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import json
import logging
import torch
import torch.nn as nn
import torch.optim as optim
from torch.optim.lr_scheduler import CosineAnnealingLR
from diffusers import AutoencoderKL, UNet2DConditionModel
from transformers import WhisperModel
from diffusers.optimization import get_scheduler
from omegaconf import OmegaConf
from einops import rearrange
from musetalk.models.syncnet import SyncNet
from musetalk.loss.discriminator import MultiScaleDiscriminator, DiscriminatorFullModel
from musetalk.loss.basic_loss import Interpolate
import musetalk.loss.vgg_face as vgg_face
from musetalk.data.dataset import PortraitDataset
from musetalk.utils.utils import (
get_image_pred,
process_audio_features,
process_and_save_images
)
class Net(nn.Module):
def __init__(
self,
unet: UNet2DConditionModel,
):
super().__init__()
self.unet = unet
def forward(
self,
input_latents,
timesteps,
audio_prompts,
):
model_pred = self.unet(
input_latents,
timesteps,
encoder_hidden_states=audio_prompts
).sample
return model_pred
logger = logging.getLogger(__name__)
def initialize_models_and_optimizers(cfg, accelerator, weight_dtype):
"""Initialize models and optimizers"""
model_dict = {
'vae': None,
'unet': None,
'net': None,
'wav2vec': None,
'optimizer': None,
'lr_scheduler': None,
'scheduler_max_steps': None,
'trainable_params': None
}
model_dict['vae'] = AutoencoderKL.from_pretrained(
cfg.pretrained_model_name_or_path,
subfolder=cfg.vae_type,
)
unet_config_file = os.path.join(
cfg.pretrained_model_name_or_path,
cfg.unet_sub_folder + "/musetalk.json"
)
with open(unet_config_file, 'r') as f:
unet_config = json.load(f)
model_dict['unet'] = UNet2DConditionModel(**unet_config)
if not cfg.random_init_unet:
pretrained_unet_path = os.path.join(cfg.pretrained_model_name_or_path, cfg.unet_sub_folder, "pytorch_model.bin")
print(f"### Loading existing unet weights from {pretrained_unet_path}. ###")
checkpoint = torch.load(pretrained_unet_path, map_location=accelerator.device)
model_dict['unet'].load_state_dict(checkpoint)
unet_params = [p.numel() for n, p in model_dict['unet'].named_parameters()]
logger.info(f"unet {sum(unet_params) / 1e6}M-parameter")
model_dict['vae'].requires_grad_(False)
model_dict['unet'].requires_grad_(True)
model_dict['vae'].to(accelerator.device, dtype=weight_dtype)
model_dict['net'] = Net(model_dict['unet'])
model_dict['wav2vec'] = WhisperModel.from_pretrained(cfg.whisper_path).to(
device="cuda", dtype=weight_dtype).eval()
model_dict['wav2vec'].requires_grad_(False)
if cfg.solver.gradient_checkpointing:
model_dict['unet'].enable_gradient_checkpointing()
if cfg.solver.scale_lr:
learning_rate = (
cfg.solver.learning_rate
* cfg.solver.gradient_accumulation_steps
* cfg.data.train_bs
* accelerator.num_processes
)
else:
learning_rate = cfg.solver.learning_rate
if cfg.solver.use_8bit_adam:
try:
import bitsandbytes as bnb
except ImportError:
raise ImportError(
"Please install bitsandbytes to use 8-bit Adam. You can do so by running `pip install bitsandbytes`"
)
optimizer_cls = bnb.optim.AdamW8bit
else:
optimizer_cls = torch.optim.AdamW
model_dict['trainable_params'] = list(filter(lambda p: p.requires_grad, model_dict['net'].parameters()))
if accelerator.is_main_process:
print('trainable params')
for n, p in model_dict['net'].named_parameters():
if p.requires_grad:
