如何使用 extern 在源文件之间共享变量?

我知道 C 中的全局变量有时具有extern关键字。什么是extern变量?声明是什么样的?它的范围是什么?

这与在源文件之间共享变量有关,但是如何精确地工作呢?我在哪里使用extern

答案

extern int global_variable;  /* Declaration of the variable */
#include "file3.h"  /* Declaration made available here */
#include "prog1.h"  /* Function declarations */

/* Variable defined here */
int global_variable = 37;    /* Definition checked against declaration */

int increment(void) { return global_variable++; }
#include "file3.h"
#include "prog1.h"
#include <stdio.h>

void use_it(void)
{
    printf("Global variable: %d\n", global_variable++);
}
extern void use_it(void);
extern int increment(void);
#include "file3.h"
#include "prog1.h"
#include <stdio.h>

int main(void)
{
    use_it();
    global_variable += 19;
    use_it();
    printf("Increment: %d\n", increment());
    return 0;
}
# Minimal makefile for prog1

PROGRAM = prog1
FILES.c = prog1.c file1.c file2.c
FILES.h = prog1.h file3.h
FILES.o = ${FILES.c:.c=.o}

CC      = gcc
SFLAGS  = -std=c11
GFLAGS  = -g
OFLAGS  = -O3
WFLAG1  = -Wall
WFLAG2  = -Wextra
WFLAG3  = -Werror
WFLAG4  = -Wstrict-prototypes
WFLAG5  = -Wmissing-prototypes
WFLAGS  = ${WFLAG1} ${WFLAG2} ${WFLAG3} ${WFLAG4} ${WFLAG5}
UFLAGS  = # Set on command line only

CFLAGS  = ${SFLAGS} ${GFLAGS} ${OFLAGS} ${WFLAGS} ${UFLAGS}
LDFLAGS =
LDLIBS  =

all:    ${PROGRAM}

${PROGRAM}: ${FILES.o}
    ${CC} -o $@ ${CFLAGS} ${FILES.o} ${LDFLAGS} ${LDLIBS}

prog1.o: ${FILES.h}
file1.o: ${FILES.h}
file2.o: ${FILES.h}

# If it exists, prog1.dSYM is a directory on macOS
DEBRIS = a.out core *~ *.dSYM
RM_FR  = rm -fr

clean:
    ${RM_FR} ${FILES.o} ${PROGRAM} ${DEBRIS}
#include "prog2.h"

int i;   /* Do not do this in portable code */

void inc(void) { i++; }
#include "prog2.h"

int i;   /* Do not do this in portable code */

void dec(void) { i--; }
#include "prog2.h"
#include <stdio.h>

int i = 9;   /* Do not do this in portable code */

void put(void) { printf("i = %d\n", i); }
extern void dec(void);
extern void put(void);
extern void inc(void);
#include "prog2.h"
#include <stdio.h>

int main(void)
{
    inc();
    put();
    dec();
    put();
    dec();
    put();
}
int some_var;    /* Do not do this in a header!!! */
int some_var = 13;    /* Only one source file in a program can use this */
static int hidden_global = 3;   /* Each source file gets its own copy  */
#ifdef DEFINE_VARIABLES
#define EXTERN /* nothing */
#else
#define EXTERN extern
#endif /* DEFINE_VARIABLES */

EXTERN int global_variable;
#define DEFINE_VARIABLES
#include "file3a.h"  /* Variable defined - but not initialized */
#include "prog3.h"

int increment(void) { return global_variable++; }
#include "file3a.h"
#include "prog3.h"
#include <stdio.h>

void use_it(void)
{
    printf("Global variable: %d\n", global_variable++);
}
extern void use_it(void);
extern int increment(void);
#include "file3a.h"
#include "prog3.h"
#include <stdio.h>

int main(void)
{
    use_it();
    global_variable += 19;
    use_it();
    printf("Increment: %d\n", increment());
    return 0;
}
#ifdef DEFINE_VARIABLES
#define EXTERN                  /* nothing */
#define INITIALIZER(...)        = __VA_ARGS__
#else
#define EXTERN                  extern
#define INITIALIZER(...)        /* nothing */
#endif /* DEFINE_VARIABLES */

EXTERN int global_variable INITIALIZER(37);
EXTERN struct { int a; int b; } oddball_struct INITIALIZER({ 41, 43 });
#define DEFINE_VARIABLES
#include "file3b.h"  /* Variables now defined and initialized */
#include "prog4.h"

int increment(void) { return global_variable++; }
int oddball_value(void) { return oddball_struct.a + oddball_struct.b; }
#include "file3b.h"
#include "prog4.h"
#include <stdio.h>

void use_them(void)
{
    printf("Global variable: %d\n", global_variable++);
    oddball_struct.a += global_variable;
    oddball_struct.b -= global_variable / 2;
}
extern int increment(void);
extern int oddball_value(void);
extern void use_them(void);
#include "file3b.h"
#include "prog4.h"
#include <stdio.h>

int main(void)
{
    use_them();
    global_variable += 19;
    use_them();
    printf("Increment: %d\n", increment());
    printf("Oddball:   %d\n", oddball_value());
    return 0;
}
#ifndef FILE3B_H_INCLUDED
#define FILE3B_H_INCLUDED

...contents of header...

