You are given an `m x n`

binary matrix `mat`

of `1`

's (representing soldiers) and `0`

's (representing civilians). The soldiers are positioned **in front** of the civilians. That is, all the `1`

's will appear to the **left** of all the `0`

's in each row.

A row `i`

is **weaker** than a row `j`

if one of the following is true:

- The number of soldiers in row
`i`

is less than the number of soldiers in row`j`

. - Both rows have the same number of soldiers and
`i < j`

.

Return *the indices of the *`k`

* weakest rows in the matrix ordered from weakest to strongest*.

**Example 1:**

Input:mat = [[1,1,0,0,0], [1,1,1,1,0], [1,0,0,0,0], [1,1,0,0,0], [1,1,1,1,1]], k = 3Output:[2,0,3]Explanation:The number of soldiers in each row is: - Row 0: 2 - Row 1: 4 - Row 2: 1 - Row 3: 2 - Row 4: 5 The rows ordered from weakest to strongest are [2,0,3,1,4].

**Example 2:**

Input:mat = [[1,0,0,0], [1,1,1,1], [1,0,0,0], [1,0,0,0]], k = 2Output:[0,2]Explanation:The number of soldiers in each row is: - Row 0: 1 - Row 1: 4 - Row 2: 1 - Row 3: 1 The rows ordered from weakest to strongest are [0,2,3,1].

**Constraints:**

`m == mat.length`

`n == mat[i].length`

`2 <= n, m <= 100`

`1 <= k <= m`

`matrix[i][j]`

is either 0 or 1.

class Solution {
public int[] kWeakestRows(int[][] mat, int k) {
}
}