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BeautifulSoup.py
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1 """Beautiful Soup
2 Elixir and Tonic
3 "The Screen-Scraper's Friend"
4 http://www.crummy.com/software/BeautifulSoup/
5 
6 Beautiful Soup parses a (possibly invalid) XML or HTML document into a
7 tree representation. It provides methods and Pythonic idioms that make
8 it easy to navigate, search, and modify the tree.
9 
10 A well-formed XML/HTML document yields a well-formed data
11 structure. An ill-formed XML/HTML document yields a correspondingly
12 ill-formed data structure. If your document is only locally
13 well-formed, you can use this library to find and process the
14 well-formed part of it.
15 
16 Beautiful Soup works with Python 2.2 and up. It has no external
17 dependencies, but you'll have more success at converting data to UTF-8
18 if you also install these three packages:
19 
20 * chardet, for auto-detecting character encodings
21  http://chardet.feedparser.org/
22 * cjkcodecs and iconv_codec, which add more encodings to the ones supported
23  by stock Python.
24  http://cjkpython.i18n.org/
25 
26 Beautiful Soup defines classes for two main parsing strategies:
27 
28  * BeautifulStoneSoup, for parsing XML, SGML, or your domain-specific
29  language that kind of looks like XML.
30 
31  * BeautifulSoup, for parsing run-of-the-mill HTML code, be it valid
32  or invalid. This class has web browser-like heuristics for
33  obtaining a sensible parse tree in the face of common HTML errors.
34 
35 Beautiful Soup also defines a class (UnicodeDammit) for autodetecting
36 the encoding of an HTML or XML document, and converting it to
37 Unicode. Much of this code is taken from Mark Pilgrim's Universal Feed Parser.
38 
39 For more than you ever wanted to know about Beautiful Soup, see the
40 documentation:
41 http://www.crummy.com/software/BeautifulSoup/documentation.html
42 
43 Here, have some legalese:
44 
45 Copyright (c) 2004-2009, Leonard Richardson
46 
47 All rights reserved.
48 
49 Redistribution and use in source and binary forms, with or without
50 modification, are permitted provided that the following conditions are
51 met:
52 
53  * Redistributions of source code must retain the above copyright
54  notice, this list of conditions and the following disclaimer.
55 
56  * Redistributions in binary form must reproduce the above
57  copyright notice, this list of conditions and the following
58  disclaimer in the documentation and/or other materials provided
59  with the distribution.
60 
61  * Neither the name of the the Beautiful Soup Consortium and All
62  Night Kosher Bakery nor the names of its contributors may be
63  used to endorse or promote products derived from this software
64  without specific prior written permission.
65 
66 THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
67 "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
68 LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
69 A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR
70 CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
71 EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
72 PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
73 PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
74 LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
75 NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
76 SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE, DAMMIT.
77 
78 """
79 from __future__ import generators
80 
81 __author__ = "Leonard Richardson (leonardr@segfault.org)"
82 __version__ = "3.1.0.1"
83 __copyright__ = "Copyright (c) 2004-2009 Leonard Richardson"
84 __license__ = "New-style BSD"
85 
86 import codecs
87 import markupbase
88 import types
89 import re
90 from HTMLParser import HTMLParser, HTMLParseError
91 try:
92  from htmlentitydefs import name2codepoint
93 except ImportError:
94  name2codepoint = {}
95 try:
96  set
97 except NameError:
98  from sets import Set as set
99 
100 #These hacks make Beautiful Soup able to parse XML with namespaces
101 markupbase._declname_match = re.compile(r'[a-zA-Z][-_.:a-zA-Z0-9]*\s*').match
102 
103 DEFAULT_OUTPUT_ENCODING = "utf-8"
104 
105 # First, the classes that represent markup elements.
106 
107 def sob(unicode, encoding):
108  """Returns either the given Unicode string or its encoding."""
109  if encoding is None:
110  return unicode
111  else:
112  return unicode.encode(encoding)
113 
115  """Contains the navigational information for some part of the page
116  (either a tag or a piece of text)"""
117 
118  def setup(self, parent=None, previous=None):
119  """Sets up the initial relations between this element and
120  other elements."""
121  self.parent = parent
122  self.previous = previous
123  self.next = None
124  self.previousSibling = None
125  self.nextSibling = None
126  if self.parent and self.parent.contents:
127  self.previousSibling = self.parent.contents[-1]
128  self.previousSibling.nextSibling = self
129 
130  def replaceWith(self, replaceWith):
131  oldParent = self.parent
132  myIndex = self.parent.contents.index(self)
133  if hasattr(replaceWith, 'parent') and replaceWith.parent == self.parent:
134  # We're replacing this element with one of its siblings.
135  index = self.parent.contents.index(replaceWith)
136  if index and index < myIndex:
137  # Furthermore, it comes before this element. That
138  # means that when we extract it, the index of this
139  # element will change.
140  myIndex = myIndex - 1
141  self.extract()
142  oldParent.insert(myIndex, replaceWith)
143 
144  def extract(self):
145  """Destructively rips this element out of the tree."""
146  if self.parent:
147  try:
148  self.parent.contents.remove(self)
149  except ValueError:
150  pass
151 
152  #Find the two elements that would be next to each other if
153  #this element (and any children) hadn't been parsed. Connect
154  #the two.
155  lastChild = self._lastRecursiveChild()
156  nextElement = lastChild.next
157 
158  if self.previous:
159  self.previous.next = nextElement
160  if nextElement:
161  nextElement.previous = self.previous
162  self.previous = None
163  lastChild.next = None
164 
165  self.parent = None
166  if self.previousSibling:
167  self.previousSibling.nextSibling = self.nextSibling
168  if self.nextSibling:
169  self.nextSibling.previousSibling = self.previousSibling
170  self.previousSibling = self.nextSibling = None
171  return self
172 
174  "Finds the last element beneath this object to be parsed."
175  lastChild = self
176  while hasattr(lastChild, 'contents') and lastChild.contents:
177  lastChild = lastChild.contents[-1]
178  return lastChild
179 
180  def insert(self, position, newChild):
181  if (isinstance(newChild, basestring)
182  or isinstance(newChild, unicode)) \
183  and not isinstance(newChild, NavigableString):
184  newChild = NavigableString(newChild)
185 
186  position = min(position, len(self.contents))
187  if hasattr(newChild, 'parent') and newChild.parent != None:
188  # We're 'inserting' an element that's already one
189  # of this object's children.
190  if newChild.parent == self:
191  index = self.find(newChild)
192  if index and index < position:
193  # Furthermore we're moving it further down the
194  # list of this object's children. That means that
195  # when we extract this element, our target index
196  # will jump down one.
197  position = position - 1
198  newChild.extract()
199 
200  newChild.parent = self
201  previousChild = None
202  if position == 0:
203  newChild.previousSibling = None
204  newChild.previous = self
205  else:
206  previousChild = self.contents[position-1]
207  newChild.previousSibling = previousChild
208  newChild.previousSibling.nextSibling = newChild
209  newChild.previous = previousChild._lastRecursiveChild()
210  if newChild.previous:
211  newChild.previous.next = newChild
212 
213  newChildsLastElement = newChild._lastRecursiveChild()
214 
215  if position >= len(self.contents):
216  newChild.nextSibling = None
217 
218  parent = self
219  parentsNextSibling = None
220  while not parentsNextSibling:
221  parentsNextSibling = parent.nextSibling
222  parent = parent.parent
223  if not parent: # This is the last element in the document.
224  break
225  if parentsNextSibling:
226  newChildsLastElement.next = parentsNextSibling
227  else:
228  newChildsLastElement.next = None
229  else:
230  nextChild = self.contents[position]
231  newChild.nextSibling = nextChild
232  if newChild.nextSibling:
233  newChild.nextSibling.previousSibling = newChild
234  newChildsLastElement.next = nextChild
235 
236  if newChildsLastElement.next:
237  newChildsLastElement.next.previous = newChildsLastElement
238  self.contents.insert(position, newChild)
239 
240  def append(self, tag):
241  """Appends the given tag to the contents of this tag."""
242  self.insert(len(self.contents), tag)
243 
244  def findNext(self, name=None, attrs={}, text=None, **kwargs):
245  """Returns the first item that matches the given criteria and
246  appears after this Tag in the document."""
247  return self._findOne(self.findAllNext, name, attrs, text, **kwargs)
248 
249  def findAllNext(self, name=None, attrs={}, text=None, limit=None,
250  **kwargs):
251  """Returns all items that match the given criteria and appear
252  after this Tag in the document."""
253  return self._findAll(name, attrs, text, limit, self.nextGenerator,
254  **kwargs)
255 
256  def findNextSibling(self, name=None, attrs={}, text=None, **kwargs):
257  """Returns the closest sibling to this Tag that matches the
258  given criteria and appears after this Tag in the document."""
259  return self._findOne(self.findNextSiblings, name, attrs, text,
260  **kwargs)
261 
262  def findNextSiblings(self, name=None, attrs={}, text=None, limit=None,
263  **kwargs):
264  """Returns the siblings of this Tag that match the given
265  criteria and appear after this Tag in the document."""
266  return self._findAll(name, attrs, text, limit,
267  self.nextSiblingGenerator, **kwargs)
268  fetchNextSiblings = findNextSiblings # Compatibility with pre-3.x
269 
270  def findPrevious(self, name=None, attrs={}, text=None, **kwargs):
271  """Returns the first item that matches the given criteria and
272  appears before this Tag in the document."""
273  return self._findOne(self.findAllPrevious, name, attrs, text, **kwargs)
274 
275  def findAllPrevious(self, name=None, attrs={}, text=None, limit=None,
276  **kwargs):
277  """Returns all items that match the given criteria and appear
278  before this Tag in the document."""
