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Geant4/processes/electromagnetic/utils/src/G4LossTableBuilder.cc

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Differences between /processes/electromagnetic/utils/src/G4LossTableBuilder.cc (Version 11.3.0) and /processes/electromagnetic/utils/src/G4LossTableBuilder.cc (Version 9.5.p1)


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 25 //                                                 25 //
                                                   >>  26 // $Id: G4LossTableBuilder.cc,v 1.32 2009-08-11 17:24:53 vnivanch Exp $
                                                   >>  27 // GEANT4 tag $Name: not supported by cvs2svn $
                                                   >>  28 //
 26 // -------------------------------------------     29 // -------------------------------------------------------------------
 27 //                                                 30 //
 28 // GEANT4 Class file                               31 // GEANT4 Class file
 29 //                                                 32 //
 30 //                                                 33 //
 31 // File name:     G4LossTableBuilder               34 // File name:     G4LossTableBuilder
 32 //                                                 35 //
 33 // Author:        Vladimir Ivanchenko              36 // Author:        Vladimir Ivanchenko
 34 //                                                 37 //
 35 // Creation date: 03.01.2002                       38 // Creation date: 03.01.2002
 36 //                                                 39 //
 37 // Modifications:                                  40 // Modifications:
 38 //                                                 41 //
 39 // 23-01-03 V.Ivanchenko Cut per region            42 // 23-01-03 V.Ivanchenko Cut per region
 40 // 21-07-04 V.Ivanchenko Fix problem of range      43 // 21-07-04 V.Ivanchenko Fix problem of range for dedx=0
 41 // 08-11-04 Migration to new interface of Stor     44 // 08-11-04 Migration to new interface of Store/Retrieve tables (V.Ivanchenko)
 42 // 07-12-04 Fix of BuildDEDX table (V.Ivanchen     45 // 07-12-04 Fix of BuildDEDX table (V.Ivanchenko)
 43 // 27-03-06 Add bool options isIonisation (V.I     46 // 27-03-06 Add bool options isIonisation (V.Ivanchenko)
 44 // 16-01-07 Fill new (not old) DEDX table (V.I     47 // 16-01-07 Fill new (not old) DEDX table (V.Ivanchenko)
 45 // 12-02-07 Use G4LPhysicsFreeVector for the i     48 // 12-02-07 Use G4LPhysicsFreeVector for the inverse range table (V.Ivanchenko)
 46 // 24-06-09 Removed hidden bin in G4PhysicsVec     49 // 24-06-09 Removed hidden bin in G4PhysicsVector (V.Ivanchenko)
 47 //                                                 50 //
 48 // Class Description:                              51 // Class Description:
 49 //                                                 52 //
 50 // -------------------------------------------     53 // -------------------------------------------------------------------
 51 //                                                 54 //
 52 //....oooOO0OOooo........oooOO0OOooo........oo     55 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo....
 53 //....oooOO0OOooo........oooOO0OOooo........oo     56 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo....
 54                                                    57 
 55 #include "G4LossTableBuilder.hh"                   58 #include "G4LossTableBuilder.hh"
 56 #include "G4SystemOfUnits.hh"                  << 
 57 #include "G4PhysicsTable.hh"                       59 #include "G4PhysicsTable.hh"
 58 #include "G4PhysicsLogVector.hh"                   60 #include "G4PhysicsLogVector.hh"
 59 #include "G4PhysicsTableHelper.hh"                 61 #include "G4PhysicsTableHelper.hh"
 60 #include "G4PhysicsFreeVector.hh"              <<  62 #include "G4LPhysicsFreeVector.hh"
 61 #include "G4ProductionCutsTable.hh"                63 #include "G4ProductionCutsTable.hh"
 62 #include "G4MaterialCutsCouple.hh"                 64 #include "G4MaterialCutsCouple.hh"
 63 #include "G4Material.hh"                           65 #include "G4Material.hh"
 64 #include "G4VEmModel.hh"                       << 
 65 #include "G4ParticleDefinition.hh"             << 
 66 #include "G4LossTableManager.hh"               << 
 67 #include "G4EmParameters.hh"                   << 
 68                                                << 
 69 G4bool G4LossTableBuilder::baseMatFlag = false << 
 70 std::vector<G4double>* G4LossTableBuilder::the << 
 71 std::vector<G4int>*    G4LossTableBuilder::the << 
 72 std::vector<G4bool>*   G4LossTableBuilder::the << 
 73                                                    66 
 74 //....oooOO0OOooo........oooOO0OOooo........oo     67 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo....
