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// Copyright (C) 1999-2016
// Smithsonian Astrophysical Observatory, Cambridge, MA, USA
// For conditions of distribution and use, see copyright notice in "copyright"
#include <tk.h>
#include "circle.h"
#include "fitsimage.h"
Circle::Circle(const Circle& a) : BaseEllipse(a)
{
fill_ = a.fill_;
}
Circle::Circle(Base* p, const Vector& ctr, double r, int fill)
: BaseEllipse(p, ctr, 0)
{
numAnnuli_ = 1;
annuli_ = new Vector[1];
annuli_[0] = Vector(r,r);
fill_ = fill;
strcpy(type_, "circle");
numHandle = 4;
updateBBox();
}
Circle::Circle(Base* p, const Vector& ctr,
double r, int fill,
const char* clr, int* dsh,
int wth, const char* fnt, const char* txt,
unsigned short prop, const char* cmt,
const List<Tag>& tg, const List<CallBack>& cb)
: BaseEllipse(p, ctr, 0, clr, dsh, wth, fnt, txt, prop, cmt, tg, cb)
{
numAnnuli_ = 1;
annuli_ = new Vector[numAnnuli_];
annuli_[0] = Vector(r,r);
fill_ = fill;
strcpy(type_, "circle");
numHandle = 4;
updateBBox();
}
void Circle::edit(const Vector& v, int h)
{
Matrix mm = bckMatrix();
// calc dist between edge of circle and handle
double d = annuli_[0].length() - annuli_[0][0];
double r = (v * mm).length() - d;
annuli_[0] = Vector(r,r);
updateBBox();
doCallBack(CallBack::EDITCB);
}
void Circle::renderXCircleDraw(Drawable drawable, GC lgc,
Vector& st, Vector& size,
int a1, int aa)
{
if (fill_)
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 Circle::renderXEllipseDraw(Drawable drawable, GC lgc)
{
if (fill_)
XFillPolygon(display, drawable, lgc, xpoint_, xpointNum_, Convex, CoordModeOrigin);
else if ((properties & SOURCE) && !(properties & DASH))
XDrawLines(display, drawable, lgc, xpoint_, xpointNum_, CoordModeOrigin);
else
renderXEllipseDashDraw(drawable, lgc);
}
void Circle::renderPSDraw()
{
if (fill_)
BaseEllipse::renderPSFill();
else
BaseEllipse::renderPSDraw();
}
#ifdef MAC_OSX_TK
void Circle::renderMACOSXDraw()
{
if (fill_)
macosxFill();
else
macosxStroke();
}
#endif
#ifdef __WIN32
void Circle::renderWIN32CircleDraw(Vector& cc, double l, float a1, float a2)
{
if (fill_)
win32FillArc(cc, l, a1, a2);
else
win32DrawArc(cc, l, a1, a2);
}
void Circle::renderWIN32EllipseArcDraw(Vector& tt0, Vector& xx1,
Vector& xx2, Vector& tt1)
{
if (fill_)
win32FillCurve(tt0, xx1, xx2, tt1);
else
win32DrawCurve(tt0, xx1, xx2, tt1);
}
#endif
void Circle::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::DELETECB, analysisHistogramCB_[1],
parent->options->cmdName);
}
if (analysisHistogram_ && !which) {
deleteCallBack(CallBack::MOVECB, analysisHistogramCB_[0]);
deleteCallBack(CallBack::EDITCB, 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::DELETECB, analysisPlot3dCB_[1],
parent->options->cmdName);
}
if (analysisPlot3d_ && !which) {
deleteCallBack(CallBack::MOVECB, analysisPlot3dCB_[0]);
deleteCallBack(CallBack::EDITCB, analysisPlot3dCB_[0]);
deleteCallBack(CallBack::DELETECB, analysisPlot3dCB_[1]);
}
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::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::UPDATECB, analysisStatsCB_[0]);
deleteCallBack(CallBack::DELETECB, analysisStatsCB_[1]);
}
analysisStats_ = which;
break;
default:
// na
break;
}
}
void Circle::analysisHistogram(char* xname, char* yname, int num)
{
double* x;
double* y;
Vector ll = -annuli_[0] * Translate(center);
Vector ur = annuli_[0] * Translate(center);
BBox bb(ll,ur) ;
parent->markerAnalysisHistogram(this, &x, &y, bb, num);
analysisXYResult(xname, yname, x, y, num+1);
}
void Circle::analysisPlot3d(char* xname, char* yname,
Coord::CoordSystem sys,
Marker::AnalysisMethod method)
{
double* x;
double* y;
Vector ll = -annuli_[0] * Translate(center);
Vector ur = annuli_[0] * Translate(center);
BBox bb(ll,ur) ;
int num = parent->markerAnalysisPlot3d(this, &x, &y, bb, sys, method);
analysisXYResult(xname, yname, x, y, num);
}
void Circle::analysisStats(Coord::CoordSystem sys, Coord::SkyFrame sky)
{
ostringstream str;
Vector ll = -annuli_[0] * Translate(center);
Vector ur = annuli_[0] * Translate(center);
BBox bb(ll,ur) ;
parent->markerAnalysisStats(this, str, bb, sys, sky);
str << ends;
Tcl_AppendResult(parent->interp, str.str().c_str(), NULL);
