"""Support for Homekit climate devices."""
from __future__ import annotations
import logging
from typing import Any, Final
from aiohomekit.model.characteristics import (
ActivationStateValues,
CharacteristicsTypes,
CurrentHeaterCoolerStateValues,
HeatingCoolingCurrentValues,
HeatingCoolingTargetValues,
SwingModeValues,
TargetHeaterCoolerStateValues,
)
from aiohomekit.model.services import Service, ServicesTypes
from aiohomekit.utils import clamp_enum_to_char
from homeassistant.components.climate import (
ATTR_HVAC_MODE,
ATTR_TARGET_TEMP_HIGH,
ATTR_TARGET_TEMP_LOW,
DEFAULT_MAX_TEMP,
DEFAULT_MIN_TEMP,
FAN_AUTO,
FAN_HIGH,
FAN_LOW,
FAN_MEDIUM,
FAN_OFF,
FAN_ON,
SWING_OFF,
SWING_VERTICAL,
ClimateEntity,
ClimateEntityFeature,
HVACAction,
HVACMode,
)
from homeassistant.config_entries import ConfigEntry
from homeassistant.const import ATTR_TEMPERATURE, Platform, UnitOfTemperature
from homeassistant.core import HomeAssistant, callback
from homeassistant.helpers.entity_platform import AddEntitiesCallback
from homeassistant.util.percentage import (
percentage_to_ranged_value,
ranged_value_to_percentage,
)
from . import KNOWN_DEVICES
from .connection import HKDevice
from .entity import HomeKitEntity
_LOGGER = logging.getLogger(__name__)
# Map of Homekit operation modes to hass modes
MODE_HOMEKIT_TO_HASS = {
HeatingCoolingTargetValues.OFF: HVACMode.OFF,
HeatingCoolingTargetValues.HEAT: HVACMode.HEAT,
HeatingCoolingTargetValues.COOL: HVACMode.COOL,
HeatingCoolingTargetValues.AUTO: HVACMode.HEAT_COOL,
}
CURRENT_MODE_HOMEKIT_TO_HASS = {
HeatingCoolingCurrentValues.IDLE: HVACAction.IDLE,
HeatingCoolingCurrentValues.HEATING: HVACAction.HEATING,
HeatingCoolingCurrentValues.COOLING: HVACAction.COOLING,
}
SWING_MODE_HOMEKIT_TO_HASS = {
SwingModeValues.DISABLED: SWING_OFF,
SwingModeValues.ENABLED: SWING_VERTICAL,
}
CURRENT_HEATER_COOLER_STATE_HOMEKIT_TO_HASS = {
CurrentHeaterCoolerStateValues.INACTIVE: HVACAction.OFF,
CurrentHeaterCoolerStateValues.IDLE: HVACAction.IDLE,
CurrentHeaterCoolerStateValues.HEATING: HVACAction.HEATING,
CurrentHeaterCoolerStateValues.COOLING: HVACAction.COOLING,
}
TARGET_HEATER_COOLER_STATE_HOMEKIT_TO_HASS = {
TargetHeaterCoolerStateValues.AUTOMATIC: HVACMode.HEAT_COOL,
TargetHeaterCoolerStateValues.HEAT: HVACMode.HEAT,
TargetHeaterCoolerStateValues.COOL: HVACMode.COOL,
}
# Map of hass operation modes to homekit modes
MODE_HASS_TO_HOMEKIT = {v: k for k, v in MODE_HOMEKIT_TO_HASS.items()}
TARGET_HEATER_COOLER_STATE_HASS_TO_HOMEKIT = {
v: k for k, v in TARGET_HEATER_COOLER_STATE_HOMEKIT_TO_HASS.items()
}
SWING_MODE_HASS_TO_HOMEKIT = {v: k for k, v in SWING_MODE_HOMEKIT_TO_HASS.items()}
DEFAULT_MIN_STEP: Final = 1.0
ROTATION_SPEED_LOW = 33
ROTATION_SPEED_MEDIUM = 66
ROTATION_SPEED_HIGH = 100
HASS_FAN_MODE_TO_HOMEKIT_ROTATION = {
FAN_LOW: ROTATION_SPEED_LOW,
FAN_MEDIUM: ROTATION_SPEED_MEDIUM,
FAN_HIGH: ROTATION_SPEED_HIGH,
}
async def async_setup_entry(
hass: HomeAssistant,
config_entry: ConfigEntry,
async_add_entities: AddEntitiesCallback,
) -> None:
"""Set up Homekit climate."""
