Geant4 10.7.0
Toolkit for the simulation of the passage of particles through matter
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G4AdjointCSMatrix.cc
Go to the documentation of this file.
1//
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25//
26//
27
28#include <iomanip>
29#include <fstream>
30
31#include "G4AdjointCSMatrix.hh"
32#include "G4SystemOfUnits.hh"
34
35///////////////////////////////////////////////////////
36//
38 theLogPrimEnergyVector.clear();
39 theLogCrossSectionVector.clear();
40 theLogSecondEnergyMatrix.clear();
41 theLogProbMatrix.clear();
42 theLogProbMatrixIndex.clear();
43 log0Vector.clear();
44 nb_of_PrimEnergy=0;
45 is_scat_proj_to_proj_case =aBool;
46 dlog =0;
47}
48///////////////////////////////////////////////////////
49//
51 theLogPrimEnergyVector.clear();
52 theLogCrossSectionVector.clear();
53 theLogSecondEnergyMatrix.clear();
54 theLogProbMatrix.clear();
55}
56///////////////////////////////////////////////////////
57//
59{
60 theLogPrimEnergyVector.clear();
61 theLogCrossSectionVector.clear();
62 theLogSecondEnergyMatrix.clear();
63 theLogProbMatrix.clear();
64 theLogProbMatrixIndex.clear();
65 log0Vector.clear();
66 nb_of_PrimEnergy=0;
67}
68///////////////////////////////////////////////////////
69//
70 void G4AdjointCSMatrix::AddData(G4double aLogPrimEnergy,G4double aLogCS, std::vector< double>* aLogSecondEnergyVector,
71 std::vector< double>* aLogProbVector,size_t n_pro_decade){
72
74
75 //At this time we consider that the energy is increasing monotically
76 theLogPrimEnergyVector.push_back(aLogPrimEnergy);
77 theLogCrossSectionVector.push_back(aLogCS);
78 theLogSecondEnergyMatrix.push_back(aLogSecondEnergyVector);
79 theLogProbMatrix.push_back(aLogProbVector);
80
81 std::vector< size_t>* aLogProbVectorIndex = 0;
82 dlog =0;
83
84 if (n_pro_decade > 0 && aLogProbVector->size()>0) {
85 aLogProbVectorIndex = new std::vector< size_t>();
86 dlog=std::log(10.)/n_pro_decade;
87 G4double log_val = int(std::min((*aLogProbVector)[0],aLogProbVector->back())/dlog)*dlog;
88 log0Vector.push_back(log_val);
89
90 // Loop checking, 07-Aug-2015, Vladimir Ivanchenko
91 while(log_val<0.) {
92 aLogProbVectorIndex->push_back(theInterpolator->FindPosition(log_val,(*aLogProbVector)));
93 log_val+=dlog;
94 }
95 }
96 else {
97 log0Vector.push_back(0.);
98 }
99 theLogProbMatrixIndex.push_back(aLogProbVectorIndex);
100
101
102 nb_of_PrimEnergy++;
103
104
105}
106///////////////////////////////////////////////////////
107//
108G4bool G4AdjointCSMatrix::GetData(unsigned int i, G4double& aLogPrimEnergy,G4double& aLogCS,G4double& log0, std::vector< double>*& aLogSecondEnergyVector,
109 std::vector< double>*& aLogProbVector, std::vector< size_t>*& aLogProbVectorIndex)
110{ if (i>= nb_of_PrimEnergy) return false;
111 //G4cout<<"Test Get Data "<<G4endl;
112 aLogPrimEnergy = theLogPrimEnergyVector[i];
113 aLogCS = theLogCrossSectionVector[i];
114 aLogSecondEnergyVector = theLogSecondEnergyMatrix[i];
115 aLogProbVector = theLogProbMatrix[i];
116 aLogProbVectorIndex = theLogProbMatrixIndex[i];
117 log0=log0Vector[i];
118 return true;
119
120}
121///////////////////////////////////////////////////////
122//
124{ std::fstream FileOutput(file_name, std::ios::out);
125 FileOutput<<std::setiosflags(std::ios::scientific);
126 FileOutput<<std::setprecision(6);
127 FileOutput<<theLogPrimEnergyVector.size()<<G4endl;
128 for (size_t i=0;i<theLogPrimEnergyVector.size();i++){
129 FileOutput<<std::exp(theLogPrimEnergyVector[i])/MeV<<'\t'<<std::exp(theLogCrossSectionVector[i])<<G4endl;
130 size_t j1=0;
131 FileOutput<<theLogSecondEnergyMatrix[i]->size()<<G4endl;
132 for (size_t j=0;j<theLogSecondEnergyMatrix[i]->size();j++){
133 FileOutput<<std::exp((*theLogSecondEnergyMatrix[i])[j]);
134 j1++;
135 if (j1<10) FileOutput<<'\t';
136 else {
137 FileOutput<<G4endl;
138 j1=0;
139 }
140 }
141 if (j1>0) FileOutput<<G4endl;
142 j1=0;
143 FileOutput<<theLogProbMatrix[i]->size()<<G4endl;
144 for (size_t j=0;j<theLogProbMatrix[i]->size();j++){
145 FileOutput<<std::exp((*theLogProbMatrix[i])[j]);
146 j1++;
147 if (j1<10) FileOutput<<'\t';
148 else {
149 FileOutput<<G4endl;
150 j1=0;
151 }
152 }
153 if (j1>0) FileOutput<<G4endl;
154
155
156 }
157
158}
159///////////////////////////////////////////////////////
160//
162{ std::fstream FileOutput(file_name, std::ios::in);
163 size_t n1,n2;
164
165
166 theLogPrimEnergyVector.clear();
167 theLogCrossSectionVector.clear();
168 theLogSecondEnergyMatrix.clear();
169 theLogProbMatrix.clear();
170 FileOutput>>n1;
171 for (size_t i=0; i<n1;i++){
172 G4double E,CS;
173 FileOutput>>E>>CS;
174 theLogPrimEnergyVector.push_back(E);
175 theLogCrossSectionVector.push_back(CS);
176 FileOutput>>n2;
177 theLogSecondEnergyMatrix.push_back(new std::vector<G4double>());
178 theLogProbMatrix.push_back(new std::vector<G4double>());
179
180 for (size_t j=0; j<n2;j++){
181 G4double E1;
182 FileOutput>>E1;
183 theLogSecondEnergyMatrix[i]->push_back(E1);
184 }
185 FileOutput>>n2;
186 for (size_t j=0; j<n2;j++){
187 G4double prob;
188 FileOutput>>prob;
189 theLogProbMatrix[i]->push_back(prob);
190 }
191
192
193
194 }
195
196
197
198
199}
double G4double
Definition: G4Types.hh:83
bool G4bool
Definition: G4Types.hh:86
#define G4endl
Definition: G4ios.hh:57
void Write(G4String file_name)
G4bool GetData(unsigned int i, G4double &aPrimEnergy, G4double &aCS, G4double &log0, std::vector< double > *&aLogSecondEnergyVector, std::vector< double > *&aLogProbVector, std::vector< size_t > *&aLogProbVectorIndex)
void AddData(G4double aPrimEnergy, G4double aCS, std::vector< double > *aLogSecondEnergyVector, std::vector< double > *aLogProbVector, size_t n_pro_decade=0)
G4AdjointCSMatrix(G4bool aBool)
void Read(G4String file_name)
static G4AdjointInterpolator * GetInstance()
size_t FindPosition(G4double &x, std::vector< G4double > &x_vec, size_t ind_min=0, size_t ind_max=0)