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import lightning as L
import torch
import torch.nn.functional as F
import wandb
from lightning.pytorch.loggers import TensorBoardLogger, WandbLogger
from matplotlib import pyplot as plt
from torch import nn
from fish_speech.models.melvae.disc import Discriminator
from fish_speech.models.vqgan.utils import (
avg_with_mask,
plot_mel,
sequence_mask
)
class MelVAE_Task(L.LightningModule):
def __init__(
self,
optimizer: Callable,
lr_scheduler: Callable,
generator: nn.Module,
discriminator: nn.Module,
lambda_mel: float = 1.0,
lambda_adv: float = 1.0,
lambda_kl: float = 1.0,
accumulate_grad_batches: int = 1,
):
super().__init__()
# Model parameters
self.optimizer_builder = optimizer
self.lr_scheduler_builder = lr_scheduler
# Generator
self.generator = generator
self.discriminator = discriminator
self.lambda_mel = lambda_mel
self.lambda_adv = lambda_adv
self.lambda_kl = lambda_kl
self.accumulate_grad_batches = accumulate_grad_batches
# Disable automatic optimization
self.automatic_optimization = False
def configure_optimizers(self):
# Need two optimizers and two schedulers
optimizer_generator = self.optimizer_builder(self.generator.parameters())
optimizer_discriminator = self.optimizer_builder(self.discriminator.parameters())
lr_scheduler_generator = self.lr_scheduler_builder(optimizer_generator)
lr_scheduler_discriminator = self.lr_scheduler_builder(optimizer_discriminator)
return (
{
"optimizer": optimizer_generator,
"lr_scheduler": {
"scheduler": lr_scheduler_generator,
"interval": "step",
"name": "optimizer/generator",
},
},
{
"optimizer": optimizer_discriminator,
"lr_scheduler": {
"scheduler": lr_scheduler_discriminator,
"interval": "step",
"name": "optimizer/discriminator",
},
}
)
def training_step(self, batch, batch_idx):
optim_g,optim_d = self.optimizers()
mels, mel_lengths = batch["mels"], batch["mel_lengths"]
ret = self.generator(mels, mel_lengths)
loss_kl = ret['kl']
gen_mel = ret['mel_out']
# Discriminator
D_outputs = self.discriminator(mels.transpose(1,2))
loss_real = 0.5 * torch.mean((D_outputs["y"] - 1) ** 2)
D_outputs = self.discriminator(gen_mel.detach().transpose(1,2))
loss_fake = 0.5 * torch.mean(D_outputs["y"] ** 2)
loss_d = loss_real + loss_fake
self.log(
"train/discriminator/loss",
loss_d,
on_step=True,
on_epoch=False,
prog_bar=True,
logger=True,
)
# Discriminator backward
# optim_d.zero_grad()
self.manual_backward(loss_d)
self.clip_gradients(
optim_d, gradient_clip_val=1000.0, gradient_clip_algorithm="norm"
)
if (batch_idx+1)%self.accumulate_grad_batches==0:
optim_d.step()
optim_d.zero_grad()
### loss_mel
mel_masks = torch.unsqueeze(
sequence_mask(mel_lengths, mels.shape[2]), 1
).to(mels.dtype)
min_mel_length = min(mels.shape[-1], gen_mel.shape[-1])
mels = mels[:, :, :min_mel_length]
gen_mel = gen_mel[:, :, :min_mel_length]
loss_mel = avg_with_mask(
F.l1_loss(mels, gen_mel, reduction="none"), mel_masks
)
# Adversarial Loss
loss_adv = 0.5 * torch.mean((self.discriminator(gen_mel.transpose(1,2))["y"] - 1) ** 2)
# Total loss
loss = (
self.lambda_mel * loss_mel
+ self.lambda_adv * loss_adv
+ self.lambda_kl * loss_kl
)
# Log losses
self.log(
"train/generator/loss",
loss,
on_step=True,
on_epoch=False,
prog_bar=True,
logger=True,
)
self.log(
"train/generator/loss_mel",
loss_mel,
on_step=True,
on_epoch=False,
prog_bar=False,
logger=True,
)
self.log(
"train/generator/loss_kl",
loss_kl,
on_step=True,
on_epoch=False,
prog_bar=False,
logger=True,
)
self.log(
"train/generator/loss_adv",
loss_adv,
on_step=True,
on_epoch=False,
prog_bar=False,
logger=True,
)
# Generator backward
# optim_g.zero_grad()
self.manual_backward(loss)
self.clip_gradients(
optim_g, gradient_clip_val=1000.0, gradient_clip_algorithm="norm"
)
if (batch_idx+1)%self.accumulate_grad_batches==0:
optim_g.step()
optim_g.zero_grad()
scheduler_g, scheduler_d = self.lr_schedulers()
scheduler_g.step()
scheduler_d.step()
def validation_step(self, batch: Any, batch_idx: int):
mels, mel_lengths = batch["mels"], batch["mel_lengths"]
with torch.no_grad():
gt_mels = mels
mel_masks = torch.unsqueeze(
sequence_mask(mel_lengths, gt_mels.shape[2]), 1
).to(gt_mels.dtype)
ret = self.generator.inference(gt_mels, mel_lengths)
refine_mels = ret['mel_out']
min_mel_length = min(gt_mels.shape[-1], refine_mels.shape[-1])
gt_mels = gt_mels[:, :, :min_mel_length]
refine_mels = refine_mels[:, :, :min_mel_length]
refine_mel_loss = avg_with_mask(
F.l1_loss(gt_mels, refine_mels, reduction="none"), mel_masks
)
loss_kl = ret['kl']
self.log(
"val/recon_mel_loss",
refine_mel_loss,
on_step=False,
on_epoch=True,
prog_bar=False,
logger=True,
sync_dist=True,
)
self.log(
"val/kl_loss",
loss_kl,
on_step=False,
on_epoch=True,
prog_bar=False,
logger=True,
sync_dist=True,
)
# only log the first batch
if batch_idx != 0:
return
for idx, (
mel,
refine_mel,
mel_len
) in enumerate(
zip(
gt_mels,
refine_mels,
mel_lengths
)
):
image_mels = plot_mel(
[
refine_mel[:, :mel_len],
mel[:, :mel_len],
],
[
"Refine (Flow)",
"Ground-Truth",
],
)
if isinstance(self.logger, WandbLogger):
self.logger.experiment.log(
{
"reconstruction_mel": wandb.Image(image_mels, caption="mels"),
},
)
if isinstance(self.logger, TensorBoardLogger):
self.logger.experiment.add_figure(
f"sample-{idx}/mels",
image_mels,
global_step=self.global_step,
)
plt.close(image_mels) |