from unittest import mock import pytest import mlagents.trainers.tests.mock_brain as mb import numpy as np from mlagents.trainers.agent_processor import ( AgentProcessor, AgentManager, AgentManagerQueue, ) from mlagents.trainers.action_info import ActionInfo from mlagents.trainers.torch.action_log_probs import LogProbsTuple from mlagents.trainers.trajectory import Trajectory from mlagents.trainers.stats import StatsReporter, StatsSummary from mlagents.trainers.behavior_id_utils import get_global_agent_id from mlagents_envs.side_channel.stats_side_channel import StatsAggregationMethod from mlagents.trainers.tests.dummy_config import create_observation_specs_with_shapes from mlagents_envs.base_env import ActionSpec, ActionTuple def create_mock_policy(): mock_policy = mock.Mock() mock_policy.reward_signals = {} mock_policy.retrieve_memories.return_value = np.zeros((1, 1), dtype=np.float32) mock_policy.retrieve_previous_action.return_value = np.zeros((1, 1), dtype=np.int32) return mock_policy @pytest.mark.parametrize("num_vis_obs", [0, 1, 2], ids=["vec", "1 viz", "2 viz"]) def test_agentprocessor(num_vis_obs): policy = create_mock_policy() tqueue = mock.Mock() name_behavior_id = "test_brain_name" processor = AgentProcessor( policy, name_behavior_id, max_trajectory_length=5, stats_reporter=StatsReporter("testcat"), ) fake_action_outputs = { "action": ActionTuple(continuous=np.array([[0.1], [0.1]])), "entropy": np.array([1.0], dtype=np.float32), "learning_rate": 1.0, "log_probs": LogProbsTuple(continuous=np.array([[0.1], [0.1]])), } mock_decision_steps, mock_terminal_steps = mb.create_mock_steps( num_agents=2, observation_specs=create_observation_specs_with_shapes( [(8,)] + num_vis_obs * [(84, 84, 3)] ), action_spec=ActionSpec.create_continuous(2), ) fake_action_info = ActionInfo( action=ActionTuple(continuous=np.array([[0.1], [0.1]])), env_action=ActionTuple(continuous=np.array([[0.1], [0.1]])), value=[0.1, 0.1], outputs=fake_action_outputs, agent_ids=mock_decision_steps.agent_id, ) processor.publish_trajectory_queue(tqueue) # This is like the initial state after the env reset processor.add_experiences( mock_decision_steps, mock_terminal_steps, 0, ActionInfo.empty() ) for _ in range(5): processor.add_experiences( mock_decision_steps, mock_terminal_steps, 0, fake_action_info ) # Assert that two trajectories have been added to the Trainer assert len(tqueue.put.call_args_list) == 2 # Assert that the trajectory is of length 5 trajectory = tqueue.put.call_args_list[0][0][0] assert len(trajectory.steps) == 5 # Assert that the AgentProcessor is empty assert len(processor.experience_buffers[0]) == 0 # Test empty steps mock_decision_steps, mock_terminal_steps = mb.create_mock_steps( num_agents=0, observation_specs=create_observation_specs_with_shapes( [(8,)] + num_vis_obs * [(84, 84, 3)] ), action_spec=ActionSpec.create_continuous(2), ) processor.add_experiences( mock_decision_steps, mock_terminal_steps, 0, ActionInfo.empty() ) # Assert that the AgentProcessor is still empty assert len(processor.experience_buffers[0]) == 0 def test_agent_deletion(): policy = create_mock_policy() tqueue = mock.Mock() name_behavior_id = "test_brain_name" processor = AgentProcessor( policy, name_behavior_id, max_trajectory_length=5, stats_reporter=StatsReporter("testcat"), ) fake_action_outputs = { "action": ActionTuple(continuous=np.array([[0.1]])), "entropy": np.array([1.0], dtype=np.float32), "learning_rate": 1.0, "log_probs": LogProbsTuple(continuous=np.array([[0.1]])), } mock_decision_step, mock_terminal_step = mb.create_mock_steps( num_agents=1, observation_specs=create_observation_specs_with_shapes([(8,)]), action_spec=ActionSpec.create_continuous(2), ) mock_done_decision_step, mock_done_terminal_step = mb.create_mock_steps( num_agents=1, observation_specs=create_observation_specs_with_shapes([(8,)]), action_spec=ActionSpec.create_continuous(2), done=True, ) fake_action_info = ActionInfo( action=ActionTuple(continuous=np.array([[0.1]])), env_action=ActionTuple(continuous=np.array([[0.1]])), value=[0.1], outputs=fake_action_outputs, agent_ids=mock_decision_step.agent_id, ) processor.publish_trajectory_queue(tqueue) # This is like the initial state after the env reset processor.add_experiences( mock_decision_step, mock_terminal_step, 0, ActionInfo.empty() ) # Run 3 trajectories, with different workers (to simulate different agents) add_calls = [] remove_calls = [] for _ep in range(3): for _ in range(5): processor.add_experiences( mock_decision_step, mock_terminal_step, _ep, fake_action_info ) add_calls.append( mock.call([get_global_agent_id(_ep, 