# WARNING

Note that `System.out.println(Math.abs(Integer.MIN_VALUE));`

prints **-2147483648**, meaning that if `rand.nextLong()`

picks `Integer.MIN_VALUE`

, a negative value is returned. This is misleading because `Math.abs()`

does not return a positive number in all cases.

If you want a uniformly distributed pseudorandom long in the range of [0,`m`

), try using the modulo operator and the absolute value method combined with the `nextLong()`

method as seen below:

```
Math.abs(rand.nextLong()) % m;
```

Where `rand`

is your Random object.

The modulo operator divides two numbers and outputs the remainder of those numbers. For example, `3 % 2`

is `1`

because the remainder of 3 and 2 is 1.

Since `nextLong()`

generates a uniformly distributed pseudorandom long in the range of [-(2^48),2^48) (or somewhere in that range), you will need to take the absolute value of it. If you don't, the modulo of the `nextLong()`

method has a 50% chance of returning a negative value, which is out of the range [0,`m`

).

What you initially requested was a uniformly distributed pseudorandom long in the range of [0,100). The following code does so:

```
Math.abs(rand.nextLong()) % 100;
```

`java.util.Random`

only uses a 48 bit distribution (see implementation details), so it won't have a normal distribution.