Kamal #!/usr/bin/perl # automake - create Makefile.in from Makefile.am -*- perl -*- # Generated from bin/automake.in; do not edit by hand. # Copyright (C) 1994-2021 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, see <https://www.gnu.org/licenses/>. # Originally written by David Mackenzie <djm@gnu.ai.mit.edu>. # Perl reimplementation by Tom Tromey <tromey@redhat.com>, and # Alexandre Duret-Lutz <adl@gnu.org>. package Automake; use 5.006; use strict; use warnings FATAL => 'all'; BEGIN { unshift (@INC, '/usr/share/automake-1.16') unless $ENV{AUTOMAKE_UNINSTALLED}; # Override SHELL. This is required on DJGPP so that system() uses # bash, not COMMAND.COM which doesn't quote arguments properly. # Other systems aren't expected to use $SHELL when Automake # runs, but it should be safe to drop the "if DJGPP" guard if # it turns up other systems need the same thing. After all, # if SHELL is used, ./configure's SHELL is always better than # the user's SHELL (which may be something like tcsh). $ENV{'SHELL'} = '/bin/sh' if exists $ENV{'DJDIR'}; } use Carp; use File::Basename; use File::Spec; use Automake::Config; BEGIN { if ($perl_threads) { require threads; import threads; require Thread::Queue; import Thread::Queue; } } use Automake::General; use Automake::XFile; use Automake::Channels; use Automake::ChannelDefs; use Automake::Configure_ac; use Automake::FileUtils; use Automake::Location; use Automake::Condition qw/TRUE FALSE/; use Automake::DisjConditions; use Automake::Options; use Automake::Variable; use Automake::VarDef; use Automake::Rule; use Automake::RuleDef; use Automake::Wrap 'makefile_wrap'; use Automake::Language; ## ----------------------- ## ## Subroutine prototypes. ## ## ----------------------- ## sub append_exeext (&$); sub check_gnits_standards (); sub check_gnu_standards (); sub check_trailing_slash ($\$); sub check_typos (); sub define_files_variable ($\@$$); sub define_standard_variables (); sub define_verbose_libtool (); sub define_verbose_texinfo (); sub do_check_merge_target (); sub get_number_of_threads (); sub handle_compile (); sub handle_data (); sub handle_dist (); sub handle_emacs_lisp (); sub handle_factored_dependencies (); sub handle_footer (); sub handle_gettext (); sub handle_headers (); sub handle_install (); sub handle_java (); sub handle_languages (); sub handle_libraries (); sub handle_libtool (); sub handle_ltlibraries (); sub handle_makefiles_serial (); sub handle_man_pages (); sub handle_minor_options (); sub handle_options (); sub handle_programs (); sub handle_python (); sub handle_scripts (); sub handle_silent (); sub handle_subdirs (); sub handle_tags (); sub handle_targets (); sub handle_tests (); sub handle_tests_dejagnu (); sub handle_texinfo (); sub handle_user_recursion (); sub initialize_per_input (); sub lang_lex_finish (); sub lang_sub_obj (); sub lang_vala_finish (); sub lang_yacc_finish (); sub locate_aux_dir (); sub parse_arguments (); sub scan_aclocal_m4 (); sub scan_autoconf_files (); sub silent_flag (); sub transform ($\%); sub transform_token ($\%$); sub usage (); sub version (); sub yacc_lex_finish_helper (); ## ----------- ## ## Constants. ## ## ----------- ## # Some regular expressions. One reason to put them here is that it # makes indentation work better in Emacs. # Writing singled-quoted-$-terminated regexes is a pain because # perl-mode thinks of $' as the ${'} variable (instead of a $ followed # by a closing quote. Letting perl-mode think the quote is not closed # leads to all sort of misindentations. On the other hand, defining # regexes as double-quoted strings is far less readable. So usually # we will write: # # $REGEX = '^regex_value' . "\$"; my $IGNORE_PATTERN = '^\s*##([^#\n].*)?\n'; my $WHITE_PATTERN = '^\s*' . "\$"; my $COMMENT_PATTERN = '^#'; my $TARGET_PATTERN='[$a-zA-Z0-9_.@%][-.a-zA-Z0-9_(){}/$+@%]*'; # A rule has three parts: a list of targets, a list of dependencies, # and optionally actions. my $RULE_PATTERN = "^($TARGET_PATTERN(?:(?:\\\\\n|\\s)+$TARGET_PATTERN)*) *:([^=].*|)\$"; # Only recognize leading spaces, not leading tabs. If we recognize # leading tabs here then we need to make the reader smarter, because # otherwise it will think rules like 'foo=bar; \' are errors. my $ASSIGNMENT_PATTERN = '^ *([^ \t=:+]*)\s*([:+]?)=\s*(.*)' . "\$"; # This pattern recognizes a Gnits version id and sets $1 if the # release is an alpha release. We also allow a suffix which can be # used to extend the version number with a "fork" identifier. my $GNITS_VERSION_PATTERN = '\d+\.\d+([a-z]|\.\d+)?(-[A-Za-z0-9]+)?'; my $IF_PATTERN = '^if\s+(!?)\s*([A-Za-z][A-Za-z0-9_]*)\s*(?:#.*)?' . "\$"; my $ELSE_PATTERN = '^else(?:\s+(!?)\s*([A-Za-z][A-Za-z0-9_]*))?\s*(?:#.*)?' . "\$"; my $ENDIF_PATTERN = '^endif(?:\s+(!?)\s*([A-Za-z][A-Za-z0-9_]*))?\s*(?:#.*)?' . "\$"; my $PATH_PATTERN = '(\w|[+/.-])+'; # This will pass through anything not of the prescribed form. my $INCLUDE_PATTERN = ('^include\s+' . '((\$\(top_srcdir\)/' . $PATH_PATTERN . ')' . '|(\$\(srcdir\)/' . $PATH_PATTERN . ')' . '|([^/\$]' . $PATH_PATTERN . '))\s*(#.*)?' . "\$"); # Directories installed during 'install-exec' phase. my $EXEC_DIR_PATTERN = '^(?:bin|sbin|libexec|sysconf|localstate|lib|pkglib|.*exec.*)' . "\$"; # Values for AC_CANONICAL_* use constant AC_CANONICAL_BUILD => 1; use constant AC_CANONICAL_HOST => 2; use constant AC_CANONICAL_TARGET => 3; # Values indicating when something should be cleaned. use constant MOSTLY_CLEAN => 0; use constant CLEAN => 1; use constant DIST_CLEAN => 2; use constant MAINTAINER_CLEAN => 3; # Libtool files. my @libtool_files = qw(ltmain.sh config.guess config.sub); # ltconfig appears here for compatibility with old versions of libtool. my @libtool_sometimes = qw(ltconfig ltcf-c.sh ltcf-cxx.sh ltcf-gcj.sh); # Top-level files that can be foo.md instead of foo. We assume that all # but THANKS are required at strictness level gnu. my @toplevelmd_ok = qw(AUTHORS ChangeLog INSTALL NEWS README THANKS); # Commonly found files we look for and automatically include in DISTFILES. my @common_files = (qw(ABOUT-GNU ABOUT-NLS BACKLOG COPYING COPYING.DOC COPYING.LIB COPYING.LESSER TODO ar-lib compile config.guess config.rpath config.sub depcomp install-sh libversion.in mdate-sh missing mkinstalldirs py-compile texinfo.tex ylwrap), @libtool_files, @libtool_sometimes); # Commonly used files we auto-include, but only sometimes. This list # is used for the --help output only. my @common_sometimes = qw(aclocal.m4 acconfig.h config.h.top config.h.bot configure configure.ac configure.in stamp-vti); # Standard directories from the GNU Coding Standards, and additional # pkg* directories from Automake. Stored in a hash for fast member check. my %standard_prefix = map { $_ => 1 } (qw(bin data dataroot doc dvi exec html include info lib libexec lisp locale localstate man man1 man2 man3 man4 man5 man6 man7 man8 man9 oldinclude pdf pkgdata pkginclude pkglib pkglibexec ps sbin sharedstate sysconf)); # Copyright on generated Makefile.ins. my $gen_copyright = "\ # Copyright (C) 1994-$RELEASE_YEAR 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. "; # These constants are returned by the lang_*_rewrite functions. # LANG_SUBDIR means that the resulting object file should be in a # subdir if the source file is. In this case the file name cannot # have '..' components. use constant LANG_IGNORE => 0; use constant LANG_PROCESS => 1; use constant LANG_SUBDIR => 2; # These are used when keeping track of whether an object can be built # by two different paths. use constant COMPILE_LIBTOOL => 1; use constant COMPILE_ORDINARY => 2; # We can't always associate a location to a variable or a rule, # when it's defined by Automake. We use INTERNAL in this case. use constant INTERNAL => new Automake::Location; # Serialization keys for message queues. use constant QUEUE_MESSAGE => "msg"; use constant QUEUE_CONF_FILE => "conf file"; use constant QUEUE_LOCATION => "location"; use constant QUEUE_STRING => "string"; ## ---------------------------------- ## ## Variables related to the options. ## ## ---------------------------------- ## # TRUE if we should always generate Makefile.in. my $force_generation = 1; # From the Perl manual. my $symlink_exists = (eval 'symlink ("", "");', $@ eq ''); # TRUE if missing standard files should be installed. my $add_missing = 0; # TRUE if we should copy missing files; otherwise symlink if possible. my $copy_missing = 0; # TRUE if we should always update files that we know about. my $force_missing = 0; ## ---------------------------------------- ## ## Variables filled during files scanning. ## ## ---------------------------------------- ## # Name of the configure.ac file. my $configure_ac; # Files found by scanning configure.ac for LIBOBJS. my %libsources = (); # Names used in AC_CONFIG_HEADERS call. my @config_headers = (); # Names used in AC_CONFIG_LINKS call. my @config_links = (); # List of Makefile.am's to process, and their corresponding outputs. my @input_files = (); my %output_files = (); # Complete list of Makefile.am's that exist. my @configure_input_files = (); # List of files in AC_CONFIG_FILES/AC_OUTPUT without Makefile.am's, # and their outputs. my @other_input_files = (); # Where each AC_CONFIG_FILES/AC_OUTPUT/AC_CONFIG_LINK/AC_CONFIG_HEADERS # appears. The keys are the files created by these macros. my %ac_config_files_location = (); # The condition under which AC_CONFIG_FOOS appears. my %ac_config_files_condition = (); # Directory to search for configure-required files. This # will be computed by locate_aux_dir() and can be set using # AC_CONFIG_AUX_DIR in configure.ac. # $CONFIG_AUX_DIR is the 'raw' directory, valid only in the source-tree. my $config_aux_dir = ''; my $config_aux_dir_set_in_configure_ac = 0; # $AM_CONFIG_AUX_DIR is prefixed with $(top_srcdir), so it can be used # in Makefiles. my $am_config_aux_dir = ''; # Directory to search for AC_LIBSOURCE files, as set by AC_CONFIG_LIBOBJ_DIR # in configure.ac. my $config_libobj_dir = ''; # Whether AM_GNU_GETTEXT has been seen in configure.ac. my $seen_gettext = 0; # Whether AM_GNU_GETTEXT([external]) is used. my $seen_gettext_external = 0; # Where AM_GNU_GETTEXT appears. my $ac_gettext_location; # Whether AM_GNU_GETTEXT_INTL_SUBDIR has been seen. my $seen_gettext_intl = 0; # The arguments of the AM_EXTRA_RECURSIVE_TARGETS call (if any). my @extra_recursive_targets = (); # Lists of tags supported by Libtool. my %libtool_tags = (); # 1 if Libtool uses LT_SUPPORTED_TAG. If it does, then it also # uses AC_REQUIRE_AUX_FILE. my $libtool_new_api = 0; # Most important AC_CANONICAL_* macro seen so far. my $seen_canonical = 0; # Where AM_MAINTAINER_MODE appears. my $seen_maint_mode; # Actual version we've seen. my $package_version = ''; # Where version is defined. my $package_version_location; # TRUE if we've seen AM_PROG_AR my $seen_ar = 0; # Location of AC_REQUIRE_AUX_FILE calls, indexed by their argument. my %required_aux_file = (); # Where AM_INIT_AUTOMAKE is called. my $seen_init_automake = 0; # TRUE if we've seen AM_AUTOMAKE_VERSION. my $seen_automake_version = 0; # Hash table of discovered configure substitutions. Keys are names, # values are 'FILE:LINE' strings which are used by error message # generation. my %configure_vars = (); # Ignored configure substitutions (i.e., variables not to be output in # Makefile.in) my %ignored_configure_vars = (); # Files included by $configure_ac. my @configure_deps = (); # Greatest timestamp of configure's dependencies. my $configure_deps_greatest_timestamp = 0; # Hash table of AM_CONDITIONAL variables seen in configure. my %configure_cond = (); # This maps extensions onto language names. my %extension_map = (); # List of the DIST_COMMON files we discovered while reading # configure.ac. my @configure_dist_common = (); # This maps languages names onto objects. my %languages = (); # Maps each linker variable onto a language object. my %link_languages = (); # maps extensions to needed source flags. my %sourceflags = (); # List of targets we must always output. # FIXME: Complete, and remove falsely required targets. my %required_targets = ( 'all' => 1, 'dvi' => 1, 'pdf' => 1, 'ps' => 1, 'info' => 1, 'install-info' => 1, 'install' => 1, 'install-data' => 1, 'install-exec' => 1, 'uninstall' => 1, # FIXME: Not required, temporary hacks. # Well, actually they are sort of required: the -recursive # targets will run them anyway... 'html-am' => 1, 'dvi-am' => 1, 'pdf-am' => 1, 'ps-am' => 1, 'info-am' => 1, 'install-data-am' => 1, 'install-exec-am' => 1, 'install-html-am' => 1, 'install-dvi-am' => 1, 'install-pdf-am' => 1, 'install-ps-am' => 1, 'install-info-am' => 1, 'installcheck-am' => 1, 'uninstall-am' => 1, 'tags-am' => 1, 'ctags-am' => 1, 'cscopelist-am' => 1, 'install-man' => 1, ); # Queue to push require_conf_file requirements to. my $required_conf_file_queue; # The name of the Makefile currently being processed. my $am_file = 'BUG'; ################################################################ ## ------------------------------------------ ## ## Variables reset by &initialize_per_input. ## ## ------------------------------------------ ## # Relative dir of the output makefile. my $relative_dir; # Greatest timestamp of the output's dependencies (excluding # configure's dependencies). my $output_deps_greatest_timestamp; # These variables are used when generating each Makefile.in. # They hold the Makefile.in until it is ready to be printed. my $output_vars; my $output_all; my $output_header; my $output_rules; my $output_trailer; # This is the conditional stack, updated on if/else/endif, and # used to build Condition objects. my @cond_stack; # This holds the set of included files. my @include_stack; # List of dependencies for the obvious targets. my @all; my @check; my @check_tests; # Keys in this hash table are files to delete. The associated # value tells when this should happen (MOSTLY_CLEAN, DIST_CLEAN, etc.) my %clean_files; # Keys in this hash table are object files or other files in # subdirectories which need to be removed. This only holds files # which are created by compilations. The value in the hash indicates # when the file should be removed. my %compile_clean_files; # Keys in this hash table are directories where we expect to build a # libtool object. We use this information to decide what directories # to delete. my %libtool_clean_directories; # Value of $(SOURCES), used by tags.am. my @sources; # Sources which go in the distribution. my @dist_sources; # This hash maps object file names onto their corresponding source # file names. This is used to ensure that each object is created # by a single source file. my %object_map; # This hash maps object file names onto an integer value representing # whether this object has been built via ordinary compilation or # libtool compilation (the COMPILE_* constants). my %object_compilation_map; # This keeps track of the directories for which we've already # created dirstamp code. Keys are directories, values are stamp files. # Several keys can share the same stamp files if they are equivalent # (as are './/foo' and 'foo'). my %directory_map; # All .P files. my %dep_files; # This is a list of all targets to run during "make dist". my @dist_targets; # List of all programs, libraries and ltlibraries as returned # by am_install_var my @proglist; my @liblist; my @ltliblist; # Blacklist of targets (as canonical base name) for which object file names # may not be automatically shortened my @dup_shortnames; # Keep track of all programs declared in this Makefile, without # $(EXEEXT). @substitutions@ are not listed. my %known_programs; my %known_libraries; # This keeps track of which extensions we've seen (that we care # about). my %extension_seen; # This is random scratch space for the language finish functions. # Don't randomly overwrite it; examine other uses of keys first. my %language_scratch; # We keep track of which objects need special (per-executable) # handling on a per-language basis. my %lang_specific_files; # List of distributed files to be put in DIST_COMMON. my @dist_common; # This is set when 'handle_dist' has finished. Once this happens, # we should no longer push on dist_common. my $handle_dist_run; # Used to store a set of linkers needed to generate the sources currently # under consideration. my %linkers_used; # True if we need 'LINK' defined. This is a hack. my $need_link; # Does the generated Makefile have to build some compiled object # (for binary programs, or plain or libtool libraries)? my $must_handle_compiled_objects; # Record each file processed by make_paragraphs. my %transformed_files; ################################################################ ## ---------------------------------------------- ## ## Variables not reset by &initialize_per_input. ## ## ---------------------------------------------- ## # Cache each file processed by make_paragraphs. # (This is different from %transformed_files because # %transformed_files is reset for each file while %am_file_cache # it global to the run.) my %am_file_cache; ################################################################ # var_SUFFIXES_trigger ($TYPE, $VALUE) # ------------------------------------ # This is called by Automake::Variable::define() when SUFFIXES # is defined ($TYPE eq '') or appended ($TYPE eq '+'). # The work here needs to be performed as a side-effect of the # macro_define() call because SUFFIXES definitions impact # on $KNOWN_EXTENSIONS_PATTERN which is used used when parsing # the input am file. sub var_SUFFIXES_trigger { my ($type, $value) = @_; accept_extensions (split (' ', $value)); } Automake::Variable::hook ('SUFFIXES', \&var_SUFFIXES_trigger); ################################################################ # initialize_per_input () # ----------------------- # (Re)-Initialize per-Makefile.am variables. sub initialize_per_input () { reset_local_duplicates (); $relative_dir = undef; $output_deps_greatest_timestamp = 0; $output_vars = ''; $output_all = ''; $output_header = ''; $output_rules = ''; $output_trailer = ''; Automake::Options::reset; Automake::Variable::reset; Automake::Rule::reset; @cond_stack = (); @include_stack = (); @all = (); @check = (); @check_tests = (); %clean_files = (); %compile_clean_files = (); # We always include '.'