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- from torch import nn
- from torchvision.transforms import ToTensor
- import os
- import pandas as pd
- import numpy as np
- import torch
- import torchvision
- class SepConv3d(nn.Module):
- def __init__(
- self, in_channels, out_channels, kernel_size, stride=1, padding=0, bias=False
- ):
- super(SepConv3d, self).__init__()
- self.depthwise = nn.Conv3d(
- in_channels,
- out_channels,
- kernel_size,
- groups=out_channels,
- padding=padding,
- bias=bias,
- stride=stride,
- )
- def forward(self, x):
- x = self.depthwise(x)
- return x
-
- class SplitConvBlock(nn.Module):
- def __init__(self, in_channels, mid_channels, out_channels, split_dim, drop_rate):
- super(SplitConvBlock, self).__init__()
- self.split_dim = split_dim
- self.leftconv_1 = SepConvBlock(
- in_channels //2, mid_channels //2, (3, 4, 3), droprate=drop_rate
- )
- self.rightconv_1 = SepConvBlock(
- in_channels //2, mid_channels //2, (3, 4, 3), droprate=drop_rate
- )
- self.leftconv_2 = SepConvBlock(
- mid_channels //2, out_channels //2, (3, 4, 3), droprate=drop_rate
- )
- self.rightconv_2 = SepConvBlock(
- mid_channels //2, out_channels //2, (3, 4, 3), droprate=drop_rate
- )
-
- def forward(self, x):
- (left, right) = torch.tensor_split(x, 2, dim=self.split_dim)
- self.leftblock = nn.Sequential(self.leftconv_1, self.leftconv_2)
- self.rightblock = nn.Sequential(self.rightconv_1, self.rightconv_2)
- left = self.leftblock(left)
- right = self.rightblock(right)
- x = torch.cat((left, right), dim=self.split_dim)
- return x
-
- class MidFlowBlock(nn.Module):
- def __init__(self, channels, drop_rate):
- super(MidFlowBlock, self).__init__()
- self.conv1 = ConvBlock(
- channels, channels, (3, 3, 3), droprate=drop_rate, padding="same"
- )
- self.conv2 = ConvBlock(
- channels, channels, (3, 3, 3), droprate=drop_rate, padding="same"
- )
- self.conv3 = ConvBlock(
- channels, channels, (3, 3, 3), droprate=drop_rate, padding="same"
- )
- #self.block = nn.Sequential(self.conv1, self.conv2, self.conv3)
- self.block = self.conv1
- def forward(self, x):
- x = nn.ELU()(self.block(x) + x)
- return x
-
- class ConvBlock(nn.Module):
- def __init__(
- self,
- in_channels,
- out_channels,
- kernel_size,
- stride=(1, 1, 1),
- padding="valid",
- droprate=None,
- pool=False,
- ):
- super(ConvBlock, self).__init__()
- self.conv = nn.Conv3d(in_channels, out_channels, kernel_size, stride, padding)
- self.norm = nn.BatchNorm3d(out_channels)
- self.elu = nn.ELU()
- self.dropout = nn.Dropout(droprate)
-
- if pool:
- self.maxpool = nn.MaxPool3d(3, stride=2)
- else:
- self.maxpool = None
- def forward(self, x):
- x = self.conv(x)
- x = self.norm(x)
- x = self.elu(x)
-
-
- if self.maxpool:
- x = self.maxpool(x)
- x = self.dropout(x)
-
- return x
- class FullConnBlock(nn.Module):
- def __init__(self, in_channels, out_channels, droprate=0.0):
- super(FullConnBlock, self).__init__()
- self.dense = nn.Linear(in_channels, out_channels)
- self.norm = nn.BatchNorm1d(out_channels)
- self.elu = nn.ELU()
- self.dropout = nn.Dropout(droprate)
- def forward(self, x):
- x = self.dense(x)
- x = self.norm(x)
- x = self.elu(x)
- x = self.dropout(x)
- return x
-
- class SepConvBlock(nn.Module):
- def __init__(
- self,
- in_channels,
- out_channels,
- kernel_size,
- stride = (1, 1, 1),
- padding = "valid",
- droprate = None,
- pool = False,
- ):
- super(SepConvBlock, self).__init__()
- self.conv = SepConv3d(in_channels, out_channels, kernel_size, stride, padding)
- self.norm = nn.BatchNorm3d(out_channels)
- self.elu = nn.ELU()
- self.dropout = nn.Dropout(droprate)
-
- if pool:
- self.maxpool = nn.MaxPool3d(3, stride=2)
- else:
- self.maxpool = None
- def forward(self, x):
- x = self.conv(x)
- x = self.norm(x)
- x = self.elu(x)
-
-
- if self.maxpool:
- x = self.maxpool(x)
- x = self.dropout(x)
- return x
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