First I'm on a phone so please forgive poor formatting!

I've done a lot of searching now and found no definitive answer to this. If there isn't one, fair enough, but I'm sure somebody smarter than I must have a good answer!

I'm using the RNG crypto provider to generate numbers in a range the truly naive way:

```
byte[] bytes = new byte[4];
int result = 0;
while(result < min && result > max)
{
RNG.GetBytes(bytes);
result = BitConverter.ToInt32(bytes);
}
```

This is great when the range is wide enough such that there is a decent chance of getting a result, but earlier today I hit a scenario where the range is sufficiently small (within 10,000 numbers) that it can take an age.

So I've been trying to think of a better way that will achieve a decent distribution but will be faster. But now I'm getting into deeper maths and statistics that I simply didn't do at school, or at least if I did I have forgotten it all!

My idea is:

- get the highest set bit positions of the min and max, e.g. for 4 it would be 3 and for 17 it would be 5
- select a number of bytes from the prng that could contain at least the high bits, e.g.1 in this case for 8 bits
- see if any of the upper bits in the allowed range (3-5) are set
- if yes, turn that into a number up to and including the high bit
- if that number is between min and max, return.
- if any of the previous tests fail, start again.

Like I say, this could be exceedingly naive, but I am sure it will return a match in a narrow range faster than the current implementation. I'm not in front of a computer at the moment so can't test, will be doing that tomorrow morning UK time.

But of course speed isn't my only concern, otherwise I would just use *Random* (needs a couple of tick marks there to format correctly if someone would be kind enough - they're not on the Android keyboard!).

The biggest concern I have with the above approach is that I am always throwing away up to 7 bits that were generated by the prng, which seems bad. I thought of ways to factor them in (e.g. a simple addition) but they seem terribly unscientific hacks!

I know about the mod trick, where you only have to generate one sequence, but I also know about its weaknesses.

Is this a dead end? Ultimately if the best solution is going to be to stick with the current implementation I will, I just feel that there must be a better way!