snapshot of treesome.js before deletion
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1 changed files with 52 additions and 92 deletions
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@ -1,9 +1,10 @@
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define([], function () {
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var tree = {};
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tree.some = function (branch, predicate) {
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// take the index of the last element in the current branch
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var last = branch.childElementCount - 1;
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// FIXME this isn't being used
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var someElement = tree.some = function (root, predicate) {
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// take the index of the last element in the current root
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var last = root.childElementCount - 1;
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// it might be a leaf node
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if (last < 0) { return false; }
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@ -14,12 +15,12 @@ define([], function () {
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// check the node's children (depth first)
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// if the predicate tests true, return true
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if (tree.some(branch.children[last], predicate)) {
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if (tree.some(root.children[last], predicate)) {
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return true;
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} // otherwise none of the nodes inside it matched.
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// check the node itself
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if (predicate(branch.children[last], last)) {
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if (predicate(root.children[last], last)) {
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return true;
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}
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last--;
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@ -27,9 +28,10 @@ define([], function () {
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return false;
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};
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tree.someIncludingText = function (branch, predicate) {
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// take the index of the last element in the current branch
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var last = branch.childNodes.length - 1;
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// FIXME this isn't being used
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var someText = tree.someIncludingText = function (root, predicate) {
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// take the index of the last element in the current root
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var last = root.childNodes.length - 1;
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// it might be a leaf node
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if (last < 0) { return false; }
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@ -40,12 +42,12 @@ define([], function () {
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// check the node's children (depth first)
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// if the predicate tests true, return true
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if (tree.someIncludingText(branch.childNodes[last], predicate)) {
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if (tree.someIncludingText(root.childNodes[last], predicate)) {
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return true;
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} // otherwise none of the nodes inside it matched.
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// check the node itself
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if (predicate(branch.childNodes[last], last)) {
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if (predicate(root.childNodes[last], last)) {
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return true;
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}
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last--;
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@ -53,6 +55,7 @@ define([], function () {
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return false;
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};
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// FIXME not being used
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tree.findSameHierarchy = function (list, ancestor) {
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var i = 0;
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var success = true;
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@ -90,117 +93,74 @@ define([], function () {
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return Array.prototype.indexOf.call(el.parentNode.childNodes, el);
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};
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var siblingCount = tree.siblingCount = function (el) {
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return el.parentNodes.childNodes.length;
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// not being used internally, but is useful externally
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tree.contains = function (el, root) {
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return el && root.contains && root.contains(el);
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};
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var deepestNode = tree.deepestNode = function (el) {
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var deepest = el.childNodes.length;
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if (!deepest) { // no children
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var siblingCount = tree.siblingCount = function (el) {
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return el.parentNode.childNodes.length;
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};
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var childCount = tree.childCount = function (el) {
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return el.childNodes.length;
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};
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var parentsOf = tree.parentsOf = function (el, root) {
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var P = [];
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var p = el;
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while (p !== root) { P.push((p = p.parentNode)); }
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return P;
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};
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/* rightmost and leftmost return the deepest right and left
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leaf nodes of a tree
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*/
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var rightmostNode = tree.rightmostNode = function (el) {
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var childNodeCount = childCount(el);
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if (!childNodeCount) { // no children
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return el; // return the element
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} else {
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return deepestNode(el.childNodes[deepest - 1]);
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return rightmostNode(el.childNodes[childNodeCount - 1]);
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}
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};
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var leftMostNode = tree.leftMostNode = function (el) {
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var left = el.childNodes[0];
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if (el.childNodes.length) {
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return leftMostNode(el.childNodes[0]);
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var leftmostNode = tree.leftmostNode = function (el) {
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if (childCount(el)) {
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return leftmostNode(el.childNodes[0]);
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} else {
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return el;
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}
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};
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/* previousNode and nextNode traverse child elements of the dom
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in the order in which they appear when selected by a cursor.
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in particular, these algorithms traverse text nodes, not just tags
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*/
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var previousNode = tree.previousNode = function (el, root) {
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if (!el || el === root) { return null; }
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var i = indexOfNode(el);
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if (!el.parentNode) { return null; }
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if (i === 0) {
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if (root && el.parentNode === root.childNodes[0]) { return null; }
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return deepestNode(previousNode(el.parentNode));
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return rightmostNode(previousNode(el.parentNode));
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} else {
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return el.parentNode.childNodes[i-1];
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return rightmostNode(el.parentNode.childNodes[i-1])
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}
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};
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/* includes text elements */
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var nextNode = tree.nextNode = function (el, root) {
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if (!el || el === root) {
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return null;
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}
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if (!el || el === root) { return null; }
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var i = indexOfNode(el) + 1, // the index of the next node
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l = el.parentNode.childNodes.length;
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l = siblingCount(el);
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if (i === l) { // out of bounds
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return leftMostNode(nextNode(el.parentNode, root));
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if (el.parentNode === root) { return null; }
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return nextNode(el.parentNode, root);
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} else {
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return el.parentNode.childNodes[i];
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return leftmostNode(el.parentNode.childNodes[i], root);
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}
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};
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tree.recoverElement = function (el, root) {
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var tags = tree.tagsUntilElement(el, root);
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var found = tree.findSameHierarchy(tags, root);
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var isSame = found === el;
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console.log("found an equivalent node: %s", isSame);
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return found;
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};
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tree.tagsUntilElement = function (el, ancestor) {
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var list = [];
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tree.someIncludingText(ancestor, function (e, index) {
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list.push(e.tagName||e.nodeName);
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return e === el;
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});
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return list;
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};
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tree.distanceFromEnd = function (el, ancestor) {
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var i = 0, success = false;
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// FIXME can't be trusted if element is not found.
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tree.some(ancestor, function (e, index) {
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++i;
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return e === el;
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});
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return i;
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};
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tree.nthFromEnd = function (n, ancestor) {
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var el = false, i = 0;
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tree.some(ancestor, function (e) {
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if (i > n) {
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// terminate
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return true;
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} else {
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if (++i === n) {
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el = e;
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return true;
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} else {
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return false;
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}
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}
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});
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return el;
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};
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tree.contains = function (el, ancestor) {
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return el && ancestor.contains && ancestor.contains(el);
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};
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tree.check = function (el, ancestor) {
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return tree.nthFromEnd(tree.distanceFromEnd(el, ancestor), ancestor) === el;
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};
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// TODO see if we can use this
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tree.getNext = function (node, parent) {
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if (node.firstChild) { return node.nextSibling; }
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do {
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if(node.nextSibling) { return node.nextSibling; }
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node = node.parentNode;
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} while (node && node !== parent);
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};
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return tree;
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});
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