Animates the given attributes of the element\n     **\n     - attrs (object) key-value pairs of destination attributes\n     - duration (number) duration of the animation in milliseconds\n     - easing (function) #optional easing function from @mina or custom\n     - callback (function) #optional callback function that executes when the animation ends\n     = (Element) the current element\n    \\*/\n    elproto.animate = function (attrs, ms, easing, callback) {\n        if (typeof easing == \"function\" && !easing.length) {\n            callback = easing;\n            easing = mina.linear;\n        }\n        if (attrs instanceof Animation) {\n            callback = attrs.callback;\n            easing = attrs.easing;\n            ms = attrs.dur;\n            attrs = attrs.attr;\n        }\n        var fkeys = [], tkeys = [], keys = {}, from, to, f, eq,\n            el = this;\n        for (var key in attrs) if (attrs[has](key)) {\n            if (el.equal) {\n                eq = el.equal(key, Str(attrs[key]));\n                from = eq.from;\n                to = eq.to;\n                f = eq.f;\n            } else {\n                from = +el.attr(key);\n                to = +attrs[key];\n            }\n            var len = is(from, \"array\") ? from.length : 1;\n            keys[key] = slice(fkeys.length, fkeys.length + len, f);\n            fkeys = fkeys.concat(from);\n            tkeys = tkeys.concat(to);\n        }\n        var now = mina.time(),\n            anim = mina(fkeys, tkeys, now, now + ms, mina.time, function (val) {\n                var attr = {};\n                for (var key in keys) if (keys[has](key)) {\n                    attr[key] = keys[key](val);\n                }\n                el.attr(attr);\n            }, easing);\n        el.anims[anim.id] = anim;\n        anim._attrs = attrs;\n        anim._callback = callback;\n        eve(\"snap.animcreated.\" + el.id, anim);\n        eve.once(\"mina.finish.\" + anim.id, function () {\n            eve.off(\"mina.*.\" + anim.id);\n            delete el.anims[anim.id];\n            callback && callback.call(el);\n        });\n        eve.once(\"mina.stop.\" + anim.id, function () {\n            eve.off(\"mina.*.\" + anim.id);\n            delete el.anims[anim.id];\n        });\n        return el;\n    };\n});\n\n// Copyright (c) 2017 Adobe Systems Incorporated. All rights reserved.\n//\n// Licensed under the Apache License, Version 2.0 (the \"License\");\n// you may not use this file except in compliance with the License.\n// You may obtain a copy of the License at\n//\n// http://www.apache.org/licenses/LICENSE-2.0\n//\n// Unless required by applicable law or agreed to in writing, software\n// distributed under the License is distributed on an \"AS IS\" BASIS,\n// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.\n// See the License for the specific language governing permissions and\n// limitations under the License.\nSnap.plugin(function (Snap, Element, Paper, glob) {\n    // Colours are from https://www.materialui.co\n    var red         = \"#ffebee#ffcdd2#ef9a9a#e57373#ef5350#f44336#e53935#d32f2f#c62828#b71c1c#ff8a80#ff5252#ff1744#d50000\",\n        pink        = \"#FCE4EC#F8BBD0#F48FB1#F06292#EC407A#E91E63#D81B60#C2185B#AD1457#880E4F#FF80AB#FF4081#F50057#C51162\",\n        purple      = \"#F3E5F5#E1BEE7#CE93D8#BA68C8#AB47BC#9C27B0#8E24AA#7B1FA2#6A1B9A#4A148C#EA80FC#E040FB#D500F9#AA00FF\",\n        deeppurple  = \"#EDE7F6#D1C4E9#B39DDB#9575CD#7E57C2#673AB7#5E35B1#512DA8#4527A0#311B92#B388FF#7C4DFF#651FFF#6200EA\",\n        indigo      = \"#E8EAF6#C5CAE9#9FA8DA#7986CB#5C6BC0#3F51B5#3949AB#303F9F#283593#1A237E#8C9EFF#536DFE#3D5AFE#304FFE\",\n        blue        = \"#E3F2FD#BBDEFB#90CAF9#64B5F6#64B5F6#2196F3#1E88E5#1976D2#1565C0#0D47A1#82B1FF#448AFF#2979FF#2962FF\",\n        lightblue   = \"#E1F5FE#B3E5FC#81D4FA#4FC3F7#29B6F6#03A9F4#039BE5#0288D1#0277BD#01579B#80D8FF#40C4FF#00B0FF#0091EA\",\n        cyan        = \"#E0F7FA#B2EBF2#80DEEA#4DD0E1#26C6DA#00BCD4#00ACC1#0097A7#00838F#006064#84FFFF#18FFFF#00E5FF#00B8D4\",\n        teal        = \"#E0F2F1#B2DFDB#80CBC4#4DB6AC#26A69A#009688#00897B#00796B#00695C#004D40#A7FFEB#64FFDA#1DE9B6#00BFA5\",\n        green       = \"#E8F5E9#C8E6C9#A5D6A7#81C784#66BB6A#4CAF50#43A047#388E3C#2E7D32#1B5E20#B9F6CA#69F0AE#00E676#00C853\",\n        lightgreen  = \"#F1F8E9#DCEDC8#C5E1A5#AED581#9CCC65#8BC34A#7CB342#689F38#558B2F#33691E#CCFF90#B2FF59#76FF03#64DD17\",\n        lime        = \"#F9FBE7#F0F4C3#E6EE9C#DCE775#D4E157#CDDC39#C0CA33#AFB42B#9E9D24#827717#F4FF81#EEFF41#C6FF00#AEEA00\",\n        yellow      = \"#FFFDE7#FFF9C4#FFF59D#FFF176#FFEE58#FFEB3B#FDD835#FBC02D#F9A825#F57F17#FFFF8D#FFFF00#FFEA00#FFD600\",\n        amber       = \"#FFF8E1#FFECB3#FFE082#FFD54F#FFCA28#FFC107#FFB300#FFA000#FF8F00#FF6F00#FFE57F#FFD740#FFC400#FFAB00\",\n        orange      = \"#FFF3E0#FFE0B2#FFCC80#FFB74D#FFA726#FF9800#FB8C00#F57C00#EF6C00#E65100#FFD180#FFAB40#FF9100#FF6D00\",\n        deeporange  = \"#FBE9E7#FFCCBC#FFAB91#FF8A65#FF7043#FF5722#F4511E#E64A19#D84315#BF360C#FF9E80#FF6E40#FF3D00#DD2C00\",\n        brown       = \"#EFEBE9#D7CCC8#BCAAA4#A1887F#8D6E63#795548#6D4C41#5D4037#4E342E#3E2723\",\n        grey        = \"#FAFAFA#F5F5F5#EEEEEE#E0E0E0#BDBDBD#9E9E9E#757575#616161#424242#212121\",\n        bluegrey    = \"#ECEFF1#CFD8DC#B0BEC5#90A4AE#78909C#607D8B#546E7A#455A64#37474F#263238\";\n    /*\\\n     * Snap.mui\n     [ property ]\n     **\n     * Contain Material UI colours.\n     | Snap().rect(0, 0, 10, 10).attr({fill: Snap.mui.deeppurple, stroke: Snap.mui.amber[600]});\n     # For colour reference: <a href=\"https://www.materialui.co\">https://www.materialui.co</a>.\n    \\*/\n    Snap.mui = {};\n    /*\\\n     * Snap.flat\n     [ property ]\n     **\n     * Contain Flat UI colours.\n     | Snap().rect(0, 0, 10, 10).attr({fill: Snap.flat.carrot, stroke: Snap.flat.wetasphalt});\n     # For colour reference: <a href=\"https://www.materialui.co\">https://www.materialui.co</a>.\n    \\*/\n    Snap.flat = {};\n    function saveColor(colors) {\n        colors = colors.split(/(?=#)/);\n        var color = new String(colors[5]);\n        color[50] = colors[0];\n        color[100] = colors[1];\n        color[200] = colors[2];\n        color[300] = colors[3];\n        color[400] = colors[4];\n        color[500] = colors[5];\n        color[600] = colors[6];\n        color[700] = colors[7];\n        color[800] = colors[8];\n        color[900] = colors[9];\n        if (colors[10]) {\n            color.A100 = colors[10];\n            color.A200 = colors[11];\n            color.A400 = colors[12];\n            color.A700 = colors[13];\n        }\n        return color;\n    }\n    Snap.mui.red = saveColor(red);\n    Snap.mui.pink = saveColor(pink);\n    Snap.mui.purple = saveColor(purple);\n    Snap.mui.deeppurple = saveColor(deeppurple);\n    Snap.mui.indigo = saveColor(indigo);\n    Snap.mui.blue = saveColor(blue);\n    Snap.mui.lightblue = saveColor(lightblue);\n    Snap.mui.cyan = saveColor(cyan);\n    Snap.mui.teal = saveColor(teal);\n    Snap.mui.green = saveColor(green);\n    Snap.mui.lightgreen = saveColor(lightgreen);\n    Snap.mui.lime = saveColor(lime);\n    Snap.mui.yellow = saveColor(yellow);\n    Snap.mui.amber = saveColor(amber);\n    Snap.mui.orange = saveColor(orange);\n    Snap.mui.deeporange = saveColor(deeporange);\n    Snap.mui.brown = saveColor(brown);\n    Snap.mui.grey = saveColor(grey);\n    Snap.mui.bluegrey = saveColor(bluegrey);\n    Snap.flat.turquoise = \"#1abc9c\";\n    Snap.flat.greensea = \"#16a085\";\n    Snap.flat.sunflower = \"#f1c40f\";\n    Snap.flat.orange = \"#f39c12\";\n    Snap.flat.emerland = \"#2ecc71\";\n    Snap.flat.nephritis = \"#27ae60\";\n    Snap.flat.carrot = \"#e67e22\";\n    Snap.flat.pumpkin = \"#d35400\";\n    Snap.flat.peterriver = \"#3498db\";\n    Snap.flat.belizehole = \"#2980b9\";\n    Snap.flat.alizarin = \"#e74c3c\";\n    Snap.flat.pomegranate = \"#c0392b\";\n    Snap.flat.amethyst = \"#9b59b6\";\n    Snap.flat.wisteria = \"#8e44ad\";\n    Snap.flat.clouds = \"#ecf0f1\";\n    Snap.flat.silver = \"#bdc3c7\";\n    Snap.flat.wetasphalt = \"#34495e\";\n    Snap.flat.midnightblue = \"#2c3e50\";\n    Snap.flat.concrete = \"#95a5a6\";\n    Snap.flat.asbestos = \"#7f8c8d\";\n    /*\\\n     * Snap.importMUIColors\n     [ method ]\n     **\n     * Imports Material UI colours into global object.\n     | Snap.importMUIColors();\n     | Snap().rect(0, 0, 10, 10).attr({fill: deeppurple, stroke: amber[600]});\n     # For colour reference: <a href=\"https://www.materialui.co\">https://www.materialui.co</a>.\n    \\*/\n    Snap.importMUIColors = function () {\n        for (var color in Snap.mui) {\n            if (Snap.mui.hasOwnProperty(color)) {\n                window[color] = Snap.mui[color];\n            }\n        }\n    };\n});\n\nmodule.exports = Snap\n","\"use strict\";\n\nfunction _typeof(obj) { \"@babel/helpers - typeof\"; if (typeof Symbol === \"function\" && typeof Symbol.iterator === \"symbol\") { _typeof = function _typeof(obj) { return typeof obj; }; } else { _typeof = function _typeof(obj) { return obj && typeof Symbol === \"function\" && obj.constructor === Symbol && obj !== Symbol.prototype ? \"symbol\" : typeof obj; }; } return _typeof(obj); }\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = void 0;\n\nvar _toDate = _interopRequireDefault(require(\"./lib/toDate\"));\n\nvar _toFloat = _interopRequireDefault(require(\"./lib/toFloat\"));\n\nvar _toInt = _interopRequireDefault(require(\"./lib/toInt\"));\n\nvar _toBoolean = _interopRequireDefault(require(\"./lib/toBoolean\"));\n\nvar _equals = _interopRequireDefault(require(\"./lib/equals\"));\n\nvar _contains = _interopRequireDefault(require(\"./lib/contains\"));\n\nvar _matches = _interopRequireDefault(require(\"./lib/matches\"));\n\nvar _isEmail = _interopRequireDefault(require(\"./lib/isEmail\"));\n\nvar _isURL = _interopRequireDefault(require(\"./lib/isURL\"));\n\nvar _isMACAddress = _interopRequireDefault(require(\"./lib/isMACAddress\"));\n\nvar _isIP = _interopRequireDefault(require(\"./lib/isIP\"));\n\nvar _isIPRange = _interopRequireDefault(require(\"./lib/isIPRange\"));\n\nvar _isFQDN = _interopRequireDefault(require(\"./lib/isFQDN\"));\n\nvar _isDate = _interopRequireDefault(require(\"./lib/isDate\"));\n\nvar _isTime = _interopRequireDefault(require(\"./lib/isTime\"));\n\nvar _isBoolean = _interopRequireDefault(require(\"./lib/isBoolean\"));\n\nvar _isLocale = _interopRequireDefault(require(\"./lib/isLocale\"));\n\nvar _isAlpha = _interopRequireWildcard(require(\"./lib/isAlpha\"));\n\nvar _isAlphanumeric = _interopRequireWildcard(require(\"./lib/isAlphanumeric\"));\n\nvar _isNumeric = _interopRequireDefault(require(\"./lib/isNumeric\"));\n\nvar _isPassportNumber = _interopRequireDefault(require(\"./lib/isPassportNumber\"));\n\nvar _isPort = _interopRequireDefault(require(\"./lib/isPort\"));\n\nvar _isLowercase = _interopRequireDefault(require(\"./lib/isLowercase\"));\n\nvar _isUppercase = _interopRequireDefault(require(\"./lib/isUppercase\"));\n\nvar _isIMEI = _interopRequireDefault(require(\"./lib/isIMEI\"));\n\nvar _isAscii = _interopRequireDefault(require(\"./lib/isAscii\"));\n\nvar _isFullWidth = _interopRequireDefault(require(\"./lib/isFullWidth\"));\n\nvar _isHalfWidth = _interopRequireDefault(require(\"./lib/isHalfWidth\"));\n\nvar _isVariableWidth = _interopRequireDefault(require(\"./lib/isVariableWidth\"));\n\nvar _isMultibyte = _interopRequireDefault(require(\"./lib/isMultibyte\"));\n\nvar _isSemVer = _interopRequireDefault(require(\"./lib/isSemVer\"));\n\nvar _isSurrogatePair = _interopRequireDefault(require(\"./lib/isSurrogatePair\"));\n\nvar _isInt = _interopRequireDefault(require(\"./lib/isInt\"));\n\nvar _isFloat = _interopRequireWildcard(require(\"./lib/isFloat\"));\n\nvar _isDecimal = _interopRequireDefault(require(\"./lib/isDecimal\"));\n\nvar _isHexadecimal = _interopRequireDefault(require(\"./lib/isHexadecimal\"));\n\nvar _isOctal = _interopRequireDefault(require(\"./lib/isOctal\"));\n\nvar _isDivisibleBy = _interopRequireDefault(require(\"./lib/isDivisibleBy\"));\n\nvar _isHexColor = _interopRequireDefault(require(\"./lib/isHexColor\"));\n\nvar _isRgbColor = _interopRequireDefault(require(\"./lib/isRgbColor\"));\n\nvar _isHSL = _interopRequireDefault(require(\"./lib/isHSL\"));\n\nvar _isISRC = _interopRequireDefault(require(\"./lib/isISRC\"));\n\nvar _isIBAN = _interopRequireWildcard(require(\"./lib/isIBAN\"));\n\nvar _isBIC = _interopRequireDefault(require(\"./lib/isBIC\"));\n\nvar _isMD = _interopRequireDefault(require(\"./lib/isMD5\"));\n\nvar _isHash = _interopRequireDefault(require(\"./lib/isHash\"));\n\nvar _isJWT = _interopRequireDefault(require(\"./lib/isJWT\"));\n\nvar _isJSON = _interopRequireDefault(require(\"./lib/isJSON\"));\n\nvar _isEmpty = _interopRequireDefault(require(\"./lib/isEmpty\"));\n\nvar _isLength = _interopRequireDefault(require(\"./lib/isLength\"));\n\nvar _isByteLength = _interopRequireDefault(require(\"./lib/isByteLength\"));\n\nvar _isUUID = _interopRequireDefault(require(\"./lib/isUUID\"));\n\nvar _isMongoId = _interopRequireDefault(require(\"./lib/isMongoId\"));\n\nvar _isAfter = _interopRequireDefault(require(\"./lib/isAfter\"));\n\nvar _isBefore = _interopRequireDefault(require(\"./lib/isBefore\"));\n\nvar _isIn = _interopRequireDefault(require(\"./lib/isIn\"));\n\nvar _isLuhnNumber = _interopRequireDefault(require(\"./lib/isLuhnNumber\"));\n\nvar _isCreditCard = _interopRequireDefault(require(\"./lib/isCreditCard\"));\n\nvar _isIdentityCard = _interopRequireDefault(require(\"./lib/isIdentityCard\"));\n\nvar _isEAN = _interopRequireDefault(require(\"./lib/isEAN\"));\n\nvar _isISIN = _interopRequireDefault(require(\"./lib/isISIN\"));\n\nvar _isISBN = _interopRequireDefault(require(\"./lib/isISBN\"));\n\nvar _isISSN = _interopRequireDefault(require(\"./lib/isISSN\"));\n\nvar _isTaxID = _interopRequireDefault(require(\"./lib/isTaxID\"));\n\nvar _isMobilePhone = _interopRequireWildcard(require(\"./lib/isMobilePhone\"));\n\nvar _isEthereumAddress = _interopRequireDefault(require(\"./lib/isEthereumAddress\"));\n\nvar _isCurrency = _interopRequireDefault(require(\"./lib/isCurrency\"));\n\nvar _isBtcAddress = _interopRequireDefault(require(\"./lib/isBtcAddress\"));\n\nvar _isISO = _interopRequireDefault(require(\"./lib/isISO6391\"));\n\nvar _isISO2 = _interopRequireDefault(require(\"./lib/isISO8601\"));\n\nvar _isRFC = _interopRequireDefault(require(\"./lib/isRFC3339\"));\n\nvar _isISO31661Alpha = _interopRequireDefault(require(\"./lib/isISO31661Alpha2\"));\n\nvar _isISO31661Alpha2 = _interopRequireDefault(require(\"./lib/isISO31661Alpha3\"));\n\nvar _isISO3 = _interopRequireDefault(require(\"./lib/isISO4217\"));\n\nvar _isBase = _interopRequireDefault(require(\"./lib/isBase32\"));\n\nvar _isBase2 = _interopRequireDefault(require(\"./lib/isBase58\"));\n\nvar _isBase3 = _interopRequireDefault(require(\"./lib/isBase64\"));\n\nvar _isDataURI = _interopRequireDefault(require(\"./lib/isDataURI\"));\n\nvar _isMagnetURI = _interopRequireDefault(require(\"./lib/isMagnetURI\"));\n\nvar _isMimeType = _interopRequireDefault(require(\"./lib/isMimeType\"));\n\nvar _isLatLong = _interopRequireDefault(require(\"./lib/isLatLong\"));\n\nvar _isPostalCode = _interopRequireWildcard(require(\"./lib/isPostalCode\"));\n\nvar _ltrim = _interopRequireDefault(require(\"./lib/ltrim\"));\n\nvar _rtrim = _interopRequireDefault(require(\"./lib/rtrim\"));\n\nvar _trim = _interopRequireDefault(require(\"./lib/trim\"));\n\nvar _escape = _interopRequireDefault(require(\"./lib/escape\"));\n\nvar _unescape = _interopRequireDefault(require(\"./lib/unescape\"));\n\nvar _stripLow = _interopRequireDefault(require(\"./lib/stripLow\"));\n\nvar _whitelist = _interopRequireDefault(require(\"./lib/whitelist\"));\n\nvar _blacklist = _interopRequireDefault(require(\"./lib/blacklist\"));\n\nvar _isWhitelisted = _interopRequireDefault(require(\"./lib/isWhitelisted\"));\n\nvar _normalizeEmail = _interopRequireDefault(require(\"./lib/normalizeEmail\"));\n\nvar _isSlug = _interopRequireDefault(require(\"./lib/isSlug\"));\n\nvar _isLicensePlate = _interopRequireDefault(require(\"./lib/isLicensePlate\"));\n\nvar _isStrongPassword = _interopRequireDefault(require(\"./lib/isStrongPassword\"));\n\nvar _isVAT = _interopRequireDefault(require(\"./lib/isVAT\"));\n\nfunction _getRequireWildcardCache() { if (typeof WeakMap !== \"function\") return null; var cache = new WeakMap(); _getRequireWildcardCache = function _getRequireWildcardCache() { return cache; }; return cache; }\n\nfunction _interopRequireWildcard(obj) { if (obj && obj.__esModule) { return obj; } if (obj === null || _typeof(obj) !== \"object\" && typeof obj !== \"function\") { return { default: obj }; } var cache = _getRequireWildcardCache(); if (cache && cache.has(obj)) { return cache.get(obj); } var newObj = {}; var hasPropertyDescriptor = Object.defineProperty && Object.getOwnPropertyDescriptor; for (var key in obj) { if (Object.prototype.hasOwnProperty.call(obj, key)) { var desc = hasPropertyDescriptor ? Object.getOwnPropertyDescriptor(obj, key) : null; if (desc && (desc.get || desc.set)) { Object.defineProperty(newObj, key, desc); } else { newObj[key] = obj[key]; } } } newObj.default = obj; if (cache) { cache.set(obj, newObj); } return newObj; }\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\nvar version = '13.9.0';\nvar validator = {\n  version: version,\n  toDate: _toDate.default,\n  toFloat: _toFloat.default,\n  toInt: _toInt.default,\n  toBoolean: _toBoolean.default,\n  equals: _equals.default,\n  contains: _contains.default,\n  matches: _matches.default,\n  isEmail: _isEmail.default,\n  isURL: _isURL.default,\n  isMACAddress: _isMACAddress.default,\n  isIP: _isIP.default,\n  isIPRange: _isIPRange.default,\n  isFQDN: _isFQDN.default,\n  isBoolean: _isBoolean.default,\n  isIBAN: _isIBAN.default,\n  isBIC: _isBIC.default,\n  isAlpha: _isAlpha.default,\n  isAlphaLocales: _isAlpha.locales,\n  isAlphanumeric: _isAlphanumeric.default,\n  isAlphanumericLocales: _isAlphanumeric.locales,\n  isNumeric: _isNumeric.default,\n  isPassportNumber: _isPassportNumber.default,\n  isPort: _isPort.default,\n  isLowercase: _isLowercase.default,\n  isUppercase: _isUppercase.default,\n  isAscii: _isAscii.default,\n  isFullWidth: _isFullWidth.default,\n  isHalfWidth: _isHalfWidth.default,\n  isVariableWidth: _isVariableWidth.default,\n  isMultibyte: _isMultibyte.default,\n  isSemVer: _isSemVer.default,\n  isSurrogatePair: _isSurrogatePair.default,\n  isInt: _isInt.default,\n  isIMEI: _isIMEI.default,\n  isFloat: _isFloat.default,\n  isFloatLocales: _isFloat.locales,\n  isDecimal: _isDecimal.default,\n  isHexadecimal: _isHexadecimal.default,\n  isOctal: _isOctal.default,\n  isDivisibleBy: _isDivisibleBy.default,\n  isHexColor: _isHexColor.default,\n  isRgbColor: _isRgbColor.default,\n  isHSL: _isHSL.default,\n  isISRC: _isISRC.default,\n  isMD5: _isMD.default,\n  isHash: _isHash.default,\n  isJWT: _isJWT.default,\n  isJSON: _isJSON.default,\n  isEmpty: _isEmpty.default,\n  isLength: _isLength.default,\n  isLocale: _isLocale.default,\n  isByteLength: _isByteLength.default,\n  isUUID: _isUUID.default,\n  isMongoId: _isMongoId.default,\n  isAfter: _isAfter.default,\n  isBefore: _isBefore.default,\n  isIn: _isIn.default,\n  isLuhnNumber: _isLuhnNumber.default,\n  isCreditCard: _isCreditCard.default,\n  isIdentityCard: _isIdentityCard.default,\n  isEAN: _isEAN.default,\n  isISIN: _isISIN.default,\n  isISBN: _isISBN.default,\n  isISSN: _isISSN.default,\n  isMobilePhone: _isMobilePhone.default,\n  isMobilePhoneLocales: _isMobilePhone.locales,\n  isPostalCode: _isPostalCode.default,\n  isPostalCodeLocales: _isPostalCode.locales,\n  isEthereumAddress: _isEthereumAddress.default,\n  isCurrency: _isCurrency.default,\n  isBtcAddress: _isBtcAddress.default,\n  isISO6391: _isISO.default,\n  isISO8601: _isISO2.default,\n  isRFC3339: _isRFC.default,\n  isISO31661Alpha2: _isISO31661Alpha.default,\n  isISO31661Alpha3: _isISO31661Alpha2.default,\n  isISO4217: _isISO3.default,\n  isBase32: _isBase.default,\n  isBase58: _isBase2.default,\n  isBase64: _isBase3.default,\n  isDataURI: _isDataURI.default,\n  isMagnetURI: _isMagnetURI.default,\n  isMimeType: _isMimeType.default,\n  isLatLong: _isLatLong.default,\n  ltrim: _ltrim.default,\n  rtrim: _rtrim.default,\n  trim: _trim.default,\n  escape: _escape.default,\n  unescape: _unescape.default,\n  stripLow: _stripLow.default,\n  whitelist: _whitelist.default,\n  blacklist: _blacklist.default,\n  isWhitelisted: _isWhitelisted.default,\n  normalizeEmail: _normalizeEmail.default,\n  toString: toString,\n  isSlug: _isSlug.default,\n  isStrongPassword: _isStrongPassword.default,\n  isTaxID: _isTaxID.default,\n  isDate: _isDate.default,\n  isTime: _isTime.default,\n  isLicensePlate: _isLicensePlate.default,\n  isVAT: _isVAT.default,\n  ibanLocales: _isIBAN.locales\n};\nvar _default = validator;\nexports.default = _default;\nmodule.exports = exports.default;\nmodule.exports.default = exports.default;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.commaDecimal = exports.dotDecimal = exports.bengaliLocales = exports.farsiLocales = exports.arabicLocales = exports.englishLocales = exports.decimal = exports.alphanumeric = exports.alpha = void 0;\nvar alpha = {\n  'en-US': /^[A-Z]+$/i,\n  'az-AZ': /^[A-VXYZÇƏĞİıÖŞÜ]+$/i,\n  'bg-BG': /^[А-Я]+$/i,\n  'cs-CZ': /^[A-ZÁČĎÉĚÍŇÓŘŠŤÚŮÝŽ]+$/i,\n  'da-DK': /^[A-ZÆØÅ]+$/i,\n  'de-DE': /^[A-ZÄÖÜß]+$/i,\n  'el-GR': /^[Α-ώ]+$/i,\n  'es-ES': /^[A-ZÁÉÍÑÓÚÜ]+$/i,\n  'fa-IR': /^[ابپتثجچحخدذرزژسشصضطظعغفقکگلمنوهی]+$/i,\n  'fi-FI': /^[A-ZÅÄÖ]+$/i,\n  'fr-FR': /^[A-ZÀÂÆÇÉÈÊËÏÎÔŒÙÛÜŸ]+$/i,\n  'it-IT': /^[A-ZÀÉÈÌÎÓÒÙ]+$/i,\n  'ja-JP': /^[ぁ-んァ-ヶｦ-ﾟ一-龠ー・。、]+$/i,\n  'nb-NO': /^[A-ZÆØÅ]+$/i,\n  'nl-NL': /^[A-ZÁÉËÏÓÖÜÚ]+$/i,\n  'nn-NO': /^[A-ZÆØÅ]+$/i,\n  'hu-HU': /^[A-ZÁÉÍÓÖŐÚÜŰ]+$/i,\n  'pl-PL': /^[A-ZĄĆĘŚŁŃÓŻŹ]+$/i,\n  'pt-PT': /^[A-ZÃÁÀÂÄÇÉÊËÍÏÕÓÔÖÚÜ]+$/i,\n  'ru-RU': /^[А-ЯЁ]+$/i,\n  'sl-SI': /^[A-ZČĆĐŠŽ]+$/i,\n  'sk-SK': /^[A-ZÁČĎÉÍŇÓŠŤÚÝŽĹŔĽÄÔ]+$/i,\n  'sr-RS@latin': /^[A-ZČĆŽŠĐ]+$/i,\n  'sr-RS': /^[А-ЯЂЈЉЊЋЏ]+$/i,\n  'sv-SE': /^[A-ZÅÄÖ]+$/i,\n  'th-TH': /^[ก-๐\\s]+$/i,\n  'tr-TR': /^[A-ZÇĞİıÖŞÜ]+$/i,\n  'uk-UA': /^[А-ЩЬЮЯЄIЇҐі]+$/i,\n  'vi-VN': /^[A-ZÀÁẠẢÃÂẦẤẬẨẪĂẰẮẶẲẴĐÈÉẸẺẼÊỀẾỆỂỄÌÍỊỈĨÒÓỌỎÕÔỒỐỘỔỖƠỜỚỢỞỠÙÚỤỦŨƯỪỨỰỬỮỲÝỴỶỸ]+$/i,\n  'ko-KR': /^[ㄱ-ㅎㅏ-ㅣ가-힣]*$/,\n  'ku-IQ': /^[ئابپتجچحخدرڕزژسشعغفڤقکگلڵمنوۆھەیێيطؤثآإأكضصةظذ]+$/i,\n  ar: /^[ءآأؤإئابةتثجحخدذرزسشصضطظعغفقكلمنهوىيًٌٍَُِّْٰ]+$/,\n  he: /^[א-ת]+$/,\n  fa: /^['آاءأؤئبپتثجچحخدذرزژسشصضطظعغفقکگلمنوهةی']+$/i,\n  bn: /^['ঀঁংঃঅআইঈউঊঋঌএঐওঔকখগঘঙচছজঝঞটঠডঢণতথদধনপফবভমযরলশষসহ়ঽািীুূৃৄেৈোৌ্ৎৗড়ঢ়য়ৠৡৢৣৰৱ৲৳৴৵৶৷৸৹৺৻']+$/,\n  'hi-IN': /^[\\u0900-\\u0961]+[\\u0972-\\u097F]*$/i,\n  'si-LK': /^[\\u0D80-\\u0DFF]+$/\n};\nexports.alpha = alpha;\nvar alphanumeric = {\n  'en-US': /^[0-9A-Z]+$/i,\n  'az-AZ': /^[0-9A-VXYZÇƏĞİıÖŞÜ]+$/i,\n  'bg-BG': /^[0-9А-Я]+$/i,\n  'cs-CZ': /^[0-9A-ZÁČĎÉĚÍŇÓŘŠŤÚŮÝŽ]+$/i,\n  'da-DK': /^[0-9A-ZÆØÅ]+$/i,\n  'de-DE': /^[0-9A-ZÄÖÜß]+$/i,\n  'el-GR': /^[0-9Α-ω]+$/i,\n  'es-ES': /^[0-9A-ZÁÉÍÑÓÚÜ]+$/i,\n  'fi-FI': /^[0-9A-ZÅÄÖ]+$/i,\n  'fr-FR': /^[0-9A-ZÀÂÆÇÉÈÊËÏÎÔŒÙÛÜŸ]+$/i,\n  'it-IT': /^[0-9A-ZÀÉÈÌÎÓÒÙ]+$/i,\n  'ja-JP': /^[0-9０-９ぁ-んァ-ヶｦ-ﾟ一-龠ー・。、]+$/i,\n  'hu-HU': /^[0-9A-ZÁÉÍÓÖŐÚÜŰ]+$/i,\n  'nb-NO': /^[0-9A-ZÆØÅ]+$/i,\n  'nl-NL': /^[0-9A-ZÁÉËÏÓÖÜÚ]+$/i,\n  'nn-NO': /^[0-9A-ZÆØÅ]+$/i,\n  'pl-PL': /^[0-9A-ZĄĆĘŚŁŃÓŻŹ]+$/i,\n  'pt-PT': /^[0-9A-ZÃÁÀÂÄÇÉÊËÍÏÕÓÔÖÚÜ]+$/i,\n  'ru-RU': /^[0-9А-ЯЁ]+$/i,\n  'sl-SI': /^[0-9A-ZČĆĐŠŽ]+$/i,\n  'sk-SK': /^[0-9A-ZÁČĎÉÍŇÓŠŤÚÝŽĹŔĽÄÔ]+$/i,\n  'sr-RS@latin': /^[0-9A-ZČĆŽŠĐ]+$/i,\n  'sr-RS': /^[0-9А-ЯЂЈЉЊЋЏ]+$/i,\n  'sv-SE': /^[0-9A-ZÅÄÖ]+$/i,\n  'th-TH': /^[ก-๙\\s]+$/i,\n  'tr-TR': /^[0-9A-ZÇĞİıÖŞÜ]+$/i,\n  'uk-UA': /^[0-9А-ЩЬЮЯЄIЇҐі]+$/i,\n  'ko-KR': /^[0-9ㄱ-ㅎㅏ-ㅣ가-힣]*$/,\n  'ku-IQ': /^[٠١٢٣٤٥٦٧٨٩0-9ئابپتجچحخدرڕزژسشعغفڤقکگلڵمنوۆھەیێيطؤثآإأكضصةظذ]+$/i,\n  'vi-VN': /^[0-9A-ZÀÁẠẢÃÂẦẤẬẨẪĂẰẮẶẲẴĐÈÉẸẺẼÊỀẾỆỂỄÌÍỊỈĨÒÓỌỎÕÔỒỐỘỔỖƠỜỚỢỞỠÙÚỤỦŨƯỪỨỰỬỮỲÝỴỶỸ]+$/i,\n  ar: /^[٠١٢٣٤٥٦٧٨٩0-9ءآأؤإئابةتثجحخدذرزسشصضطظعغفقكلمنهوىيًٌٍَُِّْٰ]+$/,\n  he: /^[0-9א-ת]+$/,\n  fa: /^['0-9آاءأؤئبپتثجچحخدذرزژسشصضطظعغفقکگلمنوهةی۱۲۳۴۵۶۷۸۹۰']+$/i,\n  bn: /^['ঀঁংঃঅআইঈউঊঋঌএঐওঔকখগঘঙচছজঝঞটঠডঢণতথদধনপফবভমযরলশষসহ়ঽািীুূৃৄেৈোৌ্ৎৗড়ঢ়য়ৠৡৢৣ০১২৩৪৫৬৭৮৯ৰৱ৲৳৴৵৶৷৸৹৺৻']+$/,\n  'hi-IN': /^[\\u0900-\\u0963]+[\\u0966-\\u097F]*$/i,\n  'si-LK': /^[0-9\\u0D80-\\u0DFF]+$/\n};\nexports.alphanumeric = alphanumeric;\nvar decimal = {\n  'en-US': '.',\n  ar: '٫'\n};\nexports.decimal = decimal;\nvar englishLocales = ['AU', 'GB', 'HK', 'IN', 'NZ', 'ZA', 'ZM'];\nexports.englishLocales = englishLocales;\n\nfor (var locale, i = 0; i < englishLocales.length; i++) {\n  locale = \"en-\".concat(englishLocales[i]);\n  alpha[locale] = alpha['en-US'];\n  alphanumeric[locale] = alphanumeric['en-US'];\n  decimal[locale] = decimal['en-US'];\n} // Source: http://www.localeplanet.com/java/\n\n\nvar arabicLocales = ['AE', 'BH', 'DZ', 'EG', 'IQ', 'JO', 'KW', 'LB', 'LY', 'MA', 'QM', 'QA', 'SA', 'SD', 'SY', 'TN', 'YE'];\nexports.arabicLocales = arabicLocales;\n\nfor (var _locale, _i = 0; _i < arabicLocales.length; _i++) {\n  _locale = \"ar-\".concat(arabicLocales[_i]);\n  alpha[_locale] = alpha.ar;\n  alphanumeric[_locale] = alphanumeric.ar;\n  decimal[_locale] = decimal.ar;\n}\n\nvar farsiLocales = ['IR', 'AF'];\nexports.farsiLocales = farsiLocales;\n\nfor (var _locale2, _i2 = 0; _i2 < farsiLocales.length; _i2++) {\n  _locale2 = \"fa-\".concat(farsiLocales[_i2]);\n  alphanumeric[_locale2] = alphanumeric.fa;\n  decimal[_locale2] = decimal.ar;\n}\n\nvar bengaliLocales = ['BD', 'IN'];\nexports.bengaliLocales = bengaliLocales;\n\nfor (var _locale3, _i3 = 0; _i3 < bengaliLocales.length; _i3++) {\n  _locale3 = \"bn-\".concat(bengaliLocales[_i3]);\n  alpha[_locale3] = alpha.bn;\n  alphanumeric[_locale3] = alphanumeric.bn;\n  decimal[_locale3] = decimal['en-US'];\n} // Source: https://en.wikipedia.org/wiki/Decimal_mark\n\n\nvar dotDecimal = ['ar-EG', 'ar-LB', 'ar-LY'];\nexports.dotDecimal = dotDecimal;\nvar commaDecimal = ['bg-BG', 'cs-CZ', 'da-DK', 'de-DE', 'el-GR', 'en-ZM', 'es-ES', 'fr-CA', 'fr-FR', 'id-ID', 'it-IT', 'ku-IQ', 'hi-IN', 'hu-HU', 'nb-NO', 'nn-NO', 'nl-NL', 'pl-PL', 'pt-PT', 'ru-RU', 'si-LK', 'sl-SI', 'sr-RS@latin', 'sr-RS', 'sv-SE', 'tr-TR', 'uk-UA', 'vi-VN'];\nexports.commaDecimal = commaDecimal;\n\nfor (var _i4 = 0; _i4 < dotDecimal.length; _i4++) {\n  decimal[dotDecimal[_i4]] = decimal['en-US'];\n}\n\nfor (var _i5 = 0; _i5 < commaDecimal.length; _i5++) {\n  decimal[commaDecimal[_i5]] = ',';\n}\n\nalpha['fr-CA'] = alpha['fr-FR'];\nalphanumeric['fr-CA'] = alphanumeric['fr-FR'];\nalpha['pt-BR'] = alpha['pt-PT'];\nalphanumeric['pt-BR'] = alphanumeric['pt-PT'];\ndecimal['pt-BR'] = decimal['pt-PT']; // see #862\n\nalpha['pl-Pl'] = alpha['pl-PL'];\nalphanumeric['pl-Pl'] = alphanumeric['pl-PL'];\ndecimal['pl-Pl'] = decimal['pl-PL']; // see #1455\n\nalpha['fa-AF'] = alpha.fa;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = blacklist;\n\nvar _assertString = _interopRequireDefault(require(\"./util/assertString\"));\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\nfunction blacklist(str, chars) {\n  (0, _assertString.default)(str);\n  return str.replace(new RegExp(\"[\".concat(chars, \"]+\"), 'g'), '');\n}\n\nmodule.exports = exports.default;\nmodule.exports.default = exports.default;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = contains;\n\nvar _assertString = _interopRequireDefault(require(\"./util/assertString\"));\n\nvar _toString = _interopRequireDefault(require(\"./util/toString\"));\n\nvar _merge = _interopRequireDefault(require(\"./util/merge\"));\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\nvar defaulContainsOptions = {\n  ignoreCase: false,\n  minOccurrences: 1\n};\n\nfunction contains(str, elem, options) {\n  (0, _assertString.default)(str);\n  options = (0, _merge.default)(options, defaulContainsOptions);\n\n  if (options.ignoreCase) {\n    return str.toLowerCase().split((0, _toString.default)(elem).toLowerCase()).length > options.minOccurrences;\n  }\n\n  return str.split((0, _toString.default)(elem)).length > options.minOccurrences;\n}\n\nmodule.exports = exports.default;\nmodule.exports.default = exports.default;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = equals;\n\nvar _assertString = _interopRequireDefault(require(\"./util/assertString\"));\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\nfunction equals(str, comparison) {\n  (0, _assertString.default)(str);\n  return str === comparison;\n}\n\nmodule.exports = exports.default;\nmodule.exports.default = exports.default;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = escape;\n\nvar _assertString = _interopRequireDefault(require(\"./util/assertString\"));\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\nfunction escape(str) {\n  (0, _assertString.default)(str);\n  return str.replace(/&/g, '&amp;').replace(/\"/g, '&quot;').replace(/'/g, '&#x27;').replace(/</g, '&lt;').replace(/>/g, '&gt;').replace(/\\//g, '&#x2F;').replace(/\\\\/g, '&#x5C;').replace(/`/g, '&#96;');\n}\n\nmodule.exports = exports.default;\nmodule.exports.default = exports.default;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = isAfter;\n\nvar _toDate = _interopRequireDefault(require(\"./toDate\"));\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\nfunction isAfter(date, options) {\n  // For backwards compatibility:\n  // isAfter(str [, date]), i.e. `options` could be used as argument for the legacy `date`\n  var comparisonDate = (options === null || options === void 0 ? void 0 : options.comparisonDate) || options || Date().toString();\n  var comparison = (0, _toDate.default)(comparisonDate);\n  var original = (0, _toDate.default)(date);\n  return !!