# what is wrong with my binary search tree validation code?

According to the definition, a Binary Tree must satisfy the following conditions:
1. The left subtree of a node contains only nodes with keys less than the the node's key.
2. The right subtree of a node contains only nodes with keys greater than the node's key.
3. Both the left and right subtrees must also be binary search trees.

My code is returning True for the input [10 ,5, 15, #, #, 6, 20] but it's incorrect, it must return False.
The input follows a level order traversal, where '#' signifies a path terminator where no node exists below.

Here is the tree:

``````         10
/  \
5   15
/  \
6    20
``````

Here is my code :

``````    # Definition for a binary tree node.
# class TreeNode(object):
#     def __init__(self, x):
#         self.val = x
#         self.left = None
#         self.right = None

def isValidBST(self, root)
"""
:type root: TreeNode
:rtype: bool
"""

if not root:
return True
else:
if root.left and root.right:
return root.left.val < root.val < root.right.val and \
self.isValidBST(root.left) and self.isValidBST(root.right)
elif root.left and not root.right:
return root.left.val < root.val and self.isValidBST(root.left)
elif root.right and not root.left:
return root.right.val > root.val and self.isValidBST(root.right)
else:
return True
``````
• Could you show what the tree is you are having an issue with in some other manner? For example, `(val left-subtree right-subtree)`? – Scott Hunter Aug 21 '15 at 14:01
• Can you show us how you convert the list to 'root' ? – Anand S Kumar Aug 21 '15 at 14:05

Consider a BST where A is the root value, B is the value at the root of its left subtree, and C is the value at the root of the right subtree under that. Your code will verify that A > B, and that B < C. But it does not check to see if A > C.

Or, from your example: It checks that 5<10, 10<15, 6<15, and 15<20, but does not check that 6>10.

Recall that the definition of a BST talks about all nodes in a subtree, not just the root.

• you are right, i was missing on that case. Thanks for your help, i really appreciate it ! :) – Subham Gaurav Aug 21 '15 at 14:13

Your algorithm doesn't implement frist two conditions properly. You should compare root value with maximum of left subtree and minimum of right subtree.

Alternatively, you can do an inorder traversal of the tree which should be in ascending order in binary search tree.

• yes, comparing root value to the max of left subtree and min of right subtree recursively would be a better approach because a root must be greater than the maximum of left subtree and smaller than the minimum of right subtree. The second approach is quite trivial also. Thank you very much for the idea :) – Subham Gaurav Aug 21 '15 at 14:25