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train_extractive_reader.py
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train_extractive_reader.py
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#!/usr/bin/env python3
# Copyright (c) Facebook, Inc. and its affiliates.
# All rights reserved.
#
# This source code is licensed under the license found in the
# LICENSE file in the root directory of this source tree.
"""
Pipeline to train the reader model on top of the retriever results
"""
import collections
import json
import sys
import hydra
import logging
import numpy as np
import os
import torch
from collections import defaultdict
from omegaconf import DictConfig, OmegaConf
from typing import List
from dpr.data.qa_validation import exact_match_score
from dpr.data.reader_data import (
ReaderSample,
get_best_spans,
SpanPrediction,
ExtractiveReaderDataset,
)
from dpr.models import init_reader_components
from dpr.models.reader import create_reader_input, ReaderBatch, compute_loss
from dpr.options import (
setup_cfg_gpu,
set_seed,
set_cfg_params_from_state,
get_encoder_params_state_from_cfg,
setup_logger,
)
from dpr.utils.data_utils import (
ShardedDataIterator,
)
from dpr.utils.model_utils import (
get_schedule_linear,
load_states_from_checkpoint,
move_to_device,
CheckpointState,
get_model_file,
setup_for_distributed_mode,
get_model_obj,
)
logger = logging.getLogger()
setup_logger(logger)
ReaderQuestionPredictions = collections.namedtuple("ReaderQuestionPredictions", ["id", "predictions", "gold_answers"])
class ReaderTrainer(object):
def __init__(self, cfg: DictConfig):
self.cfg = cfg
self.shard_id = cfg.local_rank if cfg.local_rank != -1 else 0
self.distributed_factor = cfg.distributed_world_size or 1
logger.info("***** Initializing components for training *****")
model_file = get_model_file(self.cfg, self.cfg.checkpoint_file_name)
saved_state = None
if model_file:
logger.info("!! model_file = %s", model_file)
saved_state = load_states_from_checkpoint(model_file)
set_cfg_params_from_state(saved_state.encoder_params, cfg)
tensorizer, reader, optimizer = init_reader_components(cfg.encoder.encoder_model_type, cfg)
reader, optimizer = setup_for_distributed_mode(
reader,
optimizer,
cfg.device,
cfg.n_gpu,
cfg.local_rank,
cfg.fp16,
cfg.fp16_opt_level,
)
self.reader = reader
self.optimizer = optimizer
self.tensorizer = tensorizer
self.start_epoch = 0
self.start_batch = 0
self.scheduler_state = None
self.best_validation_result = None
self.best_cp_name = None
if saved_state:
self._load_saved_state(saved_state)
def get_data_iterator(
self,
path: str,
batch_size: int,
is_train: bool,
shuffle=True,
shuffle_seed: int = 0,
offset: int = 0,
) -> ShardedDataIterator:
run_preprocessing = True if self.distributed_factor == 1 or self.cfg.local_rank in [-1, 0] else False
gold_passages_src = self.cfg.gold_passages_src
if gold_passages_src:
if not is_train:
gold_passages_src = self.cfg.gold_passages_src_dev
assert os.path.exists(gold_passages_src), "Please specify valid gold_passages_src/gold_passages_src_dev"
dataset = ExtractiveReaderDataset(
path,
is_train,
gold_passages_src,
self.tensorizer,
run_preprocessing,
self.cfg.num_workers,
)
dataset.load_data()
iterator = ShardedDataIterator(
dataset,
shard_id=self.shard_id,
num_shards=self.distributed_factor,
batch_size=batch_size,
shuffle=shuffle,
shuffle_seed=shuffle_seed,
offset=offset,
)
iterator.calculate_shards()
# apply deserialization hook
iterator.apply(lambda sample: sample.on_deserialize())
return iterator
