# Use of this source code is governed by the MIT license. __license__ = "MIT" __all__ = [ 'LXMLTreeBuilderForXML', 'LXMLTreeBuilder', ] try: from collections.abc import Callable # Python 3.6 except ImportError as e: from collections import Callable from io import BytesIO from io import StringIO from lxml import etree from ..element import ( Comment, Doctype, NamespacedAttribute, ProcessingInstruction, XMLProcessingInstruction, ) from ..builder import ( FAST, HTML, HTMLTreeBuilder, PERMISSIVE, ParserRejectedMarkup, TreeBuilder, XML) from ..dammit import EncodingDetector LXML = 'lxml' def _invert(d): "Invert a dictionary." return dict((v,k) for k, v in list(d.items())) class LXMLTreeBuilderForXML(TreeBuilder): DEFAULT_PARSER_CLASS = etree.XMLParser is_xml = True processing_instruction_class = XMLProcessingInstruction NAME = "lxml-xml" ALTERNATE_NAMES = ["xml"] # Well, it's permissive by XML parser standards. features = [NAME, LXML, XML, FAST, PERMISSIVE] CHUNK_SIZE = 512 # This namespace mapping is specified in the XML Namespace # standard. DEFAULT_NSMAPS = dict(xml='http://www.w3.org/XML/1998/namespace') DEFAULT_NSMAPS_INVERTED = _invert(DEFAULT_NSMAPS) # NOTE: If we parsed Element objects and looked at .sourceline, # we'd be able to see the line numbers from the original document. # But instead we build an XMLParser or HTMLParser object to serve # as the target of parse messages, and those messages don't include # line numbers. # See: https://bugs.launchpad.net/lxml/+bug/1846906 def initialize_soup(self, soup): """Let the BeautifulSoup object know about the standard namespace mapping. :param soup: A `BeautifulSoup`. """ super(LXMLTreeBuilderForXML, self).initialize_soup(soup) self._register_namespaces(self.DEFAULT_NSMAPS) def _register_namespaces(self, mapping): """Let the BeautifulSoup object know about namespaces encountered while parsing the document. This might be useful later on when creating CSS selectors. :param mapping: A dictionary mapping namespace prefixes to URIs. """ for key, value in list(mapping.items()): if key and key not in self.soup._namespaces: # Let the BeautifulSoup object know about a new namespace. # If there are multiple namespaces defined with the same # prefix, the first one in the document takes precedence. self.soup._namespaces[key] = value def default_parser(self, encoding): """Find the default parser for the given encoding. :param encoding: A string. :return: Either a parser object or a class, which will be instantiated with default arguments. """ if self._default_parser is not None: return self._default_parser return etree.XMLParser( target=self, strip_cdata=False, recover=True, encoding=encoding) def parser_for(self, encoding): """Instantiate an appropriate parser for the given encoding. :param encoding: A string. :return: A parser object such as an `etree.XMLParser`. """ # Use the default parser. parser = self.default_parser(encoding) if isinstance(parser, Callable): # Instantiate the parser with default arguments parser = parser( target=self, strip_cdata=False, recover=True, encoding=encoding ) return parser def __init__(self, parser=None, empty_element_tags=None, **kwargs): # TODO: Issue a warning if parser is present but not a # callable, since that means there's no way to create new # parsers for different encodings. self._default_parser = parser if empty_element_tags is not None: self.empty_element_tags = set(empty_element_tags) self.soup = None self.nsmaps = [self.DEFAULT_NSMAPS_INVERTED] super(LXMLTreeBuilderForXML, self).__init__(**kwargs) def _getNsTag(self, tag): # Split the namespace URL out of a fully-qualified lxml tag # name. Copied from lxml's src/lxml/sax.py. if tag[0] == '{': return tuple(tag[1:].split('}', 1)) else: return (None, tag) def prepare_markup(self, markup, user_specified_encoding=None, exclude_encodings=None, document_declared_encoding=None): """Run any preliminary steps necessary to make incoming markup acceptable to the parser. lxml really wants to get a bytestring and convert it to Unicode itself. So instead of using UnicodeDammit to convert the bytestring to Unicode using different encodings, this implementation uses EncodingDetector to iterate over the encodings, and tell lxml to try to parse the document as each one in turn. :param markup: Some markup -- hopefully a bytestring. :param user_specified_encoding: The user asked to try this encoding. :param document_declared_encoding: The markup itself claims to be in this encoding. :param exclude_encodings: The user asked _not_ to try any of these encodings. :yield: A series of 4-tuples: (markup, encoding, declared encoding, has undergone character replacement) Each 4-tuple represents a strategy for converting the document to Unicode and parsing it. Each strategy will be tried in turn. """ is_html = not self.is_xml if is_html: self.processing_instruction_class = ProcessingInstruction else: self.processing_instruction_class = XMLProcessingInstruction if isinstance(markup, str): # We were given Unicode. Maybe lxml can parse Unicode on # this system? yield markup, None, document_declared_encoding, False if isinstance(markup, str): # No, apparently not. Convert the Unicode to UTF-8 and # tell lxml to parse it as UTF-8. yield (markup.encode("utf8"), "utf8", document_declared_encoding, False) try_encodings = [user_specified_encoding, document_declared_encoding] detector = EncodingDetector( markup, try_encodings, is_html, exclude_encodings) for encoding in detector.encodings: yield (detector.markup, encoding, document_declared_encoding, False) def feed(self, markup): if isinstance(markup, bytes): markup = BytesIO(markup) elif isinstance(markup, str): markup = StringIO(markup) # Call feed() at least once, even if the markup is empty, # or the parser won't be initialized. data = markup.read(self.CHUNK_SIZE) try: self.parser = self.parser_for(self.soup.original_encoding) self.parser.feed(data) while len(data) != 0: # Now call feed() on the rest of the data, chunk by chunk. data = markup.read(self.CHUNK_SIZE) if len(data) != 0: self.parser.feed(data) self.parser.close() except (UnicodeDecodeError, LookupError, etree.ParserError) as e: raise ParserRejectedMarkup(e) def close(self): self.nsmaps = [self.DEFAULT_NSMAPS_INVERTED] def start(self, name, attrs, nsmap={}): # Make sure attrs is a mutable dict--lxml may send an immutable dictproxy. attrs = dict(attrs) nsprefix = None # Invert each namespace map as it comes in. if len(nsmap) == 0 and len(self.nsmaps) > 1: # There are no new namespaces for this tag, but # non-default namespaces are in play, so we need a # separate tag stack to know when they end. self.nsmaps.append(None) elif len(nsmap) > 0: # A new namespace mapping has come into play. # First, Let the BeautifulSoup object know about it. self._register_namespaces(nsmap) # Then, add it to our running list of inverted namespace # mappings. self.nsmaps.append(_invert(nsmap)) # Also treat the namespace mapping as a set of attributes on the # tag, so we can recreate it later. attrs = attrs.copy() for prefix, namespace in list(nsmap.items()): attribute = NamespacedAttribute( "xmlns", prefix, "http://www.w3.org/2000/xmlns/") attrs[attribute] = namespace # Namespaces are in play. Find any attributes that came in # from lxml with namespaces attached to their names, and # turn then into NamespacedAttribute objects. new_attrs = {} for attr, value in list(attrs.items()): namespace, attr = self._getNsTag(attr) if namespace is None: new_attrs[attr] = value else: nsprefix = self._prefix_for_namespace(namespace) attr = NamespacedAttribute(nsprefix, attr, namespace) new_attrs[attr] = value attrs = new_attrs namespace, name = self._getNsTag(name) nsprefix = self._prefix_for_namespace(namespace) self.soup.handle_starttag(name, namespace, nsprefix, attrs) def _prefix_for_namespace(self, namespace): """Find the currently active prefix for the given namespace.""" if namespace is None: return None for inverted_nsmap in reversed(self.nsmaps): if inverted_nsmap is not None and namespace in inverted_nsmap: return inverted_nsmap[namespace] return None def end(self, name): self.soup.endData() completed_tag = self.soup.tagStack[-1] namespace, name = self._getNsTag(name) nsprefix = None if namespace is not None: for inverted_nsmap in reversed(self.nsmaps): if inverted_nsmap is not None and namespace in inverted_nsmap: nsprefix = inverted_nsmap[namespace] break self.soup.handle_endtag(name, nsprefix) if len(self.nsmaps) > 1: # This tag, or one of its parents, introduced a namespace # mapping, so pop it off the stack. self.nsmaps.pop() def pi(self, target, data): self.soup.endData() self.soup.handle_data(target + ' ' + data) self.soup.endData(self.processing_instruction_class) def data(self, content): self.soup.handle_data(content) def doctype(self, name, pubid, system): self.soup.endData() doctype = Doctype.for_name_and_ids(name, pubid, system) self.soup.object_was_parsed(doctype) def comment(self, content): "Handle comments as Comment objects." self.soup.endData() self.soup.handle_data(content) self.soup.endData(Comment) def test_fragment_to_document(self, fragment): """See `TreeBuilder`.""" return '\n%s' % fragment class LXMLTreeBuilder(HTMLTreeBuilder, LXMLTreeBuilderForXML): NAME = LXML ALTERNATE_NAMES = ["lxml-html"] features = ALTERNATE_NAMES + [NAME, HTML, FAST, PERMISSIVE] is_xml = False processing_instruction_class = ProcessingInstruction def default_parser(self, encoding): return etree.HTMLParser def feed(self, markup): encoding = self.soup.original_encoding try: self.parser = self.parser_for(encoding) self.parser.feed(markup) self.parser.close() except (UnicodeDecodeError, LookupError, etree.ParserError) as e: raise ParserRejectedMarkup(e) def test_fragment_to_document(self, fragment): """See `TreeBuilder`.""" return '%s' % fragment