/usr/share/perl5/RDF/Trine/Statement.pm is in librdf-trine-perl 1.007-2.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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# -----------------------------------------------------------------------------
=head1 NAME
RDF::Trine::Statement - Class for triples and triple patterns
=head1 VERSION
This document describes RDF::Trine::Statement version 1.007
=cut
package RDF::Trine::Statement;
use strict;
use warnings;
no warnings 'redefine';
use Data::Dumper;
use Log::Log4perl;
use Carp qw(carp croak confess);
use Scalar::Util qw(blessed reftype);
use RDF::Trine::Iterator qw(smap sgrep swatch);
use URI::Escape qw(uri_unescape);
use Encode;
######################################################################
our ($VERSION);
BEGIN {
$VERSION = '1.007';
}
######################################################################
=head1 METHODS
=over 4
=cut
=item C<new ( $s, $p, $o )>
Returns a new Triple structure.
=cut
sub new {
my $class = shift;
my @nodes = @_;
unless (scalar(@nodes) == 3) {
throw RDF::Trine::Error::MethodInvocationError -text => "Triple constructor must have three node arguments";
}
my @names = qw(subject predicate object);
foreach my $i (0 .. 2) {
unless (defined($nodes[ $i ])) {
$nodes[ $i ] = RDF::Trine::Node::Variable->new($names[ $i ]);
}
}
return bless( [ @nodes ], $class );
}
=item C<< construct_args >>
Returns a list of arguments that, passed to this class' constructor,
will produce a clone of this algebra pattern.
=cut
sub construct_args {
my $self = shift;
return ($self->nodes);
}
=item C<< nodes >>
Returns the subject, predicate and object of the triple pattern.
=cut
sub nodes {
my $self = shift;
return @$self;
}
=item C<< node_names >>
Returns the method names for accessing the nodes of this statement.
=cut
sub node_names {
return qw(subject predicate object);
}
=item C<< subject >>
Returns the subject node of the triple pattern.
=cut
sub subject {
my $self = shift;
if (@_) {
$self->[0] = shift;
}
return $self->[0];
}
=item C<< predicate >>
Returns the predicate node of the triple pattern.
=cut
sub predicate {
my $self = shift;
if (@_) {
$self->[1] = shift;
}
return $self->[1];
}
=item C<< object >>
Returns the object node of the triple pattern.
=cut
sub object {
my $self = shift;
if (@_) {
$self->[2] = shift;
}
return $self->[2];
}
=item C<< as_string >>
Returns the statement in a string form.
=cut
sub as_string {
my $self = shift;
return $self->sse;
}
=item C<< has_blanks >>
Returns true if any of the nodes in this statement are blank nodes.
=cut
sub has_blanks {
my $self = shift;
foreach my $node ($self->nodes) {
return 1 if $node->isa('RDF::Trine::Node::Blank');
}
return 0;
}
=item C<< sse >>
Returns the SSE string for this algebra expression.
=cut
sub sse {
my $self = shift;
my $context = shift;
return sprintf(
'(triple %s %s %s)',
$self->subject->sse( $context ),
$self->predicate->sse( $context ),
$self->object->sse( $context ),
);
}
=item C<< from_sse ( $string, $context ) >>
Parses the supplied SSE-encoded string and returns a RDF::Trine::Statement object.
=cut
sub from_sse {
my $class = shift;
my $context = $_[1];
$_ = $_[0];
if (m/^[(]triple/) {
s/^[(]triple\s+//;
my @nodes;
push(@nodes, RDF::Trine::Node->from_sse( $_, $context ));
push(@nodes, RDF::Trine::Node->from_sse( $_, $context ));
push(@nodes, RDF::Trine::Node->from_sse( $_, $context ));
if (m/^\s*[)]/) {
s/^\s*[)]//;
return RDF::Trine::Statement->new( @nodes );
} else {
throw RDF::Trine::Error -text => "Cannot parse end-of-triple from SSE string: >>$_<<";
}
} else {
throw RDF::Trine::Error -text => "Cannot parse triple from SSE string: >>$_<<";
}
}
=item C<< type >>
Returns the type of this algebra expression.
=cut
sub type {
return 'TRIPLE';
}
=item C<< referenced_variables >>
Returns a list of the variable names used in this algebra expression.
