# Copyright (c) 2021 PaddlePaddle Authors. All Rights Reserved. # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. import logging import time from collections import defaultdict from pathlib import Path import numpy as np import paddle import paddle.nn as nn import pandas as pd from paddle import distributed as dist from paddle.io import DataLoader from sklearn.metrics import classification_report from sklearn.metrics import f1_score from sklearn.metrics import precision_recall_fscore_support from speechtask.punctuation_restoration.io.dataset import PuncDataset from speechtask.punctuation_restoration.io.dataset import PuncDatasetFromBertTokenizer from speechtask.punctuation_restoration.model.BertBLSTM import BertBLSTMPunc from speechtask.punctuation_restoration.model.BertLinear import BertLinearPunc from speechtask.punctuation_restoration.model.blstm import BiLSTM from speechtask.punctuation_restoration.model.lstm import RnnLm from speechtask.punctuation_restoration.utils import layer_tools from speechtask.punctuation_restoration.utils import mp_tools from speechtask.punctuation_restoration.utils.checkpoint import Checkpoint from tensorboardX import SummaryWriter __all__ = ["Trainer", "Tester"] DefinedClassifier = { "lstm": RnnLm, "blstm": BiLSTM, "BertLinear": BertLinearPunc, "BertBLSTM": BertBLSTMPunc } DefinedLoss = { "ce": nn.CrossEntropyLoss, } DefinedDataset = { 'PuncCh': PuncDataset, 'Bert': PuncDatasetFromBertTokenizer, } class Trainer(): """ An experiment template in order to structure the training code and take care of saving, loading, logging, visualization stuffs. It"s intended to be flexible and simple. So it only handles output directory (create directory for the output, create a checkpoint directory, dump the config in use and create visualizer and logger) in a standard way without enforcing any input-output protocols to the model and dataloader. It leaves the main part for the user to implement their own (setup the model, criterion, optimizer, define a training step, define a validation function and customize all the text and visual logs). It does not save too much boilerplate code. The users still have to write the forward/backward/update mannually, but they are free to add non-standard behaviors if needed. We have some conventions to follow. 1. Experiment should have ``model``, ``optimizer``, ``train_loader`` and ``valid_loader``, ``config`` and ``args`` attributes. 2. The config should have a ``training`` field, which has ``valid_interval``, ``save_interval`` and ``max_iteration`` keys. It is used as the trigger to invoke validation, checkpointing and stop of the experiment. 3. There are four methods, namely ``train_batch``, ``valid``, ``setup_model`` and ``setup_dataloader`` that should be implemented. Feel free to add/overwrite other methods and standalone functions if you need. Parameters ---------- config: yacs.config.CfgNode The configuration used for the experiment. args: argparse.Namespace The parsed command line arguments. Examples -------- >>> def main_sp(config, args): >>> exp = Trainer(config, args) >>> exp.setup() >>> exp.run() >>> >>> config = get_cfg_defaults() >>> parser = default_argument_parser() >>> args = parser.parse_args() >>> if args.config: >>> config.merge_from_file(args.config) >>> if args.opts: >>> config.merge_from_list(args.opts) >>> config.freeze() >>> >>> if args.nprocs > 1 and args.device == "gpu": >>> dist.spawn(main_sp, args=(config, args), nprocs=args.nprocs) >>> else: >>> main_sp(config, args) """ def __init__(self, config, args): self.config = config self.args = args self.optimizer = None self.visualizer = None self.output_dir = None self.checkpoint_dir = None self.iteration = 0 self.epoch = 0 def setup(self): """Setup the experiment. """ self.setup_logger() paddle.set_device(self.args.device) if self.parallel: self.init_parallel() self.setup_output_dir() self.dump_config() self.setup_visualizer() self.setup_checkpointer() self.setup_model() self.setup_dataloader() self.iteration = 0 self.epoch = 0 @property def parallel(self): """A flag indicating whether the experiment should run with multiprocessing. """ return self.args.device == "gpu" and self.args.nprocs > 1 def init_parallel(self): """Init environment for multiprocess training. """ dist.init_parallel_env() @mp_tools.rank_zero_only def save(self, tag=None, infos: dict=None): """Save checkpoint (model parameters and optimizer states). Args: tag (int or str, optional): None for step, else using tag, e.g epoch. Defaults to None. infos (dict, optional): meta data to