Geant4 LXR

Cross-Referencing   Geant4
Geant4/examples/extended/electromagnetic/TestEm3/include/DetectorConstruction.hh

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  /// \file electromagnetic/TestEm3/include/DetectorConstruction.hh
  /// \brief Definition of the DetectorConstruction class
  //
  //
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  #ifndef DetectorConstruction_h
  #define DetectorConstruction_h 1
  
  #include "G4Cache.hh"
  #include "G4VUserDetectorConstruction.hh"
  #include "globals.hh"
  
  class G4Box;
  class G4LogicalVolume;
  class G4VPhysicalVolume;
  class G4Material;
  class DetectorMessenger;
  
  class G4GlobalMagFieldMessenger;
  
  const G4int kMaxAbsor = 10;  // 0 + 9
  
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  class DetectorConstruction : public G4VUserDetectorConstruction
  {
    public:
      DetectorConstruction();
      ~DetectorConstruction() override;
  
    public:
      void SetNbOfAbsor(G4int);
      void SetAbsorMaterial(G4int, const G4String&);
      void SetAbsorThickness(G4int, G4double);
  
      void SetWorldMaterial(const G4String&);
      void SetCalorSizeYZ(G4double);
      void SetNbOfLayers(G4int);
  
      G4VPhysicalVolume* Construct() override;
      void ConstructSDandField() override;
  
    public:
      void PrintCalorParameters();
  
      G4double GetWorldSizeX() const { return fWorldSizeX; };
      G4double GetWorldSizeYZ() const { return fWorldSizeYZ; };
  
      G4double GetCalorThickness() const { return fCalorThickness; };
      G4double GetCalorSizeYZ() const { return fCalorSizeYZ; };
  
      G4int GetNbOfLayers() const { return fNbOfLayers; };
  
      G4int GetNbOfAbsor() const { return fNbOfAbsor; };
      G4double GetAbsorThickness(G4int i) const { return fAbsorThickness[i]; };
      const G4Material* GetAbsorMaterial(G4int i) const { return fAbsorMaterial[i]; };
  
      const G4VPhysicalVolume* GetphysiWorld() const { return fPhysiWorld; };
      const G4Material* GetWorldMaterial() const { return fWorldMaterial; };
      const G4VPhysicalVolume* GetAbsorber(G4int i) const { return fPhysiAbsor[i]; };
  
    private:
      void DefineMaterials();
      void ComputeCalorParameters();
  
      G4int fNbOfAbsor = 0;
      G4Material* fAbsorMaterial[kMaxAbsor];
      G4double fAbsorThickness[kMaxAbsor];
  
      G4int fNbOfLayers = 0;
      G4double fLayerThickness = 0.;
  
     G4double fCalorSizeYZ = 0.;
     G4double fCalorThickness = 0.;
 
     G4Material* fWorldMaterial = nullptr;
     G4double fWorldSizeYZ = 0.;
     G4double fWorldSizeX = 0.;
 
     G4Box* fSolidWorld = nullptr;
     G4LogicalVolume* fLogicWorld = nullptr;
     G4VPhysicalVolume* fPhysiWorld = nullptr;
 
     G4Box* fSolidCalor = nullptr;
     G4LogicalVolume* fLogicCalor = nullptr;
     G4VPhysicalVolume* fPhysiCalor = nullptr;
 
     G4Box* fSolidLayer = nullptr;
     G4LogicalVolume* fLogicLayer = nullptr;
     G4VPhysicalVolume* fPhysiLayer = nullptr;
 
     G4Box* fSolidAbsor[kMaxAbsor];
     G4LogicalVolume* fLogicAbsor[kMaxAbsor];
     G4VPhysicalVolume* fPhysiAbsor[kMaxAbsor];
 
     DetectorMessenger* fDetectorMessenger = nullptr;
     G4Cache<G4GlobalMagFieldMessenger*> fFieldMessenger = nullptr;
 };
 
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 #endif