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Geant4/examples/advanced/eRosita/physics/src/G4RDEMDataSet.cc

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Differences between /examples/advanced/eRosita/physics/src/G4RDEMDataSet.cc (Version 11.3.0) and /examples/advanced/eRosita/physics/src/G4RDEMDataSet.cc (Version 9.6.p4)


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 25 //                                                 25 //
 26 //                                                 26 //
                                                   >>  27 // $Id$
                                                   >>  28 // GEANT4 tag $Name:  $
 27 //                                                 29 //
 28 // Author: Maria Grazia Pia (Maria.Grazia.Pia@     30 // Author: Maria Grazia Pia (Maria.Grazia.Pia@cern.ch)
 29 //                                                 31 //
 30 // History:                                        32 // History:
 31 // -----------                                     33 // -----------
 32 // 31 Jul 2001   MGP        Created                34 // 31 Jul 2001   MGP        Created
 33 //                                                 35 //
 34 // -------------------------------------------     36 // -------------------------------------------------------------------
 35                                                    37 
 36 #include "G4RDEMDataSet.hh"                        38 #include "G4RDEMDataSet.hh"
 37 #include "G4RDVDataSetAlgorithm.hh"                39 #include "G4RDVDataSetAlgorithm.hh"
 38 #include <fstream>                                 40 #include <fstream>
 39 #include <sstream>                                 41 #include <sstream>
 40 #include "G4Integrator.hh"                         42 #include "G4Integrator.hh"
 41 #include "Randomize.hh"                            43 #include "Randomize.hh"
 42 #include "G4RDLinInterpolation.hh"                 44 #include "G4RDLinInterpolation.hh"
 43                                                    45 
 44                                                    46 
 45 G4RDEMDataSet::G4RDEMDataSet(G4int Z,              47 G4RDEMDataSet::G4RDEMDataSet(G4int Z, 
 46        G4RDVDataSetAlgorithm* algo,                48        G4RDVDataSetAlgorithm* algo, 
 47        G4double xUnit,                             49        G4double xUnit, 
 48        G4double yUnit,                             50        G4double yUnit,
 49        G4bool random):                             51        G4bool random): 
 50   z(Z),                                            52   z(Z),
 51   energies(0),                                     53   energies(0),
 52   data(0),                                         54   data(0),
 53   algorithm(algo),                                 55   algorithm(algo),
 54   unitEnergies(xUnit),                             56   unitEnergies(xUnit),
 55   unitData(yUnit),                                 57   unitData(yUnit),
 56   pdf(0),                                          58   pdf(0),
 57   randomSet(random)                                59   randomSet(random)
 58 {                                                  60 {
 59   if (algorithm == 0)                              61   if (algorithm == 0)
 60     G4Exception("G4RDEMDataSet::G4RDEMDataSet(     62     G4Exception("G4RDEMDataSet::G4RDEMDataSet()",
 61                 "InvalidSetup", FatalException     63                 "InvalidSetup", FatalException, "Interpolation == 0!");
 62   if (randomSet) BuildPdf();                       64   if (randomSet) BuildPdf();
 63 }                                                  65 }
 64                                                    66 
 65 G4RDEMDataSet::G4RDEMDataSet(G4int argZ,           67 G4RDEMDataSet::G4RDEMDataSet(G4int argZ, 
 66        G4DataVector* dataX,                        68        G4DataVector* dataX, 
 67        G4DataVector* dataY,                        69        G4DataVector* dataY, 
 68        G4RDVDataSetAlgorithm* algo,                70        G4RDVDataSetAlgorithm* algo, 
 69        G4double xUnit,                             71        G4double xUnit, 
 70        G4double yUnit,                             72        G4double yUnit,
 71        G4bool random):                             73        G4bool random):
 72   z(argZ),                                         74   z(argZ),
 73   energies(dataX),                                 75   energies(dataX),
 74   data(dataY),                                     76   data(dataY),
 75   algorithm(algo),                                 77   algorithm(algo),
 76   unitEnergies(xUnit),                             78   unitEnergies(xUnit),
 77   unitData(yUnit),                                 79   unitData(yUnit),
 78   pdf(0),                                          80   pdf(0),
 79   randomSet(random)                                81   randomSet(random)
 80 {                                                  82 {
 81   if (algorithm == 0)                              83   if (algorithm == 0)
 82     G4Exception("G4RDEMDataSet::G4RDEMDataSet(     84     G4Exception("G4RDEMDataSet::G4RDEMDataSet()",
 83                 "InvalidSetup", FatalException     85                 "InvalidSetup", FatalException, "Interpolation == 0!");
 84                                                    86 
