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I'm attempting to take the square of the sum of integers in Haskell using a fold. However, I'm getting a cryptic error from GHCi. Here is my one-liner:

((^2) . foldl) (+) 0 [1..100]

What I'm getting from GHCi is:

Prelude> ((^2) . foldl) (+) 0 [1..100]

    No instance for (Num (b0 -> [b0] -> b0))
      arising from a use of `^'
    Possible fix:
      add an instance declaration for (Num (b0 -> [b0] -> b0))
    In the first argument of `(.)', namely `(^ 2)'
    In the expression: (^ 2) . foldl
    In the expression: ((^ 2) . foldl) (+) 0 [1 .. 100]

I think the problem is in the list I'm passing in at the end based on this type declaration.

Prelude> :t ((^2) . foldl) (+) 0 [1..100]
((^2) . foldl) (+) 0 [1..100]
  :: (Enum b, Num b, Num (b -> [b] -> b)) => b

Can anyone give me some insight into why this type is expecting an Enum and any way to explicitly cast the list so that I can debug this function? Thanks in advance.

share|improve this question

Yeah, this remains one of the most ridiculous and useless error messages GHC produces.

First, ignoring the message, consider the type of foldl and (.):

foldl :: (a -> b -> a) -> a -> [b] -> a
(.) :: (b -> c) -> (a -> b) -> a -> c

Note that (.) composes using only the first arguments. Because of currying, a function with "multiple" arguments is really a function of one argument that returns another function. So in the expression ((^2) . foldl) the "return type" of foldl is a -> [b] -> a, which is what it tries to compose with (^ 2).

And because the error message is dumb, it complains that there's no Num instance for a -> [b] -> a in order to compose it with (^2) :: Num a => a -> a and suggests you add one.

What you wanted is something like this: ((^2) . foldl (+) 0). That said, using the (lazy) foldl is probably a bad idea here. Better to use the strict foldl' or, better still, the built-in sum function: (^2) . sum

Also, the Enum constraint mentioned in the type is irrelevant, and in fact correct--the Enum type class provides the functions used to interpret the range notation. So (Enum b, Num b) => ... means that b is a numeric type that can be enumerated, which is exactly what you need for the expression [1 .. 100].

share|improve this answer

The correct way to write this is (^2) . foldl (+) 0 :: Num a => [a] -> a or (^2) . foldl (+) 0 $ [1..100] :: (Num a, Enum a) => a. When you do (^2) . foldl by itself you try to square an argument of the first return type of foldl, which is a function a -> [a] -> a. The error declares this: it doesn't have a Num instance for this kind of function so it can't dispatch an appropriate power function (^).

Generally, think of composition (.) as something that only works on functions of single inputs. The type is indicative of this

(.) :: (b -> c) -> (a -> b) -> a -> c

and while there are more general uses of it, they're a little difficult to find.

So my solution works because I apply arguments directly to foldl before composing it. These arguments make foldl (+) 0 :: Num a => [a] -> a a function of a single input argument.

share|improve this answer

Good answers have been given, but perhaps it's more straightforward to write it

(^2) $ foldl (+) 0 [1..100]

The expression foldl (+) 0 [1..100] works by itself, which helps if you're trying to understand how foldl works, and then the result is passed to the (^2) . Written as a function

f list = (^2) $ foldl (+) 0 list

share|improve this answer
Even more straightforward: foldl (+) 0 [1..100] ^ 2. – augustss May 1 '13 at 19:29

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