From 0d8e9946edeb4016dc3be0ab95059e2903aca0d5 Mon Sep 17 00:00:00 2001 From: iGor milhit Date: Wed, 23 Oct 2024 16:28:13 +0200 Subject: [PATCH] =?UTF-8?q?projet:=20am=C3=A9liore=20le=20projet?= MIME-Version: 1.0 Content-Type: text/plain; charset=UTF-8 Content-Transfer-Encoding: 8bit - Améliore l'usage des polices, pour se passer de TheSans. - Utilise une version des scripts JS servis par le projet. - Ajoute la classe `.newpage` à la liste des sélecteurs provoquant un saut de page. - Crée la classe `.exercise` pour mettre en avant les sections d'exercice. Co-Authored-by: iGor milhit --- .gitignore | 1 + example/example.md | 15 +- paged.polyfill.js | 33251 +++++++++++++++++++++++++++++++++++++++++++ reload-in-place.js | 117 + style.css | 24 +- template.html | 3 +- 6 files changed, 33402 insertions(+), 9 deletions(-) create mode 100644 paged.polyfill.js create mode 100644 reload-in-place.js diff --git a/.gitignore b/.gitignore index 6d0b8f5..9c1dca8 100644 --- a/.gitignore +++ b/.gitignore @@ -2,3 +2,4 @@ example.html example.pdf test.* release/ +watched-files.txt diff --git a/example/example.md b/example/example.md index 3360774..25f706c 100644 --- a/example/example.md +++ b/example/example.md @@ -31,10 +31,11 @@ Au terme de cet atelier, vous serez en mesure de :   :::{#licence} -![Logo de la licence CC BY-SA 4.0](../static/by-sa.svg) \ +![Logo de la licence CC BY-SA 4.0][logo] \ [CC BY-SA 4.0][cc-by-sa] --- [Sources][sources] ::: +[logo]: ../static/by-sa.svg [cc-by-sa]: https://creativecommons.org/licenses/by-sa/4.0/deed.fr "Texte de la licence en français" [sources]: https://git.milhit.ch/igor/bunige-pagedjs-template @@ -123,16 +124,20 @@ par exemple un livre.

## Police -Pour que la police *TheSans* puisse s'appliquer correctement, elle doit être -installée sur votre système d'exploitation. Malheureusement, elle n'est pas -publiée avec une licence libre, ce qui en réduit l'usage. Les polices de -remplacement sont dans l'ordre *Open Sans*, *Arial*, *Helvetica*, ou la police +Bien que la police *TheSans* face partie de la charte de l'UNIGE et de la +Bibliothèque de l'Université, je trouve qu'elle n'est pas des plus lisible, +notamment sur les titres. De plus, la licence de cette police, sauf erreur, +n'est pas libre, ce qui en limite l'usage. C'est pourquoi je préfère spécifier +ici les polices *Noto Sans*, *Open Sans*, *Arial*, *Helvetica*, ou la police *sans-serif* par défaut de votre système ou de votre navigateur. La police peut être facilement configurable au moyen du sélecteur `body` dans le fichier `style.css` (règle déjà existante, dans la section *Définitions globales*). +Pour les éléments verbatim (`pre`, `code`), la police est *Lilex*, *Courier +New*, *Courier*, *monospace*. + ## Titres Il y a une particularité avec les titres, qui découlent de l'usage de diff --git a/paged.polyfill.js b/paged.polyfill.js new file mode 100644 index 0000000..3100799 --- /dev/null +++ b/paged.polyfill.js @@ -0,0 +1,33251 @@ +/** + * @license Paged.js v0.4.3 | MIT | https://gitlab.coko.foundation/pagedjs/pagedjs + */ + +(function (global, factory) { + typeof exports === 'object' && typeof module !== 'undefined' ? module.exports = factory() : + typeof define === 'function' && define.amd ? define(factory) : + (global = typeof globalThis !== 'undefined' ? globalThis : global || self, global.PagedPolyfill = factory()); +})(this, (function () { 'use strict'; + + function getDefaultExportFromCjs (x) { + return x && x.__esModule && Object.prototype.hasOwnProperty.call(x, 'default') ? x['default'] : x; + } + + var eventEmitter = {exports: {}}; + + var d$2 = {exports: {}}; + + var isImplemented$6 = function () { + var assign = Object.assign, obj; + if (typeof assign !== "function") return false; + obj = { foo: "raz" }; + assign(obj, { bar: "dwa" }, { trzy: "trzy" }); + return (obj.foo + obj.bar + obj.trzy) === "razdwatrzy"; + }; + + var isImplemented$5; + var hasRequiredIsImplemented$1; + + function requireIsImplemented$1 () { + if (hasRequiredIsImplemented$1) return isImplemented$5; + hasRequiredIsImplemented$1 = 1; + + isImplemented$5 = function () { + try { + Object.keys("primitive"); + return true; + } catch (e) { + return false; + } + }; + return isImplemented$5; + } + + // eslint-disable-next-line no-empty-function + var noop$4 = function () {}; + + var _undefined = noop$4(); // Support ES3 engines + + var isValue$3 = function (val) { + return (val !== _undefined) && (val !== null); + }; + + var shim$5; + var hasRequiredShim$5; + + function requireShim$5 () { + if (hasRequiredShim$5) return shim$5; + hasRequiredShim$5 = 1; + + var isValue = isValue$3; + + var keys = Object.keys; + + shim$5 = function (object) { + return keys(isValue(object) ? Object(object) : object); + }; + return shim$5; + } + + var keys; + var hasRequiredKeys; + + function requireKeys () { + if (hasRequiredKeys) return keys; + hasRequiredKeys = 1; + + keys = requireIsImplemented$1()() + ? Object.keys + : requireShim$5(); + return keys; + } + + var isValue$2 = isValue$3; + + var validValue = function (value) { + if (!isValue$2(value)) throw new TypeError("Cannot use null or undefined"); + return value; + }; + + var shim$4; + var hasRequiredShim$4; + + function requireShim$4 () { + if (hasRequiredShim$4) return shim$4; + hasRequiredShim$4 = 1; + + var keys = requireKeys() + , value = validValue + , max = Math.max; + + shim$4 = function (dest, src /*, …srcn*/) { + var error, i, length = max(arguments.length, 2), assign; + dest = Object(value(dest)); + assign = function (key) { + try { + dest[key] = src[key]; + } catch (e) { + if (!error) error = e; + } + }; + for (i = 1; i < length; ++i) { + src = arguments[i]; + keys(src).forEach(assign); + } + if (error !== undefined) throw error; + return dest; + }; + return shim$4; + } + + var assign$2 = isImplemented$6() + ? Object.assign + : requireShim$4(); + + var isValue$1 = isValue$3; + + var forEach$1 = Array.prototype.forEach, create$5 = Object.create; + + var process = function (src, obj) { + var key; + for (key in src) obj[key] = src[key]; + }; + + // eslint-disable-next-line no-unused-vars + var normalizeOptions = function (opts1 /*, …options*/) { + var result = create$5(null); + forEach$1.call(arguments, function (options) { + if (!isValue$1(options)) return; + process(Object(options), result); + }); + return result; + }; + + var isCallable$1 = function (obj) { + return typeof obj === "function"; + }; + + var str = "razdwatrzy"; + + var isImplemented$4 = function () { + if (typeof str.contains !== "function") return false; + return (str.contains("dwa") === true) && (str.contains("foo") === false); + }; + + var shim$3; + var hasRequiredShim$3; + + function requireShim$3 () { + if (hasRequiredShim$3) return shim$3; + hasRequiredShim$3 = 1; + + var indexOf = String.prototype.indexOf; + + shim$3 = function (searchString/*, position*/) { + return indexOf.call(this, searchString, arguments[1]) > -1; + }; + return shim$3; + } + + var contains$1 = isImplemented$4() + ? String.prototype.contains + : requireShim$3(); + + var assign$1 = assign$2 + , normalizeOpts = normalizeOptions + , isCallable = isCallable$1 + , contains = contains$1 + + , d$1; + + d$1 = d$2.exports = function (dscr, value/*, options*/) { + var c, e, w, options, desc; + if ((arguments.length < 2) || (typeof dscr !== 'string')) { + options = value; + value = dscr; + dscr = null; + } else { + options = arguments[2]; + } + if (dscr == null) { + c = w = true; + e = false; + } else { + c = contains.call(dscr, 'c'); + e = contains.call(dscr, 'e'); + w = contains.call(dscr, 'w'); + } + + desc = { value: value, configurable: c, enumerable: e, writable: w }; + return !options ? desc : assign$1(normalizeOpts(options), desc); + }; + + d$1.gs = function (dscr, get, set/*, options*/) { + var c, e, options, desc; + if (typeof dscr !== 'string') { + options = set; + set = get; + get = dscr; + dscr = null; + } else { + options = arguments[3]; + } + if (get == null) { + get = undefined; + } else if (!isCallable(get)) { + options = get; + get = set = undefined; + } else if (set == null) { + set = undefined; + } else if (!isCallable(set)) { + options = set; + set = undefined; + } + if (dscr == null) { + c = true; + e = false; + } else { + c = contains.call(dscr, 'c'); + e = contains.call(dscr, 'e'); + } + + desc = { get: get, set: set, configurable: c, enumerable: e }; + return !options ? desc : assign$1(normalizeOpts(options), desc); + }; + + var dExports = d$2.exports; + + var validCallable = function (fn) { + if (typeof fn !== "function") throw new TypeError(fn + " is not a function"); + return fn; + }; + + (function (module, exports) { + + var d = dExports + , callable = validCallable + + , apply = Function.prototype.apply, call = Function.prototype.call + , create = Object.create, defineProperty = Object.defineProperty + , defineProperties = Object.defineProperties + , hasOwnProperty = Object.prototype.hasOwnProperty + , descriptor = { configurable: true, enumerable: false, writable: true } + + , on, once, off, emit, methods, descriptors, base; + + on = function (type, listener) { + var data; + + callable(listener); + + if (!hasOwnProperty.call(this, '__ee__')) { + data = descriptor.value = create(null); + defineProperty(this, '__ee__', descriptor); + descriptor.value = null; + } else { + data = this.__ee__; + } + if (!data[type]) data[type] = listener; + else if (typeof data[type] === 'object') data[type].push(listener); + else data[type] = [data[type], listener]; + + return this; + }; + + once = function (type, listener) { + var once, self; + + callable(listener); + self = this; + on.call(this, type, once = function () { + off.call(self, type, once); + apply.call(listener, this, arguments); + }); + + once.__eeOnceListener__ = listener; + return this; + }; + + off = function (type, listener) { + var data, listeners, candidate, i; + + callable(listener); + + if (!hasOwnProperty.call(this, '__ee__')) return this; + data = this.__ee__; + if (!data[type]) return this; + listeners = data[type]; + + if (typeof listeners === 'object') { + for (i = 0; (candidate = listeners[i]); ++i) { + if ((candidate === listener) || + (candidate.__eeOnceListener__ === listener)) { + if (listeners.length === 2) data[type] = listeners[i ? 0 : 1]; + else listeners.splice(i, 1); + } + } + } else { + if ((listeners === listener) || + (listeners.__eeOnceListener__ === listener)) { + delete data[type]; + } + } + + return this; + }; + + emit = function (type) { + var i, l, listener, listeners, args; + + if (!hasOwnProperty.call(this, '__ee__')) return; + listeners = this.__ee__[type]; + if (!listeners) return; + + if (typeof listeners === 'object') { + l = arguments.length; + args = new Array(l - 1); + for (i = 1; i < l; ++i) args[i - 1] = arguments[i]; + + listeners = listeners.slice(); + for (i = 0; (listener = listeners[i]); ++i) { + apply.call(listener, this, args); + } + } else { + switch (arguments.length) { + case 1: + call.call(listeners, this); + break; + case 2: + call.call(listeners, this, arguments[1]); + break; + case 3: + call.call(listeners, this, arguments[1], arguments[2]); + break; + default: + l = arguments.length; + args = new Array(l - 1); + for (i = 1; i < l; ++i) { + args[i - 1] = arguments[i]; + } + apply.call(listeners, this, args); + } + } + }; + + methods = { + on: on, + once: once, + off: off, + emit: emit + }; + + descriptors = { + on: d(on), + once: d(once), + off: d(off), + emit: d(emit) + }; + + base = defineProperties({}, descriptors); + + module.exports = exports = function (o) { + return (o == null) ? create(base) : defineProperties(Object(o), descriptors); + }; + exports.methods = methods; + } (eventEmitter, eventEmitter.exports)); + + var eventEmitterExports = eventEmitter.exports; + var EventEmitter = /*@__PURE__*/getDefaultExportFromCjs(eventEmitterExports); + + /** + * Hooks allow for injecting functions that must all complete in order before finishing + * They will execute in parallel but all must finish before continuing + * Functions may return a promise if they are asycn. + * From epubjs/src/utils/hooks + * @param {any} context scope of this + * @example this.content = new Hook(this); + */ + class Hook { + constructor(context){ + this.context = context || this; + this.hooks = []; + } + + /** + * Adds a function to be run before a hook completes + * @example this.content.register(function(){...}); + * @return {undefined} void + */ + register(){ + for(var i = 0; i < arguments.length; ++i) { + if (typeof arguments[i] === "function") { + this.hooks.push(arguments[i]); + } else { + // unpack array + for(var j = 0; j < arguments[i].length; ++j) { + this.hooks.push(arguments[i][j]); + } + } + } + } + + /** + * Triggers a hook to run all functions + * @example this.content.trigger(args).then(function(){...}); + * @return {Promise} results + */ + trigger(){ + var args = arguments; + var context = this.context; + var promises = []; + + this.hooks.forEach(function(task) { + var executing = task.apply(context, args); + + if(executing && typeof executing["then"] === "function") { + // Task is a function that returns a promise + promises.push(executing); + } else { + // Otherwise Task resolves immediately, add resolved promise with result + promises.push(new Promise((resolve, reject) => { + resolve(executing); + })); + } + }); + + + return Promise.all(promises); + } + + /** + * Triggers a hook to run all functions synchronously + * @example this.content.trigger(args).then(function(){...}); + * @return {Array} results + */ + triggerSync(){ + var args = arguments; + var context = this.context; + var results = []; + + this.hooks.forEach(function(task) { + var executing = task.apply(context, args); + + results.push(executing); + }); + + + return results; + } + + // Adds a function to be run before a hook completes + list(){ + return this.hooks; + } + + clear(){ + return this.hooks = []; + } + } + + function getBoundingClientRect(element) { + if (!element) { + return; + } + let rect; + if (typeof element.getBoundingClientRect !== "undefined") { + rect = element.getBoundingClientRect(); + } else { + let range = document.createRange(); + range.selectNode(element); + rect = range.getBoundingClientRect(); + } + return rect; + } + + function getClientRects(element) { + if (!element) { + return; + } + let rect; + if (typeof element.getClientRects !== "undefined") { + rect = element.getClientRects(); + } else { + let range = document.createRange(); + range.selectNode(element); + rect = range.getClientRects(); + } + return rect; + } + + /** + * Generates a UUID + * based on: http://stackoverflow.com/questions/105034/how-to-create-a-guid-uuid-in-javascript + * @returns {string} uuid + */ + function UUID() { + var d = new Date().getTime(); + if (typeof performance !== "undefined" && typeof performance.now === "function") { + d += performance.now(); //use high-precision timer if available + } + return "xxxxxxxx-xxxx-4xxx-yxxx-xxxxxxxxxxxx".replace(/[xy]/g, function (c) { + var r = (d + Math.random() * 16) % 16 | 0; + d = Math.floor(d / 16); + return (c === "x" ? r : (r & 0x3 | 0x8)).toString(16); + }); + } + + function attr(element, attributes) { + for (var i = 0; i < attributes.length; i++) { + if (element.hasAttribute(attributes[i])) { + return element.getAttribute(attributes[i]); + } + } + } + + /* Based on by https://mths.be/cssescape v1.5.1 by @mathias | MIT license + * Allows # and . + */ + function querySelectorEscape(value) { + if (arguments.length == 0) { + throw new TypeError("`CSS.escape` requires an argument."); + } + var string = String(value); + + var length = string.length; + var index = -1; + var codeUnit; + var result = ""; + var firstCodeUnit = string.charCodeAt(0); + while (++index < length) { + codeUnit = string.charCodeAt(index); + + + + // Note: there’s no need to special-case astral symbols, surrogate + // pairs, or lone surrogates. + + // If the character is NULL (U+0000), then the REPLACEMENT CHARACTER + // (U+FFFD). + if (codeUnit == 0x0000) { + result += "\uFFFD"; + continue; + } + + if ( + // If the character is in the range [\1-\1F] (U+0001 to U+001F) or is + // U+007F, […] + (codeUnit >= 0x0001 && codeUnit <= 0x001F) || codeUnit == 0x007F || + // If the character is the first character and is in the range [0-9] + // (U+0030 to U+0039), […] + (index == 0 && codeUnit >= 0x0030 && codeUnit <= 0x0039) || + // If the character is the second character and is in the range [0-9] + // (U+0030 to U+0039) and the first character is a `-` (U+002D), […] + ( + index == 1 && + codeUnit >= 0x0030 && codeUnit <= 0x0039 && + firstCodeUnit == 0x002D + ) + ) { + // https://drafts.csswg.org/cssom/#escape-a-character-as-code-point + result += "\\" + codeUnit.toString(16) + " "; + continue; + } + + if ( + // If the character is the first character and is a `-` (U+002D), and + // there is no second character, […] + index == 0 && + length == 1 && + codeUnit == 0x002D + ) { + result += "\\" + string.charAt(index); + continue; + } + + // support for period character in id + if (codeUnit == 0x002E) { + if (string.charAt(0) == "#") { + result += "\\."; + continue; + } + } + + + // If the character is not handled by one of the above rules and is + // greater than or equal to U+0080, is `-` (U+002D) or `_` (U+005F), or + // is in one of the ranges [0-9] (U+0030 to U+0039), [A-Z] (U+0041 to + // U+005A), or [a-z] (U+0061 to U+007A), […] + if ( + codeUnit >= 0x0080 || + codeUnit == 0x002D || + codeUnit == 0x005F || + codeUnit == 35 || // Allow # + codeUnit == 46 || // Allow . + codeUnit >= 0x0030 && codeUnit <= 0x0039 || + codeUnit >= 0x0041 && codeUnit <= 0x005A || + codeUnit >= 0x0061 && codeUnit <= 0x007A + ) { + // the character itself + result += string.charAt(index); + continue; + } + + // Otherwise, the escaped character. + // https://drafts.csswg.org/cssom/#escape-a-character + result += "\\" + string.charAt(index); + + } + return result; + } + + /** + * Creates a new pending promise and provides methods to resolve or reject it. + * From: https://developer.mozilla.org/en-US/docs/Mozilla/JavaScript_code_modules/Promise.jsm/Deferred#backwards_forwards_compatible + * @returns {object} defered + */ + function defer() { + this.resolve = null; + + this.reject = null; + + this.id = UUID(); + + this.promise = new Promise((resolve, reject) => { + this.resolve = resolve; + this.reject = reject; + }); + Object.freeze(this); + } + + const requestIdleCallback = typeof window !