 75                                                    68 
 76 G4LossTableBuilder::G4LossTableBuilder(G4bool  <<  69 G4LossTableBuilder::G4LossTableBuilder() 
 77   : isInitializer(master)                      << 
 78 {                                                  70 {
 79   theParameters = G4EmParameters::Instance();  <<  71   splineFlag = true;
 80   if (nullptr == theFlag) {                    <<  72   isInitialized = false;
 81     theDensityFactor = new std::vector<G4doubl << 
 82     theDensityIdx = new std::vector<G4int>;    << 
 83     theFlag = new std::vector<G4bool>;         << 
 84   }                                            << 
 85 }                                              << 
 86                                                << 
 87 //....oooOO0OOooo........oooOO0OOooo........oo << 
 88                                                    73 
 89 G4LossTableBuilder::~G4LossTableBuilder()      <<  74   theDensityFactor = new std::vector<G4double>;
 90 {                                              <<  75   theDensityIdx = new std::vector<G4int>;
 91   if (isInitializer) {                         <<  76   theFlag = new std::vector<G4bool>;
 92     delete theDensityFactor;                   << 
 93     delete theDensityIdx;                      << 
 94     delete theFlag;                            << 
 95     theDensityFactor = nullptr;                << 
 96     theDensityIdx = nullptr;                   << 
 97     theFlag = nullptr;                         << 
 98   }                                            << 
 99 }                                                  77 }
100                                                    78 
101 //....oooOO0OOooo........oooOO0OOooo........oo     79 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo....
102                                                    80 
103 const std::vector<G4int>* G4LossTableBuilder:: <<  81 G4LossTableBuilder::~G4LossTableBuilder() 
104 {                                              << 
105   return theDensityIdx;                        << 
106 }                                              << 
107                                                << 
108 //....oooOO0OOooo........oooOO0OOooo........oo << 
109                                                << 
110 const std::vector<G4double>* G4LossTableBuilde << 
111 {                                              << 
112   return theDensityFactor;                     << 
113 }                                              << 
114                                                << 
115 //....oooOO0OOooo........oooOO0OOooo........oo << 
116                                                << 
117 G4bool G4LossTableBuilder::GetFlag(std::size_t << 
118 {                                              << 
119   return (idx < theFlag->size()) ? (*theFlag)[ << 
120 }                                              << 
121                                                << 
122 //....oooOO0OOooo........oooOO0OOooo........oo << 
123                                                << 
124 G4bool G4LossTableBuilder::GetBaseMaterialFlag << 
125 {                                                  82 {
126   return baseMatFlag;                          <<  83   delete theDensityFactor;
                                                   >>  84   delete theDensityIdx;
                                                   >>  85   delete theFlag;
127 }                                                  86 }
128                                                    87 
129 //....oooOO0OOooo........oooOO0OOooo........oo     88 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo....
