# Haskell 'any' function - primality check

I'm trying to define an is_prime function in Haskell. Can anyone point out the issue with the use of the any function?

In addition, I know that the below code is naive, but I am learning the language so starting with babysteps.

is_prime 0 = False
is_prime 1 = False
is_prime 2 = True
is_prime n = any [n mod k == 0 | k <- [2.. sqrt n]]


Thanks

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Note that, apart from @Jan's fix regarding the use of any - by the way, the function that does what you seem to have expected from any is called or - and the use of sqrt, your check is wrong, you're missing a not, as is, it would return True for composite numbers and False for primes (other than 2). –  Daniel Fischer Dec 17 '11 at 22:59
You could also think of the solution as making a list of all the divisors and checking if that list is null (or not): null [k | k <- [2..sqrt n], n mod k == 0] –  Thomas M. DuBuisson Dec 17 '11 at 23:19
Good question. In this case it wasn't too hard to see the error, but in the future you should probably include an error message, so it is easier to see what the problem is. –  Boris Sep 11 at 7:55

Type of any is (a -> Bool) -> [a] -> Bool, so it accepts a predicate and a collection. So you should rewrite your last case as for instance
is_prime n = not $any (\k -> n mod k /= 0) [2 .. ceiling$ sqrt \$ fromIntegral n]

fromIntegral is necessary because sqrt's type is Floating a => a -> a while your n is an integer. Subsequently, without ceiling the second argument of any would be Floating t => [t]. This would break, as calling mod, whose type is Integral a => a -> a -> a, on non-integral types is illegal.