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import argparse |
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import os |
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import random |
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import time |
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from distutils.util import strtobool |
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import gym |
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import numpy as np |
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import torch |
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import torch.nn as nn |
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import torch.optim as optim |
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from stable_baselines3.common.buffers import ReplayBuffer |
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from torch.utils.tensorboard import SummaryWriter |
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def parse_args(): |
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parser = argparse.ArgumentParser() |
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parser.add_argument("--exp-name", type=str, default=os.path.basename(__file__).rstrip(".py"), |
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help="the name of this experiment") |
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parser.add_argument("--seed", type=int, default=1, |
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help="seed of the experiment") |
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parser.add_argument("--torch-deterministic", type=lambda x: bool(strtobool(x)), default=True, nargs="?", const=True, |
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help="if toggled, `torch.backends.cudnn.deterministic=False`") |
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parser.add_argument("--cuda", type=lambda x: bool(strtobool(x)), default=True, nargs="?", const=True, |
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help="if toggled, cuda will be enabled by default") |
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parser.add_argument("--track", type=lambda x: bool(strtobool(x)), default=False, nargs="?", const=True, |
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help="if toggled, this experiment will be tracked with Weights and Biases") |
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parser.add_argument("--wandb-project-name", type=str, default="cleanRL", |
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help="the wandb's project name") |
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parser.add_argument("--wandb-entity", type=str, default=None, |
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help="the entity (team) of wandb's project") |
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parser.add_argument("--capture-video", type=lambda x: bool(strtobool(x)), default=False, nargs="?", const=True, |
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help="whether to capture videos of the agent performances (check out `videos` folder)") |
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parser.add_argument("--save-model", type=lambda x: bool(strtobool(x)), default=False, nargs="?", const=True, |
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help="whether to save model into the `runs/{run_name}` folder") |
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parser.add_argument("--upload-model", type=lambda x: bool(strtobool(x)), default=False, nargs="?", const=True, |
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help="whether to upload the saved model to huggingface") |
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parser.add_argument("--hf-entity", type=str, default="", |
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help="the user or org name of the model repository from the Hugging Face Hub") |
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parser.add_argument("--env-id", type=str, default="CartPole-v1", |
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help="the id of the environment") |
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parser.add_argument("--total-timesteps", type=int, default=500000, |
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help="total timesteps of the experiments") |
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parser.add_argument("--learning-rate", type=float, default=2.5e-4, |
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help="the learning rate of the optimizer") |
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parser.add_argument("--n-atoms", type=int, default=101, |
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help="the number of atoms") |
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parser.add_argument("--v-min", type=float, default=-100, |
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help="the number of atoms") |
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parser.add_argument("--v-max", type=float, default=100, |
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help="the number of atoms") |
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parser.add_argument("--buffer-size", type=int, default=10000, |
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help="the replay memory buffer size") |
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parser.add_argument("--gamma", type=float, default=0.99, |
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help="the discount factor gamma") |
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parser.add_argument("--target-network-frequency", type=int, default=500, |
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help="the timesteps it takes to update the target network") |
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parser.add_argument("--batch-size", type=int, default=128, |
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help="the batch size of sample from the reply memory") |
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parser.add_argument("--start-e", type=float, default=1, |
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help="the starting epsilon for exploration") |
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parser.add_argument("--end-e", type=float, default=0.05, |
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help="the ending epsilon for exploration") |
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parser.add_argument("--exploration-fraction", type=float, default=0.5, |
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help="the fraction of `total-timesteps` it takes from start-e to go end-e") |
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parser.add_argument("--learning-starts", type=int, default=10000, |
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help="timestep to start learning") |
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parser.add_argument("--train-frequency", type=int, default=10, |
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help="the frequency of training") |
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args = parser.parse_args() |
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return args |
