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Talkshow_Demo / nets /smplx_body_pixel.py

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Update nets/smplx_body_pixel.py

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	import os
	import sys
	import torch
	import torch.nn as nn
	import torch.optim as optim
	import torch.nn.functional as F
	from torch.optim.lr_scheduler import StepLR

	sys.path.append(os.getcwd())

	from nets.layers import *
	from nets.base import TrainWrapperBaseClass
	from nets.spg.gated_pixelcnn_v2 import GatedPixelCNN as pixelcnn
	from nets.spg.vqvae_1d import VQVAE as s2g_body, Wav2VecEncoder, AudioEncoder
	from nets.utils import parse_audio, denormalize
	from data_utils import get_mfcc, get_melspec, get_mfcc_old, get_mfcc_psf, get_mfcc_psf_min, get_mfcc_ta
	from data_utils.lower_body import c_index, c_index_3d, c_index_6d
	from data_utils.utils import smooth_geom, get_mfcc_sepa
	import numpy as np
	from sklearn.preprocessing import normalize


	class TrainWrapper(TrainWrapperBaseClass):
	'''
	a wrapper receiving a batch from data_utils and calculate loss
	'''

	def __init__(self, args, config):
	self.args = args
	self.config = config
	self.global_step = 0

	# Force CPU device
	self.device = torch.device('cpu')

	self.convert_to_6d = self.config.Data.pose.convert_to_6d
	self.expression = self.config.Data.pose.expression
	self.epoch = 0
	self.init_params()
	self.num_classes = 4
	self.audio = True
	self.composition = self.config.Model.composition
	self.bh_model = self.config.Model.bh_model

	if self.audio:
	self.audioencoder = AudioEncoder(
	in_dim=64,
	num_hiddens=256,
	num_residual_layers=2,
	num_residual_hiddens=256
	).to(self.device)
	else:
	self.audioencoder = None

	if self.convert_to_6d:
	dim, layer = 512, 10
	else:
	dim, layer = 256, 15

	self.generator = pixelcnn(2048, dim, layer, self.num_classes, self.audio, self.bh_model).to(self.device)
	self.g_body = s2g_body(self.each_dim[1], embedding_dim=64, num_embeddings=config.Model.code_num, num_hiddens=1024,
	num_residual_layers=2, num_residual_hiddens=512).to(self.device)
	self.g_hand = s2g_body(self.each_dim[2], embedding_dim=64, num_embeddings=config.Model.code_num, num_hiddens=1024,
	num_residual_layers=2, num_residual_hiddens=512).to(self.device)

	model_path = self.config.Model.vq_path
	model_ckpt = torch.load(model_path, map_location=torch.device('cpu'))
	self.g_body.load_state_dict(model_ckpt['generator']['g_body'])
	self.g_hand.load_state_dict(model_ckpt['generator']['g_hand'])

	self.discriminator = None
	if self.convert_to_6d:
	self.c_index = c_index_6d
	else:
	self.c_index = c_index_3d

	super().__init__(args, config)

	def init_optimizer(self):
	print('using Adam')
	self.generator_optimizer = optim.Adam(
	self.generator.parameters(),
	lr=self.config.Train.learning_rate.generator_learning_rate,
	betas=[0.9, 0.999]
	)
	if self.audioencoder is not None:
	opt = self.config.Model.AudioOpt
	if opt == 'Adam':
	self.audioencoder_optimizer = optim.Adam(
	self.audioencoder.parameters(),
	lr=self.config.Train.learning_rate.generator_learning_rate,
	betas=[0.9, 0.999]
	)
	else:
	print('using SGD')
	self.audioencoder_optimizer = optim.SGD(
	filter(lambda p: p.requires_grad, self.audioencoder.parameters()),
	lr=self.config.Train.learning_rate.generator_learning_rate * 10,
	momentum=0.9,
	nesterov=False
	)

	def state_dict(self):
	return {
	'generator': self.generator.state_dict(),
	'generator_optim': self.generator_optimizer.state_dict(),
	'audioencoder': self.audioencoder.state_dict() if self.audio else None,
	'audioencoder_optim': self.audioencoder_optimizer.state_dict() if self.audio else None,
	'discriminator': self.discriminator.state_dict() if self.discriminator else None,
	'discriminator_optim': self.discriminator_optimizer.state_dict() if self.discriminator else None
	}

