def atari_preprocessing( env: Union[ParallelEnvWrapper, SequentialEnvWrapper] ) -> Union[ParallelEnvWrapper, SequentialEnvWrapper]: # Preprocessing env = supersuit.max_observation_v0(env, 2) # repeat_action_probability is set to 0.25 # to introduce non-determinism to the system env = supersuit.sticky_actions_v0(env, repeat_action_probability=0.25) # skip frames for faster processing and less control # to be compatable with gym, use frame_skip(env, (2,5)) env = supersuit.frame_skip_v0(env, 4) # downscale observation for faster processing env = supersuit.resize_v0(env, 84, 84) # allow agent to see everything on the screen # despite Atari's flickering screen problem env = supersuit.frame_stack_v1(env, 4) # set dtype to float32 env = supersuit.dtype_v0(env, np.float32) return env
def env_creator(): if args.game.__package__.endswith('atari'): if (args.game_name.startswith('foozpong') or args.game_name.startswith('basketball_pong') or args.game_name.startswith('volleyball_pong') ): env = args.game.env(obs_type=args.atari_obs_type, max_cycles=args.max_steps['atari'], full_action_space=False, num_players=2) else: env = args.game.env(obs_type=args.atari_obs_type, full_action_space=False, max_cycles=args.max_steps['atari']) env = frame_skip_v0(env, args.atari_frame_skip_num) env = frame_stack_v1(env, args.atari_frame_stack_num) else: env = args.game.env() if args.game_name.startswith('rps'): env = one_hot_obs_wrapper(env) env = dtype_v0(env, dtype=float32) env = pad_observations_v0(env) env = pad_action_space_v0(env) if args.game_name.startswith('connect_four') or args.game_name.startswith('tictactoe'): env = FlattenEnvWrapper(env) GAUSSIAN_STD = 1.0 assert abs(GAUSSIAN_STD - 1.0) < 1e-5, "must be 1.0, otherwise simple ensemble implementation is wrong" env = LatentGaussianAugmentedEnvWrapper(env, latent_parameter_dim=args.latent_para_dim, gaussian_std=1.0, use_dict_obs_space=args.use_dict_obs_space) return env
def env_creator(): env = pistonball_v4.env(n_pistons=20, local_ratio=0, time_penalty=-0.1, continuous=True, random_drop=True, random_rotate=True, ball_mass=0.75, ball_friction=0.3, ball_elasticity=1.5, max_cycles=125) env = ss.color_reduction_v0(env, mode='B') env = ss.dtype_v0(env, 'float32') env = ss.resize_v0(env, x_size=84, y_size=84) env = ss.normalize_obs_v0(env, env_min=0, env_max=1) env = ss.frame_stack_v1(env, 3) return env
def test_basic(): env = DummyParEnv(base_obs, base_obs_space, base_act_spaces) env = supersuit.delay_observations_v0(env, 4) env = supersuit.dtype_v0(env, np.uint8) orig_obs = env.reset() for i in range(10): action = {agent: env.action_spaces[agent].sample() for agent in env.agents} obs, rew, done, info = env.step(action)
def make_env(env_name): if env_name == "pistonball": env = pistonball_v0.parallel_env(max_frames=100) env = supersuit.resize_v0(env, 16, 16) env = supersuit.dtype_v0(env, np.float32) env = supersuit.normalize_obs_v0(env) return supersuit.flatten_v0(env) if env_name == "KAZ": env = knights_archers_zombies_v2.parallel_env(max_frames=100) env = supersuit.resize_v0(env, 32, 32) env = supersuit.dtype_v0(env, np.float32) env = supersuit.normalize_obs_v0(env) return supersuit.flatten_v0(env) if env_name == "pursuit": env = pursuit_v1.parallel_env(max_frames=100) env = supersuit.resize_v0(env, 32, 32) return supersuit.flatten_v0(env) elif env_name == "waterworld": return waterworld_v1.parallel_env(max_frames=100) elif env_name == "multiwalker": return multiwalker_v3.parallel_env(max_frames=100) else: raise RuntimeError("bad environment name")
