#!/usr/bin/env python
# -*- coding: utf-8 -*-
# =============================================================================
# Version: 2.50 (February 15, 2016)
# Author: Giuseppe Attardi (attardi@di.unipi.it), University of Pisa
#
# Contributors:
# Antonio Fuschetto (fuschett@aol.com)
# Leonardo Souza (lsouza@amtera.com.br)
# Juan Manuel Caicedo (juan@cavorite.com)
# Humberto Pereira (begini@gmail.com)
# Siegfried-A. Gevatter (siegfried@gevatter.com)
# Pedro Assis (pedroh2306@gmail.com)
# Wim Muskee (wimmuskee@gmail.com)
# Radics Geza (radicsge@gmail.com)
#
# =============================================================================
# Copyright (c) 2011-2016. Giuseppe Attardi (attardi@di.unipi.it).
# =============================================================================
# This file is part of Tanl.
#
# Tanl is free software; you can redistribute it and/or modify it
# under the terms of the GNU General Public License, version 3,
# as published by the Free Software Foundation.
#
# Tanl is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see .
# =============================================================================
"""Wikipedia Extractor:
Extracts and cleans text from a Wikipedia database dump and stores output in a
number of files of similar size in a given directory.
Each file will contain several documents in the format:
...
This version performs template expansion by preprocesssng the whole dump and
collecting template definitions.
"""
import sys
import argparse
import bz2
import codecs
import cgi
import fileinput
import logging
import os.path
import re # TODO use regex when it will be standard
import time
import urllib
from cStringIO import StringIO
from htmlentitydefs import name2codepoint
from itertools import izip, izip_longest
from multiprocessing import Queue, Process, Array, Value, cpu_count
from timeit import default_timer
# ===========================================================================
# Program version
version = '2.50'
## PARAMS ####################################################################
##
# Defined in
# We include as default Template, when loading external template file.
knownNamespaces = set(['Template'])
##
# Keys for Template and Module namespaces
templateKeys = set(['10', '828'])
##
# The namespace used for template definitions
# It is the name associated with namespace key=10 in the siteinfo header.
templateNamespace = ''
templatePrefix = ''
##
# The namespace used for module definitions
# It is the name associated with namespace key=828 in the siteinfo header.
moduleNamespace = ''
##
# Recognize only these namespaces
# w: Internal links to the Wikipedia
# wiktionary: Wiki dictionary
# wikt: shortcut for Wiktionary
#
acceptedNamespaces = ['w', 'wiktionary', 'wikt']
##
# Drop these elements from article text
#
discardElements = [
'gallery', 'timeline', 'noinclude', 'pre',
'table', 'tr', 'td', 'th', 'caption', 'div',
'form', 'input', 'select', 'option', 'textarea',
'ul', 'li', 'ol', 'dl', 'dt', 'dd', 'menu', 'dir',
'ref', 'references', 'img', 'imagemap', 'source', 'small',
'sub', 'sup'
]
# This is obtained from
urlbase = ''
def get_url(uid):
return "%s?curid=%s" % (urlbase, uid)
# =========================================================================
#
# MediaWiki Markup Grammar
# https://www.mediawiki.org/wiki/Preprocessor_ABNF
# xml-char = %x9 / %xA / %xD / %x20-D7FF / %xE000-FFFD / %x10000-10FFFF
# sptab = SP / HTAB
# ; everything except ">" (%x3E)
# attr-char = %x9 / %xA / %xD / %x20-3D / %x3F-D7FF / %xE000-FFFD / %x10000-10FFFF
# literal = *xml-char
# title = wikitext-L3
# part-name = wikitext-L3
# part-value = wikitext-L3
# part = ( part-name "=" part-value ) / ( part-value )
# parts = [ title *( "|" part ) ]
# tplarg = "{{{" parts "}}}"
# template = "{{" parts "}}"
# link = "[[" wikitext-L3 "]]"
# comment = ""
# unclosed-comment = "', re.DOTALL)
# Match ignored tags
ignored_tag_patterns = []
def ignoreTag(tag):
left = re.compile(r'<%s\b.*?>' % tag, re.IGNORECASE | re.DOTALL) # both [ and
right = re.compile(r'\s*%s>' % tag, re.IGNORECASE)
ignored_tag_patterns.append((left, right))
for tag in ignoredTags:
ignoreTag(tag)
# Match selfClosing HTML tags
selfClosing_tag_patterns = [
re.compile(r'<\s*%s\b[^>]*/\s*>' % tag, re.DOTALL | re.IGNORECASE) for tag in selfClosingTags
]
# Match HTML placeholder tags
placeholder_tag_patterns = [
(re.compile(r'<\s*%s(\s*| [^>]+?)>.*?<\s*/\s*%s\s*>' % (tag, tag), re.DOTALL | re.IGNORECASE),
repl) for tag, repl in placeholder_tags.items()
]
# Match preformatted lines
preformatted = re.compile(r'^ .*?$')
# Match external links (space separates second optional parameter)
externalLink = re.compile(r'\[\w+[^ ]*? (.*?)]')
externalLinkNoAnchor = re.compile(r'\[\w+[&\]]*\]')
# Matches bold/italic
bold_italic = re.compile(r"'''''(.*?)'''''")
bold = re.compile(r"'''(.*?)'''")
italic_quote = re.compile(r"''\"([^\"]*?)\"''")
italic = re.compile(r"''(.*?)''")
quote_quote = re.compile(r'""([^"]*?)""')
# Matches space
spaces = re.compile(r' {2,}')
# Matches dots
dots = re.compile(r'\.{4,}')
# ======================================================================
class Template(list):
"""
A Template is a list of TemplateText or TemplateArgs
"""
@classmethod
def parse(cls, body):
tpl = Template()
# we must handle nesting, s.a.
# {{{1|{{PAGENAME}}}
# {{{italics|{{{italic|}}}
# {{#if:{{{{{#if:{{{nominee|}}}|nominee|candidate}}|}}}|
#
start = 0
for s, e in findMatchingBraces(body, 3):
tpl.append(TemplateText(body[start:s]))
tpl.append(TemplateArg(body[s + 3:e - 3]))
start = e
tpl.append(TemplateText(body[start:])) # leftover
return tpl
def subst(self, params, extractor, depth=0):
# We perform parameter substitutions recursively.
# We also limit the maximum number of iterations to avoid too long or
# even endless loops (in case of malformed input).
# :see: http://meta.wikimedia.org/wiki/Help:Expansion#Distinction_between_variables.2C_parser_functions.2C_and_templates
#
# Parameter values are assigned to parameters in two (?) passes.
# Therefore a parameter name in a template can depend on the value of
# another parameter of the same template, regardless of the order in
# which they are specified in the template call, for example, using
# Template:ppp containing "{{{{{{p}}}}}}", {{ppp|p=q|q=r}} and even
# {{ppp|q=r|p=q}} gives r, but using Template:tvvv containing
# "{{{{{{{{{p}}}}}}}}}", {{tvvv|p=q|q=r|r=s}} gives s.
# logging.debug('subst tpl (%d, %d) %s', len(extractor.frame), depth, self)
if depth > extractor.maxParameterRecursionLevels:
extractor.recursion_exceeded_3_errs += 1
return ''
return ''.join([tpl.subst(params, extractor, depth) for tpl in self])
def __str__(self):
return ''.join([unicode(x) for x in self])
class TemplateText(unicode):
"""Fixed text of template"""
def subst(self, params, extractor, depth):
return self
class TemplateArg(object):
"""
parameter to a template.
Has a name and a default value, both of which are Templates.
"""
def __init__(self, parameter):
"""
:param parameter: the parts of a tplarg.
"""
# the parameter name itself might contain templates, e.g.:
# appointe{{#if:{{{appointer14|}}}|r|d}}14|
# 4|{{{{{subst|}}}CURRENTYEAR}}
# any parts in a tplarg after the first (the parameter default) are
# ignored, and an equals sign in the first part is treated as plain text.
# logging.debug('TemplateArg %s', parameter)
parts = splitParts(parameter)
self.name = Template.parse(parts[0])
if len(parts) > 1:
# This parameter has a default value
self.default = Template.parse(parts[1])
else:
self.default = None
def __str__(self):
if self.default:
return '{{{%s|%s}}}' % (self.name, self.default)
else:
return '{{{%s}}}' % self.name
def subst(self, params, extractor, depth):
"""
Substitute value for this argument from dict :param params:
Use :param extractor: to evaluate expressions for name and default.
Limit substitution to the maximun :param depth:.
"""
# the parameter name itself might contain templates, e.g.:
# appointe{{#if:{{{appointer14|}}}|r|d}}14|
paramName = self.name.subst(params, extractor, depth + 1)
paramName = extractor.expandTemplates(paramName)
res = ''
if paramName in params:
res = params[paramName] # use parameter value specified in template invocation
elif self.default: # use the default value
defaultValue = self.default.subst(params, extractor, depth + 1)
res = extractor.expandTemplates(defaultValue)
# logging.debug('subst arg %d %s -> %s' % (depth, paramName, res))
return res
# ======================================================================
substWords = 'subst:|safesubst:'
class Extractor(object):
"""
An extraction task on a article.
"""
##
# Whether to preserve links in output
keepLinks = False
##
# Whether to preserve section titles (unused)
keepSections = True
##
# Whether to preserve lists
keeplists = False
##
# Whether to output HTML instead of text
toHTML = False
##
# Whether to expand templates
expand_templates = True
def __init__(self, id, title, lines):
"""
:param id: id of page.
