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3DTopia-XL / dva /layers.py

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	# Copyright (c) Meta Platforms, Inc. and affiliates.
	# All rights reserved.
	#
	# This source code is licensed under the license found in the
	# LICENSE file in the root directory of this source tree.

	import torch as th
	import torch.nn as nn

	import numpy as np

	from dva.mvp.models.utils import Conv2dWN, Conv2dWNUB, ConvTranspose2dWNUB, initmod


	class ConvBlock(nn.Module):
	def __init__(
	self,
	in_channels,
	out_channels,
	size,
	lrelu_slope=0.2,
	kernel_size=3,
	padding=1,
	wnorm_dim=0,
	):
	super().__init__()

	self.conv_resize = Conv2dWN(in_channels, out_channels, kernel_size=1)
	self.conv1 = Conv2dWNUB(
	in_channels,
	in_channels,
	kernel_size=kernel_size,
	padding=padding,
	height=size,
	width=size,
	)

	self.lrelu1 = nn.LeakyReLU(lrelu_slope)
	self.conv2 = Conv2dWNUB(
	in_channels,
	out_channels,
	kernel_size=kernel_size,
	padding=padding,
	height=size,
	width=size,
	)
	self.lrelu2 = nn.LeakyReLU(lrelu_slope)

	def forward(self, x):
	x_skip = self.conv_resize(x)
	x = self.conv1(x)
	x = self.lrelu1(x)
	x = self.conv2(x)
	x = self.lrelu2(x)
	return x + x_skip


	def tile2d(x, size: int):
	"""Tile a given set of features into a convolutional map.

	Args:
	x: float tensor of shape [N, F]
	size: int or a tuple

	Returns:
	a feature map [N, F, size[0], size[1]]
	"""
	# size = size if isinstance(size, tuple) else (size, size)
	# NOTE: expecting only int here (!!!)
	return x[:, :, np.newaxis, np.newaxis].expand(-1, -1, size, size)


	def weights_initializer(m, alpha: float = 1.0):
	return initmod(m, nn.init.calculate_gain("leaky_relu", alpha))


	class UNetWB(nn.Module):
	def __init__(
	self,
	in_channels,
	out_channels,
	size,
	n_init_ftrs=8,
	out_scale=0.1,
	):
	# super().__init__(args, *kwargs)
	super().__init__()

	self.out_scale = 0.1

	F = n_init_ftrs

	# TODO: allow changing the size?
	self.size = size

	self.down1 = nn.Sequential(
	Conv2dWNUB(in_channels, F, self.size // 2, self.size // 2, 4, 2, 1),
	nn.LeakyReLU(0.2),
	)
	self.down2 = nn.Sequential(
	Conv2dWNUB(F, 2 * F, self.size // 4, self.size // 4, 4, 2, 1),
	nn.LeakyReLU(0.2),
	)
	self.down3 = nn.Sequential(
	Conv2dWNUB(2 * F, 4 * F, self.size // 8, self.size // 8, 4, 2, 1),
	nn.LeakyReLU(0.2),
	)
	self.down4 = nn.Sequential(
	Conv2dWNUB(4 * F, 8 * F, self.size // 16, self.size // 16, 4, 2, 1),
	nn.LeakyReLU(0.2),
	)
	self.down5 = nn.Sequential(
	Conv2dWNUB(8 * F, 16 * F, self.size // 32, self.size // 32, 4, 2, 1),
	nn.LeakyReLU(0.2),
	)
	self.up1 = nn.Sequential(
	ConvTranspose2dWNUB(
	16 * F, 8 * F, self.size // 16, self.size // 16, 4, 2, 1
	),
	nn.LeakyReLU(0.2),
	)
	self.up2 = nn.Sequential(
	ConvTranspose2dWNUB(8 * F, 4 * F, self.size // 8, self.size // 8, 4, 2, 1),
	nn.LeakyReLU(0.2),
	)
	self.up3 = nn.Sequential(
	ConvTranspose2dWNUB(4 * F, 2 * F, self.size // 4, self.size // 4, 4, 2, 1),
	nn.LeakyReLU(0.2),
	)
	self.up4 = nn.Sequential(
	ConvTranspose2dWNUB(2 * F, F, self.size // 2, self.size // 2, 4, 2, 1),
	nn.LeakyReLU(0.2),
	)
	self.up5 = nn.Sequential(
	ConvTranspose2dWNUB(F, F, self.size, self.size, 4, 2, 1), nn.LeakyReLU(0.2)
	)
	self.out = Conv2dWNUB(
	F + in_channels, out_channels, self.size, self.size, kernel_size=1
	)
	self.apply(lambda x: initmod(x, 0.2))
	initmod(self.out, 1.0)

	def forward(self, x):
	x1 = x
	x2 = self.down1(x1)
	x3 = self.down2(x2)
	x4 = self.down3(x3)
	x5 = self.down4(x4)
	x6 = self.down5(x5)
	# TODO: switch to concat?
	x = self.up1(x6) + x5
	x = self.up2(x) + x4
	x = self.up3(x) + x3
	x = self.up4(x) + x2
	x = self.up5(x)
	x = th.cat([x, x1], dim=1)
	return self.out(x) * self.out_scale