What exactly does putting extern "C" into C++ code do?

For example:

extern "C" {
   void foo();
}
  • 55
    I'd like to introduce you this article: http://www.agner.org/optimize/calling_conventions.pdf It tells you much more about calling convention and the difference between compilers. – Sam Liao Jun 25 '09 at 2:18
  • @Litherum On the top of my head, it is telling the compiler to compile that scope of code using C, given that you have a cross-compiler. Also, it means that you have a Cpp file where you have that foo() function. – ha9u63ar Jun 27 '13 at 8:18

13 Answers 13

up vote 1223 down vote accepted

extern "C" makes a function-name in C++ have 'C' linkage (compiler does not mangle the name) so that client C code can link to (i.e use) your function using a 'C' compatible header file that contains just the declaration of your function. Your function definition is contained in a binary format (that was compiled by your C++ compiler) that the client 'C' linker will then link to using the 'C' name.

Since C++ has overloading of function names and C does not, the C++ compiler cannot just use the function name as a unique id to link to, so it mangles the name by adding information about the arguments. A C compiler does not need to mangle the name since you can not overload function names in C. When you state that a function has extern "C" linkage in C++, the C++ compiler does not add argument/parameter type information to the name used for linkage.

Just so you know, you can specify "C" linkage to each individual declaration/definition explicitly or use a block to group a sequence of declarations/definitions to have a certain linkage:

extern "C" void foo(int);
extern "C"
{
   void g(char);
   int i;
}

If you care about the technicalities, they are listed in section 7.5 of the C++03 standard, here is a brief summary (with emphasis on extern "C"):

  • extern "C" is a linkage-specification
  • Every compiler is required to provide "C" linkage
  • a linkage specification shall occur only in namespace scope
  • all function types, function names and variable names have a language linkage See Richard's Comment: Only function names and variable names with external linkage have a language linkage
  • two function types with distinct language linkages are distinct types even if otherwise identical
  • linkage specs nest, inner one determines the final linkage
  • extern "C" is ignored for class members
  • at most one function with a particular name can have "C" linkage (regardless of namespace)
  • extern "C" forces a function to have external linkage (cannot make it static) See Richard's comment: 'static' inside 'extern "C"' is valid; an entity so declared has internal linkage, and so does not have a language linkage
  • Linkage from C++ to objects defined in other languages and to objects defined in C++ from other languages is implementation-defined and language-dependent. Only where the object layout strategies of two language implementations are similar enough can such linkage be achieved
  • 17
    C compiler does not use mangling which c++'s does. So if you want call a c interface from a c++ program, you have to clearly declared that the c interface as "extern c". – Sam Liao Jun 25 '09 at 2:28
  • 49
    @Faisal: do not try to link code built with different C++ compilers, even if the cross-references are all 'extern "C"'. There are often differences between the layouts of classes, or the mechanisms used to handle exceptions, or the mechanisms used to ensure variables are initialized before use, or other such differences, plus you might need two separate C++ run-time support libraries (one for each compiler). – Jonathan Leffler Jun 25 '09 at 3:24
  • 5
    @Leffler - thanks, you make good points. I did not mean to encourage using different C++ compilers by using extern "C". Rather, I was hoping to suggest that if you are not writing something that would need to be linked to by another C++ compiler, you probably don't need extern "C". – Faisal Vali Jun 25 '09 at 3:57
  • 6
    'extern "C" forces a function to have external linkage (cannot make it static)' is incorrect. 'static' inside 'extern "C"' is valid; an entity so declared has internal linkage, and so does not have a language linkage. – Richard Smith Feb 14 '13 at 4:06
  • 11
    'all function types, function names and variable names have a language linkage' is also incorrect. Only function names and variable names with external linkage have a language linkage. – Richard Smith Feb 14 '13 at 4:07

Just wanted to add a bit of info, since I haven't seen it posted yet.

You'll very often see code in C headers like so:

#ifdef __cplusplus
extern "C" {
#endif

// all of your legacy C code here

#ifdef __cplusplus
}
#endif

What this accomplishes is that it allows you to use that C header file with your C++ code, because the macro "__cplusplus" will be defined. But you can also still use it with your legacy C code, where the macro is NOT defined, so it won't see the uniquely C++ construct.

Although, I have also seen C++ code such as:

extern "C" {
#include "legacy_C_header.h"
}

which I imagine accomplishes much the same thing.

