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Direktori : /proc/thread-self/root/usr/lib/python3/dist-packages/twisted/web/ |
Current File : //proc/thread-self/root/usr/lib/python3/dist-packages/twisted/web/microdom.py |
# -*- test-case-name: twisted.web.test.test_xml -*- # Copyright (c) Twisted Matrix Laboratories. # See LICENSE for details. """ Micro Document Object Model: a partial DOM implementation with SUX. This is an implementation of what we consider to be the useful subset of the DOM. The chief advantage of this library is that, not being burdened with standards compliance, it can remain very stable between versions. We can also implement utility 'pythonic' ways to access and mutate the XML tree. Since this has not subjected to a serious trial by fire, it is not recommended to use this outside of Twisted applications. However, it seems to work just fine for the documentation generator, which parses a fairly representative sample of XML. Microdom mainly focuses on working with HTML and XHTML. """ # System Imports import re from io import BytesIO, StringIO # Twisted Imports from twisted.python.compat import ioType from twisted.python.util import InsensitiveDict from twisted.web.sux import ParseError, XMLParser def getElementsByTagName(iNode, name): """ Return a list of all child elements of C{iNode} with a name matching C{name}. Note that this implementation does not conform to the DOM Level 1 Core specification because it may return C{iNode}. @param iNode: An element at which to begin searching. If C{iNode} has a name matching C{name}, it will be included in the result. @param name: A C{str} giving the name of the elements to return. @return: A C{list} of direct or indirect child elements of C{iNode} with the name C{name}. This may include C{iNode}. """ matches = [] matches_append = matches.append # faster lookup. don't do this at home slice = [iNode] while len(slice) > 0: c = slice.pop(0) if c.nodeName == name: matches_append(c) slice[:0] = c.childNodes return matches def getElementsByTagNameNoCase(iNode, name): name = name.lower() matches = [] matches_append = matches.append slice = [iNode] while len(slice) > 0: c = slice.pop(0) if c.nodeName.lower() == name: matches_append(c) slice[:0] = c.childNodes return matches def _streamWriteWrapper(stream): if ioType(stream) == bytes: def w(s): if isinstance(s, str): s = s.encode("utf-8") stream.write(s) else: def w(s): if isinstance(s, bytes): s = s.decode("utf-8") stream.write(s) return w # order is important HTML_ESCAPE_CHARS = ( ("&", "&"), # don't add any entities before this one ("<", "<"), (">", ">"), ('"', """), ) REV_HTML_ESCAPE_CHARS = list(HTML_ESCAPE_CHARS) REV_HTML_ESCAPE_CHARS.reverse() XML_ESCAPE_CHARS = HTML_ESCAPE_CHARS + (("'", "'"),) REV_XML_ESCAPE_CHARS = list(XML_ESCAPE_CHARS) REV_XML_ESCAPE_CHARS.reverse() def unescape(text, chars=REV_HTML_ESCAPE_CHARS): """ Perform the exact opposite of 'escape'. """ for s, h in chars: text = text.replace(h, s) return text def escape(text, chars=HTML_ESCAPE_CHARS): """ Escape a few XML special chars with XML entities. """ for s, h in chars: text = text.replace(s, h) return text class MismatchedTags(Exception): def __init__(self, filename, expect, got, endLine, endCol, begLine, begCol): ( self.filename, self.expect, self.got, self.begLine, self.begCol, self.endLine, self.endCol, ) = (filename, expect, got, begLine, begCol, endLine, endCol) def __str__(self) -> str: return ( "expected </%s>, got </%s> line: %s col: %s, " "began line: %s col: %s" % ( self.expect, self.got, self.endLine, self.endCol, self.begLine, self.begCol, ) ) class Node: nodeName = "Node" def __init__(self, parentNode=None): self.parentNode = parentNode self.childNodes = [] def isEqualToNode(self, other): """ Compare this node to C{other}. If the nodes have the same number of children and corresponding children are equal to each other, return C{True}, otherwise return C{False}. @type other: L{Node} @rtype: C{bool} """ if len(self.childNodes) != len(other.childNodes): return False for a, b in zip(self.childNodes, other.childNodes): if not a.isEqualToNode(b): return False return True def writexml( self, stream, indent="", addindent="", newl="", strip=0, nsprefixes={}, namespace="", ): raise NotImplementedError() def toxml( self, indent="", addindent="", newl="", strip=0, nsprefixes={}, namespace="" ): s = StringIO() self.writexml(s, indent, addindent, newl, strip, nsprefixes, namespace) rv = s.getvalue() return rv def writeprettyxml(self, stream, indent="", addindent=" ", newl="\n", strip=0): return self.writexml(stream, indent, addindent, newl, strip) def toprettyxml(self, indent="", addindent=" ", newl="\n", strip=0): return self.toxml(indent, addindent, newl, strip) def cloneNode(self, deep=0, parent=None): raise NotImplementedError() def hasChildNodes(self): if self.childNodes: return 1 else: return 0 def appendChild(self, child): """ Make the given L{Node} the last child of this node. @param child: The L{Node} which will become a child of this node. @raise TypeError: If C{child} is not a C{Node} instance. """ if not isinstance(child, Node): raise TypeError("expected Node instance") self.childNodes.append(child) child.parentNode = self def insertBefore(self, new, ref): """ Make the given L{Node} C{new} a child of this node which comes before the L{Node} C{ref}. @param new: A L{Node} which will become a child of this node. @param ref: A L{Node} which is already a child of this node which C{new} will be inserted before. @raise TypeError: If C{new} or C{ref} is not a C{Node} instance. @return: C{new} """ if not isinstance(new, Node) or not isinstance(ref, Node): raise TypeError("expected Node instance") i = self.childNodes.index(ref) new.parentNode = self self.childNodes.insert(i, new) return new def removeChild(self, child): """ Remove the given L{Node} from this node's children. @param child: A L{Node} which is a child of this node which will no longer be a child of this node after this method is called. @raise TypeError: If C{child} is not a C{Node} instance. @return: C{child} """ if not isinstance(child, Node): raise TypeError("expected Node instance") if child in self.childNodes: self.childNodes.remove(child) child.parentNode = None return child def replaceChild(self, newChild, oldChild): """ Replace a L{Node} which is already a child of this node with a different node. @param newChild: A L{Node} which will be made a child of this node. @param oldChild: A L{Node} which is a child of this node which will give up its position to C{newChild}. @raise TypeError: If C{newChild} or C{oldChild} is not a C{Node} instance. @raise ValueError: If C{oldChild} is not a child of this C{Node}. """ if not isinstance(newChild, Node) or not isinstance(oldChild, Node): raise TypeError("expected Node instance") if oldChild.parentNode is not self: raise ValueError("oldChild is not a child of this node") self.childNodes[self.childNodes.index(oldChild)] = newChild oldChild.parentNode = None newChild.parentNode = self def lastChild(self): return self.childNodes[-1] def firstChild(self): if len(self.childNodes): return self.childNodes[0] return None # def get_ownerDocument(self): # """This doesn't really get the owner document; microdom nodes # don't even have one necessarily. This gets the root node, # which is usually what you really meant. # *NOT DOM COMPLIANT.* # """ # node=self # while (node.parentNode): node=node.parentNode # return node # ownerDocument=node.get_ownerDocument() # leaving commented for discussion; see also domhelpers.getParents(node) class Document(Node): def __init__(self, documentElement=None): Node.