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Add entity translations for AccuWeather (#95940)

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* Add entity name translations

* Some improvements

* Update tests

* Suggested changes

* day 0 -> today

* night 0 -> tonight

* Fix precipitation
This commit is contained in:
Maciej Bieniek 2023-07-29 19:22:53 +00:00 committed by GitHub
parent 598e26e481
commit 12426dfad4
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3 changed files with 1044 additions and 289 deletions
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464
homeassistant/components/accuweather/sensor.py
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@ -59,193 +59,280 @@ class AccuWeatherSensorDescription(
"""Class describing AccuWeather sensor entities."""
attr_fn: Callable[[dict[str, Any]], dict[str, Any]] = lambda _: {}
day: int | None = None
FORECAST_SENSOR_TYPES: tuple[AccuWeatherSensorDescription, ...] = (
AccuWeatherSensorDescription(
key="AirQuality",
icon="mdi:air-filter",
name="Air quality",
value_fn=lambda data: cast(str, data[ATTR_CATEGORY]),
device_class=SensorDeviceClass.ENUM,
options=["good", "hazardous", "high", "low", "moderate", "unhealthy"],
translation_key="air_quality",
*(
AccuWeatherSensorDescription(
key="AirQuality",
icon="mdi:air-filter",
value_fn=lambda data: cast(str, data[ATTR_CATEGORY]),
device_class=SensorDeviceClass.ENUM,
options=["good", "hazardous", "high", "low", "moderate", "unhealthy"],
translation_key=f"air_quality_{day}d",
day=day,
)
for day in range(MAX_FORECAST_DAYS + 1)
),
AccuWeatherSensorDescription(
key="CloudCoverDay",
icon="mdi:weather-cloudy",
name="Cloud cover day",
entity_registry_enabled_default=False,
native_unit_of_measurement=PERCENTAGE,
value_fn=lambda data: cast(int, data),
*(
AccuWeatherSensorDescription(
key="CloudCoverDay",
icon="mdi:weather-cloudy",
entity_registry_enabled_default=False,
native_unit_of_measurement=PERCENTAGE,
value_fn=lambda data: cast(int, data),
translation_key=f"cloud_cover_day_{day}d",
day=day,
)
for day in range(MAX_FORECAST_DAYS + 1)
),
AccuWeatherSensorDescription(
key="CloudCoverNight",
icon="mdi:weather-cloudy",
name="Cloud cover night",
entity_registry_enabled_default=False,
native_unit_of_measurement=PERCENTAGE,
value_fn=lambda data: cast(int, data),
*(
AccuWeatherSensorDescription(
key="CloudCoverNight",
icon="mdi:weather-cloudy",
entity_registry_enabled_default=False,
native_unit_of_measurement=PERCENTAGE,
value_fn=lambda data: cast(int, data),
translation_key=f"cloud_cover_night_{day}d",
day=day,
)
for day in range(MAX_FORECAST_DAYS + 1)
),
AccuWeatherSensorDescription(
key="Grass",
icon="mdi:grass",
name="Grass pollen",
entity_registry_enabled_default=False,
native_unit_of_measurement=CONCENTRATION_PARTS_PER_CUBIC_METER,
value_fn=lambda data: cast(int, data[ATTR_VALUE]),
attr_fn=lambda data: {ATTR_LEVEL: data[ATTR_CATEGORY]},
translation_key="grass_pollen",
*(
AccuWeatherSensorDescription(
key="Grass",
icon="mdi:grass",
entity_registry_enabled_default=False,
native_unit_of_measurement=CONCENTRATION_PARTS_PER_CUBIC_METER,
value_fn=lambda data: cast(int, data[ATTR_VALUE]),
attr_fn=lambda data: {ATTR_LEVEL: data[ATTR_CATEGORY]},
translation_key=f"grass_pollen_{day}d",
day=day,
)
for day in range(MAX_FORECAST_DAYS + 1)
),
AccuWeatherSensorDescription(
key="HoursOfSun",
icon="mdi:weather-partly-cloudy",
name="Hours of sun",
native_unit_of_measurement=UnitOfTime.HOURS,
value_fn=lambda data: cast(float, data),
