/** * VisualEditor Document class. * * @copyright 2011-2012 VisualEditor Team and others; see AUTHORS.txt * @license The MIT License (MIT); see LICENSE.txt */ /** * Generic document. * * @class * @constructor * @param model {ve.Node} Model to observe */ ve.Document = function ve_Document( documentNode ) { // Properties this.documentNode = documentNode; }; /* Methods */ /** * Gets the root of the document's node tree. * * @method * @returns {ve.Node} Root of node tree */ ve.Document.prototype.getDocumentNode = function () { return this.documentNode; }; /** * Gets a list of nodes and the ranges within them that a selection of the document covers. * * @method * @param {ve.Range} range Range within document to select nodes * @param {String} [mode='leaves'] Type of selection to perform * 'leaves': Return all leaf nodes in the given range (descends all the way down) * 'coveredNodes': Do not descend into nodes that are entirely covered by the range. The result * is similar to that of 'leaves' except that if a node is entirely covered, its * children aren't returned separately. * 'siblings': Return a set of adjacent siblings covered by the range (descends as long as the * range is in a single node) * @returns {Array} List of objects describing nodes in the selection and the ranges therein * 'node': Reference to a ve.dm.Node * 'range': ve.Range, missing if the entire node is covered * 'index': Index of the node in its parent, missing if node has no parent * 'indexInNode': If range is a zero-length range between two children of node, * this is set to the index of the child following range (or to * node.children.length+1 if range is between the last child and * the end). Missing in all other cases * 'nodeRange': Range covering the inside of the entire node * @throws 'Invalid start offset' if range.start is out of range * @throws 'Invalid end offset' if range.end is out of range */ ve.Document.prototype.selectNodes = function ( range, mode ) { range.normalize(); var doc = this.documentNode, retval = [], start = range.start, end = range.end, stack = [ { // Node we are currently stepping through // Note each iteration visits a child of node, not node itself 'node': doc, // Index of the child in node we're visiting 'index': 0, // First offset inside node 'startOffset': 0 } ], node, prevNode, nextNode, left, right, currentFrame = stack[0], parentFrame, startInside, endInside, startBetween, endBetween, startFound = false, nodeRange, isWrapped; mode = mode || 'leaves'; if ( mode !== 'leaves' && mode !== 'covered' && mode !== 'siblings' ) { throw new Error( 'Invalid mode: ' + mode ); } if ( start < 0 || start > doc.getLength() ) { throw new Error( 'Invalid start offset: ' + start ); } if ( end < 0 || end > doc.getLength() ) { throw new Error( 'Invalid end offset: ' + end ); } if ( !doc.children || doc.children.length === 0 ) { // Document has no children. This is weird nodeRange = new ve.Range( 0, doc.getLength() ); return [ { 'node': doc, 'range': new ve.Range( start, end ), 'index': 0, 'nodeRange': nodeRange, 'nodeOuterRange': nodeRange } ]; } left = doc.children[0].isWrapped() ? 1 : 0; do { node = currentFrame.node.children[currentFrame.index]; prevNode = currentFrame.node.children[currentFrame.index - 1]; nextNode = currentFrame.node.children[currentFrame.index + 1]; right = left + node.getLength(); // Is the start inside node? startInside = start >= left && start <= right; // Is the end inside node? endInside = end >= left && end <= right; // Does the node have wrapping elements around it isWrapped = node.isWrapped(); // Is the start between prevNode and node or between the parent's opening and node? startBetween = isWrapped ? start === left - 1 : start === left; // Is the end between node and nextNode or between node and the parent's closing? endBetween = isWrapped ? end === right + 1 : end === right; if ( isWrapped && end === left - 1 && currentFrame.index === 0 ) { // The selection ends here with an empty range at the beginning of the node // TODO duplicated code nodeRange = new ve.Range( currentFrame.startOffset, currentFrame.startOffset + currentFrame.node.getLength() ); isWrapped = currentFrame.node.isWrapped(); retval.push( { 'node': currentFrame.node, 'indexInNode': 0, 'range': new ve.Range( end, end ), 'nodeRange': nodeRange, 'nodeOuterRange': new ve.Range( nodeRange.start - isWrapped, nodeRange.end + isWrapped ) } ); parentFrame = stack[stack.length - 2]; if ( parentFrame ) { retval[retval.length - 1].index = parentFrame.index; } return retval; } if ( start === end && ( startBetween || endBetween ) && node.isWrapped() ) { // Empty range in the parent, outside of any child nodeRange = new ve.Range( currentFrame.startOffset, currentFrame.startOffset + currentFrame.node.getLength() ); isWrapped = currentFrame.node.isWrapped(); retval = [ { 'node': currentFrame.node, 'indexInNode': currentFrame.index + ( endBetween ? 