from unittest import IsolatedAsyncioTestCase from unittest.mock import AsyncMock, patch from homeassistant.components.climate.const import ( ATTR_HVAC_MODE, ATTR_PRESET_MODE, HVAC_MODE_HEAT, HVAC_MODE_OFF, SUPPORT_PRESET_MODE, SUPPORT_SWING_MODE, SUPPORT_TARGET_TEMPERATURE, ) from homeassistant.const import ATTR_TEMPERATURE, STATE_UNAVAILABLE from custom_components.tuya_local.heater.climate import GoldairHeater from custom_components.tuya_local.heater.const import ( ATTR_ECO_TARGET_TEMPERATURE, ATTR_ERROR, ATTR_ERROR_CODE, ATTR_POWER_LEVEL, ATTR_POWER_MODE, ATTR_POWER_MODE_AUTO, ATTR_POWER_MODE_USER, ATTR_TARGET_TEMPERATURE, HVAC_MODE_TO_DPS_MODE, POWER_LEVEL_AUTO, POWER_LEVEL_STOP, POWER_LEVEL_TO_DPS_LEVEL, PRESET_MODE_TO_DPS_MODE, PROPERTY_TO_DPS_ID, STATE_ANTI_FREEZE, STATE_COMFORT, STATE_ECO, ) from ..const import GPPH_HEATER_PAYLOAD from ..helpers import assert_device_properties_set class TestGoldairHeater(IsolatedAsyncioTestCase): def setUp(self): device_patcher = patch("custom_components.tuya_local.device.TuyaLocalDevice") self.addCleanup(device_patcher.stop) self.mock_device = device_patcher.start() self.subject = GoldairHeater(self.mock_device()) self.dps = GPPH_HEATER_PAYLOAD.copy() self.subject._device.get_property.side_effect = lambda id: self.dps[id] def test_supported_features(self): self.assertEqual( self.subject.supported_features, SUPPORT_TARGET_TEMPERATURE | SUPPORT_PRESET_MODE | SUPPORT_SWING_MODE, ) def test_should_poll(self): self.assertTrue(self.subject.should_poll) def test_name_returns_device_name(self): self.assertEqual(self.subject.name, self.subject._device.name) def test_unique_id_returns_device_unique_id(self): self.assertEqual(self.subject.unique_id, self.subject._device.unique_id) def test_device_info_returns_device_info_from_device(self): self.assertEqual(self.subject.device_info, self.subject._device.device_info) def test_icon(self): self.dps[PROPERTY_TO_DPS_ID[ATTR_HVAC_MODE]] = True self.assertEqual(self.subject.icon, "mdi:radiator") self.dps[PROPERTY_TO_DPS_ID[ATTR_HVAC_MODE]] = False self.assertEqual(self.subject.icon, "mdi:radiator-disabled") self.dps[PROPERTY_TO_DPS_ID[ATTR_HVAC_MODE]] = True self.dps[PROPERTY_TO_DPS_ID[ATTR_POWER_LEVEL]] = POWER_LEVEL_STOP self.assertEqual(self.subject.icon, "mdi:radiator-disabled") def test_temperature_unit_returns_device_temperature_unit(self): self.assertEqual( self.subject.temperature_unit, self.subject._device.temperature_unit ) def test_target_temperature(self): self.dps[PROPERTY_TO_DPS_ID[ATTR_TARGET_TEMPERATURE]] = 25 self.dps[PROPERTY_TO_DPS_ID[ATTR_ECO_TARGET_TEMPERATURE]] = 15 self.dps[PROPERTY_TO_DPS_ID[ATTR_PRESET_MODE]] = PRESET_MODE_TO_DPS_MODE[ STATE_COMFORT ] self.assertEqual(self.subject.target_temperature, 25) self.dps[PROPERTY_TO_DPS_ID[ATTR_PRESET_MODE]] = PRESET_MODE_TO_DPS_MODE[ STATE_ECO ] self.assertEqual(self.subject.target_temperature, 15) self.dps[PROPERTY_TO_DPS_ID[ATTR_PRESET_MODE]] = PRESET_MODE_TO_DPS_MODE[ STATE_ANTI_FREEZE ] self.assertIs(self.subject.target_temperature, None) def test_target_temperature_step(self): self.assertEqual(self.subject.target_temperature_step, 1) def