""" Provides functionality to interact with climate devices. For more details about this component, please refer to the documentation at https://home-assistant.io/components/climate/ """ import asyncio from datetime import timedelta import logging import os import functools as ft from numbers import Number import voluptuous as vol from homeassistant.config import load_yaml_config_file from homeassistant.util.temperature import convert as convert_temperature from homeassistant.helpers.entity_component import EntityComponent from homeassistant.helpers.entity import Entity from homeassistant.helpers.config_validation import PLATFORM_SCHEMA # noqa import homeassistant.helpers.config_validation as cv from homeassistant.const import ( ATTR_ENTITY_ID, ATTR_TEMPERATURE, STATE_ON, STATE_OFF, STATE_UNKNOWN, TEMP_CELSIUS) DOMAIN = "climate" ENTITY_ID_FORMAT = DOMAIN + ".{}" SCAN_INTERVAL = timedelta(seconds=60) SERVICE_SET_AWAY_MODE = "set_away_mode" SERVICE_SET_AUX_HEAT = "set_aux_heat" SERVICE_SET_TEMPERATURE = "set_temperature" SERVICE_SET_FAN_MODE = "set_fan_mode" SERVICE_SET_HOLD_MODE = "set_hold_mode" SERVICE_SET_OPERATION_MODE = "set_operation_mode" SERVICE_SET_SWING_MODE = "set_swing_mode" SERVICE_SET_HUMIDITY = "set_humidity" STATE_HEAT = "heat" STATE_COOL = "cool" STATE_IDLE = "idle" STATE_AUTO = "auto" STATE_DRY = "dry" STATE_FAN_ONLY = "fan_only" ATTR_CURRENT_TEMPERATURE = "current_temperature" ATTR_MAX_TEMP = "max_temp" ATTR_MIN_TEMP = "min_temp" ATTR_TARGET_TEMP_HIGH = "target_temp_high" ATTR_TARGET_TEMP_LOW = "target_temp_low" ATTR_AWAY_MODE = "away_mode" ATTR_AUX_HEAT = "aux_heat" ATTR_FAN_MODE = "fan_mode" ATTR_FAN_LIST = "fan_list" ATTR_CURRENT_HUMIDITY = "current_humidity" ATTR_HUMIDITY = "humidity" ATTR_MAX_HUMIDITY = "max_humidity" ATTR_MIN_HUMIDITY = "min_humidity" ATTR_HOLD_MODE = "hold_mode" ATTR_OPERATION_MODE = "operation_mode" ATTR_OPERATION_LIST = "operation_list" ATTR_SWING_MODE = "swing_mode" ATTR_SWING_LIST = "swing_list" # The degree of precision for each platform PRECISION_WHOLE = 1 PRECISION_HALVES = 0.5 PRECISION_TENTHS = 0.1 CONVERTIBLE_ATTRIBUTE = [ ATTR_TEMPERATURE, ATTR_TARGET_TEMP_LOW, ATTR_TARGET_TEMP_HIGH, ] _LOGGER = logging.getLogger(__name__) SET_AWAY_MODE_SCHEMA = vol.Schema({ vol.Optional(ATTR_ENTITY_ID): cv.entity_ids, vol.Required(ATTR_AWAY_MODE): cv.boolean, }) SET_AUX_HEAT_SCHEMA = vol.Schema({ vol.Optional(ATTR_ENTITY_ID): cv.entity_ids, vol.Required(ATTR_AUX_HEAT): cv.boolean, }) SET_TEMPERATURE_SCHEMA = vol.Schema({ vol.Exclusive(ATTR_TEMPERATURE, 'temperature'): vol.Coerce(float), vol.Inclusive(ATTR_TARGET_TEMP_HIGH, 'temperature'): vol.Coerce(float), vol.Inclusive(ATTR_TARGET_TEMP_LOW, 'temperature'): vol.Coerce(float), vol.Optional(ATTR_ENTITY_ID): cv.entity_ids, vol.Optional(ATTR_OPERATION_MODE): cv.string, }) SET_FAN_MODE_SCHEMA = vol.Schema({ vol.Optional(ATTR_ENTITY_ID): cv.entity_ids, vol.Required(ATTR_FAN_MODE): cv.string, }) SET_HOLD_MODE_SCHEMA = vol.Schema({ vol.Optional(ATTR_ENTITY_ID): cv.entity_ids, vol.Required(ATTR_HOLD_MODE): cv.string, }) SET_OPERATION_MODE_SCHEMA = vol.Schema({ vol.Optional(ATTR_ENTITY_ID): cv.entity_ids, vol.Required(ATTR_OPERATION_MODE): cv.string, }) SET_HUMIDITY_SCHEMA = vol.Schema({ vol.Optional(ATTR_ENTITY_ID): cv.entity_ids, vol.Required(ATTR_HUMIDITY): vol.Coerce(float), }) SET_SWING_MODE_SCHEMA = vol.Schema({ vol.Optional(ATTR_ENTITY_ID): cv.entity_ids, vol.Required(ATTR_SWING_MODE): cv.string, }) def set_away_mode(hass, away_mode, entity_id=None): """Turn all or specified climate devices away mode on.""" data = { ATTR_AWAY_MODE: away_mode } if entity_id: data[ATTR_ENTITY_ID] = entity_id hass.services.call(DOMAIN, SERVICE_SET_AWAY_MODE, data) def