It generates the next number by keeping some state and modifying the state every time you call the function. Such a function is called a *pseudorandom number generator.* An old method of creating a PRNG is the *linear congruential generator,* which is easy enough:

```
static int rand_state;
int rand(void)
{
rand_state = (rand_state * 1103515245 + 12345) & 0x7fffffff;
return rand_state;
}
```

As you can see, this method allows you to predict the next number in the series if you know the previous number. There are more sophisticated methods.

Various types of pseudorandom number generators have been designed for specific purposes. There are secure PRNGs which are slow but hard to predict even if you know how they work, and there are big PRNGs like Mersenne Twister which have nice distribution properties and are therefore useful for writing Monte Carlo simulations.

As a rule of thumb, a linear congruential generator is good enough for writing a game (how much damage does the monster deal) but not good enough for writing a simulation. There is a colorful history of researchers who have chosen poor PRNGs for their programs; the results of their simulations are suspect as a result.