Try to write iterative versions of pre-order, in-order, and post-order binary traversal methods. You will then see the pattern or methodology of converting their corresponding recursive versions into the iterative versions.

Key point is sticking to some basic rules:

- Use node selection (e.g., currentNode = currentNode->Left before reiterating the loop, etc.) for immediate node traversal.

- Use stack to remember nodes that need to be visited or revisited later.

- If a node need to be "REvisited," detecting / keeping the state so that you can indicate whether the next node needs to be "processed" in next iteration or one of more of the child nodes should be visited before the node can be processed.

If you stick to these rules, you can esily accomplish the tasks.

Here is an example of the iterative post-order traversal. Ignore BinarySearchTree - it works for any binary trees.

```
public static IEnumerator<BinarySearchTreeNode<T>> GetPostOrderTraverseEnumerator(BinarySearchTreeNode<T> root)
{
if (root == null)
{
throw new ArgumentNullException("root");
}
Stack<BinarySearchTreeNode<T>> stack = new Stack<BinarySearchTreeNode<T>>();
BinarySearchTreeNode<T> currentNode = root;
// If the following flag is false, we need to visit the child nodes first
// before we process the node.
bool processNode = false;
while (true)
{
// See if we need to visit child nodes first
if (processNode != true)
{
if (currentNode.Left != null)
{
// Remember to visit the current node later
stack.Push(currentNode);
if (currentNode.Right != null)
{
// Remember to visit the right child node later
stack.Push(currentNode.Right);
}
// Visit the left child
currentNode = currentNode.Left;
continue;
}
else if (currentNode.Right != null)
{
// Remember to visit the current node later
stack.Push(currentNode);
// Visit the right child
currentNode = currentNode.Right;
continue;
}
}
// Process current node
yield return currentNode;
// See if we are done.
if (stack.Count == 0)
{
break;
}
// Get next node to visit from the stack
BinarySearchTreeNode<T> previousNode = currentNode;
currentNode = stack.Pop();
// See if the next node should be processed or not
// This can be determined by the fact that either of the current node's child nodes
// has just been processed now.
processNode = (previousNode == currentNode.Left || previousNode == currentNode.Right);
}
}
```

syntacticallyrecursive because it isemulatingrecursion with PUSH and POP. – RBarryYoung Sep 30 '09 at 17:44