def test_eps_greedy(self):
     dqn, locals = self.create_dqn()
     dqn.init()
     env = locals['env']
     eps = EpsilonGreedy(action_space=dqn.env_spec.action_space,
                         init_random_prob=0.5)
     st = env.reset()
     for i in range(100):
         ac = eps.predict(obs=st, sess=self.sess, batch_flag=False, algo=dqn)
         st_new, re, done, _ = env.step(action=ac)
         self.assertTrue(env.action_space.contains(ac))
Ejemplo n.º 2
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def mountaincar_task_fn():
    exp_config = MOUNTAINCAR_BENCHMARK_CONFIG_DICT
    GlobalConfig().set('DEFAULT_EXPERIMENT_END_POINT',
                       exp_config['DEFAULT_EXPERIMENT_END_POINT'])

    env = make('MountainCar-v0')
    name = 'benchmark'
    env_spec = EnvSpec(obs_space=env.observation_space,
                       action_space=env.action_space)

    mlp_q = MLPQValueFunction(env_spec=env_spec,
                              name_scope=name + '_mlp_q',
                              name=name + '_mlp_q',
                              **exp_config['MLPQValueFunction'])
    dqn = DQN(env_spec=env_spec,
              name=name + '_dqn',
              value_func=mlp_q,
              **exp_config['DQN'])
    agent = Agent(env=env, env_spec=env_spec,
                  algo=dqn,
                  name=name + '_agent',
                  exploration_strategy=EpsilonGreedy(action_space=env_spec.action_space,
                                                     prob_scheduler=LinearScheduler(
                                                         t_fn=lambda: get_global_status_collect()(
                                                             'TOTAL_AGENT_TRAIN_SAMPLE_COUNT'),
                                                         **exp_config['EpsilonGreedy']['LinearScheduler']),
                                                     **exp_config['EpsilonGreedy']['config_or_config_dict']))
    flow = TrainTestFlow(train_sample_count_func=lambda: get_global_status_collect()('TOTAL_AGENT_TRAIN_SAMPLE_COUNT'),
                         config_or_config_dict=exp_config['TrainTestFlow']['config_or_config_dict'],
                         func_dict={
                             'test': {'func': agent.test,
                                      'args': list(),
                                      'kwargs': dict(sample_count=exp_config['TrainTestFlow']['TEST_SAMPLES_COUNT']),
                                      },
                             'train': {'func': agent.train,
                                       'args': list(),
                                       'kwargs': dict(),
                                       },
                             'sample': {'func': agent.sample,
                                        'args': list(),
                                        'kwargs': dict(sample_count=exp_config['TrainTestFlow']['TRAIN_SAMPLES_COUNT'],
                                                       env=agent.env,
                                                       in_which_status='TRAIN',
                                                       store_flag=True),
                                        },
                         })

    experiment = Experiment(
        tuner=None,
        env=env,
        agent=agent,
        flow=flow,
        name=name
    )
    experiment.run()
    def test_eps_with_scheduler(self):
        dqn, locals = self.create_dqn()
        env = locals['env']

        def func():
            global x
            return x

        dqn.init()
        eps = EpsilonGreedy(action_space=dqn.env_spec.action_space,
                            prob_scheduler=LinearScheduler(initial_p=1.0, t_fn=func, schedule_timesteps=10,
                                                           final_p=0.0),
                            init_random_prob=1.0)
        st = env.reset()
        for i in range(10):
            global x
            ac = eps.predict(obs=st, sess=self.sess, batch_flag=False, algo=dqn)
            st_new, re, done, _ = env.step(action=ac)
            self.assertAlmostEqual(eps.parameters('random_prob_func')(), 1.0 - (1.0 - 0.0) / 10 * x)
            x += 1
Ejemplo n.º 4
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 def create_eps(self, env_spec):
     return EpsilonGreedy(action_space=env_spec.action_space,
                          init_random_prob=0.5), locals()
Ejemplo n.º 5
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def task_fn():
    env = make('Pendulum-v0')
    name = 'demo_exp'
    env_spec = EnvSpec(obs_space=env.observation_space,
                       action_space=env.action_space)

