=head1 NAME PPIx::Regexp::Token::Code - Represent a chunk of Perl embedded in a regular expression. =head1 SYNOPSIS use PPIx::Regexp::Dumper; PPIx::Regexp::Dumper->new( 'qr{(?{print "hello sailor\n"})}smx')->print; =head1 INHERITANCE C is a L. C is the parent of L. =head1 DESCRIPTION This class represents a chunk of Perl code embedded in a regular expression. Specifically, it results from parsing things like (?{ code }) (??{ code }) or from the replacement side of an s///e. Technically, interpolations are also code, but they parse differently and therefore end up in a different token. This token may not appear inside a regex set (i.e. C<(?[ ... ])>. If found, it will become a C. =head1 METHODS This class provides the following public methods. Methods not documented here are private, and unsupported in the sense that the author reserves the right to change or remove them without notice. =cut package PPIx::Regexp::Token::Code; use strict; use warnings; use base qw{ PPIx::Regexp::Token }; use PPI::Document; use PPIx::Regexp::Constant qw{ COOKIE_REGEX_SET LOCATION_COLUMN LOCATION_LOGICAL_LINE LOCATION_LOGICAL_FILE @CARP_NOT }; use PPIx::Regexp::Util qw{ __instance }; our $VERSION = '0.088'; use constant TOKENIZER_ARGUMENT_REQUIRED => 1; use constant VERSION_WHEN_IN_REGEX_SET => undef; sub __new { my ( $class, $content, %arg ) = @_; defined $arg{perl_version_introduced} or $arg{perl_version_introduced} = '5.005'; my $self = $class->SUPER::__new( $content, %arg ); # TODO sort this out, since Token::Interpolation is a subclass, and # those are legal in regex sets if ( $arg{tokenizer}->cookie( COOKIE_REGEX_SET ) ) { my $ver = $self->VERSION_WHEN_IN_REGEX_SET() or return $self->__error( 'Code token not valid in Regex set' ); $self->{perl_version_introduced} < $ver and $self->{perl_version_introduced} = $ver; } $arg{tokenizer}->__recognize_postderef( $self ) and $self->{perl_version_introduced} < 5.019005 and $self->{perl_version_introduced} = '5.019005'; return $self; } sub content { my ( $self ) = @_; if ( exists $self->{content} ) { return $self->{content}; } elsif ( exists $self->{ppi} ) { return ( $self->{content} = $self->{ppi}->content() ); } else { return; } } sub explain { return 'Perl expression'; } =head2 is_matcher This method returns C because a static analysis can not in general tell whether an interpolated value matches anything. =cut sub is_matcher { return undef; } ## no critic (ProhibitExplicitReturnUndef) =head2 ppi This convenience method returns the L representing the content. This document should be considered read only. B that if the location of the invocant is available the PPI document will have stuff prefixed to it to make the location of the tokens in the new document consistent with the location. This "stuff" will include at least a C<#line> directive, and maybe leading white space. =cut sub ppi { my ( $self ) = @_; if ( exists $self->{ppi} ) { return $self->{ppi}; } elsif ( exists $self->{content} ) { my $content; my $location = $self->{location}; if ( $location ) { my $fn; if( defined( $fn = $location->[LOCATION_LOGICAL_FILE] ) ) { $fn =~ s/ (?= [\\"] ) /\\/smxg; $content = qq{#line $location->[LOCATION_LOGICAL_LINE] "$fn"\n}; } else { $content = qq{#line $location->[LOCATION_LOGICAL_LINE]\n}; } $content .= ' ' x ( $location->[LOCATION_COLUMN] - 1 ); } $content .= $self->__ppi_normalize_content(); $self->{ppi} = PPI::Document->new( \$content ); if ( $location ) { # Generate locations now. $self->{ppi}->location(); # Remove the stuff we originally injected. NOTE that we can # only get away with doing this if the removal does not # invalidate the locations of the other tokens that we just # generated. my $elem; # Remove the '#line' directive if we find it $elem = $self->{ppi}->child( 0 ) and $elem->isa( 'PPI::Token::Comment' ) and $elem->content() =~ m/ \A \#line\b /smx and $elem->remove(); # Remove the white space if we find it, and if it in fact # represents only the white space we injected to get the # column numbers right. my $wid = $location->[LOCATION_COLUMN] - 1; $wid and $elem = $self->{ppi}->child( 0 ) and $elem->isa( 'PPI::Token::Whitespace' ) and $wid == length $elem->content() and $elem->remove(); } return $self->{ppi}; } else { return; } } sub width { return ( undef, undef ); } sub __ppi_normalize_content { my ( $self ) = @_; return $self->{content}; } # Return true if the token can be quantified, and false otherwise # sub can_be_quantified { return }; { no warnings qw{ qw }; ## no critic (ProhibitNoWarnings) my %accept = map { $_ => 1 } qw{ $ $# @ % & * }; # Say what casts are accepted, since not all are in an # interpolation. sub __postderef_accept_cast { return \%accept; } } sub __PPIX_TOKENIZER__regexp { my ( undef, $tokenizer, $character ) = @_; $character eq '{' or return; my $offset = $tokenizer->find_matching_delimiter() or return; return $offset + 1; # to include the closing delimiter. } 1; __END__ =head1 SUPPORT Support is by the author. Please file bug reports at L, L, or in electronic mail to the author. =head1 AUTHOR Thomas R. Wyant, III F =head1 COPYRIGHT AND LICENSE Copyright (C) 2009-2023 by Thomas R. Wyant, III This program is free software; you can redistribute it and/or modify it under the same terms as Perl 5.10.0. For more details, see the full text of the licenses in the directory LICENSES. 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. =cut # ex: set textwidth=72 :