// Read data from CSV file private void readData() { records = csvFile.text.Split(lineSeperater); indexArray = new indexData[records.Length - 1]; int x = 0; foreach (string record in records) { string[] fields = record.Split(fieldSeperator); indexData key = new indexData(); key.index = x; key.name = fields[0]; indexArray[x] = key; if (x != record.Length - 1) { x++; } } double q = AASElementsPlanetaryOrbit.EarthEccentricity(1); }
public void MercuryLongitudeAscendingNodeJ2000Test(double jd, double expectedLongitudeAscendingNode) { double longitudeAscendingNode = AASElementsPlanetaryOrbit.MercuryLongitudeAscendingNodeJ2000(jd); Assert.Equal(expectedLongitudeAscendingNode, longitudeAscendingNode); }
public void MercuryLongitudePerihelionJ2000Test(double jd, double expectedLongitudePerihelion) { double longitudePerihelion = AASElementsPlanetaryOrbit.MercuryLongitudePerihelionJ2000(jd); Assert.Equal(expectedLongitudePerihelion, longitudePerihelion); }
public void NeptuneMeanLongitudeJ2000Test(double jd, double expectedMeanLongitude) { double meanLongitude = AASElementsPlanetaryOrbit.NeptuneMeanLongitudeJ2000(jd); Assert.Equal(expectedMeanLongitude, meanLongitude); }
public void MercuryInclinationJ2000Test(double jd, double expectedInclination) { double inclination = AASElementsPlanetaryOrbit.MercuryInclinationJ2000(jd); Assert.Equal(expectedInclination, inclination); }
public void NeptuneLongitudeAscendingNodeTest(double jd, double expectedLongitudeAscendingNode) { double longitudeAscendingNode = AASElementsPlanetaryOrbit.NeptuneLongitudeAscendingNode(jd); Assert.Equal(expectedLongitudeAscendingNode, longitudeAscendingNode); }
public void NeptuneLongitudePerihelionTest(double jd, double expectedLongitudePerihelion) { double longitudePerihelion = AASElementsPlanetaryOrbit.NeptuneLongitudePerihelion(jd); Assert.Equal(expectedLongitudePerihelion, longitudePerihelion); }
public void NeptuneEccentricityTest(double jd, double expectedEccentricity) { double eccentricity = AASElementsPlanetaryOrbit.NeptuneEccentricity(jd); Assert.Equal(expectedEccentricity, eccentricity); }
public void NeptuneInclinationTest(double jd, double expectedInclination) { double inclination = AASElementsPlanetaryOrbit.NeptuneInclination(jd); Assert.Equal(expectedInclination, inclination); }
public void UranusMeanLongitudeTest(double jd, double expectedMeanLongitude) { double meanLongitude = AASElementsPlanetaryOrbit.UranusMeanLongitude(jd); Assert.Equal(expectedMeanLongitude, meanLongitude); }
public void NeptuneSemimajorAxisTest(double jd, double expectedSemimajorAxis) { double semimajorAxis = AASElementsPlanetaryOrbit.NeptuneSemimajorAxis(jd); Assert.Equal(expectedSemimajorAxis, semimajorAxis); }
public void MarsSemimajorAxisTest() { double semimajorAxis = AASElementsPlanetaryOrbit.MarsSemimajorAxis(); Assert.Equal(1.523679342, semimajorAxis); }
public void EarthInclinationTest() { double inclination = AASElementsPlanetaryOrbit.EarthInclination(); Assert.Equal(0, inclination); }
public void EarthSemimajorAxisTest() { double semimajorAxis = AASElementsPlanetaryOrbit.EarthSemimajorAxis(); Assert.Equal(1.000001018, semimajorAxis); }
public void MercurySemimajorAxisTest() { double semimajorAxis = AASElementsPlanetaryOrbit.MercurySemimajorAxis(); Assert.Equal(0.387098310, semimajorAxis); }
public void VenusSemimajorAxisTest() { double semimajorAxis = AASElementsPlanetaryOrbit.VenusSemimajorAxis(); Assert.Equal(0.723329820, semimajorAxis); }