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Geant4/processes/hadronic/models/parton_string/hadronization/src/G4ExcitedStringDecay.cc

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Differences between /processes/hadronic/models/parton_string/hadronization/src/G4ExcitedStringDecay.cc (Version 11.3.0) and /processes/hadronic/models/parton_string/hadronization/src/G4ExcitedStringDecay.cc (Version 11.1)


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 25 //                                                 25 //
 26 // Historic fragment from M.Komogorov; clean-u     26 // Historic fragment from M.Komogorov; clean-up still necessary @@@
 27                                                    27 
 28 #include "G4ExcitedStringDecay.hh"                 28 #include "G4ExcitedStringDecay.hh"
 29 #include "G4SystemOfUnits.hh"                      29 #include "G4SystemOfUnits.hh"
 30 #include "G4KineticTrack.hh"                       30 #include "G4KineticTrack.hh"
 31 #include "G4LundStringFragmentation.hh"            31 #include "G4LundStringFragmentation.hh"
 32 #include "G4HadronicInteractionRegistry.hh"        32 #include "G4HadronicInteractionRegistry.hh"
 33                                                    33 
 34 #include "G4SampleResonance.hh"                    34 #include "G4SampleResonance.hh"
 35                                                    35 
 36 //#define debug_G4ExcitedStringDecay               36 //#define debug_G4ExcitedStringDecay
 37 //#define debug_G4ExcitedStringCorr                37 //#define debug_G4ExcitedStringCorr
 38                                                    38 
 39 G4ExcitedStringDecay::G4ExcitedStringDecay(G4V     39 G4ExcitedStringDecay::G4ExcitedStringDecay(G4VLongitudinalStringDecay* ptr)
 40   : G4VStringFragmentation(), theStringDecay(p     40   : G4VStringFragmentation(), theStringDecay(ptr)
 41 {                                                  41 {
 42   if(!ptr) {                                       42   if(!ptr) { 
 43     G4HadronicInteraction* p =                     43     G4HadronicInteraction* p =
 44       G4HadronicInteractionRegistry::Instance(     44       G4HadronicInteractionRegistry::Instance()->FindModel("LundStringFragmentation");
 45     theStringDecay = static_cast<G4VLongitudin     45     theStringDecay = static_cast<G4VLongitudinalStringDecay*>(p);
 46     if(!theStringDecay) { theStringDecay = new     46     if(!theStringDecay) { theStringDecay = new G4LundStringFragmentation(); }
 47   }                                                47   } 
 48   SetModelName(theStringDecay->GetModelName())     48   SetModelName(theStringDecay->GetModelName());
 49 }                                                  49 }
 50                                                    50 
 51 G4ExcitedStringDecay::~G4ExcitedStringDecay()      51 G4ExcitedStringDecay::~G4ExcitedStringDecay()
 52 {}                                                 52 {}
 53                                                    53 
 54 G4KineticTrackVector *G4ExcitedStringDecay::Fr     54 G4KineticTrackVector *G4ExcitedStringDecay::FragmentString(const G4ExcitedString &theString)
 55 {                                                  55 {
 56   return theStringDecay->FragmentString(theStr     56   return theStringDecay->FragmentString(theString);
 57 }                                                  57 }
 58                                                    58 
 59 G4KineticTrackVector *G4ExcitedStringDecay::Fr     59 G4KineticTrackVector *G4ExcitedStringDecay::FragmentStrings(const G4ExcitedStringVector * theStrings)
 60 {                                                  60 {
 61   G4LorentzVector KTsum(0.,0.,0.,0.);              61   G4LorentzVector KTsum(0.,0.,0.,0.);
 62                                                    62 
 63   #ifdef debug_G4ExcitedStringDecay                63   #ifdef debug_G4ExcitedStringDecay
 64   G4cout<<G4endl;                                  64   G4cout<<G4endl;
 65   G4cout<<"--------------------------- G4Excit     65   G4cout<<"--------------------------- G4ExcitedStringDecay ----------------------"<<G4endl;
 66   G4cout<<"Hadronization of Excited Strings: t     66   G4cout<<"Hadronization of Excited Strings: theStrings->size() "<<theStrings->size()<<G4endl;
 67   #endif                                           67   #endif
 68                                                    68 
 69   for ( unsigned int astring=0; astring < theS     69   for ( unsigned int astring=0; astring < theStrings->size(); astring++)
