Edit
kc3-lang/automake/automake.in
Tom Tromey
- automake.in
-
#!@PERL@ # -*- perl -*- # @configure_input@ eval 'exec @PERL@ -S $0 ${1+"$@"}' if 0; # automake - create Makefile.in from Makefile.am # Copyright (C) 1994, 1995, 1996, 1997, 1998 Free Software Foundation, Inc. # This program is free software; you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation; either version 2, or (at your option) # any later version. # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # You should have received a copy of the GNU General Public License # along with this program; if not, write to the Free Software # Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA # 02111-1307, USA. # Originally written by David Mackenzie <djm@gnu.ai.mit.edu>. # Perl reimplementation by Tom Tromey <tromey@cygnus.com>. # Parameters set by configure. Not to be changed. NOTE: assign # VERSION as string so that eg version 0.30 will print correctly. $VERSION = "@VERSION@"; $PACKAGE = "@PACKAGE@"; $prefix = "@prefix@"; $am_dir = "@datadir@/@PACKAGE@"; $TAR = "@TAR@"; # String constants. $IGNORE_PATTERN = "^##([^#].*)?\$"; $WHITE_PATTERN = "^[ \t]*\$"; $COMMENT_PATTERN = "^#"; $RULE_PATTERN = "^([\$a-zA-Z_.][-.a-zA-Z0-9_(){}/\$]*) *:([^=].*|)\$"; $SUFFIX_RULE_PATTERN = "^\\.([a-zA-Z]+)\\.([a-zA-Z]+)\$"; $MACRO_PATTERN = "^([A-Za-z][A-Za-z0-9_]*)[ \t]*:?=[ \t]*(.*)\$"; $BOGUS_MACRO_PATTERN = "^([^ \t]*)[ \t]*:?=[ \t]*(.*)\$"; $GNITS_VERSION_PATTERN = "[0-9]+\\.[0-9]+([a-z]|\\.[0-9]+)?"; $IF_PATTERN = "^if[ \t]+\([A-Za-z][A-Za-z0-9_]*\)[ \t]*\(#.*\)?\$"; $ELSE_PATTERN = "^else[ \t]*\(#.*\)?\$"; $ENDIF_PATTERN = "^endif[ \t]*\(#.*\)?\$"; # Some regular expressions. One reason to put them here is that it # makes indentation work better in Emacs. $AC_CONFIG_AUX_DIR_PATTERN = "AC_CONFIG_AUX_DIR\\(([^)]+)\\)"; $AM_INIT_AUTOMAKE_PATTERN = "AM_INIT_AUTOMAKE\\([^,]*,([^,)]+)[,)]"; $AM_PACKAGE_VERSION_PATTERN = "^\\s*\\[?([^]\\s]+)\\]?\\s*\$"; # Note that there is no AC_PATH_TOOL. But we don't really care. $AC_CHECK_PATTERN = "AC_(CHECK|PATH)_(PROG|PROGS|TOOL)\\(\\[?(\\w+)"; $AM_MISSING_PATTERN = "AM_MISSING_PROG\\(\\[?(\\w+)"; # Just check for alphanumeric in AC_SUBST. If you do AC_SUBST(5), # then too bad. $AC_SUBST_PATTERN = "AC_SUBST\\(\\[?(\\w+)"; $AM_CONDITIONAL_PATTERN = "AM_CONDITIONAL\\((\\w+)"; # Constants to define the "strictness" level. $FOREIGN = 0; $GNU = 1; $GNITS = 2; # Variables global to entire run. # TRUE if we should always generate Makefile.in. $force_generation = 1; # Strictness level as set on command line. $default_strictness = $GNU; # Name of strictness level, as set on command line. $default_strictness_name = 'gnu'; # This is TRUE if GNU make specific automatic dependency generation # code should be included in generated Makefile.in. $cmdline_use_dependencies = 1; # This is the name of a dependency makefile bit (usually for inclusion in a # SMakefile or similar); empty if not set. $generate_deps = ''; # TRUE if in verbose mode. $verbose = 0; # This holds our (eventual) exit status. We don't actually exit until # we have processed all input files. $exit_status = 0; # From the Perl manual. $symlink_exists = (eval 'symlink ("", "");', $@ eq ''); # TRUE if missing standard files should be installed. $add_missing = 0; # Files found by scanning configure.in for LIBOBJS. %libsources = (); # True if AM_C_PROTOTYPES appears in configure.in. $am_c_prototypes = 0; # Names used in AC_CONFIG_HEADER call. @config_fullnames holds the # name which appears in AC_CONFIG_HEADER, colon and all. # @config_names holds the file names. @config_headers holds the '.in' # files. Ordinarily these are similar, but they can be different if # the weird "NAME:FILE" syntax is used. @config_fullnames = (); @config_names = (); @config_headers = (); # Line number at which AC_CONFIG_HEADER appears in configure.in. $config_header_line = 0; # Directory where output files go. Actually, output files are # relative to this directory. $output_directory = '.'; # Relative location of top build directory. $top_builddir = ''; # Absolute location of top build directory. $build_directory = ''; # Name of srcdir as given in build directory's Makefile. For # dependencies only. $srcdir_name = ''; # List of Makefile.am's to process, and their corresponding outputs. @input_files = (); %output_files = (); # List of files in AC_OUTPUT without Makefile.am, and their outputs. @other_input_files = (); # Line number at which AC_OUTPUT seen. $ac_output_line = 0; # List of directories to search for configure-required files. This # can be set by AC_CONFIG_AUX_DIR. @config_aux_path = ('.', '..', '../..'); $config_aux_dir = ''; # Whether AC_PROG_MAKE_SET has been seen in configure.in. $seen_make_set = 0; # Whether AM_GNU_GETTEXT has been seen in configure.in. $seen_gettext = 0; # Line number at which AM_GNU_GETTEXT seen. $ac_gettext_line = 0; # Whether ALL_LINGUAS has been seen. $seen_linguas = ''; # The actual text. $all_linguas = ''; # Line number at which it appears. $all_linguas_line = 0; # 1 if AC_PROG_INSTALL seen, 2 if AM_PROG_INSTALL seen. $seen_prog_install = 0; # 1 if any scripts installed, 0 otherwise. $scripts_installed = 0; # Whether AC_PATH_XTRA has been seen in configure.in. $seen_path_xtra = 0; # TRUE if AC_DECL_YYTEXT was seen. $seen_decl_yytext = 0; # TRUE if we've seen AC_CANONICAL_(HOST|SYSTEM). The presence of # AC_CHECK_TOOL also sets this. $seen_canonical = 0; # TRUE if we've seen AC_ARG_PROGRAM. $seen_arg_prog = 0; # TRUE if we've seen AM_PROG_LIBTOOL. $seen_libtool = 0; $libtool_line = 0; # Files installed by libtoolize. @libtoolize_files = ('ltconfig', 'ltmain.sh', 'config.guess', 'config.sub'); # TRUE if we've seen AM_MAINTAINER_MODE. $seen_maint_mode = 0; # TRUE if we've seen PACKAGE and VERSION. $seen_package = 0; $seen_version = 0; # Actual version we've seen. $package_version = ''; # Line number where we saw version definition. $package_version_line = 0; # TRUE if we've seen AM_PATH_LISPDIR. $seen_lispdir = 0; # TRUE if we've seen AM_EXEEXT. $seen_exeext = 0; # Hash table of discovered configure substitutions. Keys are names, # values are meaningless. %configure_vars = (); # Charsets used by maintainer and in distribution. MAINT_CHARSET is # handled in a funny way: if seen in the top-level Makefile.am, it is # used for every directory which does not specify a different value. # The rationale here is that some directories (eg gettext) might be # distributions of other packages, and thus require their own charset # info. However, the DIST_CHARSET must be the same for the entire # package; it can only be set at top-level. # FIXME: this yields bugs when rebuilding. What to do? Always # read (and sometimes discard) top-level Makefile.am? $maint_charset = ''; $dist_charset = 'utf8'; # recode doesn't support this yet. # Name of input file ("Makefile.in") and output file ("Makefile.am"). # These have no directory components. $am_file_name = ''; $in_file_name = ''; # TRUE if --cygnus seen. $cygnus_mode = 0; # Keys of this hash are names of dependency files to ignore. %omit_dependencies = (); # Hash table of AM_CONDITIONAL variables seen in configure. %configure_cond = (); # Map from obsolete macros to hints for new macros. # FIXME complete the list so that there are no `0' hints. %obsolete_macros = ( 'AC_FEATURE_CTYPE', "use \`AC_HEADER_STDC'", 'AC_FEATURE_ERRNO', "add \`strerror' to \`AC_REPLACE_FUNCS(...)'", 'AC_FEATURE_EXIT', 0, 'AC_SYSTEM_HEADER', 0, # Note that we do not handle this one, because it is still run # from AM_CONFIG_HEADER. So we deal with it specially in # scan_configure. # 'AC_CONFIG_HEADER', "use \`AM_CONFIG_HEADER'", 'fp_C_PROTOTYPES', "use \`AM_C_PROTOTYPES'", 'fp_PROG_CC_STDC', "use \`AM_PROG_CC_STDC'", 'fp_PROG_INSTALL', "use \`AM_PROG_INSTALL'", 'fp_WITH_DMALLOC', "use \`AM_WITH_DMALLOC'", 'fp_WITH_REGEX', "use \`AM_WITH_REGEX'", 'gm_PROG_LIBTOOL', "use \`AM_PROG_LIBTOOL'", 'jm_MAINTAINER_MODE', "use \`AM_MAINTAINER_MODE'", 'md_TYPE_PTRDIFF_T', "use \`AM_TYPE_PTRDIFF_T'", 'ud_PATH_LISPDIR', "use \`AM_PATH_LISPDIR'", # Now part of autoconf proper, under a different name. 'AM_FUNC_FNMATCH', "use \`AC_FUNC_FNMATCH'", 'fp_FUNC_FNMATCH', "use \`AC_FUNC_FNMATCH'", 'AM_SANITY_CHECK_CC', "automatically done by \`AC_PROG_CC'", # These aren't quite obsolete. # 'md_PATH_PROG', ); # Regexp to match the above macros. $obsolete_rx = '(' . join ('|', keys %obsolete_macros) . ')'; &initialize_global_constants; # Parse command line. &parse_arguments (@ARGV); # Do configure.in scan only once. &scan_configure; die "automake: no \`Makefile.am' found or specified\n" if ! @input_files; # If --generate-deps was given, we don't do anything else # if ($generate_deps) { die "automake: Must specify --include-deps (or -i) when generating\n" if ($use_dependencies); die "automake: Must provide --build-dir when generating\n" if (!$build_directory); die "automake: Must provide --srcdir-name when generating\n" if (!$srcdir_name); open(GDEP, ">$output_directory/.dep_segment") || die "automake: Could not open `$output_directory/.dep_segment': $!\n"; &handle_dependencies; print GDEP $output_rules; close(GDEP); exit $exit_status; } # Now do all the work on each file. foreach $am_file (@input_files) { if (! -f ($am_file . '.am')) { &am_error ("\`" . $am_file . ".am' does not exist"); } else { &generate_makefile ($output_files{$am_file}, $am_file); } } if ($seen_prog_install <= $scripts_installed) { &am_conf_error (($scripts_installed ? 'AM_PROG_INSTALL' : 'AC_PROG_INSTALL') . " must be used in configure.in"); &keyed_aclocal_warning ('AM_PROG_INSTALL') if $scripts_installed; } exit $exit_status; ################################################################ # Parse command line. sub parse_arguments { local (@arglist) = @_; # Start off as gnu. &set_strictness ('gnu'); while (@arglist) { if ($arglist[0] eq "--version") { print "automake (GNU $PACKAGE) $VERSION\n\n"; print "Copyright (C) 1998 Free Software Foundation, Inc.\n"; print "This is free software; see the source for copying conditions. There is NO\n"; print "warranty; not even for MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.\n\n"; print "Written by Tom Tromey <tromey\@cygnus.com>\n"; exit 0; } elsif ($arglist[0] eq "--help") { &usage; } elsif ($arglist[0] =~ /^--amdir=(.+)$/) { $am_dir = $1; } elsif ($arglist[0] eq '--amdir') { &require_argument (@arglist); shift (@arglist); $am_dir = $arglist[0]; } elsif ($arglist[0] =~ /^--build-dir=(.+)$/) { # Must end in /. $build_directory = $1 . '/'; } elsif ($arglist[0] eq '--build-dir') { &require_argument (@arglist); shift (@arglist); # Must end in /. $build_directory = $arglist[0] . '/'; } elsif ($arglist[0] =~ /^--srcdir-name=(.+)$/) { $srcdir_name = $1; } elsif ($arglist[0] eq '--srcdir-name') { &require_argument (@arglist); shift (@arglist); $srcdir_name = $arglist[0]; } elsif ($arglist[0] eq '--gnu') { &set_strictness ('gnu'); } elsif ($arglist[0] eq '--gnits') { &set_strictness ('gnits'); } elsif ($arglist[0] eq '--cygnus') { $cygnus_mode = 1; } elsif ($arglist[0] eq '--foreign') { &set_strictness ('foreign'); } elsif ($arglist[0] eq '--include-deps' || $arglist[0] eq '-i') { $cmdline_use_dependencies = 0; } elsif ($arglist[0] eq '--generate-deps') { $generate_deps = $1; } elsif ($arglist[0] eq '--no-force') { $force_generation = 0; } elsif ($arglist[0] =~ /^--output-dir=(.*)$/) { # Set output directory. $output_directory = $1; } elsif ($arglist[0] eq '--output-dir' || $arglist[0] eq '-o') { &require_argument (@arglist); shift (@arglist); $output_directory = $arglist[0]; } elsif ($arglist[0] eq '--add-missing' || $arglist[0] eq '-a') { $add_missing = 1; } elsif ($arglist[0] eq '--verbose' || $arglist[0] eq '-v') { $verbose = 1; } elsif ($arglist[0] eq '--') { # Stop option processing. shift (@arglist); push (@input_files, @arglist); last; } elsif ($arglist[0] =~ /^-/) { die "automake: unrecognized option -- \`$arglist[0]'\nTry \`automake --help' for more information.\n"; } else { # Handle $local:$input syntax. Note that we only examine # the first ":" file to see if it is automake input; the # rest are just taken verbatim. We still keep all the # files around for dependency checking, however. local ($local, $input, @rest) = split (/:/, $arglist[0]); if (! $input) { $input = $local; } else { # Strip .in; later on .am is tacked on. That is how # the automake input file is found. Maybe not the # best way, but it is easy to explain. FIXME: should # be error if .in is missing. $input =~ s/\.in$//; } push (@input_files, $input); $output_files{$input} = join (':', ($local, @rest)); } shift (@arglist); } # Take global strictness from whatever we currently have set. $default_strictness = $strictness; $default_strictness_name = $strictness_name; } # Ensure argument exists, or die. sub require_argument { local ($arg, @arglist) = @_; die "automake: no argument given for option \`$arg'\n" if ! @arglist; } ################################################################ # Generate a Makefile.in given the name of the corresponding Makefile and # the name of the file output by config.status. sub generate_makefile { local ($output, $makefile) = @_; ($am_file_name = $makefile) =~ s/^.*\///; $in_file_name = $am_file_name . '.in'; $am_file_name .= '.am'; # $OUTPUT is encoded. If it contains a ":" then the first element # is the real output file, and all remaining elements are input # files. We don't scan or otherwise deal with these input file, # other than to mark them as dependencies. See scan_configure for # details. local (@secondary_inputs); ($output, @secondary_inputs) = split (/:/, $output); &initialize_per_input; $relative_dir = &dirname ($output); $am_relative_dir = &dirname ($makefile); # At the toplevel directory, we might need config.guess, config.sub # or libtool scripts (ltconfig and ltmain.sh). if ($relative_dir eq '.') { # libtool requires some files. &require_conf_file_with_conf_line ($libtool_line, $FOREIGN, @libtoolize_files) if $seen_libtool; # AC_CANONICAL_HOST and AC_CANONICAL_SYSTEM need config.guess and # config.sub. &require_config_file ($FOREIGN, 'config.guess', 'config.sub') if $seen_canonical; } # We still need Makefile.in here, because sometimes the `dist' # target doesn't re-run automake. if ($am_relative_dir eq $relative_dir) { # Only distribute the files if they are in the same subdir as # the generated makefile. &push_dist_common ($in_file_name, $am_file_name); } push (@sources, '$(SOURCES)') if &variable_defined ('SOURCES'); push (@objects, '$(OBJECTS)') if &variable_defined ('OBJECTS'); &read_am_file ($makefile . '.am'); if (&handle_options) { # Fatal error. Just return, so we can continue with next file. return; } # Check first, because we might modify some state. &check_cygnus; &check_gnu_standards; &check_gnits_standards; &handle_configure ($output, $makefile, @secondary_inputs); &handle_gettext; &handle_libraries; &handle_ltlibraries; &handle_programs; &handle_scripts; &handle_built_sources; # This must be run after all the sources are scanned. &handle_yacc_lex_cxx; # Re-init SOURCES and OBJECTS. FIXME: other code shouldn't depend # on this (but currently does). $contents{'SOURCES'} = join (' ', @sources); $contents{'OBJECTS'} = join (' ', @objects); &handle_texinfo; &handle_emacs_lisp; &handle_java; &handle_man_pages; &handle_data; &handle_headers; &handle_subdirs; &handle_tags; &handle_minor_options; &handle_dist ($makefile); &handle_dependencies; &handle_tests; &handle_footer; &handle_merge_targets ($output); &handle_installdirs; &handle_clean; &handle_phony; &check_typos; if (! -d ($output_directory . '/' . $am_relative_dir)) { mkdir ($output_directory . '/' . $am_relative_dir, 0755); } local ($out_file) = $output_directory . '/' . $makefile . ".in"; if (! $force_generation && -e $out_file) { local ($am_time) = (stat ($makefile . '.am'))[9]; local ($in_time) = (stat ($out_file))[9]; # FIXME: should cache these times. local ($conf_time) = (stat ('configure.in'))[9]; # FIXME: how to do unsigned comparison? if ($am_time < $in_time || $am_time < $conf_time) { # No need to update. return; } if (-f 'aclocal.m4') { local ($acl_time) = (stat _)[9]; return if ($am_time < $acl_time); } } if (! open (GM_FILE, "> " . $out_file)) { warn "automake: ${am_file}.in: cannot write: $!\n"; $exit_status = 1; return; } print "automake: creating ", $makefile, ".in\n" if $verbose; print GM_FILE $output_vars; # We make sure that `all:' is the first target. print GM_FILE $output_all; print GM_FILE $output_header; print GM_FILE $output_rules; print GM_FILE $output_trailer; close (GM_FILE); } ################################################################ # Handle AUTOMAKE_OPTIONS variable. Return 1 on error, 0 otherwise. sub handle_options { if (&variable_defined ('AUTOMAKE_OPTIONS')) { foreach (&variable_value_as_list ('AUTOMAKE_OPTIONS', '')) { $options{$_} = 1; if ($_ eq 'gnits' || $_ eq 'gnu' || $_ eq 'foreign') { &set_strictness ($_); } elsif ($_ eq 'cygnus') { $cygnus_mode = 1; } elsif (/ansi2knr/) { # An option like "../lib/ansi2knr" is allowed. With # no path prefix, we assume the required programs are # in this directory. We save the actual option for # later. $options{'ansi2knr'} = $_; } elsif ($_ eq 'no-installman' || $_ eq 'no-installinfo' || $_ eq 'dist-shar' || $_ eq 'dist-zip' || $_ eq 'dist-tarZ' || $_ eq 'dejagnu' || $_ eq 'no-texinfo.tex' || $_ eq 'readme-alpha' || $_ eq 'check-news') { # Explicitly recognize these. } elsif ($_ eq 'no-dependencies') { $use_dependencies = 0; } elsif (/([0-9]+)\.([0-9]+)/) { # Got a version number. Note that alpha releases # count as the next higher release. Note also that we # assume there will be a maximum of 100 minor releases # for any given major release. local ($rmajor, $rminor) = ($1, $2); if ($VERSION !~ /([0-9]+)\.([0-9]+)([a-z])?/) { print STDERR "automake: programming error: version is incorrect\n"; exit 1; } local ($tmajor, $tminor) = ($1, $2); # Handle alpha versions. ++$tminor if defined $3; if ($rmajor > $tmajor || ($rmajor == $tmajor && $rminor > $tminor)) { &am_line_error ('AUTOMAKE_OPTIONS', "require version $_, only have $VERSION"); return 1; } } else { &am_line_error ('AUTOMAKE_OPTIONS', 'option ', $_, 'not recognized'); } } } if ($strictness == $GNITS) { $options{'readme-alpha'} = 1; $options{'check-news'} = 1; } return 0; } # Return object extension. Just once, put some code into the output. # Argument is the name of the output file sub get_object_extension { local ($out) = @_; # Always set this. $dir_holds_sources = 1; # Maybe require libtool library object files. local ($extension) = '.o'; $extension = '.lo' if ($out =~ /\.la$/); if (! $included_generic_compile) { # Boilerplate. local ($xform) = ''; if (&variable_defined ('CONFIG_HEADER')) { local ($one_hdr); foreach $one_hdr (split (' ', &variable_value ('CONFIG_HEADER'))) { local ($var); ($var = &dirname ($one_hdr)) =~ s/(\W)/\\$1/g; $xform .= ' ' if $xform; $xform .= '-I' . $var; } } $xform = 's/\@CONFIG_INCLUDE_SPEC\@/' . $xform . '/go;'; $output_vars .= &file_contents_with_transform ($xform, 'comp-vars'); $output_rules .