mirror of
https://github.com/explosion/spaCy.git
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286 lines
12 KiB
Python
286 lines
12 KiB
Python
# coding: utf8
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from __future__ import unicode_literals, division, print_function
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import plac
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from pathlib import Path
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import tqdm
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from thinc.neural._classes.model import Model
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from timeit import default_timer as timer
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import json
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import shutil
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from ._messages import Messages
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from ..attrs import PROB, IS_OOV, CLUSTER, LANG
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from ..gold import GoldCorpus
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from ..util import prints, minibatch, minibatch_by_words
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from .. import util
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from .. import about
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from .. import displacy
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from ..compat import json_dumps
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@plac.annotations(
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lang=("model language", "positional", None, str),
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output_dir=("output directory to store model in", "positional", None, str),
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train_data=("location of JSON-formatted training data", "positional",
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None, str),
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dev_data=("location of JSON-formatted development data (optional)",
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"positional", None, str),
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n_iter=("number of iterations", "option", "n", int),
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n_sents=("number of sentences", "option", "ns", int),
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use_gpu=("Use GPU", "option", "g", int),
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vectors=("Model to load vectors from", "option", "v"),
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no_tagger=("Don't train tagger", "flag", "T", bool),
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no_parser=("Don't train parser", "flag", "P", bool),
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no_entities=("Don't train NER", "flag", "N", bool),
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parser_multitasks=("Side objectives for parser CNN, e.g. dep dep,tag", "option", "pt", str),
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entity_multitasks=("Side objectives for ner CNN, e.g. dep dep,tag", "option", "et", str),
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gold_preproc=("Use gold preprocessing", "flag", "G", bool),
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version=("Model version", "option", "V", str),
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meta_path=("Optional path to meta.json. All relevant properties will be "
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"overwritten.", "option", "m", Path))
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def train(lang, output_dir, train_data, dev_data, n_iter=30, n_sents=0,
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parser_multitasks='', entity_multitasks='',
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use_gpu=-1, vectors=None, no_tagger=False,
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no_parser=False, no_entities=False, gold_preproc=False,
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version="0.0.0", meta_path=None):
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"""
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Train a model. Expects data in spaCy's JSON format.
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"""
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util.fix_random_seed()
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util.set_env_log(True)
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n_sents = n_sents or None
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output_path = util.ensure_path(output_dir)
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train_path = util.ensure_path(train_data)
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dev_path = util.ensure_path(dev_data)
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meta_path = util.ensure_path(meta_path)
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if not train_path.exists():
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prints(train_path, title=Messages.M050, exits=1)
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if dev_path and not dev_path.exists():
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prints(dev_path, title=Messages.M051, exits=1)
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if meta_path is not None and not meta_path.exists():
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prints(meta_path, title=Messages.M020, exits=1)
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meta = util.read_json(meta_path) if meta_path else {}
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if not isinstance(meta, dict):
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prints(Messages.M053.format(meta_type=type(meta)),
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title=Messages.M052, exits=1)
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meta.setdefault('lang', lang)
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meta.setdefault('name', 'unnamed')
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if not output_path.exists():
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output_path.mkdir()
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print("Counting training words (limit=%s" % n_sents)
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corpus = GoldCorpus(train_path, dev_path, limit=n_sents)
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n_train_words = corpus.count_train()
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print(n_train_words)
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pipeline = ['tagger', 'parser', 'ner']
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if no_tagger and 'tagger' in pipeline:
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pipeline.remove('tagger')
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if no_parser and 'parser' in pipeline:
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pipeline.remove('parser')
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if no_entities and 'ner' in pipeline:
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pipeline.remove('ner')
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# Take dropout and batch size as generators of values -- dropout
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# starts high and decays sharply, to force the optimizer to explore.
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# Batch size starts at 1 and grows, so that we make updates quickly
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# at the beginning of training.
