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interactive.py
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interactive.py
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#!/usr/bin/env python3 -u
# Copyright (c) Facebook, Inc. and its affiliates.
#
# This source code is licensed under the MIT license found in the
# LICENSE file in the root directory of this source tree.
"""
Translate raw text with a trained model. Batches data on-the-fly.
"""
from collections import namedtuple
import fileinput
import torch
from fairseq import checkpoint_utils, options, tasks, utils
from fairseq.data import encoders
Batch = namedtuple('Batch', 'ids src_tokens src_lengths')
Translation = namedtuple('Translation', 'src_str hypos pos_scores alignments')
def buffered_read(input, buffer_size):
buffer = []
with fileinput.input(files=[input], openhook=fileinput.hook_encoded("utf-8")) as h:
for src_str in h:
buffer.append(src_str.strip())
if len(buffer) >= buffer_size:
yield buffer
buffer = []
if len(buffer) > 0:
yield buffer
def make_batches(lines, args, task, max_positions, encode_fn):
tokens = [
task.source_dictionary.encode_line(
encode_fn(src_str), add_if_not_exist=False
).long()
for src_str in lines
]
lengths = torch.LongTensor([t.numel() for t in tokens])
itr = task.get_batch_iterator(
dataset=task.build_dataset_for_inference(tokens, lengths),
max_tokens=args.max_tokens,
max_sentences=args.max_sentences,
max_positions=max_positions,
).next_epoch_itr(shuffle=False)
for batch in itr:
yield Batch(
ids=batch['id'],
src_tokens=batch['net_input']['src_tokens'], src_lengths=batch['net_input']['src_lengths'],
)
def main(args):
utils.import_user_module(args)
if args.buffer_size < 1:
args.buffer_size = 1
if args.max_tokens is None and args.max_sentences is None:
args.max_sentences = 1
assert not args.sampling or args.nbest == args.beam, \
'--sampling requires --nbest to be equal to --beam'
assert not args.max_sentences or args.max_sentences <= args.buffer_size, \
'--max-sentences/--batch-size cannot be larger than --buffer-size'
print(args)
use_cuda = torch.cuda.is_available() and not args.cpu
# Setup task, e.g., translation
task = tasks.setup_task(args)
# Load ensemble
print('| loading model(s) from {}'.format(args.path))
models, _model_args = checkpoint_utils.load_model_ensemble(
args.path.split(':'),
arg_overrides=eval(args.model_overrides),
task=task,
)
# Set dictionaries
src_dict = task.source_dictionary
tgt_dict = task.target_dictionary
# Optimize ensemble for generation
for model in models:
model.make_generation_fast_(
beamable_mm_beam_size=None if args.no_beamable_mm else args.beam,
need_attn=args.print_alignment,
)
if args.fp16:
model.half()
if use_cuda:
model.cuda()
# Initialize generator
generator = task.build_generator(args)
# Handle tokenization and BPE
tokenizer = encoders.build_tokenizer(args)
bpe = encoders.build_bpe(args)
def encode_fn(x):
if tokenizer is not None:
x = tokenizer.encode(x)
if bpe is not None:
x = bpe.encode(x)
return x
def decode_fn(x):
if bpe is not None:
x = bpe.decode(x)
if tokenizer is not None:
x = tokenizer.decode(x)
return x
# Load alignment dictionary for unknown word replacement
# (None if no unknown word replacement, empty if no path to align dictionary)
align_dict = utils.load_align_dict(args.replace_unk)
max_positions = utils.resolve_max_positions(
task.max_positions(),
*[model.max_positions() for model in models]
)
if args.buffer_size > 1:
print('| Sentence buffer size:', args.buffer_size)
print('| Type the input sentence and press return:')
start_id = 0
for inputs in buffered_read(args.input, args.buffer_size):
results = []
for batch in make_batches(inputs, args, task, max_positions, encode_fn):
src_tokens = batch.src_tokens
src_lengths = batch.src_lengths
if use_cuda:
src_tokens = src_tokens.cuda()
src_lengths = src_lengths.cuda()
sample = {
'net_input': {
'src_tokens': src_tokens,
'src_lengths': src_lengths,
},
}
translations = task.inference_step(generator, models, sample)
for i, (id, hypos) in enumerate(zip(batch.ids.tolist(), translations)):
src_tokens_i = utils.strip_pad(src_tokens[i], tgt_dict.pad())
results.append((start_id + id, src_tokens_i, hypos))
# sort output to match input order
for id, src_tokens, hypos in sorted(results, key=lambda x: x[0]):
if src_dict is not None:
src_str = src_dict.string(src_tokens, args.remove_bpe)
print('S-{}\t{}'.format(id, src_str))
# Process top predictions
for hypo in hypos[:min(len(hypos), args.nbest)]:
hypo_tokens, hypo_str, alignment = utils.post_process_prediction(
hypo_tokens=hypo['tokens'].int().cpu(),
src_str=src_str,
alignment=hypo['alignment'].int().cpu() if hypo['alignment'] is not None else None,
align_dict=align_dict,
tgt_dict=tgt_dict,
remove_bpe=args.remove_bpe,
)
hypo_str = decode_fn(hypo_str)
print('H-{}\t{}\t{}'.format(id, hypo['score'], hypo_str))
print('P-{}\t{}'.format(
id,
' '.join(map(lambda x: '{:.4f}'.format(x), hypo['positional_scores'].tolist()))
))
if args.print_alignment:
print('A-{}\t{}'.format(
id,
' '.join(map(lambda x: str(utils.item(x)), alignment))
))
# update running id counter
start_id += len(inputs)
def cli_main():
parser = options.get_generation_parser(interactive=True)
args = options.parse_args_and_arch(parser)
main(args)
if __name__ == '__main__':
cli_main()