G4PhysicalVolumeMassScene.hh

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// John Allison  12th September 2004
 
// Class Description:
//
// Calculates the mass of a geometry tree taking into account daughters
// up to the depth specified in the G4PhysicalVolumeModel.  Culling is
// ignored so that all volumes are seen.
//
// Do not use this for a "parallel world" for which materials are not
// defined.  Use only for the material world.
//
// The calculation is quite tricky, since it involves subtracting the
// mass of that part of the mother that is occupied by each daughter and
// then adding the mass of the daughter, and so on down the heirarchy.
//
// Usage for a given G4PhysicalVolumeModel* pvModel:
//   G4PhysicalVolumeMassScene massScene(pvModel);
//   pvModel->DescribeYourselfTo (massScene);
//   G4double volume = massScene.GetVolume();
//   G4double mass = massScene.GetMass();
//   massScene.Reset();
// See, for example, G4ASCIITreeSceneHandler::EndModeling().
 
#ifndef G4PHYSICALVOLUMEMASSSCENE_HH
#define G4PHYSICALVOLUMEMASSSCENE_HH
 
#include "G4PseudoScene.hh"
 
#include <deque>
 
class G4VPhysicalVolume;
class G4LogicalVolume;
class G4PhysicalVolumeModel;
class G4Material;
 
class G4PhysicalVolumeMassScene: public G4PseudoScene
{
 
public:
  G4PhysicalVolumeMassScene (G4PhysicalVolumeModel*);
  virtual ~G4PhysicalVolumeMassScene ();
 
public: // With description
 
  G4double GetVolume () const {return fVolume;}
  // Overall volume.
 
  G4double GetMass () const {return fMass;}
  // Mass of whole tree, i.e., accounting for all daughters.
 
  void Reset ();
  // Reset for subsequent re-use.
 
private:
  void ProcessVolume (const G4VSolid&);
  G4PhysicalVolumeModel* fpPVModel;
  G4double fVolume;
  G4double fMass;
  G4VPhysicalVolume* fpLastPV;
  G4int fPVPCount;
  G4int fLastDepth;
  G4double fLastDensity;
  std::deque<G4double> fDensityStack;
};
 
#endif