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import json
from pathlib import Path
from typing import Dict
from typing import List
from typing import NamedTuple
from typing import Optional
from typing import Union
from become_yukarin.param import Param
class DatasetConfig(NamedTuple):
param: Param
input_glob: Path
target_glob: Path
input_mean_path: Path
input_var_path: Path
target_mean_path: Path
target_var_path: Path
features: List[str]
train_crop_size: int
input_global_noise: float
input_local_noise: float
target_global_noise: float
target_local_noise: float
seed: int
num_test: int
class ModelConfig(NamedTuple):
in_channels: int
out_channels: int
generator_base_channels: int
generator_extensive_layers: int
discriminator_base_channels: int
discriminator_extensive_layers: int
weak_discriminator: bool
class LossConfig(NamedTuple):
mse: float
adversarial: float
class TrainConfig(NamedTuple):
batchsize: int
gpu: int
log_iteration: int
snapshot_iteration: int
class ProjectConfig(NamedTuple):
name: str
tags: List[str]
class Config(NamedTuple):
dataset: DatasetConfig
model: ModelConfig
loss: LossConfig
train: TrainConfig
project: ProjectConfig
def save_as_json(self, path):
d = _namedtuple_to_dict(self)
json.dump(d, open(path, 'w'), indent=2, sort_keys=True, default=_default_path)
def _default_path(o):
if isinstance(o, Path):
return str(o)
raise TypeError(repr(o) + " is not JSON serializable")
def _namedtuple_to_dict(o: NamedTuple):
return {
k: v if not hasattr(v, '_asdict') else _namedtuple_to_dict(v)
for k, v in o._asdict().items()
}
def create_from_json(s: Union[str, Path]):
try:
d = json.loads(s)
except TypeError:
d = json.load(open(s))
backward_compatible(d)
return Config(
dataset=DatasetConfig(
param=Param(),
input_glob=Path(d['dataset']['input_glob']),
target_glob=Path(d['dataset']['target_glob']),
input_mean_path=Path(d['dataset']['input_mean_path']),
input_var_path=Path(d['dataset']['input_var_path']),
target_mean_path=Path(d['dataset']['target_mean_path']),
target_var_path=Path(d['dataset']['target_var_path']),
features=d['dataset']['features'],
train_crop_size=d['dataset']['train_crop_size'],
input_global_noise=d['dataset']['input_global_noise'],
input_local_noise=d['dataset']['input_local_noise'],
target_global_noise=d['dataset']['target_global_noise'],
target_local_noise=d['dataset']['target_local_noise'],
seed=d['dataset']['seed'],
num_test=d['dataset']['num_test'],
),
model=ModelConfig(
in_channels=d['model']['in_channels'],
out_channels=d['model']['out_channels'],
generator_base_channels=d['model']['generator_base_channels'],
generator_extensive_layers=d['model']['generator_extensive_layers'],
discriminator_base_channels=d['model']['discriminator_base_channels'],
discriminator_extensive_layers=d['model']['discriminator_extensive_layers'],
weak_discriminator=d['model']['weak_discriminator'],
),
loss=LossConfig(
mse=d['loss']['mse'],
adversarial=d['loss']['adversarial'],
),
train=TrainConfig(
batchsize=d['train']['batchsize'],
gpu=d['train']['gpu'],
log_iteration=d['train']['log_iteration'],
snapshot_iteration=d['train']['snapshot_iteration'],
),
project=ProjectConfig(
name=d['project']['name'],
tags=d['project']['tags'],
)
)
def backward_compatible(d: Dict):
if 'input_global_noise' not in d['dataset']:
d['dataset']['input_global_noise'] = d['dataset']['global_noise']
d['dataset']['input_local_noise'] = d['dataset']['local_noise']
if 'target_global_noise' not in d['dataset']:
d['dataset']['target_global_noise'] = d['dataset']['global_noise']
d['dataset']['target_local_noise'] = d['dataset']['local_noise']
if 'generator_base_channels' not in d['model']:
d['model']['generator_base_channels'] = 64
d['model']['generator_extensive_layers'] = 8
d['model']['discriminator_base_channels'] = 32
d['model']['discriminator_extensive_layers'] = 5
|
