Mercurial > traipse_dev
view orpg/minidom.py @ 77:6226a5f9a4b3 ornery-dev
Fixing images from last push
author | sirebral |
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date | Sat, 22 Aug 2009 04:04:25 -0500 |
parents | 551cd440acce |
children |
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"""\ minidom.py -- a lightweight DOM implementation based on SAX. 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 """ from orpg import pulldom import string from StringIO import StringIO import types class Node: ELEMENT_NODE = 1 ATTRIBUTE_NODE = 2 TEXT_NODE = 3 CDATA_SECTION_NODE = 4 ENTITY_REFERENCE_NODE = 5 ENTITY_NODE = 6 PROCESSING_INSTRUCTION_NODE = 7 COMMENT_NODE = 8 DOCUMENT_NODE = 9 DOCUMENT_TYPE_NODE = 10 DOCUMENT_FRAGMENT_NODE = 11 NOTATION_NODE = 12 allnodes = {} _debug = 0 _makeParentNodes = 1 debug = None def __init__(self): self.childNodes = [] self.ownerDocument = None if Node._debug: index = repr(id(self)) + repr(self.__class__) Node.allnodes[index] = repr(self.__dict__) if Node.debug is None: Node.debug = StringIO() #open( "debug4.out", "w" ) Node.debug.write("create %s\n" % index) def __getattr__(self, key): if key[0:2] == "__": raise AttributeError # getattr should never call getattr! if self.__dict__.has_key("inGetAttr"): del self.inGetAttr raise AttributeError, key prefix, attrname = key[:5], key[5:] if prefix == "_get_": self.inGetAttr = 1 if hasattr(self, attrname): del self.inGetAttr return (lambda self=self, attrname=attrname: getattr(self, attrname)) else: del self.inGetAttr raise AttributeError, key else: self.inGetAttr = 1 try: func = getattr(self, "_get_" + key) except AttributeError: raise AttributeError, key del self.inGetAttr return func() def __nonzero__(self): return 1 def toxml(self,pretty=0): writer = StringIO() self.writexml(writer,pretty) return str(writer.getvalue()) def hasChildNodes(self): if self.childNodes: return 1 else: return 0 def getChildren(self): return self.childNodes def _get_firstChild(self): if self.hasChildNodes(): return self.childNodes[0] else: return None def _get_lastChild(self): return self.childNodes[-1] def insertBefore(self, newChild, refChild): if refChild == None: return self.appendChild(newChild) index = self.childNodes.index(refChild) self.childNodes.insert(index, newChild) if self._makeParentNodes: newChild.parentNode = self newChild.ownerDocument = self.ownerDocument return newChild def appendChild(self, node): if self.childNodes: last = self.lastChild node.previousSibling = last last.nextSibling = node else: node.previousSibling = None node.nextSibling = None node.ownerDocument = self.ownerDocument node.parentNode = self self.childNodes.append(node) return node def replaceChild(self, newChild, oldChild): index = self.childNodes.index(oldChild) self.childNodes[index] = newChild newChild.ownerDocument = self.ownerDocument return oldChild def removeChild(self, oldChild): index = self.childNodes.index(oldChild) del self.childNodes[index] return oldChild def cloneNode(self, deep=0): newNode = Node() if deep: self.deep_clone(newNode) return newNode def deep_clone(self, newNode): for child in self.childNodes: new_child = child.cloneNode(1) newNode.appendChild(new_child) def normalize(self): """Join adjacent Text nodes and delete empty Text nodes in the full depth of the sub-tree underneath this Node. """ i = 0 while i < len(self.childNodes): cn = self.childNodes[i] if cn.nodeType == Node.TEXT_NODE: i = i + 1 # join adjacent Text nodes while i < len(self.childNodes) and self.childNodes[i].nodeType == Node.TEXT_NODE: cn.nodeValue = cn.data = cn.data + self.childNodes[i].data del self.childNodes[i] # delete empty nodes if cn.nodeValue.strip() == "": i = i - 1 del self.childNodes[i] continue elif cn.nodeType == Node.ELEMENT_NODE: cn.normalize() i = i + 1 def unlink(self): self.parentNode = None while self.childNodes: self.childNodes[-1].unlink() del self.childNodes[-1] # probably not most efficient! self.childNodes = None self.previousSibling = None self.nextSibling = None if self.attributes: for attr in self._attrs.values(): self.removeAttributeNode(attr) assert not len(self._attrs) assert not len(self._attrsNS) if Node._debug: index = repr(id(self)) + repr(self.