# What is 'Currying'?

I've seen references to curried functions in several articles and blogs but I can't find a good explanation (or at least one that makes sense!)

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Currying is when you break down a function that takes multiple arguments into a series of functions that take part of the arguments. Here's an example in Scheme

``````(define (add a b)
(+ a b))

``````

This is a function that takes two arguments, a and b, and returns their sum. We will now curry this function:

``````(define (add a)
(lambda (b)
(+ a b)))
``````

This is a function that takes one argument, a, and returns a function that takes another argument, b, and that function returns their sum.

``````((add 3) 4)

``````

The first statement returns 7, like the (add 3 4) statement. The second statement defines a new function called add3 that will add 3 to its argument. This is what some people may call a closure. The third statement uses the add3 operation to add 3 to 4, again producing 7 as a result.

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In a practical sense, how can I make use this concept? –  Strawberry Aug 8 '13 at 18:00
@Strawberry, say for instance that you have a list of numbers in a `[1, 2, 3, 4, 5]` that you wish to multiply by an arbitrary number. In Haskell, I can write `map (* 5) [1, 2, 3, 4, 5]` to multiply the whole list by `5`, and thus generating the list `[5, 10, 15, 20, 25]`. –  nyson Oct 26 '13 at 16:52
I understand what the map function does, but I'm not sure if I understand the point you're trying to illustrate for me. Are you saying the map function represents the concept of currying? –  Strawberry Oct 26 '13 at 23:11
@Strawberry The first argument to `map` must be a function that takes only 1 argument - an element from the list. Multiplication - as a mathematical concept - is a binary operation; it takes 2 arguments. However, in Haskell `*` is a curried function, similar to the second version of `add` in this answer. The result of `(* 5)` is a function that takes a single argument and multiplies it by 5, and that allows us to use it with map. –  Doval Jan 17 at 15:22
@Strawberry The nice thing about functional languages like Standard ML or Haskell is that you can get currying "for free". You can define a multi-argument function as you would in any other language, and you automatically get a curried version of it, without having to throw in a bunch of lambdas yourself. So you can produce new functions that take less arguments from any existing function without much fuss or bother, and that makes it easy to pass them to other functions. –  Doval Jan 17 at 15:25

Currying is a transformation that can be applied to functions to allow them to take one less argument than previously.

For example, in F# you can define a function thus:-

``````let f x y z = x + y + z
``````

Here function f takes parameters x, y and z and sums them together so:-

``````f 1 2 3
``````

Returns 6.

From our definition we can can therefore define the curry function for f:-

``````let curry f = fun x -> f x
``````

Where 'fun x -> f x' is a lambda function equivilent to x => f(x) in C#. This function inputs the function you wish to curry and returns a function which takes a single argument and returns the specified function with the first argument set to the input argument.

Using our previous example we can obtain a curry of f thus:-

``````let curryf = curry f
``````

We can then do the following:-

``````let f1 = curryf 1
``````

Which provides us with a function f1 which is equivilent to f1 y z = 1 + y + z. This means we can do the following:-

``````f1 2 3
``````

Which returns 6.

This process is often confused with 'partial function application' which can be defined thus:-

``````let papply f x = f x
``````

Though we can extend it to more than one parameter, i.e.:-

``````let papply2 f x y = f x y
let papply3 f x y z = f x y z
etc.
``````

A partial application will take the function and parameter(s) and return a function that requires one or more less parameters, and as the previous two examples show is implemented directly in the standard F# function definition so we could achieve the previous result thus:-

``````let f1 = f 1
f1 2 3
``````

Which will return a result of 6.

In conclusion:-

The difference between currying and partial function application is that:-

Currying takes a function and provides a new function accepting a single argument, and returning the specified function with its first argument set to that argument. This allows us to represent functions with multiple parameters as a series of single argument functions. Example:-

``````let f x y z = x + y + z
let curryf = curry f
let f1 = curryf 1
let f2 = curryf 2
f1 2 3
6
f2 1 3
6
``````

Partial function application is more direct - it takes a function and one or more arguments and returns a function with the first n arguments set to the n arguments specified. Example:-

``````let f x y z = x + y + z
let f1 = f 1
let f2 = f 2
f1 2 3
6
f2 1 3
6
``````
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So methods in C# would need to be curried before they could be partially applied? –  cdmckay Jul 25 '12 at 1:43
@acarlon Functions are often called repeatedly with one or more arguments the same. For example, if you want to `map` a function `f` over a list of lists `xss` you can do `map (map f) xss`. –  Jon Harrop Sep 5 '13 at 10:32