UNPKG

zpt

Version:

Zenon Page Templates - JS (ZPT-JS)

1,474 lines (1,284 loc) 131 kB
/*! * SyntaxHighlighter * https://github.com/syntaxhighlighter/syntaxhighlighter * * SyntaxHighlighter is donationware. If you are using it, please donate. * http://alexgorbatchev.com/SyntaxHighlighter/donate.html * * @version * 4.0.1 (Wed, 28 Mar 2018 11:12:42 GMT) * * @copyright * Copyright (C) 2004-2016 Alex Gorbatchev. * * @license * Dual licensed under the MIT and GPL licenses. */ /******/ (function(modules) { // webpackBootstrap /******/ // The module cache /******/ var installedModules = {}; /******/ /******/ // The require function /******/ function __webpack_require__(moduleId) { /******/ /******/ // Check if module is in cache /******/ if(installedModules[moduleId]) /******/ return installedModules[moduleId].exports; /******/ /******/ // Create a new module (and put it into the cache) /******/ var module = installedModules[moduleId] = { /******/ exports: {}, /******/ id: moduleId, /******/ loaded: false /******/ }; /******/ /******/ // Execute the module function /******/ modules[moduleId].call(module.exports, module, module.exports, __webpack_require__); /******/ /******/ // Flag the module as loaded /******/ module.loaded = true; /******/ /******/ // Return the exports of the module /******/ return module.exports; /******/ } /******/ /******/ /******/ // expose the modules object (__webpack_modules__) /******/ __webpack_require__.m = modules; /******/ /******/ // expose the module cache /******/ __webpack_require__.c = installedModules; /******/ /******/ // __webpack_public_path__ /******/ __webpack_require__.p = ""; /******/ /******/ // Load entry module and return exports /******/ return __webpack_require__(0); /******/ }) /************************************************************************/ /******/ ([ /* 0 */ /***/ (function(module, exports, __webpack_require__) { 'use strict'; Object.defineProperty(exports, "__esModule", { value: true }); var _core = __webpack_require__(1); Object.keys(_core).forEach(function (key) { if (key === "default" || key === "__esModule") return; Object.defineProperty(exports, key, { enumerable: true, get: function get() { return _core[key]; } }); }); var _domready = __webpack_require__(26); var _domready2 = _interopRequireDefault(_domready); var _core2 = _interopRequireDefault(_core); var _dasherize = __webpack_require__(27); var dasherize = _interopRequireWildcard(_dasherize); function _interopRequireWildcard(obj) { if (obj && obj.__esModule) { return obj; } else { var newObj = {}; if (obj != null) { for (var key in obj) { if (Object.prototype.hasOwnProperty.call(obj, key)) newObj[key] = obj[key]; } } newObj.default = obj; return newObj; } } function _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; } // configured through the `--compat` parameter. if (false) { require('./compatibility_layer_v3'); } (0, _domready2.default)(function () { return _core2.default.highlight(dasherize.object(window.syntaxhighlighterConfig || {})); }); /***/ }), /* 1 */ /***/ (function(module, exports, __webpack_require__) { 'use strict'; Object.defineProperty(exports, "__esModule", { value: true }); var optsParser = __webpack_require__(2), match = __webpack_require__(5), Renderer = __webpack_require__(9).default, utils = __webpack_require__(10), transformers = __webpack_require__(11), dom = __webpack_require__(17), config = __webpack_require__(18), defaults = __webpack_require__(19), HtmlScript = __webpack_require__(20); var sh = { Match: match.Match, Highlighter: __webpack_require__(22), config: __webpack_require__(18), regexLib: __webpack_require__(3).commonRegExp, /** Internal 'global' variables. */ vars: { discoveredBrushes: null, highlighters: {} }, /** This object is populated by user included external brush files. */ brushes: {}, /** * Finds all elements on the page which should be processes by SyntaxHighlighter. * * @param {Object} globalParams Optional parameters which override element's * parameters. Only used if element is specified. * * @param {Object} element Optional element to highlight. If none is * provided, all elements in the current document * are returned which qualify. * * @return {Array} Returns list of <code>{ target: DOMElement, params: Object }</code> objects. */ findElements: function findElements(globalParams, element) { var elements = element ? [element] : utils.toArray(document.getElementsByTagName(sh.config.tagName)), conf = sh.config, result = []; // support for <SCRIPT TYPE="syntaxhighlighter" /> feature elements = elements.concat(dom.getSyntaxHighlighterScriptTags()); if (elements.length === 0) return result; for (var i = 0, l = elements.length; i < l; i++) { var item = { target: elements[i], // local params take precedence over globals params: optsParser.defaults(optsParser.parse(elements[i].className), globalParams) }; if (item.params['brush'] == null) continue; result.push(item); } return result; }, /** * Shorthand to highlight all elements on the page that are marked as * SyntaxHighlighter source code. * * @param {Object} globalParams Optional parameters which override element's * parameters. Only used if element is specified. * * @param {Object} element Optional element to highlight. If none is * provided, all elements in the current document * are highlighted. */ highlight: function highlight(globalParams, element) { var elements = sh.findElements(globalParams, element), propertyName = 'innerHTML', brush = null, renderer, conf = sh.config; if (elements.length === 0) return; for (var i = 0, l = elements.length; i < l; i++) { var element = elements[i], target = element.target, params = element.params, brushName = params.brush, brush, matches, code; if (brushName == null) continue; brush = findBrush(brushName); if (!brush) continue; // local params take precedence over defaults params = optsParser.defaults(params || {}, defaults); params = optsParser.defaults(params, config); // Instantiate a brush if (params['html-script'] == true || defaults['html-script'] == true) { brush = new HtmlScript(findBrush('xml'), brush); brushName = 'htmlscript'; } else { brush = new brush(); } code = target[propertyName]; // remove CDATA from <SCRIPT/> tags if it's present if (conf.useScriptTags) code = stripCData(code); // Inject title if the attribute is present if ((target.title || '') != '') params.title = target.title; params['brush'] = brushName; code = transformers(code, params); matches = match.applyRegexList(code, brush.regexList, params); renderer = new Renderer(code, matches, params); element = dom.create('div'); element.innerHTML = renderer.getHtml(); // id = utils.guid(); // element.id = highlighters.id(id); // highlighters.set(id, element); if (params.quickCode) dom.attachEvent(dom.findElement(element, '.code'), 'dblclick', dom.quickCodeHandler); // carry over ID if ((target.id || '') != '') element.id = target.id; target.parentNode.replaceChild(element, target); } } }; // end of sh /** * Displays an alert. * @param {String} str String to display. */ function alert(str) { window.alert('SyntaxHighlighter\n\n' + str); }; /** * Finds a brush by its alias. * * @param {String} alias Brush alias. * @param {Boolean} showAlert Suppresses the alert if false. * @return {Brush} Returns bursh constructor if found, null otherwise. */ function findBrush(alias, showAlert) { var brushes = sh.vars.discoveredBrushes, result = null; if (brushes == null) { brushes = {}; // Find all brushes for (var brushName in sh.brushes) { var brush = sh.brushes[brushName], aliases = brush.aliases; if (aliases == null) { continue; } brush.className = brush.className || brush.aliases[0]; brush.brushName = brush.className || brushName.toLowerCase(); for (var i = 0, l = aliases.length; i < l; i++) { brushes[aliases[i]] = brushName; } } sh.vars.discoveredBrushes = brushes; } result = sh.brushes[brushes[alias]]; if (result == null && showAlert) alert(sh.config.strings.noBrush + alias); return result; }; /** * Strips <![CDATA[]]> from <SCRIPT /> content because it should be used * there in most cases for XHTML compliance. * @param {String} original Input code. * @return {String} Returns code without leading <![CDATA[]]> tags. */ function stripCData(original) { var left = '<![CDATA[', right = ']]>', // for some reason IE inserts some leading blanks here copy = utils.trim(original), changed = false, leftLength = left.length, rightLength = right.length; if (copy.indexOf(left) == 0) { copy = copy.substring(leftLength); changed = true; } var copyLength = copy.length; if (copy.indexOf(right) == copyLength - rightLength) { copy = copy.substring(0, copyLength - rightLength); changed = true; } return changed ? copy : original; }; var brushCounter = 0; exports.default = sh; var registerBrush = exports.registerBrush = function registerBrush(brush) { return sh.brushes['brush' + brushCounter++] = brush.default || brush; }; var clearRegisteredBrushes = exports.clearRegisteredBrushes = function clearRegisteredBrushes() { sh.brushes = {}; brushCounter = 0; }; /* an EJS hook for `gulp build --brushes` command * */ registerBrush(__webpack_require__(23)); registerBrush(__webpack_require__(24)); registerBrush(__webpack_require__(25)); /* */ /***/ }), /* 2 */ /***/ (function(module, exports, __webpack_require__) { 'use strict'; var XRegExp = __webpack_require__(3).XRegExp; var BOOLEANS = { 'true': true, 'false': false }; function camelize(key) { return key.replace(/-(\w+)/g, function (match, word) { return word.charAt(0).toUpperCase() + word.substr(1); }); } function process(value) { var result = BOOLEANS[value]; return result == null ? value : result; } module.exports = { defaults: function defaults(target, source) { for (var key in source || {}) { if (!target.hasOwnProperty(key)) target[key] = target[camelize(key)] = source[key]; }return target; }, parse: function parse(str) { var match, key, result = {}, arrayRegex = XRegExp("^\\[(?<values>(.*?))\\]$"), pos = 0, regex = XRegExp("(?<name>[\\w-]+)" + "\\s*:\\s*" + "(?<value>" + "[\\w%#-]+|" + // word "\\[.*?\\]|" + // [] array '".*?"|' + // "" string "'.*?'" + // '' string ")\\s*;?", "g"); while ((match = XRegExp.exec(str, regex, pos)) != null) { var value = match.value.replace(/^['"]|['"]$/g, '') // strip quotes from end of strings ; // try to parse array value if (value != null && arrayRegex.test(value)) { var m = XRegExp.exec(value, arrayRegex); value = m.values.length > 0 ? m.values.split(/\s*,\s*/) : []; } value = process(value); result[match.name] = result[camelize(match.name)] = value; pos = match.index + match[0].length; } return result; } }; /***/ }), /* 3 */ /***/ (function(module, exports, __webpack_require__) { 'use strict'; Object.defineProperty(exports, "__esModule", { value: true }); exports.commonRegExp = exports.XRegExp = undefined; var _xregexp = __webpack_require__(4); var _xregexp2 = _interopRequireDefault(_xregexp); function _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; } exports.XRegExp = _xregexp2.default; var commonRegExp = exports.commonRegExp = { multiLineCComments: (0, _xregexp2.default)('/\\*.