__class__) self.debug.write("Deleting: %s\n" % index) del Node.allnodes[index] def _write_data(writer, data): "Writes datachars to writer." data = string.replace(data, "&", "&") data = string.replace(data, "<", "<") data = string.replace(data, "\"", """) data = string.replace(data, ">", ">") writer.write(data) def _getElementsByTagNameHelper(parent, name, rc): for node in parent.childNodes: if node.nodeType == Node.ELEMENT_NODE and \ (name == "*" or node.tagName == name): rc.append(node) _getElementsByTagNameHelper(node, name, rc) return rc def _getElementsByTagNameNSHelper(parent, nsURI, localName, rc): for node in parent.childNodes: if node.nodeType == Node.ELEMENT_NODE: if ((localName == "*" or node.tagName == localName) and (nsURI == "*" or node.namespaceURI == nsURI)): rc.append(node) _getElementsByTagNameNSHelper(node, name, rc) class Attr(Node): nodeType = Node.ATTRIBUTE_NODE def __init__(self, qName, namespaceURI="", localName=None, prefix=None): # skip setattr for performance self.__dict__["localName"] = localName or qName self.__dict__["nodeName"] = self.__dict__["name"] = qName self.__dict__["namespaceURI"] = namespaceURI self.__dict__["prefix"] = prefix self.attributes = None Node.__init__(self) # nodeValue and value are set elsewhere def __setattr__(self, name, value): if name in ("value", "nodeValue"): self.__dict__["value"] = self.__dict__["nodeValue"] = value else: self.__dict__[name] = value def cloneNode(self, deep=0): newNode = Attr(self.__dict__["name"],self.__dict__["namespaceURI"], self.__dict__["localName"],self.__dict__["prefix"]) newNode.__dict__["value"] = newNode.__dict__["nodeValue"] = self.value if deep: self.deep_clone(newNode) return newNode class AttributeList: """the attribute list is a transient interface to the underlying dictionaries. mutations here will change the underlying element's dictionary""" def __init__(self, attrs, attrsNS): self._attrs = attrs self._attrsNS = attrsNS self.length = len(self._attrs.keys()) def copy(self): clone = AttributeList(self._attrs.copy(),self._attrsNS.copy()) return clone def item(self, index): try: return self[self.keys()[index]] except IndexError: return None def items(self): return map(lambda node: (node.tagName, node.value), self._attrs.values()) def itemsNS(self): return map(lambda node: ((node.URI, node.localName), node.value), self._attrs.values()) def keys(self): return self._attrs.keys() def keysNS(self): return self._attrsNS.keys() def values(self): return self._attrs.values() def __len__(self): return self.length def __cmp__(self, other): if self._attrs is getattr(other, "_attrs", None): return 0 else: return cmp(id(self), id(other)) #FIXME: is it appropriate to return .value? def __getitem__(self, attname_or_tuple): if type(attname_or_tuple) is types.TupleType: return self._attrsNS[attname_or_tuple] else: return self._attrs[attname_or_tuple] # same as set def __setitem__(self, attname, value): if type(value) is types.StringType: node = Attr(attname) node.value=value else: assert isinstance(value, Attr) or type(value) is types.StringType node = value old = self._attrs.get(attname, None) if old: old.unlink() self._attrs[node.name] = node self._attrsNS[(node.namespaceURI, node.localName)] = node def __delitem__(self, attname_or_tuple): node = self[attname_or_tuple] node.unlink() del self._attrs[node.name] del self._attrsNS[(node.namespaceURI, node.localName)] class Element(Node): nodeType = Node.ELEMENT_NODE def __init__(self, tagName, namespaceURI="", prefix="", localName=None): Node.__init__(self) self.tagName = self.nodeName = tagName self.localName = localName or tagName self.prefix = prefix self.namespaceURI = namespaceURI self.nodeValue = None 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 cloneNode(self, deep=0): newNode = Element(self.tagName,self.namespaceURI,self.prefix,self.localName ) keys = self._attrs.keys() for k in keys: attr = self._attrs[k].cloneNode(1) newNode.setAttributeNode(attr) if deep: self.deep_clone(newNode) return newNode def _get_tagName(self): return str(self.tagName) def getAttributeKeys(self): result = [] if self._attrs: return self._attrs.keys() else: return None def getAttribute(self, attname): if self.hasAttribute(attname): return str(self._attrs[attname].value) else: return "" def getAttributeNS(self, namespaceURI, localName): return self._attrsNS[(namespaceURI, localName)].value def setAttribute(self, attname, value): attr = Attr(attname) # for performance attr.__dict__["value"] = attr.__dict__["nodeValue"] = value self.setAttributeNode(attr) def setAttributeNS(self, namespaceURI, qualifiedName, value): prefix, localname = _nssplit(qualifiedName) # for performance attr = Attr(qualifiedName, namespaceURI, localname, prefix) attr.__dict__["value"] = attr.