spaCy/bin/parser/nn_train.py

#!/usr/bin/env python
from __future__ import division
from __future__ import unicode_literals

import os
from os import path
import shutil
import codecs
import random

import plac
import cProfile
import pstats
import re

import spacy.util
from spacy.en import English
from spacy.en.pos import POS_TEMPLATES, POS_TAGS, setup_model_dir

from spacy.syntax.util import Config
from spacy.gold import read_json_file
from spacy.gold import GoldParse

from spacy.scorer import Scorer

from thinc.theano_nn import compile_theano_model

from spacy.syntax.parser import Parser
from spacy._theano import TheanoModel


def _corrupt(c, noise_level):
    if random.random() >= noise_level:
        return c
    elif c == ' ':
        return '\n'
    elif c == '\n':
        return ' '
    elif c in ['.', "'", "!", "?"]:
        return ''
    else:
        return c.lower()


def add_noise(orig, noise_level):
    if random.random() >= noise_level:
        return orig
    elif type(orig) == list:
        corrupted = [_corrupt(word, noise_level) for word in orig]
        corrupted = [w for w in corrupted if w]
        return corrupted
    else:
        return ''.join(_corrupt(c, noise_level) for c in orig)


def score_model(scorer, nlp, raw_text, annot_tuples, verbose=False):
    if raw_text is None:
        tokens = nlp.tokenizer.tokens_from_list(annot_tuples[1])
    else:
        tokens = nlp.tokenizer(raw_text)
    nlp.tagger(tokens)
    nlp.entity(tokens)
    nlp.parser(tokens)
    gold = GoldParse(tokens, annot_tuples)
    scorer.score(tokens, gold, verbose=verbose)


def _merge_sents(sents):
    m_deps = [[], [], [], [], [], []]
    m_brackets = []
    i = 0
    for (ids, words, tags, heads, labels, ner), brackets in sents:
        m_deps[0].extend(id_ + i for id_ in ids)
        m_deps[1].extend(words)
        m_deps[2].extend(tags)
        m_deps[3].extend(head + i for head in heads)
        m_deps[4].extend(labels)
        m_deps[5].extend(ner)
        m_brackets.extend((b['first'] + i, b['last'] + i, b['label']) for b in brackets)
        i += len(ids)
    return [(m_deps, m_brackets)]


def train(Language, gold_tuples, model_dir, n_iter=15, feat_set=u'basic',
          seed=0, gold_preproc=False, n_sents=0, corruption_level=0,
          verbose=False,
          eta=0.01, mu=0.9, n_hidden=100, word_vec_len=10, pos_vec_len=10):
    dep_model_dir = path.join(model_dir, 'deps')
    pos_model_dir = path.join(model_dir, 'pos')
    ner_model_dir = path.join(model_dir, 'ner')
    if path.exists(dep_model_dir):
        shutil.rmtree(dep_model_dir)
    if path.exists(pos_model_dir):
        shutil.rmtree(pos_model_dir)
    if path.exists(ner_model_dir):
        shutil.rmtree(ner_model_dir)
    os.mkdir(dep_model_dir)
    os.mkdir(pos_model_dir)
    os.mkdir(ner_model_dir)
    setup_model_dir(sorted(POS_TAGS.keys()), POS_TAGS, POS_TEMPLATES, pos_model_dir)

    Config.write(dep_model_dir, 'config', features=feat_set, seed=seed,
                 labels=Language.ParserTransitionSystem.get_labels(gold_tuples))
    Config.write(ner_model_dir, 'config', features='ner', seed=seed,
                 labels=Language.EntityTransitionSystem.get_labels(gold_tuples),
                 beam_width=0)
    
    if n_sents > 0:
        gold_tuples = gold_tuples[:n_sents]
    
    nlp = Language(data_dir=model_dir)

    def make_model(n_classes, input_spec, model_dir):
        print input_spec
        n_in = sum(n_cols * len(fields) for (n_cols, fields) in input_spec)
        print 'Compiling'
        debug, train_func, predict_func = compile_theano_model(n_classes, n_hidden,
                                                        n_in, 0.0, 0.0)
        print 'Done'
        return TheanoModel(
            n_classes,
            input_spec,
            train_func,
            predict_func,
            model_loc=model_dir, 
            debug=debug)

    nlp._parser = Parser(nlp.vocab.strings, dep_model_dir, nlp.ParserTransitionSystem,
                         make_model)

