/* Copyright © 2011-2012 by Neil Jenkins. Licensed under the MIT license. IE TextRange <-> W3C Range code adapted from Rangy: http://code.google.com/p/rangy/ Copyright 2012, Tim Down. Licensed under the MIT license. */ var Range; ( function () { /*global window, document */ /*jshint strict: false */ var indexOf = Array.prototype.indexOf; var START_TO_START = 0; var START_TO_END = 1; var END_TO_START = 3; var contains = function ( a, b ) { while ( b = b.parentNode ) { if ( a === b ) { return true; } } return false; }; var getCommonAncestor = function ( a, b ) { var commonAncestor, aParents, bParents, aL, bL; if ( a === b || contains( a, b ) ) { commonAncestor = a; } else if ( contains( b, a ) ) { commonAncestor = b; } else { aParents = []; bParents = []; while ( a = a.parentNode ) { aParents.push( a ); } while ( b = b.parentNode ) { bParents.push( b ); } aL = aParents.length; bL = bParents.length; while ( aL-- && bL-- ) { if ( aParents[ aL ] !== bParents[ bL ] ) { commonAncestor = aParents[ aL + 1 ]; break; } } if ( !commonAncestor ) { commonAncestor = ( aL === -1 ? aParents[0] : bParents[0] ); } } return commonAncestor; }; Range = function ( startContainer, startOffset, endContainer, endOffset ) { startContainer = startContainer || document; startOffset = startOffset || 0; this.startContainer = startContainer; this.startOffset = startOffset; this.endContainer = endContainer || startContainer; this.endOffset = endOffset !== undefined ? endOffset : startOffset; this._updateCollapsedAndAncestor(); }; Range.prototype = { constructor: Range, _updateCollapsedAndAncestor: function () { this.collapsed = ( this.startContainer === this.endContainer && this.startOffset === this.endOffset ); this.commonAncestorContainer = getCommonAncestor( this.startContainer, this.endContainer ); }, setStart: function ( node, offset ) { this.startContainer = node; this.startOffset = offset; this._updateCollapsedAndAncestor(); }, setEnd: function ( node, offset ) { this.endContainer = node; this.endOffset = offset; this._updateCollapsedAndAncestor(); }, setStartAfter: function ( node ) { var parent = node.parentNode; this.setStart( parent, indexOf.call( parent.childNodes, node ) + 1 ); }, setEndBefore: function ( node ) { var parent = node.parentNode; this.setEnd( parent, indexOf.call( parent.childNodes, node ) ); }, selectNode: function ( node ) { var parent = node.parentNode, offset = indexOf.call( parent.childNodes, node ); this.setStart( parent, offset ); this.setEnd( parent, offset + 1 ); }, selectNodeContents: function ( node ) { this.setStart( node, 0 ); this.setEnd( node, node.childNodes.length ); }, cloneRange: function () { return new Range( this.startContainer, this.startOffset, this.endContainer, this.endOffset ); }, collapse: function ( toStart ) { if ( toStart ) { this.setEnd( this.startContainer, this.startOffset ); } else { this.setStart( this.endContainer, this.endOffset ); } }, compareBoundaryPoints: function ( how, sourceRange ) { var aContainer, aOffset, bContainer, bOffset, node, parent; if ( how === START_TO_START || how === END_TO_START ) { aContainer = this.startContainer; aOffset = this.startOffset; } else { aContainer = this.endContainer; aOffset = this.endOffset; } if ( how === START_TO_START || how === START_TO_END ) { bContainer = sourceRange.startContainer; bOffset = sourceRange.startOffset; } else { bContainer = sourceRange.endContainer; bOffset = sourceRange.endOffset; } if ( aContainer === bContainer ) { return aOffset < bOffset ? -1 : aOffset > bOffset ? 1 : 0; } node = aContainer; while ( parent = node.parentNode ) { if ( parent === bContainer ) { return indexOf.call( parent.childNodes, node ) < bOffset ? -1 : 1; } node = parent; } node = bContainer; while ( parent = node.parentNode ) { if ( parent === aContainer ) { return indexOf.call( parent.childNodes, node ) < aOffset ? 1 : -1; } node = parent; } if ( aContainer.nodeType !== 1 ) { aContainer = aContainer.parentNode; } if ( bContainer.nodeType !== 1 ) { bContainer = bContainer.parentNode; } return aContainer.sourceIndex < bContainer.sourceIndex ? -1 : aContainer.sourceIndex > bContainer.sourceIndex ? 1 : 0; } }; document.createRange = function () { return new Range(); }; // --- var isAncestorOf = function ( ancestor, descendant ) { return ancestor === descendant || contains( ancestor, descendant ); }; var isCharacterDataNode = function ( node ) { var nodeType = node.nodeType; // Text, CDataSection or Comment return nodeType === 3 || nodeType === 4 || nodeType === 8; }; var DomPosition = function ( node, offset ) { this.node = node; this.offset = offset; }; var getTextRangeContainerElement = function ( textRange ) { var parentEl = textRange.parentElement(), range, startEl, endEl, startEndContainer; range = textRange.duplicate(); range.collapse( true ); startEl = range.parentElement(); range = textRange.duplicate(); range.collapse( false ); endEl = range.parentElement(); startEndContainer = ( startEl === endEl ) ? startEl : getCommonAncestor( startEl, endEl ); return