/* Copyright (c) 2003-2009, CKSource - Frederico Knabben. All rights reserved. For licensing, see LICENSE.html or http://ckeditor.com/license */ CKEDITOR.plugins.add( 'styles', { requires : [ 'selection' ] }); /** * Registers a function to be called whenever a style changes its state in the * editing area. The current state is passed to the function. The possible * states are {@link CKEDITOR.TRISTATE_ON} and {@link CKEDITOR.TRISTATE_OFF}. * @param {CKEDITOR.style} The style to be watched. * @param {Function} The function to be called when the style state changes. * @example * // Create a style object for the <b> element. * var style = new CKEDITOR.style( { element : 'b' } ); * var editor = CKEDITOR.instances.editor1; * editor.attachStyleStateChange( style, function( state ) * { * if ( state == CKEDITOR.TRISTATE_ON ) * alert( 'The current state for the B element is ON' ); * else * alert( 'The current state for the B element is OFF' ); * }); */ CKEDITOR.editor.prototype.attachStyleStateChange = function( style, callback ) { // Try to get the list of attached callbacks. var styleStateChangeCallbacks = this._.styleStateChangeCallbacks; // If it doesn't exist, it means this is the first call. So, let's create // all the structure to manage the style checks and the callback calls. if ( !styleStateChangeCallbacks ) { // Create the callbacks array. styleStateChangeCallbacks = this._.styleStateChangeCallbacks = []; // Attach to the selectionChange event, so we can check the styles at // that point. this.on( 'selectionChange', function( ev ) { // Loop throw all registered callbacks. for ( var i = 0 ; i < styleStateChangeCallbacks.length ; i++ ) { var callback = styleStateChangeCallbacks[ i ]; // Check the current state for the style defined for that // callback. var currentState = callback.style.checkActive( ev.data.path ) ? CKEDITOR.TRISTATE_ON : CKEDITOR.TRISTATE_OFF; // If the state changed since the last check. if ( callback.state !== currentState ) { // Call the callback function, passing the current // state to it. callback.fn.call( this, currentState ); // Save the current state, so it can be compared next // time. callback.state !== currentState; } } }); } // Save the callback info, so it can be checked on the next occurence of // selectionChange. styleStateChangeCallbacks.push( { style : style, fn : callback } ); }; CKEDITOR.STYLE_BLOCK = 1; CKEDITOR.STYLE_INLINE = 2; CKEDITOR.STYLE_OBJECT = 3; (function() { var blockElements = { address:1,div:1,h1:1,h2:1,h3:1,h4:1,h5:1,h6:1,p:1,pre:1 }; var objectElements = { a:1,embed:1,hr:1,img:1,li:1,object:1,ol:1,table:1,td:1,tr:1,ul:1 }; var semicolonFixRegex = /\s*(?:;\s*|$)/; CKEDITOR.style = function( styleDefinition, variablesValues ) { if ( variablesValues ) { styleDefinition = CKEDITOR.tools.clone( styleDefinition ); replaceVariables( styleDefinition.attributes, variablesValues ); replaceVariables( styleDefinition.styles, variablesValues ); } var element = this.element = ( styleDefinition.element || '*' ).toLowerCase(); this.type = ( element == '#' || blockElements[ element ] ) ? CKEDITOR.STYLE_BLOCK : objectElements[ element ] ? CKEDITOR.STYLE_OBJECT : CKEDITOR.STYLE_INLINE; this._ = { definition : styleDefinition }; }; CKEDITOR.style.prototype = { apply : function( document ) { applyStyle.call( this, document, false ); }, remove : function( document ) { applyStyle.call( this, document, true ); }, applyToRange : function( range ) { return ( this.applyToRange = this.type == CKEDITOR.STYLE_INLINE ? applyInlineStyle : this.type == CKEDITOR.STYLE_BLOCK ? applyBlockStyle : null ).call( this, range ); }, removeFromRange : function( range ) { return ( this.removeFromRange = this.type == CKEDITOR.STYLE_INLINE ? removeInlineStyle : null ).call( this, range ); }, applyToObject : function( element ) { setupElement( element, this ); }, /** * Get the style state inside an element path. Returns "true" if the * element is active in the path. */ checkActive : function( elementPath ) { switch ( this.type ) { case CKEDITOR.STYLE_BLOCK : return this.checkElementRemovable( elementPath.block || elementPath.blockLimit, true ); case CKEDITOR.STYLE_INLINE : var elements = elementPath.elements; for ( var i = 0, element ; i < elements.length ; i++ ) { element = elements[i]; if ( element == elementPath.block || element == elementPath.blockLimit ) continue; if ( this.checkElementRemovable( element, true ) ) return true; } } return false; }, // Checks if an element, or any of its attributes, is removable by the // current style definition. checkElementRemovable : function( element, fullMatch ) { if ( !element ) return false; var def = this._.definition, attribs; // If the element name is the same as the style name. if ( element.getName() == this.element ) { // If no attributes are defined in the element. if ( !fullMatch && !element.hasAttributes() ) return true; attribs = getAttributesForComparison( def ); if ( attribs._length ) { for ( var attName in attribs ) { if ( attName == '_length' ) continue; var elementAttr = element.getAttribute( attName ); if ( attribs[attName] == ( attName == 'style' ? normalizeCssText( elementAttr, false ) : elementAttr ) ) { if ( !fullMatch ) return true; } else if ( fullMatch ) return false; } if( fullMatch ) return true; } else return true; } // Check if the element can be somehow overriden. var override = getOverrides( this )[ element.getName() ] ; if ( override ) { // If no attributes have been defined, remove the element. if ( !