# encoding: utf-8 """Use the HTMLParser library to parse HTML files that aren't too bad.""" # Use of this source code is governed by the MIT license. __license__ = "MIT" __all__ = [ 'HTMLParserTreeBuilder', ] from html.parser import HTMLParser import sys import warnings from ..element import ( CData, Comment, Declaration, Doctype, ProcessingInstruction, ) from ..dammit import EntitySubstitution, UnicodeDammit from ..builder import ( DetectsXMLParsedAsHTML, ParserRejectedMarkup, HTML, HTMLTreeBuilder, STRICT, ) HTMLPARSER = 'html.parser' class BeautifulSoupHTMLParser(HTMLParser, DetectsXMLParsedAsHTML): """A subclass of the Python standard library's HTMLParser class, which listens for HTMLParser events and translates them into calls to Beautiful Soup's tree construction API. """ # Strategies for handling duplicate attributes IGNORE = 'ignore' REPLACE = 'replace' def __init__(self, *args, **kwargs): """Constructor. :param on_duplicate_attribute: A strategy for what to do if a tag includes the same attribute more than once. Accepted values are: REPLACE (replace earlier values with later ones, the default), IGNORE (keep the earliest value encountered), or a callable. A callable must take three arguments: the dictionary of attributes already processed, the name of the duplicate attribute, and the most recent value encountered. """ self.on_duplicate_attribute = kwargs.pop( 'on_duplicate_attribute', self.REPLACE ) HTMLParser.__init__(self, *args, **kwargs) # Keep a list of empty-element tags that were encountered # without an explicit closing tag. If we encounter a closing tag # of this type, we'll associate it with one of those entries. # # This isn't a stack because we don't care about the # order. It's a list of closing tags we've already handled and # will ignore, assuming they ever show up. self.already_closed_empty_element = [] self._initialize_xml_detector() def error(self, message): # NOTE: This method is required so long as Python 3.9 is # supported. The corresponding code is removed from HTMLParser # in 3.5, but not removed from ParserBase until 3.10. # https://github.com/python/cpython/issues/76025 # # The original implementation turned the error into a warning, # but in every case I discovered, this made HTMLParser # immediately crash with an error message that was less # helpful than the warning. The new implementation makes it # more clear that html.parser just can't parse this # markup. The 3.10 implementation does the same, though it # raises AssertionError rather than calling a method. (We # catch this error and wrap it in a ParserRejectedMarkup.) raise ParserRejectedMarkup(message) def handle_startendtag(self, name, attrs): """Handle an incoming empty-element tag. This is only called when the markup looks like . :param name: Name of the tag. :param attrs: Dictionary of the tag's attributes. """ # is_startend() tells handle_starttag not to close the tag # just because its name matches a known empty-element tag. We # know that this is an empty-element tag and we want to call # handle_endtag ourselves. tag = self.handle_starttag(name, attrs, handle_empty_element=False) self.handle_endtag(name) def handle_starttag(self, name, attrs, handle_empty_element=True): """Handle an opening tag, e.g. '' :param name: Name of the tag. :param attrs: Dictionary of the tag's attributes. :param handle_empty_element: True if this tag is known to be an empty-element tag (i.e. there is not expected to be any closing tag). """ # XXX namespace attr_dict = {} for key, value in attrs: # Change None attribute values to the empty string # for consistency with the other tree builders. if value is None: value = '' if key in attr_dict: # A single attribute shows up multiple times in this # tag. How to handle it depends on the # on_duplicate_attribute setting. on_dupe = self.on_duplicate_attribute if on_dupe == self.IGNORE: pass elif on_dupe in (None, self.REPLACE): attr_dict[key] = value else: on_dupe(attr_dict, key, value) else: attr_dict[key] = value attrvalue = '""' #print("START", name) sourceline, sourcepos = self.getpos() tag = self.soup.handle_starttag( name, None, None, attr_dict, sourceline=sourceline, sourcepos=sourcepos ) if tag and tag.is_empty_element and handle_empty_element: # Unlike other parsers, html.parser doesn't send separate end tag # events for empty-element tags. (It's handled in # handle_startendtag, but only if the original markup looked like # .) # # So we need to call handle_endtag() ourselves. Since we # know the start event is identical to the end event, we # don't want handle_endtag() to cross off any previous end # events for tags of this name. self.handle_endtag(name, check_already_closed=False) # But we might encounter an explicit closing tag for this tag # later on. If so, we want to ignore it. self.already_closed_empty_element.append(name) if self._root_tag is None: self._root_tag_encountered(name) def handle_endtag(self, name, check_already_closed=True): """Handle a closing tag, e.g. '' :param name: A tag name. :param check_already_closed: True if this tag is expected to be the closing portion of an empty-element tag, e.g. ''. """ #print("END", name) if check_already_closed and name in self.already_closed_empty_element: # This is a redundant end tag for an empty-element tag. # We've already called handle_endtag() for it, so just # check it off the list. #print("ALREADY CLOSED", name) self.already_closed_empty_element.remove(name) else: self.soup.handle_endtag(name) def handle_data(self, data): """Handle some textual data that shows up between tags.""" self.soup.handle_data(data) def handle_charref(self, name): """Handle a numeric character reference by converting it to the