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Given a Binary Tree, find vertical sum of the nodes that are in same vertical line. Print all sums through different vertical lines.

To understand what's same vertical line, we need to define horizontal distances first. If two nodes have the same Horizontal Distance (HD), then they are on same vertical line. The idea of HD is simple. HD for root is 0, a right edge (edge connecting to right subtree) is considered as +1 horizontal distance and a left edge is considered as -1 horizontal distance. For example, in the above tree, HD for Node 4 is at -2, HD for Node 2 is -1, HD for 5 and 6 is 0 and HD for node 7 is +2.


  /   \
 2     3
/ \   / \
4  5  6  7

The tree has 5 vertical lines

Vertical-Line-1 has only one node 4 => vertical sum is 4

Vertical-Line-2: has only one node 2=> vertical sum is 2

Vertical-Line-3: has three nodes: 1,5,6 => vertical sum is 1+5+6 = 12

Vertical-Line-4: has only one node 3 => vertical sum is 3

Vertical-Line-5: has only one node 7 => vertical sum is 7

So expected output is 4, 2, 12, 3 and 7

My solution: I think out a o(nlong(n)) solution for this problem. The idea is:

(1) using preorder traversal to get the HD for every node, and store the HD and its associated node in an array.

(2) sort the array by HD

(3) traversal the sorted array to print result.

I'm sure this is not the best one for this problem. Can anyone help me give a better solution?

share|improve this question
Why do you store each node? You only need to store the sum for each HD, and update it as you traverse the tree. – n.m. Jan 23 '13 at 17:11
possible duplicate of Vertical sum of a binary tree – Srikar Appal Jul 1 '13 at 16:00
Looks like the same is solved here. stackoverflow.com/questions/9646575/… – krishnakamathk Feb 4 '14 at 20:20

Can't you do it all in the first traversal? Define a dictionary (hash map) from HD to sum. And for each node you visit add its value to the right dictionary key - this is a O(n) solution.

d = {}

def traverse(node, hd):
  if not node:
  if not hd in d:
    d[hd] = 0
  d[hd] = d[hd] + node.value
  traverse(node.left, hd - 1)
  traverse(node.right, hd + 1)

Then just call traverse(root, 0)

share|improve this answer
+1 for awesome solution~ – Chasefornone Jan 24 '13 at 11:23
Thanks for your solution. Used it in implementing here - k2code.blogspot.in/2011/12/vertical-sum-of-binary-tree.html :) – kinshuk4 Mar 13 at 6:49

here's one in C. the vsum array upon return will have the results.

void vsum(struct tree *t, int vsum[], int depth)     {

    if (t == NULL)

    vsum[depth] += t->val;

    vsum(t->left, vsum, depth);
    vsum(t->right, vsum, depth);

share|improve this answer
you should check if depth is a valid index in vsumand assign it a value of 0 – Syler Feb 11 '14 at 7:47

Using level order traversal, use a queue with elements and adjacently their HD values. The following algorithm will give solution in O(n) [not run-tested]

void findVertSum( struct node *root)
   tempnode = dequeue();
   vertIndex = dequeue();

   sum[vertIndex] += tempnode->val;  
       // Array cant be used because there will be sum[-1], sum[-2] etc, which will give error. This line hense only gives the idea to store solution.

     enqueue(vertIndex - 1);

     enqueue(vertIndex + 1);
share|improve this answer

This is my solution which runs in O(n)`

 #include <iostream>
 #include <vector>
 using namespace std;

 vector<int> v;
 int size;

typedef struct node
int data;
struct node *left, *right ;
} node, *ptr;

ptr newNode(int item)
ptr temp =  new node;
temp->data = item;
temp->left = temp->right = NULL;
return temp;

void printVerticalSumUtil(ptr root, int line)

if (root == NULL) return;

    v[line] += root->data;
    printVerticalSumUtil(root->left, line - 1);
    printVerticalSumUtil(root->right, line + 1);


void printVerticalSum(ptr root)
if (root == NULL)

//Calculating the line No for the root
ptr curr = root;
int line = 0;
while (curr->left != NULL)
    curr = curr->left;
size = 2 * line + 1;  //Total No of Lines
line++;      //Adjusting line no for root

for (int i = 1; i <= size; ++i)   //Initializing lines to zero

printVerticalSumUtil(root, line);

for (int i = 1; i <= size; ++i)
    cout << "Sum of Line " << i << " is " << v[i] << endl;

int main()

ptr root = newNode(1);
root->left = newNode(2);
root->right = newNode(3);
root->left->left = newNode(4);
root->left->right = newNode(5);
root->right->left = newNode(6);
root->right->right = newNode(7);


return 0;
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#define HD_OFFSET 16

void vertical_sum(Node *node, int hd, int sum[], int *min, int *max){

/* We are offseting the index to access array correctly.
Root will be at HD_OFFSET/2 index and all vertical lines on left will
be at 0 to HD_OFFSET/2 and right side will be on HD_OFFSET/2 to HD_OFFSET */

int index = hd + HD_OFFSET/2;

if(!node) return;

/* to keep track of min and max index filled in sum array */
if(index > (*max)) (*max) = index;
if(index < (*min)) (*min) = index;

sum[index]+= node->value;
/*If we are moving on the left side, 
we will pass index as one less the current */
vertical_sum(node->left, hd-1, sum, min, max);

/*If we are moving on the right side, 
we will pass index as one more the current */
vertical_sum(node->right, hd+1, sum, min, max);
share|improve this answer

Sorry for the late solution. There are couple of ways to solve this. Itay Karo has already given a good solution using hashmap. You can also use doubly linked link list:

  • Start with the root node and empty double list listNode
  • Add the value of the rootNode to the current listNode
  • Now whenever you go left, pass listNode.left and root.left and call step1 and 2 recursively.
  • Similarly for right node, pass listNode.right and root.right Here is the code:

printVerticalSum(TreeNode root)
       return -1;
    allocate node doubleLinkList //initialize,
    printVerticalSumUtil(root, doubleLinkList); 
    //write the function to print double linked list

printVerticalSumUtil(TreeNode root, ListNode listNode) { if(root==NULL) return;

if(root.left!=NULL) if(listNode.prev!=NULL) listNode.prev.data += root.data; else ListNode t = new ListNode(root.data); t.next=listNode; listNode.prev = t; findVerticalSum(root.left, listNode.prev)

if(root.right!=NULL) if(listNode.next!=NULL) listNode.next.data += root.data; else ListNode t = new ListNode(root.data); t.prev=listNode; listNode.next = t; findVerticalSum(root.right, listNode.next) }

More details here - http://k2code.blogspot.in/2011/12/vertical-sum-of-binary-tree.html. Thanks.

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