def run_train(self):
cfg = self.cfg
train_iterator = self.get_data_iterator(
cfg.train_files,
cfg.train.batch_size,
True,
shuffle=True,
shuffle_seed=cfg.seed,
offset=self.start_batch,
)
# num_train_epochs = cfg.train.num_train_epochs - self.start_epoch
logger.info("Total iterations per epoch=%d", train_iterator.max_iterations)
updates_per_epoch = train_iterator.max_iterations // cfg.train.gradient_accumulation_steps
total_updates = updates_per_epoch * cfg.train.num_train_epochs
logger.info(" Total updates=%d", total_updates)
warmup_steps = cfg.train.warmup_steps
if self.scheduler_state:
logger.info("Loading scheduler state %s", self.scheduler_state)
shift = int(self.scheduler_state["last_epoch"])
logger.info("Steps shift %d", shift)
scheduler = get_schedule_linear(
self.optimizer,
warmup_steps,
total_updates,
)
else:
scheduler = get_schedule_linear(self.optimizer, warmup_steps, total_updates)
eval_step = cfg.train.eval_step
logger.info(" Eval step = %d", eval_step)
logger.info("***** Training *****")
global_step = self.start_epoch * updates_per_epoch + self.start_batch
for epoch in range(self.start_epoch, cfg.train.num_train_epochs):
logger.info("***** Epoch %d *****", epoch)
global_step = self._train_epoch(scheduler, epoch, eval_step, train_iterator, global_step)
if cfg.local_rank in [-1, 0]:
logger.info("Training finished. Best validation checkpoint %s", self.best_cp_name)
return
def validate_and_save(self, epoch: int, iteration: int, scheduler):
cfg = self.cfg
# in distributed DDP mode, save checkpoint for only one process
save_cp = cfg.local_rank in [-1, 0]
reader_validation_score = self.validate()
if save_cp:
cp_name = self._save_checkpoint(scheduler, epoch, iteration)
logger.info("Saved checkpoint to %s", cp_name)
if reader_validation_score < (self.best_validation_result or 0):
self.best_validation_result = reader_validation_score
self.best_cp_name = cp_name
logger.info("New Best validation checkpoint %s", cp_name)
def validate(self):
logger.info("Validation ...")
cfg = self.cfg
self.reader.eval()
data_iterator = self.get_data_iterator(cfg.dev_files, cfg.train.dev_batch_size, False, shuffle=False)
log_result_step = cfg.train.log_batch_step
all_results = []
eval_top_docs = cfg.eval_top_docs
for i, samples_batch in enumerate(data_iterator.iterate_ds_data()):
input = create_reader_input(
self.tensorizer.get_pad_id(),
samples_batch,
cfg.passages_per_question_predict,
cfg.encoder.sequence_length,
cfg.max_n_answers,
is_train=False,
shuffle=False,
sep_token_id=self.tensorizer.tokenizer.sep_token_id, # TODO: tmp
)
input = ReaderBatch(**move_to_device(input._asdict(), cfg.device))
attn_mask = self.tensorizer.get_attn_mask(input.input_ids)
with torch.no_grad():
start_logits, end_logits, relevance_logits = self.reader(
input.input_ids, attn_mask, input.token_type_ids
)
batch_predictions = self._get_best_prediction(
start_logits,
end_logits,
relevance_logits,
samples_batch,
passage_thresholds=eval_top_docs,
)
all_results.extend(batch_predictions)
if (i + 1) % log_result_step == 0:
logger.info("Eval step: %d ", i)
ems = defaultdict(list)
for q_predictions in all_results:
gold_answers = q_predictions.gold_answers
span_predictions = q_predictions.predictions # {top docs threshold -> SpanPrediction()}
for (n, span_prediction) in span_predictions.items():
em_hit = max([exact_match_score(span_prediction.prediction_text, ga) for ga in gold_answers])
ems[n].append(em_hit)
em = 0
for n in sorted(ems.keys()):
em = np.mean(ems[n])
logger.info("n=%d\tEM %.2f" % (n, em * 100))