print(n)
model_dict['optimizer'] = optimizer_cls(
model_dict['trainable_params'],
lr=learning_rate,
betas=(cfg.solver.adam_beta1, cfg.solver.adam_beta2),
weight_decay=cfg.solver.adam_weight_decay,
eps=cfg.solver.adam_epsilon,
)
model_dict['scheduler_max_steps'] = cfg.solver.max_train_steps * cfg.solver.gradient_accumulation_steps
model_dict['lr_scheduler'] = get_scheduler(
cfg.solver.lr_scheduler,
optimizer=model_dict['optimizer'],
num_warmup_steps=cfg.solver.lr_warmup_steps * cfg.solver.gradient_accumulation_steps,
num_training_steps=model_dict['scheduler_max_steps'],
)
return model_dict
def initialize_dataloaders(cfg):
"""Initialize training and validation dataloaders"""
dataloader_dict = {
'train_dataset': None,
'val_dataset': None,
'train_dataloader': None,
'val_dataloader': None
}
dataloader_dict['train_dataset'] = PortraitDataset(cfg={
'image_size': cfg.data.image_size,
'T': cfg.data.n_sample_frames,
"sample_method": cfg.data.sample_method,
'top_k_ratio': cfg.data.top_k_ratio,
"contorl_face_min_size": cfg.data.contorl_face_min_size,
"dataset_key": cfg.data.dataset_key,
"padding_pixel_mouth": cfg.padding_pixel_mouth,
"whisper_path": cfg.whisper_path,
"min_face_size": cfg.data.min_face_size,
"cropping_jaw2edge_margin_mean": cfg.cropping_jaw2edge_margin_mean,
"cropping_jaw2edge_margin_std": cfg.cropping_jaw2edge_margin_std,
"crop_type": cfg.crop_type,
"random_margin_method": cfg.random_margin_method,
})
dataloader_dict['train_dataloader'] = torch.utils.data.DataLoader(
dataloader_dict['train_dataset'],
batch_size=cfg.data.train_bs,
shuffle=True,
num_workers=cfg.data.num_workers,
)
dataloader_dict['val_dataset'] = PortraitDataset(cfg={
'image_size': cfg.data.image_size,
'T': cfg.data.n_sample_frames,
"sample_method": cfg.data.sample_method,
'top_k_ratio': cfg.data.top_k_ratio,
"contorl_face_min_size": cfg.data.contorl_face_min_size,
"dataset_key": cfg.data.dataset_key,
"padding_pixel_mouth": cfg.padding_pixel_mouth,
"whisper_path": cfg.whisper_path,
"min_face_size": cfg.data.min_face_size,
"cropping_jaw2edge_margin_mean": cfg.cropping_jaw2edge_margin_mean,
"cropping_jaw2edge_margin_std": cfg.cropping_jaw2edge_margin_std,
"crop_type": cfg.crop_type,
"random_margin_method": cfg.random_margin_method,
})
dataloader_dict['val_dataloader'] = torch.utils.data.DataLoader(
dataloader_dict['val_dataset'],
batch_size=cfg.data.train_bs,
shuffle=True,
num_workers=1,
)
return dataloader_dict
def initialize_loss_functions(cfg, accelerator, scheduler_max_steps):
"""Initialize loss functions and discriminators"""
loss_dict = {
'L1_loss': nn.L1Loss(reduction='mean'),
'discriminator': None,
'mouth_discriminator': None,
'optimizer_D': None,
'mouth_optimizer_D': None,
'scheduler_D': None,
'mouth_scheduler_D': None,
'disc_scales': None,
'discriminator_full': None,
'mouth_discriminator_full': None
}
if cfg.loss_params.gan_loss > 0:
loss_dict['discriminator'] = MultiScaleDiscriminator(
**cfg.model_params.discriminator_params).to(accelerator.device)
loss_dict['discriminator_full'] = DiscriminatorFullModel(loss_dict['discriminator'])
loss_dict['disc_scales'] = cfg.model_params.discriminator_params.scales
loss_dict['optimizer_D'] = optim.AdamW(
loss_dict['discriminator'].parameters(),
lr=cfg.discriminator_train_params.lr,
weight_decay=cfg.discriminator_train_params.weight_decay,
betas=cfg.discriminator_train_params.betas,
