134

Having namespaces seems like no-brainer for most languages. But as far as I can tell, ANSI C doesn't support it. Why not? Any plans to include it in a future standard?

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  • 19
    Use C++ as C-with-namespace! Commented Dec 9, 2010 at 8:20
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    I can of course, but I'd still like to know Commented Dec 9, 2010 at 8:23
  • 6
    2 things. An unnecessary distinctive syntax: All other languages with namespaces just use '.' as separator as its not ambiguous with other uses of '.'. And, more critically, c++ never introduced a scoped using directive. Which meant that programmers overused using directives to import namespaces into global scope. Which meant that the c++ standards committee now can't add new features to std:: ever as the amount of code that would break as a result has rendered the partitioning redundant. Commented Dec 9, 2010 at 8:40
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    @Chris Becke: I like distinctive syntax. I like to know whether I'm looking at a class in a name space or a member in a class.
    – JeremyP
    Commented Dec 9, 2010 at 9:03
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    @ChrisBecke, this is a few years late, but it's interesting that you argue that C++ namespaces were poorly implemented, so they shouldn't be implemented in C. Then you note that other languages implement them without the hangups of C++. If other languages can do it, why not introduce them to C?
    – weberc2
    Commented Oct 22, 2013 at 14:54

10 Answers 10

139

For completeness there are several ways to achieve the "benefits" you might get from namespaces, in C.

One of my favorite methods is using a structure to house a bunch of method pointers which are the interface to your library/etc..

You then use an extern instance of this structure which you initialize inside your library pointing to all your functions. This allows you to keep your names simple in your library without stepping on the clients namespace (other than the extern variable at global scope, 1 variable vs possibly hundreds of methods..)

There is some additional maintenance involved but I feel that it is minimal.

Here is an example:

/* interface.h */

struct library {
    const int some_value;
    void (*method1)(void);
    void (*method2)(int);
    /* ... */
};

extern const struct library Library;
/* end interface.h */

/* interface.c */
#include "interface.h"

void method1(void)
{
   ...
}
void method2(int arg)
{
   ...
}

const struct library Library = {
    .method1 = method1,
    .method2 = method2,
    .some_value = 36
};
/* end interface.c */

/* client code */
#include "interface.h"

int main(void)
{
    Library.method1();
    Library.method2(5);
    printf("%d\n", Library.some_value);
    return 0;
}
/* end client code */

The use of . syntax creates a strong association over the classic Library_function(), Library_some_value method. There are some limitations however, for one you can't use macros as functions.

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    ... and are compilers smart enough to "dereference" the function pointer at compile time when you do library.method1()?
    – einpoklum
    Commented Oct 1, 2015 at 11:37
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    This is so awesome. One thing I might add, I'm trying out making all of my functions in my .c files static by default, thus the only functions exposed are the ones explicitly exposed in the const struct definition in the .c file.
    – lastmjs
    Commented Feb 1, 2017 at 19:53
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    That's a great idea, but how do you deal with constants and enums?
    – nowox
    Commented Jul 19, 2017 at 14:43
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    @einpoklum - sorry to necro, but at least as of version 6.3.0, gcc will compute the actual address of function1/method2 when compiling with both -O2 and -flto. Unless you compile such libraries along with your own source, this approach will add some overhead to its function calls. Commented Mar 4, 2018 at 8:11
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    @AlexReinking: Well, that's nice, but we would never get these functions inlined. And - necro'ing is great, no apology necessary.
    – einpoklum
    Commented Mar 4, 2018 at 10:00
88

C does have namespaces. One for structure tags, and one for other types. Consider the following definition:

struct foo
{
    int a;
};

typedef struct bar
{
    int a;
} foo;

The first one has tag foo, and the later is made into type foo with a typedef. Still no name-clashing happens. This is because structure tags and types (built-in types and typedef'ed types) live in separate namespaces.

What C doesn't allow is to create new namespace by will. C was standardized before this was deemed important in a language, and adding namespaces would also threaten backwards-compatibility, because it requires name mangling to work right. I think this can be attributed due to technicalities, not philosophy.

EDIT: JeremyP fortunately corrected me and mentioned the namespaces I missed. There are namespaces for labels and for struct/union members as well.

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    There are actually more than two name spaces. In addition to the two you mention, there is a name space for labels and name spaces for the members of each struct and union.
    – JeremyP
    Commented Dec 9, 2010 at 9:00
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    @JeremyP : Many thanks for the correction. I only wrote this off memory, I didn't check the standard :-)
    – Mads Elvheim
    Commented Dec 9, 2010 at 19:22
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    what about namespace for functions?
    – themihai
    Commented Jul 3, 2016 at 12:42
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    This may well be called namespaces, but I believe these are not the sort of namespaces the OP was asking about.
    – avl_sweden
    Commented Aug 18, 2017 at 12:53
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    @jterm Nope. I'm not advocating hacking C features, merely stating the facts. Each struct definition declares a new namespace for its members. I'm not advocating exploiting that fact, nor am I aware of any means of exploiting it since structs cannot have static members.
    – JeremyP
    Commented Aug 28, 2018 at 17:16
24

C has namespaces. The syntax is namespace_name. You can even nest them as in general_specific_name. And if you want to be able to access names without writing out the namespace name every time, include the relevant preprocessor macros in a header file, e.g.

#define myfunction mylib_myfunction

This is a lot cleaner than name mangling and the other atrocities certain languages commit to deliver namespaces.

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    I see it differently. Complicating the grammar, introducing name mangling on symbols, etc. to achieve something that was already trivial to do with the preprocessor is what I would call a dirty hack and poor design. Commented Jul 3, 2013 at 21:27
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    I don't see how you can really support that position. Ask the Javascript community about integrating projects when every other system has a different homegrown hack for implementing namespaces. I've never heard anyone complain about the 'namespace' or 'package' keyword adding too much complexity to their language. On the other hand, trying to debug code littered with macros can get hairy fast!
    – weberc2
    Commented Jul 4, 2013 at 0:33
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    This isn't namespaces, this is using a naming convention to poorly imitate what namespaces give you.
    – Claudiu
    Commented Mar 23, 2015 at 17:49
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    I find it mind blowing that C people will actually argue this with a straight face. There are many features in C++ with sharp edges that give people grief. Namespaces are not one of those features. They're great, they work very well. And nothing is trivial with the preprocessor, for the record. Finally, demangling names is trivial, there are plenty of command line utilities that will do it for you. Commented Jun 14, 2015 at 14:36
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    This is just a silly way to say that the C doesn't have namespaces. With your definition, any language that supports _ in symbols would support namespaces. This isn't the way the term 'namespaces' is usually used in computing.
    – avl_sweden
    Commented Aug 18, 2017 at 12:54
16

Historically, C compilers don't mangle names (they do on Windows, but the mangling for the cdecl calling convention consists of only adding an underscore prefix).

This makes it easy to use C libraries from other languages (including assembler) and is one of the reasons why you often see extern "C" wrappers for C++ APIs.

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    But why is that such a problem? I mean, suppose all namespaced names would begin with _da13cd6447244ab9a30027d3d0a08903 and then the name (That's a UUID v4 I just generated) ? There is a chance this might break names which use this particular UUID, but that chance is essentially zero. So there will in practice not be a problem mangling only_namespace_names.
    – einpoklum
    Commented Oct 1, 2015 at 11:42
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    @einpoklum it isn't. Lazy programmers is the only problem here. Name mangling being absolute garbage just like its implementation is a sign of such lazyness. Too bad, when they could've easily been lazy by mangling properly. Imagine if "name mangling", instead of an excuse, was an actual feature, and a function add in a module vector of a library myvectors resulted in a symbol myvectors_vector_add and that's what everyone consuming the C library would be using universally without problems while in C it would just be vector::add or equivalent. I can't imagine either.
    – Kaihaku
    Commented Oct 5, 2021 at 7:47
9

just historical reasons. nobody thought of having something like a namespace at that time. Also they were really trying to keep the language simple. They may have it in the future

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    Is there any movement in the standard committee to add namespaces to C in the future? Possible with the move to C/C++ module this could make it easier in the future?
    – lanoxx
    Commented Feb 13, 2015 at 13:13
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    @lanoxx There is no will to add namespaces to C because of backward compatibility reasons.
    – themihai
    Commented Sep 6, 2016 at 13:10
7

Not an answer, but not a comment. C doesn't provide a way to define namespace explicitly. It has variable scope. For example:

int i=10;

struct ex {
  int i;
}

void foo() {
  int i=0;
}

void bar() {
  int i=5;
  foo();
  printf("my i=%d\n", i);
}

void foobar() {
  foo();
  bar();
  printf("my i=%d\n", i);
}

You can use qualified names for variables and functions:

mylib.h

void mylib_init();
void mylib_sayhello();

The only difference from namespaces it that you cannot be using and cannot import from mylib.

1
  • You can also not replace the last two lines with namespace mylib { void init(); void say_hello(); } which is also important(ish).
    – einpoklum
    Commented Oct 1, 2015 at 11:43
6

ANSI C was invented before namespaces were.

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    It was? The first ANSI C spec was 1989. I'm pretty sure that namespaces (in some form or another) were in programming languages before then. Ada, for example, was standardized in 1983 and had packages as namespaces. Those in turn were essentially based on Modula-2 modules. Commented Dec 9, 2010 at 11:09
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    I wouldn't date the invention of ANSI C to when its spec was officially adopted; the language existed beforehand, and the spec just documented what was already there. Although from some of the answers on this site one might think the spec came first and the first compiler as an afterthought.
    – Crashworks
    Commented Dec 9, 2010 at 18:17
  • ANSI C did have some significant differences from pre-ANSI C, but namespaces weren't one of them.
    – dan04
    Commented Feb 20, 2011 at 9:49
  • Meanwhile, I am writing it in 2020, well after namespaces came into existence. The latest C standards still do not have them. As much as C makes sense, this is one feature that is missing sorely.
    – user14222280
    Commented Sep 25, 2020 at 8:59
2

Because people who want to add this capability to C have not gotten together and organized to put some pressure on compiler author teams and on ISO bodies.

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    I think we will see namespace in C is only if these people would organise themselves and create an extension(s) with namespace support. Then the ISO bodies will have no choice but bring publish them as standard(with more or less changes). That's how javascript(which has some similarities with C in this respect) did it.
    – themihai
    Commented Sep 17, 2016 at 11:44
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    @themihai: "create an extension" = get the gcc and clang people to compile namespaces.
    – einpoklum
    Commented Sep 17, 2016 at 15:04
2

C doesn't support namespaces like C++. The implementation of C++ namespaces mangle the names. The approach outlined below allows you to get the benefit of namespaces in C++ while having names that are not mangled. I realize that the nature of the question is why doesn't C support namespaces (and a trivial answer would be that it doesn't because it wasn't implemented :)). I just thought that it might help someone to see how I've implemented the functionality of templates and namespaces.

I wrote up a tutorial on how to get the advantage of namespaces and/or templates using C.

Namespaces and templates in C

Namespaces and templates in C (using Linked Lists)

For the basic namespace, one can simply prefix the namespace name as a convention.

namespace MY_OBJECT {
  struct HANDLE;
  HANDLE *init();
  void destroy(HANDLE * & h);

  void do_something(HANDLE *h, ... );
}

can be written as

struct MY_OBJECT_HANDLE;
struct MY_OBJECT_HANDLE *my_object_init();
void my_object_destroy( MY_OBJECT_HANDLE * & h );

void my_object_do_something(MY_OBJECT_HANDLE *h, ... );

A second approach that I have needed that uses the concept of namespacing and templates is to use the macro concatenation and include. For example, I can create a

template<T> T multiply<T>( T x, T y ) { return x*y }

using template files as follows

multiply-template.h

_multiply_type_ _multiply_(multiply)( _multiply_type_ x, _multiply_type_ y);

multiply-template.c

_multiply_type_ _multiply_(multiply)( _multiply_type_ x, _multiply_type_ y) {
  return x*y;
}

We can now define int_multiply as follows. In this example, I'll create a int_multiply.h/.c file.

int_multiply.h

#ifndef _INT_MULTIPLY_H
#define _INT_MULTIPLY_H

#ifdef _multiply_
#undef _multiply_
#endif
#define _multiply_(NAME) int ## _ ## NAME 

#ifdef _multiply_type_
#undef _multiply_type_
#endif
#define _multiply_type_ int 

#include "multiply-template.h" 
#endif

int_multiply.c

#include "int_multiply.h"
#include "multiply-template.c"

At the end of all of this, you will have a function and header file for.

int int_multiply( int x, int y ) { return x * y }

I created a much more detailed tutorial on the links provided which show how it works with linked lists. Hopefully this helps someone!

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    Your links explain how to add namespaces. However, the question was why namespaces are not supported. So this answer is not an answer and should be a comment instead. Commented Dec 29, 2017 at 21:55
  • @ThomasWeller You're right, but I really can't see how all of that information could fit into a comment. For me, it is valuable as it is, and it would lose its meaning by shortening it to a comment.
    – Binarus
    Commented Aug 9, 2023 at 14:06
2

You can. Like other's answer, define function pointers in a struct.

However, declare it in your header file, mark it static const and initialize it with the corresponding functions. With -O1 or higher it will be optimized as normal function calls

eg:

void myfunc(void);
    
static const struct {
      void(*myfunc)(void);
} mylib = {
      .myfunc = myfunc
};

Take advantage of the #include statement so you do not need to define all functions in one single header.

Do not add header guards as you are including it more than once.

eg: header1.h

#ifdef LIB_FUNC_DECL
void func1(void);
#elif defined(LIB_STRUCT_DECL)
struct {
      void(*func)(void);
} submodule1;
#else
    .submodule1.func = func1,
#endif

mylib.h

#define LIB_FUNC_DECL
#include "header1.h"
#undef LIB_FUNC_DECL
#define LIB_STRUCT_DECL

static const struct {
#include "header1.h"
#undef LIB_STRUCT_DECL
} mylib = {
    #include "header1.h"
};

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