First, I have my doubts about the solution you post for a 30 bit
integer. `RAND_MAX`

itself could be a 31 bit value, and ```
RAND_MAX *
rand() + rand()
```

is likely to overflow, producing undefined behavior
(and in practice, negative values).

If you need a value larger than the guaranteed minimum of `RAND_MAX`

, or
for that matter, anything that isn't significantly smaller than
`RAND_MAX`

, the only solution will be to use successive calls to
`rand()`

, and combine the values, but you need to do this carefully, and
validate the results. (Most implementations of `rand()`

use linear
congruent generators, which while adequate for some tasks, aren't
particularly good in this case.) Anyway, something like:

```
unsigned
rand256()
{
static unsigned const limit = RAND_MAX - RAND_MAX % 256;
unsigned result = rand();
while ( result >= limit ) {
result = rand();
}
return result % 256;
}
unsigned long long
rand64bits()
{
unsigned long long results = 0ULL;
for ( int count = 8; count > 0; -- count ) {
results = 256U * results + rand256();
}
return results;
}
```

(The code in `rand256`

is designed to eliminate the otherwise
unavoidable bias you get when mapping `RAND_MAX`

values to 256 values.)