    mlp_q = MLPQValueFunction(env_spec=env_spec,
                              name_scope=name + '_mlp_q',
                              name=name + '_mlp_q',
                              mlp_config=[{
                                  "ACT": "RELU",
                                  "B_INIT_VALUE": 0.0,
                                  "NAME": "1",
                                  "N_UNITS": 16,
                                  "TYPE": "DENSE",
                                  "W_NORMAL_STDDEV": 0.03
                              }, {
                                  "ACT": "LINEAR",
                                  "B_INIT_VALUE": 0.0,
                                  "NAME": "OUPTUT",
                                  "N_UNITS": 1,
                                  "TYPE": "DENSE",
                                  "W_NORMAL_STDDEV": 0.03
                              }])
    policy = DeterministicMLPPolicy(env_spec=env_spec,
                                    name_scope=name + '_mlp_policy',
                                    name=name + '_mlp_policy',
                                    mlp_config=[{
                                        "ACT": "RELU",
                                        "B_INIT_VALUE": 0.0,
                                        "NAME": "1",
                                        "N_UNITS": 16,
                                        "TYPE": "DENSE",
                                        "W_NORMAL_STDDEV": 0.03
                                    }, {
                                        "ACT": "LINEAR",
                                        "B_INIT_VALUE": 0.0,
                                        "NAME": "OUPTUT",
                                        "N_UNITS": env_spec.flat_action_dim,
                                        "TYPE": "DENSE",
                                        "W_NORMAL_STDDEV": 0.03
                                    }],
                                    reuse=False)

    ddpg = DDPG(env_spec=env_spec,
                config_or_config_dict={
                    "REPLAY_BUFFER_SIZE": 10000,
                    "GAMMA": 0.999,
                    "CRITIC_LEARNING_RATE": 0.001,
                    "ACTOR_LEARNING_RATE": 0.001,
                    "DECAY": 0.5,
                    "BATCH_SIZE": 50,
                    "TRAIN_ITERATION": 1,
                    "critic_clip_norm": 0.1,
                    "actor_clip_norm": 0.1,
                },
                value_func=mlp_q,
                policy=policy,
                name=name + '_ddpg',
                replay_buffer=None)
    agent = Agent(
        env=env,
        env_spec=env_spec,
        algo=ddpg,
        algo_saving_scheduler=PeriodicalEventSchedule(
            t_fn=lambda: get_global_status_collect()
            ('TOTAL_AGENT_TRAIN_SAMPLE_COUNT'),
            trigger_every_step=20,
            after_t=10),
        name=name + '_agent',
        exploration_strategy=EpsilonGreedy(action_space=env_spec.action_space,
                                           init_random_prob=0.5))

    flow = create_train_test_flow(
        test_every_sample_count=10,
        train_every_sample_count=10,
        start_test_after_sample_count=5,
        start_train_after_sample_count=5,
        train_func_and_args=(agent.train, (), dict()),
        test_func_and_args=(agent.test, (), dict(sample_count=10)),
        sample_func_and_args=(agent.sample, (),
                              dict(sample_count=100,
                                   env=agent.env,
                                   in_which_status='TRAIN',
                                   store_flag=True)))

    experiment = Experiment(tuner=None,
                            env=env,
                            agent=agent,
                            flow=flow,
                            name=name)
    experiment.run()
Ejemplo n.º 6
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def task_fn():
    env = make('Acrobot-v1')
    name = 'example_scheduler_'
    env_spec = EnvSpec(obs_space=env.observation_space,
                       action_space=env.action_space)

    mlp_q = MLPQValueFunction(env_spec=env_spec,
                              name_scope=name + '_mlp_q',
                              name=name + '_mlp_q',
                              mlp_config=[
                                  {
                                      "ACT": "RELU",
                                      "B_INIT_VALUE": 0.0,
                                      "NAME": "1",
                                      "N_UNITS": 16,
                                      "TYPE": "DENSE",
                                      "W_NORMAL_STDDEV": 0.03
                                  },
                                  {
                                      "ACT": "LINEAR",
                                      "B_INIT_VALUE": 0.0,
                                      "NAME": "OUPTUT",
                                      "N_UNITS": 1,
                                      "TYPE": "DENSE",
                                      "W_NORMAL_STDDEV": 0.03
                                  }
                              ])
    dqn = DQN(env_spec=env_spec,
              config_or_config_dict=dict(REPLAY_BUFFER_SIZE=1000,
                                         GAMMA=0.99,
                                         BATCH_SIZE=10,
                                         LEARNING_RATE=0.001,
                                         TRAIN_ITERATION=1,
                                         DECAY=0.5),
              name=name + '_dqn',
              value_func=mlp_q)
    agent = Agent(env=env, env_spec=env_spec,
                  algo=dqn,
                  name=name + '_agent',
                  algo_saving_scheduler=PeriodicalEventSchedule(
                      t_fn=lambda: get_global_status_collect()('TOTAL_AGENT_TRAIN_SAMPLE_COUNT'),
                      trigger_every_step=20,
                      after_t=10),
                  exploration_strategy=EpsilonGreedy(action_space=env_spec.action_space,
                                                     prob_scheduler=PiecewiseScheduler(
                                                         t_fn=lambda: get_global_status_collect()(
                                                             'TOTAL_AGENT_TRAIN_SAMPLE_COUNT'),
                                                         endpoints=((10, 0.3), (100, 0.1), (200, 0.0)),
                                                         outside_value=0.0
                                                     ),
                                                     init_random_prob=0.5))
    flow = create_train_test_flow(
        test_every_sample_count=10,
        train_every_sample_count=10,
        start_test_after_sample_count=5,
        start_train_after_sample_count=5,
        train_func_and_args=(agent.train, (), dict()),
        test_func_and_args=(agent.test, (), dict(sample_count=10)),
        sample_func_and_args=(agent.sample, (), dict(sample_count=100,
                                                     env=agent.env,
                                                     store_flag=True))
    )
    experiment = Experiment(
        tuner=None,
        env=env,
        agent=agent,
        flow=flow,
        name=name + 'experiment_debug'
    )

