AlkantarClanX12
Current Path : /proc/thread-self/root/usr/share/perl5/vendor_perl/ExtUtils/CBuilder/Platform/Windows/ |
Current File : //proc/thread-self/root/usr/share/perl5/vendor_perl/ExtUtils/CBuilder/Platform/Windows/BCC.pm |
package ExtUtils::CBuilder::Platform::Windows::BCC; our $VERSION = '0.280230'; # VERSION use strict; use warnings; sub format_compiler_cmd { my ($self, %spec) = @_; foreach my $path ( @{ $spec{includes} || [] }, @{ $spec{perlinc} || [] } ) { $path = '-I' . $path; } %spec = $self->write_compiler_script(%spec) if $spec{use_scripts}; return [ grep {defined && length} ( $spec{cc}, '-c' , @{$spec{includes}} , @{$spec{cflags}} , @{$spec{optimize}} , @{$spec{defines}} , @{$spec{perlinc}} , "-o$spec{output}" , $spec{source} , ) ]; } sub write_compiler_script { my ($self, %spec) = @_; my $script = File::Spec->catfile( $spec{srcdir}, $spec{basename} . '.ccs' ); $self->add_to_cleanup($script); print "Generating script '$script'\n" if !$self->{quiet}; my $SCRIPT = IO::File->new( ">$script" ) or die( "Could not create script '$script': $!" ); # XXX Borland "response files" seem to be unable to accept macro # definitions containing quoted strings. Escaping strings with # backslash doesn't work, and any level of quotes are stripped. The # result is a floating point number in the source file where a # string is expected. So we leave the macros on the command line. print $SCRIPT join( "\n", map { ref $_ ? @{$_} : $_ } grep defined, delete( @spec{ qw(includes cflags optimize perlinc) } ) ); push @{$spec{includes}}, '@"' . $script . '"'; return %spec; } sub format_linker_cmd { my ($self, %spec) = @_; foreach my $path ( @{$spec{libpath}} ) { $path = "-L$path"; } push( @{$spec{startup}}, 'c0d32.obj' ) unless ( $spec{startup} && @{$spec{startup}} ); %spec = $self->write_linker_script(%spec) if $spec{use_scripts}; return [ grep {defined && length} ( $spec{ld} , @{$spec{lddlflags}} , @{$spec{libpath}} , @{$spec{other_ldflags}} , @{$spec{startup}} , @{$spec{objects}} , ',', $spec{output} , ',', $spec{map_file} , ',', $spec{libperl} , @{$spec{perllibs}} , ',', $spec{def_file} ) ]; } sub write_linker_script { my ($self, %spec) = @_; # To work around Borlands "unique" commandline syntax, # two scripts are used: my $ld_script = File::Spec->catfile( $spec{srcdir}, $spec{basename} . '.lds' ); my $ld_libs = File::Spec->catfile( $spec{srcdir}, $spec{basename} . '.lbs' ); $self->add_to_cleanup($ld_script, $ld_libs); print "Generating scripts '$ld_script' and '$ld_libs'.\n" if !$self->{quiet}; # Script 1: contains options & names of object files. my $LD_SCRIPT = IO::File->new( ">$ld_script" ) or die( "Could not create linker script '$ld_script': $!" ); print $LD_SCRIPT join( " +\n", map { @{$_} } grep defined, delete( @spec{ qw(lddlflags libpath other_ldflags startup objects) } ) ); # Script 2: contains name of libs to link against. my $LD_LIBS = IO::File->new( ">$ld_libs" ) or die( "Could not create linker script '$ld_libs': $!" ); print $LD_LIBS join( " +\n", (delete $spec{libperl} || ''), @{delete $spec{perllibs} || []}, ); push @{$spec{lddlflags}}, '@"' . $ld_script . '"'; push @{$spec{perllibs}}, '@"' . $ld_libs . '"'; return %spec; } 1;