=cut
sub referenced_variables {
my $self = shift;
return RDF::Trine::_uniq(map { $_->name } grep { $_->isa('RDF::Trine::Node::Variable') } $self->nodes);
}
=item C<< definite_variables >>
Returns a list of the variable names that will be bound after evaluating this algebra expression.
=cut
sub definite_variables {
my $self = shift;
return $self->referenced_variables;
}
=item C<< clone >>
=cut
sub clone {
my $self = shift;
my $class = ref($self);
return $class->new( $self->nodes );
}
=item C<< bind_variables ( \%bound ) >>
Returns a new algebra pattern with variables named in %bound replaced by their corresponding bound values.
=cut
sub bind_variables {
my $self = shift;
my $class = ref($self);
my $bound = shift;
my @nodes = $self->nodes;
foreach my $i (0 .. 2) {
my $n = $nodes[ $i ];
if ($n->isa('RDF::Trine::Node::Variable')) {
my $name = $n->name;
if (my $value = $bound->{ $name }) {
$nodes[ $i ] = $value;
}
}
}
return $class->new( @nodes );
}
=item C<< subsumes ( $statement ) >>
Returns true if this statement will subsume the $statement when matched against
a triple store.
=cut
sub subsumes {
my $self = shift;
my $st = shift;
my @nodes = $self->nodes;
my @match = $st->nodes;
my %bind;
my $l = Log::Log4perl->get_logger("rdf.trine.statement");
foreach my $i (0..2) {
my $m = $match[ $i ];
if ($nodes[$i]->isa('RDF::Trine::Node::Variable')) {
my $name = $nodes[$i]->name;
if (exists( $bind{ $name } )) {
$l->debug("variable $name has already been bound");
if (not $bind{ $name }->equal( $m )) {
$l->debug("-> and " . $bind{$name}->sse . " does not equal " . $m->sse);
return 0;
}
} else {
$bind{ $name } = $m;
}
} else {
return 0 unless ($nodes[$i]->equal( $m ));
}
}
return 1;
}
=item C<< from_redland ( $statement ) >>
Given a RDF::Redland::Statement object, returns a perl-native
RDF::Trine::Statement object.
=cut
sub from_redland {
my $self = shift;
my $rstmt = shift;
my $rs = $rstmt->subject;
my $rp = $rstmt->predicate;
my $ro = $rstmt->object;
my $cast = sub {
my $node = shift;
my $type = $node->type;
if ($type == $RDF::Redland::Node::Type_Resource) {
my $uri = $node->uri->as_string;
if ($uri =~ /%/) {
# Redland's parser doesn't properly unescape percent-encoded RDF URI References
$uri = decode_utf8(uri_unescape(encode_utf8($uri)));
}
return RDF::Trine::Node::Resource->new( $uri );
} elsif ($type == $RDF::Redland::Node::Type_Blank) {
return RDF::Trine::Node::Blank->new( $node->blank_identifier );
} elsif ($type == $RDF::Redland::Node::Type_Literal) {
my $lang = $node->literal_value_language;
my $dturi = $node->literal_datatype;
my $dt = ($dturi)
? $dturi->as_string
: undef;
return RDF::Trine::Node::Literal->new( $node->literal_value, $lang, $dt );
} else {
croak 'Unknown node type in statement conversion';
}
};
my @nodes;
foreach my $n ($rs, $rp, $ro) {
push(@nodes, $cast->( $n ));
}
my $st = $self->new( @nodes );
return $st;
}
=item C<< rdf_compatible >>
Returns true if and only if the statement can be expressed in RDF. That is,
the subject of the statement must be a resource or blank node; the predicate
must be a resource; and the object must be a resource, blank node or literal.
RDF::Trine::Statement does allow statements to be created which cannot be
expressed in RDF - for instance, statements including variables.
=cut
sub rdf_compatible {
my $self = shift;
return
unless $self->subject->is_resource
|| $self->subject->is_blank;
return
unless $self->predicate->is_resource;
return
unless $self->object->is_resource
|| $self->object->is_blank
|| $self->object->is_literal;
return $self;
}
1;
__END__
=back
=head1 BUGS
Please report any bugs or feature requests to through the GitHub web interface
at L<https://github.com/kasei/perlrdf/issues>.
=head1 AUTHOR
Gregory Todd Williams C<< <gwilliams@cpan.org> >>
=head1 COPYRIGHT
Copyright (c) 2006-2012 Gregory Todd Williams. This
program is free software; you can redistribute it and/or modify it under
the same terms as Perl itself.
=cut
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