279  return self._findAll(name, attrs, text, limit, self.previousGenerator,
280  **kwargs)
281  fetchPrevious = findAllPrevious # Compatibility with pre-3.x
282 
283  def findPreviousSibling(self, name=None, attrs={}, text=None, **kwargs):
284  """Returns the closest sibling to this Tag that matches the
285  given criteria and appears before this Tag in the document."""
286  return self._findOne(self.findPreviousSiblings, name, attrs, text,
287  **kwargs)
288 
289  def findPreviousSiblings(self, name=None, attrs={}, text=None,
290  limit=None, **kwargs):
291  """Returns the siblings of this Tag that match the given
292  criteria and appear before this Tag in the document."""
293  return self._findAll(name, attrs, text, limit,
294  self.previousSiblingGenerator, **kwargs)
295  fetchPreviousSiblings = findPreviousSiblings # Compatibility with pre-3.x
296 
297  def findParent(self, name=None, attrs={}, **kwargs):
298  """Returns the closest parent of this Tag that matches the given
299  criteria."""
300  # NOTE: We can't use _findOne because findParents takes a different
301  # set of arguments.
302  r = None
303  l = self.findParents(name, attrs, 1)
304  if l:
305  r = l[0]
306  return r
307 
308  def findParents(self, name=None, attrs={}, limit=None, **kwargs):
309  """Returns the parents of this Tag that match the given
310  criteria."""
311 
312  return self._findAll(name, attrs, None, limit, self.parentGenerator,
313  **kwargs)
314  fetchParents = findParents # Compatibility with pre-3.x
315 
316  #These methods do the real heavy lifting.
317 
318  def _findOne(self, method, name, attrs, text, **kwargs):
319  r = None
320  l = method(name, attrs, text, 1, **kwargs)
321  if l:
322  r = l[0]
323  return r
324 
325  def _findAll(self, name, attrs, text, limit, generator, **kwargs):
326  "Iterates over a generator looking for things that match."
327 
328  if isinstance(name, SoupStrainer):
329  strainer = name
330  else:
331  # Build a SoupStrainer
332  strainer = SoupStrainer(name, attrs, text, **kwargs)
333  results = ResultSet(strainer)
334  g = generator()
335  while True:
336  try:
337  i = g.next()
338  except StopIteration:
339  break
340  if i:
341  found = strainer.search(i)
342  if found:
343  results.append(found)
344  if limit and len(results) >= limit:
345  break
346  return results
347 
348  #These Generators can be used to navigate starting from both
349  #NavigableStrings and Tags.
350  def nextGenerator(self):
351  i = self
352  while i:
353  i = i.next
354  yield i
355 
357  i = self
358  while i:
359  i = i.nextSibling
360  yield i
361 
362  def previousGenerator(self):
363  i = self
364  while i:
365  i = i.previous
366  yield i
367 
369  i = self
370  while i:
371  i = i.previousSibling
372  yield i
373 
374  def parentGenerator(self):
375  i = self
376  while i:
377  i = i.parent
378  yield i
379 
380  # Utility methods
381  def substituteEncoding(self, str, encoding=None):
382  encoding = encoding or "utf-8"
383  return str.replace("%SOUP-ENCODING%", encoding)
384 
385  def toEncoding(self, s, encoding=None):
386  """Encodes an object to a string in some encoding, or to Unicode.
387  ."""
388  if isinstance(s, unicode):
389  if encoding:
390  s = s.encode(encoding)
391  elif isinstance(s, str):
392  if encoding:
393  s = s.encode(encoding)
394  else:
395  s = unicode(s)
396  else:
397  if encoding:
398  s = self.toEncoding(str(s), encoding)
399  else:
400  s = unicode(s)
401  return s
402 
403 class NavigableString(unicode, PageElement):
404 
405  def __new__(cls, value):
406  """Create a new NavigableString.
407 
408  When unpickling a NavigableString, this method is called with
409  the string in DEFAULT_OUTPUT_ENCODING. That encoding needs to be
410  passed in to the superclass's __new__ or the superclass won't know
411  how to handle non-ASCII characters.
412  """
413  if isinstance(value, unicode):
414  return unicode.__new__(cls, value)
415  return unicode.__new__(cls, value, DEFAULT_OUTPUT_ENCODING)
416 
417  def __getnewargs__(self):
418  return (unicode(self),)
419 
420  def __getattr__(self, attr):
421  """text.string gives you text. This is for backwards
422  compatibility for Navigable*String, but for CData* it lets you
423  get the string without the CData wrapper."""
424  if attr == 'string':
425  return self
426  else:
427  raise AttributeError, "'%s' object has no attribute '%s'" % (self.__class__.__name__, attr)
428 
429  def encode(self, encoding=DEFAULT_OUTPUT_ENCODING):
430  return self.decode().encode(encoding)
431 
432  def decodeGivenEventualEncoding(self, eventualEncoding):
433  return self
434 
436 
437  def decodeGivenEventualEncoding(self, eventualEncoding):
438  return u'<![CDATA[' + self + u']]>'
439 
441 
442  def decodeGivenEventualEncoding(self, eventualEncoding):
443  output = self
444  if u'%SOUP-ENCODING%' in output:
445  output = self.substituteEncoding(output, eventualEncoding)
446  return u'<?' + output + u'?>'
447 
449  def decodeGivenEventualEncoding(self, eventualEncoding):
450  return u'<!--' + self + u'-->'
451 
453  def decodeGivenEventualEncoding(self, eventualEncoding):
454  return u'<!' + self + u'>'
455 
457 
458  """Represents a found HTML tag with its attributes and contents."""
459 
460  def _invert(h):
461  "Cheap function to invert a hash."
462  i = {}
463  for k,v in h.items():
464  i[v] = k
465  return i
466 
467  XML_ENTITIES_TO_SPECIAL_CHARS = { "apos" : "'",
468  "quot" : '"',
469  "amp" : "&",
470  "lt" : "<",
471  "gt" : ">" }
472 
473  XML_SPECIAL_CHARS_TO_ENTITIES = _invert(XML_ENTITIES_TO_SPECIAL_CHARS)
474 
475  def _convertEntities(self, match):
476  """Used in a call to re.sub to replace HTML, XML, and numeric
477  entities with the appropriate Unicode characters. If HTML
478  entities are being converted, any unrecognized entities are
479  escaped."""
480  x = match.group(1)
481  if self.convertHTMLEntities and x in name2codepoint:
482  return unichr(name2codepoint[x])
483  elif x in self.XML_ENTITIES_TO_SPECIAL_CHARS:
484  if self.convertXMLEntities:
485  return self.XML_ENTITIES_TO_SPECIAL_CHARS[x]
486  else:
487  return u'&%s;' % x
488  elif len(x) > 0 and x[0] == '#':
489  # Handle numeric entities
490  if len(x) > 1 and x[1] == 'x':
491  return unichr(int(x[2:], 16))
492  else:
493  return unichr(int(x[1:]))
494 
495  elif self.escapeUnrecognizedEntities:
496  return u'&amp;%s;' % x
497  else:
498  return u'&%s;' % x
499 
500  def __init__(self, parser, name, attrs=None, parent=None,
501  previous=None):
502  "Basic constructor."
503 
504  # We don't actually store the parser object: that lets extracted
505  # chunks be garbage-collected
506  self.parserClass = parser.__class__
507  self.isSelfClosing = parser.isSelfClosingTag(name)
508  self.name = name
509  if attrs == None:
510  attrs = []
511  self.attrs = attrs
512  self.contents = []
513  self.setup(parent, previous)
514  self.hidden = False
515  self.containsSubstitutions = False
516  self.convertHTMLEntities = parser.convertHTMLEntities
517  self.convertXMLEntities = parser.convertXMLEntities
518  self.escapeUnrecognizedEntities = parser.escapeUnrecognizedEntities
519 
520  def convert(kval):
521  "Converts HTML, XML and numeric entities in the attribute value."
522  k, val = kval
523  if val is None:
524  return kval
525  return (k, re.sub("&(#\d+|#x[0-9a-fA-F]+|\w+);",
526  self._convertEntities, val))
527  self.attrs = map(convert, self.attrs)
528 
529  def get(self, key, default=None):
530  """Returns the value of the 'key' attribute for the tag, or
531  the value given for 'default' if it doesn't have that
532  attribute."""
533  return self._getAttrMap().get(key, default)
534 
535  def has_key(self, key):
536  return self._getAttrMap().has_key(key)
537 
538  def __getitem__(self, key):
539  """tag[key] returns the value of the 'key' attribute for the tag,
540  and throws an exception if it's not there."""
541  return self._getAttrMap()[key]
542 
543  def __iter__(self):
544  "Iterating over a tag iterates over its contents."
545  return iter(self.contents)
546 
547  def __len__(self):
548  "The length of a tag is the length of its list of contents."
549  return len(self.contents)
550 
551  def __contains__(self, x):
552  return x in self.contents
553 
554  def __nonzero__(self):
555  "A tag is non-None even if it has no contents."
556  return True
557 
558  def __setitem__(self, key, value):
559  """Setting tag[key] sets the value of the 'key' attribute for the
560  tag."""
561  self._getAttrMap()
562  self.attrMap[key] = value
563  found = False
564  for i in range(0, len(self.attrs)):
565  if self.attrs[i][0] == key:
566  self.attrs[i] = (key, value)
567  found = True
568  if not found:
569  self.attrs.append((key, value))
570  self._getAttrMap()[key] = value
571 
572  def __delitem__(self, key):
573  "Deleting tag[key] deletes all 'key' attributes for the tag."
574  for item in self.attrs:
575  if item[0] == key:
576  self.attrs.remove(item)
577  #We don't break because bad HTML can define the same
578  #attribute multiple times.
579  self._getAttrMap()
580  if self.attrMap.has_key(key):
581  del self.attrMap[key]
582 
583  def __call__(self, *args, **kwargs):
584  """Calling a tag like a function is the same as calling its
585  findAll() method. Eg. tag('a') returns a list of all the A tags
586  found within this tag."""
