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Geant4/particles/management/src/G4IonTable.cc

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Differences between /particles/management/src/G4IonTable.cc (Version 11.3.0) and /particles/management/src/G4IonTable.cc (Version 9.3.p1)


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 25 //                                                 25 //
 26 // G4IonTable class implementation             << 
 27 //                                                 26 //
 28 // Author: H.Kurashige, 27 June 1998           <<  27 // $Id: G4IonTable.cc,v 1.60 2009/09/23 12:13:48 kurasige Exp $
 29 // ------------------------------------------- <<  28 // GEANT4 tag $Name: geant4-09-03-patch-01 $
                                                   >>  29 //
                                                   >>  30 // 
                                                   >>  31 // --------------------------------------------------------------
                                                   >>  32 //  GEANT 4 class implementation file 
                                                   >>  33 //
                                                   >>  34 //  History: first implementation, based on object model of
                                                   >>  35 //  27 June 1998  H.Kurashige
                                                   >>  36 // ---------------------------------------------------------------
                                                   >>  37 //      modified GetIon                 02 Aug., 98 H.Kurashige
                                                   >>  38 //      added Remove()                  06 Nov.,98 H.Kurashige
                                                   >>  39 //      use G4NucleiPropoerties to get nuceli Mass 17  Nov.,98 H.Kurashige
                                                   >>  40 //      use G4GenericIon for process List
                                                   >>  41 //      modify fomula of Ion mass       09 Dec., 98 H.Kurashige 
                                                   >>  42 //          -----
                                                   >>  43 //      Modified GetIon methods         17 Aug. 99 H.Kurashige
                                                   >>  44 //      New design using G4VIsotopeTable          5 Oct. 99 H.Kurashige
                                                   >>  45 //      Modified Element Name for Z>103  06 Apr. 01 H.Kurashige
                                                   >>  46 //      Remove test of cuts in SetCuts   16 Jan  03 V.Ivanchenko
 30                                                    47 
 31 #include "G4IonTable.hh"                           48 #include "G4IonTable.hh"
 32                                                << 
 33 #include "G4AutoDelete.hh"                     << 
 34 #include "G4HyperNucleiProperties.hh"          << 
 35 #include "G4Ions.hh"                           << 
 36 #include "G4IsotopeProperty.hh"                << 
 37 #include "G4MuonicAtom.hh"                     << 
 38 #include "G4MuonicAtomHelper.hh"               << 
 39 #include "G4NucleiProperties.hh"               << 
 40 #include "G4NuclideTable.hh"                   << 
 41 #include "G4ParticleTable.hh"                      49 #include "G4ParticleTable.hh"
 42 #include "G4PhysicalConstants.hh"              << 
 43 #include "G4StateManager.hh"                       50 #include "G4StateManager.hh"
 44 #include "G4SystemOfUnits.hh"                  <<  51 #include "G4Ions.hh"
 45 #include "G4Threading.hh"                      << 
 46 #include "G4UImanager.hh"                          52 #include "G4UImanager.hh"
                                                   >>  53 #include "G4NucleiProperties.hh"
                                                   >>  54 #include "G4HyperNucleiProperties.hh"
                                                   >>  55 
                                                   >>  56 #include "G4IsotopeProperty.hh"
 47 #include "G4VIsotopeTable.hh"                      57 #include "G4VIsotopeTable.hh"
                                                   >>  58 
 48 #include "G4ios.hh"                                59 #include "G4ios.hh"
                                                   >>  60 #include <iostream>               
                                                   >>  61 #include <iomanip>               
 49                                                    62 
 50 #include <algorithm>                           << 
 51 #include <iomanip>                             << 
 52 #include <iostream>                            << 
 53 #include <sstream>                                 63 #include <sstream>
 54 #include <vector>                              << 
 55                                                    64 
 56 // It is very important for multithreaded Gean << 
 57 // particle table pointer and the ion table po << 
 58 // each worker thread hold its own copy of the << 
 59 // ion list. This implementation is equivalent << 
 60 // private. The two shadow ponters are used by << 
 61 // content from the master thread.             << 
 62 //                                             << 
 63 G4ThreadLocal G4IonTable::G4IonList* G4IonTabl << 
 64 G4ThreadLocal std::vector<G4VIsotopeTable*>* G << 
 65 G4IonTable::G4IonList* G4IonTable::fIonListSha << 
 66 std::vector<G4VIsotopeTable*>* G4IonTable::fIs << 
 67                                                << 
 68 namespace lightions                            << 
 69 {                                              << 
 70 static const G4ParticleDefinition* p_proton =  << 
 71 static const G4ParticleDefinition* p_deuteron  << 
 72 static const G4ParticleDefinition* p_triton =  << 
 73 static const G4ParticleDefinition* p_alpha = n << 
 74 static const G4ParticleDefinition* p_He3 = nul << 
 75 void Init()                                    << 
 76 {                                              << 
 77   if (p_proton != nullptr) return;             << 
 78   p_proton = G4ParticleTable::GetParticleTable << 
 79   p_deuteron = G4ParticleTable::GetParticleTab << 
 80   p_triton = G4ParticleTable::GetParticleTable << 
 81   p_alpha = G4ParticleTable::GetParticleTable( << 
 82   p_He3 = G4ParticleTable::GetParticleTable()- << 
 83 }                                              << 
 84 }  // namespace lightions                      << 
 85                                                << 
 86 namespace antilightions                        << 
 87 {                                              << 
 88 static const G4ParticleDefinition* p_proton =  << 
 89 static const G4ParticleDefinition* p_deuteron  << 
 90 static const G4ParticleDefinition* p_triton =  << 
 91 static const G4ParticleDefinition* p_alpha = n << 
 92 static const G4ParticleDefinition* p_He3 = nul << 
 93 void Init()                                    << 
 94 {                                              << 
 95   if (p_proton != nullptr) return;             << 
 96   p_proton = G4ParticleTable::GetParticleTable << 
 97   p_deuteron = G4ParticleTable::GetParticleTab << 
 98   p_triton = G4ParticleTable::GetParticleTable << 
 99   p_alpha = G4ParticleTable::GetParticleTable( << 
100   p_He3 = G4ParticleTable::GetParticleTable()- << 
101 }                                              << 
102 }  // namespace antilightions                  << 
103                                                << 
104 #ifdef G4MULTITHREADED                         << 
105 G4Mutex G4IonTable::ionTableMutex = G4MUTEX_IN << 
106 #endif                                         << 
107                                                << 
108 // ------------------------------------------- << 
109                                                    65 
                                                   >>  66 ////////////////////
110 G4IonTable::G4IonTable()                           67 G4IonTable::G4IonTable()
111 {                                                  68 {
112   fIonList = new G4IonList();                      69   fIonList = new G4IonList();
113                                                << 
114   // Set up the shadow pointer used by worker  << 
115   //                                           << 
116   if (fIonListShadow == nullptr) {             << 
117     fIonListShadow = fIonList;                 << 
118   }                                            << 
119                                                << 
120   fIsotopeTableList = new std::vector<G4VIsoto     70   fIsotopeTableList = new std::vector<G4VIsotopeTable*>;
121                                                << 
122   // Set up the shadow pointer used by worker  << 
123   //                                           << 
124   if (fIsotopeTableListShadow == nullptr) {    << 
125     fIsotopeTableListShadow = fIsotopeTableLis << 
126   }                                            << 
127                                                << 
128   PrepareNuclideTable();                       << 
129   RegisterIsotopeTable(pNuclideTable);         << 
130 }                                                  71 }
131                                                    72 
                                                   >>  73 ////////////////////
132 G4IonTable::~G4IonTable()                          74 G4IonTable::~G4IonTable()
133 {                                                  75 {
134   // delete IsotopeTable if existing           <<  76   // delete IsotopeTable if exists
135   if (fIsotopeTableList != nullptr) {          <<  77   if (fIsotopeTableList != 0) {
136     for (const auto fIsotopeTable : *fIsotopeT <<  78     for (size_t i = 0; i< fIsotopeTableList->size(); ++i) {
137       if (fIsotopeTable != G4NuclideTable::Get <<  79       G4VIsotopeTable* fIsotopeTable= (*fIsotopeTableList)[i];
138         delete fIsotopeTable;                  <<  80       delete fIsotopeTable;
139       }                                        << 
140     }                                              81     }
141     fIsotopeTableList->clear();                    82     fIsotopeTableList->clear();
142     delete fIsotopeTableList;                      83     delete fIsotopeTableList;
143   }                                                84   }
144   fIsotopeTableList = nullptr;                 <<  85   fIsotopeTableList =0;
145                                                    86 
146   if (fIonList == nullptr) return;             << 
147                                                    87 
148   // remove all contents in the Ion List       <<  88   if (fIonList ==0) return;
149   // No need to delete here because all partic <<  89   // remove all contents in the Ion List 
                                                   >>  90   //  No need to delete here because all particles are dynamic objects
150   fIonList->clear();                               91   fIonList->clear();
                                                   >>  92 
151   delete fIonList;                                 93   delete fIonList;
152   fIonList = nullptr;                          <<  94   fIonList =0;
153 }                                                  95 }
154                                                    96 
155 G4IonTable* G4IonTable::GetIonTable()          << 
156 {                                              << 
157   return G4ParticleTable::GetParticleTable()-> << 
158 }                                              << 
159                                                    97 
160 // Used by each worker thread to copy the cont <<  98 ////////////////////
161 void G4IonTable::WorkerG4IonTable()            <<  99 // -- CreateIon method ------
                                                   >> 100 ////////////////////
                                                   >> 101 G4ParticleDefinition* G4IonTable::CreateIon(G4int Z, G4int A, 
                                                   >> 102               G4double E, G4int J)
162 {                                                 103 {
163   if (fIonList == nullptr) {                   << 104   G4ParticleDefinition* ion=0;
164     fIonList = new G4IonList();                << 
165   }                                            << 
166   else {                                       << 
167     fIonList->clear();                         << 
168   }                                            << 
169                                                << 
170   for (const auto& it : *fIonListShadow) {     << 
171     fIonList->insert(it);                      << 
172   }                                            << 
173                                                   105 
174   // Do not copy Isotope Table to Worker threa << 106   // check whether the cuurent state is not "PreInit" 
175   //                                           << 107   //  to make sure that GenericIon has processes
176   if (fIsotopeTableList == nullptr) {          << 108   G4ApplicationState currentState = G4StateManager::GetStateManager()->GetCurrentState();
177     fIsotopeTableList = new std::vector<G4VIso << 109   if (currentState == G4State_PreInit){
178     for (const auto i : *fIsotopeTableListShad << 110 #ifdef G4VERBOSE
179       fIsotopeTableList->push_back(i);         << 111     if (GetVerboseLevel()>1) {
180     }                                          << 112       G4cout << "G4IonTable::CreateIon() : can not create ion of  "; 
181   }                                            << 113       G4cout << " Z =" << Z << "  A = " << A <<  G4endl;
182 }                                              << 114       G4cout << " because the current state is PreInit !!" <<   G4endl;
183                                                << 
184 void G4IonTable::InitializeLightIons()         << 
185 {                                              << 
186   lightions::Init();                           << 
187   antilightions::Init();                       << 
188 }                                              << 
189                                                << 
190 void G4IonTable::DestroyWorkerG4IonTable()     << 
191 {                                              << 
192   // delete IsotopeTable if existing           << 
193   if (fIsotopeTableList != nullptr) {          << 
194     for (auto fIsotopeTable : *fIsotopeTableLi << 
195       if (fIsotopeTable != G4NuclideTable::Get << 
196         delete fIsotopeTable;                  << 
197       }                                        << 
198     }                                             115     }
199     fIsotopeTableList->clear();                << 116 #endif
200     delete fIsotopeTableList;                  << 117     G4Exception( "G4IonTable::CreateIon()","Illegal operation",
201   }                                            << 118      JustWarning, "Can not create ions in PreInit state");
202   fIsotopeTableList = nullptr;                 << 119     return 0;
203                                                << 
204   if (fIonList == nullptr) return;             << 
205                                                << 
206   // remove all contents in the Ion List       << 
207   // No need to delete here because all partic << 
208   fIonList->clear();                           << 
209   delete fIonList;                             << 
210   fIonList = nullptr;                          << 
211 }                                              << 
212                                                << 
213 G4ParticleDefinition* G4IonTable::CreateIon(G4 << 
214                                             G4 << 
215 {                                              << 
216   G4ParticleDefinition* ion = nullptr;         << 
217                                                << 
218   // check whether GenericIon has processes    << 
