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train.py
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# Copyright (c) 2019-present, Facebook, Inc.
# All rights reserved.
#
# This source code is licensed under the license found in the
# LICENSE file in the root directory of this source tree.
#
import json
import random
import argparse
from src.slurm import init_signal_handler, init_distributed_mode
from src.data.loader import check_data_params, load_data
from src.utils import bool_flag, initialize_exp, set_sampling_probs, shuf_order
from src.model import check_model_params, build_model
from src.model.memory import HashingMemory
from src.trainer import SingleTrainer, EncDecTrainer
from src.evaluation.evaluator import SingleEvaluator, EncDecEvaluator
import torch
import numpy as np
def get_parser():
"""
Generate a parameters parser.
"""
# parse parameters
parser = argparse.ArgumentParser(description="Language transfer")
# main parameters
parser.add_argument("--dump_path", type=str, default="./dumped/",
help="Experiment dump path")
parser.add_argument("--exp_name", type=str, default="",
help="Experiment name")
parser.add_argument("--save_periodic", type=int, default=0,
help="Save the model periodically (0 to disable)")
parser.add_argument("--exp_id", type=str, default="",
help="Experiment ID")
# float16 / AMP API
parser.add_argument("--fp16", type=bool_flag, default=False,
help="Run model with float16")
parser.add_argument("--amp", type=int, default=-1,
help="Use AMP wrapper for float16 / distributed / gradient accumulation. Level of optimization. -1 to disable.")
# only use an encoder (use a specific decoder for machine translation)
parser.add_argument("--encoder_only", type=bool_flag, default=True,
help="Only use an encoder")
# model parameters
parser.add_argument("--emb_dim", type=int, default=512,
help="Embedding layer size")
parser.add_argument("--n_layers", type=int, default=4,
help="Number of Transformer layers")
parser.add_argument("--n_heads", type=int, default=8,
help="Number of Transformer heads")
parser.add_argument("--dropout", type=float, default=0,
help="Dropout")
parser.add_argument("--attention_dropout", type=float, default=0,
help="Dropout in the attention layer")
parser.add_argument("--gelu_activation", type=bool_flag, default=False,
help="Use a GELU activation instead of ReLU")
parser.add_argument("--share_inout_emb", type=bool_flag, default=True,
help="Share input and output embeddings")
parser.add_argument("--sinusoidal_embeddings", type=bool_flag, default=False,
help="Use sinusoidal embeddings")
parser.add_argument("--use_lang_emb", type=bool_flag, default=True,
help="Use language embedding")
parser.add_argument("--attention_setting", type=str, choices=["v0", "v1", "v2"], required=True,
help="Setting for decoder cross-attention module, benefits for distinguish language.\
v0:don't distinguish language (defalut setting of offically released XLM); \
v1:specify the final linear layer of cross-attention by language (defalut setting of offically released MASS); \
v2:specify the entire cross-attention by language")
# memory parameters
parser.add_argument("--use_memory", type=bool_flag, default=False,
help="Use an external memory")
if parser.parse_known_args()[0].use_memory:
HashingMemory.register_args(parser)
parser.add_argument("--mem_enc_positions", type=str, default="",
help="Memory positions in the encoder ('4' for inside layer 4, '7,10+' for inside layer 7 and after layer 10)")
parser.add_argument("--mem_dec_positions", type=str, default="",
help="Memory positions in the decoder. Same syntax as `mem_enc_positions`.")
# adaptive softmax
parser.add_argument("--asm", type=bool_flag, default=False,
help="Use adaptive softmax")
if parser.parse_known_args()[0].asm:
parser.add_argument("--asm_cutoffs", type=str, default="8000,20000",
help="Adaptive softmax cutoffs")
parser.add_argument("--asm_div_value", type=float, default=4,
help="Adaptive softmax cluster sizes ratio")
# causal language modeling task parameters
parser.add_argument("--context_size", type=int, default=0,
help="Context size (0 means that the first elements in sequences won't have any context)")
# masked language modeling task parameters
parser.add_argument("--word_pred", type=float, default=0.15,
help="Fraction of words for which we need to make a prediction")
parser.add_argument("--sample_alpha", type=float, default=0,
help="Exponent for transforming word counts to probabilities (~word2vec sampling)")
parser.add_argument("--word_mask_keep_rand", type=str, default="0.8,0.1,0.1",
help="Fraction of words to mask out / keep / randomize, among the words to predict")
# input sentence noise
parser.add_argument("--word_shuffle", type=float, default=0,
help="Randomly shuffle input words (0 to disable)")
parser.add_argument("--word_dropout", type=float, default=0,
help="Randomly dropout input words (0 to disable)")
