Tianshou/examples/atari/atari_network.py

from typing import Any, Dict, Optional, Sequence, Tuple, Union

import numpy as np
import torch
from torch import nn

from tianshou.utils.net.discrete import NoisyLinear


class DQN(nn.Module):
    """Reference: Human-level control through deep reinforcement learning.

    For advanced usage (how to customize the network), please refer to
    :ref:`build_the_network`.
    """

    def __init__(
        self,
        c: int,
        h: int,
        w: int,
        action_shape: Sequence[int],
        device: Union[str, int, torch.device] = "cpu",
        features_only: bool = False,
        output_dim: Optional[int] = None,
    ) -> None:
        super().__init__()
        self.device = device
        self.net = nn.Sequential(
            nn.Conv2d(c, 32, kernel_size=8, stride=4), nn.ReLU(inplace=True),
            nn.Conv2d(32, 64, kernel_size=4, stride=2), nn.ReLU(inplace=True),
            nn.Conv2d(64, 64, kernel_size=3, stride=1), nn.ReLU(inplace=True),
            nn.Flatten()
        )
        with torch.no_grad():
            self.output_dim = np.prod(self.net(torch.zeros(1, c, h, w)).shape[1:])
        if not features_only:
            self.net = nn.Sequential(
                self.net, nn.Linear(self.output_dim, 512), nn.ReLU(inplace=True),
                nn.Linear(512, np.prod(action_shape))
            )
            self.output_dim = np.prod(action_shape)
        elif output_dim is not None:
            self.net = nn.Sequential(
                self.net, nn.Linear(self.output_dim, output_dim),
                nn.ReLU(inplace=True)
            )
            self.output_dim = output_dim

    def forward(
        self,
        obs: Union[np.ndarray, torch.Tensor],
        state: Optional[Any] = None,
        info: Dict[str, Any] = {},
    ) -> Tuple[torch.Tensor, Any]:
        r"""Mapping: s -> Q(s, \*)."""
        obs = torch.as_tensor(obs, device=self.device, dtype=torch.float32)
        return self.net(obs), state


class C51(DQN):
    """Reference: A distributional perspective on reinforcement learning.

    For advanced usage (how to customize the network), please refer to
    :ref:`build_the_network`.
    """

    def __init__(
        self,
        c: int,
        h: int,
        w: int,
        action_shape: Sequence[int],
        num_atoms: int = 51,
        device: Union[str, int, torch.device] = "cpu",
    ) -> None:
        self.action_num = np.prod(action_shape)
        super().__init__(c, h, w, [self.action_num * num_atoms], device)
        self.num_atoms = num_atoms

    def forward(
        self,
        obs: Union[np.ndarray, torch.Tensor],
        state: Optional[Any] = None,
        info: Dict[str, Any] = {},
    ) -> Tuple[torch.Tensor, Any]:
        r"""Mapping: x -> Z(x, \*)."""
        obs, state = super().forward(obs)
        obs = obs.view(-1, self.num_atoms).softmax(dim=-1)
        obs = obs.view(-1, self.action_num, self.num_atoms)
        return obs, state


class Rainbow(DQN):
    """Reference: Rainbow: Combining Improvements in Deep Reinforcement Learning.

    For advanced usage (how to customize the network), please refer to
    :ref:`build_the_network`.
    """

    def __init__(
        self,
        c: int,
        h: int,
        w: int,
        action_shape: Sequence[int],
        num_atoms: int = 51,
        noisy_std: float = 0.5,
        device: Union[str, int, torch.device] = "cpu",
        is_dueling: bool = True,
        is_noisy: bool = True,
    ) -> None:
        super().__init__(c, h, w, action_shape, device, features_only=True)
        self.action_num = np.prod(action_shape)
        self.num_atoms = num_atoms

        def linear(x, y):
            if is_noisy:
                return NoisyLinear(x, y, noisy_std)
            else:
                return nn.Linear(x, y)

        self.Q = nn.Sequential(
            linear(self.output_dim, 512), nn.ReLU(inplace=True),
            linear(512, self.action_num * self.num_atoms)
        )
        self._is_dueling = is_dueling
        if self._is_dueling:
            self.V = nn.Sequential(
                linear(self.output_dim, 512), nn.ReLU(inplace=True),
                linear(512, self.num_atoms)
            )
        self.output_dim = self.action_num * self.num_atoms

