/*! * VisualEditor namespace. * * @copyright 2011-2013 VisualEditor Team and others; see AUTHORS.txt * @license The MIT License (MIT); see LICENSE.txt */ ( function () { var ve, hasOwn; /** * Namespace for all VisualEditor classes, static methods and static properties. * @class * @singleton */ ve = { // List of instances of ve.Surface 'instances': [] //'actionFactory' instantiated in ve.ActionFactory.js }; /* Utility Functions */ hasOwn = Object.prototype.hasOwnProperty; /* Static Methods */ /** * Create an object that inherits from another object. * * @method * @until ES5: Object.create * @source * @param {Object} origin Object to inherit from * @return {Object} Empty object that inherits from origin */ ve.createObject = Object.create || function ( origin ) { function O() {} O.prototype = origin; var r = new O(); return r; }; /** * Utility for common usage of ve.createObject for inheriting from one * prototype to another. * * Beware: This redefines the prototype, call before setting your prototypes. * Beware: This redefines the prototype, can only be called once on a function. * If called multiple times on the same function, the previous prototype is lost. * This is how prototypal inheritance works, it can only be one straight chain * (just like classical inheritance in PHP for example). If you need to work with * multiple constructors consider storing an instance of the other constructor in a * property instead, or perhaps use a mixin (see ve.mixinClass). * * function Foo() {} * Foo.prototype.jump = function () {}; * * function FooBar() {} * ve.inheritClass( FooBar, Foo ); * FooBar.prop.feet = 2; * FooBar.prototype.walk = function () {}; * * function FooBarQuux() {} * ve.inheritClass( FooBarQuux, FooBar ); * FooBarQuux.prototype.jump = function () {}; * * FooBarQuux.prop.feet === 2; * var fb = new FooBar(); * fb.jump(); * fb.walk(); * fb instanceof Foo && fb instanceof FooBar && fb instanceof FooBarQuux; * * @method * @source * @param {Function} targetFn * @param {Function} originFn * @throws {Error} If target already inherits from origin */ ve.inheritClass = function ( targetFn, originFn ) { if ( targetFn.prototype instanceof originFn ) { throw new Error( 'Target already inherits from origin' ); } // Doesn't really require ES5 (jshint/jshint#74@github) /*jshint es5: true */ var targetConstructor = targetFn.prototype.constructor; targetFn.prototype = ve.createObject( originFn.prototype ); // Restore constructor property of targetFn targetFn.prototype.constructor = targetConstructor; // Extend static properties originFn.static = originFn.static || {}; targetFn.static = ve.createObject( originFn.static ); // Copy mixin tracking targetFn.mixins = originFn.mixins ? originFn.mixins.slice( 0 ) : []; }; /** * Utility to copy over *own* prototype properties of a mixin. * The 'constructor' (whether implicit or explicit) is not copied over. * * This does not create inheritance to the origin. If inheritance is needed * use ve.inheritClass instead. * * Beware: This can redefine a prototype property, call before setting your prototypes. * Beware: Don't call before ve.inheritClass. * * function Foo() {} * function Context() {} * * // Avoid repeating this code * function ContextLazyLoad() {} * ContextLazyLoad.prototype.getContext = function () { * if ( !this.context ) { * this.context = new Context(); * } * return this.context; * }; * * function FooBar() {} * ve.inheritClass( FooBar, Foo ); * ve.mixinClass( FooBar, ContextLazyLoad ); * * @method * @source * @param {Function} targetFn * @param {Function} originFn */ ve.mixinClass = function ( targetFn, originFn ) { var key; // Copy prototype properties for ( key in originFn.prototype ) { if ( key !== 'constructor' && hasOwn.call( originFn.prototype, key ) ) { targetFn.prototype[key] = originFn.prototype[key]; } } // Copy static properties if ( originFn.static ) { targetFn.static = targetFn.static || {}; for ( key in originFn.static ) { if ( hasOwn.call( originFn.static, key ) ) { targetFn.static[key] = originFn.static[key]; } } } // Track mixins targetFn.mixins = targetFn.mixins || []; targetFn.mixins.push( originFn ); }; /** * Check if a class or object uses a mixin. * * @param {Function|Object} a Class or object to check * @param {Function} mixin Mixin to check for * @return {Boolean} Class or object uses mixin */ ve.isMixedIn = function ( subject, mixin ) { if ( subject.constructor ) { subject = subject.constructor; } return subject.mixins && subject.mixins.indexOf( mixin ) !