Pytorch Gan generates counter network instance

Time:2021-4-7

I don’t want to talk much nonsense. Let’s go straight to the code!


import torch
import torch.nn as nn
from torch.autograd import Variable
import numpy as np
import matplotlib.pyplot as plt

torch.manual_seed(1)
np.random.seed(1)

BATCH_SIZE = 64
LR_G = 0.0001
LR_D = 0.0001
N_IDEAS = 5
ART_COMPONENTS = 15
PAINT_POINTS = np.vstack([np.linspace(-1,1,ART_COMPONENTS) for _ in range(BATCH_SIZE)])

def artist_works():
	a = np.random.uniform(1,2,size=BATCH_SIZE)[:,np.newaxis]
	paintings = a*np.power(PAINT_POINTS,2) + (a-1)
	paintings = torch.from_numpy(paintings).float()
	return Variable(paintings)

G = nn.Sequential(
	nn.Linear(N_IDEAS,128),
	nn.ReLU(),
	nn.Linear(128,ART_COMPONENTS),
)

D = nn.Sequential(
	nn.Linear(ART_COMPONENTS,128),
	nn.ReLU(),
	nn.Linear(128,1),
	nn.Sigmoid(),
)

opt_D = torch.optim.Adam(D.parameters(),lr=LR_D)
opt_G = torch.optim.Adam(G.parameters(),lr=LR_G)

plt.ion()

for step in range(10000):
	artist_paintings = artist_works()
	G_ideas = Variable(torch.randn(BATCH_SIZE,N_IDEAS))
	G_paintings = G(G_ideas)

	prob_artist0 = D(artist_paintings)
	prob_artist1 = D(G_paintings)

	D_loss = - torch.mean(torch.log(prob_artist0) + torch.log(1-prob_artist1))
	G_loss = torch.mean(torch.log(1 - prob_artist1))

	opt_D.zero_grad()
	D_loss.backward(retain_variables=True)
	opt_D.step()

	opt_G.zero_grad()
	G_loss.backward()
	opt_G.step()

	if step % 50 == 0:
		plt.cla()
		plt.plot(PAINT_POINTS[0],G_paintings.data.numpy()[0],c='#4ad631',lw=3,label='Generated painting',)
		plt.plot(PAINT_POINTS[0],2 * np.power(PAINT_POINTS[0], 2) + 1,c='#74BCFF',lw=3,label='upper bound',)
		plt.plot(PAINT_POINTS[0],1 * np.power(PAINT_POINTS[0], 2) + 0,c='#FF9359',lw=3,label='lower bound',)
		plt.text(-.5,2.3,'D accuracy=%.2f (0.5 for D to converge)' % prob_artist0.data.numpy().mean(), fontdict={'size':15})
		plt.text(-.5, 2, 'D score= %.2f (-1.38 for G to converge)' % -D_loss.data.numpy(), fontdict={'size': 15})
		plt.ylim((0,3))
		plt.legend(loc='upper right', fontsize=12)
		plt.draw()
		plt.pause(0.01)

plt.ioff()
plt.show()

The above example of pytorch Gan generation against network is the whole content shared by Xiaobian. I hope it can give you a reference, and I hope you can support developer more.