. This isn't strictly correct. %libtool_clean_directories = ('.' => 1); @sources = (); @dist_sources = (); %object_map = (); %object_compilation_map = (); %directory_map = (); %dep_files = (); @dist_targets = (); @dist_common = (); $handle_dist_run = 0; @proglist = (); @liblist = (); @ltliblist = (); @dup_shortnames = (); %known_programs = (); %known_libraries = (); %extension_seen = (); %language_scratch = (); %lang_specific_files = (); $need_link = 0; $must_handle_compiled_objects = 0; %transformed_files = (); } ################################################################ # Initialize our list of languages that are internally supported. my @cpplike_flags = qw{ $(DEFS) $(DEFAULT_INCLUDES) $(INCLUDES) $(AM_CPPFLAGS) $(CPPFLAGS) }; # C. register_language ('name' => 'c', 'Name' => 'C', 'config_vars' => ['CC'], 'autodep' => '', 'flags' => ['CFLAGS', 'CPPFLAGS'], 'ccer' => 'CC', 'compiler' => 'COMPILE', 'compile' => "\$(CC) @cpplike_flags \$(AM_CFLAGS) \$(CFLAGS)", 'lder' => 'CCLD', 'ld' => '$(CC)', 'linker' => 'LINK', 'link' => '$(CCLD) $(AM_CFLAGS) $(CFLAGS) $(AM_LDFLAGS) $(LDFLAGS) -o $@', 'compile_flag' => '-c', 'output_flag' => '-o', 'libtool_tag' => 'CC', 'extensions' => ['.c']); # C++. register_language ('name' => 'cxx', 'Name' => 'C++', 'config_vars' => ['CXX'], 'linker' => 'CXXLINK', 'link' => '$(CXXLD) $(AM_CXXFLAGS) $(CXXFLAGS) $(AM_LDFLAGS) $(LDFLAGS) -o $@', 'autodep' => 'CXX', 'flags' => ['CXXFLAGS', 'CPPFLAGS'], 'compile' => "\$(CXX) @cpplike_flags \$(AM_CXXFLAGS) \$(CXXFLAGS)", 'ccer' => 'CXX', 'compiler' => 'CXXCOMPILE', 'compile_flag' => '-c', 'output_flag' => '-o', 'libtool_tag' => 'CXX', 'lder' => 'CXXLD', 'ld' => '$(CXX)', 'pure' => 1, 'extensions' => ['.c++', '.cc', '.cpp', '.cxx', '.C']); # Objective C. register_language ('name' => 'objc', 'Name' => 'Objective C', 'config_vars' => ['OBJC'], 'linker' => 'OBJCLINK', 'link' => '$(OBJCLD) $(AM_OBJCFLAGS) $(OBJCFLAGS) $(AM_LDFLAGS) $(LDFLAGS) -o $@', 'autodep' => 'OBJC', 'flags' => ['OBJCFLAGS', 'CPPFLAGS'], 'compile' => "\$(OBJC) @cpplike_flags \$(AM_OBJCFLAGS) \$(OBJCFLAGS)", 'ccer' => 'OBJC', 'compiler' => 'OBJCCOMPILE', 'compile_flag' => '-c', 'output_flag' => '-o', 'lder' => 'OBJCLD', 'ld' => '$(OBJC)', 'pure' => 1, 'extensions' => ['.m']); # Objective C++. register_language ('name' => 'objcxx', 'Name' => 'Objective C++', 'config_vars' => ['OBJCXX'], 'linker' => 'OBJCXXLINK', 'link' => '$(OBJCXXLD) $(AM_OBJCXXFLAGS) $(OBJCXXFLAGS) $(AM_LDFLAGS) $(LDFLAGS) -o $@', 'autodep' => 'OBJCXX', 'flags' => ['OBJCXXFLAGS', 'CPPFLAGS'], 'compile' => "\$(OBJCXX) @cpplike_flags \$(AM_OBJCXXFLAGS) \$(OBJCXXFLAGS)", 'ccer' => 'OBJCXX', 'compiler' => 'OBJCXXCOMPILE', 'compile_flag' => '-c', 'output_flag' => '-o', 'lder' => 'OBJCXXLD', 'ld' => '$(OBJCXX)', 'pure' => 1, 'extensions' => ['.mm']); # Unified Parallel C. register_language ('name' => 'upc', 'Name' => 'Unified Parallel C', 'config_vars' => ['UPC'], 'linker' => 'UPCLINK', 'link' => '$(UPCLD) $(AM_UPCFLAGS) $(UPCFLAGS) $(AM_LDFLAGS) $(LDFLAGS) -o $@', 'autodep' => 'UPC', 'flags' => ['UPCFLAGS', 'CPPFLAGS'], 'compile' => "\$(UPC) @cpplike_flags \$(AM_UPCFLAGS) \$(UPCFLAGS)", 'ccer' => 'UPC', 'compiler' => 'UPCCOMPILE', 'compile_flag' => '-c', 'output_flag' => '-o', 'lder' => 'UPCLD', 'ld' => '$(UPC)', 'pure' => 1, 'extensions' => ['.upc']); # Headers. register_language ('name' => 'header', 'Name' => 'Header', 'extensions' => ['.h', '.H', '.hxx', '.h++', '.hh', '.hpp', '.inc'], # No output. 'output_extensions' => sub { return () }, # Nothing to do. '_finish' => sub { }); # Vala register_language ('name' => 'vala', 'Name' => 'Vala', 'config_vars' => ['VALAC'], 'flags' => [], 'compile' => '$(VALAC) $(AM_VALAFLAGS) $(VALAFLAGS)', 'ccer' => 'VALAC', 'compiler' => 'VALACOMPILE', 'extensions' => ['.vala'], 'output_extensions' => sub { (my $ext = $_[0]) =~ s/vala$/c/; return ($ext,) }, 'rule_file' => 'vala', '_finish' => \&lang_vala_finish, '_target_hook' => \&lang_vala_target_hook, 'nodist_specific' => 1); # Yacc (C & C++). register_language ('name' => 'yacc', 'Name' => 'Yacc', 'config_vars' => ['YACC'], 'flags' => ['YFLAGS'], 'compile' => '$(YACC) $(AM_YFLAGS) $(YFLAGS)', 'ccer' => 'YACC', 'compiler' => 'YACCCOMPILE', 'extensions' => ['.y'], 'output_extensions' => sub { (my $ext = $_[0]) =~ tr/y/c/; return ($ext,) }, 'rule_file' => 'yacc', '_finish' => \&lang_yacc_finish, '_target_hook' => \&lang_yacc_target_hook, 'nodist_specific' => 1); register_language ('name' => 'yaccxx', 'Name' => 'Yacc (C++)', 'config_vars' => ['YACC'], 'rule_file' => 'yacc', 'flags' => ['YFLAGS'], 'ccer' => 'YACC', 'compiler' => 'YACCCOMPILE', 'compile' => '$(YACC) $(AM_YFLAGS) $(YFLAGS)', 'extensions' => ['.y++', '.yy', '.yxx', '.ypp'], 'output_extensions' => sub { (my $ext = $_[0]) =~ tr/y/c/; return ($ext,) }, '_finish' => \&lang_yacc_finish, '_target_hook' => \&lang_yacc_target_hook, 'nodist_specific' => 1); # Lex (C & C++). register_language ('name' => 'lex', 'Name' => 'Lex', 'config_vars' => ['LEX'], 'rule_file' => 'lex', 'flags' => ['LFLAGS'], 'compile' => '$(LEX) $(AM_LFLAGS) $(LFLAGS)', 'ccer' => 'LEX', 'compiler' => 'LEXCOMPILE', 'extensions' => ['.l'], 'output_extensions' => sub { (my $ext = $_[0]) =~ tr/l/c/; return ($ext,) }, '_finish' => \&lang_lex_finish, '_target_hook' => \&lang_lex_target_hook, 'nodist_specific' => 1); register_language ('name' => 'lexxx', 'Name' => 'Lex (C++)', 'config_vars' => ['LEX'], 'rule_file' => 'lex', 'flags' => ['LFLAGS'], 'compile' => '$(LEX) $(AM_LFLAGS) $(LFLAGS)', 'ccer' => 'LEX', 'compiler' => 'LEXCOMPILE', 'extensions' => ['.l++', '.ll', '.lxx', '.lpp'], 'output_extensions' => sub { (my $ext = $_[0]) =~ tr/l/c/; return ($ext,) }, '_finish' => \&lang_lex_finish, '_target_hook' => \&lang_lex_target_hook, 'nodist_specific' => 1); # Assembler. register_language ('name' => 'asm', 'Name' => 'Assembler', 'config_vars' => ['CCAS', 'CCASFLAGS'], 'flags' => ['CCASFLAGS'], # Users can set AM_CCASFLAGS to include DEFS, INCLUDES, # or anything else required. They can also set CCAS. # Or simply use Preprocessed Assembler. 'compile' => '$(CCAS) $(AM_CCASFLAGS) $(CCASFLAGS)', 'ccer' => 'CCAS', 'compiler' => 'CCASCOMPILE', 'compile_flag' => '-c', 'output_flag' => '-o', 'extensions' => ['.s']); # Preprocessed Assembler. register_language ('name' => 'cppasm', 'Name' => 'Preprocessed Assembler', 'config_vars' => ['CCAS', 'CCASFLAGS'], 'autodep' => 'CCAS', 'flags' => ['CCASFLAGS', 'CPPFLAGS'], 'compile' => "\$(CCAS) @cpplike_flags \$(AM_CCASFLAGS) \$(CCASFLAGS)", 'ccer' => 'CPPAS', 'compiler' => 'CPPASCOMPILE', 'libtool_tag' => 'CC', 'compile_flag' => '-c', 'output_flag' => '-o', 'extensions' => ['.S', '.sx']); # Fortran 77 register_language ('name' => 'f77', 'Name' => 'Fortran 77', 'config_vars' => ['F77'], 'linker' => 'F77LINK', 'link' => '$(F77LD) $(AM_FFLAGS) $(FFLAGS) $(AM_LDFLAGS) $(LDFLAGS) -o $@', 'flags' => ['FFLAGS'], 'compile' => '$(F77) $(AM_FFLAGS) $(FFLAGS)', 'ccer' => 'F77', 'compiler' => 'F77COMPILE', 'compile_flag' => '-c', 'output_flag' => '-o', 'libtool_tag' => 'F77', 'lder' => 'F77LD', 'ld' => '$(F77)', 'pure' => 1, 'extensions' => ['.f', '.for']); # Fortran register_language ('name' => 'fc', 'Name' => 'Fortran', 'config_vars' => ['FC'], 'linker' => 'FCLINK', 'link' => '$(FCLD) $(AM_FCFLAGS) $(FCFLAGS) $(AM_LDFLAGS) $(LDFLAGS) -o $@', 'flags' => ['FCFLAGS'], 'compile' => '$(FC) $(AM_FCFLAGS) $(FCFLAGS)', 'ccer' => 'FC', 'compiler' => 'FCCOMPILE', 'compile_flag' => '-c', 'output_flag' => '-o', 'libtool_tag' => 'FC', 'lder' => 'FCLD', 'ld' => '$(FC)', 'pure' => 1, 'extensions' => ['.f90', '.f95', '.f03', '.f08']); # Preprocessed Fortran register_language ('name' => 'ppfc', 'Name' => 'Preprocessed Fortran', 'config_vars' => ['FC'], 'linker' => 'FCLINK', 'link' => '$(FCLD) $(AM_FCFLAGS) $(FCFLAGS) $(AM_LDFLAGS) $(LDFLAGS) -o $@', 'lder' => 'FCLD', 'ld' => '$(FC)', 'flags' => ['FCFLAGS', 'CPPFLAGS'], 'ccer' => 'PPFC', 'compiler' => 'PPFCCOMPILE', 'compile' => "\$(FC) @cpplike_flags \$(AM_FCFLAGS) \$(FCFLAGS)", 'compile_flag' => '-c', 'output_flag' => '-o', 'libtool_tag' => 'FC', 'pure' => 1, 'extensions' => ['.F90','.F95', '.F03', '.F08']); # Preprocessed Fortran 77 # # The current support for preprocessing Fortran 77 just involves # passing "$(DEFS) $(DEFAULT_INCLUDES) $(INCLUDES) $(AM_CPPFLAGS) # $(CPPFLAGS)" as additional flags to the Fortran 77 compiler, since # this is how GNU Make does it; see the "GNU Make Manual, Edition 0.51 # for 'make' Version 3.76 Beta" (specifically, from info file # '(make)Catalogue of Rules'). # # A better approach would be to write an Autoconf test # (i.e. AC_PROG_FPP) for a Fortran 77 preprocessor, because not all # Fortran 77 compilers know how to do preprocessing. The Autoconf # macro AC_PROG_FPP should test the Fortran 77 compiler first for # preprocessing capabilities, and then fall back on cpp (if cpp were # available). register_language ('name' => 'ppf77', 'Name' => 'Preprocessed Fortran 77', 'config_vars' => ['F77'], 'linker' => 'F77LINK', 'link' => '$(F77LD) $(AM_FFLAGS) $(FFLAGS) $(AM_LDFLAGS) $(LDFLAGS) -o $@', 'lder' => 'F77LD', 'ld' => '$(F77)', 'flags' => ['FFLAGS', 'CPPFLAGS'], 'ccer' => 'PPF77', 'compiler' => 'PPF77COMPILE', 'compile' => "\$(F77) @cpplike_flags \$(AM_FFLAGS) \$(FFLAGS)", 'compile_flag' => '-c', 'output_flag' => '-o', 'libtool_tag' => 'F77', 'pure' => 1, 'extensions' => ['.F']); # Ratfor. register_language ('name' => 'ratfor', 'Name' => 'Ratfor', 'config_vars' => ['F77'], 'linker' => 'F77LINK', 'link' => '$(F77LD) $(AM_FFLAGS) $(FFLAGS) $(AM_LDFLAGS) $(LDFLAGS) -o $@', 'lder' => 'F77LD', 'ld' => '$(F77)', 'flags' => ['RFLAGS', 'FFLAGS'], # FIXME also FFLAGS. 'compile' => '$(F77) $(AM_FFLAGS) $(FFLAGS) $(AM_RFLAGS) $(RFLAGS)', 'ccer' => 'F77', 'compiler' => 'RCOMPILE', 'compile_flag' => '-c', 'output_flag' => '-o', 'libtool_tag' => 'F77', 'pure' => 1, 'extensions' => ['.r']); # Java via gcj. register_language ('name' => 'java', 'Name' => 'Java', 'config_vars' => ['GCJ'], 'linker' => 'GCJLINK', 'link' => '$(GCJLD) $(AM_GCJFLAGS) $(GCJFLAGS) $(AM_LDFLAGS) $(LDFLAGS) -o $@', 'autodep' => 'GCJ', 'flags' => ['GCJFLAGS'], 'compile' => '$(GCJ) $(AM_GCJFLAGS) $(GCJFLAGS)', 'ccer' => 'GCJ', 'compiler' => 'GCJCOMPILE', 'compile_flag' => '-c', 'output_flag' => '-o', 'libtool_tag' => 'GCJ', 'lder' => 'GCJLD', 'ld' => '$(GCJ)', 'pure' => 1, 'extensions' => ['.java', '.class', '.zip', '.jar']); ################################################################ # Error reporting functions. # err_am ($MESSAGE, [%OPTIONS]) # ----------------------------- # Uncategorized errors about the current Makefile.am. sub err_am { msg_am ('error', @_); } # err_ac ($MESSAGE, [%OPTIONS]) # ----------------------------- # Uncategorized errors about configure.ac. sub err_ac { msg_ac ('error', @_); } # msg_am ($CHANNEL, $MESSAGE, [%OPTIONS]) # --------------------------------------- # Messages about about the current Makefile.am. sub msg_am { my ($channel, $msg, %opts) = @_; msg $channel, "${am_file}.am", $msg, %opts; } # msg_ac ($CHANNEL, $MESSAGE, [%OPTIONS]) # --------------------------------------- # Messages about about configure.ac. sub msg_ac { my ($channel, $msg, %opts) = @_; msg $channel, $configure_ac, $msg, %opts; } ################################################################ # subst ($TEXT) # ------------- # Return a configure-style substitution using the indicated text. # We do this to avoid having the substitutions directly in automake.in; # when we do that they are sometimes removed and this causes confusion # and bugs. sub subst { my ($text) = @_; return '@' . $text . '@'; } ################################################################ # $BACKPATH # backname ($RELDIR) # ------------------- # If I "cd $RELDIR", then to come back, I should "cd $BACKPATH". # For instance 'src/foo' => '../..'. # Works with non strictly increasing paths, i.e., 'src/../lib' => '..'. sub backname { my ($file) = @_; my @res; foreach (split (/\//, $file)) { next if $_ eq '.' || $_ eq ''; if ($_ eq '..') { pop @res or prog_error ("trying to reverse path '$file' pointing outside tree"); } else { push (@res, '..'); } } return join ('/', @res) || '.'; } ################################################################ # Silent rules handling functions. # verbose_var (NAME) # ------------------ # The public variable stem used to implement silent rules. sub verbose_var { my ($name) = @_; return 'AM_V_' . $name; } # verbose_private_var (NAME) # -------------------------- # The naming policy for the private variables for silent rules. sub verbose_private_var { my ($name) = @_; return 'am__v_' . $name; } # define_verbose_var (NAME, VAL-IF-SILENT, [VAL-IF-VERBOSE]) # ---------------------------------------------------------- # For silent rules, setup VAR and dispatcher, to expand to # VAL-IF-SILENT if silent, to VAL-IF-VERBOSE (defaulting to # empty) if not. sub define_verbose_var { my ($name, $silent_val, $verbose_val) = @_; $verbose_val = '' unless defined $verbose_val; my $var = verbose_var ($name); my $pvar = verbose_private_var ($name); my $silent_var = $pvar . '_0'; my $verbose_var = $pvar . '_1'; # For typical 'make's, 'configure' replaces AM_V (inside @@) with $(V) # and AM_DEFAULT_V (inside @@) with $(AM_DEFAULT_VERBOSITY). # For strict POSIX 2008 'make's, it replaces them with 0 or 1 instead. # See AM_SILENT_RULES in m4/silent.m4. define_variable ($var, '$(' . $pvar . '_@'.'AM_V'.'@)', INTERNAL); define_variable ($pvar . '_', '$(' . $pvar . '_@'.'AM_DEFAULT_V'.'