# RDF::Query::Plan::Limit # ----------------------------------------------------------------------------- =head1 NAME RDF::Query::Plan::Limit - Executable query plan for Limits. =head1 VERSION This document describes RDF::Query::Plan::Limit version 2.919. =head1 METHODS Beyond the methods documented below, this class inherits methods from the L class. =over 4 =cut package RDF::Query::Plan::Limit; use strict; use warnings; use base qw(RDF::Query::Plan); ###################################################################### our ($VERSION); BEGIN { $VERSION = '2.919'; } ###################################################################### =item C<< new ( $plan, $limit ) >> =cut sub new { my $class = shift; my $limit = shift; my $plan = shift; my $self = $class->SUPER::new( $limit, $plan ); $self->[0]{referenced_variables} = [ $plan->referenced_variables ]; return $self; } =item C<< execute ( $execution_context ) >> =cut sub execute ($) { my $self = shift; my $context = shift; $self->[0]{delegate} = $context->delegate; if ($self->state == $self->OPEN) { throw RDF::Query::Error::ExecutionError -text => "LIMIT plan can't be executed while already open"; } my $plan = $self->[2]; $plan->execute( $context ); if ($plan->state == $self->OPEN) { $self->state( $self->OPEN ); $self->[0]{count} = 0; } else { warn "could not execute plan in LIMIT"; } $self; } =item C<< next >> =cut sub next { my $self = shift; unless ($self->state == $self->OPEN) { throw RDF::Query::Error::ExecutionError -text => "next() cannot be called on an un-open LIMIT"; } return undef if ($self->[0]{count} >= $self->limit); my $plan = $self->[2]; my $row = $plan->next; return undef unless ($row); $self->[0]{count}++; if (my $d = $self->delegate) { $d->log_result( $self, $row ); } return $row; } =item C<< close >> =cut sub close { my $self = shift; unless ($self->state == $self->OPEN) { throw RDF::Query::Error::ExecutionError -text => "close() cannot be called on an un-open LIMIT"; } delete $self->[0]{count}; $self->[2]->close(); $self->SUPER::close(); } =item C<< pattern >> Returns the query plan that will be used to produce the data to be filtered. =cut sub pattern { my $self = shift; return $self->[2]; } =item C<< limit >> Returns the limit size. =cut sub limit { my $self = shift; return $self->[1]; } =item C<< distinct >> Returns true if the pattern is guaranteed to return distinct results. =cut sub distinct { my $self = shift; return $self->pattern->distinct; } =item C<< ordered >> Returns true if the pattern is guaranteed to return ordered results. =cut sub ordered { my $self = shift; return $self->pattern->ordered; } =item C<< plan_node_name >> Returns the string name of this plan node, suitable for use in serialization. =cut sub plan_node_name { return 'limit'; } =item C<< plan_prototype >> Returns a list of scalar identifiers for the type of the content (children) nodes of this plan node. See L for a list of the allowable identifiers. =cut sub plan_prototype { my $self = shift; return qw(i P); } =item C<< plan_node_data >> Returns the data for this plan node that corresponds to the values described by the signature returned by C<< plan_prototype >>. =cut sub plan_node_data { my $self = shift; return ($self->limit, $self->pattern); } =item C<< graph ( $g ) >> =cut sub graph { my $self = shift; my $g = shift; my $c = $self->pattern->graph( $g ); my $limit = $self->limit; $g->add_node( "$self", label => "Limit ($limit)" . $self->graph_labels ); $g->add_edge( "$self", $c ); return "$self"; } 1; __END__ =back =head1 AUTHOR Gregory Todd Williams =cut