public PositionVector GetApparentPosition(double tjd) { double[] peb = new double[4]; double[] veb = new double[4]; double[] pes = new double[4]; double[] ves = new double[4]; double[] pos = new double[4]; double[] vel = new double[4]; double[] pos2_1 = new double[4]; double[] pos2_2 = new double[4]; double[] pos2_3 = new double[4]; double[] pos2_4 = new double[4]; double[] pos2_5 = new double[9]; Object3 SsBody = new Object3(); PositionVector positionVector; if (this.m_type == BodyType.Moon & (this.m_number == 10 | this.m_number == 11)) { SsBody.Number = CommonCode.NumberToBody(this.m_number); SsBody.Type = ASCOM.Astrometry.ObjectType.MajorPlanetSunOrMoon; double Ra = 0; double Dec = 0; double Dis = 0; int num = (int)this.Nov31.AppPlanet(tjd, SsBody, Accuracy.Full, ref Ra, ref Dec, ref Dis); this.Nov31.RaDec2Vector(Ra, Dec, Dis, ref pos); positionVector = new PositionVector(pos[0], pos[1], pos[2], Ra, Dec, Dis, Dis / 173.14463348); } else { double tdb = 0; EphemerisCode.get_earth_nov(ref this.m_earthephobj, tjd, ref tdb, ref peb, ref veb, ref pes, ref ves); EphemerisCode.ephemeris_nov(ref this.m_ephobj, tdb, this.m_type, this.m_number, this.m_name, Origin.Barycentric, ref pos, ref vel); double lighttime = 0; NOVAS2.BaryToGeo(pos, peb, ref pos2_1, ref lighttime); double num1 = tdb - lighttime; int num2 = 0; double tjd1; do { tjd1 = num1; EphemerisCode.ephemeris_nov(ref this.m_ephobj, tjd1, this.m_type, this.m_number, this.m_name, Origin.Barycentric, ref pos, ref vel); NOVAS2.BaryToGeo(pos, peb, ref pos2_1, ref lighttime); num1 = tdb - lighttime; checked { ++num2; } }while (Math.Abs(num1 - tjd1) > 1E-06 & num2 < 100); int num3 = (int)NOVAS2.SunField(pos2_1, pes, ref pos2_2); int num4 = (int)NOVAS2.Aberration(pos2_2, veb, lighttime, ref pos2_3); NOVAS2.Precession(2451545.0, pos2_3, tdb, ref pos2_4); int num5 = (int)NOVAS2.Nutate(tdb, NutationDirection.MeanToTrue, pos2_4, ref pos2_5); positionVector = new PositionVector(); positionVector.x = pos2_5[0]; positionVector.y = pos2_5[1]; positionVector.z = pos2_5[2]; } return(positionVector); }
public PositionVector GetApparentPosition(double tjd) { CatEntry star = new CatEntry(); PositionVector positionVector = new PositionVector(); double[] bary_earthp = new double[4]; double[] bary_earthv = new double[4]; double[] helio_earthp = new double[4]; double[] helio_earthv = new double[4]; double[] pos = new double[4]; double[] pos2_1 = new double[4]; double[] pos2_2 = new double[4]; double[] pos2_3 = new double[4]; double[] pos2_4 = new double[4]; double[] pos2_5 = new double[4]; double[] vel = new double[4]; double[] pos2_6 = new double[4]; if (!(this.m_rav & this.m_decv)) { throw new ASCOM.Astrometry.Exceptions.ValueNotSetException("Star.GetApparentPosition RA or DEC not available"); } double tdb = 0; this.hr = NOVAS2.GetEarth(tjd, ref this.m_earth, ref tdb, ref bary_earthp, ref bary_earthv, ref helio_earthp, ref helio_earthv); if ((int)this.hr > 0) { pos2_6[0] = 0.0; pos2_6[1] = 0.0; pos2_6[2] = 0.0; throw new NOVASFunctionException("Star.GetApparentPosition", "get_earth", this.hr); } star.RA = this.m_ra; star.Dec = this.m_dec; star.ProMoRA = this.m_pmra; star.ProMoDec = this.m_pmdec; star.Parallax = this.m_plx; star.RadialVelocity = this.m_rv; NOVAS2.StarVectors(star, ref pos, ref vel); NOVAS2.ProperMotion(2451545.0, pos, vel, tdb, ref pos2_1); double lighttime = 0; NOVAS2.BaryToGeo(pos2_1, bary_earthp, ref pos2_2, ref lighttime); int num1 = (int)NOVAS2.SunField(pos2_2, helio_earthp, ref pos2_3); int num2 = (int)NOVAS2.Aberration(pos2_3, bary_earthv, lighttime, ref pos2_4); NOVAS2.Precession(2451545.0, pos2_4, tdb, ref pos2_5); int num3 = (int)NOVAS2.Nutate(tdb, NutationDirection.MeanToTrue, pos2_5, ref pos2_6); positionVector.x = pos2_6[0]; positionVector.y = pos2_6[1]; positionVector.z = pos2_6[2]; return(positionVector); }
public void Aberration(VelocityVector vel) { double[] pos = new double[3]; double[] vel1 = new double[3]; if (!(this.xOk & this.yOk & this.zOk)) { throw new ASCOM.Astrometry.Exceptions.ValueNotSetException("PositionVector:ProperMotion x, y or z has not been set"); } this.CheckEq(); pos[0] = this.PosVec[0]; pos[1] = this.PosVec[1]; pos[2] = this.PosVec[2]; try { vel1[0] = vel.x; } catch (Exception ex) { //ProjectData.SetProjectError(ex); throw new ValueNotAvailableException("PositionVector:Aberration VelocityVector.x is not available"); } try { vel1[1] = vel.y; } catch (Exception ex) { //ProjectData.SetProjectError(ex); throw new ValueNotAvailableException("PositionVector:Aberration VelocityVector.y is not available"); } try { vel1[2] = vel.z; } catch (Exception ex) { //ProjectData.SetProjectError(ex); throw new ValueNotAvailableException("PositionVector:Aberration VelocityVector.z is not available"); } int num = (int)NOVAS2.Aberration(pos, vel1, this.m_Light, ref this.PosVec); this.RADecOk = false; this.AzElOk = false; }
public PositionVector GetTopocentricPosition(double tjd, Site site, bool Refract) { CatEntry star = new CatEntry(); SiteInfo siteInfo = new SiteInfo(); double[] earthvector1 = new double[4]; double[] pos2_1 = new double[4]; double[] vel1 = new double[4]; double[] pos2_2 = new double[4]; double[] earthvector2 = new double[4]; double[] pos1 = new double[4]; double[] pos2_3 = new double[4]; double[] pos2_4 = new double[4]; double[] pos2_5 = new double[4]; double[] pos2_6 = new double[4]; double[] pos2_7 = new double[4]; double[] vel2 = new double[4]; double[] pos2_8 = new double[4]; double[] bary_earthp = new double[4]; double[] bary_earthv = new double[4]; double[] helio_earthp = new double[4]; double[] helio_earthv = new double[4]; double[] pos2 = new double[4]; if (!(this.m_rav & this.m_decv)) { throw new ASCOM.Astrometry.Exceptions.ValueNotSetException("Star.GetTopocentricPosition RA or DEC not available"); } double jd_high = !this.m_bDTValid ? tjd - DeltatCode.DeltaTCalc(tjd) / 86400.0 : tjd - this.m_deltat; try { siteInfo.Latitude = site.Latitude; } catch (Exception ex) { //ProjectData.SetProjectError(ex); throw new ValueNotAvailableException("Star:GetTopocentricPosition Site.Latitude is not available"); } try { siteInfo.Longitude = site.Longitude; } catch (Exception ex) { //ProjectData.SetProjectError(ex); throw new ValueNotAvailableException("Star:GetTopocentricPosition Site.Longitude is not available"); } try { siteInfo.Height = site.Height; } catch (Exception ex) { //ProjectData.SetProjectError(ex); throw new ValueNotAvailableException("Star:GetTopocentricPosition Site.Height is not available"); } double tdb = 0; this.hr = NOVAS2.GetEarth(tjd, ref this.m_earth, ref tdb, ref bary_earthp, ref bary_earthv, ref helio_earthp, ref helio_earthv); if ((int)this.hr > 0) { pos2[0] = 0.0; pos2[1] = 0.0; pos2[2] = 0.0; throw new NOVASFunctionException("Star.GetApparentPosition", "get_earth", this.hr); } double mobl = 0; double tobl = 0; double eq = 0; double dpsi = 0; double deps = 0; NOVAS2.EarthTilt(tdb, ref mobl, ref tobl, ref eq, ref dpsi, ref deps); double gst = 0; NOVAS2.SiderealTime(jd_high, 0.0, eq, ref gst); NOVAS2.Terra(ref siteInfo, gst, ref pos1, ref vel2); int num1 = (int)NOVAS2.Nutate(tdb, NutationDirection.TrueToMean, pos1, ref pos2_3); NOVAS2.Precession(tdb, pos2_3, 2451545.0, ref pos2_1); int num2 = (int)NOVAS2.Nutate(tdb, NutationDirection.TrueToMean, vel2, ref pos2_8); NOVAS2.Precession(tdb, pos2_8, 2451545.0, ref pos2_2); int index = 0; do { earthvector1[index] = bary_earthp[index] + pos2_1[index]; vel1[index] = bary_earthv[index] + pos2_2[index]; earthvector2[index] = helio_earthp[index] + pos2_1[index]; checked { ++index; } }while (index <= 2); star.RA = this.m_ra; star.Dec = this.m_dec; star.ProMoRA = this.m_pmra; star.ProMoDec = this.m_pmdec; star.Parallax = this.m_plx; star.RadialVelocity = this.m_rv; NOVAS2.StarVectors(star, ref pos1, ref vel2); NOVAS2.ProperMotion(2451545.0, pos1, vel2, tdb, ref pos2_3); double lighttime = 0; NOVAS2.BaryToGeo(pos2_3, earthvector1, ref pos2_4, ref lighttime); int num3 = (int)NOVAS2.SunField(pos2_4, earthvector2, ref pos2_5); int num4 = (int)NOVAS2.Aberration(pos2_5, vel1, lighttime, ref pos2_6); NOVAS2.Precession(2451545.0, pos2_6, tdb, ref pos2_7); int num5 = (int)NOVAS2.Nutate(tdb, NutationDirection.MeanToTrue, pos2_7, ref pos2); double ra = 0; double dec = 0; int num6 = (int)NOVAS2.Vector2RADec(pos2, ref ra, ref dec); double num7 = Math.Sqrt(Math.Pow(pos2[0], 2.0) + Math.Pow(pos2[1], 2.0) + Math.Pow(pos2[2], 2.0)); RefractionOption ref_option = RefractionOption.NoRefraction; if (Refract) { bool flag = true; try { siteInfo.Temperature = site.Temperature; } catch (Exception ex) { //ProjectData.SetProjectError(ex); flag = false; //ProjectData.ClearProjectError(); } try { siteInfo.Pressure = site.Pressure; } catch (Exception ex) { //ProjectData.SetProjectError(ex); flag = false; //ProjectData.ClearProjectError(); } ref_option = !flag ? RefractionOption.StandardRefraction : RefractionOption.LocationRefraction; } double zd = 0; double az = 0; double rar = 0; double decr = 0; if (this.m_bDTValid) { NOVAS2.Equ2Hor(tjd, this.m_deltat, 0.0, 0.0, ref siteInfo, ra, dec, ref_option, ref zd, ref az, ref rar, ref decr); } else { NOVAS2.Equ2Hor(tjd, DeltatCode.DeltaTCalc(tjd), 0.0, 0.0, ref siteInfo, ra, dec, ref_option, ref zd, ref az, ref rar, ref decr); } if (ref_option > RefractionOption.NoRefraction) { NOVAS2.RADec2Vector(rar, decr, num7, ref pos2); } return(new PositionVector(pos2[0], pos2[1], pos2[2], rar, decr, num7, num7 / 173.14463348, az, 90.0 - zd)); }