set_hold_mode(hass, hold_mode, entity_id=None): """Set new hold mode.""" data = { ATTR_HOLD_MODE: hold_mode } if entity_id: data[ATTR_ENTITY_ID] = entity_id hass.services.call(DOMAIN, SERVICE_SET_HOLD_MODE, data) def set_aux_heat(hass, aux_heat, entity_id=None): """Turn all or specified climate devices auxillary heater on.""" data = { ATTR_AUX_HEAT: aux_heat } if entity_id: data[ATTR_ENTITY_ID] = entity_id hass.services.call(DOMAIN, SERVICE_SET_AUX_HEAT, data) def set_temperature(hass, temperature=None, entity_id=None, target_temp_high=None, target_temp_low=None, operation_mode=None): """Set new target temperature.""" kwargs = { key: value for key, value in [ (ATTR_TEMPERATURE, temperature), (ATTR_TARGET_TEMP_HIGH, target_temp_high), (ATTR_TARGET_TEMP_LOW, target_temp_low), (ATTR_ENTITY_ID, entity_id), (ATTR_OPERATION_MODE, operation_mode) ] if value is not None } _LOGGER.debug("set_temperature start data=%s", kwargs) hass.services.call(DOMAIN, SERVICE_SET_TEMPERATURE, kwargs) def set_humidity(hass, humidity, entity_id=None): """Set new target humidity.""" data = {ATTR_HUMIDITY: humidity} if entity_id is not None: data[ATTR_ENTITY_ID] = entity_id hass.services.call(DOMAIN, SERVICE_SET_HUMIDITY, data) def set_fan_mode(hass, fan, entity_id=None): """Set all or specified climate devices fan mode on.""" data = {ATTR_FAN_MODE: fan} if entity_id: data[ATTR_ENTITY_ID] = entity_id hass.services.call(DOMAIN, SERVICE_SET_FAN_MODE, data) def set_operation_mode(hass, operation_mode, entity_id=None): """Set new target operation mode.""" data = {ATTR_OPERATION_MODE: operation_mode} if entity_id is not None: data[ATTR_ENTITY_ID] = entity_id hass.services.call(DOMAIN, SERVICE_SET_OPERATION_MODE, data) def set_swing_mode(hass, swing_mode, entity_id=None): """Set new target swing mode.""" data = {ATTR_SWING_MODE: swing_mode} if entity_id is not None: data[ATTR_ENTITY_ID] = entity_id hass.services.call(DOMAIN, SERVICE_SET_SWING_MODE, data) @asyncio.coroutine def async_setup(hass, config): """Setup climate devices.""" component = EntityComponent(_LOGGER, DOMAIN, hass, SCAN_INTERVAL) yield from component.async_setup(config) descriptions = yield from hass.loop.run_in_executor( None, load_yaml_config_file, os.path.join(os.path.dirname(__file__), 'services.yaml')) @asyncio.coroutine def _async_update_climate(target_climate): """Update climate entity after service stuff.""" update_tasks = [] for climate in target_climate: if not climate.should_poll: continue update_coro = hass.async_add_job( climate.async_update_ha_state(True)) if hasattr(climate, 'async_update'): update_tasks.append(update_coro) else: yield from update_coro if update_tasks: yield from asyncio.wait(update_tasks, loop=hass.loop) @asyncio.coroutine def async_away_mode_set_service(service): """Set away mode on target climate devices.""" target_climate = component.async_extract_from_service(service) away_mode = service.data.get(ATTR_AWAY_MODE) for climate in target_climate: if away_mode: yield from climate.async_turn_away_mode_on() else: yield from climate.async_turn_away_mode_off() yield from _async_update_climate(target_climate) hass.services.async_register( DOMAIN, SERVICE_SET_AWAY_MODE, async_away_mode_set_service, descriptions.get(SERVICE_SET_AWAY_MODE), schema=SET_AWAY_MODE_SCHEMA) @asyncio.coroutine def async_hold_mode_set_service(service): """Set hold mode on target climate devices.""" target_climate = component.async_extract_from_service(service) hold_mode = service.data.get(ATTR_HOLD_MODE) for climate in target_climate: yield from climate.async_set_hold_mode(hold_mode) yield from _async_update_climate(target_climate) hass.services.async_register( DOMAIN, SERVICE_SET_HOLD_MODE, async_hold_mode_set_service, descriptions.get(SERVICE_SET_HOLD_MODE), schema=SET_HOLD_MODE_SCHEMA) @asyncio.coroutine