def make_env(env_name='boxing_v1', seed=1, obs_type='rgb_image'): '''https://www.pettingzoo.ml/atari''' if env_name == 'slimevolley_v0': env = SlimeVolleyWrapper(gym.make("SlimeVolley-v0")) else: # PettingZoo envs env = eval(env_name).parallel_env(obs_type=obs_type) if obs_type == 'rgb_image': # as per openai baseline's MaxAndSKip wrapper, maxes over the last 2 frames # to deal with frame flickering env = supersuit.max_observation_v0(env, 2) # repeat_action_probability is set to 0.25 to introduce non-determinism to the system env = supersuit.sticky_actions_v0(env, repeat_action_probability=0.25) # skip frames for faster processing and less control # to be compatable with gym, use frame_skip(env, (2,5)) env = supersuit.frame_skip_v0(env, 4) # downscale observation for faster processing env = supersuit.resize_v0(env, 84, 84) # allow agent to see everything on the screen despite Atari's flickering screen problem env = supersuit.frame_stack_v1(env, 4) else: env = supersuit.frame_skip_v0(env, 4) # env = PettingZooWrapper(env) # need to be put at the end if env_name in AtariEnvs: # normalize the observation of Atari for both image or RAM env = supersuit.dtype_v0( env, 'float32' ) # need to transform uint8 to float first for normalizing observation: https://github.com/PettingZoo-Team/SuperSuit env = supersuit.normalize_obs_v0( env, env_min=0, env_max=1) # normalize the observation to (0,1) # assign observation and action spaces env.observation_space = list(env.observation_spaces.values())[0] env.action_space = list(env.action_spaces.values())[0] env.seed(seed) return env
def env_creator(args): env = env_constr.env( ) #killable_knights=False, killable_archers=False) resize_size = 84 if model == None else 32 env = supersuit.resize_v0(env, resize_size, resize_size, linear_interp=True) env = supersuit.color_reduction_v0(env) env = supersuit.pad_action_space_v0(env) env = supersuit.pad_observations_v0(env) # env = supersuit.frame_stack_v0(env,2) env = supersuit.dtype_v0(env, np.float32) env = supersuit.normalize_obs_v0(env) if model == "MLPModelV2": env = supersuit.flatten_v0(env) env = PettingZooEnv(env) return env
def unwrapped_check(env): # image observations if isinstance(env.observation_space, spaces.Box): if ((env.observation_space.low.shape == 3) and (env.observation_space.low == 0).all() and (len(env.observation_space.shape[2]) == 3) and (env.observation_space.high == 255).all()): env = max_observation_v0(env, 2) env = color_reduction_v0(env, mode="full") env = normalize_obs_v0(env) # box action spaces if isinstance(env.action_space, spaces.Box): env = clip_actions_v0(env) env = scale_actions_v0(env, 0.5) # stackable observations if isinstance(env.observation_space, spaces.Box) or isinstance( env.observation_space, spaces.Discrete): env = frame_stack_v1(env, 2) # not discrete and not multibinary observations if not isinstance(env.observation_space, spaces.Discrete) and not isinstance( env.observation_space, spaces.MultiBinary): env = dtype_v0(env, np.float16) env = flatten_v0(env) env = frame_skip_v0(env, 2) # everything else env = clip_reward_v0(env, lower_bound=-1, upper_bound=1) env = delay_observations_v0(env, 2) env = sticky_actions_v0(env, 0.5) env = nan_random_v0(env) env = nan_zeros_v0(env) assert env.unwrapped.__class__ == DummyEnv, f"Failed to unwrap {env}"
def wrap_env(env, obs_type='ram'): env = env.parallel_env(obs_type=obs_type) env_agents = env.unwrapped.agents if obs_type == 'rgb_image': env = supersuit.max_observation_v0( env, 2 ) # as per openai baseline's MaxAndSKip wrapper, maxes over the last 2 frames to deal with frame flickering env = supersuit.sticky_actions_v0( env, repeat_action_probability=0.25 ) # repeat_action_probability is set to 0.25 to introduce non-determinism to the system env = supersuit.frame_skip_v0( env, 4 ) # skip frames for faster processing and less control to be compatable with gym, use frame_skip(env, (2,5)) env = supersuit.resize_v0( env, 84, 84) # downscale observation for faster processing env = supersuit.frame_stack_v1( env, 4 ) # allow agent to see everything on the screen despite Atari's flickering screen problem else: env = supersuit.frame_skip_v0( env, 4 ) # RAM version also need frame skip, essential for boxing-v1, etc # normalize the observation of Atari for both image or RAM env = supersuit.dtype_v0( env, 'float32' ) # need to transform uint8 to float first for normalizing observation: https://github.com/PettingZoo-Team/SuperSuit env = supersuit.normalize_obs_v0( env, env_min=0, env_max=1) # normalize the observation to (0,1) env.observation_space = list(env.observation_spaces.values())[0] env.action_space = list(env.action_spaces.values())[0] env.agents = env_agents env = Dict2TupleWrapper(env) return env
