def process(self, data, type, history): """ process the specified type then process its children """ if type in history: return if type.enum(): return history.append(type) resolved = type.resolve() value = None if type.multi_occurrence(): value = [] else: if len(resolved) > 0: if resolved.mixed(): value = Factory.property(resolved.name) md = value.__metadata__ md.sxtype = resolved else: value = Factory.object(resolved.name) md = value.__metadata__ md.sxtype = resolved md.ordering = self.ordering(resolved) setattr( data, type.name, value if not type.optional() or type.multi_occurrence() else None) if value is not None: data = value if not isinstance(data, list): self.add_attributes(data, resolved) for child, ancestry in resolved.children(): if self.skip_child(child, ancestry): continue self.process(data, child, history[:])
def build(self, name): """ build a an object for the specified typename as defined in the schema """ if isinstance(name, str): type = self.resolver.find(name) if type is None: raise TypeNotFound(name) else: type = name cls = type.name if type.mixed(): data = Factory.property(cls) else: data = Factory.object(cls) resolved = type.resolve() md = data.__metadata__ md.sxtype = resolved md.ordering = self.ordering(resolved) history = [] self.add_attributes(data, resolved) for child, ancestry in type.children(): if self.skip_child(child, ancestry): continue self.process(data, child, history[:]) return data
def translate(self, content): """ Translate using the XSD type information. Python I{dict} is translated to a suds object. Most importantly, primitive values are translated from python to XML types using the XSD type. @param content: Content to translate. @type content: L{Object} @return: self @rtype: L{Typed} """ v = content.value if v is None: return if isinstance(v, dict): cls = content.real.name content.value = Factory.object(cls, v) md = content.value.__metadata__ md.sxtype = content.type return v = content.real.translate(v, False) content.value = v return self
def start(self, content): """ Processing on I{node} has started. Build and return the proper object. @param content: The current content being unmarshalled. @type content: L{Content} @return: A subclass of Object. @rtype: L{Object} """ content.data = Factory.object(content.node.name)
def cast(self, content): """ Cast the I{untyped} list items found in content I{value}. Each items contained in the list is checked for XSD type information. Items (values) that are I{untyped}, are replaced with suds objects and type I{metadata} is added. @param content: The content holding the collection. @type content: L{Content} @return: self @rtype: L{Encoded} """ aty = content.aty[1] resolved = content.type.resolve() array = Factory.object(resolved.name) array.item = [] query = TypeQuery(aty) ref = query.execute(self.schema) if ref is None: raise TypeNotFound(qref) for x in content.value: if isinstance(x, (list, tuple)): array.item.append(x) continue if isinstance(x, Object): md = x.__metadata__ md.sxtype = ref array.item.append(x) continue if isinstance(x, dict): x = Factory.object(ref.name, x) md = x.__metadata__ md.sxtype = ref array.item.append(x) continue x = Factory.property(ref.name, x) md = x.__metadata__ md.sxtype = ref array.item.append(x) content.value = array return self
def replycomposite(self, rtypes, nodes): """ Construct a I{composite} reply. Called for replies with multiple output nodes. @param rtypes: A list of known return I{types}. @type rtypes: [L{suds.xsd.sxbase.SchemaObject},...] @param nodes: A collection of XML nodes. @type nodes: [L{Element},...] @return: The I{unmarshalled} composite object. @rtype: L{Object},... """ dictionary = {} for rt in rtypes: dictionary[rt.name] = rt unmarshaller = self.unmarshaller() composite = Factory.object("reply") for node in nodes: tag = node.name rt = dictionary.get(tag) if rt is None: if node.get("id") is None and not self.options( ).allowUnknownMessageParts: message = "<%s/> not mapped to message part" % (tag, ) raise Exception(message) continue resolved = rt.resolve(nobuiltin=True) sobject = unmarshaller.process(node, resolved) value = getattr(composite, tag, None) if value is None: if rt.multi_occurrence(): value = [] setattr(composite, tag, value) value.append(sobject) else: setattr(composite, tag, sobject) else: if not isinstance(value, list): value = [ value, ] setattr(composite, tag, value) value.append(sobject) return composite
def start(self, content): # # Resolve to the schema type; build an object and setup metadata. # if content.type is None: found = self.resolver.find(content.node) if found is None: log.error(self.resolver.schema) raise TypeNotFound(content.node.qname()) content.type = found else: known = self.resolver.known(content.node) frame = Frame(content.type, resolved=known) self.resolver.push(frame) real = self.resolver.top().resolved content.real = real cls_name = real.name if cls_name is None: cls_name = content.node.name content.data = Factory.object(cls_name) md = content.data.__metadata__ md.sxtype = real
def postprocess(self, content): """ Perform final processing of the resulting data structure as follows: - Mixed values (children and text) will have a result of the I{content.node}. - Simi-simple values (attributes, no-children and text) will have a result of a property object. - Simple values (no-attributes, no-children with text nodes) will have a string result equal to the value of the content.node.getText(). @param content: The current content being unmarshalled. @type content: L{Content} @return: The post-processed result. @rtype: I{any} """ node = content.node if len(node.children) and node.hasText(): return node attributes = AttrList(node.attributes) if attributes.rlen() and \ not len(node.children) and \ node.hasText(): p = Factory.property(node.name, node.getText()) return merge(content.data, p) if len(content.data): return content.data lang = attributes.lang() if content.node.isnil(): return None if not len(node.children) and content.text is None: if self.nillable(content): return None else: return Text('', lang=lang) if isinstance(content.text, str): return Text(content.text, lang=lang) else: return content.text