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2459. Sort Array by Moving Items to Empty Space
Description
You are given an integer array nums
of size n
containing each element from 0
to n - 1
(inclusive). Each of the elements from 1
to n - 1
represents an item, and the element 0
represents an empty space.
In one operation, you can move any item to the empty space. nums
is considered to be sorted if the numbers of all the items are in ascending order and the empty space is either at the beginning or at the end of the array.
For example, if n = 4
, nums
is sorted if:
nums = [0,1,2,3]
ornums = [1,2,3,0]
...and considered to be unsorted otherwise.
Return the minimum number of operations needed to sort nums
.
Example 1:
Input: nums = [4,2,0,3,1] Output: 3 Explanation: - Move item 2 to the empty space. Now, nums = [4,0,2,3,1]. - Move item 1 to the empty space. Now, nums = [4,1,2,3,0]. - Move item 4 to the empty space. Now, nums = [0,1,2,3,4]. It can be proven that 3 is the minimum number of operations needed.
Example 2:
Input: nums = [1,2,3,4,0] Output: 0 Explanation: nums is already sorted so return 0.
Example 3:
Input: nums = [1,0,2,4,3] Output: 2 Explanation: - Move item 2 to the empty space. Now, nums = [1,2,0,4,3]. - Move item 3 to the empty space. Now, nums = [1,2,3,4,0]. It can be proven that 2 is the minimum number of operations needed.
Constraints:
n == nums.length
2 <= n <= 105
0 <= nums[i] < n
- All the values of
nums
are unique.
Solutions
Solution 1: Permutation Cycle
For a permutation cycle of length $m$, if $0$ is in the cycle, the number of swaps is $m-1$; otherwise, the number of swaps is $m+1$.
We find all permutation cycles, first calculate the total number of swaps assuming each cycle requires $m+1$ swaps, then check if $0$ is misplaced. If it is, it means $0$ is in a permutation cycle, so we subtract $2$ from the total number of swaps.
Here, $0$ can be at position $0$ or at position $n-1$. We take the minimum of these two cases.
The time complexity is $O(n)$, and the space complexity is $O(n)$. Here, $n$ is the length of the array.
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class Solution { public int sortArray(int[] nums) { int n = nums.length; int[] arr = new int[n]; for (int i = 0; i < n; ++i) { arr[i] = (nums[i] - 1 + n) % n; } int a = f(nums, 0); int b = f(arr, n - 1); return Math.min(a, b); } private int f(int[] nums, int k) { boolean[] vis = new boolean[nums.length]; int cnt = 0; for (int i = 0; i < nums.length; ++i) { if (i == nums[i] || vis[i]) { continue; } ++cnt; int j = nums[i]; while (!vis[j]) { vis[j] = true; ++cnt; j = nums[j]; } } if (nums[k] != k) { cnt -= 2; } return cnt; } }
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class Solution { public: int sortArray(vector<int>& nums) { int n = nums.size(); auto f = [&](vector<int>& nums, int k) { vector<bool> vis(n); int cnt = 0; for (int i = 0; i < n; ++i) { if (i == nums[i] || vis[i]) continue; int j = i; ++cnt; while (!vis[j]) { vis[j] = true; ++cnt; j = nums[j]; } } if (nums[k] != k) cnt -= 2; return cnt; }; int a = f(nums, 0); vector<int> arr = nums; for (int& v : arr) v = (v - 1 + n) % n; int b = f(arr, n - 1); return min(a, b); } };
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class Solution: def sortArray(self, nums: List[int]) -> int: def f(nums, k): vis = [False] * n cnt = 0 for i, v in enumerate(nums): if i == v or vis[i]: continue cnt += 1 j = i while not vis[j]: vis[j] = True cnt += 1 j = nums[j] return cnt - 2 * (nums[k] != k) n = len(nums) a = f(nums, 0) b = f([(v - 1 + n) % n for v in nums], n - 1) return min(a, b)
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func sortArray(nums []int) int { n := len(nums) f := func(nums []int, k int) int { vis := make([]bool, n) cnt := 0 for i, v := range nums { if i == v || vis[i] { continue } cnt++ j := i for !vis[j] { vis[j] = true cnt++ j = nums[j] } } if nums[k] != k { cnt -= 2 } return cnt } a := f(nums, 0) arr := make([]int, n) for i, v := range nums { arr[i] = (v - 1 + n) % n } b := f(arr, n-1) return min(a, b) }