*?\\*/', 'gs'), singleLineCComments: /\/\/.*$/gm, singleLinePerlComments: /#.*$/gm, doubleQuotedString: /"([^\\"\n]|\\.)*"/g, singleQuotedString: /'([^\\'\n]|\\.)*'/g, multiLineDoubleQuotedString: (0, _xregexp2.default)('"([^\\\\"]|\\\\.)*"', 'gs'), multiLineSingleQuotedString: (0, _xregexp2.default)("'([^\\\\']|\\\\.)*'", 'gs'), xmlComments: (0, _xregexp2.default)('(&lt;|<)!--.*?--(&gt;|>)', 'gs'), url: /\w+:\/\/[\w-.\/?%&=:@;#]*/g, phpScriptTags: { left: /(&lt;|<)\?(?:=|php)?/g, right: /\?(&gt;|>)/g, 'eof': true }, aspScriptTags: { left: /(&lt;|<)%=?/g, right: /%(&gt;|>)/g }, scriptScriptTags: { left: /(&lt;|<)\s*script.*?(&gt;|>)/gi, right: /(&lt;|<)\/\s*script\s*(&gt;|>)/gi } }; /***/ }), /* 4 */ /***/ (function(module, exports) { /*! * XRegExp 3.1.0-dev * <xregexp.com> * Steven Levithan (c) 2007-2015 MIT License */ /** * XRegExp provides augmented, extensible regular expressions. You get additional regex syntax and * flags, beyond what browsers support natively. XRegExp is also a regex utility belt with tools to * make your client-side grepping simpler and more powerful, while freeing you from related * cross-browser inconsistencies. */ 'use strict'; /* ============================== * Private variables * ============================== */ // Property name used for extended regex instance data var REGEX_DATA = 'xregexp'; // Optional features that can be installed and uninstalled var features = { astral: false, natives: false }; // Native methods to use and restore ('native' is an ES3 reserved keyword) var nativ = { exec: RegExp.prototype.exec, test: RegExp.prototype.test, match: String.prototype.match, replace: String.prototype.replace, split: String.prototype.split }; // Storage for fixed/extended native methods var fixed = {}; // Storage for regexes cached by `XRegExp.cache` var regexCache = {}; // Storage for pattern details cached by the `XRegExp` constructor var patternCache = {}; // Storage for regex syntax tokens added internally or by `XRegExp.addToken` var tokens = []; // Token scopes var defaultScope = 'default'; var classScope = 'class'; // Regexes that match native regex syntax, including octals var nativeTokens = { // Any native multicharacter token in default scope, or any single character 'default': /\\(?:0(?:[0-3][0-7]{0,2}|[4-7][0-7]?)?|[1-9]\d*|x[\dA-Fa-f]{2}|u(?:[\dA-Fa-f]{4}|{[\dA-Fa-f]+})|c[A-Za-z]|[\s\S])|\(\?[:=!]|[?*+]\?|{\d+(?:,\d*)?}\??|[\s\S]/, // Any native multicharacter token in character class scope, or any single character 'class': /\\(?:[0-3][0-7]{0,2}|[4-7][0-7]?|x[\dA-Fa-f]{2}|u(?:[\dA-Fa-f]{4}|{[\dA-Fa-f]+})|c[A-Za-z]|[\s\S])|[\s\S]/ }; // Any backreference or dollar-prefixed character in replacement strings var replacementToken = /\$(?:{([\w$]+)}|(\d\d?|[\s\S]))/g; // Check for correct `exec` handling of nonparticipating capturing groups var correctExecNpcg = nativ.exec.call(/()??/, '')[1] === undefined; // Check for ES6 `u` flag support var hasNativeU = function () { var isSupported = true; try { new RegExp('', 'u'); } catch (exception) { isSupported = false; } return isSupported; }(); // Check for ES6 `y` flag support var hasNativeY = function () { var isSupported = true; try { new RegExp('', 'y'); } catch (exception) { isSupported = false; } return isSupported; }(); // Check for ES6 `flags` prop support var hasFlagsProp = /a/.flags !== undefined; // Tracker for known flags, including addon flags var registeredFlags = { g: true, i: true, m: true, u: hasNativeU, y: hasNativeY }; // Shortcut to `Object.prototype.toString` var toString = {}.toString; /* ============================== * Private functions * ============================== */ /** * Attaches extended data and `XRegExp.prototype` properties to a regex object. * * @private * @param {RegExp} regex Regex to augment. * @param {Array} captureNames Array with capture names, or `null`. * @param {String} xSource XRegExp pattern used to generate `regex`, or `null` if N/A. * @param {String} xFlags XRegExp flags used to generate `regex`, or `null` if N/A. * @param {Boolean} [isInternalOnly=false] Whether the regex will be used only for internal * operations, and never exposed to users. For internal-only regexes, we can improve perf by * skipping some operations like attaching `XRegExp.prototype` properties. * @returns {RegExp} Augmented regex. */ function augment(regex, captureNames, xSource, xFlags, isInternalOnly) { var p; regex[REGEX_DATA] = { captureNames: captureNames }; if (isInternalOnly) { return regex; } // Can't auto-inherit these since the XRegExp constructor returns a nonprimitive value if (regex.__proto__) { regex.__proto__ = XRegExp.prototype; } else { for (p in XRegExp.prototype) { // An `XRegExp.prototype.hasOwnProperty(p)` check wouldn't be worth it here, since // this is performance sensitive, and enumerable `Object.prototype` or // `RegExp.prototype` extensions exist on `regex.prototype` anyway regex[p] = XRegExp.prototype[p]; } } regex[REGEX_DATA].source = xSource; // Emulate the ES6 `flags` prop by ensuring flags are in alphabetical order regex[REGEX_DATA].flags = xFlags ? xFlags.split('').sort().join('') : xFlags; return regex; } /** * Removes any duplicate characters from the provided string. * * @private * @param {String} str String to remove duplicate characters from. * @returns {String} String with any duplicate characters removed. */ function clipDuplicates(str) { return nativ.replace.call(str, /([\s\S])(?