class DQNAgent(Agent):
_agent_name = "DQN"
_allow_unknown_subkeys = [
"model", "optimizer", "tf_session_args", "env_config"]
_default_config = DEFAULT_CONFIG
def _init(self):
self.local_evaluator = DQNEvaluator(
self.registry, self.env_creator, self.config, self.logdir, 0)
remote_cls = ray.remote(
num_cpus=1, num_gpus=self.config["num_gpus_per_worker"])(
DQNEvaluator)
self.remote_evaluators = [
remote_cls.remote(
self.registry, self.env_creator, self.config, self.logdir,
i)
for i in range(self.config["num_workers"])]
if self.config["force_evaluators_remote"]:
self.remote_evaluators = drop_colocated(self.remote_evaluators)
for k in OPTIMIZER_SHARED_CONFIGS:
if k not in self.config["optimizer_config"]:
self.config["optimizer_config"][k] = self.config[k]
self.optimizer = getattr(optimizers, self.config["optimizer_class"])(
self.config["optimizer_config"], self.local_evaluator,
self.remote_evaluators)
self.saver = tf.train.Saver(max_to_keep=None)
self.last_target_update_ts = 0
self.num_target_updates = 0
@property
def global_timestep(self):
return self.optimizer.num_steps_sampled
def update_target_if_needed(self):
if self.global_timestep - self.last_target_update_ts > \
self.config["target_network_update_freq"]:
self.local_evaluator.update_target()
self.last_target_update_ts = self.global_timestep
self.num_target_updates += 1
def _train(self):
start_timestep = self.global_timestep
while (self.global_timestep - start_timestep <
self.config["timesteps_per_iteration"]):
self.optimizer.step()
self.update_target_if_needed()
self.local_evaluator.set_global_timestep(self.global_timestep)
for e in self.remote_evaluators:
e.set_global_timestep.remote(self.global_timestep)
return self._train_stats(start_timestep)
def _train_stats(self, start_timestep):
if self.remote_evaluators:
stats = ray.get([
e.stats.remote() for e in self.remote_evaluators])
else:
stats = self.local_evaluator.stats()
if not isinstance(stats, list):
stats = [stats]
mean_100ep_reward = 0.0
mean_100ep_length = 0.0
num_episodes = 0
explorations = []
if self.config["per_worker_exploration"]:
# Return stats from workers with the lowest 20% of exploration
test_stats = stats[-int(max(1, len(stats)*0.2)):]
else:
test_stats = stats
for s in test_stats:
mean_100ep_reward += s["mean_100ep_reward"] / len(test_stats)
mean_100ep_length += s["mean_100ep_length"] / len(test_stats)
for s in stats:
num_episodes += s["num_episodes"]
explorations.append(s["exploration"])
opt_stats = self.optimizer.stats()
result = TrainingResult(
episode_reward_mean=mean_100ep_reward,
episode_len_mean=mean_100ep_length,
episodes_total=num_episodes,
timesteps_this_iter=self.global_timestep - start_timestep,
info=dict({
"min_exploration": min(explorations),
"max_exploration": max(explorations),
"num_target_updates": self.num_target_updates,
}, **opt_stats))
return result
def _populate_replay_buffer(self):
if self.remote_evaluators:
for e in self.remote_evaluators:
e.sample.remote(no_replay=True)
else:
self.local_evaluator.sample(no_replay=True)
def _stop(self):
# workaround for https://github.com/ray-project/ray/issues/1516
for ev in self.remote_evaluators:
ev.__ray_terminate__.remote(ev._ray_actor_id.id())
def _save(self, checkpoint_dir):
checkpoint_path = self.saver.save(
self.local_evaluator.sess,
os.path.join(checkpoint_dir, "checkpoint"),
global_step=self.iteration)
extra_data = [
self.local_evaluator.save(),
ray.get([e.save.remote() for e in self.remote_evaluators]),
self.optimizer.save(),
self.num_target_updates,
self.last_target_update_ts]
pickle.dump(extra_data, open(checkpoint_path + ".extra_data", "wb"))
return checkpoint_path
def _restore(self, checkpoint_path):
self.saver.restore(self.local_evaluator.sess, checkpoint_path)
extra_data = pickle.load(open(checkpoint_path + ".extra_data", "rb"))
self.local_evaluator.restore(extra_data[0])
ray.get([
e.restore.remote(d) for (d, e)
in zip(extra_data[1], self.remote_evaluators)])
self.optimizer.restore(extra_data[2])
self.num_target_updates = extra_data[3]
self.last_target_update_ts = extra_data[4]
def compute_action(self, observation):
return self.local_evaluator.dqn_graph.act(
self.local_evaluator.sess, np.array(observation)[None], 0.0)[0]
class DQNAgent(Agent):
_agent_name = "DQN"
_allow_unknown_subkeys = [
