def setUpClass(cls):
cls.setup = yaml.load(Path('./tests/data/config.yml').read_text())
cls.RRDN = RRDN(arch_params=cls.setup['rrdn'],
patch_size=cls.setup['patch_size'])
cls.f_ext = Cut_VGG19(patch_size=cls.setup['patch_size'],
layers_to_extract=[1, 2])
cls.discr = Discriminator(patch_size=cls.setup['patch_size'])
cls.weights_path = {
'generator':
Path(cls.setup['weights_dir']) / 'test_gen_weights.hdf5',
'discriminator':
Path(cls.setup['weights_dir']) / 'test_dis_weights.hdf5',
}
cls.TH = TrainerHelper(
generator=cls.RRDN,
weights_dir=cls.setup['weights_dir'],
logs_dir=cls.setup['log_dir'],
lr_train_dir=cls.setup['lr_input'],
feature_extractor=cls.f_ext,
discriminator=cls.discr,
dataname='TEST',
weights_generator='',
weights_discriminator='',
fallback_save_every_n_epochs=2,
)
cls.TH.session_id = '0000'
cls.TH.logger.setLevel(50)
def setUpClass(cls):
cls.setup = yaml.load(
open(os.path.join('tests', 'data', 'config.yml'), 'r'))
cls.RRDN = RRDN(arch_params=cls.setup['rrdn'],
patch_size=cls.setup['patch_size'])
cls.f_ext = Cut_VGG19(patch_size=cls.setup['patch_size'],
layers_to_extract=[1, 2])
cls.discr = Discriminator(patch_size=cls.setup['patch_size'])
cls.weights_path = {
'generator':
os.path.join(cls.setup['weights_dir'], 'test_gen_weights.hdf5'),
'discriminator':
os.path.join(cls.setup['weights_dir'], 'test_dis_weights.hdf5'),
}
cls.TH = TrainerHelper(
generator=cls.RRDN,
weights_dir=cls.setup['weights_dir'],
logs_dir=cls.setup['log_dir'],
lr_train_dir=cls.setup['lr_input'],
feature_extractor=cls.f_ext,
discriminator=cls.discr,
dataname='TEST',
pretrained_weights_path={},
fallback_save_every_n_epochs=2,
)
def __init__(
self,
generator,
discriminator,
feature_extractor,
lr_train_dir,
hr_train_dir,
lr_valid_dir,
hr_valid_dir,
loss_weights={
'generator': 1.0,
'discriminator': 0.003,
'feature_extractor': 1 / 12
},
log_dirs={
'logs': 'logs',
'weights': 'weights'
},
fallback_save_every_n_epochs=2,
dataname=None,
weights_generator=None,
weights_discriminator=None,
n_validation=None,
flatness={
'min': 0.0,
'increase_frequency': None,
'increase': 0.0,
'max': 0.0
},
learning_rate={
'initial_value': 0.0004,
'decay_frequency': 100,
'decay_factor': 0.5
},
adam_optimizer={
'beta1': 0.9,
'beta2': 0.999,
'epsilon': None
},
losses={
'generator': 'mae',
'discriminator': 'binary_crossentropy',
'feature_extractor': 'mse',
},
metrics={'generator': 'PSNR_Y'},
):
self.generator = generator
self.discriminator = discriminator
self.feature_extractor = feature_extractor
self.scale = generator.scale
self.lr_patch_size = generator.patch_size
self.learning_rate = learning_rate
self.loss_weights = loss_weights
self.weights_generator = weights_generator
self.weights_discriminator = weights_discriminator
self.adam_optimizer = adam_optimizer
self.dataname = dataname
self.flatness = flatness
self.n_validation = n_validation
self.losses = losses
self.log_dirs = log_dirs
self.metrics = metrics
if self.metrics['generator'] == 'PSNR_Y':
self.metrics['generator'] = PSNR_Y
elif self.metrics['generator'] == 'PSNR':
self.metrics['generator'] = PSNR
self._parameters_sanity_check()
self.model = self._combine_networks()
self.settings = {}
self.settings['training_parameters'] = locals()
self.settings['training_parameters'][
'lr_patch_size'] = self.lr_patch_size
self.settings = self.update_training_config(self.settings)
self.logger = get_logger(__name__)
self.helper = TrainerHelper(
generator=self.generator,
weights_dir=log_dirs['weights'],
logs_dir=log_dirs['logs'],
lr_train_dir=lr_train_dir,
feature_extractor=self.feature_extractor,
discriminator=self.discriminator,
dataname=dataname,
weights_generator=self.weights_generator,
weights_discriminator=self.weights_discriminator,
fallback_save_every_n_epochs=fallback_save_every_n_epochs,
)
self.train_dh = DataHandler(
lr_dir=lr_train_dir,
hr_dir=hr_train_dir,
patch_size=self.lr_patch_size,
scale=self.scale,
n_validation_samples=None,
)
self.valid_dh = DataHandler(
lr_dir=lr_valid_dir,
hr_dir=hr_valid_dir,
patch_size=self.lr_patch_size,
scale=self.scale,
n_validation_samples=n_validation,
)
class Trainer:
"""Class object to setup and carry the training.