== -1; }; /** * Create a new object that is an instance of the same * constructor as the input, inherits from the same object * and contains the same own properties. * * This makes a shallow non-recursive copy of own properties. * To create a recursive copy of plain objects, use ve.copyObject. * * var foo = new Person( mom, dad ); * foo.setAge( 21 ); * var foo2 = ve.cloneObject( foo ); * foo.setAge( 22 ); * * // Then * foo2 !== foo; // true * foo2 instanceof Person; // true * foo2.getAge(); // 21 * foo.getAge(); // 22 * * @method * @source * @param {Object} origin * @return {Object} Clone of origin */ ve.cloneObject = function ( origin ) { var key, r; r = ve.createObject( origin.constructor.prototype ); for ( key in origin ) { if ( hasOwn.call( origin, key ) ) { r[key] = origin[key]; } } return r; }; /** * Check to see if an object is a plain object (created using "{}" or "new Object"). * * @method * @source * @param {Object} obj The object that will be checked to see if it's a plain object * @return {boolean} */ ve.isPlainObject = $.isPlainObject; /** * Check to see if an object is empty (contains no properties). * * @method * @source * @param {Object} obj The object that will be checked to see if it's empty * @return {boolean} */ ve.isEmptyObject = $.isEmptyObject; /** * Check whether given variable is an array. Should not use `instanceof` or * `constructor` due to the inability to detect arrays from a different * scope. * * @method * @source * @until ES5: Array.isArray * @param {Mixed} x * @return {boolean} */ ve.isArray = $.isArray; /** * Create a function that calls the given function in a certain context. * If a function does not have an explicit context, it is determined at * execution time based on how it is invoked (e.g. object member, call/apply, * global scope, etc.). * Performance optimization: http://jsperf.com/function-bind-shim-perf * * @method * @until ES5: Function.prototype.bind * @param {Function} func Function to bind * @param {Object} context Context for the function * @param {Mixed...} [args] Variadic list of arguments to prepend to arguments * to the bound function * @return {Function} The bound */ ve.bind = $.proxy; /** * Wrapper for Array.prototype.indexOf. * * Values are compared without type coercion. * * @method * @until ES5 * @param {Mixed} value Element to search for * @param {Array} array Array to search in * @param {number} [fromIndex=0] Index to being searching from * @return {number} Index of value in array, or -1 if not found */ ve.indexOf = $.inArray; /** * Array.prototype.filter * * @method * @until ES5 * @param {Array} array Array to filter * @param {Function} callback Callback to call on each element of array * @param {Mixed} [context] Context (this object) for callback * @returns {Array} Array of elements in array for which callback returned true */ ve.filterArray = function ( array, callback, context ) { var i, len, value, result = []; if ( array.filter ) { return array.filter( callback, context ); } else { for ( i = 0, len = array.length; i < len; i++ ) { if ( i in array ) { value = array[i]; if ( callback.call( context, value, i, array ) ) { result.push( value ); } } } return result; } }; /** * Compute the union (duplicate-free merge) of a set of arrays. * * Arrays values must be convertable to object keys (strings) * * By building an object (with the values for keys) in parallel with * the array, a new item's existence in the union can be computed faster * * @param {Array...