=[\s\S]*\1)/g, ''); } /** * Copies a regex object while preserving extended data and augmenting with `XRegExp.prototype` * properties. The copy has a fresh `lastIndex` property (set to zero). Allows adding and removing * flags g and y while copying the regex. * * @private * @param {RegExp} regex Regex to copy. * @param {Object} [options] Options object with optional properties: * <li>`addG` {Boolean} Add flag g while copying the regex. * <li>`addY` {Boolean} Add flag y while copying the regex. * <li>`removeG` {Boolean} Remove flag g while copying the regex. * <li>`removeY` {Boolean} Remove flag y while copying the regex. * <li>`isInternalOnly` {Boolean} Whether the copied regex will be used only for internal * operations, and never exposed to users. For internal-only regexes, we can improve perf by * skipping some operations like attaching `XRegExp.prototype` properties. * @returns {RegExp} Copy of the provided regex, possibly with modified flags. */ function copyRegex(regex, options) { if (!XRegExp.isRegExp(regex)) { throw new TypeError('Type RegExp expected'); } var xData = regex[REGEX_DATA] || {}, flags = getNativeFlags(regex), flagsToAdd = '', flagsToRemove = '', xregexpSource = null, xregexpFlags = null; options = options || {}; if (options.removeG) { flagsToRemove += 'g'; } if (options.removeY) { flagsToRemove += 'y'; } if (flagsToRemove) { flags = nativ.replace.call(flags, new RegExp('[' + flagsToRemove + ']+', 'g'), ''); } if (options.addG) { flagsToAdd += 'g'; } if (options.addY) { flagsToAdd += 'y'; } if (flagsToAdd) { flags = clipDuplicates(flags + flagsToAdd); } if (!options.isInternalOnly) { if (xData.source !== undefined) { xregexpSource = xData.source; } // null or undefined; don't want to add to `flags` if the previous value was null, since // that indicates we're not tracking original precompilation flags if (xData.flags != null) { // Flags are only added for non-internal regexes by `XRegExp.globalize`. Flags are // never removed for non-internal regexes, so don't need to handle it xregexpFlags = flagsToAdd ? clipDuplicates(xData.flags + flagsToAdd) : xData.flags; } } // Augment with `XRegExp.prototype` properties, but use the native `RegExp` constructor to // avoid searching for special tokens. That would be wrong for regexes constructed by // `RegExp`, and unnecessary for regexes constructed by `XRegExp` because the regex has // already undergone the translation to native regex syntax regex = augment(new RegExp(regex.source, flags), hasNamedCapture(regex) ? xData.captureNames.slice(0) : null, xregexpSource, xregexpFlags, options.isInternalOnly); return regex; } /** * Converts hexadecimal to decimal. * * @private * @param {String} hex * @returns {Number} */ function dec(hex) { return parseInt(hex, 16); } /** * Returns native `RegExp` flags used by a regex object. * * @private * @param {RegExp} regex Regex to check. * @returns {String} Native flags in use. */ function getNativeFlags(regex) { return hasFlagsProp ? regex.flags : // Explicitly using `RegExp.prototype.toString` (rather than e.g. `String` or // concatenation with an empty string) allows this to continue working predictably when // `XRegExp.proptotype.toString` is overriden nativ.exec.call(/\/([a-z]*)$/i, RegExp.prototype.toString.call(regex))[1]; } /** * Determines whether a regex has extended instance data used to track capture names. * * @private * @param {RegExp} regex Regex to check. * @returns {Boolean} Whether the regex uses named capture. */ function hasNamedCapture(regex) { return !!(regex[REGEX_DATA] && regex[REGEX_DATA].captureNames); } /** * Converts decimal to hexadecimal. * * @private * @param {Number|String} dec * @returns {String} */ function hex(dec) { return parseInt(dec, 10).toString(16); } /** * Returns the first index at which a given value can be found in an array. * * @private * @param {Array} array Array to search. * @param {*} value Value to locate in the array. * @returns {Number} Zero-based index at which the item is found, or -1. */ function indexOf(array, value) { var len = array.length, i; for (i = 0; i < len; ++i) { if (array[i] === value) { return i; } } return -1; } /** * Determines whether a value is of the specified type, by resolving its internal [[Class]]. * * @private * @param {*} value Object to check. * @param {String} type Type to check for, in TitleCase. * @returns {Boolean} Whether the object matches the type. */ function isType(value, type) { return toString.call(value) === '[object ' + type + ']'; } /** * Checks whether the next nonignorable token after the specified position is a quantifier. * * @private * @param {String} pattern Pattern to search within. * @param {Number} pos Index in `pattern` to search at. * @param {String} flags Flags used by the pattern. * @returns {Boolean} Whether the next token is a quantifier. */ function isQuantifierNext(pattern, pos, flags) { return nativ.test.call(flags.indexOf('x') > -1 ? // Ignore any leading whitespace, line comments, and inline comments /^(?:\s+|#.*|\(\?#[^)]*\))*(?:[?*+]|{\d+(?:,\d*)?})/ : // Ignore any leading inline comments /^(?:\(\?#[^)]*\))*(?:[?*+]|{\d+(?:,\d*)?})/, pattern.slice(pos)); } /** * Pads the provided string with as many leading zeros as needed to get to length 4. Used to produce * fixed-length hexadecimal values. * * @private * @param {String} str * @returns {String} */ function pad4(str) { while (str.length < 4) { str = '0' + str; } return str; } /** * Checks for flag-related errors, and strips/applies flags in a leading mode modifier. Offloads * the flag preparation logic from the `XRegExp` constructor. * * @private * @param {String} pattern Regex pattern, possibly with a leading mode modifier. * @param {String} flags Any combination of flags. * @returns {Object} Object with properties `pattern` and `flags`. */ function prepareFlags(pattern, flags) { var i; // Recent browsers throw on duplicate flags, so copy this behavior for nonnative flags if (clipDuplicates(flags) !