class Climate(Device): """Class for managing the climate.""" # pylint: disable=too-many-instance-attributes,invalid-name def __init__( self, xknx: "XKNX", name: str, group_address_temperature: Optional["GroupAddressableType"] = None, group_address_target_temperature: Optional["GroupAddressableType"] = None, group_address_target_temperature_state: Optional["GroupAddressableType"] = None, group_address_setpoint_shift: Optional["GroupAddressableType"] = None, group_address_setpoint_shift_state: Optional["GroupAddressableType"] = None, setpoint_shift_mode: SetpointShiftMode = DEFAULT_SETPOINT_SHIFT_MODE, setpoint_shift_max: float = DEFAULT_SETPOINT_SHIFT_MAX, setpoint_shift_min: float = DEFAULT_SETPOINT_SHIFT_MIN, temperature_step: float = DEFAULT_TEMPERATURE_STEP, group_address_on_off: Optional["GroupAddressableType"] = None, group_address_on_off_state: Optional["GroupAddressableType"] = None, on_off_invert: bool = False, min_temp: Optional[float] = None, max_temp: Optional[float] = None, mode: Optional[ClimateMode] = None, create_temperature_sensors: bool = False, device_updated_cb: Optional[DeviceCallbackType] = None, ): """Initialize Climate class.""" # pylint: disable=too-many-arguments, too-many-locals, too-many-branches, too-many-statements super().__init__(xknx, name, device_updated_cb) self.min_temp = min_temp self.max_temp = max_temp self.setpoint_shift_min = setpoint_shift_min self.setpoint_shift_max = setpoint_shift_max self.temperature_step = temperature_step self.temperature = RemoteValueTemp( xknx, group_address_state=group_address_temperature, device_name=self.name, feature_name="Current temperature", after_update_cb=self.after_update, ) self.target_temperature = RemoteValueTemp( xknx, group_address_target_temperature, group_address_target_temperature_state, device_name=self.name, feature_name="Target temperature", after_update_cb=self.after_update, ) self._setpoint_shift: Union[RemoteValueTemp, RemoteValueSetpointShift] if setpoint_shift_mode == SetpointShiftMode.DPT9002: self._setpoint_shift = RemoteValueTemp( xknx, group_address_setpoint_shift, group_address_setpoint_shift_state, device_name=self.name, after_update_cb=self.after_update, ) else: self._setpoint_shift = RemoteValueSetpointShift( xknx, group_address_setpoint_shift, group_address_setpoint_shift_state, device_name=self.name, after_update_cb=self.after_update, setpoint_shift_step=self.temperature_step, ) self.supports_on_off = ( group_address_on_off is not None or group_address_on_off_state is not None ) self.on = RemoteValueSwitch( xknx, group_address_on_off, group_address_on_off_state, device_name=self.name, after_update_cb=self.after_update, invert=on_off_invert, ) self.mode = mode if create_temperature_sensors: self.create_temperature_sensors() def _iter_remote_values(self) -> Iterator["RemoteValue[Any]"]: """Iterate the devices RemoteValue classes.""" yield from ( self.temperature, self.target_temperature, self._setpoint_shift, self.on, ) def create_temperature_sensors(self) -> None: """Create temperature sensors.""" for suffix, group_address, value_type in ( ( "temperature", self.temperature.group_address_state, "temperature", ), ( "target temperature", self.target_temperature.group_address_state, "temperature", ), ): if group_address is not None: Sensor( self.xknx, name=self.name + " " + suffix, group_address_state=group_address, value_type=value_type, ) @classmethod def from_config(cls, xknx: "XKNX", name: str, config: Any) -> "Climate": """Initialize object from configuration structure.""" # pylint: disable=too-many-locals group_address_temperature = config.get("group_address_temperature") group_address_target_temperature = config.get( "group_address_target_temperature" ) group_address_target_temperature_state = config.get( "group_address_target_temperature_state" ) group_address_setpoint_shift = config.get("group_address_setpoint_shift") group_address_setpoint_shift_state = config.get( "group_address_setpoint_shift_state" ) setpoint_shift_mode = config.get( "setpoint_shift_mode", DEFAULT_SETPOINT_SHIFT_MODE ) setpoint_shift_max = config.get( "setpoint_shift_max", DEFAULT_SETPOINT_SHIFT_MAX ) setpoint_shift_min = config.get( "setpoint_shift_min", DEFAULT_SETPOINT_SHIFT_MIN ) temperature_step = config.get("temperature_step", DEFAULT_TEMPERATURE_STEP) group_address_on_off = config.get("group_address_on_off") group_address_on_off_state = config.get("group_address_on_off_state") on_off_invert = config.get("on_off_invert", False) min_temp = config.get("min_temp") max_temp = config.get("max_temp") climate_mode = None if "mode" in config: climate_mode = ClimateMode.from_config( xknx=xknx, name=f"{name}_mode", config=config["mode"] ) return cls( xknx, name, group_address_temperature=group_address_temperature, group_address_target_temperature=group_address_target_temperature, group_address_target_temperature_state=group_address_target_temperature_state, group_address_setpoint_shift=group_address_setpoint_shift, group_address_setpoint_shift_state=group_address_setpoint_shift_state, setpoint_shift_mode=setpoint_shift_mode, setpoint_shift_max=setpoint_shift_max, setpoint_shift_min=setpoint_shift_min, temperature_step=temperature_step, group_address_on_off=group_address_on_off, group_address_on_off_state=group_address_on_off_state, on_off_invert=on_off_invert, min_temp=min_temp, max_temp=max_temp, mode=climate_mode, ) def has_group_address(self, group_address: "GroupAddress") -> bool: """Test if device has given group address.""" if self.mode is not None and self.mode.has_group_address(group_address): return True return super().has_group_address(group_address) @property def is_on(self) -> bool: """Return power status.""" # None will return False return bool(self.on.value) async def turn_on(self) -> None: """Set power status to on.""" await self.on.on() async def turn_off(self) -> None: """Set power status to off.""" await self.on.off() @property def initialized_for_setpoint_shift_calculations(self) -> bool: """Test if object is initialized for setpoint shift calculations.""" if not self._setpoint_shift.initialized: return False if self._setpoint_shift.value is None: return False if not self.target_temperature.initialized: return False if self.target_temperature.value is None: return False return True async def set_target_temperature(self, target_temperature: float) -> None: """Send new target temperature or setpoint_shift to KNX bus.""" if self.base_temperature is not None: # implies initialized_for_setpoint_shift_calculations temperature_delta = target_temperature - self.base_temperature await self.set_setpoint_shift(temperature_delta) else: validated_temp = self.validate_value( target_temperature, self.min_temp, self.max_temp ) await self.target_temperature.set(validated_temp) @property def base_temperature(self) -> Optional[float]: """ Return the base temperature when setpoint_shift is initialized. Base temperature is the default temperature (setpoint-shift=0) for the active climate mode. As this value is usually not available via KNX, we have to derive this from the current target temperature and the current set point shift. """ if self.initialized_for_setpoint_shift_calculations: return cast(float, self.target_temperature.value - self.setpoint_shift) return None @property def setpoint_shift(self) -> Optional[float]: """Return current offset from base temperature in Kelvin.""" return self._setpoint_shift.value # type: ignore def validate_value( self, value: float, min_value: Optional[float], max_value: Optional[float] ) -> float: """Check boundaries of temperature and return valid temperature value.""" if (min_value is not None) and (value < min_value): logger.warning("Min value exceeded at %s: %s", self.name, value) return min_value if (max_value is not None) and (value > max_value): logger.warning("Max value exceeded at %s: %s", self.name, value) return max_value return value async def set_setpoint_shift(self, offset: float) -> None: """Send new temperature offset to KNX bus.""" validated_offset = self.validate_value( offset, self.setpoint_shift_min, self.setpoint_shift_max ) base_temperature = self.base_temperature await self._setpoint_shift.set(validated_offset) # broadcast new target temperature and set internally if self.target_temperature.writable and base_temperature is not None: await self.target_temperature.set(base_temperature + validated_offset) @property def target_temperature_max(self) -> Optional[float]: """Return the highest possible target temperature.""" if self.max_temp is not None: return self.max_temp if self.base_temperature is not None: # implies initialized_for_setpoint_shift_calculations return self.base_temperature + self.setpoint_shift_max return None @property def target_temperature_min(self) -> Optional[float]: """Return the lowest possible target temperature.""" if self.min_temp is not None: return self.min_temp if self.base_temperature is not None: # implies initialized_for_setpoint_shift_calculations return self.base_temperature + self.setpoint_shift_min return None async def process_group_write(self, telegram: "Telegram") -> None: """Process incoming