== "undefined" && ("requestIdleCallback" in window ? window.requestIdleCallback : window.requestAnimationFrame); + + function CSSValueToString(obj) { + return obj.value + (obj.unit || ""); + } + + function isElement(node) { + return node && node.nodeType === 1; + } + + function isText(node) { + return node && node.nodeType === 3; + } + + function* walk$2(start, limiter) { + let node = start; + + while (node) { + + yield node; + + if (node.childNodes.length) { + node = node.firstChild; + } else if (node.nextSibling) { + if (limiter && node === limiter) { + node = undefined; + break; + } + node = node.nextSibling; + } else { + while (node) { + node = node.parentNode; + if (limiter && node === limiter) { + node = undefined; + break; + } + if (node && node.nextSibling) { + node = node.nextSibling; + break; + } + + } + } + } + } + + function nodeAfter(node, limiter) { + if (limiter && node === limiter) { + return; + } + let significantNode = nextSignificantNode(node); + if (significantNode) { + return significantNode; + } + if (node.parentNode) { + while ((node = node.parentNode)) { + if (limiter && node === limiter) { + return; + } + significantNode = nextSignificantNode(node); + if (significantNode) { + return significantNode; + } + } + } + } + + function nodeBefore(node, limiter) { + if (limiter && node === limiter) { + return; + } + let significantNode = previousSignificantNode(node); + if (significantNode) { + return significantNode; + } + if (node.parentNode) { + while ((node = node.parentNode)) { + if (limiter && node === limiter) { + return; + } + significantNode = previousSignificantNode(node); + if (significantNode) { + return significantNode; + } + } + } + } + + function elementAfter(node, limiter) { + let after = nodeAfter(node, limiter); + + while (after && after.nodeType !== 1) { + after = nodeAfter(after, limiter); + } + + return after; + } + + function elementBefore(node, limiter) { + let before = nodeBefore(node, limiter); + + while (before && before.nodeType !== 1) { + before = nodeBefore(before, limiter); + } + + return before; + } + + function displayedElementAfter(node, limiter) { + let after = elementAfter(node, limiter); + + while (after && after.dataset.undisplayed) { + after = elementAfter(after, limiter); + } + + return after; + } + + function displayedElementBefore(node, limiter) { + let before = elementBefore(node, limiter); + + while (before && before.dataset.undisplayed) { + before = elementBefore(before, limiter); + } + + return before; + } + + function rebuildAncestors(node) { + let parent, ancestor; + let ancestors = []; + let added = []; + + let fragment = document.createDocumentFragment(); + + // Handle rowspan on table + if (node.nodeName === "TR") { + let previousRow = node.previousElementSibling; + let previousRowDistance = 1; + while (previousRow) { + // previous row has more columns, might indicate a rowspan. + if (previousRow.childElementCount > node.childElementCount) { + const initialColumns = Array.from(node.children); + while (node.firstChild) { + node.firstChild.remove(); + } + let k = 0; + for (let j = 0; j < previousRow.children.length; j++) { + let column = previousRow.children[j]; + if (column.rowSpan && column.rowSpan > previousRowDistance) { + const duplicatedColumn = column.cloneNode(true); + // Adjust rowspan value + duplicatedColumn.rowSpan = column.rowSpan - previousRowDistance; + // Add the column to the row + node.appendChild(duplicatedColumn); + } else { + // Fill the gap with the initial columns (if exists) + const initialColumn = initialColumns[k++]; + // The initial column can be undefined if the newly created table has less columns than the original table + if (initialColumn) { + node.appendChild(initialColumn); + } + } + } + } + previousRow = previousRow.previousElementSibling; + previousRowDistance++; + } + } + + // Gather all ancestors + let element = node; + while(element.parentNode && element.parentNode.nodeType === 1) { + ancestors.unshift(element.parentNode); + element = element.parentNode; + } + + for (var i = 0; i < ancestors.length; i++) { + ancestor = ancestors[i]; + parent = ancestor.cloneNode(false); + + parent.setAttribute("data-split-from", parent.getAttribute("data-ref")); + // ancestor.setAttribute("data-split-to", parent.getAttribute("data-ref")); + + if (parent.hasAttribute("id")) { + let dataID = parent.getAttribute("id"); + parent.setAttribute("data-id", dataID); + parent.removeAttribute("id"); + } + + // This is handled by css :not, but also tidied up here + if (parent.hasAttribute("data-break-before")) { + parent.removeAttribute("data-break-before"); + } + + if (parent.hasAttribute("data-previous-break-after")) { + parent.removeAttribute("data-previous-break-after"); + } + + if (added.length) { + let container = added[added.length-1]; + container.appendChild(parent); + } else { + fragment.appendChild(parent); + } + added.push(parent); + + // rebuild table rows + if (parent.nodeName === "TD" && ancestor.parentElement.contains(ancestor)) { + let td = ancestor; + let prev = parent; + while ((td = td.previousElementSibling)) { + let sib = td.cloneNode(false); + parent.parentElement.insertBefore(sib, prev); + prev = sib; + } + + } + } + + added = undefined; + return fragment; + } + /* + export function split(bound, cutElement, breakAfter) { + let needsRemoval = []; + let index = indexOf(cutElement); + + if (!breakAfter && index === 0) { + return; + } + + if (breakAfter && index === (cutElement.parentNode.children.length - 1)) { + return; + } + + // Create a fragment with rebuilt ancestors + let fragment = rebuildAncestors(cutElement); + + // Clone cut + if (!breakAfter) { + let clone = cutElement.cloneNode(true); + let ref = cutElement.parentNode.getAttribute('data-ref'); + let parent = fragment.querySelector("[data-ref='" + ref + "']"); + parent.appendChild(clone); + needsRemoval.push(cutElement); + } + + // Remove all after cut + let next = nodeAfter(cutElement, bound); + while (next) { + let clone = next.cloneNode(true); + let ref = next.parentNode.getAttribute('data-ref'); + let parent = fragment.querySelector("[data-ref='" + ref + "']"); + parent.appendChild(clone); + needsRemoval.push(next); + next = nodeAfter(next, bound); + } + + // Remove originals + needsRemoval.forEach((node) => { + if (node) { + node.remove(); + } + }); + + // Insert after bounds + bound.parentNode.insertBefore(fragment, bound.nextSibling); + return [bound, bound.nextSibling]; + } + */ + + function needsBreakBefore(node) { + if( typeof node !== "undefined" && + typeof node.dataset !== "undefined" && + typeof node.dataset.breakBefore !== "undefined" && + (node.dataset.breakBefore === "always" || + node.dataset.breakBefore === "page" || + node.dataset.breakBefore === "left" || + node.dataset.breakBefore === "right" || + node.dataset.breakBefore === "recto" || + node.dataset.breakBefore === "verso") + ) { + return true; + } + + return false; + } + + function needsPreviousBreakAfter(node) { + if( typeof node !== "undefined" && + typeof node.dataset !== "undefined" && + typeof node.dataset.previousBreakAfter !== "undefined" && + (node.dataset.previousBreakAfter === "always" || + node.dataset.previousBreakAfter === "page" || + node.dataset.previousBreakAfter === "left" || + node.dataset.previousBreakAfter === "right" || + node.dataset.previousBreakAfter === "recto" || + node.dataset.previousBreakAfter === "verso") + ) { + return true; + } + + return false; + } + + function needsPageBreak(node, previousSignificantNode) { + if (typeof node === "undefined" || !previousSignificantNode || isIgnorable(node)) { + return false; + } + if (node.dataset && node.dataset.undisplayed) { + return false; + } + let previousSignificantNodePage = previousSignificantNode.dataset ? previousSignificantNode.dataset.page : undefined; + if (typeof previousSignificantNodePage === "undefined") { + const nodeWithNamedPage = getNodeWithNamedPage(previousSignificantNode); + if (nodeWithNamedPage) { + previousSignificantNodePage = nodeWithNamedPage.dataset.page; + } + } + let currentNodePage = node.dataset ? node.dataset.page : undefined; + if (typeof currentNodePage === "undefined") { + const nodeWithNamedPage = getNodeWithNamedPage(node, previousSignificantNode); + if (nodeWithNamedPage) { + currentNodePage = nodeWithNamedPage.dataset.page; + } + } + return currentNodePage !== previousSignificantNodePage; + } + + function *words(node) { + let currentText = node.nodeValue; + let max = currentText.length; + let currentOffset = 0; + let currentLetter; + + let range; + const significantWhitespaces = node.parentElement && node.parentElement.nodeName === "PRE"; + + while (currentOffset < max) { + currentLetter = currentText[currentOffset]; + if (/^[\S\u202F\u00A0]$/.test(currentLetter) || significantWhitespaces) { + if (!range) { + range = document.createRange(); + range.setStart(node, currentOffset); + } + } else { + if (range) { + range.setEnd(node, currentOffset); + yield range; + range = undefined; + } + } + + currentOffset += 1; + } + + if (range) { + range.setEnd(node, currentOffset); + yield range; + } + } + + function *letters(wordRange) { + let currentText = wordRange.startContainer; + let max = currentText.length; + let currentOffset = wordRange.startOffset; + // let currentLetter; + + let range; + + while(currentOffset < max) { + // currentLetter = currentText[currentOffset]; + range = document.createRange(); + range.setStart(currentText, currentOffset); + range.setEnd(currentText, currentOffset+1); + + yield range; + + currentOffset += 1; + } + } + + function isContainer(node) { + let container; + + if (typeof node.tagName === "undefined") { + return true; + } + + if (node.style && node.style.display === "none") { + return false; + } + + switch (node.tagName) { + // Inline + case "A": + case "ABBR": + case "ACRONYM": + case "B": + case "BDO": + case "BIG": + case "BR": + case "BUTTON": + case "CITE": + case "CODE": + case "DFN": + case "EM": + case "I": + case "IMG": + case "INPUT": + case "KBD": + case "LABEL": + case "MAP": + case "OBJECT": + case "Q": + case "SAMP": + case "SCRIPT": + case "SELECT": + case "SMALL": + case "SPAN": + case "STRONG": + case "SUB": + case "SUP": + case "TEXTAREA": + case "TIME": + case "TT": + case "VAR": + case "P": + case "H1": + case "H2": + case "H3": + case "H4": + case "H5": + case "H6": + case "FIGCAPTION": + case "BLOCKQUOTE": + case "PRE": + case "LI": + case "TD": + case "DT": + case "DD": + case "VIDEO": + case "CANVAS": + container = false; + break; + default: + container = true; + } + + return container; + } + + function cloneNode(n, deep=false) { + return n.cloneNode(deep); + } + + function findElement(node, doc, forceQuery) { + const ref = node.getAttribute("data-ref"); + return findRef(ref, doc, forceQuery); + } + + function findRef(ref, doc, forceQuery) { + if (!forceQuery && doc.indexOfRefs && doc.indexOfRefs[ref]) { + return doc.indexOfRefs[ref]; + } else { + return doc.querySelector(`[data-ref='${ref}']`); + } + } + + function validNode(node) { + if (isText(node)) { + return true; + } + + if (isElement(node) && node.dataset.ref) { + return true; + } + + return false; + } + + function prevValidNode(node) { + while (!validNode(node)) { + if (node.previousSibling) { + node = node.previousSibling; + } else { + node = node.parentNode; + } + + if (!node) { + break; + } + } + + return node; + } + + + function indexOf$2(node) { + let parent = node.parentNode; + if (!parent) { + return 0; + } + return Array.prototype.indexOf.call(parent.childNodes, node); + } + + function child(node, index) { + return node.childNodes[index]; + } + + function hasContent(node) { + if (isElement(node)) { + return true; + } else if (isText(node) && + node.textContent.trim().length) { + return true; + } + return false; + } + + function indexOfTextNode(node, parent) { + if (!isText(node)) { + return -1; + } + let nodeTextContent = node.textContent; + let child; + let index = -1; + for (var i = 0; i < parent.childNodes.length; i++) { + child = parent.childNodes[i]; + if (child.nodeType === 3) { + let text = parent.childNodes[i].textContent; + if (text.includes(nodeTextContent)) { + index = i; + break; + } + } + } + + return index; + } + + + /** + * Throughout, whitespace is defined as one of the characters + * "\t" TAB \u0009 + * "\n" LF \u000A + * "\r" CR \u000D + * " " SPC \u0020 + * + * This does not use Javascript's "\s" because that includes non-breaking + * spaces (and also some other characters). + */ + + /** + * Determine if a node should be ignored by the iterator functions. + * taken from https://developer.mozilla.org/en-US/docs/Web/API/Document_Object_Model/Whitespace#Whitespace_helper_functions + * + * @param {Node} node An object implementing the DOM1 |Node| interface. + * @return {boolean} true if the node is: + * 1) A |Text| node that is all whitespace + * 2) A |Comment| node + * and otherwise false. + */ + function isIgnorable(node) { + return (node.nodeType === 8) || // A comment node + ((node.nodeType === 3) && isAllWhitespace(node)); // a text node, all whitespace + } + + /** + * Determine whether a node's text content is entirely whitespace. + * + * @param {Node} node A node implementing the |CharacterData| interface (i.e., a |Text|, |Comment|, or |CDATASection| node + * @return {boolean} true if all of the text content of |nod| is whitespace, otherwise false. + */ + function isAllWhitespace(node) { + return !(/[^\t\n\r ]/.test(node.textContent)); + } + + /** + * Version of |previousSibling| that skips nodes that are entirely + * whitespace or comments. (Normally |previousSibling| is a property + * of all DOM nodes that gives the sibling node, the node that is + * a child of the same parent, that occurs immediately before the + * reference node.) + * + * @param {ChildNode} sib The reference node. + * @return {Node|null} Either: + * 1) The closest previous sibling to |sib| that is not ignorable according to |is_ignorable|, or + * 2) null if no such node exists. + */ + function previousSignificantNode(sib) { + while ((sib = sib.previousSibling)) { + if (!isIgnorable(sib)) return sib; + } + return null; + } + + function getNodeWithNamedPage(node, limiter) { + if (node && node.dataset && node.dataset.page) { + return node; + } + if (node.parentNode) { + while ((node = node.parentNode)) { + if (limiter && node === limiter) { + return; + } + if (node.dataset && node.dataset.page) { + return node; + } + } + } + return null; + } + + function breakInsideAvoidParentNode(node) { + while ((node = node.parentNode)) { + if (node && node.dataset && node.dataset.breakInside === "avoid") { + return node; + } + } + return null; + } + + /** + * Find a parent with a given node name. + * @param {Node} node - initial Node + * @param {string} nodeName - node name (eg. "TD", "TABLE", "STRONG"...) + * @param {Node} limiter - go up to the parent until there's no more parent or the current node is equals to the limiter + * @returns {Node|undefined} - Either: + * 1) The closest parent for a the given node name, or + * 2) undefined if no such node exists. + */ + function parentOf(node, nodeName, limiter) { + if (limiter && node === limiter) { + return; + } + if (node.parentNode) { + while ((node = node.parentNode)) { + if (limiter && node === limiter) { + return; + } + if (node.nodeName === nodeName) { + return node; + } + } + } + } + + /** + * Version of |nextSibling| that skips nodes that are entirely + * whitespace or comments. + * + * @param {ChildNode} sib The reference node. + * @return {Node|null} Either: + * 1) The closest next sibling to |sib| that is not ignorable according to |is_ignorable|, or + * 2) null if no such node exists. + */ + function nextSignificantNode(sib) { + while ((sib = sib.nextSibling)) { + if (!isIgnorable(sib)) return sib; + } + return null; + } + + function filterTree(content, func, what) { + const treeWalker = document.createTreeWalker( + content || this.dom, + what || NodeFilter.SHOW_ALL, + func ? { acceptNode: func } : null, + false + ); + + let node; + let current; + node = treeWalker.nextNode(); + while(node) { + current = node; + node = treeWalker.nextNode(); + current.parentNode.removeChild(current); + } + } + + /** + * BreakToken + * @class + */ + class BreakToken { + + constructor(node, offset) { + this.node = node; + this.offset = offset; + } + + equals(otherBreakToken) { + if (!otherBreakToken) { + return false; + } + if (this["node"] && otherBreakToken["node"] && + this["node"] !== otherBreakToken["node"]) { + return false; + } + if (this["offset"] && otherBreakToken["offset"] && + this["offset"] !