 70   // for ( unsigned int astring=0; astring < 1     70   // for ( unsigned int astring=0; astring < 1; astring++)
 71   {                                                71   {
 72     // G4cout<<"theStrings->operator[](astring     72     // G4cout<<"theStrings->operator[](astring)->IsExcited() "<<" "<<astring<<" "<<theStrings->operator[](astring)->IsExcited()<<G4endl;
 73     if ( theStrings->operator[](astring)->IsEx     73     if ( theStrings->operator[](astring)->IsExcited() )
 74          {KTsum+= theStrings->operator[](astri     74          {KTsum+= theStrings->operator[](astring)->Get4Momentum();}
 75     else {KTsum+=theStrings->operator[](astrin     75     else {KTsum+=theStrings->operator[](astring)->GetKineticTrack()->Get4Momentum();}
 76   }                                                76   }
 77                                                    77 
 78   G4LorentzRotation toCms( -1 * KTsum.boostVec     78   G4LorentzRotation toCms( -1 * KTsum.boostVector() );
 79   G4LorentzRotation toLab(toCms.inverse());        79   G4LorentzRotation toLab(toCms.inverse());
 80   G4LorentzVector Ptmp;                            80   G4LorentzVector Ptmp;
 81   KTsum=G4LorentzVector(0.,0.,0.,0.);              81   KTsum=G4LorentzVector(0.,0.,0.,0.);
 82                                                    82 
 83   for ( unsigned int astring=0; astring < theS     83   for ( unsigned int astring=0; astring < theStrings->size(); astring++)
 84   // for ( unsigned int astring=0; astring < 1     84   // for ( unsigned int astring=0; astring < 1; astring++)
 85   {                                                85   {
 86     if ( theStrings->operator[](astring)->IsEx     86     if ( theStrings->operator[](astring)->IsExcited() )
 87     {                                              87     {
 88       Ptmp=toCms * theStrings->operator[](astr     88       Ptmp=toCms * theStrings->operator[](astring)->GetLeftParton()->Get4Momentum();
 89       theStrings->operator[](astring)->GetLeft     89       theStrings->operator[](astring)->GetLeftParton()->Set4Momentum(Ptmp);
 90                                                    90 
 91       Ptmp=toCms * theStrings->operator[](astr     91       Ptmp=toCms * theStrings->operator[](astring)->GetRightParton()->Get4Momentum();
 92       theStrings->operator[](astring)->GetRigh     92       theStrings->operator[](astring)->GetRightParton()->Set4Momentum(Ptmp);
 93                                                    93 
 94       KTsum+= theStrings->operator[](astring)-     94       KTsum+= theStrings->operator[](astring)->Get4Momentum();
 95     }                                              95     }
 96     else                                           96     else
 97     {                                              97     {
 98       Ptmp=toCms * theStrings->operator[](astr     98       Ptmp=toCms * theStrings->operator[](astring)->GetKineticTrack()->Get4Momentum();
 99       theStrings->operator[](astring)->GetKine     99       theStrings->operator[](astring)->GetKineticTrack()->Set4Momentum(Ptmp);
100       KTsum+= theStrings->operator[](astring)-    100       KTsum+= theStrings->operator[](astring)->GetKineticTrack()->Get4Momentum();
101     }                                             101     }
102   }                                               102   }
103                                                   103 
104   G4SampleResonance BrW;                          104   G4SampleResonance BrW;
105   const G4ParticleDefinition* TrackDefinition=    105   const G4ParticleDefinition* TrackDefinition=0;
106                                                   106 
107   G4KineticTrackVector * theResult = new G4Kin    107   G4KineticTrackVector * theResult = new G4KineticTrackVector;
108   G4int attempts(0);                              108   G4int attempts(0);
109   G4bool success=false;                           109   G4bool success=false;
110   G4bool NeedEnergyCorrector=false;               110   G4bool NeedEnergyCorrector=false;
111   do {                                            111   do {
112         #ifdef debug_G4ExcitedStringDecay         112         #ifdef debug_G4ExcitedStringDecay  
113         G4cout<<"New try No "<<attempts<<" to     113         G4cout<<"New try No "<<attempts<<" to hadronize strings"<<G4endl;
114         #endif                                    114         #endif
115                                                   115 
116   std::for_each(theResult->begin() , theResult    116   std::for_each(theResult->begin() , theResult->end() , DeleteKineticTrack());
