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Geant4/processes/electromagnetic/adjoint/src/G4AdjointCSMatrix.cc

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Diff markup

Differences between /processes/electromagnetic/adjoint/src/G4AdjointCSMatrix.cc (Version 11.3.0) and /processes/electromagnetic/adjoint/src/G4AdjointCSMatrix.cc (Version 10.6.p2)


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 25 //                                                 25 //
 26                                                <<  26 //
 27 #include "G4AdjointCSMatrix.hh"                << 
 28                                                << 
 29 #include "G4AdjointInterpolator.hh"            << 
 30 #include "G4SystemOfUnits.hh"                  << 
 31                                                    27 
 32 #include <iomanip>                                 28 #include <iomanip>
 33 #include <fstream>                                 29 #include <fstream>
 34                                                    30 
 35 ////////////////////////////////////////////// <<  31 #include "G4AdjointCSMatrix.hh"
 36 G4AdjointCSMatrix::G4AdjointCSMatrix(G4bool aB <<  32 #include "G4SystemOfUnits.hh"
                                                   >>  33 #include "G4AdjointInterpolator.hh"
 37                                                    34 
 38 //////////////////////////////////////////////     35 ///////////////////////////////////////////////////////
 39 G4AdjointCSMatrix::~G4AdjointCSMatrix()        <<  36 //
 40 {                                              <<  37 G4AdjointCSMatrix::G4AdjointCSMatrix(G4bool aBool){
 41   fLogPrimEnergyVector.clear();                <<  38   theLogPrimEnergyVector.clear();
 42   fLogCrossSectionVector.clear();              <<  39   theLogCrossSectionVector.clear();
 43                                                <<  40   theLogSecondEnergyMatrix.clear();
 44   for (auto p : fLogSecondEnergyMatrix) {      <<  41   theLogProbMatrix.clear();
 45     p->clear();                                <<  42   theLogProbMatrixIndex.clear();
 46     delete p;                                  <<  43   log0Vector.clear();
 47     p = nullptr;                               <<  44   nb_of_PrimEnergy=0;
 48   }                                            <<  45   is_scat_proj_to_proj_case  =aBool;
 49   fLogSecondEnergyMatrix.clear();              <<  46   dlog =0;
 50                                                <<  47 }
 51   for (auto p : fLogProbMatrix) {              <<  48 ///////////////////////////////////////////////////////
 52     p->clear();                                <<  49 //
 53     delete p;                                  <<  50 G4AdjointCSMatrix::~G4AdjointCSMatrix(){
 54     p = nullptr;                               <<  51   theLogPrimEnergyVector.clear();
 55   }                                            <<  52   theLogCrossSectionVector.clear();
 56   fLogProbMatrix.clear();                      <<  53   theLogSecondEnergyMatrix.clear();
 57                                                <<  54   theLogProbMatrix.clear();
 58   for (auto p : fLogProbMatrixIndex) {         << 
 59     if (p) {                                   << 
 60       p->clear();                              << 
 61       delete p;                                << 
 62       p = nullptr;                             << 
 63     }                                          << 
 64   }                                            << 
 65   fLogProbMatrixIndex.clear();                 << 
 66 }                                                  55 }
 67                                                << 
 68 //////////////////////////////////////////////     56 ///////////////////////////////////////////////////////
                                                   >>  57 //
 69 void G4AdjointCSMatrix::Clear()                    58 void G4AdjointCSMatrix::Clear()
 70 {                                                  59 {
 71   fLogPrimEnergyVector.clear();                <<  60   theLogPrimEnergyVector.clear();
 72   fLogCrossSectionVector.clear();              <<  61   theLogCrossSectionVector.clear();
 73   fLogSecondEnergyMatrix.clear();              <<  62   theLogSecondEnergyMatrix.clear();
 74   fLogProbMatrix.clear();                      <<  63   theLogProbMatrix.clear();
