# -*- coding: utf-8 -*- # Copyright 2020 Minh Nguyen (@dathudeptrai) # # 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. """Train MelGAN Multi Resolution STFT Loss.""" import tensorflow as tf physical_devices = tf.config.list_physical_devices("GPU") for i in range(len(physical_devices)): tf.config.experimental.set_memory_growth(physical_devices[i], True) import sys sys.path.append(".") import argparse import logging import os import numpy as np import yaml import tensorflow_tts import tensorflow_tts.configs.melgan as MELGAN_CONFIG from examples.melgan.audio_mel_dataset import AudioMelDataset from examples.melgan.train_melgan import MelganTrainer, collater from tensorflow_tts.losses import TFMultiResolutionSTFT from tensorflow_tts.models import TFMelGANGenerator, TFMelGANMultiScaleDiscriminator from tensorflow_tts.utils import calculate_2d_loss, calculate_3d_loss, return_strategy class MultiSTFTMelganTrainer(MelganTrainer): """Multi STFT Melgan Trainer class based on MelganTrainer.""" def __init__( self, config, strategy, steps=0, epochs=0, is_generator_mixed_precision=False, is_discriminator_mixed_precision=False, ): """Initialize trainer. Args: steps (int): Initial global steps. epochs (int): Initial global epochs. config (dict): Config dict loaded from yaml format configuration file. is_generator_mixed_precision (bool): Use mixed precision for generator or not. is_discriminator_mixed_precision (bool): Use mixed precision for discriminator or not. """ super(MultiSTFTMelganTrainer, self).__init__( config=config, steps=steps, epochs=epochs, strategy=strategy, is_generator_mixed_precision=is_generator_mixed_precision, is_discriminator_mixed_precision=is_discriminator_mixed_precision, ) self.list_metrics_name = [ "adversarial_loss", "fm_loss", "gen_loss", "real_loss", "fake_loss", "dis_loss", "spectral_convergence_loss", "log_magnitude_loss", ] self.init_train_eval_metrics(self.list_metrics_name) self.reset_states_train() self.reset_states_eval() def compile(self, gen_model, dis_model, gen_optimizer, dis_optimizer): super().compile(gen_model, dis_model, gen_optimizer, dis_optimizer) # define loss self.stft_loss = TFMultiResolutionSTFT(**self.config["stft_loss_params"]) def compute_per_example_generator_losses(self, batch, outputs): """Compute per example generator losses and return dict_metrics_losses Note that all element of the loss MUST has a shape [batch_size] and the keys of dict_metrics_losses MUST be in self.list_metrics_name. Args: batch: dictionary batch input return from dataloader outputs: outputs of the model Returns: per_example_losses: per example losses for each GPU, shape [B] dict_metrics_losses: dictionary loss. """ dict_metrics_losses = {} per_example_losses = 0.0 audios = batch["audios"] y_hat = outputs # calculate multi-resolution stft loss sc_loss, mag_loss = calculate_2d_loss( audios, tf.squeeze(y_hat, -1), self.stft_loss ) # trick to prevent loss expoded here sc_loss = tf.where(sc_loss >= 15.0, 0.0, sc_loss) mag_loss = tf.where(mag_loss >= 15.0, 0.0, mag_loss) # compute generator loss gen_loss = 0.5 * (sc_loss + mag_loss) if self.steps >= self.config["discriminator_train_start_steps"]: p_hat = self._discriminator(y_hat) p = self._discriminator(tf.expand_dims(audios, 2)) adv_loss = 0.0 for i in range(len(p_hat)): adv_loss += calculate_3d_loss( tf.ones_like(p_hat[i][-1]), p_hat[i][-1], loss_fn=self.mse_loss ) adv_loss /= i + 1 # define feature-matching loss fm_loss = 0.0 for i in range(len(p_hat)): for j in range(len(p_hat[i]) - 1): fm_loss += calculate_3d_loss( p[i][j], p_hat[i][j], loss_fn=self.mae_loss ) fm_loss /= (i + 1) * (j + 1) adv_loss += self.config["lambda_feat_match"] * fm_loss gen_loss += self.config["lambda_adv"] * adv_loss dict_metrics_losses.update({"adversarial_loss": adv_loss}) dict_metrics_losses.update({"fm_loss": fm_loss}) dict_metrics_losses.update({"gen_loss": gen_loss}) dict_metrics_losses.update({"spectral_convergence_loss": sc_loss}) dict_metrics_losses.update({"log_magnitude_loss": mag_loss}) per_example_losses = gen_loss return per_example_losses, dict_metrics_losses def main(): """Run training process.""" parser = argparse.ArgumentParser( description="Train MelGAN (See detail in tensorflow_tts/bin/train-melgan.py)" ) parser.add_argument( "--train-dir", default=None, type=str, help="directory including training data. ", ) parser.add_argument( "--dev-dir", default=None, type=str, help="directory including development data. ", ) parser.add_argument( "--use-norm", default=1, type=int, help="use norm mels for training or raw." ) parser.add_argument( "--outdir", type=str, required=True, help="directory to save checkpoints." ) parser.add_argument( "--config", type=str, required=True, help="yaml format configuration file." ) parser.add_argument( "--resume", default="", type=str, nargs="?", help='checkpoint file path to resume training. (default="")', ) parser.add_argument( "--verbose", type=int, default=1, help="logging level. higher is more logging. (default=1)", ) parser.add_argument( "--generator_mixed_precision", default=0, type=int, help="using mixed precision for generator or not.", ) parser.add_argument( "--discriminator_mixed_precision", default=0, type=int, help="using