package PPI::Document::Normalized; =pod =head1 NAME PPI::Document::Normalized - A normalized Perl Document =head1 DESCRIPTION A C object is the result of the normalization process contained in the L class. See the documentation for L for more information. The object contains a version stamp and function list for the version of L used to create it, and a processed and delinked L object. Typically, the Document object will have been mangled by the normalization process in a way that would make it fatal to try to actually DO anything with it. Put simply, B use the Document object after normalization. B The object is designed the way it is to provide a bias towards false negatives. A comparison between two ::Normalized object will only return true if they were produced by the same version of PPI::Normal, with the same set of normalization functions (in the same order). You may get false negatives if you are caching objects across an upgrade. Please note that this is done for security purposes, as there are many cases in which low layer normalization is likely to be done as part of a code security process, and false positives could be highly dangerous. =head1 METHODS =cut # For convenience (and since this isn't really a public class), import # the methods we will need from Scalar::Util. use strict; use Scalar::Util qw{refaddr reftype blessed}; use Params::Util qw{_INSTANCE _ARRAY}; use PPI::Util (); our $VERSION = '1.279'; use overload 'bool' => \&PPI::Util::TRUE; use overload '==' => 'equal'; ##################################################################### # Constructor and Accessors =pod =head2 new The C method is intended for use only by the L class, and to get ::Normalized objects, you are highly recommended to use either that module, or the C method of the L object itself. =cut sub new { my $class = shift; my %args = @_; # Check the required params my $Document = _INSTANCE($args{Document}, 'PPI::Document') or return undef; my $version = $args{version}; my $functions = _ARRAY($args{functions}) or return undef; # Create the object my $self = bless { Document => $Document, version => $version, functions => $functions, }, $class; $self; } sub _Document { $_[0]->{Document} } =pod =head2 version The C accessor returns the L version used to create the object. =cut sub version { $_[0]->{version} } =pod =head2 functions The C accessor returns a reference to an array of the normalization functions (in order) that were called when creating the object. =cut sub functions { $_[0]->{functions} } ##################################################################### # Comparison Methods =pod =head2 equal $Normalized The C method is the primary comparison method, taking another PPI::Document::Normalized object, and checking for equivalence to it. The C<==> operator is also overload to this method, so that you can do something like the following: my $first = PPI::Document->load('first.pl'); my $second = PPI::Document->load('second.pl'); if ( $first->normalized == $second->normalized ) { print "The two documents are equivalent"; } Returns true if the normalized documents are equivalent, false if not, or C if there is an error. =cut sub equal { my $self = shift; my $other = _INSTANCE(shift, 'PPI::Document::Normalized') or return undef; # Prevent multiple concurrent runs return undef if $self->{processing}; # Check the version and function list first my $v1 = $self->version || "undef"; my $v2 = $other->version || "undef"; return '' if $v1 ne $v2; $self->_equal_ARRAY( $self->functions, $other->functions ) or return ''; # Do the main comparison run $self->{seen} = {}; my $rv = $self->_equal_blessed( $self->_Document, $other->_Document ); delete $self->{seen}; $rv; } # Check that two objects are matched sub _equal_blessed { my ($self, $this, $that) = @_; my ($bthis, $bthat) = (blessed $this, blessed $that); $bthis and $bthat and $bthis eq $bthat or return ''; # Check the object as a reference $self->_equal_reference( $this, $that ); } # Check that two references match their types sub _equal_reference { my ($self, $this, $that) = @_; my ($rthis, $rthat) = (refaddr $this, refaddr $that); $rthis and $rthat or return undef; # If we have seen this before, are the pointing # is it the same one we saw in both sides my $seen = $self->{seen}->{$rthis}; if ( $seen and $seen ne $rthat ) { return ''; } # Check the reference types my ($tthis, $tthat) = (reftype $this, reftype $that); $tthis and $tthat and $tthis eq $tthat or return undef; # Check the children of the reference type $self->{seen}->{$rthis} = $rthat; my $method = "_equal_$tthat"; my $rv = $self->$method( $this, $that ); delete $self->{seen}->{$rthis}; $rv; } # Compare the children of two SCALAR references sub _equal_SCALAR { my ($self, $this, $that) = @_; my ($cthis, $cthat) = ($$this, $$that); return $self->_equal_blessed( $cthis, $cthat ) if blessed $cthis; return $self->_equal_reference( $cthis, $cthat ) if ref $cthis; return (defined $cthat and $cthis eq $cthat) if defined $cthis; ! defined $cthat; } # For completeness sake, lets just treat REF as a specialist SCALAR case sub _equal_REF { shift->_equal_SCALAR(@_) } # Compare the children of two ARRAY references sub _equal_ARRAY { my ($self, $this, $that) = @_; # Compare the number of elements scalar(@$this) == scalar(@$that) or return ''; # Check each element in the array. # Descend depth-first. foreach my $i ( 0 .. scalar(@$this) ) { my ($cthis, $cthat) = ($this->[$i], $that->[$i]); if ( blessed $cthis ) { return '' unless $self->_equal_blessed( $cthis, $cthat ); } elsif ( ref $cthis ) { return '' unless $self->_equal_reference( $cthis, $cthat ); } elsif ( defined $cthis ) { return '' unless (defined $cthat and $cthis eq $cthat); } else { return '' if defined $cthat; } } 1; } # Compare the children of a HASH reference sub _equal_HASH { my ($self, $this, $that) = @_; # Compare the number of keys return '' unless scalar(keys %$this) == scalar(keys %$that); # Compare each key, descending depth-first. foreach my $k ( keys %$this ) { return '' unless exists $that->{$k}; my ($cthis, $cthat) = ($this->{$k}, $that->{$k}); if ( blessed $cthis ) { return '' unless $self->_equal_blessed( $cthis, $cthat ); } elsif ( ref $cthis ) { return '' unless $self->_equal_reference( $cthis, $cthat ); } elsif ( defined $cthis ) { return '' unless (defined $cthat and $cthis eq $cthat); } else { return '' if defined $cthat; } } 1; } # We do not support GLOB comparisons sub _equal_GLOB { my ($self, $this, $that) = @_; warn('GLOB comparisons are not supported'); ''; } # We do not support CODE comparisons sub _equal_CODE { my ($self, $this, $that) = @_; refaddr $this == refaddr $that; } # We don't support IO comparisons sub _equal_IO { my ($self, $this, $that) = @_; warn('IO comparisons are not supported'); ''; } sub DESTROY { # Take the screw up Document with us if ( $_[0]->{Document} ) { $_[0]->{Document}->DESTROY; delete $_[0]->{Document}; } } 1; =pod =head1 SUPPORT See the L in the main module. =head1 AUTHOR Adam Kennedy Eadamk@cpan.orgE =head1 COPYRIGHT Copyright 2005 - 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