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Geant4/event/src/G4PrimaryTransformer.cc

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Differences between /event/src/G4PrimaryTransformer.cc (Version 11.3.0) and /event/src/G4PrimaryTransformer.cc (Version 10.1.p2)


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 25 //                                                 25 //
 26 // G4PrimaryTransformer class implementation   << 
 27 //                                                 26 //
 28 // Author: Makoto Asai, 1999                   <<  27 // $Id: G4PrimaryTransformer.cc 72252 2013-07-12 09:04:11Z gcosmo $
 29 // ------------------------------------------- <<  28 //
 30                                                    29 
 31 #include "G4PrimaryTransformer.hh"                 30 #include "G4PrimaryTransformer.hh"
 32 #include "G4SystemOfUnits.hh"                      31 #include "G4SystemOfUnits.hh"
 33 #include "G4Event.hh"                              32 #include "G4Event.hh"
 34 #include "G4PrimaryVertex.hh"                      33 #include "G4PrimaryVertex.hh"
 35 #include "G4ParticleDefinition.hh"                 34 #include "G4ParticleDefinition.hh"
 36 #include "G4DynamicParticle.hh"                    35 #include "G4DynamicParticle.hh"
 37 #include "G4Track.hh"                              36 #include "G4Track.hh"
 38 #include "G4ThreeVector.hh"                        37 #include "G4ThreeVector.hh"
 39 #include "G4DecayProducts.hh"                      38 #include "G4DecayProducts.hh"
 40 #include "G4UnitsTable.hh"                         39 #include "G4UnitsTable.hh"
 41 #include "G4ios.hh"                                40 #include "G4ios.hh"
 42 #include "Randomize.hh"                            41 #include "Randomize.hh"
 43                                                    42 
 44 G4double G4PrimaryTransformer::kETolerance = 1 << 
 45 G4ExceptionSeverity G4PrimaryTransformer::kETS << 
 46                                                << 
 47 G4PrimaryTransformer::G4PrimaryTransformer()       43 G4PrimaryTransformer::G4PrimaryTransformer()
                                                   >>  44 :verboseLevel(0),trackID(0),
                                                   >>  45  unknown(0),unknownParticleDefined(false),
                                                   >>  46  opticalphoton(0),opticalphotonDefined(false),
                                                   >>  47  nWarn(0)
 48 {                                                  48 {
 49   particleTable = G4ParticleTable::GetParticle     49   particleTable = G4ParticleTable::GetParticleTable();
 50   CheckUnknown();                                  50   CheckUnknown();
 51 }                                                  51 }
 52                                                    52 
                                                   >>  53 G4PrimaryTransformer::~G4PrimaryTransformer()
                                                   >>  54 {;}
                                                   >>  55 
 53 void G4PrimaryTransformer::CheckUnknown()          56 void G4PrimaryTransformer::CheckUnknown()
 54 {                                                  57 {
 55   unknown = particleTable->FindParticle("unkno     58   unknown = particleTable->FindParticle("unknown");
 56   unknownParticleDefined = unknown != nullptr; <<  59   if(unknown) 
 57   chargedunknown = particleTable->FindParticle <<  60   { unknownParticleDefined = true; }
 58   chargedUnknownParticleDefined = chargedunkno <<  61   else
                                                   >>  62   { unknownParticleDefined = false; }
 59   opticalphoton = particleTable->FindParticle(     63   opticalphoton = particleTable->FindParticle("opticalphoton");
 60   opticalphotonDefined = opticalphoton != null <<  64   if(opticalphoton) 
                                                   >>  65   { opticalphotonDefined = true; }
                                                   >>  66   else
                                                   >>  67   { opticalphotonDefined = false; }
 61 }                                                  68 }
 62                                                <<  69     
 63 G4TrackVector*                                 <<  70 G4TrackVector* G4PrimaryTransformer::GimmePrimaries(G4Event* anEvent,G4int trackIDCounter)