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def make_env(env_id, seed, idx, capture_video, run_name): |
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def thunk(): |
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env = gym.make(env_id) |
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env = gym.wrappers.RecordEpisodeStatistics(env) |
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if capture_video: |
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if idx == 0: |
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env = gym.wrappers.RecordVideo(env, f"videos/{run_name}") |
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env.seed(seed) |
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env.action_space.seed(seed) |
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env.observation_space.seed(seed) |
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return env |
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return thunk |
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class QNetwork(nn.Module): |
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def __init__(self, env, n_atoms=101, v_min=-100, v_max=100): |
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super().__init__() |
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self.env = env |
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self.n_atoms = n_atoms |
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self.register_buffer("atoms", torch.linspace(v_min, v_max, steps=n_atoms)) |
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self.n = env.single_action_space.n |
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self.network = nn.Sequential( |
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nn.Linear(np.array(env.single_observation_space.shape).prod(), 120), |
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nn.ReLU(), |
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nn.Linear(120, 84), |
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nn.ReLU(), |
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nn.Linear(84, self.n * n_atoms), |
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) |
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def get_action(self, x, action=None): |
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logits = self.network(x) |
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pmfs = torch.softmax(logits.view(len(x), self.n, self.n_atoms), dim=2) |
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q_values = (pmfs * self.atoms).sum(2) |
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if action is None: |
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action = torch.argmax(q_values, 1) |
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return action, pmfs[torch.arange(len(x)), action] |
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def linear_schedule(start_e: float, end_e: float, duration: int, t: int): |
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slope = (end_e - start_e) / duration |
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return max(slope * t + start_e, end_e) |
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if __name__ == "__main__": |
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args = parse_args() |
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run_name = f"{args.env_id}__{args.exp_name}__{args.seed}__{int(time.time())}" |
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if args.track: |
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import wandb |
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wandb.init( |
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project=args.wandb_project_name, |
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entity=args.wandb_entity, |
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sync_tensorboard=True, |
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config=vars(args), |
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name=run_name, |
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monitor_gym=True, |
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save_code=True, |
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) |
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writer = SummaryWriter(f"runs/{run_name}") |
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writer.add_text( |
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"hyperparameters", |
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"|param|value|\n|-|-|\n%s" % ("\n".join([f"|{key}|{value}|" for key, value in vars(args).items()])), |
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) |
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random.seed(args.seed) |
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np.random.seed(args.seed) |
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torch.manual_seed(args.seed) |
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torch.backends.cudnn.deterministic = args.torch_deterministic |
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device = torch.device("cuda" if torch.cuda.is_available() and args.cuda else "cpu") |
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envs = gym.vector.SyncVectorEnv([make_env(args.env_id, args.seed, 0, args.capture_video, run_name)]) |
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assert isinstance(envs.single_action_space, gym.spaces.Discrete), "only discrete action space is supported" |
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q_network = QNetwork(envs, n_atoms=args.n_atoms, v_min=args.v_min, v_max=args.v_max).to(device) |
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optimizer = optim.Adam(q_network.parameters(), lr=args.learning_rate, eps=0.01 / args.batch_size) |
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target_network = QNetwork(envs, n_atoms=args.n_atoms, v_min=args.v_min, v_max=args.v_max).to(device) |
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target_network.load_state_dict(q_network.state_dict()) |
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rb = ReplayBuffer( |
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args.buffer_size, |
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envs.single_observation_space, |
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envs.single_action_space, |
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device, |
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handle_timeout_termination=True, |
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) |
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start_time = time.time() |
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obs = envs.reset() |
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for global_step in range(args.total_timesteps): |
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epsilon = linear_schedule(args.start_e, args.end_e, args.exploration_fraction * args.total_timesteps, global_step) |
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if random.random() < epsilon: |
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actions = np.array([envs.single_action_space.sample() for _ in range(envs.num_envs)]) |