 85   if ((energies == 0) ^ (data == 0))               87   if ((energies == 0) ^ (data == 0))
 86     G4Exception("G4RDEMDataSet::G4RDEMDataSet(     88     G4Exception("G4RDEMDataSet::G4RDEMDataSet()", "InvalidSetup",
 87            FatalException, "Different size for     89            FatalException, "Different size for energies and data (zero case)!");
 88                                                    90 
 89   if (energies == 0) return;                       91   if (energies == 0) return;
 90                                                    92   
 91   if (energies->size() != data->size())            93   if (energies->size() != data->size()) 
 92     G4Exception("G4RDEMDataSet::G4RDEMDataSet(     94     G4Exception("G4RDEMDataSet::G4RDEMDataSet()", "InvalidSetup",
 93            FatalException, "Different size for     95            FatalException, "Different size for energies and data!");
 94                                                    96 
 95   if (randomSet) BuildPdf();                       97   if (randomSet) BuildPdf();
 96 }                                                  98 }
 97                                                    99 
 98 G4RDEMDataSet::~G4RDEMDataSet()                   100 G4RDEMDataSet::~G4RDEMDataSet()
 99 {                                                 101 { 
100   delete algorithm;                               102   delete algorithm;
101   if (energies) delete energies;                  103   if (energies) delete energies;
102   if (data) delete data;                          104   if (data) delete data;
103   if (pdf) delete pdf;                            105   if (pdf) delete pdf;
104 }                                                 106 }
105                                                   107 
106 G4double G4RDEMDataSet::FindValue(G4double ene    108 G4double G4RDEMDataSet::FindValue(G4double energy, G4int /* componentId */) const
107 {                                                 109 {
108   if (!energies)                                  110   if (!energies)
109     G4Exception("G4RDEMDataSet::FindValue()",     111     G4Exception("G4RDEMDataSet::FindValue()", "InvalidSetup",
110                 FatalException, "Energies == 0    112                 FatalException, "Energies == 0!");
111   if (energies->empty()) return 0;                113   if (energies->empty()) return 0;
112   if (energy <= (*energies)[0]) return (*data)    114   if (energy <= (*energies)[0]) return (*data)[0];
113                                                   115 
114   size_t i = energies->size()-1;                  116   size_t i = energies->size()-1;
115   if (energy >= (*energies)[i]) return (*data)    117   if (energy >= (*energies)[i]) return (*data)[i];
116                                                   118 
117   return algorithm->Calculate(energy, FindLowe    119   return algorithm->Calculate(energy, FindLowerBound(energy), *energies, *data);
118 }                                                 120 }
119                                                   121 
120                                                   122 
121 void G4RDEMDataSet::PrintData(void) const         123 void G4RDEMDataSet::PrintData(void) const
122 {                                                 124 {
123   if (!energies)                                  125   if (!energies)
124     {                                             126     {
125       G4cout << "Data not available." << G4end    127       G4cout << "Data not available." << G4endl;
126     }                                             128     }
127   else                                            129   else
128     {                                             130     {
129       size_t size = energies->size();             131       size_t size = energies->size();
130       for (size_t i(0); i<size; i++)              132       for (size_t i(0); i<size; i++)
131   {                                               133   {
132     G4cout << "Point: " << ((*energies)[i]/uni    134     G4cout << "Point: " << ((*energies)[i]/unitEnergies)
133      << " - Data value: " << ((*data)[i]/unitD    135      << " - Data value: " << ((*data)[i]/unitData);
134     if (pdf != 0) G4cout << " - PDF : " << (*p    136     if (pdf != 0) G4cout << " - PDF : " << (*pdf)[i];
135     G4cout << G4endl;                             137     G4cout << G4endl; 
136   }                                               138   }
137     }                                             139     }
138 }                                                 140 }
139                                                   141 
140                                                   142 
141 void G4RDEMDataSet::SetEnergiesData(G4DataVect    143 void G4RDEMDataSet::SetEnergiesData(G4DataVector* dataX, 
142           G4DataVector* dataY,                    144           G4DataVector* dataY, 
143           G4int /* componentId */)                145           G4int /* componentId */)
144 {                                                 146 {
145   if (energies) delete energies;                  147   if (energies) delete energies;
146   energies = dataX;                               148   energies = dataX;
147                                                   149 
148   if (data) delete data;                          150   if (data) delete data;
