/* Copyright (c) 2014 The Chromium Authors. All rights reserved. * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. */ /** * @fileoverview Low-level DOM traversal utility functions to find the * next (or previous) character, word, sentence, line, or paragraph, * in a completely stateless manner without actually manipulating the * selection. */ /** * A class to represent a cursor location in the document, * like the start position or end position of a selection range. * * Later this may be extended to support "virtual text" for an object, * like the ALT text for an image. * * Note: we cache the text of a particular node at the time we * traverse into it. Later we should add support for dynamically * reloading it. * @param {Node} node The DOM node. * @param {number} index The index of the character within the node. * @param {string} text The cached text contents of the node. * @constructor */ Cursor = function(node, index, text) { this.node = node; this.index = index; this.text = text; }; /** * @return {Cursor} A new cursor pointing to the same location. */ Cursor.prototype.clone = function() { return new Cursor(this.node, this.index, this.text); }; /** * Modify this cursor to point to the location that another cursor points to. * @param {Cursor} otherCursor The cursor to copy from. */ Cursor.prototype.copyFrom = function(otherCursor) { this.node = otherCursor.node; this.index = otherCursor.index; this.text = otherCursor.text; }; /** * Utility functions for stateless DOM traversal. * @constructor */ TraverseUtil = function() {}; /** * Gets the text representation of a node. This allows us to substitute * alt text, names, or titles for html elements that provide them. * @param {Node} node A DOM node. * @return {string} A text string representation of the node. */ TraverseUtil.getNodeText = function(node) { if (node.constructor == Text) { return node.data; } else { return ''; } }; /** * Return true if a node should be treated as a leaf node, because * its children are properties of the object that shouldn't be traversed. * * TODO(dmazzoni): replace this with a predicate that detects nodes with * ARIA roles and other objects that have their own description. * For now we just detect a couple of common cases. * * @param {Node} node A DOM node. * @return {boolean} True if the node should be treated as a leaf node. */ TraverseUtil.treatAsLeafNode = function(node) { return node.childNodes.length == 0 || node.nodeName == 'SELECT' || node.nodeName == 'OBJECT'; }; /** * Return true only if a single character is whitespace. * From https://developer.mozilla.org/en/Whitespace_in_the_DOM, * whitespace is defined as one of the characters * "\t" TAB \u0009 * "\n" LF \u000A * "\r" CR \u000D * " " SPC \u0020. * * @param {string} c A string containing a single character. * @return {boolean} True if the character is whitespace, otherwise false. */ TraverseUtil.isWhitespace = function(c) { return (c == ' ' || c == '\n' || c == '\r' || c == '\t'); }; /** * Set the selection to the range between the given start and end cursors. * @param {Cursor} start The desired start of the selection. * @param {Cursor} end The desired end of the selection. * @return {Selection} the selection object. */ TraverseUtil.setSelection = function(start, end) { var sel = window.getSelection(); sel.removeAllRanges(); var range = document.createRange(); range.setStart(start.node, start.index); range.setEnd(end.node, end.index); sel.addRange(range); return sel; }; /** * Use the computed CSS style to figure out if this DOM node is currently * visible. * @param {Node} node A HTML DOM node. * @return {boolean} Whether or not the html node is visible. */ TraverseUtil.isVisible = function(node) { if (!node.style) return true; var style = window.getComputedStyle(/** @type {Element} */(node), null); return (!!style && style.display != 'none' && style.visibility != 'hidden'); }; /** * Use the class name to figure out if this DOM node should be traversed. * @param {Node} node A HTML DOM node. * @return {boolean} Whether or not the html node should be traversed. */ TraverseUtil.isSkipped = function(node) { if (node.constructor == Text) node = node.parentElement; if (node.className == 'CaretBrowsing_Caret' || node.className == 'CaretBrowsing_AnimateCaret') { return true; } return false; }; /** * Moves the cursor forwards until it has crossed exactly one character. * @param {Cursor} cursor The cursor location where the search should start. * On exit, the cursor will be immediately to the right of the * character returned. * @param {Array.