@)', INTERNAL); Automake::Variable::define ($silent_var, VAR_AUTOMAKE, '', TRUE, $silent_val, '', INTERNAL, VAR_ASIS) if (! vardef ($silent_var, TRUE)); Automake::Variable::define ($verbose_var, VAR_AUTOMAKE, '', TRUE, $verbose_val, '', INTERNAL, VAR_ASIS) if (! vardef ($verbose_var, TRUE)); } # verbose_flag (NAME) # ------------------- # Contents of '%VERBOSE%' variable to expand before rule command. sub verbose_flag { my ($name) = @_; return '$(' . verbose_var ($name) . ')'; } sub verbose_nodep_flag { my ($name) = @_; return '$(' . verbose_var ($name) . subst ('am__nodep') . ')'; } # silent_flag # ----------- # Contents of %SILENT%: variable to expand to '@' when silent. sub silent_flag () { return verbose_flag ('at'); } # define_verbose_tagvar (NAME) # ---------------------------- # Engage the needed silent rules machinery for tag NAME. sub define_verbose_tagvar { my ($name) = @_; define_verbose_var ($name, '@echo " '. $name . ' ' x (8 - length ($name)) . '" $@;'); } # Engage the needed silent rules machinery for assorted texinfo commands. sub define_verbose_texinfo () { my @tagvars = ('DVIPS', 'MAKEINFO', 'INFOHTML', 'TEXI2DVI', 'TEXI2PDF'); foreach my $tag (@tagvars) { define_verbose_tagvar($tag); } define_verbose_var('texinfo', '-q'); define_verbose_var('texidevnull', '> /dev/null'); } # Engage the needed silent rules machinery for 'libtool --silent'. sub define_verbose_libtool () { define_verbose_var ('lt', '--silent'); return verbose_flag ('lt'); } sub handle_silent () { # Define "$(AM_V_P)", expanding to a shell conditional that can be # used in make recipes to determine whether we are being run in # silent mode or not. The choice of the name derives from the LISP # convention of appending the letter 'P' to denote a predicate (see # also "the '-P' convention" in the Jargon File); we do so for lack # of a better convention. define_verbose_var ('P', 'false', ':'); # *Always* provide the user with '$(AM_V_GEN)', unconditionally. define_verbose_tagvar ('GEN'); define_verbose_var ('at', '@'); } ################################################################ # Handle AUTOMAKE_OPTIONS variable. Return 0 on error, 1 otherwise. sub handle_options () { my $var = var ('AUTOMAKE_OPTIONS'); if ($var) { if ($var->has_conditional_contents) { msg_var ('unsupported', $var, "'AUTOMAKE_OPTIONS' cannot have conditional contents"); } my @options = map { { option => $<>[1], where => $<>[0] } } $var->value_as_list_recursive (cond_filter => TRUE, location => 1); return 0 unless process_option_list (@options); } if ($strictness == GNITS) { set_option ('readme-alpha', INTERNAL); set_option ('std-options', INTERNAL); set_option ('check-news', INTERNAL); } return 1; } # shadow_unconditionally ($varname, $where) # ----------------------------------------- # Return a $(variable) that contains all possible values # $varname can take. # If the VAR wasn't defined conditionally, return $(VAR). # Otherwise we create an am__VAR_DIST variable which contains # all possible values, and return $(am__VAR_DIST). sub shadow_unconditionally { my ($varname, $where) = @_; my $var = var $varname; if ($var->has_conditional_contents) { $varname = "am__${varname}_DIST"; my @files = uniq ($var->value_as_list_recursive); define_pretty_variable ($varname, TRUE, $where, @files); } return "\$($varname)" } # check_user_variables (@LIST) # ---------------------------- # Make sure each variable VAR in @LIST does not exist, suggest using AM_VAR # otherwise. sub check_user_variables { my @dont_override = @_; foreach my $flag (@dont_override) { my $var = var $flag; if ($var) { for my $cond ($var->conditions->conds) { if ($var->rdef ($cond)->owner == VAR_MAKEFILE) { msg_cond_var ('gnu', $cond, $flag, "'$flag' is a user variable, " . "you should not override it;\n" . "use 'AM_$flag' instead"); } } } } } # Call finish function for each language that was used. sub handle_languages () { if (! option 'no-dependencies') { # Include auto-dep code. Don't include it if DEP_FILES would # be empty. if (keys %extension_seen && keys %dep_files) { my @dep_files = sort keys %dep_files; # Set location of depcomp. define_variable ('depcomp', "\$(SHELL) $am_config_aux_dir/depcomp", INTERNAL); define_variable ('am__maybe_remake_depfiles', 'depfiles', INTERNAL); define_variable ('am__depfiles_remade', "@dep_files", INTERNAL); $output_rules .= "\n"; my @dist_rms; foreach my $depfile (@dep_files) { push @dist_rms, "\t-rm -f $depfile"; # Generate each 'include' directive individually. Several # make implementations (IRIX 6, Solaris 10, FreeBSD 8) will # fail to properly include several files resulting from a # variable expansion. Just Generating many separate includes # seems thus safest. $output_rules .= subst ('AMDEP_TRUE') . subst ('am__include') . " " . subst('am__quote') . $depfile . subst('am__quote') . " " . "# am--include-marker\n"; } require_conf_file ("$am_file.am", FOREIGN, 'depcomp'); $output_rules .= file_contents ( 'depend', new Automake::Location, 'DISTRMS' => join ("\n", @dist_rms)); } } else { define_variable ('depcomp', '', INTERNAL); define_variable ('am__maybe_remake_depfiles', '', INTERNAL); } my %done; # Is the C linker needed? my $needs_c = 0; foreach my $ext (sort keys %extension_seen) { next unless $extension_map{$ext}; my $lang = $languages{$extension_map{$ext}}; my $rule_file = $lang->rule_file || 'depend2'; # Get information on $LANG. my $pfx = $lang->autodep; my $fpfx = ($pfx eq '') ? 'CC' : $pfx; my ($AMDEP, $FASTDEP) = (option 'no-dependencies' || $lang->autodep eq 'no') ? ('FALSE', 'FALSE') : ('AMDEP', "am__fastdep$fpfx"); my $verbose = verbose_flag ($lang->ccer || 'GEN'); my $verbose_nodep = ($AMDEP eq 'FALSE') ? $verbose : verbose_nodep_flag ($lang->ccer || 'GEN'); my $silent = silent_flag (); my %transform = ('EXT' => $ext, 'PFX' => $pfx, 'FPFX' => $fpfx, 'AMDEP' => $AMDEP, 'FASTDEP' => $FASTDEP, '-c' => $lang->compile_flag || '', # These are not used, but they need to be defined # so transform() do not complain. SUBDIROBJ => 0, 'DERIVED-EXT' => 'BUG', DIST_SOURCE => 1, VERBOSE => $verbose, 'VERBOSE-NODEP' => $verbose_nodep, SILENT => $silent, ); # Generate the appropriate rules for this extension. if (((! option 'no-dependencies') && $lang->autodep ne 'no') || defined $lang->compile) { # Compute a possible derived extension. # This is not used by depend2.am. my $der_ext = ($lang->output_extensions->($ext))[0]; # When we output an inference rule like '.c.o:' we # have two cases to consider: either subdir-objects # is used, or it is not. # # In the latter case the rule is used to build objects # in the current directory, and dependencies always # go into './$(DEPDIR)/'. We can hard-code this value. # # In the former case the rule can be used to build # objects in sub-directories too. Dependencies should # go into the appropriate sub-directories, e.g., # 'sub/$(DEPDIR)/'. The value of this directory # needs to be computed on-the-fly. # # DEPBASE holds the name of this directory, plus the # basename part of the object file (extensions Po, TPo, # Plo, TPlo will be added later as appropriate). It is # either hardcoded, or a shell variable ('$depbase') that # will be computed by the rule. my $depbase = option ('subdir-objects') ? '$$depbase' : '$(DEPDIR)/$*'; $output_rules .= file_contents ($rule_file, new Automake::Location, %transform, GENERIC => 1, 'DERIVED-EXT' => $der_ext, DEPBASE => $depbase, BASE => '$*', SOURCE => '$<', SOURCEFLAG => $sourceflags{$ext} || '', OBJ => '$@', OBJOBJ => '$@', LTOBJ => '$@', COMPILE => '$(' . $lang->compiler . ')', LTCOMPILE => '$(LT' . $lang->compiler . ')', -o => $lang->output_flag, SUBDIROBJ => !! option 'subdir-objects'); } # Now include code for each specially handled object with this # language. my %seen_files = (); foreach my $file (@{$lang_specific_files{$lang->name}}) { my ($derived, $source, $obj, $myext, $srcext, %file_transform) = @$file; # We might see a given object twice, for instance if it is # used under different conditions. next if defined $seen_files{$obj}; $seen_files{$obj} = 1; prog_error ("found " . $lang->name . " in handle_languages, but compiler not defined") unless defined $lang->compile; my $obj_compile = $lang->compile; # Rewrite each occurrence of 'AM_$flag' in the compile # rule into '${derived}_$flag' if it exists. for my $flag (@{$lang->flags}) { my $val = "${derived}_$flag"; $obj_compile =~ s/\(AM_$flag\)/\($val\)/ if set_seen ($val); } my $libtool_tag = ''; if ($lang->libtool_tag && exists $libtool_tags{$lang->libtool_tag}) { $libtool_tag = '--tag=' . $lang->libtool_tag . ' ' } my $ptltflags = "${derived}_LIBTOOLFLAGS"; $ptltflags = 'AM_LIBTOOLFLAGS' unless set_seen $ptltflags; my $ltverbose = define_verbose_libtool (); my $obj_ltcompile = "\$(LIBTOOL) $ltverbose $libtool_tag\$($ptltflags) \$(LIBTOOLFLAGS) " . "--mode=compile $obj_compile"; # We _need_ '-o' for per object rules. my $output_flag = $lang->output_flag || '-o'; my $depbase = dirname ($obj); $depbase = '' if $depbase eq '.'; $depbase .= '/' unless $depbase eq ''; $depbase .= '$(DEPDIR)/' . basename ($obj); $output_rules .= file_contents ($rule_file, new Automake::Location, %transform, GENERIC => 0, DEPBASE => $depbase, BASE => $obj, SOURCE => $source, SOURCEFLAG => $sourceflags{$srcext} || '', # Use $myext and not '.o' here, in case # we are actually building a new source # file -- e.g. via yacc. OBJ => "$obj$myext", OBJOBJ => "$obj.obj", LTOBJ => "$obj.lo", VERBOSE => $verbose, 'VERBOSE-NODEP' => $verbose_nodep, SILENT => $silent, COMPILE => $obj_compile, LTCOMPILE => $obj_ltcompile, -o => $output_flag, %file_transform); } # The rest of the loop is done once per language. next if defined $done{$lang}; $done{$lang} = 1; # Load the language dependent Makefile chunks. my %lang = map { uc ($_) => 0 } keys %languages; $lang{uc ($lang->name)} = 1; $output_rules .= file_contents ('lang-compile', new Automake::Location, %transform, %lang); # If the source to a program consists entirely of code from a # 'pure' language, for instance C++ or Fortran 77, then we # don't need the C compiler code. However if we run into # something unusual then we do generate the C code. There are # probably corner cases here that do not work properly. # People linking Java code to Fortran code deserve pain. $needs_c ||= ! $lang->pure; define_compiler_variable ($lang) if ($lang->compile); define_linker_variable ($lang) if ($lang->link); require_variables ("$am_file.am", $lang->Name . " source seen", TRUE, @{$lang->config_vars}); # Call the finisher. $lang->finish; # Flags listed in '->flags' are user variables (per GNU Standards), # they should not be overridden in the Makefile... my @dont_override = @{$lang->flags}; # ... and so is LDFLAGS. push @dont_override, 'LDFLAGS' if $lang->link; check_user_variables @dont_override; } # If the project is entirely C++ or entirely Fortran 77 (i.e., 1 # suffix rule was learned), don't bother with the C stuff. But if # anything else creeps in, then use it. my @languages_seen = map { $languages{$extension_map{$_}}->name } (keys %extension_seen); @languages_seen = uniq (@languages_seen); $needs_c = 1 if @languages_seen > 1; if ($need_link || $needs_c) { define_compiler_variable ($languages{'c'}) unless defined $done{$languages{'c'}}; define_linker_variable ($languages{'c'}); } } # append_exeext { PREDICATE } $MACRO # ---------------------------------- # Append $(EXEEXT) to each filename in $F appearing in the Makefile # variable $MACRO if &PREDICATE($F) is true. @substitutions@ are # ignored. # # This is typically used on all filenames of *_PROGRAMS, and filenames # of TESTS that are programs. sub append_exeext (&$) { my ($pred, $macro) = @_; transform_variable_recursively ($macro, $macro, 'am__EXEEXT', 0, INTERNAL, sub { my ($subvar, $val, $cond, $full_cond) = @_; # Append $(EXEEXT) unless the user did it already, or it's a # @substitution@. $val .= '$(EXEEXT)' if $val !~ /(?:\$\(EXEEXT\)$|^[@]\w+[@]$)/ && &$pred ($val); return $val; }); } # Check to make sure a source defined in LIBOBJS is not explicitly # mentioned. This is a separate function (as opposed to being inlined # in handle_source_transform) because it isn't always appropriate to # do this check. sub check_libobjs_sources { my ($one_file, $unxformed) = @_; foreach my $prefix ('', 'EXTRA_', 'dist_', 'nodist_', 'dist_EXTRA_', 'nodist_EXTRA_') { my @files; my $varname = $prefix . $one_file . '_SOURCES'; my $var = var ($varname); if ($var) { @files = $var->value_as_list_recursive; } elsif ($prefix eq '') { @files = ($unxformed . '.c'); } else { next; } foreach my $file (@files) { err_var ($prefix . $one_file . '_SOURCES', "automatically discovered file '$file' should not" . " be explicitly mentioned") if defined $libsources{$file}; } } } # @OBJECTS # handle_single_transform ($VAR, $TOPPARENT, $DERIVED, $OBJ, $FILE, %TRANSFORM) # ----------------------------------------------------------------------------- # Does much of the actual work for handle_source_transform. # Arguments are: # $VAR is the name of the variable that the source filenames come from # $TOPPARENT is the name of the _SOURCES variable which is being processed # $DERIVED is the name of resulting executable or library # $OBJ is the object extension (e.g., '.lo') # $FILE the source file to transform # %TRANSFORM contains extras arguments to pass to file_contents # when producing explicit rules # Result is a list of the names of objects # %linkers_used will be updated with any linkers needed sub handle_single_transform { my ($var, $topparent, $derived, $obj, $_file, %transform) = @_; my @files = ($_file); my @result = (); # Turn sources into objects. We use a while loop like this # because we might add to @files in the loop. while (scalar @files > 0) { $_ = shift @files; # Configure substitutions in _SOURCES variables are errors. if (/^\@.*\@$/) { my $parent_msg = ''; $parent_msg = "\nand is referred to from '$topparent'" if $topparent ne $var->name; err_var ($var, "'" . $var->name . "' includes configure substitution '$_'" . $parent_msg . ";\nconfigure " . "substitutions are not allowed in _SOURCES variables"); next; } # If the source file is in a subdirectory then the '.o' is put # into the current directory, unless the subdir-objects option # is in effect. # Split file name into base and extension. next if ! /^(?:(.*)\/)?