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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Using
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. 


arc4random returns a 32bit unsigned integer (0 to 2^{32}1). There will probably be no noticable modulo bias for small enough x. However, if you want to be really sure, do this: y = 2^{p} where 2^{p1} < x ≤ 2^{p}



Use According to the man page:



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


If the maximum value of 


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. 


Use the method below. It avoids "modulo bias" and it`s fast on iphone . Save you some cpu cycles. IF you want 47:
OR if you want 08