def async_aux_heat_set_service(service): """Set auxillary heater on target climate devices.""" target_climate = component.async_extract_from_service(service) aux_heat = service.data.get(ATTR_AUX_HEAT) for climate in target_climate: if aux_heat: yield from climate.async_turn_aux_heat_on() else: yield from climate.async_turn_aux_heat_off() yield from _async_update_climate(target_climate) hass.services.async_register( DOMAIN, SERVICE_SET_AUX_HEAT, async_aux_heat_set_service, descriptions.get(SERVICE_SET_AUX_HEAT), schema=SET_AUX_HEAT_SCHEMA) @asyncio.coroutine def async_temperature_set_service(service): """Set temperature on the target climate devices.""" target_climate = component.async_extract_from_service(service) for climate in target_climate: kwargs = {} for value, temp in service.data.items(): if value in CONVERTIBLE_ATTRIBUTE: kwargs[value] = convert_temperature( temp, hass.config.units.temperature_unit, climate.temperature_unit ) else: kwargs[value] = temp yield from climate.async_set_temperature(**kwargs) yield from _async_update_climate(target_climate) hass.services.async_register( DOMAIN, SERVICE_SET_TEMPERATURE, async_temperature_set_service, descriptions.get(SERVICE_SET_TEMPERATURE), schema=SET_TEMPERATURE_SCHEMA) @asyncio.coroutine def async_humidity_set_service(service): """Set humidity on the target climate devices.""" target_climate = component.async_extract_from_service(service) humidity = service.data.get(ATTR_HUMIDITY) for climate in target_climate: yield from climate.async_set_humidity(humidity) yield from _async_update_climate(target_climate) hass.services.async_register( DOMAIN, SERVICE_SET_HUMIDITY, async_humidity_set_service, descriptions.get(SERVICE_SET_HUMIDITY), schema=SET_HUMIDITY_SCHEMA) @asyncio.coroutine def async_fan_mode_set_service(service): """Set fan mode on target climate devices.""" target_climate = component.async_extract_from_service(service) fan = service.data.get(ATTR_FAN_MODE) for climate in target_climate: yield from climate.async_set_fan_mode(fan) yield from _async_update_climate(target_climate) hass.services.async_register( DOMAIN, SERVICE_SET_FAN_MODE, async_fan_mode_set_service, descriptions.get(SERVICE_SET_FAN_MODE), schema=SET_FAN_MODE_SCHEMA) @asyncio.coroutine def async_operation_set_service(service): """Set operating mode on the target climate devices.""" target_climate = component.async_extract_from_service(service) operation_mode = service.data.get(ATTR_OPERATION_MODE) for climate in target_climate: yield from climate.async_set_operation_mode(operation_mode) yield from _async_update_climate(target_climate) hass.services.async_register( DOMAIN, SERVICE_SET_OPERATION_MODE, async_operation_set_service, descriptions.get(SERVICE_SET_OPERATION_MODE), schema=SET_OPERATION_MODE_SCHEMA) @asyncio.coroutine def async_swing_set_service(service): """Set swing mode on the target climate devices.""" target_climate = component.async_extract_from_service(service) swing_mode = service.data.get(ATTR_SWING_MODE) for climate in target_climate: yield from climate.async_set_swing_mode(swing_mode) yield from _async_update_climate(target_climate) hass.services.async_register( DOMAIN, SERVICE_SET_SWING_MODE, async_swing_set_service, descriptions.get(SERVICE_SET_SWING_MODE), schema=SET_SWING_MODE_SCHEMA) return True class ClimateDevice(Entity): """Representation of a climate device.""" # pylint: disable=no-self-use @property def state(self): """Return the current state.""" if self.current_operation: return self.current_operation else: return STATE_UNKNOWN @property def precision(self): """Return the precision of the system.""" if