Generally speaking, *currying* means transforming a two-argument function into one that takes one argument and returns another one-argument function, so that the result of calling the curried function with the first argument and then the result of this with the second argument is equivalent to calling the original (uncurried) function with both arguments. In a pseudo-C language with closures and dynamic typing (or type inference), this would look something like so:

```
// The original, uncurried function:
function f(a, b) { return 2 * a - b; }
// The curried function:
function g(a) {
return function(b) {
return f(a, b);
}
}
// Now we can either call f directly:
printf("%i\n", f(23, 42));
// Or we can call the curried function g with one parameter, and then call the result
// with another:
printf("%i\n", (g(23))(42));
```

By currying multiple times, we can reduce any multi-argument function to a nested set of one-argument functions.

In Haskell, all functions are single-argument; a construct like `f a b c`

is actually equivalent to `((f(a))(b))(c)`

in our fictional C-with-closures. The only way to really pass multiple arguments into a function is through tuples, e.g. `f (a, b, c)`

- but since the syntax for curried functions is simpler, and the semantics are more flexibly, this option is seldom used.

The Haskell Prelude defines two functions, `curry`

and `uncurry`

to transform between these two representations: `curry`

is of type `((a,b) -> c) -> a -> b -> c`

, that is, it takes a one-argument function that takes a tuple `(a, b)`

and returns a `c`

, and turns it into a function of type `a -> b -> c`

, that is a function that takes an `a`

and returns a function that takes a `b`

and returns a `c`

. `uncurry`

does the reverse.

Partial application isn't really a thing; it's just a name given to the situation where you have a curried function (e.g. `f a b`

), and instead of fully unrolling the whole chain (e.g., `f 23 42`

), you stop somewhere along the way, and pass the resulting function further, e.g. `let g = f 23`

. In order to partially-apply a function, it must be curried (you cannot partially apply `f (a, b)`

as `let g = f (a)`

), but since writing functions in a curried way is the default in Haskell, partial application is easy and common practice.

`inc`

is a function; that's "what it is". We think of it though as a 'partially applied function', in that it is also the object which represents a partial application of`add`

. – Nicholas Wilson Jun 3 '12 at 12:12I understand how currying works and how partial function application works" then asking this question is just nonsense. – ildjarn Jun 4 '12 at 4:00