:param title: tutle of page.
:param lines: a list of lines.
"""
self.id = id
self.title = title
self.text = ''.join(lines)
self.magicWords = MagicWords()
self.frame = []
self.recursion_exceeded_1_errs = 0 # template recursion within expandTemplates()
self.recursion_exceeded_2_errs = 0 # template recursion within expandTemplate()
self.recursion_exceeded_3_errs = 0 # parameter recursion
self.template_title_errs = 0
def extract(self, out):
"""
:param out: a memory file.
"""
logging.debug("%s\t%s", self.id, self.title)
url = get_url(self.id)
header = '\n' % (self.id, url, self.title)
# Separate header from text with a newline.
header += self.title + '\n\n'
header = header.encode('utf-8')
self.magicWords['pagename'] = self.title
self.magicWords['fullpagename'] = self.title
self.magicWords['currentyear'] = time.strftime('%Y')
self.magicWords['currentmonth'] = time.strftime('%m')
self.magicWords['currentday'] = time.strftime('%d')
self.magicWords['currenthour'] = time.strftime('%H')
self.magicWords['currenttime'] = time.strftime('%H:%M:%S')
text = self.clean()
footer = "\n\n"
out.write(header)
for line in compact(text):
out.write(line.encode('utf-8'))
out.write('\n')
out.write(footer)
errs = (self.template_title_errs,
self.recursion_exceeded_1_errs,
self.recursion_exceeded_2_errs,
self.recursion_exceeded_3_errs)
if any(errs):
logging.warn("Template errors in article '%s' (%s): title(%d) recursion(%d, %d, %d)",
self.title, self.id, *errs)
def clean(self):
"""
Transforms wiki markup. If the command line flag --escapedoc is set then the text is also escaped
@see https://www.mediawiki.org/wiki/Help:Formatting
"""
text = self.text
self.text = '' # save memory
if Extractor.expand_templates:
# expand templates
# See: http://www.mediawiki.org/wiki/Help:Templates
text = self.expandTemplates(text)
else:
# Drop transclusions (template, parser functions)
text = dropNested(text, r'{{', r'}}')
# Drop tables
text = dropNested(text, r'{\|', r'\|}')
# replace external links
text = replaceExternalLinks(text)
# replace internal links
text = replaceInternalLinks(text)
# drop MagicWords behavioral switches
text = magicWordsRE.sub('', text)
# ############### Process HTML ###############
# turn into HTML, except for the content of
res = ''
cur = 0
for m in syntaxhighlight.finditer(text):
end = m.end()
res += unescape(text[cur:m.start()]) + m.group(1)
cur = end
text = res + unescape(text[cur:])
# Handle bold/italic/quote
if self.toHTML:
text = bold_italic.sub(r'\1', text)
text = bold.sub(r'\1', text)
text = italic.sub(r'\1', text)
else:
text = bold_italic.sub(r'\1', text)
text = bold.sub(r'\1', text)
text = italic_quote.sub(r'"\1"', text)
text = italic.sub(r'"\1"', text)
text = quote_quote.sub(r'"\1"', text)
# residuals of unbalanced quotes
text = text.replace("'''", '').replace("''", '"')
# Collect spans
spans = []
# Drop HTML comments
for m in comment.finditer(text):
spans.append((m.start(), m.end()))
# Drop self-closing tags
for pattern in selfClosing_tag_patterns:
for m in pattern.finditer(text):
spans.append((m.start(), m.end()))
# Drop ignored tags
for left, right in ignored_tag_patterns:
for m in left.finditer(text):
spans.append((m.start(), m.end()))
for m in right.finditer(text):
spans.append((m.start(), m.end()))
# Bulk remove all spans
text = dropSpans(spans, text)
# Drop discarded elements
for tag in discardElements:
text = dropNested(text, r'<\s*%s\b[^>/]*>' % tag, r'<\s*/\s*%s>' % tag)
if not self.toHTML:
# Turn into text what is left ( ) and
text = unescape(text)
# Expand placeholders
for pattern, placeholder in placeholder_tag_patterns:
index = 1
for match in pattern.finditer(text):
text = text.replace(match.group(), '%s_%d' % (placeholder, index))
index += 1
text = text.replace('<<', u'«').replace('>>', u'»')
#############################################
# Cleanup text
text = text.replace('\t', ' ')
text = spaces.sub(' ', text)
text = dots.sub('...', text)
text = re.sub(u' (,:\.\)\]»)', r'\1', text)
text = re.sub(u'(\[\(«) ', r'\1', text)
text = re.sub(r'\n\W+?\n', '\n', text, flags=re.U) # lines with only punctuations
text = text.replace(',,', ',').replace(',.', '.')
if escape_doc:
text = cgi.escape(text)
return text
# ----------------------------------------------------------------------
# Expand templates
maxTemplateRecursionLevels = 30
maxParameterRecursionLevels = 10
# check for template beginning
reOpen = re.compile('(?= self.maxTemplateRecursionLevels:
self.recursion_exceeded_1_errs += 1
return res
# logging.debug(' %d %s', len(self.frame), res)
return res
def templateParams(self, parameters):
"""
Build a dictionary with positional or name key to expanded parameters.
:param parameters: the parts[1:] of a template, i.e. all except the title.
"""
templateParams = {}
if not parameters:
return templateParams
logging.debug('
# Parameters may span several lines, like:
# {{Reflist|colwidth=30em|refs=
# <ref name="Goode">Title</ref>
# The '=' might occurr within an HTML attribute:
# "<ref name=value"
# but we stop at first.
m = re.match(' *([^= ]*?) *=(.*)', param, re.DOTALL)
if m:
# This is a named parameter. This case also handles parameter
# assignments like "2=xxx", where the number of an unnamed
# parameter ("2") is specified explicitly - this is handled
# transparently.
parameterName = m.group(1).strip()
parameterValue = m.group(2)
if ']]' not in parameterValue: # if the value does not contain a link, trim whitespace
parameterValue = parameterValue.strip()
templateParams[parameterName] = parameterValue
else:
# this is an unnamed parameter
unnamedParameterCounter += 1
if ']]' not in param: # if the value does not contain a link, trim whitespace
param = param.strip()
templateParams[str(unnamedParameterCounter)] = param
logging.debug(' templateParams> %s', '|'.join(templateParams.values()))
return templateParams
def expandTemplate(self, body):
"""Expands template invocation.
:param body: the parts of a template.
:see http://meta.wikimedia.org/wiki/Help:Expansion for an explanation
of the process.
See in particular: Expansion of names and values
http://meta.wikimedia.org/wiki/Help:Expansion#Expansion_of_names_and_values
For most parser functions all names and values are expanded,
regardless of what is relevant for the result. The branching functions
(#if, #ifeq, #iferror, #ifexist, #ifexpr, #switch) are exceptions.
All names in a template call are expanded, and the titles of the
tplargs in the template body, after which it is determined which
values must be expanded, and for which tplargs in the template body
the first part (default).
In the case of a tplarg, any parts beyond the first are never
expanded. The possible name and the value of the first part is
expanded if the title does not match a name in the template call.
:see code for braceSubstitution at
https://doc.wikimedia.org/mediawiki-core/master/php/html/Parser_8php_source.html#3397:
"""
# template = "{{" parts "}}"
# Templates and tplargs are decomposed in the same way, with pipes as
# separator, even though eventually any parts in a tplarg after the first
# (the parameter default) are ignored, and an equals sign in the first
# part is treated as plain text.
# Pipes inside inner templates and tplargs, or inside double rectangular
# brackets within the template or tplargs are not taken into account in
# this decomposition.
# The first part is called title, the other parts are simply called parts.
# If a part has one or more equals signs in it, the first equals sign
# determines the division into name = value. Equals signs inside inner
# templates and tplargs, or inside double rectangular brackets within the
# part are not taken into account in this decomposition. Parts without
# equals sign are indexed 1, 2, .., given as attribute in the tag.
if len(self.frame) >= self.maxTemplateRecursionLevels:
self.recursion_exceeded_2_errs += 1
# logging.debug(' INVOCATION> %d %s', len(self.frame), body)
return ''
logging.debug('INVOCATION %d %s', len(self.frame), body)
parts = splitParts(body)
# title is the portion before the first |
logging.debug('TITLE %s', parts[0].strip())
title = self.expandTemplates(parts[0].strip())
# SUBST
# Apply the template tag to parameters without
# substituting into them, e.g.
# {{subst:t|a{{{p|q}}}b}} gives the wikitext start-a{{{p|q}}}b-end
# @see https://www.mediawiki.org/wiki/Manual:Substitution#Partial_substitution
subst = False
if re.match(substWords, title, re.IGNORECASE):
title = re.sub(substWords, '', title, 1, re.IGNORECASE)
subst = True
if title.lower() in self.magicWords.values:
return self.magicWords[title.lower()]