( attribs = override.attributes ) ) return true; for ( var i = 0 ; i < attribs.length ; i++ ) { attName = attribs[i][0]; var actualAttrValue = element.getAttribute( attName ); if ( actualAttrValue ) { var attValue = attribs[i][1]; // Remove the attribute if: // - The override definition value is null; // - The override definition value is a string that // matches the attribute value exactly. // - The override definition value is a regex that // has matches in the attribute value. if ( attValue === null || ( typeof attValue == 'string' && actualAttrValue == attValue ) || attValue.test( actualAttrValue ) ) return true; } } } return false; } }; // Build the cssText based on the styles definition. CKEDITOR.style.getStyleText = function( styleDefinition ) { // If we have already computed it, just return it. var stylesDef = styleDefinition._ST; if ( stylesDef ) return stylesDef; stylesDef = styleDefinition.styles; // Builds the StyleText. var stylesText = ( styleDefinition.attributes && styleDefinition.attributes[ 'style' ] ) || ''; if ( stylesText.length ) stylesText = stylesText.replace( semicolonFixRegex, ';' ); for ( var style in stylesDef ) stylesText += ( style + ':' + stylesDef[ style ] ).replace( semicolonFixRegex, ';' ); // Browsers make some changes to the style when applying them. So, here // we normalize it to the browser format. if ( stylesText.length ) stylesText = normalizeCssText( stylesText ); // Return it, saving it to the next request. return ( styleDefinition._ST = stylesText ); }; function applyInlineStyle( range ) { var document = range.document; if ( range.collapsed ) { // Create the element to be inserted in the DOM. var collapsedElement = getElement( this, document ); // Insert the empty element into the DOM at the range position. range.insertNode( collapsedElement ); // Place the selection right inside the empty element. range.moveToPosition( collapsedElement, CKEDITOR.POSITION_BEFORE_END ); return; } var elementName = this.element; var def = this._.definition; var isUnknownElement; // Get the DTD definition for the element. Defaults to "span". var dtd = CKEDITOR.dtd[ elementName ] || ( isUnknownElement = true, CKEDITOR.dtd.span ); // Bookmark the range so we can re-select it after processing. var bookmark = range.createBookmark(); // Expand the range. range.enlarge( CKEDITOR.ENLARGE_ELEMENT ); range.trim(); // Get the first node to be processed and the last, which concludes the // processing. var boundaryNodes = range.getBoundaryNodes(); var firstNode = boundaryNodes.startNode; var lastNode = boundaryNodes.endNode.getNextSourceNode( true ); // Probably the document end is reached, we need a marker node. if ( !lastNode ) { var marker; lastNode = marker = document.createText( '' ); lastNode.insertAfter( range.endContainer ); } // The detection algorithm below skips the contents inside bookmark nodes, so // we'll need to make sure lastNode isn't the   inside a bookmark node. var lastParent = lastNode.getParent(); if ( lastParent && lastParent.getAttribute( '_fck_bookmark' ) ) lastNode = lastParent; if ( lastNode.equals( firstNode ) ) { // If the last node is the same as the the first one, we must move // it to the next one, otherwise the first one will not be // processed. lastNode = lastNode.getNextSourceNode( true ); // It may happen that there are no more nodes after it (the end of // the document), so we must add something there to make our code // simpler. if ( !lastNode ) { lastNode = marker = document.createText( '' ); lastNode.insertAfter( firstNode ); } } var currentNode = firstNode; var styleRange; // Indicates that that some useful inline content has been found, so // the style should be applied. var hasContents; while ( currentNode ) { var applyStyle = false; if ( currentNode.equals( lastNode ) ) { currentNode = null; applyStyle = true; } else { var nodeType = currentNode.type; var nodeName = nodeType == CKEDITOR.NODE_ELEMENT ? currentNode.getName() : null; if ( nodeName && currentNode.getAttribute( '_fck_bookmark' ) ) { currentNode = currentNode.getNextSourceNode( true ); continue; } // Check if the current node can be a