self.unit_of_measurement == TEMP_CELSIUS: return PRECISION_TENTHS else: return PRECISION_WHOLE @property def state_attributes(self): """Return the optional state attributes.""" data = { ATTR_CURRENT_TEMPERATURE: self._convert_for_display(self.current_temperature), ATTR_MIN_TEMP: self._convert_for_display(self.min_temp), ATTR_MAX_TEMP: self._convert_for_display(self.max_temp), ATTR_TEMPERATURE: self._convert_for_display(self.target_temperature), } target_temp_high = self.target_temperature_high if target_temp_high is not None: data[ATTR_TARGET_TEMP_HIGH] = self._convert_for_display( self.target_temperature_high) data[ATTR_TARGET_TEMP_LOW] = self._convert_for_display( self.target_temperature_low) humidity = self.target_humidity if humidity is not None: data[ATTR_HUMIDITY] = humidity data[ATTR_CURRENT_HUMIDITY] = self.current_humidity data[ATTR_MIN_HUMIDITY] = self.min_humidity data[ATTR_MAX_HUMIDITY] = self.max_humidity fan_mode = self.current_fan_mode if fan_mode is not None: data[ATTR_FAN_MODE] = fan_mode if self.fan_list: data[ATTR_FAN_LIST] = self.fan_list operation_mode = self.current_operation if operation_mode is not None: data[ATTR_OPERATION_MODE] = operation_mode if self.operation_list: data[ATTR_OPERATION_LIST] = self.operation_list is_hold = self.current_hold_mode if is_hold is not None: data[ATTR_HOLD_MODE] = is_hold swing_mode = self.current_swing_mode if swing_mode is not None: data[ATTR_SWING_MODE] = swing_mode if self.swing_list: data[ATTR_SWING_LIST] = self.swing_list is_away = self.is_away_mode_on if is_away is not None: data[ATTR_AWAY_MODE] = STATE_ON if is_away else STATE_OFF is_aux_heat = self.is_aux_heat_on if is_aux_heat is not None: data[ATTR_AUX_HEAT] = STATE_ON if is_aux_heat else STATE_OFF return data @property def unit_of_measurement(self): """The unit of measurement to display.""" return self.hass.config.units.temperature_unit @property def temperature_unit(self): """The unit of measurement used by the platform.""" raise NotImplementedError @property def current_humidity(self): """Return the current humidity.""" return None @property def target_humidity(self): """Return the humidity we try to reach.""" return None @property def current_operation(self): """Return current operation ie. heat, cool, idle.""" return None @property def operation_list(self): """List of available operation modes.""" return None @property def current_temperature(self): """Return the current temperature.""" return None @property def target_temperature(self): """Return the temperature we try to reach.""" return None @property def target_temperature_high(self): """Return the highbound target temperature we try to reach.""" return None @property def target_temperature_low(self): """Return the lowbound target temperature we try to reach.""" return None @property def is_away_mode_on(self): """Return true if away mode is on.""" return None @property def current_hold_mode(self): """Return the current hold mode, e.g., home, away, temp.""" return None @property def is_aux_heat_on(self): """Return true if aux heater.""" return None @property def current_fan_mode(self): """Return the fan setting.""" return None @property def fan_list(self): """List of available fan modes.""" return None @property def current_swing_mode(self): """Return the fan setting.""" return None @property def swing_list(self): """List of available swing modes.""" return None def set_temperature(self, **kwargs): """Set new target temperature.""" raise NotImplementedError() def async_set_temperature(self, **kwargs): """Set new target temperature. This method must be run in the event loop and returns a coroutine. """ return self.hass.loop.run_in_executor( None, ft.partial(self.set_temperature, **kwargs)) def