# frozen_string_literal: false module REXML # If you add a method, keep in mind two things: # (1) the first argument will always be a list of nodes from which to # filter. In the case of context methods (such as position), the function # should return an array with a value for each child in the array. # (2) all method calls from XML will have "-" replaced with "_". # Therefore, in XML, "local-name()" is identical (and actually becomes) # "local_name()" module Functions @@available_functions = {} @@context = nil @@namespace_context = {} @@variables = {} INTERNAL_METHODS = [ :namespace_context, :namespace_context=, :variables, :variables=, :context=, :get_namespace, :send, ] class << self def singleton_method_added(name) unless INTERNAL_METHODS.include?(name) @@available_functions[name] = true end end end def Functions::namespace_context=(x) ; @@namespace_context=x ; end def Functions::variables=(x) ; @@variables=x ; end def Functions::namespace_context ; @@namespace_context ; end def Functions::variables ; @@variables ; end def Functions::context=(value); @@context = value; end def Functions::text( ) if @@context[:node].node_type == :element return @@context[:node].find_all{|n| n.node_type == :text}.collect{|n| n.value} elsif @@context[:node].node_type == :text return @@context[:node].value else return false end end # Returns the last node of the given list of nodes. def Functions::last( ) @@context[:size] end def Functions::position( ) @@context[:index] end # Returns the size of the given list of nodes. def Functions::count( node_set ) node_set.size end # Since REXML is non-validating, this method is not implemented as it # requires a DTD def Functions::id( object ) end def Functions::local_name(node_set=nil) get_namespace(node_set) do |node| return node.local_name end "" end def Functions::namespace_uri( node_set=nil ) get_namespace( node_set ) {|node| node.namespace} end def Functions::name( node_set=nil ) get_namespace( node_set ) do |node| node.expanded_name end end # Helper method. def Functions::get_namespace( node_set = nil ) if node_set == nil yield @@context[:node] if @@context[:node].respond_to?(:namespace) else if node_set.respond_to? :each result = [] node_set.each do |node| result << yield(node) if node.respond_to?(:namespace) end result elsif node_set.respond_to? :namespace yield node_set end end end # A node-set is converted to a string by returning the string-value of the # node in the node-set that is first in document order. If the node-set is # empty, an empty string is returned. # # A number is converted to a string as follows # # NaN is converted to the string NaN # # positive zero is converted to the string 0 # # negative zero is converted to the string 0 # # positive infinity is converted to the string Infinity # # negative infinity is converted to the string -Infinity # # if the number is an integer, the number is represented in decimal form # as a Number with no decimal point and no leading zeros, preceded by a # minus sign (-) if the number is negative # # otherwise, the number is represented in decimal form as a Number # including a decimal point with at least one digit before the decimal # point and at least one digit after the decimal point, preceded by a # minus sign (-) if the number is negative; there must be no leading zeros # before the decimal point apart possibly from the one required digit # immediately before the decimal point; beyond the one required digit # after the decimal point there must be as many, but only as many, more # digits as are needed to uniquely distinguish the number from all other # IEEE 754 numeric values. # # The boolean false value is converted to the string false. The boolean # true value is converted to the string true. # # An object of a type other than the four basic types is converted to a # string in a way that is dependent on that type. def Functions::string( object=@@context[:node] ) if object.respond_to?(:node_type) case object.node_type when :attribute object.value when :element string_value(object) when :document string_value(object.root) when :processing_instruction object.content else object.to_s end else case object when Array string(object[0]) when Float if object.nan? "NaN" else integer = object.to_i if object == integer "%d" % integer else object.to_s end end else object.to_s end end end # A node-set is converted to a string by # returning the concatenation of the string-value # of each of the children of the node in the # node-set that is first in document order. # If the node-set is empty, an empty string is returned. def Functions::string_value( o ) rv = "" o.children.each { |e| if e.node_type == :text rv << e.to_s elsif e.node_type == :element rv << string_value( e ) end } rv end def Functions::concat( *objects ) concatenated = "" objects.each do |object| concatenated << string(object) end concatenated end # Fixed by Mike Stok def Functions::starts_with( string, test ) string(string).index(string(test)) == 0 end # Fixed by Mike Stok def Functions::contains( string, test ) string(string).include?