hkid: str = config_entry.data["AccessoryPairingID"]
conn: HKDevice = hass.data[KNOWN_DEVICES][hkid]
@callback
def async_add_service(service: Service) -> bool:
if not (entity_class := ENTITY_TYPES.get(service.type)):
return False
info = {"aid": service.accessory.aid, "iid": service.iid}
entity: HomeKitEntity = entity_class(conn, info)
conn.async_migrate_unique_id(
entity.old_unique_id, entity.unique_id, Platform.CLIMATE
)
async_add_entities([entity])
return True
conn.add_listener(async_add_service)
class HomeKitBaseClimateEntity(HomeKitEntity, ClimateEntity):
"""The base HomeKit Controller climate entity."""
_attr_temperature_unit = UnitOfTemperature.CELSIUS
def get_characteristic_types(self) -> list[str]:
"""Define the homekit characteristics the entity cares about."""
return [
CharacteristicsTypes.TEMPERATURE_CURRENT,
CharacteristicsTypes.FAN_STATE_TARGET,
]
@property
def current_temperature(self) -> float | None:
"""Return the current temperature."""
return self.service.value(CharacteristicsTypes.TEMPERATURE_CURRENT)
@property
def fan_modes(self) -> list[str] | None:
"""Return the available fan modes."""
if self.service.has(CharacteristicsTypes.FAN_STATE_TARGET):
return [FAN_ON, FAN_AUTO]
return None
@property
def fan_mode(self) -> str | None:
"""Return the current fan mode."""
fan_mode = self.service.value(CharacteristicsTypes.FAN_STATE_TARGET)
return FAN_AUTO if fan_mode else FAN_ON
async def async_set_fan_mode(self, fan_mode: str) -> None:
"""Turn fan to manual/auto."""
await self.async_put_characteristics(
{CharacteristicsTypes.FAN_STATE_TARGET: int(fan_mode == FAN_AUTO)}
)
@property
def supported_features(self) -> ClimateEntityFeature:
"""Return the list of supported features."""
features = ClimateEntityFeature(0)
if self.service.has(CharacteristicsTypes.FAN_STATE_TARGET):
features |= ClimateEntityFeature.FAN_MODE
return features
class HomeKitHeaterCoolerEntity(HomeKitBaseClimateEntity):
"""Representation of a Homekit climate device."""
def get_characteristic_types(self) -> list[str]:
"""Define the homekit characteristics the entity cares about."""
return super().get_characteristic_types() + [
CharacteristicsTypes.ACTIVE,
CharacteristicsTypes.CURRENT_HEATER_COOLER_STATE,
CharacteristicsTypes.TARGET_HEATER_COOLER_STATE,
CharacteristicsTypes.TEMPERATURE_COOLING_THRESHOLD,
CharacteristicsTypes.TEMPERATURE_HEATING_THRESHOLD,
CharacteristicsTypes.SWING_MODE,
CharacteristicsTypes.ROTATION_SPEED,
]
def _get_rotation_speed_range(self) -> tuple[float, float]:
rotation_speed = self.service[CharacteristicsTypes.ROTATION_SPEED]
return round(rotation_speed.minValue or 0) + 1, round(
rotation_speed.maxValue or 100
)
@property
def fan_modes(self) -> list[str]:
"""Return the available fan modes."""
return [FAN_OFF, FAN_LOW, FAN_MEDIUM, FAN_HIGH]
@property
def fan_mode(self) -> str | None:
"""Return the current fan mode."""
speed_range = self._get_rotation_speed_range()
speed_percentage = ranged_value_to_percentage(
speed_range, self.service.value(CharacteristicsTypes.ROTATION_SPEED)
)
# homekit value 0 33 66 100
if speed_percentage > ROTATION_SPEED_MEDIUM:
return FAN_HIGH
if speed_percentage > ROTATION_SPEED_LOW:
return FAN_MEDIUM
if speed_percentage > 0:
return FAN_LOW
return FAN_OFF
async def async_set_fan_mode(self, fan_mode: str) -> None:
"""Set new target fan mode."""
rotation = HASS_FAN_MODE_TO_HOMEKIT_ROTATION.get(fan_mode, 0)
speed_range = self._get_rotation_speed_range()
speed = round(percentage_to_ranged_value(speed_range, rotation))
await self.async_put_characteristics(
{CharacteristicsTypes.ROTATION_SPEED: speed}
)
async def async_set_temperature(self, **kwargs: Any) -> None:
"""Set new target temperature."""
