A Python parser for MediaWiki wikicode https://mwparserfromhell.readthedocs.io/
選択できるのは25トピックまでです。 トピックは、先頭が英数字で、英数字とダッシュ('-')を使用した35文字以内のものにしてください。
 
 
 
 

452 行
19 KiB

  1. # -*- coding: utf-8 -*-
  2. #
  3. # Copyright (C) 2012-2013 Ben Kurtovic <ben.kurtovic@verizon.net>
  4. #
  5. # Permission is hereby granted, free of charge, to any person obtaining a copy
  6. # of this software and associated documentation files (the "Software"), to deal
  7. # in the Software without restriction, including without limitation the rights
  8. # to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
  9. # copies of the Software, and to permit persons to whom the Software is
  10. # furnished to do so, subject to the following conditions:
  11. #
  12. # The above copyright notice and this permission notice shall be included in
  13. # all copies or substantial portions of the Software.
  14. #
  15. # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
  16. # IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
  17. # FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
  18. # AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
  19. # LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
  20. # OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
  21. # SOFTWARE.
  22. from __future__ import unicode_literals
  23. import re
  24. from .compat import maxsize, py3k, str
  25. from .nodes import (Argument, Comment, Heading, HTMLEntity, Node, Tag,
  26. Template, Text, Wikilink)
  27. from .string_mixin import StringMixIn
  28. from .utils import parse_anything
  29. __all__ = ["Wikicode"]
  30. FLAGS = re.IGNORECASE | re.DOTALL | re.UNICODE
  31. class Wikicode(StringMixIn):
  32. """A ``Wikicode`` is a container for nodes that operates like a string.
  33. Additionally, it contains methods that can be used to extract data from or
  34. modify the nodes, implemented in an interface similar to a list. For
  35. example, :py:meth:`index` can get the index of a node in the list, and
  36. :py:meth:`insert` can add a new node at that index. The :py:meth:`filter()
  37. <ifilter>` series of functions is very useful for extracting and iterating
  38. over, for example, all of the templates in the object.
  39. """
  40. def __init__(self, nodes):
  41. super(Wikicode, self).__init__()
  42. self._nodes = nodes
  43. def __unicode__(self):
  44. return "".join([str(node) for node in self.nodes])
  45. def _get_children(self, node):
  46. """Iterate over all descendants of a given *node*, including itself.
  47. This is implemented by the ``__iternodes__()`` generator of ``Node``
  48. classes, which by default yields itself and nothing more.
  49. """
  50. for context, child in node.__iternodes__(self._get_all_nodes):
  51. yield child
  52. def _get_context(self, node, obj):
  53. """Return a ``Wikicode`` that contains *obj* in its descendants.
  54. The closest (shortest distance from *node*) suitable ``Wikicode`` will
  55. be returned, or ``None`` if the *obj* is the *node* itself.
  56. Raises ``ValueError`` if *obj* is not within *node*.
  57. """
  58. for context, child in node.__iternodes__(self._get_all_nodes):
  59. if self._is_equivalent(obj, child):
  60. return context
  61. raise ValueError(obj)
  62. def _get_all_nodes(self, code):
  63. """Iterate over all of our descendant nodes.
  64. This is implemented by calling :py:meth:`_get_children` on every node
  65. in our node list (:py:attr:`self.nodes <nodes>`).
  66. """
  67. for node in code.nodes:
  68. for child in self._get_children(node):
  69. yield child
  70. def _is_equivalent(self, obj, node):
  71. """Return ``True`` if *obj* and *node* are equivalent, else ``False``.
  72. If *obj* is a ``Node``, the function will test whether they are the
  73. same object, otherwise it will compare them with ``==``.
  74. """
  75. return (node is obj) if isinstance(obj, Node) else (node == obj)
  76. def _contains(self, nodes, obj):
  77. """Return ``True`` if *obj* is inside of *nodes*, else ``False``.
  78. If *obj* is a ``Node``, we will only return ``True`` if *obj* is
  79. actually in the list (and not just a node that equals it). Otherwise,
  80. the test is simply ``obj in nodes``.
  81. """
  82. if isinstance(obj, Node):
  83. for node in nodes:
  84. if node is obj:
  85. return True
  86. return False
  87. return obj in nodes
  88. def _do_search(self, obj, recursive, callback, context, *args, **kwargs):
  89. """Look within *context* for *obj*, executing *callback* if found.
  90. If *recursive* is ``True``, we'll look within context and its
  91. descendants, otherwise we'll just execute callback. We raise
  92. :py:exc:`ValueError` if *obj* isn't in our node list or context. If
  93. found, *callback* is passed the context, the index of the node within
  94. the context, and whatever were passed as ``*args`` and ``**kwargs``.
