// Copyright (C) 1999-2016 // Smithsonian Astrophysical Observatory, Cambridge, MA, USA // For conditions of distribution and use, see copyright notice in "copyright" #include #include "ellipseannulus.h" #include "fitsimage.h" EllipseAnnulus::EllipseAnnulus(Base* p, const Vector& ctr, const Vector& r, double ang, const char* clr, int* dsh, int wth, const char* fnt, const char* txt, unsigned short prop, const char* cmt, const List& tg, const List& cb) : BaseEllipse(p, ctr, ang, clr, dsh, wth, fnt, txt, prop, cmt, tg, cb) { numAnnuli_ = 1; annuli_ = new Vector[1]; annuli_[0] = r; strcpy(type_,"ellipseannulus"); numHandle = 4; updateBBox(); } EllipseAnnulus::EllipseAnnulus(Base* p, const Vector& ctr, const Vector& inner,const Vector& outer,int num, double ang) : BaseEllipse(p, ctr, ang) { numAnnuli_ = num+1; annuli_ = new Vector[numAnnuli_]; for (int i=0; i& tg, const List& cb) : BaseEllipse(p, ctr, ang, clr, dsh, wth, fnt, txt, prop, cmt, tg, cb) { numAnnuli_ = num+1; annuli_ = new Vector[numAnnuli_]; for (int i=0; i& tg, const List& cb) : BaseEllipse(p, ctr, ang, clr, dsh, wth, fnt, txt, prop, cmt, tg, cb) { numAnnuli_ = an; annuli_ = new Vector[numAnnuli_]; for (int i=0; ioptions->cmdName); addCallBack(CallBack::EDITCB, analysisRadialCB_[0], parent->options->cmdName); addCallBack(CallBack::EDITENDCB, analysisRadialCB_[0], parent->options->cmdName); addCallBack(CallBack::ROTATECB, analysisRadialCB_[0], parent->options->cmdName); addCallBack(CallBack::UPDATECB, analysisRadialCB_[0], parent->options->cmdName); addCallBack(CallBack::DELETECB, analysisRadialCB_[1], parent->options->cmdName); } if (analysisRadial_ && !which) { deleteCallBack(CallBack::MOVECB, analysisRadialCB_[0]); deleteCallBack(CallBack::EDITCB, analysisRadialCB_[0]); deleteCallBack(CallBack::EDITENDCB, analysisRadialCB_[0]); deleteCallBack(CallBack::ROTATECB, analysisRadialCB_[0]); deleteCallBack(CallBack::UPDATECB, analysisRadialCB_[0]); deleteCallBack(CallBack::DELETECB, analysisRadialCB_[1]); } analysisRadial_ = which; break; case STATS: if (!analysisStats_ && which) { addCallBack(CallBack::MOVECB, analysisStatsCB_[0], parent->options->cmdName); addCallBack(CallBack::EDITCB, analysisStatsCB_[0], parent->options->cmdName); addCallBack(CallBack::EDITENDCB, analysisStatsCB_[0], parent->options->cmdName); addCallBack(CallBack::ROTATECB, analysisStatsCB_[0], parent->options->cmdName); addCallBack(CallBack::UPDATECB, analysisStatsCB_[0], parent->options->cmdName); addCallBack(CallBack::DELETECB, analysisStatsCB_[1], parent->options->cmdName); } if (analysisStats_ && !which) { deleteCallBack(CallBack::MOVECB, analysisStatsCB_[0]); deleteCallBack(CallBack::EDITCB, analysisStatsCB_[0]); deleteCallBack(CallBack::EDITENDCB, analysisStatsCB_[0]); deleteCallBack(CallBack::ROTATECB, analysisStatsCB_[0]); deleteCallBack(CallBack::UPDATECB, analysisStatsCB_[0]); deleteCallBack(CallBack::DELETECB, analysisStatsCB_[1]); } analysisStats_ = which; break; default: // na break; } } void EllipseAnnulus::analysisRadial(char* xname, char* yname, char* ename, Coord::CoordSystem sys) { double* xx; double* yy; double* ee; BBox* bb = new BBox[numAnnuli_]; Matrix mm = Rotate(angle) * Translate(center); for (int ii=0; iimarkerAnalysisRadial(this, &xx, &yy, &ee, numAnnuli_-1, annuli_, bb, sys); analysisXYEResult(xname, yname, ename, xx, yy, ee, num); } void EllipseAnnulus::analysisStats(Coord::CoordSystem sys, Coord::SkyFrame sky) { ostringstream str; BBox* bb = new BBox[numAnnuli_]; Matrix mm = Rotate(angle) * Translate(center); for (int ii=0; iimarkerAnalysisStats(this, str, numAnnuli_-1, bb, sys, sky); str << ends; Tcl_AppendResult(parent->interp, str.str().c_str(), NULL); } // list void EllipseAnnulus::list(ostream& str, Coord::CoordSystem sys, Coord::SkyFrame sky, Coord::SkyFormat format, int conj, int strip) { FitsImage* ptr = parent->findFits(sys,center); listPre(str, sys, sky, ptr, strip, 0); switch (sys) { case Coord::IMAGE: case Coord::PHYSICAL: case