def unwrapped_check(env): env.reset() agents = env.agents if image_observation(env, agents): env = max_observation_v0(env, 2) env = color_reduction_v0(env, mode="full") env = normalize_obs_v0(env) if box_action(env, agents): env = clip_actions_v0(env) env = scale_actions_v0(env, 0.5) if observation_homogenizable(env, agents): env = pad_observations_v0(env) env = frame_stack_v1(env, 2) env = agent_indicator_v0(env) env = black_death_v3(env) if (not_dict_observation(env, agents) and not_discrete_observation(env, agents) and not_multibinary_observation(env, agents)): env = dtype_v0(env, np.float16) env = flatten_v0(env) env = frame_skip_v0(env, 2) if action_homogenizable(env, agents): env = pad_action_space_v0(env) env = clip_reward_v0(env, lower_bound=-1, upper_bound=1) env = delay_observations_v0(env, 2) env = sticky_actions_v0(env, 0.5) env = nan_random_v0(env) env = nan_zeros_v0(env) assert env.unwrapped.__class__ == DummyEnv, f"Failed to unwrap {env}"
first_obs, _, _, _ = env.step(5) assert np.all(np.equal(first_obs, base_obs.reshape([64, 3]))) def new_continuous_dummy(): base_act_spaces = Box(low=np.float32(0.), high=np.float32(10.), shape=[3]) return DummyEnv(base_obs, base_obs_space, base_act_spaces) def new_dummy(): return DummyEnv(base_obs, base_obs_space, base_act_spaces) wrappers = [ supersuit.color_reduction_v0(new_dummy(), "R"), supersuit.resize_v0(dtype_v0(new_dummy(), np.uint8), x_size=5, y_size=10), supersuit.resize_v0(dtype_v0(new_dummy(), np.uint8), x_size=5, y_size=10, linear_interp=True), supersuit.dtype_v0(new_dummy(), np.int32), supersuit.flatten_v0(new_dummy()), supersuit.reshape_v0(new_dummy(), (64, 3)), supersuit.normalize_obs_v0(new_dummy(), env_min=-1, env_max=5.), supersuit.frame_stack_v1(new_dummy(), 8), #supersuit.normalize_reward(new_dummy()), supersuit.reward_lambda_v0(new_dummy(), lambda x: x / 10), supersuit.clip_reward_v0(new_dummy()), supersuit.clip_actions_v0(new_continuous_dummy()), supersuit.frame_skip_v0(new_dummy(), 4), supersuit.frame_skip_v0(new_dummy(), (4, 6)),
first_obs, _, _, _ = env.step(5) assert np.all(np.equal(first_obs, base_obs.reshape([64, 3]))) def new_continuous_dummy(): base_act_spaces = Box(low=np.float32(0.0), high=np.float32(10.0), shape=[3]) return DummyEnv(base_obs, base_obs_space, base_act_spaces) def new_dummy(): return DummyEnv(base_obs, base_obs_space, base_act_spaces) wrappers = [ supersuit.color_reduction_v0(new_dummy(), "R"), supersuit.resize_v0(dtype_v0(new_dummy(), np.uint8), x_size=5, y_size=10), supersuit.resize_v0(dtype_v0(new_dummy(), np.uint8), x_size=5, y_size=10, linear_interp=True), supersuit.dtype_v0(new_dummy(), np.int32), supersuit.flatten_v0(new_dummy()), supersuit.reshape_v0(new_dummy(), (64, 3)), supersuit.normalize_obs_v0(new_dummy(), env_min=-1, env_max=5.0), supersuit.frame_stack_v1(new_dummy(), 8), supersuit.reward_lambda_v0(new_dummy(), lambda x: x / 10), supersuit.clip_reward_v0(new_dummy()), supersuit.clip_actions_v0(new_continuous_dummy()), supersuit.frame_skip_v0(new_dummy(), 4), supersuit.frame_skip_v0(new_dummy(), (4, 6)), supersuit.sticky_actions_v0(new_dummy(), 0.75), supersuit.delay_observations_v0(new_dummy(), 1), ]
