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Suppose you are given a binary string of length n. And you have to split it into chunks of, for example, 5,10 and 17 bits such that every partitioning is equally likely to occur.

My one idea was to generate a random solution of 5x+10y+17z=n, and then shuffle the set
{5,..,5,10,..,10,17,..,17} where number of 5's, 10's and 17's corresponds to solution (x,y,z) i obtained.
Getting a random solution of linear Diophantine equation seems to be difficult though.
(i.e. i have no clue how to do it)

My another approach was to use some sort of recursive function:

 recursive_partition(int n, partitions)
    recursive_partition(n-temp, partitions)

the problem with this is that function comes to dead end when 0< n <5
for example if the input is n=57 and the function takes two 17's.
Because i need a uniform random partitioning the only thing i can do is to start over again.
Is there a computationally feasible way to solve this problem?
5,10 and 17 are just examples by the way. I need a universal algorithm.

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By "every partitioning is equally likely to occur" are you saying that you want the output to have roughly as many chunks of each of the desired lengths? And what are you supposed to do in your example if n is 18, and no exact partitioning is possible? – ClickRick May 15 '14 at 7:12
Also, I think you meant "two 17's" -> "three 17's" (3x17=51 leaving 6) – ClickRick May 15 '14 at 7:13

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