219   G4ParticleDefinition* genericIon = G4Particl << 
220   G4ProcessManager* pman = nullptr;            << 
221   if (genericIon != nullptr) {                 << 
222     pman = genericIon->GetProcessManager();    << 
223   }                                               120   }
224   if ((genericIon == nullptr) || (genericIon-> << 121   
                                                   >> 122   // get ion name
                                                   >> 123   G4String name = GetIonName(Z, A, E);
                                                   >> 124   if ( name(0) == '?') {
225 #ifdef G4VERBOSE                                  125 #ifdef G4VERBOSE
226     if (GetVerboseLevel() > 1) {               << 126     if (GetVerboseLevel()>0) {
227       G4cout << "G4IonTable::CreateIon() : can << 127       G4cout << "G4IonTable::CreateIon() : can not create ions " << G4endl;
228              << " Z =" << Z << "  A = " << A < << 128       G4cout << " Z =" << Z << "  A = " << A <<  G4endl;
229     }                                             129     }
230 #endif                                            130 #endif
231     G4Exception("G4IonTable::CreateIon()", "PA << 131     return 0;
232                 "Can not create ions because G << 132   } 
233     return nullptr;                            << 
234   }                                            << 
235                                                   133 
236   G4double life = 0.0;                         << 134   G4double life = -1.0;
237   G4DecayTable* decayTable = nullptr;          << 135   G4DecayTable* decayTable =0;
238   G4bool stable = true;                           136   G4bool stable = true;
239   G4double mu = 0.0;                              137   G4double mu = 0.0;
240   G4double Eex = 0.0;                          << 138 
241   G4int lvl = 0;                               << 139   const G4IsotopeProperty*  fProperty = FindIsotope(Z, A, E, J);
242   G4int J = 0;                                 << 140   if (fProperty !=0 ){
243                                                << 141     E    = fProperty->GetEnergy();
244   const G4IsotopeProperty* fProperty = FindIso << 142     J    = fProperty->GetiSpin();
245   if (fProperty != nullptr) {                  << 
246     Eex = fProperty->GetEnergy();              << 
247     lvl = fProperty->GetIsomerLevel();         << 
248     J = fProperty->GetiSpin();                 << 
249     life = fProperty->GetLifeTime();              143     life = fProperty->GetLifeTime();
250     mu = fProperty->GetMagneticMoment();       << 144     mu   = fProperty->GetMagneticMoment();    
251     decayTable = fProperty->GetDecayTable();      145     decayTable = fProperty->GetDecayTable();
252     stable = (life <= 0.) || (decayTable == nu << 
253     lvl = fProperty->GetIsomerLevel();         << 
254     if (lvl < 0) lvl = 9;                      << 
255   }                                               146   }
256   else {                                       << 147   stable = life <= 0.;
257 #ifdef G4VERBOSE                               << 148   G4double mass =  GetNucleusMass(Z, A)+ E;
258     if (GetVerboseLevel() > 1) {               << 149   G4double charge =  G4double(Z)*eplus;
259       G4ExceptionDescription ed;               << 150  
260       ed << "G4IonTable::CreateIon(): G4Isotop << 151   G4int encoding = GetNucleusEncoding(Z,A,E,J);
261          << " Z = " << Z << " A = " << A << "  << 
262       if (flb != G4Ions::G4FloatLevelBase::no_ << 
263         ed << " FloatingLevel +" << G4Ions::Fl << 
264       }                                        << 
265       ed << ".\n"                              << 
266          << " Physics quantities such as life  << 
267       G4Exception("G4IonTable::CreateIon()", " << 
268     }                                          << 
269 #endif                                         << 
270     // excitation energy                       << 
271     Eex = E;                                   << 
272     // lvl is assigned to 9 temporarily        << 
273     if (Eex > 0.0) lvl = 9;                    << 
274   }                                            << 
275                                                << 
276   // Eex = G4NuclideTable::Round(Eex);         << 
277   if (Eex == 0.0) lvl = 0;                     << 
278   // ion name                                  << 
279   G4String name = "";                          << 
280   /////////////if (lvl<9) name = GetIonName(Z, << 
281   if (lvl == 0 && flb == G4Ions::G4FloatLevelB << 
282     name = GetIonName(Z, A, lvl);              << 
283   else                                         << 
284     name = GetIonName(Z, A, Eex, flb);         << 
285                                                << 
286   // PDG encoding                              << 
287   G4int encoding = GetNucleusEncoding(Z, A, E, << 
288                                                << 
289   // PDG mass                                  << 
290   G4double mass = GetNucleusMass(Z, A) + Eex;  << 
291                                                << 
292   // PDG charge is set to one of nucleus       << 
293   G4double charge = G4double(Z) * eplus;       << 
294                                                   152 
295   // create an ion                                153   // create an ion
296   // spin, parity, isospin values are fixed    << 154   //   spin, parity, isospin values are fixed
297                                                << 
298   // Request lock for particle table accesses. << 
299   // this critical region.                     << 
300   //                                              155   //
301   // clang-format off                          << 
302   ion = new G4Ions(   name,            mass,      156   ion = new G4Ions(   name,            mass,       0.0*MeV,     charge, 
303                          J,              +1,   << 157        J,              +1,             0,          
304                          0,               0,   << 158        0,               0,             0,             
305                  "nucleus",               0,   << 159      "nucleus",               0,             A,    encoding,
306                     stable,            life,   << 160         stable,            life,    decayTable,       false,
307                  "generic",               0,   << 161       "generic",              0,
308                        Eex,             lvl    << 162           E                       );
309   // clang-format on                           << 
310                                                << 
311   // Release lock for particle table accesses. << 
312   //                                           << 
313   ion->SetPDGMagneticMoment(mu);                  163   ion->SetPDGMagneticMoment(mu);
314   static_cast<G4Ions*>(ion)->SetFloatLevelBase << 
315                                                   164 
316   // No Anti particle registered               << 165   //No Anti particle registered
317   ion->SetAntiPDGEncoding(0);                     166   ion->SetAntiPDGEncoding(0);
318                                                << 167   
319 #ifdef G4VERBOSE                                  168 #ifdef G4VERBOSE
320   if (GetVerboseLevel() > 1) {                 << 169    if (GetVerboseLevel()>1) {
321     G4cout << "G4IonTable::CreateIon() : creat << 170     G4cout << "G4IonTable::CreateIon() : create ion of " << name
322            << " encoding=" << encoding;        << 171      << "  " << Z << ", " << A
323     if (E > 0.0) {                             << 172      << " encoding=" << encoding << G4endl;
324       G4cout << " IsomerLVL=" << lvl << " exci << 173   } 
325     }                                          << 
326     G4cout << G4endl;                          << 
327   }                                            << 
328 #endif                                            174 #endif
329                                                << 175   
330   // Add process manager to the ion               176   // Add process manager to the ion
331   AddProcessManager(ion);                      << 177   AddProcessManager(name);
332                                                << 178  
333 #ifdef G4MULTITHREADED                         << 
334   // Fill decay channels if this method is inv << 
335   if (G4Threading::IsWorkerThread()) {         << 
336     if (!stable && (decayTable != nullptr)) {  << 
337       G4int nCh = decayTable->entries();       << 
338       for (G4int iCh = 0; iCh < nCh; ++iCh) {  << 
339         decayTable->GetDecayChannel(iCh)->GetD << 
340       }                                        << 
341     }                                          << 
342   }                                            << 
343 #endif                                         << 
344                                                << 
345   return ion;                                     179   return ion;
346 }                                                 180 }
347                                                   181 
348 G4ParticleDefinition* G4IonTable::CreateIon(G4 << 
349                                             G4 << 
350 {                                              << 
351   if (LL == 0) return CreateIon(Z, A, E, flb); << 
352                                                   182 
                                                   >> 183 ////////////////////
                                                   >> 184 G4ParticleDefinition* G4IonTable::CreateIon(G4int Z, G4int A, G4int L,
                                                   >> 185               G4double E, G4int J)
                                                   >> 186 {
                                                   >> 187   if (L==0) return CreateIon(A,Z,E,J);
                                                   >> 188   
353   // create hyper nucleus                         189   // create hyper nucleus
354   G4ParticleDefinition* ion = nullptr;         << 190   G4ParticleDefinition* ion=0;
355                                                   191 
356   // check whether GenericIon has processes    << 192   // check whether the cuurent state is not "PreInit" 
357   G4ParticleDefinition* genericIon = G4Particl << 193   //  to make sure that GenericIon has processes
358   G4ProcessManager* pman = nullptr;            << 194   G4ApplicationState currentState = G4StateManager::GetStateManager()->GetCurrentState();
359   if (genericIon != nullptr) pman = genericIon << 195   if (currentState == G4State_PreInit){
360   if ((genericIon == nullptr) || (genericIon-> << 
361 #ifdef G4VERBOSE                                  196 #ifdef G4VERBOSE
362     if (GetVerboseLevel() > 1) {               << 197     if (GetVerboseLevel()>1) {
363       G4cout << "G4IonTable::CreateIon() : can << 198       G4cout << "G4IonTable::CreateIon() : can not create ion of  "; 
364              << " Z =" << Z << "  A = " << A < << 199       G4cout << " Z =" << Z << "  A = " << A <<  " L = " <<L << G4endl;
                                                   >> 200       G4cout << " because the current state is PreInit !!" <<   G4endl;
365     }                                             201     }
366 #endif                                            202 #endif
367     G4Exception("G4IonTable::CreateIon()", "PA << 203     G4Exception( "G4IonTable::CreateIon()","Illegal operation",
368                 "Can not create ions because G << 204      JustWarning, "Can not create ions in PreInit state");
369     return nullptr;                            << 205     return 0;
370   }                                               206   }
                                                   >> 207   
                                                   >> 208   // get ion name
                                                   >> 209   G4String name = GetIonName(Z, A, L, E);
                                                   >> 210   if ( name(L) == '?') {
                                                   >> 211 #ifdef G4VERBOSE
                                                   >> 212     if (GetVerboseLevel()>0) {
                                                   >> 213       G4cout << "G4IonTable::CreateIon() : can not create ions " << G4endl;
                                                   >> 214       G4cout << " Z =" << Z << "  A = " << A << "  L = " << L <<  G4endl;
                                                   >> 215     }
                                                   >> 216 #endif
                                                   >> 217       return 0;
                                                   >> 218   } 
371                                                   219 
372   G4int J = 0;                                 << 220   G4double life = -1.0;
373   G4double life = 0.0;                         << 221   G4DecayTable* decayTable =0;
374   G4DecayTable* decayTable = nullptr;          << 
375   G4bool stable = true;                           222   G4bool stable = true;
376                                                << 223   G4double mu = 0.0;
377   // excitation energy                         << 224   G4double mass =  GetNucleusMass(Z, A, L)+ E;
378   // G4double Eex = G4NuclideTable::Round(E);  << 225   G4double charge =  G4double(Z)*eplus;
379   G4double Eex = E;                            << 226  
380   G4double mass = GetNucleusMass(Z, A, LL) + E << 227   G4int encoding = GetNucleusEncoding(Z,A,L,E,J);
381   G4int lvl = 0;                               << 
382   // lvl is assigned to 9 temporarily          << 
383   if (Eex > 0.0) lvl = 9;                      << 
384                                                << 
385   // PDG encoding                              << 
386   G4int encoding = GetNucleusEncoding(Z, A, LL << 
387                                                << 
388   // PDG charge is set to one of nucleus       << 
389   G4double charge = G4double(Z) * eplus;       << 
390                                                   228 
391   // create an ion                                229   // create an ion
392   // spin, parity, isospin values are fixed    << 230   //   spin, parity, isospin values are fixed
393   //                                              231   //
394   // get ion name                              << 
395   G4String name = GetIonName(Z, A, LL, Eex, fl << 
396                                                << 
397   // clang-format off                          << 
398   ion = new G4Ions(   name,            mass,      232   ion = new G4Ions(   name,            mass,       0.0*MeV,     charge, 
399                          J,              +1,   << 233        J,              +1,             0,          
400                          0,               0,   << 234        0,               0,             0,             
401                  "nucleus",               0,   << 235      "nucleus",               0,             A,    encoding,
402                     stable,            life,   << 236         stable,            life,    decayTable,       false,
403                   "generic",              0,   << 237       "generic",              0,
404                       Eex,              lvl    << 238           E                       );
405   // clang-format on                           << 
406                                                << 
407   // Release lock for particle table accesses  << 
408                                                << 
409   G4double mu = 0.0;  //  magnetic moment      << 
410   ion->SetPDGMagneticMoment(mu);                  239   ion->SetPDGMagneticMoment(mu);
411   static_cast<G4Ions*>(ion)->SetFloatLevelBase << 
412                                                   240 
413   // No Anti particle registered               << 241   //No Anti particle registered
414   ion->SetAntiPDGEncoding(0);                     242   ion->SetAntiPDGEncoding(0);