    def forward(
        self,
        obs: Union[np.ndarray, torch.Tensor],
        state: Optional[Any] = None,
        info: Dict[str, Any] = {},
    ) -> Tuple[torch.Tensor, Any]:
        r"""Mapping: x -> Z(x, \*)."""
        obs, state = super().forward(obs)
        q = self.Q(obs)
        q = q.view(-1, self.action_num, self.num_atoms)
        if self._is_dueling:
            v = self.V(obs)
            v = v.view(-1, 1, self.num_atoms)
            logits = q - q.mean(dim=1, keepdim=True) + v
        else:
            logits = q
        probs = logits.softmax(dim=2)
        return probs, state


class QRDQN(DQN):
    """Reference: Distributional Reinforcement Learning with Quantile \
    Regression.

    For advanced usage (how to customize the network), please refer to
    :ref:`build_the_network`.
    """

    def __init__(
        self,
        c: int,
        h: int,
        w: int,
        action_shape: Sequence[int],
        num_quantiles: int = 200,
        device: Union[str, int, torch.device] = "cpu",
    ) -> None:
        self.action_num = np.prod(action_shape)
        super().__init__(c, h, w, [self.action_num * num_quantiles], device)
        self.num_quantiles = num_quantiles

    def forward(
        self,
        obs: Union[np.ndarray, torch.Tensor],
        state: Optional[Any] = None,
        info: Dict[str, Any] = {},
    ) -> Tuple[torch.Tensor, Any]:
        r"""Mapping: x -> Z(x, \*)."""
        obs, state = super().forward(obs)
        obs = obs.view(-1, self.action_num, self.num_quantiles)
        return obs, state
bump to v0.4.3 (#432) * add makefile * bump version * add isort and yapf * update contributing.md * update PR template * spelling check 2021-09-03 05:05:04 +08:00			`from typing import Any, Dict, Optional, Sequence, Tuple, Union`

update utils.network (#275) This is the first commit of 6 commits mentioned in #274, which features 1. Refactor of `Class Net` to support any form of MLP. 2. Enable type check in utils.network. 3. Relative change in docs/test/examples. 4. Move atari-related network to examples/atari/atari_network.py Co-authored-by: Trinkle23897 <trinkle23897@gmail.com> 2021-01-20 16:54:13 +08:00			`import numpy as np`
bump to v0.4.3 (#432) * add makefile * bump version * add isort and yapf * update contributing.md * update PR template * spelling check 2021-09-03 05:05:04 +08:00			`import torch`
update utils.network (#275) This is the first commit of 6 commits mentioned in #274, which features 1. Refactor of `Class Net` to support any form of MLP. 2. Enable type check in utils.network. 3. Relative change in docs/test/examples. 4. Move atari-related network to examples/atari/atari_network.py Co-authored-by: Trinkle23897 <trinkle23897@gmail.com> 2021-01-20 16:54:13 +08:00			`from torch import nn`
bump to v0.4.3 (#432) * add makefile * bump version * add isort and yapf * update contributing.md * update PR template * spelling check 2021-09-03 05:05:04 +08:00
Add Rainbow DQN (#386) - add RainbowPolicy - add `set_beta` method in prio_buffer - add NoisyLinear in utils/network 2021-08-29 08:34:59 -07:00			`from tianshou.utils.net.discrete import NoisyLinear`
update utils.network (#275) This is the first commit of 6 commits mentioned in #274, which features 1. Refactor of `Class Net` to support any form of MLP. 2. Enable type check in utils.network. 3. Relative change in docs/test/examples. 4. Move atari-related network to examples/atari/atari_network.py Co-authored-by: Trinkle23897 <trinkle23897@gmail.com> 2021-01-20 16:54:13 +08:00

			`class DQN(nn.Module):`
			`"""Reference: Human-level control through deep reinforcement learning.`

			`For advanced usage (how to customize the network), please refer to`
			:ref:`build_the_network`.
			`"""`