and outgoing GROUP WRITE telegram.""" for remote_value in self._iter_remote_values(): await remote_value.process(telegram) if self.mode is not None: await self.mode.process_group_write(telegram) async def sync(self, wait_for_result: bool = False) -> None: """Read states of device from KNX bus.""" await super().sync(wait_for_result=wait_for_result) if self.mode is not None: await self.mode.sync(wait_for_result=wait_for_result) def __str__(self) -> str: """Return object as readable string.""" return ( '<Climate name="{}" ' 'temperature="{}" ' 'target_temperature="{}" ' 'temperature_step="{}" ' 'setpoint_shift="{}" ' 'setpoint_shift_max="{}" ' 'setpoint_shift_min="{}" ' 'group_address_on_off="{}" ' "/>".format( self.name, self.temperature.group_addr_str(), self.target_temperature.group_addr_str(), self.temperature_step, self._setpoint_shift.group_addr_str(), self.setpoint_shift_max, self.setpoint_shift_min, self.on.group_addr_str(), ) )
class Climate(Device): """Class for managing the climate.""" # pylint: disable=too-many-instance-attributes,invalid-name def __init__(self, xknx, name, group_address_temperature=None, group_address_target_temperature=None, group_address_target_temperature_state=None, group_address_setpoint_shift=None, group_address_setpoint_shift_state=None, setpoint_shift_mode=DEFAULT_SETPOINT_SHIFT_MODE, setpoint_shift_step=DEFAULT_SETPOINT_SHIFT_STEP, setpoint_shift_max=DEFAULT_SETPOINT_SHIFT_MAX, setpoint_shift_min=DEFAULT_SETPOINT_SHIFT_MIN, group_address_on_off=None, group_address_on_off_state=None, on_off_invert=False, min_temp=None, max_temp=None, mode=None, device_updated_cb=None): """Initialize Climate class.""" # pylint: disable=too-many-arguments, too-many-locals, too-many-branches, too-many-statements super().__init__(xknx, name, device_updated_cb) if isinstance(group_address_on_off, (str, int)): group_address_on_off = GroupAddress(group_address_on_off) if isinstance(group_address_on_off_state, (str, int)): group_address_on_off_state = GroupAddress( group_address_on_off_state) self.group_address_on_off = group_address_on_off self.group_address_on_off_state = group_address_on_off_state self.min_temp = min_temp self.max_temp = max_temp self.setpoint_shift_step = setpoint_shift_step self.setpoint_shift_min = setpoint_shift_min self.setpoint_shift_max = setpoint_shift_max self.temperature = RemoteValueTemp( xknx, group_address_state=group_address_temperature, device_name=self.name, after_update_cb=self.after_update) self.target_temperature = RemoteValueTemp( xknx, group_address_target_temperature, group_address_target_temperature_state, device_name=self.name, after_update_cb=self.after_update) if setpoint_shift_mode == SetpointShiftMode.DPT9002: self._setpoint_shift = RemoteValueTemp( xknx, group_address_setpoint_shift, group_address_setpoint_shift_state, device_name=self.name, after_update_cb=self.after_update) else: self._setpoint_shift = RemoteValueSetpointShift( xknx, group_address_setpoint_shift, group_address_setpoint_shift_state, device_name=self.name, after_update_cb=self.after_update, setpoint_shift_step=setpoint_shift_step) self.supports_on_off = \ group_address_on_off is not None or \ group_address_on_off_state is not None self.on = RemoteValueSwitch(xknx, group_address_on_off, group_address_on_off_state, device_name=self.name, after_update_cb=self.after_update, invert=on_off_invert) self.mode = mode @classmethod def from_config(cls, xknx, name, config): """Initialize object from configuration structure.""" # pylint: disable=too-many-locals group_address_temperature = \ config.get('group_address_temperature') group_address_target_temperature = \ config.get('group_address_target_temperature') group_address_target_temperature_state = \ config.get('group_address_target_temperature_state') group_address_setpoint_shift = \ config.get('group_address_setpoint_shift') group_address_setpoint_shift_state = \ config.get('group_address_setpoint_shift_state') setpoint_shift_mode = \ config.get('setpoint_shift_mode', DEFAULT_SETPOINT_SHIFT_MODE) setpoint_shift_step = \ config.get('setpoint_shift_step', DEFAULT_SETPOINT_SHIFT_STEP) setpoint_shift_max = \ config.get('setpoint_shift_max', DEFAULT_SETPOINT_SHIFT_MAX) setpoint_shift_min = \ config.get('setpoint_shift_min', DEFAULT_SETPOINT_SHIFT_MIN) group_address_on_off = \ config.get('group_address_on_off') group_address_on_off_state = \ config.get('group_address_on_off_state') on_off_invert = \ config.get('on_off_invert', False) min_temp = config.get('min_temp') max_temp = config.get('max_temp') climate_mode = None