415                                                << 243   
416 #ifdef G4VERBOSE                                  244 #ifdef G4VERBOSE
417   if (GetVerboseLevel() > 1) {                 << 245   if (GetVerboseLevel()>1) {
418     G4cout << "G4IonTable::CreateIon() : creat << 246     G4cout << "G4IonTable::CreateIon() : create hyper ion of " << name 
419            << ", " << LL << " encoding=" << en << 247      << " encoding=" << encoding << G4endl;
420     if (E > 0.0) {                             << 248   } 
421       G4cout << " IsomerLVL=" << lvl << " exci << 
422     }                                          << 
423     G4cout << G4endl;                          << 
424   }                                            << 
425 #endif                                            249 #endif
426                                                << 250   
427   // Add process manager to the ion               251   // Add process manager to the ion
428   AddProcessManager(ion);                      << 252   AddProcessManager(name);
429                                                << 253       
430   return ion;                                     254   return ion;
431 }                                                 255 }
432                                                   256 
433 G4ParticleDefinition* G4IonTable::CreateIon(G4 << 257 ////////////////////
                                                   >> 258 // -- GetIon methods  ------
                                                   >> 259 ////////////////////
                                                   >> 260 G4ParticleDefinition* G4IonTable::GetIon(G4int Z, G4int A, G4int , G4int )
434 {                                                 261 {
435   // always create an ion for any lvl          << 262   return GetIon(Z, A);
436   return CreateIon(Z, A, 0.0, G4Ions::FloatLev << 
437 }                                                 263 }
438                                                   264 
439 G4ParticleDefinition* G4IonTable::CreateIon(G4 << 265 ////////////////////
                                                   >> 266 G4ParticleDefinition* G4IonTable::GetIon(G4int Z, G4int A, G4int J)
440 {                                                 267 {
441   return (LL == 0) ? CreateIon(Z, A, 0.0, G4Io << 268   return GetIon( Z, A, 0.0, J);
442                    : CreateIon(Z, A, LL, 0.0,  << 
443 }                                                 269 }
444                                                   270 
445 G4ParticleDefinition* G4IonTable::GetIon(G4int << 271 ////////////////////
446 {                                              << 272 G4ParticleDefinition* G4IonTable::GetIon(G4int encoding)
447   return GetIon(Z, A, 0.0, G4Ions::G4FloatLeve << 
448 }                                              << 
449                                                << 
450 G4ParticleDefinition* G4IonTable::GetIon(G4int << 
451 {                                                 273 {
452   return (LL == 0) ? GetIon(Z, A, 0.0, G4Ions: << 274   G4int Z, A, L, J;
453                    : GetIon(Z, A, LL, 0.0, G4I << 275   G4double E;
                                                   >> 276   if (!GetNucleusByEncoding(encoding,Z,A,L,E,J) ){
                                                   >> 277 #ifdef G4VERBOSE
                                                   >> 278     if (GetVerboseLevel()>0) {
                                                   >> 279       G4cout << "G4IonTable::GetIon() : illegal encoding" << G4endl;
                                                   >> 280       G4cout << " CODE:" << encoding << G4endl;
                                                   >> 281     }
                                                   >> 282 #endif
                                                   >> 283     G4Exception( "G4IonTable::GetIon()","Illegal operation",
                                                   >> 284      JustWarning, "illegal encoding");
                                                   >> 285     return 0;
                                                   >> 286   }
                                                   >> 287   // Only ground state is supported
                                                   >> 288   return GetIon( Z, A, L, 0.0, J);
454 }                                                 289 }
455                                                   290 
                                                   >> 291 ////////////////////
456 G4ParticleDefinition* G4IonTable::GetIon(G4int    292 G4ParticleDefinition* G4IonTable::GetIon(G4int Z, G4int A, G4double E, G4int J)
457 {                                                 293 {
458   return GetIon(Z, A, E, G4Ions::G4FloatLevelB << 294   if ( (A<1) || (Z<=0) || (J<0) || (E<0.0) || (A>999) ) {
459 }                                              << 
460                                                << 
461 G4ParticleDefinition* G4IonTable::GetIon(G4int << 
462 {                                              << 
463   return GetIon(Z, A, E, G4Ions::FloatLevelBas << 
464 }                                              << 
465                                                << 
466 G4ParticleDefinition* G4IonTable::GetIon(G4int << 
467                                          G4int << 
468 {                                              << 
469   if ((A < 1) || (Z <= 0) || (E < 0.0) || (A > << 
470 #ifdef G4VERBOSE                                  295 #ifdef G4VERBOSE
471     if (GetVerboseLevel() > 0) {               << 296     if (GetVerboseLevel()>0) {
472       G4cout << "G4IonTable::GetIon() : illega << 297       G4cout << "G4IonTable::GetIon() : illegal atomic number/mass" << G4endl;
473              << " Z =" << Z << "  A = " << A < << 298       G4cout << " Z =" << Z << "  A = " << A <<  "  E = " << E/keV << G4endl;
474     }                                             299     }
475 #endif                                            300 #endif
476     return nullptr;                            << 301     return 0;
477   }                                            << 302    }
478   auto flb1 = flb;                             << 
479                                                   303 
480   // Search ions with A, Z                     << 304   // Search ions with A, Z 
481   G4ParticleDefinition* ion = FindIon(Z, A, E, << 305   G4ParticleDefinition* ion = FindIon(Z,A,E,J);
482                                                << 
483   // find out ground state floating level      << 
484   if (ion == nullptr && E == 0.0) {            << 
485     const G4IsotopeProperty* fProperty = FindI << 
486     if (nullptr != fProperty) {                << 
487       flb1 = fProperty->GetFloatLevelBase();   << 
488       if (flb != flb1) {                       << 
489         ion = FindIon(Z, A, E, flb1, J);       << 
490       }                                        << 
491     }                                          << 
492   }                                            << 
493                                                   306 
494   // create ion                                   307   // create ion
495 #ifdef G4MULTITHREADED                         << 308   if (ion == 0) {
496   if (ion == nullptr) {                        << 309     ion = CreateIon(Z, A, E, J);
497     if (G4Threading::IsWorkerThread()) {       << 
498       G4MUTEXLOCK(&G4IonTable::ionTableMutex); << 
499       ion = FindIonInMaster(Z, A, E, flb1, J); << 
500       if (ion == nullptr) ion = CreateIon(Z, A << 
501       InsertWorker(ion);                       << 
502       G4MUTEXUNLOCK(&G4IonTable::ionTableMutex << 
503     }                                          << 
504     else {                                     << 
505       ion = CreateIon(Z, A, E, flb1);          << 
506     }                                          << 
507   }                                               310   }
508 #else                                          << 
509   if (ion == nullptr) ion = CreateIon(Z, A, E, << 
510 #endif                                         << 
511                                                   311 
512   return ion;                                  << 312   return ion;  
513 }                                                 313 }
514                                                   314 
515 G4ParticleDefinition* G4IonTable::GetIon(G4int << 315 ////////////////////
                                                   >> 316 G4ParticleDefinition* G4IonTable::GetIon(G4int Z, G4int A, G4int L, G4double E, G4int J)
516 {                                                 317 {
517   return GetIon(Z, A, LL, E, G4Ions::G4FloatLe << 318   if (L==0) return GetIon(Z,A,E,J);
518 }                                              << 
519                                                << 
520 G4ParticleDefinition* G4IonTable::GetIon(G4int << 
521                                          G4int << 
522 {                                              << 
523   return GetIon(Z, A, LL, E, G4Ions::FloatLeve << 
524 }                                              << 
525                                                   319 
526 G4ParticleDefinition* G4IonTable::GetIon(G4int << 320   if (A < 2 || Z < 0 || Z > A-L || L>A || A>999 ) {
527                                          G4Ion << 
528 {                                              << 
529   if (LL == 0) return GetIon(Z, A, E, flb, J); << 
530                                                << 
531   if (A < 2 || Z < 0 || Z > A - LL || LL > A | << 
532 #ifdef G4VERBOSE                                  321 #ifdef G4VERBOSE
533     if (GetVerboseLevel() > 0) {               << 322     if (GetVerboseLevel()>0) {
534       G4cout << "G4IonTable::GetIon() : illega << 323       G4cout << "G4IonTable::GetIon() : illegal atomic number/mass" << G4endl;
535              << " Z =" << Z << "  A = " << A < << 324       G4cout << " Z =" << Z << "  A = " << A << " L = " << L 
                                                   >> 325        <<"  E = " << E/keV << G4endl;
536     }                                             326     }
537 #endif                                            327 #endif
538     return nullptr;                            << 328     return 0;
539   }                                            << 329   } else if( A==2 ) {
540   if (A == 2) {                                << 
541 #ifdef G4VERBOSE                                  330 #ifdef G4VERBOSE
542     if (GetVerboseLevel() > 0) {               << 331     if (GetVerboseLevel()>0) {
543       G4cout << "G4IonTable::GetIon() : No bou << 332       G4cout << "G4IonTable::GetIon() : No boud state for " << G4endl;
544              << " Z =" << Z << "  A = " << A < << 333       G4cout << " Z =" << Z << "  A = " << A << " L = " << L 
                                                   >> 334        <<  "  E = " << E/keV << G4endl;
545     }                                             335     }
546 #endif                                            336 #endif
547     return nullptr;                            << 337     return 0;
548   }                                            << 338    }
549                                                   339 
550   // Search ions with A, Z                     << 340   // Search ions with A, Z 
551   G4ParticleDefinition* ion = FindIon(Z, A, LL << 341   G4ParticleDefinition* ion = FindIon(Z,A,L,E,J);
552                                                   342 
553   // create ion                                   343   // create ion
554 #ifdef G4MULTITHREADED                         << 344   if (ion == 0) {
555   if (ion == nullptr) {                        << 345     ion = CreateIon(Z, A, L, E, J);
556     if (G4Threading::IsWorkerThread()) {       << 
557       G4MUTEXLOCK(&G4IonTable::ionTableMutex); << 
558       ion = FindIonInMaster(Z, A, LL, E, flb,  << 
559       if (ion == nullptr) ion = CreateIon(Z, A << 
560       InsertWorker(ion);                       << 
561       G4MUTEXUNLOCK(&G4IonTable::ionTableMutex << 
562     }                                          << 
563     else {                                     << 
564       ion = CreateIon(Z, A, LL, E, flb);       << 
565     }                                          << 
566   }                                               346   }
567 #else                                          << 
568   if (ion == nullptr) ion = CreateIon(Z, A, LL << 
569 #endif                                         << 
570                                                   347 
571   return ion;                                  << 348   return ion;  
572 }                                              << 
573                                                << 
574 G4ParticleDefinition* G4IonTable::GetIon(G4int << 
575 {                                              << 
576   G4int Z, A, LL, IsoLvl;                      << 
577   G4double E;                                  << 
578   if (!GetNucleusByEncoding(encoding, Z, A, LL << 
579 #ifdef G4VERBOSE                               << 
580     if (GetVerboseLevel() > 0) {               << 
581       G4cout << "G4IonTable::GetIon() : illega << 
582              << " CODE:" << encoding << G4endl << 
583     }                                          << 
584 #endif                                         << 
585     G4Exception("G4IonTable::GetIon()", "PART1 << 
586     return nullptr;                            << 
587   }                                            << 
588   return GetIon(Z, A, LL, IsoLvl);             << 
589 }                                                 349 }
590                                                   350 
                                                   >> 351 ////////////////////
591 G4ParticleDefinition* G4IonTable::FindIon(G4in    352 G4ParticleDefinition* G4IonTable::FindIon(G4int Z, G4int A, G4double E, G4int J)
592 {                                                 353 {
593   return FindIon(Z, A, E, G4Ions::G4FloatLevel << 354   const G4double EnergyTorelance = 0.1 * keV;
594 }                                              << 
595                                                << 
596 G4ParticleDefinition* G4IonTable::FindIon(G4in << 
597 {                                              << 
598   return FindIon(Z, A, E, G4Ions::FloatLevelBa << 
599 }                                              << 
600                                                   355 
601 G4ParticleDefinition* G4IonTable::FindIon(G4in << 356   if ( (A<1) || (Z<=0) || (J<0) || (E<0.0) || (A>999) ) {
602                                           G4Io << 
603 {                                              << 
604   if ((A < 1) || (Z <= 0) || (J < 0) || (E < 0 << 
605 #ifdef G4VERBOSE                                  357 #ifdef G4VERBOSE
606     if (GetVerboseLevel() > 0) {               << 358     if (GetVerboseLevel()>0) {
607       G4cout << "G4IonTable::FindIon(): illega << 359       G4cout << "G4IonTable::FindIon() : illegal atomic number/mass or excitation level " << G4endl;
608              << " or excitation level:" << G4e << 360       G4cout << " Z =" << Z << "  A = " << A <<  "  E = " << E/keV << G4endl;
609              << "  E = " << E / keV << G4endl; << 
610     }                                             361     }
611 #endif                                            362 #endif
612     G4Exception("G4IonTable::FindIon()", "PART << 363     G4Exception( "G4IonTable::FindIon()","Illegal operation",
613     return nullptr;                            << 364      JustWarning, "illegal atomic number/mass");
                                                   >> 365     return 0;
614   }                                               366   }
615   // Search ions with A, Z ,E                     367   // Search ions with A, Z ,E
616   //  !! J is omitted now !!                      368   //  !! J is omitted now !!
