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Geant4/examples/advanced/HGCal_testbeam/include/PrimaryGeneratorAction.hh

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Diff markup

Differences between /examples/advanced/HGCal_testbeam/include/PrimaryGeneratorAction.hh (Version 11.3.0) and /examples/advanced/HGCal_testbeam/include/PrimaryGeneratorAction.hh (Version 4.0.p2)


  1 //                                                  1 
  2 // *******************************************    
  3 // * License and Disclaimer                       
  4 // *                                              
  5 // * The  Geant4 software  is  copyright of th    
  6 // * the Geant4 Collaboration.  It is provided    
  7 // * conditions of the Geant4 Software License    
  8 // * LICENSE and available at  http://cern.ch/    
  9 // * include a list of copyright holders.         
 10 // *                                              
 11 // * Neither the authors of this software syst    
 12 // * institutes,nor the agencies providing fin    
 13 // * work  make  any representation or  warran    
 14 // * regarding  this  software system or assum    
 15 // * use.  Please see the license in the file     
 16 // * for the full disclaimer and the limitatio    
 17 // *                                              
 18 // * This  code  implementation is the result     
 19 // * technical work of the GEANT4 collaboratio    
 20 // * By using,  copying,  modifying or  distri    
 21 // * any work based  on the software)  you  ag    
 22 // * use  in  resulting  scientific  publicati    
 23 // * acceptance of all terms of the Geant4 Sof    
 24 // *******************************************    
 25 //                                                
 26 #ifndef PRIMARYGENERATORACTION_HH                 
 27 #define PRIMARYGENERATORACTION_HH                 
 28                                                   
 29 #include "G4String.hh"                            
 30 #include "G4VUserPrimaryGeneratorAction.hh"       
 31 #include "CLHEP/Units/SystemOfUnits.h"            
 32                                                   
 33 class G4ParticleGun;                              
 34 class G4Event;                                    
 35 class G4Box;                                      
 36 class PrimaryGeneratorMessenger;                  
 37                                                   
 38 #ifdef WITHROOT                                   
 39 #include <RtypesCore.h>                           
 40 class TFile;                                      
 41 class TTreeReader;                                
 42 template <typename T> class TTreeReaderValue;     
 43 #endif                                            
 44                                                   
 45 /**                                               
 46  * @brief Primary generator                       
 47  *                                                
 48  * Primary generator action.                      
 49  *                                                
 50  * By default particle gun is used. It can be     
 51  * commands (/gun/) and with additional ones i    
 52  * "/HGCalTestbeam/generator/momentumSpread <V    
 53  * particle energy to Gaussian distribution wi    
 54  * initial energy (e.g. value 0.05 means sigma    
 55  * By default it equals to 0 and constant ener    
 56  * "/HGCalTestbeam/generator/beamSpread <none/    
 57  * beam position spread. By default none is us    
 58  * "/HGCalTestbeam/generator/beamSpreadX <SIZE    
 59  * along x axis. It is sigma of a Gaussian dis    
 60  * flat distribution.                             
 61  * "/HGCalTestbeam/generator/beamSpreadY <SIZE    
 62  * along y axis. It is sigma of a Gaussian dis    
 63  * flat distribution.                             
 64  * "/HGCalTestbeam/generator/fBeamZ0 <POSITION    
 65  * axis. By default edge of the world volume i    
 66  *                                                
 67  * If installation was done with ROOT package     
 68  * an additional option of input read from the    
 69  * It can be activated with "/HGCalTestbeam/ge    
 70  * "/HGCalTestbeam/generator/fPathInputFile <F    
 71  * file.                                          
 72  * "/HGCalTestbeam/generator/startFromEvent <N    
 73  * Nth event.                                     
 74  * Please note that in current implementation     
 75  * executed in a non-multithreaded mode (or wi    
 76  *                                                
 77  */                                               
 78                                                   
 79 class PrimaryGeneratorAction : public G4VUserP    
 80 public:                                           
 81   PrimaryGeneratorAction();                       
 82   virtual ~PrimaryGeneratorAction();              
 83                                                   
 84   virtual void GeneratePrimaries(G4Event *);      
 85                                                   
 86   const G4ParticleGun *GetParticleGun() const     
 87                                                   
 88 #ifdef WITHROOT                                   
 89   /// Open input file with list of particles      
 90   void OpenInput();                               
 91                                                   
 92   /// Set flag indicating that particles shoul    
 93   inline void SetIfUseInputFiles(G4bool aUseIn    
 94     fReadInputFile = aUseInputFiles;              
 95   };                                              
 96   /// Set the flag indicating that particles s    
 97   inline G4bool GetIfUseInputFiles() { return     
 98   /// Set the path to the input file              
 99   inline void SetInputFiles(G4String aInputFil    
100     fPathInputFile = aInputFiles;                 
101   };                                              
102   /// Get the path to the input file              
103   inline G4String GetInputFiles() const { retu    
104   /// Set ID of the first event to be read for    
105   inline void SetStartFromEvent(G4int aStartFr    
106     fStartFromEvent = aStartFromEvent;            
107   };                                              
108   /// Get ID of the first event to be read for    
