package PPI::Element; =pod =head1 NAME PPI::Element - The abstract Element class, a base for all source objects =head1 INHERITANCE PPI::Element is the root of the PDOM tree =head1 DESCRIPTION The abstract C serves as a base class for all source-related objects, from a single whitespace token to an entire document. It provides a basic set of methods to provide a common interface and basic implementations. =head1 METHODS =cut use strict; use Clone 0.30 (); use Scalar::Util qw{refaddr}; use Params::Util qw{_INSTANCE _ARRAY}; use PPI::Util (); use PPI::Node (); use PPI::Singletons '%_PARENT', '%_POSITION_CACHE'; our $VERSION = '1.279'; our $errstr = ""; use overload 'bool' => \&PPI::Util::TRUE; use overload '""' => 'content'; use overload '==' => '__equals'; use overload '!=' => '__nequals'; use overload 'eq' => '__eq'; use overload 'ne' => '__ne'; ##################################################################### # General Properties =pod =head2 significant Because we treat whitespace and other non-code items as Tokens (in order to be able to "round trip" the L back to a file) the C method allows us to distinguish between tokens that form a part of the code, and tokens that aren't significant, such as whitespace, POD, or the portion of a file after (and including) the C<__END__> token. Returns true if the Element is significant, or false it not. =cut ### XS -> PPI/XS.xs:_PPI_Element__significant 0.845+ sub significant() { 1 } =pod =head2 class The C method is provided as a convenience, and really does nothing more than returning C. However, some people have found that they appreciate the laziness of C<$Foo-Eclass eq 'whatever'>, so I have caved to popular demand and included it. Returns the class of the Element as a string =cut sub class { ref($_[0]) } =pod =head2 tokens The C method returns a list of L objects for the Element, essentially getting back that part of the document as if it had not been lexed. This also means there are no Statements and no Structures in the list, just the Token classes. =cut sub tokens { $_[0] } =pod =head2 content For B C, the C method will reconstitute the base code for it as a single string. This method is also the method used for overloading stringification. When an Element is used in a double-quoted string for example, this is the method that is called. B You should be aware that because of the way that here-docs are handled, any here-doc content is not included in C, and as such you should B eval or execute the result if it contains any L. The L method C should be used to stringify a PDOM document into something that can be executed as expected. Returns the basic code as a string (excluding here-doc content). =cut ### XS -> PPI/XS.xs:_PPI_Element__content 0.900+ sub content() { '' } ##################################################################### # Navigation Methods =pod =head2 parent Elements themselves are not intended to contain other Elements, that is left to the L abstract class, a subclass of C. However, all Elements can be contained B a parent Node. If an Element is within a parent Node, the C method returns the Node. =cut sub parent { $_PARENT{refaddr $_[0]} } =pod =head2 descendant_of $element Answers whether a C is contained within another one. Cs are considered to be descendants of themselves. =cut sub descendant_of { my $cursor = shift; my $parent = shift or return undef; while ( refaddr $cursor != refaddr $parent ) { $cursor = $_PARENT{refaddr $cursor} or return ''; } return 1; } =pod =head2 ancestor_of $element Answers whether a C is contains another one. Cs are considered to be ancestors of themselves. =cut sub ancestor_of { my $self = shift; my $cursor = shift or return undef; while ( refaddr $cursor != refaddr $self ) { $cursor = $_PARENT{refaddr $cursor} or return ''; } return 1; } =pod =head2 statement For a C that is contained (at some depth) within a L, the C method will return the first parent Statement object lexically 'above' the Element. Returns a L object, which may be the same Element if the Element is itself a L object. Returns false if the Element is not within a Statement and is not itself a Statement. =cut sub statement { my $cursor = shift; while ( ! _INSTANCE($cursor, 'PPI::Statement') ) { $cursor = $_PARENT{refaddr $cursor} or return ''; } $cursor; } =pod =head2 top For a C that is contained within a PDOM tree, the C method will return the top-level Node in the tree. Most of the time this should be a L object, however this will not always be so. For example, if a subroutine has been removed from its Document, to be moved to another Document. Returns the top-most PDOM object, which may be the same Element, if it is not within any parent PDOM object. =cut sub top { my $cursor = shift; while ( my $parent = $_PARENT{refaddr $cursor} ) { $cursor = $parent; } $cursor; } =pod =head2 document For an Element that is contained within a L object, the C method will return the