Problem
You are given a positive integer array nums
.
Partition nums
into two arrays, nums1
and nums2
, such that:
- Each element of the array
nums
belongs to either the arraynums1
or the arraynums2
. - Both arrays are non-empty.
- The value of the partition is minimized.
The value of the partition is |max(nums1) - min(nums2)|
.
Here, max(nums1)
denotes the maximum element of the array nums1
, and min(nums2)
denotes the minimum element of the array nums2
.
Return the integer denoting the value of such partition.
Example 1:
Input: nums = [1,3,2,4] Output: 1 Explanation: We can partition the array nums into nums1 = [1,2] and nums2 = [3,4]. - The maximum element of the array nums1 is equal to 2. - The minimum element of the array nums2 is equal to 3. The value of the partition is |2 - 3| = 1. It can be proven that 1 is the minimum value out of all partitions.
Example 2:
Input: nums = [100,1,10] Output: 9 Explanation: We can partition the array nums into nums1 = [10] and nums2 = [100,1]. - The maximum element of the array nums1 is equal to 10. - The minimum element of the array nums2 is equal to 1. The value of the partition is |10 - 1| = 9. It can be proven that 9 is the minimum value out of all partitions.
Constraints:
2 <= nums.length <= 105
1 <= nums[i] <= 109