Scale your numbers up by `N / RAND_MAX`

, where `N`

is your desired maximum. If the numbers fit, you can do something like this:

```
unsigned long long int r = rand() * N / RAND_MAX;
```

Obviously if the initial part overflows you can't do this, but with `N = 250000`

you should be fine. `RAND_MAX`

is 32K on many popular platforms.

More generally, to get a random number uniformly in the interval `[A, B]`

, use:

```
A + rand() * (B - A) / RAND_MAX;
```

Of course you should probably use the proper C++-style `<random>`

library; search this site for many similar questions explaining how to use it.

Edit: In the hope of preventing an escalation of comments, here's yet another copy/paste of the Proper C++ solution for truly uniform distribution on an interval `[A, B]`

:

```
#include <random>
typedef std::mt19937 rng_type;
typedef unsigned long int int_type; // anything you like
std::uniform_int_distribution<int_type> udist(A, B);
rng_type rng;
int main()
{
// seed rng first:
rng_type::result_type const seedval = get_seed();
rng.seed(seedval);
int_type random_number = udist(rng);
// use random_number
}
```

Don't forget to seend the RNG! If you store the seed value, you can replay the same random sequence later on.