  95. """
  96. if recursive:
  97. for i, node in enumerate(context.nodes):
  98. if self._is_equivalent(obj, node):
  99. return callback(context, i, *args, **kwargs)
  100. if self._contains(self._get_children(node), obj):
  101. context = self._get_context(node, obj)
  102. return self._do_search(obj, recursive, callback, context,
  103. *args, **kwargs)
  104. raise ValueError(obj)
  105. callback(context, self.index(obj, recursive=False), *args, **kwargs)
  106. def _get_tree(self, code, lines, marker, indent):
  107. """Build a tree to illustrate the way the Wikicode object was parsed.
  108. The method that builds the actual tree is ``__showtree__`` of ``Node``
  109. objects. *code* is the ``Wikicode`` object to build a tree for. *lines*
  110. is the list to append the tree to, which is returned at the end of the
  111. method. *marker* is some object to be used to indicate that the builder
  112. should continue on from the last line instead of starting a new one; it
  113. should be any object that can be tested for with ``is``. *indent* is
  114. the starting indentation.
  115. """
  116. def write(*args):
  117. """Write a new line following the proper indentation rules."""
  118. if lines and lines[-1] is marker: # Continue from the last line
  119. lines.pop() # Remove the marker
  120. last = lines.pop()
  121. lines.append(last + " ".join(args))
  122. else:
  123. lines.append(" " * 6 * indent + " ".join(args))
  124. get = lambda code: self._get_tree(code, lines, marker, indent + 1)
  125. mark = lambda: lines.append(marker)
  126. for node in code.nodes:
  127. node.__showtree__(write, get, mark)
  128. return lines
  129. @classmethod
  130. def _build_filter_methods(cls, **meths):
  131. """Given Node types, build the corresponding i?filter shortcuts.
  132. The should be given as keys storing the method's base name paired
  133. with values storing the corresponding :py:class:`~.Node` type. For
  134. example, the dict may contain the pair ``("templates", Template)``,
  135. which will produce the methods :py:meth:`ifilter_templates` and
  136. :py:meth:`filter_templates`, which are shortcuts for
  137. :py:meth:`ifilter(forcetype=Template) <ifilter>` and
  138. :py:meth:`filter(forcetype=Template) <filter>`, respectively. These
  139. shortcuts are added to the class itself, with an appropriate docstring.
  140. """
  141. doc = """Iterate over {0}.
  142. This is equivalent to :py:meth:`{1}` with *forcetype* set to
  143. :py:class:`~.{2}`.
  144. """
  145. make_ifilter = lambda ftype: (lambda self, **kw:
  146. self.ifilter(forcetype=ftype, **kw))
  147. make_filter = lambda ftype: (lambda self, **kw:
  148. self.filter(forcetype=ftype, **kw))
  149. for name, ftype in (meths.items() if py3k else meths.iteritems()):
  150. ifilter = make_ifilter(ftype)
  151. filter = make_filter(ftype)
  152. ifilter.__doc__ = doc.format(name, "ifilter", ftype.__name__)
  153. filter.__doc__ = doc.format(name, "filter", ftype.__name__)
  154. setattr(cls, "ifilter_" + name, ifilter)
  155. setattr(cls, "filter_" + name, filter)
  156. @property
  157. def nodes(self):
  158. """A list of :py:class:`~.Node` objects.
  159. This is the internal data actually stored within a
  160. :py:class:`~.Wikicode` object.
  161. """
  162. return self._nodes
  163. @nodes.setter
  164. def nodes(self, value):
  165. if not isinstance(value, list):
  166. value = parse_anything(value).nodes
  167. self._nodes = value
  168. def get(self, index):
  169. """Return the *index*\ th node within the list of nodes."""
  170. return self.nodes[index]
  171. def set(self, index, value):
  172. """Set the ``Node`` at *index* to *value*.
  173. Raises :py:exc:`IndexError` if *index* is out of range, or
  174. :py:exc:`ValueError` if *value* cannot be coerced into one
  175. :py:class:`~.Node`. To insert multiple nodes at an index, use
  176. :py:meth:`get` with either :py:meth:`remove` and :py:meth:`insert` or
  177. :py:meth:`replace`.
  178. """
  179. nodes = parse_anything(value).nodes
  180. if len(nodes) > 1:
  181. raise ValueError("Cannot coerce multiple nodes into one index")
  182. if index >= len(self.nodes) or -1 * index > len(self.nodes):
  183. raise IndexError("List assignment index out of range")
  184. if nodes:
  185. self.nodes[index] = nodes[0]
  186. else:
  187. self.nodes.pop(index)
  188. def index(self, obj, recursive=False):
  189. """Return the index of *obj* in the list of nodes.