} nodesCrossed Any HTML nodes crossed between the * initial and final cursor position will be pushed onto this array. * @return {?string} The character found, or null if the bottom of the * document has been reached. */ TraverseUtil.forwardsChar = function(cursor, nodesCrossed) { while (true) { // Move down until we get to a leaf node. var childNode = null; if (!TraverseUtil.treatAsLeafNode(cursor.node)) { for (var i = cursor.index; i < cursor.node.childNodes.length; i++) { var node = cursor.node.childNodes[i]; if (TraverseUtil.isSkipped(node)) { nodesCrossed.push(node); continue; } if (TraverseUtil.isVisible(node)) { childNode = node; break; } } } if (childNode) { cursor.node = childNode; cursor.index = 0; cursor.text = TraverseUtil.getNodeText(cursor.node); if (cursor.node.constructor != Text) { nodesCrossed.push(cursor.node); } continue; } // Return the next character from this leaf node. if (cursor.index < cursor.text.length) return cursor.text[cursor.index++]; // Move to the next sibling, going up the tree as necessary. while (cursor.node != null) { // Try to move to the next sibling. var siblingNode = null; for (var node = cursor.node.nextSibling; node != null; node = node.nextSibling) { if (TraverseUtil.isSkipped(node)) { nodesCrossed.push(node); continue; } if (TraverseUtil.isVisible(node)) { siblingNode = node; break; } } if (siblingNode) { cursor.node = siblingNode; cursor.text = TraverseUtil.getNodeText(siblingNode); cursor.index = 0; if (cursor.node.constructor != Text) { nodesCrossed.push(cursor.node); } break; } // Otherwise, move to the parent. if (cursor.node.parentNode && cursor.node.parentNode.constructor != HTMLBodyElement) { cursor.node = cursor.node.parentNode; cursor.text = null; cursor.index = 0; } else { return null; } } } }; /** * Moves the cursor backwards until it has crossed exactly one character. * @param {Cursor} cursor The cursor location where the search should start. * On exit, the cursor will be immediately to the left of the * character returned. * @param {Array.} nodesCrossed Any HTML nodes crossed between the * initial and final cursor position will be pushed onto this array. * @return {?string} The previous character, or null if the top of the * document has been reached. */ TraverseUtil.backwardsChar = function(cursor, nodesCrossed) { while (true) { // Move down until we get to a leaf node. var childNode = null; if (!TraverseUtil.treatAsLeafNode(cursor.node)) { for (var i = cursor.index - 1; i >= 0; i--) { var node = cursor.node.childNodes[i]; if (TraverseUtil.isSkipped(node)) { nodesCrossed.push(node); continue; } if (TraverseUtil.isVisible(node)) { childNode = node; break; } } } if (childNode) { cursor.node = childNode; cursor.text = TraverseUtil.getNodeText(cursor.node); if (cursor.text.length) cursor.index = cursor.text.length; else cursor.index = cursor.node.childNodes.length; if (cursor.node.constructor != Text) nodesCrossed.push(cursor.node); continue; } // Return the previous character from this leaf node. if (cursor.text.length > 0 && cursor.index > 0) { return cursor.text[--cursor.index]; } // Move to the previous sibling, going up the tree as necessary. while (true) { // Try to move to the previous sibling. var siblingNode = null; for (var node = cursor.node.previousSibling; node != null; node = node.previousSibling) { if (TraverseUtil.isSkipped(node)) { nodesCrossed.push(node); continue; } if (TraverseUtil.isVisible(node)) { siblingNode = node; break; } } if (siblingNode) { cursor.node = siblingNode; cursor.text = TraverseUtil.getNodeText(siblingNode); if (cursor.text.length) cursor.index = cursor.text.length; else cursor.index = cursor.node.childNodes.length; if (cursor.node.constructor != Text) nodesCrossed.push(cursor.node); break; } // Otherwise, move to the parent. if (cursor.node.parentNode && cursor.node.parentNode.constructor != HTMLBodyElement) { cursor.node = cursor.node.parentNode; cursor.text = null; cursor.index = 0; } else { return null; } } } }; /** * Finds the next character, starting from endCursor. Upon exit, startCursor * and endCursor will surround the next character. If skipWhitespace is * true, will skip until a real character is found. Otherwise, it will * attempt to select all of the whitespace between the initial position * of endCursor and the next non-whitespace character. * @param {Cursor} startCursor On exit, points to the position before * the char. * @param {Cursor} endCursor The position to start searching for the next * char. On exit, will point to the position past the char. * @param {Array.