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dropout_rates = util.decaying(util.env_opt('dropout_from', 0.2),
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util.env_opt('dropout_to', 0.2),
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util.env_opt('dropout_decay', 0.0))
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batch_sizes = util.compounding(util.env_opt('batch_from', 1000),
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util.env_opt('batch_to', 1000),
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util.env_opt('batch_compound', 1.001))
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lang_class = util.get_lang_class(lang)
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nlp = lang_class()
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meta['pipeline'] = pipeline
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nlp.meta.update(meta)
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if vectors:
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print("Load vectors model", vectors)
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util.load_model(vectors, vocab=nlp.vocab)
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for lex in nlp.vocab:
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values = {}
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for attr, func in nlp.vocab.lex_attr_getters.items():
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# These attrs are expected to be set by data. Others should
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# be set by calling the language functions.
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if attr not in (CLUSTER, PROB, IS_OOV, LANG):
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values[lex.vocab.strings[attr]] = func(lex.orth_)
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lex.set_attrs(**values)
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lex.is_oov = False
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for name in pipeline:
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nlp.add_pipe(nlp.create_pipe(name), name=name)
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nlp.add_pipe(nlp.create_pipe('merge_subtokens'))
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if parser_multitasks:
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for objective in parser_multitasks.split(','):
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nlp.parser.add_multitask_objective(objective)
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if entity_multitasks:
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for objective in entity_multitasks.split(','):
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nlp.entity.add_multitask_objective(objective)
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optimizer = nlp.begin_training(lambda: corpus.train_tuples, device=use_gpu)
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nlp._optimizer = None
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print("Itn. Dep Loss NER Loss UAS NER P. NER R. NER F. Tag % Token % CPU WPS GPU WPS")
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try:
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for i in range(n_iter):
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train_docs = corpus.train_docs(nlp, noise_level=0.0,
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gold_preproc=gold_preproc, max_length=0)
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words_seen = 0
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with tqdm.tqdm(total=n_train_words, leave=False) as pbar:
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losses = {}
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for batch in minibatch_by_words(train_docs, size=batch_sizes):
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if not batch:
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continue
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docs, golds = zip(*batch)
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nlp.update(docs, golds, sgd=optimizer,
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drop=next(dropout_rates), losses=losses)
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pbar.update(sum(len(doc) for doc in docs))
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words_seen += sum(len(doc) for doc in docs)
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with nlp.use_params(optimizer.averages):
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util.set_env_log(False)
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epoch_model_path = output_path / ('model%d' % i)
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nlp.to_disk(epoch_model_path)
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nlp_loaded = util.load_model_from_path(epoch_model_path)
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dev_docs = list(corpus.dev_docs(
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nlp_loaded,
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gold_preproc=gold_preproc))
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nwords = sum(len(doc_gold[0]) for doc_gold in dev_docs)
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start_time = timer()
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scorer = nlp_loaded.evaluate(dev_docs)
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end_time = timer()
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if use_gpu < 0:
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gpu_wps = None
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cpu_wps = nwords/(end_time-start_time)
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else:
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gpu_wps = nwords/(end_time-start_time)
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with Model.use_device('cpu'):
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nlp_loaded = util.load_model_from_path(epoch_model_path)
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dev_docs = list(corpus.dev_docs(
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nlp_loaded, gold_preproc=gold_preproc))
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start_time = timer()
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scorer = nlp_loaded.evaluate(dev_docs)
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end_time = timer()
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cpu_wps = nwords/(end_time-start_time)
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acc_loc = (output_path / ('model%d' % i) / 'accuracy.json')
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with acc_loc.open('w') as file_:
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file_.write(json_dumps(scorer.scores))
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meta_loc = output_path / ('model%d' % i) / 'meta.json'
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meta['accuracy'] = scorer.scores
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meta['speed'] = {'nwords': nwords, 'cpu': cpu_wps,
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'gpu': gpu_wps}
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meta['vectors'] = {'width': nlp.vocab.vectors_length,
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'vectors': len(nlp.vocab.vectors),
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'keys': nlp.vocab.vectors.n_keys}
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meta['lang'] = nlp.lang
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meta['pipeline'] = pipeline
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meta['spacy_version'] = '>=%s' % about.__version__
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meta.setdefault('name', 'model%d' % i)
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meta.setdefault('version', version)
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with meta_loc.open('w') as file_:
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file_.write(json_dumps(meta))
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util.set_env_log(True)
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print_progress(i, losses, scorer.scores, cpu_wps=cpu_wps,
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gpu_wps=gpu_wps)
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finally:
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print("Saving model...")
