# Binary search Tree balanced working for getting height

I know this is pretty straight forward code but wondering how exactly the internal working is.

``````public static int getHeight(TreeNode root) {
if (root == null) {
return 0;
}
System.out.print(getHeight(root.left) +"\t");
return Math.max(getHeight(root.left), getHeight(root.right)) + 1;
}
``````

For my understanding, I added print statement but it results the following.

printing root.left() prints this: `0 0 0 1 0 0 0`

printing root.right() prints this: `0 0 2 0 0 3 0 0 2 0 0 0 1 0`

Following is the Tree created in the main program:

``````TreeNode parent = new TreeNode(10);

parent.insertInOrder(2);
parent.insertInOrder(13);
parent.insertInOrder(5);
parent.insertInOrder(6);
parent.insertInOrder(15);
parent.insertInOrder(6);
``````

How is this printing the above result and how is it working. If anyone can explain me with the above example, it would really help me.

I know how traversals work and how to print the tree but I really want to understand the above output. If anyone can help then it would be great.

``````void setLeftChild(TreeNode left)
{
this.left = left;
if(left == null)
{
left.parent = this;
}
}

void setRightChild(TreeNode right)
{
this.right = right;
if(right == null)
{
right.parent =  this;
}
}

void insertInOrder(int d)
{
if(d <= data)
{
if(left == null)
{
setLeftChild(new TreeNode(d));
}
else
{
left.insertInOrder(d);
}
}
else{
if(right == null)
{
setRightChild(new TreeNode(d));
}
else{
right.insertInOrder(d);
}
}
size++;
}
``````
-
is the tree balanced? How does `insertInOrder` work? – arunmoezhi May 2 '14 at 7:05
@arunmoezhi posted – fscore May 2 '14 at 7:13
is `size` a global variable? And are you doing any balancing here or is it an unbalanced bst? As a side note, do insertion using an iterative code. Try to avoid recursion if you can. They are slow. – arunmoezhi May 2 '14 at 7:34
m trying balancing the bst and size isnt global – fscore May 2 '14 at 7:45
what part of the code does the balance? If size isn't global how will its value propagate in the recursive calls. You have to pass it in the recursive function as a parameter. – arunmoezhi May 2 '14 at 8:12

You should create a function that outputs information about the tree. For example, this function does a preorder traversal, showing information about each node:

``````public static void ShowTree(TreeNode root, TreeNode parent, depth)
{
if (root == null) return;

// output 'depth' spaces.
// The indentation will help show the structure of the tree.

// output node value, and parent (if parent not null)

// Traverse the left node
ShowTree(root.left, root, depth+1);

// Traverse the right node
ShowTree(root.right, root, depth+1);
}
``````

Call that function with `ShowTree(tree, null, 0)`. The resulting output will show the structure of the tree, and you can determine if the tree is balanced. It's a useful thing to have when you're developing tree code because you can do an insert, for example, then call `ShowTree` to see if the insert worked as expected.

## Update

The code's output is a little strange because your `print` statement results in a recursive call. So every node below the current node ends up getting printed multiple times.

I think you want to do this:

``````int leftHeight = getHeight(root.left);
int rightHeight = getHeight(root.right);
// now output output leftHeight or rightHeight, or both
return Math.max(leftHeight, rightHeight) + 1;
``````

That way you won't get the multiple recursive calls that produce the strange output.

The reason you're seeing those extra recursive calls is because you're calling `getHeight(root.left)` twice. Let's say your tree looks like this:

``````       root
/
child
/
grandchild
``````

So you call `getHeight(root)`. Then:

``````getHeight(child) is called in your print statement
getHeight(grandchild) is called in your print statement
getHeight(null) is called in your print statement
getHeight(grandchild) prints 0
getHeight(null) is called twice (once for the left node and once for the right node) in the return statement
getHeight(grandchild) returns 1
getHeight(child) prints 1
getHeight(grandchild) is called in the return statement
getHeight(null) is called in your print statement
getHeight(grandchild) prints 0
getHeight(grandchild) returns 1
getHeight(null) (the right node) is called in the return statement
...
``````

You see where the problem is? `getHeight(grandchild)` is called again! Every time your `print` statement calls `getHeight`, it has to walk every descendant node. So the height of every node is output multiple times. The deeper the node is in the tree, the more often it will be output.

The change I suggested in my update above prevents that by ensuring that no node is visited more than once.

-
well i do understand traversals and printing but i wanted to understand the code and output above and hw its wrkin – fscore May 2 '14 at 14:10
Would you be able to explain how recursion is working and why are there multiple recursive calls? There are 4 nodes on left side of the tree and 2 on right so there should be total 6 recursive cALLS together right? – fscore May 3 '14 at 1:29
@fscore: See my latest update. I suggest that you single-step your code in the debugger so that you can see what's happening. – Jim Mischel May 3 '14 at 2:42
so your preorder traversal also counts the depth while traversing which makes it easy to know the depth of the tree and if difference in heights is <=1 then its balanced. But in main program how would I check if both depths are equal since the variable is in the method? – fscore May 3 '14 at 4:07