diff options
Diffstat (limited to 'Lib/xml/dom/minidom.py')
-rw-r--r-- | Lib/xml/dom/minidom.py | 1936 |
1 files changed, 1936 insertions, 0 deletions
diff --git a/Lib/xml/dom/minidom.py b/Lib/xml/dom/minidom.py new file mode 100644 index 0000000..3a35781 --- /dev/null +++ b/Lib/xml/dom/minidom.py @@ -0,0 +1,1936 @@ +"""\ +minidom.py -- a lightweight DOM implementation. + +parse("foo.xml") + +parseString("<foo><bar/></foo>") + +Todo: +===== + * convenience methods for getting elements and text. + * more testing + * bring some of the writer and linearizer code into conformance with this + interface + * SAX 2 namespaces +""" + +import xml.dom + +from xml.dom import EMPTY_NAMESPACE, EMPTY_PREFIX, XMLNS_NAMESPACE, domreg +from xml.dom.minicompat import * +from xml.dom.xmlbuilder import DOMImplementationLS, DocumentLS + +# This is used by the ID-cache invalidation checks; the list isn't +# actually complete, since the nodes being checked will never be the +# DOCUMENT_NODE or DOCUMENT_FRAGMENT_NODE. (The node being checked is +# the node being added or removed, not the node being modified.) +# +_nodeTypes_with_children = (xml.dom.Node.ELEMENT_NODE, + xml.dom.Node.ENTITY_REFERENCE_NODE) + + +class Node(xml.dom.Node): + namespaceURI = None # this is non-null only for elements and attributes + parentNode = None + ownerDocument = None + nextSibling = None + previousSibling = None + + prefix = EMPTY_PREFIX # non-null only for NS elements and attributes + + def __nonzero__(self): + return True + + def toxml(self, encoding = None): + return self.toprettyxml("", "", encoding) + + def toprettyxml(self, indent="\t", newl="\n", encoding = None): + # indent = the indentation string to prepend, per level + # newl = the newline string to append + writer = _get_StringIO() + if encoding is not None: + import codecs + # Can't use codecs.getwriter to preserve 2.0 compatibility + writer = codecs.lookup(encoding)[3](writer) + if self.nodeType == Node.DOCUMENT_NODE: + # Can pass encoding only to document, to put it into XML header + self.writexml(writer, "", indent, newl, encoding) + else: + self.writexml(writer, "", indent, newl) + return writer.getvalue() + + def hasChildNodes(self): + if self.childNodes: + return True + else: + return False + + def _get_childNodes(self): + return self.childNodes + + def _get_firstChild(self): + if self.childNodes: + return self.childNodes[0] + + def _get_lastChild(self): + if self.childNodes: + return self.childNodes[-1] + + def insertBefore(self, newChild, refChild): + if newChild.nodeType == self.DOCUMENT_FRAGMENT_NODE: + for c in tuple(newChild.childNodes): + self.insertBefore(c, refChild) + ### The DOM does not clearly specify what to return in this case + return newChild + if newChild.nodeType not in self._child_node_types: + raise xml.dom.HierarchyRequestErr( + "%s cannot be child of %s" % (repr(newChild), repr(self))) + if newChild.parentNode is not None: + newChild.parentNode.removeChild(newChild) + if refChild is None: + self.appendChild(newChild) + else: + try: + index = self.childNodes.index(refChild) + except ValueError: + raise xml.dom.NotFoundErr() + if newChild.nodeType in _nodeTypes_with_children: + _clear_id_cache(self) + self.childNodes.insert(index, newChild) + newChild.nextSibling = refChild + refChild.previousSibling = newChild + if index: + node = self.childNodes[index-1] + node.nextSibling = newChild + newChild.previousSibling = node + else: + newChild.previousSibling = None + newChild.parentNode = self + return newChild + + def appendChild(self, node): + if node.nodeType == self.DOCUMENT_FRAGMENT_NODE: + for c in tuple(node.childNodes): + self.appendChild(c) + ### The DOM does not clearly specify what to return in this case + return node + if node.nodeType not in self._child_node_types: + raise xml.dom.HierarchyRequestErr( + "%s cannot be child of %s" % (repr(node), repr(self))) + elif node.nodeType in _nodeTypes_with_children: + _clear_id_cache(self) + if node.parentNode is not None: + node.parentNode.removeChild(node) + _append_child(self, node) + node.nextSibling = None + return node + + def replaceChild(self, newChild, oldChild): + if newChild.nodeType == self.DOCUMENT_FRAGMENT_NODE: + refChild = oldChild.nextSibling + self.removeChild(oldChild) + return self.insertBefore(newChild, refChild) + if newChild.nodeType not in self._child_node_types: + raise xml.dom.HierarchyRequestErr( + "%s cannot be child of %s" % (repr(newChild), repr(self))) + if newChild is oldChild: + return + if newChild.parentNode is not None: + newChild.parentNode.removeChild(newChild) + try: + index = self.childNodes.index(oldChild) + except ValueError: + raise xml.dom.NotFoundErr() + self.childNodes[index] = newChild + newChild.parentNode = self + oldChild.parentNode = None + if (newChild.nodeType in _nodeTypes_with_children + or oldChild.nodeType in _nodeTypes_with_children): + _clear_id_cache(self) + newChild.nextSibling = oldChild.nextSibling + newChild.previousSibling = oldChild.previousSibling + oldChild.nextSibling = None + oldChild.previousSibling = None + if newChild.previousSibling: + newChild.previousSibling.nextSibling = newChild + if newChild.nextSibling: + newChild.nextSibling.previousSibling = newChild + return oldChild + + def removeChild(self, oldChild): + try: + self.childNodes.remove(oldChild) + except ValueError: + raise xml.dom.NotFoundErr() + if oldChild.nextSibling is not None: + oldChild.nextSibling.previousSibling = oldChild.previousSibling + if oldChild.previousSibling is not None: + oldChild.previousSibling.nextSibling = oldChild.nextSibling + oldChild.nextSibling = oldChild.previousSibling = None + if oldChild.nodeType in _nodeTypes_with_children: + _clear_id_cache(self) + + oldChild.parentNode = None + return oldChild + + def normalize(self): + L = [] + for child in self.childNodes: + if child.nodeType == Node.TEXT_NODE: + data = child.data + if data and L and L[-1].nodeType == child.nodeType: + # collapse text node + node = L[-1] + node.data = node.data + child.data + node.nextSibling = child.nextSibling + child.unlink() + elif data: + if L: + L[-1].nextSibling = child + child.previousSibling = L[-1] + else: + child.previousSibling = None + L.append(child) + else: + # empty text node; discard + child.unlink() + else: + if L: + L[-1].nextSibling = child + child.previousSibling = L[-1] + else: + child.previousSibling = None + L.append(child) + if child.nodeType == Node.ELEMENT_NODE: + child.normalize() + self.childNodes[:] = L + + def cloneNode(self, deep): + return _clone_node(self, deep, self.ownerDocument or self) + + def isSupported(self, feature, version): + return self.ownerDocument.implementation.hasFeature(feature, version) + + def _get_localName(self): + # Overridden in Element and Attr where localName can be Non-Null + return None + + # Node interfaces from Level 3 (WD 