/* (c) 2011-2014, Vladimir Agafonkin SunCalc is a JavaScript library for calculating sun/mooon position and light phases. https://github.com/mourner/suncalc */ // shortcuts for easier to read formulas var PI = Math.PI, sin = Math.sin, cos = Math.cos, tan = Math.tan, asin = Math.asin, atan = Math.atan2, rad = PI / 180; // sun calculations are based on http://aa.quae.nl/en/reken/zonpositie.html formulas // date/time constants and conversions var dayMs = 1000 * 60 * 60 * 24, J1970 = 2440588, J2000 = 2451545; function toJulian (date) { return date.valueOf() / dayMs - 0.5 + J1970; } function toDays (date) { return toJulian(date) - J2000; } // general calculations for position var e = rad * 23.4397; // obliquity of the Earth function rightAscension(l, b) { return atan(sin(l) * cos(e) - tan(b) * sin(e), cos(l)); } function declination(l, b) { return asin(sin(b) * cos(e) + cos(b) * sin(e) * sin(l)); } function azimuth(H, phi, dec) { return atan(sin(H), cos(H) * sin(phi) - tan(dec) * cos(phi)); } function altitude(H, phi, dec) { return asin(sin(phi) * sin(dec) + cos(phi) * cos(dec) * cos(H)); } function siderealTime(d, lw) { return rad * (280.16 + 360.9856235 * d) - lw; } // general sun calculations function solarMeanAnomaly(d) { return rad * (357.5291 + 0.98560028 * d); } function eclipticLongitude(M) { var C = rad * (1.9148 * sin(M) + 0.02 * sin(2 * M) + 0.0003 * sin(3 * M)), // equation of center P = rad * 102.9372; // perihelion of the Earth return M + C + P + PI; } function sunCoords(d) { var M = solarMeanAnomaly(d), L = eclipticLongitude(M); return { dec: declination(L, 0), ra: rightAscension(L, 0) }; } var SunCalc = {}; // calculates sun position for a given date and latitude/longitude SunCalc.getPosition = function (date, lat, lng) { var lw = rad * -lng, phi = rad * lat, d = toDays(date), c = sunCoords(d), H = siderealTime(d, lw) - c.ra; return { azimuth: azimuth(H, phi, c.dec), altitude: altitude(H, phi, c.dec) }; }; export default SunCalc;