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Is there a way to (ab)use the C preprocessor to emulate namespaces in C?

I'm thinking something along these lines:

#define NAMESPACE name_of_ns
some_function() {
    some_other_function();
}

This would get translated to:

name_of_ns_some_function() {
    name_of_ns_some_other_function();
}
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7 Answers 7

up vote 27 down vote accepted

When using namespace prefixes, I normally add macros for the shortened names which can be activated via #define NAMESPACE_SHORT_NAMES before inclusion of the header. A header foobar.h might look like this:

// inclusion guard
#ifndef FOOBAR_H_
#define FOOBAR_H_

// long names
void foobar_some_func(int);
void foobar_other_func();

// short names
#ifdef FOOBAR_SHORT_NAMES
#define some_func(...) foobar_some_func(__VA_ARGS__)
#define other_func(...) foobar_other_func(__VA_ARGS__)
#endif

#endif

If I want to use short names in an including file, I'll do

#define FOOBAR_SHORT_NAMES
#include "foobar.h"

I find this a cleaner and more useful solution than using namespace macros as described by Vinko Vrsalovic (in the comments).

share|improve this answer
    
I like this approach, because it preserves the usual syntax for declaring and calling functions and it also saves me some typing. This might be a matter of personal preference, but I think this is the most readable solution. –  Kim Stebel Dec 24 '08 at 5:30

I use the struct-based approach, with two refinements: I add substructures to create hierarchical namespaces, and I define some simple macros when I want to simplify namespaces' path.

Let's take a Foobar library as an example.

foobar.h

#ifndef __FOOBAR_H__
#define __FOOBAR_H__

// definition of the namespace's hierarchical structure
struct _foobar_namespace {
    struct {
        void (*print)(char *s);
    } text;
    struct {
        char *(*getDateString)(void);
    } date;
};

// see the foobar.c file
// it must be the only one defining the FOOBAR macro
# ifndef FOOBAR
    // definition of the namespace global variable
    extern struct _foobar_namespace foobar;
# endif // FOOBAR

#endif // __FOOBAR_H__

foobar.c

// the FOOBAR macro is needed to avoid the
// extern foobar variable declaration
#define FOOBAR

#include "foobar.h"
#include "foobar_text.h"
#include "foobar_date.h"

// creation of the namespace global variable
struct _foobar_namespace foobar = {
    .text = {
        .print = foobar_text__print
    },
    .date = {
        .getDateString = foobar_date__getDateString
    }
};

Then, it's possible to use the namespace:

#include "foobar.h"

void main() {
    foobar.text.print("it works");
}

But there is not so much difference between foobar_text__print() and foobar.text.print(). I think the second one is more readable, but it's questionable. So it become really useful by defining some macros to simplify these namespaces:

#include "foobar.h"

#define txt    foobar.text
#define date   foobar.date

void main() {
    char *today = date.getDateString();
    txt.print(today);
}

This kind of hierarchical namespaces is fast to define, easy to understand, and decrease code verbosity.


Just for fun, here are the files for foobar.text code:

foobar_text.h

#ifndef __FOOBAR_TEXT_H__
#define __FOOBAR_TEXT_H__

void foobar_text__print(char *s);

#endif // __FOOBAR_TEXT_H__

foobar_text.c

#include <stdio.h>
#include "foobar_text.h"

void foobar_text__print(char *s) {
    printf("%s\n", s);
}
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here is an example that builds off above approaches and combines them for both funcs and structures to create pseudo-namespaces NAMESPACE1 and NAMESPACE2. the benefit of this over having a structure that holds functions is that the structure-holding-functions approach requires a standardized structure across multiple pseudo-namespaces, and this is not always possible (either at all, or without a lot of work that arguably does not improve the code) or desirable.

Not sure if the macro expansion order could be an issue but this works on GCC and seems to minimize the amount of code changes required, while maintaining decent (though far from ideal) readability.


application.c:

#include <stdio.h>
#include "header1.h"
#include "header2.h"

/* use NAMESPACE1 and NAMESPACE2 macros to choose namespace */

int main() {
  NAMESPACE1(mystruct) data1; // structure specific to this namespace
  NAMESPACE2(mystruct) data2; 

  data1.n1 = '1';
  data1.c  = 'a';
  data2.n2 = '2';
  data2.c  = 'a';

  NAMESPACE1(print_struct)(&data1); // function specific to this namespace
  NAMESPACE2(print_struct)(&data2);

}

header1.h

/* the below block is unnecessary, but gets rid of some compiler warnings */
#ifdef NAMESPACE_REAL
#undef NAMESPACE_REAL
#endif

/* edit the below lines to change the three occurrences of NAMESPACE1 to the desired namespace */
#define NAMESPACE1(name) NAMESPACE1 ## _ ## name
#define NAMESPACE_REAL(name) NAMESPACE1(name)


/* don't edit the next block */
#define TYPEDEF(name, ...) typedef struct NAMESPACE_REAL(name) { __VA_ARGS__ } NAMESPACE_REAL(name)
#define STRUCT(name) struct NAMESPACE_REAL(name)
#define FUNC(name) NAMESPACE_REAL(name)