test_minimum_target_temperature(self): self.dps[PROPERTY_TO_DPS_ID[ATTR_PRESET_MODE]] = PRESET_MODE_TO_DPS_MODE[ STATE_COMFORT ] self.assertEqual(self.subject.min_temp, 5) self.dps[PROPERTY_TO_DPS_ID[ATTR_PRESET_MODE]] = PRESET_MODE_TO_DPS_MODE[ STATE_ECO ] self.assertEqual(self.subject.min_temp, 5) self.dps[PROPERTY_TO_DPS_ID[ATTR_PRESET_MODE]] = PRESET_MODE_TO_DPS_MODE[ STATE_ANTI_FREEZE ] self.assertIs(self.subject.min_temp, None) def test_maximum_target_temperature(self): self.dps[PROPERTY_TO_DPS_ID[ATTR_PRESET_MODE]] = PRESET_MODE_TO_DPS_MODE[ STATE_COMFORT ] self.assertEqual(self.subject.max_temp, 35) self.dps[PROPERTY_TO_DPS_ID[ATTR_PRESET_MODE]] = PRESET_MODE_TO_DPS_MODE[ STATE_ECO ] self.assertEqual(self.subject.max_temp, 21) self.dps[PROPERTY_TO_DPS_ID[ATTR_PRESET_MODE]] = PRESET_MODE_TO_DPS_MODE[ STATE_ANTI_FREEZE ] self.assertIs(self.subject.max_temp, None) async def test_legacy_set_temperature_with_temperature(self): async with assert_device_properties_set( self.subject._device, {PROPERTY_TO_DPS_ID[ATTR_TARGET_TEMPERATURE]: 25} ): await self.subject.async_set_temperature(temperature=25) async def test_legacy_set_temperature_with_preset_mode(self): async with assert_device_properties_set( self.subject._device, { PROPERTY_TO_DPS_ID[ATTR_PRESET_MODE]: PRESET_MODE_TO_DPS_MODE[ STATE_COMFORT ] }, ): await self.subject.async_set_temperature(preset_mode=STATE_COMFORT) async def test_legacy_set_temperature_with_both_properties(self): async with assert_device_properties_set( self.subject._device, { PROPERTY_TO_DPS_ID[ATTR_TARGET_TEMPERATURE]: 25, PROPERTY_TO_DPS_ID[ATTR_PRESET_MODE]: PRESET_MODE_TO_DPS_MODE[ STATE_COMFORT ], }, ): await self.subject.async_set_temperature( temperature=25, preset_mode=STATE_COMFORT ) async def test_legacy_set_temperature_with_no_valid_properties(self): await self.subject.async_set_temperature(something="else") self.subject._device.async_set_property.assert_not_called async def test_set_target_temperature_in_comfort_mode(self): self.dps[PROPERTY_TO_DPS_ID[ATTR_PRESET_MODE]] = PRESET_MODE_TO_DPS_MODE[ STATE_COMFORT ] async with assert_device_properties_set( self.subject._device, {PROPERTY_TO_DPS_ID[ATTR_TARGET_TEMPERATURE]: 25} ): await self.subject.async_set_target_temperature(25) async def test_set_target_temperature_in_eco_mode(self): self.dps[PROPERTY_TO_DPS_ID[ATTR_PRESET_MODE]] = PRESET_MODE_TO_DPS_MODE[ STATE_ECO ] async with assert_device_properties_set( self.subject._device, {PROPERTY_TO_DPS_ID[ATTR_ECO_TARGET_TEMPERATURE]: 15} ): await self.subject.async_set_target_temperature(15) async def test_set_target_temperature_rounds_value_to_closest_integer(self): async with assert_device_properties_set( self.subject._device, {PROPERTY_TO_DPS_ID[ATTR_TARGET_TEMPERATURE]: 25}, ): await self.subject.async_set_target_temperature(24.6) async def test_set_target_temperature_fails_outside_valid_range_in_comfort(self): self.dps[PROPERTY_TO_DPS_ID[ATTR_PRESET_MODE]] = PRESET_MODE_TO_DPS_MODE[ STATE_COMFORT ] with self.assertRaisesRegex( ValueError, "Target temperature \\(4\\) must be between 5 and 35" ): await self.subject.async_set_target_temperature(4) with