(string(test)) end # Kouhei fixed this def Functions::substring_before( string, test ) ruby_string = string(string) ruby_index = ruby_string.index(string(test)) if ruby_index.nil? "" else ruby_string[ 0...ruby_index ] end end # Kouhei fixed this too def Functions::substring_after( string, test ) ruby_string = string(string) return $1 if ruby_string =~ /#{test}(.*)/ "" end # Take equal portions of Mike Stok and Sean Russell; mix # vigorously, and pour into a tall, chilled glass. Serves 10,000. def Functions::substring( string, start, length=nil ) ruby_string = string(string) ruby_length = if length.nil? ruby_string.length.to_f else number(length) end ruby_start = number(start) # Handle the special cases return '' if ( ruby_length.nan? or ruby_start.nan? or ruby_start.infinite? ) infinite_length = ruby_length.infinite? == 1 ruby_length = ruby_string.length if infinite_length # Now, get the bounds. The XPath bounds are 1..length; the ruby bounds # are 0..length. Therefore, we have to offset the bounds by one. ruby_start = round(ruby_start) - 1 ruby_length = round(ruby_length) if ruby_start < 0 ruby_length += ruby_start unless infinite_length ruby_start = 0 end return '' if ruby_length <= 0 ruby_string[ruby_start,ruby_length] end # UNTESTED def Functions::string_length( string ) string(string).length end # UNTESTED def Functions::normalize_space( string=nil ) string = string(@@context[:node]) if string.nil? if string.kind_of? Array string.collect{|x| string.to_s.strip.gsub(/\s+/um, ' ') if string} else string.to_s.strip.gsub(/\s+/um, ' ') end end # This is entirely Mike Stok's beast def Functions::translate( string, tr1, tr2 ) from = string(tr1) to = string(tr2) # the map is our translation table. # # if a character occurs more than once in the # from string then we ignore the second & # subsequent mappings # # if a character maps to nil then we delete it # in the output. This happens if the from # string is longer than the to string # # there's nothing about - or ^ being special in # http://www.w3.org/TR/xpath#function-translate # so we don't build ranges or negated classes map = Hash.new 0.upto(from.length - 1) { |pos| from_char = from[pos] unless map.has_key? from_char map[from_char] = if pos < to.length to[pos] else nil end end } if ''.respond_to? :chars string(string).chars.collect { |c| if map.has_key? c then map[c] else c end }.compact.join else string(string).unpack('U*').collect { |c| if map.has_key? c then map[c] else c end }.compact.pack('U*') end end def Functions::boolean(object=@@context[:node]) case object when true, false object when Float return false if object.zero? return false if object.nan? true when Numeric not object.zero? when String not object.empty? when Array not object.empty? else object ? true : false end end # UNTESTED def Functions::not( object ) not boolean( object ) end # UNTESTED def Functions::true( ) true end # UNTESTED def Functions::false( ) false end # UNTESTED def Functions::lang( language ) lang = false node = @@context[:node] attr = nil until node.nil? if node.node_type == :element attr = node.attributes["xml:lang"] unless attr.nil? lang = compare_language(string(language), attr) break else end end node = node.parent end lang end def Functions::compare_language lang1, lang2 lang2.downcase.index(lang1.downcase) == 0 end # a string that consists of optional whitespace followed by an optional # minus sign followed by a Number followed by whitespace is converted to # the IEEE 754 number that is nearest (according to the IEEE 754 # round-to-nearest rule) to the mathematical value represented by the # string; any other string is converted to NaN # # boolean true is converted to 1; boolean false is converted to 0 # # a node-set is first converted to a string as if by a call to the string # function and then converted in the same way as a string argument # # an object of a type other than the four basic types is converted to a # number in a way that is dependent on that type def Functions::number(object=@@context[:node]) case object when true Float(1) when false Float(0) when Array number(string(object)) when Numeric object.to_f else str = string(object) case str.strip when /\A\s*(-?(?:\d+(?:\.\d*)?|\.\d+))\s*\z/ $1.to_f else Float::NAN end end end def Functions::sum( nodes ) nodes = [nodes] unless nodes.kind_of? Array nodes.inject(0) { |r,n| r + number(string(n)) } end def Functions::floor( number ) number(number).floor end def Functions::ceiling( number ) number(number).ceil end def Functions::round( number ) number = number(number) begin neg = number.negative? number = number.abs.round neg ? -number : number rescue FloatDomainError number end end def Functions::processing_instruction( node ) node.node_type == :processing_instruction end def Functions::send(name, *args) if @@available_functions[name.to_sym] super else # TODO: Maybe, this is not XPath spec behavior. # This behavior must be reconsidered. XPath.match(@@context[:node], name.to_s) end end end end