587  return apply(self.findAll, args, kwargs)
588 
589  def __getattr__(self, tag):
590  #print "Getattr %s.%s" % (self.__class__, tag)
591  if len(tag) > 3 and tag.rfind('Tag') == len(tag)-3:
592  return self.find(tag[:-3])
593  elif tag.find('__') != 0:
594  return self.find(tag)
595  raise AttributeError, "'%s' object has no attribute '%s'" % (self.__class__, tag)
596 
597  def __eq__(self, other):
598  """Returns true iff this tag has the same name, the same attributes,
599  and the same contents (recursively) as the given tag.
600 
601  NOTE: right now this will return false if two tags have the
602  same attributes in a different order. Should this be fixed?"""
603  if not hasattr(other, 'name') or not hasattr(other, 'attrs') or not hasattr(other, 'contents') or self.name != other.name or self.attrs != other.attrs or len(self) != len(other):
604  return False
605  for i in range(0, len(self.contents)):
606  if self.contents[i] != other.contents[i]:
607  return False
608  return True
609 
610  def __ne__(self, other):
611  """Returns true iff this tag is not identical to the other tag,
612  as defined in __eq__."""
613  return not self == other
614 
615  def __repr__(self, encoding=DEFAULT_OUTPUT_ENCODING):
616  """Renders this tag as a string."""
617  return self.decode(eventualEncoding=encoding)
618 
619  BARE_AMPERSAND_OR_BRACKET = re.compile("([<>]|"
620  + "&(?!#\d+;|#x[0-9a-fA-F]+;|\w+;)"
621  + ")")
622 
623  def _sub_entity(self, x):
624  """Used with a regular expression to substitute the
625  appropriate XML entity for an XML special character."""
626  return "&" + self.XML_SPECIAL_CHARS_TO_ENTITIES[x.group(0)[0]] + ";"
627 
628  def __unicode__(self):
629  return self.decode()
630 
631  def __str__(self):
632  return self.encode()
633 
634  def encode(self, encoding=DEFAULT_OUTPUT_ENCODING,
635  prettyPrint=False, indentLevel=0):
636  return self.decode(prettyPrint, indentLevel, encoding).encode(encoding)
637 
638  def decode(self, prettyPrint=False, indentLevel=0,
639  eventualEncoding=DEFAULT_OUTPUT_ENCODING):
640  """Returns a string or Unicode representation of this tag and
641  its contents. To get Unicode, pass None for encoding."""
642 
643  attrs = []
644  if self.attrs:
645  for key, val in self.attrs:
646  fmt = '%s="%s"'
647  if isString(val):
648  if (self.containsSubstitutions
649  and eventualEncoding is not None
650  and '%SOUP-ENCODING%' in val):
651  val = self.substituteEncoding(val, eventualEncoding)
652 
653  # The attribute value either:
654  #
655  # * Contains no embedded double quotes or single quotes.
656  # No problem: we enclose it in double quotes.
657  # * Contains embedded single quotes. No problem:
658  # double quotes work here too.
659  # * Contains embedded double quotes. No problem:
660  # we enclose it in single quotes.
661  # * Embeds both single _and_ double quotes. This
662  # can't happen naturally, but it can happen if
663  # you modify an attribute value after parsing
664  # the document. Now we have a bit of a
665  # problem. We solve it by enclosing the
666  # attribute in single quotes, and escaping any
667  # embedded single quotes to XML entities.
668  if '"' in val:
669  fmt = "%s='%s'"
670  if "'" in val:
671  # TODO: replace with apos when
672  # appropriate.
673  val = val.replace("'", "&squot;")
674 
675  # Now we're okay w/r/t quotes. But the attribute
676  # value might also contain angle brackets, or
677  # ampersands that aren't part of entities. We need
678  # to escape those to XML entities too.
679  val = self.BARE_AMPERSAND_OR_BRACKET.sub(self._sub_entity, val)
680  if val is None:
681  # Handle boolean attributes.
682  decoded = key
683  else:
684  decoded = fmt % (key, val)
685  attrs.append(decoded)
686  close = ''
687  closeTag = ''
688  if self.isSelfClosing:
689  close = ' /'
690  else:
691  closeTag = '</%s>' % self.name
692 
693  indentTag, indentContents = 0, 0
694  if prettyPrint:
695  indentTag = indentLevel
696  space = (' ' * (indentTag-1))
697  indentContents = indentTag + 1
698  contents = self.decodeContents(prettyPrint, indentContents,
699  eventualEncoding)
700  if self.hidden:
701  s = contents
702  else:
703  s = []
704  attributeString = ''
705  if attrs:
706  attributeString = ' ' + ' '.join(attrs)
707  if prettyPrint:
708  s.append(space)
709  s.append('<%s%s%s>' % (self.name, attributeString, close))
710  if prettyPrint:
711  s.append("\n")
712  s.append(contents)
713  if prettyPrint and contents and contents[-1] != "\n":
714  s.append("\n")
715  if prettyPrint and closeTag:
716  s.append(space)
717  s.append(closeTag)
718  if prettyPrint and closeTag and self.nextSibling:
719  s.append("\n")
720  s = ''.join(s)
721  return s
722 
723  def decompose(self):
724  """Recursively destroys the contents of this tree."""
725  contents = [i for i in self.contents]
726  for i in contents:
727  if isinstance(i, Tag):
728  i.decompose()
729  else:
730  i.extract()
731  self.extract()
732 
733  def prettify(self, encoding=DEFAULT_OUTPUT_ENCODING):
734  return self.encode(encoding, True)
735 
736  def encodeContents(self, encoding=DEFAULT_OUTPUT_ENCODING,
737  prettyPrint=False, indentLevel=0):
738  return self.decodeContents(prettyPrint, indentLevel).encode(encoding)
739 
740  def decodeContents(self, prettyPrint=False, indentLevel=0,
741  eventualEncoding=DEFAULT_OUTPUT_ENCODING):
742  """Renders the contents of this tag as a string in the given
743  encoding. If encoding is None, returns a Unicode string.."""
744  s=[]
745  for c in self:
746  text = None
747  if isinstance(c, NavigableString):
748  text = c.decodeGivenEventualEncoding(eventualEncoding)
749  elif isinstance(c, Tag):
750  s.append(c.decode(prettyPrint, indentLevel, eventualEncoding))
751  if text and prettyPrint:
752  text = text.strip()
753  if text:
754  if prettyPrint:
755  s.append(" " * (indentLevel-1))
756  s.append(text)
757  if prettyPrint:
758  s.append("\n")
759  return ''.join(s)
760 
761  #Soup methods
762 
763  def find(self, name=None, attrs={}, recursive=True, text=None,
764  **kwargs):
765  """Return only the first child of this Tag matching the given
766  criteria."""
767  r = None
768  l = self.findAll(name, attrs, recursive, text, 1, **kwargs)
769  if l:
770  r = l[0]
771  return r
772  findChild = find
773 
774  def findAll(self, name=None, attrs={}, recursive=True, text=None,
775  limit=None, **kwargs):
776  """Extracts a list of Tag objects that match the given
777  criteria. You can specify the name of the Tag and any
778  attributes you want the Tag to have.
779 
780  The value of a key-value pair in the 'attrs' map can be a
781  string, a list of strings, a regular expression object, or a
782  callable that takes a string and returns whether or not the
783  string matches for some custom definition of 'matches'. The
784  same is true of the tag name."""
785  generator = self.recursiveChildGenerator
786  if not recursive:
787  generator = self.childGenerator
788  return self._findAll(name, attrs, text, limit, generator, **kwargs)
789  findChildren = findAll
790 
791  # Pre-3.x compatibility methods. Will go away in 4.0.
792  first = find
793  fetch = findAll
794 
795  def fetchText(self, text=None, recursive=True, limit=None):
796  return self.findAll(text=text, recursive=recursive, limit=limit)
797 
798  def firstText(self, text=None, recursive=True):
799  return self.find(text=text, recursive=recursive)
800 
801  # 3.x compatibility methods. Will go away in 4.0.
802  def renderContents(self, encoding=DEFAULT_OUTPUT_ENCODING,
803  prettyPrint=False, indentLevel=0):
804  if encoding is None:
805  return self.decodeContents(prettyPrint, indentLevel, encoding)
806  else:
807  return self.encodeContents(encoding, prettyPrint, indentLevel)
808 
809 
810  #Private methods
811 
812  def _getAttrMap(self):
813  """Initializes a map representation of this tag's attributes,
814  if not already initialized."""
815  if not getattr(self, 'attrMap'):
816  self.attrMap = {}
817  for (key, value) in self.attrs:
818  self.attrMap[key] = value
819  return self.attrMap
820 
821  #Generator methods
822  def recursiveChildGenerator(self):
823  if not len(self.contents):
824  raise StopIteration
825  stopNode = self._lastRecursiveChild().next
826  current = self.contents[0]
827  while current is not stopNode:
828  yield current
829  current = current.next
830 
831  def childGenerator(self):
832  if not len(self.contents):
833  raise StopIteration
834  current = self.contents[0]
835  while current:
836  yield current
837  current = current.nextSibling
838  raise StopIteration
839 
840 # Next, a couple classes to represent queries and their results.
842  """Encapsulates a number of ways of matching a markup element (tag or
843  text)."""