__init__(self) if documentElement: self.appendChild(documentElement) def cloneNode(self, deep=0, parent=None): d = Document() d.doctype = self.doctype if deep: newEl = self.documentElement.cloneNode(1, self) else: newEl = self.documentElement d.appendChild(newEl) return d doctype = None def isEqualToDocument(self, n): return (self.doctype == n.doctype) and Node.isEqualToNode(self, n) isEqualToNode = isEqualToDocument @property def documentElement(self): return self.childNodes[0] def appendChild(self, child): """ Make the given L{Node} the I{document element} of this L{Document}. @param child: The L{Node} to make into this L{Document}'s document element. @raise ValueError: If this document already has a document element. """ if self.childNodes: raise ValueError("Only one element per document.") Node.appendChild(self, child) def writexml( self, stream, indent="", addindent="", newl="", strip=0, nsprefixes={}, namespace="", ): w = _streamWriteWrapper(stream) w('<?xml version="1.0"?>' + newl) if self.doctype: w(f"<!DOCTYPE {self.doctype}>{newl}") self.documentElement.writexml( stream, indent, addindent, newl, strip, nsprefixes, namespace ) # of dubious utility (?) def createElement(self, name, **kw): return Element(name, **kw) def createTextNode(self, text): return Text(text) def createComment(self, text): return Comment(text) def getElementsByTagName(self, name): if self.documentElement.caseInsensitive: return getElementsByTagNameNoCase(self, name) return getElementsByTagName(self, name) def getElementById(self, id): childNodes = self.childNodes[:] while childNodes: node = childNodes.pop(0) if node.childNodes: childNodes.extend(node.childNodes) if hasattr(node, "getAttribute") and node.getAttribute("id") == id: return node class EntityReference(Node): def __init__(self, eref, parentNode=None): Node.__init__(self, parentNode) self.eref = eref self.nodeValue = self.data = "&" + eref + ";" def isEqualToEntityReference(self, n): if not isinstance(n, EntityReference): return 0 return (self.eref == n.eref) and (self.nodeValue == n.nodeValue) isEqualToNode = isEqualToEntityReference def writexml( self, stream, indent="", addindent="", newl="", strip=0, nsprefixes={}, namespace="", ): w = _streamWriteWrapper(stream) w("" + self.nodeValue) def cloneNode(self, deep=0, parent=None): return EntityReference(self.eref, parent) class CharacterData(Node): def __init__(self, data, parentNode=None): Node.__init__(self, parentNode) self.value = self.data = self.nodeValue = data def isEqualToCharacterData(self, n): return self.value == n.value isEqualToNode = isEqualToCharacterData class Comment(CharacterData): """ A comment node. """ def writexml( self, stream, indent="", addindent="", newl="", strip=0, nsprefixes={}, namespace="", ): w = _streamWriteWrapper(stream) val = self.data w(f"<!--{val}-->") def cloneNode(self, deep=0, parent=None): return Comment(self.nodeValue, parent) class Text(CharacterData): def __init__(self, data, parentNode=None, raw=0): CharacterData.__init__(self, data, parentNode) self.raw = raw def isEqualToNode(self, other): """ Compare this text to C{text}. If the underlying values and the C{raw} flag are the same, return C{True}, otherwise return C{False}. """ return CharacterData.isEqualToNode(self, other) and self.raw == other.raw def cloneNode(self, deep=0, parent=None): return Text(self.nodeValue, parent, self.raw) def writexml( self, stream, indent="", addindent="", newl="", strip=0, nsprefixes={}, namespace="", ): w = _streamWriteWrapper(stream) if self.raw: val = self.nodeValue if not isinstance(val, str): val = str(self.nodeValue) else: v = self.nodeValue if not isinstance(v, str): v = str(v) if strip: v = " ".join(v.split()) val = escape(v) w(val) def __repr__(self) -> str: return "Text(%s" % repr(self.nodeValue) + ")" class CDATASection(CharacterData): def cloneNode(self, deep=0, parent=None): return CDATASection(self.nodeValue, parent) def writexml( self, stream, indent="", addindent="", newl="", strip=0, nsprefixes={}, namespace="", ): w = _streamWriteWrapper(stream) w("<![CDATA[") w("" + self.nodeValue) w("]]>") def _genprefix(): i = 0 while True: yield "p" + str(i) i = i + 1 genprefix = _genprefix() class _Attr(CharacterData): "Support class for getAttributeNode." class Element(Node): preserveCase = 0 caseInsensitive = 1 nsprefixes = None def __init__( self, tagName, attributes=None, parentNode=None, filename=None, markpos=None, caseInsensitive=1, preserveCase=0, namespace=None, ): Node.