child of the style element. if ( !nodeName || ( dtd[ nodeName ] && ( currentNode.getPosition( lastNode ) | CKEDITOR.POSITION_PRECEDING | CKEDITOR.POSITION_IDENTICAL | CKEDITOR.POSITION_IS_CONTAINED ) == ( CKEDITOR.POSITION_PRECEDING + CKEDITOR.POSITION_IDENTICAL + CKEDITOR.POSITION_IS_CONTAINED ) ) ) { var currentParent = currentNode.getParent(); // Check if the style element can be a child of the current // node parent or if the element is not defined in the DTD. if ( currentParent && ( ( currentParent.getDtd() || CKEDITOR.dtd.span )[ elementName ] || isUnknownElement ) ) { // This node will be part of our range, so if it has not // been started, place its start right before the node. // In the case of an element node, it will be included // only if it is entirely inside the range. if ( !styleRange && ( !nodeName || !CKEDITOR.dtd.$removeEmpty[ nodeName ] || ( currentNode.getPosition( lastNode ) | CKEDITOR.POSITION_PRECEDING | CKEDITOR.POSITION_IDENTICAL | CKEDITOR.POSITION_IS_CONTAINED ) == ( CKEDITOR.POSITION_PRECEDING + CKEDITOR.POSITION_IDENTICAL + CKEDITOR.POSITION_IS_CONTAINED ) ) ) { styleRange = new CKEDITOR.dom.range( document ); styleRange.setStartBefore( currentNode ); } // Non element nodes, or empty elements can be added // completely to the range. if ( nodeType == CKEDITOR.NODE_TEXT || ( nodeType == CKEDITOR.NODE_ELEMENT && !currentNode.getChildCount() ) ) { var includedNode = currentNode; var parentNode; // This node is about to be included completelly, but, // if this is the last node in its parent, we must also // check if the parent itself can be added completelly // to the range. while ( !includedNode.$.nextSibling && ( parentNode = includedNode.getParent(), dtd[ parentNode.getName() ] ) && ( parentNode.getPosition( firstNode ) | CKEDITOR.POSITION_FOLLOWING | CKEDITOR.POSITION_IDENTICAL | CKEDITOR.POSITION_IS_CONTAINED ) == ( CKEDITOR.POSITION_FOLLOWING + CKEDITOR.POSITION_IDENTICAL + CKEDITOR.POSITION_IS_CONTAINED ) ) { includedNode = parentNode; } styleRange.setEndAfter( includedNode ); // If the included node still is the last node in its // parent, it means that the parent can't be included // in this style DTD, so apply the style immediately. if ( !includedNode.$.nextSibling ) applyStyle = true; if ( !hasContents ) hasContents = ( nodeType != CKEDITOR.NODE_TEXT || (/[^\s\ufeff]/).test( currentNode.getText() ) ); } } else applyStyle = true; } else applyStyle = true; // Get the next node to be processed. currentNode = currentNode.getNextSourceNode(); } // Apply the style if we have something to which apply it. if ( applyStyle && hasContents && styleRange && !styleRange.collapsed ) { // Build the style element, based on the style object definition. var styleNode = getElement( this, document ); // Get the element that holds the entire range. var parent = styleRange.getCommonAncestor(); // Loop through the parents, removing the redundant attributes // from the element to be applied. while ( styleNode && parent ) { if ( parent.getName() == elementName ) { for ( var attName in def.attributes ) { if ( styleNode.getAttribute( attName ) == parent.getAttribute( attName ) ) styleNode.removeAttribute( attName ); } for ( var styleName in def.styles ) { if ( styleNode.getStyle( styleName ) == parent.getStyle( styleName ) ) styleNode.removeStyle( styleName ); } if ( !styleNode.hasAttributes() ) { styleNode = null; break; } } parent = parent.getParent(); } if ( styleNode ) { // Move the contents of the range to the style element. styleRange.extractContents().appendTo( styleNode ); // Here we do some cleanup, removing all duplicated // elements from the style element. removeFromInsideElement( this, styleNode ); // Insert it into the range position (it is collapsed after // extractContents. styleRange.insertNode( styleNode ); // Let's merge our new style with its neighbors, if possible. mergeSiblings( styleNode ); // As the style system breaks text nodes constantly, let's normalize // things for performance. // With IE, some paragraphs get broken when calling normalize() // repeatedly. Also, for IE, we must normalize body, not documentElement. // IE is also known for having a "crash effect" with normalize(). // We should try to normalize with IE too in some way, somewhere. if ( !CKEDITOR.env.ie ) styleNode.$.normalize(); } // Style applied, let's release the range, so it gets // re-initialization in the next loop. styleRange = null; } } // Remove the temporary marking node.