save. Defaults to None. """ infos = infos if infos else dict() infos.update({ "step": self.iteration, "epoch": self.epoch, "lr": self.optimizer.get_lr() }) self.checkpointer.add_checkpoint(self.checkpoint_dir, self.iteration if tag is None else tag, self.model, self.optimizer, infos) def resume_or_scratch(self): """Resume from latest checkpoint at checkpoints in the output directory or load a specified checkpoint. If ``args.checkpoint_path`` is not None, load the checkpoint, else resume training. """ scratch = None infos = self.checkpointer.load_parameters( self.model, self.optimizer, checkpoint_dir=self.checkpoint_dir, checkpoint_path=self.args.checkpoint_path) if infos: # restore from ckpt self.iteration = infos["step"] self.epoch = infos["epoch"] scratch = False else: self.iteration = 0 self.epoch = 0 scratch = True return scratch def new_epoch(self): """Reset the train loader seed and increment `epoch`. """ self.epoch += 1 if self.parallel: self.train_loader.batch_sampler.set_epoch(self.epoch) def train(self): """The training process control by epoch.""" from_scratch = self.resume_or_scratch() if from_scratch: # save init model, i.e. 0 epoch self.save(tag="init") self.lr_scheduler.step(self.iteration) if self.parallel: self.train_loader.batch_sampler.set_epoch(self.epoch) self.logger.info( f"Train Total Examples: {len(self.train_loader.dataset)}") self.punc_list = [] for i in range(len(self.train_loader.dataset.id2punc)): self.punc_list.append(self.train_loader.dataset.id2punc[i]) while self.epoch < self.config["training"]["n_epoch"]: self.model.train() self.total_label_train = [] self.total_predict_train = [] try: data_start_time = time.time() for batch_index, batch in enumerate(self.train_loader): dataload_time = time.time() - data_start_time msg = "Train: Rank: {}, ".format(dist.get_rank()) msg += "epoch: {}, ".format(self.epoch) msg += "step: {}, ".format(self.iteration) msg += "batch : {}/{}, ".format(batch_index + 1, len(self.train_loader)) msg += "lr: {:>.8f}, ".format(self.lr_scheduler()) msg += "data time: {:>.3f}s, ".format(dataload_time) self.train_batch(batch_index, batch, msg) data_start_time = time.time() t = classification_report( self.total_label_train, self.total_predict_train, target_names=self.punc_list) self.logger.info(t) except Exception as e: self.logger.error(e) raise e total_loss, F1_score = self.valid() self.logger.info("Epoch {} Val info val_loss {}, F1_score {}". format(self.epoch, total_loss, F1_score)) if self.visualizer: self.visualizer.add_scalars("epoch", { "total_loss": total_loss, "lr": self.lr_scheduler() }, self.epoch) self.save( tag=self.epoch, infos={"val_loss": total_loss, "F1": F1_score}) # step lr every epoch self.lr_scheduler.step() self.new_epoch() def run(self): """The routine of the experiment after setup. This method is intended to be used by the user. """ try: self.train() except KeyboardInterrupt: self.save() exit(-1) finally: self.destory() self.logger.info("Training Done.") def setup_output_dir(self): """Create a directory used for output. """ # output dir output_dir = Path(self.args.output).expanduser() output_dir.mkdir(parents=True, exist_ok=True) self.output_dir = output_dir def setup_checkpointer(self): """Create a directory used to save checkpoints into. It is "checkpoints" inside the output directory. """ # checkpoint dir self.checkpointer = Checkpoint(self.logger, self.config["checkpoint"]["kbest_n"], self.config["checkpoint"]["latest_n"]) checkpoint_dir = self.output_dir / "checkpoints" checkpoint_dir.mkdir(exist_ok=True) self.checkpoint_dir = checkpoint_dir def setup_logger(self): LOG_FORMAT = "%(asctime)s - %(pathname)s[line:%(lineno)d] - %(levelname)s: %(message)s" format_str = logging.Formatter( '%(asctime)s - %(pathname)s[line:%(lineno)d] - %(levelname)s: %(message)s' ) logging.basicConfig( filename=self.config["training"]["log_path"], level=logging.INFO, format=LOG_FORMAT) self.logger = logging.getLogger(__name__) # self.logger = logging.getLogger(self.config["training"]["log_path"].strip().split('/')[-1].split('.')