\input texinfo @c -*-texinfo-*- @c %**start of header @setfilename automake.info @settitle automake @setchapternewpage off @c %**end of header @include version.texi @dircategory GNU programming tools @direntry * automake: (automake). Making Makefile.in's @end direntry @dircategory Individual utilities @direntry * aclocal: (automake)Invoking aclocal. Generating aclocal.m4 @end direntry @ifinfo This file documents GNU automake @value{VERSION} Copyright 1995, 1996, 1997, 1998, 1999, 2000, 2001, 2002 Free Software Foundation, Inc. Permission is granted to make and distribute verbatim copies of this manual provided the copyright notice and this permission notice are preserved on all copies. @ignore Permission is granted to process this file through TeX and print the results, provided the printed document carries copying permission notice identical to this one except for the removal of this paragraph @end ignore Permission is granted to copy and distribute modified versions of this manual under the conditions for verbatim copying, provided that the entire resulting derived work is distributed under the terms of a permission notice identical to this one. Permission is granted to copy and distribute translations of this manual into another language, under the above conditions for modified versions, except that this permission notice may be stated in a translation approved by the Foundation. @end ifinfo @titlepage @title GNU Automake @subtitle For version @value{VERSION}, @value{UPDATED} @author David MacKenzie and Tom Tromey @page @vskip 0pt plus 1filll Copyright @copyright{} 1995, 1996, 2000, 2001, 2002 Free Software Foundation, Inc. @sp 2 This is the first edition of the GNU Automake documentation,@* and is consistent with GNU Automake @value{VERSION}.@* @sp 2 Published by the Free Software Foundation @* 59 Temple Place - Suite 330, @* Boston, MA 02111-1307 USA @* Permission is granted to make and distribute verbatim copies of this manual provided the copyright notice and this permission notice are preserved on all copies. Permission is granted to copy and distribute modified versions of this manual under the conditions for verbatim copying, provided that the entire resulting derived work is distributed under the terms of a permission notice identical to this one. Permission is granted to copy and distribute translations of this manual into another language, under the above conditions for modified versions, except that this permission notice may be stated in a translation approved by the Free Software Foundation. @end titlepage @c Define an index of configure output variables. @defcodeindex ov @c Define an index of configure variables. @defcodeindex cv @c Define an index of options. @defcodeindex op @c Define an index of targets. @defcodeindex tr @c Define an index of commands. @defcodeindex cm @c Put the macros and variables into their own index. @c @syncodeindex fn cp @syncodeindex ov vr @syncodeindex cv vr @syncodeindex fn vr @c Put everything else into one index (arbitrarily chosen to be the concept index). @syncodeindex op cp @syncodeindex tr cp @syncodeindex cm cp @ifnottex @node Top, Introduction, (dir), (dir) @comment node-name, next, previous, up @top GNU Automake This file documents the GNU Automake package. Automake is a program which creates GNU standards-compliant Makefiles from template files. This edition documents version @value{VERSION}. @menu * Introduction:: Automake's purpose * Generalities:: General ideas * Examples:: Some example packages * Invoking Automake:: Creating a Makefile.in * configure:: Scanning configure.ac or configure.in * Top level:: The top-level Makefile.am * Alternative:: An alternative approach to subdirectories * Rebuilding:: Automatic rebuilding of Makefile * Programs:: Building programs and libraries * Other objects:: Other derived objects * Other GNU Tools:: Other GNU Tools * Documentation:: Building documentation * Install:: What gets installed * Clean:: What gets cleaned * Dist:: What goes in a distribution * Tests:: Support for test suites * Options:: Changing Automake's behavior * Miscellaneous:: Miscellaneous rules * Include:: Including extra files in an Automake template. * Conditionals:: Conditionals * Gnits:: The effect of @code{--gnu} and @code{--gnits} * Cygnus:: The effect of @code{--cygnus} * Extending:: Extending Automake * Distributing:: Distributing the Makefile.in * API versioning:: About compatibility between Automake versions * Macro and Variable Index:: * General Index:: @end menu @end ifnottex @node Introduction, Generalities, Top, Top @chapter Introduction Automake is a tool for automatically generating @file{Makefile.in}s from files called @file{Makefile.am}. Each @file{Makefile.am} is basically a series of @code{make} variable definitions@footnote{These variables are also called @dfn{make macros} in Make terminology, however in this manual we reserve the term @dfn{macro} for Autoconf's macros.}, with rules being thrown in occasionally. The generated @file{Makefile.in}s are compliant with the GNU Makefile standards. @cindex GNU Makefile standards The GNU Makefile Standards Document (@pxref{Makefile Conventions, , , standards, The GNU Coding Standards}) is long, complicated, and subject to change. The goal of Automake is to remove the burden of Makefile maintenance from the back of the individual GNU maintainer (and put it on the back of the Automake maintainer). The typical Automake input file is simply a series of variable definitions. Each such file is processed to create a @file{Makefile.in}. There should generally be one @file{Makefile.am} per directory of a project. @cindex Constraints of Automake @cindex Automake constraints Automake does constrain a project in certain ways; for instance it assumes that the project uses Autoconf (@pxref{Top, , Introduction, autoconf, The Autoconf Manual}), and enforces certain restrictions on the @file{configure.in} contents@footnote{Autoconf 2.50 promotes @file{configure.ac} over @file{configure.in}. The rest of this documentation will refer to @file{configure.in} as this use is not yet spread, but Automake supports @file{configure.ac} too.}. @cindex Automake requirements @cindex Requirements, Automake Automake requires @code{perl} in order to generate the @file{Makefile.in}s. However, the distributions created by Automake are fully GNU standards-compliant, and do not require @code{perl} in order to be built. @cindex BUGS, reporting @cindex Reporting BUGS @cindex E-mail, bug reports Mail suggestions and bug reports for Automake to @email{bug-automake@@gnu.org}. @node Generalities, Examples, Introduction, Top @chapter General ideas The following sections cover a few basic ideas that will help you understand how Automake works. @menu * General Operation:: General operation of Automake * Strictness:: Standards conformance checking * Uniform:: The Uniform Naming Scheme * Canonicalization:: How derived variables are named * User Variables:: Variables reserved for the user * Auxiliary Programs:: Programs automake might require @end menu @node General Operation, Strictness, Generalities, Generalities @section General Operation Automake works by reading a @file{Makefile.am} and generating a @file{Makefile.in}. Certain variables and targets defined in the @file{Makefile.am} instruct Automake to generate more specialized code; for instance, a @samp{bin_PROGRAMS} variable definition will cause targets for compiling and linking programs to be generated. @cindex Non-standard targets @cindex cvs-dist, non-standard example @trindex cvs-dist The variable definitions and targets in the @file{Makefile.am} are copied verbatim into the generated file. This allows you to add arbitrary code into the generated @file{Makefile.in}. For instance the Automake distribution includes a non-standard @code{cvs-dist} target, which the Automake maintainer uses to make distributions from his source control system. @cindex GNU make extensions Note that most GNU make extensions are not recognized by Automake. Using such extensions in a @file{Makefile.am} will lead to errors or confusing behavior. @cindex Append operator A special exception is that the GNU make append operator, @samp{+=}, is supported. This operator appends its right hand argument to the variable specified on the left. Automake will translate the operator into an ordinary @samp{=} operator; @samp{+=} will thus work with any make program. Automake tries to keep comments grouped with any adjoining targets or variable definitions. @cindex Make targets, overriding @cindex Overriding make targets A target defined in @file{Makefile.am} generally overrides any such target of a similar name that would be automatically generated by @code{automake}. Although this is a supported feature, it is generally best to avoid making use of it, as sometimes the generated rules are very particular. @cindex Variables, overriding @cindex Overriding make variables Similarly, a variable defined in @file{Makefile.am} or @code{AC_SUBST}'ed from @file{configure.in} will override any definition of the variable that @code{automake} would ordinarily create. This feature is more often useful than the ability to override a target definition. Be warned that many of the variables generated by @code{automake} are considered to be for internal use only, and their names might change in future releases. @cindex Recursive operation of Automake @cindex Automake, recursive operation @cindex Example of recursive operation When examining a variable definition, Automake will recursively examine variables referenced in the definition. For example, if Automake is looking at the content of @code{foo_SOURCES} in this snippet @example xs = a.c b.c foo_SOURCES = c.c $(xs) @end example it would use the files @file{a.c}, @file{b.c}, and @file{c.c} as the contents of @code{foo_SOURCES}. @cindex ## (special Automake comment) @cindex Special Automake comment @cindex Comment, special to Automake Automake also allows a form of comment which is @emph{not} copied into the output; all lines beginning with @samp{##} (leading spaces allowed) are completely ignored by Automake. It is customary to make the first line of @file{Makefile.am} read: @cindex Makefile.am, first line @cindex First line of Makefile.am @example ## Process this file with automake to produce Makefile.in @end example @c FIXME discuss putting a copyright into Makefile.am here? I would but @c I don't know quite what to say. @c FIXME document customary ordering of Makefile.am here! @node Strictness, Uniform, General Operation, Generalities @section Strictness @cindex Non-GNU packages While Automake is intended to be used by maintainers of GNU packages, it does make some effort to accommodate those who wish to use it, but do not want to use all the GNU conventions. @cindex Strictness, defined @cindex Strictness, foreign @cindex foreign strictness @cindex Strictness, gnu @cindex gnu strictness @cindex Strictness, gnits @cindex gnits strictness To this end, Automake supports three levels of @dfn{strictness}---the strictness indicating how stringently Automake should check standards conformance. The valid strictness levels are: @table @samp @item foreign Automake will check for only those things which are absolutely required for proper operations. For instance, whereas GNU standards dictate the existence of a @file{NEWS} file, it will not be required in this mode. The name comes from the fact that Automake is intended to be used for GNU programs; these relaxed rules are not the standard mode of operation. @item gnu Automake will check---as much as possible---for compliance to the GNU standards for packages. This is the default. @item gnits Automake will check for compliance to the as-yet-unwritten @dfn{Gnits standards}. These are based on the GNU standards, but are even more detailed. Unless you are a Gnits standards contributor, it is recommended that you avoid this option until such time as the Gnits standard is actually published (which may never happen). @end table For more information on the precise implications of the strictness level, see @ref{Gnits}. Automake also has a special ``cygnus'' mode which is similar to strictness but handled differently. This mode is useful for packages which are put into a ``Cygnus'' style tree (e.g., the GCC tree). For more information on this mode, see @ref{Cygnus}. @node Uniform, Canonicalization, Strictness, Generalities @section The Uniform Naming Scheme @cindex Uniform naming scheme Automake variables generally follow a @dfn{uniform naming scheme} that makes it easy to decide how programs (and other derived objects) are built, and how they are installed. This scheme also supports @code{configure} time determination of what should be built. @cindex _PROGRAMS primary variable @cindex PROGRAMS primary variable @cindex Primary variable, PROGRAMS @cindex Primary variable, defined At @code{make} time, certain variables are used to determine which objects are to be built. The variable names are made of several pieces which are concatenated together. The piece which tells automake what is being built is commonly called the @dfn{primary}. For instance, the primary @code{PROGRAMS} holds a list of programs which are to be compiled and linked. @vindex PROGRAMS @cindex pkglibdir, defined @cindex pkgincludedir, defined @cindex pkgdatadir, defined @vindex pkglibdir @vindex pkgincludedir @vindex pkgdatadir A different set of names is used to decide where the built objects should be installed. These names are prefixes to the primary which indicate which standard directory should be used as the installation directory. The standard directory names are given in the GNU standards (@pxref{Directory Variables, , , standards, The GNU Coding Standards}). Automake extends this list with @code{pkglibdir}, @code{pkgincludedir}, and @code{pkgdatadir}; these are the same as the non-@samp{pkg} versions, but with @samp{@@PACKAGE@@} appended. For instance, @code{pkglibdir} is defined as @code{$(libdir)/@@PACKAGE@@}. @cvindex PACKAGE, directory @cindex EXTRA_, prepending For each primary, there is one additional variable named by prepending @samp{EXTRA_} to the primary name. This variable is used to list objects which may or may not be built, depending on what @code{configure} decides. This variable is required because Automake must statically know the entire list of objects that may be built in order to generate a @file{Makefile.in} that will work in all cases. @cindex EXTRA_PROGRAMS, defined @cindex Example, EXTRA_PROGRAMS @cindex cpio example For instance, @code{cpio} decides at configure time which programs are built. Some of the programs are installed in @code{bindir}, and some are installed in @code{sbindir}: @example EXTRA_PROGRAMS = mt rmt bin_PROGRAMS = cpio pax sbin_PROGRAMS = @@MORE_PROGRAMS@@ @end example Defining a primary without a prefix as a variable, e.g., @code{PROGRAMS}, is an error. Note that the common @samp{dir} suffix is left off when constructing the variable names; thus one writes @samp{bin_PROGRAMS} and not @samp{bindir_PROGRAMS}. Not every sort of object can be installed in every directory. Automake will flag those attempts it finds in error. Automake will also diagnose obvious misspellings in directory names. @cindex Extending list of installation directories @cindex Installation directories, extending list Sometimes the standard directories---even as augmented by Automake--- are not enough. In particular it is sometimes useful, for clarity, to install objects in a subdirectory of some predefined directory. To this end, Automake allows you to extend the list of possible installation directories. A given prefix (e.g. @samp{zar}) is valid if a variable of the same name with @samp{dir} appended is defined (e.g. @code{zardir}). @cindex HTML support, example For instance, until HTML support is part of Automake, you could use this to install raw HTML documentation: @example htmldir = $(prefix)/html html_DATA = automake.html @end example @cindex noinst primary prefix, definition The special prefix @samp{noinst} indicates that the objects in question should be built but not installed at all. This is usually used for objects required to build the rest of your package, for instance static libraries (@pxref{A Library}), or helper scripts. @cindex check primary prefix, definition The special prefix @samp{check} indicates that the objects in question should not be built until the @code{make check} command is run. Those objects are not installed either. The current primary names are @samp{PROGRAMS}, @samp{LIBRARIES}, @samp{LISP}, @samp{PYTHON}, @samp{JAVA}, @samp{SCRIPTS}, @samp{DATA}, @samp{HEADERS}, @samp{MANS}, and @samp{TEXINFOS}. @vindex PROGRAMS @vindex LIBRARIES @vindex LISP @vindex PYTHON @vindex JAVA @vindex SCRIPTS @vindex DATA @vindex HEADERS @vindex MANS @vindex TEXINFOS Some primaries also allow additional prefixes which control other aspects of @code{automake}'s behavior. The currently defined prefixes are @samp{dist_}, @samp{nodist_}, and @samp{nobase_}. These prefixes are explained later (@pxref{Program and Library Variables}). @node Canonicalization, User Variables, Uniform, Generalities @section How derived variables are named @cindex canonicalizing Automake variables Sometimes a Makefile variable name is derived from some text the maintainer supplies. For instance, a program name listed in @samp{_PROGRAMS} is rewritten into the name of a @samp{_SOURCES} variable. In cases like this, Automake canonicalizes the text, so that program names and the like do not have to follow Makefile variable naming rules. All characters in the name except for letters, numbers, the strudel (@@), and the underscore are turned into underscores when making variable references. For example, if your program is named @code{sniff-glue}, the derived variable name would be @code{sniff_glue_SOURCES}, not @code{sniff-glue_SOURCES}. Similarly the sources for a library named @code{libmumble++.a} should be listed in the @code{libmumble___a_SOURCES} variable. The strudel is an addition, to make the use of Autoconf substitutions in variable names less obfuscating. @node User Variables, Auxiliary Programs, Canonicalization, Generalities @section Variables reserved for the user @cindex variables, reserved for the user @cindex user variables Some @code{Makefile} variables are reserved by the GNU Coding Standards for the use of the ``user'' -- the person building the package. For instance, @code{CFLAGS} is one such variable. Sometimes package developers are tempted to set user variables such as @code{CFLAGS} because it appears to make their job easier -- they don't have to introduce a second variable into every target. However, the package itself should never set a user variable, particularly not to include switches which are required for proper compilation of the package. Since these variables are documented as being for the package builder, that person rightfully expects to be able to override any of these variables at build time. @c FIXME: maybe Automake could bark if a developer forces a user variable @c from Makefile.am. To get around this problem, automake introduces an automake-specific shadow variable for each user flag variable. (Shadow variables are not introduced for variables like @code{CC}, where they would make no sense.) The shadow variable is named by prepending @samp{AM_} to the user variable's name. For instance, the shadow variable for @code{YFLAGS} is @code{AM_YFLAGS}. @node Auxiliary Programs, , User Variables, Generalities @section Programs automake might require @cindex Programs, auxiliary @cindex Auxiliary programs Automake sometimes requires helper programs so that the generated @file{Makefile} can do its work properly. There are a fairly large number of them, and we list them here. @table @code @item ansi2knr.c @itemx ansi2knr.1 These two files are used by the automatic de-ANSI-fication support (@pxref{ANSI}). @item compile This is a wrapper for compilers which don't accept both @samp{-c} and @samp{-o} at the same time. It is only used when absolutely required. Such compilers are rare. @item config.guess @itemx config.sub These programs compute the canonical triplets for the given build, host, or target architecture. These programs are updated regulary to support new architectures and fix probes broken by changes in new kernel versions. You are encouraged to fetch the latest versions of these files from @url{ftp://ftp.gnu.org/gnu/config/} before making a release. @item depcomp This program understands how to run a compiler so that it will generate not only the desired output but also dependency information which is then used by the automatic dependency tracking feature. @item elisp-comp This program is used to byte-compile Emacs Lisp code. @item install-sh This is a replacement for the @code{install} program which works on platforms where @code{install} is unavailable or unusable. @item mdate-sh This script is used to generate a @file{version.texi} file. It examines a file and prints some date information about it. @item missing This wraps a number of programs which are typically only required by maintainers. If the program in question doesn't exist, @code{missing} prints an informative warning and attempts to fix things so that the build can continue. @item mkinstalldirs This works around the fact that @code{mkdir -p} is not portable. @item py-compile This is used to byte-compile Python scripts. @item texinfo.tex Not a program, this file is required for @code{make dvi}, @code{make ps} and @code{make pdf} to work when Texinfo sources are in the package. @item ylwrap This program wraps @code{lex} and @code{yacc} and ensures that, for instance, multiple @code{yacc} instances can be invoked in a single directory in parallel. @end table @node Examples, Invoking Automake, Generalities, Top @chapter Some example packages @menu * Complete:: A simple example, start to finish * Hello:: A classic program * etags:: Building etags and ctags @end menu @node Complete, Hello, Examples, Examples @section A simple example, start to finish @cindex Complete example Let's suppose you just finished writing @code{zardoz}, a program to make your head float from vortex to vortex. You've been using Autoconf to provide a portability framework, but your @file{Makefile.in}s have been ad-hoc. You want to make them bulletproof, so you turn to Automake. @cindex AM_INIT_AUTOMAKE, example use The first step is to update your @file{configure.in} to include the commands that @code{automake} needs. The way to do this is to add