} nodesCrossed Any HTML nodes crossed between the * initial and final cursor position will be pushed onto this array. * @param {boolean} skipWhitespace If true, will keep scanning until a * non-whitespace character is found. * @return {?string} The next char, or null if the bottom of the * document has been reached. */ TraverseUtil.getNextChar = function( startCursor, endCursor, nodesCrossed, skipWhitespace) { // Save the starting position and get the first character. startCursor.copyFrom(endCursor); var c = TraverseUtil.forwardsChar(endCursor, nodesCrossed); if (c == null) return null; // Keep track of whether the first character was whitespace. var initialWhitespace = TraverseUtil.isWhitespace(c); // Keep scanning until we find a non-whitespace or non-skipped character. while ((TraverseUtil.isWhitespace(c)) || (TraverseUtil.isSkipped(endCursor.node))) { c = TraverseUtil.forwardsChar(endCursor, nodesCrossed); if (c == null) return null; } if (skipWhitespace || !initialWhitespace) { // If skipWhitepace is true, or if the first character we encountered // was not whitespace, return that non-whitespace character. startCursor.copyFrom(endCursor); startCursor.index--; return c; } else { for (var i = 0; i < nodesCrossed.length; i++) { if (TraverseUtil.isSkipped(nodesCrossed[i])) { // We need to make sure that startCursor and endCursor aren't // surrounding a skippable node. endCursor.index--; startCursor.copyFrom(endCursor); startCursor.index--; return ' '; } } // Otherwise, return all of the whitespace before that last character. endCursor.index--; return ' '; } }; /** * Finds the previous character, starting from startCursor. Upon exit, * startCursor and endCursor will surround the previous character. * If skipWhitespace is true, will skip until a real character is found. * Otherwise, it will attempt to select all of the whitespace between * the initial position of endCursor and the next non-whitespace character. * @param {Cursor} startCursor The position to start searching for the * char. On exit, will point to the position before the char. * @param {Cursor} endCursor The position to start searching for the next * char. On exit, will point to the position past the char. * @param {Array.} nodesCrossed Any HTML nodes crossed between the * initial and final cursor position will be pushed onto this array. * @param {boolean} skipWhitespace If true, will keep scanning until a * non-whitespace character is found. * @return {?string} The previous char, or null if the top of the * document has been reached. */ TraverseUtil.getPreviousChar = function( startCursor, endCursor, nodesCrossed, skipWhitespace) { // Save the starting position and get the first character. endCursor.copyFrom(startCursor); var c = TraverseUtil.backwardsChar(startCursor, nodesCrossed); if (c == null) return null; // Keep track of whether the first character was whitespace. var initialWhitespace = TraverseUtil.isWhitespace(c); // Keep scanning until we find a non-whitespace or non-skipped character. while ((TraverseUtil.isWhitespace(c)) || (TraverseUtil.isSkipped(startCursor.node))) { c = TraverseUtil.backwardsChar(startCursor, nodesCrossed); if (c == null) return null; } if (skipWhitespace || !initialWhitespace) { // If skipWhitepace is true, or if the first character we encountered // was not whitespace, return that non-whitespace character. endCursor.copyFrom(startCursor); endCursor.index++; return c; } else { for (var i = 0; i < nodesCrossed.length; i++) { if (TraverseUtil.isSkipped(nodesCrossed[i])) { startCursor.index++; endCursor.copyFrom(startCursor); endCursor.index++; return ' '; } } // Otherwise, return all of the whitespace before that last character. startCursor.index++; return ' '; } }; /** * Finds the next word, starting from endCursor. Upon exit, startCursor * and endCursor will surround the next word. A word is defined to be * a string of 1 or more non-whitespace characters in the same DOM node. * @param {Cursor} startCursor On exit, will point to the beginning of the * word returned. * @param {Cursor} endCursor The position to start searching for the next * word. On exit, will point to the end of the word returned. * @param {Array.} nodesCrossed Any HTML nodes crossed between the * initial and final cursor position will be pushed onto this array. * @return {?string} The next word, or null if the bottom of the * document has been reached. */ TraverseUtil.getNextWord = function(startCursor, endCursor, nodesCrossed) { // Find the first non-whitespace or non-skipped character. var cursor = endCursor.clone(); var c = TraverseUtil.forwardsChar(cursor, nodesCrossed); if (c == null) return null; while ((TraverseUtil.isWhitespace(c)) || (TraverseUtil.isSkipped(cursor.node))) { c = TraverseUtil.forwardsChar(cursor, nodesCrossed); if (c == null) return null; } // Set startCursor to the position immediately before the first // character in our word. It's safe to decrement |index| because // forwardsChar guarantees that the cursor will