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Reading "Real World Haskell", on page 95 the author provides an example:

myFoldl f z xs = foldr step id xs z
    where step x g a = g (f a x)

My question is: Why does this code compile? foldr takes only three arguments - but here, it is passed four: step, id, xs, z.

For example, this doesn't work (because sum expects one):

sum filter odd [1,2,3]

instead I must write:

sum $ filter odd [1,2,3]
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3 Answers 3

up vote 11 down vote accepted

Here's the type of foldr:

Prelude> :t foldr
foldr :: (a -> b -> b) -> b -> [a] -> b

Can we figure out how it becomes a four-argument function? Let's give it a try!

  1. we're giving it id :: d -> d as the second parameter (b), so let's substitute that into the type:

    (a -> (d -> d) -> (d -> d)) -> (d -> d) -> [a] -> (d -> d)
  2. in Haskell, a -> a -> a is the same as a -> (a -> a), which gives us (removing the last set of parentheses):

    (a -> (d -> d) -> (d -> d)) -> (d -> d) -> [a] -> d -> d
  3. let's simplify, by substituting e for (a -> (d -> d) -> (d -> d)) and f for (d -> d), to make it easier to read:

    e -> f -> [a] -> d -> d

So we can plainly see that we've constructed a four-argument function! My head hurts.

Here's a simpler example of creating an n + 1-argument function from an n-arg func:

Prelude> :t id
id :: a -> a

id is a function of one argument.

Prelude> id id id id id 5

But I just gave it 5 args!

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I don't understand why you can do id id 5, but you can't do: foo x=x+1; bar y=y+1; foo bar 1? – drozzy Feb 11 '12 at 23:46
@drozzy -- it's all about types and polymorphism. Take id :: a -> a: you can substitute any type for a. However, foo is different, because it has constraints: it needs a number: foo :: (Num a) => a -> a. bar :: (Num a) => a -> a is not an instance of the Num typeclass and thus does not satisfy the (Num a) constraint of foo. – Matt Fenwick Feb 11 '12 at 23:51
@drozzy Perhaps it will help if we clarify the associativity of function application! Remember that id id 5 parses as (id id) 5 -- that is, give id as an argument to id first, and then 5 as an argument to the result -- not as id (id 5). – Daniel Wagner Feb 12 '12 at 1:26
@MattFenwick That makes it clear, thanks! – drozzy Feb 12 '12 at 1:51
@DanielWagner Yap, I knew that :-) – drozzy Feb 12 '12 at 1:51

It's because of how polymorphic foldr is:

foldr :: (a -> b -> b) -> b -> [a] -> b

Here, we've instantiated b to a function type, let's call it c -> c, so the type of foldr specializes to (for example)

foldr :: (a -> (c -> c) -> (c -> c)) -> (c -> c) -> [a] -> c -> c
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You could also point out that the neutral element in the original question is already a function, id. – ShiDoiSi Feb 11 '12 at 20:53

foldr only takes 3 arguments

Wrong. All functions in Haskell take exactly 1 argument, and produce exactly 1 result.

foldr :: (a -> b -> b) -> b -> [a] -> b

See, foldr takes one argument (a -> b -> b), and produces 1 result: b -> [a] -> b. When you see this:

foldr step id xs z

Remember, it is just shorthand for this:

((((foldr step) id) xs) z)

This explains why this is nonsense:

sum filter odd [1,2,3]
(((sum filter) odd) [1,2,3])

sum :: Num a => [a] -> a takes a list as its input, but you gave it a function.

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