an @code{AM_INIT_AUTOMAKE} call just after @code{AC_INIT}: @example AC_INIT(zardoz, 1.0) AM_INIT_AUTOMAKE @dots{} @end example Since your program doesn't have any complicating factors (e.g., it doesn't use @code{gettext}, it doesn't want to build a shared library), you're done with this part. That was easy! @cindex aclocal program, introduction @cindex aclocal.m4, preexisting @cindex acinclude.m4, defined Now you must regenerate @file{configure}. But to do that, you'll need to tell @code{autoconf} how to find the new macro you've used. The easiest way to do this is to use the @code{aclocal} program to generate your @file{aclocal.m4} for you. But wait@dots{} maybe you already have an @file{aclocal.m4}, because you had to write some hairy macros for your program. The @code{aclocal} program lets you put your own macros into @file{acinclude.m4}, so simply rename and then run: @example mv aclocal.m4 acinclude.m4 aclocal autoconf @end example @cindex zardoz example Now it is time to write your @file{Makefile.am} for @code{zardoz}. Since @code{zardoz} is a user program, you want to install it where the rest of the user programs go: @code{bindir}. Additionally, @code{zardoz} has some Texinfo documentation. Your @file{configure.in} script uses @code{AC_REPLACE_FUNCS}, so you need to link against @samp{@@LIBOBJS@@}. So here's what you'd write: @example bin_PROGRAMS = zardoz zardoz_SOURCES = main.c head.c float.c vortex9.c gun.c zardoz_LDADD = @@LIBOBJS@@ info_TEXINFOS = zardoz.texi @end example Now you can run @code{automake --add-missing} to generate your @file{Makefile.in} and grab any auxiliary files you might need, and you're done! @node Hello, etags, Complete, Examples @section A classic program @cindex Example, GNU Hello @cindex Hello example @cindex GNU Hello, example @uref{ftp://prep.ai.mit.edu/pub/gnu/hello-1.3.tar.gz, GNU hello} is renowned for its classic simplicity and versatility. This section shows how Automake could be used with the GNU Hello package. The examples below are from the latest beta version of GNU Hello, but with all of the maintainer-only code stripped out, as well as all copyright comments. Of course, GNU Hello is somewhat more featureful than your traditional two-liner. GNU Hello is internationalized, does option processing, and has a manual and a test suite. @cindex configure.in, from GNU Hello @cindex GNU Hello, configure.in @cindex Hello, configure.in Here is the @file{configure.in} from GNU Hello: @c FIXME: This definitively requires an update. @example dnl Process this file with autoconf to produce a configure script. AC_INIT(src/hello.c) AM_INIT_AUTOMAKE(hello, 1.3.11) AM_CONFIG_HEADER(config.h) dnl Set of available languages. ALL_LINGUAS="de fr es ko nl no pl pt sl sv" dnl Checks for programs. AC_PROG_CC AC_ISC_POSIX dnl Checks for libraries. dnl Checks for header files. AC_STDC_HEADERS AC_HAVE_HEADERS(string.h fcntl.h sys/file.h sys/param.h) dnl Checks for library functions. AC_FUNC_ALLOCA dnl Check for st_blksize in struct stat AC_ST_BLKSIZE dnl internationalization macros AM_GNU_GETTEXT AC_OUTPUT([Makefile doc/Makefile intl/Makefile po/Makefile.in \ src/Makefile tests/Makefile tests/hello], [chmod +x tests/hello]) @end example The @samp{AM_} macros are provided by Automake (or the Gettext library); the rest are standard Autoconf macros. The top-level @file{Makefile.am}: @example EXTRA_DIST = BUGS ChangeLog.O SUBDIRS = doc intl po src tests @end example As you can see, all the work here is really done in subdirectories. The @file{po} and @file{intl} directories are automatically generated using @code{gettextize}; they will not be discussed here. @cindex Texinfo file handling example @cindex Example, handling Texinfo files In @file{doc/Makefile.am} we see: @example info_TEXINFOS = hello.texi hello_TEXINFOS = gpl.texi @end example This is sufficient to build, install, and distribute the GNU Hello manual. @cindex Regression test example @cindex Example, regression test Here is @file{tests/Makefile.am}: @example TESTS = hello EXTRA_DIST = hello.in testdata @end example The script @file{hello} is generated by @code{configure}, and is the only test case. @code{make check} will run this test. @cindex INCLUDES, example usage Last we have @file{src/Makefile.am}, where all the real work is done: @c FIXME: As all the Hello World excerpts in this manual, this @c shows deprecated features (here: $(INCLUDES)). @example bin_PROGRAMS = hello hello_SOURCES = hello.c version.c getopt.c getopt1.c getopt.h system.h hello_LDADD = @@INTLLIBS@@ @@ALLOCA@@ localedir = $(datadir)/locale INCLUDES = -I../intl -DLOCALEDIR=\"$(localedir)\" @end example @node etags, , Hello, Examples @section Building etags and ctags @cindex Example, ctags and etags @cindex ctags Example @cindex etags Example Here is another, trickier example. It shows how to generate two programs (@code{ctags} and @code{etags}) from the same source file (@file{etags.c}). The difficult part is that each compilation of @file{etags.c} requires different @code{cpp} flags. @example bin_PROGRAMS = etags ctags ctags_SOURCES = ctags_LDADD = ctags.o etags.o: etags.c $(COMPILE) -DETAGS_REGEXPS -c etags.c ctags.o: etags.c $(COMPILE) -DCTAGS -o ctags.o -c etags.c @end example Note that there is no @code{etags_SOURCES} definition. Automake will implicitly assume that there is a source file named @file{etags.c}, and define rules to compile @file{etags.o} and link @file{etags}. The @code{etags.o: etags.c} rule supplied by the above @file{Makefile.am}, will override the Automake generated rule to build @file{etags.o}. @code{ctags_SOURCES} is defined to be empty---that way no implicit value is substituted. Because we have not listed the source of @file{ctags}, we have to tell Automake how to link the program. This is the purpose of the @code{ctags_LDADD} line. A @code{ctags_DEPENDENCIES} variable, holding the dependencies of the @file{ctags} target will be automatically generated by Automake from the contant of @code{ctags_LDADD}. The above rules won't work if your compiler doesn't accept both @samp{-c} and @samp{-o}. The simplest fix for this is to introduce a bogus dependency (to avoid problems with a parallel @code{make}): @example etags.o: etags.c ctags.o $(COMPILE) -DETAGS_REGEXPS -c etags.c ctags.o: etags.c $(COMPILE) -DCTAGS -c etags.c && mv etags.o ctags.o @end example Also, these explicit rules do not work if the de-ANSI-fication feature is used (@pxref{ANSI}). Supporting de-ANSI-fication requires a little more work: @example etags._o: etags._c ctags.o $(COMPILE) -DETAGS_REGEXPS -c etags.c ctags._o: etags._c $(COMPILE) -DCTAGS -c etags.c && mv etags._o ctags.o @end example As it turns out, there is also a much easier way to do this same task. Some of the above techniques are useful enough that we've kept the example in the manual. However if you were to build @code{etags} and @code{ctags} in real life, you would probably use per-program compilation flags, like so: @example bin_PROGRAMS = ctags etags ctags_SOURCES = etags.c ctags_CPPFLAGS = -DCTAGS etags_SOURCES = etags.c etags_CPPFLAGS = -DETAGS_REGEXPS @end example In this case Automake will cause @file{etags.c} to be compiled twice, with different flags. De-ANSI-fication will work automatically. In this instance, the names of the object files would be chosen by automake; they would be @file{ctags-etags.o} and @file{etags-etags.o}. (The name of the object files rarely matters.) @node Invoking Automake, configure, Examples, Top @chapter Creating a @file{Makefile.in} @cindex Multiple configure.in files @cindex Invoking Automake @cindex Automake, invoking To create all the @file{Makefile.in}s for a package, run the @code{automake} program in the top level directory, with no arguments. @code{automake} will automatically find each appropriate @file{Makefile.am} (by scanning @file{configure.in}; @pxref{configure}) and generate the corresponding @file{Makefile.in}. Note that @code{automake} has a rather simplistic view of what constitutes a package; it assumes that a package has only one @file{configure.in}, at the top. If your package has multiple @file{configure.in}s, then you must run @code{automake} in each directory holding a @file{configure.in}. (Alteratively, you may rely on Autoconf's @code{autoreconf}, which is able to recurse your package tree and run @code{automake} where appropriate.) You can optionally give @code{automake} an argument; @file{.am} is appended to the argument and the result is used as the name of the input file. This feature is generally only used to automatically rebuild an out-of-date @file{Makefile.in}. Note that @code{automake} must always be run from the topmost directory of a project, even if being used to regenerate the @file{Makefile.in} in some subdirectory. This is necessary because @code{automake} must scan @file{configure.in}, and because @code{automake} uses the knowledge that a @file{Makefile.in} is in a subdirectory to change its behavior in some cases. @vindex AUTOCONF Automake will run @code{autoconf} to scan @file{configure.in} and its dependencies (@file{aclocal.m4}), therefore @code{autoconf} must be in your @code{PATH}. If there is an @code{AUTOCONF} variable in your environment it will be used instead of @code{autoconf}, this allows you to select a particular version of Autoconf. By the way, don't misunderstand this paragraph: Automake runs @code{autoconf} to @strong{scan} your @file{configure.in}, this won't build @file{configure} and you still have to run @code{autoconf} yourself for this purpose. @cindex Automake options @cindex Options, Automake @cindex Strictness, command line @code{automake} accepts the following options: @cindex Extra files distributed with Automake @cindex Files distributed with Automake @cindex config.guess @table @samp @item -a @itemx --add-missing @opindex -a @opindex --add-missing Automake requires certain common files to exist in certain situations; for instance @file{config.guess} is required if @file{configure.in} runs @code{AC_CANONICAL_HOST}. Automake is distributed with several of these files (@pxref{Auxiliary Programs}); this option will cause the missing ones to be automatically added to the package, whenever possible. In general if Automake tells you a file is missing, try using this option. By default Automake tries to make a symbolic link pointing to its own copy of the missing file; this can be changed with @code{--copy}. @item --libdir=@var{dir} @opindex --libdir Look for Automake data files in directory @var{dir} instead of in the installation directory. This is typically used for debugging. @item -c @opindex -c @itemx --copy @opindex --copy When used with @code{--add-missing}, causes installed files to be copied. The default is to make a symbolic link. @item --cygnus @opindex --cygnus Causes the generated @file{Makefile.in}s to follow Cygnus rules, instead of GNU or Gnits rules. For more information, see @ref{Cygnus}. @item -f @opindex -f @itemx --force-missing @opindex --force-missing When used with @code{--add-missing}, causes standard files to be reinstalled even if they already exist in the source tree. This involves removing the file from the source tree before creating the new symlink (or, with @code{--copy}, copying the new file). @item --foreign @opindex --foreign Set the global strictness to @samp{foreign}. For more information, see @ref{Strictness}. @item --gnits @opindex --gnits Set the global strictness to @samp{gnits}. For more information, see @ref{Gnits}. @item --gnu @opindex --gnu Set the global strictness to @samp{gnu}. For more information, see @ref{Gnits}. This is the default strictness. @item --help @opindex --help Print a summary of the command line options and exit. @item -i @itemx --ignore-deps @opindex -i This disables the dependency tracking feature in generated @file{Makefile}s; see @ref{Dependencies}. @item --include-deps @opindex --include-deps This enables the dependency tracking feature. This feature is enabled by default. This option is provided for historical reasons only and probably should not be used. @item --no-force @opindex --no-force Ordinarily @code{automake} creates all @file{Makefile.in}s mentioned in @file{configure.in}. This option causes it to only update those @file{Makefile.in}s which are out of date with respect to one of their dependents. @item -o @var{dir} @itemx --output-dir=@var{dir} @opindex -o @opindex --output-dir Put the generated @file{Makefile.in} in the directory @var{dir}. Ordinarily each @file{Makefile.in} is created in the directory of the corresponding @file{Makefile.am}. This option is deprecated and will be removed in a future release. @item -v @itemx --verbose @opindex -v @opindex --verbose Cause Automake to print information about which files are being read or created. @item --version @opindex --version Print the version number of Automake and exit. @item -W CATEGORY @item --warnings=@var{category} @opindex -W @opindex --warnings Output warnings falling in @var{category}. @var{category} can be one of: @table @samp @item gnu warnings related to the GNU Coding Standards (@pxref{Top, , , standards, The GNU Coding Standards}). @item obsolete obsolete features or constructions @item unsupported unsupported or incomplete features @item unused unused variables @item portability portability issues (e.g., use of Make features which are known not portable) @item all all the warnings @item none turn off all the warnings @item error treat warnings as errors @end table A category can be turned off by prefixing its name with @samp{no-}. For instance @samp{-Wno-unused} will hide the warnings about unused variables. The categories output by default are @samp{unsupported} and @samp{unused}. Additionally, @samp{gnu} is enabled in @samp{--gnu} and @samp{--gnits} strictness. @samp{portability} warnings are currently disabled by default, but they will be enabled in @samp{--gnu} and @samp{--gnits} strictness in a future release. @vindex WARNINGS The environment variable @samp{WARNINGS} can contain a comma separated list of categories to enable. It will be taken into account before the command-line switches, this way @samp{-Wnone} will also ignore any warning category enabled by @samp{WARNINGS}. This variable is also used by other tools like @command{autoconf}; unknown categories are ignored for this reason. @end table @node configure, Top level, Invoking Automake, Top @chapter Scanning @file{configure.in} @cindex configure.in, scanning @cindex Scanning configure.in Automake scans the package's @file{configure.in} to determine certain information about the package. Some @code{autoconf} macros are required and some variables must be defined in @file{configure.in}. Automake will also use information from @file{configure.in} to further tailor its output. Automake also supplies some Autoconf macros to make the maintenance easier. These macros can automatically be put into your @file{aclocal.m4} using the @code{aclocal} program. @menu * Requirements:: Configuration requirements * Optional:: Other things Automake recognizes * Invoking aclocal:: Auto-generating aclocal.m4 * Macros:: Autoconf macros supplied with Automake * Extending aclocal:: Writing your own aclocal macros @end menu @node Requirements, Optional, configure, configure @section Configuration requirements @cindex Automake requirements @cindex Requirements of Automake The one real requirement of Automake is that your @file{configure.in} call @code{AM_INIT_AUTOMAKE}. This macro does several things which are required for proper Automake operation (@pxref{Macros}). @cvindex AM_INIT_AUTOMAKE Here are the other macros which Automake requires but which are not run by @code{AM_INIT_AUTOMAKE}: @cindex AC_OUTPUT, scanning @table @code @item AC_CONFIG_FILES @itemx AC_OUTPUT Automake uses these to determine which files to create (@pxref{Output, , Creating Output Files, autoconf, The Autoconf Manual}). A listed file is considered to be an Automake generated @file{Makefile} if there exists a file with the same name and the @file{.am} extension appended. Typically, @code{AC_CONFIG_FILES([foo/Makefile])} will cause Automake to generate @file{foo/Makefile.in} if @file{foo/Makefile.am} exists. Other listed files are treated differently. Currently the only difference is that an Automake @file{Makefile} is removed by @code{make distclean}, while other files are removed by @code{make clean}. @c FIXME: this is in violation of standards! @cvindex AC_OUTPUT @end table @node Optional, Invoking aclocal, Requirements, configure @section Other things Automake recognizes @cindex Macros Automake recognizes @cindex Recognized macros by Automake Every time Automake is run it calls Autoconf to trace @file{configure.in}. This way it can recognize the use of certain macros and tailor the generated @file{Makefile.in} appropriately. Currently recognized macros and their effects are: @table @code @item AC_CONFIG_HEADERS Automake will generate rules to rebuild these headers. Older versions of Automake required the use of @code{AM_CONFIG_HEADER} (@pxref{Macros}); this no longuer the case today. @cvindex AC_CONFIG_HEADERS @item AC_CONFIG_AUX_DIR Automake will look for various helper scripts, such as @file{mkinstalldirs}, in the directory named in this macro invocation. If not seen, the scripts are looked for in their @samp{standard} locations (either the top source directory, or in the source directory corresponding to the current @file{Makefile.am}, whichever is appropriate). @xref{Input, , Finding `configure' Input, autoconf, The Autoconf Manual}. @cvindex AC_CONFIG_AUX_DIR FIXME: give complete list of things looked for in this directory @item AC_CANONICAL_HOST Automake will ensure that @file{config.guess} and @file{config.sub} exist. Also, the @file{Makefile} variables @samp{host_alias} and @samp{host_triplet} are introduced. See @ref{Canonicalizing, , Getting the Canonical System Type, autoconf, The Autoconf Manual}. @cvindex AC_CANONICAL_HOST @vindex host_alias @vindex host_triplet @item AC_CANONICAL_SYSTEM This is similar to @code{AC_CANONICAL_HOST}, but also defines the @file{Makefile} variables @samp{build_alias} and @samp{target_alias}. @xref{Canonicalizing, , Getting the Canonical System Type, autoconf, The Autoconf Manual}. @cvindex AC_CANONICAL_SYSTEM @vindex build_alias @vindex target_alias @item AC_LIBSOURCE @itemx AC_LIBSOURCES @itemx AC_LIBOBJ Automake will automatically distribute any file listed in @code{AC_LIBSOURCE} or @code{AC_LIBSOURCES}. Note that the @code{AC_LIBOBJ} macro calls @code{AC_LIBSOURCE}. So if an Autoconf macro is documented to call @code{AC_LIBOBJ([file])}, then @file{file.c} will be distributed automatically by Automake. This encompasses many macros like @code{AC_FUNC_ALLOCA}, @code{AC_FUNC_MEMCMP}, @code{AC_REPLACE_FUNCS}, and others. @cvindex AC_LIBOBJ @cvindex AC_LIBSOURCE @cvindex AC_LIBSOURCES By the way, direct assignments to @code{LIBOBJS} are no longer supported. You should always use @code{AC_LIBOBJ} for this purpose. @xref{AC_LIBOBJ vs LIBOBJS, , @code{AC_LIBOBJ} vs. @code{LIBOBJS}, autoconf, The Autoconf Manual}. @cvindex LIBOBJS @item AC_PROG_RANLIB This is required if any libraries are built in the package. @xref{Particular Programs, , Particular Program Checks, autoconf, The Autoconf Manual}. @cvindex AC_PROG_RANLIB @item AC_PROG_CXX This is required if any C++ source is included. @xref{Particular Programs, , Particular Program Checks, autoconf, The Autoconf Manual}. @cvindex AC_PROG_CXX @item AC_PROG_F77 This is required if any Fortran 77 source is included. This macro is distributed with Autoconf version 2.13 and later. @xref{Particular Programs, , Particular Program Checks, autoconf, The Autoconf Manual}. @cvindex AC_PROG_F77 @item AC_F77_LIBRARY_LDFLAGS This is required for programs and shared libraries that are a mixture of languages that include Fortran 77 (@pxref{Mixing Fortran 77 With C and C++}). @xref{Macros, , Autoconf macros supplied with Automake}. @cvindex AC_F77_LIBRARY_LDFLAGS @item AC_PROG_LIBTOOL Automake will turn on processing for @code{libtool} (@pxref{Top, , Introduction, libtool, The Libtool Manual}). @cvindex AC_PROG_LIBTOOL @item AC_PROG_YACC If a Yacc source file is seen, then you must either use this macro or define the variable @samp{YACC} in @file{configure.in}. The former is preferred (@pxref{Particular Programs, , Particular Program Checks, autoconf, The Autoconf Manual}). @cvindex AC_PROG_YACC @cvindex YACC @item AC_PROG_LEX If a Lex source file is seen, then this macro must be used. @xref{Particular Programs, , Particular Program Checks, autoconf, The Autoconf Manual}. @cvindex AC_PROG_LEX @item AC_SUBST @cvindex AC_SUBST The first argument is automatically defined as a variable in each generated @file{Makefile.in}. @xref{Setting Output Variables, , Setting Output Variables, autoconf, The Autoconf Manual}. If the Autoconf manual says that a macro calls @code{AC_SUBST} for @var{var}, or defined the output variable @var{var} then @var{var} will be defined in each generated @file{Makefile.in}. E.g. @code{AC_PATH_XTRA} defines @code{X_CFLAGS} and @code{X_LIBS}, so you can use the variable in any @file{Makefile.am} if @code{AC_PATH_XTRA} is called. @item AM_C_PROTOTYPES This is required when using automatic de-ANSI-fication; see @ref{ANSI}. @cvindex AM_C_PROTOTYPES @item AM_GNU_GETTEXT This macro is required for packages which use GNU gettext (@pxref{gettext}). It is distributed with gettext. If Automake sees this macro it ensures that the package meets some of gettext's requirements. @cvindex AM_GNU_GETTEXT @item AM_MAINTAINER_MODE @opindex --enable-maintainer-mode This macro adds a @samp{--enable-maintainer-mode} option to @code{configure}. If this is used, @code{automake} will cause @samp{maintainer-only} rules to be turned off by default in the generated @file{Makefile.in}s. This macro defines the @samp{MAINTAINER_MODE} conditional, which you can use in your own @file{Makefile.am}. @cvindex AM_MAINTAINER_MODE @end table @node Invoking aclocal, Macros, Optional, configure @section Auto-generating aclocal.m4 @cindex Invoking aclocal @cindex aclocal, Invoking Automake includes a number of Autoconf macros which can be used in your package; some of them are actually required by Automake in certain situations. These macros must be defined in your @file{aclocal.m4}; otherwise they will not be seen by @code{autoconf}. The @code{aclocal} program will automatically generate @file{aclocal.m4} files based on the contents of @file{configure.in}. This provides a convenient way to get Automake-provided macros, without