if "mode" in config: climate_mode = ClimateMode.from_config(xknx=xknx, name=None, config=config['mode']) return cls( xknx, name, group_address_temperature=group_address_temperature, group_address_target_temperature=group_address_target_temperature, group_address_target_temperature_state= group_address_target_temperature_state, group_address_setpoint_shift=group_address_setpoint_shift, group_address_setpoint_shift_state= group_address_setpoint_shift_state, setpoint_shift_mode=setpoint_shift_mode, setpoint_shift_step=setpoint_shift_step, setpoint_shift_max=setpoint_shift_max, setpoint_shift_min=setpoint_shift_min, group_address_on_off=group_address_on_off, group_address_on_off_state=group_address_on_off_state, on_off_invert=on_off_invert, min_temp=min_temp, max_temp=max_temp, mode=climate_mode) def has_group_address(self, group_address): """Test if device has given group address.""" if self.mode is not None and self.mode.has_group_address( group_address): return True return self.temperature.has_group_address(group_address) or \ self.target_temperature.has_group_address(group_address) or \ self._setpoint_shift.has_group_address(group_address) or \ self.on.has_group_address(group_address) @property def is_on(self): """Return power status.""" # None will return False return bool(self.on.value) async def turn_on(self): """Set power status to on.""" await self.on.on() async def turn_off(self): """Set power status to off.""" await self.on.off() @property def initialized_for_setpoint_shift_calculations(self): """Test if object is initialized for setpoint shift calculations.""" if not self._setpoint_shift.initialized: return False if self._setpoint_shift.value is None: return False if not self.target_temperature.initialized: return False if self.target_temperature.value is None: return False return True @property def temperature_step(self): """Return smallest possible temperature step.""" if self._setpoint_shift.initialized: return self.setpoint_shift_step return DEFAULT_TEMPERATURE_STEP async def set_target_temperature(self, target_temperature): """Send new target temperature or setpoint_shift to KNX bus.""" if self.initialized_for_setpoint_shift_calculations: temperature_delta = target_temperature - self.base_temperature await self.set_setpoint_shift(temperature_delta) else: validated_temp = self.validate_value(target_temperature, self.min_temp, self.max_temp) await self.target_temperature.set(validated_temp) @property def base_temperature(self): """ Return the base temperature. Base temperature is the default temperature (setpoint-shift=0) for the active climate mode. As this value is usually not available via KNX, we have to derive this from the current target temperature and the current set point shift. """ if self.initialized_for_setpoint_shift_calculations: return self.target_temperature.value - self.setpoint_shift return None @property def setpoint_shift(self): """Return current offset from base temperature in Kelvin.""" return self._setpoint_shift.value def validate_value(self, value, min_value, max_value): """Check boundaries of temperature and return valid temperature value.""" if (min_value is not None) and (value < min_value): self.xknx.logger.warning("min value exceeded at %s: %s", self.name, value) return min_value if (max_value is not None) and (value > max_value): self.xknx.logger.warning("max value exceeded at %s: %s", self.name, value) return max_value return value async def set_setpoint_shift(self, offset): """Send new temperature offset to KNX bus.""" validated_offset = self.validate_value(offset, self.setpoint_shift_min, self.setpoint_shift_max) base_temperature = self.base_temperature await self._setpoint_shift.set(validated_offset) # broadcast new target temperature and set internally if self.target_temperature.writable and \ base_temperature is not None: await self.target_temperature.set(base_temperature + self.setpoint_shift) @property def target_temperature_max(self): """Return the highest possible target temperature.""" if self.max_temp is not None: return self.max_temp if self.initialized_for_setpoint_shift_calculations: return self.base_temperature + self.setpoint_shift_max return None @property def target_temperature_min(self): """Return the lowest possible target temperature.""" if self.min_temp is not None: return self.min_temp if self.initialized_for_setpoint_shift_calculations: return self.base_temperature + self.setpoint_shift_min return None async def process_group_write(self, telegram): """Process incoming GROUP WRITE telegram.""" await