617   const G4ParticleDefinition* ion = nullptr;   << 369   G4ParticleDefinition* ion=0;
618   G4bool isFound = false;                         370   G4bool isFound = false;
619                                                   371 
620   // check if light ion                        << 372   // -- loop over all particles in Ion table
621   ion = GetLightIon(Z, A);                     << 373   G4int encoding=GetNucleusEncoding(Z, A, 0);
622   if (ion != nullptr && E == 0.0) {            << 374   G4IonList::iterator i = fIonList->find(encoding);
623     // light ion                               << 375   for( ;i != fIonList->end() ; i++) {
624     isFound = true;                            << 376     ion = i->second;
625   }                                            << 377     if ( ( ion->GetAtomicNumber() != Z) || (ion->GetAtomicMass()!=A) ) break;
626   else {                                       << 378 
627     // -- loop over all particles in Ion table << 379      // excitation level
628     G4int encoding = GetNucleusEncoding(Z, A); << 380     G4double anExcitaionEnergy = ((const G4Ions*)(ion))->GetExcitationEnergy();
629     const G4ParticleDefinition* ion1 = nullptr << 381     if ( ( std::fabs(E - anExcitaionEnergy ) < EnergyTorelance ) ) {
630     for (auto i = fIonList->find(encoding); i  << 
631       ion = i->second;                         << 
632       if ((ion->GetAtomicNumber() != Z) || (io << 
633       // excitation level                      << 
634       G4double anExcitaionEnergy = ((const G4I << 
635                                                << 
636       if (std::fabs(E - anExcitaionEnergy) < p << 
637         if (nullptr == ion1) ion1 = ion;       << 
638         if (((const G4Ions*)(ion))->GetFloatLe << 
639           isFound = true;                      << 
640           break;                               << 
641         }                                      << 
642       }                                        << 
643     }                                          << 
644     // rerun search on ground level without ch << 
645     if (!isFound && E == 0.0 && nullptr != ion << 
646       isFound = true;                             382       isFound = true;
647       ion = ion1;                              << 383       break;
648     }                                             384     }
649   }                                               385   }
650                                                   386 
651   if (isFound) {                               << 387   if ( isFound ){ 
652     return const_cast<G4ParticleDefinition*>(i << 388     return ion;
                                                   >> 389   } else {
                                                   >> 390     return 0;
653   }                                               391   }
654                                                << 
655   return nullptr;                              << 
656 }                                              << 
657                                                << 
658 G4ParticleDefinition* G4IonTable::FindIon(G4in << 
659 {                                              << 
660   return (LL == 0) ? FindIon(Z, A, E, G4Ions:: << 
661                    : FindIon(Z, A, LL, E, G4Io << 
662 }                                                 392 }
663                                                   393 
664 G4ParticleDefinition* G4IonTable::FindIon(G4in << 
665                                           G4in << 
666 {                                              << 
667   return FindIon(Z, A, LL, E, G4Ions::FloatLev << 
668 }                                              << 
669                                                   394 
670 G4ParticleDefinition* G4IonTable::FindIon(G4in << 395 ////////////////////
671                                           G4Io << 396 G4ParticleDefinition* G4IonTable::FindIon(G4int Z, G4int A, G4int L, G4double E, G4int J)
672 {                                                 397 {
673   if (LL == 0) return FindIon(Z, A, E, flb, J) << 398   if (L==0) return FindIon(Z,A,E,J);
                                                   >> 399   
                                                   >> 400   const G4double EnergyTorelance = 0.1 * keV;
674                                                   401 
675   if (A < 2 || Z < 0 || Z > A - LL || LL > A | << 402   if (A < 2 || Z < 0 || Z > A-L || L>A || A>999 ) {
676 #ifdef G4VERBOSE                                  403 #ifdef G4VERBOSE
677     if (GetVerboseLevel() > 0) {               << 404     if (GetVerboseLevel()>0) {
678       G4cout << "G4IonTable::FindIon(): illega << 405       G4cout << "G4IonTable::FindIon() : illegal atomic number/mass or excitation level " << G4endl;
679              << " or excitation level:" << G4e << 406       G4cout << " Z =" << Z << "  A = " << A << " L = " << L 
680              << "  E = " << E / keV << G4endl; << 407        <<"  E = " << E/keV << G4endl;
681     }                                          << 408     }    
682 #endif                                            409 #endif
683     G4Exception("G4IonTable::FindIon()", "PART << 410     G4Exception( "G4IonTable::FindIon()","Illegal operation",
684     return nullptr;                            << 411      JustWarning, "illegal atomic number/mass");
                                                   >> 412     return 0;
685   }                                               413   }
686   // Search ions with A, Z ,E                     414   // Search ions with A, Z ,E
687   //  !! J is omitted now !!                      415   //  !! J is omitted now !!
688   const G4ParticleDefinition* ion = nullptr;   << 416   G4ParticleDefinition* ion=0;
689   G4bool isFound = false;                         417   G4bool isFound = false;
690                                                   418 
691   // -- loop over all particles in Ion table      419   // -- loop over all particles in Ion table
692   G4int encoding = GetNucleusEncoding(Z, A, LL << 420   G4int encoding=GetNucleusEncoding(Z, A, L);
693   for (auto i = fIonList->find(encoding); i != << 421   G4IonList::iterator i = fIonList->find(encoding);
                                                   >> 422   for( ;i != fIonList->end() ; i++) {
694     ion = i->second;                              423     ion = i->second;
695     if ((ion->GetAtomicNumber() != Z) || (ion- << 424     if ( ( ion->GetAtomicNumber() != Z) || (ion->GetAtomicMass()!=A) ) break;
696     if (ion->GetQuarkContent(3) != LL) break;  << 425     if(  ion->GetQuarkContent(3) != L) break;
697     // excitation level                        << 426 
                                                   >> 427      // excitation level
698     G4double anExcitaionEnergy = ((const G4Ion    428     G4double anExcitaionEnergy = ((const G4Ions*)(ion))->GetExcitationEnergy();
699     if (std::fabs(E - anExcitaionEnergy) < pNu << 429 
700       if (((const G4Ions*)(ion))->GetFloatLeve << 430     if ( ( std::fabs(E - anExcitaionEnergy ) < EnergyTorelance ) ) {
701         isFound = true;                        << 431       isFound = true;
702         break;                                 << 432       break;
703       }                                        << 
704     }                                             433     }
705   }                                               434   }
706                                                   435 
707   if (isFound) {                               << 436   if ( isFound ){ 
708     return const_cast<G4ParticleDefinition*>(i << 437     return ion;
                                                   >> 438   } else {
                                                   >> 439     return 0;
709   }                                               440   }
710                                                << 
711   return nullptr;                              << 
712 }                                                 441 }
713                                                   442 
714 G4ParticleDefinition* G4IonTable::FindIon(G4in << 
715 {                                              << 
716   return FindIon(Z, A, 0.0, G4Ions::FloatLevel << 
717 }                                              << 
718                                                   443 
719 G4ParticleDefinition* G4IonTable::FindIon(G4in << 444 /////////////////
720 {                                              << 445 G4int G4IonTable::GetNucleusEncoding(G4int Z, G4int A, G4double E, G4int )
721   return (LL == 0) ? FindIon(Z, A, 0.0, G4Ions << 
722                    : FindIon(Z, A, LL, 0.0, G4 << 
723 }                                              << 
724                                                << 
725 G4int G4IonTable::GetNucleusEncoding(G4int Z,  << 
726 {                                                 446 {
727   // PDG code for Ions                            447   // PDG code for Ions
728   // Nuclear codes are given as 10-digit numbe    448   // Nuclear codes are given as 10-digit numbers +-100ZZZAAAI.
729   // For a nucleus consisting of np protons an << 449   //For a nucleus consisting of np protons and nn neutrons
730   // A = np + nn and Z = np.                      450   // A = np + nn and Z = np.
731   // I gives the isomer level, with I = 0 corr << 451   // I gives the isomer level, with I = 0 corresponding 
732   // to the ground state and I >0 to excitatio    452   // to the ground state and I >0 to excitations
733                                                << 453   
734   if (Z == 1 && A == 1 && E == 0.0) return 221 << 454   //!!! I = 1 is assigned fo all excitation states !!!   
735                                                << 455   const G4double EnergyTorelance = 0.1 * keV;
                                                   >> 456   if ( Z==1 && A==1 && E< EnergyTorelance ) {
                                                   >> 457     //proton
                                                   >> 458     return 2212;
                                                   >> 459   }
                                                   >> 460   
736   G4int encoding = 1000000000;                    461   G4int encoding = 1000000000;
737   encoding += Z * 10000;                          462   encoding += Z * 10000;
738   encoding += A * 10;                          << 463   encoding += A *10;
739   if (lvl > 0 && lvl < 10)                     << 464   if (E>0.0) encoding += 1;
740     encoding += lvl;  // isomer level          << 465   
741   else if (E > 0.0)                            << 
742     encoding += 9;  // isomer level            << 
743                                                << 
744   return encoding;                                466   return encoding;
745 }                                                 467 }
746                                                   468 
747 G4int G4IonTable::GetNucleusEncoding(G4int Z,  << 469 /////////////////
                                                   >> 470 G4int G4IonTable::GetNucleusEncoding(G4int Z,  G4int A,    G4int L,
                                                   >> 471               G4double E,  G4int )
748 {                                                 472 {
749   // Get PDG code for Hyper-Nucleus Ions       << 473   //  get PDG code for Hyper-Nucleus Ions 
750   // Nuclear codes are given as 10-digit numbe    474   // Nuclear codes are given as 10-digit numbers +-10LZZZAAAI.
751   // For a nucleus consisting of np protons an << 475   //For a nucleus consisting of np protons and nn neutrons
752   // A = np + nn +nlambda and Z = np.             476   // A = np + nn +nlambda and Z = np.
