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The usual method to generate a uniform random number 0..n using coin flips is to build a rng for the smallest power of two greater than n in the obvious way, then whenever this algorithm generates a number larger than n-1, throw that number away and try again.

Unfortunately this has worst case runtime of infinity.

Is there any way to solve this problem while guaranteeing termination?

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Obviously, n can be written as sum 2^p1 + 2^p2 + ... (which has q terms, let's say). Then you can generate q random numbers for each term of the previous sum and add them to generate your searched random number. –  wxyz Jan 27 '14 at 13:53
    
Have a look at stackoverflow.com/a/891304/916657 You can achieve what you want at the expense of lots of memory. I'd rather go with the constant memory method, which is practically bounded in runtime because it gets exponentially more unlikely to run long. –  Niklas B. Jan 27 '14 at 13:55
    
@wxyz that's no uniform distribution though and you can't specify the range. –  Niklas B. Jan 27 '14 at 13:57
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@wxyz AND the sum of uniformly distributet random variables is not uniformly distributed! –  Niklas B. Jan 27 '14 at 14:14
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"Unfortunately this has worst case runtime of infinity." Yes, and the probability of getting the worst case is Zero(0). –  RBarryYoung Jan 27 '14 at 14:25

1 Answer 1

up vote 2 down vote accepted

Quote from this answer http://stackoverflow.com/a/137809/261217:

There is no (exactly correct) solution which will run in a constant amount of time, since 1/7 is an infinite decimal in base 5.

Now ask Adam Rosenfield why it is true :)

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