parser.add_argument("--word_blank", type=float, default=0,
help="Randomly blank input words (0 to disable)")
parser.add_argument("--word_mass", type=float, default=0,
help="Randomly mask input words (0 to disable)")
# data
parser.add_argument("--data_path", type=str, default="",
help="Data path")
parser.add_argument("--lgs", type=str, default="",
help="Languages (lg1-lg2-lg3 .. ex: en-fr-es-de)")
parser.add_argument("--max_vocab", type=int, default=-1,
help="Maximum vocabulary size (-1 to disable)")
parser.add_argument("--min_count", type=int, default=0,
help="Minimum vocabulary count")
parser.add_argument("--lg_sampling_factor", type=float, default=-1,
help="Language sampling factor")
parser.add_argument("--mono_data_ratio", type=float, default=1,
help="Ratio of data used")
# batch parameters
parser.add_argument("--bptt", type=int, default=256,
help="Sequence length")
parser.add_argument("--min_len", type=int, default=0,
help="Minimum length of sentences (after BPE)")
parser.add_argument("--max_len", type=int, default=100,
help="Maximum length of sentences (after BPE)")
parser.add_argument("--group_by_size", type=bool_flag, default=True,
help="Sort sentences by size during the training")
parser.add_argument("--batch_size", type=int, default=32,
help="Number of sentences per batch")
parser.add_argument("--max_batch_size", type=int, default=0,
help="Maximum number of sentences per batch (used in combination with tokens_per_batch, 0 to disable)")
parser.add_argument("--tokens_per_batch", type=int, default=-1,
help="Number of tokens per batch")
# training parameters
parser.add_argument("--split_data", type=bool_flag, default=False,
help="Split data across workers of a same node")
parser.add_argument("--optimizer", type=str, default="adam,lr=0.0001",
help="Optimizer (SGD / RMSprop / Adam, etc.)")
parser.add_argument("--clip_grad_norm", type=float, default=5,
help="Clip gradients norm (0 to disable)")
parser.add_argument("--epoch_size", type=int, default=100000,
help="Epoch size / evaluation frequency (-1 for parallel data size)")
parser.add_argument("--max_epoch", type=int, default=100000,
help="Maximum epoch size")
parser.add_argument("--stopping_criterion", type=str, default="",
help="Stopping criterion, and number of non-increase before stopping the experiment")
parser.add_argument("--validation_metrics", type=str, default="",
help="Validation metrics")
parser.add_argument("--accumulate_gradients", type=int, default=1,
help="Accumulate model gradients over N iterations (N times larger batch sizes)")
parser.add_argument("--log_interval", type=int, default=5,
help="Log printing interval")
# training coefficients
parser.add_argument("--lambda_mlm", type=str, default="1",
help="Prediction coefficient (MLM)")
parser.add_argument("--lambda_clm", type=str, default="1",
help="Causal coefficient (LM)")
parser.add_argument("--lambda_pc", type=str, default="1",
help="PC coefficient")
parser.add_argument("--lambda_ae", type=str, default="1",
help="AE coefficient")
parser.add_argument("--lambda_mt", type=str, default="1",
help="MT coefficient")
parser.add_argument("--lambda_bt", type=str, default="1",
help="BT coefficient")
parser.add_argument("--lambda_mass", type=str, default="1",
help="MASS coefficient")
parser.add_argument("--lambda_span", type=str, default="10000",
help="Span coefficient")
# training steps
parser.add_argument("--clm_steps", type=str, default="",
help="Causal prediction steps (CLM)")
parser.add_argument("--mlm_steps", type=str, default="",
help="Masked prediction steps (MLM / TLM)")
parser.add_argument("--mass_steps", type=str, default="",
help="MASS prediction steps")
parser.add_argument("--mt_steps", type=str, default="",
help="Machine translation steps")
parser.add_argument("--ae_steps", type=str, default="",
help="Denoising auto-encoder steps")
parser.add_argument("--bt_steps", type=str, default="",
help="Back-translation steps")
parser.add_argument("--pc_steps", type=str, default="",
help="Parallel classification steps")
# reload pretrained embeddings / pretrained model / checkpoint
parser.add_argument("--reload_emb", type=str, default="",
help="Reload pretrained word embeddings")
parser.add_argument("--reload_model", type=str, default="",
help="Reload a pretrained model")
parser.add_argument("--reload_checkpoint", type=str, default="",
help="Reload a checkpoint")
# beam search (for MT only)
parser.add_argument("--beam_size", type=int, default=1,
help="Beam size, default = 1 (greedy decoding)")
parser.add_argument("--length_penalty", type=float, default=1,
help="Length penalty, values < 1.0 favor shorter sentences, while values > 1.0 favor longer ones.")
parser.add_argument("--early_stopping", type=bool_flag, default=False,
help="Early stopping, stop as soon as we have `beam_size` hypotheses, although longer ones may have better scores.")
