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TripoSR / tsr /models /network_utils.py

dmitriitochilkin

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	from dataclasses import dataclass, field
	from typing import Optional

	import torch
	import torch.nn as nn
	from einops import rearrange

	from ..utils import BaseModule


	class TriplaneUpsampleNetwork(BaseModule):
	@dataclass
	class Config(BaseModule.Config):
	in_channels: int
	out_channels: int

	cfg: Config

	def configure(self) -> None:
	self.upsample = nn.ConvTranspose2d(
	self.cfg.in_channels, self.cfg.out_channels, kernel_size=2, stride=2
	)

	def forward(self, triplanes: torch.Tensor) -> torch.Tensor:
	triplanes_up = rearrange(
	self.upsample(
	rearrange(triplanes, "B Np Ci Hp Wp -> (B Np) Ci Hp Wp", Np=3)
	),
	"(B Np) Co Hp Wp -> B Np Co Hp Wp",
	Np=3,
	)
	return triplanes_up


	class NeRFMLP(BaseModule):
	@dataclass
	class Config(BaseModule.Config):
	in_channels: int
	n_neurons: int
	n_hidden_layers: int
	activation: str = "relu"
	bias: bool = True
	weight_init: Optional[str] = "kaiming_uniform"
	bias_init: Optional[str] = None

	cfg: Config

	def configure(self) -> None:
	layers = [
	self.make_linear(
	self.cfg.in_channels,
	self.cfg.n_neurons,
	bias=self.cfg.bias,
	weight_init=self.cfg.weight_init,
	bias_init=self.cfg.bias_init,
	),
	self.make_activation(self.cfg.activation),
	]
	for i in range(self.cfg.n_hidden_layers - 1):
	layers += [
	self.make_linear(
	self.cfg.n_neurons,
	self.cfg.n_neurons,
	bias=self.cfg.bias,
	weight_init=self.cfg.weight_init,
	bias_init=self.cfg.bias_init,
	),
	self.make_activation(self.cfg.activation),
	]
	layers += [
	self.make_linear(
	self.cfg.n_neurons,
	4, # density 1 + features 3
	bias=self.cfg.bias,
	weight_init=self.cfg.weight_init,
	bias_init=self.cfg.bias_init,
	)
	]
	self.layers = nn.Sequential(*layers)

	def make_linear(
	self,
	dim_in,
	dim_out,
	bias=True,
	weight_init=None,
	bias_init=None,
	):
	layer = nn.Linear(dim_in, dim_out, bias=bias)

	if weight_init is None:
	pass
	elif weight_init == "kaiming_uniform":
	torch.nn.init.kaiming_uniform_(layer.weight, nonlinearity="relu")
	else:
	raise NotImplementedError

	if bias:
	if bias_init is None:
	pass
	elif bias_init == "zero":
	torch.nn.init.zeros_(layer.bias)
	else:
	raise NotImplementedError

	return layer

	def make_activation(self, activation):
	if activation == "relu":
	return nn.ReLU(inplace=True)
	elif activation == "silu":
	return nn.SiLU(inplace=True)
	else:
	raise NotImplementedError

	def forward(self, x):
	inp_shape = x.shape[:-1]
	x = x.reshape(-1, x.shape[-1])

	features = self.layers(x)
	features = features.reshape(*inp_shape, -1)
	out = {"density": features[..., 0:1], "features": features[..., 1:4]}

	return out