import math import random import tempfile import pytest import yaml from typing import Any, Dict from mlagents.trainers.trainer_controller import TrainerController from mlagents.trainers.trainer_util import TrainerFactory from mlagents.envs.base_unity_environment import BaseUnityEnvironment from mlagents.envs.brain import BrainInfo, AllBrainInfo, BrainParameters from mlagents.envs.communicator_objects.agent_info_pb2 import AgentInfoProto from mlagents.envs.simple_env_manager import SimpleEnvManager from mlagents.envs.sampler_class import SamplerManager BRAIN_NAME = __name__ OBS_SIZE = 1 STEP_SIZE = 0.1 TIME_PENALTY = 0.001 MIN_STEPS = int(1.0 / STEP_SIZE) + 1 SUCCESS_REWARD = 1.0 + MIN_STEPS * TIME_PENALTY def clamp(x, min_val, max_val): return max(min_val, min(x, max_val)) class Simple1DEnvironment(BaseUnityEnvironment): """ Very simple "game" - the agent has a position on [-1, 1], gets a reward of 1 if it reaches 1, and a reward of -1 if it reaches -1. The position is incremented by the action amount (clamped to [-step_size, step_size]). """ def __init__(self, use_discrete): super().__init__() self.discrete = use_discrete self._brains: Dict[str, BrainParameters] = {} brain_params = BrainParameters( brain_name=BRAIN_NAME, vector_observation_space_size=OBS_SIZE, num_stacked_vector_observations=1, camera_resolutions=[], vector_action_space_size=[2] if use_discrete else [1], vector_action_descriptions=["moveDirection"], vector_action_space_type=0 if use_discrete else 1, ) self._brains[BRAIN_NAME] = brain_params # state self.position = 0.0 self.step_count = 0 self.random = random.Random(str(brain_params)) self.goal = self.random.choice([-1, 1]) def step( self, vector_action: Dict[str, Any] = None, memory: Dict[str, Any] = None, text_action: Dict[str, Any] = None, value: Dict[str, Any] = None, ) -> AllBrainInfo: assert vector_action is not None if self.discrete: act = vector_action[BRAIN_NAME][0][0] delta = 1 if act else -1 else: delta = vector_action[BRAIN_NAME][0][0] delta = clamp(delta, -STEP_SIZE, STEP_SIZE) self.position += delta self.position = clamp(self.position, -1, 1) self.step_count += 1 done = self.position >= 1.0 or self.position <= -1.0 if done: reward = SUCCESS_REWARD * self.position * self.goal else: reward = -TIME_PENALTY agent_info = AgentInfoProto( stacked_vector_observation=[self.goal] * OBS_SIZE, reward=reward, done=done ) if done: self._reset_agent() return { BRAIN_NAME: BrainInfo.from_agent_proto( 0, [agent_info], self._brains[BRAIN_NAME] ) } def _reset_agent(self): self.position = 0.0 self.step_count = 0 self.goal = self.random.choice([-1, 1]) def reset( self, config: Dict[str, float] = None, train_mode: bool = True, custom_reset_parameters: Any = None, ) -> AllBrainInfo: # type: ignore self._reset_agent() agent_info = AgentInfoProto( stacked_vector_observation=[self.goal] * OBS_SIZE, done=False, max_step_reached=False, ) return { BRAIN_NAME: BrainInfo.from_agent_proto( 0, [agent_info], self._brains[BRAIN_NAME] ) } @property def external_brains(self) -> Dict[str, BrainParameters]: return self._brains @property def reset_parameters(self) -> Dict[str, str]: return {} def close(self): pass PPO_CONFIG = """ default: trainer: ppo batch_size: 16 beta: 5.0e-3 buffer_size: 64 epsilon: 0.2 hidden_units: 128 lambd: 0.95 learning_rate: 5.0e-3 max_steps: 2500 memory_size: 256 normalize: false num_epoch: 3 num_layers: 2 time_horizon: 64 sequence_length: 64 summary_freq: 500 use_recurrent: false reward_signals: extrinsic: strength: 1.0 gamma: 0.99 """ SAC_CONFIG = """ default: trainer: sac batch_size: 32 buffer_size: 10240 buffer_init_steps: 1000 hidden_units: 64 init_entcoef: 0.01 learning_rate: 5.0e-3 max_steps: 2000 memory_size: 256 normalize: false num_update: 1 train_interval: 1 num_layers: 1 time_horizon: 64 sequence_length: 64 summary_freq: 500 tau: 0.005 use_recurrent: false curiosity_enc_size: 128 demo_path: None vis_encode_type: simple reward_signals: extrinsic: strength: 1.0 gamma: 0.99 """ def _check_environment_trains(env, config): # Create controller and begin training. with tempfile.TemporaryDirectory() as dir: run_id = "id" save_freq = 99999 seed = 1337 trainer_config = yaml.safe_load(config) env_manager = SimpleEnvManager(env) trainer_factory = TrainerFactory( trainer_config=trainer_config, summaries_dir=dir, run_id=run_id, model_path=dir, keep_checkpoints=1, train_model=True, load_model=False, seed=seed, meta_curriculum=None, multi_gpu=False, ) tc = TrainerController( trainer_factory=trainer_factory, summaries_dir=dir, model_path=dir, run_id=run_id, meta_curriculum=None, train=True, training_seed=seed, fast_simulation=True, sampler_manager=SamplerManager(None), resampling_interval=None, save_freq=save_freq, ) # Begin training tc.start_learning(env_manager) print(tc._get_measure_vals()) for brain_name, mean_reward in tc._get_measure_vals().items(): assert not math.isnan(mean_reward) assert mean_reward > 0.99 @pytest.mark.parametrize("use_discrete", [True, False]) def test_simple_ppo(use_discrete): env = Simple1DEnvironment(use_discrete=use_discrete) _check_environment_trains(env, PPO_CONFIG) @pytest.mark.parametrize("use_discrete", [True, False]) def test_simple_sac(use_discrete): env = Simple1DEnvironment(use_discrete=use_discrete) _check_environment_trains(env, SAC_CONFIG)