# Parser functions
# The first argument is everything after the first colon.
# It has been evaluated above.
colon = title.find(':')
if colon > 1:
funct = title[:colon]
parts[0] = title[colon + 1:].strip() # side-effect (parts[0] not used later)
# arguments after first are not evaluated
ret = callParserFunction(funct, parts, self.frame)
return self.expandTemplates(ret)
title = fullyQualifiedTemplateTitle(title)
if not title:
self.template_title_errs += 1
return ''
redirected = redirects.get(title)
if redirected:
title = redirected
# get the template
if title in templateCache:
template = templateCache[title]
elif title in templates:
template = Template.parse(templates[title])
# add it to cache
templateCache[title] = template
del templates[title]
else:
# The page being included could not be identified
return ''
logging.debug('TEMPLATE %s: %s', title, template)
# tplarg = "{{{" parts "}}}"
# parts = [ title *( "|" part ) ]
# part = ( part-name "=" part-value ) / ( part-value )
# part-name = wikitext-L3
# part-value = wikitext-L3
# wikitext-L3 = literal / template / tplarg / link / comment /
# line-eating-comment / unclosed-comment /
# xmlish-element / *wikitext-L3
# A tplarg may contain other parameters as well as templates, e.g.:
# {{{text|{{{quote|{{{1|{{error|Error: No text given}}}}}}}}}}}
# hence no simple RE like this would work:
# '{{{((?:(?!{{{).)*?)}}}'
# We must use full CF parsing.
# the parameter name itself might be computed, e.g.:
# {{{appointe{{#if:{{{appointer14|}}}|r|d}}14|}}}
# Because of the multiple uses of double-brace and triple-brace
# syntax, expressions can sometimes be ambiguous.
# Precedence rules specifed here:
# http://www.mediawiki.org/wiki/Preprocessor_ABNF#Ideal_precedence
# resolve ambiguities like this:
# {{{{ }}}} -> { {{{ }}} }
# {{{{{ }}}}} -> {{ {{{ }}} }}
#
# :see: https://en.wikipedia.org/wiki/Help:Template#Handling_parameters
params = parts[1:]
if not subst:
# Evaluate parameters, since they may contain templates, including
# the symbol "=".
# {{#ifexpr: {{{1}}} = 1 }}
params = [self.expandTemplates(p) for p in params]
# build a dict of name-values for the parameter values
params = self.templateParams(params)
# Perform parameter substitution
# extend frame before subst, since there may be recursion in default
# parameter value, e.g. {{OTRS|celebrative|date=April 2015}} in article
# 21637542 in enwiki.
self.frame.append((title, params))
instantiated = template.subst(params, self)
logging.debug('instantiated %d %s', len(self.frame), instantiated)
value = self.expandTemplates(instantiated)
self.frame.pop()
logging.debug(' INVOCATION> %s %d %s', title, len(self.frame), value)
return value
# ----------------------------------------------------------------------
# parameter handling
def splitParts(paramsList):
"""
:param paramsList: the parts of a template or tplarg.
Split template parameters at the separator "|".
separator "=".
Template parameters often contain URLs, internal links, text or even
template expressions, since we evaluate templates outside in.
This is required for cases like:
{{#if: {{{1}}} | {{lc:{{{1}}} | "parameter missing"}}
Parameters are separated by "|" symbols. However, we
cannot simply split the string on "|" symbols, since these
also appear inside templates and internal links, e.g.
{{if:|
|{{#if:the president|
|{{#if:|
[[Category:Hatnote templates|A{{PAGENAME}}]]
}}
}}
}}
We split parts at the "|" symbols that are not inside any pair
{{{...}}}, {{...}}, [[...]], {|...|}.
"""
# Must consider '[' as normal in expansion of Template:EMedicine2:
# #ifeq: ped|article|[http://emedicine.medscape.com/article/180-overview|[http://www.emedicine.com/ped/topic180.htm#{{#if: |section~}}
# as part of:
# {{#ifeq: ped|article|[http://emedicine.medscape.com/article/180-overview|[http://www.emedicine.com/ped/topic180.htm#{{#if: |section~}}}} ped/180{{#if: |~}}]
# should handle both tpl arg like:
# 4|{{{{{subst|}}}CURRENTYEAR}}
# and tpl parameters like:
# ||[[Category:People|{{#if:A|A|{{PAGENAME}}}}]]
sep = '|'
parameters = []
cur = 0
for s, e in findMatchingBraces(paramsList):
par = paramsList[cur:s].split(sep)
if par:
if parameters:
# portion before | belongs to previous parameter
parameters[-1] += par[0]
if len(par) > 1:
# rest are new parameters
parameters.extend(par[1:])
else:
parameters = par
elif not parameters:
parameters = [''] # create first param
# add span to last previous parameter
parameters[-1] += paramsList[s:e]
cur = e
# leftover
par = paramsList[cur:].split(sep)
if par:
if parameters:
# portion before | belongs to previous parameter
parameters[-1] += par[0]
if len(par) > 1:
# rest are new parameters
parameters.extend(par[1:])
else:
parameters = par
# logging.debug('splitParts %s %s\nparams: %s', sep, paramsList, str(parameters))
return parameters
def findMatchingBraces(text, ldelim=0):
"""
:param ldelim: number of braces to match. 0 means match [[]], {{}} and {{{}}}.
"""
# Parsing is done with respect to pairs of double braces {{..}} delimiting
# a template, and pairs of triple braces {{{..}}} delimiting a tplarg.
# If double opening braces are followed by triple closing braces or
# conversely, this is taken as delimiting a template, with one left-over
# brace outside it, taken as plain text. For any pattern of braces this
# defines a set of templates and tplargs such that any two are either
# separate or nested (not overlapping).
# Unmatched double rectangular closing brackets can be in a template or
# tplarg, but unmatched double rectangular opening brackets cannot.
# Unmatched double or triple closing braces inside a pair of
# double rectangular brackets are treated as plain text.
# Other formulation: in ambiguity between template or tplarg on one hand,
# and a link on the other hand, the structure with the rightmost opening
# takes precedence, even if this is the opening of a link without any
# closing, so not producing an actual link.
# In the case of more than three opening braces the last three are assumed
# to belong to a tplarg, unless there is no matching triple of closing
# braces, in which case the last two opening braces are are assumed to
# belong to a template.
# We must skip individual { like in:
# {{#ifeq: {{padleft:|1|}} | { | | }}
# We must resolve ambiguities like this:
# {{{{ }}}} -> { {{{ }}} }
# {{{{{ }}}}} -> {{ {{{ }}} }}
# {{#if:{{{{{#if:{{{nominee|}}}|nominee|candidate}}|}}}|...}}
# Handle:
# {{{{{|safesubst:}}}#Invoke:String|replace|{{{1|{{{{{|safesubst:}}}PAGENAME}}}}}|%s+%([^%(]-%)$||plain=false}}
# as well as expressions with stray }:
# {{{link|{{ucfirst:{{{1}}}}}} interchange}}}
if ldelim: # 2-3
reOpen = re.compile('[{]{%d,}' % ldelim) # at least ldelim
reNext = re.compile('[{]{2,}|}{2,}') # at least 2
else:
reOpen = re.compile('{{2,}|\[{2,}')
reNext = re.compile('{{2,}|}{2,}|\[{2,}|]{2,}') # at least 2
cur = 0
while True:
m1 = reOpen.search(text, cur)
if not m1:
return
lmatch = m1.end() - m1.start()
if m1.group()[0] == '{':
stack = [lmatch] # stack of opening braces lengths
else:
stack = [-lmatch] # negative means [
end = m1.end()
while True:
m2 = reNext.search(text, end)
if not m2:
return # unbalanced
end = m2.end()
brac = m2.group()[0]
lmatch = m2.end() - m2.start()
if brac == '{':
stack.append(lmatch)
elif brac == '}':
while stack:
openCount = stack.pop() # opening span
if openCount == 0: # illegal unmatched [[
continue
if lmatch >= openCount:
lmatch -= openCount
if lmatch <= 1: # either close or stray }
break
else:
# put back unmatched
stack.append(openCount - lmatch)
break
if not stack:
yield m1.start(), end - lmatch
cur = end
break
elif len(stack) == 1 and 0 < stack[0] < ldelim:
# ambiguous {{{{{ }}} }}
yield m1.start() + stack[0], end
cur = end
break
elif brac == '[': # [[
stack.append(-lmatch)
else: # ]]
while stack and stack[-1] < 0: # matching [[
openCount = -stack.pop()
if lmatch >= openCount:
lmatch -= openCount
if lmatch <= 1: # either close or stray ]
break
else:
# put back unmatched (negative)
stack.append(lmatch - openCount)
break
if not stack:
yield m1.start(), end - lmatch
cur = end
break
# unmatched ]] are discarded
cur = end
def findBalanced(text, openDelim, closeDelim):
"""
Assuming that text contains a properly balanced expression using
:param openDelim: as opening delimiters and
:param closeDelim: as closing delimiters.
:return: an iterator producing pairs (start, end) of start and end
positions in text containing a balanced expression.