wrapped_env = pad_action_space_v0(_env) api_test(wrapped_env) seed_test(lambda: sticky_actions_v0(simple_world_comm_v2.env(), 0.5), 100) def test_pettingzoo_parallel_env(): _env = simple_world_comm_v2.parallel_env() wrapped_env = pad_action_space_v0(_env) parallel_test.parallel_api_test(wrapped_env) wrappers = [ supersuit.color_reduction_v0( knights_archers_zombies_v10.env(vector_state=False), "R"), supersuit.resize_v1( dtype_v0(knights_archers_zombies_v10.env(vector_state=False), np.uint8), x_size=5, y_size=10, ), supersuit.resize_v1( dtype_v0(knights_archers_zombies_v10.env(vector_state=False), np.uint8), x_size=5, y_size=10, linear_interp=True, ), supersuit.dtype_v0(knights_archers_zombies_v10.env(), np.int32), supersuit.flatten_v0(knights_archers_zombies_v10.env()), supersuit.reshape_v0(knights_archers_zombies_v10.env(vector_state=False), (512 * 512, 3)), supersuit.normalize_obs_v0(dtype_v0(knights_archers_zombies_v10.env(),
def env_creator(config): env = pistonball_v6.env() env = dtype_v0(env, dtype=np.float32) env = color_reduction_v0(env, mode="R") env = normalize_obs_v0(env) return env
def env_creator(config): env = pistonball_v4.env(local_ratio=config.get("local_ratio", 0.2)) env = dtype_v0(env, dtype=float32) env = color_reduction_v0(env, mode="R") env = normalize_obs_v0(env) return env
_env = simple_world_comm_v2.env() wrapped_env = pad_action_space_v0(_env) api_test.api_test(wrapped_env) seed_test.seed_test( lambda: sticky_actions_v0(simple_world_comm_v2.env(), 0.5), 100) def test_pettingzoo_parallel_env(): _env = simple_world_comm_v2.parallel_env() wrapped_env = pad_action_space_v0(_env) parallel_test.parallel_play_test(wrapped_env) wrappers = [ supersuit.color_reduction_v0(knights_archers_zombies_v4.env(), "R"), supersuit.resize_v0(dtype_v0(knights_archers_zombies_v4.env(), np.uint8), x_size=5, y_size=10), supersuit.resize_v0(dtype_v0(knights_archers_zombies_v4.env(), np.uint8), x_size=5, y_size=10, linear_interp=True), supersuit.dtype_v0(knights_archers_zombies_v4.env(), np.int32), supersuit.flatten_v0(knights_archers_zombies_v4.env()), supersuit.reshape_v0(knights_archers_zombies_v4.env(), (512 * 512, 3)), supersuit.normalize_obs_v0(dtype_v0(knights_archers_zombies_v4.env(), np.float32), env_min=-1, env_max=5.0), supersuit.frame_stack_v1(knights_archers_zombies_v4.env(), 8), supersuit.pad_observations_v0(knights_archers_zombies_v4.env()),
import numpy as np from pettingzoo.test import api_test, seed_test, parallel_test from pettingzoo.test.example_envs import ( generated_agents_parallel_v0, generated_agents_env_v0, ) import supersuit from supersuit import dtype_v0 import pytest wrappers = [ supersuit.dtype_v0(generated_agents_parallel_v0.env(), np.int32), supersuit.flatten_v0(generated_agents_parallel_v0.env()), supersuit.normalize_obs_v0( dtype_v0(generated_agents_parallel_v0.env(), np.float32), env_min=-1, env_max=5.0, ), supersuit.frame_stack_v1(generated_agents_parallel_v0.env(), 8), supersuit.reward_lambda_v0(generated_agents_parallel_v0.env(), lambda x: x / 10), supersuit.clip_reward_v0(generated_agents_parallel_v0.env()), supersuit.nan_noop_v0(generated_agents_parallel_v0.env(), 0), supersuit.nan_zeros_v0(generated_agents_parallel_v0.env()), supersuit.nan_random_v0(generated_agents_parallel_v0.env()), supersuit.frame_skip_v0(generated_agents_parallel_v0.env(), 4), supersuit.sticky_actions_v0(generated_agents_parallel_v0.env(), 0.75), supersuit.delay_observations_v0(generated_agents_parallel_v0.env(), 3), supersuit.max_observation_v0(generated_agents_parallel_v0.env(), 3), ]
