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 程式師世界 >> 編程語言 >> C語言 >> C++ >> C++入門知識 >> C++程序員如何向一個java工程師解釋extern "C"的作用

C++程序員如何向一個java工程師解釋extern "C"的作用

編輯:C++入門知識

C++程序員如何向一個java工程師解釋extern "C"的作用


今天,一搞Android開發的同事問題external “C”是干嘛的?
我說:就是為了讓C++能夠使用C語言編程的類或函數,按照C語言的方式編譯。

估計他是沒懂我的意思,可能我也不能說清楚這是什麼東西。

引言
C++保留了一部分過程式語言的特點,因而它可以定義不屬於任何類的全局變量和函數。但是,C++畢竟是一種面向對象的程序設計語言,為了支持函數的重載,C++對全局函數的處理方式與C有明顯的不同。
extern “C”的主要作用就是為了能夠正確實現C++代碼調用其他C語言代碼。加上extern “C”後,會指示編譯器這部分代碼按C語言的進行編譯,而不是C++的。由於C++支持函數重載,因此編譯器編譯函數的過程中會將函數的參數類型也加到編譯後的代碼中,而不僅僅是函數名;而C語言並不支持函數重載,因此編譯C語言代碼的函數時不會帶上函數的參數類型,一般之包括函數名。
比如說你用C 開發了一個DLL 庫,為了能夠讓C ++語言也能夠調用你的DLL輸出(Export)的函數,你需要用extern “C”來強制編譯器不要修改你的函數名。

揭秘extern “C”
從標准頭文件說起

#ifndef __INCvxWorksh  /*防止該頭文件被重復引用*/
#define __INCvxWorksh

#ifdef __cplusplus    //__cplusplus是cpp中自定義的一個宏
extern "C" {          //告訴編譯器,這部分代碼按C語言的格式進行編譯,而不是C++的
#endif

    /**** some declaration or so *****/  

#ifdef __cplusplus
}
#endif

#endif /* __INCvxWorksh */

extern “C”的含義
extern “C” 包含雙重含義,從字面上即可得到:首先,被它修飾的目標是“extern”的;其次,被它修飾的目標是“C”的。
被extern “C”限定的函數或變量是extern類型的;
1、extern關鍵字
extern是C/C++語言中表明函數和全局變量作用范圍(可見性)的關鍵字,該關鍵字告訴編譯器,其聲明的函數和變量可以在本模塊或其它模塊中使用。
通常,在模塊的頭文件中對本模塊提供給其它模塊引用的函數和全局變量以關鍵字extern聲明。例如,如果模塊B欲引用該模塊A中定義的全局變量和函數時只需包含模塊A的頭文件即可。這樣,模塊B中調用模塊A中的函數時,在編譯階段,模塊B雖然找不到該函數,但是並不會報錯;它會在鏈接階段中從模塊A編譯生成的目標代碼中找到此函數。
與extern對應的關鍵字是static,被它修飾的全局變量和函數只能在本模塊中使用。因此,一個函數或變量只可能被本模塊使用時,其不可能被extern “C”修飾。

2、被extern “C”修飾的變量和函數是按照C語言方式編譯和鏈接的
首先看看C++中對類似C的函數是怎樣編譯的。
作為一種面向對象的語言,C++支持函數重載,而過程式語言C則不支持。函數被C++編譯後在符號庫中的名字與C語言的不同。例如,假設某個函數的原型為:

void foo( int x, int y );

該函數被C編譯器編譯後在符號庫中的名字為_foo,而C++編譯器則會產生像_foo_int_int之類的名字(不同的編譯器可能生成的名字不同,但是都采用了相同的機制,生成的新名字稱為“mangled name”)。
_foo_int_int這樣的名字包含了函數名、函數參數數量及類型信息,C++就是靠這種機制來實現函數重載的。 例如,在C++中,函數void foo( int x, int y )與void foo( int x, float y )編譯生成的符號是不相同的,後者為_foo_int_float。
同樣地,C++中的變量除支持局部變量外,還支持類成員變量和全局變量。用戶所編寫程序的類成員變量可能與全局變量同名,我們以”.”來區分。而本質上,編譯器在進行編譯時,與函數的處理相似,也為類中的變量取了一個獨一無二的名字,這個名字與用戶程序中同名的全局變量名字不同。

如果C++調用一個C語言編寫的.DLL時,當包括.DLL的頭文件或聲明接口函數時,應加extern “C”{}。

!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
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

@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@
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 
#include 

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 
#include 

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);
}

%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
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
using namespace std;

extern "C"
{
     #include    // 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)
{
    //
    //
}

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