	def load_state_dict(self, state_dict):
	from collections import OrderedDict
	new_state_dict = OrderedDict()
	for k, v in state_dict.items():
	sub_dict = OrderedDict()
	if v is not None:
	for k1, v1 in v.items():
	name = k1.replace('module.', '')
	sub_dict[name] = v1
	new_state_dict[k] = sub_dict
	state_dict = new_state_dict

	if 'generator' in state_dict:
	self.generator.load_state_dict(state_dict['generator'])
	else:
	self.generator.load_state_dict(state_dict)

	if 'generator_optim' in state_dict and self.generator_optimizer is not None:
	self.generator_optimizer.load_state_dict(state_dict['generator_optim'])

	if self.discriminator is not None:
	self.discriminator.load_state_dict(state_dict['discriminator'])
	if 'discriminator_optim' in state_dict and self.discriminator_optimizer is not None:
	self.discriminator_optimizer.load_state_dict(state_dict['discriminator_optim'])

	if 'audioencoder' in state_dict and self.audioencoder is not None:
	self.audioencoder.load_state_dict(state_dict['audioencoder'])

	def init_params(self):
	if self.config.Data.pose.convert_to_6d:
	scale = 2
	else:
	scale = 1

	global_orient = round(0 * scale)
	leye_pose = reye_pose = round(0 * scale)
	jaw_pose = round(0 * scale)
	body_pose = round((63 - 24) * scale)
	left_hand_pose = right_hand_pose = round(45 * scale)
	if self.expression:
	expression = 100
	else:
	expression = 0

	b_j = 0
	jaw_dim = jaw_pose
	b_e = b_j + jaw_dim
	eye_dim = leye_pose + reye_pose
	b_b = b_e + eye_dim
	body_dim = global_orient + body_pose
	b_h = b_b + body_dim
	hand_dim = left_hand_pose + right_hand_pose
	b_f = b_h + hand_dim
	face_dim = expression

	self.dim_list = [b_j, b_e, b_b, b_h, b_f]
	self.full_dim = jaw_dim + eye_dim + body_dim + hand_dim
	self.pose = int(self.full_dim / round(3 * scale))
	self.each_dim = [jaw_dim, eye_dim + body_dim, hand_dim, face_dim]

	def __call__(self, bat):
	self.global_step += 1
	total_loss = None
	loss_dict = {}

	aud, poses = bat['aud_feat'].to(self.device).float(), bat['poses'].to(self.device).float()
	id = bat['speaker'].to(self.device) - 20
	poses = poses[:, self.c_index, :]
	aud = aud.permute(0, 2, 1)
	gt_poses = poses.permute(0, 2, 1)

	with torch.no_grad():
	self.g_body.eval()
	self.g_hand.eval()
	_, body_latents = self.g_body.encode(gt_poses=gt_poses[..., :self.each_dim[1]], id=id)
	_, hand_latents = self.g_hand.encode(gt_poses=gt_poses[..., self.each_dim[1]:], id=id)
	latents = torch.cat([body_latents.unsqueeze(-1), hand_latents.unsqueeze(-1)], dim=-1).detach()

	if self.audio:
	audio = self.audioencoder(aud.transpose(1, 2), frame_num=latents.shape[1]*4).unsqueeze(-1).repeat(1, 1, 1, 2)
	logits = self.generator(latents, id, audio)
	else:
	logits = self.generator(latents, id)
	logits = logits.permute(0, 2, 3, 1).contiguous()

	self.generator_optimizer.zero_grad()
	if self.audio:
	self.audioencoder_optimizer.zero_grad()

	loss = F.cross_entropy(logits.view(-1, logits.shape[-1]), latents.view(-1))
	loss.backward()

	grad = torch.nn.utils.clip_grad_norm(self.generator.parameters(), self.config.Train.max_gradient_norm)

	loss_dict['grad'] = grad.item()
	loss_dict['ce_loss'] = loss.item()
	self.generator_optimizer.step()
	if self.audio:
	self.audioencoder_optimizer.step()

	return total_loss, loss_dict

	# ----------------------------------------
	# 🚀 NEW SIMPLE WRAPPER CLASS for inference
	# ----------------------------------------

	class s2g_body_pixel(nn.Module):
	def __init__(self, args, config):
	super().__init__()
	self.wrapper = TrainWrapper(args, config)

	def infer_on_audio(self, args, *kwargs):
	return self.wrapper.infer_on_audio(args, *kwargs)

	def forward(self, args, *kwargs):
	return self.wrapper(args, *kwargs)

	def load_state_dict(self, args, *kwargs):
	return self.wrapper.load_state_dict(args, *kwargs)