/******/ (() => { // webpackBootstrap /******/ "use strict"; ;// ./src/fragmentLoader.js function _typeof(o) { "@babel/helpers - typeof"; return _typeof = "function" == typeof Symbol && "symbol" == typeof Symbol.iterator ? function (o) { return typeof o; } : function (o) { return o && "function" == typeof Symbol && o.constructor === Symbol && o !== Symbol.prototype ? "symbol" : typeof o; }, _typeof(o); } function _regeneratorRuntime() { "use strict"; /*! regenerator-runtime -- Copyright (c) 2014-present, Facebook, Inc. -- license (MIT): https://github.com/facebook/regenerator/blob/main/LICENSE */ _regeneratorRuntime = function _regeneratorRuntime() { return e; }; var t, e = {}, r = Object.prototype, n = r.hasOwnProperty, o = Object.defineProperty || function (t, e, r) { t[e] = r.value; }, i = "function" == typeof Symbol ? Symbol : {}, a = i.iterator || "@@iterator", c = i.asyncIterator || "@@asyncIterator", u = i.toStringTag || "@@toStringTag"; function define(t, e, r) { return Object.defineProperty(t, e, { value: r, enumerable: !0, configurable: !0, writable: !0 }), t[e]; } try { define({}, ""); } catch (t) { define = function define(t, e, r) { return t[e] = r; }; } function wrap(t, e, r, n) { var i = e && e.prototype instanceof Generator ? e : Generator, a = Object.create(i.prototype), c = new Context(n || []); return o(a, "_invoke", { value: makeInvokeMethod(t, r, c) }), a; } function tryCatch(t, e, r) { try { return { type: "normal", arg: t.call(e, r) }; } catch (t) { return { type: "throw", arg: t }; } } e.wrap = wrap; var h = "suspendedStart", l = "suspendedYield", f = "executing", s = "completed", y = {}; function Generator() {} function GeneratorFunction() {} function GeneratorFunctionPrototype() {} var p = {}; define(p, a, function () { return this; }); var d = Object.getPrototypeOf, v = d && d(d(values([]))); v && v !== r && n.call(v, a) && (p = v); var g = GeneratorFunctionPrototype.prototype = Generator.prototype = Object.create(p); function defineIteratorMethods(t) { ["next", "throw", "return"].forEach(function (e) { define(t, e, function (t) { return this._invoke(e, t); }); }); } function AsyncIterator(t, e) { function invoke(r, o, i, a) { var c = tryCatch(t[r], t, o); if ("throw" !== c.type) { var u = c.arg, h = u.value; return h && "object" == _typeof(h) && n.call(h, "__await") ? e.resolve(h.__await).then(function (t) { invoke("next", t, i, a); }, function (t) { invoke("throw", t, i, a); }) : e.resolve(h).then(function (t) { u.value = t, i(u); }, function (t) { return invoke("throw", t, i, a); }); } a(c.arg); } var r; o(this, "_invoke", { value: function value(t, n) { function callInvokeWithMethodAndArg() { return new e(function (e, r) { invoke(t, n, e, r); }); } return r = r ? r.then(callInvokeWithMethodAndArg, callInvokeWithMethodAndArg) : callInvokeWithMethodAndArg(); } }); } function makeInvokeMethod(e, r, n) { var o = h; return function (i, a) { if (o === f) throw Error("Generator is already running"); if (o === s) { if ("throw" === i) throw a; return { value: t, done: !0 }; } for (n.method = i, n.arg = a;;) { var c = n.delegate; if (c) { var u = maybeInvokeDelegate(c, n); if (u) { if (u === y) continue; return u; } } if ("next" === n.method) n.sent = n._sent = n.arg;else if ("throw" === n.method) { if (o === h) throw o = s, n.arg; n.dispatchException(n.arg); } else "return" === n.method && n.abrupt("return", n.arg); o = f; var p = tryCatch(e, r, n); if ("normal" === p.type) { if (o = n.done ? s : l, p.arg === y) continue; return { value: p.arg, done: n.done }; } "throw" === p.type && (o = s, n.method = "throw", n.arg = p.arg); } }; } function maybeInvokeDelegate(e, r) { var n = r.method, o = e.iterator[n]; if (o === t) return r.delegate = null, "throw" === n && e.iterator["return"] && (r.method = "return", r.arg = t, maybeInvokeDelegate(e, r), "throw" === r.method) || "return" !