#include "SlaStars.h" #include "slalib.h" ClassImp(SlaStars); SlaStars::SlaStars(MObservatory::LocationName_t key) : Slalib(key) { } SlaStars::~SlaStars() { } void SlaStars::Set(const AltAz &altaz) { fAltAz = altaz * kDeg2Rad; fRaDec = CalcRaDec(fAltAz); } void SlaStars::Set(const ZdAz &zdaz) { fAltAz = AltAz(kPiDiv2-zdaz.Zd(), zdaz.Az()) * kDeg2Rad; fRaDec = CalcRaDec(fAltAz); } void SlaStars::Set(const RaDec &radec) { fRaDec = radec * kDeg2Rad; fAltAz = CalcAltAz(fRaDec); } void SlaStars::SetMjd(double mjd) { Slalib::SetMjd(mjd); // // ----- calculate star independent parameters ---------- // // prepare calculation: Mean Place to geocentric apperent slaMappa(2000.0, mjd, fAmprms); // Epoche, TDB // prepare: Apperent to observed place slaAoppa(mjd, 0, // mjd, Delta UT=UT1-UTC // GetElong(), GetPhi(), 148, // göttingen long, lat, height GetElong(), GetPhi(), GetHeight(), // göttingen long, lat, height 0, 0, // polar motion x, y-coordinate (radians) // 273.155, 1013.25, 0.5, // temp, pressure, humidity 273.155+20, 1013.25, 0.5, // temp, pressure, humidity // 0.2, 0.0065, // wavelength, tropo lapse rate 0.55, 0.0065, // wavelength, tropo lapse rate fAoprms); } RaDec SlaStars::CalcRaDec(const AltAz &altaz) const { return CalcRaDec(ZdAz(kPiDiv2-altaz.Alt(), altaz.Az())); } RaDec SlaStars::CalcRaDec(const ZdAz &zdaz) const { // // -- observed to apparent -- // Workaraound for slalib: discard const // double r=0, d=0; slaOapqk((char*)"A", zdaz.Az(), zdaz.Zd(), (double*)fAoprms, &r, &d); // // -- apparent to mean -- // Workaraound for slalib: discard const // double ra, dec; slaAmpqk(r, d, (double*)fAmprms, &ra, &dec); return RaDec(ra, dec); } RaDec SlaStars::CalcRaDecFast(const AltAz &altaz) const { // // This function does a coordinate system transformation only. // This is very fast compared to a correct tranformation with all // effects, but much less accurate. // // It transforms Altitude/Azimuth [rad] into // Right Ascension/Declination [rad] // double ha, dec; slaDh2e(altaz.Az(), altaz.Alt(), GetPhi(), &ha, &dec); return RaDec(GetAlpha()-ha, dec); } RaDec SlaStars::CalcRaDecFast(const ZdAz &zdaz) const { // // This function does a coordinate system transformation only. // This is very fast compared to a correct tranformation with all // effects, but much less accurate. // // It transforms Zenith Distance/Azimuth [rad] into // Right Ascension/Declination [rad] // return CalcRaDecFast(AltAz(kPiDiv2-zdaz.Zd(), zdaz.Az())); } ZdAz SlaStars::CalcZdAzFast(const RaDec &radec) const { // // This function does a coordinate system transformation only. // This is very fast compared to a correct tranformation with all // effects, but much less accurate. // // It transforms Right Ascension/Declination [rad] into // zenith Distance/Azimuth [rad] // AltAz altaz = CalcAltAzFast(radec); return ZdAz(kPiDiv2-altaz.Alt(), altaz.Az()); } AltAz SlaStars::CalcAltAzFast(const RaDec &radec) const { // // This function does a coordinate system transformation only. // This is very fast compared to a correct tranformation with all // effects, but much less accurate. // // It transforms Right Ascension/Declination [rad] into // Altitude/Azimuth [rad] // double az, el; slaDe2h(GetAlpha()-radec.Ra(), radec.Dec(), GetPhi(), &az, &el); return AltAz(el, az); } ZdAz SlaStars::CalcZdAz(const RaDec &radec) const { // // ---- Mean to apparent ---- // double r=0, d=0; slaMapqkz(radec.Ra(), radec.Dec(), (double*)fAmprms, &r, &d); // // Doesn't work - don't know why // // slaMapqk (radec.Ra(), radec.Dec(), rdpm.Ra(), rdpm.Dec(), // 0, 0, (double*)fAmprms, &r, &d); // // // -- apparent to observed -- // double r1=0; // ra double d1=0; // dec double h0=0; // ha double zd; double az; slaAopqk (r, d, (double*)fAoprms, &az, // observed azimuth (radians: N=0,E=90) &zd, // observed zenith distance (radians) [-pi/2, pi/2] &h0, // observed hour angle (radians) &d1, // observed declination (radians) &r1); // observed right ascension (radians) return ZdAz(zd, az); } AltAz SlaStars::CalcAltAz(const RaDec &radec) const { ZdAz zdaz = CalcZdAz(radec); return AltAz(kPiDiv2-zdaz.Zd(), zdaz.Az()); } ZdAz SlaStars::GetApproxVel(const RaDec &radec) const // [rad/rad] { double az, vaz, aaz; double el, vel, ael; double pa, vpa, apa; slaAltaz(GetAlpha()-radec.Ra(), radec.Dec(), GetPhi(), &az, &vaz, &aaz, &el, &vel, &ael, &pa, &vpa, &apa); return ZdAz(-vel, vaz); }