2541. Minimum Operations to Make Array Equal II

Description

You are given two integer arrays nums1 and nums2 of equal length n and an integer k. You can perform the following operation on nums1:

Choose two indexes i and j and increment nums1[i] by k and decrement nums1[j] by k. In other words, nums1[i] = nums1[i] + k and nums1[j] = nums1[j] - k.

nums1 is said to be equal to nums2 if for all indices i such that 0 <= i < n, nums1[i] == nums2[i].

Return the minimum number of operations required to make nums1 equal to nums2. If it is impossible to make them equal, return -1.

Example 1:

Input: nums1 = [4,3,1,4], nums2 = [1,3,7,1], k = 3
Output: 2
Explanation: In 2 operations, we can transform nums1 to nums2.
1^st operation: i = 2, j = 0. After applying the operation, nums1 = [1,3,4,4].
2^nd operation: i = 2, j = 3. After applying the operation, nums1 = [1,3,7,1].
One can prove that it is impossible to make arrays equal in fewer operations.

Example 2:

Input: nums1 = [3,8,5,2], nums2 = [2,4,1,6], k = 1
Output: -1
Explanation: It can be proved that it is impossible to make the two arrays equal.

Constraints:

n == nums1.length == nums2.length
2 <= n <= 10⁵
0 <= nums1[i], nums2[j] <= 10⁹
0 <= k <= 10⁵

Solution

minimum-operations-to-make-array-equal-ii.py

class Solution:
    def minOperations(self, nums1: List[int], nums2: List[int], k: int) -> int:
        if k == 0: return 0 if nums1 == nums2 else -1
        inc = dec = 0

        for a, b in zip(nums1, nums2):
            diff = abs(a - b)

            if diff % k != 0: return -1

            if a - b >= 0:
                dec += diff // k
            else:
                inc += diff // k

        return inc if inc == dec else -1