package ExtUtils::MM_VMS; use strict; use ExtUtils::MakeMaker::Config; require Exporter; BEGIN { # so we can compile the thing on non-VMS platforms. if( $^O eq 'VMS' ) { require VMS::Filespec; VMS::Filespec->import; } } use File::Basename; our $VERSION = '7.10_01'; require ExtUtils::MM_Any; require ExtUtils::MM_Unix; our @ISA = qw( ExtUtils::MM_Any ExtUtils::MM_Unix ); use ExtUtils::MakeMaker qw($Verbose neatvalue); our $Revision = $ExtUtils::MakeMaker::Revision; =head1 NAME ExtUtils::MM_VMS - methods to override UN*X behaviour in ExtUtils::MakeMaker =head1 SYNOPSIS Do not use this directly. Instead, use ExtUtils::MM and it will figure out which MM_* class to use for you. =head1 DESCRIPTION See ExtUtils::MM_Unix for a documentation of the methods provided there. This package overrides the implementation of these methods, not the semantics. =head2 Methods always loaded =over 4 =item wraplist Converts a list into a string wrapped at approximately 80 columns. =cut sub wraplist { my($self) = shift; my($line,$hlen) = ('',0); foreach my $word (@_) { # Perl bug -- seems to occasionally insert extra elements when # traversing array (scalar(@array) doesn't show them, but # foreach(@array) does) (5.00307) next unless $word =~ /\w/; $line .= ' ' if length($line); if ($hlen > 80) { $line .= "\\\n\t"; $hlen = 0; } $line .= $word; $hlen += length($word) + 2; } $line; } # This isn't really an override. It's just here because ExtUtils::MM_VMS # appears in @MM::ISA before ExtUtils::Liblist::Kid, so if there isn't an ext() # in MM_VMS, then AUTOLOAD is called, and bad things happen. So, we just # mimic inheritance here and hand off to ExtUtils::Liblist::Kid. # XXX This hackery will die soon. --Schwern sub ext { require ExtUtils::Liblist::Kid; goto &ExtUtils::Liblist::Kid::ext; } =back =head2 Methods Those methods which override default MM_Unix methods are marked "(override)", while methods unique to MM_VMS are marked "(specific)". For overridden methods, documentation is limited to an explanation of why this method overrides the MM_Unix method; see the ExtUtils::MM_Unix documentation for more details. =over 4 =item guess_name (override) Try to determine name of extension being built. We begin with the name of the current directory. Since VMS filenames are case-insensitive, however, we look for a F<.pm> file whose name matches that of the current directory (presumably the 'main' F<.pm> file for this extension), and try to find a C statement from which to obtain the Mixed::Case package name. =cut sub guess_name { my($self) = @_; my($defname,$defpm,@pm,%xs); local *PM; $defname = basename(fileify($ENV{'DEFAULT'})); $defname =~ s![\d\-_]*\.dir.*$!!; # Clip off .dir;1 suffix, and package version $defpm = $defname; # Fallback in case for some reason a user has copied the files for an # extension into a working directory whose name doesn't reflect the # extension's name. We'll use the name of a unique .pm file, or the # first .pm file with a matching .xs file. if (not -e "${defpm}.pm") { @pm = glob('*.pm'); s/.pm$// for @pm; if (@pm == 1) { ($defpm = $pm[0]) =~ s/.pm$//; } elsif (@pm) { %xs = map { s/.xs$//; ($_,1) } glob('*.xs'); ## no critic if (keys %xs) { foreach my $pm (@pm) { $defpm = $pm, last if exists $xs{$pm}; } } } } if (open(my $pm, '<', "${defpm}.pm")){ while (<$pm>) { if (/^\s*package\s+([^;]+)/i) { $defname = $1; last; } } print "Warning (non-fatal): Couldn't find package name in ${defpm}.pm;\n\t", "defaulting package name to $defname\n" if eof($pm); close $pm; } else { print "Warning (non-fatal): Couldn't find ${defpm}.pm;\n\t", "defaulting package name to $defname\n"; } $defname =~ s#[\d.\-_]+$##; $defname; } =item find_perl (override) Use VMS file specification syntax and CLI commands to find and invoke Perl images. =cut sub find_perl { my($self, $ver, $names, $dirs, $trace) = @_; my($vmsfile,@sdirs,@snames,@cand); my($rslt); my($inabs) = 0; local *TCF; if( $self->{PERL_CORE} ) { # Check in relative directories first, so we pick up the current # version of Perl if we're running MakeMaker as part of the main build. @sdirs = sort { my($absa) = $self->file_name_is_absolute($a); my($absb) = $self->file_name_is_absolute($b); if ($absa && $absb) { return $a cmp $b } else { return $absa ? 1 : ($absb ? -1 : ($a cmp $b)); } } @$dirs; # Check miniperl before perl, and check names likely to contain # version numbers before "generic" names, so we pick up an # executable that's less likely to be from an old installation. @snames = sort { my($ba) = $a =~ m!([^:>\]/]+)$!; # basename my($bb) = $b =~ m!([^:>\]/]+)$!; my($ahasdir) = (length($a) - length($ba) > 0); my($bhasdir) = (length($b) - length($bb) > 0); if ($ahasdir and not $bhasdir) { return 1; } elsif ($bhasdir and not $ahasdir) { return -1; } else { $bb =~ /\d/ <=> $ba =~ /\d/ or substr($ba,0,1) cmp substr($bb,0,1) or length($bb) <=> length($ba) } } @$names; } else { @sdirs = @$dirs; @snames = @$names; } # Image names containing Perl version use '_' instead of '.' under VMS s/\.(\d+)$/_$1/ for @snames; if ($trace >= 2){ print "Looking for perl $ver by these names:\n"; print "\t@snames,\n"; print "in these dirs:\n"; print "\t@sdirs\n"; } foreach my $dir (@sdirs){ next unless defined $dir; # $self->{PERL_SRC} may be undefined $inabs++ if $self->file_name_is_absolute($dir); if ($inabs == 1) { # We've covered relative dirs; everything else is an absolute # dir (probably an installed location). First, we'll try # potential command names, to see whether we can avoid a long # MCR expression. foreach my $name (@snames) { push(@cand,$name) if $name =~ /^[\w\-\$]+$/; } $inabs++; # Should happen above in next $dir, but just in case... } foreach my $name (@snames){ push @cand, ($name !~ m![/:>\]]!) ? $self->catfile($dir,$name) : $self->fixpath($name,0); } } foreach my $name (@cand) { print "Checking $name\n" if $trace >= 2; # If it looks like a potential command, try it without the MCR if ($name =~ /^[\w\-\$]+$/) { open(my $tcf, ">", "temp_mmvms.com") or die('unable to open temp file'); print $tcf "\$ set message/nofacil/nosever/noident/notext\n"; print $tcf "\$ $name -e \"require $ver; print \"\"VER_OK\\n\"\"\"\n"; close $tcf; $rslt = `\@temp_mmvms.com` ; unlink('temp_mmvms.com'); if ($rslt =~ /VER_OK/) { print "Using PERL=$name\n" if $trace; return $name; } } next unless $vmsfile = $self->maybe_command($name); $vmsfile =~ s/;[\d\-]*$//; # Clip off version number; we can use a newer version as well print "Executing $vmsfile\n" if ($trace >= 2); open(my $tcf, '>', "temp_mmvms.com") or die('unable to open temp file'); print $tcf "\$ set message/nofacil/nosever/noident/notext\n"; print $tcf "\$ mcr $vmsfile -e \"require $ver; print \"\"VER_OK\\n\"\"\" \n"; close $tcf; $rslt = `\@temp_mmvms.com`; unlink('temp_mmvms.com'); if ($rslt =~ /VER_OK/) { print "Using PERL=MCR $vmsfile\n" if $trace; return "MCR $vmsfile"; } } print "Unable to find a perl $ver (by these names: @$names, in these dirs: @$dirs)\n"; 0; # false and not empty } =item _fixin_replace_shebang (override) Helper routine for MM->fixin(), overridden because there's no such thing as an actual shebang line that will be interpreted by the shell, so we just prepend $Config{startperl} and preserve the shebang line argument for any switches it may contain. =cut sub _fixin_replace_shebang { my ( $self, $file, $line ) = @_; my ( undef, $arg ) = split ' ', $line, 2; return $Config{startperl} . "\n" . $Config{sharpbang} . "perl $arg\n"; } =item maybe_command (override) Follows VMS naming conventions for executable files. If the name passed in doesn't exactly match an executable file, appends F<.Exe> (or equivalent) to check for executable image, and F<.Com> to check for DCL procedure. If this fails, checks directories in DCL$PATH and finally F for an executable file having the name specified, with or without the F<.Exe>-equivalent suffix. =cut sub maybe_command { my($self,$file) = @_; return $file if -x $file && ! -d _; my(@dirs) = (''); my(@exts) = ('',$Config{'exe_ext'},'.exe','.com'); if ($file !~ m![/:>\]]!) { for (my $i = 0; defined $ENV{"DCL\$PATH;$i"}; $i++) { my $dir = $ENV{"DCL\$PATH;$i"}; $dir .= ':' unless $dir =~ m%[\]:]$%; push(@dirs,$dir); } push(@dirs,'Sys$System:'); foreach my $dir (@dirs) { my $sysfile = "$dir$file"; foreach my $ext (@exts) { return $file if -x "$sysfile$ext" && ! -d _; } } } return 0; } =item pasthru (override) VMS has $(MMSQUALIFIERS) which is a listing of all the original command line options. This is used in every invocation of make in the VMS Makefile so PASTHRU should not be necessary. Using PASTHRU tends to blow commands past the 256 character limit. =cut sub pasthru { return "PASTHRU=\n"; } =item pm_to_blib (override) VMS wants a dot in every file so we can't have one called 'pm_to_blib', it becomes 'pm_to_blib.' and MMS/K isn't smart enough to know that when you have a target called 'pm_to_blib' it should look for 'pm_to_blib.'. So in VMS its pm_to_blib.ts. =cut sub pm_to_blib { my $self = shift; my $make = $self->SUPER::pm_to_blib; $make =~ s{^pm_to_blib :}{pm_to_blib.ts :}m; $make =~ s{\$\(TOUCH\) pm_to_blib}{\$(TOUCH) pm_to_blib.ts}; $make = <<'MAKE' . $make; # Dummy target to match Unix target name; we use pm_to_blib.ts as # timestamp file to avoid repeated invocations under VMS pm_to_blib : pm_to_blib.ts $(NOECHO) $(NOOP) MAKE return $make; } =item perl_script (override) If name passed in doesn't specify a readable file, appends F<.com> or F<.pl> and tries again, since it's customary to have file types on all files under VMS. =cut sub perl_script { my($self,$file) = @_; return $file if -r $file && ! -d _; return "$file.com" if -r "$file.com"; return "$file.pl" if -r "$file.pl"; return ''; } =item replace_manpage_separator Use as separator a character which is legal in a VMS-syntax file name. =cut sub replace_manpage_separator { my($self,$man) = @_; $man = unixify($man); $man =~ s#/+#__#g; $man; } =item init_DEST (override) Because of the difficulty concatenating VMS filepaths we must pre-expand the DEST* variables. =cut sub init_DEST { my $self = shift; $self->SUPER::init_DEST; # Expand DEST variables. foreach my $var ($self->installvars) { my $destvar = 'DESTINSTALL'.$var; $self->{$destvar} = $self->eliminate_macros($self->{$destvar}); } } =item init_DIRFILESEP No separator between a directory path and a filename on VMS. =cut sub init_DIRFILESEP { my($self) = shift; $self->{DIRFILESEP} = ''; return 1; } =item init_main (override) =cut sub init_main { my($self) = shift; $self->SUPER::init_main; $self->{DEFINE} ||= ''; if ($self->{DEFINE} ne '') { my(@terms) = split(/\s+/,$self->{DEFINE}); my(@defs,@udefs); foreach my $def (@terms) { next unless $def; my $targ = \@defs; if ($def =~ s/^-([DU])//) { # If it was a Unix-style definition $targ = \@udefs if $1 eq 'U'; $def =~ s/='(.*)'$/=$1/; # then remove shell-protection '' $def =~ s/^'(.*)'$/$1/; # from entire term or argument } if ($def =~ /=/) { $def =~ s/"/""/g; # Protect existing " from DCL $def = qq["$def"]; # and quote to prevent parsing of = } push @$targ, $def; } $self->{DEFINE} = ''; if (@defs) { $self->{DEFINE} = '/Define=(' . join(',',@defs) . ')'; } if (@udefs) { $self->{DEFINE} .= '/Undef=(' . join(',',@udefs) . ')'; } } } =item init_tools (override) Provide VMS-specific forms of various utility commands. Sets DEV_NULL to nothing because I don't know how to do it on VMS. Changes EQUALIZE_TIMESTAMP to set revision date of target file to one second later than source file, since MMK interprets precisely equal revision dates for a source and target file as a sign that the target needs to be updated. =cut sub init_tools { my($self) = @_; $self->{NOOP} = 'Continue'; $self->{NOECHO} ||= '@ '; $self->{MAKEFILE} ||= $self->{FIRST_MAKEFILE} || 'Descrip.MMS'; $self->{FIRST_MAKEFILE} ||= $self->{MAKEFILE}; $self->{MAKE_APERL_FILE} ||= 'Makeaperl.MMS'; $self->{MAKEFILE_OLD} ||= $self->eliminate_macros('$(FIRST_MAKEFILE)_old'); # # If an extension is not specified, then MMS/MMK assumes an # an extension of .MMS. If there really is no extension, # then a trailing "." needs to be appended to specify a # a null extension. # $self->{MAKEFILE} .= '.' unless $self->{MAKEFILE} =~ m/\./; $self->{FIRST_MAKEFILE} .= '.' unless $self->{FIRST_MAKEFILE} =~ m/\./; $self->{MAKE_APERL_FILE} .= '.' unless $self->{MAKE_APERL_FILE} =~ m/\./; $self->{MAKEFILE_OLD} .= '.' unless $self->{MAKEFILE_OLD} =~ m/\./; $self->{MACROSTART} ||= '/Macro=('; $self->{MACROEND} ||= ')'; $self->{USEMAKEFILE} ||= '/Descrip='; $self->{EQUALIZE_TIMESTAMP} ||= '$(ABSPERLRUN) -we "open F,qq{>>$ARGV[1]};close F;utime(0,(stat($ARGV[0]))[9]+1,$ARGV[1])"'; $self->{MOD_INSTALL} ||= $self->oneliner(<<'CODE', ['-MExtUtils::Install']); install([ from_to => {split('\|', )}, verbose => '$(VERBINST)', uninstall_shadows => '$(UNINST)', dir_mode => '$(PERM_DIR)' ]); CODE $self->{UMASK_NULL} = '! '; $self->SUPER::init_tools; # Use the default shell $self->{SHELL} ||= 'Posix'; # Redirection on VMS goes before the command, not after as on Unix. # $(DEV_NULL) is used once and its not worth going nuts over making # it work. However, Unix's DEV_NULL is quite wrong for VMS. $self->{DEV_NULL} = ''; return; } =item init_platform (override) Add PERL_VMS, MM_VMS_REVISION and MM_VMS_VERSION. MM_VMS_REVISION is for backwards compatibility before MM_VMS had a $VERSION. =cut sub init_platform { my($self) = shift; $self->{MM_VMS_REVISION} = $Revision; $self->{MM_VMS_VERSION} = $VERSION; $self->{PERL_VMS} = $self->catdir($self->{PERL_SRC}, 'VMS') if $self->{PERL_SRC}; } =item platform_constants =cut sub platform_constants { my($self) = shift; my $make_frag = ''; foreach my $macro (qw(PERL_VMS MM_VMS_REVISION MM_VMS_VERSION)) { next unless defined $self->{$macro}; $make_frag .