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Code Editor : wsdlencodedregistry.rb
# SOAP4R - WSDL encoded mapping registry. # Copyright (C) 2000-2003, 2005 NAKAMURA, Hiroshi <nahi@ruby-lang.org>. # This program is copyrighted free software by NAKAMURA, Hiroshi. You can # redistribute it and/or modify it under the same terms of Ruby's license; # either the dual license version in 2003, or any later version. require 'xsd/qname' require 'xsd/namedelements' require 'soap/baseData' require 'soap/mapping/mapping' require 'soap/mapping/typeMap' module SOAP module Mapping class WSDLEncodedRegistry < Registry include TraverseSupport attr_reader :definedelements attr_reader :definedtypes attr_accessor :excn_handler_obj2soap attr_accessor :excn_handler_soap2obj def initialize(definedtypes = XSD::NamedElements::Empty) @definedtypes = definedtypes # @definedelements = definedelements needed? @excn_handler_obj2soap = nil @excn_handler_soap2obj = nil # For mapping AnyType element. @rubytype_factory = RubytypeFactory.new( :allow_untyped_struct => true, :allow_original_mapping => true ) @schema_element_cache = {} end def obj2soap(obj, qname = nil) soap_obj = nil if type = @definedtypes[qname] soap_obj = obj2typesoap(obj, type) else soap_obj = any2soap(obj, qname) end return soap_obj if soap_obj if @excn_handler_obj2soap soap_obj = @excn_handler_obj2soap.call(obj) { |yield_obj| Mapping._obj2soap(yield_obj, self) } return soap_obj if soap_obj end if qname raise MappingError.new("cannot map #{obj.class.name} as #{qname}") else raise MappingError.new("cannot map #{obj.class.name} to SOAP/OM") end end # map anything for now: must refer WSDL while mapping. [ToDo] def soap2obj(node, obj_class = nil) begin return any2obj(node, obj_class) rescue MappingError end if @excn_handler_soap2obj begin return @excn_handler_soap2obj.call(node) { |yield_node| Mapping._soap2obj(yield_node, self) } rescue Exception end end raise MappingError.new("cannot map #{node.type.name} to Ruby object") end private def any2soap(obj, qname) if obj.nil? SOAPNil.new elsif qname.nil? or qname == XSD::AnyTypeName @rubytype_factory.obj2soap(nil, obj, nil, self) elsif obj.is_a?(XSD::NSDBase) soap2soap(obj, qname) elsif (type = TypeMap[qname]) base2soap(obj, type) else nil end end def soap2soap(obj, type_qname) if obj.is_a?(SOAPBasetype) obj elsif obj.is_a?(SOAPStruct) && (type = @definedtypes[type_qname]) soap_obj = obj mark_marshalled_obj(obj, soap_obj) elements2soap(obj, soap_obj, type.content.elements) soap_obj elsif obj.is_a?(SOAPArray) && (type = @definedtypes[type_qname]) soap_obj = obj contenttype = type.child_type mark_marshalled_obj(obj, soap_obj) obj.replace do |ele| Mapping._obj2soap(ele, self, contenttype) end soap_obj else nil end end def obj2typesoap(obj, type) if type.is_a?(::WSDL::XMLSchema::SimpleType) simpleobj2soap(obj, type) else complexobj2soap(obj, type) end end def simpleobj2soap(obj, type) type.check_lexical_format(obj) return SOAPNil.new if obj.nil? # ToDo: check nillable. o = base2soap(obj, TypeMap[type.base]) o end def complexobj2soap(obj, type) case type.compoundtype when :TYPE_STRUCT struct2soap(obj, type.name, type) when :TYPE_ARRAY array2soap(obj, type.name, type) when :TYPE_MAP map2soap(obj, type.name, type) when :TYPE_SIMPLE simpleobj2soap(obj, type.simplecontent) when :TYPE_EMPTY raise MappingError.new("should be empty") unless obj.nil? SOAPNil.new else raise MappingError.new("unknown compound type: #{type.compoundtype}") end end def base2soap(obj, type) soap_obj = nil if type <= XSD::XSDString str = XSD::Charset.encoding_conv(obj.to_s, Thread.current[:SOAPExternalCES], XSD::Charset.encoding) soap_obj = type.new(str) mark_marshalled_obj(obj, soap_obj) else soap_obj = type.new(obj) end soap_obj end def struct2soap(obj, type_qname, type) return SOAPNil.new if obj.nil? # ToDo: check nillable. soap_obj = SOAPStruct.new(type_qname) unless obj.nil? mark_marshalled_obj(obj, soap_obj) elements2soap(obj, soap_obj, type.content.elements) end soap_obj end def array2soap(obj, type_qname, type) return SOAPNil.new if obj.nil? # ToDo: check nillable. arytype = type.child_type soap_obj = SOAPArray.new(ValueArrayName, 1, arytype) unless obj.nil? mark_marshalled_obj(obj, soap_obj) obj.each do |item| soap_obj.add(Mapping._obj2soap(item, self, arytype)) end end soap_obj end MapKeyName = XSD::QName.new(nil, "key") MapValueName = XSD::QName.new(nil, "value") def map2soap(obj, type_qname, type) return SOAPNil.new if obj.nil? # ToDo: check nillable. keytype = type.child_type(MapKeyName) || XSD::AnyTypeName valuetype = type.child_type(MapValueName) || XSD::AnyTypeName soap_obj = SOAPStruct.new(MapQName) unless obj.nil? mark_marshalled_obj(obj, soap_obj) obj.each do |key, value| elem = SOAPStruct.new elem.add("key", Mapping._obj2soap(key, self, keytype)) elem.add("value", Mapping._obj2soap(value, self, valuetype)) # ApacheAxis allows only 'item' here. soap_obj.add("item", elem) end end soap_obj end def elements2soap(obj, soap_obj, elements) elements.each do |element| name = element.name.name child_obj = Mapping.get_attribute(obj, name) soap_obj.add(name, Mapping._obj2soap(child_obj, self, element.type || element.name)) end end def any2obj(node, obj_class) unless obj_class typestr = XSD::CodeGen::GenSupport.safeconstname(node.elename.name) obj_class = Mapping.class_from_name(typestr) end if obj_class and obj_class.class_variables.include?('@@schema_element') soap2stubobj(node, obj_class) else Mapping._soap2obj(node, Mapping::DefaultRegistry, obj_class) end end def soap2stubobj(node, obj_class) obj = Mapping.create_empty_object(obj_class) unless node.is_a?(SOAPNil) add_elements2stubobj(node, obj) end obj end def add_elements2stubobj(node, obj) elements, as_array = schema_element_definition(obj.class) vars = {} node.each do |name, value| item = elements.find { |k, v| k.name == name } if item elename, class_name = item if klass = Mapping.class_from_name(class_name) # klass must be a SOAPBasetype or a class if klass.ancestors.include?(::SOAP::SOAPBasetype) if value.respond_to?(:data) child = klass.new(value.data).data else child = klass.new(nil).data end else child = Mapping._soap2obj(value, self, klass) end elsif klass = Mapping.module_from_name(class_name) # simpletype if value.respond_to?(:data) child = value.data else raise MappingError.new( "cannot map to a module value: #{class_name}") end else raise MappingError.new("unknown class: #{class_name}") end else # untyped element is treated as anyType. child = Mapping._soap2obj(value, self) end vars[name] = child end Mapping.set_attributes(obj, vars) end # it caches @@schema_element. this means that @@schema_element must not be # changed while a lifetime of a WSDLLiteralRegistry. def schema_element_definition(klass) @schema_element_cache[klass] ||= Mapping.schema_element_definition(klass) end end end end
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