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I recently interviewed for a frontend engineer position at Facebook. For my phone screen I was the following question: Given a node from a DOM tree find the node in the same position from an identical DOM tree. See diagram below for clarity.

 A         B

 O        O
 |\       |\
 O O      O O
  /|\      /|\
 O O O    O O O
      \        \
       O        O

Here was my solution, I was wondering what I could have done to improve/optimize it.

var rootA, rootB;

function findNodeB(nodeA) {
    // Variable to store path up the DOM tree
    var travelPath = [];

    // Method to travel up the DOM tree and store path to exact node
    var establishPath = function(travelNode) {
        // If we have reached the top level node we want to return
        // otherwise we travel up another level on the tree
        if (travelNode === rootA) {
        } else {

        // We store the index of current child in our path
        var index = travelNode.parentNode.childNodes.indexOf(travelNode);

    var traverseTree = function(bTreeNode, path) {
        if(path.length === 0) {
            return bTreeNode;
        } else {
            traverseTree(bTreeNode.childNodes[path.pop()], path);

    establishPath(rootB, nodeA);

    return traverseTree(rootB, travelPath);
share|improve this question
You didn't get the job? – alex Nov 4 '13 at 23:44
I did not - the verbal feedback during the interview was good, so I figured I must of missed something with my solution. – thedjpetersen Nov 4 '13 at 23:45
Were you asked specifically to use recursion? Iterative would be much simpler in this case. Also, we have zero information about the DOM trees/structures/element types? There is no information to work with except index position within the childNode array? – Mike Edwards Nov 4 '13 at 23:56
Well, seeing that a .childNodes collection doesn't have an indexOf() method, I would guess that would count against you pretty strongly. – Blue Skies Nov 5 '13 at 0:09
Interesting note, that got me too. However, "count against you pretty strongly" only if the interviewer is a Nazi, in a real scenario you'd find that out pretty quick and work around with – Mike Edwards Nov 5 '13 at 0:14

2 Answers 2

Since at least Axel showed interest in an iterative solution, here it is:

Given two trees which have identical structure, and a specified node within the first tree, locate the node in the second tree with the same position within the structure.

If we have no other information about the two trees then the position of each node can be characterized as a path from the root node where each step in the path is specified as an index into the childNode array.

function indexOf(arrLike, target) {
    return, target);

// Given a node and a tree, extract the nodes path 
function getPath(root, target) {
    var current = target;
    var path = [];
    while(current !== root) {
        path.unshift(indexOf(current.parentNode.childNodes, current));
        current = current.parentNode;
    return path;

// Given a tree and a path, let's locate a node
function locateNodeFromPath(root, path) {
    var current = root;
    for(var i = 0, len = path.length; i < len; i++) {
        current = current.childNodes[path[i]];
    return current;

function getDoppleganger(rootA, rootB, target) {
    return locateNodeFromPath(rootB, getPath(rootA, target));

EDIT: As Blue Skies observed, childNodes doesn't have .indexOf(). Updating with

share|improve this answer
Nice, while we're code reviewing - there is no point in caching path.length since it's an array and not a NodeList so accessing .length is O(1) – Benjamin Gruenbaum Nov 5 '13 at 1:25
Two years later, shouldn't this be using current.parentNode.children since .children will return only HTML elements? It would appear that a call to childNodes contains more than just HTML elements – Morklympious Oct 21 at 18:39

I would traverse the two trees in parallel and when I got to the node in treeA return the parallel node.

share|improve this answer
Don't you think that is inefficient? When you traverse to the node, you will come across branches that you will have to unnecessarily check, making the algorithm inefficient (imagine your node being in branch B, and branch A having 1000s of children/grandchildren). Rather if you traverse from the node to the root, this will be efficient. – Om Shankar Aug 5 at 21:20

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