# How does currying work?

I'm very new to Haskell and FP in general. I've read many of the writings that describe what currying is, but I haven't found an explanation to how it actually works.

Here is a function: `(+) :: a -> (a -> a)` If I do `(+) 4 7`, the function takes `4` and returns a function that takes `7` and returns `11`. But what happens to `4` ? What does that first function do with `4`? What does `(a -> a)` do with `7`?

Things get more confusing when I think about a more complicated function:

``````max' :: Int -> (Int -> Int)
max' m n | m > n = m
| otherwise = n
``````

what does `(Int -> Int)` compare its parameter to? It only takes one parameter, but it needs two to do `m > n`.

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stackoverflow.com/questions/1352855/… -- a good resource for you! –  progo Jul 11 '11 at 15:08
@progo: that's a good link, but I don't think it's what the questioner is asking. This is clearly asking for how currying is implemented, not what it is. –  John L Jul 11 '11 at 20:49
you just construct a new expression why you define new anything. any expression won't be calculated except you try to show or force it. I suggest you read a term about lambda calculus in wikipedia –  snowcake and icejelly Jan 30 '12 at 17:09

Does this help?

``````max' = \m -> \n -> if (m > n)
then m
else n
``````

Written as lambdas. max' is a value of a lambda that itself returns a lambda given some m, which returns the value.

Hence max' 4 is

``````max' 4 = \n -> if (4 > n)
then 4
else n
``````
-

You can think of it like that the function stores the argument and returns a new function that just demands the other argument(s). The new function already knows the first argument, as it is stored together with the function. This is handled internally by the compiler. If you want to know how this works exactly, you may be interested in this page although it may be a bit complicated if you are new to Haskell.

If a function call is fully saturated (so all arguments are passed at the same time), most compilers use an ordinary calling scheme, like in C.

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+1. `map' 4` is a function with one argument and it has type `Int -> Int` –  eternalmatt Jul 12 '11 at 19:02

Something that may help is to think about how you could implement curry as a higher order function if Haskell didn't have built in support for it. Here is a Haskell implementation that works for a function on two arguments.

``````curry :: (a -> b -> c) -> a -> (b -> c)
curry f a = \b -> f a b
``````

Now you can pass `curry` a function on two arguments and the first argument and it will return a function on one argument (this is an example of a closure.)

In ghci:

``````Prelude> let curry f a = \b -> f a b
Prelude> let g = curry (+) 5
Prelude> g 10
15
Prelude> g 15
20
Prelude>
``````

Fortunately we don't have to do this in Haskell (you do in Lisp if you want currying) because support is built into the language.

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I would say it makes more sense to transform an uncurried function, which uses a tuple, to a curried function which doesn't, for the example. –  alternative Jul 11 '11 at 18:37
Maybe, I thought an example without tuples would be very similar to what Haskell allows and intermediate data structures might confuse things. –  Andrew Myers Jul 12 '11 at 12:08
``````function add(\$a) {