0)], fake_action_outputs["action"]) ) processor.add_experiences( mock_done_decision_step, mock_done_terminal_step, _ep, fake_action_info ) # Make sure we don't add experiences from the prior agents after the done remove_calls.append(mock.call([get_global_agent_id(_ep, 0)])) policy.save_previous_action.assert_has_calls(add_calls) policy.remove_previous_action.assert_has_calls(remove_calls) # Check that there are no experiences left assert len(processor.experience_buffers.keys()) == 0 assert len(processor.last_take_action_outputs.keys()) == 0 assert len(processor.episode_steps.keys()) == 0 assert len(processor.episode_rewards.keys()) == 0 assert len(processor.last_step_result.keys()) == 0 # check that steps with immediate dones don't add to dicts processor.add_experiences( mock_done_decision_step, mock_done_terminal_step, 0, ActionInfo.empty() ) assert len(processor.experience_buffers.keys()) == 0 assert len(processor.last_take_action_outputs.keys()) == 0 assert len(processor.episode_steps.keys()) == 0 assert len(processor.episode_rewards.keys()) == 0 assert len(processor.last_step_result.keys()) == 0 def test_end_episode(): policy = create_mock_policy() tqueue = mock.Mock() name_behavior_id = "test_brain_name" processor = AgentProcessor( policy, name_behavior_id, max_trajectory_length=5, stats_reporter=StatsReporter("testcat"), ) fake_action_outputs = { "action": ActionTuple(continuous=np.array([[0.1]])), "entropy": np.array([1.0], dtype=np.float32), "learning_rate": 1.0, "log_probs": LogProbsTuple(continuous=np.array([[0.1]])), } mock_decision_step, mock_terminal_step = mb.create_mock_steps( num_agents=1, observation_specs=create_observation_specs_with_shapes([(8,)]), action_spec=ActionSpec.create_continuous(2), ) fake_action_info = ActionInfo( action=ActionTuple(continuous=np.array([[0.1]])), env_action=ActionTuple(continuous=np.array([[0.1]])), value=[0.1], outputs=fake_action_outputs, agent_ids=mock_decision_step.agent_id, ) processor.publish_trajectory_queue(tqueue) # This is like the initial state after the env reset processor.add_experiences( mock_decision_step, mock_terminal_step, 0, ActionInfo.empty() ) # Run 3 trajectories, with different workers (to simulate different agents) remove_calls = [] for _ep in range(3): remove_calls.append(mock.call([get_global_agent_id(_ep, 0)])) for _ in range(5): processor.add_experiences( mock_decision_step, mock_terminal_step, _ep, fake_action_info ) # Make sure we don't add experiences from the prior agents after the done # Call end episode processor.end_episode() # Check that we removed every agent policy.remove_previous_action.assert_has_calls(remove_calls) # Check that there are no experiences left assert len(processor.experience_buffers.keys()) == 0 assert len(processor.last_take_action_outputs.keys()) == 0 assert len(processor.episode_steps.keys()) == 0 assert len(processor.episode_rewards.keys()) == 0 def test_agent_manager(): policy = create_mock_policy() name_behavior_id = "test_brain_name" manager = AgentManager( policy, name_behavior_id, max_trajectory_length=5, stats_reporter=StatsReporter("testcat"), ) assert len(manager.trajectory_queues) == 1 assert isinstance(manager.trajectory_queues[0], AgentManagerQueue) def test_agent_manager_queue(): queue = AgentManagerQueue(behavior_id="testbehavior") trajectory = mock.Mock(spec=Trajectory) assert queue.empty() queue.put(trajectory) assert not queue.empty() queue_traj = queue.get_nowait() assert isinstance(queue_traj, Trajectory) assert queue.empty() def test_agent_manager_stats(): policy = mock.Mock() stats_reporter = StatsReporter("FakeCategory") writer = mock.Mock() stats_reporter.add_writer(writer) manager = AgentManager(policy, "MyBehavior", stats_reporter) all_env_stats = [ { "averaged": [(1.0, StatsAggregationMethod.AVERAGE)], "most_recent": [(2.0, StatsAggregationMethod.MOST_RECENT)], "summed": [(3.1, StatsAggregationMethod.SUM)], }, { "averaged": [(3.0, StatsAggregationMethod.AVERAGE)], "most_recent": [(4.0, StatsAggregationMethod.MOST_RECENT)], "summed": [(1.1, StatsAggregationMethod.SUM)], }, ] for env_stats in all_env_stats: manager.record_environment_stats(env_stats, worker_id=0) expected_stats = { "averaged": StatsSummary( mean=2.0, std=mock.ANY, num=2, sum=4.0, aggregation_method=StatsAggregationMethod.AVERAGE, ), "most_recent": StatsSummary( mean=4.0, std=0.0, num=1, sum=4.0, aggregation_method=StatsAggregationMethod.MOST_RECENT, ), "summed": StatsSummary( mean=2.1, std=mock.ANY, num=2, sum=4.2, aggregation_method=StatsAggregationMethod.SUM, ), } stats_reporter.write_stats(123) writer.write_stats.assert_any_call("FakeCategory", expected_stats, 123) # clean up our Mock from the global list StatsReporter.writers.remove(writer)