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Geant4/examples/extended/hadronic/ParticleFluence/Calo/include/Run.hh

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Diff markup

Differences between /examples/extended/hadronic/ParticleFluence/Calo/include/Run.hh (Version 11.3.0) and /examples/extended/hadronic/ParticleFluence/Calo/include/Run.hh (Version 11.1.1)


  1 //                                                  1 //
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 25 //                                                 25 //
 26 /// \file Run.hh                                   26 /// \file Run.hh
 27 /// \brief Definition of the Run class             27 /// \brief Definition of the Run class
 28 //                                                 28 //
 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 Run_h                                      34 #ifndef Run_h
 35 #define Run_h 1                                    35 #define Run_h 1
 36                                                    36 
 37 #include "SteppingAction.hh"                   << 
 38 #include "TrackingAction.hh"                   << 
 39                                                << 
 40 #include "G4Run.hh"                                37 #include "G4Run.hh"
 41 #include "G4ThreeVector.hh"                        38 #include "G4ThreeVector.hh"
 42                                                <<  39 #include "SteppingAction.hh"
                                                   >>  40 #include "TrackingAction.hh" 
 43 #include <array>                                   41 #include <array>
 44                                                    42 
 45 //....oooOO0OOooo........oooOO0OOooo........oo     43 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
 46                                                    44 
 47 class Run : public G4Run                       <<  45 class Run : public G4Run {
 48 {                                              <<  46   // This class accumulates relevant quantities related to particle fluence collected during
 49     // This class accumulates relevant quantit <<  47   // the run.
 50     // the run.                                <<  48   // ( Note: these information are provided via calls of accessor methods of this Run class
 51     // ( Note: these information are provided  <<  49   //         made by SteppingAction::UserSteppingAction
 52     //         made by SteppingAction::UserSte <<  50   //         and     TrackingAction::PreUserTrackingAction. )
 53     //         and     TrackingAction::PreUser <<  51   // At the end of a run, the  PrintInfo  method is called by the run-action to print out
 54     // At the end of a run, the  PrintInfo  me <<  52   // some summary information about these quantities.
 55     // some summary information about these qu <<  53   // In multithreaded (MT) mode, an object of this class is filled up for each working thread,
 56     // In multithreaded (MT) mode, an object o <<  54   // and then merged (automatically by the Geant4 kernel) into another object (of this class)
 57     // and then merged (automatically by the G <<  55   // owned by the master class; the  PrintInfo  method is then called only for the latter run
 58     // owned by the master class; the  PrintIn <<  56   // object.
 59     // object.                                 <<  57   // Note that, for simplicity and brevity, we avoid histograms and print-out instead some
 60     // Note that, for simplicity and brevity,  <<  58   // statistics (compute by ourself) at the end of the run.  
 61     // statistics (compute by ourself) at the  << 
 62   public:                                          59   public:
 63     Run();                                         60     Run();
 64     ~Run() override = default;                     61     ~Run() override = default;
 65                                                <<  62   
 66     void RecordEvent(const G4Event* anEvent) o <<  63     void RecordEvent( const G4Event* anEvent ) override;
 67     // This method is called automatically by      64     // This method is called automatically by the Geant4 kernel (not by the user!) at the end
 68     // of each event. In the case of multithre     65     // of each event. In the case of multithreaded mode, it is called only for the working thread
 69     // that handled that event.                    66     // that handled that event.
 70                                                    67 
 71     void Merge(const G4Run* aRun) override;    <<  68     void Merge( const G4Run* aRun ) override;
 72     // This method is called automatically by      69     // This method is called automatically by the Geant4 kernel (not by the user!) only in the
 73     // case of multithreaded mode and only for     70     // case of multithreaded mode and only for working threads.
 74                                                <<  71   
 75     void PrintInfo() const;                        72     void PrintInfo() const;
 76     // This method is called by RunAction::End     73     // This method is called by RunAction::EndOfRunAction : in the case of multithreaded mode,
 77     // only the master thread calls it.            74     // only the master thread calls it.
 78                                                    75 
 79     void SetPrimaryParticleId(const G4int inpu <<  76     void SetPrimaryParticleId( const G4int inputValue ) { fPrimaryParticleId = inputValue; }
 80     void SetPrimaryParticleEnergy(const G4doub <<  77     void SetPrimaryParticleEnergy( const G4double inputValue )
 81     {                                          <<  78       { fPrimaryParticleEnergy = inputValue; }
 82       fPrimaryParticleEnergy = inputValue;     <<  79     void SetPrimaryParticleDirection( const G4ThreeVector &inputValue )
 83     }                                          <<  80       { fPrimaryParticleDirection = inputValue; }
 84     void SetPrimaryParticleDirection(const G4T <<  81     void SetAbsorberMaterialName( const G4String &inputValue )