 75   fLogProbMatrixIndex.clear();                 <<  64   theLogProbMatrixIndex.clear();
 76   fLog0Vector.clear();                         <<  65   log0Vector.clear();
 77   fNbPrimEnergy = 0;                           <<  66   nb_of_PrimEnergy=0;
 78 }                                                  67 }
 79                                                << 
 80 //////////////////////////////////////////////     68 ///////////////////////////////////////////////////////
 81 void G4AdjointCSMatrix::AddData(G4double aLogP <<  69 //
 82                                 std::vector<G4 <<  70  void G4AdjointCSMatrix::AddData(G4double aLogPrimEnergy,G4double aLogCS, std::vector< double>* aLogSecondEnergyVector,
 83                                 std::vector<G4 <<  71                        std::vector< double>* aLogProbVector,size_t n_pro_decade){
 84                                 std::size_t n_ <<  72   
 85 {                                              <<  73   G4AdjointInterpolator* theInterpolator=G4AdjointInterpolator::GetInstance();
 86   G4AdjointInterpolator* theInterpolator = G4A <<  74   
 87                                                <<  75   //At this time we consider that the energy is increasing monotically
 88   // At this time we consider that the energy  <<  76   theLogPrimEnergyVector.push_back(aLogPrimEnergy);
 89   fLogPrimEnergyVector.push_back(aLogPrimEnerg <<  77   theLogCrossSectionVector.push_back(aLogCS);
 90   fLogCrossSectionVector.push_back(aLogCS);    <<  78   theLogSecondEnergyMatrix.push_back(aLogSecondEnergyVector);
 91   fLogSecondEnergyMatrix.push_back(aLogSecondE <<  79   theLogProbMatrix.push_back(aLogProbVector);
 92   fLogProbMatrix.push_back(aLogProbVector);    <<  80   
 93                                                <<  81   std::vector< size_t>* aLogProbVectorIndex = 0;
 94   std::vector<std::size_t>* aLogProbVectorInde <<  82   dlog =0;
 95                                                <<  83   
 96   if(n_pro_decade > 0 && !aLogProbVector->empt <<  84   if (n_pro_decade > 0 && aLogProbVector->size()>0) {
 97   {                                            <<  85     aLogProbVectorIndex = new std::vector< size_t>();
 98     aLogProbVectorIndex = new std::vector<std: <<  86     dlog=std::log(10.)/n_pro_decade;
 99     G4double dlog       = std::log(10.) / n_pr <<  87     G4double log_val = int(std::min((*aLogProbVector)[0],aLogProbVector->back())/dlog)*dlog;
100     G4double log_val =                         <<  88     log0Vector.push_back(log_val);
101       G4int(std::min((*aLogProbVector)[0], aLo <<  89     
102     fLog0Vector.push_back(log_val);            <<  90                 // Loop checking, 07-Aug-2015, Vladimir Ivanchenko
103                                                <<  91     while(log_val<0.) {
104     // Loop checking, 07-Aug-2015, Vladimir Iv <<  92       aLogProbVectorIndex->push_back(theInterpolator->FindPosition(log_val,(*aLogProbVector)));
105     while(log_val < 0.)                        <<  93       log_val+=dlog;
106     {                                          <<  94     } 
107       aLogProbVectorIndex->push_back(          <<  95   }
108         theInterpolator->FindPosition(log_val, <<  96   else {
109       log_val += dlog;                         <<  97     log0Vector.push_back(0.);
110     }                                          <<  98   }
111   }                                            <<  99   theLogProbMatrixIndex.push_back(aLogProbVectorIndex);
112   else                                         << 100   
113   {                                            << 101   
114     fLog0Vector.push_back(0.);                 << 102   nb_of_PrimEnergy++;
115   }                                            << 103   
116   fLogProbMatrixIndex.push_back(aLogProbVector << 104   
117                                                << 
118   ++fNbPrimEnergy;                             << 
119 }                                                 105 }
120                                                << 
121 //////////////////////////////////////////////    106 ///////////////////////////////////////////////////////
122 G4bool G4AdjointCSMatrix::GetData(unsigned int << 107 //
