G4PSDoseDepositForCylinder3D.cc

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// G4PSDoseDepositForCylinder3D
#include "G4PSDoseDepositForCylinder3D.hh"
#include "G4PhysicalConstants.hh"
#include "G4SystemOfUnits.hh"
 
////////////////////////////////////////////////////////////////////////////////
// (Description)
//   Primitive scorer class for scoring dose deposit in the geometry volume.
//
// Created: 2008-08-14  Tsukasa ASO
// 2010-07-22   Introduce Unit specification.
// 2011-03-24   Give Size and Segmentation for relicated volume in cylinder.
//
///////////////////////////////////////////////////////////////////////////////
 
G4PSDoseDepositForCylinder3D::G4PSDoseDepositForCylinder3D(G4String name,
                                                           G4int ni, G4int nj,
                                                           G4int nk, G4int di,
                                                           G4int dj, G4int dk)
  : G4PSDoseDeposit3D(name, ni, nj, nk, di, dj, dk)
{
  nSegment[0] = nSegment[1] = nSegment[2] = 0;
}
 
G4PSDoseDepositForCylinder3D::G4PSDoseDepositForCylinder3D(G4String name,
                                                           const G4String& unit,
                                                           G4int ni, G4int nj,
                                                           G4int nk, G4int di,
                                                           G4int dj, G4int dk)
  : G4PSDoseDeposit3D(name, unit, ni, nj, nk, di, dj, dk)
{
  nSegment[0] = nSegment[1] = nSegment[2] = 0;
}
 
void G4PSDoseDepositForCylinder3D::SetCylinderSize(G4ThreeVector cylSize, G4double StartAng, G4double AngSpan)
{
  cylinderSize = cylSize;   // rMin, rMax, halfZ
  fAngle[0] = StartAng;
  fAngle[1] = AngSpan;
}
void G4PSDoseDepositForCylinder3D::SetNumberOfSegments(G4int nSeg[3])
{
  nSegment[0] = nSeg[0];  // Z
  nSegment[1] = nSeg[1];  // Phi
  nSegment[2] = nSeg[2];  // R
}
G4double G4PSDoseDepositForCylinder3D::ComputeVolume(G4Step*, G4int idx)
{
  G4double dr = (cylinderSize[1] - cylinderSize[0]) / nSegment[2];
  G4double r0 = cylinderSize[0] + dr * (idx);
  G4double r1 = cylinderSize[0] + dr * (idx + 1);
  G4double dRArea = (r1 * r1 - r0 * r0) * pi;
 
  // cylinderSize is given in Half Size
  G4double fullz    = cylinderSize[2] / nSegment[0] * 2.;
  G4double phiRatio = (fAngle[1] / (CLHEP::twopi*rad)) / nSegment[1];
  G4double v        = dRArea * fullz * phiRatio;
 
  if(verboseLevel > 9)
  {
    G4cout << " r0= " << r0 / cm << "  r1= " << r1 / cm
           << " fullz=" << fullz / cm << G4endl;
    G4cout << " idx= " << idx << "  v(cm3)= " << v / cm3 << G4endl;
  }
 
  return v;
}