117   theResult->clear();                             117   theResult->clear();
118                                                   118 
119   attempts++;                                     119   attempts++;
120                                                   120 
121   G4LorentzVector KTsecondaries(0.,0.,0.,0.);     121   G4LorentzVector KTsecondaries(0.,0.,0.,0.);
122   NeedEnergyCorrector=false;                      122   NeedEnergyCorrector=false;
123                                                   123 
124   for ( unsigned int astring=0; astring < theS    124   for ( unsigned int astring=0; astring < theStrings->size(); astring++)
125         // for ( unsigned int astring=0; astri    125         // for ( unsigned int astring=0; astring < 1; astring++)  // Proj. Last Str. Decay for FTF
126         // for ( unsigned int astring=1; astri    126         // for ( unsigned int astring=1; astring < 2; astring++)  // Proj. Last Str. Decay for QGS
127         // for ( unsigned int astring=0; astri    127         // for ( unsigned int astring=0; astring < 1; astring++)  // For testing purposes
128   {                                               128   {
129           #ifdef debug_G4ExcitedStringDecay       129           #ifdef debug_G4ExcitedStringDecay  
130           G4cout<<"String No "<<astring+1<<" E    130           G4cout<<"String No "<<astring+1<<" Excited?  "<<theStrings->operator[](astring)->IsExcited()<<G4endl;
131                                                   131 
132           G4cout<<"String No "<<astring+1<<" 4    132           G4cout<<"String No "<<astring+1<<" 4Momentum "<<theStrings->operator[](astring)->Get4Momentum()
133           <<" "<<theStrings->operator[](astrin    133           <<" "<<theStrings->operator[](astring)->Get4Momentum().mag()<<G4endl;
134           #endif                                  134           #endif
135                                                   135 
136           G4KineticTrackVector * generatedKine    136           G4KineticTrackVector * generatedKineticTracks = NULL;
137     if ( theStrings->operator[](astring)->IsEx    137     if ( theStrings->operator[](astring)->IsExcited() )
138     {                                             138     {
139              #ifdef debug_G4ExcitedStringDecay    139              #ifdef debug_G4ExcitedStringDecay  
140              G4cout<<"Fragment String with par    140              G4cout<<"Fragment String with partons: "
141                    <<theStrings->operator[](as    141                    <<theStrings->operator[](astring)->GetLeftParton()->GetPDGcode() <<" "
142                    <<theStrings->operator[](as    142                    <<theStrings->operator[](astring)->GetRightParton()->GetPDGcode()<<" "
143                    <<"Direction "<<theStrings-    143                    <<"Direction "<<theStrings->operator[](astring)->GetDirection()<<G4endl;
144              #endif                               144              #endif
145          generatedKineticTracks=FragmentString    145          generatedKineticTracks=FragmentString(*theStrings->operator[](astring));
146              #ifdef debug_G4ExcitedStringDecay    146              #ifdef debug_G4ExcitedStringDecay  
147              G4cout<<"(G4ExcitedStringDecay) N    147              G4cout<<"(G4ExcitedStringDecay) Number of produced hadrons = "
148                    <<generatedKineticTracks->s    148                    <<generatedKineticTracks->size()<<G4endl;
149              #endif                               149              #endif
150     } else {                                      150     } else {
151              #ifdef debug_G4ExcitedStringDecay    151              #ifdef debug_G4ExcitedStringDecay  
152              G4cout<<"   GetTrack from the Str    152              G4cout<<"   GetTrack from the String"<<G4endl;
153              #endif                               153              #endif
154              G4LorentzVector Mom=theStrings->o    154              G4LorentzVector Mom=theStrings->operator[](astring)->GetKineticTrack()->Get4Momentum();
155              G4KineticTrack * aTrack= new G4Ki    155              G4KineticTrack * aTrack= new G4KineticTrack(
156                             theStrings->operat    156                             theStrings->operator[](astring)->GetKineticTrack()->GetDefinition(),
157                             theStrings->operat    157                             theStrings->operator[](astring)->GetKineticTrack()->GetFormationTime(),