 64 G4PrimaryTransformer::GimmePrimaries(G4Event*  << 
 65 {                                                  71 {
 66   trackID = trackIDCounter;                        72   trackID = trackIDCounter;
 67                                                    73 
 68   for(auto tr : TV) delete tr;                 <<  74   //TV.clearAndDestroy();
                                                   >>  75   for( size_t ii=0; ii<TV.size();ii++)
                                                   >>  76   { delete TV[ii]; }
 69   TV.clear();                                      77   TV.clear();
 70                                                << 
 71   // Loop over vertices                        << 
 72   //                                           << 
 73   G4PrimaryVertex* nextVertex = anEvent->GetPr     78   G4PrimaryVertex* nextVertex = anEvent->GetPrimaryVertex();
 74   while(nextVertex != nullptr) // Loop checkin <<  79   while(nextVertex)
 75   {                                                80   { 
 76     GenerateTracks(nextVertex);                    81     GenerateTracks(nextVertex);
 77     nextVertex = nextVertex->GetNext();            82     nextVertex = nextVertex->GetNext();
 78   }                                                83   }
 79   return &TV;                                      84   return &TV;
 80 }                                                  85 }
 81                                                    86 
 82 void G4PrimaryTransformer::GenerateTracks(G4Pr     87 void G4PrimaryTransformer::GenerateTracks(G4PrimaryVertex* primaryVertex)
 83 {                                                  88 {
 84   G4double X0 = primaryVertex->GetX0();            89   G4double X0 = primaryVertex->GetX0();
 85   G4double Y0 = primaryVertex->GetY0();            90   G4double Y0 = primaryVertex->GetY0();
 86   G4double Z0 = primaryVertex->GetZ0();            91   G4double Z0 = primaryVertex->GetZ0();
 87   G4double T0 = primaryVertex->GetT0();            92   G4double T0 = primaryVertex->GetT0();
 88   G4double WV = primaryVertex->GetWeight();        93   G4double WV = primaryVertex->GetWeight();
 89                                                    94 
 90 #ifdef G4VERBOSE                                   95 #ifdef G4VERBOSE
 91   if(verboseLevel>2)                           <<  96   if(verboseLevel>2) { 
 92   {                                            << 
 93     primaryVertex->Print();                        97     primaryVertex->Print();
 94   }                                            <<  98   } else if (verboseLevel==1) {
 95   else if (verboseLevel==1)                    << 
 96   {                                            << 
 97     G4cout << "G4PrimaryTransformer::PrimaryVe     99     G4cout << "G4PrimaryTransformer::PrimaryVertex ("
 98            << X0 / mm << "(mm),"                  100            << X0 / mm << "(mm),"
 99            << Y0 / mm << "(mm),"                  101            << Y0 / mm << "(mm),"
100            << Z0 / mm << "(mm),"                  102            << Z0 / mm << "(mm),"
101            << T0 / nanosecond << "(nsec))" <<     103            << T0 / nanosecond << "(nsec))" << G4endl;
102   }                                               104   }
103 #endif                                            105 #endif
104                                                   106 
105   G4PrimaryParticle* primaryParticle = primary    107   G4PrimaryParticle* primaryParticle = primaryVertex->GetPrimary();
106   while( primaryParticle != nullptr ) // Loop  << 108   while( primaryParticle != 0 )
107   {                                               109   {
108     GenerateSingleTrack( primaryParticle, X0,     110     GenerateSingleTrack( primaryParticle, X0, Y0, Z0, T0, WV );
109     primaryParticle = primaryParticle->GetNext    111     primaryParticle = primaryParticle->GetNext();
110   }                                               112   }
111 }                                                 113 }
112                                                   114 
113 void G4PrimaryTransformer::                    << 115 void G4PrimaryTransformer::GenerateSingleTrack
114 GenerateSingleTrack( G4PrimaryParticle* primar << 116      (G4PrimaryParticle* primaryParticle,
115                      G4double x0, G4double y0, << 117       G4double x0,G4double y0,G4double z0,G4double t0,G4double wv)