Not sure which way is better, but I have seen both.

  • 9
    There is a distinct difference. In case of the former, if you compile this file with normal gcc compiler it will generate an object where the function name is not mangled. If you then link C and C++ objects with the linker it will NOT find the functions. You will need to include those "legacy header" files with the extern keyword as in your second code block. – Anne van Rossum Apr 12 '13 at 14:00
  • 4
    @Anne: The C++ compiler will look for unmangled names also, because it saw extern "C" in the header). It works great, used this technique many times. – Ben Voigt Jun 27 '14 at 5:34
  • 11
    @Anne: That's not right, the first one is fine as well. It's ignored by the C compiler, and has the same effect as the second in C++. The compiler couldn't care less whether it encounters extern "C" before or after it includes the header. By the time it reaches the compiler, it's just one long stream of preprocessed text anyway. – Ben Voigt Jun 30 '14 at 15:54
  • 5
    @Anne, no, I think you've been affected by some other error in the source, because what you are describing is wrong. No version of g++ got this wrong, for any target, at any time in the last 17 years at least. The whole point of the first example is that it doesn't matter whether you use a C or C++ compiler, no name mangling will be done for the names in the extern "C" block. – Jonathan Wakely Jan 19 '16 at 20:45
  • 3
    "which one is better" - for sure, the first variant is better: It allows including the header directly, whithout any further requirements, both in C and C++ code. The second approach is a workaround for C headers the author forgot the C++ guards (no problem, though, if these are added afterwards, nested extern "C" declarations are accepteded...). – Aconcagua Aug 9 '17 at 9:23

In every C++ program, all non-static functions are represented in the binary file as symbols. These symbols are special text strings that uniquely identify a function in the program.

In C, the symbol name is the same as the function name. This is possible because in C no two non-static functions can have the same name.

Because C++ allows overloading and has many features that C does not — like classes, member functions, exception specifications - it is not possible to simply use the function name as the symbol name. To solve that, C++ uses so-called name mangling, which transforms the function name and all the necessary information (like the number and size of the arguments) into some weird-looking string processed only by the compiler and linker.

So if you specify a function to be extern C, the compiler doesn't performs name mangling with it and it can be directly accessed using its symbol name as the function name.

This comes handy while using dlsym() and dlopen() for calling such functions.

  • what do you mean by handy? is symbol name = function name would make symbol name passed to dlsym known, or other thing? – Error Mar 3 at 10:06
  • 1
    @Error: yes. It's essentially impossible in the general case to dlopen() a C++ shared library given only a header file and pick the right function to load. (On x86, there's a published name-mangling specification in the form of the Itanium ABI that all x86 compilers I know of use to mangle C++ function names, but nothing in the language requires this.) – Jonathan Tomer Apr 23 at 22:23

Let's decompile the object file g++ generated to see what goes on inside this implementation.

Generate example

Input:

void f() {}
void g();

extern "C" {
    void ef() {}
    void eg();
}

/* Prevent g and eg from being optimized away. */
void h() { g(); eg(); }

Compile with GCC 4.8 Linux ELF output:

g++ -c a.cpp

Decompile the symbol table:

readelf -s a.o

The output contains:

Num:    Value          Size Type    Bind   Vis      Ndx Name
  8: 0000000000000000     6 FUNC    GLOBAL DEFAULT    1 _Z1fv
  9: 0000000000000006     6 FUNC    GLOBAL DEFAULT    1 ef
 10: 000000000000000c    16 FUNC    GLOBAL DEFAULT    1 _Z1hv
 11: 0000000000000000     0 NOTYPE  GLOBAL DEFAULT  UND _Z1gv
 12: 0000000000000000     0 NOTYPE  GLOBAL DEFAULT  UND eg

Interpretation

We see that:

  • ef and eg were stored in symbols with the same name as in the code

  • the other symbols were mangled. Let's unmangle them:

    $ c++filt _Z1fv
    f()
    $ c++filt _Z1hv
    h()
    $ c++filt _Z1gv
    g()
    

Conclusion: both of the following symbol types were not mangled:

  • defined
  • declared but undefined (Ndx = UND), to be provided at link or run time from another object file

So you will need extern "C" both when calling:

  • C from C++: tell g++ to expect unmangled symbols produced by gcc
  • C++ from C: tell g++ to generate unmangled symbols for gcc to use

