def main():
tf.random.set_seed(22)
np.random.seed(22)
os.environ['TF_CPP_MIN_LOG_LEVEL'] = '2'
assert tf.__version__.startswith('2.')
# hyper parameters
z_dim = 100
epochs = 3000000
batch_size = 512
learning_rate = 0.002
is_training = True
img_path = glob.glob(
r'C:\Users\Jackie Loong\Downloads\DCGAN-LSGAN-WGAN-GP-DRAGAN-Tensorflow-2-master\data\faces\*.jpg'
)
dataset, img_shape, _ = make_anime_dataset(img_path, batch_size)
print(dataset, img_shape)
sample = next(iter(dataset))
print(sample.shape,
tf.reduce_max(sample).numpy(),
tf.reduce_min(sample).numpy())
dataset = dataset.repeat()
db_iter = iter(dataset)
generator = Generator()
generator.build(input_shape=(None, z_dim))
discriminator = Discriminator()
discriminator.build(input_shape=(None, 64, 64, 3))
g_optimizer = tf.optimizers.Adam(learning_rate=learning_rate, beta_1=0.5)
d_optimizer = tf.optimizers.Adam(learning_rate=learning_rate, beta_1=0.5)
for epoch in range(epochs):
batch_z = tf.random.uniform([batch_size, z_dim], minval=-1., maxval=1.)
batch_x = next(db_iter)
# train D
with tf.GradientTape() as tape:
d_loss = d_loss_fn(generator, discriminator, batch_z, batch_x,
is_training)
grads = tape.gradient(d_loss, discriminator.trainable_variables)
d_optimizer.apply_gradients(
zip(grads, discriminator.trainable_variables))
with tf.GradientTape() as tape:
g_loss = g_loss_fn(generator, discriminator, batch_z, is_training)
grads = tape.gradient(g_loss, generator.trainable_variables)
g_optimizer.apply_gradients(zip(grads, generator.trainable_variables))
if epoch % 100 == 0:
print(epoch, 'd-loss:', float(d_loss), 'g-loss:', float(g_loss))
z = tf.random.uniform([100, z_dim])
fake_image = generator(z, training=False)
img_path = os.path.join('images', 'gan-%d.png' % epoch)
save_result(fake_image.numpy(), 10, img_path, color_mode='P')
def main():
tf.random.set_seed(233)
np.random.seed(233)
assert tf.__version__.startswith('2.')
# hyper parameters
z_dim = 100
epochs = 3000000
batch_size = 512
learning_rate = 0.0005
is_training = True
img_path = glob.glob(r'C:\Users\Jackie\Downloads\faces\*.jpg')
assert len(img_path) > 0
dataset, img_shape, _ = make_anime_dataset(img_path, batch_size)
print(dataset, img_shape)
sample = next(iter(dataset))
print(sample.shape, tf.reduce_max(sample).numpy(),
tf.reduce_min(sample).numpy())
dataset = dataset.repeat()
db_iter = iter(dataset)
generator = Generator()
generator.build(input_shape=(None, z_dim))
discriminator = Discriminator()
discriminator.build(input_shape=(None, 64, 64, 3))
z_sample = tf.random.normal([100, z_dim])
g_optimizer = tf.keras.optimizers.Adam(learning_rate=learning_rate, beta_1=0.5)
d_optimizer = tf.keras.optimizers.Adam(learning_rate=learning_rate, beta_1=0.5)
for epoch in range(epochs):
for _ in range(5):
batch_z = tf.random.normal([batch_size, z_dim])
batch_x = next(db_iter)
# train D
with tf.GradientTape() as tape:
d_loss, gp = d_loss_fn(generator, discriminator, batch_z, batch_x, is_training)
grads = tape.gradient(d_loss, discriminator.trainable_variables)
d_optimizer.apply_gradients(zip(grads, discriminator.trainable_variables))
batch_z = tf.random.normal([batch_size, z_dim])
with tf.GradientTape() as tape:
g_loss = g_loss_fn(generator, discriminator, batch_z, is_training)
grads = tape.gradient(g_loss, generator.trainable_variables)
g_optimizer.apply_gradients(zip(grads, generator.trainable_variables))
if epoch % 100 == 0:
print(epoch, 'd-loss:', float(d_loss), 'g-loss:', float(g_loss),
'gp:', float(gp))
z = tf.random.normal([100, z_dim])