116                      G4double t0, G4double wv) << 
117 {                                                 118 {
118   G4ParticleDefinition* partDef = GetDefinitio    119   G4ParticleDefinition* partDef = GetDefinition(primaryParticle);
119   if(!IsGoodForTrack(partDef))                    120   if(!IsGoodForTrack(partDef))
120   {  // The particle cannot be converted to G4 << 121   // The particle cannot be converted to G4Track, check daughters
                                                   >> 122   {
121 #ifdef G4VERBOSE                                  123 #ifdef G4VERBOSE
122     if(verboseLevel>1)                         << 124     if(verboseLevel>2)
123     {                                             125     {
124       G4cout << "Primary particle (PDGcode " <    126       G4cout << "Primary particle (PDGcode " << primaryParticle->GetPDGcode()
125              << ") --- Ignored" << G4endl;        127              << ") --- Ignored" << G4endl;
126     }                                             128     }
127 #endif                                            129 #endif 
128     G4PrimaryParticle* daughter = primaryParti    130     G4PrimaryParticle* daughter = primaryParticle->GetDaughter();
129     while(daughter != nullptr) // Loop checkin << 131     while(daughter)
130     {                                             132     {
131       GenerateSingleTrack(daughter,x0,y0,z0,t0    133       GenerateSingleTrack(daughter,x0,y0,z0,t0,wv);
132       daughter = daughter->GetNext();             134       daughter = daughter->GetNext();
133     }                                             135     }
134   }                                               136   }
135   else  // The particle is defined in GEANT4   << 137 
                                                   >> 138   // The particle is defined in GEANT4
                                                   >> 139   else
136   {                                               140   {
137     // Create G4DynamicParticle object            141     // Create G4DynamicParticle object
138 #ifdef G4VERBOSE                                  142 #ifdef G4VERBOSE
139     if(verboseLevel>1)                            143     if(verboseLevel>1)
140     {                                             144     {
141       G4cout << "Primary particle (" << partDe    145       G4cout << "Primary particle (" << partDef->GetParticleName()
142              << ") --- Transferred with moment << 146              << ") --- Transfered with momentum " << primaryParticle->GetMomentum()
143              << primaryParticle->GetMomentum() << 
144              << G4endl;                           147              << G4endl;
145     }                                             148     }
146 #endif                                            149 #endif
147     // Check the mass of the "real" particle   << 150     G4DynamicParticle* DP = 
148     // N.B. PDG code 0 is used for artificial  << 
149     if(primaryParticle->GetPDGcode() != 0 && k << 
150     {                                          << 
151       G4double pmas = partDef->GetPDGMass();   << 
152       if(std::abs(pmas - primaryParticle->GetM << 
153         G4ExceptionDescription ed;             << 
154         ed << "Primary particle PDG=" << prima << 
155            << " deltaMass(MeV)=" << (std::abs( << 
156            << " is larger than the tolerance(M << 
157            << "\n Specified mass(MeV)=" << (pr << 
158            << " while PDG mass(MEV)=" << pmas/ << 
159            << "\n To change the tolerance or t << 
160            << " use G4PrimaryTransformer::SetK << 
161         G4Exception("G4PrimaryParticle::Set4Mo << 
162       }                                        << 
163     }                                          << 
164     auto* DP =                                 << 
165       new G4DynamicParticle(partDef,              151       new G4DynamicParticle(partDef,
166                             primaryParticle->G << 152           primaryParticle->GetMomentumDirection(),
167                             primaryParticle->G << 153           primaryParticle->GetKineticEnergy());
168     if(opticalphotonDefined && partDef==optica << 154     if(opticalphotonDefined && partDef==opticalphoton && primaryParticle->GetPolarization().mag2()==0.)