"""
openPat = '|'.join([re.escape(x) for x in openDelim])
# pattern for delimiters expected after each opening delimiter
afterPat = {o: re.compile(openPat + '|' + c, re.DOTALL) for o, c in izip(openDelim, closeDelim)}
stack = []
start = 0
cur = 0
# end = len(text)
startSet = False
startPat = re.compile(openPat)
nextPat = startPat
while True:
next = nextPat.search(text, cur)
if not next:
return
if not startSet:
start = next.start()
startSet = True
delim = next.group(0)
if delim in openDelim:
stack.append(delim)
nextPat = afterPat[delim]
else:
opening = stack.pop()
# assert opening == openDelim[closeDelim.index(next.group(0))]
if stack:
nextPat = afterPat[stack[-1]]
else:
yield start, next.end()
nextPat = startPat
start = next.end()
startSet = False
cur = next.end()
# ----------------------------------------------------------------------
# Modules
# Only minimal support
# FIXME: import Lua modules.
def if_empty(*rest):
"""
This implements If_empty from English Wikipedia module:
Module:If empty
828
local p = {}
function p.main(frame)
local args = require('Module:Arguments').getArgs(frame, {wrappers = 'Template:If empty', removeBlanks = false})
-- For backwards compatibility reasons, the first 8 parameters can be unset instead of being blank,
-- even though there's really no legitimate use case for this. At some point, this will be removed.
local lowestNil = math.huge
for i = 8,1,-1 do
if args[i] == nil then
args[i] = ''
lowestNil = i
end
end
for k,v in ipairs(args) do
if v ~= '' then
if lowestNil < k then
-- If any uses of this template depend on the behavior above, add them to a tracking category.
-- This is a rather fragile, convoluted, hacky way to do it, but it ensures that this module's output won't be modified
-- by it.
frame:extensionTag('ref', '[[Category:Instances of Template:If_empty missing arguments]]', {group = 'TrackingCategory'})
frame:extensionTag('references', '', {group = 'TrackingCategory'})
end
return v
end
end
end
return p
"""
for arg in rest:
if arg:
return arg
return ''
modules = {
'convert': {
'convert': lambda x, u, *rest: x + ' ' + u, # no conversion
},
'If empty': {
'main': if_empty
}
}
# ----------------------------------------------------------------------
# variables
class MagicWords(object):
"""
One copy in each Extractor.
@see https://doc.wikimedia.org/mediawiki-core/master/php/MagicWord_8php_source.html
"""
names = [
'!',
'currentmonth',
'currentmonth1',
'currentmonthname',
'currentmonthnamegen',
'currentmonthabbrev',
'currentday',
'currentday2',
'currentdayname',
'currentyear',
'currenttime',
'currenthour',
'localmonth',
'localmonth1',
'localmonthname',
'localmonthnamegen',
'localmonthabbrev',
'localday',
'localday2',
'localdayname',
'localyear',
'localtime',
'localhour',
'numberofarticles',
'numberoffiles',
'numberofedits',
'articlepath',
'pageid',
'sitename',
'server',
'servername',
'scriptpath',
'stylepath',
'pagename',
'pagenamee',
'fullpagename',
'fullpagenamee',
'namespace',
'namespacee',
'namespacenumber',
'currentweek',
'currentdow',
'localweek',
'localdow',
'revisionid',
'revisionday',
'revisionday2',
'revisionmonth',
'revisionmonth1',
'revisionyear',
'revisiontimestamp',
'revisionuser',
'revisionsize',
'subpagename',
'subpagenamee',
'talkspace',
'talkspacee',
'subjectspace',
'subjectspacee',
'talkpagename',
'talkpagenamee',
'subjectpagename',
'subjectpagenamee',
'numberofusers',
'numberofactiveusers',
'numberofpages',
'currentversion',
'rootpagename',
'rootpagenamee',
'basepagename',
'basepagenamee',
'currenttimestamp',
'localtimestamp',
'directionmark',
'contentlanguage',
'numberofadmins',
'cascadingsources',
]
def __init__(self):
self.values = {'!': '|'}
def __getitem__(self, name):
return self.values.get(name)
def __setitem__(self, name, value):
self.values[name] = value
switches = (
'__NOTOC__',
'__FORCETOC__',
'__TOC__',
'__TOC__',
'__NEWSECTIONLINK__',
'__NONEWSECTIONLINK__',
'__NOGALLERY__',
'__HIDDENCAT__',
'__NOCONTENTCONVERT__',
'__NOCC__',
'__NOTITLECONVERT__',
'__NOTC__',
'__START__',
'__END__',
'__INDEX__',
'__NOINDEX__',
'__STATICREDIRECT__',
'__DISAMBIG__'
)
magicWordsRE = re.compile('|'.join(MagicWords.switches))
# ----------------------------------------------------------------------
# parser functions utilities
def ucfirst(string):
""":return: a string with just its first character uppercase
We can't use title() since it coverts all words.
"""
if string:
if len(string) > 1:
return string[0].upper() + string[1:]
else:
return string.upper()
else:
return ''
def lcfirst(string):
""":return: a string with its first character lowercase"""
if string:
if len(string) > 1:
return string[0].lower() + string[1:]
else:
return string.lower()
else:
return ''
def fullyQualifiedTemplateTitle(templateTitle):
"""
Determine the namespace of the page being included through the template
mechanism
"""
if templateTitle.startswith(':'):
# Leading colon by itself implies main namespace, so strip this colon
return ucfirst(templateTitle[1:])
else:
m = re.match('([^:]*)(:.*)', templateTitle)
if m:
# colon found but not in the first position - check if it
# designates a known namespace
prefix = normalizeNamespace(m.group(1))
if prefix in knownNamespaces:
return prefix + ucfirst(m.group(2))
# The title of the page being included is NOT in the main namespace and
# lacks any other explicit designation of the namespace - therefore, it
# is resolved to the Template namespace (that's the default for the
# template inclusion mechanism).
# This is a defense against pages whose title only contains UTF-8 chars
# that are reduced to an empty string. Right now I can think of one such
# case - which represents the non-breaking space.
# In this particular case, this page is a redirect to [[Non-nreaking
# space]], but having in the system a redirect page with an empty title
# causes numerous problems, so we'll live happier without it.
if templateTitle:
return templatePrefix + ucfirst(templateTitle)
else:
return '' # caller may log as error
def normalizeNamespace(ns):
return ucfirst(ns)
# ----------------------------------------------------------------------
# Parser functions
# see http://www.mediawiki.org/wiki/Help:Extension:ParserFunctions
# https://github.com/Wikia/app/blob/dev/extensions/ParserFunctions/ParserFunctions_body.php
class Infix:
"""Infix operators.
The calling sequence for the infix is:
x |op| y
"""
def __init__(self, function):
self.function = function
def __ror__(self, other):
return Infix(lambda x, self=self, other=other: self.function(other, x))
def __or__(self, other):
return self.function(other)
def __rlshift__(self, other):
return Infix(lambda x, self=self, other=other: self.function(other, x))
def __rshift__(self, other):
return self.function(other)
def __call__(self, value1, value2):
return self.function(value1, value2)
ROUND = Infix(lambda x, y: round(x, y))
def sharp_expr(expr):
try:
expr = re.sub('=', '==', expr)
expr = re.sub('mod', '%', expr)
expr = re.sub('\bdiv\b', '/', expr)
expr = re.sub('\bround\b', '|ROUND|', expr)
return unicode(eval(expr))
except:
return ''
def sharp_if(testValue, valueIfTrue, valueIfFalse=None, *args):
# In theory, we should evaluate the first argument here,
# but it was evaluated while evaluating part[0] in expandTemplate().
if testValue.strip():
# The {{#if:}} function is an if-then-else construct.
# The applied condition is: "The condition string is non-empty".
valueIfTrue = valueIfTrue.strip()
if valueIfTrue:
return valueIfTrue
elif valueIfFalse:
return valueIfFalse.strip()
return ""
def sharp_ifeq(lvalue, rvalue, valueIfTrue, valueIfFalse=None, *args):
rvalue = rvalue.strip()
if rvalue:
# lvalue is always defined
if lvalue.strip() == rvalue:
# The {{#ifeq:}} function is an if-then-else construct. The
# applied condition is "is rvalue equal to lvalue". Note that this
# does only string comparison while MediaWiki implementation also
# supports numerical comparissons.
if valueIfTrue:
return valueIfTrue.strip()
else:
if valueIfFalse:
return valueIfFalse.strip()
return ""
def sharp_iferror(test, then='', Else=None, *args):
if re.match('<(?:strong|span|p|div)\s(?:[^\s>]*\s+)*?class="(?:[^"\s>]*\s+)*?error(?:\s[^">]*)?"', test):
return then
elif Else is None:
return test.strip()
else:
return Else.strip()
def sharp_switch(primary, *params):
# FIXME: we don't support numeric expressions in primary
# {{#switch: comparison string
# | case1 = result1
# | case2
# | case4 = result2
# | 1 | case5 = result3
# | #default = result4
# }}
primary = primary.strip()
found = False # for fall through cases
default = None
rvalue = None
lvalue = ''
for param in params:
# handle cases like:
# #default = [http://www.perseus.tufts.edu/hopper/text?doc=Perseus...]
pair = param.split('=', 1)
lvalue = pair[0].strip()
rvalue = None
if len(pair) > 1:
# got "="
rvalue = pair[1].strip()
# check for any of multiple values pipe separated
if found or primary in [v.strip() for v in lvalue.split('|')]:
# Found a match, return now
return rvalue
elif lvalue == '#default':
default = rvalue
rvalue = None # avoid defaulting to last case
elif lvalue == primary:
# If the value matches, set a flag and continue
found = True
# Default case
# Check if the last item had no = sign, thus specifying the default case
if rvalue is not None:
return lvalue
elif default is not None:
return default
return ''
# Extension Scribuntu
def sharp_invoke(module, function, frame):
functions = modules.get(module)
if functions:
funct = functions.get(function)
if funct:
# find parameters in frame whose title is the one of the original
# template invocation
templateTitle = fullyQualifiedTemplateTitle(module)
if not templateTitle:
logging.warn("Template with empty title")
pair = next((x for x in frame if x[0] == templateTitle), None)
if pair:
params = pair[1]
# extract positional args
params = [params.get(str(i + 1)) for i in range(len(params))]
return funct(*params)
else:
return funct()
return ''
parserFunctions = {
'#expr': sharp_expr,
'#if': sharp_if,
'#ifeq': sharp_ifeq,
'#iferror': sharp_iferror,
'#ifexpr': lambda *args: '', # not supported
'#ifexist': lambda *args: '', # not supported
'#rel2abs': lambda *args: '', # not supported
'#switch': sharp_switch,
'# language': lambda *args: '', # not supported
'#time': lambda *args: '', # not supported
'#timel': lambda *args: '', # not supported
'#titleparts': lambda *args: '', # not supported
# This function is used in some pages to construct links
# http://meta.wikimedia.org/wiki/Help:URL
'urlencode': lambda string, *rest: urllib.quote(string.encode('utf-8')),
'lc': lambda string, *rest: string.lower() if string else '',
'lcfirst': lambda string, *rest: lcfirst(string),
'uc': lambda string, *rest: string.upper() if string else '',
'ucfirst': lambda string, *rest: ucfirst(string),
'int': lambda string, *rest: str(int(string)),
}
def callParserFunction(functionName, args, frame):
"""
Parser functions have similar syntax as templates, except that
the first argument is everything after the first colon.
:return: the result of the invocation, None in case of failure.
http://meta.wikimedia.org/wiki/Help:ParserFunctions
"""
try:
if functionName == '#invoke':
# special handling of frame
arg0, arg1 = args[0].strip(), args[1].strip()
ret = sharp_invoke(arg0, arg1, frame)
# logging.debug('#invoke> %s %s %s', arg0, arg1, ret)
return ret
if functionName in parserFunctions:
ret = parserFunctions[functionName](*args)
# logging.debug('parserFunction> %s %s', functionName, ret)
return ret
except:
return "" # FIXME: fix errors
return ""
# ----------------------------------------------------------------------
# Expand using WikiMedia API
# import json
# def expandTemplates(text):
# """Expand templates invoking MediaWiki API"""
# text = urlib.urlencodew(text.encode('utf-8'))
# base = urlbase[:urlbase.rfind('/')]
# url = base + "/w/api.php?action=expandtemplates&format=json&text=" + text
# exp = json.loads(urllib.urlopen(url))
# return exp['expandtemplates']['*']
# ----------------------------------------------------------------------
# Extract Template definition
reNoinclude = re.compile(r'(?:.*?)', re.DOTALL)
reIncludeonly = re.compile(r'|', re.DOTALL)
# These are built before spawning processes, hence thay are shared.
templates = {}
redirects = {}
# cache of parser templates
# FIXME: sharing this with a Manager slows down.
templateCache = {}
def define_template(title, page):
"""
Adds a template defined in the :param page:.
@see https://en.wikipedia.org/wiki/Help:Template#Noinclude.2C_includeonly.2C_and_onlyinclude
"""
global templates
global redirects
# title = normalizeTitle(title)
# check for redirects
m = re.match('#REDIRECT.*?\[\[([^\]]*)]]', page[0], re.IGNORECASE)
if m:
redirects[title] = m.group(1) # normalizeTitle(m.group(1))
return
text = unescape(''.join(page))
# We're storing template text for future inclusion, therefore,
# remove all text and keep all text
# (but eliminate tags per se).
# However, if ... parts are present,
# then only keep them and discard the rest of the template body.
# This is because using on a text fragment is
# equivalent to enclosing it in tags **AND**
# enclosing all the rest of the template body in tags.
# remove comments
text = comment.sub('', text)
# eliminate fragments
text = reNoinclude.sub('', text)
# eliminate unterminated elements
text = re.sub(r'.*$', '', text, flags=re.DOTALL)
text = re.sub(r'', '', text)
onlyincludeAccumulator = ''
for m in re.finditer('(.*?)', text, re.DOTALL):
onlyincludeAccumulator += m.group(1)
if onlyincludeAccumulator:
text = onlyincludeAccumulator
else:
text = reIncludeonly.sub('', text)
if text:
if title in templates:
logging.warn('Redefining: %s', title)
templates[title] = text
# ----------------------------------------------------------------------
def dropNested(text, openDelim, closeDelim):
"""
A matching function for nested expressions, e.g. namespaces and tables.
"""
openRE = re.compile(openDelim, re.IGNORECASE)
closeRE = re.compile(closeDelim, re.IGNORECASE)
# partition text in separate blocks { } { }
spans = [] # pairs (s, e) for each partition
nest = 0 # nesting level
start = openRE.search(text, 0)
if not start:
return text
end = closeRE.search(text, start.end())
next = start
while end:
next = openRE.search(text, next.end())
if not next: # termination
while nest: # close all pending
nest -= 1
end0 = closeRE.search(text, end.end())
if end0:
end = end0
else:
break
spans.append((start.start(), end.end()))
break
while end.end() < next.start():
# { } {
if nest:
nest -= 1
# try closing more
last = end.end()
end = closeRE.search(text, end.end())
if not end: # unbalanced
if spans:
span = (spans[0][0], last)
else:
span = (start.start(), last)
spans = [span]
break
else:
spans.append((start.start(), end.end()))
# advance start, find next close
start = next
end = closeRE.search(text, next.end())
break # { }
if next != start:
# { { }
nest += 1
# collect text outside partitions
return dropSpans(spans, text)
def dropSpans(spans, text):
"""
Drop from text the blocks identified in :param spans:, possibly nested.
"""
spans.sort()
res = ''
offset = 0
for s, e in spans:
if offset <= s: # handle nesting
if offset < s:
res += text[offset:s]
offset = e
res += text[offset:]
return res
# ----------------------------------------------------------------------
# WikiLinks
# May be nested [[File:..|..[[..]]..|..]], [[Category:...]], etc.
# Also: [[Help:IPA for Catalan|[andora]]]
def replaceInternalLinks(text):
"""
Replaces internal links of the form:
[[title |...|label]]trail
with title concatenated with trail, when present, e.g. 's' for plural.
See https://www.mediawiki.org/wiki/Help:Links#Internal_links
"""
# call this after removal of external links, so we need not worry about
# triple closing ]]].
cur = 0
res = ''
for s, e in findBalanced(text, ('[['), (']]')):
m = tailRE.match(text, e)
if m:
trail = m.group(0)
end = m.end()
else:
trail = ''
end = e
inner = text[s + 2:e - 2]
# find first |
pipe = inner.find('|')
if pipe < 0:
title = inner
label = title
else:
title = inner[:pipe].rstrip()
# find last |
curp = pipe + 1
for s1, e1 in findBalanced(inner, ('[['), (']]')):
last = inner.rfind('|', curp, s1)
if last >= 0:
pipe = last # advance
curp = e1
label = inner[pipe + 1:].strip()
res += text[cur:s] + makeInternalLink(title, label) + trail
cur = end
return res + text[cur:]
