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I've just come across someone's C code that I'm confused as to why it is compiling. There are two points I don't understand.

First, the function prototype has no parameters compared to the actual function definition. Second, the parameter in the function definition does not have a type.

#include <stdio.h>

int func();

int func(param)
{
    return param;
}

int main()
{
    int bla = func(10);    
    printf("%d", bla);
}

Why does this work? I have tested it in a couple of compilers, and it works fine.

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66  
It's K&R C. We wrote code like this in the 1980s before there were full function prototypes. –  hughdbrown Dec 19 '12 at 18:27
5  
gcc does warn with -Wstrict-prototypes for both the int func() and int main(): x.c:3: warning: function declaration isn't a prototype. You should declare main() as main(void) as well. –  Jens Dec 19 '12 at 21:59
3  
@Jens Why did you edit the question? You seem to have missed the point... –  dlras2 Dec 19 '12 at 22:02
33  
Good lord, 14158 views and 133 upvotes in 11 hours? 2 gold badges in a day for AdmiralJonB, who started the day with ~100 rep. That's legendary. –  Andrew Dec 19 '12 at 22:07
27  
I love how in all other languages everybody wants to know why it breaks, but with the C guys it's always "Why TF does this work!?" –  Erik Reppen Dec 23 '12 at 14:39

11 Answers 11

up vote 245 down vote accepted

All the other answers are correct, but just for completion

A function is declared in the following manner:

  return-type function-name(parameter-list,...) { body... }

return-type is the variable type that the function returns. This can not be an array type or a function type. If not given, then int is assumed.

function-name is the name of the function.

parameter-list is the list of parameters that the function takes separated by commas. If no parameters are given, then the function does not take any and should be defined with an empty set of parenthesis or with the keyword void. If no variable type is in front of a variable in the paramater list, then int is assumed. Arrays and functions are not passed to functions, but are automatically converted to pointers. If the list is terminated with an ellipsis (,...), then there is no set number of parameters. Note: the header stdarg.h can be used to access arguments when using an ellipsis.

And again for the sake of completeness. From C11 specification 6:11:6 (page: 179)

The use of function declarators with empty parentheses (not prototype-format parameter type declarators) is an obsolescent feature.

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In C func() means that you can pass any number of arguments. If you want no arguments then you have to declare as func(void). The type you're passing to your function, if not specified defaults to int.

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Actually there's no single type defaulting to int. In fact, all args default to int (even the return type). It is perfectly ok to call func(42,0x42); (where all calls must use the two args form). –  Jens Dec 19 '12 at 14:20
    
In C it is quite common for unspecified types to default to int like for example when you declare a variable: unsigned x; What type is the variable x? It turns out its unsigned int –  Dr. Sky Lizard Dec 19 '12 at 22:32
2  
I'd rather say implicit int was common in the olden days. It certainly isn't any longer and in C99 it was removed from C. –  Jens Dec 20 '12 at 9:09
    
It may be worthwhile noting that this answer applies to function prototypes with empty parameter lists, but not function definitions with empty parameter lists. –  undefined behaviour May 10 '13 at 19:19
  • The empty parameter list means "any arguments", so the definition isn't wrong.
  • The missing type is assumed to be int.

I would consider any build that passes this to be lacking in configured warning/error level though, there's no point in being this allowing for actual code.

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int func(); is an obsolescent function declaration from the days when there was no C standard, i.e. the days of K&R C (before 1989, the year the first "ANSI C" standard was published).

Remember that there were no prototypes in K&R C and the keyword void was not yet invented. All you could do was to tell the compiler about the return type of a function. The empty parameter list in K&R C means "an unspecified but fixed" number of arguments. Fixed means that you must call the function with the same number of args each time (as opposed to a variadic function like printf, where the number and type can vary for each call).

Many compilers will diagnose this construct; in particular gcc -Wstrict-prototypes will tell you "function declaration isn't a prototype", which is spot on, because it looks like a prototype (especially if you are poisoned by C++!), but isn't. It's an old style K&R C return type declaration.

