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27 /// \file B5/include/HadCalorimeterHit.hh 27 /// \file B5/include/HadCalorimeterHit.hh
28 /// \brief Definition of the B5::HadCalorimete 28 /// \brief Definition of the B5::HadCalorimeterHit class
29 29
30 #ifndef B5HadCalorimeterHit_h 30 #ifndef B5HadCalorimeterHit_h
31 #define B5HadCalorimeterHit_h 1 31 #define B5HadCalorimeterHit_h 1
32 32
33 #include "G4VHit.hh" 33 #include "G4VHit.hh"
34 <<
35 #include "G4Allocator.hh" <<
36 #include "G4RotationMatrix.hh" <<
37 #include "G4THitsCollection.hh" 34 #include "G4THitsCollection.hh"
38 #include "G4Threading.hh" << 35 #include "G4Allocator.hh"
39 #include "G4ThreeVector.hh" 36 #include "G4ThreeVector.hh"
40 #include "globals.hh" << 37 #include "G4LogicalVolume.hh"
41 << 38 #include "G4Transform3D.hh"
42 #include <map> << 39 #include "G4RotationMatrix.hh"
43 #include <vector> <<
44 40
45 class G4AttDef; 41 class G4AttDef;
46 class G4AttValue; 42 class G4AttValue;
47 43
48 namespace B5 44 namespace B5
49 { 45 {
50 46
51 /// Hadron Calorimeter hit 47 /// Hadron Calorimeter hit
52 /// 48 ///
53 /// It records: 49 /// It records:
54 /// - the cell column ID and row ID 50 /// - the cell column ID and row ID
55 /// - the energy deposit 51 /// - the energy deposit
56 /// - the cell position and rotation 52 /// - the cell position and rotation
57 53
58 class HadCalorimeterHit : public G4VHit 54 class HadCalorimeterHit : public G4VHit
59 { 55 {
60 public: 56 public:
61 HadCalorimeterHit() = default; 57 HadCalorimeterHit() = default;
62 HadCalorimeterHit(G4int iCol, G4int iRow); << 58 HadCalorimeterHit(G4int iCol,G4int iRow);
63 HadCalorimeterHit(const HadCalorimeterHit& << 59 HadCalorimeterHit(const HadCalorimeterHit &right) = default;
64 ~HadCalorimeterHit() override = default; 60 ~HadCalorimeterHit() override = default;
65 61
66 HadCalorimeterHit& operator=(const HadCalo << 62 HadCalorimeterHit& operator=(const HadCalorimeterHit &right) = default;
67 G4bool operator==(const HadCalorimeterHit& << 63 G4bool operator==(const HadCalorimeterHit &right) const;
68 64
69 inline void* operator new(size_t); << 65 inline void *operator new(size_t);
70 inline void operator delete(void* aHit); << 66 inline void operator delete(void *aHit);
71 67
72 void Draw() override; 68 void Draw() override;
73 const std::map<G4String, G4AttDef>* GetAtt << 69 const std::map<G4String,G4AttDef>* GetAttDefs() const override;
74 std::vector<G4AttValue>* CreateAttValues() 70 std::vector<G4AttValue>* CreateAttValues() const override;
75 void Print() override; 71 void Print() override;
76 72
77 void SetColumnID(G4int z) { fColumnID = z; 73 void SetColumnID(G4int z) { fColumnID = z; }
78 G4int GetColumnID() const { return fColumn 74 G4int GetColumnID() const { return fColumnID; }
79 75
80 void SetRowID(G4int z) { fRowID = z; } 76 void SetRowID(G4int z) { fRowID = z; }
81 G4int GetRowID() const { return fRowID; } 77 G4int GetRowID() const { return fRowID; }
82 78
83 void SetEdep(G4double de) { fEdep = de; } 79 void SetEdep(G4double de) { fEdep = de; }
84 void AddEdep(G4double de) { fEdep += de; } 80 void AddEdep(G4double de) { fEdep += de; }
85 G4double GetEdep() const { return fEdep; } 81 G4double GetEdep() const { return fEdep; }
86 82
87 void SetPos(G4ThreeVector xyz) { fPos = xy 83 void SetPos(G4ThreeVector xyz) { fPos = xyz; }
88 G4ThreeVector GetPos() const { return fPos 84 G4ThreeVector GetPos() const { return fPos; }
89 85
90 void SetRot(G4RotationMatrix rmat) { fRot 86 void SetRot(G4RotationMatrix rmat) { fRot = rmat; }
91 G4RotationMatrix GetRot() const { return f 87 G4RotationMatrix GetRot() const { return fRot; }
92 88
93 private: 89 private:
94 G4int fColumnID = -1; 90 G4int fColumnID = -1;
95 G4int fRowID = -1; 91 G4int fRowID = -1;
96 G4double fEdep = 0.; 92 G4double fEdep = 0.;
97 G4ThreeVector fPos; 93 G4ThreeVector fPos;
98 G4RotationMatrix fRot; 94 G4RotationMatrix fRot;
99 }; 95 };
100 96
101 using HadCalorimeterHitsCollection = G4THitsCo 97 using HadCalorimeterHitsCollection = G4THitsCollection<HadCalorimeterHit>;
102 98
103 extern G4ThreadLocal G4Allocator<HadCalorimete 99 extern G4ThreadLocal G4Allocator<HadCalorimeterHit>* HadCalorimeterHitAllocator;
104 100
105 inline void* HadCalorimeterHit::operator new(s 101 inline void* HadCalorimeterHit::operator new(size_t)
106 { 102 {
107 if (!HadCalorimeterHitAllocator) { 103 if (!HadCalorimeterHitAllocator) {
108 HadCalorimeterHitAllocator = new G4Allocat << 104 HadCalorimeterHitAllocator = new G4Allocator<HadCalorimeterHit>;
109 } 105 }
110 return (void*)HadCalorimeterHitAllocator->Ma 106 return (void*)HadCalorimeterHitAllocator->MallocSingle();
111 } 107 }
112 108
113 inline void HadCalorimeterHit::operator delete 109 inline void HadCalorimeterHit::operator delete(void* aHit)
114 { 110 {
115 HadCalorimeterHitAllocator->FreeSingle((HadC << 111 HadCalorimeterHitAllocator->FreeSingle((HadCalorimeterHit*) aHit);
116 } 112 }
117 113
118 } // namespace B5 << 114 }
119 115
120 //....oooOO0OOooo........oooOO0OOooo........oo 116 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
121 117
122 #endif 118 #endif
123 119