self.assertRaisesRegex( ValueError, "Target temperature \\(36\\) must be between 5 and 35" ): await self.subject.async_set_target_temperature(36) async def test_set_target_temperature_fails_outside_valid_range_in_eco(self): self.dps[PROPERTY_TO_DPS_ID[ATTR_PRESET_MODE]] = PRESET_MODE_TO_DPS_MODE[ STATE_ECO ] with self.assertRaisesRegex( ValueError, "Target temperature \\(4\\) must be between 5 and 21" ): await self.subject.async_set_target_temperature(4) with self.assertRaisesRegex( ValueError, "Target temperature \\(22\\) must be between 5 and 21" ): await self.subject.async_set_target_temperature(22) async def test_set_target_temperature_fails_in_anti_freeze(self): self.dps[PROPERTY_TO_DPS_ID[ATTR_PRESET_MODE]] = PRESET_MODE_TO_DPS_MODE[ STATE_ANTI_FREEZE ] with self.assertRaisesRegex( ValueError, "You cannot set the temperature in Anti-freeze mode" ): await self.subject.async_set_target_temperature(25) def test_current_temperature(self): self.dps[PROPERTY_TO_DPS_ID[ATTR_TEMPERATURE]] = 25 self.assertEqual(self.subject.current_temperature, 25) def test_hvac_mode(self): self.dps[PROPERTY_TO_DPS_ID[ATTR_HVAC_MODE]] = True self.assertEqual(self.subject.hvac_mode, HVAC_MODE_HEAT) self.dps[PROPERTY_TO_DPS_ID[ATTR_HVAC_MODE]] = False self.assertEqual(self.subject.hvac_mode, HVAC_MODE_OFF) self.dps[PROPERTY_TO_DPS_ID[ATTR_HVAC_MODE]] = None self.assertEqual(self.subject.hvac_mode, STATE_UNAVAILABLE) def test_hvac_modes(self): self.assertEqual(self.subject.hvac_modes, [HVAC_MODE_OFF, HVAC_MODE_HEAT]) async def test_turn_on(self): async with assert_device_properties_set( self.subject._device, {PROPERTY_TO_DPS_ID[ATTR_HVAC_MODE]: True} ): await self.subject.async_set_hvac_mode(HVAC_MODE_HEAT) async def test_turn_off(self): async with assert_device_properties_set( self.subject._device, {PROPERTY_TO_DPS_ID[ATTR_HVAC_MODE]: False} ): await self.subject.async_set_hvac_mode(HVAC_MODE_OFF) def test_preset_mode(self): self.dps[PROPERTY_TO_DPS_ID[ATTR_PRESET_MODE]] = PRESET_MODE_TO_DPS_MODE[ STATE_COMFORT ] self.assertEqual(self.subject.preset_mode, STATE_COMFORT) self.dps[PROPERTY_TO_DPS_ID[ATTR_PRESET_MODE]] = PRESET_MODE_TO_DPS_MODE[ STATE_ECO ] self.assertEqual(self.subject.preset_mode, STATE_ECO) self.dps[PROPERTY_TO_DPS_ID[ATTR_PRESET_MODE]] = PRESET_MODE_TO_DPS_MODE[ STATE_ANTI_FREEZE ] self.assertEqual(self.subject.preset_mode, STATE_ANTI_FREEZE) self.dps[PROPERTY_TO_DPS_ID[ATTR_PRESET_MODE]] = None self.assertIs(self.subject.preset_mode, None) def test_preset_modes(self): self.assertEqual( self.subject.preset_modes, [STATE_COMFORT, STATE_ECO, STATE_ANTI_FREEZE] ) async def test_set_preset_mode_to_comfort(self): async with assert_device_properties_set( self.subject._device, { PROPERTY_TO_DPS_ID[ATTR_PRESET_MODE]: PRESET_MODE_TO_DPS_MODE[ STATE_COMFORT ] }, ): await self.subject.async_set_preset_mode(STATE_COMFORT) async def test_set_preset_mode_to_eco(self): async with assert_device_properties_set( self.subject._device, {PROPERTY_TO_DPS_ID[ATTR_PRESET_MODE]: PRESET_MODE_TO_DPS_MODE[STATE_ECO]}, ): await self.subject.async_set_preset_mode(STATE_ECO) async def