How is this possible, what is going on there?
Is there a name for this?
What other languages have this same behavior?
Any without the strong typing system?
This behaviour is really simple and intuitive if you look at the types. To avoid the complications of infix operators like
Say we have a function
Haskell views all functions as being from a single argument to a single result. There may be computations you have in mind where the result of the computation depends on two or more inputs (such as
I promised this would be really easy to understand if you looked at the types. Here's some example expressions with their types explicitly annotated:
If something is a function and you apply it to an argument, to get the type of the result of that application all you need to do is remove everything up to the first arrow from the function's type. If that leaves a type that has more arrows, then you still have a function! As you add arguments the right of an expression, you remove parameter types from the left of its type. The type makes it immediately clear what the type of all the intermediate results are, and why
"Currying" is the process of turning a function of two arguments into a function of one argument that returns a function of another argument that returns whatever the original function returned. It's also used to refer to the property of languages like Haskell that automatically have all functions work this way; people will say that Haskell "is a curried language" or "has currying", or "has curried functions".
Note that this works particularly elegantly because Haskell's syntax for function application is simple token adjacency. You are free to read
In languages with C-like function application by parenthesised argument list, this breaks down a bit.
In Haskell, you can take a function of two arguments, apply it to one argument, and get a function of one argument. In fact, strictly speaking, + isn't a function of two arguments, it's a function of one argument that returns a function of one argument.
In Haskell, all functions take exactly 1 input, and produce exactly 1 output. Sometimes, the input to or output of a function can be another function. The input to or output of a function can also be a tuple. You can simulate a function with multiple inputs in one of two ways:
Likewise, you can simulate a function with multiple outputs in one of two ways:
*this way is typically favored by Haskellers
For the sake of convenience,
As a side note, the language Haskell is named after Haskell Curry, who re-discovered the phenomenon of Functional Currying while working on combinatory logic.