# the official version is a method in class Parser, similar to this:
# def replaceInternalLinks2(text):
# global wgExtraInterlanguageLinkPrefixes
# # the % is needed to support urlencoded titles as well
# tc = Title::legalChars() + '#%'
# # Match a link having the form [[namespace:link|alternate]]trail
# e1 = re.compile("([%s]+)(?:\\|(.+?))?]](.*)" % tc, re.S | re.D)
# # Match cases where there is no "]]", which might still be images
# e1_img = re.compile("([%s]+)\\|(.*)" % tc, re.S | re.D)
# holders = LinkHolderArray(self)
# # split the entire text string on occurrences of [[
# iterBrackets = re.compile('[[').finditer(text)
# m in iterBrackets.next()
# # get the first element (all text up to first [[)
# s = text[:m.start()]
# cur = m.end()
# line = s
# useLinkPrefixExtension = self.getTargetLanguage().linkPrefixExtension()
# e2 = None
# if useLinkPrefixExtension:
# # Match the end of a line for a word that is not followed by whitespace,
# # e.g. in the case of "The Arab al[[Razi]]", "al" will be matched
# global wgContLang
# charset = wgContLang.linkPrefixCharset()
# e2 = re.compile("((?>.*[^charset]|))(.+)", re.S | re.D | re.U)
# if self.mTitle is None:
# raise MWException(__METHOD__ + ": \self.mTitle is null\n")
# nottalk = not self.mTitle.isTalkPage()
# if useLinkPrefixExtension:
# m = e2.match(s)
# if m:
# first_prefix = m.group(2)
# else:
# first_prefix = false
# else:
# prefix = ''
# useSubpages = self.areSubpagesAllowed()
# for m in iterBrackets:
# line = text[cur:m.start()]
# cur = m.end()
# # TODO: Check for excessive memory usage
# if useLinkPrefixExtension:
# m = e2.match(e2)
# if m:
# prefix = m.group(2)
# s = m.group(1)
# else:
# prefix = ''
# # first link
# if first_prefix:
# prefix = first_prefix
# first_prefix = False
# might_be_img = False
# m = e1.match(line)
# if m: # page with normal label or alt
# label = m.group(2)
# # If we get a ] at the beginning of m.group(3) that means we have a link that is something like:
# # [[Image:Foo.jpg|[http://example.com desc]]] <- having three ] in a row fucks up,
# # the real problem is with the e1 regex
# # See bug 1300.
# #
# # Still some problems for cases where the ] is meant to be outside punctuation,
# # and no image is in sight. See bug 2095.
# #
# if label and m.group(3)[0] == ']' and '[' in label:
# label += ']' # so that replaceExternalLinks(label) works later
# m.group(3) = m.group(3)[1:]
# # fix up urlencoded title texts
# if '%' in m.group(1):
# # Should anchors '#' also be rejected?
# m.group(1) = str_replace(array('<', '>'), array('<', '>'), rawurldecode(m.group(1)))
# trail = m.group(3)
# else:
# m = e1_img.match(line):
# if m:
# # Invalid, but might be an image with a link in its caption
# might_be_img = true
# label = m.group(2)
# if '%' in m.group(1):
# m.group(1) = rawurldecode(m.group(1))
# trail = ""
# else: # Invalid form; output directly
# s += prefix + '[[' + line
# continue
# origLink = m.group(1)
# # Dont allow internal links to pages containing
# # PROTO: where PROTO is a valid URL protocol these
# # should be external links.
# if (preg_match('/^(?i:' + self.mUrlProtocols + ')/', origLink)) {
# s += prefix + '[[' + line
# continue
# }
# # Make subpage if necessary
# if useSubpages:
# link = self.maybeDoSubpageLink(origLink, label)
# else:
# link = origLink
# noforce = origLink[0] != ':'
# if not noforce:
# # Strip off leading ':'
# link = link[1:]
# nt = Title::newFromText(self.mStripState.unstripNoWiki(link))
# if nt is None:
# s += prefix + '[[' + line
# continue
# ns = nt.getNamespace()
# iw = nt.getInterwiki()
# if might_be_img { # if this is actually an invalid link
# if (ns == NS_FILE and noforce) { # but might be an image
# found = False
# while True:
# # look at the next 'line' to see if we can close it there
# next_line = iterBrakets.next()
# if not next_line:
# break
# m = explode(']]', next_line, 3)
# if m.lastindex == 3:
# # the first ]] closes the inner link, the second the image
# found = True
# label += "[[%s]]%s" % (m.group(0), m.group(1))
# trail = m.group(2)
# break
# elif m.lastindex == 2:
# # if there is exactly one ]] that is fine, we will keep looking
# label += "[[{m[0]}]]{m.group(1)}"
# else:
# # if next_line is invalid too, we need look no further
# label += '[[' + next_line
# break
# if not found:
# # we couldnt find the end of this imageLink, so output it raw
# # but dont ignore what might be perfectly normal links in the text we ve examined
# holders.merge(self.replaceInternalLinks2(label))
# s += "{prefix}[[%s|%s" % (link, text)
# # note: no trail, because without an end, there *is* no trail
# continue
# } else: # it is not an image, so output it raw
# s += "{prefix}[[%s|%s" % (link, text)
# # note: no trail, because without an end, there *is* no trail
# continue
# }
# wasblank = (text == '')
# if wasblank:
# text = link
# else:
# # Bug 4598 madness. Handle the quotes only if they come from the alternate part
# # [[Lista d''e paise d''o munno]] . Lista d''e paise d''o munno
# # [[Criticism of Harry Potter|Criticism of ''Harry Potter'']]
# # . Criticism of Harry Potter
# text = self.doQuotes(text)
# # Link not escaped by : , create the various objects
# if noforce and not nt.wasLocalInterwiki():
# # Interwikis
# if iw and mOptions.getInterwikiMagic() and nottalk and (
# Language::fetchLanguageName(iw, None, 'mw') or
# in_array(iw, wgExtraInterlanguageLinkPrefixes)):
# # Bug 24502: filter duplicates
# if iw not in mLangLinkLanguages:
# self.mLangLinkLanguages[iw] = True
# self.mOutput.addLanguageLink(nt.getFullText())
# s = rstrip(s + prefix)
# s += strip(trail, "\n") == '' ? '': prefix + trail
# continue
# if ns == NS_FILE:
# if not wfIsBadImage(nt.getDBkey(), self.mTitle):
# if wasblank:
# # if no parameters were passed, text
# # becomes something like "File:Foo.png",
# # which we dont want to pass on to the
# # image generator
# text = ''
# else:
# # recursively parse links inside the image caption
# # actually, this will parse them in any other parameters, too,
# # but it might be hard to fix that, and it doesnt matter ATM
# text = self.replaceExternalLinks(text)
# holders.merge(self.replaceInternalLinks2(text))
# # cloak any absolute URLs inside the image markup, so replaceExternalLinks() wont touch them
# s += prefix + self.armorLinks(
# self.makeImage(nt, text, holders)) + trail
# else:
# s += prefix + trail
# continue
# if ns == NS_CATEGORY:
# s = rstrip(s + "\n") # bug 87
# if wasblank:
# sortkey = self.getDefaultSort()
# else:
# sortkey = text
# sortkey = Sanitizer::decodeCharReferences(sortkey)
# sortkey = str_replace("\n", '', sortkey)
# sortkey = self.getConverterLanguage().convertCategoryKey(sortkey)
# self.mOutput.addCategory(nt.getDBkey(), sortkey)
# s += strip(prefix + trail, "\n") == '' ? '' : prefix + trail
# continue
# }
# }
# # Self-link checking. For some languages, variants of the title are checked in
# # LinkHolderArray::doVariants() to allow batching the existence checks necessary
# # for linking to a different variant.
# if ns != NS_SPECIAL and nt.equals(self.mTitle) and !nt.hasFragment():
# s += prefix + Linker::makeSelfLinkObj(nt, text, '', trail)
# continue
# # NS_MEDIA is a pseudo-namespace for linking directly to a file
# # @todo FIXME: Should do batch file existence checks, see comment below
# if ns == NS_MEDIA:
# # Give extensions a chance to select the file revision for us
# options = []
# descQuery = False
# Hooks::run('BeforeParserFetchFileAndTitle',
# [this, nt, &options, &descQuery])
# # Fetch and register the file (file title may be different via hooks)
# file, nt = self.fetchFileAndTitle(nt, options)
# # Cloak with NOPARSE to avoid replacement in replaceExternalLinks
# s += prefix + self.armorLinks(
# Linker::makeMediaLinkFile(nt, file, text)) + trail
# continue
# # Some titles, such as valid special pages or files in foreign repos, should
# # be shown as bluelinks even though they are not included in the page table
# #
# # @todo FIXME: isAlwaysKnown() can be expensive for file links; we should really do
# # batch file existence checks for NS_FILE and NS_MEDIA
# if iw == '' and nt.isAlwaysKnown():
# self.mOutput.addLink(nt)
# s += self.makeKnownLinkHolder(nt, text, array(), trail, prefix)
# else:
# # Links will be added to the output link list after checking
# s += holders.makeHolder(nt, text, array(), trail, prefix)
# }
# return holders
def makeInternalLink(title, label):
colon = title.find(':')
if colon > 0 and title[:colon] not in acceptedNamespaces:
return ''
if colon == 0:
# drop also :File:
colon2 = title.find(':', colon + 1)
if colon2 > 1 and title[colon + 1:colon2] not in acceptedNamespaces:
return ''
if Extractor.keepLinks:
return '%s' % (urllib.quote(title.encode('utf-8')), label)
else:
return label
# ----------------------------------------------------------------------
# External links
# from: https://doc.wikimedia.org/mediawiki-core/master/php/DefaultSettings_8php_source.html
wgUrlProtocols = [
'bitcoin:', 'ftp://', 'ftps://', 'geo:', 'git://', 'gopher://', 'http://',
'https://', 'irc://', 'ircs://', 'magnet:', 'mailto:', 'mms://', 'news:',
'nntp://', 'redis://', 'sftp://', 'sip:', 'sips:', 'sms:', 'ssh://',
'svn://', 'tel:', 'telnet://', 'urn:', 'worldwind://', 'xmpp:', '//'
]
# from: https://doc.wikimedia.org/mediawiki-core/master/php/Parser_8php_source.html
# Constants needed for external link processing
# Everything except bracket, space, or control characters
# \p{Zs} is unicode 'separator, space' category. It covers the space 0x20
# as well as U+3000 is IDEOGRAPHIC SPACE for bug 19052
EXT_LINK_URL_CLASS = r'[^][<>"\x00-\x20\x7F\s]'
ExtLinkBracketedRegex = re.compile(
'\[(((?i)' + '|'.join(wgUrlProtocols) + ')' + EXT_LINK_URL_CLASS + r'+)\s*([^\]\x00-\x08\x0a-\x1F]*?)\]',
re.S | re.U)
EXT_IMAGE_REGEX = re.compile(
r"""^(http://|https://)([^][<>"\x00-\x20\x7F\s]+)
/([A-Za-z0-9_.,~%\-+&;#*?!=()@\x80-\xFF]+)\.((?i)gif|png|jpg|jpeg)$""",
re.X | re.S | re.U)
def replaceExternalLinks(text):
"""
https://www.mediawiki.org/wiki/Help:Links#External_links
[URL anchor text]
"""
s = ''
cur = 0
for m in ExtLinkBracketedRegex.finditer(text):
s += text[cur:m.start()]
cur = m.end()
url = m.group(1)
label = m.group(3)
