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I'm reading the Cormen algorithms book (binary search tree chapter) and it says that there are two ways to traverse the tree without recursion:

using stack and a more complicated but elegant solution that uses no stack but assumes that two pointers can be tested for equality

I've implemented the first option (using stack), but don't know how to implement the latter. This is not a homework, just reading to educate myself.

Any clues as to how to implement the second one in C#?

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up vote 5 down vote accepted

Sure thing. You didn't say what kind of traversal you wanted, but here's the pseudocode for an in-order traversal.

t = tree.Root;
while (true) {
  while (t.Left != t.Right) {
    while (t.Left != null) {   // Block one.
      t = t.Left;
    if (t.Right != null) {     // Block two.
      t = t.Right;

  while (t != tree.Root && (t.Parent.Right == t || t.Parent.Right == null)) {
    t = t.Parent;
  if (t != tree.Root) {        // Block three.
    t = t.Parent.Right;
  } else {

To get pre- or post-order, you rearrange the order of the blocks.

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you start of with a while(true), yet I see no break nowhere? – Toad Feb 26 '10 at 9:13
@reinier: Whoops! Good catch. You need to break if you're not at the root in the last step. Fixed. – John Feminella Feb 26 '10 at 16:12
still impressed with the algorithm. Especially if you did this of the top of your head. +1 – Toad Feb 26 '10 at 16:14
Well, someone should probably test this to make sure it's right. ;) – John Feminella Feb 26 '10 at 16:22

Assuming that the nodes in the tree are references and the values are references, you can always call the static ReferenceEquals method on the Object class to compare to see if the references for any two nodes/values are the same.

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This part I know, what I don't know is the rest, the 'traversal' part – VVV Feb 26 '10 at 8:42

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