Many of the files in this directory are shared between the coreutils, diffutils, tar and gettext packages -- and others, so if you change them, try to ensure that you don't break those packages. That's hard without a systematic approach, but here is a set of conventions that makes it easy. - The lib/ sources are split into modules. Usually the module of a lib/foo.h and lib/foo.c is called "foo" - not unexpected, hey! -, but in more ambiguous cases you can look up the module a file belongs to by doing "grep lib/foo.c modules/*". - For every module there is an autoconf macro file, usually called m4/foo.m4 according to the module name. When you modify lib/foo.h or lib/foo.c, remember to modify m4/foo.m4 as well! What if you don't find m4/foo.m4? This probably means that the module doesn't need autoconf support up to now (again, take a look in modules/*). So you might need to create one. - A module which defines a replacement function (i.e. a function which is compiled only on systems which lack it or where it exists but doesn't work satisfactorily) has a .m4 file with typically the following structure: AC_DEFUN([gl_FUNC_FOO], [ AC_REPLACE_FUNCS(foo) if test $ac_cv_func_foo = no; then gl_PREREQ_FOO fi ]) # Prerequisites of lib/foo.c. AC_DEFUN([gl_PREREQ_FOO], [ dnl Many AC_CHECK_* invocations. ]) - A module which is compiled on all platforms can define multiple functions and be spread across multiple source files (although each time you do this you should consider splitting the module, if the source files could be independent). The .m4 file has typically the following structure: AC_DEFUN([gl_FOO], [ dnl Prerequisites of lib/foo.c. dnl Many AC_CHECK_* invocations. dnl Prerequisites of lib/foobar.c. dnl Many AC_CHECK_* invocations. ]) - When a module FOO depends on a module BAR, you do *not* generally need to write AC_DEFUN([gl_FOO], [ AC_REQUIRE([gl_BAR]) ... ]) because the maintainers might want to use locally modified / renamed copies of the module BAR. - If the autoconf tests for the modules FOO and BAR have some checks in common, still list them separately. Autoconf has two mechanisms for avoiding that a configure file runs the same test twice: AC_REQUIRE and AC_CACHE_CHECK. Trying to omit the checks leads to maintenance problems: If FOO depends on BAR, and you omit a check from FOO's .m4 file, later on, when someone modifies bar.c and removes the check from bar.m4, he will not remember that foo.c needs the check as well. - Now, how can you find the prerequisites of lib/foo.c? Try this: "grep '#.*if' lib/foo.c | grep -v endif" and for each HAVE_* macro search in the autoconf documentation what could be the autoconf macro that provides it. This is only an approximation; in general you should look at all preprocessor directives in lib/foo.c. - In AC_RUN_IFELSE invocations, try to put as much information about failed tests as possible in the exit code. The exit code is 0 for success and any value between 1 and 127 for failure. The exit code is printed in config.log; therefore when an AC_RUN_IFELSE invocation failed, it is possible to analyze the failure immediately if sufficient information is contained in the exit code. For a program that performs a single test, the typical idiom is: if (do_test1 ()) return 1; return 0; For a test that performs a test with some preparation, the typical idiom is to return an enumerated value: if (prep1 ()) return 1; else if (prep2 ()) return 2; else if (prep3 ()) return 3; else if (do_test1 ()) return 4; return 0; For multiple independent tests in a single program, you can return a bit mask with up to 7 bits: int result = 0; if (do_test1 ()) result |= 1; if (do_test2 ()) result |= 2; if (do_test3 ()) result |= 4; return result; For more than 7 independent tests, you have to map some possible test failures to same bit. - After ANY modifications of an m4 file, you should increment its serial number (in the first line). Also, if this first line features a particular release, _remove_ this release stamp. Example: Change # setenv.m4 serial 2 (gettext-0.11.1) into # setenv.m4 serial 3