= "$macro = $self->{$macro}\n"; } return $make_frag; } =item init_VERSION (override) Override the *DEFINE_VERSION macros with VMS semantics. Translate the MAKEMAKER filepath to VMS style. =cut sub init_VERSION { my $self = shift; $self->SUPER::init_VERSION; $self->{DEFINE_VERSION} = '"$(VERSION_MACRO)=""$(VERSION)"""'; $self->{XS_DEFINE_VERSION} = '"$(XS_VERSION_MACRO)=""$(XS_VERSION)"""'; $self->{MAKEMAKER} = vmsify($INC{'ExtUtils/MakeMaker.pm'}); } =item constants (override) Fixes up numerous file and directory macros to insure VMS syntax regardless of input syntax. Also makes lists of files comma-separated. =cut sub constants { my($self) = @_; # Be kind about case for pollution for (@ARGV) { $_ = uc($_) if /POLLUTE/i; } # Cleanup paths for directories in MMS macros. foreach my $macro ( qw [ INST_BIN INST_SCRIPT INST_LIB INST_ARCHLIB PERL_LIB PERL_ARCHLIB PERL_INC PERL_SRC ], (map { 'INSTALL'.$_ } $self->installvars) ) { next unless defined $self->{$macro}; next if $macro =~ /MAN/ && $self->{$macro} eq 'none'; $self->{$macro} = $self->fixpath($self->{$macro},1); } # Cleanup paths for files in MMS macros. foreach my $macro ( qw[LIBPERL_A FIRST_MAKEFILE MAKEFILE_OLD MAKE_APERL_FILE MYEXTLIB] ) { next unless defined $self->{$macro}; $self->{$macro} = $self->fixpath($self->{$macro},0); } # Fixup files for MMS macros # XXX is this list complete? for my $macro (qw/ FULLEXT VERSION_FROM / ) { next unless defined $self->{$macro}; $self->{$macro} = $self->fixpath($self->{$macro},0); } for my $macro (qw/ OBJECT LDFROM / ) { next unless defined $self->{$macro}; # Must expand macros before splitting on unescaped whitespace. $self->{$macro} = $self->eliminate_macros($self->{$macro}); if ($self->{$macro} =~ /(?{$macro} =~ s/(\\)?\n+\s+/ /g; $self->{$macro} = $self->wraplist( map $self->fixpath($_,0), split /,?(?{$macro} ); } else { $self->{$macro} = $self->fixpath($self->{$macro},0); } } for my $macro (qw/ XS MAN1PODS MAN3PODS PM /) { # Where is the space coming from? --jhi next unless $self ne " " && defined $self->{$macro}; my %tmp = (); for my $key (keys %{$self->{$macro}}) { $tmp{$self->fixpath($key,0)} = $self->fixpath($self->{$macro}{$key},0); } $self->{$macro} = \%tmp; } for my $macro (qw/ C O_FILES H /) { next unless defined $self->{$macro}; my @tmp = (); for my $val (@{$self->{$macro}}) { push(@tmp,$self->fixpath($val,0)); } $self->{$macro} = \@tmp; } # mms/k does not define a $(MAKE) macro. $self->{MAKE} = '$(MMS)$(MMSQUALIFIERS)'; return $self->SUPER::constants; } =item special_targets Clear the default .SUFFIXES and put in our own list. =cut sub special_targets { my $self = shift; my $make_frag .= <<'MAKE_FRAG'; .SUFFIXES : .SUFFIXES : $(OBJ_EXT) .c .cpp .cxx .xs MAKE_FRAG return $make_frag; } =item cflags (override) Bypass shell script and produce qualifiers for CC directly (but warn user if a shell script for this extension exists). Fold multiple /Defines into one, since some C compilers pay attention to only one instance of this qualifier on the command line. =cut sub cflags { my($self,$libperl) = @_; my($quals) = $self->{CCFLAGS} || $Config{'ccflags'}; my($definestr,$undefstr,$flagoptstr) = ('','',''); my($incstr) = '/Include=($(PERL_INC)'; my($name,$sys,@m); ( $name = $self->{NAME} . "_cflags" ) =~ s/:/_/g ; print "Unix shell script ".$Config{"$self->{'BASEEXT'}_cflags"}. " required to modify CC command for $self->{'BASEEXT'}\n" if ($Config{$name}); if ($quals =~ / -[DIUOg]/) { while ($quals =~ / -([Og])(\d*)\b/) { my($type,$lvl) = ($1,$2); $quals =~ s/ -$type$lvl\b\s*//; if ($type eq 'g') { $flagoptstr = '/NoOptimize'; } else { $flagoptstr = '/Optimize' . (defined($lvl) ? "=$lvl" : ''); } } while ($quals =~ / -([DIU])(\S+)/) { my($type,$def) = ($1,$2); $quals =~ s/ -$type$def\s*//; $def =~ s/"/""/g; if ($type eq 'D') { $definestr .= qq["$def",]; } elsif ($type eq 'I') { $incstr .= ',' . $self->fixpath($def,1); } else { $undefstr .= qq["$def",]; } } } if (length $quals and $quals !~ m!/!) { warn "MM_VMS: Ignoring unrecognized CCFLAGS elements \"$quals\"\n"; $quals = ''; } $definestr .= q["PERL_POLLUTE",] if $self->{POLLUTE}; if (length $definestr) { chop($definestr); $quals .= "/Define=($definestr)"; } if (length $undefstr) { chop($undefstr); $quals .= "/Undef=($undefstr)"; } # Deal with $self->{DEFINE} here since some C compilers pay attention # to only one /Define clause on command line, so we have to # conflate the ones from $Config{'ccflags'} and $self->{DEFINE} # ($self->{DEFINE} has already been VMSified in constants() above) if ($self->{DEFINE}) { $quals .= $self->{DEFINE}; } for my $type (qw(Def Undef)) { my(@terms); while ($quals =~ m:/${type}i?n?e?=([^/]+):ig) { my $term = $1; $term =~ s:^\((.+)\)$:$1:; push @terms, $term; } if ($type eq 'Def') { push @terms, qw[ $(DEFINE_VERSION) $(XS_DEFINE_VERSION) ]; } if (@terms) { $quals =~ s:/${type}i?n?e?=[^/]+::ig; $quals .= "/${type}ine=(" . join(',',@terms) . ')'; } } $libperl or $libperl = $self->{LIBPERL_A} || "libperl.olb"; # Likewise with $self->{INC} and /Include if ($self->{'INC'}) { my(@includes) = split(/\s+/,$self->{INC}); foreach (@includes) { s/^-I//; $incstr .= ','.$self->fixpath($_,1); } } $quals .= "$incstr)"; # $quals =~ s/,,/,/g; $quals =~ s/\(,/(/g; $self->{CCFLAGS} = $quals; $self->{PERLTYPE} ||= ''; $self->{OPTIMIZE} ||= $flagoptstr || $Config{'optimize'}; if ($self->{OPTIMIZE} !~ m!/!) { if ($self->{OPTIMIZE} =~ m!-g!) { $self->{OPTIMIZE} = '/Debug/NoOptimize' } elsif ($self->{OPTIMIZE} =~ /-O(\d*)/) { $self->{OPTIMIZE} = '/Optimize' . (defined($1) ? "=$1" : ''); } else { warn "MM_VMS: Can't parse OPTIMIZE \"$self->{OPTIMIZE}\"; using default\n" if length $self->{OPTIMIZE}; $self->{OPTIMIZE} = '/Optimize'; } } return $self->{CFLAGS} = qq{ CCFLAGS = $self->{CCFLAGS} OPTIMIZE = $self->{OPTIMIZE} PERLTYPE = $self->{PERLTYPE} }; } =item const_cccmd (override) Adds directives to point C preprocessor to the right place when handling #include Esys/foo.hE directives. Also constructs CC command line a bit differently than MM_Unix method. =cut sub const_cccmd { my($self,$libperl) = @_; my(@m); return $self->{CONST_CCCMD} if $self->{CONST_CCCMD}; return '' unless $self->needs_linking(); if ($Config{'vms_cc_type'} eq 'gcc') { push @m,' .FIRST ',$self->{NOECHO},'If F$TrnLnm("Sys").eqs."" Then Define/NoLog SYS GNU_CC_Include:[VMS]'; } elsif ($Config{'vms_cc_type'} eq 'vaxc') { push @m,' .FIRST ',$self->{NOECHO},'If F$TrnLnm("Sys").eqs."" .and. F$TrnLnm("VAXC$Include").eqs."" Then Define/NoLog SYS Sys$Library ',$self->{NOECHO},'If F$TrnLnm("Sys").eqs."" .and. F$TrnLnm("VAXC$Include").nes."" Then Define/NoLog SYS VAXC$Include'; } else { push @m,' .FIRST ',$self->{NOECHO},'If F$TrnLnm("Sys").eqs."" .and. F$TrnLnm("DECC$System_Include").eqs."" Then Define/NoLog SYS ', ($Config{'archname'} eq 'VMS_AXP' ? 