(original && comparison && original > comparison);\n}\n\nmodule.exports = exports.default;\nmodule.exports.default = exports.default;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = isAlpha;\nexports.locales = void 0;\n\nvar _assertString = _interopRequireDefault(require(\"./util/assertString\"));\n\nvar _alpha = require(\"./alpha\");\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\nfunction isAlpha(_str) {\n  var locale = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : 'en-US';\n  var options = arguments.length > 2 && arguments[2] !== undefined ? arguments[2] : {};\n  (0, _assertString.default)(_str);\n  var str = _str;\n  var ignore = options.ignore;\n\n  if (ignore) {\n    if (ignore instanceof RegExp) {\n      str = str.replace(ignore, '');\n    } else if (typeof ignore === 'string') {\n      str = str.replace(new RegExp(\"[\".concat(ignore.replace(/[-[\\]{}()*+?.,\\\\^$|#\\\\s]/g, '\\\\$&'), \"]\"), 'g'), ''); // escape regex for ignore\n    } else {\n      throw new Error('ignore should be instance of a String or RegExp');\n    }\n  }\n\n  if (locale in _alpha.alpha) {\n    return _alpha.alpha[locale].test(str);\n  }\n\n  throw new Error(\"Invalid locale '\".concat(locale, \"'\"));\n}\n\nvar locales = Object.keys(_alpha.alpha);\nexports.locales = locales;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = isAlphanumeric;\nexports.locales = void 0;\n\nvar _assertString = _interopRequireDefault(require(\"./util/assertString\"));\n\nvar _alpha = require(\"./alpha\");\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\nfunction isAlphanumeric(_str) {\n  var locale = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : 'en-US';\n  var options = arguments.length > 2 && arguments[2] !== undefined ? arguments[2] : {};\n  (0, _assertString.default)(_str);\n  var str = _str;\n  var ignore = options.ignore;\n\n  if (ignore) {\n    if (ignore instanceof RegExp) {\n      str = str.replace(ignore, '');\n    } else if (typeof ignore === 'string') {\n      str = str.replace(new RegExp(\"[\".concat(ignore.replace(/[-[\\]{}()*+?.,\\\\^$|#\\\\s]/g, '\\\\$&'), \"]\"), 'g'), ''); // escape regex for ignore\n    } else {\n      throw new Error('ignore should be instance of a String or RegExp');\n    }\n  }\n\n  if (locale in _alpha.alphanumeric) {\n    return _alpha.alphanumeric[locale].test(str);\n  }\n\n  throw new Error(\"Invalid locale '\".concat(locale, \"'\"));\n}\n\nvar locales = Object.keys(_alpha.alphanumeric);\nexports.locales = locales;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = isAscii;\n\nvar _assertString = _interopRequireDefault(require(\"./util/assertString\"));\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\n/* eslint-disable no-control-regex */\nvar ascii = /^[\\x00-\\x7F]+$/;\n/* eslint-enable no-control-regex */\n\nfunction isAscii(str) {\n  (0, _assertString.default)(str);\n  return ascii.test(str);\n}\n\nmodule.exports = exports.default;\nmodule.exports.default = exports.default;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = isBIC;\n\nvar _assertString = _interopRequireDefault(require(\"./util/assertString\"));\n\nvar _isISO31661Alpha = require(\"./isISO31661Alpha2\");\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\n// https://en.wikipedia.org/wiki/ISO_9362\nvar isBICReg = /^[A-Za-z]{6}[A-Za-z0-9]{2}([A-Za-z0-9]{3})?$/;\n\nfunction isBIC(str) {\n  (0, _assertString.default)(str); // toUpperCase() should be removed when a new major version goes out that changes\n  // the regex to [A-Z] (per the spec).\n\n  var countryCode = str.slice(4, 6).toUpperCase();\n\n  if (!_isISO31661Alpha.CountryCodes.has(countryCode) && countryCode !== 'XK') {\n    return false;\n  }\n\n  return isBICReg.test(str);\n}\n\nmodule.exports = exports.default;\nmodule.exports.default = exports.default;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = isBase32;\n\nvar _assertString = _interopRequireDefault(require(\"./util/assertString\"));\n\nvar _merge = _interopRequireDefault(require(\"./util/merge\"));\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\nvar base32 = /^[A-Z2-7]+=*$/;\nvar crockfordBase32 = /^[A-HJKMNP-TV-Z0-9]+$/;\nvar defaultBase32Options = {\n  crockford: false\n};\n\nfunction isBase32(str, options) {\n  (0, _assertString.default)(str);\n  options = (0, _merge.default)(options, defaultBase32Options);\n\n  if (options.crockford) {\n    return crockfordBase32.test(str);\n  }\n\n  var len = str.length;\n\n  if (len % 8 === 0 && base32.test(str)) {\n    return true;\n  }\n\n  return false;\n}\n\nmodule.exports = exports.default;\nmodule.exports.default = exports.default;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = isBase58;\n\nvar _assertString = _interopRequireDefault(require(\"./util/assertString\"));\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\n// Accepted chars - 123456789ABCDEFGH JKLMN PQRSTUVWXYZabcdefghijk mnopqrstuvwxyz\nvar base58Reg = /^[A-HJ-NP-Za-km-z1-9]*$/;\n\nfunction isBase58(str) {\n  (0, _assertString.default)(str);\n\n  if (base58Reg.test(str)) {\n    return true;\n  }\n\n  return false;\n}\n\nmodule.exports = exports.default;\nmodule.exports.default = exports.default;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = isBase64;\n\nvar _assertString = _interopRequireDefault(require(\"./util/assertString\"));\n\nvar _merge = _interopRequireDefault(require(\"./util/merge\"));\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\nvar notBase64 = /[^A-Z0-9+\\/=]/i;\nvar urlSafeBase64 = /^[A-Z0-9_\\-]*$/i;\nvar defaultBase64Options = {\n  urlSafe: false\n};\n\nfunction isBase64(str, options) {\n  (0, _assertString.default)(str);\n  options = (0, _merge.default)(options, defaultBase64Options);\n  var len = str.length;\n\n  if (options.urlSafe) {\n    return urlSafeBase64.test(str);\n  }\n\n  if (len % 4 !== 0 || notBase64.test(str)) {\n    return false;\n  }\n\n  var firstPaddingChar = str.indexOf('=');\n  return firstPaddingChar === -1 || firstPaddingChar === len - 1 || firstPaddingChar === len - 2 && str[len - 1] === '=';\n}\n\nmodule.exports = exports.default;\nmodule.exports.default = exports.default;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = isBefore;\n\nvar _assertString = _interopRequireDefault(require(\"./util/assertString\"));\n\nvar _toDate = _interopRequireDefault(require(\"./toDate\"));\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\nfunction isBefore(str) {\n  var date = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : String(new Date());\n  (0, _assertString.default)(str);\n  var comparison = (0, _toDate.default)(date);\n  var original = (0, _toDate.default)(str);\n  return !!(original && comparison && original < comparison);\n}\n\nmodule.exports = exports.default;\nmodule.exports.default = exports.default;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = isBoolean;\n\nvar _assertString = _interopRequireDefault(require(\"./util/assertString\"));\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\nvar defaultOptions = {\n  loose: false\n};\nvar strictBooleans = ['true', 'false', '1', '0'];\nvar looseBooleans = [].concat(strictBooleans, ['yes', 'no']);\n\nfunction isBoolean(str) {\n  var options = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : defaultOptions;\n  (0, _assertString.default)(str);\n\n  if (options.loose) {\n    return looseBooleans.includes(str.toLowerCase());\n  }\n\n  return strictBooleans.includes(str);\n}\n\nmodule.exports = exports.default;\nmodule.exports.default = exports.default;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = isBtcAddress;\n\nvar _assertString = _interopRequireDefault(require(\"./util/assertString\"));\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\nvar bech32 = /^(bc1)[a-z0-9]{25,39}$/;\nvar base58 = /^(1|3)[A-HJ-NP-Za-km-z1-9]{25,39}$/;\n\nfunction isBtcAddress(str) {\n  (0, _assertString.default)(str);\n  return bech32.test(str) || base58.test(str);\n}\n\nmodule.exports = exports.default;\nmodule.exports.default = exports.default;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = isByteLength;\n\nvar _assertString = _interopRequireDefault(require(\"./util/assertString\"));\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\nfunction _typeof(obj) { \"@babel/helpers - typeof\"; if (typeof Symbol === \"function\" && typeof Symbol.iterator === \"symbol\") { _typeof = function _typeof(obj) { return typeof obj; }; } else { _typeof = function _typeof(obj) { return obj && typeof Symbol === \"function\" && obj.constructor === Symbol && obj !== Symbol.prototype ? \"symbol\" : typeof obj; }; } return _typeof(obj); }\n\n/* eslint-disable prefer-rest-params */\nfunction isByteLength(str, options) {\n  (0, _assertString.default)(str);\n  var min;\n  var max;\n\n  if (_typeof(options) === 'object') {\n    min = options.min || 0;\n    max = options.max;\n  } else {\n    // backwards compatibility: isByteLength(str, min [, max])\n    min = arguments[1];\n    max = arguments[2];\n  }\n\n  var len = encodeURI(str).split(/%..|./).length - 1;\n  return len >= min && (typeof max === 'undefined' || len <= max);\n}\n\nmodule.exports = exports.default;\nmodule.exports.default = exports.default;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = isCreditCard;\n\nvar _assertString = _interopRequireDefault(require(\"./util/assertString\"));\n\nvar _isLuhnNumber = _interopRequireDefault(require(\"./isLuhnNumber\"));\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\nvar cards = {\n  amex: /^3[47][0-9]{13}$/,\n  dinersclub: /^3(?:0[0-5]|[68][0-9])[0-9]{11}$/,\n  discover: /^6(?:011|5[0-9][0-9])[0-9]{12,15}$/,\n  jcb: /^(?:2131|1800|35\\d{3})\\d{11}$/,\n  mastercard: /^5[1-5][0-9]{2}|(222[1-9]|22[3-9][0-9]|2[3-6][0-9]{2}|27[01][0-9]|2720)[0-9]{12}$/,\n  // /^[25][1-7][0-9]{14}$/;\n  unionpay: /^(6[27][0-9]{14}|^(81[0-9]{14,17}))$/,\n  visa: /^(?:4[0-9]{12})(?:[0-9]{3,6})?$/\n};\n/* eslint-disable max-len */\n\nvar allCards = /^(?:4[0-9]{12}(?:[0-9]{3,6})?|5[1-5][0-9]{14}|(222[1-9]|22[3-9][0-9]|2[3-6][0-9]{2}|27[01][0-9]|2720)[0-9]{12}|6(?:011|5[0-9][0-9])[0-9]{12,15}|3[47][0-9]{13}|3(?:0[0-5]|[68][0-9])[0-9]{11}|(?:2131|1800|35\\d{3})\\d{11}|6[27][0-9]{14}|^(81[0-9]{14,17}))$/;\n/* eslint-enable max-len */\n\nfunction isCreditCard(card) {\n  var options = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : {};\n  (0, _assertString.default)(card);\n  var provider = options.provider;\n  var sanitized = card.replace(/[- ]+/g, '');\n\n  if (provider && provider.toLowerCase() in cards) {\n    // specific provider in the list\n    if (!cards[provider.toLowerCase()].test(sanitized)) {\n      return false;\n    }\n  } else if (provider && !(provider.toLowerCase() in cards)) {\n    /* specific provider not in the list */\n    throw new Error(\"\".concat(provider, \" is not a valid credit card provider.\"));\n  } else if (!allCards.test(sanitized)) {\n    // no specific provider\n    return false;\n  }\n\n  return (0, _isLuhnNumber.default)(card);\n}\n\nmodule.exports = exports.default;\nmodule.exports.default = exports.default;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = isCurrency;\n\nvar _merge = _interopRequireDefault(require(\"./util/merge\"));\n\nvar _assertString = _interopRequireDefault(require(\"./util/assertString\"));\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\nfunction currencyRegex(options) {\n  var decimal_digits = \"\\\\d{\".concat(options.digits_after_decimal[0], \"}\");\n  options.digits_after_decimal.forEach(function (digit, index) {\n    if (index !== 0) decimal_digits = \"\".concat(decimal_digits, \"|\\\\d{\").concat(digit, \"}\");\n  });\n  var symbol = \"(\".concat(options.symbol.replace(/\\W/, function (m) {\n    return \"\\\\\".concat(m);\n  }), \")\").concat(options.require_symbol ? '' : '?'),\n      negative = '-?',\n      whole_dollar_amount_without_sep = '[1-9]\\\\d*',\n      whole_dollar_amount_with_sep = \"[1-9]\\\\d{0,2}(\\\\\".concat(options.thousands_separator, \"\\\\d{3})*\"),\n      valid_whole_dollar_amounts = ['0', whole_dollar_amount_without_sep, whole_dollar_amount_with_sep],\n      whole_dollar_amount = \"(\".concat(valid_whole_dollar_amounts.join('|'), \")?\"),\n      decimal_amount = \"(\\\\\".concat(options.decimal_separator, \"(\").concat(decimal_digits, \"))\").concat(options.require_decimal ? '' : '?');\n  var pattern = whole_dollar_amount + (options.allow_decimal || options.require_decimal ? decimal_amount : ''); // default is negative sign before symbol, but there are two other options (besides parens)\n\n  if (options.allow_negatives && !options.parens_for_negatives) {\n    if (options.negative_sign_after_digits) {\n      pattern += negative;\n    } else if (options.negative_sign_before_digits) {\n      pattern = negative + pattern;\n    }\n  } // South African Rand, for example, uses R 123 (space) and R-123 (no space)\n\n\n  if (options.allow_negative_sign_placeholder) {\n    pattern = \"( (?!\\\\-))?\".concat(pattern);\n  } else if (options.allow_space_after_symbol) {\n    pattern = \" ?\".concat(pattern);\n  } else if (options.allow_space_after_digits) {\n    pattern += '( (?!$))?';\n  }\n\n  if (options.symbol_after_digits) {\n    pattern += symbol;\n  } else {\n    pattern = symbol + pattern;\n  }\n\n  if (options.allow_negatives) {\n    if (options.parens_for_negatives) {\n      pattern = \"(\\\\(\".concat(pattern, \"\\\\)|\").concat(pattern, \")\");\n    } else if (!(options.negative_sign_before_digits || options.negative_sign_after_digits)) {\n      pattern = negative + pattern;\n    }\n  } // ensure there's a dollar and/or decimal amount, and that\n  // it doesn't start with a space or a negative sign followed by a space\n\n\n  return new RegExp(\"^(?!-? )(?=.*\\\\d)\".concat(pattern, \"$\"));\n}\n\nvar default_currency_options = {\n  symbol: '$',\n  require_symbol: false,\n  allow_space_after_symbol: false,\n  symbol_after_digits: false,\n  allow_negatives: true,\n  parens_for_negatives: false,\n  negative_sign_before_digits: false,\n  negative_sign_after_digits: false,\n  allow_negative_sign_placeholder: false,\n  thousands_separator: ',',\n  decimal_separator: '.',\n  allow_decimal: true,\n  require_decimal: false,\n  digits_after_decimal: [2],\n  allow_space_after_digits: false\n};\n\nfunction isCurrency(str, options) {\n  (0, _assertString.default)(str);\n  options = (0, _merge.default)(options, default_currency_options);\n  return currencyRegex(options).test(str);\n}\n\nmodule.exports = exports.default;\nmodule.exports.default = exports.default;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = isDataURI;\n\nvar _assertString = _interopRequireDefault(require(\"./util/assertString\"));\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\nvar validMediaType = /^[a-z]+\\/[a-z0-9\\-\\+\\._]+$/i;\nvar validAttribute = /^[a-z\\-]+=[a-z0-9\\-]+$/i;\nvar validData = /^[a-z0-9!\\$&'\\(\\)\\*\\+,;=\\-\\._~:@\\/\\?%\\s]*$/i;\n\nfunction isDataURI(str) {\n  (0, _assertString.default)(str);\n  var data = str.split(',');\n\n  if (data.length < 2) {\n    return false;\n  }\n\n  var attributes = data.shift().trim().split(';');\n  var schemeAndMediaType = attributes.shift();\n\n  if (schemeAndMediaType.slice(0, 5) !== 'data:') {\n    return false;\n  }\n\n  var mediaType = schemeAndMediaType.slice(5);\n\n  if (mediaType !== '' && !validMediaType.test(mediaType)) {\n    return false;\n  }\n\n  for (var i = 0; i < attributes.length; i++) {\n    if (!(i === attributes.length - 1 && attributes[i].toLowerCase() === 'base64') && !validAttribute.test(attributes[i])) {\n      return false;\n    }\n  }\n\n  for (var _i = 0; _i < data.length; _i++) {\n    if (!validData.test(data[_i])) {\n      return false;\n    }\n  }\n\n  return true;\n}\n\nmodule.exports = exports.default;\nmodule.exports.default = exports.default;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = isDate;\n\nvar _merge = _interopRequireDefault(require(\"./util/merge\"));\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\nfunction _slicedToArray(arr, i) { return _arrayWithHoles(arr) || _iterableToArrayLimit(arr, i) || _unsupportedIterableToArray(arr, i) || _nonIterableRest(); }\n\nfunction _nonIterableRest() { throw new TypeError(\"Invalid attempt to destructure non-iterable instance.\\nIn order to be iterable, non-array objects must have a [Symbol.iterator]() method.\"); }\n\nfunction _iterableToArrayLimit(arr, i) { if (typeof Symbol === \"undefined\" || !(Symbol.iterator in Object(arr))) return; var _arr = []; var _n = true; var _d = false; var _e = undefined; try { for (var _i = arr[Symbol.iterator](), _s; !(_n = (_s = _i.next()).done); _n = true) { _arr.push(_s.value); if (i && _arr.length === i) break; } } catch (err) { _d = true; _e = err; } finally { try { if (!_n && _i[\"return\"] != null) _i[\"return\"](); } finally { if (_d) throw _e; } } return _arr; }\n\nfunction _arrayWithHoles(arr) { if (Array.isArray(arr)) return arr; }\n\nfunction _createForOfIteratorHelper(o, allowArrayLike) { var it; if (typeof Symbol === \"undefined\" || o[Symbol.iterator] == null) { if (Array.isArray(o) || (it = _unsupportedIterableToArray(o)) || allowArrayLike && o && typeof o.length === \"number\") { if (it) o = it; var i = 0; var F = function F() {}; return { s: F, n: function n() { if (i >= o.length) return { done: true }; return { done: false, value: o[i++] }; }, e: function e(_e2) { throw _e2; }, f: F }; } throw new TypeError(\"Invalid attempt to iterate non-iterable instance.\\nIn order to be iterable, non-array objects must have a [Symbol.iterator]() method.\"); } var normalCompletion = true, didErr = false, err; return { s: function s() { it = o[Symbol.iterator](); }, n: function n() { var step = it.next(); normalCompletion = step.done; return step; }, e: function e(_e3) { didErr = true; err = _e3; }, f: function f() { try { if (!normalCompletion && it.return != null) it.return(); } finally { if (didErr) throw err; } } }; }\n\nfunction _unsupportedIterableToArray(o, minLen) { if (!o) return; if (typeof o === \"string\") return _arrayLikeToArray(o, minLen); var n = Object.prototype.toString.call(o).slice(8, -1); if (n === \"Object\" && o.constructor) n = o.constructor.name; if (n === \"Map\" || n === \"Set\") return Array.from(o); if (n === \"Arguments\" || /^(?:Ui|I)nt(?:8|16|32)(?:Clamped)?Array$/.test(n)) return _arrayLikeToArray(o, minLen); }\n\nfunction _arrayLikeToArray(arr, len) { if (len == null || len > arr.length) len = arr.length; for (var i = 0, arr2 = new Array(len); i < len; i++) { arr2[i] = arr[i]; } return arr2; }\n\nvar default_date_options = {\n  format: 'YYYY/MM/DD',\n  delimiters: ['/', '-'],\n  strictMode: false\n};\n\nfunction isValidFormat(format) {\n  return /(^(y{4}|y{2})[.\\/-](m{1,2})[.\\/-](d{1,2})$)|(^(m{1,2})[.\\/-](d{1,2})[.\\/-]((y{4}|y{2})$))|(^(d{1,2})[.\\/-](m{1,2})[.\\/-]((y{4}|y{2})$))/gi.test(format);\n}\n\nfunction zip(date, format) {\n  var zippedArr = [],\n      len = Math.min(date.length, format.length);\n\n  for (var i = 0; i < len; i++) {\n    zippedArr.push([date[i], format[i]]);\n  }\n\n  return zippedArr;\n}\n\nfunction isDate(input, options) {\n  if (typeof options === 'string') {\n    // Allow backward compatbility for old format isDate(input [, format])\n    options = (0, _merge.default)({\n      format: options\n    }, default_date_options);\n  } else {\n    options = (0, _merge.default)(options, default_date_options);\n  }\n\n  if (typeof input === 'string' && isValidFormat(options.format)) {\n    var formatDelimiter = options.delimiters.find(function (delimiter) {\n      return options.format.indexOf(delimiter) !== -1;\n    });\n    var dateDelimiter = options.strictMode ? formatDelimiter : options.delimiters.find(function (delimiter) {\n      return input.indexOf(delimiter) !== -1;\n    });\n    var dateAndFormat = zip(input.split(dateDelimiter), options.format.toLowerCase().split(formatDelimiter));\n    var dateObj = {};\n\n    var _iterator = _createForOfIteratorHelper(dateAndFormat),\n        _step;\n\n    try {\n      for (_iterator.s(); !(_step = _iterator.n()).done;) {\n        var _step$value = _slicedToArray(_step.value, 2),\n            dateWord = _step$value[0],\n            formatWord = _step$value[1];\n\n        if (dateWord.length !== formatWord.length) {\n          return false;\n        }\n\n        dateObj[formatWord.charAt(0)] = dateWord;\n      }\n    } catch (err) {\n      _iterator.e(err);\n    } finally {\n      _iterator.f();\n    }\n\n    return new Date(\"\".concat(dateObj.m, \"/\").concat(dateObj.d, \"/\").concat(dateObj.y)).getDate() === +dateObj.d;\n  }\n\n  if (!options.strictMode) {\n    return Object.prototype.toString.call(input) === '[object Date]' && isFinite(input);\n  }\n\n  return false;\n}\n\nmodule.exports = exports.default;\nmodule.exports.default = exports.default;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = isDecimal;\n\nvar _merge = _interopRequireDefault(require(\"./util/merge\"));\n\nvar _assertString = _interopRequireDefault(require(\"./util/assertString\"));\n\nvar _includes = _interopRequireDefault(require(\"./util/includes\"));\n\nvar _alpha = require(\"./alpha\");\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\nfunction decimalRegExp(options) {\n  var regExp = new RegExp(\"^[-+]?([0-9]+)?(\\\\\".concat(_alpha.decimal[options.locale], \"[0-9]{\").concat(options.decimal_digits, \"})\").concat(options.force_decimal ? '' : '?', \"$\"));\n  return regExp;\n}\n\nvar default_decimal_options = {\n  force_decimal: false,\n  decimal_digits: '1,',\n  locale: 'en-US'\n};\nvar blacklist = ['', '-', '+'];\n\nfunction isDecimal(str, options) {\n  (0, _assertString.default)(str);\n  options = (0, _merge.default)(options, default_decimal_options);\n\n  if (options.locale in _alpha.decimal) {\n    return !(0, _includes.default)(blacklist, str.replace(/ /g, '')) && decimalRegExp(options).test(str);\n  }\n\n  throw new Error(\"Invalid locale '\".concat(options.locale, \"'\"));\n}\n\nmodule.exports = exports.default;\nmodule.exports.default = exports.default;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = isDivisibleBy;\n\nvar _assertString = _interopRequireDefault(require(\"./util/assertString\"));\n\nvar _toFloat = _interopRequireDefault(require(\"./toFloat\"));\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\nfunction isDivisibleBy(str, num) {\n  (0, _assertString.default)(str);\n  return (0, _toFloat.default)(str) % parseInt(num, 10) === 0;\n}\n\nmodule.exports = exports.default;\nmodule.exports.default = exports.default;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = isEAN;\n\nvar _assertString = _interopRequireDefault(require(\"./util/assertString\"));\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\n/**\n * The most commonly used EAN standard is\n * the thirteen-digit EAN-13, while the\n * less commonly used 8-digit EAN-8 barcode was\n * introduced for use on small packages.\n * Also EAN/UCC-14 is used for Grouping of individual\n * trade items above unit level(Intermediate, Carton or Pallet).\n * For more info about EAN-14 checkout: https://www.gtin.info/itf-14-barcodes/\n * EAN consists of:\n * GS1 prefix, manufacturer code, product code and check digit\n * Reference: https://en.wikipedia.org/wiki/International_Article_Number\n * Reference: https://www.gtin.info/\n */\n\n/**\n * Define EAN Lenghts; 8 for EAN-8; 13 for EAN-13; 14 for EAN-14\n * and Regular Expression for valid EANs (EAN-8, EAN-13, EAN-14),\n * with exact numberic matching of 8 or 13 or 14 digits [0-9]\n */\nvar LENGTH_EAN_8 = 8;\nvar LENGTH_EAN_14 = 14;\nvar validEanRegex = /^(\\d{8}|\\d{13}|\\d{14})$/;\n/**\n * Get position weight given:\n * EAN length and digit index/position\n *\n * @param {number} length\n * @param {number} index\n * @return {number}\n */\n\nfunction getPositionWeightThroughLengthAndIndex(length, index) {\n  if (length === LENGTH_EAN_8 || length === LENGTH_EAN_14) {\n    return index % 2 === 0 ? 3 : 1;\n  }\n\n  return index % 2 === 0 ? 1 : 3;\n}\n/**\n * Calculate EAN Check Digit\n * Reference: https://en.wikipedia.org/wiki/International_Article_Number#Calculation_of_checksum_digit\n *\n * @param {string} ean\n * @return {number}\n */\n\n\nfunction calculateCheckDigit(ean) {\n  var checksum = ean.slice(0, -1).split('').map(function (char, index) {\n    return Number(char) * getPositionWeightThroughLengthAndIndex(ean.length, index);\n  }).reduce(function (acc, partialSum) {\n    return acc + partialSum;\n  }, 0);\n  var remainder = 10 - checksum % 10;\n  return remainder < 10 ? remainder : 0;\n}\n/**\n * Check if string is valid EAN:\n * Matches EAN-8/EAN-13/EAN-14 regex\n * Has valid check digit.\n *\n * @param {string} str\n * @return {boolean}\n */\n\n\nfunction isEAN(str) {\n  (0, _assertString.default)(str);\n  var actualCheckDigit = Number(str.slice(-1));\n  return validEanRegex.test(str) && actualCheckDigit === calculateCheckDigit(str);\n}\n\nmodule.exports = exports.default;\nmodule.exports.default = exports.default;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = isEmail;\n\nvar _assertString = _interopRequireDefault(require(\"./util/assertString\"));\n\nvar _merge = _interopRequireDefault(require(\"./util/merge\"));\n\nvar _isByteLength = _interopRequireDefault(require(\"./isByteLength\"));\n\nvar _isFQDN = _interopRequireDefault(require(\"./isFQDN\"));\n\nvar _isIP = _interopRequireDefault(require(\"./isIP\"));\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\nvar default_email_options = {\n  allow_display_name: false,\n  require_display_name: false,\n  allow_utf8_local_part: true,\n  require_tld: true,\n  blacklisted_chars: '',\n  ignore_max_length: false,\n  host_blacklist: [],\n  host_whitelist: []\n};\n/* eslint-disable max-len */\n\n/* eslint-disable no-control-regex */\n\nvar splitNameAddress = /^([^\\x00-\\x1F\\x7F-\\x9F\\cX]+)</i;\nvar emailUserPart = /^[a-z\\d!#\\$%&'\\*\\+\\-\\/=\\?\\^_`{\\|}~]+$/i;\nvar gmailUserPart = /^[a-z\\d]+$/;\nvar quotedEmailUser = /^([\\s\\x01-\\x08\\x0b\\x0c\\x0e-\\x1f\\x7f\\x21\\x23-\\x5b\\x5d-\\x7e]|(\\\\[\\x01-\\x09\\x0b\\x0c\\x0d-\\x7f]))*$/i;\nvar emailUserUtf8Part = /^[a-z\\d!#\\$%&'\\*\\+\\-\\/=\\?\\^_`{\\|}~\\u00A0-\\uD7FF\\uF900-\\uFDCF\\uFDF0-\\uFFEF]+$/i;\nvar quotedEmailUserUtf8 = /^([\\s\\x01-\\x08\\x0b\\x0c\\x0e-\\x1f\\x7f\\x21\\x23-\\x5b\\x5d-\\x7e\\u00A0-\\uD7FF\\uF900-\\uFDCF\\uFDF0-\\uFFEF]|(\\\\[\\x01-\\x09\\x0b\\x0c\\x0d-\\x7f\\u00A0-\\uD7FF\\uF900-\\uFDCF\\uFDF0-\\uFFEF]))*$/i;\nvar defaultMaxEmailLength = 254;\n/* eslint-enable max-len */\n\n/* eslint-enable no-control-regex */\n\n/**\n * Validate display name according to the RFC2822: https://tools.ietf.org/html/rfc2822#appendix-A.1.2\n * @param {String} display_name\n */\n\nfunction validateDisplayName(display_name) {\n  var display_name_without_quotes = display_name.replace(/^\"(.+)\"$/, '$1'); // display name with only spaces is not valid\n\n  if (!display_name_without_quotes.trim()) {\n    return false;\n  } // check whether display name contains illegal character\n\n\n  var contains_illegal = /[\\.