			`def __init__(`
			`self,`
			`c: int,`
			`h: int,`
			`w: int,`
			`action_shape: Sequence[int],`
			`device: Union[str, int, torch.device] = "cpu",`
			`features_only: bool = False,`
Add atari ppo example (#523) I needed a policy gradient baseline myself and it has been requested several times (#497, #374, #440). I used https://github.com/vwxyzjn/cleanrl/blob/master/cleanrl/ppo_atari.py as a reference for hyper-parameters. Note that using lr=2.5e-4 will result in "Invalid Value" error for 2 games. The fix is to reduce the learning rate. That's why I set the default lr to 1e-4. See discussion in https://github.com/DLR-RM/rl-baselines3-zoo/issues/156. 2022-02-10 14:45:06 -08:00			`output_dim: Optional[int] = None,`
update utils.network (#275) This is the first commit of 6 commits mentioned in #274, which features 1. Refactor of `Class Net` to support any form of MLP. 2. Enable type check in utils.network. 3. Relative change in docs/test/examples. 4. Move atari-related network to examples/atari/atari_network.py Co-authored-by: Trinkle23897 <trinkle23897@gmail.com> 2021-01-20 16:54:13 +08:00			`) -> None:`
			`super().__init__()`
			`self.device = device`
			`self.net = nn.Sequential(`
			`nn.Conv2d(c, 32, kernel_size=8, stride=4), nn.ReLU(inplace=True),`
			`nn.Conv2d(32, 64, kernel_size=4, stride=2), nn.ReLU(inplace=True),`
			`nn.Conv2d(64, 64, kernel_size=3, stride=1), nn.ReLU(inplace=True),`
bump to v0.4.3 (#432) * add makefile * bump version * add isort and yapf * update contributing.md * update PR template * spelling check 2021-09-03 05:05:04 +08:00			`nn.Flatten()`
			`)`
update utils.network (#275) This is the first commit of 6 commits mentioned in #274, which features 1. Refactor of `Class Net` to support any form of MLP. 2. Enable type check in utils.network. 3. Relative change in docs/test/examples. 4. Move atari-related network to examples/atari/atari_network.py Co-authored-by: Trinkle23897 <trinkle23897@gmail.com> 2021-01-20 16:54:13 +08:00			`with torch.no_grad():`
bump to v0.4.3 (#432) * add makefile * bump version * add isort and yapf * update contributing.md * update PR template * spelling check 2021-09-03 05:05:04 +08:00			`self.output_dim = np.prod(self.net(torch.zeros(1, c, h, w)).shape[1:])`
update utils.network (#275) This is the first commit of 6 commits mentioned in #274, which features 1. Refactor of `Class Net` to support any form of MLP. 2. Enable type check in utils.network. 3. Relative change in docs/test/examples. 4. Move atari-related network to examples/atari/atari_network.py Co-authored-by: Trinkle23897 <trinkle23897@gmail.com> 2021-01-20 16:54:13 +08:00			`if not features_only:`
			`self.net = nn.Sequential(`
bump to v0.4.3 (#432) * add makefile * bump version * add isort and yapf * update contributing.md * update PR template * spelling check 2021-09-03 05:05:04 +08:00			`self.net, nn.Linear(self.output_dim, 512), nn.ReLU(inplace=True),`
			`nn.Linear(512, np.prod(action_shape))`
			`)`
update utils.network (#275) This is the first commit of 6 commits mentioned in #274, which features 1. Refactor of `Class Net` to support any form of MLP. 2. Enable type check in utils.network. 3. Relative change in docs/test/examples. 4. Move atari-related network to examples/atari/atari_network.py Co-authored-by: Trinkle23897 <trinkle23897@gmail.com> 2021-01-20 16:54:13 +08:00			`self.output_dim = np.prod(action_shape)`
Add atari ppo example (#523) I needed a policy gradient baseline myself and it has been requested several times (#497, #374, #440). I used https://github.com/vwxyzjn/cleanrl/blob/master/cleanrl/ppo_atari.py as a reference for hyper-parameters. Note that using lr=2.5e-4 will result in "Invalid Value" error for 2 games. The fix is to reduce the learning rate. That's why I set the default lr to 1e-4. See discussion in https://github.com/DLR-RM/rl-baselines3-zoo/issues/156. 2022-02-10 14:45:06 -08:00			`elif output_dim is not None:`
			`self.net = nn.Sequential(`
			`self.net, nn.Linear(self.output_dim, output_dim),`
			`nn.ReLU(inplace=True)`
			`)`
			`self.output_dim = output_dim`
update utils.network (#275) This is the first commit of 6 commits mentioned in #274, which features 1. Refactor of `Class Net` to support any form of MLP. 2. Enable type check in utils.network. 3. Relative change in docs/test/examples. 4. Move atari-related network to examples/atari/atari_network.py Co-authored-by: Trinkle23897 <trinkle23897@gmail.com> 2021-01-20 16:54:13 +08:00
			`def forward(`
			`self,`
Formalize variable names (#509) Co-authored-by: Jiayi Weng <trinkle23897@gmail.com> 2022-01-30 00:53:56 +08:00			`obs: Union[np.ndarray, torch.Tensor],`
update utils.network (#275) This is the first commit of 6 commits mentioned in #274, which features 1. Refactor of `Class Net` to support any form of MLP. 2. Enable type check in utils.network. 3. Relative change in docs/test/examples. 4. Move atari-related network to examples/atari/atari_network.py Co-authored-by: Trinkle23897 <trinkle23897@gmail.com> 2021-01-20 16:54:13 +08:00			`state: Optional[Any] = None,`
			`info: Dict[str, Any] = {},`
			`) -> Tuple[torch.Tensor, Any]:`
Formalize variable names (#509) Co-authored-by: Jiayi Weng <trinkle23897@gmail.com> 2022-01-30 00:53:56 +08:00			`r"""Mapping: s -> Q(s, \*)."""`
			`obs = torch.as_tensor(obs, device=self.device, dtype=torch.float32)`
			`return self.net(obs), state`
update utils.network (#275) This is the first commit of 6 commits mentioned in #274, which features 1. Refactor of `Class Net` to support any form of MLP. 2. Enable type check in utils.network. 3. Relative change in docs/test/examples. 4. Move atari-related network to examples/atari/atari_network.py Co-authored-by: Trinkle23897 <trinkle23897@gmail.com> 2021-01-20 16:54:13 +08:00

