def test_create_dataset_and_clean(self):
info = generate_random_dataset_in_raw_data(output_dir=self.output_dir,
num_runs=20,
input_size=(100, 100, 3),
output_size=(1, ),
continuous=True,
store_hdf5=False)
cleaner_config_dict = {
'output_path': self.output_dir,
'data_loader_config': {
'data_directories': info['episode_directories'],
'input_size': (150, 150, 1)
},
'training_validation_split': 0.7,
}
data_cleaner = DataCleaner(config=DataCleaningConfig().create(
config_dict=cleaner_config_dict))
data_cleaner.clean()
data_loader_train = DataLoader(config=DataLoaderConfig().create(
config_dict={
'output_path': self.output_dir,
'hdf5_files': glob(f'{self.output_dir}/train*.hdf5')
}))
data_loader_train.load_dataset()
data_loader_validation = DataLoader(config=DataLoaderConfig().create(
config_dict={
'output_path': self.output_dir,
'hdf5_files': glob(f'{self.output_dir}/validation*.hdf5')
}))
data_loader_validation.load_dataset()
ratio = len(data_loader_train.get_dataset()) / (
0. + len(data_loader_train.get_dataset()) +
len(data_loader_validation.get_dataset()))
self.assertTrue(ratio > 0.6)
self.assertTrue(ratio < 0.8)
def test_create_hdf5_files_subsampled_in_time(self):
num_runs = 10
split = 1.0
subsample = 3
config_dict = {
'output_path': self.output_dir,
'training_validation_split': split,
'store_hdf5': True,
'subsample_hdf5': subsample,
'separate_raw_data_runs': True
}
config = DataSaverConfig().create(config_dict=config_dict)
self.data_saver = DataSaver(config=config)
info = generate_dummy_dataset(self.data_saver, num_runs=num_runs)
self.data_saver.create_train_validation_hdf5_files()
config = DataLoaderConfig().create(
config_dict={
'output_path': self.output_dir,
'hdf5_files': [os.path.join(self.output_dir, 'train.hdf5')]
})
training_data_loader = DataLoader(config=config)
training_data_loader.load_dataset()
training_data = training_data_loader.get_dataset()
self.assertEqual(
len(training_data),
sum([
np.ceil((el - 1) / subsample) + 1
for el in info['episode_lengths']
]))
def test_clip_first_x_frames(self):
info = generate_random_dataset_in_raw_data(output_dir=self.output_dir,
num_runs=20,
input_size=(100, 100, 3),
output_size=(1, ),
continuous=True,
store_hdf5=False)
cleaner_config_dict = {
'output_path': self.output_dir,
'data_loader_config': {
'data_directories': info['episode_directories'],
'subsample': 2
},
'training_validation_split': 1.0,
'remove_first_n_timestamps': 5,
}
data_cleaner = DataCleaner(config=DataCleaningConfig().create(
config_dict=cleaner_config_dict))
data_cleaner.clean()
data_loader = DataLoader(config=DataLoaderConfig().create(
config_dict={
'output_path': self.output_dir,
'hdf5_files': glob(f'{self.output_dir}/train*.hdf5')
}))
data_loader.load_dataset()
self.assertEqual(
sum(int((e - 5) / 2) + 1 for e in info['episode_lengths']),
len(data_loader.get_dataset()))
def test_split_hdf5_chunks(self):
info = generate_random_dataset_in_raw_data(output_dir=self.output_dir,
num_runs=20,
input_size=(100, 100, 3),
output_size=(1, ),
continuous=True,
store_hdf5=False)
cleaner_config_dict = {
'output_path': self.output_dir,
'data_loader_config': {
'data_directories': info['episode_directories'],
},
'training_validation_split': 1.0,
'max_hdf5_size': 5 * 10**6
}
data_cleaner = DataCleaner(config=DataCleaningConfig().create(
config_dict=cleaner_config_dict))
data_cleaner.clean()
for hdf5_file in glob(f'{self.output_dir}/train*.hdf5'):
data_loader = DataLoader(config=DataLoaderConfig().create(
config_dict={
'output_path': self.output_dir,
'hdf5_files': [hdf5_file]
}))
data_loader.load_dataset()
self.assertTrue(
data_loader.get_dataset().get_memory_size() < 6 * 10**6)
def create_train_validation_hdf5_files(
self,
runs: List[str] = None,
input_size: List[int] = None) -> None:
all_runs = runs if runs is not None else self._get_runs()
number_of_training_runs = int(self._config.training_validation_split *
len(all_runs))
train_runs = all_runs[0:number_of_training_runs]
validation_runs = all_runs[number_of_training_runs:]
for file_name, runs in zip(['train', 'validation'],
[train_runs, validation_runs]):
config = DataLoaderConfig().create(
config_dict={
'data_directories': runs,
'output_path': self._config.output_path,
'subsample': self._config.subsample_hdf5,
'input_size': input_size
})
data_loader = DataLoader(config=config)
data_loader.load_dataset()
create_hdf5_file_from_dataset(filename=os.path.join(
self._config.output_path, file_name + '.hdf5'),
dataset=data_loader.get_dataset())