([^\/]*)($KNOWN_EXTENSIONS_PATTERN)$/; my $full = $_; my $directory = $1 || ''; my $base = $2; my $extension = $3; # We must generate a rule for the object if it requires its own flags. my $renamed = 0; my ($linker, $object); # This records whether we've seen a derived source file (e.g., yacc # or lex output). my $derived_source; # This holds the 'aggregate context' of the file we are # currently examining. If the file is compiled with # per-object flags, then it will be the name of the object. # Otherwise it will be 'AM'. This is used by the target hook # language function. my $aggregate = 'AM'; $extension = derive_suffix ($extension, $obj); my $lang; if ($extension_map{$extension} && ($lang = $languages{$extension_map{$extension}})) { # Found the language, so see what it says. saw_extension ($extension); # Do we have per-executable flags for this executable? my $have_per_exec_flags = 0; my @peflags = @{$lang->flags}; push @peflags, 'LIBTOOLFLAGS' if $obj eq '.lo'; foreach my $flag (@peflags) { if (set_seen ("${derived}_$flag")) { $have_per_exec_flags = 1; last; } } # Note: computed subr call. The language rewrite function # should return one of the LANG_* constants. It could # also return a list whose first value is such a constant # and whose second value is a new source extension which # should be applied. This means this particular language # generates another source file which we must then process # further. my $subr = \&{'lang_' . $lang->name . '_rewrite'}; defined &$subr or $subr = \&lang_sub_obj; my ($r, $source_extension) = &$subr ($directory, $base, $extension, $obj, $have_per_exec_flags, $var); # Skip this entry if we were asked not to process it. next if $r == LANG_IGNORE; # Now extract linker and other info. $linker = $lang->linker; my $this_obj_ext; if (defined $source_extension) { $this_obj_ext = $source_extension; $derived_source = 1; } else { $this_obj_ext = $obj; $derived_source = 0; # Don't ever place built object files in $(srcdir), # even when sources are specified explicitly as (say) # '$(srcdir)/foo.c' or '$(top_srcdir)/foo.c'. # See automake bug#13928. my @d = split '/', $directory; if (@d > 0 && option 'subdir-objects') { my $d = $d[0]; if ($d eq '$(srcdir)' or $d eq '${srcdir}') { shift @d; } elsif ($d eq '$(top_srcdir)' or $d eq '${top_srcdir}') { $d[0] = '$(top_builddir)'; } $directory = join '/', @d; } } $object = $base . $this_obj_ext; if ($have_per_exec_flags) { # We have a per-executable flag in effect for this # object. In this case we rewrite the object's # name to ensure it is unique. # We choose the name 'DERIVED_OBJECT' to ensure (1) uniqueness, # and (2) continuity between invocations. However, this will # result in a name that is too long for losing systems, in some # situations. So we attempt to shorten automatically under # subdir-objects, and provide _SHORTNAME to override as a last # resort. If subdir-object is in effect, it's usually # unnecessary to use the complete 'DERIVED_OBJECT' (that is # often the result from %canon_reldir%/%C% usage) since objects # are placed next to their source file. Generally, this means # it is already unique within that directory (see below for an # exception). Thus, we try to avoid unnecessarily long file # names by stripping the directory components of # 'DERIVED_OBJECT'. This allows avoiding explicit _SHORTNAME # usage in many cases. EXCEPTION: If two (or more) targets in # different directories but with the same base name (after # canonicalization), using target-specific FLAGS, link the same # object, then this logic clashes. Thus, we don't strip if # this is detected. my $dname = $derived; if ($directory ne '' && option 'subdir-objects' && none { $dname =~ /$_[0]$/ } @dup_shortnames) { # At this point, we don't clear information about what # parts of $derived are truly file name components. We can # determine that by comparing against the canonicalization # of $directory. my $dir = $directory . "/"; my $cdir = canonicalize ($dir); my $dir_len = length ($dir); # Make sure we only strip full file name components. This # is done by repeatedly trying to find cdir at the # beginning. Each iteration removes one file name # component from the end of cdir. while ($dir_len > 0 && index ($derived, $cdir) != 0) { # Eventually $dir_len becomes 0. $dir_len = rindex ($dir, "/", $dir_len - 2) + 1; $cdir = substr ($cdir, 0, $dir_len); } $dname = substr ($derived, $dir_len); } my $var = var ($derived . '_SHORTNAME'); if ($var) { # FIXME: should use the same Condition as # the _SOURCES variable. But this is really # silly overkill -- nobody should have # conditional shortnames. $dname = $var->variable_value; } $object = $dname . '-' . $object; prog_error ($lang->name . " flags defined without compiler") if ! defined $lang->compile; $renamed = 1; } # If rewrite said it was ok, put the object into a subdir. if ($directory ne '') { if ($r == LANG_SUBDIR) { $object = $directory . '/' . $object; } else { # Since the next major version of automake (2.0) will # make the behaviour so far only activated with the # 'subdir-objects' option mandatory, it's better if we # start warning users not using that option. # As suggested by Peter Johansson, we strive to avoid # the warning when it would be irrelevant, i.e., if # all source files sit in "current" directory. # # There are problems with making this change; see # https://bugs.gnu.org/20699 before making # subdir-objects, let alone unconditional. # (Making it non-overridable seems especially wrong.) # msg_var 'unsupported', $var, "source file '$full' is in a subdirectory," . "\nbut option 'subdir-objects' is disabled"; msg 'unsupported', INTERNAL, <<'EOF', uniq_scope => US_GLOBAL; possible forward-incompatibility. At least one source file is in a subdirectory, but the 'subdir-objects' automake option hasn't been enabled. For now, the corresponding output object file(s) will be placed in the top-level directory. However, this behavior may change in a future Automake major version, with object files being placed in the same subdirectory as the corresponding sources. You are advised to start using 'subdir-objects' option throughout your project, to avoid future incompatibilities. EOF } } # If the object file has been renamed (because per-target # flags are used) we cannot compile the file with an # inference rule: we need an explicit rule. # # If the source is in a subdirectory and the object is in # the current directory, we also need an explicit rule. # # If both source and object files are in a subdirectory # (this happens when the subdir-objects option is used), # then the inference will work. # # The latter case deserves a historical note. When the # subdir-objects option was added on 1999-04-11 it was # thought that inferences rules would work for # subdirectory objects too. Later, on 1999-11-22, # automake was changed to output explicit rules even for # subdir-objects. Nobody remembers why, but this occurred # soon after the merge of the user-dep-gen-branch so it # might be related. In late 2003 people complained about # the size of the generated Makefile.ins (libgcj, with # 2200+ subdir objects was reported to have a 9MB # Makefile), so we now rely on inference rules again. # Maybe we'll run across the same issue as in the past, # but at least this time we can document it. However since # dependency tracking has evolved it is possible that # our old problem no longer exists. # Using inference rules for subdir-objects has been tested # with GNU make, Solaris make, Ultrix make, BSD make, # HP-UX make, and OSF1 make successfully. if ($renamed || ($directory ne '' && ! option 'subdir-objects') # We must also use specific rules for a nodist_ source # if its language requests it. || ($lang->nodist_specific && ! $transform{'DIST_SOURCE'})) { my $obj_sans_ext = substr ($object, 0, - length ($this_obj_ext)); my $full_ansi; if ($directory ne '') { $full_ansi = $directory . '/' . $base . $extension; } else { $full_ansi = $base . $extension; } my @specifics = ($full_ansi, $obj_sans_ext, # Only use $this_obj_ext in the derived # source case because in the other case we # *don't* want $(OBJEXT) to appear here. ($derived_source ? $this_obj_ext : '.o'), $extension); # If we renamed the object then we want to use the # per-executable flag name. But if this is simply a # subdir build then we still want to use the AM_ flag # name. if ($renamed) { unshift @specifics, $derived; $aggregate = $derived; } else { unshift @specifics, 'AM'; } # Each item on this list is a reference to a list consisting # of four values followed by additional transform flags for # file_contents. The four values are the derived flag prefix # (e.g. for 'foo_CFLAGS', it is 'foo'), the name of the # source file, the base name of the output file, and # the extension for the object file. push (@{$lang_specific_files{$lang->name}}, [@specifics, %transform]); } } elsif ($extension eq $obj) { # This is probably the result of a direct suffix rule. # In this case we just accept the rewrite. $object = "$base$extension"; $object = "$directory/$object" if $directory ne ''; $linker = ''; } else { # No error message here. Used to have one, but it was # very unpopular. # FIXME: we could potentially do more processing here, # perhaps treating the new extension as though it were a # new source extension (as above). This would require # more restructuring than is appropriate right now. next; } err_am "object '$object' created by '$full' and '$object_map{$object}'" if (defined $object_map{$object} && $object_map{$object} ne $full); my $comp_val = (($object =~ /\.lo$/) ? COMPILE_LIBTOOL : COMPILE_ORDINARY); (my $comp_obj = $object) =~ s/\.lo$/.\$(OBJEXT)/; if (defined $object_compilation_map{$comp_obj} && $object_compilation_map{$comp_obj} != 0 # Only see the error once. && ($object_compilation_map{$comp_obj} != (COMPILE_LIBTOOL | COMPILE_ORDINARY)) && $object_compilation_map{$comp_obj} != $comp_val) { err_am "object '$comp_obj' created both with libtool and without"; } $object_compilation_map{$comp_obj} |= $comp_val; if (defined $lang) { # Let the language do some special magic if required. $lang->target_hook ($aggregate, $object, $full, %transform); } if ($derived_source) { prog_error ($lang->name . " has automatic dependency tracking") if $lang->autodep ne 'no'; # Make sure this new source file is handled next. That will # make it appear to be at the right place in the list. unshift (@files, $object); # Distribute derived sources unless the source they are # derived from is not. push_dist_common ($object) unless ($topparent =~ /^(?:nobase_)?nodist_/); next; } $linkers_used{$linker} = 1; push (@result, $object); if (! defined $object_map{$object}) { my @dep_list = (); $object_map{$object} = $full; # If resulting object is in subdir, we need to make # sure the subdir exists at build time. if ($object =~ /\//) { # FIXME: check that $DIRECTORY is somewhere in the # project # For Java, the way we're handling it right now, a # '..' component doesn't make sense. if ($lang && $lang->name eq 'java' && $object =~ /(\/|^)\.\.\//) { err_am "'$full' should not contain a '..' component"; } # Make sure *all* objects files in the subdirectory are # removed by "make mostlyclean". Not only this is more # efficient than listing the object files to be removed # individually (which would cause an 'rm' invocation for # each of them -- very inefficient, see bug#10697), it # would also leave stale object files in the subdirectory # whenever a source file there is removed or renamed. $compile_clean_files{"$directory/*.\$(OBJEXT)"} = MOSTLY_CLEAN; if ($object =~ /\.lo$/) { # If we have a libtool object, then we also must remove # any '.lo' objects in its same subdirectory. $compile_clean_files{"$directory/*.lo"} = MOSTLY_CLEAN; # Remember to cleanup .libs/ in this directory. $libtool_clean_directories{$directory} = 1; } push (@dep_list, require_build_directory ($directory)); # If we're generating dependencies, we also want # to make sure that the appropriate subdir of the # .deps directory is created. push (@dep_list, require_build_directory ($directory . '/$(DEPDIR)')) unless option 'no-dependencies'; } pretty_print_rule ($object . ':', "\t", @dep_list) if scalar @dep_list > 0; } # Transform .o or $o file into .P file (for automatic # dependency code). # Properly flatten multiple adjacent slashes, as Solaris 10 make # might fail over them in an include statement. # Leading double slashes may be special, as per Posix, so deal # with them carefully. if ($lang && $lang->autodep ne 'no') { my $depfile = $object; $depfile =~ s/\.([^.]*)$/.P$1/; $depfile =~ s/\$\(OBJEXT\)$/o/; my $maybe_extra_leading_slash = ''; $maybe_extra_leading_slash = '/' if $depfile =~ m,^//[^/],; $depfile =~ s,/+,/,g; my $basename = basename ($depfile); # This might make $dirname empty, but we account for that below. (my $dirname = dirname ($depfile)) =~ s/\/*$//; $dirname = $maybe_extra_leading_slash . $dirname; $dep_files{$dirname . '/$(DEPDIR)/' . $basename} = 1; } } return @result; } # $LINKER # define_objects_from_sources ($VAR, $OBJVAR, $NODEFINE, $ONE_FILE, # $OBJ, $PARENT, $TOPPARENT, $WHERE, %TRANSFORM) # --------------------------------------------------------------------------- # Define an _OBJECTS variable for a _SOURCES variable (or subvariable) # # Arguments are: # $VAR is the name of the _SOURCES variable # $OBJVAR is the name of the _OBJECTS variable if known (otherwise # it will be generated and returned). # $NODEFINE is a boolean: if true, $OBJVAR will not be defined (but # work done to determine the linker will be). # $ONE_FILE is the canonical (transformed) name of object to build # $OBJ is the object extension (i.e. either '.o' or '.lo'). # $TOPPARENT is the _SOURCES variable being processed. # $WHERE context into which this definition is done # %TRANSFORM extra arguments to pass to file_contents when producing # rules # # Result is a pair ($LINKER, $OBJVAR): # $LINKER is a boolean, true if a linker is needed to deal with the objects sub define_objects_from_sources { my ($var, $objvar, $nodefine, $one_file, $obj, $topparent, $where, %transform) = @_; my $needlinker = ""; transform_variable_recursively ($var, $objvar, 'am__objects', $nodefine, $where, # The transform code to run on each filename. sub { my ($subvar, $val, $cond, $full_cond) = @_; my @trans = handle_single_transform ($subvar, $topparent, $one_file, $obj, $val, %transform); $needlinker = "true" if @trans; return @trans; }); return $needlinker; } # handle_source_transform ($CANON_TARGET, $TARGET, $OBJEXT, $WHERE, %TRANSFORM) # ----------------------------------------------------------------------------- # Handle SOURCE->OBJECT transform for one program or library. # Arguments are: # canonical (transformed) name of target to build # actual target of object to build # object extension (i.e., either '.o' or '$o') # location of the source variable # extra arguments to pass to file_contents when producing rules # Return the name of the 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. my ($one_file, $unxformed, $obj, $where, %transform) = @_; my $linker = ''; # No point in continuing if _OBJECTS is defined. return if reject_var ($one_file . '_OBJECTS', $one_file . '_OBJECTS should not be defined'); my %used_pfx = (); my $needlinker; %linkers_used = (); foreach my $prefix ('', 'EXTRA_', 'dist_', 'nodist_', 'dist_EXTRA_', 'nodist_EXTRA_') { my $varname = $prefix . $one_file . "_SOURCES"; my $var = var $varname; next unless $var; # We are going to define _OBJECTS variables using the prefix. # Then we glom them all together. So we can't use the null # prefix here as we need it later. my $xpfx = ($prefix eq '') ? 'am_' : $prefix; # Keep track of which prefixes we saw. $used_pfx{$xpfx} = 1 unless $prefix =~ /EXTRA_/; push @sources, "\$($varname)"; push @dist_sources, shadow_unconditionally ($varname, $where) unless (option ('no-dist') || $prefix =~ /^nodist_/); $needlinker |= define_objects_from_sources ($varname, $xpfx . $one_file . '_OBJECTS', !!($prefix =~ /EXTRA_/), $one_file, $obj, $varname, $where, DIST_SOURCE => ($prefix !~ /^nodist_/), %transform); } if ($needlinker) { $linker ||= resolve_linker (%linkers_used); } my @keys = sort keys %used_pfx; if (scalar @keys == 0) { # The default source for libfoo.la is libfoo.c, but for # backward compatibility we first look at libfoo_la.c, # if no default source suffix is given. my $old_default_source = "$one_file.c"; my $ext_var = var ('AM_DEFAULT_SOURCE_EXT'); my $default_source_ext = $ext_var ? variable_value ($ext_var) : '.c'; msg_var ('unsupported', $ext_var, $ext_var->name . " can assume at most one value") if $default_source_ext =~ /[\t ]/; (my $default_source = $unxformed) =~ s,(\.[^./\\]*)?$,$default_source_ext,; # TODO: Remove this backward-compatibility hack in Automake 2.0. if ($old_default_source ne $default_source && !$ext_var && (rule $old_default_source || rule '$(srcdir)/' . $old_default_source || rule '${srcdir}/' . $old_default_source || -f $old_default_source)) { my $loc = $where->clone; $loc->pop_context; msg ('obsolete', $loc, "the default source for '$unxformed' has been changed " . "to '$default_source'.