"""Support for Tado to create a climate device for each zone."""
import logging
from typing import List, Optional
from homeassistant.components.climate import ClimateDevice
from homeassistant.components.climate.const import (
CURRENT_HVAC_COOL,
CURRENT_HVAC_HEAT,
CURRENT_HVAC_IDLE,
CURRENT_HVAC_OFF,
FAN_HIGH,
FAN_LOW,
FAN_MIDDLE,
FAN_OFF,
HVAC_MODE_AUTO,
HVAC_MODE_COOL,
HVAC_MODE_HEAT,
HVAC_MODE_HEAT_COOL,
HVAC_MODE_OFF,
PRESET_AWAY,
PRESET_HOME,
SUPPORT_PRESET_MODE,
SUPPORT_TARGET_TEMPERATURE,
)
from homeassistant.const import ATTR_TEMPERATURE, PRECISION_TENTHS, TEMP_CELSIUS
from homeassistant.util.temperature import convert as convert_temperature
from . import DATA_TADO
_LOGGER = logging.getLogger(__name__)
CONST_MODE_SMART_SCHEDULE = "SMART_SCHEDULE" # Default mytado mode
CONST_MODE_OFF = "OFF" # Switch off heating in a zone
# When we change the temperature setting, we need an overlay mode
# wait until tado changes the mode automatic
CONST_OVERLAY_TADO_MODE = "TADO_MODE"
# the user has change the temperature or mode manually
CONST_OVERLAY_MANUAL = "MANUAL"
# the temperature will be reset after a timespan
CONST_OVERLAY_TIMER = "TIMER"
CONST_MODE_FAN_HIGH = "HIGH"
CONST_MODE_FAN_MIDDLE = "MIDDLE"
CONST_MODE_FAN_LOW = "LOW"
FAN_MAP_TADO = {"HIGH": FAN_HIGH, "MIDDLE": FAN_MIDDLE, "LOW": FAN_LOW}
HVAC_MAP_TADO_HEAT = {
"MANUAL": HVAC_MODE_HEAT,
"TIMER": HVAC_MODE_HEAT,
"TADO_MODE": HVAC_MODE_HEAT,
"SMART_SCHEDULE": HVAC_MODE_AUTO,
"OFF": HVAC_MODE_OFF,
}
HVAC_MAP_TADO_COOL = {
"MANUAL": HVAC_MODE_COOL,
"TIMER": HVAC_MODE_COOL,
"TADO_MODE": HVAC_MODE_COOL,
"SMART_SCHEDULE": HVAC_MODE_AUTO,
"OFF": HVAC_MODE_OFF,
}
HVAC_MAP_TADO_HEAT_COOL = {
"MANUAL": HVAC_MODE_HEAT_COOL,
"TIMER": HVAC_MODE_HEAT_COOL,
"TADO_MODE": HVAC_MODE_HEAT_COOL,
"SMART_SCHEDULE": HVAC_MODE_AUTO,
"OFF": HVAC_MODE_OFF,
}
SUPPORT_FLAGS = SUPPORT_TARGET_TEMPERATURE | SUPPORT_PRESET_MODE
SUPPORT_HVAC_HEAT = [HVAC_MODE_HEAT, HVAC_MODE_AUTO, HVAC_MODE_OFF]
SUPPORT_HVAC_COOL = [HVAC_MODE_COOL, HVAC_MODE_AUTO, HVAC_MODE_OFF]
SUPPORT_HVAC_HEAT_COOL = [HVAC_MODE_HEAT_COOL, HVAC_MODE_AUTO, HVAC_MODE_OFF]
SUPPORT_FAN = [FAN_HIGH, FAN_MIDDLE, FAN_LOW, FAN_OFF]
SUPPORT_PRESET = [PRESET_AWAY, PRESET_HOME]
def setup_platform(hass, config, add_entities, discovery_info=None):
"""Set up the Tado climate platform."""
tado = hass.data[DATA_TADO]
try:
zones = tado.get_zones()
except RuntimeError:
_LOGGER.error("Unable to get zone info from mytado")
return
climate_devices = []
for zone in zones:
device = create_climate_device(tado, hass, zone, zone["name"], zone["id"])
if not device:
continue
climate_devices.append(device)
if climate_devices:
add_entities(climate_devices, True)
def create_climate_device(tado, hass, zone, name, zone_id):
"""Create a Tado climate device."""