set_humidity(self, humidity): """Set new target humidity.""" raise NotImplementedError() def async_set_humidity(self, humidity): """Set new target humidity. This method must be run in the event loop and returns a coroutine. """ return self.hass.loop.run_in_executor( None, self.set_humidity, humidity) def set_fan_mode(self, fan): """Set new target fan mode.""" raise NotImplementedError() def async_set_fan_mode(self, fan): """Set new target fan mode. This method must be run in the event loop and returns a coroutine. """ return self.hass.loop.run_in_executor( None, self.set_fan_mode, fan) def set_operation_mode(self, operation_mode): """Set new target operation mode.""" raise NotImplementedError() def async_set_operation_mode(self, operation_mode): """Set new target operation mode. This method must be run in the event loop and returns a coroutine. """ return self.hass.loop.run_in_executor( None, self.set_operation_mode, operation_mode) def set_swing_mode(self, swing_mode): """Set new target swing operation.""" raise NotImplementedError() def async_set_swing_mode(self, swing_mode): """Set new target swing operation. This method must be run in the event loop and returns a coroutine. """ return self.hass.loop.run_in_executor( None, self.set_swing_mode, swing_mode) def turn_away_mode_on(self): """Turn away mode on.""" raise NotImplementedError() def async_turn_away_mode_on(self): """Turn away mode on. This method must be run in the event loop and returns a coroutine. """ return self.hass.loop.run_in_executor( None, self.turn_away_mode_on) def turn_away_mode_off(self): """Turn away mode off.""" raise NotImplementedError() def async_turn_away_mode_off(self): """Turn away mode off. This method must be run in the event loop and returns a coroutine. """ return self.hass.loop.run_in_executor( None, self.turn_away_mode_off) def set_hold_mode(self, hold_mode): """Set new target hold mode.""" raise NotImplementedError() def async_set_hold_mode(self, hold_mode): """Set new target hold mode. This method must be run in the event loop and returns a coroutine. """ return self.hass.loop.run_in_executor( None, self.set_hold_mode, hold_mode) def turn_aux_heat_on(self): """Turn auxillary heater on.""" raise NotImplementedError() def async_turn_aux_heat_on(self): """Turn auxillary heater on. This method must be run in the event loop and returns a coroutine. """ return self.hass.loop.run_in_executor( None, self.turn_aux_heat_on) def turn_aux_heat_off(self): """Turn auxillary heater off.""" raise NotImplementedError() def async_turn_aux_heat_off(self): """Turn auxillary heater off. This method must be run in the event loop and returns a coroutine. """ return self.hass.loop.run_in_executor( None, self.turn_aux_heat_off) @property def min_temp(self): """Return the minimum temperature.""" return convert_temperature(7, TEMP_CELSIUS, self.temperature_unit) @property def max_temp(self): """Return the maximum temperature.""" return convert_temperature(35, TEMP_CELSIUS, self.temperature_unit) @property def min_humidity(self): """Return the minimum humidity.""" return 30 @property def max_humidity(self): """Return the maximum humidity.""" return 99 def _convert_for_display(self, temp): """Convert temperature into preferred units for display purposes.""" if temp is None or not isinstance(temp, Number): return temp if self.temperature_unit != self.unit_of_measurement: temp = convert_temperature(temp, self.temperature_unit, self.unit_of_measurement) # Round in the units appropriate if self.precision == PRECISION_HALVES: return round(temp * 2) / 2.0 elif self.precision == PRECISION_TENTHS: return round(temp, 1) else: # PRECISION_WHOLE as a fall back return round(temp)