I don't think I quite understand currying, since I'm unable to see any massive benefit it could provide. Perhaps someone could enlighten me with an example demonstrating why it is so useful. Does it truly have benefits and applications, or is it just an over-appreciated concept?
(There is a slight difference between currying and partial application, although they're closely related; since they're often mixed together, I'll deal with both terms.)
The place where I realized the benefits first was when I saw sliced operators:
IMO, this is totally easy to read. Now, if the type of
You mentioned C# lambdas in a comment. In C#, you could have written
If you're used to point-free style, you'll see that the
which is awful due to the lack of automatic partial application with C# lambdas. And that's the crucial point to decide where currying is actually useful: mostly when it happens implicitly. For me,
Now, if readable, the benefits sum up to shorter, more readable and less cluttered code -- unless there is some abuse of point-free style done is with it (I do love
Also, lambda calculus would get impossible without using curried functions, since it has only one-valued (but therefor higher-order) functions.
* Of course it actually in
Update: how currying actually works.
Look at the type of
You have to give it a tuple of values -- not in C# terms, but mathematically spoken; you can't just leave out the second value. In haskell terms, that's
which could be used like
That's way too much characters to type. Suppose you'd want to do this more often in the future. Here's a little helper:
Let's apply this to a concrete value.
Here you can see
Fortunately, most of the time, you don't have to worry about this, as there is automatic partial application.
It's not the best thing since sliced bread, but if you're using lambdas anyway, it's easier to use higher-order functions without using lambda syntax. Compare:
These kinds of constructs come up often enough when you're using functional programming, that it's a nice shortcut to have and lets you think about the problem from a slightly higher level--you're mapping against the "
That said, it's not a panacea; sometimes your function's parameters will be the wrong order for what you're trying to do with currying, so you'll have to resort to a lambda anyway. However, once you get used to this style, you start to learn how to design your functions to work well with it, and once those neurons starts to connect inside your brain, previously complicated constructs can start to seem obvious in comparison.
One benefit of currying is that it allows partial application of functions without the need of any special syntax/operator. A simple example:
Currying has the convenience features mentioned in other answers, but it also often serves to simplify reasoning about the language or to implement some code much easier than it could be otherwise. For example, currying means that any function at all has a type that's compatible with
The best known example of this is the
And an example use:
In this context,
The reason this works is because
Another, different use of currying is that Haskell allows you to partially apply type constructors. E.g., if you have this type:
...it actually makes sense to write
The "no-currying" form of partial application works like this:
A bit complicated, isn't it?
So far so nice, but more important than being simple, this also gives us extra possibilities for implementing our function: we may be able to do some calculations as soon as the
To give an example, consider this audio filter, an infinite impulse response filter. It works like this: for each audio sample, you feed an "accumulator function" (
Now here's the crucial bit – what kind of magic the function does depends on the coefficient2
But currying saves the day! We simply calculate
1 Note that this kind of state-passing can generally be done more nicely with the
2 Yes, this is a lambda symbol. I hope I'm not confusing anybody – fortunately, in Haskell it's clear that lambda functions are written with
It's somewhat dubious to ask what the benefits of currying are without specifying the context in which you're asking the question:
I used to think that currying was simple syntax sugar that saves you a bit of typing. For example, instead of writing
I can merely write
The latter is instantly more readable, and less typing to boot.
So if it's just a convenient short cut, why all the fuss?
Well, it turns out that because function types are curried, you can write code which is polymorphic in the number of arguments a function has.
For example, the