having to search around. Also, the @code{aclocal} mechanism allows other packages to supply their own macros. At startup, @code{aclocal} scans all the @file{.m4} files it can find, looking for macro definitions (@pxref{Macro search path}). Then it scans @file{configure.in}. Any mention of one of the macros found in the first step causes that macro, and any macros it in turn requires, to be put into @file{aclocal.m4}. The contents of @file{acinclude.m4}, if it exists, are also automatically included in @file{aclocal.m4}. This is useful for incorporating local macros into @file{configure}. @code{aclocal} tries to be smart about looking for new @code{AC_DEFUN}s in the files it scans. It also tries to copy the full text of the scanned file into @file{aclocal.m4}, including both @samp{#} and @samp{dnl} comments. If you want to make a comment which will be completely ignored by @code{aclocal}, use @samp{##} as the comment leader. @menu * aclocal options:: Options supported by aclocal * Macro search path:: How aclocal finds .m4 files @end menu @node aclocal options, Macro search path, Invoking aclocal, Invoking aclocal @section aclocal options @cindex aclocal, Options @cindex Options, aclocal @code{aclocal} accepts the following options: @table @code @item --acdir=@var{dir} @opindex --acdir Look for the macro files in @var{dir} instead of the installation directory. This is typically used for debugging. @item --help @opindex --help Print a summary of the command line options and exit. @item -I @var{dir} @opindex -I Add the directory @var{dir} to the list of directories searched for @file{.m4} files. @item --output=@var{file} @opindex --output Cause the output to be put into @var{file} instead of @file{aclocal.m4}. @item --print-ac-dir @opindex --print-ac-dir Prints the name of the directory which @code{aclocal} will search to find third-party @file{.m4} files. When this option is given, normal processing is suppressed. This option can be used by a package to determine where to install a macro file. @item --verbose @opindex --verbose Print the names of the files it examines. @item --version @opindex --version Print the version number of Automake and exit. @end table @node Macro search path, , aclocal options, Invoking aclocal @section Macro search path @cindex Macro search path @cindex aclocal search path By default, @command{aclocal} searches for @file{.m4} files in the following directories, in this order: @table @code @item @var{acdir-APIVERSION} This is where the @file{.m4} macros distributed with automake itself are stored. @var{APIVERSION} depends on the automake release used; for automake 1.6.x, @var{APIVERSION} = @code{1.6}. @item @var{acdir} This directory is intended for third party @file{.m4} files, and is configured when @command{automake} itself is built. This is @file{@@datadir@@/aclocal/}, which typically expands to @file{$@{prefix@}/share/aclocal/}. To find the compiled-in value of @var{acdir}, use the @code{--print-ac-dir} option (@pxref{aclocal options}). @end table As an example, suppose that automake-1.6.2 was configured with @code{--prefix=/usr/local}. Then, the search path would be: @enumerate @item @file{/usr/local/share/aclocal-1.6/} @item @file{/usr/local/share/aclocal/} @end enumerate As explained in (@pxref{aclocal options}), there are several options that can be used to change or extend this search path. @subsection Modifying the macro search path: @code{--acdir} The most obvious option to modify the search path is @code{--acdir=@var{dir}}, which changes default directory and drops the @var{APIVERSION} directory. For example, if one specifies @code{--acdir=/opt/private/}, then the search path becomes: @enumerate @item @file{/opt/private/} @end enumerate Note that this option, @code{--acdir}, is intended for use by the internal automake test suite only; it is not ordinarily needed by end-users. @subsection Modifying the macro search path: @code{-I @var{dir}} Any extra directories specified using @code{-I} options (@pxref{aclocal options}) are @emph{prepended} to this search list. Thus, @code{aclocal -I /foo -I /bar} results in the following search path: @enumerate @item @file{/foo} @item @file{/bar} @item @var{acdir}-@var{APIVERSION} @item @var{acdir} @end enumerate @subsection Modifying the macro search path: @file{dirlist} @cindex @file{dirlist} There is a third mechanism for customizing the search path. If a @file{dirlist} file exists in @var{acdir}, then that file is assumed to contain a list of directories, one per line, to be added to the search list. These directories are searched @emph{after} all other directories. For example, suppose @file{@var{acdir}/dirlist} contains the following: @example /test1 /test2 @end example @noindent and that @code{aclocal} was called with the @code{-I /foo -I /bar} options. Then, the search path would be @enumerate @item @file{/foo} @item @file{/bar} @item @var{acdir}-@var{APIVERSION} @item @var{acdir} @item @file{/test1} @item @file{/test2} @end enumerate If the @code{--acdir=@var{dir}} option is used, then @command{aclocal} will search for the @file{dirlist} file in @var{dir}. In the @code{--acdir=/opt/private/} example above, @command{aclocal} would look for @file{/opt/private/dirlist}. Again, however, the @code{--acdir} option is intended for use by the internal automake test suite only; @code{--acdir} is not ordinarily needed by end-users. @file{dirlist} is useful in the following situation: suppose that @code{automake} version @code{1.6.2} is installed with $prefix=/usr by the system vendor. Thus, the default search directories are @enumerate @item @file{/usr/share/aclocal-1.6/} @item @file{/usr/share/aclocal/} @end enumerate However, suppose further that many packages have been manually installed on the system, with $prefix=/usr/local, as is typical. In that case, many of these ``extra'' @file{.m4} files are in @file{/usr/local/share/aclocal}. The only way to force @file{/usr/bin/aclocal} to find these ``extra'' @file{.m4} files is to always call @code{aclocal -I /usr/local/share/aclocal}. This is inconvenient. With @file{dirlist}, one may create the file @file{/usr/share/aclocal/dirlist} @noindent which contains only the single line @file{/usr/local/share/aclocal} Now, the ``default'' search path on the affected system is @enumerate @item @file{/usr/share/aclocal-1.6/} @item @file{/usr/share/aclocal/} @item @file{/usr/local/share/aclocal/} @end enumerate without the need for @code{-I} options; @code{-I} options can be reserved for project-specific needs (@file{my-source-dir/m4/}), rather than using it to work around local system-dependent tool installation directories. Similarly, @file{dirlist} can be handy if you have installed a local copy Automake on your account and want @command{aclocal} to look for macros installed at other places on the system. @node Macros, Extending aclocal, Invoking aclocal, configure @section Autoconf macros supplied with Automake Automake ships with several Autoconf macros that you can use from your @file{configure.in}. When you use one of them it will be included by @code{aclocal} in @file{aclocal.m4}. @menu * Public macros:: Macros that you can use. * Private macros:: Macros that you should not use. @end menu @c consider generating the following subsections automatically from m4 files. @node Public macros, Private macros, Macros, Macros @subsection Public macros @table @code @item AM_CONFIG_HEADER Automake will generate rules to automatically regenerate the config header. This obsolete macro is a synonym of @code{AC_CONFIG_HEADERS} today (@pxref{Optional}). @cvindex AM_CONFIG_HEADER @item AM_ENABLE_MULTILIB This is used when a ``multilib'' library is being built. The first optional argument is the name of the @file{Makefile} being generated; it defaults to @samp{Makefile}. The second option argument is used to find the top source directory; it defaults to the empty string (generally this should not be used unless you are familiar with the internals). @xref{Multilibs}. @item AM_C_PROTOTYPES Check to see if function prototypes are understood by the compiler. If so, define @samp{PROTOTYPES} and set the output variables @samp{U} and @samp{ANSI2KNR} to the empty string. Otherwise, set @samp{U} to @samp{_} and @samp{ANSI2KNR} to @samp{./ansi2knr}. Automake uses these values to implement automatic de-ANSI-fication. @cvindex AM_C_PROTOTYPES @item AM_HEADER_TIOCGWINSZ_NEEDS_SYS_IOCTL If the use of @code{TIOCGWINSZ} requires @file{}, then define @code{GWINSZ_IN_SYS_IOCTL}. Otherwise @code{TIOCGWINSZ} can be found in @file{}. @cvindex AM_HEADER_TIOCGWINSZ_NEEDS_SYS_IOCTL @item AM_INIT_AUTOMAKE([OPTIONS]) @itemx AM_INIT_AUTOMAKE(PACKAGE, VERSION, [NO-DEFINE]) Runs many macros required for proper operation of the generated Makefiles. This macro has two forms, the second of which has two required arguments: the package and the version number. This latter form is obsolete because the @var{package} and @var{version} can be obtained from Autoconf's @code{AC_INIT} macro (which itself has an old and a new form). If your @file{configure.in} has: @example AC_INIT(src/foo.c) AM_INIT_AUTOMAKE(mumble, 1.5) @end example you can modernize it as follow: @example AC_INIT(mumble, 1.5) AC_CONFIG_SRCDIR(src/foo.c) AM_INIT_AUTOMAKE @end example Note that if you're upgrading your @file{configure.in} from an earlier version of Automake, it is not always correct to simply move the package and version arguments from @code{AM_INIT_AUTOMAKE} directly to @code{AC_INIT}, as in the example above. The first argument of @code{AC_INIT} is the name of your package (e.g. @samp{GNU Automake}), not the tarball name (e.g. @samp{automake}) you used to pass to @code{AM_INIT_AUTOMAKE}. Autoconf's rule to derive a tarball name from the package name should work for most but not all packages. Especially, if your tarball name is not all lower case, you will have to use the four-argument form of @code{AC_INIT} (supported in Autoconf versions greater than 2.52g). When @code{AM_INIT_AUTOMAKE} is called with a single argument, it is interpreted as a space-separated list of Automake options which should be applied to every @file{Makefile.am} in the tree. The effect is as if each option were listed in @code{AUTOMAKE_OPTIONS}. By default this macro @code{AC_DEFINE}'s @samp{PACKAGE} and @samp{VERSION}. This can be avoided by passing the @samp{no-define} option, as in: @example AM_INIT_AUTOMAKE([gnits 1.5 no-define dist-bzip2]) @end example or by passing a third non-empty argument to the obsolete form. @cvindex PACKAGE, prevent definition @cvindex VERSION, prevent definition @item AM_PATH_LISPDIR Searches for the program @code{emacs}, and, if found, sets the output variable @code{lispdir} to the full path to Emacs' site-lisp directory. Note that this test assumes the @code{emacs} found to be a version that supports Emacs Lisp (such as @sc{gnu} Emacs or XEmacs). Other emacsen can cause this test to hang (some, like old versions of MicroEmacs, start up in interactive mode, requiring @samp{C-x C-c} to exit, which is hardly obvious for a non-emacs user). In most cases, however, you should be able to use @samp{C-c} to kill the test. In order to avoid problems, you can set @code{EMACS} to ``no'' in the environment, or use the @samp{--with-lispdir} option to @command{configure} to explictly set the correct path (if you're sure you have an @code{emacs} that supports Emacs Lisp. @cvindex AM_PATH_LISPDIR @item AM_PROG_AS Use this macro when you have assembly code in your project. This will choose the assembler for you (by default the C compiler) and set @code{CCAS}, and will also set @code{CCASFLAGS} if required. @item AM_PROG_CC_C_O This is like @code{AC_PROG_CC_C_O}, but it generates its results in the manner required by automake. You must use this instead of @code{AC_PROG_CC_C_O} when you need this functionality. @item AM_PROG_CC_STDC If the C compiler is not in ANSI C mode by default, try to add an option to output variable @code{CC} to make it so. This macro tries various options that select ANSI C on some system or another. It considers the compiler to be in ANSI C mode if it handles function prototypes correctly. If you use this macro, you should check after calling it whether the C compiler has been set to accept ANSI C; if not, the shell variable @code{am_cv_prog_cc_stdc} is set to @samp{no}. If you wrote your source code in ANSI C, you can make an un-ANSIfied copy of it by using the @code{ansi2knr} option (@pxref{ANSI}). @item AM_PROG_LEX @cindex HP-UX 10, lex problems @cindex lex problems with HP-UX 10 Like @code{AC_PROG_LEX} (@pxref{Particular Programs, , Particular Program Checks, autoconf, The Autoconf Manual}), but uses the @code{missing} script on systems that do not have @code{lex}. @samp{HP-UX 10} is one such system. @item AM_PROG_GCJ This macro finds the @code{gcj} program or causes an error. It sets @samp{GCJ} and @samp{GCJFLAGS}. @code{gcj} is the Java front-end to the GNU Compiler Collection. @cvindex AM_PROG_GCJ @item AM_SYS_POSIX_TERMIOS @cvindex am_cv_sys_posix_termios @cindex POSIX termios headers @cindex termios POSIX headers Check to see if POSIX termios headers and functions are available on the system. If so, set the shell variable @code{am_cv_sys_posix_termios} to @samp{yes}. If not, set the variable to @samp{no}. @item AM_WITH_DMALLOC @cvindex WITH_DMALLOC @cindex dmalloc, support for @opindex --with-dmalloc Add support for the @uref{ftp://ftp.letters.com/src/dmalloc/dmalloc.tar.gz, dmalloc} package. If the user configures with @samp{--with-dmalloc}, then define @code{WITH_DMALLOC} and add @samp{-ldmalloc} to @code{LIBS}. @item AM_WITH_REGEX @cvindex WITH_REGEX @opindex --with-regex @cindex regex package @cindex rx package Adds @samp{--with-regex} to the @code{configure} command line. If specified (the default), then the @samp{regex} regular expression library is used, @file{regex.o} is put into @samp{LIBOBJS}, and @samp{WITH_REGEX} is defined. If @samp{--without-regex} is given, then the @samp{rx} regular expression library is used, and @file{rx.o} is put into @samp{LIBOBJS}. @end table @node Private macros, , Public macros, Macros @subsection Private macros The following macros are private macros you should not call directly. They are called by the other public macros when appropriate. Do not rely on them, as they might be changed in a future version. Consider them as implementation details; or better, do not consider them at all: skip this section! @table @code @item _AM_DEPENDENCIES @itemx AM_SET_DEPDIR @itemx AM_DEP_TRACK @itemx AM_OUTPUT_DEPENDENCY_COMMANDS These macros are used to implement automake's automatic dependency tracking scheme. They are called automatically by automake when required, and there should be no need to invoke them manually. @item AM_MAKE_INCLUDE This macro is used to discover how the user's @code{make} handles @code{include} statements. This macro is automatically invoked when needed; there should be no need to invoke it manually. @item AM_PROG_INSTALL_STRIP This is used to find a version of @code{install} which can be used to @code{strip} a program at installation time. This macro is automatically included when required. @item AM_SANITY_CHECK This checks to make sure that a file created in the build directory is newer than a file in the source directory. This can fail on systems where the clock is set incorrectly. This macro is automatically run from @code{AM_INIT_AUTOMAKE}. @end table @node Extending aclocal, , Macros, configure @section Writing your own aclocal macros @cindex aclocal, extending @cindex Extending aclocal The @code{aclocal} program doesn't have any built-in knowledge of any macros, so it is easy to extend it with your own macros. This is mostly used for libraries which want to supply their own Autoconf macros for use by other programs. For instance the @code{gettext} library supplies a macro @code{AM_GNU_GETTEXT} which should be used by any package using @code{gettext}. When the library is installed, it installs this macro so that @code{aclocal} will find it. A file of macros should be a series of @code{AC_DEFUN}'s. The @code{aclocal} programs also understands @code{AC_REQUIRE}, so it is safe to put each macro in a separate file. @xref{Prerequisite Macros, , , autoconf, The Autoconf Manual}, and @ref{Macro Definitions, , , autoconf, The Autoconf Manual}. A macro file's name should end in @file{.m4}. Such files should be installed in @code{`aclocal --print-ac-dir`} (which usually happens to be @file{$(datadir)/aclocal}). @node Top level, Alternative, configure, Top @chapter The top-level @file{Makefile.am} @section Recursing subdirectories @cindex SUBDIRS, explained In packages with subdirectories, the top level @file{Makefile.am} must tell Automake which subdirectories are to be built. This is done via the @code{SUBDIRS} variable. @vindex SUBDIRS The @code{SUBDIRS} variable holds a list of subdirectories in which building of various sorts can occur. Many targets (e.g. @code{all}) in the generated @file{Makefile} will run both locally and in all specified subdirectories. Note that the directories listed in @code{SUBDIRS} are not required to contain @file{Makefile.am}s; only @file{Makefile}s (after configuration). This allows inclusion of libraries from packages which do not use Automake (such as @code{gettext}). In packages that use subdirectories, the top-level @file{Makefile.am} is often very short. For instance, here is the @file{Makefile.am} from the GNU Hello distribution: @example EXTRA_DIST = BUGS ChangeLog.O README-alpha SUBDIRS = doc intl po src tests @end example When Automake invokes @code{make} in a subdirectory, it uses the value of the @code{MAKE} variable. It passes the value of the variable @code{AM_MAKEFLAGS} to the @code{make} invocation; this can be set in @file{Makefile.am} if there are flags you must always pass to @code{make}. @vindex MAKE @vindex MAKEFLAGS The directories mentioned in @code{SUBDIRS} must be direct children of the current directory. For instance, you cannot put @samp{src/subdir} into @code{SUBDIRS}. Instead you should put @code{SUBDIRS = subdir} into @file{src/Makefile.am}. Automake can be used to construct packages of arbitrary depth this way. By default, Automake generates @file{Makefiles} which work depth-first (@samp{postfix}). However, it is possible to change this ordering. You can do this by putting @samp{.} into @code{SUBDIRS}. For instance, putting @samp{.} first will cause a @samp{prefix} ordering of directories. All @samp{clean} targets are run in reverse order of build targets. @section Conditional subdirectories @cindex Subdirectories, building conditionally @cindex Conditional subdirectories @cindex @code{SUBDIRS}, conditional @cindex Conditional @code{SUBDIRS} It is possible to define the @code{SUBDIRS} variable conditionally if, like in the case of GNU @code{Inetutils}, you want to only build a subset of the entire package. To illustrate how this works, let's assume we have two directories @file{src/} and @file{opt/}. @file{src/} should always be built, but we want to decide in @code{./configure} whether @file{opt/} will be built or not. (For this example we will assume that @file{opt/} should be built when the variable @code{$want_opt} was set to @code{yes}.) Running @code{make} should thus recurse into @file{src/} always, and then maybe in @file{opt/}. However @code{make dist} should always recurse into both @file{src/} and @file{opt/}. Because @file{opt/} should be distributed even if it is not needed in the current configuration. This means @file{opt/Makefile} should be created unconditionally. @footnote{Don't try seeking a solution where @file{opt/Makefile} is created conditionally, this is a lot trickier than the solutions presented here.} There are two ways to setup a project like this. You can use Automake conditionals (@pxref{Conditionals}) or use Autoconf @code{AC_SUBST} variables (@pxref{Setting Output Variables, , Setting Output Variables, autoconf, The Autoconf Manual}). Using Automake conditionals is the preferred solution. @subsection Conditional subdirectories with @code{AM_CONDITIONAL} @cindex @code{SUBDIRS} and @code{AM_CONDITIONAL} @cindex @code{AM_CONDITIONAL} and @code{SUBDIRS} @c The test case for the setup described here is @c test/subdircond2.test @c Try to keep it in sync. @file{configure} should output the @file{Makefile} for each directory and define a condition into which @file{opt/} should be built. @example @dots{} AM_CONDITIONAL([COND_OPT], [test "$want_opt" = yes]) AC_CONFIG_FILES([Makefile src/Makefile opt/Makefile]) @dots{} @end example Then @code{SUBDIRS} can be defined in the top-level @file{Makefile.am} as follows. @example if COND_OPT MAYBE_OPT = opt endif SUBDIRS = src $(MAYBE_OPT) @end example As you can see, running @code{make} will rightly recurse into @file{src/} and maybe @file{opt/}. @vindex DIST_SUBDIRS As you can't see, running @code{make dist} will recurse into both @file{src/} and @file{opt/} directories because @code{make dist}, unlike @code{make all}, doesn't use the @code{SUBDIRS} variable. It uses the @code{DIST_SUBDIRS} variable. In this case Automake will define @code{DIST_SUBDIRS = src opt} automatically because it knows that @code{MAYBE_OPT} can contain @code{opt} in some condition. @subsection Conditional subdirectories with @code{AC_SUBST} @cindex @code{SUBDIRS} and @code{AC_SUBST} @cindex @code{AC_SUBST} and @code{SUBDIRS} @c The test case for the setup described here is @c test/subdircond3.test @c Try to keep it in sync. Another idea is to define @code{MAYBE_OPT} from @file{./configure} using @code{AC_SUBST}: @example @dots{} if test "$want_opt" = yes; then MAYBE_OPT=opt else MAYBE_OPT= fi AC_SUBST([MAYBE_OPT]) AC_CONFIG_FILES([Makefile src/Makefile opt/Makefile]) @dots{} @end example In this case the top-level @file{Makefile.am} should look as follows. @example SUBDIRS = src $(MAYBE_OPT) DIST_SUBDIRS = src opt @end example The drawback is that since Automake cannot guess what the possible values of @code{MAYBE_OPT} are, it is necessary to define @code{DIST_SUBDIRS}. @subsection How @code{DIST_SUBDIRS} is used @cindex @code{DIST_SUBDIRS}, explained As shown in the above examples, @code{DIST_SUBDIRS} is used by targets that need to recurse in all directories, even those which have been conditionally left out of the build. Precisely, @code{DIST_SUBDIRS} is used by @code{make dist}, @code{make distclean}, and @code{make maintainer-clean}. All other recursive targets use @code{SUBDIRS}. Automake will define @code{DIST_SUBDIRS} automatically from the possibles values of @code{SUBDIRS} in all conditions. If @code{SUBDIRS} contains @code{AC_SUBST} variables, @code{DIST_SUBDIRS} will not be defined correctly because Automake doesn't know the possible values of these variables. In this case @code{DIST_SUBDIRS} needs to be defined manually. @node Alternative, Rebuilding, Top level, Top @chapter An Alternative Approach to Subdirectories If you've ever read Peter Miller's excellent paper, @uref{http://www.pcug.org.au/~millerp/rmch/recu-make-cons-harm.html, Recursive Make Considered Harmful}, the preceding section on the use of subdirectories will probably come as unwelcome advice. For those who haven't read the paper, Miller's main thesis is that recursive @code{make} invocations are both slow and error-prone. Automake provides sufficient cross-directory support @footnote{We believe. This work is new and there are probably warts. @xref{Introduction}, for information on reporting bugs.