Takes as input a generator that produces SR images.
Conditionally, also a discriminator network and a feature extractor
to build the components of the perceptual loss.
Compiles the model(s) and trains in a GANS fashion if a discriminator is provided, otherwise
carries a regular ISR training.
Args:
generator: Keras model, the super-scaling, or generator, network.
discriminator: Keras model, the discriminator network for the adversarial
component of the perceptual loss.
feature_extractor: Keras model, feature extractor network for the deep features
component of perceptual loss function.
lr_train_dir: path to the directory containing the Low-Res images for training.
hr_train_dir: path to the directory containing the High-Res images for training.
lr_valid_dir: path to the directory containing the Low-Res images for validation.
hr_valid_dir: path to the directory containing the High-Res images for validation.
learning_rate: float.
loss_weights: dictionary, use to weigh the components of the loss function.
Contains 'generator' for the generator loss component, and can contain 'discriminator' and 'feature_extractor'
for the discriminator and deep features components respectively.
logs_dir: path to the directory where the tensorboard logs are saved.
weights_dir: path to the directory where the weights are saved.
dataname: string, used to identify what dataset is used for the training session.
weights_generator: path to the pre-trained generator's weights, for transfer learning.
weights_discriminator: path to the pre-trained discriminator's weights, for transfer learning.
n_validation:integer, number of validation samples used at training from the validation set.
flatness: dictionary. Determines determines the 'flatness' threshold level for the training patches.
See the TrainerHelper class for more details.
lr_decay_frequency: integer, every how many epochs the learning rate is reduced.
lr_decay_factor: 0 < float <1, learning rate reduction multiplicative factor.
Methods:
train: combines the networks and triggers training with the specified settings.
"""
def __init__(
self,
generator,
discriminator,
feature_extractor,
lr_train_dir,
hr_train_dir,
lr_valid_dir,
hr_valid_dir,
loss_weights={
'generator': 1.0,
'discriminator': 0.003,
'feature_extractor': 1 / 12
},
log_dirs={
'logs': 'logs',
'weights': 'weights'
},
fallback_save_every_n_epochs=2,
dataname=None,
weights_generator=None,
weights_discriminator=None,
n_validation=None,
flatness={
'min': 0.0,
'increase_frequency': None,
'increase': 0.0,
'max': 0.0
},
learning_rate={
'initial_value': 0.0004,
'decay_frequency': 100,
'decay_factor': 0.5
},
adam_optimizer={
'beta1': 0.9,
'beta2': 0.999,
'epsilon': None
},
losses={
'generator': 'mae',
'discriminator': 'binary_crossentropy',
'feature_extractor': 'mse',
},
metrics={'generator': 'PSNR_Y'},
):
self.generator = generator
self.discriminator = discriminator
self.feature_extractor = feature_extractor
self.scale = generator.scale
self.lr_patch_size = generator.patch_size
self.learning_rate = learning_rate
self.loss_weights = loss_weights
self.weights_generator = weights_generator
self.weights_discriminator = weights_discriminator
self.adam_optimizer = adam_optimizer
self.dataname = dataname
self.flatness = flatness
self.n_validation = n_validation
self.losses = losses
self.log_dirs = log_dirs
self.metrics = metrics
if self.metrics['generator'] == 'PSNR_Y':
self.metrics['generator'] = PSNR_Y
elif self.metrics['generator'] == 'PSNR':
self.metrics['generator'] = PSNR
self._parameters_sanity_check()
self.model = self._combine_networks()
self.settings = {}
self.settings['training_parameters'] = locals()