753   // LL = nlambda                              << 477   // L = nlambda
754   // I gives the isomer level, with I = 0 corr << 478   // I gives the isomer level, with I = 0 corresponding 
755   // to the ground state and I >0 to excitatio    479   // to the ground state and I >0 to excitations
                                                   >> 480   //
                                                   >> 481   //!!! I = 1 is assigned fo all excitation states in Geant4   
756                                                   482 
757   G4int encoding = GetNucleusEncoding(Z, A, E, << 483   G4int encoding = 1000000000;
758   if (LL == 0) return encoding;                << 484   encoding += L*  10000000;
759   encoding += LL * 10000000;                   << 485   encoding += Z * 10000;
760   if (Z == 1 && A == 1 && E == 0.0) encoding = << 486   encoding += A *10;
761                                                << 487   if (E>0.0) encoding += 1;
                                                   >> 488   
762   return encoding;                                489   return encoding;
763 }                                                 490 }
764                                                   491 
765 G4bool G4IonTable::GetNucleusByEncoding(G4int  << 492 ///////////////
                                                   >> 493 G4bool G4IonTable::GetNucleusByEncoding(G4int encoding,
                                                   >> 494           G4int &Z,      G4int &A, 
                                                   >> 495           G4double &E,   G4int &J)
766 {                                                 496 {
767   if (encoding <= 0) return false;  // anti pa << 497   if (encoding <= 0) {
768                                                << 498     // anti particle   
769   if (encoding == 2212)  // proton             << 499     return false;
770   {                                            << 500   } 
                                                   >> 501   if (encoding == 2212) {
                                                   >> 502     // proton
771     Z = 1;                                        503     Z = 1;
772     A = 1;                                        504     A = 1;
773     E = 0.0;                                   << 505     E=0.0;
774     lvl = 0;                                   << 506     J=0; 
775     return true;                                  507     return true;
776   }                                               508   }
777                                                   509 
                                                   >> 510   if (encoding % 10 != 0) {
                                                   >> 511     //!!!not supported for excitation states !!!   
                                                   >> 512     return false;
                                                   >> 513   }
                                                   >> 514 
778   encoding -= 1000000000;                         515   encoding -= 1000000000;
779   Z = encoding / 10000;                        << 516   Z = encoding/10000;
780   encoding -= 10000 * Z;                       << 517   encoding -= 10000*Z;
781   A = encoding / 10;                           << 518   A = encoding/10;
782   lvl = encoding % 10;                         << 519   
                                                   >> 520   E=0.0;
                                                   >> 521   J=0; 
                                                   >> 522  
783   return true;                                    523   return true;
784 }                                                 524 }
785                                                << 525 ///////////////
786 G4bool G4IonTable::GetNucleusByEncoding(G4int  << 526 G4bool G4IonTable::GetNucleusByEncoding(G4int encoding,
787                                         G4int& << 527           G4int &Z,      G4int &A, 
                                                   >> 528           G4int &L,   
                                                   >> 529           G4double &E,   G4int &J)
788 {                                                 530 {
789   if (encoding <= 0) return false;  // anti pa << 531   if (encoding <= 0) {
790                                                << 532     // anti particle   
791   if (encoding == 3122)  // Lambda             << 533     return false;
792   {                                            << 
793     Z = 1;                                     << 
794     A = 1;                                     << 
795     LL = 1;                                    << 
796     E = 0.0;                                   << 
797     lvl = 0;                                   << 
798     return true;                               << 
799   }                                               534   }
800                                                << 
801   if (encoding % 10 != 0) {                       535   if (encoding % 10 != 0) {
802     // !!!not supported for excitation states  << 536     //!!!not supported for excitation states !!!   
803     return false;                                 537     return false;
804   }                                               538   }
805   if (encoding < 1000000000) {                    539   if (encoding < 1000000000) {
806     // anti particle                           << 540     // anti particle   
807     return false;                                 541     return false;
808   }                                               542   }
809                                                   543 
810   encoding -= 1000000000;                         544   encoding -= 1000000000;
811   LL = encoding / 10000000;                    << 545   L = encoding/10000000;
812   encoding -= 10000000 * LL;                   << 546   encoding -= 10000000*L;
813   Z = encoding / 10000;                        << 547   Z = encoding/10000;
814   encoding -= 10000 * Z;                       << 548   encoding -= 10000*Z;
815   A = encoding / 10;                           << 549   A = encoding/10;
816   lvl = encoding % 10;                         << 550   
                                                   >> 551   E=0.0;
                                                   >> 552   J=0; 
                                                   >> 553  
817   return true;                                    554   return true;
818 }                                                 555 }
819                                                << 556 /////////////////
820 G4String G4IonTable::GetIonName(G4int Z, G4int << 557 const G4String& G4IonTable::GetIonName(G4int Z, G4int A, G4double E) const 
821                                 G4Ions::G4Floa << 
822 {                                              << 
823   G4String name = GetIonName(Z, A, 0);         << 
824                                                << 
825   // Excited energy or floating level          << 
826   if (E > 0 || flb != G4Ions::G4FloatLevelBase << 
827     std::ostringstream os;                     << 
828     os.setf(std::ios::fixed);                  << 
829     os.precision(3);                           << 
830     // Excited nucleus                         << 
831     os << '[' << E / keV;                      << 
832     if (flb != G4Ions::G4FloatLevelBase::no_Fl << 
833       os << G4Ions::FloatLevelBaseChar(flb);   << 
834     }                                          << 
835     os << ']';                                 << 
836     name += os.str();                          << 
837   }                                            << 
838                                                << 
839   return name;                                 << 
840 }                                              << 
841                                                << 
842 G4String G4IonTable::GetIonName(G4int Z, G4int << 
843                                 G4Ions::G4Floa << 
844 {                                                 558 {
845   if (LL == 0) return GetIonName(Z, A, E, flb) << 559   static G4String name;
846   G4String name = "";                          << 560   name ="";
847   for (G4int i = 0; i < LL; ++i) {             << 561   if ( (0< Z) && (Z <=numberOfElements) ) {
848     name += "L";                               << 562     name = elementName[Z-1];
                                                   >> 563   } else if (Z > numberOfElements) {
                                                   >> 564     std::ostringstream os1;
                                                   >> 565     os1.setf(std::ios::fixed);
                                                   >> 566     os1 << Z ;
                                                   >> 567     name = "E" + os1.str() + "-";
                                                   >> 568   } else {
                                                   >> 569     name = "?";
                                                   >> 570     return name;
849   }                                               571   }
850   name += GetIonName(Z, A, E, flb);            << 
851   return name;                                 << 
852 }                                              << 
853                                                << 
854 G4String G4IonTable::GetIonName(G4int Z, G4int << 
855 {                                              << 
856   std::ostringstream os;                          572   std::ostringstream os;
857                                                << 573   os.setf(std::ios::fixed);
858   // Atomic number                             << 574   os << A << '[' << std::setprecision(1) << E/keV << ']';
859   if ((0 < Z) && (Z <= numberOfElements)) {    << 575   name += os.str();
860     os << elementName[Z - 1];                  << 
861   }                                            << 
862   else {                                       << 
863     os << "E" << Z << "-";                     << 
864   }                                            << 
865   // Atomic Mass                               << 
866   os << A;                                     << 
867                                                << 
868   if (lvl > 0) {                               << 
869     // Isomer level for Excited nucelus        << 
870     os << '[' << lvl << ']';                   << 
871   }                                            << 
872   G4String name = os.str();                    << 
873   return name;                                    576   return name;
874 }                                                 577 }
875                                                   578 
876 G4String G4IonTable::GetIonName(G4int Z, G4int << 579 /////////////////
                                                   >> 580 const G4String& G4IonTable::GetIonName(G4int Z, G4int A, G4int L, G4double E) const 
877 {                                                 581 {
878   if (LL == 0) return GetIonName(Z, A, lvl);   << 582   if (L==0) return GetIonName(Z, A, E); 
879   G4String name = "";                          << 583   static G4String name;
880   for (G4int i = 0; i < LL; ++i) {             << 584   name ="";
881     name += "L";                               << 585   for (int i =0; i<L; i++){
                                                   >> 586     name +="L";
882   }                                               587   }
883   name += GetIonName(Z, A, lvl);               << 588   name += GetIonName(Z, A, E);
884   return name;                                    589   return name;
885 }                                                 590 }
886                                                   591 
                                                   >> 592 /////////////////
887 G4bool G4IonTable::IsIon(const G4ParticleDefin    593 G4bool G4IonTable::IsIon(const G4ParticleDefinition* particle)
888 {                                                 594 {
889   // Return true if the particle is ion        << 595   // return true if the particle is ion
890   static const G4String nucleus("nucleus");    << 
891   static const G4String proton("proton");      << 
892                                                   596 
893   // Neutron is not ion                        << 597   static G4String nucleus("nucleus");
894   if ((particle->GetAtomicMass() > 0) && (part << 598   static G4String proton("proton");
895     return particle->GetBaryonNumber() > 0;    << 
896   }                                            << 
897                                                   599 
898   // Particles derived from G4Ions             << 600   // neutron is not ion
                                                   >> 601   if ((particle->GetAtomicMass() >0) && (particle->GetAtomicNumber()>0)) return true;
                                                   >> 602    
                                                   >> 603   //  particles derived from G4VIon and G4Ions
899   if (particle->GetParticleType() == nucleus)     604   if (particle->GetParticleType() == nucleus) return true;
900                                                   605 
901   // Proton (Hydrogen nucleus)                 << 606   // proton (Hydrogen nucleus)
902   if (particle->GetParticleName() == proton) r    607   if (particle->GetParticleName() == proton) return true;
903                                                   608 
904   return false;                                   609   return false;
905 }                                                 610 }
906                                                   611 
907 G4bool G4IonTable::IsAntiIon(const G4ParticleD << 612 /////////////////
908 {                                              << 613 #include <algorithm>
909   // Return true if the particle is ion        << 
910   static const G4String anti_nucleus("anti_nuc << 
911   static const G4String anti_proton("anti_prot << 
912                                                << 
913   // Anti_neutron is not ion                   << 
914   if ((particle->GetAtomicMass() > 0) && (part << 
915     return particle->GetBaryonNumber() < 0;    << 
916   }                                            << 
917                                                << 
918   // Particles derived from G4Ions             << 
919   if (particle->GetParticleType() == anti_nucl << 
920                                                << 
921   // Anti_proton (Anti_Hydrogen nucleus)       << 
922   if (particle->GetParticleName() == anti_prot << 
923                                                << 
924   return false;                                << 
925 }                                              << 
926                                                << 
927 G4bool G4IonTable::IsLightIon(const G4Particle << 
928 {                                              << 
929   static const std::string names[] = {"proton" << 
930                                                << 
931   // Return true if the particle is pre-define << 
932   return std::find(names, names + 5, (particle << 
933 }                                              << 
934                                                   614 
935 G4bool G4IonTable::IsLightAntiIon(const G4Part << 615 G4bool G4IonTable::IsLightIon(G4ParticleDefinition* particle) const
936 {                                                 616 {
937   static const std::string names[] = {"anti_pr << 617   static const std::string names[] = { "proton", "neutron", "alpha", "deuteron",
938                                       "anti_He << 618                            "triton", "He3", "GenericIon"};
939                                                   619 
940   // Return true if the particle is pre-define << 620    // return true if the particle is pre-defined ion
