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