    dqn.parameters.set_scheduler(param_key='LEARNING_RATE',
                                 scheduler=LinearScheduler(
                                     t_fn=experiment.TOTAL_AGENT_TRAIN_SAMPLE_COUNT,
                                     schedule_timesteps=GlobalConfig().DEFAULT_EXPERIMENT_END_POINT[
                                         'TOTAL_AGENT_TRAIN_SAMPLE_COUNT'],
                                     final_p=0.0001,
                                     initial_p=0.01))
    experiment.run()
Ejemplo n.º 7
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def task_fn():
    env = make('Pendulum-v0')
    name = 'demo_exp_'
    env_spec = EnvSpec(obs_space=env.observation_space,
                       action_space=env.action_space)

    mlp_v = MLPVValueFunc(env_spec=env_spec,
                          name_scope=name + 'mlp_v',
                          name=name + 'mlp_v',
                          mlp_config=[{
                              "ACT": "RELU",
                              "B_INIT_VALUE": 0.0,
                              "NAME": "1",
                              "N_UNITS": 16,
                              "L1_NORM": 0.01,
                              "L2_NORM": 0.01,
                              "TYPE": "DENSE",
                              "W_NORMAL_STDDEV": 0.03
                          }, {
                              "ACT": "LINEAR",
                              "B_INIT_VALUE": 0.0,
                              "NAME": "OUPTUT",
                              "N_UNITS": 1,
                              "TYPE": "DENSE",
                              "W_NORMAL_STDDEV": 0.03
                          }])

    policy = NormalDistributionMLPPolicy(env_spec=env_spec,
                                         name_scope=name + 'mlp_policy',
                                         name=name + 'mlp_policy',
                                         mlp_config=[{
                                             "ACT": "RELU",
                                             "B_INIT_VALUE": 0.0,
                                             "NAME": "1",
                                             "L1_NORM": 0.01,
                                             "L2_NORM": 0.01,
                                             "N_UNITS": 16,
                                             "TYPE": "DENSE",
                                             "W_NORMAL_STDDEV": 0.03
                                         }, {
                                             "ACT": "LINEAR",
                                             "B_INIT_VALUE": 0.0,
                                             "NAME": "OUPTUT",
                                             "N_UNITS":
                                             env_spec.flat_action_dim,
                                             "TYPE": "DENSE",
                                             "W_NORMAL_STDDEV": 0.03
                                         }],
                                         reuse=False)

    ppo = PPO(env_spec=env_spec,
              config_or_config_dict={
                  "gamma": 0.995,
                  "lam": 0.98,
                  "policy_train_iter": 10,
                  "value_func_train_iter": 10,
                  "clipping_range": None,
                  "beta": 1.0,
                  "eta": 50,
                  "log_var_init": -1.0,
                  "kl_target": 0.003,
                  "policy_lr": 0.01,
                  "value_func_lr": 0.01,
                  "value_func_train_batch_size": 10,
                  "lr_multiplier": 1.0
              },
              value_func=mlp_v,
              stochastic_policy=policy,
              name=name + 'ppo')
    agent = Agent(
        env=env,
        env_spec=env_spec,
        algo=ppo,
        algo_saving_scheduler=PeriodicalEventSchedule(
            t_fn=lambda: get_global_status_collect()
            ('TOTAL_AGENT_TRAIN_SAMPLE_COUNT'),
            trigger_every_step=20,
            after_t=10),
        name=name + 'agent',
        exploration_strategy=EpsilonGreedy(action_space=env_spec.action_space,
                                           init_random_prob=0.5))
    flow = create_train_test_flow(
        test_every_sample_count=10,
        train_every_sample_count=10,
        start_test_after_sample_count=5,
        start_train_after_sample_count=5,
        train_func_and_args=(agent.train, (), dict()),
        test_func_and_args=(agent.test, (), dict(sample_count=10)),
        sample_func_and_args=(agent.sample, (),
                              dict(sample_count=100,
                                   env=agent.env,
                                   in_which_status='TRAIN',
                                   store_flag=True)))

