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Tianshou/tianshou/env/vecenv.py
Minghao Zhang 3c0a09fefd
minor reformat (#2) 
* update atari.py

* fix setup.py
pass the pytest

* fix setup.py
pass the pytest
2020-03-26 09:01:20 +08:00

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import numpy as np
from abc import ABC, abstractmethod
from multiprocessing import Process, Pipe
try:
import ray
except ImportError:
pass
from tianshou.env import EnvWrapper, CloudpickleWrapper
class BaseVectorEnv(ABC):
def __init__(self, env_fns):
self._env_fns = env_fns
self.env_num = len(env_fns)
def __len__(self):
return self.env_num
@abstractmethod
def reset(self):
pass
@abstractmethod
def step(self, action):
pass
@abstractmethod
def seed(self, seed=None):
pass
@abstractmethod
def render(self, **kwargs):
pass
@abstractmethod
def close(self):
pass
class VectorEnv(BaseVectorEnv):
"""docstring for VectorEnv"""
def __init__(self, env_fns):
super().__init__(env_fns)
self.envs = [_() for _ in env_fns]
def reset(self, id=None):
if id is None:
self._obs = np.stack([e.reset() for e in self.envs])
else:
if np.isscalar(id):
id = [id]
for i in id:
self._obs[i] = self.envs[i].reset()
return self._obs
def step(self, action):
assert len(action) == self.env_num
result = [e.step(a) for e, a in zip(self.envs, action)]
self._obs, self._rew, self._done, self._info = zip(*result)
self._obs = np.stack(self._obs)
self._rew = np.stack(self._rew)
self._done = np.stack(self._done)
self._info = np.stack(self._info)
return self._obs, self._rew, self._done, self._info
def seed(self, seed=None):
if np.isscalar(seed):
seed = [seed + _ for _ in range(self.env_num)]
elif seed is None:
seed = [seed] * self.env_num
result = []
for e, s in zip(self.envs, seed):
if hasattr(e, 'seed'):
result.append(e.seed(s))
return result
def render(self, **kwargs):
result = []
for e in self.envs:
if hasattr(e, 'render'):
result.append(e.render(**kwargs))
return result
def close(self):
for e in self.envs:
e.close()
def worker(parent, p, env_fn_wrapper):
parent.close()
env = env_fn_wrapper.data()
try:
while True:
cmd, data = p.recv()
if cmd == 'step':
p.send(env.step(data))
elif cmd == 'reset':
p.send(env.reset())
elif cmd == 'close':
p.close()
break
elif cmd == 'render':
p.send(env.render(**data) if hasattr(env, 'render') else None)
elif cmd == 'seed':
p.send(env.seed(data) if hasattr(env, 'seed') else None)
else:
p.close()
raise NotImplementedError
except KeyboardInterrupt:
p.close()
class SubprocVectorEnv(BaseVectorEnv):
"""docstring for SubProcVectorEnv"""
def __init__(self, env_fns):
super().__init__(env_fns)
self.closed = False
self.parent_remote, self.child_remote = \
zip(*[Pipe() for _ in range(self.env_num)])
self.processes = [
Process(target=worker, args=(
parent, child, CloudpickleWrapper(env_fn)), daemon=True)
for (parent, child, env_fn) in zip(
self.parent_remote, self.child_remote, env_fns)
]
for p in self.processes:
p.start()
for c in self.child_remote:
c.close()
def step(self, action):
assert len(action) == self.env_num
for p, a in zip(self.parent_remote, action):
p.send(['step', a])
result = [p.recv() for p in self.parent_remote]
self._obs, self._rew, self._done, self._info = zip(*result)
self._obs = np.stack(self._obs)
self._rew = np.stack(self._rew)
self._done = np.stack(self._done)
self._info = np.stack(self._info)
return self._obs, self._rew, self._done, self._info
def reset(self, id=None):
if id is None:
for p in self.parent_remote:
p.send(['reset', None])
self._obs = np.stack([p.recv() for p in self.parent_remote])
return self._obs
else:
if np.isscalar(id):
id = [id]
for i in id:
self.parent_remote[i].send(['reset', None])
for i in id:
self._obs[i] = self.parent_remote[i].recv()
return self._obs
def seed(self, seed=None):
if np.isscalar(seed):
seed = [seed + _ for _ in range(self.env_num)]
elif seed is None:
seed = [seed] * self.env_num
for p, s in zip(self.parent_remote, seed):
p.send(['seed', s])
return [p.recv() for p in self.parent_remote]
def render(self, **kwargs):
for p in self.parent_remote:
p.send(['render', kwargs])
return [p.recv() for p in self.parent_remote]
def close(self):
if self.closed:
return
for p in self.parent_remote:
p.send(['close', None])
self.closed = True
for p in self.processes:
p.join()
class RayVectorEnv(BaseVectorEnv):
"""docstring for RayVectorEnv"""
def __init__(self, env_fns):
super().__init__(env_fns)
try:
if not ray.is_initialized():
ray.init()
except NameError:
raise ImportError(
'Please install ray to support RayVectorEnv: pip3 install ray')
self.envs = [
ray.remote(EnvWrapper).options(num_cpus=0).remote(e())
for e in env_fns]
def step(self, action):
assert len(action) == self.env_num
result_obj = [e.step.remote(a) for e, a in zip(self.envs, action)]
result = [ray.get(r) for r in result_obj]
self._obs, self._rew, self._done, self._info = zip(*result)
self._obs = np.stack(self._obs)
self._rew = np.stack(self._rew)
self._done = np.stack(self._done)
self._info = np.stack(self._info)
return self._obs, self._rew, self._done, self._info
def reset(self, id=None):
if id is None:
result_obj = [e.reset.remote() for e in self.envs]
self._obs = np.stack([ray.get(r) for r in result_obj])
else:
result_obj = []
if np.isscalar(id):
id = [id]
for i in id:
result_obj.append(self.envs[i].reset.remote())
for _, i in enumerate(id):
self._obs[i] = ray.get(result_obj[_])
return self._obs
def seed(self, seed=None):
if not hasattr(self.envs[0], 'seed'):
return
if np.isscalar(seed):
seed = [seed + _ for _ in range(self.env_num)]
elif seed is None:
seed = [seed] * self.env_num
result_obj = [e.seed.remote(s) for e, s in zip(self.envs, seed)]
return [ray.get(r) for r in result_obj]
def render(self, **kwargs):
if not hasattr(self.envs[0], 'render'):
return
result_obj = [e.render.remote(**kwargs) for e in self.envs]
return [ray.get(r) for r in result_obj]
def close(self):
result_obj = [e.close.remote() for e in self.envs]
for r in result_obj:
ray.get(r)
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