package Module::Build::Compat; use strict; use vars qw($VERSION); $VERSION = '0.340201'; use File::Basename (); use File::Spec; use IO::File; use Config; use Module::Build; use Module::Build::ModuleInfo; use Data::Dumper; my %convert_installdirs = ( PERL => 'core', SITE => 'site', VENDOR => 'vendor', ); my %makefile_to_build = ( TEST_VERBOSE => 'verbose', VERBINST => 'verbose', INC => sub { map {(extra_compiler_flags => $_)} Module::Build->split_like_shell(shift) }, POLLUTE => sub { (extra_compiler_flags => '-DPERL_POLLUTE') }, INSTALLDIRS => sub { (installdirs => $convert_installdirs{uc shift()}) }, LIB => sub { my $lib = shift; my %config = ( installprivlib => $lib, installsitelib => $lib, installarchlib => "$lib/$Config{archname}", installsitearch => "$lib/$Config{archname}" ); return map { (config => "$_=$config{$_}") } keys %config; }, # Convert INSTALLVENDORLIB and friends. ( map { my $name = $_; $name => sub { my @ret = (config => lc($name) . "=" . shift ); print STDERR "# Converted to @ret\n"; return @ret; } } qw( INSTALLARCHLIB INSTALLSITEARCH INSTALLVENDORARCH INSTALLPRIVLIB INSTALLSITELIB INSTALLVENDORLIB INSTALLBIN INSTALLSITEBIN INSTALLVENDORBIN INSTALLSCRIPT INSTALLSITESCRIPT INSTALLVENDORSCRIPT INSTALLMAN1DIR INSTALLSITEMAN1DIR INSTALLVENDORMAN1DIR INSTALLMAN3DIR INSTALLSITEMAN3DIR INSTALLVENDORMAN3DIR ) ), # Some names they have in common map {$_, lc($_)} qw(DESTDIR PREFIX INSTALL_BASE UNINST), ); my %macro_to_build = %makefile_to_build; # "LIB=foo make" is not the same as "perl Makefile.PL LIB=foo" delete $macro_to_build{LIB}; sub create_makefile_pl { my ($package, $type, $build, %args) = @_; die "Don't know how to build Makefile.PL of type '$type'" unless $type =~ /^(small|passthrough|traditional)$/; my $fh; if ($args{fh}) { $fh = $args{fh}; } else { $args{file} ||= 'Makefile.PL'; local $build->{properties}{quiet} = 1; $build->delete_filetree($args{file}); $fh = IO::File->new("> $args{file}") or die "Can't write $args{file}: $!"; } print {$fh} "# Note: this file was auto-generated by ", __PACKAGE__, " version $VERSION\n"; # Minimum perl version should be specified as "require 5.XXXXXX" in # Makefile.PL my $requires = $build->requires; if ( my $minimum_perl = $requires->{perl} ) { print {$fh} "require $minimum_perl;\n"; } # If a *bundled* custom subclass is being used, make sure we add its # directory to @INC. Also, lib.pm always needs paths in Unix format. my $subclass_load = ''; if (ref($build) ne "Module::Build") { my $subclass_dir = $package->subclass_dir($build); if (File::Spec->file_name_is_absolute($subclass_dir)) { my $base_dir = $build->base_dir; if ($build->dir_contains($base_dir, $subclass_dir)) { $subclass_dir = File::Spec->abs2rel($subclass_dir, $base_dir); $subclass_dir = $package->unixify_dir($subclass_dir); $subclass_load = "use lib '$subclass_dir';"; } # Otherwise, leave it the empty string } else { $subclass_dir = $package->unixify_dir($subclass_dir); $subclass_load = "use lib '$subclass_dir';"; } } if ($type eq 'small') { printf {$fh} <<'EOF', $subclass_load, ref($build), ref($build); use Module::Build::Compat 0.02; %s Module::Build::Compat->run_build_pl(args => \@ARGV); require %s; Module::Build::Compat->write_makefile(build_class => '%s'); EOF } elsif ($type eq 'passthrough') { printf {$fh} <<'EOF', $subclass_load, ref($build), ref($build); unless (eval "use Module::Build::Compat 0.02; 1" ) { print "This module requires Module::Build to install itself.