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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 argparse
import glob
import sys
import gc
import os
import codecs
import torch
from onmt.utils.logging import init_logger, logger
import onmt.inputters as inputters
import onmt.opts as opts
def check_existing_pt_files(opt):
""" Checking if there are existing .pt files to avoid tampering """
# We will use glob.glob() to find sharded {train|valid}.[0-9]*.pt
# when training, so check to avoid tampering with existing pt files
# or mixing them up.
for t in ['train', 'valid', 'vocab']:
pattern = opt.save_data + '.' + t + '*.pt'
if glob.glob(pattern):
sys.stderr.write("Please backup existing pt file: %s, "
"to avoid tampering!\n" % pattern)
sys.exit(1)
def parse_args():
""" Parsing arguments """
parser = argparse.ArgumentParser(
description='preprocess.py',
formatter_class=argparse.ArgumentDefaultsHelpFormatter)
opts.add_md_help_argument(parser)
opts.preprocess_opts(parser)
opt = parser.parse_args()
torch.manual_seed(opt.seed)
check_existing_pt_files(opt)
return opt
def build_save_in_shards_using_shards_size(src_corpus, tgt_corpus, fields,
corpus_type, opt):
"""
Divide src_corpus and tgt_corpus into smaller multiples
src_copus and tgt corpus files, then build shards, each
shard will have opt.shard_size samples except last shard.
The reason we do this is to avoid taking up too much memory due
to sucking in a huge corpus file.
"""
with codecs.open(src_corpus, "r", encoding="utf-8") as fsrc:
with codecs.open(tgt_corpus, "r", encoding="utf-8") as ftgt:
logger.info("Reading source and target files: %s %s."
% (src_corpus, tgt_corpus))
src_data = fsrc.readlines()
tgt_data = ftgt.readlines()
num_shards = int(len(src_data) / opt.shard_size)
for x in range(num_shards):
logger.info("Splitting shard %d." % x)
f = codecs.open(src_corpus + ".{0}.txt".format(x), "w",
encoding="utf-8")
f.writelines(
src_data[x * opt.shard_size: (x + 1) * opt.shard_size])
f.close()
f = codecs.open(tgt_corpus + ".{0}.txt".format(x), "w",
encoding="utf-8")
f.writelines(
tgt_data[x * opt.shard_size: (x + 1) * opt.shard_size])
f.close()
num_written = num_shards * opt.shard_size
if len(src_data) > num_written:
logger.info("Splitting shard %d." % num_shards)
f = codecs.open(src_corpus + ".{0}.txt".format(num_shards),
'w', encoding="utf-8")
f.writelines(
src_data[num_shards * opt.shard_size:])
f.close()
f = codecs.open(tgt_corpus + ".{0}.txt".format(num_shards),
'w', encoding="utf-8")
f.writelines(
tgt_data[num_shards * opt.shard_size:])
f.close()
src_list = sorted(glob.glob(src_corpus + '.*.txt'))
tgt_list = sorted(glob.glob(tgt_corpus + '.*.txt'))
ret_list = []
for index, src in enumerate(src_list):
logger.info("Building shard %d." % index)
dataset = inputters.build_dataset(
fields, opt.data_type,
src_path=src,
tgt_path=tgt_list[index],
src_dir=opt.src_dir,
src_seq_length=opt.src_seq_length,
tgt_seq_length=opt.tgt_seq_length,
src_seq_length_trunc=opt.src_seq_length_trunc,
tgt_seq_length_trunc=opt.tgt_seq_length_trunc,
dynamic_dict=opt.dynamic_dict,
sample_rate=opt.sample_rate,
window_size=opt.window_size,
window_stride=opt.window_stride,
window=opt.window,
image_channel_size=opt.image_channel_size
)
pt_file = "{:s}.{:s}.{:d}.pt".format(
opt.save_data, corpus_type, index)
# We save fields in vocab.pt seperately, so make it empty.
dataset.fields = []
logger.info(" * saving %sth %s data shard to %s."
% (index, corpus_type, pt_file))
torch.save(dataset, pt_file)
ret_list.append(pt_file)
os.remove(src)
os.remove(tgt_list[index])
del dataset.examples
gc.collect()
del dataset
gc.collect()
return ret_list
def build_save_dataset(corpus_type, fields, opt):
""" Building and saving the dataset """
assert corpus_type in ['train', 'valid']
if corpus_type == 'train':
src_corpus = opt.train_src
tgt_corpus = opt.train_tgt
else:
src_corpus = opt.valid_src
tgt_corpus = opt.valid_tgt
if (opt.shard_size > 0):
return build_save_in_shards_using_shards_size(src_corpus,
tgt_corpus,
fields,
corpus_type,
opt)
# For data_type == 'img' or 'audio', currently we don't do
# preprocess sharding. We only build a monolithic dataset.
# But since the interfaces are uniform, it would be not hard
# to do this should users need this feature.
dataset = inputters.build_dataset(
fields, opt.data_type,
src_path=src_corpus,
tgt_path=tgt_corpus,
src_dir=opt.src_dir,
src_seq_length=opt.src_seq_length,
tgt_seq_length=opt.tgt_seq_length,
src_seq_length_trunc=opt.src_seq_length_trunc,
tgt_seq_length_trunc=opt.tgt_seq_length_trunc,
dynamic_dict=opt.dynamic_dict,
sample_rate=opt.sample_rate,
window_size=opt.window_size,
window_stride=opt.window_stride,
window=opt.window,
image_channel_size=opt.image_channel_size)
# We save fields in vocab.pt seperately, so make it empty.
dataset.fields = []
pt_file = "{:s}.{:s}.pt".format(opt.save_data, corpus_type)
logger.info(" * saving %s dataset to %s." % (corpus_type, pt_file))
torch.save(dataset, pt_file)
return [pt_file]
def build_save_vocab(train_dataset, fields, opt):
""" Building and saving the vocab """
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)
# Can't save fields, so remove/reconstruct at training time.
vocab_file = opt.save_data + '.vocab.pt'
torch.save(inputters.save_fields_to_vocab(fields), vocab_file)
def main():
opt = parse_args()
if (opt.max_shard_size > 0):
raise AssertionError("-max_shard_size is deprecated, please use \
-shard_size (number of examples) instead.")
init_logger(opt.log_file)
logger.info("Extracting features...")
src_nfeats = inputters.get_num_features(
opt.data_type, opt.train_src, 'src')
tgt_nfeats = inputters.get_num_features(
opt.data_type, opt.train_tgt, 'tgt')
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)
logger.info("Building & saving training data...")
train_dataset_files = build_save_dataset('train', fields, opt)
logger.info("Building & saving validation data...")
build_save_dataset('valid', fields, opt)
logger.info("Building & saving vocabulary...")
build_save_vocab(train_dataset_files, fields, opt)
if __name__ == "__main__":
main()