#endif /* FILE3B_H_INCLUDED */
/*
** This header must not contain header guards (like <assert.h> must not).
** Each time it is invoked, it redefines the macros EXTERN, INITIALIZE
** based on whether macro DEFINE_VARIABLES is currently defined.
*/
#undef EXTERN
#undef INITIALIZE

#ifdef DEFINE_VARIABLES
#define EXTERN              /* nothing */
#define INITIALIZE(...)     = __VA_ARGS__
#else
#define EXTERN              extern
#define INITIALIZE(...)     /* nothing */
#endif /* DEFINE_VARIABLES */
#ifndef FILE1C_H_INCLUDED
#define FILE1C_H_INCLUDED

struct oddball
{
    int a;
    int b;
};

extern void use_them(void);
extern int increment(void);
extern int oddball_value(void);

#endif /* FILE1C_H_INCLUDED */
/* Standard prologue */
#if defined(DEFINE_VARIABLES) && !defined(FILE2C_H_DEFINITIONS)
#undef FILE2C_H_INCLUDED
#endif

#ifndef FILE2C_H_INCLUDED
#define FILE2C_H_INCLUDED

#include "external.h"   /* Support macros EXTERN, INITIALIZE */
#include "file1c.h"     /* Type definition for struct oddball */

#if !defined(DEFINE_VARIABLES) || !defined(FILE2C_H_DEFINITIONS)

/* Global variable declarations / definitions */
EXTERN int global_variable INITIALIZE(37);
EXTERN struct oddball oddball_struct INITIALIZE({ 41, 43 });

#endif /* !DEFINE_VARIABLES || !FILE2C_H_DEFINITIONS */

/* Standard epilogue */
#ifdef DEFINE_VARIABLES
#define FILE2C_H_DEFINITIONS
#endif /* DEFINE_VARIABLES */

#endif /* FILE2C_H_INCLUDED */
#define DEFINE_VARIABLES
#include "file2c.h"  /* Variables now defined and initialized */

int increment(void) { return global_variable++; }
int oddball_value(void) { return oddball_struct.a + oddball_struct.b; }
#include "file2c.h"
#include <stdio.h>

void use_them(void)
{
    printf("Global variable: %d\n", global_variable++);
    oddball_struct.a += global_variable;
    oddball_struct.b -= global_variable / 2;
}
#include "file2c.h"     /* Declare variables */

#define DEFINE_VARIABLES
#include "file2c.h"  /* Variables now defined and initialized */

int increment(void) { return global_variable++; }
int oddball_value(void) { return oddball_struct.a + oddball_struct.b; }
#define DEFINE_VARIABLES
#include "file2c.h"     /* Variables now defined and initialized */

#include "file2c.h"     /* Declare variables */

int increment(void) { return global_variable++; }
int oddball_value(void) { return oddball_struct.a + oddball_struct.b; }
#include "file2c.h"
#include <stdio.h>

int main(void)
{
    use_them();
    global_variable += 19;
    use_them();
    printf("Increment: %d\n", increment());
    printf("Oddball:   %d\n", oddball_value());
    return 0;
}
/* Standard prologue */
#if defined(DEFINE_VARIABLES) && !defined(FILE2D_H_DEFINITIONS)
#undef FILE2D_H_INCLUDED
#endif

#ifndef FILE2D_H_INCLUDED
#define FILE2D_H_INCLUDED

#include "external.h"   /* Support macros EXTERN, INITIALIZE */
#include "file1c.h"     /* Type definition for struct oddball */

#if !defined(DEFINE_VARIABLES) || !defined(FILE2D_H_DEFINITIONS)

/* Global variable declarations / definitions */
EXTERN int global_variable INITIALIZE(37);
EXTERN struct oddball oddball_struct INITIALIZE({ 41, 43 });

#endif /* !DEFINE_VARIABLES || !FILE2D_H_DEFINITIONS */

/* Standard epilogue */
#ifdef DEFINE_VARIABLES
#define FILE2D_H_DEFINITIONS
#undef DEFINE_VARIABLES
#endif /* DEFINE_VARIABLES */

#endif /* FILE2D_H_INCLUDED */
#define DEFINE_VARIABLES
#include "file2c.h"
#undef DEFINE_VARIABLES
#define HEADER_DEFINING_VARIABLES "file2c.h"
#include "externdef.h"
/*
** This header must not contain header guards (like <assert.h> must not).
** Each time it is included, the macro HEADER_DEFINING_VARIABLES should
** be defined with the name (in quotes - or possibly angle brackets) of
** the header to be included that defines variables when the macro
** DEFINE_VARIABLES is defined.  See also: external.h (which uses
** DEFINE_VARIABLES and defines macros EXTERN and INITIALIZE
** appropriately).
**
** #define HEADER_DEFINING_VARIABLES "file2c.h"
** #include "externdef.h"
*/