} arrays Arrays to union * @returns {Array} Union of the arrays */ ve.simpleArrayUnion = function () { var i, ilen, j, jlen, arr, obj = {}, result = []; for ( i = 0, ilen = arguments.length; i < ilen; i++ ) { arr = arguments[i]; for ( j = 0, jlen = arr.length; j < jlen; j++ ) { if ( !obj[arr[j]] ) { obj[arr[j]] = true; result.push( arr[j] ); } } } return result; }; /** * Compute the intersection of two arrays (items in both arrays). * * Arrays values must be convertable to object keys (strings) * * @param {Array} a First array * @param {Array} b Second array * @returns {Array} Intersection of arrays */ ve.simpleArrayIntersection = function ( a, b ) { return ve.simpleArrayCombine( a, b, true ); }; /** * Compute the difference of two arrays (items in 'a' but not 'b'). * * Arrays values must be convertable to object keys (strings) * * @param {Array} a First array * @param {Array} b Second array * @returns {Array} Intersection of arrays */ ve.simpleArrayDifference = function ( a, b ) { return ve.simpleArrayCombine( a, b, false ); }; /** * Combine arrays (intersection or difference). * * An intersection checks the item exists in 'b' while difference checks it doesn't. * * Arrays values must be convertable to object keys (strings) * * By building an object (with the values for keys) of 'b' we can * compute the result faster * * @param {Array} a First array * @param {Array} b Second array * @param {boolean} includeB Include items in 'b' * @returns {Array} Combination (intersection or difference) of arrays */ ve.simpleArrayCombine = function ( a, b, includeB ) { var i, ilen, isInB, bObj = {}, result = []; for ( i = 0, ilen = b.length; i < ilen; i++ ) { bObj[b[i]] = true; } for ( i = 0, ilen = a.length; i < ilen; i++ ) { isInB = !!bObj[a[i]]; if ( isInB === includeB ) { result.push( a[i] ); } } return result; }; /** * Merge properties of one or more objects into another. * Preserves original object's inheritance (e.g. Array, Object, whatever). * In case of array or array-like objects only the indexed properties * are copied over. * Beware: If called with only one argument, it will consider * 'target' as 'source' and 'this' as 'target'. Which means * ve.extendObject( { a: 1 } ); sets ve.a = 1; * * @method * @param {boolean} [recursive=false] * @param {Mixed} [target] Object that will receive the new properties * @param {Mixed...} [sources] Variadic list of objects containing properties * to be merged into the targe. * @return {Mixed} Modified version of first or second argument */ ve.extendObject = $.extend; /** * Generates a hash of an object based on its name and data. * Performance optimization: http://jsperf.com/ve-gethash-201208#/toJson_fnReplacerIfAoForElse * * To avoid two objects with the same values generating different hashes, we utilize the replacer * argument of JSON.stringify and sort the object by key as it's being serialized. This may or may * not be the fastest way to do this; we should investigate this further. * * Objects and arrays are hashed recursively. When hashing an object that has a .getHash() * function, we call that function and use its return value rather than hashing the object * ourselves. This allows classes to define custom hashing. * * @method * @param {Object} val Object to generate hash for * @returns {string} Hash of object */ ve.getHash = function ( val ) { return JSON.stringify( val, ve.getHash.keySortReplacer ); }; /** * Helper function for ve.getHash which sorts objects by key. * * This is a callback passed into JSON.stringify. * * @method * @param {string} key Property name of value being replaced * @param {Mixed} val Property value to replace * @returns {Mixed} Replacement value */ ve.getHash.keySortReplacer = function ( key, val ) { var normalized, keys, i, len; if ( val && typeof val.getHashObject === 'function' ) { // This object has its own custom hash function, use it val = val.getHashObject(); } if ( !ve.isArray( val ) && Object( val ) === val ) { // Only normalize objects when the key-order is ambiguous // (e.g. any object not an array). normalized = {}; keys = ve.getObjectKeys( val ).sort(); i = 0; len = keys.length; for ( ; i < len; i += 1 ) { normalized[keys[i]] = val[keys[i]]; } return normalized; // Primitive values and arrays get stable hashes // by default. Lets those be stringified as-is. } else { return val; } }; /** * Gets an array of all property names in an object. * * This falls back to the native impelentation of Object.keys if available. * Performance optimization: http://jsperf.com/object-keys-shim-perf#/fnHasown_fnForIfcallLength * * @method * @until ES5 * @param {Object} Object to get properties from * @returns {string[]} List of object keys */ ve.getObjectKeys = Object.keys || function ( obj ) { var key, keys; if ( Object( obj ) !