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Filename: //usr//share/perl5//XML/XPathEngine/Step.pm
# $Id: Step.pm,v 1.35 2001/04/01 16:56:40 matt Exp $ package XML::XPathEngine::Step; use XML::XPathEngine; use strict; # the beginnings of using XS for this file... # require DynaLoader; # use vars qw/$VERSION @ISA/; # $VERSION = '1.0'; # @ISA = qw(DynaLoader); # # bootstrap XML::XPathEngine::Step $VERSION; sub test_qname () { 0; } # Full name sub test_ncwild () { 1; } # NCName:* sub test_any () { 2; } # * sub test_attr_qname () { 3; } # @ns:attrib sub test_attr_ncwild () { 4; } # @nc:* sub test_attr_any () { 5; } # @* sub test_nt_comment () { 6; } # comment() sub test_nt_text () { 7; } # text() sub test_nt_pi () { 8; } # processing-instruction() sub test_nt_node () { 9; } # node() sub new { my $class = shift; my ($pp, $axis, $test, $literal) = @_; my $axis_method = "axis_$axis"; $axis_method =~ tr/-/_/; my $self = { pp => $pp, # the XML::XPathEngine class axis => $axis, axis_method => $axis_method, test => $test, literal => $literal, predicates => [], }; bless $self, $class; } sub as_string { my $self = shift; my $string = $self->{axis} . "::"; my $test = $self->{test}; if ($test == test_nt_pi) { $string .= 'processing-instruction('; if ($self->{literal}->value) { $string .= $self->{literal}->as_string; } $string .= ")"; } elsif ($test == test_nt_comment) { $string .= 'comment()'; } elsif ($test == test_nt_text) { $string .= 'text()'; } elsif ($test == test_nt_node) { $string .= 'node()'; } elsif ($test == test_ncwild || $test == test_attr_ncwild) { $string .= $self->{literal} . ':*'; } else { $string .= $self->{literal}; } foreach (@{$self->{predicates}}) { next unless defined $_; $string .= "[" . $_->as_string . "]"; } return $string; } sub as_xml { my $self = shift; my $string = "<Step>\n"; $string .= "<Axis>" . $self->{axis} . "</Axis>\n"; my $test = $self->{test}; $string .= "<Test>"; if ($test == test_nt_pi) { $string .= '<processing-instruction'; if ($self->{literal}->value) { $string .= '>'; $string .= $self->{literal}->as_string; $string .= '</processing-instruction>'; } else { $string .= '/>'; } } elsif ($test == test_nt_comment) { $string .= '<comment/>'; } elsif ($test == test_nt_text) { $string .= '<text/>'; } elsif ($test == test_nt_node) { $string .= '<node/>'; } elsif ($test == test_ncwild || $test == test_attr_ncwild) { $string .= '<namespace-prefix>' . $self->{literal} . '</namespace-prefix>'; } else { $string .= '<nametest>' . $self->{literal} . '</nametest>'; } $string .= "</Test>\n"; foreach (@{$self->{predicates}}) { next unless defined $_; $string .= "<Predicate>\n" . $_->as_xml() . "</Predicate>\n"; } $string .= "</Step>\n"; return $string; } sub evaluate { my $self = shift; my $from = shift; # context nodeset if( $from && !$from->isa( 'XML::XPathEngine::NodeSet')) { my $from_nodeset= XML::XPathEngine::NodeSet->new(); $from_nodeset->push( $from); $from= $from_nodeset; } #warn "Step::evaluate called with ", $from->size, " length nodeset\n"; my $saved_context = $self->{pp}->_get_context_set; my $saved_pos = $self->{pp}->_get_context_pos; $self->{pp}->_set_context_set($from); my $initial_nodeset = XML::XPathEngine::NodeSet->new(); # See spec section 2.1, paragraphs 3,4,5: # The node-set selected by the location step is the node-set # that results from generating an initial node set from the # axis and node-test, and then filtering that node-set by # each of the predicates in turn. # Make each node in the nodeset be the context node, one by one for(my $i = 1; $i <= $from->size; $i++) { $self->{pp}->_set_context_pos($i); $initial_nodeset->append($self->evaluate_node($from->get_node($i))); } # warn "Step::evaluate initial nodeset size: ", $initial_nodeset->size, "\n"; $self->{pp}->_set_context_set($saved_context); $self->{pp}->_set_context_pos($saved_pos); return $initial_nodeset; } # Evaluate the step against a particular node sub evaluate_node { my $self = shift; my $context = shift; # warn "Evaluate node: $self->{axis}\n"; # warn "Node: ", $context->[node_name], "\n"; my $method = $self->{axis_method}; my $results = XML::XPathEngine::NodeSet->new(); no strict 'refs'; eval { $method->($self, $context, $results); }; if ($@) { die "axis $method not implemented [$@]\n"; } # warn("results: ", join('><', map {$_->string_value} @$results), "\n"); # filter initial nodeset by each predicate foreach my $predicate (@{$self->{predicates}}) { $results = $self->filter_by_predicate($results, $predicate); } return $results; } sub axis_ancestor { my $self = shift; my ($context, $results) = @_; my $parent = $context->getParentNode; START: return $results unless $parent; if (node_test($self, $parent)) { $results->push($parent); } $parent = $parent->getParentNode; goto START; } sub axis_ancestor_or_self { my $self = shift; my ($context, $results) = @_; START: return $results unless $context; if (node_test($self, $context)) { $results->push($context); } $context = $context->getParentNode; goto START; } sub axis_attribute { my $self = shift; my ($context, $results) = @_; foreach my $attrib (@{$context->getAttributes}) { if ($self->test_attribute($attrib)) { $results->push($attrib); } } } sub axis_child { my $self = shift; my ($context, $results) = @_; foreach my $node (@{$context->getChildNodes}) { if (node_test($self, $node)) { $results->push($node); } } } sub axis_descendant { my $self = shift; my ($context, $results) = @_; my @stack = $context->getChildNodes; while (@stack) { my $node = shift @stack; if (node_test($self, $node)) { $results->push($node); } unshift @stack, $node->getChildNodes; } } sub axis_descendant_or_self { my $self = shift; my ($context, $results) = @_; my @stack = ($context); while (@stack) { my $node = shift @stack; if (node_test($self, $node)) { $results->push($node); } #warn "node is a ", ref( $node); unshift @stack, $node->getChildNodes; } } sub axis_following { my $self = shift; my ($context, $results) = @_; my $elt= $context->getNextSibling || _next_sibling_of_an_ancestor_of( $context); while( $elt) { if (node_test($self, $elt)) { $results->push( $elt); } $elt= $elt->getFirstChild || $elt->getNextSibling || _next_sibling_of_an_ancestor_of( $elt); } } sub _next_sibling_of_an_ancestor_of { my $elt= shift; $elt= $elt->getParentNode || return; my $next_elt; while( !($next_elt= $elt->getNextSibling)) { $elt= $elt->getParentNode; return unless( $elt && $elt->can( 'getNextSibling')); } return $next_elt; } sub axis_following_sibling { my $self = shift; my ($context, $results) = @_; #warn "in axis_following_sibling"; while ($context = $context->getNextSibling) { if (node_test($self, $context)) { $results->push($context); } } } sub axis_namespace { my $self = shift; my ($context, $results) = @_; return $results unless $context->isElementNode; foreach my $ns (@{$context->getNamespaces}) { if ($self->test_namespace($ns)) { $results->push($ns); } } } sub axis_parent { my $self = shift; my ($context, $results) = @_; my $parent = $context->getParentNode; return $results unless $parent; if (node_test($self, $parent)) { $results->push($parent); } } sub axis_preceding { my $self = shift; my ($context, $results) = @_; my $elt= $context->getPreviousSibling || _previous_sibling_of_an_ancestor_of( $context); while( $elt) { if (node_test($self, $elt)) { $results->push( $elt); } $elt= $elt->getLastChild || $elt->getPreviousSibling || _previous_sibling_of_an_ancestor_of( $elt); } } sub _previous_sibling_of_an_ancestor_of { my $elt= shift; $elt= $elt->getParentNode || return; my $next_elt; while( !