941   return std::find(names, names + 5, (particle << 621   return std::find(names, names+7, particle->GetParticleName())!=names+7;
942 }                                              << 622 } 
943                                                   623 
                                                   >> 624 /////////////////
944 G4ParticleDefinition* G4IonTable::GetLightIon(    625 G4ParticleDefinition* G4IonTable::GetLightIon(G4int Z, G4int A) const
945 {                                                 626 {
946   // Returns pointer to pre-defined ions       << 627   // returns pointer to pre-defined ions 
947   const G4ParticleDefinition* ion = nullptr;   << 628   static G4bool isInitialized = false;
948   if ((Z <= 2)) {                              << 629   static G4ParticleDefinition* p_proton=0;
949 #ifndef G4MULTITHREADED                        << 630   static G4ParticleDefinition* p_neutron=0;
950     // In sequential use lazy-initialization   << 631   static G4ParticleDefinition* p_deuteron=0;
951     lightions::Init();                         << 632   static G4ParticleDefinition* p_triton=0;
952 #endif                                         << 633   static G4ParticleDefinition* p_alpha=0;
953     if ((Z == 1) && (A == 1)) {                << 634   static G4ParticleDefinition* p_He3=0;
954       ion = lightions::p_proton;               << 635   
955     }                                          << 636   if (!isInitialized) {
956     else if ((Z == 1) && (A == 2)) {           << 637     p_proton   = G4ParticleTable::GetParticleTable()->FindParticle("proton"); // proton 
957       ion = lightions::p_deuteron;             << 638     p_neutron  = G4ParticleTable::GetParticleTable()->FindParticle("neutron"); // neutron 
958     }                                          << 639     p_deuteron = G4ParticleTable::GetParticleTable()->FindParticle("deuteron"); // deuteron 
959     else if ((Z == 1) && (A == 3)) {           << 640     p_triton   = G4ParticleTable::GetParticleTable()->FindParticle("triton"); // tritoon 
960       ion = lightions::p_triton;               << 641     p_alpha    = G4ParticleTable::GetParticleTable()->FindParticle("alpha"); // alpha 
961     }                                          << 642     p_He3      = G4ParticleTable::GetParticleTable()->FindParticle("He3"); // He3 
962     else if ((Z == 2) && (A == 4)) {           << 643     isInitialized = true;
963       ion = lightions::p_alpha;                << 644   }
964     }                                          << 645 
965     else if ((Z == 2) && (A == 3)) {           << 646   G4ParticleDefinition* ion=0;
966       ion = lightions::p_He3;                  << 647   if ( (Z<=2) ) {
967     }                                          << 648     if ( (Z==1)&&(A==1) ) {
968   }                                            << 649       ion = p_proton;
969   return const_cast<G4ParticleDefinition*>(ion << 650     } else if ( (Z==0)&&(A==1) ) {
970 }                                              << 651       ion = p_neutron;
971                                                << 652     } else if ( (Z==1)&&(A==2) ) {
972 G4ParticleDefinition* G4IonTable::GetLightAnti << 653       ion = p_deuteron;
973 {                                              << 654     } else if ( (Z==1)&&(A==3) ) {
974   // Returns pointer to pre-defined ions       << 655       ion = p_triton;
975   const G4ParticleDefinition* ion = nullptr;   << 656     } else if ( (Z==2)&&(A==4) ) {
976   if ((Z <= 2)) {                              << 657       ion = p_alpha;
977 #ifndef G4MULTITHREADED                        << 658     } else if ( (Z==2)&&(A==3) ) {
978     // In sequential use lazy-initialization   << 659       ion = p_He3;
979     antilightions::Init();                     << 
980 #endif                                         << 
981     if ((Z == 1) && (A == 1)) {                << 
982       ion = antilightions::p_proton;           << 
983     }                                          << 
984     else if ((Z == 1) && (A == 2)) {           << 
985       ion = antilightions::p_deuteron;         << 
986     }                                          << 
987     else if ((Z == 1) && (A == 3)) {           << 
988       ion = antilightions::p_triton;           << 
989     }                                          << 
990     else if ((Z == 2) && (A == 4)) {           << 
991       ion = antilightions::p_alpha;            << 
992     }                                          << 
993     else if ((Z == 2) && (A == 3)) {           << 
994       ion = antilightions::p_He3;              << 
995     }                                             660     }
996   }                                               661   }
997   return const_cast<G4ParticleDefinition*>(ion << 662   return ion;
998 }                                                 663 }
999                                                   664 
1000 G4double G4IonTable::GetNucleusMass(G4int Z,  << 665 /////////////////
                                                   >> 666 // -- GetNucleusMass/GetIonMass ---
                                                   >> 667 /////////////////
                                                   >> 668 G4double  G4IonTable::GetNucleusMass(G4int Z, G4int A, G4int L) const
1001 {                                                669 {
1002   if ((A < 1) || (Z < 0) || (LL < 0) || (lvl  << 670   if ( (A<1)  || (Z<0) || (L<0) ){
1003 #ifdef G4VERBOSE                                 671 #ifdef G4VERBOSE
1004     if (GetVerboseLevel() > 0) {              << 672     if (GetVerboseLevel()>0) {
1005       G4cout << "G4IonTable::GetNucleusMass() << 673       G4cout << "G4IonTable::GetNucleusMass() : illegal atomic number/mass " << G4endl;
1006              << " Z =" << Z << "  A = " << A  << 674       G4cout << " Z =" << Z << "  A = " << A  << G4endl;
1007     }                                            675     }
1008 #endif                                           676 #endif
1009     G4Exception("G4IonTable::GetNucleusMass() << 677     G4Exception( "G4IonTable::GetNucleusMass()","Illegal operation",
1010                 "illegal atomic number/mass") << 678      EventMustBeAborted, "illegal atomic number/mass");
1011     return -1.0;                                 679     return -1.0;
1012   }                                              680   }
1013                                                  681 
1014   G4double mass;                                 682   G4double mass;
1015   if (LL == 0) {                              << 683   if (L == 0) {
1016     // calculate nucleus mass                    684     // calculate nucleus mass
1017     const G4ParticleDefinition* ion = GetLigh << 685     G4ParticleDefinition* ion=GetLightIon(Z, A);
1018                                               << 686     
1019     if (ion != nullptr) {                     << 687     if (ion!=0) {
1020       mass = ion->GetPDGMass();                  688       mass = ion->GetPDGMass();
1021     }                                         << 689     } else {
1022     else {                                    << 690       // use G4NucleiProperties::GetNuclearMass
1023       // Use G4NucleiProperties::GetNuclearMa << 
1024       mass = G4NucleiProperties::GetNuclearMa    691       mass = G4NucleiProperties::GetNuclearMass(A, Z);
1025     }                                            692     }
1026                                                  693 
1027     // Isomer                                 << 694   } else {
1028     if (lvl > 0) {                            << 695     mass = G4HyperNucleiProperties::GetNuclearMass(A, Z, L);
1029       // -- loop over all particles in Ion ta << 
1030       G4int encoding = GetNucleusEncoding(Z,  << 
1031       G4bool isFound = false;                 << 
1032       for (auto i = fIonList->find(encoding); << 
1033         ion = i->second;                      << 
1034         if ((ion->GetAtomicNumber() != Z) ||  << 
1035         // Excitation level                   << 
1036         if (((const G4Ions*)(ion))->GetIsomer << 
1037           isFound = true;                     << 
1038           break;                              << 
1039         }                                     << 
1040       }                                       << 
1041       if (isFound) {                          << 
1042         // Return existing isomer mass        << 
1043         mass = ion->GetPDGMass();             << 
1044       }                                       << 
1045       else {                                  << 
1046         // Find isomer from IsotopeTable      << 
1047         const G4IsotopeProperty* fProperty =  << 
1048         if (fProperty != nullptr) mass += fPr << 
1049       }                                       << 
1050     }                                         << 
1051   }                                           << 
1052   else {                                      << 
1053     mass = G4HyperNucleiProperties::GetNuclea << 
1054   }                                              696   }
1055   return mass;                                   697   return mass;
1056 }                                                698 }
1057                                                  699 
1058 G4double G4IonTable::GetIsomerMass(G4int Z, G << 700 //////////////////
                                                   >> 701 G4double  G4IonTable::GetIonMass(G4int Z, G4int A, G4int L) const
1059 {                                                702 {
1060   return GetNucleusMass(Z, A, 0, lvl);        << 703    return GetNucleusMass(Z,A,L);
1061 }                                                704 }
1062                                                  705 
1063 G4double G4IonTable::GetIonMass(G4int Z, G4in << 
1064 {                                             << 
1065   return GetNucleusMass(Z, A, LL, lvl);       << 
1066 }                                             << 
1067                                                  706 
1068 void G4IonTable::clear()                      << 707 /////////////////
1069 {                                             << 708 // -- Methods for handling conatiner  ---
1070   if (G4ParticleTable::GetParticleTable()->Ge << 709 /////////////////
1071     G4Exception("G4IonTable::clear()", "PART1 << 710 void G4IonTable::Insert(G4ParticleDefinition* particle)
1072                 "No effects because readyToUs << 
1073     return;                                   << 
1074   }                                           << 
1075                                               << 
1076 #ifdef G4VERBOSE                              << 
1077   if (GetVerboseLevel() > 2) {                << 
1078     G4cout << "G4IonTable::Clear() : number o << 
1079     G4cout << fIonList->size() << G4endl;     << 
1080   }                                           << 
1081 #endif                                        << 
1082   fIonList->clear();                          << 
1083 }                                             << 
1084                                               << 
1085 void G4IonTable::Insert(const G4ParticleDefin << 
1086 {                                                711 {
1087   if (!IsIon(particle)) return;                  712   if (!IsIon(particle)) return;
1088   if (Contains(particle)) return;                713   if (Contains(particle)) return;
1089                                               << 714  
1090   G4int Z = particle->GetAtomicNumber();         715   G4int Z = particle->GetAtomicNumber();
1091   G4int A = particle->GetAtomicMass();        << 716   G4int A = particle->GetAtomicMass();  
1092   G4int LL = particle->GetQuarkContent(3);  / << 717   G4int L = particle->GetQuarkContent(3);  //strangeness 
1093   G4int encoding = GetNucleusEncoding(Z, A, L << 718   G4int encoding=GetNucleusEncoding(Z, A, L);
1094                                                  719 
1095   // Register the ion with its encoding of th << 720   fIonList->insert( std::pair<G4int, G4ParticleDefinition*>(encoding, particle) );
1096   fIonListShadow->insert(std::pair<const G4in << 
1097 }                                             << 
1098                                               << 
1099 void G4IonTable::InsertWorker(const G4Particl << 
1100 {                                             << 
1101   if (particle == nullptr) return;            << 
1102                                                  721 
1103   G4int Z = particle->GetAtomicNumber();      << 
1104   G4int A = particle->GetAtomicMass();        << 
1105   G4int LL = particle->GetQuarkContent(3);  / << 
1106   G4int encoding = GetNucleusEncoding(Z, A, L << 
1107   G4bool found = false;                       << 
1108   if (encoding != 0) {                        << 
1109     for (auto i = fIonList->find(encoding); i << 
1110       if (particle == i->second) {            << 
1111         found = true;                         << 
1112         break;                                << 
1113       }                                       << 
1114     }                                         << 
1115   }                                           << 
1116   if (found) return;                          << 
1117                                               << 
1118   // Register the ion with its encoding of th << 
1119   fIonList->insert(std::pair<const G4int, con << 
1120 }                                                722 }
1121                                                  723 
1122 void G4IonTable::Remove(const G4ParticleDefin << 724 /////////////////
                                                   >> 725 void G4IonTable::Remove(G4ParticleDefinition* particle)
1123 {                                                726 {
1124   if (particle == nullptr) return;            << 
1125 #ifdef G4MULTITHREADED                        << 
1126   if (G4Threading::IsWorkerThread()) {        << 
1127     G4ExceptionDescription ed;                << 
1128     ed << "Request of removing " << particle- << 
1129        << " is ignored as it is invoked from  << 
1130     G4Exception("G4IonTable::Remove()", "PART << 
1131     return;                                   << 
1132   }                                           << 
1133 #endif                                        << 
1134   if (G4ParticleTable::GetParticleTable()->Ge << 
1135     G4StateManager* pStateManager = G4StateMa << 
1136     G4ApplicationState currentState = pStateM << 
1137     if (currentState != G4State_PreInit) {    << 
1138       G4String msg = "Request of removing ";  << 
1139       msg += particle->GetParticleName();     << 
1140       msg += " has No effects other than Pre_ << 
1141       G4Exception("G4IonTable::Remove()", "PA << 
1142       return;                                 << 
1143     }                                         << 
1144                                               << 
1145 #ifdef G4VERBOSE                              << 
1146     if (GetVerboseLevel() > 0) {              << 
1147       G4cout << particle->GetParticleName() < << 
1148     }                                         << 
1149 #endif                                        << 
1150   }                                           << 
1151                                               << 
1152   if (IsIon(particle)) {                         727   if (IsIon(particle)) {
1153     G4int Z = particle->GetAtomicNumber();       728     G4int Z = particle->GetAtomicNumber();
1154     G4int A = particle->GetAtomicMass();      << 729     G4int A = particle->GetAtomicMass();  
1155     G4int LL = particle->GetQuarkContent(3);  << 730     G4int L = particle->GetQuarkContent(3);  //strangeness 
1156     G4int encoding = GetNucleusEncoding(Z, A, << 731     G4int encoding=GetNucleusEncoding(Z, A, L);
1157     if (encoding != 0) {                      << 732     if (encoding !=0 ) {