__init__(self, parentNode) self.preserveCase = preserveCase or not caseInsensitive self.caseInsensitive = caseInsensitive if not preserveCase: tagName = tagName.lower() if attributes is None: self.attributes = {} else: self.attributes = attributes for k, v in self.attributes.items(): self.attributes[k] = unescape(v) if caseInsensitive: self.attributes = InsensitiveDict(self.attributes, preserve=preserveCase) self.endTagName = self.nodeName = self.tagName = tagName self._filename = filename self._markpos = markpos self.namespace = namespace def addPrefixes(self, pfxs): if self.nsprefixes is None: self.nsprefixes = pfxs else: self.nsprefixes.update(pfxs) def endTag(self, endTagName): if not self.preserveCase: endTagName = endTagName.lower() self.endTagName = endTagName def isEqualToElement(self, n): if self.caseInsensitive: return (self.attributes == n.attributes) and ( self.nodeName.lower() == n.nodeName.lower() ) return (self.attributes == n.attributes) and (self.nodeName == n.nodeName) def isEqualToNode(self, other): """ Compare this element to C{other}. If the C{nodeName}, C{namespace}, C{attributes}, and C{childNodes} are all the same, return C{True}, otherwise return C{False}. """ return ( self.nodeName.lower() == other.nodeName.lower() and self.namespace == other.namespace and self.attributes == other.attributes and Node.isEqualToNode(self, other) ) def cloneNode(self, deep=0, parent=None): clone = Element( self.tagName, parentNode=parent, namespace=self.namespace, preserveCase=self.preserveCase, caseInsensitive=self.caseInsensitive, ) clone.attributes.update(self.attributes) if deep: clone.childNodes = [child.cloneNode(1, clone) for child in self.childNodes] else: clone.childNodes = [] return clone def getElementsByTagName(self, name): if self.caseInsensitive: return getElementsByTagNameNoCase(self, name) return getElementsByTagName(self, name) def hasAttributes(self): return 1 def getAttribute(self, name, default=None): return self.attributes.get(name, default) def getAttributeNS(self, ns, name, default=None): nsk = (ns, name) if nsk in self.attributes: return self.attributes[nsk] if ns == self.namespace: return self.attributes.get(name, default) return default def getAttributeNode(self, name): return _Attr(self.getAttribute(name), self) def setAttribute(self, name, attr): self.attributes[name] = attr def removeAttribute(self, name): if name in self.attributes: del self.attributes[name] def hasAttribute(self, name): return name in self.attributes def writexml( self, stream, indent="", addindent="", newl="", strip=0, nsprefixes={}, namespace="", ): """ Serialize this L{Element} to the given stream. @param stream: A file-like object to which this L{Element} will be written. @param nsprefixes: A C{dict} mapping namespace URIs as C{str} to prefixes as C{str}. This defines the prefixes which are already in scope in the document at the point at which this L{Element} exists. This is essentially an implementation detail for namespace support. Applications should not try to use it. @param namespace: The namespace URI as a C{str} which is the default at the point in the document at which this L{Element} exists. This is essentially an implementation detail for namespace support. Applications should not try to use it. """ # write beginning ALLOWSINGLETON = ( "img", "br", "hr", "base", "meta", "link", "param", "area", "input", "col", "basefont", "isindex", "frame", ) BLOCKELEMENTS = ( "html", "head", "body", "noscript", "ins", "del", "h1", "h2", "h3", "h4", "h5", "h6", "script", "ul", "ol", "dl", "pre", "hr", "blockquote", "address", "p", "div", "fieldset", "table", "tr", "form", "object", "fieldset", "applet", "map", ) FORMATNICELY = ("tr", "ul", "ol", "head") # this