== otherBreakToken["offset"]) { + return false; + } + return true; + } + + toJSON(hash) { + let node; + let index = 0; + if (!this.node) { + return {}; + } + if (isElement(this.node) && this.node.dataset.ref) { + node = this.node.dataset.ref; + } else if (hash) { + node = this.node.parentElement.dataset.ref; + } + + if (this.node.parentElement) { + const children = Array.from(this.node.parentElement.childNodes); + index = children.indexOf(this.node); + } + + return JSON.stringify({ + "node": node, + "index" : index, + "offset": this.offset + }); + } + + } + + /** + * Render result. + * @class + */ + class RenderResult { + + constructor(breakToken, error) { + this.breakToken = breakToken; + this.error = error; + } + } + + class OverflowContentError extends Error { + constructor(message, items) { + super(message); + this.items = items; + } + } + + const MAX_CHARS_PER_BREAK = 1500; + + /** + * Layout + * @class + */ + class Layout { + + constructor(element, hooks, options) { + this.element = element; + + this.bounds = this.element.getBoundingClientRect(); + this.parentBounds = this.element.offsetParent.getBoundingClientRect(); + let gap = parseFloat(window.getComputedStyle(this.element).columnGap); + + if (gap) { + let leftMargin = this.bounds.left - this.parentBounds.left; + this.gap = gap - leftMargin; + } else { + this.gap = 0; + } + + if (hooks) { + this.hooks = hooks; + } else { + this.hooks = {}; + this.hooks.onPageLayout = new Hook(); + this.hooks.layout = new Hook(); + this.hooks.renderNode = new Hook(); + this.hooks.layoutNode = new Hook(); + this.hooks.beforeOverflow = new Hook(); + this.hooks.onOverflow = new Hook(); + this.hooks.afterOverflowRemoved = new Hook(); + this.hooks.onBreakToken = new Hook(); + this.hooks.beforeRenderResult = new Hook(); + } + + this.settings = options || {}; + + this.maxChars = this.settings.maxChars || MAX_CHARS_PER_BREAK; + this.forceRenderBreak = false; + } + + async renderTo(wrapper, source, breakToken, bounds = this.bounds) { + let start = this.getStart(source, breakToken); + let walker = walk$2(start, source); + + let node; + let prevNode; + let done; + let next; + + let hasRenderedContent = false; + let newBreakToken; + + let length = 0; + + let prevBreakToken = breakToken || new BreakToken(start); + + this.hooks && this.hooks.onPageLayout.trigger(wrapper, prevBreakToken, this); + + while (!done && !newBreakToken) { + next = walker.next(); + prevNode = node; + node = next.value; + done = next.done; + + if (!node) { + this.hooks && this.hooks.layout.trigger(wrapper, this); + + let imgs = wrapper.querySelectorAll("img"); + if (imgs.length) { + await this.waitForImages(imgs); + } + + newBreakToken = this.findBreakToken(wrapper, source, bounds, prevBreakToken); + + if (newBreakToken && newBreakToken.equals(prevBreakToken)) { + console.warn("Unable to layout item: ", prevNode); + this.hooks && this.hooks.beforeRenderResult.trigger(undefined, wrapper, this); + return new RenderResult(undefined, new OverflowContentError("Unable to layout item", [prevNode])); + } + + this.rebuildTableFromBreakToken(newBreakToken, wrapper); + + this.hooks && this.hooks.beforeRenderResult.trigger(newBreakToken, wrapper, this); + return new RenderResult(newBreakToken); + } + + this.hooks && this.hooks.layoutNode.trigger(node); + + // Check if the rendered element has a break set + if (hasRenderedContent && this.shouldBreak(node, start)) { + this.hooks && this.hooks.layout.trigger(wrapper, this); + + let imgs = wrapper.querySelectorAll("img"); + if (imgs.length) { + await this.waitForImages(imgs); + } + + newBreakToken = this.findBreakToken(wrapper, source, bounds, prevBreakToken); + + if (!newBreakToken) { + newBreakToken = this.breakAt(node); + } else { + this.rebuildTableFromBreakToken(newBreakToken, wrapper); + } + + if (newBreakToken && newBreakToken.equals(prevBreakToken)) { + console.warn("Unable to layout item: ", node); + let after = newBreakToken.node && nodeAfter(newBreakToken.node); + if (after) { + newBreakToken = new BreakToken(after); + } else { + return new RenderResult(undefined, new OverflowContentError("Unable to layout item", [node])); + } + } + + length = 0; + + break; + } + + if (node.dataset && node.dataset.page) { + let named = node.dataset.page; + let page = this.element.closest(".pagedjs_page"); + page.classList.add("pagedjs_named_page"); + page.classList.add("pagedjs_" + named + "_page"); + + if (!node.dataset.splitFrom) { + page.classList.add("pagedjs_" + named + "_first_page"); + } + } + + // Should the Node be a shallow or deep clone + let shallow = isContainer(node); + + let rendered = this.append(node, wrapper, breakToken, shallow); + + length += rendered.textContent.length; + + // Check if layout has content yet + if (!hasRenderedContent) { + hasRenderedContent = hasContent(node); + } + + // Skip to the next node if a deep clone was rendered + if (!shallow) { + walker = walk$2(nodeAfter(node, source), source); + } + + if (this.forceRenderBreak) { + this.hooks && this.hooks.layout.trigger(wrapper, this); + + newBreakToken = this.findBreakToken(wrapper, source, bounds, prevBreakToken); + + if (!newBreakToken) { + newBreakToken = this.breakAt(node); + } else { + this.rebuildTableFromBreakToken(newBreakToken, wrapper); + } + + length = 0; + this.forceRenderBreak = false; + + break; + } + + // Only check x characters + if (length >= this.maxChars) { + + this.hooks && this.hooks.layout.trigger(wrapper, this); + + let imgs = wrapper.querySelectorAll("img"); + if (imgs.length) { + await this.waitForImages(imgs); + } + + newBreakToken = this.findBreakToken(wrapper, source, bounds, prevBreakToken); + + if (newBreakToken) { + length = 0; + this.rebuildTableFromBreakToken(newBreakToken, wrapper); + } + + if (newBreakToken && newBreakToken.equals(prevBreakToken)) { + console.warn("Unable to layout item: ", node); + let after = newBreakToken.node && nodeAfter(newBreakToken.node); + if (after) { + newBreakToken = new BreakToken(after); + } else { + this.hooks && this.hooks.beforeRenderResult.trigger(undefined, wrapper, this); + return new RenderResult(undefined, new OverflowContentError("Unable to layout item", [node])); + } + } + } + + } + + this.hooks && this.hooks.beforeRenderResult.trigger(newBreakToken, wrapper, this); + return new RenderResult(newBreakToken); + } + + breakAt(node, offset = 0) { + let newBreakToken = new BreakToken( + node, + offset + ); + let breakHooks = this.hooks.onBreakToken.triggerSync(newBreakToken, undefined, node, this); + breakHooks.forEach((newToken) => { + if (typeof newToken != "undefined") { + newBreakToken = newToken; + } + }); + + return newBreakToken; + } + + shouldBreak(node, limiter) { + let previousNode = nodeBefore(node, limiter); + let parentNode = node.parentNode; + let parentBreakBefore = needsBreakBefore(node) && parentNode && !previousNode && needsBreakBefore(parentNode); + let doubleBreakBefore; + + if (parentBreakBefore) { + doubleBreakBefore = node.dataset.breakBefore === parentNode.dataset.breakBefore; + } + + return !doubleBreakBefore && needsBreakBefore(node) || needsPreviousBreakAfter(node) || needsPageBreak(node, previousNode); + } + + forceBreak() { + this.forceRenderBreak = true; + } + + getStart(source, breakToken) { + let start; + let node = breakToken && breakToken.node; + + if (node) { + start = node; + } else { + start = source.firstChild; + } + + return start; + } + + append(node, dest, breakToken, shallow = true, rebuild = true) { + + let clone = cloneNode(node, !shallow); + + if (node.parentNode && isElement(node.parentNode)) { + let parent = findElement(node.parentNode, dest); + // Rebuild chain + if (parent) { + parent.appendChild(clone); + } else if (rebuild) { + let fragment = rebuildAncestors(node); + parent = findElement(node.parentNode, fragment); + if (!parent) { + dest.appendChild(clone); + } else if (breakToken && isText(breakToken.node) && breakToken.offset > 0) { + clone.textContent = clone.textContent.substring(breakToken.offset); + parent.appendChild(clone); + } else { + parent.appendChild(clone); + } + + dest.appendChild(fragment); + } else { + dest.appendChild(clone); + } + + + } else { + dest.appendChild(clone); + } + + if (clone.dataset && clone.dataset.ref) { + if (!dest.indexOfRefs) { + dest.indexOfRefs = {}; + } + dest.indexOfRefs[clone.dataset.ref] = clone; + } + + let nodeHooks = this.hooks.renderNode.triggerSync(clone, node, this); + nodeHooks.forEach((newNode) => { + if (typeof newNode != "undefined") { + clone = newNode; + } + }); + + return clone; + } + + rebuildTableFromBreakToken(breakToken, dest) { + if (!breakToken || !breakToken.node) { + return; + } + let node = breakToken.node; + let td = isElement(node) ? node.closest("td") : node.parentElement.closest("td"); + if (td) { + let rendered = findElement(td, dest, true); + if (!rendered) { + return; + } + while ((td = td.nextElementSibling)) { + this.append(td, dest, null, true); + } + } + } + + async waitForImages(imgs) { + let results = Array.from(imgs).map(async (img) => { + return this.awaitImageLoaded(img); + }); + await Promise.all(results); + } + + async awaitImageLoaded(image) { + return new Promise(resolve => { + if (image.complete !== true) { + image.onload = function () { + let {width, height} = window.getComputedStyle(image); + resolve(width, height); + }; + image.onerror = function (e) { + let {width, height} = window.getComputedStyle(image); + resolve(width, height, e); + }; + } else { + let {width, height} = window.getComputedStyle(image); + resolve(width, height); + } + }); + } + + avoidBreakInside(node, limiter) { + let breakNode; + + if (node === limiter) { + return; + } + + while (node.parentNode) { + node = node.parentNode; + + if (node === limiter) { + break; + } + + if (window.getComputedStyle(node)["break-inside"] === "avoid") { + breakNode = node; + break; + } + + } + return breakNode; + } + + createBreakToken(overflow, rendered, source) { + let container = overflow.startContainer; + let offset = overflow.startOffset; + let node, renderedNode, parent, index, temp; + + if (isElement(container)) { + temp = child(container, offset); + + if (isElement(temp)) { + renderedNode = findElement(temp, rendered); + + if (!renderedNode) { + // Find closest element with data-ref + let prevNode = prevValidNode(temp); + if (!isElement(prevNode)) { + prevNode = prevNode.parentElement; + } + renderedNode = findElement(prevNode, rendered); + // Check if temp is the last rendered node at its level. + if (!temp.nextSibling) { + // We need to ensure that the previous sibling of temp is fully rendered. + const renderedNodeFromSource = findElement(renderedNode, source); + const walker = document.createTreeWalker(renderedNodeFromSource, NodeFilter.SHOW_ELEMENT); + const lastChildOfRenderedNodeFromSource = walker.lastChild(); + const lastChildOfRenderedNodeMatchingFromRendered = findElement(lastChildOfRenderedNodeFromSource, rendered); + // Check if we found that the last child in source + if (!lastChildOfRenderedNodeMatchingFromRendered) { + // Pending content to be rendered before virtual break token + return; + } + // Otherwise we will return a break token as per below + } + // renderedNode is actually the last unbroken box that does not overflow. + // Break Token is therefore the next sibling of renderedNode within source node. + node = findElement(renderedNode, source).nextSibling; + offset = 0; + } else { + node = findElement(renderedNode, source); + offset = 0; + } + } else { + renderedNode = findElement(container, rendered); + + if (!renderedNode) { + renderedNode = findElement(prevValidNode(container), rendered); + } + + parent = findElement(renderedNode, source); + index = indexOfTextNode(temp, parent); + // No seperatation for the first textNode of an element + if(index === 0) { + node = parent; + offset = 0; + } else { + node = child(parent, index); + offset = 0; + } + } + } else { + renderedNode = findElement(container.parentNode, rendered); + + if (!renderedNode) { + renderedNode = findElement(prevValidNode(container.parentNode), rendered); + } + + parent = findElement(renderedNode, source); + index = indexOfTextNode(container, parent); + + if (index === -1) { + return; + } + + node = child(parent, index); + + offset += node.textContent.indexOf(container.textContent); + } + + if (!node) { + return; + } + + return new BreakToken( + node, + offset + ); + + } + + findBreakToken(rendered, source, bounds = this.bounds, prevBreakToken, extract = true) { + let overflow = this.findOverflow(rendered, bounds); + let breakToken, breakLetter; + + let overflowHooks = this.hooks.onOverflow.triggerSync(overflow, rendered, bounds, this); + overflowHooks.forEach((newOverflow) => { + if (typeof newOverflow != "undefined") { + overflow = newOverflow; + } + }); + + if (overflow) { + breakToken = this.createBreakToken(overflow, rendered, source); + // breakToken is nullable + let breakHooks = this.hooks.onBreakToken.triggerSync(breakToken, overflow, rendered, this); + breakHooks.forEach((newToken) => { + if (typeof newToken != "undefined") { + breakToken = newToken; + } + }); + + // Stop removal if we are in a loop + if (breakToken && breakToken.equals(prevBreakToken)) { + return breakToken; + } + + if (breakToken && breakToken["node"] && breakToken["offset"] && breakToken["node"].textContent) { + breakLetter = breakToken["node"].textContent.charAt(breakToken["offset"]); + } else { + breakLetter = undefined; + } + + if (breakToken && breakToken.node && extract) { + let removed = this.removeOverflow(overflow, breakLetter); + this.hooks && this.hooks.afterOverflowRemoved.trigger(removed, rendered, this); + } + + } + return breakToken; + } + + hasOverflow(element, bounds = this.bounds) { + let constrainingElement = element && element.parentNode; // this gets the element, instead of the wrapper for the width workaround + let {width, height} = element.getBoundingClientRect(); + let scrollWidth = constrainingElement ? constrainingElement.scrollWidth : 0; + let scrollHeight = constrainingElement ? constrainingElement.scrollHeight : 0; + return Math.max(Math.floor(width), scrollWidth) > Math.round(bounds.width) || + Math.max(Math.floor(height), scrollHeight) > Math.round(bounds.height); + } + + findOverflow(rendered, bounds = this.bounds, gap = this.gap) { + if (!this.hasOverflow(rendered, bounds)) return; + + let start = Math.floor(bounds.left); + let end = Math.round(bounds.right + gap); + let vStart = Math.round(bounds.top); + let vEnd = Math.round(bounds.bottom); + let range; + + let walker = walk$2(rendered.firstChild, rendered); + + // Find Start + let next, done, node, offset, skip, breakAvoid, prev, br; + while (!done) { + next = walker.next(); + done = next.done; + node = next.value; + skip = false; + breakAvoid = false; + prev = undefined; + br = undefined; + + if (node) { + let pos = getBoundingClientRect(node); + let left = Math.round(pos.left); + let right = Math.floor(pos.right); + let top = Math.round(pos.top); + let bottom = Math.floor(pos.bottom); + + if (!range && (left >= end || top >= vEnd)) { + // Check if it is a float + let isFloat = false; + + // Check if the node is inside a break-inside: avoid table cell + const insideTableCell = parentOf(node, "TD", rendered); + if (insideTableCell && window.getComputedStyle(insideTableCell)["break-inside"] === "avoid") { + // breaking inside a table cell produces unexpected result, as a workaround, we forcibly avoid break inside in a cell. + // But we take the whole row, not just the cell that is causing the break. + prev = insideTableCell.parentElement; + } else if (isElement(node)) { + let styles = window.getComputedStyle(node); + isFloat = styles.getPropertyValue("float") !== "none"; + skip = styles.getPropertyValue("break-inside") === "avoid"; + breakAvoid = node.dataset.breakBefore === "avoid" || node.dataset.previousBreakAfter === "avoid"; + prev = breakAvoid && nodeBefore(node, rendered); + br = node.tagName === "BR" || node.tagName === "WBR"; + } + + let tableRow; + if (node.nodeName === "TR") { + tableRow = node; + } else { + tableRow = parentOf(node, "TR", rendered); + } + if (tableRow) { + // honor break-inside="avoid" in parent tbody/thead + let container = tableRow.parentElement; + if (["TBODY", "THEAD"].includes(container.nodeName)) { + let styles = window.getComputedStyle(container); + if (styles.getPropertyValue("break-inside") === "avoid") prev = container; + } + + // Check if the node is inside a row with a rowspan + const table = parentOf(tableRow, "TABLE", rendered); + const rowspan = table.querySelector("[colspan]"); + if (table && rowspan) { + let columnCount = 0; + for (const cell of Array.from(table.rows[0].cells)) { + columnCount += parseInt(cell.getAttribute("colspan") || "1"); + } + if (tableRow.cells.length !== columnCount) { + let previousRow = tableRow.previousElementSibling; + let previousRowColumnCount; + while (previousRow !== null) { + previousRowColumnCount = 0; + for (const cell of Array.from(previousRow.cells)) { + previousRowColumnCount += parseInt(cell.getAttribute("colspan") || "1"); + } + if (previousRowColumnCount === columnCount) { + break; + } + previousRow = previousRow.previousElementSibling; + } + if (previousRowColumnCount === columnCount) { + prev = previousRow; + } + } + } + } + + if (prev) { + range = document.createRange(); + range.selectNode(prev); + break; + } + + if (!br && !isFloat && isElement(node)) { + range = document.createRange(); + range.selectNode(node); + break; + } + + if (isText(node) && node.textContent.trim().length) { + range = document.createRange(); + range.selectNode(node); + break; + } + + } + + if (!range && isText(node) && + node.textContent.trim().length && + !breakInsideAvoidParentNode(node.parentNode)) { + + let rects = getClientRects(node); + let rect; + left = 0; + top = 0; + for (var i = 0; i != rects.length; i++) { + rect = rects[i]; + if (rect.width > 0 && (!left || rect.left > left)) { + left = rect.left; + } + if (rect.height > 0 && (!top || rect.top > top)) { + top = rect.top; + } + } + + if (left >= end || top >= vEnd) { + range = document.createRange(); + offset = this.textBreak(node, start, end, vStart, vEnd); + if (!offset) { + range = undefined; + } else { + range.setStart(node, offset); + } + break; + } + } + + // Skip children + if (skip || (right <= end && bottom <= vEnd)) { + next = nodeAfter(node, rendered); + if (next) { + walker = walk$2(next, rendered); + } + + } + + } + } + + // Find End + if (range) { + range.setEndAfter(rendered.lastChild); + return range; + } + + } + + findEndToken(rendered, source) { + if (rendered.childNodes.length === 0) { + return; + } + + let lastChild = rendered.lastChild; + + let lastNodeIndex; + while (lastChild && lastChild.lastChild) { + if (!validNode(lastChild)) { + // Only get elements with refs + lastChild = lastChild.previousSibling; + } else if (!validNode(lastChild.lastChild)) { + // Deal with invalid dom items + lastChild = prevValidNode(lastChild.lastChild); + break; + } else { + lastChild = lastChild.lastChild; + } + } + + if (isText(lastChild)) { + + if (lastChild.parentNode.dataset.ref) { + lastNodeIndex = indexOf$2(lastChild); + lastChild = lastChild.parentNode; + } else { + lastChild = lastChild.previousSibling; + } + } + + let original = findElement(lastChild, source); + + if (lastNodeIndex) { + original = original.childNodes[lastNodeIndex]; + } + + let after = nodeAfter(original); + + return this.breakAt(after); + } + + textBreak(node, start, end, vStart, vEnd) { + let wordwalker = words(node); + let left = 0; + let right = 0; + let top = 0; + let bottom = 0; + let word, next, done, pos; + let offset; + while (!done) { + next = wordwalker.next(); + word = next.value; + done = next.done; + + if (!word) { + break; + } + + pos = getBoundingClientRect(word); + + left = Math.floor(pos.left); + right = Math.floor(pos.right); + top = Math.floor(pos.top); + bottom = Math.floor(pos.bottom); + + if (left >= end || top >= vEnd) { + offset = word.startOffset; + break; + } + + if (right > end || bottom > vEnd) { + let letterwalker = letters(word); + let letter, nextLetter, doneLetter; + + while (!doneLetter) { + nextLetter = letterwalker.next(); + letter = nextLetter.value; + doneLetter = nextLetter.done; + + if (!letter) { + break; + } + + pos = getBoundingClientRect(letter); + left = Math.floor(pos.left); + top = Math.floor(pos.top); + + if (left >= end || top >= vEnd) { + offset = letter.startOffset; + done = true; + + break; + } + } + } + + } + + return offset; + } + + removeOverflow(overflow, breakLetter) { + let {startContainer} = overflow; + let extracted = overflow.extractContents(); + + this.hyphenateAtBreak(startContainer, breakLetter); + + return extracted; + } + + hyphenateAtBreak(startContainer, breakLetter) { + if (isText(startContainer)) { + let startText = startContainer.textContent; + let prevLetter = startText[startText.length - 1]; + + // Add a hyphen if previous character is a letter or soft hyphen + if ( + (breakLetter && /^\w|\u00AD$/.test(prevLetter) && /^\w|\u00AD$/.test(breakLetter)) || + (!breakLetter && /^\w|\u00AD$/.test(prevLetter)) + ) { + startContainer.parentNode.classList.add("pagedjs_hyphen"); + startContainer.textContent += this.settings.hyphenGlyph || "\u2011"; + } + } + } + + equalTokens(a, b) { + if (!a || !b) { + return false; + } + if (a["node"] && b["node"] && a["node"] !== b["node"]) { + return false; + } + if (a["offset"] && b["offset"] && a["offset"] !