From 5eeebb36bfe73dcf17dc8b72bd190c266e25c45e Mon Sep 17 00:00:00 2001 From: "louiz@4325f9fc-e183-4c21-96ce-0ab188b42d13" Date: Tue, 20 Jul 2010 00:10:39 +0000 Subject: remove xmpppy from the repos --- src/xmpppy-0.5.0rc1/build/lib/xmpp/simplexml.py | 485 ------------------------ 1 file changed, 485 deletions(-) delete mode 100644 src/xmpppy-0.5.0rc1/build/lib/xmpp/simplexml.py (limited to 'src/xmpppy-0.5.0rc1/build/lib/xmpp/simplexml.py') diff --git a/src/xmpppy-0.5.0rc1/build/lib/xmpp/simplexml.py b/src/xmpppy-0.5.0rc1/build/lib/xmpp/simplexml.py deleted file mode 100644 index 99383dea..00000000 --- a/src/xmpppy-0.5.0rc1/build/lib/xmpp/simplexml.py +++ /dev/null @@ -1,485 +0,0 @@ -## simplexml.py based on Mattew Allum's xmlstream.py -## -## Copyright (C) 2003-2005 Alexey "Snake" Nezhdanov -## -## This program is free software; you can redistribute it and/or modify -## it under the terms of the GNU General Public License as published by -## the Free Software Foundation; either version 2, or (at your option) -## any later version. -## -## This program is distributed in the hope that it will be useful, -## but WITHOUT ANY WARRANTY; without even the implied warranty of -## MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the -## GNU General Public License for more details. - -# $Id: simplexml.py,v 1.34 2009/03/03 10:24:02 normanr Exp $ - -"""Simplexml module provides xmpppy library with all needed tools to handle XML nodes and XML streams. -I'm personally using it in many other separate projects. It is designed to be as standalone as possible.""" - -import xml.parsers.expat - -def XMLescape(txt): - """Returns provided string with symbols & < > " replaced by their respective XML entities.""" - # replace also FORM FEED and ESC, because they are not valid XML chars - return txt.replace("&", "&").replace("<", "<").replace(">", ">").replace('"', """).replace(u'\x0C', "").replace(u'\x1B', "") - -ENCODING='utf-8' -def ustr(what): - """Converts object "what" to unicode string using it's own __str__ method if accessible or unicode method otherwise.""" - if isinstance(what, unicode): return what - try: r=what.__str__() - except AttributeError: r=str(what) - if not isinstance(r, unicode): return unicode(r,ENCODING) - return r - -class Node(object): - """ Node class describes syntax of separate XML Node. It have a constructor that permits node creation - from set of "namespace name", attributes and payload of text strings and other nodes. - It does not natively support building node from text string and uses NodeBuilder class for that purpose. - After creation node can be mangled in many ways so it can be completely changed. - Also node can be serialised into string in one of two modes: default (where the textual representation - of node describes it exactly) and "fancy" - with whitespace added to make indentation and thus make - result more readable by human. - - Node class have attribute FORCE_NODE_RECREATION that is defaults to False thus enabling fast node - replication from the some other node. The drawback of the fast way is that new node shares some - info with the "original" node that is changing the one node may influence the other. Though it is - rarely needed (in xmpppy it is never needed at all since I'm usually never using original node after - replication (and using replication only to move upwards on the classes tree). - """ - FORCE_NODE_RECREATION=0 - def __init__(self, tag=None, attrs={}, payload=[], parent=None, nsp=None, node_built=False, node=None): - """ Takes "tag" argument as the name of node (prepended by namespace, if needed and separated from it - by a space), attrs dictionary as the set of arguments, payload list as the set of textual strings - and child nodes that this node carries within itself and "parent" argument that is another node - that this one will be the child of. Also the __init__ can be provided with "node" argument that is - either a text string containing exactly one node or another Node instance to begin with. If both - "node" and other