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219 行
7.6 KiB
219 行
7.6 KiB
import unittest.mock as mock
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import pytest
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import os
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import numpy as np
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from mlagents.tf_utils import tf
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import yaml
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from mlagents.trainers.bc.models import BehavioralCloningModel
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import mlagents.trainers.tests.mock_brain as mb
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from mlagents.trainers.bc.policy import BCPolicy
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from mlagents.trainers.bc.offline_trainer import BCTrainer
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from mlagents.envs.environment import UnityEnvironment
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from mlagents.envs.mock_communicator import MockCommunicator
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from mlagents.trainers.tests.mock_brain import make_brain_parameters
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@pytest.fixture
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def dummy_config():
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return yaml.safe_load(
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"""
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hidden_units: 32
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learning_rate: 3.0e-4
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num_layers: 1
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use_recurrent: false
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sequence_length: 32
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memory_size: 32
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batches_per_epoch: 1
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batch_size: 32
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summary_freq: 2000
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max_steps: 4000
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"""
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)
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def create_bc_trainer(dummy_config, is_discrete=False):
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mock_env = mock.Mock()
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if is_discrete:
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mock_brain = mb.create_mock_pushblock_brain()
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mock_braininfo = mb.create_mock_braininfo(
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num_agents=12, num_vector_observations=70
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)
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else:
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mock_brain = mb.create_mock_3dball_brain()
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mock_braininfo = mb.create_mock_braininfo(
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num_agents=12, num_vector_observations=8
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)
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mb.setup_mock_unityenvironment(mock_env, mock_brain, mock_braininfo)
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env = mock_env()
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trainer_parameters = dummy_config
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trainer_parameters["summary_path"] = "tmp"
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trainer_parameters["model_path"] = "tmp"
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trainer_parameters["demo_path"] = (
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os.path.dirname(os.path.abspath(__file__)) + "/test.demo"
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)
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trainer = BCTrainer(
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mock_brain, trainer_parameters, training=True, load=False, seed=0, run_id=0
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)
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trainer.demonstration_buffer = mb.simulate_rollout(env, trainer.policy, 100)
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return trainer, env
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def test_bc_trainer_step(dummy_config):
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trainer, env = create_bc_trainer(dummy_config)
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# Test get_step
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assert trainer.get_step == 0
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# Test update policy
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trainer.update_policy()
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assert len(trainer.stats["Losses/Cloning Loss"]) > 0
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# Test increment step
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trainer.increment_step(1)
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assert trainer.step == 1
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def test_bc_trainer_add_proc_experiences(dummy_config):
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trainer, env = create_bc_trainer(dummy_config)
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# Test add_experiences
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returned_braininfo = env.step()
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trainer.add_experiences(
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returned_braininfo, returned_braininfo, {}
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) # Take action outputs is not used
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for agent_id in returned_braininfo["Ball3DBrain"].agents:
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assert trainer.evaluation_buffer[agent_id].last_brain_info is not None
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assert trainer.episode_steps[agent_id] > 0
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assert trainer.cumulative_rewards[agent_id] > 0
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# Test process_experiences by setting done
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returned_braininfo["Ball3DBrain"].local_done = 12 * [True]
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trainer.process_experiences(returned_braininfo, returned_braininfo)
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for agent_id in returned_braininfo["Ball3DBrain"].agents:
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assert trainer.episode_steps[agent_id] == 0
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assert trainer.cumulative_rewards[agent_id] == 0
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def test_bc_trainer_end_episode(dummy_config):
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trainer, env = create_bc_trainer(dummy_config)
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returned_braininfo = env.step()
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trainer.add_experiences(
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returned_braininfo, returned_braininfo, {}
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) # Take action outputs is not used
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trainer.process_experiences(returned_braininfo, returned_braininfo)
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# Should set everything to 0
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trainer.end_episode()
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for agent_id in returned_braininfo["Ball3DBrain"].agents:
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assert trainer.episode_steps[agent_id] == 0
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assert trainer.cumulative_rewards[agent_id] == 0