844 
845  def __init__(self, name=None, attrs={}, text=None, **kwargs):
846  self.name = name
847  if isString(attrs):
848  kwargs['class'] = attrs
849  attrs = None
850  if kwargs:
851  if attrs:
852  attrs = attrs.copy()
853  attrs.update(kwargs)
854  else:
855  attrs = kwargs
856  self.attrs = attrs
857  self.text = text
858 
859  def __str__(self):
860  if self.text:
861  return self.text
862  else:
863  return "%s|%s" % (self.name, self.attrs)
864 
865  def searchTag(self, markupName=None, markupAttrs={}):
866  found = None
867  markup = None
868  if isinstance(markupName, Tag):
869  markup = markupName
870  markupAttrs = markup
871  callFunctionWithTagData = callable(self.name) \
872  and not isinstance(markupName, Tag)
873 
874  if (not self.name) \
875  or callFunctionWithTagData \
876  or (markup and self._matches(markup, self.name)) \
877  or (not markup and self._matches(markupName, self.name)):
878  if callFunctionWithTagData:
879  match = self.name(markupName, markupAttrs)
880  else:
881  match = True
882  markupAttrMap = None
883  for attr, matchAgainst in self.attrs.items():
884  if not markupAttrMap:
885  if hasattr(markupAttrs, 'get'):
886  markupAttrMap = markupAttrs
887  else:
888  markupAttrMap = {}
889  for k,v in markupAttrs:
890  markupAttrMap[k] = v
891  attrValue = markupAttrMap.get(attr)
892  if not self._matches(attrValue, matchAgainst):
893  match = False
894  break
895  if match:
896  if markup:
897  found = markup
898  else:
899  found = markupName
900  return found
901 
902  def search(self, markup):
903  #print 'looking for %s in %s' % (self, markup)
904  found = None
905  # If given a list of items, scan it for a text element that
906  # matches.
907  if isList(markup) and not isinstance(markup, Tag):
908  for element in markup:
909  if isinstance(element, NavigableString) \
910  and self.search(element):
911  found = element
912  break
913  # If it's a Tag, make sure its name or attributes match.
914  # Don't bother with Tags if we're searching for text.
915  elif isinstance(markup, Tag):
916  if not self.text:
917  found = self.searchTag(markup)
918  # If it's text, make sure the text matches.
919  elif isinstance(markup, NavigableString) or \
920  isString(markup):
921  if self._matches(markup, self.text):
922  found = markup
923  else:
924  raise Exception, "I don't know how to match against a %s" \
925  % markup.__class__
926  return found
927 
928  def _matches(self, markup, matchAgainst):
929  #print "Matching %s against %s" % (markup, matchAgainst)
930  result = False
931  if matchAgainst == True and type(matchAgainst) == types.BooleanType:
932  result = markup != None
933  elif callable(matchAgainst):
934  result = matchAgainst(markup)
935  else:
936  #Custom match methods take the tag as an argument, but all
937  #other ways of matching match the tag name as a string.
938  if isinstance(markup, Tag):
939  markup = markup.name
940  if markup is not None and not isString(markup):
941  markup = unicode(markup)
942  #Now we know that chunk is either a string, or None.
943  if hasattr(matchAgainst, 'match'):
944  # It's a regexp object.
945  result = markup and matchAgainst.search(markup)
946  elif (isList(matchAgainst)
947  and (markup is not None or not isString(matchAgainst))):
948  result = markup in matchAgainst
949  elif hasattr(matchAgainst, 'items'):
950  result = markup.has_key(matchAgainst)
951  elif matchAgainst and isString(markup):
952  if isinstance(markup, unicode):
953  matchAgainst = unicode(matchAgainst)
954  else:
955  matchAgainst = str(matchAgainst)
956 
957  if not result:
958  result = matchAgainst == markup
959  return result
960 
962  """A ResultSet is just a list that keeps track of the SoupStrainer
963  that created it."""
964  def __init__(self, source):
965  list.__init__([])
966  self.source = source
967 
968 # Now, some helper functions.
969 
970 def isList(l):
971  """Convenience method that works with all 2.x versions of Python
972  to determine whether or not something is listlike."""
973  return ((hasattr(l, '__iter__') and not isString(l))
974  or (type(l) in (types.ListType, types.TupleType)))
975 
976 def isString(s):
977  """Convenience method that works with all 2.x versions of Python
978  to determine whether or not something is stringlike."""
979  try:
980  return isinstance(s, unicode) or isinstance(s, basestring)
981  except NameError:
982  return isinstance(s, str)
983 
984 def buildTagMap(default, *args):
985  """Turns a list of maps, lists, or scalars into a single map.
986  Used to build the SELF_CLOSING_TAGS, NESTABLE_TAGS, and
987  NESTING_RESET_TAGS maps out of lists and partial maps."""
988  built = {}
989  for portion in args:
990  if hasattr(portion, 'items'):
991  #It's a map. Merge it.
992  for k,v in portion.items():
993  built[k] = v
994  elif isList(portion) and not isString(portion):
995  #It's a list. Map each item to the default.
996  for k in portion:
997  built[k] = default
998  else:
999  #It's a scalar. Map it to the default.
1000  built[portion] = default
1001  return built
1002 
1003 # Now, the parser classes.
1004 
1005 class HTMLParserBuilder(HTMLParser):
1006 
1007  def __init__(self, soup):
1008  HTMLParser.__init__(self)
1009  self.soup = soup
1010 
1011  # We inherit feed() and reset().
1012 
1013  def handle_starttag(self, name, attrs):
1014  if name == 'meta':
1015  self.soup.extractCharsetFromMeta(attrs)
1016  else:
1017  self.soup.unknown_starttag(name, attrs)
1018 
1019  def handle_endtag(self, name):
1020  self.soup.unknown_endtag(name)
1021 
1022  def handle_data(self, content):
1023  self.soup.handle_data(content)
1024 
1025  def _toStringSubclass(self, text, subclass):
1026  """Adds a certain piece of text to the tree as a NavigableString
1027  subclass."""
1028  self.soup.endData()
1029  self.handle_data(text)
1030  self.soup.endData(subclass)
1031 
1032  def handle_pi(self, text):
1033  """Handle a processing instruction as a ProcessingInstruction
1034  object, possibly one with a %SOUP-ENCODING% slot into which an
1035  encoding will be plugged later."""
1036  if text[:3] == "xml":
1037  text = u"xml version='1.0' encoding='%SOUP-ENCODING%'"
1038  self._toStringSubclass(text, ProcessingInstruction)
1039 
1040  def handle_comment(self, text):
1041  "Handle comments as Comment objects."
1042  self._toStringSubclass(text, Comment)
1043 
1044  def handle_charref(self, ref):
1045  "Handle character references as data."
1046  if self.soup.convertEntities:
1047  data = unichr(int(ref))
1048  else:
1049  data = '&#%s;' % ref
1050  self.handle_data(data)
1051 
1052  def handle_entityref(self, ref):
1053  """Handle entity references as data, possibly converting known
1054  HTML and/or XML entity references to the corresponding Unicode
1055  characters."""
1056  data = None
1057  if self.soup.convertHTMLEntities:
1058  try:
1059  data = unichr(name2codepoint[ref])
1060  except KeyError:
1061  pass
1062 
1063  if not data and self.soup.convertXMLEntities:
1064  data = self.soup.XML_ENTITIES_TO_SPECIAL_CHARS.get(ref)
1065 
1066  if not data and self.soup.convertHTMLEntities and \
1067  not self.soup.XML_ENTITIES_TO_SPECIAL_CHARS.get(ref):
1068  # TODO: We've got a problem here. We're told this is
1069  # an entity reference, but it's not an XML entity
1070  # reference or an HTML entity reference. Nonetheless,
1071  # the logical thing to do is to pass it through as an
1072  # unrecognized entity reference.
1073  #
1074  # Except: when the input is "&carol;" this function
1075  # will be called with input "carol". When the input is
1076  # "AT&T", this function will be called with input
1077  # "T". We have no way of knowing whether a semicolon
1078  # was present originally, so we don't know whether
1079  # this is an unknown entity or just a misplaced
1080  # ampersand.
1081  #
1082  # The more common case is a misplaced ampersand, so I
1083  # escape the ampersand and omit the trailing semicolon.
1084  data = "&amp;%s" % ref
1085  if not data:
1086  # This case is different from the one above, because we
1087  # haven't already gone through a supposedly comprehensive
1088  # mapping of entities to Unicode characters. We might not
1089  # have gone through any mapping at all. So the chances are
1090  # very high that this is a real entity, and not a
1091  # misplaced ampersand.
1092  data = "&%s;" % ref
1093  self.handle_data(data)
1094 
1095  def handle_decl(self, data):
1096  "Handle DOCTYPEs and the like as Declaration objects."
1097  self._toStringSubclass(data, Declaration)
1098 
1099  def parse_declaration(self, i):
1100  """Treat a bogus SGML declaration as raw data. Treat a CDATA
1101  declaration as a CData object."""
1102  j = None
1103  if self.rawdata[i:i+9] == '<![CDATA[':
1104  k = self.rawdata.find(']]>', i)
1105  if k == -1:
1106  k = len(self.rawdata)
1107  data = self.rawdata[i+9:k]
1108  j = k+3
1109  self._toStringSubclass(data, CData)
1110  else:
1111  try:
1112  j = HTMLParser.parse_declaration(self, i)
1113  except HTMLParseError:
1114  toHandle = self.rawdata[i:]
1115  self.handle_data(toHandle)
1116  j = i + len(toHandle)
1117  return j
1118 
1119 
1121 
1122  """This class contains the basic parser and search code. It defines
1123  a parser that knows nothing about tag behavior except for the
1124  following:
1125 
1126  You can't close a tag without closing all the tags it encloses.
1127  That is, "<foo><bar></foo>" actually means
1128  "<foo><bar></bar></foo>".
1129 
1130  [Another possible explanation is "<foo><bar /></foo>", but since
1131  this class defines no SELF_CLOSING_TAGS, it will never use that
1132  explanation.]
1133 
1134  This class is useful for parsing XML or made-up markup languages,
1135  or when BeautifulSoup makes an assumption counter to what you were
1136  expecting."""
