1051. Height Checker #
Problem #
Students are asked to stand in non-decreasing order of heights for an annual photo.
Return the minimum number of students that must move in order for all students to be standing in non-decreasing order of height.
Notice that when a group of students is selected they can reorder in any possible way between themselves and the non selected students remain on their seats.
Example 1:
Input: heights = [1,1,4,2,1,3]
Output: 3
Explanation:
Current array : [1,1,4,2,1,3]
Target array : [1,1,1,2,3,4]
On index 2 (0-based) we have 4 vs 1 so we have to move this student.
On index 4 (0-based) we have 1 vs 3 so we have to move this student.
On index 5 (0-based) we have 3 vs 4 so we have to move this student.
Example 2:
Input: heights = [5,1,2,3,4]
Output: 5
Example 3:
Input: heights = [1,2,3,4,5]
Output: 0
Constraints:
1 <= heights.length <= 1001 <= heights[i] <= 100
Problem Summary #
When taking the annual school commemorative photo, students are generally required to stand in non-decreasing order of height. Please return the minimum number of students that must move so that all students are arranged in non-decreasing order of height. Note that when a group of students is selected, they can be reordered among themselves in any possible way, while the unselected students should remain in place.
Solution Approach #
- Given an array of heights, output the minimum number of moves required to arrange this array in non-decreasing order of height.
- This is an easy problem. The minimum number of moves means that each move puts a student directly into their final position in one step. So use an auxiliary sorted array and compare the elements one by one to count.
Code #
package leetcode
func heightChecker(heights []int) int {
result, checker := 0, []int{}
checker = append(checker, heights...)
sort.Ints(checker)
for i := 0; i < len(heights); i++ {
if heights[i] != checker[i] {
result++
}
}
return result
}