I am making a test setup of a C static library and program. The library code, located in a subdirectory 'foo' of my project, contains the following files:


#include <stdio.h>
void foo(void) {


#ifndef foo_h__
#define foo_h__
extern void foo(void);

My progam code is as follows:


#include "foo.h"
int main() {
    return 0;

I have a build script, called 'build', which contains the following:


gcc -c -Wall -Werror foo/foo.c
ar rcs libfoo.a foo.o
gcc -static -o test test.c libfoo.a # I have also tried -L. -lfoo

But when I run build, it gives me the following error:

test.c:1:17: fatal error: foo.h: No such file or directory
  #include "foo.h"
Compilation terminated

It does, however, work when I omit the #include line, but I would prefer if I could use header files in my static libraries. What am I doing wrong, and how can I fix it?

1 Answer 1


Headers are not stored in libraries. Headers are stored separately from libraries. Libraries contain object files; headers are not object files. By default, standard headers on a Unix system are stored in /usr/include — you'll normally find /usr/include/stdio.h and /usr/include/string.h and /usr/include/stdlib.h, for example. By default, libraries are stored in /usr/lib (but you may also find some in /lib). Often, compilers are configured to look in some other places too. One common alternative location is under /usr/local, so /usr/local/include for headers and /usr/local/lib for libraries. Note, too, that a single library may have many headers defining the services. The default library is an example. It has the functions corresponding to those found in <stdio.h>, <string.h>, <stdlib.h> and many other headers too.

Looking at your code:

  1. If your header file is in ./foo/foo.h, then you need to write:

    #include "foo/foo.h"

    Or if you continue to use #include "foo.h", you need to specify where to find the header on the compiler command line with the argument:

    gcc -Ifoo -o test test.c -L. -lfoo

    I deliberately excluded the -static; it's only necessary when there's a choice between a static and a shared library, but you only have libfoo.a, so the linker will use that anyway.

    Note that the problem is a compilation error, not a linking error. This would be clearer if you split the program building into two steps: (1) create test.o and (2) link program:

    gcc -c -Ifoo test.c
    gcc -o test test.o -L. -lfoo
  2. Your header guard is faulty. You originally had (but have updated the question so this typo is no longer present):

    #ifndef foo_h__
    #define foo_h_

    You need:

    #ifndef foo_h__
    #define foo_h__

    The macro names must be the same in both lines. Note that in this case, the misspelling is mostly harmless — but on Mac OS X, clang (masquerading as gcc) did give a warning about it (though I'd spotted it before I did any compilation). In some other cases, you wouldn't get the protection that the header guards are designed to provide.

    ./foo/foo.h:1:9: warning: 'foo_h__' is used as a header guard here, followed by #define of a
          different macro [-Wheader-guard]
    #ifndef foo_h__
    ./foo/foo.h:2:9: note: 'foo_h_' is defined here; did you mean 'foo_h__'?
    #define foo_h_
    1 warning generated.

You might legitimately wonder:

  • If I need -Ifoo when compiling test.c, why wasn't it necessary when compiling foo/foo.c?

Good question!

  1. It would not have hurt the compilation of foo/foo.c
  2. GCC looks for headers in the directory where the source code of the translation unit is found (so, when compiling foo/foo.c, it looks in foo directory for headers included as #include "foo.h" anyway.
  3. The source file foo/foo.c should have included foo.h too; it is very important that it does as that is how the compiler provides the cross-checking necessary to ensure consistency. If you had written #include "foo.h", the compilation would work as described. If you wrote (in foo/foo.c) #include "foo/foo.h", then the command line for creating foo.o would have needed -I. so the header could be found.
  • But the header foo.h is part of the library libfoo.a, isn't it? Also, the header guard issue was a typo when I retyped it on stackoverflow, which I did because I am on windows SSHing into an ubuntu system. Commented Dec 26, 2014 at 18:57
  • No. A library contains solely and only object files. Headers are not object files. Headers are not contained in libraries. (OK: to be utterly pedantically accurate, you could add a header file to a library, but the compiler would never look in a library — only the linker (ld, usually) looks in libraries, and it only looks for object files, not headers). Commented Dec 26, 2014 at 18:59
  • Oh, ok. Thank you for clarifying that. But then why, for example, can I include, for example, "ncurses.h" from the ncurses library? Commented Dec 26, 2014 at 19:00
  • You can write #include <ncurses.h> because the header is installed in a standard location, /usr/include, which the compiler searches anyway for headers. And you can write -lncurses because the library is in a standard location that the linker searches anyway, usually /usr/lib. Or it might be /usr/local/include and /usr/local/lib. But the headers are not stored in the library; they are stored independently of the library. You can have the libraries installed without the headers. You can't then compile code that uses the header, but you can run code that uses the shared library. Commented Dec 26, 2014 at 19:03
  • What if I have h file a.h and my C file calls it using relative path: $include "../../SomeFolderA/SomeFolderB/a.h. Now the header file a.h includes an h file called b.h by using SomeFolderC\b.h. Will GCC parse it right or all paths are resolved relative to the C file path?
    – Royi
    Commented Oct 11, 2017 at 21:43

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