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Please see the license in the file LICENSE and URL above * 16 // * for the full disclaimer and the limitatio 16 // * for the full disclaimer and the limitation of liability. * 17 // * 17 // * * 18 // * This code implementation is the result 18 // * This code implementation is the result of the scientific and * 19 // * technical work of the GEANT4 collaboratio 19 // * technical work of the GEANT4 collaboration. * 20 // * By using, copying, modifying or distri 20 // * By using, copying, modifying or distributing the software (or * 21 // * any work based on the software) you ag 21 // * any work based on the software) you agree to acknowledge its * 22 // * use in resulting scientific publicati 22 // * use in resulting scientific publications, and indicate your * 23 // * acceptance of all terms of the Geant4 Sof 23 // * acceptance of all terms of the Geant4 Software license. * 24 // ******************************************* 24 // ******************************************************************** 25 // 25 // 26 /// \file hadronic/Hadr01/include/HistoManager 26 /// \file hadronic/Hadr01/include/HistoManager.hh 27 /// \brief Definition of the HistoManager clas 27 /// \brief Definition of the HistoManager class 28 // 28 // 29 //-------------------------------------------- 29 //--------------------------------------------------------------------------- 30 // 30 // 31 // ClassName: HistoManager 31 // ClassName: HistoManager 32 // 32 // 33 // Description: Singleton class to hold parame 33 // Description: Singleton class to hold parameters and build histograms. 34 // User cannot access to the cons 34 // User cannot access to the constructor. 35 // The pointer of the only existi 35 // The pointer of the only existing object can be got via 36 // HistoManager::GetPointer() sta 36 // HistoManager::GetPointer() static method. 37 // The first invokation of this s 37 // The first invokation of this static method makes 38 // the singleton object. 38 // the singleton object. 39 // 39 // 40 // Author: V.Ivanchenko 27/09/00 40 // Author: V.Ivanchenko 27/09/00 41 // 41 // 42 // Modified: 42 // Modified: 43 // 04.06.2006 Adoptation of Hadr01 (V.Ivanchen 43 // 04.06.2006 Adoptation of Hadr01 (V.Ivanchenko) 44 // 03.10.2006 Add csFlag (V.Ivanchenko) 44 // 03.10.2006 Add csFlag (V.Ivanchenko) 45 // 16.11.2006 Add beamFlag (V.Ivanchenko) 45 // 16.11.2006 Add beamFlag (V.Ivanchenko) 46 // 46 // 47 //-------------------------------------------- 47 //---------------------------------------------------------------------------- 48 // 48 // 49 49 50 #ifndef HistoManager_h 50 #ifndef HistoManager_h 51 #define HistoManager_h 1 51 #define HistoManager_h 1 52 52 53 #include "G4Element.hh" << 54 #include "G4Material.hh" << 55 #include "globals.hh" 53 #include "globals.hh" >> 54 #include "G4Material.hh" >> 55 #include "G4Element.hh" 56 56 57 //....oooOO0OOooo........oooOO0OOooo........oo 57 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo.... 58 58 59 class Histo; 59 class Histo; 60 class G4Track; 60 class G4Track; 61 class G4Step; 61 class G4Step; 62 class G4ParticleDefinition; 62 class G4ParticleDefinition; 63 63 64 class HistoManager 64 class HistoManager 65 { 65 { 66 public: << 66 public: 67 static HistoManager* GetPointer(); << 67 >> 68 static HistoManager* GetPointer(); 68 69 69 private: << 70 private: 70 HistoManager(); << 71 71 72 public: << 72 HistoManager(); 73 ~HistoManager(); << 74 73 75 void BookHisto(); << 74 public: 76 << 75 77 void BeginOfRun(); << 76 ~HistoManager(); 78 void EndOfRun(); << 77 79 void BeginOfEvent(); << 78 void BookHisto(); 80 void EndOfEvent(); << 79 81 void Fill(G4int id, G4double x, G4double w << 80 void BeginOfRun(); 82 << 81 void EndOfRun(); 83 void ScoreNewTrack(const G4Track*); << 82 void BeginOfEvent(); 84 void AddTargetStep(const G4Step*); << 83 void EndOfEvent(); 85 void AddLeakingParticle(const G4Track*); << 84 void Fill(G4int id, G4double x, G4double w); 86 << 85 87 void SetVerbose(G4int val); << 86 void ScoreNewTrack(const G4Track*); 