  190. Raises :py:exc:`ValueError` if *obj* is not found. If *recursive* is
  191. ``True``, we will look in all nodes of ours and their descendants, and
  192. return the index of our direct descendant node within *our* list of
  193. nodes. Otherwise, the lookup is done only on direct descendants.
  194. """
  195. if recursive:
  196. for i, node in enumerate(self.nodes):
  197. if self._contains(self._get_children(node), obj):
  198. return i
  199. raise ValueError(obj)
  200. for i, node in enumerate(self.nodes):
  201. if self._is_equivalent(obj, node):
  202. return i
  203. raise ValueError(obj)
  204. def insert(self, index, value):
  205. """Insert *value* at *index* in the list of nodes.
  206. *value* can be anything parasable by :py:func:`.parse_anything`, which
  207. includes strings or other :py:class:`~.Wikicode` or :py:class:`~.Node`
  208. objects.
  209. """
  210. nodes = parse_anything(value).nodes
  211. for node in reversed(nodes):
  212. self.nodes.insert(index, node)
  213. def insert_before(self, obj, value, recursive=True):
  214. """Insert *value* immediately before *obj* in the list of nodes.
  215. *obj* can be either a string or a :py:class:`~.Node`. *value* can be
  216. anything parasable by :py:func:`.parse_anything`. If *recursive* is
  217. ``True``, we will try to find *obj* within our child nodes even if it
  218. is not a direct descendant of this :py:class:`~.Wikicode` object. If
  219. *obj* is not in the node list, :py:exc:`ValueError` is raised.
  220. """
  221. callback = lambda self, i, value: self.insert(i, value)
  222. self._do_search(obj, recursive, callback, self, value)
  223. def insert_after(self, obj, value, recursive=True):
  224. """Insert *value* immediately after *obj* in the list of nodes.
  225. *obj* can be either a string or a :py:class:`~.Node`. *value* can be
  226. anything parasable by :py:func:`.parse_anything`. If *recursive* is
  227. ``True``, we will try to find *obj* within our child nodes even if it
  228. is not a direct descendant of this :py:class:`~.Wikicode` object. If
  229. *obj* is not in the node list, :py:exc:`ValueError` is raised.
  230. """
  231. callback = lambda self, i, value: self.insert(i + 1, value)
  232. self._do_search(obj, recursive, callback, self, value)
  233. def replace(self, obj, value, recursive=True):
  234. """Replace *obj* with *value* in the list of nodes.
  235. *obj* can be either a string or a :py:class:`~.Node`. *value* can be
  236. anything parasable by :py:func:`.parse_anything`. If *recursive* is
  237. ``True``, we will try to find *obj* within our child nodes even if it
  238. is not a direct descendant of this :py:class:`~.Wikicode` object. If
  239. *obj* is not in the node list, :py:exc:`ValueError` is raised.
  240. """
  241. def callback(self, i, value):
  242. self.nodes.pop(i)
  243. self.insert(i, value)
  244. self._do_search(obj, recursive, callback, self, value)
  245. def append(self, value):
  246. """Insert *value* at the end of the list of nodes.
  247. *value* can be anything parasable by :py:func:`.parse_anything`.
  248. """
  249. nodes = parse_anything(value).nodes
  250. for node in nodes:
  251. self.nodes.append(node)
  252. def remove(self, obj, recursive=True):
  253. """Remove *obj* from the list of nodes.
  254. *obj* can be either a string or a :py:class:`~.Node`. If *recursive* is
  255. ``True``, we will try to find *obj* within our child nodes even if it
  256. is not a direct descendant of this :py:class:`~.Wikicode` object. If
  257. *obj* is not in the node list, :py:exc:`ValueError` is raised.
  258. """
  259. callback = lambda self, i: self.nodes.pop(i)
  260. self._do_search(obj, recursive, callback, self)
  261. def ifilter(self, recursive=False, matches=None, flags=FLAGS,
  262. forcetype=None):
  263. """Iterate over nodes in our list matching certain conditions.
  264. If *recursive* is ``True``, we will iterate over our children and all
  265. descendants of our children, otherwise just our immediate children. If
  266. *matches* is given, we will only yield the nodes that match the given
  267. regular expression (with :py:func:`re.search`). The default flags used
  268. are :py:const:`re.IGNORECASE`, :py:const:`re.DOTALL`, and
  269. :py:const:`re.UNICODE`, but custom flags can be specified by passing
  270. *flags*. If *forcetype* is given, only nodes that are instances of this
  271. type are yielded.
  272. """
  273. for node in (self._get_all_nodes(self) if recursive else self.nodes):
  274. if not forcetype or isinstance(node, forcetype):
  275. if not matches or re.search(matches, str(node), flags):
  276. yield node
  277. def filter(self, recursive=False, matches=None, flags=FLAGS,
  278. forcetype=None):
  279. """Return a list of nodes within our list matching certain conditions.
