def setUp(self): self.simulator = create_autospec(Simulator) self.network = ChargingNetwork() self.simulator.network = self.network self.interface = Interface(self.simulator) evse1 = EVSE('PS-001') self.network.register_evse(evse1, 120, -30) evse2 = EVSE('PS-002') evse3 = EVSE('PS-003') self.network.register_evse(evse3, 360, 150) self.network.register_evse(evse2, 240, 90)
def setUp(self) -> None: """ Run this setup function once before each test. """ self.simulator = create_autospec(Simulator) self.network = ChargingNetwork() self.simulator.network = self.network self.interface = Interface(self.simulator) evse1 = EVSE("PS-001") self.network.register_evse(evse1, 120, -30) evse2 = EVSE("PS-002") evse3 = DeadbandEVSE("PS-003") self.network.register_evse(evse3, 360, 150) self.network.register_evse(evse2, 240, 90) # Include a FiniteRatesEVSE for more thorough testing. self.allowable_rates: List[int] = [0, 8, 16, 24, 32] evse4: FiniteRatesEVSE = FiniteRatesEVSE("PS-004", self.allowable_rates) self.network.register_evse(evse4, 120, -30) for i, station_id in enumerate(self.network.station_ids): self.network.add_constraint(Current(station_id), 1, f"C{i+1}")
def setUp(self): start = Mock(datetime) network = ChargingNetwork() evse1 = EVSE("PS-001", max_rate=32) network.register_evse(evse1, 240, 0) evse2 = EVSE("PS-002", max_rate=32) network.register_evse(evse2, 240, 0) evse3 = EVSE("PS-003", max_rate=32) network.register_evse(evse3, 240, 0) self.scheduler = BaseAlgorithm() self.scheduler.max_recompute = None events = EventQueue(events=[Event(1), Event(2)]) self.simulator = Simulator(network, self.scheduler, events, start)
def setUp(self) -> None: """ Run this setup function once before each test. """ self.simulator = create_autospec(Simulator) self.network = ChargingNetwork() self.simulator.network = self.network self.interface = Interface(self.simulator) evse1 = EVSE("PS-001") self.network.register_evse(evse1, 120, -30) evse2 = EVSE("PS-002") evse3 = DeadbandEVSE("PS-003") self.network.register_evse(evse3, 360, 150) self.network.register_evse(evse2, 240, 90) # Include a FiniteRatesEVSE for more thorough testing. self.allowable_rates: List[int] = [0, 8, 16, 24, 32] evse4: FiniteRatesEVSE = FiniteRatesEVSE("PS-004", self.allowable_rates) self.network.register_evse(evse4, 120, -30) self.network.constraint_matrix = np.eye(4) self.network.magnitudes = np.ones((4, 1)) self.network.constraint_index = ["C1", "C2", "C3", "C4"]
class TestInterface(TestCase): def setUp(self): self.simulator = create_autospec(Simulator) self.network = ChargingNetwork() self.simulator.network = self.network self.interface = Interface(self.simulator) evse1 = EVSE('PS-001') self.network.register_evse(evse1, 120, -30) evse2 = EVSE('PS-002') evse3 = EVSE('PS-003') self.network.register_evse(evse3, 360, 150) self.network.register_evse(evse2, 240, 90) def test_init(self): self.assertIs(self.interface._simulator, self.simulator) def test_active_evs(self): _ = self.interface.active_evs() self.simulator.get_active_evs.assert_called_once() def test_last_applied_pilot_signals_low_iteration(self): self.simulator.iteration = 1 self.assertEqual(self.interface.last_applied_pilot_signals, {}) def test_evse_voltage(self): self.assertEqual(self.interface.evse_voltage('PS-002'), 240) def test_is_feasible_empty_schedule(self): self.assertTrue(self.interface.is_feasible({})) def test_is_feasible_unequal_schedules(self): with self.assertRaises(InvalidScheduleError): self.interface.is_feasible({ 'PS-001': [1, 2], 'PS-002': [3, 4, 5], 'PS-003': [4, 5] }) def test_is_feasible(self): # Mock network's is_feasible function to check its call signature later self.network.is_feasible = create_autospec(self.network.is_feasible) _ = self.interface.is_feasible({'PS-001': [1, 2], 'PS-002': [4, 5]}) network_is_feasible_args = self.network.is_feasible.call_args # Check that the call to the network's is_feasible method has the correct arguments np.testing.assert_allclose(network_is_feasible_args[0][0], np.array([[1, 2], [0, 0], [4, 5]])) # Network's is_feasible method has its second argument (linear) defaulting to False. Check this is the case. self.assertEqual(network_is_feasible_args[0][1], False)