169        && primaryParticle->GetPolarization().m << 
170     {                                             155     {
171       if(nWarn<10)                                156       if(nWarn<10)
172       {                                           157       {
173         G4Exception("G4PrimaryTransformer::Gen << 158         G4Exception("G4PrimaryTransformer::GenerateSingleTrack","ZeroPolarization",JustWarning,
174                     "ZeroPolarization", JustWa << 159                     "Polarization of the optical photon is null. Random polarization is assumed.");
175                     "Polarization of the optic << 
176                      Random polarization is as << 
177         G4cerr << "This warning message is iss    160         G4cerr << "This warning message is issued up to 10 times." << G4endl;
178         ++nWarn;                               << 161         nWarn++;
179       }                                           162       }
180                                                   163 
181       G4double angle = G4UniformRand() * 360.0    164       G4double angle = G4UniformRand() * 360.0*deg;
182       G4ThreeVector normal (1., 0., 0.);          165       G4ThreeVector normal (1., 0., 0.);
183       G4ThreeVector kphoton = DP->GetMomentumD    166       G4ThreeVector kphoton = DP->GetMomentumDirection();
184       G4ThreeVector product = normal.cross(kph    167       G4ThreeVector product = normal.cross(kphoton);
185       G4double modul2       = product*product;    168       G4double modul2       = product*product;
186                                                   169 
187       G4ThreeVector e_perpend (0., 0., 1.);       170       G4ThreeVector e_perpend (0., 0., 1.);
188       if (modul2 > 0.) e_perpend = (1./std::sq    171       if (modul2 > 0.) e_perpend = (1./std::sqrt(modul2))*product;
189       G4ThreeVector e_paralle    = e_perpend.c    172       G4ThreeVector e_paralle    = e_perpend.cross(kphoton);
190                                                   173 
191       G4ThreeVector polar = std::cos(angle)*e_ << 174       G4ThreeVector polar = std::cos(angle)*e_paralle + std::sin(angle)*e_perpend;
192                           + std::sin(angle)*e_ << 
193       DP->SetPolarization(polar.x(),polar.y(),    175       DP->SetPolarization(polar.x(),polar.y(),polar.z());
194     }                                             176     }
195     else                                          177     else
196     {                                             178     {
197       DP->SetPolarization(primaryParticle->Get    179       DP->SetPolarization(primaryParticle->GetPolX(),
198                           primaryParticle->Get    180                           primaryParticle->GetPolY(),
199                           primaryParticle->Get    181                           primaryParticle->GetPolZ());
200     }                                             182     }
201     if(primaryParticle->GetProperTime()>=0.0)  << 183     if(primaryParticle->GetProperTime()>0.0)
202     {                                          << 184     { DP->SetPreAssignedDecayProperTime(primaryParticle->GetProperTime()); }
203       DP->SetPreAssignedDecayProperTime(primar << 
204     }                                          << 
205                                                   185 
206     // Set Mass if it is specified                186     // Set Mass if it is specified
207     //                                         << 
208     G4double pmas = primaryParticle->GetMass()    187     G4double pmas = primaryParticle->GetMass();
209     if(pmas>=0.) { DP->SetMass(pmas); }        << 188     if(pmas>=0.)
                                                   >> 189     { DP->SetMass(pmas); }
210                                                   190 
211     // Set Charge if it is specified              191     // Set Charge if it is specified
212     //                                         << 192     if (primaryParticle->GetCharge()<DBL_MAX) {
213     if (primaryParticle->GetCharge()<DBL_MAX)  << 193       if (partDef->GetAtomicNumber() <0) {
214     {                                          << 194   DP->SetCharge(primaryParticle->GetCharge());
215       if (partDef->GetAtomicNumber() <0)       << 195       } else {
216       {                                        << 196   // ions
217         DP->SetCharge(primaryParticle->GetChar << 197   G4int iz = partDef->GetAtomicNumber();
218       }                                        << 198   G4int iq = static_cast<int>(primaryParticle->GetCharge()/eplus);
219       else  // ions                            << 199   G4int n_e = iz - iq;
220       {                                        << 200   if (n_e>0) DP->AddElectron(0,n_e);  
221         G4int iz = partDef->GetAtomicNumber(); << 201        }
222         auto  iq = static_cast<G4int>(primaryP << 
223         G4int n_e = iz - iq;                   << 
224         if (n_e>0) DP->AddElectron(0,n_e);     << 
225       }                                        << 
226     }                                             202     } 
227     // Set decay products to the DynamicPartic    203     // Set decay products to the DynamicParticle