Coord::DETECTOR: case Coord::AMPLIFIER: listNonCel(ptr, str, sys); break; default: if (ptr->hasWCSCel(sys)) { double aa = parent->mapAngleFromRef(angle,sys,sky); switch (format) { case Coord::DEGREES: { Vector vv = ptr->mapFromRef(center,sys,sky); str << "ellipse(" << setprecision(8) << vv << setprecision(3) << fixed; for (int ii=0; iimapLenFromRef(annuli_[ii],sys,Coord::ARCSEC); str << ',' << setunit('"') << rr; } str.unsetf(ios_base::floatfield); str << setprecision(8) << ',' << radToDeg(aa) << ')'; } break; case Coord::SEXAGESIMAL: listRADEC(ptr,center,sys,sky,format); str << "ellipse(" << ra << ',' << dec << setprecision(3) << fixed; for (int ii=0; iimapLenFromRef(annuli_[ii],sys,Coord::ARCSEC); str << ',' << setunit('"') << rr; } str.unsetf(ios_base::floatfield); str << setprecision(8) << ',' << radToDeg(aa) << ')'; break; } } else listNonCel(ptr, str, sys); } listPost(str, conj, strip); } void EllipseAnnulus::listNonCel(FitsImage* ptr, ostream& str, Coord::CoordSystem sys) { Vector vv = ptr->mapFromRef(center,sys); double aa = parent->mapAngleFromRef(angle,sys); str << "ellipse(" << setprecision(8) << vv; for (int ii=0; iimapLenFromRef(annuli_[ii],sys); str << ',' << rr; } str << ',' << radToDeg(aa) << ')'; } void EllipseAnnulus::listXML(ostream& str, Coord::CoordSystem sys, Coord::SkyFrame sky, Coord::SkyFormat format) { FitsImage* ptr = parent->findFits(sys,center); XMLRowInit(); XMLRow(XMLSHAPE,type_); XMLRowCenter(ptr,sys,sky,format); XMLRowRadius(ptr,sys,annuli_,numAnnuli_); XMLRowAng(sys,sky); XMLRowProps(ptr,sys); XMLRowEnd(str); } void EllipseAnnulus::listPros(ostream& str, Coord::CoordSystem sys, Coord::SkyFrame sky, Coord::SkyFormat format, int strip) { FitsImage* ptr = parent->findFits(); switch (sys) { case Coord::IMAGE: case Coord::DETECTOR: case Coord::AMPLIFIER: sys = Coord::IMAGE; case Coord::PHYSICAL: { Vector vv = ptr->mapFromRef(center,sys); for (int ii=0; iimapLenFromRef(annuli_[ii],Coord::IMAGE); str << "ellipse " << setprecision(8) << vv << ' ' << rr << ' ' << radToDeg(angle); if (ii!=0) { Vector r1 = ptr->mapLenFromRef(annuli_[ii-1],Coord::IMAGE); str << " & !ellipse " << setprecision(8) << vv << ' ' << r1 << ' ' << radToDeg(angle); } listProsPost(str, strip); } } break; default: if (ptr->hasWCSCel(sys)) { switch (format) { case Coord::DEGREES: { Vector vv = ptr->mapFromRef(center,sys,sky); for (int ii=0; iimapLenFromRef(annuli_[ii],sys,Coord::ARCSEC); str << "ellipse " << setprecision(10) << setunit('d') << vv << ' ' << setprecision(3) << setunit('"') << fixed << rr << ' '; str.unsetf(ios_base::floatfield); str << setprecision(8) << radToDeg(angle); if (ii!=0) { Vector r1 = ptr->mapLenFromRef(annuli_[ii-1],sys,Coord::ARCSEC); str << " & !ellipse " << setprecision(8) << setunit('d') << vv << ' ' << setprecision(3) << setunit('"') << fixed << r1 << ' '; str.unsetf(ios_base::floatfield); str << setprecision(8) << radToDeg(angle); } listProsPost(str, strip); } } break; case Coord::SEXAGESIMAL: listRADECPros(ptr,center,sys,sky,format); for (int ii=0; iimapLenFromRef(annuli_[ii],sys,Coord::ARCSEC); str << "ellipse " << ra << ' ' << dec << ' ' << setprecision(3) << setunit('"') << fixed << rr << ' '; str.unsetf(ios_base::floatfield); str << setprecision(8) << radToDeg(angle); if (ii!=0) { Vector r1 = ptr->mapLenFromRef(annuli_[ii-1],sys,Coord::ARCSEC); str << " & !ellipse " << ra << ' ' << dec << ' ' << setprecision(3) << setunit('"') << fixed << r1 << ' '; str.unsetf(ios_base::floatfield); str << setprecision(8) << radToDeg(angle); } listProsPost(str, strip); } break; } } } } void EllipseAnnulus::listSAOimage(ostream& str, int strip) { FitsImage* ptr = parent->findFits(); listSAOimagePre(str); for (int ii=0; iimapFromRef(center,Coord::IMAGE); str << "ellipse(" << setprecision(8) << vv << ',' << annuli_[ii] << ',' << radToDeg(angle) << ')'; if (ii!=0) str << " & !ellipse(" << setprecision(8) << vv << ',' << annuli_[ii-1] << ',' << radToDeg(angle) << ')'; listSAOimagePost(str, strip); } }