1158       for (auto i = fIonListShadow->find(enco << 733       G4IonList::iterator i = fIonList->find(encoding);
1159         if (particle == i->second) {          << 734       for( ;i != fIonList->end() ; i++) {
1160           fIonListShadow->erase(i);           << 735   if (particle == i->second) {
1161           break;                              << 736     fIonList->erase(i);
1162         }                                     << 737     break;
                                                   >> 738   }
1163       }                                          739       }
1164     }                                            740     }
1165   }                                           << 741   } else {
1166   else {                                      << 
1167 #ifdef G4VERBOSE                                 742 #ifdef G4VERBOSE
1168     if (GetVerboseLevel() > 1) {              << 743     if (GetVerboseLevel()>1) {
1169       G4cout << "G4IonTable::Remove :" << par << 744       G4cout << "G4IonTable::Remove :" << particle->GetParticleName() ;
                                                   >> 745       G4cout << " is not ions" << G4endl; 
1170     }                                            746     }
1171 #endif                                           747 #endif
1172   }                                              748   }
                                                   >> 749   
1173 }                                                750 }
1174                                                  751 
1175 void G4IonTable::DumpTable(const G4String& pa << 752 
                                                   >> 753 
                                                   >> 754 /////////////////
                                                   >> 755 // -- Dump Information 
                                                   >> 756 /////////////////
                                                   >> 757 void G4IonTable::DumpTable(const G4String &particle_name) const
1176 {                                                758 {
1177   const G4ParticleDefinition* ion;            << 759   G4ParticleDefinition* ion;
1178   for (const auto& idx : *fIonList) {         << 760   G4IonList::iterator idx;
1179     ion = idx.second;                         << 761   for (idx = fIonList->begin(); idx!= fIonList->end(); ++idx) {
1180     if ((particle_name == "ALL") || (particle << 762     ion = idx->second;
                                                   >> 763     if (( particle_name == "ALL" ) || (particle_name == "all")){
1181       ion->DumpTable();                          764       ion->DumpTable();
1182     }                                         << 765     } else if ( particle_name == ion->GetParticleName() ) {
1183     else if (particle_name == ion->GetParticl << 
1184       ion->DumpTable();                          766       ion->DumpTable();
1185     }                                            767     }
1186   }                                              768   }
1187 }                                                769 }
1188                                                  770 
1189 // ------------------------------------------ << 771 /////////////////
1190 //                                            << 772 const G4String G4IonTable::elementName[] = {
1191 // clang-format off                           << 
1192 const G4String G4IonTable::elementName[] =    << 
1193 {                                             << 
1194   "H",                                           773   "H",                                                                                                "He", 
1195   "Li", "Be",                                    774   "Li", "Be",                                                             "B",  "C",  "N",  "O", "F", "Ne", 
1196   "Na", "Mg",                                    775   "Na", "Mg",                                                             "Al", "Si", "P", "S", "Cl", "Ar", 
1197   "K", "Ca", "Sc", "Ti", "V", "Cr", "Mn", "Fe    776   "K", "Ca", "Sc", "Ti", "V", "Cr", "Mn", "Fe", "Co", "Ni", "Cu", "Zn", "Ga", "Ge", "As", "Se", "Br", "Kr", 
1198   "Rb", "Sr", "Y", "Zr", "Nb", "Mo","Tc", "Ru    777   "Rb", "Sr", "Y", "Zr", "Nb", "Mo","Tc", "Ru", "Rh", "Pd", "Ag", "Cd", "In", "Sn", "Sb", "Te", "I",  "Xe", 
1199   "Cs", "Ba",                                    778   "Cs", "Ba", 
1200               "La", "Ce", "Pr", "Nd", "Pm", "    779               "La", "Ce", "Pr", "Nd", "Pm", "Sm", "Eu", "Gd", "Tb", "Dy", "Ho", "Er", "Tm", "Yb", "Lu", 
1201                    "Hf", "Ta", "W", "Re", "Os    780                    "Hf", "Ta", "W", "Re", "Os", "Ir", "Pt", "Au", "Hg", "Tl", "Pb", "Bi", "Po", "At", "Rn", 
1202   "Fr", "Ra",                                    781   "Fr", "Ra", 
1203               "Ac", "Th", "Pa",  "U", "Np", "    782               "Ac", "Th", "Pa",  "U", "Np", "Pu", "Am", "Cm", "Bk", "Cf", "Es", "Fm", "Md", "No", "Lr",
1204               "Rf", "Db", "Sg", "Bh", "Hs", " << 783               "Rf", "Db", "Sg", "Bh", "Hs", "Mt", "Ds", "Rg", 
                                                   >> 784               "Uub", "Uut", "Uuq","Uup","Uuh","Uus","Uuo"
1205 };                                               785 };
1206 // clang-format on                            << 
1207                                                  786 
                                                   >> 787 
                                                   >> 788 /////////////////
1208 G4int G4IonTable::GetVerboseLevel() const        789 G4int G4IonTable::GetVerboseLevel() const
1209 {                                                790 {
1210   return G4ParticleTable::GetParticleTable()-    791   return G4ParticleTable::GetParticleTable()->GetVerboseLevel();
1211 }                                                792 }
1212                                                  793 
1213 void G4IonTable::AddProcessManager(G4Particle << 794 /////////////////
                                                   >> 795 void  G4IonTable::AddProcessManager(const G4String& name)
1214 {                                                796 {
1215   if (ion->IsGeneralIon()) {                  << 797   // create command string for addProcManager
1216     // Check whether GenericIon has processes << 798   std::ostringstream osAdd;
1217     G4ParticleDefinition* genericIon = G4Part << 799   osAdd << "/run/particle/addProcManager "<< name;
1218                                               << 800   G4String cmdAdd = osAdd.str();
1219     G4ProcessManager* pman = nullptr;         << 
1220     if (genericIon != nullptr) pman = generic << 
1221     if ((genericIon == nullptr) || (genericIo << 
1222     {                                         << 
1223       G4String msg = "G4IonTable::AddProcessM << 
1224       msg += ion->GetParticleName();          << 
1225       msg += "\n because GenericIon is not av << 
1226       G4Exception("G4IonTable::AddProcessMana << 
1227       return;                                 << 
1228     }                                         << 
1229                                               << 
1230     ion->SetParticleDefinitionID(genericIon-> << 
1231   }                                           << 
1232   else {                                      << 
1233     // Is this a MuonicAtom ?                 << 
1234     auto muatom = dynamic_cast<G4MuonicAtom*> << 
1235                                                  801 
1236     if (muatom != nullptr) {                  << 802   // set /control/verbose 0
1237 #ifdef G4VERBOSE                              << 803   G4int tempVerboseLevel = G4UImanager::GetUIpointer()->GetVerboseLevel();
1238       if (GetVerboseLevel() > 1) {            << 804   G4UImanager::GetUIpointer()->SetVerboseLevel(0);
1239         G4cout << "G4IonTable::AddProcessMana << 
1240                << "MuonicAtom dynamic_cast su << 
1241       }                                       << 
1242 #endif                                        << 
1243       // Check whether GenericMuonicAtom has  << 
1244       G4ParticleDefinition* genericMA = G4Par << 
1245                                                  805 
1246       G4ProcessManager* pman = nullptr;       << 806   // issue /run/particle/addProcManage
1247       if (genericMA != nullptr) pman = generi << 807   G4UImanager::GetUIpointer()->ApplyCommand(cmdAdd);
1248       if ((genericMA == nullptr) || (genericM << 
1249       {                                       << 
1250         G4String msg = "G4IonTable::AddProces << 
1251         msg += ion->GetParticleName();        << 
1252         msg += "\n because GenericMuonicAtom  << 
1253         G4Exception("G4IonTable::AddProcessMa << 
1254         return;                               << 
1255       }                                       << 
1256                                                  808 
1257       ion->SetParticleDefinitionID(genericMA- << 809   // retreive  /control/verbose 
1258     }                                         << 810   G4UImanager::GetUIpointer()->SetVerboseLevel(tempVerboseLevel);
1259     else {                                    << 
1260       G4String msg = "G4IonTable::AddProcessM << 
1261       msg += ion->GetParticleName();          << 
1262       msg += "\n because of unsupported parti << 
1263       G4Exception("G4IonTable::AddProcessMana << 
1264       return;                                 << 
1265     }                                         << 
1266   }                                           << 
1267   return;                                     << 
1268 }                                                811 }
1269                                                  812 
1270 void G4IonTable::RegisterIsotopeTable(G4VIsot << 813 #include <vector>     
                                                   >> 814 
                                                   >> 815 ////////////////////
                                                   >> 816 void  G4IonTable::RegisterIsotopeTable(G4VIsotopeTable* table)
1271 {                                                817 {
1272   // check duplication                        << 
1273   G4String name = table->GetName();           << 
1274   for (const auto fIsotopeTable : *fIsotopeTa << 
1275     if (name == fIsotopeTable->GetName()) ret << 
1276   }                                           << 
1277   // register                                 << 
1278   fIsotopeTableList->push_back(table);           818   fIsotopeTableList->push_back(table);
1279 }                                                819 }
1280                                                  820 
1281 G4VIsotopeTable* G4IonTable::GetIsotopeTable( << 821 ////////////////////
                                                   >> 822 G4VIsotopeTable* G4IonTable::GetIsotopeTable(size_t index) const
1282 {                                                823 {
1283   G4VIsotopeTable* fIsotopeTable = nullptr;   << 824    G4VIsotopeTable* fIsotopeTable=0;
1284   if (index < fIsotopeTableList->size()) {    << 825    if ( index < fIsotopeTableList->size() ) {
1285     fIsotopeTable = (*fIsotopeTableList)[inde << 826      fIsotopeTable = (*fIsotopeTableList)[index];
1286   }                                           << 827    }
1287   return fIsotopeTable;                       << 828    return fIsotopeTable;
1288 }                                                829 }
1289                                                  830 
1290 G4IsotopeProperty* G4IonTable::FindIsotope(G4 << 
1291                                            G4 << 
1292 {                                             << 
1293   if (fIsotopeTableList == nullptr) return nu << 
1294   if (fIsotopeTableList->empty()) return null << 
1295                                               << 
1296   G4IsotopeProperty* property = nullptr;      << 
1297                                                  831 
1298   for (std::size_t i = 0; i < fIsotopeTableLi << 832 ////////////////////
1299     G4VIsotopeTable* fIsotopeTable = (*fIsoto << 833 G4IsotopeProperty* G4IonTable::FindIsotope(G4int Z, G4int A, G4double E, G4int )
1300     property = fIsotopeTable->GetIsotope(Z, A << 834 {
1301     if (property != nullptr) break;           << 835   if (fIsotopeTableList ==0) return 0;
                                                   >> 836   if (fIsotopeTableList->size()==0) return 0;
                                                   >> 837   
                                                   >> 838   // ask IsotopeTable 
                                                   >> 839   G4IsotopeProperty* property =0;
                                                   >> 840 
                                                   >> 841   // iterate 
                                                   >> 842   for (size_t i = 0; i< fIsotopeTableList->size(); ++i) {
                                                   >> 843     G4VIsotopeTable* fIsotopeTable= (*fIsotopeTableList)[i];
                                                   >> 844     G4IsotopeProperty* tmp = fIsotopeTable->GetIsotope(Z,A,E);
                                                   >> 845     if ( tmp !=0) {
                                                   >> 846       
                                                   >> 847 #ifdef G4VERBOSE
                                                   >> 848       if (GetVerboseLevel()>1) {
                                                   >> 849         G4cout << "G4IonTable::FindIsotope:"; 
                                                   >> 850         G4cout << " Z: " << Z;
                                                   >> 851         G4cout << " A: " << A;
                                                   >> 852         G4cout << " E: " << E;
                                                   >> 853   G4cout << G4endl; 
                                                   >> 854   tmp->DumpInfo();
                                                   >> 855       }
                                                   >> 856 #endif
                                                   >> 857       if (property !=0) {
                                                   >> 858   // overwrite spin/magnetic moment/decay table if not defined
                                                   >> 859   if( property->GetiSpin() ==0) {
                                                   >> 860     property->SetiSpin( tmp->GetiSpin() );
                                                   >> 861   }
                                                   >> 862   if( property->GetMagneticMoment() <= 0.0) {
                                                   >> 863     property->SetMagneticMoment( tmp->GetMagneticMoment() );
                                                   >> 864   }
                                                   >> 865   if( property->GetLifeTime() <= 0.0) {
                                                   >> 866     property->SetLifeTime( tmp->GetLifeTime() );
                                                   >> 867     if (    (property->GetLifeTime() > 0.0)
                                                   >> 868          && (property->GetDecayTable() ==0 ) ) {
                                                   >> 869       property->SetDecayTable( tmp->GetDecayTable() );
                                                   >> 870       tmp->SetDecayTable( 0 );
                                                   >> 871     }
                                                   >> 872   }
                                                   >> 873       } else {
                                                   >> 874   property = tmp;
                                                   >> 875       }
                                                   >> 876     }