'Sys$Library' : 'DECC$Library_Include'),' ',$self->{NOECHO},'If F$TrnLnm("Sys").eqs."" .and. F$TrnLnm("DECC$System_Include").nes."" Then Define/NoLog SYS DECC$System_Include'; } push(@m, "\n\nCCCMD = $Config{'cc'} \$(CCFLAGS)\$(OPTIMIZE)\n"); $self->{CONST_CCCMD} = join('',@m); } =item tools_other (override) Throw in some dubious extra macros for Makefile args. Also keep around the old $(SAY) macro in case somebody's using it. =cut sub tools_other { my($self) = @_; # XXX Are these necessary? Does anyone override them? They're longer # than just typing the literal string. my $extra_tools = <<'EXTRA_TOOLS'; # Just in case anyone is using the old macro. USEMACROS = $(MACROSTART) SAY = $(ECHO) EXTRA_TOOLS return $self->SUPER::tools_other . $extra_tools; } =item init_dist (override) VMSish defaults for some values. macro description default ZIPFLAGS flags to pass to ZIP -Vu COMPRESS compression command to gzip use for tarfiles SUFFIX suffix to put on -gz compressed files SHAR shar command to use vms_share DIST_DEFAULT default target to use to tardist create a distribution DISTVNAME Use VERSION_SYM instead of $(DISTNAME)-$(VERSION_SYM) VERSION for the name =cut sub init_dist { my($self) = @_; $self->{ZIPFLAGS} ||= '-Vu'; $self->{COMPRESS} ||= 'gzip'; $self->{SUFFIX} ||= '-gz'; $self->{SHAR} ||= 'vms_share'; $self->{DIST_DEFAULT} ||= 'zipdist'; $self->SUPER::init_dist; $self->{DISTVNAME} = "$self->{DISTNAME}-$self->{VERSION_SYM}" unless $self->{ARGS}{DISTVNAME}; return; } =item c_o (override) Use VMS syntax on command line. In particular, $(DEFINE) and $(PERL_INC) have been pulled into $(CCCMD). Also use MM[SK] macros. =cut sub c_o { my($self) = @_; return '' unless $self->needs_linking(); ' .c$(OBJ_EXT) : $(CCCMD) $(CCCDLFLAGS) $(MMS$TARGET_NAME).c .cpp$(OBJ_EXT) : $(CCCMD) $(CCCDLFLAGS) $(MMS$TARGET_NAME).cpp .cxx$(OBJ_EXT) : $(CCCMD) $(CCCDLFLAGS) $(MMS$TARGET_NAME).cxx '; } =item xs_c (override) Use MM[SK] macros. =cut sub xs_c { my($self) = @_; return '' unless $self->needs_linking(); ' .xs.c : $(XSUBPPRUN) $(XSPROTOARG) $(XSUBPPARGS) $(MMS$TARGET_NAME).xs >$(MMS$TARGET) '; } =item xs_o (override) Use MM[SK] macros, and VMS command line for C compiler. =cut sub xs_o { # many makes are too dumb to use xs_c then c_o my($self) = @_; return '' unless $self->needs_linking(); ' .xs$(OBJ_EXT) : $(XSUBPPRUN) $(XSPROTOARG) $(XSUBPPARGS) $(MMS$TARGET_NAME).xs >$(MMS$TARGET_NAME).c $(CCCMD) $(CCCDLFLAGS) $(MMS$TARGET_NAME).c '; } =item dlsyms (override) Create VMS linker options files specifying universal symbols for this extension's shareable image, and listing other shareable images or libraries to which it should be linked. =cut sub dlsyms { my($self,%attribs) = @_; return '' unless $self->needs_linking(); my($funcs) = $attribs{DL_FUNCS} || $self->{DL_FUNCS} || {}; my($vars) = $attribs{DL_VARS} || $self->{DL_VARS} || []; my($funclist) = $attribs{FUNCLIST} || $self->{FUNCLIST} || []; my(@m); unless ($self->{SKIPHASH}{'dynamic'}) { push(@m,' dynamic :: $(INST_ARCHAUTODIR)$(BASEEXT).opt $(NOECHO) $(NOOP) '); } push(@m,' static :: $(INST_ARCHAUTODIR)$(BASEEXT).opt $(NOECHO) $(NOOP) ') unless $self->{SKIPHASH}{'static'}; push @m,' $(INST_ARCHAUTODIR)$(BASEEXT).opt : $(BASEEXT).opt $(CP) $(MMS$SOURCE) $(MMS$TARGET) $(BASEEXT).opt : Makefile.PL $(PERLRUN) -e "use ExtUtils::Mksymlists;" - ',qq[-e "Mksymlists('NAME' => '$self->{NAME}', 'DL_FUNCS' => ], neatvalue($funcs),q[, 'DL_VARS' => ],neatvalue($vars), q[, 'FUNCLIST' => ],neatvalue($funclist),qq[)"\n]; push @m, ' $(PERL) -e "print ""$(INST_STATIC)/Include='; if ($self->{OBJECT} =~ /\bBASEEXT\b/ or $self->{OBJECT} =~ /\b$self->{BASEEXT}\b/i) { push @m, ($Config{d_vms_case_sensitive_symbols} ? uc($self->{BASEEXT}) :'$(BASEEXT)'); } else { # We don't have a "main" object file, so pull 'em all in # Upcase module names if linker is being case-sensitive my($upcase) = $Config{d_vms_case_sensitive_symbols}; my(@omods) = split ' ', $self->eliminate_macros($self->{OBJECT}); for (@omods) { s/\.[^.]*$//; # Trim off file type s[\$\(\w+_EXT\)][]; # even as a macro s/.*[:>\/\]]//; # Trim off dir spec $_ = uc if $upcase; }; my(@lines); my $tmp = shift @omods; foreach my $elt (@omods) { $tmp .= ",$elt"; if (length($tmp) > 80) { push @lines, $tmp; $tmp = ''; } } push @lines, $tmp; push @m, '(', join( qq[, -\\n\\t"";" >>\$(MMS\$TARGET)\n\t\$(PERL) -e "print ""], @lines),')'; } push @m, '\n$(INST_STATIC)/Library\n"";" >>$(MMS$TARGET)',"\n"; if (length $self->{LDLOADLIBS}) { my($line) = ''; foreach my $lib (split ' ', $self->{LDLOADLIBS}) { $lib =~ s%\$%\\\$%g; # Escape '$' in VMS filespecs if (length($line) + length($lib) > 160) { push @m, "\t\$(PERL) -e \"print qq{$line}\" >>\$(MMS\$TARGET)\n"; $line = $lib . '\n'; } else { $line .= $lib . '\n'; } } push @m, "\t\$(PERL) -e \"print qq{$line}\" >>\$(MMS\$TARGET)\n" if $line; } join('',@m); } =item dynamic_lib (override) Use VMS Link command. =cut sub dynamic_lib { my($self, %attribs) = @_; return '' unless $self->needs_linking(); #might be because of a subdir return '' unless $self->has_link_code(); my($otherldflags) = $attribs{OTHERLDFLAGS} || ""; my($inst_dynamic_dep) = $attribs{INST_DYNAMIC_DEP} || ""; my $shr = $Config{'dbgprefix'} . 'PerlShr'; my(@m); push @m," OTHERLDFLAGS = $otherldflags INST_DYNAMIC_DEP = $inst_dynamic_dep "; push @m, ' $(INST_DYNAMIC) : $(INST_STATIC) $(PERL_INC)perlshr_attr.opt $(INST_ARCHAUTODIR)$(DFSEP).exists $(EXPORT_LIST) $(PERL_ARCHIVE) $(INST_DYNAMIC_DEP) If F$TrnLNm("',$shr,'").eqs."" Then Define/NoLog/User ',"$shr Sys\$Share:$shr.$Config{'dlext'}",' Link $(LDFLAGS) /Shareable=$(MMS$TARGET)$(OTHERLDFLAGS) $(BASEEXT).opt/Option,$(PERL_INC)perlshr_attr.opt/Option '; join('',@m); } =item static_lib (override) Use VMS commands to manipulate object library. =cut sub static_lib { my($self) = @_; return '' unless $self->needs_linking(); return ' $(INST_STATIC) : $(NOECHO) $(NOOP) ' unless ($self->{OBJECT} or @{$self->{C} || []} or $self->{MYEXTLIB}); my(@m); push @m,' # Rely on suffix rule for update action $(OBJECT) : $(INST_ARCHAUTODIR)$(DFSEP).exists $(INST_STATIC) : $(OBJECT) $(MYEXTLIB) '; # If this extension has its own library (eg SDBM_File) # then copy that to $(INST_STATIC) and add $(OBJECT) into it. push(@m, "\t",'$(CP) $(MYEXTLIB) $(MMS$TARGET)',"\n") if $self->{MYEXTLIB}; push(@m,"\t",'If F$Search("$(MMS$TARGET)").eqs."" Then Library/Object/Create $(MMS$TARGET)',"\n"); # if there was a library to copy, then we can't use MMS$SOURCE_LIST, # 'cause it's a library and you can't stick them in other libraries. # In that case, we use $OBJECT instead and hope for the best if ($self->{MYEXTLIB}) { push(@m,"\t",'Library/Object/Replace $(MMS$TARGET) $(OBJECT)',"\n"); } else { push(@m,"\t",'Library/Object/Replace $(MMS$TARGET) $(MMS$SOURCE_LIST)',"\n"); } push @m, "\t\$(NOECHO) \$(PERL) -e 1 >\$(INST_ARCHAUTODIR)extralibs.ld\n"; foreach my $lib (split ' ', $self->{EXTRALIBS}) { push(@m,"\t",'$(NOECHO) $(PERL) -e "print qq{',$lib,'\n}" >>$(INST_ARCHAUTODIR)extralibs.ld',"\n"); } join('',@m); } =item extra_clean_files Clean up some OS specific files. Plus the temp file used to shorten a lot of commands. And the name mangler database. =cut sub extra_clean_files { return qw( *.Map *.Dmp *.Lis *.cpp *.