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train_celeba_wgan.py
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train_celeba_wgan.py
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from __future__ import division
from __future__ import print_function
from __future__ import absolute_import
import glob
import utils
import traceback
import numpy as np
import tensorflow as tf
import models_64x64 as models
""" param """
epoch = 50
batch_size = 64
lr = 0.0002
z_dim = 100
clip = 0.01
n_critic = 5
gpu_id = 3
''' data '''
# you should prepare your own data in ./data/img_align_celeba
# celeba original size is [218, 178, 3]
def preprocess_fn(img):
crop_size = 108
re_size = 64
img = tf.image.crop_to_bounding_box(img, (218 - crop_size) // 2, (178 - crop_size) // 2, crop_size, crop_size)
img = tf.to_float(tf.image.resize_images(img, [re_size, re_size], method=tf.image.ResizeMethod.BICUBIC)) / 127.5 - 1
return img
img_paths = glob.glob('./data/img_align_celeba/img_align_celeba/')
data_pool = utils.DiskImageData('./data/img_align_celeba/img_align_celeba/', batch_size, shape=[218, 178, 3], preprocess_fn=preprocess_fn)
""" graphs """
with tf.device('/gpu:%d' % gpu_id):
''' models '''
generator = models.generator
discriminator = models.discriminator
''' graph '''
# inputs
real = tf.placeholder(tf.float32, shape=[None, 64, 64, 3])
z = tf.placeholder(tf.float32, shape=[None, z_dim])
# generate
fake = generator(z, reuse=False)
# dicriminate
r_logit = discriminator(real, reuse=False)
f_logit = discriminator(fake)
# losses
wd = tf.reduce_mean(r_logit) - tf.reduce_mean(f_logit)
d_loss = -wd
g_loss = -tf.reduce_mean(f_logit)
# otpims
d_var = utils.trainable_variables('discriminator')
g_var = utils.trainable_variables('generator')
d_step_ = tf.train.RMSPropOptimizer(learning_rate=lr).minimize(d_loss, var_list=d_var)
with tf.control_dependencies([d_step_]):
d_step = tf.group(*(tf.assign(var, tf.clip_by_value(var, -clip, clip)) for var in d_var))
g_step = tf.train.RMSPropOptimizer(learning_rate=lr).minimize(g_loss, var_list=g_var)
# summaries
d_summary = utils.summary({wd: 'wd'})
g_summary = utils.summary({g_loss: 'g_loss'})
# sample
f_sample = generator(z, training=False)
""" train """
''' init '''
# session
sess = utils.session()
# iteration counter
it_cnt, update_cnt = utils.counter()
# saver
saver = tf.train.Saver(max_to_keep=5)
# summary writer
summary_writer = tf.summary.FileWriter('./summaries/celeba_wgan', sess.graph)
''' initialization '''
ckpt_dir = './checkpoints/celeba_wgan'
utils.mkdir(ckpt_dir + '/')
if not utils.load_checkpoint(ckpt_dir, sess):
sess.run(tf.global_variables_initializer())
''' train '''
try:
z_ipt_sample = np.random.normal(size=[100, z_dim])
batch_epoch = len(data_pool) // (batch_size * n_critic)
max_it = epoch * batch_epoch
for it in range(sess.run(it_cnt), max_it):
sess.run(update_cnt)
# which epoch
epoch = it // batch_epoch
it_epoch = it % batch_epoch + 1
# train D
if it < 25:
c_iter = 100
else:
c_iter = n_critic
for i in range(n_critic):
# batch data
real_ipt = data_pool.batch()
z_ipt = np.random.normal(size=[batch_size, z_dim])
d_summary_opt, _ = sess.run([d_summary, d_step], feed_dict={real: real_ipt, z: z_ipt})
summary_writer.add_summary(d_summary_opt, it)
# train G
z_ipt = np.random.normal(size=[batch_size, z_dim])
g_summary_opt, _ = sess.run([g_summary, g_step], feed_dict={z: z_ipt})
summary_writer.add_summary(g_summary_opt, it)
# display
if it % 1 == 0:
print("Epoch: (%3d) (%5d/%5d)" % (epoch, it_epoch, batch_epoch))
# save
if (it + 1) % 1000 == 0:
save_path = saver.save(sess, '%s/Epoch_(%d)_(%dof%d).ckpt' % (ckpt_dir, epoch, it_epoch, batch_epoch))
print('Model saved in file: % s' % save_path)
# sample
if (it + 1) % 100 == 0:
f_sample_opt = sess.run(f_sample, feed_dict={z: z_ipt_sample})
save_dir = './sample_images_while_training/celeba_wgan'
utils.mkdir(save_dir + '/')
utils.imwrite(utils.immerge(f_sample_opt, 10, 10), '%s/Epoch_(%d)_(%dof%d).jpg' % (save_dir, epoch, it_epoch, batch_epoch))
except Exception, e:
traceback.print_exc()
finally:
print(" [*] Close main session!")
sess.close()