// Copyright (C) 1999-2018 // Smithsonian Astrophysical Observatory, Cambridge, MA, USA // For conditions of distribution and use, see copyright notice in "copyright" #include #include "ellipse.h" #include "fitsimage.h" Ellipse::Ellipse(const Ellipse& a) : BaseEllipse(a) { fill_ = a.fill_; } Ellipse::Ellipse(Base* p, const Vector& ctr, const Vector& r, double ang, int fill) : BaseEllipse(p, ctr, ang) { numAnnuli_ = 1; annuli_ = new Vector[1]; annuli_[0] = r; fill_ = fill; strcpy(type_,"ellipse"); numHandle = 4; updateBBox(); } Ellipse::Ellipse(Base* p, const Vector& ctr, const Vector& r, double ang, int fill, 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; fill_ = fill; strcpy(type_,"ellipse"); numHandle = 4; updateBBox(); } void Ellipse::renderXArcDraw(Drawable drawable, GC lgc, Vector& st, Vector& size, int a1, int aa, RenderMode mode) { if (fill_ && mode == SRC) XFillArc(display, drawable, lgc, st[0], st[1], size[0], size[1], a1, aa); else XDrawArc(display, drawable, lgc, st[0], st[1], size[0], size[1], a1, aa); } void Ellipse::renderXBezierDraw(Drawable drawable, GC lgc, RenderMode mode) { if (fill_ && mode == SRC) XFillPolygon(display, drawable, lgc, xpoint_, xpointNum_, Convex, CoordModeOrigin); else if ((properties & SOURCE) && !(properties & DASH)) XDrawLines(display, drawable, lgc, xpoint_, xpointNum_, CoordModeOrigin); else renderXBezierDashDraw(drawable, lgc); } void Ellipse::renderPSDraw() { if (fill_) BaseEllipse::renderPSFill(); else BaseEllipse::renderPSDraw(); } #ifdef MAC_OSX_TK void Ellipse::renderMACOSXDraw() { if (fill_) macosxFill(); else macosxStroke(); } #endif #ifdef __WIN32 void Ellipse::renderWIN32Draw() { if (fill_) win32Fill(); else win32Stroke(); } #endif void Ellipse::edit(const Vector& v, int h) { Matrix mm = bckMatrix(); annuli_[0] = (v * mm).abs(); updateBBox(); doCallBack(CallBack::EDITCB); } void Ellipse::analysis(AnalysisTask mm, int which) { switch (mm) { case HISTOGRAM: if (!analysisHistogram_ && which) { addCallBack(CallBack::MOVECB, analysisHistogramCB_[0], parent->options->cmdName); addCallBack(CallBack::EDITCB, analysisHistogramCB_[0], parent->options->cmdName); addCallBack(CallBack::ROTATECB, analysisHistogramCB_[0], parent->options->cmdName); addCallBack(CallBack::DELETECB, analysisHistogramCB_[1], parent->options->cmdName); } if (analysisHistogram_ && !which) { deleteCallBack(CallBack::MOVECB, analysisHistogramCB_[0]); deleteCallBack(CallBack::EDITCB, analysisHistogramCB_[0]); deleteCallBack(CallBack::ROTATECB, analysisHistogramCB_[0]); deleteCallBack(CallBack::DELETECB, analysisHistogramCB_[1]); } analysisHistogram_ = which; break; case PLOT3D: if (!analysisPlot3d_ && which) { addCallBack(CallBack::MOVECB, analysisPlot3dCB_[0], parent->options->cmdName); addCallBack(CallBack::EDITCB, analysisPlot3dCB_[0], parent->options->cmdName); addCallBack(CallBack::ROTATECB, analysisPlot3dCB_[0], parent->options->cmdName); addCallBack(CallBack::DELETECB, analysisPlot3dCB_[1], parent->options->cmdName); addCallBack(CallBack::UPDATE3DCB, analysisPlot3dCB_[2], parent->options->cmdName); } if (analysisPlot3d_ && !which) { deleteCallBack(CallBack::MOVECB, analysisPlot3dCB_[0]); deleteCallBack(CallBack::EDITCB, analysisPlot3dCB_[0]); deleteCallBack(CallBack::ROTATECB, analysisPlot3dCB_[0]); deleteCallBack(CallBack::DELETECB, analysisPlot3dCB_[1]); deleteCallBack(CallBack::UPDATE3DCB, analysisPlot3dCB_[2]); } analysisPlot3d_ = 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::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::ROTATECB, analysisStatsCB_[0]); deleteCallBack(CallBack::UPDATECB, analysisStatsCB_[0]); deleteCallBack(CallBack::DELETECB, analysisStatsCB_[1]); } analysisStats_ = which; break; default: // na break; } } void Ellipse::analysisHistogram(char* xname, char* yname, int num) { double* x; double* y; Matrix mm = Rotate(angle) * Translate(center); Vector vv = annuli_[0]; BBox bb(-vv * mm); bb.bound( vv * mm); bb.bound(Vector( vv[0],-vv[1]) * mm); bb.bound(Vector(-vv[0], vv[1]) * mm); parent->markerAnalysisHistogram(this, &x, &y, bb, num); analysisXYResult(xname, yname, x, y, num+1); } void Ellipse::analysisPlot3d(char* xname, char* yname, Coord::CoordSystem