1137 
1138  SELF_CLOSING_TAGS = {}
1139  NESTABLE_TAGS = {}
1140  RESET_NESTING_TAGS = {}
1141  QUOTE_TAGS = {}
1142  PRESERVE_WHITESPACE_TAGS = []
1143 
1144  MARKUP_MASSAGE = [(re.compile('(<[^<>]*)/>'),
1145  lambda x: x.group(1) + ' />'),
1146  (re.compile('<!\s+([^<>]*)>'),
1147  lambda x: '<!' + x.group(1) + '>')
1148  ]
1149 
1150  ROOT_TAG_NAME = u'[document]'
1151 
1152  HTML_ENTITIES = "html"
1153  XML_ENTITIES = "xml"
1154  XHTML_ENTITIES = "xhtml"
1155  # TODO: This only exists for backwards-compatibility
1156  ALL_ENTITIES = XHTML_ENTITIES
1157 
1158  # Used when determining whether a text node is all whitespace and
1159  # can be replaced with a single space. A text node that contains
1160  # fancy Unicode spaces (usually non-breaking) should be left
1161  # alone.
1162  STRIP_ASCII_SPACES = { 9: None, 10: None, 12: None, 13: None, 32: None, }
1163 
1164  def __init__(self, markup="", parseOnlyThese=None, fromEncoding=None,
1165  markupMassage=True, smartQuotesTo=XML_ENTITIES,
1166  convertEntities=None, selfClosingTags=None, isHTML=False,
1167  builder=HTMLParserBuilder):
1168  """The Soup object is initialized as the 'root tag', and the
1169  provided markup (which can be a string or a file-like object)
1170  is fed into the underlying parser.
1171 
1172  HTMLParser will process most bad HTML, and the BeautifulSoup
1173  class has some tricks for dealing with some HTML that kills
1174  HTMLParser, but Beautiful Soup can nonetheless choke or lose data
1175  if your data uses self-closing tags or declarations
1176  incorrectly.
1177 
1178  By default, Beautiful Soup uses regexes to sanitize input,
1179  avoiding the vast majority of these problems. If the problems
1180  don't apply to you, pass in False for markupMassage, and
1181  you'll get better performance.
1182 
1183  The default parser massage techniques fix the two most common
1184  instances of invalid HTML that choke HTMLParser:
1185 
1186  <br/> (No space between name of closing tag and tag close)
1187  <! --Comment--> (Extraneous whitespace in declaration)
1188 
1189  You can pass in a custom list of (RE object, replace method)
1190  tuples to get Beautiful Soup to scrub your input the way you
1191  want."""
1192 
1193  self.parseOnlyThese = parseOnlyThese
1194  self.fromEncoding = fromEncoding
1195  self.smartQuotesTo = smartQuotesTo
1196  self.convertEntities = convertEntities
1197  # Set the rules for how we'll deal with the entities we
1198  # encounter
1199  if self.convertEntities:
1200  # It doesn't make sense to convert encoded characters to
1201  # entities even while you're converting entities to Unicode.
1202  # Just convert it all to Unicode.
1203  self.smartQuotesTo = None
1204  if convertEntities == self.HTML_ENTITIES:
1205  self.convertXMLEntities = False
1208  elif convertEntities == self.XHTML_ENTITIES:
1209  self.convertXMLEntities = True
1210  self.convertHTMLEntities = True
1211  self.escapeUnrecognizedEntities = False
1212  elif convertEntities == self.XML_ENTITIES:
1213  self.convertXMLEntities = True
1214  self.convertHTMLEntities = False
1215  self.escapeUnrecognizedEntities = False
1216  else:
1217  self.convertXMLEntities = False
1218  self.convertHTMLEntities = False
1219  self.escapeUnrecognizedEntities = False
1220 
1221  self.instanceSelfClosingTags = buildTagMap(None, selfClosingTags)
1222  self.builder = builder(self)
1223  self.reset()
1224 
1225  if hasattr(markup, 'read'): # It's a file-type object.
1226  markup = markup.read()
1227  self.markup = markup
1228  self.markupMassage = markupMassage
1229  try:
1230  self._feed(isHTML=isHTML)
1231  except StopParsing:
1232  pass
1233  self.markup = None # The markup can now be GCed.
1234  self.builder = None # So can the builder.
1235 
1236  def _feed(self, inDocumentEncoding=None, isHTML=False):
1237  # Convert the document to Unicode.
1238  markup = self.markup
1239  if isinstance(markup, unicode):
1240  if not hasattr(self, 'originalEncoding'):
1241  self.originalEncoding = None
1242  else:
1243  dammit = UnicodeDammit\
1244  (markup, [self.fromEncoding, inDocumentEncoding],
1245  smartQuotesTo=self.smartQuotesTo, isHTML=isHTML)
1246  markup = dammit.unicode
1247  self.originalEncoding = dammit.originalEncoding
1248  self.declaredHTMLEncoding = dammit.declaredHTMLEncoding
1249  if markup:
1250  if self.markupMassage:
1251  if not isList(self.markupMassage):
1252  self.markupMassage = self.MARKUP_MASSAGE
1253  for fix, m in self.markupMassage:
1254  markup = fix.sub(m, markup)
1255  # TODO: We get rid of markupMassage so that the
1256  # soup object can be deepcopied later on. Some
1257  # Python installations can't copy regexes. If anyone
1258  # was relying on the existence of markupMassage, this
1259  # might cause problems.
1260  del(self.markupMassage)
1261  self.builder.reset()
1262 
1263  self.builder.feed(markup)
1264  # Close out any unfinished strings and close all the open tags.
1265  self.endData()
1266  while self.currentTag.name != self.ROOT_TAG_NAME:
1267  self.popTag()
1268 
1269  def isSelfClosingTag(self, name):
1270  """Returns true iff the given string is the name of a
1271  self-closing tag according to this parser."""
1272  return self.SELF_CLOSING_TAGS.has_key(name) \
1273  or self.instanceSelfClosingTags.has_key(name)
1274 
1275  def reset(self):
1276  Tag.__init__(self, self, self.ROOT_TAG_NAME)
1277  self.hidden = 1
1278  self.builder.reset()
1279  self.currentData = []
1280  self.currentTag = None
1281  self.tagStack = []
1282  self.quoteStack = []
1283  self.pushTag(self)
1284 
1285  def popTag(self):
1286  tag = self.tagStack.pop()
1287  # Tags with just one string-owning child get the child as a
1288  # 'string' property, so that soup.tag.string is shorthand for
1289  # soup.tag.contents[0]
1290  if len(self.currentTag.contents) == 1 and \
1291  isinstance(self.currentTag.contents[0], NavigableString):
1292  self.currentTag.string = self.currentTag.contents[0]
1293 
1294  #print "Pop", tag.name
1295  if self.tagStack:
1296  self.currentTag = self.tagStack[-1]
1297  return self.currentTag
1298 
1299  def pushTag(self, tag):
1300  #print "Push", tag.name
1301  if self.currentTag:
1302  self.currentTag.contents.append(tag)
1303  self.tagStack.append(tag)
1304  self.currentTag = self.tagStack[-1]
1305 
1306  def endData(self, containerClass=NavigableString):
1307  if self.currentData:
1308  currentData = u''.join(self.currentData)
1309  if (currentData.translate(self.STRIP_ASCII_SPACES) == '' and
1310  not set([tag.name for tag in self.tagStack]).intersection(
1311  self.PRESERVE_WHITESPACE_TAGS)):
1312  if '\n' in currentData:
1313  currentData = '\n'
1314  else:
1315  currentData = ' '
1316  self.currentData = []
1317  if self.parseOnlyThese and len(self.tagStack) <= 1 and \
1318  (not self.parseOnlyThese.text or \
1319  not self.parseOnlyThese.search(currentData)):
1320  return
1321  o = containerClass(currentData)
1322  o.setup(self.currentTag, self.previous)
1323  if self.previous:
1324  self.previous.next = o
1325  self.previous = o
1326  self.currentTag.contents.append(o)
1327 
1328 
1329  def _popToTag(self, name, inclusivePop=True):
1330  """Pops the tag stack up to and including the most recent
1331  instance of the given tag. If inclusivePop is false, pops the tag
1332  stack up to but *not* including the most recent instqance of
1333  the given tag."""
1334  #print "Popping to %s" % name
1335  if name == self.ROOT_TAG_NAME:
1336  return
1337 
1338  numPops = 0
1339  mostRecentTag = None
1340  for i in range(len(self.tagStack)-1, 0, -1):
1341  if name == self.tagStack[i].name:
1342  numPops = len(self.tagStack)-i
1343  break
1344  if not inclusivePop:
1345  numPops = numPops - 1
1346 
1347  for i in range(0, numPops):
1348  mostRecentTag = self.popTag()
1349  return mostRecentTag
1350 
1351  def _smartPop(self, name):
1352 
1353  """We need to pop up to the previous tag of this type, unless
1354  one of this tag's nesting reset triggers comes between this
1355  tag and the previous tag of this type, OR unless this tag is a
1356  generic nesting trigger and another generic nesting trigger
1357  comes between this tag and the previous tag of this type.
1358 
1359  Examples:
1360  <p>Foo<b>Bar *<p>* should pop to 'p', not 'b'.
1361  <p>Foo<table>Bar *<p>* should pop to 'table', not 'p'.
1362  <p>Foo<table><tr>Bar *<p>* should pop to 'tr', not 'p'.
1363 
1364  <li><ul><li> *<li>* should pop to 'ul', not the first 'li'.
1365  <tr><table><tr> *<tr>* should pop to 'table', not the first 'tr'
1366  <td><tr><td> *<td>* should pop to 'tr', not the first 'td'
1367  """
1368 
1369  nestingResetTriggers = self.NESTABLE_TAGS.get(name)
1370  isNestable = nestingResetTriggers != None
1371  isResetNesting = self.RESET_NESTING_TAGS.has_key(name)
1372  popTo = None
1373  inclusive = True
1374  for i in range(len(self.tagStack)-1, 0, -1):
1375  p = self.tagStack[i]
1376  if (not p or p.name == name) and not isNestable:
1377  #Non-nestable tags get popped to the top or to their
1378  #last occurance.
