G4tgbVolume.hh

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//
// G4tgbVolume
//
// Class description:
//
// Class to manage the geometry info of any detector unit. The detector units
// created in this class are essentially transient copies of Geant4 physical
// volumes. Thus, they are characterized by a name and the parameters of a
// Geant4 physical volume.
// They have associated several detector positions, that can be instances of
// G4tgrPlace, G4tgrPlaceDivRep or G4tgrPlaceParameterisation.
// Each detector positioning is done inside a parent. As there can be several
// parents, we will write one parent for each detector position, even if that
// means that parents are repeated.
 
// Author: P.Arce, CIEMAT (November 2007)
// --------------------------------------------------------------------
#ifndef G4tgbVolume_hh
#define G4tgbVolume_hh 1
 
#include <map>
 
#include "globals.hh"
#include "G4tgrVolume.hh"
#include "geomdefs.hh"
 
class G4tgrPlace;
class G4tgrSolid;
class G4VSolid;
class G4LogicalVolume;
class G4VPhysicalVolume;
class G4AssemblyVolume;
 
class G4tgbVolume
{
  public:
 
    G4tgbVolume();
    ~G4tgbVolume();
    G4tgbVolume(G4tgrVolume* vol);
 
    void ConstructG4Volumes(const G4tgrPlace* place,
                            const G4LogicalVolume* parentLV);
      // Construct the G4VSolid, G4LogicalVolume and the G4VPhysicalVolume
      // of copy 'copyNo'
 
    G4VSolid* FindOrConstructG4Solid(const G4tgrSolid* vol);
      // Construct the G4VSolid from the data of the corresponding G4tgrVolume.
      // Allow to use data from another G4tgrVolume, needed by Boolean solids
      // (that have to construct two solids and then do the Boolean operation)
 
    G4LogicalVolume* ConstructG4LogVol(const G4VSolid* solid);
      // Construct the G4LogicalVolume and then call the construction of
      // volumes that are positioned inside this LV
 
    G4VPhysicalVolume* ConstructG4PhysVol(const G4tgrPlace* place,
                                          const G4LogicalVolume* currentLV,
                                          const G4LogicalVolume* parentLV);
      // Construct the G4VPhysicalVolume placing 'curentLV' with position
      // given by the G4tgrPlace 'copyNo' inside 'parentLV'
 
    void SetCutsInRange(G4LogicalVolume* logvol,
                        std::map<G4String, G4double> cuts);
    void SetCutsInEnergy(G4LogicalVolume* logvol,
                         std::map<G4String, G4double> cuts);
 
    void CheckNoSolidParams(const G4String& solidType,
                            const unsigned int NoParamExpected,
                            const unsigned int NoParam);
      // Before building a solid of type 'solydType', check if the number
      // of paramenters is the expected one
 
    G4VSolid* BuildSolidForDivision(G4VSolid* parentSolid, EAxis axis);
 
    const G4String& GetName() const { return theTgrVolume->GetName(); }
    G4bool GetVisibility() const { return theTgrVolume->GetVisibility(); }
    const G4double* GetColour() const { return theTgrVolume->GetColour(); }
 
  private:
 
    G4tgrVolume* theTgrVolume = nullptr;
      // The G4tgrVolume to which it corresponds
 
    G4AssemblyVolume* theG4AssemblyVolume = nullptr;
};
 
#endif