\";<>]/.test(display_name_without_quotes);\n\n  if (contains_illegal) {\n    // if contains illegal characters,\n    // must to be enclosed in double-quotes, otherwise it's not a valid display name\n    if (display_name_without_quotes === display_name) {\n      return false;\n    } // the quotes in display name must start with character symbol \\\n\n\n    var all_start_with_back_slash = display_name_without_quotes.split('\"').length === display_name_without_quotes.split('\\\\\"').length;\n\n    if (!all_start_with_back_slash) {\n      return false;\n    }\n  }\n\n  return true;\n}\n\nfunction isEmail(str, options) {\n  (0, _assertString.default)(str);\n  options = (0, _merge.default)(options, default_email_options);\n\n  if (options.require_display_name || options.allow_display_name) {\n    var display_email = str.match(splitNameAddress);\n\n    if (display_email) {\n      var display_name = display_email[1]; // Remove display name and angle brackets to get email address\n      // Can be done in the regex but will introduce a ReDOS (See  #1597 for more info)\n\n      str = str.replace(display_name, '').replace(/(^<|>$)/g, ''); // sometimes need to trim the last space to get the display name\n      // because there may be a space between display name and email address\n      // eg. myname <address@gmail.com>\n      // the display name is `myname` instead of `myname `, so need to trim the last space\n\n      if (display_name.endsWith(' ')) {\n        display_name = display_name.slice(0, -1);\n      }\n\n      if (!validateDisplayName(display_name)) {\n        return false;\n      }\n    } else if (options.require_display_name) {\n      return false;\n    }\n  }\n\n  if (!options.ignore_max_length && str.length > defaultMaxEmailLength) {\n    return false;\n  }\n\n  var parts = str.split('@');\n  var domain = parts.pop();\n  var lower_domain = domain.toLowerCase();\n\n  if (options.host_blacklist.includes(lower_domain)) {\n    return false;\n  }\n\n  if (options.host_whitelist.length > 0 && !options.host_whitelist.includes(lower_domain)) {\n    return false;\n  }\n\n  var user = parts.join('@');\n\n  if (options.domain_specific_validation && (lower_domain === 'gmail.com' || lower_domain === 'googlemail.com')) {\n    /*\n      Previously we removed dots for gmail addresses before validating.\n      This was removed because it allows `multiple..dots@gmail.com`\n      to be reported as valid, but it is not.\n      Gmail only normalizes single dots, removing them from here is pointless,\n      should be done in normalizeEmail\n    */\n    user = user.toLowerCase(); // Removing sub-address from username before gmail validation\n\n    var username = user.split('+')[0]; // Dots are not included in gmail length restriction\n\n    if (!(0, _isByteLength.default)(username.replace(/\\./g, ''), {\n      min: 6,\n      max: 30\n    })) {\n      return false;\n    }\n\n    var _user_parts = username.split('.');\n\n    for (var i = 0; i < _user_parts.length; i++) {\n      if (!gmailUserPart.test(_user_parts[i])) {\n        return false;\n      }\n    }\n  }\n\n  if (options.ignore_max_length === false && (!(0, _isByteLength.default)(user, {\n    max: 64\n  }) || !(0, _isByteLength.default)(domain, {\n    max: 254\n  }))) {\n    return false;\n  }\n\n  if (!(0, _isFQDN.default)(domain, {\n    require_tld: options.require_tld,\n    ignore_max_length: options.ignore_max_length\n  })) {\n    if (!options.allow_ip_domain) {\n      return false;\n    }\n\n    if (!(0, _isIP.default)(domain)) {\n      if (!domain.startsWith('[') || !domain.endsWith(']')) {\n        return false;\n      }\n\n      var noBracketdomain = domain.slice(1, -1);\n\n      if (noBracketdomain.length === 0 || !(0, _isIP.default)(noBracketdomain)) {\n        return false;\n      }\n    }\n  }\n\n  if (user[0] === '\"') {\n    user = user.slice(1, user.length - 1);\n    return options.allow_utf8_local_part ? quotedEmailUserUtf8.test(user) : quotedEmailUser.test(user);\n  }\n\n  var pattern = options.allow_utf8_local_part ? emailUserUtf8Part : emailUserPart;\n  var user_parts = user.split('.');\n\n  for (var _i = 0; _i < user_parts.length; _i++) {\n    if (!pattern.test(user_parts[_i])) {\n      return false;\n    }\n  }\n\n  if (options.blacklisted_chars) {\n    if (user.search(new RegExp(\"[\".concat(options.blacklisted_chars, \"]+\"), 'g')) !== -1) return false;\n  }\n\n  return true;\n}\n\nmodule.exports = exports.default;\nmodule.exports.default = exports.default;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = isEmpty;\n\nvar _assertString = _interopRequireDefault(require(\"./util/assertString\"));\n\nvar _merge = _interopRequireDefault(require(\"./util/merge\"));\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\nvar default_is_empty_options = {\n  ignore_whitespace: false\n};\n\nfunction isEmpty(str, options) {\n  (0, _assertString.default)(str);\n  options = (0, _merge.default)(options, default_is_empty_options);\n  return (options.ignore_whitespace ? str.trim().length : str.length) === 0;\n}\n\nmodule.exports = exports.default;\nmodule.exports.default = exports.default;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = isEthereumAddress;\n\nvar _assertString = _interopRequireDefault(require(\"./util/assertString\"));\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\nvar eth = /^(0x)[0-9a-f]{40}$/i;\n\nfunction isEthereumAddress(str) {\n  (0, _assertString.default)(str);\n  return eth.test(str);\n}\n\nmodule.exports = exports.default;\nmodule.exports.default = exports.default;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = isFQDN;\n\nvar _assertString = _interopRequireDefault(require(\"./util/assertString\"));\n\nvar _merge = _interopRequireDefault(require(\"./util/merge\"));\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\nvar default_fqdn_options = {\n  require_tld: true,\n  allow_underscores: false,\n  allow_trailing_dot: false,\n  allow_numeric_tld: false,\n  allow_wildcard: false,\n  ignore_max_length: false\n};\n\nfunction isFQDN(str, options) {\n  (0, _assertString.default)(str);\n  options = (0, _merge.default)(options, default_fqdn_options);\n  /* Remove the optional trailing dot before checking validity */\n\n  if (options.allow_trailing_dot && str[str.length - 1] === '.') {\n    str = str.substring(0, str.length - 1);\n  }\n  /* Remove the optional wildcard before checking validity */\n\n\n  if (options.allow_wildcard === true && str.indexOf('*.') === 0) {\n    str = str.substring(2);\n  }\n\n  var parts = str.split('.');\n  var tld = parts[parts.length - 1];\n\n  if (options.require_tld) {\n    // disallow fqdns without tld\n    if (parts.length < 2) {\n      return false;\n    }\n\n    if (!options.allow_numeric_tld && !/^([a-z\\u00A1-\\u00A8\\u00AA-\\uD7FF\\uF900-\\uFDCF\\uFDF0-\\uFFEF]{2,}|xn[a-z0-9-]{2,})$/i.test(tld)) {\n      return false;\n    } // disallow spaces\n\n\n    if (/\\s/.test(tld)) {\n      return false;\n    }\n  } // reject numeric TLDs\n\n\n  if (!options.allow_numeric_tld && /^\\d+$/.test(tld)) {\n    return false;\n  }\n\n  return parts.every(function (part) {\n    if (part.length > 63 && !options.ignore_max_length) {\n      return false;\n    }\n\n    if (!/^[a-z_\\u00a1-\\uffff0-9-]+$/i.test(part)) {\n      return false;\n    } // disallow full-width chars\n\n\n    if (/[\\uff01-\\uff5e]/.test(part)) {\n      return false;\n    } // disallow parts starting or ending with hyphen\n\n\n    if (/^-|-$/.test(part)) {\n      return false;\n    }\n\n    if (!options.allow_underscores && /_/.test(part)) {\n      return false;\n    }\n\n    return true;\n  });\n}\n\nmodule.exports = exports.default;\nmodule.exports.default = exports.default;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = isFloat;\nexports.locales = void 0;\n\nvar _assertString = _interopRequireDefault(require(\"./util/assertString\"));\n\nvar _alpha = require(\"./alpha\");\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\nfunction isFloat(str, options) {\n  (0, _assertString.default)(str);\n  options = options || {};\n  var float = new RegExp(\"^(?:[-+])?(?:[0-9]+)?(?:\\\\\".concat(options.locale ? _alpha.decimal[options.locale] : '.', \"[0-9]*)?(?:[eE][\\\\+\\\\-]?(?:[0-9]+))?$\"));\n\n  if (str === '' || str === '.' || str === ',' || str === '-' || str === '+') {\n    return false;\n  }\n\n  var value = parseFloat(str.replace(',', '.'));\n  return float.test(str) && (!options.hasOwnProperty('min') || value >= options.min) && (!options.hasOwnProperty('max') || value <= options.max) && (!options.hasOwnProperty('lt') || value < options.lt) && (!options.hasOwnProperty('gt') || value > options.gt);\n}\n\nvar locales = Object.keys(_alpha.decimal);\nexports.locales = locales;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = isFullWidth;\nexports.fullWidth = void 0;\n\nvar _assertString = _interopRequireDefault(require(\"./util/assertString\"));\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\nvar fullWidth = /[^\\u0020-\\u007E\\uFF61-\\uFF9F\\uFFA0-\\uFFDC\\uFFE8-\\uFFEE0-9a-zA-Z]/;\nexports.fullWidth = fullWidth;\n\nfunction isFullWidth(str) {\n  (0, _assertString.default)(str);\n  return fullWidth.test(str);\n}","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = isHSL;\n\nvar _assertString = _interopRequireDefault(require(\"./util/assertString\"));\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\nvar hslComma = /^hsla?\\(((\\+|\\-)?([0-9]+(\\.[0-9]+)?(e(\\+|\\-)?[0-9]+)?|\\.[0-9]+(e(\\+|\\-)?[0-9]+)?))(deg|grad|rad|turn)?(,(\\+|\\-)?([0-9]+(\\.[0-9]+)?(e(\\+|\\-)?[0-9]+)?|\\.[0-9]+(e(\\+|\\-)?[0-9]+)?)%){2}(,((\\+|\\-)?([0-9]+(\\.[0-9]+)?(e(\\+|\\-)?[0-9]+)?|\\.[0-9]+(e(\\+|\\-)?[0-9]+)?)%?))?\\)$/i;\nvar hslSpace = /^hsla?\\(((\\+|\\-)?([0-9]+(\\.[0-9]+)?(e(\\+|\\-)?[0-9]+)?|\\.[0-9]+(e(\\+|\\-)?[0-9]+)?))(deg|grad|rad|turn)?(\\s(\\+|\\-)?([0-9]+(\\.[0-9]+)?(e(\\+|\\-)?[0-9]+)?|\\.[0-9]+(e(\\+|\\-)?[0-9]+)?)%){2}\\s?(\\/\\s((\\+|\\-)?([0-9]+(\\.[0-9]+)?(e(\\+|\\-)?[0-9]+)?|\\.[0-9]+(e(\\+|\\-)?[0-9]+)?)%?)\\s?)?\\)$/i;\n\nfunction isHSL(str) {\n  (0, _assertString.default)(str); // Strip duplicate spaces before calling the validation regex (See  #1598 for more info)\n\n  var strippedStr = str.replace(/\\s+/g, ' ').replace(/\\s?(hsla?\\(|\\)|,)\\s?/ig, '$1');\n\n  if (strippedStr.indexOf(',') !== -1) {\n    return hslComma.test(strippedStr);\n  }\n\n  return hslSpace.test(strippedStr);\n}\n\nmodule.exports = exports.default;\nmodule.exports.default = exports.default;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = isHalfWidth;\nexports.halfWidth = void 0;\n\nvar _assertString = _interopRequireDefault(require(\"./util/assertString\"));\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\nvar halfWidth = /[\\u0020-\\u007E\\uFF61-\\uFF9F\\uFFA0-\\uFFDC\\uFFE8-\\uFFEE0-9a-zA-Z]/;\nexports.halfWidth = halfWidth;\n\nfunction isHalfWidth(str) {\n  (0, _assertString.default)(str);\n  return halfWidth.test(str);\n}","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = isHash;\n\nvar _assertString = _interopRequireDefault(require(\"./util/assertString\"));\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\nvar lengths = {\n  md5: 32,\n  md4: 32,\n  sha1: 40,\n  sha256: 64,\n  sha384: 96,\n  sha512: 128,\n  ripemd128: 32,\n  ripemd160: 40,\n  tiger128: 32,\n  tiger160: 40,\n  tiger192: 48,\n  crc32: 8,\n  crc32b: 8\n};\n\nfunction isHash(str, algorithm) {\n  (0, _assertString.default)(str);\n  var hash = new RegExp(\"^[a-fA-F0-9]{\".concat(lengths[algorithm], \"}$\"));\n  return hash.test(str);\n}\n\nmodule.exports = exports.default;\nmodule.exports.default = exports.default;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = isHexColor;\n\nvar _assertString = _interopRequireDefault(require(\"./util/assertString\"));\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\nvar hexcolor = /^#?([0-9A-F]{3}|[0-9A-F]{4}|[0-9A-F]{6}|[0-9A-F]{8})$/i;\n\nfunction isHexColor(str) {\n  (0, _assertString.default)(str);\n  return hexcolor.test(str);\n}\n\nmodule.exports = exports.default;\nmodule.exports.default = exports.default;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = isHexadecimal;\n\nvar _assertString = _interopRequireDefault(require(\"./util/assertString\"));\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\nvar hexadecimal = /^(0x|0h)?[0-9A-F]+$/i;\n\nfunction isHexadecimal(str) {\n  (0, _assertString.default)(str);\n  return hexadecimal.test(str);\n}\n\nmodule.exports = exports.default;\nmodule.exports.default = exports.default;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = isIBAN;\nexports.locales = void 0;\n\nvar _assertString = _interopRequireDefault(require(\"./util/assertString\"));\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\n/**\n * List of country codes with\n * corresponding IBAN regular expression\n * Reference: https://en.wikipedia.org/wiki/International_Bank_Account_Number\n */\nvar ibanRegexThroughCountryCode = {\n  AD: /^(AD[0-9]{2})\\d{8}[A-Z0-9]{12}$/,\n  AE: /^(AE[0-9]{2})\\d{3}\\d{16}$/,\n  AL: /^(AL[0-9]{2})\\d{8}[A-Z0-9]{16}$/,\n  AT: /^(AT[0-9]{2})\\d{16}$/,\n  AZ: /^(AZ[0-9]{2})[A-Z0-9]{4}\\d{20}$/,\n  BA: /^(BA[0-9]{2})\\d{16}$/,\n  BE: /^(BE[0-9]{2})\\d{12}$/,\n  BG: /^(BG[0-9]{2})[A-Z]{4}\\d{6}[A-Z0-9]{8}$/,\n  BH: /^(BH[0-9]{2})[A-Z]{4}[A-Z0-9]{14}$/,\n  BR: /^(BR[0-9]{2})\\d{23}[A-Z]{1}[A-Z0-9]{1}$/,\n  BY: /^(BY[0-9]{2})[A-Z0-9]{4}\\d{20}$/,\n  CH: /^(CH[0-9]{2})\\d{5}[A-Z0-9]{12}$/,\n  CR: /^(CR[0-9]{2})\\d{18}$/,\n  CY: /^(CY[0-9]{2})\\d{8}[A-Z0-9]{16}$/,\n  CZ: /^(CZ[0-9]{2})\\d{20}$/,\n  DE: /^(DE[0-9]{2})\\d{18}$/,\n  DK: /^(DK[0-9]{2})\\d{14}$/,\n  DO: /^(DO[0-9]{2})[A-Z]{4}\\d{20}$/,\n  EE: /^(EE[0-9]{2})\\d{16}$/,\n  EG: /^(EG[0-9]{2})\\d{25}$/,\n  ES: /^(ES[0-9]{2})\\d{20}$/,\n  FI: /^(FI[0-9]{2})\\d{14}$/,\n  FO: /^(FO[0-9]{2})\\d{14}$/,\n  FR: /^(FR[0-9]{2})\\d{10}[A-Z0-9]{11}\\d{2}$/,\n  GB: /^(GB[0-9]{2})[A-Z]{4}\\d{14}$/,\n  GE: /^(GE[0-9]{2})[A-Z0-9]{2}\\d{16}$/,\n  GI: /^(GI[0-9]{2})[A-Z]{4}[A-Z0-9]{15}$/,\n  GL: /^(GL[0-9]{2})\\d{14}$/,\n  GR: /^(GR[0-9]{2})\\d{7}[A-Z0-9]{16}$/,\n  GT: /^(GT[0-9]{2})[A-Z0-9]{4}[A-Z0-9]{20}$/,\n  HR: /^(HR[0-9]{2})\\d{17}$/,\n  HU: /^(HU[0-9]{2})\\d{24}$/,\n  IE: /^(IE[0-9]{2})[A-Z0-9]{4}\\d{14}$/,\n  IL: /^(IL[0-9]{2})\\d{19}$/,\n  IQ: /^(IQ[0-9]{2})[A-Z]{4}\\d{15}$/,\n  IR: /^(IR[0-9]{2})0\\d{2}0\\d{18}$/,\n  IS: /^(IS[0-9]{2})\\d{22}$/,\n  IT: /^(IT[0-9]{2})[A-Z]{1}\\d{10}[A-Z0-9]{12}$/,\n  JO: /^(JO[0-9]{2})[A-Z]{4}\\d{22}$/,\n  KW: /^(KW[0-9]{2})[A-Z]{4}[A-Z0-9]{22}$/,\n  KZ: /^(KZ[0-9]{2})\\d{3}[A-Z0-9]{13}$/,\n  LB: /^(LB[0-9]{2})\\d{4}[A-Z0-9]{20}$/,\n  LC: /^(LC[0-9]{2})[A-Z]{4}[A-Z0-9]{24}$/,\n  LI: /^(LI[0-9]{2})\\d{5}[A-Z0-9]{12}$/,\n  LT: /^(LT[0-9]{2})\\d{16}$/,\n  LU: /^(LU[0-9]{2})\\d{3}[A-Z0-9]{13}$/,\n  LV: /^(LV[0-9]{2})[A-Z]{4}[A-Z0-9]{13}$/,\n  MC: /^(MC[0-9]{2})\\d{10}[A-Z0-9]{11}\\d{2}$/,\n  MD: /^(MD[0-9]{2})[A-Z0-9]{20}$/,\n  ME: /^(ME[0-9]{2})\\d{18}$/,\n  MK: /^(MK[0-9]{2})\\d{3}[A-Z0-9]{10}\\d{2}$/,\n  MR: /^(MR[0-9]{2})\\d{23}$/,\n  MT: /^(MT[0-9]{2})[A-Z]{4}\\d{5}[A-Z0-9]{18}$/,\n  MU: /^(MU[0-9]{2})[A-Z]{4}\\d{19}[A-Z]{3}$/,\n  MZ: /^(MZ[0-9]{2})\\d{21}$/,\n  NL: /^(NL[0-9]{2})[A-Z]{4}\\d{10}$/,\n  NO: /^(NO[0-9]{2})\\d{11}$/,\n  PK: /^(PK[0-9]{2})[A-Z0-9]{4}\\d{16}$/,\n  PL: /^(PL[0-9]{2})\\d{24}$/,\n  PS: /^(PS[0-9]{2})[A-Z0-9]{4}\\d{21}$/,\n  PT: /^(PT[0-9]{2})\\d{21}$/,\n  QA: /^(QA[0-9]{2})[A-Z]{4}[A-Z0-9]{21}$/,\n  RO: /^(RO[0-9]{2})[A-Z]{4}[A-Z0-9]{16}$/,\n  RS: /^(RS[0-9]{2})\\d{18}$/,\n  SA: /^(SA[0-9]{2})\\d{2}[A-Z0-9]{18}$/,\n  SC: /^(SC[0-9]{2})[A-Z]{4}\\d{20}[A-Z]{3}$/,\n  SE: /^(SE[0-9]{2})\\d{20}$/,\n  SI: /^(SI[0-9]{2})\\d{15}$/,\n  SK: /^(SK[0-9]{2})\\d{20}$/,\n  SM: /^(SM[0-9]{2})[A-Z]{1}\\d{10}[A-Z0-9]{12}$/,\n  SV: /^(SV[0-9]{2})[A-Z0-9]{4}\\d{20}$/,\n  TL: /^(TL[0-9]{2})\\d{19}$/,\n  TN: /^(TN[0-9]{2})\\d{20}$/,\n  TR: /^(TR[0-9]{2})\\d{5}[A-Z0-9]{17}$/,\n  UA: /^(UA[0-9]{2})\\d{6}[A-Z0-9]{19}$/,\n  VA: /^(VA[0-9]{2})\\d{18}$/,\n  VG: /^(VG[0-9]{2})[A-Z0-9]{4}\\d{16}$/,\n  XK: /^(XK[0-9]{2})\\d{16}$/\n};\n/**\n * Check whether string has correct universal IBAN format\n * The IBAN consists of up to 34 alphanumeric characters, as follows:\n * Country Code using ISO 3166-1 alpha-2, two letters\n * check digits, two digits and\n * Basic Bank Account Number (BBAN), up to 30 alphanumeric characters.\n * NOTE: Permitted IBAN characters are: digits [0-9] and the 26 latin alphabetic [A-Z]\n *\n * @param {string} str - string under validation\n * @return {boolean}\n */\n\nfunction hasValidIbanFormat(str) {\n  // Strip white spaces and hyphens\n  var strippedStr = str.replace(/[\\s\\-]+/gi, '').toUpperCase();\n  var isoCountryCode = strippedStr.slice(0, 2).toUpperCase();\n  return isoCountryCode in ibanRegexThroughCountryCode && ibanRegexThroughCountryCode[isoCountryCode].test(strippedStr);\n}\n/**\n   * Check whether string has valid IBAN Checksum\n   * by performing basic mod-97 operation and\n   * the remainder should equal 1\n   * -- Start by rearranging the IBAN by moving the four initial characters to the end of the string\n   * -- Replace each letter in the string with two digits, A -> 10, B = 11, Z = 35\n   * -- Interpret the string as a decimal integer and\n   * -- compute the remainder on division by 97 (mod 97)\n   * Reference: https://en.wikipedia.org/wiki/International_Bank_Account_Number\n   *\n   * @param {string} str\n   * @return {boolean}\n   */\n\n\nfunction hasValidIbanChecksum(str) {\n  var strippedStr = str.replace(/[^A-Z0-9]+/gi, '').toUpperCase(); // Keep only digits and A-Z latin alphabetic\n\n  var rearranged = strippedStr.slice(4) + strippedStr.slice(0, 4);\n  var alphaCapsReplacedWithDigits = rearranged.replace(/[A-Z]/g, function (char) {\n    return char.charCodeAt(0) - 55;\n  });\n  var remainder = alphaCapsReplacedWithDigits.match(/\\d{1,7}/g).reduce(function (acc, value) {\n    return Number(acc + value) % 97;\n  }, '');\n  return remainder === 1;\n}\n\nfunction isIBAN(str) {\n  (0, _assertString.default)(str);\n  return hasValidIbanFormat(str) && hasValidIbanChecksum(str);\n}\n\nvar locales = Object.keys(ibanRegexThroughCountryCode);\nexports.locales = locales;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = isIMEI;\n\nvar _assertString = _interopRequireDefault(require(\"./util/assertString\"));\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\nvar imeiRegexWithoutHypens = /^[0-9]{15}$/;\nvar imeiRegexWithHypens = /^\\d{2}-\\d{6}-\\d{6}-\\d{1}$/;\n\nfunction isIMEI(str, options) {\n  (0, _assertString.default)(str);\n  options = options || {}; // default regex for checking imei is the one without hyphens\n\n  var imeiRegex = imeiRegexWithoutHypens;\n\n  if (options.allow_hyphens) {\n    imeiRegex = imeiRegexWithHypens;\n  }\n\n  if (!imeiRegex.test(str)) {\n    return false;\n  }\n\n  str = str.replace(/-/g, '');\n  var sum = 0,\n      mul = 2,\n      l = 14;\n\n  for (var i = 0; i < l; i++) {\n    var digit = str.substring(l - i - 1, l - i);\n    var tp = parseInt(digit, 10) * mul;\n\n    if (tp >= 10) {\n      sum += tp % 10 + 1;\n    } else {\n      sum += tp;\n    }\n\n    if (mul === 1) {\n      mul += 1;\n    } else {\n      mul -= 1;\n    }\n  }\n\n  var chk = (10 - sum % 10) % 10;\n\n  if (chk !== parseInt(str.substring(14, 15), 10)) {\n    return false;\n  }\n\n  return true;\n}\n\nmodule.exports = exports.default;\nmodule.exports.default = exports.default;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = isIP;\n\nvar _assertString = _interopRequireDefault(require(\"./util/assertString\"));\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\n/**\n11.3.  Examples\n\n   The following addresses\n\n             fe80::1234 (on the 1st link of the node)\n             ff02::5678 (on the 5th link of the node)\n             ff08::9abc (on the 10th organization of the node)\n\n   would be represented as follows:\n\n             fe80::1234%1\n             ff02::5678%5\n             ff08::9abc%10\n\n   (Here we assume a natural translation from a zone index to the\n   <zone_id> part, where the Nth zone of any scope is translated into\n   \"N\".)\n\n   If we use interface names as <zone_id>, those addresses could also be\n   represented as follows:\n\n            fe80::1234%ne0\n            ff02::5678%pvc1.3\n            ff08::9abc%interface10\n\n   where the interface \"ne0\" belongs to the 1st link, \"pvc1.3\" belongs\n   to the 5th link, and \"interface10\" belongs to the 10th organization.\n * * */\nvar IPv4SegmentFormat = '(?:[0-9]|[1-9][0-9]|1[0-9][0-9]|2[0-4][0-9]|25[0-5])';\nvar IPv4AddressFormat = \"(\".concat(IPv4SegmentFormat, \"[.]){3}\").concat(IPv4SegmentFormat);\nvar IPv4AddressRegExp = new RegExp(\"^\".concat(IPv4AddressFormat, \"$\"));\nvar IPv6SegmentFormat = '(?:[0-9a-fA-F]{1,4})';\nvar IPv6AddressRegExp = new RegExp('^(' + \"(?:\".concat(IPv6SegmentFormat, \":){7}(?:\").concat(IPv6SegmentFormat, \"|:)|\") + \"(?:\".concat(IPv6SegmentFormat, \":){6}(?:\").concat(IPv4AddressFormat, \"|:\").concat(IPv6SegmentFormat, \"|:)|\") + \"(?:\".concat(IPv6SegmentFormat, \":){5}(?::\").concat(IPv4AddressFormat, \"|(:\").concat(IPv6SegmentFormat, \"){1,2}|:)|\") + \"(?:\".concat(IPv6SegmentFormat, \":){4}(?:(:\").concat(IPv6SegmentFormat, \"){0,1}:\").concat(IPv4AddressFormat, \"|(:\").concat(IPv6SegmentFormat, \"){1,3}|:)|\") + \"(?:\".concat(IPv6SegmentFormat, \":){3}(?:(:\").concat(IPv6SegmentFormat, \"){0,2}:\").concat(IPv4AddressFormat, \"|(:\").concat(IPv6SegmentFormat, \"){1,4}|:)|\") + \"(?:\".concat(IPv6SegmentFormat, \":){2}(?:(:\").concat(IPv6SegmentFormat, \"){0,3}:\").concat(IPv4AddressFormat, \"|(:\").concat(IPv6SegmentFormat, \"){1,5}|:)|\") + \"(?:\".concat(IPv6SegmentFormat, \":){1}(?:(:\").concat(IPv6SegmentFormat, \"){0,4}:\").concat(IPv4AddressFormat, \"|(:\").concat(IPv6SegmentFormat, \"){1,6}|:)|\") + \"(?::((?::\".concat(IPv6SegmentFormat, \"){0,5}:\").concat(IPv4AddressFormat, \"|(?::\").concat(IPv6SegmentFormat, \"){1,7}|:))\") + ')(%[0-9a-zA-Z-.:]{1,})?$');\n\nfunction isIP(str) {\n  var version = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : '';\n  (0, _assertString.default)(str);\n  version = String(version);\n\n  if (!version) {\n    return isIP(str, 4) || isIP(str, 6);\n  }\n\n  if (version === '4') {\n    return IPv4AddressRegExp.test(str);\n  }\n\n  if (version === '6') {\n    return IPv6AddressRegExp.test(str);\n  }\n\n  return false;\n}\n\nmodule.exports = exports.default;\nmodule.exports.default = exports.default;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = isIPRange;\n\nvar _assertString = _interopRequireDefault(require(\"./util/assertString\"));\n\nvar _isIP = _interopRequireDefault(require(\"./isIP\"));\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\nvar subnetMaybe = /^\\d{1,3}$/;\nvar v4Subnet = 32;\nvar v6Subnet = 128;\n\nfunction isIPRange(str) {\n  var version = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : '';\n  (0, _assertString.default)(str);\n  var parts = str.split('/'); // parts[0] -> ip, parts[1] -> subnet\n\n  if (parts.length !== 2) {\n    return false;\n  }\n\n  if (!subnetMaybe.test(parts[1])) {\n    return false;\n  } // Disallow preceding 0 i.e. 01, 02, ...\n\n\n  if (parts[1].length > 1 && parts[1].startsWith('0')) {\n    return false;\n  }\n\n  var isValidIP = (0, _isIP.default)(parts[0], version);\n\n  if (!isValidIP) {\n    return false;\n  } // Define valid subnet according to IP's version\n\n\n  var expectedSubnet = null;\n\n  switch (String(version)) {\n    case '4':\n      expectedSubnet = v4Subnet;\n      break;\n\n    case '6':\n      expectedSubnet = v6Subnet;\n      break;\n\n    default:\n      expectedSubnet = (0, _isIP.default)(parts[0], '6') ? v6Subnet : v4Subnet;\n  }\n\n  return parts[1] <= expectedSubnet && parts[1] >= 0;\n}\n\nmodule.exports = exports.default;\nmodule.exports.default = exports.default;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = isISBN;\n\nvar _assertString = _interopRequireDefault(require(\"./util/assertString\"));\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\nvar possibleIsbn10 = /^(?:[0-9]{9}X|[0-9]{10})$/;\nvar possibleIsbn13 = /^(?:[0-9]{13})$/;\nvar factor = [1, 3];\n\nfunction isISBN(isbn, options) {\n  (0, _assertString.default)(isbn); // For backwards compatibility:\n  // isISBN(str [, version]), i.e. `options` could be used as argument for the legacy `version`\n\n  var version = String((options === null || options === void 0 ? void 0 : options.version) || options);\n\n  if (!(options !== null && options !== void 0 && options.version || options)) {\n    return isISBN(isbn, {\n      version: 10\n    }) || isISBN(isbn, {\n      version: 13\n    });\n  }\n\n  var sanitizedIsbn = isbn.replace(/[\\s-]+/g, '');\n  var checksum = 0;\n\n  if (version === '10') {\n    if (!possibleIsbn10.test(sanitizedIsbn)) {\n      return false;\n    }\n\n    for (var i = 0; i < version - 1; i++) {\n      checksum += (i + 1) * sanitizedIsbn.charAt(i);\n    }\n\n    if (sanitizedIsbn.charAt(9) === 'X') {\n      checksum += 10 * 10;\n    } else {\n      checksum += 10 * sanitizedIsbn.charAt(9);\n    }\n\n    if (checksum % 11 === 0) {\n      return true;\n    }\n  } else if (version === '13') {\n    if (!possibleIsbn13.test(sanitizedIsbn)) {\n      return false;\n    }\n\n    for (var _i = 0; _i < 12; _i++) {\n      checksum += factor[_i % 2] * sanitizedIsbn.charAt(_i);\n    }\n\n    if (sanitizedIsbn.charAt(12) - (10 - checksum % 10) % 10 === 0) {\n      return true;\n    }\n  }\n\n  return false;\n}\n\nmodule.exports = exports.default;\nmodule.exports.default = exports.default;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = isISIN;\n\nvar _assertString = _interopRequireDefault(require(\"./util/assertString\"));\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\nvar isin = /^[A-Z]{2}[0-9A-Z]{9}[0-9]$/; // this link details how the check digit is calculated:\n// https://www.isin.org/isin-format/. it is a little bit\n// odd in that it works with digits, not numbers. in order\n// to make only one pass through the ISIN characters, the\n// each alpha character is handled as 2 characters within\n// the loop.\n\nfunction isISIN(str) {\n  (0, _assertString.default)(str);\n\n  if (!isin.test(str)) {\n    return false;\n  }\n\n  var double = true;\n  var sum = 0; // convert values\n\n  for (var i = str.length - 2; i >= 0; i--) {\n    if (str[i] >= 'A' && str[i] <= 'Z') {\n      var value = str[i].charCodeAt(0) - 55;\n      var lo = value % 10;\n      var hi = Math.trunc(value / 10); // letters have two digits, so handle the low order\n      // and high order digits separately.