*(
AccuWeatherSensorDescription(
key="HoursOfSun",
icon="mdi:weather-partly-cloudy",
native_unit_of_measurement=UnitOfTime.HOURS,
value_fn=lambda data: cast(float, data),
translation_key=f"hours_of_sun_{day}d",
day=day,
)
for day in range(MAX_FORECAST_DAYS + 1)
),
AccuWeatherSensorDescription(
key="LongPhraseDay",
name="Condition day",
value_fn=lambda data: cast(str, data),
*(
AccuWeatherSensorDescription(
key="LongPhraseDay",
value_fn=lambda data: cast(str, data),
translation_key=f"condition_day_{day}d",
day=day,
)
for day in range(MAX_FORECAST_DAYS + 1)
),
AccuWeatherSensorDescription(
key="LongPhraseNight",
name="Condition night",
value_fn=lambda data: cast(str, data),
*(
AccuWeatherSensorDescription(
key="LongPhraseNight",
value_fn=lambda data: cast(str, data),
translation_key=f"condition_night_{day}d",
day=day,
)
for day in range(MAX_FORECAST_DAYS + 1)
),
AccuWeatherSensorDescription(
key="Mold",
icon="mdi:blur",
name="Mold pollen",
entity_registry_enabled_default=False,
native_unit_of_measurement=CONCENTRATION_PARTS_PER_CUBIC_METER,
value_fn=lambda data: cast(int, data[ATTR_VALUE]),
attr_fn=lambda data: {ATTR_LEVEL: data[ATTR_CATEGORY]},
translation_key="mold_pollen",
*(
AccuWeatherSensorDescription(
key="Mold",
icon="mdi:blur",
entity_registry_enabled_default=False,
native_unit_of_measurement=CONCENTRATION_PARTS_PER_CUBIC_METER,
value_fn=lambda data: cast(int, data[ATTR_VALUE]),
attr_fn=lambda data: {ATTR_LEVEL: data[ATTR_CATEGORY]},
translation_key=f"mold_pollen_{day}d",
day=day,
)
for day in range(MAX_FORECAST_DAYS + 1)
),
AccuWeatherSensorDescription(
key="Ragweed",
icon="mdi:sprout",
name="Ragweed pollen",
native_unit_of_measurement=CONCENTRATION_PARTS_PER_CUBIC_METER,
entity_registry_enabled_default=False,
value_fn=lambda data: cast(int, data[ATTR_VALUE]),
attr_fn=lambda data: {ATTR_LEVEL: data[ATTR_CATEGORY]},
translation_key="ragweed_pollen",
*(
AccuWeatherSensorDescription(
key="Ragweed",
icon="mdi:sprout",
native_unit_of_measurement=CONCENTRATION_PARTS_PER_CUBIC_METER,
entity_registry_enabled_default=False,
value_fn=lambda data: cast(int, data[ATTR_VALUE]),
attr_fn=lambda data: {ATTR_LEVEL: data[ATTR_CATEGORY]},
translation_key=f"ragweed_pollen_{day}d",
day=day,
)
for day in range(MAX_FORECAST_DAYS + 1)
),
AccuWeatherSensorDescription(
key="RealFeelTemperatureMax",
device_class=SensorDeviceClass.TEMPERATURE,
name="RealFeel temperature max",
native_unit_of_measurement=UnitOfTemperature.CELSIUS,
value_fn=lambda data: cast(float, data[ATTR_VALUE]),
*(
AccuWeatherSensorDescription(
key="RealFeelTemperatureMax",
device_class=SensorDeviceClass.TEMPERATURE,
native_unit_of_measurement=UnitOfTemperature.CELSIUS,
value_fn=lambda data: cast(float, data[ATTR_VALUE]),
translation_key=f"realfeel_temperature_max_{day}d",
day=day,
)
for day in range(MAX_FORECAST_DAYS + 1)
),
AccuWeatherSensorDescription(
key="RealFeelTemperatureMin",
device_class=SensorDeviceClass.TEMPERATURE,
name="RealFeel temperature min",
native_unit_of_measurement=UnitOfTemperature.CELSIUS,
value_fn=lambda data: cast(float, data[ATTR_VALUE]),
*(
AccuWeatherSensorDescription(
key="RealFeelTemperatureMin",
device_class=SensorDeviceClass.TEMPERATURE,
native_unit_of_measurement=UnitOfTemperature.CELSIUS,
value_fn=lambda data: cast(float, data[ATTR_VALUE]),
translation_key=f"realfeel_temperature_min_{day}d",
day=day,
)
for day in range(MAX_FORECAST_DAYS + 1)
),
AccuWeatherSensorDescription(
key="RealFeelTemperatureShadeMax",
device_class=SensorDeviceClass.TEMPERATURE,