158                             G4ThreeVector(0),     158                             G4ThreeVector(0), Mom);
159                                                   159 
160              aTrack->SetPosition(theStrings->o    160              aTrack->SetPosition(theStrings->operator[](astring)->GetKineticTrack()->GetPosition());
161                                                   161 
162              #ifdef debug_G4ExcitedStringDecay    162              #ifdef debug_G4ExcitedStringDecay  
163              G4cout<<"   A particle stored in     163              G4cout<<"   A particle stored in the track is "<<aTrack->GetDefinition()->GetParticleName()<<G4endl;
164              #endif                               164              #endif
165                                                   165 
166        generatedKineticTracks = new G4KineticT    166        generatedKineticTracks = new G4KineticTrackVector;
167        generatedKineticTracks->push_back(aTrac    167        generatedKineticTracks->push_back(aTrack);
168     }                                             168     }    
169                                                   169 
170     if (generatedKineticTracks == nullptr || g    170     if (generatedKineticTracks == nullptr || generatedKineticTracks->size() == 0)
171     {                                             171     {
172              // G4cerr << "G4VPartonStringMode    172              // G4cerr << "G4VPartonStringModel:No KineticTracks produced" << G4endl; 
173        delete generatedKineticTracks;          << 
174        generatedKineticTracks = nullptr;       << 
175              continue;                            173              continue;
176     }                                             174     }
177                                                   175 
178           G4LorentzVector KTsum1(0.,0.,0.,0.);    176           G4LorentzVector KTsum1(0.,0.,0.,0.);
179           for ( unsigned int aTrack=0; aTrack<    177           for ( unsigned int aTrack=0; aTrack<generatedKineticTracks->size();aTrack++)
180     {                                             178     {
181              #ifdef debug_G4ExcitedStringDecay    179              #ifdef debug_G4ExcitedStringDecay  
182              G4cout<<"Prod part No. "<<aTrack+    180              G4cout<<"Prod part No. "<<aTrack+1<<" "
183                    <<(*generatedKineticTracks)    181                    <<(*generatedKineticTracks)[aTrack]->GetDefinition()->GetParticleName()<<" "
184                    <<(*generatedKineticTracks)    182                    <<(*generatedKineticTracks)[aTrack]->Get4Momentum()
185                    <<(*generatedKineticTracks)    183                    <<(*generatedKineticTracks)[aTrack]->Get4Momentum().mag()<<G4endl;
186              #endif                               184              #endif
187              // --------------- Sampling mass     185              // --------------- Sampling mass of unstable hadronic resonances ----------------
188              TrackDefinition = (*generatedKine    186              TrackDefinition = (*generatedKineticTracks)[aTrack]->GetDefinition();
189                                                   187 
190        if (TrackDefinition->IsShortLived())       188        if (TrackDefinition->IsShortLived())
191              {                                    189              {
192                G4double NewTrackMass =            190                G4double NewTrackMass = 
193                  BrW.SampleMass( TrackDefiniti    191                  BrW.SampleMass( TrackDefinition->GetPDGMass(), TrackDefinition->GetPDGWidth(),
194                                  BrW.GetMinimu    192                                  BrW.GetMinimumMass( TrackDefinition ) + 10.0*MeV, 
195                                  TrackDefiniti    193                                  TrackDefinition->GetPDGMass() + 5.0*TrackDefinition->GetPDGWidth() );
196                G4LorentzVector Tmp=G4LorentzVe    194                G4LorentzVector Tmp=G4LorentzVector((*generatedKineticTracks)[aTrack]->Get4Momentum());
197                Tmp.setE(std::sqrt(sqr(NewTrack    195                Tmp.setE(std::sqrt(sqr(NewTrackMass) + Tmp.vect().mag2()));
198                                                   196 
199                (*generatedKineticTracks)[aTrac    197                (*generatedKineticTracks)[aTrack]->Set4Momentum(Tmp);
200                                                   198 
201                #ifdef debug_G4ExcitedStringDec    199                #ifdef debug_G4ExcitedStringDecay  