\n\n      for (var _i = 0, _arr = [lo, hi]; _i < _arr.length; _i++) {\n        var digit = _arr[_i];\n\n        if (double) {\n          if (digit >= 5) {\n            sum += 1 + (digit - 5) * 2;\n          } else {\n            sum += digit * 2;\n          }\n        } else {\n          sum += digit;\n        }\n\n        double = !double;\n      }\n    } else {\n      var _digit = str[i].charCodeAt(0) - '0'.charCodeAt(0);\n\n      if (double) {\n        if (_digit >= 5) {\n          sum += 1 + (_digit - 5) * 2;\n        } else {\n          sum += _digit * 2;\n        }\n      } else {\n        sum += _digit;\n      }\n\n      double = !double;\n    }\n  }\n\n  var check = Math.trunc((sum + 9) / 10) * 10 - sum;\n  return +str[str.length - 1] === check;\n}\n\nmodule.exports = exports.default;\nmodule.exports.default = exports.default;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = isISO31661Alpha2;\nexports.CountryCodes = void 0;\n\nvar _assertString = _interopRequireDefault(require(\"./util/assertString\"));\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\n// from https://en.wikipedia.org/wiki/ISO_3166-1_alpha-2\nvar validISO31661Alpha2CountriesCodes = new Set(['AD', 'AE', 'AF', 'AG', 'AI', 'AL', 'AM', 'AO', 'AQ', 'AR', 'AS', 'AT', 'AU', 'AW', 'AX', 'AZ', 'BA', 'BB', 'BD', 'BE', 'BF', 'BG', 'BH', 'BI', 'BJ', 'BL', 'BM', 'BN', 'BO', 'BQ', 'BR', 'BS', 'BT', 'BV', 'BW', 'BY', 'BZ', 'CA', 'CC', 'CD', 'CF', 'CG', 'CH', 'CI', 'CK', 'CL', 'CM', 'CN', 'CO', 'CR', 'CU', 'CV', 'CW', 'CX', 'CY', 'CZ', 'DE', 'DJ', 'DK', 'DM', 'DO', 'DZ', 'EC', 'EE', 'EG', 'EH', 'ER', 'ES', 'ET', 'FI', 'FJ', 'FK', 'FM', 'FO', 'FR', 'GA', 'GB', 'GD', 'GE', 'GF', 'GG', 'GH', 'GI', 'GL', 'GM', 'GN', 'GP', 'GQ', 'GR', 'GS', 'GT', 'GU', 'GW', 'GY', 'HK', 'HM', 'HN', 'HR', 'HT', 'HU', 'ID', 'IE', 'IL', 'IM', 'IN', 'IO', 'IQ', 'IR', 'IS', 'IT', 'JE', 'JM', 'JO', 'JP', 'KE', 'KG', 'KH', 'KI', 'KM', 'KN', 'KP', 'KR', 'KW', 'KY', 'KZ', 'LA', 'LB', 'LC', 'LI', 'LK', 'LR', 'LS', 'LT', 'LU', 'LV', 'LY', 'MA', 'MC', 'MD', 'ME', 'MF', 'MG', 'MH', 'MK', 'ML', 'MM', 'MN', 'MO', 'MP', 'MQ', 'MR', 'MS', 'MT', 'MU', 'MV', 'MW', 'MX', 'MY', 'MZ', 'NA', 'NC', 'NE', 'NF', 'NG', 'NI', 'NL', 'NO', 'NP', 'NR', 'NU', 'NZ', 'OM', 'PA', 'PE', 'PF', 'PG', 'PH', 'PK', 'PL', 'PM', 'PN', 'PR', 'PS', 'PT', 'PW', 'PY', 'QA', 'RE', 'RO', 'RS', 'RU', 'RW', 'SA', 'SB', 'SC', 'SD', 'SE', 'SG', 'SH', 'SI', 'SJ', 'SK', 'SL', 'SM', 'SN', 'SO', 'SR', 'SS', 'ST', 'SV', 'SX', 'SY', 'SZ', 'TC', 'TD', 'TF', 'TG', 'TH', 'TJ', 'TK', 'TL', 'TM', 'TN', 'TO', 'TR', 'TT', 'TV', 'TW', 'TZ', 'UA', 'UG', 'UM', 'US', 'UY', 'UZ', 'VA', 'VC', 'VE', 'VG', 'VI', 'VN', 'VU', 'WF', 'WS', 'YE', 'YT', 'ZA', 'ZM', 'ZW']);\n\nfunction isISO31661Alpha2(str) {\n  (0, _assertString.default)(str);\n  return validISO31661Alpha2CountriesCodes.has(str.toUpperCase());\n}\n\nvar CountryCodes = validISO31661Alpha2CountriesCodes;\nexports.CountryCodes = CountryCodes;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = isISO31661Alpha3;\n\nvar _assertString = _interopRequireDefault(require(\"./util/assertString\"));\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\n// from https://en.wikipedia.org/wiki/ISO_3166-1_alpha-3\nvar validISO31661Alpha3CountriesCodes = new Set(['AFG', 'ALA', 'ALB', 'DZA', 'ASM', 'AND', 'AGO', 'AIA', 'ATA', 'ATG', 'ARG', 'ARM', 'ABW', 'AUS', 'AUT', 'AZE', 'BHS', 'BHR', 'BGD', 'BRB', 'BLR', 'BEL', 'BLZ', 'BEN', 'BMU', 'BTN', 'BOL', 'BES', 'BIH', 'BWA', 'BVT', 'BRA', 'IOT', 'BRN', 'BGR', 'BFA', 'BDI', 'KHM', 'CMR', 'CAN', 'CPV', 'CYM', 'CAF', 'TCD', 'CHL', 'CHN', 'CXR', 'CCK', 'COL', 'COM', 'COG', 'COD', 'COK', 'CRI', 'CIV', 'HRV', 'CUB', 'CUW', 'CYP', 'CZE', 'DNK', 'DJI', 'DMA', 'DOM', 'ECU', 'EGY', 'SLV', 'GNQ', 'ERI', 'EST', 'ETH', 'FLK', 'FRO', 'FJI', 'FIN', 'FRA', 'GUF', 'PYF', 'ATF', 'GAB', 'GMB', 'GEO', 'DEU', 'GHA', 'GIB', 'GRC', 'GRL', 'GRD', 'GLP', 'GUM', 'GTM', 'GGY', 'GIN', 'GNB', 'GUY', 'HTI', 'HMD', 'VAT', 'HND', 'HKG', 'HUN', 'ISL', 'IND', 'IDN', 'IRN', 'IRQ', 'IRL', 'IMN', 'ISR', 'ITA', 'JAM', 'JPN', 'JEY', 'JOR', 'KAZ', 'KEN', 'KIR', 'PRK', 'KOR', 'KWT', 'KGZ', 'LAO', 'LVA', 'LBN', 'LSO', 'LBR', 'LBY', 'LIE', 'LTU', 'LUX', 'MAC', 'MKD', 'MDG', 'MWI', 'MYS', 'MDV', 'MLI', 'MLT', 'MHL', 'MTQ', 'MRT', 'MUS', 'MYT', 'MEX', 'FSM', 'MDA', 'MCO', 'MNG', 'MNE', 'MSR', 'MAR', 'MOZ', 'MMR', 'NAM', 'NRU', 'NPL', 'NLD', 'NCL', 'NZL', 'NIC', 'NER', 'NGA', 'NIU', 'NFK', 'MNP', 'NOR', 'OMN', 'PAK', 'PLW', 'PSE', 'PAN', 'PNG', 'PRY', 'PER', 'PHL', 'PCN', 'POL', 'PRT', 'PRI', 'QAT', 'REU', 'ROU', 'RUS', 'RWA', 'BLM', 'SHN', 'KNA', 'LCA', 'MAF', 'SPM', 'VCT', 'WSM', 'SMR', 'STP', 'SAU', 'SEN', 'SRB', 'SYC', 'SLE', 'SGP', 'SXM', 'SVK', 'SVN', 'SLB', 'SOM', 'ZAF', 'SGS', 'SSD', 'ESP', 'LKA', 'SDN', 'SUR', 'SJM', 'SWZ', 'SWE', 'CHE', 'SYR', 'TWN', 'TJK', 'TZA', 'THA', 'TLS', 'TGO', 'TKL', 'TON', 'TTO', 'TUN', 'TUR', 'TKM', 'TCA', 'TUV', 'UGA', 'UKR', 'ARE', 'GBR', 'USA', 'UMI', 'URY', 'UZB', 'VUT', 'VEN', 'VNM', 'VGB', 'VIR', 'WLF', 'ESH', 'YEM', 'ZMB', 'ZWE']);\n\nfunction isISO31661Alpha3(str) {\n  (0, _assertString.default)(str);\n  return validISO31661Alpha3CountriesCodes.has(str.toUpperCase());\n}\n\nmodule.exports = exports.default;\nmodule.exports.default = exports.default;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = isISO4217;\nexports.CurrencyCodes = void 0;\n\nvar _assertString = _interopRequireDefault(require(\"./util/assertString\"));\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\n// from https://en.wikipedia.org/wiki/ISO_4217\nvar validISO4217CurrencyCodes = new Set(['AED', 'AFN', 'ALL', 'AMD', 'ANG', 'AOA', 'ARS', 'AUD', 'AWG', 'AZN', 'BAM', 'BBD', 'BDT', 'BGN', 'BHD', 'BIF', 'BMD', 'BND', 'BOB', 'BOV', 'BRL', 'BSD', 'BTN', 'BWP', 'BYN', 'BZD', 'CAD', 'CDF', 'CHE', 'CHF', 'CHW', 'CLF', 'CLP', 'CNY', 'COP', 'COU', 'CRC', 'CUC', 'CUP', 'CVE', 'CZK', 'DJF', 'DKK', 'DOP', 'DZD', 'EGP', 'ERN', 'ETB', 'EUR', 'FJD', 'FKP', 'GBP', 'GEL', 'GHS', 'GIP', 'GMD', 'GNF', 'GTQ', 'GYD', 'HKD', 'HNL', 'HRK', 'HTG', 'HUF', 'IDR', 'ILS', 'INR', 'IQD', 'IRR', 'ISK', 'JMD', 'JOD', 'JPY', 'KES', 'KGS', 'KHR', 'KMF', 'KPW', 'KRW', 'KWD', 'KYD', 'KZT', 'LAK', 'LBP', 'LKR', 'LRD', 'LSL', 'LYD', 'MAD', 'MDL', 'MGA', 'MKD', 'MMK', 'MNT', 'MOP', 'MRU', 'MUR', 'MVR', 'MWK', 'MXN', 'MXV', 'MYR', 'MZN', 'NAD', 'NGN', 'NIO', 'NOK', 'NPR', 'NZD', 'OMR', 'PAB', 'PEN', 'PGK', 'PHP', 'PKR', 'PLN', 'PYG', 'QAR', 'RON', 'RSD', 'RUB', 'RWF', 'SAR', 'SBD', 'SCR', 'SDG', 'SEK', 'SGD', 'SHP', 'SLL', 'SOS', 'SRD', 'SSP', 'STN', 'SVC', 'SYP', 'SZL', 'THB', 'TJS', 'TMT', 'TND', 'TOP', 'TRY', 'TTD', 'TWD', 'TZS', 'UAH', 'UGX', 'USD', 'USN', 'UYI', 'UYU', 'UYW', 'UZS', 'VES', 'VND', 'VUV', 'WST', 'XAF', 'XAG', 'XAU', 'XBA', 'XBB', 'XBC', 'XBD', 'XCD', 'XDR', 'XOF', 'XPD', 'XPF', 'XPT', 'XSU', 'XTS', 'XUA', 'XXX', 'YER', 'ZAR', 'ZMW', 'ZWL']);\n\nfunction isISO4217(str) {\n  (0, _assertString.default)(str);\n  return validISO4217CurrencyCodes.has(str.toUpperCase());\n}\n\nvar CurrencyCodes = validISO4217CurrencyCodes;\nexports.CurrencyCodes = CurrencyCodes;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = isISO6391;\n\nvar _assertString = _interopRequireDefault(require(\"./util/assertString\"));\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\nvar isISO6391Set = new Set(['aa', 'ab', 'ae', 'af', 'ak', 'am', 'an', 'ar', 'as', 'av', 'ay', 'az', 'az', 'ba', 'be', 'bg', 'bh', 'bi', 'bm', 'bn', 'bo', 'br', 'bs', 'ca', 'ce', 'ch', 'co', 'cr', 'cs', 'cu', 'cv', 'cy', 'da', 'de', 'dv', 'dz', 'ee', 'el', 'en', 'eo', 'es', 'et', 'eu', 'fa', 'ff', 'fi', 'fj', 'fo', 'fr', 'fy', 'ga', 'gd', 'gl', 'gn', 'gu', 'gv', 'ha', 'he', 'hi', 'ho', 'hr', 'ht', 'hu', 'hy', 'hz', 'ia', 'id', 'ie', 'ig', 'ii', 'ik', 'io', 'is', 'it', 'iu', 'ja', 'jv', 'ka', 'kg', 'ki', 'kj', 'kk', 'kl', 'km', 'kn', 'ko', 'kr', 'ks', 'ku', 'kv', 'kw', 'ky', 'la', 'lb', 'lg', 'li', 'ln', 'lo', 'lt', 'lu', 'lv', 'mg', 'mh', 'mi', 'mk', 'ml', 'mn', 'mr', 'ms', 'mt', 'my', 'na', 'nb', 'nd', 'ne', 'ng', 'nl', 'nn', 'no', 'nr', 'nv', 'ny', 'oc', 'oj', 'om', 'or', 'os', 'pa', 'pi', 'pl', 'ps', 'pt', 'qu', 'rm', 'rn', 'ro', 'ru', 'rw', 'sa', 'sc', 'sd', 'se', 'sg', 'si', 'sk', 'sl', 'sm', 'sn', 'so', 'sq', 'sr', 'ss', 'st', 'su', 'sv', 'sw', 'ta', 'te', 'tg', 'th', 'ti', 'tk', 'tl', 'tn', 'to', 'tr', 'ts', 'tt', 'tw', 'ty', 'ug', 'uk', 'ur', 'uz', 've', 'vi', 'vo', 'wa', 'wo', 'xh', 'yi', 'yo', 'za', 'zh', 'zu']);\n\nfunction isISO6391(str) {\n  (0, _assertString.default)(str);\n  return isISO6391Set.has(str);\n}\n\nmodule.exports = exports.default;\nmodule.exports.default = exports.default;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = isISO8601;\n\nvar _assertString = _interopRequireDefault(require(\"./util/assertString\"));\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\n/* eslint-disable max-len */\n// from http://goo.gl/0ejHHW\nvar iso8601 = /^([\\+-]?\\d{4}(?!\\d{2}\\b))((-?)((0[1-9]|1[0-2])(\\3([12]\\d|0[1-9]|3[01]))?|W([0-4]\\d|5[0-3])(-?[1-7])?|(00[1-9]|0[1-9]\\d|[12]\\d{2}|3([0-5]\\d|6[1-6])))([T\\s]((([01]\\d|2[0-3])((:?)[0-5]\\d)?|24:?00)([\\.,]\\d+(?!:))?)?(\\17[0-5]\\d([\\.,]\\d+)?)?([zZ]|([\\+-])([01]\\d|2[0-3]):?([0-5]\\d)?)?)?)?$/; // same as above, except with a strict 'T' separator between date and time\n\nvar iso8601StrictSeparator = /^([\\+-]?\\d{4}(?!\\d{2}\\b))((-?)((0[1-9]|1[0-2])(\\3([12]\\d|0[1-9]|3[01]))?|W([0-4]\\d|5[0-3])(-?[1-7])?|(00[1-9]|0[1-9]\\d|[12]\\d{2}|3([0-5]\\d|6[1-6])))([T]((([01]\\d|2[0-3])((:?)[0-5]\\d)?|24:?00)([\\.,]\\d+(?!:))?)?(\\17[0-5]\\d([\\.,]\\d+)?)?([zZ]|([\\+-])([01]\\d|2[0-3]):?([0-5]\\d)?)?)?)?$/;\n/* eslint-enable max-len */\n\nvar isValidDate = function isValidDate(str) {\n  // str must have passed the ISO8601 check\n  // this check is meant to catch invalid dates\n  // like 2009-02-31\n  // first check for ordinal dates\n  var ordinalMatch = str.match(/^(\\d{4})-?(\\d{3})([ T]{1}\\.*|$)/);\n\n  if (ordinalMatch) {\n    var oYear = Number(ordinalMatch[1]);\n    var oDay = Number(ordinalMatch[2]); // if is leap year\n\n    if (oYear % 4 === 0 && oYear % 100 !== 0 || oYear % 400 === 0) return oDay <= 366;\n    return oDay <= 365;\n  }\n\n  var match = str.match(/(\\d{4})-?(\\d{0,2})-?(\\d*)/).map(Number);\n  var year = match[1];\n  var month = match[2];\n  var day = match[3];\n  var monthString = month ? \"0\".concat(month).slice(-2) : month;\n  var dayString = day ? \"0\".concat(day).slice(-2) : day; // create a date object and compare\n\n  var d = new Date(\"\".concat(year, \"-\").concat(monthString || '01', \"-\").concat(dayString || '01'));\n\n  if (month && day) {\n    return d.getUTCFullYear() === year && d.getUTCMonth() + 1 === month && d.getUTCDate() === day;\n  }\n\n  return true;\n};\n\nfunction isISO8601(str) {\n  var options = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : {};\n  (0, _assertString.default)(str);\n  var check = options.strictSeparator ? iso8601StrictSeparator.test(str) : iso8601.test(str);\n  if (check && options.strict) return isValidDate(str);\n  return check;\n}\n\nmodule.exports = exports.default;\nmodule.exports.default = exports.default;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = isISRC;\n\nvar _assertString = _interopRequireDefault(require(\"./util/assertString\"));\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\n// see http://isrc.ifpi.org/en/isrc-standard/code-syntax\nvar isrc = /^[A-Z]{2}[0-9A-Z]{3}\\d{2}\\d{5}$/;\n\nfunction isISRC(str) {\n  (0, _assertString.default)(str);\n  return isrc.test(str);\n}\n\nmodule.exports = exports.default;\nmodule.exports.default = exports.default;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = isISSN;\n\nvar _assertString = _interopRequireDefault(require(\"./util/assertString\"));\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\nvar issn = '^\\\\d{4}-?\\\\d{3}[\\\\dX]$';\n\nfunction isISSN(str) {\n  var options = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : {};\n  (0, _assertString.default)(str);\n  var testIssn = issn;\n  testIssn = options.require_hyphen ? testIssn.replace('?', '') : testIssn;\n  testIssn = options.case_sensitive ? new RegExp(testIssn) : new RegExp(testIssn, 'i');\n\n  if (!testIssn.test(str)) {\n    return false;\n  }\n\n  var digits = str.replace('-', '').toUpperCase();\n  var checksum = 0;\n\n  for (var i = 0; i < digits.length; i++) {\n    var digit = digits[i];\n    checksum += (digit === 'X' ? 10 : +digit) * (8 - i);\n  }\n\n  return checksum % 11 === 0;\n}\n\nmodule.exports = exports.default;\nmodule.exports.default = exports.default;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = isIdentityCard;\n\nvar _assertString = _interopRequireDefault(require(\"./util/assertString\"));\n\nvar _isInt = _interopRequireDefault(require(\"./isInt\"));\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\nvar validators = {\n  PL: function PL(str) {\n    (0, _assertString.default)(str);\n    var weightOfDigits = {\n      1: 1,\n      2: 3,\n      3: 7,\n      4: 9,\n      5: 1,\n      6: 3,\n      7: 7,\n      8: 9,\n      9: 1,\n      10: 3,\n      11: 0\n    };\n\n    if (str != null && str.length === 11 && (0, _isInt.default)(str, {\n      allow_leading_zeroes: true\n    })) {\n      var digits = str.split('').slice(0, -1);\n      var sum = digits.reduce(function (acc, digit, index) {\n        return acc + Number(digit) * weightOfDigits[index + 1];\n      }, 0);\n      var modulo = sum % 10;\n      var lastDigit = Number(str.charAt(str.length - 1));\n\n      if (modulo === 0 && lastDigit === 0 || lastDigit === 10 - modulo) {\n        return true;\n      }\n    }\n\n    return false;\n  },\n  ES: function ES(str) {\n    (0, _assertString.default)(str);\n    var DNI = /^[0-9X-Z][0-9]{7}[TRWAGMYFPDXBNJZSQVHLCKE]$/;\n    var charsValue = {\n      X: 0,\n      Y: 1,\n      Z: 2\n    };\n    var controlDigits = ['T', 'R', 'W', 'A', 'G', 'M', 'Y', 'F', 'P', 'D', 'X', 'B', 'N', 'J', 'Z', 'S', 'Q', 'V', 'H', 'L', 'C', 'K', 'E']; // sanitize user input\n\n    var sanitized = str.trim().toUpperCase(); // validate the data structure\n\n    if (!DNI.test(sanitized)) {\n      return false;\n    } // validate the control digit\n\n\n    var number = sanitized.slice(0, -1).replace(/[X,Y,Z]/g, function (char) {\n      return charsValue[char];\n    });\n    return sanitized.endsWith(controlDigits[number % 23]);\n  },\n  FI: function FI(str) {\n    // https://dvv.fi/en/personal-identity-code#:~:text=control%20character%20for%20a-,personal,-identity%20code%20calculated\n    (0, _assertString.default)(str);\n\n    if (str.length !== 11) {\n      return false;\n    }\n\n    if (!str.match(/^\\d{6}[\\-A\\+]\\d{3}[0-9ABCDEFHJKLMNPRSTUVWXY]{1}$/)) {\n      return false;\n    }\n\n    var checkDigits = '0123456789ABCDEFHJKLMNPRSTUVWXY';\n    var idAsNumber = parseInt(str.slice(0, 6), 10) * 1000 + parseInt(str.slice(7, 10), 10);\n    var remainder = idAsNumber % 31;\n    var checkDigit = checkDigits[remainder];\n    return checkDigit === str.slice(10, 11);\n  },\n  IN: function IN(str) {\n    var DNI = /^[1-9]\\d{3}\\s?\\d{4}\\s?\\d{4}$/; // multiplication table\n\n    var d = [[0, 1, 2, 3, 4, 5, 6, 7, 8, 9], [1, 2, 3, 4, 0, 6, 7, 8, 9, 5], [2, 3, 4, 0, 1, 7, 8, 9, 5, 6], [3, 4, 0, 1, 2, 8, 9, 5, 6, 7], [4, 0, 1, 2, 3, 9, 5, 6, 7, 8], [5, 9, 8, 7, 6, 0, 4, 3, 2, 1], [6, 5, 9, 8, 7, 1, 0, 4, 3, 2], [7, 6, 5, 9, 8, 2, 1, 0, 4, 3], [8, 7, 6, 5, 9, 3, 2, 1, 0, 4], [9, 8, 7, 6, 5, 4, 3, 2, 1, 0]]; // permutation table\n\n    var p = [[0, 1, 2, 3, 4, 5, 6, 7, 8, 9], [1, 5, 7, 6, 2, 8, 3, 0, 9, 4], [5, 8, 0, 3, 7, 9, 6, 1, 4, 2], [8, 9, 1, 6, 0, 4, 3, 5, 2, 7], [9, 4, 5, 3, 1, 2, 6, 8, 7, 0], [4, 2, 8, 6, 5, 7, 3, 9, 0, 1], [2, 7, 9, 3, 8, 0, 6, 4, 1, 5], [7, 0, 4, 6, 9, 1, 3, 2, 5, 8]]; // sanitize user input\n\n    var sanitized = str.trim(); // validate the data structure\n\n    if (!DNI.test(sanitized)) {\n      return false;\n    }\n\n    var c = 0;\n    var invertedArray = sanitized.replace(/\\s/g, '').split('').map(Number).reverse();\n    invertedArray.forEach(function (val, i) {\n      c = d[c][p[i % 8][val]];\n    });\n    return c === 0;\n  },\n  IR: function IR(str) {\n    if (!str.match(/^\\d{10}$/)) return false;\n    str = \"0000\".concat(str).slice(str.length - 6);\n    if (parseInt(str.slice(3, 9), 10) === 0) return false;\n    var lastNumber = parseInt(str.slice(9, 10), 10);\n    var sum = 0;\n\n    for (var i = 0; i < 9; i++) {\n      sum += parseInt(str.slice(i, i + 1), 10) * (10 - i);\n    }\n\n    sum %= 11;\n    return sum < 2 && lastNumber === sum || sum >= 2 && lastNumber === 11 - sum;\n  },\n  IT: function IT(str) {\n    if (str.length !== 9) return false;\n    if (str === 'CA00000AA') return false; // https://it.wikipedia.org/wiki/Carta_d%27identit%C3%A0_elettronica_italiana\n\n    return str.search(/C[A-Z][0-9]{5}[A-Z]{2}/i) > -1;\n  },\n  NO: function NO(str) {\n    var sanitized = str.trim();\n    if (isNaN(Number(sanitized))) return false;\n    if (sanitized.length !== 11) return false;\n    if (sanitized === '00000000000') return false; // https://no.wikipedia.org/wiki/F%C3%B8dselsnummer\n\n    var f = sanitized.split('').map(Number);\n    var k1 = (11 - (3 * f[0] + 7 * f[1] + 6 * f[2] + 1 * f[3] + 8 * f[4] + 9 * f[5] + 4 * f[6] + 5 * f[7] + 2 * f[8]) % 11) % 11;\n    var k2 = (11 - (5 * f[0] + 4 * f[1] + 3 * f[2] + 2 * f[3] + 7 * f[4] + 6 * f[5] + 5 * f[6] + 4 * f[7] + 3 * f[8] + 2 * k1) % 11) % 11;\n    if (k1 !== f[9] || k2 !== f[10]) return false;\n    return true;\n  },\n  TH: function TH(str) {\n    if (!str.match(/^[1-8]\\d{12}$/)) return false; // validate check digit\n\n    var sum = 0;\n\n    for (var i = 0; i < 12; i++) {\n      sum += parseInt(str[i], 10) * (13 - i);\n    }\n\n    return str[12] === ((11 - sum % 11) % 10).toString();\n  },\n  LK: function LK(str) {\n    var old_nic = /^[1-9]\\d{8}[vx]$/i;\n    var new_nic = /^[1-9]\\d{11}$/i;\n    if (str.length === 10 && old_nic.test(str)) return true;else if (str.length === 12 && new_nic.test(str)) return true;\n    return false;\n  },\n  'he-IL': function heIL(str) {\n    var DNI = /^\\d{9}$/; // sanitize user input\n\n    var sanitized = str.trim(); // validate the data structure\n\n    if (!DNI.test(sanitized)) {\n      return false;\n    }\n\n    var id = sanitized;\n    var sum = 0,\n        incNum;\n\n    for (var i = 0; i < id.length; i++) {\n      incNum = Number(id[i]) * (i % 2 + 1); // Multiply number by 1 or 2\n\n      sum += incNum > 9 ? incNum - 9 : incNum; // Sum the digits up and add to total\n    }\n\n    return sum % 10 === 0;\n  },\n  'ar-LY': function arLY(str) {\n    // Libya National Identity Number NIN is 12 digits, the first digit is either 1 or 2\n    var NIN = /^(1|2)\\d{11}$/; // sanitize user input\n\n    var sanitized = str.trim(); // validate the data structure\n\n    if (!NIN.test(sanitized)) {\n      return false;\n    }\n\n    return true;\n  },\n  'ar-TN': function arTN(str) {\n    var DNI = /^\\d{8}$/; // sanitize user input\n\n    var sanitized = str.trim(); // validate the data structure\n\n    if (!DNI.test(sanitized)) {\n      return false;\n    }\n\n    return true;\n  },\n  'zh-CN': function zhCN(str) {\n    var provincesAndCities = ['11', // 北京\n    '12', // 天津\n    '13', // 河北\n    '14', // 山西\n    '15', // 内蒙古\n    '21', // 辽宁\n    '22', // 吉林\n    '23', // 黑龙江\n    '31', // 上海\n    '32', // 江苏\n    '33', // 浙江\n    '34', // 安徽\n    '35', // 福建\n    '36', // 江西\n    '37', // 山东\n    '41', // 河南\n    '42', // 湖北\n    '43', // 湖南\n    '44', // 广东\n    '45', // 广西\n    '46', // 海南\n    '50', // 重庆\n    '51', // 四川\n    '52', // 贵州\n    '53', // 云南\n    '54', // 西藏\n    '61', // 陕西\n    '62', // 甘肃\n    '63', // 青海\n    '64', // 宁夏\n    '65', // 新疆\n    '71', // 台湾\n    '81', // 香港\n    '82', // 澳门\n    '91' // 国外\n    ];\n    var powers = ['7', '9', '10', '5', '8', '4', '2', '1', '6', '3', '7', '9', '10', '5', '8', '4', '2'];\n    var parityBit = ['1', '0', 'X', '9', '8', '7', '6', '5', '4', '3', '2'];\n\n    var checkAddressCode = function checkAddressCode(addressCode) {\n      return provincesAndCities.includes(addressCode);\n    };\n\n    var checkBirthDayCode = function checkBirthDayCode(birDayCode) {\n      var yyyy = parseInt(birDayCode.substring(0, 4), 10);\n      var mm = parseInt(birDayCode.substring(4, 6), 10);\n      var dd = parseInt(birDayCode.substring(6), 10);\n      var xdata = new Date(yyyy, mm - 1, dd);\n\n      if (xdata > new Date()) {\n        return false; // eslint-disable-next-line max-len\n      } else if (xdata.getFullYear() === yyyy && xdata.getMonth() === mm - 1 && xdata.getDate() === dd) {\n        return true;\n      }\n\n      return false;\n    };\n\n    var getParityBit = function getParityBit(idCardNo) {\n      var id17 = idCardNo.substring(0, 17);\n      var power = 0;\n\n      for (var i = 0; i < 17; i++) {\n        power += parseInt(id17.charAt(i), 10) * parseInt(powers[i], 10);\n      }\n\n      var mod = power % 11;\n      return parityBit[mod];\n    };\n\n    var checkParityBit = function checkParityBit(idCardNo) {\n      return getParityBit(idCardNo) === idCardNo.charAt(17).toUpperCase();\n    };\n\n    var check15IdCardNo = function check15IdCardNo(idCardNo) {\n      var check = /^[1-9]\\d{7}((0[1-9])|(1[0-2]))((0[1-9])|([1-2][0-9])|(3[0-1]))\\d{3}$/.test(idCardNo);\n      if (!check) return false;\n      var addressCode = idCardNo.substring(0, 2);\n      check = checkAddressCode(addressCode);\n      if (!check) return false;\n      var birDayCode = \"19\".concat(idCardNo.substring(6, 12));\n      check = checkBirthDayCode(birDayCode);\n      if (!check) return false;\n      return true;\n    };\n\n    var check18IdCardNo = function check18IdCardNo(idCardNo) {\n      var check = /^[1-9]\\d{5}[1-9]\\d{3}((0[1-9])|(1[0-2]))((0[1-9])|([1-2][0-9])|(3[0-1]))\\d{3}(\\d|x|X)$/.test(idCardNo);\n      if (!check) return false;\n      var addressCode = idCardNo.substring(0, 2);\n      check = checkAddressCode(addressCode);\n      if (!check) return false;\n      var birDayCode = idCardNo.substring(6, 14);\n      check = checkBirthDayCode(birDayCode);\n      if (!check) return false;\n      return checkParityBit(idCardNo);\n    };\n\n    var checkIdCardNo = function checkIdCardNo(idCardNo) {\n      var check = /^\\d{15}|(\\d{17}(\\d|x|X))$/.test(idCardNo);\n      if (!check) return false;\n\n      if (idCardNo.length === 15) {\n        return check15IdCardNo(idCardNo);\n      }\n\n      return check18IdCardNo(idCardNo);\n    };\n\n    return checkIdCardNo(str);\n  },\n  'zh-HK': function zhHK(str) {\n    // sanitize user input\n    str = str.trim(); // HKID number starts with 1 or 2 letters, followed by 6 digits,\n    // then a checksum contained in square / round brackets or nothing\n\n    var regexHKID = /^[A-Z]{1,2}[0-9]{6}((\\([0-9A]\\))|(\\[[0-9A]\\])|([0-9A]))$/;\n    var regexIsDigit = /^[0-9]$/; // convert the user input to all uppercase and apply regex\n\n    str = str.toUpperCase();\n    if (!regexHKID.test(str)) return false;\n    str = str.replace(/\\[|\\]|\\(|\\)/g, '');\n    if (str.length === 8) str = \"3\".concat(str);\n    var checkSumVal = 0;\n\n    for (var i = 0; i <= 7; i++) {\n      var convertedChar = void 0;\n      if (!regexIsDigit.test(str[i])) convertedChar = (str[i].charCodeAt(0) - 55) % 11;else convertedChar = str[i];\n      checkSumVal += convertedChar * (9 - i);\n    }\n\n    checkSumVal %= 11;\n    var checkSumConverted;\n    if (checkSumVal === 0) checkSumConverted = '0';else if (checkSumVal === 1) checkSumConverted = 'A';else checkSumConverted = String(11 - checkSumVal);\n    if (checkSumConverted === str[str.length - 1]) return true;\n    return false;\n  },\n  'zh-TW': function zhTW(str) {\n    var ALPHABET_CODES = {\n      A: 10,\n      B: 11,\n      C: 12,\n      D: 13,\n      E: 14,\n      F: 15,\n      G: 16,\n      H: 17,\n      I: 34,\n      J: 18,\n      K: 19,\n      L: 20,\n      M: 21,\n      N: 22,\n      O: 35,\n      P: 23,\n      Q: 24,\n      R: 25,\n      S: 26,\n      T: 27,\n      U: 28,\n      V: 29,\n      W: 32,\n      X: 30,\n      Y: 31,\n      Z: 33\n    };\n    var sanitized = str.trim().toUpperCase();\n    if (!/^[A-Z][0-9]{9}$/.test(sanitized)) return false;\n    return Array.from(sanitized).reduce(function (sum, number, index) {\n      if (index === 0) {\n        var code = ALPHABET_CODES[number];\n        return code % 10 * 9 + Math.floor(code / 10);\n      }\n\n      if (index === 9) {\n        return (10 - sum % 10 - Number(number)) % 10 === 0;\n      }\n\n      return sum + Number(number) * (9 - index);\n    }, 0);\n  }\n};\n\nfunction isIdentityCard(str, locale) {\n  (0, _assertString.default)(str);\n\n  if (locale in validators) {\n    return validators[locale](str);\n  } else if (locale === 'any') {\n    for (var key in validators) {\n      // https://github.com/gotwarlost/istanbul/blob/master/ignoring-code-for-coverage.md#ignoring-code-for-coverage-purposes\n      // istanbul ignore else\n      if (validators.hasOwnProperty(key)) {\n        var validator = validators[key];\n\n        if (validator(str)) {\n          return true;\n        }\n      }\n    }\n\n    return false;\n  }\n\n  throw new Error(\"Invalid locale '\".concat(locale, \"'\"));\n}\n\nmodule.exports = exports.default;\nmodule.exports.default = exports.default;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = isIn;\n\nvar _assertString = _interopRequireDefault(require(\"./util/assertString\"));\n\nvar _toString = _interopRequireDefault(require(\"./util/toString\"));\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\nfunction _typeof(obj) { \"@babel/helpers - typeof\"; if (typeof Symbol === \"function\" && typeof Symbol.iterator === \"symbol\") { _typeof = function _typeof(obj) { return typeof obj; }; } else { _typeof = function _typeof(obj) { return obj && typeof Symbol === \"function\" && obj.constructor === Symbol && obj !== Symbol.prototype ? \"symbol\" : typeof obj; }; } return _typeof(obj); }\n\nfunction isIn(str, options) {\n  (0, _assertString.default)(str);\n  var i;\n\n  if (Object.prototype.toString.call(options) === '[object Array]') {\n    var array = [];\n\n    for (i in options) {\n      // https://github.com/gotwarlost/istanbul/blob/master/ignoring-code-for-coverage.md#ignoring-code-for-coverage-purposes\n      // istanbul ignore else\n      if ({}.hasOwnProperty.call(options, i)) {\n        array[i] = (0, _toString.default)(options[i]);\n      }\n    }\n\n    return array.indexOf(str) >= 0;\n  } else if (_typeof(options) === 'object') {\n    return options.hasOwnProperty(str);\n  } else if (options && typeof options.indexOf === 'function') {\n    return options.indexOf(str) >= 0;\n  }\n\n  return false;\n}\n\nmodule.exports = exports.default;\nmodule.exports.default = exports.default;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = isInt;\n\nvar _assertString = _interopRequireDefault(require(\"./util/assertString\"));\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\nvar int = /^(?:[-+]?(?:0|[1-9][0-9]*))$/;\nvar intLeadingZeroes = /^[-+]?[0-9]+$/;\n\nfunction isInt(str, options) {\n  (0, _assertString.default)(str);\n  options = options || {}; // Get the regex to use for testing, based on whether\n  // leading zeroes are allowed or not.\n\n  var regex = options.hasOwnProperty('allow_leading_zeroes') && !options.allow_leading_zeroes ? int : intLeadingZeroes; // Check min/max/lt/gt\n\n  var minCheckPassed = !options.hasOwnProperty('min') || str >= options.min;\n  var maxCheckPassed = !options.hasOwnProperty('max') || str <= options.max;\n  var ltCheckPassed = !options.hasOwnProperty('lt') || str < options.lt;\n  var gtCheckPassed = !options.hasOwnProperty('gt') || str > options.gt;\n  return regex.test(str) && minCheckPassed && maxCheckPassed && ltCheckPassed && gtCheckPassed;\n}\n\nmodule.exports = exports.default;\nmodule.exports.default = exports.default;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = isJSON;\n\nvar _assertString = _interopRequireDefault(require(\"./util/assertString\"));\n\nvar _merge = _interopRequireDefault(require(\"./util/merge\"));\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\nfunction _typeof(obj) { \"@babel/helpers - typeof\"; if (typeof Symbol === \"function\" && typeof Symbol.iterator === \"symbol\") { _typeof = function _typeof(obj) { return typeof obj; }; } else { _typeof = function _typeof(obj) { return obj && typeof Symbol === \"function\" && obj.constructor === Symbol && obj !== Symbol.prototype ? \"symbol\" : typeof obj; }; } return _typeof(obj); }\n\nvar default_json_options = {\n  allow_primitives: false\n};\n\nfunction isJSON(str, options) {\n  (0, _assertString.default)(str);\n\n  try {\n    options = (0, _merge.default)(options, default_json_options);\n    var primitives = [];\n\n    if (options.allow_primitives) {\n      primitives = [null, false, true];\n    }\n\n    var obj = JSON.parse(str);\n    return primitives.includes(obj) || !!obj && _typeof(obj) === 'object';\n  } catch (e) {\n    /* ignore */\n  }\n\n  return false;\n}\n\nmodule.exports = exports.default;\nmodule.exports.default = exports.default;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = isJWT;\n\nvar _assertString = _interopRequireDefault(require(\"./util/assertString\"));\n\nvar _isBase = _interopRequireDefault(require(\"./isBase64\"));\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\nfunction isJWT(str) {\n  (0, _assertString.default)(str);\n  var dotSplit = str.split('.');\n  var len = dotSplit.length;\n\n  if (len > 3 || len < 2) {\n    return false;\n  }\n\n  return dotSplit.reduce(function (acc, currElem) {\n    return acc && (0, _isBase.default)(currElem, {\n      urlSafe: true\n    });\n  }, true);\n}\n\nmodule.exports = exports.default;\nmodule.exports.default = exports.default;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = isLatLong;\n\nvar _assertString = _interopRequireDefault(require(\"./util/assertString\"));\n\nvar _merge = _interopRequireDefault(require(\"./util/merge\"));\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\nvar lat = /^\\(?[+-]?(90(\\.0+)?|[1-8]?\\d(\\.\\d+)?)$/;\nvar long = /^\\s?[+-]?(180(\\.0+)?|1[0-7]\\d(\\.\\d+)?|\\d{1,2}(\\.\\d+)?)\\)?$/;\nvar latDMS = /^(([1-8]?\\d)\\D+([1-5]?\\d|60)\\D+([1-5]?\\d|60)(\\.\\d+)?|90\\D+0\\D+0)\\D+[NSns]?$/i;\nvar longDMS = /^\\s*([1-7]?\\d{1,2}\\D+([1-5]?\\d|60)\\D+([1-5]?\\d|60)(\\.\\d+)?|180\\D+0\\D+0)\\D+[EWew]?$/i;\nvar defaultLatLongOptions = {\n  checkDMS: false\n};\n\nfunction isLatLong(str, options) {\n  (0, _assertString.default)(str);\n  options = (0, _merge.default)(options, defaultLatLongOptions);\n  if (!str.includes(',')) return false;\n  var pair = str.split(',');\n  if (pair[0].startsWith('(') && !pair[1].endsWith(')') || pair[1].endsWith(')') && !pair[0].startsWith('(')) return false;\n\n  if (options.checkDMS) {\n    return latDMS.test(pair[0]) && longDMS.test(pair[1]);\n  }\n\n  return lat.test(pair[0]) && long.test(pair[1]);\n}\n\nmodule.exports = exports.default;\nmodule.exports.default = exports.default;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = isLength;\n\nvar _assertString = _interopRequireDefault(require(\"./util/assertString\"));\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\nfunction _typeof(obj) { \"@babel/helpers - typeof\"; if (typeof Symbol === \"function\" && typeof Symbol.iterator === \"symbol\") { _typeof = function _typeof(obj) { return typeof obj; }; } else { _typeof = function _typeof(obj) { return obj && typeof Symbol === \"function\" && obj.constructor === Symbol && obj !