EMAGE

Paused

App Files Files Community

EMAGE / models /motion_representation.py

H-Liu1997

Upload folder using huggingface_hub

2d47d90 verified 4 months ago

raw

history blame contribute delete

No virus

16.5 kB

	import random
	import math
	import numpy as np
	import torch
	import torch.nn as nn
	import torch.nn.functional as F
	import smplx
	import copy
	from .motion_encoder import *

	# ----------- AE, VAE ------------- #
	class VAEConvZero(nn.Module):
	def __init__(self, args):
	super(VAEConvZero, self).__init__()
	self.encoder = VQEncoderV5(args)
	# self.quantizer = Quantizer(args.vae_codebook_size, args.vae_length, args.vae_quantizer_lambda)
	self.decoder = VQDecoderV5(args)

	def forward(self, inputs):
	pre_latent = self.encoder(inputs)
	# print(pre_latent.shape)
	# embedding_loss, vq_latent, _, perplexity = self.quantizer(pre_latent)
	rec_pose = self.decoder(pre_latent)
	return {
	# "poses_feat":vq_latent,
	# "embedding_loss":embedding_loss,
	# "perplexity":perplexity,
	"rec_pose": rec_pose
	}

	class VAEConv(nn.Module):
	def __init__(self, args):
	super(VAEConv, self).__init__()
	self.encoder = VQEncoderV3(args)
	self.decoder = VQDecoderV3(args)
	self.fc_mu = nn.Linear(args.vae_length, args.vae_length)
	self.fc_logvar = nn.Linear(args.vae_length, args.vae_length)
	self.variational = args.variational

	def forward(self, inputs):
	pre_latent = self.encoder(inputs)
	mu, logvar = None, None
	if self.variational:
	mu = self.fc_mu(pre_latent)
	logvar = self.fc_logvar(pre_latent)
	pre_latent = reparameterize(mu, logvar)
	rec_pose = self.decoder(pre_latent)
	return {
	"poses_feat":pre_latent,
	"rec_pose": rec_pose,
	"pose_mu": mu,
	"pose_logvar": logvar,
	}

	def map2latent(self, inputs):
	pre_latent = self.encoder(inputs)
	if self.variational:
	mu = self.fc_mu(pre_latent)
	logvar = self.fc_logvar(pre_latent)
	pre_latent = reparameterize(mu, logvar)
	return pre_latent

	def decode(self, pre_latent):
	rec_pose = self.decoder(pre_latent)
	return rec_pose

	class VAESKConv(VAEConv):
	def __init__(self, args):
	super(VAESKConv, self).__init__(args)
	smpl_fname = args.data_path_1+'smplx_models/smplx/SMPLX_NEUTRAL_2020.npz'
	smpl_data = np.load(smpl_fname, encoding='latin1')
	parents = smpl_data['kintree_table'][0].astype(np.int32)
	edges = build_edge_topology(parents)
	self.encoder = LocalEncoder(args, edges)
	self.decoder = VQDecoderV3(args)

	class VAEConvMLP(VAEConv):
	def __init__(self, args):
	super(VAEConvMLP, self).__init__(args)
	self.encoder = PoseEncoderConv(args.vae_test_len, args.vae_test_dim, feature_length=args.vae_length)
	self.decoder = PoseDecoderConv(args.vae_test_len, args.vae_test_dim, feature_length=args.vae_length)

	class VAELSTM(VAEConv):
	def __init__(self, args):
	super(VAELSTM, self).__init__(args)
	pose_dim = args.vae_test_dim
	feature_length = args.vae_length
	self.encoder = PoseEncoderLSTM_Resnet(pose_dim, feature_length=feature_length)
	self.decoder = PoseDecoderLSTM(pose_dim, feature_length=feature_length)

	class VAETransformer(VAEConv):
	def __init__(self, args):
	super(VAETransformer, self).__init__(args)
	self.encoder = Encoder_TRANSFORMER(args)
	self.decoder = Decoder_TRANSFORMER(args)

