class REXML::XPathParser
You don't want to use this class. Really. Use XPath, which is a wrapper for this class. Believe me. You don't want to poke around in here. There is strange, dark magic at work in this code. Beware. Go back! Go back while you still can!
Constants
- LITERAL
Public Class Methods
new(strict: false)
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# File lib/rexml/xpath_parser.rb, line 50 def initialize(strict: false) @parser = REXML::Parsers::XPathParser.new @namespaces = nil @variables = {} @nest = 0 @strict = strict end
Public Instance Methods
[]=( variable_name, value )
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# File lib/rexml/xpath_parser.rb, line 83 def []=( variable_name, value ) @variables[ variable_name ] = value end
first( path_stack, node )
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Performs a depth-first (document order) XPath search, and returns the first match. This is the fastest, lightest way to return a single result.
FIXME: This method is incomplete!
# File lib/rexml/xpath_parser.rb, line 92 def first( path_stack, node ) return nil if path.size == 0 case path[0] when :document # do nothing return first( path[1..-1], node ) when :child for c in node.children r = first( path[1..-1], c ) return r if r end when :qname name = path[2] if node.name == name return node if path.size == 3 return first( path[3..-1], node ) else return nil end when :descendant_or_self r = first( path[1..-1], node ) return r if r for c in node.children r = first( path, c ) return r if r end when :node return first( path[1..-1], node ) when :any return first( path[1..-1], node ) end return nil end
get_first(path, nodeset)
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# File lib/rexml/xpath_parser.rb, line 73 def get_first path, nodeset path_stack = @parser.parse( path ) first( path_stack, nodeset ) end
match(path_stack, nodeset)
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# File lib/rexml/xpath_parser.rb, line 128 def match(path_stack, nodeset) nodeset = nodeset.collect.with_index do |node, i| position = i + 1 XPathNode.new(node, position: position) end result = expr(path_stack, nodeset) case result when Array # nodeset unnode(result) else result end end
namespaces=( namespaces={} )
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# File lib/rexml/xpath_parser.rb, line 58 def namespaces=( namespaces={} ) Functions::namespace_context = namespaces @namespaces = namespaces end
parse(path, nodeset)
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# File lib/rexml/xpath_parser.rb, line 68 def parse path, nodeset path_stack = @parser.parse( path ) match( path_stack, nodeset ) end
predicate(path, nodeset)
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# File lib/rexml/xpath_parser.rb, line 78 def predicate path, nodeset path_stack = @parser.parse( path ) match( path_stack, nodeset ) end
variables=( vars={} )
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# File lib/rexml/xpath_parser.rb, line 63 def variables=( vars={} ) Functions::variables = vars @variables = vars end
Private Instance Methods
child(nodeset)
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# File lib/rexml/xpath_parser.rb, line 763 def child(nodeset) nodesets = [] nodeset.each do |node| raw_node = node.raw_node node_type = raw_node.node_type # trace(:child, node_type, node) case node_type when :element nodesets << raw_node.children.collect.with_index do |child_node, i| XPathNode.new(child_node, position: i + 1) end when :document new_nodeset = [] raw_node.children.each do |child| case child when XMLDecl, Text # Ignore else new_nodeset << XPathNode.new(child, position: new_nodeset.size + 1) end end nodesets << new_nodeset unless new_nodeset.empty? end end nodesets end
compare(a, op, b)
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# File lib/rexml/xpath_parser.rb, line 882 def compare a, op, b case op when :eq a == b when :neq a != b when :lt a < b when :lteq a <= b when :gt a > b when :gteq a >= b when :and a and b when :or a or b else false end end
descendant(nodeset, include_self)
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# File lib/rexml/xpath_parser.rb, line 666 def descendant(nodeset, include_self) nodesets = [] nodeset.each do |node| new_nodeset = [] new_nodes = {} descendant_recursive(node.raw_node, new_nodeset, new_nodes, include_self) nodesets << new_nodeset unless new_nodeset.empty? end nodesets end
descendant_recursive(raw_node, new_nodeset, new_nodes, include_self)
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# File lib/rexml/xpath_parser.rb, line 677 def descendant_recursive(raw_node, new_nodeset, new_nodes, include_self) if include_self return if new_nodes.key?(raw_node) new_nodeset << XPathNode.new(raw_node, position: new_nodeset.size + 1) new_nodes[raw_node] = true end node_type = raw_node.node_type if node_type == :element or node_type == :document raw_node.children.each do |child| descendant_recursive(child, new_nodeset, new_nodes, true) end end end
enter(tag, *args)
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# File lib/rexml/xpath_parser.rb, line 625 def enter(tag, *args) trace(:enter, tag, *args) @nest += 1 end
equality_relational_compare( set1, op, set2 )
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# File lib/rexml/xpath_parser.rb, line 803 def equality_relational_compare( set1, op, set2 ) set1 = unnode(set1) if set1.is_a?(Array) set2 = unnode(set2) if set2.is_a?(Array) if set1.kind_of? Array and set2.kind_of? Array if set1.size == 0 or set2.size == 0 nd = set1.size==0 ? set2 : set1 rv = nd.collect { |il| compare( il, op, nil ) } return rv else res = [] SyncEnumerator.new( set1, set2 ).each { |i1, i2| i1 = norm( i1 ) i2 = norm( i2 ) res << compare( i1, op, i2 ) } return res end end # If one is nodeset and other is number, compare number to each item # in nodeset s.t. number op number(string(item)) # If one is nodeset and other is string, compare string to each item # in nodeset s.t. string op string(item) # If one is nodeset and other is boolean, compare boolean to each item # in nodeset s.t. boolean op boolean(item) if set1.kind_of? Array or set2.kind_of? Array if set1.kind_of? Array a = set1 b = set2 else a = set2 b = set1 end case b when true, false return unnode(a) {|v| compare( Functions::boolean(v), op, b ) } when Numeric return unnode(a) {|v| compare( Functions::number(v), op, b )} when /^\d+(\.\d+)?$/ b = Functions::number( b ) return unnode(a) {|v| compare( Functions::number(v), op, b )} else b = Functions::string( b ) return unnode(a) { |v| compare( Functions::string(v), op, b ) } end else # If neither is nodeset, # If op is = or != # If either boolean, convert to boolean # If either number, convert to number # Else, convert to string # Else # Convert both to numbers and compare set1 = unnode(set1) if set1.is_a?(Array) set2 = unnode(set2) if set2.is_a?(Array) s1 = Functions.string(set1) s2 = Functions.string(set2) if s1 == 'true' or s1 == 'false' or s2 == 'true' or s2 == 'false' set1 = Functions::boolean( set1 ) set2 = Functions::boolean( set2 ) else if op == :eq or op == :neq if s1 =~ /^\d+(\.\d+)?$/ or s2 =~ /^\d+(\.\d+)?$/ set1 = Functions::number( s1 ) set2 = Functions::number( s2 ) else set1 = Functions::string( set1 ) set2 = Functions::string( set2 ) end else set1 = Functions::number( set1 ) set2 = Functions::number( set2 ) end end return compare( set1, op, set2 ) end return false end
evaluate_predicate(expression, nodesets)
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# File lib/rexml/xpath_parser.rb, line 581 def evaluate_predicate(expression, nodesets) # enter(:predicate, expression, nodesets) new_nodesets = nodesets.collect do |nodeset| new_nodeset = [] subcontext = { :size => nodeset.size } nodeset.each_with_index do |node, index| if node.is_a?(XPathNode) subcontext[:node] = node.raw_node subcontext[:index] = node.position else subcontext[:node] = node subcontext[:index] = index + 1 end result = expr(expression.dclone, [node], subcontext) # trace(:predicate_evaluate, expression, node, subcontext, result) result = result[0] if result.kind_of? Array and result.length == 1 if result.kind_of? Numeric if result == node.position new_nodeset << XPathNode.new(node, position: new_nodeset.size + 1) end elsif result.instance_of? Array if result.size > 0 and result.inject(false) {|k,s| s or k} if result.size > 0 new_nodeset << XPathNode.new(node, position: new_nodeset.size + 1) end end else if result new_nodeset << XPathNode.new(node, position: new_nodeset.size + 1) end end end new_nodeset end new_nodesets # ensure # leave(:predicate, new_nodesets) end
expr( path_stack, nodeset, context=nil )
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Expr takes a stack of path elements and a set of nodes (either a Parent or an Array and returns an Array of matching nodes
# File lib/rexml/xpath_parser.rb, line 164 def expr( path_stack, nodeset, context=nil ) # enter(:expr, path_stack, nodeset) return nodeset if path_stack.length == 0 || nodeset.length == 0 while path_stack.length > 0 # trace(:while, path_stack, nodeset) if nodeset.length == 0 path_stack.clear return [] end op = path_stack.shift case op when :document first_raw_node = nodeset.first.raw_node nodeset = [XPathNode.new(first_raw_node.root_node, position: 1)] when :self nodeset = step(path_stack) do [nodeset] end when :child nodeset = step(path_stack) do child(nodeset) end when :literal # trace(:literal, path_stack, nodeset) return path_stack.shift when :attribute nodeset = step(path_stack, any_type: :attribute) do nodesets = [] nodeset.each do |node| raw_node = node.raw_node next unless raw_node.node_type == :element attributes = raw_node.attributes next if attributes.empty? nodesets << attributes.each_attribute.collect.with_index do |attribute, i| XPathNode.new(attribute, position: i + 1) end end nodesets end when :namespace pre_defined_namespaces = { "xml" => "http://www.w3.org/XML/1998/namespace", } nodeset = step(path_stack, any_type: :namespace) do nodesets = [] nodeset.each do |node| raw_node = node.raw_node case raw_node.node_type when :element if @namespaces nodesets << pre_defined_namespaces.merge(@namespaces) else nodesets << pre_defined_namespaces.merge(raw_node.namespaces) end when :attribute if @namespaces nodesets << pre_defined_namespaces.merge(@namespaces) else nodesets << pre_defined_namespaces.merge(raw_node.element.namespaces) end end end nodesets end when :parent nodeset = step(path_stack) do nodesets = [] nodeset.each do |node| raw_node = node.raw_node if raw_node.node_type == :attribute parent = raw_node.element else parent = raw_node.parent end nodesets << [XPathNode.new(parent, position: 1)] if parent end nodesets end when :ancestor nodeset = step(path_stack) do nodesets = [] # new_nodes = {} nodeset.each do |node| raw_node = node.raw_node new_nodeset = [] while raw_node.parent raw_node = raw_node.parent # next if new_nodes.key?(node) new_nodeset << XPathNode.new(raw_node, position: new_nodeset.size + 1) # new_nodes[node] = true end nodesets << new_nodeset unless new_nodeset.empty? end nodesets end when :ancestor_or_self nodeset = step(path_stack) do nodesets = [] # new_nodes = {} nodeset.each do |node| raw_node = node.raw_node next unless raw_node.node_type == :element new_nodeset = [XPathNode.new(raw_node, position: 1)] # new_nodes[node] = true while raw_node.parent raw_node = raw_node.parent # next if new_nodes.key?(node) new_nodeset << XPathNode.new(raw_node, position: new_nodeset.size + 1) # new_nodes[node] = true end nodesets << new_nodeset unless new_nodeset.empty? end nodesets end when :descendant_or_self nodeset = step(path_stack) do descendant(nodeset, true) end when :descendant nodeset = step(path_stack) do descendant(nodeset, false) end when :following_sibling nodeset = step(path_stack) do nodesets = [] nodeset.each do |node| raw_node = node.raw_node next unless raw_node.respond_to?(:parent) next if raw_node.parent.nil? all_siblings = raw_node.parent.children current_index = all_siblings.index(raw_node) following_siblings = all_siblings[(current_index + 1)..-1] next if following_siblings.empty? nodesets << following_siblings.collect.with_index do |sibling, i| XPathNode.new(sibling, position: i + 1) end end nodesets end when :preceding_sibling nodeset = step(path_stack, order: :reverse) do nodesets = [] nodeset.each do |node| raw_node = node.raw_node next unless raw_node.respond_to?(:parent) next if raw_node.parent.nil? all_siblings = raw_node.parent.children current_index = all_siblings.index(raw_node) preceding_siblings = all_siblings[0, current_index].reverse next if preceding_siblings.empty? nodesets << preceding_siblings.collect.with_index do |sibling, i| XPathNode.new(sibling, position: i + 1) end end nodesets end when :preceding nodeset = step(path_stack, order: :reverse) do unnode(nodeset) do |node| preceding(node) end end when :following nodeset = step(path_stack) do unnode(nodeset) do |node| following(node) end end when :variable var_name = path_stack.shift return [@variables[var_name]] # :and, :or, :eq, :neq, :lt, :lteq, :gt, :gteq # TODO: Special case for :or and :and -- not evaluate the right # operand if the left alone determines result (i.e. is true for # :or and false for :and). when :eq, :neq, :lt, :lteq, :gt, :gteq, :or left = expr( path_stack.shift, nodeset.dup, context ) right = expr( path_stack.shift, nodeset.dup, context ) res = equality_relational_compare( left, op, right ) # trace(op, left, right, res) return res when :and left = expr( path_stack.shift, nodeset.dup, context ) return [] unless left if left.respond_to?(:inject) and !left.inject(false) {|a,b| a | b} return [] end right = expr( path_stack.shift, nodeset.dup, context ) res = equality_relational_compare( left, op, right ) return res when :div, :mod, :mult, :plus, :minus left = expr(path_stack.shift, nodeset, context) right = expr(path_stack.shift, nodeset, context) left = unnode(left) if left.is_a?(Array) right = unnode(right) if right.is_a?(Array) left = Functions::number(left) right = Functions::number(right) case op when :div return left / right when :mod return left % right when :mult return left * right when :plus return left + right when :minus return left - right else raise "[BUG] Unexpected operator: <#{op.inspect}>" end when :union left = expr( path_stack.shift, nodeset, context ) right = expr( path_stack.shift, nodeset, context ) left = unnode(left) if left.is_a?(Array) right = unnode(right) if right.is_a?(Array) return (left | right) when :neg res = expr( path_stack, nodeset, context ) res = unnode(res) if res.is_a?(Array) return -Functions.number(res) when :not when :function func_name = path_stack.shift.tr('-','_') arguments = path_stack.shift subcontext = context ? nil : { :size => nodeset.size } res = [] cont = context nodeset.each_with_index do |node, i| if subcontext if node.is_a?(XPathNode) subcontext[:node] = node.raw_node subcontext[:index] = node.position else subcontext[:node] = node subcontext[:index] = i end cont = subcontext end arg_clone = arguments.dclone args = arg_clone.collect do |arg| result = expr( arg, [node], cont ) result = unnode(result) if result.is_a?(Array) result end Functions.context = cont res << Functions.send( func_name, *args ) end return res else raise "[BUG] Unexpected path: <#{op.inspect}>: <#{path_stack.inspect}>" end end # while return nodeset # ensure # leave(:expr, path_stack, nodeset) end
filter_nodeset(nodeset) { |node| ... }
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# File lib/rexml/xpath_parser.rb, line 572 def filter_nodeset(nodeset) new_nodeset = [] nodeset.each do |node| next unless yield(node) new_nodeset << XPathNode.new(node, position: new_nodeset.size + 1) end new_nodeset end
following(node)
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# File lib/rexml/xpath_parser.rb, line 733 def following(node) followings = [] following_node = next_sibling_node(node) while following_node followings << XPathNode.new(following_node, position: followings.size + 1) following_node = following_node_of(following_node) end followings end
following_node_of( node )
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# File lib/rexml/xpath_parser.rb, line 744 def following_node_of( node ) if node.kind_of? Element and node.children.size > 0 return node.children[0] end return next_sibling_node(node) end
get_namespace( node, prefix )
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Returns a String namespace for a node, given a prefix The rules are:
1. Use the supplied namespace mapping first. 2. If no mapping was supplied, use the context node to look up the namespace
# File lib/rexml/xpath_parser.rb, line 152 def get_namespace( node, prefix ) if @namespaces return @namespaces[prefix] || '' else return node.namespace( prefix ) if node.node_type == :element return '' end end
leave(tag, *args)
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# File lib/rexml/xpath_parser.rb, line 630 def leave(tag, *args) @nest -= 1 trace(:leave, tag, *args) end
next_sibling_node(node)
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# File lib/rexml/xpath_parser.rb, line 751 def next_sibling_node(node) psn = node.next_sibling_node while psn.nil? if node.parent.nil? or node.parent.class == Document return nil end node = node.parent psn = node.next_sibling_node end return psn end
node_test(path_stack, nodesets, any_type: :element)
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# File lib/rexml/xpath_parser.rb, line 465 def node_test(path_stack, nodesets, any_type: :element) # enter(:node_test, path_stack, nodesets) operator = path_stack.shift case operator when :qname prefix = path_stack.shift name = path_stack.shift new_nodesets = nodesets.collect do |nodeset| filter_nodeset(nodeset) do |node| raw_node = node.raw_node case raw_node.node_type when :element if prefix.nil? raw_node.name == name elsif prefix.empty? if strict? raw_node.name == name and raw_node.namespace == "" else # FIXME: This DOUBLES the time XPath searches take ns = get_namespace(raw_node, prefix) raw_node.name == name and raw_node.namespace == ns end else # FIXME: This DOUBLES the time XPath searches take ns = get_namespace(raw_node, prefix) raw_node.name == name and raw_node.namespace == ns end when :attribute if prefix.nil? raw_node.name == name elsif prefix.empty? # FIXME: This DOUBLES the time XPath searches take raw_node.name == name and raw_node.namespace == raw_node.element.namespace else # FIXME: This DOUBLES the time XPath searches take ns = get_namespace(raw_node.element, prefix) raw_node.name == name and raw_node.namespace == ns end else false end end end when :namespace prefix = path_stack.shift new_nodesets = nodesets.collect do |nodeset| filter_nodeset(nodeset) do |node| raw_node = node.raw_node case raw_node.node_type when :element namespaces = @namespaces || raw_node.namespaces raw_node.namespace == namespaces[prefix] when :attribute namespaces = @namespaces || raw_node.element.namespaces raw_node.namespace == namespaces[prefix] else false end end end when :any new_nodesets = nodesets.collect do |nodeset| filter_nodeset(nodeset) do |node| raw_node = node.raw_node raw_node.node_type == any_type end end when :comment new_nodesets = nodesets.collect do |nodeset| filter_nodeset(nodeset) do |node| raw_node = node.raw_node raw_node.node_type == :comment end end when :text new_nodesets = nodesets.collect do |nodeset| filter_nodeset(nodeset) do |node| raw_node = node.raw_node raw_node.node_type == :text end end when :processing_instruction target = path_stack.shift new_nodesets = nodesets.collect do |nodeset| filter_nodeset(nodeset) do |node| raw_node = node.raw_node (raw_node.node_type == :processing_instruction) and (target.empty? or (raw_node.target == target)) end end when :node new_nodesets = nodesets.collect do |nodeset| filter_nodeset(nodeset) do |node| true end end else message = "[BUG] Unexpected node test: " + "<#{operator.inspect}>: <#{path_stack.inspect}>" raise message end new_nodesets # ensure # leave(:node_test, path_stack, new_nodesets) end
norm(b)
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# File lib/rexml/xpath_parser.rb, line 790 def norm b case b when true, false return b when 'true', 'false' return Functions::boolean( b ) when /^\d+(\.\d+)?$/, Numeric return Functions::number( b ) else return Functions::string( b ) end end
preceding(node)
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Builds a nodeset of all of the preceding nodes of the supplied node, in reverse document order
- preceding
-
includes every element in the document that precedes this node,
except for ancestors
# File lib/rexml/xpath_parser.rb, line 696 def preceding(node) ancestors = [] parent = node.parent while parent ancestors << parent parent = parent.parent end precedings = [] preceding_node = preceding_node_of(node) while preceding_node if ancestors.include?(preceding_node) ancestors.delete(preceding_node) else precedings << XPathNode.new(preceding_node, position: precedings.size + 1) end preceding_node = preceding_node_of(preceding_node) end precedings end
preceding_node_of( node )
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# File lib/rexml/xpath_parser.rb, line 718 def preceding_node_of( node ) psn = node.previous_sibling_node if psn.nil? if node.parent.nil? or node.parent.class == Document return nil end return node.parent #psn = preceding_node_of( node.parent ) end while psn and psn.kind_of? Element and psn.children.size > 0 psn = psn.children[-1] end psn end
sort(array_of_nodes, order)
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Reorders an array of nodes so that they are in document order It tries to do this efficiently.
FIXME: I need to get rid of this, but the issue is that most of the XPath interpreter functions as a filter, which means that we lose context going in and out of function calls. If I knew what the index of the nodes was, I wouldn't have to do this. Maybe add a document IDX for each node? Problems with mutable documents. Or, rewrite everything.
# File lib/rexml/xpath_parser.rb, line 643 def sort(array_of_nodes, order) new_arry = [] array_of_nodes.each { |node| node_idx = [] np = node.node_type == :attribute ? node.element : node while np.parent and np.parent.node_type == :element node_idx << np.parent.index( np ) np = np.parent end new_arry << [ node_idx.reverse, node ] } ordered = new_arry.sort_by do |index, node| if order == :forward index else -index end end ordered.collect do |_index, node| node end end
step(path_stack, any_type: :element, order: :forward) { || ... }
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# File lib/rexml/xpath_parser.rb, line 429 def step(path_stack, any_type: :element, order: :forward) nodesets = yield begin # enter(:step, path_stack, nodesets) nodesets = node_test(path_stack, nodesets, any_type: any_type) while path_stack[0] == :predicate path_stack.shift # :predicate predicate_expression = path_stack.shift.dclone nodesets = evaluate_predicate(predicate_expression, nodesets) end if nodesets.size == 1 ordered_nodeset = nodesets[0] else raw_nodes = [] nodesets.each do |nodeset| nodeset.each do |node| if node.respond_to?(:raw_node) raw_nodes << node.raw_node else raw_nodes << node end end end ordered_nodeset = sort(raw_nodes, order) end new_nodeset = [] ordered_nodeset.each do |node| # TODO: Remove duplicated new_nodeset << XPathNode.new(node, position: new_nodeset.size + 1) end new_nodeset # ensure # leave(:step, path_stack, new_nodeset) end end
strict?()
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# File lib/rexml/xpath_parser.rb, line 143 def strict? @strict end
trace(*args)
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# File lib/rexml/xpath_parser.rb, line 620 def trace(*args) indent = " " * @nest puts("#{indent}#{args.inspect}") end
unnode(nodeset) { |unnoded| ... }
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# File lib/rexml/xpath_parser.rb, line 905 def unnode(nodeset) nodeset.collect do |node| if node.is_a?(XPathNode) unnoded = node.raw_node else unnoded = node end unnoded = yield(unnoded) if block_given? unnoded end end