130                                                    89 
131 void                                               90 void 
132 G4LossTableBuilder::BuildDEDXTable(G4PhysicsTa     91 G4LossTableBuilder::BuildDEDXTable(G4PhysicsTable* dedxTable,
133                                    const std:: <<  92            const std::vector<G4PhysicsTable*>& list)
134 {                                                  93 {
135   InitialiseBaseMaterials(dedxTable);          <<  94   size_t n_processes = list.size();
136   std::size_t n_processes = list.size();       <<  95   //G4cout << "Nproc= " << n_processes << " Ncoup= " << dedxTable->size() << G4endl;
137   if(1 >= n_processes) { return; }                 96   if(1 >= n_processes) { return; }
138                                                    97 
139   std::size_t nCouples = dedxTable->size();    <<  98   size_t nCouples = dedxTable->size();
140   //G4cout << "Nproc= " << n_processes << " nC << 
141   //   << dedxTable->size() << G4endl;         << 
142   if(0 >= nCouples) { return; }                    99   if(0 >= nCouples) { return; }
143                                                   100 
144   for (std::size_t i=0; i<nCouples; ++i) {     << 101   for (size_t i=0; i<nCouples; ++i) {
145     auto pv0 = static_cast<G4PhysicsLogVector* << 102     //    if ((*theFlag)[i]) {
146     //if (0 == i) G4cout << i << ". pv0=" << p << 103     G4PhysicsLogVector* pv0 = static_cast<G4PhysicsLogVector*>((*(list[0]))[i]);
147     if(pv0 == nullptr) { continue; }           << 104     if(pv0) {
148     std::size_t npoints = pv0->GetVectorLength << 105       size_t npoints = pv0->GetVectorLength();
149     auto pv = new G4PhysicsLogVector(*pv0);    << 106       G4PhysicsLogVector* pv = new G4PhysicsLogVector(*pv0);
150     for (std::size_t j=0; j<npoints; ++j) {    << 107       //    pv = new G4PhysicsLogVector(elow, ehigh, npoints-1);
151       G4double dedx = 0.0;                     << 108       pv->SetSpline(splineFlag);
152       for (std::size_t k=0; k<n_processes; ++k << 109       for (size_t j=0; j<npoints; ++j) {
153   const G4PhysicsVector* pv1 = (*(list[k]))[i] << 110   G4double dedx = 0.0;
154   //if (0 == i) G4cout << "     " << k << ". p << 111   for (size_t k=0; k<n_processes; ++k) {
155   dedx += (*pv1)[j];                           << 112     G4PhysicsVector* pv1   = (*(list[k]))[i];
                                                   >> 113     dedx += (*pv1)[j];
                                                   >> 114   }
                                                   >> 115   pv->PutValue(j, dedx);
156       }                                           116       }
157       pv->PutValue(j, dedx);                   << 117       if(splineFlag) { pv->FillSecondDerivatives(); }
                                                   >> 118       G4PhysicsTableHelper::SetPhysicsVector(dedxTable, i, pv);
158     }                                             119     }
159     if(splineFlag) { pv->FillSecondDerivatives << 
160     G4PhysicsTableHelper::SetPhysicsVector(ded << 
161   }                                               120   }
162   //G4cout << "### G4LossTableBuilder::BuildDE << 
163   //G4cout << *dedxTable << G4endl;            << 
164 }                                                 121 }
165                                                   122 
166 //....oooOO0OOooo........oooOO0OOooo........oo    123 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo....
167                                                   124 
168 void G4LossTableBuilder::BuildRangeTable(const    125 void G4LossTableBuilder::BuildRangeTable(const G4PhysicsTable* dedxTable,
169                                          G4Phy << 126            G4PhysicsTable* rangeTable,
                                                   >> 127            G4bool isIonisation)
170 // Build range table from the energy loss tabl    128 // Build range table from the energy loss table
171 {                                                 129 {
172   //G4cout << "### G4LossTableBuilder::BuildRa << 130   size_t nCouples = dedxTable->size();
173   //G4cout << *const_cast<G4PhysicsTable*>(ded << 
174   const std::size_t nCouples = dedxTable->size << 
175   if(0 >= nCouples) { return; }                   131   if(0 >= nCouples) { return; }
176                                                   132 
177   const std::size_t n = 100;                   << 133   size_t n = 100;
178   const G4double del = 1.0/(G4double)n;        << 134   G4double del = 1.0/(G4double)n;
179                                                   135 
180   for (std::size_t i=0; i<nCouples; ++i) {     << 136   for (size_t i=0; i<nCouples; ++i) {
181     auto pv = static_cast<G4PhysicsLogVector*> << 137     if(isIonisation) {
182     if((pv == nullptr) || (isBaseMatActive &&  << 138       if( !(*theFlag)[i] ) { continue; }
183     std::size_t npoints = pv->GetVectorLength( << 139     }
184     std::size_t bin0    = 0;                   << 140     G4PhysicsLogVector* pv = static_cast<G4PhysicsLogVector*>((*dedxTable)[i]);
                                                   >> 141     size_t npoints = pv->GetVectorLength();
                                                   >> 142     size_t bin0    = 0;
185     G4double elow  = pv->Energy(0);               143     G4double elow  = pv->Energy(0);
186     G4double ehigh = pv->Energy(npoints-1);       144     G4double ehigh = pv->Energy(npoints-1);
187     G4double dedx1 = (*pv)[0];                    145     G4double dedx1 = (*pv)[0];
188                                                   146 
                                                   >> 147     //G4cout << "i= " << i << "npoints= " << npoints << " dedx1= " << dedx1 << G4endl;
                                                   >> 148 