($next_elt= $elt->getPreviousSibling)) { $elt= $elt->getParentNode; return unless $elt->getParentNode; # so we don't have to write a getPreviousSibling } return $next_elt; } sub axis_preceding_sibling { my $self = shift; my ($context, $results) = @_; while ($context = $context->getPreviousSibling) { if (node_test($self, $context)) { $results->push($context); } } } sub axis_self { my $self = shift; my ($context, $results) = @_; if (node_test($self, $context)) { $results->push($context); } } sub node_test { my $self = shift; my $node = shift; # if node passes test, return true my $test = $self->{test}; return 1 if $test == test_nt_node; if ($test == test_any) { return 1 if $node->isElementNode && defined $node->getName; } local $^W; if ($test == test_ncwild) { return unless $node->isElementNode; return _match_ns( $self, $node); } elsif ($test == test_qname) { return unless $node->isElementNode; if ($self->{literal} =~ /:/ || $self->{pp}->{strict_namespaces}) { my ($prefix, $name) = _name2prefix_and_local_name( $self->{literal}); return 1 if( ($name eq $node->getLocalName) && _match_ns( $self, $node)); } else { return 1 if $node->getName eq $self->{literal}; } } elsif ($test == test_nt_text) { return 1 if $node->isTextNode; } elsif ($test == test_nt_comment) { return 1 if $node->isCommentNode; } elsif ($test == test_nt_pi && !$self->{literal}) { return 1 if $node->isPINode; } elsif ($test == test_nt_pi) { return unless $node->isPINode; if (my $val = $self->{literal}->value) { return 1 if $node->getTarget eq $val; } else { return 1; } } return; # fallthrough returns false } sub _name2prefix_and_local_name { my $name= shift; return $name =~ /:/ ? split(':', $name, 2) : ( '', $name); } sub _name2prefix { my $name= shift; if( $name=~ m{^(.*?):}) { return $1; } else { return ''; } } sub _match_ns { my( $self, $node)= @_; my $pp= $self->{pp}; my $prefix= _name2prefix( $self->{literal}); my( $match_ns, $node_ns); if( $pp->{uses_namespaces} || $pp->{strict_namespaces}) { $match_ns = $pp->get_namespace($prefix); if( $match_ns || $pp->{strict_namespaces}) { $node_ns= $node->getNamespace->getValue; } else { # non-standard behaviour: if the query prefix is not declared # compare the 2 prefixes $match_ns = $prefix; $node_ns = _name2prefix( $node->getName); } } else { $match_ns = $prefix; $node_ns = _name2prefix( $node->getName); } return $match_ns eq $node_ns; } sub test_attribute { my $self = shift; my $node = shift; my $test = $self->{test}; return 1 if ($test == test_attr_any) || ($test == test_nt_node); if ($test == test_attr_ncwild) { return 1 if _match_ns( $self, $node); } elsif ($test == test_attr_qname) { if ($self->{literal} =~ /:/) { my ($prefix, $name) = _name2prefix_and_local_name( $self->{literal}); return 1 if ( ($name eq $node->getLocalName) && ( _match_ns( $self, $node)) ); } else { return 1 if $node->getName eq $self->{literal}; } } return; # fallthrough returns false } sub test_namespace { my $self = shift; my $node = shift; # Not sure if this is correct. The spec seems very unclear on what # constitutes a namespace test... bah! my $test = $self->{test}; return 1 if $test == test_any; # True for all nodes of principal type if ($test == test_any) { return 1; } elsif ($self->{literal} eq $node->getExpanded) { return 1; } return; } sub filter_by_predicate { my $self = shift; my ($nodeset, $predicate) = @_; # See spec section 2.4, paragraphs 2 & 3: # For each node in the node-set to be filtered, the predicate Expr # is evaluated with that node as the context node, with the number # of nodes in the node set as the context size, and with the # proximity position of the node in the node set with respect to # the axis as the context position. if (!ref($nodeset)) { # use ref because nodeset has a bool context die "No nodeset!!!"; } # warn "Filter by predicate: $predicate\n"; my $newset = XML::XPathEngine::NodeSet->new(); for(my $i = 1; $i <= $nodeset->size; $i++) { # set context set each time 'cos a loc-path in the expr could change it $self->{pp}->_set_context_set($nodeset); $self->{pp}->_set_context_pos($i); my $result = $predicate->evaluate($nodeset->get_node($i)); if ($result->isa('XML::XPathEngine::Boolean')) { if ($result->value) { $newset->push($nodeset->get_node($i)); } } elsif ($result->isa('XML::XPathEngine::Number')) { if ($result->value == $i) { $newset->push($nodeset->get_node($i)); last; } } else { if ($result->to_boolean->value) { $newset->push($nodeset->get_node($i)); } } } return $newset; } 1;
./Ninja\.