def test_update_schedules_infeasible_schedule(self): network = ChargingNetwork() network.register_evse(EVSE("PS-001"), 240, 0) network.register_evse(EVSE("PS-004"), 240, 0) network.register_evse(EVSE("PS-003"), 240, 0) network.register_evse(EVSE("PS-002"), 240, 0) network.register_evse(EVSE("PS-006"), 240, 0) curr_dict1 = {"PS-001": 0.25, "PS-002": 0.50, "PS-003": -0.25} current1 = Current(curr_dict1) curr_dict2 = {"PS-006": 0.30, "PS-004": -0.60, "PS-002": 0.50} current2 = Current(curr_dict2) network.add_constraint(current1, 50, name="first_constraint") network.add_constraint(current2, 10) start = Mock(datetime) scheduler = create_autospec(BaseAlgorithm) scheduler.max_recompute = None events = EventQueue(events=[Event(1), Event(2)]) simulator = Simulator(network, scheduler, events, start) bad_schedule = { "PS-001": [200, 0, 160, 0], "PS-004": [0, 0, 0, 0], "PS-003": [0, 0, 0, 0], "PS-002": [0, 0, 26, 0], "PS-006": [0, 0, 0, 40], } with self.assertWarnsRegex( UserWarning, r"Invalid schedule provided at iteration 0. " r"Max violation is 2.9999\d+? A on _const_1 at time index 2.", ): simulator._update_schedules(bad_schedule)
class TestInterface(TestCase): def setUp(self) -> None: """ Run this setup function once before each test. """ self.simulator = create_autospec(Simulator) self.network = ChargingNetwork() self.simulator.network = self.network self.interface = Interface(self.simulator) evse1 = EVSE("PS-001") self.network.register_evse(evse1, 120, -30) evse2 = EVSE("PS-002") evse3 = DeadbandEVSE("PS-003") self.network.register_evse(evse3, 360, 150) self.network.register_evse(evse2, 240, 90) # Include a FiniteRatesEVSE for more thorough testing. self.allowable_rates: List[int] = [0, 8, 16, 24, 32] evse4: FiniteRatesEVSE = FiniteRatesEVSE("PS-004", self.allowable_rates) self.network.register_evse(evse4, 120, -30) for i, station_id in enumerate(self.network.station_ids): self.network.add_constraint(Current(station_id), 1, f"C{i+1}") def test_init(self) -> None: self.assertIs(self.interface._simulator, self.simulator) def test_violation_tolerance(self) -> None: self.assertEqual( self.interface._violation_tolerance, self.interface._simulator.network.violation_tolerance, ) def test_relative_tolerance(self) -> None: self.assertEqual( self.interface._relative_tolerance, self.interface._simulator.network.relative_tolerance, ) def test_active_evs(self) -> None: with self.assertWarns(UserWarning): _ = self.interface.active_evs self.simulator.get_active_evs.assert_called_once() def test_last_applied_pilot_signals_low_iteration(self) -> None: self.simulator.iteration = 1 self.assertEqual(self.interface.last_applied_pilot_signals, {}) def test_allowable_pilot_signals(self) -> None: self.assertEqual(self.interface.allowable_pilot_signals("PS-001"), (True, [0, float("inf")])) def test_allowable_pilot_signals_deadband(self) -> None: self.assertEqual(self.interface.allowable_pilot_signals("PS-003"), (True, [6, float("inf")])) def test_allowable_pilot_signals_finite_rates(self) -> None: self.assertEqual( self.interface.allowable_pilot_signals("PS-004"), (False, self.allowable_rates), ) def test_max_pilot_signal(self) -> None: self.assertEqual(self.interface.max_pilot_signal("PS-001"), float("inf")) def test_max_pilot_signal_deadband(self) -> None: self.assertEqual(self.interface.max_pilot_signal("PS-003"), float("inf")) def test_max_pilot_signal_finite_rates(self) -> None: self.assertEqual(self.interface.max_pilot_signal("PS-004"), 32) def test_min_pilot_signal(self) -> None: self.assertEqual(self.interface.min_pilot_signal("PS-001"), 0) def test_min_pilot_signal_deadband(self) -> None: self.assertEqual(self.interface.min_pilot_signal("PS-003"), 0) def test_min_pilot_signal_finite_rates(self) -> None: self.assertEqual(self.interface.min_pilot_signal("PS-004"), 8) def test_evse_voltage(self) -> None: self.assertEqual(self.interface.evse_voltage("PS-002"), 240) def test_evse_phase(self) -> None: self.assertEqual(self.interface.evse_phase("PS-002"), 90) def test_get_constraints(self) -> None: constraint_info: Constraint = self.interface.get_constraints() nptest.assert_equal(constraint_info.constraint_matrix, self.network.constraint_matrix) nptest.assert_equal(constraint_info.magnitudes, self.network.magnitudes) self.assertEqual(constraint_info.constraint_index, self.network.constraint_index) self.assertEqual(constraint_info.evse_index, self.network.station_ids) def test_is_feasible_empty_schedule(self) -> None: self.assertTrue(self.interface.is_feasible({})) def test_is_feasible_unequal_schedules(self) -> None: with self.assertRaises(InvalidScheduleError): self.interface.is_feasible({ "PS-001": [1, 2], "PS-002": [3, 4, 5], "PS-003": [4, 