	# ----------- VQVAE --------------- #
	class VQVAEConv(nn.Module):
	def __init__(self, args):
	super(VQVAEConv, self).__init__()
	self.encoder = VQEncoderV3(args)
	self.quantizer = Quantizer(args.vae_codebook_size, args.vae_length, args.vae_quantizer_lambda)
	self.decoder = VQDecoderV3(args)

	def forward(self, inputs):
	pre_latent = self.encoder(inputs)
	# print(pre_latent.shape)
	embedding_loss, vq_latent, _, perplexity = self.quantizer(pre_latent)
	rec_pose = self.decoder(vq_latent)
	return {
	"poses_feat":vq_latent,
	"embedding_loss":embedding_loss,
	"perplexity":perplexity,
	"rec_pose": rec_pose
	}

	def map2index(self, inputs):
	pre_latent = self.encoder(inputs)
	index = self.quantizer.map2index(pre_latent)
	return index

	def map2latent(self, inputs):
	pre_latent = self.encoder(inputs)
	index = self.quantizer.map2index(pre_latent)
	z_q = self.quantizer.get_codebook_entry(index)
	return z_q

	def decode(self, index):
	z_q = self.quantizer.get_codebook_entry(index)
	rec_pose = self.decoder(z_q)
	return rec_pose

	class VQVAESKConv(VQVAEConv):
	def __init__(self, args):
	super(VQVAESKConv, self).__init__(args)
	smpl_fname = args.data_path_1+'smplx_models/smplx/SMPLX_NEUTRAL_2020.npz'
	smpl_data = np.load(smpl_fname, encoding='latin1')
	parents = smpl_data['kintree_table'][0].astype(np.int32)
	edges = build_edge_topology(parents)
	self.encoder = LocalEncoder(args, edges)


	class VQVAEConvStride(nn.Module):
	def __init__(self, args):
	super(VQVAEConvStride, self).__init__()
	self.encoder = VQEncoderV4(args)
	self.quantizer = Quantizer(args.vae_codebook_size, args.vae_length, args.vae_quantizer_lambda)
	self.decoder = VQDecoderV4(args)

	def forward(self, inputs):
	pre_latent = self.encoder(inputs)
	# print(pre_latent.shape)
	embedding_loss, vq_latent, _, perplexity = self.quantizer(pre_latent)
	rec_pose = self.decoder(vq_latent)
	return {
	"poses_feat":vq_latent,
	"embedding_loss":embedding_loss,
	"perplexity":perplexity,
	"rec_pose": rec_pose
	}

	def map2index(self, inputs):
	pre_latent = self.encoder(inputs)
	index = self.quantizer.map2index(pre_latent)
	return index

	def map2latent(self, inputs):
	pre_latent = self.encoder(inputs)
	index = self.quantizer.map2index(pre_latent)
	z_q = self.quantizer.get_codebook_entry(index)
	return z_q

	def decode(self, index):
	z_q = self.quantizer.get_codebook_entry(index)
	rec_pose = self.decoder(z_q)
	return rec_pose

	class VQVAEConvZero(nn.Module):
	def __init__(self, args):
	super(VQVAEConvZero, self).__init__()
	self.encoder = VQEncoderV5(args)
	self.quantizer = Quantizer(args.vae_codebook_size, args.vae_length, args.vae_quantizer_lambda)
	self.decoder = VQDecoderV5(args)

	def forward(self, inputs):
	pre_latent = self.encoder(inputs)
	# print(pre_latent.shape)
	embedding_loss, vq_latent, _, perplexity = self.quantizer(pre_latent)
	rec_pose = self.decoder(vq_latent)
	return {
	"poses_feat":vq_latent,
	"embedding_loss":embedding_loss,
	"perplexity":perplexity,
	"rec_pose": rec_pose
	}

	def map2index(self, inputs):
	pre_latent = self.encoder(inputs)
	index = self.quantizer.map2index(pre_latent)
	return index

	def map2latent(self, inputs):
	pre_latent = self.encoder(inputs)
	index = self.quantizer.map2index(pre_latent)
	z_q = self.quantizer.get_codebook_entry(index)
	return z_q

	def decode(self, index):
	z_q = self.quantizer.get_codebook_entry(index)
	rec_pose = self.decoder(z_q)
	return rec_pose


	class VAEConvZero(nn.Module):
	def __init__(self, args):
	super(VAEConvZero, self).__init__()
	self.encoder = VQEncoderV5(args)
	# self.quantizer = Quantizer(args.vae_codebook_size, args.vae_length, args.vae_quantizer_lambda)
	self.decoder = VQDecoderV5(args)

	def forward(self, inputs):
	pre_latent = self.encoder(inputs)
	# print(pre_latent.shape)
	# embedding_loss, vq_latent, _, perplexity = self.quantizer(pre_latent)
	rec_pose = self.decoder(pre_latent)
	return {
	# "poses_feat":vq_latent,
	# "embedding_loss":embedding_loss,
	# "perplexity":perplexity,
	"rec_pose": rec_pose
	}