    experiment = Experiment(tuner=None,
                            env=env,
                            agent=agent,
                            flow=flow,
                            name=name)
    experiment.run()
Ejemplo n.º 8
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def task_fn():
    env = make('Acrobot-v1')
    name = 'demo_exp'
    env.env_spec = EnvSpec(obs_space=env.observation_space,
                       action_space=env.action_space)
    env_spec = env.env_spec
    mlp_q = MLPQValueFunction(env_spec=env_spec,
                              name_scope=name + '_mlp_q',
                              name=name + '_mlp_q',
                              mlp_config=[
                                  {
                                      "ACT": "TANH",
                                      "B_INIT_VALUE": 0.0,
                                      "NAME": "1",
                                      "N_UNITS": 64,
                                      "TYPE": "DENSE",
                                      "W_NORMAL_STDDEV": 0.03
                                  },
                                  {
                                      "ACT": "TANH",
                                      "B_INIT_VALUE": 0.0,
                                      "NAME": "2",
                                      "N_UNITS": 64,
                                      "TYPE": "DENSE",
                                      "W_NORMAL_STDDEV": 0.03
                                  },
                                  {
                                      "ACT": "RELU",
                                      "B_INIT_VALUE": 0.0,
                                      "NAME": "3",
                                      "N_UNITS": 256,
                                      "TYPE": "DENSE",
                                      "W_NORMAL_STDDEV": 0.03
                                  },
                                  {
                                      "ACT": "LINEAR",
                                      "B_INIT_VALUE": 0.0,
                                      "NAME": "OUPTUT",
                                      "N_UNITS": 1,
                                      "TYPE": "DENSE",
                                      "W_NORMAL_STDDEV": 0.03
                                  }
                              ])
    dqn = DQN(env_spec=env_spec,
              config_or_config_dict=dict(REPLAY_BUFFER_SIZE=50000,
                                         GAMMA=0.99,
                                         BATCH_SIZE=32,
                                         LEARNING_RATE=0.001,
                                         TRAIN_ITERATION=1,
                                         DECAY=0),
              name=name + '_dqn',
              value_func=mlp_q)

    epsilon_greedy = EpsilonGreedy(action_space=env_spec.action_space,
                                   prob_scheduler=LinearScheduler(
                                                         t_fn=lambda: get_global_status_collect()('TOTAL_AGENT_TRAIN_SAMPLE_COUNT'),
                                                         schedule_timesteps=int(0.1 * 100000),
                                                         initial_p=1.0,
                                                         final_p=0.02),
                                                         init_random_prob=0.1)

    agent = Agent(env=env,
                  env_spec=env_spec,
                  algo=dqn,
                  name=name + '_agent',
                  exploration_strategy=epsilon_greedy,
                  noise_adder=None)


    flow = create_train_test_flow(
        test_every_sample_count=1000,
        train_every_sample_count=1,
        start_test_after_sample_count=0,
        start_train_after_sample_count=10000,
        sample_func_and_args=(agent.sample, (), dict(sample_count=1, env=agent.env, store_flag=True)),
        train_func_and_args=(agent.train, (), dict()),
        test_func_and_args=(agent.test, (), dict(sample_count=1)),
    )
    experiment = Experiment(
        tuner=None,
        env=env,
        agent=agent,
        flow=flow,
        name=name
    )