5] }) def test_is_feasible(self) -> None: # Mock network's is_feasible function to check its call signature later self.network.is_feasible = create_autospec(self.network.is_feasible) self.interface.is_feasible({"PS-001": [1, 2], "PS-002": [4, 5]}) network_is_feasible_args = self.network.is_feasible.call_args # Check that the call to the network's is_feasible method has the correct # arguments. np.testing.assert_allclose(network_is_feasible_args[0][0], np.array([[1, 2], [0, 0], [4, 5], [0, 0]])) # Network's is_feasible method has its second argument (linear) defaulting to # False. Check this is the case. self.assertEqual(network_is_feasible_args[0][1], False) # Network's is_feasible method has its third argument (violation_tolerance) # defaulting to None. Check this is the case. self.assertEqual(network_is_feasible_args[0][2], 1e-5) self.assertEqual(network_is_feasible_args[0][3], 1e-7) def test_is_feasible_with_options(self) -> None: # Mock network's is_feasible function to check its call signature later self.network.is_feasible = create_autospec(self.network.is_feasible) self.interface.is_feasible( { "PS-001": [1, 2], "PS-002": [4, 5] }, linear=True, violation_tolerance=1e-3, relative_tolerance=1e-5, ) network_is_feasible_args = self.network.is_feasible.call_args # Check that the call to the network's is_feasible method has the correct # arguments. np.testing.assert_allclose(network_is_feasible_args[0][0], np.array([[1, 2], [0, 0], [4, 5], [0, 0]])) self.assertEqual(network_is_feasible_args[0][1], True) self.assertEqual(network_is_feasible_args[0][2], 1e-3) self.assertEqual(network_is_feasible_args[0][3], 1e-5)
class TestInterface(TestCase): def setUp(self): self.simulator = create_autospec(Simulator) self.network = ChargingNetwork() self.simulator.network = self.network self.interface = Interface(self.simulator) evse1 = EVSE("PS-001") self.network.register_evse(evse1, 120, -30) evse2 = EVSE("PS-002") evse3 = EVSE("PS-003") self.network.register_evse(evse3, 360, 150) self.network.register_evse(evse2, 240, 90) def test_init(self): self.assertIs(self.interface._simulator, self.simulator) def test_active_evs(self): _ = self.interface.active_evs self.simulator.get_active_evs.assert_called_once() def test_last_applied_pilot_signals_low_iteration(self): self.simulator.iteration = 1 self.assertEqual(self.interface.last_applied_pilot_signals, {}) def test_allowable_pilot_signals(self): self.assertEqual(self.interface.allowable_pilot_signals("PS-001"), (True, [0, float("inf")])) def test_evse_voltage(self): self.assertEqual(self.interface.evse_voltage("PS-002"), 240) def test_is_feasible_empty_schedule(self): self.assertTrue(self.interface.is_feasible({})) def test_is_feasible_unequal_schedules(self): with self.assertRaises(InvalidScheduleError): self.interface.is_feasible({ "PS-001": [1, 2], "PS-002": [3, 4, 5], "PS-003": [4, 5] }) def test_is_feasible(self): # Mock network's is_feasible function to check its call signature later self.network.is_feasible = create_autospec(self.network.is_feasible) self.interface.is_feasible({"PS-001": [1, 2], "PS-002": [4, 5]}) network_is_feasible_args = self.network.is_feasible.call_args # Check that the call to the network's is_feasible method has the correct arguments np.testing.assert_allclose(network_is_feasible_args[0][0], np.array([[1, 2], [0, 0], [4, 5]])) # Network's is_feasible method has its second argument (linear) defaulting to False. Check this is the case. self.assertEqual(network_is_feasible_args[0][1], False) # Network's is_feasible method has its third argument (violation_tolerance) defaulting to None. Check this is the case. self.assertIsNone(network_is_feasible_args[0][2]) self.assertIsNone(network_is_feasible_args[0][3]) def test_is_feasible_with_options(self): # Mock network's is_feasible function to check its call signature later self.network.is_feasible = create_autospec(self.network.is_feasible) self.interface.is_feasible( { "PS-001": [1, 2], "PS-002": [4, 5] }, linear=True, violation_tolerance=1e-3, relative_tolerance=1e-5, ) network_is_feasible_args = self.network.is_feasible.call_args # Check that the call to the network's is_feasible method has the correct arguments np.testing.assert_allclose(network_is_feasible_args[0][0], np.array([[1, 2], [0, 0], [4, 5]])) self.assertEqual(network_is_feasible_args[0][1], True) self.assertEqual(network_is_feasible_args[0][2], 1e-3) self.assertEqual(network_is_feasible_args[0][3], 1e-5)