Renamed our RolloutBuffer and testing the FrobeniusProjectionLayer

2022-06-26 16:39:06 +02:00 · 2022-06-26 16:39:06 +02:00 · edf00553dd
commit edf00553dd
parent 024a9a0265
1 changed files with 6 additions and 97 deletions
--- a/sb3_trl/trl_pg/trl_pg.py
+++ b/sb3_trl/trl_pg/trl_pg.py
@ -17,7 +17,9 @@ from stable_baselines3.common.utils import obs_as_tensor
 from stable_baselines3.common.vec_env import VecNormalize

 from ..projections.base_projection_layer import BaseProjectionLayer
-# from ..projections.frob_projection_layer import FrobeniusProjectionLayer
+from ..projections.frob_projection_layer import FrobeniusProjectionLayer
+
+from ..misc.rollout_buffer import GaussianRolloutBuffer, GaussianRolloutBufferSamples


 class TRL_PG(OnPolicyAlgorithm):
@ -105,7 +107,8 @@ class TRL_PG(OnPolicyAlgorithm):
        device: Union[th.device, str] = "auto",

        # Different from PPO:
-        projection: BaseProjectionLayer = BaseProjectionLayer(),
+        projection: BaseProjectionLayer = FrobeniusProjectionLayer(),
+        #projection: BaseProjectionLayer = BaseProjectionLayer(),

        _init_setup_model: bool = True,
    ):
@ -188,7 +191,7 @@ class TRL_PG(OnPolicyAlgorithm):
            self.clip_range_vf = get_schedule_fn(self.clip_range_vf)

        # Changed from PPO: We need a bigger RolloutBuffer
-        self.rollout_buffer = TRLRolloutBuffer(
+        self.rollout_buffer = GaussianRolloutBuffer(
            self.n_steps,
            self.observation_space,
            self.action_space,
@ -513,97 +516,3 @@ class TRL_PG(OnPolicyAlgorithm):
        callback.on_rollout_end()

        return True
-
-
-class TRLRolloutBufferSamples(NamedTuple):
-    observations: th.Tensor
-    actions: th.Tensor
-    old_values: th.Tensor
-    old_log_prob: th.Tensor
-    advantages: th.Tensor
-    returns: th.Tensor
-    means: th.Tensor
-    stds: th.Tensor
-
-
-class TRLRolloutBuffer(RolloutBuffer):
-    def __init__(
-        self,
-        buffer_size: int,
-        observation_space: spaces.Space,
-        action_space: spaces.Space,
-        device: Union[th.device, str] = "cpu",
-        gae_lambda: float = 1,
-        gamma: float = 0.99,
-        n_envs: int = 1,
-    ):
-
-        super().__init__(buffer_size, observation_space, action_space,
-                         device, n_envs=n_envs, gae_lambda=gae_lambda, gamma=gamma)
-        self.means, self.stds = None, None
-
-    def reset(self) -> None:
-        self.means = np.zeros(
-            (self.buffer_size, self.n_envs) + self.action_space.shape, dtype=np.float32)
-        self.stds = np.zeros(
-            # (self.buffer_size, self.n_envs) + self.action_space.shape + self.action_space.shape, dtype=np.float32)
-            (self.buffer_size, self.n_envs) + self.action_space.shape, dtype=np.float32)
-        super().reset()
-
-    def add(
-        self,
-        obs: np.ndarray,
-        action: np.ndarray,
-        reward: np.ndarray,
-        episode_start: np.ndarray,
-        value: th.Tensor,
-        log_prob: th.Tensor,
-        mean: th.Tensor,
-        std: th.Tensor,
-    ) -> None:
-        """
-        :param obs: Observation
-        :param action: Action
-        :param reward:
-        :param episode_start: Start of episode signal.
-        :param value: estimated value of the current state
-            following the current policy.
-        :param log_prob: log probability of the action
-            following the current policy.
-        :param mean: Foo
-        :param std: Bar
-        """
-
-        if len(log_prob.shape) == 0:
-            # Reshape 0-d tensor to avoid error
-            log_prob = log_prob.reshape(-1, 1)
-
-        # Reshape needed when using multiple envs with discrete observations
-        # as numpy cannot broadcast (n_discrete,) to (n_discrete, 1)
-        if isinstance(self.observation_space, spaces.Discrete):
-            obs = obs.reshape((self.n_envs,) + self.obs_shape)
-
-        self.observations[self.pos] = np.array(obs).copy()
-        self.actions[self.pos] = np.array(action).copy()
-        self.rewards[self.pos] = np.array(reward).copy()
-        self.episode_starts[self.pos] = np.array(episode_start).copy()
-        self.values[self.pos] = value.clone().cpu().numpy().flatten()
-        self.log_probs[self.pos] = log_prob.clone().cpu().numpy()
-        self.means[self.pos] = mean.clone().cpu().numpy()
-        self.stds[self.pos] = std.clone().cpu().numpy()
-        self.pos += 1
-        if self.pos == self.buffer_size:
-            self.full = True
-
-    def _get_samples(self, batch_inds: np.ndarray, env: Optional[VecNormalize] = None) -> TRLRolloutBufferSamples:
-        data = (
-            self.observations[batch_inds],
-            self.actions[batch_inds],
-            self.values[batch_inds].flatten(),
-            self.log_probs[batch_inds].flatten(),
-            self.advantages[batch_inds].flatten(),
-            self.returns[batch_inds].flatten(),
-            self.means[batch_inds].reshape((len(batch_inds), -1)),
-            self.stds[batch_inds].reshape((len(batch_inds), -1)),
-        )
-        return TRLRolloutBufferSamples(*tuple(map(self.to_torch, data)))