149   data = dataY;                                   151   data = dataY;
150                                                   152  
151   if ((energies == 0) ^ (data==0))                153   if ((energies == 0) ^ (data==0)) 
152     G4Exception("G4RDEMDataSet::SetEnergiesDat    154     G4Exception("G4RDEMDataSet::SetEnergiesData()", "InvalidSetup",
153        FatalException, "Different size for ene    155        FatalException, "Different size for energies and data (zero case)!");
154                                                   156 
155   if (energies == 0) return;                      157   if (energies == 0) return;
156                                                   158   
157   if (energies->size() != data->size())           159   if (energies->size() != data->size()) 
158     G4Exception("G4RDEMDataSet::SetEnergiesDat    160     G4Exception("G4RDEMDataSet::SetEnergiesData()", "InvalidSetup",
159        FatalException, "Different size for ene    161        FatalException, "Different size for energies and data!");
160 }                                                 162 }
161                                                   163 
162 G4bool G4RDEMDataSet::LoadData(const G4String&    164 G4bool G4RDEMDataSet::LoadData(const G4String& fileName)
163 {                                                 165 {
164   // The file is organized into two columns:      166   // The file is organized into two columns:
165   // 1st column is the energy                     167   // 1st column is the energy
166   // 2nd column is the corresponding value        168   // 2nd column is the corresponding value
167   // The file terminates with the pattern: -1     169   // The file terminates with the pattern: -1   -1
168   //                                       -2     170   //                                       -2   -2
169                                                   171  
170   G4String fullFileName(FullFileName(fileName)    172   G4String fullFileName(FullFileName(fileName));
171   std::ifstream in(fullFileName);                 173   std::ifstream in(fullFileName);
172                                                   174 
173   if (!in.is_open())                              175   if (!in.is_open())
174     {                                             176     {
175       G4String message("Data file \"");           177       G4String message("Data file \"");
176       message += fullFileName;                    178       message += fullFileName;
177       message += "\" not found";                  179       message += "\" not found";
178       G4Exception("G4RDEMDataSet::LoadData()",    180       G4Exception("G4RDEMDataSet::LoadData()", "DataNotFound",
179                   FatalException, message);       181                   FatalException, message);
180     }                                             182     }
181                                                   183 
182   G4DataVector* argEnergies=new G4DataVector;     184   G4DataVector* argEnergies=new G4DataVector;
183   G4DataVector* argData=new G4DataVector;         185   G4DataVector* argData=new G4DataVector;
184                                                   186 
185   G4double a;                                     187   G4double a;
186   bool energyColumn(true);                        188   bool energyColumn(true);
187                                                   189 
188   do                                              190   do
189     {                                             191     {
190       in >> a;                                    192       in >> a;
191                                                   193   
192       if (a!=-1 && a!=-2)                         194       if (a!=-1 && a!=-2)
193   {                                               195   {
194     if (energyColumn)                             196     if (energyColumn)
195       argEnergies->push_back(a*unitEnergies);     197       argEnergies->push_back(a*unitEnergies);
196     else                                          198     else
197       argData->push_back(a*unitData);             199       argData->push_back(a*unitData);
198     energyColumn=(!energyColumn);                 200     energyColumn=(!energyColumn);
199   }                                               201   }
200     }                                             202     }
201   while (a != -2);                                203   while (a != -2);
202                                                   204  
203   SetEnergiesData(argEnergies, argData, 0);       205   SetEnergiesData(argEnergies, argData, 0);
204   if (randomSet) BuildPdf();                      206   if (randomSet) BuildPdf();
205                                                   207  
206   return true;                                    208   return true;
207 }                                                 209 }
208                                                   210 
209 G4bool G4RDEMDataSet::SaveData(const G4String&    211 G4bool G4RDEMDataSet::SaveData(const G4String& name) const
210 {                                                 212 {
211   // The file is organized into two columns:      213   // The file is organized into two columns:
212   // 1st column is the energy                     214   // 1st column is the energy