arguments is provided then the node initially created as replica of "node" - provided and then modified to be compliant with other arguments.""" - if node: - if self.FORCE_NODE_RECREATION and isinstance(node, Node): - node=str(node) - if not isinstance(node, Node): - node=NodeBuilder(node,self) - node_built = True - else: - self.name,self.namespace,self.attrs,self.data,self.kids,self.parent,self.nsd = node.name,node.namespace,{},[],[],node.parent,{} - for key in node.attrs.keys(): self.attrs[key]=node.attrs[key] - for data in node.data: self.data.append(data) - for kid in node.kids: self.kids.append(kid) - for k,v in node.nsd.items(): self.nsd[k] = v - else: self.name,self.namespace,self.attrs,self.data,self.kids,self.parent,self.nsd = 'tag','',{},[],[],None,{} - if parent: - self.parent = parent - self.nsp_cache = {} - if nsp: - for k,v in nsp.items(): self.nsp_cache[k] = v - for attr,val in attrs.items(): - if attr == 'xmlns': - self.nsd[u''] = val - elif attr.startswith('xmlns:'): - self.nsd[attr[6:]] = val - self.attrs[attr]=attrs[attr] - if tag: - if node_built: - pfx,self.name = (['']+tag.split(':'))[-2:] - self.namespace = self.lookup_nsp(pfx) - else: - if ' ' in tag: - self.namespace,self.name = tag.split() - else: - self.name = tag - if isinstance(payload, basestring): payload=[payload] - for i in payload: - if isinstance(i, Node): self.addChild(node=i) - else: self.data.append(ustr(i)) - - def lookup_nsp(self,pfx=''): - ns = self.nsd.get(pfx,None) - if ns is None: - ns = self.nsp_cache.get(pfx,None) - if ns is None: - if self.parent: - ns = self.parent.lookup_nsp(pfx) - self.nsp_cache[pfx] = ns - else: - return 'http://www.gajim.org/xmlns/undeclared' - return ns - - def __str__(self,fancy=0): - """ Method used to dump node into textual representation. - if "fancy" argument is set to True produces indented output for readability.""" - s = (fancy-1) * 2 * ' ' + "<" + self.name - if self.namespace: - if not self.parent or self.parent.namespace!=self.namespace: - if 'xmlns' not in self.attrs: - s = s + ' xmlns="%s"'%self.namespace - for key in self.attrs.keys(): - val = ustr(self.attrs[key]) - s = s + ' %s="%s"' % ( key, XMLescape(val) ) - s = s + ">" - cnt = 0 - if self.kids: - if fancy: s = s + "\n" - for a in self.kids: - if not fancy and (len(self.data)-1)>=cnt: s=s+XMLescape(self.data[cnt]) - elif (len(self.data)-1)>=cnt: s=s+XMLescape(self.data[cnt].strip()) - if isinstance(a, Node): - s = s + a.__str__(fancy and fancy+1) - elif a: - s = s + a.__str__() - cnt=cnt+1 - if not fancy and (len(self.data)-1) >= cnt: s = s + XMLescape(self.data[cnt]) - elif (len(self.data)-1) >= cnt: s = s + XMLescape(self.data[cnt].strip()) - if not self.kids and s.endswith('>'): - s=s[:-1]+' />' - if fancy: s = s + "\n" - else: - if fancy and not self.data: s = s + (fancy-1) * 2 * ' ' - s = s + "" - if fancy: s = s + "\n" - return s - def getCDATA(self): - """ Serialise node, dropping all tags and leaving CDATA intact. - That is effectively kills all formatiing, leaving only text were contained in XML. - """ - s = "" - cnt = 0 - if self.kids: - for a in self.kids: - s=s+self.data[cnt] - if a: s = s + a.getCDATA() - cnt=cnt+1 - if (len(self.data)-1) >= cnt: s = s + self.data[cnt] - return s - def addChild(self, name=None, attrs={}, payload=[], namespace=None, node=None): - """ If "node" argument is provided, adds it as child node. Else creates new node from - the other arguments' values and adds it as well.""" - if 'xmlns' in attrs: - raise AttributeError("Use namespace=x instead of attrs={'xmlns':x}") - if node: - newnode=node - node.parent = self - else: newnode=Node(tag=name, parent=self, attrs=attrs, payload=payload) - if namespace: - newnode.setNamespace(namespace) - self.kids.append(newnode) - self.data.append(u'') - return newnode - def addData(self, data): - """ Adds some CDATA to node. """ - self.data.append(ustr(data)) - self.kids.append(None) - def clearData(self): - """ Removes all CDATA from the node. """ - self.data=[] - def delAttr(self, key): - """ Deletes an attribute "key" """ - del self.attrs[key] - def delChild(self, node, attrs={}): - """ Deletes the "node" from the node's childs list, if "node" is an instance. - Else deletes the first node that have specified name and (optionally) attributes. """ - if not isinstance(node, Node): node=self.getTag(node,attrs) - self.kids[self.kids.index(node)]=None - return node - def getAttrs(self): - """ Returns all node's attributes as dictionary. """ - return self.attrs - def getAttr(self, key): - """ Returns value of specified attribute. """ - try: return self.attrs[key] - except: return None - def getChildren(self): - """ Returns all node's child nodes as list. """ - return self.kids - def getData(self): - """ Returns all node CDATA as string (concatenated). """ - return ''.join(self.data) - def getName(self): - """ Returns the name of node """ - return self.name - def getNamespace(self): - """ Returns the namespace of node """ - return self.namespace - def getParent(self): - """ Returns the parent of node (if present). """ - return self.parent - def getPayload(self): - """ Return the payload of node i.e. list of child nodes and CDATA entries. - F.e. for "text1 text2" will be returned list: - ['text1', , , ' text2']. """ - ret=[] - for i in range(max(len(self.data),len(self.kids))): - if i < len(self.data) and self.data[i]: ret.append(self.data[i]) - if i < len(self.kids) and self.kids[i]: ret.append(self.kids[i]) - return ret - def getTag(self, name, attrs={}, namespace=None): - """ Filters all child nodes using specified arguments as filter. - Returns the first found or None if not found. """ - return self.getTags(name, attrs, namespace, one=1) - def getTagAttr(self,tag,attr): - """ Returns attribute value of the child with specified name (or None if no such attribute).""" - try: return self.getTag(tag).attrs[attr] - except: return None - def getTagData(self,tag): - """ Returns cocatenated CDATA of the child with specified name.""" - try: return self.getTag(tag).getData() - except: return None - def getTags(self, name, attrs={}, namespace=None, one=0): - """ Filters all child nodes using specified arguments as filter. - Returns the list of nodes found. """ - nodes=[] - for node in self.kids: - if not node: continue - if namespace and namespace!=node.getNamespace(): continue - if node.getName() == name: - for key in attrs.keys(): - if key not in node.attrs or node.attrs[key]!=attrs[key]: break - else: nodes.append(node) - if one and nodes: return nodes[0] - if not one: return nodes - - def iterTags(self, name, attrs={}, namespace=None): - """ Iterate over all children using specified arguments as filter. """ - for node in self.kids: - if not node: continue - if namespace is not None and namespace!=node.getNamespace(): continue - if node.getName() == name: - for key in attrs.keys(): - if key not in node.attrs or \ - node.attrs[key]!=attrs[key]: break - else: - yield node - - def setAttr(self, key, val): - """ Sets attribute "key" with the value "val". """ - self.attrs[key]=val - def setData(self, data): - """ Sets node's CDATA to provided string. Resets all previous CDATA!""" - self.data=[ustr(data)] - def setName(self,val): - """ Changes the node name. """ - self.name = val - def setNamespace(self, namespace): - """ Changes the node namespace. """ - self.namespace=namespace - def setParent(self, node): - """ Sets node's parent to "node". WARNING: do not checks if the parent already present - and not removes the node from the list of childs of previous parent. """ - self.parent = node - def setPayload(self,payload,add=0): - """ Sets node payload according to the list specified. WARNING: completely replaces all node's - previous content. If you wish just to add child or CDATA - use addData or addChild methods. """ - if isinstance(payload, basestring): payload=[payload] - if add: self.kids+=payload - else: self.kids=payload - def setTag(self, name, attrs={}, namespace=None): - """ Same as getTag but if the node with specified namespace/attributes not found, creates such - node and returns it. """ - node=self.getTags(name, attrs, namespace=namespace, one=1) - if node: return node - else: return self.addChild(name, attrs, namespace=namespace) - def setTagAttr(self,tag,attr,val): - """ Creates new node (if not already present) with name "tag" - and sets it's attribute "attr" to value "val". """ - try: self.getTag(tag).attrs[attr]=val - except: self.addChild(tag,attrs={attr:val}) - def setTagData(self,tag,val,attrs={}): - """ Creates new node (if not already present) with name "tag" and (optionally) attributes "attrs" - and sets it's CDATA to string "val". """ - try: self.getTag(tag,attrs).setData(ustr(val)) - except: self.addChild(tag,attrs,payload=[ustr(val)]) - def has_attr(self,key): - """ Checks if node have attribute "key".""" - return key in self.attrs - def __getitem__(self,item): - """ Returns node's attribute "item" value. """ - return self.getAttr(item) - def __setitem__(self,item,val): - """ Sets node's attribute "item" value. """ - return self.setAttr(item,val) - def __delitem__(self,item): - """ Deletes node's attribute "item". """ - return self.delAttr(item) - def __getattr__(self,attr): - """ Reduce memory usage caused by T/NT classes - use memory only when needed. """ - if attr=='T': - self.T=T(self) - return self.T - if attr=='NT': - self.NT=NT(self) - return self.NT - raise AttributeError - -class T: - """ Auxiliary class used to quick access to node's child nodes. """ - def __init__(self,node): self.__dict__['node']=node - def __getattr__(self,attr): return self.node.getTag(attr) - def __setattr__(self,attr,val): - if isinstance(val,Node): Node.__init__(self.node.setTag(attr),node=val) - else: return self.node.setTagData(attr,val) - def __delattr__(self,attr): return self.node.delChild(attr) - -class NT(T): - """ Auxiliary class used to quick create node's child nodes. """ - def __getattr__(self,attr): return self.node.addChild(attr) - def __setattr__(self,attr,val): - if isinstance(val,Node): self.node.addChild(attr,node=val) - else: return self.node.addChild(attr,payload=[val]) - -DBG_NODEBUILDER = 'nodebuilder' -class NodeBuilder: - """ Builds a Node class minidom from data parsed to it. This class used for two purposes: - 1. Creation an XML Node from a textual representation. F.e. reading a config file. See an XML2Node method. - 2. Handling an incoming XML stream. This is done by mangling - the __dispatch_depth parameter and redefining the dispatch method. - You do not need to use this class directly if you do not designing your own XML handler.""" - def __init__(self,data=None,initial_node=None): - """ Takes two optional parameters: "data" and "initial_node". - By default class initialised with empty Node class instance. - Though, if "initial_node" is provided it used as "starting point". - You can think about it as of "node upgrade". - "data" (if provided) feeded to parser immidiatedly after instance init. - """ - self.DEBUG(DBG_NODEBUILDER, "Preparing to handle incoming XML stream.", 'start') - self._parser = xml.parsers.expat.ParserCreate() - self._parser.StartElementHandler = self.starttag - self._parser.EndElementHandler = self.endtag - self._parser.CharacterDataHandler = self.handle_cdata - self._parser.StartNamespaceDeclHandler = self.handle_namespace_start - self._parser.buffer_text = True - self.Parse = self._parser.Parse - - self.__depth = 0 - self.__last_depth = 0 - self.__max_depth = 0 - self._dispatch_depth = 1 - self._document_attrs = None - self._document_nsp = None - self._mini_dom=initial_node - self.last_is_data = 1 - self._ptr=None - self.data_buffer = None - self.streamError = '' - if data: - self._parser.Parse(data,1) - - def check_data_buffer(self): - if self.data_buffer: - self._ptr.data.append(''.join(self.data_buffer)) - del self.data_buffer[:] - self.data_buffer = None - - def destroy(self): - """ Method used to allow class instance to be garbage-collected. """ - self.check_data_buffer() - self._parser.StartElementHandler = None - self._parser.EndElementHandler = None - self._parser.CharacterDataHandler = None - self._parser.StartNamespaceDeclHandler = None - - def starttag(self, tag, attrs): - """XML Parser callback. Used internally""" - self.check_data_buffer() - self._inc_depth() - self.DEBUG(DBG_NODEBUILDER, "DEPTH -> %i , tag -> %s, attrs -> %s" % (self.