"""DataUpdateCoordinator for the IRM KMI integration.""" import asyncio import logging from datetime import datetime, timedelta from typing import Any, List, Tuple import async_timeout import pytz from homeassistant.components.weather import Forecast from homeassistant.config_entries import ConfigEntry from homeassistant.const import ATTR_LATITUDE, ATTR_LONGITUDE, CONF_ZONE from homeassistant.core import HomeAssistant from homeassistant.exceptions import ConfigEntryError from homeassistant.helpers.aiohttp_client import async_get_clientsession from homeassistant.helpers.update_coordinator import (DataUpdateCoordinator, UpdateFailed) from .api import IrmKmiApiClient, IrmKmiApiError from .const import CONF_DARK_MODE, CONF_STYLE from .const import IRM_KMI_TO_HA_CONDITION_MAP as CDT_MAP from .const import (LANGS, OPTION_STYLE_SATELLITE, OUT_OF_BENELUX, STYLE_TO_PARAM_MAP) from .data import (AnimationFrameData, CurrentWeatherData, IrmKmiForecast, ProcessedCoordinatorData, RadarAnimationData) from .rain_graph import RainGraph from .utils import disable_from_config, get_config_value _LOGGER = logging.getLogger(__name__) class IrmKmiCoordinator(DataUpdateCoordinator): """Coordinator to update data from IRM KMI""" def __init__(self, hass: HomeAssistant, entry: ConfigEntry): """Initialize the coordinator.""" super().__init__( hass, _LOGGER, # Name of the data. For logging purposes. name="IRM KMI weather", # Polling interval. Will only be polled if there are subscribers. update_interval=timedelta(minutes=7), ) self._api_client = IrmKmiApiClient(session=async_get_clientsession(hass)) self._zone = get_config_value(entry, CONF_ZONE) self._dark_mode = get_config_value(entry, CONF_DARK_MODE) self._style = get_config_value(entry, CONF_STYLE) self._config_entry = entry async def _async_update_data(self) -> ProcessedCoordinatorData: """Fetch data from API endpoint. This is the place to pre-process the data to lookup tables so entities can quickly look up their data. """ if (zone := self.hass.states.get(self._zone)) is None: raise UpdateFailed(f"Zone '{self._zone}' not found") try: # Note: asyncio.TimeoutError and aiohttp.ClientError are already # handled by the data update coordinator. async with async_timeout.timeout(10): api_data = await self._api_client.get_forecasts_coord( {'lat': zone.attributes[ATTR_LATITUDE], 'long': zone.attributes[ATTR_LONGITUDE]} ) _LOGGER.debug(f"Observation for {api_data.get('cityName', '')}: {api_data.get('obs', '{}')}") except IrmKmiApiError as err: raise UpdateFailed(f"Error communicating with API: {err}") if api_data.get('cityName', None) in OUT_OF_BENELUX: if self.data is None: error_text = f"Zone '{self._zone}' is out of Benelux and forecast is only available in the Benelux" _LOGGER.error(error_text) raise ConfigEntryError(error_text) else: # TODO create a repair when this triggers _LOGGER.error(f"The zone {self._zone} is now out of Benelux and forecast is only available in Benelux." f"Associated device is now disabled. Move the zone back in Benelux and re-enable to fix " f"this") disable_from_config(self.hass, self._config_entry) return ProcessedCoordinatorData() return await self.process_api_data(api_data) async def async_refresh(self) -> None: """Refresh data and log errors.""" await self._async_refresh(log_failures=True, raise_on_entry_error=True) async def _async_animation_data(self, api_data: dict) -> RadarAnimationData: """From the API data passed in, call the API to get all the images and create the radar animation data object. Frames from the API are merged with the background map and the location marker to create each frame.""" animation_data = api_data.get('animation', {}).get('sequence') localisation_layer_url = api_data.get('animation', {}).get('localisationLayer') country = api_data.get('country', '') if animation_data is None or localisation_layer_url is None or not isinstance(animation_data, list): return