$(DLEXT) *.Opt $(BASEEXT).bso .MM_Tmp cxx_repository ); } =item zipfile_target =item tarfile_target =item shdist_target Syntax for invoking shar, tar and zip differs from that for Unix. =cut sub zipfile_target { my($self) = shift; return <<'MAKE_FRAG'; $(DISTVNAME).zip : distdir $(PREOP) $(ZIP) "$(ZIPFLAGS)" $(MMS$TARGET) [.$(DISTVNAME)...]*.*; $(RM_RF) $(DISTVNAME) $(POSTOP) MAKE_FRAG } sub tarfile_target { my($self) = shift; return <<'MAKE_FRAG'; $(DISTVNAME).tar$(SUFFIX) : distdir $(PREOP) $(TO_UNIX) $(TAR) "$(TARFLAGS)" $(DISTVNAME).tar [.$(DISTVNAME)...] $(RM_RF) $(DISTVNAME) $(COMPRESS) $(DISTVNAME).tar $(POSTOP) MAKE_FRAG } sub shdist_target { my($self) = shift; return <<'MAKE_FRAG'; shdist : distdir $(PREOP) $(SHAR) [.$(DISTVNAME)...]*.*; $(DISTVNAME).share $(RM_RF) $(DISTVNAME) $(POSTOP) MAKE_FRAG } # --- Test and Installation Sections --- =item install (override) Work around DCL's 255 character limit several times,and use VMS-style command line quoting in a few cases. =cut sub install { my($self, %attribs) = @_; my(@m); push @m, q[ install :: all pure_install doc_install $(NOECHO) $(NOOP) install_perl :: all pure_perl_install doc_perl_install $(NOECHO) $(NOOP) install_site :: all pure_site_install doc_site_install $(NOECHO) $(NOOP) install_vendor :: all pure_vendor_install doc_vendor_install $(NOECHO) $(NOOP) pure_install :: pure_$(INSTALLDIRS)_install $(NOECHO) $(NOOP) doc_install :: doc_$(INSTALLDIRS)_install $(NOECHO) $(NOOP) pure__install : pure_site_install $(NOECHO) $(ECHO) "INSTALLDIRS not defined, defaulting to INSTALLDIRS=site" doc__install : doc_site_install $(NOECHO) $(ECHO) "INSTALLDIRS not defined, defaulting to INSTALLDIRS=site" # This hack brought to you by DCL's 255-character command line limit pure_perl_install :: ]; push @m, q[ $(NOECHO) $(PERLRUN) "-MFile::Spec" -e "print 'read|'.File::Spec->catfile('$(PERL_ARCHLIB)','auto','$(FULLEXT)','.packlist').'|'" >.MM_tmp $(NOECHO) $(PERLRUN) "-MFile::Spec" -e "print 'write|'.File::Spec->catfile('$(DESTINSTALLARCHLIB)','auto','$(FULLEXT)','.packlist').'|'" >>.MM_tmp ] unless $self->{NO_PACKLIST}; push @m, q[ $(NOECHO) $(ECHO_N) "$(INST_LIB)|$(DESTINSTALLPRIVLIB)|" >>.MM_tmp $(NOECHO) $(ECHO_N) "$(INST_ARCHLIB)|$(DESTINSTALLARCHLIB)|" >>.MM_tmp $(NOECHO) $(ECHO_N) "$(INST_BIN)|$(DESTINSTALLBIN)|" >>.MM_tmp $(NOECHO) $(ECHO_N) "$(INST_SCRIPT)|$(DESTINSTALLSCRIPT)|" >>.MM_tmp $(NOECHO) $(ECHO_N) "$(INST_MAN1DIR) $(DESTINSTALLMAN1DIR) " >>.MM_tmp $(NOECHO) $(ECHO_N) "$(INST_MAN3DIR)|$(DESTINSTALLMAN3DIR)" >>.MM_tmp $(NOECHO) $(MOD_INSTALL) <.MM_tmp $(NOECHO) $(RM_F) .MM_tmp $(NOECHO) $(WARN_IF_OLD_PACKLIST) "].$self->catfile($self->{SITEARCHEXP},'auto',$self->{FULLEXT},'.packlist').q[" # Likewise pure_site_install :: ]; push @m, q[ $(NOECHO) $(PERLRUN) "-MFile::Spec" -e "print 'read|'.File::Spec->catfile('$(SITEARCHEXP)','auto','$(FULLEXT)','.packlist').'|'" >.MM_tmp $(NOECHO) $(PERLRUN) "-MFile::Spec" -e "print 'write|'.File::Spec->catfile('$(DESTINSTALLSITEARCH)','auto','$(FULLEXT)','.packlist').'|'" >>.MM_tmp ] unless $self->{NO_PACKLIST}; push @m, q[ $(NOECHO) $(ECHO_N) "$(INST_LIB)|$(DESTINSTALLSITELIB)|" >>.MM_tmp $(NOECHO) $(ECHO_N) "$(INST_ARCHLIB)|$(DESTINSTALLSITEARCH)|" >>.MM_tmp $(NOECHO) $(ECHO_N) "$(INST_BIN)|$(DESTINSTALLSITEBIN)|" >>.MM_tmp $(NOECHO) $(ECHO_N) "$(INST_SCRIPT)|$(DESTINSTALLSCRIPT)|" >>.MM_tmp $(NOECHO) $(ECHO_N) "$(INST_MAN1DIR)|$(DESTINSTALLSITEMAN1DIR)|" >>.MM_tmp $(NOECHO) $(ECHO_N) "$(INST_MAN3DIR)|$(DESTINSTALLSITEMAN3DIR)" >>.MM_tmp $(NOECHO) $(MOD_INSTALL) <.MM_tmp $(NOECHO) $(RM_F) .MM_tmp $(NOECHO) $(WARN_IF_OLD_PACKLIST) "].$self->catfile($self->{PERL_ARCHLIB},'auto',$self->{FULLEXT},'.packlist').q[" pure_vendor_install :: ]; push @m, q[ $(NOECHO) $(PERLRUN) "-MFile::Spec" -e "print 'read|'.File::Spec->catfile('$(VENDORARCHEXP)','auto','$(FULLEXT)','.packlist').'|'" >.MM_tmp $(NOECHO) $(PERLRUN) "-MFile::Spec" -e "print 'write|'.File::Spec->catfile('$(DESTINSTALLVENDORARCH)','auto','$(FULLEXT)','.packlist').'|'" >>.MM_tmp ] unless $self->{NO_PACKLIST}; push @m, q[ $(NOECHO) $(ECHO_N) "$(INST_LIB)|$(DESTINSTALLVENDORLIB)|" >>.MM_tmp $(NOECHO) $(ECHO_N) "$(INST_ARCHLIB)|$(DESTINSTALLVENDORARCH)|" >>.MM_tmp $(NOECHO) $(ECHO_N) "$(INST_BIN)|$(DESTINSTALLVENDORBIN)|" >>.MM_tmp $(NOECHO) $(ECHO_N) "$(INST_SCRIPT)|$(DESTINSTALLSCRIPT)|" >>.MM_tmp $(NOECHO) $(ECHO_N) "$(INST_MAN1DIR)|$(DESTINSTALLVENDORMAN1DIR)|" >>.MM_tmp $(NOECHO) $(ECHO_N) "$(INST_MAN3DIR)|$(DESTINSTALLVENDORMAN3DIR)" >>.MM_tmp $(NOECHO) $(MOD_INSTALL) <.MM_tmp $(NOECHO) $(RM_F) .MM_tmp ]; push @m, q[ # Ditto doc_perl_install :: $(NOECHO) $(NOOP) # And again doc_site_install :: $(NOECHO) $(NOOP) doc_vendor_install :: $(NOECHO) $(NOOP) ] if $self->{NO_PERLLOCAL}; push @m, q[ # Ditto doc_perl_install :: $(NOECHO) $(ECHO) "Appending installation info to ].$self->catfile($self->{DESTINSTALLARCHLIB}, 'perllocal.pod').q[" $(NOECHO) $(MKPATH) $(DESTINSTALLARCHLIB) $(NOECHO) $(ECHO_N) "installed into|$(INSTALLPRIVLIB)|" >.MM_tmp $(NOECHO) $(ECHO_N) "LINKTYPE|$(LINKTYPE)|VERSION|$(VERSION)|EXE_FILES|$(EXE_FILES) " >>.MM_tmp $(NOECHO) $(DOC_INSTALL) "Module" "$(NAME)" <.MM_tmp >>].$self->catfile($self->{DESTINSTALLARCHLIB},'perllocal.pod').q[ $(NOECHO) $(RM_F) .MM_tmp # And again doc_site_install :: $(NOECHO) $(ECHO) "Appending installation info to ].$self->catfile($self->{DESTINSTALLARCHLIB}, 'perllocal.pod').q[" $(NOECHO) $(MKPATH) $(DESTINSTALLARCHLIB) $(NOECHO) $(ECHO_N) "installed into|$(INSTALLSITELIB)|" >.MM_tmp $(NOECHO) $(ECHO_N) "LINKTYPE|$(LINKTYPE)|VERSION|$(VERSION)|EXE_FILES|$(EXE_FILES) " >>.MM_tmp $(NOECHO) $(DOC_INSTALL) "Module" "$(NAME)" <.MM_tmp >>].$self->catfile($self->{DESTINSTALLARCHLIB},'perllocal.pod').q[ $(NOECHO) $(RM_F) .MM_tmp doc_vendor_install :: $(NOECHO) $(ECHO) "Appending installation info to ].$self->catfile($self->{DESTINSTALLARCHLIB}, 'perllocal.pod').q[" $(NOECHO) $(MKPATH) $(DESTINSTALLARCHLIB) $(NOECHO) $(ECHO_N) "installed into|$(INSTALLVENDORLIB)|" >.MM_tmp $(NOECHO) $(ECHO_N) "LINKTYPE|$(LINKTYPE)|VERSION|$(VERSION)|EXE_FILES|$(EXE_FILES) " >>.MM_tmp $(NOECHO) $(DOC_INSTALL) "Module" "$(NAME)" <.MM_tmp >>].