202                G4cout<<"Resonance *** "<<aTrac    200                G4cout<<"Resonance *** "<<aTrack+1<<" "
203                      <<(*generatedKineticTrack    201                      <<(*generatedKineticTracks)[aTrack]->GetDefinition()->GetParticleName()<<" "
204                      <<(*generatedKineticTrack    202                      <<(*generatedKineticTracks)[aTrack]->Get4Momentum()
205                      <<(*generatedKineticTrack    203                      <<(*generatedKineticTracks)[aTrack]->Get4Momentum().mag()<<G4endl;
206                #endif                             204                #endif
207            }                                      205            }
208              //-------------------------------    206              //-------------------------------------------------------------------------------
209                                                   207 
210              theResult->push_back(generatedKin    208              theResult->push_back(generatedKineticTracks->operator[](aTrack));
211              KTsum1+= (*generatedKineticTracks    209              KTsum1+= (*generatedKineticTracks)[aTrack]->Get4Momentum();
212     }                                             210     }
213     KTsecondaries+=KTsum1;                        211     KTsecondaries+=KTsum1;
214                                                   212   
215           #ifdef debug_G4ExcitedStringDecay       213           #ifdef debug_G4ExcitedStringDecay  
216           G4cout << "String secondaries(" <<ge    214           G4cout << "String secondaries(" <<generatedKineticTracks->size()<< ")"<<G4endl
217                  <<"Init  string  momentum: "<    215                  <<"Init  string  momentum: "<< theStrings->operator[](astring)->Get4Momentum()<<G4endl
218                  <<"Final hadrons momentum: "<    216                  <<"Final hadrons momentum: "<< KTsum1 << G4endl;
219           #endif                                  217           #endif
220                                                   218 
221     if  ( KTsum1.e() > 0 &&                       219     if  ( KTsum1.e() > 0 && 
222                 std::abs((KTsum1.e()-theString    220                 std::abs((KTsum1.e()-theStrings->operator[](astring)->Get4Momentum().e()) / KTsum1.e()) > perMillion )
223     {                                             221     {
224       NeedEnergyCorrector=true;                   222       NeedEnergyCorrector=true;
225     }                                             223     }
226                                                   224 
227           #ifdef debug_G4ExcitedStringDecay       225           #ifdef debug_G4ExcitedStringDecay  
228           G4cout<<"NeedEnergyCorrection yes/no    226           G4cout<<"NeedEnergyCorrection yes/no "<<NeedEnergyCorrector<<G4endl;
229           #endif                                  227           #endif
230                                                   228 
231           // clean up                             229           // clean up
232     delete generatedKineticTracks;                230     delete generatedKineticTracks;
233     success=true;                                 231     success=true;                          
234   }                                               232   }
235                                                   233 
236   if ( NeedEnergyCorrector ) success=EnergyAnd    234   if ( NeedEnergyCorrector ) success=EnergyAndMomentumCorrector(theResult, KTsum);
237   } while (!success && (attempts < 100));  /*     235   } while (!success && (attempts < 100));  /* Loop checking, 07.08.2015, A.Ribon */
238                                                   236 
239   for ( unsigned int aTrack=0; aTrack<theResul    237   for ( unsigned int aTrack=0; aTrack<theResult->size();aTrack++)
240   {                                               238   {
241     Ptmp=(*theResult)[aTrack]->Get4Momentum();    239     Ptmp=(*theResult)[aTrack]->Get4Momentum();
242     Ptmp.transform( toLab);                       240     Ptmp.transform( toLab);
243     (*theResult)[aTrack]->Set4Momentum(Ptmp);     241     (*theResult)[aTrack]->Set4Momentum(Ptmp);
244   }                                               242   }
245                                                   243 
246   #ifdef debug_G4ExcitedStringDecay               244   #ifdef debug_G4ExcitedStringDecay  
247   G4cout<<"End of the strings fragmentation (G    245   G4cout<<"End of the strings fragmentation (G4ExcitedStringDecay)"<<G4endl;
