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train_encodec.py
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train_encodec.py
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#!/usr/bin/env python3
from prefigure.prefigure import get_all_args, push_wandb_config
from copy import deepcopy
import math
import random
import sys
import torch
from torch import optim, nn
from torch.nn import functional as F
from torch.nn.parameter import Parameter
from torch.utils import data
from tqdm import trange
import pytorch_lightning as pl
from pytorch_lightning.utilities.distributed import rank_zero_only
from einops import rearrange
import numpy as np
import torchaudio
import auraloss
import wandb
from aeiou.datasets import AudioDataset
from dataset.dataset import get_wds_loader
from encodec.model import EncodecModel
from diffusion.utils import PadCrop, Stereo
from diffusion.pqmf import CachedPQMF as PQMF
from quantizer_pytorch import Quantizer1d
from aeiou.viz import embeddings_table, pca_point_cloud, audio_spectrogram_image, tokens_spectrogram_image
from losses.adv_losses import EncodecDiscriminator
PQMF_ATTN = 100
class EncodecTrainer(pl.LightningModule):
def __init__(self, global_args):
super().__init__()
# self.quantizer = None
# self.num_residuals = global_args.num_residuals
# if self.num_residuals > 0:
# self.quantizer = Quantizer1d(
# channels = 32,
# num_groups = 1,
# codebook_size = global_args.codebook_size,
# num_residuals = self.num_residuals,
# shared_codebook = False,
# expire_threshold=0.5
# )
self.automatic_optimization = False
self.pqmf_bands = global_args.pqmf_bands
if self.pqmf_bands > 1:
self.pqmf = PQMF(2, PQMF_ATTN, global_args.pqmf_bands)
self.model = EncodecModel.encodec_model_48khz()
self.model.normalize = False
scales = [2048, 1024, 512]
hop_sizes = []
win_lengths = []
overlap = 0.75
for s in scales:
hop_sizes.append(int(s * (1 - overlap)))
win_lengths.append(s)
self.mrstft = auraloss.freq.MultiResolutionSTFTLoss(fft_sizes=scales, hop_sizes=hop_sizes, win_lengths=win_lengths)
self.sdstft = auraloss.freq.SumAndDifferenceSTFTLoss(fft_sizes=scales, hop_sizes=hop_sizes, win_lengths=win_lengths, sample_rate=global_args.sample_rate, perceptual_weighting=True, scale="mel", n_bins=64)
self.discriminator = EncodecDiscriminator(
filters=32,
in_channels = 2,
out_channels = 1,
n_ffts = [2048, 1024, 512, 256, 128],
hop_lengths = [512, 256, 128, 64, 32],
win_lengths = [2048, 1024, 512, 256, 128]
)
def configure_optimizers(self):
opt_gen = optim.Adam([*self.model.parameters()], lr=3e-4, betas=(.5, .9))
opt_disc = optim.Adam([*self.discriminator.parameters()], lr=3e-4, betas=(.5, .9))
return [opt_gen, opt_disc]
def encode(self, audio):
return self.model(audio)
def decode(self, frames):
decoded = self.model.decode(frames)
if self.pqmf_bands > 1:
decoded = self.pqmf.inverse(decoded)
return decoded
def training_step(self, batch, batch_idx):
reals, _, _ = batch
reals = reals[0]
# if self.global_step >= self.warmup_steps:
# self.warmed_up = True
opt_gen, opt_disc = self.optimizers()
if self.pqmf_bands > 1:
reals = self.pqmf(reals)
# if self.warmed_up:
# with torch.no_grad():
# mean, scale = self.encoder(reals).chunk(2, dim=1)
# else:
decoded = self.model(reals)
if self.pqmf_bands > 1:
mb_distance = self.mrstft(reals, decoded)
decoded = self.pqmf.inverse(decoded)
reals = self.pqmf.inverse(reals)
else:
mb_distance = torch.tensor(0.).to(reals)
mrstft_loss = self.sdstft(reals, decoded)
l1_time_loss = F.l1_loss(reals, decoded)
#if self.warmed_up:
loss_dis, loss_adv, feature_matching_distance, _, _ = self.discriminator.loss(reals, decoded)
# else:
# loss_dis = torch.tensor(0.).to(reals)
# loss_adv = torch.tensor(0.).to(reals)
# feature_matching_distance = torch.tensor(0.).to(reals)
# Train the discriminator
if self.global_step % 2: # and self.warmed_up:
loss = loss_dis
log_dict = {
'train/discriminator_loss': loss_dis.detach()
}
opt_disc.zero_grad()
self.manual_backward(loss_dis)
opt_disc.step()
# Train the generator
else:
loss_adv = 0.1 * loss_adv
feature_matching_distance = 0.05 * feature_matching_distance
# Combine spectral loss, KL loss, time-domain loss, and adversarial loss
loss = mrstft_loss + mb_distance + loss_adv + feature_matching_distance + l1_time_loss
opt_gen.zero_grad()
self.manual_backward(loss)
opt_gen.step()