    experiment.run()
Ejemplo n.º 9
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def task_fn():
    env = make('Pendulum-v0')
    name = 'demo_exp'
    env_spec = env.env_spec
    mlp_dyna = ContinuousMLPGlobalDynamicsModel(env_spec=env_spec,
                                                name_scope=name + '_mlp_dyna',
                                                name=name + '_mlp_dyna',
                                                learning_rate=0.01,
                                                mlp_config=[{
                                                    "ACT":
                                                    "TANH",
                                                    "B_INIT_VALUE":
                                                    0.0,
                                                    "NAME":
                                                    "1",
                                                    "L1_NORM":
                                                    0.0,
                                                    "L2_NORM":
                                                    0.0,
                                                    "N_UNITS":
                                                    128,
                                                    "TYPE":
                                                    "DENSE",
                                                    "W_NORMAL_STDDEV":
                                                    0.03
                                                }, {
                                                    "ACT":
                                                    "LINEAR",
                                                    "B_INIT_VALUE":
                                                    0.0,
                                                    "NAME":
                                                    "OUPTUT",
                                                    "L1_NORM":
                                                    0.0,
                                                    "L2_NORM":
                                                    0.0,
                                                    "N_UNITS":
                                                    env_spec.flat_obs_dim,
                                                    "TYPE":
                                                    "DENSE",
                                                    "W_NORMAL_STDDEV":
                                                    0.03
                                                }])
    algo = ModelPredictiveControl(
        dynamics_model=mlp_dyna,
        env_spec=env_spec,
        config_or_config_dict=dict(SAMPLED_HORIZON=2,
                                   SAMPLED_PATH_NUM=5,
                                   dynamics_model_train_iter=10),
        name=name + '_mpc',
        policy=UniformRandomPolicy(env_spec=env_spec, name='uni_policy'))
    algo.set_terminal_reward_function_for_dynamics_env(
        reward_func=RandomRewardFunc(name='reward_func'),
        terminal_func=RandomTerminalFunc(name='random_terminal'),
    )
    agent = Agent(
        env=env,
        env_spec=env_spec,
        algo=algo,
        name=name + '_agent',
        exploration_strategy=EpsilonGreedy(action_space=env_spec.action_space,
                                           init_random_prob=0.5))
    flow = create_train_test_flow(test_every_sample_count=10,
                                  train_every_sample_count=10,
                                  start_test_after_sample_count=5,
                                  start_train_after_sample_count=5,
                                  train_func_and_args=(agent.train, (),
                                                       dict()),
                                  test_func_and_args=(agent.test, (),
                                                      dict(sample_count=10)),
                                  sample_func_and_args=(agent.sample, (),
                                                        dict(sample_count=100,
                                                             env=agent.env,
                                                             store_flag=True)))
    experiment = Experiment(tuner=None,
                            env=env,
                            agent=agent,
                            flow=flow,
                            name=name)
    experiment.run()
Ejemplo n.º 10
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def task_fn():
    env = make('Pendulum-v0')
    name = 'demo_exp'
    env_spec = EnvSpec(obs_space=env.observation_space,
                       action_space=env.action_space)

    mlp_q = MLPQValueFunction(env_spec=env_spec,
                              name_scope=name + '_mlp_q',
                              name=name + '_mlp_q',
                              mlp_config=[{
                                  "ACT": "RELU",
                                  "B_INIT_VALUE": 0.0,
                                  "NAME": "1",
                                  "N_UNITS": 16,
                                  "TYPE": "DENSE",
                                  "W_NORMAL_STDDEV": 0.03
                              }, {
                                  "ACT": "LINEAR",
                                  "B_INIT_VALUE": 0.0,
                                  "NAME": "OUPTUT",
                                  "N_UNITS": 1,
                                  "TYPE": "DENSE",
                                  "W_NORMAL_STDDEV": 0.03
                              }])
    policy = DeterministicMLPPolicy(env_spec=env_spec,
                                    name_scope=name + '_mlp_policy',
                                    name=name + '_mlp_policy',
                                    mlp_config=[{
                                        "ACT": "RELU",
                                        "B_INIT_VALUE": 0.0,
                                        "NAME": "1",
                                        "N_UNITS": 16,
                                        "TYPE": "DENSE",
                                        "W_NORMAL_STDDEV": 0.03
                                    }, {
                                        "ACT": "LINEAR",
                                        "B_INIT_VALUE": 0.0,
                                        "NAME": "OUPTUT",
                                        "N_UNITS": env_spec.flat_action_dim,
                                        "TYPE": "DENSE",
                                        "W_NORMAL_STDDEV": 0.03
                                    }],
                                    reuse=False)

