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Make Costs of Paths Equal in a Binary Tree - Practice Coding | SlaveCode

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2673. Make Costs of Paths Equal in a Binary Tree

Medium

30 Points

Array

Dynamic Programming

Greedy

Tree

Binary Tree

You are given an integer n representing the number of nodes in a perfect binary tree consisting of nodes numbered from 1 to n. The root of the tree is node 1 and each node i in the tree has two children where the left child is the node 2 * i and the right child is 2 * i + 1. Each node in the tree also has a cost represented by a given 0-indexed integer array cost of size n where cost[i] is the cost of node i + 1. You are allowed to increment the cost of any node by 1 any number of times. Return the minimum number of increments you need to make the cost of paths from the root to each leaf node equal. Note:

Examples

Example 1

Example 1 visualization

Input: n = 7, cost = [1,5,2,2,3,3,1] Output: 6 Explanation: We can do the following increments: - Increase the cost of node 4 one time. - Increase the cost of node 3 three times. - Increase the cost of node 7 two times. Each path from the root to a leaf will have a total cost of 9. The total increments we did is 1 + 3 + 2 = 6. It can be shown that this is the minimum answer we can achieve.

Example 2

Example 2 visualization

Input: n = 3, cost = [5,3,3] Output: 0 Explanation: The two paths already have equal total costs, so no increments are needed.

Constraints

3 <= n <= 105
n + 1 is a power of 2
cost.length == n
1 <= cost[i] <= 104

2673. Make Costs of Paths Equal in a Binary Tree

Medium

30 Points

Array

Dynamic Programming

Greedy

Tree

Binary Tree

You are given an integer n representing the number of nodes in a perfect binary tree consisting of nodes numbered from 1 to n. The root of the tree is node 1 and each node i in the tree has two children where the left child is the node 2 * i and the right child is 2 * i + 1. Each node in the tree also has a cost represented by a given 0-indexed integer array cost of size n where cost[i] is the cost of node i + 1. You are allowed to increment the cost of any node by 1 any number of times. Return the minimum number of increments you need to make the cost of paths from the root to each leaf node equal. Note:

Examples

Example 1

Example 1 visualization

Input: n = 7, cost = [1,5,2,2,3,3,1] Output: 6 Explanation: We can do the following increments: - Increase the cost of node 4 one time. - Increase the cost of node 3 three times. - Increase the cost of node 7 two times. Each path from the root to a leaf will have a total cost of 9. The total increments we did is 1 + 3 + 2 = 6. It can be shown that this is the minimum answer we can achieve.

Example 2

Example 2 visualization

Input: n = 3, cost = [5,3,3] Output: 0 Explanation: The two paths already have equal total costs, so no increments are needed.

Constraints

3 <= n <= 105
n + 1 is a power of 2
cost.length == n
1 <= cost[i] <= 104