== b["offset"]) { + return false; + } + return true; + } + } + + EventEmitter(Layout.prototype); + + /** + * Render a page + * @class + */ + class Page { + constructor(pagesArea, pageTemplate, blank, hooks, options) { + this.pagesArea = pagesArea; + this.pageTemplate = pageTemplate; + this.blank = blank; + + this.width = undefined; + this.height = undefined; + + this.hooks = hooks; + + this.settings = options || {}; + + // this.element = this.create(this.pageTemplate); + } + + create(template, after) { + //let documentFragment = document.createRange().createContextualFragment( TEMPLATE ); + //let page = documentFragment.children[0]; + let clone = document.importNode(this.pageTemplate.content, true); + + let page, index; + if (after) { + this.pagesArea.insertBefore(clone, after.nextElementSibling); + index = Array.prototype.indexOf.call(this.pagesArea.children, after.nextElementSibling); + page = this.pagesArea.children[index]; + } else { + this.pagesArea.appendChild(clone); + page = this.pagesArea.lastChild; + } + + let pagebox = page.querySelector(".pagedjs_pagebox"); + let area = page.querySelector(".pagedjs_page_content"); + let footnotesArea = page.querySelector(".pagedjs_footnote_area"); + + + let size = area.getBoundingClientRect(); + + + area.style.columnWidth = Math.round(size.width) + "px"; + area.style.columnGap = "calc(var(--pagedjs-margin-right) + var(--pagedjs-margin-left) + var(--pagedjs-bleed-right) + var(--pagedjs-bleed-left) + var(--pagedjs-column-gap-offset))"; + // area.style.overflow = "scroll"; + + this.width = Math.round(size.width); + this.height = Math.round(size.height); + + this.element = page; + this.pagebox = pagebox; + this.area = area; + this.footnotesArea = footnotesArea; + + return page; + } + + createWrapper() { + let wrapper = document.createElement("div"); + + this.area.appendChild(wrapper); + + this.wrapper = wrapper; + + return wrapper; + } + + index(pgnum) { + this.position = pgnum; + + let page = this.element; + // let pagebox = this.pagebox; + + let index = pgnum + 1; + + let id = `page-${index}`; + + this.id = id; + + // page.dataset.pageNumber = index; + + page.dataset.pageNumber = index; + page.setAttribute("id", id); + + if (this.name) { + page.classList.add("pagedjs_" + this.name + "_page"); + } + + if (this.blank) { + page.classList.add("pagedjs_blank_page"); + } + + if (pgnum === 0) { + page.classList.add("pagedjs_first_page"); + } + + if (pgnum % 2 !== 1) { + page.classList.remove("pagedjs_left_page"); + page.classList.add("pagedjs_right_page"); + } else { + page.classList.remove("pagedjs_right_page"); + page.classList.add("pagedjs_left_page"); + } + } + + /* + size(width, height) { + if (width === this.width && height === this.height) { + return; + } + this.width = width; + this.height = height; + + this.element.style.width = Math.round(width) + "px"; + this.element.style.height = Math.round(height) + "px"; + this.element.style.columnWidth = Math.round(width) + "px"; + } + */ + + async layout(contents, breakToken, maxChars) { + + this.clear(); + + this.startToken = breakToken; + + let settings = this.settings; + if (!settings.maxChars && maxChars) { + settings.maxChars = maxChars; + } + + this.layoutMethod = new Layout(this.area, this.hooks, settings); + + let renderResult = await this.layoutMethod.renderTo(this.wrapper, contents, breakToken); + let newBreakToken = renderResult.breakToken; + + this.addListeners(contents); + + this.endToken = newBreakToken; + + return newBreakToken; + } + + async append(contents, breakToken) { + + if (!this.layoutMethod) { + return this.layout(contents, breakToken); + } + + let renderResult = await this.layoutMethod.renderTo(this.wrapper, contents, breakToken); + let newBreakToken = renderResult.breakToken; + + this.endToken = newBreakToken; + + return newBreakToken; + } + + getByParent(ref, entries) { + let e; + for (var i = 0; i < entries.length; i++) { + e = entries[i]; + if (e.dataset.ref === ref) { + return e; + } + } + } + + onOverflow(func) { + this._onOverflow = func; + } + + onUnderflow(func) { + this._onUnderflow = func; + } + + clear() { + this.removeListeners(); + this.wrapper && this.wrapper.remove(); + this.createWrapper(); + } + + addListeners(contents) { + if (typeof ResizeObserver !== "undefined") { + this.addResizeObserver(contents); + } else { + this._checkOverflowAfterResize = this.checkOverflowAfterResize.bind(this, contents); + this.element.addEventListener("overflow", this._checkOverflowAfterResize, false); + this.element.addEventListener("underflow", this._checkOverflowAfterResize, false); + } + // TODO: fall back to mutation observer? + + this._onScroll = function () { + if (this.listening) { + this.element.scrollLeft = 0; + } + }.bind(this); + + // Keep scroll left from changing + this.element.addEventListener("scroll", this._onScroll); + + this.listening = true; + + return true; + } + + removeListeners() { + this.listening = false; + + if (typeof ResizeObserver !== "undefined" && this.ro) { + this.ro.disconnect(); + } else if (this.element) { + this.element.removeEventListener("overflow", this._checkOverflowAfterResize, false); + this.element.removeEventListener("underflow", this._checkOverflowAfterResize, false); + } + + this.element && this.element.removeEventListener("scroll", this._onScroll); + + } + + addResizeObserver(contents) { + let wrapper = this.wrapper; + let prevHeight = wrapper.getBoundingClientRect().height; + this.ro = new ResizeObserver(entries => { + + if (!this.listening) { + return; + } + requestAnimationFrame(() => { + for (let entry of entries) { + const cr = entry.contentRect; + + if (cr.height > prevHeight) { + this.checkOverflowAfterResize(contents); + prevHeight = wrapper.getBoundingClientRect().height; + } else if (cr.height < prevHeight) { // TODO: calc line height && (prevHeight - cr.height) >= 22 + this.checkUnderflowAfterResize(contents); + prevHeight = cr.height; + } + } + }); + }); + + this.ro.observe(wrapper); + } + + checkOverflowAfterResize(contents) { + if (!this.listening || !this.layoutMethod) { + return; + } + + let newBreakToken = this.layoutMethod.findBreakToken(this.wrapper, contents, this.startToken); + + if (newBreakToken) { + this.endToken = newBreakToken; + this._onOverflow && this._onOverflow(newBreakToken); + } + } + + checkUnderflowAfterResize(contents) { + if (!this.listening || !this.layoutMethod) { + return; + } + + let endToken = this.layoutMethod.findEndToken(this.wrapper, contents); + + if (endToken) { + this._onUnderflow && this._onUnderflow(endToken); + } + } + + + destroy() { + this.removeListeners(); + + this.element.remove(); + + this.element = undefined; + this.wrapper = undefined; + } + } + + EventEmitter(Page.prototype); + + /** + * Render a flow of text offscreen + * @class + */ + class ContentParser { + + constructor(content, cb) { + if (content && content.nodeType) { + // handle dom + this.dom = this.add(content); + } else if (typeof content === "string") { + this.dom = this.parse(content); + } + + return this.dom; + } + + parse(markup, mime) { + let range = document.createRange(); + let fragment = range.createContextualFragment(markup); + + this.addRefs(fragment); + + return fragment; + } + + add(contents) { + // let fragment = document.createDocumentFragment(); + // + // let children = [...contents.childNodes]; + // for (let child of children) { + // let clone = child.cloneNode(true); + // fragment.appendChild(clone); + // } + + this.addRefs(contents); + + return contents; + } + + addRefs(content) { + var treeWalker = document.createTreeWalker( + content, + NodeFilter.SHOW_ELEMENT, + null, + false + ); + + let node = treeWalker.nextNode(); + while(node) { + + if (!node.hasAttribute("data-ref")) { + let uuid = UUID(); + node.setAttribute("data-ref", uuid); + } + + if (node.id) { + node.setAttribute("data-id", node.id); + } + + // node.setAttribute("data-children", node.childNodes.length); + + // node.setAttribute("data-text", node.textContent.trim().length); + node = treeWalker.nextNode(); + } + } + + find(ref) { + return this.refs[ref]; + } + + destroy() { + this.refs = undefined; + this.dom = undefined; + } + } + + /** + * Queue for handling tasks one at a time + * @class + * @param {scope} context what this will resolve to in the tasks + */ + class Queue { + constructor(context){ + this._q = []; + this.context = context; + this.tick = requestAnimationFrame; + this.running = false; + this.paused = false; + } + + /** + * Add an item to the queue + * @return {Promise} enqueued + */ + enqueue() { + var deferred, promise; + var queued; + var task = [].shift.call(arguments); + var args = arguments; + + // Handle single args without context + // if(args && !Array.isArray(args)) { + // args = [args]; + // } + if(!task) { + throw new Error("No Task Provided"); + } + + if(typeof task === "function"){ + + deferred = new defer(); + promise = deferred.promise; + + queued = { + "task" : task, + "args" : args, + //"context" : context, + "deferred" : deferred, + "promise" : promise + }; + + } else { + // Task is a promise + queued = { + "promise" : task + }; + + } + + this._q.push(queued); + + // Wait to start queue flush + if (this.paused == false && !this.running) { + this.run(); + } + + return queued.promise; + } + + /** + * Run one item + * @return {Promise} dequeued + */ + dequeue(){ + var inwait, task, result; + + if(this._q.length && !this.paused) { + inwait = this._q.shift(); + task = inwait.task; + if(task){ + // console.log(task) + + result = task.apply(this.context, inwait.args); + + if(result && typeof result["then"] === "function") { + // Task is a function that returns a promise + return result.then(function(){ + inwait.deferred.resolve.apply(this.context, arguments); + }.bind(this), function() { + inwait.deferred.reject.apply(this.context, arguments); + }.bind(this)); + } else { + // Task resolves immediately + inwait.deferred.resolve.apply(this.context, result); + return inwait.promise; + } + + + + } else if(inwait.promise) { + // Task is a promise + return inwait.promise; + } + + } else { + inwait = new defer(); + inwait.deferred.resolve(); + return inwait.promise; + } + + } + + // Run All Immediately + dump(){ + while(this._q.length) { + this.dequeue(); + } + } + + /** + * Run all tasks sequentially, at convince + * @return {Promise} all run + */ + run(){ + + if(!this.running){ + this.running = true; + this.defered = new defer(); + } + + this.tick.call(window, () => { + + if(this._q.length) { + + this.dequeue() + .then(function(){ + this.run(); + }.bind(this)); + + } else { + this.defered.resolve(); + this.running = undefined; + } + + }); + + // Unpause + if(this.paused == true) { + this.paused = false; + } + + return this.defered.promise; + } + + /** + * Flush all, as quickly as possible + * @return {Promise} ran + */ + flush(){ + + if(this.running){ + return this.running; + } + + if(this._q.length) { + this.running = this.dequeue() + .then(function(){ + this.running = undefined; + return this.flush(); + }.bind(this)); + + return this.running; + } + + } + + /** + * Clear all items in wait + * @return {void} + */ + clear(){ + this._q = []; + } + + /** + * Get the number of tasks in the queue + * @return {number} tasks + */ + length(){ + return this._q.length; + } + + /** + * Pause a running queue + * @return {void} + */ + pause(){ + this.paused = true; + } + + /** + * End the queue + * @return {void} + */ + stop(){ + this._q = []; + this.running = false; + this.paused = true; + } + } + + const TEMPLATE = ` +
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`; + + /** + * Chop up text into flows + * @class + */ + class Chunker { + constructor(content, renderTo, options) { + // this.preview = preview; + + this.settings = options || {}; + + this.hooks = {}; + this.hooks.beforeParsed = new Hook(this); + this.hooks.filter = new Hook(this); + this.hooks.afterParsed = new Hook(this); + this.hooks.beforePageLayout = new Hook(this); + this.hooks.onPageLayout = new Hook(this); + this.hooks.layout = new Hook(this); + this.hooks.renderNode = new Hook(this); + this.hooks.layoutNode = new Hook(this); + this.hooks.onOverflow = new Hook(this); + this.hooks.afterOverflowRemoved = new Hook(this); + this.hooks.onBreakToken = new Hook(); + this.hooks.beforeRenderResult = new Hook(this); + this.hooks.afterPageLayout = new Hook(this); + this.hooks.finalizePage = new Hook(this); + this.hooks.afterRendered = new Hook(this); + + this.pages = []; + this.total = 0; + + this.q = new Queue(this); + this.stopped = false; + this.rendered = false; + + this.content = content; + + this.charsPerBreak = []; + this.maxChars; + + if (content) { + this.flow(content, renderTo); + } + } + + setup(renderTo) { + this.pagesArea = document.createElement("div"); + this.pagesArea.classList.add("pagedjs_pages"); + + if (renderTo) { + renderTo.appendChild(this.pagesArea); + } else { + document.querySelector("body").appendChild(this.pagesArea); + } + + this.pageTemplate = document.createElement("template"); + this.pageTemplate.innerHTML = TEMPLATE; + + } + + async flow(content, renderTo) { + let parsed; + + await this.hooks.beforeParsed.trigger(content, this); + + parsed = new ContentParser(content); + + this.hooks.filter.triggerSync(parsed); + + this.source = parsed; + this.breakToken = undefined; + + if (this.pagesArea && this.pageTemplate) { + this.q.clear(); + this.removePages(); + } else { + this.setup(renderTo); + } + + this.emit("rendering", parsed); + + await this.hooks.afterParsed.trigger(parsed, this); + + await this.loadFonts(); + + let rendered = await this.render(parsed, this.breakToken); + while (rendered.canceled) { + this.start(); + rendered = await this.render(parsed, this.breakToken); + } + + this.rendered = true; + this.pagesArea.style.setProperty("--pagedjs-page-count", this.total); + + await this.hooks.afterRendered.trigger(this.pages, this); + + this.emit("rendered", this.pages); + + + + return this; + } + + // oversetPages() { + // let overset = []; + // for (let i = 0; i < this.pages.length; i++) { + // let page = this.pages[i]; + // if (page.overset) { + // overset.push(page); + // // page.overset = false; + // } + // } + // return overset; + // } + // + // async handleOverset(parsed) { + // let overset = this.oversetPages(); + // if (overset.length) { + // console.log("overset", overset); + // let index = this.pages.indexOf(overset[0]) + 1; + // console.log("INDEX", index); + // + // // Remove pages + // // this.removePages(index); + // + // // await this.render(parsed, overset[0].overset); + // + // // return this.handleOverset(parsed); + // } + // } + + async render(parsed, startAt) { + let renderer = this.layout(parsed, startAt); + + let done = false; + let result; + while (!done) { + result = await this.q.enqueue(() => { return this.renderAsync(renderer); }); + done = result.done; + } + + return result; + } + + start() { + this.rendered = false; + this.stopped = false; + } + + stop() { + this.stopped = true; + // this.q.clear(); + } + + renderOnIdle(renderer) { + return new Promise(resolve => { + requestIdleCallback(async () => { + if (this.stopped) { + return resolve({ done: true, canceled: true }); + } + let result = await renderer.next(); + if (this.stopped) { + resolve({ done: true, canceled: true }); + } else { + resolve(result); + } + }); + }); + } + + async renderAsync(renderer) { + if (this.stopped) { + return { done: true, canceled: true }; + } + let result = await renderer.next(); + if (this.stopped) { + return { done: true, canceled: true }; + } else { + return result; + } + } + + async handleBreaks(node, force) { + let currentPage = this.total + 1; + let currentPosition = currentPage % 2 === 0 ? "left" : "right"; + // TODO: Recto and Verso should reverse for rtl languages + let currentSide = currentPage % 2 === 0 ? "verso" : "recto"; + let previousBreakAfter; + let breakBefore; + let page; + + if (currentPage === 1) { + return; + } + + if (node && + typeof node.dataset !== "undefined" && + typeof node.dataset.previousBreakAfter !== "undefined") { + previousBreakAfter = node.dataset.previousBreakAfter; + } + + if (node && + typeof node.dataset !== "undefined" && + typeof node.dataset.breakBefore !== "undefined") { + breakBefore = node.dataset.breakBefore; + } + + if (force) { + page = this.addPage(true); + } else if( previousBreakAfter && + (previousBreakAfter === "left" || previousBreakAfter === "right") && + previousBreakAfter !== currentPosition) { + page = this.addPage(true); + } else if( previousBreakAfter && + (previousBreakAfter === "verso" || previousBreakAfter === "recto") && + previousBreakAfter !== currentSide) { + page = this.addPage(true); + } else if( breakBefore && + (breakBefore === "left" || breakBefore === "right") && + breakBefore !== currentPosition) { + page = this.addPage(true); + } else if( breakBefore && + (breakBefore === "verso" || breakBefore === "recto") && + breakBefore !== currentSide) { + page = this.addPage(true); + } + + if (page) { + await this.hooks.beforePageLayout.trigger(page, undefined, undefined, this); + this.emit("page", page); + // await this.hooks.layout.trigger(page.element, page, undefined, this); + await this.hooks.afterPageLayout.trigger(page.element, page, undefined, this); + await this.hooks.finalizePage.trigger(page.element, page, undefined, this); + this.emit("renderedPage", page); + } + } + + async *layout(content, startAt) { + let breakToken = startAt || false; + let tokens = []; + + while (breakToken !