self.settings['training_parameters'][
'lr_patch_size'] = self.lr_patch_size
self.settings = self.update_training_config(self.settings)
self.logger = get_logger(__name__)
self.helper = TrainerHelper(
generator=self.generator,
weights_dir=log_dirs['weights'],
logs_dir=log_dirs['logs'],
lr_train_dir=lr_train_dir,
feature_extractor=self.feature_extractor,
discriminator=self.discriminator,
dataname=dataname,
weights_generator=self.weights_generator,
weights_discriminator=self.weights_discriminator,
fallback_save_every_n_epochs=fallback_save_every_n_epochs,
)
self.train_dh = DataHandler(
lr_dir=lr_train_dir,
hr_dir=hr_train_dir,
patch_size=self.lr_patch_size,
scale=self.scale,
n_validation_samples=None,
)
self.valid_dh = DataHandler(
lr_dir=lr_valid_dir,
hr_dir=hr_valid_dir,
patch_size=self.lr_patch_size,
scale=self.scale,
n_validation_samples=n_validation,
)
def _parameters_sanity_check(self):
""" Parameteres sanity check. """
if self.discriminator:
assert self.lr_patch_size * self.scale == self.discriminator.patch_size
self.adam_optimizer
if self.feature_extractor:
assert self.lr_patch_size * self.scale == self.feature_extractor.patch_size
check_parameter_keys(
self.learning_rate,
needed_keys=['initial_value'],
optional_keys=['decay_factor', 'decay_frequency'],
default_value=None,
)
check_parameter_keys(
self.flatness,
needed_keys=[],
optional_keys=['min', 'increase_frequency', 'increase', 'max'],
default_value=0.0,
)
check_parameter_keys(
self.adam_optimizer,
needed_keys=['beta1', 'beta2'],
optional_keys=['epsilon'],
default_value=None,
)
check_parameter_keys(self.log_dirs, needed_keys=['logs', 'weights'])
def _combine_networks(self):
"""
Constructs the combined model which contains the generator network,
as well as discriminator and geature extractor, if any are defined.
"""
lr = Input(shape=(self.lr_patch_size, ) * 2 + (3, ))
sr = self.generator.model(lr)
outputs = [sr]
losses = [self.losses['generator']]
loss_weights = [self.loss_weights['generator']]
if self.discriminator:
self.discriminator.model.trainable = False
validity = self.discriminator.model(sr)
outputs.append(validity)
losses.append(self.losses['discriminator'])
loss_weights.append(self.loss_weights['discriminator'])
if self.feature_extractor:
self.feature_extractor.model.trainable = False
sr_feats = self.feature_extractor.model(sr)
outputs.extend([*sr_feats])
losses.extend([self.losses['feature_extractor']] * len(sr_feats))
loss_weights.extend(
[self.loss_weights['feature_extractor'] / len(sr_feats)] *
len(sr_feats))
combined = Model(inputs=lr, outputs=outputs)
# https://stackoverflow.com/questions/42327543/adam-optimizer-goes-haywire-after-200k-batches-training-loss-grows
optimizer = Adam(
beta_1=self.adam_optimizer['beta1'],
beta_2=self.adam_optimizer['beta2'],
lr=self.learning_rate['initial_value'],
epsilon=self.adam_optimizer['epsilon'],
)
combined.compile(loss=losses,
loss_weights=loss_weights,
optimizer=optimizer,
metrics=self.metrics)
return combined
def _lr_scheduler(self, epoch):
""" Scheduler for the learning rate updates. """
n_decays = epoch // self.learning_rate['decay_frequency']
lr = self.learning_rate['initial_value'] * (
self.learning_rate['decay_factor']**n_decays)
# no lr below minimum control 10e-7
return max(1e-7, lr)
def _flatness_scheduler(self, epoch):
if self.flatness['increase']:
n_increases = epoch // self.flatness['increase_frequency']
else:
return self.flatness['min']
f = self.flatness['min'] + n_increases * self.flatness['increase']
return min(self.flatness['max'], f)
def _load_weights(self):
"""
Loads the pretrained weights from the given path, if any is provided.