cprint(f'created {file_name}.hdf5', self._logger)
def test_create_train_validation_hdf5_files(self):
num_runs = 10
split = 0.7
config_dict = {
'output_path': self.output_dir,
'training_validation_split': split,
'store_hdf5': True,
'separate_raw_data_runs': True
}
config = DataSaverConfig().create(config_dict=config_dict)
self.data_saver = DataSaver(config=config)
info = generate_dummy_dataset(self.data_saver, num_runs=num_runs)
self.data_saver.create_train_validation_hdf5_files()
config = DataLoaderConfig().create(
config_dict={
'output_path': self.output_dir,
'hdf5_files': [os.path.join(self.output_dir, 'train.hdf5')]
})
training_data_loader = DataLoader(config=config)
training_data_loader.load_dataset()
training_data = training_data_loader.get_dataset()
config = DataLoaderConfig().create(
config_dict={
'output_path': self.output_dir,
'hdf5_files':
[os.path.join(self.output_dir, 'validation.hdf5')]
})
validation_data_loader = DataLoader(config=config)
validation_data_loader.load_dataset()
validation_data = validation_data_loader.get_dataset()
self.assertEqual(len(training_data),
sum(info['episode_lengths'][:int(split * num_runs)]))
self.assertEqual(len(validation_data),
sum(info['episode_lengths'][int(split * num_runs):]))
def test_line_world_augmentation(self):
line_image = np.ones((100, 100, 3))
line_image[:, 40:43, 0:2] = 0
info = generate_random_dataset_in_raw_data(
output_dir=self.output_dir,
num_runs=20,
input_size=(100, 100, 3),
output_size=(1, ),
continuous=True,
fixed_input_value=line_image,
store_hdf5=False)
cleaner_config_dict = {
'output_path': self.output_dir,
'data_loader_config': {
'data_directories': info['episode_directories'],
'input_size': (1, 64, 64)
},
'training_validation_split': 0.7,
'remove_first_n_timestamps': 5,
'binary_maps_as_target': True,
'invert_binary_maps': True,
'augment_background_noise': 0.1,
'augment_background_textured': 0.9,
'texture_directory': 'textured_dataset',
'augment_empty_images': 0.1
}
data_cleaner = DataCleaner(config=DataCleaningConfig().create(
config_dict=cleaner_config_dict))
data_cleaner.clean()
data_loader = DataLoader(config=DataLoaderConfig().create(
config_dict={
'output_path': self.output_dir,
'hdf5_files': glob(f'{self.output_dir}/train*.hdf5')
}))
data_loader.load_dataset()
data_loader.get_dataset().plot()
def test_data_subsample(self):
self.info = generate_dummy_dataset(self.data_saver,
num_runs=20,
input_size=(100, 100, 3),
output_size=(3, ),
continuous=False)
subsample = 4
config_dict = {
'data_directories': self.info['episode_directories'],
'output_path': self.output_dir,
'random_seed': 1,
'batch_size': 3,
'subsample': subsample
}
data_loader = DataLoader(config=DataLoaderConfig().create(
config_dict=config_dict))
data_loader.load_dataset()
self.assertTrue(
sum([
np.ceil((el - 1) / subsample) + 1
for el in self.info['episode_lengths']
]), len(data_loader.get_dataset()))
def __init__(self, config: DataSaverConfig):
self._config = config
self._logger = get_logger(
name=get_filename_without_extension(__file__),
output_path=self._config.output_path,
quiet=False)
cprint(f'initiate', self._logger)
if not self._config.saving_directory.startswith('/'):
self._config.saving_directory = os.path.join(
os.environ['HOME'], self._config.saving_directory)
if self._config.store_on_ram_only:
self._dataset = Dataset(max_size=self._config.max_size)
# used to keep track of replay buffer size on file system
if not self._config.store_on_ram_only \
and os.path.isdir(os.path.dirname(self._config.saving_directory)) \
and self._config.max_size != -1:
data_loader = DataLoader(config=DataLoaderConfig().create(
config_dict={
'data_directories': [
os.path.join(
os.path.dirname(self._config.saving_directory),
run) for run in sorted(
os.listdir(
os.path.dirname(
self._config.saving_directory)))
],
'output_path':
self._config.output_path,
'store':
False # don't store config
}))
data_loader.load_dataset()
self._frame_counter = len(data_loader.get_dataset())
else:
self._frame_counter = 0
def test_generate_random_dataset_with_train_validation_hdf5(self):
num_runs = 10
# generate network
network = eval(architecture_base_config['architecture']).Net(
config=ArchitectureConfig().create(
config_dict=architecture_base_config))
# generate dummy dataset
info = generate_random_dataset_in_raw_data(
output_dir=self.output_dir,
num_runs=num_runs,
input_size=network.input_size,
output_size=network.output_size,
continuous=not network.discrete,
store_hdf5=True)
data_loader_config = {
'output_path': self.output_dir,