1379  popTo = name
1380  break
1381  if (nestingResetTriggers != None
1382  and p.name in nestingResetTriggers) \
1383  or (nestingResetTriggers == None and isResetNesting
1384  and self.RESET_NESTING_TAGS.has_key(p.name)):
1385 
1386  #If we encounter one of the nesting reset triggers
1387  #peculiar to this tag, or we encounter another tag
1388  #that causes nesting to reset, pop up to but not
1389  #including that tag.
1390  popTo = p.name
1391  inclusive = False
1392  break
1393  p = p.parent
1394  if popTo:
1395  self._popToTag(popTo, inclusive)
1396 
1397  def unknown_starttag(self, name, attrs, selfClosing=0):
1398  #print "Start tag %s: %s" % (name, attrs)
1399  if self.quoteStack:
1400  #This is not a real tag.
1401  #print "<%s> is not real!" % name
1402  attrs = ''.join(map(lambda(x, y): ' %s="%s"' % (x, y), attrs))
1403  self.handle_data('<%s%s>' % (name, attrs))
1404  return
1405  self.endData()
1406 
1407  if not self.isSelfClosingTag(name) and not selfClosing:
1408  self._smartPop(name)
1409 
1410  if self.parseOnlyThese and len(self.tagStack) <= 1 \
1411  and (self.parseOnlyThese.text or not self.parseOnlyThese.searchTag(name, attrs)):
1412  return
1413 
1414  tag = Tag(self, name, attrs, self.currentTag, self.previous)
1415  if self.previous:
1416  self.previous.next = tag
1417  self.previous = tag
1418  self.pushTag(tag)
1419  if selfClosing or self.isSelfClosingTag(name):
1420  self.popTag()
1421  if name in self.QUOTE_TAGS:
1422  #print "Beginning quote (%s)" % name
1423  self.quoteStack.append(name)
1424  self.literal = 1
1425  return tag
1426 
1427  def unknown_endtag(self, name):
1428  #print "End tag %s" % name
1429  if self.quoteStack and self.quoteStack[-1] != name:
1430  #This is not a real end tag.
1431  #print "</%s> is not real!" % name
1432  self.handle_data('</%s>' % name)
1433  return
1434  self.endData()
1435  self._popToTag(name)
1436  if self.quoteStack and self.quoteStack[-1] == name:
1437  self.quoteStack.pop()
1438  self.literal = (len(self.quoteStack) > 0)
1439 
1440  def handle_data(self, data):
1441  self.currentData.append(data)
1442 
1443  def extractCharsetFromMeta(self, attrs):
1444  self.unknown_starttag('meta', attrs)
1445 
1446 
1448 
1449  """This parser knows the following facts about HTML:
1450 
1451  * Some tags have no closing tag and should be interpreted as being
1452  closed as soon as they are encountered.
1453 
1454  * The text inside some tags (ie. 'script') may contain tags which
1455  are not really part of the document and which should be parsed
1456  as text, not tags. If you want to parse the text as tags, you can
1457  always fetch it and parse it explicitly.
1458 
1459  * Tag nesting rules:
1460 
1461  Most tags can't be nested at all. For instance, the occurance of
1462  a <p> tag should implicitly close the previous <p> tag.
1463 
1464  <p>Para1<p>Para2
1465  should be transformed into:
1466  <p>Para1</p><p>Para2
1467 
1468  Some tags can be nested arbitrarily. For instance, the occurance
1469  of a <blockquote> tag should _not_ implicitly close the previous
1470  <blockquote> tag.
1471 
1472  Alice said: <blockquote>Bob said: <blockquote>Blah
1473  should NOT be transformed into:
1474  Alice said: <blockquote>Bob said: </blockquote><blockquote>Blah
1475 
1476  Some tags can be nested, but the nesting is reset by the
1477  interposition of other tags. For instance, a <tr> tag should
1478  implicitly close the previous <tr> tag within the same <table>,
1479  but not close a <tr> tag in another table.
1480 
1481  <table><tr>Blah<tr>Blah
1482  should be transformed into:
1483  <table><tr>Blah</tr><tr>Blah
1484  but,
1485  <tr>Blah<table><tr>Blah
1486  should NOT be transformed into
1487  <tr>Blah<table></tr><tr>Blah
1488 
1489  Differing assumptions about tag nesting rules are a major source
1490  of problems with the BeautifulSoup class. If BeautifulSoup is not
1491  treating as nestable a tag your page author treats as nestable,
1492  try ICantBelieveItsBeautifulSoup, MinimalSoup, or
1493  BeautifulStoneSoup before writing your own subclass."""
1494 
1495  def __init__(self, *args, **kwargs):
1496  if not kwargs.has_key('smartQuotesTo'):
1497  kwargs['smartQuotesTo'] = self.HTML_ENTITIES
1498  kwargs['isHTML'] = True
1499  BeautifulStoneSoup.__init__(self, *args, **kwargs)
1500 
1501  SELF_CLOSING_TAGS = buildTagMap(None,
1502  ['br' , 'hr', 'input', 'img', 'meta',
1503  'spacer', 'link', 'frame', 'base'])
1504 
1505  PRESERVE_WHITESPACE_TAGS = set(['pre', 'textarea'])
1506 
1507  QUOTE_TAGS = {'script' : None, 'textarea' : None}
1508 
1509  #According to the HTML standard, each of these inline tags can
1510  #contain another tag of the same type. Furthermore, it's common
1511  #to actually use these tags this way.
1512  NESTABLE_INLINE_TAGS = ['span', 'font', 'q', 'object', 'bdo', 'sub', 'sup',
1513  'center']
1514 
1515  #According to the HTML standard, these block tags can contain
1516  #another tag of the same type. Furthermore, it's common
1517  #to actually use these tags this way.
1518  NESTABLE_BLOCK_TAGS = ['blockquote', 'div', 'fieldset', 'ins', 'del']
1519 
1520  #Lists can contain other lists, but there are restrictions.
1521  NESTABLE_LIST_TAGS = { 'ol' : [],
1522  'ul' : [],
1523  'li' : ['ul', 'ol'],
1524  'dl' : [],
1525  'dd' : ['dl'],
1526  'dt' : ['dl'] }
1527 
1528  #Tables can contain other tables, but there are restrictions.
1529  NESTABLE_TABLE_TAGS = {'table' : [],
1530  'tr' : ['table', 'tbody', 'tfoot', 'thead'],
1531  'td' : ['tr'],
1532  'th' : ['tr'],
1533  'thead' : ['table'],
1534  'tbody' : ['table'],
1535  'tfoot' : ['table'],
1536  }
1537 
1538  NON_NESTABLE_BLOCK_TAGS = ['address', 'form', 'p', 'pre']
1539 
1540  #If one of these tags is encountered, all tags up to the next tag of
1541  #this type are popped.
1542  RESET_NESTING_TAGS = buildTagMap(None, NESTABLE_BLOCK_TAGS, 'noscript',
1543  NON_NESTABLE_BLOCK_TAGS,
1544  NESTABLE_LIST_TAGS,
1545  NESTABLE_TABLE_TAGS)
1546 
1547  NESTABLE_TAGS = buildTagMap([], NESTABLE_INLINE_TAGS, NESTABLE_BLOCK_TAGS,
1548  NESTABLE_LIST_TAGS, NESTABLE_TABLE_TAGS)
1549 
1550  # Used to detect the charset in a META tag; see start_meta
1551  CHARSET_RE = re.compile("((^|;)\s*charset=)([^;]*)", re.M)
1552 
1553  def extractCharsetFromMeta(self, attrs):
1554  """Beautiful Soup can detect a charset included in a META tag,
1555  try to convert the document to that charset, and re-parse the
1556  document from the beginning."""
1557  httpEquiv = None
1558  contentType = None
1559  contentTypeIndex = None
1560  tagNeedsEncodingSubstitution = False
1561 
1562  for i in range(0, len(attrs)):
1563  key, value = attrs[i]
1564  key = key.lower()
1565  if key == 'http-equiv':
1566  httpEquiv = value
1567  elif key == 'content':
1568  contentType = value
1569  contentTypeIndex = i
1570 
1571  if httpEquiv and contentType: # It's an interesting meta tag.
1572  match = self.CHARSET_RE.search(contentType)
1573  if match:
1574  if (self.declaredHTMLEncoding is not None or
1576  # An HTML encoding was sniffed while converting
1577  # the document to Unicode, or an HTML encoding was
1578  # sniffed during a previous pass through the
1579  # document, or an encoding was specified
1580  # explicitly and it worked. Rewrite the meta tag.
1581  def rewrite(match):
1582  return match.group(1) + "%SOUP-ENCODING%"
1583  newAttr = self.CHARSET_RE.sub(rewrite, contentType)
1584  attrs[contentTypeIndex] = (attrs[contentTypeIndex][0],
1585  newAttr)
1586  tagNeedsEncodingSubstitution = True
1587  else:
1588  # This is our first pass through the document.
1589  # Go through it again with the encoding information.
1590  newCharset = match.group(3)
1591  if newCharset and newCharset != self.originalEncoding:
1592  self.declaredHTMLEncoding = newCharset
1593  self._feed(self.declaredHTMLEncoding)
1594  raise StopParsing
1595  pass
1596  tag = self.unknown_starttag("meta", attrs)
1597  if tag and tagNeedsEncodingSubstitution:
1598  tag.containsSubstitutions = True
1599 
1600 
1602  pass
1603 
1604 class ICantBelieveItsBeautifulSoup(BeautifulSoup):
1605 
1606  """The BeautifulSoup class is oriented towards skipping over
1607  common HTML errors like unclosed tags. However, sometimes it makes
1608  errors of its own. For instance, consider this fragment:
1609 
1610  <b>Foo<b>Bar</b></b>
1611 
1612  This is perfectly valid (if bizarre) HTML. However, the
1613  BeautifulSoup class will implicitly close the first b tag when it
1614  encounters the second 'b'. It will think the author wrote
1615  "<b>Foo<b>Bar", and didn't close the first 'b' tag, because
1616  there's no real-world reason to bold something that's already
1617  bold. When it encounters '</b></b>' it will close two more 'b'
1618  tags, for a grand total of three tags closed instead of two. This
1619  can throw off the rest of your document structure. The same is
1620  true of a number of other tags, listed below.