213   // 2nd column is the corresponding value        215   // 2nd column is the corresponding value
214   // The file terminates with the pattern: -1     216   // The file terminates with the pattern: -1   -1
215   //                                       -2     217   //                                       -2   -2
216                                                   218  
217   G4String fullFileName(FullFileName(name));      219   G4String fullFileName(FullFileName(name));
218   std::ofstream out(fullFileName);                220   std::ofstream out(fullFileName);
219                                                   221 
220   if (!out.is_open())                             222   if (!out.is_open())
221     {                                             223     {
222       G4String message("Cannot open \"");         224       G4String message("Cannot open \"");
223       message+=fullFileName;                      225       message+=fullFileName;
224       message+="\"";                              226       message+="\"";
225       G4Exception("G4RDEMDataSet::SaveData()",    227       G4Exception("G4RDEMDataSet::SaveData()", "CannotOpenFile",
226                   FatalException, message);       228                   FatalException, message);
227     }                                             229     }
228                                                   230  
229   out.precision(10);                              231   out.precision(10);
230   out.width(15);                                  232   out.width(15);
231   out.setf(std::ofstream::left);                  233   out.setf(std::ofstream::left);
232                                                   234   
233   if (energies!=0 && data!=0)                     235   if (energies!=0 && data!=0)
234     {                                             236     {
235       G4DataVector::const_iterator i(energies-    237       G4DataVector::const_iterator i(energies->begin());
236       G4DataVector::const_iterator endI(energi    238       G4DataVector::const_iterator endI(energies->end());
237       G4DataVector::const_iterator j(data->beg    239       G4DataVector::const_iterator j(data->begin());
238                                                   240   
239       while (i!=endI)                             241       while (i!=endI)
240   {                                               242   {
241     out.precision(10);                            243     out.precision(10);
242     out.width(15);                                244     out.width(15);
243     out.setf(std::ofstream::left);                245     out.setf(std::ofstream::left);
244     out << ((*i)/unitEnergies) << ' ';            246     out << ((*i)/unitEnergies) << ' ';
245                                                   247 
246     out.precision(10);                            248     out.precision(10);
247     out.width(15);                                249     out.width(15);
248     out.setf(std::ofstream::left);                250     out.setf(std::ofstream::left);
249     out << ((*j)/unitData) << std::endl;          251     out << ((*j)/unitData) << std::endl;
250                                                   252 
251     i++;                                          253     i++;
252     j++;                                          254     j++;
253   }                                               255   }
254     }                                             256     }
255                                                   257  
256   out.precision(10);                              258   out.precision(10);
257   out.width(15);                                  259   out.width(15);
258   out.setf(std::ofstream::left);                  260   out.setf(std::ofstream::left);
259   out << -1.f << ' ';                             261   out << -1.f << ' ';
260                                                   262 
261   out.precision(10);                              263   out.precision(10);
262   out.width(15);                                  264   out.width(15);
263   out.setf(std::ofstream::left);                  265   out.setf(std::ofstream::left);
264   out << -1.f << std::endl;                       266   out << -1.f << std::endl;
265                                                   267 
266   out.precision(10);                              268   out.precision(10);
267   out.width(15);                                  269   out.width(15);
268   out.setf(std::ofstream::left);                  270   out.setf(std::ofstream::left);
269   out << -2.f << ' ';                             271   out << -2.f << ' ';
270                                                   272 
271   out.precision(10);                              273   out.precision(10);
272   out.width(15);                                  274   out.width(15);
273   out.setf(std::ofstream::left);                  275   out.setf(std::ofstream::left);
274   out << -2.f << std::endl;                       276   out << -2.f << std::endl;
275                                                   277 
276   return true;                                    278   return true;
277 }                                                 279 }
278                                                   280 