/* normal header code, using FUNC and STRUCT macros */
#include <stdio.h>

TYPEDEF(mystruct,
        char n1;
        char c;
        );

void FUNC(print_struct)(STRUCT(mystruct) *data);

/* don't edit the rest */
#undef TYPEDEF

api1.c:

#include "header1.h"

/* normal code, using FUNC and STRUCT macros */
void FUNC(print_struct)(STRUCT(mystruct) *data) {
  printf("this is the struct from namespace1: %c %c\n", data->n1, data->c);
}


/* don't edit the rest */
#undef STRUCT
#undef FUNC
#undef NAMESPACE
#undef NAMESPACE_REAL

Other code in header2.h and api2.c is the same as header1.h and header2.h, modified for namespace "NAMESPACE2"

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An approach similar to the accepted answer is the following:

// inclusion guard
#ifndef FOOBAR_H_
#define FOOBAR_H_

// long names
void foobar_some_func(int);
void foobar_other_func();

// qualified names
#ifdef FOOBAR_SHORT_NAMES
extern struct _foobar {
     void (*some_func)(int);
     void (*other_func)();
} foobar;
#endif

#endif

this header file shall come with a .c file:

#include "foobar.h"
struct _foobar foobar = {
    foobar_some_func;
    foobar_other_func;
};

when using the functions,

foobar.some_func(10);
foobar.other_func();
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I came up with the following scheme :

(header)

// NS_PREFIX controls the prefix of each type and function declared in this
// header, in order to avoid name collision.
#define NS_PREFIX myprefix_

// Makes a string from argument (argument is not macro-expanded).
#define stringify(arg) #arg

// Concatenation that macro-expands its arguments.
#define concat(p1, p2) _concat(p1, p2) // Macro expands the arguments.
#define _concat(p1, p2) p1 ## p2       // Do the actual concatenation.

// Append the namespace prefix to the identifier.
#define ns(iden) concat(NS_PREFIX, iden)

// header content, for instance :
void ns(my_function)(int arg1, ns(t) arg2, int arg3);

// Allow implementation files to use namespacing features, else
// hide them from the including files.
#ifndef _IMPL
#undef NS_PREFIX
#undef ns
#undef stringify
#undef concat
#undef _concat
#endif // _IMPL

(implementation)

#define  _IMPL 
#include "header.h"
#undef   __IMPL
share|improve this answer

Another alternative would be to declare a struct to hold all your functions, and then define your functions statically. Then you'd only have to worry about name conflicts for the global name struct.

// foo.h
#ifndef FOO_H
#define FOO_H
typedef struct { 
  int (* const bar)(int, char *);
  void (* const baz)(void);
} namespace_struct;
extern namespace_struct const foo;
#endif // FOO_H

// foo.c
#include "foo.h"
static int my_bar(int a, char * s) { /* ... */ }
static void my_baz(void) { /* ... */ }
namespace_struct const foo = { my_bar, my_baz }

// main.c
#include <stdio.h>
#include "foo.h"
int main(void) {
  foo.baz();
  printf("%d", foo.bar(3, "hello"));
  return 0;
}

In the above example, my_bar and my_baz can't be called directly from main.c, only through foo.

If you have a bunch of namespaces that declare functions with the same signatures, then you can standardize your namespace struct for that set, and choose which namespace to use at runtime.

// goo.h
#ifndef GOO_H
#define GOO_H
#include "foo.h"
extern namespace_struct const goo;
#endif // GOO_H

// goo.c
#include "goo.h"
static int my_bar(int a, char * s) { /* ... */ }
static void my_baz(void) { /* ... */ }
namespace_struct const goo = { my_bar, my_baz };

// other_main.c
#include <stdio.h>
#include "foo.h"
#include "goo.h"
int main(int argc, char** argv) {
  namespace_struct const * const xoo = (argc > 1 ? foo : goo);
  xoo->baz();
  printf("%d", xoo->bar(3, "hello"));
  return 0;
}

The multiple definitions of my_bar and my_baz don't conflict, since they're defined statically, but the underlying functions are still accessible through the appropriate namespace struct.

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2  
This is an elegant "hack". +1 –  leemes Apr 14 '13 at 10:25
1  
I wouldn't even call this a hack - you are organizing exposed pieces of functionality using a language feature. +1 for a clean solution! –  Ron Dahlgren Jul 15 at 22:18

You could use the ## operator:

#define FUN_NAME(namespace,name) namespace ## name

and declare functions as:

void FUN_NAME(MyNamespace,HelloWorld)()

Looks pretty awkward though.

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I think #define NS1(name) Namespace1 ## name and then void NS1(some_func)() would look less weird (and actually force you to think your namespaces through) –  Vinko Vrsalovic Dec 23 '08 at 19:39
    
Yeah, I was thinking of some "context" too. But whatever it is, the idea lies within the ## operator. It's up to the user to adapt it for his/her own needs. –  Mehrdad Afshari Dec 23 '08 at 19:43
    
Be careful with the concatenation operator is you're using it with other macros. The order of macro-expansion is not strictly defined, and has differed between two compilers that I had to support. Scarily, neither of them was GCC, so I don't even know what it does. –  Novelocrat Jun 17 '09 at 3:28

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