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Geant4/examples/extended/analysis/AnaEx03/shared/include/DetectorConstruction.hh

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  /// \file DetectorConstruction.hh
  /// \brief Definition of the DetectorConstruction class
  
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  #ifndef DetectorConstruction_h
  #define DetectorConstruction_h 1
  
  #include "CLHEP/Units/SystemOfUnits.h"
  
  #include "G4VUserDetectorConstruction.hh"
  #include "globals.hh"
  
  class G4Box;
  class G4LogicalVolume;
  class G4VPhysicalVolume;
  class G4Material;
  class DetectorMessenger;
  
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  class DetectorConstruction : public G4VUserDetectorConstruction
  {
    public:
      DetectorConstruction();
      ~DetectorConstruction() override;
  
    public:
      G4VPhysicalVolume* Construct() override;
  
      void SetAbsorberMaterial(const G4String&);
      void SetAbsorberThickness(G4double);
  
      void SetGapMaterial(const G4String&);
      void SetGapThickness(G4double);
  
      void SetCalorSizeYZ(G4double);
      void SetNbOfLayers(G4int);
  
      void PrintCalorParameters();
  
      G4double GetWorldSizeX() { return fWorldSizeX; }
      G4double GetWorldSizeYZ() { return fWorldSizeYZ; }
  
      G4double GetCalorThickness() { return fCalorThickness; }
      G4double GetCalorSizeYZ() { return fCalorSizeYZ; }
  
      G4int GetNbOfLayers() { return fNbOfLayers; }
  
      G4Material* GetAbsorberMaterial() { return fAbsorberMaterial; }
      G4double GetAbsorberThickness() { return fAbsorberThickness; }
  
      G4Material* GetGapMaterial() { return fGapMaterial; }
      G4double GetGapThickness() { return fGapThickness; }
  
      const G4VPhysicalVolume* GetphysiWorld() { return fPhysiWorld; }
      const G4VPhysicalVolume* GetAbsorber() { return fPhysiAbsorber; }
      const G4VPhysicalVolume* GetGap() { return fPhysiGap; }
  
    private:
      void DefineMaterials();
      void ComputeCalorParameters();
      G4VPhysicalVolume* ConstructCalorimeter();
  
      G4Material* fAbsorberMaterial = nullptr;
      G4Material* fGapMaterial = nullptr;
      G4Material* fDefaultMaterial = nullptr;
  
      G4int fNbOfLayers = 10;
      G4double fAbsorberThickness = 10. * CLHEP::mm;
      G4double fGapThickness = 5. * CLHEP::mm;
      G4double fCalorSizeYZ = 10. * CLHEP::cm;
  
     G4double fCalorThickness = 0.;  // will be computed
     G4double fLayerThickness = 0.;  // will be computed
     G4double fWorldSizeYZ = 0.;  // will be computed;
     G4double fWorldSizeX = 0.;  // will be computed;
 
     G4Box* fSolidWorld = nullptr;  // pointer to the solid World
     G4LogicalVolume* fLogicWorld = nullptr;  // pointer to the logical World
     G4VPhysicalVolume* fPhysiWorld = nullptr;  // pointer to the physical World
 
     G4Box* fSolidCalor = nullptr;  // pointer to the solid Calor
     G4LogicalVolume* fLogicCalor = nullptr;  // pointer to the logical Calor
     G4VPhysicalVolume* fPhysiCalor = nullptr;  // pointer to the physical Calor
 
     G4Box* fSolidLayer = nullptr;  // pointer to the solid Layer
     G4LogicalVolume* fLogicLayer = nullptr;  // pointer to the logical Layer
     G4VPhysicalVolume* fPhysiLayer = nullptr;  // pointer to the physical Layer
 
     G4Box* fSolidAbsorber = nullptr;  // pointer to the solid Absorber
     G4LogicalVolume* fLogicAbsorber = nullptr;  // pointer to the logical Absorber
     G4VPhysicalVolume* fPhysiAbsorber = nullptr;  // pointer to the physical Absorber
 
     G4Box* fSolidGap = nullptr;  // pointer to the solid Gap
     G4LogicalVolume* fLogicGap = nullptr;  // pointer to the logical Gap
     G4VPhysicalVolume* fPhysiGap = nullptr;  // pointer to the physical Gap
 
     DetectorMessenger* fDetectorMessenger = nullptr;  // pointer to the Messenger
 };
 
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 inline void DetectorConstruction::ComputeCalorParameters()
 {
   // Compute derived parameters of the calorimeter
   fLayerThickness = fAbsorberThickness + fGapThickness;
   fCalorThickness = fNbOfLayers * fLayerThickness;
 
   fWorldSizeX = 1.2 * fCalorThickness;
   fWorldSizeYZ = 1.2 * fCalorSizeYZ;
 }
 
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 #endif