189     // protection for specific cases dedx=0       149     // protection for specific cases dedx=0
190     if(dedx1 == 0.0) {                            150     if(dedx1 == 0.0) {
191       for (std::size_t k=1; k<npoints; ++k) {  << 151       for (size_t k=1; k<npoints; ++k) {
192   ++bin0;                                      << 152   bin0++;
193   elow  = pv->Energy(k);                          153   elow  = pv->Energy(k);
194   dedx1 = (*pv)[k];                               154   dedx1 = (*pv)[k];
195   if(dedx1 > 0.0) { break; }                      155   if(dedx1 > 0.0) { break; }
196       }                                           156       }
197       npoints -= bin0;                            157       npoints -= bin0;
198     }                                             158     }
                                                   >> 159     //G4cout<<"New Range vector" << G4endl;
                                                   >> 160     //G4cout<<"nbins= "<<npoints-1<<" elow= "<<elow<<" ehigh= "<<ehigh
                                                   >> 161     //      <<" bin0= " << bin0 <<G4endl;
199                                                   162 
200     // initialisation of a new vector             163     // initialisation of a new vector
201     if(npoints < 3) { npoints = 3; }           << 164     if(npoints < 2) { npoints = 2; }
202                                                   165 
203     delete (*rangeTable)[i];                      166     delete (*rangeTable)[i];
204     G4PhysicsLogVector* v;                        167     G4PhysicsLogVector* v;
205     if(0 == bin0) { v = new G4PhysicsLogVector    168     if(0 == bin0) { v = new G4PhysicsLogVector(*pv); }
206     else { v = new G4PhysicsLogVector(elow, eh << 169     else { v = new G4PhysicsLogVector(elow, ehigh, npoints-1); }
                                                   >> 170 
                                                   >> 171     // dedx is exact zero cannot build range table
                                                   >> 172     if(2 == npoints) {
                                                   >> 173       v->PutValue(0,1000.);
                                                   >> 174       v->PutValue(1,2000.);
                                                   >> 175       G4PhysicsTableHelper::SetPhysicsVector(rangeTable, i, v);
                                                   >> 176       return;
                                                   >> 177     }
                                                   >> 178     v->SetSpline(splineFlag);
207                                                   179 
208     // assumed dedx proportional to beta          180     // assumed dedx proportional to beta
209     G4double energy1 = v->Energy(0);              181     G4double energy1 = v->Energy(0);
210     G4double range   = 2.*energy1/dedx1;          182     G4double range   = 2.*energy1/dedx1;
211     /*                                         << 183     //G4cout << "range0= " << range << G4endl;
212     G4cout << "New Range vector Npoints=" << v << 
213      << " coupleIdx=" << i << " spline=" << v- << 
214      << " Elow=" << v->GetMinEnergy() <<" Ehig << 
215      << " DEDX(Elow)=" << dedx1 << " R(Elow)=" << 
216     */                                         << 
217     v->PutValue(0,range);                         184     v->PutValue(0,range);
218                                                   185 
219     for (std::size_t j=1; j<npoints; ++j) {    << 186     for (size_t j=1; j<npoints; ++j) {
220                                                   187 
221       G4double energy2 = v->Energy(j);            188       G4double energy2 = v->Energy(j);
222       G4double de      = (energy2 - energy1) *    189       G4double de      = (energy2 - energy1) * del;
223       G4double energy  = energy2 + de*0.5;        190       G4double energy  = energy2 + de*0.5;
224       G4double sum = 0.0;                         191       G4double sum = 0.0;
225       std::size_t idx = j - 1;                 << 192       //G4cout << "j= " << j << " e1= " << energy1 << " e2= " << energy2 
226       for (std::size_t k=0; k<n; ++k) {        << 193       //       << " n= " << n << G4endl;
                                                   >> 194       for (size_t k=0; k<n; ++k) {
227   energy -= de;                                   195   energy -= de;
228   dedx1 = pv->Value(energy, idx);              << 196   dedx1 = pv->Value(energy);
229   if(dedx1 > 0.0) { sum += de/dedx1; }            197   if(dedx1 > 0.0) { sum += de/dedx1; }
230       }                                           198       }
231       range += sum;                               199       range += sum;
232       /*                                       << 
233       if(energy < 10.)                         << 
234   G4cout << "j= " << j << " e1= " << energy1 < << 
235          << " n= " << n << " range=" << range< << 
236       */                                       << 
237       v->PutValue(j,range);                       200       v->PutValue(j,range);
238       energy1 = energy2;                          201       energy1 = energy2;
239     }                                             202     }
240     if(splineFlag) { v->FillSecondDerivatives(    203     if(splineFlag) { v->FillSecondDerivatives(); }
241     G4PhysicsTableHelper::SetPhysicsVector(ran    204     G4PhysicsTableHelper::SetPhysicsVector(rangeTable, i, v);
242   }                                               205   }
243   //G4cout << "### Range table" << G4endl;     << 
244   //G4cout << *rangeTable << G4endl;           << 
245 }                                                 206 }
246                                                   207 
247 //....oooOO0OOooo........oooOO0OOooo........oo    208 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo....