== flags) { throw new SyntaxError('Invalid duplicate regex flag ' + flags); } // Strip and apply a leading mode modifier with any combination of flags except g or y pattern = nativ.replace.call(pattern, /^\(\?([\w$]+)\)/, function ($0, $1) { if (nativ.test.call(/[gy]/, $1)) { throw new SyntaxError('Cannot use flag g or y in mode modifier ' + $0); } // Allow duplicate flags within the mode modifier flags = clipDuplicates(flags + $1); return ''; }); // Throw on unknown native or nonnative flags for (i = 0; i < flags.length; ++i) { if (!registeredFlags[flags.charAt(i)]) { throw new SyntaxError('Unknown regex flag ' + flags.charAt(i)); } } return { pattern: pattern, flags: flags }; } /** * Prepares an options object from the given value. * * @private * @param {String|Object} value Value to convert to an options object. * @returns {Object} Options object. */ function prepareOptions(value) { var options = {}; if (isType(value, 'String')) { XRegExp.forEach(value, /[^\s,]+/, function (match) { options[match] = true; }); return options; } return value; } /** * Registers a flag so it doesn't throw an 'unknown flag' error. * * @private * @param {String} flag Single-character flag to register. */ function registerFlag(flag) { if (!/^[\w$]$/.test(flag)) { throw new Error('Flag must be a single character A-Za-z0-9_$'); } registeredFlags[flag] = true; } /** * Runs built-in and custom regex syntax tokens in reverse insertion order at the specified * position, until a match is found. * * @private * @param {String} pattern Original pattern from which an XRegExp object is being built. * @param {String} flags Flags being used to construct the regex. * @param {Number} pos Position to search for tokens within `pattern`. * @param {Number} scope Regex scope to apply: 'default' or 'class'. * @param {Object} context Context object to use for token handler functions. * @returns {Object} Object with properties `matchLength`, `output`, and `reparse`; or `null`. */ function runTokens(pattern, flags, pos, scope, context) { var i = tokens.length, leadChar = pattern.charAt(pos), result = null, match, t; // Run in reverse insertion order while (i--) { t = tokens[i]; if (t.leadChar && t.leadChar !== leadChar || t.scope !== scope && t.scope !== 'all' || t.flag && flags.indexOf(t.flag) === -1) { continue; } match = XRegExp.exec(pattern, t.regex, pos, 'sticky'); if (match) { result = { matchLength: match[0].length, output: t.handler.call(context, match, scope, flags), reparse: t.reparse }; // Finished with token tests break; } } return result; } /** * Enables or disables implicit astral mode opt-in. When enabled, flag A is automatically added to * all new regexes created by XRegExp. This causes an error to be thrown when creating regexes if * the Unicode Base addon is not available, since flag A is registered by that addon. * * @private * @param {Boolean} on `true` to enable; `false` to disable. */ function setAstral(on) { features.astral = on; } /** * Enables or disables native method overrides. * * @private * @param {Boolean} on `true` to enable; `false` to disable. */ function setNatives(on) { RegExp.prototype.exec = (on ? fixed : nativ).exec; RegExp.prototype.test = (on ? fixed : nativ).test; String.prototype.match = (on ? fixed : nativ).match; String.prototype.replace = (on ? fixed : nativ).replace; String.prototype.split = (on ? fixed : nativ).split; features.natives = on; } /** * Returns the object, or throws an error if it is `null` or `undefined`. This is used to follow * the ES5 abstract operation `ToObject`. * * @private * @param {*} value Object to check and return. * @returns {*} The provided object. */ function toObject(value) { // null or undefined if (value == null) { throw new TypeError('Cannot convert null or undefined to object'); } return value; } /* ============================== * Constructor * ============================== */ /** * Creates an extended regular expression object for matching text with a pattern. Differs from a * native regular expression in that additional syntax and flags are supported. The returned object * is in fact a native `RegExp` and works with all native methods. * * @class XRegExp * @constructor * @param {String|RegExp} pattern Regex pattern string, or an existing regex object to copy. * @param {String} [flags] Any combination of flags. * Native flags: * <li>`g` - global * <li>`i` - ignore case * <li>`m` - multiline anchors * <li>`u` - unicode (ES6) * <li>`y` - sticky (Firefox 3+, ES6) * Additional XRegExp flags: * <li>`n` - explicit capture * <li>`s` - dot matches all (aka singleline) * <li>`x` - free-spacing and line comments (aka extended) * <li>`A` - astral (requires the Unicode Base addon) * Flags cannot be provided when constructing one `RegExp` from another. * @returns {RegExp} Extended regular expression object. * @example * * // With named capture and flag x * XRegExp('(?<year> [0-9]{4} ) -? # year \n\ * (?<month> [0-9]{2} ) -? # month \n\ * (?