package PPI::Document; =pod =head1 NAME PPI::Document - Object representation of a Perl document =head1 INHERITANCE PPI::Document isa PPI::Node isa PPI::Element =head1 SYNOPSIS use PPI; # Load a document from a file my $Document = PPI::Document->new('My/Module.pm'); # Strip out comments $Document->prune('PPI::Token::Comment'); # Find all the named subroutines my $sub_nodes = $Document->find( sub { $_[1]->isa('PPI::Statement::Sub') and $_[1]->name } ); my @sub_names = map { $_->name } @$sub_nodes; # Save the file $Document->save('My/Module.pm.stripped'); =head1 DESCRIPTION The C class represents a single Perl "document". A C object acts as a root L, with some additional methods for loading and saving, and working with the line/column locations of Elements within a file. The exemption to its L-like behavior this is that a C object can NEVER have a parent node, and is always the root node in a tree. =head2 Storable Support C implements the necessary C and C hooks to provide native support for L, if you have it installed. However if you want to clone a Document, you are highly recommended to use the C<$Document-Eclone> method rather than Storable's C function (although C should still work). =head1 METHODS Most of the things you are likely to want to do with a Document are probably going to involve the methods from L class, of which this is a subclass. The methods listed here are the remaining few methods that are truly Document-specific. =cut use strict; use Carp (); use List::Util 1.33 (); use Params::Util qw{_SCALAR0 _ARRAY0 _INSTANCE}; use Digest::MD5 (); use PPI::Util (); use PPI (); use PPI::Node (); use overload 'bool' => \&PPI::Util::TRUE; use overload '""' => 'content'; use vars qw{$VERSION @ISA $errstr}; BEGIN { $VERSION = '1.236'; @ISA = 'PPI::Node'; $errstr = ''; } use PPI::Document::Fragment (); # Document cache my $CACHE; # Convenience constants related to constants use constant LOCATION_LINE => 0; use constant LOCATION_CHARACTER => 1; use constant LOCATION_COLUMN => 2; use constant LOCATION_LOGICAL_LINE => 3; use constant LOCATION_LOGICAL_FILE => 4; ##################################################################### # Constructor and Static Methods =pod =head2 new # Simple construction $doc = PPI::Document->new( $filename ); $doc = PPI::Document->new( \$source ); # With the readonly attribute set $doc = PPI::Document->new( $filename, readonly => 1, ); The C constructor takes as argument a variety of different sources of Perl code, and creates a single cohesive Perl C for it. If passed a file name as a normal string, it will attempt to load the document from the file. If passed a reference to a C, this is taken to be source code and parsed directly to create the document. If passed zero arguments, a "blank" document will be created that contains no content at all. In all cases, the document is considered to be "anonymous" and not tied back to where it was created from. Specifically, if you create a PPI::Document from a filename, the document will B remember where it was created from. The constructor also takes attribute flags. At this time, the only available attribute is the C flag. Setting C to true will allow various systems to provide additional optimisations and caching. Note that because C is an optimisation flag, it is off by default and you will need to explicitly enable it. Returns a C object, or C if parsing fails. L objects can also be thrown if there are parsing problems. =cut sub new { local $_; # An extra one, just in case my $class = ref $_[0] ? ref shift : shift; unless ( @_ ) { my $self = $class->SUPER::new; $self->{readonly} = ! 1; $self->{tab_width} = 1; return $self; } # Check constructor attributes my $source = shift; my %attr = @_; # Check the data source if ( ! defined $source ) { $class->_error("An undefined value was passed to PPI::Document::new"); } elsif ( ! ref $source ) { # Catch people using the old API if ( $source =~ /(?:\012|\015)/ ) { Carp::croak("API CHANGE: Source code should only be passed to PPI::Document->new as a SCALAR reference"); } # When loading from a filename, use the caching layer if it exists. if ( $CACHE ) { my $file_contents = PPI::Util::_slurp( $source ); # Errors returned as plain string return $class->_error($file_contents) if !ref $file_contents; # Retrieve the document from the cache my $document = $CACHE->get_document($file_contents); return $class->_setattr( $document, %attr ) if $document; $document = PPI::Lexer->lex_source( $$file_contents ); if ( $document ) { # Save in the cache $CACHE->store_document( $document ); return $class->_setattr( $document, %attr ); } } else { my $document = PPI::Lexer->lex_file( $source ); return $class->_setattr( $document, %attr ) if $document; } } elsif ( _SCALAR0($source) ) { my $document = PPI::Lexer->lex_source( $$source ); return $class->_setattr( $document, %attr ) if $document; } elsif ( _ARRAY0($source) ) { $source = join '', map { "$_\n" } @$source; my $document = PPI::Lexer->lex_source( $source ); return $class->_setattr( $document, %attr ) if $document; } else { $class->_error("Unknown object or reference was passed to PPI::Document::new"); } # Pull and store the error from the lexer my $errstr; if ( _INSTANCE($@, 'PPI::Exception') ) { $errstr = $@->message; } elsif ( $@ ) { $errstr = $@; $errstr =~ s/\sat line\s.