self.temperature.process(telegram) await self.target_temperature.process(telegram) await self._setpoint_shift.process(telegram) await self.on.process(telegram) if self.mode is not None: await self.mode.process_group_write(telegram) def state_addresses(self): """Return group addresses which should be requested to sync state.""" state_addresses = [] state_addresses.extend(self.temperature.state_addresses()) state_addresses.extend(self.target_temperature.state_addresses()) state_addresses.extend(self._setpoint_shift.state_addresses()) if self.supports_on_off: state_addresses.extend(self.on.state_addresses()) if self.mode is not None: state_addresses.extend(self.mode.state_addresses()) return state_addresses def __str__(self): """Return object as readable string.""" return '<Climate name="{0}" ' \ 'temperature="{1}" ' \ 'target_temperature="{2}" ' \ 'setpoint_shift="{3}" ' \ 'setpoint_shift_step="{4}" ' \ 'setpoint_shift_max="{5}" ' \ 'setpoint_shift_min="{6}" ' \ 'group_address_on_off="{7}" ' \ '/>' \ .format( self.name, self.temperature.group_addr_str(), self.target_temperature.group_addr_str(), self._setpoint_shift.group_addr_str(), self._setpoint_shift.setpoint_shift_step, self.setpoint_shift_max, self.setpoint_shift_min, self.on.group_addr_str()) def __eq__(self, other): """Equal operator.""" return self.__dict__ == other.__dict__
class Climate(Device): """Class for managing the climate.""" def __init__( self, xknx: XKNX, name: str, group_address_temperature: GroupAddressesType | None = None, group_address_target_temperature: GroupAddressesType | None = None, group_address_target_temperature_state: GroupAddressesType | None = None, group_address_setpoint_shift: GroupAddressesType | None = None, group_address_setpoint_shift_state: GroupAddressesType | None = None, setpoint_shift_mode: SetpointShiftMode | None = None, setpoint_shift_max: float = DEFAULT_SETPOINT_SHIFT_MAX, setpoint_shift_min: float = DEFAULT_SETPOINT_SHIFT_MIN, temperature_step: float = DEFAULT_TEMPERATURE_STEP, group_address_on_off: GroupAddressesType | None = None, group_address_on_off_state: GroupAddressesType | None = None, on_off_invert: bool = False, min_temp: float | None = None, max_temp: float | None = None, mode: ClimateMode | None = None, create_temperature_sensors: bool = False, device_updated_cb: DeviceCallbackType | None = None, ): """Initialize Climate class.""" super().__init__(xknx, name, device_updated_cb) self.min_temp = min_temp self.max_temp = max_temp self.setpoint_shift_min = setpoint_shift_min self.setpoint_shift_max = setpoint_shift_max self.temperature_step = temperature_step self.temperature = RemoteValueTemp( xknx, group_address_state=group_address_temperature, device_name=self.name, feature_name="Current temperature", after_update_cb=self.after_update, ) self.target_temperature = RemoteValueTemp( xknx, group_address_target_temperature, group_address_target_temperature_state, device_name=self.name, feature_name="Target temperature", after_update_cb=self.after_update, ) self._setpoint_shift = RemoteValueSetpointShift( xknx, group_address_setpoint_shift, group_address_setpoint_shift_state, device_name=self.name, after_update_cb=self.after_update, setpoint_shift_mode=setpoint_shift_mode, setpoint_shift_step=self.temperature_step, ) self.supports_on_off = (group_address_on_off is not None or group_address_on_off_state is not None) self.on = RemoteValueSwitch( # pylint: disable=invalid-name xknx, group_address_on_off, group_address_on_off_state, device_name=self.name, after_update_cb=self.after_update, invert=on_off_invert, ) self.mode = mode if create_temperature_sensors: self.create_temperature_sensors() def _iter_remote_values(self) -> Iterator[RemoteValue[Any, Any]]: """Iterate the devices RemoteValue classes.""" yield self.temperature yield self.target_temperature yield self._setpoint_shift yield self.on def create_temperature_sensors(self) -> None: """Create temperature sensors.""" for suffix, group_address, value_type in ( ( "temperature", self.temperature.group_address_state, "temperature", ), ( "target temperature", self.target_temperature.group_address_state, "temperature", ), ): if group_address is not None: Sensor( self.xknx, name=self.name + " " + suffix, group_address_state=group_address, value_type=value_type, ) @property def unique_id(self) -> str | None: """Return unique id for this device.""" return f"{self.temperature.group_address_state}" def has_group_address(self, group_address: DeviceGroupAddress) -> bool: """Test if device has given group address.""" if self.mode is not None and