name="RealFeel temperature shade max",
entity_registry_enabled_default=False,
native_unit_of_measurement=UnitOfTemperature.CELSIUS,
value_fn=lambda data: cast(float, data[ATTR_VALUE]),
*(
AccuWeatherSensorDescription(
key="RealFeelTemperatureShadeMax",
device_class=SensorDeviceClass.TEMPERATURE,
entity_registry_enabled_default=False,
native_unit_of_measurement=UnitOfTemperature.CELSIUS,
value_fn=lambda data: cast(float, data[ATTR_VALUE]),
translation_key=f"realfeel_temperature_shade_max_{day}d",
day=day,
)
for day in range(MAX_FORECAST_DAYS + 1)
),
AccuWeatherSensorDescription(
key="RealFeelTemperatureShadeMin",
device_class=SensorDeviceClass.TEMPERATURE,
name="RealFeel temperature shade min",
entity_registry_enabled_default=False,
native_unit_of_measurement=UnitOfTemperature.CELSIUS,
value_fn=lambda data: cast(float, data[ATTR_VALUE]),
*(
AccuWeatherSensorDescription(
key="RealFeelTemperatureShadeMin",
device_class=SensorDeviceClass.TEMPERATURE,
entity_registry_enabled_default=False,
native_unit_of_measurement=UnitOfTemperature.CELSIUS,
value_fn=lambda data: cast(float, data[ATTR_VALUE]),
translation_key=f"realfeel_temperature_shade_min_{day}d",
day=day,
)
for day in range(MAX_FORECAST_DAYS + 1)
),
AccuWeatherSensorDescription(
key="SolarIrradianceDay",
icon="mdi:weather-sunny",
name="Solar irradiance day",
entity_registry_enabled_default=False,
native_unit_of_measurement=UnitOfIrradiance.WATTS_PER_SQUARE_METER,
value_fn=lambda data: cast(float, data[ATTR_VALUE]),
*(
AccuWeatherSensorDescription(
key="SolarIrradianceDay",
icon="mdi:weather-sunny",
entity_registry_enabled_default=False,
native_unit_of_measurement=UnitOfIrradiance.WATTS_PER_SQUARE_METER,
value_fn=lambda data: cast(float, data[ATTR_VALUE]),
translation_key=f"solar_irradiance_day_{day}d",
day=day,
)
for day in range(MAX_FORECAST_DAYS + 1)
),
AccuWeatherSensorDescription(
key="SolarIrradianceNight",
icon="mdi:weather-sunny",
name="Solar irradiance night",
entity_registry_enabled_default=False,
native_unit_of_measurement=UnitOfIrradiance.WATTS_PER_SQUARE_METER,
value_fn=lambda data: cast(float, data[ATTR_VALUE]),
*(
AccuWeatherSensorDescription(
key="SolarIrradianceNight",
icon="mdi:weather-sunny",
entity_registry_enabled_default=False,
native_unit_of_measurement=UnitOfIrradiance.WATTS_PER_SQUARE_METER,
value_fn=lambda data: cast(float, data[ATTR_VALUE]),
translation_key=f"solar_irradiance_night_{day}d",
day=day,
)
for day in range(MAX_FORECAST_DAYS + 1)
),
AccuWeatherSensorDescription(
key="ThunderstormProbabilityDay",
icon="mdi:weather-lightning",
name="Thunderstorm probability day",
native_unit_of_measurement=PERCENTAGE,
value_fn=lambda data: cast(int, data),
*(
AccuWeatherSensorDescription(
key="ThunderstormProbabilityDay",
icon="mdi:weather-lightning",
native_unit_of_measurement=PERCENTAGE,
value_fn=lambda data: cast(int, data),
translation_key=f"thunderstorm_probability_day_{day}d",
day=day,
)
for day in range(MAX_FORECAST_DAYS + 1)
),
AccuWeatherSensorDescription(
key="ThunderstormProbabilityNight",
icon="mdi:weather-lightning",
name="Thunderstorm probability night",
native_unit_of_measurement=PERCENTAGE,
value_fn=lambda data: cast(int, data),
*(
AccuWeatherSensorDescription(
key="ThunderstormProbabilityNight",
icon="mdi:weather-lightning",
native_unit_of_measurement=PERCENTAGE,
value_fn=lambda data: cast(int, data),
translation_key=f"thunderstorm_probability_night_{day}d",
day=day,
)
for day in range(MAX_FORECAST_DAYS + 1)
),
AccuWeatherSensorDescription(
