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/* * FCKeditor - The text editor for Internet - http://www.fckeditor.net * Copyright (C) 2003-2009 Frederico Caldeira Knabben * * == BEGIN LICENSE == * * Licensed under the terms of any of the following licenses at your * choice: * * - GNU General Public License Version 2 or later (the "GPL") * http://www.gnu.org/licenses/gpl.html * * - GNU Lesser General Public License Version 2.1 or later (the "LGPL") * http://www.gnu.org/licenses/lgpl.html * * - Mozilla Public License Version 1.1 or later (the "MPL") * http://www.mozilla.org/MPL/MPL-1.1.html * * == END LICENSE == * * Utility functions to work with the DOM. */ var FCKDomTools = { /** * Move all child nodes from one node to another. */ MoveChildren : function( source, target, toTargetStart ) { if ( source == target ) return ; var eChild ; if ( toTargetStart ) { while ( (eChild = source.lastChild) ) target.insertBefore( source.removeChild( eChild ), target.firstChild ) ; } else { while ( (eChild = source.firstChild) ) target.appendChild( source.removeChild( eChild ) ) ; } }, MoveNode : function( source, target, toTargetStart ) { if ( toTargetStart ) target.insertBefore( FCKDomTools.RemoveNode( source ), target.firstChild ) ; else target.appendChild( FCKDomTools.RemoveNode( source ) ) ; }, // Remove blank spaces from the beginning and the end of the contents of a node. TrimNode : function( node ) { this.LTrimNode( node ) ; this.RTrimNode( node ) ; }, LTrimNode : function( node ) { var eChildNode ; while ( (eChildNode = node.firstChild) ) { if ( eChildNode.nodeType == 3 ) { var sTrimmed = eChildNode.nodeValue.LTrim() ; var iOriginalLength = eChildNode.nodeValue.length ; if ( sTrimmed.length == 0 ) { node.removeChild( eChildNode ) ; continue ; } else if ( sTrimmed.length < iOriginalLength ) { eChildNode.splitText( iOriginalLength - sTrimmed.length ) ; node.removeChild( node.firstChild ) ; } } break ; } }, RTrimNode : function( node ) { var eChildNode ; while ( (eChildNode = node.lastChild) ) { if ( eChildNode.nodeType == 3 ) { var sTrimmed = eChildNode.nodeValue.RTrim() ; var iOriginalLength = eChildNode.nodeValue.length ; if ( sTrimmed.length == 0 ) { // If the trimmed text node is empty, just remove it. // Use "eChildNode.parentNode" instead of "node" to avoid IE bug (#81). eChildNode.parentNode.removeChild( eChildNode ) ; continue ; } else if ( sTrimmed.length < iOriginalLength ) { // If the trimmed text length is less than the original // length, strip all spaces from the end by splitting // the text and removing the resulting useless node. eChildNode.splitText( sTrimmed.length ) ; // Use "node.lastChild.parentNode" instead of "node" to avoid IE bug (#81). node.lastChild.parentNode.removeChild( node.lastChild ) ; } } break ; } if ( !FCKBrowserInfo.IsIE && !FCKBrowserInfo.IsOpera ) { eChildNode = node.lastChild ; if ( eChildNode && eChildNode.nodeType == 1 && eChildNode.nodeName.toLowerCase() == 'br' ) { // Use "eChildNode.parentNode" instead of "node" to avoid IE bug (#324). eChildNode.parentNode.removeChild( eChildNode ) ; } } }, RemoveNode : function( node, excludeChildren ) { if ( excludeChildren ) { // Move all children before the node. var eChild ; while ( (eChild = node.firstChild) ) node.parentNode.insertBefore( node.removeChild( eChild ), node ) ; } return node.parentNode.removeChild( node ) ; }, GetFirstChild : function( node, childNames ) { // If childNames is a string, transform it in a Array. if ( typeof ( childNames ) == 'string' ) childNames = [ childNames ] ; var eChild = node.firstChild ; while( eChild ) { if ( eChild.nodeType == 1 && eChild.tagName.Equals.apply( eChild.tagName, childNames ) ) return eChild ; eChild = eChild.nextSibling ; } return null ; }, GetLastChild : function( node, childNames ) { // If childNames is a string, transform it in a Array. if ( typeof ( childNames ) == 'string' ) childNames = [ childNames ] ; var eChild = node.lastChild ; while( eChild ) { if ( eChild.nodeType == 1 && ( !childNames || eChild.tagName.Equals( childNames ) ) ) return eChild ; eChild = eChild.previousSibling ; } return null ; }, /* * Gets the previous element (nodeType=1) in the source order. Returns * "null" If no element is found. * @param {Object} currentNode The node to start searching from. * @param {Boolean} ignoreSpaceTextOnly Sets how text nodes will be * handled. If set to "true", only white spaces text nodes * will be ignored, while non white space text nodes will stop * the search, returning null. If "false" or omitted, all * text nodes are ignored. * @param {string[]} stopSearchElements An array of element names that * will cause the search to stop when found, returning null. * May be omitted (or null). * @param {string[]} ignoreElements An array of element names that * must be ignored during the search. */ GetPreviousSourceElement : function( currentNode, ignoreSpaceTextOnly, stopSearchElements, ignoreElements ) { if ( !currentNode ) return null ; if ( stopSearchElements && currentNode.nodeType == 1 && currentNode.nodeName.IEquals( stopSearchElements ) ) return null ; if ( currentNode.previousSibling ) currentNode = currentNode.previousSibling ; else return this.GetPreviousSourceElement( currentNode.parentNode, ignoreSpaceTextOnly, stopSearchElements, ignoreElements ) ; while ( currentNode ) { if ( currentNode.nodeType == 1 ) { if ( stopSearchElements && currentNode.nodeName.IEquals( stopSearchElements ) ) break ; if ( !ignoreElements || !currentNode.nodeName.IEquals( ignoreElements ) ) return currentNode ; } else if ( ignoreSpaceTextOnly && currentNode.nodeType == 3 && currentNode.nodeValue.RTrim().length > 0 ) break ; if ( currentNode.lastChild ) currentNode = currentNode.lastChild ; else return this.GetPreviousSourceElement( currentNode, ignoreSpaceTextOnly, stopSearchElements, ignoreElements ) ; } return null ; }, /* * Gets the next element (nodeType=1) in the source order. Returns * "null" If no element is found. * @param {Object} currentNode The node to start searching from. * @param {Boolean} ignoreSpaceTextOnly Sets how text nodes will be * handled. If set to "true", only white spaces text nodes * will be ignored, while non white space text nodes will stop * the search, returning null. If "false" or omitted, all * text nodes are ignored. * @param {string[]} stopSearchElements An array of element names that * will cause the search to stop when found, returning null. * May be omitted (or null). * @param {string[]} ignoreElements An array of element names that * must be ignored during the search. */ GetNextSourceElement : function( currentNode, ignoreSpaceTextOnly, stopSearchElements, ignoreElements, startFromSibling ) { while( ( currentNode = this.GetNextSourceNode( currentNode, startFromSibling ) ) ) // Only one "=". { if ( currentNode.nodeType == 1 ) { if ( stopSearchElements && currentNode.nodeName.IEquals( stopSearchElements ) ) break ; if ( ignoreElements && currentNode.nodeName.IEquals( ignoreElements ) ) return this.GetNextSourceElement( currentNode, ignoreSpaceTextOnly, stopSearchElements, ignoreElements ) ; return currentNode ; } else if ( ignoreSpaceTextOnly && currentNode.nodeType == 3 && currentNode.nodeValue.RTrim().length > 0 ) break ; } return null ; }, /* * Get the next DOM node available in source order. */ GetNextSourceNode : function( currentNode, startFromSibling, nodeType, stopSearchNode ) { if ( !currentNode ) return null ; var node ; if ( !startFromSibling && currentNode.firstChild ) node = currentNode.firstChild ; else { if ( stopSearchNode && currentNode == stopSearchNode ) return null ; node = currentNode.nextSibling ; if ( !node && ( !stopSearchNode || stopSearchNode != currentNode.parentNode ) ) return this.GetNextSourceNode( currentNode.parentNode, true, nodeType, stopSearchNode ) ; } if ( nodeType && node && node.nodeType != nodeType ) return this.GetNextSourceNode( node, false, nodeType, stopSearchNode ) ; return node ; }, /* * Get the next DOM node available in source order. */ GetPreviousSourceNode : function( currentNode, startFromSibling, nodeType, stopSearchNode ) { if ( !currentNode ) return null ; var node ; if ( !startFromSibling && currentNode.lastChild ) node = currentNode.lastChild ; else { if ( stopSearchNode && currentNode == stopSearchNode ) return null ; node = currentNode.previousSibling ; if ( !node && ( !stopSearchNode || stopSearchNode != currentNode.parentNode ) ) return this.GetPreviousSourceNode( currentNode.parentNode, true, nodeType, stopSearchNode ) ; } if ( nodeType && node && node.nodeType != nodeType ) return this.GetPreviousSourceNode( node, false, nodeType, stopSearchNode ) ; return node ; }, // Inserts a element after a existing one. InsertAfterNode : function( existingNode, newNode ) { return existingNode.parentNode.insertBefore( newNode, existingNode.nextSibling ) ; }, GetParents : function( node ) { var parents = new Array() ; while ( node ) { parents.unshift( node ) ; node = node.parentNode ; } return parents ; }, GetCommonParents : function( node1, node2 ) { var p1 = this.GetParents( node1 ) ; var p2 = this.GetParents( node2 ) ; var retval = [] ; for ( var i = 0 ; i < p1.length ; i++ ) { if ( p1[i] == p2[i] ) retval.push( p1[i] ) ; } return retval ; }, GetCommonParentNode : function( node1, node2, tagList ) { var tagMap = {} ; if ( ! tagList.pop ) tagList = [ tagList ] ; while ( tagList.length > 0 ) tagMap[tagList.pop().toLowerCase()] = 1 ; var commonParents = this.GetCommonParents( node1, node2 ) ; var currentParent = null ; while ( ( currentParent = commonParents.pop() ) ) { if ( tagMap[currentParent.nodeName.toLowerCase()] ) return currentParent ; } return null ; }, GetIndexOf : function( node ) { var currentNode = node.parentNode ? node.parentNode.firstChild : null ; var currentIndex = -1 ; while ( currentNode ) { currentIndex++ ; if ( currentNode == node ) return currentIndex ; currentNode = currentNode.nextSibling ; } return -1 ; }, PaddingNode : null, EnforcePaddingNode : function( doc, tagName ) { // In IE it can happen when the page is reloaded that doc or doc.body is null, so exit here try { if ( !doc || !doc.body ) return ; } catch (e) { return ; } this.CheckAndRemovePaddingNode( doc, tagName, true ) ; try { if ( doc.body.lastChild && ( doc.body.lastChild.nodeType != 1 || doc.body.lastChild.tagName.toLowerCase() == tagName.toLowerCase() ) ) return ; } catch (e) { return ; } var node = doc.createElement( tagName ) ; if ( FCKBrowserInfo.IsGecko && FCKListsLib.NonEmptyBlockElements[ tagName ] ) FCKTools.AppendBogusBr( node ) ; this.PaddingNode = node ; if ( doc.body.childNodes.length == 1 && doc.body.firstChild.nodeType == 1 && doc.body.firstChild.tagName.toLowerCase() == 'br' && ( doc.body.firstChild.getAttribute( '_moz_dirty' ) != null || doc.body.firstChild.getAttribute( 'type' ) == '_moz' ) ) doc.body.replaceChild( node, doc.body.firstChild ) ; else doc.body.appendChild( node ) ; }, CheckAndRemovePaddingNode : function( doc, tagName, dontRemove ) { var paddingNode = this.PaddingNode ; if ( ! paddingNode ) return ; // If the padding node is changed, remove its status as a padding node. try { if ( paddingNode.parentNode != doc.body || paddingNode.tagName.toLowerCase() != tagName || ( paddingNode.childNodes.length > 1 ) || ( paddingNode.firstChild && paddingNode.firstChild.nodeValue != '\xa0' && String(paddingNode.firstChild.tagName).toLowerCase() != 'br' ) ) { this.PaddingNode = null ; return ; } } catch (e) { this.PaddingNode = null ; return ; } // Now we're sure the padding node exists, and it is unchanged, and it // isn't the only node in doc.body, remove it. if ( !dontRemove ) { if ( paddingNode.parentNode.childNodes.length > 1 ) paddingNode.parentNode.removeChild( paddingNode ) ; this.PaddingNode = null ; } }, HasAttribute : function( element, attributeName ) { if ( element.hasAttribute ) return element.hasAttribute( attributeName ) ; else { var att = element.attributes[ attributeName ] ; return ( att != undefined && att.specified ) ; } }, /** * Checks if an element has "specified" attributes. */ HasAttributes : function( element ) { var attributes = element.attributes ; for ( var i = 0 ; i < attributes.length ; i++ ) { if ( FCKBrowserInfo.IsIE && attributes[i].nodeName == 'class' ) { // IE has a strange bug. If calling removeAttribute('className'), // the attributes collection will still contain the "class" // attribute, which will be marked as "specified", even if the // outerHTML of the element is not displaying the class attribute. // Note : I was not able to reproduce it outside the editor, // but I've faced it while working on the TC of #1391. if ( element.className.length > 0 ) return true ; } else if ( attributes[i].specified ) return true ; } return false ; }, /** * Remove an attribute from an element. */ RemoveAttribute : function( element, attributeName ) { if ( FCKBrowserInfo.IsIE && attributeName.toLowerCase() == 'class' ) attributeName = 'className' ; return element.removeAttribute( attributeName, 0 ) ; }, /** * Removes an array of attributes from an element */ RemoveAttributes : function (element, aAttributes ) { for ( var i = 0 ; i < aAttributes.length ; i++ ) this.RemoveAttribute( element, aAttributes[i] ); }, GetAttributeValue : function( element, att ) { var attName = att ; if ( typeof att == 'string' ) att = element.attributes[ att ] ; else attName = att.nodeName ; if ( att && att.specified ) { // IE returns "null" for the nodeValue of a "style" attribute. if ( attName == 'style' ) return element.style.cssText ; // There are two cases when the nodeValue must be used: // - for the "class" attribute (all browsers). // - for events attributes (IE only). else if ( attName == 'class' || attName.indexOf('on') == 0 ) return att.nodeValue ; else { // Use getAttribute to get its value exactly as it is // defined. return element.getAttribute( attName, 2 ) ; } } return null ; }, /** * Checks whether one element contains the other. */ Contains : function( mainElement, otherElement ) { // IE supports contains, but only for element nodes. if ( mainElement.contains && otherElement.nodeType == 1 ) return mainElement.contains( otherElement ) ; while ( ( otherElement = otherElement.parentNode ) ) // Only one "=" { if ( otherElement == mainElement ) return true ; } return false ; }, /** * Breaks a parent element in the position of one of its contained elements. * For example, in the following case: *
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* If element =
, we have these results: *
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(If parent =
) */ BreakParent : function( element, parent, reusableRange ) { var range = reusableRange || new FCKDomRange( FCKTools.GetElementWindow( element ) ) ; // We'll be extracting part of this element, so let's use our // range to get the correct piece. range.SetStart( element, 4 ) ; range.SetEnd( parent, 4 ) ; // Extract it. var docFrag = range.ExtractContents() ; // Move the element outside the broken element. range.InsertNode( element.parentNode.removeChild( element ) ) ; // Re-insert the extracted piece after the element. docFrag.InsertAfterNode( element ) ; range.Release( !!reusableRange ) ; }, /** * Retrieves a uniquely identifiable tree address of a DOM tree node. * The tree address returns is an array of integers, with each integer * indicating a child index from a DOM tree node, starting from * document.documentElement. * * For example, assuming is the second child from ( * being the first), and we'd like to address the third child under the * fourth child of body, the tree address returned would be: * [1, 3, 2] * * The tree address cannot be used for finding back the DOM tree node once * the DOM tree structure has been modified. */ GetNodeAddress : function( node, normalized ) { var retval = [] ; while ( node && node != FCKTools.GetElementDocument( node ).documentElement ) { var parentNode = node.parentNode ; var currentIndex = -1 ; for( var i = 0 ; i < parentNode.childNodes.length ; i++ ) { var candidate = parentNode.childNodes[i] ; if ( normalized === true && candidate.nodeType == 3 && candidate.previousSibling && candidate.previousSibling.nodeType == 3 ) continue; currentIndex++ ; if ( parentNode.childNodes[i] == node ) break ; } retval.unshift( currentIndex ) ; node = node.parentNode ; } return retval ; }, /** * The reverse transformation of FCKDomTools.GetNodeAddress(). This * function returns the DOM node pointed to by its index address. */ GetNodeFromAddress : function( doc, addr, normalized ) { var cursor = doc.documentElement ; for ( var i = 0 ; i < addr.length ; i++ ) { var target = addr[i] ; if ( ! normalized ) { cursor = cursor.childNodes[target] ; continue ; } var currentIndex = -1 ; for (var j = 0 ; j < cursor.childNodes.length ; j++ ) { var candidate = cursor.childNodes[j] ; if ( normalized === true && candidate.nodeType == 3 && candidate.previousSibling && candidate.previousSibling.nodeType == 3 ) continue ; currentIndex++ ; if ( currentIndex == target ) { cursor = candidate ; break ; } } } return cursor ; }, CloneElement : function( element ) { element = element.cloneNode( false ) ; // The "id" attribute should never be cloned to avoid duplication. element.removeAttribute( 'id', false ) ; return element ; }, ClearElementJSProperty : function( element, attrName ) { if ( FCKBrowserInfo.IsIE ) element.removeAttribute( attrName ) ; else delete element[attrName] ; }, SetElementMarker : function ( markerObj, element, attrName, value) { var id = String( parseInt( Math.random() * 0xffffffff, 10 ) ) ; element._FCKMarkerId = id ; element[attrName] = value ; if ( ! markerObj[id] ) markerObj[id] = { 'element' : element, 'markers' : {} } ; markerObj[id]['markers'][attrName] = value ; }, ClearElementMarkers : function( markerObj, element, clearMarkerObj ) { var id = element._FCKMarkerId ; if ( ! id ) return ; this.ClearElementJSProperty( element, '_FCKMarkerId' ) ; for ( var j in markerObj[id]['markers'] ) this.ClearElementJSProperty( element, j ) ; if ( clearMarkerObj ) delete markerObj[id] ; }, ClearAllMarkers : function( markerObj ) { for ( var i in markerObj ) this.ClearElementMarkers( markerObj, markerObj[i]['element'], true ) ; }, /** * Convert a DOM list tree into a data structure that is easier to * manipulate. This operation should be non-intrusive in the sense that it * does not change the DOM tree, with the exception that it may add some * markers to the list item nodes when markerObj is specified. */ ListToArray : function( listNode, markerObj, baseArray, baseIndentLevel, grandparentNode ) { if ( ! listNode.nodeName.IEquals( ['ul', 'ol'] ) ) return [] ; if ( ! baseIndentLevel ) baseIndentLevel = 0 ; if ( ! baseArray ) baseArray = [] ; // Iterate over all list items to get their contents and look for inner lists. for ( var i = 0 ; i < listNode.childNodes.length ; i++ ) { var listItem = listNode.childNodes[i] ; if ( ! listItem.nodeName.IEquals( 'li' ) ) continue ; var itemObj = { 'parent' : listNode, 'indent' : baseIndentLevel, 'contents' : [] } ; if ( ! grandparentNode ) { itemObj.grandparent = listNode.parentNode ; if ( itemObj.grandparent && itemObj.grandparent.nodeName.IEquals( 'li' ) ) itemObj.grandparent = itemObj.grandparent.parentNode ; } else itemObj.grandparent = grandparentNode ; if ( markerObj ) this.SetElementMarker( markerObj, listItem, '_FCK_ListArray_Index', baseArray.length ) ; baseArray.push( itemObj ) ; for ( var j = 0 ; j < listItem.childNodes.length ; j++ ) { var child = listItem.childNodes[j] ; if ( child.nodeName.IEquals( ['ul', 'ol'] ) ) // Note the recursion here, it pushes inner list items with // +1 indentation in the correct order. this.ListToArray( child, markerObj, baseArray, baseIndentLevel + 1, itemObj.grandparent ) ; else itemObj.contents.push( child ) ; } } return baseArray ; }, // Convert our internal representation of a list back to a DOM forest. ArrayToList : function( listArray, markerObj, baseIndex ) { if ( baseIndex == undefined ) baseIndex = 0 ; if ( ! listArray || listArray.length < baseIndex + 1 ) return null ; var doc = FCKTools.GetElementDocument( listArray[baseIndex].parent ) ; var retval = doc.createDocumentFragment() ; var rootNode = null ; var currentIndex = baseIndex ; var indentLevel = Math.max( listArray[baseIndex].indent, 0 ) ; var currentListItem = null ; while ( true ) { var item = listArray[currentIndex] ; if ( item.indent == indentLevel ) { if ( ! rootNode || listArray[currentIndex].parent.nodeName != rootNode.nodeName ) { rootNode = listArray[currentIndex].parent.cloneNode( false ) ; retval.appendChild( rootNode ) ; } currentListItem = doc.createElement( 'li' ) ; rootNode.appendChild( currentListItem ) ; for ( var i = 0 ; i < item.contents.length ; i++ ) currentListItem.appendChild( item.contents[i].cloneNode( true ) ) ; currentIndex++ ; } else if ( item.indent == Math.max( indentLevel, 0 ) + 1 ) { var listData = this.ArrayToList( listArray, null, currentIndex ) ; currentListItem.appendChild( listData.listNode ) ; currentIndex = listData.nextIndex ; } else if ( item.indent == -1 && baseIndex == 0 && item.grandparent ) { var currentListItem ; if ( item.grandparent.nodeName.IEquals( ['ul', 'ol'] ) ) currentListItem = doc.createElement( 'li' ) ; else { if ( FCKConfig.EnterMode.IEquals( ['div', 'p'] ) && ! item.grandparent.nodeName.IEquals( 'td' ) ) currentListItem = doc.createElement( FCKConfig.EnterMode ) ; else currentListItem = doc.createDocumentFragment() ; } for ( var i = 0 ; i < item.contents.length ; i++ ) currentListItem.appendChild( item.contents[i].cloneNode( true ) ) ; if ( currentListItem.nodeType == 11 ) { if ( currentListItem.lastChild && currentListItem.lastChild.getAttribute && currentListItem.lastChild.getAttribute( 'type' ) == '_moz' ) currentListItem.removeChild( currentListItem.lastChild ); currentListItem.appendChild( doc.createElement( 'br' ) ) ; } if ( currentListItem.nodeName.IEquals( FCKConfig.EnterMode ) && currentListItem.firstChild ) { this.TrimNode( currentListItem ) ; if ( FCKListsLib.BlockBoundaries[currentListItem.firstChild.nodeName.toLowerCase()] ) { var tmp = doc.createDocumentFragment() ; while ( currentListItem.firstChild ) tmp.appendChild( currentListItem.removeChild( currentListItem.firstChild ) ) ; currentListItem = tmp ; } } if ( FCKBrowserInfo.IsGeckoLike && currentListItem.nodeName.IEquals( ['div', 'p'] ) ) FCKTools.AppendBogusBr( currentListItem ) ; retval.appendChild( currentListItem ) ; rootNode = null ; currentIndex++ ; } else return null ; if ( listArray.length <= currentIndex || Math.max( listArray[currentIndex].indent, 0 ) < indentLevel ) { break ; } } // Clear marker attributes for the new list tree made of cloned nodes, if any. if ( markerObj ) { var currentNode = retval.firstChild ; while ( currentNode ) { if ( currentNode.nodeType == 1 ) this.ClearElementMarkers( markerObj, currentNode ) ; currentNode = this.GetNextSourceNode( currentNode ) ; } } return { 'listNode' : retval, 'nextIndex' : currentIndex } ; }, /** * Get the next sibling node for a node. If "includeEmpties" is false, * only element or non empty text nodes are returned. */ GetNextSibling : function( node, includeEmpties ) { node = node.nextSibling ; while ( node && !includeEmpties && node.nodeType != 1 && ( node.nodeType != 3 || node.nodeValue.length == 0 ) ) node = node.nextSibling ; return node ; }, /** * Get the previous sibling node for a node. If "includeEmpties" is false, * only element or non empty text nodes are returned. */ GetPreviousSibling : function( node, includeEmpties ) { node = node.previousSibling ; while ( node && !includeEmpties && node.nodeType != 1 && ( node.nodeType != 3 || node.nodeValue.length == 0 ) ) node = node.previousSibling ; return node ; }, /** * Checks if an element has no "useful" content inside of it * node tree. No "useful" content means empty text node or a signle empty * inline node. * elementCheckCallback may point to a function that returns a boolean * indicating that a child element must be considered in the element check. */ CheckIsEmptyElement : function( element, elementCheckCallback ) { var child = element.firstChild ; var elementChild ; while ( child ) { if ( child.nodeType == 1 ) { if ( elementChild || !FCKListsLib.InlineNonEmptyElements[ child.nodeName.toLowerCase() ] ) return