test_set_preset_mode_to_anti_freeze(self): async with assert_device_properties_set( self.subject._device, { PROPERTY_TO_DPS_ID[ATTR_PRESET_MODE]: PRESET_MODE_TO_DPS_MODE[ STATE_ANTI_FREEZE ] }, ): await self.subject.async_set_preset_mode(STATE_ANTI_FREEZE) def test_power_level_returns_user_power_level(self): self.dps[PROPERTY_TO_DPS_ID[ATTR_POWER_MODE]] = ATTR_POWER_MODE_USER self.dps[PROPERTY_TO_DPS_ID[ATTR_POWER_LEVEL]] = POWER_LEVEL_TO_DPS_LEVEL[ "Stop" ] self.assertEqual(self.subject.swing_mode, "Stop") self.dps[PROPERTY_TO_DPS_ID[ATTR_POWER_LEVEL]] = POWER_LEVEL_TO_DPS_LEVEL["3"] self.assertEqual(self.subject.swing_mode, "3") self.dps[PROPERTY_TO_DPS_ID[ATTR_POWER_LEVEL]] = POWER_LEVEL_TO_DPS_LEVEL[ "Auto" ] self.assertEqual(self.subject.swing_mode, "Auto") self.dps[PROPERTY_TO_DPS_ID[ATTR_POWER_LEVEL]] = None self.assertIs(self.subject.swing_mode, None) def test_power_level_in_returns_power_mode_when_not_in_user_power_mode(self): self.dps[PROPERTY_TO_DPS_ID[ATTR_POWER_MODE]] = POWER_LEVEL_TO_DPS_LEVEL["Stop"] self.assertEqual(self.subject.swing_mode, "Stop") self.dps[PROPERTY_TO_DPS_ID[ATTR_POWER_MODE]] = POWER_LEVEL_TO_DPS_LEVEL["3"] self.assertEqual(self.subject.swing_mode, "3") self.dps[PROPERTY_TO_DPS_ID[ATTR_POWER_MODE]] = POWER_LEVEL_TO_DPS_LEVEL["Auto"] self.assertEqual(self.subject.swing_mode, "Auto") self.dps[PROPERTY_TO_DPS_ID[ATTR_POWER_MODE]] = None self.assertIs(self.subject.swing_mode, None) def test_power_levels(self): self.assertEqual( self.subject.swing_modes, ["Stop", "1", "2", "3", "4", "5", "Auto"], ) async def test_set_power_level_to_stop(self): async with assert_device_properties_set( self.subject._device, {PROPERTY_TO_DPS_ID[ATTR_POWER_LEVEL]: POWER_LEVEL_TO_DPS_LEVEL["Stop"]}, ): await self.subject.async_set_swing_mode("Stop") async def test_set_power_level_to_auto(self): async with assert_device_properties_set( self.subject._device, {PROPERTY_TO_DPS_ID[ATTR_POWER_LEVEL]: POWER_LEVEL_TO_DPS_LEVEL["Auto"]}, ): await self.subject.async_set_swing_mode("Auto") async def test_set_power_level_to_numeric_value(self): async with assert_device_properties_set( self.subject._device, {PROPERTY_TO_DPS_ID[ATTR_POWER_LEVEL]: POWER_LEVEL_TO_DPS_LEVEL["3"]}, ): await self.subject.async_set_swing_mode("3") async def test_set_power_level_to_invalid_value_raises_error(self): with self.assertRaisesRegex(ValueError, "Invalid power level: unknown"): await self.subject.async_set_swing_mode("unknown") def test_error_state(self): # There are currently no known error states; update this as they're discovered self.dps[PROPERTY_TO_DPS_ID[ATTR_ERROR]] = "something" self.assertEqual( self.subject.device_state_attributes, {ATTR_ERROR_CODE: "something", ATTR_ERROR: "Error something"}, ) def test_no_error_state(self): # Test that no error is OK self.dps[PROPERTY_TO_DPS_ID[ATTR_ERROR]] = 0 self.assertEqual( self.subject.device_state_attributes, {ATTR_ERROR_CODE: 0, ATTR_ERROR: "OK"}, ) async def test_update(self): result = AsyncMock() self.subject._device.async_refresh.return_value = result() await self.subject.async_update() self.subject._device.async_refresh.assert_called_once() result.assert_awaited()