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Direktori : /proc/self/root/usr/lib/python2.7/site-packages/bs4/builder/ |
Current File : //proc/self/root/usr/lib/python2.7/site-packages/bs4/builder/__init__.py |
# Use of this source code is governed by a BSD-style license that can be # found in the LICENSE file. from collections import defaultdict import itertools import sys from bs4.element import ( CharsetMetaAttributeValue, ContentMetaAttributeValue, HTMLAwareEntitySubstitution, whitespace_re ) __all__ = [ 'HTMLTreeBuilder', 'SAXTreeBuilder', 'TreeBuilder', 'TreeBuilderRegistry', ] # Some useful features for a TreeBuilder to have. FAST = 'fast' PERMISSIVE = 'permissive' STRICT = 'strict' XML = 'xml' HTML = 'html' HTML_5 = 'html5' class TreeBuilderRegistry(object): def __init__(self): self.builders_for_feature = defaultdict(list) self.builders = [] def register(self, treebuilder_class): """Register a treebuilder based on its advertised features.""" for feature in treebuilder_class.features: self.builders_for_feature[feature].insert(0, treebuilder_class) self.builders.insert(0, treebuilder_class) def lookup(self, *features): if len(self.builders) == 0: # There are no builders at all. return None if len(features) == 0: # They didn't ask for any features. Give them the most # recently registered builder. return self.builders[0] # Go down the list of features in order, and eliminate any builders # that don't match every feature. features = list(features) features.reverse() candidates = None candidate_set = None while len(features) > 0: feature = features.pop() we_have_the_feature = self.builders_for_feature.get(feature, []) if len(we_have_the_feature) > 0: if candidates is None: candidates = we_have_the_feature candidate_set = set(candidates) else: # Eliminate any candidates that don't have this feature. candidate_set = candidate_set.intersection( set(we_have_the_feature)) # The only valid candidates are the ones in candidate_set. # Go through the original list of candidates and pick the first one # that's in candidate_set. if candidate_set is None: return None for candidate in candidates: if candidate in candidate_set: return candidate return None # The BeautifulSoup class will take feature lists from developers and use them # to look up builders in this registry. builder_registry = TreeBuilderRegistry() class TreeBuilder(object): """Turn a document into a Beautiful Soup object tree.""" NAME = "[Unknown tree builder]" ALTERNATE_NAMES = [] features = [] is_xml = False picklable = False preserve_whitespace_tags = set() empty_element_tags = None # A tag will be considered an empty-element # tag when and only when it has no contents. # A value for these tag/attribute combinations is a space- or # comma-separated list of CDATA, rather than a single CDATA. cdata_list_attributes = {} def __init__(self): self.soup = None def reset(self): pass def can_be_empty_element(self, tag_name): """Might a tag with this name be an empty-element tag? The final markup may or may not actually present this tag as self-closing. For instance: an HTMLBuilder does not consider a <p> tag to be an empty-element tag (it's not in HTMLBuilder.empty_element_tags). This means an empty <p> tag will be presented as "<p></p>", not "<p />". The default implementation has no opinion about which tags are empty-element tags, so a tag will be presented as an empty-element tag if and only if it has no contents. "<foo></foo>" will become "<foo />", and "<foo>bar</foo>" will be left alone. """ if self.empty_element_tags is None: return True return tag_name in self.empty_element_tags def feed(self, markup): raise NotImplementedError() def prepare_markup(self, markup, user_specified_encoding=None, document_declared_encoding=None): return markup, None, None, False def test_fragment_to_document(self, fragment): """Wrap an HTML fragment to make it look like a document. Different parsers do this differently. For instance, lxml introduces an empty <head> tag, and html5lib doesn't. Abstracting this away lets us write simple tests which run HTML fragments through the parser and compare the results against other HTML fragments. This method should not be used outside of tests. """ return fragment def set_up_substitutions(self, tag): return False def _replace_cdata_list_attribute_values(self, tag_name, attrs): """Replaces class="foo bar" with class=["foo", "bar"] Modifies its input in place. """ if not attrs: return attrs if self.cdata_list_attributes: universal = self.cdata_list_attributes.get('*', []) tag_specific = self.cdata_list_attributes.get( tag_name.lower(), None) for attr in attrs.keys(): if attr in universal or (tag_specific and attr in tag_specific): # We have a "class"-type attribute whose string # value is a whitespace-separated list of # values. Split it into a list. value = attrs[attr] if isinstance(value, basestring): values = whitespace_re.split(value) else: # html5lib sometimes calls setAttributes twice # for the same tag when rearranging the parse # tree. On the second call the attribute value # here is already a list. If this happens, # leave the value