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26 /// \file electromagnetic/TestEm3/include/Dete 26 /// \file electromagnetic/TestEm3/include/DetectorConstruction.hh
27 /// \brief Definition of the DetectorConstruct 27 /// \brief Definition of the DetectorConstruction class
28 // 28 //
29 // 29 //
30 //....oooOO0OOooo........oooOO0OOooo........oo 30 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
31 //....oooOO0OOooo........oooOO0OOooo........oo 31 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
32 32
33 #ifndef DetectorConstruction_h 33 #ifndef DetectorConstruction_h
34 #define DetectorConstruction_h 1 34 #define DetectorConstruction_h 1
35 35
36 #include "G4Cache.hh" <<
37 #include "G4VUserDetectorConstruction.hh" 36 #include "G4VUserDetectorConstruction.hh"
38 #include "globals.hh" 37 #include "globals.hh"
>> 38 #include "G4Cache.hh"
39 39
40 class G4Box; 40 class G4Box;
41 class G4LogicalVolume; 41 class G4LogicalVolume;
42 class G4VPhysicalVolume; 42 class G4VPhysicalVolume;
43 class G4Material; 43 class G4Material;
44 class DetectorMessenger; 44 class DetectorMessenger;
45 45
46 class G4GlobalMagFieldMessenger; 46 class G4GlobalMagFieldMessenger;
47 47
48 const G4int kMaxAbsor = 10; // 0 + 9 << 48 const G4int kMaxAbsor = 10; // 0 + 9
49 << 49
50 //....oooOO0OOooo........oooOO0OOooo........oo 50 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
51 51
52 class DetectorConstruction : public G4VUserDet 52 class DetectorConstruction : public G4VUserDetectorConstruction
53 { 53 {
54 public: << 54 public:
55 DetectorConstruction(); << 55
56 ~DetectorConstruction() override; << 56 DetectorConstruction();
57 << 57 ~DetectorConstruction();
58 public: << 58
59 void SetNbOfAbsor(G4int); << 59 public:
60 void SetAbsorMaterial(G4int, const G4Strin << 60
61 void SetAbsorThickness(G4int, G4double); << 61 void SetNbOfAbsor (G4int);
62 << 62 void SetAbsorMaterial (G4int,const G4String&);
63 void SetWorldMaterial(const G4String&); << 63 void SetAbsorThickness(G4int,G4double);
64 void SetCalorSizeYZ(G4double); << 64
65 void SetNbOfLayers(G4int); << 65 void SetWorldMaterial (const G4String&);
66 << 66 void SetCalorSizeYZ (G4double);
67 G4VPhysicalVolume* Construct() override; << 67 void SetNbOfLayers (G4int);
68 void ConstructSDandField() override; << 68
69 << 69 virtual G4VPhysicalVolume* Construct();
70 public: << 70 virtual void ConstructSDandField();
71 void PrintCalorParameters(); << 71
72 << 72 public:
73 G4double GetWorldSizeX() const { return fW << 73
74 G4double GetWorldSizeYZ() const { return f << 74 void PrintCalorParameters();
75 << 75
76 G4double GetCalorThickness() const { retur << 76 G4double GetWorldSizeX() const {return fWorldSizeX;};
77 G4double GetCalorSizeYZ() const { return f << 77 G4double GetWorldSizeYZ() const {return fWorldSizeYZ;};
78 << 78
79 G4int GetNbOfLayers() const { return fNbOf << 79 G4double GetCalorThickness() const {return fCalorThickness;};
80 << 80 G4double GetCalorSizeYZ() const {return fCalorSizeYZ;};