248                                                   246 
249   G4LorentzVector  KTsum1(0.,0.,0.,0.);           247   G4LorentzVector  KTsum1(0.,0.,0.,0.); 
250                                                   248 
251   for ( unsigned int aTrack=0; aTrack<theResul    249   for ( unsigned int aTrack=0; aTrack<theResult->size();aTrack++)
252   {                                               250   {
253       G4cout << " corrected tracks .. " << (*t    251       G4cout << " corrected tracks .. " << (*theResult)[aTrack]->GetDefinition()->GetParticleName()
254       <<"  " << (*theResult)[aTrack]->Get4Mome    252       <<"  " << (*theResult)[aTrack]->Get4Momentum() 
255       <<"  " << (*theResult)[aTrack]->Get4Mome    253       <<"  " << (*theResult)[aTrack]->Get4Momentum().mag()<< G4endl;
256       KTsum1+= (*theResult)[aTrack]->Get4Momen    254       KTsum1+= (*theResult)[aTrack]->Get4Momentum();
257   }                                               255   }
258                                                   256 
259   G4cout << "Needcorrector/success " << NeedEn    257   G4cout << "Needcorrector/success " << NeedEnergyCorrector << "/" << success 
260          << ", Corrected total  4 momentum " <    258          << ", Corrected total  4 momentum " << KTsum1  << G4endl;
261   if ( ! success ) G4cout << "failed to correc    259   if ( ! success ) G4cout << "failed to correct E/p" << G4endl;  
262                                                   260 
263   G4cout<<"End of the Hadronization (G4Excited    261   G4cout<<"End of the Hadronization (G4ExcitedStringDecay)"<<G4endl;
264   #endif                                          262   #endif
265                                                   263 
266   if (!success)                                   264   if (!success)
267   {                                               265   {
268     if (theResult->size() != 0)                   266     if (theResult->size() != 0)
269     {                                             267     {
270       std::for_each(theResult->begin() , theRe    268       std::for_each(theResult->begin() , theResult->end() , DeleteKineticTrack());
271       theResult->clear();                         269       theResult->clear();
272       delete theResult; theResult=0;              270       delete theResult; theResult=0;
273     }                                             271     }
274     for ( unsigned int astring=0; astring < th    272     for ( unsigned int astring=0; astring < theStrings->size(); astring++)
275     // for ( unsigned int astring=0; astring <    273     // for ( unsigned int astring=0; astring < 1; astring++) // Need more correct. For testing purposes.
276     {                                             274     {
277       if ( theStrings->operator[](astring)->Is    275       if ( theStrings->operator[](astring)->IsExcited() )
278       {                                           276       {
279         Ptmp=theStrings->operator[](astring)->    277         Ptmp=theStrings->operator[](astring)->GetLeftParton()->Get4Momentum();
280         Ptmp.transform( toLab);                   278         Ptmp.transform( toLab);
281         theStrings->operator[](astring)->GetLe    279         theStrings->operator[](astring)->GetLeftParton()->Set4Momentum(Ptmp);
282                                                   280 
283         Ptmp=theStrings->operator[](astring)->    281         Ptmp=theStrings->operator[](astring)->GetRightParton()->Get4Momentum();
284         Ptmp.transform( toLab);                   282         Ptmp.transform( toLab);
285         theStrings->operator[](astring)->GetRi    283         theStrings->operator[](astring)->GetRightParton()->Set4Momentum(Ptmp);
286       }                                           284       }
287       else                                        285       else
288       {                                           286       {
289         Ptmp=theStrings->operator[](astring)->    287         Ptmp=theStrings->operator[](astring)->GetKineticTrack()->Get4Momentum();
290         Ptmp.transform( toLab);                   288         Ptmp.transform( toLab);
291         theStrings->operator[](astring)->GetKi    289         theStrings->operator[](astring)->GetKineticTrack()->Set4Momentum(Ptmp);
292       }                                           290       }
293     }                                             291     }
294   }                                               292   }