alone rather than trying to # split it again. values = value attrs[attr] = values return attrs class SAXTreeBuilder(TreeBuilder): """A Beautiful Soup treebuilder that listens for SAX events.""" def feed(self, markup): raise NotImplementedError() def close(self): pass def startElement(self, name, attrs): attrs = dict((key[1], value) for key, value in list(attrs.items())) #print "Start %s, %r" % (name, attrs) self.soup.handle_starttag(name, attrs) def endElement(self, name): #print "End %s" % name self.soup.handle_endtag(name) def startElementNS(self, nsTuple, nodeName, attrs): # Throw away (ns, nodeName) for now. self.startElement(nodeName, attrs) def endElementNS(self, nsTuple, nodeName): # Throw away (ns, nodeName) for now. self.endElement(nodeName) #handler.endElementNS((ns, node.nodeName), node.nodeName) def startPrefixMapping(self, prefix, nodeValue): # Ignore the prefix for now. pass def endPrefixMapping(self, prefix): # Ignore the prefix for now. # handler.endPrefixMapping(prefix) pass def characters(self, content): self.soup.handle_data(content) def startDocument(self): pass def endDocument(self): pass class HTMLTreeBuilder(TreeBuilder): """This TreeBuilder knows facts about HTML. Such as which tags are empty-element tags. """ preserve_whitespace_tags = HTMLAwareEntitySubstitution.preserve_whitespace_tags empty_element_tags = set([ # These are from HTML5. 'area', 'base', 'br', 'col', 'embed', 'hr', 'img', 'input', 'keygen', 'link', 'menuitem', 'meta', 'param', 'source', 'track', 'wbr', # These are from earlier versions of HTML and are removed in HTML5. 'basefont', 'bgsound', 'command', 'frame', 'image', 'isindex', 'nextid', 'spacer' ]) # The HTML standard defines these as block-level elements. Beautiful # Soup does not treat these elements differently from other elements, # but it may do so eventually, and this information is available if # you need to use it. block_elements = set(["address", "article", "aside", "blockquote", "canvas", "dd", "div", "dl", "dt", "fieldset", "figcaption", "figure", "footer", "form", "h1", "h2", "h3", "h4", "h5", "h6", "header", "hr", "li", "main", "nav", "noscript", "ol", "output", "p", "pre", "section", "table", "tfoot", "ul", "video"]) # The HTML standard defines these attributes as containing a # space-separated list of values, not a single value. That is, # class="foo bar" means that the 'class' attribute has two values, # 'foo' and 'bar', not the single value 'foo bar'. When we # encounter one of these attributes, we will parse its value into # a list of values if possible. Upon output, the list will be # converted back into a string. cdata_list_attributes = { "*" : ['class', 'accesskey', 'dropzone'], "a" : ['rel', 'rev'], "link" : ['rel', 'rev'], "td" : ["headers"], "th" : ["headers"], "td" : ["headers"], "form" : ["accept-charset"], "object" : ["archive"], # These are HTML5 specific, as are *.accesskey and *.dropzone above. "area" : ["rel"], "icon" : ["sizes"], "iframe" : ["sandbox"], "output" : ["for"], } def set_up_substitutions(self, tag): # We are only interested in <meta> tags if tag.name != 'meta': return False http_equiv = tag.get('http-equiv') content = tag.get('content') charset = tag.get('charset') # We are interested in <meta> tags that say what encoding the # document was originally in. This means HTML 5-style <meta> # tags that provide the "charset" attribute. It also means # HTML 4-style <meta> tags that provide the "content" # attribute and have "http-equiv" set to "content-type". # # In both cases we will replace the value of the appropriate # attribute with a standin object that can take on any # encoding. meta_encoding = None if charset is not None: # HTML 5 style: # <meta charset="utf8"> meta_encoding = charset tag['charset'] = CharsetMetaAttributeValue(charset) elif (content is not None and http_equiv is not None and http_equiv.lower() == 'content-type'): # HTML 4 style: # <meta http-equiv="content-type" content="text/html; charset=utf8"> tag['content'] = ContentMetaAttributeValue(content) return (meta_encoding is not None) def register_treebuilders_from(module): """Copy TreeBuilders from the given module into this module.""" # I'm fairly sure this is not the best way to do this. this_module = sys.modules['bs4.builder'] for name in module.__all__: obj = getattr(module, name) if issubclass(obj, TreeBuilder): setattr(this_module, name, obj) this_module.__all__.append(name) # Register the builder while we're at it. this_module.builder_registry.register(obj) class ParserRejectedMarkup(Exception): pass # Builders are registered in reverse order of priority, so that custom # builder registrations will take precedence. In general, we want lxml # to take precedence over html5lib, because it's faster. And we only # want to use HTMLParser as a last result. from . import _htmlparser register_treebuilders_from(_htmlparser) try: from . import _html5lib register_treebuilders_from(_html5lib) except ImportError: # They don't have html5lib installed. pass try: from . import _lxml register_treebuilders_from(_lxml) except ImportError: # They don't have lxml installed. pass