This may not be the answer you're looking for, but the specific case with 3 uniform distributions:

(Ignore the numbers on the left, but it is to scale!)

```
public int generate() {
if(random(0, 65) == 0) {
// 50-100 percentile
if(random(1, 13) > 3) {
// 50-75 percentile
return random(500, 5000);
} else {
// 75-100 percentile
return random(5000, 20000);
}
} else {
// 0-50 percentile
return random(200, 500);
}
}
```

**How I got the numbers**

First, the area under the curve is equal between 200-500 and 500-20000. This means that the height relationship is `300 * leftHeight == 19500 * rightHeight`

making `leftHeight == 65 * rightHeight`

This gives us a 1/66 chance to choose right, and a 65/66 chance to choose left.

I then made the same calculation for the 75th percentile, except the ratio was `500-5000 chance == 5000-20000 chance * 10 / 3`

. Again, this means we have a 10/13 chance to be in 50-75 percentile, and a 3/13 chance to be in 75-100.

Kudos to @Stas - I am using his 'inclusive random' function.

And yes, I realise my numbers are wrong as this method works with discrete numbers, and my calculations were continuous. It would be good if someone could correct my border cases.

any numberof distributions! ;-) – Joachim Sauer Mar 15 '11 at 16:17