corresponding Unicode character and treating it as textual data. :param name: Character number, possibly in hexadecimal. """ # TODO: This was originally a workaround for a bug in # HTMLParser. (http://bugs.python.org/issue13633) The bug has # been fixed, but removing this code still makes some # Beautiful Soup tests fail. This needs investigation. if name.startswith('x'): real_name = int(name.lstrip('x'), 16) elif name.startswith('X'): real_name = int(name.lstrip('X'), 16) else: real_name = int(name) data = None if real_name < 256: # HTML numeric entities are supposed to reference Unicode # code points, but sometimes they reference code points in # some other encoding (ahem, Windows-1252). E.g. “ # instead of É for LEFT DOUBLE QUOTATION MARK. This # code tries to detect this situation and compensate. for encoding in (self.soup.original_encoding, 'windows-1252'): if not encoding: continue try: data = bytearray([real_name]).decode(encoding) except UnicodeDecodeError as e: pass if not data: try: data = chr(real_name) except (ValueError, OverflowError) as e: pass data = data or "\N{REPLACEMENT CHARACTER}" self.handle_data(data) def handle_entityref(self, name): """Handle a named entity reference by converting it to the corresponding Unicode character(s) and treating it as textual data. :param name: Name of the entity reference. """ character = EntitySubstitution.HTML_ENTITY_TO_CHARACTER.get(name) if character is not None: data = character else: # If this were XML, it would be ambiguous whether "&foo" # was an character entity reference with a missing # semicolon or the literal string "&foo". Since this is # HTML, we have a complete list of all character entity references, # and this one wasn't found, so assume it's the literal string "&foo". data = "&%s" % name self.handle_data(data) def handle_comment(self, data): """Handle an HTML comment. :param data: The text of the comment. """ self.soup.endData() self.soup.handle_data(data) self.soup.endData(Comment) def handle_decl(self, data): """Handle a DOCTYPE declaration. :param data: The text of the declaration. """ self.soup.endData() data = data[len("DOCTYPE "):] self.soup.handle_data(data) self.soup.endData(Doctype) def unknown_decl(self, data): """Handle a declaration of unknown type -- probably a CDATA block. :param data: The text of the declaration. """ if data.upper().startswith('CDATA['): cls = CData data = data[len('CDATA['):] else: cls = Declaration self.soup.endData() self.soup.handle_data(data) self.soup.endData(cls) def handle_pi(self, data): """Handle a processing instruction. :param data: The text of the instruction. """ self.soup.endData() self.soup.handle_data(data) self._document_might_be_xml(data) self.soup.endData(ProcessingInstruction) class HTMLParserTreeBuilder(HTMLTreeBuilder): """A Beautiful soup `TreeBuilder` that uses the `HTMLParser` parser, found in the Python standard library. """ is_xml = False picklable = True NAME = HTMLPARSER features = [NAME, HTML, STRICT] # The html.parser knows which line number and position in the # original file is the source of an element. TRACKS_LINE_NUMBERS = True def __init__(self, parser_args=None, parser_kwargs=None, **kwargs): """Constructor. :param parser_args: Positional arguments to pass into the BeautifulSoupHTMLParser constructor, once it's invoked. :param parser_kwargs: Keyword arguments to pass into the BeautifulSoupHTMLParser constructor, once it's invoked. :param kwargs: Keyword arguments for the superclass constructor. """ # Some keyword arguments will be pulled out of kwargs and placed # into parser_kwargs. extra_parser_kwargs = dict() for arg in ('on_duplicate_attribute',): if arg in kwargs: value = kwargs.pop(arg) extra_parser_kwargs[arg] = value super(HTMLParserTreeBuilder, self).__init__(**kwargs) parser_args = parser_args or [] parser_kwargs = parser_kwargs or {} parser_kwargs.update(extra_parser_kwargs) parser_kwargs['convert_charrefs'] = False self.parser_args = (parser_args, parser_kwargs) def prepare_markup(self, markup, user_specified_encoding=None, document_declared_encoding=None, exclude_encodings=None): """Run any preliminary steps necessary to make incoming markup acceptable to the parser. :param markup: Some markup -- probably 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. """ if isinstance(markup, str): # Parse Unicode as-is. yield (markup, None, None, False) return # Ask UnicodeDammit to sniff the most likely encoding. # This was provided by the end-user; treat it as a known # definite encoding per the algorithm laid out in the HTML5 # spec. (See the EncodingDetector class for details.) known_definite_encodings = [user_specified_encoding] # This was found in the document; treat it as a slightly lower-priority # user encoding. user_encodings = [document_declared_encoding] try_encodings = [user_specified_encoding, document_declared_encoding] dammit = UnicodeDammit( markup, known_definite_encodings=known_definite_encodings, user_encodings=user_encodings, is_html=True, exclude_encodings=exclude_encodings ) yield (dammit.markup, dammit.original_encoding, dammit.declared_html_encoding, dammit.contains_replacement_characters) def feed(self, markup): """Run some incoming markup through some parsing process, populating the `BeautifulSoup` object in self.soup. """ args, kwargs = self.parser_args parser = BeautifulSoupHTMLParser(*args, **kwargs) parser.soup = self.soup try: parser.feed(markup) except AssertionError as e: # html.parser raises AssertionError in rare cases to # indicate a fatal problem with the markup, especially # when there's an error in the doctype declaration. raise ParserRejectedMarkup(e) parser.close() parser.already_closed_empty_element = []