= &file_contents_with_transform ($use_dependencies ? 's/^NOTDEPEND.*$//;' : 's/^NOTDEPEND//;', 'compile'); &push_phony_cleaners ('compile'); # If using X, include some extra variable definitions. NOTE # we don't want to force these into CFLAGS or anything, # because not all programs will necessarily use X. if ($seen_path_xtra) { local ($var); foreach $var ('X_CFLAGS', 'X_LIBS', 'X_EXTRA_LIBS', 'X_PRE_LIBS') { &define_configure_variable ($var); } } push (@suffixes, '.c', '.o', '.S', '.s'); push (@clean, 'compile'); $included_generic_compile = 1; } if ($seen_libtool && ! $included_libtool_compile) { # Output the libtool compilation rules. $output_rules .= &file_contents_with_transform ($use_dependencies ? 's/^NOTDEPEND.*$//;' : 's/^NOTDEPEND//;', 'libtool'); &push_phony_cleaners ('libtool'); push (@suffixes, '.lo'); push (@clean, 'libtool'); $included_libtool_compile = 1; } # Check for automatic de-ANSI-fication. if (defined $options{'ansi2knr'}) { $extension = '$U' . $extension; if (! $included_knr_compile) { if (! $am_c_prototypes) { &am_line_error ('AUTOMAKE_OPTIONS', "option \`ansi2knr' in use but \`AM_C_PROTOTYPES' not in configure.in"); &keyed_aclocal_warning ('AM_C_PROTOTYPES'); # Only give this error once. $am_c_prototypes = 1; } # Only require ansi2knr files if they should appear in # this directory. if ($options{'ansi2knr'} eq 'ansi2knr') { &require_file_with_line ('AUTOMAKE_OPTIONS', $FOREIGN, 'ansi2knr.c', 'ansi2knr.1'); $output_rules .= &file_contents ('kr-extra'); push (@clean, 'krextra'); &push_phony_cleaners ('krextra'); } # Generate rules to build ansi2knr. If it is in some # other directory, then generate dependencies but have the # rule just run elsewhere. $output_rules .= ($options{'ansi2knr'} . ': ' . $options{'ansi2knr'} . ".o\n"); if ($options{'ansi2knr'} eq 'ansi2knr') { $output_rules .= ("\t\$(LINK) ansi2knr.o \$(LIBS)\n" . "ansi2knr.o: \$(CONFIG_HEADER)\n\n"); } else { $output_rules .= ("\tcd " . &dirname ($options{'ansi2knr'}) . " && \$(MAKE) ansi2knr\n\n"); } # Make sure ansi2knr can be found: if no path specified, # specify "./". if ($options{'ansi2knr'} eq 'ansi2knr') { # Substitution from AM_C_PROTOTYPES. This makes it be # built only when necessary. &define_configure_variable ('ANSI2KNR'); # ansi2knr needs to be built before subdirs, so unshift it. unshift (@all, '$(ANSI2KNR)'); } else { # Found in another directory. &define_variable ("ANSI2KNR", $options{'ansi2knr'}); } $output_rules .= &file_contents ('clean-kr'); push (@clean, 'kr'); &push_phony_cleaners ('kr'); $included_knr_compile = 1; } } return $extension; } # Handle yacc and lex. sub handle_yacc_lex_cxx { # # First do yacc and lex. # local ($yacc_count) = scalar (keys %yacc_sources); local ($lex_count) = scalar (keys %lex_sources); if ($yacc_count) { local ($file, $base, $hname, $cname); local (%seen_suffix) = (); foreach $file (keys %yacc_sources) { $file =~ /(\..*)$/; &output_yacc_build_rule ($1, $yacc_count > 1) if (! defined $seen_suffix{$1}); $seen_suffix{$1} = 1; # Now generate rule to make the header file. This should # only be generated if `yacc -d' specified. But right now # there is no way to determine that. FIXME: the # AM_FOOFLAGS idea would suffice here. $file =~ /^(.*)\.(y|yy|y\+\+|yxx)$/; $base = $1; ($hname = $2) =~ tr/y/h/; ($cname = $2) =~ tr/y/c/; $output_rules .= "${base}.${hname}: ${base}.${cname}\n"; } $output_rules .= "\n"; if (! defined $configure_vars{'YACC'}) { &am_error ("yacc source seen but \`YACC' not defined in \`configure.in'"); } if (&variable_defined ('YACCFLAGS')) { &am_line_error ('YACCFLAGS', "\`YACCFLAGS' obsolete; use \`YFLAGS' instead"); } } if ($lex_count) { local (%seen_suffix) = (); foreach (keys %lex_sources) { /(\..*)$/; &output_lex_build_rule ($1, $lex_count > 1) if (! defined $seen_suffix{$1}); $seen_suffix{$1} = 1; } if (! defined $configure_vars{'LEX'}) { &am_error ("lex source seen but \`LEX' not defined in \`configure.in'"); } if (! $seen_decl_yytext) { &am_error ("lex source seen but \`AC_DECL_YYTEXT' not in \`configure.in'"); } } if ($yacc_count > 1 || $lex_count > 1) { # If there is more than one distinct yacc (resp lex) source # file in a given directory, then the `ylwrap' program is # required to allow parallel builds to work correctly. FIXME: # for now, no line number. &require_config_file ($FOREIGN, 'ylwrap'); if ($config_aux_dir ne '.' && $config_aux_dir ne '') { &define_variable ('YLWRAP', $config_aux_dir . "/ylwrap"); } else { &define_variable ('YLWRAP', '$(srcdir)/ylwrap'); } } # # Handle libtool. # local ($ltcompile, $ltlink) = ('', ''); if ($seen_libtool) { &define_configure_variable ("LIBTOOL"); $ltcompile = '$(LIBTOOL) --mode=compile '; $ltlink = '$(LIBTOOL) --mode=link '; } # # Now handle C++. # local (@cxx_list) = keys %cxx_extensions; local ($cxx_count) = scalar @cxx_list; if ($cxx_count) { push (@suffixes, @cxx_list); &define_configure_variable ("CXXFLAGS"); &define_variable ('CXXCOMPILE', '$(CXX) $(DEFS) $(INCLUDES) $(CPPFLAGS) $(CXXFLAGS)'); &define_variable ('LTCXXCOMPILE', $ltcompile . '$(CXX) $(DEFS) $(INCLUDES) $(CPPFLAGS) $(CXXFLAGS)') if ($seen_libtool); &define_variable ('CXXLINK', $ltlink . '$(CXX) $(CXXFLAGS) $(LDFLAGS) -o $@'); local ($ext); foreach $ext (@cxx_list) { $output_rules .= ("$ext.o:\n" . "\t\$(CXXCOMPILE) -c \$<\n"); $output_rules .= ("$ext.lo:\n" . "\t\$(LTCXXCOMPILE) -c \$<\n") if ($seen_libtool); } if (! defined $configure_vars{'CXX'}) { &am_error ("C++ source seen but \`CXX' not defined in \`configure.in'"); } } # # Handle some ansi2knr cleanup. # if (defined $options{'ansi2knr'} && keys %de_ansi_files) { # Make all _.c files depend on their corresponding .c files. local ($base, @objects); foreach $base (sort (keys %de_ansi_files)) { # Each _.c file must depend on ansi2knr; otherwise it # might be used in a parallel build before it is built. # We need to support files in the srcdir and in the build # dir (because these files might be auto-generated. But # we can't use $< -- some makes only define $< during a # suffix rule. $output_rules .= ($base . "_.c: $base.c \$(ANSI2KNR)\n\t" . '$(ANSI2KNR) ' . '`if test -f $(srcdir)/' . $base . '.c' . '; then echo $(srcdir)/' . $base . '.c' . '; else echo ' . $base . '.c; fi` ' . $base . "_.c\n"); push (@objects, $base . '_.o'); push (@objects, $base . '_.lo') if $seen_libtool; } # Make all _.o (and _.lo) files depend on ansi2knr. # Use a sneaky little hack to make it print nicely. &pretty_print_rule ('', '', @objects, ':', '$(ANSI2KNR)'); } # # Last, handle some C cleanup. # if ($seen_any_source) { &define_configure_variable ('CFLAGS'); &define_variable ('COMPILE', '$(CC) $(DEFS) $(INCLUDES) $(CPPFLAGS) $(CFLAGS)'); &define_variable ('LTCOMPILE', $ltcompile . '$(CC) $(DEFS) $(INCLUDES) $(CPPFLAGS) $(CFLAGS)') if ($seen_libtool); &define_variable ('LINK', $ltlink . '$(CC) $(CFLAGS) $(LDFLAGS) -o $@'); } if ($seen_c_source && ! defined $configure_vars{'CC'}) { &am_line_error ($seen_c_source, "C source seen but \`CC' not defined in \`configure.in'"); } } # Output a rule to build from a YACC source. The output from YACC is # compiled with C or C++, depending on the extension of the YACC file. sub output_yacc_build_rule { local ($yacc_suffix, $use_ylwrap, $c_suffix) = @_; local ($suffix); ($suffix = $yacc_suffix) =~ tr/y/c/; push (@suffixes, $yacc_suffix, $suffix); # Generate rule for c/c++. $output_rules .= "$yacc_suffix$suffix:\n\t"; if ($use_ylwrap) { $output_rules .= ('$(SHELL) $(YLWRAP)' . ' "$(YACC)" $< y.tab.c $*' . $suffix . ' y.tab.h $*.h -- $(YFLAGS)'); } else { $output_rules .= ('$(YACC) $(YFLAGS) $< && mv y.tab.c $*' . $suffix . "\n" . "\tif test -f y.tab.h; then \\\n" . "\tif cmp -s y.tab.h \$*.h; then rm -f y.tab.h; else mv y.tab.h \$*.h; fi; \\\n" . "\telse :; fi"); } $output_rules .= "\n"; } sub output_lex_build_rule { local ($lex_suffix, $use_ylwrap) = @_; local ($c_suffix); ($c_suffix = $lex_suffix) =~ tr/l/c/; push (@suffixes, $lex_suffix); &define_configure_variable ('LEX_OUTPUT_ROOT'); &define_configure_variable ('LEXLIB'); $output_rules .= "$lex_suffix$c_suffix:\n\t"; if ($use_ylwrap) { # Is the $@ correct here? If so, why not use it in the ylwrap # build rule for yacc above? $output_rules .= '$(SHELL) $(YLWRAP)' . ' "$(LEX)" $< $(LEX_OUTPUT_ROOT).c $@ -- $(LFLAGS)'; } else { $output_rules .= '$(LEX) $(LFLAGS) $< && mv $(LEX_OUTPUT_ROOT).c $@'; } $output_rules .= "\n"; } # Check to make sure a source defined in LIBOBJS is not explicitly # mentioned. This is a separate function (as opposed to being inlined # in handle_source_transform) because it isn't always appropriate to # do this check. sub check_libobjs_sources { local ($one_file, $unxformed) = @_; local ($prefix, $file, @files); foreach $prefix ('', 'EXTRA_') { if (&variable_defined ($prefix . $one_file . '_SOURCES')) { @files = &variable_value_as_list (($prefix . $one_file . '_SOURCES'), 'all'); } elsif ($prefix eq '') { @files = ($unxformed . '.c'); } else { next; } foreach $file (@files) { if (defined $libsources{$file}) { &am_line_error ($prefix . $one_file . '_SOURCES', "automatically discovered file \`$file' should not be explicitly mentioned"); } } } } # Does much of the actual work for handle_source_transform. # Arguments are: # pattern matching object extension (e.g., .o) # list of source files to transform # Result is a list # first element is name of linker to use (empty string for default linker) # remaining elements are names of `.o's sub handle_single_transform_list { local ($objpat, @files) = @_; local ($linker) = ''; local (@result) = (); local ($nonansi_obj) = $obj; $nonansi_obj =~ s/_//g; if (@files > 0) { # Turn sources into objects. foreach (@files) { # Skip header files, including C++-ish ones. The list # of C++ header extensions comes from Emacs 19.32 # etags. next if /\.[hH]$/; next if /\.hxx$/; next if /\.h\+\+$/; next if /\.hh$/; next if /\.hpp$/; # Skip things that look like configure substitutions. next if /^\@.*\@$/; # Include appropriate file for lex or yacc source in # distribution. If the extension is the regular '.y' or # '.l', we assume C compilation, and the generated file # has exension .c. Otherwise, we compile with C++, and # make the following association: (yy -> cc, y++ -> c++, # yxx -> cxx), similarly for .ll, etc. if (/^(.*)\.(y|yy|y\+\+|yxx)$/) { # Yacc source. local ($ext) = $2; $ext =~ tr/y/c/; &push_dist_common ("$1.$ext"); $yacc_sources{$_} = 1; } elsif (/^(.*)\.(l|ll|l\+\+|lxx)$/) { # Lex source. local ($ext) = $2; $ext =~ tr/l/c/; &push_dist_common ("$1.$ext"); $lex_sources{$_} = 1; } # Strip any directory prefix. $_ = &basename ($_); local ($is_cxx) = 0; # Transform source files into .o files. List of C++ # extensions comes from Emacs 19.34 etags. if (s/\.(c\+\+|cc|cpp|cxx|C)$/$nonansi_obj/) { $cxx_extensions{'.' . $1} = 1; $linker = 'CXXLINK'; $is_cxx = 1; } elsif (s/\.(yy|y\+\+|yxx|ll|l\+\+|lxx)$/$nonansi_obj/) { # Compiling lex or yacc with C++ local ($ext) = $1; $ext =~ tr/ly/cc/; $cxx_extensions{".$ext"} = 1; $linker = 'CXXLINK'; } elsif (s/\.([Ff]|f90|for)$/$nonansi_obj/) { # FORTRAN support. FIXME: not finished. } elsif (s/\.[sS]$/$nonansi_obj/) { # .s is assembly. Just rewrite it. FIXME: not finished. } elsif (defined ($options{'ansi2knr'}) && s/_\.[cly]$/_.c/) { # FIXME include line number in error. &am_error ("C source file \`$_' would be deleted by ansi2knr rules"); } elsif (s/\.[cly]$//) { # .c is C. .l is lex. .y is yacc. # Note: first we rewrite (eg) foo.c to foo and push # the file onto the list of deansified files. Then we add # $obj, which can either be `_.o', or simply `.o' if # deansification is not required. $de_ansi_files{$_} = 1; $_ .= $obj; $seen_c_source = 1; } elsif (/\.$source_suffix_pattern$/) { # We just rewrite it. Maybe we should do more. s//.$suffix_rules{$1}/; $objpat = "\\." . $suffix_rules{$1}; } else { # No error message here. Used to have one, but it was # very unpopular. next; } $seen_any_source = 1 unless $is_cxx; push (@result, $_); # Transform .o or $o file into .P file (for automatic # dependency code). s/$objpat$/.P/g; $dep_files{'.deps/' . $_} = 1; } } return ($linker, @result); } # Handle SOURCE->OBJECT transform for one program or library. # Arguments are: # canonical (transformed) name of object to build # actual name of object to build # object extension (ie either `.o' or `$o'. # Return result is name of linker variable that must be used. # Empty return means just use `LINK'. sub handle_source_transform { # one_file is canonical name. unxformed is given name. obj is # object extension. local ($one_file, $unxformed, $obj) = @_; local ($objpat) = $obj; $objpat =~ s/(\W)/\\$1/g; # Handle explicit `.o' as well as whatever we're passed. $objpat = '(' . $objpat . "|\\.o)"; local ($linker) = ''; if (&variable_defined ($one_file . "_OBJECTS")) { &am_line_error ($one_file . '_OBJECTS', $one_file . '_OBJECTS', 'should not be defined'); # No point in continuing. return; } local (@files, @result, $prefix, $temp); foreach $prefix ('', 'EXTRA_') { @files = (); local ($var) = $prefix . $one_file . "_SOURCES"; if (&variable_defined ($var)) { push (@sources, '$(' . $prefix . $one_file . "_SOURCES)"); push (@objects, '$(' . $prefix . $one_file . "_OBJECTS)") unless $prefix eq 'EXTRA_'; local (@conds) = &variable_conditions ($var); if (! @conds) { @files = &variable_value_as_list ($var, ''); } else { local ($cond, $cond_var_name); local ($count) = 0; local (@namelist) = (); foreach $cond (@conds) { @files = &variable_value_as_list ($var, $cond); ($temp, @result) = &handle_single_transform_list ($objpat, @files); $linker = $temp if $linker eq ''; # We have to have a new name for each such # variable. Then we define the _OBJECTS variable # as the union of all such variables. Hopefully # this is the Right Thing. $cond_var_name = 'cond' . $count . $one_file . '_OBJECTS'; &define_pretty_variable ($cond_var_name, $cond, @result) unless $prefix eq 'EXTRA_'; push (@namelist, '$(' . $cond_var_name . ')'); ++$count; } &define_pretty_variable ($one_file . '_OBJECTS', '', @namelist); next; } } elsif ($prefix eq '') { &define_variable ($one_file . "_SOURCES", $unxformed . ".c"); push (@sources, $unxformed . '.c'); push (@objects, $unxformed . $obj); push (@files, $unxformed . '.c'); } ($temp, @result) = &handle_single_transform_list ($objpat, @files); $linker = $temp if $linker eq ''; &define_pretty_variable ($one_file . "_OBJECTS", '', @result) unless $prefix eq 'EXTRA_'; } return $linker; } # Handle the BUILT_SOURCES variable. sub handle_built_sources { return unless &variable_defined ('BUILT_SOURCES'); local (@sources) = &variable_value_as_list ('BUILT_SOURCES', 'all'); local ($s); foreach $s (@sources) { if (/^\@.*\@$/) { # FIXME: is this really the right thing to do? &am_line_error ('BUILT_SOURCES', "\`BUILT_SOURCES' should not contain a configure substitution"); last; } } # We don't care about the return value of this function. We just # want to make sure to update %dep_files with the contents of # BUILT_SOURCES. &handle_single_transform_list ("\\.o", @sources); } # Special-case @ALLOCA@ and @LIBOBJS@ in _LDADD or _LIBADD variables. # Also, generate _DEPENDENCIES variable if appropriate. # Arguments are: # transformed name of object being built, or empty string if no object # name of _LDADD/_LIBADD-type variable to examine # boolean (lex_seen) which is true if a lex source file was seen in this # object. valid only for LDADDs, not LIBADDs. # Returns 1 if LIBOBJS seen, 0 otherwise. sub handle_lib_objects { local ($xname, $var, $lex_seen) = @_; local ($ret); die "automake: programming error 1 in handle_lib_objects\n" if ! &variable_defined ($var); die "automake: programming error 2 in handle_lib_objects\n" if $lex_seen && $var =~ /LIBADD/; local (@conds) = &variable_conditions ($var); if (! @conds) { $ret = &handle_lib_objects_cond ($xname, $var, $lex_seen, ''); } else { local ($cond); $ret = 0; foreach $cond (@conds) { if (&handle_lib_objects_cond ($xname, $var, $lex_seen, $cond)) { $ret = 1; } } } return $ret; } # Subroutine of handle_lib_objects: handle a particular condition. sub handle_lib_objects_cond { local ($xname, $var, $lex_seen, $cond) = @_; # We recognize certain things that are commonly put in LIBADD or # LDADD. local ($lsearch); local (@dep_list) = (); local ($seen_libobjs) = 0; local ($flagvar) = 0; foreach $lsearch (&variable_value_as_list ($var, $cond)) { # Skip -lfoo and -Ldir; these are explicitly allowed. next if $lsearch =~ /^-[lL]/; if (! $flagvar && $lsearch =~ /^-/) { if ($var =~ /^(.*)LDADD$/) { &am_line_error ($var, "linker flags such as \`$lsearch' belong in \`${1}LDFLAGS"); } else { # Only get this error once. $flagvar = 1; &am_line_error ($var, "you cannot use linker flags such as \`$lsearch' in \`$var'"); } } # Assume we have a file of some sort, and push it onto the # dependency list. Autoconf substitutions are not pushed; # rarely is a new dependency substituted into (eg) foo_LDADD # -- but "bad things (eg -lX11) are routinely substituted. # Note that LIBOBJS and ALLOCA are exceptions to this rule, # and handled specially below. push (@dep_list, $lsearch) unless $lsearch =~ /^\@.*\@$/; # Automatically handle @LIBOBJS@ and @ALLOCA@. Basically this # means adding entries to dep_files. if ($lsearch =~ /^\@(LT)?LIBOBJS\@$/) { push (@dep_list, $lsearch); $seen_libobjs = 1; if (! keys %libsources) { &am_line_error ($var, "\@$1" . "LIBOBJS\@ seen but never set in \`configure.in'"); } local ($iter, $rewrite); foreach $iter (keys %libsources) { if ($iter =~ /\.