log_dict = {
'train/loss': loss.detach(),
'train/mrstft_loss': mrstft_loss.detach(),
'train/mb_distance': mb_distance.detach(),
'train/l1_time_loss': l1_time_loss.detach(),
'train/loss_adv': loss_adv.detach(),
'train/feature_matching': feature_matching_distance.detach(),
}
# if self.quantizer:
# loss += quantizer_loss
# if self.quantizer:
# log_dict["train/quantizer_loss"] = quantizer_loss.detach()
# # Log perplexity of each codebook used
# for i, perplexity in enumerate(quantizer_info["perplexity"]):
# log_dict[f"train_perplexity_{i}"] = perplexity
# # Log replaced codes of each codebook used
# for i, replaced_codes in enumerate(quantizer_info["replaced_codes"]):
# log_dict[f"train_replaced_codes_{i}"] = replaced_codes
# # Log budget
# # for i, budget in enumerate(quantizer_info["budget"]):
# # log_dict[f"budget_{i}"] = budget
self.log_dict(log_dict, prog_bar=True, on_step=True)
return loss
class ExceptionCallback(pl.Callback):
def on_exception(self, trainer, module, err):
print(f'{type(err).__name__}: {err}', file=sys.stderr)
class DemoCallback(pl.Callback):
def __init__(self, demo_dl, global_args):
super().__init__()
self.demo_every = global_args.demo_every
self.demo_samples = global_args.sample_size
self.demo_dl = iter(demo_dl)
self.sample_rate = global_args.sample_rate
self.last_demo_step = -1
@rank_zero_only
@torch.no_grad()
#def on_train_epoch_end(self, trainer, module):
def on_train_batch_end(self, trainer, module, outputs, batch, batch_idx):
if (trainer.global_step - 1) % self.demo_every != 0 or self.last_demo_step == trainer.global_step:
#if trainer.current_epoch % self.demo_every != 0:
return
self.last_demo_step = trainer.global_step
try:
demo_reals, _, _ = next(self.demo_dl)
demo_reals = demo_reals[0]
encoder_input = demo_reals
encoder_input = encoder_input.to(module.device)
demo_reals = demo_reals.to(module.device)
with torch.no_grad():
frames = module.model.encode(encoder_input)
fakes = module.model.decode(frames)
# Put the demos together
fakes = rearrange(fakes, 'b d n -> d (b n)')
demo_reals = rearrange(demo_reals, 'b d n -> d (b n)')
#demo_audio = torch.cat([demo_reals, fakes], -1)
log_dict = {}
filename = f'recon_{trainer.global_step:08}.wav'
fakes = fakes.clamp(-1, 1).mul(32767).to(torch.int16).cpu()
torchaudio.save(filename, fakes, self.sample_rate)
reals_filename = f'reals_{trainer.global_step:08}.wav'
demo_reals = demo_reals.clamp(-1, 1).mul(32767).to(torch.int16).cpu()
torchaudio.save(reals_filename, demo_reals, self.sample_rate)
log_dict[f'recon'] = wandb.Audio(filename,
sample_rate=self.sample_rate,
caption=f'Reconstructed')
log_dict[f'real'] = wandb.Audio(reals_filename,
sample_rate=self.sample_rate,
caption=f'Real')
log_dict[f'real_melspec_left'] = wandb.Image(audio_spectrogram_image(demo_reals))
log_dict[f'recon_melspec_left'] = wandb.Image(audio_spectrogram_image(fakes))
trainer.logger.experiment.log(log_dict, step=trainer.global_step)
except Exception as e:
print(f'{type(e).__name__}: {e}')
def main():
args = get_all_args()
device = torch.device('cuda' if torch.cuda.is_available() else 'cpu')
print('Using device:', device)
torch.manual_seed(args.seed)
names = [
]
train_dl = get_wds_loader(
batch_size=args.batch_size,
s3_url_prefix=None,
sample_size=args.sample_size,
names=names,
sample_rate=args.sample_rate,
num_workers=args.num_workers,
recursive=True,
random_crop=True,
epoch_steps=2000,
)
wandb_logger = pl.loggers.WandbLogger(project=args.name)
exc_callback = ExceptionCallback()
ckpt_callback = pl.callbacks.ModelCheckpoint(every_n_train_steps=args.checkpoint_every, save_top_k=-1)
demo_callback = DemoCallback(train_dl, args)
model = EncodecTrainer(args)
if args.pretrained_ckpt_path:
pretrained_state_dict = torch.load(args.pretrained_ckpt_path)["state_dict"]
model.load_pretrained_ae(pretrained_state_dict)
del pretrained_state_dict
wandb_logger.watch(model)
push_wandb_config(wandb_logger, args)
trainer = pl.Trainer(
devices=args.num_gpus,
accelerator="gpu",
num_nodes=args.num_nodes,
strategy='ddp',
precision=16,
accumulate_grad_batches=args.accum_batches,
callbacks=[ckpt_callback, demo_callback, exc_callback],
logger=wandb_logger,
log_every_n_steps=1,
max_epochs=10000000,
default_root_dir=args.save_dir
)
trainer.fit(model, train_dl, ckpt_path=args.ckpt_path)
if __name__ == '__main__':
main()