== Symbol.prototype ? \"symbol\" : typeof obj; }; } return _typeof(obj); }\n\n/* eslint-disable prefer-rest-params */\nfunction isLength(str, options) {\n  (0, _assertString.default)(str);\n  var min;\n  var max;\n\n  if (_typeof(options) === 'object') {\n    min = options.min || 0;\n    max = options.max;\n  } else {\n    // backwards compatibility: isLength(str, min [, max])\n    min = arguments[1] || 0;\n    max = arguments[2];\n  }\n\n  var presentationSequences = str.match(/(\\uFE0F|\\uFE0E)/g) || [];\n  var surrogatePairs = str.match(/[\\uD800-\\uDBFF][\\uDC00-\\uDFFF]/g) || [];\n  var len = str.length - presentationSequences.length - surrogatePairs.length;\n  return len >= min && (typeof max === 'undefined' || len <= max);\n}\n\nmodule.exports = exports.default;\nmodule.exports.default = exports.default;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = isLicensePlate;\n\nvar _assertString = _interopRequireDefault(require(\"./util/assertString\"));\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\nvar validators = {\n  'cs-CZ': function csCZ(str) {\n    return /^(([ABCDEFHIJKLMNPRSTUVXYZ]|[0-9])-?){5,8}$/.test(str);\n  },\n  'de-DE': function deDE(str) {\n    return /^((A|AA|AB|AC|AE|AH|AK|AM|AN|AÖ|AP|AS|AT|AU|AW|AZ|B|BA|BB|BC|BE|BF|BH|BI|BK|BL|BM|BN|BO|BÖ|BS|BT|BZ|C|CA|CB|CE|CO|CR|CW|D|DA|DD|DE|DH|DI|DL|DM|DN|DO|DU|DW|DZ|E|EA|EB|ED|EE|EF|EG|EH|EI|EL|EM|EN|ER|ES|EU|EW|F|FB|FD|FF|FG|FI|FL|FN|FO|FR|FS|FT|FÜ|FW|FZ|G|GA|GC|GD|GE|GF|GG|GI|GK|GL|GM|GN|GÖ|GP|GR|GS|GT|GÜ|GV|GW|GZ|H|HA|HB|HC|HD|HE|HF|HG|HH|HI|HK|HL|HM|HN|HO|HP|HR|HS|HU|HV|HX|HY|HZ|IK|IL|IN|IZ|J|JE|JL|K|KA|KB|KC|KE|KF|KG|KH|KI|KK|KL|KM|KN|KO|KR|KS|KT|KU|KW|KY|L|LA|LB|LC|LD|LF|LG|LH|LI|LL|LM|LN|LÖ|LP|LR|LU|M|MA|MB|MC|MD|ME|MG|MH|MI|MK|ML|MM|MN|MO|MQ|MR|MS|MÜ|MW|MY|MZ|N|NB|ND|NE|NF|NH|NI|NK|NM|NÖ|NP|NR|NT|NU|NW|NY|NZ|OA|OB|OC|OD|OE|OF|OG|OH|OK|OL|OP|OS|OZ|P|PA|PB|PE|PF|PI|PL|PM|PN|PR|PS|PW|PZ|R|RA|RC|RD|RE|RG|RH|RI|RL|RM|RN|RO|RP|RS|RT|RU|RV|RW|RZ|S|SB|SC|SE|SG|SI|SK|SL|SM|SN|SO|SP|SR|ST|SU|SW|SY|SZ|TE|TF|TG|TO|TP|TR|TS|TT|TÜ|ÜB|UE|UH|UL|UM|UN|V|VB|VG|VK|VR|VS|W|WA|WB|WE|WF|WI|WK|WL|WM|WN|WO|WR|WS|WT|WÜ|WW|WZ|Z|ZE|ZI|ZP|ZR|ZW|ZZ)[- ]?[A-Z]{1,2}[- ]?\\d{1,4}|(ABG|ABI|AIB|AIC|ALF|ALZ|ANA|ANG|ANK|APD|ARN|ART|ASL|ASZ|AUR|AZE|BAD|BAR|BBG|BCH|BED|BER|BGD|BGL|BID|BIN|BIR|BIT|BIW|BKS|BLB|BLK|BNA|BOG|BOH|BOR|BOT|BRA|BRB|BRG|BRK|BRL|BRV|BSB|BSK|BTF|BÜD|BUL|BÜR|BÜS|BÜZ|CAS|CHA|CLP|CLZ|COC|COE|CUX|DAH|DAN|DAU|DBR|DEG|DEL|DGF|DIL|DIN|DIZ|DKB|DLG|DON|DUD|DÜW|EBE|EBN|EBS|ECK|EIC|EIL|EIN|EIS|EMD|EMS|ERB|ERH|ERK|ERZ|ESB|ESW|FDB|FDS|FEU|FFB|FKB|FLÖ|FOR|FRG|FRI|FRW|FTL|FÜS|GAN|GAP|GDB|GEL|GEO|GER|GHA|GHC|GLA|GMN|GNT|GOA|GOH|GRA|GRH|GRI|GRM|GRZ|GTH|GUB|GUN|GVM|HAB|HAL|HAM|HAS|HBN|HBS|HCH|HDH|HDL|HEB|HEF|HEI|HER|HET|HGN|HGW|HHM|HIG|HIP|HMÜ|HOG|HOH|HOL|HOM|HOR|HÖS|HOT|HRO|HSK|HST|HVL|HWI|IGB|ILL|JÜL|KEH|KEL|KEM|KIB|KLE|KLZ|KÖN|KÖT|KÖZ|KRU|KÜN|KUS|KYF|LAN|LAU|LBS|LBZ|LDK|LDS|LEO|LER|LEV|LIB|LIF|LIP|LÖB|LOS|LRO|LSZ|LÜN|LUP|LWL|MAB|MAI|MAK|MAL|MED|MEG|MEI|MEK|MEL|MER|MET|MGH|MGN|MHL|MIL|MKK|MOD|MOL|MON|MOS|MSE|MSH|MSP|MST|MTK|MTL|MÜB|MÜR|MYK|MZG|NAB|NAI|NAU|NDH|NEA|NEB|NEC|NEN|NES|NEW|NMB|NMS|NOH|NOL|NOM|NOR|NVP|NWM|OAL|OBB|OBG|OCH|OHA|ÖHR|OHV|OHZ|OPR|OSL|OVI|OVL|OVP|PAF|PAN|PAR|PCH|PEG|PIR|PLÖ|PRÜ|QFT|QLB|RDG|REG|REH|REI|RID|RIE|ROD|ROF|ROK|ROL|ROS|ROT|ROW|RSL|RÜD|RÜG|SAB|SAD|SAN|SAW|SBG|SBK|SCZ|SDH|SDL|SDT|SEB|SEE|SEF|SEL|SFB|SFT|SGH|SHA|SHG|SHK|SHL|SIG|SIM|SLE|SLF|SLK|SLN|SLS|SLÜ|SLZ|SMÜ|SOB|SOG|SOK|SÖM|SON|SPB|SPN|SRB|SRO|STA|STB|STD|STE|STL|SUL|SÜW|SWA|SZB|TBB|TDO|TET|TIR|TÖL|TUT|UEM|UER|UFF|USI|VAI|VEC|VER|VIB|VIE|VIT|VOH|WAF|WAK|WAN|WAR|WAT|WBS|WDA|WEL|WEN|WER|WES|WHV|WIL|WIS|WIT|WIZ|WLG|WMS|WND|WOB|WOH|WOL|WOR|WOS|WRN|WSF|WST|WSW|WTL|WTM|WUG|WÜM|WUN|WUR|WZL|ZEL|ZIG)[- ]?(([A-Z][- ]?\\d{1,4})|([A-Z]{2}[- ]?\\d{1,3})))[- ]?(E|H)?$/.test(str);\n  },\n  'de-LI': function deLI(str) {\n    return /^FL[- ]?\\d{1,5}[UZ]?$/.test(str);\n  },\n  'en-IN': function enIN(str) {\n    return /^[A-Z]{2}[ -]?[0-9]{1,2}(?:[ -]?[A-Z])(?:[ -]?[A-Z]*)?[ -]?[0-9]{4}$/.test(str);\n  },\n  'es-AR': function esAR(str) {\n    return /^(([A-Z]{2} ?[0-9]{3} ?[A-Z]{2})|([A-Z]{3} ?[0-9]{3}))$/.test(str);\n  },\n  'fi-FI': function fiFI(str) {\n    return /^(?=.{4,7})(([A-Z]{1,3}|[0-9]{1,3})[\\s-]?([A-Z]{1,3}|[0-9]{1,5}))$/.test(str);\n  },\n  'hu-HU': function huHU(str) {\n    return /^((((?!AAA)(([A-NPRSTVZWXY]{1})([A-PR-Z]{1})([A-HJ-NPR-Z]))|(A[ABC]I)|A[ABC]O|A[A-W]Q|BPI|BPO|UCO|UDO|XAO)-(?!000)\\d{3})|(M\\d{6})|((CK|DT|CD|HC|H[ABEFIKLMNPRSTVX]|MA|OT|R[A-Z]) \\d{2}-\\d{2})|(CD \\d{3}-\\d{3})|(C-(C|X) \\d{4})|(X-(A|B|C) \\d{4})|(([EPVZ]-\\d{5}))|(S A[A-Z]{2} \\d{2})|(SP \\d{2}-\\d{2}))$/.test(str);\n  },\n  'pt-BR': function ptBR(str) {\n    return /^[A-Z]{3}[ -]?[0-9][A-Z][0-9]{2}|[A-Z]{3}[ -]?[0-9]{4}$/.test(str);\n  },\n  'pt-PT': function ptPT(str) {\n    return /^([A-Z]{2}|[0-9]{2})[ -·]?([A-Z]{2}|[0-9]{2})[ -·]?([A-Z]{2}|[0-9]{2})$/.test(str);\n  },\n  'sq-AL': function sqAL(str) {\n    return /^[A-Z]{2}[- ]?((\\d{3}[- ]?(([A-Z]{2})|T))|(R[- ]?\\d{3}))$/.test(str);\n  },\n  'sv-SE': function svSE(str) {\n    return /^[A-HJ-PR-UW-Z]{3} ?[\\d]{2}[A-HJ-PR-UW-Z1-9]$|(^[A-ZÅÄÖ ]{2,7}$)/.test(str.trim());\n  }\n};\n\nfunction isLicensePlate(str, locale) {\n  (0, _assertString.default)(str);\n\n  if (locale in validators) {\n    return validators[locale](str);\n  } else if (locale === 'any') {\n    for (var key in validators) {\n      /* eslint guard-for-in: 0 */\n      var validator = validators[key];\n\n      if (validator(str)) {\n        return true;\n      }\n    }\n\n    return false;\n  }\n\n  throw new Error(\"Invalid locale '\".concat(locale, \"'\"));\n}\n\nmodule.exports = exports.default;\nmodule.exports.default = exports.default;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = isLocale;\n\nvar _assertString = _interopRequireDefault(require(\"./util/assertString\"));\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\nvar localeReg = /^[A-Za-z]{2,4}([_-]([A-Za-z]{4}|[\\d]{3}))?([_-]([A-Za-z]{2}|[\\d]{3}))?$/;\n\nfunction isLocale(str) {\n  (0, _assertString.default)(str);\n\n  if (str === 'en_US_POSIX' || str === 'ca_ES_VALENCIA') {\n    return true;\n  }\n\n  return localeReg.test(str);\n}\n\nmodule.exports = exports.default;\nmodule.exports.default = exports.default;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = isLowercase;\n\nvar _assertString = _interopRequireDefault(require(\"./util/assertString\"));\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\nfunction isLowercase(str) {\n  (0, _assertString.default)(str);\n  return str === str.toLowerCase();\n}\n\nmodule.exports = exports.default;\nmodule.exports.default = exports.default;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = isLuhnNumber;\n\nvar _assertString = _interopRequireDefault(require(\"./util/assertString\"));\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\nfunction isLuhnNumber(str) {\n  (0, _assertString.default)(str);\n  var sanitized = str.replace(/[- ]+/g, '');\n  var sum = 0;\n  var digit;\n  var tmpNum;\n  var shouldDouble;\n\n  for (var i = sanitized.length - 1; i >= 0; i--) {\n    digit = sanitized.substring(i, i + 1);\n    tmpNum = parseInt(digit, 10);\n\n    if (shouldDouble) {\n      tmpNum *= 2;\n\n      if (tmpNum >= 10) {\n        sum += tmpNum % 10 + 1;\n      } else {\n        sum += tmpNum;\n      }\n    } else {\n      sum += tmpNum;\n    }\n\n    shouldDouble = !shouldDouble;\n  }\n\n  return !!(sum % 10 === 0 ? sanitized : false);\n}\n\nmodule.exports = exports.default;\nmodule.exports.default = exports.default;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = isMACAddress;\n\nvar _assertString = _interopRequireDefault(require(\"./util/assertString\"));\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\nvar macAddress48 = /^(?:[0-9a-fA-F]{2}([-:\\s]))([0-9a-fA-F]{2}\\1){4}([0-9a-fA-F]{2})$/;\nvar macAddress48NoSeparators = /^([0-9a-fA-F]){12}$/;\nvar macAddress48WithDots = /^([0-9a-fA-F]{4}\\.){2}([0-9a-fA-F]{4})$/;\nvar macAddress64 = /^(?:[0-9a-fA-F]{2}([-:\\s]))([0-9a-fA-F]{2}\\1){6}([0-9a-fA-F]{2})$/;\nvar macAddress64NoSeparators = /^([0-9a-fA-F]){16}$/;\nvar macAddress64WithDots = /^([0-9a-fA-F]{4}\\.){3}([0-9a-fA-F]{4})$/;\n\nfunction isMACAddress(str, options) {\n  (0, _assertString.default)(str);\n\n  if (options !== null && options !== void 0 && options.eui) {\n    options.eui = String(options.eui);\n  }\n  /**\n   * @deprecated `no_colons` TODO: remove it in the next major\n  */\n\n\n  if (options !== null && options !== void 0 && options.no_colons || options !== null && options !== void 0 && options.no_separators) {\n    if (options.eui === '48') {\n      return macAddress48NoSeparators.test(str);\n    }\n\n    if (options.eui === '64') {\n      return macAddress64NoSeparators.test(str);\n    }\n\n    return macAddress48NoSeparators.test(str) || macAddress64NoSeparators.test(str);\n  }\n\n  if ((options === null || options === void 0 ? void 0 : options.eui) === '48') {\n    return macAddress48.test(str) || macAddress48WithDots.test(str);\n  }\n\n  if ((options === null || options === void 0 ? void 0 : options.eui) === '64') {\n    return macAddress64.test(str) || macAddress64WithDots.test(str);\n  }\n\n  return isMACAddress(str, {\n    eui: '48'\n  }) || isMACAddress(str, {\n    eui: '64'\n  });\n}\n\nmodule.exports = exports.default;\nmodule.exports.default = exports.default;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = isMD5;\n\nvar _assertString = _interopRequireDefault(require(\"./util/assertString\"));\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\nvar md5 = /^[a-f0-9]{32}$/;\n\nfunction isMD5(str) {\n  (0, _assertString.default)(str);\n  return md5.test(str);\n}\n\nmodule.exports = exports.default;\nmodule.exports.default = exports.default;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = isMagnetURI;\n\nvar _assertString = _interopRequireDefault(require(\"./util/assertString\"));\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\nvar magnetURIComponent = /(?:^magnet:\\?|[^?&]&)xt(?:\\.1)?=urn:(?:(?:aich|bitprint|btih|ed2k|ed2khash|kzhash|md5|sha1|tree:tiger):[a-z0-9]{32}(?:[a-z0-9]{8})?|btmh:1220[a-z0-9]{64})(?:$|&)/i;\n\nfunction isMagnetURI(url) {\n  (0, _assertString.default)(url);\n\n  if (url.indexOf('magnet:?') !== 0) {\n    return false;\n  }\n\n  return magnetURIComponent.test(url);\n}\n\nmodule.exports = exports.default;\nmodule.exports.default = exports.default;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = isMimeType;\n\nvar _assertString = _interopRequireDefault(require(\"./util/assertString\"));\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\n/*\n  Checks if the provided string matches to a correct Media type format (MIME type)\n\n  This function only checks is the string format follows the\n  etablished rules by the according RFC specifications.\n  This function supports 'charset' in textual media types\n  (https://tools.ietf.org/html/rfc6657).\n\n  This function does not check against all the media types listed\n  by the IANA (https://www.iana.org/assignments/media-types/media-types.xhtml)\n  because of lightness purposes : it would require to include\n  all these MIME types in this librairy, which would weigh it\n  significantly. This kind of effort maybe is not worth for the use that\n  this function has in this entire librairy.\n\n  More informations in the RFC specifications :\n  - https://tools.ietf.org/html/rfc2045\n  - https://tools.ietf.org/html/rfc2046\n  - https://tools.ietf.org/html/rfc7231#section-3.1.1.1\n  - https://tools.ietf.org/html/rfc7231#section-3.1.1.5\n*/\n// Match simple MIME types\n// NB :\n//   Subtype length must not exceed 100 characters.\n//   This rule does not comply to the RFC specs (what is the max length ?).\nvar mimeTypeSimple = /^(application|audio|font|image|message|model|multipart|text|video)\\/[a-zA-Z0-9\\.\\-\\+_]{1,100}$/i; // eslint-disable-line max-len\n// Handle \"charset\" in \"text/*\"\n\nvar mimeTypeText = /^text\\/[a-zA-Z0-9\\.\\-\\+]{1,100};\\s?charset=(\"[a-zA-Z0-9\\.\\-\\+\\s]{0,70}\"|[a-zA-Z0-9\\.\\-\\+]{0,70})(\\s?\\([a-zA-Z0-9\\.\\-\\+\\s]{1,20}\\))?$/i; // eslint-disable-line max-len\n// Handle \"boundary\" in \"multipart/*\"\n\nvar mimeTypeMultipart = /^multipart\\/[a-zA-Z0-9\\.\\-\\+]{1,100}(;\\s?(boundary|charset)=(\"[a-zA-Z0-9\\.\\-\\+\\s]{0,70}\"|[a-zA-Z0-9\\.\\-\\+]{0,70})(\\s?\\([a-zA-Z0-9\\.\\-\\+\\s]{1,20}\\))?){0,2}$/i; // eslint-disable-line max-len\n\nfunction isMimeType(str) {\n  (0, _assertString.default)(str);\n  return mimeTypeSimple.test(str) || mimeTypeText.test(str) || mimeTypeMultipart.test(str);\n}\n\nmodule.exports = exports.default;\nmodule.exports.default = exports.default;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = isMobilePhone;\nexports.locales = void 0;\n\nvar _assertString = _interopRequireDefault(require(\"./util/assertString\"));\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\n/* eslint-disable max-len */\nvar phones = {\n  'am-AM': /^(\\+?374|0)((10|[9|7][0-9])\\d{6}$|[2-4]\\d{7}$)/,\n  'ar-AE': /^((\\+?971)|0)?5[024568]\\d{7}$/,\n  'ar-BH': /^(\\+?973)?(3|6)\\d{7}$/,\n  'ar-DZ': /^(\\+?213|0)(5|6|7)\\d{8}$/,\n  'ar-LB': /^(\\+?961)?((3|81)\\d{6}|7\\d{7})$/,\n  'ar-EG': /^((\\+?20)|0)?1[0125]\\d{8}$/,\n  'ar-IQ': /^(\\+?964|0)?7[0-9]\\d{8}$/,\n  'ar-JO': /^(\\+?962|0)?7[789]\\d{7}$/,\n  'ar-KW': /^(\\+?965)([569]\\d{7}|41\\d{6})$/,\n  'ar-LY': /^((\\+?218)|0)?(9[1-6]\\d{7}|[1-8]\\d{7,9})$/,\n  'ar-MA': /^(?:(?:\\+|00)212|0)[5-7]\\d{8}$/,\n  'ar-OM': /^((\\+|00)968)?(9[1-9])\\d{6}$/,\n  'ar-PS': /^(\\+?970|0)5[6|9](\\d{7})$/,\n  'ar-SA': /^(!?(\\+?966)|0)?5\\d{8}$/,\n  'ar-SY': /^(!?(\\+?963)|0)?9\\d{8}$/,\n  'ar-TN': /^(\\+?216)?[2459]\\d{7}$/,\n  'az-AZ': /^(\\+994|0)(10|5[015]|7[07]|99)\\d{7}$/,\n  'bs-BA': /^((((\\+|00)3876)|06))((([0-3]|[5-6])\\d{6})|(4\\d{7}))$/,\n  'be-BY': /^(\\+?375)?(24|25|29|33|44)\\d{7}$/,\n  'bg-BG': /^(\\+?359|0)?8[789]\\d{7}$/,\n  'bn-BD': /^(\\+?880|0)1[13456789][0-9]{8}$/,\n  'ca-AD': /^(\\+376)?[346]\\d{5}$/,\n  'cs-CZ': /^(\\+?420)? ?[1-9][0-9]{2} ?[0-9]{3} ?[0-9]{3}$/,\n  'da-DK': /^(\\+?45)?\\s?\\d{2}\\s?\\d{2}\\s?\\d{2}\\s?\\d{2}$/,\n  'de-DE': /^((\\+49|0)1)(5[0-25-9]\\d|6([23]|0\\d?)|7([0-57-9]|6\\d))\\d{7,9}$/,\n  'de-AT': /^(\\+43|0)\\d{1,4}\\d{3,12}$/,\n  'de-CH': /^(\\+41|0)([1-9])\\d{1,9}$/,\n  'de-LU': /^(\\+352)?((6\\d1)\\d{6})$/,\n  'dv-MV': /^(\\+?960)?(7[2-9]|9[1-9])\\d{5}$/,\n  'el-GR': /^(\\+?30|0)?6(8[5-9]|9(?![26])[0-9])\\d{7}$/,\n  'el-CY': /^(\\+?357?)?(9(9|6)\\d{6})$/,\n  'en-AI': /^(\\+?1|0)264(?:2(35|92)|4(?:6[1-2]|76|97)|5(?:3[6-9]|8[1-4])|7(?:2(4|9)|72))\\d{4}$/,\n  'en-AU': /^(\\+?61|0)4\\d{8}$/,\n  'en-AG': /^(?:\\+1|1)268(?:464|7(?:1[3-9]|[28]\\d|3[0246]|64|7[0-689]))\\d{4}$/,\n  'en-BM': /^(\\+?1)?441(((3|7)\\d{6}$)|(5[0-3][0-9]\\d{4}$)|(59\\d{5}$))/,\n  'en-BS': /^(\\+?1[-\\s]?|0)?\\(?242\\)?[-\\s]?\\d{3}[-\\s]?\\d{4}$/,\n  'en-GB': /^(\\+?44|0)7\\d{9}$/,\n  'en-GG': /^(\\+?44|0)1481\\d{6}$/,\n  'en-GH': /^(\\+233|0)(20|50|24|54|27|57|26|56|23|28|55|59)\\d{7}$/,\n  'en-GY': /^(\\+592|0)6\\d{6}$/,\n  'en-HK': /^(\\+?852[-\\s]?)?[456789]\\d{3}[-\\s]?\\d{4}$/,\n  'en-MO': /^(\\+?853[-\\s]?)?[6]\\d{3}[-\\s]?\\d{4}$/,\n  'en-IE': /^(\\+?353|0)8[356789]\\d{7}$/,\n  'en-IN': /^(\\+?91|0)?[6789]\\d{9}$/,\n  'en-JM': /^(\\+?876)?\\d{7}$/,\n  'en-KE': /^(\\+?254|0)(7|1)\\d{8}$/,\n  'en-SS': /^(\\+?211|0)(9[1257])\\d{7}$/,\n  'en-KI': /^((\\+686|686)?)?( )?((6|7)(2|3|8)[0-9]{6})$/,\n  'en-KN': /^(?:\\+1|1)869(?:46\\d|48[89]|55[6-8]|66\\d|76[02-7])\\d{4}$/,\n  'en-LS': /^(\\+?266)(22|28|57|58|59|27|52)\\d{6}$/,\n  'en-MT': /^(\\+?356|0)?(99|79|77|21|27|22|25)[0-9]{6}$/,\n  'en-MU': /^(\\+?230|0)?\\d{8}$/,\n  'en-NA': /^(\\+?264|0)(6|8)\\d{7}$/,\n  'en-NG': /^(\\+?234|0)?[789]\\d{9}$/,\n  'en-NZ': /^(\\+?64|0)[28]\\d{7,9}$/,\n  'en-PG': /^(\\+?675|0)?(7\\d|8[18])\\d{6}$/,\n  'en-PK': /^((00|\\+)?92|0)3[0-6]\\d{8}$/,\n  'en-PH': /^(09|\\+639)\\d{9}$/,\n  'en-RW': /^(\\+?250|0)?[7]\\d{8}$/,\n  'en-SG': /^(\\+65)?[3689]\\d{7}$/,\n  'en-SL': /^(\\+?232|0)\\d{8}$/,\n  'en-TZ': /^(\\+?255|0)?[67]\\d{8}$/,\n  'en-UG': /^(\\+?256|0)?[7]\\d{8}$/,\n  'en-US': /^((\\+1|1)?( |-)?)?(\\([2-9][0-9]{2}\\)|[2-9][0-9]{2})( |-)?([2-9][0-9]{2}( |-)?[0-9]{4})$/,\n  'en-ZA': /^(\\+?27|0)\\d{9}$/,\n  'en-ZM': /^(\\+?26)?09[567]\\d{7}$/,\n  'en-ZW': /^(\\+263)[0-9]{9}$/,\n  'en-BW': /^(\\+?267)?(7[1-8]{1})\\d{6}$/,\n  'es-AR': /^\\+?549(11|[2368]\\d)\\d{8}$/,\n  'es-BO': /^(\\+?591)?(6|7)\\d{7}$/,\n  'es-CO': /^(\\+?57)?3(0(0|1|2|4|5)|1\\d|2[0-4]|5(0|1))\\d{7}$/,\n  'es-CL': /^(\\+?56|0)[2-9]\\d{1}\\d{7}$/,\n  'es-CR': /^(\\+506)?[2-8]\\d{7}$/,\n  'es-CU': /^(\\+53|0053)?5\\d{7}/,\n  'es-DO': /^(\\+?1)?8[024]9\\d{7}$/,\n  'es-HN': /^(\\+?504)?[9|8|3|2]\\d{7}$/,\n  'es-EC': /^(\\+?593|0)([2-7]|9[2-9])\\d{7}$/,\n  'es-ES': /^(\\+?34)?[6|7]\\d{8}$/,\n  'es-PE': /^(\\+?51)?9\\d{8}$/,\n  'es-MX': /^(\\+?52)?(1|01)?\\d{10,11}$/,\n  'es-NI': /^(\\+?505)\\d{7,8}$/,\n  'es-PA': /^(\\+?507)\\d{7,8}$/,\n  'es-PY': /^(\\+?595|0)9[9876]\\d{7}$/,\n  'es-SV': /^(\\+?503)?[67]\\d{7}$/,\n  'es-UY': /^(\\+598|0)9[1-9][\\d]{6}$/,\n  'es-VE': /^(\\+?58)?(2|4)\\d{9}$/,\n  'et-EE': /^(\\+?372)?\\s?(5|8[1-4])\\s?([0-9]\\s?){6,7}$/,\n  'fa-IR': /^(\\+?98[\\-\\s]?|0)9[0-39]\\d[\\-\\s]?\\d{3}[\\-\\s]?\\d{4}$/,\n  'fi-FI': /^(\\+?358|0)\\s?(4[0-6]|50)\\s?(\\d\\s?){4,8}$/,\n  'fj-FJ': /^(\\+?679)?\\s?\\d{3}\\s?\\d{4}$/,\n  'fo-FO': /^(\\+?298)?\\s?\\d{2}\\s?\\d{2}\\s?\\d{2}$/,\n  'fr-BF': /^(\\+226|0)[67]\\d{7}$/,\n  'fr-BJ': /^(\\+229)\\d{8}$/,\n  'fr-CD': /^(\\+?243|0)?(8|9)\\d{8}$/,\n  'fr-CM': /^(\\+?237)6[0-9]{8}$/,\n  'fr-FR': /^(\\+?33|0)[67]\\d{8}$/,\n  'fr-GF': /^(\\+?594|0|00594)[67]\\d{8}$/,\n  'fr-GP': /^(\\+?590|0|00590)[67]\\d{8}$/,\n  'fr-MQ': /^(\\+?596|0|00596)[67]\\d{8}$/,\n  'fr-PF': /^(\\+?689)?8[789]\\d{6}$/,\n  'fr-RE': /^(\\+?262|0|00262)[67]\\d{8}$/,\n  'he-IL': /^(\\+972|0)([23489]|5[012345689]|77)[1-9]\\d{6}$/,\n  'hu-HU': /^(\\+?36|06)(20|30|31|50|70)\\d{7}$/,\n  'id-ID': /^(\\+?62|0)8(1[123456789]|2[1238]|3[1238]|5[12356789]|7[78]|9[56789]|8[123456789])([\\s?|\\d]{5,11})$/,\n  'ir-IR': /^(\\+98|0)?9\\d{9}$/,\n  'it-IT': /^(\\+?39)?\\s?3\\d{2} ?\\d{6,7}$/,\n  'it-SM': /^((\\+378)|(0549)|(\\+390549)|(\\+3780549))?6\\d{5,9}$/,\n  'ja-JP': /^(\\+81[ \\-]?(\\(0\\))?|0)[6789]0[ \\-]?\\d{4}[ \\-]?\\d{4}$/,\n  'ka-GE': /^(\\+?995)?(79\\d{7}|5\\d{8})$/,\n  'kk-KZ': /^(\\+?7|8)?7\\d{9}$/,\n  'kl-GL': /^(\\+?299)?\\s?\\d{2}\\s?\\d{2}\\s?\\d{2}$/,\n  'ko-KR': /^((\\+?82)[ \\-]?)?0?1([0|1|6|7|8|9]{1})[ \\-]?\\d{3,4}[ \\-]?\\d{4}$/,\n  'ky-KG': /^(\\+?7\\s?\\+?7|0)\\s?\\d{2}\\s?\\d{3}\\s?\\d{4}$/,\n  'lt-LT': /^(\\+370|8)\\d{8}$/,\n  'lv-LV': /^(\\+?371)2\\d{7}$/,\n  'mg-MG': /^((\\+?261|0)(2|3)\\d)?\\d{7}$/,\n  'mn-MN': /^(\\+|00|011)?976(77|81|88|91|94|95|96|99)\\d{6}$/,\n  'my-MM': /^(\\+?959|09|9)(2[5-7]|3[1-2]|4[0-5]|6[6-9]|7[5-9]|9[6-9])[0-9]{7}$/,\n  'ms-MY': /^(\\+?60|0)1(([0145](-|\\s)?\\d{7,8})|([236-9](-|\\s)?\\d{7}))$/,\n  'mz-MZ': /^(\\+?258)?8[234567]\\d{7}$/,\n  'nb-NO': /^(\\+?47)?[49]\\d{7}$/,\n  'ne-NP': /^(\\+?977)?9[78]\\d{8}$/,\n  'nl-BE': /^(\\+?32|0)4\\d{8}$/,\n  'nl-NL': /^(((\\+|00)?31\\(0\\))|((\\+|00)?31)|0)6{1}\\d{8}$/,\n  'nl-AW': /^(\\+)?297(56|59|64|73|74|99)\\d{5}$/,\n  'nn-NO': /^(\\+?47)?[49]\\d{7}$/,\n  'pl-PL': /^(\\+?48)? ?[5-8]\\d ?\\d{3} ?\\d{2} ?\\d{2}$/,\n  'pt-BR': /^((\\+?55\\ ?[1-9]{2}\\ ?)|(\\+?55\\ ?\\([1-9]{2}\\)\\ ?)|(0[1-9]{2}\\ ?)|(\\([1-9]{2}\\)\\ ?)|([1-9]{2}\\ ?))((\\d{4}\\-?\\d{4})|(9[1-9]{1}\\d{3}\\-?\\d{4}))$/,\n  'pt-PT': /^(\\+?351)?9[1236]\\d{7}$/,\n  'pt-AO': /^(\\+244)\\d{9}$/,\n  'ro-MD': /^(\\+?373|0)((6(0|1|2|6|7|8|9))|(7(6|7|8|9)))\\d{6}$/,\n  'ro-RO': /^(\\+?40|0)\\s?7\\d{2}(\\/|\\s|\\.|-)?\\d{3}(\\s|\\.|-)?\\d{3}$/,\n  'ru-RU': /^(\\+?7|8)?9\\d{9}$/,\n  'si-LK': /^(?:0|94|\\+94)?(7(0|1|2|4|5|6|7|8)( |-)?)\\d{7}$/,\n  'sl-SI': /^(\\+386\\s?|0)(\\d{1}\\s?\\d{3}\\s?\\d{2}\\s?\\d{2}|\\d{2}\\s?\\d{3}\\s?\\d{3})$/,\n  'sk-SK': /^(\\+?421)? ?[1-9][0-9]{2} ?[0-9]{3} ?[0-9]{3}$/,\n  'sq-AL': /^(\\+355|0)6[789]\\d{6}$/,\n  'sr-RS': /^(\\+3816|06)[- \\d]{5,9}$/,\n  'sv-SE': /^(\\+?46|0)[\\s\\-]?7[\\s\\-]?[02369]([\\s\\-]?\\d){7}$/,\n  'tg-TJ': /^(\\+?992)?[5][5]\\d{7}$/,\n  'th-TH': /^(\\+66|66|0)\\d{9}$/,\n  'tr-TR': /^(\\+?90|0)?5\\d{9}$/,\n  'tk-TM': /^(\\+993|993|8)\\d{8}$/,\n  'uk-UA': /^(\\+?38|8)?0\\d{9}$/,\n  'uz-UZ': /^(\\+?998)?(6[125-79]|7[1-69]|88|9\\d)\\d{7}$/,\n  'vi-VN': /^((\\+?84)|0)((3([2-9]))|(5([25689]))|(7([0|6-9]))|(8([1-9]))|(9([0-9])))([0-9]{7})$/,\n  'zh-CN': /^((\\+|00)86)?(1[3-9]|9[28])\\d{9}$/,\n  'zh-TW': /^(\\+?886\\-?|0)?9\\d{8}$/,\n  'dz-BT': /^(\\+?975|0)?(17|16|77|02)\\d{6}$/,\n  'ar-YE': /^(((\\+|00)9677|0?7)[0137]\\d{7}|((\\+|00)967|0)[1-7]\\d{6})$/,\n  'ar-EH': /^(\\+?212|0)[\\s\\-]?(5288|5289)[\\s\\-]?\\d{5}$/,\n  'fa-AF': /^(\\+93|0)?(2{1}[0-8]{1}|[3-5]{1}[0-4]{1})(\\d{7})$/\n};\n/* eslint-enable max-len */\n// aliases\n\nphones['en-CA'] = phones['en-US'];\nphones['fr-CA'] = phones['en-CA'];\nphones['fr-BE'] = phones['nl-BE'];\nphones['zh-HK'] = phones['en-HK'];\nphones['zh-MO'] = phones['en-MO'];\nphones['ga-IE'] = phones['en-IE'];\nphones['fr-CH'] = phones['de-CH'];\nphones['it-CH'] = phones['fr-CH'];\n\nfunction isMobilePhone(str, locale, options) {\n  (0, _assertString.default)(str);\n\n  if (options && options.strictMode && !str.startsWith('+')) {\n    return false;\n  }\n\n  if (Array.isArray(locale)) {\n    return locale.some(function (key) {\n      // https://github.com/gotwarlost/istanbul/blob/master/ignoring-code-for-coverage.md#ignoring-code-for-coverage-purposes\n      // istanbul ignore else\n      if (phones.hasOwnProperty(key)) {\n        var phone = phones[key];\n\n        if (phone.test(str)) {\n          return true;\n        }\n      }\n\n      return false;\n    });\n  } else if (locale in phones) {\n    return phones[locale].test(str); // alias falsey locale as 'any'\n  } else if (!locale || locale === 'any') {\n    for (var key in phones) {\n      // istanbul ignore else\n      if (phones.hasOwnProperty(key)) {\n        var phone = phones[key];\n\n        if (phone.test(str)) {\n          return true;\n        }\n      }\n    }\n\n    return false;\n  }\n\n  throw new Error(\"Invalid locale '\".concat(locale, \"'\"));\n}\n\nvar locales = Object.keys(phones);\nexports.locales = locales;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = isMongoId;\n\nvar _assertString = _interopRequireDefault(require(\"./util/assertString\"));\n\nvar _isHexadecimal = _interopRequireDefault(require(\"./isHexadecimal\"));\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\nfunction isMongoId(str) {\n  (0, _assertString.default)(str);\n  return (0, _isHexadecimal.default)(str) && str.length === 24;\n}\n\nmodule.exports = exports.default;\nmodule.exports.default = exports.default;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = isMultibyte;\n\nvar _assertString = _interopRequireDefault(require(\"./util/assertString\"));\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\n/* eslint-disable no-control-regex */\nvar multibyte = /[^\\x00-\\x7F]/;\n/* eslint-enable no-control-regex */\n\nfunction isMultibyte(str) {\n  (0, _assertString.default)(str);\n  return multibyte.test(str);\n}\n\nmodule.exports = exports.default;\nmodule.exports.default = exports.default;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = isNumeric;\n\nvar _assertString = _interopRequireDefault(require(\"./util/assertString\"));\n\nvar _alpha = require(\"./alpha\");\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\nvar numericNoSymbols = /^[0-9]+$/;\n\nfunction isNumeric(str, options) {\n  (0, _assertString.default)(str);\n\n  if (options && options.no_symbols) {\n    return numericNoSymbols.test(str);\n  }\n\n  return new RegExp(\"^[+-]?([0-9]*[\".concat((options || {}).locale ? _alpha.decimal[options.locale] : '.', \"])?[0-9]+$\")).test(str);\n}\n\nmodule.exports = exports.default;\nmodule.exports.default = exports.default;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = isOctal;\n\nvar _assertString = _interopRequireDefault(require(\"./util/assertString\"));\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\nvar octal = /^(0o)?[0-7]+$/i;\n\nfunction isOctal(str) {\n  (0, _assertString.default)(str);\n  return octal.test(str);\n}\n\nmodule.exports = exports.default;\nmodule.exports.default = exports.default;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = isPassportNumber;\n\nvar _assertString = _interopRequireDefault(require(\"./util/assertString\"));\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\n/**\n * Reference:\n * https://en.wikipedia.org/ -- Wikipedia\n * https://docs.microsoft.com/en-us/microsoft-365/compliance/eu-passport-number -- EU Passport Number\n * https://countrycode.org/ -- Country Codes\n */\nvar passportRegexByCountryCode = {\n  AM: /^[A-Z]{2}\\d{7}$/,\n  // ARMENIA\n  AR: /^[A-Z]{3}\\d{6}$/,\n  // ARGENTINA\n  AT: /^[A-Z]\\d{7}$/,\n  // AUSTRIA\n  AU: /^[A-Z]\\d{7}$/,\n  // AUSTRALIA\n  AZ: /^[A-Z]{2,3}\\d{7,8}$/,\n  // AZERBAIJAN\n  BE: /^[A-Z]{2}\\d{6}$/,\n  // BELGIUM\n  BG: /^\\d{9}$/,\n  // BULGARIA\n  BR: /^[A-Z]{2}\\d{6}$/,\n  // BRAZIL\n  BY: /^[A-Z]{2}\\d{7}$/,\n  // BELARUS\n  CA: /^[A-Z]{2}\\d{6}$/,\n  // CANADA\n  CH: /^[A-Z]\\d{7}$/,\n  // SWITZERLAND\n  CN: /^G\\d{8}$|^E(?![IO])[A-Z0-9]\\d{7}$/,\n  // CHINA [G=Ordinary, E=Electronic] followed by 8-digits, or E followed by any UPPERCASE letter (except I and O) followed by 7 digits\n  CY: /^[A-Z](\\d{6}|\\d{8})$/,\n  // CYPRUS\n  CZ: /^\\d{8}$/,\n  // CZECH REPUBLIC\n  DE: /^[CFGHJKLMNPRTVWXYZ0-9]{9}$/,\n  // GERMANY\n  DK: /^\\d{9}$/,\n  // DENMARK\n  DZ: /^\\d{9}$/,\n  // ALGERIA\n  EE: /^([A-Z]\\d{7}|[A-Z]{2}\\d{7})$/,\n  // ESTONIA (K followed by 7-digits), e-passports have 2 UPPERCASE followed by 7 digits\n  ES: /^[A-Z0-9]{2}([A-Z0-9]?)\\d{6}$/,\n  // SPAIN\n  FI: /^[A-Z]{2}\\d{7}$/,\n  // FINLAND\n  FR: /^\\d{2}[A-Z]{2}\\d{5}$/,\n  // FRANCE\n  GB: /^\\d{9}$/,\n  // UNITED KINGDOM\n  GR: /^[A-Z]{2}\\d{7}$/,\n  // GREECE\n  HR: /^\\d{9}$/,\n  // CROATIA\n  HU: /^[A-Z]{2}(\\d{6}|\\d{7})$/,\n  // HUNGARY\n  IE: /^[A-Z0-9]{2}\\d{7}$/,\n  // IRELAND\n  IN: /^[A-Z]{1}-?\\d{7}$/,\n  // INDIA\n  ID: /^[A-C]\\d{7}$/,\n  // INDONESIA\n  IR: /^[A-Z]\\d{8}$/,\n  // IRAN\n  IS: /^(A)\\d{7}$/,\n  // ICELAND\n  IT: /^[A-Z0-9]{2}\\d{7}$/,\n  // ITALY\n  JM: /^[Aa]\\d{7}$/,\n  // JAMAICA\n  JP: /^[A-Z]{2}\\d{7}$/,\n  // JAPAN\n  KR: /^[MS]\\d{8}$/,\n  // SOUTH KOREA, REPUBLIC OF KOREA, [S=PS Passports, M=PM Passports]\n  KZ: /^[a-zA-Z]\\d{7}$/,\n  // KAZAKHSTAN\n  LI: /^[a-zA-Z]\\d{5}$/,\n  // LIECHTENSTEIN\n  LT: /^[A-Z0-9]{8}$/,\n  // LITHUANIA\n  LU: /^[A-Z0-9]{8}$/,\n  // LUXEMBURG\n  LV: /^[A-Z0-9]{2}\\d{7}$/,\n  // LATVIA\n  LY: /^[A-Z0-9]{8}$/,\n  // LIBYA\n  MT: /^\\d{7}$/,\n  // MALTA\n  MZ: /^([A-Z]{2}\\d{7})|(\\d{2}[A-Z]{2}\\d{5})$/,\n  // MOZAMBIQUE\n  MY: /^[AHK]\\d{8}$/,\n  // MALAYSIA\n  MX: /^\\d{10,11}$/,\n  // MEXICO\n  NL: /^[A-Z]{2}[A-Z0-9]{6}\\d$/,\n  // NETHERLANDS\n  NZ: /^([Ll]([Aa]|[Dd]|[Ff]|[Hh])|[Ee]([Aa]|[Pp])|[Nn])\\d{6}$/,\n  // NEW ZEALAND\n  PH: /^([A-Z](\\d{6}|\\d{7}[A-Z]))|([A-Z]{2}(\\d{6}|\\d{7}))$/,\n  // PHILIPPINES\n  PK: /^[A-Z]{2}\\d{7}$/,\n  // PAKISTAN\n  PL: /^[A-Z]{2}\\d{7}$/,\n  // POLAND\n  PT: /^[A-Z]\\d{6}$/,\n  // PORTUGAL\n  RO: /^\\d{8,9}$/,\n  // ROMANIA\n  RU: /^\\d{9}$/,\n  // RUSSIAN FEDERATION\n  SE: /^\\d{8}$/,\n  // SWEDEN\n  SL: /^(P)[A-Z]\\d{7}$/,\n  // SLOVENIA\n  SK: /^[0-9A-Z]\\d{7}$/,\n  // SLOVAKIA\n  TH: /^[A-Z]{1,2}\\d{6,7}$/,\n  // THAILAND\n  TR: /^[A-Z]\\d{8}$/,\n  // TURKEY\n  UA: /^[A-Z]{2}\\d{6}$/,\n  // UKRAINE\n  US: /^\\d{9}$/ // UNITED STATES\n\n};\n/**\n * Check if str is a valid passport number\n * relative to provided ISO Country Code.\n *\n * @param {string} str\n * @param {string} countryCode\n * @return {boolean}\n */\n\nfunction isPassportNumber(str, countryCode) {\n  (0, _assertString.default)(str);\n  /** Remove All Whitespaces, Convert to UPPERCASE */\n\n  var normalizedStr = str.replace(/\\s/g, '').toUpperCase();\n  return countryCode.toUpperCase() in passportRegexByCountryCode && passportRegexByCountryCode[countryCode].test(normalizedStr);\n}\n\nmodule.exports = exports.default;\nmodule.exports.default = exports.default;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = isPort;\n\nvar _isInt = _interopRequireDefault(require(\"./isInt\"));\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\nfunction isPort(str) {\n  return (0, _isInt.default)(str, {\n    min: 0,\n    max: 65535\n  });\n}\n\nmodule.exports = exports.default;\nmodule.exports.default = exports.default;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = isPostalCode;\nexports.locales = void 0;\n\nvar _assertString = _interopRequireDefault(require(\"./util/assertString\"));\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\n// common patterns\nvar threeDigit = /^\\d{3}$/;\nvar fourDigit = /^\\d{4}$/;\nvar fiveDigit = /^\\d{5}$/;\nvar sixDigit = /^\\d{6}$/;\nvar patterns = {\n  AD: /^AD\\d{3}$/,\n  AT: fourDigit,\n  AU: fourDigit,\n  AZ: /^AZ\\d{4}$/,\n  BA: /^([7-8]\\d{4}$)/,\n  BE: fourDigit,\n  BG: fourDigit,\n  BR: /^\\d{5}-\\d{3}$/,\n  BY: /^2[1-4]\\d{4}$/,\n  CA: /^[ABCEGHJKLMNPRSTVXY]\\d[ABCEGHJ-NPRSTV-Z][\\s\\-]?\\d[ABCEGHJ-NPRSTV-Z]\\d$/i,\n  CH: fourDigit,\n  CN: /^(0[1-7]|1[012356]|2[0-7]|3[0-6]|4[0-7]|5[1-7]|6[1-7]|7[1-5]|8[1345]|9[09])\\d{4}$/,\n  CZ: /^\\d{3}\\s?\\d{2}$/,\n  DE: fiveDigit,\n  DK: fourDigit,\n  DO: fiveDigit,\n  DZ: fiveDigit,\n  EE: fiveDigit,\n  ES: /^(5[0-2]{1}|[0-4]{1}\\d{1})\\d{3}$/,\n  FI: fiveDigit,\n  FR: /^\\d{2}\\s?\\d{3}$/,\n  GB: /^(gir\\s?0aa|[a-z]{1,2}\\d[\\da-z]?\\s?(\\d[a-z]{2})?)$/i,\n  GR: /^\\d{3}\\s?\\d{2}$/,\n  HR: /^([1-5]\\d{4}$)/,\n  HT: /^HT\\d{4}$/,\n  HU: fourDigit,\n  ID: fiveDigit,\n  IE: /^(?!.