You are given an m x n matrix M initialized with all 0's and an array of operations ops, where ops[i] = [ai, bi] means M[x][y] should be incremented by one for all 0 <= x < ai and 0 <= y < bi.
Count and return the number of maximum integers in the matrix after performing all the operations.
Example 1:
Input: m = 3, n = 3, ops = [[2,2],[3,3]] Output: 4 Explanation: The maximum integer in M is 2, and there are four of it in M. So return 4.
Example 2:
Input: m = 3, n = 3, ops = [[2,2],[3,3],[3,3],[3,3],[2,2],[3,3],[3,3],[3,3],[2,2],[3,3],[3,3],[3,3]] Output: 4
Example 3:
Input: m = 3, n = 3, ops = [] Output: 9
Constraints:
1 <= m, n <= 4 * 1040 <= ops.length <= 104ops[i].length == 21 <= ai <= m1 <= bi <= n
class Solution:
def maxCount(self, m: int, n: int, ops: List[List[int]]) -> int:
for a, b in ops:
m = min(m, a)
n = min(n, b)
return m * nclass Solution {
public int maxCount(int m, int n, int[][] ops) {
for (int[] op : ops) {
m = Math.min(m, op[0]);
n = Math.min(n, op[1]);
}
return m * n;
}
}class Solution {
public:
int maxCount(int m, int n, vector<vector<int>>& ops) {
for (auto op : ops) {
m = min(m, op[0]);
n = min(n, op[1]);
}
return m * n;
}
};func maxCount(m int, n int, ops [][]int) int {
for _, op := range ops {
m = min(m, op[0])
n = min(n, op[1])
}
return m * n
}