package PPI::Token::Magic; =pod =head1 NAME PPI::Token::Magic - Tokens representing magic variables =head1 INHERITANCE PPI::Token::Magic isa PPI::Token::Symbol isa PPI::Token isa PPI::Element =head1 SYNOPSIS # When we say magic variables, we mean these... $1 $2 $3 $4 $5 $6 $7 $8 $9 $_ $& $` $' $+ @+ %+ $* $. $/ $| $\ $" $; $% $= $- @- %- $) $# $~ $^ $: $? $! %! $@ $$ $< $> $( $0 $[ $] @_ @* $} $, $#+ $#- $^L $^A $^E $^C $^D $^F $^H $^I $^M $^N $^O $^P $^R $^S $^T $^V $^W $^X %^H =head1 DESCRIPTION C is a sub-class of L which identifies the token as "magic variable", one of the strange and unusual variables that are connected to "things" behind the scenes. Some are extremely common, like C<$_>, and others you will quite probably never encounter in your Perl career. =head1 METHODS The class provides no additional methods, beyond those provided by L, L and L. =cut use strict; use PPI::Token::Symbol (); use PPI::Token::Unknown (); use PPI::Singletons qw' %MAGIC $CURLY_SYMBOL '; our $VERSION = '1.276'; our @ISA = "PPI::Token::Symbol"; sub __TOKENIZER__on_char { my $t = $_[1]; # $c is the candidate new content my $c = $t->{token}->{content} . substr( $t->{line}, $t->{line_cursor}, 1 ); # Do a quick first test so we don't have to do more than this one. # All of the tests below match this one, so it should provide a # small speed up. This regex should be updated to match the inside # tests if they are changed. if ( $c =~ /^ \$ .* [ \w : \$ \{ ] $/x ) { if ( $c =~ /^(\$(?:\_[\w:]|::))/ or $c =~ /^\$\'[\w]/ ) { # If and only if we have $'\d, it is not a # symbol. (this was apparently a conscious choice) # Note that $::0 on the other hand is legal if ( $c =~ /^\$\'\d$/ ) { # In this case, we have a magic plus a digit. # Save the CURRENT token, and rerun the on_char return $t->_finalize_token->__TOKENIZER__on_char( $t ); } # A symbol in the style $_foo or $::foo or $'foo. # Overwrite the current token $t->{class} = $t->{token}->set_class('Symbol'); return PPI::Token::Symbol->__TOKENIZER__on_char( $t ); } if ( $c =~ /^\$\$\w/ ) { # This is really a scalar dereference. ( $$foo ) # Add the current token as the cast... $t->{token} = PPI::Token::Cast->new( '$' ); $t->_finalize_token; # ... and create a new token for the symbol return $t->_new_token( 'Symbol', '$' ); } if ( $c eq '$${' ) { # This _might_ be a dereference of one of the # control-character symbols. pos $t->{line} = $t->{line_cursor} + 1; if ( $t->{line} =~ m/$CURLY_SYMBOL/gc ) { # This is really a dereference. ( $${^_foo} ) # Add the current token as the cast... $t->{token} = PPI::Token::Cast->new( '$' ); $t->_finalize_token; # ... and create a new token for the symbol return $t->_new_token( 'Magic', '$' ); } } if ( $c eq '$#$' or $c eq '$#{' ) { # This is really an index dereferencing cast, although # it has the same two chars as the magic variable $#. $t->{class} = $t->{token}->set_class('Cast'); return $t->_finalize_token->__TOKENIZER__on_char( $t ); } if ( $c =~ /^(\$\#)\w/ ) { # This is really an array index thingy ( $#array ) $t->{token} = PPI::Token::ArrayIndex->new( "$1" ); return PPI::Token::ArrayIndex->__TOKENIZER__on_char( $t ); } if ( $c =~ /^\$\^\w+$/o ) { # It's an escaped char magic... maybe ( like $^M ) my $next = substr( $t->{line}, $t->{line_cursor}+1, 1 ); # Peek ahead if ($MAGIC{$c} && (!$next || $next !~ /\w/)) { $t->{token}->{content} = $c; $t->{line_cursor}++; } else { # Maybe it's a long magic variable like $^WIDE_SYSTEM_CALLS return 1; } } if ( $c =~ /^\$\#\{/ ) { # The $# is actually a cast, and { is its block # Add the current token as the cast... $t->{token} = PPI::Token::Cast->new( '$#' ); $t->_finalize_token; # ... and create a new token for the block return $t->_new_token( 'Structure', '{' ); } } elsif ($c =~ /^%\^/) { return 1 if $c eq '%^'; # It's an escaped char magic... maybe ( like %^H ) if ($MAGIC{$c}) { $t->{token}->{content} = $c; $t->{line_cursor}++; } else { # Back off, treat '%' as an operator chop $t->{token}->{content}; bless $t->{token}, $t->{class} = 'PPI::Token::Operator'; $t->{line_cursor}--; } } if ( $MAGIC{$c} ) { # $#+ and $#- $t->{line_cursor} += length( $c ) - length( $t->{token}->{content} ); $t->{token}->{content} = $c; } else { pos $t->{line} = $t->{line_cursor}; if ( $t->{line} =~ m/($CURLY_SYMBOL)/gc ) { # control character symbol (e.g. ${^MATCH}) $t->{token}->{content} .= $1; $t->{line_cursor} += length $1; } elsif ( $c =~ /^\$\d+$/ and $t->{line} =~ /\G(\d+)/gc ) { # Grab trailing digits of regex capture variables. $t->{token}{content} .= $1; $t->{line_cursor} += length $1; } } # End the current magic token, and recheck $t->_finalize_token->__TOKENIZER__on_char( $t ); } # Our version of canonical is plain simple sub canonical { $_[0]->content } 1; =pod =head1 SUPPORT See the L in the main module. =head1 AUTHOR Adam Kennedy Eadamk@cpan.orgE =head1 COPYRIGHT Copyright 2001 - 2011 Adam Kennedy. This program is free software; you can redistribute it and/or modify it under the same terms as Perl itself. The full text of the license can be found in the LICENSE file included with this module. =cut