startEndContainer === parentEl ? startEndContainer : getCommonAncestor( parentEl, startEndContainer ); }; // Gets the boundary of a TextRange expressed as a node and an offset within // that node. This function started out as an improved version of code found in // Tim Cameron Ryan's IERange (http://code.google.com/p/ierange/) but has grown, // fixing problems with line breaks in preformatted text, adding workaround for // IE TextRange bugs, handling for inputs and images, plus optimizations. var getTextRangeBoundaryPosition = function ( textRange, wholeRangeContainerElement, isStart, isCollapsed ) { var workingRange = textRange.duplicate(); workingRange.collapse( isStart ); var containerElement = workingRange.parentElement(); // Sometimes collapsing a TextRange that's at the start of a text node can // move it into the previous node, so check for that TODO: Find out when. // Workaround for wholeRangeContainerElement may break this if ( !isAncestorOf( wholeRangeContainerElement, containerElement ) ) { containerElement = wholeRangeContainerElement; } // Deal with nodes that cannot "contain rich HTML markup". In practice, this // means form inputs, images and similar. See // http://msdn.microsoft.com/en-us/library/aa703950%28VS.85%29.aspx if ( !containerElement.canHaveHTML ) { return new DomPosition( containerElement.parentNode, indexOf.call( containerElement.parentNode.childNodes, containerElement ) ); } var workingNode = document.createElement( 'span' ), workingComparisonType = isStart ? 'StartToStart' : 'StartToEnd', comparison, previousNode, nextNode, boundaryPosition, boundaryNode; // Move the working range through the container's children, starting at the // end and working backwards, until the working range reaches or goes past // the boundary we're interested in do { containerElement.insertBefore( workingNode, workingNode.previousSibling ); workingRange.moveToElementText( workingNode ); comparison = workingRange.compareEndPoints( workingComparisonType, textRange ); } while ( comparison > 0 && workingNode.previousSibling ); // We've now reached or gone past the boundary of the text range we're // interested in so have identified the node we want boundaryNode = workingNode.nextSibling; if ( comparison === -1 && boundaryNode && isCharacterDataNode( boundaryNode ) ) { // This is a character data node (text, comment, cdata). The working // range is collapsed at the start of the node containing the text // range's boundary, so we move the end of the working range to the // boundary point and measure the length of its text to get the // boundary's offset within the node. workingRange.setEndPoint( isStart ? 'EndToStart' : 'EndToEnd', textRange ); var offset; if ( /[\r\n]/.test( boundaryNode.data ) || /[\r\n]/.test( workingRange.text ) ) { /* For the particular case of a boundary within a text node containing line breaks (within a
element, for example), we need a slightly complicated approach to get the boundary's offset in IE. The facts: - Each line break is represented as \r in the text node's data/nodeValue properties - Each line break is represented as \r\n in the TextRange's 'text' property - The 'text' property of the TextRange does not contain trailing line breaks To get round the problem presented by the final fact above, we can use the fact that TextRange's moveStart() and moveEnd() methods return the actual number of characters moved, which is not necessarily the same as the number of characters it was instructed to move. The simplest approach is to use this to store the characters moved when moving both the start and end of the range to the start of the document body and subtracting the start offset from the end offset (the "move-negative-gazillion" method). However, this is extremely slow when the document is large and the range is near the end of it. Clearly doing the mirror image (i.e. moving the range boundaries to the end of the document) has the same problem. Another approach that works is to use moveStart() to move the start boundary of the range up to the end boundary one character at a time and incrementing a counter with the value returned by the moveStart() call. However, the check for whether the start boundary has reached the end boundary is expensive, so this method is slow (although unlike "move-negative-gazillion" is largely unaffected by the location of the range within the document). The method below is a hybrid of the two methods above. It uses the fact that a string containing the TextRange's 'text' property with each \r\n converted to a single \r character cannot be longer than the text of the TextRange, so the start of the range is moved that length initially and then a character at a time to make up for any trailing line breaks not contained in the 'text' property. This has good performance in most situations compared to the previous two methods. */ var tempRange = workingRange.duplicate(); var rangeLength = tempRange.text.replace( /\r\n/g, '\r' ).length; offset = tempRange.moveStart( 