 85     {                                          <<  82       { fAbsorberMaterialName = inputValue; }
 86       fPrimaryParticleDirection = inputValue;  <<  83     void SetActiveMaterialName( const G4String &inputValue ) { fActiveMaterialName = inputValue; }
 87     }                                          <<  84     void SetCubicVolumeScoringUpDown( const G4double inputValue )
 88     void SetAbsorberMaterialName(const G4Strin <<  85       { fCubicVolumeScoringUpDown = inputValue; }
 89     void SetActiveMaterialName(const G4String& <<  86     void SetCubicVolumeScoringSide( const G4double inputValue )
 90     void SetCubicVolumeScoringUpDown(const G4d <<  87       { fCubicVolumeScoringSide = inputValue; }
 91     {                                          << 
 92       fCubicVolumeScoringUpDown = inputValue;  << 
 93     }                                          << 
 94     void SetCubicVolumeScoringSide(const G4dou << 
 95     {                                          << 
 96       fCubicVolumeScoringSide = inputValue;    << 
 97     }                                          << 
 98     G4int GetPrimaryParticleId() const { retur     88     G4int GetPrimaryParticleId() const { return fPrimaryParticleId; }
 99     G4double GetPrimaryParticleEnergy() const      89     G4double GetPrimaryParticleEnergy() const { return fPrimaryParticleEnergy; }
100     G4ThreeVector GetPrimaryParticleDirection(     90     G4ThreeVector GetPrimaryParticleDirection() const { return fPrimaryParticleDirection; }
101     G4String GetAbsorberMaterialName() const {     91     G4String GetAbsorberMaterialName() const { return fAbsorberMaterialName; }
102     G4String GetActiveMaterialName() const { r     92     G4String GetActiveMaterialName() const { return fActiveMaterialName; }
103     G4double GetCubicVolumeScoringUpDown() con     93     G4double GetCubicVolumeScoringUpDown() const { return fCubicVolumeScoringUpDown; }
104     G4double GetCubicVolumeScoringSide() const     94     G4double GetCubicVolumeScoringSide() const { return fCubicVolumeScoringSide; }
105                                                    95 
106     void                                       <<  96     void SetSteppingArray( const std::array< G4double,
107     SetSteppingArray(const std::array<G4double <<  97                            SteppingAction::fkNumberCombinations >& inputArray );
108     std::array<G4double, SteppingAction::fkNum <<  98     std::array< G4double, SteppingAction::fkNumberCombinations > GetSteppingArray() const
109     {                                          <<  99     { return fSteppingArray; }
110       return fSteppingArray;                   << 
111     }                                          << 
112     // Accessor methods useful to transfer inf    100     // Accessor methods useful to transfer information collected by the stepping-action
113     // into this Run class                        101     // into this Run class
114                                                   102 
115     void                                       << 103     void SetTrackingArray1( const std::array< G4int,
116     SetTrackingArray1(const std::array<G4long, << 104                             TrackingAction::fkNumberCombinations >& inputArray );
117     std::array<G4long, TrackingAction::fkNumbe << 105     std::array< G4int, TrackingAction::fkNumberCombinations > GetTrackingArray1() const
118     {                                          << 106     { return fTrackingArray1; }
119       return fTrackingArray1;                  << 107     void SetTrackingArray2( const std::array< G4double,
120     }                                          << 108                             TrackingAction::fkNumberCombinations >& inputArray );
121     void                                       << 109     std::array< G4double, TrackingAction::fkNumberCombinations > GetTrackingArray2() const
122     SetTrackingArray2(const std::array<G4doubl << 110     { return fTrackingArray2; }
123     std::array<G4double, TrackingAction::fkNum << 
124     {                                          << 
125       return fTrackingArray2;                  << 
126     }                                          << 
127     // Accessor methods useful to transfer inf    111     // Accessor methods useful to transfer information collected by the tracking-action
128     // into this Run class                        112     // into this Run class
129                                                   113 
130   private:                                     << 114   private:  
131     G4int fNumEvents;                             115     G4int fNumEvents;
132     G4int fPrimaryParticleId;                     116     G4int fPrimaryParticleId;
133     G4double fPrimaryParticleEnergy;              117     G4double fPrimaryParticleEnergy;
134     G4ThreeVector fPrimaryParticleDirection;      118     G4ThreeVector fPrimaryParticleDirection;
135     G4String fAbsorberMaterialName;               119     G4String fAbsorberMaterialName;
136     G4String fActiveMaterialName;                 120     G4String fActiveMaterialName;
137     G4double fCubicVolumeScoringUpDown;           121     G4double fCubicVolumeScoringUpDown;
138     G4double fCubicVolumeScoringSide;             122     G4double fCubicVolumeScoringSide;
139     std::array<G4double, SteppingAction::fkNum << 123     std::array< G4double, SteppingAction::fkNumberCombinations > fSteppingArray;
140     std::array<G4long, TrackingAction::fkNumbe << 124     std::array< G4int,    TrackingAction::fkNumberCombinations > fTrackingArray1;
141     std::array<G4double, TrackingAction::fkNum << 125     std::array< G4double, TrackingAction::fkNumberCombinations > fTrackingArray2;
142 };                                                126 };
143                                                   127 
144 //....oooOO0OOooo........oooOO0OOooo........oo    128 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
145                                                   129 
146 #endif                                            130 #endif
147                                                   131