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with nlp.use_params(optimizer.averages):
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final_model_path = output_path / 'model-final'
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nlp.to_disk(final_model_path)
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components = []
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if not no_parser:
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components.append('parser')
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if not no_tagger:
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components.append('tagger')
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if not no_entities:
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components.append('ner')
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_collate_best_model(meta, output_path, components)
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def _collate_best_model(meta, output_path, components):
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bests = {}
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for component in components:
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bests[component] = _find_best(output_path, component)
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best_dest = output_path / 'model-best'
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shutil.copytree(output_path / 'model-final', best_dest)
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for component, best_component_src in bests.items():
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shutil.rmtree(best_dest / component)
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shutil.copytree(best_component_src / component, best_dest / component)
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with (best_component_src / 'accuracy.json').open() as file_:
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accs = json.load(file_)
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for metric in _get_metrics(component):
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meta['accuracy'][metric] = accs[metric]
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with (best_dest / 'meta.json').open('w') as file_:
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file_.write(json_dumps(meta))
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def _find_best(experiment_dir, component):
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accuracies = []
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for epoch_model in experiment_dir.iterdir():
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if epoch_model.is_dir() and epoch_model.parts[-1] != "model-final":
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accs = json.load((epoch_model / "accuracy.json").open())
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scores = [accs.get(metric, 0.0) for metric in _get_metrics(component)]
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accuracies.append((scores, epoch_model))
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if accuracies:
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return max(accuracies)[1]
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else:
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return None
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def _get_metrics(component):
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if component == "parser":
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return ("las", "uas", "token_acc")
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elif component == "tagger":
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return ("tags_acc",)
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elif component == "ner":
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return ("ents_f", "ents_p", "ents_r")
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return ("token_acc",)
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def _render_parses(i, to_render):
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to_render[0].user_data['title'] = "Batch %d" % i
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with Path('/tmp/entities.html').open('w') as file_:
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html = displacy.render(to_render[:5], style='ent', page=True)
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file_.write(html)
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with Path('/tmp/parses.html').open('w') as file_:
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html = displacy.render(to_render[:5], style='dep', page=True)
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file_.write(html)
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def print_progress(itn, losses, dev_scores, cpu_wps=0.0, gpu_wps=0.0):
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scores = {}
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for col in ['dep_loss', 'tag_loss', 'uas', 'tags_acc', 'token_acc',
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'ents_p', 'ents_r', 'ents_f', 'cpu_wps', 'gpu_wps']:
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scores[col] = 0.0
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scores['dep_loss'] = losses.get('parser', 0.0)
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scores['ner_loss'] = losses.get('ner', 0.0)
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scores['tag_loss'] = losses.get('tagger', 0.0)
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scores.update(dev_scores)
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scores['cpu_wps'] = cpu_wps
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scores['gpu_wps'] = gpu_wps or 0.0
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tpl = ''.join((
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'{:<6d}',
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'{dep_loss:<10.3f}',
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'{ner_loss:<10.3f}',
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'{uas:<8.3f}',
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'{ents_p:<8.3f}',
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'{ents_r:<8.3f}',
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'{ents_f:<8.3f}',
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'{tags_acc:<8.3f}',
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'{token_acc:<9.3f}',
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'{cpu_wps:<9.1f}',
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'{gpu_wps:.1f}',
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))
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print(tpl.format(itn, **scores))
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def print_results(scorer):
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results = {
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'TOK': '%.2f' % scorer.token_acc,
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'POS': '%.2f' % scorer.tags_acc,
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'UAS': '%.2f' % scorer.uas,
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'LAS': '%.2f' % scorer.las,
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'NER P': '%.2f' % scorer.ents_p,
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'NER R': '%.2f' % scorer.ents_r,
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'NER F': '%.2f' % scorer.ents_f}
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util.print_table(results, title="Results")
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