public PositionVector GetLocalPosition(double tjd, Site site) { CatEntry star = new CatEntry(); PositionVector positionVector = new PositionVector(); SiteInfo locale = new SiteInfo(); double[] pos2_1 = new double[4]; double[] pos2_2 = new double[4]; double[] earthvector1 = new double[4]; double[] vel1 = new double[4]; double[] earthvector2 = new double[4]; double[] numArray = new double[4]; double[] pos = new double[4]; double[] vel2 = new double[4]; double[] pos2_3 = new double[4]; double[] pos2_4 = new double[4]; double[] pos2_5 = new double[4]; double[] pos2_6 = new double[4]; double[] bary_earthp = new double[4]; double[] bary_earthv = new double[4]; double[] helio_earthp = new double[4]; double[] helio_earthv = new double[4]; double[] pos2_7 = new double[4]; if (!(this.m_rav & this.m_decv)) { throw new ASCOM.Astrometry.Exceptions.ValueNotSetException("Star.GetLocalPosition RA or DEC not available"); } double jd_high = !this.m_bDTValid ? tjd - DeltatCode.DeltaTCalc(tjd) / 86400.0 : tjd - this.m_deltat; star.RA = this.m_ra; star.Dec = this.m_dec; star.ProMoRA = this.m_pmra; star.ProMoDec = this.m_pmdec; star.Parallax = this.m_plx; star.RadialVelocity = this.m_rv; try { locale.Latitude = site.Latitude; } catch (Exception ex) { //ProjectData.SetProjectError(ex); throw new ValueNotAvailableException("Star:GetLocalPosition Site.Latitude is not available"); } try { locale.Longitude = site.Longitude; } catch (Exception ex) { //ProjectData.SetProjectError(ex); throw new ValueNotAvailableException("Star:GetLocalPosition Site.Longitude is not available"); } try { locale.Height = site.Height; } catch (Exception ex) { //ProjectData.SetProjectError(ex); throw new ValueNotAvailableException("Star:GetLocalPosition Site.Height is not available"); } double tdb = 0; this.hr = NOVAS2.GetEarth(tjd, ref this.m_earth, ref tdb, ref bary_earthp, ref bary_earthv, ref helio_earthp, ref helio_earthv); if ((int)this.hr > 0) { pos2_7[0] = 0.0; pos2_7[1] = 0.0; pos2_7[2] = 0.0; throw new NOVASFunctionException("Star.GetApparentPosition", "get_earth", this.hr); } double mobl = 0; double tobl = 0; double eq = 0; double dpsi = 0; double deps = 0; NOVAS2.EarthTilt(tdb, ref mobl, ref tobl, ref eq, ref dpsi, ref deps); double gst = 0; NOVAS2.SiderealTime(jd_high, 0.0, eq, ref gst); NOVAS2.Terra(ref locale, gst, ref pos, ref vel2); int num1 = (int)NOVAS2.Nutate(tdb, NutationDirection.TrueToMean, pos, ref pos2_3); NOVAS2.Precession(tdb, pos2_3, 2451545.0, ref pos2_1); int num2 = (int)NOVAS2.Nutate(tdb, NutationDirection.TrueToMean, vel2, ref pos2_4); NOVAS2.Precession(tdb, pos2_4, 2451545.0, ref pos2_2); int index = 0; do { earthvector1[index] = bary_earthp[index] + pos2_1[index]; vel1[index] = bary_earthv[index] + pos2_2[index]; earthvector2[index] = helio_earthp[index] + pos2_1[index]; numArray[index] = helio_earthv[index] + pos2_2[index]; checked { ++index; } }while (index <= 2); NOVAS2.StarVectors(star, ref pos, ref vel2); NOVAS2.ProperMotion(2451545.0, pos, vel2, tdb, ref pos2_3); double lighttime = 0; NOVAS2.BaryToGeo(pos2_3, earthvector1, ref pos2_5, ref lighttime); int num3 = (int)NOVAS2.SunField(pos2_5, earthvector2, ref pos2_6); int num4 = (int)NOVAS2.Aberration(pos2_6, vel1, lighttime, ref pos2_7); positionVector.x = pos2_7[0]; positionVector.y = pos2_7[1]; positionVector.z = pos2_7[2]; return(positionVector); }
