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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 "basebox.h"
#include "fitsimage.h"
BaseBox::BaseBox(Base* p, const Vector& ctr, double ang)
: BaseMarker(p, ctr, ang)
{
numPoints_ = 5;
vertices_ = NULL;
}
BaseBox::BaseBox(Base* p, const Vector& ctr,
double ang,
const char* clr, int* dsh,
int w, const char* f,
const char* t, unsigned short prop, const char* c,
const List<Tag>& tag, const List<CallBack>& cb)
: BaseMarker(p, ctr, ang, clr, dsh, w, f, t, prop, c, tag, cb)
{
numPoints_ = 5;
vertices_ = NULL;
}
BaseBox::BaseBox(const BaseBox& a) : BaseMarker(a)
{
numPoints_ = a.numPoints_;
vertices_ = NULL;
}
BaseBox::~BaseBox()
{
deleteVertices();
}
void BaseBox::renderX(Drawable drawable, Coord::InternalSystem sys,
RenderMode mode)
{
GC lgc = renderXGC(mode);
newVertices();
for (int ii=0; ii<numAnnuli_; ii++) {
XPoint* pp = new XPoint[numPoints_];
for (int jj=0; jj<numPoints_; jj++) {
Vector v = parent->mapFromRef(vertices_[ii][jj],sys);
pp[jj].x = (short)v[0];
pp[jj].y = (short)v[1];
}
renderXDraw(drawable, lgc, pp);
delete [] pp;
}
deleteVertices();
}
void BaseBox::renderXDraw(Drawable drawable, GC lgc, XPoint* pp)
{
XDrawLines(display, drawable, lgc, pp, numPoints_, CoordModeOrigin);
}
void BaseBox::renderPS(int mode)
{
renderPSGC(mode);
newVertices();
for (int ii=0; ii<numAnnuli_; ii++)
renderPSDraw(ii);
deleteVertices();
}
void BaseBox::renderPSDraw(int ii)
{
ostringstream str;
for (int jj=0; jj<numPoints_; jj++) {
Vector v = parent->mapFromRef(vertices_[ii][jj],Coord::CANVAS);
if (jj==0)
str << "newpath "
<< v.TkCanvasPs(parent->canvas) << " moveto" << endl;
else
str << v.TkCanvasPs(parent->canvas) << " lineto" << endl;
}
str << "stroke" << endl << ends;
Tcl_AppendResult(parent->interp, str.str().c_str(), NULL);
}
#ifdef MAC_OSX_TK
void BaseBox::renderMACOSX()
{
renderMACOSXGC();
newVertices();
for (int ii=0; ii<numAnnuli_; ii++) {
Vector* vv = new Vector[numPoints_];
for (int jj=0; jj<numPoints_; jj++)
vv[jj] = parent->mapFromRef(vertices_[ii][jj],Coord::CANVAS);
macosxDrawLines(vv, numPoints_);
delete [] vv;
}
deleteVertices();
}
#endif
#ifdef __WIN32
void BaseBox::renderWIN32()
{
renderWIN32GC();
newVertices();
for (int ii=0; ii<numAnnuli_; ii++) {
Vector* vv = new Vector[numPoints_];
for (int jj=0; jj<numPoints_; jj++)
vv[jj] = parent->mapFromRef(vertices_[ii][jj],Coord::CANVAS);
win32DrawLines(vv, numPoints_);
delete [] vv;
}
deleteVertices();
}
#endif
// Support
void BaseBox::updateHandles()
{
// handles are in canvas coords
// we can't garantee that the radii have been sorted yet
// also, annuli[i] could be negative
if (handle)
delete [] handle;
handle = new Vector[numHandle];
Vector max;
for(int ii=0; ii<numAnnuli_; ii++) {
Vector aa = annuli_[ii].abs();
if (max[0]<aa[0])
max = aa;
}
Vector& s = max;
handle[0] = fwdMap(Vector(-s[0],-s[1])/2,Coord::CANVAS);
handle[1] = fwdMap(Vector( s[0],-s[1])/2,Coord::CANVAS);
handle[2] = fwdMap(Vector( s[0], s[1])/2,Coord::CANVAS);
handle[3] = fwdMap(Vector(-s[0], s[1])/2,Coord::CANVAS);
// annuli
if (numAnnuli_>1)
for (int ii=0; ii<numAnnuli_; ii++)
handle[ii+4] = fwdMap(Vector((annuli_[ii][0])/2.,0),Coord::CANVAS);
}
int BaseBox::isInRef(const Vector& vv, int nn)
{
// during resize, annuli_ can be negative
Vector ss = annuli_[nn].abs();
// zero radius
if (!ss[0] || !ss[1])
return 0;
Vector pp = (Vector&)vv;
if (pp[0]<-ss[0]/2 || pp[0]>=ss[0]/2 || pp[1]<=-ss[1]/2 || pp[1]>ss[1]/2)
return 0;
else
return 1;
}
Vector BaseBox::intersect(Vector rr, double aa)
{
// special cases
if (!rr[0] || !rr[1])
return Vector();
double ang = zeroTWOPI(aa);
double phi = rr.angle();