9 April 2002) + + def isSameNode(self, other): + return self is other + + def getInterface(self, feature): + if self.isSupported(feature, None): + return self + else: + return None + + # The "user data" functions use a dictionary that is only present + # if some user data has been set, so be careful not to assume it + # exists. + + def getUserData(self, key): + try: + return self._user_data[key][0] + except (AttributeError, KeyError): + return None + + def setUserData(self, key, data, handler): + old = None + try: + d = self._user_data + except AttributeError: + d = {} + self._user_data = d + if d.has_key(key): + old = d[key][0] + if data is None: + # ignore handlers passed for None + handler = None + if old is not None: + del d[key] + else: + d[key] = (data, handler) + return old + + def _call_user_data_handler(self, operation, src, dst): + if hasattr(self, "_user_data"): + for key, (data, handler) in self._user_data.items(): + if handler is not None: + handler.handle(operation, key, data, src, dst) + + # minidom-specific API: + + def unlink(self): + self.parentNode = self.ownerDocument = None + if self.childNodes: + for child in self.childNodes: + child.unlink() + self.childNodes = NodeList() + self.previousSibling = None + self.nextSibling = None + +defproperty(Node, "firstChild", doc="First child node, or None.") +defproperty(Node, "lastChild", doc="Last child node, or None.") +defproperty(Node, "localName", doc="Namespace-local name of this node.") + + +def _append_child(self, node): + # fast path with less checks; usable by DOM builders if careful + childNodes = self.childNodes + if childNodes: + last = childNodes[-1] + node.__dict__["previousSibling"] = last + last.__dict__["nextSibling"] = node + childNodes.append(node) + node.__dict__["parentNode"] = self + +def _in_document(node): + # return True iff node is part of a document tree + while node is not None: + if node.nodeType == Node.DOCUMENT_NODE: + return True + node = node.parentNode + return False + +def _write_data(writer, data): + "Writes datachars to writer." + data = data.replace("&", "&").replace("<", "<") + data = data.replace("\"", """).replace(">", ">") + writer.write(data) + +def _get_elements_by_tagName_helper(parent, name, rc): + for node in parent.childNodes: + if node.nodeType == Node.ELEMENT_NODE and \ + (name == "*" or node.tagName == name): + rc.append(node) + _get_elements_by_tagName_helper(node, name, rc) + return rc + +def _get_elements_by_tagName_ns_helper(parent, nsURI, localName, rc): + for node in parent.childNodes: + if node.nodeType == Node.ELEMENT_NODE: + if ((localName == "*" or node.localName == localName) and + (nsURI == "*" or node.namespaceURI == nsURI)): + rc.append(node) + _get_elements_by_tagName_ns_helper(node, nsURI, localName, rc) + return rc + +class DocumentFragment(Node): + nodeType = Node.DOCUMENT_FRAGMENT_NODE + nodeName = "#document-fragment" + nodeValue = None + attributes = None + parentNode = None + _child_node_types = (Node.ELEMENT_NODE, + Node.TEXT_NODE, + Node.CDATA_SECTION_NODE, + Node.ENTITY_REFERENCE_NODE, + Node.PROCESSING_INSTRUCTION_NODE, + Node.COMMENT_NODE, + Node.NOTATION_NODE) + + def __init__(self): + self.childNodes = NodeList() + + +class Attr(Node): + nodeType = Node.ATTRIBUTE_NODE + attributes = None + ownerElement = None + specified = False + _is_id = False + + _child_node_types = (Node.TEXT_NODE, Node.ENTITY_REFERENCE_NODE) + + def __init__(self, qName, namespaceURI=EMPTY_NAMESPACE, localName=None, + prefix=None): + # skip setattr for performance + d = self.__dict__ + d["nodeName"] = d["name"] = qName + d["namespaceURI"] = namespaceURI + d["prefix"] = prefix + d['childNodes'] = NodeList() + + # Add the single child node that represents the value of the attr + self.childNodes.append(Text()) + + # nodeValue and value are set elsewhere + + def _get_localName(self): + return self.nodeName.split(":", 1)[-1] + + def _get_name(self): + return self.name + + def _get_specified(self): + return self.specified + + def __setattr__(self, name, value): + d = self.__dict__ + if name in ("value", "nodeValue"): + d["value"] = d["nodeValue"] = value + d2 = self.childNodes[0].__dict__ + d2["data"] = d2["nodeValue"] = value + if self.ownerElement is not None: + _clear_id_cache(self.ownerElement) + elif name in ("name", "nodeName"): + d["name"] = d["nodeName"] = value + if self.ownerElement is not None: + _clear_id_cache(self.ownerElement) + else: + d[name] = value + + def _set_prefix(self, prefix): + nsuri = self.namespaceURI + if prefix == "xmlns": + if nsuri and nsuri != XMLNS_NAMESPACE: + raise xml.dom.NamespaceErr( + "illegal use of 'xmlns' prefix for the wrong namespace") + d = self.__dict__ + d['prefix'] = prefix + if prefix is None: + newName = self.localName + else: + newName = "%s:%s" % (prefix, self.localName) + if self.ownerElement: + _clear_id_cache(self.ownerElement) + d['nodeName'] = d['name'] = newName + + def _set_value(self, value): + d = self.__dict__ + d['value'] = d['nodeValue'] = value + if self.ownerElement: + _clear_id_cache(self.ownerElement) + self.childNodes[0].data = value + + def unlink(self): + # This implementation does not call the base implementation + # since most of that is not needed, and the expense of the + # method call is not warranted. We duplicate the removal of + # children, but that's all we needed from the base class. + elem = self.ownerElement + if elem is not None: + del elem._attrs[self.nodeName] + del elem._attrsNS[(self.namespaceURI, self.localName)] + if self._is_id: + self._is_id = False + elem._magic_id_nodes -= 1 + self.ownerDocument._magic_id_count -= 1 + for child in self.childNodes: + child.unlink() + del self.childNodes[:] + + def _get_isId(self): + if self._is_id: + return True + doc = self.ownerDocument + elem = self.ownerElement + if doc is None or elem is None: + return False + + info = doc._get_elem_info(elem) + if info is None: + return False + if self.namespaceURI: + return info.isIdNS(self.namespaceURI, self.localName) + else: + return info.isId(self.nodeName) + + def _get_schemaType(self): + doc = self.ownerDocument + elem = self.ownerElement + if doc is None or elem is None: + return _no_type + + info = doc._get_elem_info(elem) + if info is None: + return _no_type + if self.namespaceURI: + return info.getAttributeTypeNS(self.namespaceURI, self.localName) + else: + return info.getAttributeType(self.nodeName) + +defproperty(Attr, "isId", doc="True if this attribute is an ID.") +defproperty(Attr, "localName", doc="Namespace-local name of this attribute.") +defproperty(Attr, "schemaType", doc="Schema type for this attribute.") + + +class NamedNodeMap(object): + """The attribute list is a transient interface to the underlying + dictionaries. Mutations here will change the underlying element's + dictionary. + + Ordering is imposed artificially