279 size_t G4RDEMDataSet::FindLowerBound(G4double     281 size_t G4RDEMDataSet::FindLowerBound(G4double x) const
280 {                                                 282 {
281   size_t lowerBound = 0;                          283   size_t lowerBound = 0;
282   size_t upperBound(energies->size() - 1);        284   size_t upperBound(energies->size() - 1);
283                                                   285   
284   while (lowerBound <= upperBound)                286   while (lowerBound <= upperBound) 
285     {                                             287     {
286       size_t midBin((lowerBound + upperBound)     288       size_t midBin((lowerBound + upperBound) / 2);
287                                                   289 
288       if (x < (*energies)[midBin]) upperBound     290       if (x < (*energies)[midBin]) upperBound = midBin - 1;
289       else lowerBound = midBin + 1;               291       else lowerBound = midBin + 1;
290     }                                             292     }
291                                                   293   
292   return upperBound;                              294   return upperBound;
293 }                                                 295 }
294                                                   296 
295                                                   297 
296 size_t G4RDEMDataSet::FindLowerBound(G4double     298 size_t G4RDEMDataSet::FindLowerBound(G4double x, G4DataVector* values) const
297 {                                                 299 {
298   size_t lowerBound = 0;;                         300   size_t lowerBound = 0;;
299   size_t upperBound(values->size() - 1);          301   size_t upperBound(values->size() - 1);
300                                                   302   
301   while (lowerBound <= upperBound)                303   while (lowerBound <= upperBound) 
302     {                                             304     {
303       size_t midBin((lowerBound + upperBound)     305       size_t midBin((lowerBound + upperBound) / 2);
304                                                   306 
305       if (x < (*values)[midBin]) upperBound =     307       if (x < (*values)[midBin]) upperBound = midBin - 1;
306       else lowerBound = midBin + 1;               308       else lowerBound = midBin + 1;
307     }                                             309     }
308                                                   310   
309   return upperBound;                              311   return upperBound;
310 }                                                 312 }
311                                                   313 
312                                                   314 
313 G4String G4RDEMDataSet::FullFileName(const G4S    315 G4String G4RDEMDataSet::FullFileName(const G4String& name) const
314 {                                                 316 {
315   const char* path = G4FindDataDir("G4LEDATA") << 317   char* path = getenv("G4LEDATA");
316   if (!path)                                      318   if (!path)
317     G4Exception("G4RDEMDataSet::FullFileName()    319     G4Exception("G4RDEMDataSet::FullFileName()", "InvalidSetup",
318                 FatalException, "G4LEDATA envi    320                 FatalException, "G4LEDATA environment variable not set!");
319                                                   321   
320   std::ostringstream fullFileName;                322   std::ostringstream fullFileName;
321   fullFileName << path << '/' << name << z <<     323   fullFileName << path << '/' << name << z << ".dat";
322                                                   324                       
323   return G4String(fullFileName.str().c_str());    325   return G4String(fullFileName.str().c_str());
324 }                                                 326 }
325                                                   327 
326                                                   328 
327 void G4RDEMDataSet::BuildPdf()                    329 void G4RDEMDataSet::BuildPdf() 
328 {                                                 330 {
329   pdf = new G4DataVector;                         331   pdf = new G4DataVector;
330   G4Integrator <G4RDEMDataSet, G4double(G4RDEM    332   G4Integrator <G4RDEMDataSet, G4double(G4RDEMDataSet::*)(G4double)> integrator;
331                                                   333 
332   G4int nData = data->size();                     334   G4int nData = data->size();
333   pdf->push_back(0.);                             335   pdf->push_back(0.);
334                                                   336 
335   // Integrate the data distribution              337   // Integrate the data distribution 
336   G4int i;                                        338   G4int i;
337   G4double totalSum = 0.;                         339   G4double totalSum = 0.;
338   for (i=1; i<nData; i++)                         340   for (i=1; i<nData; i++)
339     {                                             341     {
340       G4double xLow = (*energies)[i-1];           342       G4double xLow = (*energies)[i-1];
341       G4double xHigh = (*energies)[i];            343       G4double xHigh = (*energies)[i];
342       G4double sum = integrator.Legendre96(thi    344       G4double sum = integrator.Legendre96(this, &G4RDEMDataSet::IntegrationFunction, xLow, xHigh);
343       totalSum = totalSum + sum;                  345       totalSum = totalSum + sum;