248                                                   209 
249 void                                           << 210 void G4LossTableBuilder::BuildInverseRangeTable(const G4PhysicsTable* rangeTable,
250 G4LossTableBuilder::BuildInverseRangeTable(con << 211             G4PhysicsTable* invRangeTable,
251                                            G4P << 212             G4bool isIonisation)
252 // Build inverse range table from the energy l    213 // Build inverse range table from the energy loss table
253 {                                                 214 {
254   std::size_t nCouples = rangeTable->size();   << 215   size_t nCouples = rangeTable->size();
255   if(0 >= nCouples) { return; }                   216   if(0 >= nCouples) { return; }
256                                                   217 
257   for (std::size_t i=0; i<nCouples; ++i) {     << 218   for (size_t i=0; i<nCouples; ++i) {
                                                   >> 219 
                                                   >> 220     if(isIonisation) {
                                                   >> 221       if( !(*theFlag)[i] ) { continue; }
                                                   >> 222     }
258     G4PhysicsVector* pv = (*rangeTable)[i];       223     G4PhysicsVector* pv = (*rangeTable)[i];
259     if((pv == nullptr) || (isBaseMatActive &&  << 224     size_t npoints = pv->GetVectorLength();
260     std::size_t npoints = pv->GetVectorLength( << 225     G4double rlow  = (*pv)[0];
                                                   >> 226     G4double rhigh = (*pv)[npoints-1];
261                                                   227       
262     delete (*invRangeTable)[i];                   228     delete (*invRangeTable)[i];
263     auto v = new G4PhysicsFreeVector(npoints,  << 229     G4LPhysicsFreeVector* v = new G4LPhysicsFreeVector(npoints,rlow,rhigh);
                                                   >> 230     v->SetSpline(splineFlag);
264                                                   231 
265     for (std::size_t j=0; j<npoints; ++j) {    << 232     for (size_t j=0; j<npoints; ++j) {
266       G4double e  = pv->Energy(j);                233       G4double e  = pv->Energy(j);
267       G4double r  = (*pv)[j];                     234       G4double r  = (*pv)[j];
268       v->PutValues(j,r,e);                        235       v->PutValues(j,r,e);
269     }                                             236     }
270     if (splineFlag) { v->FillSecondDerivatives << 237     if(splineFlag) { v->FillSecondDerivatives(); }
271     v->EnableLogBinSearch(theParameters->Numbe << 
272                                                   238 
273     G4PhysicsTableHelper::SetPhysicsVector(inv    239     G4PhysicsTableHelper::SetPhysicsVector(invRangeTable, i, v);
274   }                                               240   }
275   //G4cout << "### Inverse range table" << G4e << 
276   //G4cout << *invRangeTable << G4endl;        << 
277 }                                                 241 }
278                                                   242 
279 //....oooOO0OOooo........oooOO0OOooo........oo    243 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo....