1621 
1622  It's much more common for someone to forget to close a 'b' tag
1623  than to actually use nested 'b' tags, and the BeautifulSoup class
1624  handles the common case. This class handles the not-co-common
1625  case: where you can't believe someone wrote what they did, but
1626  it's valid HTML and BeautifulSoup screwed up by assuming it
1627  wouldn't be."""
1628 
1629  I_CANT_BELIEVE_THEYRE_NESTABLE_INLINE_TAGS = \
1630  ['em', 'big', 'i', 'small', 'tt', 'abbr', 'acronym', 'strong',
1631  'cite', 'code', 'dfn', 'kbd', 'samp', 'strong', 'var', 'b',
1632  'big']
1633 
1634  I_CANT_BELIEVE_THEYRE_NESTABLE_BLOCK_TAGS = ['noscript']
1635 
1636  NESTABLE_TAGS = buildTagMap([], BeautifulSoup.NESTABLE_TAGS,
1637  I_CANT_BELIEVE_THEYRE_NESTABLE_BLOCK_TAGS,
1638  I_CANT_BELIEVE_THEYRE_NESTABLE_INLINE_TAGS)
1639 
1641  """The MinimalSoup class is for parsing HTML that contains
1642  pathologically bad markup. It makes no assumptions about tag
1643  nesting, but it does know which tags are self-closing, that
1644  <script> tags contain Javascript and should not be parsed, that
1645  META tags may contain encoding information, and so on.
1646 
1647  This also makes it better for subclassing than BeautifulStoneSoup
1648  or BeautifulSoup."""
1649 
1650  RESET_NESTING_TAGS = buildTagMap('noscript')
1651  NESTABLE_TAGS = {}
1652 
1654  """This class will push a tag with only a single string child into
1655  the tag's parent as an attribute. The attribute's name is the tag
1656  name, and the value is the string child. An example should give
1657  the flavor of the change:
1658 
1659  <foo><bar>baz</bar></foo>
1660  =>
1661  <foo bar="baz"><bar>baz</bar></foo>
1662 
1663  You can then access fooTag['bar'] instead of fooTag.barTag.string.
1664 
1665  This is, of course, useful for scraping structures that tend to
1666  use subelements instead of attributes, such as SOAP messages. Note
1667  that it modifies its input, so don't print the modified version
1668  out.
1669 
1670  I'm not sure how many people really want to use this class; let me
1671  know if you do. Mainly I like the name."""
1672 
1673  def popTag(self):
1674  if len(self.tagStack) > 1:
1675  tag = self.tagStack[-1]
1676  parent = self.tagStack[-2]
1677  parent._getAttrMap()
1678  if (isinstance(tag, Tag) and len(tag.contents) == 1 and
1679  isinstance(tag.contents[0], NavigableString) and
1680  not parent.attrMap.has_key(tag.name)):
1681  parent[tag.name] = tag.contents[0]
1682  BeautifulStoneSoup.popTag(self)
1683 
1684 #Enterprise class names! It has come to our attention that some people
1685 #think the names of the Beautiful Soup parser classes are too silly
1686 #and "unprofessional" for use in enterprise screen-scraping. We feel
1687 #your pain! For such-minded folk, the Beautiful Soup Consortium And
1688 #All-Night Kosher Bakery recommends renaming this file to
1689 #"RobustParser.py" (or, in cases of extreme enterprisiness,
1690 #"RobustParserBeanInterface.class") and using the following
1691 #enterprise-friendly class aliases:
1693  pass
1694 class RobustHTMLParser(BeautifulSoup):
1695  pass
1697  pass
1699  pass
1701  pass
1702 
1703 ######################################################
1704 #
1705 # Bonus library: Unicode, Dammit
1706 #
1707 # This class forces XML data into a standard format (usually to UTF-8
1708 # or Unicode). It is heavily based on code from Mark Pilgrim's
1709 # Universal Feed Parser. It does not rewrite the XML or HTML to
1710 # reflect a new encoding: that happens in BeautifulStoneSoup.handle_pi
1711 # (XML) and BeautifulSoup.start_meta (HTML).
1712 
1713 # Autodetects character encodings.
1714 # Download from http://chardet.feedparser.org/
1715 try:
1716  import chardet
1717 # import chardet.constants
1718 # chardet.constants._debug = 1
1719 except ImportError:
1720  chardet = None
1721 
1722 # cjkcodecs and iconv_codec make Python know about more character encodings.
1723 # Both are available from http://cjkpython.i18n.org/
1724 # They're built in if you use Python 2.4.
1725 try:
1726  import cjkcodecs.aliases
1727 except ImportError:
1728  pass
1729 try:
1730  import iconv_codec
1731 except ImportError:
1732  pass
1733 
1735  """A class for detecting the encoding of a *ML document and
1736  converting it to a Unicode string. If the source encoding is
1737  windows-1252, can replace MS smart quotes with their HTML or XML
1738  equivalents."""
1739 
1740  # This dictionary maps commonly seen values for "charset" in HTML
1741  # meta tags to the corresponding Python codec names. It only covers
1742  # values that aren't in Python's aliases and can't be determined
1743  # by the heuristics in find_codec.
1744  CHARSET_ALIASES = { "macintosh" : "mac-roman",
1745  "x-sjis" : "shift-jis" }
1746 
1747  def __init__(self, markup, overrideEncodings=[],
1748  smartQuotesTo='xml', isHTML=False):
1750  self.markup, documentEncoding, sniffedEncoding = \
1751  self._detectEncoding(markup, isHTML)
1752  self.smartQuotesTo = smartQuotesTo
1753  self.triedEncodings = []
1754  if markup == '' or isinstance(markup, unicode):
1755  self.originalEncoding = None
1756  self.unicode = unicode(markup)
1757  return
1758 
1759  u = None
1760  for proposedEncoding in overrideEncodings:
1761  u = self._convertFrom(proposedEncoding)
1762  if u: break
1763  if not u:
1764  for proposedEncoding in (documentEncoding, sniffedEncoding):
1765  u = self._convertFrom(proposedEncoding)
1766  if u: break
1767 
1768  # If no luck and we have auto-detection library, try that:
1769  if not u and chardet and not isinstance(self.markup, unicode):
1770  u = self._convertFrom(chardet.detect(self.markup)['encoding'])
1771 
1772  # As a last resort, try utf-8 and windows-1252:
1773  if not u:
1774  for proposed_encoding in ("utf-8", "windows-1252"):
1775  u = self._convertFrom(proposed_encoding)
1776  if u: break
1777 
1778  self.unicode = u
1779  if not u: self.originalEncoding = None
1780 
1781  def _subMSChar(self, match):
1782  """Changes a MS smart quote character to an XML or HTML
1783  entity."""
1784  orig = match.group(1)
1785  sub = self.MS_CHARS.get(orig)
1786  if type(sub) == types.TupleType:
1787  if self.smartQuotesTo == 'xml':
1788  sub = '&#x'.encode() + sub[1].encode() + ';'.encode()
1789  else:
1790  sub = '&'.encode() + sub[0].encode() + ';'.encode()
1791  else:
1792  sub = sub.encode()
1793  return sub
1794 
1795  def _convertFrom(self, proposed):
1796  proposed = self.find_codec(proposed)
1797  if not proposed or proposed in self.triedEncodings:
1798  return None
1799  self.triedEncodings.append(proposed)
1800  markup = self.markup
1801 
1802  # Convert smart quotes to HTML if coming from an encoding
1803  # that might have them.
1804  if self.smartQuotesTo and proposed.lower() in("windows-1252",
1805  "iso-8859-1",
1806  "iso-8859-2"):
1807  smart_quotes_re = "([\x80-\x9f])"
1808  smart_quotes_compiled = re.compile(smart_quotes_re)
1809  markup = smart_quotes_compiled.sub(self._subMSChar, markup)
1810 
1811  try:
1812  # print "Trying to convert document to %s" % proposed
1813  u = self._toUnicode(markup, proposed)
1814  self.markup = u
1815  self.originalEncoding = proposed
1816  except Exception, e:
1817  # print "That didn't work!"
1818  # print e
1819  return None
1820  #print "Correct encoding: %s" % proposed
1821  return self.markup
1822 
1823  def _toUnicode(self, data, encoding):
1824  '''Given a string and its encoding, decodes the string into Unicode.
1825  %encoding is a string recognized by encodings.aliases'''
1826 
1827  # strip Byte Order Mark (if present)
1828  if (len(data) >= 4) and (data[:2] == '\xfe\xff') \
1829  and (data[2:4] != '\x00\x00'):
1830  encoding = 'utf-16be'
1831  data = data[2:]
1832  elif (len(data) >= 4) and (data[:2] == '\xff\xfe') \
1833  and (data[2:4] != '\x00\x00'):
1834  encoding = 'utf-16le'
1835  data = data[2:]
1836  elif data[:3] == '\xef\xbb\xbf':
1837  encoding = 'utf-8'
1838  data = data[3:]
1839  elif data[:4] == '\x00\x00\xfe\xff':
1840  encoding = 'utf-32be'
1841  data = data[4:]
1842  elif data[:4] == '\xff\xfe\x00\x00':
1843  encoding = 'utf-32le'
1844  data = data[4:]
1845  newdata = unicode(data, encoding)
1846  return newdata
1847 
1848  def _detectEncoding(self, xml_data, isHTML=False):
1849  """Given a document, tries to detect its XML encoding."""
