"""Compute normalization statistics for a config. This script is used to compute the normalization statistics for a given config. It will compute the mean and standard deviation of the data in the dataset and save it to the config assets directory. """ import openpi.shared.local_cache_bootstrap # noqa: F401 import numpy as np import tqdm import tyro import openpi.models.model as _model import openpi.shared.normalize as normalize import openpi.training.config as _config import openpi.training.data_loader as _data_loader import openpi.transforms as transforms class RemoveStrings(transforms.DataTransformFn): def __call__(self, x: dict) -> dict: return {k: v for k, v in x.items() if not np.issubdtype(np.asarray(v).dtype, np.str_)} def create_torch_dataloader( data_config: _config.DataConfig, action_horizon: int, batch_size: int, model_config: _model.BaseModelConfig, num_workers: int, max_frames: int | None = None, ) -> tuple[_data_loader.Dataset, int]: if data_config.repo_id is None: raise ValueError("Data config must have a repo_id") dataset = _data_loader.create_torch_dataset(data_config, action_horizon, model_config) dataset = _data_loader.TransformedDataset( dataset, [ *data_config.repack_transforms.inputs, *data_config.data_transforms.inputs, # Remove strings since they are not supported by JAX and are not needed to compute norm stats. RemoveStrings(), ], ) if max_frames is not None and max_frames < len(dataset): num_batches = max_frames // batch_size shuffle = True else: num_batches = len(dataset) // batch_size shuffle = False data_loader = _data_loader.TorchDataLoader( dataset, local_batch_size=batch_size, num_workers=num_workers, shuffle=shuffle, num_batches=num_batches, ) return data_loader, num_batches def create_rlds_dataloader( data_config: _config.DataConfig, action_horizon: int, batch_size: int, max_frames: int | None = None, ) -> tuple[_data_loader.Dataset, int]: dataset = _data_loader.create_rlds_dataset(data_config, action_horizon, batch_size, shuffle=False) dataset = _data_loader.IterableTransformedDataset( dataset, [ *data_config.repack_transforms.inputs, *data_config.data_transforms.inputs, # Remove strings since they are not supported by JAX and are not needed to compute norm stats. RemoveStrings(), ], is_batched=True, ) if max_frames is not None and max_frames < len(dataset): num_batches = max_frames // batch_size else: # NOTE: this length is currently hard-coded for DROID. num_batches = len(dataset) // batch_size data_loader = _data_loader.RLDSDataLoader( dataset, num_batches=num_batches, ) return data_loader, num_batches def main(config_name: str, max_frames: int | None = None): config = _config.get_config(config_name) data_config = config.data.create(config.assets_dirs, config.model) if data_config.rlds_data_dir is not None: data_loader, num_batches = create_rlds_dataloader( data_config, config.model.action_horizon, config.batch_size, max_frames ) else: data_loader, num_batches = create_torch_dataloader( data_config, config.model.action_horizon, config.batch_size, config.model, config.num_workers, max_frames ) keys = ["state", "actions"] stats = {key: normalize.RunningStats() for key in keys} for batch in tqdm.tqdm(data_loader, total=num_batches, desc="Computing stats"): for key in keys: stats[key].update(np.asarray(batch[key])) norm_stats = {key: stats.get_statistics() for key, stats in stats.items()} output_path = config.assets_dirs / data_config.repo_id print(f"Writing stats to: {output_path}") normalize.save(output_path, norm_stats) if __name__ == "__main__": tyro.cli(main)