280                                                   244 
281 void G4LossTableBuilder::InitialiseBaseMateria << 245 void 
                                                   >> 246 G4LossTableBuilder::InitialiseBaseMaterials(G4PhysicsTable* table)
282 {                                                 247 {
283   if(!isInitializer) { return; }               << 248   size_t nCouples = table->size();
                                                   >> 249   size_t nFlags = theFlag->size();
                                                   >> 250 
                                                   >> 251   if(nCouples == nFlags && isInitialized) { return; }
                                                   >> 252   isInitialized = true;
                                                   >> 253 
                                                   >> 254   //G4cout << "%%%%%% Ncouples= " << nCouples << "  FlagSize= " << nFlags 
                                                   >> 255   //   << "  IsInitialise= " << isInitialized << G4endl; 
                                                   >> 256 
                                                   >> 257   // variable density check
284   const G4ProductionCutsTable* theCoupleTable=    258   const G4ProductionCutsTable* theCoupleTable=
285     G4ProductionCutsTable::GetProductionCutsTa    259     G4ProductionCutsTable::GetProductionCutsTable();
286   std::size_t nCouples = theCoupleTable->GetTa << 260 
287   std::size_t nFlags = theFlag->size();        << 
288   /*                                              261   /*
289   G4cout << "### InitialiseBaseMaterials: nCou << 262   for(size_t i=0; i<nFlags; ++i) {
290    << " nFlags=" << nFlags << " isInit:" << is << 263     G4cout << "CoupleIdx= " << i << "  Flag= " <<  (*theFlag)[i] 
291    << " baseMat:" << baseMatFlag << G4endl;    << 264      << " tableFlag= " << table->GetFlag(i) << "  "
292   */                                           << 265      << theCoupleTable->GetMaterialCutsCouple(i)->GetMaterial()->GetName()
293   // define base material flag                 << 266      << G4endl;
294   if(isBaseMatActive && !baseMatFlag) {        << 
295     for(G4int i=0; i<(G4int)nCouples; ++i) {   << 
296       if(nullptr != theCoupleTable->GetMateria << 
297   baseMatFlag = true;                          << 
298         isInitialized = false;                 << 
299   break;                                       << 
300       }                                        << 
301     }                                          << 
302   }                                               267   }
                                                   >> 268   */
303                                                   269 
304   if(nFlags != nCouples) { isInitialized = fal << 270   // expand vectors
305   if(isInitialized) { return; }                << 271   if(nFlags < nCouples) {
306                                                << 272     for(size_t i=nFlags; i<nCouples; ++i) { theDensityFactor->push_back(1.0); }
307   // reserve memory                            << 273     for(size_t i=nFlags; i<nCouples; ++i) { theDensityIdx->push_back(-1); }
308   theFlag->resize(nCouples, true);             << 274     for(size_t i=nFlags; i<nCouples; ++i) { theFlag->push_back(true); }
309   theDensityFactor->resize(nCouples,1.0);      << 
310   theDensityIdx->resize(nCouples, 0);          << 
311                                                << 
312   // define default flag and index of used mat << 
313   for (G4int i=0; i<(G4int)nCouples; ++i) {    << 
314     (*theFlag)[i] = (nullptr == table) ? true  << 
315     (*theDensityIdx)[i] = i;                   << 
316   }                                               275   }
317   isInitialized = true;                        << 276   for(size_t i=0; i<nCouples; ++i) {
318   if (!baseMatFlag) { return; }                << 
319                                                   277 
320   // use base materials                        << 
321   for (G4int i=0; i<(G4int)nCouples; ++i) {    << 
322     // base material is needed only for a coup    278     // base material is needed only for a couple which is not
323     // initialised and for which tables will b    279     // initialised and for which tables will be computed
324     auto couple = theCoupleTable->GetMaterialC << 280     (*theFlag)[i] = table->GetFlag(i);
325     auto pcuts = couple->GetProductionCuts();  << 281     if ((*theDensityIdx)[i] < 0) {
326     auto mat  = couple->GetMaterial();         << 282       (*theDensityIdx)[i] = i;
327     auto bmat = mat->GetBaseMaterial();        << 283       const G4MaterialCutsCouple* couple =
328                                                << 284   theCoupleTable->GetMaterialCutsCouple(i);
329     // base material exists - find it and chec << 285       const G4ProductionCuts* pcuts = couple->GetProductionCuts();
330     if(nullptr != bmat) {                      << 286       const G4Material* mat  = couple->GetMaterial();
331       for(G4int j=0; j<(G4int)nCouples; ++j) { << 287       const G4Material* bmat = mat->GetBaseMaterial();
332   if(j == i) { continue; }                     << 288 
333   auto bcouple = theCoupleTable->GetMaterialCu << 289       // base material exists - find it and check if it can be reused
