103

I read few questions here on SO about this topic which seems yet confusing to me. I've just begun to learn C++ and I haven't studied templates yet or operator overloading and such.

Now is there a simple way to overload

class My {
public:
    int get(int);
    char get(int);
}

without templates or strange behavior? or should I just

class My {
public:
    int get_int(int);
    char get_char(int);
}

?

4
  • 3
    possible duplicate of Function overloading by return type?
    – user195488
    May 29, 2013 at 13:52
  • 1
    @AdamV, I really like your comment. Short but completely solid.
    – Pouya
    Jul 14, 2014 at 8:27
  • @Adam V Actually there is already such ambiguity with taking the address of an overloaded function. In such case there should be some type expectation of the expression. In case there isn't one the program is ill-formed. And this is already implemented. I don't think it'll be very hard to use the same rules for implementing function overloading by return type. So in your concrete example ambiguity will be removed with a cast of the returned type. Instancing with int return value will look like this (int)get(9) and with char like this (char)get(9). Apr 25, 2015 at 13:06
  • When you reach here, I think the best choice it to think of a two different function names like suggested by Luchian.
    – Kemin Zhou
    Apr 17, 2017 at 23:30

11 Answers 11

122

No there isn't. You can't overload methods based on return type.

Overload resolution takes into account the function signature. A function signature is made up of:

  • function name
  • cv-qualifiers
  • parameter types

And here's the quote:

1.3.11 signature

the information about a function that participates in overload resolution (13.3): its parameter-type-list (8.3.5) and, if the function is a class member, the cv-qualifiers (if any) on the function itself and the class in which the member function is declared. [...]

Options:

1) change the method name:

class My {
public:
    int getInt(int);
    char getChar(int);
};

2) out parameter:

class My {
public:
    void get(int, int&);
    void get(int, char&);
}

3) templates... overkill in this case.

7
  • 21
    You can't overload a normal function on return type, but the compiler will choose between conversion operators based on the resulting type; you can leverage off this to create a proxy which effectively acts as if you'd overloaded on return type. Mar 5, 2012 at 15:32
  • 2
    @JeffPigarelli The template solution means member templates: My::get<T>(int). It's a valid alternative _if 1) you have to handle a lot of different types, all with the same basic code (e.g. boost::lexical_cast<T>( someStringValue ), or you have to be able to call these functions from some other template (myMy.get<T>( i ), where T is an argument of this other template. Otherwise, as Luchian says, they're overkill. Mar 5, 2012 at 16:27
  • 53
    Note that the reason you can't overload based on return type is that C++ lets you discard the value of a function call. So if you simply called my.get(0); the compiler would have no way to decide which piece of code to execute.
    – benzado
    Mar 5, 2012 at 17:12
  • 11
    @benzado in that case, it should throw compiler errors only in such cases, otherwise it should deduce the type like it does in so many other scenarios already.
    – rr-
    Aug 8, 2015 at 14:40
  • 5
    @benzado for the same reasoning void foo(int x = 0) {} void foo(double x = 0) {} should be disallowed. However, it is not. Only in the case where the compiler really cannot distinguish (foo()) you'll get an error Sep 12, 2018 at 14:27
91

It's possible, but I'm not sure that it's a technique I'd recommend for beginners. As in other cases, when you want the choice of functions to depend on how the return value is used, you use a proxy; first define functions like getChar and getInt, then a generic get() which returns a Proxy like this:

class Proxy
{
    My const* myOwner;
public:
    Proxy( My const* owner ) : myOwner( owner ) {}
    operator int() const
    {
        return myOwner->getInt();
    }
    operator char() const
    {
        return myOwner->getChar();
    }
};

Extend it to as many types as you need.

4
  • 13
    +1, although a corner case, the conversion operator is actually overloaded on return type, and can be leveraged to get this feature about everywhere. Mar 5, 2012 at 16:03
  • 4
    @MatthieuM. About everywhere, but with the usual caveats concerning implicit conversions. You do run the risk of introducing ambiguities that wouldn't otherwise be there. In the case of a Proxy, however, I think the risk is minor---you're not going to have instances of the Proxy type other than in the case where you want the implicit conversion. Note too that the conversion in the proxy counts as one user defined conversion. If you need std::string, and the proxy only offers operator char const*(), it's not going to work. Mar 5, 2012 at 16:30
  • why use proxy here, I can't think of any cases where proxy is a must. Can you provide one? thanks!
    – Chen Li
    Nov 10, 2017 at 1:47
  • @ChenLi Because conversion operators are the only way to resolve functions based on return types, which means you have to have a proxy to convert. Mar 3, 2023 at 22:39
16

As stated before, templates are overkill in this case, but it is still an option worth mentioning.

class My {
public:
    template<typename T> T get(int);
};

template<> int My::get<int>(int);
template<> char My::get<char>(int);
1
  • Exactly what I wanted, thank you :) Mar 24, 2022 at 21:29
10

No, you can't overload by return type; only by parameter types, and const/volatile qualifiers.

One alternative would be to "return" using a reference argument:

void get(int, int&);
void get(int, char&);

although I would probably either use a template, or differently-named functions like your second example.

