def define_D(which_netD):
if which_netD == 'FFC':
return networks.FFC()
elif which_netD == 'NoBNMultPathdilationNet':
return networks.NoBNMultPathdilationNet()
elif which_netD == 'SinglePathdilationSingleOutputNet':
return networks.SinglePathdilationSingleOutputNet()
elif which_netD == 'SinglePathdilationMultOutputNet':
return networks.SinglePathdilationMultOutputNet()
elif which_netD == 'NoBNSinglePathdilationMultOutputNet':
return networks.NoBNSinglePathdilationMultOutputNet()
def define_D(which_netD, input_nc):
if which_netD == 'FFC':
return networks.FFC()
elif which_netD == 'NoBNMultPathdilationNet':
return networks.NoBNMultPathdilationNet()
elif which_netD == 'SinglePathdilationSingleOutputNet':
return networks.SinglePathdilationSingleOutputNet()
elif which_netD == 'SinglePathdilationMultOutputNet':
return networks.SinglePathdilationMultOutputNet()
elif which_netD == 'NoBNSinglePathdilationMultOutputNet':
return networks.NoBNSinglePathdilationMultOutputNet(input_nc)
elif which_netD == 'RandomMultPathdilationNet':
return networks.RandomMultPathdilationNet()
elif which_netD == 'lsgan_D':
return networks.lsgan_D()
elif which_netD == 'lsganMultOutput_D':
return networks.lsganMultOutput_D(input_nc)
def define_D(which_netD, input_nc):
if which_netD == 'NoBNSinglePathdilationMultOutputNet':
return networks.NoBNSinglePathdilationMultOutputNet(input_nc)
elif which_netD == 'lsganMultOutput_D':
return networks.lsganMultOutput_D(input_nc)