public short Aberration(double[] pos, double[] vel, double lighttime, ref double[] pos2) { return(NOVAS2.Aberration(pos, vel, lighttime, ref pos2)); }
public PositionVector GetVirtualPosition(double tjd) { double[] pos = new double[4]; double[] vel = new double[4]; double[] pos2_1 = new double[4]; double[] pos2_2 = new double[4]; double[] pos2_3 = new double[4]; double[] peb = new double[4]; double[] veb = new double[4]; double[] pes = new double[4]; double[] ves = new double[4]; PositionVector positionVector = new PositionVector(); Object3 SsBody = new Object3(); if (this.m_type == BodyType.Moon & (this.m_number == 10 | this.m_number == 11)) { SsBody.Number = CommonCode.NumberToBody(this.m_number); SsBody.Type = ASCOM.Astrometry.ObjectType.MajorPlanetSunOrMoon; double Ra = 0; double Dec = 0; double Dis = 0; int num = (int)this.Nov31.VirtualPlanet(tjd, SsBody, Accuracy.Full, ref Ra, ref Dec, ref Dis); this.Nov31.RaDec2Vector(Ra, Dec, Dis, ref pos); positionVector = new PositionVector(pos[0], pos[1], pos[2], Ra, Dec, Dis, Dis / 173.14463348); } else { double tdb = 0; EphemerisCode.get_earth_nov(ref this.m_earthephobj, tjd, ref tdb, ref peb, ref veb, ref pes, ref ves); double mobl = 0; double tobl = 0; double eq = 0; double dpsi = 0; double deps = 0; NOVAS2.EarthTilt(tdb, ref mobl, ref tobl, ref eq, ref dpsi, ref deps); BodyType btype = BodyType.MajorPlanet; switch (this.m_type) { case BodyType.Moon: btype = BodyType.Moon; break; case BodyType.MinorPlanet: btype = BodyType.MinorPlanet; break; case BodyType.Comet: btype = BodyType.Comet; break; } EphemerisCode.ephemeris_nov(ref this.m_ephobj, tdb, btype, this.m_number, this.m_name, Origin.Barycentric, ref pos, ref vel); double lighttime = 0; NOVAS2.BaryToGeo(pos, peb, ref pos2_1, ref lighttime); double num1 = tdb - lighttime; int num2 = 0; double tjd1; do { tjd1 = num1; EphemerisCode.ephemeris_nov(ref this.m_ephobj, tjd1, btype, this.m_number, this.m_name, Origin.Barycentric, ref pos, ref vel); NOVAS2.BaryToGeo(pos, peb, ref pos2_1, ref lighttime); num1 = tdb - lighttime; checked { ++num2; } }while (Math.Abs(num1 - tjd1) > 1E-06 & num2 < 100); if (num2 >= 100) { throw new HelperException("Planet:GetVirtualPoition ephemeris_nov did not converge in 100 iterations"); } int num3 = (int)NOVAS2.SunField(pos2_1, pes, ref pos2_2); int num4 = (int)NOVAS2.Aberration(pos2_2, veb, lighttime, ref pos2_3); positionVector.x = pos2_3[0]; positionVector.y = pos2_3[1]; positionVector.z = pos2_3[2]; } return(positionVector); }
public PositionVector GetTopocentricPosition(double tjd, Site site, bool Refract) { double[] pos1 = new double[4]; double[] pos2_1 = new double[4]; double[] pos2_2 = new double[4]; double[] pos2_3 = new double[4]; double[] pos2_4 = new double[4]; double[] vel1 = new double[4]; double[] pos2_5 = new double[4]; double[] pos2_6 = new double[4]; double[] pos2_7 = new double[4]; double[] earthvector1 = new double[4]; double[] pos2 = new double[4]; double[] vel2 = new double[4]; double[] earthvector2 = new double[4]; double[] peb = new