and does not reflect the order of + attributes as found in an input document. + """ + + __slots__ = ('_attrs', '_attrsNS', '_ownerElement') + + def __init__(self, attrs, attrsNS, ownerElement): + self._attrs = attrs + self._attrsNS = attrsNS + self._ownerElement = ownerElement + + def _get_length(self): + return len(self._attrs) + + def item(self, index): + try: + return self[self._attrs.keys()[index]] + except IndexError: + return None + + def items(self): + L = [] + for node in self._attrs.values(): + L.append((node.nodeName, node.value)) + return L + + def itemsNS(self): + L = [] + for node in self._attrs.values(): + L.append(((node.namespaceURI, node.localName), node.value)) + return L + + def has_key(self, key): + if isinstance(key, StringTypes): + return self._attrs.has_key(key) + else: + return self._attrsNS.has_key(key) + + def keys(self): + return self._attrs.keys() + + def keysNS(self): + return self._attrsNS.keys() + + def values(self): + return self._attrs.values() + + def get(self, name, value=None): + return self._attrs.get(name, value) + + __len__ = _get_length + + def __cmp__(self, other): + if self._attrs is getattr(other, "_attrs", None): + return 0 + else: + return cmp(id(self), id(other)) + + def __getitem__(self, attname_or_tuple): + if isinstance(attname_or_tuple, tuple): + return self._attrsNS[attname_or_tuple] + else: + return self._attrs[attname_or_tuple] + + # same as set + def __setitem__(self, attname, value): + if isinstance(value, StringTypes): + try: + node = self._attrs[attname] + except KeyError: + node = Attr(attname) + node.ownerDocument = self._ownerElement.ownerDocument + self.setNamedItem(node) + node.value = value + else: + if not isinstance(value, Attr): + raise TypeError, "value must be a string or Attr object" + node = value + self.setNamedItem(node) + + def getNamedItem(self, name): + try: + return self._attrs[name] + except KeyError: + return None + + def getNamedItemNS(self, namespaceURI, localName): + try: + return self._attrsNS[(namespaceURI, localName)] + except KeyError: + return None + + def removeNamedItem(self, name): + n = self.getNamedItem(name) + if n is not None: + _clear_id_cache(self._ownerElement) + del self._attrs[n.nodeName] + del self._attrsNS[(n.namespaceURI, n.localName)] + if n.__dict__.has_key('ownerElement'): + n.__dict__['ownerElement'] = None + return n + else: + raise xml.dom.NotFoundErr() + + def removeNamedItemNS(self, namespaceURI, localName): + n = self.getNamedItemNS(namespaceURI, localName) + if n is not None: + _clear_id_cache(self._ownerElement) + del self._attrsNS[(n.namespaceURI, n.localName)] + del self._attrs[n.nodeName] + if n.__dict__.has_key('ownerElement'): + n.__dict__['ownerElement'] = None + return n + else: + raise xml.dom.NotFoundErr() + + def setNamedItem(self, node): + if not isinstance(node, Attr): + raise xml.dom.HierarchyRequestErr( + "%s cannot be child of %s" % (repr(node), repr(self))) + old = self._attrs.get(node.name) + if old: + old.unlink() + self._attrs[node.name] = node + self._attrsNS[(node.namespaceURI, node.localName)] = node + node.ownerElement = self._ownerElement + _clear_id_cache(node.ownerElement) + return old + + def setNamedItemNS(self, node): + return self.setNamedItem(node) + + def __delitem__(self, attname_or_tuple): + node = self[attname_or_tuple] + _clear_id_cache(node.ownerElement) + node.unlink() + + def __getstate__(self): + return self._attrs, self._attrsNS, self._ownerElement + + def __setstate__(self, state): + self._attrs, self._attrsNS, self._ownerElement = state + +defproperty(NamedNodeMap, "length", + doc="Number of nodes in the NamedNodeMap.") + +AttributeList = NamedNodeMap + + +class TypeInfo(object): + __slots__ = 'namespace', 'name' + + def __init__(self, namespace, name): + self.namespace = namespace + self.name = name + + def __repr__(self): + if self.namespace: + return "<TypeInfo %r (from %r)>" % (self.name, self.namespace) + else: + return "<TypeInfo %r>" % self.name + + def _get_name(self): + return self.name + + def _get_namespace(self): + return self.namespace + +_no_type = TypeInfo(None, None) + +class Element(Node): + nodeType = Node.ELEMENT_NODE + nodeValue = None + schemaType = _no_type + + _magic_id_nodes = 0 + + _child_node_types = (Node.ELEMENT_NODE, + Node.PROCESSING_INSTRUCTION_NODE, + Node.COMMENT_NODE, + Node.TEXT_NODE, + Node.CDATA_SECTION_NODE, + Node.ENTITY_REFERENCE_NODE) + + def __init__(self, tagName, namespaceURI=EMPTY_NAMESPACE, prefix=None, + localName=None): + self.tagName = self.nodeName = tagName + self.prefix = prefix + self.namespaceURI = namespaceURI + self.childNodes = NodeList() + + self._attrs = {} # attributes are double-indexed: + self._attrsNS = {} # tagName -> Attribute + # URI,localName -> Attribute + # in the future: consider lazy generation + # of attribute objects this is too tricky + # for now because of headaches with + # namespaces. + + def _get_localName(self): + return self.tagName.split(":", 1)[-1] + + def _get_tagName(self): + return self.tagName + + def unlink(self): + for attr in self._attrs.values(): + attr.unlink() + self._attrs = None + self._attrsNS = None + Node.unlink(self) + + def getAttribute(self, attname): + try: + return self._attrs[attname].value + except KeyError: + return "" + + def getAttributeNS(self, namespaceURI, localName): + try: + return self._attrsNS[(namespaceURI, localName)].value + except KeyError: + return "" + + def setAttribute(self, attname, value): + attr = self.getAttributeNode(attname) + if attr is None: + attr = Attr(attname) + # for performance + d = attr.__dict__ + d["value"] = d["nodeValue"] = value + d["ownerDocument"] = self.ownerDocument + self.setAttributeNode(attr) + elif value != attr.value: + d = attr.__dict__ + d["value"] = d["nodeValue"] = value + if attr.isId: + _clear_id_cache(self) + + def setAttributeNS(self, namespaceURI, qualifiedName, value): + prefix, localname = _nssplit(qualifiedName) + attr = self.getAttributeNodeNS(namespaceURI, localname) + if attr is None: + # for performance + attr = Attr(qualifiedName, namespaceURI, localname, prefix) + d = attr.__dict__ + d["prefix"] = prefix + d["nodeName"] = qualifiedName + d["value"] = d["nodeValue"] = value + d["ownerDocument"] = self.ownerDocument + self.setAttributeNode(attr) + else: + d = attr.