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@mock.patch("mlagents.envs.environment.UnityEnvironment.executable_launcher")
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@mock.patch("mlagents.envs.environment.UnityEnvironment.get_communicator")
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def test_bc_policy_evaluate(mock_communicator, mock_launcher, dummy_config):
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tf.reset_default_graph()
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mock_communicator.return_value = MockCommunicator(
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discrete_action=False, visual_inputs=0
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)
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env = UnityEnvironment(" ")
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brain_infos = env.reset()
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brain_info = brain_infos[env.external_brain_names[0]]
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trainer_parameters = dummy_config
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model_path = env.external_brain_names[0]
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trainer_parameters["model_path"] = model_path
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trainer_parameters["keep_checkpoints"] = 3
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policy = BCPolicy(
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0, env.brains[env.external_brain_names[0]], trainer_parameters, False
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)
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run_out = policy.evaluate(brain_info)
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assert run_out["action"].shape == (3, 2)
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env.close()
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def test_cc_bc_model():
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tf.reset_default_graph()
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with tf.Session() as sess:
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with tf.variable_scope("FakeGraphScope"):
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model = BehavioralCloningModel(
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make_brain_parameters(discrete_action=False, visual_inputs=0)
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)
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init = tf.global_variables_initializer()
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sess.run(init)
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run_list = [model.sample_action, model.policy]
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feed_dict = {
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model.batch_size: 2,
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model.sequence_length: 1,
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model.vector_in: np.array([[1, 2, 3, 1, 2, 3], [3, 4, 5, 3, 4, 5]]),
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}
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sess.run(run_list, feed_dict=feed_dict)
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# env.close()
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def test_dc_bc_model():
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tf.reset_default_graph()
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with tf.Session() as sess:
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with tf.variable_scope("FakeGraphScope"):
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model = BehavioralCloningModel(
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make_brain_parameters(discrete_action=True, visual_inputs=0)
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)
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init = tf.global_variables_initializer()
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sess.run(init)
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run_list = [model.sample_action, model.action_probs]
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feed_dict = {
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model.batch_size: 2,
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model.dropout_rate: 1.0,
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model.sequence_length: 1,
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model.vector_in: np.array([[1, 2, 3, 1, 2, 3], [3, 4, 5, 3, 4, 5]]),
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model.action_masks: np.ones([2, 2]),
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}
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sess.run(run_list, feed_dict=feed_dict)
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def test_visual_dc_bc_model():
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tf.reset_default_graph()
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with tf.Session() as sess:
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with tf.variable_scope("FakeGraphScope"):
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model = BehavioralCloningModel(
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make_brain_parameters(discrete_action=True, visual_inputs=2)
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)
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init = tf.global_variables_initializer()
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sess.run(init)
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run_list = [model.sample_action, model.action_probs]
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feed_dict = {
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model.batch_size: 2,
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model.dropout_rate: 1.0,
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model.sequence_length: 1,
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model.vector_in: np.array([[1, 2, 3, 1, 2, 3], [3, 4, 5, 3, 4, 5]]),
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model.visual_in[0]: np.ones([2, 40, 30, 3]),
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model.visual_in[1]: np.ones([2, 40, 30, 3]),
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model.action_masks: np.ones([2, 2]),
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}
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sess.run(run_list, feed_dict=feed_dict)
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def test_visual_cc_bc_model():
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tf.reset_default_graph()
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with tf.Session() as sess:
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with tf.variable_scope("FakeGraphScope"):
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model = BehavioralCloningModel(
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make_brain_parameters(discrete_action=False, visual_inputs=2)
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)
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init = tf.global_variables_initializer()
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sess.run(init)
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run_list = [model.sample_action, model.policy]
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feed_dict = {
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model.batch_size: 2,
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model.sequence_length: 1,
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model.vector_in: np.array([[1, 2, 3, 1, 2, 3], [3, 4, 5, 3, 4, 5]]),
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model.visual_in[0]: np.ones([2, 40, 30, 3]),
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model.visual_in[1]: np.ones([2, 40, 30, 3]),
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}
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sess.run(run_list, feed_dict=feed_dict)
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if __name__ == "__main__":
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pytest.main()
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