# # The characters '<' and '>' (which were escaped by
# # removeHTMLtags()) should not be included in
# # URLs, per RFC 2396.
# m2 = re.search('&(lt|gt);', url)
# if m2:
# link = url[m2.end():] + ' ' + link
# url = url[0:m2.end()]
# If the link text is an image URL, replace it with an tag
# This happened by accident in the original parser, but some people used it extensively
m = EXT_IMAGE_REGEX.match(label)
if m:
label = makeExternalImage(label)
# Use the encoded URL
# This means that users can paste URLs directly into the text
# Funny characters like ö aren't valid in URLs anyway
# This was changed in August 2004
s += makeExternalLink(url, label) # + trail
return s + text[cur:]
def makeExternalLink(url, anchor):
"""Function applied to wikiLinks"""
if Extractor.keepLinks:
return '%s' % (urllib.quote(url.encode('utf-8')), anchor)
else:
return anchor
def makeExternalImage(url, alt=''):
if Extractor.keepLinks:
return '' % (url, alt)
else:
return alt
# ----------------------------------------------------------------------
# match tail after wikilink
tailRE = re.compile('\w+')
syntaxhighlight = re.compile('<syntaxhighlight .*?>(.*?)</syntaxhighlight>', re.DOTALL)
# skip level 1, it is page name level
section = re.compile(r'(==+)\s*(.*?)\s*\1')
listOpen = {'*': ']', '#': '', ';': '', ':': ''}
listClose = {'*': '
', '#': '', ';': '', ':': ''}
listItem = {'*': '%s', '#': '%s', ';': '%s',
':': '%s'}
def compact(text):
"""Deal with headers, lists, empty sections, residuals of tables.
:param text: convert to HTML.
"""
page = [] # list of paragraph
headers = {} # Headers for unfilled sections
emptySection = False # empty sections are discarded
listLevel = [] # nesting of lists
for line in text.split('\n'):
if not line:
continue
# Handle section titles
m = section.match(line)
if m:
title = m.group(2)
lev = len(m.group(1)) # header level
if Extractor.toHTML:
page.append("%s" % (lev, title, lev))
if title and title[-1] not in '!?':
title += '.' # terminate sentence.
headers[lev] = title
# drop previous headers
for i in headers.keys():
if i > lev:
del headers[i]
emptySection = True
listLevel = []
continue
# Handle page title
elif line.startswith('++'):
title = line[2:-2]
if title:
if title[-1] not in '!?':
title += '.'
page.append(title)
# handle indents
elif line[0] == ':':
# page.append(line.lstrip(':*#;'))
continue
# handle lists
elif line[0] in '*#;:':
i = 0
# c: current level char
# n: next level char
for c, n in izip_longest(listLevel, line, fillvalue=''):
if not n or n not in '*#;:': # shorter or different
if c:
if Extractor.toHTML:
page.append(listClose[c])
listLevel = listLevel[:-1]
continue
else:
break
# n != ''
if c != n and (not c or (c not in ';:' and n not in ';:')):
if c:
# close level
if Extractor.toHTML:
page.append(listClose[c])
listLevel = listLevel[:-1]
listLevel += n
if Extractor.toHTML:
page.append(listOpen[n])
i += 1
n = line[i - 1] # last list char
line = line[i:].strip()
if line: # FIXME: n is '"'
if Extractor.toHTML:
page.append(listItem[n] % line)
elif Extractor.keepLists:
# FIXME: use item count for #-lines
bullet = '1. ' if n == '#' else '- '
page.append('{0:{1}s}'.format(bullet, len(listLevel)) + line)
elif len(listLevel):
page.append(line)
if Extractor.toHTML:
for c in reversed(listLevel):
page.append(listClose[c])
listLevel = []
# Drop residuals of lists
elif line[0] in '{|' or line[-1] == '}':
continue
# Drop irrelevant lines
elif (line[0] == '(' and line[-1] == ')') or line.strip('.-') == '':
continue
elif len(headers):
if Extractor.keepSections:
items = headers.items()
items.sort()
for i, v in items:
page.append(v)
headers.clear()
page.append(line) # first line
emptySection = False
elif not emptySection:
# Drop preformatted
if line[0] != ' ': # dangerous
page.append(line)
return page
def handle_unicode(entity):
numeric_code = int(entity[2:-1])
if numeric_code >= 0x10000: return ''
return unichr(numeric_code)
# ------------------------------------------------------------------------------
# Output
class NextFile(object):
"""
Synchronous generation of next available file name.
"""
filesPerDir = 100
def __init__(self, path_name):
self.path_name = path_name
self.dir_index = -1
self.file_index = -1
def next(self):
self.file_index = (self.file_index + 1) % NextFile.filesPerDir
if self.file_index == 0:
self.dir_index += 1
dirname = self._dirname()
if not os.path.isdir(dirname):
os.makedirs(dirname)
return self._filepath()
def _dirname(self):
char1 = self.dir_index % 26
char2 = self.dir_index / 26 % 26
return os.path.join(self.path_name, '%c%c' % (ord('A') + char2, ord('A') + char1))
def _filepath(self):
return '%s/wiki_%02d' % (self._dirname(), self.file_index)
class OutputSplitter(object):
"""
File-like object, that splits output to multiple files of a given max size.
"""
def __init__(self, nextFile, max_file_size=0, compress=True):
"""
:param nextFile: a NextFile object from which to obtain filenames
to use.
:param max_file_size: the maximum size of each file.
:para compress: whether to write data with bzip compression.
"""
self.nextFile = nextFile
self.compress = compress
self.max_file_size = max_file_size
self.file = self.open(self.nextFile.next())
def reserve(self, size):
if self.file.tell() + size > self.max_file_size:
self.close()
self.file = self.open(self.nextFile.next())
def write(self, data):
self.reserve(len(data))
self.file.write(data)
def close(self):
self.file.close()
def open(self, filename):
if self.compress:
return bz2.BZ2File(filename + '.bz2', 'w')
else:
return open(filename, 'w')
# ----------------------------------------------------------------------
# READER
tagRE = re.compile(r'(.*?)<(/?\w+)[^>]*>(?:([^<]*)(<.*?>)?)?')
# 1 2 3 4
def load_templates(file, output_file=None):
"""
Load templates from :param file:.
:param output_file: file where to save templates and modules.
"""
global templateNamespace, templatePrefix
templatePrefix = templateNamespace + ':'
global moduleNamespace, modulePrefix
modulePrefix = moduleNamespace + ':'
if output_file:
output = codecs.open(output_file, 'wb', 'utf-8')
for page_count, page_data in enumerate(pages_from(file)):
id, title, ns, page = page_data
if not output_file and (not templateNamespace or
not moduleNamespace): # do not know it yet
# reconstruct templateNamespace and moduleNamespace from the first title
if ns in templateKeys:
colon = title.find(':')
if colon > 1:
if ns == '10':
templateNamespace = title[:colon]
templatePrefix = title[:colon + 1]
elif ns == '828':
moduleNamespace = title[:colon]
modulePrefix = title[:colon + 1]
if ns in templateKeys:
text = ''.join(page)
define_template(title, text)
# save templates and modules to file
if output_file:
output.write('\n')
output.write(' %s\n' % title)
output.write(' %s\n' % ns)
output.write(' %s\n' % id)
output.write(' ')
for line in page:
output.write(line)
output.write(' \n')
output.write('\n')
if page_count and page_count % 100000 == 0:
logging.info("Preprocessed %d pages", page_count)
if output_file:
output.close()
logging.info("Saved %d templates to '%s'", len(templates), output_file)
def pages_from(input):
"""
Scans input extracting pages.
:return: (id, title, namespace, page), page is a list of lines.
"""
# we collect individual lines, since str.join() is significantly faster
# than concatenation
page = []
id = None
ns = '0'
last_id = None
inText = False
redirect = False
for line in input:
line = line.decode('utf-8')
if '<' not in line: # faster than doing re.search()
if inText:
page.append(line)
continue
m = tagRE.search(line)
if not m:
continue
tag = m.group(2)
if tag == 'page':
page = []
redirect = False
elif tag == 'id' and not id:
id = m.group(3)
elif tag == 'title':
title = m.group(3)
elif tag == 'ns':
ns = m.group(3)
elif tag == 'redirect':
redirect = True
elif tag == 'text':
inText = True
line = line[m.start(3):m.end(3)]
page.append(line)
if m.lastindex == 4: # open-close
inText = False
elif tag == '/text':
if m.group(1):
page.append(m.group(1))
inText = False
elif inText:
page.append(line)
elif tag == '/page':
if id != last_id and not redirect:
yield (id, title, ns, page)
last_id = id
ns = '0'
id = None
page = []
def process_dump(input_file, template_file, out_file, file_size, file_compress,
process_count):
"""
:param input_file: name of the wikipedia dump file; '-' to read from stdin
:param template_file: optional file with template definitions.
:param out_file: directory where to store extracted data, or '-' for stdout
:param file_size: max size of each extracted file, or None for no max (one file)
:param file_compress: whether to compress files with bzip.
:param process_count: number of extraction processes to spawn.