334                                                << 290       if(bmat) {
335   if(bcouple->GetMaterial() == bmat &&         << 291   for(size_t j=0; j<nCouples; ++j) {
336      bcouple->GetProductionCuts() == pcuts) {  << 292 
337                                                << 293     if(j == i) { continue; }
338     // based couple exist in the same region   << 294     const G4MaterialCutsCouple* bcouple =
339     (*theDensityFactor)[i] = mat->GetDensity() << 295         theCoupleTable->GetMaterialCutsCouple(j);
340     (*theDensityIdx)[i] = j;                   << 296 
341     (*theFlag)[i] = false;                     << 297     if(bcouple->GetMaterial() == bmat && 
342                                                << 298        bcouple->GetProductionCuts() == pcuts) {
343     // ensure that there will no double initia << 299 
344     (*theDensityFactor)[j] = 1.0;              << 300       // based couple exist in the same region
345     (*theDensityIdx)[j] = j;                   << 301       (*theDensityIdx)[i] = j;
346     (*theFlag)[j] = true;                      << 302       (*theDensityFactor)[i] = mat->GetDensity()/bmat->GetDensity();
347     break;                                     << 303       (*theFlag)[i] = false;
                                                   >> 304 
                                                   >> 305       // ensure that there will no double initialisation
                                                   >> 306       (*theDensityIdx)[j] = j;
                                                   >> 307       (*theDensityFactor)[j] = 1.0;
                                                   >> 308       (*theFlag)[j] = true;
                                                   >> 309       break;
                                                   >> 310     }
348   }                                               311   }
349       }                                           312       }
350     }                                             313     }
351   }                                               314   }
                                                   >> 315   /*
                                                   >> 316   for(size_t i=0; i<nCouples; ++i) {
                                                   >> 317     G4cout << "CoupleIdx= " << i << "  Flag= " <<  (*theFlag)[i] 
                                                   >> 318      << " tableFlag= " << table->GetFlag(i) << "  "
                                                   >> 319      << theCoupleTable->GetMaterialCutsCouple(i)->GetMaterial()->GetName()
                                                   >> 320      << G4endl;
                                                   >> 321   }
                                                   >> 322   */
352 }                                                 323 }
353                                                   324 
354 //....oooOO0OOooo........oooOO0OOooo........oo    325 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo....
355                                                   326 
356 G4PhysicsTable*                                << 327 void G4LossTableBuilder::InitialiseCouples()
357 G4LossTableBuilder::BuildTableForModel(G4Physi << 
358                                        G4VEmMo << 
359                                        const G << 
360                                        G4doubl << 
361                                        G4bool  << 
362 {                                                 328 {
363   // check input                               << 329   //G4cout << "%%%%%% InitialiseCouples= " << G4endl; 
364   G4PhysicsTable* table = G4PhysicsTableHelper << 330   isInitialized = true;
365   if (nullptr == table) { return table; }      << 
366   if (aTable != nullptr && aTable != table) {  << 
367     aTable->clearAndDestroy();                 << 
368     delete aTable;                             << 
369   }                                            << 
370                                                << 
371   InitialiseBaseMaterials(table);              << 
372   G4int nbins = theParameters->NumberOfBinsPer << 
373                                                   331 
374   // Access to materials                       << 332   // variable density initialisation for the cas without tables 
375   const G4ProductionCutsTable* theCoupleTable=    333   const G4ProductionCutsTable* theCoupleTable=
376         G4ProductionCutsTable::GetProductionCu << 334     G4ProductionCutsTable::GetProductionCutsTable();
377   std::size_t numOfCouples = theCoupleTable->G << 335   size_t nCouples = theCoupleTable->GetTableSize();
378   /*                                           << 
379   G4cout << "   G4LossTableBuilder::BuildTable << 
380    << " isMaster=" << isInitializer << " model << 
381    << "  " << part->GetParticleName() << G4end << 
382   */                                           << 
383   G4PhysicsLogVector* aVector = nullptr;       << 
384                                                   336 
385   for(G4int i=0; i<(G4int)numOfCouples; ++i) { << 337   theDensityFactor->resize(nCouples, 1.0);
386     //G4cout << i << ".  " << (*theFlag)[i] << << 338   theDensityIdx->resize(nCouples, -1);