    ddpg = DDPG(env_spec=env_spec,
                config_or_config_dict={
                    "REPLAY_BUFFER_SIZE": 10000,
                    "GAMMA": 0.999,
                    "CRITIC_LEARNING_RATE": 0.001,
                    "ACTOR_LEARNING_RATE": 0.001,
                    "DECAY": 0.5,
                    "BATCH_SIZE": 50,
                    "TRAIN_ITERATION": 1,
                    "critic_clip_norm": 0.1,
                    "actor_clip_norm": 0.1,
                },
                value_func=mlp_q,
                policy=policy,
                name=name + '_ddpg',
                replay_buffer=None)
    mlp_dyna_list = []
    for i in range(10):
        mlp_dyna = ContinuousMLPGlobalDynamicsModel(
            env_spec=env_spec,
            name_scope=name + '_mlp_dyna_{}'.format(i),
            name=name + '_mlp_dyna_{}'.format(i),
            learning_rate=0.01,
            state_input_scaler=RunningStandardScaler(
                dims=env_spec.flat_obs_dim),
            action_input_scaler=RunningStandardScaler(
                dims=env_spec.flat_action_dim),
            output_delta_state_scaler=RunningStandardScaler(
                dims=env_spec.flat_obs_dim),
            mlp_config=[{
                "ACT": "RELU",
                "B_INIT_VALUE": 0.0,
                "NAME": "1",
                "L1_NORM": 0.0,
                "L2_NORM": 0.0,
                "N_UNITS": 16,
                "TYPE": "DENSE",
                "W_NORMAL_STDDEV": 0.03
            }, {
                "ACT": "LINEAR",
                "B_INIT_VALUE": 0.0,
                "NAME": "OUPTUT",
                "L1_NORM": 0.0,
                "L2_NORM": 0.0,
                "N_UNITS": env_spec.flat_obs_dim,
                "TYPE": "DENSE",
                "W_NORMAL_STDDEV": 0.03
            }])
        mlp_dyna_list.append(mlp_dyna)
    dyna_ensemble_model = ModelEnsemble(n_models=10,
                                        model=mlp_dyna_list,
                                        prediction_type='random',
                                        env_spec=env_spec)
    algo = ModelEnsembleAlgo(env_spec=env_spec,
                             model_free_algo=ddpg,
                             dynamics_model=dyna_ensemble_model,
                             config_or_config_dict=dict(
                                 dynamics_model_train_iter=10,
                                 model_free_algo_train_iter=10,
                                 validation_trajectory_count=2,
                             ))
    # For examples only, we use random reward function and terminal function with fixed episode length.
    algo.set_terminal_reward_function_for_dynamics_env(
        terminal_func=FixedEpisodeLengthTerminalFunc(
            max_step_length=env.unwrapped._max_episode_steps,
            step_count_fn=algo.dynamics_env.total_step_count_fn),
        reward_func=PendulumRewardFunc())
    agent = Agent(
        env=env,
        env_spec=env_spec,
        algo=algo,
        algo_saving_scheduler=PeriodicalEventSchedule(
            t_fn=lambda: get_global_status_collect()
            ('TOTAL_AGENT_TRAIN_SAMPLE_COUNT'),
            trigger_every_step=200,
            after_t=10),
        name=name + '_agent',
        exploration_strategy=EpsilonGreedy(action_space=env_spec.action_space,
                                           init_random_prob=0.5))

    # we can easily reuse the dyna training flow to implement the Model-ensemble training flow.
    flow = create_dyna_flow(
        train_algo_func=(agent.train, (), dict(state='state_agent_training')),
        train_algo_from_synthesized_data_func=(
            agent.train, (), dict(state='state_agent_training')),
        train_dynamics_func=(agent.train, (),
                             dict(state='state_dynamics_training')),
        test_algo_func=(agent.test, (), dict(sample_count=10)),
        test_dynamics_func=(agent.algo.test_dynamics, (),
                            dict(sample_count=10, env=env)),
        sample_from_real_env_func=(agent.sample, (),
                                   dict(sample_count=10,
                                        env=agent.env,
                                        store_flag=True)),
        sample_from_dynamics_env_func=(agent.sample, (),
                                       dict(sample_count=10,
                                            env=agent.algo.dynamics_env,
                                            store_flag=True)),
        # set this to large enough so agent only use data from dynamics env.
        train_algo_every_real_sample_count_by_data_from_real_env=100,
        train_algo_every_real_sample_count_by_data_from_dynamics_env=100,
        test_algo_every_real_sample_count=100,
        test_dynamics_every_real_sample_count=100,
        train_dynamics_ever_real_sample_count=100,
        start_train_algo_after_sample_count=1,
        start_train_dynamics_after_sample_count=1,
        start_test_algo_after_sample_count=1,
        start_test_dynamics_after_sample_count=1,
        warm_up_dynamics_samples=100)

    experiment = Experiment(tuner=None,
                            env=env,
                            agent=agent,
                            flow=flow,
                            name=name + '_exp')
    experiment.run()
Ejemplo n.º 11
0
def task_fn():
    env = make('Acrobot-v1')
    name = 'demo_exp'
    env_spec = EnvSpec(obs_space=env.observation_space,
                       action_space=env.action_space)

