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353 lines
11 KiB
Python
353 lines
11 KiB
Python
# Natural Language Toolkit: Chunk parsing API
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#
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# Copyright (C) 2001-2020 NLTK Project
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# Author: Edward Loper <edloper@gmail.com>
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# URL: <http://nltk.org/>
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# For license information, see LICENSE.TXT
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"""
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Named entity chunker
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"""
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import os, re, pickle
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from xml.etree import ElementTree as ET
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from nltk.tag import ClassifierBasedTagger, pos_tag
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try:
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from nltk.classify import MaxentClassifier
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except ImportError:
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pass
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from nltk.tree import Tree
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from nltk.tokenize import word_tokenize
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from nltk.data import find
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from nltk.chunk.api import ChunkParserI
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from nltk.chunk.util import ChunkScore
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class NEChunkParserTagger(ClassifierBasedTagger):
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"""
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The IOB tagger used by the chunk parser.
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"""
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def __init__(self, train):
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ClassifierBasedTagger.__init__(
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self, train=train, classifier_builder=self._classifier_builder
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)
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def _classifier_builder(self, train):
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return MaxentClassifier.train(
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train, algorithm="megam", gaussian_prior_sigma=1, trace=2
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)
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def _english_wordlist(self):
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try:
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wl = self._en_wordlist
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except AttributeError:
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from nltk.corpus import words
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self._en_wordlist = set(words.words("en-basic"))
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wl = self._en_wordlist
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return wl
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def _feature_detector(self, tokens, index, history):
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word = tokens[index][0]
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pos = simplify_pos(tokens[index][1])
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if index == 0:
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prevword = prevprevword = None
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prevpos = prevprevpos = None
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prevshape = prevtag = prevprevtag = None
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elif index == 1:
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prevword = tokens[index - 1][0].lower()
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prevprevword = None
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prevpos = simplify_pos(tokens[index - 1][1])
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prevprevpos = None
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prevtag = history[index - 1][0]
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prevshape = prevprevtag = None
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else:
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prevword = tokens[index - 1][0].lower()
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prevprevword = tokens[index - 2][0].lower()
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prevpos = simplify_pos(tokens[index - 1][1])
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prevprevpos = simplify_pos(tokens[index - 2][1])
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prevtag = history[index - 1]
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prevprevtag = history[index - 2]
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prevshape = shape(prevword)
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if index == len(tokens) - 1:
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nextword = nextnextword = None
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nextpos = nextnextpos = None
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elif index == len(tokens) - 2:
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nextword = tokens[index + 1][0].lower()
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nextpos = tokens[index + 1][1].lower()
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nextnextword = None
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nextnextpos = None
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else:
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nextword = tokens[index + 1][0].lower()
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nextpos = tokens[index + 1][1].lower()
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nextnextword = tokens[index + 2][0].lower()
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nextnextpos = tokens[index + 2][1].lower()
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# 89.6
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features = {
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"bias": True,
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"shape": shape(word),
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"wordlen": len(word),
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"prefix3": word[:3].lower(),
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"suffix3": word[-3:].lower(),
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"pos": pos,
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"word": word,
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"en-wordlist": (word in self._english_wordlist()),
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"prevtag": prevtag,
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"prevpos": prevpos,
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"nextpos": nextpos,
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"prevword": prevword,
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"nextword": nextword,
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"word+nextpos": "{0}+{1}".format(word.lower(), nextpos),
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"pos+prevtag": "{0}+{1}".format(pos, prevtag),
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"shape+prevtag": "{0}+{1}".format(prevshape, prevtag),
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}
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return features
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class NEChunkParser(ChunkParserI):
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"""
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Expected input: list of pos-tagged words
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"""
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def __init__(self, train):
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self._train(train)
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def parse(self, tokens):
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"""
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Each token should be a pos-tagged word
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"""
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tagged = self._tagger.tag(tokens)
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tree = self._tagged_to_parse(tagged)
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return tree
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def _train(self, corpus):
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# Convert to tagged sequence
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corpus = [self._parse_to_tagged(s) for s in corpus]
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self._tagger = NEChunkParserTagger(train=corpus)
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def _tagged_to_parse(self, tagged_tokens):
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"""
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Convert a list of tagged tokens to a chunk-parse tree.
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"""
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sent = Tree("S", [])
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for (tok, tag) in tagged_tokens:
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if tag == "O":
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sent.append(tok)
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elif tag.startswith("B-"):
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sent.append(Tree(tag[2:], [tok]))
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elif tag.startswith("I-"):
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if sent and isinstance(sent[-1], Tree) and sent[-1].label() == tag[2:]:
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sent[-1].append(tok)
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else:
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sent.append(Tree(tag[2:], [tok]))
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return sent
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@staticmethod
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def _parse_to_tagged(sent):
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"""
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Convert a chunk-parse tree to a list of tagged tokens.
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"""
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toks = []
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for child in sent:
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if isinstance(child, Tree):
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if len(child) == 0:
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print("Warning -- empty chunk in sentence")
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continue
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toks.append((child[0], "B-{0}".format(child.label())))
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for tok in child[1:]:
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toks.append((tok, "I-{0}".format(child.label())))
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else:
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toks.append((child, "O"))
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return toks
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def shape(word):
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if re.match("[0-9]+(\.[0-9]*)?|[0-9]*\.[0-9]+$", word, re.UNICODE):
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return "number"
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elif re.match("\W+$", word, re.UNICODE):
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return "punct"
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elif re.match("\w+$", word, re.UNICODE):
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if word.istitle():
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return "upcase"
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elif word.islower():
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return "downcase"
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else:
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return "mixedcase"
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else:
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return "other"
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def simplify_pos(s):
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if s.startswith("V"):
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return "V"
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else:
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return s.split("-")[0]
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def postag_tree(tree):
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# Part-of-speech tagging.