(#4111) marker && marker.remove(); range.moveToBookmark( bookmark ); } function removeInlineStyle( range ) { /* * Make sure our range has included all "collpased" parent inline nodes so * that our operation logic can be simpler. */ range.enlarge( CKEDITOR.ENLARGE_ELEMENT ); var bookmark = range.createBookmark(), startNode = bookmark.startNode; if ( range.collapsed ) { var startPath = new CKEDITOR.dom.elementPath( startNode.getParent() ), // The topmost element in elementspatch which we should jump out of. boundaryElement; for ( var i = 0, element ; i < startPath.elements.length && ( element = startPath.elements[i] ) ; i++ ) { /* * 1. If it's collaped inside text nodes, try to remove the style from the whole element. * * 2. Otherwise if it's collapsed on element boundaries, moving the selection * outside the styles instead of removing the whole tag, * also make sure other inner styles were well preserverd.(#3309) */ if ( element == startPath.block || element == startPath.blockLimit ) break; if ( this.checkElementRemovable( element ) ) { var endOfElement = range.checkBoundaryOfElement( element, CKEDITOR.END ), startOfElement = !endOfElement && range.checkBoundaryOfElement( element, CKEDITOR.START ); if ( startOfElement || endOfElement ) { boundaryElement = element; boundaryElement.match = startOfElement ? 'start' : 'end'; } else { /* * Before removing the style node, there may be a sibling to the style node * that's exactly the same to the one to be removed. To the user, it makes * no difference that they're separate entities in the DOM tree. So, merge * them before removal. */ mergeSiblings( element ); removeFromElement( this, element ); } } } // Re-create the style tree after/before the boundary element, // the replication start from bookmark start node to define the // new range. if ( boundaryElement ) { var clonedElement = startNode; for ( i = 0 ;; i++ ) { var newElement = startPath.elements[ i ]; if ( newElement.equals( boundaryElement ) ) break; // Avoid copying any matched element. else if( newElement.match ) continue; else newElement = newElement.clone(); newElement.append( clonedElement ); clonedElement = newElement; } clonedElement[ boundaryElement.match == 'start' ? 'insertBefore' : 'insertAfter' ]( boundaryElement ); } } else { /* * Now our range isn't collapsed. Lets walk from the start node to the end * node via DFS and remove the styles one-by-one. */ var endNode = bookmark.endNode, me = this; /* * Find out the style ancestor that needs to be broken down at startNode * and endNode. */ function breakNodes() { var startPath = new CKEDITOR.dom.elementPath( startNode.getParent() ), endPath = new CKEDITOR.dom.elementPath( endNode.getParent() ), breakStart = null, breakEnd = null; for ( var i = 0 ; i < startPath.elements.length ; i++ ) { var element = startPath.elements[ i ]; if ( element == startPath.block || element == startPath.blockLimit ) break; if ( me.checkElementRemovable( element ) ) breakStart = element; } for ( i = 0 ; i < endPath.elements.length ; i++ ) { element = endPath.elements[ i ]; if ( element == endPath.block || element == endPath.blockLimit ) break; if ( me.checkElementRemovable( element ) ) breakEnd = element; } if ( breakEnd ) endNode.breakParent( breakEnd ); if ( breakStart ) startNode.breakParent( breakStart ); } breakNodes(); // Now, do the DFS walk. var currentNode = startNode.getNext(); while ( !currentNode.equals( endNode ) ) { /* * Need to get the next node first because removeFromElement() can remove * the current node from DOM tree. */ var nextNode = currentNode.getNextSourceNode(); if ( currentNode.type == CKEDITOR.NODE_ELEMENT && this.checkElementRemovable( currentNode ) ) { // Remove style from element or overriding element. if( currentNode.getName() == this.element ) removeFromElement( this, currentNode ); else removeOverrides( currentNode, getOverrides( this )[ currentNode.getName() ] ); /* * removeFromElement() may have merged the next node with something before * the startNode via mergeSiblings(). In that case, the nextNode would * contain startNode and we'll have to call breakNodes() again and also * reassign the nextNode to something after startNode. */ if ( nextNode.type == CKEDITOR.NODE_ELEMENT && nextNode.contains( startNode ) ) { breakNodes(); nextNode = startNode.getNext(); } } currentNode = nextNode; } } range.moveToBookmark( bookmark ); } function applyBlockStyle( range ) { // Serializible bookmarks is needed here since // elements may be merged. var bookmark = range.createBookmark( true ); var iterator = range.createIterator(); iterator.enforceRealBlocks = true; var block; var doc = range.document; var previousPreBlock; while( ( block = iterator.getNextParagraph() ) ) // Only one = { var newBlock = getElement( this, doc ); replaceBlock( block, newBlock ); } range.moveToBookmark( bookmark ); } // Replace the original block with new one, with special treatment // for 
 blocks to make sure content format is well preserved, and merging/splitting adjacent
	// when necessary.(#3188)
	function replaceBlock( block, newBlock )
	{
		var newBlockIsPre	= newBlock.is( 'pre' );
		var blockIsPre		= block.is( 'pre' );