} to enable you to write a single @file{Makefile.am} for a complex multi-directory package. By default an installable file specified in a subdirectory will have its directory name stripped before installation. For instance, in this example, the header file will be installed as @file{$(includedir)/stdio.h}: @example include_HEADERS = inc/stdio.h @end example @cindex nobase_ @cindex Path stripping, avoiding @cindex Avoiding path stripping However, the @samp{nobase_} prefix can be used to circumvent this path stripping. In this example, the header file will be installed as @file{$(includedir)/sys/types.h}: @example nobase_include_HEADERS = sys/types.h @end example @cindex nobase_ and dist_ or nodist_ @cindex dist_ and nobase_ @cindex nodist_ and nobase_ @samp{nobase_} should be specified first when used in conjonction with either @samp{dist_} or @samp{nodist_} (@pxref{Dist}). For instance: @example nobase_dist_pkgdata_DATA = images/vortex.pgm @end example @node Rebuilding, Programs, Alternative, Top @chapter Rebuilding Makefiles Automake generates rules to automatically rebuild @file{Makefile}s, @file{configure}, and other derived files like @file{Makefile.in}. If you are using @code{AM_MAINTAINER_MODE} in @file{configure.in}, then these automatic rebuilding rules are only enabled in maintainer mode. Sometimes you need to run @code{aclocal} with an argument like @code{-I} to tell it where to find @file{.m4} files. Since sometimes @code{make} will automatically run @code{aclocal}, you need a way to specify these arguments. You can do this by defining @code{ACLOCAL_AMFLAGS}; this holds arguments which are passed verbatim to @code{aclocal}. This variable is only useful in the top-level @file{Makefile.am}. @vindex ACLOCAL_AMFLAGS @node Programs, Other objects, Rebuilding, Top @chapter Building Programs and Libraries A large part of Automake's functionality is dedicated to making it easy to build programs and libraries. @menu * A Program:: Building a program * A Library:: Building a library * A Shared Library:: Building a Libtool library * Program and Library Variables:: Variables controlling program and library builds * LIBOBJS:: Special handling for LIBOBJS and ALLOCA * Program variables:: Variables used when building a program * Yacc and Lex:: Yacc and Lex support * C++ Support:: * Assembly Support:: * Fortran 77 Support:: * Java Support:: * Support for Other Languages:: * ANSI:: Automatic de-ANSI-fication * Dependencies:: Automatic dependency tracking * EXEEXT:: Support for executable extensions @end menu @node A Program, A Library, Programs, Programs @section Building a program In order to build a program, you need to tell Automake which sources are part of it, and which libraries it should be linked with. This section also covers conditional compilation of sources or programs. Most of the comments about these also apply to libraries (@pxref{A Library}) and Libtool libraries (@pxref{A Shared Library}). @menu * Program Sources:: Defining program sources * Linking:: Linking with libraries or extra objects * Conditional Sources:: Handling conditional sources * Conditional Programs:: Building program conditionally @end menu @node Program Sources, Linking, A Program, A Program @subsection Defining program sources @cindex PROGRAMS, bindir @vindex bin_PROGRAMS @vindex sbin_PROGRAMS @vindex libexec_PROGRAMS @vindex pkglib_PROGRAMS @vindex noinst_PROGRAMS @vindex check_PROGRAMS In a directory containing source that gets built into a program (as opposed to a library or a script), the @samp{PROGRAMS} primary is used. Programs can be installed in @code{bindir}, @code{sbindir}, @code{libexecdir}, @code{pkglibdir}, or not at all (@samp{noinst}). They can also be built only for @code{make check}, in which case the prefix is @samp{check}. For instance: @example bin_PROGRAMS = hello @end example In this simple case, the resulting @file{Makefile.in} will contain code to generate a program named @code{hello}. Associated with each program are several assisting variables which are named after the program. These variables are all optional, and have reasonable defaults. Each variable, its use, and default is spelled out below; we use the ``hello'' example throughout. The variable @code{hello_SOURCES} is used to specify which source files get built into an executable: @example hello_SOURCES = hello.c version.c getopt.c getopt1.c getopt.h system.h @end example This causes each mentioned @samp{.c} file to be compiled into the corresponding @samp{.o}. Then all are linked to produce @file{hello}. @cindex _SOURCES primary, defined @cindex SOURCES primary, defined @cindex Primary variable, SOURCES If @samp{hello_SOURCES} is not specified, then it defaults to the single file @file{hello.c}; that is, the default is to compile a single C file whose base name is the name of the program itself. (This is a terrible default but we are stuck with it for historical reasons.) @vindex _SOURCES @vindex SOURCES Multiple programs can be built in a single directory. Multiple programs can share a single source file, which must be listed in each @samp{_SOURCES} definition. @cindex Header files in _SOURCES @cindex _SOURCES and header files Header files listed in a @samp{_SOURCES} definition will be included in the distribution but otherwise ignored. In case it isn't obvious, you should not include the header file generated by @file{configure} in a @samp{_SOURCES} variable; this file should not be distributed. Lex (@samp{.l}) and Yacc (@samp{.y}) files can also be listed; see @ref{Yacc and Lex}. @node Linking, Conditional Sources, Program Sources, A Program @subsection Linking the program If you need to link against libraries that are not found by @code{configure}, you can use @code{LDADD} to do so. This variable is used to specify additional objects or libraries to link with; it is inappropriate for specifying specific linker flags, you should use @code{AM_LDFLAGS} for this purpose. @vindex LDADD @vindex AM_LDFLAGS @cindex prog_LDADD, defined Sometimes, multiple programs are built in one directory but do not share the same link-time requirements. In this case, you can use the @samp{@var{prog}_LDADD} variable (where @var{prog} is the name of the program as it appears in some @samp{_PROGRAMS} variable, and usually written in lowercase) to override the global @code{LDADD}. If this variable exists for a given program, then that program is not linked using @code{LDADD}. @vindex _LDADD For instance, in GNU cpio, @code{pax}, @code{cpio} and @code{mt} are linked against the library @file{libcpio.a}. However, @code{rmt} is built in the same directory, and has no such link requirement. Also, @code{mt} and @code{rmt} are only built on certain architectures. Here is what cpio's @file{src/Makefile.am} looks like (abridged): @example bin_PROGRAMS = cpio pax @@MT@@ libexec_PROGRAMS = @@RMT@@ EXTRA_PROGRAMS = mt rmt LDADD = ../lib/libcpio.a @@INTLLIBS@@ rmt_LDADD = cpio_SOURCES = @dots{} pax_SOURCES = @dots{} mt_SOURCES = @dots{} rmt_SOURCES = @dots{} @end example @cindex _LDFLAGS, defined @samp{@var{prog}_LDADD} is inappropriate for passing program-specific linker flags (except for @samp{-l}, @samp{-L}, @samp{-dlopen} and @samp{-dlpreopen}). So, use the @samp{@var{prog}_LDFLAGS} variable for this purpose. @vindex _LDFLAGS @cindex _DEPENDENCIES, defined It is also occasionally useful to have a program depend on some other target which is not actually part of that program. This can be done using the @samp{@var{prog}_DEPENDENCIES} variable. Each program depends on the contents of such a variable, but no further interpretation is done. If @samp{@var{prog}_DEPENDENCIES} is not supplied, it is computed by Automake. The automatically-assigned value is the contents of @samp{@var{prog}_LDADD}, with most configure substitutions, @samp{-l}, @samp{-L}, @samp{-dlopen} and @samp{-dlpreopen} options removed. The configure substitutions that are left in are only @samp{@@LIBOBJS@@} and @samp{@@ALLOCA@@}; these are left because it is known that they will not cause an invalid value for @samp{@var{prog}_DEPENDENCIES} to be generated. @node Conditional Sources, Conditional Programs, Linking, A Program @subsection Conditional compilation of sources You can't put a configure substitution (e.g., @samp{@@FOO@@}) into a @samp{_SOURCES} variable. The reason for this is a bit hard to explain, but suffice to say that it simply won't work. Automake will give an error if you try to do this. Fortunatly there are two other ways to achieve the same result. One is to use configure substitutions in @code{_LDADD} variables, the other is to use an Automake conditional. @subsubsection Conditional compilation using @code{_LDADD} substitutions @cindex EXTRA_prog_SOURCES, defined Automake must know all the source files that could possibly go into a program, even if not all the files are built in every circumstance. Any files which are only conditionally built should be listed in the appropriate @samp{EXTRA_} variable. For instance, if @file{hello-linux.c} or @file{hello-generic.c} were conditionally included in @code{hello}, the @file{Makefile.am} would contain: @example bin_PROGRAMS = hello hello_SOURCES = hello-common.c EXTRA_hello_SOURCES = hello-linux.c hello-generic.c hello_LDADD = @@HELLO_SYSTEM@@ hello_DEPENDENCIES = @@HELLO_SYSTEM@@ @end example @noindent You can then setup the @code{@@HELLO_SYSTEM@@} substitution from @file{configure.in}: @example @dots{} case $host in *linux*) HELLO_SYSTEM='hello-linux.$(OBJEXT)' ;; *) HELLO_SYSTEM='hello-generic.$(OBJEXT)' ;; esac AC_SUBST([HELLO_SYSTEM]) @dots{} @end example In this case, @code{HELLO_SYSTEM} should be replaced by @file{hello-linux.o} or @file{hello-bsd.o}, and added to @code{hello_DEPENDENCIES} and @code{hello_LDADD} in order to be built and linked in. @subsubsection Conditional compilation using Automake conditionals An often simpler way to compile source files conditionally is to use Automake conditionals. For instance, you could use this @file{Makefile.am} construct to build the same @file{hello} example: @example bin_PROGRAMS = hello if LINUX hello_SOURCES = hello-linux.c hello-common.c else hello_SOURCES = hello-generic.c hello-common.c endif @end example In this case, your @file{configure.in} should setup the @code{LINUX} conditional using @code{AM_CONDITIONAL} (@pxref{Conditionals}). When using conditionals like this you don't need to use the @samp{EXTRA_} variable, because Automake will examine the contents of each variable to construct the complete list of source files. If your program uses a lot of files, you will probably prefer a conditional @code{+=}. @example bin_PROGRAMS = hello hello_SOURCES = hello-common.c if LINUX hello_cond += hello-linux.c else hello_cond += hello-generic.c endif @end example @node Conditional Programs, , Conditional Sources, A Program @subsection Conditional compilation of programs Sometimes it is useful to determine the programs that are to be built at configure time. For instance, GNU @code{cpio} only builds @code{mt} and @code{rmt} under special circumstances. @cindex EXTRA_PROGRAMS, defined In this case, you must notify Automake of all the programs that can possibly be built, but at the same time cause the generated @file{Makefile.in} to use the programs specified by @code{configure}. This is done by having @code{configure} substitute values into each @samp{_PROGRAMS} definition, while listing all optionally built programs in @code{EXTRA_PROGRAMS}. @vindex EXTRA_PROGRAMS Of course you can use Automake conditionals to determine the programs to be built. @node A Library, A Shared Library, A Program, Programs @section Building a library @cindex _LIBRARIES primary, defined @cindex LIBRARIES primary, defined @cindex Primary variable, LIBRARIES @vindex lib_LIBRARIES @vindex pkglib_LIBRARIES @vindex noinst_LIBRARIES Building a library is much like building a program. In this case, the name of the primary is @samp{LIBRARIES}. Libraries can be installed in @code{libdir} or @code{pkglibdir}. @xref{A Shared Library}, for information on how to build shared libraries using Libtool and the @samp{LTLIBRARIES} primary. Each @samp{_LIBRARIES} variable is a list of the libraries to be built. For instance to create a library named @file{libcpio.a}, but not install it, you would write: @example noinst_LIBRARIES = libcpio.a @end example The sources that go into a library are determined exactly as they are for programs, via the @samp{_SOURCES} variables. Note that the library name is canonicalized (@pxref{Canonicalization}), so the @samp{_SOURCES} variable corresponding to @file{liblob.a} is @samp{liblob_a_SOURCES}, not @samp{liblob.a_SOURCES}. @cindex _LIBADD primary, defined @cindex LIBADD primary, defined @cindex Primary variable, LIBADD Extra objects can be added to a library using the @samp{@var{library}_LIBADD} variable. This should be used for objects determined by @code{configure}. Again from @code{cpio}: @vindex _LIBADD @vindex LIBADD @example libcpio_a_LIBADD = @@LIBOBJS@@ @@ALLOCA@@ @end example In addition, sources for extra objects that will not exist until configure-time must be added to the @code{BUILT_SOURCES} variable (@pxref{Sources}). @node A Shared Library, Program and Library Variables, A Library, Programs @section Building a Shared Library @cindex Shared libraries, support for Building shared libraries is a relatively complex matter. For this reason, GNU Libtool (@pxref{Top, , Introduction, libtool, The Libtool Manual}) was created to help build shared libraries in a platform-independent way. @cindex _LTLIBRARIES primary, defined @cindex LTLIBRARIES primary, defined @cindex Primary variable, LTLIBRARIES @cindex Example of shared libraries @cindex suffix .la, defined Automake uses Libtool to build libraries declared with the @samp{LTLIBRARIES} primary. Each @samp{_LTLIBRARIES} variable is a list of shared libraries to build. For instance, to create a library named @file{libgettext.a} and its corresponding shared libraries, and install them in @samp{libdir}, write: @example lib_LTLIBRARIES = libgettext.la @end example @vindex lib_LTLIBRARIES @vindex pkglib_LTLIBRARIES @vindex noinst_LTLIBRARIES @vindex check_LTLIBRARIES @cindex check_LTLIBRARIES, not allowed Note that shared libraries @emph{must} be installed in order to work properly, so @code{check_LTLIBRARIES} is not allowed. However, @code{noinst_LTLIBRARIES} is allowed. This feature should be used for libtool ``convenience libraries''. @cindex suffix .lo, defined For each library, the @samp{@var{library}_LIBADD} variable contains the names of extra libtool objects (@file{.lo} files) to add to the shared library. The @samp{@var{library}_LDFLAGS} variable contains any additional libtool flags, such as @samp{-version-info} or @samp{-static}. @cindex @@LTLIBOBJS@@, special handling Where an ordinary library might include @code{@@LIBOBJS@@}, a libtool library must use @code{@@LTLIBOBJS@@}. This is required because the object files that libtool operates on do not necessarily end in @file{.o}. The libtool manual contains more details on this topic. For libraries installed in some directory, Automake will automatically supply the appropriate @samp{-rpath} option. However, for libraries determined at configure time (and thus mentioned in @code{EXTRA_LTLIBRARIES}), Automake does not know the eventual installation directory; for such libraries you must add the @samp{-rpath} option to the appropriate @samp{_LDFLAGS} variable by hand. Ordinarily, Automake requires that a shared library's name start with @samp{lib}. However, if you are building a dynamically loadable module then you might wish to use a "nonstandard" name. In this case, put @code{-module} into the @samp{_LDFLAGS} variable. @xref{Using Automake, Using Automake with Libtool, The Libtool Manual, libtool, The Libtool Manual}, for more information. @node Program and Library Variables, LIBOBJS, A Shared Library, Programs @section Program and Library Variables Associated with each program are a collection of variables which can be used to modify how that program is built. There is a similar list of such variables for each library. The canonical name of the program (or library) is used as a base for naming these variables. In the list below, we use the name ``maude'' to refer to the program or library. In your @file{Makefile.am} you would replace this with the canonical name of your program. This list also refers to ``maude'' as a program, but in general the same rules apply for both static and dynamic libraries; the documentation below notes situations where programs and libraries differ. @table @samp @item maude_SOURCES This variable, if it exists, lists all the source files which are compiled to build the program. These files are added to the distribution by default. When building the program, Automake will cause each source file to be compiled to a single @file{.o} file (or @file{.lo} when using libtool). Normally these object files are named after the source file, but other factors can change this. If a file in the @samp{_SOURCES} variable has an unrecognized extension, Automake will do one of two things with it. If a suffix rule exists for turning files with the unrecognized extension into @file{.o} files, then automake will treat this file as it will any other source file (@pxref{Support for Other Languages}). Otherwise, the file will be ignored as though it were a header file. The prefixes @samp{dist_} and @samp{nodist_} can be used to control whether files listed in a @samp{_SOURCES} variable are distributed. @samp{dist_} is redundant, as sources are distributed by default, but it can be specified for clarity if desired. It is possible to have both @samp{dist_} and @samp{nodist_} variants of a given @samp{_SOURCES} variable at once; this lets you easily distribute some files and not others, for instance: @example nodist_maude_SOURCES = nodist.c dist_maude_SOURCES = dist-me.c @end example By default the output file (on Unix systems, the @file{.o} file) will be put into the current build directory. However, if the option @code{subdir-objects} is in effect in the current directory then the @file{.o} file will be put into the subdirectory named after the source file. For instance, with @code{subdir-objects} enabled, @file{sub/dir/file.c} will be compiled to @file{sub/dir/file.o}. Some people prefer this mode of operation. You can specify @code{subdir-objects} in @code{AUTOMAKE_OPTIONS} (@pxref{Options}). @cindex Subdirectory, objects in @cindex Objects in subdirectory @item EXTRA_maude_SOURCES Automake needs to know the list of files you intend to compile @emph{statically}. For one thing, this is the only way Automake has of knowing what sort of language support a given @file{Makefile.in} requires. @footnote{There are other, more obscure reasons reasons for this limitation as well.