\n(Using '$old_default_source' for " . "backward compatibility.)"); $default_source = $old_default_source; } # If a rule exists to build this source with a $(srcdir) # prefix, use that prefix in our variables too. This is for # the sake of BSD Make. if (rule '$(srcdir)/' . $default_source || rule '${srcdir}/' . $default_source) { $default_source = '$(srcdir)/' . $default_source; } define_variable ($one_file . "_SOURCES", $default_source, $where); push (@sources, $default_source); push (@dist_sources, $default_source); %linkers_used = (); my (@result) = handle_single_transform ($one_file . '_SOURCES', $one_file . '_SOURCES', $one_file, $obj, $default_source, %transform); $linker ||= resolve_linker (%linkers_used); define_pretty_variable ($one_file . '_OBJECTS', TRUE, $where, @result); } else { @keys = map { '$(' . $_ . $one_file . '_OBJECTS)' } @keys; define_pretty_variable ($one_file . '_OBJECTS', TRUE, $where, @keys); } # If we want to use 'LINK' we must make sure it is defined. if ($linker eq '') { $need_link = 1; } return $linker; } # handle_lib_objects ($XNAME, $VAR) # --------------------------------- # Special-case ALLOCA and LIBOBJS substitutions in _LDADD or _LIBADD variables. # Also, generate _DEPENDENCIES variable if appropriate. # Arguments are: # transformed name of object being built, or empty string if no object # name of _LDADD/_LIBADD-type variable to examine # Returns 1 if LIBOBJS seen, 0 otherwise. sub handle_lib_objects { my ($xname, $varname) = @_; my $var = var ($varname); prog_error "'$varname' undefined" unless $var; prog_error "unexpected variable name '$varname'" unless $varname =~ /^(.*)(?:LIB|LD)ADD$/; my $prefix = $1 || 'AM_'; my $seen_libobjs = 0; my $flagvar = 0; transform_variable_recursively ($varname, $xname . '_DEPENDENCIES', 'am__DEPENDENCIES', ! $xname, INTERNAL, # Transformation function, run on each filename. sub { my ($subvar, $val, $cond, $full_cond) = @_; if ($val =~ /^-/) { # Skip -lfoo and -Ldir silently; these are explicitly allowed. if ($val !~ /^-[lL]/ && # Skip -dlopen and -dlpreopen; these are explicitly allowed # for Libtool libraries or programs. (Actually we are a bit # lax here since this code also applies to non-libtool # libraries or programs, for which -dlopen and -dlopreopen # are pure nonsense. Diagnosing this doesn't seem very # important: the developer will quickly get complaints from # the linker.) $val !~ /^-dl(?:pre)?open$/ && # Only get this error once. ! $flagvar) { $flagvar = 1; # FIXME: should display a stack of nested variables # as context when $var != $subvar. err_var ($var, "linker flags such as '$val' belong in " . "'${prefix}LDFLAGS'"); } return (); } elsif ($val !~ /^\@.*\@$/) { # Assume we have a file of some sort, and output it into the # dependency variable. Autoconf substitutions are not output; # rarely is a new dependency substituted into e.g. foo_LDADD # -- but bad things (e.g. -lX11) are routinely substituted. # Note that LIBOBJS and ALLOCA are exceptions to this rule, # and handled specially below. return $val; } elsif ($val =~ /^\@(LT)?LIBOBJS\@$/) { handle_LIBOBJS ($subvar, $cond, $1); $seen_libobjs = 1; return $val; } elsif ($val =~ /^\@(LT)?ALLOCA\@$/) { handle_ALLOCA ($subvar, $cond, $1); return $val; } else { return (); } }); return $seen_libobjs; } # handle_LIBOBJS_or_ALLOCA ($VAR, $BASE) # -------------------------------------- # Definitions common to LIBOBJS and ALLOCA. # VAR should be one of LIBOBJS, LTLIBOBJS, ALLOCA, or LTALLOCA. # BASE should be one base file name from AC_LIBSOURCE, or alloca. sub handle_LIBOBJS_or_ALLOCA { my ($var, $base) = @_; my $dir = ''; # If LIBOBJS files must be built in another directory we have # to define LIBOBJDIR and ensure the files get cleaned. # Otherwise LIBOBJDIR can be left undefined, and the cleaning # is achieved by 'rm -f *.$(OBJEXT)' in compile.am. if ($config_libobj_dir && $relative_dir ne $config_libobj_dir) { if (option 'subdir-objects') { # In the top-level Makefile we do not use $(top_builddir), because # we are already there, and since the targets are built without # a $(top_builddir), it helps BSD Make to match them with # dependencies. $dir = "$config_libobj_dir/" if $config_libobj_dir ne '.'; $dir = backname ($relative_dir) . "/$dir" if $relative_dir ne '.'; define_variable ('LIBOBJDIR', "$dir", INTERNAL); if ($dir && !defined $clean_files{"$dir$base.\$(OBJEXT)"}) { my $dirstamp = require_build_directory ($dir); $output_rules .= "$dir$base.\$(OBJEXT): $dirstamp\n"; $output_rules .= "$dir$base.lo: $dirstamp\n" if ($var =~ /^LT/); } # libtool might create .$(OBJEXT) as a side-effect of using # LTLIBOBJS or LTALLOCA. $clean_files{"$dir$base.\$(OBJEXT)"} = MOSTLY_CLEAN; $clean_files{"$dir$base.lo"} = MOSTLY_CLEAN if ($var =~ /^LT/); } else { error ("'\$($var)' cannot be used outside '$config_libobj_dir' if" . " 'subdir-objects' is not set"); } } return $dir; } sub handle_LIBOBJS { my ($var, $cond, $lt) = @_; my $myobjext = $lt ? 'lo' : 'o'; $lt ||= ''; $var->requires_variables ("\@${lt}LIBOBJS\@ used", $lt . 'LIBOBJS') if ! keys %libsources; foreach my $iter (sort keys %libsources) { my $dir = ''; if ($iter =~ /^(.*)(\.[cly])$/) { saw_extension ($2); saw_extension ('.c'); $dir = handle_LIBOBJS_or_ALLOCA ("${lt}LIBOBJS", $1); } if ($iter =~ /\.h$/) { require_libsource_with_macro ($cond, $var, FOREIGN, $iter); } elsif ($iter ne 'alloca.c') { my $rewrite = $iter; $rewrite =~ s/\.c$/.P$myobjext/; $dep_files{$dir . '$(DEPDIR)/' . $rewrite} = 1; $rewrite = "^" . quotemeta ($iter) . "\$"; # Only require the file if it is not a built source. my $bs = var ('BUILT_SOURCES'); if (! $bs || ! grep (/$rewrite/, $bs->value_as_list_recursive)) { require_libsource_with_macro ($cond, $var, FOREIGN, $iter); } } } } sub handle_ALLOCA { my ($var, $cond, $lt) = @_; my $myobjext = $lt ? 'lo' : 'o'; $lt ||= ''; my $dir = handle_LIBOBJS_or_ALLOCA ("${lt}ALLOCA", "alloca"); $dir eq '' and $dir = './'; $var->requires_variables ("\@${lt}ALLOCA\@ used", $lt . 'ALLOCA'); $dep_files{$dir . '$(DEPDIR)/alloca.P' . $myobjext} = 1; require_libsource_with_macro ($cond, $var, FOREIGN, 'alloca.c'); saw_extension ('.c'); } # Canonicalize the input parameter. sub canonicalize { my ($string) = @_; $string =~ tr/A-Za-z0-9_\@/_/c; return $string; } # Canonicalize a name, and check to make sure the non-canonical name # is never used. Returns canonical name. Arguments are name and a # list of suffixes to check for. sub check_canonical_spelling { my ($name, @suffixes) = @_; my $xname = canonicalize ($name); if ($xname ne $name) { foreach my $xt (@suffixes) { reject_var ("$name$xt", "use '$xname$xt', not '$name$xt'"); } } return $xname; } # Set up the compile suite. sub handle_compile () { return if ! $must_handle_compiled_objects; # Boilerplate. my $default_includes = ''; if (! option 'nostdinc') { my @incs = ('-I.', subst ('am__isrc')); my $var = var 'CONFIG_HEADER'; if ($var) { foreach my $hdr (split (' ', $var->variable_value)) { push @incs, '-I' . dirname ($hdr); } } # We want '-I. -I$(srcdir)', but the latter -I is redundant # and unaesthetic in non-VPATH builds. We use `-I.@am__isrc@` # instead. It will be replaced by '-I.' or '-I. -I$(srcdir)'. # Items in CONFIG_HEADER are never in $(srcdir) so it is safe # to just put @am__isrc@ right after '-I.', without a space. ($default_includes = ' ' . uniq (@incs)) =~ s/ @/@/; } my (@mostly_rms, @dist_rms); foreach my $item (sort keys %compile_clean_files) { if ($compile_clean_files{$item} == MOSTLY_CLEAN) { push (@mostly_rms, "\t-rm -f $item"); } elsif ($compile_clean_files{$item} == DIST_CLEAN) { push (@dist_rms, "\t-rm -f $item"); } else { prog_error 'invalid entry in %compile_clean_files'; } } my ($coms, $vars, $rules) = file_contents_internal (1, "$libdir/am/compile.am", new Automake::Location, 'DEFAULT_INCLUDES' => $default_includes, 'MOSTLYRMS' => join ("\n", @mostly_rms), 'DISTRMS' => join ("\n", @dist_rms)); $output_vars .= $vars; $output_rules .= "$coms$rules"; } # Handle libtool rules. sub handle_libtool () { return unless var ('LIBTOOL'); # Libtool requires some files, but only at top level. # (Starting with Libtool 2.0 we do not have to bother. These # requirements are done with AC_REQUIRE_AUX_FILE.) require_conf_file_with_macro (TRUE, 'LIBTOOL', FOREIGN, @libtool_files) if $relative_dir eq '.' && ! $libtool_new_api; my @libtool_rms; foreach my $item (sort keys %libtool_clean_directories) { my $dir = ($item eq '.') ? '' : "$item/"; # .libs is for Unix, _libs for DOS. push (@libtool_rms, "\t-rm -rf ${dir}.libs ${dir}_libs"); } check_user_variables 'LIBTOOLFLAGS'; # Output the libtool compilation rules. $output_rules .= file_contents ('libtool', new Automake::Location, LTRMS => join ("\n", @libtool_rms)); } # Check for duplicate targets sub handle_targets () { my %seen = (); my @dups = (); @proglist = am_install_var ('progs', 'PROGRAMS', 'bin', 'sbin', 'libexec', 'pkglibexec', 'noinst', 'check'); @liblist = am_install_var ('libs', 'LIBRARIES', 'lib', 'pkglib', 'noinst', 'check'); @ltliblist = am_install_var ('ltlib', 'LTLIBRARIES', 'noinst', 'lib', 'pkglib', 'check'); # Record duplications that may arise after canonicalization of the # base names, in order to prevent object file clashes in the presence # of target-specific *FLAGS my @targetlist = (@proglist, @liblist, @ltliblist); foreach my $pair (@targetlist) { my $base = canonicalize (basename (@$pair[1])); push (@dup_shortnames, $base) if ($seen{$base}); $seen{$base} = $base; } } sub handle_programs () { return if ! @proglist; $must_handle_compiled_objects = 1; my $seen_global_libobjs = var ('LDADD') && handle_lib_objects ('', 'LDADD'); foreach my $pair (@proglist) { my ($where, $one_file) = @$pair; my $seen_libobjs = 0; my $obj = '.$(OBJEXT)'; $known_programs{$one_file} = $where; # Canonicalize names and check for misspellings. my $xname = check_canonical_spelling ($one_file, '_LDADD', '_LDFLAGS', '_SOURCES', '_OBJECTS', '_DEPENDENCIES'); $where->push_context ("while processing program '$one_file'"); $where->set (INTERNAL->get); my $linker = handle_source_transform ($xname, $one_file, $obj, $where, NONLIBTOOL => 1, LIBTOOL => 0); if (var ($xname . "_LDADD")) { $seen_libobjs = handle_lib_objects ($xname, $xname . '_LDADD'); } else { # User didn't define prog_LDADD override. So do it. define_variable ($xname . '_LDADD', '$(LDADD)', $where); # This does a bit too much work. But we need it to # generate _DEPENDENCIES when appropriate. if (var ('LDADD')) { $seen_libobjs = handle_lib_objects ($xname, 'LDADD'); } } reject_var ($xname . '_LIBADD', "use '${xname}_LDADD', not '${xname}_LIBADD'"); set_seen ($xname . '_DEPENDENCIES'); set_seen ('EXTRA_' . $xname . '_DEPENDENCIES'); set_seen ($xname . '_LDFLAGS'); # Determine program to use for link. my($xlink, $vlink) = define_per_target_linker_variable ($linker, $xname); $vlink = verbose_flag ($vlink || 'GEN'); # If the resulting program lies in a subdirectory, # ensure that the directory exists before we need it. my $dirstamp = require_build_directory_maybe ($one_file); $libtool_clean_directories{dirname ($one_file)} = 1; $output_rules .= file_contents ('program', $where, PROGRAM => $one_file, XPROGRAM => $xname, XLINK => $xlink, VERBOSE => $vlink, DIRSTAMP => $dirstamp, EXEEXT => '$(EXEEXT)'); if ($seen_libobjs || $seen_global_libobjs) { if (var ($xname . '_LDADD')) { check_libobjs_sources ($xname, $xname . '_LDADD'); } elsif (var ('LDADD')) { check_libobjs_sources ($xname, 'LDADD'); } } } } sub handle_libraries () { return if ! @liblist; $must_handle_compiled_objects = 1; my @prefix = am_primary_prefixes ('LIBRARIES', 0, 'lib', 'pkglib', 'noinst', 'check'); if (@prefix) { my $var = rvar ($prefix[0] . '_LIBRARIES'); $var->requires_variables ('library used', 'RANLIB'); } define_variable ('AR', 'ar', INTERNAL); define_variable ('ARFLAGS', 'cru', INTERNAL); define_verbose_tagvar ('AR'); foreach my $pair (@liblist) { my ($where, $onelib) = @$pair; my $seen_libobjs = 0; # Check that the library fits the standard naming convention. my $bn = basename ($onelib); if ($bn !~ /^lib.*\.a$/) { $bn =~ s/^(?:lib)?(.*?)(?:\.[^.]*)?$/lib$1.a/; my $suggestion = dirname ($onelib) . "/$bn"; $suggestion =~ s|^\./||g; msg ('error-gnu/warn', $where, "'$onelib' is not a standard library name\n" . "did you mean '$suggestion'?") } ($known_libraries{$onelib} = $bn) =~ s/\.a$//; $where->push_context ("while processing library '$onelib'"); $where->set (INTERNAL->get); my $obj = '.$(OBJEXT)'; # Canonicalize names and check for misspellings. my $xlib = check_canonical_spelling ($onelib, '_LIBADD', '_SOURCES', '_OBJECTS', '_DEPENDENCIES', '_AR'); if (! var ($xlib . '_AR')) { define_variable ($xlib . '_AR', '$(AR) $(ARFLAGS)', $where); } # Generate support for conditional object inclusion in # libraries. if (var ($xlib . '_LIBADD')) { if (handle_lib_objects ($xlib, $xlib . '_LIBADD')) { $seen_libobjs = 1; } } else { define_variable ($xlib . "_LIBADD", '', $where); } reject_var ($xlib . '_LDADD', "use '${xlib}_LIBADD', not '${xlib}_LDADD'"); # Make sure we at look at this. set_seen ($xlib . '_DEPENDENCIES'); set_seen ('EXTRA_' . $xlib . '_DEPENDENCIES'); handle_source_transform ($xlib, $onelib, $obj, $where, NONLIBTOOL => 1, LIBTOOL => 0); # If the resulting library lies in a subdirectory, # make sure this directory will exist. my $dirstamp = require_build_directory_maybe ($onelib); my $verbose = verbose_flag ('AR'); my $silent = silent_flag (); $output_rules .= file_contents ('library', $where, VERBOSE => $verbose, SILENT => $silent, LIBRARY => $onelib, XLIBRARY => $xlib, DIRSTAMP => $dirstamp); if ($seen_libobjs) { if (var ($xlib . '_LIBADD')) { check_libobjs_sources ($xlib, $xlib . '_LIBADD'); } } if (! $seen_ar) { msg ('extra-portability', $where, "'$onelib': linking libraries using a non-POSIX\n" . "archiver requires 'AM_PROG_AR' in '$configure_ac'") } } } sub handle_ltlibraries () { return if ! @ltliblist; $must_handle_compiled_objects = 1; my @prefix = am_primary_prefixes ('LTLIBRARIES', 0, 'lib', 'pkglib', 'noinst', 'check'); if (@prefix) { my $var = rvar ($prefix[0] . '_LTLIBRARIES'); $var->requires_variables ('Libtool library used', 'LIBTOOL'); } my %instdirs = (); my %instsubdirs = (); my %instconds = (); my %liblocations = (); # Location (in Makefile.am) of each library. foreach my $key (@prefix) { # Get the installation directory of each library. my $dir = $key; my $strip_subdir = 1; if ($dir =~ /^nobase_/) { $dir =~ s/^nobase_//; $strip_subdir = 0; } my $var = rvar ($key . '_LTLIBRARIES'); # We reject libraries which are installed in several places # in the same condition, because we can only specify one # '-rpath' option. $var->traverse_recursively (sub { my ($var, $val, $cond, $full_cond) = @_; my $hcond = $full_cond->human; my $where = $var->rdef ($cond)->location; my $ldir = ''; $ldir = '/' . dirname ($val) if (!$strip_subdir); # A library cannot be installed in different directories # in overlapping conditions. if (exists $instconds{$val}) { my ($msg, $acond) = $instconds{$val}->ambiguous_p ($val, $full_cond); if ($msg) { error ($where, $msg, partial => 1); my $dirtxt = "installed " . ($strip_subdir ? "in" : "below") . " '$dir'"; $dirtxt = "built for '$dir'" if $dir eq 'EXTRA' || $dir eq 'noinst' || $dir eq 'check'; my $dircond = $full_cond->true ? "" : " in condition $hcond"; error ($where, "'$val' should be $dirtxt$dircond ...", partial => 1); my $hacond = $acond->human; my $adir = $instdirs{$val}{$acond}; my $adirtxt = "installed in '$adir'"; $adirtxt = "built for '$adir'" if ($adir eq 'EXTRA' || $adir eq 'noinst' || $adir eq 'check'); my $adircond = $acond->true ? "" : " in condition $hacond"; my $onlyone = ($dir ne $adir) ? ("\nLibtool libraries can be built for only one " . "destination") : ""; error ($liblocations{$val}{$acond}, "... and should also be $adirtxt$adircond.$onlyone"); return; } } else { $instconds{$val} = new Automake::DisjConditions; } $instdirs{$val}{$full_cond} = $dir; $instsubdirs{$val}{$full_cond} = $ldir; $liblocations{$val}{$full_cond} = $where; $instconds{$val} = $instconds{$val}->merge ($full_cond); }, sub { return (); }, skip_ac_subst => 1); } foreach my $pair (@ltliblist) { my ($where, $onelib) = @$pair; my $seen_libobjs = 0; my $obj = '.lo'; # Canonicalize names and check for misspellings. my $xlib = check_canonical_spelling ($onelib, '_LIBADD', '_LDFLAGS', '_SOURCES', '_OBJECTS', '_DEPENDENCIES'); # Check that the library fits the standard naming convention. my $libname_rx = '^lib.