fake_image = generator(z, training=False)
img_path = os.path.join('images', 'wgan-%d.png' % epoch)
save_result(fake_image.numpy(), 10, img_path, color_mode='P')
def main():
# 设计随机种子,方便复现
tf.random.set_seed(22)
np.random.seed(22)
# 设定相关参数
z_dim = 100
epochs = 3000000
batch_size = 512 # 根据自己的GPU能力设计
learning_rate = 0.002
is_training = True
# 加载数据(根据自己的路径更改),建立网络
img_path = glob.glob(
r'C:\Users\Jackie Loong\Downloads\DCGAN-LSGAN-WGAN-GP-DRAGAN-Tensorflow-2-master\data\faces\*.jpg'
)
dataset, img_shape, _ = make_anime_dataset(img_path, batch_size)
# print(dataset, img_shape)
# sample = next(iter(dataset))
dataset = dataset.repeat()
db_iter = iter(dataset)
generator = Generator()
generator.build(input_shape=(None, z_dim))
discriminator = Discriminator()
discriminator.build(input_shape=(None, 64, 64, 3))
# 建立优化器
g_optimizer = tf.optimizers.Adam(learning_rate=learning_rate, beta_1=0.5)
d_optimizer = tf.optimizers.Adam(learning_rate=learning_rate, beta_1=0.5)
for epoch in range(epochs):
# 随机取样出来的结果
batch_z = tf.random.uniform([batch_size, z_dim], minval=-1., maxval=1.)
batch_x = next(db_iter)
# 训练检测网络
with tf.GradientTape() as tape:
d_loss, gp = d_loss_fn(generator, discriminator, batch_z, batch_x,
is_training)
grads = tape.gradient(d_loss, discriminator.trainable_variables)
d_optimizer.apply_gradients(
zip(grads, discriminator.trainable_variables))
# 训练生成网络
with tf.GradientTape() as tape:
g_loss = g_loss_fn(generator, discriminator, batch_z, is_training)
grads = tape.gradient(g_loss, generator.trainable_variables)
g_optimizer.apply_gradients(zip(grads, generator.trainable_variables))
if epoch % 100 == 0:
print(epoch, 'd-loss:', float(d_loss), 'g-loss:', float(g_loss),
'gp:', float(gp))
z = tf.random.uniform([100, z_dim])
fake_image = generator(z, training=False)
# 生成的图片保存,images文件夹下, 图片名为:wgan-epoch.png
img_path = os.path.join('images', 'wgan-%d.png' % epoch)
# 10*10, 彩色图片
save_result(fake_image.numpy(), 10, img_path, color_mode='P')
def train():
tf.random.set_seed(22)
np.random.seed(22)
data_iter = dataset.load_dataset()
# 利用数组形式实现多输入模型
generator = Generator()
generator.build(input_shape=[(None, z_dim), (None, 10)])
discriminator = Discriminator()
discriminator.build(input_shape=[(None, 28, 28, 1), (None, 10)])
g_optimizer = tf.optimizers.Adam(learning_rate=learning_rate, beta_1=0.5)
d_optimizer = tf.optimizers.Adam(learning_rate=learning_rate, beta_1=0.5)
for epoch in range(epochs):
for i in range(int(60000 / batch_size / epochs_d)):
batch_z = tf.random.uniform([batch_size, z_dim],
minval=0.,
maxval=1.)
batch_c = []
for k in range(batch_size):
batch_c.append(np.random.randint(0, 10))
batch_c = tf.one_hot(tf.convert_to_tensor(batch_c), 10)
# train D
for epoch_d in range(epochs_d):
batch_data = next(data_iter)
batch_x = batch_data[0]
batch_y = batch_data[1]
with tf.GradientTape() as tape:
d_loss = d_loss_fn(generator, discriminator, batch_z,
batch_c, batch_x, batch_y, is_training)
grads = tape.gradient(d_loss,
discriminator.trainable_variables)
d_optimizer.apply_gradients(
zip(grads, discriminator.trainable_variables))
# train G
with tf.GradientTape() as tape:
g_loss = g_loss_fn(generator, discriminator, batch_z, batch_c,
is_training)
grads = tape.gradient(g_loss, generator.trainable_variables)
g_optimizer.apply_gradients(
zip(grads, generator.trainable_variables))
print('epoch : {epoch} d-loss : {d_loss} g-loss : {g_loss}'.format(
epoch=epoch, d_loss=d_loss, g_loss=g_loss))
z = tf.random.uniform([100, z_dim], minval=0., maxval=1.)
c = []
for i in range(10):
for j in range(10):
c.append(i)
c = tf.one_hot(tf.convert_to_tensor(c), 10)
fake_image = generator([z, c], training=False)
img_path = os.path.join('images', 'infogan-%d-final.png' % epoch)
saver.save_image(fake_image.numpy(), img_path, 10)
def main():
tf.random.set_seed(3333)
np.random.seed(3333)
os.environ['TF_CPP_MIN_LOG_LEVEL'] = '2'
assert tf.__version__.startswith('2.')
z_dim = 100 # 隐藏向量z的长度
epochs = 3000000 # 训练步数
batch_size = 64
learning_rate = 0.0002
is_training = True
# 获取数据集路径
img_path = glob.glob(r'C:\Users\jay_n\.keras\datasets\faces\*.jpg') + \
glob.glob(r'C:\Users\jay_n\.keras\datasets\faces\*.png')
print('images num:', len(img_path))
# 构建数据集对象
dataset, img_shape, _ = make_anime_dataset(img_path, batch_size, resize=64)
print(dataset, img_shape)
sample = next(iter(dataset)) # 采样
print(sample.shape, tf.reduce_max(sample).numpy(), tf.reduce_min(sample).numpy())
dataset = dataset.repeat(100)
db_iter = iter(dataset)
generator = Generator()
generator.build(input_shape=(4, z_dim))
discriminator = Discriminator()
discriminator.build(input_shape=(4, 64, 64, 3))
# 分别为生成器和判别器创建优化器
g_optimizer = keras.optimizers.Adam(learning_rate=learning_rate, beta_1=0.5)
d_optimizer = keras.optimizers.Adam(learning_rate=learning_rate, beta_1=0.5)
# generator.load_weights('generator.ckpt')
# discriminator.load_weights('discriminator.ckpt')
# print('Loaded ckpt!!')
d_losses, g_losses = [], []
for epoch in range(epochs):
# 1. 训练判别器
for _ in range(1):
# 采样隐藏向量
batch_z = tf.random.normal([batch_size, z_dim])
batch_x = next(db_iter) # 采样真实图片
# 判别器前向计算
with tf.GradientTape() as tape:
d_loss, _ = d_loss_fn(generator, discriminator, batch_z, batch_x, is_training)
grads = tape.gradient(d_loss, discriminator.trainable_variables)
d_optimizer.apply_gradients(zip(grads, discriminator.trainable_variables))
# 2. 训练生成器
# 采样隐藏向量
batch_z = tf.random.normal([batch_size, z_dim])
# 生成器前向计算
with tf.GradientTape() as tape:
g_loss = g_loss_fn(generator, discriminator, batch_z, is_training)
grads = tape.gradient(g_loss, generator.trainable_variables)
g_optimizer.apply_gradients(zip(grads, generator.trainable_variables))
if epoch % 100 == 0:
print(epoch, 'd-loss:', float(d_loss), 'g-loss:', float(g_loss))
# 可视化
z = tf.random.normal([100, z_dim])
fake_image = generator(z, training=False)
img_path = os.path.join('gan_images', 'gan-%d.png' % epoch)
save_result(fake_image.numpy(), 10, img_path, color_mode='P')
d_losses.append(float(d_loss))
g_losses.append(float(g_loss))
if epoch % 10000 == 1:
generator.save_weights('generator.ckpt')
discriminator.save_weights('discriminator.ckpt')
def main():
tf.random.set_seed(22)
np.random.seed(22)
os.environ['TF_CPP_MIN_LOG_LEVEL'] = '2'
assert tf.__version__.startswith('2.')
# hyper parameters
z_dim = 100
epochs = 3000000
batch_size = 128
learning_rate = 0.0002
is_training = True
# for validation purpose
assets_dir = './images'
if not os.path.isdir(assets_dir):
os.makedirs(assets_dir)
val_block_size = 10
val_size = val_block_size * val_block_size
# load mnist data
(x_train, _), (x_test, _) = keras.datasets.mnist.load_data()
x_train = x_train.astype(np.float32) / 255.
db = tf.data.Dataset.from_tensor_slices(x_train).shuffle(
batch_size * 4).batch(batch_size).repeat()
db_iter = iter(db)
inputs_shape = [-1, 28, 28, 1]
# create generator & discriminator
generator = Generator()
generator.build(input_shape=(batch_size, z_dim))
generator.summary()
discriminator = Discriminator()
discriminator.build(input_shape=(batch_size, 28, 28, 1))
discriminator.summary()
# prepare optimizer
d_optimizer = keras.optimizers.Adam(learning_rate=learning_rate,
beta_1=0.5)
g_optimizer = keras.optimizers.Adam(learning_rate=learning_rate,
beta_1=0.5)
for epoch in range(epochs):
# no need labels
batch_x = next(db_iter)
# rescale images to -1 ~ 1
batch_x = tf.reshape(batch_x, shape=inputs_shape)
# -1 - 1
batch_x = batch_x * 2.0 - 1.0
# Sample random noise for G
batch_z = tf.random.uniform(shape=[batch_size, z_dim],
minval=-1.,
maxval=1.)
with tf.GradientTape() as tape:
d_loss = d_loss_fn(generator, discriminator, batch_z, batch_x,
is_training)
grads = tape.gradient(d_loss, discriminator.trainable_variables)
d_optimizer.apply_gradients(
zip(grads, discriminator.trainable_variables))
with tf.GradientTape() as tape:
g_loss = g_loss_fn(generator, discriminator, batch_z, is_training)
grads = tape.gradient(g_loss, generator.trainable_variables)
g_optimizer.apply_gradients(zip(grads, generator.trainable_variables))
if epoch % 100 == 0:
print(epoch, 'd loss:', float(d_loss), 'g loss:', float(g_loss))
# validation results at every epoch
val_z = np.random.uniform(-1, 1, size=(val_size, z_dim))
fake_image = generator(val_z, training=False)
image_fn = os.path.join('images',
'gan-val-{:03d}.png'.format(epoch + 1))
save_result(fake_image.numpy(),
val_block_size,
image_fn,
color_mode='L')
def main():
tf.random.set_seed(233)
np.random.seed(233)
z_dim = 100
epochs = 3000000
batch_size = 512
learning_rate = 2e-4
# ratios = D steps:G steps
ratios = 2
img_path = glob.glob(os.path.join('faces', '*.jpg'))
dataset, img_shape, _ = make_anime_dataset(img_path, batch_size)
print(dataset, img_shape)
sample = next(iter(dataset))
print(sample.shape,
tf.reduce_max(sample).numpy(),
tf.reduce_min(sample).numpy())
dataset = dataset.repeat()
db_iter = iter(dataset)
generator = Generator()
generator.build(input_shape=(None, z_dim))
# generator.load_weights(os.path.join('checkpoints', 'generator-5000'))
discriminator = Discriminator()
discriminator.build(input_shape=(None, 64, 64, 3))
# discriminator.load_weights(os.path.join('checkpoints', 'discriminator-5000'))
g_optimizer = tf.optimizers.Adam(learning_rate, beta_1=0.5)
d_optimizer = tf.optimizers.Adam(learning_rate, beta_1=0.5)
# a fixed noise for sampling
z_sample = tf.random.normal([100, z_dim])
g_loss_meter = keras.metrics.Mean()
d_loss_meter = keras.metrics.Mean()
gp_meter = keras.metrics.Mean()
for epoch in range(epochs):
# train D
for step in range(ratios):
batch_z = tf.random.normal([batch_size, z_dim])
batch_x = next(db_iter)
with tf.GradientTape() as tape:
d_loss, gp = d_loss_fn(generator, discriminator, batch_z,
batch_x)
d_loss_meter.update_state(d_loss)
gp_meter.update_state(gp)
gradients = tape.gradient(d_loss,
discriminator.trainable_variables)
d_optimizer.apply_gradients(
zip(gradients, discriminator.trainable_variables))
# train G
batch_z = tf.random.normal([batch_size, z_dim])
with tf.GradientTape() as tape:
g_loss = g_loss_fn(generator, discriminator, batch_z)
g_loss_meter.update_state(g_loss)
gradients = tape.gradient(g_loss, generator.trainable_variables)
g_optimizer.apply_gradients(
zip(gradients, generator.trainable_variables))
if epoch % 100 == 0:
fake_image = generator(z_sample, training=False)
print(epoch, 'd-loss:',
d_loss_meter.result().numpy(), 'g-loss',
g_loss_meter.result().numpy(), 'gp',
gp_meter.result().numpy())
d_loss_meter.reset_states()
g_loss_meter.reset_states()
gp_meter.reset_states()
# save generated image samples
img_path = os.path.join('images_wgan_gp', 'wgan_gp-%d.png' % epoch)
save_result(fake_image.numpy(), 10, img_path, color_mode='P')
if epoch + 1 % 2000 == 0:
generator.save_weights(
os.path.join('checkpoints_gp', 'generator-%d' % epoch))
discriminator.save_weights(
os.path.join('checkpoints_gp', 'discriminator-%d' % epoch))
def main():
tf.random.set_seed(3333)
np.random.seed(3333)
os.environ['TF_CPP_MIN_LOG_LEVEL'] = '2'
assert tf.__version__.startswith('2.')
z_dim = 100 # 隐藏向量z的长度
epochs = 3000000 # 训练步数
batch_size = 64 # batch size
learning_rate = 0.0002
is_training = True
# 获取数据集路径
# C:\Users\z390\Downloads\anime-faces
# r'C:\Users\z390\Downloads\faces\*.jpg'
# img_path = glob.glob(r'C:\Users\z390\Downloads\anime-faces\*\*.jpg') + \
# glob.glob(r'C:\Users\z390\Downloads\anime-faces\*\*.png')
img_path = glob.glob(
r'/home/ulysses/workspace/AI/Deep-Learning-with-TensorFlow-book/ch13/faces/*.jpg'
)
# img_path.extend(img_path2)
print('images num:', len(img_path))
# 构建数据集对象
dataset, img_shape, _ = make_anime_dataset(img_path, batch_size, resize=64)
print(dataset, img_shape)
sample = next(iter(dataset)) # 采样
print(sample.shape,
tf.reduce_max(sample).numpy(),
tf.reduce_min(sample).numpy())
dataset = dataset.repeat(100) # 重复循环
db_iter = iter(dataset)
generator = Generator() # 创建生成器
generator.build(input_shape=(4, z_dim))
discriminator = Discriminator() # 创建判别器
discriminator.build(input_shape=(4, 64, 64, 3))
# 分别为生成器和判别器创建优化器
g_optimizer = keras.optimizers.Adam(learning_rate=learning_rate,
beta_1=0.5)
d_optimizer = keras.optimizers.Adam(learning_rate=learning_rate,
beta_1=0.5)
if os.path.exists(r'./generator.ckpt.index'):
generator.load_weights('generator.ckpt')
print('Loaded generator chpt!!')
if os.path.exists(r'./discriminator.ckpt.index'):
discriminator.load_weights('discriminator.ckpt')
print('Loaded discriminator chpt!!')
d_losses, g_losses = [], []
for epoch in range(epochs): # 训练epochs次
# 1. 训练判别器
for _ in range(1):
# 采样隐藏向量
batch_z = tf.random.normal([batch_size, z_dim])
batch_x = next(db_iter) # 采样真实图片
# 判别器前向计算
with tf.GradientTape() as tape:
d_loss = d_loss_fn(generator, discriminator, batch_z, batch_x,
is_training)
grads = tape.gradient(d_loss, discriminator.trainable_variables)
d_optimizer.apply_gradients(
zip(grads, discriminator.trainable_variables))
# 2. 训练生成器
# 采样隐藏向量
batch_z = tf.random.normal([batch_size, z_dim])
batch_x = next(db_iter) # 采样真实图片
# 生成器前向计算
with tf.GradientTape() as tape:
g_loss = g_loss_fn(generator, discriminator, batch_z, is_training)
grads = tape.gradient(g_loss, generator.trainable_variables)
g_optimizer.apply_gradients(zip(grads, generator.trainable_variables))
if epoch % 100 == 0:
print(epoch, 'd-loss:', float(d_loss), 'g-loss:', float(g_loss))
# 可视化
z = tf.random.normal([100, z_dim])
fake_image = generator(z, training=False)
img_path = os.path.join('gan_images1', 'gan-%d.png' % epoch)
save_result(fake_image.numpy(), 10, img_path, color_mode='P')
d_losses.append(float(d_loss))
g_losses.append(float(g_loss))
if epoch % 10000 == 0:
# print(d_losses)
# print(g_losses)
generator.save_weights('./check_point/generator.ckpt')
discriminator.save_weights('./check_point/discriminator.ckpt')