		var isToPre	= newBlockIsPre && !blockIsPre;
		var isFromPre	= !newBlockIsPre && blockIsPre;

		if ( isToPre )
			newBlock = toPre( block, newBlock );
		else if ( isFromPre )
			// Split big 
 into pieces before start to convert.
			newBlock = fromPres( splitIntoPres( block ), newBlock );
		else
			block.moveChildren( newBlock );

		newBlock.replace( block );

		if ( newBlockIsPre )
		{
			// Merge previous 
 blocks.
			mergePre( newBlock );
		}
	}

	/**
	 * Merge a 
 block with a previous sibling if available.
	 */
	function mergePre( preBlock )
	{
		var previousBlock;
		if ( !( ( previousBlock = preBlock.getPreviousSourceNode( true, CKEDITOR.NODE_ELEMENT ) )
				 && previousBlock.is
				 && previousBlock.is( 'pre') ) )
			return;

		// Merge the previous 
 block contents into the current 
		// block.
		//
		// Another thing to be careful here is that currentBlock might contain
		// a '\n' at the beginning, and previousBlock might contain a '\n'
		// towards the end. These new lines are not normally displayed but they
		// become visible after merging.
		var mergedHtml = replace( previousBlock.getHtml(), /\n$/, '' ) + '\n\n' +
				replace( preBlock.getHtml(), /^\n/, '' ) ;

		// Krugle: IE normalizes innerHTML from 
, breaking whitespaces.
		if ( CKEDITOR.env.ie )
			preBlock.$.outerHTML = '
' + mergedHtml + '
';
		else
			preBlock.setHtml( mergedHtml );

		previousBlock.remove();
	}

	/**
	 * Split into multiple 
 blocks separated by double line-break.
	 * @param preBlock
	 */
	function splitIntoPres( preBlock )
	{
		// Exclude the ones at header OR at tail,
		// and ignore bookmark content between them.
		var duoBrRegex = /(\S\s*)\n(?:\s|(]+_fck_bookmark.*?\/span>))*\n(?!$)/gi,
			blockName = preBlock.getName(),
			splitedHtml = replace( preBlock.getOuterHtml(),
				duoBrRegex,
				function( match, charBefore, bookmark )
				{
				  return charBefore + '
' + bookmark + '
';
				} );

		var pres = [];
		splitedHtml.replace( /
([\s\S]*?)<\/pre>/gi, function( match, preContent ){
			pres.push( preContent );
		} );
		return pres;
	}

	// Wrapper function of String::replace without considering of head/tail bookmarks nodes.
	function replace( str, regexp, replacement )
	{
		var headBookmark = '',
			tailBookmark = '';

		str = str.replace( /(^]+_fck_bookmark.*?\/span>)|(]+_fck_bookmark.*?\/span>$)/gi,
			function( str, m1, m2 ){
					m1 && ( headBookmark = m1 );
					m2 && ( tailBookmark = m2 );
				return '';
			} );
		return headBookmark + str.replace( regexp, replacement ) + tailBookmark;
	}
	/**
	 * Converting a list of 
 into blocks with format well preserved.
	 */
	function fromPres( preHtmls, newBlock )
	{
		var docFrag = new CKEDITOR.dom.documentFragment( newBlock.getDocument() );
		for ( var i = 0 ; i < preHtmls.length ; i++ )
		{
			var blockHtml = preHtmls[ i ];