[cly]$/) { $seen_c_source = $var; $seen_any_source = 1; } if ($iter =~ /\.h$/) { &require_file_with_line ($var, $FOREIGN, $iter); } elsif ($iter ne 'alloca.c') { ($rewrite = $iter) =~ s/\.c$/.P/; $dep_files{'.deps/' . $rewrite} = 1; &require_file_with_line ($var, $FOREIGN, $iter); } } } elsif ($lsearch =~ /^\@(LT)?ALLOCA\@$/) { push (@dep_list, $lsearch); &am_line_error ($var, "\@$1" . "ALLOCA\@ seen but \`AC_FUNC_ALLOCA' not in \`configure.in'") if ! defined $libsources{'alloca.c'}; $dep_files{'.deps/alloca.P'} = 1; &require_file_with_line ($var, $FOREIGN, 'alloca.c'); $seen_c_source = $var; $seen_any_source = 1; } } if ($xname ne '' && ! &variable_defined ($xname . '_DEPENDENCIES', $cond)) { &define_pretty_variable ($xname . '_DEPENDENCIES', $cond, @dep_list); } return $seen_libobjs; } # Canonicalize a name, and check to make sure the non-canonical name # is never used. Returns canonical name. Arguments are name and a # list of suffixes to check for. sub check_canonical_spelling { local ($name, @suffixes) = @_; local ($xname, $xt); ($xname = $name) =~ tr/A-Za-z0-9_/_/c; if ($xname ne $name) { local ($xt); foreach $xt (@suffixes) { &am_line_error ($name . $xt, "invalid variable \`" . $name . $xt . "'; should be \`" . $xname . $xt . "'") if &variable_defined ($name . $xt); } } return $xname; } # Handle C programs. sub handle_programs { local (@proglist) = &am_install_var ('-clean', 'progs', 'PROGRAMS', 'bin', 'sbin', 'libexec', 'pkglib', 'noinst', 'check'); return if ! @proglist; # If a program is installed, this is required. We only want this # error to appear once. &am_conf_error ("AC_ARG_PROGRAM must be used in configure.in") unless $seen_arg_prog; $seen_arg_prog = 1; local ($one_file, $xname, $munge); local ($seen_libobjs) = 0; foreach $one_file (@proglist) { local ($obj) = &get_object_extension ($one_file); # Canonicalize names and check for misspellings. $xname = &check_canonical_spelling ($one_file, '_LDADD', '_LDFLAGS', '_SOURCES', '_OBJECTS', '_DEPENDENCIES'); # FIXME: Using a trick to figure out if any lex sources appear # in our program; should use some cleaner method. local ($lex_num) = scalar (keys %lex_sources); local ($linker) = &handle_source_transform ($xname, $one_file, $obj); local ($lex_file_seen) = (scalar (keys %lex_sources) > $lex_num); local ($xt) = ''; if (&variable_defined ($xname . "_LDADD")) { if (&handle_lib_objects ($xname, $xname . '_LDADD', $lex_file_seen)) { $seen_libobjs = 1; } $lex_file_seen = 0; $xt = '_LDADD'; } else { # User didn't define prog_LDADD override. So do it. &define_variable ($xname . '_LDADD', '$(LDADD)'); # This does a bit too much work. But we need it to # generate _DEPENDENCIES when appropriate. if (&variable_defined ('LDADD')) { if (&handle_lib_objects ($xname, 'LDADD', $lex_file_seen)) { $seen_libobjs = 1; } $lex_file_seen = 0; } elsif (! &variable_defined ($xname . '_DEPENDENCIES')) { &define_variable ($xname . '_DEPENDENCIES', ''); } $xt = '_SOURCES' } if (&variable_defined ($xname . '_LIBADD')) { &am_line_error ($xname . '_LIBADD', "use \`" . $xname . "_LDADD', not \`" . $xname . "_LIBADD'"); } if (! &variable_defined ($xname . '_LDFLAGS')) { # Define the prog_LDFLAGS variable. &define_variable ($xname . '_LDFLAGS', ''); } # Determine program to use for link. local ($xlink); if (&variable_defined ($xname . '_LINK')) { $xlink = $xname . '_LINK'; } else { $xlink = $linker ? $linker : 'LINK'; } local ($xexe); if ($seen_exeext && $one_file !~ /\./) { $xexe = 's/\@EXEEXT\@/\$(EXEEXT)/g;'; } else { $xexe = 's/\@EXEEXT\@//g;'; } $output_rules .= &file_contents_with_transform ('s/\@PROGRAM\@/' . $one_file . '/go;' . 's/\@XPROGRAM\@/' . $xname . '/go;' . 's/\@XLINK\@/' . $xlink . '/go;' . $xexe, 'program'); } if (&variable_defined ('LDADD') && &handle_lib_objects ('', 'LDADD', 0)) { $seen_libobjs = 1; } if ($seen_libobjs) { foreach $one_file (@proglist) { # Canonicalize names. ($xname = $one_file) =~ tr/A-Za-z0-9_/_/c; if (&variable_defined ($xname . '_LDADD')) { &check_libobjs_sources ($xname, $xname . '_LDADD'); } elsif (&variable_defined ('LDADD')) { &check_libobjs_sources ($xname, 'LDADD'); } } } } # Handle libraries. sub handle_libraries { local (@liblist) = &am_install_var ('-clean', 'libs', 'LIBRARIES', 'lib', 'pkglib', 'noinst', 'check'); return if ! @liblist; local (%valid) = &am_primary_prefixes ('LIBRARIES', 'lib', 'pkglib', 'noinst', 'check'); if (! defined $configure_vars{'RANLIB'}) { local ($key); foreach $key (keys %valid) { if (&variable_defined ($key . '_LIBRARIES')) { &am_line_error ($key . '_LIBRARIES', "library used but \`RANLIB' not defined in \`configure.in'"); # Only get this error once. $configure_vars{'RANLIB'} = 1; last; } } } local ($onelib); local ($munge); local ($xlib); local ($seen_libobjs) = 0; foreach $onelib (@liblist) { # Check that the library fits the standard naming convention. if ($onelib !~ /^lib.*\.a$/) { # FIXME should put line number here. That means mapping # from library name back to variable name. &am_error ("\`$onelib' is not a standard library name"); } local ($obj) = &get_object_extension ($onelib); # Canonicalize names and check for misspellings. $xlib = &check_canonical_spelling ($onelib, '_LIBADD', '_SOURCES', '_OBJECTS', '_DEPENDENCIES'); if (&variable_defined ($xlib . '_LIBADD')) { if (&handle_lib_objects ($xlib, $xlib . '_LIBADD', 0)) { $seen_libobjs = 1; } } else { # Generate support for conditional object inclusion in # libraries. &define_variable ($xlib . "_LIBADD", ''); } if (&variable_defined ($xlib . '_LDADD')) { &am_line_error ($xlib . '_LDADD', "use \`" . $xlib . "_LIBADD', not \`" . $xlib . "_LDADD'"); } &handle_source_transform ($xlib, $onelib, $obj); $output_rules .= &file_contents_with_transform ('s/\@LIBRARY\@/' . $onelib . '/go;' . 's/\@XLIBRARY\@/' . $xlib . '/go;', 'library'); } if ($seen_libobjs) { foreach $onelib (@liblist) { # Canonicalize names. ($xlib = $onelib) =~ tr/A-Za-z0-9_/_/c; if (&variable_defined ($xlib . '_LIBADD')) { &check_libobjs_sources ($xlib, $xlib . '_LIBADD'); } } } &define_variable ('AR', 'ar'); &define_configure_variable ('RANLIB'); } # Handle shared libraries. sub handle_ltlibraries { local (@liblist) = &am_install_var ('-clean', 'ltlib', 'LTLIBRARIES', 'lib', 'pkglib'); return if ! @liblist; local (%instdirs); local (%valid) = &am_primary_prefixes ('LTLIBRARIES', 'lib', 'pkglib'); local ($key); foreach $key (keys %valid) { if (&variable_defined ($key . '_LTLIBRARIES')) { if (!$seen_libtool) { &am_line_error ($key . '_LTLIBRARIES', "library used but \`LIBTOOL' not defined in \`configure.in'"); # Only get this error once. $configure_vars{'LIBTOOL'} = 1; $seen_libtool = 1; } # Get the installation directory of each library. for (&variable_value_as_list ($key . '_LTLIBRARIES', 'all')) { if ($instdirs{$_}) { &am_error ("\`$_' is already going to be installed in \`$instdirs{$_}'"); } else { $instdirs{$_} = $key; } } } } local ($onelib); local ($munge); local ($xlib); local ($seen_libobjs) = 0; foreach $onelib (@liblist) { # Check that the library fits the standard naming convention. if ($onelib !~ /^lib.*\.la$/) { # FIXME this should only be a warning for foreign packages # FIXME should put line number here. That means mapping # from library name back to variable name. &am_error ("\`$onelib' is not a standard libtool library name"); } local ($obj) = &get_object_extension ($onelib); # Canonicalize names and check for misspellings. $xlib = &check_canonical_spelling ($onelib, '_LIBADD', '_LDFLAGS', '_SOURCES', '_OBJECTS', '_DEPENDENCIES'); if (! &variable_defined ($xlib . '_LDFLAGS')) { # Define the lib_LDFLAGS variable. &define_variable ($xlib . '_LDFLAGS', ''); } if (&variable_defined ($xlib . '_LIBADD')) { if (&handle_lib_objects ($xlib, $xlib . '_LIBADD', 0)) { $seen_libobjs = 1; } } else { # Generate support for conditional object inclusion in # libraries. &define_variable ($xlib . "_LIBADD", ''); } if (&variable_defined ($xlib . '_LDADD')) { &am_line_error ($xlib . '_LDADD', "use \`" . $xlib . "_LIBADD', not \`" . $xlib . "_LDADD'"); } local ($linker) = &handle_source_transform ($xlib, $onelib, $obj); # Determine program to use for link. local ($xlink); if (&variable_defined ($xlib . '_LINK')) { $xlink = $xlib . '_LINK'; } else { $xlink = $linker ? $linker : 'LINK'; } local ($rpath); if ($instdirs{$onelib} eq 'EXTRA') { # It's an EXTRA_ library, so we can't specify -rpath. # Yuck. $rpath = 's/\@RPATH\@//go;'; } else { $rpath = ('s/\@RPATH\@/-rpath \$(' . $instdirs{$onelib} . 'dir)/go;'); } $output_rules .= &file_contents_with_transform ('s/\@LTLIBRARY\@/' . $onelib . '/go;' . 's/\@XLTLIBRARY\@/' . $xlib . '/go;' . $rpath . 's/\@XLINK\@/' . $xlink . '/go;', 'ltlibrary'); } if ($seen_libobjs) { foreach $onelib (@liblist) { # Canonicalize names. ($xlib = $onelib) =~ tr/A-Za-z0-9_/_/c; if (&variable_defined ($xlib . '_LIBADD')) { &check_libobjs_sources ($xlib, $xlib . '_LIBADD'); } } } } # See if any _SOURCES variable were misspelled. Also, make sure that # EXTRA_ variables don't contain configure substitutions. sub check_typos { local ($varname, $primary); foreach $varname (keys %contents) { foreach $primary ('_SOURCES', '_LIBADD', '_LDADD', '_LDFLAGS', '_DEPENDENCIES') { if ($varname =~ /$primary$/ && ! $content_seen{$varname}) { &am_line_error ($varname, "invalid unused variable name: \`$varname'"); } } } } # Handle scripts. sub handle_scripts { # NOTE we no longer automatically clean SCRIPTS, because it is # useful to sometimes distribute scripts verbatim. This happens # eg in Automake itself. &am_install_var ('scripts', 'SCRIPTS', 'bin', 'sbin', 'libexec', 'pkgdata', 'noinst', 'check'); # Set $scripts_installed if appropriate. Make sure we only find # scripts which are actually installed -- this is why we can't # simply use the return value of am_install_var. local (%valid) = &am_primary_prefixes ('SCRIPTS', 'bin', 'sbin', 'libexec', 'pkgdata', 'noinst', 'check'); local ($key); foreach $key (keys %valid) { if ($key ne 'noinst' && $key ne 'check' && &variable_defined ($key . '_SCRIPTS')) { $scripts_installed = 1; # push (@check_tests, 'check-' . $key . 'SCRIPTS'); } } if ($scripts_installed) { # If a program is installed, this is required. We only want this # error to appear once. &am_conf_error ("AC_ARG_PROGRAM must be used in configure.in") unless $seen_arg_prog; $seen_arg_prog = 1; } } # Search a file for a "version.texi" Texinfo include. Return the name # of the include file if found, or the empty string if not. A # "version.texi" file is actually any file whose name matches # "vers*.texi". sub scan_texinfo_file { local ($filename) = @_; if (! open (TEXI, $filename)) { &am_error ("couldn't open \`$filename': $!"); return ''; } print "automake: reading $filename\n" if $verbose; local ($vfile, $outfile); while (<TEXI>) { if (/^\@setfilename +(\S+)/) { $outfile = $1; last if ($vfile); } if (/^\@include\s+(vers[^.]*\.texi)\s*$/) { # Found version.texi include. $vfile = $1; last if $outfile; } } close (TEXI); return ($outfile, $vfile); } # Handle all Texinfo source. sub handle_texinfo { &am_line_error ('TEXINFOS', "\`TEXINFOS' is an anachronism; use \`info_TEXINFOS'") if &variable_defined ('TEXINFOS'); return if (! &variable_defined ('info_TEXINFOS') && ! &variable_defined ('html_TEXINFOS')); local (@texis) = &variable_value_as_list ('info_TEXINFOS', 'all'); local (@info_deps_list, @dvis_list, @texi_deps); local ($infobase, $info_cursor); local (%versions); local ($done) = 0; local ($vti); local ($tc_cursor, @texi_cleans); local ($canonical); foreach $info_cursor (@texis) { # FIXME: This is mildly hacky, since it recognizes "txinfo". # I don't feel like making it right. ($infobase = $info_cursor) =~ s/\.te?xi(nfo)?$//; # If 'version.texi' is referenced by input file, then include # automatic versioning capability. local ($out_file, $vtexi) = &scan_texinfo_file ($relative_dir . "/" . $info_cursor); if ($out_file eq '') { &am_error ("\`$info_cursor' missing \@setfilename"); next; } if ($out_file =~ /\.(.+)$/ && $1 ne 'info') { # FIXME should report line number in input file. &am_error ("output of \`$info_cursor', \`$out_file', has unrecognized extension"); next; } if ($vtexi) { &am_error ("\`$vtexi', included in \`$info_cursor', also included in \`$versions{$vtexi}'") if (defined $versions{$vtexi}); $versions{$vtexi} = $info_cursor; # We number the stamp-vti files. This is doable since the # actual names don't matter much. We only number starting # with the second one, so that the common case looks nice. $vti = 'vti' . ($done ? $done : ''); &push_dist_common ($vtexi, 'stamp-' . $vti); push (@clean, $vti); # Only require once. &require_conf_file_with_line ('info_TEXINFOS', $FOREIGN, 'mdate-sh') if ! $done; ++$done; local ($conf_pat); ($conf_pat = $config_aux_dir) =~ s/(\W)/\\$1/g; $output_rules .= &file_contents_with_transform ('s/\@TEXI\@/' . $info_cursor . '/g; ' . 's/\@VTI\@/' . $vti . '/g; ' . 's/\@VTEXI\@/' . $vtexi . '/g;' . 's,\@MDDIR\@,' . $conf_pat . ',g;', 'texi-vers'); &push_phony_cleaners ($vti); } # If user specified file_TEXINFOS, then use that as explicit # dependency list. @texi_deps = (); push (@texi_deps, $info_cursor); push (@texi_deps, $vtexi) if $vtexi; # Canonicalize name first. ($canonical = $infobase) =~ tr/A-Za-z0-9_/_/c; if (&variable_defined ($canonical . "_TEXINFOS")) { push (@texi_deps, '$(' . $canonical . '_TEXINFOS)'); &push_dist_common ('$(' . $canonical . '_TEXINFOS)'); } $output_rules .= ("\n" . $out_file . ": " . join (' ', @texi_deps) . "\n" . $infobase . ".dvi: " . join (' ', @texi_deps) . "\n\n"); push (@info_deps_list, $out_file); push (@dvis_list, $infobase . '.dvi'); # Generate list of things to clean for this target. We do # this explicitly because otherwise too many things could be # removed. In particular the ".log" extension might # reasonably be used in other contexts by the user. foreach $tc_cursor ('aux', 'cp', 'cps', 'dvi', 'fn', 'fns', 'ky', 'kys', 'ps', 'log', 'pg', 'toc', 'tp', 'tps', 'vr', 'vrs', 'op', 'tr', 'cv', 'cn') { push (@texi_cleans, $infobase . '.' . $tc_cursor); } } # Find these programs wherever they may lie. Yes, this has # intimate knowledge of the structure of the texinfo distribution. &define_program_variable ('MAKEINFO', 'build', 'texinfo/makeinfo', 'makeinfo', # Circumlocution to avoid accidental # configure substitution. '@MAKE' . 'INFO@'); &define_program_variable ('TEXI2DVI', 'src', 'texinfo/util', 'texi2dvi'); # Set transform for including texinfos.am. First, handle --cygnus # stuff. local ($xform); if ($cygnus_mode) { $xform = 's/^NOTCYGNUS.*$//; s/^CYGNUS//;'; } else { $xform = 's/^CYGNUS.*$//; s/^NOTCYGNUS//;'; } # Handle location of texinfo.tex. local ($need_texi_file) = 0; if ($cygnus_mode) { &define_variable ('TEXINFO_TEX', '$(top_srcdir)/../texinfo/texinfo.tex'); } elsif ($config_aux_dir ne '.' && $config_aux_dir ne '') { &define_variable ('TEXINFO_TEX', $config_aux_dir . '/texinfo.tex'); } elsif (! &variable_defined ('TEXINFO_TEX')) { &define_variable ('TEXINFO_TEX', '$(srcdir)/texinfo.tex'); } else { $need_texi_file = 1; } local ($xxform) = &dirname (&variable_value ('TEXINFO_TEX')); $xxform =~ s/(\W)/\\$1/g; $xform .= ' s/\@TEXINFODIR\@/' . $xxform . '/g;'; $output_rules .= &file_contents_with_transform ($xform, 'texinfos'); push (@phony, 'install-info-am', 'uninstall-info'); push (@dist_targets, 'dist-info'); # How to clean. The funny name is due to --cygnus influence; in # Cygnus mode, `clean-info' is a target that users can use. $output_rules .= "\nmostlyclean-aminfo:\n"; &pretty_print_rule ("\t-rm -f", "\t ", @texi_cleans); $output_rules .= ("\nclean-aminfo:\n\ndistclean-aminfo:\n\n" . "maintainer-clean-aminfo:\n\t" # Eww. But how else can we find all the output # files from makeinfo? . 'for i in $(INFO_DEPS); do' . " \\\n" . "\t" . ' rm -f $$i;' . " \\\n" . "\t" . ' if test "`echo $$i-[0-9]*`" != "$$i-[0-9]*"; then' . " \\\n" . "\t" . ' rm -f $$i-[0-9]*;' . " \\\n" . "\t" . ' fi;' . " \\\n" . "\tdone\n"); &push_phony_cleaners ('aminfo'); if ($cygnus_mode) { $output_rules .= "clean-info: mostlyclean-aminfo\n"; } push (@suffixes, '.texi', '.texinfo', '.txi', '.info', '.dvi', '.ps'); if (! defined $options{'no-installinfo'}) { push (@uninstall, 'uninstall-info'); push (@installdirs, '$(infodir)'); unshift (@install_data, 'install-info-am'); # Make sure documentation is made and installed first. Use # $(INFO_DEPS), not 'info', because otherwise recursive makes # get run twice during "make all". unshift (@all, '$(INFO_DEPS)'); } push (@clean, 'aminfo'); push (@info, '$(INFO_DEPS)'); push (@dvi, '$(DVIS)'); &define_variable ("INFO_DEPS", join (' ', @info_deps_list)); &define_variable ("DVIS", join (' ', @dvis_list)); # This next isn't strictly needed now -- the places that look here # could easily be changed to look in info_TEXINFOS. But this is # probably better, in case noinst_TEXINFOS is ever supported. &define_variable ("TEXINFOS", &variable_value ('info_TEXINFOS')); # Do some error checking. Note that this file is not required # when in Cygnus mode; instead we defined TEXINFO_TEX explicitly # up above. &require_file_with_line ('info_TEXINFOS', $FOREIGN, 'texinfo.tex') if $need_texi_file && ! defined $options{'no-texinfo.tex'}; } # Handle any man pages. sub handle_man_pages { &am_line_error ('MANS', "\`MANS' is an anachronism; use \`man_MANS'") if &variable_defined ('MANS'); return if ! &variable_defined ('man_MANS'); # Find all the sections in use. We do this by first looking for # "standard" sections, and then looking for any additional # sections used in man_MANS. local ($sect, %sections, %vlist); # Add more sections as needed. foreach $sect ('0'..'9', 'n', 'l') { if (&variable_defined ('man' . $sect . '_MANS')) { $sections{$sect} = 1; $vlist{'$(man' . $sect . '_MANS)'} = 1; } } if (&variable_defined ('man_MANS')) { $vlist{'$(man_MANS)'} = 1; foreach (&variable_value_as_list ('man_MANS', 'all')) { # A page like `foo.1c' goes into man1dir. if (/\.([0-9a-z])([a-z]*)$/) { $sections{$1} = 1; } } } # Now for each section, generate an install and unintall rule. # Sort sections so output is deterministic. local (@namelist); foreach $sect (sort keys %sections) { &define_variable ('man' . $sect . 'dir', '$(mandir)/man' . $sect); push (@installdirs, '$(mandir)/man' . $sect) unless defined $options{'no-installman'}; $output_rules .= &file_contents_with_transform ('s/\@SECTION\@/' . $sect . '/g;', 'mans'); push (@phony, 'install-man' . $sect, 'uninstall-man' . $sect); push (@namelist, 'install-man' . $sect); } # We don't really need this, but we use it in case we ever want to # support noinst_MANS. &define_variable ("MANS", join (' ', sort keys %vlist)); # Generate list of install dirs. $output_rules .= ("install-man: \$(MANS)\n" . "\t\@\$(NORMAL_INSTALL)\n"); &pretty_print_rule ("\t\$(MAKE)", "\t ", @namelist); push (@phony, 'install-man'); $output_rules .= "uninstall-man:\n\t\@\$(NORMAL_UNINSTALL)\n"; grep ($_ = 'un' . $_, @namelist); &pretty_print_rule ("\t\$(MAKE)", "\t ", @namelist); push (@phony, 'uninstall-man'); $output_vars .= &file_contents ('mans-vars'); if (! defined $options{'no-installman'}) { push (@install_data, 'install-man'); push (@uninstall, 'uninstall-man'); push (@all, '$(MANS)'); } } # Handle DATA variables. sub handle_data { &am_install_var ('data', 'DATA', 'data', 'sysconf', 'sharedstate', 'localstate', 'pkgdata', 'noinst', 'check'); } # Handle TAGS. sub handle_tags { push (@phony, 'tags'); local (@tag_deps) = (); if (&variable_defined ('SUBDIRS')) { $output_rules .= ("tags-recursive:\n" . "\tlist=\'\$(SUBDIRS)\'; for subdir in \$\$list; do \\\n" # Never fail here if a subdir fails; it # isn't important. . "\t (cd \$\$subdir && \$(MAKE) tags); \\\n" . "\tdone\n"); push (@tag_deps, 'tags-recursive'); push (@phony, 'tags-recursive'); } if ($dir_holds_sources || $dir_holds_headers || &variable_defined ('ETAGS_ARGS') || @tag_deps) { local ($xform) = ''; local ($one_hdr); foreach $one_hdr (@config_headers) { if ($relative_dir eq &dirname ($one_hdr)) { # The config header is in this directory. So require it. local ($var); ($var = &basename ($one_hdr)) =~ s/(\W)/\\$1/g; $xform .= ' ' if $xform; $xform .= $var; } } $xform = ('s/\@CONFIG\@/' . $xform . '/;' . 's/\@DIRS\@/' . join (' ', @tag_deps) . '/;'); if (&variable_defined ('SUBDIRS')) { $xform .= 's/^SUBDIRS//;'; } else { $xform .= 's/^SUBDIRS.*$//;'; } $output_rules .= &file_contents_with_transform ($xform, 'tags'); $output_rules .