"""Support for LCN climate control.""" import pypck from homeassistant.components.climate import ClimateDevice, const from homeassistant.const import ( ATTR_TEMPERATURE, CONF_ADDRESS, CONF_UNIT_OF_MEASUREMENT) from . import LcnDevice from .const import ( CONF_CONNECTIONS, CONF_LOCKABLE, CONF_MAX_TEMP, CONF_MIN_TEMP, CONF_SETPOINT, CONF_SOURCE, DATA_LCN) from .helpers import get_connection async def async_setup_platform(hass, hass_config, async_add_entities, discovery_info=None): """Set up the LCN climate platform.""" if discovery_info is None: return devices = [] for config in discovery_info: address, connection_id = config[CONF_ADDRESS] addr = pypck.lcn_addr.LcnAddr(*address) connections = hass.data[DATA_LCN][CONF_CONNECTIONS] connection = get_connection(connections, connection_id) address_connection = connection.get_address_conn(addr) devices.append(LcnClimate(config, address_connection)) async_add_entities(devices) class LcnClimate(LcnDevice, ClimateDevice): """Representation of a LCN climate device.""" def __init__(self, config, address_connection): """Initialize of a LCN climate device.""" super().__init__(config, address_connection) self.variable = pypck.lcn_defs.Var[config[CONF_SOURCE]] self.setpoint = pypck.lcn_defs.Var[config[CONF_SETPOINT]] self.unit = pypck.lcn_defs.VarUnit.parse( config[CONF_UNIT_OF_MEASUREMENT]) self.regulator_id = \ pypck.lcn_defs.Var.to_set_point_id(self.setpoint) self.is_lockable = config[CONF_LOCKABLE] self._max_temp = config[CONF_MAX_TEMP] self._min_temp = config[CONF_MIN_TEMP] self._current_temperature = None self._target_temperature = None self._is_on = None self.support = const.SUPPORT_TARGET_TEMPERATURE if self.is_lockable: self.support |= const.SUPPORT_ON_OFF async def async_added_to_hass(self): """Run when entity about to be added to hass.""" await super().async_added_to_hass() await self.address_connection.activate_status_request_handler( self.variable) await self.address_connection.activate_status_request_handler( self.setpoint) @property def supported_features(self): """Return the list of supported features.""" return self.support @property def temperature_unit(self): """Return the unit of measurement.""" return self.unit.value @property def current_temperature(self): """Return the current temperature.""" return self._current_temperature @property def target_temperature(self): """Return the temperature we try to reach.""" return self._target_temperature @property def is_on(self): """Return true if the device is on.""" return self._is_on @property def max_temp(self): """Return the maximum temperature.""" return self._max_temp @property def min_temp(self): """Return the minimum temperature.""" return self._min_temp async def async_turn_on(self): """Turn on.""" self._is_on = True self.address_connection.lock_regulator(self.regulator_id, False) await self.async_update_ha_state() async def async_turn_off(self): """Turn off.""" self._is_on = False self.address_connection.lock_regulator(self.regulator_id, True) self._target_temperature = None await self.async_update_ha_state() async def async_set_temperature(self, **kwargs): """Set new target temperature.""" temperature = kwargs.get(ATTR_TEMPERATURE) if temperature is None: return self._target_temperature = temperature self.address_connection.var_abs( self.setpoint, self._target_temperature, self.unit) await self.async_update_ha_state() def input_received(self, input_obj): """Set temperature value when LCN input object is received.""" if not isinstance(input_obj, pypck.inputs.ModStatusVar): return if input_obj.get_var() == self.variable: self._current_temperature = \ input_obj.get_value().to_var_unit(self.unit) elif input_obj.get_var() == self.setpoint: self._is_on = not input_obj.get_value().is_locked_regulator() if self.is_on: self._target_temperature = \ input_obj.get_value().to_var_unit(self.unit) self.async_schedule_update_ha_state()