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Provided that I have a C library containing a function declared as void g(void (*callback)()); The following code is elegant yet illegal:

struct A
    // error C2159: more than one storage class specified (VC++ Nov 2012 CTP)
    static extern "C" void callback()


Why does C++11 not support this?

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Have you tried without the extern "C"? – Joachim Pileborg Jan 18 '13 at 8:48
@xmllmx If g expects an extern "C" void (*)(), then g(&A::callback) is illegal, and requires a compiler diagnostic. A lot of compilers don't enforce this, however (and are thus broken in this respect). – James Kanze Jan 18 '13 at 8:56
But the C function doesn't call the callback by name, it only sees a pointer. So the name mangling is a non-issue. Please try before you ask. – Joachim Pileborg Jan 18 '13 at 8:57
@JoachimPileborg Name mangling isn't the issue. Calling conventions are. Name mangling is part of the calling conventions, but it isn't all of them. I've actually used a compiler where C and C++ used different calling conventions (caller cleaned up the stack in C, callee in C++). – James Kanze Jan 18 '13 at 9:05
@claptrap no we have several committee members on SO and we have all the pre and postmailings of the committee meetings publicly available. hence there is no need to guess. – ᐅ Johannes Schaub - litb ᐊ Jan 18 '13 at 10:25

2 Answers 2

This is a particularly confusing topic to wade into. Let's attack §7.5 "Linkage specifications" [].

1) All function types, function names with external linkage, and variable names with external linkage have a language linkage.

Note that the property of language linkage applies to two completely different kinds of entities: types and names.

A function has a generally-invisible bit of information in its type which identifies which ABI it conforms to: C calling conventions, Pascal, Fortran, all might be specified to use the stack in different ways, so calling them through a pointer requires knowing the invisible language-tag.

The name of a variable or function from another language can be accessed syntactically through C++, or from the other language referring to a C++ declaration. But not every language can match up with C++'s naming scheme and OO model. So interfaces in this scheme don't include classes.

Because these things are managed separately, it's possible to have something with different linkage in its type (calling conventions) and its name (linker symbol).

4) Linkage specifications nest. When linkage specifications nest, the innermost one determines the language linkage. A linkage specification does not establish a scope. A linkage-specification shall occur only in namespace scope (3.3). In a linkage-specification, the specified language linkage applies to the function types of all function declarators, function names with external linkage, and variable names with external linkage declared within the linkage-specification. A C language linkage is ignored in determining the language linkage of the names of class members and the function type of class member functions.

The extern "C" {} affects all function declarations, including pointers and references, except member functions. Since a function may only be defined in a namespace or as a member, C functions can only be defined at namespace scope.

The standard gives an example here:

extern "C" typedef void FUNC_c();

class C {
   // the name of the function mf1 and the member 
   // function’s type have C++ language linkage; the 
   // parameter has type pointer to C function
   void mf1(FUNC_c*);

   // the name of the function mf2 and the member
   // function’s type have C++ language linkage
   FUNC_c mf2;

   // the name of the data member q has C++ language
   // linkage and the data member’s type is pointer to
   // C function
   static FUNC_c* q;

You can emulate the behavior you want using a typedef, though. From another example in §7.5/4,

extern "C" typedef void FUNC();

// the name f2 has C++ language linkage and the 
// function’s type has C language linkage
FUNC f2;

Combining these examples with yours, you can have

extern "C" typedef void callback_t();

callback_t A_callback; // declare function with C++ name and C type

struct A
    static callback_t &callback; // not a member function

// in source file:

// definition matches semantics of declaration, although not syntax
void A_callback() { ... }

// define static member reference
callback_t &A::callback = A_callback;

g(A::callback); // call syntax is emulated

In practice, it seldom makes a difference. C and C++ use compatible calling conventions on most platforms (see Jonathan Wakely's comments on this page for exceptions), as long as you don't try to pass or return a non-POD C++ class type. This is a less-implemented feature of C++, due to the confusing overloading of terms and conceptual distinctions ranging from subtle to academic.

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I wonder what happens if you let the compiler determine the function type outside of the class body to have C language linkage, and then use that type todclare the function: extern "C" typedef void x(); struct A { static x f; };. Does the spec define the behavior of this? i am currently on a hurry and cant check. – ᐅ Johannes Schaub - litb ᐊ Jan 18 '13 at 10:13
Upvote for the good example! – xmllmx Jan 18 '13 at 10:23
The same rule does apply to static member functions, but that wouldn't give mf3 C language linkage. Note that it's the parameter of mf2 that has C language linkage, not the type of mf2 itself. i.e. a static member function of a class inside an extern "C" block still has C++ language linkage. – Jonathan Wakely Jan 18 '13 at 14:43
@JohannesSchaub-litb, I've tried that before, EDG (which does respect language linkage of functions) ignores the language linkage of the typedef when declaring the member function, i.e. f is extern "C++" just as though it had been declared normally. – Jonathan Wakely Jan 18 '13 at 14:43
Solaris CC 5.9 (which warns about language linkage mismatches but still compiles them) agrees with EDG, the static member function does not get C language linkage however it's declared. (My first test was wrong, so I thought it didn't, but I fixed it) – Jonathan Wakely Jan 18 '13 at 15:02

First, the function declaration is legal. The extern "C", however, is ignored for class members, so if g expects an extern "C" void (*)(), you can't pass it callback.

As to the why of this, I suspect that originally, it was mainly a question of orthogonality: it makes no sense for a class member function to be extern "C" in general, and orthogonality (or simply no one considered the case of static members) means that this applies to static member functions as well, although allowing them to be extern "C" would have been useful. Today (i.e. C++11), it would be problematic to change the rule, because it could break existing code. IMHO, the change would be acceptable, because the amount of code it would break is probably very small, and the breakage results in a compile time error—not a change in runtime semantics—so is easily detected and fixed. Still, as far as I know, no one made a proposal to change this, so it didn't get changed.

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extern "C" is illegal for class members. 7.1.1/6: The extern specifier can be applied only to the names of variables and functions. The extern specifier cannot be used in the declaration of class members or function parameters. It has been illegal since C++98 too. – Jon Jan 18 '13 at 8:55
@Jon I was basing my statement on §7.5/4: "A C language linkage is ignored in determining the language linkage of the names of class members and the function type of class member functions." And §7.1.1/6 doesn't say anything about linkage specifiers; §7.1.1 is entirely about storage class specifiers, not linkage specifiers. – James Kanze Jan 18 '13 at 9:03
You are of course correct. I 'll go and be embarrassed now. – Jon Jan 18 '13 at 9:05
@Jon No need to. The standard is anything but obvious in a lot of cases. – James Kanze Jan 18 '13 at 9:06
@JamesKanze No, extern "C" is only allowed at namespace scope. 7.5/4: "A linkage-specification shall occur only in namespace scope (3.3)" Your quote from same paragraph is referring to when a class appears inside an extern "C" { } block. – Potatoswatter Jan 18 '13 at 9:10

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