"model", "optimizer", "tf_session_args", "env_config"]
_default_config = DEFAULT_CONFIG
@classmethod
def default_resource_request(cls, config):
cf = dict(cls._default_config, **config)
return Resources(
cpu=1, gpu=cf["gpu"] and 1 or 0,
extra_cpu=cf["num_cpus_per_worker"] * cf["num_workers"],
extra_gpu=cf["num_gpus_per_worker"] * cf["num_workers"])
def _init(self):
self.local_evaluator = DQNEvaluator(
self.registry, self.env_creator, self.config, self.logdir, 0)
remote_cls = ray.remote(
num_cpus=self.config["num_cpus_per_worker"],
num_gpus=self.config["num_gpus_per_worker"])(
DQNEvaluator)
self.remote_evaluators = [
remote_cls.remote(
self.registry, self.env_creator, self.config, self.logdir,
i)
for i in range(self.config["num_workers"])]
for k in OPTIMIZER_SHARED_CONFIGS:
if k not in self.config["optimizer_config"]:
self.config["optimizer_config"][k] = self.config[k]
self.optimizer = getattr(optimizers, self.config["optimizer_class"])(
self.config["optimizer_config"], self.local_evaluator,
self.remote_evaluators)
self.saver = tf.train.Saver(max_to_keep=None)
self.last_target_update_ts = 0
self.num_target_updates = 0
@property
def global_timestep(self):
return self.optimizer.num_steps_sampled
def update_target_if_needed(self):
if self.global_timestep - self.last_target_update_ts > \
self.config["target_network_update_freq"]:
self.local_evaluator.update_target()
self.last_target_update_ts = self.global_timestep
self.num_target_updates += 1
def _train(self):
start_timestep = self.global_timestep
while (self.global_timestep - start_timestep <
self.config["timesteps_per_iteration"]):
self.optimizer.step()
self.update_target_if_needed()
self.local_evaluator.set_global_timestep(self.global_timestep)
for e in self.remote_evaluators:
e.set_global_timestep.remote(self.global_timestep)
return self._train_stats(start_timestep)
def _train_stats(self, start_timestep):
if self.remote_evaluators:
stats = ray.get([
e.stats.remote() for e in self.remote_evaluators])
else:
stats = self.local_evaluator.stats()
if not isinstance(stats, list):
stats = [stats]
mean_100ep_reward = 0.0
mean_100ep_length = 0.0
num_episodes = 0
explorations = []
if self.config["per_worker_exploration"]:
# Return stats from workers with the lowest 20% of exploration
test_stats = stats[-int(max(1, len(stats)*0.2)):]
else:
test_stats = stats
for s in test_stats:
mean_100ep_reward += s["mean_100ep_reward"] / len(test_stats)
mean_100ep_length += s["mean_100ep_length"] / len(test_stats)
for s in stats:
num_episodes += s["num_episodes"]
explorations.append(s["exploration"])
opt_stats = self.optimizer.stats()
result = TrainingResult(
episode_reward_mean=mean_100ep_reward,
episode_len_mean=mean_100ep_length,
episodes_total=num_episodes,
timesteps_this_iter=self.global_timestep - start_timestep,
info=dict({
"min_exploration": min(explorations),
"max_exploration": max(explorations),
"num_target_updates": self.num_target_updates,
}, **opt_stats))
return result
def _stop(self):
# workaround for https://github.com/ray-project/ray/issues/1516
for ev in self.remote_evaluators:
ev.__ray_terminate__.remote()
def _save(self, checkpoint_dir):
checkpoint_path = self.saver.save(
self.local_evaluator.sess,
os.path.join(checkpoint_dir, "checkpoint"),
global_step=self.iteration)
extra_data = [
self.local_evaluator.save(),
ray.get([e.save.remote() for e in self.remote_evaluators]),
self.optimizer.save(),
self.num_target_updates,
self.last_target_update_ts]
pickle.dump(extra_data, open(checkpoint_path + ".extra_data", "wb"))
return checkpoint_path
def _restore(self, checkpoint_path):
self.saver.restore(self.local_evaluator.sess, checkpoint_path)
extra_data = pickle.load(open(checkpoint_path + ".extra_data", "rb"))
self.local_evaluator.restore(extra_data[0])
ray.get([
e.restore.remote(d) for (d, e)
in zip(extra_data[1], self.remote_evaluators)])
self.optimizer.restore(extra_data[2])
self.num_target_updates = extra_data[3]
self.last_target_update_ts = extra_data[4]
def compute_action(self, observation):
return self.local_evaluator.dqn_graph.act(
self.local_evaluator.sess, np.array(observation)[None], 0.0)[0]
def stats(self):
if self.workers:
return ray.get([s.stats.remote() for s in self.workers])
else:
return DQNEvaluator.stats(self)