} This means that, for example, you can't put a configure substitution like @samp{@@my_sources@@} into a @samp{_SOURCES} variable. If you intend to conditionally compile source files and use @file{configure} to substitute the appropriate object names into, e.g., @samp{_LDADD} (see below), then you should list the corresponding source files in the @samp{EXTRA_} variable. This variable also supports @samp{dist_} and @samp{nodist_} prefixes, e.g., @samp{nodist_EXTRA_maude_SOURCES}. @item maude_AR A static library is created by default by invoking @code{$(AR) cru} followed by the name of the library and then the objects being put into the library. You can override this by setting the @samp{_AR} variable. This is usually used with C++; some C++ compilers require a special invocation in order to instantiate all the templates which should go into a library. For instance, the SGI C++ compiler likes this variable set like so: @example libmaude_a_AR = $(CXX) -ar -o @end example @item maude_LIBADD Extra objects can be added to a static library using the @samp{_LIBADD} variable. This should be used for objects determined by @code{configure}. Note that @samp{_LIBADD} is not used for shared libraries; there you must use @samp{_LDADD}. @item maude_LDADD Extra objects can be added to a shared library or a program by listing them in the @samp{_LDADD} variable. This should be used for objects determined by @code{configure}. @samp{_LDADD} and @samp{_LIBADD} are inappropriate for passing program-specific linker flags (except for @samp{-l}, @samp{-L}, @samp{-dlopen} and @samp{-dlpreopen}). Use the @samp{_LDFLAGS} variable for this purpose. For instance, if your @file{configure.in} uses @code{AC_PATH_XTRA}, you could link your program against the X libraries like so: @example maude_LDADD = $(X_PRE_LIBS) $(X_LIBS) $(X_EXTRA_LIBS) @end example @item maude_LDFLAGS This variable is used to pass extra flags to the link step of a program or a shared library. @item maude_LINK You can override the linker on a per-program basis. By default the linker is chosen according to the languages used by the program. For instance, a program that includes C++ source code would use the C++ compiler to link. The @samp{_LINK} variable must hold the name of a command which can be passed all the @file{.o} file names as arguments. Note that the name of the underlying program is @emph{not} passed to @samp{_LINK}; typically one uses @samp{$@@}: @example maude_LINK = $(CCLD) -magic -o $@@ @end example @item maude_CCASFLAGS @itemx maude_CFLAGS @itemx maude_CPPFLAGS @itemx maude_CXXFLAGS @itemx maude_FFLAGS @itemx maude_GCJFLAGS @itemx maude_LFLAGS @itemx maude_OBJCFLAGS @itemx maude_RFLAGS @itemx maude_YFLAGS Automake allows you to set compilation flags on a per-program (or per-library) basis. A single source file can be included in several programs, and it will potentially be compiled with different flags for each program. This works for any language directly supported by Automake. The flags are @samp{_CCASFLAGS}, @samp{_CFLAGS}, @samp{_CPPFLAGS}, @samp{_CXXFLAGS}, @samp{_FFLAGS}, @samp{_GCJFLAGS}, @samp{_LFLAGS}, @samp{_OBJCFLAGS}, @samp{_RFLAGS}, and @samp{_YFLAGS}. When using a per-program compilation flag, Automake will choose a different name for the intermediate object files. Ordinarily a file like @file{sample.c} will be compiled to produce @file{sample.o}. However, if the program's @samp{_CFLAGS} variable is set, then the object file will be named, for instance, @file{maude-sample.o}. In compilations with per-program flags, the ordinary @samp{AM_} form of the flags variable is @emph{not} automatically included in the compilation (however, the user form of the variable @emph{is} included). So for instance, if you want the hypothetical @file{maude} compilations to also use the value of @samp{AM_CFLAGS}, you would need to write: @example maude_CFLAGS = @dots{} your flags @dots{} $(AM_CFLAGS) @end example @item maude_DEPENDENCIES It is also occasionally useful to have a program depend on some other target which is not actually part of that program. This can be done using the @samp{_DEPENDENCIES} variable. Each program depends on the contents of such a variable, but no further interpretation is done. If @samp{_DEPENDENCIES} is not supplied, it is computed by Automake. The automatically-assigned value is the contents of @samp{_LDADD} or @samp{_LIBADD}, with most configure substitutions, @samp{-l}, @samp{-L}, @samp{-dlopen} and @samp{-dlpreopen} options removed. The configure substitutions that are left in are only @samp{@@LIBOBJS@@} and @samp{@@ALLOCA@@}; these are left because it is known that they will not cause an invalid value for @samp{_DEPENDENCIES} to be generated. @item maude_SHORTNAME On some platforms the allowable file names are very short. In order to support these systems and per-program compilation flags at the same time, Automake allows you to set a ``short name'' which will influence how intermediate object files are named. For instance, if you set @samp{maude_SHORTNAME} to @samp{m}, then in the above per-program compilation flag example the object file would be named @file{m-sample.o} rather than @file{maude-sample.o}. This facility is rarely needed in practice, and we recommend avoiding it until you find it is required. @end table @node LIBOBJS, Program variables, Program and Library Variables, Programs @section Special handling for LIBOBJS and ALLOCA @cindex @@LIBOBJS@@, special handling @cindex @@ALLOCA@@, special handling Automake explicitly recognizes the use of @code{@@LIBOBJS@@} and @code{@@ALLOCA@@}, and uses this information, plus the list of @code{LIBOBJS} files derived from @file{configure.in} to automatically include the appropriate source files in the distribution (@pxref{Dist}). These source files are also automatically handled in the dependency-tracking scheme; see @xref{Dependencies}. @code{@@LIBOBJS@@} and @code{@@ALLOCA@@} are specially recognized in any @samp{_LDADD} or @samp{_LIBADD} variable. @node Program variables, Yacc and Lex, LIBOBJS, Programs @section Variables used when building a program Occasionally it is useful to know which @file{Makefile} variables Automake uses for compilations; for instance you might need to do your own compilation in some special cases. Some variables are inherited from Autoconf; these are @code{CC}, @code{CFLAGS}, @code{CPPFLAGS}, @code{DEFS}, @code{LDFLAGS}, and @code{LIBS}. @vindex CC @vindex CFLAGS @vindex CPPFLAGS @vindex DEFS @vindex LDFLAGS @vindex LIBS There are some additional variables which Automake itself defines: @vtable @code @item AM_CPPFLAGS The contents of this variable are passed to every compilation which invokes the C preprocessor; it is a list of arguments to the preprocessor. For instance, @samp{-I} and @samp{-D} options should be listed here. Automake already provides some @samp{-I} options automatically. In particular it generates @samp{-I$(srcdir)}, @samp{-I.}, and a @samp{-I} pointing to the directory holding @file{config.h} (if you've used @code{AC_CONFIG_HEADERS} or @code{AM_CONFIG_HEADER}). You can disable the default @samp{-I} options using the @samp{nostdinc} option. @code{AM_CPPFLAGS} is ignored in preference to a per-executable (or per-library) @code{_CPPFLAGS} variable if it is defined. @item INCLUDES This does the same job as @samp{AM_CPPFLAGS}. It is an older name for the same functionality. This variable is deprecated; we suggest using @samp{AM_CPPFLAGS} instead. @item AM_CFLAGS This is the variable which the @file{Makefile.am} author can use to pass in additional C compiler flags. It is more fully documented elsewhere. In some situations, this is not used, in preference to the per-executable (or per-library) @code{_CFLAGS}. @item COMPILE This is the command used to actually compile a C source file. The filename is appended to form the complete command line. @item AM_LDFLAGS This is the variable which the @file{Makefile.am} author can use to pass in additional linker flags. In some situations, this is not used, in preference to the per-executable (or per-library) @code{_LDFLAGS}. @item LINK This is the command used to actually link a C program. It already includes @samp{-o $@@} and the usual variable references (for instance, @code{CFLAGS}); it takes as ``arguments'' the names of the object files and libraries to link in. @end vtable @node Yacc and Lex, C++ Support, Program variables, Programs @section Yacc and Lex support Automake has somewhat idiosyncratic support for Yacc and Lex. Automake assumes that the @file{.c} file generated by @code{yacc} (or @code{lex}) should be named using the basename of the input file. That is, for a yacc source file @file{foo.y}, Automake will cause the intermediate file to be named @file{foo.c} (as opposed to @file{y.tab.c}, which is more traditional). The extension of a yacc source file is used to determine the extension of the resulting @samp{C} or @samp{C++} file. Files with the extension @samp{.y} will be turned into @samp{.c} files; likewise, @samp{.yy} will become @samp{.cc}; @samp{.y++}, @samp{c++}; and @samp{.yxx}, @samp{.cxx}. Likewise, lex source files can be used to generate @samp{C} or @samp{C++}; the extensions @samp{.l}, @samp{.ll}, @samp{.l++}, and @samp{.lxx} are recognized. You should never explicitly mention the intermediate (@samp{C} or @samp{C++}) file in any @samp{SOURCES} variable; only list the source file. The intermediate files generated by @code{yacc} (or @code{lex}) will be included in any distribution that is made. That way the user doesn't need to have @code{yacc} or @code{lex}. If a @code{yacc} source file is seen, then your @file{configure.in} must define the variable @samp{YACC}. This is most easily done by invoking the macro @samp{AC_PROG_YACC} (@pxref{Particular Programs, , Particular Program Checks, autoconf, The Autoconf Manual}). When @code{yacc} is invoked, it is passed @samp{YFLAGS} and @samp{AM_YFLAGS}. The former is a user variable and the latter is intended for the @file{Makefile.am} author. Similarly, if a @code{lex} source file is seen, then your @file{configure.in} must define the variable @samp{LEX}. You can use @samp{AC_PROG_LEX} to do this (@pxref{Particular Programs, , Particular Program Checks, autoconf, The Autoconf Manual}), but using @code{AM_PROG_LEX} macro (@pxref{Macros}) is recommended. When @code{lex} is invoked, it is passed @samp{LFLAGS} and @samp{AM_LFLAGS}. The former is a user variable and the latter is intended for the @file{Makefile.am} author. @cindex ylwrap @cindex yacc, multiple parsers @cindex Multiple yacc parsers @cindex Multiple lex lexers @cindex lex, multiple lexers Automake makes it possible to include multiple @code{yacc} (or @code{lex}) source files in a single program. Automake uses a small program called @code{ylwrap} to run @code{yacc} (or @code{lex}) in a subdirectory. This is necessary because yacc's output filename is fixed, and a parallel make could conceivably invoke more than one instance of @code{yacc} simultaneously. The @code{ylwrap} program is distributed with Automake. It should appear in the directory specified by @samp{AC_CONFIG_AUX_DIR} (@pxref{Input, , Finding `configure' Input, autoconf, The Autoconf Manual}), or the current directory if that macro is not used in @file{configure.in}. For @code{yacc}, simply managing locking is insufficient. The output of @code{yacc} always uses the same symbol names internally, so it isn't possible to link two @code{yacc} parsers into the same executable. We recommend using the following renaming hack used in @code{gdb}: @example #define yymaxdepth c_maxdepth #define yyparse c_parse #define yylex c_lex #define yyerror c_error #define yylval c_lval #define yychar c_char #define yydebug c_debug #define yypact c_pact #define yyr1 c_r1 #define yyr2 c_r2 #define yydef c_def #define yychk c_chk #define yypgo c_pgo #define yyact c_act #define yyexca c_exca #define yyerrflag c_errflag #define yynerrs c_nerrs #define yyps c_ps #define yypv c_pv #define yys c_s #define yy_yys c_yys #define yystate c_state #define yytmp c_tmp #define yyv c_v #define yy_yyv c_yyv #define yyval c_val #define yylloc c_lloc #define yyreds c_reds #define yytoks c_toks #define yylhs c_yylhs #define yylen c_yylen #define yydefred c_yydefred #define yydgoto c_yydgoto #define yysindex c_yysindex #define yyrindex c_yyrindex #define yygindex c_yygindex #define yytable c_yytable #define yycheck c_yycheck #define yyname c_yyname #define yyrule c_yyrule @end example For each define, replace the @samp{c_} prefix with whatever you like. These defines work for @code{bison}, @code{byacc}, and traditional @code{yacc}s. If you find a parser generator that uses a symbol not covered here, please report the new name so it can be added to the list. @node C++ Support, Assembly Support, Yacc and Lex, Programs @section C++ Support @cindex C++ support @cindex Support for C++ Automake includes full support for C++. Any package including C++ code must define the output variable @samp{CXX} in @file{configure.in}; the simplest way to do this is to use the @code{AC_PROG_CXX} macro (@pxref{Particular Programs, , Particular Program Checks, autoconf, The Autoconf Manual}). A few additional variables are defined when a C++ source file is seen: @vtable @code @item CXX The name of the C++ compiler. @item CXXFLAGS Any flags to pass to the C++ compiler. @item AM_CXXFLAGS The maintainer's variant of @code{CXXFLAGS}. @item CXXCOMPILE The command used to actually compile a C++ source file. The file name is appended to form the complete command line. @item CXXLINK The command used to actually link a C++ program. @end vtable @node Assembly Support, Fortran 77 Support, C++ Support, Programs @section Assembly Support Automake includes some support for assembly code. The variable @code{CCAS} holds the name of the compiler used to build assembly code. This compiler must work a bit like a C compiler; in particular it must accept @samp{-c} and @samp{-o}. The value of @code{CCASFLAGS} is passed to the compilation. @vindex CCAS @vindex CCASFLAGS You are required to set @code{CCAS} and @code{CCASFLAGS} via @file{configure.in}. The autoconf macro @code{AM_PROG_AS} will do this for you. Unless they are already set, it simply sets @code{CCAS} to the C compiler and @code{CCASFLAGS} to the C compiler flags. Only the suffixes @samp{.s} and @samp{.S} are recognized by @code{automake} as being files containing assembly code. @node Fortran 77 Support, Java Support, Assembly Support, Programs @comment node-name, next, previous, up @section Fortran 77 Support @cindex Fortran 77 support @cindex Support for Fortran 77 Automake includes full support for Fortran 77. Any package including Fortran 77 code must define the output variable @samp{F77} in @file{configure.in}; the simplest way to do this is to use the @code{AC_PROG_F77} macro (@pxref{Particular Programs, , Particular Program Checks, autoconf, The Autoconf Manual}). @xref{Fortran 77 and Autoconf}. A few additional variables are defined when a Fortran 77 source file is seen: @vtable @code @item F77 The name of the Fortran 77 compiler. @item FFLAGS Any flags to pass to the Fortran 77 compiler. @item AM_FFLAGS The maintainer's variant of @code{FFLAGS}. @item RFLAGS Any flags to pass to the Ratfor compiler. @item AM_RFLAGS The maintainer's variant of @code{RFLAGS}. @item F77COMPILE The command used to actually compile a Fortran 77 source file. The file name is appended to form the complete command line. @item FLINK The command used to actually link a pure Fortran 77 program or shared library. @end vtable Automake can handle preprocessing Fortran 77 and Ratfor source files in addition to compiling them@footnote{Much, if not most, of the information in the following sections pertaining to preprocessing Fortran 77 programs was taken almost verbatim from @ref{Catalogue of Rules, , Catalogue of Rules, make, The GNU Make Manual}.}. Automake also contains some support for creating programs and shared libraries that are a mixture of Fortran 77 and other languages (@pxref{Mixing Fortran 77 With C and C++}). These issues are covered in the following sections. @menu * Preprocessing Fortran 77:: * Compiling Fortran 77 Files:: * Mixing Fortran 77 With C and C++:: * Fortran 77 and Autoconf:: @end menu @node Preprocessing Fortran 77, Compiling Fortran 77 Files, Fortran 77 Support, Fortran 77 Support @comment node-name, next, previous, up @subsection Preprocessing Fortran 77 @cindex Preprocessing Fortran 77 @cindex Fortran 77, Preprocessing @cindex Ratfor programs @file{N.f} is made automatically from @file{N.F} or @file{N.r}. This rule runs just the preprocessor to convert a preprocessable Fortran 77 or Ratfor source file into a strict Fortran 77 source file. The precise command used is as follows: @table @file @item .F @code{$(F77) -F $(DEFS) $(INCLUDES) $(AM_CPPFLAGS) $(CPPFLAGS) $(AM_FFLAGS) $(FFLAGS)} @item .r @code{$(F77) -F $(AM_FFLAGS) $(FFLAGS) $(AM_RFLAGS) $(RFLAGS)} @end table @node Compiling Fortran 77 Files, Mixing Fortran 77 With C and C++, Preprocessing Fortran 77, Fortran 77 Support @comment node-name, next, previous, up @subsection Compiling Fortran 77 Files @file{N.o} is made automatically from @file{N.f}, @file{N.F} or @file{N.r} by running the Fortran 77 compiler. The precise command used is as follows: @table @file @item .f @code{$(F77) -c $(AM_FFLAGS) $(FFLAGS)} @item .F @code{$(F77) -c $(DEFS) $(INCLUDES) $(AM_CPPFLAGS) $(CPPFLAGS) $(AM_FFLAGS) $(FFLAGS)} @item .r @code{$(F77) -c $(AM_FFLAGS) $(FFLAGS) $(AM_RFLAGS) $(RFLAGS)} @end table @node Mixing Fortran 77 With C and C++, Fortran 77 and Autoconf, Compiling Fortran 77 Files, Fortran 77 Support @comment node-name, next, previous, up @subsection Mixing Fortran 77 With C and C++ @cindex Fortran 77, mixing with C and C++ @cindex Mixing Fortran 77 with C and C++ @cindex Linking Fortran 77 with C and C++ @cindex cfortran @cindex Mixing Fortran 77 with C and/or C++ Automake currently provides @emph{limited} support for creating programs and shared libraries that are a mixture of Fortran 77 and C and/or C++. However, there are many other issues related to mixing Fortran 77 with other languages that are @emph{not} (currently) handled by Automake, but that are handled by other packages@footnote{For example, @uref{http://www-zeus.desy.de/~burow/cfortran/, the cfortran package} addresses all of these inter-language issues, and runs under nearly all Fortran 77, C and C++ compilers on nearly all platforms. However, @code{cfortran} is not yet Free Software, but it will be in the next major release.}. @page Automake can help in two ways: @enumerate @item Automatic selection of the linker depending on which combinations of source code. @item Automatic selection of the appropriate linker flags (e.g. @samp{-L} and @samp{-l}) to pass to the automatically selected linker in order to link in the appropriate Fortran 77 intrinsic and run-time libraries. @cindex FLIBS, defined These extra Fortran 77 linker flags are supplied in the output variable @code{FLIBS} by the @code{AC_F77_LIBRARY_LDFLAGS} Autoconf macro supplied with newer versions of Autoconf (Autoconf version 2.13 and later). @xref{Fortran 77 Compiler Characteristics, , , autoconf, The Autoconf}. @end enumerate If Automake detects that a program or shared library (as mentioned in some @code{_PROGRAMS} or @code{_LTLIBRARIES} primary) contains source code that is a mixture of Fortran 77 and C and/or C++, then it requires that the macro @code{AC_F77_LIBRARY_LDFLAGS} be called in @file{configure.in}, and that either @code{$(FLIBS)} or @code{@@FLIBS@@} appear in the appropriate @code{_LDADD} (for programs) or @code{_LIBADD} (for shared libraries) variables. It is the responsibility of the person writing the @file{Makefile.am} to make sure that @code{$(FLIBS)} or @code{@@FLIBS@@} appears in the appropriate @code{_LDADD} or @code{_LIBADD} variable. @cindex Mixed language example @cindex Example, mixed language For example, consider the following @file{Makefile.am}: @example bin_PROGRAMS = foo foo_SOURCES = main.cc foo.f foo_LDADD = libfoo.la @@FLIBS@@ pkglib_LTLIBRARIES = libfoo.la libfoo_la_SOURCES = bar.f baz.c zardoz.cc libfoo_la_LIBADD = $(FLIBS) @end example In this case, Automake will insist that @code{AC_F77_LIBRARY_LDFLAGS} is mentioned in @file{configure.in}. Also, if @code{@@FLIBS@@} hadn't been mentioned in @code{foo_LDADD} and @code{libfoo_la_LIBADD}, then Automake would have issued a warning. @page @menu * How the Linker is Chosen:: @end menu @node How the Linker is Chosen, , Mixing Fortran 77 With C and C++, Mixing Fortran 77 With C and C++ @comment node-name, next, previous, up @subsubsection How the Linker is Chosen @cindex Automatic linker selection @cindex Selecting the linker automatically The following diagram demonstrates under what conditions a particular linker is chosen by Automake. For example, if Fortran 77, C and C++ source code were to be compiled into a program, then the C++ linker will be used. In this case, if the C or Fortran 77 linkers required any special libraries that weren't included by the C++ linker, then they must be manually added to an @code{_LDADD} or @code{_LIBADD} variable by the user writing the @file{Makefile.am}. @example \ Linker source \ code \ C C++ Fortran ----------------- +---------+---------+---------+ | | | | C | x | | | | | | | +---------+---------+---------+ | | | | C++ | | x | | | | | | +---------+---------+---------+ | | | | Fortran | | | x | | | | | +---------+---------+---------+ | | | | C + C++ | | x | | | | | | +---------+---------+---------+ | | | | C + Fortran | | | x | | | | | +---------+---------+---------+ | | | | C++ + Fortran | | x | | | | | | +---------+---------+---------+ | | | | C + C++ + Fortran | | x | | | | | | +---------+---------+---------+ @end example @node Fortran 77 and Autoconf, , Mixing Fortran 77 With C and C++, Fortran 77 Support @comment node-name, next, previous, up @subsection Fortran 77 and Autoconf The current Automake support for Fortran 77 requires a recent enough version of Autoconf that also includes support for Fortran 77. Full Fortran 77 support was added to Autoconf 2.13, so you will want to use that version of Autoconf or later. @node Java Support, Support for Other Languages, Fortran 77 Support, Programs @comment node-name, next, previous, up @section Java Support @cindex Java support @cindex Support for Java Automake includes support for compiled Java, using @code{gcj}, the Java front end to the GNU Compiler Collection. Any package including Java code to be compiled must define the output variable @samp{GCJ} in @file{configure.in}; the variable @samp{GCJFLAGS} must also be defined somehow (either in @file{configure.in} or @file{Makefile.am}). The simplest way to do this is to use the @code{AM_PROG_GCJ} macro. @vindex GCJFLAGS By default, programs including Java source files are linked with @code{gcj}. As always, the contents of @samp{AM_GCJFLAGS} are passed to every compilation invoking @code{gcj} (in its role as an ahead-of-time compiler -- when invoking it to create @file{.class} files, @samp{AM_JAVACFLAGS} is used instead). If it is necessary to pass options to @code{gcj} from @file{Makefile.am}, this variable, and not the user variable @samp{GCJFLAGS}, should be used. @vindex AM_GCJFLAGS @code{gcj} can be used to compile @file{.java}, @file{.class}, @file{.zip}, or @file{.jar} files. When linking, @code{gcj} requires that the main class be specified using the @samp{--main=} option. The easiest way to do this is to use the @code{_LDFLAGS} variable for the program. @node Support for Other Languages, ANSI, Java Support, Programs @comment node-name, next, previous, up @section Support for Other Languages Automake currently only includes full support for C, C++ (@pxref{C++ Support}), Fortran 77 (@pxref{Fortran 77 Support}), and Java (@pxref{Java Support}). There is only rudimentary support for other languages, support for which will be improved based on user demand. Some limited support for adding your own languages is available via the suffix rule handling; see @ref{Suffixes}. @node ANSI, Dependencies, Support for Other Languages, Programs @section Automatic de-ANSI-fication @cindex de-ANSI-fication, defined Although the GNU standards allow the use of ANSI C, this can have the effect of limiting portability of a package to some older compilers (notably the SunOS C compiler). Automake allows you to work around this problem on such machines by @dfn{de-ANSI-fying} each source file before the actual compilation takes place. @vindex AUTOMAKE_OPTIONS @opindex ansi2knr If the @file{Makefile.am} variable @code{AUTOMAKE_OPTIONS} (@pxref{Options}) contains the option @code{ansi2knr} then code to handle de-ANSI-fication is inserted into the generated @file{Makefile.in}. This causes each C source file in the directory to be treated as ANSI C. If an ANSI C compiler is available, it is used. If no ANSI C compiler is available, the @code{ansi2knr} program is used to convert the source files into K&R C, which is then compiled. The @code{ansi2knr} program is simple-minded. It assumes the source code will be formatted in a particular way; see the @code{ansi2knr} man page for details. Support for de-ANSI-fication requires the source files @file{ansi2knr.c} and @file{ansi2knr.1} to be in the same package as the ANSI C