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The type of the Prelude function flip is:

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

I.e., it takes one binary function and two arguments.

The type of the Prelude function id is:

id :: a -> a

But the type of flip id is:

flip id :: a -> (a -> b) -> b

How is it possible to apply flip to id when id is a unary function and flip requires binary function for the first arg?

btw. flip id is similar to \ x f -> f x

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2 Answers 2

up vote 14 down vote accepted

Haskell makes id fit the type of the first argument to flip by setting a = b -> c. So:

flip :: ( a       -> b -> c) -> b ->  a       -> c
flip :: ((b -> c) -> b -> c) -> b -> (b -> c) -> c
flip id ::                      b -> (b -> c) -> c

where id is taken to be of type

id :: (b -> c) ->  b -> c

which is equivalent to

id :: (b -> c) -> (b -> c)

i.e. a specialisation of id that only applies to unary functions.

Edit: I think I might rephrase my first line as:
Haskell deduces that id fits the type of the first argument to flip if a = b -> c.
In case that's any clearer.

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I forgot that the general type identifier a can be a function too, thanks. –  tomp Nov 11 '09 at 14:46

Nefrubyr explains it very well.
Another way to (hopefully) make this a bit more intuitive is to think of the function application operator ($).

($) is a specialized form of id:

($) :: (a -> b) -> (a -> b)
($) = id

I've seen the definition (#) = flip ($), such that you can write the argument before the function its applied to: obj # show.

Obviously, since ($) is just a specialized form of id, you could also write: (#) = flip id

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