I need a function which would generate a random integer in a given range (including boundary values). I don't have unreasonable quality/randomness requirements; I have four requirements:

- I need it to be fast. My project needs to generate millions (or sometimes even tens of millions) of random numbers and my current generator function has proven to be a bottleneck.
- I need it to be reasonably uniform (use of rand() is perfectly fine).
- the minimum-maximum ranges can be anything from <0, 1> to <-32727, 32727>.
- it has to be seedable.

I currently have the following C++ code:

```
output = min + (rand() * (int)(max - min) / RAND_MAX)
```

The problem is that it is not really uniform - *max* is returned only when rand() = RAND_MAX (for Visual C++ it is 1/32727). This is a major issue for small ranges like <-1, 1>, where the last value is almost never returned.

So I grabbed pen and paper and came up with following formula (which builds on the (int)(n + 0.5) integer rounding trick):

```
( (max - min) * rand() + (RAND_MAX / (2 * (max - min))) ) / RAND_MAX
```

But it still doesn't give me a uniform distribution. Repeated runs with 10000 samples give me ratio of 37:50:13 for values values -1, 0. 1.

Is there a better formula? (Or even whole pseudo-random number generator function?)

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