1850  xml_encoding = sniffed_xml_encoding = None
1851  try:
1852  if xml_data[:4] == '\x4c\x6f\xa7\x94':
1853  # EBCDIC
1854  xml_data = self._ebcdic_to_ascii(xml_data)
1855  elif xml_data[:4] == '\x00\x3c\x00\x3f':
1856  # UTF-16BE
1857  sniffed_xml_encoding = 'utf-16be'
1858  xml_data = unicode(xml_data, 'utf-16be').encode('utf-8')
1859  elif (len(xml_data) >= 4) and (xml_data[:2] == '\xfe\xff') \
1860  and (xml_data[2:4] != '\x00\x00'):
1861  # UTF-16BE with BOM
1862  sniffed_xml_encoding = 'utf-16be'
1863  xml_data = unicode(xml_data[2:], 'utf-16be').encode('utf-8')
1864  elif xml_data[:4] == '\x3c\x00\x3f\x00':
1865  # UTF-16LE
1866  sniffed_xml_encoding = 'utf-16le'
1867  xml_data = unicode(xml_data, 'utf-16le').encode('utf-8')
1868  elif (len(xml_data) >= 4) and (xml_data[:2] == '\xff\xfe') and \
1869  (xml_data[2:4] != '\x00\x00'):
1870  # UTF-16LE with BOM
1871  sniffed_xml_encoding = 'utf-16le'
1872  xml_data = unicode(xml_data[2:], 'utf-16le').encode('utf-8')
1873  elif xml_data[:4] == '\x00\x00\x00\x3c':
1874  # UTF-32BE
1875  sniffed_xml_encoding = 'utf-32be'
1876  xml_data = unicode(xml_data, 'utf-32be').encode('utf-8')
1877  elif xml_data[:4] == '\x3c\x00\x00\x00':
1878  # UTF-32LE
1879  sniffed_xml_encoding = 'utf-32le'
1880  xml_data = unicode(xml_data, 'utf-32le').encode('utf-8')
1881  elif xml_data[:4] == '\x00\x00\xfe\xff':
1882  # UTF-32BE with BOM
1883  sniffed_xml_encoding = 'utf-32be'
1884  xml_data = unicode(xml_data[4:], 'utf-32be').encode('utf-8')
1885  elif xml_data[:4] == '\xff\xfe\x00\x00':
1886  # UTF-32LE with BOM
1887  sniffed_xml_encoding = 'utf-32le'
1888  xml_data = unicode(xml_data[4:], 'utf-32le').encode('utf-8')
1889  elif xml_data[:3] == '\xef\xbb\xbf':
1890  # UTF-8 with BOM
1891  sniffed_xml_encoding = 'utf-8'
1892  xml_data = unicode(xml_data[3:], 'utf-8').encode('utf-8')
1893  else:
1894  sniffed_xml_encoding = 'ascii'
1895  pass
1896  except:
1897  xml_encoding_match = None
1898  xml_encoding_re = '^<\?.*encoding=[\'"](.*?)[\'"].*\?>'.encode()
1899  xml_encoding_match = re.compile(xml_encoding_re).match(xml_data)
1900  if not xml_encoding_match and isHTML:
1901  meta_re = '<\s*meta[^>]+charset=([^>]*?)[;\'">]'.encode()
1902  regexp = re.compile(meta_re, re.I)
1903  xml_encoding_match = regexp.search(xml_data)
1904  if xml_encoding_match is not None:
1905  xml_encoding = xml_encoding_match.groups()[0].decode(
1906  'ascii').lower()
1907  if isHTML:
1908  self.declaredHTMLEncoding = xml_encoding
1909  if sniffed_xml_encoding and \
1910  (xml_encoding in ('iso-10646-ucs-2', 'ucs-2', 'csunicode',
1911  'iso-10646-ucs-4', 'ucs-4', 'csucs4',
1912  'utf-16', 'utf-32', 'utf_16', 'utf_32',
1913  'utf16', 'u16')):
1914  xml_encoding = sniffed_xml_encoding
1915  return xml_data, xml_encoding, sniffed_xml_encoding
1916 
1917 
1918  def find_codec(self, charset):
1919  return self._codec(self.CHARSET_ALIASES.get(charset, charset)) \
1920  or (charset and self._codec(charset.replace("-", ""))) \
1921  or (charset and self._codec(charset.replace("-", "_"))) \
1922  or charset
1923 
1924  def _codec(self, charset):
1925  if not charset: return charset
1926  codec = None
1927  try:
1928  codecs.lookup(charset)
1929  codec = charset
1930  except (LookupError, ValueError):
1931  pass
1932  return codec
1933 
1934  EBCDIC_TO_ASCII_MAP = None
1935  def _ebcdic_to_ascii(self, s):
1936  c = self.__class__
1937  if not c.EBCDIC_TO_ASCII_MAP:
1938  emap = (0,1,2,3,156,9,134,127,151,141,142,11,12,13,14,15,
1939  16,17,18,19,157,133,8,135,24,25,146,143,28,29,30,31,
1940  128,129,130,131,132,10,23,27,136,137,138,139,140,5,6,7,
1941  144,145,22,147,148,149,150,4,152,153,154,155,20,21,158,26,
1942  32,160,161,162,163,164,165,166,167,168,91,46,60,40,43,33,
1943  38,169,170,171,172,173,174,175,176,177,93,36,42,41,59,94,
1944  45,47,178,179,180,181,182,183,184,185,124,44,37,95,62,63,
1945  186,187,188,189,190,191,192,193,194,96,58,35,64,39,61,34,
1946  195,97,98,99,100,101,102,103,104,105,196,197,198,199,200,
1947  201,202,106,107,108,109,110,111,112,113,114,203,204,205,
1948  206,207,208,209,126,115,116,117,118,119,120,121,122,210,
1949  211,212,213,214,215,216,217,218,219,220,221,222,223,224,
1950  225,226,227,228,229,230,231,123,65,66,67,68,69,70,71,72,
1951  73,232,233,234,235,236,237,125,74,75,76,77,78,79,80,81,
1952  82,238,239,240,241,242,243,92,159,83,84,85,86,87,88,89,
1953  90,244,245,246,247,248,249,48,49,50,51,52,53,54,55,56,57,
1954  250,251,252,253,254,255)
1955  import string
1956  c.EBCDIC_TO_ASCII_MAP = string.maketrans( \
1957  ''.join(map(chr, range(256))), ''.join(map(chr, emap)))
1958  return s.translate(c.EBCDIC_TO_ASCII_MAP)
1959 
1960  MS_CHARS = { '\x80' : ('euro', '20AC'),
1961  '\x81' : ' ',
1962  '\x82' : ('sbquo', '201A'),
1963  '\x83' : ('fnof', '192'),
1964  '\x84' : ('bdquo', '201E'),
1965  '\x85' : ('hellip', '2026'),
1966  '\x86' : ('dagger', '2020'),
1967  '\x87' : ('Dagger', '2021'),
1968  '\x88' : ('circ', '2C6'),
1969  '\x89' : ('permil', '2030'),
1970  '\x8A' : ('Scaron', '160'),
1971  '\x8B' : ('lsaquo', '2039'),
1972  '\x8C' : ('OElig', '152'),
1973  '\x8D' : '?',
1974  '\x8E' : ('#x17D', '17D'),
1975  '\x8F' : '?',
1976  '\x90' : '?',
1977  '\x91' : ('lsquo', '2018'),
1978  '\x92' : ('rsquo', '2019'),
1979  '\x93' : ('ldquo', '201C'),
1980  '\x94' : ('rdquo', '201D'),
1981  '\x95' : ('bull', '2022'),
1982  '\x96' : ('ndash', '2013'),
1983  '\x97' : ('mdash', '2014'),
1984  '\x98' : ('tilde', '2DC'),
1985  '\x99' : ('trade', '2122'),
1986  '\x9a' : ('scaron', '161'),
1987  '\x9b' : ('rsaquo', '203A'),
1988  '\x9c' : ('oelig', '153'),
1989  '\x9d' : '?',
1990  '\x9e' : ('#x17E', '17E'),
1991  '\x9f' : ('Yuml', ''),}
1992 
1993 #######################################################################
1994 
1995 
1996 #By default, act as an HTML pretty-printer.
1997 if __name__ == '__main__':
1998  import sys
1999  soup = BeautifulSoup(sys.stdin)
2000  print soup.prettify()
#define min(a, b)
Definition: mlp_lapack.h:161
void find(edm::Handle< EcalRecHitCollection > &hits, DetId thisDet, std::vector< EcalRecHitCollection::const_iterator > &hit, bool debug=false)
Definition: FindCaloHit.cc:7
void convert(uint32 i, char_uint32 v)
Definition: MsgTools.h:46
dictionary map
Definition: Association.py:205
bool decode(bool &, std::string const &)
Definition: types.cc:62
static std::string join(char **cmd)
Definition: RemoteFile.cc:18
std::pair< typename Association::data_type::first_type, double > match(Reference key, Association association, bool bestMatchByMaxValue)
Generic matching function.
Definition: Utils.h:6
T get(const Candidate &c)
Definition: component.h:56
How EventSelector::AcceptEvent() decides whether to accept an event for output otherwise it is excluding the probing of A single or multiple positive and the trigger will pass if any such matching triggers are PASS or EXCEPTION[A criterion thatmatches no triggers at all is detected and causes a throw.] A single negative with an expectation of appropriate bit checking in the decision and the trigger will pass if any such matching triggers are FAIL or EXCEPTION A wildcarded negative criterion that matches more than one trigger in the trigger list("!*","!HLTx*"if it matches 2 triggers or more) will accept the event if all the matching triggers are FAIL.It will reject the event if any of the triggers are PASS or EXCEPTION(this matches the behavior of"!*"before the partial wildcard feature was incorporated).Triggers which are in the READY state are completely ignored.(READY should never be returned since the trigger paths have been run
void set(const std::string &name, int value)
set the flag, with a run-time name