source; these files are distributed with Automake. Also, the package @file{configure.in} must call the macro @code{AM_C_PROTOTYPES} (@pxref{Macros}). @cvindex AM_C_PROTOTYPES Automake also handles finding the @code{ansi2knr} support files in some other directory in the current package. This is done by prepending the relative path to the appropriate directory to the @code{ansi2knr} option. For instance, suppose the package has ANSI C code in the @file{src} and @file{lib} subdirs. The files @file{ansi2knr.c} and @file{ansi2knr.1} appear in @file{lib}. Then this could appear in @file{src/Makefile.am}: @example AUTOMAKE_OPTIONS = ../lib/ansi2knr @end example If no directory prefix is given, the files are assumed to be in the current directory. Files mentioned in @code{LIBOBJS} which need de-ANSI-fication will not be automatically handled. That's because @code{configure} will generate an object name like @file{regex.o}, while @code{make} will be looking for @file{regex_.o} (when de-ANSI-fying). Eventually this problem will be fixed via @code{autoconf} magic, but for now you must put this code into your @file{configure.in}, just before the @code{AC_OUTPUT} call: @example # This is necessary so that .o files in LIBOBJS are also built via # the ANSI2KNR-filtering rules. LIBOBJS=`echo $LIBOBJS|sed 's/\.o /\$U.o /g;s/\.o$/\$U.o/'` @end example @c FIXME: Ask Akim how this should be handled in the upcoming Autoconf. Note that automatic de-ANSI-fication will not work when the package is being built for a different host architecture. That is because automake currently has no way to build @code{ansi2knr} for the build machine. @node Dependencies, EXEEXT, ANSI, Programs @section Automatic dependency tracking As a developer it is often painful to continually update the @file{Makefile.in} whenever the include-file dependencies change in a project. Automake supplies a way to automatically track dependency changes. @cindex Dependency tracking @cindex Automatic dependency tracking Automake always uses complete dependencies for a compilation, including system headers. Automake's model is that dependency computation should be a side effect of the build. To this end, dependencies are computed by running all compilations through a special wrapper program called @code{depcomp}. @code{depcomp} understands how to coax many different C and C++ compilers into generating dependency information in the format it requires. @code{automake -a} will install @code{depcomp} into your source tree for you. If @code{depcomp} can't figure out how to properly invoke your compiler, dependency tracking will simply be disabled for your build. @cindex depcomp Experience with earlier versions of Automake @footnote{See @uref{http://sources.redhat.com/automake/dependencies.html} for more information on the history and experiences with automatic dependency tracking in Automake} taught us that it is not reliable to generate dependencies only on the maintainer's system, as configurations vary too much. So instead Automake implements dependency tracking at build time. Automatic dependency tracking can be suppressed by putting @code{no-dependencies} in the variable @code{AUTOMAKE_OPTIONS}, or passing @code{no-dependencies} as an argument to @code{AM_INIT_AUTOMAKE} (this should be the prefered way). Or, you can invoke @code{automake} with the @code{-i} option. Dependency tracking is enabled by default. @vindex AUTOMAKE_OPTIONS @opindex no-dependencies The person building your package also can choose to disable dependency tracking by configuring with @code{--disable-dependency-tracking}. @cindex Disabling dependency tracking @cindex Dependency tracking, disabling @node EXEEXT, , Dependencies, Programs @section Support for executable extensions @cindex Executable extension @cindex Extension, executable @cindex Windows On some platforms, such as Windows, executables are expected to have an extension such as @samp{.exe}. On these platforms, some compilers (GCC among them) will automatically generate @file{foo.exe} when asked to generate @file{foo}. Automake provides mostly-transparent support for this. Unfortunately @emph{mostly} doesn't yet mean @emph{fully}. Until the English dictionary is revised, you will have to assist Automake if your package must support those platforms. One thing you must be aware of is that, internally, Automake rewrites something like this: @example bin_PROGRAMS = liver @end example to this: @example bin_PROGRAMS = liver$(EXEEXT) @end example The targets Automake generates are likewise given the @samp{$(EXEEXT)} extension. @code{EXEEXT} However, Automake cannot apply this rewriting to @code{configure} substitutions. This means that if you are conditionally building a program using such a substitution, then your @file{configure.in} must take care to add @samp{$(EXEEXT)} when constructing the output variable. With Autoconf 2.13 and earlier, you must explicitly use @code{AC_EXEEXT} to get this support. With Autoconf 2.50, @code{AC_EXEEXT} is run automatically if you configure a compiler (say, through @code{AC_PROG_CC}). Sometimes maintainers like to write an explicit link rule for their program. Without executable extension support, this is easy---you simply write a target with the same name as the program. However, when executable extension support is enabled, you must instead add the @samp{$(EXEEXT)} suffix. Unfortunately, due to the change in Autoconf 2.50, this means you must always add this extension. However, this is a problem for maintainers who know their package will never run on a platform that has executable extensions. For those maintainers, the @code{no-exeext} option (@pxref{Options}) will disable this feature. This works in a fairly ugly way; if @code{no-exeext} is seen, then the presence of a target named @code{foo} in @file{Makefile.am} will override an automake-generated target of the form @code{foo$(EXEEXT)}. Without the @code{no-exeext} option, this use will give an error. @node Other objects, Other GNU Tools, Programs, Top @chapter Other Derived Objects Automake can handle derived objects which are not C programs. Sometimes the support for actually building such objects must be explicitly supplied, but Automake will still automatically handle installation and distribution. @menu * Scripts:: Executable scripts * Headers:: Header files * Data:: Architecture-independent data files * Sources:: Derived sources @end menu @node Scripts, Headers, Other objects, Other objects @section Executable Scripts @cindex _SCRIPTS primary, defined @cindex SCRIPTS primary, defined @cindex Primary variable, SCRIPTS It is possible to define and install programs which are scripts. Such programs are listed using the @samp{SCRIPTS} primary name. Automake doesn't define any dependencies for scripts; the @file{Makefile.am} should include the appropriate rules. @vindex SCRIPTS Automake does not assume that scripts are derived objects; such objects must be deleted by hand (@pxref{Clean}). The @code{automake} program itself is a Perl script that is generated at configure time from @file{automake.in}. Here is how this is handled: @example bin_SCRIPTS = automake @end example Since @code{automake} appears in the @code{AC_OUTPUT} macro, a target for it is automatically generated, and it is also automatically cleaned (despite the fact it's a script). @cindex SCRIPTS, installation directories @cindex Installing scripts @vindex bin_SCRIPTS @vindex sbin_SCRIPTS @vindex libexec_SCRIPTS @vindex pkgdata_SCRIPTS @vindex noinst_SCRIPTS @vindex check_SCRIPTS Script objects can be installed in @code{bindir}, @code{sbindir}, @code{libexecdir}, or @code{pkgdatadir}. Scripts that need not being installed can be listed in @code{noinst_SCRIPTS}, and among them, those which are needed only by @code{make check} should go in @code{check_SCRIPTS}. @node Headers, Data, Scripts, Other objects @section Header files @cindex _HEADERS primary, defined @cindex HEADERS primary, defined @cindex Primary variable, HEADERS @vindex noinst_HEADERS Header files are specified by the @samp{HEADERS} family of variables. Generally header files are not installed, so the @code{noinst_HEADERS} variable will be the most used. @footnote{However, for the case of a non-installed header file that is actually used by a particular program, we recommend listing it in the program's @samp{_SOURCES} variable instead of in @code{noinst_HEADERS}. We believe this is more clear.} @vindex HEADERS All header files must be listed somewhere; missing ones will not appear in the distribution. Often it is clearest to list uninstalled headers with the rest of the sources for a program. @xref{A Program}. Headers listed in a @samp{_SOURCES} variable need not be listed in any @samp{_HEADERS} variable. @cindex HEADERS, installation directories @cindex Installing headers @vindex include_HEADERS @vindex oldinclude_HEADERS @vindex pkginclude_HEADERS Headers can be installed in @code{includedir}, @code{oldincludedir}, or @code{pkgincludedir}. @node Data, Sources, Headers, Other objects @section Architecture-independent data files @cindex _DATA primary, defined @cindex DATA primary, defined @cindex Primary variable, DATA Automake supports the installation of miscellaneous data files using the @samp{DATA} family of variables. @vindex DATA @vindex data_DATA @vindex sysconf_DATA @vindex sharedstate_DATA @vindex localstate_DATA @vindex pkgdata_DATA Such data can be installed in the directories @code{datadir}, @code{sysconfdir}, @code{sharedstatedir}, @code{localstatedir}, or @code{pkgdatadir}. By default, data files are @emph{not} included in a distribution. Of course, you can use the @samp{dist_} prefix to change this on a per-variable basis. Here is how Automake declares its auxiliary data files: @example dist_pkgdata_DATA = clean-kr.am clean.am @dots{} @end example @node Sources, , Data, Other objects @section Built sources @cindex BUILT_SOURCES, defined Occasionally a file which would otherwise be called @samp{source} (e.g. a C @samp{.h} file) is actually derived from some other file. Such files should be listed in the @code{BUILT_SOURCES} variable. @vindex BUILT_SOURCES @code{BUILT_SOURCES} is actually a bit of a misnomer, as any file which must be created early in the build process can be listed in this variable. A source file listed in @code{BUILT_SOURCES} is created before the other @code{all} targets are made. However, such a source file is not compiled unless explicitly requested by mentioning it in some other @samp{_SOURCES} variable. So, for instance, if you had header files which were created by a script run at build time, then you would list these headers in @code{BUILT_SOURCES}, to ensure that they would be built before any other compilations (perhaps ones using these headers) were started. @node Other GNU Tools, Documentation, Other objects, Top @chapter Other GNU Tools Since Automake is primarily intended to generate @file{Makefile.in}s for use in GNU programs, it tries hard to interoperate with other GNU tools. @menu * Emacs Lisp:: Emacs Lisp * gettext:: Gettext * Libtool:: Libtool * Java:: Java * Python:: Python @end menu @node Emacs Lisp, gettext, Other GNU Tools, Other GNU Tools @section Emacs Lisp @cindex _LISP primary, defined @cindex LISP primary, defined @cindex Primary variable, LISP @vindex LISP @vindex lisp_LISP @vindex noinst_LISP Automake provides some support for Emacs Lisp. The @samp{LISP} primary is used to hold a list of @file{.el} files. Possible prefixes for this primary are @samp{lisp_} and @samp{noinst_}. Note that if @code{lisp_LISP} is defined, then @file{configure.in} must run @code{AM_PATH_LISPDIR} (@pxref{Macros}). @vindex ELCFILES By default Automake will byte-compile all Emacs Lisp source files using the Emacs found by @code{AM_PATH_LISPDIR}. If you wish to avoid byte-compiling, simply define the variable @code{ELCFILES} to be empty. Byte-compiled Emacs Lisp files are not portable among all versions of Emacs, so it makes sense to turn this off if you expect sites to have more than one version of Emacs installed. Furthermore, many packages don't actually benefit from byte-compilation. Still, we recommend that you leave it enabled by default. It is probably better for sites with strange setups to cope for themselves than to make the installation less nice for everybody else. @node gettext, Libtool, Emacs Lisp, Other GNU Tools @section Gettext @cindex GNU Gettext support @cindex Gettext support @cindex Support for GNU Gettext If @code{AM_GNU_GETTEXT} is seen in @file{configure.in}, then Automake turns on support for GNU gettext, a message catalog system for internationalization (@pxref{GNU Gettext, , , gettext, GNU gettext utilities}). The @code{gettext} support in Automake requires the addition of two subdirectories to the package, @file{intl} and @file{po}. Automake insures that these directories exist and are mentioned in @code{SUBDIRS}. @node Libtool, Java, gettext, Other GNU Tools @section Libtool Automake provides support for GNU Libtool (@pxref{Top, , Introduction, libtool, The Libtool Manual}) with the @samp{LTLIBRARIES} primary. @xref{A Shared Library}. @node Java, Python, Libtool, Other GNU Tools @section Java @cindex _JAVA primary, defined @cindex JAVA primary, defined @cindex Primary variable, JAVA Automake provides some minimal support for Java compilation with the @samp{JAVA} primary. Any @file{.java} files listed in a @samp{_JAVA} variable will be compiled with @code{JAVAC} at build time. By default, @file{.class} files are not included in the distribution. @cindex JAVA restrictions @cindex Restrictions for JAVA Currently Automake enforces the restriction that only one @samp{_JAVA} primary can be used in a given @file{Makefile.am}. The reason for this restriction is that, in general, it isn't possible to know which @file{.class} files were generated from which @file{.java} files -- so it would be impossible to know which files to install where. For instance, a @file{.java} file can define multiple classes; the resulting @file{.class} file names cannot be predicted without parsing the @file{.java} file. There are a few variables which are used when compiling Java sources: @vtable @code @item JAVAC The name of the Java compiler. This defaults to @samp{javac}. @item JAVACFLAGS The flags to pass to the compiler. This is considered to be a user variable (@pxref{User Variables}). @item AM_JAVACFLAGS More flags to pass to the Java compiler. This, and not @code{JAVACFLAGS}, should be used when it is necessary to put Java compiler flags into @file{Makefile.am}. @item JAVAROOT The value of this variable is passed to the @samp{-d} option to @code{javac}. It defaults to @samp{$(top_builddir)}. @item CLASSPATH_ENV This variable is an @code{sh} expression which is used to set the @code{CLASSPATH} environment variable on the @code{javac} command line. (In the future we will probably handle class path setting differently.) @end vtable @node Python, , Java, Other GNU Tools @section Python @cindex _PYTHON primary, defined @cindex PYTHON primary, defined @cindex Primary variable, PYTHON Automake provides support for Python compilation with the @samp{PYTHON} primary. Any files listed in a @samp{_PYTHON} variable will be byte-compiled with @code{py-compile} at install time. @code{py-compile} actually creates both standard (@file{.pyc}) and byte-compiled (@file{.pyo}) versions of the source files. Note that because byte-compilation occurs at install time, any files listed in @samp{noinst_PYTHON} will not be compiled. Python source files are included in the distribution by default. Automake ships with an Autoconf macro called @code{AM_PATH_PYTHON} which will determine some Python-related directory variables (see below). If you have called @code{AM_PATH_PYTHON} from @file{configure.in}, then you may use the following variables to list you Python source files in your variables: @samp{python_PYTHON}, @samp{pkgpython_PYTHON}, @samp{pyexecdir_PYTHON}, @samp{pkgpyexecdir_PYTHON}, depending where you want your files installed. @code{AM_PATH_PYTHON} takes a single optional argument. This argument, if present, is the minimum version of Python which can be used for this package. If the version of Python found on the system is older than the required version, then @code{AM_PATH_PYTHON} will cause an error. @code{AM_PATH_PYTHON} creates several output variables based on the Python installation found during configuration. @vtable @code @item PYTHON The name of the Python executable. @item PYTHON_VERSION The Python version number, in the form @var{major}.@var{minor} (e.g. @samp{1.5}). This is currently the value of @code{sys.version[:3]}. @item PYTHON_PREFIX The string @code{$prefix}. This term may be used in future work which needs the contents of Python's @code{sys.prefix}, but general consensus is to always use the value from configure. @item PYTHON_EXEC_PREFIX The string @code{$exec_prefix}. This term may be used in future work which needs the contents of Python's @code{sys.exec_prefix}, but general consensus is to always use the value from configure. @item PYTHON_PLATFORM The canonical name used by Python to describe the operating system, as given by @code{sys.platform}. This value is sometimes needed when building Python extensions. @item pythondir The directory name for the @file{site-packages} subdirectory of the standard Python install tree. @item pkgpythondir This is is the directory under @code{pythondir} which is named after the package. That is, it is @samp{$(pythondir)/$(PACKAGE)}. It is provided as a convenience. @item pyexecdir This is the directory where Python extension modules (shared libraries) should be installed. @item pkgpyexecdir This is a convenience variable which is defined as @samp{$(pyexecdir)/$(PACKAGE)}. @end vtable @node Documentation, Install, Other GNU Tools, Top @chapter Building documentation Currently Automake provides support for Texinfo and man pages. @menu * Texinfo:: Texinfo * Man pages:: Man pages @end menu @node Texinfo, Man pages, Documentation, Documentation @section Texinfo @cindex _TEXINFOS primary, defined @cindex TEXINFOS primary, defined @cindex Primary variable, TEXINFOS If the current directory contains Texinfo source, you must declare it with the @samp{TEXINFOS} primary. Generally Texinfo files are converted into info, and thus the @code{info_TEXINFOS} variable is most commonly used here. Any Texinfo source file must end in the @file{.texi}, @file{.txi}, or @file{.texinfo} extension. We recommend @file{.texi} for new manuals. @vindex TEXINFOS @vindex info_TEXINFOS Automake generates rules to build @file{.info}, @file{.dvi}, @file{.ps}, and @file{.pdf} files from your Texinfo sources. The @file{.info} files are built by @code{make all} and installed by @code{make install} (unless you use @code{no-installinfo}, see below). The other files can be built on request by @code{make dvi}, @code{make ps}, and @code{make pdf}. @cindex Texinfo flag, VERSION @cindex Texinfo flag, UPDATED @cindex Texinfo flag, EDITION @cindex Texinfo flag, UPDATED-MONTH @cindex VERSION Texinfo flag @cindex UPDATED Texinfo flag @cindex EDITION Texinfo flag @cindex UPDATED-MONTH Texinfo flag @cindex mdate-sh If the @file{.texi} file @code{@@include}s @file{version.texi}, then that file will be automatically generated. The file @file{version.texi} defines four Texinfo flag you can reference using @code{@@value@{EDITION@}}, @code{@@value@{VERSION@}}, @code{@@value@{UPDATED@}}, and @code{@@value@{UPDATED-MONTH@}}. @table @code @item EDITION @itemx VERSION Both of these flags hold the version number of your program. They are kept separate for clarity. @item UPDATED This holds the date the primary @file{.texi} file was last modified. @item UPDATED-MONTH This holds the name of the month in which the primary @file{.texi} file was last modified. @end table The @file{version.texi} support requires the @code{mdate-sh} program; this program is supplied with Automake and automatically included when @code{automake} is invoked with the @code{--add-missing} option. If you have multiple Texinfo files, and you want to use the @file{version.texi} feature, then you have to have a separate version file for each Texinfo file. Automake will treat any include in a Texinfo file that matches @samp{vers*.texi} just as an automatically generated version file. When an info file is rebuilt, the program named by the @code{MAKEINFO} variable is used to invoke it. If the @code{makeinfo} program is found on the system then it will be used by default; otherwise @code{missing} will be used instead. The flags in the variables @code{MAKEINFOFLAGS} and @code{AM_MAKEINFOFLAGS} will be passed to the @code{makeinfo} invocation; the first of these is intended for use by the user (@pxref{User Variables}) and the second by the @file{Makefile.am} writer. @vindex MAKEINFO @vindex MAKEINFOFLAGS @vindex AM_MAKEINFOFLAGS Sometimes an info file actually depends on more than one @file{.texi} file. For instance, in GNU Hello, @file{hello.texi} includes the file @file{gpl.texi}. You can tell Automake about these dependencies using the @code{@var{texi}_TEXINFOS} variable. Here is how GNU Hello does it: @vindex TEXINFOS @vindex _TEXINFOS @example info_TEXINFOS = hello.texi hello_TEXINFOS = gpl.texi @end example @cindex texinfo.tex By default, Automake requires the file @file{texinfo.tex} to appear in the same directory as the Texinfo source. However, if you used @code{AC_CONFIG_AUX_DIR} in @file{configure.in} (@pxref{Input, , Finding `configure' Input, autoconf, The Autoconf Manual}), then @file{texinfo.tex} is looked for there. Automake supplies @file{texinfo.tex} if @samp{--add-missing} is given. @vindex TEXINFO_TEX If your package has Texinfo files in many directories, you can use the variable @code{TEXINFO_TEX} to tell Automake where to find the canonical @file{texinfo.tex} for your package. The value of this variable should be the relative path from the current @file{Makefile.am} to @file{texinfo.tex}: @example TEXINFO_TEX = ../doc/texinfo.tex @end example @opindex no-texinfo.tex The option @samp{no-texinfo.tex} can be used to eliminate the requirement for @file{texinfo.tex}. Use of the variable @code{TEXINFO_TEX} is preferable, however, because that allows the @code{dvi}, @code{ps}, and @code{pdf} targets to still work. @cindex Target, install-info @cindex Target, noinstall-info @cindex install-info target @cindex noinstall-info target @opindex no-installinfo @trindex install-info Automake generates an @code{install-info} target; some people apparently use this. By default, info pages