self.mode.has_group_address( group_address): return True return super().has_group_address(group_address) @property def is_on(self) -> bool: """Return power status.""" # None will return False return bool(self.on.value) async def turn_on(self) -> None: """Set power status to on.""" await self.on.on() async def turn_off(self) -> None: """Set power status to off.""" await self.on.off() @property def initialized_for_setpoint_shift_calculations(self) -> bool: """Test if object is initialized for setpoint shift calculations.""" if (self._setpoint_shift.initialized and self._setpoint_shift.value is not None and self.target_temperature.initialized and self.target_temperature.value is not None): return True return False async def set_target_temperature(self, target_temperature: float) -> None: """Send new target temperature or setpoint_shift to KNX bus.""" if self.base_temperature is not None: # implies initialized_for_setpoint_shift_calculations temperature_delta = target_temperature - self.base_temperature await self.set_setpoint_shift(temperature_delta) else: validated_temp = self.validate_value(target_temperature, self.min_temp, self.max_temp) await self.target_temperature.set(validated_temp) @property def base_temperature(self) -> float | None: """ Return the base temperature when setpoint_shift is initialized. Base temperature is the default temperature (setpoint-shift=0) for the active climate mode. As this value is usually not available via KNX, we have to derive this from the current target temperature and the current set point shift. """ # implies self.initialized_for_setpoint_shift_calculations in a mypy compatible way: if (self.target_temperature.value is not None and self._setpoint_shift.value is not None): return self.target_temperature.value - self._setpoint_shift.value return None @property def setpoint_shift(self) -> float | None: """Return current offset from base temperature in Kelvin.""" return self._setpoint_shift.value def validate_value(self, value: float, min_value: float | None, max_value: float | None) -> float: """Check boundaries of temperature and return valid temperature value.""" if (min_value is not None) and (value < min_value): logger.warning("Min value exceeded at %s: %s", self.name, value) return min_value if (max_value is not None) and (value > max_value): logger.warning("Max value exceeded at %s: %s", self.name, value) return max_value return value async def set_setpoint_shift(self, offset: float) -> None: """Send new temperature offset to KNX bus.""" validated_offset = self.validate_value(offset, self.setpoint_shift_min, self.setpoint_shift_max) base_temperature = self.base_temperature await self._setpoint_shift.set(validated_offset) # broadcast new target temperature and set internally if self.target_temperature.writable and base_temperature is not None: await self.target_temperature.set(base_temperature + validated_offset) @property def target_temperature_max(self) -> float | None: """Return the highest possible target temperature.""" if self.max_temp is not None: return self.max_temp if self.base_temperature is not None: # implies initialized_for_setpoint_shift_calculations return self.base_temperature + self.setpoint_shift_max return None @property def target_temperature_min(self) -> float | None: """Return the lowest possible target temperature.""" if self.min_temp is not None: return self.min_temp if self.base_temperature is not None: # implies initialized_for_setpoint_shift_calculations return self.base_temperature + self.setpoint_shift_min return None async def process_group_write(self, telegram: Telegram) -> None: """Process incoming and outgoing GROUP WRITE telegram.""" for remote_value in self._iter_remote_values(): await remote_value.process(telegram) if self.mode is not None: await self.mode.process_group_write(telegram) async def sync(self, wait_for_result: bool = False) -> None: """Read states of device from KNX bus.""" await super().sync(wait_for_result=wait_for_result) if self.mode is not None: await self.mode.sync(wait_for_result=wait_for_result) def __str__(self) -> str: """Return object as readable string.""" return ('<Climate name="{}" ' "temperature={} " "target_temperature={} " 'temperature_step="{}" ' "setpoint_shift={} " 'setpoint_shift_max="{}" ' 'setpoint_shift_min="{}" ' "group_address_on_off={} " "/>".format( self.name, self.temperature.group_addr_str(), self.target_temperature.group_addr_str(), self.temperature_step, self._setpoint_shift.group_addr_str(), self.setpoint_shift_max, self.setpoint_shift_min, self.on.group_addr_str(), ))