def to_tree(self, tagname): """ Return as XML node """ el = Element(tagname) el.text = unicode(self) return el
def to_tree(self, tagname, obj, namespace=None): """ Convert the sequence represented by the descriptor to an XML element """ for idx, v in enumerate(obj, self.idx_base): if hasattr(v, "to_tree"): el = v.to_tree(tagname, idx) else: tagname = namespaced(obj, tagname, namespace) el = Element(tagname) el.text = safe_string(v) yield el
def to_tree(self, tagname=None, idx=None, namespace=None): if tagname is None: tagname = self.tagname # keywords have to be masked if tagname.startswith("_"): tagname = tagname[1:] tagname = namespaced(self, tagname, namespace) namespace = getattr(self, "namespace", namespace) attrs = dict(self) for key, ns in self.__namespaced__: if key in attrs: attrs[ns] = attrs[key] del attrs[key] el = Element(tagname, attrs) if "attr_text" in self.__attrs__: el.text = safe_string(getattr(self, "attr_text")) for child_tag in self.__elements__: desc = getattr(self.__class__, child_tag, None) obj = getattr(self, child_tag) if isinstance(obj, seq_types): if isinstance(desc, NestedSequence): # wrap sequence in container if not obj: continue nodes = [desc.to_tree(child_tag, obj, namespace)] elif isinstance(desc, Sequence): # sequence desc.idx_base = self.idx_base nodes = (desc.to_tree(child_tag, obj, namespace)) else: # property nodes = (v.to_tree(child_tag, namespace) for v in obj) for node in nodes: el.append(node) else: if child_tag in self.__nested__: node = desc.to_tree(child_tag, obj, namespace) elif obj is None: continue else: node = obj.to_tree(child_tag) if node is not None: el.append(node) return el