*\.la'; my $ldvar = var ("${xlib}_LDFLAGS") || var ('AM_LDFLAGS'); my $ldvar2 = var ('LDFLAGS'); if (($ldvar && grep (/-module/, $ldvar->value_as_list_recursive)) || ($ldvar2 && grep (/-module/, $ldvar2->value_as_list_recursive))) { # Relax name checking for libtool modules. $libname_rx = '\.la'; } my $bn = basename ($onelib); if ($bn !~ /$libname_rx$/) { my $type = 'library'; if ($libname_rx eq '\.la') { $bn =~ s/^(lib|)(.*?)(?:\.[^.]*)?$/$1$2.la/; $type = 'module'; } else { $bn =~ s/^(?:lib)?(.*?)(?:\.[^.]*)?$/lib$1.la/; } my $suggestion = dirname ($onelib) . "/$bn"; $suggestion =~ s|^\./||g; msg ('error-gnu/warn', $where, "'$onelib' is not a standard libtool $type name\n" . "did you mean '$suggestion'?") } ($known_libraries{$onelib} = $bn) =~ s/\.la$//; $where->push_context ("while processing Libtool library '$onelib'"); $where->set (INTERNAL->get); # Make sure we look at these. set_seen ($xlib . '_LDFLAGS'); set_seen ($xlib . '_DEPENDENCIES'); set_seen ('EXTRA_' . $xlib . '_DEPENDENCIES'); # Generate support for conditional object inclusion in # libraries. if (var ($xlib . '_LIBADD')) { if (handle_lib_objects ($xlib, $xlib . '_LIBADD')) { $seen_libobjs = 1; } } else { define_variable ($xlib . "_LIBADD", '', $where); } reject_var ("${xlib}_LDADD", "use '${xlib}_LIBADD', not '${xlib}_LDADD'"); my $linker = handle_source_transform ($xlib, $onelib, $obj, $where, NONLIBTOOL => 0, LIBTOOL => 1); # Determine program to use for link. my($xlink, $vlink) = define_per_target_linker_variable ($linker, $xlib); $vlink = verbose_flag ($vlink || 'GEN'); my $rpathvar = "am_${xlib}_rpath"; my $rpath = "\$($rpathvar)"; foreach my $rcond ($instconds{$onelib}->conds) { my $val; if ($instdirs{$onelib}{$rcond} eq 'EXTRA' || $instdirs{$onelib}{$rcond} eq 'noinst' || $instdirs{$onelib}{$rcond} eq 'check') { # It's an EXTRA_ library, so we can't specify -rpath, # because we don't know where the library will end up. # The user probably knows, but generally speaking automake # doesn't -- and in fact configure could decide # dynamically between two different locations. $val = ''; } else { $val = ('-rpath $(' . $instdirs{$onelib}{$rcond} . 'dir)'); $val .= $instsubdirs{$onelib}{$rcond} if defined $instsubdirs{$onelib}{$rcond}; } if ($rcond->true) { # If $rcond is true there is only one condition and # there is no point defining an helper variable. $rpath = $val; } else { define_pretty_variable ($rpathvar, $rcond, INTERNAL, $val); } } # If the resulting library lies in a subdirectory, # make sure this directory will exist. my $dirstamp = require_build_directory_maybe ($onelib); # Remember to cleanup .libs/ in this directory. my $dirname = dirname $onelib; $libtool_clean_directories{$dirname} = 1; $output_rules .= file_contents ('ltlibrary', $where, LTLIBRARY => $onelib, XLTLIBRARY => $xlib, RPATH => $rpath, XLINK => $xlink, VERBOSE => $vlink, DIRSTAMP => $dirstamp); if ($seen_libobjs) { if (var ($xlib . '_LIBADD')) { check_libobjs_sources ($xlib, $xlib . '_LIBADD'); } } if (! $seen_ar) { msg ('extra-portability', $where, "'$onelib': linking libtool libraries using a non-POSIX\n" . "archiver requires 'AM_PROG_AR' in '$configure_ac'") } } } # See if any _SOURCES variable were misspelled. sub check_typos () { # It is ok if the user sets this particular variable. set_seen 'AM_LDFLAGS'; foreach my $primary ('SOURCES', 'LIBADD', 'LDADD', 'LDFLAGS', 'DEPENDENCIES') { foreach my $var (variables $primary) { my $varname = $var->name; # A configure variable is always legitimate. next if exists $configure_vars{$varname}; for my $cond ($var->conditions->conds) { $varname =~ /^(?:EXTRA_)?(?:nobase_)?(?:dist_|nodist_)?(.*)_[[:alnum:]]+$/; msg_var ('syntax', $var, "variable '$varname' is defined but no" . " program or\nlibrary has '$1' as canonical name" . " (possible typo)") unless $var->rdef ($cond)->seen; } } } } sub handle_scripts () { # NOTE we no longer automatically clean SCRIPTS, because it is # useful to sometimes distribute scripts verbatim. This happens # e.g. in Automake itself. am_install_var ('-candist', 'scripts', 'SCRIPTS', 'bin', 'sbin', 'libexec', 'pkglibexec', 'pkgdata', 'noinst', 'check'); } ## ------------------------ ## ## Handling Texinfo files. ## ## ------------------------ ## # ($OUTFILE, $VFILE) # scan_texinfo_file ($FILENAME) # ----------------------------- # $OUTFILE - name of the info file produced by $FILENAME. # $VFILE - name of the version.texi file used (undef if none). sub scan_texinfo_file { my ($filename) = @_; my $texi = new Automake::XFile "< $filename"; verb "reading $filename"; my ($outfile, $vfile); while ($_ = $texi->getline) { if (/^\@setfilename +(\S+)/) { # Honor only the first @setfilename. (It's possible to have # more occurrences later if the manual shows examples of how # to use @setfilename...) next if $outfile; $outfile = $1; if (index ($outfile, '.') < 0) { msg 'obsolete', "$filename:$.", "use of suffix-less info files is discouraged" } elsif ($outfile !~ /\.info$/) { error ("$filename:$.", "output '$outfile' has unrecognized extension"); return; } } # A "version.texi" file is actually any file whose name matches # "vers*.texi". elsif (/^\@include\s+(vers[^.]*\.texi)\s*$/) { $vfile = $1; } } if (! $outfile) { # Replace a .texi extension with .info $outfile = basename($filename); $outfile =~ s/\.[^.]+$//; $outfile .= '.info'; } return ($outfile, $vfile); } # ($DIRSTAMP, @CLEAN_FILES) # output_texinfo_build_rules ($SOURCE, $DEST, $INSRC, @DEPENDENCIES) # ------------------------------------------------------------------ # SOURCE - the source Texinfo file # DEST - the destination Info file # INSRC - whether DEST should be built in the source tree # DEPENDENCIES - known dependencies sub output_texinfo_build_rules { my ($source, $dest, $insrc, @deps) = @_; # Split 'a.texi' into 'a' and '.texi'. my ($spfx, $ssfx) = ($source =~ /^(.*?)(\.[^.]*)?$/); my ($dpfx, $dsfx) = ($dest =~ /^(.*?)(\.[^.]*)?$/); $ssfx ||= ""; $dsfx ||= ""; # We can output two kinds of rules: the "generic" rules use Make # suffix rules and are appropriate when $source and $dest do not lie # in a sub-directory; the "specific" rules are needed in the other # case. # # The former are output only once (this is not really apparent here, # but just remember that some logic deeper in Automake will not # output the same rule twice); while the later need to be output for # each Texinfo source. my $generic; my $makeinfoflags; my $sdir = dirname $source; if ($sdir eq '.' && dirname ($dest) eq '.') { $generic = 1; $makeinfoflags = '-I $(srcdir)'; } else { $generic = 0; $makeinfoflags = "-I $sdir -I \$(srcdir)/$sdir"; } # A directory can contain two kinds of info files: some built in the # source tree, and some built in the build tree. The rules are # different in each case. However we cannot output two different # set of generic rules. Because in-source builds are more usual, we # use generic rules in this case and fall back to "specific" rules # for build-dir builds. (It should not be a problem to invert this # if needed.) $generic = 0 unless $insrc; # We cannot use a suffix rule to build info files with an empty # extension. Otherwise we would output a single suffix inference # rule, with separate dependencies, as in # # .texi: # $(MAKEINFO) ... # foo.info: foo.texi # # which confuse Solaris make. (See the Autoconf manual for # details.) Therefore we use a specific rule in this case. This # applies to info files only (dvi and pdf files always have an # extension). my $generic_info = ($generic && $dsfx) ? 1 : 0; # If the resulting file lies in a subdirectory, # make sure this directory will exist. my $dirstamp = require_build_directory_maybe ($dest); my $dipfx = ($insrc ? '$(srcdir)/' : '') . $dpfx; $output_rules .= file_contents ('texibuild', new Automake::Location, AM_V_MAKEINFO => verbose_flag('MAKEINFO'), AM_V_TEXI2DVI => verbose_flag('TEXI2DVI'), AM_V_TEXI2PDF => verbose_flag('TEXI2PDF'), DEPS => "@deps", DEST_PREFIX => $dpfx, DEST_INFO_PREFIX => $dipfx, DEST_SUFFIX => $dsfx, DIRSTAMP => $dirstamp, GENERIC => $generic, GENERIC_INFO => $generic_info, INSRC => $insrc, MAKEINFOFLAGS => $makeinfoflags, SILENT => silent_flag(), SOURCE => ($generic ? '$<' : $source), SOURCE_INFO => ($generic_info ? '$<' : $source), SOURCE_REAL => $source, SOURCE_SUFFIX => $ssfx, TEXIQUIET => verbose_flag('texinfo'), TEXIDEVNULL => verbose_flag('texidevnull'), ); return ($dirstamp, "$dpfx.dvi", "$dpfx.pdf", "$dpfx.ps", "$dpfx.html"); } # ($MOSTLYCLEAN, $TEXICLEAN, $MAINTCLEAN) # handle_texinfo_helper ($info_texinfos) # -------------------------------------- # Handle all Texinfo source; helper for 'handle_texinfo'. sub handle_texinfo_helper { my ($info_texinfos) = @_; my (@infobase, @info_deps_list, @texi_deps); my %versions; my $done = 0; my (@mostly_cleans, @texi_cleans, @maint_cleans) = ('', '', ''); # Build a regex matching user-cleaned files. my $d = var 'DISTCLEANFILES'; my $c = var 'CLEANFILES'; my @f = (); push @f, $d->value_as_list_recursive (inner_expand => 1) if $d; push @f, $c->value_as_list_recursive (inner_expand => 1) if $c; @f = map { s|[^A-Za-z_0-9*\[\]\-]|\\$&|g; s|\*|[^/]*|g; $_; } @f; my $user_cleaned_files = '^(?:' . join ('|', @f) . ')$'; foreach my $texi ($info_texinfos->value_as_list_recursive (inner_expand => 1)) { my $infobase = $texi; if ($infobase =~ s/\.texi$//) { 1; # Nothing more to do. } elsif ($infobase =~ s/\.(txi|texinfo)$//) { msg_var 'obsolete', $info_texinfos, "suffix '.$1' for Texinfo files is discouraged;" . " use '.texi' instead"; } else { # FIXME: report line number. err_am "texinfo file '$texi' has unrecognized extension"; next; } push @infobase, $infobase; # If 'version.texi' is referenced by input file, then include # automatic versioning capability. my ($out_file, $vtexi) = scan_texinfo_file ("$relative_dir/$texi") or next; # Directory of auxiliary files and build by-products used by texi2dvi # and texi2pdf. push @mostly_cleans, "$infobase.t2d"; push @mostly_cleans, "$infobase.t2p"; # If the Texinfo source is in a subdirectory, create the # resulting info in this subdirectory. If it is in the current # directory, try hard to not prefix "./" because it breaks the # generic rules. my $outdir = dirname ($texi) . '/'; $outdir = "" if $outdir eq './'; $out_file = $outdir . $out_file; # Until Automake 1.6.3, .info files were built in the # source tree. This was an obstacle to the support of # non-distributed .info files, and non-distributed .texi # files. # # * Non-distributed .texi files is important in some packages # where .texi files are built at make time, probably using # other binaries built in the package itself, maybe using # tools or information found on the build host. Because # these files are not distributed they are always rebuilt # at make time; they should therefore not lie in the source # directory. One plan was to support this using # nodist_info_TEXINFOS or something similar. (Doing this # requires some sanity checks. For instance Automake should # not allow: # dist_info_TEXINFOS = foo.texi # nodist_foo_TEXINFOS = included.texi # because a distributed file should never depend on a # non-distributed file.) # # * If .texi files are not distributed, then .info files should # not be distributed either. There are also cases where one # wants to distribute .texi files, but does not want to # distribute the .info files. For instance the Texinfo package # distributes the tool used to build these files; it would # be a waste of space to distribute them. It's not clear # which syntax we should use to indicate that .info files should # not be distributed. Akim Demaille suggested that eventually # we switch to a new syntax: # | Maybe we should take some inspiration from what's already # | done in the rest of Automake. Maybe there is too much # | syntactic sugar here, and you want # | nodist_INFO = bar.info # | dist_bar_info_SOURCES = bar.texi # | bar_texi_DEPENDENCIES = foo.texi # | with a bit of magic to have bar.info represent the whole # | bar*info set. That's a lot more verbose that the current # | situation, but it is # not new, hence the user has less # | to learn. # | # | But there is still too much room for meaningless specs: # | nodist_INFO = bar.info # | dist_bar_info_SOURCES = bar.texi # | dist_PS = bar.ps something-written-by-hand.ps # | nodist_bar_ps_SOURCES = bar.texi # | bar_texi_DEPENDENCIES = foo.texi # | here bar.texi is dist_ in line 2, and nodist_ in 4. # # Back to the point, it should be clear that in order to support # non-distributed .info files, we need to build them in the # build tree, not in the source tree (non-distributed .texi # files are less of a problem, because we do not output build # rules for them). In Automake 1.7 .info build rules have been # largely cleaned up so that .info files get always build in the # build tree, even when distributed. The idea was that # (1) if during a VPATH build the .info file was found to be # absent or out-of-date (in the source tree or in the # build tree), Make would rebuild it in the build tree. # If an up-to-date source-tree of the .info file existed, # make would not rebuild it in the build tree. # (2) having two copies of .info files, one in the source tree # and one (newer) in the build tree is not a problem # because 'make dist' always pick files in the build tree # first. # However it turned out the be a bad idea for several reasons: # * Tru64, OpenBSD, and FreeBSD (not NetBSD) Make do not behave # like GNU Make on point (1) above. These implementations # of Make would always rebuild .info files in the build # tree, even if such files were up to date in the source # tree. Consequently, it was impossible to perform a VPATH # build of a package containing Texinfo files using these # Make implementations. # (Refer to the Autoconf Manual, section "Limitation of # Make", paragraph "VPATH", item "target lookup", for # an account of the differences between these # implementations.) # * The GNU Coding Standards require these files to be built # in the source-tree (when they are distributed, that is). # * Keeping a fresher copy of distributed files in the # build tree can be annoying during development because # - if the files is kept under CVS, you really want it # to be updated in the source tree # - it is confusing that 'make distclean' does not erase # all files in the build tree. # # Consequently, starting with Automake 1.8, .info files are # built in the source tree again. Because we still plan to # support non-distributed .info files at some point, we # have a single variable ($INSRC) that controls whether # the current .info file must be built in the source tree # or in the build tree. Actually this variable is switched # off in two cases: # (1) For '.info' files that appear to be cleaned; this is for # backward compatibility with package such as Texinfo, # which do things like # info_TEXINFOS = texinfo.txi info-stnd.texi info.texi # DISTCLEANFILES = texinfo texinfo-* info*.info* # # Do not create info files for distribution. # dist-info: # in order not to distribute .info files. # (2) When the undocumented option 'info-in-builddir' is given. # This is done to allow the developers of GCC, GDB, GNU # binutils and the GNU bfd library to force the '.info' files # to be generated in the builddir rather than the srcdir, as # was once done when the (now removed) 'cygnus' option was # given. See automake bug#11034 for more discussion. my $insrc = 1; my $soutdir = '$(srcdir)/' . $outdir; if (option 'info-in-builddir') { $insrc = 0; } elsif ($out_file =~ $user_cleaned_files) { $insrc = 0; msg 'obsolete', "$am_file.am", <<EOF; Oops! It appears this file (or files included by it) are triggering an undocumented, soon-to-be-removed automake hack. Future automake versions will no longer place in the builddir (rather than in the srcdir) the generated '.info' files that appear to be cleaned, by e.g. being listed in CLEANFILES or DISTCLEANFILES. If you want your '.info' files to be placed in the builddir rather than in the srcdir, you have to use the shiny new 'info-in-builddir' automake option. EOF } $outdir = $soutdir if $insrc; # If user specified file_TEXINFOS, then use that as explicit # dependency list. @texi_deps = (); push (@texi_deps, "${soutdir}${vtexi}") if $vtexi; my $canonical = canonicalize ($infobase); if (var ($canonical . "_TEXINFOS")) { push (@texi_deps, '$(' . $canonical . '_TEXINFOS)'); push_dist_common ('$(' . $canonical . '_TEXINFOS)'); } my ($dirstamp, @cfiles) = output_texinfo_build_rules ($texi, $out_file, $insrc, @texi_deps); push (@texi_cleans, @cfiles); push (@info_deps_list, $out_file); # If a vers*.texi file is needed, emit the rule. if ($vtexi) { err_am ("'$vtexi', included in '$texi', " . "also included in '$versions{$vtexi}'") if defined $versions{$vtexi}; $versions{$vtexi} = $texi; # 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. my $vti = ($done ? $done : 'vti'); ++$done; # This is ugly, but it is our historical practice. if ($config_aux_dir_set_in_configure_ac) { require_conf_file_with_macro (TRUE, 'info_TEXINFOS', FOREIGN, 'mdate-sh'); } else { require_file_with_macro (TRUE, 'info_TEXINFOS', FOREIGN, 'mdate-sh'); } my $conf_dir; if ($config_aux_dir_set_in_configure_ac) { $conf_dir = "$am_config_aux_dir/"; } else { $conf_dir = '$(srcdir)/'; } $output_rules .