\n"; require ExtUtils::MakeMaker; my $yn = ExtUtils::MakeMaker::prompt (' Install Module::Build now from CPAN?', 'y'); unless ($yn =~ /^y/i) { die " *** Cannot install without Module::Build. Exiting ...\n"; } require Cwd; require File::Spec; require CPAN; # Save this 'cause CPAN will chdir all over the place. my $cwd = Cwd::cwd(); CPAN::Shell->install('Module::Build::Compat'); CPAN::Shell->expand("Module", "Module::Build::Compat")->uptodate or die "Couldn't install Module::Build, giving up.\n"; chdir $cwd or die "Cannot chdir() back to $cwd: $!"; } eval "use Module::Build::Compat 0.02; 1" or die $@; %s Module::Build::Compat->run_build_pl(args => \@ARGV); my $build_script = 'Build'; $build_script .= '.com' if $^O eq 'VMS'; exit(0) unless(-e $build_script); # cpantesters convention require %s; Module::Build::Compat->write_makefile(build_class => '%s'); EOF } elsif ($type eq 'traditional') { my (%MM_Args, %prereq); if (eval "use Tie::IxHash; 1") { tie %MM_Args, 'Tie::IxHash'; # Don't care if it fails here tie %prereq, 'Tie::IxHash'; # Don't care if it fails here } my %name = ($build->module_name ? (NAME => $build->module_name) : (DISTNAME => $build->dist_name)); my %version = ($build->dist_version_from ? (VERSION_FROM => $build->dist_version_from) : (VERSION => $build->dist_version) ); %MM_Args = (%name, %version); %prereq = ( %{$build->requires}, %{$build->build_requires} ); %prereq = map {$_, $prereq{$_}} sort keys %prereq; delete $prereq{perl}; $MM_Args{PREREQ_PM} = \%prereq; $MM_Args{INSTALLDIRS} = $build->installdirs eq 'core' ? 'perl' : $build->installdirs; $MM_Args{EXE_FILES} = [ sort keys %{$build->script_files} ] if $build->script_files; $MM_Args{PL_FILES} = $build->PL_files || {}; if ($build->recursive_test_files) { $MM_Args{TESTS} = join q{ }, $package->_test_globs($build); } local $Data::Dumper::Terse = 1; my $args = Data::Dumper::Dumper(\%MM_Args); $args =~ s/\{(.*)\}/($1)/s; print $fh <<"EOF"; use ExtUtils::MakeMaker; WriteMakefile $args; EOF } } sub _test_globs { my ($self, $build) = @_; return map { File::Spec->catfile($_, '*.t') } @{$build->rscan_dir('t', sub { -d $File::Find::name })}; } sub subclass_dir { my ($self, $build) = @_; return (Module::Build::ModuleInfo->find_module_dir_by_name(ref $build) || File::Spec->catdir($build->config_dir, 'lib')); } sub unixify_dir { my ($self, $path) = @_; return join '/', File::Spec->splitdir($path); } sub makefile_to_build_args { my $class = shift; my @out; foreach my $arg (@_) { next if $arg eq ''; my ($key, $val) = ($arg =~ /^(\w+)=(.+)/ ? ($1, $2) : die "Malformed argument '$arg'"); # Do tilde-expansion if it looks like a tilde prefixed path ( $val ) = Module::Build->_detildefy( $val ) if $val =~ /^~/; if (exists $makefile_to_build{$key}) { my $trans = $makefile_to_build{$key}; push @out, $class->_argvify( ref($trans) ? $trans->($val) : ($trans => $val) ); } elsif (exists $Config{lc($key)}) { push @out, $class->_argvify( config => lc($key) . "=$val" ); } else { # Assume M::B can handle it in lowercase form push @out, $class->_argvify("\L$key" => $val); } } return @out; } sub _argvify { my ($self, @pairs) = @_; my @out; while (@pairs) { my ($k, $v) = splice @pairs, 0, 2; push @out, ("--$k", $v); } return @out; } sub makefile_to_build_macros { my @out; my %config; # must accumulate and return as a hashref while (my ($macro, $trans) = each %macro_to_build) { # On some platforms (e.g. Cygwin with 'make'), the mere presence # of "EXPORT: FOO" in the Makefile will make $ENV{FOO} defined. # Therefore we check length() too. next unless exists $ENV{$macro} && length $ENV{$macro}; my $val = $ENV{$macro}; my @args = ref($trans) ? $trans->($val) : ($trans => $val); while (@args) { my ($k, $v) = splice(@args, 0, 2); if ( $k eq 'config' ) { if ( $v =~ /^([^=]+)=(.