228     //                                         << 
229     SetDecayProducts( primaryParticle, DP );      204     SetDecayProducts( primaryParticle, DP );
230                                                << 
231     // Set primary particle                       205     // Set primary particle
232     //                                         << 
233     DP->SetPrimaryParticle(primaryParticle);      206     DP->SetPrimaryParticle(primaryParticle);
234                                                << 
235     // Set PDG code if it is different from G4    207     // Set PDG code if it is different from G4ParticleDefinition
236     //                                         << 
237     if(partDef->GetPDGEncoding()==0 && primary    208     if(partDef->GetPDGEncoding()==0 && primaryParticle->GetPDGcode()!=0)
238     {                                             209     {
239       DP->SetPDGcode(primaryParticle->GetPDGco    210       DP->SetPDGcode(primaryParticle->GetPDGcode());
240     }                                             211     }
241                                                << 
242     // Check the particle is properly construc    212     // Check the particle is properly constructed
243     //                                         << 
244     if(!CheckDynamicParticle(DP))                 213     if(!CheckDynamicParticle(DP))
245     {                                             214     {
246       delete DP;                                  215       delete DP;
247       return;                                     216       return;
248     }                                             217     }
249                                                << 
250     // Create G4Track object                      218     // Create G4Track object
251     //                                         << 219     G4Track* track = new G4Track(DP,t0,G4ThreeVector(x0,y0,z0));
252     auto  track = new G4Track(DP,t0,G4ThreeVec << 
253                                                << 
254     // Set trackID and let primary particle kn    220     // Set trackID and let primary particle know it
255     //                                         << 221     trackID++;
256     ++trackID;                                 << 
257     track->SetTrackID(trackID);                   222     track->SetTrackID(trackID);
258     primaryParticle->SetTrackID(trackID);         223     primaryParticle->SetTrackID(trackID);
259                                                << 
260     // Set parentID to 0 as a primary particle    224     // Set parentID to 0 as a primary particle
261     //                                         << 
262     track->SetParentID(0);                        225     track->SetParentID(0);
263                                                << 
264     // Set weight ( vertex weight * particle w    226     // Set weight ( vertex weight * particle weight )
265     //                                         << 
266     track->SetWeight(wv*(primaryParticle->GetW    227     track->SetWeight(wv*(primaryParticle->GetWeight()));
267                                                << 
268     // Store it to G4TrackVector                  228     // Store it to G4TrackVector
269     //                                         << 
270     TV.push_back( track );                        229     TV.push_back( track );
                                                   >> 230 
271   }                                               231   }
272 }                                                 232 }
273                                                   233 
274 void G4PrimaryTransformer::                    << 234 void G4PrimaryTransformer::SetDecayProducts
275 SetDecayProducts(G4PrimaryParticle* mother, G4 << 235       (G4PrimaryParticle* mother, G4DynamicParticle* motherDP)
276 {                                                 236 {
277   G4PrimaryParticle* daughter = mother->GetDau    237   G4PrimaryParticle* daughter = mother->GetDaughter();
278   if(daughter == nullptr) return;              << 238   if(!daughter) return;
279   auto* decayProducts                          << 239   G4DecayProducts* decayProducts = (G4DecayProducts*)(motherDP->GetPreAssignedDecayProducts() );
280     = (G4DecayProducts*)(motherDP->GetPreAssig << 240   if(!decayProducts)
281   if(decayProducts == nullptr)                 << 
282   {                                               241   {
283     decayProducts = new G4DecayProducts(*mothe    242     decayProducts = new G4DecayProducts(*motherDP);
284     motherDP->SetPreAssignedDecayProducts(deca    243     motherDP->SetPreAssignedDecayProducts(decayProducts);
285   }                                               244   }
286   while(daughter != nullptr)                   << 245   while(daughter)
287   {                                               246   {
288     G4ParticleDefinition* partDef = GetDefinit    247     G4ParticleDefinition* partDef = GetDefinition(daughter);
289     if(!IsGoodForTrack(partDef))                  248     if(!IsGoodForTrack(partDef))
290     {                                             249     { 
291 #ifdef G4VERBOSE                                  250 #ifdef G4VERBOSE