123                                   G4double& aL << 108 G4bool G4AdjointCSMatrix::GetData(unsigned int i, G4double& aLogPrimEnergy,G4double& aLogCS,G4double& log0, std::vector< double>*& aLogSecondEnergyVector,
124                                   std::vector< << 109                        std::vector< double>*& aLogProbVector, std::vector< size_t>*& aLogProbVectorIndex)
125                                   std::vector< << 110 { if (i>= nb_of_PrimEnergy) return false;
126                                   std::vector< << 111   //G4cout<<"Test Get Data "<<G4endl;
127 {                                              << 112   aLogPrimEnergy = theLogPrimEnergyVector[i];
128   if(i >= fNbPrimEnergy)                       << 113   aLogCS = theLogCrossSectionVector[i];
129     return false;                              << 114   aLogSecondEnergyVector = theLogSecondEnergyMatrix[i];
130   aLogPrimEnergy         = fLogPrimEnergyVecto << 115   aLogProbVector = theLogProbMatrix[i];
131   aLogCS                 = fLogCrossSectionVec << 116   aLogProbVectorIndex = theLogProbMatrixIndex[i];
132   aLogSecondEnergyVector = fLogSecondEnergyMat << 117   log0=log0Vector[i];
133   aLogProbVector         = fLogProbMatrix[i];  << 118   return true;
134   aLogProbVectorIndex    = fLogProbMatrixIndex << 119   
135   log0                   = fLog0Vector[i];     << 
136   return true;                                 << 
137 }                                                 120 }
138                                                << 
139 //////////////////////////////////////////////    121 ///////////////////////////////////////////////////////
140 void G4AdjointCSMatrix::Write(const G4String&  << 122 //
141 {                                              << 123 void G4AdjointCSMatrix::Write(G4String file_name)
142   std::fstream FileOutput(file_name, std::ios: << 124 { std::fstream FileOutput(file_name, std::ios::out);        
143   FileOutput << std::setiosflags(std::ios::sci << 125   FileOutput<<std::setiosflags(std::ios::scientific);
144   FileOutput << std::setprecision(6);          << 126   FileOutput<<std::setprecision(6);
145   FileOutput << fLogPrimEnergyVector.size() << << 127   FileOutput<<theLogPrimEnergyVector.size()<<G4endl;
146   for(std::size_t i = 0; i < fLogPrimEnergyVec << 128   for (size_t i=0;i<theLogPrimEnergyVector.size();i++){
147   {                                            << 129     FileOutput<<std::exp(theLogPrimEnergyVector[i])/MeV<<'\t'<<std::exp(theLogCrossSectionVector[i])<<G4endl;
148     FileOutput << std::exp(fLogPrimEnergyVecto << 130     size_t j1=0;
149                << std::exp(fLogCrossSectionVec << 131     FileOutput<<theLogSecondEnergyMatrix[i]->size()<<G4endl;
150     std::size_t j1 = 0;                        << 132     for (size_t j=0;j<theLogSecondEnergyMatrix[i]->size();j++){
151     FileOutput << fLogSecondEnergyMatrix[i]->s << 133       FileOutput<<std::exp((*theLogSecondEnergyMatrix[i])[j]);
152     for(std::size_t j = 0; j < fLogSecondEnerg << 134       j1++;
153     {                                          << 135       if (j1<10) FileOutput<<'\t';
154       FileOutput << std::exp((*fLogSecondEnerg << 136       else  {
155       ++j1;                                    << 137         FileOutput<<G4endl;
156       if(j1 < 10)                              << 138         j1=0;
157         FileOutput << '\t';                    << 139       } 
158       else                                     << 140     }
159       {                                        << 141     if (j1>0) FileOutput<<G4endl;
160         FileOutput << G4endl;                  << 142     j1=0;
161         j1 = 0;                                << 143     FileOutput<<theLogProbMatrix[i]->size()<<G4endl;
162       }                                        << 144     for (size_t j=0;j<theLogProbMatrix[i]->size();j++){
163     }                                          << 145       FileOutput<<std::exp((*theLogProbMatrix[i])[j]);
164     if(j1 > 0)                                 << 146       j1++;
165       FileOutput << G4endl;                    << 147       if (j1<10) FileOutput<<'\t';
166     j1 = 0;                                    << 148       else  {
167     FileOutput << fLogProbMatrix[i]->size() << << 149         FileOutput<<G4endl;
168     for(std::size_t j = 0; j < fLogProbMatrix[ << 150         j1=0;