    mlp_q = MLPQValueFunction(env_spec=env_spec,
                              name_scope=name + '_mlp_q',
                              name=name + '_mlp_q',
                              mlp_config=[
                                  {
                                      "ACT": "RELU",
                                      "B_INIT_VALUE": 0.0,
                                      "NAME": "1",
                                      "N_UNITS": 16,
                                      "TYPE": "DENSE",
                                      "W_NORMAL_STDDEV": 0.03
                                  },
                                  {
                                      "ACT": "LINEAR",
                                      "B_INIT_VALUE": 0.0,
                                      "NAME": "OUPTUT",
                                      "N_UNITS": 1,
                                      "TYPE": "DENSE",
                                      "W_NORMAL_STDDEV": 0.03
                                  }
                              ])
    dqn = DQN(env_spec=env_spec,
              config_or_config_dict=dict(REPLAY_BUFFER_SIZE=1000,
                                         GAMMA=0.99,
                                         BATCH_SIZE=10,
                                         LEARNING_RATE=0.01,
                                         TRAIN_ITERATION=1,
                                         DECAY=0.5),
              name=name + '_dqn',
              value_func=mlp_q)

    agent = Agent(env=env, env_spec=env_spec,
                  algo=dqn,
                  name=name + '_agent',
                  exploration_strategy=EpsilonGreedy(action_space=env_spec.action_space,
                                                     init_random_prob=0.5))

    flow = create_train_test_flow(
        test_every_sample_count=10,
        train_every_sample_count=10,
        start_test_after_sample_count=5,
        start_train_after_sample_count=5,
        train_func_and_args=(agent.train, (), dict()),
        test_func_and_args=(agent.test, (), dict(sample_count=10)),
        sample_func_and_args=(agent.sample, (), dict(sample_count=100,
                                                     env=agent.env,
                                                     in_which_status='TRAIN',
                                                     store_flag=True))
    )

    experiment = Experiment(
        tuner=None,
        env=env,
        agent=agent,
        flow=flow,
        name=name
    )
    experiment.run()
Ejemplo n.º 12
0
def task_fn():
    # create the gym environment by make function
    env = make('Pendulum-v0')
    # give your experiment a name which is used to generate the log path etc.
    name = 'demo_exp'
    # construct the environment specification
    env_spec = EnvSpec(obs_space=env.observation_space,
                       action_space=env.action_space)
    # construct the neural network to approximate q function of DDPG
    mlp_q = MLPQValueFunction(env_spec=env_spec,
                              name_scope=name + '_mlp_q',
                              name=name + '_mlp_q',
                              mlp_config=[{
                                  "ACT": "RELU",
                                  "B_INIT_VALUE": 0.0,
                                  "NAME": "1",
                                  "N_UNITS": 16,
                                  "TYPE": "DENSE",
                                  "W_NORMAL_STDDEV": 0.03
                              }, {
                                  "ACT": "LINEAR",
                                  "B_INIT_VALUE": 0.0,
                                  "NAME": "OUPTUT",
                                  "N_UNITS": 1,
                                  "TYPE": "DENSE",
                                  "W_NORMAL_STDDEV": 0.03
                              }])
    # construct the neural network to approximate policy for DDPG
    policy = DeterministicMLPPolicy(env_spec=env_spec,
                                    name_scope=name + '_mlp_policy',
                                    name=name + '_mlp_policy',
                                    mlp_config=[{
                                        "ACT": "RELU",
                                        "B_INIT_VALUE": 0.0,
                                        "NAME": "1",
                                        "N_UNITS": 16,
                                        "TYPE": "DENSE",
                                        "W_NORMAL_STDDEV": 0.03
                                    }, {
                                        "ACT": "LINEAR",
                                        "B_INIT_VALUE": 0.0,
                                        "NAME": "OUPTUT",
                                        "N_UNITS": env_spec.flat_action_dim,
                                        "TYPE": "DENSE",
                                        "W_NORMAL_STDDEV": 0.03
                                    }],
                                    reuse=False)
    # construct the DDPG algorithms
    ddpg = DDPG(env_spec=env_spec,
                config_or_config_dict={
                    "REPLAY_BUFFER_SIZE": 10000,
                    "GAMMA": 0.999,
                    "CRITIC_LEARNING_RATE": 0.001,
                    "ACTOR_LEARNING_RATE": 0.001,
                    "DECAY": 0.5,
                    "BATCH_SIZE": 50,
                    "TRAIN_ITERATION": 1,
                    "critic_clip_norm": 0.1,
                    "actor_clip_norm": 0.1,
                },
                value_func=mlp_q,
                policy=policy,
                name=name + '_ddpg',
                replay_buffer=None)
    # construct a neural network based global dynamics model to approximate the state transition of environment
    mlp_dyna = ContinuousMLPGlobalDynamicsModel(
        env_spec=env_spec,
        name_scope=name + '_mlp_dyna',
        name=name + '_mlp_dyna',
        learning_rate=0.01,
        state_input_scaler=RunningStandardScaler(dims=env_spec.flat_obs_dim),
        action_input_scaler=RunningStandardScaler(
            dims=env_spec.flat_action_dim),
        output_delta_state_scaler=RunningStandardScaler(
            dims=env_spec.flat_obs_dim),
        mlp_config=[{
            "ACT": "RELU",
            "B_INIT_VALUE": 0.0,
            "NAME": "1",
            "L1_NORM": 0.0,
            "L2_NORM": 0.0,
            "N_UNITS": 16,
            "TYPE": "DENSE",
            "W_NORMAL_STDDEV": 0.03
        }, {
            "ACT": "LINEAR",
            "B_INIT_VALUE": 0.0,
            "NAME": "OUPTUT",
            "L1_NORM": 0.0,
            "L2_NORM": 0.0,
            "N_UNITS": env_spec.flat_obs_dim,
            "TYPE": "DENSE",
            "W_NORMAL_STDDEV": 0.03
        }])
    # finally, construct the Dyna algorithms with a model free algorithm DDGP, and a NN model.
    algo = Dyna(env_spec=env_spec,
                name=name + '_dyna_algo',
                model_free_algo=ddpg,
                dynamics_model=mlp_dyna,
                config_or_config_dict=dict(dynamics_model_train_iter=10,
                                           model_free_algo_train_iter=10))
    # To make the NN based dynamics model a proper environment so be a sampling source for DDPG, reward function and
    # terminal function need to be set.

