In most projects all Makefiles are generated by Automake. In some cases, however, projects need to embed subdirectories with handwritten Makefiles. For instance, one subdirectory could be a third-party project with its own build system, not using Automake.
It is possible to list arbitrary directories in
DIST_SUBDIRS provided each of these directories has a
Makefile that recognizes all the following recursive targets.
When a user runs one of these targets, that target is run recursively in all subdirectories. This is why it is important that even third-party Makefiles support them.
Compile the entire package. This is the default target in Automake-generated Makefiles, but it does not need to be the default in third-party Makefiles.
Copy files to distribute into ‘$(distdir)’, before a tarball is constructed. Of course this target is not required if the no-dist option (see Changing Automake’s Behavior) is used.
The variables ‘$(top_distdir)’ and ‘$(distdir)’
(see The dist Hook) will be passed from the outer package to the subpackage
distdir target is invoked. These two variables have
been adjusted for the directory that is being recursed into, so they
are ready to use.
Install or uninstall files (see What Gets Installed).
Install only some specific documentation format (see Texinfo).
Create install directories, but do not install any files.
Check the package (see Support for test suites).
Cleaning rules (see What Gets Cleaned).
Build the documentation in various formats (see Texinfo).
Build TAGS and CTAGS (see Interfacing to
If you have ever used Gettext in a project, this is a good example of
how third-party Makefiles can be used with Automake. The
gettextize puts in the po/ and
intl/ directories are handwritten Makefiles that
implement all of these targets. That way they can be added to
SUBDIRS in Automake packages.
Directories that are only listed in
DIST_SUBDIRS but not in
SUBDIRS need only the
distdir rules (see Conditional Subdirectories).
Usually, many of these rules are irrelevant to the third-party subproject, but they are required for the whole package to work. It’s OK to have a rule that does nothing, so if you are integrating a third-party project with no documentation or tag support, you could simply augment its Makefile as follows:
EMPTY_AUTOMAKE_TARGETS = dvi pdf ps info html tags ctags .PHONY: $(EMPTY_AUTOMAKE_TARGETS) $(EMPTY_AUTOMAKE_TARGETS):
Another aspect of integrating third-party build systems is whether they support VPATH builds (see Parallel Build Trees (a.k.a. VPATH Builds)). Obviously if the subpackage does not support VPATH builds the whole package will not support VPATH builds. This in turns means that ‘make distcheck’ will not work, because it relies on VPATH builds. Some people can live without this (actually, many Automake users have never heard of ‘make distcheck’). Other people may prefer to revamp the existing Makefiles to support VPATH. Doing so does not necessarily require Automake, only Autoconf is needed (see Build Directories in The Autoconf Manual). The necessary substitutions: ‘@srcdir@’, ‘@top_srcdir@’, and ‘@top_builddir@’ are defined by configure when it processes a Makefile (see Preset Output Variables in The Autoconf Manual), they are not computed by the Makefile like the aforementioned ‘$(distdir)’ and ‘$(top_distdir)’ variables.
It is sometimes inconvenient to modify a third-party Makefile to introduce the above required targets. For instance, one may want to keep the third-party sources untouched to ease upgrades to new versions.
Here are two other ideas. If GNU make is assumed, one possibility is
to add to that subdirectory a GNUmakefile that defines the
required targets and includes the third-party Makefile. For
this to work in VPATH builds, GNUmakefile must lie in the build
directory; the easiest way to do this is to write a
GNUmakefile.in instead, and have it processed with
AC_CONFIG_FILES from the outer package. For example if we
assume Makefile defines all targets except the documentation
targets, and that the
check target is actually called
test, we could write GNUmakefile (or
GNUmakefile.in) like this:
# First, include the real Makefile include Makefile # Then, define the other targets needed by Automake Makefiles. .PHONY: dvi pdf ps info html check dvi pdf ps info html: check: test
A similar idea that does not use
include is to write a proxy
Makefile that dispatches rules to the real Makefile,
either with ‘$(MAKE) -f Makefile.real $(AM_MAKEFLAGS) target’ (if
it’s OK to rename the original Makefile) or with ‘cd
subdir && $(MAKE) $(AM_MAKEFLAGS) target’ (if it’s OK to store the
subdirectory project one directory deeper). The good news is that
this proxy Makefile can be generated with Automake. All we
need are -local targets (see Extending Automake Rules) that perform the
dispatch. Of course the other Automake features are available, so you
could decide to let Automake perform distribution or installation.
Here is a possible Makefile.am:
all-local: cd subdir && $(MAKE) $(AM_MAKEFLAGS) all check-local: cd subdir && $(MAKE) $(AM_MAKEFLAGS) test clean-local: cd subdir && $(MAKE) $(AM_MAKEFLAGS) clean # Assuming the package knows how to install itself install-data-local: cd subdir && $(MAKE) $(AM_MAKEFLAGS) install-data install-exec-local: cd subdir && $(MAKE) $(AM_MAKEFLAGS) install-exec uninstall-local: cd subdir && $(MAKE) $(AM_MAKEFLAGS) uninstall # Distribute files from here. EXTRA_DIST = subdir/Makefile subdir/program.c ...
Pushing this idea to the extreme, it is also possible to ignore the subproject build system and build everything from this proxy Makefile.am. This might sound very sensible if you need VPATH builds but the subproject does not support them.