def test_update_q_dqn(self,
mock_parameters,
mock_replay_memory):
self._setup_parameters(mock_parameters.return_value)
self._setup_replay_memory(mock_replay_memory.return_value)
action_space = spaces.Discrete(2)
observation_space = spaces.Box(0, 1, (1,))
sut = QLearning('', observation_space, action_space)
sut._q.eval = \
MagicMock(return_value=np.array([[[0.2, 0.1]]], np.float32))
sut._target_q.eval = \
MagicMock(return_value=np.array([[[0.3, 0.4]]], np.float32))
sut._trainer = MagicMock()
sut._update_q_periodically()
np.testing.assert_array_equal(
sut._trainer.train_minibatch.call_args[0][0][sut._input_variables],
[np.array([0.1], np.float32)])
# 10 (reward) + 0.9 (gamma) x 0.4 (max q_target) -> update action 0
np.testing.assert_array_equal(
sut._trainer.train_minibatch.call_args[0][0][sut._output_variables],
[np.array([10.36, 0.1], np.float32)])
def test_update_q_dqn_prioritized_replay(self,
mock_parameters,
mock_replay_memory):
self._setup_parameters(mock_parameters.return_value)
mock_parameters.return_value.use_prioritized_replay = True
self._setup_prioritized_replay_memory(mock_replay_memory.return_value)
action_space = spaces.Discrete(2)
observation_space = spaces.Box(0, 1, (1,))
sut = QLearning('', observation_space, action_space)
def new_q_value(self):
return np.array([[[0.2, 0.1]]], np.float32)
sut._q.eval = MagicMock(side_effect=new_q_value)
sut._target_q.eval = MagicMock(
return_value=np.array([[[0.3, 0.4]]], np.float32))
sut._trainer = MagicMock()
sut._update_q_periodically()
self.assertEqual(sut._trainer.train_minibatch.call_count, 1)
np.testing.assert_array_equal(
sut._trainer.train_minibatch.call_args[0][0][sut._input_variables],
[
np.array([0.1], np.float32),
np.array([0.3], np.float32),
np.array([0.1], np.float32)
])
np.testing.assert_array_equal(
sut._trainer.train_minibatch.call_args[0][0][sut._output_variables],
[
# 10 (reward) + 0.9 (gamma) x 0.4 (max q_target)
np.array([10.36, 0.1], np.float32),
# 11 (reward) + 0.9 (gamma) x 0.4 (max q_target)
np.array([0.2, 11.36], np.float32),
np.array([10.36, 0.1], np.float32)
])
np.testing.assert_almost_equal(
sut._trainer.train_minibatch.call_args[0][0][sut._weight_variables],
[
[0.16666667],
[0.66666667],
[0.16666667]
])
self.assertAlmostEqual(
sut._replay_memory.update_priority.call_args[0][0][3],
105.2676) # (10.16 + 0.1)^2
self.assertAlmostEqual(
sut._replay_memory.update_priority.call_args[0][0][4],
129.0496,
places=6) # (11.26 + 0.1) ^ 2
def test_populate_replay_memory(self, mock_parameters):
self._setup_parameters(mock_parameters.return_value)
mock_parameters.return_value.preprocessing = \
'cntk.contrib.deeprl.agent.shared.preprocessing.SlidingWindow'
mock_parameters.return_value.preprocessing_args = '(2, )'
action_space = spaces.Discrete(2)
observation_space = spaces.Box(0, 1, (1,))
sut = QLearning('', observation_space, action_space)
sut._compute_priority = Mock(side_effect=[1, 2, 3])
sut._choose_action = Mock(
side_effect=[(0, ''), (0, ''), (1, ''), (1, '')])
sut._replay_memory = MagicMock()
sut._update_q_periodically = MagicMock()
sut.start(np.array([0.1], np.float32))
sut.step(0.1, np.array([0.2], np.float32))
sut.step(0.2, np.array([0.3], np.float32))
sut.end(0.3, np.array([0.4], np.float32))
self.assertEqual(sut._replay_memory.store.call_count, 3)
call_args = sut._replay_memory.store.call_args_list[0]
np.testing.assert_array_equal(
call_args[0][0],
np.array([[0], [0.1]], np.float32))
self.assertEqual(call_args[0][1], 0)
self.assertEqual(call_args[0][2], 0.1)
np.testing.assert_array_equal(
call_args[0][3],
np.array([[0.1], [0.2]], np.float32))
self.assertEqual(call_args[0][4], 1)
call_args = sut._replay_memory.store.call_args_list[2]
np.testing.assert_array_equal(
call_args[0][0],
np.array([[0.2], [0.3]], np.float32))
self.assertEqual(call_args[0][1], 1)
self.assertEqual(call_args[0][2], 0.3)
self.assertIsNone(call_args[0][3])
self.assertEqual(call_args[0][4], 3)