== undefined && (true)) { + + if (breakToken && breakToken.node) { + await this.handleBreaks(breakToken.node); + } else { + await this.handleBreaks(content.firstChild); + } + + let page = this.addPage(); + + await this.hooks.beforePageLayout.trigger(page, content, breakToken, this); + this.emit("page", page); + + // Layout content in the page, starting from the breakToken + breakToken = await page.layout(content, breakToken, this.maxChars); + + if (breakToken) { + let newToken = breakToken.toJSON(true); + if (tokens.lastIndexOf(newToken) > -1) { + // loop + let err = new OverflowContentError("Layout repeated", [breakToken.node]); + console.error("Layout repeated at: ", breakToken.node); + return err; + } else { + tokens.push(newToken); + } + } + + await this.hooks.afterPageLayout.trigger(page.element, page, breakToken, this); + await this.hooks.finalizePage.trigger(page.element, page, undefined, this); + this.emit("renderedPage", page); + + this.recoredCharLength(page.wrapper.textContent.length); + + yield breakToken; + + // Stop if we get undefined, showing we have reached the end of the content + } + + + } + + recoredCharLength(length) { + if (length === 0) { + return; + } + + this.charsPerBreak.push(length); + + // Keep the length of the last few breaks + if (this.charsPerBreak.length > 4) { + this.charsPerBreak.shift(); + } + + this.maxChars = this.charsPerBreak.reduce((a, b) => a + b, 0) / (this.charsPerBreak.length); + } + + removePages(fromIndex=0) { + + if (fromIndex >= this.pages.length) { + return; + } + + // Remove pages + for (let i = fromIndex; i < this.pages.length; i++) { + this.pages[i].destroy(); + } + + if (fromIndex > 0) { + this.pages.splice(fromIndex); + } else { + this.pages = []; + } + + this.total = this.pages.length; + } + + addPage(blank) { + let lastPage = this.pages[this.pages.length - 1]; + // Create a new page from the template + let page = new Page(this.pagesArea, this.pageTemplate, blank, this.hooks, this.settings); + + this.pages.push(page); + + // Create the pages + page.create(undefined, lastPage && lastPage.element); + + page.index(this.total); + + if (!blank) { + // Listen for page overflow + page.onOverflow((overflowToken) => { + console.warn("overflow on", page.id, overflowToken); + + // Only reflow while rendering + if (this.rendered) { + return; + } + + let index = this.pages.indexOf(page) + 1; + + // Stop the rendering + this.stop(); + + // Set the breakToken to resume at + this.breakToken = overflowToken; + + // Remove pages + this.removePages(index); + + if (this.rendered === true) { + this.rendered = false; + + this.q.enqueue(async () => { + + this.start(); + + await this.render(this.source, this.breakToken); + + this.rendered = true; + + }); + } + + + }); + + page.onUnderflow((overflowToken) => { + // console.log("underflow on", page.id, overflowToken); + + // page.append(this.source, overflowToken); + + }); + } + + this.total = this.pages.length; + + return page; + } + /* + insertPage(index, blank) { + let lastPage = this.pages[index]; + // Create a new page from the template + let page = new Page(this.pagesArea, this.pageTemplate, blank, this.hooks); + + let total = this.pages.splice(index, 0, page); + + // Create the pages + page.create(undefined, lastPage && lastPage.element); + + page.index(index + 1); + + for (let i = index + 2; i < this.pages.length; i++) { + this.pages[i].index(i); + } + + if (!blank) { + // Listen for page overflow + page.onOverflow((overflowToken) => { + if (total < this.pages.length) { + this.pages[total].layout(this.source, overflowToken); + } else { + let newPage = this.addPage(); + newPage.layout(this.source, overflowToken); + } + }); + + page.onUnderflow(() => { + // console.log("underflow on", page.id); + }); + } + + this.total += 1; + + return page; + } + */ + + async clonePage(originalPage) { + let lastPage = this.pages[this.pages.length - 1]; + + let page = new Page(this.pagesArea, this.pageTemplate, false, this.hooks); + + this.pages.push(page); + + // Create the pages + page.create(undefined, lastPage && lastPage.element); + + page.index(this.total); + + await this.hooks.beforePageLayout.trigger(page, undefined, undefined, this); + this.emit("page", page); + + for (const className of originalPage.element.classList) { + if (className !== "pagedjs_left_page" && className !== "pagedjs_right_page") { + page.element.classList.add(className); + } + } + + await this.hooks.afterPageLayout.trigger(page.element, page, undefined, this); + await this.hooks.finalizePage.trigger(page.element, page, undefined, this); + this.emit("renderedPage", page); + } + + loadFonts() { + let fontPromises = []; + (document.fonts || []).forEach((fontFace) => { + if (fontFace.status !== "loaded") { + let fontLoaded = fontFace.load().then((r) => { + return fontFace.family; + }, (r) => { + console.warn("Failed to preload font-family:", fontFace.family); + return fontFace.family; + }); + fontPromises.push(fontLoaded); + } + }); + return Promise.all(fontPromises).catch((err) => { + console.warn(err); + }); + } + + destroy() { + this.pagesArea.remove(); + this.pageTemplate.remove(); + } + + } + + EventEmitter(Chunker.prototype); + + var syntax = {exports: {}}; + + var create$4 = {}; + + // + // list + // ┌──────┐ + // ┌──────────────┼─head │ + // │ │ tail─┼──────────────┐ + // │ └──────┘ │ + // ▼ ▼ + // item item item item + // ┌──────┐ ┌──────┐ ┌──────┐ ┌──────┐ + // null ◀──┼─prev │◀───┼─prev │◀───┼─prev │◀───┼─prev │ + // │ next─┼───▶│ next─┼───▶│ next─┼───▶│ next─┼──▶ null + // ├──────┤ ├──────┤ ├──────┤ ├──────┤ + // │ data │ │ data │ │ data │ │ data │ + // └──────┘ └──────┘ └──────┘ └──────┘ + // + + function createItem(data) { + return { + prev: null, + next: null, + data: data + }; + } + + function allocateCursor(node, prev, next) { + var cursor; + + if (cursors !== null) { + cursor = cursors; + cursors = cursors.cursor; + cursor.prev = prev; + cursor.next = next; + cursor.cursor = node.cursor; + } else { + cursor = { + prev: prev, + next: next, + cursor: node.cursor + }; + } + + node.cursor = cursor; + + return cursor; + } + + function releaseCursor(node) { + var cursor = node.cursor; + + node.cursor = cursor.cursor; + cursor.prev = null; + cursor.next = null; + cursor.cursor = cursors; + cursors = cursor; + } + + var cursors = null; + var List$6 = function() { + this.cursor = null; + this.head = null; + this.tail = null; + }; + + List$6.createItem = createItem; + List$6.prototype.createItem = createItem; + + List$6.prototype.updateCursors = function(prevOld, prevNew, nextOld, nextNew) { + var cursor = this.cursor; + + while (cursor !== null) { + if (cursor.prev === prevOld) { + cursor.prev = prevNew; + } + + if (cursor.next === nextOld) { + cursor.next = nextNew; + } + + cursor = cursor.cursor; + } + }; + + List$6.prototype.getSize = function() { + var size = 0; + var cursor = this.head; + + while (cursor) { + size++; + cursor = cursor.next; + } + + return size; + }; + + List$6.prototype.fromArray = function(array) { + var cursor = null; + + this.head = null; + + for (var i = 0; i < array.length; i++) { + var item = createItem(array[i]); + + if (cursor !== null) { + cursor.next = item; + } else { + this.head = item; + } + + item.prev = cursor; + cursor = item; + } + + this.tail = cursor; + + return this; + }; + + List$6.prototype.toArray = function() { + var cursor = this.head; + var result = []; + + while (cursor) { + result.push(cursor.data); + cursor = cursor.next; + } + + return result; + }; + + List$6.prototype.toJSON = List$6.prototype.toArray; + + List$6.prototype.isEmpty = function() { + return this.head === null; + }; + + List$6.prototype.first = function() { + return this.head && this.head.data; + }; + + List$6.prototype.last = function() { + return this.tail && this.tail.data; + }; + + List$6.prototype.each = function(fn, context) { + var item; + + if (context === undefined) { + context = this; + } + + // push cursor + var cursor = allocateCursor(this, null, this.head); + + while (cursor.next !== null) { + item = cursor.next; + cursor.next = item.next; + + fn.call(context, item.data, item, this); + } + + // pop cursor + releaseCursor(this); + }; + + List$6.prototype.forEach = List$6.prototype.each; + + List$6.prototype.eachRight = function(fn, context) { + var item; + + if (context === undefined) { + context = this; + } + + // push cursor + var cursor = allocateCursor(this, this.tail, null); + + while (cursor.prev !== null) { + item = cursor.prev; + cursor.prev = item.prev; + + fn.call(context, item.data, item, this); + } + + // pop cursor + releaseCursor(this); + }; + + List$6.prototype.forEachRight = List$6.prototype.eachRight; + + List$6.prototype.reduce = function(fn, initialValue, context) { + var item; + + if (context === undefined) { + context = this; + } + + // push cursor + var cursor = allocateCursor(this, null, this.head); + var acc = initialValue; + + while (cursor.next !== null) { + item = cursor.next; + cursor.next = item.next; + + acc = fn.call(context, acc, item.data, item, this); + } + + // pop cursor + releaseCursor(this); + + return acc; + }; + + List$6.prototype.reduceRight = function(fn, initialValue, context) { + var item; + + if (context === undefined) { + context = this; + } + + // push cursor + var cursor = allocateCursor(this, this.tail, null); + var acc = initialValue; + + while (cursor.prev !== null) { + item = cursor.prev; + cursor.prev = item.prev; + + acc = fn.call(context, acc, item.data, item, this); + } + + // pop cursor + releaseCursor(this); + + return acc; + }; + + List$6.prototype.nextUntil = function(start, fn, context) { + if (start === null) { + return; + } + + var item; + + if (context === undefined) { + context = this; + } + + // push cursor + var cursor = allocateCursor(this, null, start); + + while (cursor.next !== null) { + item = cursor.next; + cursor.next = item.next; + + if (fn.call(context, item.data, item, this)) { + break; + } + } + + // pop cursor + releaseCursor(this); + }; + + List$6.prototype.prevUntil = function(start, fn, context) { + if (start === null) { + return; + } + + var item; + + if (context === undefined) { + context = this; + } + + // push cursor + var cursor = allocateCursor(this, start, null); + + while (cursor.prev !== null) { + item = cursor.prev; + cursor.prev = item.prev; + + if (fn.call(context, item.data, item, this)) { + break; + } + } + + // pop cursor + releaseCursor(this); + }; + + List$6.prototype.some = function(fn, context) { + var cursor = this.head; + + if (context === undefined) { + context = this; + } + + while (cursor !== null) { + if (fn.call(context, cursor.data, cursor, this)) { + return true; + } + + cursor = cursor.next; + } + + return false; + }; + + List$6.prototype.map = function(fn, context) { + var result = new List$6(); + var cursor = this.head; + + if (context === undefined) { + context = this; + } + + while (cursor !== null) { + result.appendData(fn.call(context, cursor.data, cursor, this)); + cursor = cursor.next; + } + + return result; + }; + + List$6.prototype.filter = function(fn, context) { + var result = new List$6(); + var cursor = this.head; + + if (context === undefined) { + context = this; + } + + while (cursor !== null) { + if (fn.call(context, cursor.data, cursor, this)) { + result.appendData(cursor.data); + } + cursor = cursor.next; + } + + return result; + }; + + List$6.prototype.clear = function() { + this.head = null; + this.tail = null; + }; + + List$6.prototype.copy = function() { + var result = new List$6(); + var cursor = this.head; + + while (cursor !== null) { + result.insert(createItem(cursor.data)); + cursor = cursor.next; + } + + return result; + }; + + List$6.prototype.prepend = function(item) { + // head + // ^ + // item + this.updateCursors(null, item, this.head, item); + + // insert to the beginning of the list + if (this.head !== null) { + // new item <- first item + this.head.prev = item; + + // new item -> first item + item.next = this.head; + } else { + // if list has no head, then it also has no tail + // in this case tail points to the new item + this.tail = item; + } + + // head always points to new item + this.head = item; + + return this; + }; + + List$6.prototype.prependData = function(data) { + return this.prepend(createItem(data)); + }; + + List$6.prototype.append = function(item) { + return this.insert(item); + }; + + List$6.prototype.appendData = function(data) { + return this.insert(createItem(data)); + }; + + List$6.prototype.insert = function(item, before) { + if (before !== undefined && before !== null) { + // prev before + // ^ + // item + this.updateCursors(before.prev, item, before, item); + + if (before.prev === null) { + // insert to the beginning of list + if (this.head !== before) { + throw new Error('before doesn\'t belong to list'); + } + + // since head points to before therefore list doesn't empty + // no need to check tail + this.head = item; + before.prev = item; + item.next = before; + + this.updateCursors(null, item); + } else { + + // insert between two items + before.prev.next = item; + item.prev = before.prev; + + before.prev = item; + item.next = before; + } + } else { + // tail + // ^ + // item + this.updateCursors(this.tail, item, null, item); + + // insert to the ending of the list + if (this.tail !== null) { + // last item -> new item + this.tail.next = item; + + // last item <- new item + item.prev = this.tail; + } else { + // if list has no tail, then it also has no head + // in this case head points to new item + this.head = item; + } + + // tail always points to new item + this.tail = item; + } + + return this; + }; + + List$6.prototype.insertData = function(data, before) { + return this.insert(createItem(data), before); + }; + + List$6.prototype.remove = function(item) { + // item + // ^ + // prev next + this.updateCursors(item, item.prev, item, item.next); + + if (item.prev !== null) { + item.prev.next = item.next; + } else { + if (this.head !== item) { + throw new Error('item doesn\'t belong to list'); + } + + this.head = item.next; + } + + if (item.next !== null) { + item.next.prev = item.prev; + } else { + if (this.tail !== item) { + throw new Error('item doesn\'t belong to list'); + } + + this.tail = item.prev; + } + + item.prev = null; + item.next = null; + + return item; + }; + + List$6.prototype.push = function(data) { + this.insert(createItem(data)); + }; + + List$6.prototype.pop = function() { + if (this.tail !== null) { + return this.remove(this.tail); + } + }; + + List$6.prototype.unshift = function(data) { + this.prepend(createItem(data)); + }; + + List$6.prototype.shift = function() { + if (this.head !== null) { + return this.remove(this.head); + } + }; + + List$6.prototype.prependList = function(list) { + return this.insertList(list, this.head); + }; + + List$6.prototype.appendList = function(list) { + return this.insertList(list); + }; + + List$6.prototype.insertList = function(list, before) { + // ignore empty lists + if (list.head === null) { + return this; + } + + if (before !== undefined && before !== null) { + this.updateCursors(before.prev, list.tail, before, list.head); + + // insert in the middle of dist list + if (before.prev !== null) { + // before.prev <-> list.head + before.prev.next = list.head; + list.head.prev = before.prev; + } else { + this.head = list.head; + } + + before.prev = list.tail; + list.tail.next = before; + } else { + this.updateCursors(this.tail, list.tail, null, list.head); + + // insert to end of the list + if (this.tail !== null) { + // if destination list has a tail, then it also has a head, + // but head doesn't change + + // dest tail -> source head + this.tail.next = list.head; + + // dest tail <- source head + list.head.prev = this.tail; + } else { + // if list has no a tail, then it also has no a head + // in this case points head to new item + this.head = list.head; + } + + // tail always start point to new item + this.tail = list.tail; + } + + list.head = null; + list.tail = null; + + return this; + }; + + List$6.prototype.replace = function(oldItem, newItemOrList) { + if ('head' in newItemOrList) { + this.insertList(newItemOrList, oldItem); + } else { + this.insert(newItemOrList, oldItem); + } + + this.remove(oldItem); + }; + + var List_1 = List$6; + + var createCustomError$3 = function createCustomError(name, message) { + // use Object.create(), because some VMs prevent setting line/column otherwise + // (iOS Safari 10 even throws an exception) + var error = Object.create(SyntaxError.prototype); + var errorStack = new Error(); + + error.name = name; + error.message = message; + + Object.defineProperty(error, 'stack', { + get: function() { + return (errorStack.stack || '').replace(/^(.+\n){1,3}/, name + ': ' + message + '\n'); + } + }); + + return error; + }; + + var createCustomError$2 = createCustomError$3; + var MAX_LINE_LENGTH = 100; + var OFFSET_CORRECTION = 60; + var TAB_REPLACEMENT = ' '; + + function sourceFragment(error, extraLines) { + function processLines(start, end) { + return lines.slice(start, end).map(function(line, idx) { + var num = String(start + idx + 1); + + while (num.length < maxNumLength) { + num = ' ' + num; + } + + return num + ' |' + line; + }).join('\n'); + } + + var lines = error.source.split(/\r\n?|\n|\f/); + var line = error.line; + var column = error.column; + var startLine = Math.max(1, line - extraLines) - 1; + var endLine = Math.min(line + extraLines, lines.length + 1); + var maxNumLength = Math.max(4, String(endLine).length) + 1; + var cutLeft = 0; + + // column correction according to replaced tab before column + column += (TAB_REPLACEMENT.length - 1) * (lines[line - 1].substr(0, column - 1).match(/\t/g) || []).length; + + if (column > MAX_LINE_LENGTH) { + cutLeft = column - OFFSET_CORRECTION + 3; + column = OFFSET_CORRECTION - 2; + } + + for (var i = startLine; i <= endLine; i++) { + if (i >= 0 && i < lines.length) { + lines[i] = lines[i].replace(/\t/g, TAB_REPLACEMENT); + lines[i] = + (cutLeft > 0 && lines[i].length > cutLeft ? '\u2026' : '') + + lines[i].substr(cutLeft, MAX_LINE_LENGTH - 2) + + (lines[i].length > cutLeft + MAX_LINE_LENGTH - 1 ? '\u2026' : ''); + } + } + + return [ + processLines(startLine, line), + new Array(column + maxNumLength + 2).join('-') + '^', + processLines(line, endLine) + ].filter(Boolean).join('\n'); + } + + var SyntaxError$4 = function(message, source, offset, line, column) { + var error = createCustomError$2('SyntaxError', message); + + error.source = source; + error.offset = offset; + error.line = line; + error.column = column; + + error.sourceFragment = function(extraLines) { + return sourceFragment(error, isNaN(extraLines) ? 0 : extraLines); + }; + Object.defineProperty(error, 'formattedMessage', { + get: function() { + return ( + 'Parse error: ' + error.message + '\n' + + sourceFragment(error, 2) + ); + } + }); + + // for backward capability + error.parseError = { + offset: offset, + line: line, + column: column + }; + + return error; + }; + + var _SyntaxError$1 = SyntaxError$4; + + // CSS Syntax Module Level 3 + // https://www.w3.org/TR/css-syntax-3/ + var TYPE$H = { + EOF: 0, // + Ident: 1, // + Function: 2, // + AtKeyword: 3, // + Hash: 4, // + String: 5, // + BadString: 6, // + Url: 7, // + BadUrl: 8, // + Delim: 9, // + Number: 10, // + Percentage: 11, // + Dimension: 12, // + WhiteSpace: 13, // + CDO: 14, // + CDC: 15, // + Colon: 16, // : + Semicolon: 17, // ; + Comma: 18, // , + LeftSquareBracket: 19, // <[-token> + RightSquareBracket: 20, // <]-token> + LeftParenthesis: 21, // <(-token> + RightParenthesis: 22, // <)-token> + LeftCurlyBracket: 23, // <{-token> + RightCurlyBracket: 24, // <}-token> + Comment: 25 + }; + + var NAME$3 = Object.keys(TYPE$H).reduce(function(result, key) { + result[TYPE$H[key]] = key; + return result; + }, {}); + + var _const = { + TYPE: TYPE$H, + NAME: NAME$3 + }; + + var EOF$1 = 0; + + // https://drafts.csswg.org/css-syntax-3/ + // § 4.2. Definitions + + // digit + // A code point between U+0030 DIGIT ZERO (0) and U+0039 DIGIT NINE (9). + function isDigit$5(code) { + return code >= 0x0030 && code <= 0x0039; + } + + // hex digit + // A digit, or a code point between U+0041 LATIN CAPITAL LETTER A (A) and U+0046 LATIN CAPITAL LETTER F (F), + // or a code point between U+0061 LATIN SMALL LETTER A (a) and U+0066 LATIN SMALL LETTER F (f). + function isHexDigit$4(code) { + return ( + isDigit$5(code) || // 0 .. 