= &file_contents ('tags-clean'); push (@clean, 'tags'); &push_phony_cleaners ('tags'); &examine_variable ('TAGS_DEPENDENCIES'); } elsif (&variable_defined ('TAGS_DEPENDENCIES')) { &am_line_error ('TAGS_DEPENDENCIES', "doesn't make sense to define \`TAGS_DEPENDENCIES' without sources or \`ETAGS_ARGS'"); } else { # Every Makefile must define some sort of TAGS rule. # Otherwise, it would be possible for a top-level "make TAGS" # to fail because some subdirectory failed. $output_rules .= "tags: TAGS\nTAGS:\n\n"; } } # Worker for handle_dist. sub handle_dist_worker { local ($makefile) = @_; $output_rules .= 'distdir: $(DISTFILES)' . "\n"; # Initialization; only at top level. if ($relative_dir eq '.') { if (defined $options{'check-news'}) { # For Gnits users, this is pretty handy. Look at 15 lines # in case some explanatory text is desirable. $output_rules .= ' @if sed 15q $(srcdir)/NEWS | fgrep -e "$(VERSION)" > /dev/null; then :; else \\ echo "NEWS not updated; not releasing" 1>&2; \\ exit 1; \\ fi '; } # Create dist directory. $output_rules .= ("\t-rm -rf \$(distdir)\n" . "\tmkdir \$(distdir)\n" . "\t-chmod 777 \$(distdir)\n"); } # Only run automake in `dist' target if --include-deps and # `no-dependencies' not specified. That way the recipient of a # distribution can run "make dist" and not need Automake. You # might be wondering why we run automake once for each directory # we distribute, instead of running it once at the top level. The # answer is that we want to run automake after the dependencies # have been generated. This occurs when "make" is run in the # subdir. So automake must be run after make has updated the # Makefile, which means that it must run once per directory. if ($use_dependencies) { $output_rules .= ( # There are several directories we need to know about # when rebuilding the Makefile.ins. They are: # here - The absolute path to our topmost build directory. # top_distdir - The absolute path to the top of our dist # hierarchy. # distdir - The path to our sub-part of the dist hierarchy. # If this directory is the topmost directory, we set # top_distdir from distdir; that lets us pass in distdir # from an enclosing package. "\t" . 'here=`cd $(top_builddir) && pwd`; ' . "\\\n" . "\t" . 'top_distdir=`cd $(' . (($relative_dir eq '.') ? 'distdir' : 'top_distdir') . ') && pwd`; ' . "\\\n" . "\t" . 'distdir=`cd $(distdir) && pwd`; ' . "\\\n" . "\tcd \$(top_srcdir) \\\n" . "\t && \$(AUTOMAKE) --include-deps --build-dir=\$\$here --srcdir-name=\$(top_srcdir) --output-dir=\$\$top_distdir " # Set strictness of output. . ($cygnus_mode ? '--cygnus' : ('--' . $strictness_name)) . ($cmdline_use_dependencies ? '' : ' --include-deps') . " " . $makefile . "\n" ); } # Scan EXTRA_DIST to see if we need to distribute anything from a # subdir. If so, add it to the list. I didn't want to do this # originally, but there were so many requests that I finally # relented. local (@dist_dirs); if (&variable_defined ('EXTRA_DIST')) { # FIXME: This should be fixed to work with conditionals. That # will require only making the entries in @dist_dirs under the # appropriate condition. This is meaningful if the nature of # the distribution should depend upon the configure options # used. foreach (&variable_value_as_list ('EXTRA_DIST', '')) { next if /^\@.*\@$/; next unless s,/+[^/]+$,,; push (@dist_dirs, $_) unless $_ eq '.'; } } if (@dist_dirs) { # Prepend $(distdir) to each directory given. Doing it via a # hash lets us ensure that each directory is used only once. local (%dhash); grep ($dhash{'$(distdir)/' . $_} = 1, @dist_dirs); $output_rules .= "\t"; &pretty_print_rule ('$(mkinstalldirs)', "\t ", sort keys %dhash); } # In loop, test for file existence because sometimes a file gets # included in DISTFILES twice. For example this happens when a # single source file is used in building more than one program. # Also, there are situations in which "ln" can fail. For instance # a file to distribute could actually be a cross-filesystem # symlink -- this can easily happen if "gettextize" was run on the # distribution. $output_rules .= "\t\@for file in \$(DISTFILES); do \\\n"; if ($cygnus_mode) { $output_rules .= "\t if test -f \$\$file; then d=.; else d=\$(srcdir); fi; \\\n"; } else { $output_rules .= "\t d=\$(srcdir); \\\n"; } $output_rules .= ' test -f $(distdir)/$$file \\ || ln $$d/$$file $(distdir)/$$file 2> /dev/null \\ || cp -p $$d/$$file $(distdir)/$$file; \\ done '; # If we have SUBDIRS, create all dist subdirectories and do # recursive build. if (&variable_defined ('SUBDIRS')) { # If SUBDIRS is conditionally defined, then set DIST_SUBDIRS # to all possible directories, and use it. if (! &variable_conditions ('SUBDIRS')) { $dist_subdir_name = 'SUBDIRS'; } else { $dist_subdir_name = 'DIST_SUBDIRS'; if (! &variable_defined ('DIST_SUBDIRS')) { &define_pretty_variable ('DIST_SUBDIRS', '', &variable_value_as_list ('SUBDIRS', 'all')); } } # Test for directory existence here because previous automake # invocation might have created some directories. Note that # we explicitly set distdir for the subdir make; that lets us # mix-n-match many automake-using packages into one large # package, and have "dist" at the top level do the right # thing. If we're in the topmost directory, then we use # `distdir' instead of `top_distdir'; this lets us work # correctly with an enclosing package. $output_rules .= ("\t" . 'for subdir in $(' . $dist_subdir_name . '); do ' . "\\\n" . "\t" . ' test -d $(distdir)/$$subdir ' . "\\\n" . "\t" . ' || mkdir $(distdir)/$$subdir ' . "\\\n" . "\t" . ' || exit 1; ' . "\\\n" . "\t" . ' chmod 777 $(distdir)/$$subdir; ' . "\\\n" . "\t" . ' (cd $$subdir && $(MAKE) top_distdir=../$(' . (($relative_dir eq '.') ? 'distdir' : 'top_distdir') . ') distdir=../$(distdir)/$$subdir distdir) ' . "\\\n" . "\t" . ' || exit 1; ' . "\\\n" . "\tdone\n"); } # If the target `dist-hook' exists, make sure it is run. This # allows users to do random weird things to the distribution # before it is packaged up. push (@dist_targets, 'dist-hook') if defined $contents{'dist-hook'}; local ($targ); foreach $targ (@dist_targets) { # We must explicitly set distdir and top_distdir for these # sub-makes. $output_rules .= "\t\$(MAKE) top_distdir=\"\$(top_distdir)\" distdir=\"\$(distdir)\" $targ\n"; } push (@phony, 'distdir'); } # Handle 'dist' target. sub handle_dist { local ($makefile) = @_; # Set up maint_charset. $local_maint_charset = &variable_value ('MAINT_CHARSET') if &variable_defined ('MAINT_CHARSET'); $maint_charset = $local_maint_charset if $relative_dir eq '.'; if (&variable_defined ('DIST_CHARSET')) { &am_line_error ('DIST_CHARSET', "DIST_CHARSET defined but no MAINT_CHARSET defined") if ! $local_maint_charset; if ($relative_dir eq '.') { $dist_charset = &variable_value ('DIST_CHARSET') } else { &am_line_error ('DIST_CHARSET', "DIST_CHARSET can only be defined at top level"); } } # Look for common files that should be included in distribution. local ($cfile); foreach $cfile (@common_files) { if (-f ($relative_dir . "/" . $cfile)) { &push_dist_common ($cfile); } } # Keys of %dist_common are names of files to distributed. We put # README first because it then becomes easier to make a # Usenet-compliant shar file (in these, README must be first). # FIXME: do more ordering of files here. local (@coms); if (defined $dist_common{'README'}) { push (@coms, 'README'); delete $dist_common{'README'}; } push (@coms, sort keys %dist_common); &define_pretty_variable ("DIST_COMMON", '', @coms); $output_vars .= "\n"; # Some boilerplate. $output_vars .= &file_contents ('dist-vars') . "\n"; &define_variable ('TAR', $TAR); &define_variable ('GZIP', '--best'); # Put these things in rules section so it is easier for whoever # reads Makefile.in. if (! &variable_defined ('distdir')) { if ($relative_dir eq '.') { $output_rules .= "\n" . 'distdir = $(PACKAGE)-$(VERSION)' . "\n"; } else { $output_rules .= ("\n" . 'distdir = $(top_builddir)/$(PACKAGE)-$(VERSION)/$(subdir)' . "\n"); } } if ($relative_dir eq '.') { $output_rules .= "top_distdir = \$(distdir)\n\n"; } else { $output_rules .= "\nsubdir = " . $relative_dir . "\n\n"; } # Generate 'dist' target, and maybe dist-shar / dist-zip / dist-tarZ. if ($relative_dir eq '.') { # Rule to check whether a distribution is viable. $output_rules .= ('# This target untars the dist file and tries a VPATH configuration. Then # it guarantees that the distribution is self-contained by making another # tarfile. distcheck: dist -rm -rf $(distdir) GZIP=$(GZIP) $(TAR) zxf $(distdir).tar.gz mkdir $(distdir)/=build mkdir $(distdir)/=inst dc_install_base=`cd $(distdir)/=inst && pwd`; \\' . (defined $contents{'distcheck-hook'} ? "\t\$(MAKE) distcheck-hook" : '') . ' cd $(distdir)/=build \\ && ../configure ' . ($seen_gettext ? '--with-included-gettext ' : '') . '--srcdir=.. --prefix=$$dc_install_base \\ && $(MAKE) \\ && $(MAKE) dvi \\ && $(MAKE) check \\ && $(MAKE) install \\ && $(MAKE) installcheck \\ && $(MAKE) dist -rm -rf $(distdir) @echo "========================"; \\ echo "$(distdir).tar.gz is ready for distribution"; \\ echo "========================" '); local ($dist_all) = ('dist-all: distdir' . "\n" . $dist_header); local ($curs); foreach $curs ('dist', 'dist-shar', 'dist-zip', 'dist-tarZ') { if (defined $options{$curs} || $curs eq 'dist') { $output_rules .= ($curs . ': distdir' . "\n" . $dist_header . $dist{$curs} . $dist_trailer); $dist_all .= $dist{$curs}; } } $output_rules .= $dist_all . $dist_trailer; } # Generate distdir target. &handle_dist_worker ($makefile); } # Scan a single dependency file and rewrite the dependencies as # appropriate. Essentially this means: # * Clean out absolute dependencies which are not desirable. # * Rewrite other dependencies to be relative to $(top_srcdir). sub scan_dependency_file { local ($depfile) = @_; if (! open (DEP_FILE, $depfile)) { &am_error ("couldn't open \`$depfile': $!"); return; } print "automake: reading $depfile\n" if $verbose; # Sometimes it is necessary to omit some dependencies. local (%omit) = %omit_dependencies; if (&variable_defined ('OMIT_DEPENDENCIES')) { # FIXME: Doesn't work with conditionals. I'm not sure if this # matters. grep ($omit{$_} = 1, &variable_value_as_list ('OMIT_DEPENDENCIES', '')); } local ($first_line) = 1; local ($last_line) = 0; local ($target, @dependencies); local ($one_dep, $xform); local ($just_file); local ($srcdir_rx, $fixup_rx); ($fixup_rx = $srcdir_name . '/' . $relative_dir . '/') =~ s/(\W)/\\$1/g; ($srcdir_rx = $srcdir_name . '/') =~ s/(\W)/\\$1/g; local ($rewrite_builddir) = (($top_builddir eq '.') ? '' : $top_builddir . '/'); while (<DEP_FILE>) { if ($last_line) { # If LAST_LINE set then we've already seen what we thought # was the last line. goto bad_format; } next if (/$WHITE_PATTERN/o); chop; if (! s/\\$//) { # No trailing "\" means this should be the last line. $last_line = 1; } if ($first_line) { if (! /^([^:]+:)(.+)$/) { bad_format: &am_error ("\`$depfile' has incorrect format"); close (DEP_FILE); return; } $_ = $2; # Make sure to strip the .P file from the target. ($target = $1) =~ s, *\.deps/[^.]+\.P,,; $first_line = 0; } foreach $one_dep (split (' ', $_)) { ($just_file = $one_dep) =~ s,^.*/,,; next if defined $omit{$just_file}; if ($one_dep =~ /^$fixup_rx/) { # The dependency points to the current directory in # some way. ($xform = $one_dep) =~ s/^$fixup_rx//; push (@dependencies, $xform); } elsif ($one_dep =~ /^$srcdir_rx/) { # The dependency is in some other directory in the package. ($xform = $one_dep) =~ s/^$srcdir_rx/$rewrite_builddir/; push (@dependencies, $xform); } elsif ($one_dep =~ /^\//) { # Absolute path; ignore. } else { # Anything else is assumed to be correct. push (@dependencies, $one_dep); } } } &pretty_print_rule ($target, "\t", @dependencies); close (DEP_FILE); } # Handle auto-dependency code. sub handle_dependencies { # Make sure this variable is always marked as used. &examine_variable ('OMIT_DEPENDENCIES'); if ($use_dependencies) { # Include GNU-make-specific auto-dep code. Don't include it # if DEP_FILES would be empty. if ($dir_holds_sources && keys %dep_files) { &define_pretty_variable ('DEP_FILES', '', sort keys %dep_files); $output_rules .= &file_contents ('depend'); push (@clean, 'depend'); &push_phony_cleaners ('depend'); $output_rules .= &file_contents_with_transform ('s/\@EXT\@/.c/g;' . 's/\@PFX\@//g;', 'depend2'); local ($ext); local ($need_cxx) = 0; foreach $ext (sort keys %cxx_extensions) { $output_rules .= &file_contents_with_transform ('s/\@EXT\@/' . $ext .'/g;' . 's/\@PFX\@/CXX/g;', 'depend2'); $need_cxx = 1; } if ($need_cxx) { &define_variable ('CXXMKDEP', '$(CXX) -M $(DEFS) $(INCLUDES) $(CPPFLAGS) $(CXXFLAGS)'); } } } elsif ($build_directory ne '') { # Include any auto-generated deps that are present. Note that # $build_directory ends in a "/". if (-d ($build_directory . $relative_dir . "/.deps")) { local ($depfile); foreach $depfile (&my_glob ($build_directory . $relative_dir . "/.deps/*.P")) { &scan_dependency_file ($depfile); } $output_rules .= "\n"; } } } # Handle subdirectories. sub handle_subdirs { return if ! &variable_defined ('SUBDIRS'); # Make sure each directory mentioned in SUBDIRS actually exists. local ($dir); foreach $dir (&variable_value_as_list ('SUBDIRS', 'all')) { # Skip directories substituted by configure. next if $dir =~ /^\@.*\@$/; if (! -d $am_relative_dir . '/' . $dir) { &am_line_error ('SUBDIRS', "required directory $am_relative_dir/$dir does not exist"); next; } &am_line_error ('SUBDIRS', "directory should not contain \`/'") if $dir =~ /\//; } local ($xform) = ('s/\@INSTALLINFO\@/' . (defined $options{'no-installinfo'} ? 'install-info-recursive' : '') . '/;'); $output_rules .= &file_contents_with_transform ($xform, 'subdirs'); # Push a bunch of phony targets. local ($phonies); foreach $phonies ('-data', '-exec', 'dirs') { push (@phony, 'install' . $phonies . '-recursive'); push (@phony, 'uninstall' . $phonies . '-recursive'); } foreach $phonies ('all', 'check', 'installcheck', 'info', 'dvi') { push (@phony, $phonies . '-recursive'); } &push_phony_cleaners ('recursive'); push (@check_tests, "check-recursive"); push (@installcheck, "installcheck-recursive"); push (@info, "info-recursive"); push (@dvi, "dvi-recursive"); $recursive_install = 1; } # Handle aclocal.m4. sub handle_aclocal_m4 { local ($regen_aclocal) = 0; if (-f 'aclocal.m4') { &define_variable ("ACLOCAL_M4", '$(top_srcdir)/aclocal.m4'); &push_dist_common ('aclocal.m4'); if (open (ACLOCAL, '< aclocal.m4')) { local ($line); $line = <ACLOCAL>; close (ACLOCAL); if ($line =~ 'generated automatically by aclocal') { $regen_aclocal = 1; } } } local ($acinclude) = 0; if (-f 'acinclude.m4') { $regen_aclocal = 1; $acinclude = 1; } # Note that it might be possible that aclocal.m4 doesn't exist but # should be auto-generated. This case probably isn't very # important. if ($regen_aclocal) { local (@ac_deps) = ( ($seen_maint_mode ? "\@MAINT\@" : "") , "configure.in", ($acinclude ? ' acinclude.m4' : '') ); # Scan all -I directories for m4 files. These are our # dependencies. if (&variable_defined ('ACLOCAL_AMFLAGS')) { local ($examine_next, $amdir) = 0; foreach $amdir (&variable_value_as_list ('ACLOCAL_AMFLAGS', '')) { if ($examine_next) { $examine_next = 0; if ($amdir !~ /^\// && -d $amdir) { push (@ac_deps, &my_glob ($amdir . '/*.m4')); } } elsif ($amdir eq '-I') { $examine_next = 1; } } } &pretty_print_rule ("\$(ACLOCAL_M4):", "\t\t", @ac_deps); $output_rules .= ("\t" . 'cd $(srcdir) && $(ACLOCAL)' . (&variable_defined ('ACLOCAL_AMFLAGS') ? ' $(ACLOCAL_AMFLAGS)' : '') . "\n"); } } # Rewrite a list of input files into a form suitable to put on a # dependency list. The idea is that if an input file has a directory # part the same as the current directory, then the directory part is # simply removed. But if the directory part is different, then # $(top_srcdir) is prepended. Among other things, this is used to # generate the dependency list for the output files generated by # AC_OUTPUT. Consider what the dependencies should look like in this # case: # AC_OUTPUT(src/out:src/in1:lib/in2) sub rewrite_inputs_into_dependencies { local (@inputs) = @_; local ($single, @newinputs); foreach $single (@inputs) { if (&dirname ($single) eq $relative_dir) { push (@newinputs, &basename ($single)); } else { push (@newinputs, '$(top_srcdir)/' . $single); } } return @newinputs; } # Handle remaking and configure stuff. # We need the name of the input file, to do proper remaking rules. sub handle_configure { local ($local, $input, @secondary_inputs) = @_; # If SUBDIRS defined, require AC_PROG_MAKE_SET. &am_line_error ('SUBDIRS', "AC_PROG_MAKE_SET must be used in configure.in") if &variable_defined ('SUBDIRS') && ! $seen_make_set; local ($top_reldir); local ($input_base) = &basename ($input); local ($local_base) = &basename ($local); local ($amfile) = $input_base . '.am'; # We know we can always add '.in' because it really should be an # error if the .in was missing originally. local ($infile) = '$(srcdir)/' . $input_base . '.in'; local ($colon_infile); if ($local ne $input) { $colon_infile = ':' . $input . '.in'; } $colon_infile .= ':' . join (':', @secondary_inputs) if @secondary_inputs; local (@rewritten) = &rewrite_inputs_into_dependencies (@secondary_inputs); # This rule remakes the Makefile.in. Note use of @MAINT@ forces # us to abandon pretty-printing. Sigh. $output_rules .= ($infile # NOTE perl 5.003 (with -w) gives a # uninitialized value error on the next line. # Don't know why. . ': ' . ($seen_maint_mode ? '@MAINT@ ' : '') . $amfile . ' ' . '$(top_srcdir)/configure.in $(ACLOCAL_M4)' . "\n" . "\tcd \$(top_srcdir) && \$(AUTOMAKE) " . ($cygnus_mode ? '--cygnus' : ('--' . $strictness_name)) . ($cmdline_use_dependencies ? '' : ' --include-deps') . ' ' . $input . $colon_infile . "\n\n"); # This rule remakes the Makefile. $output_rules .= ($local_base # NOTE: bogus uninit value error on next line; # see comment above. . ': ' . $infile . ' ' . join (' ', @rewritten) . ' $(top_builddir)/config.status' # NOTE: Makefile only depends on BUILT_SOURCES # when dependencies are being computed. This is # a workaround for an obscure bug with # AC_LINK_FILES. Anyway, when dependencies are # turned off, this shouldn't matter. . ($use_dependencies ? ' $(BUILT_SOURCES)' : '') . "\n" . "\tcd \$(top_builddir) \\\n" . "\t && CONFIG_FILES=" . (($relative_dir eq '.') ? '$@' : '$(subdir)/$@') . $colon_infile . ' CONFIG_HEADERS= $(SHELL) ./config.status' . "\n\n"); if ($relative_dir ne '.') { # In subdirectory. $top_reldir = '../'; } else { &handle_aclocal_m4; $output_rules .= &file_contents ('remake'); &examine_variable ('CONFIGURE_DEPENDENCIES'); $top_reldir = ''; } # If we have a configure header, require it. local ($one_hdr); local (@local_fullnames) = @config_fullnames; local (@local_names) = @config_names; local ($hdr_index) = 0; local ($distclean_config) = ''; foreach $one_hdr (@config_headers) { local ($one_fullname) = shift (@local_fullnames); local ($one_name) = shift (@local_names); $hdr_index += 1; if ($relative_dir eq &dirname ($one_hdr)) { local ($ch_sans_dir) = &basename ($one_hdr); local ($cn_sans_dir) = &basename ($one_name); &require_file_with_conf_line ($config_header_line, $FOREIGN, $ch_sans_dir); # Header defined and in this directory. local (@files); if (-f $relative_dir . '/acconfig.h') { push (@files, 'acconfig.h'); } if (-f $one_name . '.top') { push (@files, "${cn_sans_dir}.top"); } if (-f $one_name . '.bot') { push (@files, "${cn_sans_dir}.bot"); } &push_dist_common (@files); local ($stamp_name) = 'stamp-h'; $stamp_name .