risk_biased_prediction / export_waymo_to_json.py
jmercat's picture
update numpy.bool8 to numpy.bool_
2f360f3
import json
from json import JSONEncoder
from mmcv import Config
import numpy
import torch
from risk_biased.utils.waymo_dataloader import WaymoDataloaders
class NumpyArrayEncoder(JSONEncoder):
def default(self, obj):
if isinstance(obj, numpy.ndarray):
return obj.tolist()
return JSONEncoder.default(self, obj)
if __name__ == "__main__":
output_path = "../risk_biased_dataset/data.json"
config_path = "risk_biased/config/waymo_config.py"
cfg = Config.fromfile(config_path)
dataloaders = WaymoDataloaders(cfg)
sample_dataloader = dataloaders.sample_dataloader()
(
x,
mask_x,
y,
mask_y,
mask_loss,
map_data,
mask_map,
offset,
x_ego,
y_ego,
) = sample_dataloader.collate_fn(sample_dataloader.dataset)
batch_size, n_agents, n_timesteps_past, n_features = x.shape
n_timesteps_future = y.shape[2]
n_features_map = map_data.shape[3]
n_features_offset = offset.shape[2]
print(x.shape)
print(mask_x.shape)
print(y.shape)
print(mask_y.shape)
print(mask_loss.shape)
print(map_data.shape)
print(mask_map.shape)
print(offset.shape)
print(x_ego.shape)
print(y_ego.shape)
data = {"x": x.numpy(),
"mask_x": mask_x.numpy(),
"y": y.numpy(),
"mask_y": mask_y.numpy(),
"mask_loss": mask_loss.numpy(),
"map_data": map_data.numpy(),
"mask_map": mask_map.numpy(),
"offset": offset.numpy(),
"x_ego": x_ego.numpy(),
"y_ego": y_ego.numpy(),
}
json_data = json.dumps(data, cls=NumpyArrayEncoder)
with open(output_path, "w+") as f:
f.write(json_data)
with open(output_path, "r") as f:
decoded = json.load(f)
x_c = torch.from_numpy(numpy.array(decoded["x"]).astype(numpy.float32))
mask_x_c = torch.from_numpy(numpy.array(decoded["mask_x"]).astype(numpy.bool_))
y_c = torch.from_numpy(numpy.array(decoded["y"]).astype(numpy.float32))
mask_y_c = torch.from_numpy(numpy.array(decoded["mask_y"]).astype(numpy.bool_))
mask_loss_c = torch.from_numpy( numpy.array(decoded["mask_loss"]).astype(numpy.bool_))
map_data_c = torch.from_numpy(numpy.array(decoded["map_data"]).astype(numpy.float32))
mask_map_c = torch.from_numpy(numpy.array(decoded["mask_map"]).astype(numpy.bool_))
offset_c = torch.from_numpy(numpy.array(decoded["offset"]).astype(numpy.float32))
x_ego_c = torch.from_numpy(numpy.array(decoded["x_ego"]).astype(numpy.float32))
y_ego_c = torch.from_numpy(numpy.array(decoded["y_ego"]).astype(numpy.float32))
assert torch.allclose(x, x_c)
assert torch.allclose(mask_x, mask_x_c)
assert torch.allclose(y, y_c)
assert torch.allclose(mask_y, mask_y_c)
assert torch.allclose(mask_loss, mask_loss_c)
assert torch.allclose(map_data, map_data_c)
assert torch.allclose(mask_map, mask_map_c)
assert torch.allclose(offset, offset_c)
assert torch.allclose(x_ego, x_ego_c)
assert torch.allclose(y_ego, y_ego_c)
print("All good!")