The simple answer to your question is that `Math.random()`

violates rule #2.

Many other answers here have pointed out that the presence of `Math.random()`

means that this function is not pure. But I think it's worth saying *why* `Math.random()`

taints functions that use it.

Like all pseudorandom number generators, `Math.random()`

starts with a "seed" value. It then uses that value as the starting point for a chain of low-level bit manipulations or other operations that result in an unpredictable (but not really *random*) output.

In JavaScript, the process involved is implementation-dependent, and unlike many other languages, JavaScript provides no way to select the seed:

The implementation selects the initial seed to the random number generation algorithm; it cannot be chosen or reset by the user.

That's why this function isn't pure: JavaScript is essentially using an implicit function parameter that you have no control over. It's reading that parameter from data calculated and stored elsewhere, and therefore violates rule #2 in your definition.

If you wanted to make this a pure function, you could use one of the alternative random number generators described here. Call that generator `seedable_random`

. It takes one parameter (the seed) and returns a "random" number. Of course, this number isn't really random at all; it is uniquely determined by the seed. That's why this is a pure function. The output of `seedable_random`

is only "random" in the sense that predicting the output based on the input is difficult.

The pure version of this function would need to take *three* parameters:

```
function test(min, max, seed) {
return seedable_random(seed) * (max - min) + min;
}
```

For any given triple of `(min, max, seed)`

parameters, this will always return the same result.

Note that if you wanted the output of `seedable_random`

to be *truly* random, you'd need to find a way to randomize the seed! And whatever strategy you used would inevitably be non-pure, because it would require you to gather information from a source outside your function. As mtraceur and jpmc26 remind me, this includes all physical approaches: hardware random number generators, webcams with lens caps, atmospheric noise collectors -- even lava lamps. All of these involve using data calculated and stored outside the function.

`Math.random()`

which changes the state of the RNG.`test(a,b)`

always returns the same object`Random(a,b)`

(which can represent different concrete numbers)? If you keep`Random`

symbolic it is pure in the classical sense, if you evaluate it early and put in numbers, maybe as a kind of optimization, the function still retains some "pureness".well-definedside-effects, you might end up inventing monads. Welcome to the dark side. >:)5more comments