109   inline G4int GetStartFromEvent() const { ret    
110 #endif                                            
111   /// Set sigma of the Gaussian distribution f    
112   /// @param[in] aMomentumSpread sigma of Gaus    
113   /// units of initial energy (e.g. 0.05 means    
114   inline void SetMomentumSpread(G4double aMome    
115     fMomentumGaussianSpread = aMomentumSpread;    
116   };                                              
117   /// Get sigma of the Gaussian distribution f    
118   inline G4double GetMomentumSpread() const {     
119   /// Set type of beam position spread            
120   /// @param[in] aType Type of beam position s    
121   /// "flat". By default "none" is used.          
122   inline void SetBeamSpreadType(G4String aType    
123     if (aType == "none")                          
124       fBeamType = eNone;                          
125     if (aType == "Gaussian")                      
126       fBeamType = eGaussian;                      
127     if (aType == "flat")                          
128       fBeamType = eFlat;                          
129   }                                               
130   /// Get type of beam position spread            
131   inline G4String GetBeamSpreadType() const {     
132     switch (fBeamType) {                          
133     case eNone:                                   
134       return "none";                              
135       break;                                      
136     case eGaussian:                               
137       return "Gaussian";                          
138       break;                                      
139     case eFlat:                                   
140       return "flat";                              
141       break;                                      
142     }                                             
143     return "";                                    
144   }                                               
145   /// Set size of beam position spread along X    
146   /// @param[in] aBeamSpreadX Size of beam pos    
147   /// distribution or half-width of flat distr    
148   inline void SetBeamSpreadX(G4double aBeamSpr    
149     fSigmaBeamX = aBeamSpreadX;                   
150   }                                               
151   /// Get size of beam position spread along X    
152   inline G4double GetBeamSpreadX() const { ret    
153   /// Set size of beam position spread along Y    
154   /// @param[in] aBeamSpreadY Size of beam pos    
155   /// distribution or half-width of flat distr    
156   inline void SetBeamSpreadY(G4double aBeamSpr    
157     fSigmaBeamY = aBeamSpreadY;                   
158   }                                               
159   /// Get size of beam position spread along Y    
160   inline G4double GetBeamSpreadY() const { ret    
161   /// Set initial beam position along Z axis      
162   /// By default edge of world volume is used     
163   inline void SetBeamZ0(G4double aBeamZ0) { fB    
164   /// Get initial beam position along Z axis      
165   inline G4double GetBeamZ0() const { return f    
166                                                   
167 private:                                          
168   /// Pointer to the particle gun                 
169   G4ParticleGun *fParticleGun;                    
170   /// Pointer to the world volume for initial     
171   G4Box *fEnvelopeBox;                            
172   /// Pointer to the messenger with custom UI     
173   PrimaryGeneratorMessenger *fMessenger;          
174   /// enum describing the beam position spread    
175   enum eBeamType { eNone, eGaussian, eFlat };     
176   /// Type of beam position spread in transver    
177   eBeamType fBeamType = eBeamType::eNone;         
178   /// Size of beam position spread along X axi    
179   /// Sigma for Gaussian, and half-width for f    
180   G4double fSigmaBeamX = 0;                       
181   /// Size of beam position spread along Y axi    
182   /// Sigma for Gaussian, and half-width for f    
183   G4double fSigmaBeamY = 0;                       
184   /// Initial beam position along Z axis          
185   G4double fBeamZ0 = -999 * CLHEP::m;             
186   /// Sigma of Gaussian momentum spread           
187   G4double fMomentumGaussianSpread = 0;           
188                                                   
189 #ifdef WITHROOT                                   
190   /// Flag indicating if primaries should be r    
191   /// the particle gun                            
192   G4bool fReadInputFile = false;                  
193   /// Path to the input file                      
194   G4String fPathInputFile = "";                   
195   /// ID of the first event in the file to be     
196   G4int fStartFromEvent = 0;                      
197   /// Counter of event                            
198   G4int fEventCounter = -1;                       
199   /// Pointer to the input file                   
200   TFile *fInputFile = nullptr;                    
201   /// Pointer to the tree containing particles    
202   TTreeReader *fHgcalReader = nullptr;            
203   /// Reader of event ID                          
204   TTreeReaderValue<Float_t> *fHgcalEventId;       
205   /// Reader of particle PDG                      
206   TTreeReaderValue<Float_t> *fHgcalPdgId;         
207   /// Reader of particle X position (in mm)       
208   TTreeReaderValue<Float_t> *fHgcalPosX;          
209   /// Reader of particle Y position (in mm)       
210   TTreeReaderValue<Float_t> *fHgcalPosY;          
211   /// Reader of particle Z position (in mm)       
212   // TTreeReaderValue<Float_t> *fHgcalPosZ;       
213   /// Reader of particle X momentum (in MeV)      
214   TTreeReaderValue<Float_t> *fHgcalMomX;          
215   /// Reader of particle Y momentum (in MeV)      
216   TTreeReaderValue<Float_t> *fHgcalMomY;          
217   /// Reader of particle Z momentum (in MeV)      
218   TTreeReaderValue<Float_t> *fHgcalMomZ;          
219 #endif                                            
220 };                                                
221                                                   
222 //....oooOO0OOooo........oooOO0OOooo........oo    
223                                                   
224 #endif                                            
225