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I'm working through Project Euler, and a lot of problems involve similar functions, for example calculating lists of primes. I know calculations with Integer are slower than Int so I'd like to write the functions to work with both, depending on the size of the numbers I'm working with.

module Primes

import Data.List

isPrime :: Int -> Bool
isPrime n
    | n == 0 = False
    | n == 1 = False
    | n < 0 = isPrime (-n)
    | n < 4 = True
    | n `mod` 2 == 0 = False
    | n `mod` 3 == 0 = False
    | any ( (==0) . mod n ) [5..h] = False
    | otherwise = True
        h = ( ceiling . sqrt . fromIntegral ) n

allPrimes :: [Int]
allPrimes = [ x | x<- [2..], isPrime x ]

prime :: Int -> Int
prime n = allPrimes !! (n-1)

I know this code isn't generally as optimal as it could be. I'm just interested in how to make the integer types more generic.

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I posted a short code review of isPrime (with a focus on preserving the exact algorithm presented here) at hpaste.org/50988 (if you're interested). –  Daniel Wagner Sep 5 '11 at 20:56

2 Answers 2

up vote 7 down vote accepted

Try Integral it should allow support for both Int and Integer

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Sounds good. I can't paste the actual code without losing all the formatting, but I replaced the signatures with: isPrime :: (Integral n) => n -> Bool allPrimes :: (Integral n) => [n] prime :: (Integral n, Integral m) => n -> m and I get this error: "Primes.hs:29:24: Couldn't match expected type Int' against inferred type n' n' is a rigid type variable bound by the type signature for prime' at Primes.hs:28:19" –  Peter Hall Sep 5 '11 at 0:21
@Peter Hall the (!!) function takes an Int parameter. prime should have type Integral n => Int -> n. –  Heatsink Sep 5 '11 at 0:41
That was it. Thanks! –  Peter Hall Sep 5 '11 at 1:05

A more general solution to this kind of problem, you could try getting your code to compile without the explicit type declarations. Haskell will assume the most general type possible and you can find out what it was by, for example, loading your file on GHCi and doing a :t myFunctionName

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