$self->catfile($self->{DESTINSTALLARCHLIB},'perllocal.pod').q[ $(NOECHO) $(RM_F) .MM_tmp ] unless $self->{NO_PERLLOCAL}; push @m, q[ uninstall :: uninstall_from_$(INSTALLDIRS)dirs $(NOECHO) $(NOOP) uninstall_from_perldirs :: $(NOECHO) $(UNINSTALL) ].$self->catfile($self->{PERL_ARCHLIB},'auto',$self->{FULLEXT},'.packlist').q[ uninstall_from_sitedirs :: $(NOECHO) $(UNINSTALL) ].$self->catfile($self->{SITEARCHEXP},'auto',$self->{FULLEXT},'.packlist').q[ uninstall_from_vendordirs :: $(NOECHO) $(UNINSTALL) ].$self->catfile($self->{VENDORARCHEXP},'auto',$self->{FULLEXT},'.packlist').q[ ]; join('',@m); } =item perldepend (override) Use VMS-style syntax for files; it's cheaper to just do it directly here than to have the MM_Unix method call C repeatedly. Also, if we have to rebuild Config.pm, use MM[SK] to do it. =cut sub perldepend { my($self) = @_; my(@m); if ($self->{OBJECT}) { # Need to add an object file dependency on the perl headers. # this is very important for XS modules in perl.git development. push @m, $self->_perl_header_files_fragment(""); # empty separator on VMS as its in the $(PERL_INC) } if ($self->{PERL_SRC}) { my(@macros); my($mmsquals) = '$(USEMAKEFILE)[.vms]$(FIRST_MAKEFILE)'; push(@macros,'__AXP__=1') if $Config{'archname'} eq 'VMS_AXP'; push(@macros,'DECC=1') if $Config{'vms_cc_type'} eq 'decc'; push(@macros,'GNUC=1') if $Config{'vms_cc_type'} eq 'gcc'; push(@macros,'SOCKET=1') if $Config{'d_has_sockets'}; push(@macros,qq["CC=$Config{'cc'}"]) if $Config{'cc'} =~ m!/!; $mmsquals .= '$(USEMACROS)' . join(',',@macros) . '$(MACROEND)' if @macros; push(@m,q[ # Check for unpropagated config.sh changes. Should never happen. # We do NOT just update config.h because that is not sufficient. # An out of date config.h is not fatal but complains loudly! $(PERL_INC)config.h : $(PERL_SRC)config.sh $(NOOP) $(PERL_ARCHLIB)Config.pm : $(PERL_SRC)config.sh $(NOECHO) Write Sys$Error "$(PERL_ARCHLIB)Config.pm may be out of date with config.h or genconfig.pl" olddef = F$Environment("Default") Set Default $(PERL_SRC) $(MMS)],$mmsquals,); if ($self->{PERL_ARCHLIB} =~ m|\[-| && $self->{PERL_SRC} =~ m|(\[-+)|) { my($prefix,$target) = ($1,$self->fixpath('$(PERL_ARCHLIB)Config.pm',0)); $target =~ s/\Q$prefix/[/; push(@m," $target"); } else { push(@m,' $(MMS$TARGET)'); } push(@m,q[ Set Default 'olddef' ]); } push(@m, join(" ", map($self->fixpath($_,0),values %{$self->{XS}}))." : \$(XSUBPPDEPS)\n") if %{$self->{XS}}; join('',@m); } =item makeaperl (override) Undertake to build a new set of Perl images using VMS commands. Since VMS does dynamic loading, it's not necessary to statically link each extension into the Perl image, so this isn't the normal build path. Consequently, it hasn't really been tested, and may well be incomplete. =cut our %olbs; # needs to be localized sub makeaperl { my($self, %attribs) = @_; my($makefilename, $searchdirs, $static, $extra, $perlinc, $target, $tmpdir, $libperl) = @attribs{qw(MAKE DIRS STAT EXTRA INCL TARGET TMP LIBPERL)}; my(@m); push @m, " # --- MakeMaker makeaperl section --- MAP_TARGET = $target "; return join '', @m if $self->{PARENT}; my($dir) = join ":", @{$self->{DIR}}; unless ($self->{MAKEAPERL}) { push @m, q{ $(MAKE_APERL_FILE) : $(FIRST_MAKEFILE) $(NOECHO) $(ECHO) "Writing ""$(MMS$TARGET)"" for this $(MAP_TARGET)" $(NOECHO) $(PERLRUNINST) \ Makefile.PL DIR=}, $dir, q{ \ FIRST_MAKEFILE=$(MAKE_APERL_FILE) LINKTYPE=static \ MAKEAPERL=1 NORECURS=1 }; push @m, map(q[ \\\n\t\t"$_"], @ARGV),q{ $(MAP_TARGET) :: $(MAKE_APERL_FILE) $(MAKE)$(USEMAKEFILE)$(MAKE_APERL_FILE) static $(MMS$TARGET) }; push @m, "\n"; return join '', @m; } my($linkcmd,@optlibs,@staticpkgs,$extralist,$targdir,$libperldir,%libseen); local($_); # The front matter of the linkcommand... $linkcmd = join ' ', $Config{'ld'}, grep($_, @Config{qw(large split ldflags ccdlflags)}); $linkcmd =~ s/\s+/ /g; # Which *.olb files could we make use of... local(%olbs); # XXX can this be lexical? $olbs{$self->{INST_ARCHAUTODIR}} = "$self->{BASEEXT}\$(LIB_EXT)"; require File::Find; File::Find::find(sub { return unless m/\Q$self->{LIB_EXT}\E$/; return if m/^libperl/; if( exists $self->{INCLUDE_EXT} ){ my $found = 0; (my $xx = $File::Find::name) =~ s,.*?/auto/,,; $xx =~ s,/?$_,,; $xx =~ s,/,::,g; # Throw away anything not explicitly marked for inclusion. # DynaLoader is implied. foreach my $incl ((@{$self->{INCLUDE_EXT}},'DynaLoader')){ if( $xx eq $incl ){ $found++; last; } } return unless $found; } elsif( exists $self->{EXCLUDE_EXT} ){ (my $xx = $File::Find::name) =~ s,.*?/auto/,,; $xx =~ s,/?$_,,; $xx =~ s,/,::,g; # Throw away anything explicitly marked for exclusion foreach my $excl (@{$self->{EXCLUDE_EXT}}){ return if( $xx eq $excl ); } } $olbs{$ENV{DEFAULT}} = $_; }, grep( -d $_, @{$searchdirs || []})); # We trust that what has been handed in as argument will be buildable $static = [] unless $static; @olbs{@{$static}} = (1) x @{$static}; $extra = [] unless $extra && ref $extra eq 'ARRAY'; # Sort the object libraries in inverse order of # filespec length to try to insure that dependent extensions # will appear before their parents, so the linker will # search the parent library to resolve references. # (e.g. Intuit::DWIM will precede Intuit, so unresolved # references from [.intuit.dwim]dwim.obj can be found # in [.intuit]intuit.olb). for (sort { length($a) <=> length($b) } keys %olbs) { next unless $olbs{$_} =~ /\Q$self->{LIB_EXT}\E$/; my($dir) = $self->fixpath($_,1); my($extralibs) = $dir . "extralibs.ld"; my($extopt) = $dir . $olbs{$_}; $extopt =~ s/$self->{LIB_EXT}$/.opt/; push @optlibs, "$dir$olbs{$_}"; # Get external libraries this extension will need if (-f $extralibs ) { my %seenthis; open my $list, "<", $extralibs or warn $!,next; while (<$list>) { chomp; # Include a library in the link only once, unless it's mentioned # multiple times within a single extension's options file, in which # case we assume the builder needed to search it again later in the # link. my $skip = exists($libseen{$_}) && !exists($seenthis{$_}); $libseen{$_}++; $seenthis{$_}++; next if $skip; push @$extra,$_; } } # Get full name of extension for ExtUtils::Miniperl if (-f $extopt) { open my $opt, '<', $extopt or die $!; while (<$opt>) { next unless /(?:UNIVERSAL|VECTOR)=boot_([\w_]+)/; my $pkg = $1; $pkg =~ s#__*#::#g; push @staticpkgs,$pkg; } } } # Place all of the external libraries after all of the Perl extension # libraries in the final link, in order to maximize the opportunity # for XS code from multiple extensions to resolve symbols against the # same external library while only including that library once. push @optlibs, @$extra; $target = "Perl$Config{'exe_ext'}" unless $target; my $shrtarget; ($shrtarget,$targdir) = fileparse($target); $shrtarget =~ s/^([^.]*)/$1Shr/; $shrtarget = $targdir . $shrtarget; $target = "Perlshr.