}
// list
void Circle::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 rr = ptr->mapLenFromRef(annuli_[0][0],sys,Coord::ARCSEC);
switch (format) {
case Coord::DEGREES:
{
Vector vv = ptr->mapFromRef(center,sys,sky);
str << type_ << '('
<< setprecision(10) << vv << ','
<< setprecision(3) << fixed << rr << '"' << ')';
str.unsetf(ios_base::floatfield);
}
break;
case Coord::SEXAGESIMAL:
listRADEC(ptr,center,sys,sky,format);
str << type_ << '(' << ra << ',' << dec << ','
<< setprecision(3) << fixed << rr << '"' << ')';
str.unsetf(ios_base::floatfield);
break;
}
}
else
listNonCel(ptr, str, sys);
}
listPost(str, conj, strip);
}
void Circle::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 Circle::listNonCel(FitsImage* ptr, ostream& str, Coord::CoordSystem sys)
{
Vector vv = ptr->mapFromRef(center,sys);
double rr = ptr->mapLenFromRef(annuli_[0][0],sys);
str << type_ << '(' << setprecision(8) << vv << ',' << rr << ')';
}
void Circle::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);
XMLRowRadiusX(ptr,sys,annuli_[0]);
if (fill_)
XMLRow(XMLPARAM,fill_);
XMLRowProps(ptr,sys);
XMLRowEnd(str);
}
void Circle::listCiao(ostream& str, Coord::CoordSystem sys, int strip)
{
FitsImage* ptr = parent->findFits();
listCiaoPre(str);
switch (sys) {
case Coord::IMAGE:
case Coord::PHYSICAL:
case Coord::DETECTOR:
case Coord::AMPLIFIER:
{
Vector vv = ptr->mapFromRef(center,Coord::PHYSICAL);
double rr = ptr->mapLenFromRef(annuli_[0][0],Coord::PHYSICAL);
str << type_ << '(' << setprecision(8) << vv << ',' << rr << ')';
}
break;
default:
if (ptr->hasWCSCel(sys)) {
listRADEC(ptr,center,sys,Coord::FK5,Coord::SEXAGESIMAL);
double rr = ptr->mapLenFromRef(annuli_[0][0],sys,Coord::ARCMIN);
str << type_ << '(' << ra << ',' << dec << ','
<< setprecision(5) << fixed << rr << '\'' << ')';
str.unsetf(ios_base::floatfield);
}
}
listCiaoPost(str, strip);
}
void Circle::listSAOtng(ostream& str,
Coord::CoordSystem sys, Coord::SkyFrame sky,
Coord::SkyFormat format, int strip)
{
FitsImage* ptr = parent->findFits();
listSAOtngPre(str, strip);
switch (sys) {
case Coord::IMAGE:
case Coord::PHYSICAL:
case Coord::DETECTOR:
case Coord::AMPLIFIER:
{
Vector vv = ptr->mapFromRef(center,Coord::IMAGE);
double rr = ptr->mapLenFromRef(annuli_[0][0],Coord::IMAGE);
str << type_ << '(' << setprecision(8) << vv << ',' << rr << ')';
}
break;
default:
if (ptr->hasWCSCel(sys)) {
double rr = ptr->mapLenFromRef(annuli_[0][0],Coord::IMAGE);
switch (format) {
case Coord::DEGREES:
{
Vector vv = ptr->mapFromRef(center,sys,sky);
str << type_ << '('
<< setprecision(10) << vv << ','
<< setprecision(8) << rr << ')';
}
break;
case Coord::SEXAGESIMAL:
listRADEC(ptr,center,sys,sky,format);
str << type_ << '('
<< ra << ',' << dec << ','
<< setprecision(8) << rr << ')';
break;
}
}
}
listSAOtngPost(str,strip);
}
void Circle::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);
double rr = ptr->mapLenFromRef(annuli_[0][0],Coord::IMAGE);
coord.listProsCoordSystem(str,sys,sky);
str << "; " << type_ << ' ' << setprecision(8) << vv << ' ' << rr;
}
break;
default:
if (ptr->hasWCSCel(sys)) {
double rr = ptr->mapLenFromRef(annuli_[0][0],sys,Coord::ARCSEC);
switch (format) {
case Coord::DEGREES:
{
Vector vv = ptr->mapFromRef(center,sys,sky);
coord.listProsCoordSystem(str,sys,sky);
str << "; " << type_ << ' '
<< setprecision(10) << setunit('d') << vv << ' '
<< setprecision(3) << fixed << rr << '"';
str.unsetf(ios_base::floatfield);
}
break;
case Coord::SEXAGESIMAL:
listRADECPros(ptr,center,sys,sky,format);
coord.listProsCoordSystem(str,sys,sky);
str << "; " << type_ << ' '
<< ra << ' ' << dec << ' '
<< setprecision(3) << fixed << rr << '"';
str.unsetf(ios_base::floatfield);
break;
}
}
}
listProsPost(str, strip);
}
void Circle::listSAOimage(ostream& str, int strip)
{
FitsImage* ptr = parent->findFits();
listSAOimagePre(str);
Vector vv = ptr->mapFromRef(center,Coord::IMAGE);
str << type_ << '(' << setprecision(8) << vv << ',' << annuli_[0][0] << ')';
listSAOimagePost(str, strip);
}
// special composite funtionallity
void Circle::setComposite(const Matrix& mx, double aa)
{
center *= mx;
updateBBox();
}
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