Rule of thumb: Never leave an empty parameter list declaration empty, use int func(void) to be specific. This turns the K&R return type declaration into a proper C89 prototype. Compilers are happy, developers are happy, static checkers are happy. Those mislead by^W^Wfond of C++ may cringe, though, because they need to type extra characters when they try to exercise their foreign language skills :-)

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25  
Gosh, I am so old school I looked at the example and didn't understand the poster's confusion, as I didn't see anything wrong with it. –  vy32 Dec 19 '12 at 17:08
    
Please don't relate this to C++. It is common sense that empty argument list means no parameters, and people of the world are not interested to deal with mistakes made by K&R guys some 40 years ago. But committee pundits keep dragging contranatural choices along - into C99, C11. –  pfalcon May 3 at 23:17
    
@pfalcon Common sense is quite subjective. What's common sense to one person is plain insanity to others. Professional C programmers know that empty parameter lists indicate an unspecified but fixed number of arguments. Changing that would likely break many implementations. Blaming committees for avoiding silent changes is barking up the wrong tree, IMHO. –  Jens May 4 at 10:46

It's K&R style function declaration and definition. From C99 Standard (ISO/IEC 9899:TC3)

Section 6.7.5.3 Function Declarators (including prototypes)

An identifier list declares only the identifiers of the parameters of the function. An empty list in a function declarator that is part of a definition of that function specifies that the function has no parameters. The empty list in a function declarator that is not part of a definition of that function specifies that no information about the number or types of the parameters is supplied. (If both function types are "old style", parameter types are not compared.)

Section 6.11.6 Function declarators

The use of function declarators with empty parentheses (not prototype-format parameter type declarators) is an obsolescent feature.

Section 6.11.7 Function definitions

The use of function definitions with separate parameter identifier and declaration lists (not prototype-format parameter type and identifier declarators) is an obsolescent feature.

Which the old style means K&R style

Example:

Declaration: int old_style()

Definition:

int old_style(a, b)
    int a; 
    int b;
{
     /* something to do */
}
share|improve this answer

C assumes int if no type is given on function return type and parameter list. Only for this rule following weird things are possible.

A function definition looks like this.

int func(int param) { /* body */}

If its a prototype you write

int func(int param);

In prototype you can only specify the type of parameters. Parameters' name is not mandatory. So

int func(int);

Also if you dont specify parameter type but name int is assumed as type.

int func(param)

If you go farther, following works too.

func()

Compiler assumes int func() when you write func(). But dont put func() inside a function body. That'll be a function call

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1  
An empty parameter list is not related to the implicit int type. int func() is not an implicit form of int func(int). –  John Bartholomew Dec 20 '12 at 14:32

As stated @Krishnabhadra, all previous responses from other users, have a correct interpretation, and I just want to make a more detailed analysis of some points.

In the Old-C as in ANSI-C the "untyped formal parameter", take the dimencion of your work register or instruction depth capability (shadow registers or instruction cumulative cycle), in an 8bit MPU, will be an int16, in a 16bit MPU and so will be an int16 an so on, in the case 64bit architectures may choose to compile options like: -m32.

Although it seems simpler implementation at high level, For pass multiple parameters, the work of the programmer in the control dimencion data type step, becomes more demanding.

In other cases, for some microprocessors architectures, the ANSI compilers customized, leveraged some of this old features to optimize the use of the code, forcing the location of these "untyped formal parameters" to work within or outside the work register, today you get almost the same with the use of "volatile" and "register".

But it should be noted that the most modern compilers, not make any distinction between the two types of parameters declaration.

Examples of a compilation with gcc under linux:

main.c

main2.c

main3.c  
In any case the statement of the prototype locally is of no use, because there is no call without parameters reference to this prototype will be remiss. If you use the system with "untyped formal parameter", for an external call, proceed to generate a declarative prototype data type.

Like this:

int myfunc(int param);
share|improve this answer
    
Gah! Don't post large screenshots unless you really need to... –  gertvdijk Dec 20 '12 at 12:28
4  
I have taken the trouble to optimize images for that the size in bytes of the images, was the minimum possible. I think the pictures can get a quick view of the lack of difference in the generated code. I've been testing out the code, generating real documentation of what it claimed and not just theorizing about the problem. but not all see the world the same way. I'm terribly sorry that my attempt to provide more information to the community to have bothered you so much. –  RTOSkit Dec 20 '12 at 13:13
1  
I'm pretty certain that an unspecified return type is always int, which is generally either the work-register size or 16 bits, whichever is smaller. –  supercat Jul 12 '13 at 18:17
    
@supercat +1 Perfect deduction, you are right! This is exactly what I discuss above, a compiler designed by default for a specifies architecture , always reflect the size of the work-register of the CPU / MPU in question, So in an embedded enviroment, there are various re-typing strategy on a realtime OS, into a compiler layer (stdint.h), or into a portability layer, that makes portable the same OS in many others arquitectures, and obtained by alignment the CPU / MPU specific types (int, long, long long, etc) with the generic system types u8, u16, u32. –  RTOSkit Jul 12 '13 at 23:18
    
@supercat Without control types offered by an operating system or by specific compiler, you need have a bit attencion in development time, and, you make that all "untyped assignments" are align with your application design, before have the surprise of finding a "16bit int" and not a "32bit int". –  RTOSkit Jul 12 '13 at 23:39

