def test_vec_transpose_skip(tmp_path, model_class):
# Fake grayscale with frameskip
env = FakeImageEnv(screen_height=41,
screen_width=40,
n_channels=10,
discrete=model_class not in {SAC, TD3},
channel_first=True)
env = DummyVecEnv([lambda: env])
# Stack 5 frames so the observation is now (50, 40, 40) but the env is still channel first
env = VecFrameStack(env, 5, channels_order="first")
obs_shape_before = env.reset().shape
# The observation space should be different as the heuristic thinks it is channel last
assert not np.allclose(obs_shape_before,
VecTransposeImage(env).reset().shape)
env = VecTransposeImage(env, skip=True)
# The observation space should be the same as we skip the VecTransposeImage
assert np.allclose(obs_shape_before, env.reset().shape)
kwargs = dict(
n_steps=64,
policy_kwargs=dict(features_extractor_kwargs=dict(features_dim=32)),
seed=1,
)
model = model_class("CnnPolicy", env, **kwargs).learn(250)
obs = env.reset()
action, _ = model.predict(obs, deterministic=True)
def test_channel_first_env(tmp_path):
# test_cnn uses environment with HxWxC setup that is transposed, but we
# also want to work with CxHxW envs directly without transposing wrapper.
SAVE_NAME = "cnn_model.zip"
# Create environment with transposed images (CxHxW).
# If underlying CNN processes the data in wrong format,
# it will raise an error of negative dimension sizes while creating convolutions
env = FakeImageEnv(screen_height=40,
screen_width=40,
n_channels=1,
discrete=True,
channel_first=True)
model = A2C("CnnPolicy", env, n_steps=100).learn(250)
assert not is_vecenv_wrapped(model.get_env(), VecTransposeImage)
obs = env.reset()
action, _ = model.predict(obs, deterministic=True)
model.save(tmp_path / SAVE_NAME)
del model
model = A2C.load(tmp_path / SAVE_NAME)
# Check that the prediction is the same
assert np.allclose(action, model.predict(obs, deterministic=True)[0])
os.remove(str(tmp_path / SAVE_NAME))
def test_non_default_spaces(new_obs_space):
env = FakeImageEnv()
env.observation_space = new_obs_space
# Patch methods to avoid errors
env.reset = new_obs_space.sample
def patched_step(_action):
return new_obs_space.sample(), 0.0, False, {}
env.step = patched_step
with pytest.warns(UserWarning):
check_env(env)
def test_cnn(tmp_path, model_class):
SAVE_NAME = "cnn_model.zip"
# Fake grayscale with frameskip
# Atari after preprocessing: 84x84x1, here we are using lower resolution
# to check that the network handle it automatically
env = FakeImageEnv(
screen_height=40,
screen_width=40,
n_channels=1,
discrete=model_class not in {TQC},
)
kwargs = {}
if model_class in {TQC, QRDQN}:
# Avoid memory error when using replay buffer
# Reduce the size of the features and the number of quantiles
kwargs = dict(
buffer_size=250,
policy_kwargs=dict(
n_quantiles=25,
features_extractor_kwargs=dict(features_dim=32),
),
)
model = model_class("CnnPolicy", env, **kwargs).learn(250)
obs = env.reset()
# FakeImageEnv is channel last by default and should be wrapped
assert is_vecenv_wrapped(model.get_env(), VecTransposeImage)
# Test stochastic predict with channel last input
if model_class == QRDQN:
model.exploration_rate = 0.9
for _ in range(10):
model.predict(obs, deterministic=False)
action, _ = model.predict(obs, deterministic=True)
model.save(tmp_path / SAVE_NAME)
del model
model = model_class.load(tmp_path / SAVE_NAME)
# Check that the prediction is the same
assert np.allclose(action, model.predict(obs, deterministic=True)[0])
os.remove(str(tmp_path / SAVE_NAME))
def test_save_load_q_net(tmp_path, model_class, policy_str):
"""
Test saving and loading q-network/quantile net only.
:param model_class: (BaseAlgorithm) A RL model
:param policy_str: (str) Name of the policy.
