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import torch

import torch.nn as nn

import torch.nn.functional as F

# flow prediction update block in RAFT: https://github.com/princeton-vl/RAFT/blob/master/core/update.py

class FlowHead(nn.Module):

def __init__(self, input_dim=128, hidden_dim=256):

super(FlowHead, self).__init__()

self.conv1 = nn.Conv2d(input_dim, hidden_dim, 3, padding=1)

self.conv2 = nn.Conv2d(hidden_dim, 2, 3, padding=1)

self.relu = nn.ReLU(inplace=True)

def forward(self, x):

return self.conv2(self.relu(self.conv1(x)))

class ConvGRU(nn.Module):

def __init__(self, hidden_dim=128, input_dim=192+128):

super(ConvGRU, self).__init__()

self.convz = nn.Conv2d(hidden_dim+input_dim, hidden_dim, 3, padding=1)

self.convr = nn.Conv2d(hidden_dim+input_dim, hidden_dim, 3, padding=1)

self.convq = nn.Conv2d(hidden_dim+input_dim, hidden_dim, 3, padding=1)

def forward(self, h, x):

hx = torch.cat([h, x], dim=1)

z = torch.sigmoid(self.convz(hx))

r = torch.sigmoid(self.convr(hx))

q = torch.tanh(self.convq(torch.cat([r*h, x], dim=1)))

h = (1-z) * h + z * q

return h

class SepConvGRU(nn.Module):

def __init__(self, hidden_dim=128, input_dim=192+128):

super(SepConvGRU, self).__init__()

self.convz1 = nn.Conv2d(hidden_dim+input_dim, hidden_dim, (1,5), padding=(0,2))

self.convr1 = nn.Conv2d(hidden_dim+input_dim, hidden_dim, (1,5), padding=(0,2))

self.convq1 = nn.Conv2d(hidden_dim+input_dim, hidden_dim, (1,5), padding=(0,2))

self.convz2 = nn.Conv2d(hidden_dim+input_dim, hidden_dim, (5,1), padding=(2,0))

self.convr2 = nn.Conv2d(hidden_dim+input_dim, hidden_dim, (5,1), padding=(2,0))

self.convq2 = nn.Conv2d(hidden_dim+input_dim, hidden_dim, (5,1), padding=(2,0))

def forward(self, h, x):

# horizontal

hx = torch.cat([h, x], dim=1)

z = torch.sigmoid(self.convz1(hx))

r = torch.sigmoid(self.convr1(hx))

q = torch.tanh(self.convq1(torch.cat([r*h, x], dim=1)))

h = (1-z) * h + z * q

# vertical

hx = torch.cat([h, x], dim=1)

z = torch.sigmoid(self.convz2(hx))

r = torch.sigmoid(self.convr2(hx))

q = torch.tanh(self.convq2(torch.cat([r*h, x], dim=1)))

h = (1-z) * h + z * q

return h

class SmallMotionEncoder(nn.Module):

def __init__(self, args):

super(SmallMotionEncoder, self).__init__()

cor_planes = args.corr_levels * (2*args.corr_radius + 1)**2

self.convc1 = nn.Conv2d(cor_planes, 96, 1, padding=0)

self.convf1 = nn.Conv2d(2, 64, 7, padding=3)

self.convf2 = nn.Conv2d(64, 32, 3, padding=1)

self.conv = nn.Conv2d(128, 80, 3, padding=1)

def forward(self, flow, corr):

cor = F.relu(self.convc1(corr))

flo = F.relu(self.convf1(flow))

flo = F.relu(self.convf2(flo))

cor_flo = torch.cat([cor, flo], dim=1)

out = F.relu(self.conv(cor_flo))

return torch.cat([out, flow], dim=1)

class BasicMotionEncoder(nn.Module):

def __init__(self, corr_levels=4, corr_radius=3):

super(BasicMotionEncoder, self).__init__()

cor_planes = corr_levels * (2*corr_radius + 1)**2

self.convc1 = nn.Conv2d(cor_planes, 256, 1, padding=0)

self.convc2 = nn.Conv2d(256, 192, 3, padding=1)

self.convf1 = nn.Conv2d(2, 128, 7, padding=3)

self.convf2 = nn.Conv2d(128, 64, 3, padding=1)

self.conv = nn.Conv2d(64+192, 128-2, 3, padding=1)

def forward(self, flow, corr):

cor = F.relu(self.convc1(corr))

cor = F.relu(self.convc2(cor))

flo = F.relu(self.convf1(flow))

flo = F.relu(self.convf2(flo))

cor_flo = torch.cat([cor, flo], dim=1)

out = F.relu(self.conv(cor_flo))

return torch.cat([out, flow], dim=1)

class SmallUpdateBlock(nn.Module):

def __init__(self, args, hidden_dim=96):

super(SmallUpdateBlock, self).__init__()

self.encoder = SmallMotionEncoder(args)

self.gru = ConvGRU(hidden_dim=hidden_dim, input_dim=82+64)

self.flow_head = FlowHead(hidden_dim, hidden_dim=128)

def forward(self, net, inp, corr, flow):

motion_features = self.encoder(flow, corr)

inp = torch.cat([inp, motion_features], dim=1)

net = self.gru(net, inp)

delta_flow = self.flow_head(net)

return net, None, delta_flow

class BasicUpdateBlock(nn.Module):

def __init__(self, args, hidden_dim=128, input_dim=128):

super(BasicUpdateBlock, self).__init__()

self.args = args

self.encoder = BasicMotionEncoder(args)

self.gru = SepConvGRU(hidden_dim=hidden_dim, input_dim=128+hidden_dim)

self.flow_head = FlowHead(hidden_dim, hidden_dim=256)

self.mask = nn.Sequential(

nn.Conv2d(128, 256, 3, padding=1),

nn.ReLU(inplace=True),

nn.Conv2d(256, 64*9, 1, padding=0))

def forward(self, net, inp, corr, flow, upsample=True):

motion_features = self.encoder(flow, corr)

inp = torch.cat([inp, motion_features], dim=1)

net = self.gru(net, inp)

delta_flow = self.flow_head(net)

# scale mask to balence gradients

mask = .25 * self.mask(net)

return net, mask, delta_flow

class BasicPredBlock(nn.Module):

def __init__(self, hidden_dim=128, input_dim=128, corr_levels=4, corr_radius=3):

super(BasicPredBlock, self).__init__()

self.encoder = BasicMotionEncoder(corr_levels, corr_radius)

self.flow_head = FlowHead(hidden_dim, hidden_dim=256)

def forward(self, corr, flow):

# corr: B*N, C, H, W

# flow: B, 2, H, W

print(corr.shape)

corr = corr.permute(0, 3, 1, 2) # B

motion_features = self.encoder(flow, corr) # channel = 128

delta_flow = self.flow_head(motion_features)

return delta_flow