Is currying for functional programming the same as overloading for OO programming? If not, why? (with examples if possible)
Currying is not specific to functional programming, and overloading is not specific to object-oriented programming.
"Currying" is the use of functions to which you can pass fewer arguments than required to obtain a function of the remaining arguments. i.e. if we have a function
In Haskellish syntax (with function application by adjacency):
In vaguely Cish syntax (with function application by parentheses):
You can see in both of these examples that
The term currying also refers to the process of turning a function of multiple arguments into one that takes a single argument and returns another function (which takes a single argument, and may return another function which ...), and "uncurrying" can refer to the process of doing the reverse conversion.
Overloading is an entirely unrelated concept. Overloading a name means giving multiple definitions with different characteristics (argument types, number of arguments, return type, etc), and have the compiler resolve which definition is meant by a given appearance of the name by the context in which it appears.
A fairly obvious example of this is that we could define
Again, there is no inherent reason why this concept is an "OO concept" rather than a functional programming concept. It simply happened that it fit quite naturally in statically typed object-oriented languages that were developed; if you're already resolving which method to call by the object that the method is invoked on, then it's a small stretch to allow more general overloading. Completely ad-hoc overloading (where you do nothing more than define the same name multiple times and trust the compiler to figure it out) doesn't fit as nicely in languages with first-class functions, because when you pass the overloaded name as a function itself you don't have the calling context to help you figure out which definition is intended (and programmers may get confused if what they really wanted was to pass all the overloaded definitions). Haskell developed type classes as a more principled way of using overloading; these effectively do allow you to pass all the overloaded definitions at once, and also allow the type system to express types a bit like "any type for which the functions
No, they are entirely unrelated and dissimilar.
Overloading is a technique for allowing the same code to be used at different types -- often known in functional programming as polymorphism (of various forms).
A polymorphic function:
Currying is the transformation of a function that takes a structure of n arguments, into a chain of functions each taking one argument.
In curried languages, you can apply any function to some of its arguments, yielding a function that takes the rest of the arguments. The partially-applied function is a closure.
Overloading is having multiple functions with the same name, having different parameters.
Currying is where you can take multiple parameters, and selectively set some, so you may just have one variable, for example.
So, if you have a graphing function in 3 dimensions, you may have:
By currying you could have:
Then, later on, the user picks another axis (date) and you set the y, so now you have:
Then, later you graph the information by just looping over some data and the only variability is the
This makes complicated functions simpler as you don't have to keep passing what is largely set variables, so the readability increases.