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Okay. I have a binary tree, and this is what I want to do with it:

For each node in original tree: If it's not a leaf, replace it with a leaf node. Do a calculation on the original tree updated with the removed branch. Revert the node back to how it was (so now the tree is the same as at the beginning).

The problem is this: I am traversing the tree using a stack. If I change the stack.pop() node to a leaf, this does NOT remove any branches in the original tree. It's the same reasoning behind why you can do:

int x=1
int y=x

And x still equals 1. There's a technical term for this but I forgot it.

So how can I edit the nodes in an original tree and still traverse it?

This is basically what I'm doing to traverse the tree right now:

public void iterativePreorder(Node root) {
        Stack nodes = new Stack();

        Node currentNode;

        while (!nodes.isEmpty()) {
                currentNode = nodes.pop();
                Node right = currentNode.right();
                if (right != null) {
                Node left = currentNode.left();
                if (left != null) {
                //This is where you do operations on the currentNode
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1 Answer 1

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From what I can tell from your question, for every Node you want to calculate something about the tree as if that node was a leaf.

To do this there is no reason to actually make that node a leaf and then reattach it. Instead, your logic can simply remember which node to treat as a leaf for each computation.

Traverse the tree, and for each Node, let's call it outerCurrentNode, once again traverse the tree doing your calculation - but now for each Node, let's call it innerCurrentNode, test to see if outerCurrentNode == innerCurrentNode. If the test returns true, treat that innerCurrentNode as if it's a leaf, ignoring its children.

EDIT: Here's a mock up of what I'm suggesting (untested):

//entry point - called from directing code
public void iterativePreorder(Node root) {
   iterativePreorderKernel(root, root);

//recursive method - keeps track of root in addition to current Node
private void iterativePreorderKernel(Node root, Node current) {

    if (current.left() != null) {
        iterativePreorderKernel(root, current.left());
    if (current.right() != null) {
        iterativePreorderKernel(root, current.right());

    //for each Node in the tree, do calculations on the entire tree, pretending
    //the current Node is a leaf
    doCalculation(root, current);

//calculation method (also recursive) - takes a current Node, plus
//the Node to treat as a leaf
public void doCalculation(Node innerCurrent, Node pretendLeaf) {

   //do calculation with inner current node

   if (innerCurrent != pretendLeaf) {
      if (innerCurrent.left() != null) {
         doCalculation(innerCurrent.left(), pretendLeaf);
      if (innerCurrent.right() != null) {
         doCalculation(innerCurrent.right(), pretendLeaf);

I'm using recursion instead of a Stack, but either will work. iterativePreorder() does a traversal, calling doCalculation() for each Node, passing it in along with the root (to keep track of the entire tree). That method then does its own traversal, doing your calculation, but stopping short when it reaches the specially marked Node.

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I don't know if it will be feasible to do that. After I change the node to a leaf, I need to pass the entire tree to another method, and it seems very difficult to just treat the node as a leaf when I do that. Then I reattach the children (I was doing this by storing currentNode in a temp variable, removing the children, and then setting currentNode equal to the temp variable). Hope that makes sense. –  smcg Sep 22 '11 at 3:41
@smcg - It shouldn't matter. Pass a reference to the current node into whatever method is doing the inner traversal/calculation, and it can do the same check. Let me know if you need a code example. –  Paul Bellora Sep 22 '11 at 4:23
@smcg - Also, just wondering why you're using a Stack instead of recursion to traverse? –  Paul Bellora Sep 22 '11 at 4:41
Um, I'm using a stack because it just seemed like the easiest way to do it. I could try with recursion. –  smcg Sep 22 '11 at 4:55
I have another problem which may or may not be related to this one... if I check the size of the tree at "root right" before the while loop, it gives the proper size... but if I check the size of "root" at the top of the while loop, it says the size is 1 (except on the first iteration). Any idea why this would be? –  smcg Sep 22 '11 at 4:57
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