Implement a function to check if a binary tree is balanced (i.e. no two nodes differ in height from the root by more than 1).


int maxDepth(Node *root)
   if(!root) return 0;

   return 1 + max(maxDepth(root->left), maxDepth(root->right));
int minDepth(Node *root)
   if(!root) return 0;

   return 1 + min(minDepth(root->left), minDepth(root->right));
bool isBalanced(Node *root)
   return maxDepth(root)-minDepth(root) <= 1;

Can someone help me understand the intuition behind this solution? I'm struggling to "see" the recursion behind tree algorithms. I know that maxDepth and minDepth are supposed to find the height of the node of maximum depth and minimum depth in the tree, respectively, but I don't understand how the recursion works to do that.

More importantly, I don't quite know how I could come up with this solution on my own. So any tips as to how to approach tree problems in general would be greatly appreciated.

  • Are you starting to learn with recursion with tree algorithms? – austin wernli Dec 22 '14 at 21:05
  • @austinwernli yes – Bob John Dec 22 '14 at 21:07
  • Ouch. You should try easing your way into thinking recursively. Try some problems from They will help you understand it better. – austin wernli Dec 22 '14 at 21:09
  • you try to understand two concepts at once: one not that simple: trees and one complicated: recursion. You should tackle them separately – bolov Dec 22 '14 at 21:10
  • But do remember, every recursive solution has an iterative counterpart and vice versa. – austin wernli Dec 22 '14 at 21:13

The best way to understand is look at the example:

  / \
 b   c
    / \
   d   e

when you call maxDepth on root node 'a' what will the following code do?

return 1 + max(maxDepth(root->left), maxDepth(root->right));

it will return 1 + max of maxDepth('b') or maxDepth('c')

maxDepth('b') will return 1 because:

1 + max( maxDepth(NULL), maxDepth(NULL) ) = 1 + (max (0,0)) = 1 + 0 = 0;

the above gets NULLs from 'b'->left and 'b'->right

so, getting back to maxDepth('a') now we know that it returns:

maxDepth('a') = 1 + max( 1, maxDepth('c'));

maxDepth('c') will follow the same steps and return 2. Hence:

maxDepth('a') = 1 + max( 1, 2 ) = 1 + 2 = 3

for minDepth() the flow is the same with the only difference in using min() instead of max().

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