169     {                                          << 151       } 
170       FileOutput << std::exp((*fLogProbMatrix[ << 152     }
171       ++j1;                                    << 153     if (j1>0) FileOutput<<G4endl;
172       if(j1 < 10)                              << 154     
173         FileOutput << '\t';                    << 155     
174       else                                     << 156   }
175       {                                        << 157   
176         FileOutput << G4endl;                  << 
177         j1 = 0;                                << 
178       }                                        << 
179     }                                          << 
180     if(j1 > 0)                                 << 
181       FileOutput << G4endl;                    << 
182   }                                            << 
183 }                                                 158 }
184                                                << 
185 //////////////////////////////////////////////    159 ///////////////////////////////////////////////////////
186 void G4AdjointCSMatrix::Read(const G4String& f << 160 //
187 {                                              << 161 void G4AdjointCSMatrix::Read(G4String file_name)
188   std::fstream FileOutput(file_name, std::ios: << 162 { std::fstream FileOutput(file_name, std::ios::in);
189   std::size_t n1, n2;                          << 163   size_t n1,n2;
190                                                << 164   
191   fLogPrimEnergyVector.clear();                << 165   
192   fLogCrossSectionVector.clear();              << 166   theLogPrimEnergyVector.clear();
193   fLogSecondEnergyMatrix.clear();              << 167   theLogCrossSectionVector.clear();
194   fLogProbMatrix.clear();                      << 168   theLogSecondEnergyMatrix.clear();
195   FileOutput >> n1;                            << 169   theLogProbMatrix.clear();
196   for(std::size_t i = 0; i < n1; ++i)          << 170   FileOutput>>n1;
197   {                                            << 171   for (size_t i=0; i<n1;i++){
198     G4double E, CS;                            << 172     G4double E,CS;
199     FileOutput >> E >> CS;                     << 173     FileOutput>>E>>CS;
200     fLogPrimEnergyVector.push_back(E);         << 174     theLogPrimEnergyVector.push_back(E);
201     fLogCrossSectionVector.push_back(CS);      << 175     theLogCrossSectionVector.push_back(CS);
202     FileOutput >> n2;                          << 176     FileOutput>>n2;
203     fLogSecondEnergyMatrix.push_back(new std:: << 177     theLogSecondEnergyMatrix.push_back(new std::vector<G4double>());
204     fLogProbMatrix.push_back(new std::vector<G << 178     theLogProbMatrix.push_back(new std::vector<G4double>());
205                                                << 179     
206     for(std::size_t j = 0; j < n2; ++j)        << 180     for (size_t j=0; j<n2;j++){
207     {                                          << 181       G4double E1;
208       G4double E1;                             << 182       FileOutput>>E1;
209       FileOutput >> E1;                        << 183       theLogSecondEnergyMatrix[i]->push_back(E1);
210       fLogSecondEnergyMatrix[i]->push_back(E1) << 184     }
211     }                                          << 185     FileOutput>>n2;
212     FileOutput >> n2;                          << 186     for (size_t j=0; j<n2;j++){
213     for(std::size_t j = 0; j < n2; ++j)        << 187       G4double prob;
214     {                                          << 188       FileOutput>>prob;
215       G4double prob;                           << 189       theLogProbMatrix[i]->push_back(prob);
216       FileOutput >> prob;                      << 190     }
217       fLogProbMatrix[i]->push_back(prob);      << 191     
218     }                                          << 192     
219   }                                            << 193     
                                                   >> 194   }
                                                   >> 195   
                                                   >> 196           
                                                   >> 197   
                                                   >> 198   
220 }                                                 199 }
221                                                   200