temp = kwargs.get(ATTR_TEMPERATURE)
state = self.service.value(CharacteristicsTypes.TARGET_HEATER_COOLER_STATE)
if state == TargetHeaterCoolerStateValues.COOL:
await self.async_put_characteristics(
{CharacteristicsTypes.TEMPERATURE_COOLING_THRESHOLD: temp}
)
elif state == TargetHeaterCoolerStateValues.HEAT:
await self.async_put_characteristics(
{CharacteristicsTypes.TEMPERATURE_HEATING_THRESHOLD: temp}
)
else:
hvac_mode = TARGET_HEATER_COOLER_STATE_HOMEKIT_TO_HASS.get(state)
_LOGGER.warning(
(
"HomeKit device %s: Setting temperature in %s mode is not supported"
" yet; Consider raising a ticket if you have this device and want"
" to help us implement this feature"
),
self.entity_id,
hvac_mode,
)
async def async_set_hvac_mode(self, hvac_mode: HVACMode) -> None:
"""Set new target operation mode."""
if hvac_mode == HVACMode.OFF:
await self.async_put_characteristics(
{CharacteristicsTypes.ACTIVE: ActivationStateValues.INACTIVE}
)
return
if hvac_mode not in {HVACMode.HEAT, HVACMode.COOL}:
_LOGGER.warning(
(
"HomeKit device %s: Setting temperature in %s mode is not supported"
" yet; Consider raising a ticket if you have this device and want"
" to help us implement this feature"
),
self.entity_id,
hvac_mode,
)
await self.async_put_characteristics(
{
CharacteristicsTypes.ACTIVE: ActivationStateValues.ACTIVE,
CharacteristicsTypes.TARGET_HEATER_COOLER_STATE: TARGET_HEATER_COOLER_STATE_HASS_TO_HOMEKIT[
hvac_mode
],
}
)
@property
def target_temperature(self) -> float | None:
"""Return the temperature we try to reach."""
state = self.service.value(CharacteristicsTypes.TARGET_HEATER_COOLER_STATE)
if state == TargetHeaterCoolerStateValues.COOL:
return self.service.value(
CharacteristicsTypes.TEMPERATURE_COOLING_THRESHOLD
)
if state == TargetHeaterCoolerStateValues.HEAT:
return self.service.value(
CharacteristicsTypes.TEMPERATURE_HEATING_THRESHOLD
)
return None
@property
def target_temperature_step(self) -> float:
"""Return the supported step of target temperature."""
state = self.service.value(CharacteristicsTypes.TARGET_HEATER_COOLER_STATE)
if state == TargetHeaterCoolerStateValues.COOL and self.service.has(
CharacteristicsTypes.TEMPERATURE_COOLING_THRESHOLD
):
return (
self.service[CharacteristicsTypes.TEMPERATURE_COOLING_THRESHOLD].minStep
or DEFAULT_MIN_STEP
)
if state == TargetHeaterCoolerStateValues.HEAT and self.service.has(
CharacteristicsTypes.TEMPERATURE_HEATING_THRESHOLD
):
return (
self.service[CharacteristicsTypes.TEMPERATURE_HEATING_THRESHOLD].minStep
or DEFAULT_MIN_STEP
)
return DEFAULT_MIN_STEP
@property
def min_temp(self) -> float:
"""Return the minimum target temp."""
state = self.service.value(CharacteristicsTypes.TARGET_HEATER_COOLER_STATE)
if state == TargetHeaterCoolerStateValues.COOL and self.service.has(
CharacteristicsTypes.TEMPERATURE_COOLING_THRESHOLD
):
return (
self.service[
CharacteristicsTypes.TEMPERATURE_COOLING_THRESHOLD
].minValue
or DEFAULT_MIN_TEMP
)
if state == TargetHeaterCoolerStateValues.HEAT and self.service.has(
CharacteristicsTypes.TEMPERATURE_HEATING_THRESHOLD
):
return (
self.service[
CharacteristicsTypes.TEMPERATURE_HEATING_THRESHOLD
].minValue
or DEFAULT_MIN_TEMP
)
return super().min_temp
@property
def max_temp(self) -> float:
"""Return the maximum target temp."""
state = self.service.value(CharacteristicsTypes.TARGET_HEATER_COOLER_STATE)
if state == TargetHeaterCoolerStateValues.COOL and self.service.has(
CharacteristicsTypes.TEMPERATURE_COOLING_THRESHOLD
):
return (
self.service[
CharacteristicsTypes.TEMPERATURE_COOLING_THRESHOLD
].maxValue
or DEFAULT_MAX_TEMP
)
if state == TargetHeaterCoolerStateValues.HEAT and self.service.has(
CharacteristicsTypes.TEMPERATURE_HEATING_THRESHOLD
):
return (
self.service[
CharacteristicsTypes.TEMPERATURE_HEATING_THRESHOLD
].maxValue
or DEFAULT_MAX_TEMP
)
return super().max_temp
@property
def hvac_action(self) -> HVACAction | None:
"""Return the current running hvac operation."""
# This characteristic describes the current mode of a device,
# e.g. a thermostat is "heating" a room to 75 degrees Fahrenheit.
# Can be 0 - 3 (Off, Idle, Heat, Cool)
if (
self.service.value(CharacteristicsTypes.ACTIVE)
== ActivationStateValues.INACTIVE
):
return HVACAction.OFF
value = self.service.value(CharacteristicsTypes.CURRENT_HEATER_COOLER_STATE)
return CURRENT_HEATER_COOLER_STATE_HOMEKIT_TO_HASS.get(value)
@property
def hvac_mode(self) -> HVACMode:
"""Return hvac operation ie. heat, cool mode."""
# This characteristic describes the target mode
# E.g. should the device start heating a room if the temperature
# falls below the target temperature.
# Can be 0 - 2 (Auto, Heat, Cool)
if (
self.service.value(CharacteristicsTypes.ACTIVE)
== ActivationStateValues.INACTIVE
):
return HVACMode.OFF
value = self.service.value(CharacteristicsTypes.TARGET_HEATER_COOLER_STATE)
return TARGET_HEATER_COOLER_STATE_HOMEKIT_TO_HASS[value]
@property
def hvac_modes(self) -> list[HVACMode]:
"""Return the list of available hvac operation modes."""
valid_values = clamp_enum_to_char(
TargetHeaterCoolerStateValues,
self.service[CharacteristicsTypes.TARGET_HEATER_COOLER_STATE],
)
modes = [
TARGET_HEATER_COOLER_STATE_HOMEKIT_TO_HASS[mode] for mode in valid_values
]
modes.append(HVACMode.OFF)
return modes
@property
def swing_mode(self) -> str:
"""Return the swing setting.
Requires ClimateEntityFeature.SWING_MODE.
"""
value = self.service.value(CharacteristicsTypes.SWING_MODE)
return SWING_MODE_HOMEKIT_TO_HASS[value]
@property
def swing_modes(self) -> list[str]:
"""Return the list of available swing modes.
Requires ClimateEntityFeature.SWING_MODE.
"""
valid_values = clamp_enum_to_char(
SwingModeValues,
self.service[CharacteristicsTypes.SWING_MODE],
)
return [SWING_MODE_HOMEKIT_TO_HASS[mode] for mode in valid_values]
async def async_set_swing_mode(self, swing_mode: str) -> None:
"""Set new target swing operation."""
await self.async_put_characteristics(
{CharacteristicsTypes.SWING_MODE: SWING_MODE_HASS_TO_HOMEKIT[swing_mode]}
)
@property
def supported_features(self) -> ClimateEntityFeature:
"""Return the list of supported features."""
features = super().supported_features
if self.service.has(CharacteristicsTypes.TEMPERATURE_COOLING_THRESHOLD):
features |= ClimateEntityFeature.TARGET_TEMPERATURE
if self.service.has(CharacteristicsTypes.TEMPERATURE_HEATING_THRESHOLD):
features |= ClimateEntityFeature.TARGET_TEMPERATURE
if self.service.has(CharacteristicsTypes.SWING_MODE):
features |= ClimateEntityFeature.SWING_MODE
if self.service.has(CharacteristicsTypes.ROTATION_SPEED):
features |= ClimateEntityFeature.FAN_MODE
return features
class HomeKitClimateEntity(HomeKitBaseClimateEntity):
"""Representation of a Homekit climate device."""
def get_characteristic_types(self) -> list[str]:
"""Define the homekit characteristics the entity cares about."""
return super().get_characteristic_types() + [
CharacteristicsTypes.HEATING_COOLING_CURRENT,
CharacteristicsTypes.HEATING_COOLING_TARGET,
CharacteristicsTypes.TEMPERATURE_COOLING_THRESHOLD,
CharacteristicsTypes.TEMPERATURE_HEATING_THRESHOLD,
CharacteristicsTypes.TEMPERATURE_TARGET,
CharacteristicsTypes.RELATIVE_HUMIDITY_CURRENT,
CharacteristicsTypes.RELATIVE_HUMIDITY_TARGET,
]
async def async_set_temperature(self, **kwargs: Any) -> None:
"""Set new target temperature."""
chars: dict[str, Any] = {}
value = self.service.value(CharacteristicsTypes.HEATING_COOLING_TARGET)
mode = MODE_HOMEKIT_TO_HASS[value]
if kwargs.get(ATTR_HVAC_MODE, mode) != mode:
mode = kwargs[ATTR_HVAC_MODE]
chars[CharacteristicsTypes.HEATING_COOLING_TARGET] = MODE_HASS_TO_HOMEKIT[
mode
]
temp = kwargs.get(ATTR_TEMPERATURE)
heat_temp = kwargs.get(ATTR_TARGET_TEMP_LOW)
cool_temp = kwargs.get(ATTR_TARGET_TEMP_HIGH)
if (
(mode == HVACMode.HEAT_COOL)
and (
ClimateEntityFeature.TARGET_TEMPERATURE_RANGE & self.supported_features
)
and heat_temp
and cool_temp
):
if temp is None:
temp = (cool_temp + heat_temp) / 2
chars.update(
{
CharacteristicsTypes.TEMPERATURE_HEATING_THRESHOLD: heat_temp,
CharacteristicsTypes.TEMPERATURE_COOLING_THRESHOLD: cool_temp,
CharacteristicsTypes.TEMPERATURE_TARGET: temp,
}
)
else:
chars[CharacteristicsTypes.TEMPERATURE_TARGET] = temp
await self.async_put_characteristics(chars)
async def async_set_humidity(self, humidity: int) -> None:
"""Set new target humidity."""
await self.async_put_characteristics(
{CharacteristicsTypes.RELATIVE_HUMIDITY_TARGET: humidity}
)
async def async_set_hvac_mode(self, hvac_mode: HVACMode) -> None:
"""Set new target operation mode."""
await self.async_put_characteristics(
{
CharacteristicsTypes.HEATING_COOLING_TARGET: MODE_HASS_TO_HOMEKIT[
hvac_mode
],
}
)
@property
def target_temperature(self) -> float | None:
"""Return the temperature we try to reach."""
value = self.service.value(CharacteristicsTypes.HEATING_COOLING_TARGET)
if (MODE_HOMEKIT_TO_HASS.get(value) in {HVACMode.HEAT, HVACMode.COOL}) or (
(MODE_HOMEKIT_TO_HASS.get(value) in {HVACMode.HEAT_COOL})
and not (
ClimateEntityFeature.TARGET_TEMPERATURE_RANGE & self.supported_features
)
):
return self.service.value(CharacteristicsTypes.TEMPERATURE_TARGET)
return None
@property
def target_temperature_high(self) -> float | None:
"""Return the highbound target temperature we try to reach."""
value = self.service.value(CharacteristicsTypes.HEATING_COOLING_TARGET)
if (MODE_HOMEKIT_TO_HASS.get(value) in {HVACMode.HEAT_COOL}) and (
ClimateEntityFeature.TARGET_TEMPERATURE_RANGE & self.supported_features
):
return self.service.value(
CharacteristicsTypes.TEMPERATURE_COOLING_THRESHOLD
)
return None
@property
def target_temperature_low(self) -> float | None:
"""Return the lowbound target temperature we try to reach."""
value = self.service.value(CharacteristicsTypes.HEATING_COOLING_TARGET)
if (MODE_HOMEKIT_TO_HASS.get(value) in {HVACMode.HEAT_COOL}) and (
ClimateEntityFeature.TARGET_TEMPERATURE_RANGE & self.supported_features
):
return self.service.value(
CharacteristicsTypes.TEMPERATURE_HEATING_THRESHOLD
)
return None
@property
def min_temp(self) -> float:
"""Return the minimum target temp."""
value = self.service.value(CharacteristicsTypes.HEATING_COOLING_TARGET)
if (MODE_HOMEKIT_TO_HASS.get(value) in {HVACMode.HEAT_COOL}) and (
ClimateEntityFeature.TARGET_TEMPERATURE_RANGE & self.supported_features
):
min_temp = self.service[
CharacteristicsTypes.TEMPERATURE_HEATING_THRESHOLD
].minValue
if min_temp is not None:
return min_temp
elif MODE_HOMEKIT_TO_HASS.get(value) in {
HVACMode.HEAT,
HVACMode.COOL,
HVACMode.HEAT_COOL,
}:
min_temp = self.service[CharacteristicsTypes.TEMPERATURE_TARGET].minValue
if min_temp is not None:
return min_temp
return super().min_temp
@property
def max_temp(self) -> float:
"""Return the maximum target temp."""
value = self.service.value(CharacteristicsTypes.HEATING_COOLING_TARGET)
if (MODE_HOMEKIT_TO_HASS.get(value) in {HVACMode.HEAT_COOL}) and (
ClimateEntityFeature.TARGET_TEMPERATURE_RANGE & self.supported_features
):
max_temp = self.service[
CharacteristicsTypes.TEMPERATURE_COOLING_THRESHOLD
].maxValue
if max_temp is not None:
return max_temp
elif MODE_HOMEKIT_TO_HASS.get(value) in {
HVACMode.HEAT,
HVACMode.COOL,
HVACMode.HEAT_COOL,
}:
max_temp = self.service[CharacteristicsTypes.TEMPERATURE_TARGET].maxValue
if max_temp is not None:
return max_temp
return super().max_temp
@property
def current_humidity(self) -> int:
"""Return the current humidity."""
return self.service.value(CharacteristicsTypes.RELATIVE_HUMIDITY_CURRENT)
@property
def target_humidity(self) -> int:
"""Return the humidity we try to reach."""
return self.service.value(CharacteristicsTypes.RELATIVE_HUMIDITY_TARGET)
@property
def min_humidity(self) -> int:
"""Return the minimum humidity."""
min_humidity = self.service[
CharacteristicsTypes.RELATIVE_HUMIDITY_TARGET
].minValue
if min_humidity is not None:
return int(min_humidity)
return super().min_humidity
@property
def max_humidity(self) -> int:
"""Return the maximum humidity."""
max_humidity = self.service[
CharacteristicsTypes.RELATIVE_HUMIDITY_TARGET
].maxValue
if max_humidity is not None:
return int(max_humidity)
return super().max_humidity
@property
def hvac_action(self) -> HVACAction | None:
"""Return the current running hvac operation."""
# This characteristic describes the current mode of a device,
# e.g. a thermostat is "heating" a room to 75 degrees Fahrenheit.
# Can be 0 - 2 (Off, Heat, Cool)
# If the HVAC is switched off, it must be idle
# This works around a bug in some devices (like Eve radiator valves) that
# return they are heating when they are not.
target = self.service.value(CharacteristicsTypes.HEATING_COOLING_TARGET)
if target == HeatingCoolingTargetValues.OFF:
return HVACAction.IDLE
value = self.service.value(CharacteristicsTypes.HEATING_COOLING_CURRENT)
return CURRENT_MODE_HOMEKIT_TO_HASS.get(value)
@property
def hvac_mode(self) -> HVACMode:
"""Return hvac operation ie. heat, cool mode."""
# This characteristic describes the target mode
# E.g. should the device start heating a room if the temperature
# falls below the target temperature.
# Can be 0 - 3 (Off, Heat, Cool, Auto)
value = self.service.value(CharacteristicsTypes.HEATING_COOLING_TARGET)
return MODE_HOMEKIT_TO_HASS[value]
@property
def hvac_modes(self) -> list[HVACMode]:
"""Return the list of available hvac operation modes."""
valid_values = clamp_enum_to_char(
HeatingCoolingTargetValues,
self.service[CharacteristicsTypes.HEATING_COOLING_TARGET],
)
return [MODE_HOMEKIT_TO_HASS[mode] for mode in valid_values]
@property
def supported_features(self) -> ClimateEntityFeature:
"""Return the list of supported features."""
features = super().supported_features
if self.service.has(CharacteristicsTypes.TEMPERATURE_TARGET):
features |= ClimateEntityFeature.TARGET_TEMPERATURE
if self.service.has(
CharacteristicsTypes.TEMPERATURE_COOLING_THRESHOLD
) and self.service.has(CharacteristicsTypes.TEMPERATURE_HEATING_THRESHOLD):
features |= ClimateEntityFeature.TARGET_TEMPERATURE_RANGE
if self.service.has(CharacteristicsTypes.RELATIVE_HUMIDITY_TARGET):
features |= ClimateEntityFeature.TARGET_HUMIDITY
return features
ENTITY_TYPES = {
ServicesTypes.HEATER_COOLER: HomeKitHeaterCoolerEntity,
ServicesTypes.THERMOSTAT: HomeKitClimateEntity,
}