How can I create global variables that are shared in C? If I put it in a header file, then the linker complains that the variables are already defined. Is the only way to declare the variable in one of my C files and to manually put in externs at the top of all the other C files that want to use it? That sounds not ideal.


7 Answers 7


In one header file (shared.h):

extern int this_is_global;

In every file that you want to use this global symbol, include header containing the extern declaration:

#include "shared.h"

To avoid multiple linker definitions, just one declaration of your global symbol must be present across your compilation units (e.g: shared.cpp) :

/* shared.cpp */
#include "shared.h"
int this_is_global;
  • do you have any preferred references to learn more about IPC mechanisms?
    – NickO
    Feb 10, 2013 at 23:03
  • 7
    Please put more emphasis on "just one declaration of your global symbol..." Kind of tripped on that one. I had the declaration on all the c files I wanted to use the global variables on :(
    – AntonioCS
    Dec 27, 2013 at 0:21

In the header file write it with extern. And at the global scope of one of the c files declare it without extern.

  • 1
    Can we declare it in that *.c file's header file instead?
    – Geremia
    Jan 29, 2016 at 17:39

In the header file

header file

#ifdef  MAIN_FILE
int global;
extern int global;

In the file with the file you want the global to live:

#define MAIN_FILE
#include "share.h"

In the other files that need the extern version:

#include "share.h"
  • ah this is the solution i had a while ago - i forgot about the MAIN_FILE preprocessor variable. i thinik i like the cur accepted answer more tho
    – Claudiu
    Jun 10, 2010 at 4:03

You put the declaration in a header file, e.g.

 extern int my_global;

In one of your .c files you define it at global scope.

int my_global;

Every .c file that wants access to my_global includes the header file with the extern in.


If you're sharing code between C and C++, remember to add the following to the shared.hfile:

#ifdef __cplusplus
extern "C" {

extern int my_global;
/* other extern declarations ... */

#ifdef __cplusplus

There is a cleaner way with just one header file so it is simpler to maintain. In the header with the global variables prefix each declaration with a keyword (I use common) then in just one source file include it like this

#define common
#include "globals.h"
#undef common

and any other source files like this

#define common extern
#include "globals.h"
#undef common

Just make sure you don't initialise any of the variables in the globals.h file or the linker will still complain as an initialised variable is not treated as external even with the extern keyword. The global.h file looks similar to this

#pragma once
common int globala;
common int globalb;

seems to work for any type of declaration. Don't use the common keyword on #define of course.

  • You can also add #ifndef common #define common extern #endif to the header if you want to avoid defining common every time globals.h is included. The only caveat is that common is not undefined automatically.
    – GDavid
    Dec 12, 2021 at 14:04

There is a more elegant way to create global variables.

Just declare the variables as static inside a ".c" source file and create set/get functions.

The example below I use to override malloc, realloc and free functions during memory allocation tests.




#include <stddef.h>

void std_set_memory_allocators(void *(*malloc)(size_t size),
                               void *(realloc)(void *ptr, size_t size),
                               void (*free)(void *ptr));

void std_set_reset_allocators();

void *std_malloc(size_t size);

void *std_realloc(void *ptr, size_t size);

void std_free(void *ptr);



#include "memory-allocator.h"

#include <stddef.h>
#include <stdio.h>
#include <stdlib.h>

typedef struct {
    void *(*malloc)(size_t size);
    void *(*realloc)(void *ptr, size_t size);
    void (*free)(void *ptr);
} StdMemoryAllocator;

StdMemoryAllocator memory_allocators = {&malloc, &realloc, &free};

void std_set_memory_allocators(void *(*malloc)(size_t size),
                               void *(realloc)(void *ptr, size_t size),
                               void (*free)(void *ptr)) {
    memory_allocators.malloc = malloc;
    memory_allocators.realloc = realloc;
    memory_allocators.free = free;

void std_set_reset_allocators() {
    memory_allocators.malloc = malloc;
    memory_allocators.realloc = realloc;
    memory_allocators.free = free;

void *std_malloc(size_t size) {
    return memory_allocators.malloc(size);

void *std_realloc(void *ptr, size_t size) {
    return memory_allocators.realloc(ptr, size);

void std_free(void *ptr) {

The struct static struct StdMemoryAllocator_s memory_allocators is started automatically when the application starts, and it point to the default C memory allocators.

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