292       if(verboseLevel>2)                          251       if(verboseLevel>2)
293       {                                           252       {
294         G4cout << " >> Decay product (PDGcode     253         G4cout << " >> Decay product (PDGcode " << daughter->GetPDGcode()
295                << ") --- Ignored" << G4endl;      254                << ") --- Ignored" << G4endl;
296       }                                           255       }
297 #endif                                            256 #endif 
298       SetDecayProducts(daughter,motherDP);        257       SetDecayProducts(daughter,motherDP);
299     }                                             258     }
300     else                                          259     else
301     {                                             260     {
302 #ifdef G4VERBOSE                                  261 #ifdef G4VERBOSE
303       if(verboseLevel>1)                          262       if(verboseLevel>1)
304       {                                           263       {
305         G4cout << " >> Decay product (" << par    264         G4cout << " >> Decay product (" << partDef->GetParticleName()
306                << ") --- Attached with momentu    265                << ") --- Attached with momentum " << daughter->GetMomentum()
307                << G4endl;                         266                << G4endl;
308       }                                           267       }
309 #endif                                            268 #endif
310       auto* DP                                 << 269       G4DynamicParticle*DP 
311         = new G4DynamicParticle(partDef,daught    270         = new G4DynamicParticle(partDef,daughter->GetMomentum());
312       DP->SetPrimaryParticle(daughter);           271       DP->SetPrimaryParticle(daughter);
313                                                << 
314       // Decay proper time for daughter           272       // Decay proper time for daughter
315       //                                       << 273       if(daughter->GetProperTime()>0.0)
316       if(daughter->GetProperTime()>=0.0)       << 274       { DP->SetPreAssignedDecayProperTime(daughter->GetProperTime()); }
317       {                                        << 275       // Set Charge is specified
318         DP->SetPreAssignedDecayProperTime(daug << 276       if (daughter->GetCharge()<DBL_MAX) {
319       }                                        << 
320                                                << 
321       // Set Charge and Mass is specified      << 
322       //                                       << 
323       if (daughter->GetCharge()<DBL_MAX)       << 
324       {                                        << 
325         DP->SetCharge(daughter->GetCharge());     277         DP->SetCharge(daughter->GetCharge());
326       }                                           278       } 
327       G4double pmas = daughter->GetMass();        279       G4double pmas = daughter->GetMass();
328       if(pmas>=0.)                                280       if(pmas>=0.)
329       {                                        << 281       { DP->SetMass(pmas); }
330         DP->SetMass(pmas);                     << 
331       }                                        << 
332                                                << 
333       // Set Polarization                      << 
334       //                                       << 
335       DP->SetPolarization(daughter->GetPolX(), << 
336                           daughter->GetPolY(), << 
337                           daughter->GetPolZ()) << 
338       decayProducts->PushProducts(DP);            282       decayProducts->PushProducts(DP);
339       SetDecayProducts(daughter,DP);              283       SetDecayProducts(daughter,DP);
340                                                << 
341       // Check the particle is properly constr    284       // Check the particle is properly constructed
342       //                                       << 
343       if(!CheckDynamicParticle(DP))               285       if(!CheckDynamicParticle(DP))
344       {                                           286       {
345         delete DP;                                287         delete DP;
346         return;                                   288         return;
347       }                                           289       }
348     }                                             290     }
349     daughter = daughter->GetNext();               291     daughter = daughter->GetNext();
350   }                                               292   }
351 }                                                 293 }
352                                                   294 
353 void G4PrimaryTransformer::SetUnknownParticleD << 295 void G4PrimaryTransformer::SetUnknnownParticleDefined(G4bool vl)
354 {                                                 296 {
355   unknownParticleDefined = vl;                    297   unknownParticleDefined = vl;
356   if(unknownParticleDefined && (unknown == nul << 298   if(unknownParticleDefined && !unknown)
357   {                                            << 299   { G4cerr << "unknownParticleDefined cannot be set true because G4UnknownParticle is not defined in the physics list."
