//*-- AUTHOR : Ilse Koenig
//*-- Modified : 11/11/2003 by Ilse Koenig
//*-- Modified : 29/06/99 by Ilse Koenig
//_HADES_CLASS_DESCRIPTION
///////////////////////////////////////////////////////////////////////////////
//
// HGeomSphe
//
// class for the GEANT shape SPHE
//
// The size of a SPHE is defined by 3 'points' (The z-components are not used)
// point 0: inner radius of the shell
// outer radius of the shell;
// point 1: starting polar angle of the shell,
// ending polar angle of the shell;
// point 2: starting azimuthal angle of the shell,
// ending azimuthal angle of the shell; )
//
// The intrinsic coordinate system of a SPHE, which sits in the CAVE and is
// not rotated, is identical with the laboratory system.
//
///////////////////////////////////////////////////////////////////////////////
#include "hgeomsphe.h"
#include "hgeomvolume.h"
#include "hgeomvector.h"
ClassImp(HGeomSphe)
HGeomSphe::HGeomSphe() {
// constructor
fName="SPHE";
nPoints=3;
nParam=6;
param=new TArrayD(nParam);
}
HGeomSphe::~HGeomSphe() {
// default destructor
if (param) {
delete param;
param=0;
}
if (center) {
delete center;
center=0;
}
if (position) {
delete position;
position=0;
}
}
Int_t HGeomSphe::readPoints(fstream* pFile,HGeomVolume* volu) {
// reads the 3 'points' decribed above from ascii file
// if the array of points is not existing in the volume it is created and
// the values are stored inside
// returns the number of points
if (!pFile) return 0;
if (volu->getNumPoints()!=nPoints) volu->createPoints(nPoints);
Double_t x,y;
const Int_t maxbuf=155;
Text_t buf[maxbuf];
for(Int_t i=0;i<nPoints;i++) {
pFile->getline(buf,maxbuf);
sscanf(buf,"%lf%lf",&x,&y);
volu->setPoint(i,x,y,0.0);
}
return nPoints;
}
Bool_t HGeomSphe::writePoints(fstream* pFile,HGeomVolume* volu) {
// writes the 3 'points' decribed above to ascii file
if (!pFile) return kFALSE;
Text_t buf[155];
for(Int_t i=0;i<nPoints;i++) {
HGeomVector& v=*(volu->getPoint(i));
sprintf(buf,"%9.3f%10.3fn",v(0),v(1));
pFile->write(buf,strlen(buf));
}
return kTRUE;
}
void HGeomSphe::printPoints(HGeomVolume* volu) {
// prints volume points to screen
for(Int_t i=0;i<nPoints;i++) {
HGeomVector& v=*(volu->getPoint(i));
printf("%9.3f%10.3fn",v(0),v(1));
}
}
TArrayD* HGeomSphe::calcVoluParam(HGeomVolume* volu) {
// calculates the parameters needed to create the shape SPHE
Double_t fac=10.;
HGeomVector& v0=*(volu->getPoint(0));
HGeomVector& v1=*(volu->getPoint(1));
HGeomVector& v2=*(volu->getPoint(2));
param->AddAt(v0(0)/fac,0);
param->AddAt(v0(1)/fac,1);
param->AddAt(v1(0),2);
param->AddAt(v1(1),3);
param->AddAt(v2(0),4);
param->AddAt(v2(1),5);
return param;
}
void HGeomSphe::calcVoluPosition(HGeomVolume*,
const HGeomTransform& dTC,const HGeomTransform& mTR) {
// calls the function posInMother(...) to calculate the position of the
// volume in its mother
center->clear();
posInMother(dTC,mTR);
}
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