After reading about extern and static, I am confused to come across the code which has the line below:

extern "C" static void* foo(int* a){
    return foo1(a);

Why does this not generate any error?

  • Curious: which compiler on which platform? Note that the body of the function can't compile (return foo1(int* a); is invalid C++). When compiled with G++ 6.1.0 on Mac OS X 10.11.6, from source file bust-cpp.cpp, using command line: g++ -O3 -g -I./inc -std=c++11 -Wall -Wextra -Werror -c bust-cpp.cpp I get messages: bust-cpp.cpp:1:12: error: invalid use of ‘static’ in linkage specification pointing at extern "C" static void* foo(int* a){. Jul 19, 2016 at 0:00
  • probably this is in a file which never gets compiled
    – Ben Voigt
    Jul 19, 2016 at 0:00
  • gcc-5.1 won't compile that
    – PcAF
    Jul 19, 2016 at 0:02
  • 1
    Well, if you will (more likely, 'are forced to') use archaic compilers :) … That is very curious. You should report to the powers that be that it won't compile after upgrades. It isn't clear why you'd want C-style linkage on functions that cannot be accessed from outside the C++ source file that defines it. The code looks willfully obscure and pretty much completely pointless. I suppose that if a pointer to the function is returned somewhere and the C linkage is crucial, it might serve a purpose on a machine where there are differences between C and C++ linkage. A bit out-of-the-ordinary! Jul 19, 2016 at 0:05
  • 2
    @Seb: the extern "C" functionality isn't only to make functions (or objects) externally linkable. As I mention in a comment to Dan Haydar's answer, it may also affect the calling convention. In fact, the standard shows and explains an example of a static function declared inside an extern "C" 'block' in the section about external linkage. Jul 19, 2016 at 5:42

1 Answer 1


The following also compiles and does the same thing as your line:

extern "C" {
  static void* foo(int* a){
    return foo1(a);

The static means that foo() will only be available in file scope, and it overrides the extern "C" when it comes to linkage. Normally, extern "C" effects the name of the function used by the linker if/when it is exported, so that the function could be called from other object files when the entire program is linked. Usually, this is used when either you want to link to an object file built from C source where foo() was defined, or where you want to define foo() so that C code can call it. However, the static causes foo to simply not be exported at all, so it basically doesn't even get a name (it has internal, not external linkage).

extern "C" also has a secondary effect. It also becomes part of the type of foo. That is, C++ code will see foo as having type extern "C" void(int*). Basically, this controls calling convention. A C++ compiler may e.g. arrange arguments differently in registers/on the stack than a C compiler might. Making foo be a C function means that it will use the C conventions and not the C++ conventions. This makes it safe to e.g. pass a function pointer to foo to a C function that expects a pointer to a C function. For example, the standard library has

extern "C" typedef int C_CMP(void const*, void const*);
extern "C++" typedef int CXX_CMP(void const*, void const*);
void std::qsort(void *, std::size_t, std::size_t, C_CMP);
void std::qsort(void *, std::size_t, std::size_t, CXX_CMP);

With the extern "C", &foo is passed to the first overload, but without it/with extern "C++", it is passed to the second. It would not be safe to declare foo without extern "C" and then try to pass it into a C function that expects a pointer to a C function. It would probably work, but it might also break horribly. Add the extern "C" and it becomes correct—you're safe.

  • 7
    I'm pretty sure the reason for the extern/static function is to pass a pointer to something that wants a C callback. Strictly speaking, it's not valid to pass a pointer to a function with C++ linkage to something that needs a C callable function, even if it works in practice. Usually a plain old extern "C" function is used, but why clutter the global namespace for something you only want a pointer to? Jul 19, 2016 at 0:55
  • 5
    In fact, the C++11 standard uses extern "C" { static void f4(); } as an example in 7.5 "Linkage specifications". The accompanying comment says, "the name of the function f4 has internal linkage (not C language linkage) and the function's type has C language linkage". Jul 19, 2016 at 1:03
  • Just doing the "static" should be enough to keep foo() out of the global namespace. The bit about not being able to pass a "C" linkage function as a pointer to C++ code and vice versa seems odd. The linkage is about naming while pointer to function is about physical addresses. They seem to be orthogonal ideas. Then again, my days as a language lawyer are far in the past, so....
    – D Hydar
    Jul 19, 2016 at 1:03
  • 2
    The C++ standard makes a comment in a note: "a particular language linkage may be associated with a particular form of representing names of objects and functions with external linkage, or with a particular calling convention, etc.". However, the standard does explicitly forbid having a storage specifier (like static) in the same statement as the extern "C". But the nested form is permitted. There's no doubt that it's kind of an odd corner of the language. Jul 19, 2016 at 1:10
  • return foo1(int* a); This compiles? Really? Feb 9, 2019 at 15:48

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