key="Tree",
icon="mdi:tree-outline",
name="Tree pollen",
native_unit_of_measurement=CONCENTRATION_PARTS_PER_CUBIC_METER,
entity_registry_enabled_default=False,
value_fn=lambda data: cast(int, data[ATTR_VALUE]),
attr_fn=lambda data: {ATTR_LEVEL: data[ATTR_CATEGORY]},
translation_key="tree_pollen",
*(
AccuWeatherSensorDescription(
key="Tree",
icon="mdi:tree-outline",
native_unit_of_measurement=CONCENTRATION_PARTS_PER_CUBIC_METER,
entity_registry_enabled_default=False,
value_fn=lambda data: cast(int, data[ATTR_VALUE]),
attr_fn=lambda data: {ATTR_LEVEL: data[ATTR_CATEGORY]},
translation_key=f"tree_pollen_{day}d",
day=day,
)
for day in range(MAX_FORECAST_DAYS + 1)
),
AccuWeatherSensorDescription(
key="UVIndex",
icon="mdi:weather-sunny",
name="UV index",
native_unit_of_measurement=UV_INDEX,
value_fn=lambda data: cast(int, data[ATTR_VALUE]),
attr_fn=lambda data: {ATTR_LEVEL: data[ATTR_CATEGORY]},
translation_key="uv_index",
*(
AccuWeatherSensorDescription(
key="UVIndex",
icon="mdi:weather-sunny",
native_unit_of_measurement=UV_INDEX,
value_fn=lambda data: cast(int, data[ATTR_VALUE]),
attr_fn=lambda data: {ATTR_LEVEL: data[ATTR_CATEGORY]},
translation_key=f"uv_index_{day}d",
day=day,
)
for day in range(MAX_FORECAST_DAYS + 1)
),
AccuWeatherSensorDescription(
key="WindGustDay",
device_class=SensorDeviceClass.WIND_SPEED,
name="Wind gust day",
entity_registry_enabled_default=False,
native_unit_of_measurement=UnitOfSpeed.KILOMETERS_PER_HOUR,
value_fn=lambda data: cast(float, data[ATTR_SPEED][ATTR_VALUE]),
attr_fn=lambda data: {"direction": data[ATTR_DIRECTION][ATTR_ENGLISH]},
*(
AccuWeatherSensorDescription(
key="WindGustDay",
device_class=SensorDeviceClass.WIND_SPEED,
entity_registry_enabled_default=False,
native_unit_of_measurement=UnitOfSpeed.KILOMETERS_PER_HOUR,
value_fn=lambda data: cast(float, data[ATTR_SPEED][ATTR_VALUE]),
attr_fn=lambda data: {"direction": data[ATTR_DIRECTION][ATTR_ENGLISH]},
translation_key=f"wind_gust_speed_day_{day}d",
day=day,
)
for day in range(MAX_FORECAST_DAYS + 1)
),
AccuWeatherSensorDescription(
key="WindGustNight",
device_class=SensorDeviceClass.WIND_SPEED,
name="Wind gust night",
entity_registry_enabled_default=False,
native_unit_of_measurement=UnitOfSpeed.KILOMETERS_PER_HOUR,
value_fn=lambda data: cast(float, data[ATTR_SPEED][ATTR_VALUE]),
attr_fn=lambda data: {"direction": data[ATTR_DIRECTION][ATTR_ENGLISH]},
*(
AccuWeatherSensorDescription(
key="WindGustNight",
device_class=SensorDeviceClass.WIND_SPEED,
entity_registry_enabled_default=False,
native_unit_of_measurement=UnitOfSpeed.KILOMETERS_PER_HOUR,
value_fn=lambda data: cast(float, data[ATTR_SPEED][ATTR_VALUE]),
attr_fn=lambda data: {"direction": data[ATTR_DIRECTION][ATTR_ENGLISH]},
translation_key=f"wind_gust_speed_night_{day}d",
day=day,
)
for day in range(MAX_FORECAST_DAYS + 1)
),
AccuWeatherSensorDescription(
key="WindDay",
device_class=SensorDeviceClass.WIND_SPEED,
name="Wind day",
native_unit_of_measurement=UnitOfSpeed.KILOMETERS_PER_HOUR,
value_fn=lambda data: cast(float, data[ATTR_SPEED][ATTR_VALUE]),
attr_fn=lambda data: {"direction": data[ATTR_DIRECTION][ATTR_ENGLISH]},
*(
AccuWeatherSensorDescription(
key="WindDay",
device_class=SensorDeviceClass.WIND_SPEED,
native_unit_of_measurement=UnitOfSpeed.KILOMETERS_PER_HOUR,
value_fn=lambda data: cast(float, data[ATTR_SPEED][ATTR_VALUE]),
attr_fn=lambda data: {"direction": data[ATTR_DIRECTION][ATTR_ENGLISH]},
translation_key=f"wind_speed_day_{day}d",
day=day,
)
for day in range(MAX_FORECAST_DAYS + 1)
