What is meant by the term "implicit declaration of a function"? A call to a standard library function without including the appropriate header file produces a warning as in the case of:

int main(){
  printf("How is this not an error?");
  return 0;

Shouldn't using a function without declaring it be an error? Please explain in detail. I searched this site and found similar questions, but could not find a definitive answer. Most answers said something about including the header file to get rid of the warning, but I want to know how this is not an error.

| |
  • 3
    The standard C library is by default linked into builds; e.g., with gcc you have to explicitly pass -nostdlib as an argument to the compilation to force it to not link with libc. – tbert Feb 7 '12 at 19:50
  • 2
    @tbert That's why the linker doesn't complain, but the linker has precious little effect on what the compiler does with C code. – user395760 Feb 7 '12 at 19:51
  • See also stackoverflow.com/questions/22500/… – Zan Lynx Feb 7 '12 at 19:51
  • i looked up K&R and it says that if no prior declaration of the function is visible in the scope then the first instance of functions use is assumed to be a declaration with return type int and nothing is assumed about the parameters. Thanks for your input everybody. – Bazooka Feb 7 '12 at 20:19

It should be considered an error. But C is an ancient language, so it's only a warning.
Compiling with -Werror (gcc) fixes this problem.

When C doesn't find a declaration, it assumes this implicit declaration: int f();, which means the function can receive whatever you give it, and returns an integer. If this happens to be close enough (and in case of printf, it is), then things can work. In some cases (e.g. the function actually returns a pointer, and pointers are larger than ints), it may cause real trouble.

Note that this was fixed in newer C standards (C99, C11). In these standards, this is an error. However, gcc doesn't implement these standards by default, so you still get the warning.

| |
  • 4
    Your answer is right on spot and says exactly what K&R says. Thanks for the concise explanation. – Bazooka Feb 7 '12 at 20:22
  • 2
    Note that even in the days when implicit declarations were allowed, they still resulted in UB for variadic functions like printf. – R.. GitHub STOP HELPING ICE Feb 7 '12 at 23:42
  • 2
    @R.., In principle you're right. In practice, most implementations handle a variadic function with was given n parameters just like a normal function which got n parameters, so things work. – ugoren Feb 8 '12 at 5:35
  • 2
    This answer was right 24 years ago. It is wrong today. The current C standard (C11) and the widely-implemented previous one (C99) both explicitly forbid calling undeclared functions. – user529758 Dec 1 '13 at 0:11
  • 1
    @ugoren One overly popular compiler, clang defaults to C99, yet another very significant one, gcc, supports it. The only widely used compiler on the market, Microsoft's MSVC, is the only one that doesn't have C89 support. So, "compilers don't use newer standards" is not true. – user529758 Dec 1 '13 at 8:36

Implicit declarations are not valid in C.

C99 removed this feature (present in C89).

gcc chooses to only issue a warning by default with -std=c99 but a compiler has the right to refuse to translate such a program.

| |
  • 1
    On a related note, -pedantic-errors will make GCC (or CLang, for that matter) behave as per standard here, and refuse to compile (read: emit an error and abort). – Tim Čas Feb 10 '15 at 20:12

To complete the picture, since -Werror might considered too "invasive",
for gcc (and llvm) a more precise solution is to transform just this warning in an error, using the option:


See Make one gcc warning an error?

Regarding general use of -Werror: Of course, having warningless code is recommendable, but in some stage of development it might slow down the prototyping.

| |
  • Rather, just silence the annoying ones from -Werror. – Antti Haapala Mar 2 '17 at 11:57

C is a very low-level language, so it permits you to create almost any legal object (.o) file that you can conceive of. You should think of C as basically dressed-up assembly language.

In particular, C does not require functions to be declared before they are used. If you call a function without declaring it, the use of the function becomes it's (implicit) declaration. In a simple test I just ran, this is only a warning in the case of built-in library functions like printf (at least in GCC), but for random functions, it will compile just fine.

Of course, when you try to link, and it can't find foo, then you will get an error.

In the case of library functions like printf, some compilers contain built-in declarations for them so they can do some basic type checking, so when the implicit declaration (from the use) doesn't match the built-in declaration, you'll get a warning.

| |
  • Any idea why does gcc do so for "build in functions" like printf ?? I seems to work well with the user defined functions. – Bazooka Feb 7 '12 at 20:34
  • 2
    "In particular, C does not require functions to be declared before they are used." - it does. C89 (which allowed this) is not the current standard. C11 is, and neither C11 nor its overly popular predecessor, C99, allow calling implicitly declared functions. – user529758 Dec 1 '13 at 0:13

Because of historical reasons going back to the very first version of C, functions are assumed to have an implicit definition of int function(int arg1, int arg2, int arg3, etc).

Edit: no, I was wrong about int for the arguments. Instead it passes whatever type the argument is. So it could be an int or a double or a char*. Without a prototype the compiler will pass whatever size the argument is and the function being called had better use the correct argument type to receive it.

For more details look up K&R C.

| |

An implicitly declared function is one that has neither a prototype nor a definition, but is called somewhere in the code. Because of that, the compiler cannot verify that this is the intended usage of the function (whether the count and the type of the arguments match). Resolving the references to it is done after compilation, at link-time (as with all other global symbols), so technically it is not a problem to skip the prototype.

It is assumed that the programmer knows what he is doing and this is the premise under which the formal contract of providing a prototype is omitted.

Nasty bugs can happen if calling the function with arguments of a wrong type or count. The most likely manifestation of this is a corruption of the stack.

Nowadays this feature might seem as an obscure oddity, but in the old days it was a way to reduce the number of header files included, hence faster compilation.

| |
  • 4
    Citation needed. I don't implicit declarations were included as a feature to improve compile time. As far as I can tell, the early evolution of C (from B) started with no types but int, and thus knowing type information about a function was not so important... – R.. GitHub STOP HELPING ICE Feb 7 '12 at 23:44
  • 1
    where you say "prototype" you mean "declaration". Some declarations are not prototypes. – M.M Jan 31 '17 at 1:52

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

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