= file_contents ('texi-vers', new Automake::Location, TEXI => $texi, VTI => $vti, STAMPVTI => "${soutdir}stamp-$vti", VTEXI => "$soutdir$vtexi", MDDIR => $conf_dir, DIRSTAMP => $dirstamp); } } # Handle location of texinfo.tex. my $need_texi_file = 0; my $texinfodir; if (var ('TEXINFO_TEX')) { # The user defined TEXINFO_TEX so assume he knows what he is # doing. $texinfodir = ('$(srcdir)/' . dirname (variable_value ('TEXINFO_TEX'))); } elsif ($config_aux_dir_set_in_configure_ac) { $texinfodir = $am_config_aux_dir; define_variable ('TEXINFO_TEX', "$texinfodir/texinfo.tex", INTERNAL); $need_texi_file = 2; # so that we require_conf_file later } else { $texinfodir = '$(srcdir)'; $need_texi_file = 1; } define_variable ('am__TEXINFO_TEX_DIR', $texinfodir, INTERNAL); push (@dist_targets, 'dist-info'); if (! option 'no-installinfo') { # 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)'); } define_files_variable ("DVIS", @infobase, 'dvi', INTERNAL); define_files_variable ("PDFS", @infobase, 'pdf', INTERNAL); define_files_variable ("PSS", @infobase, 'ps', INTERNAL); define_files_variable ("HTMLS", @infobase, 'html', INTERNAL); # 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'), INTERNAL); # Do some error checking. Note that this file is not required # when in Cygnus mode; instead we defined TEXINFO_TEX explicitly # up above. if ($need_texi_file && ! option 'no-texinfo.tex') { if ($need_texi_file > 1) { require_conf_file_with_macro (TRUE, 'info_TEXINFOS', FOREIGN, 'texinfo.tex'); } else { require_file_with_macro (TRUE, 'info_TEXINFOS', FOREIGN, 'texinfo.tex'); } } return (makefile_wrap ("", "\t ", @mostly_cleans), makefile_wrap ("", "\t ", @texi_cleans), makefile_wrap ("", "\t ", @maint_cleans)); } sub handle_texinfo () { reject_var 'TEXINFOS', "'TEXINFOS' is an anachronism; use 'info_TEXINFOS'"; # FIXME: I think this is an obsolete future feature name. reject_var 'html_TEXINFOS', "HTML generation not yet supported"; my $info_texinfos = var ('info_TEXINFOS'); my ($mostlyclean, $clean, $maintclean) = ('', '', ''); if ($info_texinfos) { define_verbose_texinfo; ($mostlyclean, $clean, $maintclean) = handle_texinfo_helper ($info_texinfos); chomp $mostlyclean; chomp $clean; chomp $maintclean; } $output_rules .= file_contents ('texinfos', new Automake::Location, AM_V_DVIPS => verbose_flag('DVIPS'), MOSTLYCLEAN => $mostlyclean, TEXICLEAN => $clean, MAINTCLEAN => $maintclean, 'LOCAL-TEXIS' => !!$info_texinfos, TEXIQUIET => verbose_flag('texinfo')); } sub handle_man_pages () { reject_var 'MANS', "'MANS' is an anachronism; use '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. my (%sections, %notrans_sections, %trans_sections, %notrans_vars, %trans_vars, %notrans_sect_vars, %trans_sect_vars); # We handle nodist_ for uniformity. man pages aren't distributed # by default so it isn't actually very important. foreach my $npfx ('', 'notrans_') { foreach my $pfx ('', 'dist_', 'nodist_') { # Add more sections as needed. foreach my $section ('0'..'9', 'n', 'l') { my $varname = $npfx . $pfx . 'man' . $section . '_MANS'; if (var ($varname)) { $sections{$section} = 1; $varname = '$(' . $varname . ')'; if ($npfx eq 'notrans_') { $notrans_sections{$section} = 1; $notrans_sect_vars{$varname} = 1; } else { $trans_sections{$section} = 1; $trans_sect_vars{$varname} = 1; } push_dist_common ($varname) if $pfx eq 'dist_'; } } my $varname = $npfx . $pfx . 'man_MANS'; my $var = var ($varname); if ($var) { foreach ($var->value_as_list_recursive) { # A page like 'foo.1c' goes into man1dir. if (/\.([0-9a-z])([a-z]*)$/) { $sections{$1} = 1; if ($npfx eq 'notrans_') { $notrans_sections{$1} = 1; } else { $trans_sections{$1} = 1; } } } $varname = '$(' . $varname . ')'; if ($npfx eq 'notrans_') { $notrans_vars{$varname} = 1; } else { $trans_vars{$varname} = 1; } push_dist_common ($varname) if $pfx eq 'dist_'; } } } return unless %sections; my @unsorted_deps; # Build section independent variables. my $have_notrans = %notrans_vars; my @notrans_list = sort keys %notrans_vars; my $have_trans = %trans_vars; my @trans_list = sort keys %trans_vars; # Now for each section, generate an install and uninstall rule. # Sort sections so output is deterministic. foreach my $section (sort keys %sections) { # Build section dependent variables. my $notrans_mans = $have_notrans || exists $notrans_sections{$section}; my $trans_mans = $have_trans || exists $trans_sections{$section}; my (%notrans_this_sect, %trans_this_sect); my $expr = 'man' . $section . '_MANS'; foreach my $varname (keys %notrans_sect_vars) { if ($varname =~ /$expr/) { $notrans_this_sect{$varname} = 1; } } foreach my $varname (keys %trans_sect_vars) { if ($varname =~ /$expr/) { $trans_this_sect{$varname} = 1; } } my @notrans_sect_list = sort keys %notrans_this_sect; my @trans_sect_list = sort keys %trans_this_sect; @unsorted_deps = (keys %notrans_vars, keys %trans_vars, keys %notrans_this_sect, keys %trans_this_sect); my @deps = sort @unsorted_deps; $output_rules .= file_contents ('mans', new Automake::Location, SECTION => $section, DEPS => "@deps", NOTRANS_MANS => $notrans_mans, NOTRANS_SECT_LIST => "@notrans_sect_list", HAVE_NOTRANS => $have_notrans, NOTRANS_LIST => "@notrans_list", TRANS_MANS => $trans_mans, TRANS_SECT_LIST => "@trans_sect_list", HAVE_TRANS => $have_trans, TRANS_LIST => "@trans_list"); } @unsorted_deps = (keys %notrans_vars, keys %trans_vars, keys %notrans_sect_vars, keys %trans_sect_vars); my @mans = sort @unsorted_deps; $output_vars .= file_contents ('mans-vars', new Automake::Location, MANS => "@mans"); push (@all, '$(MANS)') unless option 'no-installman'; } sub handle_data () { am_install_var ('-noextra', '-candist', 'data', 'DATA', 'data', 'dataroot', 'doc', 'dvi', 'html', 'pdf', 'ps', 'sysconf', 'sharedstate', 'localstate', 'pkgdata', 'lisp', 'noinst', 'check'); } sub handle_tags () { my @config; foreach my $spec (@config_headers) { my ($out, @ins) = split_config_file_spec ($spec); foreach my $in (@ins) { # If the config header source is in this directory, # require it. push @config, basename ($in) if $relative_dir eq dirname ($in); } } define_variable ('am__tagged_files', '$(HEADERS) $(SOURCES) $(TAGS_FILES) $(LISP)' . " @config", INTERNAL); if (rvar('am__tagged_files')->value_as_list_recursive || var ('ETAGS_ARGS') || var ('SUBDIRS')) { $output_rules .= file_contents ('tags', new Automake::Location); set_seen 'TAGS_DEPENDENCIES'; } else { reject_var ('TAGS_DEPENDENCIES', "it doesn't make sense to define 'TAGS_DEPENDENCIES'" . " without\nsources or 'ETAGS_ARGS'"); # 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. Ditto ctags and # cscope. $output_rules .= "tags TAGS:\n\n" . "ctags CTAGS:\n\n" . "cscope cscopelist:\n\n"; } } # user_phony_rule ($NAME) # ----------------------- # Return false if rule $NAME does not exist. Otherwise, # declare it as phony, complete its definition (in case it is # conditional), and return its Automake::Rule instance. sub user_phony_rule { my ($name) = @_; my $rule = rule $name; if ($rule) { depend ('.PHONY', $name); # Define $NAME in all condition where it is not already defined, # so that it is always OK to depend on $NAME. for my $c ($rule->not_always_defined_in_cond (TRUE)->conds) { Automake::Rule::define ($name, 'internal', RULE_AUTOMAKE, $c, INTERNAL); $output_rules .= $c->subst_string . "$name:\n"; } } return $rule; } # Handle 'dist' target. sub handle_dist () { # Substitutions for distdir.am my %transform; # Define DIST_SUBDIRS. This must always be done, regardless of the # no-dist setting: target like 'distclean' or 'maintainer-clean' use it. my $subdirs = var ('SUBDIRS'); if ($subdirs) { # If SUBDIRS is conditionally defined, then set DIST_SUBDIRS # to all possible directories, and use it. If DIST_SUBDIRS is # defined, just use it. # Note that we check DIST_SUBDIRS first on purpose, so that # we don't call has_conditional_contents for now reason. # (In the past one project used so many conditional subdirectories # that calling has_conditional_contents on SUBDIRS caused # automake to grow to 150Mb -- this should not happen with # the current implementation of has_conditional_contents, # but it's more efficient to avoid the call anyway.) if (var ('DIST_SUBDIRS')) { } elsif ($subdirs->has_conditional_contents) { define_pretty_variable ('DIST_SUBDIRS', TRUE, INTERNAL, uniq ($subdirs->value_as_list_recursive)); } else { # We always define this because that is what 'distclean' # wants. define_pretty_variable ('DIST_SUBDIRS', TRUE, INTERNAL, '$(SUBDIRS)'); } } # The remaining definitions are only required when a dist target is used. return if option 'no-dist'; # At least one of the archive formats must be enabled. if ($relative_dir eq '.') { my $archive_defined = option 'no-dist-gzip' ? 0 : 1; $archive_defined ||= grep { option "dist-$_" } qw(shar zip tarZ bzip2 lzip xz zstd); error (option 'no-dist-gzip', "no-dist-gzip specified but no dist-* specified,\n" . "at least one archive format must be enabled") unless $archive_defined; } # Look for common files that should be included in distribution. # If the aux dir is set, and it does not have a Makefile.am, then # we check for these files there as well. my $check_aux = 0; if ($relative_dir eq '.' && $config_aux_dir_set_in_configure_ac) { if (! is_make_dir ($config_aux_dir)) { $check_aux = 1; } } foreach my $cfile (@toplevelmd_ok, @common_files) { if (dir_has_case_matching_file ($relative_dir, $cfile) # The file might be absent, but if it can be built it's ok. || rule $cfile) { push_dist_common ($cfile); } elsif (grep { $_ eq $cfile } @toplevelmd_ok) { # Irritatingly, have to repeat the checks, now for .md files; # we want to prefer non-.md, so do this second, and only "elsif". if (dir_has_case_matching_file ($relative_dir, "$cfile.md") || rule "$cfile.md") { push_dist_common ("$cfile.md"); } } # Don't use 'elsif' here because a file might meaningfully # appear in both $relative_dir and $config_aux_dir. if ($check_aux && dir_has_case_matching_file ($config_aux_dir, $cfile)) { push_dist_common ("$config_aux_dir/$cfile") } elsif ($check_aux && grep { $_ eq $cfile } @toplevelmd_ok) { if (dir_has_case_matching_file ($config_aux_dir, "$cfile.md") || rule "$cfile.md") { push_dist_common ("$cfile.md"); } } } # We might copy elements from @configure_dist_common to # @dist_common if we think we need to. If the file appears in our # directory, we would have discovered it already, so we don't # check that. But if the file is in a subdir without a Makefile, # we want to distribute it here if we are doing '.'. Ugly! # Also, in some corner cases, it's possible that the following code # will cause the same file to appear in the $(DIST_COMMON) variables # of two distinct Makefiles; but this is not a problem, since the # 'distdir' target in 'lib/am/distdir.am' can deal with the same # file being distributed multiple times. # See also automake bug#9651. if ($relative_dir eq '.') { foreach my $file (@configure_dist_common) { my $dir = dirname ($file); push_dist_common ($file) if ($dir eq '.' || ! is_make_dir ($dir)); } @configure_dist_common = (); } # $(am__DIST_COMMON): files to be distributed automatically. Will be # appended to $(DIST_COMMON) in the generated Makefile. # Use 'sort' so that the expansion of $(DIST_COMMON) in the generated # Makefile is deterministic, in face of m4 and/or perl randomizations # (see automake bug#17908). define_pretty_variable ('am__DIST_COMMON', TRUE, INTERNAL, uniq (sort @dist_common)); # Now that we've processed @dist_common, disallow further attempts # to modify it. $handle_dist_run = 1; $transform{'DISTCHECK-HOOK'} = !! rule 'distcheck-hook'; $transform{'GETTEXT'} = $seen_gettext && !$seen_gettext_external; # 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 user_phony_rule 'dist-hook'; $transform{'DIST-TARGETS'} = join (' ', @dist_targets); my $flm = option ('filename-length-max'); my $filename_filter = $flm ? '.' x $flm->[1] : ''; $output_rules .= file_contents ('distdir', new Automake::Location, %transform, FILENAME_FILTER => $filename_filter); } # check_directory ($NAME, $WHERE [, $RELATIVE_DIR = "."]) # ------------------------------------------------------- # Ensure $NAME is a directory (in $RELATIVE_DIR), and that it uses a sane # name. Use $WHERE as a location in the diagnostic, if any. sub check_directory { my ($dir, $where, $reldir) = @_; $reldir = '.' unless defined $reldir; error $where, "required directory $reldir/$dir does not exist" unless -d "$reldir/$dir"; # If an 'obj/' directory exists, BSD make will enter it before # reading 'Makefile'. Hence the 'Makefile' in the current directory # will not be read. # # % cat Makefile # all: # echo Hello # % cat obj/Makefile # all: # echo World # % make # GNU make # echo Hello # Hello # % pmake # BSD make # echo World # World msg ('portability', $where, "naming a subdirectory 'obj' causes troubles with BSD make") if $dir eq 'obj'; # 'aux' is probably the most important of the following forbidden name, # since it's tempting to use it as an AC_CONFIG_AUX_DIR. msg ('portability', $where, "name '$dir' is reserved on W32 and DOS platforms") if grep (/^\Q$dir\E$/i, qw/aux lpt1 lpt2 lpt3 com1 com2 com3 com4 con prn/); } # check_directories_in_var ($VARIABLE) # ------------------------------------ # Recursively check all items in variables $VARIABLE as directories sub check_directories_in_var { my ($var) = @_; $var->traverse_recursively (sub { my ($var, $val, $cond, $full_cond) = @_; check_directory ($val, $var->rdef ($cond)->location, $relative_dir); return (); }, undef, skip_ac_subst => 1); } sub handle_subdirs () { my $subdirs = var ('SUBDIRS'); return unless $subdirs; check_directories_in_var $subdirs; my $dsubdirs = var ('DIST_SUBDIRS'); check_directories_in_var $dsubdirs if $dsubdirs; $output_rules .= file_contents ('subdirs', new Automake::Location); rvar ('RECURSIVE_TARGETS')->rdef (TRUE)->{'pretty'} = VAR_SORTED; # Gross! } # ($REGEN, @DEPENDENCIES) # scan_aclocal_m4 # --------------- # If aclocal.m4 creation is automated, return the list of its dependencies. sub scan_aclocal_m4 () { my $regen_aclocal = 0; set_seen 'CONFIG_STATUS_DEPENDENCIES'; set_seen 'CONFIGURE_DEPENDENCIES'; if (-f 'aclocal.m4') { define_variable ("ACLOCAL_M4", '$(top_srcdir)/aclocal.m4', INTERNAL); my $aclocal = new Automake::XFile "< aclocal.m4"; my $line = $aclocal->getline; $regen_aclocal = $line =~ 'generated automatically by aclocal'; } my @ac_deps = (); if (set_seen ('ACLOCAL_M4_SOURCES')) { push (@ac_deps, '$(ACLOCAL_M4_SOURCES)'); msg_var ('obsolete', 'ACLOCAL_M4_SOURCES', "'ACLOCAL_M4_SOURCES' is obsolete.