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Can anyone give me a solution for traversing a binary tree in inorder without recursion and without using a stack?

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A threaded binary tree? – Martin Smith Apr 7 '10 at 18:42
if you'll be able to do it, it won't be binary tree – vittore Apr 7 '10 at 18:46
Isn't this a homework? Does a counter count as stack in your case? – Gabriel Ščerbák Apr 7 '10 at 18:53
@Jim Lewis I didn't know this, thanks – stacker Apr 7 '10 at 19:06

5 Answers 5

up vote 4 down vote accepted

Second edit: I think this is right. Requires node.isRoot, node.isLeftChild, and node.parent, in addition to the usual node.left_child and node.right_child.

state = "from_parent"
current_node = root
while (!done)
  switch (state)
    case "from_parent":
      if current_node.left_child.exists
        current_node = current_node.left_child
        state = "from_parent"
        state = "return_from_left_child"
    case "return_from_left_child"
      if current_node.right_child.exists
        current_node = current_node.right_child
        state = "from_parent"
        state = "return_from_right_child"
    case "return_from_right_child"
      if current_node.isRoot
        done = true
        if current_node.isLeftChild
         state = "return_from_left_child"
         state = "return_from_right_child"
        current_node = current_node.parent
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I'm fairly certain this is going to have problems with trees of depth > 2. – Daniel Spiewak Apr 7 '10 at 19:04
You beat me to it. But note that this works only if the field node.parent exists, that is if the node knows its parent. This is permitted, but not required, by the definition of a binary tree. – Beta Apr 7 '10 at 19:04
If you have node.parent, you don't need node.isRoot. Also, I think you can do without node.isLeftChild. – Beta Apr 7 '10 at 20:07
@Danial: No this works just fine – lalitm Oct 29 '10 at 15:59
@mbeckish incredible especially if this came right from the top of your head – Bazooka Jan 27 '12 at 12:30

Since traversing a binary tree requires some kind of state (nodes to return after visiting successors) which could be provided by stack implied by recursion (or explicit by an array).

The answer is no, you can't. (according to the classic definition)

The closest thing to a binary tree traversal in an iterative way is probably using a heap

EDIT: Or as already shown a threaded binary tree ,

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A threaded tree would seem to meet Gogu's requirements. – Jim Lewis Apr 7 '10 at 19:01

Yes, you can. In order to do this, you would require a parent pointer in order to ascend the tree.

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Start with tree_first(), continue with tree_next() until get NULL. Full code:

struct node {
    int value;
    node *left;
    node *right;
    node *parent;

node *tree_first(node *root) {
    while(root && root->left)
        root = root->left;
    return root;

node *tree_next(node *p) {
        return tree_first(p->right);
    while(p->parent) {
        if(!p->parent->right || p->parent->right != p)
            return p->parent;
        else p = p->parent;
    return 0;
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As someone here already stated, it is possible, but not without the parent pointer. The parent pointer basically allows you to traverse "the path" if you want, and therefore print-out the nodes. But why does recursion works without parent pointer? Well if you understand recursion it goes something like this(imagine the recursion stack):

  recursion //going into
     recursion //going back up

So when the recursion ends you then have printed the chosen side of the binary tree in reversed order.

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