capabilities = tado.get_capabilities(zone_id)
unit = TEMP_CELSIUS
ac_device = capabilities["type"] == "AIR_CONDITIONING"
hot_water_device = capabilities["type"] == "HOT_WATER"
ac_support_heat = False
if ac_device:
# Only use heat if available
# (you don't have to setup a heat mode, but cool is required)
# Heat is preferred as it generally has a lower minimum temperature
if "HEAT" in capabilities:
temperatures = capabilities["HEAT"]["temperatures"]
ac_support_heat = True
else:
temperatures = capabilities["COOL"]["temperatures"]
elif "temperatures" in capabilities:
temperatures = capabilities["temperatures"]
else:
_LOGGER.debug("Received zone %s has no temperature; not adding", name)
return
min_temp = float(temperatures["celsius"]["min"])
max_temp = float(temperatures["celsius"]["max"])
step = temperatures["celsius"].get("step", PRECISION_TENTHS)
data_id = f"zone {name} {zone_id}"
device = TadoClimate(
tado,
name,
zone_id,
data_id,
hass.config.units.temperature(min_temp, unit),
hass.config.units.temperature(max_temp, unit),
step,
ac_device,
hot_water_device,
ac_support_heat,
)
tado.add_sensor(
data_id, {"id": zone_id, "zone": zone, "name": name, "climate": device}
)
return device
class TadoClimate(ClimateDevice):
"""Representation of a Tado climate device."""
def __init__(
self,
store,
zone_name,
zone_id,
data_id,
min_temp,
max_temp,
step,
ac_device,
hot_water_device,
ac_support_heat,
tolerance=0.3,
):
"""Initialize of Tado climate device."""
self._store = store
self._data_id = data_id
self.zone_name = zone_name
self.zone_id = zone_id
self._ac_device = ac_device
self._hot_water_device = hot_water_device
self._ac_support_heat = ac_support_heat
self._cooling = False
self._active = False
self._device_is_active = False
self._unit = TEMP_CELSIUS
self._cur_temp = None
self._cur_humidity = None
self._is_away = False
self._min_temp = min_temp
self._max_temp = max_temp
self._step = step
self._target_temp = None
self._tolerance = tolerance
self._current_fan = CONST_MODE_OFF
self._current_operation = CONST_MODE_SMART_SCHEDULE
self._overlay_mode = CONST_MODE_SMART_SCHEDULE
@property
def supported_features(self):
"""Return the list of supported features."""
return SUPPORT_FLAGS
@property
def name(self):
"""Return the name of the device."""
return self.zone_name
@property
def current_humidity(self):
"""Return the current humidity."""
return self._cur_humidity
def set_humidity(self, humidity: int) -> None:
"""Set new target humidity."""
pass
@property
def current_temperature(self):
"""Return the sensor temperature."""
return self._cur_temp
@property
def hvac_mode(self):
"""Return hvac operation ie. heat, cool mode.
Need to be one of HVAC_MODE_*.
"""
if self._ac_device and self._ac_support_heat:
return HVAC_MAP_TADO_HEAT_COOL.get(self._current_operation)
if self._ac_device and not self._ac_support_heat:
return HVAC_MAP_TADO_COOL.get(self._current_operation)
return HVAC_MAP_TADO_HEAT.get(self._current_operation)
@property
def hvac_modes(self):
"""Return the list of available hvac operation modes.
Need to be a subset of HVAC_MODES.
"""
if self._ac_device and self._ac_support_heat:
return SUPPORT_HVAC_HEAT_COOL
if self._ac_device and not self._ac_support_heat:
return SUPPORT_HVAC_COOL
return SUPPORT_HVAC_HEAT
@property
def hvac_action(self):
"""Return the current running hvac operation if supported.
Need to be one of CURRENT_HVAC_*.
