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convert_to_sum_tree.cpp
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convert_to_sum_tree.cpp
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/**
* Convert a given tree to to sum tree.
* Given : A tree with positive and negative data values.
* Convert this to a tree where each node contains the sum of the left and right sub trees in the original tree.
* The values of leaf nodes are changed to 0.
* 10 20
* / \ / \
* -2 6 ----> 4 12
* / \ / \ / \ / \
* 8 -4 7 5 0 0 0 0
*/
#include <iostream>
struct Node {
int data;
Node * left;
Node * right;
Node( int d )
: data{ d },
left{ nullptr },
right{ nullptr } { }
};
int toSumTree( Node * root )
{
if ( root == nullptr )
{
return 0;
}
//store the previous value
int previous_val = root->data;
// make current node as sum of left and right node. left nodes will become zero
root->data = toSumTree(root->left) + toSumTree(root->right);
// Now since each node contains the sum of the left and right sub trees in the original tree.
// we will return the sum of old + new value as sum.
// Focus on the world original here, and try understanding it from top to bottom.
return root->data + previous_val;
}
void inorder( Node * root )
{
if ( root ) {
inorder(root->left);
std::cout << root->data << " ";
inorder(root->right);
}
}
int main()
{
Node * root = new Node(10);
root->left = new Node(-2);
root->right = new Node(6);
root->left->left = new Node(8);
root->left->right = new Node(-4);
root->right->left = new Node(7);
root->right->right = new Node(5);
std::cout << "Inorder traversal of tree:";
inorder(root);
std::cout << "\nAfter transforming to sum tree\n";
toSumTree(root);
std::cout << "Inorder traversal of tree:";
inorder(root);
std::cout << std::endl;
return 0;
}