if (ang >= 0 && ang < phi)
return Vector(rr[0],-rr[0]*tan(ang));
else if (ang >= phi && ang < M_PI-phi)
return Vector(rr[1]/tan(ang),-rr[1]);
else if (ang >= M_PI-phi && ang < M_PI+phi)
return Vector(-rr[0],rr[0]*tan(ang));
else if (ang >= M_PI+phi && ang < M_TWOPI-phi)
return Vector(-rr[1]/tan(ang),rr[1]);
else
return Vector(rr[0],-rr[0]*tan(ang));
}
void BaseBox::newVertices()
{
if (vertices_)
deleteVertices();
if (teq(startAng_,stopAng_-M_TWOPI,FLT_EPSILON))
newVerticesA();
else
newVerticesB();
}
void BaseBox::newVerticesA()
{
Matrix mm = fwdMatrix();
numPoints_ = 5;
vertices_ = new Vector*[numAnnuli_+1];
for (int i=0; i<numAnnuli_; i++)
vertices_[i]= new Vector[numPoints_];
vertices_[numAnnuli_] = new Vector[2];
for (int i=0; i<numAnnuli_; i++) {
vertices_[i][0] = Vector(-annuli_[i][0]/2.,-annuli_[i][1]/2.) * mm;
vertices_[i][1] = Vector( annuli_[i][0]/2.,-annuli_[i][1]/2.) * mm;
vertices_[i][2] = Vector( annuli_[i][0]/2., annuli_[i][1]/2.) * mm;
vertices_[i][3] = Vector(-annuli_[i][0]/2., annuli_[i][1]/2.) * mm;
vertices_[i][4] = Vector(-annuli_[i][0]/2.,-annuli_[i][1]/2.) * mm;
}
vertices_[numAnnuli_][0] = vertices_[numAnnuli_-1][0];
vertices_[numAnnuli_][1] = vertices_[numAnnuli_-1][2];
}
void BaseBox::newVerticesB()
{
numPoints_ = 0; // we will increment later
vertices_ = new Vector*[numAnnuli_+1];
for (int ii=0; ii<numAnnuli_; ii++)
vertices_[ii]= new Vector[7];
vertices_[numAnnuli_] = new Vector[2];
double a1 = zeroTWOPI(startAng_);
double a2 = zeroTWOPI(stopAng_);
if (a2 <= a1)
a2 += M_TWOPI;
int cnt = 0;
for (int ii=0; ii<numAnnuli_; ii++) {
Vector rr = (annuli_[ii]).abs();
if (rr[0] && rr[1]) {
double phi = rr.angle();
int s1 =0;
int s2 =0;
cnt = 0;
vertBTest(&s1, &s2, a1, a2, 0, phi, ii, &cnt);
vertBTest(&s1, &s2, a1, a2, phi, M_PI-phi, ii, &cnt);
vertBTest(&s1, &s2, a1, a2, M_PI-phi, M_PI+phi, ii, &cnt);
vertBTest(&s1, &s2, a1, a2, M_PI+phi, M_TWOPI-phi, ii, &cnt);
vertBTest(&s1, &s2, a1, a2, M_TWOPI-phi,M_TWOPI , ii, &cnt);
vertBTest(&s1, &s2, a1, a2, M_TWOPI,M_TWOPI+phi , ii, &cnt);
vertBTest(&s1, &s2, a1, a2, M_TWOPI+phi,M_THREEPI-phi , ii, &cnt);
vertBTest(&s1, &s2, a1, a2, M_THREEPI-phi,M_THREEPI+phi , ii, &cnt);
vertBTest(&s1, &s2, a1, a2, M_THREEPI+phi,M_FOURPI-phi , ii, &cnt);
vertBTest(&s1, &s2, a1, a2, M_FOURPI-phi,M_FOURPI, ii, &cnt);
}
}
// final number of segments
numPoints_ = ++cnt;
// include/exclude
Matrix mm = fwdMatrix();
vertices_[numAnnuli_][0] =
Vector(-annuli_[numAnnuli_-1][0]/2.,-annuli_[numAnnuli_-1][1]/2.) * mm;
vertices_[numAnnuli_][1] =
Vector( annuli_[numAnnuli_-1][0]/2., annuli_[numAnnuli_-1][1]/2.) * mm;
}
void BaseBox::vertBTest(int* s1, int* s2, double a1, double a2,
double b1, double b2, int ii, int* cnt)
{
if ((!(*s1)) && (a1>=b1) && (a1<b2))
*s1 =1;
if ((!(*s2)) && (a2>b1) && (a2<=b2))
*s2 =1;
if (((*s1) && (!(*s2))) || ((*s1) && (*s2)))
vertBPrep(a1,a2,b1,b2,ii,cnt);
if (*s1&&*s2)
*s1=*s2=0;
}
void BaseBox::vertBPrep(double a1, double a2, double ll, double ul,
int ii, int* cnt)
{
if (!(a1 >= ll) && (a1 <= ul))
a1 = ll;
if (!(a2 >= ll) && (a2 <= ul))
a2 = ul;
if (a1 > a2) {
vertBSeg(ll,a2,ii,cnt);
vertBSeg(a1,ul,ii,cnt);
}
else
vertBSeg(a1,a2,ii,cnt);
}
void BaseBox::vertBSeg(double ang1, double ang2, int ii, int* cnt)
{
Vector rr = (annuli_[ii]/2).abs();
Matrix mm = fwdMatrix();
vertices_[ii][(*cnt)++] = intersect(rr,ang1)*mm;
vertices_[ii][(*cnt)] = intersect(rr,ang2)*mm;
}
void BaseBox::deleteVertices()
{
if (vertices_) {
for (int i=0; i<numAnnuli_+1; i++)
if (vertices_[i])
delete [] vertices_[i];
delete [] vertices_;
}
vertices_ = NULL;
}
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