$Config{'dlext'}" unless $target; $tmpdir = "[]" unless $tmpdir; $tmpdir = $self->fixpath($tmpdir,1); if (@optlibs) { $extralist = join(' ',@optlibs); } else { $extralist = ''; } # Let ExtUtils::Liblist find the necessary libs for us (but skip PerlShr) # that's what we're building here). push @optlibs, grep { !/PerlShr/i } split ' ', +($self->ext())[2]; if ($libperl) { unless (-f $libperl || -f ($libperl = $self->catfile($Config{'installarchlib'},'CORE',$libperl))) { print "Warning: $libperl not found\n"; undef $libperl; } } unless ($libperl) { if (defined $self->{PERL_SRC}) { $libperl = $self->catfile($self->{PERL_SRC},"libperl$self->{LIB_EXT}"); } elsif (-f ($libperl = $self->catfile($Config{'installarchlib'},'CORE',"libperl$self->{LIB_EXT}")) ) { } else { print "Warning: $libperl not found If you're going to build a static perl binary, make sure perl is installed otherwise ignore this warning\n"; } } $libperldir = $self->fixpath((fileparse($libperl))[1],1); push @m, ' # Fill in the target you want to produce if it\'s not perl MAP_TARGET = ',$self->fixpath($target,0),' MAP_SHRTARGET = ',$self->fixpath($shrtarget,0)," MAP_LINKCMD = $linkcmd MAP_PERLINC = ", $perlinc ? map('"$_" ',@{$perlinc}) : ''," MAP_EXTRA = $extralist MAP_LIBPERL = ",$self->fixpath($libperl,0),' '; push @m,"\n${tmpdir}Makeaperl.Opt : \$(MAP_EXTRA)\n"; foreach (@optlibs) { push @m,' $(NOECHO) $(PERL) -e "print q{',$_,'}" >>$(MMS$TARGET)',"\n"; } push @m,"\n${tmpdir}PerlShr.Opt :\n\t"; push @m,'$(NOECHO) $(PERL) -e "print q{$(MAP_SHRTARGET)}" >$(MMS$TARGET)',"\n"; push @m,' $(MAP_SHRTARGET) : $(MAP_LIBPERL) Makeaperl.Opt ',"${libperldir}Perlshr_Attr.Opt",' $(MAP_LINKCMD)/Shareable=$(MMS$TARGET) $(MAP_LIBPERL), Makeaperl.Opt/Option ',"${libperldir}Perlshr_Attr.Opt/Option",' $(MAP_TARGET) : $(MAP_SHRTARGET) ',"${tmpdir}perlmain\$(OBJ_EXT) ${tmpdir}PerlShr.Opt",' $(MAP_LINKCMD) ',"${tmpdir}perlmain\$(OBJ_EXT)",', PerlShr.Opt/Option $(NOECHO) $(ECHO) "To install the new ""$(MAP_TARGET)"" binary, say" $(NOECHO) $(ECHO) " $(MAKE)$(USEMAKEFILE)$(FIRST_MAKEFILE) inst_perl $(USEMACROS)MAP_TARGET=$(MAP_TARGET)$(ENDMACRO)" $(NOECHO) $(ECHO) "To remove the intermediate files, say $(NOECHO) $(ECHO) " $(MAKE)$(USEMAKEFILE)$(FIRST_MAKEFILE) map_clean" '; push @m,"\n${tmpdir}perlmain.c : \$(FIRST_MAKEFILE)\n\t\$(NOECHO) \$(PERL) -e 1 >${tmpdir}Writemain.tmp\n"; push @m, "# More from the 255-char line length limit\n"; foreach (@staticpkgs) { push @m,' $(NOECHO) $(PERL) -e "print q{',$_,qq[}" >>${tmpdir}Writemain.tmp\n]; } push @m, sprintf <<'MAKE_FRAG', $tmpdir, $tmpdir; $(NOECHO) $(PERL) $(MAP_PERLINC) -ane "use ExtUtils::Miniperl; writemain(@F)" %sWritemain.tmp >$(MMS$TARGET) $(NOECHO) $(RM_F) %sWritemain.tmp MAKE_FRAG push @m, q[ # Still more from the 255-char line length limit doc_inst_perl : $(NOECHO) $(MKPATH) $(DESTINSTALLARCHLIB) $(NOECHO) $(ECHO) "Perl binary $(MAP_TARGET)|" >.MM_tmp $(NOECHO) $(ECHO) "MAP_STATIC|$(MAP_STATIC)|" >>.MM_tmp $(NOECHO) $(PERL) -pl040 -e " " ].$self->catfile('$(INST_ARCHAUTODIR)','extralibs.all'),q[ >>.MM_tmp $(NOECHO) $(ECHO) -e "MAP_LIBPERL|$(MAP_LIBPERL)|" >>.MM_tmp $(NOECHO) $(DOC_INSTALL) <.MM_tmp >>].$self->catfile('$(DESTINSTALLARCHLIB)','perllocal.pod').q[ $(NOECHO) $(RM_F) .MM_tmp ]; push @m, " inst_perl : pure_inst_perl doc_inst_perl \$(NOECHO) \$(NOOP) pure_inst_perl : \$(MAP_TARGET) $self->{CP} \$(MAP_SHRTARGET) ",$self->fixpath($Config{'installbin'},1)," $self->{CP} \$(MAP_TARGET) ",$self->fixpath($Config{'installbin'},1)," clean :: map_clean \$(NOECHO) \$(NOOP) map_clean : \$(RM_F) ${tmpdir}perlmain\$(OBJ_EXT) ${tmpdir}perlmain.c \$(FIRST_MAKEFILE) \$(RM_F) ${tmpdir}Makeaperl.Opt ${tmpdir}PerlShr.Opt \$(MAP_TARGET) "; join '', @m; } # --- Output postprocessing section --- =item maketext_filter (override) Insure that colons marking targets are preceded by space, in order to distinguish the target delimiter from a colon appearing as part of a filespec. =cut sub maketext_filter { my($self, $text) = @_; $text =~ s/^([^\s:=]+)(:+\s)/$1 $2/mg; return $text; } =item prefixify (override) prefixifying on VMS is simple. Each should simply be: perl_root:[some.dir] which can just be converted to: volume:[your.prefix.some.dir] otherwise you get the default layout. In effect, your search prefix is ignored and $Config{vms_prefix} is used instead. =cut sub prefixify { my($self, $var, $sprefix, $rprefix, $default) = @_; # Translate $(PERLPREFIX) to a real path. $rprefix = $self->eliminate_macros($rprefix); $rprefix = vmspath($rprefix) if $rprefix; $sprefix = vmspath($sprefix) if $sprefix; $default = vmsify($default) unless $default =~ /\[.*\]/; (my $var_no_install = $var) =~ s/^install//; my $path = $self->{uc $var} || $ExtUtils::MM_Unix::Config_Override{lc $var} || $Config{lc $var} || $Config{lc $var_no_install}; if( !$path ) { warn " no Config found for $var.\n" if $Verbose >= 2; $path = $self->_prefixify_default($rprefix, $default); } elsif( !$self->{ARGS}{PREFIX} || !$self->file_name_is_absolute($path) ) { # do nothing if there's no prefix or if its relative } elsif( $sprefix eq $rprefix ) { warn " no new prefix.\n" if $Verbose >= 2; } else { warn " prefixify $var => $path\n" if $Verbose >= 2; warn " from $sprefix to $rprefix\n" if $Verbose >= 2; my($path_vol, $path_dirs) = $self->splitpath( $path ); if( $path_vol eq $Config{vms_prefix}.':' ) { warn " $Config{vms_prefix}: seen\n" if $Verbose >= 2; $path_dirs =~ s{^\[}{\[.} unless $path_dirs =~ m{^\[\.}; $path = $self->_catprefix($rprefix, $path_dirs); } else { $path = $self->_prefixify_default($rprefix, $default); } } print " now $path\n" if $Verbose >= 2; return $self->{uc $var} = $path; } sub _prefixify_default { my($self, $rprefix, $default) = @_; warn " cannot prefix, using default.\n" if $Verbose >= 2; if( !$default ) { warn "No default!\n" if $Verbose >= 1; return; } if( !$rprefix ) { warn "No replacement prefix!\n" if $Verbose >= 1; return ''; } return $self->_catprefix($rprefix, $default); } sub _catprefix { my($self, $rprefix, $default) = @_; my($rvol, $rdirs) = $self->splitpath($rprefix); if( $rvol ) { return $self->catpath($rvol, $self->catdir($rdirs, $default), '' ) } else { return $self->catdir($rdirs, $default); } } =item cd =cut sub cd { my($self, $dir, @cmds) = @_; $dir = vmspath($dir); my $cmd = join "\n\t", map "$_", @cmds; # No leading tab makes it look right when embedded my $make_frag = sprintf <<'MAKE_FRAG', $dir, $cmd; startdir = F$Environment("Default") Set Default %s %s Set Default 'startdir' MAKE_FRAG # No trailing newline makes this easier to embed chomp $make_frag; return $make_frag; } =item oneliner =cut sub oneliner { my($self, $cmd, $switches) = @_; $switches = [] unless defined $switches; # Strip leading and trailing newlines $cmd =~ s{^\n+}{}; $cmd =~ s{\n+$}{}; my @cmds = split /\n/, $cmd; $cmd = join " \n\t -e ", map $self->quote_literal($_), @cmds; $cmd = $self->escape_newlines($cmd); # Switches must be quoted else they will be lowercased. $switches = join ' ', map { qq{"$_"} } @$switches; return qq{\$(ABSPERLRUN) $switches -e $cmd "--"}; } =item B perl trips up on "" thinking it's an input redirect. So we use the native Write command instead. Besides, its faster. =cut sub echo { my($self, $text, $file, $opts) = @_; # Compatibility with old options if( !ref $opts ) { my $append = $opts; $opts = { append => $append || 0 }; } my $opencmd = $opts->{append} ? 