= "${hdr_index}" if scalar (@config_headers) > 1; local ($xform) = ''; $xform = 's,\@FILES\@,' . join (' ', @files) . ',;'; $xform .= 's,\@CONFIG_HEADER\@,' . "${cn_sans_dir}" . ',;'; $xform .= 's,\@CONFIG_HEADER_IN\@,' . "${ch_sans_dir}" . ',;'; $xform .= 's,\@CONFIG_HEADER_FULL\@,' . "${one_fullname}" . ',;'; $xform .= 's,\@STAMP\@,' . "${stamp_name}" . ',;'; $output_rules .= &file_contents_with_transform ($xform, 'remake-hdr'); &touch ($relative_dir . "/${stamp_name}.in"); &require_file_with_conf_line ($config_header_line, $FOREIGN, "${stamp_name}.in"); $distclean_config .= ' ' if $distclean_config; $distclean_config .= $cn_sans_dir; } } if ($distclean_config) { $output_rules .= &file_contents_with_transform ('s,\@FILES\@,' . $distclean_config . ',;', 'clean-hdr'); push (@clean, 'hdr'); &push_phony_cleaners ('hdr'); } # Set location of mkinstalldirs. if ($config_aux_dir ne '.' && $config_aux_dir ne '') { &define_variable ('mkinstalldirs', ('$(SHELL) ' . $config_aux_dir . '/mkinstalldirs')); } else { &define_variable ('mkinstalldirs', '$(SHELL) $(top_srcdir)/mkinstalldirs'); } &am_line_error ('CONFIG_HEADER', "\`CONFIG_HEADER' is an anachronism; now determined from \`configure.in'") if &variable_defined ('CONFIG_HEADER'); local ($one_name); local ($config_header) = ''; foreach $one_name (@config_names) { # Generate CONFIG_HEADER define. local ($one_hdr); if ($relative_dir eq &dirname ($one_name)) { $one_hdr = &basename ($one_name); } else { $one_hdr = "${top_builddir}/${one_name}"; } $config_header .= ' ' if $config_header; $config_header .= $one_hdr; } if ($config_header) { &define_variable ("CONFIG_HEADER", $config_header); } # Now look for other files in this directory which must be remade # by config.status, and generate rules for them. local (@actual_other_files) = (); local ($file, $local); local (@inputs, @rewritten_inputs, $single); local ($need_rewritten); foreach $file (@other_input_files) { if ($file =~ /^([^:]*):(.*)$/) { # This is the ":" syntax of AC_OUTPUT. $file = $1; $local = &basename ($file); @inputs = split (':', $2); @rewritten_inputs = &rewrite_inputs_into_dependencies (@inputs); $need_rewritten = 1; } else { # Normal usage. $local = &basename ($file); @inputs = ($local . '.in'); @rewritten_inputs = &rewrite_inputs_into_dependencies ($file . '.in'); $need_rewritten = 0; } # Skip files not in this directory. next unless &dirname ($file) eq $relative_dir; # Skip any file that is an automake input. next if -f $file . '.am'; # Some users have been tempted to put `stamp-h' in the # AC_OUTPUT line. This won't do the right thing, so we # explicitly fail here. if ($local eq 'stamp-h') { # FIXME: allow real filename. &am_conf_error ('configure.in', $ac_output_line, 'stamp-h should not appear in AC_OUTPUT'); next; } $output_rules .= ($local . ': ' . '$(top_builddir)/config.status ' . join (' ', @rewritten_inputs) . "\n" . "\t" . 'cd $(top_builddir) && CONFIG_FILES=' . ($relative_dir eq '.' ? '' : '$(subdir)/') . '$@' . ($need_rewritten ? (':' . join (':', @rewritten_inputs)) : '') . ' CONFIG_HEADERS= ./config.status' . "\n"); push (@actual_other_files, $local); # Require all input files. &require_file_with_conf_line ($ac_output_line, $FOREIGN, @inputs); } # These files get removed by "make clean". &define_pretty_variable ('CONFIG_CLEAN_FILES', '', @actual_other_files); } # Handle C headers. sub handle_headers { $dir_holds_headers = &am_install_var ('header', 'HEADERS', 'include', 'oldinclude', 'pkginclude', 'noinst', 'check'); } sub handle_gettext { return if ! $seen_gettext || $relative_dir ne '.'; if (! &variable_defined ('SUBDIRS')) { &am_conf_error ("AM_GNU_GETTEXT in configure.in but SUBDIRS not defined"); return; } &require_file_with_conf_line ($ac_gettext_line, $FOREIGN, 'ABOUT-NLS') if $seen_gettext; if (&variable_defined ('SUBDIRS')) { &am_line_error ('SUBDIRS', "AM_GNU_GETTEXT in configure.in but \`po' not in SUBDIRS") if $contents{'SUBDIRS'} !~ /\bpo\b/; &am_line_error ('SUBDIRS', "AM_GNU_GETTEXT in configure.in but \`intl' not in SUBDIRS") if $contents{'SUBDIRS'} !~ /\bintl\b/; } # Ensure that each language in ALL_LINGUAS has a .po file, and # each po file is mentioned in ALL_LINGUAS. if ($seen_linguas) { local (%linguas) = (); grep ($linguas{$_} = 1, split (' ', $all_linguas)); foreach (<po/*.po>) { s/^po\///; s/\.po$//; &am_line_error ($all_linguas_line, ("po/$_.po exists but \`$_' not in \`ALL_LINGUAS'")) if ! $linguas{$_}; } foreach (keys %linguas) { &am_line_error ($all_linguas_line, "$_ in \`ALL_LINGUAS' but po/$_.po does not exist") if ! -f "po/$_.po"; } } else { &am_error ("AM_GNU_GETTEXT in configure.in but \`ALL_LINGUAS' not defined"); } } # Handle footer elements. sub handle_footer { if ($contents{'SOURCES'}) { # NOTE don't use define_pretty_variable here, because # $contents{...} is already defined. $output_vars .= 'SOURCES = ' . $contents{'SOURCES'} . "\n"; } if ($contents{'OBJECTS'}) { # NOTE don't use define_pretty_variable here, because # $contents{...} is already defined. $output_vars .= 'OBJECTS = ' . $contents{'OBJECTS'} . "\n"; } if ($contents{'SOURCES'} || $contents{'OBJECTS'}) { $output_vars .= "\n"; } if (&variable_defined ('SUFFIXES')) { # Push actual suffixes, and not $(SUFFIXES). Some versions of # make do not like variable substitutions on the .SUFFIXES # line. push (@suffixes, &variable_value_as_list ('SUFFIXES', '')); } if (&target_defined ('.SUFFIXES')) { &am_line_error ('.SUFFIXES', "use variable \`SUFFIXES', not target \`.SUFFIXES'"); } # Note: AIX 4.1 /bin/make will fail if any suffix rule appears # before .SUFFIXES. So we make sure that .SUFFIXES appears before # anything else, by sticking it right after the default: target. $output_header .= ".SUFFIXES:\n"; if (@suffixes) { # Make sure suffixes has unique elements. Sort them to ensure # the output remains consistent. local (%suffixes); grep ($suffixes{$_} = 1, @suffixes); $output_header .= (".SUFFIXES: " . join (' ', sort keys %suffixes) . "\n"); } $output_trailer .= &file_contents ('footer'); } # Deal with installdirs target. sub handle_installdirs { # GNU Makefile standards recommend this. $output_rules .= ("installdirs:" . ($recursive_install ? " installdirs-recursive\n" : "\n")); push (@phony, 'installdirs'); if (@installdirs) { &pretty_print_rule ("\t" . '$(mkinstalldirs) ', "\t\t", @installdirs); } $output_rules .= "\n"; } # There are several targets which need to be merged. This is because # their complete definition is compiled from many parts. Note that we # avoid double colon rules, otherwise we'd use them instead. sub handle_merge_targets { local ($makefile) = @_; # There are a few install-related variables that you should not define. local ($var); foreach $var ('PRE_INSTALL', 'POST_INSTALL', 'NORMAL_INSTALL') { if (&variable_defined ($var)) { &am_line_error ($var, "\`$var' should not be defined"); } } # Put this at the beginning for the sake of non-GNU makes. This # is still wrong if these makes can run parallel jobs. But it is # right enough. unshift (@all, &basename ($makefile)); local ($one_name); foreach $one_name (@config_names) { push (@all, &basename ($one_name)) if &dirname ($one_name) eq $relative_dir; } &do_one_merge_target ('info', @info); &do_one_merge_target ('dvi', @dvi); &do_check_merge_target; &do_one_merge_target ('installcheck', @installcheck); if (defined $options{'no-installinfo'}) { # FIXME: this is kind of a hack; should find another way to # know that this is required. local (@dirs); if (grep ($_ eq 'install-info-am', @phony)) { push (@dirs, 'install-info-am'); } if (&variable_defined ('SUBDIRS')) { push (@dirs, 'install-info-recursive'); } &do_one_merge_target ('install-info', @dirs); } # Handle the various install targets specially. We do this so # that (eg) "make install-exec" will run "install-exec-recursive" # if required, but "make install" won't run it twice. Step one is # to see if the user specified local versions of any of the # targets we handle. "all" is treated as one of these since # "install" can run it. push (@install_exec, 'install-exec-local') if defined $contents{'install-exec-local'}; push (@install_data, 'install-data-local') if defined $contents{'install-data-local'}; push (@uninstall, 'uninstall-local') if defined $contents{'uninstall-local'}; local ($utarg); foreach $utarg ('uninstall-data-local', 'uninstall-data-hook', 'uninstall-exec-local', 'uninstall-exec-hook') { if (defined $contents{$utarg}) { local ($x); ($x = $utarg) =~ s/(data|exec)-//; &am_line_error ($utarg, "use \`$x', not \`$utarg'"); } } push (@all, 'all-local') if defined $contents{'all-local'}; if (defined $contents{'install-local'}) { &am_line_error ('install-local', "use \`install-data' or \`install-exec', not \`install'"); } # Step two: if we are doing recursive makes, write out the # appropriate rules. local (@install); if ($recursive_install) { push (@install, 'install-recursive'); if (@all) { local (@hackall) = (); local ($one_name); local ($local_headers) = ''; foreach $one_name (@config_names) { if (&dirname ($one_name) eq $relative_dir) { $local_headers .= ' ' if $local_headers; $local_headers .= &basename ($one_name); } } if ($local_headers) { # This is kind of a hack, but I couldn't see a better # way to handle it. In this particular case, we need # to make sure config.h is built before we recurse. # We can't do this by changing the order of # dependencies to the "all" because that breaks when # using parallel makes. Instead we handle things # explicitly. $output_rules .= ("all-recursive-am: ${local_headers}" . "\n\t" . '$(MAKE) all-recursive' . "\n\n"); push (@hackall, 'all-recursive-am'); push (@phony, 'all-recursive-am'); } else { push (@hackall, 'all-recursive'); } $output_rules .= ('all-am: ' . join (' ', @all) . "\n\n"); @all = @hackall; push (@all, 'all-am'); push (@phony, 'all-am'); } else { @all = ('all-recursive'); # Must always generate `all-am' target, so it can be # referred to elsewhere. $output_rules .= "all-am:\n"; } if (@install_exec) { $output_rules .= ('install-exec-am: ' . join (' ', @install_exec) . "\n\n"); @install_exec = ('install-exec-recursive', 'install-exec-am'); push (@install, 'install-exec-am'); push (@phony, 'install-exec-am'); } else { @install_exec = ('install-exec-recursive'); } if (@install_data) { $output_rules .= ('install-data-am: ' . join (' ', @install_data) . "\n\n"); @install_data = ('install-data-recursive', 'install-data-am'); push (@install, 'install-data-am'); push (@phony, 'install-data-am'); } else { @install_data = ('install-data-recursive'); } if (@uninstall) { $output_rules .= ('uninstall-am: ' . join (' ', @uninstall) . "\n\n"); @uninstall = ('uninstall-recursive', 'uninstall-am'); push (@phony, 'uninstall-am'); } else { @uninstall = ('uninstall-recursive'); } } # Step three: print definitions users can use. Code below knows # that install-exec is done before install-data, beware. $output_rules .= ("install-exec: " . join (' ', @install_exec) . "\n"); $output_rules .= "\t\@\$(NORMAL_INSTALL)\n"; if (defined $contents{'install-exec-hook'}) { $output_rules .= "\t" . '$(MAKE) install-exec-hook' . "\n"; } $output_rules .= "\n"; push (@install, 'install-exec') if !$recursive_install; push (@phony, 'install-exec'); $output_rules .= ("install-data: " . join (' ', @install_data) . "\n"); $output_rules .= "\t\@\$(NORMAL_INSTALL)\n"; if (defined $contents{'install-data-hook'}) { $output_rules .= "\t" . '$(MAKE) install-data-hook' . "\n"; } $output_rules .= "\n"; push (@install, 'install-data') if !$recursive_install; push (@phony, 'install-data'); # If no dependencies for 'install', add 'all'. Why? That way # "make install" at top level of distclean'd distribution won't # fail because stuff in 'lib' fails to build. if (! @install || (scalar (@install) == 2 && $install[0] eq 'install-exec' && $install[1] eq 'install-data')) { push (@install, 'all'); } $output_rules .= ('install: ' . join (' ', @install) # Use "@:" as empty command so nothing prints. . "\n\t\@:" . "\n\n" . 'uninstall: ' . join (' ', @uninstall) . "\n\n"); push (@phony, 'install', 'uninstall'); $output_all = 'all: ' . join (' ', @all) . "\n\n"; push (@phony, 'all'); # Generate the new 'install-strip' target. Must set # INSTALL_SCRIPT to avoid stripping scripts. $output_rules .= ("install-strip:\n\t" . '$(MAKE) INSTALL_PROGRAM=\'$(INSTALL_PROGRAM) -s\' INSTALL_SCRIPT=\'$(INSTALL_PROGRAM)\' install' . "\n"); } # Helper for handle_merge_targets. sub do_one_merge_target { local ($name, @values) = @_; if (defined $contents{$name . '-local'}) { # User defined local form of target. So include it. push (@values, $name . '-local'); push (@phony, $name . '-local'); } &pretty_print_rule ($name . ":", "\t\t", @values); push (@phony, $name); } # Handle check merge target specially. sub do_check_merge_target { if (defined $contents{'check-local'}) { # User defined local form of target. So include it. push (@check_tests, 'check-local'); push (@phony, 'check-local'); } # In --cygnus mode, check doesn't depend on all. if (! $cygnus_mode) { if (! &variable_defined ('SUBDIRS')) { # 'check' must depend on `all', but not when doing # recursive build. unshift (@check, 'all'); } else { # When subdirs are used, do the `all' build and then do # all the recursive stuff. Actually use `all-am' because # it doesn't recurse; we rely on the check target in the # subdirs to do the required builds there. unshift (@check, 'all-am'); } } # The check target must depend on the local equivalent of `all', # to ensure all the primary targets are built. Also it must # depend on the test code named in @check. &pretty_print_rule ('check:', "\t\t", @check); # Now the check rules must explicitly run anything named in # @check_tests. This is done via a separate make invocation to # avoid problems with parallel makes. Every time I write code # like this I wonder: how could you invent a parallel make and not # provide any real synchronization facilities? &pretty_print_rule ("\t\$(MAKE)", "\t ", @check_tests); } # Handle all 'clean' targets. sub handle_clean { push (@clean, 'generic'); $output_rules .= &file_contents ('clean'); &push_phony_cleaners ('generic'); local ($target) = $recursive_install ? 'clean-am' : 'clean'; &do_one_clean_target ($target, 'mostly', '', @clean); &do_one_clean_target ($target, '', 'mostly', @clean); &do_one_clean_target ($target, 'dist', '', @clean); &do_one_clean_target ($target, 'maintainer-', 'dist', @clean); push (@phony, 'clean', 'mostlyclean', 'distclean', 'maintainer-clean'); local (@deps); if ($recursive_install) { # Do -recursive before -am. If you aren't doing a parallel # make, this can be nicer. @deps = ('recursive', 'am'); &do_one_clean_target ('', 'mostly', '', @deps); &do_one_clean_target ('', '', '', @deps); &do_one_clean_target ('', 'dist', '', @deps); &do_one_clean_target ('', 'maintainer-', '', @deps); } } # Helper for handle_clean. sub do_one_clean_target { local ($target, $name, $last_name, @deps) = @_; # Special case: if target not passed, then don't generate # dependency on next "lower" clean target (eg no # clean<-mostlyclean derivation). In this case the target is # implicitly known to be 'clean'. local ($flag) = $target; $target = 'clean' if ! $flag; grep (($_ = $name . 'clean-' . $_) && 0, @deps); if ($flag) { if ($last_name || $name ne 'mostly') { push (@deps, $last_name . $target); } } # If a -local version of the rule is given, add it to the list. if (defined $contents{$name . $target . '-local'}) { push (@deps, $name . $target . '-local'); } # Print the target and the dependencies. &pretty_print_rule ($name . $target . ": ", "\t\t", @deps); # FIXME: shouldn't we really print these messages before running # the dependencies? if ($name . $target eq 'maintainer-clean') { # Print a special warning. $output_rules .= ("\t\@echo \"This command is intended for maintainers to use;\"\n" . "\t\@echo \"it deletes files that may require special " . "tools to rebuild.\"\n"); $output_rules .= "\t-rm -f config.status\n" if $relative_dir eq '.'; } elsif ($name . $target eq 'distclean') { $output_rules .= "\t-rm -f config.status\n"; $output_rules .= "\t-rm -f libtool\n" if $seen_libtool; } $output_rules .= "\n"; } # Handle .PHONY target. sub handle_phony { &pretty_print_rule ('.PHONY:', "", @phony); $output_rules .= "\n"; } # Handle TESTS variable and other checks. sub handle_tests { if (defined $options{'dejagnu'}) { push (@check_tests, 'check-DEJAGNU'); push (@phony, 'check-DEJAGNU'); local ($xform); if ($cygnus_mode) { $xform = 's/^CYGNUS//;'; } else { $xform = 's/^CYGNUS.*$//;'; } $output_rules .= &file_contents_with_transform ($xform, 'dejagnu'); # In Cygnus mode, these are found in the build tree. # Otherwise they are looked for in $PATH. &define_program_variable ('EXPECT', 'build', 'expect', 'expect'); &define_program_variable ('RUNTEST', 'src', 'dejagnu', 'runtest'); # Note that in the rule we don't directly generate site.exp to # avoid the possibility of a corrupted site.exp if make is # interrupted. Jim Meyering has some useful text on this # topic. $output_rules .= ("site.exp: Makefile\n" . "\t\@echo 'Making a new site.exp file...'\n" . "\t-\@rm -f site.bak\n" . "\t\@echo '## these variables are automatically generated by make ##' > \$\@-t\n" . "\t\@echo '# Do not edit here. If you wish to override these values' >> \$\@-t\n" . "\t\@echo '# edit the last section' >> \$\@-t\n" . "\t\@echo 'set tool \$(DEJATOOL)' >> \$\@-t\n" . "\t\@echo 'set srcdir \$(srcdir)' >> \$\@-t\n" . "\t\@echo 'set objdir' \`pwd\` >> \$\@-t\n"); # Extra stuff for AC_CANONICAL_* local (@whatlist) = (); if ($seen_canonical) { push (@whatlist, 'host') } # Extra stuff only for AC_CANONICAL_SYSTEM. if ($seen_canonical == $AC_CANONICAL_SYSTEM) { push (@whatlist, 'target', 'build'); } local ($c1, $c2); foreach $c1 (@whatlist) { foreach $c2 ('alias', 'triplet') { $output_rules .= "\t\@echo 'set ${c1}_${c2} \$(${c1}_${c2})' >> \$\@-t\n"; } } $output_rules .= ("\t\@echo '## All variables above are generated by configure. Do Not Edit ##' >> \$\@-t\n" . "\t-\@sed '1,/^## All variables above are.*##/ d' site.bak >> \$\@-t\n" . "\t-\@mv site.exp site.bak\n" . "\t\@mv \$\@-t site.exp\n"); } else { local ($c); foreach $c ('DEJATOOL', 'RUNTEST', 'RUNTESTFLAGS') { if (&variable_defined ($c)) { &am_line_error ($c, "\`$c' defined but \`dejagnu' not in \`AUTOMAKE_OPTIONS'"); } } } if (&variable_defined ('TESTS')) { push (@check_tests, 'check-TESTS'); push (@phony, 'check-TESTS'); $output_rules .