387     if (table->GetFlag(i)) {                   << 339   theFlag->resize(nCouples, true);
388                                                << 340 
389       // create physics vector and fill it     << 341   for(size_t i=0; i<nCouples; ++i) {
390       auto couple = theCoupleTable->GetMateria << 
391       delete (*table)[i];                      << 
392                                                << 
393       // if start from zero then change the sc << 
394       const G4Material* mat = couple->GetMater << 
395                                                << 
396       G4double tmin = std::max(emin, model->Mi << 
397       if(0.0 >= tmin) { tmin = CLHEP::eV; }    << 
398       G4int n = nbins;                         << 
399                                                << 
400       if(tmin >= emax) {                       << 
401         aVector = nullptr;                     << 
402       } else {                                 << 
403         n *= G4lrint(std::log10(emax/tmin));   << 
404         n = std::max(n, 3);                    << 
405         aVector = new G4PhysicsLogVector(tmin, << 
406       }                                        << 
407                                                   342 
408       if(nullptr != aVector) {                 << 343     // base material is needed only for a couple which is not
409         //G4cout << part->GetParticleName() << << 344     // initialised and for which tables will be computed
410   //     << " emin= " << tmin << " emax=" << e << 345     if ((*theDensityIdx)[i] < 0) {
411         for(G4int j=0; j<=n; ++j) {            << 346       (*theDensityIdx)[i] = i;
412     G4double e = aVector->Energy(j);           << 347       const G4MaterialCutsCouple* couple =
413     G4double y = model->Value(couple, part, e) << 348   theCoupleTable->GetMaterialCutsCouple(i);
414     //G4cout << "      " << j << ") E=" << e < << 349       const G4ProductionCuts* pcuts = couple->GetProductionCuts();
415           aVector->PutValue(j, y);             << 350       const G4Material* mat  = couple->GetMaterial();
416         }                                      << 351       const G4Material* bmat = mat->GetBaseMaterial();
417         if(spline) { aVector->FillSecondDeriva << 352 
                                                   >> 353       // base material exists - find it and check if it can be reused
                                                   >> 354       if(bmat) {
                                                   >> 355   for(size_t j=0; j<nCouples; ++j) {
                                                   >> 356 
                                                   >> 357     if(j == i) { continue; }
                                                   >> 358     const G4MaterialCutsCouple* bcouple =
                                                   >> 359       theCoupleTable->GetMaterialCutsCouple(j);
                                                   >> 360 
                                                   >> 361     if(bcouple->GetMaterial() == bmat && 
                                                   >> 362        bcouple->GetProductionCuts() == pcuts) {
                                                   >> 363 
                                                   >> 364       // based couple exist in the same region
                                                   >> 365       (*theDensityIdx)[i] = j;
                                                   >> 366       (*theDensityFactor)[i] = mat->GetDensity()/bmat->GetDensity();
                                                   >> 367       (*theFlag)[i] = false;
                                                   >> 368 
                                                   >> 369       // ensure that there will no double initialisation
                                                   >> 370       (*theDensityIdx)[j] = j;
                                                   >> 371       (*theDensityFactor)[j] = 1.0;
                                                   >> 372       (*theFlag)[j] = true;
                                                   >> 373       break;
                                                   >> 374     }
                                                   >> 375   }
418       }                                           376       }
419       G4PhysicsTableHelper::SetPhysicsVector(t << 
420     }                                             377     }
421   }                                               378   }
422   /*                                           << 
423   G4cout << "G4LossTableBuilder::BuildTableFor << 
424          << part->GetParticleName() << " and " << 
425          << "  " << table << G4endl;           << 
426   */                                           << 
427   //G4cout << *table << G4endl;                << 
428   return table;                                << 
429 }                                                 379 }
430                                                   380 
431 //....oooOO0OOooo........oooOO0OOooo........oo    381 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo....
                                                   >> 382 
432                                                   383