# What is the most efficient way to find a random prime number between 2 values [closed]

I would like your thoughts on finding a prime number between 2 values.

Would I have to first generate the random number ie ( `int rand = getRand(min, max)` )

and then check if it is prime? ie ( `checkIfPrime(rand)` )

is there a more efficient way of doing this because potentially a prime might not be found.

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## closed as not constructive by Oded♦, KevSep 19 '12 at 21:40

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Are the "2 values" bounded? What is the interval between them likely to be? What should happen if there are no prime numbers in the interval? –  Joey Sep 19 '12 at 10:06
Generate all prime numbers. Then you randomly select a prime number in within the given range. Optionally, tell us how you solved the first step. –  Philip Sep 19 '12 at 10:35

## 3 Answers

An alternative is to use Sieve of Eratosthenes to generate all prime numbers in the range, and then just randomly chose one.

It is especially useful if you are going to generate a lot of numbers in similar/identical range - you can generate this list only once and randomly chose an element.

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Or stop when the first number in the range is found –  Kirk Broadhurst Sep 19 '12 at 10:07
I think this is only a reasonable approach if the 'max' number is quite small, otherwise you'll be storing lots and lots of primes –  Joey Sep 19 '12 at 10:11
@KirkBroadhurst: If you stop when you find the first number in the range - the algorithm will not be random, or am I misunderstanding you? –  amit Sep 19 '12 at 10:11
I don't think this is practical for large numbers. However, you could lower the range of possible values by dropping even numbers (with the exception of 2) and numbers ending in 5, 0 etc... –  Robbie Dee Sep 19 '12 at 10:44
@amit no, you are correct - I was misunderstanding the question. –  Kirk Broadhurst Sep 20 '12 at 0:50

Random with what distribution, btw? What you've done has an equal chance of selecting any of the random numbers in range, assuming that `getRandom` does too.

You could very slightly increase its efficiency by (for example) generating a random number in the range (min/3 - a_bit, max/3 - another_bit). Multiply it by 3, then add 1 if it's even and 2 if it's odd. Then test for prime. The reason is that all primes greater than 6 are either 1 or 5 mod 6, so by doing this (and special-casing when `min < 6`), you don't have to generate so many random numbers. Generating really good random numbers is slowish, so `getRandom` might be slowish, in which case it's probably worth reducing the expected number of calls to it by a factor of 3.

You can further reduce the number of composites you have to discard via the same method, based on a number bigger than 6. But 6 is particularly simple.

Crypto packages have a need for random primes, and AFAIK they do roughly what you say. Since the numbers involved are large, they use probably-prime tests, but it's the same principle.

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You could be to use the Miller-Rabin test, to check a random number within a range. If you use 32bit integer, you only need to check primality for 3 bases (2,7,61) and 7 bases for 64bit integer (2, 325, 9375, 28178, 450775, 9780504, 1795265022) ; for other limits you can check The best known SPRP bases sets.
To increase efficiency you can discard obvious compound numbers (only select a number of the form 6n+/-1 as stated by Steve Jessop, check by trivial division with small primes, ...)

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