def create_single_env(args): env_name = args.env if args.num_envs > 1: keep_info = True # keep_info True to maintain dict type for parallel envs (otherwise cannot pass VectorEnv wrapper) else: keep_info = False '''https://www.pettingzoo.ml/atari''' if "slimevolley" in env_name or "SlimeVolley" in env_name: print(f'Load SlimeVolley env: {env_name}') env = gym.make(env_name) if env_name in [ 'SlimeVolleySurvivalNoFrameskip-v0', 'SlimeVolleyNoFrameskip-v0', 'SlimeVolleyPixel-v0' ]: # For image-based envs, apply following wrappers (from gym atari) to achieve pettingzoo style env, # or use supersuit (requires input env to be either pettingzoo or gym env). # same as: https://github.com/hardmaru/slimevolleygym/blob/master/training_scripts/train_ppo_pixel.py # TODO Note: this cannot handle the two obervations in above SlimeVolley envs, # since the wrappers are for single agent. if env_name != 'SlimeVolleyPixel-v0': env = NoopResetEnv(env, noop_max=30) env = MaxAndSkipEnv(env, skip=4) env = WarpFrame(env) # #env = ClipRewardEnv(env) env = FrameStack(env, 4) env = SlimeVolleyWrapper( env, args.against_baseline) # slimevolley to pettingzoo style env = NFSPPettingZooWrapper( env, keep_info=keep_info ) # pettingzoo to nfsp style, keep_info True to maintain dict type for parallel envs elif env_name in AtariEnvs: # PettingZoo Atari envs print(f'Load PettingZoo Atari env: {env_name}') if args.ram: obs_type = 'ram' else: obs_type = 'rgb_image' env = eval(env_name).parallel_env(obs_type=obs_type) env_agents = env.unwrapped.agents # this cannot go through supersuit wrapper, so get it first and reassign it if obs_type == 'rgb_image': # as per openai baseline's MaxAndSKip wrapper, maxes over the last 2 frames # to deal with frame flickering env = supersuit.max_observation_v0(env, 2) # repeat_action_probability is set to 0.25 to introduce non-determinism to the system env = supersuit.sticky_actions_v0(env, repeat_action_probability=0.25) # skip frames for faster processing and less control # to be compatable with gym, use frame_skip(env, (2,5)) env = supersuit.frame_skip_v0(env, 4) # downscale observation for faster processing env = supersuit.resize_v0(env, 84, 84) # allow agent to see everything on the screen despite Atari's flickering screen problem env = supersuit.frame_stack_v1(env, 4) else: env = supersuit.frame_skip_v0( env, 4 ) # RAM version also need frame skip, essential for boxing-v1, etc # env = PettingZooWrapper(env) # need to be put at the end # normalize the observation of Atari for both image or RAM env = supersuit.dtype_v0( env, 'float32' ) # need to transform uint8 to float first for normalizing observation: https://github.com/PettingZoo-Team/SuperSuit env = supersuit.normalize_obs_v0( env, env_min=0, env_max=1) # normalize the observation to (0,1) # assign observation and action spaces env.observation_space = list(env.observation_spaces.values())[0] env.action_space = list(env.action_spaces.values())[0] env.agents = env_agents env = NFSPPettingZooWrapper( env, keep_info=keep_info ) # pettingzoo to nfsp style, keep_info True to maintain dict type for parallel envs) elif env_name in ClassicEnvs: # PettingZoo Classic envs print(f'Load PettingZoo Classic env: {env_name}') if env_name in ['rps_v1', 'rpsls_v1']: env = eval(env_name).parallel_env() env = PettingzooClassicWrapper(env, observation_mask=1.) else: # only rps_v1 can use parallel_env at present env = eval(env_name).env() env = PettingzooClassic_Iterate2Parallel( env, observation_mask=None ) # since Classic games do not support Parallel API yet env = NFSPPettingZooWrapper(env, keep_info=keep_info) elif "LaserTag" in env_name: # LaserTag: https://github.com/younggyoseo/pytorch-nfsp print(f'Load LaserTag env: {env_name}') env = gym.make(env_name) env = wrap_pytorch(env) else: # gym env print(f'Load Gym env: {env_name}') try: env = gym.make(env_name) except: print(f"Error: No such env: {env_name}!") # may need more wrappers here, e.g. Pong-ram-v0 need scaled observation! # Ref: https://towardsdatascience.com/deep-q-network-dqn-i-bce08bdf2af env = NFSPAtariWrapper(env, keep_info=keep_info) env.seed(args.seed) return env
def env_creator(config): env = zoo_yaniv.env(config=config) env = dtype_v0(env, dtype=float32) env = color_reduction_v0(env, mode="R") env = normalize_obs_v0(env) return env