			`class C51(DQN):`
			`"""Reference: A distributional perspective on reinforcement learning.`

			`For advanced usage (how to customize the network), please refer to`
			:ref:`build_the_network`.
			`"""`

			`def __init__(`
			`self,`
			`c: int,`
			`h: int,`
			`w: int,`
			`action_shape: Sequence[int],`
			`num_atoms: int = 51,`
			`device: Union[str, int, torch.device] = "cpu",`
			`) -> None:`
Add QR-DQN algorithm (#276) This is the PR for QR-DQN algorithm: https://arxiv.org/abs/1710.10044 1. add QR-DQN policy in tianshou/policy/modelfree/qrdqn.py. 2. add QR-DQN net in examples/atari/atari_network.py. 3. add QR-DQN atari example in examples/atari/atari_qrdqn.py. 4. add QR-DQN statement in tianshou/policy/init.py. 5. add QR-DQN unit test in test/discrete/test_qrdqn.py. 6. add QR-DQN atari results in examples/atari/results/qrdqn/. 7. add compute_q_value in DQNPolicy and C51Policy for simplify forward function. 8. move `with torch.no_grad():` from `_target_q` to BasePolicy By running "python3 atari_qrdqn.py --task "PongNoFrameskip-v4" --batch-size 64", get best_result': '19.8 ± 0.40', in epoch 8. 2021-01-28 09:27:05 +08:00			`self.action_num = np.prod(action_shape)`
			`super().__init__(c, h, w, [self.action_num * num_atoms], device)`
update utils.network (#275) This is the first commit of 6 commits mentioned in #274, which features 1. Refactor of `Class Net` to support any form of MLP. 2. Enable type check in utils.network. 3. Relative change in docs/test/examples. 4. Move atari-related network to examples/atari/atari_network.py Co-authored-by: Trinkle23897 <trinkle23897@gmail.com> 2021-01-20 16:54:13 +08:00			`self.num_atoms = num_atoms`

