Whenever I write a function using doubles and integers, I find this problem where I am constantly having to use 'fromIntegral' everywhere in my function. For example:

import Data.List

    :: Double
    -> Int 
    -> Double
roundDouble x acc = fromIntegral (round $ x * 10 ** fromIntegral acc) / 10 ** fromIntegral acc

Is there an easier way of writing this? (I know there may be easier ways of rounding a number and if there are please let me know! However I am mainly interested in how to avoid using so many 'fromIntegrals'.)

Thanks, Ash

up vote 24 down vote accepted

Sometimes I find a helper function useful:

roundDouble x acc = (round $ x * 10 ^ acc) /. (10 ^ acc)
    x /. y = fromIntegral x / fromIntegral y

That helper function can also be written:

(/.) = (/) `on` fromIntegral

Where on is from Data.Function.

  • Wasn't aware of on, thanks for pointing it out! – J Cooper Aug 11 '10 at 5:58
  • 1
    And its variant: stackoverflow.com/questions/3453608/… – sastanin Aug 11 '10 at 13:52
  • 6
    The type of (/.) is (Integral a, Fractional b, Integral a1) => a -> a1 -> b whereas the type of (/) on fromIntegral is (Fractional b, Integral a) => a -> a -> b. If you need the more general type, on is not appropriate. – Peaker Aug 17 '10 at 12:14

You can use ^ instead of **. ^ takes any Integral as it's second argument, so you don't need to call fromIntegral on the second operand. So your code becomes:

roundDouble x acc = fromIntegral (round $ x * 10 ^ acc) / 10 ^ acc

Which has only one fromIntegral. And that one you can't get rid off as round naturally returns an Integral and you can't perform non-integer division on an Integral.

I have a similar problem with marshaling code, where fromIntegral is used to convert CInt to Int. I usually define fI = fromIntegral to make it easier. You may also need to give it an explicit type signature or use -XNoMonomorphismRestriction.

If you're doing a lot of math, you may want to look at the Numeric Prelude, which seems to have much more sensible relations between different numeric types.

  • 1
    I was expecting to see the answer to be defining fI so I am glad to see someone else write it. I will check out the Numeric Prelude, it looks very useful, thanks! – Ash Aug 10 '10 at 23:15
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    Defining fI isn't as slick as some other answers, but it has the broadest applicability compared to the other answers so far. – John L Aug 11 '10 at 7:46

Another idea, similar to luqui's. Most of my problems with fromIntegral are related to necessity to divide Int by Double or Double by Int. So this (/.) allows to divide any two Real types, not necessarily the same, an not necessarily Integral types like in luqui's solution:

(/.) :: (Real a, Real b, Fractional c) => a -> b -> c
(/.) x y = fromRational $ (toRational x) / (toRational y)


ghci> let (a,b,c) = (2::Int, 3::Double, 5::Int)
ghci> (b/.a, c/.a, a/.c)

It works for any two Reals, but I suspect that rational division and conversion to/from Rational are not very effective.

Now your example becomes:

roundDouble :: Double -> Int -> Double
roundDouble x acc = (round $ x * 10 ^ acc) /. (10 ^ acc)

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