== obj ) { throw new TypeError( 'Called on non-object' ); } keys = []; for ( key in obj ) { if ( hasOwn.call( obj, key ) ) { keys[keys.length] = key; } } return keys; }; /** * Gets an array of all property values in an object. * * @method * @param {Object} Object to get values from * @returns {Array} List of object values */ ve.getObjectValues = function ( obj ) { var key, values; if ( Object( obj ) !== obj ) { throw new TypeError( 'Called on non-object' ); } values = []; for ( key in obj ) { if ( hasOwn.call( obj, key ) ) { values[values.length] = obj[key]; } } return values; }; /** * Recursively compares string and number property between two objects. * * A false result may be caused by property inequality or by properties in one object missing from * the other. An asymmetrical test may also be performed, which checks only that properties in the * first object are present in the second object, but not the inverse. * * @method * @param {Object} a First object to compare * @param {Object} b Second object to compare * @param {boolean} [asymmetrical] Whether to check only that b contains values from a * @returns {boolean} If the objects contain the same values as each other */ ve.compareObjects = function ( a, b, asymmetrical ) { var aValue, bValue, aType, bType, k; for ( k in a ) { aValue = a[k]; bValue = b[k]; aType = typeof aValue; bType = typeof bValue; if ( aType !== bType || ( ( aType === 'string' || aType === 'number' ) && aValue !== bValue ) || ( ve.isPlainObject( aValue ) && !ve.compareObjects( aValue, bValue ) ) ) { return false; } } // If the check is not asymmetrical, recursing with the arguments swapped will verify our result return asymmetrical ? true : ve.compareObjects( b, a, true ); }; /** * Recursively compare two arrays. * * @method * @param {Array} a First array to compare * @param {Array} b Second array to compare * @param {boolean} [objectsByValue] Use ve.compareObjects() to compare objects instead of === */ ve.compareArrays = function ( a, b, objectsByValue ) { var i, aValue, bValue, aType, bType; if ( a.length !== b.length ) { return false; } for ( i = 0; i < a.length; i++ ) { aValue = a[i]; bValue = b[i]; aType = typeof aValue; bType = typeof bValue; if ( aType !== bType || !( ( ve.isArray( aValue ) && ve.isArray( bValue ) && ve.compareArrays( aValue, bValue ) ) || ( objectsByValue && ve.isPlainObject( aValue ) && ve.compareObjects( aValue, bValue ) ) || aValue === bValue ) ) { return false; } } return true; }; /** * Gets a deep copy of an array's string, number, array, plain-object and cloneable object contents. * * @method * @param {Array} source Array to copy * @param {Function} [callback] Applied to leaf values before they added to the clone * @returns {Array} Copy of source array */ ve.copyArray = function ( source, callback ) { var i, sourceValue, sourceType, destination = []; for ( i = 0; i < source.length; i++ ) { sourceValue = source[i]; sourceType = typeof sourceValue; if ( ve.isPlainObject( sourceValue ) ) { destination.push( ve.copyObject( sourceValue, callback ) ); } else if ( ve.isArray( sourceValue ) ) { destination.push( ve.copyArray( sourceValue, callback ) ); } else if ( sourceValue && typeof sourceValue.clone === 'function' ) { destination.push( callback ? callback( sourceValue.clone() ) : sourceValue.clone() ); } else if ( sourceValue && typeof sourceValue.cloneNode === 'function' ) { destination.push( callback ? callback( sourceValue.cloneNode( true ) ) : sourceValue.cloneNode( true ) ); } else { destination.push( callback ? callback( sourceValue ) : sourceValue ); } } return destination; }; /** * Gets a deep copy of an object's string, number, array and plain-object properties. * * @method * @param {Object} source Object to copy * @param {Function} [callback] Applied to leaf values before they added to the clone * @returns {Object} Copy of source object */ ve.copyObject = function ( source, callback ) { var key, sourceValue, sourceType, destination = {}; if ( typeof source.clone === 'function' ) { return source.clone(); } for ( key in source ) { sourceValue = source[key]; sourceType = typeof sourceValue; if ( ve.isPlainObject( sourceValue ) ) { destination[key] = ve.copyObject( sourceValue, callback ); } else if ( ve.isArray( sourceValue ) ) { destination[key] = ve.copyArray( sourceValue, callback ); } else if ( sourceValue && typeof sourceValue.clone === 'function' ) { destination[key] = callback ? callback( sourceValue.clone() ) : sourceValue.clone(); } else if ( sourceValue && typeof sourceValue.cloneNode === 'function' ) { destination[key] = callback ? callback( sourceValue.cloneNode( true ) ) : sourceValue.cloneNode( true ); } else { destination[key] = callback ? callback( sourceValue ) : sourceValue; } } return destination; }; /** * Splice one array into another. * * This is the equivalent of arr.splice( offset, remove, d1, d2, d3, ... ) except that arguments are * specified as an array rather than separate parameters. * * This method has been proven to be faster than using slice and concat to create a new array, but * performance tests should be conducted on each use of this method to verify this is true for the * particular use. Also, browsers change fast, never assume anything, always test everything. * * @method * @param {Array} arr Array to remove from and insert into. Will be modified * @param {number} offset Offset in arr to splice at. This may NOT be negative, unlike the * 'index' parameter in Array.prototype.splice * @param {number} remove Number of elements to remove at the offset. May be zero * @param {Array} data Array of items to insert at the offset. May not be empty if remove=0 * @returns {Array} Array of items removed */ ve.batchSplice = function ( arr, offset, remove, data ) { // We need to splice insertion in in batches, because of parameter list length limits which vary // cross-browser - 1024 seems to be a safe batch size on all browsers var index = 0, batchSize = 1024, toRemove = remove, spliced, removed = []; if ( data.length === 0 ) { // Special case: data is empty, so we're just doing a removal // The code below won't handle that properly, so we do it here return arr.splice( offset, remove ); } while ( index < data.length ) { // Call arr.splice( offset, remove, i0, i1, i2, ..., i1023 ); // Only set remove on the first call, and set it to zero on subsequent calls spliced = arr.splice.apply( arr, [index + offset, toRemove].concat( data.slice( index, index + batchSize ) ) ); if ( toRemove > 0 ) { removed = spliced; } index += batchSize; toRemove = 0; } return removed; }; /** * Insert one array into another. This just calls `ve.batchSplice( dst, offset, 0, src )`. * * @method * @see #batchSplice */ ve.insertIntoArray = function ( dst, offset, src ) { ve.batchSplice( dst, offset, 0, src ); }; /** * Get a deeply nested property of an object using variadic arguments, protecting against * undefined property errors. * * `quux = getProp( obj, 'foo', 'bar', 'baz' );` is equivalent to `quux = obj.foo.bar.baz;` * except that the former protects against JS errors if one of the intermediate properties * is undefined. Instead of throwing an error, this function will return undefined in * that case. * * @param {Object} obj * @param {Mixed...} [keys] * @returns obj[arguments[1]][arguments[2]].... or undefined */ ve.getProp = function ( obj ) { var i, retval = obj; for ( i = 1; i < arguments.length; i++ ) { if ( retval === undefined || retval === null ) { // Trying to access a property of undefined or null causes an error return undefined; } retval = retval[arguments[i]]; } return retval; }; /** * Set a deeply nested property of an object using variadic arguments, protecting against * undefined property errors. * * `ve.setProp( obj, 'foo', 'bar', 'baz' );` is equivalent to `obj.foo.bar = baz;` except that * the former protects against JS errors if one of the intermediate properties is * undefined. Instead of throwing an error, undefined intermediate properties will be * initialized to an empty object. If an intermediate property is null, or if obj itself * is undefined or null, this function will silently abort. * * @param {Object} obj * @param {Mixed...