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words = tree.leaves()
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tag_iter = (pos for (word, pos) in pos_tag(words))
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newtree = Tree("S", [])
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for child in tree:
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if isinstance(child, Tree):
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newtree.append(Tree(child.label(), []))
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for subchild in child:
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newtree[-1].append((subchild, next(tag_iter)))
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else:
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newtree.append((child, next(tag_iter)))
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return newtree
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def load_ace_data(roots, fmt="binary", skip_bnews=True):
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for root in roots:
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for root, dirs, files in os.walk(root):
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if root.endswith("bnews") and skip_bnews:
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continue
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for f in files:
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if f.endswith(".sgm"):
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for sent in load_ace_file(os.path.join(root, f), fmt):
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yield sent
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def load_ace_file(textfile, fmt):
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print(" - {0}".format(os.path.split(textfile)[1]))
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annfile = textfile + ".tmx.rdc.xml"
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# Read the xml file, and get a list of entities
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entities = []
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with open(annfile, "r") as infile:
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xml = ET.parse(infile).getroot()
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for entity in xml.findall("document/entity"):
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typ = entity.find("entity_type").text
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for mention in entity.findall("entity_mention"):
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if mention.get("TYPE") != "NAME":
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continue # only NEs
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s = int(mention.find("head/charseq/start").text)
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e = int(mention.find("head/charseq/end").text) + 1
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entities.append((s, e, typ))
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# Read the text file, and mark the entities.
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with open(textfile, "r") as infile:
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text = infile.read()
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# Strip XML tags, since they don't count towards the indices
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text = re.sub("<(?!/?TEXT)[^>]+>", "", text)
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# Blank out anything before/after <TEXT>
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def subfunc(m):
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return " " * (m.end() - m.start() - 6)
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text = re.sub("[\s\S]*<TEXT>", subfunc, text)
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text = re.sub("</TEXT>[\s\S]*", "", text)
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# Simplify quotes
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text = re.sub("``", ' "', text)
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text = re.sub("''", '" ', text)
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entity_types = set(typ for (s, e, typ) in entities)
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# Binary distinction (NE or not NE)
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if fmt == "binary":
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i = 0
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toks = Tree("S", [])
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for (s, e, typ) in sorted(entities):
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if s < i:
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s = i # Overlapping! Deal with this better?
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if e <= s:
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continue
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toks.extend(word_tokenize(text[i:s]))
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toks.append(Tree("NE", text[s:e].split()))
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i = e
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toks.extend(word_tokenize(text[i:]))
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yield toks
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# Multiclass distinction (NE type)
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elif fmt == "multiclass":
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i = 0
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toks = Tree("S", [])
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for (s, e, typ) in sorted(entities):
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if s < i:
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s = i # Overlapping! Deal with this better?
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if e <= s:
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continue
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toks.extend(word_tokenize(text[i:s]))
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toks.append(Tree(typ, text[s:e].split()))
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i = e
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toks.extend(word_tokenize(text[i:]))
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yield toks
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else:
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raise ValueError("bad fmt value")
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# This probably belongs in a more general-purpose location (as does
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# the parse_to_tagged function).
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def cmp_chunks(correct, guessed):
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correct = NEChunkParser._parse_to_tagged(correct)
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guessed = NEChunkParser._parse_to_tagged(guessed)
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ellipsis = False
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for (w, ct), (w, gt) in zip(correct, guessed):
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if ct == gt == "O":
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if not ellipsis:
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print(" {:15} {:15} {2}".format(ct, gt, w))
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print(" {:15} {:15} {2}".format("...", "...", "..."))
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ellipsis = True
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else:
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ellipsis = False
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print(" {:15} {:15} {2}".format(ct, gt, w))
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def build_model(fmt="binary"):
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print("Loading training data...")
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train_paths = [
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find("corpora/ace_data/ace.dev"),
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find("corpora/ace_data/ace.heldout"),
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find("corpora/ace_data/bbn.dev"),
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find("corpora/ace_data/muc.dev"),
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]
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train_trees = load_ace_data(train_paths, fmt)
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train_data = [postag_tree(t) for t in train_trees]
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print("Training...")
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cp = NEChunkParser(train_data)
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del train_data
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print("Loading eval data...")
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eval_paths = [find("corpora/ace_data/ace.eval")]
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eval_trees = load_ace_data(eval_paths, fmt)
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eval_data = [postag_tree(t) for t in eval_trees]
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print("Evaluating...")
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chunkscore = ChunkScore()
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for i, correct in enumerate(eval_data):
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guess = cp.parse(correct.leaves())
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chunkscore.score(correct, guess)
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if i < 3:
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cmp_chunks(correct, guess)
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print(chunkscore)
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outfilename = "/tmp/ne_chunker_{0}.pickle".format(fmt)
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print("Saving chunker to {0}...".format(outfilename))
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with open(outfilename, "wb") as outfile:
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pickle.dump(cp, outfile, -1)
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return cp
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if __name__ == "__main__":
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# Make sure that the pickled object has the right class name:
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from nltk.chunk.named_entity import build_model
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build_model("binary")
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build_model("multiclass")
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