			`def forward(`
			`self,`
Formalize variable names (#509) Co-authored-by: Jiayi Weng <trinkle23897@gmail.com> 2022-01-30 00:53:56 +08:00			`obs: Union[np.ndarray, torch.Tensor],`
update utils.network (#275) This is the first commit of 6 commits mentioned in #274, which features 1. Refactor of `Class Net` to support any form of MLP. 2. Enable type check in utils.network. 3. Relative change in docs/test/examples. 4. Move atari-related network to examples/atari/atari_network.py Co-authored-by: Trinkle23897 <trinkle23897@gmail.com> 2021-01-20 16:54:13 +08:00			`state: Optional[Any] = None,`
			`info: Dict[str, Any] = {},`
			`) -> Tuple[torch.Tensor, Any]:`
			`r"""Mapping: x -> Z(x, \*)."""`
Formalize variable names (#509) Co-authored-by: Jiayi Weng <trinkle23897@gmail.com> 2022-01-30 00:53:56 +08:00			`obs, state = super().forward(obs)`
			`obs = obs.view(-1, self.num_atoms).softmax(dim=-1)`
			`obs = obs.view(-1, self.action_num, self.num_atoms)`
			`return obs, state`
Add QR-DQN algorithm (#276) This is the PR for QR-DQN algorithm: https://arxiv.org/abs/1710.10044 1. add QR-DQN policy in tianshou/policy/modelfree/qrdqn.py. 2. add QR-DQN net in examples/atari/atari_network.py. 3. add QR-DQN atari example in examples/atari/atari_qrdqn.py. 4. add QR-DQN statement in tianshou/policy/init.py. 5. add QR-DQN unit test in test/discrete/test_qrdqn.py. 6. add QR-DQN atari results in examples/atari/results/qrdqn/. 7. add compute_q_value in DQNPolicy and C51Policy for simplify forward function. 8. move `with torch.no_grad():` from `_target_q` to BasePolicy By running "python3 atari_qrdqn.py --task "PongNoFrameskip-v4" --batch-size 64", get best_result': '19.8 ± 0.40', in epoch 8. 2021-01-28 09:27:05 +08:00

Add Rainbow DQN (#386) - add RainbowPolicy - add `set_beta` method in prio_buffer - add NoisyLinear in utils/network 2021-08-29 08:34:59 -07:00			`class Rainbow(DQN):`
			`"""Reference: Rainbow: Combining Improvements in Deep Reinforcement Learning.`

			`For advanced usage (how to customize the network), please refer to`
			:ref:`build_the_network`.
			`"""`

			`def __init__(`
			`self,`
			`c: int,`
			`h: int,`
			`w: int,`
			`action_shape: Sequence[int],`
			`num_atoms: int = 51,`
			`noisy_std: float = 0.5,`
			`device: Union[str, int, torch.device] = "cpu",`
			`is_dueling: bool = True,`
			`is_noisy: bool = True,`
			`) -> None:`
			`super().__init__(c, h, w, action_shape, device, features_only=True)`
			`self.action_num = np.prod(action_shape)`
			`self.num_atoms = num_atoms`

			`def linear(x, y):`
			`if is_noisy:`
			`return NoisyLinear(x, y, noisy_std)`
			`else:`
			`return nn.Linear(x, y)`

			`self.Q = nn.Sequential(`
			`linear(self.output_dim, 512), nn.ReLU(inplace=True),`
bump to v0.4.3 (#432) * add makefile * bump version * add isort and yapf * update contributing.md * update PR template * spelling check 2021-09-03 05:05:04 +08:00			`linear(512, self.action_num * self.num_atoms)`
			`)`
Add Rainbow DQN (#386) - add RainbowPolicy - add `set_beta` method in prio_buffer - add NoisyLinear in utils/network 2021-08-29 08:34:59 -07:00			`self._is_dueling = is_dueling`
			`if self._is_dueling:`
			`self.V = nn.Sequential(`
			`linear(self.output_dim, 512), nn.ReLU(inplace=True),`
bump to v0.4.3 (#432) * add makefile * bump version * add isort and yapf * update contributing.md * update PR template * spelling check 2021-09-03 05:05:04 +08:00			`linear(512, self.num_atoms)`
			`)`
Add Rainbow DQN (#386) - add RainbowPolicy - add `set_beta` method in prio_buffer - add NoisyLinear in utils/network 2021-08-29 08:34:59 -07:00			`self.output_dim = self.action_num * self.num_atoms`