be immediately to the // right of the returned character on exit. startCursor.copyFrom(cursor); startCursor.index--; // Keep building up our word until we reach a whitespace character or // would cross a tag. Don't actually return any tags crossed, because this // word goes up until the tag boundary but not past it. endCursor.copyFrom(cursor); var word = c; var newNodesCrossed = []; c = TraverseUtil.forwardsChar(cursor, newNodesCrossed); if (c == null) { return word; } while (!TraverseUtil.isWhitespace(c) && newNodesCrossed.length == 0) { word += c; endCursor.copyFrom(cursor); c = TraverseUtil.forwardsChar(cursor, newNodesCrossed); if (c == null) { return word; } } return word; }; /** * Finds the previous word, starting from startCursor. Upon exit, startCursor * and endCursor will surround the previous word. A word is defined to be * a string of 1 or more non-whitespace characters in the same DOM node. * @param {Cursor} startCursor The position to start searching for the * previous word. On exit, will point to the beginning of the * word returned. * @param {Cursor} endCursor On exit, will point to the end of the * word returned. * @param {Array.} nodesCrossed Any HTML nodes crossed between the * initial and final cursor position will be pushed onto this array. * @return {?string} The previous word, or null if the bottom of the * document has been reached. */ TraverseUtil.getPreviousWord = function(startCursor, endCursor, nodesCrossed) { // Find the first non-whitespace or non-skipped character. var cursor = startCursor.clone(); var c = TraverseUtil.backwardsChar(cursor, nodesCrossed); if (c == null) return null; while ((TraverseUtil.isWhitespace(c) || (TraverseUtil.isSkipped(cursor.node)))) { c = TraverseUtil.backwardsChar(cursor, nodesCrossed); if (c == null) return null; } // Set endCursor to the position immediately after the first // character we've found (the last character of the word, since we're // searching backwards). endCursor.copyFrom(cursor); endCursor.index++; // Keep building up our word until we reach a whitespace character or // would cross a tag. Don't actually return any tags crossed, because this // word goes up until the tag boundary but not past it. startCursor.copyFrom(cursor); var word = c; var newNodesCrossed = []; c = TraverseUtil.backwardsChar(cursor, newNodesCrossed); if (c == null) return word; while (!TraverseUtil.isWhitespace(c) && newNodesCrossed.length == 0) { word = c + word; startCursor.copyFrom(cursor); c = TraverseUtil.backwardsChar(cursor, newNodesCrossed); if (c == null) return word; } return word; }; /** * Finds the next sentence, starting from endCursor. Upon exit, * startCursor and endCursor will surround the next sentence. * * @param {Cursor} startCursor On exit, marks the beginning of the sentence. * @param {Cursor} endCursor The position to start searching for the next * sentence. On exit, will point to the end of the returned string. * @param {Array.} nodesCrossed Any HTML nodes crossed between the * initial and final cursor position will be pushed onto this array. * @param {Object} breakTags Associative array of tags that should break * the sentence. * @return {?string} The next sentence, or null if the bottom of the * document has been reached. */ TraverseUtil.getNextSentence = function( startCursor, endCursor, nodesCrossed, breakTags) { return TraverseUtil.getNextString( startCursor, endCursor, nodesCrossed, function(str, word, nodes) { if (str.substr(-1) == '.') return true; for (var i = 0; i < nodes.length; i++) { if (TraverseUtil.isSkipped(nodes[i])) { return true; } var style = window.getComputedStyle(nodes[i], null); if (style && (style.display != 'inline' || breakTags[nodes[i].tagName])) { return true; } } return false; }); }; /** * Finds the previous sentence, starting from startCursor. Upon exit, * startCursor and endCursor will surround the previous sentence. * * @param {Cursor} startCursor The position to start searching for the next * sentence. On exit, will point to the start of the returned string. * @param {Cursor} endCursor On exit, the end of the returned string. * @param {Array.} nodesCrossed Any HTML nodes crossed between the * initial and final cursor position will be pushed onto this array. * @param {Object} breakTags Associative array of tags that should break * the sentence. * @return {?string} The previous sentence, or null if the bottom of the * document has been reached. */ TraverseUtil.getPreviousSentence = function( startCursor, endCursor, nodesCrossed, breakTags) { return TraverseUtil.getPreviousString( startCursor, endCursor, nodesCrossed, function(str, word, nodes) { if (word.substr(-1) == '.') return true; for (var i = 0; i < nodes.length; i++) { if (TraverseUtil.isSkipped(nodes[i])) { return true; } var style = window.getComputedStyle(nodes[i], null); if (style && (style.display != 'inline' || breakTags[nodes[i].tagName])) { return true; } } return false; }); }; /** * Finds the next line, starting from endCursor. Upon exit, * startCursor and endCursor will surround the next line. * * @param {Cursor} startCursor On exit, marks the beginning of the line. * @param {Cursor} endCursor The position to start searching for the next * line. On exit, will point to the end of the returned string. * @param {Array.