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I have a C background. I was just wondering why was function overloading added to C++? C doesn't have function overloading but C++ does, what was the need for it?

What went across the mind of the language designer at that time?

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One could ask : why, oh, why, isn't function overloading in C ? It would make my life easier... –  Raveline Nov 30 '10 at 13:31
@Raveline: no it wouldn't. –  JeremyP Nov 30 '10 at 13:32
@Raveline: two words; name mangling. The shared object developer's nightmare. –  falstro Nov 30 '10 at 13:37
<Vote to keep open>. It's a design choice with positive and negative consequences; there's not much point arguing over whether the net effect is positive or negative, but there is value in seeing the reasons themselves. –  j_random_hacker Nov 30 '10 at 16:28
@Nyan: That's not even remotely the same as a good template or overload. –  Puppy Nov 30 '10 at 20:37

6 Answers 6

up vote 54 down vote accepted

It increases maintainability. If you have a type T and you call a function with it, then you need to change T, if the function has been overloaded for the new T then you can recompile instantly. In C you would have to go back and dig through all the call sites and change the function called. Take sqrt(). If you want to sqrt() a float, then you have to change to sqrtf().

Not just that, but the volume and complexity of C++'s type system is far more than in C, and having to have separate function names for every possible overload would quickly exhaust the reasonable pool of names for functions that serve the same purpose but take different arguments, because now there's a lot more arguments to take.

For example, compare the C and C++ string libraries. The C string library offers one method to append to a string - strcat(). C++'s std::string::append has eight overloads. What do you want to call them? append_a, append_b, etc? That's ridiculous- they all serve the same function, just in different ways.

Edit: It is actually worth mentioning that append is a really bad example, many of the C++ string overloads are very redundant. However, this is more general case than that and not all of those overloads redundant.

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Overloading plugs some holes in the C type system, too, such as strchr. Having a single name for it is so desirable that C doesn't even have a const-correct version. Const-safety clearly is considered less important than being able to use the same name (strchr) regardless of the type of the argument. To me this is a good case that if you like const enough to put it in your type system, you really should like overloading even more. –  Steve Jessop Nov 30 '10 at 13:43
sqrt() vs sqrtf() is actually a bad example. The standard sqrt() function takes (and-returns) a double-precision floating point number, and so works just fine with single-precisions floats. The sqrtf() function was added so that one can intentionally choose to use single-precision floating point math, which may be faster on some hardware. Function overloading can't (or at least shouldn't!) guess if you want precision or speed based on the input type. That would have to be either a separate parameter or another function anyway. – mattdm 22 mins ago –  mattdm Nov 30 '10 at 14:23
@mattdm: Agree with you that sqrtf() is a bad example. A better example would be functions for serialising and deserialising objects. In this case, you want the behaviour to be type-agnostic: if you change int x; to long x;, ideally you don't want to have to change every call to serialise(x). –  j_random_hacker Nov 30 '10 at 16:16
@R: Function overloading is a type of generic programming. Templates are just an example of being generic in types (and specific non-type parameters), you can't use a template to replace the overloads of append. operator<< is an excellent example of function overloading, because it's easily extensible. If you don't know whether you're using << on an int or on a stream, you've got bigger problems. @mattdm: If you want to change the precision of your float, you cast. That's how everything works- why not function calls? –  Puppy Nov 30 '10 at 17:26
@mattdm: It's not going to make sense for sqrt to take any type. That's not even remotely close to the point of function overloading. It does, however, make sense for sqrt to take a float or a double. –  Puppy Nov 30 '10 at 21:53

One good reason, in addition to what DeadMG said, is that if you're writing a template function which e.g. calls sqrt, then you need a generic way of calling sqrt -- it would be very difficult if you had to try and somehow vary the name to sqrtf, sqrtd, etc., depending on the type of the template parameter. Overloading solves this problem, because then you just write sqrt and let the compiler figure out which overload it should be using:

template <typename T>
T sqrt_plus_one(T t) // contrived example
  return sqrt(t) + 1;
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If you are going to use templating you might as well template sqrt() to and then you don't need overloading. –  JeremyP Nov 30 '10 at 13:34
@JeremyP: templates are a form of overloading, and specialization has some surprising properties in the case of functions, to the extent that partial template function specialization was considered worse than not having it, and hence not permitted in C++03. To restrict overloading so that template specialization was the only form of it, you would have to solve those problems (I can't remember the details, but feel free to propose a fix...) –  Steve Jessop Nov 30 '10 at 13:38
@Steve Jessop: Actually I think @JeremyP has a point there -- I don't think using templates throughout + some form of specialisation would necessarily be less powerful. I'd be interested to hear concrete reasons why this approach was felt to be horrible. (Even though it's moot because the language already had overloading when templates were being considered, so they would hardly have elected to remove it.) –  j_random_hacker Nov 30 '10 at 16:23
@j_random_hacker: Not to question SO, but you might get more joy from one of the C++ newsgroups (comp.lang.c++ or comp.lang.c++.moderated) if you want a detailed discussion of the issues here. The format of Usenet (thread-based, rather than Q/A-based) lends itself better to detailed discussion of things like this, and there are a lot of C++ experts who hang out there but not here. –  Stuart Golodetz Nov 30 '10 at 17:20
@j_random_hacker: by "niggles" I meant the things currently in the way, such as no partial specialization and no default template parameters on function templates. I agree with you it'd be informative to know what motivates the niggles: if the only motivation was, "those features wouldn't play well with overloading", then perhaps the way was for a brief period clear for C++ to ditch what it calls overloading in favour of something else (that is still a kind of overloading), at least for free functions. –  Steve Jessop Nov 30 '10 at 17:28

Would you prefer "selecting" one among abs/labs/llabs/fabs/fabsf/fabsl Or just abs()?

Obviously, abs().

So function overloading is a relief for programmers, most of the time, beside other advantages.

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Your argument is an argument for templates/generic programming, not for overloading. –  R.. Nov 30 '10 at 17:23
@R, why are the two arguments mutually exclusive? Different answers for the same problems. That's like saying a minivan is not an answer for big families because SUVs exist. –  Chance Nov 30 '10 at 17:49
@R....not really. You can use the same argument for templates also, but it doesn't mean that it's exclusively for that. :-) –  Nawaz Nov 30 '10 at 18:13

You could get the answer straight from the horse's mouth: The Design and Evolution of C++ by Bjarne Stroustrup devotes an entire chapter to overloading, its history, evolution, design tradeoffs and decisions.

I won't recount the story here, but will mention a couple of interesting historical facts:

  • operator and function overloading are closely related;
  • in early C++ there used to be a special keyword (overload) that had to be used to declare an identifier as overloaded;
  • function overloading requires type-safe linking (i.e. name mangling); when first implemented, it helped discover a surprising number of link-time errors in existing C and C++ code (to quote Stroustrup, it was like "running lint on a C program for the first time -- somewhat embarrassing".)
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Try to come up with a comfortable way to construct objects if it weren't for function overloading.

std::string foo = "bar";
std::vector< std::string > myStringVector;
myStringVector.push_back( std::string() );
myStringVector.push_back( std::string( "hello" ) );
myStringVector.push_back( std::string( foo ) );

A nonsense example, of course, but it illustrates the point.

Another point would be template programming. You could not come up with generic templates if you had to have a different function name for each parameter type.

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This isn't a strong argument, because there's no fundamental reason why constructors need to have the same name as their class. It's possible to imagine a world in which a constructor is just a method labeled with ctor (a method type modifier like inline that I just made up) and that returns an instance of the class. In this world, overloading would not be necessary for constructing objects in different ways. –  j_random_hacker Nov 30 '10 at 16:36
@j_random_hacker: Yes, but would it be convenient to call ctor new_empty_string() and ctor new_string_from_char_pointer() and ctor new_string_from_string? –  DevSolar Nov 30 '10 at 16:42
Not especially :) But, no more inconvenient than doing any non-construction thing to the object (e.g. printing it, or adding 1 to it) without overloading. (My point is just that object construction is not a case deserving of special pleading.) –  j_random_hacker Nov 30 '10 at 16:52
@j_random_hacker: I just picked it as the most general case. Since you named them (although they were not focus of the question), overloading operator<<() or operator++() are other nice-to-have's. –  DevSolar Nov 30 '10 at 23:21

Using polymorphism , we can design a family of functions with same function name but with different argument list . The function would perform different operations depending on the arguments list in the function call.

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What you describe has nothing to do with polymorphism... –  DevSolar Nov 30 '10 at 14:30
@DevSolar: that's not correct, polymorphism is not to be reduced to "inclusion polymorphism" (i.e. method overriding and subtyping). Method/function overloading is also a kind of polymorphism, namely "ad-hoc polymorphism". –  Luc Touraille Nov 30 '10 at 14:52
@Luc Touraille: I stand corrected. It seems that OOP (en.wikipedia.org/wiki/…) and functional programming (en.wikipedia.org/wiki/Type_polymorphism) differ in their definition of "polymorphism", with the latter having a much wider scope in which the term is being applied. I'd take back the downvote, but it's locked until edited. :-/ I apologize. –  DevSolar Nov 30 '10 at 15:02

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