# Binary Tree diff of sum of nodes at odd and sum of nodes at even

How can I write the function to return the difference of the sum of values of nodes at odd height and the sum of values of nodes at even height. Considering the root node is at height 1 for a binary tree

input:

``````                                      1
2                3
4        5       6        7
8     9  10    11  12  13   14  15
``````

Output: -74 Explanation :

``````[ (1 + 4 + 5 + 6 + 7 ) - (2 + 3 + 8 + 9 + 10 + 11 + 12 + 13 + 14 + 15) = -74 ]
``````

Code:

``````public static int diff(Node n) {
if (n == null)
return 0;
return Sum(n) - Sum(n.left) - Sum(n.right);

}
public static int Sum(Node root) {
int sum = 0;
if (root == null) {
return sum;
}
sum = sum + root.data;
if (root.left != null) {
sum = sum + Sum(root.left.left) + Sum(root.left.right);
}
if (root.right != null) {
sum = sum + Sum(root.right.left) + Sum(root.right.right);
}
return sum;
}
``````

I have given this solution but not selected... I don't know whats wrong with this.

• @KDiTraglia - Looks a lot like Java. – Rogach Nov 16 '12 at 18:22

``````public static int Sum(Node root) {

if (root == null) {
return 0;
}
return root.data-Sum(root.left)-Sum(root.right);
}
``````

This is easiest and smartest way i found the solution

• +1 Thanks for comment my answer. I will not updated it since you already provided the answer. – dreamcrash Mar 8 '13 at 21:15
• Accept your own answer so other will know that this problem is already solve. btw you can simply to public static int Sum(Node root){ return (root == null) ? 0 : root.data-Sum(root.left)-Sum(root.right); } – dreamcrash Mar 8 '13 at 21:23

Here solution is explained using recusrsion in short..

Negate all levels under the current one (the level of the current node) and you do that on each step of the recursion.

``````sum[l1] – (sum[l2] – (sum[l3] – (sum[l4] – … = sum[l1] – sum[l2] + sum[l3] – sum[l4]…
``````

www.crazyforcode.com/binary-tree-diff-sum-even-nodes-sum-odd-nodes/

``````public static int diff(Node n) {
return sumtree(Node n, 1);
}

public static int sumtree(Node n, int level) {

if (n == null) return 0;

if (level % 2 == 0) {
return sumtree(n.left, level + 1) + sumtree(n.right, level +1 ) - n.value;
} else {
return sumtree(n.left, level + 1) + sumtree(n.right, level + 1) + n.value;
}
}
``````

Add values on odd level numbers (1, 3, 5 7...), subtract on even (2, 4, 6, 8...).

The approach I took was to first find a way of adding all of the leaves, then just add a "level factor" if the level is even you you add otherwise you subtract. This may look similar to others but I find it cleaner.

On ANSI C

``````int diffOddAndEven(Node *root)
{
return sumLevel(root, 0);
}

int sumLevel(Node *root, int level)
{
int sum=0;
int levelFactor = level%2 ? -1 : 1;

if(!root)
return 0;

sum = root->value * levelFactor;

sum += sumLevel(root->left, level+1);
sum += sumLevel(root->right, level+1);

return sum;
}
``````

Check out my solution

``````traverse(root,1);  //1 is passed since we want oddlevelsum - evenlevelsum,pass -1 for opposite

int traverse(Tree* root,int level){

if(root==NULL)return 0;
return (level*root->data)+ traverse(level*-1,root->left_node)
+ traverse(level*-1,root->right_node);

}
``````

In your piece of code:

``````if (root.left != null) {
sum = sum + Sum(root.left.left) + Sum(root.left.right);
}
if (root.right != null) {
sum = sum + Sum(root.right.left) + Sum(root.right.right);
}
``````

You should differentiate between odd levels and even levels. Currently, you are just summing all the numbers multiple times.

You can do this easier if you break the problem in 2 different functions (not very efficient)

``````// Method to calculate the even or odd depending on the flag
public static int even_odd (Node n, int level, int flag)
{
int value = 0;
if (n == null) return 0;

if(level % 2 == 0 && flag == 0 ||  level % 2 != 0 && flag == 1)
value = n.value;

return value + even_odd(n.left,level+1,flag) + even_odd(n.right,level+1,flag);

return 0;
}
``````

The method that makes the difference:

``````public static int dif (Node n)
{
return even_odd(n,1,0) - even_odd(n,1,1);
}
``````

Explanation:

You have to travel the entire tree and verify if the current level is odd or not, so for every recursive call, you increment the variable level to keep track of the level that you are at.

The `flag = 0` means you want to search for even numbers, the flag = 1 means that you want the odd numbers. In the end, the method will return the sum of all the numbers that fit the criteria( odd or even).

Afterward, you can aim for a more robust method that calculates in a single trip the even and odd levels. For that, I would recommend using an iterative approach.

• public static int Sum(Node root) { if (root == null) { return 0; } return root.data-Sum(root.left)-Sum(root.right); } – Rahul Shukla Mar 8 '13 at 21:12