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Perhaps i have two interfaces with same function names and parameters, but with different return values:

struct A { virtual void foo() = 0; };
struct B { virtual int foo() = 0; };

How to define class C, that inherits this interfaces (if it's of course possible)? For example i write some pseudocode that doesn't compiled:

// this code is fake, it doesn't compiled!!
struct C : A, B
    // how to tell compiler what method using if referenced from C?
    using void foo();  // incorrect in VS 2012
    // and override A::foo() and B::foo()?
    virtual void foo() { std::cout << "void C::foo();\n"; } // incorrect
    virtual int foo() { std::cout << "int C::foo();\n"; return 0; } // incorrect
 // ... for use in code
 C c;
 A &a = c;
 B &b = c;;     // call void C::foo() when reference from C instance;     // call void C::foo() when reference from A instance;     // call int C::foo() when reference from B instance
share|improve this question
Why would you want something like this? – Luchian Grigore Nov 19 '12 at 22:01
maybe he doesnt own A and B; but has to make C that implements both. Seems a reasonable question – pm100 Nov 19 '12 at 22:08
That's not possible in C++ (not as you coded it). Functions are identified by their parameter types, not by their return types. – David R Tribble Nov 19 '12 at 22:11
FYI - C# lets you say A:foo , B:foo in this case (explicit implementation) – pm100 Nov 19 '12 at 22:13
up vote 4 down vote accepted

It's not possible, but not because of the multiple inheritance. Ambiguity arises due to invalid overload of foo in class C. You can't have both int foo() and void foo() since return type is not part of function signature, thus the compiler won't be able to resolve the calls to foo. You can look at your interface as a union of both A and B classes, so logically the problem is already present before the actual inheritance. Since from compiler perspective A and B are 2 distinct and unrelated types, there is no problem while compiling them and the error is delayed until point of actual unification in class C.

See more here about function signatures and overloading: Is the return type part of the function signature?

share|improve this answer

You can explicitly qualify.

class C : A, B {
    void A::foo() { ... }
    int B::foo() { ... }


This appears to be an MSVC extension, rather than Standard.

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I thought so, too, but trying to compile it failed for me. I haven't found the correct syntax, yet... – Dietmar Kühl Nov 19 '12 at 22:29
I found the reason. I think it's an MSVC extension. It seems odd that the Standard would not cover this case (and doubly odd that an MSVC extension would actually be patching a hole instead of causing several :P). – Puppy Nov 19 '12 at 22:30
Good stuff. Any way besides casting to invoke them via instance of C class? – SomeWittyUsername Nov 19 '12 at 23:01

It's not possible to overwrite a virtual function's return type using the same signature (as @icepack's answer explains).

An alternate approach might be having a template base class declaring foo() with a return type specified as template parameter, and providing specializations for concrete return parameter types.

This would be a generalization of @Dietmar Kühl's proposal.

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What you can do is to put all the shared stuff into a virtual base, say C_base and override the conflicting virtual functions in auxiliary classes, each. Since the shared stuff for C is readily available in C_base is essentially like in a the most derived C. Finally, you C class just because the class pulling things together:

struct A { virtual void foo() = 0; };
struct B { virtual int foo() = 0; };

struct C_base { int all_data; };

struct A_aux: virtual C_base, A {
    void foo() { std::cout << "A_aux::foo()\n"; }

struct B_aux: virtual C_base, B {
    int foo() { std::cout << "B_aux::foo()\n"; return 0; }

struct C : A_aux, B_aux
    using A_aux::foo;
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