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Model_alphaWGAN.py
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Model_alphaWGAN.py
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import numpy as np
import torch
import os
from torch import nn
from torch import optim
from torch.nn import functional as F
from ipdb import set_trace
#***********************************************
#Encoder and Discriminator has same architecture
#***********************************************
class Discriminator(nn.Module):
def __init__(self, channel=512,out_class=1, is_dis=True, img_size=64, useBatchNorm=True):
super(Discriminator, self).__init__()
self.useBatchNorm = useBatchNorm
self.img_size = img_size
self.is_dis = is_dis
self.channel = channel
n_class = out_class
self.conv1 = nn.Conv3d(1, channel//8, kernel_size=4, stride=2, padding=1)
self.conv2 = nn.Conv3d(channel//8, channel//4, kernel_size=4, stride=2, padding=1)
self.bn2 = nn.BatchNorm3d(channel//4)
self.conv3 = nn.Conv3d(channel//4, channel//2, kernel_size=4, stride=2, padding=1)
self.bn3 = nn.BatchNorm3d(channel//2)
self.conv4 = nn.Conv3d(channel//2, channel, kernel_size=4, stride=2, padding=1)
self.bn4 = nn.BatchNorm3d(channel)
self.conv5 = nn.Conv3d(channel, n_class, kernel_size=4, stride=1, padding=0)
def forward(self, x, _return_activations=False):
h1 = F.leaky_relu(self.conv1(x), negative_slope=0.2)
if self.useBatchNorm:
h2 = F.leaky_relu(self.bn2(self.conv2(h1)), negative_slope=0.2)
h3 = F.leaky_relu(self.bn3(self.conv3(h2)), negative_slope=0.2)
h4 = F.leaky_relu(self.bn4(self.conv4(h3)), negative_slope=0.2)
else:
h2 = F.leaky_relu(self.conv2(h1), negative_slope=0.2)
h3 = F.leaky_relu(self.conv3(h2), negative_slope=0.2)
h4 = F.leaky_relu(self.conv4(h3), negative_slope=0.2)
h5 = self.conv5(h4)
return h5
class Code_Discriminator(nn.Module):
def __init__(self, code_size=100,num_units=750):
super(Code_Discriminator, self).__init__()
n_class = 1
self.l1 = nn.Sequential(nn.Linear(code_size, num_units),
nn.BatchNorm1d(num_units),
nn.LeakyReLU(0.2))
self.l2 = nn.Sequential(nn.Linear(num_units, num_units),
nn.BatchNorm1d(num_units),
nn.LeakyReLU(0.2))
self.l3 = nn.Linear(num_units, 1)
def forward(self, x):
h1 = self.l1(x)
h2 = self.l2(h1)
h3 = self.l3(h2)
output = h3
return output
class Generator(nn.Module):
def __init__(self, noise:int=100, channel:int=64):
super(Generator, self).__init__()
_c = channel
self.relu = nn.ReLU()
self.noise = noise
self.tp_conv1 = nn.ConvTranspose3d(noise, _c*8, kernel_size=4, stride=1, padding=0, bias=False)
self.bn1 = nn.BatchNorm3d(_c*8)
self.tp_conv2 = nn.Conv3d(_c*8, _c*4, kernel_size=3, stride=1, padding=1, bias=False)
self.bn2 = nn.BatchNorm3d(_c*4)
self.tp_conv3 = nn.Conv3d(_c*4, _c*2, kernel_size=3, stride=1, padding=1, bias=False)
self.bn3 = nn.BatchNorm3d(_c*2)
self.tp_conv4 = nn.Conv3d(_c*2, _c, kernel_size=3, stride=1, padding=1, bias=False)
self.bn4 = nn.BatchNorm3d(_c)
self.tp_conv5 = nn.Conv3d(_c, 1, kernel_size=3, stride=1, padding=1, bias=False)
def forward(self, noise):
noise = noise.view(-1,self.noise,1,1,1)
h1 = self.relu(self.bn1(self.tp_conv1(noise)))
h2 = F.interpolate(h1,scale_factor = 2)
h2 = self.relu(self.bn2(self.tp_conv2(h2)))
h3 = F.interpolate(h2,scale_factor = 2)
h3 = self.relu(self.bn3(self.tp_conv3(h3)))
h4 = F.interpolate(h3,scale_factor = 2)
h4 = self.relu(self.bn4(self.tp_conv4(h4)))
h5 = F.interpolate(h4,scale_factor = 2)
h5 = self.tp_conv5(h5)
return torch.tanh(h5)