295   return theResult;                               293   return theResult;
296 }                                                 294 }
297                                                   295 
298                                                   296 
299 G4bool G4ExcitedStringDecay::                     297 G4bool G4ExcitedStringDecay::
300 EnergyAndMomentumCorrector(G4KineticTrackVecto    298 EnergyAndMomentumCorrector(G4KineticTrackVector* Output, G4LorentzVector& TotalCollisionMom)   
301 {                                                 299 {
302     const int    nAttemptScale = 500;             300     const int    nAttemptScale = 500;
303     const double ErrLimit = 1.E-5;                301     const double ErrLimit = 1.E-5;
304     if (Output->empty()) return TRUE;             302     if (Output->empty()) return TRUE;
305     G4LorentzVector SumMom;                       303     G4LorentzVector SumMom;
306     G4double        SumMass = 0;                  304     G4double        SumMass = 0;
307     G4double        TotalCollisionMass = Total    305     G4double        TotalCollisionMass = TotalCollisionMom.m();
308                                                   306 
309     std::vector<G4double> HadronMass; G4double    307     std::vector<G4double> HadronMass; G4double HadronM(0.);
310                                                   308 
311     #ifdef debug_G4ExcitedStringCorr              309     #ifdef debug_G4ExcitedStringCorr
312     G4cout<<G4endl<<"EnergyAndMomentumCorrecto    310     G4cout<<G4endl<<"EnergyAndMomentumCorrector. Number of particles: "<<Output->size()<<G4endl;
313     #endif                                        311     #endif
314     // Calculate sum hadron 4-momenta and summ    312     // Calculate sum hadron 4-momenta and summing hadron mass
315     unsigned int cHadron;                         313     unsigned int cHadron;
316     for (cHadron = 0; cHadron < Output->size()    314     for (cHadron = 0; cHadron < Output->size(); cHadron++)
317     {                                             315     {
318         SumMom  += Output->operator[](cHadron)    316         SumMom  += Output->operator[](cHadron)->Get4Momentum();
319         HadronM=Output->operator[](cHadron)->G    317         HadronM=Output->operator[](cHadron)->Get4Momentum().mag(); HadronMass.push_back(HadronM);
320         SumMass += Output->operator[](cHadron)    318         SumMass += Output->operator[](cHadron)->Get4Momentum().mag();  //GetDefinition()->GetPDGMass();
321     }                                             319     }
322                                                   320 
323     #ifdef debug_G4ExcitedStringCorr              321     #ifdef debug_G4ExcitedStringCorr
324     G4cout<<"Sum part mom "<<SumMom<<" "<<SumM    322     G4cout<<"Sum part mom "<<SumMom<<" "<<SumMom.mag()<<G4endl
325           <<"Sum str  mom "<<TotalCollisionMom    323           <<"Sum str  mom "<<TotalCollisionMom<<" "<<TotalCollisionMom.mag()<<G4endl;
326     G4cout<<"SumMass TotalCollisionMass "<<Sum    324     G4cout<<"SumMass TotalCollisionMass "<<SumMass<<" "<<TotalCollisionMass<<G4endl;
327     #endif                                        325     #endif
328                                                   326 
329     // Cannot correct a single particle           327     // Cannot correct a single particle
330     if (Output->size() < 2) return FALSE;         328     if (Output->size() < 2) return FALSE;
331                                                   329 
332     if (SumMass > TotalCollisionMass) return F    330     if (SumMass > TotalCollisionMass) return FALSE;
333     SumMass = SumMom.m2();                        331     SumMass = SumMom.m2();
334     if (SumMass < 0) return FALSE;                332     if (SumMass < 0) return FALSE;
335     SumMass = std::sqrt(SumMass);                 333     SumMass = std::sqrt(SumMass);
336                                                   334 
337     // Compute c.m.s. hadron velocity and boos    335     // Compute c.m.s. hadron velocity and boost KTV to hadron c.m.s.
338     // G4ThreeVector Beta = -SumMom.boostVecto    336     // G4ThreeVector Beta = -SumMom.boostVector();          
339     G4ThreeVector Beta = -TotalCollisionMom.bo    337     G4ThreeVector Beta = -TotalCollisionMom.boostVector(); 
340     Output->Boost(Beta);                          338     Output->Boost(Beta);
341                                                   339 
342     // Scale total c.m.s. hadron energy (hadro    340     // Scale total c.m.s. hadron energy (hadron system mass).