1 : 0 ), 'range': new ve.Range( start, end ), 'nodeRange': nodeRange, 'nodeOuterRange': new ve.Range( nodeRange.start - isWrapped, nodeRange.end + isWrapped ) } ]; parentFrame = stack[stack.length - 2]; if ( parentFrame ) { retval[0].index = parentFrame.index; } return retval; } else if ( startBetween ) { // start is between the previous sibling and node // so the selection covers all or part of node // Descend if // * we are in leaves mode, OR // * we are in covered mode and the end is inside node if ( ( mode === 'leaves' || ( mode === 'covered' && endInside ) ) && node.children && node.children.length ) { // Descend into node currentFrame = { 'node': node, 'index': 0, 'startOffset': left }; stack.push( currentFrame ); startFound = true; // If the first child of node has an opening, skip over it if ( node.children[0].isWrapped() ) { left++; } continue; } else if ( !endInside ) { // All of node is covered retval.push( { 'node': node, // no 'range' because the entire node is covered 'index': currentFrame.index, 'nodeRange': new ve.Range( left, right ), 'nodeOuterRange': new ve.Range( left - isWrapped, right + isWrapped ) } ); startFound = true; } else { // Part of node is covered return [ { 'node': node, 'range': new ve.Range( start, end ), 'index': currentFrame.index, 'nodeRange': new ve.Range( left, right ), 'nodeOuterRange': new ve.Range( left - isWrapped, right + isWrapped ) } ]; } } else if ( startInside && endInside ) { if ( node.children && node.children.length ) { // Descend into node currentFrame = { 'node': node, 'index': 0, 'startOffset': left }; stack.push( currentFrame ); // If the first child of node has an opening, skip over it if ( node.children[0].isWrapped() ) { left++; } continue; } else { // node is a leaf node and the range is entirely inside it return [ { 'node': node, 'range': new ve.Range( start, end ), 'index': currentFrame.index, 'nodeRange': new ve.Range( left, right ), 'nodeOuterRange': new ve.Range( left - isWrapped, right + isWrapped ) } ]; } } else if ( startInside ) { if ( ( mode === 'leaves' || mode === 'covered' ) && node.children && node.children.length ) { // node is a branch node and the start is inside it // Descend into it currentFrame = { 'node': node, 'index': 0, 'startOffset': left }; stack.push( currentFrame ); // If the first child of node has an opening, skip over it if ( node.children[0].isWrapped() ) { left++; } continue; } else { // node is a leaf node and the start is inside it // Add to retval and keep going retval.push( { 'node': node, 'range': new ve.Range( start, right ), 'index': currentFrame.index, 'nodeRange': new ve.Range( left, right ), 'nodeOuterRange': new ve.Range( left - isWrapped, right + isWrapped ) } ); startFound = true; } } else if ( endBetween ) { // end is between node and the next sibling // start is not inside node, so the selection covers // all of node, then ends if ( mode === 'leaves' && node.children && node.children.length ) { // Descend into node currentFrame = { 'node': node, 'index': 0, 'startOffset': left }; stack.push( currentFrame ); // If the first child of node has an opening, skip over it if ( node.children[0].isWrapped() ) { left++; } continue; } else { // All of node is covered retval.push( { 'node': node, // no 'range' because the entire node is covered 'index': currentFrame.index, 'nodeRange': new ve.Range( left, right ), 'nodeOuterRange': new ve.Range( left - isWrapped, right + isWrapped ) } ); return retval; } } else if ( endInside ) { if ( ( mode === 'leaves' || mode === 'covered' ) && node.children && node.children.length ) { // node is a branch node and the end is inside it // Descend into it currentFrame = { 'node': node, 'index': 0, 'startOffset': left }; stack.push( currentFrame ); // If the first child of node has an opening, skip over it if ( node.children[0].isWrapped() ) { left++; } continue; } else { // node is a leaf node and