			// 1. Trim the first and last line-breaks immediately after and before 
,
			// they're not visible.
			 blockHtml =  blockHtml.replace( /(\r\n|\r)/g, '\n' ) ;
			 blockHtml = replace(  blockHtml, /^[ \t]*\n/, '' ) ;
			 blockHtml = replace(  blockHtml, /\n$/, '' ) ;
			// 2. Convert spaces or tabs at the beginning or at the end to  
			 blockHtml = replace(  blockHtml, /^[ \t]+|[ \t]+$/g, function( match, offset, s )
					{
						if ( match.length == 1 )	// one space, preserve it
							return ' ' ;
						else if ( !offset )		// beginning of block
							return CKEDITOR.tools.repeat( ' ', match.length - 1 ) + ' ';
						else				// end of block
							return ' ' + CKEDITOR.tools.repeat( ' ', match.length - 1 );
					} ) ;

			// 3. Convert \n to 
.
			// 4. Convert contiguous (i.e. non-singular) spaces or tabs to  
			 blockHtml =  blockHtml.replace( /\n/g, '
' ) ;
			 blockHtml =  blockHtml.replace( /[ \t]{2,}/g,
					function ( match )
					{
						return CKEDITOR.tools.repeat( ' ', match.length - 1 ) + ' ' ;
					} ) ;

			var newBlockClone = newBlock.clone();
			newBlockClone.setHtml(  blockHtml );
			docFrag.append( newBlockClone );
		}
		return docFrag;
	}

	/**
	 * Converting from a non-PRE block to a PRE block in formatting operations.
	 */
	function toPre( block, newBlock )
	{
		// First trim the block content.
		var preHtml = block.getHtml();

		// 1. Trim head/tail spaces, they're not visible.
		preHtml = replace( preHtml, /(?:^[ \t\n\r]+)|(?:[ \t\n\r]+$)/g, '' );
		// 2. Delete ANSI whitespaces immediately before and after 
 because
		//    they are not visible.
		preHtml = preHtml.replace( /[ \t\r\n]*(]*>)[ \t\r\n]*/gi, '$1' );
		// 3. Compress other ANSI whitespaces since they're only visible as one
		//    single space previously.
		// 4. Convert   to spaces since   is no longer needed in 
.
		preHtml = preHtml.replace( /([ \t\n\r]+| )/g, ' ' );
		// 5. Convert any 
 to \n. This must not be done earlier because
		//    the \n would then get compressed.
		preHtml = preHtml.replace( /]*>/gi, '\n' );

		// Krugle: IE normalizes innerHTML to 
, breaking whitespaces.
		if ( CKEDITOR.env.ie )
		{
			var temp = block.getDocument().createElement( 'div' );
			temp.append( newBlock );
			newBlock.$.outerHTML =  '
' + preHtml + '
';
			newBlock = temp.getFirst().remove();
		}
		else
			newBlock.setHtml( preHtml );

		return newBlock;
	}

	// Removes a style from an element itself, don't care about its subtree.
	function removeFromElement( style, element )
	{
		var def = style._.definition,
			attributes = def.attributes,
			styles = def.styles,
			overrides = getOverrides( style );

		function removeAttrs()
		{
			for ( var attName in attributes )
			{
				// The 'class' element value must match (#1318).
				if ( attName == 'class' && element.getAttribute( attName ) != attributes[ attName ] )
					continue;
				element.removeAttribute( attName );
			}
		}

		// Remove definition attributes/style from the elemnt.
		removeAttrs();
		for ( var styleName in styles )
			element.removeStyle( styleName );

		// Now remove override styles on the element.
		attributes = overrides[ element.getName() ];
		if( attributes )
			removeAttrs();
		removeNoAttribsElement( element );
	}

	// Removes a style from inside an element.
	function removeFromInsideElement( style, element )
	{
		var def = style._.definition,
			attribs = def.attributes,
			styles = def.styles,
			overrides = getOverrides( style );

		var innerElements = element.getElementsByTag( style.element );

		for ( var i = innerElements.count(); --i >= 0 ; )
			removeFromElement( style,  innerElements.getItem( i ) );