343     // It should be equal interaction mass        341     // It should be equal interaction mass
344     G4double Scale = 1;                           342     G4double Scale = 1;
345     G4int cAttempt = 0;                           343     G4int cAttempt = 0;
346     G4double Sum = 0;                             344     G4double Sum = 0;
347     G4bool success = false;                       345     G4bool success = false;
348     for (cAttempt = 0; cAttempt < nAttemptScal    346     for (cAttempt = 0; cAttempt < nAttemptScale; cAttempt++)
349     {                                             347     {
350       Sum = 0;                                    348       Sum = 0;
351       for (cHadron = 0; cHadron < Output->size    349       for (cHadron = 0; cHadron < Output->size(); cHadron++)
352       {                                           350       {
353         HadronM = HadronMass.at(cHadron);         351         HadronM = HadronMass.at(cHadron);
354         G4LorentzVector HadronMom = Output->op    352         G4LorentzVector HadronMom = Output->operator[](cHadron)->Get4Momentum();
355         HadronMom.setVect(Scale*HadronMom.vect    353         HadronMom.setVect(Scale*HadronMom.vect());
356         G4double E = std::sqrt(HadronMom.vect(    354         G4double E = std::sqrt(HadronMom.vect().mag2() + sqr(HadronM));
357                                                   355                                                        //sqr(Output->operator[](cHadron)->GetDefinition()->GetPDGMass()));
358         HadronMom.setE(E);                        356         HadronMom.setE(E);
359         Output->operator[](cHadron)->Set4Momen    357         Output->operator[](cHadron)->Set4Momentum(HadronMom);
360         Sum += E;                                 358         Sum += E;
361       }                                           359       } 
362       Scale = TotalCollisionMass/Sum;             360       Scale = TotalCollisionMass/Sum;
363       #ifdef debug_G4ExcitedStringCorr            361       #ifdef debug_G4ExcitedStringCorr
364       G4cout << "Scale-1=" << Scale -1            362       G4cout << "Scale-1=" << Scale -1 
365              << ",  TotalCollisionMass=" << To    363              << ",  TotalCollisionMass=" << TotalCollisionMass
366              << ",  Sum=" << Sum                  364              << ",  Sum=" << Sum
367        << G4endl;                                 365        << G4endl;
368       #endif                                      366       #endif
369       if (std::fabs(Scale - 1) <= ErrLimit)       367       if (std::fabs(Scale - 1) <= ErrLimit) 
370       {                                           368       {
371         success = true;                           369         success = true;
372   break;                                          370   break;
373       }                                           371       }
374     }                                             372     }
375                                                   373 
376     #ifdef debug_G4ExcitedStringCorr              374     #ifdef debug_G4ExcitedStringCorr
377     if (!success)                                 375     if (!success)
378     {                                             376     {
379       G4cout << "G4ExcitedStringDecay::EnergyA    377       G4cout << "G4ExcitedStringDecay::EnergyAndMomentumCorrector - Warning"<<G4endl;
380       G4cout << "   Scale not unity at end of     378       G4cout << "   Scale not unity at end of iteration loop: "<<TotalCollisionMass<<" "<<Sum<<" "<<Scale<<G4endl;
381       G4cout << "   Number of secondaries: " <    379       G4cout << "   Number of secondaries: " << Output->size() << G4endl;
382       G4cout << "   Wanted total energy: " <<     380       G4cout << "   Wanted total energy: " <<  TotalCollisionMom.e() << G4endl; 
383       G4cout << "   Increase number of attempt    381       G4cout << "   Increase number of attempts or increase ERRLIMIT"<<G4endl;
384       // throw G4HadronicException(__FILE__, _    382       // throw G4HadronicException(__FILE__, __LINE__, "G4ExcitedStringDecay failed to correct...");
385     }                                             383     }
386     #endif                                        384     #endif     
387                                                   385 
388     // Compute c.m.s. interaction velocity and    386     // Compute c.m.s. interaction velocity and KTV back boost   
389     Beta = TotalCollisionMom.boostVector();       387     Beta = TotalCollisionMom.boostVector();
390     Output->Boost(Beta);                          388     Output->Boost(Beta);
391                                                   389 
392     return success;                               390     return success;
393 }                                                 391 }
394                                                   392 
395                                                   393