top-level Document for the Element. Returns the L for this Element, or false if the Element is not contained within a Document. =cut sub document { my $top = shift->top; _INSTANCE($top, 'PPI::Document') and $top; } =pod =head2 next_sibling All L objects (specifically, our parent Node) contain a number of C objects. The C method returns the C immediately after the current one, or false if there is no next sibling. =cut sub next_sibling { my $self = shift; my $key = refaddr $self; my $parent = $_PARENT{$key} or return ''; my $elements = $parent->{children}; my $position = $parent->__position($self); $elements->[$position + 1] || ''; } =pod =head2 snext_sibling As per the other 's' methods, the C method returns the next B sibling of the C object. Returns a C object, or false if there is no 'next' significant sibling. =cut sub snext_sibling { my $self = shift; my $key = refaddr $self; my $parent = $_PARENT{$key} or return ''; my $elements = $parent->{children}; my $position = $parent->__position($self); while ( defined(my $it = $elements->[++$position]) ) { return $it if $it->significant; } ''; } =pod =head2 previous_sibling All L objects (specifically, our parent Node) contain a number of C objects. The C method returns the Element immediately before the current one, or false if there is no 'previous' C object. =cut sub previous_sibling { my $self = shift; my $key = refaddr $self; my $parent = $_PARENT{$key} or return ''; my $elements = $parent->{children}; my $position = $parent->__position($self); $position and $elements->[$position - 1] or ''; } =pod =head2 sprevious_sibling As per the other 's' methods, the C method returns the previous B sibling of the C object. Returns a C object, or false if there is no 'previous' significant sibling. =cut sub sprevious_sibling { my $self = shift; my $key = refaddr $self; my $parent = $_PARENT{$key} or return ''; my $elements = $parent->{children}; my $position = $parent->__position($self); while ( $position-- and defined(my $it = $elements->[$position]) ) { return $it if $it->significant; } ''; } =pod =head2 first_token As a support method for higher-order algorithms that deal specifically with tokens and actual Perl content, the C method finds the first PPI::Token object within or equal to this one. That is, if called on a L subclass, it will descend until it finds a L. If called on a L object, it will return the same object. Returns a L object, or dies on error (which should be extremely rare and only occur if an illegal empty L exists below the current Element somewhere.) =cut sub first_token { my $cursor = shift; while ( $cursor->isa('PPI::Node') ) { $cursor = $cursor->first_element or die "Found empty PPI::Node while getting first token"; } $cursor; } =pod =head2 last_token As a support method for higher-order algorithms that deal specifically with tokens and actual Perl content, the C method finds the last PPI::Token object within or equal to this one. That is, if called on a L subclass, it will descend until it finds a L. If called on a L object, it will return the itself. Returns a L object, or dies on error (which should be extremely rare and only occur if an illegal empty L exists below the current Element somewhere.) =cut sub last_token { my $cursor = shift; while ( $cursor->isa('PPI::Node') ) { $cursor = $cursor->last_element or die "Found empty PPI::Node while getting first token"; } $cursor; } =pod =head2 next_token As a support method for higher-order algorithms that deal specifically with tokens and actual Perl content, the C method finds the L object that is immediately after the current Element, even if it is not within the same parent L as the one for which the method is being called. Note that this is B defined as a L-specific method, because it can be useful to find the next token that is after, say, a L, although obviously it would be useless to want the next token after a L. Returns a L object, or false if there are no more tokens after the Element. =cut sub next_token { my $cursor = shift; # Find the next element, going upwards as needed while ( 1 ) { my $element = $cursor->next_sibling; if ( $element ) { return $element if $element->isa('PPI::Token'); return $element->first_token; } $cursor = $cursor->parent or return ''; if ( $cursor->isa('PPI::Structure') and $cursor->finish ) { return $cursor->finish; } } } =pod =head2 previous_token As a support method for higher-order algorithms that deal specifically with tokens and actual Perl content, the C method finds the L object that is immediately before the current Element, even if it is not within the same parent L as this one. Note that this is not defined as a L-only method, because it can be useful to find the token is before, say, a L, although obviously it would be useless to want the next token before a L. Returns a L object, or false if there are no more tokens before the C. =cut sub previous_token { my $cursor = shift; # Find