*(?:o))[A-Za-z]\\d[\\dw]\\s\\w{4}$/i,\n  IL: /^(\\d{5}|\\d{7})$/,\n  IN: /^((?!10|29|35|54|55|65|66|86|87|88|89)[1-9][0-9]{5})$/,\n  IR: /^(?!(\\d)\\1{3})[13-9]{4}[1346-9][013-9]{5}$/,\n  IS: threeDigit,\n  IT: fiveDigit,\n  JP: /^\\d{3}\\-\\d{4}$/,\n  KE: fiveDigit,\n  KR: /^(\\d{5}|\\d{6})$/,\n  LI: /^(948[5-9]|949[0-7])$/,\n  LT: /^LT\\-\\d{5}$/,\n  LU: fourDigit,\n  LV: /^LV\\-\\d{4}$/,\n  LK: fiveDigit,\n  MG: threeDigit,\n  MX: fiveDigit,\n  MT: /^[A-Za-z]{3}\\s{0,1}\\d{4}$/,\n  MY: fiveDigit,\n  NL: /^\\d{4}\\s?[a-z]{2}$/i,\n  NO: fourDigit,\n  NP: /^(10|21|22|32|33|34|44|45|56|57)\\d{3}$|^(977)$/i,\n  NZ: fourDigit,\n  PL: /^\\d{2}\\-\\d{3}$/,\n  PR: /^00[679]\\d{2}([ -]\\d{4})?$/,\n  PT: /^\\d{4}\\-\\d{3}?$/,\n  RO: sixDigit,\n  RU: sixDigit,\n  SA: fiveDigit,\n  SE: /^[1-9]\\d{2}\\s?\\d{2}$/,\n  SG: sixDigit,\n  SI: fourDigit,\n  SK: /^\\d{3}\\s?\\d{2}$/,\n  TH: fiveDigit,\n  TN: fourDigit,\n  TW: /^\\d{3}(\\d{2})?$/,\n  UA: fiveDigit,\n  US: /^\\d{5}(-\\d{4})?$/,\n  ZA: fourDigit,\n  ZM: fiveDigit\n};\nvar locales = Object.keys(patterns);\nexports.locales = locales;\n\nfunction isPostalCode(str, locale) {\n  (0, _assertString.default)(str);\n\n  if (locale in patterns) {\n    return patterns[locale].test(str);\n  } else if (locale === 'any') {\n    for (var key in patterns) {\n      // https://github.com/gotwarlost/istanbul/blob/master/ignoring-code-for-coverage.md#ignoring-code-for-coverage-purposes\n      // istanbul ignore else\n      if (patterns.hasOwnProperty(key)) {\n        var pattern = patterns[key];\n\n        if (pattern.test(str)) {\n          return true;\n        }\n      }\n    }\n\n    return false;\n  }\n\n  throw new Error(\"Invalid locale '\".concat(locale, \"'\"));\n}","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = isRFC3339;\n\nvar _assertString = _interopRequireDefault(require(\"./util/assertString\"));\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\n/* Based on https://tools.ietf.org/html/rfc3339#section-5.6 */\nvar dateFullYear = /[0-9]{4}/;\nvar dateMonth = /(0[1-9]|1[0-2])/;\nvar dateMDay = /([12]\\d|0[1-9]|3[01])/;\nvar timeHour = /([01][0-9]|2[0-3])/;\nvar timeMinute = /[0-5][0-9]/;\nvar timeSecond = /([0-5][0-9]|60)/;\nvar timeSecFrac = /(\\.[0-9]+)?/;\nvar timeNumOffset = new RegExp(\"[-+]\".concat(timeHour.source, \":\").concat(timeMinute.source));\nvar timeOffset = new RegExp(\"([zZ]|\".concat(timeNumOffset.source, \")\"));\nvar partialTime = new RegExp(\"\".concat(timeHour.source, \":\").concat(timeMinute.source, \":\").concat(timeSecond.source).concat(timeSecFrac.source));\nvar fullDate = new RegExp(\"\".concat(dateFullYear.source, \"-\").concat(dateMonth.source, \"-\").concat(dateMDay.source));\nvar fullTime = new RegExp(\"\".concat(partialTime.source).concat(timeOffset.source));\nvar rfc3339 = new RegExp(\"^\".concat(fullDate.source, \"[ tT]\").concat(fullTime.source, \"$\"));\n\nfunction isRFC3339(str) {\n  (0, _assertString.default)(str);\n  return rfc3339.test(str);\n}\n\nmodule.exports = exports.default;\nmodule.exports.default = exports.default;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = isRgbColor;\n\nvar _assertString = _interopRequireDefault(require(\"./util/assertString\"));\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\nvar rgbColor = /^rgb\\((([0-9]|[1-9][0-9]|1[0-9][0-9]|2[0-4][0-9]|25[0-5]),){2}([0-9]|[1-9][0-9]|1[0-9][0-9]|2[0-4][0-9]|25[0-5])\\)$/;\nvar rgbaColor = /^rgba\\((([0-9]|[1-9][0-9]|1[0-9][0-9]|2[0-4][0-9]|25[0-5]),){3}(0?\\.\\d|1(\\.0)?|0(\\.0)?)\\)$/;\nvar rgbColorPercent = /^rgb\\((([0-9]%|[1-9][0-9]%|100%),){2}([0-9]%|[1-9][0-9]%|100%)\\)$/;\nvar rgbaColorPercent = /^rgba\\((([0-9]%|[1-9][0-9]%|100%),){3}(0?\\.\\d|1(\\.0)?|0(\\.0)?)\\)$/;\n\nfunction isRgbColor(str) {\n  var includePercentValues = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : true;\n  (0, _assertString.default)(str);\n\n  if (!includePercentValues) {\n    return rgbColor.test(str) || rgbaColor.test(str);\n  }\n\n  return rgbColor.test(str) || rgbaColor.test(str) || rgbColorPercent.test(str) || rgbaColorPercent.test(str);\n}\n\nmodule.exports = exports.default;\nmodule.exports.default = exports.default;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = isSemVer;\n\nvar _assertString = _interopRequireDefault(require(\"./util/assertString\"));\n\nvar _multilineRegex = _interopRequireDefault(require(\"./util/multilineRegex\"));\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\n/**\n * Regular Expression to match\n * semantic versioning (SemVer)\n * built from multi-line, multi-parts regexp\n * Reference: https://semver.org/\n */\nvar semanticVersioningRegex = (0, _multilineRegex.default)(['^(0|[1-9]\\\\d*)\\\\.(0|[1-9]\\\\d*)\\\\.(0|[1-9]\\\\d*)', '(?:-((?:0|[1-9]\\\\d*|\\\\d*[a-z-][0-9a-z-]*)(?:\\\\.(?:0|[1-9]\\\\d*|\\\\d*[a-z-][0-9a-z-]*))*))', '?(?:\\\\+([0-9a-z-]+(?:\\\\.[0-9a-z-]+)*))?$'], 'i');\n\nfunction isSemVer(str) {\n  (0, _assertString.default)(str);\n  return semanticVersioningRegex.test(str);\n}\n\nmodule.exports = exports.default;\nmodule.exports.default = exports.default;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = isSlug;\n\nvar _assertString = _interopRequireDefault(require(\"./util/assertString\"));\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\nvar charsetRegex = /^[^\\s-_](?!.*?[-_]{2,})[a-z0-9-\\\\][^\\s]*[^-_\\s]$/;\n\nfunction isSlug(str) {\n  (0, _assertString.default)(str);\n  return charsetRegex.test(str);\n}\n\nmodule.exports = exports.default;\nmodule.exports.default = exports.default;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = isStrongPassword;\n\nvar _merge = _interopRequireDefault(require(\"./util/merge\"));\n\nvar _assertString = _interopRequireDefault(require(\"./util/assertString\"));\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\nvar upperCaseRegex = /^[A-Z]$/;\nvar lowerCaseRegex = /^[a-z]$/;\nvar numberRegex = /^[0-9]$/;\nvar symbolRegex = /^[-#!$@£%^&*()_+|~=`{}\\[\\]:\";'<>?,.\\/ ]$/;\nvar defaultOptions = {\n  minLength: 8,\n  minLowercase: 1,\n  minUppercase: 1,\n  minNumbers: 1,\n  minSymbols: 1,\n  returnScore: false,\n  pointsPerUnique: 1,\n  pointsPerRepeat: 0.5,\n  pointsForContainingLower: 10,\n  pointsForContainingUpper: 10,\n  pointsForContainingNumber: 10,\n  pointsForContainingSymbol: 10\n};\n/* Counts number of occurrences of each char in a string\n * could be moved to util/ ?\n*/\n\nfunction countChars(str) {\n  var result = {};\n  Array.from(str).forEach(function (char) {\n    var curVal = result[char];\n\n    if (curVal) {\n      result[char] += 1;\n    } else {\n      result[char] = 1;\n    }\n  });\n  return result;\n}\n/* Return information about a password */\n\n\nfunction analyzePassword(password) {\n  var charMap = countChars(password);\n  var analysis = {\n    length: password.length,\n    uniqueChars: Object.keys(charMap).length,\n    uppercaseCount: 0,\n    lowercaseCount: 0,\n    numberCount: 0,\n    symbolCount: 0\n  };\n  Object.keys(charMap).forEach(function (char) {\n    /* istanbul ignore else */\n    if (upperCaseRegex.test(char)) {\n      analysis.uppercaseCount += charMap[char];\n    } else if (lowerCaseRegex.test(char)) {\n      analysis.lowercaseCount += charMap[char];\n    } else if (numberRegex.test(char)) {\n      analysis.numberCount += charMap[char];\n    } else if (symbolRegex.test(char)) {\n      analysis.symbolCount += charMap[char];\n    }\n  });\n  return analysis;\n}\n\nfunction scorePassword(analysis, scoringOptions) {\n  var points = 0;\n  points += analysis.uniqueChars * scoringOptions.pointsPerUnique;\n  points += (analysis.length - analysis.uniqueChars) * scoringOptions.pointsPerRepeat;\n\n  if (analysis.lowercaseCount > 0) {\n    points += scoringOptions.pointsForContainingLower;\n  }\n\n  if (analysis.uppercaseCount > 0) {\n    points += scoringOptions.pointsForContainingUpper;\n  }\n\n  if (analysis.numberCount > 0) {\n    points += scoringOptions.pointsForContainingNumber;\n  }\n\n  if (analysis.symbolCount > 0) {\n    points += scoringOptions.pointsForContainingSymbol;\n  }\n\n  return points;\n}\n\nfunction isStrongPassword(str) {\n  var options = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : null;\n  (0, _assertString.default)(str);\n  var analysis = analyzePassword(str);\n  options = (0, _merge.default)(options || {}, defaultOptions);\n\n  if (options.returnScore) {\n    return scorePassword(analysis, options);\n  }\n\n  return analysis.length >= options.minLength && analysis.lowercaseCount >= options.minLowercase && analysis.uppercaseCount >= options.minUppercase && analysis.numberCount >= options.minNumbers && analysis.symbolCount >= options.minSymbols;\n}\n\nmodule.exports = exports.default;\nmodule.exports.default = exports.default;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = isSurrogatePair;\n\nvar _assertString = _interopRequireDefault(require(\"./util/assertString\"));\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\nvar surrogatePair = /[\\uD800-\\uDBFF][\\uDC00-\\uDFFF]/;\n\nfunction isSurrogatePair(str) {\n  (0, _assertString.default)(str);\n  return surrogatePair.test(str);\n}\n\nmodule.exports = exports.default;\nmodule.exports.default = exports.default;","\"use strict\";\n\nfunction _typeof(obj) { \"@babel/helpers - typeof\"; if (typeof Symbol === \"function\" && typeof Symbol.iterator === \"symbol\") { _typeof = function _typeof(obj) { return typeof obj; }; } else { _typeof = function _typeof(obj) { return obj && typeof Symbol === \"function\" && obj.constructor === Symbol && obj !== Symbol.prototype ? \"symbol\" : typeof obj; }; } return _typeof(obj); }\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = isTaxID;\n\nvar _assertString = _interopRequireDefault(require(\"./util/assertString\"));\n\nvar algorithms = _interopRequireWildcard(require(\"./util/algorithms\"));\n\nvar _isDate = _interopRequireDefault(require(\"./isDate\"));\n\nfunction _getRequireWildcardCache() { if (typeof WeakMap !== \"function\") return null; var cache = new WeakMap(); _getRequireWildcardCache = function _getRequireWildcardCache() { return cache; }; return cache; }\n\nfunction _interopRequireWildcard(obj) { if (obj && obj.__esModule) { return obj; } if (obj === null || _typeof(obj) !== \"object\" && typeof obj !== \"function\") { return { default: obj }; } var cache = _getRequireWildcardCache(); if (cache && cache.has(obj)) { return cache.get(obj); } var newObj = {}; var hasPropertyDescriptor = Object.defineProperty && Object.getOwnPropertyDescriptor; for (var key in obj) { if (Object.prototype.hasOwnProperty.call(obj, key)) { var desc = hasPropertyDescriptor ? Object.getOwnPropertyDescriptor(obj, key) : null; if (desc && (desc.get || desc.set)) { Object.defineProperty(newObj, key, desc); } else { newObj[key] = obj[key]; } } } newObj.default = obj; if (cache) { cache.set(obj, newObj); } return newObj; }\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\nfunction _toConsumableArray(arr) { return _arrayWithoutHoles(arr) || _iterableToArray(arr) || _unsupportedIterableToArray(arr) || _nonIterableSpread(); }\n\nfunction _nonIterableSpread() { throw new TypeError(\"Invalid attempt to spread non-iterable instance.\\nIn order to be iterable, non-array objects must have a [Symbol.iterator]() method.\"); }\n\nfunction _unsupportedIterableToArray(o, minLen) { if (!o) return; if (typeof o === \"string\") return _arrayLikeToArray(o, minLen); var n = Object.prototype.toString.call(o).slice(8, -1); if (n === \"Object\" && o.constructor) n = o.constructor.name; if (n === \"Map\" || n === \"Set\") return Array.from(o); if (n === \"Arguments\" || /^(?:Ui|I)nt(?:8|16|32)(?:Clamped)?Array$/.test(n)) return _arrayLikeToArray(o, minLen); }\n\nfunction _iterableToArray(iter) { if (typeof Symbol !== \"undefined\" && Symbol.iterator in Object(iter)) return Array.from(iter); }\n\nfunction _arrayWithoutHoles(arr) { if (Array.isArray(arr)) return _arrayLikeToArray(arr); }\n\nfunction _arrayLikeToArray(arr, len) { if (len == null || len > arr.length) len = arr.length; for (var i = 0, arr2 = new Array(len); i < len; i++) { arr2[i] = arr[i]; } return arr2; }\n\n/**\n * TIN Validation\n * Validates Tax Identification Numbers (TINs) from the US, EU member states and the United Kingdom.\n *\n * EU-UK:\n * National TIN validity is calculated using public algorithms as made available by DG TAXUD.\n *\n * See `https://ec.europa.eu/taxation_customs/tin/specs/FS-TIN%20Algorithms-Public.docx` for more information.\n *\n * US:\n * An Employer Identification Number (EIN), also known as a Federal Tax Identification Number,\n *  is used to identify a business entity.\n *\n * NOTES:\n *  - Prefix 47 is being reserved for future use\n *  - Prefixes 26, 27, 45, 46 and 47 were previously assigned by the Philadelphia campus.\n *\n * See `http://www.irs.gov/Businesses/Small-Businesses-&-Self-Employed/How-EINs-are-Assigned-and-Valid-EIN-Prefixes`\n * for more information.\n */\n// Locale functions\n\n/*\n * bg-BG validation function\n * (Edinen graždanski nomer (EGN/ЕГН), persons only)\n * Checks if birth date (first six digits) is valid and calculates check (last) digit\n */\nfunction bgBgCheck(tin) {\n  // Extract full year, normalize month and check birth date validity\n  var century_year = tin.slice(0, 2);\n  var month = parseInt(tin.slice(2, 4), 10);\n\n  if (month > 40) {\n    month -= 40;\n    century_year = \"20\".concat(century_year);\n  } else if (month > 20) {\n    month -= 20;\n    century_year = \"18\".concat(century_year);\n  } else {\n    century_year = \"19\".concat(century_year);\n  }\n\n  if (month < 10) {\n    month = \"0\".concat(month);\n  }\n\n  var date = \"\".concat(century_year, \"/\").concat(month, \"/\").concat(tin.slice(4, 6));\n\n  if (!(0, _isDate.default)(date, 'YYYY/MM/DD')) {\n    return false;\n  } // split digits into an array for further processing\n\n\n  var digits = tin.split('').map(function (a) {\n    return parseInt(a, 10);\n  }); // Calculate checksum by multiplying digits with fixed values\n\n  var multip_lookup = [2, 4, 8, 5, 10, 9, 7, 3, 6];\n  var checksum = 0;\n\n  for (var i = 0; i < multip_lookup.length; i++) {\n    checksum += digits[i] * multip_lookup[i];\n  }\n\n  checksum = checksum % 11 === 10 ? 0 : checksum % 11;\n  return checksum === digits[9];\n}\n/**\n * Check if an input is a valid Canadian SIN (Social Insurance Number)\n *\n * The Social Insurance Number (SIN) is a 9 digit number that\n * you need to work in Canada or to have access to government programs and benefits.\n *\n * https://en.wikipedia.org/wiki/Social_Insurance_Number\n * https://www.canada.ca/en/employment-social-development/services/sin.html\n * https://www.codercrunch.com/challenge/819302488/sin-validator\n *\n * @param {string} input\n * @return {boolean}\n */\n\n\nfunction isCanadianSIN(input) {\n  var digitsArray = input.split('');\n  var even = digitsArray.filter(function (_, idx) {\n    return idx % 2;\n  }).map(function (i) {\n    return Number(i) * 2;\n  }).join('').split('');\n  var total = digitsArray.filter(function (_, idx) {\n    return !(idx % 2);\n  }).concat(even).map(function (i) {\n    return Number(i);\n  }).reduce(function (acc, cur) {\n    return acc + cur;\n  });\n  return total % 10 === 0;\n}\n/*\n * cs-CZ validation function\n * (Rodné číslo (RČ), persons only)\n * Checks if birth date (first six digits) is valid and divisibility by 11\n * Material not in DG TAXUD document sourced from:\n * -`https://lorenc.info/3MA381/overeni-spravnosti-rodneho-cisla.htm`\n * -`https://www.mvcr.cz/clanek/rady-a-sluzby-dokumenty-rodne-cislo.aspx`\n */\n\n\nfunction csCzCheck(tin) {\n  tin = tin.replace(/\\W/, ''); // Extract full year from TIN length\n\n  var full_year = parseInt(tin.slice(0, 2), 10);\n\n  if (tin.length === 10) {\n    if (full_year < 54) {\n      full_year = \"20\".concat(full_year);\n    } else {\n      full_year = \"19\".concat(full_year);\n    }\n  } else {\n    if (tin.slice(6) === '000') {\n      return false;\n    } // Three-zero serial not assigned before 1954\n\n\n    if (full_year < 54) {\n      full_year = \"19\".concat(full_year);\n    } else {\n      return false; // No 18XX years seen in any of the resources\n    }\n  } // Add missing zero if needed\n\n\n  if (full_year.length === 3) {\n    full_year = [full_year.slice(0, 2), '0', full_year.slice(2)].join('');\n  } // Extract month from TIN and normalize\n\n\n  var month = parseInt(tin.slice(2, 4), 10);\n\n  if (month > 50) {\n    month -= 50;\n  }\n\n  if (month > 20) {\n    // Month-plus-twenty was only introduced in 2004\n    if (parseInt(full_year, 10) < 2004) {\n      return false;\n    }\n\n    month -= 20;\n  }\n\n  if (month < 10) {\n    month = \"0\".concat(month);\n  } // Check date validity\n\n\n  var date = \"\".concat(full_year, \"/\").concat(month, \"/\").concat(tin.slice(4, 6));\n\n  if (!(0, _isDate.default)(date, 'YYYY/MM/DD')) {\n    return false;\n  } // Verify divisibility by 11\n\n\n  if (tin.length === 10) {\n    if (parseInt(tin, 10) % 11 !== 0) {\n      // Some numbers up to and including 1985 are still valid if\n      // check (last) digit equals 0 and modulo of first 9 digits equals 10\n      var checkdigit = parseInt(tin.slice(0, 9), 10) % 11;\n\n      if (parseInt(full_year, 10) < 1986 && checkdigit === 10) {\n        if (parseInt(tin.slice(9), 10) !== 0) {\n          return false;\n        }\n      } else {\n        return false;\n      }\n    }\n  }\n\n  return true;\n}\n/*\n * de-AT validation function\n * (Abgabenkontonummer, persons/entities)\n * Verify TIN validity by calling luhnCheck()\n */\n\n\nfunction deAtCheck(tin) {\n  return algorithms.luhnCheck(tin);\n}\n/*\n * de-DE validation function\n * (Steueridentifikationsnummer (Steuer-IdNr.), persons only)\n * Tests for single duplicate/triplicate value, then calculates ISO 7064 check (last) digit\n * Partial implementation of spec (same result with both algorithms always)\n */\n\n\nfunction deDeCheck(tin) {\n  // Split digits into an array for further processing\n  var digits = tin.split('').map(function (a) {\n    return parseInt(a, 10);\n  }); // Fill array with strings of number positions\n\n  var occurences = [];\n\n  for (var i = 0; i < digits.length - 1; i++) {\n    occurences.push('');\n\n    for (var j = 0; j < digits.length - 1; j++) {\n      if (digits[i] === digits[j]) {\n        occurences[i] += j;\n      }\n    }\n  } // Remove digits with one occurence and test for only one duplicate/triplicate\n\n\n  occurences = occurences.filter(function (a) {\n    return a.length > 1;\n  });\n\n  if (occurences.length !== 2 && occurences.length !== 3) {\n    return false;\n  } // In case of triplicate value only two digits are allowed next to each other\n\n\n  if (occurences[0].length === 3) {\n    var trip_locations = occurences[0].split('').map(function (a) {\n      return parseInt(a, 10);\n    });\n    var recurrent = 0; // Amount of neighbour occurences\n\n    for (var _i = 0; _i < trip_locations.length - 1; _i++) {\n      if (trip_locations[_i] + 1 === trip_locations[_i + 1]) {\n        recurrent += 1;\n      }\n    }\n\n    if (recurrent === 2) {\n      return false;\n    }\n  }\n\n  return algorithms.iso7064Check(tin);\n}\n/*\n * dk-DK validation function\n * (CPR-nummer (personnummer), persons only)\n * Checks if birth date (first six digits) is valid and assigned to century (seventh) digit,\n * and calculates check (last) digit\n */\n\n\nfunction dkDkCheck(tin) {\n  tin = tin.replace(/\\W/, ''); // Extract year, check if valid for given century digit and add century\n\n  var year = parseInt(tin.slice(4, 6), 10);\n  var century_digit = tin.slice(6, 7);\n\n  switch (century_digit) {\n    case '0':\n    case '1':\n    case '2':\n    case '3':\n      year = \"19\".concat(year);\n      break;\n\n    case '4':\n    case '9':\n      if (year < 37) {\n        year = \"20\".concat(year);\n      } else {\n        year = \"19\".concat(year);\n      }\n\n      break;\n\n    default:\n      if (year < 37) {\n        year = \"20\".concat(year);\n      } else if (year > 58) {\n        year = \"18\".concat(year);\n      } else {\n        return false;\n      }\n\n      break;\n  } // Add missing zero if needed\n\n\n  if (year.length === 3) {\n    year = [year.slice(0, 2), '0', year.slice(2)].join('');\n  } // Check date validity\n\n\n  var date = \"\".concat(year, \"/\").concat(tin.slice(2, 4), \"/\").concat(tin.slice(0, 2));\n\n  if (!(0, _isDate.default)(date, 'YYYY/MM/DD')) {\n    return false;\n  } // Split digits into an array for further processing\n\n\n  var digits = tin.split('').map(function (a) {\n    return parseInt(a, 10);\n  });\n  var checksum = 0;\n  var weight = 4; // Multiply by weight and add to checksum\n\n  for (var i = 0; i < 9; i++) {\n    checksum += digits[i] * weight;\n    weight -= 1;\n\n    if (weight === 1) {\n      weight = 7;\n    }\n  }\n\n  checksum %= 11;\n\n  if (checksum === 1) {\n    return false;\n  }\n\n  return checksum === 0 ? digits[9] === 0 : digits[9] === 11 - checksum;\n}\n/*\n * el-CY validation function\n * (Arithmos Forologikou Mitroou (AFM/ΑΦΜ), persons only)\n * Verify TIN validity by calculating ASCII value of check (last) character\n */\n\n\nfunction elCyCheck(tin) {\n  // split digits into an array for further processing\n  var digits = tin.slice(0, 8).split('').map(function (a) {\n    return parseInt(a, 10);\n  });\n  var checksum = 0; // add digits in even places\n\n  for (var i = 1; i < digits.length; i += 2) {\n    checksum += digits[i];\n  } // add digits in odd places\n\n\n  for (var _i2 = 0; _i2 < digits.length; _i2 += 2) {\n    if (digits[_i2] < 2) {\n      checksum += 1 - digits[_i2];\n    } else {\n      checksum += 2 * (digits[_i2] - 2) + 5;\n\n      if (digits[_i2] > 4) {\n        checksum += 2;\n      }\n    }\n  }\n\n  return String.fromCharCode(checksum % 26 + 65) === tin.charAt(8);\n}\n/*\n * el-GR validation function\n * (Arithmos Forologikou Mitroou (AFM/ΑΦΜ), persons/entities)\n * Verify TIN validity by calculating check (last) digit\n * Algorithm not in DG TAXUD document- sourced from:\n * - `http://epixeirisi.gr/%CE%9A%CE%A1%CE%99%CE%A3%CE%99%CE%9C%CE%91-%CE%98%CE%95%CE%9C%CE%91%CE%A4%CE%91-%CE%A6%CE%9F%CE%A1%CE%9F%CE%9B%CE%9F%CE%93%CE%99%CE%91%CE%A3-%CE%9A%CE%91%CE%99-%CE%9B%CE%9F%CE%93%CE%99%CE%A3%CE%A4%CE%99%CE%9A%CE%97%CE%A3/23791/%CE%91%CF%81%CE%B9%CE%B8%CE%BC%CF%8C%CF%82-%CE%A6%CE%BF%CF%81%CE%BF%CE%BB%CE%BF%CE%B3%CE%B9%CE%BA%CE%BF%CF%8D-%CE%9C%CE%B7%CF%84%CF%81%CF%8E%CE%BF%CF%85`\n */\n\n\nfunction elGrCheck(tin) {\n  // split digits into an array for further processing\n  var digits = tin.split('').map(function (a) {\n    return parseInt(a, 10);\n  });\n  var checksum = 0;\n\n  for (var i = 0; i < 8; i++) {\n    checksum += digits[i] * Math.pow(2, 8 - i);\n  }\n\n  return checksum % 11 % 10 === digits[8];\n}\n/*\n * en-GB validation function (should go here if needed)\n * (National Insurance Number (NINO) or Unique Taxpayer Reference (UTR),\n * persons/entities respectively)\n */\n\n/*\n * en-IE validation function\n * (Personal Public Service Number (PPS No), persons only)\n * Verify TIN validity by calculating check (second to last) character\n */\n\n\nfunction enIeCheck(tin) {\n  var checksum = algorithms.reverseMultiplyAndSum(tin.split('').slice(0, 7).map(function (a) {\n    return parseInt(a, 10);\n  }), 8);\n\n  if (tin.length === 9 && tin[8] !== 'W') {\n    checksum += (tin[8].charCodeAt(0) - 64) * 9;\n  }\n\n  checksum %= 23;\n\n  if (checksum === 0) {\n    return tin[7].toUpperCase() === 'W';\n  }\n\n  return tin[7].toUpperCase() === String.fromCharCode(64 + checksum);\n} // Valid US IRS campus prefixes\n\n\nvar enUsCampusPrefix = {\n  andover: ['10', '12'],\n  atlanta: ['60', '67'],\n  austin: ['50', '53'],\n  brookhaven: ['01', '02', '03', '04', '05', '06', '11', '13', '14', '16', '21', '22', '23', '25', '34', '51', '52', '54', '55', '56', '57', '58', '59', '65'],\n  cincinnati: ['30', '32', '35', '36', '37', '38', '61'],\n  fresno: ['15', '24'],\n  internet: ['20', '26', '27', '45', '46', '47'],\n  kansas: ['40', '44'],\n  memphis: ['94', '95'],\n  ogden: ['80', '90'],\n  philadelphia: ['33', '39', '41', '42', '43', '46', '48', '62', '63', '64', '66', '68', '71', '72', '73', '74', '75', '76', '77', '81', '82', '83', '84', '85', '86', '87', '88', '91', '92', '93', '98', '99'],\n  sba: ['31']\n}; // Return an array of all US IRS campus prefixes\n\nfunction enUsGetPrefixes() {\n  var prefixes = [];\n\n  for (var location in enUsCampusPrefix) {\n    // https://github.com/gotwarlost/istanbul/blob/master/ignoring-code-for-coverage.md#ignoring-code-for-coverage-purposes\n    // istanbul ignore else\n    if (enUsCampusPrefix.hasOwnProperty(location)) {\n      prefixes.push.apply(prefixes, _toConsumableArray(enUsCampusPrefix[location]));\n    }\n  }\n\n  return prefixes;\n}\n/*\n * en-US validation function\n * Verify that the TIN starts with a valid IRS campus prefix\n */\n\n\nfunction enUsCheck(tin) {\n  return enUsGetPrefixes().indexOf(tin.slice(0, 2)) !== -1;\n}\n/*\n * es-ES validation function\n * (Documento Nacional de Identidad (DNI)\n * or Número de Identificación de Extranjero (NIE), persons only)\n * Verify TIN validity by calculating check (last) character\n */\n\n\nfunction esEsCheck(tin) {\n  // Split characters into an array for further processing\n  var chars = tin.toUpperCase().split(''); // Replace initial letter if needed\n\n  if (isNaN(parseInt(chars[0], 10)) && chars.length > 1) {\n    var lead_replace = 0;\n\n    switch (chars[0]) {\n      case 'Y':\n        lead_replace = 1;\n        break;\n\n      case 'Z':\n        lead_replace = 2;\n        break;\n\n      default:\n    }\n\n    chars.splice(0, 1, lead_replace); // Fill with zeros if smaller than proper\n  } else {\n    while (chars.length < 9) {\n      chars.unshift(0);\n    }\n  } // Calculate checksum and check according to lookup\n\n\n  var lookup = ['T', 'R', 'W', 'A', 'G', 'M', 'Y', 'F', 'P', 'D', 'X', 'B', 'N', 'J', 'Z', 'S', 'Q', 'V', 'H', 'L', 'C', 'K', 'E'];\n  chars = chars.join('');\n  var checksum = parseInt(chars.slice(0, 8), 10) % 23;\n  return chars[8] === lookup[checksum];\n}\n/*\n * et-EE validation function\n * (Isikukood (IK), persons only)\n * Checks if birth date (century digit and six following) is valid and calculates check (last) digit\n * Material not in DG TAXUD document sourced from:\n * - `https://www.oecd.org/tax/automatic-exchange/crs-implementation-and-assistance/tax-identification-numbers/Estonia-TIN.pdf`\n */\n\n\nfunction etEeCheck(tin) {\n  // Extract year and add century\n  var full_year = tin.slice(1, 3);\n  var century_digit = tin.slice(0, 1);\n\n  switch (century_digit) {\n    case '1':\n    case '2':\n      full_year = \"18\".concat(full_year);\n      break;\n\n    case '3':\n    case '4':\n      full_year = \"19\".concat(full_year);\n      break;\n\n    default:\n      full_year = \"20\".concat(full_year);\n      break;\n  } // Check date validity\n\n\n  var date = \"\".concat(full_year, \"/\").concat(tin.slice(3, 5), \"/\").concat(tin.slice(5, 7));\n\n  if (!(0, _isDate.default)(date, 'YYYY/MM/DD')) {\n    return false;\n  } // Split digits into an array for further processing\n\n\n  var digits = tin.split('').map(function (a) {\n    return parseInt(a, 10);\n  });\n  var checksum = 0;\n  var weight = 1; // Multiply by weight and add to checksum\n\n  for (var i = 0; i < 10; i++) {\n    checksum += digits[i] * weight;\n    weight += 1;\n\n    if (weight === 10) {\n      weight = 1;\n    }\n  } // Do again if modulo 11 of checksum is 10\n\n\n  if (checksum % 11 === 10) {\n    checksum = 0;\n    weight = 3;\n\n    for (var _i3 = 0; _i3 < 10; _i3++) {\n      checksum += digits[_i3] * weight;\n      weight += 1;\n\n      if (weight === 10) {\n        weight = 1;\n      }\n    }\n\n    if (checksum % 11 === 10) {\n      return digits[10] === 0;\n    }\n  }\n\n  return checksum % 11 === digits[10];\n}\n/*\n * fi-FI validation function\n * (Henkilötunnus (HETU), persons only)\n * Checks if birth date (first six digits plus century symbol) is valid\n * and calculates check (last) digit\n */\n\n\nfunction fiFiCheck(tin) {\n  // Extract year and add century\n  var full_year = tin.slice(4, 6);\n  var century_symbol = tin.slice(6, 7);\n\n  switch (century_symbol) {\n    case '+':\n      full_year = \"18\".concat(full_year);\n      break;\n\n    case '-':\n      full_year = \"19\".concat(full_year);\n      break;\n\n    default:\n      full_year = \"20\".concat(full_year);\n      break;\n  } // Check date validity\n\n\n  var date = \"\".concat(full_year, \"/\").concat(tin.slice(2, 4), \"/\").concat(tin.slice(0, 2));\n\n  if (!