I am trying to write a function that calculates the average of the values of a list containing type Num.

Here is what I tried:

mean :: Num a => [a] -> Double
mean [] = error "Trying to calculate mean of 0 values"
mean x = sumx / lengthx
    sumx = fromIntegral (sum x)
    lengthx = fromIntegral length x

GHCI rejects the fromIntegral function because it expects an Integral type not a Num.

Is there a way to convert a Num, whatever its specific type, to a Double?

  • fromIntegral turns an Integral type into a user-requested Num type. You want something that can turn an arbitrary Num into a Fractional value (which (/) can accept as an argument). – chepner Jun 10 at 15:29

The problem with converting Num a => a to a Double is that a Num may not actually be a number at all. There is no requirement for a member of the Num class to be a number of some sort. You can go and implement an instance of Num for anything, even for unit.

One obvious real-life example is Complex: it has an instance of Num, but a complex number can't always be converted to a real one.

If you want your function to work with integers, just specify Integral as your constraint.


OK, I finally found the way to do this:

mean :: Fractional a => [a] -> a
mean xs = sum xs / fromIntegral (length xs)

This works even if I apply it to a list of Integers. I am not sure why because Fractional does not apply to Integers according to the documentation I have read.

My understanding of Haskell is still obviously quite limited.

  • 2
    This doesn't work for integers, try mean [1, 2, 3 :: Int]. – Noughtmare Jun 10 at 13:32
  • 1
    When you write mean [1,2,3], the literal [1,2,3] is not a list of integers. (In koan form: a list of integers is not a list of integers when it's mean.) – Daniel Wagner Jun 10 at 17:47
  • Thanks Noughtmare and Daniel. I only figured that out after my post. – Mike Jun 10 at 17:50

A more general way to write it is to use Real:

mean :: (Real a, Fractional b) => [a] -> b
mean xs = realToFrac (sum xs) / fromIntegral (length xs)

But that is not completely satisfactory because this doesn't work on lists of Complex numbers or other non-Real numbers.

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