344       pdf->push_back(totalSum);                   346       pdf->push_back(totalSum);
345     }                                             347     }
346                                                   348 
347   // Normalize to the last bin                    349   // Normalize to the last bin
348   G4double tot = 0.;                              350   G4double tot = 0.;
349   if (totalSum > 0.) tot = 1. / totalSum;         351   if (totalSum > 0.) tot = 1. / totalSum;
350   for (i=1;  i<nData; i++)                        352   for (i=1;  i<nData; i++)
351     {                                             353     {
352       (*pdf)[i] = (*pdf)[i] * tot;                354       (*pdf)[i] = (*pdf)[i] * tot;
353     }                                             355     }
354 }                                                 356 }
355                                                   357 
356                                                   358 
357 G4double G4RDEMDataSet::RandomSelect(G4int /*     359 G4double G4RDEMDataSet::RandomSelect(G4int /* componentId */) const
358 {                                                 360 {
359   // Random select a X value according to the     361   // Random select a X value according to the cumulative probability distribution
360   // derived from the data                        362   // derived from the data
361                                                   363 
362   if (!pdf) G4Exception("G4RDEMDataSet::Random    364   if (!pdf) G4Exception("G4RDEMDataSet::RandomSelect()", "InvalidSetup",
363            FatalException, "PDF has not been c    365            FatalException, "PDF has not been created for this data set");
364                                                   366 
365   G4double value = 0.;                            367   G4double value = 0.;
366   G4double x = G4UniformRand();                   368   G4double x = G4UniformRand();
367                                                   369 
368   // Locate the random value in the X vector b    370   // Locate the random value in the X vector based on the PDF
369   size_t bin = FindLowerBound(x,pdf);             371   size_t bin = FindLowerBound(x,pdf);
370                                                   372 
371   // Interpolate the PDF to calculate the X va    373   // Interpolate the PDF to calculate the X value: 
372   // linear interpolation in the first bin (to    374   // linear interpolation in the first bin (to avoid problem with 0),
373   // interpolation with associated data set al    375   // interpolation with associated data set algorithm in other bins
374                                                   376 
375   G4RDLinInterpolation linearAlgo;                377   G4RDLinInterpolation linearAlgo;
376   if (bin == 0) value = linearAlgo.Calculate(x    378   if (bin == 0) value = linearAlgo.Calculate(x, bin, *pdf, *energies);
377   else value = algorithm->Calculate(x, bin, *p    379   else value = algorithm->Calculate(x, bin, *pdf, *energies);
378                                                   380 
379   //  G4cout << x << " random bin "<< bin << "    381   //  G4cout << x << " random bin "<< bin << " - " << value << G4endl;
380   return value;                                   382   return value;
381 }                                                 383 }
382                                                   384 
383 G4double G4RDEMDataSet::IntegrationFunction(G4    385 G4double G4RDEMDataSet::IntegrationFunction(G4double x)
384 {                                                 386 {
385   // This function is needed by G4Integrator t    387   // This function is needed by G4Integrator to calculate the integral of the data distribution
386                                                   388 
387   G4double y = 0;                                 389   G4double y = 0;
388                                                   390 
389  // Locate the random value in the X vector ba    391  // Locate the random value in the X vector based on the PDF
390   size_t bin = FindLowerBound(x);                 392   size_t bin = FindLowerBound(x);
391                                                   393 
392   // Interpolate to calculate the X value:        394   // Interpolate to calculate the X value: 
393   // linear interpolation in the first bin (to    395   // linear interpolation in the first bin (to avoid problem with 0),
394   // interpolation with associated algorithm i    396   // interpolation with associated algorithm in other bins
395                                                   397 
396   G4RDLinInterpolation linearAlgo;                398   G4RDLinInterpolation linearAlgo;
397                                                   399   
398   if (bin == 0) y = linearAlgo.Calculate(x, bi    400   if (bin == 0) y = linearAlgo.Calculate(x, bin, *energies, *data);
399   else y = algorithm->Calculate(x, bin, *energ    401   else y = algorithm->Calculate(x, bin, *energies, *data);
400                                                   402  
401   return y;                                       403   return y;
402 }                                                 404 }
403                                                   405 
404                                                   406