__dict__ + if value != attr.value: + d["value"] = d["nodeValue"] = value + if attr.isId: + _clear_id_cache(self) + if attr.prefix != prefix: + d["prefix"] = prefix + d["nodeName"] = qualifiedName + + def getAttributeNode(self, attrname): + return self._attrs.get(attrname) + + def getAttributeNodeNS(self, namespaceURI, localName): + return self._attrsNS.get((namespaceURI, localName)) + + def setAttributeNode(self, attr): + if attr.ownerElement not in (None, self): + raise xml.dom.InuseAttributeErr("attribute node already owned") + old1 = self._attrs.get(attr.name, None) + if old1 is not None: + self.removeAttributeNode(old1) + old2 = self._attrsNS.get((attr.namespaceURI, attr.localName), None) + if old2 is not None and old2 is not old1: + self.removeAttributeNode(old2) + _set_attribute_node(self, attr) + + if old1 is not attr: + # It might have already been part of this node, in which case + # it doesn't represent a change, and should not be returned. + return old1 + if old2 is not attr: + return old2 + + setAttributeNodeNS = setAttributeNode + + def removeAttribute(self, name): + try: + attr = self._attrs[name] + except KeyError: + raise xml.dom.NotFoundErr() + self.removeAttributeNode(attr) + + def removeAttributeNS(self, namespaceURI, localName): + try: + attr = self._attrsNS[(namespaceURI, localName)] + except KeyError: + raise xml.dom.NotFoundErr() + self.removeAttributeNode(attr) + + def removeAttributeNode(self, node): + if node is None: + raise xml.dom.NotFoundErr() + try: + self._attrs[node.name] + except KeyError: + raise xml.dom.NotFoundErr() + _clear_id_cache(self) + node.unlink() + # Restore this since the node is still useful and otherwise + # unlinked + node.ownerDocument = self.ownerDocument + + removeAttributeNodeNS = removeAttributeNode + + def hasAttribute(self, name): + return self._attrs.has_key(name) + + def hasAttributeNS(self, namespaceURI, localName): + return self._attrsNS.has_key((namespaceURI, localName)) + + def getElementsByTagName(self, name): + return _get_elements_by_tagName_helper(self, name, NodeList()) + + def getElementsByTagNameNS(self, namespaceURI, localName): + return _get_elements_by_tagName_ns_helper( + self, namespaceURI, localName, NodeList()) + + def __repr__(self): + return "<DOM Element: %s at %#x>" % (self.tagName, id(self)) + + def writexml(self, writer, indent="", addindent="", newl=""): + # indent = current indentation + # addindent = indentation to add to higher levels + # newl = newline string + writer.write(indent+"<" + self.tagName) + + attrs = self._get_attributes() + a_names = attrs.keys() + a_names.sort() + + for a_name in a_names: + writer.write(" %s=\"" % a_name) + _write_data(writer, attrs[a_name].value) + writer.write("\"") + if self.childNodes: + writer.write(">%s"%(newl)) + for node in self.childNodes: + node.writexml(writer,indent+addindent,addindent,newl) + writer.write("%s</%s>%s" % (indent,self.tagName,newl)) + else: + writer.write("/>%s"%(newl)) + + def _get_attributes(self): + return NamedNodeMap(self._attrs, self._attrsNS, self) + + def hasAttributes(self): + if self._attrs: + return True + else: + return False + + # DOM Level 3 attributes, based on the 22 Oct 2002 draft + + def setIdAttribute(self, name): + idAttr = self.getAttributeNode(name) + self.setIdAttributeNode(idAttr) + + def setIdAttributeNS(self, namespaceURI, localName): + idAttr = self.getAttributeNodeNS(namespaceURI, localName) + self.setIdAttributeNode(idAttr) + + def setIdAttributeNode(self, idAttr): + if idAttr is None or not self.isSameNode(idAttr.ownerElement): + raise xml.dom.NotFoundErr() + if _get_containing_entref(self) is not None: + raise xml.dom.NoModificationAllowedErr() + if not idAttr._is_id: + idAttr.__dict__['_is_id'] = True + self._magic_id_nodes += 1 + self.ownerDocument._magic_id_count += 1 + _clear_id_cache(self) + +defproperty(Element, "attributes", + doc="NamedNodeMap of attributes on the element.") +defproperty(Element, "localName", + doc="Namespace-local name of this element.") + + +def _set_attribute_node(element, attr): + _clear_id_cache(element) + element._attrs[attr.name] = attr + element._attrsNS[(attr.namespaceURI, attr.localName)] = attr + + # This creates a circular reference, but Element.unlink() + # breaks the cycle since the references to the attribute + # dictionaries are tossed. + attr.__dict__['ownerElement'] = element + + +class Childless: + """Mixin that makes childless-ness easy to implement and avoids + the complexity of the Node methods that deal with children. + """ + + attributes = None + childNodes = EmptyNodeList() + firstChild = None + lastChild = None + + def _get_firstChild(self): + return None + + def _get_lastChild(self): + return None + + def appendChild(self, node): + raise xml.dom.HierarchyRequestErr( + self.nodeName + " nodes cannot have children") + + def hasChildNodes(self): + return False + + def insertBefore(self, newChild, refChild): + raise xml.dom.HierarchyRequestErr( + self.nodeName + " nodes do not have children") + + def removeChild(self, oldChild): + raise xml.dom.NotFoundErr( + self.nodeName + " nodes do not have children") + + def replaceChild(self, newChild, oldChild): + raise xml.dom.HierarchyRequestErr( + self.nodeName + " nodes do not have children") + + +class ProcessingInstruction(Childless, Node): + nodeType = Node.PROCESSING_INSTRUCTION_NODE + + def __init__(self, target, data): + self.target = self.nodeName = target + self.data = self.nodeValue = data + + def _get_data(self): + return self.data + def _set_data(self, value): + d = self.__dict__ + d['data'] = d['nodeValue'] = value + + def _get_target(self): + return self.target + def _set_target(self, value): + d = self.__dict__ + d['target'] = d['nodeName'] = value + + def __setattr__(self, name, value): + if name == "data" or name == "nodeValue": + self.__dict__['data'] = self.__dict__['nodeValue'] = value + elif name == "target" or name == "nodeName": + self.__dict__['target'] = self.__dict__['nodeName'] = value + else: + self.__dict__[name] = value + + def writexml(self, writer, indent="", addindent="", newl=""): + writer.write("%s<?%s %s?>%s" % (indent,self.target, self.data, newl)) + + +class CharacterData(Childless, Node): + def _get_length(self): + return len(self.data) + __len__ = _get_length + + def _get_data(self): + return self.__dict__['data'] + def _set_data(self, data): + d = self.__dict__ + d['data'] = d['nodeValue'] = data + + _get_nodeValue = _get_data + _set_nodeValue = _set_data + + def __setattr__(self, name, value): + if name == "data" or name == "nodeValue": + self.__dict__['data'] = self.__dict__['nodeValue'] = value + else: + self.__dict__[name] = value + + def __repr__(self): + data = self.data + if len(data) > 10: + dotdotdot = "..." + else: + dotdotdot = "" + return "<DOM %s node \"%s%s\">" % ( + self.__class__.