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# Copyright (c) 2023 Amphion. | |
# | |
# This source code is licensed under the MIT license found in the | |
# LICENSE file in the root directory of this source tree. | |
import torch | |
from models.base.base_trainer import BaseTrainer | |
from models.tta.autoencoder.autoencoder_dataset import ( | |
AutoencoderKLDataset, | |
AutoencoderKLCollator, | |
) | |
from models.tta.autoencoder.autoencoder import AutoencoderKL | |
from models.tta.autoencoder.autoencoder_loss import AutoencoderLossWithDiscriminator | |
from torch.optim import Adam, AdamW | |
from torch.optim.lr_scheduler import ReduceLROnPlateau | |
from torch.nn import MSELoss, L1Loss | |
import torch.nn.functional as F | |
from torch.utils.data import ConcatDataset, DataLoader | |
class AutoencoderKLTrainer(BaseTrainer): | |
def __init__(self, args, cfg): | |
BaseTrainer.__init__(self, args, cfg) | |
self.cfg = cfg | |
self.save_config_file() | |
def build_dataset(self): | |
return AutoencoderKLDataset, AutoencoderKLCollator | |
def build_optimizer(self): | |
opt_ae = torch.optim.AdamW(self.model.parameters(), **self.cfg.train.adam) | |
opt_disc = torch.optim.AdamW( | |
self.criterion.discriminator.parameters(), **self.cfg.train.adam | |
) | |
optimizer = {"opt_ae": opt_ae, "opt_disc": opt_disc} | |
return optimizer | |
def build_data_loader(self): | |
Dataset, Collator = self.build_dataset() | |
# build dataset instance for each dataset and combine them by ConcatDataset | |
datasets_list = [] | |
for dataset in self.cfg.dataset: | |
subdataset = Dataset(self.cfg, dataset, is_valid=False) | |
datasets_list.append(subdataset) | |
train_dataset = ConcatDataset(datasets_list) | |
train_collate = Collator(self.cfg) | |
# use batch_sampler argument instead of (sampler, shuffle, drop_last, batch_size) | |
train_loader = DataLoader( | |
train_dataset, | |
collate_fn=train_collate, | |
num_workers=self.args.num_workers, | |
batch_size=self.cfg.train.batch_size, | |
pin_memory=False, | |
) | |
if not self.cfg.train.ddp or self.args.local_rank == 0: | |
datasets_list = [] | |
for dataset in self.cfg.dataset: | |
subdataset = Dataset(self.cfg, dataset, is_valid=True) | |
datasets_list.append(subdataset) | |
valid_dataset = ConcatDataset(datasets_list) | |
valid_collate = Collator(self.cfg) | |
valid_loader = DataLoader( | |
valid_dataset, | |
collate_fn=valid_collate, | |
num_workers=1, | |
batch_size=self.cfg.train.batch_size, | |
) | |
else: | |
raise NotImplementedError("DDP is not supported yet.") | |
# valid_loader = None | |
data_loader = {"train": train_loader, "valid": valid_loader} | |
return data_loader | |
# TODO: check it... | |
def build_scheduler(self): | |
return None | |
# return ReduceLROnPlateau(self.optimizer["opt_ae"], **self.cfg.train.lronPlateau) | |
def write_summary(self, losses, stats): | |
for key, value in losses.items(): | |
self.sw.add_scalar(key, value, self.step) | |
def write_valid_summary(self, losses, stats): | |
for key, value in losses.items(): | |
self.sw.add_scalar(key, value, self.step) | |
def build_criterion(self): | |
return AutoencoderLossWithDiscriminator(self.cfg.model.loss) | |
def get_state_dict(self): | |
if self.scheduler != None: | |
state_dict = { | |
"model": self.model.state_dict(), | |
"optimizer_ae": self.optimizer["opt_ae"].state_dict(), | |
"optimizer_disc": self.optimizer["opt_disc"].state_dict(), | |
"scheduler": self.scheduler.state_dict(), | |
"step": self.step, | |
"epoch": self.epoch, | |
"batch_size": self.cfg.train.batch_size, | |
} | |
else: | |
state_dict = { | |
"model": self.model.state_dict(), | |
"optimizer_ae": self.optimizer["opt_ae"].state_dict(), | |
"optimizer_disc": self.optimizer["opt_disc"].state_dict(), | |
"step": self.step, | |
"epoch": self.epoch, | |
"batch_size": self.cfg.train.batch_size, | |
} | |
return state_dict | |
def load_model(self, checkpoint): | |
self.step = checkpoint["step"] | |
self.epoch = checkpoint["epoch"] | |
self.model.load_state_dict(checkpoint["model"]) | |
self.optimizer["opt_ae"].load_state_dict(checkpoint["optimizer_ae"]) | |
self.optimizer["opt_disc"].load_state_dict(checkpoint["optimizer_disc"]) | |
if self.scheduler != None: | |
self.scheduler.load_state_dict(checkpoint["scheduler"]) | |
def build_model(self): | |
self.model = AutoencoderKL(self.cfg.model.autoencoderkl) | |
return self.model | |
# TODO: train step | |
def train_step(self, data): | |
global_step = self.step | |
optimizer_idx = global_step % 2 | |
train_losses = {} | |
total_loss = 0 | |
train_states = {} | |
inputs = data["melspec"].unsqueeze(1) # (B, 80, T) -> (B, 1, 80, T) | |
reconstructions, posterior = self.model(inputs) | |
# train_stats.update(stat) | |
train_losses = self.criterion( | |
inputs=inputs, | |
reconstructions=reconstructions, | |
posteriors=posterior, | |
optimizer_idx=optimizer_idx, | |
global_step=global_step, | |
last_layer=self.model.get_last_layer(), | |
split="train", | |
) | |
if optimizer_idx == 0: | |
total_loss = train_losses["loss"] | |
self.optimizer["opt_ae"].zero_grad() | |
total_loss.backward() | |
self.optimizer["opt_ae"].step() | |
else: | |
total_loss = train_losses["d_loss"] | |
self.optimizer["opt_disc"].zero_grad() | |
total_loss.backward() | |
self.optimizer["opt_disc"].step() | |
for item in train_losses: | |
train_losses[item] = train_losses[item].item() | |
return train_losses, train_states, total_loss.item() | |
# TODO: eval step | |
def eval_step(self, data, index): | |
valid_loss = {} | |
total_valid_loss = 0 | |
valid_stats = {} | |
inputs = data["melspec"].unsqueeze(1) # (B, 80, T) -> (B, 1, 80, T) | |
reconstructions, posterior = self.model(inputs) | |
loss = F.l1_loss(inputs, reconstructions) | |
valid_loss["loss"] = loss | |
total_valid_loss += loss | |
for item in valid_loss: | |
valid_loss[item] = valid_loss[item].item() | |
return valid_loss, valid_stats, total_valid_loss.item() | |