9 + (code >= 0x0041 && code <= 0x0046) || // A .. F + (code >= 0x0061 && code <= 0x0066) // a .. f + ); + } + + // uppercase letter + // A code point between U+0041 LATIN CAPITAL LETTER A (A) and U+005A LATIN CAPITAL LETTER Z (Z). + function isUppercaseLetter$1(code) { + return code >= 0x0041 && code <= 0x005A; + } + + // lowercase letter + // A code point between U+0061 LATIN SMALL LETTER A (a) and U+007A LATIN SMALL LETTER Z (z). + function isLowercaseLetter(code) { + return code >= 0x0061 && code <= 0x007A; + } + + // letter + // An uppercase letter or a lowercase letter. + function isLetter(code) { + return isUppercaseLetter$1(code) || isLowercaseLetter(code); + } + + // non-ASCII code point + // A code point with a value equal to or greater than U+0080 . + function isNonAscii(code) { + return code >= 0x0080; + } + + // name-start code point + // A letter, a non-ASCII code point, or U+005F LOW LINE (_). + function isNameStart(code) { + return isLetter(code) || isNonAscii(code) || code === 0x005F; + } + + // name code point + // A name-start code point, a digit, or U+002D HYPHEN-MINUS (-). + function isName$2(code) { + return isNameStart(code) || isDigit$5(code) || code === 0x002D; + } + + // non-printable code point + // A code point between U+0000 NULL and U+0008 BACKSPACE, or U+000B LINE TABULATION, + // or a code point between U+000E SHIFT OUT and U+001F INFORMATION SEPARATOR ONE, or U+007F DELETE. + function isNonPrintable(code) { + return ( + (code >= 0x0000 && code <= 0x0008) || + (code === 0x000B) || + (code >= 0x000E && code <= 0x001F) || + (code === 0x007F) + ); + } + + // newline + // U+000A LINE FEED. Note that U+000D CARRIAGE RETURN and U+000C FORM FEED are not included in this definition, + // as they are converted to U+000A LINE FEED during preprocessing. + // TODO: we doesn't do a preprocessing, so check a code point for U+000D CARRIAGE RETURN and U+000C FORM FEED + function isNewline$1(code) { + return code === 0x000A || code === 0x000D || code === 0x000C; + } + + // whitespace + // A newline, U+0009 CHARACTER TABULATION, or U+0020 SPACE. + function isWhiteSpace$2(code) { + return isNewline$1(code) || code === 0x0020 || code === 0x0009; + } + + // § 4.3.8. Check if two code points are a valid escape + function isValidEscape$2(first, second) { + // If the first code point is not U+005C REVERSE SOLIDUS (\), return false. + if (first !== 0x005C) { + return false; + } + + // Otherwise, if the second code point is a newline or EOF, return false. + if (isNewline$1(second) || second === EOF$1) { + return false; + } + + // Otherwise, return true. + return true; + } + + // § 4.3.9. Check if three code points would start an identifier + function isIdentifierStart$2(first, second, third) { + // Look at the first code point: + + // U+002D HYPHEN-MINUS + if (first === 0x002D) { + // If the second code point is a name-start code point or a U+002D HYPHEN-MINUS, + // or the second and third code points are a valid escape, return true. Otherwise, return false. + return ( + isNameStart(second) || + second === 0x002D || + isValidEscape$2(second, third) + ); + } + + // name-start code point + if (isNameStart(first)) { + // Return true. + return true; + } + + // U+005C REVERSE SOLIDUS (\) + if (first === 0x005C) { + // If the first and second code points are a valid escape, return true. Otherwise, return false. + return isValidEscape$2(first, second); + } + + // anything else + // Return false. + return false; + } + + // § 4.3.10. Check if three code points would start a number + function isNumberStart$1(first, second, third) { + // Look at the first code point: + + // U+002B PLUS SIGN (+) + // U+002D HYPHEN-MINUS (-) + if (first === 0x002B || first === 0x002D) { + // If the second code point is a digit, return true. + if (isDigit$5(second)) { + return 2; + } + + // Otherwise, if the second code point is a U+002E FULL STOP (.) + // and the third code point is a digit, return true. + // Otherwise, return false. + return second === 0x002E && isDigit$5(third) ? 3 : 0; + } + + // U+002E FULL STOP (.) + if (first === 0x002E) { + // If the second code point is a digit, return true. Otherwise, return false. + return isDigit$5(second) ? 2 : 0; + } + + // digit + if (isDigit$5(first)) { + // Return true. + return 1; + } + + // anything else + // Return false. + return 0; + } + + // + // Misc + // + + // detect BOM (https://en.wikipedia.org/wiki/Byte_order_mark) + function isBOM$2(code) { + // UTF-16BE + if (code === 0xFEFF) { + return 1; + } + + // UTF-16LE + if (code === 0xFFFE) { + return 1; + } + + return 0; + } + + // Fast code category + // + // https://drafts.csswg.org/css-syntax/#tokenizer-definitions + // > non-ASCII code point + // > A code point with a value equal to or greater than U+0080 + // > name-start code point + // > A letter, a non-ASCII code point, or U+005F LOW LINE (_). + // > name code point + // > A name-start code point, a digit, or U+002D HYPHEN-MINUS (-) + // That means only ASCII code points has a special meaning and we define a maps for 0..127 codes only + var CATEGORY = new Array(0x80); + charCodeCategory$1.Eof = 0x80; + charCodeCategory$1.WhiteSpace = 0x82; + charCodeCategory$1.Digit = 0x83; + charCodeCategory$1.NameStart = 0x84; + charCodeCategory$1.NonPrintable = 0x85; + + for (var i = 0; i < CATEGORY.length; i++) { + switch (true) { + case isWhiteSpace$2(i): + CATEGORY[i] = charCodeCategory$1.WhiteSpace; + break; + + case isDigit$5(i): + CATEGORY[i] = charCodeCategory$1.Digit; + break; + + case isNameStart(i): + CATEGORY[i] = charCodeCategory$1.NameStart; + break; + + case isNonPrintable(i): + CATEGORY[i] = charCodeCategory$1.NonPrintable; + break; + + default: + CATEGORY[i] = i || charCodeCategory$1.Eof; + } + } + + function charCodeCategory$1(code) { + return code < 0x80 ? CATEGORY[code] : charCodeCategory$1.NameStart; + } + var charCodeDefinitions$1 = { + isDigit: isDigit$5, + isHexDigit: isHexDigit$4, + isUppercaseLetter: isUppercaseLetter$1, + isLowercaseLetter: isLowercaseLetter, + isLetter: isLetter, + isNonAscii: isNonAscii, + isNameStart: isNameStart, + isName: isName$2, + isNonPrintable: isNonPrintable, + isNewline: isNewline$1, + isWhiteSpace: isWhiteSpace$2, + isValidEscape: isValidEscape$2, + isIdentifierStart: isIdentifierStart$2, + isNumberStart: isNumberStart$1, + + isBOM: isBOM$2, + charCodeCategory: charCodeCategory$1 + }; + + var charCodeDef = charCodeDefinitions$1; + var isDigit$4 = charCodeDef.isDigit; + var isHexDigit$3 = charCodeDef.isHexDigit; + var isUppercaseLetter = charCodeDef.isUppercaseLetter; + var isName$1 = charCodeDef.isName; + var isWhiteSpace$1 = charCodeDef.isWhiteSpace; + var isValidEscape$1 = charCodeDef.isValidEscape; + + function getCharCode(source, offset) { + return offset < source.length ? source.charCodeAt(offset) : 0; + } + + function getNewlineLength$1(source, offset, code) { + if (code === 13 /* \r */ && getCharCode(source, offset + 1) === 10 /* \n */) { + return 2; + } + + return 1; + } + + function cmpChar$5(testStr, offset, referenceCode) { + var code = testStr.charCodeAt(offset); + + // code.toLowerCase() for A..Z + if (isUppercaseLetter(code)) { + code = code | 32; + } + + return code === referenceCode; + } + + function cmpStr$6(testStr, start, end, referenceStr) { + if (end - start !== referenceStr.length) { + return false; + } + + if (start < 0 || end > testStr.length) { + return false; + } + + for (var i = start; i < end; i++) { + var testCode = testStr.charCodeAt(i); + var referenceCode = referenceStr.charCodeAt(i - start); + + // testCode.toLowerCase() for A..Z + if (isUppercaseLetter(testCode)) { + testCode = testCode | 32; + } + + if (testCode !== referenceCode) { + return false; + } + } + + return true; + } + + function findWhiteSpaceStart$1(source, offset) { + for (; offset >= 0; offset--) { + if (!isWhiteSpace$1(source.charCodeAt(offset))) { + break; + } + } + + return offset + 1; + } + + function findWhiteSpaceEnd$1(source, offset) { + for (; offset < source.length; offset++) { + if (!isWhiteSpace$1(source.charCodeAt(offset))) { + break; + } + } + + return offset; + } + + function findDecimalNumberEnd(source, offset) { + for (; offset < source.length; offset++) { + if (!isDigit$4(source.charCodeAt(offset))) { + break; + } + } + + return offset; + } + + // § 4.3.7. Consume an escaped code point + function consumeEscaped$1(source, offset) { + // It assumes that the U+005C REVERSE SOLIDUS (\) has already been consumed and + // that the next input code point has already been verified to be part of a valid escape. + offset += 2; + + // hex digit + if (isHexDigit$3(getCharCode(source, offset - 1))) { + // Consume as many hex digits as possible, but no more than 5. + // Note that this means 1-6 hex digits have been consumed in total. + for (var maxOffset = Math.min(source.length, offset + 5); offset < maxOffset; offset++) { + if (!isHexDigit$3(getCharCode(source, offset))) { + break; + } + } + + // If the next input code point is whitespace, consume it as well. + var code = getCharCode(source, offset); + if (isWhiteSpace$1(code)) { + offset += getNewlineLength$1(source, offset, code); + } + } + + return offset; + } + + // §4.3.11. Consume a name + // Note: This algorithm does not do the verification of the first few code points that are necessary + // to ensure the returned code points would constitute an . If that is the intended use, + // ensure that the stream starts with an identifier before calling this algorithm. + function consumeName$1(source, offset) { + // Let result initially be an empty string. + // Repeatedly consume the next input code point from the stream: + for (; offset < source.length; offset++) { + var code = source.charCodeAt(offset); + + // name code point + if (isName$1(code)) { + // Append the code point to result. + continue; + } + + // the stream starts with a valid escape + if (isValidEscape$1(code, getCharCode(source, offset + 1))) { + // Consume an escaped code point. Append the returned code point to result. + offset = consumeEscaped$1(source, offset) - 1; + continue; + } + + // anything else + // Reconsume the current input code point. Return result. + break; + } + + return offset; + } + + // §4.3.12. Consume a number + function consumeNumber$5(source, offset) { + var code = source.charCodeAt(offset); + + // 2. If the next input code point is U+002B PLUS SIGN (+) or U+002D HYPHEN-MINUS (-), + // consume it and append it to repr. + if (code === 0x002B || code === 0x002D) { + code = source.charCodeAt(offset += 1); + } + + // 3. While the next input code point is a digit, consume it and append it to repr. + if (isDigit$4(code)) { + offset = findDecimalNumberEnd(source, offset + 1); + code = source.charCodeAt(offset); + } + + // 4. If the next 2 input code points are U+002E FULL STOP (.) followed by a digit, then: + if (code === 0x002E && isDigit$4(source.charCodeAt(offset + 1))) { + // 4.1 Consume them. + // 4.2 Append them to repr. + code = source.charCodeAt(offset += 2); + + // 4.3 Set type to "number". + // TODO + + // 4.4 While the next input code point is a digit, consume it and append it to repr. + + offset = findDecimalNumberEnd(source, offset); + } + + // 5. If the next 2 or 3 input code points are U+0045 LATIN CAPITAL LETTER E (E) + // or U+0065 LATIN SMALL LETTER E (e), ... , followed by a digit, then: + if (cmpChar$5(source, offset, 101 /* e */)) { + var sign = 0; + code = source.charCodeAt(offset + 1); + + // ... optionally followed by U+002D HYPHEN-MINUS (-) or U+002B PLUS SIGN (+) ... + if (code === 0x002D || code === 0x002B) { + sign = 1; + code = source.charCodeAt(offset + 2); + } + + // ... followed by a digit + if (isDigit$4(code)) { + // 5.1 Consume them. + // 5.2 Append them to repr. + + // 5.3 Set type to "number". + // TODO + + // 5.4 While the next input code point is a digit, consume it and append it to repr. + offset = findDecimalNumberEnd(source, offset + 1 + sign + 1); + } + } + + return offset; + } + + // § 4.3.14. Consume the remnants of a bad url + // ... its sole use is to consume enough of the input stream to reach a recovery point + // where normal tokenizing can resume. + function consumeBadUrlRemnants$1(source, offset) { + // Repeatedly consume the next input code point from the stream: + for (; offset < source.length; offset++) { + var code = source.charCodeAt(offset); + + // U+0029 RIGHT PARENTHESIS ()) + // EOF + if (code === 0x0029) { + // Return. + offset++; + break; + } + + if (isValidEscape$1(code, getCharCode(source, offset + 1))) { + // Consume an escaped code point. + // Note: This allows an escaped right parenthesis ("\)") to be encountered + // without ending the . This is otherwise identical to + // the "anything else" clause. + offset = consumeEscaped$1(source, offset); + } + } + + return offset; + } + + var utils$2 = { + consumeEscaped: consumeEscaped$1, + consumeName: consumeName$1, + consumeNumber: consumeNumber$5, + consumeBadUrlRemnants: consumeBadUrlRemnants$1, + + cmpChar: cmpChar$5, + cmpStr: cmpStr$6, + + getNewlineLength: getNewlineLength$1, + findWhiteSpaceStart: findWhiteSpaceStart$1, + findWhiteSpaceEnd: findWhiteSpaceEnd$1 + }; + + var constants$2 = _const; + var TYPE$G = constants$2.TYPE; + var NAME$2 = constants$2.NAME; + + var utils$1 = utils$2; + var cmpStr$5 = utils$1.cmpStr; + + var EOF = TYPE$G.EOF; + var WHITESPACE$c = TYPE$G.WhiteSpace; + var COMMENT$a = TYPE$G.Comment; + + var OFFSET_MASK$1 = 0x00FFFFFF; + var TYPE_SHIFT$1 = 24; + + var TokenStream$4 = function() { + this.offsetAndType = null; + this.balance = null; + + this.reset(); + }; + + TokenStream$4.prototype = { + reset: function() { + this.eof = false; + this.tokenIndex = -1; + this.tokenType = 0; + this.tokenStart = this.firstCharOffset; + this.tokenEnd = this.firstCharOffset; + }, + + lookupType: function(offset) { + offset += this.tokenIndex; + + if (offset < this.tokenCount) { + return this.offsetAndType[offset] >> TYPE_SHIFT$1; + } + + return EOF; + }, + lookupOffset: function(offset) { + offset += this.tokenIndex; + + if (offset < this.tokenCount) { + return this.offsetAndType[offset - 1] & OFFSET_MASK$1; + } + + return this.source.length; + }, + lookupValue: function(offset, referenceStr) { + offset += this.tokenIndex; + + if (offset < this.tokenCount) { + return cmpStr$5( + this.source, + this.offsetAndType[offset - 1] & OFFSET_MASK$1, + this.offsetAndType[offset] & OFFSET_MASK$1, + referenceStr + ); + } + + return false; + }, + getTokenStart: function(tokenIndex) { + if (tokenIndex === this.tokenIndex) { + return this.tokenStart; + } + + if (tokenIndex > 0) { + return tokenIndex < this.tokenCount + ? this.offsetAndType[tokenIndex - 1] & OFFSET_MASK$1 + : this.offsetAndType[this.tokenCount] & OFFSET_MASK$1; + } + + return this.firstCharOffset; + }, + + // TODO: -> skipUntilBalanced + getRawLength: function(startToken, mode) { + var cursor = startToken; + var balanceEnd; + var offset = this.offsetAndType[Math.max(cursor - 1, 0)] & OFFSET_MASK$1; + var type; + + loop: + for (; cursor < this.tokenCount; cursor++) { + balanceEnd = this.balance[cursor]; + + // stop scanning on balance edge that points to offset before start token + if (balanceEnd < startToken) { + break loop; + } + + type = this.offsetAndType[cursor] >> TYPE_SHIFT$1; + + // check token is stop type + switch (mode(type, this.source, offset)) { + case 1: + break loop; + + case 2: + cursor++; + break loop; + + default: + // fast forward to the end of balanced block + if (this.balance[balanceEnd] === cursor) { + cursor = balanceEnd; + } + + offset = this.offsetAndType[cursor] & OFFSET_MASK$1; + } + } + + return cursor - this.tokenIndex; + }, + isBalanceEdge: function(pos) { + return this.balance[this.tokenIndex] < pos; + }, + isDelim: function(code, offset) { + if (offset) { + return ( + this.lookupType(offset) === TYPE$G.Delim && + this.source.charCodeAt(this.lookupOffset(offset)) === code + ); + } + + return ( + this.tokenType === TYPE$G.Delim && + this.source.charCodeAt(this.tokenStart) === code + ); + }, + + getTokenValue: function() { + return this.source.substring(this.tokenStart, this.tokenEnd); + }, + getTokenLength: function() { + return this.tokenEnd - this.tokenStart; + }, + substrToCursor: function(start) { + return this.source.substring(start, this.tokenStart); + }, + + skipWS: function() { + for (var i = this.tokenIndex, skipTokenCount = 0; i < this.tokenCount; i++, skipTokenCount++) { + if ((this.offsetAndType[i] >> TYPE_SHIFT$1) !== WHITESPACE$c) { + break; + } + } + + if (skipTokenCount > 0) { + this.skip(skipTokenCount); + } + }, + skipSC: function() { + while (this.tokenType === WHITESPACE$c || this.tokenType === COMMENT$a) { + this.next(); + } + }, + skip: function(tokenCount) { + var next = this.tokenIndex + tokenCount; + + if (next < this.tokenCount) { + this.tokenIndex = next; + this.tokenStart = this.offsetAndType[next - 1] & OFFSET_MASK$1; + next = this.offsetAndType[next]; + this.tokenType = next >> TYPE_SHIFT$1; + this.tokenEnd = next & OFFSET_MASK$1; + } else { + this.tokenIndex = this.tokenCount; + this.next(); + } + }, + next: function() { + var next = this.tokenIndex + 1; + + if (next < this.tokenCount) { + this.tokenIndex = next; + this.tokenStart = this.tokenEnd; + next = this.offsetAndType[next]; + this.tokenType = next >> TYPE_SHIFT$1; + this.tokenEnd = next & OFFSET_MASK$1; + } else { + this.tokenIndex = this.tokenCount; + this.eof = true; + this.tokenType = EOF; + this.tokenStart = this.tokenEnd = this.source.length; + } + }, + + forEachToken(fn) { + for (var i = 0, offset = this.firstCharOffset; i < this.tokenCount; i++) { + var start = offset; + var item = this.offsetAndType[i]; + var end = item & OFFSET_MASK$1; + var type = item >> TYPE_SHIFT$1; + + offset = end; + + fn(type, start, end, i); + } + }, + + dump() { + var tokens = new Array(this.tokenCount); + + this.forEachToken((type, start, end, index) => { + tokens[index] = { + idx: index, + type: NAME$2[type], + chunk: this.source.substring(start, end), + balance: this.balance[index] + }; + }); + + return tokens; + } + }; + + var TokenStream_1 = TokenStream$4; + + function noop$3(value) { + return value; + } + + function generateMultiplier(multiplier) { + if (multiplier.min === 0 && multiplier.max === 0) { + return '*'; + } + + if (multiplier.min === 0 && multiplier.max === 1) { + return '?'; + } + + if (multiplier.min === 1 && multiplier.max === 0) { + return multiplier.comma ? '#' : '+'; + } + + if (multiplier.min === 1 && multiplier.max === 1) { + return ''; + } + + return ( + (multiplier.comma ? '#' : '') + + (multiplier.min === multiplier.max + ? '{' + multiplier.min + '}' + : '{' + multiplier.min + ',' + (multiplier.max !