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Geant4/processes/electromagnetic/adjoint/include/G4AdjointCSMatrix.hh

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Differences between /processes/electromagnetic/adjoint/include/G4AdjointCSMatrix.hh (Version 11.3.0) and /processes/electromagnetic/adjoint/include/G4AdjointCSMatrix.hh (Version 11.0)


  1 //                                                  1 //
  2 // *******************************************      2 // ********************************************************************
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 15 // * use.  Please see the license in the file      15 // * use.  Please see the license in the file  LICENSE  and URL above *
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 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.                      *
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 24 // *******************************************     24 // ********************************************************************
 25 //                                                 25 //
 26 //////////////////////////////////////////////     26 ////////////////////////////////////////////////////////////////////////////////
 27 //  Class:    G4AdjointCSMatrix                    27 //  Class:    G4AdjointCSMatrix
 28 //  Author:         L. Desorgher                   28 //  Author:         L. Desorgher
 29 //  Organisation:   SpaceIT GmbH                   29 //  Organisation:   SpaceIT GmbH
 30 //                                                 30 //
 31 //  An adjoint CS matrix is used by the model      31 //  An adjoint CS matrix is used by the model of a reverse process to sample
 32 //  an adjoint secondary (being equivalent to      32 //  an adjoint secondary (being equivalent to a forward primary). It represents
 33 //  the integration over the energy of the adj     33 //  the integration over the energy of the adjoint secondary (therefore the
 34 //  forward primary) of the differential cross     34 //  forward primary) of the differential cross section of the equivalent forward
 35 //  discrete process (Ionisation, Brem, PE eff     35 //  discrete process (Ionisation, Brem, PE effect, Compton,..). Each reverse
 36 //  model has its own cross section matrix for     36 //  model has its own cross section matrix for a given cut, material couple. It
 37 //  is therefore recomputed after a modificati     37 //  is therefore recomputed after a modification of the cuts by the user.
 38 //                                                 38 //
 39 //////////////////////////////////////////////     39 ////////////////////////////////////////////////////////////////////////////////
 40                                                    40 
 41 #ifndef G4AdjointCSMatrix_h                        41 #ifndef G4AdjointCSMatrix_h
 42 #define G4AdjointCSMatrix_h 1                      42 #define G4AdjointCSMatrix_h 1
 43                                                    43 
 44 #include "globals.hh"                              44 #include "globals.hh"
 45 #include "G4ParticleDefinition.hh"                 45 #include "G4ParticleDefinition.hh"
 46                                                    46 
 47 #include <vector>                                  47 #include <vector>
 48                                                    48 
 49 class G4AdjointCSMatrix                            49 class G4AdjointCSMatrix
 50 {                                                  50 {
 51  public:                                           51  public:
 52   G4AdjointCSMatrix(G4bool aBool);                 52   G4AdjointCSMatrix(G4bool aBool);
 53   ~G4AdjointCSMatrix();                            53   ~G4AdjointCSMatrix();
 54                                                    54 
 55   void Clear();                                    55   void Clear();
 56                                                    56 
 57   void AddData(G4double aPrimEnergy, G4double      57   void AddData(G4double aPrimEnergy, G4double aCS,
 58                std::vector<G4double>* aLogSeco <<  58                std::vector<double>* aLogSecondEnergyVector,
 59                std::vector<G4double>* aLogProb <<  59                std::vector<double>* aLogProbVector, size_t n_pro_decade = 0);
 60                                                    60 
 61   G4bool GetData(unsigned int i, G4double& aPr     61   G4bool GetData(unsigned int i, G4double& aPrimEnergy, G4double& aCS,
 62                  G4double& log0, std::vector<G <<  62                  G4double& log0, std::vector<double>*& aLogSecondEnergyVector,
 63                  std::vector<G4double>*& aLogP <<  63                  std::vector<double>*& aLogProbVector,
 64                  std::vector<std::size_t>*& aL <<  64                  std::vector<size_t>*& aLogProbVectorIndex);
 65                                                    65 
 66   inline std::vector<G4double>* GetLogPrimEner <<  66   inline std::vector<double>* GetLogPrimEnergyVector()
 67   {                                                67   {
 68     return &fLogPrimEnergyVector;                  68     return &fLogPrimEnergyVector;
 69   }                                                69   }
 70                                                    70 
 71   inline std::vector<G4double>* GetLogCrossSec <<  71   inline std::vector<double>* GetLogCrossSectionvector()
 72   {                                                72   {
 73     return &fLogCrossSectionVector;                73     return &fLogCrossSectionVector;
 74   }                                                74   }
 75                                                    75 
 76   inline G4bool IsScatProjToProj() { return fS     76   inline G4bool IsScatProjToProj() { return fScatProjToProj; }
 77                                                    77 
 78   void Write(const G4String& file_name);       <<  78   void Write(G4String file_name);
 79                                                    79 
 80   void Read(const G4String& file_name);        <<  80   void Read(G4String file_name);
 81                                                    81 
 82  private:                                          82  private:
 83   std::vector<G4double> fLogPrimEnergyVector;  <<  83   std::vector<double> fLogPrimEnergyVector;
 84   // Adjoint Cross sections as functions of pr     84   // Adjoint Cross sections as functions of primary energy
 85   std::vector<G4double> fLogCrossSectionVector <<  85   std::vector<double> fLogCrossSectionVector;
 86                                                    86 
 87   std::vector<std::vector<G4double>*> fLogSeco <<  87   std::vector<std::vector<double>*> fLogSecondEnergyMatrix;
 88   std::vector<std::vector<G4double>*> fLogProb <<  88   std::vector<std::vector<double>*> fLogProbMatrix;
 89   // Each column represents the integrated pro     89   // Each column represents the integrated probability of
 90   // getting a secondary                           90   // getting a secondary
 91                                                    91 
 92   // index of equidistant LogProb                  92   // index of equidistant LogProb
 93   std::vector<std::vector<std::size_t>*> fLogP <<  93   std::vector<std::vector<size_t>*> fLogProbMatrixIndex;
 94   std::vector<G4double> fLog0Vector;           <<  94   std::vector<double> fLog0Vector;
 95                                                    95 
 96   std::size_t fNbPrimEnergy = 0;               <<  96   size_t fNbPrimEnergy = 0;
 97                                                    97 
 98   G4bool fScatProjToProj;                          98   G4bool fScatProjToProj;
 99 };                                                 99 };
100 #endif                                            100 #endif
101                                                   101