'hdf5_files': [os.path.join(self.output_dir, 'train.hdf5')]
}
data_loader = DataLoader(config=DataLoaderConfig().create(
config_dict=data_loader_config))
data_loader.load_dataset()
self.assertNotEqual(
sum(d != 0 for d in data_loader.get_dataset().done), 0)
def test_generate_random_dataset_in_raw_data(self):
num_runs = 10
# generate network
network = eval(architecture_base_config['architecture']).Net(
config=ArchitectureConfig().create(
config_dict=architecture_base_config))
# generate dummy dataset
info = generate_random_dataset_in_raw_data(
output_dir=self.output_dir,
num_runs=num_runs,
input_size=network.input_size,
output_size=network.output_size,
continuous=not network.discrete,
)
data_loader_config = {
'output_path': self.output_dir,
'data_directories': info['episode_directories'],
}
data_loader = DataLoader(config=DataLoaderConfig().create(
config_dict=data_loader_config))
data_loader.load_dataset()
self.assertEqual(sum(d != 0 for d in data_loader.get_dataset().done),
num_runs)
class Evaluator:
def __init__(self,
config: EvaluatorConfig,
network: BaseNet,
quiet: bool = False):
self._config = config
self._net = network
self.data_loader = DataLoader(config=self._config.data_loader_config)
if not quiet:
self._logger = get_logger(
name=get_filename_without_extension(__file__),
output_path=config.output_path,
quiet=False) if type(self) == Evaluator else None
cprint(f'Started.', self._logger)
self._device = torch.device(
"cuda" if self._config.device in ['gpu', 'cuda']
and torch.cuda.is_available() else "cpu")
self._criterion = eval(
f'{self._config.criterion}(reduction=\'none\', {self._config.criterion_args_str})'
)
self._criterion.to(self._device)
self._lowest_validation_loss = None
self.data_loader.load_dataset()
self._minimum_error = float(10**6)
self._original_model_device = self._net.get_device(
) if self._net is not None else None
def put_model_on_device(self, device: str = None):
self._original_model_device = self._net.get_device()
self._net.set_device(
torch.device(self._config.device) if device is None else torch.
device(device))
def put_model_back_to_original_device(self):
self._net.set_device(self._original_model_device)
def evaluate(self,
epoch: int = -1,
writer=None,
tag: str = 'validation') -> Tuple[str, bool]:
self.put_model_on_device()
total_error = []
# for batch in tqdm(self.data_loader.get_data_batch(), ascii=True, desc='evaluate'):
for batch in self.data_loader.get_data_batch():
with torch.no_grad():
predictions = self._net.forward(batch.observations,
train=False)
targets = data_to_tensor(batch.actions).type(
self._net.dtype).to(self._device)
error = self._criterion(predictions, targets).mean()
total_error.append(error)
error_distribution = Distribution(total_error)
self.put_model_back_to_original_device()
if writer is not None:
writer.write_distribution(error_distribution, tag)
if self._config.store_output_on_tensorboard and (epoch % 30 == 0
or tag == 'test'):
writer.write_output_image(predictions, f'{tag}/predictions')
writer.write_output_image(targets, f'{tag}/targets')
writer.write_output_image(torch.stack(batch.observations),
f'{tag}/inputs')
msg = f' {tag} {self._config.criterion} {error_distribution.mean: 0.3e} [{error_distribution.std:0.2e}]'
best_checkpoint = False
if self._lowest_validation_loss is None or error_distribution.mean < self._lowest_validation_loss:
self._lowest_validation_loss = error_distribution.mean
best_checkpoint = True
return msg, best_checkpoint
def evaluate_extensive(self) -> None:
"""
Extra offline evaluation methods for an extensive evaluation at the end of training
:return: None
"""
self.put_model_on_device('cpu')
self.data_loader.get_dataset().subsample(10)
dataset = self.data_loader.get_dataset()
predictions = self._net.forward(dataset.observations,
train=False).detach().cpu()
#error = predictions - torch.stack(dataset.actions)
self.put_model_back_to_original_device()
# save_output_plots(output_dir=self._config.output_path,
# data={'expert': np.stack(dataset.actions),
# 'network': predictions.numpy(),
# 'difference': error.numpy()})
# create_output_video(output_dir=self._config.output_path,
# observations=dataset.observations,
# actions={'expert': np.stack(dataset.actions),
# 'network': predictions.numpy()})
create_output_video_segmentation_network(
output_dir=self._config.output_path,
observations=torch.stack(dataset.observations).numpy(),
predictions=predictions.numpy())
def remove(self):
self.data_loader.remove()
[h.close() for h in self._logger.handlers]