#if defined(HEADER_DEFINING_VARIABLES)
#define DEFINE_VARIABLES
#include HEADER_DEFINING_VARIABLES
#undef DEFINE_VARIABLES
#undef HEADER_DEFINING_VARIABLES
#endif /* HEADER_DEFINING_VARIABLES */
/* Declare variables */
#include "file2d.h"

/* Define variables */
#define HEADER_DEFINING_VARIABLES "file2d.h"
#include "externdef.h"

/* Declare variables - again */
#include "file2d.h"

/* Define variables - again */
#define HEADER_DEFINING_VARIABLES "file2d.h"
#include "externdef.h"

int increment(void) { return global_variable++; }
int oddball_value(void) { return oddball_struct.a + oddball_struct.b; }
/* Standard prologue */
#if defined(DEFINE_VARIABLES) && !defined(FILE8C_H_DEFINITIONS)
#undef FILE8C_H_INCLUDED
#endif

#ifndef FILE8C_H_INCLUDED
#define FILE8C_H_INCLUDED

#include "external.h"   /* Support macros EXTERN, INITIALIZE */
#include "file2d.h"     /* struct oddball */

#if !defined(DEFINE_VARIABLES) || !defined(FILE8C_H_DEFINITIONS)

/* Global variable declarations / definitions */
EXTERN struct oddball another INITIALIZE({ 14, 34 });

#endif /* !DEFINE_VARIABLES || !FILE8C_H_DEFINITIONS */

/* Standard epilogue */
#ifdef DEFINE_VARIABLES
#define FILE8C_H_DEFINITIONS
#endif /* DEFINE_VARIABLES */

#endif /* FILE8C_H_INCLUDED */
/* Define variables */
#define HEADER_DEFINING_VARIABLES "file2d.h"
#include "externdef.h"

/* Define variables */
#define HEADER_DEFINING_VARIABLES "file8c.h"
#include "externdef.h"

int increment(void) { return global_variable++; }
int oddball_value(void) { return oddball_struct.a + oddball_struct.b; }
#include "file2d.h"
#include <stdio.h>

int main(void)
{
    use_them();
    global_variable += 19;
    use_them();
    printf("Increment: %d\n", increment());
    printf("Oddball:   %d\n", oddball_value());
    return 0;
}
#include "file2d.h"
#include <stdio.h>

void use_them(void)
{
    printf("Global variable: %d\n", global_variable++);
    oddball_struct.a += global_variable;
    oddball_struct.b -= global_variable / 2;
}
$ cat test1.c 
int test1_var = 5;
$ cat test2.c
#include <stdio.h>

extern int test1_var;

int main(void) {
    printf("test1_var = %d\n", test1_var);
    return 0;
}
$ gcc test1.c test2.c -o test
$ ./test
test1_var = 5

Extern 是用于声明变量本身位于另一个翻译单元中的关键字。

因此,您可以决定在翻译单元中使用变量,然后从另一个变量中访问它,然后在第二个变量中,将其声明为 extern,链接器将解析该符号。

如果不将其声明为 extern,则将获得 2 个名称相同但完全不相关的变量,并且会出现该变量的多个定义的错误。

我喜欢将 extern 变量视为对编译器的承诺。

遇到外部变量时,编译器只能找到其类型,而不能找到其 “存在” 的位置,因此它无法解析引用。

您告诉它,“相信我。在链接时,此引用将是可解决的。”

extern 告诉编译器信任您该变量的内存在其他地方声明,因此它不会尝试分配 / 检查内存。

因此,您可以编译一个引用了 extern 的文件,但是如果未在某处声明该内存,则无法链接。

对于全局变量和库很有用,但是很危险,因为链接器不进行检查。

添加extern会将变量定义转换为变量声明 。请参阅此线程 ,以了解声明和定义之间的区别。

declare | define   | initialize |
                ----------------------------------

extern int a;    yes          no           no
-------------
int a = 2019;    yes          yes          yes
-------------
int a;           yes          yes          no
-------------

extern 的正确解释是您向编译器告知了一些信息。您告诉编译器,尽管现在不存在,但链接器将以某种方式找到声明的变量(通常在另一个对象(文件)中)。不管您是否有外部声明,链接器都将是幸运的家伙,可以找到所有内容并将它们放在一起。

#include<stdio.h>
extern int a;
main(){
       printf("The value of a is <%d>\n",a);
}
int a = 5;

extern 关键字与变量一起使用,以将其标识为全局变量。

它也表示您可以在任何文件中使用使用 extern 关键字声明的变量,尽管该变量是在其他文件中声明 / 定义的。