+$//; } elsif ( PPI::Lexer->errstr ) { $errstr = PPI::Lexer->errstr; } else { $errstr = "Unknown error parsing Perl document"; } PPI::Lexer->_clear; $class->_error( $errstr ); } sub load { Carp::croak("API CHANGE: File names should now be passed to PPI::Document->new to load a file"); } sub _setattr { my ($class, $document, %attr) = @_; $document->{readonly} = !! $attr{readonly}; return $document; } =pod =head2 set_cache $cache As of L 1.100, C supports parser caching. The default cache class L provides a L-based caching or the parsed document based on the MD5 hash of the document as a string. The static C method is used to set the cache object for C to use when loading documents. It takes as argument a L object (or something that C the same). If passed C, this method will stop using the current cache, if any. For more information on caching, see L. Returns true on success, or C if not passed a valid param. =cut sub set_cache { my $class = ref $_[0] ? ref shift : shift; if ( defined $_[0] ) { # Enable the cache my $object = _INSTANCE(shift, 'PPI::Cache') or return undef; $CACHE = $object; } else { # Disable the cache $CACHE = undef; } 1; } =pod =head2 get_cache If a document cache is currently set, the C method will return it. Returns a L object, or C if there is no cache currently set for C. =cut sub get_cache { $CACHE; } ##################################################################### # PPI::Document Instance Methods =pod =head2 readonly The C attribute indicates if the document is intended to be read-only, and will never be modified. This is an advisory flag, that writers of L-related systems may or may not use to enable optimisations and caches for your document. Returns true if the document is read-only or false if not. =cut sub readonly { $_[0]->{readonly}; } =pod =head2 tab_width [ $width ] In order to handle support for C correctly, C need to understand the concept of tabs and tab width. The C method is used to get and set the size of the tab width. At the present time, PPI only supports "naive" (width 1) tabs, but we do plan on supporting arbitrary, default and auto-sensing tab widths later. Returns the tab width as an integer, or Cs if you attempt to set the tab width. =cut sub tab_width { my $self = shift; return $self->{tab_width} unless @_; $self->{tab_width} = shift; } =pod =head2 save $document->save( $file ) The C method serializes the C object and saves the resulting Perl document to a file. Returns C on failure to open or write to the file. =cut sub save { my $self = shift; local *FILE; open( FILE, '>', $_[0] ) or return undef; binmode FILE; print FILE $self->serialize or return undef; close FILE or return undef; return 1; } =pod =head2 serialize Unlike the C method, which shows only the immediate content within an element, Document objects also have to be able to be written out to a file again. When doing this we need to take into account some additional factors. Primarily, we need to handle here-docs correctly, so that are written to the file in the expected place. The C method generates the actual file content for a given Document object. The resulting string can be written straight to a file. Returns the serialized document as a string. =cut sub serialize { my $self = shift; my @tokens = $self->tokens; # The here-doc content buffer my $heredoc = ''; # Start the main loop my $output = ''; foreach my $i ( 0 .. $#tokens ) { my $Token = $tokens[$i]; # Handle normal tokens unless ( $Token->isa('PPI::Token::HereDoc') ) { my $content = $Token->content; # Handle the trivial cases unless ( $heredoc ne '' and $content =~ /\n/ ) { $output .= $content; next; } # We have pending here-doc content that needs to be # inserted just after the first newline in the content. if ( $content eq "\n" ) { # Shortcut the most common case for speed $output .= $content . $heredoc; } else { # Slower and more general version $content =~ s/\n/\n$heredoc/; $output .= $content; } $heredoc = ''; next; } # This token is a HereDoc. # First, add the token content as normal, which in this # case will definitely not contain a newline. $output .= $Token->content; # Now add all of the here-doc content to the heredoc buffer. foreach my $line ( $Token->heredoc ) { $heredoc .