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// Copyright (C) 2016 The Qt Company Ltd.
// SPDX-License-Identifier: LicenseRef-Qt-Commercial OR GPL-3.0-only
.pragma library
var SUN = 0;
var MERCURY = 1;
var VENUS = 2;
var EARTH = 3;
var MARS = 4;
var JUPITER = 5;
var SATURN = 6;
var URANUS = 7;
var NEPTUNE = 8;
var NUM_SELECTABLE_PLANETS = 9;
var MOON = 9;
var SOLAR_SYSTEM = 100;
function planetId(planetName) {
switch (planetName) {
case "Sun":
return SUN
case "Mercury":
return MERCURY
case "Venus":
return VENUS
case "Earth":
return EARTH
case "Mars":
return MARS
case "Jupiter":
return JUPITER
case "Saturn":
return SATURN
case "Uranus":
return URANUS
case "Neptune":
return NEPTUNE
case "Solar System":
return SOLAR_SYSTEM
}
}
function planetIndex(planetName) {
switch (planetName) {
case "Sun":
return 0
case "Mercury":
return 1
case "Venus":
return 2
case "Earth":
return 3
case "Mars":
return 4
case "Jupiter":
return 5
case "Saturn":
return 6
case "Uranus":
return 7
case "Neptune":
return 8
case "Solar System":
return 9
}
}
var planets = []; // Planet data info
// Units are in 10^3 KM
var solarDistance = 2600.000;
var saturnOuterRadius = 0.120700;
var uranusOuterRadius = 0.040;
var auScale = 149.597870700; // 0.001 AU (in thousands of kilometers)
function loadPlanetData() {
// Planet Data
// radius - planet radius
// tilt - planet axis angle
// N1/2 - longitude of the ascending node
// i1/2 - inclination to the ecliptic (plane of the Earth's orbit)
// w1/2 - argument of perihelion
// a1/2 - semi-major axis, or mean distance from Sun
// e1/2 - eccentricity (0=circle, 0-1=ellipse, 1=parabola)
// M1/2 - mean anomaly (0 at perihelion; increases uniformly with time)
// period - sidereal rotation period
// centerOfOrbit - the planet in the center of the orbit
// (orbital elements based on http://www.stjarnhimlen.se/comp/ppcomp.html)
var sun = { radius: 0.694439, tilt: 63.87, period: 25.05, x: 0, y: 0, z: 0,
roll: 0 };
planets.push(sun);
var mercury = {
radius: 0.002433722, tilt: 0.04, N1: 48.3313, N2: 0.0000324587,
i1: 7.0047, i2: 0.0000000500, w1: 29.1241, w2: 0.0000101444,
a1: 0.387098, a2: 0, e1: 0.205635, e2: 0.000000000559,
M1: 168.6562, M2: 4.0923344368, period: 58.646, x: 0, y: 0, z: 0,
roll: 0, centerOfOrbit: SUN
};
planets.push(mercury);
var venus = {
radius: 0.006046079, tilt: 177.36, N1: 76.6799, N2: 0.0000246590,
i1: 3.3946, i2: 0.0000000275, w1: 54.8910, w2: 0.0000138374,
a1: 0.723330, a2: 0, e1: 0.006773, e2: -0.000000001302,
M1: 48.0052, M2: 1.6021302244, period: 243.0185, x: 0, y: 0, z: 0,
roll: 0, centerOfOrbit: SUN
};
planets.push(venus);
var earth = {
radius: 0.006371, tilt: 25.44, N1: 174.873, N2: 0,
i1: 0.00005, i2: 0, w1: 102.94719, w2: 0,
a1: 1, a2: 0, e1: 0.01671022, e2: 0,
M1: 357.529, M2: 0.985608, period: 0.997, x: 0, y: 0, z: 0,
roll: 0, centerOfOrbit: SUN
};
planets.push(earth);
var mars = {
radius: 0.003389372, tilt: 25.19, N1: 49.5574, N2: 0.0000211081,
i1: 1.8497, i2: -0.0000000178, w1: 286.5016, w2: 0.0000292961,
a1: 1.523688, a2: 0, e1: 0.093405, e2: 0.000000002516,
M1: 18.6021, M2: 0.5240207766, period: 1.025957, x: 0, y: 0, z: 0,
roll: 0, centerOfOrbit: SUN
};
planets.push(mars);
var jupiter = {
radius: 0.07141254, tilt: 3.13, N1: 100.4542, N2: 0.0000276854,
i1: 1.3030, i2: -0.0000001557, w1: 273.8777, w2: 0.0000164505,
a1: 5.20256, a2: 0, e1: 0.048498, e2: 0.000000004469,
M1: 19.8950, M2: 0.0830853001, period: 0.4135, x: 0, y: 0, z: 0,
roll: 0, centerOfOrbit: SUN
};
planets.push(jupiter);
var saturn = {
radius: 0.06019958, tilt: 26.73, N1: 113.6634, N2: 0.0000238980,
i1: 2.4886, i2: -0.0000001081, w1: 339.3939, w2: 0.0000297661,
a1: 9.55475, a2: 0, e1: 0.055546, e2: -0.000000009499,
M1: 316.9670, M2: 0.0334442282, period: 0.4395, x: 0, y: 0, z: 0,
roll: 0, centerOfOrbit: SUN
};
planets.push(saturn);
var uranus = {
radius: 0.0255286, tilt: 97.77, N1: 74.0005, N2: 0.000013978,
i1: 0.7733, i2: 0.000000019, w1: 96.6612, w2: 0.000030565,
a1: 19.18171, a2: -0.0000000155, e1: 0.047318, e2: 0.00000000745,
M1: 142.5905, M2: 0.011725806, period: 0.71833, x: 0, y: 0, z: 0,
roll: 0, centerOfOrbit: SUN
};
planets.push(uranus);
var neptune = {
radius: 0.02473859, tilt: 28.32, N1: 131.7806, N2: 0.000030173,
i1: 1.7700, i2: -0.000000255, w1: 272.8461, w2: 0.000006027,
a1: 30.05826, a2: 0.00000003313, e1: 0.008606, e2: 0.00000000215,
M1: 260.2471, M2: 0.005995147, period: 0.6713, x: 0, y: 0, z: 0,
roll: 0, centerOfOrbit: SUN
};
planets.push(neptune);
var moon = {
radius: 0.0015424, tilt: 28.32, N1: 125.1228, N2: -0.0529538083,
i1: 5.1454, i2: 0, w1: 318.0634, w2: 0.1643573223,
a1: 0.273, a2: 0, e1: 0.054900, e2: 0,
M1: 115.3654, M2: 13.0649929509, period: 27.321582, x: 0, y: 0, z: 0,
roll: 0, centerOfOrbit: EARTH
};
planets.push(moon);
return planets;
}
function getOuterRadius(planet) {
var outerRadius = solarDistance;
if (planet !== SOLAR_SYSTEM) {
outerRadius = planets[planet]["radius"];
if (planet === SATURN) {
outerRadius =+ saturnOuterRadius;
} else if (planet === URANUS) {
outerRadius =+ uranusOuterRadius;
} else if (planet === SUN) {
outerRadius = planets[planet]["radius"] / 10;
}
}
return outerRadius;
}
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