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27 /// \file optical/wls/include/WLSSteppingActio 27 /// \file optical/wls/include/WLSSteppingAction.hh
28 /// \brief Definition of the WLSSteppingAction 28 /// \brief Definition of the WLSSteppingAction class
29 // 29 //
30 30
31 //....oooOO0OOooo........oooOO0OOooo........oo 31 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo....
32 //....oooOO0OOooo........oooOO0OOooo........oo 32 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo....
33 33
34 #ifndef WLSSteppingAction_h 34 #ifndef WLSSteppingAction_h
35 #define WLSSteppingAction_h 1 35 #define WLSSteppingAction_h 1
36 36
37 #include "G4Types.hh" 37 #include "G4Types.hh"
38 #include "G4UserSteppingAction.hh" 38 #include "G4UserSteppingAction.hh"
39 39
40 class WLSDetectorConstruction; 40 class WLSDetectorConstruction;
41 class WLSSteppingActionMessenger; 41 class WLSSteppingActionMessenger;
42 class WLSEventAction; 42 class WLSEventAction;
43 43
44 class G4OpBoundaryProcess; 44 class G4OpBoundaryProcess;
45 class G4Track; 45 class G4Track;
46 class G4StepPoint; 46 class G4StepPoint;
47 47
48 class WLSSteppingAction : public G4UserSteppin 48 class WLSSteppingAction : public G4UserSteppingAction
49 { 49 {
50 public: << 50 public:
51 WLSSteppingAction(WLSDetectorConstruction* << 51 WLSSteppingAction(WLSDetectorConstruction*, WLSEventAction*);
52 ~WLSSteppingAction() override; << 52 ~WLSSteppingAction();
53 << 53
54 void UserSteppingAction(const G4Step*) ove << 54 void UserSteppingAction(const G4Step*) override;
55 << 55
56 // Set the bounce limit, 0 for no limit << 56 // Set the bounce limit, 0 for no limit
57 void SetBounceLimit(G4int); << 57 void SetBounceLimit(G4int);
58 << 58
59 G4int GetNumberOfBounces(); << 59 G4int GetNumberOfBounces();
60 G4int GetNumberOfClad1Bounces(); << 60 G4int GetNumberOfClad1Bounces();
61 G4int GetNumberOfClad2Bounces(); << 61 G4int GetNumberOfClad2Bounces();
62 G4int GetNumberOfWLSBounces(); << 62 G4int GetNumberOfWLSBounces();
63 // return number of successful events and << 63 // return number of successful events and reset the counter
64 G4int ResetSuccessCounter(); << 64 G4int ResetSuccessCounter();
65 << 65
66 private: << 66 private:
67 // Artificially kill the photon after it h << 67 // Artificially kill the photon after it has bounced more than this number
68 G4int fBounceLimit = 100000; << 68 G4int fBounceLimit;
69 // number of photons that reach the end << 69 // number of photons that reach the end
70 G4int fCounterEnd = 0; << 70 G4int fCounterEnd;
71 // number of photons that didn't make it t << 71 // number of photons that didn't make it to the end
72 G4int fCounterMid = 0; << 72 G4int fCounterMid;
73 // total number of bounces that a photon b << 73 // total number of bounces that a photon been through
74 G4int fCounterBounce = 0; << 74 G4int fCounterBounce;
75 // number of bounces that a photon been th << 75 // number of bounces that a photon been through within the fibre
76 G4int fCounterWLSBounce = 0; << 76 G4int fCounterWLSBounce;
77 // number of bounces that a photon been th << 77 // number of bounces that a photon been through from Cladding 1 to 2
78 G4int fCounterClad1Bounce = 0; << 78 G4int fCounterClad1Bounce;
79 // number of bounces that a photon been th << 79 // number of bounces that a photon been through from Cladding 2 to World
80 G4int fCounterClad2Bounce = 0; << 80 G4int fCounterClad2Bounce;
81 << 81
82 // initial gamma of the photon << 82 // initial gamma of the photon
83 G4double fInitGamma = -1.; << 83 G4double fInitGamma;
84 // initial theta of the photon << 84 // initial theta of the photon
85 G4double fInitTheta = -1.; << 85 G4double fInitTheta;
86 << 86
87 G4OpBoundaryProcess* fOpProcess = nullptr; << 87 G4OpBoundaryProcess* fOpProcess;
88 << 88
89 WLSDetectorConstruction* fDetector = nullp << 89 WLSDetectorConstruction* fDetector;
90 WLSSteppingActionMessenger* fSteppingMesse << 90 WLSSteppingActionMessenger* fSteppingMessenger;
91 WLSEventAction* fEventAction = nullptr; << 91 WLSEventAction* fEventAction;
92 << 92
93 inline void ResetCounters() << 93 inline void ResetCounters()
94 { << 94 {
95 fCounterBounce = 0; << 95 fCounterBounce = 0;
96 fCounterWLSBounce = 0; << 96 fCounterWLSBounce = 0;
97 fCounterClad1Bounce = 0; << 97 fCounterClad1Bounce = 0;
98 fCounterClad2Bounce = 0; << 98 fCounterClad2Bounce = 0;
99 fInitGamma = -1; << 99 fInitGamma = -1;
100 fInitTheta = -1; << 100 fInitTheta = -1;
101 } << 101 }
102 }; 102 };
103 103
104 #endif 104 #endif
105 105