Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

So today I figured (for the first time admittedly) that int foo() is in fact different from int foo(void) in that the first one allows any number of inputs and the second one allows zero.

Does int foo() simply ignore any given inputs? If so, what's the point of allowing this form of function? If not, how can you access them and how is this different from having a variable argument list (e.g. something like int foo (int argc, ...))?

share|improve this question
See stackoverflow.com/questions/51032/…. –  hmjd Mar 20 '12 at 9:57

3 Answers 3

up vote 5 down vote accepted

The key to understanding this is understanding the call stack. What happens when you call a function in C (with the standard x86 ABI — other platforms may vary) is that the caller pushes all of the arguments, in reverse order, onto the stack before calling the callee. Then, the callee can read as many of those arguments as it wants. If you use foo(void), obviously you won't read any. If you use foo(int), you'll be able to read one word into the stack below your current frame.

Using foo() (with no args specified) means that the compiler won't care to check the arguments you pass to foo. Anything goes; there's no contract. This can be useful if foo has two different implementations that take different types as arguments, and I want to be able to switch them out programmatically. (It's also sometimes useful when writing functions in assembler, where you can handle the stack and arguments yourself.) But remember that the compiler is not going to do any type-checking for you, so you have to be very careful.

This is different from foo(int, ...), since in that case, the function actually has a way to access all of the arguments (using varargs). There's no reason ever to actually define a function with foo(), since it's basically equivalent to foo(void). foo() is only useful for declarations.

share|improve this answer
The only thing I'd add to the first paragraph is that the caller then pops (well... increments esp) the arguments off the stack, not the callee. This is important, as it wouldn't work with callee cleanup. –  Matt Mar 20 '12 at 10:20

First, take int foo(). This form is a function declaration that does not provide a prototype - that is, it doesn't specify the number and types of its arguments. It is an archaic form of function declaration - it's how functions were originally declared in pre-ANSI C. Such a function however does have a fixed number and type of arguments - it's just that the declaration doesn't tell the compiler what it is, so you are responsible for getting it right where you call the function. You declare such a function with arguments like so:

int foo(a, b)
    int a;
    char *b;
    return a + strlen(b);

This form of function declaration is now obsolete.

int foo(void) is a modern declaration that provides a prototype; it declares a function that takes no arguments. int foo(int argc, ...) also provides a prototype; it declares a function that has one fixed integer argument and a variable argument list.

share|improve this answer

In standard conform C, you have to use int foo(void) if the function does not accept any parameters.

I guess it is compiler dependant what happens, when you pass arguments to a function with empty braces. But I don't think there is a way to access these parameters.

As for main, the only standard conform (pure c) ways to write them are either int main(void) or int main(int argc, char **argv) (or char *argv[] which is the same).

share|improve this answer
After looking it up in the standard, it seems that empty braces also declare a function without parameters. It is generally good convention to write (void) to explicitly state that you don't expect any parameters. If you have further questions like this, it is always a good idea to read what the standard says (and your implementations documentation, i.e., gcc, glibc...) You can find drafts of the standards for free online. –  Benjamin Maurer Mar 20 '12 at 10:24

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.