81 G4int GetNbOfAbsor() const { return fNbOfA << 81
82 G4double GetAbsorThickness(G4int i) const << 82 G4int GetNbOfLayers() const {return fNbOfLayers;};
83 const G4Material* GetAbsorMaterial(G4int i << 83
84 << 84 G4int GetNbOfAbsor() const {return fNbOfAbsor;};
85 const G4VPhysicalVolume* GetphysiWorld() c << 85 G4double GetAbsorThickness(G4int i) const {return fAbsorThickness[i];};
86 const G4Material* GetWorldMaterial() const << 86 const G4Material* GetAbsorMaterial(G4int i) const {return fAbsorMaterial[i];};
87 const G4VPhysicalVolume* GetAbsorber(G4int << 87
88 << 88 const G4VPhysicalVolume* GetphysiWorld() const {return fPhysiWorld;};
89 private: << 89 const G4Material* GetWorldMaterial() const {return fWorldMaterial;};
90 void DefineMaterials(); << 90 const G4VPhysicalVolume* GetAbsorber(G4int i) const {return fPhysiAbsor[i];};
91 void ComputeCalorParameters(); << 91
92 << 92 private:
93 G4int fNbOfAbsor = 0; << 93
94 G4Material* fAbsorMaterial[kMaxAbsor]; << 94 void DefineMaterials();
95 G4double fAbsorThickness[kMaxAbsor]; << 95 void ComputeCalorParameters();
96 << 96
97 G4int fNbOfLayers = 0; << 97 G4int fNbOfAbsor;
98 G4double fLayerThickness = 0.; << 98 G4Material* fAbsorMaterial[kMaxAbsor];
99 << 99 G4double fAbsorThickness[kMaxAbsor];
100 G4double fCalorSizeYZ = 0.; << 100
101 G4double fCalorThickness = 0.; << 101 G4int fNbOfLayers;
102 << 102 G4double fLayerThickness;
103 G4Material* fWorldMaterial = nullptr; << 103
104 G4double fWorldSizeYZ = 0.; << 104 G4double fCalorSizeYZ;
105 G4double fWorldSizeX = 0.; << 105 G4double fCalorThickness;
106 << 106
107 G4Box* fSolidWorld = nullptr; << 107 G4Material* fWorldMaterial;
108 G4LogicalVolume* fLogicWorld = nullptr; << 108 G4double fWorldSizeYZ;
109 G4VPhysicalVolume* fPhysiWorld = nullptr; << 109 G4double fWorldSizeX;
110 << 110
111 G4Box* fSolidCalor = nullptr; << 111 G4Box* fSolidWorld;
112 G4LogicalVolume* fLogicCalor = nullptr; << 112 G4LogicalVolume* fLogicWorld;
113 G4VPhysicalVolume* fPhysiCalor = nullptr; << 113 G4VPhysicalVolume* fPhysiWorld;
114 << 114
115 G4Box* fSolidLayer = nullptr; << 115 G4Box* fSolidCalor;
116 G4LogicalVolume* fLogicLayer = nullptr; << 116 G4LogicalVolume* fLogicCalor;
117 G4VPhysicalVolume* fPhysiLayer = nullptr; << 117 G4VPhysicalVolume* fPhysiCalor;
118 << 118
119 G4Box* fSolidAbsor[kMaxAbsor]; << 119 G4Box* fSolidLayer;
120 G4LogicalVolume* fLogicAbsor[kMaxAbsor]; << 120 G4LogicalVolume* fLogicLayer;
121 G4VPhysicalVolume* fPhysiAbsor[kMaxAbsor]; << 121 G4VPhysicalVolume* fPhysiLayer;
>> 122
>> 123 G4Box* fSolidAbsor[kMaxAbsor];
>> 124 G4LogicalVolume* fLogicAbsor[kMaxAbsor];
>> 125 G4VPhysicalVolume* fPhysiAbsor[kMaxAbsor];
122 126
123 DetectorMessenger* fDetectorMessenger = nu << 127 DetectorMessenger* fDetectorMessenger;
124 G4Cache<G4GlobalMagFieldMessenger*> fField << 128 G4Cache<G4GlobalMagFieldMessenger*> fFieldMessenger;
125 }; 129 };
126 130
127 //....oooOO0OOooo........oooOO0OOooo........oo 131 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
128 132
129 #endif 133 #endif
130 134