    # For examples only, we use random reward function and terminal function with fixed episode length.
    algo.set_terminal_reward_function_for_dynamics_env(
        terminal_func=FixedEpisodeLengthTerminalFunc(
            max_step_length=env.unwrapped._max_episode_steps,
            step_count_fn=algo.dynamics_env.total_step_count_fn),
        reward_func=RandomRewardFunc())
    # construct agent with additional exploration strategy if needed.
    agent = Agent(
        env=env,
        env_spec=env_spec,
        algo=algo,
        algo_saving_scheduler=PeriodicalEventSchedule(
            t_fn=lambda: get_global_status_collect()
            ('TOTAL_AGENT_TRAIN_SAMPLE_COUNT'),
            trigger_every_step=20,
            after_t=10),
        name=name + '_agent',
        exploration_strategy=EpsilonGreedy(action_space=env_spec.action_space,
                                           init_random_prob=0.5))
    # construct the training flow, called Dyna flow. It defines how the training proceed, and the terminal condition
    flow = create_dyna_flow(
        train_algo_func=(agent.train, (), dict(state='state_agent_training')),
        train_algo_from_synthesized_data_func=(
            agent.train, (), dict(state='state_agent_training')),
        train_dynamics_func=(agent.train, (),
                             dict(state='state_dynamics_training')),
        test_algo_func=(agent.test, (), dict(sample_count=1)),
        test_dynamics_func=(agent.algo.test_dynamics, (),
                            dict(sample_count=10, env=env)),
        sample_from_real_env_func=(agent.sample, (),
                                   dict(sample_count=10,
                                        env=agent.env,
                                        store_flag=True)),
        sample_from_dynamics_env_func=(agent.sample, (),
                                       dict(sample_count=10,
                                            env=agent.algo.dynamics_env,
                                            store_flag=True)),
        train_algo_every_real_sample_count_by_data_from_real_env=40,
        train_algo_every_real_sample_count_by_data_from_dynamics_env=40,
        test_algo_every_real_sample_count=40,
        test_dynamics_every_real_sample_count=40,
        train_dynamics_ever_real_sample_count=20,
        start_train_algo_after_sample_count=1,
        start_train_dynamics_after_sample_count=1,
        start_test_algo_after_sample_count=1,
        start_test_dynamics_after_sample_count=1,
        warm_up_dynamics_samples=1)
    # construct the experiment
    experiment = Experiment(tuner=None,
                            env=env,
                            agent=agent,
                            flow=flow,
                            name=name + '_exp')
    # run!
    experiment.run()