__depth, tag, `attrs`), 'down') - if self.__depth == self._dispatch_depth: - if not self._mini_dom : - self._mini_dom = Node(tag=tag, attrs=attrs, nsp = self._document_nsp, node_built=True) - else: - Node.__init__(self._mini_dom,tag=tag, attrs=attrs, nsp = self._document_nsp, node_built=True) - self._ptr = self._mini_dom - elif self.__depth > self._dispatch_depth: - self._ptr.kids.append(Node(tag=tag,parent=self._ptr,attrs=attrs, node_built=True)) - self._ptr = self._ptr.kids[-1] - if self.__depth == 1: - self._document_attrs = {} - self._document_nsp = {} - nsp, name = (['']+tag.split(':'))[-2:] - for attr,val in attrs.items(): - if attr == 'xmlns': - self._document_nsp[u''] = val - elif attr.startswith('xmlns:'): - self._document_nsp[attr[6:]] = val - else: - self._document_attrs[attr] = val - ns = self._document_nsp.get(nsp, 'http://www.gajim.org/xmlns/undeclared-root') - try: - self.stream_header_received(ns, name, attrs) - except ValueError, e: - self._document_attrs = None - raise ValueError(str(e)) - if not self.last_is_data and self._ptr.parent: - self._ptr.parent.data.append('') - self.last_is_data = 0 - - def endtag(self, tag ): - """XML Parser callback. Used internally""" - self.DEBUG(DBG_NODEBUILDER, "DEPTH -> %i , tag -> %s" % (self.__depth, tag), 'up') - self.check_data_buffer() - if self.__depth == self._dispatch_depth: - if self._mini_dom.getName() == 'error': - self.streamError = self._mini_dom.getChildren()[0].getName() - self.dispatch(self._mini_dom) - elif self.__depth > self._dispatch_depth: - self._ptr = self._ptr.parent - else: - self.DEBUG(DBG_NODEBUILDER, "Got higher than dispatch level. Stream terminated?", 'stop') - self._dec_depth() - self.last_is_data = 0 - if self.__depth == 0: self.stream_footer_received() - - def handle_cdata(self, data): - """XML Parser callback. Used internally""" - self.DEBUG(DBG_NODEBUILDER, data, 'data') - if self.last_is_data: - if self.data_buffer: - self.data_buffer.append(data) - elif self._ptr: - self.data_buffer = [data] - self.last_is_data = 1 - - def handle_namespace_start(self, prefix, uri): - """XML Parser callback. Used internally""" - self.check_data_buffer() - - def DEBUG(self, level, text, comment=None): - """ Gets all NodeBuilder walking events. Can be used for debugging if redefined.""" - def getDom(self): - """ Returns just built Node. """ - self.check_data_buffer() - return self._mini_dom - def dispatch(self,stanza): - """ Gets called when the NodeBuilder reaches some level of depth on it's way up with the built - node as argument. Can be redefined to convert incoming XML stanzas to program events. """ - def stream_header_received(self,ns,tag,attrs): - """ Method called when stream just opened. """ - self.check_data_buffer() - def stream_footer_received(self): - """ Method called when stream just closed. """ - self.check_data_buffer() - - def has_received_endtag(self, level=0): - """ Return True if at least one end tag was seen (at level) """ - return self.__depth <= level and self.__max_depth > level - - def _inc_depth(self): - self.__last_depth = self.__depth - self.__depth += 1 - self.__max_depth = max(self.__depth, self.__max_depth) - - def _dec_depth(self): - self.__last_depth = self.__depth - self.__depth -= 1 - -def XML2Node(xml): - """ Converts supplied textual string into XML node. Handy f.e. for reading configuration file. - Raises xml.parser.expat.parsererror if provided string is not well-formed XML. """ - return NodeBuilder(xml).getDom() - -def BadXML2Node(xml): - """ Converts supplied textual string into XML node. Survives if xml data is cutted half way round. - I.e. "some text
some more text". Will raise xml.parser.expat.parsererror on misplaced - tags though. F.e. "some text
some more text" will not work.""" - return NodeBuilder(xml).getDom() -- cgit v1.2.3