		// Now remove any other element with different name that is
		// defined to be overriden.
		for ( var overrideElement in overrides )
		{
			if ( overrideElement != style.element )
			{
				innerElements = element.getElementsByTag( overrideElement ) ;
				for ( i = innerElements.count() - 1 ; i >= 0 ; i-- )
				{
					var innerElement = innerElements.getItem( i );
					removeOverrides( innerElement, overrides[ overrideElement ] ) ;
				}
			}
		}

	}

	/**
	 *  Remove overriding styles/attributes from the specific element.
	 *  Note: Remove the element if no attributes remain.
	 * @param {Object} element
	 * @param {Object} overrides
	 */
	function removeOverrides( element, overrides )
	{
		var attributes = overrides && overrides.attributes ;

		if ( attributes )
		{
			for ( var i = 0 ; i < attributes.length ; i++ )
			{
				var attName = attributes[i][0], actualAttrValue ;

				if ( ( actualAttrValue = element.getAttribute( attName ) ) )
				{
					var attValue = attributes[i][1] ;

					// Remove the attribute if:
					//    - The override definition value is null ;
					//    - The override definition valie is a string that
					//      matches the attribute value exactly.
					//    - The override definition value is a regex that
					//      has matches in the attribute value.
					if ( attValue === null ||
							( attValue.test && attValue.test( actualAttrValue ) ) ||
							( typeof attValue == 'string' && actualAttrValue == attValue ) )
						element.removeAttribute( attName ) ;
				}
			}
		}

		removeNoAttribsElement( element );
	}

	// If the element has no more attributes, remove it.
	function removeNoAttribsElement( element )
	{
		// If no more attributes remained in the element, remove it,
		// leaving its children.
		if ( !element.hasAttributes() )
		{
			// Removing elements may open points where merging is possible,
			// so let's cache the first and last nodes for later checking.
			var firstChild	= element.getFirst();
			var lastChild	= element.getLast();

			element.remove( true );

			if ( firstChild )
			{
				// Check the cached nodes for merging.
				mergeSiblings( firstChild );

				if ( lastChild && !firstChild.equals( lastChild ) )
					mergeSiblings( lastChild );
			}
		}
	}

	function mergeSiblings( element )
	{
		if ( !element || element.type != CKEDITOR.NODE_ELEMENT || !CKEDITOR.dtd.$removeEmpty[ element.getName() ] )
			return;

		mergeElements( element, element.getNext(), true );
		mergeElements( element, element.getPrevious() );
	}

	function mergeElements( element, sibling, isNext )
	{
		if ( sibling && sibling.type == CKEDITOR.NODE_ELEMENT )
		{
			var hasBookmark = sibling.getAttribute( '_fck_bookmark' );

			if ( hasBookmark )
				sibling = isNext ? sibling.getNext() : sibling.getPrevious();

			if ( sibling && sibling.type == CKEDITOR.NODE_ELEMENT && element.isIdentical( sibling ) )
			{
				// Save the last child to be checked too, to merge things like
				//  => 
				var innerSibling = isNext ? element.getLast() : element.getFirst();

				if ( hasBookmark )
					( isNext ? sibling.getPrevious() : sibling.getNext() ).move( element, !isNext );

				sibling.moveChildren( element, !isNext );
				sibling.remove();

				// Now check the last inner child (see two comments above).
				if ( innerSibling )
					mergeSiblings( innerSibling );
			}
		}
	}

	function getElement( style, targetDocument )
	{
		var el;

		var def = style._.definition;

		var elementName = style.element;

		// The "*" element name will always be a span for this function.
		if ( elementName == '*' )
			elementName = 'span';

		// Create the element.
		el = new CKEDITOR.dom.element( elementName, targetDocument );

		return setupElement( el, style );
	}

	function setupElement( el, style )
	{
		var def = style._.definition;
		var attributes = def.attributes;
		var styles = CKEDITOR.style.getStyleText( def );

		// Assign all defined attributes.
		if ( attributes )
		{
			for ( var att in attributes )
			{
				el.setAttribute( att, attributes[ att ] );
			}
		}

		// Assign all defined styles.
		if ( styles )
			el.setAttribute( 'style', styles );

		return el;
	}

	var varRegex = /#\((.+?)\)/g;
	function replaceVariables( list, variablesValues )
	{
		for ( var item in list )
		{
			list[ item ] = list[ item ].replace( varRegex, function( match, varName )
				{
					return variablesValues[ varName ];
				});
		}
	}