Things that do not work in extern C

It becomes obvious that any C++ feature that requires name mangling will not wok inside extern C:

extern "C" {
    // Overloading.
    // error: declaration of C function ‘void f(int)’ conflicts with
    void f();
    void f(int i);

    // Templates.
    // error: template with C linkage
    template <class C> void f(C i) { }
}

C++ mangles function names to create an object-oriented language from a procedural language

Most programming languages aren't built on-top of existing programming languages. C++ is built on-top of C, and furthermore it's an object-oriented programming language built from a procedural programming language, and for that reason there are C++ keywords like extern which provide backwards compatibility with C.

Let's look at the following example:

#include <stdio.h>

// Two functions are defined with the same name
// but have different parameters

void printMe(int a) {
  printf("int: %i\n", a);
}

void printMe(char a) {
  printf("char: %c\n", a);
}

int main() {
  printMe("a");
  printMe(1);
  return 0;
}

A C compiler will not compile the above example, because the same function printMe is defined twice (even though they have different parameters int a vs char a).

gcc -o printMe printMe.c && ./printMe;
1 error. PrintMe is defined more than once.

A C++ compiler will compile the above example. It does not care that printMe is defined twice.

g++ -o printMe printMe.c && ./printMe;

This is because a C++ compiler implicitly renames (mangles) functions based on their parameters. In C, this feature was not supported. However, when C++ was built over C, the language was designed to be object-oriented, and needed to support the ability to create different classes with methods (functions) of the same name, and to override methods (method overriding) based on different parameters.

Extern says "don't mangle function names"

However, imagine we have a legacy C file named "parent.c" that includes function names from other legacy C files, "parent.h", "child.h", etc. If the legacy "parent.c" file is run through a C++ compiler, then the function names will be mangled, and they will no longer match the function names specified in "parent.h", "child.h", etc - so the function names in those external files would need to be mangled as well. And this could become quite messy. So it might be convenient to provide a keyword which can tell the C++ compiler not to mangle a function name.

The extern keyword tells a C++ compiler not to mangle (rename) function names. Example usage: extern void printMe(int a);

It changes the linkage of a function in such a way that the function is callable from C. In practice that means that the function name is not mangled.

Not any C-header will compile with extern "C". When identifiers in a C-header conflict with C++ keywords the C++ compiler will complain about this.

For example, I have seen the following code fail in a g++ :

extern "C" {
struct method {
    int virtual;
};
}

Kinda makes sense, but is something to keep in mind when porting C-code to C++.

  • 10
    extern "C" means to use C linkage, as described by other answers. It doesn't mean to "compile the contents as C" or anything. int virtual; is invalid in C++ and specifying different linkage doesn't change that. – M.M Jan 26 '15 at 22:26
  • ... or mode generally, any code containing syntax error will not compile. – Valentin Heinitz Nov 1 '17 at 10:33
  • @ValentinHeinitz naturally, though using "virtual" as an identifier in C is not a syntax error. I just wanted to point that you cannot automatically use any C header in C++ by putting extern "C" around it. – Sander Mertens Nov 2 '17 at 14:35

It informs the C++ compiler to look up the names of those functions in a C-style when linking, because the names of functions compiled in C and C++ are different during the linking stage.

extern "C" is meant to be recognized by a C++ compiler and to notify the compiler that the noted function is (or to be) compiled in C style. So that while linking, it link to the correct version of function from C.

I used 'extern "C"' before for dll(dynamic link library) files to make etc. main() function "exportable" so it can be used later in another executable from dll. Maybe an example of where I used to use it can be useful.

DLL

#include <string.h>
#include <windows.h>

using namespace std;

#define DLL extern "C" __declspec(dllexport)
//I defined DLL for dllexport function
DLL main ()
{
    MessageBox(NULL,"Hi from DLL","DLL",MB_OK);
}