# evaluation
parser.add_argument("--eval_bleu", type=bool_flag, default=False,
help="Evaluate BLEU score during MT training")
parser.add_argument("--eval_only", type=bool_flag, default=False,
help="Only run evaluations")
# debug
parser.add_argument("--debug_train", type=bool_flag, default=False,
help="Use valid sets for train sets (faster loading)")
parser.add_argument("--debug_slurm", type=bool_flag, default=False,
help="Debug multi-GPU / multi-node within a SLURM job")
parser.add_argument("--debug", help="Enable all debug flags",
action="store_true")
# multi-gpu / multi-node
parser.add_argument("--local_rank", type=int, default=-1,
help="Multi-GPU - Local rank")
parser.add_argument("--master_port", type=int, default=-1,
help="Master port (for multi-node SLURM jobs)")
# online self-training
parser.add_argument('--stbt', action='store_true', default=False,
help='Use self-training back-translation')
parser.add_argument("--stbt_start_epoch", type=int, default=0,
help="self-training start epoch")
parser.add_argument("--lambda_st", type=str, default="0.01",
help="ST coefficient")
parser.add_argument("--stbt_add_noise", action='store_true', default=False,
help="add noise in src sentence in self-training")
# seed
parser.add_argument("--seed", type=int, default=-1, help="If >= 0, set the seed")
return parser
def main(params):
# initialize the multi-GPU / multi-node training
init_distributed_mode(params)
# initialize the experiment
logger = initialize_exp(params)
# initialize SLURM signal handler for time limit / pre-emption
init_signal_handler()
# load data
data = load_data(params)
# build model
if params.encoder_only:
model = build_model(params, data['dico'])
else:
encoder, decoder = build_model(params, data['dico'])
# build trainer, reload potential checkpoints / build evaluator
if params.encoder_only:
trainer = SingleTrainer(model, data, params)
evaluator = SingleEvaluator(trainer, data, params)
else:
trainer = EncDecTrainer(encoder, decoder, data, params)
evaluator = EncDecEvaluator(trainer, data, params)
# evaluation
if params.eval_only:
scores = evaluator.run_all_evals(trainer)
for k, v in scores.items():
logger.info("%s -> %.6f" % (k, v))
logger.info("__log__:%s" % json.dumps(scores))
exit()
# set sampling probabilities for training
set_sampling_probs(data, params)
# language model training
for _ in range(trainer.epoch, params.max_epoch):
logger.info("============ Starting epoch %i ... ============" % trainer.epoch)
trainer.n_sentences = 0
while trainer.n_sentences < trainer.epoch_size:
# CLM steps
for lang1, lang2 in shuf_order(params.clm_steps, params):
trainer.clm_step(lang1, lang2, params.lambda_clm)
# MLM steps (also includes TLM if lang2 is not None)
for lang1, lang2 in shuf_order(params.mlm_steps, params):
trainer.mlm_step(lang1, lang2, params.lambda_mlm)
# parallel classification steps
for lang1, lang2 in shuf_order(params.pc_steps, params):
trainer.pc_step(lang1, lang2, params.lambda_pc)
# denoising auto-encoder steps
for lang in shuf_order(params.ae_steps):
trainer.mt_step(lang, lang, params.lambda_ae)
# mass prediction steps
for lang in shuf_order(params.mass_steps):
trainer.mass_step(lang, params.lambda_mass)
# machine translation steps
for lang1, lang2 in shuf_order(params.mt_steps, params):
trainer.mt_step(lang1, lang2, params.lambda_mt)
if params.stbt and trainer.epoch >= params.stbt_start_epoch:
# online self-training + back-translation steps
for lang1, lang2, lang3 in shuf_order(params.bt_steps):
trainer.st_bt_step(lang1, lang2, lang3, params.lambda_bt, params.lambda_st)
else:
# back-translation steps
for lang1, lang2, lang3 in shuf_order(params.bt_steps):
trainer.bt_step(lang1, lang2, lang3, params.lambda_bt)
trainer.iter()
logger.info("============ End of epoch %i ============" % trainer.epoch)
# evaluate perplexity
scores = evaluator.run_all_evals(trainer)
# print / JSON log
for k, v in scores.items():
logger.info("%s -> %.6f" % (k, v))
if params.is_master:
logger.info("__log__:%s" % json.dumps(scores))
# end of epoch
trainer.save_best_model(scores)
trainer.save_periodic()
trainer.end_epoch(scores)
if __name__ == '__main__':
# generate parser / parse parameters
parser = get_parser()
params = parser.parse_args()
if params.seed >= 0:
print('| Set seed {}'.format(params.seed))
torch.manual_seed(params.seed)
torch.cuda.manual_seed(params.seed)
random.seed(params.seed)
np.random.seed(params.seed)
# debug mode
if params.debug:
params.exp_name = 'debug'
# params.exp_id = 'debug_%08i' % random.randint(0, 100000000)
params.exp_id = 'debug_%08i' % 1
params.debug_slurm = True
params.debug_train = True
# check parameters
check_data_params(params)
check_model_params(params)
# run experiment
main(params)