= 'check-TESTS: $(TESTS) @failed=0; all=0; \\ srcdir=$(srcdir); export srcdir; \\ for tst in $(TESTS); do \\ if test -f $$tst; then dir=.; \\ else dir="$(srcdir)"; fi; \\ if $(TESTS_ENVIRONMENT) $$dir/$$tst; then \\ all=`expr $$all + 1`; \\ echo "PASS: $$tst"; \\ elif test $$? -ne 77; then \\ all=`expr $$all + 1`; \\ failed=`expr $$failed + 1`; \\ echo "FAIL: $$tst"; \\ fi; \\ done; \\ if test "$$failed" -eq 0; then \\ banner="All $$all tests passed"; \\ else \\ banner="$$failed of $$all tests failed"; \\ fi; \\ dashes=`echo "$$banner" | sed s/./=/g`; \\ echo "$$dashes"; \\ echo "$$banner"; \\ echo "$$dashes"; \\ test "$$failed" -eq 0 '; } } # Handle Emacs Lisp. sub handle_emacs_lisp { local (@elfiles) = &am_install_var ('lisp', 'LISP', 'lisp', 'noinst'); if (@elfiles) { # Found some lisp. &define_configure_variable ('lispdir'); &define_configure_variable ('EMACS'); $output_rules .= (".el.elc:\n" . "\t\@echo 'WARNING: Warnings can be ignored. :-)'\n" . "\tif test \$(EMACS) != no; then \\\n" . "\t EMACS=\$(EMACS) \$(SHELL) \$(srcdir)/elisp-comp \$<; \\\n" . "\tfi\n"); push (@suffixes, '.el', '.elc'); # Generate .elc files. grep ($_ .= 'c', @elfiles); &define_pretty_variable ('ELCFILES', '', @elfiles); $output_rules .= &file_contents ('lisp-clean'); push (@clean, 'lisp'); &push_phony_cleaners ('lisp'); push (@all, '$(ELCFILES)'); local ($varname); if (&variable_defined ('lisp_LISP')) { $varname = 'lisp_LISP'; &am_error ("\`lisp_LISP' defined but \`AM_PATH_LISPDIR' not in \`configure.in'") if ! $seen_lispdir; } else { $varname = 'noinst_LISP'; } &require_file_with_line ($varname, $FOREIGN, 'elisp-comp'); } } # Handle Java. sub handle_java { local (@sourcelist) = &am_install_var ('-clean', 'java', 'JAVA', 'java', 'noinst', 'check'); return if ! @sourcelist; &define_variable ('JAVAC', 'javac'); &define_variable ('JAVACFLAGS', ''); &define_variable ('CLASSPATH_ENV', 'CLASSPATH=$(JAVAROOT):$(srcdir)/$(JAVAROOT):$$CLASSPATH'); &define_variable ('JAVAROOT', '$(top_builddir)'); local (%valid) = &am_primary_prefixes ('JAVA', 'java', 'noinst', 'check'); local ($dir, $curs); foreach $curs (keys %valid) { if (! &variable_defined ($curs . '_JAVA') || $curs eq 'noinst' || $curs eq 'EXTRA') { next; } if (defined $dir) { print STDERR "got $curs\n"; &am_line_error ($curs . '_JAVA', "multiple _JAVA primaries in use"); } $dir = $curs; } $output_rules .= ('class' . $dir . '.stamp: $(' . $dir . '_JAVA)' . "\n" . "\t" . '$(CLASSPATH_ENV) $(JAVAC) -d $(JAVAROOT) ' . '$(JAVACFLAGS) $?' . "\n" . "\t" . 'echo timestamp > class' . $dir . '.stamp' . "\n"); push (@all, 'class' . $dir . '.stamp'); &push_dist_common ($dir . '_JAVA'); } # Handle some of the minor options. sub handle_minor_options { if (defined $options{'readme-alpha'}) { if ($relative_dir eq '.') { if ($package_version !~ /^$GNITS_VERSION_PATTERN$/) { # FIXME: allow real filename. &am_conf_line_error ('configure.in', $package_version_line, "version \`$package_version' doesn't follow Gnits standards"); } elsif (defined $1 && -f 'README-alpha') { # This means we have an alpha release. See # GNITS_VERSION_PATTERN for details. &require_file ($FOREIGN, 'README-alpha'); } } } } ################################################################ # Scan one file for interesting things. Subroutine of scan_configure. sub scan_one_configure_file { local ($filename) = @_; open (CONFIGURE, $filename) || die "automake: couldn't open \`$filename': $!\n"; print "automake: reading $filename\n" if $verbose; while (<CONFIGURE>) { # Remove comments from current line. s/\bdnl\b.*$//; s/\#.*$//; # Skip macro definitions. Otherwise we might be confused into # thinking that a macro that was only defined was actually # used. next if /AC_DEFUN/; # Follow includes. This is a weirdness commonly in use at # Cygnus and hopefully nowhere else. if (/sinclude\((.*)\)/ && -f $1) { &scan_one_configure_file ($1); } # Populate libobjs array. if (/AC_FUNC_ALLOCA/) { $libsources{'alloca.c'} = 1; } elsif (/AC_FUNC_GETLOADAVG/) { $libsources{'getloadavg.c'} = 1; } elsif (/AC_FUNC_MEMCMP/) { $libsources{'memcmp.c'} = 1; } elsif (/AC_STRUCT_ST_BLOCKS/) { $libsources{'fileblocks.c'} = 1; } elsif (/A[CM]_REPLACE_GNU_GETOPT/) { $libsources{'getopt.c'} = 1; $libsources{'getopt1.c'} = 1; } elsif (/AM_FUNC_STRTOD/) { $libsources{'strtod.c'} = 1; } elsif (/AM_WITH_REGEX/) { $libsources{'rx.c'} = 1; $libsources{'rx.h'} = 1; $libsources{'regex.c'} = 1; $libsources{'regex.h'} = 1; $omit_dependencies{'rx.h'} = 1; $omit_dependencies{'regex.h'} = 1; } elsif (/AM_FUNC_MKTIME/) { $libsources{'mktime.c'} = 1; } elsif (/AM_FUNC_ERROR_AT_LINE/) { $libsources{'error.c'} = 1; $libsources{'error.h'} = 1; } elsif (/AM_FUNC_OBSTACK/) { $libsources{'obstack.c'} = 1; $libsources{'obstack.h'} = 1; } elsif (/LIBOBJS="(.*)\s+\$LIBOBJS"/ || /LIBOBJS="\$LIBOBJS\s+(.*)"/) { foreach $libobj_iter (split (' ', $1)) { if ($libobj_iter =~ /^(.*)\.o$/) { $libsources{$1 . '.c'} = 1; } } } if (! $in_ac_replace && s/AC_REPLACE_FUNCS\s*\(\[?//) { $in_ac_replace = 1; } if ($in_ac_replace) { $in_ac_replace = 0 if s/[\]\)].*$//; # Remove trailing backslash. s/\\$//; foreach (split) { # Need to skip empty elements for Perl 4. next if $_ eq ''; $libsources{$_ . '.c'} = 1; } } if (/$obsolete_rx/o) { local ($hint) = ''; if ($obsolete_macros{$1}) { $hint = '; ' . $obsolete_macros{$1}; } &am_conf_line_error ($filename, $., "\`$1' is obsolete$hint"); } # Process the AC_OUTPUT macro. if (! $in_ac_output && s/AC_OUTPUT\s*\(\[?//) { $in_ac_output = 1; $ac_output_line = $.; } if ($in_ac_output) { local ($closing) = 0; if (s/[\]\),].*$//) { $in_ac_output = 0; $closing = 1; } # Look at potential Makefile.am's. foreach (split) { # Must skip empty string for Perl 4. next if $_ eq "\\" || $_ eq ''; # Handle $local:$input syntax. Note that we ignore # every input file past the first, though we keep # those around for later. local ($local, $input, @rest) = split (/:/); if (! $input) { $input = $local; } else { # FIXME: should be error if .in is missing. $input =~ s/\.in$//; } if (-f $input . '.am') { # We have a file that automake should generate. push (@make_input_list, $input); $make_list{$input} = join (':', ($local, @rest)); } else { # We have a file that automake should cause to be # rebuilt, but shouldn't generate itself. push (@other_input_files, $_); } } if ($closing && @make_input_list == 0 && @other_input_files == 0) { &am_conf_line_error ($filename, $ac_output_line, "No files mentioned in \`AC_OUTPUT'"); exit 1; } } if (/$AC_CONFIG_AUX_DIR_PATTERN/o) { @config_aux_path = $1; } # Check for ansi2knr. $am_c_prototypes = 1 if /AM_C_PROTOTYPES/; # Check for exe extension stuff. if (/AM_EXEEXT/) { $seen_exeext = 1; $configure_vars{'EXEEXT'} = 1; } # Check for NLS support. if (/AM_GNU_GETTEXT/) { $seen_gettext = 1; $ac_gettext_line = $.; $omit_dependencies{'libintl.h'} = 1; } # Look for ALL_LINGUAS. if (/ALL_LINGUAS="(.*)"$/ || /ALL_LINGUAS=(.*)$/) { $seen_linguas = 1; $all_linguas = $1; $all_linguas_line = $.; } # Handle configuration headers. A config header of `[$1]' # means we are actually scanning AM_CONFIG_HEADER from # aclocal.m4. if (/A([CM])_CONFIG_HEADER\s*\((.*)\)/ && $2 ne '[$1]') { &am_conf_line_error ($filename, $., "\`AC_CONFIG_HEADER' is obsolete; use \`AM_CONFIG_HEADER'") if $1 eq 'C'; $config_header_line = $.; local ($one_hdr); foreach $one_hdr (split (' ', $2)) { push (@config_fullnames, $one_hdr); if ($one_hdr =~ /^([^:]+):(.+)$/) { push (@config_names, $1); push (@config_headers, $2); } else { push (@config_names, $one_hdr); push (@config_headers, $one_hdr . '.in'); } } } # Handle AC_CANONICAL_*. Always allow upgrading to # AC_CANONICAL_SYSTEM, but never downgrading. $seen_canonical = $AC_CANONICAL_HOST if ! $seen_canonical && (/AC_CANONICAL_HOST/ || /AC_CHECK_TOOL/); $seen_canonical = $AC_CANONICAL_SYSTEM if /AC_CANONICAL_SYSTEM/; $seen_path_xtra = 1 if /AC_PATH_XTRA/; # This macro handles several different things. if (/$AM_INIT_AUTOMAKE_PATTERN/o) { $seen_make_set = 1; $seen_package = 1; $seen_version = 1; $seen_arg_prog = 1; $seen_prog_install = 2; ($package_version = $1) =~ s/$AM_PACKAGE_VERSION_PATTERN/$1/o; $package_version_line = $.; } # This is like AM_INIT_AUTOMAKE, but doesn't actually set the # package and version number. (This might change in the # future). Yes, I'm not above hacking Automake so it works # well with other GNU tools -- that is actually the point. if (/AM_INIT_GUILE_MODULE/) { $seen_make_set = 1; $seen_package = 1; $seen_version = 1; $seen_arg_prog = 1; $seen_prog_install = 2; @config_aux_path = ('..'); } # Some things required by Automake. $seen_make_set = 1 if /AC_PROG_MAKE_SET/; $seen_arg_prog = 1 if /AC_ARG_PROGRAM/; if (/AC_PROG_(YACC|RANLIB|CC|CXXCPP|CXX|LEX|AWK|CPP|LN_S)/) { $configure_vars{$1} = 1; } if (/$AC_CHECK_PATTERN/o) { $configure_vars{$3} = 1; } if (/$AM_MISSING_PATTERN/o && $1 ne 'ACLOCAL' && $1 ne 'AUTOCONF' && $1 ne 'AUTOMAKE' && $1 ne 'AUTOHEADER') { $configure_vars{$1} = 1; } # Explicitly avoid ANSI2KNR -- we AC_SUBST that in protos.m4, # but later define it elsewhere. This is pretty hacky. We # also explicitly avoid INSTALL_SCRIPT and some other # variables because they are defined in header-vars.am. # FIXME. if (/$AC_SUBST_PATTERN/o && $1 ne 'ANSI2KNR' && $1 ne 'INSTALL_SCRIPT') { $configure_vars{$1} = 1; } $seen_decl_yytext = 1 if /AC_DECL_YYTEXT/; $seen_maint_mode = 1 if /AM_MAINTAINER_MODE/; $seen_package = 1 if /PACKAGE=/; # Skip VERSION of [$2]; that is from AM_INIT_AUTOMAKE. if (/\bVERSION=(\S+)/ && $1 ne '[$2]') { $seen_version = 1; $package_version = $1; $package_version_line = $.; } elsif (/VERSION=/) { $seen_version = 1; } # Weird conditionals here because it is always allowed to # upgrade to AM_PROG_INSTALL but never to downgrade to # AC_PROG_INSTALL. $seen_prog_install = 1 if ! $seen_prog_install && /AC_PROG_INSTALL/; $seen_prog_install = 2 if /AM_PROG_INSTALL/; $seen_lispdir = 1 if /AM_PATH_LISPDIR/; if (/AM_PROG_LIBTOOL/) { $seen_libtool = 1; $libtool_line = $.; $configure_vars{'LIBTOOL'} = 1; $configure_vars{'RANLIB'} = 1; $configure_vars{'CC'} = 1; # AM_PROG_LIBTOOL runs AC_CANONICAL_HOST. Make sure we # never downgrade (if we've seen AC_CANONICAL_SYSTEM). $seen_canonical = $AC_CANONICAL_HOST if ! $seen_canonical; } if (/$AM_CONDITIONAL_PATTERN/o) { $configure_cond{$1} = 1; } } close (CONFIGURE); } # Scan configure.in and aclocal.m4 for interesting things. We must # scan aclocal.m4 because there might be AC_SUBSTs and such there. sub scan_configure { # Reinitialize libsources here. This isn't really necessary, # since we currently assume there is only one configure.in. But # that won't always be the case. %libsources = (); local ($in_ac_output, $in_ac_replace) = (0, 0); local (%make_list, @make_input_list); local ($libobj_iter); &scan_one_configure_file ('configure.in'); &scan_one_configure_file ('aclocal.m4') if -f 'aclocal.m4'; # Set input and output files if not specified by user. if (! @input_files) { @input_files = @make_input_list; %output_files = %make_list; } &am_conf_error ("\`PACKAGE' not defined in configure.in") if ! $seen_package; &am_conf_error ("\`VERSION' not defined in configure.in") if ! $seen_version; # Look for some files we need. Always check for these. This # check must be done for every run, even those where we are only # looking at a subdir Makefile. We must set relative_dir so that # the file-finding machinery works. local ($relative_dir) = '.'; &require_config_file ($FOREIGN, 'install-sh', 'mkinstalldirs', 'missing'); &am_error ("\`install.sh' is an anachronism; use \`install-sh' instead") if -f $config_aux_path[0] . '/install.sh'; } ################################################################ # Set up for Cygnus mode. sub check_cygnus { return unless $cygnus_mode; &set_strictness ('foreign'); $options{'no-installinfo'} = 1; $options{'no-dependencies'} = 1; $use_dependencies = 0; if (! $seen_maint_mode) { &am_conf_error ("\`AM_MAINTAINER_MODE' required when --cygnus specified"); } if (! $seen_exeext) { &am_conf_error ("\`AM_EXEEXT' required when --cygnus specified"); } } # Do any extra checking for GNU standards. sub check_gnu_standards { if ($relative_dir eq '.') { # In top level (or only) directory. &require_file ($GNU, 'INSTALL', 'NEWS', 'README', 'COPYING', 'AUTHORS', 'ChangeLog'); } if ($strictness >= $GNU) { if (defined $options{'no-installman'}) { &am_line_error ('AUTOMAKE_OPTIONS', "option \`no-installman' disallowed by GNU standards"); } if (defined $options{'no-installinfo'}) { &am_line_error ('AUTOMAKE_OPTIONS', "option \`no-installinfo' disallowed by GNU standards"); } } } # Do any extra checking for GNITS standards. sub check_gnits_standards { if ($strictness >= $GNITS) { if (-f $relative_dir . '/COPYING.LIB') { &am_error ("\`${relative_dir}/COPYING.LIB' disallowed by Gnits standards"); } } if ($relative_dir eq '.') { # In top level (or only) directory. &require_file ($GNITS, 'THANKS'); } } ################################################################ # Pretty-print something. HEAD is what should be printed at the # beginning of the first line, FILL is what should be printed at the # beginning of every subsequent line. sub pretty_print_internal { local ($head, $fill, @values) = @_; local ($column) = length ($head); local ($result) = $head; # Fill length is number of characters. However, each Tab # character counts for eight. So we count the number of Tabs and # multiply by 7. local ($fill_length) = length ($fill); $fill_length += 7 * ($fill =~ tr/\t/\t/d); local ($bol) = ($head eq ''); foreach (@values) { # "71" because we also print a space. if ($column + length ($_) > 71) { $result .= " \\\n" . $fill; $column = $fill_length; $bol = 1; } $result .= ' ' unless ($bol); $result .= $_; $column += length ($_) + 1; $bol = 0; } $result .= "\n"; return $result; } # Pretty-print something and append to output_vars. sub pretty_print { $output_vars .= &pretty_print_internal (@_); } # Pretty-print something and append to output_rules. sub pretty_print_rule { $output_rules .= &pretty_print_internal (@_); } ################################################################ # See if a target exists. sub target_defined { local ($target) = @_; return defined $targets{$target}; } # See if two conditionals are the same. sub conditional_same { local ($cond1, $cond2) = @_; return (&conditional_true_when ($cond1, $cond2) && &conditional_true_when ($cond2, $cond1)); } # See if a conditional is true. Both arguments are conditional # strings. This returns true if the first conditional is true when # the second conditional is true. sub conditional_true_when { local ($cond, $when) = @_; # Check the easy case first. if ($cond eq $when) { return 1; } # Check each component of $cond, which looks @COND1@@COND2@. foreach $comp (split ('@', $cond)) { # The way we split will give null strings between each # condition. next if ! $comp; if (index ($when, '@' . $comp . '@') == -1) { return 0; } } return 1; } # Check for an ambiguous conditional. This is called when a variable # or target is being defined conditionally. If we already know about # a definition that is true under the same conditions, then we have an # ambiguity. sub check_ambiguous_conditional { local ($var_name, $cond) = @_; local (@cond_vals) = split (' ', $conditional{$var_name}); while (@cond_vals) { local ($vcond) = shift (@cond_vals); shift (@cond_vals); if (&conditional_true_when ($vcond, $cond) || &conditional_true_when ($cond, $vcond)) { &am_line_error ($var_name, "$var_name multiply defined in condition"); } } } # See if a variable exists. The first argument is the variable name, # and the optional second argument is the condition which we should # check. If no condition is given, we currently return true if the # variable is defined under any condition. sub variable_defined { local ($var, $cond) = @_; if (defined $targets{$var}) { &am_line_error ($var, "\`$var' is target; expected variable"); return 0; } elsif (defined $contents{$var}) { if ($cond && $conditional{$var}) { # We have been asked to check for a particular condition, # and the variable is defined conditionally. We need to # look through the conditions under which the variable is # defined, and see if any of them match the conditional we # have been asked to check. local (@cond_vars) = split (' ', $conditional{$var}); while (@cond_vars) { if (&conditional_same ($cond, shift (@cond_vars))) { # Even a conditional examination is good enough # for us. FIXME: really should maintain examined # status on a per-condition basis. $content_seen{$var} = 1; return 1; } shift (@cond_vars); } # The variable is not defined for the given condition. return 0; } $content_seen{$var} = 1; return 1; } return 0; } # Mark a variable as examined. sub examine_variable { local ($var) = @_; &variable_defined ($var); } # Quote a value in order to put it in $conditional. We need to quote # spaces, and we need to handle null strings, so that we can later # retrieve values by splitting on space. sub quote_cond_val { local ($val) = @_; $val =~ s/ /\001/g; $val = '\002' if $val eq ''; return $val; } # Unquote a value in $conditional. sub unquote_cond_val { local ($val) = @_; $val =~ s/\001/ /g; $val = '' if $val eq '\002'; return $val; } # Return the set of conditions for which a variable is defined. # If the variable is not defined conditionally, and is not defined in # terms of any variables which are defined conditionally, then this # returns the empty list. # If the variable is defined conditionally, but is not defined in # terms of any variables which are defined conditionally, then this # returns the list of conditions for which the variable is defined. # If the variable is defined in terms of any variables which are # defined conditionally, then this returns a full set of permutations # of the subvariable conditions. For example, if the variable is # defined in terms of a variable which is defined for @COND_TRUE@, # then this returns both @COND_TRUE@ and @COND_FALSE@. This is # because we will need to define the variable under both conditions. sub variable_conditions { local ($var) = @_; local (%uniqify); local ($cond); foreach $cond (&variable_conditions_sub ($var, '', ())) { $uniqify{$cond} = 1; } return keys %uniqify; } # A subroutine of variable_conditions. We only return conditions # which are true for all the conditions in @PARENT_CONDS. sub variable_conditions_sub { local ($var, $parent, @parent_conds) = @_; local (@new_conds) = (); if (! $conditional{$var}) { foreach (split (' ', $contents{$var})) { # If a comment seen, just leave. last if /^#/; # Handle variable substitutions. if (/^\$\{(.*)\}$/ || /^\$\((.*)\)$/) { push (@new_conds, &variable_conditions_sub ($1, $var, @parent_conds)); } } return &variable_conditions_reduce (@new_conds); } local (@this_conds) = (); local (@condvals) = split (' ', $conditional{$var}); while (@condvals) { local ($cond) = shift (@condvals); local ($val) = &unquote_cond_val (shift (@condvals)); if (@parent_conds) { local ($ok) = 1; local ($parent_cond); foreach $parent_cond (@parent_conds) { if (! &conditional_true_when ($parent_cond, $cond)) { $ok = 0; last; } } next if ! $ok; } push (@this_conds, $cond); push (@parent_conds, $cond); local (@subvar_conds) = (); foreach (split (' ', $val)) { # If a comment seen, just leave. last if /^#/; # Handle variable substitutions. if (/^\$\{(.