(0, _isDate.default)(date, 'YYYY/MM/DD')) {\n    return false;\n  } // Calculate check character\n\n\n  var checksum = parseInt(tin.slice(0, 6) + tin.slice(7, 10), 10) % 31;\n\n  if (checksum < 10) {\n    return checksum === parseInt(tin.slice(10), 10);\n  }\n\n  checksum -= 10;\n  var letters_lookup = ['A', 'B', 'C', 'D', 'E', 'F', 'H', 'J', 'K', 'L', 'M', 'N', 'P', 'R', 'S', 'T', 'U', 'V', 'W', 'X', 'Y'];\n  return letters_lookup[checksum] === tin.slice(10);\n}\n/*\n * fr/nl-BE validation function\n * (Numéro national (N.N.), persons only)\n * Checks if birth date (first six digits) is valid and calculates check (last two) digits\n */\n\n\nfunction frBeCheck(tin) {\n  // Zero month/day value is acceptable\n  if (tin.slice(2, 4) !== '00' || tin.slice(4, 6) !== '00') {\n    // Extract date from first six digits of TIN\n    var date = \"\".concat(tin.slice(0, 2), \"/\").concat(tin.slice(2, 4), \"/\").concat(tin.slice(4, 6));\n\n    if (!(0, _isDate.default)(date, 'YY/MM/DD')) {\n      return false;\n    }\n  }\n\n  var checksum = 97 - parseInt(tin.slice(0, 9), 10) % 97;\n  var checkdigits = parseInt(tin.slice(9, 11), 10);\n\n  if (checksum !== checkdigits) {\n    checksum = 97 - parseInt(\"2\".concat(tin.slice(0, 9)), 10) % 97;\n\n    if (checksum !== checkdigits) {\n      return false;\n    }\n  }\n\n  return true;\n}\n/*\n * fr-FR validation function\n * (Numéro fiscal de référence (numéro SPI), persons only)\n * Verify TIN validity by calculating check (last three) digits\n */\n\n\nfunction frFrCheck(tin) {\n  tin = tin.replace(/\\s/g, '');\n  var checksum = parseInt(tin.slice(0, 10), 10) % 511;\n  var checkdigits = parseInt(tin.slice(10, 13), 10);\n  return checksum === checkdigits;\n}\n/*\n * fr/lb-LU validation function\n * (numéro d’identification personnelle, persons only)\n * Verify birth date validity and run Luhn and Verhoeff checks\n */\n\n\nfunction frLuCheck(tin) {\n  // Extract date and check validity\n  var date = \"\".concat(tin.slice(0, 4), \"/\").concat(tin.slice(4, 6), \"/\").concat(tin.slice(6, 8));\n\n  if (!(0, _isDate.default)(date, 'YYYY/MM/DD')) {\n    return false;\n  } // Run Luhn check\n\n\n  if (!algorithms.luhnCheck(tin.slice(0, 12))) {\n    return false;\n  } // Remove Luhn check digit and run Verhoeff check\n\n\n  return algorithms.verhoeffCheck(\"\".concat(tin.slice(0, 11)).concat(tin[12]));\n}\n/*\n * hr-HR validation function\n * (Osobni identifikacijski broj (OIB), persons/entities)\n * Verify TIN validity by calling iso7064Check(digits)\n */\n\n\nfunction hrHrCheck(tin) {\n  return algorithms.iso7064Check(tin);\n}\n/*\n * hu-HU validation function\n * (Adóazonosító jel, persons only)\n * Verify TIN validity by calculating check (last) digit\n */\n\n\nfunction huHuCheck(tin) {\n  // split digits into an array for further processing\n  var digits = tin.split('').map(function (a) {\n    return parseInt(a, 10);\n  });\n  var checksum = 8;\n\n  for (var i = 1; i < 9; i++) {\n    checksum += digits[i] * (i + 1);\n  }\n\n  return checksum % 11 === digits[9];\n}\n/*\n * lt-LT validation function (should go here if needed)\n * (Asmens kodas, persons/entities respectively)\n * Current validation check is alias of etEeCheck- same format applies\n */\n\n/*\n * it-IT first/last name validity check\n * Accepts it-IT TIN-encoded names as a three-element character array and checks their validity\n * Due to lack of clarity between resources (\"Are only Italian consonants used?\n * What happens if a person has X in their name?\" etc.) only two test conditions\n * have been implemented:\n * Vowels may only be followed by other vowels or an X character\n * and X characters after vowels may only be followed by other X characters.\n */\n\n\nfunction itItNameCheck(name) {\n  // true at the first occurence of a vowel\n  var vowelflag = false; // true at the first occurence of an X AFTER vowel\n  // (to properly handle last names with X as consonant)\n\n  var xflag = false;\n\n  for (var i = 0; i < 3; i++) {\n    if (!vowelflag && /[AEIOU]/.test(name[i])) {\n      vowelflag = true;\n    } else if (!xflag && vowelflag && name[i] === 'X') {\n      xflag = true;\n    } else if (i > 0) {\n      if (vowelflag && !xflag) {\n        if (!/[AEIOU]/.test(name[i])) {\n          return false;\n        }\n      }\n\n      if (xflag) {\n        if (!/X/.test(name[i])) {\n          return false;\n        }\n      }\n    }\n  }\n\n  return true;\n}\n/*\n * it-IT validation function\n * (Codice fiscale (TIN-IT), persons only)\n * Verify name, birth date and codice catastale validity\n * and calculate check character.\n * Material not in DG-TAXUD document sourced from:\n * `https://en.wikipedia.org/wiki/Italian_fiscal_code`\n */\n\n\nfunction itItCheck(tin) {\n  // Capitalize and split characters into an array for further processing\n  var chars = tin.toUpperCase().split(''); // Check first and last name validity calling itItNameCheck()\n\n  if (!itItNameCheck(chars.slice(0, 3))) {\n    return false;\n  }\n\n  if (!itItNameCheck(chars.slice(3, 6))) {\n    return false;\n  } // Convert letters in number spaces back to numbers if any\n\n\n  var number_locations = [6, 7, 9, 10, 12, 13, 14];\n  var number_replace = {\n    L: '0',\n    M: '1',\n    N: '2',\n    P: '3',\n    Q: '4',\n    R: '5',\n    S: '6',\n    T: '7',\n    U: '8',\n    V: '9'\n  };\n\n  for (var _i4 = 0, _number_locations = number_locations; _i4 < _number_locations.length; _i4++) {\n    var i = _number_locations[_i4];\n\n    if (chars[i] in number_replace) {\n      chars.splice(i, 1, number_replace[chars[i]]);\n    }\n  } // Extract month and day, and check date validity\n\n\n  var month_replace = {\n    A: '01',\n    B: '02',\n    C: '03',\n    D: '04',\n    E: '05',\n    H: '06',\n    L: '07',\n    M: '08',\n    P: '09',\n    R: '10',\n    S: '11',\n    T: '12'\n  };\n  var month = month_replace[chars[8]];\n  var day = parseInt(chars[9] + chars[10], 10);\n\n  if (day > 40) {\n    day -= 40;\n  }\n\n  if (day < 10) {\n    day = \"0\".concat(day);\n  }\n\n  var date = \"\".concat(chars[6]).concat(chars[7], \"/\").concat(month, \"/\").concat(day);\n\n  if (!(0, _isDate.default)(date, 'YY/MM/DD')) {\n    return false;\n  } // Calculate check character by adding up even and odd characters as numbers\n\n\n  var checksum = 0;\n\n  for (var _i5 = 1; _i5 < chars.length - 1; _i5 += 2) {\n    var char_to_int = parseInt(chars[_i5], 10);\n\n    if (isNaN(char_to_int)) {\n      char_to_int = chars[_i5].charCodeAt(0) - 65;\n    }\n\n    checksum += char_to_int;\n  }\n\n  var odd_convert = {\n    // Maps of characters at odd places\n    A: 1,\n    B: 0,\n    C: 5,\n    D: 7,\n    E: 9,\n    F: 13,\n    G: 15,\n    H: 17,\n    I: 19,\n    J: 21,\n    K: 2,\n    L: 4,\n    M: 18,\n    N: 20,\n    O: 11,\n    P: 3,\n    Q: 6,\n    R: 8,\n    S: 12,\n    T: 14,\n    U: 16,\n    V: 10,\n    W: 22,\n    X: 25,\n    Y: 24,\n    Z: 23,\n    0: 1,\n    1: 0\n  };\n\n  for (var _i6 = 0; _i6 < chars.length - 1; _i6 += 2) {\n    var _char_to_int = 0;\n\n    if (chars[_i6] in odd_convert) {\n      _char_to_int = odd_convert[chars[_i6]];\n    } else {\n      var multiplier = parseInt(chars[_i6], 10);\n      _char_to_int = 2 * multiplier + 1;\n\n      if (multiplier > 4) {\n        _char_to_int += 2;\n      }\n    }\n\n    checksum += _char_to_int;\n  }\n\n  if (String.fromCharCode(65 + checksum % 26) !== chars[15]) {\n    return false;\n  }\n\n  return true;\n}\n/*\n * lv-LV validation function\n * (Personas kods (PK), persons only)\n * Check validity of birth date and calculate check (last) digit\n * Support only for old format numbers (not starting with '32', issued before 2017/07/01)\n * Material not in DG TAXUD document sourced from:\n * `https://boot.ritakafija.lv/forums/index.php?/topic/88314-personas-koda-algoritms-%C4%8Deksumma/`\n */\n\n\nfunction lvLvCheck(tin) {\n  tin = tin.replace(/\\W/, ''); // Extract date from TIN\n\n  var day = tin.slice(0, 2);\n\n  if (day !== '32') {\n    // No date/checksum check if new format\n    var month = tin.slice(2, 4);\n\n    if (month !== '00') {\n      // No date check if unknown month\n      var full_year = tin.slice(4, 6);\n\n      switch (tin[6]) {\n        case '0':\n          full_year = \"18\".concat(full_year);\n          break;\n\n        case '1':\n          full_year = \"19\".concat(full_year);\n          break;\n\n        default:\n          full_year = \"20\".concat(full_year);\n          break;\n      } // Check date validity\n\n\n      var date = \"\".concat(full_year, \"/\").concat(tin.slice(2, 4), \"/\").concat(day);\n\n      if (!(0, _isDate.default)(date, 'YYYY/MM/DD')) {\n        return false;\n      }\n    } // Calculate check digit\n\n\n    var checksum = 1101;\n    var multip_lookup = [1, 6, 3, 7, 9, 10, 5, 8, 4, 2];\n\n    for (var i = 0; i < tin.length - 1; i++) {\n      checksum -= parseInt(tin[i], 10) * multip_lookup[i];\n    }\n\n    return parseInt(tin[10], 10) === checksum % 11;\n  }\n\n  return true;\n}\n/*\n * mt-MT validation function\n * (Identity Card Number or Unique Taxpayer Reference, persons/entities)\n * Verify Identity Card Number structure (no other tests found)\n */\n\n\nfunction mtMtCheck(tin) {\n  if (tin.length !== 9) {\n    // No tests for UTR\n    var chars = tin.toUpperCase().split(''); // Fill with zeros if smaller than proper\n\n    while (chars.length < 8) {\n      chars.unshift(0);\n    } // Validate format according to last character\n\n\n    switch (tin[7]) {\n      case 'A':\n      case 'P':\n        if (parseInt(chars[6], 10) === 0) {\n          return false;\n        }\n\n        break;\n\n      default:\n        {\n          var first_part = parseInt(chars.join('').slice(0, 5), 10);\n\n          if (first_part > 32000) {\n            return false;\n          }\n\n          var second_part = parseInt(chars.join('').slice(5, 7), 10);\n\n          if (first_part === second_part) {\n            return false;\n          }\n        }\n    }\n  }\n\n  return true;\n}\n/*\n * nl-NL validation function\n * (Burgerservicenummer (BSN) or Rechtspersonen Samenwerkingsverbanden Informatie Nummer (RSIN),\n * persons/entities respectively)\n * Verify TIN validity by calculating check (last) digit (variant of MOD 11)\n */\n\n\nfunction nlNlCheck(tin) {\n  return algorithms.reverseMultiplyAndSum(tin.split('').slice(0, 8).map(function (a) {\n    return parseInt(a, 10);\n  }), 9) % 11 === parseInt(tin[8], 10);\n}\n/*\n * pl-PL validation function\n * (Powszechny Elektroniczny System Ewidencji Ludności (PESEL)\n * or Numer identyfikacji podatkowej (NIP), persons/entities)\n * Verify TIN validity by validating birth date (PESEL) and calculating check (last) digit\n */\n\n\nfunction plPlCheck(tin) {\n  // NIP\n  if (tin.length === 10) {\n    // Calculate last digit by multiplying with lookup\n    var lookup = [6, 5, 7, 2, 3, 4, 5, 6, 7];\n    var _checksum = 0;\n\n    for (var i = 0; i < lookup.length; i++) {\n      _checksum += parseInt(tin[i], 10) * lookup[i];\n    }\n\n    _checksum %= 11;\n\n    if (_checksum === 10) {\n      return false;\n    }\n\n    return _checksum === parseInt(tin[9], 10);\n  } // PESEL\n  // Extract full year using month\n\n\n  var full_year = tin.slice(0, 2);\n  var month = parseInt(tin.slice(2, 4), 10);\n\n  if (month > 80) {\n    full_year = \"18\".concat(full_year);\n    month -= 80;\n  } else if (month > 60) {\n    full_year = \"22\".concat(full_year);\n    month -= 60;\n  } else if (month > 40) {\n    full_year = \"21\".concat(full_year);\n    month -= 40;\n  } else if (month > 20) {\n    full_year = \"20\".concat(full_year);\n    month -= 20;\n  } else {\n    full_year = \"19\".concat(full_year);\n  } // Add leading zero to month if needed\n\n\n  if (month < 10) {\n    month = \"0\".concat(month);\n  } // Check date validity\n\n\n  var date = \"\".concat(full_year, \"/\").concat(month, \"/\").concat(tin.slice(4, 6));\n\n  if (!(0, _isDate.default)(date, 'YYYY/MM/DD')) {\n    return false;\n  } // Calculate last digit by mulitplying with odd one-digit numbers except 5\n\n\n  var checksum = 0;\n  var multiplier = 1;\n\n  for (var _i7 = 0; _i7 < tin.length - 1; _i7++) {\n    checksum += parseInt(tin[_i7], 10) * multiplier % 10;\n    multiplier += 2;\n\n    if (multiplier > 10) {\n      multiplier = 1;\n    } else if (multiplier === 5) {\n      multiplier += 2;\n    }\n  }\n\n  checksum = 10 - checksum % 10;\n  return checksum === parseInt(tin[10], 10);\n}\n/*\n* pt-BR validation function\n* (Cadastro de Pessoas Físicas (CPF, persons)\n* Cadastro Nacional de Pessoas Jurídicas (CNPJ, entities)\n* Both inputs will be validated\n*/\n\n\nfunction ptBrCheck(tin) {\n  if (tin.length === 11) {\n    var _sum;\n\n    var remainder;\n    _sum = 0;\n    if ( // Reject known invalid CPFs\n    tin === '11111111111' || tin === '22222222222' || tin === '33333333333' || tin === '44444444444' || tin === '55555555555' || tin === '66666666666' || tin === '77777777777' || tin === '88888888888' || tin === '99999999999' || tin === '00000000000') return false;\n\n    for (var i = 1; i <= 9; i++) {\n      _sum += parseInt(tin.substring(i - 1, i), 10) * (11 - i);\n    }\n\n    remainder = _sum * 10 % 11;\n    if (remainder === 10) remainder = 0;\n    if (remainder !== parseInt(tin.substring(9, 10), 10)) return false;\n    _sum = 0;\n\n    for (var _i8 = 1; _i8 <= 10; _i8++) {\n      _sum += parseInt(tin.substring(_i8 - 1, _i8), 10) * (12 - _i8);\n    }\n\n    remainder = _sum * 10 % 11;\n    if (remainder === 10) remainder = 0;\n    if (remainder !== parseInt(tin.substring(10, 11), 10)) return false;\n    return true;\n  }\n\n  if ( // Reject know invalid CNPJs\n  tin === '00000000000000' || tin === '11111111111111' || tin === '22222222222222' || tin === '33333333333333' || tin === '44444444444444' || tin === '55555555555555' || tin === '66666666666666' || tin === '77777777777777' || tin === '88888888888888' || tin === '99999999999999') {\n    return false;\n  }\n\n  var length = tin.length - 2;\n  var identifiers = tin.substring(0, length);\n  var verificators = tin.substring(length);\n  var sum = 0;\n  var pos = length - 7;\n\n  for (var _i9 = length; _i9 >= 1; _i9--) {\n    sum += identifiers.charAt(length - _i9) * pos;\n    pos -= 1;\n\n    if (pos < 2) {\n      pos = 9;\n    }\n  }\n\n  var result = sum % 11 < 2 ? 0 : 11 - sum % 11;\n\n  if (result !== parseInt(verificators.charAt(0), 10)) {\n    return false;\n  }\n\n  length += 1;\n  identifiers = tin.substring(0, length);\n  sum = 0;\n  pos = length - 7;\n\n  for (var _i10 = length; _i10 >= 1; _i10--) {\n    sum += identifiers.charAt(length - _i10) * pos;\n    pos -= 1;\n\n    if (pos < 2) {\n      pos = 9;\n    }\n  }\n\n  result = sum % 11 < 2 ? 0 : 11 - sum % 11;\n\n  if (result !== parseInt(verificators.charAt(1), 10)) {\n    return false;\n  }\n\n  return true;\n}\n/*\n * pt-PT validation function\n * (Número de identificação fiscal (NIF), persons/entities)\n * Verify TIN validity by calculating check (last) digit (variant of MOD 11)\n */\n\n\nfunction ptPtCheck(tin) {\n  var checksum = 11 - algorithms.reverseMultiplyAndSum(tin.split('').slice(0, 8).map(function (a) {\n    return parseInt(a, 10);\n  }), 9) % 11;\n\n  if (checksum > 9) {\n    return parseInt(tin[8], 10) === 0;\n  }\n\n  return checksum === parseInt(tin[8], 10);\n}\n/*\n * ro-RO validation function\n * (Cod Numeric Personal (CNP) or Cod de înregistrare fiscală (CIF),\n * persons only)\n * Verify CNP validity by calculating check (last) digit (test not found for CIF)\n * Material not in DG TAXUD document sourced from:\n * `https://en.wikipedia.org/wiki/National_identification_number#Romania`\n */\n\n\nfunction roRoCheck(tin) {\n  if (tin.slice(0, 4) !== '9000') {\n    // No test found for this format\n    // Extract full year using century digit if possible\n    var full_year = tin.slice(1, 3);\n\n    switch (tin[0]) {\n      case '1':\n      case '2':\n        full_year = \"19\".concat(full_year);\n        break;\n\n      case '3':\n      case '4':\n        full_year = \"18\".concat(full_year);\n        break;\n\n      case '5':\n      case '6':\n        full_year = \"20\".concat(full_year);\n        break;\n\n      default:\n    } // Check date validity\n\n\n    var date = \"\".concat(full_year, \"/\").concat(tin.slice(3, 5), \"/\").concat(tin.slice(5, 7));\n\n    if (date.length === 8) {\n      if (!(0, _isDate.default)(date, 'YY/MM/DD')) {\n        return false;\n      }\n    } else if (!(0, _isDate.default)(date, 'YYYY/MM/DD')) {\n      return false;\n    } // Calculate check digit\n\n\n    var digits = tin.split('').map(function (a) {\n      return parseInt(a, 10);\n    });\n    var multipliers = [2, 7, 9, 1, 4, 6, 3, 5, 8, 2, 7, 9];\n    var checksum = 0;\n\n    for (var i = 0; i < multipliers.length; i++) {\n      checksum += digits[i] * multipliers[i];\n    }\n\n    if (checksum % 11 === 10) {\n      return digits[12] === 1;\n    }\n\n    return digits[12] === checksum % 11;\n  }\n\n  return true;\n}\n/*\n * sk-SK validation function\n * (Rodné číslo (RČ) or bezvýznamové identifikačné číslo (BIČ), persons only)\n * Checks validity of pre-1954 birth numbers (rodné číslo) only\n * Due to the introduction of the pseudo-random BIČ it is not possible to test\n * post-1954 birth numbers without knowing whether they are BIČ or RČ beforehand\n */\n\n\nfunction skSkCheck(tin) {\n  if (tin.length === 9) {\n    tin = tin.replace(/\\W/, '');\n\n    if (tin.slice(6) === '000') {\n      return false;\n    } // Three-zero serial not assigned before 1954\n    // Extract full year from TIN length\n\n\n    var full_year = parseInt(tin.slice(0, 2), 10);\n\n    if (full_year > 53) {\n      return false;\n    }\n\n    if (full_year < 10) {\n      full_year = \"190\".concat(full_year);\n    } else {\n      full_year = \"19\".concat(full_year);\n    } // Extract month from TIN and normalize\n\n\n    var month = parseInt(tin.slice(2, 4), 10);\n\n    if (month > 50) {\n      month -= 50;\n    }\n\n    if (month < 10) {\n      month = \"0\".concat(month);\n    } // Check date validity\n\n\n    var date = \"\".concat(full_year, \"/\").concat(month, \"/\").concat(tin.slice(4, 6));\n\n    if (!(0, _isDate.default)(date, 'YYYY/MM/DD')) {\n      return false;\n    }\n  }\n\n  return true;\n}\n/*\n * sl-SI validation function\n * (Davčna številka, persons/entities)\n * Verify TIN validity by calculating check (last) digit (variant of MOD 11)\n */\n\n\nfunction slSiCheck(tin) {\n  var checksum = 11 - algorithms.reverseMultiplyAndSum(tin.split('').slice(0, 7).map(function (a) {\n    return parseInt(a, 10);\n  }), 8) % 11;\n\n  if (checksum === 10) {\n    return parseInt(tin[7], 10) === 0;\n  }\n\n  return checksum === parseInt(tin[7], 10);\n}\n/*\n * sv-SE validation function\n * (Personnummer or samordningsnummer, persons only)\n * Checks validity of birth date and calls luhnCheck() to validate check (last) digit\n */\n\n\nfunction svSeCheck(tin) {\n  // Make copy of TIN and normalize to two-digit year form\n  var tin_copy = tin.slice(0);\n\n  if (tin.length > 11) {\n    tin_copy = tin_copy.slice(2);\n  } // Extract date of birth\n\n\n  var full_year = '';\n  var month = tin_copy.slice(2, 4);\n  var day = parseInt(tin_copy.slice(4, 6), 10);\n\n  if (tin.length > 11) {\n    full_year = tin.slice(0, 4);\n  } else {\n    full_year = tin.slice(0, 2);\n\n    if (tin.length === 11 && day < 60) {\n      // Extract full year from centenarian symbol\n      // Should work just fine until year 10000 or so\n      var current_year = new Date().getFullYear().toString();\n      var current_century = parseInt(current_year.slice(0, 2), 10);\n      current_year = parseInt(current_year, 10);\n\n      if (tin[6] === '-') {\n        if (parseInt(\"\".concat(current_century).concat(full_year), 10) > current_year) {\n          full_year = \"\".concat(current_century - 1).concat(full_year);\n        } else {\n          full_year = \"\".concat(current_century).concat(full_year);\n        }\n      } else {\n        full_year = \"\".concat(current_century - 1).concat(full_year);\n\n        if (current_year - parseInt(full_year, 10) < 100) {\n          return false;\n        }\n      }\n    }\n  } // Normalize day and check date validity\n\n\n  if (day > 60) {\n    day -= 60;\n  }\n\n  if (day < 10) {\n    day = \"0\".concat(day);\n  }\n\n  var date = \"\".concat(full_year, \"/\").concat(month, \"/\").concat(day);\n\n  if (date.length === 8) {\n    if (!(0, _isDate.default)(date, 'YY/MM/DD')) {\n      return false;\n    }\n  } else if (!(0, _isDate.default)(date, 'YYYY/MM/DD')) {\n    return false;\n  }\n\n  return algorithms.luhnCheck(tin.replace(/\\W/, ''));\n} // Locale lookup objects\n\n/*\n * Tax id regex formats for various locales\n *\n * Where not explicitly specified in DG-TAXUD document both\n * uppercase and lowercase letters are acceptable.\n */\n\n\nvar taxIdFormat = {\n  'bg-BG': /^\\d{10}$/,\n  'cs-CZ': /^\\d{6}\\/{0,1}\\d{3,4}$/,\n  'de-AT': /^\\d{9}$/,\n  'de-DE': /^[1-9]\\d{10}$/,\n  'dk-DK': /^\\d{6}-{0,1}\\d{4}$/,\n  'el-CY': /^[09]\\d{7}[A-Z]$/,\n  'el-GR': /^([0-4]|[7-9])\\d{8}$/,\n  'en-CA': /^\\d{9}$/,\n  'en-GB': /^\\d{10}$|^(?!GB|NK|TN|ZZ)(?![DFIQUV])[A-Z](?![DFIQUVO])[A-Z]\\d{6}[ABCD ]$/i,\n  'en-IE': /^\\d{7}[A-W][A-IW]{0,1}$/i,\n  'en-US': /^\\d{2}[- ]{0,1}\\d{7}$/,\n  'es-ES': /^(\\d{0,8}|[XYZKLM]\\d{7})[A-HJ-NP-TV-Z]$/i,\n  'et-EE': /^[1-6]\\d{6}(00[1-9]|0[1-9][0-9]|[1-6][0-9]{2}|70[0-9]|710)\\d$/,\n  'fi-FI': /^\\d{6}[-+A]\\d{3}[0-9A-FHJ-NPR-Y]$/i,\n  'fr-BE': /^\\d{11}$/,\n  'fr-FR': /^[0-3]\\d{12}$|^[0-3]\\d\\s\\d{2}(\\s\\d{3}){3}$/,\n  // Conforms both to official spec and provided example\n  'fr-LU': /^\\d{13}$/,\n  'hr-HR': /^\\d{11}$/,\n  'hu-HU': /^8\\d{9}$/,\n  'it-IT': /^[A-Z]{6}[L-NP-V0-9]{2}[A-EHLMPRST][L-NP-V0-9]{2}[A-ILMZ][L-NP-V0-9]{3}[A-Z]$/i,\n  'lv-LV': /^\\d{6}-{0,1}\\d{5}$/,\n  // Conforms both to DG TAXUD spec and original research\n  'mt-MT': /^\\d{3,7}[APMGLHBZ]$|^([1-8])\\1\\d{7}$/i,\n  'nl-NL': /^\\d{9}$/,\n  'pl-PL': /^\\d{10,11}$/,\n  'pt-BR': /(?:^\\d{11}$)|(?:^\\d{14}$)/,\n  'pt-PT': /^\\d{9}$/,\n  'ro-RO': /^\\d{13}$/,\n  'sk-SK': /^\\d{6}\\/{0,1}\\d{3,4}$/,\n  'sl-SI': /^[1-9]\\d{7}$/,\n  'sv-SE': /^(\\d{6}[-+]{0,1}\\d{4}|(18|19|20)\\d{6}[-+]{0,1}\\d{4})$/\n}; // taxIdFormat locale aliases\n\ntaxIdFormat['lb-LU'] = taxIdFormat['fr-LU'];\ntaxIdFormat['lt-LT'] = taxIdFormat['et-EE'];\ntaxIdFormat['nl-BE'] = taxIdFormat['fr-BE'];\ntaxIdFormat['fr-CA'] = taxIdFormat['en-CA']; // Algorithmic tax id check functions for various locales\n\nvar taxIdCheck = {\n  'bg-BG': bgBgCheck,\n  'cs-CZ': csCzCheck,\n  'de-AT': deAtCheck,\n  'de-DE': deDeCheck,\n  'dk-DK': dkDkCheck,\n  'el-CY': elCyCheck,\n  'el-GR': elGrCheck,\n  'en-CA': isCanadianSIN,\n  'en-IE': enIeCheck,\n  'en-US': enUsCheck,\n  'es-ES': esEsCheck,\n  'et-EE': etEeCheck,\n  'fi-FI': fiFiCheck,\n  'fr-BE': frBeCheck,\n  'fr-FR': frFrCheck,\n  'fr-LU': frLuCheck,\n  'hr-HR': hrHrCheck,\n  'hu-HU': huHuCheck,\n  'it-IT': itItCheck,\n  'lv-LV': lvLvCheck,\n  'mt-MT': mtMtCheck,\n  'nl-NL': nlNlCheck,\n  'pl-PL': plPlCheck,\n  'pt-BR': ptBrCheck,\n  'pt-PT': ptPtCheck,\n  'ro-RO': roRoCheck,\n  'sk-SK': skSkCheck,\n  'sl-SI': slSiCheck,\n  'sv-SE': svSeCheck\n}; // taxIdCheck locale aliases\n\ntaxIdCheck['lb-LU'] = taxIdCheck['fr-LU'];\ntaxIdCheck['lt-LT'] = taxIdCheck['et-EE'];\ntaxIdCheck['nl-BE'] = taxIdCheck['fr-BE'];\ntaxIdCheck['fr-CA'] = taxIdCheck['en-CA']; // Regexes for locales where characters should be omitted before checking format\n\nvar allsymbols = /[-\\\\\\/!@#$%\\^&\\*\\(\\)\\+\\=\\[\\]]+/g;\nvar sanitizeRegexes = {\n  'de-AT': allsymbols,\n  'de-DE': /[\\/\\\\]/g,\n  'fr-BE': allsymbols\n}; // sanitizeRegexes locale aliases\n\nsanitizeRegexes['nl-BE'] = sanitizeRegexes['fr-BE'];\n/*\n * Validator function\n * Return true if the passed string is a valid tax identification number\n * for the specified locale.\n * Throw an error exception if the locale is not supported.\n */\n\nfunction isTaxID(str) {\n  var locale = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : 'en-US';\n  (0, _assertString.default)(str); // Copy TIN to avoid replacement if sanitized\n\n  var strcopy = str.slice(0);\n\n  if (locale in taxIdFormat) {\n    if (locale in sanitizeRegexes) {\n      strcopy = strcopy.replace(sanitizeRegexes[locale], '');\n    }\n\n    if (!taxIdFormat[locale].test(strcopy)) {\n      return false;\n    }\n\n    if (locale in taxIdCheck) {\n      return taxIdCheck[locale](strcopy);\n    } // Fallthrough; not all locales have algorithmic checks\n\n\n    return true;\n  }\n\n  throw new Error(\"Invalid locale '\".concat(locale, \"'\"));\n}\n\nmodule.exports = exports.default;\nmodule.exports.default = exports.default;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = isTime;\n\nvar _merge = _interopRequireDefault(require(\"./util/merge\"));\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\nvar default_time_options = {\n  hourFormat: 'hour24',\n  mode: 'default'\n};\nvar formats = {\n  hour24: {\n    default: /^([01]?[0-9]|2[0-3]):([0-5][0-9])$/,\n    withSeconds: /^([01]?[0-9]|2[0-3]):([0-5][0-9]):([0-5][0-9])$/\n  },\n  hour12: {\n    default: /^(0?[1-9]|1[0-2]):([0-5][0-9]) (A|P)M$/,\n    withSeconds: /^(0?[1-9]|1[0-2]):([0-5][0-9]):([0-5][0-9]) (A|P)M$/\n  }\n};\n\nfunction isTime(input, options) {\n  options = (0, _merge.default)(options, default_time_options);\n  if (typeof input !== 'string') return false;\n  return formats[options.hourFormat][options.mode].test(input);\n}\n\nmodule.exports = exports.default;\nmodule.exports.default = exports.default;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = isURL;\n\nvar _assertString = _interopRequireDefault(require(\"./util/assertString\"));\n\nvar _isFQDN = _interopRequireDefault(require(\"./isFQDN\"));\n\nvar _isIP = _interopRequireDefault(require(\"./isIP\"));\n\nvar _merge = _interopRequireDefault(require(\"./util/merge\"));\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\nfunction _slicedToArray(arr, i) { return _arrayWithHoles(arr) || _iterableToArrayLimit(arr, i) || _unsupportedIterableToArray(arr, i) || _nonIterableRest(); }\n\nfunction _nonIterableRest() { throw new TypeError(\"Invalid attempt to destructure non-iterable instance.\\nIn order to be iterable, non-array objects must have a [Symbol.iterator]() method.\"); }\n\nfunction _unsupportedIterableToArray(o, minLen) { if (!o) return; if (typeof o === \"string\") return _arrayLikeToArray(o, minLen); var n = Object.prototype.toString.call(o).slice(8, -1); if (n === \"Object\" && o.constructor) n = o.constructor.name; if (n === \"Map\" || n === \"Set\") return Array.from(o); if (n === \"Arguments\" || /^(?:Ui|I)nt(?:8|16|32)(?:Clamped)?Array$/.test(n)) return _arrayLikeToArray(o, minLen); }\n\nfunction _arrayLikeToArray(arr, len) { if (len == null || len > arr.length) len = arr.length; for (var i = 0, arr2 = new Array(len); i < len; i++) { arr2[i] = arr[i]; } return arr2; }\n\nfunction _iterableToArrayLimit(arr, i) { if (typeof Symbol === \"undefined\" || !(Symbol.iterator in Object(arr))) return; var _arr = []; var _n = true; var _d = false; var _e = undefined; try { for (var _i = arr[Symbol.iterator](), _s; !(_n = (_s = _i.next()).done); _n = true) { _arr.push(_s.value); if (i && _arr.length === i) break; } } catch (err) { _d = true; _e = err; } finally { try { if (!_n && _i[\"return\"] != null) _i[\"return\"](); } finally { if (_d) throw _e; } } return _arr; }\n\nfunction _arrayWithHoles(arr) { if (Array.isArray(arr)) return arr; }\n\n/*\noptions for isURL method\n\nrequire_protocol - if set as true isURL will return false if protocol is not present in the URL\nrequire_valid_protocol - isURL will check if the URL's protocol is present in the protocols option\nprotocols - valid protocols can be modified with this option\nrequire_host - if set as false isURL will not check if host is present in the URL\nrequire_port - if set as true isURL will check if port is present in the URL\nallow_protocol_relative_urls - if set as true protocol relative URLs will be allowed\nvalidate_length - if set as false isURL will skip string length validation (IE maximum is 2083)\n\n*/\nvar default_url_options = {\n  protocols: ['http', 'https', 'ftp'],\n  require_tld: true,\n  require_protocol: false,\n  require_host: true,\n  require_port: false,\n  require_valid_protocol: true,\n  allow_underscores: false,\n  allow_trailing_dot: false,\n  allow_protocol_relative_urls: false,\n  allow_fragments: true,\n  allow_query_components: true,\n  validate_length: true\n};\nvar wrapped_ipv6 = /^\\[([^\\]]+)\\](?::([0-9]+))?$/;\n\nfunction isRegExp(obj) {\n  return Object.prototype.toString.call(obj) === '[object RegExp]';\n}\n\nfunction checkHost(host, matches) {\n  for (var i = 0; i < matches.length; i++) {\n    var match = matches[i];\n\n    if (host === match || isRegExp(match) && match.test(host)) {\n      return true;\n    }\n  }\n\n  return false;\n}\n\nfunction isURL(url, options) {\n  (0, _assertString.default)(url);\n\n  if (!url || /[\\s<>]/.test(url)) {\n    return false;\n  }\n\n  if (url.indexOf('mailto:') === 0) {\n    return false;\n  }\n\n  options = (0, _merge.default)(options, default_url_options);\n\n  if (options.validate_length && url.length >= 2083) {\n    return false;\n  }\n\n  if (!options.allow_fragments && url.includes('#')) {\n    return false;\n  }\n\n  if (!options.allow_query_components && (url.includes('?') || url.includes('&'))) {\n    return false;\n  }\n\n  var protocol, auth, host, hostname, port, port_str, split, ipv6;\n  split = url.split('#');\n  url = split.shift();\n  split = url.split('?');\n  url = split.shift();\n  split = url.split('://');\n\n  if (split.length > 1) {\n    protocol = split.shift().toLowerCase();\n\n    if (options.require_valid_protocol && options.protocols.indexOf(protocol) === -1) {\n      return false;\n    }\n  } else if (options.require_protocol) {\n    return false;\n  } else if (url.slice(0, 2) === '//') {\n    if (!options.allow_protocol_relative_urls) {\n      return false;\n    }\n\n    split[0] = url.slice(2);\n  }\n\n  url = split.join('://');\n\n  if (url === '') {\n    return false;\n  }\n\n  split = url.split('/');\n  url = split.shift();\n\n  if (url === '' && !options.require_host) {\n    return true;\n  }\n\n  split = url.split('@');\n\n  if (split.length > 1) {\n    if (options.disallow_auth) {\n      return false;\n    }\n\n    if (split[0] === '') {\n      return false;\n    }\n\n    auth = split.shift();\n\n    if (auth.indexOf(':') >= 0 && auth.split(':').length > 2) {\n      return false;\n    }\n\n    var _auth$split = auth.split(':'),\n        _auth$split2 = _slicedToArray(_auth$split, 2),\n        user = _auth$split2[0],\n        password = _auth$split2[1];\n\n    if (user === '' && password === '') {\n      return false;\n    }\n  }\n\n  hostname = split.join('@');\n  port_str = null;\n  ipv6 = null;\n  var ipv6_match = hostname.match(wrapped_ipv6);\n\n  if (ipv6_match) {\n    host = '';\n    ipv6 = ipv6_match[1];\n    port_str = ipv6_match[2] || null;\n  } else {\n    split = hostname.split(':');\n    host = split.shift();\n\n    if (split.length) {\n      port_str = split.join(':');\n    }\n  }\n\n  if (port_str !== null && port_str.length > 0) {\n    port = parseInt(port_str, 10);\n\n    if (!/^[0-9]+$/.test(port_str) || port <= 0 || port > 65535) {\n      return false;\n    }\n  } else if (options.require_port) {\n    return false;\n  }\n\n  if (options.host_whitelist) {\n    return checkHost(host, options.host_whitelist);\n  }\n\n  if (host === '' && !options.require_host) {\n    return true;\n  }\n\n  if (!(0, _isIP.default)(host) && !(0, _isFQDN.default)(host, options) && (!ipv6 || !(0, _isIP.default)(ipv6, 6))) {\n    return false;\n  }\n\n  host = host || ipv6;\n\n  if (options.host_blacklist && checkHost(host, options.host_blacklist)) {\n    return false;\n  }\n\n  return true;\n}\n\nmodule.exports = exports.default;\nmodule.exports.default = exports.default;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = isUUID;\n\nvar _assertString = _interopRequireDefault(require(\"./util/assertString\"));\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\nvar uuid = {\n  1: /^[0-9A-F]{8}-[0-9A-F]{4}-1[0-9A-F]{3}-[0-9A-F]{4}-[0-9A-F]{12}$/i,\n  2: /^[0-9A-F]{8}-[0-9A-F]{4}-2[0-9A-F]{3}-[0-9A-F]{4}-[0-9A-F]{12}$/i,\n  3: /^[0-9A-F]{8}-[0-9A-F]{4}-3[0-9A-F]{3}-[0-9A-F]{4}-[0-9A-F]{12}$/i,\n  4: /^[0-9A-F]{8}-[0-9A-F]{4}-4[0-9A-F]{3}-[89AB][0-9A-F]{3}-[0-9A-F]{12}$/i,\n  5: /^[0-9A-F]{8}-[0-9A-F]{4}-5[0-9A-F]{3}-[89AB][0-9A-F]{3}-[0-9A-F]{12}$/i,\n  all: /^[0-9A-F]{8}-[0-9A-F]{4}-[0-9A-F]{4}-[0-9A-F]{4}-[0-9A-F]{12}$/i\n};\n\nfunction isUUID(str, version) {\n  (0, _assertString.default)(str);\n  var pattern = uuid[![undefined, null].includes(version) ? version : 'all'];\n  return !!pattern && pattern.test(str);\n}\n\nmodule.exports = exports.default;\nmodule.exports.default = exports.default;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = isUppercase;\n\nvar _assertString = _interopRequireDefault(require(\"./util/assertString\"));\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\nfunction isUppercase(str) {\n  (0, _assertString.default)(str);\n  return str === str.toUpperCase();\n}\n\nmodule.exports = exports.default;\nmodule.exports.default = exports.default;","\"use strict\";\n\nfunction _typeof(obj) { \"@babel/helpers - typeof\"; if (typeof Symbol === \"function\" && typeof Symbol.iterator === \"symbol\") { _typeof = function _typeof(obj) { return typeof obj; }; } else { _typeof = function _typeof(obj) { return obj && typeof Symbol === \"function\" && obj.constructor === Symbol && obj !== Symbol.prototype ? \"symbol\" : typeof obj; }; } return _typeof(obj); }\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = isVAT;\nexports.vatMatchers = void 0;\n\nvar _assertString = _interopRequireDefault(require(\"./util/assertString\"));\n\nvar algorithms = _interopRequireWildcard(require(\"./util/algorithms\"));\n\nfunction _getRequireWildcardCache() { if (typeof WeakMap !== \"function\") return null; var cache = new WeakMap(); _getRequireWildcardCache = function _getRequireWildcardCache() { return cache; }; return cache; }\n\nfunction _interopRequireWildcard(obj) { if (obj && obj.__esModule) { return obj; } if (obj === null || _typeof(obj) !== \"object\" && typeof obj !== \"function\") { return { default: obj }; } var cache = _getRequireWildcardCache(); if (cache && cache.has(obj)) { return cache.get(obj); } var newObj = {}; var hasPropertyDescriptor = Object.defineProperty && Object.getOwnPropertyDescriptor; for (var key in obj) { if (Object.prototype.hasOwnProperty.call(obj, key)) { var desc = hasPropertyDescriptor ? Object.getOwnPropertyDescriptor(obj, key) : null; if (desc && (desc.get || desc.set)) { Object.defineProperty(newObj, key, desc); } else { newObj[key] = obj[key]; } } } newObj.default = obj; if (cache) { cache.set(obj, newObj); } return newObj; }\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\nvar PT = function PT(str) {\n  var match = str.match(/^(PT)?(\\d{9})$/);\n\n  if (!match) {\n    return false;\n  }\n\n  var tin = match[2];\n  var checksum = 11 - algorithms.reverseMultiplyAndSum(tin.split('').slice(0, 8).map(function (a) {\n    return parseInt(a, 10);\n  }), 9) % 11;\n\n  if (checksum > 9) {\n    return parseInt(tin[8], 10) === 0;\n  }\n\n  return checksum === parseInt(tin[8], 10);\n};\n\nvar vatMatchers = {\n  /**\r\n   * European Union VAT identification numbers\r\n   */\n  AT: function AT(str) {\n    return /^(AT)?U\\d{8}$/.test(str);\n  },\n  BE: function BE(str) {\n    return /^(BE)?\\d{10}$/.test(str);\n  },\n  BG: function BG(str) {\n    return /^(BG)?\\d{9,10}$/.test(str);\n  },\n  HR: function HR(str) {\n    return /^(HR)?\\d{11}$/.test(str);\n  },\n  CY: function CY(str) {\n    return /^(CY)?\\w{9}$/.test(str);\n  },\n  CZ: function CZ(str) {\n    return /^(CZ)?\\d{8,10}$/.test(str);\n  },\n  DK: function DK(str) {\n    return /^(DK)?\\d{8}$/.test(str);\n  },\n  EE: function EE(str) {\n    return /^(EE)?\\d{9}$/.test(str);\n  },\n  FI: function FI(str) {\n    return /^(FI)?\\d{8}$/.test(str);\n  },\n  FR: function FR(str) {\n    return /^(FR)?\\w{2}\\d{9}$/.test(str);\n  },\n  DE: function DE(str) {\n    return /^(DE)?\\d{9}$/.test(str);\n  },\n  EL: function EL(str) {\n    return /^(EL)?\\d{9}$/.test(str);\n  },\n  HU: function HU(str) {\n    return /^(HU)?\\d{8}$/.test(str);\n  },\n  IE: function IE(str) {\n    return /^(IE)?\\d{7}\\w{1}(W)?$/.test(str);\n  },\n  IT: function IT(str) {\n    return /^(IT)?\\d{11}$/.test(str);\n  },\n  LV: function LV(str) {\n    return /^(LV)?\\d{11}$/.test(str);\n  },\n  LT: function LT(str) {\n    return /^(LT)?\\d{9,12}$/.test(str);\n  },\n  LU: function LU(str) {\n    return /^(LU)?\\d{8}$/.test(str);\n  },\n  MT: function MT(str) {\n    return /^(MT)?\\d{8}$/.test(str);\n  },\n  NL: function NL(str) {\n    return /^(NL)?\\d{9}B\\d{2}$/.test(str);\n  },\n  PL: function PL(str) {\n    return /^(PL)?(\\d{10}|(\\d{3}-\\d{3}-\\d{2}-\\d{2})|(\\d{3}-\\d{2}-\\d{2}-\\d{3}))$/.test(str);\n  },\n  PT: PT,\n  RO: function RO(str) {\n    return /^(RO)?\\d{2,10}$/.test(str);\n  },\n  SK: function SK(str) {\n    return /^(SK)?\\d{10}$/.test(str);\n  },\n  SI: function SI(str) {\n    return /^(SI)?\\d{8}$/.test(str);\n  },\n  ES: function ES(str) {\n    return /^(ES)?\\w\\d{7}[A-Z]$/.test(str);\n  },\n  SE: function SE(str) {\n    return /^(SE)?\\d{12}$/.test(str);\n  },\n\n  /**\r\n   * VAT numbers of non-EU countries\r\n   */\n  AL: function AL(str) {\n    return /^(AL)?\\w{9}[A-Z]$/.test(str);\n  },\n  MK: function MK(str) {\n    return /^(MK)?\\d{13}$/.test(str);\n  },\n  AU: function AU(str) {\n    return /^(AU)?\\d{11}$/.test(str);\n  },\n  BY: function BY(str) {\n    return /^(УНП )?\\d{9}$/.test(str);\n  },\n  CA: function CA(str) {\n    return /^(CA)?\\d{9}$/.test(str);\n  },\n  IS: function IS(str) {\n    return /^(IS)?\\d{5,6}$/.test(str);\n  },\n  IN: function IN(str) {\n    return /^(IN)?\\d{15}$/.test(str);\n  },\n  ID: function ID(str) {\n    return /^(ID)?(\\d{15}|(\\d{2}.\\d{3}.\\d{3}.\\d{1}-\\d{3}.\\d{3}))$/.test(str);\n  },\n  IL: function IL(str) {\n    return /^(IL)?\\d{9}$/.test(str);\n  },\n  KZ: function KZ(str) {\n    return /^(KZ)?\\d{9}$/.test(str);\n  },\n  NZ: function NZ(str) {\n    return /^(NZ)?\\d{9}$/.test(str);\n  },\n  NG: function NG(str) {\n    return /^(NG)?(\\d{12}|(\\d{8}-\\d{4}))$/.test(str);\n  },\n  NO: function NO(str) {\n    return /^(NO)?\\d{9}MVA$/.test(str);\n  },\n  PH: function PH(str) {\n    return /^(PH)?(\\d{12}|\\d{3} \\d{3} \\d{3} \\d{3})$/.test(str);\n  },\n  RU: function RU(str) {\n    return /^(RU)?(\\d{10}|\\d{12})$/.test(str);\n  },\n  SM: function SM(str) {\n    return /^(SM)?\\d{5}$/.test(str);\n  },\n  SA: function SA(str) {\n    return /^(SA)?\\d{15}$/.test(str);\n  },\n  RS: function RS(str) {\n    return /^(RS)?\\d{9}$/.test(str);\n  },\n  CH: function CH(str) {\n    return /^(CH)?(\\d{6}|\\d{9}|(\\d{3}.\\d{3})|(\\d{3}.\\d{3}.\\d{3}))(TVA|MWST|IVA)$/.test(str);\n  },\n  TR: function TR(str) {\n    return /^(TR)?\\d{10}$/.test(str);\n  },\n  UA: function UA(str) {\n    return /^(UA)?\\d{12}$/.test(str);\n  },\n  GB: function GB(str) {\n    return /^GB((\\d{3} \\d{4} ([0-8][0-9]|9[0-6]))|(\\d{9} \\d{3})|(((GD[0-4])|(HA[5-9]))[0-9]{2}))$/.test(str);\n  },\n  UZ: function UZ(str) {\n    return /^(UZ)?\\d{9}$/.test(str);\n  },\n\n  /**\r\n   * VAT numbers of Latin American countries\r\n   */\n  AR: function AR(str) {\n    return /^(AR)?\\d{11}$/.test(str);\n  },\n  BO: function BO(str) {\n    return /^(BO)?\\d{7}$/.test(str);\n  },\n  BR: function BR(str) {\n    return /^(BR)?((\\d{2}.\\d{3}.\\d{3}\\/\\d{4}-\\d{2})|(\\d{3}.\\d{3}.\\d{3}-\\d{2}))$/.test(str);\n  },\n  CL: function CL(str) {\n    return /^(CL)?\\d{8}-\\d{1}$/.test(str);\n  },\n  CO: function CO(str) {\n    return /^(CO)?\\d{10}$/.test(str);\n  },\n  CR: function CR(str) {\n    return /^(CR)?\\d{9,12}$/.test(str);\n  },\n  EC: function EC(str) {\n    return /^(EC)?\\d{13}$/.test(str);\n  },\n  SV: function SV(str) {\n    return /^(SV)?\\d{4}-\\d{6}-\\d{3}-\\d{1}$/.test(str);\n  },\n  GT: function GT(str) {\n    return /^(GT)?\\d{7}-\\d{1}$/.test(str);\n  },\n  HN: function HN(str) {\n    return /^(HN)?$/.test(str);\n  },\n  MX: function MX(str) {\n    return /^(MX)?\\w{3,4}\\d{6}\\w{3}$/.test(str);\n  },\n  NI: function NI(str) {\n    return /^(NI)?\\d{3}-\\d{6}-\\d{4}\\w{1}$/.test(str);\n  },\n  PA: function PA(str) {\n    return /^(PA)?$/.test(str);\n  },\n  PY: function PY(str) {\n    return /^(PY)?\\d{6,8}-\\d{1}$/.test(str);\n  },\n  PE: function PE(str) {\n    return /^(PE)?\\d{11}$/.test(str);\n  },\n  DO: function DO(str) {\n    return /^(DO)?(\\d{11}|(\\d{3}-\\d{7}-\\d{1})|[1,4,5]{1}\\d{8}|([1,4,5]{1})-\\d{2}-\\d{5}-\\d{1})$/.test(str);\n  },\n  UY: function UY(str) {\n    return /^(UY)?\\d{12}$/.test(str);\n  },\n  VE: function VE(str) {\n    return /^(VE)?[J,G,V,E]{1}-(\\d{9}|(\\d{8}-\\d{1}))$/.test(str);\n  }\n};\nexports.vatMatchers = vatMatchers;\n\nfunction isVAT(str, countryCode) {\n  (0, _assertString.default)(str);\n  (0, _assertString.default)(countryCode);\n\n  if (countryCode in vatMatchers) {\n    return vatMatchers[countryCode](str);\n  }\n\n  throw new Error(\"Invalid country code: '\".concat(countryCode, \"'\"));\n}","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = isVariableWidth;\n\nvar _assertString = _interopRequireDefault(require(\"./util/assertString\"));\n\nvar _isFullWidth = require(\"./isFullWidth\");\n\nvar _isHalfWidth = require(\"./isHalfWidth\");\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\nfunction isVariableWidth(str) {\n  (0, _assertString.default)(str);\n  return _isFullWidth.fullWidth.test(str) && _isHalfWidth.halfWidth.test(str);\n}\n\nmodule.exports = exports.default;\nmodule.exports.default = exports.default;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = isWhitelisted;\n\nvar _assertString = _interopRequireDefault(require(\"./util/assertString\"));\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\nfunction isWhitelisted(str, chars) {\n  (0, _assertString.default)(str);\n\n  for (var i = str.length - 1; i >= 0; i--) {\n    if (chars.indexOf(str[i]) === -1) {\n      return false;\n    }\n  }\n\n  return true;\n}\n\nmodule.exports = exports.default;\nmodule.exports.default = exports.default;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = ltrim;\n\nvar _assertString = _interopRequireDefault(require(\"./util/assertString\"));\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\nfunction ltrim(str, chars) {\n  (0, _assertString.default)(str); // https://developer.mozilla.org/en-US/docs/Web/JavaScript/Guide/Regular_Expressions#Escaping\n\n  var pattern = chars ? new RegExp(\"^[\".concat(chars.replace(/[.*+?^${}()|[\\]\\\\]/g, '\\\\$&'), \"]+\"), 'g') : /^\\s+/g;\n  return str.replace(pattern, '');\n}\n\nmodule.exports = exports.default;\nmodule.exports.default = exports.default;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = matches;\n\nvar _assertString = _interopRequireDefault(require(\"./util/assertString\"));\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\nfunction matches(str, pattern, modifiers) {\n  (0, _assertString.default)(str);\n\n  if (Object.prototype.toString.call(pattern) !== '[object RegExp]') {\n    pattern = new RegExp(pattern, modifiers);\n  }\n\n  return !!str.match(pattern);\n}\n\nmodule.exports = exports.default;\nmodule.exports.default = exports.default;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = normalizeEmail;\n\nvar _merge = _interopRequireDefault(require(\"./util/merge\"));\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\nvar default_normalize_email_options = {\n  // The following options apply to all email addresses\n  // Lowercases the local part of the email address.\n  // Please note this may violate RFC 5321 as per http://stackoverflow.com/a/9808332/192024).\n  // The domain is always lowercased, as per RFC 1035\n  all_lowercase: true,\n  // The following conversions are specific to GMail\n  // Lowercases the local part of the GMail address (known to be case-insensitive)\n  gmail_lowercase: true,\n  // Removes dots from the local part of the email address, as that's ignored by GMail\n  gmail_remove_dots: true,\n  // Removes the subaddress (e.g. \"+foo\") from the email address\n  gmail_remove_subaddress: true,\n  // Conversts the googlemail.com domain to gmail.com\n  gmail_convert_googlemaildotcom: true,\n  // The following conversions are specific to Outlook.com / Windows Live / Hotmail\n  // Lowercases the local part of the Outlook.com address (known to be case-insensitive)\n  outlookdotcom_lowercase: true,\n  // Removes the subaddress (e.g. \"+foo\") from the email address\n  outlookdotcom_remove_subaddress: true,\n  // The following conversions are specific to Yahoo\n  // Lowercases the local part of the Yahoo address (known to be case-insensitive)\n  yahoo_lowercase: true,\n  // Removes the subaddress (e.g. \"-foo\") from the email address\n  yahoo_remove_subaddress: true,\n  // The following conversions are specific to Yandex\n  // Lowercases the local part of the Yandex address (known to be case-insensitive)\n  yandex_lowercase: true,\n  // The following conversions are specific to iCloud\n  // Lowercases the local part of the iCloud address (known to be case-insensitive)\n  icloud_lowercase: true,\n  // Removes the subaddress (e.g. \"+foo\") from the email address\n  icloud_remove_subaddress: true\n}; // List of domains used by iCloud\n\nvar icloud_domains = ['icloud.com', 'me.com']; // List of domains used by Outlook.com and its predecessors\n// This list is likely incomplete.\n// Partial reference:\n// https://blogs.office.com/2013/04/17/outlook-com-gets-two-step-verification-sign-in-by-alias-and-new-international-domains/\n\nvar outlookdotcom_domains = ['hotmail.at', 'hotmail.be', 'hotmail.ca', 'hotmail.cl', 'hotmail.co.il', 'hotmail.co.nz', 'hotmail.co.th', 'hotmail.co.uk', 'hotmail.com', 'hotmail.com.ar', 'hotmail.com.au', 'hotmail.com.br', 'hotmail.com.gr', 'hotmail.com.mx', 'hotmail.com.pe', 'hotmail.com.tr', 'hotmail.com.vn', 'hotmail.cz', 'hotmail.de', 'hotmail.dk', 'hotmail.es', 'hotmail.fr', 'hotmail.hu', 'hotmail.id', 'hotmail.ie', 'hotmail.in', 'hotmail.it', 'hotmail.jp', 'hotmail.kr', 'hotmail.lv', 'hotmail.my', 'hotmail.ph', 'hotmail.pt', 'hotmail.sa', 'hotmail.sg', 'hotmail.sk', 'live.be', 'live.co.uk', 'live.com', 'live.com.ar', 'live.com.mx', 'live.de', 'live.es', 'live.eu', 'live.fr', 'live.it', 'live.nl', 'msn.com', 'outlook.at', 'outlook.be', 'outlook.cl', 'outlook.co.il', 'outlook.co.nz', 'outlook.co.th', 'outlook.com', 'outlook.com.ar', 'outlook.com.au', 'outlook.com.br', 'outlook.com.gr', 'outlook.com.pe', 'outlook.com.tr', 'outlook.com.vn', 'outlook.cz', 'outlook.de', 'outlook.dk', 'outlook.es', 'outlook.fr', 'outlook.hu', 'outlook.id', 'outlook.ie', 'outlook.in', 'outlook.it', 'outlook.jp', 'outlook.kr', 'outlook.lv', 'outlook.my', 'outlook.ph', 'outlook.pt', 'outlook.sa', 'outlook.sg', 'outlook.sk', 'passport.com']; // List of domains used by Yahoo Mail\n// This list is likely incomplete\n\nvar yahoo_domains = ['rocketmail.com', 'yahoo.ca', 'yahoo.co.uk', 'yahoo.com', 'yahoo.de', 'yahoo.fr', 'yahoo.in', 'yahoo.it', 'ymail.com']; // List of domains used by yandex.ru\n\nvar yandex_domains = ['yandex.ru', 'yandex.ua', 'yandex.kz', 'yandex.com', 'yandex.by', 'ya.ru']; // replace single dots, but not multiple consecutive dots\n\nfunction dotsReplacer(match) {\n  if (match.length > 1) {\n    return match;\n  }\n\n  return '';\n}\n\nfunction normalizeEmail(email, options) {\n  options = (0, _merge.default)(options, default_normalize_email_options);\n  var raw_parts = email.split('@');\n  var domain = raw_parts.pop();\n  var user = raw_parts.join('@');\n  var parts = [user, domain]; // The domain is always lowercased, as it's case-insensitive per RFC 1035\n\n  parts[1] = parts[1].toLowerCase();\n\n  if (parts[1] === 'gmail.com' || parts[1] === 'googlemail.com') {\n    // Address is GMail\n    if (options.gmail_remove_subaddress) {\n      parts[0] = parts[0].split('+')[0];\n    }\n\n    if (options.gmail_remove_dots) {\n      // this does not replace consecutive dots like example..email@gmail.com\n      parts[0] = parts[0].replace(/\\.+/g, dotsReplacer);\n    }\n\n    if (!parts[0].length) {\n      return false;\n    }\n\n    if (options.all_lowercase || options.gmail_lowercase) {\n      parts[0] = parts[0].toLowerCase();\n    }\n\n    parts[1] = options.gmail_convert_googlemaildotcom ? 'gmail.com' : parts[1];\n  } else if (icloud_domains.indexOf(parts[1]) >= 0) {\n    // Address is iCloud\n    if (options.icloud_remove_subaddress) {\n      parts[0] = parts[0].split('+')[0];\n    }\n\n    if (!parts[0].length) {\n      return false;\n    }\n\n    if (options.all_lowercase || options.icloud_lowercase) {\n      parts[0] = parts[0].toLowerCase();\n    }\n  } else if (outlookdotcom_domains.indexOf(parts[1]) >= 0) {\n    // Address is Outlook.com\n    if (options.outlookdotcom_remove_subaddress) {\n      parts[0] = parts[0].split('+')[0];\n    }\n\n    if (!parts[0].length) {\n      return false;\n    }\n\n    if (options.all_lowercase || options.outlookdotcom_lowercase) {\n      parts[0] = parts[0].toLowerCase();\n    }\n  } else if (yahoo_domains.indexOf(parts[1]) >= 0) {\n    // Address is Yahoo\n    if (options.yahoo_remove_subaddress) {\n      var components = parts[0].split('-');\n      parts[0] = components.length > 1 ? components.slice(0, -1).join('-') : components[0];\n    }\n\n    if (!parts[0].length) {\n      return false;\n    }\n\n    if (options.all_lowercase || options.yahoo_lowercase) {\n      parts[0] = parts[0].toLowerCase();\n    }\n  } else if (yandex_domains.indexOf(parts[1]) >= 0) {\n    if (options.all_lowercase || options.yandex_lowercase) {\n      parts[0] = parts[0].toLowerCase();\n    }\n\n    parts[1] = 'yandex.ru'; // all yandex domains are equal, 1st preferred\n  } else if (options.all_lowercase) {\n    // Any other address\n    parts[0] = parts[0].toLowerCase();\n  }\n\n  return parts.join('@');\n}\n\nmodule.exports = exports.default;\nmodule.exports.default = exports.default;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = rtrim;\n\nvar _assertString = _interopRequireDefault(require(\"./util/assertString\"));\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\nfunction rtrim(str, chars) {\n  (0, _assertString.default)(str);\n\n  if (chars) {\n    // https://developer.mozilla.org/en-US/docs/Web/JavaScript/Guide/Regular_Expressions#Escaping\n    var pattern = new RegExp(\"[\".concat(chars.replace(/[.*+?^${}()|[\\]\\\\]/g, '\\\\$&'), \"]+$\"), 'g');\n    return str.replace(pattern, '');\n  } // Use a faster and more safe than regex trim method https://blog.stevenlevithan.com/archives/faster-trim-javascript\n\n\n  var strIndex = str.length - 1;\n\n  while (/\\s/.test(str.charAt(strIndex))) {\n    strIndex -= 1;\n  }\n\n  return str.slice(0, strIndex + 1);\n}\n\nmodule.exports = exports.default;\nmodule.exports.default = exports.default;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = stripLow;\n\nvar _assertString = _interopRequireDefault(require(\"./util/assertString\"));\n\nvar _blacklist = _interopRequireDefault(require(\"./blacklist\"));\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\nfunction stripLow(str, keep_new_lines) {\n  (0, _assertString.default)(str);\n  var chars = keep_new_lines ? '\\\\x00-\\\\x09\\\\x0B\\\\x0C\\\\x0E-\\\\x1F\\\\x7F' : '\\\\x00-\\\\x1F\\\\x7F';\n  return (0, _blacklist.default)(str, chars);\n}\n\nmodule.exports = exports.default;\nmodule.exports.default = exports.default;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = toBoolean;\n\nvar _assertString = _interopRequireDefault(require(\"./util/assertString\"));\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\nfunction toBoolean(str, strict) {\n  (0, _assertString.default)(str);\n\n  if (strict) {\n    return str === '1' || /^true$/i.test(str);\n  }\n\n  return str !== '0' && !/^false$/i.test(str) && str !== '';\n}\n\nmodule.exports = exports.default;\nmodule.exports.default = exports.default;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = toDate;\n\nvar _assertString = _interopRequireDefault(require(\"./util/assertString\"));\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\nfunction toDate(date) {\n  (0, _assertString.default)(date);\n  date = Date.parse(date);\n  return !isNaN(date) ? new Date(date) : null;\n}\n\nmodule.exports = exports.default;\nmodule.exports.default = exports.default;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = toFloat;\n\nvar _isFloat = _interopRequireDefault(require(\"./isFloat\"));\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\nfunction toFloat(str) {\n  if (!(0, _isFloat.default)(str)) return NaN;\n  return parseFloat(str);\n}\n\nmodule.exports = exports.default;\nmodule.exports.default = exports.default;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = toInt;\n\nvar _assertString = _interopRequireDefault(require(\"./util/assertString\"));\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\nfunction toInt(str, radix) {\n  (0, _assertString.default)(str);\n  return parseInt(str, radix || 10);\n}\n\nmodule.exports = exports.default;\nmodule.exports.default = exports.default;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = trim;\n\nvar _rtrim = _interopRequireDefault(require(\"./rtrim\"));\n\nvar _ltrim = _interopRequireDefault(require(\"./ltrim\"));\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\nfunction trim(str, chars) {\n  return (0, _rtrim.default)((0, _ltrim.default)(str, chars), chars);\n}\n\nmodule.exports = exports.default;\nmodule.exports.default = exports.default;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.default = unescape;\n\nvar _assertString = _interopRequireDefault(require(\"./util/assertString\"));\n\nfunction _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }\n\nfunction unescape(str) {\n  (0, _assertString.default)(str);\n  return str.replace(/&quot;/g, '\"').replace(/&#x27;/g, \"'\").replace(/&lt;/g, '<').replace(/&gt;/g, '>').replace(/&#x2F;/g, '/').replace(/&#x5C;/g, '\\\\').replace(/&#96;/g, '`').replace(/&amp;/g, '&'); // &amp; replacement has to be the last one to prevent\n  // bugs with intermediate strings containing escape sequences\n  // See: https://github.com/validatorjs/validator.js/issues/1827\n}\n\nmodule.exports = exports.default;\nmodule.exports.default = exports.default;","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: true\n});\nexports.iso7064Check = iso7064Check;\nexports.luhnCheck = luhnCheck;\nexports.reverseMultiplyAndSum = reverseMultiplyAndSum;\nexports.verhoeffCheck = verhoeffCheck;\n\n/**\n * Algorithmic validation functions\n * May be used as is or implemented in the workflow of other validators.\n */\n\n/*\n * ISO 7064 validation function\n * Called with a string of numbers (incl. check digit)\n * to validate according to ISO 7064 (MOD 11, 10).\n */\nfunction iso7064Check(str) {\n  var checkvalue = 10;\n\n  for (var i = 0; i < str.length - 1; i++) {\n    checkvalue = (parseInt(str[i], 10) + checkvalue) % 10 === 0 ? 10 * 2 % 11 : (parseInt(str[i], 10) + checkvalue) % 10 * 2 % 11;\n  }\n\n  checkvalue = checkvalue === 1 ? 0 : 11 - checkvalue;\n  return checkvalue === parseInt(str[10], 10);\n}\n/*\n * Luhn (mod 10) validation function\n * Called with a string of numbers (incl. check digit)\n * to validate according to the Luhn algorithm.\n */\n\n\nfunction luhnCheck(str) {\n  var checksum = 0;\n  var second = false;\n\n  for (var i = str.length - 1; i >= 0; i--) {\n    if (second) {\n      var product = parseInt(str[i], 10) * 2;\n\n      if (product > 9) {\n        // sum digits of product and add to checksum\n        checksum += product.toString().split('').map(function (a) {\n          return parseInt(a, 10);\n        }).reduce(function (a, b) {\n          return a + b;\n        }, 0);\n      } else {\n        checksum += product;\n      }\n    } else {\n      checksum += parseInt(str[i], 10);\n    }\n\n    second = !second;\n  }\n\n  return checksum % 10 === 0;\n}\n/*\n * Reverse TIN multiplication and summation helper function\n * Called with an array of single-digit integers and a base multiplier\n * to calculate the sum of the digits multiplied in reverse.\n * Normally used in variations of MOD 11 algorithmic checks.\n */\n\n\nfunction reverseMultiplyAndSum(digits, base) {\n  var total = 0;\n\n  for (var i = 0; i < digits.length; i++) {\n    total += digits[i] * (base - i);\n  }\n\n  return total;\n}\n/*\n * Verhoeff validation helper function\n * Called with a string of numbers\n * to validate according to the Verhoeff algorithm.\n */\n\n\nfunction verhoeffCheck(str) {\n  var d_table = [[0, 1, 2, 3, 4, 5, 6, 7, 8, 9], [1, 2, 3, 4, 0, 6, 7, 8, 9, 5], [2, 3, 4, 0, 1, 7, 8, 9, 5, 6], [3, 4, 0, 1, 2, 8, 9, 5, 6, 7], [4, 0, 1, 2, 3, 9, 5, 6, 7, 8], [5, 9, 8, 7, 6, 0, 4, 3, 2, 1], [6, 5, 9, 8, 7, 1, 0, 4, 3, 2], [7, 6, 5, 9, 8, 2, 1, 0, 4, 3], [8, 7, 6, 5, 9, 3, 2, 1, 0, 4], [9, 8, 7, 6, 5, 4, 3, 2, 1, 0]];\n  var p_table = [[0, 1, 2, 3, 4, 5, 6, 7, 8, 9], [1, 5, 7, 6, 2, 8, 3, 0, 9, 4], [5, 8, 0, 3, 7, 9, 6, 1, 4, 2], [8, 9, 1, 6, 0, 4, 3, 5, 2, 7], [9, 4, 5, 3, 1, 2, 6, 8, 7, 0], [4, 2, 8, 6, 5, 7, 3, 9, 0, 1], [2, 7, 9, 3, 8, 0, 6, 4, 1, 5], [7, 0, 4, 6, 9, 1, 3, 2, 5, 8]]; // Copy (to prevent replacement) and reverse\n\n  var str_copy = str.split('').reverse().join('');\n  var checksum = 0;\n\n  for (var i = 0; i < str_copy.length; i++) {\n    checksum = d_table[checksum][p_table[i % 8][parseInt(str_copy[i], 10)]];\n  }\n\n  return checksum === 0;\n}","\"use strict\";\n\nObject.defineProperty(exports, \"__esModule\", {\n  value: 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