	# def map2index(self, inputs):
	# pre_latent = self.encoder(inputs)
	# index = self.quantizer.map2index(pre_latent)
	# return index

	# def map2latent(self, inputs):
	# pre_latent = self.encoder(inputs)
	# index = self.quantizer.map2index(pre_latent)
	# z_q = self.quantizer.get_codebook_entry(index)
	# return z_q

	# def decode(self, index):
	# z_q = self.quantizer.get_codebook_entry(index)
	# rec_pose = self.decoder(z_q)
	# return rec_pose


	class VQVAEConvZero3(nn.Module):
	def __init__(self, args):
	super(VQVAEConvZero3, self).__init__()
	self.encoder = VQEncoderV5(args)
	self.quantizer = Quantizer(args.vae_codebook_size, args.vae_length, args.vae_quantizer_lambda)
	self.decoder = VQDecoderV5(args)

	def forward(self, inputs):
	pre_latent = self.encoder(inputs)
	# print(pre_latent.shape)
	embedding_loss, vq_latent, _, perplexity = self.quantizer(pre_latent)
	rec_pose = self.decoder(vq_latent)
	return {
	"poses_feat":vq_latent,
	"embedding_loss":embedding_loss,
	"perplexity":perplexity,
	"rec_pose": rec_pose
	}

	def map2index(self, inputs):
	pre_latent = self.encoder(inputs)
	index = self.quantizer.map2index(pre_latent)
	return index

	def map2latent(self, inputs):
	pre_latent = self.encoder(inputs)
	index = self.quantizer.map2index(pre_latent)
	z_q = self.quantizer.get_codebook_entry(index)
	return z_q

	def decode(self, index):
	z_q = self.quantizer.get_codebook_entry(index)
	rec_pose = self.decoder(z_q)
	return rec_pose

	class VQVAEConvZero2(nn.Module):
	def __init__(self, args):
	super(VQVAEConvZero2, self).__init__()
	self.encoder = VQEncoderV5(args)
	self.quantizer = Quantizer(args.vae_codebook_size, args.vae_length, args.vae_quantizer_lambda)
	self.decoder = VQDecoderV7(args)

	def forward(self, inputs):
	pre_latent = self.encoder(inputs)
	# print(pre_latent.shape)
	embedding_loss, vq_latent, _, perplexity = self.quantizer(pre_latent)
	rec_pose = self.decoder(vq_latent)
	return {
	"poses_feat":vq_latent,
	"embedding_loss":embedding_loss,
	"perplexity":perplexity,
	"rec_pose": rec_pose
	}

	def map2index(self, inputs):
	pre_latent = self.encoder(inputs)
	index = self.quantizer.map2index(pre_latent)
	return index

	def map2latent(self, inputs):
	pre_latent = self.encoder(inputs)
	index = self.quantizer.map2index(pre_latent)
	z_q = self.quantizer.get_codebook_entry(index)
	return z_q

	def decode(self, index):
	z_q = self.quantizer.get_codebook_entry(index)
	rec_pose = self.decoder(z_q)
	return rec_pose

	class VQVAE2(nn.Module):
	def __init__(self, args):
	super(VQVAE2, self).__init__()
	# Bottom-level encoder and decoder
	args_bottom = copy.deepcopy(args)
	args_bottom.vae_layer = 2
	self.bottom_encoder = VQEncoderV6(args_bottom)
	self.bottom_quantizer = Quantizer(args.vae_codebook_size, args.vae_length, args.vae_quantizer_lambda)
	args_bottom.vae_test_dim = args.vae_test_dim
	self.bottom_decoder = VQDecoderV6(args_bottom)

	# Top-level encoder and decoder
	args_top = copy.deepcopy(args)
	args_top.vae_layer = 3
	args_top.vae_test_dim = args.vae_length
	self.top_encoder = VQEncoderV3(args_top) # Adjust according to the top level's design
	self.quantize_conv_t = nn.Conv1d(args.vae_length+args.vae_length, args.vae_length, 1)
	self.top_quantizer = Quantizer(args.vae_codebook_size, args.vae_length, args.vae_quantizer_lambda)
	# self.upsample_t_up = nn.Upsample(scale_factor=2, mode='nearest')
	layers = [
	nn.Upsample(scale_factor=2, mode='nearest'),
	nn.Conv1d(args.vae_length, args.vae_length, kernel_size=3, stride=1, padding=1),
	nn.LeakyReLU(0.2, inplace=True),
	nn.Upsample(scale_factor=2, mode='nearest'),
	nn.Conv1d(args.vae_length, args.vae_length, kernel_size=3, stride=1, padding=1),
	nn.LeakyReLU(0.2, inplace=True),
	nn.Upsample(scale_factor=2, mode='nearest'),
	nn.Conv1d(args.vae_length, args.vae_length, kernel_size=3, stride=1, padding=1),
	nn.LeakyReLU(0.2, inplace=True)
	]
	self.upsample_t= nn.Sequential(*layers)
	self.top_decoder = VQDecoderV3(args_top) # Adjust to handle top level features appropriately