'character', rangeLength); while ( ( comparison = tempRange.compareEndPoints( 'StartToEnd', tempRange ) ) === -1 ) { offset += 1; tempRange.moveStart( 'character', 1 ); } } else { offset = workingRange.text.length; } boundaryPosition = new DomPosition( boundaryNode, offset ); } else { // If the boundary immediately follows a character data node and this is // the end boundary, we should favour a position within that, and // likewise for a start boundary preceding a character data node previousNode = ( isCollapsed || !isStart ) && workingNode.previousSibling; nextNode = ( isCollapsed || isStart ) && workingNode.nextSibling; if ( nextNode && isCharacterDataNode( nextNode ) ) { boundaryPosition = new DomPosition( nextNode, 0 ); } else if ( previousNode && isCharacterDataNode( previousNode ) ) { // Strange bug: if we don't read the data property, the length // property is often returned incorrectly as 0. Don't ask me why. // Therefore get the length from the data property rather than // reading it directly from the node. boundaryPosition = new DomPosition( previousNode, previousNode.data.length ); } else { boundaryPosition = new DomPosition( containerElement, indexOf.call( containerElement.childNodes, workingNode ) ); } } // Clean up workingNode.parentNode.removeChild( workingNode ); return boundaryPosition; }; // Returns a TextRange representing the boundary of a TextRange expressed as a // node and an offset within that node. This function started out as an // optimized version of code found in Tim Cameron Ryan's IERange // (http://code.google.com/p/ierange/) var createBoundaryTextRange = function ( boundaryPosition, isStart ) { var boundaryNode, boundaryParent, boundaryOffset = boundaryPosition.offset; var doc = document; var workingNode, childNodes, workingRange = doc.body.createTextRange(); var nodeIsDataNode = isCharacterDataNode( boundaryPosition.node ); if ( nodeIsDataNode ) { boundaryNode = boundaryPosition.node; boundaryParent = boundaryNode.parentNode; } else { childNodes = boundaryPosition.node.childNodes; boundaryNode = ( boundaryOffset < childNodes.length ) ? childNodes[ boundaryOffset ] : null; boundaryParent = boundaryPosition.node; } // Position the range immediately before the node containing the boundary workingNode = doc.createElement( 'span' ); // Making the working element non-empty element persuades IE to consider the // TextRange boundary to be within the element rather than immediately // before or after it, which is what we want workingNode.innerHTML = ''; // insertBefore is supposed to work like appendChild if the second parameter // is null. However, a bug report for IERange suggests that it can crash the // browser: http://code.google.com/p/ierange/issues/detail?id=12 if ( boundaryNode ) { boundaryParent.insertBefore( workingNode, boundaryNode ); } else { boundaryParent.appendChild( workingNode ); } workingRange.moveToElementText( workingNode ); workingRange.collapse( !isStart ); // Clean up boundaryParent.removeChild( workingNode ); // Move the working range to the text offset, if required if ( nodeIsDataNode ) { workingRange[ isStart ? 'moveStart' : 'moveEnd' ]( 'character', boundaryOffset ); } return workingRange; }; var toDOMRange = function ( textRange ) { var rangeContainerElement = getTextRangeContainerElement( textRange ), start, end; if ( textRange.compareEndPoints( 'StartToEnd', textRange ) === 0 ) { start = end = getTextRangeBoundaryPosition( textRange, rangeContainerElement, true, true ); } else { start = getTextRangeBoundaryPosition( textRange, rangeContainerElement, true, false ); end = getTextRangeBoundaryPosition( textRange, rangeContainerElement, false, false ); } return new Range( start.node, start.offset, end.node, end.offset ); }; var toTextRange = function ( range ) { var textRange, startRange, endRange; if ( range.collapsed ) { textRange = createBoundaryTextRange( new DomPosition( range.startContainer, range.startOffset ), true); } else { startRange = createBoundaryTextRange( new DomPosition( range.startContainer, range.startOffset ), true); endRange = createBoundaryTextRange( new DomPosition( range.endContainer, range.endOffset ), false ); textRange = document.body.createTextRange(); textRange.setEndPoint( 'StartToStart', startRange); textRange.setEndPoint( 'EndToEnd', endRange); } return textRange; }; var selection = { rangeCount: 0, getRangeAt: function ( index ) { if ( index !== 0 ) { return undefined; } var sel = document.selection.createRange(); // Check if we have a control range. if ( sel.add ) { var range = document.createRange(); range.moveToElementText( sel.item( 0 ) ); range.collapse( false ); range.select(); sel = range; } return toDOMRange( sel ); }, removeAllRanges: function () {}, addRange: function ( range ) { toTextRange( range ).select(); } }; document.attachEvent( 'onbeforeactivate', function () { selection.rangeCount = 1; }); document.attachEvent( 'ondeactivate', function () { selection.rangeCount = 0; }); window.getSelection = function () { return selection; }; }() );