the end is inside it // Add to retval and return retval.push( { 'node': node, 'range': new ve.Range( left, end ), 'index': currentFrame.index, 'nodeRange': new ve.Range( left, right ), 'nodeOuterRange': new ve.Range( left - isWrapped, right + isWrapped ) } ); return retval; } } else if ( startFound && end > right ) { // Neither the start nor the end is inside node, but we found the start earlier, // so node must be between the start and the end // Add the entire node, so no range property if ( mode === 'leaves' && node.children && node.children.length ) { // Descend into node currentFrame = { 'node': node, 'index': 0, 'startOffset': left }; stack.push( currentFrame ); // If the first child of node has an opening, skip over it if ( node.children[0].isWrapped() ) { left++; } continue; } else { // All of node is covered retval.push( { 'node': node, // no 'range' because the entire node is covered 'index': currentFrame.index, 'nodeRange': new ve.Range( left, right ), 'nodeOuterRange': new ve.Range( left - isWrapped, right + isWrapped ) } ); } } // Move to the next node if ( nextNode ) { // The next node exists // Advance the index; the start of the next iteration will essentially // do node = nextNode; currentFrame.index++; // Advance to the first offset inside nextNode left = right + // Skip over node's closing, if present ( node.isWrapped() ? 1 : 0 ) + // Skip over nextNode's opening, if present ( nextNode.isWrapped() ? 1 : 0 ); } else { // There is no next node, move up the stack until there is one left = right + // Skip over node's closing, if present ( node.isWrapped() ? 1 : 0 ); while ( !nextNode ) { // Check if the start is right past the end of this node, at the end of // the parent if ( node.isWrapped() && start === left ) { // TODO duplicated code nodeRange = new ve.Range( currentFrame.startOffset, currentFrame.startOffset + currentFrame.node.getLength() ); isWrapped = currentFrame.node.isWrapped(); retval = [ { 'node': currentFrame.node, 'indexInNode': currentFrame.index + 1, 'range': new ve.Range( left, left ), 'nodeRange': nodeRange, 'nodeOuterRange': new ve.Range( nodeRange.start - isWrapped, nodeRange.end + isWrapped ) } ]; parentFrame = stack[stack.length - 2]; if ( parentFrame ) { retval[0].index = parentFrame.index; } } // Move up the stack stack.pop(); if ( stack.length === 0 ) { // This shouldn't be possible return retval; } currentFrame = stack[stack.length - 1]; currentFrame.index++; nextNode = currentFrame.node.children[currentFrame.index]; // Skip over the parent node's closing // (this is present for sure, because the parent has children) left++; } // Skip over nextNode's opening if present if ( nextNode.isWrapped() ) { left++; } } } while ( end >= left - 1 ); if ( retval.length === 0 ) { throw new Error( 'selectNodes epic fail' ); } return retval; }; /** * Return groups of sibling nodes covered by the given range * @param {ve.Range} selection Range * @return {Array} Array of objects. Each object has the following keys: * nodes: Array of sibling nodes covered by a part of range * parent: Parent of all of these nodes * grandparent: parent's parent */ ve.Document.prototype.getCoveredSiblingGroups = function ( selection ) { var i, firstCoveredSibling, lastCoveredSibling, node, parentNode, siblingNode, leaves = this.selectNodes( selection, 'leaves' ), groups = [], lastEndOffset = 0; for ( i = 0; i < leaves.length; i++ ) { if ( leaves[i].nodeOuterRange.end <= lastEndOffset ) { // This range is contained within a range we've already processed continue; } node = leaves[i].node; // Traverse up to a content branch from content elements if ( node.isContent() ) { node = node.getParent(); } parentNode = node.getParent(); // Group this with its covered siblings groups.push( { 'parent': parentNode, 'grandparent': parentNode.getParent(), 'nodes': [] } ); firstCoveredSibling = node; // Seek forward to the last covered sibling siblingNode = firstCoveredSibling; do { // Add this to its sibling's group groups[groups.length - 1].nodes.push( siblingNode ); lastCoveredSibling = siblingNode; i++; if ( leaves[i] === undefined ) { break; } // Traverse up to a content branch from content elements siblingNode = leaves[i].node; if ( siblingNode.isContent() ) { siblingNode = siblingNode.getParent(); } } while ( siblingNode.getParent() === parentNode ); i--; lastEndOffset = parentNode.getOuterRange().end; } return groups; };