),
AccuWeatherSensorDescription(
key="WindNight",
device_class=SensorDeviceClass.WIND_SPEED,
name="Wind night",
native_unit_of_measurement=UnitOfSpeed.KILOMETERS_PER_HOUR,
value_fn=lambda data: cast(float, data[ATTR_SPEED][ATTR_VALUE]),
attr_fn=lambda data: {"direction": data[ATTR_DIRECTION][ATTR_ENGLISH]},
*(
AccuWeatherSensorDescription(
key="WindNight",
device_class=SensorDeviceClass.WIND_SPEED,
native_unit_of_measurement=UnitOfSpeed.KILOMETERS_PER_HOUR,
value_fn=lambda data: cast(float, data[ATTR_SPEED][ATTR_VALUE]),
attr_fn=lambda data: {"direction": data[ATTR_DIRECTION][ATTR_ENGLISH]},
translation_key=f"wind_speed_night_{day}d",
day=day,
)
for day in range(MAX_FORECAST_DAYS + 1)
),
)
@ -253,118 +340,117 @@ SENSOR_TYPES: tuple[AccuWeatherSensorDescription, ...] = (
AccuWeatherSensorDescription(
key="ApparentTemperature",
device_class=SensorDeviceClass.TEMPERATURE,
name="Apparent temperature",
entity_registry_enabled_default=False,
state_class=SensorStateClass.MEASUREMENT,
native_unit_of_measurement=UnitOfTemperature.CELSIUS,
value_fn=lambda data: cast(float, data[API_METRIC][ATTR_VALUE]),
translation_key="apparent_temperature",
),
AccuWeatherSensorDescription(
key="Ceiling",
device_class=SensorDeviceClass.DISTANCE,
icon="mdi:weather-fog",
name="Cloud ceiling",
state_class=SensorStateClass.MEASUREMENT,
native_unit_of_measurement=UnitOfLength.METERS,
value_fn=lambda data: cast(float, data[API_METRIC][ATTR_VALUE]),
suggested_display_precision=0,
translation_key="cloud_ceiling",
),
AccuWeatherSensorDescription(
key="CloudCover",
icon="mdi:weather-cloudy",
name="Cloud cover",
entity_registry_enabled_default=False,
state_class=SensorStateClass.MEASUREMENT,
native_unit_of_measurement=PERCENTAGE,
value_fn=lambda data: cast(int, data),
translation_key="cloud_cover",
),
AccuWeatherSensorDescription(
key="DewPoint",
device_class=SensorDeviceClass.TEMPERATURE,
name="Dew point",
entity_registry_enabled_default=False,
state_class=SensorStateClass.MEASUREMENT,
native_unit_of_measurement=UnitOfTemperature.CELSIUS,
value_fn=lambda data: cast(float, data[API_METRIC][ATTR_VALUE]),
translation_key="dew_point",
),
AccuWeatherSensorDescription(
key="RealFeelTemperature",
device_class=SensorDeviceClass.TEMPERATURE,
name="RealFeel temperature",
state_class=SensorStateClass.MEASUREMENT,
native_unit_of_measurement=UnitOfTemperature.CELSIUS,
value_fn=lambda data: cast(float, data[API_METRIC][ATTR_VALUE]),
translation_key="realfeel_temperature",
),
AccuWeatherSensorDescription(
key="RealFeelTemperatureShade",
device_class=SensorDeviceClass.TEMPERATURE,
name="RealFeel temperature shade",
entity_registry_enabled_default=False,
state_class=SensorStateClass.MEASUREMENT,
native_unit_of_measurement=UnitOfTemperature.CELSIUS,
value_fn=lambda data: cast(float, data[API_METRIC][ATTR_VALUE]),
translation_key="realfeel_temperature_shade",
),
AccuWeatherSensorDescription(
key="Precipitation",
device_class=SensorDeviceClass.PRECIPITATION_INTENSITY,
name="Precipitation",
state_class=SensorStateClass.MEASUREMENT,
native_unit_of_measurement=UnitOfVolumetricFlux.MILLIMETERS_PER_HOUR,
value_fn=lambda data: cast(float, data[API_METRIC][ATTR_VALUE]),
attr_fn=lambda data: {"type": data["PrecipitationType"]},
translation_key="precipitation",
),
AccuWeatherSensorDescription(
key="PressureTendency",
device_class=SensorDeviceClass.ENUM,
icon="mdi:gauge",
name="Pressure tendency",
options=["falling", "rising", "steady"],
translation_key="pressure_tendency",