If a discriminator is defined, does the same.
"""
if self.weights_generator:
self.model.get_layer('generator').load_weights(
self.weights_generator)
if self.discriminator:
if self.weights_discriminator:
self.model.get_layer('discriminator').load_weights(
self.weights_discriminator)
self.discriminator.model.load_weights(
self.weights_discriminator)
def _format_losses(self, prefix, losses, model_metrics):
""" Creates a dictionary for tensorboard tracking. """
return dict(zip([prefix + m for m in model_metrics], losses))
def update_training_config(self, settings):
""" Summarizes training setting. """
_ = settings['training_parameters'].pop('weights_generator')
_ = settings['training_parameters'].pop('self')
_ = settings['training_parameters'].pop('generator')
_ = settings['training_parameters'].pop('discriminator')
_ = settings['training_parameters'].pop('feature_extractor')
settings['generator'] = {}
settings['generator']['name'] = self.generator.name
settings['generator']['parameters'] = self.generator.params
settings['generator']['weights_generator'] = self.weights_generator
_ = settings['training_parameters'].pop('weights_discriminator')
if self.discriminator:
settings['discriminator'] = {}
settings['discriminator']['name'] = self.discriminator.name
settings['discriminator'][
'weights_discriminator'] = self.weights_discriminator
else:
settings['discriminator'] = None
if self.discriminator:
settings['feature_extractor'] = {}
settings['feature_extractor']['name'] = self.feature_extractor.name
settings['feature_extractor'][
'layers'] = self.feature_extractor.layers_to_extract
else:
settings['feature_extractor'] = None
return settings
def train(self, epochs, steps_per_epoch, batch_size, monitored_metrics):
"""
Carries on the training for the given number of epochs.
Sends the losses to Tensorboard.
Args:
epochs: how many epochs to train for.
steps_per_epoch: how many batches epoch.
batch_size: amount of images per batch.
monitored_metrics: dictionary, the keys are the metrics that are monitored for the weights
saving logic. The values are the mode that trigger the weights saving ('min' vs 'max').
"""
self.settings['training_parameters'][
'steps_per_epoch'] = steps_per_epoch
self.settings['training_parameters']['batch_size'] = batch_size
starting_epoch = self.helper.initialize_training(
self) # load_weights, creates folders, creates basename
self.tensorboard = TensorBoard(
log_dir=self.helper.callback_paths['logs'])
self.tensorboard.set_model(self.model)
# validation data
validation_set = self.valid_dh.get_validation_set(batch_size)
y_validation = [validation_set['hr']]
if self.discriminator:
discr_out_shape = list(
self.discriminator.model.outputs[0].shape)[1:4]
valid = np.ones([batch_size] + discr_out_shape)
fake = np.zeros([batch_size] + discr_out_shape)
validation_valid = np.ones([len(validation_set['hr'])] +
discr_out_shape)
y_validation.append(validation_valid)
if self.feature_extractor:
validation_feats = self.feature_extractor.model.predict(
validation_set['hr'])
y_validation.extend([*validation_feats])
for epoch in range(starting_epoch, epochs):
self.logger.info('Epoch {e}/{tot_eps}'.format(e=epoch,
tot_eps=epochs))
K.set_value(self.model.optimizer.lr,
self._lr_scheduler(epoch=epoch))
self.logger.info('Current learning rate: {}'.format(
K.eval(self.model.optimizer.lr)))
flatness = self._flatness_scheduler(epoch)
if flatness:
self.logger.info(
'Current flatness treshold: {}'.format(flatness))
epoch_start = time()
for step in tqdm(range(steps_per_epoch)):
batch = self.train_dh.get_batch(batch_size, flatness=flatness)
y_train = [batch['hr']]
training_losses = {}
## Discriminator training
if self.discriminator:
sr = self.generator.model.predict(batch['lr'])
d_loss_real = self.discriminator.model.train_on_batch(
batch['hr'], valid)
d_loss_fake = self.discriminator.model.train_on_batch(
sr, fake)
d_loss_fake = self._format_losses(
'train_d_fake_', d_loss_fake,
self.discriminator.model.metrics_names)
d_loss_real = self._format_losses(
'train_d_real_', d_loss_real,
self.discriminator.model.metrics_names)
training_losses.update(d_loss_real)
training_losses.update(d_loss_fake)
y_train.append(valid)
## Generator training
if self.feature_extractor:
hr_feats = self.feature_extractor.model.predict(
batch['hr'])
y_train.extend([*hr_feats])
model_losses = self.model.train_on_batch(batch['lr'], y_train)
model_losses = self._format_losses('train_', model_losses,
self.model.metrics_names)
training_losses.update(model_losses)
self.tensorboard.on_epoch_end(epoch * steps_per_epoch + step,
training_losses)
self.logger.debug('Losses at step {s}:\n {l}'.format(
s=step, l=training_losses))
elapsed_time = time() - epoch_start
self.logger.info('Epoch {} took {:10.1f}s'.format(
epoch, elapsed_time))
validation_losses = self.model.evaluate(validation_set['lr'],
y_validation,
batch_size=batch_size)
validation_losses = self._format_losses('val_', validation_losses,
self.model.metrics_names)
if epoch == starting_epoch:
remove_metrics = []
for metric in monitored_metrics:
if (metric not in training_losses) and (
metric not in validation_losses):
msg = ' '.join([
metric,
'is NOT among the model metrics, removing it.'
])
self.logger.error(msg)
remove_metrics.append(metric)
for metric in remove_metrics:
_ = monitored_metrics.pop(metric)
# should average train metrics
end_losses = {}
end_losses.update(validation_losses)
end_losses.update(training_losses)
self.helper.on_epoch_end(
epoch=epoch,
losses=end_losses,
generator=self.model.get_layer('generator'),
discriminator=self.discriminator,
metrics=monitored_metrics,
)
self.tensorboard.on_epoch_end(epoch, validation_losses)
self.tensorboard.on_train_end(None)
def __init__(
self,
generator,
discriminator,
feature_extractor,
lr_train_dir,
hr_train_dir,
lr_valid_dir,
hr_valid_dir,
learning_rate=0.0004,
loss_weights={'MSE': 1.0},
logs_dir='logs',
weights_dir='weights',
dataname=None,
weights_generator=None,
weights_discriminator=None,
n_validation=None,
T=0.01,
lr_decay_frequency=100,
lr_decay_factor=0.5,
fallback_save_every_n_epochs=2,
beta_1=0.9,
beta_2=0.999,
epsilon=0.00001,
):
if discriminator:
assert generator.patch_size * generator.scale == discriminator.patch_size
if feature_extractor:
assert generator.patch_size * generator.scale == feature_extractor.patch_size
self.generator = generator
self.discriminator = discriminator
self.feature_extractor = feature_extractor
self.scale = generator.scale
self.lr_patch_size = generator.patch_size
self.learning_rate = learning_rate
self.loss_weights = loss_weights
self.weights_generator = weights_generator
self.weights_discriminator = weights_discriminator
self.lr_decay_factor = lr_decay_factor
self.lr_decay_frequency = lr_decay_frequency
self.beta_1 = beta_1
self.beta_2 = beta_2
self.epsilon = epsilon
self.dataname = dataname
self.T = T
self.n_validation = n_validation
self.helper = TrainerHelper(
generator=self.generator,
weights_dir=weights_dir,
logs_dir=logs_dir,
lr_train_dir=lr_train_dir,
feature_extractor=self.feature_extractor,
discriminator=self.discriminator,
dataname=dataname,
weights_generator=self.weights_generator,
weights_discriminator=self.weights_discriminator,
fallback_save_every_n_epochs=fallback_save_every_n_epochs,
)
self.model = self._combine_networks()
self.train_dh = DataHandler(
lr_dir=lr_train_dir,
hr_dir=hr_train_dir,
patch_size=self.lr_patch_size,