88 << 87 void AddTargetStep(const G4Step*); 89 inline void SetTargetRadius(G4double val) << 88 void AddLeakingParticle(const G4Track*); 90 { << 89 91 fRadius = val; << 90 void SetVerbose(G4int val); 92 fR2 = val * val; << 91 93 }; << 92 inline void SetTargetRadius(G4double val) {fRadius = val; 94 inline void SetTargetLength(G4double val) << 93 fR2 = val*val;}; 95 inline void SetNumberOfSlices(G4int val) { << 94 inline void SetTargetLength(G4double val) {fLength = val;}; 96 inline void SetNumberOfBinsE(G4int val) { << 95 inline void SetNumberOfSlices(G4int val) {fNSlices = val;}; 97 inline void SetDefaultBeamPositionFlag(G4b << 96 inline void SetNumberOfBinsE(G4int val) {fNBinsE = val;}; 98 inline void SetMaxEnergyDeposit(G4double v << 97 inline void SetDefaultBeamPositionFlag(G4bool f) {fBeamFlag = f;}; 99 << 98 inline void SetMaxEnergyDeposit(G4double val) {fEdepMax = val;}; 100 inline G4double Radius() const { return fR << 99 101 inline G4double Length() const { return fL << 100 inline G4double Radius() const {return fRadius;}; 102 inline G4bool DefaultBeamPosition() const << 101 inline G4double Length() const {return fLength;}; 103 inline G4int NumberOfSlices() const { retu << 102 inline G4bool DefaultBeamPosition() const {return fBeamFlag;}; 104 inline G4int GetVerbose() const { return f << 103 inline G4int NumberOfSlices() const {return fNSlices;}; 105 << 104 inline G4int GetVerbose() const {return fVerbose;}; 106 inline G4int PrintBertiniXS() const { retu << 105 107 inline void SetPrintBertiniXS(G4int key) { << 106 private: 108 << 107 109 private: << 108 static HistoManager* fManager; 110 static HistoManager* fManager; << 109 111 << 110 const G4ParticleDefinition* fPrimaryDef; 112 const G4ParticleDefinition* fPrimaryDef; << 111 const G4ParticleDefinition* fNeutron; 113 const G4ParticleDefinition* fNeutron; << 112 114 << 113 G4double fR2 = 0.0; 115 G4double fR2 = 0.0; << 114 G4double fRadius; 116 G4double fRadius; << 115 G4double fLength; 117 G4double fLength; << 116 G4double fEdepMax; 118 G4double fEdepMax; << 117 G4double fEdepEvt = 0.0; 119 G4double fEdepEvt = 0.0; << 118 G4double fEdepEM = 0.0; 120 G4double fEdepEM = 0.0; << 119 G4double fEdepPI = 0.0; 121 G4double fEdepPI = 0.0; << 120 G4double fEdepP = 0.0; 122 G4double fEdepP = 0.0; << 121 G4double fEdepSum = 0.0; 123 G4double fEdepSum = 0.0; << 122 G4double fEdepSum2 = 0.0; 124 G4double fEdepSum2 = 0.0; << 123 G4double fAbsZ0 = 0.0; 125 G4double fAbsZ0 = 0.0; << 124 G4double fPrimaryKineticEnergy = 0.0; 126 G4double fPrimaryKineticEnergy = 0.0; << 125 127 << 126 G4int fVerbose = 0; 128 G4int fVerbose = 0; << 127 G4int fNBinsE = 100; 129 G4int fNBinsE = 100; << 128 G4int fNSlices = 300; 130 G4int fNSlices = 300; << 129 131 << 130 G4int fNevt = 0; 132 G4int fNevt = 0; << 131 G4int fNelec = 0; 133 G4int fNelec = 0; << 132 G4int fNposit = 0; 134 G4int fNposit = 0; << 133 G4int fNgam = 0; 135 G4int fNgam = 0; << 134 G4int fNprot_leak = 0; 136 G4int fNprot_leak = 0; << 135 G4int fNpiofNleak = 0; 137 G4int fNpiofNleak = 0; << 136 G4int fNcpions = 0; 138 G4int fNcpions = 0; << 137 G4int fNpi0 = 0; 139 G4int fNpi0 = 0; << 138 G4int fNkaons = 0; 140 G4int fNkaons = 0; << 139 G4int fNmuons = 0; 141 G4int fNmuons = 0; << 140 G4int fNions = 0; 142 G4int fNions = 0; << 141 G4int fNdeut = 0; 143 G4int fNdeut = 0; << 142 G4int fNalpha = 0; 144 G4int fNalpha = 0; << 143 G4int fNneutron = 0; 145 G4int fNneutron = 0; << 144 G4int fNproton = 0; 146 G4int fNproton = 0; << 145 G4int fNaproton = 0; 147 G4int fNaproton = 0; << 146 G4int fNneu_forw = 0; 148 G4int fNneu_forw = 0; << 147 G4int fNneu_leak = 0; 149 G4int fNneu_leak = 0; << 148 G4int fNneu_back = 0; 150 G4int fNneu_back = 0; << 149 G4int fNstep = 0; 151 G4int fNstep = 0; << 150 G4int fNHisto = 28; 152 G4int fNHisto = 28; << 153 G4int fPrintBertiniXS = -1; // 0 - all << 154 151 155 G4bool fBeamFlag = true; << 152 G4bool fBeamFlag = true; 156 G4bool fHistoBooked = false; << 153 G4bool fHistoBooked = false; 157 154 158 Histo* fHisto; << 155 Histo* fHisto; 159 }; 156 }; 160 157 161 #endif 158 #endif 162 159