The problem is that
length :: [a] -> Int
(/) :: (Fractional a) => a -> a -> a
So, when you say
whatever / length xs, it doesn't type, because Int is not a Fractional number type! This is what the "No instance for..." error is trying to tell you. This definition will work:
GHCi> let avg xs = sum xs / fromIntegral (length xs)
Here, we use
fromIntegral :: (Integral a, Num b) => a -> b to convert the Int we get from
length into a Fractional number. Note that the resulting function will only work on lists of Fractional numbers because of this (but e.g.
avg [1,2,3] will still work fine).
To explain the error you get when doing it "in pieces", it's because in
let a = sum [1,2], the list's elements are Integers, so their sum is an Integer, but in
let b = length [1,2], the resulting length is an Int, per the type of
length I showed above. So, when you do
a/b, this fails way before it even realises that Int and Integer are not instances of Fractional — since
(/) takes two arguments of the same type, it can't possibly work.
And yes, Integer and Int are different — Int is a fixed-precision integral type, usually the size of a numeric word, like
long in C, whereas Integer is an arbitrary-precision bignum, capable of storing any integer; or at least, any integer that'll fit into your RAM :)
Another possible approach would be to define
avg xs as
sum xs / genericLength xs, using
Data.List.genericLength, which works with any numeric type, not just Ints:
genericLength :: (Num b) => [a] -> b
For that, you'll have to
import Data.List in GHCi. Yet another possible approach (but one resulting in a different function altogether) would be to use integer division:
let avg xs = sum xs `div` length xs (note:
a `div` b is just
div a b; this syntactic sugar works for every function).