/* * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ var lastGpsUpdateTimestamp = 0; var userPosition = { coords: { latitude: 0.0, longitude: 0.0, accuracy: 999999 }, updated: 0 }; // Preload last known location while GPS warms up if (getStorage("user_latitude") != null && getStorage("user_longitude") != null) { userPosition.coords.latitude = getStorage("user_latitude"); userPosition.coords.longitude = getStorage("user_longitude"); } // Request the user's IP geolocation as a poor substitute for an actual location // Should improve UX for weather tool at least $.ajax({ url: SETTINGS.geoipapi, dataType: 'json', timeout: 10 * 1000, success: function (resp) { if (resp.status == "OK" && userPosition.coords.accuracy > 99999) { userPosition.coords.latitude = resp.location.latitude; userPosition.coords.longitude = resp.location.longitude; userPosition.coords.accuracy = 99999; userPosition.updated = time(); } } }); var geoerrorcount = 0; var mapLocationControlStarted = false; if ("geolocation" in navigator) { navigator.geolocation.watchPosition(function (position) { userPosition.coords = position.coords; userPosition.updated = time(); setStorage("user_latitude", userPosition.coords.latitude); setStorage("user_longitude", userPosition.coords.longitude); if (mapLocationControlStarted) { // Don't send location at an interval less than one minute var currentTimestamp = Math.floor(Date.now() / 1000); if (lastGpsUpdateTimestamp < (currentTimestamp - 60)) { lastGpsUpdateTimestamp = currentTimestamp; // TODO: check if user logged in, and if so send approx. location // to allow discovery } } else { if (map != null) { map.startLocateControl(); mapLocationControlStarted = true; } } }, function (err) { if (typeof error == "function") { error(err.message); } }, { enableHighAccuracy: true, timeout: 5000, maximumAge: 0 }); } else { geoerrorcount++; console.log("Warn", "Geolocation error #" + geoerrorcount + ": ", error); // Stop showing error toasts if they're happening a lot if (geoerrorcount <= 3) { app.toast.show({ text: ' ' + error, position: "bottom", destroyOnClose: true, closeTimeout: 1000 * 3 }); } } /** * Calculate distance between two GPS points using Vincenty Formula. * * From Aman Singh https://stackoverflow.com/q/30536869 * * @param {type} lat1 * @param {type} lon1 * @param {type} lat2 * @param {type} lon2 * @returns {Number} distance in meters */ function getDistance(lat1, lon1, lat2, lon2) { var toRad = function (value) { return value * Math.PI / 180; } var a = 6378137, b = 6356752.314245, f = 1 / 298.257223563; var L = toRad(lon2 - lon1); var U1 = Math.atan((1 - f) * Math.tan(toRad(lat1))); var U2 = Math.atan((1 - f) * Math.tan(toRad(lat2))); var sinU1 = Math.sin(U1), cosU1 = Math.cos(U1); var sinU2 = Math.sin(U2), cosU2 = Math.cos(U2); var lambda = L, lambdaP, iterLimit = 100; do { var sinLambda = Math.sin(lambda), cosLambda = Math.cos(lambda); var sinSigma = Math.sqrt((cosU2 * sinLambda) * (cosU2 * sinLambda) + (cosU1 * sinU2 - sinU1 * cosU2 * cosLambda) * (cosU1 * sinU2 - sinU1 * cosU2 * cosLambda)); if (sinSigma == 0) return 0; var cosSigma = sinU1 * sinU2 + cosU1 * cosU2 * cosLambda; var sigma = Math.atan2(sinSigma, cosSigma); var sinAlpha = cosU1 * cosU2 * sinLambda / sinSigma; var cosSqAlpha = 1 - sinAlpha * sinAlpha; var cos2SigmaM = cosSigma - 2 * sinU1 * sinU2 / cosSqAlpha; if (isNaN(cos2SigmaM)) cos2SigmaM = 0; var C = f / 16 * cosSqAlpha * (4 + f * (4 - 3 * cosSqAlpha)); lambdaP = lambda; lambda = L + (1 - C) * f * sinAlpha * (sigma + C * sinSigma * (cos2SigmaM + C * cosSigma * (-1 + 2 * cos2SigmaM * cos2SigmaM))); } while (Math.abs(lambda - lambdaP) > 1e-12 && --iterLimit > 0); if (iterLimit == 0) return NaN var uSq = cosSqAlpha * (a * a - b * b) / (b * b); var A = 1 + uSq / 16384 * (4096 + uSq * (-768 + uSq * (320 - 175 * uSq))); var B = uSq / 1024 * (256 + uSq * (-128 + uSq * (74 - 47 * uSq))); var deltaSigma = B * sinSigma * (cos2SigmaM + B / 4 * (cosSigma * (-1 + 2 * cos2SigmaM * cos2SigmaM) - B / 6 * cos2SigmaM * (-3 + 4 * sinSigma * sinSigma) * (-3 + 4 * cos2SigmaM * cos2SigmaM))); var s = b * A * (sigma - deltaSigma); return s; } /** * Return a formatted string with units corresponding to a number of meters. * Respects user "units" setting ("metric" or "imperial"). * @param number meters * @param bool space Add a space between number and units. Default true. * @returns string "1000 ft", "2 mi", "3 km", */ function getDisplayDistance(meters, space) { if (typeof space == 'undefined') { space = true; } var units = getStorage("units"); if (units == null) { units = "metric"; } var number = Math.round(meters); var label = "m"; if (units == "imperial") { // Convert to feet number = Math.round(number * 3.28084); label = "ft"; if (number >= 1320) { // 0.25 miles number = (number / 5280); if (number < 10) { number = number.toFixed(2); } else { number = Math.round(number); } label = "mi"; } } else { if (number >= 1000) { number = (number / 1000); if (number < 16) { number = number.toFixed(1); } else { number = Math.round(number); } label = "km"; } } if (space) { return number + " " + label; } return number + "" + label; }