double[4]; double[] veb = new double[4]; double[] pes = new double[4]; double[] ves = new double[4]; Object3 SsBody = new Object3(); OnSurface onSurface = new OnSurface(); if (!this.m_bDTValid) { this.m_deltat = DeltatCode.DeltaTCalc(tjd); } double num1 = tjd - this.m_deltat / 86400.0; SiteInfo siteInfo = new SiteInfo(); try { siteInfo.Latitude = site.Latitude; } catch (Exception ex) { //ProjectData.SetProjectError(ex); throw new ValueNotAvailableException("Star:GetTopocentricPosition Site.Latitude is not available"); } try { siteInfo.Longitude = site.Longitude; } catch (Exception ex) { //ProjectData.SetProjectError(ex); throw new ValueNotAvailableException("Star:GetTopocentricPosition Site.Longitude is not available"); } try { siteInfo.Height = site.Height; } catch (Exception ex) { //ProjectData.SetProjectError(ex); throw new ValueNotAvailableException("Star:GetTopocentricPosition Site.Height is not available"); } PositionVector positionVector; if (this.m_type == BodyType.Moon & (this.m_number == 10 | this.m_number == 11)) { onSurface.Height = site.Height; onSurface.Latitude = site.Latitude; onSurface.Longitude = site.Longitude; onSurface.Pressure = site.Pressure; onSurface.Temperature = site.Temperature; SsBody.Number = CommonCode.NumberToBody(this.m_number); SsBody.Type = ASCOM.Astrometry.ObjectType.MajorPlanetSunOrMoon; RefractionOption RefOption = !Refract ? RefractionOption.NoRefraction : RefractionOption.LocationRefraction; double Ra = 0; double Dec = 0; double Dis = 0; this.Nov31.TopoPlanet(tjd, SsBody, this.m_deltat, onSurface, Accuracy.Full, ref Ra, ref Dec, ref Dis); double Zd = 0; double Az = 0; double RaR = 0; double DecR = 0; this.Nov31.Equ2Hor(num1, this.m_deltat, Accuracy.Full, 0.0, 0.0, onSurface, Ra, Dec, RefOption, ref Zd, ref Az, ref RaR, ref DecR); this.Nov31.RaDec2Vector(RaR, DecR, Dis, ref pos2); positionVector = new PositionVector(pos2[0], pos2[1], pos2[2], RaR, DecR, Dis, Dis / 173.14463348, Az, 90.0 - Zd); } else { double tdb = 0; EphemerisCode.get_earth_nov(ref this.m_earthephobj, tjd, ref tdb, ref peb, ref veb, ref pes, ref ves); double mobl = 0; double tobl = 0; double eq = 0; double dpsi = 0; double deps = 0; NOVAS2.EarthTilt(tdb, ref mobl, ref tobl, ref eq, ref dpsi, ref deps); double gst = 0; NOVAS2.SiderealTime(num1, 0.0, eq, ref gst); NOVAS2.Terra(ref siteInfo, gst, ref pos1, ref vel1); int num2 = (int)NOVAS2.Nutate(tdb, NutationDirection.TrueToMean, pos1, ref pos2_1); NOVAS2.Precession(tdb, pos2_1, 2451545.0, ref pos2_6); int num3 = (int)NOVAS2.Nutate(tdb, NutationDirection.TrueToMean, vel1, ref pos2_5); NOVAS2.Precession(tdb, pos2_5, 2451545.0, ref pos2_7); short num4 = 0; do { earthvector1[(int)num4] = peb[(int)num4] + pos2_6[(int)num4]; vel2[(int)num4] = veb[(int)num4] + pos2_7[(int)num4]; earthvector2[(int)num4] = pes[(int)num4] + pos2_6[(int)num4]; ++num4; }while ((int)num4 <= 2); EphemerisCode.ephemeris_nov(ref this.m_ephobj, tdb, this.m_type, this.m_number, this.m_name, Origin.Barycentric, ref pos1, ref vel1); double lighttime = 0; NOVAS2.BaryToGeo(pos1, earthvector1, ref pos2_1, ref lighttime); double num5 = tdb - lighttime; int num6 = 0; double tjd1; do { tjd1 = num5; EphemerisCode.ephemeris_nov(ref this.m_ephobj, tjd1, this.m_type, this.m_number, this.m_name, Origin.Barycentric, ref pos1, ref vel1); NOVAS2.BaryToGeo(pos1, earthvector1, ref pos2_1, ref lighttime); num5 = tdb - lighttime; checked { ++num6; } }while (Math.Abs(num5 - tjd1) > 1E-06 & num6 < 100); if (num6 >= 100) { throw new HelperException("Planet:GetTopocentricPoition ephemeris_nov did not converge in 100 iterations"); } int num7 = (int)NOVAS2.SunField(pos2_1, earthvector2, ref pos2_2); int num8 = (int)NOVAS2.Aberration(pos2_2, vel2, lighttime, ref pos2_3); NOVAS2.Precession(2451545.0, pos2_3, tdb, ref pos2_4); int num9 = (int)NOVAS2.Nutate(tdb, NutationDirection.MeanToTrue, pos2_4, ref pos2); double ra = 0; double dec = 0; int num10 = (int)NOVAS2.Vector2RADec(pos2, ref ra, ref dec); double num11 = Math.Sqrt(Math.Pow(pos2[0], 2.0) + Math.Pow(pos2[1], 2.0) + Math.Pow(pos2[2], 2.0)); RefractionOption ref_option = RefractionOption.NoRefraction; if (Refract) { bool flag = true; try { siteInfo.Temperature = site.Temperature; } catch (Exception ex) { //ProjectData.SetProjectError(ex); flag = false; //ProjectData.ClearProjectError(); } try { siteInfo.Pressure = site.Pressure; } catch (Exception ex) { //ProjectData.SetProjectError(ex); flag = false; //ProjectData.ClearProjectError(); } ref_option = !flag ? RefractionOption.StandardRefraction : RefractionOption.LocationRefraction; } double zd = 0; double az = 0; double rar = 0; double decr = 0; if (this.m_bDTValid) { NOVAS2.Equ2Hor(tjd, this.m_deltat, 0.0, 0.0, ref siteInfo, ra, dec, ref_option, ref zd, ref az, ref rar, ref decr); } else { NOVAS2.Equ2Hor(tjd, DeltatCode.DeltaTCalc(tjd), 0.0, 0.0, ref siteInfo, ra, dec, ref_option, ref zd, ref az, ref rar, ref decr); } if (ref_option != RefractionOption.NoRefraction) { NOVAS2.RADec2Vector(rar, decr, num11, ref pos2); } positionVector = new PositionVector(pos2[0], pos2[1], pos2[2], rar, decr, num11, num11 / 173.14463348, az, 90.0 - zd); } return(positionVector); }
public PositionVector GetLocalPosition(double tjd, Site site) { double[] pos2_1 = new double[4]; double[] pos2_2 = new double[4]; double[] earthvector1 = new double[4]; double[] vel1 = new double[4]; double[] earthvector2 = new double[4]; double[] numArray1 = new double[4]; double[] pos = new double[4]; double[] vel2 = new double[4]; double[] pos2_3 = new double[4]; double[] pos2_4 = new double[4]; double[] pos2_5 = new double[4]; double[] numArray2 = new double[4]; double[] peb = new double[4]; double[] veb = new double[4]; double[] pes = new double[4]; double[] ves = new double[4]; Object3 SsBody = new Object3(); OnSurface onSurface = new OnSurface(); if (!this.m_bDTValid) { this.m_deltat = DeltatCode.DeltaTCalc(tjd); } double num1 = tjd - this.m_deltat / 86400.0; SiteInfo locale = new SiteInfo(); try { locale.Latitude = site.Latitude; } catch (Exception ex) { //ProjectData.SetProjectError(ex); throw new ValueNotAvailableException("Star:GetTopocentricPosition Site.Latitude is not available"); } try { locale.Longitude = site.Longitude; } catch (Exception ex) { //ProjectData.SetProjectError(ex); throw new ValueNotAvailableException("Star:GetTopocentricPosition Site.Longitude