	def forward(self, inputs):
	# Bottom-level processing
	enc_b = self.bottom_encoder(inputs)
	enc_t = self.top_encoder(enc_b)
	#print(enc_b.shape, enc_t.shape)
	top_embedding_loss, quant_t, _, top_perplexity = self.top_quantizer(enc_t)
	#print(quant_t.shape)
	dec_t = self.top_decoder(quant_t)
	#print(dec_t.shape)
	enc_b = torch.cat([dec_t, enc_b], dim=2).permute(0,2,1)
	#print(enc_b.shape)
	quant_b = self.quantize_conv_t(enc_b).permute(0,2,1)
	#print("5",quant_b.shape)
	bottom_embedding_loss, quant_b, _, bottom_perplexity = self.bottom_quantizer(quant_b)
	#print("6",quant_b.shape)
	upsample_t = self.upsample_t(quant_t.permute(0,2,1)).permute(0,2,1)
	#print("7",upsample_t.shape)
	quant = torch.cat([upsample_t, quant_b], 2)
	rec_pose = self.bottom_decoder(quant)
	# print(quant_t.shape, quant_b.shape, rec_pose.shape)
	return {
	"poses_feat_top": quant_t,
	"pose_feat_bottom": quant_b,
	"embedding_loss":top_embedding_loss+bottom_embedding_loss,
	#"perplexity":perplexity,
	"rec_pose": rec_pose
	}

	def map2index(self, inputs):
	enc_b = self.bottom_encoder(inputs)
	enc_t = self.top_encoder(enc_b)

	_, quant_t, _, _ = self.top_quantizer(enc_t)
	top_index = self.top_quantizer.map2index(enc_t)
	dec_t = self.top_decoder(quant_t)

	enc_b = torch.cat([dec_t, enc_b], dim=2).permute(0,2,1)
	#print(enc_b.shape)
	quant_b = self.quantize_conv_t(enc_b).permute(0,2,1)
	# quant_b = self.quantize_conv_t(enc_b)
	bottom_index = self.bottom_quantizer.map2index(quant_b)
	return top_index, bottom_index

	def get_top_laent(self, top_index):
	z_q_top = self.top_quantizer.get_codebook_entry(top_index)
	return z_q_top

	def map2latent(self, inputs):
	enc_b = self.bottom_encoder(inputs)
	enc_t = self.top_encoder(enc_b)

	_, quant_t, _, _ = self.top_quantizer(enc_t)
	top_index = self.top_quantizer.map2index(enc_t)
	dec_t = self.top_decoder(quant_t)

	enc_b = torch.cat([dec_t, enc_b], dim=2).permute(0,2,1)
	#print(enc_b.shape)
	quant_b = self.quantize_conv_t(enc_b).permute(0,2,1)
	# quant_b = self.quantize_conv_t(enc_b)
	bottom_index = self.bottom_quantizer.map2index(quant_b)
	z_q_top = self.top_quantizer.get_codebook_entry(top_index)
	z_q_bottom = self.bottom_quantizer.get_codebook_entry(bottom_index)
	return z_q_top, z_q_bottom

	def map2latent_top(self, inputs):
	enc_b = self.bottom_encoder(inputs)
	enc_t = self.top_encoder(enc_b)
	top_index = self.top_quantizer.map2index(enc_t)
	z_q_top = self.top_quantizer.get_codebook_entry(top_index)
	return z_q_top

	def decode(self, top_index, bottom_index):
	quant_t = self.top_quantizer.get_codebook_entry(top_index)
	quant_b = self.bottom_quantizer.get_codebook_entry(bottom_index)
	upsample_t = self.upsample_t(quant_t.permute(0,2,1)).permute(0,2,1)
	#print("7",upsample_t.shape)
	quant = torch.cat([upsample_t, quant_b], 2)
	rec_pose = self.bottom_decoder(quant)
	return rec_pose