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cgan_mlp.py
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cgan_mlp.py
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import tensorflow as tf
from tensorflow.examples.tutorials.mnist import input_data
import numpy as np
import matplotlib as mpl
mpl.use('Agg')
import matplotlib.pyplot as plt
import matplotlib.gridspec as gridspec
import os,sys
sys.path.append('utils')
from nets import *
from datas import *
def sample_z(m, n):
return np.random.uniform(-1., 1., size=[m, n])
# for test
def sample_y(m, n, ind):
y = np.zeros([m,n])
for i in range(m):
y[i,ind] = 1
return y
def concat(z,y):
return tf.concat([z,y],1)
class CGAN():
def __init__(self, generator, discriminator, data):
self.generator = generator
self.discriminator = discriminator
self.data = data
# data
self.z_dim = self.data.z_dim
self.y_dim = self.data.y_dim # condition
self.X_dim = self.data.X_dim
self.X = tf.placeholder(tf.float32, shape=[None, self.X_dim])
self.z = tf.placeholder(tf.float32, shape=[None, self.z_dim])
self.y = tf.placeholder(tf.float32, shape=[None, self.y_dim])
# nets
self.G_sample = self.generator(concat(self.z, self.y))
self.D_real, _ = self.discriminator(concat(self.X, self.y))
self.D_fake, _ = self.discriminator(concat(self.G_sample, self.y), reuse = True)
# loss
self.D_loss = tf.reduce_mean(tf.nn.sigmoid_cross_entropy_with_logits(logits=self.D_real, labels=tf.ones_like(self.D_real))) + tf.reduce_mean(tf.nn.sigmoid_cross_entropy_with_logits(logits=self.D_fake, labels=tf.zeros_like(self.D_fake)))
self.G_loss = tf.reduce_mean(tf.nn.sigmoid_cross_entropy_with_logits(logits=self.D_fake, labels=tf.ones_like(self.D_fake)))
# solver
self.D_solver = tf.train.AdamOptimizer().minimize(self.D_loss, var_list=self.discriminator.vars)
self.G_solver = tf.train.AdamOptimizer().minimize(self.G_loss, var_list=self.generator.vars)
for var in self.discriminator.vars:
print var.name
self.saver = tf.train.Saver()
gpu_options = tf.GPUOptions(allow_growth=True)
self.sess = tf.Session(config=tf.ConfigProto(gpu_options=gpu_options))
def train(self, sample_dir, ckpt_dir='ckpt', training_epoches = 1000000, batch_size = 64):
fig_count = 0
self.sess.run(tf.global_variables_initializer())
for epoch in range(training_epoches):
# update D
X_b,y_b = self.data(batch_size)
self.sess.run(
self.D_solver,
feed_dict={self.X: X_b, self.y: y_b, self.z: sample_z(batch_size, self.z_dim)}
)
# update G
k = 1
for _ in range(k):
self.sess.run(
self.G_solver,
feed_dict={self.y:y_b, self.z: sample_z(batch_size, self.z_dim)}
)
# save img, model. print loss
if epoch % 100 == 0 or epoch < 100:
D_loss_curr = self.sess.run(
self.D_loss,
feed_dict={self.X: X_b, self.y: y_b, self.z: sample_z(batch_size, self.z_dim)})
G_loss_curr = self.sess.run(
self.G_loss,
feed_dict={self.y: y_b, self.z: sample_z(batch_size, self.z_dim)})
print('Iter: {}; D loss: {:.4}; G_loss: {:.4}'.format(epoch, D_loss_curr, G_loss_curr))
if epoch % 1000 == 0:
y_s = sample_y(16, self.y_dim, fig_count%10)
samples = self.sess.run(self.G_sample, feed_dict={self.y: y_s, self.z: sample_z(16, self.z_dim)})
fig = self.data.data2fig(samples)
plt.savefig('{}/{}_{}.png'.format(sample_dir, str(fig_count).zfill(3), str(fig_count%10)), bbox_inches='tight')
fig_count += 1
plt.close(fig)
#if epoch % 2000 == 0:
# self.saver.save(self.sess, os.path.join(ckpt_dir, "cgan.ckpt"))
if __name__ == '__main__':
os.environ['CUDA_VISIBLE_DEVICES'] = '1'
# save generated images
sample_dir = 'Samples/mnist_cgan_mlp'
if not os.path.exists(sample_dir):
os.makedirs(sample_dir)
# param
generator = G_mlp_mnist()
discriminator = D_mlp_mnist()
data = mnist('mlp')
# run
cgan = CGAN(generator, discriminator, data)
cgan.train(sample_dir)