= $line; } if ( $Token->{_damaged} ) { # Special Case: # There are a couple of warning/bug situations # that can occur when a HereDoc content was read in # from the end of a file that we silently allow. # # When writing back out to the file we have to # auto-repair these problems if we aren't going back # on to the end of the file. # When calculating $last_line, ignore the final token if # and only if it has a single newline at the end. my $last_index = $#tokens; if ( $tokens[$last_index]->{content} =~ /^[^\n]*\n$/ ) { $last_index--; } # This is a two part test. # First, are we on the last line of the # content part of the file my $last_line = List::Util::none { $tokens[$_] and $tokens[$_]->{content} =~ /\n/ } (($i + 1) .. $last_index); if ( ! defined $last_line ) { # Handles the null list case $last_line = 1; } # Secondly, are their any more here-docs after us, # (with content or a terminator) my $any_after = List::Util::any { $tokens[$_]->isa('PPI::Token::HereDoc') and ( scalar(@{$tokens[$_]->{_heredoc}}) or defined $tokens[$_]->{_terminator_line} ) } (($i + 1) .. $#tokens); if ( ! defined $any_after ) { # Handles the null list case $any_after = ''; } # We don't need to repair the last here-doc on the # last line. But we do need to repair anything else. unless ( $last_line and ! $any_after ) { # Add a terminating string if it didn't have one unless ( defined $Token->{_terminator_line} ) { $Token->{_terminator_line} = $Token->{_terminator}; } # Add a trailing newline to the terminating # string if it didn't have one. unless ( $Token->{_terminator_line} =~ /\n$/ ) { $Token->{_terminator_line} .= "\n"; } } } # Now add the termination line to the heredoc buffer if ( defined $Token->{_terminator_line} ) { $heredoc .= $Token->{_terminator_line}; } } # End of tokens if ( $heredoc ne '' ) { # If the file doesn't end in a newline, we need to add one # so that the here-doc content starts on the next line. unless ( $output =~ /\n$/ ) { $output .= "\n"; } # Now we add the remaining here-doc content # to the end of the file. $output .= $heredoc; } $output; } =pod =head2 hex_id The C method generates an unique identifier for the Perl document. This identifier is basically just the serialized document, with Unix-specific newlines, passed through MD5 to produce a hexadecimal string. This identifier is used by a variety of systems (such as L and L) as a unique key against which to store or cache information about a document (or indeed, to cache the document itself). Returns a 32 character hexadecimal string. =cut sub hex_id { PPI::Util::md5hex($_[0]->serialize); } =pod =head2 index_locations Within a document, all L objects can be considered to have a "location", a line/column position within the document when considered as a file. This position is primarily useful for debugging type activities. The method for finding the position of a single Element is a bit laborious, and very slow if you need to do it a lot. So the C method will index and save the locations of every Element within the Document in advance, making future calls to virtually free. Please note that this index should always be cleared using C once you are finished with the locations. If content is added to or removed from the file, these indexed locations will be B. =cut sub index_locations { my $self = shift; my @tokens = $self->tokens; # Whenever we hit a heredoc we will need to increment by # the number of lines in it's content section when we # encounter the next token with a newline in it. my $heredoc = 0; # Find the first Token without a location my ($first, $location) = (); foreach ( 0 .. $#tokens ) { my $Token = $tokens[$_]; next if $Token->{_location}; # Found the first Token without a location # Calculate the new location if needed. if ($_) { $location = $self->_add_location( $location, $tokens[$_ - 1], \$heredoc ); } else { my $logical_file = $self->can('filename') ? $self->filename : undef; $location = [ 1, 1, 1, 1, $logical_file ]; } $first = $_; last; } # Calculate locations for the rest if ( defined $first ) { foreach ( $first .. $#tokens ) { my $Token = $tokens[$_]; $Token->{_location} = $location; $location = $self->_add_location( $location, $Token, \$heredoc ); # Add any here-doc lines to the counter if ( $Token->isa('PPI::Token::HereDoc') ) { $heredoc += $Token->heredoc + 1; } } } 1; } sub _add_location { my ($self, $start, $Token, $heredoc) = @_; my $content = $Token->{content}; # Does the content contain any newlines my $newlines =()= $content =~ /\n/g; my ($logical_line, $logical_file) = $self->_logical_line_and_file($start, $Token, $newlines); unless ( $newlines ) { # Handle the simple case return [ $start->[LOCATION_LINE], $start->[LOCATION_CHARACTER] + length($content), $start->[LOCATION_COLUMN] + $self->_visual_length( $content, $start->[LOCATION_COLUMN] ), $logical_line, $logical_file, ]; } # This is the more complex case where we hit or # span a newline boundary. my $physical_line = $start->[LOCATION_LINE] + $newlines; my $location = [ $physical_line, 1, 1, $logical_line, $logical_file ]; if ( $heredoc and $$heredoc ) { $location->[LOCATION_LINE] += $$heredoc; $location->[LOCATION_LOGICAL_LINE] += $$heredoc; $$heredoc = 0; } # Does the token have additional characters # after their last newline. if ( $content =~ /\n([^\n]+?)