if cfg.prediction_results_file:
self._save_predictions(cfg.prediction_results_file, all_results)
return em
def _train_epoch(
self,
scheduler,
epoch: int,
eval_step: int,
train_data_iterator: ShardedDataIterator,
global_step: int,
):
cfg = self.cfg
rolling_train_loss = 0.0
epoch_loss = 0
log_result_step = cfg.train.log_batch_step
rolling_loss_step = cfg.train.train_rolling_loss_step
self.reader.train()
epoch_batches = train_data_iterator.max_iterations
for i, samples_batch in enumerate(train_data_iterator.iterate_ds_data(epoch=epoch)):
data_iteration = train_data_iterator.get_iteration()
# enables to resume to exactly same train state
if cfg.fully_resumable:
np.random.seed(cfg.seed + global_step)
torch.manual_seed(cfg.seed + global_step)
if cfg.n_gpu > 0:
torch.cuda.manual_seed_all(cfg.seed + global_step)
input = create_reader_input(
self.tensorizer.get_pad_id(),
samples_batch,
cfg.passages_per_question,
cfg.encoder.sequence_length,
cfg.max_n_answers,
is_train=True,
shuffle=True,
sep_token_id=self.tensorizer.tokenizer.sep_token_id, # TODO: tmp
)
loss = self._calc_loss(input)
epoch_loss += loss.item()
rolling_train_loss += loss.item()
max_grad_norm = cfg.train.max_grad_norm
if cfg.fp16:
from apex import amp
with amp.scale_loss(loss, self.optimizer) as scaled_loss:
scaled_loss.backward()
if max_grad_norm > 0:
torch.nn.utils.clip_grad_norm_(amp.master_params(self.optimizer), max_grad_norm)
else:
loss.backward()
if max_grad_norm > 0:
torch.nn.utils.clip_grad_norm_(self.reader.parameters(), max_grad_norm)
if (i + 1) % cfg.train.gradient_accumulation_steps == 0:
self.optimizer.step()
scheduler.step()
self.reader.zero_grad()
global_step += 1
if i % log_result_step == 0:
lr = self.optimizer.param_groups[0]["lr"]
logger.info(
"Epoch: %d: Step: %d/%d, global_step=%d, lr=%f",
epoch,
data_iteration,
epoch_batches,
global_step,
lr,
)
if (i + 1) % rolling_loss_step == 0:
logger.info("Train batch %d", data_iteration)
latest_rolling_train_av_loss = rolling_train_loss / rolling_loss_step
logger.info(
"Avg. loss per last %d batches: %f",
rolling_loss_step,
latest_rolling_train_av_loss,
)
rolling_train_loss = 0.0
if global_step % eval_step == 0:
logger.info(
"Validation: Epoch: %d Step: %d/%d",
epoch,
data_iteration,
epoch_batches,
)
self.validate_and_save(epoch, train_data_iterator.get_iteration(), scheduler)
self.reader.train()
epoch_loss = (epoch_loss / epoch_batches) if epoch_batches > 0 else 0
logger.info("Av Loss per epoch=%f", epoch_loss)
return global_step
def _save_checkpoint(self, scheduler, epoch: int, offset: int) -> str:
cfg = self.cfg
model_to_save = get_model_obj(self.reader)
cp = os.path.join(
cfg.output_dir,
cfg.checkpoint_file_name + "." + str(epoch) + ("." + str(offset) if offset > 0 else ""),
)
meta_params = get_encoder_params_state_from_cfg(cfg)
state = CheckpointState(
model_to_save.state_dict(),
self.optimizer.state_dict(),
scheduler.state_dict(),
offset,
epoch,
meta_params,
)
torch.save(state._asdict(), cp)
return cp
def _load_saved_state(self, saved_state: CheckpointState):
epoch = saved_state.epoch
offset = saved_state.offset
if offset == 0: # epoch has been completed
epoch += 1
logger.info("Loading checkpoint @ batch=%s and epoch=%s", offset, epoch)
self.start_epoch = epoch
self.start_batch = offset
model_to_load = get_model_obj(self.reader)
if saved_state.model_dict:
logger.info("Loading model weights from saved state ...")
model_to_load.load_state_dict(saved_state.model_dict, strict=False)
logger.info("Loading saved optimizer state ...")
