# Recursively searching binary tree issue

I have written the below code for recursively searching binary tree . Even though my system.out statement is getting executed , the return statement is not returning out of entire recursion and thus this method not returning true.

Can anyone suggest how can I return out of entire recursion.?

``````public static boolean isElementinTree(int num, BinaryTreeNode root)
{
if (root != null)
{
int rootVal = root.getData();
BinaryTreeNode left = root.getLeft();
BinaryTreeNode right = root.getRight();
if (left != null)
{
isElementinTree(num,left);

}
if (right != null)
{
isElementinTree(num,right);
}
if (num == rootVal)
{
System.out.println("------ MATCH -----");
return true;
}
}
return false;
}
``````
-
I think you should first check if the data in the node matches and only if it doesn't, you should move to the left or to the right subtree. –  Radu Murzea Aug 7 '12 at 13:52

This is the problem:

``````if (left != null)
{
isElementinTree(num,left);

}
if (right != null)
{
isElementinTree(num,right);
}
``````

You're calling the method in those cases - but ignoring the result. I suspect you just want to change each of those to return immediately if it's found:

``````if (left != null && isElementinTree(num, left))
{
return true;
}
if (right != null && isElementinTree(num, right))
{
return true;
}
``````

Or to make the whole thing more declarative, you can do it more simply:

``````public static boolean isElementinTree(int num, BinaryTreeNode root)
{
return root != null && (root.getData() == num ||
isElementInTree(num, root.getLeft()) ||
isElementInTree(num, root.getRight()));
}
``````

It's fine to call `isElementInTree` with a null second argument, as you're already protecting against that with the first part.

-
that would never return `true` for elements in the right half of the tree –  Claudiu Aug 7 '12 at 13:52
That would only search the first branch, or am I missing something? –  pcalcao Aug 7 '12 at 13:52
Was fixing - check now :) –  Jon Skeet Aug 7 '12 at 13:54
Yep, that'll do the trick. –  pcalcao Aug 7 '12 at 13:55
I'd say the three line version is more readable as it captures the essence of the algorithm precisely - the value you are looking for is in the tree if it matches the root node, or is in the left subtree, or is in the right subtree. –  Ian Roberts Aug 7 '12 at 14:01

You need to check if the value is in one of the branches, and save that result.

Initialize a variable `boolean found = false;`.

When you do the recursive call, you need to do something like:

``````found = isElementinTree(num,left)
``````

same thing for the right side.

At the end, instead of returning false, check if the value was found on a branch, simply `return found;`

Also, first check if the number you are looking for isn't on the Node itself, instead of searching each branch first. Simply switch the order of the if's.

-

If you do find the element you're looking for in the left or right subtrees you need to return this fact back up to the caller:

``````    if (left != null)
{
if(isElementinTree(num,left)) return true;
}
if (right != null)
{
if(isElementinTree(num,right)) return true;
}
``````

Only if you find it in none of the left tree, right tree and current node do you eventually fall through to the final `return false`.

-

Recursion solution:

``````boolean isElementinTree (int num, BinaryTreeNode root)
{
if(root == null)
return false;

if(root.value == num)
return true;

boolean n1 = isElementinTree(num,root.getLeft());
boolean n2 = isElementinTree(num,root.getRight());

return n1 ? n1 : n2;

}
``````
-