are installed by @samp{make install}. This can be prevented via the @code{no-installinfo} option. @node Man pages, , Texinfo, Documentation @section Man pages @cindex _MANS primary, defined @cindex MANS primary, defined @cindex Primary variable, MANS A package can also include man pages (but see the GNU standards on this matter, @ref{Man Pages, , , standards, The GNU Coding Standards}.) Man pages are declared using the @samp{MANS} primary. Generally the @code{man_MANS} variable is used. Man pages are automatically installed in the correct subdirectory of @code{mandir}, based on the file extension. @vindex MANS @vindex man_MANS File extensions such as @samp{.1c} are handled by looking for the valid part of the extension and using that to determine the correct subdirectory of @code{mandir}. Valid section names are the digits @samp{0} through @samp{9}, and the letters @samp{l} and @samp{n}. Sometimes developers prefer to name a man page something like @file{foo.man} in the source, and then rename it to have the correct suffix, e.g. @file{foo.1}, when installing the file. Automake also supports this mode. For a valid section named @var{SECTION}, there is a corresponding directory named @samp{man@var{SECTION}dir}, and a corresponding @samp{_MANS} variable. Files listed in such a variable are installed in the indicated section. If the file already has a valid suffix, then it is installed as-is; otherwise the file suffix is changed to match the section. For instance, consider this example: @example man1_MANS = rename.man thesame.1 alsothesame.1c @end example In this case, @file{rename.man} will be renamed to @file{rename.1} when installed, but the other files will keep their names. @cindex Target, install-man @cindex Target, noinstall-man @cindex install-man target @cindex noinstall-man target @c Use @samp{make install} per documentation: (texi)code. By default, man pages are installed by @samp{make install}. However, since the GNU project does not require man pages, many maintainers do not expend effort to keep the man pages up to date. In these cases, the @code{no-installman} option will prevent the man pages from being installed by default. The user can still explicitly install them via @samp{make install-man}. @opindex no-installman @trindex install-man Here is how the man pages are handled in GNU @code{cpio} (which includes both Texinfo documentation and man pages): @example man_MANS = cpio.1 mt.1 EXTRA_DIST = $(man_MANS) @end example Man pages are not currently considered to be source, because it is not uncommon for man pages to be automatically generated. Therefore they are not automatically included in the distribution. However, this can be changed by use of the @samp{dist_} prefix. The @samp{nobase_} prefix is meaningless for man pages and is disallowed. @node Install, Clean, Documentation, Top @chapter What Gets Installed @cindex Installation support @cindex make install support @section Basics of installation Naturally, Automake handles the details of actually installing your program once it has been built. All files named by the various primaries are automatically installed in the appropriate places when the user runs @code{make install}. A file named in a primary is installed by copying the built file into the appropriate directory. The base name of the file is used when installing. @example bin_PROGRAMS = hello subdir/goodbye @end example In this example, both @samp{hello} and @samp{goodbye} will be installed in @code{$(bindir)}. Sometimes it is useful to avoid the basename step at install time. For instance, you might have a number of header files in subdirectories of the source tree which are laid out precisely how you want to install them. In this situation you can use the @samp{nobase_} prefix to suppress the base name step. For example: @example nobase_include_HEADERS = stdio.h sys/types.h @end example Will install @file{stdio.h} in @code{$(includedir)} and @file{types.h} in @code{$(includedir)/sys}. @section The two parts of install Automake generates separate @code{install-data} and @code{install-exec} targets, in case the installer is installing on multiple machines which share directory structure---these targets allow the machine-independent parts to be installed only once. @code{install-exec} installs platform-dependent files, and @code{install-data} installs platform-independent files. The @code{install} target depends on both of these targets. While Automake tries to automatically segregate objects into the correct category, the @file{Makefile.am} author is, in the end, responsible for making sure this is done correctly. @trindex install-data @trindex install-exec @trindex install @cindex Install, two parts of Variables using the standard directory prefixes @samp{data}, @samp{info}, @samp{man}, @samp{include}, @samp{oldinclude}, @samp{pkgdata}, or @samp{pkginclude} (e.g. @samp{data_DATA}) are installed by @samp{install-data}. Variables using the standard directory prefixes @samp{bin}, @samp{sbin}, @samp{libexec}, @samp{sysconf}, @samp{localstate}, @samp{lib}, or @samp{pkglib} (e.g. @samp{bin_PROGRAMS}) are installed by @samp{install-exec}. Any variable using a user-defined directory prefix with @samp{exec} in the name (e.g. @samp{myexecbin_PROGRAMS} is installed by @samp{install-exec}. All other user-defined prefixes are installed by @samp{install-data}. @section Extending installation It is possible to extend this mechanism by defining an @code{install-exec-local} or @code{install-data-local} target. If these targets exist, they will be run at @samp{make install} time. These rules can do almost anything; care is required. @trindex install-exec-local @trindex install-data-local Automake also supports two install hooks, @code{install-exec-hook} and @code{install-data-hook}. These hooks are run after all other install rules of the appropriate type, exec or data, have completed. So, for instance, it is possible to perform post-installation modifications using an install hook. @cindex Install hook @section Staged installs @vindex DESTDIR Automake generates support for the @samp{DESTDIR} variable in all install rules. @samp{DESTDIR} is used during the @samp{make install} step to relocate install objects into a staging area. Each object and path is prefixed with the value of @samp{DESTDIR} before being copied into the install area. Here is an example of typical DESTDIR usage: @example make DESTDIR=/tmp/staging install @end example This places install objects in a directory tree built under @file{/tmp/staging}. If @file{/gnu/bin/foo} and @file{/gnu/share/aclocal/foo.m4} are to be installed, the above command would install @file{/tmp/staging/gnu/bin/foo} and @file{/tmp/staging/gnu/share/aclocal/foo.m4}. This feature is commonly used to build install images and packages. For more information, see @ref{Makefile Conventions, , , standards, The GNU Coding Standards}. Support for @samp{DESTDIR} is implemented by coding it directly into the install rules. If your @file{Makefile.am} uses a local install rule (e.g., @code{install-exec-local}) or an install hook, then you must write that code to respect @samp{DESTDIR}. @section Rules for the user Automake also generates an @code{uninstall} target, an @code{installdirs} target, and an @code{install-strip} target. @trindex uninstall @trindex installdirs @trindex install-strip Automake supports @code{uninstall-local} and @code{uninstall-hook}. There is no notion of separate uninstalls for ``exec'' and ``data'', as these features would not provide additional functionality. Note that @code{uninstall} is not meant as a replacement for a real packaging tool. @node Clean, Dist, Install, Top @chapter What Gets Cleaned @cindex make clean support The GNU Makefile Standards specify a number of different clean rules. See @xref{Standard Targets, , Standard Targets for Users, standards, The GNU Coding Standards}. Generally the files that can be cleaned are determined automatically by Automake. Of course, Automake also recognizes some variables that can be defined to specify additional files to clean. These variables are @code{MOSTLYCLEANFILES}, @code{CLEANFILES}, @code{DISTCLEANFILES}, and @code{MAINTAINERCLEANFILES}. @vindex MOSTLYCLEANFILES @vindex CLEANFILES @vindex DISTCLEANFILES @vindex MAINTAINERCLEANFILES As the GNU Standards aren't always explicit as to which files should be removed by which target, we've adopted a heuristic which we believe was first formulated by Fran@,{c}ois Pinard: @itemize @bullet @item If @code{make} built it, and it is commonly something that one would want to rebuild (for instance, a @file{.o} file), then @code{mostlyclean} should delete it. @item Otherwise, if @code{make} built it, then @code{clean} should delete it. @item If @code{configure} built it, then @code{distclean} should delete it @item If the maintainer built it, then @code{maintainer-clean} should delete it. @end itemize We recommend that you follow this same set of heuristics in your @file{Makefile.am}. @node Dist, Tests, Clean, Top @chapter What Goes in a Distribution @section Basics of distribution @cindex make dist The @code{dist} target in the generated @file{Makefile.in} can be used to generate a gzip'd @code{tar} file and other flavors of archive for distribution. The files is named based on the @samp{PACKAGE} and @samp{VERSION} variables defined by @code{AM_INIT_AUTOMAKE} (@pxref{Macros}); more precisely the gzip'd @code{tar} file is named @samp{@var{package}-@var{version}.tar.gz}. @cvindex PACKAGE @cvindex VERSION @trindex dist You can use the @code{make} variable @samp{GZIP_ENV} to control how gzip is run. The default setting is @samp{--best}. For the most part, the files to distribute are automatically found by Automake: all source files are automatically included in a distribution, as are all @file{Makefile.am}s and @file{Makefile.in}s. Automake also has a built-in list of commonly used files which are automatically included if they are found in the current directory (either physically, or as the target of a @file{Makefile.am} rule). This list is printed by @samp{automake --help}. Also, files which are read by @code{configure} (i.e. the source files corresponding to the files specified in various Autoconf macros such as @code{AC_CONFIG_FILES} and siblings) are automatically distributed. Still, sometimes there are files which must be distributed, but which are not covered in the automatic rules. These files should be listed in the @code{EXTRA_DIST} variable. You can mention files from subdirectories in @code{EXTRA_DIST}. You can also mention a directory in @code{EXTRA_DIST}; in this case the entire directory will be recursively copied into the distribution. Please note that this will also copy @emph{everything} in the directory, including CVS/RCS version control files. We recommend against using this feature. @vindex EXTRA_DIST @section Fine-grained distribution control Sometimes you need tighter control over what does @emph{not} go into the distribution; for instance you might have source files which are generated and which you do not want to distribute. In this case Automake gives fine-grained control using the @samp{dist} and @samp{nodist} prefixes. Any primary or @samp{_SOURCES} variable can be prefixed with @samp{dist_} to add the listed files to the distribution. Similarly, @samp{nodist_} can be used to omit the files from the distribution. @vindex dist_ @vindex nodist_ As an example, here is how you would cause some data to be distributed while leaving some source code out of the distribution: @example dist_data_DATA = distribute-this bin_PROGRAMS = foo nodist_foo_SOURCES = do-not-distribute.c @end example @section The dist hook Another way to to use this is for removing unnecessary files that get recursively included by specifying a directory in EXTRA_DIST: @example EXTRA_DIST = doc dist-hook: rm -rf `find $(distdir)/doc -name CVS` @end example If you define @code{SUBDIRS}, Automake will recursively include the subdirectories in the distribution. If @code{SUBDIRS} is defined conditionally (@pxref{Conditionals}), Automake will normally include all directories that could possibly appear in @code{SUBDIRS} in the distribution. If you need to specify the set of directories conditionally, you can set the variable @code{DIST_SUBDIRS} to the exact list of subdirectories to include in the distribution. @vindex DIST_SUBDIRS @trindex dist-hook Occasionally it is useful to be able to change the distribution before it is packaged up. If the @code{dist-hook} target exists, it is run after the distribution directory is filled, but before the actual tar (or shar) file is created. One way to use this is for distributing files in subdirectories for which a new @file{Makefile.am} is overkill: @example dist-hook: mkdir $(distdir)/random cp -p $(srcdir)/random/a1 $(srcdir)/random/a2 $(distdir)/random @end example @section Checking the distribution @cindex make distcheck @cindex make distcleancheck @vindex distcleancheck_listfiles Automake also generates a @code{distcheck} target which can be of help to ensure that a given distribution will actually work. @code{distcheck} makes a distribution, then tries to do a @code{VPATH} build, run the testsuite, and finally make another tarfile to ensure the distribution is self-contained. @trindex distcheck Building the package involves running @code{./configure}. If you need to supply additional flags to @code{configure}, define them in the @code{DISTCHECK_CONFIGURE_FLAGS} variable, either in your top-level @file{Makefile.am}, or on the commande line when invoking @code{make}. @vindex DISTCHECK_CONFIGURE_FLAGS If the target @code{distcheck-hook} is defined in your @file{Makefile.am}, then it will be invoked by @code{distcheck} after the new distribution has been unpacked, but before the unpacked copy is configured and built. Your @code{distcheck-hook} can do almost anything, though as always caution is advised. Generally this hook is used to check for potential distribution errors not caught by the standard mechanism. Speaking about potential distribution errors, @code{distcheck} will also ensure that the @code{distclean} target actually removes all built files. This is done by running @code{make distcleancheck} at the end of the @code{VPATH} build. By default, @code{distcleancheck} will run @code{distclean} and then make sure the build tree has been emptied by running @code{$(distcleancheck_listfiles)}. Usually this check will find generated files that you forgot to add to the @code{DISTCLEANFILES} variable (@pxref{Clean}). @trindex distcleancheck The @code{distcleancheck} behaviour should be ok for most packages, otherwise you have the possibility to override the definitition of either the @code{distcleancheck} target, or the @code{$(distcleancheck_listfiles)} variable. For instance to disable @code{distcleancheck} completely, add the following rule to your top-level @file{Makefile.am}: @vindex distcleancheck_listfiles @example distcleancheck: @@: @end example If you want @code{distcleancheck} to ignore built files which have not been cleaned because they are also part of the distribution, add the following definition instead: @example distcleancheck_listfiles = \ find -type f -exec sh -c 'test -f $(scrdir)/@{@} || echo @{@}' @end example The above definition is not the default because it's usually an error if your Makefiles cause some distributed files to be rebuilt when the user build the package. (Think about the user missing the tool required to build the file; or if the required tool is built by your package, consider the cross-compilation case where it can't be run.) @section The types of distributions @trindex dist-gzip Automake generates a @samp{.tar.gz} file when asked to create a distribution and other archives formats, @ref{Options}. The target @code{dist-gzip} generates the @samp{.tar.gz} file only. @node Tests, Options, Dist, Top @chapter Support for test suites @cindex Test suites @cindex make check Automake supports two forms of test suites. @section Simple Tests If the variable @code{TESTS} is defined, its value is taken to be a list of programs to run in order to do the testing. The programs can either be derived objects or source objects; the generated rule will look both in @code{srcdir} and @file{.}. Programs needing data files should look for them in @code{srcdir} (which is both an environment variable and a make variable) so they work when building in a separate directory (@pxref{Build Directories, , Build Directories , autoconf, The Autoconf Manual}), and in particular for the @code{distcheck} target (@pxref{Dist}). @cindex Exit status 77, special interpretation The number of failures will be printed at the end of the run. If a given test program exits with a status of 77, then its result is ignored in the final count. This feature allows non-portable tests to be ignored in environments where they don't make sense. The variable @code{TESTS_ENVIRONMENT} can be used to set environment variables for the test run; the environment variable @code{srcdir} is set in the rule. If all your test programs are scripts, you can also set @code{TESTS_ENVIRONMENT} to an invocation of the shell (e.g. @samp{$(SHELL) -x}); this can be useful for debugging the tests. @vindex TESTS @vindex TESTS_ENVIRONMENT @cindex Tests, expected failure @cindex Expected test failure You may define the variable @code{XFAIL_TESTS} to a list of tests (usually a subset of @code{TESTS}) that are expected to fail. This will reverse the result of those tests. @vindex XFAIL_TESTS Automake ensures that each program listed in @code{TESTS} is built before any tests are run; you can list both source and derived programs in @code{TESTS}. For instance, you might want to run a C program as a test. To do this you would list its name in @code{TESTS} and also in @code{check_PROGRAMS}, and then specify it as you would any other program. @section DejaGNU Tests If @uref{ftp://ftp.gnu.org/gnu/dejagnu/, @samp{dejagnu}} appears in @code{AUTOMAKE_OPTIONS}, then a @code{dejagnu}-based test suite is assumed. The variable @code{DEJATOOL} is a list of names which are passed, one at a time, as the @code{--tool} argument to @code{runtest} invocations; it defaults to the name of the package. The variable @code{RUNTESTDEFAULTFLAGS} holds the @code{--tool} and @code{--srcdir} flags that are passed to dejagnu by default; this can be overridden if necessary. @vindex RUNTESTDEFAULTFLAGS The variables @code{EXPECT} and @code{RUNTEST} can also be overridden to provide project-specific values. For instance, you will need to do this if you are testing a compiler toolchain, because the default values do not take into account host and target names. @opindex dejagnu @vindex DEJATOOL @vindex EXPECT @vindex RUNTEST The contents of the variable @code{RUNTESTFLAGS} are passed to the @code{runtest} invocation. This is considered a ``user variable'' (@pxref{User Variables}). If you need to set @code{runtest} flags in @file{Makefile.am}, you can use @code{AM_RUNTESTFLAGS} instead. @vindex RUNTESTFLAGS @vindex AM_RUNTESTFLAGS @c FIXME xref dejagnu @cindex @file{site.exp} Automake will generate rules to create a local @file{site.exp} file, defining various variables detected by @code{./configure}. This file is automatically read by DejaGnu. It is ok for the user of a package to edit this file in order to tune the test suite. However this is not the place where the test suite author should define new variables: this should be done elsewhere in the real test suite code. Especially, @file{site.exp} should not be distributed. In either case, the testing is done via @samp{make check}. @section Install Tests The @code{installcheck} target is available to the user as a way to run any tests after the package has been installed. You can add tests to this by writing an @code{installcheck-local} target. @node Options, Miscellaneous, Tests, Top @chapter Changing Automake's Behavior Various features of Automake can be controlled by options in the @file{Makefile.am}. Such options are applied on a per-@file{Makefile} basis when listed in a special @file{Makefile} variable named @code{AUTOMAKE_OPTIONS}. They are applied globally to all processed @file{Makefiles} when listed in the first argument of @code{AM_INIT_AUTOMAKE} in @file{configure.in}. Currently understood options are: @vindex AUTOMAKE_OPTIONS @table @asis @item @code{gnits} @itemx @code{gnu} @itemx @code{foreign} @itemx @code{cygnus} @cindex Option, gnits @cindex Option, gnu @cindex Option, foreign @cindex Option, cygnus Set the strictness as appropriate. The @code{gnits} option also implies @code{readme-alpha} and @code{check-news}. @item @code{ansi2knr} @itemx @code{@var{path}/ansi2knr} @cindex Option, ansi2knr Turn on automatic de-ANSI-fication. @xref{ANSI}. If preceded by a path, the generated @file{Makefile.in} will look in the specified directory to find the @file{ansi2knr} program. The path should be a relative path to another directory in the same distribution (Automake currently does not check this). @item @code{check-news} @cindex Option, check-news Cause @code{make dist} to fail unless the current version number appears in the first few lines of the @file{NEWS} file. @item @code{dejagnu} @cindex Option, dejagnu Cause @code{dejagnu}-specific rules to be generated. @xref{Tests}. @item @code{dist-bzip2} @cindex Option, dist-bzip2 Generate a @code{dist-bzip2} target, creating a bzip2 tar archive of the distribution. @code{dist} will create it in addition to the other formats. bzip2 archives are frequently smaller than gzipped archives. @trindex dist-bzip2 @item @code{dist-shar} @cindex Option, dist-shar Generate a @code{dist-shar} target, creating a shar archive of the distribution. @code{dist} will create it in addition to the other formats. @trindex dist-shar @item @code{dist-zip} @cindex Option, dist-zip Generate a @code{dist-zip} target, creating a zip archive of the distribution. @code{dist} will create it in addition to the other formats. @trindex dist-zip @item @code{dist-tarZ} @cindex Option, dist-tarZ Generate a @code{dist-tarZ} target, creating a compressed tar archive of the distribution. @code{dist} will create it in addition to the other formats. @trindex dist-tarZ @item @code{no-define} @cindex Option, no-define This options is meaningful only when passed as an argument to AM_INIT_AUTOMAKE. It will prevent the @code{PACKAGE} and @code{VERSION} variable to be @code{AC_DEFINE}d. @item @code{no-dependencies} @cindex Option, no-dependencies This is similar to using @samp{--include-deps} on the command line, but is useful for those situations where you don't have the necessary bits to make automatic dependency tracking work @xref{Dependencies}. In this case the effect is to effectively disable automatic dependency tracking. @item @code{no-exeext} @cindex Option, no-exeext If your @file{Makefile.am} defines a target @samp{foo}, it will override a target named @samp{foo$(EXEEXT)}. This is necessary when @code{EXEEXT} is found to be empty. However, by default automake will generate an error for this use. The @code{no-exeext} option will disable this error. This is intended for use only where it is known in advance that the package will not be ported to Windows, or any other operating system using extensions on executables. @item @code{no-installinfo} @cindex Option, no-installinfo The generated @file{Makefile.in} will not cause info pages to be built or installed by default. However, @code{info} and @code{install-info} targets will still be available. This option is disallowed at @samp{GNU} strictness and above. @trindex info @trindex install-info @item @code{no-installman} @cindex Option, no-installman The generated @file{Makefile.in} will not cause man pages to be installed by default. However, an @code{install-man} target will still be available for optional installation. This option is disallowed at @samp{GNU} strictness and above. @trindex install-man @item @code{nostdinc} @cindex Option, nostdinc This option can be used to disable the standard @samp{-I} options which are ordinarily automatically provided by Automake. @item @code{no-texinfo.tex} @cindex Option, no-texinfo Don't require @file{texinfo.tex}, even if there are texinfo files in this directory. @item @code{readme-alpha} @cindex Option, readme-alpha If this release is an alpha release, and the file @file{README-alpha} exists, then it will be added to the distribution. If this option is given, version numbers are expected to follow one of two forms. The first form is @samp{@var{MAJOR}.