== n && (r.method = "throw", r.arg = new TypeError("The iterator does not provide a '" + n + "' method")), y; var i = tryCatch(o, e.iterator, r.arg); if ("throw" === i.type) return r.method = "throw", r.arg = i.arg, r.delegate = null, y; var a = i.arg; return a ? a.done ? (r[e.resultName] = a.value, r.next = e.nextLoc, "return" !== r.method && (r.method = "next", r.arg = t), r.delegate = null, y) : a : (r.method = "throw", r.arg = new TypeError("iterator result is not an object"), r.delegate = null, y); } function pushTryEntry(t) { var e = { tryLoc: t[0] }; 1 in t && (e.catchLoc = t[1]), 2 in t && (e.finallyLoc = t[2], e.afterLoc = t[3]), this.tryEntries.push(e); } function resetTryEntry(t) { var e = t.completion || {}; e.type = "normal", delete e.arg, t.completion = e; } function Context(t) { this.tryEntries = [{ tryLoc: "root" }], t.forEach(pushTryEntry, this), this.reset(!0); } function values(e) { if (e || "" === e) { var r = e[a]; if (r) return r.call(e); if ("function" == typeof e.next) return e; if (!isNaN(e.length)) { var o = -1, i = function next() { for (; ++o < e.length;) if (n.call(e, o)) return next.value = e[o], next.done = !1, next; return next.value = t, next.done = !0, next; }; return i.next = i; } } throw new TypeError(_typeof(e) + " is not iterable"); } return GeneratorFunction.prototype = GeneratorFunctionPrototype, o(g, "constructor", { value: GeneratorFunctionPrototype, configurable: !0 }), o(GeneratorFunctionPrototype, "constructor", { value: GeneratorFunction, configurable: !0 }), GeneratorFunction.displayName = define(GeneratorFunctionPrototype, u, "GeneratorFunction"), e.isGeneratorFunction = function (t) { var e = "function" == typeof t && t.constructor; return !!e && (e === GeneratorFunction || "GeneratorFunction" === (e.displayName || e.name)); }, e.mark = function (t) { return Object.setPrototypeOf ? Object.setPrototypeOf(t, GeneratorFunctionPrototype) : (t.__proto__ = GeneratorFunctionPrototype, define(t, u, "GeneratorFunction")), t.prototype = Object.create(g), t; }, e.awrap = function (t) { return { __await: t }; }, defineIteratorMethods(AsyncIterator.prototype), define(AsyncIterator.prototype, c, function () { return this; }), e.AsyncIterator = AsyncIterator, e.async = function (t, r, n, o, i) { void 0 === i && (i = Promise); var a = new AsyncIterator(wrap(t, r, n, o), i); return e.isGeneratorFunction(r) ? a : a.next().then(function (t) { return t.done ? t.value : a.next(); }); }, defineIteratorMethods(g), define(g, u, "Generator"), define(g, a, function () { return this; }), define(g, "toString", function () { return "[object Generator]"; }), e.keys = function (t) { var e = Object(t), r = []; for (var n in e) r.push(n); return r.reverse(), function next() { for (; r.length;) { var t = r.pop(); if (t in e) return next.value = t, next.done = !1, next; } return next.done = !0, next; }; }, e.values = values, Context.prototype = { constructor: Context, reset: function reset(e) { if (this.prev = 0, this.next = 0, this.sent = this._sent = t, this.done = !1, this.delegate = null, this.method = "next", this.arg = t, this.tryEntries.forEach(resetTryEntry), !e) for (var r in this) "t" === r.charAt(0) && n.call(this, r) && !isNaN(+r.slice(1)) && (this[r] = t); }, stop: function stop() { this.done = !0; var t = this.tryEntries[0].completion; if ("throw" === t.type) throw t.arg; return