should never be necessary unless people start # changing .tagName on the fly(?) if not self.preserveCase: self.endTagName = self.tagName w = _streamWriteWrapper(stream) if self.nsprefixes: newprefixes = self.nsprefixes.copy() for ns in nsprefixes.keys(): if ns in newprefixes: del newprefixes[ns] else: newprefixes = {} begin = ["<"] if self.tagName in BLOCKELEMENTS: begin = [newl, indent] + begin bext = begin.extend writeattr = lambda _atr, _val: bext((" ", _atr, '="', escape(_val), '"')) # Make a local for tracking what end tag will be used. If namespace # prefixes are involved, this will be changed to account for that # before it's actually used. endTagName = self.endTagName if namespace != self.namespace and self.namespace is not None: # If the current default namespace is not the namespace of this tag # (and this tag has a namespace at all) then we'll write out # something related to namespaces. if self.namespace in nsprefixes: # This tag's namespace already has a prefix bound to it. Use # that prefix. prefix = nsprefixes[self.namespace] bext(prefix + ":" + self.tagName) # Also make sure we use it for the end tag. endTagName = prefix + ":" + self.endTagName else: # This tag's namespace has no prefix bound to it. Change the # default namespace to this tag's namespace so we don't need # prefixes. Alternatively, we could add a new prefix binding. # I'm not sure why the code was written one way rather than the # other. -exarkun bext(self.tagName) writeattr("xmlns", self.namespace) # The default namespace just changed. Make sure any children # know about this. namespace = self.namespace else: # This tag has no namespace or its namespace is already the default # namespace. Nothing extra to do here. bext(self.tagName) j = "".join for attr, val in sorted(self.attributes.items()): if isinstance(attr, tuple): ns, key = attr if ns in nsprefixes: prefix = nsprefixes[ns] else: prefix = next(genprefix) newprefixes[ns] = prefix assert val is not None writeattr(prefix + ":" + key, val) else: assert val is not None writeattr(attr, val) if newprefixes: for ns, prefix in newprefixes.items(): if prefix: writeattr("xmlns:" + prefix, ns) newprefixes.update(nsprefixes) downprefixes = newprefixes else: downprefixes = nsprefixes w(j(begin)) if self.childNodes: w(">") newindent = indent + addindent for child in self.childNodes: if self.tagName in BLOCKELEMENTS and self.tagName in FORMATNICELY: w(j((newl, newindent))) child.writexml( stream, newindent, addindent, newl, strip, downprefixes, namespace ) if self.tagName in BLOCKELEMENTS: w(j((newl, indent))) w(j(("</", endTagName, ">"))) elif self.tagName.lower() not in ALLOWSINGLETON: w(j(("></", endTagName, ">"))) else: w(" />") def __repr__(self) -> str: rep = "Element(%s" % repr(self.nodeName) if self.attributes: rep += f", attributes={self.attributes!r}" if self._filename: rep += f", filename={self._filename!r}" if self._markpos: rep += f", markpos={self._markpos!r}" return rep + ")" def __str__(self) -> str: rep = "<" + self.nodeName if self._filename or self._markpos: rep += " (" if self._filename: rep += repr(self._filename) if self._markpos: rep += " line %s column %s" % self._markpos if self._filename or self._markpos: rep += ")" for item in self.attributes.items(): rep += " %s=%r" % item if self.hasChildNodes(): rep += " >...</%s>" % self.nodeName else: rep += " />" return rep def _unescapeDict(d): dd = {} for k, v in d.items(): dd[k] = unescape(v) return dd def _reverseDict(d): dd = {} for k, v in d.items(): dd[v] = k return dd class MicroDOMParser(XMLParser): # <dash> glyph: a quick scan thru the DTD says BODY, AREA, LINK, IMG, HR, # P, DT, DD, LI, INPUT, OPTION, THEAD, TFOOT, TBODY, COLGROUP, COL, TR, TH, # TD, HEAD, BASE, META, HTML all have optional closing tags soonClosers = "area link br img hr input base meta".split() laterClosers = { "p": ["p", "dt"], "dt": ["dt", "dd"], "dd": ["dt", "dd"], "li": ["li"], "tbody": ["thead", "tfoot", "tbody"], "thead": ["thead", "tfoot", "tbody"], "tfoot": ["thead", "tfoot", "tbody"], "colgroup": ["colgroup"], "col": ["col"], "tr": ["tr"], "td": ["td"], "th": ["th"], "head": ["body"], "title": ["head", "body"], # this looks wrong... "option": ["option"], } def __init__( self, beExtremelyLenient=0, caseInsensitive=1, preserveCase=0, soonClosers=soonClosers, laterClosers=laterClosers, ): self.elementstack = [] d = {"xmlns": "xmlns", "": None} dr = _reverseDict(d) self.nsstack = [(d, None, dr)] self.documents = [] self._mddoctype = None self.beExtremelyLenient = beExtremelyLenient self.caseInsensitive = caseInsensitive self.preserveCase = preserveCase or not caseInsensitive self.soonClosers = soonClosers self.laterClosers = laterClosers # self.indentlevel = 0 def shouldPreserveSpace(self): for edx in range(len(self.elementstack)): el = self.elementstack[-edx] if el.tagName == "pre" or el.getAttribute("xml:space", "") == "preserve": return 1 return 0 def _getparent(self): if self.elementstack: return self.elementstack[-1] else: return None COMMENT = re.compile(r"\s*/[/*]\s*") def _fixScriptElement(self, el): # this deals with case where there is comment or CDATA inside # <script> tag and we want to do the right thing with it if not self.beExtremelyLenient or not len(el.childNodes) == 1: return c = el.firstChild() if isinstance(c, Text): # deal with nasty people who do stuff like: # <script> // <!-- # x = 1; # // --></script> # tidy does this, for example. prefix = "" oldvalue = c.value match = self.COMMENT.match(oldvalue) if match: prefix = match.group() oldvalue = oldvalue[len(prefix) :] # now see if contents are actual node and comment or CDATA try: e = parseString("<a>%s</a>" % oldvalue).childNodes[0] except (ParseError, MismatchedTags): return if len(e.childNodes) != 1: return e = e.firstChild() if isinstance(e, (CDATASection, Comment)): el.childNodes = [] if prefix: el.childNodes.append(Text(prefix)) el.childNodes.append(e) def gotDoctype(self, doctype): self._mddoctype = doctype def gotTagStart(self, name, attributes): # print ' '*self.indentlevel, 'start tag',name # self.indentlevel += 1 parent = self._getparent() if self.beExtremelyLenient and isinstance(parent, Element): parentName = parent.tagName myName = name if self.caseInsensitive: parentName = parentName.lower() myName = myName.lower() if myName in self.laterClosers.get(parentName, []): self.gotTagEnd(parent.tagName) parent = self._getparent() attributes = _unescapeDict(attributes) namespaces = self.nsstack[-1][0] newspaces = {} keysToDelete = [] for k, v in attributes.items(): if k.startswith("xmlns"): spacenames = k.split(":", 1) if len(spacenames) == 2: newspaces[spacenames[1]] = v else: newspaces[""] = v keysToDelete.append(k) for k in keysToDelete: del attributes[k] if newspaces: namespaces = namespaces.copy() namespaces.update(newspaces) keysToDelete = [] for k, v in attributes.items(): ksplit = k.split(":", 1) if len(ksplit) == 2: pfx, tv = ksplit if pfx != "xml" and pfx in namespaces: attributes[namespaces[pfx], tv] = v keysToDelete.append(k) for k in keysToDelete: del attributes[k] el = Element( name, attributes, parent, self.filename, self.saveMark(), caseInsensitive=self.caseInsensitive, preserveCase=self.preserveCase, namespace=namespaces.get(""), ) revspaces = _reverseDict(newspaces) el.addPrefixes(revspaces) if newspaces: rscopy = self.nsstack[-1][2].copy() rscopy.update(revspaces) self.nsstack.append((namespaces, el, rscopy)) self.elementstack.append(el) if parent: parent.appendChild(el) if self.beExtremelyLenient and el.tagName in self.soonClosers: self.gotTagEnd(name) def _gotStandalone(self, factory, data): parent = self._getparent() te = factory(data, parent) if parent: parent.appendChild(te) elif self.beExtremelyLenient: self.documents.append(te) def gotText(self, data): if data.strip() or self.shouldPreserveSpace(): self._gotStandalone(Text, data) def gotComment(self, data): self._gotStandalone(Comment, data) def