*)\}$/ || /^\$\((.*)\)$/) { push (@subvar_conds, &variable_conditions_sub ($1, $var, @parent_conds)); } } pop (@parent_conds); # If there are no conditional subvariables, then we want to # return this condition. Otherwise, we want to return the # permutations of the subvariables. if (! @subvar_conds) { push (@new_conds, $cond); } else { push (@new_conds, &variable_conditions_reduce (@subvar_conds)); } } return @new_conds if ! $parent; # If we are being called on behalf of another variable, we need to # return all possible permutations of the conditions. We have # already handled everything in @this_conds along with their # subvariables. We now need to add any permutations that are not # in @this_conds. local ($this_cond); foreach $this_cond (@this_conds) { local (@perms) = &variable_conditions_permutations (split('@', $this_cond)); local ($perm); foreach $perm (@perms) { local ($scan); local ($ok) = 1; foreach $scan (@this_conds) { if (&conditional_true_when ($perm, $scan) || &conditional_true_when ($scan, $perm)) { $ok = 0; last; } } next if ! $ok; if (@parent_conds) { local ($ok) = 1; local ($parent_cond); foreach $parent_cond (@parent_conds) { if (! &conditional_true_when ($parent_cond, $perm)) { $ok = 0; last; } } next if ! $ok; } # This permutation was not already handled, and is valid # for the parents. push (@new_conds, $perm); } } return @new_conds; } # Subroutine for variable_conditions_sort sub variable_conditions_cmp { local ($as) = $a; $as =~ s/[^@]//g; local ($bs) = $b; $bs =~ s/[^@]//g; return (length ($as) <=> length ($bs) || $a cmp $b); } # Sort a list of conditionals so that only the exclusive ones are # retained. For example, if both @COND1_TRUE@@COND2_TRUE@ and # @COND1_TRUE@ are in the list, discard the latter. sub variable_conditions_reduce { local (@conds) = @_; local (@ret) = (); local ($cond); foreach $cond (sort variable_conditions_cmp @conds) { local ($ok) = 1; local ($scan); foreach $scan (@ret) { if (&conditional_true_when ($cond, $scan)) { $ok = 0; last; } } next if ! $ok; push (@ret, $cond); } return @ret; } # Return a list of permutations of a conditional string. sub variable_conditions_permutations { local (@comps) = @_; return () if ! @comps; local ($comp) = shift (@comps); return &variable_conditions_permutations (@comps) if $comp eq ''; local ($neg) = $comp; $neg =~ s/TRUE$/TRUEO/; $neg =~ s/FALSE$/TRUE/; $neg =~ s/TRUEO$/FALSE/; local (@ret); local ($sub); foreach $sub (&variable_conditions_permutations (@comps)) { push (@ret, '@' . $comp . '@' . $sub); push (@ret, '@' . $neg . '@' . $sub); } if (! @ret) { push (@ret, '@' . $comp . '@'); push (@ret, '@' . $neg . '@'); } return @ret; } # Warn if a variable is conditionally defined. This is called if we # are using the value of a variable. sub variable_conditionally_defined { local ($var, $parent) = @_; if ($conditional{$var}) { if ($parent) { &am_line_error ($parent, "warning: automake does not support conditional definition of $var in $parent"); } else { &am_line_error ($parent, "warning: automake does not support $var being defined conditionally") } } } # Get the value of a variable. This just returns $contents, but warns # if the variable is conditionally defined. sub variable_value { local ($var) = @_; &variable_conditionally_defined ($var); return $contents{$var}; } # Convert a variable value to a list, split as whitespace. This will # recursively follow $(...) and ${...} inclusions. It preserves @...@ # substitutions. If COND is 'all', then all values under all # conditions should be returned; if COND is a particular condition # (all conditions are surrounded by @...@) then only the value for # that condition should be returned; otherwise, warn if VAR is # conditionally defined. sub value_to_list { local ($var, $val, $cond) = @_; local (@result); foreach (split (' ', $val)) { # If a comment seen, just leave. last if /^#/; # Handle variable substitutions. if (/^\$\{([^}]*)\}$/ || /^\$\(([^)]*)\)$/) { local ($varname) = $1; # If the user uses a losing variable name, just ignore it. # This isn't ideal, but people have requested it. next if ($varname =~ /\@.*\@/); local ($from, $to); local (@temp_list); if ($varname =~ /^([^:]*):([^=]*)=(.*)$/) { $varname = $1; $to = $3; ($from = $2) =~ s/(\W)/\\$1/g; } # Find the value. @temp_list = &variable_value_as_list ($1, $cond, $var); # Now rewrite the value if appropriate. if ($from) { grep (s/$from$/$to/, @temp_list); } push (@result, @temp_list); } else { push (@result, $_); } } return @result; } # Return contents of variable as list, split as whitespace. This will # recursively follow $(...) and ${...} inclusions. It preserves @...@ # substitutions. If COND is 'all', then all values under all # conditions should be returned; if COND is a particular condition # (all conditions are surrounded by @...@) then only the value for # that condition should be returned; otherwise, warn if VAR is # conditionally defined. If PARENT is specified, it is the name of # the including variable; this is only used for error reports. sub variable_value_as_list { local ($var, $cond, $parent) = @_; local (@result); if (defined $targets{$var}) { &am_line_error ($var, "\`$var' is target; expected variable"); } elsif (! defined $contents{$var}) { &am_line_error ($parent, "variable \`$var' not defined"); } elsif ($cond eq 'all' && $conditional{$var}) { local (@condvals) = split (' ', $conditional{$var}); while (@condvals) { shift (@condvals); local ($val) = &unquote_cond_val (shift (@condvals)); push (@result, &value_to_list ($var, $val, $cond)); } } elsif ($cond && $conditional{$var}) { local (@condvals) = split (' ', $conditional{$var}); local ($onceflag); while (@condvals) { local ($vcond) = shift (@condvals); local ($val) = &unquote_cond_val (shift (@condvals)); if (&conditional_true_when ($vcond, $cond)) { # Warn if we have an ambiguity. It's hard to know how # to handle this case correctly. &variable_conditionally_defined ($var, $parent) if $onceflag; $onceflag = 1; push (@result, &value_to_list ($var, $val, $cond)); } } } else { &variable_conditionally_defined ($var, $parent); $content_seen{$var} = 1; push (@result, &value_to_list ($var, $contents{$var}, $cond)); } return @result; } # Define a new variable, but only if not already defined. sub define_variable { local ($var, $value) = @_; if (! defined $contents{$var}) { $output_vars .= $var . ' = ' . $value . "\n"; $contents{$var} = $value; $content_seen{$var} = 1; } } # Like define_variable, but the value is a list, and the variable may # be defined conditionally. The second argument is the conditional # under which the value should be defined; this should be the empty # string to define the variable unconditionally. The third argument # is a list holding the values to use for the variable. The value is # pretty printed in the output file. sub define_pretty_variable { local ($var, $cond, @value) = @_; if (! defined $contents{$var} || ($cond && ! &variable_defined ($var, $cond))) { $contents{$var} = join (' ', @value); if ($cond) { if ($conditional{$var}) { $conditional{$var} .= ' '; } else { $conditional{$var} = ''; } $conditional{$var} .= ($cond . ' ' . "e_cond_val ($contents{$var})); } &pretty_print ($cond . $var . ' = ', $cond, @value); $content_seen{$var} = 1; } } # Like define_variable, but define a variable to be the configure # substitution by the same name. sub define_configure_variable { local ($var) = @_; local ($value) = '@' . $var . '@'; &define_variable ($var, $value); } # Define a variable that represents a program to run. If in Cygnus # mode, the program is searched for in the build (or source) tree. # Otherwise no searching is done at all. Arguments are: # * VAR Name of variable to define # * WHATDIR Either `src' or `build', depending on where program should # be found. (runtest is in srcdir!) # * SUBDIR Subdir of top-level dir # * PROGRAM Name of program # * OVERRIDE If specified, the name of the program to use when not in # Cygnus mode. Defaults to PROGRAM. sub define_program_variable { local ($var, $whatdir, $subdir, $program, $override) = @_; if (! $override) { $override = $program; } if ($cygnus_mode) { local ($full) = ('$(top_' . $whatdir . 'dir)/../' . $subdir . '/' . $program); &define_variable ($var, ('`if test -f ' . $full . '; then echo ' . $full . '; else echo ' . $program . '; fi`')); } else { &define_variable ($var, $override); } } ################################################################ # Read Makefile.am and set up %contents. Simultaneously copy lines # from Makefile.am into $output_trailer or $output_vars as # appropriate. NOTE we put rules in the trailer section. We want # user rules to come after our generated stuff. sub read_am_file { local ($amfile) = @_; open (AM_FILE, $amfile) || die "automake: couldn't open \`$amfile': $!\n"; print "automake: reading $amfile\n" if $verbose; $output_vars = ("# $in_file_name generated automatically by automake " . $VERSION . " from $am_file_name\n"); # Generate copyright for generated Makefile.in. $output_vars .= $gen_copyright; local ($saw_bk) = 0; local ($was_rule) = 0; local ($spacing) = ''; local ($comment) = ''; local ($last_var_name) = ''; local ($blank) = 0; while (<AM_FILE>) { if (/$IGNORE_PATTERN/o) { # Merely delete comments beginning with two hashes. } elsif (/$WHITE_PATTERN/o) { # Stick a single white line before the incoming macro or rule. $spacing = "\n"; $blank = 1; } elsif (/$COMMENT_PATTERN/o) { # Stick comments before the incoming macro or rule. Make # sure a blank line preceeds first block of comments. $spacing = "\n" unless $blank; $blank = 1; $comment .= $spacing . $_; $spacing = ''; } else { last; } } $output_vars .= $comment . "\n"; $comment = ''; $spacing = "\n"; local ($am_vars) = ''; local ($is_ok_macro); while ($_) { $_ .= "\n" unless substr ($_, -1, 1) eq "\n"; $_ =~ s/\@MAINT\@//g unless $seen_maint_mode; if (/$IGNORE_PATTERN/o) { # Merely delete comments beginning with two hashes. } elsif (/$WHITE_PATTERN/o) { # Stick a single white line before the incoming macro or rule. $spacing = "\n"; } elsif (/$COMMENT_PATTERN/o) { # Stick comments before the incoming macro or rule. $comment .= $spacing . $_; $spacing = ''; } elsif ($saw_bk) { if ($was_rule) { $output_trailer .= join ('', @conditional_stack) . $_; $saw_bk = /\\$/; } else { $am_vars .= join ('', @conditional_stack) . $_; $saw_bk = /\\$/; # Chop newline and backslash if this line is # continued. FIXME: maybe ensure trailing whitespace # exists? chop if $saw_bk; chop if $saw_bk; $contents{$last_var_name} .= $_; if (@conditional_stack) { $conditional{$last_var_name} .= "e_cond_val ($_); } } } elsif (/$IF_PATTERN/o) { &am_line_error ($., "$1 does not appear in AM_CONDITIONAL") if (! $configure_cond{$1}); push (@conditional_stack, "\@" . $1 . "_TRUE\@"); } elsif (/$ELSE_PATTERN/o) { if (! @conditional_stack) { &am_line_error ($., "else without if"); } elsif ($conditional_stack[$#conditional_stack] =~ /_FALSE\@$/) { &am_line_error ($., "else after else"); } else { $conditional_stack[$#conditional_stack] =~ s/_TRUE\@$/_FALSE\@/; } } elsif (/$ENDIF_PATTERN/o) { if (! @conditional_stack) { &am_line_error ($., "endif without if"); } else { pop @conditional_stack; } } elsif (/$RULE_PATTERN/o) { # Found a rule. $was_rule = 1; if (defined $contents{$1} && (@conditional_stack ? ! defined $conditional{$1} : defined $conditional{$1})) { &am_line_error ($1, "$1 defined both conditionally and unconditionally"); } # Value here doesn't matter; for targets we only note # existence. $contents{$1} = 1; $targets{$1} = 1; local ($cond_string) = join ('', @conditional_stack); if (@conditional_stack) { if ($conditional{$1}) { &check_ambiguous_conditional ($1, $cond_string); $conditional{$1} .= ' '; } else { $conditional{$1} = ''; } $conditional{$1} .= $cond_string . ' 1'; } $content_lines{$1} = $.; $output_trailer .= $comment . $spacing . $cond_string . $_; $comment = $spacing = ''; $saw_bk = /\\$/; # Check the rule for being a suffix rule. If so, store in # a hash. local ($source_suffix); local ($object_suffix); if (($source_suffix, $object_suffix) = ($1 =~ $SUFFIX_RULE_PATTERN)) { $suffix_rules{$source_suffix} = $object_suffix; print "Sources ending in .$source_suffix become .$object_suffix\n" if $verbose; $source_suffix_pattern = "(" . join('|', keys %suffix_rules) . ")"; } # FIXME: make sure both suffixes are in SUFFIXES? Or set # SUFFIXES from suffix_rules? } elsif (($is_ok_macro = /$MACRO_PATTERN/o) || /$BOGUS_MACRO_PATTERN/o) { # Found a macro definition. $was_rule = 0; $last_var_name = $1; if (defined $contents{$1} && (@conditional_stack ? ! defined $conditional{$1} : defined $conditional{$1})) { &am_line_error ($1, "$1 defined both conditionally and unconditionally"); } if ($2 ne '' && substr ($2, -1) eq "\\") { $contents{$last_var_name} = substr ($2, 0, length ($2) - 1); } else { $contents{$last_var_name} = $2; } local ($cond_string) = join ('', @conditional_stack); if (@conditional_stack) { if ($conditional{$last_var_name}) { &check_ambiguous_conditional ($last_var_name, $cond_string); $conditional{$last_var_name} .= ' '; } else { $conditional{$last_var_name} = ''; } local ($val) = $contents{$last_var_name}; $conditional{$last_var_name} .= ($cond_string . ' ' . "e_cond_val ($val)); } $content_lines{$last_var_name} = $.; $am_vars .= $comment . $spacing . $cond_string . $_; $comment = $spacing = ''; $saw_bk = /\\$/; # Error if bogus. &am_line_error ($., "bad macro name \`$last_var_name'") if ! $is_ok_macro; } else { # This isn't an error; it is probably a continued rule. # In fact, this is what we assume. $was_rule = 1; $output_trailer .= ($comment . $spacing . join ('', @conditional_stack) . $_); $comment = $spacing = ''; $saw_bk = /\\$/; } $_ = <AM_FILE>; } $output_trailer .= $comment; &am_error ("unterminated conditionals: " . join (' ', @conditional_stack)) if (@conditional_stack); # Compute relative location of the top object directory. local (@topdir) = (); foreach (split (/\//, $relative_dir)) { next if $_ eq '.' || $_ eq ''; if ($_ eq '..') { pop @topdir; } else { push (@topdir, '..'); } } @topdir = ('.') if ! @topdir; $top_builddir = join ('/', @topdir); local ($build_rx); ($build_rx = $top_builddir) =~ s/(\W)/\\$1/g; $output_vars .= &file_contents_with_transform ('s/\@top_builddir\@/' . $build_rx . '/g;', 'header-vars'); # Generate some useful variables when AC_CANONICAL_* used. FIXME: # this should use generic %configure_vars method. if ($seen_canonical) { local ($curs, %vars); $vars{'host_alias'} = 'host_alias'; $vars{'host_triplet'} = 'host'; if ($seen_canonical == $AC_CANONICAL_SYSTEM) { $vars{'build_alias'} = 'build_alias'; $vars{'build_triplet'} = 'build'; $vars{'target_alias'} = 'target_alias'; $vars{'target_triplet'} = 'target'; } foreach $curs (sort keys %vars) { $output_vars .= "$curs = \@$vars{$curs}\@\n"; $contents{$curs} = "\@$vars{$curs}\@"; } } local ($curs); foreach $curs (sort keys %configure_vars) { &define_configure_variable ($curs); } $output_vars .= $am_vars; } ################################################################ sub initialize_global_constants { # Values for AC_CANONICAL_* $AC_CANONICAL_HOST = 1; $AC_CANONICAL_SYSTEM = 2; # Associative array of standard directory names. Entry is TRUE if # corresponding directory should be installed during # 'install-exec' phase. %exec_dir_p = ('bin', 1, 'sbin', 1, 'libexec', 1, 'data', 0, 'sysconf', 1, 'localstate', 1, 'lib', 1, 'info', 0, 'man', 0, 'include', 0, 'oldinclude', 0, 'pkgdata', 0, 'pkglib', 1, 'pkginclude', 0 ); # Commonly found files we look for and automatically include in # DISTFILES. @common_files = ( "README", "THANKS", "TODO", "NEWS", "COPYING", "COPYING.LIB", "INSTALL", "ABOUT-NLS", "ChangeLog", "configure", "configure.in", "config.guess", "config.sub", "AUTHORS", "BACKLOG", "ABOUT-GNU", "libversion.in", "mdate-sh", "mkinstalldirs", "install-sh", 'texinfo.tex', "ansi2knr.c", "ansi2knr.1", 'elisp-comp', 'ylwrap', 'acinclude.m4', @libtoolize_files, 'missing' ); # Commonly used files we auto-include, but only sometimes. @common_sometimes = ( "aclocal.m4", "acconfig.h", "config.h.top", "config.h.bot", "stamp-h.in", 'stamp-vti' ); $USAGE = "\ -a, --add-missing add missing standard files to package --amdir=DIR directory storing config files --build-dir=DIR directory where build being done (for dependencies) --cygnus assume program is part of Cygnus-style tree --foreign set strictness to foreign --gnits set strictness to gnits --gnu set strictness to gnu --help print this help, then exit -i, --include-deps include generated dependencies in Makefile.in --no-force only update Makefile.in's that are out of date -o DIR, --output-dir=DIR put generated Makefile.in's into DIR --srcdir-name=DIR name used for srcdir (for dependencies) -v, --verbose verbosely list files processed --version print version number, then exit\n"; # Copyright on generated Makefile.ins. $gen_copyright = "\ # Copyright (C) 1994, 1995, 1996, 1997, 1998 Free Software Foundation, Inc. # This Makefile.in is free software; the Free Software Foundation # gives unlimited permission to copy and/or distribute it, # with or without modifications, as long as this notice is preserved. # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY, to the extent permitted by law; without # even the implied warranty of MERCHANTABILITY or FITNESS FOR A # PARTICULAR PURPOSE. "; # Ignore return result from chmod, because it might give an error # if we chmod a symlink. $dist_header = "\t" . '-chmod -R a+r $(distdir)' . "\n"; $dist{'dist-tarZ'} = ("\t" . '$(TAR) chf - $(distdir) | compress -c > $(distdir).tar.Z' . "\n"); $dist{'dist-shar'} = ("\t" . 'shar $(distdir) | gzip > $(distdir).shar.gz' . "\n"); $dist{'dist-zip'} = "\t" . 'zip -rq $(distdir).zip $(distdir)' . "\n"; $dist{'dist'} = "\t" . 