358     G4cerr << "unknownParticleDefined cannot b << 300            << G4endl << "Command ignored." << G4endl;
359            << "G4UnknownParticle is not define << 
360            << "Command ignored." << G4endl;    << 
361     unknownParticleDefined = false;               301     unknownParticleDefined = false;
362   }                                               302   }
363 }                                                 303 }
364                                                   304 
365 void G4PrimaryTransformer::SetChargedUnknownPa << 305 G4bool G4PrimaryTransformer::CheckDynamicParticle(G4DynamicParticle*DP)
366 {                                              << 
367   chargedUnknownParticleDefined = vl;          << 
368   if(chargedUnknownParticleDefined && (charged << 
369   {                                            << 
370     G4cerr << "chargedUnknownParticleDefined c << 
371            << "G4ChargedUnknownParticle is not << 
372            << "Command ignored." << G4endl;    << 
373     chargedUnknownParticleDefined = false;     << 
374   }                                            << 
375 }                                              << 
376                                                << 
377 G4bool G4PrimaryTransformer::CheckDynamicParti << 
378 {                                                 306 {
379   if(IsGoodForTrack(DP->GetDefinition())) retu    307   if(IsGoodForTrack(DP->GetDefinition())) return true;
380   auto* decayProducts                          << 308   G4DecayProducts* decayProducts = (G4DecayProducts*)(DP->GetPreAssignedDecayProducts());
381     = (G4DecayProducts*)(DP->GetPreAssignedDec << 309   if(decayProducts && decayProducts->entries()>0) return true;
382   if(decayProducts != nullptr && decayProducts << 
383   G4cerr << G4endl                                310   G4cerr << G4endl
384          << "G4PrimaryTransformer: a shortlive << 311          << "G4PrimaryTransformer: a shortlived primary particle is found" << G4endl
385          << G4endl                             << 312          << " without any valid decay table nor pre-assigned decay mode." << G4endl;
386          << " without any valid decay table no << 313   G4Exception("G4PrimaryTransformer","InvalidPrimary",JustWarning,
387          << G4endl;                            << 
388   G4Exception("G4PrimaryTransformer", "Invalid << 
389               "This primary particle will be i    314               "This primary particle will be ignored.");
390   return false;                                   315   return false;
391 }                                                 316 }
392                                                   317 
393 G4ParticleDefinition*                          << 318 G4ParticleDefinition* G4PrimaryTransformer::GetDefinition(G4PrimaryParticle*pp)
394 G4PrimaryTransformer::GetDefinition(G4PrimaryP << 
395 {                                                 319 {
396   G4ParticleDefinition* partDef = pp->GetG4cod    320   G4ParticleDefinition* partDef = pp->GetG4code();
397   if(partDef == nullptr)                       << 321   if(!partDef) partDef = particleTable->FindParticle(pp->GetPDGcode());
398   {                                            << 322   if(unknownParticleDefined && ((!partDef)||partDef->IsShortLived())) partDef = unknown;
399     partDef = particleTable->FindParticle(pp-> << 
400   }                                            << 
401   if((partDef == nullptr) || partDef->IsShortL << 
402   {                                            << 
403     if (chargedUnknownParticleDefined && pp->G << 
404     {                                          << 
405       partDef = chargedunknown;                << 
406     }                                          << 
407     else if (unknownParticleDefined)           << 
408     {                                          << 
409       partDef = unknown;                       << 
410     }                                          << 
411   }                                            << 
412   return partDef;                                 323   return partDef;
413 }                                                 324 }
414                                                   325 
415 G4bool G4PrimaryTransformer::IsGoodForTrack(G4    326 G4bool G4PrimaryTransformer::IsGoodForTrack(G4ParticleDefinition* pd)
416 {                                                 327 {
417   if(pd == nullptr)                            << 328   if(!pd)
418   { return false; }                               329   { return false; }
419   if(!(pd->IsShortLived()))                    << 330   else if(!(pd->IsShortLived()))
420   { return true; }                                331   { return true; }
421   //                                           << 332 // Following two lines should be removed if the user does not want to make shortlived 
422   // Following two lines should be removed if  << 333 // primary particle with proper decay table to be converted into a track.
423   // shortlived primary particle with proper d << 334   else if(pd->GetDecayTable())
424   // a track.                                  << 
425   //                                           << 
426   if(pd->GetDecayTable() != nullptr)           << 
427   { return true; }                                335   { return true; }
428                                                << 
429   return false;                                   336   return false;
430 }                                                 337 }
                                                   >> 338 
431                                                   339