== 0 ? multiplier.max : '') + '}' + ) + ); + } + + function generateTypeOpts(node) { + switch (node.type) { + case 'Range': + return ( + ' [' + + (node.min === null ? '-∞' : node.min) + + ',' + + (node.max === null ? '∞' : node.max) + + ']' + ); + + default: + throw new Error('Unknown node type `' + node.type + '`'); + } + } + + function generateSequence(node, decorate, forceBraces, compact) { + var combinator = node.combinator === ' ' || compact ? node.combinator : ' ' + node.combinator + ' '; + var result = node.terms.map(function(term) { + return generate$2(term, decorate, forceBraces, compact); + }).join(combinator); + + if (node.explicit || forceBraces) { + result = (compact || result[0] === ',' ? '[' : '[ ') + result + (compact ? ']' : ' ]'); + } + + return result; + } + + function generate$2(node, decorate, forceBraces, compact) { + var result; + + switch (node.type) { + case 'Group': + result = + generateSequence(node, decorate, forceBraces, compact) + + (node.disallowEmpty ? '!' : ''); + break; + + case 'Multiplier': + // return since node is a composition + return ( + generate$2(node.term, decorate, forceBraces, compact) + + decorate(generateMultiplier(node), node) + ); + + case 'Type': + result = '<' + node.name + (node.opts ? decorate(generateTypeOpts(node.opts), node.opts) : '') + '>'; + break; + + case 'Property': + result = '<\'' + node.name + '\'>'; + break; + + case 'Keyword': + result = node.name; + break; + + case 'AtKeyword': + result = '@' + node.name; + break; + + case 'Function': + result = node.name + '('; + break; + + case 'String': + case 'Token': + result = node.value; + break; + + case 'Comma': + result = ','; + break; + + default: + throw new Error('Unknown node type `' + node.type + '`'); + } + + return decorate(result, node); + } + + var generate_1 = function(node, options) { + var decorate = noop$3; + var forceBraces = false; + var compact = false; + + if (typeof options === 'function') { + decorate = options; + } else if (options) { + forceBraces = Boolean(options.forceBraces); + compact = Boolean(options.compact); + if (typeof options.decorate === 'function') { + decorate = options.decorate; + } + } + + return generate$2(node, decorate, forceBraces, compact); + }; + + const createCustomError$1 = createCustomError$3; + const generate$1 = generate_1; + const defaultLoc = { offset: 0, line: 1, column: 1 }; + + function locateMismatch(matchResult, node) { + const tokens = matchResult.tokens; + const longestMatch = matchResult.longestMatch; + const mismatchNode = longestMatch < tokens.length ? tokens[longestMatch].node || null : null; + const badNode = mismatchNode !== node ? mismatchNode : null; + let mismatchOffset = 0; + let mismatchLength = 0; + let entries = 0; + let css = ''; + let start; + let end; + + for (let i = 0; i < tokens.length; i++) { + const token = tokens[i].value; + + if (i === longestMatch) { + mismatchLength = token.length; + mismatchOffset = css.length; + } + + if (badNode !== null && tokens[i].node === badNode) { + if (i <= longestMatch) { + entries++; + } else { + entries = 0; + } + } + + css += token; + } + + if (longestMatch === tokens.length || entries > 1) { // last + start = fromLoc(badNode || node, 'end') || buildLoc(defaultLoc, css); + end = buildLoc(start); + } else { + start = fromLoc(badNode, 'start') || + buildLoc(fromLoc(node, 'start') || defaultLoc, css.slice(0, mismatchOffset)); + end = fromLoc(badNode, 'end') || + buildLoc(start, css.substr(mismatchOffset, mismatchLength)); + } + + return { + css, + mismatchOffset, + mismatchLength, + start, + end + }; + } + + function fromLoc(node, point) { + const value = node && node.loc && node.loc[point]; + + if (value) { + return 'line' in value ? buildLoc(value) : value; + } + + return null; + } + + function buildLoc({ offset, line, column }, extra) { + const loc = { + offset, + line, + column + }; + + if (extra) { + const lines = extra.split(/\n|\r\n?|\f/); + + loc.offset += extra.length; + loc.line += lines.length - 1; + loc.column = lines.length === 1 ? loc.column + extra.length : lines.pop().length + 1; + } + + return loc; + } + + const SyntaxReferenceError$1 = function(type, referenceName) { + const error = createCustomError$1( + 'SyntaxReferenceError', + type + (referenceName ? ' `' + referenceName + '`' : '') + ); + + error.reference = referenceName; + + return error; + }; + + const SyntaxMatchError$1 = function(message, syntax, node, matchResult) { + const error = createCustomError$1('SyntaxMatchError', message); + const { + css, + mismatchOffset, + mismatchLength, + start, + end + } = locateMismatch(matchResult, node); + + error.rawMessage = message; + error.syntax = syntax ? generate$1(syntax) : ''; + error.css = css; + error.mismatchOffset = mismatchOffset; + error.mismatchLength = mismatchLength; + error.message = message + '\n' + + ' syntax: ' + error.syntax + '\n' + + ' value: ' + (css || '') + '\n' + + ' --------' + new Array(error.mismatchOffset + 1).join('-') + '^'; + + Object.assign(error, start); + error.loc = { + source: (node && node.loc && node.loc.source) || '', + start, + end + }; + + return error; + }; + + var error = { + SyntaxReferenceError: SyntaxReferenceError$1, + SyntaxMatchError: SyntaxMatchError$1 + }; + + var hasOwnProperty$7 = Object.prototype.hasOwnProperty; + var keywords$1 = Object.create(null); + var properties$1 = Object.create(null); + var HYPHENMINUS$5 = 45; // '-'.charCodeAt() + + function isCustomProperty$1(str, offset) { + offset = offset || 0; + + return str.length - offset >= 2 && + str.charCodeAt(offset) === HYPHENMINUS$5 && + str.charCodeAt(offset + 1) === HYPHENMINUS$5; + } + + function getVendorPrefix(str, offset) { + offset = offset || 0; + + // verdor prefix should be at least 3 chars length + if (str.length - offset >= 3) { + // vendor prefix starts with hyper minus following non-hyper minus + if (str.charCodeAt(offset) === HYPHENMINUS$5 && + str.charCodeAt(offset + 1) !== HYPHENMINUS$5) { + // vendor prefix should contain a hyper minus at the ending + var secondDashIndex = str.indexOf('-', offset + 2); + + if (secondDashIndex !== -1) { + return str.substring(offset, secondDashIndex + 1); + } + } + } + + return ''; + } + + function getKeywordDescriptor(keyword) { + if (hasOwnProperty$7.call(keywords$1, keyword)) { + return keywords$1[keyword]; + } + + var name = keyword.toLowerCase(); + + if (hasOwnProperty$7.call(keywords$1, name)) { + return keywords$1[keyword] = keywords$1[name]; + } + + var custom = isCustomProperty$1(name, 0); + var vendor = !custom ? getVendorPrefix(name, 0) : ''; + + return keywords$1[keyword] = Object.freeze({ + basename: name.substr(vendor.length), + name: name, + vendor: vendor, + prefix: vendor, + custom: custom + }); + } + + function getPropertyDescriptor(property) { + if (hasOwnProperty$7.call(properties$1, property)) { + return properties$1[property]; + } + + var name = property; + var hack = property[0]; + + if (hack === '/') { + hack = property[1] === '/' ? '//' : '/'; + } else if (hack !== '_' && + hack !== '*' && + hack !== '$' && + hack !== '#' && + hack !== '+' && + hack !== '&') { + hack = ''; + } + + var custom = isCustomProperty$1(name, hack.length); + + // re-use result when possible (the same as for lower case) + if (!custom) { + name = name.toLowerCase(); + if (hasOwnProperty$7.call(properties$1, name)) { + return properties$1[property] = properties$1[name]; + } + } + + var vendor = !custom ? getVendorPrefix(name, hack.length) : ''; + var prefix = name.substr(0, hack.length + vendor.length); + + return properties$1[property] = Object.freeze({ + basename: name.substr(prefix.length), + name: name.substr(hack.length), + hack: hack, + vendor: vendor, + prefix: prefix, + custom: custom + }); + } + + var names$2 = { + keyword: getKeywordDescriptor, + property: getPropertyDescriptor, + isCustomProperty: isCustomProperty$1, + vendorPrefix: getVendorPrefix + }; + + var MIN_SIZE = 16 * 1024; + var SafeUint32Array = typeof Uint32Array !== 'undefined' ? Uint32Array : Array; // fallback on Array when TypedArray is not supported + + var adoptBuffer$2 = function adoptBuffer(buffer, size) { + if (buffer === null || buffer.length < size) { + return new SafeUint32Array(Math.max(size + 1024, MIN_SIZE)); + } + + return buffer; + }; + + var TokenStream$3 = TokenStream_1; + var adoptBuffer$1 = adoptBuffer$2; + + var constants$1 = _const; + var TYPE$F = constants$1.TYPE; + + var charCodeDefinitions = charCodeDefinitions$1; + var isNewline = charCodeDefinitions.isNewline; + var isName = charCodeDefinitions.isName; + var isValidEscape = charCodeDefinitions.isValidEscape; + var isNumberStart = charCodeDefinitions.isNumberStart; + var isIdentifierStart$1 = charCodeDefinitions.isIdentifierStart; + var charCodeCategory = charCodeDefinitions.charCodeCategory; + var isBOM$1 = charCodeDefinitions.isBOM; + + var utils = utils$2; + var cmpStr$4 = utils.cmpStr; + var getNewlineLength = utils.getNewlineLength; + var findWhiteSpaceEnd = utils.findWhiteSpaceEnd; + var consumeEscaped = utils.consumeEscaped; + var consumeName = utils.consumeName; + var consumeNumber$4 = utils.consumeNumber; + var consumeBadUrlRemnants = utils.consumeBadUrlRemnants; + + var OFFSET_MASK = 0x00FFFFFF; + var TYPE_SHIFT = 24; + + function tokenize$3(source, stream) { + function getCharCode(offset) { + return offset < sourceLength ? source.charCodeAt(offset) : 0; + } + + // § 4.3.3. Consume a numeric token + function consumeNumericToken() { + // Consume a number and let number be the result. + offset = consumeNumber$4(source, offset); + + // If the next 3 input code points would start an identifier, then: + if (isIdentifierStart$1(getCharCode(offset), getCharCode(offset + 1), getCharCode(offset + 2))) { + // Create a with the same value and type flag as number, and a unit set initially to the empty string. + // Consume a name. Set the ’s unit to the returned value. + // Return the . + type = TYPE$F.Dimension; + offset = consumeName(source, offset); + return; + } + + // Otherwise, if the next input code point is U+0025 PERCENTAGE SIGN (%), consume it. + if (getCharCode(offset) === 0x0025) { + // Create a with the same value as number, and return it. + type = TYPE$F.Percentage; + offset++; + return; + } + + // Otherwise, create a with the same value and type flag as number, and return it. + type = TYPE$F.Number; + } + + // § 4.3.4. Consume an ident-like token + function consumeIdentLikeToken() { + const nameStartOffset = offset; + + // Consume a name, and let string be the result. + offset = consumeName(source, offset); + + // If string’s value is an ASCII case-insensitive match for "url", + // and the next input code point is U+0028 LEFT PARENTHESIS ((), consume it. + if (cmpStr$4(source, nameStartOffset, offset, 'url') && getCharCode(offset) === 0x0028) { + // While the next two input code points are whitespace, consume the next input code point. + offset = findWhiteSpaceEnd(source, offset + 1); + + // If the next one or two input code points are U+0022 QUOTATION MARK ("), U+0027 APOSTROPHE ('), + // or whitespace followed by U+0022 QUOTATION MARK (") or U+0027 APOSTROPHE ('), + // then create a with its value set to string and return it. + if (getCharCode(offset) === 0x0022 || + getCharCode(offset) === 0x0027) { + type = TYPE$F.Function; + offset = nameStartOffset + 4; + return; + } + + // Otherwise, consume a url token, and return it. + consumeUrlToken(); + return; + } + + // Otherwise, if the next input code point is U+0028 LEFT PARENTHESIS ((), consume it. + // Create a with its value set to string and return it. + if (getCharCode(offset) === 0x0028) { + type = TYPE$F.Function; + offset++; + return; + } + + // Otherwise, create an with its value set to string and return it. + type = TYPE$F.Ident; + } + + // § 4.3.5. Consume a string token + function consumeStringToken(endingCodePoint) { + // This algorithm may be called with an ending code point, which denotes the code point + // that ends the string. If an ending code point is not specified, + // the current input code point is used. + if (!endingCodePoint) { + endingCodePoint = getCharCode(offset++); + } + + // Initially create a with its value set to the empty string. + type = TYPE$F.String; + + // Repeatedly consume the next input code point from the stream: + for (; offset < source.length; offset++) { + var code = source.charCodeAt(offset); + + switch (charCodeCategory(code)) { + // ending code point + case endingCodePoint: + // Return the . + offset++; + return; + + // EOF + case charCodeCategory.Eof: + // This is a parse error. Return the . + return; + + // newline + case charCodeCategory.WhiteSpace: + if (isNewline(code)) { + // This is a parse error. Reconsume the current input code point, + // create a , and return it. + offset += getNewlineLength(source, offset, code); + type = TYPE$F.BadString; + return; + } + break; + + // U+005C REVERSE SOLIDUS (\) + case 0x005C: + // If the next input code point is EOF, do nothing. + if (offset === source.length - 1) { + break; + } + + var nextCode = getCharCode(offset + 1); + + // Otherwise, if the next input code point is a newline, consume it. + if (isNewline(nextCode)) { + offset += getNewlineLength(source, offset + 1, nextCode); + } else if (isValidEscape(code, nextCode)) { + // Otherwise, (the stream starts with a valid escape) consume + // an escaped code point and append the returned code point to + // the ’s value. + offset = consumeEscaped(source, offset) - 1; + } + break; + + // anything else + // Append the current input code point to the ’s value. + } + } + } + + // § 4.3.6. Consume a url token + // Note: This algorithm assumes that the initial "url(" has already been consumed. + // This algorithm also assumes that it’s being called to consume an "unquoted" value, like url(foo). + // A quoted value, like url("foo"), is parsed as a . Consume an ident-like token + // automatically handles this distinction; this algorithm shouldn’t be called directly otherwise. + function consumeUrlToken() { + // Initially create a with its value set to the empty string. + type = TYPE$F.Url; + + // Consume as much whitespace as possible. + offset = findWhiteSpaceEnd(source, offset); + + // Repeatedly consume the next input code point from the stream: + for (; offset < source.length; offset++) { + var code = source.charCodeAt(offset); + + switch (charCodeCategory(code)) { + // U+0029 RIGHT PARENTHESIS ()) + case 0x0029: + // Return the . + offset++; + return; + + // EOF + case charCodeCategory.Eof: + // This is a parse error. Return the . + return; + + // whitespace + case charCodeCategory.WhiteSpace: + // Consume as much whitespace as possible. + offset = findWhiteSpaceEnd(source, offset); + + // If the next input code point is U+0029 RIGHT PARENTHESIS ()) or EOF, + // consume it and return the + // (if EOF was encountered, this is a parse error); + if (getCharCode(offset) === 0x0029 || offset >= source.length) { + if (offset < source.length) { + offset++; + } + return; + } + + // otherwise, consume the remnants of a bad url, create a , + // and return it. + offset = consumeBadUrlRemnants(source, offset); + type = TYPE$F.BadUrl; + return; + + // U+0022 QUOTATION MARK (") + // U+0027 APOSTROPHE (') + // U+0028 LEFT PARENTHESIS (() + // non-printable code point + case 0x0022: + case 0x0027: + case 0x0028: + case charCodeCategory.NonPrintable: + // This is a parse error. Consume the remnants of a bad url, + // create a , and return it. + offset = consumeBadUrlRemnants(source, offset); + type = TYPE$F.BadUrl; + return; + + // U+005C REVERSE SOLIDUS (\) + case 0x005C: + // If the stream starts with a valid escape, consume an escaped code point and + // append the returned code point to the ’s value. + if (isValidEscape(code, getCharCode(offset + 1))) { + offset = consumeEscaped(source, offset) - 1; + break; + } + + // Otherwise, this is a parse error. Consume the remnants of a bad url, + // create a , and return it. + offset = consumeBadUrlRemnants(source, offset); + type = TYPE$F.BadUrl; + return; + + // anything else + // Append the current input code point to the ’s value. + } + } + } + + if (!stream) { + stream = new TokenStream$3(); + } + + // ensure source is a string + source = String(source || ''); + + var sourceLength = source.length; + var offsetAndType = adoptBuffer$1(stream.offsetAndType, sourceLength + 1); // +1 because of eof-token + var balance = adoptBuffer$1(stream.balance, sourceLength + 1); + var tokenCount = 0; + var start = isBOM$1(getCharCode(0)); + var offset = start; + var balanceCloseType = 0; + var balanceStart = 0; + var balancePrev = 0; + + // https://drafts.csswg.org/css-syntax-3/#consume-token + // § 4.3.1. Consume a token + while (offset < sourceLength) { + var code = source.charCodeAt(offset); + var type = 0; + + balance[tokenCount] = sourceLength; + + switch (charCodeCategory(code)) { + // whitespace + case charCodeCategory.WhiteSpace: + // Consume as much whitespace as possible. Return a . + type = TYPE$F.WhiteSpace; + offset = findWhiteSpaceEnd(source, offset + 1); + break; + + // U+0022 QUOTATION MARK (") + case 0x0022: + // Consume a string token and return it. + consumeStringToken(); + break; + + // U+0023 NUMBER SIGN (#) + case 0x0023: + // If the next input code point is a name code point or the next two input code points are a valid escape, then: + if (isName(getCharCode(offset + 1)) || isValidEscape(getCharCode(offset + 1), getCharCode(offset + 2))) { + // Create a . + type = TYPE$F.Hash; + + // If the next 3 input code points would start an identifier, set the ’s type flag to "id". + // if (isIdentifierStart(getCharCode(offset + 1), getCharCode(offset + 2), getCharCode(offset + 3))) { + // // TODO: set id flag + // } + + // Consume a name, and set the ’s value to the returned string. + offset = consumeName(source, offset + 1); + + // Return the . + } else { + // Otherwise, return a with its value set to the current input code point. + type = TYPE$F.Delim; + offset++; + } + + break; + + // U+0027 APOSTROPHE (') + case 0x0027: + // Consume a string token and return it. + consumeStringToken(); + break; + + // U+0028 LEFT PARENTHESIS (() + case 0x0028: + // Return a <(-token>. + type = TYPE$F.LeftParenthesis; + offset++; + break; + + // U+0029 RIGHT PARENTHESIS ()) + case 0x0029: + // Return a <)-token>. + type = TYPE$F.RightParenthesis; + offset++; + break; + + // U+002B PLUS SIGN (+) + case 0x002B: + // If the input stream starts with a number, ... + if (isNumberStart(code, getCharCode(offset + 1), getCharCode(offset + 2))) { + // ... reconsume the current input code point, consume a numeric token, and return it. + consumeNumericToken(); + } else { + // Otherwise, return a with its value set to the current input code point. + type = TYPE$F.Delim; + offset++; + } + break; + + // U+002C COMMA (,) + case 0x002C: + // Return a . + type = TYPE$F.Comma; + offset++; + break; + + // U+002D HYPHEN-MINUS (-) + case 0x002D: + // If the input stream starts with a number, reconsume the current input code point, consume a numeric token, and return it. + if (isNumberStart(code, getCharCode(offset + 1), getCharCode(offset + 2))) { + consumeNumericToken(); + } else { + // Otherwise, if the next 2 input code points are U+002D HYPHEN-MINUS U+003E GREATER-THAN SIGN (->), consume them and return a . + if (getCharCode(offset + 1) === 0x002D && + getCharCode(offset + 2) === 0x003E) { + type = TYPE$F.CDC; + offset = offset + 3; + } else { + // Otherwise, if the input stream starts with an identifier, ... + if (isIdentifierStart$1(code, getCharCode(offset + 1), getCharCode(offset + 2))) { + // ... reconsume the current input code point, consume an ident-like token, and return it. + consumeIdentLikeToken(); + } else { + // Otherwise, return a with its value set to the current input code point. + type = TYPE$F.Delim; + offset++; + } + } + } + break; + + // U+002E FULL STOP (.) + case 0x002E: + // If the input stream starts with a number, ... + if (isNumberStart(code, getCharCode(offset + 1), getCharCode(offset + 2))) { + // ... reconsume the current input code point, consume a numeric token, and return it. + consumeNumericToken(); + } else { + // Otherwise, return a with its value set to the current input code point. + type = TYPE$F.Delim; + offset++; + } + + break; + + // U+002F SOLIDUS (/) + case 0x002F: + // If the next two input code point are U+002F SOLIDUS (/) followed by a U+002A ASTERISK (*), + if (getCharCode(offset + 1) === 0x002A) { + // ... consume them and all following code points up to and including the first U+002A ASTERISK (*) + // followed by a U+002F SOLIDUS (/), or up to an EOF code point. + type = TYPE$F.Comment; + offset = source.indexOf('*/', offset + 2) + 2; + if (offset === 1) { + offset = source.length; + } + } else { + type = TYPE$F.Delim; + offset++; + } + break; + + // U+003A COLON (:) + case 0x003A: + // Return a . + type = TYPE$F.Colon; + offset++; + break; + + // U+003B SEMICOLON (;) + case 0x003B: + // Return a . + type = TYPE$F.Semicolon; + offset++; + break; + + // U+003C LESS-THAN SIGN (<) + case 0x003C: + // If the next 3 input code points are U+0021 EXCLAMATION MARK U+002D HYPHEN-MINUS U+002D HYPHEN-MINUS (!