'GZIP=$(GZIP) $(TAR) chozf $(distdir).tar.gz $(distdir)' . "\n"; $dist_trailer = "\t" . '-rm -rf $(distdir)' . "\n"; } # (Re)-Initialize per-Makefile.am variables. sub initialize_per_input { # These two variables are used when generating each Makefile.in. # They hold the Makefile.in until it is ready to be printed. $output_rules = ''; $output_vars = ''; $output_trailer = ''; $output_all = ''; $output_header = ''; # Suffixes found during a run. @suffixes = (); # This holds the contents of a Makefile.am, as parsed by # read_am_file. %contents = (); # This holds the names which are targets. These also appear in # %contents. %targets = (); # For a variable or target which is defined conditionally, this # holds an array of the conditional values. The array is composed # of pairs of condition strings (the variables which configure # will substitute) and values (the value of a target is # meaningless). For an unconditional variable, this is empty. %conditional = (); # This holds the line numbers at which various elements of # %contents are defined. %content_lines = (); # This holds a 1 if a particular variable was examined. %content_seen = (); # This is the conditional stack. @conditional_stack = (); # This holds the "relative directory" of the current Makefile.in. # Eg for src/Makefile.in, this is "src". $relative_dir = ''; # This holds a list of files that are included in the # distribution. %dist_common = (); # List of dependencies for the obvious targets. @install_data = (); @install_exec = (); @uninstall = (); @installdirs = (); @info = (); @dvi = (); @all = (); @check = (); @check_tests = (); @installcheck = (); @clean = (); @phony = (); # These are pretty obvious, too. They are used to define the # SOURCES and OBJECTS variables. @sources = (); @objects = (); # TRUE if current directory holds any C source files. $dir_holds_sources = 0; # These variables track inclusion of various compile-related .am # files. $included_generic_compile is TRUE if the basic code has # been included. $included_knr_compile is TRUE if the ansi2knr # code has been included. $included_libtool_compile is TRUE if # libtool support has been included. $included_generic_compile = 0; $included_knr_compile = 0; $included_libtool_compile = 0; # TRUE if current directory holds any headers. $dir_holds_headers = 0; # TRUE if install targets should work recursively. $recursive_install = 0; # All .P files. %dep_files = (); # Strictness levels. $strictness = $default_strictness; $strictness_name = $default_strictness_name; # Options from AUTOMAKE_OPTIONS. %options = (); # Whether or not dependencies are handled. Can be further changed # in handle_options. $use_dependencies = $cmdline_use_dependencies; # Per Makefile.am. $local_maint_charset = $maint_charset; # All yacc and lex source filenames for this directory. Use # filenames instead of raw count so that multiple instances are # counted correctly (eg one yacc file can appear in multiple # programs without harm). %yacc_sources = (); %lex_sources = (); # C++ source extensions we've seen. %cxx_extensions = (); # TRUE if we've seen any non-C++ sources. This actually holds a # line number or the name of a symbol corresponding to a line # number where the C sources were seen. If it is -1 then it means # we couldn't (easily) figure out which line of the Makefile.am # mentioned the sources. $seen_c_source = 0; # TRUE if we've seen any sources at all. $seen_any_source = 0; # This is a list of all targets to run during "make dist". @dist_targets = (); # Keys in this hash are the basenames of files which must depend # on ansi2knr. %de_ansi_files = (); # This maps the source extension of a suffix rule to its # corresponding output extension. %suffix_rules = (); } ################################################################ # Return contents of a file from $am_dir, automatically skipping # macros or rules which are already known. Runs command on each line # as it is read; this command can modify $_. sub file_contents_with_transform { local ($command, $basename) = @_; local ($file) = $am_dir . '/' . $basename . '.am'; if ($command ne '' && substr ($command, -1) ne ';') { die "automake: programming error in file_contents_with_transform: $command\n"; } open (FC_FILE, $file) || die "automake: installation error: cannot open \`$file'\n"; # Looks stupid? # print "automake: reading $file\n" if $verbose; local ($was_rule) = 0; local ($result_vars) = ''; local ($result_rules) = ''; local ($comment) = ''; local ($spacing) = "\n"; local ($skipping) = 0; local ($had_chars); while (<FC_FILE>) { $_ =~ s/\@MAINT\@//g unless $seen_maint_mode; $had_chars = length ($_) && $_ ne "\n"; eval $command; # If the transform caused all the characters to go away, then # ignore the line. Why do this? Because in Perl 4, a "next" # inside of an eval doesn't affect a loop outside the eval. # So we can't pass in a "transform" that uses next. We used # to do this. "Empty" also means consisting of a single # newline. next if $had_chars && ($_ eq '' || $_ eq "\n"); if (/$IGNORE_PATTERN/o) { # Merely delete comments beginning with two hashes. } elsif (/$WHITE_PATTERN/o) { # Stick a single white line before the incoming macro or rule. $spacing = "\n"; } elsif (/$COMMENT_PATTERN/o) { # Stick comments before the incoming macro or rule. $comment .= $spacing . $_; $spacing = ''; } elsif ($saw_bk) { if ($was_rule) { $result_rules .= $_ if ! $skipping; } else { $result_vars .= $_ if ! $skipping; } $saw_bk = /\\$/; } elsif (/$RULE_PATTERN/o) { # Found a rule. $was_rule = 1; $skipping = defined $contents{$1}; $result_rules .= $comment . $spacing . $_ if ! $skipping; $comment = $spacing = ''; $saw_bk = /\\$/; } elsif (/$MACRO_PATTERN/o) { # Found a variable reference. $was_rule = 0; $skipping = defined $contents{$1}; $result_vars .= $comment . $spacing . $_ if ! $skipping; $comment = $spacing = ''; $saw_bk = /\\$/; } else { # This isn't an error; it is probably a continued rule. # In fact, this is what we assume. $was_rule = 1; $result_rules .= $comment . $spacing . $_ if ! $skipping; $comment = $spacing = ''; $saw_bk = /\\$/; } } close (FC_FILE); return $result_vars . $result_rules . $comment; } # Like file_contents_with_transform, but no transform. sub file_contents { return &file_contents_with_transform ('', @_); } # Find all variable prefixes that are used for install directories. A # prefix `zar' qualifies iff: # * `zardir' is a variable. # * `zar_PRIMARY' is a variable. sub am_primary_prefixes { local ($primary, @prefixes) = @_; local (%valid, $varname); grep ($valid{$_} = 0, @prefixes); $valid{'EXTRA'} = 0; foreach $varname (keys %contents) { if ($varname =~ /^(.*)_$primary$/) { if (! defined $valid{$1} && ! &variable_defined ($1 . 'dir') # Note that a configure variable is always legitimate. # It is natural to name such variables after the # primary, so we explicitly allow it. && ! defined $configure_vars{$varname}) { &am_line_error ($varname, "invalid variable \`$varname'"); } else { # Ensure all extended prefixes are actually used. $valid{$1} = 1; } } } return %valid; } # Handle `where_HOW' variable magic. Does all lookups, generates # install code, and possibly generates code to define the primary # variable. The first argument is the name of the .am file to munge, # the second argument is the primary variable (eg HEADERS), and all # subsequent arguments are possible installation locations. Returns # list of all values of all _HOW targets. # # FIXME: this should be rewritten to be cleaner. It should be broken # up into multiple functions. # # Usage is: am_install_var (OPTION..., file, HOW, where...) sub am_install_var { local (@args) = @_; local ($do_clean) = 0; local ($ltxform); if (defined $configure_vars{'LIBTOOL'}) { # Transform '@LIBTOOL ...@' to '$(LIBTOOL) ...' $ltxform = 's/\@LIBTOOL([^\@]*)\@/\$(LIBTOOL) $1/;'; } else { # Delete '@LIBTOOL ...@' $ltxform = 's/\@LIBTOOL([^\@]*)\@//;'; } local ($cygxform); if (! $seen_exeext) { $cygxform = 's/\@EXEEXT\@//g;'; } else { $cygxform = 's/\@EXEEXT\@/\$(EXEEXT)/g;'; } while (@args) { if ($args[0] eq '-clean') { $do_clean = 1; } elsif ($args[0] !~ /^-/) { last; } shift (@args); } local ($file, $primary, @prefixes) = @args; local (@used) = (); local (@result) = (); # Now that configure substitutions are allowed in where_HOW # variables, it is an error to actually define the primary. We # allow `JAVA', as it is customarily used to mean the Java # interpreter. This is but one of several Java hacks. &am_line_error ($primary, "\`$primary' is an anachronism") if &variable_defined ($primary) && $primary ne 'JAVA'; # Look for misspellings. It is an error to have a variable ending # in a "reserved" suffix whose prefix is unknown, eg # "bni_PROGRAMS". However, unusual prefixes are allowed if a # variable of the same name (with "dir" appended) exists. For # instance, if the variable "zardir" is defined, then # "zar_PROGRAMS" becomes valid. This is to provide a little extra # flexibility in those cases which need it. Perhaps it should be # disallowed in the Gnits case? The problem is, sometimes it is # useful to put things in a subdir of eg pkgdatadir, perhaps even # for Gnitsoids. local (%valid) = &am_primary_prefixes ($primary, @prefixes); # If a primary includes a configure substitution, then the EXTRA_ # form is required. Otherwise we can't properly do our job. local ($require_extra); local ($warned_about_extra) = 0; local ($clean_file) = $file . '-clean'; local ($one_name); local ($X); foreach $X (sort keys %valid) { $one_name = $X . '_' . $primary; if (&variable_defined ($one_name)) { # Append actual contents of where_PRIMARY variable to # result. local ($rcurs); foreach $rcurs (&variable_value_as_list ($one_name, 'all')) { # Skip configure substitutions. Possibly bogus. if ($rcurs =~ /^\@.*\@$/) { if ($X eq 'EXTRA') { if (! $warned_about_extra) { $warned_about_extra = 1; &am_line_error ($one_name, "\`$one_name' contains configure substitution, but shouldn't"); } } # Check here to make sure variables defined in # configure.in do not imply that EXTRA_PRIMARY # must be defined. elsif (! defined $configure_vars{$one_name}) { $require_extra = $one_name; } next; } push (@result, $rcurs); } # "EXTRA" shouldn't be used when generating clean targets, # all, or install targets. next if $X eq 'EXTRA'; # A blatant hack: we rewrite each _PROGRAMS primary to # include EXEEXT when in Cygwin32 mode. if ($seen_exeext && $primary eq 'PROGRAMS') { local (@conds) = &variable_conditions ($one_name); local (@one_binlist); # FIXME: this definitely loses aesthetically; it # redefines $ONE_NAME. Instead we should arrange for # variable definitions to be output later, instead of # at scan time. if (! @conds) { @one_binlist = (); foreach $rcurs (&variable_value_as_list ($one_name, '')) { if ($rcurs =~ /\./ || $rcurs =~ /^\@.*\@$/) { push (@one_binlist, $rcurs); } else { push (@one_binlist, $rcurs . '$(EXEEXT)'); } } delete $contents{$one_name}; &define_pretty_variable ($one_name, '', @one_binlist); } else { local ($cond); local ($condvals) = ''; foreach $cond (@conds) { @one_binlist = (); local (@condval) = &variable_value_as_list ($one_name, $cond); foreach $rcurs (@condval) { if ($rcurs =~ /\./ || $rcurs =~ /^\@.*\@$/) { push (@one_binlist, $rcurs); } else { push (@one_binlist, $rcurs . '$(EXEEXT)'); } } push (@condvals, $cond); push (@condvals, join (' ', @one_binlist)); } delete $contents{$one_name}; while (@condvals) { $cond = shift (@condvals); local (@val) = split (' ', shift (@condvals)); &define_pretty_variable ($one_name, $cond, @val); } } } if ($do_clean) { $output_rules .= &file_contents_with_transform ('s/\@DIR\@/' . $X . '/go;' . $cygxform, $clean_file); push (@clean, $X . $primary); &push_phony_cleaners ($X . $primary); } if ($X eq 'check') { push (@check, '$(' . $one_name . ')'); } else { push (@used, '$(' . $one_name . ')'); } if ($X eq 'noinst' || $X eq 'check') { # Objects which don't get installed by default. next; } $output_rules .= &file_contents_with_transform ('s/\@DIR\@/' . $X . '/g;' . $ltxform . $cygxform, $file); push (@uninstall, 'uninstall-' . $X . $primary); push (@phony, 'uninstall-' . $X . $primary); push (@installdirs, '$(' . $X . 'dir)'); if (defined $exec_dir_p{$X} ? $exec_dir_p{$X} : ($X =~ /exec/)) { push (@install_exec, 'install-' . $X . $primary); push (@phony, 'install-' . $X . $primary); } else { push (@install_data, 'install-' . $X . $primary); push (@phony, 'install-' . $X . $primary); } } } # The JAVA variable is used as the name of the Java interpreter. if (@used && $primary ne 'JAVA') { # Define it. &define_pretty_variable ($primary, '', @used); $output_vars .= "\n"; } if ($require_extra && ! &variable_defined ('EXTRA_' . $primary)) { &am_line_error ($require_extra, "\`$require_extra' contains configure substitution, but \`EXTRA_$primary' not defined"); } # Push here because PRIMARY might be configure time determined. push (@all, '$(' . $primary . ')') if @used && $primary ne 'JAVA'; return (@result); } ################################################################ # This variable is local to the "require file" set of functions. @require_file_paths = (); # Verify that the file must exist in the current directory. Usage: # require_file (isconfigure, line_number, strictness, file) strictness # is the strictness level at which this file becomes required. Must # set require_file_paths before calling this function. # require_file_paths is set to hold a single directory (the one in # which the first file was found) before return. sub require_file_internal { local ($is_configure, $line, $mystrict, @files) = @_; local ($file, $fullfile); local ($found_it, $errfile, $errdir); local ($save_dir); foreach $file (@files) { $found_it = 0; foreach $dir (@require_file_paths) { if ($dir eq '.') { $fullfile = $relative_dir . "/" . $file; $errdir = $relative_dir unless $errdir; } else { $fullfile = $dir . "/" . $file; $errdir = $dir unless $errdir; } # Use different name for "error filename". Otherwise on # an error the bad file will be reported as eg # `../../install-sh' when using the default # config_aux_path. $errfile = $errdir . '/' . $file; if (-f $fullfile) { $found_it = 1; # FIXME: Once again, special-case `.'. &push_dist_common ($file) if $dir eq $relative_dir || $dir eq '.'; $save_dir = $dir; last; } } if ($found_it) { # Prune the path list. @require_file_paths = $save_dir; } else { if ($strictness >= $mystrict) { local ($trailer) = ''; local ($suppress) = 0; # Only install missing files according to our desired # strictness level. local ($message) = "required file \`$errfile' not found"; if ($add_missing) { $suppress = 1; # Maybe run libtoolize. if ($seen_libtool && grep ($_ eq $file, @libtoolize_files) && system ('libtoolize', '--automake')) { $message = "installing \`$errfile'"; $suppress = 0; $trailer = "; cannot run \`libtoolize': $!"; } elsif (-f ($am_dir . '/' . $file)) { # Install the missing file. Symlink if we # can, copy if we must. Note: delete the file # first, in case it is a dangling symlink. $message = "installing \`$errfile'"; unlink ($errfile); if ($symlink_exists) { if (! symlink ($am_dir . '/' . $file, $errfile)) { $suppress = 0; $trailer = "; error while making link: $!\n"; } } elsif (! system ('cp', $am_dir . '/' . $file, $errfile)) { $suppress = 0; $trailer = "\n error while making link\n"; } } } local ($save) = $exit_status; if ($is_configure) { # FIXME: allow actual file to be specified. &am_conf_line_error ('configure.in', $line, "$message$trailer"); } else { &am_line_error ($line, "$message$trailer"); } $exit_status = $save if $suppress; } } } } # Like require_file_with_line, but error messages refer to # configure.in, not the current Makefile.am. sub require_file_with_conf_line { @require_file_paths = '.'; &require_file_internal (1, @_); } sub require_file_with_line { @require_file_paths = '.'; &require_file_internal (0, @_); } sub require_file { @require_file_paths = '.'; &require_file_internal (0, '', @_); } # Require a file that is also required by Autoconf. Looks in # configuration path, as specified by AC_CONFIG_AUX_DIR. sub require_config_file { @require_file_paths = @config_aux_path; &require_file_internal (1, '', @_); local ($dir) = $require_file_paths[0]; @config_aux_path = @require_file_paths; if ($dir eq '.') { $config_aux_dir = '.'; } else { $config_aux_dir = '$(top_srcdir)/' . $dir; } } # Assumes that the line number is in Makefile.am. sub require_conf_file_with_line { @require_file_paths = @config_aux_path; &require_file_internal (0, @_); local ($dir) = $require_file_paths[0]; @config_aux_path = @require_file_paths; if ($dir eq '.') { $config_aux_dir = '.'; } else { $config_aux_dir = '$(top_srcdir)/' . $dir; } } # Assumes that the line number is in Makefile.am. sub require_conf_file_with_conf_line { @require_file_paths = @config_aux_path; &require_file_internal (1, @_); local ($dir) = $require_file_paths[0]; @config_aux_path = @require_file_paths; if ($dir eq '.') { $config_aux_dir = '.'; } else { $config_aux_dir = '$(top_srcdir)/' . $dir; } } ################################################################ # Push a list of files onto dist_common. sub push_dist_common { local (@files) = @_; local ($file); foreach $file (@files) { $dist_common{$file} = 1; } } # Push a list of clean targets onto phony. sub push_phony_cleaners { local ($base) = @_; local ($target); foreach $target ('mostly', 'dist', '', 'maintainer-') { push (@phony, $target . 'clean-' . $base); } } # Set strictness. sub set_strictness { $strictness_name = $_[0]; if ($strictness_name eq 'gnu') { $strictness = $GNU; } elsif ($strictness_name eq 'gnits') { $strictness = $GNITS; } elsif ($strictness_name eq 'foreign') { $strictness = $FOREIGN; } else { die "automake: level \`$strictness_name' not recognized\n"; } } ################################################################ # Return directory name of file. sub dirname { local ($file) = @_; local ($sub); ($sub = $file) =~ s,/+[^/]+$,,g; $sub = '.' if $sub eq $file; return $sub; } # Return file name of a file. sub basename { local ($file) = @_; local ($sub); ($sub = $file) =~s,^.*/+,,g; return $sub; } # Touch a file. sub touch { local ($file) = @_; open (TOUCH, ">> $file"); close (TOUCH); } # Glob something. Do this to avoid indentation screwups everywhere we # want to glob. Gross! sub my_glob { local ($pat) = @_; return <${pat}>; } ################################################################ # Print an error message and set exit status. sub am_error { warn "automake: ${am_file}.am: ", join (' ', @_), "\n"; $exit_status = 1; } sub am_line_error { local ($symbol, @args) = @_; if ($symbol && "$symbol" ne '-1') { # If SYMBOL not already a line number, look it up in Makefile.am. if ($symbol =~ /^\d+$/) { $symbol .= ': '; } elsif (defined $content_lines{$symbol}) { $symbol = $content_lines{$symbol} . ': '; } else { # A single space, to provide nice separation. $symbol = ' '; } warn "${am_file}.am:", $symbol, join (' ', @args), "\n"; $exit_status = 1; } else { &am_error (@args); } } # Like am_error, but while scanning configure.in. sub am_conf_error { # FIXME: can run in subdirs. warn "automake: configure.in: ", join (' ', @_), "\n"; $exit_status = 1; } # Error message with line number referring to configure.in. sub am_conf_line_error { local ($file, $line, @args) = @_; if ($line) { warn "$file: $line: ", join (' ', @args), "\n"; $exit_status = 1; } else { &am_conf_error (@args); } } # Tell user where our aclocal.m4 is, but only once. sub keyed_aclocal_warning { local ($key) = @_; warn "automake: macro \`$key' can be generated by \`aclocal'\n"; } # Print usage information. sub usage { print "Usage: automake [OPTION] ... [Makefile]...\n\n"; print "Generate Makefile.in for autoconf from Makefile.am\n"; print $USAGE; print "\nFiles which are automatically distributed, if found:\n"; $~ = "USAGE_FORMAT"; local (@lcomm) = sort ((@common_files, @common_sometimes)); local ($one, $two, $three, $four); while (@lcomm > 0) { $one = shift @lcomm; $two = @lcomm ? shift @lcomm : ''; $three = @lcomm ? shift @lcomm : ''; $four = @lcomm ? shift @lcomm : ''; write; } print "\nReport bugs to <automake-bugs\@gnu.org>.\n"; exit 0; } format USAGE_FORMAT = @<<<<<<<<<<<<<<<< @<<<<<<<<<<<<<<<< @<<<<<<<<<<<<<<<< @<<<<<<<<<<<<<<<< $one, $two, $three, $four .