			`def forward(`
			`self,`
Formalize variable names (#509) Co-authored-by: Jiayi Weng <trinkle23897@gmail.com> 2022-01-30 00:53:56 +08:00			`obs: Union[np.ndarray, torch.Tensor],`
Add Rainbow DQN (#386) - add RainbowPolicy - add `set_beta` method in prio_buffer - add NoisyLinear in utils/network 2021-08-29 08:34:59 -07:00			`state: Optional[Any] = None,`
			`info: Dict[str, Any] = {},`
			`) -> Tuple[torch.Tensor, Any]:`
			`r"""Mapping: x -> Z(x, \*)."""`
Formalize variable names (#509) Co-authored-by: Jiayi Weng <trinkle23897@gmail.com> 2022-01-30 00:53:56 +08:00			`obs, state = super().forward(obs)`
			`q = self.Q(obs)`
Add Rainbow DQN (#386) - add RainbowPolicy - add `set_beta` method in prio_buffer - add NoisyLinear in utils/network 2021-08-29 08:34:59 -07:00			`q = q.view(-1, self.action_num, self.num_atoms)`
			`if self._is_dueling:`
Formalize variable names (#509) Co-authored-by: Jiayi Weng <trinkle23897@gmail.com> 2022-01-30 00:53:56 +08:00			`v = self.V(obs)`
Add Rainbow DQN (#386) - add RainbowPolicy - add `set_beta` method in prio_buffer - add NoisyLinear in utils/network 2021-08-29 08:34:59 -07:00			`v = v.view(-1, 1, self.num_atoms)`
			`logits = q - q.mean(dim=1, keepdim=True) + v`
			`else:`
			`logits = q`
Formalize variable names (#509) Co-authored-by: Jiayi Weng <trinkle23897@gmail.com> 2022-01-30 00:53:56 +08:00			`probs = logits.softmax(dim=2)`
			`return probs, state`
Add Rainbow DQN (#386) - add RainbowPolicy - add `set_beta` method in prio_buffer - add NoisyLinear in utils/network 2021-08-29 08:34:59 -07:00

Add QR-DQN algorithm (#276) This is the PR for QR-DQN algorithm: https://arxiv.org/abs/1710.10044 1. add QR-DQN policy in tianshou/policy/modelfree/qrdqn.py. 2. add QR-DQN net in examples/atari/atari_network.py. 3. add QR-DQN atari example in examples/atari/atari_qrdqn.py. 4. add QR-DQN statement in tianshou/policy/init.py. 5. add QR-DQN unit test in test/discrete/test_qrdqn.py. 6. add QR-DQN atari results in examples/atari/results/qrdqn/. 7. add compute_q_value in DQNPolicy and C51Policy for simplify forward function. 8. move `with torch.no_grad():` from `_target_q` to BasePolicy By running "python3 atari_qrdqn.py --task "PongNoFrameskip-v4" --batch-size 64", get best_result': '19.8 ± 0.40', in epoch 8. 2021-01-28 09:27:05 +08:00			`class QRDQN(DQN):`
			`"""Reference: Distributional Reinforcement Learning with Quantile \`
			`Regression.`

			`For advanced usage (how to customize the network), please refer to`
			:ref:`build_the_network`.
			`"""`

			`def __init__(`
			`self,`
			`c: int,`
			`h: int,`
			`w: int,`
			`action_shape: Sequence[int],`
			`num_quantiles: int = 200,`
			`device: Union[str, int, torch.device] = "cpu",`
			`) -> None:`
			`self.action_num = np.prod(action_shape)`
			`super().__init__(c, h, w, [self.action_num * num_quantiles], device)`
			`self.num_quantiles = num_quantiles`

			`def forward(`
			`self,`
Formalize variable names (#509) Co-authored-by: Jiayi Weng <trinkle23897@gmail.com> 2022-01-30 00:53:56 +08:00			`obs: Union[np.ndarray, torch.Tensor],`
Add QR-DQN algorithm (#276) This is the PR for QR-DQN algorithm: https://arxiv.org/abs/1710.10044 1. add QR-DQN policy in tianshou/policy/modelfree/qrdqn.py. 2. add QR-DQN net in examples/atari/atari_network.py. 3. add QR-DQN atari example in examples/atari/atari_qrdqn.py. 4. add QR-DQN statement in tianshou/policy/init.py. 5. add QR-DQN unit test in test/discrete/test_qrdqn.py. 6. add QR-DQN atari results in examples/atari/results/qrdqn/. 7. add compute_q_value in DQNPolicy and C51Policy for simplify forward function. 8. move `with torch.no_grad():` from `_target_q` to BasePolicy By running "python3 atari_qrdqn.py --task "PongNoFrameskip-v4" --batch-size 64", get best_result': '19.8 ± 0.40', in epoch 8. 2021-01-28 09:27:05 +08:00			`state: Optional[Any] = None,`
			`info: Dict[str, Any] = {},`
			`) -> Tuple[torch.Tensor, Any]:`
			`r"""Mapping: x -> Z(x, \*)."""`
Formalize variable names (#509) Co-authored-by: Jiayi Weng <trinkle23897@gmail.com> 2022-01-30 00:53:56 +08:00			`obs, state = super().forward(obs)`
			`obs = obs.view(-1, self.action_num, self.num_quantiles)`
			`return obs, state`