Unity 机器学习代理工具包 (ML-Agents) 是一个开源项目,它使游戏和模拟能够作为训练智能代理的环境。
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211 行
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import pytest
from mlagents.torch_utils import torch
from mlagents.trainers.torch.networks import (
NetworkBody,
ValueNetwork,
SimpleActor,
SharedActorCritic,
SeparateActorCritic,
)
from mlagents.trainers.settings import NetworkSettings
from mlagents_envs.base_env import ActionType
from mlagents.trainers.torch.distributions import (
GaussianDistInstance,
CategoricalDistInstance,
)
def test_networkbody_vector():
torch.manual_seed(0)
obs_size = 4
network_settings = NetworkSettings()
obs_shapes = [(obs_size,)]
networkbody = NetworkBody(obs_shapes, network_settings, encoded_act_size=2)
optimizer = torch.optim.Adam(networkbody.parameters(), lr=3e-3)
sample_obs = 0.1 * torch.ones((1, obs_size))
sample_act = 0.1 * torch.ones((1, 2))
for _ in range(300):
encoded, _ = networkbody([sample_obs], [], sample_act)
assert encoded.shape == (1, network_settings.hidden_units)
# Try to force output to 1
loss = torch.nn.functional.mse_loss(encoded, torch.ones(encoded.shape))
optimizer.zero_grad()
loss.backward()
optimizer.step()
# In the last step, values should be close to 1
for _enc in encoded.flatten():
assert _enc == pytest.approx(1.0, abs=0.1)
def test_networkbody_lstm():
torch.manual_seed(0)
obs_size = 4
seq_len = 16
network_settings = NetworkSettings(
memory=NetworkSettings.MemorySettings(sequence_length=seq_len, memory_size=12)
)
obs_shapes = [(obs_size,)]
networkbody = NetworkBody(obs_shapes, network_settings)
optimizer = torch.optim.Adam(networkbody.parameters(), lr=3e-4)
sample_obs = torch.ones((1, seq_len, obs_size))
for _ in range(200):
encoded, _ = networkbody([sample_obs], [], memories=torch.ones(1, seq_len, 12))
# Try to force output to 1
loss = torch.nn.functional.mse_loss(encoded, torch.ones(encoded.shape))
optimizer.zero_grad()
loss.backward()
optimizer.step()
# In the last step, values should be close to 1
for _enc in encoded.flatten():
assert _enc == pytest.approx(1.0, abs=0.1)
def test_networkbody_visual():
torch.manual_seed(0)
vec_obs_size = 4
obs_size = (84, 84, 3)
network_settings = NetworkSettings()
obs_shapes = [(vec_obs_size,), obs_size]
networkbody = NetworkBody(obs_shapes, network_settings)
optimizer = torch.optim.Adam(networkbody.parameters(), lr=3e-3)
sample_obs = 0.1 * torch.ones((1, 84, 84, 3))
sample_vec_obs = torch.ones((1, vec_obs_size))
for _ in range(150):
encoded, _ = networkbody([sample_vec_obs], [sample_obs])
assert encoded.shape == (1, network_settings.hidden_units)
# Try to force output to 1
loss = torch.nn.functional.mse_loss(encoded, torch.ones(encoded.shape))
optimizer.zero_grad()
loss.backward()
optimizer.step()
# In the last step, values should be close to 1
for _enc in encoded.flatten():
assert _enc == pytest.approx(1.0, abs=0.1)
def test_valuenetwork():
torch.manual_seed(0)
obs_size = 4
num_outputs = 2
network_settings = NetworkSettings()
obs_shapes = [(obs_size,)]
stream_names = [f"stream_name{n}" for n in range(4)]
value_net = ValueNetwork(
stream_names, obs_shapes, network_settings, outputs_per_stream=num_outputs
)
optimizer = torch.optim.Adam(value_net.parameters(), lr=3e-3)
for _ in range(50):
sample_obs = torch.ones((1, obs_size))
values, _ = value_net([sample_obs], [])
loss = 0
for s_name in stream_names:
assert values[s_name].shape == (1, num_outputs)
# Try to force output to 1
loss += torch.nn.functional.mse_loss(
values[s_name], torch.ones((1, num_outputs))
)
optimizer.zero_grad()
loss.backward()
optimizer.step()
# In the last step, values should be close to 1
for value in values.values():
for _out in value:
assert _out[0] == pytest.approx(1.0, abs=0.1)
@pytest.mark.parametrize("action_type", [ActionType.DISCRETE, ActionType.CONTINUOUS])
def test_simple_actor(action_type):
obs_size = 4
network_settings = NetworkSettings()
obs_shapes = [(obs_size,)]
act_size = [2]
masks = None if action_type == ActionType.CONTINUOUS else torch.ones((1, 1))
actor = SimpleActor(obs_shapes, network_settings, action_type, act_size)
# Test get_dist
sample_obs = torch.ones((1, obs_size))
dists, _ = actor.get_dists([sample_obs], [], masks=masks)
for dist in dists:
if action_type == ActionType.CONTINUOUS:
assert isinstance(dist, GaussianDistInstance)
else:
assert isinstance(dist, CategoricalDistInstance)
# Test sample_actions
actions = actor.sample_action(dists)
for act in actions:
if action_type == ActionType.CONTINUOUS:
assert act.shape == (1, act_size[0])
else:
assert act.shape == (1, 1)
# Test forward
actions, ver_num, mem_size, is_cont, act_size_vec = actor.forward(
[sample_obs], [], masks=masks
)
for act in actions:
# This is different from above for ONNX export
if action_type == ActionType.CONTINUOUS:
assert act.shape == (act_size[0], 1)
else:
assert act.shape == tuple(act_size)
assert mem_size == 0
assert is_cont == int(action_type == ActionType.CONTINUOUS)
assert act_size_vec == torch.tensor(act_size)
@pytest.mark.parametrize("ac_type", [SharedActorCritic, SeparateActorCritic])
@pytest.mark.parametrize("lstm", [True, False])
def test_actor_critic(ac_type, lstm):
obs_size = 4
network_settings = NetworkSettings(
memory=NetworkSettings.MemorySettings() if lstm else None
)
obs_shapes = [(obs_size,)]
act_size = [2]
stream_names = [f"stream_name{n}" for n in range(4)]
actor = ac_type(
obs_shapes, network_settings, ActionType.CONTINUOUS, act_size, stream_names
)
if lstm:
sample_obs = torch.ones((1, network_settings.memory.sequence_length, obs_size))
memories = torch.ones(
(1, network_settings.memory.sequence_length, actor.memory_size)
)
else:
sample_obs = torch.ones((1, obs_size))
memories = torch.tensor([])
# memories isn't always set to None, the network should be able to
# deal with that.
# Test critic pass
value_out, memories_out = actor.critic_pass([sample_obs], [], memories=memories)
for stream in stream_names:
if lstm:
assert value_out[stream].shape == (network_settings.memory.sequence_length,)
assert memories_out.shape == memories.shape
else:
assert value_out[stream].shape == (1,)
# Test get_dist_and_value
dists, value_out, mem_out = actor.get_dist_and_value(
[sample_obs], [], memories=memories
)
if mem_out is not None:
assert mem_out.shape == memories.shape
for dist in dists:
assert isinstance(dist, GaussianDistInstance)
for stream in stream_names:
if lstm:
assert value_out[stream].shape == (network_settings.memory.sequence_length,)
else:
assert value_out[stream].shape == (1,)