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ConsisID-preview-Space / util /rife /IFNet_HDv3.py

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	import torch
	import torch.nn as nn
	import torch.nn.functional as F
	from .warplayer import warp

	device = torch.device("cuda" if torch.cuda.is_available() else "cpu")


	def conv(in_planes, out_planes, kernel_size=3, stride=1, padding=1, dilation=1):
	return nn.Sequential(
	nn.Conv2d(
	in_planes,
	out_planes,
	kernel_size=kernel_size,
	stride=stride,
	padding=padding,
	dilation=dilation,
	bias=True,
	),
	nn.PReLU(out_planes),
	)


	def conv_bn(in_planes, out_planes, kernel_size=3, stride=1, padding=1, dilation=1):
	return nn.Sequential(
	nn.Conv2d(
	in_planes,
	out_planes,
	kernel_size=kernel_size,
	stride=stride,
	padding=padding,
	dilation=dilation,
	bias=False,
	),
	nn.BatchNorm2d(out_planes),
	nn.PReLU(out_planes),
	)


	class IFBlock(nn.Module):
	def __init__(self, in_planes, c=64):
	super(IFBlock, self).__init__()
	self.conv0 = nn.Sequential(
	conv(in_planes, c // 2, 3, 2, 1),
	conv(c // 2, c, 3, 2, 1),
	)
	self.convblock0 = nn.Sequential(conv(c, c), conv(c, c))
	self.convblock1 = nn.Sequential(conv(c, c), conv(c, c))
	self.convblock2 = nn.Sequential(conv(c, c), conv(c, c))
	self.convblock3 = nn.Sequential(conv(c, c), conv(c, c))
	self.conv1 = nn.Sequential(
	nn.ConvTranspose2d(c, c // 2, 4, 2, 1),
	nn.PReLU(c // 2),
	nn.ConvTranspose2d(c // 2, 4, 4, 2, 1),
	)
	self.conv2 = nn.Sequential(
	nn.ConvTranspose2d(c, c // 2, 4, 2, 1),
	nn.PReLU(c // 2),
	nn.ConvTranspose2d(c // 2, 1, 4, 2, 1),
	)

	def forward(self, x, flow, scale=1):
	x = F.interpolate(
	x, scale_factor=1.0 / scale, mode="bilinear", align_corners=False, recompute_scale_factor=False
	)
	flow = (
	F.interpolate(
	flow, scale_factor=1.0 / scale, mode="bilinear", align_corners=False, recompute_scale_factor=False
	)
	* 1.0
	/ scale
	)
	feat = self.conv0(torch.cat((x, flow), 1))
	feat = self.convblock0(feat) + feat
	feat = self.convblock1(feat) + feat
	feat = self.convblock2(feat) + feat
	feat = self.convblock3(feat) + feat
	flow = self.conv1(feat)
	mask = self.conv2(feat)
	flow = (
	F.interpolate(flow, scale_factor=scale, mode="bilinear", align_corners=False, recompute_scale_factor=False)
	* scale
	)
	mask = F.interpolate(
	mask, scale_factor=scale, mode="bilinear", align_corners=False, recompute_scale_factor=False
	)
	return flow, mask


	class IFNet(nn.Module):
	def __init__(self):
	super(IFNet, self).__init__()
	self.block0 = IFBlock(7 + 4, c=90)
	self.block1 = IFBlock(7 + 4, c=90)
	self.block2 = IFBlock(7 + 4, c=90)
	self.block_tea = IFBlock(10 + 4, c=90)
	# self.contextnet = Contextnet()
	# self.unet = Unet()

	def forward(self, x, scale_list=[4, 2, 1], training=False):
	if training == False:
	channel = x.shape[1] // 2
	img0 = x[:, :channel]
	img1 = x[:, channel:]
	flow_list = []
	merged = []
	mask_list = []
	warped_img0 = img0
	warped_img1 = img1
	flow = (x[:, :4]).detach() * 0
	mask = (x[:, :1]).detach() * 0
	loss_cons = 0
	block = [self.block0, self.block1, self.block2]
	for i in range(3):
	f0, m0 = block[i](torch.cat((warped_img0[:, :3], warped_img1[:, :3], mask), 1), flow, scale=scale_list[i])
	f1, m1 = block[i](
	torch.cat((warped_img1[:, :3], warped_img0[:, :3], -mask), 1),
	torch.cat((flow[:, 2:4], flow[:, :2]), 1),
	scale=scale_list[i],
	)
	flow = flow + (f0 + torch.cat((f1[:, 2:4], f1[:, :2]), 1)) / 2
	mask = mask + (m0 + (-m1)) / 2
	mask_list.append(mask)
	flow_list.append(flow)
	warped_img0 = warp(img0, flow[:, :2])
	warped_img1 = warp(img1, flow[:, 2:4])
	merged.append((warped_img0, warped_img1))
	"""
	c0 = self.contextnet(img0, flow[:, :2])
	c1 = self.contextnet(img1, flow[:, 2:4])
	tmp = self.unet(img0, img1, warped_img0, warped_img1, mask, flow, c0, c1)
	res = tmp[:, 1:4] * 2 - 1
	"""
	for i in range(3):
	mask_list[i] = torch.sigmoid(mask_list[i])
	merged[i] = merged[i][0] * mask_list[i] + merged[i][1] * (1 - mask_list[i])
	# merged[i] = torch.clamp(merged[i] + res, 0, 1)
	return flow_list, mask_list[2], merged