    print "Itn.\tP.Loss\tUAS\tNER F.\tTag %\tToken %"
    for itn in range(n_iter):
        scorer = Scorer()
        loss = 0
        for raw_text, sents in gold_tuples:
            if gold_preproc:
                raw_text = None
            else:
                sents = _merge_sents(sents)
            for annot_tuples, ctnt in sents:
                if len(annot_tuples[1]) == 1:
                    continue
                score_model(scorer, nlp, raw_text, annot_tuples,
                            verbose=verbose if itn >= 2 else False)
                if raw_text is None:
                    words = add_noise(annot_tuples[1], corruption_level)
                    tokens = nlp.tokenizer.tokens_from_list(words)
                else:
                    raw_text = add_noise(raw_text, corruption_level)
                    tokens = nlp.tokenizer(raw_text)
                nlp.tagger(tokens)
                gold = GoldParse(tokens, annot_tuples, make_projective=True)
                if not gold.is_projective:
                    raise Exception(
                        "Non-projective sentence in training, after we should "
                        "have enforced projectivity: %s" % annot_tuples
                    )
                loss += nlp.parser.train(tokens, gold)
                nlp.entity.train(tokens, gold)
                nlp.tagger.train(tokens, gold.tags)
        random.shuffle(gold_tuples)
        print '%d:\t%d\t%.3f\t%.3f\t%.3f\t%.3f' % (itn, loss, scorer.uas, scorer.ents_f,
                                               scorer.tags_acc,
                                               scorer.token_acc)
    nlp.parser.model.end_training()
    nlp.entity.model.end_training()
    nlp.tagger.model.end_training()
    nlp.vocab.strings.dump(path.join(model_dir, 'vocab', 'strings.txt'))
    return nlp


def evaluate(nlp, gold_tuples, gold_preproc=True):
    scorer = Scorer()
    for raw_text, sents in gold_tuples:
        if gold_preproc:
            raw_text = None
        else:
            sents = _merge_sents(sents)
        for annot_tuples, brackets in sents:
            if raw_text is None:
                tokens = nlp.tokenizer.tokens_from_list(annot_tuples[1])
                nlp.tagger(tokens)
                nlp.entity(tokens)
                nlp.parser(tokens)
            else:
                tokens = nlp(raw_text, merge_mwes=False)
            gold = GoldParse(tokens, annot_tuples)
            scorer.score(tokens, gold)
    return scorer


def write_parses(Language, dev_loc, model_dir, out_loc, beam_width=None):
    nlp = Language(data_dir=model_dir)
    if beam_width is not None:
        nlp.parser.cfg.beam_width = beam_width
    gold_tuples = read_json_file(dev_loc)
    scorer = Scorer()
    out_file = codecs.open(out_loc, 'w', 'utf8')
    for raw_text, sents in gold_tuples:
        sents = _merge_sents(sents)
        for annot_tuples, brackets in sents:
            if raw_text is None:
                tokens = nlp.tokenizer.tokens_from_list(annot_tuples[1])
                nlp.tagger(tokens)
                nlp.entity(tokens)
                nlp.parser(tokens)
            else:
                tokens = nlp(raw_text, merge_mwes=False)
            gold = GoldParse(tokens, annot_tuples)
            scorer.score(tokens, gold, verbose=False)
            for t in tokens:
                out_file.write(
                    '%s\t%s\t%s\t%s\n' % (t.orth_, t.tag_, t.head.orth_, t.dep_)
                )
    return scorer


@plac.annotations(
    train_loc=("Location of training file or directory"),
    dev_loc=("Location of development file or directory"),
    model_dir=("Location of output model directory",),
    eval_only=("Skip training, and only evaluate", "flag", "e", bool),
    corruption_level=("Amount of noise to add to training data", "option", "c", float),
    gold_preproc=("Use gold-standard sentence boundaries in training?", "flag", "g", bool),
    out_loc=("Out location", "option", "o", str),
    n_sents=("Number of training sentences", "option", "n", int),
    n_iter=("Number of training iterations", "option", "i", int),
    verbose=("Verbose error reporting", "flag", "v", bool),
    debug=("Debug mode", "flag", "d", bool),
)
def main(train_loc, dev_loc, model_dir, n_sents=0, n_iter=15, out_loc="", verbose=False,
         debug=False, corruption_level=0.0, gold_preproc=False, beam_width=1,
         eval_only=False):
    gold_train = list(read_json_file(train_loc))
    nlp = train(English, gold_train, model_dir,
               feat_set='embed',
               gold_preproc=gold_preproc, n_sents=n_sents,
               corruption_level=corruption_level, n_iter=n_iter,
               verbose=verbose)
    #if out_loc:
    #    write_parses(English, dev_loc, model_dir, out_loc, beam_width=beam_width)
    scorer = evaluate(nlp, list(read_json_file(dev_loc)), gold_preproc=gold_preproc)
    
    print 'TOK', 100-scorer.token_acc
    print 'POS', scorer.tags_acc
    print 'UAS', scorer.uas
    print 'LAS', scorer.las

    print 'NER P', scorer.ents_p
    print 'NER R', scorer.ents_r
    print 'NER F', scorer.ents_f


if __name__ == '__main__':
    plac.call(main)