  280. This is equivalent to calling :py:func:`list` on :py:meth:`ifilter`.
  281. """
  282. return list(self.ifilter(recursive, matches, flags, forcetype))
  283. def get_sections(self, levels=None, matches=None, flags=FLAGS,
  284. include_lead=None, include_headings=True):
  285. """Return a list of sections within the page.
  286. Sections are returned as :py:class:`~.Wikicode` objects with a shared
  287. node list (implemented using :py:class:`~.SmartList`) so that changes
  288. to sections are reflected in the parent Wikicode object.
  289. Each section contains all of its subsections. If *levels* is given, it
  290. should be a iterable of integers; only sections whose heading levels
  291. are within it will be returned.If *matches* is given, it should be a
  292. regex to be matched against the titles of section headings; only
  293. sections whose headings match the regex will be included. *flags* can
  294. be used to override the default regex flags (see :py:meth:`ifilter`) if
  295. *matches* is used.
  296. If *include_lead* is ``True``, the first, lead section (without a
  297. heading) will be included in the list; ``False`` will not include it;
  298. the default will include it only if no specific *levels* were given. If
  299. *include_headings* is ``True``, the section's beginning
  300. :py:class:`~.Heading` object will be included; otherwise, this is
  301. skipped.
  302. """
  303. if matches:
  304. matches = r"^(=+?)\s*" + matches + r"\s*\1$"
  305. headings = self.filter_headings(recursive=True)
  306. filtered = self.filter_headings(recursive=True, matches=matches,
  307. flags=flags)
  308. if levels:
  309. filtered = [head for head in filtered if head.level in levels]
  310. if matches or include_lead is False or (not include_lead and levels):
  311. buffers = []
  312. else:
  313. buffers = [(maxsize, 0)]
  314. sections = []
  315. i = 0
  316. while i < len(self.nodes):
  317. if self.nodes[i] in headings:
  318. this = self.nodes[i].level
  319. for (level, start) in buffers:
  320. if this <= level:
  321. sections.append(Wikicode(self.nodes[start:i]))
  322. buffers = [buf for buf in buffers if buf[0] < this]
  323. if self.nodes[i] in filtered:
  324. if not include_headings:
  325. i += 1
  326. if i >= len(self.nodes):
  327. break
  328. buffers.append((this, i))
  329. i += 1
  330. for (level, start) in buffers:
  331. if start != i:
  332. sections.append(Wikicode(self.nodes[start:i]))
  333. return sections
  334. def strip_code(self, normalize=True, collapse=True):
  335. """Return a rendered string without unprintable code such as templates.
  336. The way a node is stripped is handled by the
  337. :py:meth:`~.Node.__showtree__` method of :py:class:`~.Node` objects,
  338. which generally return a subset of their nodes or ``None``. For
  339. example, templates and tags are removed completely, links are stripped
  340. to just their display part, headings are stripped to just their title.
  341. If *normalize* is ``True``, various things may be done to strip code
  342. further, such as converting HTML entities like ``&Sigma;``, ``&#931;``,
  343. and ``&#x3a3;`` to ``Σ``. If *collapse* is ``True``, we will try to
  344. remove excess whitespace as well (three or more newlines are converted
  345. to two, for example).
  346. """
  347. nodes = []
  348. for node in self.nodes:
  349. stripped = node.__strip__(normalize, collapse)
  350. if stripped:
  351. nodes.append(str(stripped))
  352. if collapse:
  353. stripped = "".join(nodes).strip("\n")
  354. while "\n\n\n" in stripped:
  355. stripped = stripped.replace("\n\n\n", "\n\n")
  356. return stripped
  357. else:
  358. return "".join(nodes)
  359. def get_tree(self):
  360. """Return a hierarchical tree representation of the object.
  361. The representation is a string makes the most sense printed. It is
  362. built by calling :py:meth:`_get_tree` on the
  363. :py:class:`~.Wikicode` object and its children recursively. The end
  364. result may look something like the following::
  365. >>> text = "Lorem ipsum {{foo|bar|{{baz}}|spam=eggs}}"
  366. >>> print mwparserfromhell.parse(text).get_tree()
  367. Lorem ipsum
  368. {{
  369. foo
  370. | 1
  371. = bar
  372. | 2
  373. = {{
  374. baz
  375. }}
  376. | spam
  377. = eggs
  378. }}
  379. """
  380. marker = object() # Random object we can find with certainty in a list
  381. return "\n".join(self._get_tree(self, [], marker, 0))
  382. Wikicode._build_filter_methods(
  383. arguments=Argument, comments=Comment, headings=Heading,
  384. html_entities=HTMLEntity, tags=Tag, templates=Template, text=Text,
  385. wikilinks=Wikilink)