# Objective C: Modulo bias

Using

``````   value = arc4random() % x
``````

How can I avoid or eliminate modulo bias?

Thanks all.

BTW, at least according to Wikipedia, modulo bias is an issue when programming games of chance.

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Consider re-marking Zoidberg's answer as the correct one, as it's the canonical correct answer according to the authors of arc4random(). –  MikeyWard Dec 30 '12 at 21:59
–  bobobobo Apr 15 '13 at 2:03

arc4random returns a 32-bit unsigned integer (0 to 232-1).

There will probably be no noticable modulo bias for small enough x. However, if you want to be really sure, do this:

y = 2p where 2p-1 < x ≤ 2p

``````val = arc4random() % y;
while(val >= x)
val = arc4random() % y;
``````
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You're welcome. =) –  Can Berk Güder Mar 16 '09 at 2:13
If I recall, there's something like this in Python's random number generator. –  Lambda Fairy Nov 12 '11 at 0:09
I happen to trip over same task, C implementation can be found in OpenBSD `arc4random_uniform()` at src/sys/dev/rnd.c –  SashaN Jun 13 '12 at 8:32

If the maximum value of `arc4random` mod `x` is greater than `x`, ignore any values larger than the largest `arc4random-max mod x`, calling `arc4random` again instead.

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``````u_int32_t maxValue = ~((u_int32_t) 0);      // equal to 0xffff...
maxValue -= maxValue % x;                   // make maxValue a multiple of x
while((value = arc4random()) >= maxValue) { // loop until we get 0 ≤ value < maxValue
}
value %= x;
``````

although unless you are using any x under a million (or more) I wouldn't worry about it

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``````u_int32_t maxValue = ~((u_int32_t) 0);      // equal to 0xffff...
maxValue -= maxValue % x;                   // make maxValue a multiple of x
while((value = arc4random()) >= maxValue) { // loop until we get 0 ≤ value < maxValue
}
value %= x;
``````

Somewhat pedantic objection to cobbal's answer. It "works", that is it removes the modulo bias, but it rejects more values than are necessary. The most extreme case is x = 2^31. All values of arc4random() should be accepted here but the code as written will reject half of them.

Instead, add 1 to the initialization of maxValue (that puts it at 2^32 so you'll have to use a 64 bit int), and then it's right. You can also avoid using a 64 bit int. Test beforehand if 2^32 % x == 0, if so all arc4random() values are acceptable and you can skip the loop, otherwise you can keep maxValue at 32 bits by subtracting 2^32 % x on initialization.

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Use `arc4random_uniform(x)`. This does it for you.

According to the man page:

`arc4random_uniform()` will return a uniformly distributed random number less than `upper_bound`. `arc4random_uniform()` is recommended over constructions like `arc4random() % upper_bound` as it avoids "modulo bias" when the upper bound is not a power of two.

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This answer is better than the accepted one. –  Carl Norum May 27 '13 at 17:52

Use the method below. It avoids "modulo bias" and it`s fast on iphone . Save you some cpu cycles.

IF you want 4-7:

``````(random() / (float)RAND_MAX )*3+4
``````

OR if you want 0-8

``````(random() / (float)RAND_MAX )+8
``````
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