@var{MINOR}.@var{ALPHA}}, where each element is a number; the final period and number should be left off for non-alpha releases. The second form is @samp{@var{MAJOR}.@var{MINOR}@var{ALPHA}}, where @var{ALPHA} is a letter; it should be omitted for non-alpha releases. @item @code{std-options} @cindex Options, std-options @cindex make installcheck Make the @code{installcheck} target check that installed scripts and programs support the @code{--help} and @code{--version} options. This also provides a basic check that the program's run-time dependencies are satisfied after installation. @vindex AM_INSTALLCHECK_STD_OPTIONS_EXEMPT In a few situations, programs (or scripts) have to be exempted from this test. For instance @command{false} (from GNU sh-utils) is never successful, even for @code{--help} or @code{--version}. You can list such programs in the variable @code{AM_INSTALLCHECK_STD_OPTIONS_EXEMPT}. @item @code{subdir-objects} If this option is specified, then objects are placed into the subdirectory of the build directory corresponding to the subdirectory of the source file. For instance if the source file is @file{subdir/file.cxx}, then the output file would be @file{subdir/file.o}. @item @var{version} @cindex Option, version A version number (e.g. @samp{0.30}) can be specified. If Automake is not newer than the version specified, creation of the @file{Makefile.in} will be suppressed. @item @code{-W@var{category}} or @code{--warnings=@var{category}} @cindex Option, warnings These options behave exactly like their command-line counterpart (@pxref{Invoking Automake}). This allows you to enable or disable some warning categories on a per-file basis. You can also setup some warnings for your entire project; for instance try @code{AM_INIT_AUTOMAKE([-Wall])} in your @file{configure.in}. @end table Unrecognized options are diagnosed by @code{automake}. If you want an option to apply to all the files in the tree, you can use the @code{AM_INIT_AUTOMAKE} macro in @file{configure.in}. @xref{Macros}. @node Miscellaneous, Include, Options, Top @chapter Miscellaneous Rules There are a few rules and variables that didn't fit anywhere else. @menu * Tags:: Interfacing to etags and mkid * Suffixes:: Handling new file extensions * Multilibs:: Support for multilibbing. @end menu @node Tags, Suffixes, Miscellaneous, Miscellaneous @section Interfacing to @code{etags} @cindex TAGS support Automake will generate rules to generate @file{TAGS} files for use with GNU Emacs under some circumstances. If any C, C++ or Fortran 77 source code or headers are present, then @code{tags} and @code{TAGS} targets will be generated for the directory. @trindex tags At the topmost directory of a multi-directory package, a @code{tags} target file will be generated which, when run, will generate a @file{TAGS} file that includes by reference all @file{TAGS} files from subdirectories. The @code{tags} target will also be generated if the variable @code{ETAGS_ARGS} is defined. This variable is intended for use in directories which contain taggable source that @code{etags} does not understand. The user can use the @code{ETAGSFLAGS} to pass additional flags to @code{etags}; @code{AM_ETAGSFLAGS} is also available for use in @file{Makefile.am}. @vindex ETAGS_ARGS @vindex ETAGSFLAGS @vindex AM_ETAGSFLAGS Here is how Automake generates tags for its source, and for nodes in its Texinfo file: @example ETAGS_ARGS = automake.in --lang=none \ --regex='/^@@node[ \t]+\([^,]+\)/\1/' automake.texi @end example If you add filenames to @samp{ETAGS_ARGS}, you will probably also want to set @samp{TAGS_DEPENDENCIES}. The contents of this variable are added directly to the dependencies for the @code{tags} target. @vindex TAGS_DEPENDENCIES Automake also generates a @code{ctags} target which can be used to build @command{vi}-style @file{tags} files. The variable @code{CTAGS} is the name of the program to invoke (by default @samp{ctags}); @code{CTAGSFLAGS} can be used by the user to pass additional flags, and @code{AM_CTAGSFLAGS} can be used by the @file{Makefile.am}. Automake will also generate an @code{ID} target which will run @code{mkid} on the source. This is only supported on a directory-by-directory basis. @trindex id Automake also supports the @uref{http://www.gnu.org/software/global/, GNU Global Tags program}. The @code{GTAGS} target runs Global Tags automatically and puts the result in the top build directory. The variable @code{GTAGS_ARGS} holds arguments which are passed to @code{gtags}. @vindex GTAGS_ARGS @node Suffixes, Multilibs, Tags, Miscellaneous @section Handling new file extensions @cindex Adding new SUFFIXES @cindex SUFFIXES, adding @vindex SUFFIXES It is sometimes useful to introduce a new implicit rule to handle a file type that Automake does not know about. For instance, suppose you had a compiler which could compile @samp{.foo} files to @samp{.o} files. You would simply define an suffix rule for your language: @example .foo.o: foocc -c -o $@@ $< @end example Then you could directly use a @samp{.foo} file in a @samp{_SOURCES} variable and expect the correct results: @example bin_PROGRAMS = doit doit_SOURCES = doit.foo @end example This was the simpler and more common case. In other cases, you will have to help Automake to figure which extensions you are defining your suffix rule for. This usually happens when your extensions does not start with a dot. Then, all you have to do is to put a list of new suffixes in the @code{SUFFIXES} variable @strong{before} you define your implicit rule. For instance the following definition prevents Automake to misinterpret @samp{.idlC.cpp:} as an attemp to transform @samp{.idlC} into @samp{.cpp}. @example SUFFIXES = .idl C.cpp .idlC.cpp: # whatever @end example As you may have noted, the @code{SUFFIXES} variable behaves like the @code{.SUFFIXES} special target of @code{make}. You should not touch @code{.SUFFIXES} yourself, but use @code{SUFFIXES} instead and let Automake generate the suffix list for @code{.SUFFIXES}. Any given @code{SUFFIXES} go at the start of the generated suffixes list, followed by Automake generated suffixes not already in the list. @node Multilibs, , Suffixes, Miscellaneous @section Support for Multilibs Automake has support for an obscure feature called multilibs. A @dfn{multilib} is a library which is built for multiple different ABIs at a single time; each time the library is built with a different target flag combination. This is only useful when the library is intended to be cross-compiled, and it is almost exclusively used for compiler support libraries. The multilib support is still experimental. Only use it if you are familiar with multilibs and can debug problems you might encounter. @node Include, Conditionals, Miscellaneous, Top @chapter Include @cmindex include @cindex Including Makefile fragment @cindex Makefile fragment, including Automake supports an @code{include} directive which can be used to include other @file{Makefile} fragments when @code{automake} is run. Note that these fragments are read and interpreted by @code{automake}, not by @code{make}. As with conditionals, @code{make} has no idea that @code{include} is in use. There are two forms of @code{include}: @table @code @item include $(srcdir)/file Include a fragment which is found relative to the current source directory. @item include $(top_srcdir)/file Include a fragment which is found relative to the top source directory. @end table Note that if a fragment is included inside a conditional, then the condition applies to the entire contents of that fragment. @node Conditionals, Gnits, Include, Top @chapter Conditionals @cindex Conditionals Automake supports a simple type of conditionals. @cvindex AM_CONDITIONAL Before using a conditional, you must define it by using @code{AM_CONDITIONAL} in the @code{configure.in} file (@pxref{Macros}). @defmac AM_CONDITIONAL (@var{conditional}, @var{condition}) The conditional name, @var{conditional}, should be a simple string starting with a letter and containing only letters, digits, and underscores. It must be different from @samp{TRUE} and @samp{FALSE} which are reserved by Automake. The shell @var{condition} (suitable for use in a shell @code{if} statement) is evaluated when @code{configure} is run. Note that you must arrange for @emph{every} @code{AM_CONDITIONAL} to be invoked every time @code{configure} is run -- if @code{AM_CONDITIONAL} is run conditionally (e.g., in a shell @code{if} statement), then the result will confuse automake. @end defmac @cindex --enable-debug, example @cindex Example conditional --enable-debug @cindex Conditional example, --enable-debug Conditionals typically depend upon options which the user provides to the @code{configure} script. Here is an example of how to write a conditional which is true if the user uses the @samp{--enable-debug} option. @example AC_ARG_ENABLE(debug, [ --enable-debug Turn on debugging], [case "$@{enableval@}" in yes) debug=true ;; no) debug=false ;; *) AC_MSG_ERROR(bad value $@{enableval@} for --enable-debug) ;; esac],[debug=false]) AM_CONDITIONAL(DEBUG, test x$debug = xtrue) @end example Here is an example of how to use that conditional in @file{Makefile.am}: @cmindex if @cmindex endif @cmindex else @example if DEBUG DBG = debug else DBG = endif noinst_PROGRAMS = $(DBG) @end example This trivial example could also be handled using EXTRA_PROGRAMS (@pxref{Conditional Programs}). You may only test a single variable in an @code{if} statement, possibly negated using @samp{!}. The @code{else} statement may be omitted. Conditionals may be nested to any depth. You may specify an argument to @code{else} in which case it must be the negation of the condition used for the current @code{if}. Similarly you may specify the condition which is closed by an @code{end}: @example if DEBUG DBG = debug else !DEBUG DBG = endif !DEBUG @end example @noindent Unbalanced conditions are errors. Note that conditionals in Automake are not the same as conditionals in GNU Make. Automake conditionals are checked at configure time by the @file{configure} script, and affect the translation from @file{Makefile.in} to @file{Makefile}. They are based on options passed to @file{configure} and on results that @file{configure} has discovered about the host system. GNU Make conditionals are checked at @code{make} time, and are based on variables passed to the make program or defined in the @file{Makefile}. Automake conditionals will work with any make program. @node Gnits, Cygnus, Conditionals, Top @chapter The effect of @code{--gnu} and @code{--gnits} @cindex --gnu, required files @cindex --gnu, complete description The @samp{--gnu} option (or @samp{gnu} in the @samp{AUTOMAKE_OPTIONS} variable) causes @code{automake} to check the following: @itemize @bullet @item The files @file{INSTALL}, @file{NEWS}, @file{README}, @file{AUTHORS}, and @file{ChangeLog}, plus one of @file{COPYING.LIB}, @file{COPYING.LESSER} or @file{COPYING}, are required at the topmost directory of the package. @item The options @samp{no-installman} and @samp{no-installinfo} are prohibited. @end itemize Note that this option will be extended in the future to do even more checking; it is advisable to be familiar with the precise requirements of the GNU standards. Also, @samp{--gnu} can require certain non-standard GNU programs to exist for use by various maintainer-only targets; for instance in the future @code{pathchk} might be required for @samp{make dist}. @cindex --gnits, complete description The @samp{--gnits} option does everything that @samp{--gnu} does, and checks the following as well: @itemize @bullet @item @samp{make installcheck} will check to make sure that the @code{--help} and @code{--version} really print a usage message and a version string, respectively. This is the @code{std-options} option (@pxref{Options}). @item @samp{make dist} will check to make sure the @file{NEWS} file has been updated to the current version. @item @samp{VERSION} is checked to make sure its format complies with Gnits standards. @c FIXME xref when standards are finished @item @cindex README-alpha If @samp{VERSION} indicates that this is an alpha release, and the file @file{README-alpha} appears in the topmost directory of a package, then it is included in the distribution. This is done in @samp{--gnits} mode, and no other, because this mode is the only one where version number formats are constrained, and hence the only mode where Automake can automatically determine whether @file{README-alpha} should be included. @item The file @file{THANKS} is required. @end itemize @node Cygnus, Extending, Gnits, Top @chapter The effect of @code{--cygnus} @cindex Cygnus strictness Some packages, notably GNU GCC and GNU gdb, have a build environment originally written at Cygnus Support (subsequently renamed Cygnus Solutions, and then later purchased by Red Hat). Packages with this ancestry are sometimes referred to as ``Cygnus'' trees. A Cygnus tree has slightly different rules for how a @file{Makefile.in} is to be constructed. Passing @samp{--cygnus} to @code{automake} will cause any generated @file{Makefile.in} to comply with Cygnus rules. Here are the precise effects of @samp{--cygnus}: @itemize @bullet @item Info files are always created in the build directory, and not in the source directory. @item @file{texinfo.tex} is not required if a Texinfo source file is specified. The assumption is that the file will be supplied, but in a place that Automake cannot find. This assumption is an artifact of how Cygnus packages are typically bundled. @item @samp{make dist} is not supported, and the rules for it are not generated. Cygnus-style trees use their own distribution mechanism. @item Certain tools will be searched for in the build tree as well as in the user's @samp{PATH}. These tools are @code{runtest}, @code{expect}, @code{makeinfo} and @code{texi2dvi}. @item @code{--foreign} is implied. @item The options @samp{no-installinfo} and @samp{no-dependencies} are implied. @item The macros @samp{AM_MAINTAINER_MODE} and @samp{AM_CYGWIN32} are required. @item The @code{check} target doesn't depend on @code{all}. @end itemize GNU maintainers are advised to use @samp{gnu} strictness in preference to the special Cygnus mode. Some day, perhaps, the differences between Cygnus trees and GNU trees will disappear (for instance, as GCC is made more standards compliant). At that time the special Cygnus mode will be removed. @node Extending, Distributing, Cygnus, Top @chapter When Automake Isn't Enough Automake's implicit copying semantics means that many problems can be worked around by simply adding some @code{make} targets and rules to @file{Makefile.in}. Automake will ignore these additions. @cindex -local targets @cindex local targets There are some caveats to doing this. Although you can overload a target already used by Automake, it is often inadvisable, particularly in the topmost directory of a package with subdirectories. However, various useful targets have a @samp{-local} version you can specify in your @file{Makefile.in}. Automake will supplement the standard target with these user-supplied targets. @trindex all @trindex all-local @trindex info @trindex info-local @trindex dvi @trindex dvi-local @trindex ps @trindex ps-local @trindex pdf @trindex pdf-local @trindex check @trindex check-local @trindex install @trindex install-data-local @trindex install-exec @trindex install-exec-local @trindex uninstall @trindex uninstall-local @trindex mostlyclean @trindex mostlyclean-local @trindex clean @trindex clean-local @trindex distclean @trindex distclean-local @trindex installdirs @trindex installdirs-local @trindex installcheck @trindex installcheck-local The targets that support a local version are @code{all}, @code{info}, @code{dvi}, @code{ps}, @code{pdf}, @code{check}, @code{install-data}, @code{install-exec}, @code{uninstall}, @code{installdirs}, @code{installcheck} and the various @code{clean} targets (@code{mostlyclean}, @code{clean}, @code{distclean}, and @code{maintainer-clean}). Note that there are no @code{uninstall-exec-local} or @code{uninstall-data-local} targets; just use @code{uninstall-local}. It doesn't make sense to uninstall just For instance, here is one way to install a file in @file{/etc}: @example install-data-local: $(INSTALL_DATA) $(srcdir)/afile $(DESTDIR)/etc/afile @end example @cindex -hook targets @cindex hook targets Some targets also have a way to run another target, called a @dfn{hook}, after their work is done. The hook is named after the principal target, with @samp{-hook} appended. The targets allowing hooks are @code{install-data}, @code{install-exec}, @code{uninstall}, @code{dist}, and @code{distcheck}. @trindex install-data-hook @trindex install-exec-hook @trindex uninstall-hook @trindex dist-hook For instance, here is how to create a hard link to an installed program: @example install-exec-hook: ln $(DESTDIR)$(bindir)/program $(DESTDIR)$(bindir)/proglink @end example @c FIXME should include discussion of variables you can use in these @c rules @node Distributing, API versioning, Extending, Top @chapter Distributing @file{Makefile.in}s Automake places no restrictions on the distribution of the resulting @file{Makefile.in}s. We still encourage software authors to distribute their work under terms like those of the GPL, but doing so is not required to use Automake. Some of the files that can be automatically installed via the @code{--add-missing} switch do fall under the GPL. However, these also have a special exception allowing you to distribute them with your package, regardless of the licensing you choose. @node API versioning, Macro and Variable Index, Distributing, Top @chapter Automake API versioning New Automake releases usually include bug fixes and new features. Unfortunately they may also introduce new bugs and incompatibilities. This makes four reasons why a package may require a particular Automake version. Things get worse when maintaining a large tree of packages, each one requiring a different version of Automake. In the past, this meant that any developer (and sometime users) had to install several versions of Automake in different places, and switch @samp{$PATH} appropriately for each package. Starting with version 1.6, Automake installs versioned binaries. This means you can install several versions of Automake in the same @samp{$prefix}, and can select an arbitrary Automake version by running @samp{automake-1.6} or @samp{automake-1.7} without juggling with @samp{$PATH}. Furthermore, @file{Makefile}'s generated by Automake 1.6 will use @samp{automake-1.6} explicitely in their rebuild rules. Note that @samp{1.6} in @samp{automake-1.6} is Automake's API version, not Automake's version. If a bug fix release is made, for instance Automake 1.6.1, the API version will remain 1.6. This means that a package which work with Automake 1.6 should also work with 1.6.1; after all, this is what people expect from bug fix releases. Note that if your package relies on a feature or a bug fix introduced in a release, you can pass this version as an option to Automake to ensure older releases will not be used. For instance, use this in your @file{configure.in}: @example AM_INIT_AUTOMAKE(1.6.1) dnl Require Automake 1.6.1 or better. @end example @noindent or, in a particular @file{Makefile.am}: @example AUTOMAKE_OPTIONS = 1.6.1 # Require Automake 1.6.1 or better. @end example @noindent Automake will print an error message if its version is older than the requested version. @heading What is in the API Automake's programing interface is not easy to define. Basically it should include at least all @strong{documented} variables and targets that a @samp{Makefile.am} authors can use, the behaviours associated to them (e.g. the places where @samp{-hook}'s are run), the command line interface of @samp{automake} and @samp{aclocal}, @dots{} @heading What is not in the API Every undocumented variable, target, or command line option, is not part of the API. You should avoid using them, as they could change from one version to the other (even in bug fix releases, if this helps to fix a bug). If it turns out you need to use such a undocumented feature, contact @email{automake@@gnu.org} and try to get it documented and exercised by the test-suite. @page @node Macro and Variable Index, General Index, API versioning, Top @unnumbered Macro and Variable Index @printindex vr @page @node General Index, , Macro and Variable Index, Top @unnumbered General Index @printindex cp @page @contents @bye