} [keys] * @param {Mixed} [value] */ ve.setProp = function ( obj /*, keys ... , value */ ) { var i, prop = obj; if ( Object( obj ) !== obj ) { return; } for ( i = 1; i < arguments.length - 2; i++ ) { if ( prop[arguments[i]] === undefined ) { prop[arguments[i]] = {}; } if ( prop[arguments[i]] === null || typeof prop[arguments[i]] !== 'object' ) { return; } prop = prop[arguments[i]]; } prop[arguments[arguments.length - 2]] = arguments[arguments.length - 1]; }; /** * Logs data to the console. * * This implementation does nothing, to add a real implmementation ve.debug needs to be loaded. * * @method * @param {Mixed...} [args] Data to log */ ve.log = function () { // don't do anything, this is just a stub }; /** * Logs an object to the console. * * This implementation does nothing, to add a real implmementation ve.debug needs to be loaded. * * @method * @param {Object} obj */ ve.dir = function () { // don't do anything, this is just a stub }; /** * Ported from: http://underscorejs.org/underscore.js * * Returns a function, that, as long as it continues to be invoked, will not * be triggered. The function will be called after it stops being called for * N milliseconds. If `immediate` is passed, trigger the function on the * leading edge, instead of the trailing. * * @method * @param func * @param wait * @param immediate */ ve.debounce = function ( func, wait, immediate ) { var timeout; return function () { var context = this, args = arguments, later = function () { timeout = null; if ( !immediate ) { func.apply( context, args ); } }; if ( immediate && !timeout ) { func.apply( context, args ); } clearTimeout( timeout ); timeout = setTimeout( later, wait ); }; }; /** * Gets a localized message. * * @method * @param {string} key Message key * @param {Mixed...} [params] Message parameters */ ve.msg = function () { // Avoid using ve.bind because ve.init.platform doesn't exist yet. // TODO: Fix dependency issues between ve.js and ve.init.platform return ve.init.platform.getMessage.apply( ve.init.platform, arguments ); }; /** * Escapes non-word characters so they can be safely used as HTML attribute values. * * This method is basically a copy of mw.html.escape. * * @see #escapeHtml_escapeHtmlCharacter * @method * @param {string} value Attribute value to escape * @returns {string} Escaped attribute value */ ve.escapeHtml = function ( value ) { return value.replace( /['"<>&]/g, ve.escapeHtml.escapeHtmlCharacter ); }; /** * Helper function for ve.escapeHtml which escapes a character for use in HTML. * * This is a callback passed into String.prototype.replace. * * @method escapeHtml_escapeHtmlCharacter * @private * @param {string} key Property name of value being replaced * @returns {string} Escaped charcater */ ve.escapeHtml.escapeHtmlCharacter = function ( value ) { switch ( value ) { case '\'': return '''; case '"': return '"'; case '<': return '<'; case '>': return '>'; case '&': return '&'; default: return value; } }; /** * Generate an opening HTML tag. * * This method copies part of mw.html.element() in MediaWiki. * * NOTE: While the values of attributes are escaped, the tag name and the names of * attributes (i.e. the keys in the attributes objects) are NOT ESCAPED. The caller is * responsible for making sure these are sane tag/attribute names and do not contain * unsanitized content from an external source (e.g. from the user or from the web). * * @param {string} tag HTML tag name * @param {Object} attributes Key-value map of attributes for the tag * @return {string} Opening HTML tag */ ve.getOpeningHtmlTag = function ( tagName, attributes ) { var html, attrName, attrValue; html = '<' + tagName; for ( attrName in attributes ) { attrValue = attributes[attrName]; if ( attrValue === true ) { // Convert