if saved_state.optimizer_dict:
self.optimizer.load_state_dict(saved_state.optimizer_dict)
self.scheduler_state = saved_state.scheduler_dict
def _get_best_prediction(
self,
start_logits,
end_logits,
relevance_logits,
samples_batch: List[ReaderSample],
passage_thresholds: List[int] = None,
) -> List[ReaderQuestionPredictions]:
cfg = self.cfg
max_answer_length = cfg.max_answer_length
questions_num, passages_per_question = relevance_logits.size()
_, idxs = torch.sort(
relevance_logits,
dim=1,
descending=True,
)
batch_results = []
for q in range(questions_num):
sample = samples_batch[q]
non_empty_passages_num = len(sample.passages)
nbest = []
for p in range(passages_per_question):
passage_idx = idxs[q, p].item()
if passage_idx >= non_empty_passages_num: # empty passage selected, skip
continue
reader_passage = sample.passages[passage_idx]
sequence_ids = reader_passage.sequence_ids
sequence_len = sequence_ids.size(0)
# assuming question & title information is at the beginning of the sequence
passage_offset = reader_passage.passage_offset
p_start_logits = start_logits[q, passage_idx].tolist()[passage_offset:sequence_len]
p_end_logits = end_logits[q, passage_idx].tolist()[passage_offset:sequence_len]
ctx_ids = sequence_ids.tolist()[passage_offset:]
best_spans = get_best_spans(
self.tensorizer,
p_start_logits,
p_end_logits,
ctx_ids,
max_answer_length,
passage_idx,
relevance_logits[q, passage_idx].item(),
top_spans=10,
)
nbest.extend(best_spans)
if len(nbest) > 0 and not passage_thresholds:
break
if passage_thresholds:
passage_rank_matches = {}
for n in passage_thresholds:
curr_nbest = [pred for pred in nbest if pred.passage_index < n]
passage_rank_matches[n] = curr_nbest[0]
predictions = passage_rank_matches
else:
if len(nbest) == 0:
predictions = {passages_per_question: SpanPrediction("", -1, -1, -1, "")}
else:
predictions = {passages_per_question: nbest[0]}
batch_results.append(ReaderQuestionPredictions(sample.question, predictions, sample.answers))
return batch_results
def _calc_loss(self, input: ReaderBatch) -> torch.Tensor:
cfg = self.cfg
input = ReaderBatch(**move_to_device(input._asdict(), cfg.device))
attn_mask = self.tensorizer.get_attn_mask(input.input_ids)
questions_num, passages_per_question, _ = input.input_ids.size()
if self.reader.training:
loss = self.reader(
input.input_ids,
attn_mask,
input.token_type_ids,
input.start_positions,
input.end_positions,
input.answers_mask,
)
else:
# TODO: remove?
with torch.no_grad():
start_logits, end_logits, rank_logits = self.reader(input.input_ids, attn_mask, input.token_type_ids)
loss = compute_loss(
input.start_positions,
input.end_positions,
input.answers_mask,
start_logits,
end_logits,
rank_logits,
questions_num,
passages_per_question,
)
if cfg.n_gpu > 1:
loss = loss.mean()
if cfg.train.gradient_accumulation_steps > 1:
loss = loss / cfg.train.gradient_accumulation_steps
return loss
def _save_predictions(self, out_file: str, prediction_results: List[ReaderQuestionPredictions]):
logger.info("Saving prediction results to %s", out_file)
with open(out_file, "w", encoding="utf-8") as output:
save_results = []
for r in prediction_results:
save_results.append(
{
"question": r.id,
"gold_answers": r.gold_answers,
"predictions": [
{
"top_k": top_k,
"prediction": {
"text": span_pred.prediction_text,
"score": span_pred.span_score,
"relevance_score": span_pred.relevance_score,
"passage_idx": span_pred.passage_index,
"passage": self.tensorizer.to_string(span_pred.passage_token_ids),
},
}
for top_k, span_pred in r.predictions.items()
],
}
)
output.write(json.dumps(save_results, indent=4) + "\n")
@hydra.main(config_path="conf", config_name="extractive_reader_train_cfg")
def main(cfg: DictConfig):
if cfg.output_dir is not None:
os.makedirs(cfg.output_dir, exist_ok=True)
cfg = setup_cfg_gpu(cfg)
set_seed(cfg)
if cfg.local_rank in [-1, 0]:
logger.info("CFG (after gpu configuration):")
logger.info("%s", OmegaConf.to_yaml(cfg))
trainer = ReaderTrainer(cfg)
if cfg.train_files is not None:
trainer.run_train()
elif cfg.dev_files:
logger.info("No train files are specified. Run validation.")
trainer.validate()
else:
logger.warning("Neither train_file or (model_file & dev_file) parameters are specified. Nothing to do.")
if __name__ == "__main__":
logger.info("Sys.argv: %s", sys.argv)
hydra_formatted_args = []
# convert the cli params added by torch.distributed.launch into Hydra format
for arg in sys.argv:
if arg.startswith("--"):
hydra_formatted_args.append(arg[len("--") :])
else:
hydra_formatted_args.append(arg)
logger.info("Hydra formatted Sys.argv: %s", hydra_formatted_args)
sys.argv = hydra_formatted_args
main()