'Open/Append' : 'Open/Write'; $opts->{allow_variables} = 0 unless defined $opts->{allow_variables}; my $ql_opts = { allow_variables => $opts->{allow_variables} }; my @cmds = ("\$(NOECHO) $opencmd MMECHOFILE $file "); push @cmds, map { '$(NOECHO) Write MMECHOFILE '.$self->quote_literal($_, $ql_opts) } split /\n/, $text; push @cmds, '$(NOECHO) Close MMECHOFILE'; return @cmds; } =item quote_literal =cut sub quote_literal { my($self, $text, $opts) = @_; $opts->{allow_variables} = 1 unless defined $opts->{allow_variables}; # I believe this is all we should need. $text =~ s{"}{""}g; $text = $opts->{allow_variables} ? $self->escape_dollarsigns($text) : $self->escape_all_dollarsigns($text); return qq{"$text"}; } =item escape_dollarsigns Quote, don't escape. =cut sub escape_dollarsigns { my($self, $text) = @_; # Quote dollar signs which are not starting a variable $text =~ s{\$ (?!\() }{"\$"}gx; return $text; } =item escape_all_dollarsigns Quote, don't escape. =cut sub escape_all_dollarsigns { my($self, $text) = @_; # Quote dollar signs $text =~ s{\$}{"\$\"}gx; return $text; } =item escape_newlines =cut sub escape_newlines { my($self, $text) = @_; $text =~ s{\n}{-\n}g; return $text; } =item max_exec_len 256 characters. =cut sub max_exec_len { my $self = shift; return $self->{_MAX_EXEC_LEN} ||= 256; } =item init_linker =cut sub init_linker { my $self = shift; $self->{EXPORT_LIST} ||= '$(BASEEXT).opt'; my $shr = $Config{dbgprefix} . 'PERLSHR'; if ($self->{PERL_SRC}) { $self->{PERL_ARCHIVE} ||= $self->catfile($self->{PERL_SRC}, "$shr.$Config{'dlext'}"); } else { $self->{PERL_ARCHIVE} ||= $ENV{$shr} ? $ENV{$shr} : "Sys\$Share:$shr.$Config{'dlext'}"; } $self->{PERL_ARCHIVEDEP} ||= ''; $self->{PERL_ARCHIVE_AFTER} ||= ''; } =item catdir (override) =item catfile (override) Eliminate the macros in the output to the MMS/MMK file. (File::Spec::VMS used to do this for us, but it's being removed) =cut sub catdir { my $self = shift; # Process the macros on VMS MMS/MMK my @args = map { m{\$\(} ? $self->eliminate_macros($_) : $_ } @_; my $dir = $self->SUPER::catdir(@args); # Fix up the directory and force it to VMS format. $dir = $self->fixpath($dir, 1); return $dir; } sub catfile { my $self = shift; # Process the macros on VMS MMS/MMK my @args = map { m{\$\(} ? $self->eliminate_macros($_) : $_ } @_; my $file = $self->SUPER::catfile(@args); $file = vmsify($file); return $file } =item eliminate_macros Expands MM[KS]/Make macros in a text string, using the contents of identically named elements of C<%$self>, and returns the result as a file specification in Unix syntax. NOTE: This is the canonical version of the method. The version in File::Spec::VMS is deprecated. =cut sub eliminate_macros { my($self,$path) = @_; return '' unless $path; $self = {} unless ref $self; my($npath) = unixify($path); # sometimes unixify will return a string with an off-by-one trailing null $npath =~ s{\0$}{}; my($complex) = 0; my($head,$macro,$tail); # perform m##g in scalar context so it acts as an iterator while ($npath =~ m#(.*?)\$\((\S+?)\)(.*)#gs) { if (defined $self->{$2}) { ($head,$macro,$tail) = ($1,$2,$3); if (ref $self->{$macro}) { if (ref $self->{$macro} eq 'ARRAY') { $macro = join ' ', @{$self->{$macro}}; } else { print "Note: can't expand macro \$($macro) containing ",ref($self->{$macro}), "\n\t(using MMK-specific deferred substitutuon; MMS will break)\n"; $macro = "\cB$macro\cB"; $complex = 1; } } else { ($macro = unixify($self->{$macro})) =~ s#/\Z(?!\n)##; } $npath = "$head$macro$tail"; } } if ($complex) { $npath =~ s#\cB(.*?)\cB#\${$1}#gs; } $npath; } =item fixpath my $path = $mm->fixpath($path); my $path = $mm->fixpath($path, $is_dir); Catchall routine to clean up problem MM[SK]/Make macros. Expands macros in any directory specification, in order to avoid juxtaposing two VMS-syntax directories when MM[SK] is run. Also expands expressions which are all macro, so that we can tell how long the expansion is, and avoid overrunning DCL's command buffer when MM[KS] is running. fixpath() checks to see whether the result matches the name of a directory in the current default directory and returns a directory or file specification accordingly. C<$is_dir> can be set to true to force fixpath() to consider the path to be a directory or false to force it to be a file. NOTE: This is the canonical version of the method. The version in File::Spec::VMS is deprecated. =cut sub fixpath { my($self,$path,$force_path) = @_; return '' unless $path; $self = bless {}, $self unless ref $self; my($fixedpath,$prefix,$name); if ($path =~ m#^\$\([^\)]+\)\Z(?!\n)#s || $path =~ m#[/:>\]]#) { if ($force_path or $path =~ /(?:DIR\)|\])\Z(?!\n)/) { $fixedpath = vmspath($self->eliminate_macros($path)); } else { $fixedpath = vmsify($self->eliminate_macros($path)); } } elsif ((($prefix,$name) = ($path =~ m#^\$\(([^\)]+)\)(.+)#s)) && $self->{$prefix}) { my($vmspre) = $self->eliminate_macros("\$($prefix)"); # is it a dir or just a name? $vmspre = ($vmspre =~ m|/| or $prefix =~ /DIR\Z(?!\n)/) ? vmspath($vmspre) : ''; $fixedpath = ($vmspre ? $vmspre : $self->{$prefix}) . $name; $fixedpath = vmspath($fixedpath) if $force_path; } else { $fixedpath = $path; $fixedpath = vmspath($fixedpath) if $force_path; } # No hints, so we try to guess if (!defined($force_path) and $fixedpath !~ /[:>(.\]]/) { $fixedpath = vmspath($fixedpath) if -d $fixedpath; } # Trim off root dirname if it's had other dirs inserted in front of it. $fixedpath =~ s/\.000000([\]>])/$1/; # Special case for VMS absolute directory specs: these will have had device # prepended during trip through Unix syntax in eliminate_macros(), since # Unix syntax has no way to express "absolute from the top of this device's # directory tree". if ($path =~ /^[\[>][^.\-]/) { $fixedpath =~ s/^[^\[<]+//; } return $fixedpath; } =item os_flavor VMS is VMS. =cut sub os_flavor { return('VMS'); } =item is_make_type (override) None of the make types being checked for is viable on VMS, plus our $self->{MAKE} is an unexpanded (and unexpandable) macro whose value is known only to the make utility itself. =cut sub is_make_type { my($self, $type) = @_; return 0; } =back =head1 AUTHOR Original author Charles Bailey F Maintained by Michael G Schwern F See L for patching and contact information. =cut 1;