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So I have devised the following function for seeing if a given number is a prime in Haskell (it assumes the first prime is 2):

isPrime k = length [ x | x <- [2..k], k `mod` x == 0)] == 1

it has the obvious pitfall of continuing the evaluation even if it is divisible by several numbers :(. Is there any sane way of "cutting" the evaluation when it finds more than one solution, using list comprehensions?

Also, which other implementations would you you try on? I'm not looking for performance here, I'm just trying to see if there are other more "haskellish" ways of doing the same thing.

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possible duplicate of Lazy List of Prime Numbers –  Landei Jan 14 '11 at 12:37
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4 Answers

A quick change to your code that will 'short circuit' the evaluation and relies on the laziness of Haskell Lists is:

isPrime k = null [ x | x <- [2..k - 1], k `mod`x  == 0]

The first divisor of k will cause the list to be non-empty and the Haskell implementation of null will only look at the first element of the list.

You should only need to check up to sqrt(k) however [1]:

isPrime k = null [ x | x <- [2..isqrt k], k `mod`x  == 0]

Of course, if you are looking to do high-performance primality testing, a library is preferred.

[1] http://www.codecodex.com/wiki/Calculate_an_integer_square_root#Haskell

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Here is the best resource for prime numbers in haskell in haskell.org

and here prime.hs github project

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It's perhaps not directly relevant, but on the topic of finding primes in functional languages I found Melissa E. O'Neill's The Genuine Sieve of Eratosthenes very interesting.

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Ignoring the primes issue, and focusing on the narrow point of a more efficient method of length xs == n:

hasLength :: Integral count => [a] -> count -> Bool
_        `hasLength` n | n < 0 = False
[]       `hasLength` n         = n == 0
(_ : xs) `hasLength` n         = xs `hasLength` (pred n)

isPrime k = [ x | x <- [2..k], k `mod` x == 0)] `hasLength` 1
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