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else: |
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actions, pmf = q_network.get_action(torch.Tensor(obs).to(device)) |
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actions = actions.cpu().numpy() |
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next_obs, rewards, dones, infos = envs.step(actions) |
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for info in infos: |
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if "episode" in info.keys(): |
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print(f"global_step={global_step}, episodic_return={info['episode']['r']}") |
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writer.add_scalar("charts/episodic_return", info["episode"]["r"], global_step) |
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writer.add_scalar("charts/episodic_length", info["episode"]["l"], global_step) |
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writer.add_scalar("charts/epsilon", epsilon, global_step) |
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break |
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real_next_obs = next_obs.copy() |
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for idx, d in enumerate(dones): |
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if d: |
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real_next_obs[idx] = infos[idx]["terminal_observation"] |
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rb.add(obs, real_next_obs, actions, rewards, dones, infos) |
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obs = next_obs |
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if global_step > args.learning_starts: |
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if global_step % args.train_frequency == 0: |
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data = rb.sample(args.batch_size) |
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with torch.no_grad(): |
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_, next_pmfs = target_network.get_action(data.next_observations) |
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next_atoms = data.rewards + args.gamma * target_network.atoms * (1 - data.dones) |
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delta_z = target_network.atoms[1] - target_network.atoms[0] |
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tz = next_atoms.clamp(args.v_min, args.v_max) |
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b = (tz - args.v_min) / delta_z |
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l = b.floor().clamp(0, args.n_atoms - 1) |
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u = b.ceil().clamp(0, args.n_atoms - 1) |
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d_m_l = (u + (l == u).float() - b) * next_pmfs |
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d_m_u = (b - l) * next_pmfs |
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target_pmfs = torch.zeros_like(next_pmfs) |
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for i in range(target_pmfs.size(0)): |
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target_pmfs[i].index_add_(0, l[i].long(), d_m_l[i]) |
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target_pmfs[i].index_add_(0, u[i].long(), d_m_u[i]) |
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_, old_pmfs = q_network.get_action(data.observations, data.actions.flatten()) |
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loss = (-(target_pmfs * old_pmfs.clamp(min=1e-5, max=1 - 1e-5).log()).sum(-1)).mean() |
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if global_step % 100 == 0: |
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writer.add_scalar("losses/loss", loss.item(), global_step) |
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old_val = (old_pmfs * q_network.atoms).sum(1) |
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writer.add_scalar("losses/q_values", old_val.mean().item(), global_step) |
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print("SPS:", int(global_step / (time.time() - start_time))) |
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writer.add_scalar("charts/SPS", int(global_step / (time.time() - start_time)), global_step) |
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optimizer.zero_grad() |
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loss.backward() |
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optimizer.step() |
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if global_step % args.target_network_frequency == 0: |
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target_network.load_state_dict(q_network.state_dict()) |
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if args.save_model: |
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model_path = f"runs/{run_name}/{args.exp_name}.cleanrl_model" |
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model_data = { |
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"model_weights":q_network.state_dict(), |
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"args":vars(args), |
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} |
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torch.save(model_data, model_path) |
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print(f"model saved to {model_path}") |
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from cleanrl_utils.evals.c51_eval import evaluate |
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episodic_returns = evaluate( |
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model_path, |
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make_env, |
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args.env_id, |
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eval_episodes=10, |
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run_name=f"{run_name}-eval", |
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Model=QNetwork, |
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device=device, |
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epsilon=0.05, |
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) |
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for idx, episodic_return in enumerate(episodic_returns): |
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writer.add_scalar("eval/episodic_return", episodic_return, idx) |
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if args.upload_model: |
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from cleanrl_utils.huggingface import push_to_hub |
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repo_name = f"{args.env_id}-{args.exp_name}-seed{args.seed}" |
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repo_id = f"{args.hf_entity}/{repo_name}" if args.hf_entity else repo_name |
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push_to_hub(args, episodic_returns, repo_id, "C51", f"runs/{run_name}", f"videos/{run_name}-eval") |
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envs.close() |
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writer.close() |
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