gotEntityReference(self, entityRef): self._gotStandalone(EntityReference, entityRef) def gotCData(self, cdata): self._gotStandalone(CDATASection, cdata) def gotTagEnd(self, name): # print ' '*self.indentlevel, 'end tag',name # self.indentlevel -= 1 if not self.elementstack: if self.beExtremelyLenient: return raise MismatchedTags( *((self.filename, "NOTHING", name) + self.saveMark() + (0, 0)) ) el = self.elementstack.pop() pfxdix = self.nsstack[-1][2] if self.nsstack[-1][1] is el: nstuple = self.nsstack.pop() else: nstuple = None if self.caseInsensitive: tn = el.tagName.lower() cname = name.lower() else: tn = el.tagName cname = name nsplit = name.split(":", 1) if len(nsplit) == 2: pfx, newname = nsplit ns = pfxdix.get(pfx, None) if ns is not None: if el.namespace != ns: if not self.beExtremelyLenient: raise MismatchedTags( *( (self.filename, el.tagName, name) + self.saveMark() + el._markpos ) ) if not (tn == cname): if self.beExtremelyLenient: if self.elementstack: lastEl = self.elementstack[0] for idx in range(len(self.elementstack)): if self.elementstack[-(idx + 1)].tagName == cname: self.elementstack[-(idx + 1)].endTag(name) break else: # this was a garbage close tag; wait for a real one self.elementstack.append(el) if nstuple is not None: self.nsstack.append(nstuple) return del self.elementstack[-(idx + 1) :] if not self.elementstack: self.documents.append(lastEl) return else: raise MismatchedTags( *((self.filename, el.tagName, name) + self.saveMark() + el._markpos) ) el.endTag(name) if not self.elementstack: self.documents.append(el) if self.beExtremelyLenient and el.tagName == "script": self._fixScriptElement(el) def connectionLost(self, reason): XMLParser.connectionLost(self, reason) # This can cause more events! if self.elementstack: if self.beExtremelyLenient: self.documents.append(self.elementstack[0]) else: raise MismatchedTags( *( (self.filename, self.elementstack[-1], "END_OF_FILE") + self.saveMark() + self.elementstack[-1]._markpos ) ) def parse(readable, *args, **kwargs): """ Parse HTML or XML readable. """ if not hasattr(readable, "read"): readable = open(readable, "rb") mdp = MicroDOMParser(*args, **kwargs) mdp.filename = getattr(readable, "name", "<xmlfile />") mdp.makeConnection(None) if hasattr(readable, "getvalue"): mdp.dataReceived(readable.getvalue()) else: r = readable.read(1024) while r: mdp.dataReceived(r) r = readable.read(1024) mdp.connectionLost(None) if not mdp.documents: raise ParseError(mdp.filename, 0, 0, "No top-level Nodes in document") if mdp.beExtremelyLenient: if len(mdp.documents) == 1: d = mdp.documents[0] if not isinstance(d, Element): el = Element("html") el.appendChild(d) d = el else: d = Element("html") for child in mdp.documents: d.appendChild(child) else: d = mdp.documents[0] doc = Document(d) doc.doctype = mdp._mddoctype return doc def parseString(st, *args, **kw): if isinstance(st, str): # this isn't particularly ideal, but it does work. return parse(BytesIO(st.encode("UTF-16")), *args, **kw) return parse(BytesIO(st), *args, **kw) def parseXML(readable): """ Parse an XML readable object. """ return parse(readable, caseInsensitive=0, preserveCase=1) def parseXMLString(st): """ Parse an XML readable object. """ return parseString(st, caseInsensitive=0, preserveCase=1) class lmx: """ Easy creation of XML. """ def __init__(self, node="div"): if isinstance(node, str): node = Element(node) self.node = node def __getattr__(self, name): if name[0] == "_": raise AttributeError("no private attrs") return lambda **kw: self.add(name, **kw) def __setitem__(self, key, val): self.node.setAttribute(key, val) def __getitem__(self, key): return self.node.getAttribute(key) def text(self, txt, raw=0): nn = Text(txt, raw=raw) self.node.appendChild(nn) return self def add(self, tagName, **kw): newNode = Element(tagName, caseInsensitive=0, preserveCase=0) self.node.appendChild(newNode) xf = lmx(newNode) for k, v in kw.items(): if k[0] == "_": k = k[1:] xf[k] = v return xf