the previous element, going upwards as needed while ( 1 ) { my $element = $cursor->previous_sibling; if ( $element ) { return $element if $element->isa('PPI::Token'); return $element->last_token; } $cursor = $cursor->parent or return ''; if ( $cursor->isa('PPI::Structure') and $cursor->start ) { return $cursor->start; } } } ##################################################################### # Manipulation =pod =head2 clone As per the L module, the C method makes a perfect copy of an Element object. In the generic case, the implementation is done using the L module's mechanism itself. In higher-order cases, such as for Nodes, there is more work involved to keep the parent-child links intact. =cut sub clone { Clone::clone(shift); } =pod =head2 insert_before @Elements The C method allows you to insert lexical perl content, in the form of C objects, before the calling C. You need to be very careful when modifying perl code, as it's easy to break things. In its initial incarnation, this method allows you to insert a single Element, and will perform some basic checking to prevent you inserting something that would be structurally wrong (in PDOM terms). In future, this method may be enhanced to allow the insertion of multiple Elements, inline-parsed code strings or L objects. Returns true if the Element was inserted, false if it can not be inserted, or C if you do not provide a C object as a parameter. =cut sub __insert_before { my $self = shift; $self->parent->__insert_before_child( $self, @_ ); } =pod =head2 insert_after @Elements The C method allows you to insert lexical perl content, in the form of C objects, after the calling C. You need to be very careful when modifying perl code, as it's easy to break things. In its initial incarnation, this method allows you to insert a single Element, and will perform some basic checking to prevent you inserting something that would be structurally wrong (in PDOM terms). In future, this method may be enhanced to allow the insertion of multiple Elements, inline-parsed code strings or L objects. Returns true if the Element was inserted, false if it can not be inserted, or C if you do not provide a C object as a parameter. =cut sub __insert_after { my $self = shift; $self->parent->__insert_after_child( $self, @_ ); } =pod =head2 remove For a given C, the C method will remove it from its parent B, along with all of its children. Returns the C itself as a convenience, or C if an error occurs while trying to remove the C. =cut sub remove { my $self = shift; my $parent = $self->parent or return $self; $parent->remove_child( $self ); } =pod =head2 delete For a given C, the C method will remove it from its parent, immediately deleting the C and all of its children (if it has any). Returns true if the C was successfully deleted, or C if an error occurs while trying to remove the C. =cut sub delete { $_[0]->remove or return undef; $_[0]->DESTROY; 1; } =pod =head2 replace $Element Although some higher level class support more exotic forms of replace, at the basic level the C method takes a single C as an argument and replaces the current C with it. To prevent accidental damage to code, in this initial implementation the replacement element B be of the same class (or a subclass) as the one being replaced. If successful, returns the replace element. Otherwise, returns C. =cut sub replace { my $self = ref $_[0] ? shift : return undef; my $replace = _INSTANCE(shift, ref $self) or return undef; return $self->parent->replace_child( $self, $replace ); } =pod =head2 location If the Element exists within a L that has indexed the Element locations using C, the C method will return the location of the first character of the Element within the Document. Returns the location as a reference to a five-element array in the form C<[ $line, $rowchar, $col, $logical_line, $logical_file_name ]>. The values are in a human format, with the first character of the file located at C<[ 1, 1, 1, ?, 'something' ]>. The second and third numbers are similar, except that the second is the literal horizontal character, and the third is the visual column, taking into account tabbing (see L). The fourth number is the line number, taking into account any C<#line> directives. The fifth element is the name of the file that the element was found in, if available, taking into account any C<#line> directives. Returns C on error, or if the L object has not been indexed. =cut sub location { my $self = shift; $self->_ensure_location_present or return undef; # Return a copy, not the original return [ @{$self->{_location}} ]; } =pod =head2 line_number If the Element exists within a L that has indexed the Element locations using C, the C method will return the line number of the first character of the Element within the Document. Returns C on error, or if the L object has not been indexed. =cut sub line_number { my $self = shift; my $location = $self->location() or