EXE

#include <string.h>
#include <windows.h>

using namespace std;

typedef LPVOID (WINAPI*Function)();//make a placeholder for function from dll
Function mainDLLFunc;//make a variable for function placeholder

int main()
{
    char winDir[MAX_PATH];//will hold path of above dll
    GetCurrentDirectory(sizeof(winDir),winDir);//dll is in same dir as exe
    strcat(winDir,"\\exmple.dll");//concentrate dll name with path
    HINSTANCE DLL = LoadLibrary(winDir);//load example dll
    if(DLL==NULL)
    {
        FreeLibrary((HMODULE)DLL);//if load fails exit
        return 0;
    }
    mainDLLFunc=(Function)GetProcAddress((HMODULE)DLL, "main");
    //defined variable is used to assign a function from dll
    //GetProcAddress is used to locate function with pre defined extern name "DLL"
    //and matcing function name
    if(mainDLLFunc==NULL)
    {
        FreeLibrary((HMODULE)DLL);//if it fails exit
        return 0;
    }
    mainDLLFunc();//run exported function 
    FreeLibrary((HMODULE)DLL);
}
  • 2
    Bogus. extern "C" and __declspec(dllexport) are unrelated. The former controls symbol decoration, the latter is responsible for creating an export entry. You can export a symbol using C++ name decoration just as well. Besides completely missing the point of this question, there are other mistakes in the code sample as well. For one, main exported from your DLL doesn't declare a return value. Or calling convention, for that matter. When importing, you attribute a random calling convention (WINAPI), and use the wrong symbol for 32-bit builds (should be _main or _main@0). Sorry, -1. – IInspectable Sep 7 '16 at 8:28
  • 1
    That only repeated, that you don't know, what you are doing, but doing it this way appears to work for you, for some undisclosed list of target platforms. You didn't address the issues I raised in my previous comment. This is still a down-vote, due to being wildly wrong (there's more, that didn't fit in a single comment). – IInspectable May 25 '17 at 9:26
  • 1
    Posting an answer on Stack Overflow kind of implies, that you know what you are doing. This is expected. As for your attempt "to prevent stack corruption on run": Your function signature specifies a return value of type void*, but your implementation doesn't return anything. That'll fly really well... – IInspectable May 25 '17 at 10:40
  • 1
    If you implement something, that appears to work, by pure luck, then you clearly do not know what you are doing (your "working" sample falls into that category). It's undefined behavior, and appearing to work is a valid form of undefined behavior. It's still undefined. I would highly appreciate it, if you exercised more diligence in the future. Part of that could be deleting this proposed answer. – IInspectable May 25 '17 at 11:23
  • 1
    You are reinterpreting a function that doesn't return anything as a function that returns a pointer. It is pure luck, that x86 is very forgiving with respect to mismatching function signatures, and in particular return values of integral type. Your code works by coincidence only. If you disagree, you need to explain, why your code works reliably. – IInspectable May 25 '17 at 12:36

extern "C" is a linkage specification which is used to call C functions in the Cpp source files. We can call C functions, write Variables, & include headers. Function is declared in extern entity & it is defined outside. Syntax is

Type 1:

extern "language" function-prototype

Type 2:

extern "language"
{
     function-prototype
};

eg:

#include<iostream>
using namespace std;

extern "C"
{
     #include<stdio.h>    // Include C Header
     int n;               // Declare a Variable
     void func(int,int);  // Declare a function (function prototype)
}

int main()
{
    func(int a, int b);   // Calling function . . .
    return 0;
}

// Function definition . . .
void func(int m, int n)
{
    //
    //
}

When mixing C and C++ (i.e., a. calling C function from C++; and b. calling C++ function from C), the C++ name mangling causes linking problems. Technically speaking, this issue happens only when the callee functions have been already compiled into binary (most likely, a *.a library file) using the corresponding compiler.

So we need to use extern "C" to disable the name mangling in C++.

This answer is for the impatient/ have deadlines to meet to, only a part/simple explanation is below:

  • in C++, you can have same name in class via overloading (for example, since they are all same name can't be exported as-is from dll, etc.) solution to these problems is they are converted to different strings (called symbols), symbols accounts the name of function, also the arguments, so each of these functions even with same name, can be uniquely identified (also called, name mangling)
  • in C, you don't have overloading, the function name is unique (so, a separate string for identifying the a function name uniquely is not required, so symbol is function name itself)

So
in C++, with name mangling uniquely identities each function
in C, even without name mangling uniquely identities each function

To change the behaviour of C++, that is, to specify that name mangling should not happen for a particular function, you can use extern "C" before the function name, for whatever reason, like exporting a function with a specific name from a dll, for use by its clients.

Read other answers, for more detailed/more correct answers.

protected by 2501 Mar 9 '17 at 7:41

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