"""
if not self._device_is_active:
return CURRENT_HVAC_OFF
if self._ac_device and self._ac_support_heat and self._cooling:
if self._active:
return CURRENT_HVAC_COOL
return CURRENT_HVAC_IDLE
if self._ac_device and self._ac_support_heat and not self._cooling:
if self._active:
return CURRENT_HVAC_HEAT
return CURRENT_HVAC_IDLE
if self._ac_device and not self._ac_support_heat:
if self._active:
return CURRENT_HVAC_COOL
return CURRENT_HVAC_IDLE
if self._active:
return CURRENT_HVAC_HEAT
return CURRENT_HVAC_IDLE
@property
def fan_mode(self):
"""Return the fan setting."""
if self._ac_device:
return FAN_MAP_TADO.get(self._current_fan)
return None
@property
def fan_modes(self):
"""List of available fan modes."""
if self._ac_device:
return SUPPORT_FAN
return None
def set_fan_mode(self, fan_mode: str):
"""Turn fan on/off."""
pass
@property
def preset_mode(self):
"""Return the current preset mode, e.g., home, away, temp."""
if self._is_away:
return PRESET_AWAY
return PRESET_HOME
@property
def preset_modes(self):
"""Return a list of available preset modes."""
return SUPPORT_PRESET
def set_preset_mode(self, preset_mode):
"""Set new preset mode."""
pass
@property
def temperature_unit(self):
"""Return the unit of measurement used by the platform."""
return self._unit
@property
def target_temperature_step(self):
"""Return the supported step of target temperature."""
return self._step
@property
def target_temperature(self):
"""Return the temperature we try to reach."""
return self._target_temp
@property
def target_temperature_high(self):
"""Return the upper bound temperature we try to reach."""
return None
@property
def target_temperature_low(self):
"""Return the lower bound temperature we try to reach."""
return None
def set_temperature(self, **kwargs):
"""Set new target temperature."""
temperature = kwargs.get(ATTR_TEMPERATURE)
if temperature is None:
return
self._current_operation = CONST_OVERLAY_TADO_MODE
self._overlay_mode = None
self._target_temp = temperature
self._control_heating()
def set_hvac_mode(self, hvac_mode):
"""Set new target hvac mode."""
mode = None
if hvac_mode == HVAC_MODE_OFF:
mode = CONST_MODE_OFF
elif hvac_mode == HVAC_MODE_AUTO:
mode = CONST_MODE_SMART_SCHEDULE
elif hvac_mode == HVAC_MODE_HEAT:
mode = CONST_OVERLAY_TADO_MODE
elif hvac_mode == HVAC_MODE_COOL:
mode = CONST_OVERLAY_TADO_MODE
elif hvac_mode == HVAC_MODE_HEAT_COOL:
mode = CONST_OVERLAY_TADO_MODE
self._current_operation = mode
self._overlay_mode = None
if self._target_temp is None and self._ac_device:
self._target_temp = 27
self._control_heating()
@property
def min_temp(self):
"""Return the minimum temperature."""
return convert_temperature(
self._min_temp, self._unit, self.hass.config.units.temperature_unit
)
@property
def max_temp(self):
"""Return the maximum temperature."""
return convert_temperature(
self._max_temp, self._unit, self.hass.config.units.temperature_unit
)
def update(self):
"""Update the state of this climate device."""
self._store.update()
data = self._store.get_data(self._data_id)
if data is None:
_LOGGER.debug("Received no data for zone %s", self.zone_name)
return
if "sensorDataPoints" in data:
sensor_data = data["sensorDataPoints"]
unit = TEMP_CELSIUS
if "insideTemperature" in sensor_data:
temperature = float(sensor_data["insideTemperature"]["celsius"])
self._cur_temp = self.hass.config.units.temperature(temperature, unit)
if "humidity" in sensor_data:
humidity = float(sensor_data["humidity"]["percentage"])
self._cur_humidity = humidity
# temperature setting will not exist when device is off
if (
"temperature" in data["setting"]
and data["setting"]["temperature"] is not None
):
setting = float(data["setting"]["temperature"]["celsius"])
self._target_temp = self.hass.config.units.temperature(setting, unit)
if "tadoMode" in data:
mode = data["tadoMode"]
self._is_away = mode == "AWAY"
if "setting" in data:
power = data["setting"]["power"]
if power == "OFF":
self._current_operation = CONST_MODE_OFF
self._current_fan = CONST_MODE_OFF
# There is no overlay, the mode will always be
# "SMART_SCHEDULE"
self._overlay_mode = CONST_MODE_SMART_SCHEDULE
self._device_is_active = False
else:
self._device_is_active = True
active = False
if "activityDataPoints" in data:
activity_data = data["activityDataPoints"]
if self._ac_device:
if "acPower" in activity_data and activity_data["acPower"] is not None:
if not activity_data["acPower"]["value"] == "OFF":
active = True
else:
if (
"heatingPower" in activity_data
and activity_data["heatingPower"] is not None
):
if float(activity_data["heatingPower"]["percentage"]) > 0.0:
active = True
self._active = active
overlay = False
overlay_data = None
termination = CONST_MODE_SMART_SCHEDULE
cooling = False
fan_speed = CONST_MODE_OFF
if "overlay" in data:
overlay_data = data["overlay"]
overlay = overlay_data is not None
if overlay:
termination = overlay_data["termination"]["type"]
setting = False
setting_data = None
if "setting" in overlay_data:
setting_data = overlay_data["setting"]
setting = setting_data is not None
if setting:
if "mode" in setting_data:
cooling = setting_data["mode"] == "COOL"
if "fanSpeed" in setting_data:
fan_speed = setting_data["fanSpeed"]
if self._device_is_active:
# If you set mode manually to off, there will be an overlay
# and a termination, but we want to see the mode "OFF"
self._overlay_mode = termination
self._current_operation = termination
self._cooling = cooling
self._current_fan = fan_speed
def _control_heating(self):
"""Send new target temperature to mytado."""
