# How to find sum of node's value for given depth in binary tree?

I've been scratching my head for several hours for this...

problem:

``````Binary Tree

(0)      depth 0
/ \
10   20   depth 1
/ \   / \
30 40  50 60  depth 2
``````

I am trying to write a function that takes depth as argument and return the sum of values of nodes of the given depth.

For instance, if I pass 2, it should return 180 (i.e. 30+40+50+60)

I decided to use breath first search and when I find the node with desired depth, sum up the value, but I just can't figure out how to find out the way which node is in what depth. But with this approach I feel like going to totally wrong direction.

``````function level_order(\$root, \$targetDepth) {
\$q = new Queue();
\$q->enqueue(\$root);

while(!\$q->isEmpty) {
//how to determin the depth of the node???
\$node = \$q->dequeue();

if(\$currentDepth == \$targetDepth) {
\$sum = \$node->value;
}

if(\$node->left != null) {
\$q->enqueue(\$node->left);
}
if(\$node->right != null) {
\$q->enqueue(\$node->right);
}
//need to reset this somehow
\$currentDepth ++;
}
``````

}

-

Just do a depth-first search recursively, keep the current level and sum the nodes at given depth.

The pseudocode:

``````sum(Node, Level) =
if (Level == 0) return Node.value;
else return f(Node.left, Level-1) +
f(Node.right, Level-1).
``````
-
There is no point in having an accumulator in your function. It never changes. –  danben Jun 11 '10 at 4:45
I tested the code it works! But I haven't really figure what's going on (recursion is killing me), I'm going back to whiteboard and simulate the process.. thanks for the tip! –  masato-san Jun 11 '10 at 4:49
@danben: +1, thanks for the comment; you are right, I was thinking of a more compicated problem first and Sum is an unneeded artifact. –  Igor Krivokon Jun 11 '10 at 5:47
@masato-san: please check the updated (simpler) version; as danben pointed out, the Sum parameter was unneeded, I removed it. –  Igor Krivokon Jun 11 '10 at 5:47
@masato-san You can avoid recursion, actually. Take a look at my answer for more details. –  Abody97 Dec 14 '11 at 13:42

With recursion it will be easy:

``````int calc_sum(node, depth)
{
if (depth > 0)
{
sum = 0
for every children n of node
sum += calc_sum(n, depth -1)
return sum
}
else
return node.value
}
``````

this will compute the partial sum at depth `d` of a tree `t` as the sum of values of `t.children` at depth `d-1`. Like you were wondering you bring the remaining depth together with the subtree you are calculating as a parameter.

If you want a more efficient solution you can use dynamic programming to resolve this problem in an iterative way.

-

You can actually avoid recursion, and still use a Breadth-First Search. The way to do that, is keeping the level (depth) of each node. Initially, you just set the root's level to be 0. Now, while doing the BFS, when you move from a node `u` to a node `v`, you set `depth[v] = depth[u] + 1`. To keep the depth, you either use a regular array, or add use another extra element in the BFS queue. Here is pseudocode of a function that finds the sum of values of nodes at depth `d` in a binary tree with `n` nodes, where I added another element to the queue to represent the depth:

``````int findSum(d) {

ans = 0;
q = new Queue(); //define the queue
q.push(root, 0); //insert the root, which has depth 0.

while(! q.empty()) {
current_node = q.top().first, current_depth = q.top().second; //Get the current node and its depth
q.pop(); //remove the current node from the queue

if(current_depth == d)
ans += current_node -> value; //if the current node is on the required depth, then add its value to the answer

if(current_node -> left != NULL)
q.push(current_node -> left, current_depth + 1); //add the left child to the queue, which has a depth of one more than the current depth

if(current_node -> right != NULL)
q.push(current_node -> right, current_depth + 1); //add the right child to the queue, which has a depth of one more than the current depth
}
return ans;
}
``````
-
``````int sum(Node node , int Level)