I'm making a function in Haskell that halves only the evens in a list and I am experiencing a problem. When I run the complier it complains that you can't perform division of an int and that I need a fractional int type declaration. I have tried changing the type declaration to float, but that just generated another error. I have included the function's code below and was hoping for any form of help.

halfEvens :: [Int] -> [Int]
halfEvens [] = []
halfEvens (x:xs) | odd x = halfEvens xs
                 | otherwise = x/2:halfEvens xs

Thank you for reading.

  • 2
    I think you want x div 2 in this case. I'll let someone else confirm that I'm right (not 100% sure I am) and give a more complete explanation.
    – Tyler
    Sep 10, 2011 at 0:57

2 Answers 2


Use div, which performs integer division:

halfEvens :: [Int] -> [Int]
halfEvens [] = []
halfEvens (x:xs) | odd x = halfEvens xs
                 | otherwise = x `div` 2 : halfEvens xs

The (/) function requires arguments whose type is in the class Fractional, and performs standard division. The div function requires arguments whose type is in the class Integral, and performs integer division.

More precisely, div and mod round toward negative infinity. Their cousins, quot and rem, behave like integer division in C and round toward zero. div and mod are usually correct when doing modular arithmetic (e.g. when calculating the day of the week given a date), while quot and rem are slightly faster (I think).

Playing around a bit in GHCi:

> :t div
div :: Integral a => a -> a -> a
> :t (/)
(/) :: Fractional a => a -> a -> a
> 3 / 5
> 3 `div` 5
> (-3) `div` 5
> (-3) `quot` 5
> [x `mod` 3 | x <- [-10..10]]
> [x `rem` 3 | x <- [-10..10]]
  • Yes, quot is faster because that's what the machine instruction tends to do. Except for the NS32k processor that had both kinds of division instructions.
    – augustss
    Sep 10, 2011 at 9:06
  • 1
    Does ghc optimize division by a power of 2 into a right-shift? An arithmetic right shift of n bits will divide by 2n, but it will round towards negative infinity (if you right shift -1, you still get -1). To round towards 0, you have to add (2n)-1 if the input is negative before shifting. In this case, div should be faster than quot
    – pat
    Sep 10, 2011 at 15:53
  • @pat, I doubt it. ghc does not do very many arithmetic tricks.
    – luqui
    Sep 11, 2011 at 1:05
  • @luqui: I wonder if the underlying compiler (GCC, LLVM, etc.) can do it, even after the operation is obfuscated by the code that implements div using quot.
    – Joey Adams
    Sep 11, 2011 at 1:24

I should add that using map would simplify the code.

HalfIfEven n
  | even n = n `div` 2
  | otherwise = n

halfEvens = map halfIfEven
  • 2
    But that doesn't give you the same result. The original code removes the odds, yours does not. Simplest would probably be halfEvens = map (`div` 2) . filter even
    – semicolon
    Jul 14, 2016 at 15:40

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