name=true to name=name attrValue = attrName; } else if ( attrValue === false ) { // Skip name=false continue; } html += ' ' + attrName + '="' + ve.escapeHtml( String( attrValue ) ) + '"'; } html += '>'; return html; }; /** * Get the attributes of a DOM element as an object with key/value pairs * @param {HTMLElement} element * @returns {Object} */ ve.getDomAttributes = function ( element ) { var result = {}, i; for ( i = 0; i < element.attributes.length; i++ ) { result[element.attributes[i].name] = element.attributes[i].value; } return result; }; /** * Set the attributes of a DOM element as an object with key/value pairs * * @param {HTMLElement} element DOM element to apply attributes to * @param {Object} attributes Attributes to apply * @param {string[]} [whitelist] List of attributes to exclusively allow (all lower case names) */ ve.setDomAttributes = function ( element, attributes, whitelist ) { var key; // Duck-typing for attribute setting if ( !element.setAttribute || !element.removeAttribute ) { return; } for ( key in attributes ) { if ( attributes[key] === undefined || attributes[key] === null ) { element.removeAttribute( key ); } else { if ( whitelist && whitelist.indexOf( key.toLowerCase() ) === -1 ) { continue; } element.setAttribute( key, attributes[key] ); } } }; /** * Check whether a given DOM element is of a block or inline type * @param {HTMLElement} element * @returns {boolean} True if element is block, false if it is inline */ ve.isBlockElement = function ( element ) { return ve.isBlockElementType( element.nodeName.toLowerCase() ); }; /** * Check whether a given tag name is a block or inline tag * @param {string} nodeName All-lowercase HTML tag name * @returns {boolean} True if block, false if inline */ ve.isBlockElementType = function ( nodeName ) { return ve.indexOf( nodeName, ve.isBlockElementType.blockTypes ) !== -1; }; /** * Private data for ve.isBlockElementType() */ ve.isBlockElementType.blockTypes = [ 'div', 'p', // tables 'table', 'tbody', 'thead', 'tfoot', 'caption', 'th', 'tr', 'td', // lists 'ul', 'ol', 'li', 'dl', 'dt', 'dd', // HTML5 heading content 'h1', 'h2', 'h3', 'h4', 'h5', 'h6', 'hgroup', // HTML5 sectioning content 'article', 'aside', 'body', 'nav', 'section', 'footer', 'header', 'figure', 'figcaption', 'fieldset', 'details', 'blockquote', // other 'hr', 'button', 'canvas', 'center', 'col', 'colgroup', 'embed', 'map', 'object', 'pre', 'progress', 'video' ]; /** * Create an HTMLDocument from an HTML string * * The html parameter is supposed to be a full HTML document with a doctype and an `` tag. * If you pass a document fragment, it may or may not work, this is at the mercy of the browser. * * To create an empty document, pass the empty string. * * @param {string} html HTML string * @returns {HTMLDocument} Document constructed from the HTML string */ ve.createDocumentFromHTML = function ( html ) { // Here's how this function should look: // // var newDocument = document.implementation.createHTMLDocument( '' ); // newDocument.open(); // newDocument.write( html ); // newDocument.close(); // return newDocument; // // (Or possibly something involving DOMParser.prototype.parseFromString, but that's Firefox-only // for now.) // // Sadly, it's impossible: // * On IE 9, calling open()/write() on such a document throws an "Unspecified error" (sic). // * On Firefox 20, calling open()/write() doesn't actually do anything, including writing. // This is reported as Firefox bug 867102. // * On Opera 12, calling open()/write() behaves as if called on window.document, replacing the // entire contents of the page with new HTML. This is reported as Opera bug DSK-384486. // // Funnily, in all of those browsers it's apparently perfectly legal and possible to access the // newly created document's DOM itself, including modifying documentElement's innerHTML, which // would achieve our goal. But that requires some nasty magic to strip off the tag // itself, so we're not doing that. (We can't use .outerHTML, either, as the spec disallows // assigning to it for the root element.) // // There is one more way - create an