<day> [0-9]{2} ) # day ', 'x'); * * // Providing a regex object copies it. Native regexes are recompiled using native (not XRegExp) * // syntax. Copies maintain extended data, are augmented with `XRegExp.prototype` properties, and * // have fresh `lastIndex` properties (set to zero). * XRegExp(/regex/); */ function XRegExp(pattern, flags) { var context = { hasNamedCapture: false, captureNames: [] }, scope = defaultScope, output = '', pos = 0, result, token, generated, appliedPattern, appliedFlags; if (XRegExp.isRegExp(pattern)) { if (flags !== undefined) { throw new TypeError('Cannot supply flags when copying a RegExp'); } return copyRegex(pattern); } // Copy the argument behavior of `RegExp` pattern = pattern === undefined ? '' : String(pattern); flags = flags === undefined ? '' : String(flags); if (XRegExp.isInstalled('astral') && flags.indexOf('A') === -1) { // This causes an error to be thrown if the Unicode Base addon is not available flags += 'A'; } if (!patternCache[pattern]) { patternCache[pattern] = {}; } if (!patternCache[pattern][flags]) { // Check for flag-related errors, and strip/apply flags in a leading mode modifier result = prepareFlags(pattern, flags); appliedPattern = result.pattern; appliedFlags = result.flags; // Use XRegExp's tokens to translate the pattern to a native regex pattern. // `appliedPattern.length` may change on each iteration if tokens use `reparse` while (pos < appliedPattern.length) { do { // Check for custom tokens at the current position result = runTokens(appliedPattern, appliedFlags, pos, scope, context); // If the matched token used the `reparse` option, splice its output into the // pattern before running tokens again at the same position if (result && result.reparse) { appliedPattern = appliedPattern.slice(0, pos) + result.output + appliedPattern.slice(pos + result.matchLength); } } while (result && result.reparse); if (result) { output += result.output; pos += result.matchLength || 1; } else { // Get the native token at the current position token = XRegExp.exec(appliedPattern, nativeTokens[scope], pos, 'sticky')[0]; output += token; pos += token.length; if (token === '[' && scope === defaultScope) { scope = classScope; } else if (token === ']' && scope === classScope) { scope = defaultScope; } } } patternCache[pattern][flags] = { // Cleanup token cruft: repeated `(?:)(?:)` and leading/trailing `(?:)` pattern: nativ.replace.call(output, /\(\?:\)(?:[*+?]|\{\d+(?:,\d*)?})?\??(?=\(\?:\))|^\(\?:\)(?:[*+?]|\{\d+(?:,\d*)?})?\??|\(\?:\)(?:[*+?]|\{\d+(?:,\d*)?})?\??$/g, ''), // Strip all but native flags flags: nativ.replace.call(appliedFlags, /[^gimuy]+/g, ''), // `context.captureNames` has an item for each capturing group, even if unnamed captures: context.hasNamedCapture ? context.captureNames : null }; } generated = patternCache[pattern][flags]; return augment(new RegExp(generated.pattern, generated.flags), generated.captures, pattern, flags); }; // Add `RegExp.prototype` to the prototype chain XRegExp.prototype = new RegExp(); /* ============================== * Public properties * ============================== */ /** * The XRegExp version number as a string containing three dot-separated parts. For example, * '2.0.0-beta-3'. * * @static * @memberOf XRegExp * @type String */ XRegExp.version = '3.1.0-dev'; /* ============================== * Public methods * ============================== */ /** * Extends XRegExp syntax and allows custom flags. This is used internally and can be used to * create XRegExp addons. If more than one token can match the same string, the last added wins. * * @memberOf XRegExp * @param {RegExp} regex Regex object that matches the new token. * @param {Function} handler Function that returns a new pattern string (using native regex syntax) * to replace the matched token within all future XRegExp regexes. Has access to persistent * properties of the regex being built, through `this`. Invoked with three arguments: * <li>The match array, with named backreference properties. * <li>The regex scope where the match was found: 'default' or 'class'. * <li>The flags used by the regex, including any flags in a leading mode modifier. * The handler function becomes part of the XRegExp construction process, so be careful not to * construct XRegExps within the function or you will trigger infinite recursion. * @param {Object} [options] Options object with optional properties: * <li>`scope` {String} Scope where the token applies: 'default', 'class', or 'all'. * <li>`flag` {String} Single-character flag that triggers the token. This also registers the * flag, which prevents XRegExp from throwing an 'unknown flag' error when the flag is used. * <li>`optionalFlags` {String} Any custom flags checked for within the token `handler` that are * not required to trigger the token. This registers the flags, to prevent XRegExp from * throwing an 'unknown flag' error when any of the flags are used. * <li>`reparse` {Boolean} Whether the `handler` function's output should not be treated as * final, and instead be reparseable by other tokens (including the current token). Allows * token chaining or deferring. * <li>`leadChar` {String} Single character that occurs at the beginning of any successful match * of the token (not always applicable). This doesn't change the behavior of the token unless * you provide an erroneous value. However, providing it can increase the token's performance * since the token can be skipped at any positions where this character doesn't appear. * @example * * // Basic usage: Add \a for the ALERT control code * XRegExp.addToken( * /\\a/, * function() {return '\\x07';}, * {scope: 'all'} * ); * XRegExp('\\a[\\a-\\n]+').test('\x07\n\x07'); // -> true * * // Add the U (ungreedy) flag from PCRE and RE2, which reverses greedy and lazy quantifiers. * // Since `scope` is not specified, it uses 'default' (i.e., transformations apply outside of * // character classes only) * XRegExp.addToken( * /([?