} nodesCrossed Any HTML nodes crossed between the * initial and final cursor position will be pushed onto this array. * @param {number} lineLength The maximum number of characters in a line. * @param {Object} breakTags Associative array of tags that should break * the line. * @return {?string} The next line, or null if the bottom of the * document has been reached. */ TraverseUtil.getNextLine = function( startCursor, endCursor, nodesCrossed, lineLength, breakTags) { return TraverseUtil.getNextString( startCursor, endCursor, nodesCrossed, function(str, word, nodes) { if (str.length + word.length + 1 > lineLength) return true; for (var i = 0; i < nodes.length; i++) { if (TraverseUtil.isSkipped(nodes[i])) { return true; } var style = window.getComputedStyle(nodes[i], null); if (style && (style.display != 'inline' || breakTags[nodes[i].tagName])) { return true; } } return false; }); }; /** * Finds the previous line, starting from startCursor. Upon exit, * startCursor and endCursor will surround the previous line. * * @param {Cursor} startCursor The position to start searching for the next * line. On exit, will point to the start of the returned string. * @param {Cursor} endCursor On exit, the end of the returned string. * @param {Array.} nodesCrossed Any HTML nodes crossed between the * initial and final cursor position will be pushed onto this array. * @param {number} lineLength The maximum number of characters in a line. * @param {Object} breakTags Associative array of tags that should break * the sentence. * @return {?string} The previous line, or null if the bottom of the * document has been reached. */ TraverseUtil.getPreviousLine = function( startCursor, endCursor, nodesCrossed, lineLength, breakTags) { return TraverseUtil.getPreviousString( startCursor, endCursor, nodesCrossed, function(str, word, nodes) { if (str.length + word.length + 1 > lineLength) return true; for (var i = 0; i < nodes.length; i++) { if (TraverseUtil.isSkipped(nodes[i])) { return true; } var style = window.getComputedStyle(nodes[i], null); if (style && (style.display != 'inline' || breakTags[nodes[i].tagName])) { return true; } } return false; }); }; /** * Finds the next paragraph, starting from endCursor. Upon exit, * startCursor and endCursor will surround the next paragraph. * * @param {Cursor} startCursor On exit, marks the beginning of the paragraph. * @param {Cursor} endCursor The position to start searching for the next * paragraph. On exit, will point to the end of the returned string. * @param {Array.} nodesCrossed Any HTML nodes crossed between the * initial and final cursor position will be pushed onto this array. * @return {?string} The next paragraph, or null if the bottom of the * document has been reached. */ TraverseUtil.getNextParagraph = function(startCursor, endCursor, nodesCrossed) { return TraverseUtil.getNextString( startCursor, endCursor, nodesCrossed, function(str, word, nodes) { for (var i = 0; i < nodes.length; i++) { if (TraverseUtil.isSkipped(nodes[i])) { return true; } var style = window.getComputedStyle(nodes[i], null); if (style && style.display != 'inline') { return true; } } return false; }); }; /** * Finds the previous paragraph, starting from startCursor. Upon exit, * startCursor and endCursor will surround the previous paragraph. * * @param {Cursor} startCursor The position to start searching for the next * paragraph. On exit, will point to the start of the returned string. * @param {Cursor} endCursor On exit, the end of the returned string. * @param {Array.