In my public domain randlib, I do it with
no floating point, no division, no multiplication, just bitmasking and rejection sampling, like this:

```
int ojr_rand(ojr_generator *g, int limit) {
int v, m = limit - 1;
m |= m >> 1;
m |= m >> 2;
m |= m >> 4;
m |= m >> 8; // m is smallest ((power of 2) - 1) > limit
do {
v = m & NEXT16(g); // 16-bit random number
} while (v >= limit);
return v;
}
```

In the worst case (limit is power of two plus one), this can reject close to 50% of the generated numbers, but it's still faster than division or floating math with most fast RNGs, and in the general case it's much faster. Also, unlike the floating point math or mod, it is *exact*, meaning if you ask for a limit of 3, you get values 0, 1, and 2 with exactly equal probability, not just approximately equal.

`int n; while((n = rand()) > parameter); return n;`

(or`>=`

, depends on whether the bound shall be in- or exclusive). – Daniel Fischer May 28 '13 at 20:33`parameter > RAND_MAX`

(and, say, 32-bit ints). – Pascal Cuoq May 28 '13 at 20:45