\n" . "It should be safe to simply remove it"); } # Note that it might be possible that aclocal.m4 doesn't exist but # should be auto-generated. This case probably isn't very # important. return ($regen_aclocal, @ac_deps); } # Helper function for 'substitute_ac_subst_variables'. sub substitute_ac_subst_variables_worker { my ($token) = @_; return "\@$token\@" if var $token; return "\${$token\}"; } # substitute_ac_subst_variables ($TEXT) # ------------------------------------- # Replace any occurrence of ${FOO} in $TEXT by @FOO@ if FOO is an AC_SUBST # variable. sub substitute_ac_subst_variables { my ($text) = @_; $text =~ s/\$[{]([^ \t=:+{}]+)}/substitute_ac_subst_variables_worker ($1)/ge; return $text; } # @DEPENDENCIES # prepend_srcdir (@INPUTS) # ------------------------ # Prepend $(srcdir) or $(top_srcdir) to all @INPUTS. The idea is that # if an input file has a directory part the same as the current # directory, then the directory part is simply replaced by $(srcdir). # But if the directory part is different, then $(top_srcdir) is # prepended. sub prepend_srcdir { my (@inputs) = @_; my @newinputs; foreach my $single (@inputs) { if (dirname ($single) eq $relative_dir) { push (@newinputs, '$(srcdir)/' . basename ($single)); } else { push (@newinputs, '$(top_srcdir)/' . $single); } } return @newinputs; } # @DEPENDENCIES # rewrite_inputs_into_dependencies ($OUTPUT, @INPUTS) # --------------------------------------------------- # Compute a list of dependencies appropriate for the rebuild # rule of # AC_CONFIG_FILES($OUTPUT:$INPUT[0]:$INPUTS[1]:...) # Also distribute $INPUTs which are not built by another AC_CONFIG_FOOs. sub rewrite_inputs_into_dependencies { my ($file, @inputs) = @_; my @res = (); for my $i (@inputs) { # We cannot create dependencies on shell variables. next if (substitute_ac_subst_variables $i) =~ /\$/; if (exists $ac_config_files_location{$i} && $i ne $file) { my $di = dirname $i; if ($di eq $relative_dir) { $i = basename $i; } # In the top-level Makefile we do not use $(top_builddir), because # we are already there, and since the targets are built without # a $(top_builddir), it helps BSD Make to match them with # dependencies. elsif ($relative_dir ne '.') { $i = '$(top_builddir)/' . $i; } } else { msg ('error', $ac_config_files_location{$file}, "required file '$i' not found") unless $i =~ /\$/ || exists $output_files{$i} || -f $i; ($i) = prepend_srcdir ($i); push_dist_common ($i); } push @res, $i; } return @res; } # handle_configure ($MAKEFILE_AM, $MAKEFILE_IN, $MAKEFILE, @INPUTS) # ----------------------------------------------------------------- # Handle remaking and configure stuff. # We need the name of the input file, to do proper remaking rules. sub handle_configure { my ($makefile_am, $makefile_in, $makefile, @inputs) = @_; prog_error 'empty @inputs' unless @inputs; my ($rel_makefile_am, $rel_makefile_in) = prepend_srcdir ($makefile_am, $makefile_in); my $rel_makefile = basename $makefile; my $colon_infile = ':' . join (':', @inputs); $colon_infile = '' if $colon_infile eq ":$makefile.in"; my @rewritten = rewrite_inputs_into_dependencies ($makefile, @inputs); my ($regen_aclocal_m4, @aclocal_m4_deps) = scan_aclocal_m4; define_pretty_variable ('am__aclocal_m4_deps', TRUE, INTERNAL, @configure_deps, @aclocal_m4_deps, '$(top_srcdir)/' . $configure_ac); my @configuredeps = ('$(am__aclocal_m4_deps)', '$(CONFIGURE_DEPENDENCIES)'); push @configuredeps, '$(ACLOCAL_M4)' if -f 'aclocal.m4'; define_pretty_variable ('am__configure_deps', TRUE, INTERNAL, @configuredeps); my $automake_options = '--' . $strictness_name . (global_option 'no-dependencies' ? ' --ignore-deps' : ''); $output_rules .= file_contents ('configure', new Automake::Location, MAKEFILE => $rel_makefile, 'MAKEFILE-DEPS' => "@rewritten", 'CONFIG-MAKEFILE' => ($relative_dir eq '.') ? '$@' : '$(subdir)/$@', 'MAKEFILE-IN' => $rel_makefile_in, 'HAVE-MAKEFILE-IN-DEPS' => (@include_stack > 0), 'MAKEFILE-IN-DEPS' => "@include_stack", 'MAKEFILE-AM' => $rel_makefile_am, 'AUTOMAKE-OPTIONS' => $automake_options, 'MAKEFILE-AM-SOURCES' => "$makefile$colon_infile", 'REGEN-ACLOCAL-M4' => $regen_aclocal_m4, VERBOSE => verbose_flag ('GEN')); if ($relative_dir eq '.') { push_dist_common ('acconfig.h') if -f 'acconfig.h'; } # If we have a configure header, require it. my $hdr_index = 0; my @distclean_config; foreach my $spec (@config_headers) { $hdr_index += 1; # $CONFIG_H_PATH: config.h from top level. my ($config_h_path, @ins) = split_config_file_spec ($spec); my $config_h_dir = dirname ($config_h_path); # If the header is in the current directory we want to build # the header here. Otherwise, if we're at the topmost # directory and the header's directory doesn't have a # Makefile, then we also want to build the header. if ($relative_dir eq $config_h_dir || ($relative_dir eq '.' && ! is_make_dir ($config_h_dir))) { my ($cn_sans_dir, $stamp_dir); if ($relative_dir eq $config_h_dir) { $cn_sans_dir = basename ($config_h_path); $stamp_dir = ''; } else { $cn_sans_dir = $config_h_path; if ($config_h_dir eq '.') { $stamp_dir = ''; } else { $stamp_dir = $config_h_dir . '/'; } } # This will also distribute all inputs. @ins = rewrite_inputs_into_dependencies ($config_h_path, @ins); # Cannot define rebuild rules for filenames with shell variables. next if (substitute_ac_subst_variables $config_h_path) =~ /\$/; # Header defined in this directory. my @files; if (-f $config_h_path . '.top') { push (@files, "$cn_sans_dir.top"); } if (-f $config_h_path . '.bot') { push (@files, "$cn_sans_dir.bot"); } push_dist_common (@files); # For now, acconfig.h can only appear in the top srcdir. if (-f 'acconfig.h') { push (@files, '$(top_srcdir)/acconfig.h'); } my $stamp = "${stamp_dir}stamp-h${hdr_index}"; $output_rules .= file_contents ('remake-hdr', new Automake::Location, FILES => "@files", 'FIRST-HDR' => ($hdr_index == 1), CONFIG_H => $cn_sans_dir, CONFIG_HIN => $ins[0], CONFIG_H_DEPS => "@ins", CONFIG_H_PATH => $config_h_path, STAMP => "$stamp"); push @distclean_config, $cn_sans_dir, $stamp; } } $output_rules .= file_contents ('clean-hdr', new Automake::Location, FILES => "@distclean_config") if @distclean_config; # Distribute and define mkinstalldirs only if it is already present # in the package, for backward compatibility (some people may still # use $(mkinstalldirs)). # TODO: start warning about this in Automake 1.14, and have # TODO: Automake 2.0 drop it (and the mkinstalldirs script # TODO: as well). my $mkidpath = "$config_aux_dir/mkinstalldirs"; if (-f $mkidpath) { # Use require_file so that any existing script gets updated # by --force-missing. require_conf_file ($mkidpath, FOREIGN, 'mkinstalldirs'); define_variable ('mkinstalldirs', "\$(SHELL) $am_config_aux_dir/mkinstalldirs", INTERNAL); } else { # Use $(install_sh), not $(MKDIR_P) because the latter requires # at least one argument, and $(mkinstalldirs) used to work # even without arguments (e.g. $(mkinstalldirs) $(conditional_dir)). # Also, $(MKDIR_P) uses the umask for any intermediate directories # created, whereas we want them to be created with umask 022 # so that they are mode 755. define_variable ('mkinstalldirs', '$(install_sh) -d', INTERNAL); } reject_var ('CONFIG_HEADER', "'CONFIG_HEADER' is an anachronism; now determined " . "automatically\nfrom '$configure_ac'"); my @config_h; foreach my $spec (@config_headers) { my ($out, @ins) = split_config_file_spec ($spec); # Generate CONFIG_HEADER define. if ($relative_dir eq dirname ($out)) { push @config_h, basename ($out); } else { push @config_h, "\$(top_builddir)/$out"; } } define_variable ("CONFIG_HEADER", "@config_h", INTERNAL) if @config_h; # Now look for other files in this directory which must be remade # by config.status, and generate rules for them. my @actual_other_files = (); # These get cleaned only in a VPATH build. my @actual_other_vpath_files = (); foreach my $lfile (@other_input_files) { my $file; my @inputs; if ($lfile =~ /^([^:]*):(.*)$/) { # This is the ":" syntax of AC_OUTPUT. $file = $1; @inputs = split (':', $2); } else { # Normal usage. $file = $lfile; @inputs = $file . '.in'; } # Automake files should not be stored in here, but in %MAKE_LIST. prog_error ("$lfile in \@other_input_files\n" . "\@other_input_files = (@other_input_files)") if -f $file . '.am'; my $local = basename ($file); # We skip files that aren't in this directory. However, if # the file's directory does not have a Makefile, and we are # currently doing '.', then we create a rule to rebuild the # file in the subdir. my $fd = dirname ($file); if ($fd ne $relative_dir) { if ($relative_dir eq '.' && ! is_make_dir ($fd)) { $local = $file; } else { next; } } my @rewritten_inputs = rewrite_inputs_into_dependencies ($file, @inputs); # Cannot output rules for shell variables. next if (substitute_ac_subst_variables $local) =~ /\$/; my $condstr = ''; my $cond = $ac_config_files_condition{$lfile}; if (defined $cond) { $condstr = $cond->subst_string; Automake::Rule::define ($local, $configure_ac, RULE_AUTOMAKE, $cond, $ac_config_files_location{$file}); } $output_rules .= ($condstr . $local . ': ' . '$(top_builddir)/config.status ' . "@rewritten_inputs\n" . $condstr . "\t" . 'cd $(top_builddir) && ' . '$(SHELL) ./config.status ' . ($relative_dir eq '.' ? '' : '$(subdir)/') . '$@' . "\n"); push (@actual_other_files, $local); } # For links we should clean destinations and distribute sources. foreach my $spec (@config_links) { my ($link, $file) = split /:/, $spec; # Some people do AC_CONFIG_LINKS($computed). We only handle # the DEST:SRC form. next unless $file; my $where = $ac_config_files_location{$link}; # Skip destinations that contain shell variables. if ((substitute_ac_subst_variables $link) !~ /\$/) { # We skip links that aren't in this directory. However, if # the link's directory does not have a Makefile, and we are # currently doing '.', then we add the link to CONFIG_CLEAN_FILES # in '.'s Makefile.in. my $local = basename ($link); my $fd = dirname ($link); if ($fd ne $relative_dir) { if ($relative_dir eq '.' && ! is_make_dir ($fd)) { $local = $link; } else { $local = undef; } } if ($file ne $link) { push @actual_other_files, $local if $local; } else { push @actual_other_vpath_files, $local if $local; } } # Do not process sources that contain shell variables. if ((substitute_ac_subst_variables $file) !~ /\$/) { my $fd = dirname ($file); # We distribute files that are in this directory. # At the top-level ('.') we also distribute files whose # directory does not have a Makefile. if (($fd eq $relative_dir) || ($relative_dir eq '.' && ! is_make_dir ($fd))) { # The following will distribute $file as a side-effect when # it is appropriate (i.e., when $file is not already an output). # We do not need the result, just the side-effect. rewrite_inputs_into_dependencies ($link, $file); } } } # These files get removed by "make distclean". define_pretty_variable ('CONFIG_CLEAN_FILES', TRUE, INTERNAL, @actual_other_files); define_pretty_variable ('CONFIG_CLEAN_VPATH_FILES', TRUE, INTERNAL, @actual_other_vpath_files); } sub handle_headers () { my @r = am_install_var ('-defaultdist', 'header', 'HEADERS', 'include', 'oldinclude', 'pkginclude', 'noinst', 'check'); foreach (@r) { next unless $<>[1] =~ /\..*$/; saw_extension ($&); } } sub handle_gettext () { return if ! $seen_gettext || $relative_dir ne '.'; my $subdirs = var 'SUBDIRS'; if (! $subdirs) { err_ac "AM_GNU_GETTEXT used but SUBDIRS not defined"; return; } # Perform some sanity checks to help users get the right setup. # We disable these tests when po/ doesn't exist in order not to disallow # unusual gettext setups. # # Bruno Haible: # | The idea is: # | # | 1) If a package doesn't have a directory po/ at top level, it # | will likely have multiple po/ directories in subpackages. # | # | 2) It is useful to warn for the absence of intl/ if AM_GNU_GETTEXT # | is used without 'external'. It is also useful to warn for the # | presence of intl/ if AM_GNU_GETTEXT([external]) is used. Both # | warnings apply only to the usual layout of packages, therefore # | they should both be disabled if no po/ directory is found at # | top level. if (-d 'po') { my @subdirs = $subdirs->value_as_list_recursive; msg_var ('syntax', $subdirs, "AM_GNU_GETTEXT used but 'po' not in SUBDIRS") if ! grep ($_ eq 'po', @subdirs); # intl/ is not required when AM_GNU_GETTEXT is called with the # 'external' option and AM_GNU_GETTEXT_INTL_SUBDIR is not called. msg_var ('syntax', $subdirs, "AM_GNU_GETTEXT used but 'intl' not in SUBDIRS") if (! ($seen_gettext_external && ! $seen_gettext_intl) && ! grep ($_ eq 'intl', @subdirs)); # intl/ should not be used with AM_GNU_GETTEXT([external]), except # if AM_GNU_GETTEXT_INTL_SUBDIR is called. msg_var ('syntax', $subdirs, "'intl' should not be in SUBDIRS when " . "AM_GNU_GETTEXT([external]) is used") if ($seen_gettext_external && ! $seen_gettext_intl && grep ($_ eq 'intl', @subdirs)); } require_file ($ac_gettext_location, GNU, 'ABOUT-NLS'); } # Emit makefile footer. sub handle_footer () { reject_rule ('.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"; my $suffixes = var 'SUFFIXES'; my @suffixes = Automake::Rule::suffixes; if (@suffixes || $suffixes) { # Make sure SUFFIXES has unique elements. Sort them to ensure # the output remains consistent. However, $(SUFFIXES) is # always at the start of the list, unsorted. This is done # because make will choose rules depending on the ordering of # suffixes, and this lets the user have some control. Push # actual suffixes, and not $(SUFFIXES). Some versions of make # do not like variable substitutions on the .SUFFIXES line. my @user_suffixes = ($suffixes ? $suffixes->value_as_list_recursive : ()); my %suffixes = map { $_ => 1 } @suffixes; delete @suffixes{@user_suffixes}; $output_header .= (".SUFFIXES: " . join (' ', @user_suffixes, sort keys %suffixes) . "\n"); } $output_trailer .= file_contents ('footer', new Automake::Location); } # Generate 'make install' rules. sub handle_install () { $output_rules .= file_contents ('install', new Automake::Location, maybe_BUILT_SOURCES => (set_seen ('BUILT_SOURCES') ? (" \$(BUILT_SOURCES)\n" . "\t\$(MAKE) \$(AM_MAKEFLAGS)") : ''), 'installdirs-local' => (user_phony_rule ('installdirs-local') ? ' installdirs-local' : ''), am__installdirs => variable_value ('am__installdirs') || ''); } # handle_all ($MAKEFILE) #----------------------- # Deal with 'all' and 'all-am'. sub handle_all { my ($makefile) = @_; # Output 'all-am'. # Put this at the beginning for the sake of non-GNU makes. This # is still wrong if these makes can run parallel jobs. But it is # right enough. unshift (@all, basename ($makefile)); foreach my $spec (@config_headers) { my ($out, @ins) = split_config_file_spec ($spec); push (@all, basename ($out)) if dirname ($out) eq $relative_dir; } # Install 'all' hooks. push (@all, "all-local") if user_phony_rule "all-local"; pretty_print_rule ("all-am:", "\t\t", @all); depend ('.PHONY', 'all-am', 'all'); # Output 'all'. my @local_headers = (); push @local_headers, '$(BUILT_SOURCES)' if var ('BUILT_SOURCES'); foreach my $spec (@config_headers) { my ($out, @ins) = split_config_file_spec ($spec); push @local_headers, basename ($out) if dirname ($out) eq $relative_dir; } if (@local_headers) { # We need to make sure config.h is built before we recurse. # We also want to make sure that built sources are built # before any ordinary 'all' targets are run. 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. $output_all .= ("all: @local_headers" . "\n\t" . '$(MAKE) $(AM_MAKEFLAGS) ' . (var ('SUBDIRS') ? 'all-recursive' : 'all-am') . "\n\n"); depend ('.MAKE', 'all'); } else { $output_all .= "all: " . (var ('SUBDIRS') ? 'all-recursive' : 'all-am') . "\n\n"; } } # Generate helper targets for user-defined recursive targets, where needed. sub handle_user_recursion () { return unless @extra_recursive_targets; define_pretty_variable ('am__extra_recursive_targets', TRUE, INTERNAL, map { "$