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The followng snippet contains a solution for exercise 3 on page 69 (write a function mean to calculate the mean of a list).

While writing some QuickCheck tests to verify whether the its results are more or less sane, I found that on my system (ghc 6.12.3, Haskell Platform 2010.2.0.0 on 32-but Ubuntu 10.4) the tests work for Integer inputs, but not for Int ones. Any idea on why?

import Test.QuickCheck

-- From text and previous exercises
data List a = Cons a (List a)
            | Nil
              deriving (Show)

fromList        :: [a] -> List a
fromList []     = Nil
fromList (x:xs) = Cons x (fromList xs)

listLength             :: List a -> Int
listLength Nil         = 0
listLength (Cons x xs) = 1 + listLength xs

-- Function ``mean`` is the aim of this exercise
mean             :: (Integral a) => List a -> Double
mean Nil         = 0
mean (Cons x xs) = (fromIntegral x + n * mean xs) / (n + 1)
    where n = fromIntegral (listLength xs)

-- To overcome rounding issues
almostEqual     :: Double -> Double -> Bool
almostEqual x y = (abs (x - y)) < 0.000001

-- QuickCheck tests for ``mean``
prop_like_arith_mean :: (Integral a) => [a] -> Property
prop_like_arith_mean xs = not (null xs) ==>
                          (mean (fromList xs))
                          (fromIntegral (sum xs) / fromIntegral (length xs))

prop_sum :: (Integral a) => [a] -> Bool
prop_sum xs = almostEqual
              (fromIntegral (length xs) * mean (fromList xs))
              (fromIntegral (sum xs))

-- This passes:
check_mean_ok =
    quickCheck (prop_like_arith_mean :: [Integer] -> Property) >>
    quickCheck (prop_sum :: [Integer] -> Bool)

-- This fails:
check_mean_fail =
    quickCheck (prop_like_arith_mean :: [Int] -> Property) >>
    quickCheck (prop_sum :: [Int] -> Bool)

main = check_mean_ok >>
share|improve this question
Completely irrelevant to the question, but your mean function looks very inefficient to me. It calculates the length of the list at each step in the recursion, which means that this function will traverse the list much more than is necessary. There are many discussions on how to optimize this; try looking through the haskell-cafe archives or read Conal Elliott's blog post on "Beautiful Folds". –  John L Sep 1 '10 at 22:27
@John: Thanks for the comment: I found squing.blogspot.com/2008/11/beautiful-folding.html following Conal's post, and it's been very enlightening! –  Carlos Valiente Sep 2 '10 at 17:11
thanks for that link. My apologies to the original author; I was only familiar with Conal's followup and thus didn't give credit where it's due. –  John L Sep 2 '10 at 18:02
possible duplicate of Haskell Int and Integer –  Don Stewart Apr 22 '11 at 21:28

1 Answer 1

up vote 5 down vote accepted

Int is based on the underlying system's int implementation, and will probably the same lower and upper limits as the underlying system (but at least a range of [ -2^29, 2^29 - 1]. Integer has arbitrary precision. Therefore you might be seeing an overflow or underflow when you use Int.

share|improve this answer
Thanks, jball -- I had not thought about the over-/underflow –  Carlos Valiente Sep 1 '10 at 20:17

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