return undef; return $location->[0]; } =pod =head2 column_number If the Element exists within a L that has indexed the Element locations using C, the C method will return the column number of the first character of the Element within the Document. Returns C on error, or if the L object has not been indexed. =cut sub column_number { my $self = shift; my $location = $self->location() or return undef; return $location->[1]; } =pod =head2 visual_column_number If the Element exists within a L that has indexed the Element locations using C, the C method will return the visual column number of the first character of the Element within the Document, according to the value of L. Returns C on error, or if the L object has not been indexed. =cut sub visual_column_number { my $self = shift; my $location = $self->location() or return undef; return $location->[2]; } =pod =head2 logical_line_number If the Element exists within a L that has indexed the Element locations using C, the C method will return the line number of the first character of the Element within the Document, taking into account any C<#line> directives. Returns C on error, or if the L object has not been indexed. =cut sub logical_line_number { my $self = shift; return $self->location()->[3]; } =pod =head2 logical_filename If the Element exists within a L that has indexed the Element locations using C, the C method will return the logical file name containing the first character of the Element within the Document, taking into account any C<#line> directives. Returns C on error, or if the L object has not been indexed. =cut sub logical_filename { my $self = shift; my $location = $self->location() or return undef; return $location->[4]; } sub _ensure_location_present { my $self = shift; unless ( exists $self->{_location} ) { # Are we inside a normal document? my $Document = $self->document or return undef; if ( $Document->isa('PPI::Document::Fragment') ) { # Because they can't be serialized, document fragments # do not support the concept of location. return undef; } # Generate the locations. If they need one location, then # the chances are they'll want more, and it's better that # everything is already pre-generated. $Document->index_locations or return undef; unless ( exists $self->{_location} ) { # erm... something went very wrong here return undef; } } return 1; } # Although flush_locations is only publically a Document-level method, # we are able to implement it at an Element level, allowing us to # selectively flush only the part of the document that occurs after the # element for which the flush is called. sub _flush_locations { my $self = shift; unless ( $self == $self->top ) { return $self->top->_flush_locations( $self ); } # Get the full list of all Tokens my @Tokens = $self->tokens; # Optionally allow starting from an arbitrary element (or rather, # the first Token equal-to-or-within an arbitrary element) if ( _INSTANCE($_[0], 'PPI::Element') ) { my $start = shift->first_token; while ( my $Token = shift @Tokens ) { return 1 unless $Token->{_location}; next unless refaddr($Token) == refaddr($start); # Found the start. Flush its location delete $$Token->{_location}; last; } } # Iterate over any remaining Tokens and flush their location foreach my $Token ( @Tokens ) { delete $Token->{_location}; } 1; } ##################################################################### # XML Compatibility Methods sub _xml_name { my $class = ref $_[0] || $_[0]; my $name = lc join( '_', split /::/, $class ); substr($name, 4); } sub _xml_attr { return {}; } sub _xml_content { defined $_[0]->{content} ? $_[0]->{content} : ''; } ##################################################################### # Internals # Set the error string sub _error { $errstr = $_[1]; undef; } # Clear the error string sub _clear { $errstr = ''; $_[0]; } # Being DESTROYed in this manner, rather than by an explicit # ->delete means our reference count has probably fallen to zero. # Therefore we don't need to remove ourselves from our parent, # just the index ( just in case ). sub DESTROY { delete $_PARENT{refaddr $_[0]}; delete $_POSITION_CACHE{refaddr $_[0]}; } # Operator overloads sub __equals { ref $_[1] and refaddr($_[0]) == refaddr($_[1]) } sub __nequals { !__equals(@_) } sub __eq { my $self = _INSTANCE($_[0], 'PPI::Element') ? $_[0]->content : $_[0]; my $other = _INSTANCE($_[1], 'PPI::Element') ? $_[1]->content : $_[1]; $self eq $other; } sub __ne { !__eq(@_) } 1; =pod =head1 TO DO It would be nice if C could be used in an ad-hoc manner. That is, if called on an Element within a Document that has not been indexed, it will do a one-off calculation to find the location. It might be very painful if someone started using it a lot, without remembering to index the document, but it would be handy for things that are only likely to use it once, such as error handlers. =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