__dict__["nodeValue"] = value self.setAttributeNode(attr) # FIXME: return original node if something changed. def getAttributeNode(self, attrname): return self._attrs.get(attrname) def getAttributeNodeNS(self, namespaceURI, localName): return self._attrsNS[(namespaceURI, localName)] def setAttributeNode(self, attr): old = self._attrs.get(attr.name, None) if old: old.unlink() self._attrs[attr.name] = attr self._attrsNS[(attr.namespaceURI, attr.localName)] = attr # FIXME: return old value if something changed def removeAttribute(self, name): attr = self._attrs[name] self.removeAttributeNode(attr) def removeAttributeNS(self, namespaceURI, localName): attr = self._attrsNS[(namespaceURI, localName)] self.removeAttributeNode(attr) def removeAttributeNode(self, node): node.unlink() del self._attrs[node.name] del self._attrsNS[(node.namespaceURI, node.localName)] 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 _getElementsByTagNameHelper(self, name, []) def getElementsByTagNameNS(self, namespaceURI, localName): _getElementsByTagNameNSHelper(self, namespaceURI, localName, []) def __repr__(self): return "<DOM Element: %s at %s>" % (self.tagName, id(self)) # undocumented def writexml(self, writer, tabs=0): tab_str = "" if tabs: tab_str = "\n" + (" "*(tabs-1)) tabs += 1 writer.write(tab_str + "<" + self.tagName) a_names = self._get_attributes().keys() a_names.sort() for a_name in a_names: writer.write(" %s=\"" % a_name) _write_data(writer, self._get_attributes()[a_name].value) writer.write("\"") if self.childNodes: writer.write(">") for node in self.childNodes: node.writexml(writer,tabs) if self.childNodes[0].nodeType == Node.TEXT_NODE: tab_str = "" writer.write(tab_str + "</%s>" % self.tagName) else: writer.write("/>") def _get_attributes(self): return AttributeList(self._attrs, self._attrsNS) class Comment(Node): nodeType = Node.COMMENT_NODE def __init__(self, data): Node.__init__(self) self.data = self.nodeValue = data self.nodeName = "#comment" self.attributes = None def writexml(self, writer, tabs=0): writer.write("<!--%s-->" % self.data) def cloneNode(self, deep=0): newNode = Comment(self.data) if deep: self.deep_clone(newNode) return newNode class ProcessingInstruction(Node): nodeType = Node.PROCESSING_INSTRUCTION_NODE def __init__(self, target, data): Node.__init__(self) self.target = self.nodeName = target self.data = self.nodeValue = data self.attributes = None def writexml(self, writer, tabs=0): writer.write("<?%s %s?>" % (self.target, self.data)) def cloneNode(self, deep=0): newNode = ProcessingInstruction(self.target, self.data) if deep: self.deep_clone(newNode) return newNode class Text(Node): nodeType = Node.TEXT_NODE nodeName = "#text" def __init__(self, data): Node.__init__(self) self.data = self.nodeValue = data self.attributes = None def __repr__(self): if len(self.data) > 10: dotdotdot = "..." else: dotdotdot = "" return "<DOM Text node \"%s%s\">" % (self.data[0:10], dotdotdot) def writexml(self, writer, tabs=0): _write_data(writer, self.data) def _get_nodeValue(self): return str(self.nodeValue) def _set_nodeValue(self,data): self.data = self.nodeValue = data def cloneNode(self, deep=0): newNode = Text(self.data) if deep: self.deep_clone(newNode) return newNode def _nssplit(qualifiedName): fields = string.split(qualifiedName,':', 1) if len(fields) == 2: return fields elif len(fields) == 1: return ('', fields[0]) class Document(Node): nodeType = Node.DOCUMENT_NODE documentElement = None def __init__(self): Node.__init__(self) self.attributes = None self.nodeName = "#document" self.nodeValue = None self.ownerDocument = self def appendChild(self, node): if node.nodeType == Node.ELEMENT_NODE: if self.documentElement: raise TypeError, "Two document elements disallowed" else: self.documentElement = node Node.appendChild(self, node) return node createElement = Element createTextNode = Text createComment = Comment createProcessingInstruction = ProcessingInstruction createAttribute = Attr def createElementNS(self, namespaceURI, qualifiedName): prefix,localName = _nssplit(qualifiedName) return Element(qualifiedName, namespaceURI, prefix, localName) def createAttributeNS(self, namespaceURI, qualifiedName): prefix,localName = _nssplit(qualifiedName) return Attr(qualifiedName, namespaceURI, localName, prefix) def getElementsByTagNameNS(self, namespaceURI, localName): _getElementsByTagNameNSHelper(self, namespaceURI, localName) def unlink(self): self.documentElement = None Node.unlink(self) def getElementsByTagName(self, name): rc = [] _getElementsByTagNameHelper(self, name, rc) return rc def writexml(self, writer): for node in self.childNodes: node.writexml(writer) def _doparse(func, args, kwargs): events = apply(func, args, kwargs) toktype, rootNode = events.getEvent() events.expandNode(rootNode) return rootNode def parse(*args, **kwargs): "Parse a file into a DOM by filename or file object" return _doparse(pulldom.parse, args, kwargs) def parseString(*args, **kwargs): "Parse a file into a DOM from a string" return _doparse(pulldom.parseString, args, kwargs)