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add-one-row-to-tree.js
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/**
* Given the root of a binary tree, then value v and depth d, you need to add a row of nodes with value v at the given depth d.
* The root node is at depth 1.
*
* The adding rule is: given a positive integer depth d, for each NOT null tree nodes N in depth d-1, create two tree nodes with
* value v as N's left subtree root and right subtree root. And N's original left subtree should be the left subtree of the new
* left subtree root, its original right subtree should be the right subtree of the new right subtree root. If depth d is 1 that
* means there is no depth d-1 at all, then create a tree node with value v as the new root of the whole original tree, and the
* original tree is the new root's left subtree.
*
* Example 1:
* Input:
* A binary tree as following:
*
* 4
* / \
* 2 6
* / \ /
* 3 1 5
*
* v = 1
*
* d = 2
*
* Output:
*
* 4
* / \
* 1 1
* / \
* 2 6
* / \ /
* 3 1 5
*
* Example 2:
* Input:
* A binary tree as following:
*
* 4
* /
* 2
* / \
* 3 1
*
* v = 1
*
* d = 3
*
* Output:
*
* 4
* /
* 2
* / \
* 1 1
* / \
* 3 1
*
* Note:
* The given d is in range [1, maximum depth of the given tree + 1].
* The given binary tree has at least one tree node.
*/
import TreeNode from 'common/tree-node';
/**
* DFS Solution
*
* @param {TreeNode} root
* @param {number} v
* @param {number} d
* @return {TreeNode}
*/
const addOneRowDFS = (root, v, d) => {
const helper = (root, level, v, d) => {
if (!root) {
return;
}
if (level < d - 1) {
helper(root.left, level + 1, v, d);
helper(root.right, level + 1, v, d);
} else {
// Handle the left subtree
const left = root.left;
root.left = new TreeNode(v);
root.left.left = left;
// Handle the right subtree
const right = root.right;
root.right = new TreeNode(v);
root.right.right = right;
}
};
if (d === 1) {
const newRoot = new TreeNode(v);
newRoot.left = root;
return newRoot;
}
helper(root, 1, v, d);
return root;
};
/**
* BFS Solution
*
* @param {TreeNode} root
* @param {number} v
* @param {number} d
* @return {TreeNode}
*/
const addOneRowBFS = (root, v, d) => {
if (d === 1) {
const newRoot = new TreeNode(v);
newRoot.left = root;
return newRoot;
}
const queue = [root];
for (let k = 1; k <= d - 2; k++) {
const size = queue.length;
for (let i = 0; i < size; i++) {
const node = queue.shift();
if (node.left) {
queue.push(node.left);
}
if (node.right) {
queue.push(node.right);
}
}
}
while (queue.length > 0) {
const node = queue.shift();
// Handle the left subtree
const left = node.left;
node.left = new TreeNode(v);
node.left.left = left;
// Handle the right subtree
const right = node.right;
node.right = new TreeNode(v);
node.right.right = right;
}
return root;
};
export { addOneRowDFS, addOneRowBFS };