scale=self.scale,
n_validation_samples=None,
T=T,
)
self.valid_dh = DataHandler(
lr_dir=lr_valid_dir,
hr_dir=hr_valid_dir,
patch_size=self.lr_patch_size,
scale=self.scale,
n_validation_samples=n_validation,
T=0.0,
)
self.logger = get_logger(__name__)
self.settings = self.get_training_config()
def __init__(
self,
generator,
discriminator,
feature_extractor,
lr_train_dir,
hr_train_dir,
lr_valid_dir,
hr_valid_dir,
learning_rate=0.0004,
loss_weights={'MSE': 1.0},
logs_dir='logs',
weights_dir='weights',
dataname=None,
weights_generator=None,
weights_discriminator=None,
n_validation=None,
T=0.01,
lr_decay_frequency=100,
lr_decay_factor=0.5,
):
if discriminator:
assert generator.patch_size * generator.scale == discriminator.patch_size
if feature_extractor:
assert generator.patch_size * generator.scale == feature_extractor.patch_size
self.generator = generator
self.discriminator = discriminator
self.feature_extractor = feature_extractor
self.scale = generator.scale
self.lr_patch_size = generator.patch_size
self.learning_rate = learning_rate
self.loss_weights = loss_weights
self.best_metrics = {}
self.pretrained_weights_path = {
'generator': weights_generator,
'discriminator': weights_discriminator,
}
self.lr_decay_factor = lr_decay_factor
self.lr_decay_frequency = lr_decay_frequency
self.helper = TrainerHelper(
generator=self.generator,
weights_dir=weights_dir,
logs_dir=logs_dir,
lr_train_dir=lr_train_dir,
feature_extractor=self.feature_extractor,
discriminator=self.discriminator,
dataname=dataname,
pretrained_weights_path=self.pretrained_weights_path,
)
self.model = self._combine_networks()
self.train_dh = DataHandler(
lr_dir=lr_train_dir,
hr_dir=hr_train_dir,
patch_size=self.lr_patch_size,
scale=self.scale,
n_validation_samples=None,
T=T,
)
self.valid_dh = DataHandler(
lr_dir=lr_valid_dir,
hr_dir=hr_valid_dir,
patch_size=self.lr_patch_size,
scale=self.scale,
n_validation_samples=n_validation,
T=0.01,
)
self.logger = get_logger(__name__)
class Trainer:
"""Class object to setup and carry the training.
Takes as input a generator that produces SR images.
Conditionally, also a discriminator network and a feature extractor
to build the components of the perceptual loss.
Compiles the model(s) and trains in a GANS fashion if a discriminator is provided, otherwise
carries a regular ISR training.
Args:
generator: Keras model, the super-scaling, or generator, network.
discriminator: Keras model, the discriminator network for the adversarial
component of the perceptual loss.
feature_extractor: Keras model, feature extractor network for the deep features
component of perceptual loss function.
lr_train_dir: path to the directory containing the Low-Res images for training.
hr_train_dir: path to the directory containing the High-Res images for training.
lr_valid_dir: path to the directory containing the Low-Res images for validation.
hr_valid_dir: path to the directory containing the High-Res images for validation.
learning_rate: float.
loss_weights: dictionary, use to weigh the components of the loss function.
Contains 'MSE' for the MSE loss component, and can contain 'discriminator' and 'feat_extr'
for the discriminator and deep features components respectively.
logs_dir: path to the directory where the tensorboard logs are saved.
weights_dir: path to the directory where the weights are saved.
dataname: string, used to identify what dataset is used for the training session.
weights_generator: path to the pre-trained generator's weights, for transfer learning.
weights_discriminator: path to the pre-trained discriminator's weights, for transfer learning.
n_validation:integer, number of validation samples used at training from the validation set.
