Exemplo n.º 1
0
        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);
        }
Exemplo n.º 2
0
        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));
        }
Exemplo n.º 3
0
        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);
        }
Exemplo n.º 4
0
 public short GetEarth(double tjd, ref BodyDescription earth, ref double tdb, ref double[] bary_earthp, ref double[] bary_earthv, ref double[] helio_earthp, ref double[] helio_earthv)
 {
     return(NOVAS2.GetEarth(tjd, ref earth, ref tdb, ref bary_earthp, ref bary_earthv, ref helio_earthp, ref helio_earthv));
 }