I want to define an inline function in a project, compiled with c99. How can I do it? When I declare the function in a header file and give the detail in a .c file, the definition isn't recognized by other files. When I put the explicit function in a header file, I have a problem because all .o files who use it have a copy of the definition, so the linker gives me a "multiple definition" error.

What I am trying to do is something like:

inline void func()
    do things...

#include "header.h"

#include "header.h"

with a utility which uses both lib1.o and lib2.o


Unfortunately not all compilers are completely complying to C99 in that point even if they claim that they'd be.

An conforming way to do this is

// header file. an inline definition alone is
// not supposed to generate an external symbol
inline void toto(void) {
  // do something

// in one .c file, force the creation of an
// external symbol
extern inline void toto(void);

Newer versions of gcc, e.g, will work fine with that.

You may get away with it for other compilers (pretenders) by defining something like

# define inlDec static
# define inlIns static
# define inlDec 
# define inlIns extern
// header file. an inline declaration alone is
// not supposed to generate an external symbol
inlDec inline void toto(void) {
  // do something

// in one .c file, force the creation of an
// external symbol
inlIns inline void toto(void);


compilers with C99 support (usually option -std=c99) that I know of

  • gcc (versions >= 4.3 IIRC) implements the correct inline model
  • pcc is also correct
  • ggc < 4.3 needs a special option to implement the correct model, otherwise they use their own model that results in multiple defined symbols if you are not careful
  • icc just emits symbols in every unit if you don't take special care. But these symbols are "weak" symbols, so they don't generate a conflict. They just blow up your code.
  • opencc, AFAIR, follows the old gcc specific model
  • clang doesn't emit symbols for inline functions at all, unless you have an extern declaration and you use the function pointer in one compilation unit.
  • tcc just ignores the inline keyword
  • The multiple definitions could originate from having an extern declaration of the function in a header file. This would force every translation unit to emit a copy of the function. Mar 8 '11 at 8:23
  • @Lindydancer: sure. But what I say is that some compilers produce the symbol even if you only have inline declarations. I'll add some more remarks on specific compilers. Mar 8 '11 at 8:30
  • Thanks Jens. It worked (gcc 4.4.5 with flags std=gnu99 and std=c99).
    – mousomer
    Mar 8 '11 at 8:54
  • @JensGustedt, is there a benefit to doing this the "new way", as opposed to simply using static inline in the header file in all cases?
    – mpontillo
    Oct 4 '12 at 0:01
  • @Mike, yes, in my POV there are two. First you don't blow up your executable with the copies of the function if the compiler decides not to inline. Then, the function is uniquely identifyable by its address, all pointers to it will compare equal, even if they originate in different compilation units. BTW, just declaring it static would do exactly the same as static inline, inline there is almost usesless. Modern compilers don't decide whether or not they inline on their own, programmers are notoriously bad in optimizing that. Oct 4 '12 at 6:41

If used by itself, in C99 inline requires that the function be defined in the same translation unit as it's being used (so, if you use it in lib1.c, it must be defined in lib1.c).

You can also declare a method as static inline (and put the definition in a header file shared between two source files). This avoids the multiple-definition issue, and lets the compiler inline the file across all the translation units where it's used (which it may or may not be able to do if you just declare the function in one translation unit).

See: http://www.greenend.org.uk/rjk/2003/03/inline.html

  • The term "translation unit" include the source file (lib1.c) and all header files that are included. This means that it should be OK to place it in header.h. Either the compiler is broken, or the function is declared as extern, which would account for this. Mar 8 '11 at 8:21

I think you don't need to use the inline word when you are defining and declaring the function inside the Header file, the compiler usually takes it as inline by default unless it's too long, in which case it will be smart enough to treat it as a normal function.

I think the multiple definition may be caused by the lack of a Include Guard in the Header file.

You should use something like this in the header:


void func()
    // do things...

  • The funny thing is - the header was guarded by #ifndef. But I think it did.t work because the compiler still put the header in each .o file.
    – mousomer
    Mar 8 '11 at 8:45

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