sys, Coord::SkyFrame sky, Marker::AnalysisMethod method) { double* x; double* y; Matrix mm = Rotate(angle) * Translate(center); Vector vv = annuli_[0]; BBox bb(-vv * mm); bb.bound( vv * mm); bb.bound(Vector( vv[0],-vv[1]) * mm); bb.bound(Vector(-vv[0], vv[1]) * mm); int num = parent->markerAnalysisPlot3d(this, &x, &y, bb, sys, sky, method); analysisXYResult(xname, yname, x, y, num); } void Ellipse::analysisStats(Coord::CoordSystem sys, Coord::SkyFrame sky) { ostringstream str; Matrix mm = Rotate(angle) * Translate(center); Vector vv = annuli_[0]; BBox bb(-vv * mm); bb.bound( vv * mm); bb.bound(Vector( vv[0],-vv[1]) * mm); bb.bound(Vector(-vv[0], vv[1]) * mm); parent->markerAnalysisStats(this, str, bb, sys, sky); str << ends; Tcl_AppendResult(parent->interp, str.str().c_str(), NULL); } // list void Ellipse::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); str << type_ << '('; ptr->listFromRef(str,center,sys,sky,format); str << ','; if (ptr->hasWCSCel(sys)) str << setunit('"'); ptr->listLenFromRef(str,annuli_[0],sys,Coord::ARCSEC); str << ','; parent->listAngleFromRef(str,angle,sys,sky); str << ')'; listPost(str, conj, strip); } void Ellipse::listPost(ostream& str, int conj, int strip) { // no props for semicolons if (!strip) { if (conj) str << " ||"; if (fill_) str << " # fill=" << fill_; listProperties(str, !fill_); } else { if (conj) str << "||"; else str << ';'; } } void Ellipse::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_[0]); XMLRowAng(sys,sky); if (fill_) XMLRow(XMLPARAM,fill_); XMLRowProps(ptr,sys); XMLRowEnd(str); } void Ellipse::listCiao(ostream& str, Coord::CoordSystem sys, int strip) { FitsImage* ptr = parent->findFits(); listCiaoPre(str); str << type_ << '('; switch (sys) { case Coord::IMAGE: case Coord::PHYSICAL: case Coord::DETECTOR: case Coord::AMPLIFIER: ptr->listFromRef(str,center,Coord::PHYSICAL); str << ','; ptr->listLenFromRef(str,annuli_[0],Coord::PHYSICAL); str << ','; parent->listAngleFromRef(str,angle,Coord::PHYSICAL); break; default: ptr->listFromRef(str,center,sys,Coord::FK5,Coord::SEXAGESIMAL); str << ','; if (ptr->hasWCSCel(sys)) str << setunit('\''); ptr->listLenFromRef(str,annuli_[0],sys,Coord::ARCMIN); str << ','; parent->listAngleFromRef(str,angle,Coord::PHYSICAL); break; } str << ')'; listCiaoPost(str, strip); } void Ellipse::listPros(ostream& str, Coord::CoordSystem sys, Coord::SkyFrame sky, Coord::SkyFormat format, int strip) { FitsImage* ptr = parent->findFits(); coord.listProsCoordSystem(str,sys,sky); str << "; " << type_ << ' '; switch (sys) { case Coord::IMAGE: case Coord::DETECTOR: case Coord::AMPLIFIER: sys = Coord::IMAGE; case Coord::PHYSICAL: ptr->listFromRef(str,center,sys); str << ' '; ptr->listLenFromRef(str,annuli_[0],Coord::IMAGE); str << ' '; parent->listAngleFromRef(str,angle,Coord::IMAGE); break; default: if (format == Coord::DEGREES) str << setunit('d'); ptr->listFromRef(str,center,sys,sky,format); str << ' '; str << setunit('"'); ptr->listLenFromRef(str,annuli_[0],sys,Coord::ARCSEC); str << ' '; parent->listAngleFromRef(str,angle,Coord::IMAGE); } listProsPost(str, strip); } void Ellipse::listSAOtng(ostream& str, Coord::CoordSystem sys, Coord::SkyFrame sky, Coord::SkyFormat format, int strip) { FitsImage* ptr = parent->findFits(); listSAOtngPre(str, strip); str << type_ << '('; switch (sys) { case Coord::IMAGE: case Coord::PHYSICAL: case Coord::DETECTOR: case Coord::AMPLIFIER: ptr->listFromRef(str,center,Coord::IMAGE); str << ','; ptr->listLenFromRef(str,annuli_[0],Coord::IMAGE); str << ','; parent->listAngleFromRef(str,angle,Coord::IMAGE); break; default: ptr->listFromRef(str,center,sys,sky,format); str << ','; ptr->listLenFromRef(str,annuli_[0],Coord::IMAGE); str << ','; parent->listAngleFromRef(str,angle,Coord::IMAGE); } str << ')'; listSAOtngPost(str, strip); } void Ellipse::listSAOimage(ostream& str, int strip) { FitsImage* ptr = parent->findFits(); listSAOimagePre(str); str << type_ << '('; ptr->listFromRef(str,center,Coord::IMAGE); str << ','; ptr->listLenFromRef(str,annuli_[0],Coord::IMAGE); str << ','; parent->listAngleFromRef(str,angle,Coord::IMAGE); str << ')'; listSAOimagePost(str, strip); }