__name__, data[0:10], dotdotdot) + + def substringData(self, offset, count): + if offset < 0: + raise xml.dom.IndexSizeErr("offset cannot be negative") + if offset >= len(self.data): + raise xml.dom.IndexSizeErr("offset cannot be beyond end of data") + if count < 0: + raise xml.dom.IndexSizeErr("count cannot be negative") + return self.data[offset:offset+count] + + def appendData(self, arg): + self.data = self.data + arg + + def insertData(self, offset, arg): + if offset < 0: + raise xml.dom.IndexSizeErr("offset cannot be negative") + if offset >= len(self.data): + raise xml.dom.IndexSizeErr("offset cannot be beyond end of data") + if arg: + self.data = "%s%s%s" % ( + self.data[:offset], arg, self.data[offset:]) + + def deleteData(self, offset, count): + if offset < 0: + raise xml.dom.IndexSizeErr("offset cannot be negative") + if offset >= len(self.data): + raise xml.dom.IndexSizeErr("offset cannot be beyond end of data") + if count < 0: + raise xml.dom.IndexSizeErr("count cannot be negative") + if count: + self.data = self.data[:offset] + self.data[offset+count:] + + def replaceData(self, offset, count, arg): + if offset < 0: + raise xml.dom.IndexSizeErr("offset cannot be negative") + if offset >= len(self.data): + raise xml.dom.IndexSizeErr("offset cannot be beyond end of data") + if count < 0: + raise xml.dom.IndexSizeErr("count cannot be negative") + if count: + self.data = "%s%s%s" % ( + self.data[:offset], arg, self.data[offset+count:]) + +defproperty(CharacterData, "length", doc="Length of the string data.") + + +class Text(CharacterData): + # Make sure we don't add an instance __dict__ if we don't already + # have one, at least when that's possible: + # XXX this does not work, CharacterData is an old-style class + # __slots__ = () + + nodeType = Node.TEXT_NODE + nodeName = "#text" + attributes = None + + def splitText(self, offset): + if offset < 0 or offset > len(self.data): + raise xml.dom.IndexSizeErr("illegal offset value") + newText = self.__class__() + newText.data = self.data[offset:] + newText.ownerDocument = self.ownerDocument + next = self.nextSibling + if self.parentNode and self in self.parentNode.childNodes: + if next is None: + self.parentNode.appendChild(newText) + else: + self.parentNode.insertBefore(newText, next) + self.data = self.data[:offset] + return newText + + def writexml(self, writer, indent="", addindent="", newl=""): + _write_data(writer, "%s%s%s"%(indent, self.data, newl)) + + # DOM Level 3 (WD 9 April 2002) + + def _get_wholeText(self): + L = [self.data] + n = self.previousSibling + while n is not None: + if n.nodeType in (Node.TEXT_NODE, Node.CDATA_SECTION_NODE): + L.insert(0, n.data) + n = n.previousSibling + else: + break + n = self.nextSibling + while n is not None: + if n.nodeType in (Node.TEXT_NODE, Node.CDATA_SECTION_NODE): + L.append(n.data) + n = n.nextSibling + else: + break + return ''.join(L) + + def replaceWholeText(self, content): + # XXX This needs to be seriously changed if minidom ever + # supports EntityReference nodes. + parent = self.parentNode + n = self.previousSibling + while n is not None: + if n.nodeType in (Node.TEXT_NODE, Node.CDATA_SECTION_NODE): + next = n.previousSibling + parent.removeChild(n) + n = next + else: + break + n = self.nextSibling + if not content: + parent.removeChild(self) + while n is not None: + if n.nodeType in (Node.TEXT_NODE, Node.CDATA_SECTION_NODE): + next = n.nextSibling + parent.removeChild(n) + n = next + else: + break + if content: + d = self.__dict__ + d['data'] = content + d['nodeValue'] = content + return self + else: + return None + + def _get_isWhitespaceInElementContent(self): + if self.data.strip(): + return False + elem = _get_containing_element(self) + if elem is None: + return False + info = self.ownerDocument._get_elem_info(elem) + if info is None: + return False + else: + return info.isElementContent() + +defproperty(Text, "isWhitespaceInElementContent", + doc="True iff this text node contains only whitespace" + " and is in element content.") +defproperty(Text, "wholeText", + doc="The text of all logically-adjacent text nodes.") + + +def _get_containing_element(node): + c = node.parentNode + while c is not None: + if c.nodeType == Node.ELEMENT_NODE: + return c + c = c.parentNode + return None + +def _get_containing_entref(node): + c = node.parentNode + while c is not None: + if c.nodeType == Node.ENTITY_REFERENCE_NODE: + return c + c = c.parentNode + return None + + +class Comment(Childless, CharacterData): + nodeType = Node.COMMENT_NODE + nodeName = "#comment" + + def __init__(self, data): + self.data = self.nodeValue = data + + def writexml(self, writer, indent="", addindent="", newl=""): + writer.write("%s<!--%s-->%s" % (indent, self.data, newl)) + + +class CDATASection(Text): + # Make sure we don't add an instance __dict__ if we don't already + # have one, at least when that's possible: + # XXX this does not work, Text is an old-style class + # __slots__ = () + + nodeType = Node.CDATA_SECTION_NODE + nodeName = "#cdata-section" + + def writexml(self, writer, indent="", addindent="", newl=""): + if self.data.find("]]>") >= 0: + raise ValueError("']]>' not allowed in a CDATA section") + writer.write("<![CDATA[%s]]>" % self.data) + + +class ReadOnlySequentialNamedNodeMap(object): + __slots__ = '_seq', + + def __init__(self, seq=()): + # seq should be a list or tuple + self._seq = seq + + def __len__(self): + return len(self._seq) + + def _get_length(self): + return len(self._seq) + + def getNamedItem(self, name): + for n in self._seq: + if n.nodeName == name: + return n + + def getNamedItemNS(self, namespaceURI, localName): + for n in self._seq: + if n.namespaceURI == namespaceURI and n.localName == localName: + return n + + def __getitem__(self, name_or_tuple): + if isinstance(name_or_tuple, tuple): + node = self.getNamedItemNS(*name_or_tuple) + else: + node = self.getNamedItem(name_or_tuple) + if node is None: + raise KeyError, name_or_tuple + return node + + def item(self, index): + if index < 0: + return None + try: + return self._seq[index] + except IndexError: + return None + + def removeNamedItem(self, name): + raise xml.dom.NoModificationAllowedErr( + "NamedNodeMap instance is read-only") + + def removeNamedItemNS(self, namespaceURI, localName): + raise xml.dom.NoModificationAllowedErr( + "NamedNodeMap instance is read-only") + + def setNamedItem(self, node): + raise xml.dom.NoModificationAllowedErr( + "NamedNodeMap instance is read-only") + + def setNamedItemNS(self, node): + raise xml.dom.NoModificationAllowedErr( + "NamedNodeMap instance is read-only") + + def __getstate__(self): + return [self._seq] + + def __setstate__(self, state): + self._seq = state[0] + +defproperty(ReadOnlySequentialNamedNodeMap, "length", + doc="Number of entries in the NamedNodeMap.") + + +class Identified: + """Mix-in class that supports the publicId and systemId attributes.""" + + # XXX this does not work, this is an old-style class + # __slots__ = 'publicId', 'systemId' + + def _identified_mixin_init(self, publicId, systemId): + self.publicId = publicId + self.systemId = systemId + + def _get_publicId(self): + return self.publicId + + def _get_systemId(self): + return self.systemId + +class DocumentType(Identified, Childless, Node): + nodeType = Node.DOCUMENT_TYPE_NODE + nodeValue = None + name = None + publicId = None + systemId = None + internalSubset = None + + def __init__(self, qualifiedName): + self.entities = ReadOnlySequentialNamedNodeMap() + self.notations = ReadOnlySequentialNamedNodeMap() + if qualifiedName: + prefix, localname = _nssplit(qualifiedName) + self.name = localname + self.nodeName = self.name + + def _get_internalSubset(self): + return self.internalSubset + + def cloneNode(self, deep): + if self.ownerDocument is None: + # it's ok + clone = DocumentType(None) + clone.name = self.name + clone.nodeName = self.name + operation = xml.dom.UserDataHandler.NODE_CLONED + if deep: + clone.entities._seq = [] + clone.notations._seq = [] + for n in self.notations._seq: + notation = Notation(n.nodeName, n.publicId, n.systemId) + clone.notations._seq.append(notation) + n._call_user_data_handler(operation, n, notation) + for e in self.entities._seq: + entity = Entity(e.nodeName, e.publicId, e.systemId, + e.notationName) + entity.actualEncoding = e.actualEncoding + entity.encoding = e.encoding + entity.version = e.version + clone.entities._seq.append(entity) + e._call_user_data_handler(operation, n, entity) + self._call_user_data_handler(operation, self, clone) + return clone + else: + return None + + def writexml(self, writer, indent="", addindent="", newl=""): + writer.write("<!DOCTYPE ") + writer.write(self.name) + if self.publicId: + writer.write("%s PUBLIC '%s'%s '%s'" + % (newl, self.publicId, newl, self.systemId)) + elif self.systemId: + writer.write("%s SYSTEM '%s'" % (newl, self.systemId)) + if self.internalSubset is not None: + writer.write(" [") + writer.write(self.internalSubset) + writer.write("]") + writer.write(">"+newl) + +class Entity(Identified, Node): + attributes = None + nodeType = Node.ENTITY_NODE + nodeValue = None + + actualEncoding = None + encoding = None + version = None + + def __init__(self, name, publicId, systemId, notation): + self.nodeName = name + self.notationName = notation + self.childNodes = NodeList() + self._identified_mixin_init(publicId, systemId) + + def _get_actualEncoding(self): + return self.actualEncoding + + def _get_encoding(self): + return self.encoding + + def _get_version(self): + return self.version + + def appendChild(self, newChild): + raise xml.dom.HierarchyRequestErr( + "cannot append children to an entity node") + + def insertBefore(self, newChild, refChild): + raise xml.dom.HierarchyRequestErr( + "cannot insert children below an entity node") + + def removeChild(self, oldChild): + raise xml.dom.HierarchyRequestErr( + "cannot remove children from an entity node") + + def replaceChild(self, newChild, oldChild): + raise xml.dom.HierarchyRequestErr( + "cannot replace children of an entity node") + +class Notation(Identified, Childless, Node): + nodeType = Node.NOTATION_NODE + nodeValue = None + + def __init__(self, name, publicId, systemId): + self.nodeName = name + self._identified_mixin_init(publicId, systemId) + + +class DOMImplementation(DOMImplementationLS): + _features = [("core", "1.0"), + ("core", "2.0"), + ("core", "3.0"), + ("core", None), + ("xml", "1.0"), + ("xml", "2.0"), + ("xml", "3.0"), + ("xml", None), + ("ls-load", "3.0"), + ("ls-load", None), + ] + + def hasFeature(self, feature, version): + if version == "": + version = None + return (feature.lower(), version) in self._features + + def createDocument(self, namespaceURI, qualifiedName, doctype): + if doctype and doctype.parentNode is not None: + raise xml.dom.WrongDocumentErr( + "doctype object owned by another DOM tree") + doc = self._create_document() + + add_root_element = not (namespaceURI is None + and qualifiedName is None + and doctype is None) + + if not qualifiedName and add_root_element: + # The spec is unclear what to raise here; SyntaxErr + # would be the other obvious candidate. Since Xerces raises + # InvalidCharacterErr, and since SyntaxErr is not listed + # for createDocument, that seems to be the better choice. + # XXX: need to check for illegal characters here and in + # createElement. + + # DOM Level III clears this up when talking about the return value + # of this function. If namespaceURI, qName and DocType are + # Null the document is returned without a document element + # Otherwise if doctype or namespaceURI are not None + # Then we go back to the above problem + raise xml.dom.InvalidCharacterErr("Element with no name") + + if add_root_element: + prefix, localname = _nssplit(qualifiedName) + if prefix == "xml" \ + and namespaceURI != "http://www.w3.org/XML/1998/namespace": + raise xml.dom.NamespaceErr("illegal use of 'xml' prefix") + if prefix and not namespaceURI: + raise xml.dom.NamespaceErr( + "illegal use of prefix without namespaces") + element = doc.createElementNS(namespaceURI, qualifiedName) + if doctype: + doc.appendChild(doctype) + doc.appendChild(element) + + if doctype: + doctype.parentNode = doctype.ownerDocument = doc + + doc.doctype = doctype + doc.implementation = self + return doc + + def createDocumentType(self, qualifiedName, publicId, systemId): + doctype = DocumentType(qualifiedName) + doctype.publicId = publicId + doctype.systemId = systemId + return doctype + + # DOM Level 3 (WD 9 April 2002) + + def getInterface(self, feature): + if self.hasFeature(feature, None): + return self + else: + return None + + # internal + def _create_document(self): + return Document() + +class ElementInfo(object): + """Object that represents content-model information for an element. + + This implementation is not expected to be used in practice; DOM + builders should provide implementations which do the right thing + using information available to it. + + """ + + __slots__ = 'tagName', + + def __init__(self, name): + self.tagName = name + + def getAttributeType(self, aname): + return _no_type + + def getAttributeTypeNS(self, namespaceURI, localName): + return _no_type + + def isElementContent(self): + return False + + def isEmpty(self): + """Returns true iff this element is declared to have an EMPTY + content model.""" + return False + + def isId(self, aname): + """Returns true iff the named attribte is a DTD-style ID.""" + return False + + def isIdNS(self, namespaceURI, localName): + """Returns true iff the identified attribute is a DTD-style ID.""" + return False + + def __getstate__(self): + return self.tagName + + def __setstate__(self, state): + self.tagName = state + +def _clear_id_cache(node): + if node.nodeType == Node.DOCUMENT_NODE: + node._id_cache.clear() + node._id_search_stack = None + elif _in_document(node): + node.ownerDocument._id_cache.clear() + node.ownerDocument._id_search_stack= None + +class Document(Node, DocumentLS): + _child_node_types = (Node.ELEMENT_NODE, Node.PROCESSING_INSTRUCTION_NODE, + Node.COMMENT_NODE, Node.DOCUMENT_TYPE_NODE) + + nodeType = Node.DOCUMENT_NODE + nodeName = "#document" + nodeValue = None + attributes = None + doctype = None + parentNode = None + previousSibling = nextSibling = None + + implementation = DOMImplementation() + + # Document attributes from Level 3 (WD 9 April 2002) + + actualEncoding = None + encoding = None + standalone = None + version = None + strictErrorChecking = False + errorHandler = None + documentURI = None + + _magic_id_count = 0 + + def __init__(self): + self.childNodes = NodeList() + # mapping of (namespaceURI, localName) -> ElementInfo + # and tagName -> ElementInfo + self._elem_info = {} + self._id_cache = {} + self._id_search_stack = None + + def _get_elem_info(self, element): + if element.namespaceURI: + key = element.namespaceURI, element.localName + else: + key = element.tagName + return self._elem_info.get(key) + + def _get_actualEncoding(self): + return self.actualEncoding + + def _get_doctype(self): + return self.doctype + + def _get_documentURI(self): + return self.documentURI + + def _get_encoding(self): + return self.encoding + + def _get_errorHandler(self): + return self.errorHandler + + def _get_standalone(self): + return self.standalone + + def _get_strictErrorChecking(self): + return self.strictErrorChecking + + def _get_version(self): + return self.version + + def appendChild(self, node): + if node.nodeType not in self._child_node_types: + raise xml.dom.HierarchyRequestErr( + "%s cannot be child of %s" % (repr(node), repr(self))) + if node.parentNode is not None: + # This needs to be done before the next test since this + # may *be* the document element, in which case it should + # end up re-ordered to the end. + node.parentNode.removeChild(node) + + if node.nodeType == Node.ELEMENT_NODE \ + and self._get_documentElement(): + raise xml.dom.HierarchyRequestErr( + "two document elements disallowed") + return Node.appendChild(self, node) + + def removeChild(self, oldChild): + try: + self.childNodes.remove(oldChild) + except ValueError: + raise xml.dom.NotFoundErr() + oldChild.nextSibling = oldChild.previousSibling = None + oldChild.parentNode = None + if self.documentElement is oldChild: + self.documentElement = None + + return oldChild + + def _get_documentElement(self): + for node in self.childNodes: + if node.nodeType == Node.ELEMENT_NODE: + return node + + def unlink(self): + if self.doctype is not None: + self.doctype.unlink() + self.doctype = None + Node.unlink(self) + + def cloneNode(self, deep): + if not deep: + return None + clone = self.implementation.createDocument(None, None, None) + clone.encoding = self.encoding + clone.standalone = self.standalone + clone.version = self.version + for n in self.childNodes: + childclone = _clone_node(n, deep, clone) + assert childclone.ownerDocument.isSameNode(clone) + clone.childNodes.append(childclone) + if childclone.nodeType == Node.DOCUMENT_NODE: + assert clone.documentElement is None + elif childclone.nodeType == Node.DOCUMENT_TYPE_NODE: + assert clone.doctype is None + clone.doctype = childclone + childclone.parentNode = clone + self._call_user_data_handler(xml.dom.UserDataHandler.NODE_CLONED, + self, clone) + return clone + + def createDocumentFragment(self): + d = DocumentFragment() + d.ownerDocument = self + return d + + def createElement(self, tagName): + e = Element(tagName) + e.ownerDocument = self + return e + + def createTextNode(self, data): + if not isinstance(data, StringTypes): + raise TypeError, "node contents must be a string" + t = Text() + t.data = data + t.ownerDocument = self + return t + + def createCDATASection(self, data): + if not isinstance(data, StringTypes): + raise TypeError, "node contents must be a string" + c = CDATASection() + c.data = data + c.ownerDocument = self + return c + + def createComment(self, data): + c = Comment(data) + c.ownerDocument = self + return c + + def createProcessingInstruction(self, target, data): + p = ProcessingInstruction(target, data) + p.ownerDocument = self + return p + + def createAttribute(self, qName): + a = Attr(qName) + a.ownerDocument = self + a.value = "" + return a + + def createElementNS(self, namespaceURI, qualifiedName): + prefix, localName = _nssplit(qualifiedName) + e = Element(qualifiedName, namespaceURI, prefix) + e.ownerDocument = self + return e + + def createAttributeNS(self, namespaceURI, qualifiedName): + prefix, localName = _nssplit(qualifiedName) + a = Attr(qualifiedName, namespaceURI, localName, prefix) + a.ownerDocument = self + a.value = "" + return a + + # A couple of implementation-specific helpers to create node types + # not supported by the W3C DOM specs: + + def _create_entity(self, name, publicId, systemId, notationName): + e = Entity(name, publicId, systemId, notationName) + e.ownerDocument = self + return e + + def _create_notation(self, name, publicId, systemId): + n = Notation(name, publicId, systemId) + n.ownerDocument = self + return n + + def getElementById(self, id): + if self._id_cache.has_key(id): + return self._id_cache[id] + if not (self._elem_info or self._magic_id_count): + return None + + stack = self._id_search_stack + if stack is None: + # we never searched before, or the cache has been cleared + stack = [self.documentElement] + self._id_search_stack = stack + elif not stack: + # Previous search was completed and cache is still valid; + # no matching node. + return None + + result = None + while stack: + node = stack.pop() + # add child elements to stack for continued searching + stack.extend([child for child in node.childNodes + if child.nodeType in _nodeTypes_with_children]) + # check this node + info = self._get_elem_info(node) + if info: + # We have to process all ID attributes before + # returning in order to get all the attributes set to + # be IDs using Element.setIdAttribute*(). + for attr in node.attributes.values(): + if attr.namespaceURI: + if info.isIdNS(attr.namespaceURI, attr.localName): + self._id_cache[attr.value] = node + if attr.value == id: + result = node + elif not node._magic_id_nodes: + break + elif info.isId(attr.name): + self._id_cache[attr.value] = node + if attr.value == id: + result = node + elif not node._magic_id_nodes: + break + elif attr._is_id: + self._id_cache[attr.value] = node + if attr.value == id: + result = node + elif node._magic_id_nodes == 1: + break + elif node._magic_id_nodes: + for attr in node.attributes.values(): + if attr._is_id: + self._id_cache[attr.value] = node + if attr.value == id: + result = node + if result is not None: + break + return result + + def getElementsByTagName(self, name): + return _get_elements_by_tagName_helper(self, name, NodeList()) + + def getElementsByTagNameNS(self, namespaceURI, localName): + return _get_elements_by_tagName_ns_helper( + self, namespaceURI, localName, NodeList()) + + def isSupported(self, feature, version): + return self.implementation.hasFeature(feature, version) + + def importNode(self, node, deep): + if node.nodeType == Node.DOCUMENT_NODE: + raise xml.dom.NotSupportedErr("cannot import document nodes") + elif node.nodeType == Node.DOCUMENT_TYPE_NODE: + raise xml.dom.NotSupportedErr("cannot import document type nodes") + return _clone_node(node, deep, self) + + def writexml(self, writer, indent="", addindent="", newl="", + encoding = None): + if encoding is None: + writer.write('<?xml version="1.0" ?