false ; if ( !elementCheckCallback || elementCheckCallback( child ) === true ) elementChild = child ; } else if ( child.nodeType == 3 && child.nodeValue.length > 0 ) return false ; child = child.nextSibling ; } return elementChild ? this.CheckIsEmptyElement( elementChild, elementCheckCallback ) : true ; }, SetElementStyles : function( element, styleDict ) { var style = element.style ; for ( var styleName in styleDict ) style[ styleName ] = styleDict[ styleName ] ; }, SetOpacity : function( element, opacity ) { if ( FCKBrowserInfo.IsIE ) { opacity = Math.round( opacity * 100 ) ; element.style.filter = ( opacity > 100 ? '' : 'progid:DXImageTransform.Microsoft.Alpha(opacity=' + opacity + ')' ) ; } else element.style.opacity = opacity ; }, GetCurrentElementStyle : function( element, propertyName ) { if ( FCKBrowserInfo.IsIE ) return element.currentStyle[ propertyName ] ; else return element.ownerDocument.defaultView.getComputedStyle( element, '' ).getPropertyValue( propertyName ) ; }, GetPositionedAncestor : function( element ) { var currentElement = element ; while ( currentElement != FCKTools.GetElementDocument( currentElement ).documentElement ) { if ( this.GetCurrentElementStyle( currentElement, 'position' ) != 'static' ) return currentElement ; if ( currentElement == FCKTools.GetElementDocument( currentElement ).documentElement && currentWindow != w ) currentElement = currentWindow.frameElement ; else currentElement = currentElement.parentNode ; } return null ; }, /** * Current implementation for ScrollIntoView (due to #1462 and #2279). We * don't have a complete implementation here, just the things that fit our * needs. */ ScrollIntoView : function( element, alignTop ) { // Get the element window. var window = FCKTools.GetElementWindow( element ) ; var windowHeight = FCKTools.GetViewPaneSize( window ).Height ; // Starts the offset that will be scrolled with the negative value of // the visible window height. var offset = windowHeight * -1 ; // Appends the height it we are about to align the bottoms. if ( alignTop === false ) { offset += element.offsetHeight || 0 ; // Consider the margin in the scroll, which is ok for our current // needs, but needs investigation if we will be using this function // in other places. offset += parseInt( this.GetCurrentElementStyle( element, 'marginBottom' ) || 0, 10 ) || 0 ; } // Appends the offsets for the entire element hierarchy. var elementPosition = FCKTools.GetDocumentPosition( window, element ) ; offset += elementPosition.y ; // Scroll the window to the desired position, if not already visible. var currentScroll = FCKTools.GetScrollPosition( window ).Y ; if ( offset > 0 && ( offset > currentScroll || offset < currentScroll - windowHeight ) ) window.scrollTo( 0, offset ) ; }, /** * Check if the element can be edited inside the browser. */ CheckIsEditable : function( element ) { // Get the element name. var nodeName = element.nodeName.toLowerCase() ; // Get the element DTD (defaults to span for unknown elements). var childDTD = FCK.DTD[ nodeName ] || FCK.DTD.span ; // In the DTD # == text node. return ( childDTD['#'] && !FCKListsLib.NonEditableElements[ nodeName ] ) ; }, GetSelectedDivContainers : function() { var currentBlocks = [] ; var range = new FCKDomRange( FCK.EditorWindow ) ; range.MoveToSelection() ; var startNode = range.GetTouchedStartNode() ; var endNode = range.GetTouchedEndNode() ; var currentNode = startNode ; if ( startNode == endNode ) { while ( endNode.nodeType == 1 && endNode.lastChild ) endNode = endNode.lastChild ; endNode = FCKDomTools.GetNextSourceNode( endNode ) ; } while ( currentNode && currentNode != endNode ) { if ( currentNode.nodeType != 3 || !/^[ \t\n]*$/.test( currentNode.nodeValue ) ) { var path = new FCKElementPath( currentNode ) ; var blockLimit = path.BlockLimit ; if ( blockLimit && blockLimit.nodeName.IEquals( 'div' ) && currentBlocks.IndexOf( blockLimit ) == -1 ) currentBlocks.push( blockLimit ) ; } currentNode = FCKDomTools.GetNextSourceNode( currentNode ) ; } return currentBlocks ; } } ;