--), ... + if (getCharCode(offset + 1) === 0x0021 && + getCharCode(offset + 2) === 0x002D && + getCharCode(offset + 3) === 0x002D) { + // ... consume them and return a . + type = TYPE$F.CDO; + offset = offset + 4; + } else { + // Otherwise, return a with its value set to the current input code point. + type = TYPE$F.Delim; + offset++; + } + + break; + + // U+0040 COMMERCIAL AT (@) + case 0x0040: + // If the next 3 input code points would start an identifier, ... + if (isIdentifierStart$1(getCharCode(offset + 1), getCharCode(offset + 2), getCharCode(offset + 3))) { + // ... consume a name, create an with its value set to the returned value, and return it. + type = TYPE$F.AtKeyword; + offset = consumeName(source, offset + 1); + } else { + // Otherwise, return a with its value set to the current input code point. + type = TYPE$F.Delim; + offset++; + } + + break; + + // U+005B LEFT SQUARE BRACKET ([) + case 0x005B: + // Return a <[-token>. + type = TYPE$F.LeftSquareBracket; + offset++; + break; + + // U+005C REVERSE SOLIDUS (\) + case 0x005C: + // If the input stream starts with a valid escape, ... + if (isValidEscape(code, getCharCode(offset + 1))) { + // ... reconsume the current input code point, consume an ident-like token, and return it. + consumeIdentLikeToken(); + } else { + // Otherwise, this is a parse error. Return a with its value set to the current input code point. + type = TYPE$F.Delim; + offset++; + } + break; + + // U+005D RIGHT SQUARE BRACKET (]) + case 0x005D: + // Return a <]-token>. + type = TYPE$F.RightSquareBracket; + offset++; + break; + + // U+007B LEFT CURLY BRACKET ({) + case 0x007B: + // Return a <{-token>. + type = TYPE$F.LeftCurlyBracket; + offset++; + break; + + // U+007D RIGHT CURLY BRACKET (}) + case 0x007D: + // Return a <}-token>. + type = TYPE$F.RightCurlyBracket; + offset++; + break; + + // digit + case charCodeCategory.Digit: + // Reconsume the current input code point, consume a numeric token, and return it. + consumeNumericToken(); + break; + + // name-start code point + case charCodeCategory.NameStart: + // Reconsume the current input code point, consume an ident-like token, and return it. + consumeIdentLikeToken(); + break; + + // EOF + case charCodeCategory.Eof: + // Return an . + break; + + // anything else + default: + // Return a with its value set to the current input code point. + type = TYPE$F.Delim; + offset++; + } + + switch (type) { + case balanceCloseType: + balancePrev = balanceStart & OFFSET_MASK; + balanceStart = balance[balancePrev]; + balanceCloseType = balanceStart >> TYPE_SHIFT; + balance[tokenCount] = balancePrev; + balance[balancePrev++] = tokenCount; + for (; balancePrev < tokenCount; balancePrev++) { + if (balance[balancePrev] === sourceLength) { + balance[balancePrev] = tokenCount; + } + } + break; + + case TYPE$F.LeftParenthesis: + case TYPE$F.Function: + balance[tokenCount] = balanceStart; + balanceCloseType = TYPE$F.RightParenthesis; + balanceStart = (balanceCloseType << TYPE_SHIFT) | tokenCount; + break; + + case TYPE$F.LeftSquareBracket: + balance[tokenCount] = balanceStart; + balanceCloseType = TYPE$F.RightSquareBracket; + balanceStart = (balanceCloseType << TYPE_SHIFT) | tokenCount; + break; + + case TYPE$F.LeftCurlyBracket: + balance[tokenCount] = balanceStart; + balanceCloseType = TYPE$F.RightCurlyBracket; + balanceStart = (balanceCloseType << TYPE_SHIFT) | tokenCount; + break; + } + + offsetAndType[tokenCount++] = (type << TYPE_SHIFT) | offset; + } + + // finalize buffers + offsetAndType[tokenCount] = (TYPE$F.EOF << TYPE_SHIFT) | offset; // + balance[tokenCount] = sourceLength; + balance[sourceLength] = sourceLength; // prevents false positive balance match with any token + while (balanceStart !== 0) { + balancePrev = balanceStart & OFFSET_MASK; + balanceStart = balance[balancePrev]; + balance[balancePrev] = sourceLength; + } + + // update stream + stream.source = source; + stream.firstCharOffset = start; + stream.offsetAndType = offsetAndType; + stream.tokenCount = tokenCount; + stream.balance = balance; + stream.reset(); + stream.next(); + + return stream; + } + + // extend tokenizer with constants + Object.keys(constants$1).forEach(function(key) { + tokenize$3[key] = constants$1[key]; + }); + + // extend tokenizer with static methods from utils + Object.keys(charCodeDefinitions).forEach(function(key) { + tokenize$3[key] = charCodeDefinitions[key]; + }); + Object.keys(utils).forEach(function(key) { + tokenize$3[key] = utils[key]; + }); + + var tokenizer$3 = tokenize$3; + + var isDigit$3 = tokenizer$3.isDigit; + var cmpChar$4 = tokenizer$3.cmpChar; + var TYPE$E = tokenizer$3.TYPE; + + var DELIM$6 = TYPE$E.Delim; + var WHITESPACE$b = TYPE$E.WhiteSpace; + var COMMENT$9 = TYPE$E.Comment; + var IDENT$i = TYPE$E.Ident; + var NUMBER$9 = TYPE$E.Number; + var DIMENSION$7 = TYPE$E.Dimension; + var PLUSSIGN$8 = 0x002B; // U+002B PLUS SIGN (+) + var HYPHENMINUS$4 = 0x002D; // U+002D HYPHEN-MINUS (-) + var N$4 = 0x006E; // U+006E LATIN SMALL LETTER N (n) + var DISALLOW_SIGN$1 = true; + var ALLOW_SIGN$1 = false; + + function isDelim$1(token, code) { + return token !== null && token.type === DELIM$6 && token.value.charCodeAt(0) === code; + } + + function skipSC(token, offset, getNextToken) { + while (token !== null && (token.type === WHITESPACE$b || token.type === COMMENT$9)) { + token = getNextToken(++offset); + } + + return offset; + } + + function checkInteger$1(token, valueOffset, disallowSign, offset) { + if (!token) { + return 0; + } + + var code = token.value.charCodeAt(valueOffset); + + if (code === PLUSSIGN$8 || code === HYPHENMINUS$4) { + if (disallowSign) { + // Number sign is not allowed + return 0; + } + valueOffset++; + } + + for (; valueOffset < token.value.length; valueOffset++) { + if (!isDigit$3(token.value.charCodeAt(valueOffset))) { + // Integer is expected + return 0; + } + } + + return offset + 1; + } + + // ... + // ... ['+' | '-'] + function consumeB$1(token, offset_, getNextToken) { + var sign = false; + var offset = skipSC(token, offset_, getNextToken); + + token = getNextToken(offset); + + if (token === null) { + return offset_; + } + + if (token.type !== NUMBER$9) { + if (isDelim$1(token, PLUSSIGN$8) || isDelim$1(token, HYPHENMINUS$4)) { + sign = true; + offset = skipSC(getNextToken(++offset), offset, getNextToken); + token = getNextToken(offset); + + if (token === null && token.type !== NUMBER$9) { + return 0; + } + } else { + return offset_; + } + } + + if (!sign) { + var code = token.value.charCodeAt(0); + if (code !== PLUSSIGN$8 && code !== HYPHENMINUS$4) { + // Number sign is expected + return 0; + } + } + + return checkInteger$1(token, sign ? 0 : 1, sign, offset); + } + + // An+B microsyntax https://www.w3.org/TR/css-syntax-3/#anb + var genericAnPlusB = function anPlusB(token, getNextToken) { + /* eslint-disable brace-style*/ + var offset = 0; + + if (!token) { + return 0; + } + + // + if (token.type === NUMBER$9) { + return checkInteger$1(token, 0, ALLOW_SIGN$1, offset); // b + } + + // -n + // -n + // -n ['+' | '-'] + // -n- + // + else if (token.type === IDENT$i && token.value.charCodeAt(0) === HYPHENMINUS$4) { + // expect 1st char is N + if (!cmpChar$4(token.value, 1, N$4)) { + return 0; + } + + switch (token.value.length) { + // -n + // -n + // -n ['+' | '-'] + case 2: + return consumeB$1(getNextToken(++offset), offset, getNextToken); + + // -n- + case 3: + if (token.value.charCodeAt(2) !== HYPHENMINUS$4) { + return 0; + } + + offset = skipSC(getNextToken(++offset), offset, getNextToken); + token = getNextToken(offset); + + return checkInteger$1(token, 0, DISALLOW_SIGN$1, offset); + + // + default: + if (token.value.charCodeAt(2) !== HYPHENMINUS$4) { + return 0; + } + + return checkInteger$1(token, 3, DISALLOW_SIGN$1, offset); + } + } + + // '+'? n + // '+'? n + // '+'? n ['+' | '-'] + // '+'? n- + // '+'? + else if (token.type === IDENT$i || (isDelim$1(token, PLUSSIGN$8) && getNextToken(offset + 1).type === IDENT$i)) { + // just ignore a plus + if (token.type !== IDENT$i) { + token = getNextToken(++offset); + } + + if (token === null || !cmpChar$4(token.value, 0, N$4)) { + return 0; + } + + switch (token.value.length) { + // '+'? n + // '+'? n + // '+'? n ['+' | '-'] + case 1: + return consumeB$1(getNextToken(++offset), offset, getNextToken); + + // '+'? n- + case 2: + if (token.value.charCodeAt(1) !== HYPHENMINUS$4) { + return 0; + } + + offset = skipSC(getNextToken(++offset), offset, getNextToken); + token = getNextToken(offset); + + return checkInteger$1(token, 0, DISALLOW_SIGN$1, offset); + + // '+'? + default: + if (token.value.charCodeAt(1) !== HYPHENMINUS$4) { + return 0; + } + + return checkInteger$1(token, 2, DISALLOW_SIGN$1, offset); + } + } + + // + // + // + // + // ['+' | '-'] + else if (token.type === DIMENSION$7) { + var code = token.value.charCodeAt(0); + var sign = code === PLUSSIGN$8 || code === HYPHENMINUS$4 ? 1 : 0; + + for (var i = sign; i < token.value.length; i++) { + if (!isDigit$3(token.value.charCodeAt(i))) { + break; + } + } + + if (i === sign) { + // Integer is expected + return 0; + } + + if (!cmpChar$4(token.value, i, N$4)) { + return 0; + } + + // + // + // ['+' | '-'] + if (i + 1 === token.value.length) { + return consumeB$1(getNextToken(++offset), offset, getNextToken); + } else { + if (token.value.charCodeAt(i + 1) !== HYPHENMINUS$4) { + return 0; + } + + // + if (i + 2 === token.value.length) { + offset = skipSC(getNextToken(++offset), offset, getNextToken); + token = getNextToken(offset); + + return checkInteger$1(token, 0, DISALLOW_SIGN$1, offset); + } + // + else { + return checkInteger$1(token, i + 2, DISALLOW_SIGN$1, offset); + } + } + } + + return 0; + }; + + var isHexDigit$2 = tokenizer$3.isHexDigit; + var cmpChar$3 = tokenizer$3.cmpChar; + var TYPE$D = tokenizer$3.TYPE; + + var IDENT$h = TYPE$D.Ident; + var DELIM$5 = TYPE$D.Delim; + var NUMBER$8 = TYPE$D.Number; + var DIMENSION$6 = TYPE$D.Dimension; + var PLUSSIGN$7 = 0x002B; // U+002B PLUS SIGN (+) + var HYPHENMINUS$3 = 0x002D; // U+002D HYPHEN-MINUS (-) + var QUESTIONMARK$2 = 0x003F; // U+003F QUESTION MARK (?) + var U$2 = 0x0075; // U+0075 LATIN SMALL LETTER U (u) + + function isDelim(token, code) { + return token !== null && token.type === DELIM$5 && token.value.charCodeAt(0) === code; + } + + function startsWith$1(token, code) { + return token.value.charCodeAt(0) === code; + } + + function hexSequence(token, offset, allowDash) { + for (var pos = offset, hexlen = 0; pos < token.value.length; pos++) { + var code = token.value.charCodeAt(pos); + + if (code === HYPHENMINUS$3 && allowDash && hexlen !== 0) { + if (hexSequence(token, offset + hexlen + 1, false) > 0) { + return 6; // dissallow following question marks + } + + return 0; // dash at the ending of a hex sequence is not allowed + } + + if (!isHexDigit$2(code)) { + return 0; // not a hex digit + } + + if (++hexlen > 6) { + return 0; // too many hex digits + } } + + return hexlen; + } + + function withQuestionMarkSequence(consumed, length, getNextToken) { + if (!consumed) { + return 0; // nothing consumed + } + + while (isDelim(getNextToken(length), QUESTIONMARK$2)) { + if (++consumed > 6) { + return 0; // too many question marks + } + + length++; + } + + return length; + } + + // https://drafts.csswg.org/css-syntax/#urange + // Informally, the production has three forms: + // U+0001 + // Defines a range consisting of a single code point, in this case the code point "1". + // U+0001-00ff + // Defines a range of codepoints between the first and the second value, in this case + // the range between "1" and "ff" (255 in decimal) inclusive. + // U+00?? + // Defines a range of codepoints where the "?" characters range over all hex digits, + // in this case defining the same as the value U+0000-00ff. + // In each form, a maximum of 6 digits is allowed for each hexadecimal number (if you treat "?" as a hexadecimal digit). + // + // = + // u '+' '?'* | + // u '?'* | + // u '?'* | + // u | + // u | + // u '+' '?'+ + var genericUrange = function urange(token, getNextToken) { + var length = 0; + + // should start with `u` or `U` + if (token === null || token.type !== IDENT$h || !cmpChar$3(token.value, 0, U$2)) { + return 0; + } + + token = getNextToken(++length); + if (token === null) { + return 0; + } + + // u '+' '?'* + // u '+' '?'+ + if (isDelim(token, PLUSSIGN$7)) { + token = getNextToken(++length); + if (token === null) { + return 0; + } + + if (token.type === IDENT$h) { + // u '+' '?'* + return withQuestionMarkSequence(hexSequence(token, 0, true), ++length, getNextToken); + } + + if (isDelim(token, QUESTIONMARK$2)) { + // u '+' '?'+ + return withQuestionMarkSequence(1, ++length, getNextToken); + } + + // Hex digit or question mark is expected + return 0; + } + + // u '?'* + // u + // u + if (token.type === NUMBER$8) { + if (!startsWith$1(token, PLUSSIGN$7)) { + return 0; + } + + var consumedHexLength = hexSequence(token, 1, true); + if (consumedHexLength === 0) { + return 0; + } + + token = getNextToken(++length); + if (token === null) { + // u + return length; + } + + if (token.type === DIMENSION$6 || token.type === NUMBER$8) { + // u + // u + if (!startsWith$1(token, HYPHENMINUS$3) || !hexSequence(token, 1, false)) { + return 0; + } + + return length + 1; + } + + // u '?'* + return withQuestionMarkSequence(consumedHexLength, length, getNextToken); + } + + // u '?'* + if (token.type === DIMENSION$6) { + if (!startsWith$1(token, PLUSSIGN$7)) { + return 0; + } + + return withQuestionMarkSequence(hexSequence(token, 1, true), ++length, getNextToken); + } + + return 0; + }; + + var tokenizer$2 = tokenizer$3; + var isIdentifierStart = tokenizer$2.isIdentifierStart; + var isHexDigit$1 = tokenizer$2.isHexDigit; + var isDigit$2 = tokenizer$2.isDigit; + var cmpStr$3 = tokenizer$2.cmpStr; + var consumeNumber$3 = tokenizer$2.consumeNumber; + var TYPE$C = tokenizer$2.TYPE; + var anPlusB = genericAnPlusB; + var urange = genericUrange; + + var cssWideKeywords$1 = ['unset', 'initial', 'inherit']; + var calcFunctionNames = ['calc(', '-moz-calc(', '-webkit-calc(']; + + // https://www.w3.org/TR/css-values-3/#lengths + var LENGTH = { + // absolute length units + 'px': true, + 'mm': true, + 'cm': true, + 'in': true, + 'pt': true, + 'pc': true, + 'q': true, + + // relative length units + 'em': true, + 'ex': true, + 'ch': true, + 'rem': true, + + // viewport-percentage lengths + 'vh': true, + 'vw': true, + 'vmin': true, + 'vmax': true, + 'vm': true + }; + + var ANGLE = { + 'deg': true, + 'grad': true, + 'rad': true, + 'turn': true + }; + + var TIME = { + 's': true, + 'ms': true + }; + + var FREQUENCY = { + 'hz': true, + 'khz': true + }; + + // https://www.w3.org/TR/css-values-3/#resolution (https://drafts.csswg.org/css-values/#resolution) + var RESOLUTION = { + 'dpi': true, + 'dpcm': true, + 'dppx': true, + 'x': true // https://github.com/w3c/csswg-drafts/issues/461 + }; + + // https://drafts.csswg.org/css-grid/#fr-unit + var FLEX = { + 'fr': true + }; + + // https://www.w3.org/TR/css3-speech/#mixing-props-voice-volume + var DECIBEL = { + 'db': true + }; + + // https://www.w3.org/TR/css3-speech/#voice-props-voice-pitch + var SEMITONES = { + 'st': true + }; + + // safe char code getter + function charCode(str, index) { + return index < str.length ? str.charCodeAt(index) : 0; + } + + function eqStr(actual, expected) { + return cmpStr$3(actual, 0, actual.length, expected); + } + + function eqStrAny(actual, expected) { + for (var i = 0; i < expected.length; i++) { + if (eqStr(actual, expected[i])) { + return true; + } + } + + return false; + } + + // IE postfix hack, i.e. 123\0 or 123px\9 + function isPostfixIeHack(str, offset) { + if (offset !== str.length - 2) { + return false; + } + + return ( + str.charCodeAt(offset) === 0x005C && // U+005C REVERSE SOLIDUS (\) + isDigit$2(str.charCodeAt(offset + 1)) + ); + } + + function outOfRange(opts, value, numEnd) { + if (opts && opts.type === 'Range') { + var num = Number( + numEnd !== undefined && numEnd !== value.length + ? value.substr(0, numEnd) + : value + ); + + if (isNaN(num)) { + return true; + } + + if (opts.min !== null && num < opts.min) { + return true; + } + + if (opts.max !== null && num > opts.max) { + return true; + } + } + + return false; + } + + function consumeFunction(token, getNextToken) { + var startIdx = token.index; + var length = 0; + + // balanced token consuming + do { + length++; + + if (token.balance <= startIdx) { + break; + } + } while (token = getNextToken(length)); + + return length; + } + + // TODO: implement + // can be used wherever , , ,