\z/ ) { $location->[LOCATION_CHARACTER] += length($1); $location->[LOCATION_COLUMN] += $self->_visual_length( $1, $location->[LOCATION_COLUMN], ); } $location; } sub _logical_line_and_file { my ($self, $start, $Token, $newlines) = @_; # Regex taken from perlsyn, with the correction that there's no space # required between the line number and the file name. if ($start->[LOCATION_CHARACTER] == 1) { if ( $Token->isa('PPI::Token::Comment') ) { if ( $Token->content =~ m< \A \# \s* line \s+ (\d+) \s* (?: (\"?) ([^\"]* [^\s\"]) \2 )? \s* \z >xms ) { return $1, ($3 || $start->[LOCATION_LOGICAL_FILE]); } } elsif ( $Token->isa('PPI::Token::Pod') ) { my $content = $Token->content; my $line; my $file = $start->[LOCATION_LOGICAL_FILE]; my $end_of_directive; while ( $content =~ m< ^ \# \s*? line \s+? (\d+) (?: (?! \n) \s)* (?: (\"?) ([^\"]*? [^\s\"]) \2 )?? \s*? $ >xmsg ) { ($line, $file) = ($1, ( $3 || $file ) ); $end_of_directive = pos $content; } if (defined $line) { pos $content = $end_of_directive; my $post_directive_newlines =()= $content =~ m< \G [^\n]* \n >xmsg; return $line + $post_directive_newlines - 1, $file; } } } return $start->[LOCATION_LOGICAL_LINE] + $newlines, $start->[LOCATION_LOGICAL_FILE]; } sub _visual_length { my ($self, $content, $pos) = @_; my $tab_width = $self->tab_width; my ($length, $vis_inc); return length $content if $content !~ /\t/; # Split the content in tab and non-tab parts and calculate the # "visual increase" of each part. for my $part ( split(/(\t)/, $content) ) { if ($part eq "\t") { $vis_inc = $tab_width - ($pos-1) % $tab_width; } else { $vis_inc = length $part; } $length += $vis_inc; $pos += $vis_inc; } $length; } =pod =head2 flush_locations When no longer needed, the C method clears all location data from the tokens. =cut sub flush_locations { shift->_flush_locations(@_); } =pod =head2 normalized The C method is used to generate a "Layer 1" L object for the current Document. A "normalized" Perl Document is an arbitrary structure that removes any irrelevant parts of the document and refactors out variations in style, to attempt to approach something that is closer to the "true meaning" of the Document. See L for more information on document normalization and the tasks for which it is useful. Returns a L object, or C on error. =cut sub normalized { # The normalization process will utterly destroy and mangle # anything passed to it, so we are going to only give it a # clone of ourselves. PPI::Normal->process( $_[0]->clone ); } =pod =head1 complete The C method is used to determine if a document is cleanly structured, all braces are closed, the final statement is fully terminated and all heredocs are fully entered. Returns true if the document is complete or false if not. =cut sub complete { my $self = shift; # Every structure has to be complete $self->find_any( sub { $_[1]->isa('PPI::Structure') and ! $_[1]->complete } ) and return ''; # Strip anything that isn't a statement off the end my @child = $self->children; while ( @child and not $child[-1]->isa('PPI::Statement') ) { pop @child; } # We must have at least one statement return '' unless @child; # Check the completeness of the last statement return $child[-1]->_complete; } ##################################################################### # PPI::Node Methods # We are a scope boundary ### XS -> PPI/XS.xs:_PPI_Document__scope 0.903+ sub scope() { 1 } ##################################################################### # PPI::Element Methods sub insert_before { return undef; # die "Cannot insert_before a PPI::Document"; } sub insert_after { return undef; # die "Cannot insert_after a PPI::Document"; } sub replace { return undef; # die "Cannot replace a PPI::Document"; } ##################################################################### # Error Handling # Set the error message sub _error { $errstr = $_[1]; undef; } # Clear the error message. # Returns the object as a convenience. sub _clear { $errstr = ''; $_[0]; } =pod =head2 errstr For error that occur when loading and saving documents, you can use C, as either a static or object method, to access the error message. If a Document loads or saves without error, C will return false. =cut sub errstr { $errstr; } ##################################################################### # Native Storable Support sub STORABLE_freeze { my $self = shift; my $class = ref $self; my %hash = %$self; return ($class, \%hash); } sub STORABLE_thaw { my ($self, undef, $class, $hash) = @_; bless $self, $class; foreach ( keys %$hash ) { $self->{$_} = delete $hash->{$_}; } $self->__link_children; } 1; =pod =head1 TO DO - May need to overload some methods to forcefully prevent Document objects becoming children of another Node. =head1 SUPPORT See the L in the main module. =head1 AUTHOR Adam Kennedy Eadamk@cpan.orgE =head1 SEE ALSO L, L =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