"""
kwargs = dict(policy_kwargs=dict(net_arch=[16]))
if policy_str == "MlpPolicy":
env = select_env(model_class)
else:
if model_class in [DQN]:
# Avoid memory error when using replay buffer
# Reduce the size of the features
kwargs = dict(
buffer_size=250,
learning_starts=100,
policy_kwargs=dict(features_extractor_kwargs=dict(
features_dim=32)),
)
env = FakeImageEnv(screen_height=40,
screen_width=40,
n_channels=2,
discrete=model_class == DQN)
env = DummyVecEnv([lambda: env])
# create model
model = model_class(policy_str, env, verbose=1, **kwargs)
model.learn(total_timesteps=300)
env.reset()
observations = np.concatenate(
[env.step([env.action_space.sample()])[0] for _ in range(10)], axis=0)
q_net = model.q_net
q_net_class = q_net.__class__
# Get dictionary of current parameters
params = deepcopy(q_net.state_dict())
# Modify all parameters to be random values
random_params = dict((param_name, th.rand_like(param))
for param_name, param in params.items())
# Update model parameters with the new random values
q_net.load_state_dict(random_params)
new_params = q_net.state_dict()
# Check that all params are different now
for k in params:
assert not th.allclose(
params[k], new_params[k]), "Parameters did not change as expected."
params = new_params
# get selected actions
selected_actions, _ = q_net.predict(observations, deterministic=True)
# Save and load q_net
q_net.save(tmp_path / "q_net.pkl")
del q_net
q_net = q_net_class.load(tmp_path / "q_net.pkl")
# check if params are still the same after load
new_params = q_net.state_dict()
# Check that all params are the same as before save load procedure now
for key in params:
assert th.allclose(
params[key], new_params[key]
), "Policy parameters not the same after save and load."
# check if model still selects the same actions
new_selected_actions, _ = q_net.predict(observations, deterministic=True)
assert np.allclose(selected_actions, new_selected_actions, 1e-4)
# clear file from os
os.remove(tmp_path / "q_net.pkl")
def test_save_load_policy(tmp_path, model_class, policy_str, use_sde):
"""
Test saving and loading policy only.
:param model_class: (BaseAlgorithm) A RL model
:param policy_str: (str) Name of the policy.
"""
kwargs = dict(policy_kwargs=dict(net_arch=[16]))
# gSDE is only applicable for A2C, PPO and SAC
if use_sde and model_class not in [A2C, PPO, SAC]:
pytest.skip()
if policy_str == "MlpPolicy":
env = select_env(model_class)
else:
if model_class in [SAC, TD3, DQN, DDPG]:
# Avoid memory error when using replay buffer
# Reduce the size of the features
kwargs = dict(buffer_size=250,
learning_starts=100,
policy_kwargs=dict(features_extractor_kwargs=dict(
features_dim=32)))
env = FakeImageEnv(screen_height=40,
screen_width=40,
n_channels=2,
discrete=model_class == DQN)
if use_sde:
kwargs["use_sde"] = True
env = DummyVecEnv([lambda: env])
# create model
model = model_class(policy_str, env, verbose=1, **kwargs)
model.learn(total_timesteps=300)
env.reset()
observations = np.concatenate(
[env.step([env.action_space.sample()])[0] for _ in range(10)], axis=0)
policy = model.policy
policy_class = policy.__class__
actor, actor_class = None, None
if model_class in [SAC, TD3]:
actor = policy.actor
actor_class = actor.__class__
# Get dictionary of current parameters
params = deepcopy(policy.state_dict())
# Modify all parameters to be random values
random_params = dict((param_name, th.rand_like(param))
for param_name, param in params.items())
# Update model parameters with the new random values
policy.load_state_dict(random_params)
new_params = policy.state_dict()
# Check that all params are different now
for k in params:
assert not th.allclose(
params[k], new_params[k]), "Parameters did not change as expected."
params = new_params
# get selected actions
selected_actions, _ = policy.predict(observations, deterministic=True)
# Should also work with the actor only
if actor is not None:
selected_actions_actor, _ = actor.predict(observations,
deterministic=True)
# Save and load policy
policy.save(tmp_path / "policy.pkl")
# Save and load actor
if actor is not None:
actor.save(tmp_path / "actor.pkl")
del policy, actor
policy = policy_class.load(tmp_path / "policy.pkl")
if actor_class is not None:
actor = actor_class.load(tmp_path / "actor.pkl")
# check if params are still the same after load
new_params = policy.state_dict()
# Check that all params are the same as before save load procedure now
for key in params:
assert th.allclose(
params[key], new_params[key]
), "Policy parameters not the same after save and load."
# check if model still selects the same actions
new_selected_actions, _ = policy.predict(observations, deterministic=True)
assert np.allclose(selected_actions, new_selected_actions, 1e-4)
if actor_class is not None:
new_selected_actions_actor, _ = actor.predict(observations,
deterministic=True)
assert np.allclose(selected_actions_actor, new_selected_actions_actor,
1e-4)
assert np.allclose(selected_actions_actor, new_selected_actions, 1e-4)
# clear file from os
os.remove(tmp_path / "policy.pkl")
if actor_class is not None:
os.remove(tmp_path / "actor.pkl")