pragma Singleton import QtQuick import Quickshell import Quickshell.Io import qs.Commons // Weather logic and caching with stable UI properties Singleton { id: root property string locationFile: Quickshell.env("NOCTALIA_WEATHER_FILE") || (Settings.cacheDir + "location.json") property int weatherUpdateFrequency: 30 * 60 // 30 minutes expressed in seconds property bool isFetchingWeather: false readonly property alias data: adapter // Used to access via LocationService.data.xxx from outside, best to use "adapter" inside the service. // Stable UI properties - only updated when location is fully resolved property bool coordinatesReady: false property string stableLatitude: "" property string stableLongitude: "" property string stableName: "" FileView { id: locationFileView path: locationFile printErrors: false onAdapterUpdated: saveTimer.start() onLoaded: { Logger.d("Location", "Loaded cached data"); // Initialize stable properties on load if (adapter.latitude !== "" && adapter.longitude !== "" && adapter.weatherLastFetch > 0) { root.stableLatitude = adapter.latitude; root.stableLongitude = adapter.longitude; root.stableName = adapter.name; root.coordinatesReady = true; Logger.i("Location", "Coordinates ready"); } updateWeather(); } onLoadFailed: function (error) { updateWeather(); } JsonAdapter { id: adapter // Core data properties property string latitude: "" property string longitude: "" property string name: "" property int weatherLastFetch: 0 property var weather: null } } // Helper property for UI components (outside JsonAdapter to avoid binding loops) readonly property string displayCoordinates: { if (!root.coordinatesReady || root.stableLatitude === "" || root.stableLongitude === "") { return ""; } const lat = parseFloat(root.stableLatitude).toFixed(4); const lon = parseFloat(root.stableLongitude).toFixed(4); return `${lat}, ${lon}`; } // Every 20s check if we need to fetch new weather Timer { id: updateTimer interval: 20 * 1000 running: Settings.data.location.weatherEnabled || Settings.data.colorSchemes.schedulingMode == "location" repeat: true onTriggered: { updateWeather(); } } Timer { id: saveTimer running: false interval: 1000 onTriggered: locationFileView.writeAdapter() } // -------------------------------- function init() { // does nothing but ensure the singleton is created // do not remove Logger.i("Location", "Service started"); } // -------------------------------- function resetWeather() { Logger.i("Location", "Resetting weather data"); // Mark as changing to prevent UI updates root.coordinatesReady = false; // Reset stable properties root.stableLatitude = ""; root.stableLongitude = ""; root.stableName = ""; // Reset core data adapter.latitude = ""; adapter.longitude = ""; adapter.name = ""; adapter.weatherLastFetch = 0; adapter.weather = null; // Try to fetch immediately updateWeather(); } // -------------------------------- function updateWeather() { if (!Settings.data.location.weatherEnabled) { return; } if (isFetchingWeather) { Logger.w("Location", "Weather is still fetching"); return; } if ((adapter.weatherLastFetch === "") || (adapter.weather === null) || (adapter.latitude === "") || (adapter.longitude === "") || (adapter.name !== Settings.data.location.name) || (Time.timestamp >= adapter.weatherLastFetch + weatherUpdateFrequency)) { getFreshWeather(); } } // -------------------------------- function getFreshWeather() { isFetchingWeather = true; // Check if location name has changed const locationChanged = data.name !