I am reading the book "Programming in C" and found in Chapter 10 an example like this:

#include <stdio.h>

void test (int  *int_pointer)
     *int_pointer = 100;

int main (void)
     void test (int  *int_pointer);
     int  i = 50, *p = &i;

     printf ("Before the call to test i = %i\n", i);

     test (p);
     printf ("After the call to test i = %i\n", i);

     return 0;

I understand the example, but I don't understand the line void test (int *int_pointer); inside of main. Why do I define the signature of test again? Is that idiomatic C?

  • 8
    This is redundant. You do not need.
    Apr 20, 2015 at 11:37
  • 7
    It's a declaration, which tells the compiler that there somewhere is a function named test which takes the specified arguments and returns nothing. It's also called a "function prototype". You don't really need it in your simple example, since the function prototype is already declared with the function definition, but it's needed if you e.g. move the definition to below the main function, or to another source file. And a declaration is a declaration is a declaration, you can put any declaration you want where it's allowed to put declarations. Apr 20, 2015 at 11:37
  • 1
    @JoachimPileborg; "And a declaration is a declaration is a declaration, you can put any declaration you want where it's allowed to put declarations.": ?
    – haccks
    Apr 20, 2015 at 12:00
  • 1
    @haccks I mean that a declaration is a declaration, no matter what it declares. And if the language allows a declaration, then one can put any kind of declaration. Apr 20, 2015 at 13:03
  • 2
    @Olaf: I disagree with your assertion. There might be a few extreme and weird circumstances where it is necessary, but I disagree that there are many such cases. Further, in those few cases where it might be necessary, I would argue that there are going to be major maintenance problems with the code. Possibly the headers are trying to be too comprehensive, or the code is trying to do things that it really shouldn't be doing. Apr 20, 2015 at 19:22

5 Answers 5


void test (int *int_pointer); is just a declaration (or prototype) of function test. No need of this declaration in main because you already have function definition before main.

If the definition of test were after main then it would be worth of putting its declaration there to let the compiler know about the return type, number of arguments and arguments types of test before calling it.


It's definitely not idiomatic C, despite being fully valid (multiple declarations are okay, multiple definitions are not). It's unnecessary, so the code will still work perfectly without it.

If at all, perhaps the author meant to do

void test (int *int_pointer);

int main (void) {



in case the function definition was put after main ().

  • 13
    I wouldn't call your two links reliable either, and int main(void) is perfectly idiomatic. Maybe you should turn on warnings to see why you would prefer void over unused parameters.
    – a3f
    Apr 20, 2015 at 12:25
  • 12
    With -Wall -Wextra, they do indeed warn about unused argc and argv as with any other function. Which is ok as you are supposed to use int main(void) anyway when you aren't using command line arguments. And just because something bothers you doesn't mean it's not idiomatic.
    – a3f
    Apr 20, 2015 at 12:33
  • 9
    What I wanted to say is: (void) is fine, standard and idiomatic. Misquoting another answer and it bothering you doesn't change that.
    – a3f
    Apr 20, 2015 at 12:49
  • 5
    @haneefmubarak you're arguing a point that is trivially and demonstrably wrong: the C standard's exact words are "The function called at program startup is named main. The implementation declares no prototype for this function. It shall be defined with a return type of int and with no parameters". It then goes on to describe the argc/argv case and other options, but (void) is literally the first thing it describes; it is not possible to get more idiomatic. (This isn't even relevant to the OP!) Apr 20, 2015 at 13:48
  • 8
    Note that both the HowStuffWorks reference and the Learn X in Y minutes where X = C reference use int main(), which does not support your thesis about the signature of main(). The C standard also does not support your thesis; it explicitly says that int main(void) is OK. Apr 20, 2015 at 13:48

It's not idomatic C, but still valid.

The line is a declaration of the function test, not definition. A function can't be defined multiple times, but it's valid to have multiple declarations.


It is perfectly idiomatic C, and it actually has a (limited) practical use - although not one that is demonstrated by this example.

When you declare a function or other name at the usual global level, it is brought into scope for all function bodies in the code following the declaration. A declaration cannot be removed from a scope once it has been introduced. The function is permanently visible to the rest of the translation unit.

When you declare a function or other name within a braced block, the scope of the declaration is limited to that block. Declaring a function within the scope of another function will limit its visibility, and not pollute the global namespace or make it visible to any other functions defined in the same translation unit.

This is meaningless in the case of the example, because the definition of test also brings it into scope for all following bodies - but if test were defined in another translation unit, or even if it were defined only at the very bottom of this TU, hiding the declaration inside main would protect any other functions defined afterwards from being able to see its name in their scope.

In practical terms this is of limited use - normally if you don't want a function to be visible, you put it in another translation unit (and preferably make it static) - but you can probably contrive a situation where you might want to use this ability for constructing a module-loading system that doesn't export the original declarations of its components, or something like that (and the fact that this doesn't rely on static/separate object files might potentially have some relevance to embedded/non-hosted target environments where the linking step might not work as it does on PC, allowing you to achieve a measure of namespace protection in a purely-#include-based build system).


struct module {
    void * (* alloc)(size_t);
    void (* dealloc)(void *);
} loaded_module;

int main(void) {
    if (USE_GC) {   // dynamically choose the allocator system
        void * private_malloc_gc(size_t);
        void private_free_noop(void *);
        loaded_module = (struct module){ private_malloc_gc, private_free_noop };
    } else {
        void * private_malloc(size_t);
        void private_free(void *);
        loaded_module = (struct module){ private_malloc, private_free };

// cannot accidentally bypass the module and manually use the wrong dealloc
void do_stuff(void) {
    int * nums = module.alloc(sizeof(int) * 32)

#include "allocator_implementations.c"
  • 1
    You say: When you declare a function or other name within a braced block, the scope of the declaration is limited to that block. Declaring a function within the scope of another function will limit its visibility, and not pollute the global namespace or make it visible to any other functions defined in the same translation unit. The first sentence is fine. The first half of the second is fine. The 'not pollute the global namespace' is not valid. The function can only be defined once, in the global namespace unless it is static in a file. [...continued...] Apr 20, 2015 at 17:55
  • 1
    [...continuation...] The downside to declaring a function inside other functions is that you could have different declarations in different functions, but they'll all end up referring to the same actual function, and then there's all hell to pay (at run-time!). Don't declare functions inside other functions. See also my comments to the main question. Apr 20, 2015 at 17:57
  • @JonathanLeffler Those points apply better to other languages than to C; C's toplevel scope is a) ordered and b) not shared between translation units. Even though an externally-linked function can be accessed from anywhere in a module, if the name isn't declared, it isn't in scope; and the order of declarations can mean this is in effect for some functions within a TU as well, depending on its structure. Functions are not all in scope all the time. Apr 20, 2015 at 20:03
  • 2
    @Leushenko: it is not about scope, it is about consistency and reliability. If you declare an external function in a source file, at global scope or local scope inside a function, this declaration is just a promise by the programmer that cannot be trivially checked by the compiler. @Jonathan Leffler says such a function declaration belongs in a header file to be included in all modules that use the function and in the module that defines its implementation, to check consistency. gcc and clang have warnings to enforce this useful convention and prevent inconsistent code generation.
    – chqrlie
    Apr 20, 2015 at 21:07
  • 2
    A typical usage for having an external declartion within function scope would be an inline function with a large (external) lookup table. Another is a system-level function which references linker- supplied symbols like heap_start, for instance. These only need to be visible inside the affected function. For sure, if these are required by more functions, CU-scope would be prefereabe. However, there would still be no benefit in having that in an external header file. Apr 20, 2015 at 21:48

It's not idiomatic; you typically see it in code that has problems getting their header files in order.

Any function is either used in one file only, or it is used in multiple files. If it is only used in its own file, it should be static. If it is used in multiple files, its declaration should be in a header file, and anyone using it should include the header file.

What you see here is very bad style (the function should either be static, or the declaration should be taken from a header style), and also quite pointless because the compiler can see the declaration already. Since the function is in the same file, it's not dangerous; if the declaration and function don't match the compiler will tell you. I have often seen this kind of thing when the function was in a different file; that is dangerous. If someone changes the function, the program is likely to crash or misbehave.

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