>'+newl) + else: + writer.write('<?xml version="1.0" encoding="%s"?>%s' % (encoding, newl)) + for node in self.childNodes: + node.writexml(writer, indent, addindent, newl) + + # DOM Level 3 (WD 9 April 2002) + + def renameNode(self, n, namespaceURI, name): + if n.ownerDocument is not self: + raise xml.dom.WrongDocumentErr( + "cannot rename nodes from other documents;\n" + "expected %s,\nfound %s" % (self, n.ownerDocument)) + if n.nodeType not in (Node.ELEMENT_NODE, Node.ATTRIBUTE_NODE): + raise xml.dom.NotSupportedErr( + "renameNode() only applies to element and attribute nodes") + if namespaceURI != EMPTY_NAMESPACE: + if ':' in name: + prefix, localName = name.split(':', 1) + if ( prefix == "xmlns" + and namespaceURI != xml.dom.XMLNS_NAMESPACE): + raise xml.dom.NamespaceErr( + "illegal use of 'xmlns' prefix") + else: + if ( name == "xmlns" + and namespaceURI != xml.dom.XMLNS_NAMESPACE + and n.nodeType == Node.ATTRIBUTE_NODE): + raise xml.dom.NamespaceErr( + "illegal use of the 'xmlns' attribute") + prefix = None + localName = name + else: + prefix = None + localName = None + if n.nodeType == Node.ATTRIBUTE_NODE: + element = n.ownerElement + if element is not None: + is_id = n._is_id + element.removeAttributeNode(n) + else: + element = None + # avoid __setattr__ + d = n.__dict__ + d['prefix'] = prefix + d['localName'] = localName + d['namespaceURI'] = namespaceURI + d['nodeName'] = name + if n.nodeType == Node.ELEMENT_NODE: + d['tagName'] = name + else: + # attribute node + d['name'] = name + if element is not None: + element.setAttributeNode(n) + if is_id: + element.setIdAttributeNode(n) + # It's not clear from a semantic perspective whether we should + # call the user data handlers for the NODE_RENAMED event since + # we're re-using the existing node. The draft spec has been + # interpreted as meaning "no, don't call the handler unless a + # new node is created." + return n + +defproperty(Document, "documentElement", + doc="Top-level element of this document.") + + +def _clone_node(node, deep, newOwnerDocument): + """ + Clone a node and give it the new owner document. + Called by Node.cloneNode and Document.importNode + """ + if node.ownerDocument.isSameNode(newOwnerDocument): + operation = xml.dom.UserDataHandler.NODE_CLONED + else: + operation = xml.dom.UserDataHandler.NODE_IMPORTED + if node.nodeType == Node.ELEMENT_NODE: + clone = newOwnerDocument.createElementNS(node.namespaceURI, + node.nodeName) + for attr in node.attributes.values(): + clone.setAttributeNS(attr.namespaceURI, attr.nodeName, attr.value) + a = clone.getAttributeNodeNS(attr.namespaceURI, attr.localName) + a.specified = attr.specified + + if deep: + for child in node.childNodes: + c = _clone_node(child, deep, newOwnerDocument) + clone.appendChild(c) + + elif node.nodeType == Node.DOCUMENT_FRAGMENT_NODE: + clone = newOwnerDocument.createDocumentFragment() + if deep: + for child in node.childNodes: + c = _clone_node(child, deep, newOwnerDocument) + clone.appendChild(c) + + elif node.nodeType == Node.TEXT_NODE: + clone = newOwnerDocument.createTextNode(node.data) + elif node.nodeType == Node.CDATA_SECTION_NODE: + clone = newOwnerDocument.createCDATASection(node.data) + elif node.nodeType == Node.PROCESSING_INSTRUCTION_NODE: + clone = newOwnerDocument.createProcessingInstruction(node.target, + node.data) + elif node.nodeType == Node.COMMENT_NODE: + clone = newOwnerDocument.createComment(node.data) + elif node.nodeType == Node.ATTRIBUTE_NODE: + clone = newOwnerDocument.createAttributeNS(node.namespaceURI, + node.nodeName) + clone.specified = True + clone.value = node.value + elif node.nodeType == Node.DOCUMENT_TYPE_NODE: + assert node.ownerDocument is not newOwnerDocument + operation = xml.dom.UserDataHandler.NODE_IMPORTED + clone = newOwnerDocument.implementation.createDocumentType( + node.name, node.publicId, node.systemId) + clone.ownerDocument = newOwnerDocument + if deep: + clone.entities._seq = [] + clone.notations._seq = [] + for n in node.notations._seq: + notation = Notation(n.nodeName, n.publicId, n.systemId) + notation.ownerDocument = newOwnerDocument + clone.notations._seq.append(notation) + if hasattr(n, '_call_user_data_handler'): + n._call_user_data_handler(operation, n, notation) + for e in node.entities._seq: + entity = Entity(e.nodeName, e.publicId, e.systemId, + e.notationName) + entity.actualEncoding = e.actualEncoding + entity.encoding = e.encoding + entity.version = e.version + entity.ownerDocument = newOwnerDocument + clone.entities._seq.append(entity) + if hasattr(e, '_call_user_data_handler'): + e._call_user_data_handler(operation, n, entity) + else: + # Note the cloning of Document and DocumentType nodes is + # implemenetation specific. minidom handles those cases + # directly in the cloneNode() methods. + raise xml.dom.NotSupportedErr("Cannot clone node %s" % repr(node)) + + # Check for _call_user_data_handler() since this could conceivably + # used with other DOM implementations (one of the FourThought + # DOMs, perhaps?). + if hasattr(node, '_call_user_data_handler'): + node._call_user_data_handler(operation, node, clone) + return clone + + +def _nssplit(qualifiedName): + fields = qualifiedName.split(':', 1) + if len(fields) == 2: + return fields + else: + return (None, fields[0]) + + +def _get_StringIO(): + # we can't use cStringIO since it doesn't support Unicode strings + from StringIO import StringIO + return StringIO() + +def _do_pulldom_parse(func, args, kwargs): + events = func(*args, **kwargs) + toktype, rootNode = events.getEvent() + events.expandNode(rootNode) + events.clear() + return rootNode + +def parse(file, parser=None, bufsize=None): + """Parse a file into a DOM by filename or file object.""" + if parser is None and not bufsize: + from xml.dom import expatbuilder + return expatbuilder.parse(file) + else: + from xml.dom import pulldom + return _do_pulldom_parse(pulldom.parse, (file,), + {'parser': parser, 'bufsize': bufsize}) + +def parseString(string, parser=None): + """Parse a file into a DOM from a string.""" + if parser is None: + from xml.dom import expatbuilder + return expatbuilder.parseString(string) + else: + from xml.dom import pulldom + return _do_pulldom_parse(pulldom.parseString, (string,), + {'parser': parser}) + +def getDOMImplementation(features=None): + if features: + if isinstance(features, StringTypes): + features = domreg._parse_feature_string(features) + for f, v in features: + if not Document.implementation.hasFeature(f, v): + return None + return Document.implementation |