"""
global urlbase
global knownNamespaces
global templateNamespace, templatePrefix
global moduleNamespace, modulePrefix
if input_file == '-':
input = sys.stdin
else:
input = fileinput.FileInput(input_file, openhook=fileinput.hook_compressed)
# collect siteinfo
for line in input:
line = line.decode('utf-8')
m = tagRE.search(line)
if not m:
continue
tag = m.group(2)
if tag == 'base':
# discover urlbase from the xml dump file
# /mediawiki/siteinfo/base
base = m.group(3)
urlbase = base[:base.rfind("/")]
elif tag == 'namespace':
knownNamespaces.add(m.group(3))
if re.search('key="10"', line):
templateNamespace = m.group(3)
templatePrefix = templateNamespace + ':'
elif re.search('key="828"', line):
moduleNamespace = m.group(3)
modulePrefix = moduleNamespace + ':'
elif tag == '/siteinfo':
break
if Extractor.expand_templates:
# preprocess
template_load_start = default_timer()
if template_file and os.path.exists(template_file):
logging.info("Preprocessing '%s' to collect template definitions: this may take some time.", template_file)
file = fileinput.FileInput(template_file, openhook=fileinput.hook_compressed)
load_templates(file)
file.close()
else:
if input_file == '-':
# can't scan then reset stdin; must error w/ suggestion to specify template_file
raise ValueError("to use templates with stdin dump, must supply explicit template-file")
logging.info("Preprocessing '%s' to collect template definitions: this may take some time.", input_file)
load_templates(input, template_file)
input.close()
input = fileinput.FileInput(input_file, openhook=fileinput.hook_compressed)
template_load_elapsed = default_timer() - template_load_start
logging.info("Loaded %d templates in %.1fs", len(templates), template_load_elapsed)
# process pages
logging.info("Starting page extraction from %s.", input_file)
extract_start = default_timer()
# Parallel Map/Reduce:
# - pages to be processed are dispatched to workers
# - a reduce process collects the results, sort them and print them.
maxsize = 10 * process_count
# output queue
output_queue = Queue(maxsize=maxsize)
if out_file == '-':
out_file = None
worker_count = max(1, process_count)
# load balancing
max_spool_length = 10000
spool_length = Value('i', 0)
# reduce job that sorts and prints output
reduce = Process(target=reduce_process,
args=(output_queue, spool_length,
out_file, file_size, file_compress))
reduce.start()
# initialize jobs queue
jobs_queue = Queue(maxsize=maxsize)
# start worker processes
logging.info("Using %d extract processes.", worker_count)
workers = []
for i in xrange(worker_count):
extractor = Process(target=extract_process,
args=(jobs_queue, output_queue))
extractor.daemon = True # only live while parent process lives
extractor.start()
workers.append(extractor)
# Mapper process
page_num = 0
for page_data in pages_from(input):
id, title, ns, page = page_data
if ns not in templateKeys:
# slow down
while spool_length.value > max_spool_length:
time.sleep(10)
job = (id, title, page, page_num)
# logging.info('Put: %s %s', id, page_num) # DEBUG
jobs_queue.put(job) # goes to any available extract_process
page_num += 1
input.close()
# signal termination
for _ in workers:
jobs_queue.put(None)
# wait for workers to terminate
for w in workers:
w.join()
# signal end of work to reduce process
output_queue.put(None)
# wait for it to finish
reduce.join()
extract_duration = default_timer() - extract_start
extract_rate = page_num / extract_duration
logging.info("Finished %d-process extraction of %d articles in %.1fs (%.1f art/s)",
process_count, page_num, extract_duration, extract_rate)
# ----------------------------------------------------------------------
# Multiprocess support
def extract_process(jobs_queue, output_queue):
"""Pull tuples of raw page content, do CPU/regex-heavy fixup, push finished text
:param jobs_queue: where to get jobs.
:param output_queue: where to queue extracted text for output.
"""
while True:
job = jobs_queue.get() # job is (id, title, page, page_num)
if job:
id, title, page, page_num = job
# logging.info('Got: %s %s', id, page_num) # DEBUG
out = StringIO() # memory buffer
try:
Extractor(*job[:3]).extract(out) # (id, title, page)
text = out.getvalue()
except:
text = ''
logging.error('Processing page: %s %s', id, title)
# logging.info('Done: %s %s', id, page_num) # DEBUG
output_queue.put((page_num, text))
out.close()
else:
break
report_period = 10000 # progress report period
def reduce_process(output_queue, spool_length,
out_file=None, file_size=0, file_compress=True):
"""Pull finished article text, write series of files (or stdout)
:param output_queue: text to be output.
:param spool_length: spool length.
:param out_file: filename where to print.
:param file_size: max file size.
:param file_compress: whether to compress output.
"""
if out_file:
nextFile = NextFile(out_file)
output = OutputSplitter(nextFile, file_size, file_compress)
else:
output = sys.stdout
if file_compress:
logging.warn("writing to stdout, so no output compression (use an external tool)")
interval_start = default_timer()
# FIXME: use a heap
spool = {} # collected pages
next_page = 0 # sequence numbering of page
while True:
if next_page in spool:
output.write(spool.pop(next_page))
next_page += 1
# progress report
if next_page % report_period == 0:
interval_rate = report_period / (default_timer() - interval_start)
logging.info("Extracted %d articles (%.1f art/s)",
next_page, interval_rate)
interval_start = default_timer()
else:
# mapper puts None to signal finish
pair = output_queue.get()
if not pair:
break
page_num, text = pair
spool[page_num] = text
# tell mapper our load:
spool_length.value = len(spool)
# FIXME: if an extractor dies, process stalls; the other processes
# continue to produce pairs, filling up memory.
if len(spool) > 200: # DEBUG
logging.debug('Collected %d, wait: %d, %d', len(spool),
next_page, next_page == page_num)
if output != sys.stdout:
output.close()
# ----------------------------------------------------------------------
# Minimum size of output files
minFileSize = 200 * 1024
def main():
global urlbase, acceptedNamespaces
global templateCache, escape_doc
parser = argparse.ArgumentParser(prog=os.path.basename(sys.argv[0]),
formatter_class=argparse.RawDescriptionHelpFormatter,
description=__doc__)
parser.add_argument("input",
help="XML wiki dump file")
groupO = parser.add_argument_group('Output')
groupO.add_argument("-o", "--output", default="text",
help="directory for extracted files (or '-' for dumping to stdout)")
groupO.add_argument("-b", "--bytes", default="1M",
help="maximum bytes per output file (default %(default)s)",
metavar="n[KMG]")
groupO.add_argument("-c", "--compress", action="store_true",
help="compress output files using bzip")
groupP = parser.add_argument_group('Processing')
groupP.add_argument("--html", action="store_true",
help="produce HTML output, subsumes --links")
groupP.add_argument("-l", "--links", action="store_true",
help="preserve links")
groupP.add_argument("--lists", action="store_true",
help="preserve lists")
groupP.add_argument("-ns", "--namespaces", default="", metavar="ns1,ns2",
help="accepted namespaces")
groupP.add_argument("--templates",
help="use or create file containing templates")
groupP.add_argument("--no-templates", action="store_false",
help="Do not expand templates")
groupP.add_argument("--escapedoc", action="store_true",
help="use to escape the contents of the output ...")
default_process_count = cpu_count() - 1
parser.add_argument("--processes", type=int, default=default_process_count,
help="Number of processes to use (default %(default)s)")
groupS = parser.add_argument_group('Special')
groupS.add_argument("-q", "--quiet", action="store_true",
help="suppress reporting progress info")
groupS.add_argument("--debug", action="store_true",
help="print debug info")
groupS.add_argument("-a", "--article", action="store_true",
help="analyze a file containing a single article (debug option)")
groupS.add_argument("-v", "--version", action="version",
version='%(prog)s ' + version,
help="print program version")
args = parser.parse_args()
Extractor.keepLinks = args.links
Extractor.keepLists = args.lists
Extractor.toHTML = args.html
if args.html:
Extractor.keepLinks = True
Extractor.expand_templates = args.no_templates
escape_doc = args.escapedoc
try:
power = 'kmg'.find(args.bytes[-1].lower()) + 1
file_size = int(args.bytes[:-1]) * 1024 ** power
if file_size < minFileSize:
raise ValueError()
except ValueError:
logging.error('Insufficient or invalid size: %s', args.bytes)
return
if args.namespaces:
acceptedNamespaces = set(args.namespaces.split(','))
FORMAT = '%(levelname)s: %(message)s'
logging.basicConfig(format=FORMAT)
logger = logging.getLogger()
if not args.quiet:
logger.setLevel(logging.INFO)
if args.debug:
logger.setLevel(logging.DEBUG)
input_file = args.input
if not Extractor.keepLinks:
ignoreTag('a')
# sharing cache of parser templates is too slow:
# manager = Manager()
# templateCache = manager.dict()
if args.article:
if args.templates:
if os.path.exists(args.templates):
with open(args.templates) as file:
load_templates(file)
file = fileinput.FileInput(input_file, openhook=fileinput.hook_compressed)
for page_data in pages_from(file):
id, title, ns, page = page_data
Extractor(id, title, page).extract(sys.stdout)
file.close()
return
output_path = args.output
if output_path != '-' and not os.path.isdir(output_path):
try:
os.makedirs(output_path)
except:
logging.error('Could not create: %s', output_path)
return
process_dump(input_file, args.templates, output_path, file_size,
args.compress, args.processes)
if __name__ == '__main__':
main()