	// Returns an object that can be used for style matching comparison.
	// Attributes names and values are all lowercased, and the styles get
	// merged with the style attribute.
	function getAttributesForComparison( styleDefinition )
	{
		// If we have already computed it, just return it.
		var attribs = styleDefinition._AC;
		if ( attribs )
			return attribs;

		attribs = {};

		var length = 0;

		// Loop through all defined attributes.
		var styleAttribs = styleDefinition.attributes;
		if ( styleAttribs )
		{
			for ( var styleAtt in styleAttribs )
			{
				length++;
				attribs[ styleAtt ] = styleAttribs[ styleAtt ];
			}
		}

		// Includes the style definitions.
		var styleText = CKEDITOR.style.getStyleText( styleDefinition );
		if ( styleText )
		{
			if ( !attribs[ 'style' ] )
				length++;
			attribs[ 'style' ] = styleText;
		}

		// Appends the "length" information to the object.
		attribs._length = length;

		// Return it, saving it to the next request.
		return ( styleDefinition._AC = attribs );
	}

	/**
	 * Get the the collection used to compare the elements and attributes,
	 * defined in this style overrides, with other element. All information in
	 * it is lowercased.
	 * @param {CKEDITOR.style} style
	 */
	function getOverrides( style )
	{
		if( style._.overrides )
			return style._.overrides;

		var overrides = ( style._.overrides = {} ),
			definition = style._.definition.overrides;

		if ( definition )
		{
			// The override description can be a string, object or array.
			// Internally, well handle arrays only, so transform it if needed.
			if ( !CKEDITOR.tools.isArray( definition ) )
				definition = [ definition ];

			// Loop through all override definitions.
			for ( var i = 0 ; i < definition.length ; i++ )
			{
				var override = definition[i];
				var elementName;
				var overrideEl;
				var attrs;

				// If can be a string with the element name.
				if ( typeof override == 'string' )
					elementName = override.toLowerCase();
				// Or an object.
				else
				{
					elementName = override.element ? override.element.toLowerCase() : style.element;
					attrs = override.attributes;
				}

				// We can have more than one override definition for the same
				// element name, so we attempt to simply append information to
				// it if it already exists.
				overrideEl = overrides[ elementName ] || ( overrides[ elementName ] = {} );

				if ( attrs )
				{
					// The returning attributes list is an array, because we
					// could have different override definitions for the same
					// attribute name.
					var overrideAttrs = ( overrideEl.attributes = overrideEl.attributes || new Array() );
					for ( var attName in attrs )
					{
						// Each item in the attributes array is also an array,
						// where [0] is the attribute name and [1] is the
						// override value.
						overrideAttrs.push( [ attName.toLowerCase(), attrs[ attName ] ] );
					}
				}
			}
		}

		return overrides;
	}

	function normalizeCssText( unparsedCssText, nativeNormalize )
	{
		var styleText;
		if ( nativeNormalize !== false )
		{
			// Injects the style in a temporary span object, so the browser parses it,
			// retrieving its final format.
			var temp = new CKEDITOR.dom.element( 'span' );
			temp.setAttribute( 'style', unparsedCssText );
			styleText = temp.getAttribute( 'style' );
		}
		else
			styleText = unparsedCssText;

		// Shrinking white-spaces around colon and semi-colon (#4147).
		// Compensate tail semi-colon.
		return styleText.replace( /\s*([;:])\s*/, '$1' )
							 .replace( /([^\s;])$/, '$1;')
							 .replace( /,\s+/g, ',' ) // Trimming spaces after comma (e.g. font-family name)(#4107).
							 .toLowerCase();
	}

	function applyStyle( document, remove )
	{
		// Get all ranges from the selection.
		var selection = document.getSelection();
		var ranges = selection.getRanges();
		var func = remove ? this.removeFromRange : this.applyToRange;

		// Apply the style to the ranges.
		for ( var i = 0 ; i < ranges.length ; i++ )
			func.call( this, ranges[ i ] );

		// Select the ranges again.
		selection.selectRanges( ranges );
	}
})();

CKEDITOR.styleCommand = function( style )
{
	this.style = style;
};

CKEDITOR.styleCommand.prototype.exec = function( editor )
{
	editor.focus();

	var doc = editor.document;

	if ( doc )
	{
		if ( this.state == CKEDITOR.TRISTATE_OFF )
			this.style.apply( doc );
		else if ( this.state == CKEDITOR.TRISTATE_ON )
			this.style.remove( doc );
	}

	return !!doc;
};