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preprocess.py
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preprocess.py
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#!/usr/bin/env python
# -*- coding: utf-8 -*-
"""
Pre-process Data / features files and build vocabulary
"""
import codecs
import glob
import sys
import gc
import torch
from functools import partial
from collections import Counter, defaultdict
from onmt.utils.logging import init_logger, logger
from onmt.utils.misc import split_corpus
import onmt.inputters as inputters
import onmt.opts as opts
from onmt.utils.parse import ArgumentParser
from onmt.inputters.inputter import _build_fields_vocab,\
_load_vocab
def check_existing_pt_files(opt):
""" Check if there are existing .pt files to avoid overwriting them """
pattern = opt.save_data + '.{}*.pt'
for t in ['train', 'valid']:
path = pattern.format(t)
if glob.glob(path):
sys.stderr.write("Please backup existing pt files: %s, "
"to avoid overwriting them!\n" % path)
sys.exit(1)
def build_save_dataset(corpus_type, fields, src_reader, tgt_reader, opt):
assert corpus_type in ['train', 'valid']
if corpus_type == 'train':
counters = defaultdict(Counter)
srcs = opt.train_src
tgts = opt.train_tgt
ids = opt.train_ids
else:
srcs = [opt.valid_src]
tgts = [opt.valid_tgt]
ids = [None]
for src, tgt, maybe_id in zip(srcs, tgts, ids):
logger.info("Reading source and target files: %s %s." % (src, tgt))
src_shards = split_corpus(src, opt.shard_size)
tgt_shards = split_corpus(tgt, opt.shard_size)
shard_pairs = zip(src_shards, tgt_shards)
dataset_paths = []
if (corpus_type == "train" or opt.filter_valid) and tgt is not None:
filter_pred = partial(
inputters.filter_example, use_src_len=opt.data_type == "text",
max_src_len=opt.src_seq_length, max_tgt_len=opt.tgt_seq_length)
else:
filter_pred = None
if corpus_type == "train":
existing_fields = None
if opt.src_vocab != "":
try:
logger.info("Using existing vocabulary...")
existing_fields = torch.load(opt.src_vocab)
except torch.serialization.pickle.UnpicklingError:
logger.info("Building vocab from text file...")
src_vocab, src_vocab_size = _load_vocab(
opt.src_vocab, "src", counters,
opt.src_words_min_frequency)
else:
src_vocab = None
if opt.tgt_vocab != "":
tgt_vocab, tgt_vocab_size = _load_vocab(
opt.tgt_vocab, "tgt", counters,
opt.tgt_words_min_frequency)
else:
tgt_vocab = None
for i, (src_shard, tgt_shard) in enumerate(shard_pairs):
assert len(src_shard) == len(tgt_shard)
logger.info("Building shard %d." % i)
dataset = inputters.Dataset(
fields,
readers=([src_reader, tgt_reader]
if tgt_reader else [src_reader]),
data=([("src", src_shard), ("tgt", tgt_shard)]
if tgt_reader else [("src", src_shard)]),
dirs=([opt.src_dir, None]
if tgt_reader else [opt.src_dir]),
sort_key=inputters.str2sortkey[opt.data_type],
filter_pred=filter_pred
)
if corpus_type == "train" and existing_fields is None:
for ex in dataset.examples:
for name, field in fields.items():
try:
f_iter = iter(field)
except TypeError:
f_iter = [(name, field)]
all_data = [getattr(ex, name, None)]
else:
all_data = getattr(ex, name)
for (sub_n, sub_f), fd in zip(
f_iter, all_data):
has_vocab = (sub_n == 'src' and
src_vocab is not None) or \
(sub_n == 'tgt' and
tgt_vocab is not None)
if (hasattr(sub_f, 'sequential')
and sub_f.sequential and not has_vocab):
val = fd
counters[sub_n].update(val)
if maybe_id:
shard_base = corpus_type + "_" + maybe_id
else:
shard_base = corpus_type
data_path = "{:s}.{:s}.{:d}.pt".\
format(opt.save_data, shard_base, i)
dataset_paths.append(data_path)
logger.info(" * saving %sth %s data shard to %s."
% (i, shard_base, data_path))
dataset.save(data_path)
del dataset.examples
gc.collect()
del dataset
gc.collect()
if corpus_type == "train":
vocab_path = opt.save_data + '.vocab.pt'
if existing_fields is None:
fields = _build_fields_vocab(
fields, counters, opt.data_type,
opt.share_vocab, opt.vocab_size_multiple,
opt.src_vocab_size, opt.src_words_min_frequency,
opt.tgt_vocab_size, opt.tgt_words_min_frequency)
else:
fields = existing_fields
torch.save(fields, vocab_path)
def build_save_vocab(train_dataset, fields, opt):
fields = inputters.build_vocab(
train_dataset, fields, opt.data_type, opt.share_vocab,
opt.src_vocab, opt.src_vocab_size, opt.src_words_min_frequency,
opt.tgt_vocab, opt.tgt_vocab_size, opt.tgt_words_min_frequency,
vocab_size_multiple=opt.vocab_size_multiple
)
vocab_path = opt.save_data + '.vocab.pt'
torch.save(fields, vocab_path)
def count_features(path):
"""
path: location of a corpus file with whitespace-delimited tokens and
│-delimited features within the token
returns: the number of features in the dataset
"""
with codecs.open(path, "r", "utf-8") as f:
first_tok = f.readline().split(None, 1)[0]
return len(first_tok.split(u"│")) - 1
def main(opt):
ArgumentParser.validate_preprocess_args(opt)
torch.manual_seed(opt.seed)
if not(opt.overwrite):
check_existing_pt_files(opt)
init_logger(opt.log_file)
logger.info("Extracting features...")
src_nfeats = 0
tgt_nfeats = 0
for src, tgt in zip(opt.train_src, opt.train_tgt):
src_nfeats += count_features(src) if opt.data_type == 'text' \
else 0
tgt_nfeats += count_features(tgt) # tgt always text so far
logger.info(" * number of source features: %d." % src_nfeats)
logger.info(" * number of target features: %d." % tgt_nfeats)
logger.info("Building `Fields` object...")
fields = inputters.get_fields(
opt.data_type,
src_nfeats,
tgt_nfeats,
dynamic_dict=opt.dynamic_dict,
src_truncate=opt.src_seq_length_trunc,
tgt_truncate=opt.tgt_seq_length_trunc)
src_reader = inputters.str2reader[opt.data_type].from_opt(opt)
tgt_reader = inputters.str2reader["text"].from_opt(opt)
logger.info("Building & saving training data...")
build_save_dataset(
'train', fields, src_reader, tgt_reader, opt)
if opt.valid_src and opt.valid_tgt:
logger.info("Building & saving validation data...")
build_save_dataset('valid', fields, src_reader, tgt_reader, opt)
def _get_parser():
parser = ArgumentParser(description='preprocess.py')
opts.config_opts(parser)
opts.preprocess_opts(parser)
return parser
if __name__ == "__main__":
parser = _get_parser()
opt = parser.parse_args()
main(opt)