package PPI::Token::Whitespace; =pod =head1 NAME PPI::Token::Whitespace - Tokens representing ordinary white space =head1 INHERITANCE PPI::Token::Whitespace isa PPI::Token isa PPI::Element =head1 DESCRIPTION As a full "round-trip" parser, PPI records every last byte in a file and ensure that it is included in the L object. This even includes whitespace. In fact, Perl documents are seen as "floating in a sea of whitespace", and thus any document will contain vast quantities of C objects. For the most part, you shouldn't notice them. Or at least, you shouldn't B to notice them. This means doing things like consistently using the "S for significant" series of L and L methods to do things. If you want the nth child element, you should be using C rather than C, and likewise C, C, and so on and so forth. =head1 METHODS Again, for the most part you should really B need to do anything very significant with whitespace. But there are a couple of convenience methods provided, beyond those provided by the parent L and L classes. =cut use strict; use Clone (); use PPI::Token (); our $VERSION = '1.278'; our @ISA = "PPI::Token"; =pod =head2 null Because L sees documents as sitting on a sort of substrate made of whitespace, there are a couple of corner cases that get particularly nasty if they don't find whitespace in certain places. Imagine walking down the beach to go into the ocean, and then quite unexpectedly falling off the side of the planet. Well it's somewhat equivalent to that, including the whole screaming death bit. The C method is a convenience provided to get some internals out of some of these corner cases. Specifically it create a whitespace token that represents nothing, or at least the null string C<''>. It's a handy way to have some "whitespace" right where you need it, without having to have any actual characters. =cut my $null; sub null { $null ||= $_[0]->new(''); Clone::clone($null); } ### XS -> PPI/XS.xs:_PPI_Token_Whitespace__significant 0.900+ sub significant() { '' } =pod =head2 tidy C is a convenience method for removing unneeded whitespace. Specifically, it removes any whitespace from the end of a line. Note that this B include POD, where you may well need to keep certain types of whitespace. The entire POD chunk lives in its own L object. =cut sub tidy { $_[0]->{content} =~ s/^\s+?(?>\n)//; 1; } ##################################################################### # Parsing Methods # Build the class and commit maps my %COMMITMAP = ( map( { ord $_ => 'PPI::Token::Word' } 'a' .. 'u', 'A' .. 'Z', qw" w y z _ " ), # no v or x map( { ord $_ => 'PPI::Token::Structure' } qw" ; [ ] { } ) " ), ord '#' => 'PPI::Token::Comment', ord 'v' => 'PPI::Token::Number::Version', ); my %CLASSMAP = ( map( { ord $_ => 'Number' } 0 .. 9 ), map( { ord $_ => 'Operator' } qw" = ? | + > . ! ~ ^ " ), map( { ord $_ => 'Unknown' } qw" * $ @ & : % " ), ord ',' => 'PPI::Token::Operator', ord "'" => 'Quote::Single', ord '"' => 'Quote::Double', ord '`' => 'QuoteLike::Backtick', ord '\\' => 'Cast', ord '_' => 'Word', 9 => 'Whitespace', # A horizontal tab 10 => 'Whitespace', # A newline 12 => 'Whitespace', # A form feed 13 => 'Whitespace', # A carriage return 32 => 'Whitespace', # A normal space ); # Words (functions and keywords) after which a following / is # almost certainly going to be a regex my %MATCHWORD = map { $_ => 1 } qw{ return split if unless grep map }; sub __TOKENIZER__on_line_start { my $t = $_[1]; my $line = $t->{line}; # Can we classify the entire line in one go if ( $line =~ /^\s*$/ ) { # A whitespace line $t->_new_token( 'Whitespace', $line ); return 0; } elsif ( $line =~ /^\s*#/ ) { # A comment line $t->_new_token( 'Comment', $line ); $t->_finalize_token; return 0; } elsif ( $line =~ /^=(\w+)/ ) { # A Pod tag... change to pod mode $t->_new_token( 'Pod', $line ); if ( $1 eq 'cut' ) { # This is an error, but one we'll ignore # Don't go into Pod mode, since =cut normally # signals the end of Pod mode } else { $t->{class} = 'PPI::Token::Pod'; } return 0; } elsif ( $line =~ /^use v6\-alpha\;/ ) { # Indicates a Perl 6 block. Make the initial # implementation just suck in the entire rest of the # file. my @perl6; while ( 1 ) { my $line6 = $t->_get_line; last unless defined $line6; push @perl6, $line6; } push @{ $t->{perl6} }, join '', @perl6; # We only sucked in the block, we don't actually do # anything to the "use v6..." line. So return as if # we didn't find anything at all. return 1; } 1; } sub __TOKENIZER__on_char { my $t = $_[1]; my $c = substr $t->{line}, $t->{line_cursor}, 1; my $char = ord $c; # Do we definitely know what something is? return $COMMITMAP{$char}->__TOKENIZER__commit($t) if $COMMITMAP{$char}; # Handle the simple option first return $CLASSMAP{$char} if $CLASSMAP{$char}; if ( $char == 40 ) { # $char eq '(' # Finalise any whitespace token... $t->_finalize_token if $t->{token}; # Is this the beginning of a sub prototype? # We are a sub prototype IF # 1. The previous significant token is a bareword. # 2. The one before that is the word 'sub'. # 3. The one before that is a 'structure' # Get the three previous significant tokens my @tokens = $t->_previous_significant_tokens(3); # A normal subroutine declaration my $p1 = $tokens[1]; my $p2 = $tokens[2]; if ( $tokens[0] and $tokens[0]->isa('PPI::Token::Word') and $p1 and $p1->isa('PPI::Token::Word') and $p1->content eq 'sub' and ( not $p2 or $p2->isa('PPI::Token::Structure') or ( $p2->isa('PPI::Token::Whitespace') and $p2->content eq '' ) or ( # Lexical subroutine $p2->isa('PPI::Token::Word') and $p2->content =~ /^(?:my|our|state)$/ ) ) ) { # This is a sub prototype return 'Prototype'; } # A prototyped anonymous subroutine my $p0 = $tokens[0]; if ( $p0 and $p0->isa('PPI::Token::Word') and $p0->content eq 'sub' # Maybe it's invoking a method named 'sub' and not ( $p1 and $p1->isa('PPI::Token::Operator') and $p1->content eq '->') ) { return 'Prototype'; } # This is a normal open bracket return 'Structure'; } elsif ( $char == 60 ) { # $char eq '<' # Finalise any whitespace token... $t->_finalize_token if $t->{token}; # This is either "less than" or "readline quote-like" # Do some context stuff to guess which. my $prev = $t->_last_significant_token; # The most common group of less-thans are used like # $foo < $bar # 1 < $bar # $#foo < $bar return 'Operator' if $prev and $prev->isa('PPI::Token::Symbol'); return 'Operator' if $prev and $prev->isa('PPI::Token::Magic'); return 'Operator' if $prev and $prev->isa('PPI::Token::Number'); return 'Operator' if $prev and $prev->isa('PPI::Token::ArrayIndex'); # If it is <<... it's a here-doc instead my $next_char = substr( $t->{line}, $t->{line_cursor} + 1, 2 ); return 'Operator' if $next_char =~ /<[^>]/; return 'Operator' if not $prev; # The most common group of readlines are used like # while ( <...> ) # while <>; my $prec = $prev->content; return 'QuoteLike::Readline' if ( $prev->isa('PPI::Token::Structure') and $prec eq '(' ) or ( $prev->isa('PPI::Token::Structure') and $prec eq ';' ) or ( $prev->isa('PPI::Token::Word') and $prec eq 'while' ) or ( $prev->isa('PPI::Token::Operator') and $prec eq '=' ) or ( $prev->isa('PPI::Token::Operator') and $prec eq ',' ); if ( $prev->isa('PPI::Token::Structure') and $prec eq '}' ) { # Could go either way... do a regex check # $foo->{bar} < 2; # grep { .. } ; pos $t->{line} = $t->{line_cursor}; if ( $t->{line} =~ m/\G<(?!\d)\w+>/gc ) { # Almost definitely readline return 'QuoteLike::Readline'; } } # Otherwise, we guess operator, which has been the default up # until this more comprehensive section was created. return 'Operator'; } elsif ( $char == 47 ) { # $char eq '/' # Finalise any whitespace token... $t->_finalize_token if $t->{token}; # This is either a "divided by" or a "start regex" # Do some context stuff to guess ( ack ) which. # Hopefully the guess will be good enough. my $prev = $t->_last_significant_token; # Or as the very first thing in a file return 'Regexp::Match' if not $prev; my $prec = $prev->content; # Most times following an operator, we are a regex. # This includes cases such as: # , - As an argument in a list # .. - The second condition in a flip flop # =~ - A bound regex # !~ - Ditto return 'Regexp::Match' if $prev->isa('PPI::Token::Operator'); # After a symbol return 'Operator' if $prev->isa('PPI::Token::Symbol'); if ( $prec eq ']' and $prev->isa('PPI::Token::Structure') ) { return 'Operator'; } # After another number return 'Operator' if $prev->isa('PPI::Token::Number'); # After going into scope/brackets if ( $prev->isa('PPI::Token::Structure') and ( $prec eq '(' or $prec eq '{' or $prec eq ';' ) ) { return 'Regexp::Match'; } # Functions and keywords if ( $MATCHWORD{$prec} and $prev->isa('PPI::Token::Word') ) { return 'Regexp::Match'; } # What about the char after the slash? There's some things # that would be highly illogical to see if it's an operator. my $next_char = substr $t->{line}, $t->{line_cursor} + 1, 1; if ( defined $next_char and length $next_char ) { if ( $next_char =~ /(?:\^|\[|\\)/ ) { return 'Regexp::Match'; } } # Otherwise... erm... assume operator? # Add more tests here as potential cases come to light return 'Operator'; } elsif ( $char == 120 ) { # $char eq 'x' # Could be a word, the x= operator, the x operator # followed by whitespace, or the x operator without any # space between itself and its operand, e.g.: '$a x3', # which is the same as '$a x 3'. _current_x_is_operator # assumes we have a complete 'x' token, but we don't # yet. We may need to split this x character apart from # what follows it. if ( $t->_current_x_is_operator ) { pos $t->{line} = $t->{line_cursor} + 1; return 'Operator' if $t->{line} =~ m/\G(?: \d # x op with no whitespace e.g. 'x3' | (?!( # negative lookahead => # not on left of fat comma | \w # not a word like "xyzzy" | \s # not x op plus whitespace )) )/gcx; } # Otherwise, commit like a normal bareword, including x # operator followed by whitespace. return PPI::Token::Word->__TOKENIZER__commit($t); } elsif ( $char == 45 ) { # $char eq '-' # Look for an obvious operator operand context my $context = $t->_opcontext; if ( $context eq 'operator' ) { return 'Operator'; } else { # More logic needed return 'Unknown'; } } elsif ( $char >= 128 ) { # Outside ASCII return 'PPI::Token::Word'->__TOKENIZER__commit($t) if $c =~ /\w/; return 'Whitespace' if $c =~ /\s/; } # All the whitespaces are covered, so what to do ### For now, die PPI::Exception->throw("Encountered unexpected character '$char'"); } sub __TOKENIZER__on_line_end { $_[1]->_finalize_token if $_[1]->{token}; } 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