RadarAnimationData() try: images_from_api = await self.download_images_from_api(animation_data, country, localisation_layer_url) except IrmKmiApiError: _LOGGER.warning(f"Could not get images for weather radar") return RadarAnimationData() localisation = images_from_api[0] images_from_api = images_from_api[1:] lang = self.hass.config.language if self.hass.config.language in LANGS else 'en' radar_animation = RadarAnimationData( hint=api_data.get('animation', {}).get('sequenceHint', {}).get(lang), unit=api_data.get('animation', {}).get('unit', {}).get(lang), location=localisation ) svg_str = self.create_rain_graph(radar_animation, animation_data, country, images_from_api) radar_animation['svg'] = svg_str return radar_animation async def process_api_data(self, api_data: dict) -> ProcessedCoordinatorData: """From the API data, create the object that will be used in the entities""" return ProcessedCoordinatorData( current_weather=IrmKmiCoordinator.current_weather_from_data(api_data), daily_forecast=IrmKmiCoordinator.daily_list_to_forecast(api_data.get('for', {}).get('daily')), hourly_forecast=IrmKmiCoordinator.hourly_list_to_forecast(api_data.get('for', {}).get('hourly')), animation=await self._async_animation_data(api_data=api_data) ) async def download_images_from_api(self, animation_data: list, country: str, localisation_layer_url: str) -> tuple[Any]: """Download a batch of images to create the radar frames.""" coroutines = list() coroutines.append( self._api_client.get_image(localisation_layer_url, params={'th': 'd' if country == 'NL' or not self._dark_mode else 'n'})) for frame in animation_data: if frame.get('uri', None) is not None: coroutines.append( self._api_client.get_image(frame.get('uri'), params={'rs': STYLE_TO_PARAM_MAP[self._style]})) async with async_timeout.timeout(20): images_from_api = await asyncio.gather(*coroutines) _LOGGER.debug(f"Just downloaded {len(images_from_api)} images") return images_from_api @staticmethod def current_weather_from_data(api_data: dict) -> CurrentWeatherData: """Parse the API data to build a CurrentWeatherData.""" # Process data to get current hour forecast now_hourly = None hourly_forecast_data = api_data.get('for', {}).get('hourly') if not (hourly_forecast_data is None or not isinstance(hourly_forecast_data, list) or len(hourly_forecast_data) == 0): for current in hourly_forecast_data[:2]: if datetime.now().strftime('%H') == current['hour']: now_hourly = current break # Get UV index module_data = api_data.get('module', None) uv_index = None if not (module_data is None or not isinstance(module_data, list)): for module in module_data: if module.get('type', None) == 'uv': uv_index = module.get('data', {}).get('levelValue') try: pressure = float(now_hourly.get('pressure', None)) if now_hourly is not None else None except TypeError: pressure = None try: wind_speed = float(now_hourly.get('windSpeedKm', None)) if now_hourly is not None else None except TypeError: wind_speed = None try: wind_gust_speed = float(now_hourly.get('windPeakSpeedKm', None)) if now_hourly is not None else None except TypeError: wind_gust_speed = None try: temperature = float(api_data.get('obs', {}).get('temp')) except TypeError: temperature = None current_weather = CurrentWeatherData( condition=CDT_MAP.get((api_data.get('obs', {}).get('ww'), api_data.get('obs', {}).get('dayNight')), None), temperature=temperature, wind_speed=wind_speed, wind_gust_speed=wind_gust_speed, wind_bearing=now_hourly.get('windDirectionText', {}).get('en') if now_hourly is not None else None, pressure=pressure, uv_index=uv_index ) if api_data.get('country', '') == 'NL': current_weather['wind_speed'] = api_data.get('obs', {}).get('windSpeedKm') current_weather['wind_bearing'] = api_data.get('obs', {}).get('windDirectionText', {}).get('en') return current_weather @staticmethod def hourly_list_to_forecast(data: List[dict] | None) -> List[Forecast] | None: """Parse data from the API to create a list of hourly forecasts""" if data is None or not isinstance(data, list) or len(data) == 0: return None forecasts = list() day = datetime.now() for f in data: if 'dateShow' in f: day = day + timedelta(days=1) hour = f.get('hour', None) if hour is None: continue precipitation_probability = None if f.get('precipChance', None) is not None: precipitation_probability = int(f.get('precipChance')) ww = None if f.get('ww', None) is not None: ww = int(f.get('ww')) forecast = Forecast( datetime=day.strftime(f'%Y-%m-%dT{hour}:00:00'), condition=CDT_MAP.get((ww, f.get('dayNight', None)), None), native_precipitation=f.get('precipQuantity', None), native_temperature=f.get('temp', None), native_templow=None, native_wind_gust_speed=f.get('windPeakSpeedKm', None), native_wind_speed=f.get('windSpeedKm', None), precipitation_probability=precipitation_probability, wind_bearing=f.get('windDirectionText', {}).get('en'), native_pressure=f.get('pressure', None), is_daytime=f.get('dayNight', None) == 'd' ) forecasts.append(forecast) return forecasts @staticmethod def daily_list_to_forecast(data: List[dict] | None) -> List[Forecast] | None: """Parse data from the API to create a list of daily forecasts""" if data is None or not isinstance(data, list) or len(data) == 0: return None forecasts = list() n_days = 0 for (idx, f) in enumerate(data): precipitation = None if f.get('precipQuantity', None) is not None: try: precipitation = float(f.get('precipQuantity')) except TypeError: pass native_wind_gust_speed = None if f.get('wind', {}).get('peakSpeed') is not None: try: native_wind_gust_speed = int(f.get('wind', {}).get('peakSpeed')) except TypeError: pass is_daytime = f.get('dayNight', None) == 'd' forecast = IrmKmiForecast( datetime=(datetime.now() + timedelta(days=n_days)).strftime('%Y-%m-%d') if is_daytime else datetime.now().strftime('%Y-%m-%d'), condition=CDT_MAP.get((f.get('ww1', None), f.get('dayNight', None)), None), native_precipitation=precipitation, native_temperature=f.get('tempMax', None), native_templow=f.get('tempMin', None), native_wind_gust_speed=native_wind_gust_speed, native_wind_speed=f.get('wind', {}).get('speed'), precipitation_probability=f.get('precipChance', None), wind_bearing=f.get('wind', {}).get('dirText', {}).get('en'), is_daytime=is_daytime, text_fr=f.get('text', {}).get('fr'), text_nl=f.get('text', {}).get('nl') ) forecasts.append(forecast) if is_daytime or idx == 0: n_days += 1 return forecasts def create_rain_graph(self, radar_animation: RadarAnimationData, api_animation_data: List[dict], country: str, images_from_api: Tuple[bytes], ) -> str: sequence: List[AnimationFrameData] = list() tz = pytz.timezone(self.hass.config.time_zone) current_time = datetime.now(tz=tz) most_recent_frame = None for idx, item in enumerate(api_animation_data): frame = AnimationFrameData( image=images_from_api[idx], time=datetime.fromisoformat(item.get('time')) if item.get('time', None) is not None else None, value=item.get('value', 0), position=item.get('position', 0), position_lower=item.get('positionLower', 0), position_higher=item.get('positionHigher', 0) ) sequence.append(frame) if most_recent_frame is None and current_time < frame['time']: most_recent_frame = idx - 1 if idx > 0 else idx radar_animation['sequence'] = sequence radar_animation['most_recent_image_idx'] = most_recent_frame satellite_mode = self._style == OPTION_STYLE_SATELLITE if country == 'NL': image_path = "custom_components/irm_kmi/resources/nl.png" bg_size = (640, 600) else: image_path = (f"custom_components/irm_kmi/resources/be_" f"{'satellite' if satellite_mode else 'black' if self._dark_mode else 'white'}.png") bg_size = (640, 490) svg_str = RainGraph(radar_animation, image_path, bg_size, dark_mode=self._dark_mode, # tz=self.hass.config.time_zone ).get_svg_string() # TODO return value return svg_str