== Settings.data.location.name; if (locationChanged) { root.coordinatesReady = false; Logger.d("Location", "Location changed from", adapter.name, "to", Settings.data.location.name); } if ((adapter.latitude === "") || (adapter.longitude === "") || locationChanged) { _geocodeLocation(Settings.data.location.name, function (latitude, longitude, name, country) { Logger.d("Location", "Geocoded", Settings.data.location.name, "to:", latitude, "/", longitude); // Save location name adapter.name = Settings.data.location.name; // Save GPS coordinates adapter.latitude = latitude.toString(); adapter.longitude = longitude.toString(); root.stableName = `${name}, ${country}`; _fetchWeather(latitude, longitude, errorCallback); }, errorCallback); } else { _fetchWeather(adapter.latitude, adapter.longitude, errorCallback); } } // -------------------------------- function _geocodeLocation(locationName, callback, errorCallback) { Logger.d("Location", "Geocoding location name"); var geoUrl = "https://assets.noctalia.dev/geocode.php?city=" + encodeURIComponent(locationName) + "&language=en&format=json"; var xhr = new XMLHttpRequest(); xhr.onreadystatechange = function () { if (xhr.readyState === XMLHttpRequest.DONE) { if (xhr.status === 200) { try { var geoData = JSON.parse(xhr.responseText); if (geoData.lat != null) { callback(geoData.lat, geoData.lng, geoData.name, geoData.country); } else { errorCallback("Location", "could not resolve location name"); } } catch (e) { errorCallback("Location", "Failed to parse geocoding data: " + e); } } else { errorCallback("Location", "Geocoding error: " + xhr.status); } } }; xhr.open("GET", geoUrl); xhr.send(); } // -------------------------------- function _fetchWeather(latitude, longitude, errorCallback) { Logger.d("Location", "Fetching weather from api.open-meteo.com"); var url = "https://api.open-meteo.com/v1/forecast?latitude=" + latitude + "&longitude=" + longitude + "¤t_weather=true¤t=relativehumidity_2m,surface_pressure&daily=temperature_2m_max,temperature_2m_min,weathercode,sunset,sunrise&timezone=auto"; var xhr = new XMLHttpRequest(); xhr.onreadystatechange = function () { if (xhr.readyState === XMLHttpRequest.DONE) { if (xhr.status === 200) { try { var weatherData = JSON.parse(xhr.responseText); //console.log(JSON.stringify(weatherData)) // Save core data data.weather = weatherData; data.weatherLastFetch = Time.timestamp; // Update stable display values only when complete and successful root.stableLatitude = data.latitude = weatherData.latitude.toString(); root.stableLongitude = data.longitude = weatherData.longitude.toString(); root.coordinatesReady = true; isFetchingWeather = false; Logger.d("Location", "Cached weather to disk - stable coordinates updated"); } catch (e) { errorCallback("Location", "Failed to parse weather data"); } } else { errorCallback("Location", "Weather fetch error: " + xhr.status); } } }; xhr.open("GET", url); xhr.send(); } // -------------------------------- function errorCallback(module, message) { Logger.e(module, message); isFetchingWeather = false; } // -------------------------------- function weatherSymbolFromCode(code) { if (code === 0) return "weather-sun"; if (code === 1 || code === 2) return "weather-cloud-sun"; if (code === 3) return "weather-cloud"; if (code >= 45 && code <= 48) return "weather-cloud-haze"; if (code >= 51 && code <= 67) return "weather-cloud-rain"; if (code >= 71 && code <= 77) return "weather-cloud-snow"; if (code >= 71 && code <= 77) return "weather-cloud-snow"; if (code >= 85 && code <= 86) return "weather-cloud-snow"; if (code >= 95 && code <= 99) return "weather-cloud-lightning"; return "weather-cloud"; } // -------------------------------- function weatherDescriptionFromCode(code) { if (code === 0) return "Clear sky"; if (code === 1) return "Mainly clear"; if (code === 2) return "Partly cloudy"; if (code === 3) return "Overcast"; if (code === 45 || code === 48) return "Fog"; if (code >= 51 && code <= 67) return "Drizzle"; if (code >= 71 && code <= 77) return "Snow"; if (code >= 80 && code <= 82) return "Rain showers"; if (code >= 95 && code <= 99) return "Thunderstorm"; return "Unknown"; } // -------------------------------- function celsiusToFahrenheit(celsius) { return 32 + celsius * 1.8; } }