this.rval; }, dispatchException: function dispatchException(e) { if (this.done) throw e; var r = this; function handle(n, o) { return a.type = "throw", a.arg = e, r.next = n, o && (r.method = "next", r.arg = t), !!o; } for (var o = this.tryEntries.length - 1; o >= 0; --o) { var i = this.tryEntries[o], a = i.completion; if ("root" === i.tryLoc) return handle("end"); if (i.tryLoc <= this.prev) { var c = n.call(i, "catchLoc"), u = n.call(i, "finallyLoc"); if (c && u) { if (this.prev < i.catchLoc) return handle(i.catchLoc, !0); if (this.prev < i.finallyLoc) return handle(i.finallyLoc); } else if (c) { if (this.prev < i.catchLoc) return handle(i.catchLoc, !0); } else { if (!u) throw Error("try statement without catch or finally"); if (this.prev < i.finallyLoc) return handle(i.finallyLoc); } } } }, abrupt: function abrupt(t, e) { for (var r = this.tryEntries.length - 1; r >= 0; --r) { var o = this.tryEntries[r]; if (o.tryLoc <= this.prev && n.call(o, "finallyLoc") && this.prev < o.finallyLoc) { var i = o; break; } } i && ("break" === t || "continue" === t) && i.tryLoc <= e && e <= i.finallyLoc && (i = null); var a = i ? i.completion : {}; return a.type = t, a.arg = e, i ? (this.method = "next", this.next = i.finallyLoc, y) : this.complete(a); }, complete: function complete(t, e) { if ("throw" === t.type) throw t.arg; return "break" === t.type || "continue" === t.type ? this.next = t.arg : "return" === t.type ? (this.rval = this.arg = t.arg, this.method = "return", this.next = "end") : "normal" === t.type && e && (this.next = e), y; }, finish: function finish(t) { for (var e = this.tryEntries.length - 1; e >= 0; --e) { var r = this.tryEntries[e]; if (r.finallyLoc === t) return this.complete(r.completion, r.afterLoc), resetTryEntry(r), y; } }, "catch": function _catch(t) { for (var e = this.tryEntries.length - 1; e >= 0; --e) { var r = this.tryEntries[e]; if (r.tryLoc === t) { var n = r.completion; if ("throw" === n.type) { var o = n.arg; resetTryEntry(r); } return o; } } throw Error("illegal catch attempt"); }, delegateYield: function delegateYield(e, r, n) { return this.delegate = { iterator: values(e), resultName: r, nextLoc: n }, "next" === this.method && (this.arg = t), y; } }, e; } function _classCallCheck(a, n) { if (!(a instanceof n)) throw new TypeError("Cannot call a class as a function"); } function _defineProperties(e, r) { for (var t = 0; t < r.length; t++) { var o = r[t]; o.enumerable = o.enumerable || !1, o.configurable = !0, "value" in o && (o.writable = !0), Object.defineProperty(e, _toPropertyKey(o.key), o); } } function _createClass(e, r, t) { return r && _defineProperties(e.prototype, r), t && _defineProperties(e, t), Object.defineProperty(e, "prototype", { writable: !1 }), e; } function _toPropertyKey(t) { var i = _toPrimitive(t, "string"); return "symbol" == _typeof(i) ? i : i + ""; } function _toPrimitive(t, r) { if ("object" != _typeof(t) || !t) return t; var e = t[Symbol.toPrimitive]; if (void 0 !== e) { var i = e.call(t, r || "default"); if ("object" != _typeof(i)) return i; throw new TypeError("@@toPrimitive must return a primitive value."); } return ("string" === r ? String : Number)(t); } function asyncGeneratorStep(n, t, e, r, o, a, c) { try { var i = n[a](c), u = i.value; } catch (n) { return void e(n); } i.done ? t(u) : Promise.resolve(u).then(r, o); } function _asyncToGenerator(n) { return function () { var t = this, e = arguments; return new Promise(function (r, o) { var a = n.apply(t, e); function _next(n) { asyncGeneratorStep(a, r, o, _next, _throw, "next", n); } function _throw(n) { asyncGeneratorStep(a, r, o, _next, _throw, "throw", n); } _next(void 0); }); }; } function loadFragments() { return _loadFragments.apply(this, arguments); } function _loadFragments() { _loadFragments = _asyncToGenerator(/*#__PURE__*/_regeneratorRuntime().mark(function _callee7() { var fragmentElements, FetchQueue, fetchQueue, currentIndex, elements; return _regeneratorRuntime().wrap(function _callee7$(_context7) { while (1) switch (_context7.prev = _context7.next) { case 0: // Find all elements with ids starting with 'fragment-' fragmentElements = Array.from(document.querySelectorAll('[id^="fragment-"]')); FetchQueue = /*#__PURE__*/function () { function FetchQueue() { var maxConcurrent = arguments.length > 0 && arguments[0] !== undefined ? arguments[0] : 3; _classCallCheck(this, FetchQueue); this.queue = []; this.maxConcurrent = maxConcurrent; this.activeFetches = 0; this.maxRetries = 3; // Maximum number of retry attempts this.baseDelay = 1000; // Base delay in milliseconds (1 second) } return _createClass(FetchQueue, [{ key: "sleep", value: function () { var _sleep = _asyncToGenerator(/*#__PURE__*/_regeneratorRuntime().mark(function _callee(ms) { return _regeneratorRuntime().wrap(function _callee$(_context) { while (1) switch (_context.prev = _context.next) { case 0: return _context.abrupt("return", new Promise(function (resolve) { return setTimeout(resolve, ms); })); case 1: case "end": return _context.stop(); } }, _callee); })); function sleep(_x) { return _sleep.apply(this, arguments); } return sleep; }() }, { key: "fetchWithRetry", value: function () { var _fetchWithRetry = _asyncToGenerator(/*#__PURE__*/_regeneratorRuntime().mark(function _callee2(fragmentPath) { var retryCount, response, delay, _args2 = arguments; return _regeneratorRuntime().wrap(function _callee2$(_context2) { while (1) switch (_context2.prev = _context2.next) { case 0: retryCount = _args2.length > 1 && _args2[1] !== undefined ? _args2[1] : 0; _context2.prev = 1; _context2.next = 4; return fetch(fragmentPath); case 4: response = _context2.sent; if (response.ok) { _context2.next = 7; break; } throw new Error("HTTP error! status: ".concat(response.status)); case 7: _context2.next = 9; return response.text(); case 9: return _context2.abrupt("return", _context2.sent); case 12: _context2.prev = 12; _context2.t0 = _context2["catch"](1); if (!(retryCount < this.maxRetries)) { _context2.next = 20; break; } // Exponential backoff: 1s, 2s, 4s delay = this.baseDelay * Math.pow(2, retryCount); console.warn("Retry ".concat(retryCount + 1, "/").concat(this.maxRetries, " for ").concat(fragmentPath, " after ").concat(delay, "ms")); _context2.next = 19; return this.sleep(delay); case 19: return _context2.abrupt("return", this.fetchWithRetry(fragmentPath, retryCount + 1)); case 20: throw _context2.t0; case 21: case "end": return _context2.stop(); } }, _callee2, this, [[1, 12]]); })); function fetchWithRetry(_x2) { return _fetchWithRetry.apply(this, arguments); } return fetchWithRetry; }() }, { key: "addFetch", value: function () { var _addFetch = _asyncToGenerator(/*#__PURE__*/_regeneratorRuntime().mark(function _callee5(element) { var _this = this; var fragmentName, fragmentPath; return _regeneratorRuntime().wrap(function _callee5$(_context5) { while (1) switch (_context5.prev = _context5.next) { case 0: fragmentName = element.id.replace('fragment-', ''); fragmentPath = "fragments/".concat(fragmentName, ".html"); return _context5.abrupt("return", new Promise(/*#__PURE__*/function () { var _ref = _asyncToGenerator(/*#__PURE__*/_regeneratorRuntime().mark(function _callee4(resolve, reject) { var fetchPromise; return _regeneratorRuntime().wrap(function _callee4$(_context4) { while (1) switch (_context4.prev = _context4.next) { case 0: try { fetchPromise = _asyncToGenerator(/*#__PURE__*/_regeneratorRuntime().mark(function _callee3() { var html, temp, scripts; return _regeneratorRuntime().wrap(function _callee3$(_context3) { while (1) switch (_context3.prev = _context3.next) { case 0: _context3.prev = 0; _context3.next = 3; return _this.fetchWithRetry(fragmentPath); case 3: html = _context3.sent; // Process the fragment temp = document.createElement('div'); temp.innerHTML = html; element.innerHTML = temp.innerHTML; // Handle scripts scripts = temp.getElementsByTagName('script'); Array.from(scripts).forEach(function (oldScript) { var newScript = document.createElement('script'); Array.from(oldScript.attributes).forEach(function (attr) { newScript.setAttribute(attr.name, attr.value); }); newScript.textContent = oldScript.textContent; oldScript.parentNode.removeChild(oldScript); document.body.appendChild(newScript); }); _this.activeFetches--; resolve(); _context3.next = 18; break; case 13: _context3.prev = 13; _context3.t0 = _context3["catch"](0); console.error("Failed to load fragment ".concat(fragmentPath, " after ").concat(_this.maxRetries, " retries:"), _context3.t0); _this.activeFetches--; reject(_context3.t0); case 18: case "end": return _context3.stop(); } }, _callee3, null, [[0, 13]]); }))(); _this.queue.push(fetchPromise); _this.activeFetches++; } catch (error) { reject(error); } case 1: case "end": return _context4.stop(); } }, _callee4); })); return function (_x4, _x5) { return _ref.apply(this, arguments); }; }())); case 3: case "end": return _context5.stop(); } }, _callee5); })); function addFetch(_x3) { return _addFetch.apply(this, arguments); } return addFetch; }() }, { key: "processNext", value: function () { var _processNext = _asyncToGenerator(/*#__PURE__*/_regeneratorRuntime().mark(function _callee6(element) { return _regeneratorRuntime().wrap(function _callee6$(_context6) { while (1) switch (_context6.prev = _context6.next) { case 0: if (!(this.activeFetches < this.maxConcurrent && element)) { _context6.next = 3; break; } _context6.next = 3; return this.addFetch(element); case 3: case "end": return _context6.stop(); } }, _callee6, this); })); function processNext(_x6) { return _processNext.apply(this, arguments); } return processNext; }() }]); }(); // Initialize queue fetchQueue = new FetchQueue(3); currentIndex = 0; elements = fragmentElements; // Assuming this is defined elsewhere // Initial loading of first 3 elements case 5: if (!(currentIndex < elements.length && currentIndex < 3)) { _context7.next = 11; break; } _context7.next = 8; return fetchQueue.processNext(elements[currentIndex]); case 8: currentIndex++; _context7.next = 5; break; case 11: if (!(currentIndex < elements.length)) { _context7.next = 20; break; } _context7.next = 14; return Promise.race(fetchQueue.queue); case 14: // Remove completed fetch from queue fetchQueue.queue = fetchQueue.queue.filter(function (p) { return p.status === 'pending'; }); // Add next element to queue _context7.next = 17; return fetchQueue.processNext(elements[currentIndex]); case 17: currentIndex++; _context7.next = 11; break; case 20: _context7.next = 22; return Promise.all(fetchQueue.queue); case 22: case "end": return _context7.stop(); } }, _callee7); })); return _loadFragments.apply(this, arguments); } ;// ./src/syncHFSpacesURLHash.js var queryArg = "section"; function syncHFSpacesURLHash() { // Handle explicit section requests (don't update hash automatically on load) var hasExplicitRequest = handleExplicitSectionRequest(); // Set up hash change monitoring