*)$/ ) { $config{$1} = $2; } else { warn "Couldn't parse config '$v'\n"; } } else { push @out, ($k => $v); } } } push @out, (config => \%config) if %config; return @out; } sub run_build_pl { my ($pack, %in) = @_; $in{script} ||= 'Build.PL'; my @args = $in{args} ? $pack->makefile_to_build_args(@{$in{args}}) : (); print "# running $in{script} @args\n"; Module::Build->run_perl_script($in{script}, [], \@args) or die "Couldn't run $in{script}: $!"; } sub fake_makefile { my ($self, %args) = @_; unless (exists $args{build_class}) { warn "Unknown 'build_class', defaulting to 'Module::Build'\n"; $args{build_class} = 'Module::Build'; } my $class = $args{build_class}; my $perl = $class->find_perl_interpreter; # VMS MMS/MMK need to use MCR to run the Perl image. $perl = 'MCR ' . $perl if $self->_is_vms_mms; my $noop = ($class->is_windowsish ? 'rem>nul' : $self->_is_vms_mms ? 'Continue' : 'true'); my $filetype = $class->is_vmsish ? '.COM' : ''; my $Build = 'Build' . $filetype . ' --makefile_env_macros 1'; my $unlink = $class->oneliner('1 while unlink $ARGV[0]', [], [$args{makefile}]); $unlink =~ s/\$/\$\$/g unless $class->is_vmsish; my $maketext = <<"EOF"; all : force_do_it $perl $Build realclean : force_do_it $perl $Build realclean $unlink distclean : force_do_it $perl $Build distclean $unlink force_do_it : @ $noop EOF foreach my $action ($class->known_actions) { next if $action =~ /^(all|distclean|realclean|force_do_it)$/; # Don't double-define $maketext .= <<"EOF"; $action : force_do_it $perl $Build $action EOF } if ($self->_is_vms_mms) { # Roll our own .EXPORT as MMS/MMK don't honor that directive. $maketext .= "\n.FIRST\n\t\@ $noop\n"; for my $macro (keys %macro_to_build) { $maketext .= ".IFDEF $macro\n\tDEFINE $macro \"\$($macro)\"\n.ENDIF\n"; } $maketext .= "\n"; } else { $maketext .= "\n.EXPORT : " . join(' ', keys %macro_to_build) . "\n\n"; } return $maketext; } sub fake_prereqs { my $file = File::Spec->catfile('_build', 'prereqs'); my $fh = IO::File->new("< $file") or die "Can't read $file: $!"; my $prereqs = eval do {local $/; <$fh>}; close $fh; my @prereq; foreach my $section (qw/build_requires requires/) { foreach (keys %{$prereqs->{$section}}) { next if $_ eq 'perl'; push @prereq, "$_=>q[$prereqs->{$section}{$_}]"; } } return unless @prereq; return "# PREREQ_PM => { " . join(", ", @prereq) . " }\n\n"; } sub write_makefile { my ($pack, %in) = @_; unless (exists $in{build_class}) { warn "Unknown 'build_class', defaulting to 'Module::Build'\n"; $in{build_class} = 'Module::Build'; } my $class = $in{build_class}; $in{makefile} ||= $pack->_is_vms_mms ? 'Descrip.MMS' : 'Makefile'; open MAKE, "> $in{makefile}" or die "Cannot write $in{makefile}: $!"; print MAKE $pack->fake_prereqs; print MAKE $pack->fake_makefile(%in); close MAKE; } sub _is_vms_mms { return Module::Build->is_vmsish && ($Config{make} =~ m/MM[SK]/i); } 1; __END__ =for :stopwords passthrough =head1 NAME Module::Build::Compat - Compatibility with ExtUtils::MakeMaker =head1 SYNOPSIS # In a Build.PL : use Module::Build; my $build = Module::Build->new ( module_name => 'Foo::Bar', license => 'perl', create_makefile_pl => 'passthrough' ); ... =head1 DESCRIPTION Because C has been the standard way to distribute modules for a long time, many tools (CPAN.pm, or your system administrator) may expect to find a working F in every distribution they download from CPAN. If you want to throw them a bone, you can