if None not in (self._cur_temp, self._target_temp):
_LOGGER.info(
"Obtained current (%d) and target temperature (%d). "
"Tado thermostat active",
self._cur_temp,
self._target_temp,
)
if self._current_operation == CONST_MODE_SMART_SCHEDULE:
_LOGGER.info(
"Switching mytado.com to SCHEDULE (default) for zone %s (%d)",
self.zone_name,
self.zone_id,
)
self._store.reset_zone_overlay(self.zone_id)
self._overlay_mode = self._current_operation
return
if self._current_operation == CONST_MODE_OFF:
if self._ac_device:
_LOGGER.info(
"Switching mytado.com to OFF for zone %s (%d) - AIR_CONDITIONING",
self.zone_name,
self.zone_id,
)
self._store.set_zone_off(
self.zone_id, CONST_OVERLAY_MANUAL, "AIR_CONDITIONING"
)
else:
_LOGGER.info(
"Switching mytado.com to OFF for zone %s (%d) - HEATING",
self.zone_name,
self.zone_id,
)
self._store.set_zone_off(self.zone_id, CONST_OVERLAY_MANUAL, "HEATING")
self._overlay_mode = self._current_operation
return
if self._ac_device:
_LOGGER.info(
"Switching mytado.com to %s mode for zone %s (%d). Temp (%s) - AIR_CONDITIONING",
self._current_operation,
self.zone_name,
self.zone_id,
self._target_temp,
)
self._store.set_zone_overlay(
self.zone_id,
self._current_operation,
self._target_temp,
None,
"AIR_CONDITIONING",
"COOL",
)
elif self._hot_water_device:
_LOGGER.info(
"Switching mytado.com to %s mode for zone %s (%d). Temp (%s) - HOT_WATER",
self._current_operation,
self.zone_name,
self.zone_id,
self._target_temp,
)
self._store.set_zone_overlay(
self.zone_id,
self._current_operation,
self._target_temp,
None,
"HOT_WATER",
)
else:
_LOGGER.info(
"Switching mytado.com to %s mode for zone %s (%d). Temp (%s) - HEATING",
self._current_operation,
self.zone_name,
self.zone_id,
self._target_temp,
)
self._store.set_zone_overlay(
self.zone_id,
self._current_operation,
self._target_temp,
None,
"HEATING",
)
self._overlay_mode = self._current_operation
@property
def is_aux_heat(self) -> Optional[bool]:
"""Return true if aux heater.
Requires SUPPORT_AUX_HEAT.
"""
return None
def turn_aux_heat_on(self) -> None:
"""Turn auxiliary heater on."""
pass
def turn_aux_heat_off(self) -> None:
"""Turn auxiliary heater off."""
pass
@property
def swing_mode(self) -> Optional[str]:
"""Return the swing setting.
Requires SUPPORT_SWING_MODE.
"""
return None
@property
def swing_modes(self) -> Optional[List[str]]:
"""Return the list of available swing modes.
Requires SUPPORT_SWING_MODE.
"""
return None
def set_swing_mode(self, swing_mode: str) -> None:
"""Set new target swing operation."""
pass