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I am trying to calculate height of a tree. I am doint with the code written below.


struct tree
    int data;
    struct tree * left;
    struct tree * right;

typedef struct tree tree;

class Tree
    int n;
    int data;
    int l,r;
    tree * Root;
    Tree(int x)
    void create();
    int height(tree * Height);


void Tree::create()
    //Creting the tree structure

int Tree::height(tree * Height)
    if(Height->left==NULL && Height->right==NULL)
    {return 0;

        if (l>r)
        return l;
            return r;

int main()
    Tree A(10);//Initializing 10 node Tree object
    A.create();//Creating a 10 node tree

    cout<<"The height of tree"<<A.height(A.Root);*/


It gives me corret result. But in some posts(googled page) It was suggested to Do a Postorder traversal and use this height method to calculate the Height. Any specific reason?

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Tip: the code must all be indented with at least 4 spaces, otherwise the board doesn't recognize it as code. –  Matteo Italia Feb 17 '10 at 8:13
Can you post a link to the page? –  dirkgently Feb 17 '10 at 8:13
Bah, I spent a few minutes trying to figure out what was wrong with the code. Then I reach the end of the question and discover the remark that "It gives me the correct result". >.< –  Mizipzor Feb 17 '10 at 8:15
@Sandeep: I just fixed the indentation/formatting for you. Your edit undid the whole change. Please make sure that you preserve the helpful edits. –  dirkgently Feb 17 '10 at 8:19
@dirkgently: Thanks –  Sandeep Feb 17 '10 at 8:29

4 Answers 4

up vote 10 down vote accepted

But isn't a postorder traversal precisely what you are doing? Assuming left and right are both non-null, you first do height(left), then height(right), and then some processing in the current node. That's postorder traversal according to me.

But I would write it like this:

int Tree::height(tree *node) {
    if (!node) return -1;

    return 1 + max(height(node->left), height(node->right));

Edit: depending on how you define tree height, the base case (for an empty tree) should be 0 or -1.

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so do you think if i change the order, first right tree hiegnt and then left tree height(recursive) the result will be different? –  Sandeep Feb 17 '10 at 8:26
@Sandeep: Changing the order doesn't change the result. Changing the definition of height of an empty node will. –  Mizipzor Feb 17 '10 at 8:28
+1 for providing a much simpler implementation. –  Mizipzor Feb 17 '10 at 8:29
Sandeep: Doing the right tree first and then left would still be post-order. Post-order means you process the current node after (post) you process the children. In this case, post-order is the only alternative as it would be impossible to determine the height as seen from a node without looking at the heights of the children first. See en.wikipedia.org/wiki/Tree_traversal if you feel unsecure about tree traversal orders. –  Hans W Feb 17 '10 at 8:31
Thanks Hans...In all the documents I always got Traverse the left subtree. Traverse the right subtree. Visit the root. So I always had in back of my mind that left is traversed before right but otherwise is also true. I am clear now as the only requirement for postorder is that child is traversed after children(left right order doesnt matter) –  Sandeep Feb 17 '10 at 8:47

Definitions from wikipedia.

Preorder (depth-first):

  1. Visit the root.
  2. Traverse the left subtree.
  3. Traverse the right subtree.

Inorder (symmetrical):

  1. Traverse the left subtree.
  2. Visit the root.
  3. Traverse the right subtree.


  1. Traverse the left subtree.
  2. Traverse the right subtree.
  3. Visit the root.

"Visit" in the definitions means "calculate height of node". Which in your case is either zero (both left and right are null) or 1 + combined height of children.

In your implementation, the traversal order doesn't matter, it would give the same results. Cant really tell you anything more than that without a link to your source stating postorder is to prefer.

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link is : dreamincode.net/forums/showtopic14533.htm –  Sandeep Feb 17 '10 at 8:30
I cant see any specific reason for using such a postorder traversal. Maybe the user just considers postorder the default if youre unsure? Or he felt that "do a traversal" was to vague? –  Mizipzor Feb 17 '10 at 8:47

The code will fail in trees where at least one of the nodes has only one child:

// code snippet (space condensed for brevity)
int Tree::height(tree * Height) {
    if(Height->left==NULL && Height->right==NULL) { return 0; }
    else {

If the tree has two nodes (the root and either a left or right child) calling the method on the root will not fulfill the first condition (at least one of the subtrees is non-empty) and it will call recursively on both children. One of them is null, but still it will dereference the null pointer to perform the if.

A correct solution is the one posted by Hans here. At any rate you have to choose what your method invariants are: either you allow calls where the argument is null and you handle that gracefully or else you require the argument to be non-null and guarantee that you do not call the method with null pointers.

The first case is safer if you do not control all entry points (the method is public as in your code) since you cannot guarantee that external code will not pass null pointers. The second solution (changing the signature to reference, and making it a member method of the tree class) could be cleaner (or not) if you can control all entry points.

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David. I tested with 3 4 5 6 7 and it gave result as 4. Where do you see problem. –  Sandeep Feb 17 '10 at 13:48
Assume that you have two nodes, Root and one to the right. You call height in Root, as right is not null it enters the else branch, that will call l=height(Height->left);. That recursive call receives a null pointer and tries to dereference it in the if to check whether Height->left is null. Dereferencing a null pointer (Height in the recursive call is null) yields undefined behavior and in most cases the application death. –  David Rodríguez - dribeas Feb 17 '10 at 14:09

The height of the tree doesn't change with the traversal. It remains constant. It's the sequence of the nodes that change depending on the traversal.

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