There are **many** issues involved in trying to generate a truly random number. Note, for instance, that functions like *rand()* and *random()* generate sequences of numbers based on a 'seed value'. That means that if the seed value is the same, the sequence of numbers generated will be the same. There are various ways to use 'random' seeds - ie., using the current date and time - but the reliability and security of these methods is questionable.

As the number generators evolve, these issues get addressed, and therefore the later generators are usually better than the earlier ones: *rand* is generally not as random as *random*, and *random* is not as random as *arc4random*.

The current problem with *arc4random()*, which is documented in their manual pages, is that using a modulus calculation - as in "arc4random() % UPPER_LIMIT" - can introduce statistical bias, if UPPER_LIMIT is not an even number. Because of this, a new function was added to the arc4random family, called **arc4random_uniform**. It produces evenly distributed random numbers, regardless of the upper limit - and it is quite simple to use.

Using your example above, I would recommend you try generating your random number like this:

```
int value = low_bound + arc4random_uniform(width + 1);
```