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150 行
5.3 KiB
150 行
5.3 KiB
import pytest
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import torch
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from mlagents.trainers.policy.torch_policy import TorchPolicy
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from mlagents.trainers.tests import mock_brain as mb
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from mlagents.trainers.settings import TrainerSettings, NetworkSettings
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from mlagents.trainers.torch.utils import ModelUtils
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VECTOR_ACTION_SPACE = 2
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VECTOR_OBS_SPACE = 8
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DISCRETE_ACTION_SPACE = [3, 3, 3, 2]
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BUFFER_INIT_SAMPLES = 32
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NUM_AGENTS = 12
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EPSILON = 1e-7
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def create_policy_mock(
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dummy_config: TrainerSettings,
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use_rnn: bool = False,
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use_discrete: bool = True,
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use_visual: bool = False,
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seed: int = 0,
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) -> TorchPolicy:
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mock_spec = mb.setup_test_behavior_specs(
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use_discrete,
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use_visual,
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vector_action_space=DISCRETE_ACTION_SPACE
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if use_discrete
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else VECTOR_ACTION_SPACE,
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vector_obs_space=VECTOR_OBS_SPACE,
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)
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trainer_settings = dummy_config
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trainer_settings.keep_checkpoints = 3
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trainer_settings.network_settings.memory = (
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NetworkSettings.MemorySettings() if use_rnn else None
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)
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policy = TorchPolicy(seed, mock_spec, trainer_settings)
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return policy
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@pytest.mark.parametrize("discrete", [True, False], ids=["discrete", "continuous"])
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@pytest.mark.parametrize("visual", [True, False], ids=["visual", "vector"])
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@pytest.mark.parametrize("rnn", [True, False], ids=["rnn", "no_rnn"])
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def test_policy_evaluate(rnn, visual, discrete):
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# Test evaluate
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policy = create_policy_mock(
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TrainerSettings(), use_rnn=rnn, use_discrete=discrete, use_visual=visual
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)
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decision_step, terminal_step = mb.create_steps_from_behavior_spec(
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policy.behavior_spec, num_agents=NUM_AGENTS
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)
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run_out = policy.evaluate(decision_step, list(decision_step.agent_id))
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if discrete:
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run_out["action"].shape == (NUM_AGENTS, len(DISCRETE_ACTION_SPACE))
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else:
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assert run_out["action"].shape == (NUM_AGENTS, VECTOR_ACTION_SPACE)
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@pytest.mark.parametrize("discrete", [True, False], ids=["discrete", "continuous"])
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@pytest.mark.parametrize("visual", [True, False], ids=["visual", "vector"])
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@pytest.mark.parametrize("rnn", [True, False], ids=["rnn", "no_rnn"])
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def test_evaluate_actions(rnn, visual, discrete):
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policy = create_policy_mock(
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TrainerSettings(), use_rnn=rnn, use_discrete=discrete, use_visual=visual
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)
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buffer = mb.simulate_rollout(64, policy.behavior_spec, memory_size=policy.m_size)
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vec_obs = [ModelUtils.list_to_tensor(buffer["vector_obs"])]
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act_masks = ModelUtils.list_to_tensor(buffer["action_mask"])
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if policy.use_continuous_act:
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actions = ModelUtils.list_to_tensor(buffer["actions"]).unsqueeze(-1)
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else:
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actions = ModelUtils.list_to_tensor(buffer["actions"], dtype=torch.long)
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vis_obs = []
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for idx, _ in enumerate(policy.actor_critic.network_body.visual_encoders):
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vis_ob = ModelUtils.list_to_tensor(buffer["visual_obs%d" % idx])
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vis_obs.append(vis_ob)
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memories = [
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ModelUtils.list_to_tensor(buffer["memory"][i])
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for i in range(0, len(buffer["memory"]), policy.sequence_length)
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]
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if len(memories) > 0:
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memories = torch.stack(memories).unsqueeze(0)
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log_probs, entropy, values = policy.evaluate_actions(
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vec_obs,
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vis_obs,
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masks=act_masks,
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actions=actions,
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memories=memories,
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seq_len=policy.sequence_length,
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)
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assert log_probs.shape == (64, policy.behavior_spec.action_size)
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assert entropy.shape == (64, policy.behavior_spec.action_size)
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for val in values.values():
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assert val.shape == (64,)
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@pytest.mark.parametrize("discrete", [True, False], ids=["discrete", "continuous"])
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@pytest.mark.parametrize("visual", [True, False], ids=["visual", "vector"])
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@pytest.mark.parametrize("rnn", [True, False], ids=["rnn", "no_rnn"])
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def test_sample_actions(rnn, visual, discrete):
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policy = create_policy_mock(
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TrainerSettings(), use_rnn=rnn, use_discrete=discrete, use_visual=visual
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)
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buffer = mb.simulate_rollout(64, policy.behavior_spec, memory_size=policy.m_size)
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vec_obs = [ModelUtils.list_to_tensor(buffer["vector_obs"])]
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act_masks = ModelUtils.list_to_tensor(buffer["action_mask"])
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vis_obs = []
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for idx, _ in enumerate(policy.actor_critic.network_body.visual_encoders):
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vis_ob = ModelUtils.list_to_tensor(buffer["visual_obs%d" % idx])
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vis_obs.append(vis_ob)
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memories = [
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ModelUtils.list_to_tensor(buffer["memory"][i])
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for i in range(0, len(buffer["memory"]), policy.sequence_length)
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]
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if len(memories) > 0:
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memories = torch.stack(memories).unsqueeze(0)
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(
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sampled_actions,
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log_probs,
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entropies,
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sampled_values,
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memories,
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) = policy.sample_actions(
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vec_obs,
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vis_obs,
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masks=act_masks,
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memories=memories,
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seq_len=policy.sequence_length,
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all_log_probs=not policy.use_continuous_act,
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)
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if discrete:
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assert log_probs.shape == (
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64,
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sum(policy.behavior_spec.discrete_action_branches),
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)
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else:
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assert log_probs.shape == (64, policy.behavior_spec.action_shape)
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assert entropies.shape == (64, policy.behavior_spec.action_size)
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for val in sampled_values.values():
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assert val.shape == (64,)
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if rnn:
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assert memories.shape == (1, 1, policy.m_size)
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