mirror of
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183 lines
6.7 KiB
Python
183 lines
6.7 KiB
Python
# coding: utf-8
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from __future__ import unicode_literals
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import re
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import bz2
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import csv
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import datetime
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"""
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Process a Wikipedia dump to calculate entity frequencies and prior probabilities in combination with certain mentions.
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Write these results to file for downstream KB and training data generation.
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"""
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map_alias_to_link = dict()
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# these will/should be matched ignoring case
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wiki_namespaces = ["b", "betawikiversity", "Book", "c", "Category", "Commons",
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"d", "dbdump", "download", "Draft", "Education", "Foundation",
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"Gadget", "Gadget definition", "gerrit", "File", "Help", "Image", "Incubator",
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"m", "mail", "mailarchive", "media", "MediaWiki", "MediaWiki talk", "Mediawikiwiki",
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"MediaZilla", "Meta", "Metawikipedia", "Module",
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"mw", "n", "nost", "oldwikisource", "outreach", "outreachwiki", "otrs", "OTRSwiki",
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"Portal", "phab", "Phabricator", "Project", "q", "quality", "rev",
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"s", "spcom", "Special", "species", "Strategy", "sulutil", "svn",
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"Talk", "Template", "Template talk", "Testwiki", "ticket", "TimedText", "Toollabs", "tools",
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"tswiki", "User", "User talk", "v", "voy",
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"w", "Wikibooks", "Wikidata", "wikiHow", "Wikinvest", "wikilivres", "Wikimedia", "Wikinews",
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"Wikipedia", "Wikipedia talk", "Wikiquote", "Wikisource", "Wikispecies", "Wikitech",
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"Wikiversity", "Wikivoyage", "wikt", "wiktionary", "wmf", "wmania", "WP"]
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# find the links
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link_regex = re.compile(r'\[\[[^\[\]]*\]\]')
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# match on interwiki links, e.g. `en:` or `:fr:`
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ns_regex = r":?" + "[a-z][a-z]" + ":"
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# match on Namespace: optionally preceded by a :
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for ns in wiki_namespaces:
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ns_regex += "|" + ":?" + ns + ":"
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ns_regex = re.compile(ns_regex, re.IGNORECASE)
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def read_wikipedia_prior_probs(wikipedia_input, prior_prob_output):
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"""
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Read the XML wikipedia data and parse out intra-wiki links to estimate prior probabilities.
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The full file takes about 2h to parse 1100M lines.
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It works relatively fast because it runs line by line, irrelevant of which article the intrawiki is from.
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"""
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with bz2.open(wikipedia_input, mode='rb') as file:
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line = file.readline()
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cnt = 0
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while line:
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if cnt % 5000000 == 0:
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print(datetime.datetime.now(), "processed", cnt, "lines of Wikipedia dump")
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clean_line = line.strip().decode("utf-8")
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aliases, entities, normalizations = get_wp_links(clean_line)
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for alias, entity, norm in zip(aliases, entities, normalizations):
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_store_alias(alias, entity, normalize_alias=norm, normalize_entity=True)
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_store_alias(alias, entity, normalize_alias=norm, normalize_entity=True)
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line = file.readline()
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cnt += 1
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# write all aliases and their entities and count occurrences to file
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with open(prior_prob_output, mode='w', encoding='utf8') as outputfile:
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outputfile.write("alias" + "|" + "count" + "|" + "entity" + "\n")
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for alias, alias_dict in sorted(map_alias_to_link.items(), key=lambda x: x[0]):
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for entity, count in sorted(alias_dict.items(), key=lambda x: x[1], reverse=True):
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outputfile.write(alias + "|" + str(count) + "|" + entity + "\n")
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def _store_alias(alias, entity, normalize_alias=False, normalize_entity=True):
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alias = alias.strip()
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entity = entity.strip()
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# remove everything after # as this is not part of the title but refers to a specific paragraph
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if normalize_entity:
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# wikipedia titles are always capitalized
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entity = _capitalize_first(entity.split("#")[0])
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if normalize_alias:
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alias = alias.split("#")[0]
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if alias and entity:
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alias_dict = map_alias_to_link.get(alias, dict())
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entity_count = alias_dict.get(entity, 0)
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alias_dict[entity] = entity_count + 1
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map_alias_to_link[alias] = alias_dict
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def get_wp_links(text):
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aliases = []
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entities = []
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normalizations = []
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matches = link_regex.findall(text)
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for match in matches:
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match = match[2:][:-2].replace("_", " ").strip()
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if ns_regex.match(match):
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pass # ignore namespaces at the beginning of the string
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# this is a simple [[link]], with the alias the same as the mention
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elif "|" not in match:
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aliases.append(match)
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entities.append(match)
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normalizations.append(True)
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# in wiki format, the link is written as [[entity|alias]]
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else:
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splits = match.split("|")
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entity = splits[0].strip()
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alias = splits[1].strip()
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# specific wiki format [[alias (specification)|]]
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if len(alias) == 0 and "(" in entity:
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alias = entity.split("(")[0]
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aliases.append(alias)
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entities.append(entity)
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normalizations.append(False)
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else:
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aliases.append(alias)
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entities.append(entity)
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normalizations.append(False)
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return aliases, entities, normalizations
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def _capitalize_first(text):
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if not text:
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return None
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result = text[0].capitalize()
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if len(result) > 0:
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result += text[1:]
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return result
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def write_entity_counts(prior_prob_input, count_output, to_print=False):
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# Write entity counts for quick access later
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entity_to_count = dict()
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total_count = 0
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with open(prior_prob_input, mode='r', encoding='utf8') as prior_file:
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# skip header
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prior_file.readline()
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line = prior_file.readline()
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while line:
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splits = line.replace('\n', "").split(sep='|')
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# alias = splits[0]
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count = int(splits[1])
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entity = splits[2]
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current_count = entity_to_count.get(entity, 0)
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entity_to_count[entity] = current_count + count
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total_count += count
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line = prior_file.readline()
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with open(count_output, mode='w', encoding='utf8') as entity_file:
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entity_file.write("entity" + "|" + "count" + "\n")
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for entity, count in entity_to_count.items():
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entity_file.write(entity + "|" + str(count) + "\n")
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if to_print:
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for entity, count in entity_to_count.items():
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print("Entity count:", entity, count)
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print("Total count:", total_count)
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def get_all_frequencies(count_input):
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entity_to_count = dict()
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with open(count_input, 'r', encoding='utf8') as csvfile:
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csvreader = csv.reader(csvfile, delimiter='|')
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# skip header
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next(csvreader)
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for row in csvreader:
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entity_to_count[row[0]] = int(row[1])
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return entity_to_count
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