g1001_1100.s1040_moving_stones_until_consecutive_ii.Solution Maven / Gradle / Ivy
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Java-based LeetCode algorithm problem solutions, regularly updated
package g1001_1100.s1040_moving_stones_until_consecutive_ii;
// #Medium #Array #Math #Sorting #Two_Pointers #2022_02_27_Time_8_ms_(55.00%)_Space_49_MB_(31.67%)
import java.util.Arrays;
public class Solution {
public int[] numMovesStonesII(int[] stones) {
int n = stones.length;
int[] ans = new int[2];
int i = 0;
int j = 0;
int wsize;
int scount;
int minMoves = Integer.MAX_VALUE;
Arrays.sort(stones);
while (j < n) {
wsize = stones[j] - stones[i] + 1;
scount = j - i + 1;
if (wsize > n) {
i++;
continue;
}
if (wsize == n - 1 && scount == n - 1) {
minMoves = Math.min(minMoves, 2);
} else {
minMoves = Math.min(minMoves, n - scount);
}
j++;
}
ans[0] = minMoves;
int maxMoves;
if (stones[1] == stones[0] + 1 || stones[n - 1] == stones[n - 2] + 1) {
maxMoves = stones[n - 1] - stones[0] + 1 - n;
} else {
maxMoves =
Math.max(
((stones[n - 1] - stones[1]) - (n - 1) + 1),
((stones[n - 2] - stones[0]) - (n - 1) + 1));
}
ans[1] = maxMoves;
return ans;
}
}