updateHashBasedOnHashChange(); // Always set up scroll monitoring to update hash during scrolling setupScrollMonitoring(); // If no explicit request, we don't update the hash on initial load // The hash will only start updating when the user scrolls } function handleExplicitSectionRequest() { // Check for section parameter in URL var urlParams = new URLSearchParams(window.location.search); var sectionId = urlParams.get(queryArg); // If we have an explicit section request if (sectionId) { var targetElement = document.getElementById(sectionId); if (targetElement) { // Slight delay to ensure the browser doesn't try to do its own scrolling first setTimeout(function () { targetElement.scrollIntoView(); history.replaceState(null, null, "#".concat(sectionId)); }, 100); } return true; } // No explicit section parameter found return false; } function setupScrollMonitoring() { // Variables to manage throttling var isScrolling = false; var lastKnownScrollPosition = 0; var initialScroll = true; // Add the scroll event listener window.addEventListener('scroll', function () { lastKnownScrollPosition = window.scrollY; if (!isScrolling) { window.requestAnimationFrame(function () { // Skip the first scroll event which might be browser's automatic scroll // to a hash on page load if (initialScroll) { initialScroll = false; } else { updateHashBasedOnScroll(lastKnownScrollPosition); } isScrolling = false; }); } isScrolling = true; }); } // Function to update the URL hash based on scroll position function updateHashBasedOnScroll(scrollPosition) { var closestHeading = findClosestHeading(scrollPosition); // Update the URL hash if we found a closest element if (closestHeading && closestHeading.id) { // Only update if the hash is different to avoid unnecessary operations if (window.location.hash !== "#".concat(closestHeading.id)) { silentlyUpdateHash(closestHeading.id); postMessageToHFSpaces(closestHeading.id); } } } // Find the closest heading to the current scroll position function findClosestHeading(scrollPosition) { // Get only heading elements with IDs that we want to track var headingsWithIds = Array.from(document.querySelectorAll('h1[id], h2[id], h3[id], h4[id], h5[id], h6[id]')); // Skip if there are no headings with IDs if (headingsWithIds.length === 0) return null; // Find the element closest to the middle of the viewport var closestHeading = null; var closestDistance = Infinity; var viewportMiddle = scrollPosition + window.innerHeight / 2; // Iterate through all headings to find the closest one headingsWithIds.forEach(function (heading) { var headingTop = heading.getBoundingClientRect().top + scrollPosition; var distance = Math.abs(headingTop - viewportMiddle); if (distance < closestDistance) { closestDistance = distance; closestHeading = heading; } }); return closestHeading; } // Update hash without triggering scroll or other side effects function silentlyUpdateHash(id) { history.replaceState(null, null, "#".concat(id)); } function updateHashBasedOnHashChange() { window.addEventListener('hashchange', function () { var elementId = window.location.hash.slice(1); postMessageToHFSpaces(elementId); }); } function postMessageToHFSpaces(elementId) { var parentOrigin = "https://huggingface.co."; window.parent.postMessage({ queryString: "".concat(queryArg, "=").concat(elementId) }, parentOrigin); } ;// ./src/index.js // import { plotClusters } from './clusters' document.addEventListener("DOMContentLoaded", function () { console.log("DOMContentLoaded"); loadFragments(); init_memory_plot(); syncHFSpacesURLHash(); }, { once: true }); /******/ })() ; //# sourceMappingURL=main.bundle.js.map