eps=cfg.discriminator_train_params.eps)
loss_dict['scheduler_D'] = CosineAnnealingLR(
loss_dict['optimizer_D'],
T_max=scheduler_max_steps,
eta_min=1e-6
)
if cfg.loss_params.mouth_gan_loss > 0:
loss_dict['mouth_discriminator'] = MultiScaleDiscriminator(
**cfg.model_params.discriminator_params).to(accelerator.device)
loss_dict['mouth_discriminator_full'] = DiscriminatorFullModel(loss_dict['mouth_discriminator'])
loss_dict['mouth_optimizer_D'] = optim.AdamW(
loss_dict['mouth_discriminator'].parameters(),
lr=cfg.discriminator_train_params.lr,
weight_decay=cfg.discriminator_train_params.weight_decay,
betas=cfg.discriminator_train_params.betas,
eps=cfg.discriminator_train_params.eps)
loss_dict['mouth_scheduler_D'] = CosineAnnealingLR(
loss_dict['mouth_optimizer_D'],
T_max=scheduler_max_steps,
eta_min=1e-6
)
return loss_dict
def initialize_syncnet(cfg, accelerator, weight_dtype):
"""Initialize SyncNet model"""
if cfg.loss_params.sync_loss > 0 or cfg.use_adapted_weight:
if cfg.data.n_sample_frames != 16:
raise ValueError(
f"Invalid n_sample_frames {cfg.data.n_sample_frames} for sync_loss, it should be 16."
)
syncnet_config = OmegaConf.load(cfg.syncnet_config_path)
syncnet = SyncNet(OmegaConf.to_container(
syncnet_config.model)).to(accelerator.device)
print(
f"Load SyncNet checkpoint from: {syncnet_config.ckpt.inference_ckpt_path}")
checkpoint = torch.load(
syncnet_config.ckpt.inference_ckpt_path, map_location=accelerator.device)
syncnet.load_state_dict(checkpoint["state_dict"])
syncnet.to(dtype=weight_dtype)
syncnet.requires_grad_(False)
syncnet.eval()
return syncnet
return None
def initialize_vgg(cfg, accelerator):
"""Initialize VGG model"""
if cfg.loss_params.vgg_loss > 0:
vgg_IN = vgg_face.Vgg19().to(accelerator.device,)
pyramid = vgg_face.ImagePyramide(
cfg.loss_params.pyramid_scale, 3).to(accelerator.device)
vgg_IN.eval()
downsampler = Interpolate(
size=(224, 224), mode='bilinear', align_corners=False).to(accelerator.device)
return vgg_IN, pyramid, downsampler
return None, None, None
def validation(
cfg,
val_dataloader,
net,
vae,
wav2vec,
accelerator,
save_dir,
global_step,
weight_dtype,
syncnet_score=1,
):
"""Validation function for model evaluation"""
net.eval() # Set the model to evaluation mode
for batch in val_dataloader:
# The same ref_latents
ref_pixel_values = batch["pixel_values_ref_img"].to(weight_dtype).to(
accelerator.device, non_blocking=True
)
pixel_values = batch["pixel_values_vid"].to(weight_dtype).to(
accelerator.device, non_blocking=True
)
bsz, num_frames, c, h, w = ref_pixel_values.shape
audio_prompts = process_audio_features(cfg, batch, wav2vec, bsz, num_frames, weight_dtype)
# audio feature for unet
audio_prompts = rearrange(
audio_prompts,
'b f c h w-> (b f) c h w'
)
audio_prompts = rearrange(
audio_prompts,
'(b f) c h w -> (b f) (c h) w',
b=bsz
)
# different masked_latents
image_pred_train = get_image_pred(
pixel_values, ref_pixel_values, audio_prompts, vae, net, weight_dtype)
image_pred_infer = get_image_pred(
ref_pixel_values, ref_pixel_values, audio_prompts, vae, net, weight_dtype)
process_and_save_images(
batch,
image_pred_train,
image_pred_infer,
save_dir,
global_step,
accelerator,
cfg.num_images_to_keep,
syncnet_score
)
# only infer 1 image in validation
break
net.train() # Set the model back to training mode
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