Regarding parameter type, there are already correct answers here but if you want to hear it from the compiler you can try adding some flags (flags are almost always a good idea anyways).

compiling your program using gcc foo.c -Wextra I get:

foo.c: In function ‘func’:
foo.c:5:5: warning: type of ‘param’ defaults to ‘int’ [-Wmissing-parameter-type]

strangely -Wextra doesn't catch this for clang (it doesn't recognize -Wmissing-parameter-type for some reason, maybe for historical ones mentioned above) but -pedantic does:

foo.c:5:10: warning: parameter 'param' was not declared, 
defaulting to type 'int' [-pedantic]
int func(param)
         ^
1 warning generated.

And for prototype issue as said again above int func() refers to arbitrary parameters unless you exclicitly define it as int func(void) which would then give you the errors as expected:

foo.c: In function ‘func’:
foo.c:6:1: error: number of arguments doesn’t match prototype
foo.c:3:5: error: prototype declaration
foo.c: In function ‘main’:
foo.c:12:5: error: too many arguments to function ‘func’
foo.c:5:5: note: declared here

or in clang as:

foo.c:5:5: error: conflicting types for 'func'
int func(param)
    ^
foo.c:3:5: note: previous declaration is here
int func(void);
    ^
foo.c:12:20: error: too many arguments to function call, expected 0, have 1
    int bla = func(10);
              ~~~~ ^~
foo.c:3:1: note: 'func' declared here
int func(void);
^
2 errors generated.
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If the function declaration has no parameters i.e. empty then it is taking unspecified number of arguments. If you want to make it take no arguments then change it to:

int func(void);
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1  
"If the function prototype has no parameters" That's not a function prototype, just a function declaration. –  effeffe Dec 19 '12 at 12:10
    
@effeffe fixed that. I didn't realize this question would get a lot of attention ;) –  Blue Moon Dec 19 '12 at 12:48
3  
Isn't "function prototype" just an alternate (possibly old-fashioned) expression for "function declaration"? –  Giorgio Dec 19 '12 at 14:25
    
@Giorgio IMO, both are correct. "function prototype" should match "function definition". I probably think effeffe meant declaration in the question and what I meant is in my answer. –  Blue Moon Dec 19 '12 at 15:15
    
@Giorgio no, function declaration are made by the return type value, the identifier and an optional parameter list; function prototypes are function declaration with a parameter list. –  effeffe Dec 20 '12 at 1:16

This is why I typically advise people to compile their code with:

cc -Wmissing-variable-declarations -Wstrict-variable-declarations -Wold-style-definition

These flags enforce a couple of things:

  • -Wmissing-variable-declarations: It is impossible to declare a non-static function without getting a prototype first. This makes it more likely that a prototype in a header file matches with the actual definition. Alternatively, it enforces that you add the static keyword to functions that don't need to be visible publicly.
  • -Wstrict-variable-declarations: The prototype must properly list the arguments.
  • -Wold-style-definition: The function definition itself must also properly list the arguments.

These flags are also used by default in a lot of Open Source projects. For example, FreeBSD has these flags enabled when building with WARNS=6 in your Makefile.

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Sir, in C++ (and C++ ONLY) you are allowed to define multiple functions of the same name with different parameters. For example:

int func();
int func(int test);
int func(char testing123);

Should compile. To choose which function to use, simply pass that variable type into the parenthesis when you compile.

For example:

int testing123=2;
func(testing123);

will call func(int test).

Whereas

char test='a';
func(test);

will call func(char).

You do NOT need variable names in the function header, although as long as the function prototype (y'know, the line at top that has just a function with no code in it) matches the names in actual function below you'll be A OKay (for example, instead of int func(int) you could just as well have int func(int avariable).

As to the variable in the prototype compiling without a type, it probably defaults to type, likely int (although I'm not sure if which type it defaults to varies by compiler or not.)

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8  
why does this C program compile? –  UmNyobe Dec 19 '12 at 11:12
    
Thank you for pointing that out, @UmNyobe. Fixed. –  user1833028 Dec 19 '12 at 11:13
    
Is there an incorrect statement in her somehwere? –  user1833028 Dec 19 '12 at 11:16
5  
C simply doesn't have function overloading, so func(testing123); and func(test); will call the same func function at runtime. –  UmNyobe Dec 19 '12 at 11:19
1  
"you are allowed to define multiple functions" those are function declaration, not definition, in both C and C++. Anyway, in C, multiple declaration are allowed, you just can't provide more than one prototype for the same function identifier. –  effeffe Dec 19 '12 at 12:44

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