} nodesCrossed Any HTML nodes crossed between the * initial and final cursor position will be pushed onto this array. * @return {?string} The previous paragraph, or null if the bottom of the * document has been reached. */ TraverseUtil.getPreviousParagraph = function( startCursor, endCursor, nodesCrossed) { return TraverseUtil.getPreviousString( startCursor, endCursor, nodesCrossed, function(str, word, nodes) { for (var i = 0; i < nodes.length; i++) { if (TraverseUtil.isSkipped(nodes[i])) { return true; } var style = window.getComputedStyle(nodes[i], null); if (style && style.display != 'inline') { return true; } } return false; }); }; /** * Customizable function to return the next string of words in the DOM, based * on provided functions to decide when to break one string and start * the next. This can be used to get the next sentence, line, paragraph, * or potentially other granularities. * * Finds the next contiguous string, starting from endCursor. Upon exit, * startCursor and endCursor will surround the next string. * * The breakBefore function takes three parameters, and * should return true if the string should be broken before the proposed * next word: * str The string so far. * word The next word to be added. * nodesCrossed The nodes crossed in reaching this next word. * * @param {Cursor} startCursor On exit, will point to the beginning of the * next string. * @param {Cursor} endCursor The position to start searching for the next * string. On exit, will point to the end of the returned string. * @param {Array.} nodesCrossed Any HTML nodes crossed between the * initial and final cursor position will be pushed onto this array. * @param {function(string, string, Array.)} breakBefore * Function that takes the string so far, next word to be added, and * nodes crossed, and returns true if the string should be ended before * adding this word. * @return {?string} The next string, or null if the bottom of the * document has been reached. */ TraverseUtil.getNextString = function( startCursor, endCursor, nodesCrossed, breakBefore) { // Get the first word and set the start cursor to the start of the // first word. var wordStartCursor = endCursor.clone(); var wordEndCursor = endCursor.clone(); var newNodesCrossed = []; var str = ''; var word = TraverseUtil.getNextWord( wordStartCursor, wordEndCursor, newNodesCrossed); if (word == null) return null; startCursor.copyFrom(wordStartCursor); // Always add the first word when the string is empty, and then keep // adding more words as long as breakBefore returns false while (!str || !breakBefore(str, word, newNodesCrossed)) { // Append this word, set the end cursor to the end of this word, and // update the returned list of nodes crossed to include ones we crossed // in reaching this word. if (str) str += ' '; str += word; nodesCrossed = nodesCrossed.concat(newNodesCrossed); endCursor.copyFrom(wordEndCursor); // Get the next word and go back to the top of the loop. newNodesCrossed = []; word = TraverseUtil.getNextWord( wordStartCursor, wordEndCursor, newNodesCrossed); if (word == null) return str; } return str; }; /** * Customizable function to return the previous string of words in the DOM, * based on provided functions to decide when to break one string and start * the next. See getNextString, above, for more details. * * Finds the previous contiguous string, starting from startCursor. Upon exit, * startCursor and endCursor will surround the next string. * * @param {Cursor} startCursor The position to start searching for the * previous string. On exit, will point to the beginning of the * string returned. * @param {Cursor} endCursor On exit, will point to the end of the * string returned. * @param {Array.} nodesCrossed Any HTML nodes crossed between the * initial and final cursor position will be pushed onto this array. * @param {function(string, string, Array.)} breakBefore * Function that takes the string so far, the word to be added, and * nodes crossed, and returns true if the string should be ended before * adding this word. * @return {?string} The next string, or null if the top of the * document has been reached. */ TraverseUtil.getPreviousString = function( startCursor, endCursor, nodesCrossed, breakBefore) { // Get the first word and set the end cursor to the end of the // first word. var wordStartCursor = startCursor.clone(); var wordEndCursor = startCursor.clone(); var newNodesCrossed = []; var str = ''; var word = TraverseUtil.getPreviousWord( wordStartCursor, wordEndCursor, newNodesCrossed); if (word == null) return null; endCursor.copyFrom(wordEndCursor); // Always add the first word when the string is empty, and then keep // adding more words as long as breakBefore returns false while (!str || !breakBefore(str, word, newNodesCrossed)) { // Prepend this word, set the start cursor to the start of this word, and // update the returned list of nodes crossed to include ones we crossed // in reaching this word. if (str) str = ' ' + str; str = word + str; nodesCrossed = nodesCrossed.concat(newNodesCrossed); startCursor.copyFrom(wordStartCursor); v // Get the previous word and go back to the top of the loop. newNodesCrossed = []; word = TraverseUtil.getPreviousWord( wordStartCursor, wordEndCursor, newNodesCrossed); if (word == null) return str; } return str; };