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207 lines
6.3 KiB
Python
207 lines
6.3 KiB
Python
#!/usr/bin/env python
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'''Example of training a named entity recognition system from scratch using spaCy
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This example is written to be self-contained and reasonably transparent.
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To achieve that, it duplicates some of spaCy's internal functionality.
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Specifically, in this example, we don't use spaCy's built-in Language class to
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wire together the Vocab, Tokenizer and EntityRecognizer. Instead, we write
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our own simple Pipeline class, so that it's easier to see how the pieces
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interact.
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Input data:
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https://www.lt.informatik.tu-darmstadt.de/fileadmin/user_upload/Group_LangTech/data/GermEval2014_complete_data.zip
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Developed for: spaCy 1.7.1
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Last tested for: spaCy 2.0.0a13
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'''
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from __future__ import unicode_literals, print_function
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import plac
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from pathlib import Path
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import random
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import json
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import tqdm
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from thinc.neural.optimizers import Adam
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from thinc.neural.ops import NumpyOps
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from spacy.vocab import Vocab
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from spacy.pipeline import TokenVectorEncoder, NeuralEntityRecognizer
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from spacy.tokenizer import Tokenizer
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from spacy.tokens import Doc
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from spacy.attrs import *
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from spacy.gold import GoldParse
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from spacy.gold import iob_to_biluo
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from spacy.gold import minibatch
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from spacy.scorer import Scorer
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import spacy.util
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try:
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unicode
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except NameError:
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unicode = str
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spacy.util.set_env_log(True)
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def init_vocab():
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return Vocab(
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lex_attr_getters={
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LOWER: lambda string: string.lower(),
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NORM: lambda string: string.lower(),
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PREFIX: lambda string: string[0],
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SUFFIX: lambda string: string[-3:],
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})
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class Pipeline(object):
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def __init__(self, vocab=None, tokenizer=None, entity=None):
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if vocab is None:
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vocab = init_vocab()
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if tokenizer is None:
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tokenizer = Tokenizer(vocab, {}, None, None, None)
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if entity is None:
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entity = NeuralEntityRecognizer(vocab)
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self.vocab = vocab
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self.tokenizer = tokenizer
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self.entity = entity
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self.pipeline = [self.entity]
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def begin_training(self):
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for model in self.pipeline:
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model.begin_training([])
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optimizer = Adam(NumpyOps(), 0.001)
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return optimizer
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def __call__(self, input_):
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doc = self.make_doc(input_)
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for process in self.pipeline:
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process(doc)
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return doc
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def make_doc(self, input_):
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if isinstance(input_, bytes):
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input_ = input_.decode('utf8')
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if isinstance(input_, unicode):
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return self.tokenizer(input_)
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else:
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return Doc(self.vocab, words=input_)
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def make_gold(self, input_, annotations):
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doc = self.make_doc(input_)
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gold = GoldParse(doc, entities=annotations)
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return gold
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def update(self, inputs, annots, sgd, losses=None, drop=0.):
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if losses is None:
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losses = {}
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docs = [self.make_doc(input_) for input_ in inputs]
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golds = [self.make_gold(input_, annot) for input_, annot in
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zip(inputs, annots)]
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self.entity.update(docs, golds, drop=drop,
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sgd=sgd, losses=losses)
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return losses
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def evaluate(self, examples):
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scorer = Scorer()
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for input_, annot in examples:
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gold = self.make_gold(input_, annot)
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doc = self(input_)
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scorer.score(doc, gold)
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return scorer.scores
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def to_disk(self, path):
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path = Path(path)
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if not path.exists():
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path.mkdir()
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elif not path.is_dir():
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raise IOError("Can't save pipeline to %s\nNot a directory" % path)
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self.vocab.to_disk(path / 'vocab')
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self.entity.to_disk(path / 'ner')
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def from_disk(self, path):
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path = Path(path)
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if not path.exists():
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raise IOError("Cannot load pipeline from %s\nDoes not exist" % path)
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if not path.is_dir():
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raise IOError("Cannot load pipeline from %s\nNot a directory" % path)
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self.vocab = self.vocab.from_disk(path / 'vocab')
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self.entity = self.entity.from_disk(path / 'ner')
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def train(nlp, train_examples, dev_examples, nr_epoch=5):
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sgd = nlp.begin_training()
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print("Iter", "Loss", "P", "R", "F")
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for i in range(nr_epoch):
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random.shuffle(train_examples)
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losses = {}
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for batch in minibatch(tqdm.tqdm(train_examples, leave=False), size=8):
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inputs, annots = zip(*batch)
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nlp.update(list(inputs), list(annots), sgd, losses=losses)
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scores = nlp.evaluate(dev_examples)
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report_scores(i+1, losses['ner'], scores)
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def report_scores(i, loss, scores):
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precision = '%.2f' % scores['ents_p']
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recall = '%.2f' % scores['ents_r']
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f_measure = '%.2f' % scores['ents_f']
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print('Epoch %d: %d %s %s %s' % (
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i, int(loss), precision, recall, f_measure))
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def read_examples(path):
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path = Path(path)
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with path.open() as file_:
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sents = file_.read().strip().split('\n\n')
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for sent in sents:
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sent = sent.strip()
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if not sent:
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continue
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tokens = sent.split('\n')
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while tokens and tokens[0].startswith('#'):
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tokens.pop(0)
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words = []
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iob = []
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for token in tokens:
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if token.strip():
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pieces = token.split('\t')
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words.append(pieces[1])
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iob.append(pieces[2])
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yield words, iob_to_biluo(iob)
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def get_labels(examples):
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labels = set()
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for words, tags in examples:
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for tag in tags:
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if '-' in tag:
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labels.add(tag.split('-')[1])
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return sorted(labels)
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@plac.annotations(
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model_dir=("Path to save the model", "positional", None, Path),
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train_loc=("Path to your training data", "positional", None, Path),
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dev_loc=("Path to your development data", "positional", None, Path),
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)
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def main(model_dir, train_loc, dev_loc, nr_epoch=30):
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print(model_dir, train_loc, dev_loc)
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train_examples = list(read_examples(train_loc))
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dev_examples = read_examples(dev_loc)
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nlp = Pipeline()
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for label in get_labels(train_examples):
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nlp.entity.add_label(label)
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print("Add label", label)
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train(nlp, train_examples, list(dev_examples), nr_epoch)
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nlp.to_disk(model_dir)
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if __name__ == '__main__':
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plac.call(main)
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