Here's a straightforward solution using integer arithmetic:

```
void check(char boxes[], int total_count, int check_count)
{
int i;
for (i = 0; i < total_count; i++)
boxes[i] = '-';
for (i = 0; i < check_count; i++)
boxes[i * total_count / check_count] = 'x';
}
```

`total_count`

is the total number of boxes, and `check_count`

is the number of boxes to check.

First, it sets every box to unchecked. Then, it checks `check_count`

boxes, scaling the counter to the number of boxes.

Caveat: this is left-biased rather than right-biased like in your examples. That is, it prints `x--x--`

rather than `--x--x`

. You can turn it around by replacing

```
boxes[i * total_count / check_count] = 'x';
```

with:

```
boxes[total_count - (i * total_count / check_count) - 1] = 'x';
```

## Correctness

Assuming `0 <= check_count <= total_count`

, and that `boxes`

has space for at least `total_count`

items, we can prove that:

No check marks will overlap. `i * total_count / check_count`

increments by at least one on every iteration, because `total_count >= check_count`

.

This will not overflow the buffer. The subscript `i * total_count / check_count`

Will be `>= 0`

. `i`

, `total_count`

, and `check_count`

will all be `>= 0`

.

Will be `< total_count`

. When `n > 0`

and `d > 0`

:

```
(n * d - 1) / d < n
```

In other words, if we take `n * d / d`

, and nudge the numerator down, the quotient will go down, too.

Therefore, `(check_count - 1) * total_count / check_count`

will be less than `total_count`

, with the assumptions made above. A division by zero won't happen because if `check_count`

is 0, the loop in question will have zero iterations.