package ExtUtils::Typemaps::OutputMap; use 5.006001; use strict; use warnings; our $VERSION = '3.34'; =head1 NAME ExtUtils::Typemaps::OutputMap - Entry in the OUTPUT section of a typemap =head1 SYNOPSIS use ExtUtils::Typemaps; ... my $output = $typemap->get_output_map('T_NV'); my $code = $output->code(); $output->code("..."); =head1 DESCRIPTION Refer to L for details. =head1 METHODS =cut =head2 new Requires C and C parameters. =cut sub new { my $prot = shift; my $class = ref($prot)||$prot; my %args = @_; if (!ref($prot)) { if (not defined $args{xstype} or not defined $args{code}) { die("Need xstype and code parameters"); } } my $self = bless( (ref($prot) ? {%$prot} : {}) => $class ); $self->{xstype} = $args{xstype} if defined $args{xstype}; $self->{code} = $args{code} if defined $args{code}; $self->{code} =~ s/^(?=\S)/\t/mg; return $self; } =head2 code Returns or sets the OUTPUT mapping code for this entry. =cut sub code { $_[0]->{code} = $_[1] if @_ > 1; return $_[0]->{code}; } =head2 xstype Returns the name of the XS type of the OUTPUT map. =cut sub xstype { return $_[0]->{xstype}; } =head2 cleaned_code Returns a cleaned-up copy of the code to which certain transformations have been applied to make it more ANSI compliant. =cut sub cleaned_code { my $self = shift; my $code = $self->code; # Move C pre-processor instructions to column 1 to be strictly ANSI # conformant. Some pre-processors are fussy about this. $code =~ s/^\s+#/#/mg; $code =~ s/\s*\z/\n/; return $code; } =head2 targetable This is an obscure but effective optimization that used to live in C directly. Not implementing it should never result in incorrect use of typemaps, just less efficient code. In a nutshell, this will check whether the output code involves calling C, C, C, C or C to set the special C<$arg> placeholder to a new value B. If that is the case, the code is eligible for using the C-related macros to optimize this. Thus the name of the method: C. If this optimization is applicable, C will emit a C definition at the start of the generated XSUB code, and type (see below) dependent code to set C and push it on the stack at the end of the generated XSUB code. If the optimization can not be applied, this returns undef. If it can be applied, this method returns a hash reference containing the following information: type: Any of the characters i, u, n, p with_size: Bool indicating whether this is the sv_setpvn variant what: The code that actually evaluates to the output scalar what_size: If "with_size", this has the string length (as code, not constant, including leading comma) =cut sub targetable { my $self = shift; return $self->{targetable} if exists $self->{targetable}; our $bal; # ()-balanced $bal = qr[ (?: (?>[^()]+) | \( (??{ $bal }) \) )* ]x; my $bal_no_comma = qr[ (?: (?>[^(),]+) | \( (??{ $bal }) \) )+ ]x; # matches variations on (SV*) my $sv_cast = qr[ (?: \( \s* SV \s* \* \s* \) \s* )? ]x; my $size = qr[ # Third arg (to setpvn) , \s* (??{ $bal }) ]xo; my $code = $self->code; # We can still bootstrap compile 're', because in code re.pm is # available to miniperl, and does not attempt to load the XS code. use re 'eval'; my ($type, $with_size, $arg, $sarg) = ($code =~ m[^ \s+ sv_set([iunp])v(n)? # Type, is_setpvn \s* \( \s* $sv_cast \$arg \s* , \s* ( $bal_no_comma ) # Set from ( $size )? # Possible sizeof set-from \s* \) \s* ; \s* $ ]xo ); my $rv = undef; if ($type) { $rv = { type => $type, with_size => $with_size, what => $arg, what_size => $sarg, }; } $self->{targetable} = $rv; return $rv; } =head1 SEE ALSO L =head1 AUTHOR Steffen Mueller C<> =head1 COPYRIGHT & LICENSE Copyright 2009, 2010, 2011, 2012 Steffen Mueller This program is free software; you can redistribute it and/or modify it under the same terms as Perl itself. =cut 1;