use C to automatically generate a F for you, in one of several different styles. C also provides some code that helps out the F at runtime. =head1 METHODS =over 4 =item create_makefile_pl($style, $build) Creates a F in the current directory in one of several styles, based on the supplied C object C<$build>. This is typically controlled by passing the desired style as the C parameter to C's C method; the F will then be automatically created during the C action. The currently supported styles are: =over 4 =item small A small F will be created that passes all functionality through to the F script in the same directory. The user must already have C installed in order to use this, or else they'll get a module-not-found error. =item passthrough This is just like the C option above, but if C is not already installed on the user's system, the script will offer to use C to download it and install it before continuing with the build. =item traditional A F will be created in the "traditional" style, i.e. it will use C and won't rely on C at all. In order to create the F, we'll include the C and C dependencies as the C parameter. You don't want to use this style if during the C stage you ask the user questions, or do some auto-sensing about the user's environment, or if you subclass C to do some customization, because the vanilla F won't do any of that. =back =item run_build_pl(args => \@ARGV) This method runs the F script, passing it any arguments the user may have supplied to the C command. Because C and C accept different arguments, this method also performs some translation between the two. C accepts the following named parameters: =over 4 =item args The C parameter specifies the parameters that would usually appear on the command line of the C command - typically you'll just pass a reference to C<@ARGV>. =item script This is the filename of the script to run - it defaults to C. =back =item write_makefile() This method writes a 'dummy' F that will pass all commands through to the corresponding C actions. C accepts the following named parameters: =over 4 =item makefile The name of the file to write - defaults to the string C. =back =back =head1 SCENARIOS So, some common scenarios are: =over 4 =item 1. Just include a F script (without a F script), and give installation directions in a F or F document explaining how to install the module. In particular, explain that the user must install C before installing your module. Note that if you do this, you may make things easier for yourself, but harder for people with older versions of CPAN or CPANPLUS on their system, because those tools generally only understand the F/C way of doing things. =item 2. Include a F script and a "traditional" F, created either manually or with C. Users won't ever have to install C if they use the F, but they won't get to take advantage of C's extra features either. For good measure, of course, test both the F and the F before shipping. =item 3. Include a F script and a "pass-through" F built using C. This will mean that people can continue to use the "old" installation commands, and they may never notice that it's actually doing something else behind the scenes. It will also mean that your installation process is compatible with older versions of tools like CPAN and CPANPLUS. =back =head1 AUTHOR Ken Williams =head1 COPYRIGHT Copyright (c) 2001-2006 Ken Williams. All rights reserved. This library is free software; you can redistribute it and/or modify it under the same terms as Perl itself. =head1 SEE ALSO L(3), L(3) =cut