dsrl 0.1.0

DSRL (Datasets for Safe Reinforcement Learning) provides a rich collection of datasets specifically designed for offline Safe Reinforcement Learning (RL). Created with the objective of fostering progress in offline safe RL research, DSRL bridges a crucial gap in the availability of safety-centric public benchmarks and datasets.

DSRL provides:

1. Diverse datasets: 38 datasets across different safe RL environments and difficulty levels in SafetyGymnasium, BulletSafetyGym, and MetaDrive, all prepared with safety considerations.
2. Consistent API with D4RL: For easy use and evaluation of offline learning methods.
3. Data post-processing filters: Allowing alteration of data density, noise level, and reward distributions to simulate various data collection conditions.

This package is a part of a comprehensive benchmarking suite that includes FSRL and OSRL and aims to promote advancements in the development and evaluation of safe learning algorithms.

To learn more, please visit our project website.

Installation

Pull this repo and install:

git clone https://github.com/liuzuxin/DSRL.git
cd DSRL
# install bullet_safety_gym only (by default)
pip install -e .
# install mujoco-based safety_gymnasium
pip install -e .[mujoco]
# install metadrive
pip install -e .[metadrive]
# install all in once
pip install -e .[all]

How to use DSRL

DSRL uses the Gymnasium API. Tasks are created via the gymnasium.make function. Each task is associated with a fixed offline dataset, which can be obtained with the env.get_dataset() method. This method returns a dictionary with:

• observations: An N × obs_dim array of observations.
• next_observations: An N × obs_dim of next observations.
• actions: An N × act_dim array of actions.
• rewards: An N dimensional array of rewards.
• costs: An N dimensional array of costs.
• terminals: An N dimensional array of episode termination flags. This is true when episodes end due to termination conditions such as falling over.
• timeouts: An N dimensional array of termination flags. This is true when episodes end due to reaching the maximum episode length.

The usage is similar to D4RL. Here is an example code:

import gymnasium as gym
import dsrl

# Create the environment
env = gym.make('OfflineCarCircle-v0')

# Each task is associated with a dataset
# dataset contains observations, next_observatiosn, actions, rewards, costs, terminals, timeouts
dataset = env.get_dataset()
print(dataset['observations']) # An N x obs_dim Numpy array of observations

# dsrl abides by the OpenAI gym interface
obs, info = env.reset()
obs, reward, terminal, timeout, info = env.step(env.action_space.sample())
cost = info["cost"]

# Apply dataset filters [optional]
# dataset = env.pre_process_data(dataset, filter_cfgs)

Datasets are automatically downloaded to the ~/.dsrl/datasets directory when get_dataset() is called. If you would like to change the location of this directory, you can set the $DSRL_DATASET_DIR environment variable to the directory of your choosing, or pass in the dataset filepath directly into the get_dataset method.

You can use run the following example scripts to play with the offline dataset of all the supported environments:

python examples/run_mujoco.py --agent [your_agent] --task [your_task]
python examples/run_bullet.py --agent [your_agent] --task [your_task]
python examples/run_metadrive.py --road [your_road] --traffic [your_traffic] 

Normalizing Scores

• Set target cost by using env.set_target_cost(target_cost) function, where target_cost is the undiscounted sum of costs of an episode
• You can use the env.get_normalized_score(return, cost_return) function to compute a normalized reward and cost for an episode, where returns and cost_returns are the undiscounted sum of rewards and costs respectively of an episode.
• The individual min and max reference returns are stored in dsrl/infos.py for reference.

License

All datasets are licensed under the Creative Commons Attribution 4.0 License (CC BY), and code is licensed under the Apache 2.0 License.