is not available"); } try { locale.Height = site.Height; } catch (Exception ex) { //ProjectData.SetProjectError(ex); throw new ValueNotAvailableException("Star:GetTopocentricPosition Site.Height is not available"); } PositionVector positionVector; if (this.m_type == BodyType.Moon & (this.m_number == 10 | this.m_number == 11)) { onSurface.Height = site.Height; onSurface.Latitude = site.Latitude; onSurface.Longitude = site.Longitude; onSurface.Pressure = site.Pressure; onSurface.Temperature = site.Temperature; SsBody.Number = CommonCode.NumberToBody(this.m_number); SsBody.Type = ASCOM.Astrometry.ObjectType.MajorPlanetSunOrMoon; RefractionOption RefOption = RefractionOption.NoRefraction; double Ra = 0; double Dec = 0; double Dis = 0; this.Nov31.LocalPlanet(tjd, SsBody, this.m_deltat, onSurface, Accuracy.Full, ref Ra, ref Dec, ref Dis); double Zd = 0; double Az = 0; double RaR = 0; double DecR = 0; this.Nov31.Equ2Hor(num1, this.m_deltat, Accuracy.Full, 0.0, 0.0, onSurface, Ra, Dec, RefOption, ref Zd, ref Az, ref RaR, ref DecR); this.Nov31.RaDec2Vector(RaR, DecR, Dis, ref numArray2); positionVector = new PositionVector(numArray2[0], numArray2[1], numArray2[2], RaR, DecR, Dis, Dis / 173.14463348, Az, 90.0 - Zd); } else { double tdb = 0; EphemerisCode.get_earth_nov(ref this.m_earthephobj, tjd, ref tdb, ref peb, ref veb, ref pes, ref ves); double mobl = 0; double tobl = 0; double eq = 0; double dpsi = 0; double deps = 0; NOVAS2.EarthTilt(tdb, ref mobl, ref tobl, ref eq, ref dpsi, ref deps); double gst = 0; NOVAS2.SiderealTime(num1, 0.0, eq, ref gst); NOVAS2.Terra(ref locale, gst, ref pos, ref vel2); int num2 = (int)NOVAS2.Nutate(tdb, NutationDirection.TrueToMean, pos, ref pos2_3); NOVAS2.Precession(tdb, pos2_3, 2451545.0, ref pos2_1); int num3 = (int)NOVAS2.Nutate(tdb, NutationDirection.TrueToMean, vel2, ref pos2_4); NOVAS2.Precession(tdb, pos2_4, 2451545.0, ref pos2_2); int index = 0; do { earthvector1[index] = peb[index] + pos2_1[index]; vel1[index] = veb[index] + pos2_2[index]; earthvector2[index] = pes[index] + pos2_1[index]; numArray1[index] = ves[index] + pos2_2[index]; checked { ++index; } }while (index <= 2); EphemerisCode.ephemeris_nov(ref this.m_ephobj, tdb, this.m_type, this.m_number, this.m_name, Origin.Barycentric, ref pos, ref vel2); double lighttime = 0; NOVAS2.BaryToGeo(pos, earthvector1, ref pos2_3, ref lighttime); double num4 = tdb - lighttime; int num5 = 0; double tjd1; do { tjd1 = num4; EphemerisCode.ephemeris_nov(ref this.m_ephobj, tjd1, this.m_type, this.m_number, this.m_name, Origin.Barycentric, ref pos, ref vel2); NOVAS2.BaryToGeo(pos, earthvector1, ref pos2_3, ref lighttime); num4 = tdb - lighttime; checked { ++num5; } }while (Math.Abs(num4 - tjd1) > 1E-06 & num5 < 100); if (num5 >= 100) { throw new HelperException("Planet:GetLocalPoition ephemeris_nov did not converge in 100 iterations"); } int num6 = (int)NOVAS2.SunField(pos2_3, earthvector2, ref pos2_5); int num7 = (int)NOVAS2.Aberration(pos2_5, vel1, lighttime, ref numArray2); positionVector = new PositionVector(); positionVector.x = numArray2[0]; positionVector.y = numArray2[1]; positionVector.z = numArray2[2]; } return(positionVector); }