T: 0 < float <1, determines the 'flatness' threshold level for the training patches.
See the TrainerHelper class for more details.
lr_decay_frequency: integer, every how many epochs the learning rate is reduced.
lr_decay_factor: 0 < float <1, learning rate reduction multiplicative factor.
Methods:
train: combines the networks and triggers training with the specified settings.
"""
def __init__(
self,
generator,
discriminator,
feature_extractor,
lr_train_dir,
hr_train_dir,
lr_valid_dir,
hr_valid_dir,
learning_rate=0.0004,
loss_weights={'MSE': 1.0},
logs_dir='logs',
weights_dir='weights',
dataname=None,
weights_generator=None,
weights_discriminator=None,
n_validation=None,
T=0.01,
lr_decay_frequency=100,
lr_decay_factor=0.5,
):
if discriminator:
assert generator.patch_size * generator.scale == discriminator.patch_size
if feature_extractor:
assert generator.patch_size * generator.scale == feature_extractor.patch_size
self.generator = generator
self.discriminator = discriminator
self.feature_extractor = feature_extractor
self.scale = generator.scale
self.lr_patch_size = generator.patch_size
self.learning_rate = learning_rate
self.loss_weights = loss_weights
self.best_metrics = {}
self.pretrained_weights_path = {
'generator': weights_generator,
'discriminator': weights_discriminator,
}
self.lr_decay_factor = lr_decay_factor
self.lr_decay_frequency = lr_decay_frequency
self.helper = TrainerHelper(
generator=self.generator,
weights_dir=weights_dir,
logs_dir=logs_dir,
lr_train_dir=lr_train_dir,
feature_extractor=self.feature_extractor,
discriminator=self.discriminator,
dataname=dataname,
pretrained_weights_path=self.pretrained_weights_path,
)
self.model = self._combine_networks()
self.train_dh = DataHandler(
lr_dir=lr_train_dir,
hr_dir=hr_train_dir,
patch_size=self.lr_patch_size,
scale=self.scale,
n_validation_samples=None,
T=T,
)
self.valid_dh = DataHandler(
lr_dir=lr_valid_dir,
hr_dir=hr_valid_dir,
patch_size=self.lr_patch_size,
scale=self.scale,
n_validation_samples=n_validation,
T=0.01,
)
self.logger = get_logger(__name__)
def _combine_networks(self):
"""
Constructs the combined model which contains the generator network,
as well as discriminator and geature extractor, if any are defined.
"""
lr = Input(shape=(self.lr_patch_size, ) * 2 + (3, ))
sr = self.generator.model(lr)
outputs = [sr]
losses = ['mse']
loss_weights = [self.loss_weights['MSE']]
if self.discriminator:
self.discriminator.model.trainable = False
validity = self.discriminator.model(sr)
outputs.append(validity)
losses.append('binary_crossentropy')
loss_weights.append(self.loss_weights['discriminator'])
if self.feature_extractor:
self.feature_extractor.model.trainable = False
sr_feats = self.feature_extractor.model(sr)
outputs.extend([*sr_feats])
losses.extend(['mse'] * len(sr_feats))
loss_weights.extend(
[self.loss_weights['feat_extr'] / len(sr_feats)] *
len(sr_feats))
combined = Model(inputs=lr, outputs=outputs)
# https://stackoverflow.com/questions/42327543/adam-optimizer-goes-haywire-after-200k-batches-training-loss-grows
optimizer = Adam(epsilon=0.0000001)
combined.compile(loss=losses,
loss_weights=loss_weights,
optimizer=optimizer,
metrics={'generator': PSNR})
return combined
def _lr_scheduler(self, epoch):
""" Scheduler for the learning rate updates. """
n_decays = epoch // self.lr_decay_frequency
# no lr below minimum control 10e-6
return max(1e-6, self.learning_rate * (self.lr_decay_factor**n_decays))
def _load_weights(self):
"""
Loads the pretrained weights from the given path, if any is provided.
If a discriminator is defined, does the same.
"""
gen_w = self.pretrained_weights_path['generator']
if gen_w:
self.model.get_layer('generator').load_weights(gen_w)
if self.discriminator:
dis_w = self.pretrained_weights_path['discriminator']
if dis_w:
self.model.get_layer('discriminator').load_weights(dis_w)
self.discriminator.model.load_weights(dis_w)
def train(self, epochs, steps_per_epoch, batch_size):
"""
Carries on the training for the given number of epochs.
Sends the losses to Tensorboard.
"""
starting_epoch = self.helper.initialize_training(
self) # load_weights, creates folders, creates basename
self.tensorboard = TensorBoard(
log_dir=self.helper.callback_paths['logs'])
self.tensorboard.set_model(self.model)
# validation data
validation_set = self.valid_dh.get_validation_set(batch_size)
y_validation = [validation_set['hr']]
if self.discriminator:
discr_out_shape = list(
self.discriminator.model.outputs[0].shape)[1:4]
valid = np.ones([batch_size] + discr_out_shape)
fake = np.zeros([batch_size] + discr_out_shape)
validation_valid = np.ones([len(validation_set['hr'])] +
discr_out_shape)
y_validation.append(validation_valid)
if self.feature_extractor:
validation_feats = self.feature_extractor.model.predict(
validation_set['hr'])
y_validation.extend([*validation_feats])
for epoch in range(starting_epoch, epochs):
self.logger.info('Epoch {e}/{tot_eps}'.format(e=epoch,
tot_eps=epochs))
K.set_value(self.model.optimizer.lr,
self._lr_scheduler(epoch=epoch))
self.logger.info('Current learning rate: {}'.format(
K.eval(self.model.optimizer.lr)))
epoch_start = time()
for step in tqdm(range(steps_per_epoch)):
batch = self.train_dh.get_batch(batch_size)
sr = self.generator.model.predict(batch['lr'])
y_train = [batch['hr']]
losses = {}
## Discriminator training
if self.discriminator:
d_loss_real = self.discriminator.model.train_on_batch(
batch['hr'], valid)
d_loss_fake = self.discriminator.model.train_on_batch(
sr, fake)
d_loss_real = dict(
zip(
[
'train_d_real_' + m
for m in self.discriminator.model.metrics_names
],
d_loss_real,
))
d_loss_fake = dict(
zip(
[
'train_d_fake_' + m
for m in self.discriminator.model.metrics_names
],
d_loss_fake,
))
losses.update(d_loss_real)
losses.update(d_loss_fake)
y_train.append(valid)
## Generator training
if self.feature_extractor:
hr_feats = self.feature_extractor.model.predict(
batch['hr'])
y_train.extend([*hr_feats])
trainig_loss = self.model.train_on_batch(batch['lr'], y_train)
losses.update(
dict(
zip(['train_' + m for m in self.model.metrics_names],
trainig_loss)))
self.tensorboard.on_epoch_end(epoch * steps_per_epoch + step,
losses)
self.logger.debug('Losses at step {s}:\n {l}'.format(s=step,
l=losses))
elapsed_time = time() - epoch_start
self.logger.info('Epoch {} took {:10.1f}s'.format(
epoch, elapsed_time))
validation_loss = self.model.evaluate(validation_set['lr'],
y_validation,
batch_size=batch_size)
losses = dict(
zip(['val_' + m for m in self.model.metrics_names],
validation_loss))
monitored_metrics = {}
if (not self.discriminator) and (not self.feature_extractor):
monitored_metrics.update({'val_loss': 'min'})
else:
monitored_metrics.update({'val_generator_loss': 'min'})
self.helper.on_epoch_end(
epoch=epoch,
losses=losses,
generator=self.model.get_layer('generator'),
discriminator=self.discriminator,
metrics=monitored_metrics,
)
self.tensorboard.on_epoch_end(epoch, losses)
self.tensorboard.on_train_end(None)