value_fn=lambda data: cast(str, data["LocalizedText"]).lower(),
translation_key="pressure_tendency",
),
AccuWeatherSensorDescription(
key="UVIndex",
icon="mdi:weather-sunny",
name="UV index",
state_class=SensorStateClass.MEASUREMENT,
native_unit_of_measurement=UV_INDEX,
value_fn=lambda data: cast(int, data),
attr_fn=lambda data: {ATTR_LEVEL: data["UVIndexText"]},
translation_key="uv_index",
),
AccuWeatherSensorDescription(
key="WetBulbTemperature",
device_class=SensorDeviceClass.TEMPERATURE,
name="Wet bulb temperature",
entity_registry_enabled_default=False,
state_class=SensorStateClass.MEASUREMENT,
native_unit_of_measurement=UnitOfTemperature.CELSIUS,
value_fn=lambda data: cast(float, data[API_METRIC][ATTR_VALUE]),
translation_key="wet_bulb_temperature",
),
AccuWeatherSensorDescription(
key="WindChillTemperature",
device_class=SensorDeviceClass.TEMPERATURE,
name="Wind chill temperature",
entity_registry_enabled_default=False,
state_class=SensorStateClass.MEASUREMENT,
native_unit_of_measurement=UnitOfTemperature.CELSIUS,
value_fn=lambda data: cast(float, data[API_METRIC][ATTR_VALUE]),
translation_key="wind_chill_temperature",
),
AccuWeatherSensorDescription(
key="Wind",
device_class=SensorDeviceClass.WIND_SPEED,
name="Wind",
state_class=SensorStateClass.MEASUREMENT,
native_unit_of_measurement=UnitOfSpeed.KILOMETERS_PER_HOUR,
value_fn=lambda data: cast(float, data[ATTR_SPEED][API_METRIC][ATTR_VALUE]),
translation_key="wind_speed",
),
AccuWeatherSensorDescription(
key="WindGust",
device_class=SensorDeviceClass.WIND_SPEED,
name="Wind gust",
entity_registry_enabled_default=False,
state_class=SensorStateClass.MEASUREMENT,
native_unit_of_measurement=UnitOfSpeed.KILOMETERS_PER_HOUR,
value_fn=lambda data: cast(float, data[ATTR_SPEED][API_METRIC][ATTR_VALUE]),
translation_key="wind_gust_speed",
),
)
@ -381,14 +467,12 @@ async def async_setup_entry(
]
if coordinator.forecast:
# Some air quality/allergy sensors are only available for certain
# locations.
sensors.extend(
AccuWeatherSensor(coordinator, description, forecast_day=day)
for day in range(MAX_FORECAST_DAYS + 1)
for description in FORECAST_SENSOR_TYPES
if description.key in coordinator.data[ATTR_FORECAST][0]
)
for description in FORECAST_SENSOR_TYPES:
# Some air quality/allergy sensors are only available for certain
# locations.
if description.key not in coordinator.data[ATTR_FORECAST][description.day]:
continue
sensors.append(AccuWeatherSensor(coordinator, description))
async_add_entities(sensors)
@ -406,25 +490,21 @@ class AccuWeatherSensor(
self,
coordinator: AccuWeatherDataUpdateCoordinator,
description: AccuWeatherSensorDescription,
forecast_day: int | None = None,
) -> None:
"""Initialize."""
super().__init__(coordinator)
self.forecast_day = description.day
self.entity_description = description
self._sensor_data = _get_sensor_data(
coordinator.data, description.key, forecast_day
coordinator.data, description.key, self.forecast_day
)
if forecast_day is not None:
self._attr_name = f"{description.name} {forecast_day}d"
self._attr_unique_id = (
f"{coordinator.location_key}-{description.key}-{forecast_day}".lower()
)
if self.forecast_day is not None:
self._attr_unique_id = f"{coordinator.location_key}-{description.key}-{self.forecast_day}".lower()
else:
self._attr_unique_id = (
f"{coordinator.location_key}-{description.key}".lower()
)
self._attr_device_info = coordinator.device_info
self.forecast_day = forecast_day
@property
def native_value(self) -> str | int | float | None: