/*! * VisualEditor DataModel Converter class. * * @copyright 2011-2013 VisualEditor Team and others; see AUTHORS.txt * @license The MIT License (MIT); see LICENSE.txt */ /** * DataModel converter. * * Converts between HTML DOM and VisualEditor linear data. * * @class * @constructor * @param {ve.dm.ModelRegistry} modelRegistry * @param {ve.dm.NodeFactory} nodeFactory * @param {ve.dm.AnnotationFactory} annotationFactory */ ve.dm.Converter = function VeDmConverter( modelRegistry, nodeFactory, annotationFactory, metaItemFactory ) { // Properties this.modelRegistry = modelRegistry; this.nodeFactory = nodeFactory; this.annotationFactory = annotationFactory; this.metaItemFactory = metaItemFactory; }; /* Static Methods */ /** * Get linear model data from a string optionally applying annotations * * @static * @param {string} text Plain text to convert * @param {ve.dm.AnnotationSet} [annotations] Annotations to apply * @returns {Array} Linear model data, one element per character */ ve.dm.Converter.getDataContentFromText = function ( text, annotations ) { var i, characters = text.split( '' ); if ( !annotations || annotations.isEmpty() ) { return characters; } // Apply annotations to characters for ( i = 0; i < characters.length; i++ ) { // Just store the annotations' indexes from the index-value store characters[i] = [characters[i], annotations.getIndexes().slice()]; } return characters; }; /* Methods */ /** * Get the DOM element for a given linear model element. * * This invokes the toDomElements function registered for the element type. * * @method * @param {Object} dataElement Linear model element * @param {HTMLDocument} doc Document to create DOM elements in * @returns {HTMLElement|boolean} DOM element, or false if the element cannot be converted */ ve.dm.Converter.prototype.getDomElementsFromDataElement = function ( dataElement, doc ) { var domElements, dataElementAttributes, key, matches, nodeClass = this.modelRegistry.lookup( dataElement.type ); if ( !nodeClass ) { throw new Error( 'Attempting to convert unknown data element type ' + dataElement.type ); } domElements = nodeClass.static.toDomElements( dataElement, doc ); if ( !domElements || !domElements.length ) { throw new Error( 'toDomElements() failed to return an array when converting element of type ' + dataElement.type ); } dataElementAttributes = dataElement.attributes; if ( dataElementAttributes ) { for ( key in dataElementAttributes ) { // Only include 'html/i/*' attributes and strip the 'html/i/' from the beginning of the name /*jshint regexp:false */ matches = key.match( /^html\/(\d+)\/(.*)$/ ); if ( matches ) { if ( domElements[matches[1]] && !domElements[matches[1]].hasAttribute( matches[2] ) ) { domElements[matches[1]].setAttribute( matches[2], dataElementAttributes[key] ); } } } } // Change markers if ( dataElement.internal && dataElement.internal.changed && !ve.isEmptyObject( dataElement.internal.changed ) && ve.init.platform.useChangeMarkers() ) { domElements[0].setAttribute( 'data-ve-changed', JSON.stringify( dataElement.internal.changed ) ); } return domElements; }; /** * Create a data element from a DOM element. * @param {ve.dm.Model} modelClass Model class to use for conversion * @param {HTMLElement[]} domElements DOM elements to convert * @param {Object} context Converter context to pass to toDataElement() (will be cloned) * @returns {Object} Data element */ ve.dm.Converter.prototype.createDataElement = function ( modelClass, domElements, context ) { var i, j, dataElement, dataElementAttributes, domElementAttributes, domElementAttribute; dataElement = modelClass.static.toDataElement( domElements, ve.copyObject( context ) ); if ( modelClass.static.storeHtmlAttributes && dataElement ) { for ( i = 0; i < domElements.length; i++ ) { domElementAttributes = domElements[i].attributes; if ( domElementAttributes && domElementAttributes.length ) { dataElementAttributes = dataElement.attributes = dataElement.attributes || {}; // Include all attributes and prepend 'html/i/' to each attribute name for ( j = 0; j < domElementAttributes.length; j++ ) { domElementAttribute = domElementAttributes[j]; dataElementAttributes['html/' + i + '/' + domElementAttribute.name] = domElementAttribute.value; } } } } return dataElement; }; /** * Build an HTML DOM node for a linear model annotation. * * @method * @param {Object} dataAnnotation Annotation object * @returns {HTMLElement} HTML DOM node */ ve.dm.Converter.prototype.getDomElementFromDataAnnotation = function ( dataAnnotation, doc ) { var htmlData = dataAnnotation.toHTML(), domElement = doc.createElement( htmlData.tag ); ve.setDomAttributes( domElement, htmlData.attributes ); return domElement; }; /** * Convert an HTML document to a linear model. * @param {ve.dm.IndexValueStore} store Index-value store * @param {HTMLDocument} doc HTML document to convert * @returns {ve.dm.ElementLinearData} Linear model data */ ve.dm.Converter.prototype.getDataFromDom = function ( store, doc ) { // Possibly do things with doc and the head in the future return new ve.dm.ElementLinearData( store, this.getDataFromDomRecursion( store, doc.body ) ); }; /** * Recursive implementation of getDataFromDom(). For internal use. * * @method * @param {ve.dm.IndexValueStore} store Index-value store * @param {HTMLElement} domElement HTML element to convert * @param {ve.dm.AnnotationSet} [annotations] Annotations to apply to the generated data * @param {Object} [dataElement] Data element to wrap the returned data in * @param {Array} [path] Array of linear model element types * @param {boolean} [alreadyWrapped] Whether the caller has already started wrapping bare content in a paragraph * @returns {Array} Linear model data */ ve.dm.Converter.prototype.getDataFromDomRecursion = function ( store, domElement, annotations, dataElement, path, alreadyWrapped ) { function addWhitespace( element, index, whitespace ) { if ( !element.internal ) { element.internal = {}; } // whitespace = [ outerPre, innerPre, innerPost, outerPost ] // text // ^^^^^^^^ ^^^^^^^^ ^^^^^^^^^ ^^^^^^^^^ // outerPre innerPre innerPost outerPost if ( !element.internal.whitespace ) { element.internal.whitespace = []; } if ( !element.internal.whitespace[index] ) { element.internal.whitespace[index] = ''; } element.internal.whitespace[index] = whitespace; } function processNextWhitespace( element ) { // This function uses and changes nextWhitespace in the outer function's scope, // which means it's not really a function but more of a shortcut. if ( nextWhitespace !== '' ) { addWhitespace( element, 0, nextWhitespace ); nextWhitespace = ''; } } function startWrapping() { // Mark this paragraph as having been generated by // us, so we can strip it on the way out wrappingParagraph = { 'type': 'paragraph', 'internal': { 'generated': 'wrapper' } }; data.push( wrappingParagraph ); context.inWrapper = true; context.canCloseWrapper = true; context.expectingContent = true; processNextWhitespace( wrappingParagraph ); } function stopWrapping() { if ( wrappedWhitespace !== '' ) { // Remove wrappedWhitespace from data data.splice( wrappedWhitespaceIndex, wrappedWhitespace.length ); addWhitespace( wrappingParagraph, 3, wrappedWhitespace ); nextWhitespace = wrappedWhitespace; } data.push( { 'type': '/paragraph' } ); wrappingParagraph = undefined; context.inWrapper = false; context.canCloseWrapper = false; context.expectingContent = originallyExpectingContent; } function getAboutGroup( el ) { var textNodes = [], aboutGroup = [ el ], elAbout, node; if ( !el.getAttribute || el.getAttribute( 'about' ) === null ) { return aboutGroup; } elAbout = el.getAttribute( 'about' ); for ( node = el.nextSibling; node; node = node.nextSibling ) { if ( !node.getAttribute ) { // Text nodes don't have a getAttribute() method. Thanks HTML DOM, // that's really helpful ^^ textNodes.push( node ); continue; } if ( node.getAttribute( 'about' ) === elAbout ) { aboutGroup = aboutGroup.concat( textNodes ); textNodes = []; aboutGroup.push( node ); } else { break; } } return aboutGroup; } // Fallback to defaults annotations = annotations || new ve.dm.AnnotationSet( store ); path = path || ['document']; var i, childDomElement, childDomElements, childDataElement, text, childTypes, matches, wrappingParagraph, prevElement, childAnnotations, modelName, modelClass, annotation, annotationData, childIsContent, aboutGroup, data = [], branchType = path[path.length - 1], branchHasContent = this.nodeFactory.canNodeContainContent( branchType ), originallyExpectingContent = branchHasContent || !annotations.isEmpty(), nextWhitespace = '', wrappedWhitespace = '', wrappedWhitespaceIndex, context = { 'expectingContent': originallyExpectingContent, 'inWrapper': alreadyWrapped, 'canCloseWrapper': false }; // Open element if ( dataElement ) { data.push( dataElement ); } // Add contents for ( i = 0; i < domElement.childNodes.length; i++ ) { childDomElement = domElement.childNodes[i]; switch ( childDomElement.nodeType ) { case Node.ELEMENT_NODE: modelName = this.modelRegistry.matchElement( childDomElement ); modelClass = this.modelRegistry.lookup( modelName ) || ve.dm.AlienNode; if ( modelClass.prototype instanceof ve.dm.Annotation ) { annotationData = this.createDataElement( modelClass, [ childDomElement ], context ); } if ( modelClass.prototype instanceof ve.dm.Annotation && annotationData ) { annotation = this.annotationFactory.create( modelName, annotationData ); // Start wrapping if needed if ( !context.inWrapper && !context.expectingContent ) { startWrapping(); prevElement = wrappingParagraph; } // Append child element data childAnnotations = annotations.clone(); childAnnotations.push( annotation ); data = data.concat( this.getDataFromDomRecursion( store, childDomElement, childAnnotations, undefined, path, context.inWrapper ) ); } else { // Node or meta item aboutGroup = getAboutGroup( childDomElement ); childDomElements = modelClass.static.enableAboutGrouping ? aboutGroup : [ childDomElement ]; childDataElement = this.createDataElement( modelClass, childDomElements, context ); if ( modelClass.prototype instanceof ve.dm.MetaItem ) { // No additional processing needed // Write to data and continue data.push( childDataElement ); data.push( { 'type': '/' + childDataElement.type } ); processNextWhitespace( childDataElement ); prevElement = childDataElement; break; } childIsContent = this.nodeFactory.isNodeContent( childDataElement.type ); // If childIsContent isn't what we expect, adjust if ( !context.expectingContent && childIsContent ) { startWrapping(); prevElement = wrappingParagraph; } else if ( context.expectingContent && !childIsContent ) { if ( context.inWrapper && context.canCloseWrapper ) { stopWrapping(); } else { // Alienate modelClass = ve.dm.AlienNode; childDomElements = modelClass.static.enableAboutGrouping ? aboutGroup : [ childDomElement ]; childDataElement = this.createDataElement( modelClass, childDomElements, context ); childIsContent = this.nodeFactory.isNodeContent( childDataElement.type ); } } // Annotate child if ( childIsContent && !annotations.isEmpty() ) { childDataElement.annotations = annotations.getIndexes().slice(); } // Output child and its children, if any if ( childDomElements.length === 1 && this.nodeFactory.canNodeHaveChildren( childDataElement.type ) ) { // Recursion // Opening and closing elements are added by the recursion too data = data.concat( this.getDataFromDomRecursion( store, childDomElement, new ve.dm.AnnotationSet( store ), childDataElement, path.concat( childDataElement.type ), context.inWrapper ) ); } else { // Write an opening and closing data.push( childDataElement ); data.push( { 'type': '/' + childDataElement.type } ); } processNextWhitespace( childDataElement ); prevElement = childDataElement; // In case we consumed multiple childDomElements, adjust i accordingly i += childDomElements.length - 1; } break; case Node.TEXT_NODE: text = childDomElement.data; if ( text === '' ) { // Empty text node?!? break; } if ( !originallyExpectingContent ) { // Strip and store outer whitespace if ( text.match( /^\s+$/ ) ) { // This text node is whitespace only if ( context.inWrapper ) { // We're already wrapping, so output this whitespace // and store it in wrappedWhitespace (see // comment about wrappedWhitespace below) wrappedWhitespace = text; wrappedWhitespaceIndex = data.length; data = data.concat( ve.dm.Converter.getDataContentFromText( wrappedWhitespace, annotations ) ); } else { // We're not in wrapping mode, store this whitespace if ( !prevElement ) { if ( dataElement ) { // First child, store as inner // whitespace in the parent addWhitespace( dataElement, 1, text ); } // Else, WTF?!? This is not supposed to // happen, but it's not worth // throwing an exception over. } else { addWhitespace( prevElement, 3, text ); } nextWhitespace = text; wrappedWhitespace = ''; } // We're done, no actual text left to process break; } else { // This text node contains actual text // Separate the real text from the whitespace // HACK: . doesn't match newlines in JS, so use // [\s\S] to match any character matches = text.match( /^(\s*)([\s\S]*?)(\s*)$/ ); if ( !context.inWrapper ) { // Wrap the text in a paragraph and output it startWrapping(); // Only store leading whitespace if we just // started wrapping if ( matches[1] !== '' ) { if ( !prevElement ) { if ( dataElement ) { // First child, store as inner // whitespace in the parent addWhitespace( dataElement, 1, matches[1] ); } // Else, WTF?!? This is not supposed to // happen, but it's not worth // throwing an exception over. } else { addWhitespace( prevElement, 3, matches[1] ); } addWhitespace( wrappingParagraph, 0, matches[1] ); } } else { // We were already wrapping in a paragraph, // so the leading whitespace must be output data = data.concat( ve.dm.Converter.getDataContentFromText( matches[1], annotations ) ); } // Output the text sans whitespace data = data.concat( ve.dm.Converter.getDataContentFromText( matches[2], annotations ) ); // Don't store this in wrappingParagraph.internal.whitespace[3] // and nextWhitespace just yet. Instead, store it // in wrappedWhitespace. There might be more text // nodes after this one, so we output wrappedWhitespace // for now and undo that if it turns out this was // the last text node. We can't output it later // because we have to apply the correct annotations. wrappedWhitespace = matches[3]; wrappedWhitespaceIndex = data.length; data = data.concat( ve.dm.Converter.getDataContentFromText( wrappedWhitespace, annotations ) ); prevElement = wrappingParagraph; break; } } // Strip leading and trailing inner whitespace // (but only in non-annotation nodes) // and store it so it can be restored later. if ( annotations.isEmpty() && i === 0 && dataElement && !this.nodeFactory.doesNodeHaveSignificantWhitespace( dataElement.type ) ) { // Strip leading whitespace from the first child matches = text.match( /^\s+/ ); if ( matches && matches[0] !== '' ) { addWhitespace( dataElement, 1, matches[0] ); text = text.substring( matches[0].length ); } } if ( annotations.isEmpty() && i === domElement.childNodes.length - 1 && dataElement && !this.nodeFactory.doesNodeHaveSignificantWhitespace( dataElement.type ) ) { // Strip trailing whitespace from the last child matches = text.match( /\s+$/ ); if ( matches && matches[0] !== '' ) { addWhitespace( dataElement, 2, matches[0] ); text = text.substring( 0, text.length - matches[0].length ); } } // Annotate the text and output it data = data.concat( ve.dm.Converter.getDataContentFromText( text, annotations ) ); break; case Node.COMMENT_NODE: // TODO treat this as a node with nodeName #comment childDataElement = { 'type': 'alienMeta', 'attributes': { 'style': 'comment', 'text': childDomElement.data } }; data.push( childDataElement ); data.push( { 'type': '/alienMeta' } ); processNextWhitespace( childDataElement ); prevElement = childDataElement; break; } } // End auto-wrapping of bare content if ( context.inWrapper && context.canCloseWrapper ) { stopWrapping(); // HACK: don't set context.inWrapper = false here because it's checked below context.inWrapper = true; } // If we're closing a node that doesn't have any children, but could contain a paragraph, // add a paragraph. This prevents things like empty list items childTypes = this.nodeFactory.getChildNodeTypes( branchType ); if ( branchType !== 'paragraph' && dataElement && data[data.length - 1] === dataElement && !context.inWrapper && !this.nodeFactory.canNodeContainContent( branchType ) && !this.nodeFactory.isNodeContent( branchType ) && ( childTypes === null || ve.indexOf( 'paragraph', childTypes ) !== -1 ) ) { data.push( { 'type': 'paragraph', 'internal': { 'generated': 'empty' } } ); data.push( { 'type': '/paragraph' } ); } // Close element if ( dataElement ) { data.push( { 'type': '/' + dataElement.type } ); // Add the whitespace after the last child to the parent as innerPost if ( nextWhitespace !== '' ) { addWhitespace( dataElement, 2, nextWhitespace ); nextWhitespace = ''; } } // Don't return an empty document if ( branchType === 'document' && data.length === 0 ) { return [ { 'type': 'paragraph', 'internal': { 'generated': 'empty' } }, { 'type': '/paragraph' } ]; } return data; }; /** * Convert linear model data to an HTML DOM * * @method * @param {ve.dm.IndexValueStore} store Index-value store * @param {Array} data Linear model data * @returns {HTMLDocument} Document containing the resulting HTML */ ve.dm.Converter.prototype.getDomFromData = function ( store, data ) { var text, i, j, k, annotations, annotation, annotationElement, dataElement, arr, childDomElements, pre, ours, theirs, parentDomElement, lastChild, startClosingAt, isContentNode, changed, parentChanged, sibling, previousSiblings, doUnwrap, textNode, doc = ve.createDocumentFromHTML( '' ), container = doc.body, domElement = container, annotationStack = new ve.dm.AnnotationSet( store ); for ( i = 0; i < data.length; i++ ) { if ( typeof data[i] === 'string' ) { // Text text = ''; // Continue forward as far as the plain text goes while ( typeof data[i] === 'string' ) { text += data[i]; i++; } // i points to the first non-text thing, go back one so we don't skip this later i--; // Add text domElement.appendChild( doc.createTextNode( text ) ); } else if ( ve.isArray( data[i] ) || ( data[i].annotations !== undefined && ( this.metaItemFactory.lookup( data[i].type ) || this.nodeFactory.isNodeContent( data[i].type ) ) ) ) { // Annotated text or annotated nodes text = ''; while ( ve.isArray( data[i] ) || ( data[i].annotations !== undefined && this.nodeFactory.isNodeContent( data[i].type ) ) ) { annotations = new ve.dm.AnnotationSet( store, store.values( data[i].annotations || data[i][1] ) ); // Close annotations as needed // Go through annotationStack from bottom to top (low to high), // and find the first annotation that's not in annotations. startClosingAt = undefined; arr = annotationStack.get(); for ( j = 0; j < arr.length; j++ ) { annotation = arr[j]; if ( !annotations.contains( annotation ) ) { startClosingAt = j; break; } } if ( startClosingAt !== undefined ) { // Close all annotations from top to bottom (high to low) // until we reach startClosingAt for ( j = annotationStack.getLength() - 1; j >= startClosingAt; j-- ) { // Add text if needed if ( text.length > 0 ) { domElement.appendChild( doc.createTextNode( text ) ); text = ''; } // Traverse up domElement = domElement.parentNode; // Remove from annotationStack annotationStack.removeAt( j ); } } // Open annotations as needed arr = annotations.get(); for ( j = 0; j < arr.length; j++ ) { annotation = arr[j]; if ( !annotationStack.contains( annotation ) ) { // Add text if needed if ( text.length > 0 ) { domElement.appendChild( doc.createTextNode( text ) ); text = ''; } // Create new node and descend into it annotationElement = this.getDomElementsFromDataElement( annotation.getElement(), doc )[0]; domElement.appendChild( annotationElement ); domElement = annotationElement; // Add to annotationStack annotationStack.push( annotation ); } } if ( data[i].annotations === undefined ) { // Annotated text text += data[i][0]; } else { // Annotated node // Add text if needed if ( text.length > 0 ) { domElement.appendChild( doc.createTextNode( text ) ); text = ''; } // Insert the elements childDomElements = this.getDomElementsFromDataElement( data[i], doc ); for ( j = 0; j < childDomElements.length; j++ ) { domElement.appendChild( childDomElements[j] ); } // Increment i once more so we skip over the closing as well i++; } i++; } // We're now at the first non-annotated thing, go back one so we don't skip this later i--; // Add any gathered text if ( text.length > 0 ) { domElement.appendChild( doc.createTextNode( text ) ); text = ''; } // Close any remaining annotation nodes for ( j = annotationStack.getLength() - 1; j >= 0; j-- ) { // Traverse up domElement = domElement.parentNode; } // Clear annotationStack annotationStack = new ve.dm.AnnotationSet( store ); } else if ( data[i].type !== undefined ) { dataElement = data[i]; // Element if ( dataElement.type.charAt( 0 ) === '/' ) { parentDomElement = domElement.parentNode; isContentNode = this.metaItemFactory.lookup( data[i].type.substr( 1 ) ) || this.nodeFactory.isNodeContent( data[i].type.substr( 1 ) ); // Process whitespace // whitespace = [ outerPre, innerPre, innerPost, outerPost ] if ( !isContentNode && domElement.veInternal && domElement.veInternal.whitespace ) { // Process inner whitespace. innerPre is for sure legitimate // whitespace that should be inserted; if it was a duplicate // of our child's outerPre, we would have cleared it. pre = domElement.veInternal.whitespace[1]; if ( pre ) { if ( domElement.firstChild && domElement.firstChild.nodeType === Node.TEXT_NODE ) { // First child is a TextNode, prepend to it domElement.firstChild.insertData( 0, pre ); } else { // Prepend a TextNode textNode = doc.createTextNode( pre ); textNode.veIsWhitespace = true; domElement.insertBefore( textNode, domElement.firstChild ); } } lastChild = domElement.veInternal.childDomElements ? domElement.veInternal .childDomElements[domElement.veInternal.childDomElements.length - 1] .lastChild : domElement.lastChild; ours = domElement.veInternal.whitespace[2]; if ( domElement.lastOuterPost === undefined ) { // This node didn't have any structural children // (i.e. it's a content-containing node), so there's // nothing to check innerPost against theirs = ours; } else { theirs = domElement.lastOuterPost; } if ( ours && ours === theirs ) { if ( lastChild && lastChild.nodeType === Node.TEXT_NODE ) { // Last child is a TextNode, append to it domElement.lastChild.appendData( ours ); } else { // Append a TextNode textNode = doc.createTextNode( ours ); textNode.veIsWhitespace = true; domElement.appendChild( textNode ); } } // Tell the parent about our outerPost parentDomElement.lastOuterPost = domElement.veInternal.whitespace[3] || ''; } else if ( !isContentNode ) { // Use empty string, because undefined means there were no // structural children parentDomElement.lastOuterPost = ''; } // else don't touch lastOuterPost // Logic to unwrap empty & wrapper nodes. // It would be nicer if we could avoid generating in the first // place, but then remembering where we have to skip ascending // to the parent would be tricky. doUnwrap = false; if ( domElement.veInternal ) { switch ( domElement.veInternal.generated ) { case 'empty': // 'empty' elements - first ensure they are actually empty if ( domElement.childNodes.length === 0 && ( // then check that we are the last child // before unwrapping (and therefore destroying) i === data.length - 1 || data[i + 1].type.charAt(0) === '/' ) ) { doUnwrap = true; } break; case 'wrapper': // 'wrapper' elements - ensure there is a block level // element between this element and the previous sibling // wrapper or parent node doUnwrap = true; previousSiblings = domElement.parentElement.childNodes; // Note: previousSiblings includes the current element // so we only go up to length - 2 for ( j = previousSiblings.length - 2; j >= 0; j-- ) { sibling = previousSiblings[j]; if ( sibling.nodeType === Node.TEXT_NODE && !sibling.veIsWhitespace ) { // we've found an unwrapped paragraph so don't unwrap doUnwrap = false; break; } if ( ve.isBlockElement( sibling ) ) { // there is a block element before the next unwrapped node // so it's safe to unwrap break; } } break; } } if ( doUnwrap ) { while ( domElement.firstChild ) { parentDomElement.insertBefore( domElement.firstChild, domElement ); } // Transfer change markers changed = domElement.getAttribute( 'data-ve-changed' ); if ( changed ) { parentChanged = parentDomElement.getAttribute( 'data-ve-changed' ); if ( parentChanged ) { changed = $.parseJSON( changed ); parentChanged = $.parseJSON( parentChanged ); for ( k in changed ) { if ( k in parentChanged ) { parentChanged[k] += changed[k]; } else { parentChanged[k] = changed[k]; } } parentDomElement.setAttribute( 'data-ve-changed', JSON.stringify( parentChanged ) ); } else { parentDomElement.setAttribute( 'data-ve-changed', changed ); } } parentDomElement.removeChild( domElement ); } delete domElement.veInternal; delete domElement.lastOuterPost; // Ascend to parent node domElement = parentDomElement; } else { // Create node from data childDomElements = this.getDomElementsFromDataElement( dataElement, doc ); // Add reference to internal data childDomElements[0].veInternal = ve.extendObject( { 'childDomElements': childDomElements }, dataElement.internal || {} ); // Add elements for ( j = 0; j < childDomElements.length; j++ ) { domElement.appendChild( childDomElements[j] ); } // Descend into the first child node parentDomElement = domElement; domElement = childDomElements[0]; // Process outer whitespace // Every piece of outer whitespace is duplicated somewhere: // each node's outerPost is duplicated as the next node's // outerPre, the first node's outerPre is the parent's // innerPre, and the last node's outerPost is the parent's // innerPost. For each piece of whitespace, we verify that // the duplicate matches. If it doesn't, we take that to // mean the user has messed with it and don't output any // whitespace. if ( domElement.veInternal && domElement.veInternal.whitespace ) { // Process this node's outerPre ours = domElement.veInternal.whitespace[0]; theirs = undefined; if ( domElement.previousSibling ) { // Get previous sibling's outerPost theirs = parentDomElement.lastOuterPost; } else if ( parentDomElement === container ) { // outerPre of the very first node in the document, this one // has no duplicate theirs = ours; } else { // First child, get parent's innerPre if ( parentDomElement.veInternal && parentDomElement.veInternal.whitespace ) { theirs = parentDomElement.veInternal.whitespace[1]; // Clear after use so it's not used twice parentDomElement.veInternal.whitespace[1] = undefined; } // else theirs=undefined } if ( ours && ours === theirs ) { // Matches the duplicate, insert a TextNode textNode = doc.createTextNode( ours ); textNode.veIsWhitespace = true; parentDomElement.insertBefore( textNode, domElement ); } } } } } // Process the outerPost whitespace of the very last node if ( container.lastOuterPost !== undefined ) { if ( container.lastChild && container.lastChild.nodeType === Node.TEXT_NODE ) { // Last child is a TextNode, append to it container.lastChild.appendData( container.lastOuterPost ); } else { // Append a TextNode container.appendChild( doc.createTextNode( container.lastOuterPost ) ); } delete container.lastOuterPost; } // Workaround for bug 42469: if a
 starts with a newline, that means .innerHTML will
	// screw up and stringify it with one fewer newline. Work around this by adding a newline.
	// If we don't see a leading newline, we still don't know if the original HTML was
	// 
Foo
or
\nFoo
, but that's a syntactic difference, not a semantic // one, and handling that is Parsoid's job. $( container ).find( 'pre' ).each( function() { var matches; if ( this.firstChild.nodeType === Node.TEXT_NODE ) { matches = this.firstChild.data.match( /^(\r\n|\r|\n)/ ); if ( matches && matches[1] ) { // Prepend a newline exactly like the one we saw this.firstChild.insertData( 0, matches[1] ); } } } ); return doc; }; /* Initialization */ ve.dm.converter = new ve.dm.Converter( ve.dm.modelRegistry, ve.dm.nodeFactory, ve.dm.annotationFactory, ve.dm.metaItemFactory );