mixed precision for discriminator or not.", ) parser.add_argument( "--pretrained", default="", type=str, nargs="?", help="path of .h5 melgan generator to load weights from", ) args = parser.parse_args() # return strategy STRATEGY = return_strategy() # set mixed precision config if args.generator_mixed_precision == 1 or args.discriminator_mixed_precision == 1: tf.config.optimizer.set_experimental_options({"auto_mixed_precision": True}) args.generator_mixed_precision = bool(args.generator_mixed_precision) args.discriminator_mixed_precision = bool(args.discriminator_mixed_precision) args.use_norm = bool(args.use_norm) # set logger if args.verbose > 1: logging.basicConfig( level=logging.DEBUG, stream=sys.stdout, format="%(asctime)s (%(module)s:%(lineno)d) %(levelname)s: %(message)s", ) elif args.verbose > 0: logging.basicConfig( level=logging.INFO, stream=sys.stdout, format="%(asctime)s (%(module)s:%(lineno)d) %(levelname)s: %(message)s", ) else: logging.basicConfig( level=logging.WARN, stream=sys.stdout, format="%(asctime)s (%(module)s:%(lineno)d) %(levelname)s: %(message)s", ) logging.warning("Skip DEBUG/INFO messages") # check directory existence if not os.path.exists(args.outdir): os.makedirs(args.outdir) # check arguments if args.train_dir is None: raise ValueError("Please specify --train-dir") if args.dev_dir is None: raise ValueError("Please specify either --valid-dir") # load and save config with open(args.config) as f: config = yaml.load(f, Loader=yaml.Loader) config.update(vars(args)) config["version"] = tensorflow_tts.__version__ with open(os.path.join(args.outdir, "config.yml"), "w") as f: yaml.dump(config, f, Dumper=yaml.Dumper) for key, value in config.items(): logging.info(f"{key} = {value}") # get dataset if config["remove_short_samples"]: mel_length_threshold = config["batch_max_steps"] // config[ "hop_size" ] + 2 * config["melgan_generator_params"].get("aux_context_window", 0) else: mel_length_threshold = None if config["format"] == "npy": audio_query = "*-wave.npy" mel_query = "*-raw-feats.npy" if args.use_norm is False else "*-norm-feats.npy" audio_load_fn = np.load mel_load_fn = np.load else: raise ValueError("Only npy are supported.") # define train/valid dataset train_dataset = AudioMelDataset( root_dir=args.train_dir, audio_query=audio_query, mel_query=mel_query, audio_load_fn=audio_load_fn, mel_load_fn=mel_load_fn, mel_length_threshold=mel_length_threshold, ).create( is_shuffle=config["is_shuffle"], map_fn=lambda items: collater( items, batch_max_steps=tf.constant(config["batch_max_steps"], dtype=tf.int32), hop_size=tf.constant(config["hop_size"], dtype=tf.int32), ), allow_cache=config["allow_cache"], batch_size=config["batch_size"] * STRATEGY.num_replicas_in_sync * config["gradient_accumulation_steps"], ) valid_dataset = AudioMelDataset( root_dir=args.dev_dir, audio_query=audio_query, mel_query=mel_query, audio_load_fn=audio_load_fn, mel_load_fn=mel_load_fn, mel_length_threshold=mel_length_threshold, ).create( is_shuffle=config["is_shuffle"], map_fn=lambda items: collater( items, batch_max_steps=tf.constant( config["batch_max_steps_valid"], dtype=tf.int32 ), hop_size=tf.constant(config["hop_size"], dtype=tf.int32), ), allow_cache=config["allow_cache"], batch_size=config["batch_size"] * STRATEGY.num_replicas_in_sync, ) # define trainer trainer = MultiSTFTMelganTrainer( steps=0, epochs=0, config=config, strategy=STRATEGY, is_generator_mixed_precision=args.generator_mixed_precision, is_discriminator_mixed_precision=args.discriminator_mixed_precision, ) with STRATEGY.scope(): # define generator and discriminator generator = TFMelGANGenerator( MELGAN_CONFIG.MelGANGeneratorConfig(**config["melgan_generator_params"]), name="melgan_generator", ) discriminator = TFMelGANMultiScaleDiscriminator( MELGAN_CONFIG.MelGANDiscriminatorConfig( **config["melgan_discriminator_params"] ), name="melgan_discriminator", ) # dummy input to build model. fake_mels = tf.random.uniform(shape=[1, 100, 80], dtype=tf.float32) y_hat = generator(fake_mels) discriminator(y_hat) if len(args.pretrained) > 1: generator.load_weights(args.pretrained) logging.info( f"Successfully loaded pretrained weight from {args.pretrained}." ) generator.summary() discriminator.summary() # define optimizer generator_lr_fn = getattr( tf.keras.optimizers.schedules, config["generator_optimizer_params"]["lr_fn"] )(**config["generator_optimizer_params"]["lr_params"]) discriminator_lr_fn = getattr( tf.keras.optimizers.schedules, config["discriminator_optimizer_params"]["lr_fn"], )(**config["discriminator_optimizer_params"]["lr_params"]) gen_optimizer = tf.keras.optimizers.Adam( learning_rate=generator_lr_fn, amsgrad=False ) dis_optimizer = tf.keras.optimizers.Adam( learning_rate=discriminator_lr_fn, amsgrad=False ) trainer.compile( gen_model=generator, dis_model=discriminator, gen_optimizer=gen_optimizer, dis_optimizer=dis_optimizer, ) # start training try: trainer.fit( train_dataset, valid_dataset, saved_path=os.path.join(config["outdir"], "checkpoints/"), resume=args.resume, ) except KeyboardInterrupt: trainer.save_checkpoint() logging.info(f"Successfully saved checkpoint @ {trainer.steps}steps.") if __name__ == "__main__": main()