4
  • a la EFI API where the return type is an int error code.
    – Cole Tobin
    Apr 27, 2014 at 17:01
  • 2
    Be careful, char and int types can be implicitly converted.
    – Kemin Zhou
    Apr 17, 2017 at 23:27
  • If using a template, you'd probably have to explicitly supply the type in angle brackets when you use it, right? Because in so many circumstances the compiler wouldn't be able to know an exact type you are treating it as? Aug 10, 2021 at 1:33
  • Hmmm fabda01's answer seems to have a solution to that but I don't understand how it works Aug 10, 2021 at 1:34
9

You can think this way:

You have:

  int get(int);
  char get(int);

And, it is not mandatory to collect the return value of the function while invoking.

Now, You invoke

  get(10);  -> there is an ambiguity here which function to invoke. 

So, No meaning if overloading is allowed based on the return type.

9

Resurrecting an old thread, but I can see that nobody mentioned overloading by ref-qualifiers. Ref-qualifiers are a language feature added in C++11 and I only recently stumbled upon it - it's not so widespread as e.g. cv-qualifiers. The main idea is to distinguish between the two cases: when the member function is called on an rvalue object, and when is called on an lvalue object. You can basically write something like this (I am slightly modifying OP's code):

#include <stdio.h>

class My {
public:
    int get(int) & { // notice &
        printf("returning int..\n");
        return 42;
    }
    char get(int) && { // notice &&
        printf("returning char..\n");
        return 'x';
    };
};

int main() {
    My oh_my;
    oh_my.get(13); // 'oh_my' is an lvalue
    My().get(13); // 'My()' is a temporary, i.e. an rvalue
}

This code will produce the following output:

returning int..
returning char..

Of course, as is the case with cv-qualifiers, both function could have returned the same type and overloading would still be successful.

1
  • 2
    For context, what is actually happening here is normal function overloading on the hidden this parameter (this& vs this&&).
    – studgeek
    Oct 21, 2021 at 3:48
3

While most of the other comments on this problem are technically correct, you can effectively overload the return value if you combine it with overloading input parameter. For example:

class My {
public:
    int  get(int);
    char get(unsigned int);
};

DEMO:

#include <stdio.h>

class My {
public:
    int  get(         int x) { return 'I';  };
    char get(unsinged int x) { return 'C';  };
};

int main() {

    int i;
    My test;

    printf( "%c\n", test.get(               i) );
    printf( "%c\n", test.get((unsigned int) i) );
}

The resulting out of this is:

I 
C
3
  • 11
    that completely changes the function signature so you are not overloading by return type, you are simply overloading
    – Dado
    Sep 30, 2016 at 17:36
  • I used this method successfully to return a variety of values for a C++ JSON API running production. Worked great! While technically not overloading by return type, it accomplishes the intent of different return types with the same function name, is valid and clear C++, and has little overhead (a single variable instantiation in the function call).
    – guidotex
    Sep 11, 2018 at 22:31
  • 1
    Though this is not overloading by return type, it does the job. makes me say "sneaky"
    – Marcus
    Feb 26, 2019 at 11:29
2

There is no way to overload by return type in C++. Without using templates, using get_int and get_char will be the best you can do.

4
  • Just to be sure: Something like template <class T> T get(int) would work?
    – Niklas B.
    Mar 5, 2012 at 15:09
  • 4
    Yes, @Niklas, but you'd have to call it as get<int> or get<char>, which doesn't really gain you much over get_int and get_char if you're not also using other template features. Mar 5, 2012 at 15:13
  • @Rob: Well, the compiler can determine T if you have something like T get(T). If you call get('a'), the compiler deduces that T is a char and you don't have to explicitly call get<char>('a'). I'm still not sure if this is standard, although I think it is. FYI, both GCC and Clang support this.
    – netcoder
    Mar 5, 2012 at 15:28
  • 1
    That's perfectly standard, @Netcoder, but it's not a case of the compiler deducing just the return type, which you suggested was possible. In your example, the compiler deduces the argument type, and once it knows that, it fills in the value of T everywhere else, including the return type. I expected you to give an example of the compiler deducing T for the function in Niklas's first comment. Mar 5, 2012 at 16:25
2

You can't overload methods based on return types. Your best bet is to create two functions with slightly different syntax, such as in your second code snippet.

0

you can't overload a function based on the return type of the function. you can overlead based on the type and number of arguments that this function takes.

0

I used James Kanze's answer using a proxy:

https://stackoverflow.com/a/9569120/262458

I wanted to avoid using lots of ugly static_casts on a void*, so I did this:

#include <SDL_joystick.h>
#include <SDL_gamecontroller.h>

struct JoyDev {
    private:
        union {
            SDL_GameController* dev_gc = nullptr;
            SDL_Joystick*       dev_js;
        };
    public:
        operator SDL_GameController*&() { return dev_gc; }
        operator SDL_Joystick*&()       { return dev_js; }

        SDL_GameController*& operator=(SDL_GameController* p) { dev_gc = p; return dev_gc; }
        SDL_Joystick*&       operator=(SDL_Joystick* p)       { dev_js = p; return dev_js; }
};

struct JoyState {
    public:
        JoyDev dev;
};

int main(int argc, char** argv)
{
    JoyState js;

    js.dev = SDL_JoystickOpen(0);

    js.dev = SDL_GameControllerOpen(0);

    SDL_GameControllerRumble(js.dev, 0xFFFF, 0xFFFF, 300);

    return 0;
}

Works perfectly!

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