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I am curious to know what the best way to generate a random integer R that is not in a provided set of integers (R∉N). I can think of several ways of doing this but I'm wondering what you all think.

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It depends on how discrete your sets are. Which is more like what you want?: (1) Generate a random integer between 1 and 50, but not 4,5, or 6 or (2) Generate a random double between 0.0 and 1.0, but not between 0.1 and 0.2 –  Justin Jul 29 '10 at 19:54
I'm sorry I didn't clarify that. R is an integer and every number in N is an integer. –  Alan Jul 29 '10 at 19:59

3 Answers 3

up vote 11 down vote accepted

Let N be the size of the overall set, and let K be the size of the excluded set.

I depends on the size of the set you are sampling from. If the excluded set is much smaller than the overall range, just choose a random number, and if it is in the excluded set, choose again. If we keep the excluded set in a hash table each try can be done in O(1) time.

If the excluded set is large, choose a random number R in a set of size (N - K) and output the choice as the member of the non excluded elements. If we store just the holes in a hash table keyed with the value of the random number we can generate this in one sample in time O(1).

The cutoff point will depend on the size of (N - K)/N, but I suspect that unless this is greater than .5 or so, or you sets are very small, just sampling until you get a hit will be faster in practice.

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+1 - showed both the selective and restrictive cases. –  aperkins Jul 29 '10 at 20:00
wow very good solutions –  Alan Jul 29 '10 at 20:01
Good answer in principle, but I would not be sure about that 0.9 threshold---I think it might be significantly lower in many cases and would begin to feel quite uneasy at about 0.5. I guess you can only test it in your application, but when in doubt, I would prefer the deterministic runtime. –  Svante Jul 29 '10 at 20:18
There's no reason to use a tree for this. If you don't know what all the holes are, sampling is faster than building a tree. If you do know, you should have built a hash table using that time instead of a tree. –  chuck taylor Jul 29 '10 at 20:23
@Svante: Random running time is not something to be scared of... even with a factor of 0.9, the expected number of trials is only 10. –  Eyal Schneider Jul 29 '10 at 20:29

Given your limited description? Find the maximum value of the elements in N. Generate only random numbers greater than that.

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Generate a random number R in the entire domain (subtract the size of N from the max value) that you want to use. Then loop through all N less than R and for each add 1 to R. This will give a random number in the domain that is not in N.

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That is not true random generation, because it will be weighted towards edge numbers - numbers that are near the elements in N. –  aperkins Jul 29 '10 at 19:52
No it will not because it adds 1 to R whether or not there is a conflict. –  murgatroid99 Jul 29 '10 at 19:54
Yes, which is why it will end up around the edges - your R will be more likely to be the one right above one in the set of N than not - twice as likely. To hit a number right above another would become 2/P, where P is the entire set of numbers available, and all other numbers would be 1/P. If you had numbers in a row - say 2,3,4 - in the set, then for every number in a row, the chance of hitting the one above it (4 in this example) goes up by 1/P per number in a row after the first (4/P in my example). –  aperkins Jul 29 '10 at 19:59
Actually, murgatroid99 is right. Imagine the set of numbers not in N. Its size is K - N. Now, generate a random index for this set. Finally, you need to count it off, and that is just jumping the holes, which is exactly what murgatroid99 is proposing. –  Svante Jul 29 '10 at 20:23
It should be written more clearly, though; perhaps: "Loop through the ascendingly sorted set N, adding 1 to R for each element, until the next element is bigger than R." –  Svante Jul 29 '10 at 20:27

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