[0]) self.logger.setLevel(logging.INFO) #设置日志级别 sh = logging.StreamHandler() #往屏幕上输出 sh.setFormatter(format_str) #设置屏幕上显示的格式 self.logger.addHandler(sh) #把对象加到logger里 self.logger.info('info') print("setup logger!!!") @mp_tools.rank_zero_only def destory(self): """Close visualizer to avoid hanging after training""" # https://github.com/pytorch/fairseq/issues/2357 if self.visualizer: self.visualizer.close() @mp_tools.rank_zero_only def setup_visualizer(self): """Initialize a visualizer to log the experiment. The visual log is saved in the output directory. Notes ------ Only the main process has a visualizer with it. Use multiple visualizers in multiprocess to write to a same log file may cause unexpected behaviors. """ # visualizer visualizer = SummaryWriter(logdir=str(self.output_dir)) self.visualizer = visualizer @mp_tools.rank_zero_only def dump_config(self): """Save the configuration used for this experiment. It is saved in to ``config.yaml`` in the output directory at the beginning of the experiment. """ with open(self.output_dir / "config.yaml", "wt") as f: print(self.config, file=f) def train_batch(self, batch_index, batch_data, msg): start = time.time() input, label = batch_data label = paddle.reshape(label, shape=[-1]) y, logit = self.model(input) pred = paddle.argmax(logit, axis=1) self.total_label_train.extend(label.numpy().tolist()) self.total_predict_train.extend(pred.numpy().tolist()) # self.total_predict.append(logit.numpy().tolist()) # print('--after model----') # # print(label.shape) # # print(pred.shape) # # print('--!!!!!!!!!!!!!----') # print("self.total_label") # print(self.total_label) # print("self.total_predict") # print(self.total_predict) loss = self.crit(y, label) loss.backward() layer_tools.print_grads(self.model, print_func=None) self.optimizer.step() self.optimizer.clear_grad() iteration_time = time.time() - start losses_np = { "train_loss": float(loss), } msg += "train time: {:>.3f}s, ".format(iteration_time) msg += "batch size: {}, ".format(self.config["data"]["batch_size"]) msg += ", ".join("{}: {:>.6f}".format(k, v) for k, v in losses_np.items()) self.logger.info(msg) # print(msg) if dist.get_rank() == 0 and self.visualizer: for k, v in losses_np.items(): self.visualizer.add_scalar("train/{}".format(k), v, self.iteration) self.iteration += 1 @paddle.no_grad() def valid(self): self.logger.info( f"Valid Total Examples: {len(self.valid_loader.dataset)}") self.model.eval() valid_losses = defaultdict(list) num_seen_utts = 1 total_loss = 0.0 valid_total_label = [] valid_total_predict = [] for i, batch in enumerate(self.valid_loader): input, label = batch label = paddle.reshape(label, shape=[-1]) y, logit = self.model(input) pred = paddle.argmax(logit, axis=1) valid_total_label.extend(label.numpy().tolist()) valid_total_predict.extend(pred.numpy().tolist()) loss = self.crit(y, label) if paddle.isfinite(loss): num_utts = batch[1].shape[0] num_seen_utts += num_utts total_loss += float(loss) * num_utts valid_losses["val_loss"].append(float(loss)) if (i + 1) % self.config["training"]["log_interval"] == 0: valid_dump = {k: np.mean(v) for k, v in valid_losses.items()} valid_dump["val_history_loss"] = total_loss / num_seen_utts # logging msg = f"Valid: Rank: {dist.get_rank()}, " msg += "epoch: {}, ".format(self.epoch) msg += "step: {}, ".format(self.iteration) msg += "batch : {}/{}, ".format(i + 1, len(self.valid_loader)) msg += ", ".join("{}: {:>.6f}".format(k, v) for k, v in valid_dump.items()) self.logger.info(msg) # print(msg) self.logger.info("Rank {} Val info val_loss {}".format( dist.get_rank(), total_loss / num_seen_utts)) # print("Rank {} Val info val_loss {} acc: {}".format( # dist.get_rank(), total_loss / num_seen_utts, acc)) F1_score = f1_score( valid_total_label, valid_total_predict, average="macro") return total_loss / num_seen_utts, F1_score def setup_model(self): config = self.config model = DefinedClassifier[self.config["model_type"]]( **self.config["model_params"]) self.crit = DefinedLoss[self.config["loss_type"]](**self.config[ "loss"]) if "loss_type" in self.config else DefinedLoss["ce"]() if self.parallel: model = paddle.DataParallel(model) self.logger.info(f"{model}") layer_tools.print_params(model, self.logger.info) lr_scheduler = paddle.optimizer.lr.ExponentialDecay( learning_rate=config["training"]["lr"], gamma=config["training"]["lr_decay"], verbose=True) optimizer = paddle.optimizer.Adam( learning_rate=lr_scheduler, parameters=model.parameters(), weight_decay=paddle.regularizer.L2Decay( config["training"]["weight_decay"])) self.model = model self.optimizer = optimizer self.lr_scheduler = lr_scheduler self.logger.info("Setup model/criterion/optimizer/lr_scheduler!") def setup_dataloader(self): print("setup_dataloader!!!") config = self.config["data"].copy() print(config["batch_size"]) train_dataset = DefinedDataset[config["dataset_type"]]( train_path=config["train_path"], **config["data_params"]) dev_dataset = DefinedDataset[config["dataset_type"]]( train_path=config["dev_path"], **config["data_params"]) # train_dataset = config["dataset_type"](os.path.join(config["save_path"], "train"), # os.path.join(config["save_path"], config["vocab_file"]), # os.path.join(config["save_path"], config["punc_file"]), # config["seq_len"]) # dev_dataset = PuncDataset(os.path.join(config["save_path"], "dev"), # os.path.join(config["save_path"], config["vocab_file"]), # os.path.join(config["save_path"], config["punc_file"]), # config["seq_len"]) # if self.parallel: # batch_sampler = SortagradDistributedBatchSampler( # train_dataset, # batch_size=config["batch_size"], # num_replicas=None, # rank=None, # shuffle=True, # drop_last=True, # sortagrad=config["sortagrad"], # shuffle_method=config["shuffle_method"]) # else: # batch_sampler = SortagradBatchSampler( # train_dataset, # shuffle=True, # batch_size=config["batch_size"], # drop_last=True, # sortagrad=config["sortagrad"], # shuffle_method=config["shuffle_method"]) self.train_loader = DataLoader( train_dataset, num_workers=config["num_workers"], batch_size=config["batch_size"]) self.valid_loader = DataLoader( dev_dataset, batch_size=config["batch_size"], shuffle=False, drop_last=False, num_workers=config["num_workers"]) self.logger.info("Setup train/valid Dataloader!") class Tester(Trainer): def __init__(self, config, args): super().__init__(config, args) @mp_tools.rank_zero_only @paddle.no_grad() def test(self): self.logger.info( f"Test Total Examples: {len(self.test_loader.dataset)}") self.punc_list = [] for i in range(len(self.test_loader.dataset.id2punc)): self.punc_list.append(self.test_loader.dataset.id2punc[i]) self.model.eval() test_total_label = [] test_total_predict = [] with open(self.args.result_file, 'w') as fout: for i, batch in enumerate(self.test_loader): input, label = batch label = paddle.reshape(label, shape=[-1]) y, logit = self.model(input) pred = paddle.argmax(logit, axis=1) test_total_label.extend(label.numpy().tolist()) test_total_predict.extend(pred.numpy().tolist()) # print(type(logit)) # logging msg = "Test: " msg += "epoch: {}, ".format(self.epoch) msg += "step: {}, ".format(self.iteration) self.logger.info(msg) # print(msg) t = classification_report( test_total_label, test_total_predict, target_names=self.punc_list) print(t) t2 = self.evaluation(test_total_label, test_total_predict) print(t2) def evaluation(self, y_pred, y_test): precision, recall, f1, _ = precision_recall_fscore_support( y_test, y_pred, average=None, labels=[1, 2, 3]) overall = precision_recall_fscore_support( y_test, y_pred, average='macro', labels=[1, 2, 3]) result = pd.DataFrame( np.array([precision, recall, f1]), columns=list(['O', 'COMMA', 'PERIOD', 'QUESTION'])[1:], index=['Precision', 'Recall', 'F1']) result['OVERALL'] = overall[:3] return result def run_test(self): self.resume_or_scratch() try: self.test() except KeyboardInterrupt: exit(-1) def setup(self): """Setup the experiment. """ paddle.set_device(self.args.device) self.setup_logger() self.setup_output_dir() self.setup_checkpointer() self.setup_dataloader() self.setup_model() self.iteration = 0 self.epoch = 0 def setup_model(self): config = self.config model = DefinedClassifier[self.config["model_type"]]( **self.config["model_params"]) self.model = model self.logger.info("Setup model!") def setup_dataloader(self): config = self.config["data"].copy() test_dataset = DefinedDataset[config["dataset_type"]]( train_path=config["test_path"], **config["data_params"]) self.test_loader = DataLoader( test_dataset, batch_size=config["batch_size"], shuffle=False, drop_last=False) self.logger.info("Setup test Dataloader!") def setup_output_dir(self): """Create a directory used for output. """ # output dir if self.args.output: output_dir = Path(self.args.output).expanduser() output_dir.mkdir(parents=True, exist_ok=True) else: output_dir = Path( self.args.checkpoint_path).expanduser().parent.parent output_dir.mkdir(parents=True, exist_ok=True) self.output_dir = output_dir def setup_logger(self): LOG_FORMAT = "%(asctime)s - %(pathname)s[line:%(lineno)d] - %(levelname)s: %(message)s" format_str = logging.Formatter( '%(asctime)s - %(pathname)s[line:%(lineno)d] - %(levelname)s: %(message)s' ) logging.basicConfig( filename=self.config["testing"]["log_path"], level=logging.INFO, format=LOG_FORMAT) self.logger = logging.getLogger(__name__) # self.logger = logging.getLogger(self.config["training"]["log_path"].strip().split('/')[-1].split('.')[0]) self.logger.setLevel(logging.INFO) #设置日志级别 sh = logging.StreamHandler() #往屏幕上输出 sh.setFormatter(format_str) #设置屏幕上显示的格式 self.logger.addHandler(sh) #把对象加到logger里 self.logger.info('info') print("setup test logger!!!")