*+]|{\d+(?:,\d*)?})(\??)/, * function(match) {return match[1] + (match[2] ? '' : '?');}, * {flag: 'U'} * ); * XRegExp('a+', 'U').exec('aaa')[0]; // -> 'a' * XRegExp('a+?', 'U').exec('aaa')[0]; // -> 'aaa' */ XRegExp.addToken = function (regex, handler, options) { options = options || {}; var optionalFlags = options.optionalFlags, i; if (options.flag) { registerFlag(options.flag); } if (optionalFlags) { optionalFlags = nativ.split.call(optionalFlags, ''); for (i = 0; i < optionalFlags.length; ++i) { registerFlag(optionalFlags[i]); } } // Add to the private list of syntax tokens tokens.push({ regex: copyRegex(regex, { addG: true, addY: hasNativeY, isInternalOnly: true }), handler: handler, scope: options.scope || defaultScope, flag: options.flag, reparse: options.reparse, leadChar: options.leadChar }); // Reset the pattern cache used by the `XRegExp` constructor, since the same pattern and // flags might now produce different results XRegExp.cache.flush('patterns'); }; /** * Caches and returns the result of calling `XRegExp(pattern, flags)`. On any subsequent call with * the same pattern and flag combination, the cached copy of the regex is returned. * * @memberOf XRegExp * @param {String} pattern Regex pattern string. * @param {String} [flags] Any combination of XRegExp flags. * @returns {RegExp} Cached XRegExp object. * @example * * while (match = XRegExp.cache('.', 'gs').exec(str)) { * // The regex is compiled once only * } */ XRegExp.cache = function (pattern, flags) { if (!regexCache[pattern]) { regexCache[pattern] = {}; } return regexCache[pattern][flags] || (regexCache[pattern][flags] = XRegExp(pattern, flags)); }; // Intentionally undocumented XRegExp.cache.flush = function (cacheName) { if (cacheName === 'patterns') { // Flush the pattern cache used by the `XRegExp` constructor patternCache = {}; } else { // Flush the regex cache populated by `XRegExp.cache` regexCache = {}; } }; /** * Escapes any regular expression metacharacters, for use when matching literal strings. The result * can safely be used at any point within a regex that uses any flags. * * @memberOf XRegExp * @param {String} str String to escape. * @returns {String} String with regex metacharacters escaped. * @example * * XRegExp.escape('Escaped? <.>'); * // -> 'Escaped\?\ <\.>' */ XRegExp.escape = function (str) { return nativ.replace.call(toObject(str), /[-[\]{}()*+?.,\\^$|#\s]/g, '\\$&'); }; /** * Executes a regex search in a specified string. Returns a match array or `null`. If the provided * regex uses named capture, named backreference properties are included on the match array. * Optional `pos` and `sticky` arguments specify the search start position, and whether the match * must start at the specified position only. The `lastIndex` property of the provided regex is not * used, but is updated for compatibility. Also fixes browser bugs compared to the native * `RegExp.prototype.exec` and can be used reliably cross-browser. * * @memberOf XRegExp * @param {String} str String to search. * @param {RegExp} regex Regex to search with. * @param {Number} [pos=0] Zero-based index at which to start the search. * @param {Boolean|String} [sticky=false] Whether the match must start at the specified position * only. The string `'sticky'` is accepted as an alternative to `true`. * @returns {Array} Match array with named backreference properties, or `null`. * @example * * // Basic use, with named backreference * var match = XRegExp.exec('U+2620', XRegExp('U\\+(?<hex>[0-9A-F]{4})')); * match.hex; // -> '2620' * * // With pos and sticky, in a loop * var pos = 2, result = [], match; * while (match = XRegExp.exec('<1><2><3><4>5<6>', /<(\d)>/, pos, 'sticky')) { * result.push(match[1]); * pos = match.index + match[0].length; * } * // result -> ['2', '3', '4'] */ XRegExp.exec = function (str, regex, pos, sticky) { var cacheKey = 'g', addY = false, match, r2; addY = hasNativeY && !!(sticky || regex.sticky && sticky !== false); if (addY) { cacheKey += 'y'; } regex[REGEX_DATA] = regex[REGEX_DATA] || {}; // Shares cached copies with `XRegExp.match`/`replace` r2 = regex[REGEX_DATA][cacheKey] || (regex[REGEX_DATA][cacheKey] = copyRegex(regex, { addG: true, addY: addY, removeY: sticky === false, isInternalOnly: true })); r2.lastIndex = pos = pos || 0; // Fixed `exec` required for `lastIndex` fix, named backreferences, etc. match = fixed.exec.call(r2, str); if (sticky && match && match.index !== pos) { match = null; } if (regex.global) { regex.lastIndex = match ? r2.lastIndex : 0; } return match; }; /** * Executes a provided function once per regex match. Searches always start at the beginning of the * string and continue until the end, regardless of the state of the regex's `global` property and * initial `lastIndex`. * * @memberOf XRegExp * @param {String} str String to search. * @param {RegExp} regex Regex to search with. * @param {Function} callback Function to execute for each match. Invoked with four arguments: * <li>The match array, with named backreference properties. * <li>The zero-based match index. * <li>The string being traversed. * <li>The regex object being used to traverse the string. * @example * * // Extracts every other digit from a string * var evens = []; * XRegExp.forEach('1a2345', /\d/, function(match, i) { * if (i % 2) evens.push(+match[0]); * }); * // evens -> [2, 4] */ XRegExp.forEach = function (str, regex, callback) { var pos = 0, i = -1, match; while (match = XRegExp.exec(str, regex, pos)) { // Because `regex` is provided to `callback`, the function could use the deprecated/ // nonstandard `RegExp.prototype.compile` to mutate the regex. However, since // `XRegExp.exec` doesn't use `lastIndex` to set the search position, this can't lead // to an infinite loop, at least. Actually, because of the way `XRegExp.exec` caches // globalized versions of regexes, mutating the regex will not have any effect on the // iteration or matched strings, which is a nice side effect that brings extra safety callback(match, ++i, str, regex); pos = match.index + (match[0].length || 1); } }; /** * Copies a regex object and adds flag `g`. The copy maintains extended data, is augmented with * `XRegExp.prototype` properties, and has a fresh `lastIndex` property (set to zero). Native * regexes are not recompiled using XRegExp syntax. * * @memberOf XRegExp * @param {RegExp} regex Regex to globalize. * @returns {RegExp} Copy of the provided regex with flag `g` added. * @example * * var globalCopy = XRegExp.globalize(/regex/); * globalCopy.global; // -> true */ XRegExp.globalize = function (regex) { return copyRegex(regex, { addG: true }); }; /** * Installs optional features according to the specified options. Can be undone using * {@link #XRegExp.uninstall}. * * @memberOf XRegExp * @param {Object|String} options Options object or string. * @example * * // With an options object * XRegExp.install({ * // Enables support for astral code points in Unicode addons (implicitly sets flag A) * astral: true, * * // Overrides native regex methods with fixed/extended versions that support named * // backreferences and fix numerous cross-browser bugs * natives: true * }); * * // With an options string * XRegExp.install('astral natives'); */ XRegExp.install = function (options) { options = prepareOptions(options); if (!features.astral && options.astral) { setAstral(true); } if (!features.natives && options.natives) { setNatives(true); } }; /** * Checks whether an individual optional feature is installed. * * @memberOf XRegExp * @param {String} feature Name of the feature to check. One of: * <li>`natives` * <li>`astral` * @returns {Boolean} Whether the feature is installed. * @example * * XRegExp.isInstalled('natives'); */ XRegExp.isInstalled = function (feature) { return !!features[feature]; }; /** * Returns `true` if an object is a regex; `false` if it isn't. This works correctly for regexes * created in another frame, when `instanceof` and `constructor` checks would fail. * * @memberOf XRegExp * @param {*} value Object to check. * @returns {Boolean} Whether the object is a `RegExp` object. * @example * * XRegExp.isRegExp('string'); // -> false * XRegExp.isRegExp(/regex/i); // -> true * XRegExp.isRegExp(RegExp('^', 'm')); // -> true * XRegExp.isRegExp(XRegExp('(?s).')); // -> true */ XRegExp.isRegExp = function (value) { return toString.call(value) === '[object RegExp]'; //return isType(value, 'RegExp'); }; /** * Returns the first matched string, or in global mode, an array containing all matched strings. * This is essentially a more convenient re-implementation of `String.prototype.match` that gives * the result types you actually want (string instead of `exec`-style array in match-first mode, * and an empty array instead of `null` when no matches are found in match-all mode). It also lets * you override flag g and ignore `lastIndex`, and fixes browser bugs. * * @memberOf XRegExp * @param {String} str String to search. * @param {RegExp} regex Regex to search with. * @param {String} [scope='one'] Use 'one' to return the first match as a string. Use 'all' to * return an array of all matched strings. If not explicitly specified and `regex` uses flag g, * `scope` is 'all'. * @returns {String|Array} In match-first mode: First match as a string, or `null`. In match-all * mode: Array of all matched strings, or an empty array. * @example * * // Match first * XRegExp.match('abc', /\w/); // -> 'a' * XRegExp.match('abc', /\w/g, 'one'); // -> 'a' * XRegExp.match('abc', /x/g, 'one'); // -> null * * // Match all * XRegExp.match('abc', /\w/g); // -> ['a', 'b', 'c'] * XRegExp.match('abc', /\w/, 'all'); // -> ['a', 'b', 'c'] * XRegExp.match('abc', /x/, 'all'); // -> [] */ XRegExp.match = function (str, regex, scope) { var global = regex.global && scope !== 'one' || scope === 'all', cacheKey = (global ? 'g' : '') + (regex.sticky ? 'y' : '') || 'noGY', result, r2; regex[REGEX_DATA] = regex[REGEX_DATA] || {}; // Shares cached copies with `XRegExp.exec`/`replace` r2 = regex[REGEX_DATA][cacheKey] || (regex[REGEX_DATA][cacheKey] = copyRegex(regex, { addG: !!global, addY: !!regex.sticky, removeG: scope === 'one', isInternalOnly: true })); result = nativ.match.call(toObject(str), r2); if (regex.global) { regex.lastIndex = scope === 'one' && result ? // Can't use `r2.lastIndex` since `r2` is nonglobal in this case result.index + result[0].length : 0; } return global ? result || [] : result && result[0]; }; /** * Retrieves the matches from searching a string using a chain of regexes that successively search * within previous matches. The provided `chain` array can contain regexes and or objects with * `regex` and `backref` properties. When a backreference is specified, the named or numbered * backreference is passed forward to the next regex or returned. * * @memberO