# haskell type signature question

Can someone explain me, why do these functions have different number of arguments and behavior, but the same type signature, yet they are both correct?

``````comp1 :: (a -> b) -> (b -> c) -> a -> c
comp1 f g = g.f

comp2 :: (a -> b) -> (b -> c) -> a -> c
comp2 f g x = g (f x)
``````

also, why does comp2 has

``````comp2 :: (a -> b) -> (b -> c) -> a -> c
``````

instead of something like

``````comp2 :: a -> (a -> b) -> (b -> c) -> a -> c
``````

?

Thank you.

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–  Mauricio Scheffer Nov 25 '10 at 17:30
In which way do the two functions have different behavior? Looks the same to me... –  sepp2k Nov 25 '10 at 17:54
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## 3 Answers

``````comp2 f g x = g (f x)
``````

is syntactic sugar for

``````comp2 = \f -> \g -> \x -> g (f x)
``````

Similarly

``````comp1 f g = g.f
``````

is sugar for

``````comp1 = \f -> \g -> g.f
``````

The definition of `.` is:

``````f1 . f2 = \x -> f1 (f2 x) -- Names of arguments have been changed to avoid confusion
``````

So if we insert the definition into the desugared form of `comp1`, we get:

``````comp1 = \f -> \g -> \x -> g (f x)
``````

This is exactly the same as the desugared form of `comp2`, so clearly the definitions are equivalent.

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`comp1 f g = g.f` is written in point-free style (not referring to points, but to values). When you call `comp1`, there is implicitly a third parameter being passed to `g.f`, which is the composition of the two functions `g` and `f`: `(g.f) x` equals `g (f x)`, i.e. `g` is passed the result of `f x`. No parameter `x` exists in `comp1` because it's implicitly passed to the function. (You could think of `comp1` as a partially applied or curried function if it makes you feel better.)

`comp2`'s type asks for two functions, one from `(a->b)` and another `(b->c)`, as well as a parameter of type `a`. There is no need to put an `a ->` in its signature.

The two functions are really equivalent; one simply uses some Haskell tricks to be more concise.

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thank you, it's clear now. –  Dmitry Cherkassov Nov 25 '10 at 23:54
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Currying. A multi-argument function in ML and Haskell, is just syntactic sugar for a one-argument function that returns a function; the function that it returns takes the remaining arguments.

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