1302   }                                              877   }
1303                                               << 878   
1304   return property;                               879   return property;
1305 }                                                880 }
1306                                                  881 
1307 G4IsotopeProperty* G4IonTable::FindIsotope(G4 << 
1308 {                                             << 
1309   if (fIsotopeTableList == nullptr) return nu << 
1310   if (fIsotopeTableList->empty()) return null << 
1311                                               << 
1312   G4IsotopeProperty* property = nullptr;      << 
1313                                               << 
1314   // iterate                                  << 
1315   for (std::size_t i = 0; i < fIsotopeTableLi << 
1316     G4VIsotopeTable* fIsotopeTable = (*fIsoto << 
1317     property = fIsotopeTable->GetIsotope(Z, A << 
1318     if (property != nullptr) break;           << 
1319   }                                           << 
1320                                               << 
1321   return property;                            << 
1322 }                                             << 
1323                                                  882 
                                                   >> 883 ////////////////////
1324 void G4IonTable::CreateAllIon()                  884 void G4IonTable::CreateAllIon()
1325 {                                                885 {
1326   PreloadNuclide();                           << 886   G4int    Z; 
1327 }                                             << 887   G4int    A;
1328                                               << 888   G4double E=0.0; 
1329 void G4IonTable::CreateAllIsomer()            << 889   G4int    J=0;
1330 {                                             << 890   
1331   PreloadNuclide();                           << 891   for (Z=1; Z<=120; Z++) {
1332 }                                             << 892     for (A=Z;A<999 && A<Z*3+10; A++) {
1333                                               << 893       if (G4NucleiProperties::IsInStableTable(A,Z)){      
1334 void G4IonTable::PrepareNuclideTable()        << 894   GetIon(Z,A,E,J);
1335 {                                             << 895       }
1336   if (pNuclideTable == nullptr) pNuclideTable << 896     }
1337 }                                             << 
1338                                               << 
1339 void G4IonTable::PreloadNuclide()             << 
1340 {                                             << 
1341   if (isIsomerCreated || !G4Threading::IsMult << 
1342                                               << 
1343   pNuclideTable->GenerateNuclide();           << 
1344                                               << 
1345   for (std::size_t i = 0; i != pNuclideTable- << 
1346     const G4IsotopeProperty* fProperty = pNuc << 
1347     G4int Z = fProperty->GetAtomicNumber();   << 
1348     G4int A = fProperty->GetAtomicMass();     << 
1349     G4double Eex = fProperty->GetEnergy();    << 
1350     GetIon(Z, A, Eex);                        << 
1351   }                                              897   }
1352                                               << 
1353   isIsomerCreated = true;                     << 
1354 }                                                898 }
1355                                                  899 
                                                   >> 900 ////////////////////
1356 G4ParticleDefinition* G4IonTable::GetParticle    901 G4ParticleDefinition* G4IonTable::GetParticle(G4int index) const
1357 {                                                902 {
1358   if ((index >= 0) && (index < Entries())) {  << 903   if ( (index >=0) && (index < Entries()) ) {
1359     auto idx = fIonList->cbegin();            << 904     G4IonList::iterator idx = fIonList->begin();
1360     G4int counter = 0;                           905     G4int counter = 0;
1361     while (idx != fIonList->cend())  // Loop  << 906     while( idx != fIonList->end() ){
1362     {                                         << 907       if ( counter == index ) return idx->second;
1363       if (counter == index) {                 << 908       counter++;
1364         return const_cast<G4ParticleDefinitio << 909       idx++;
1365       }                                       << 
1366       ++counter;                              << 
1367       ++idx;                                  << 
1368     }                                            910     }
1369   }                                           << 911   } 
1370 #ifdef G4VERBOSE                                 912 #ifdef G4VERBOSE
1371   if (GetVerboseLevel() > 1) {                << 913   if (GetVerboseLevel()>1){
1372     G4cout << " G4IonTable::GetParticle"      << 914     G4cout << " G4IonTable::GetParticle";
1373            << " invalid index (=" << index << << 915     G4cout << " invalid index (=" << index << ")" 
1374            << " entries = " << Entries() << G << 916      << " entries = " << Entries() << G4endl;
1375   }                                              917   }
1376 #endif                                           918 #endif
1377   return nullptr;                             << 919   return 0;
1378 }                                             << 
1379                                               << 
1380 G4bool G4IonTable::Contains(const G4ParticleD << 
1381 {                                             << 
1382   if (!IsIon(particle)) return false;         << 
1383                                               << 
1384   G4int Z = particle->GetAtomicNumber();      << 
1385   G4int A = particle->GetAtomicMass();        << 
1386   G4int LL = particle->GetQuarkContent(3);  / << 
1387   G4int encoding = GetNucleusEncoding(Z, A, L << 
1388   G4bool found = false;                       << 
1389   if (encoding != 0) {                        << 
1390     for (auto i = fIonListShadow->find(encodi << 
1391       if (particle == i->second) {            << 
1392         found = true;                         << 
1393         break;                                << 
1394       }                                       << 
1395     }                                         << 
1396   }                                           << 
1397   return found;                               << 
1398 }                                             << 
1399                                               << 
1400 G4int G4IonTable::Entries() const             << 
1401 {                                             << 
1402   return (G4int)fIonList->size();             << 
1403 }                                             << 
1404                                               << 
1405 G4int G4IonTable::size() const                << 
1406 {                                             << 
1407   return (G4int)fIonList->size();             << 
1408 }                                             << 
1409                                               << 
1410 G4ParticleDefinition* G4IonTable::FindIonInMa << 
1411                                               << 
1412 {                                             << 
1413   // Search ions with A, Z ,E                 << 
1414   //  !! J is omitted now !!                  << 
1415   const G4ParticleDefinition* ion = nullptr;  << 
1416   G4bool isFound = false;                     << 
1417                                               << 
1418   // -- loop over all particles in Ion table  << 
1419   G4int encoding = GetNucleusEncoding(Z, A);  << 
1420   for (auto i = fIonListShadow->find(encoding << 
1421     ion = i->second;                          << 
1422     if ((ion->GetAtomicNumber() != Z) || (ion << 
1423     // excitation level                       << 
1424     G4double anExcitaionEnergy = ((const G4Io << 
1425     if (std::fabs(E - anExcitaionEnergy) < pN << 
1426       if (((const G4Ions*)(ion))->GetFloatLev << 
1427         isFound = true;                       << 
1428         break;                                << 
1429       }                                       << 
1430     }                                         << 
1431   }                                           << 
1432                                               << 
1433   if (isFound) {                              << 
1434     return const_cast<G4ParticleDefinition*>( << 
1435   }                                           << 
1436                                               << 
1437   return nullptr;                             << 
1438 }                                             << 
1439                                               << 
1440 G4ParticleDefinition* G4IonTable::FindIonInMa << 
1441                                               << 
1442 {                                             << 
1443   if (LL == 0) return FindIon(Z, A, E, flb, J << 
1444                                               << 
1445   // Search ions with A, Z ,E                 << 
1446   //  !! J is omitted now !!                  << 
1447   const G4ParticleDefinition* ion = nullptr;  << 
1448   G4bool isFound = false;                     << 
1449                                               << 
1450   // -- loop over all particles in Ion table  << 
1451   G4int encoding = GetNucleusEncoding(Z, A, L << 
1452   for (auto i = fIonListShadow->find(encoding << 
1453     ion = i->second;                          << 
1454     if ((ion->GetAtomicNumber() != Z) || (ion << 
1455     if (ion->GetQuarkContent(3) != LL) break; << 
1456     // Excitation level                       << 
1457     G4double anExcitaionEnergy = ((const G4Io << 
1458     if (std::fabs(E - anExcitaionEnergy) < pN << 
1459       if (((const G4Ions*)(ion))->GetFloatLev << 
1460         isFound = true;                       << 
1461         break;                                << 
1462       }                                       << 
1463     }                                         << 
1464   }                                           << 
1465                                               << 
1466   if (isFound) {                              << 
1467     return const_cast<G4ParticleDefinition*>( << 
1468   }                                           << 
1469                                               << 
1470   return nullptr;                             << 
1471 }                                                920 }
1472                                                  921 
1473 G4ParticleDefinition* G4IonTable::FindIonInMa << 
1474 {                                             << 
1475   // Search ions with A, Z ,E                 << 
1476   //  !! J is omitted now !!                  << 
1477   const G4ParticleDefinition* ion = nullptr;  << 
1478   G4bool isFound = false;                     << 
1479                                                  922 
1480   // -- loop over all particles in Ion table  << 
1481   G4int encoding = GetNucleusEncoding(Z, A);  << 
1482   for (auto i = fIonListShadow->find(encoding << 
1483     ion = i->second;                          << 
1484     if ((ion->GetAtomicNumber() != Z) || (ion << 
1485     // Excitation level                       << 
1486     if (((const G4Ions*)(ion))->GetIsomerLeve << 
1487       isFound = true;                         << 
1488       break;                                  << 
1489     }                                         << 
1490   }                                           << 
1491                                                  923 
1492   if (isFound) {                              << 
1493     return const_cast<G4ParticleDefinition*>( << 
1494   }                                           << 
1495                                                  924 
1496   return nullptr;                             << 
1497 }                                             << 
1498                                                  925 
1499 G4ParticleDefinition* G4IonTable::FindIonInMa << 
1500 {                                             << 
1501   if (LL == 0) return FindIon(Z, A, lvl);     << 
1502                                                  926 
1503   // Search ions with A, Z ,E, lvl            << 
1504   const G4ParticleDefinition* ion = nullptr;  << 
1505   G4bool isFound = false;                     << 
1506                                                  927 
1507   // -- loop over all particles in Ion table  << 
1508   G4int encoding = GetNucleusEncoding(Z, A, L << 
1509   for (auto i = fIonListShadow->find(encoding << 
1510     ion = i->second;                          << 
1511     if ((ion->GetAtomicNumber() != Z) || (ion << 
1512     if (ion->GetQuarkContent(3) != LL) break; << 
1513     // excitation level                       << 
1514     if (((const G4Ions*)(ion))->GetIsomerLeve << 
1515       isFound = true;                         << 
1516       break;                                  << 
1517     }                                         << 
1518   }                                           << 
1519                                                  928 
1520   if (isFound) {                              << 
1521     return const_cast<G4ParticleDefinition*>( << 
1522   }                                           << 
1523                                                  929 
1524   return nullptr;                             << 
1525 }                                             << 
1526                                                  930 
1527 G4double G4IonTable::GetLifeTime(const G4Part << 
1528 {                                             << 
1529   if ((particle->IsGeneralIon()) && (pNuclide << 
1530     G4Exception("G4IonTable::GetLifeTime()",  << 
1531                 "Method is invoked before G4I << 
1532     return 0.;                                << 
1533   }                                           << 
1534   return particle->GetPDGLifeTime();          << 
1535 }                                             << 
1536                                                  931 
1537 G4double G4IonTable::GetLifeTime(G4int Z, G4i << 
1538 {                                             << 
1539   return GetLifeTime(Z, A, E, G4Ions::FloatLe << 
1540 }                                             << 
1541                                               << 
1542 G4double G4IonTable::GetLifeTime(G4int Z, G4i << 
1543 {                                             << 
1544   G4double life = -1001.0;                    << 
1545   const G4IsotopeProperty* fProperty = FindIs << 
1546   if (fProperty != nullptr) life = fProperty- << 
1547   return life;                                << 
1548 }                                             << 
1549                                               << 
1550 G4ParticleDefinition* G4IonTable::GetMuonicAt << 
1551 {                                             << 
1552   if (base == nullptr || !IsIon(base)) {      << 
1553     G4Exception("G4IonTable::GetMuonicAtom()" << 
1554                 "Constructor argument is not  << 
1555     return nullptr;                           << 
1556   }                                           << 
1557                                               << 
1558   // We're assuming here that we get a base t << 
1559   // constructed and unexcited ... strip exci << 
1560   // isomers from the encoding                << 
1561                                               << 
1562   auto const Z = base->GetAtomicNumber();     << 
1563   auto const A = base->GetAtomicMass();       << 
1564   auto const baseenc = GetNucleusEncoding(Z,  << 
1565   auto const encoding = baseenc + 1000000000; << 
1566                                               << 
1567   // We have to do all the MT manipulations m << 
1568   // convenience functions assume a G4Ions wi << 
1569   // they recalculate the encoding from parti << 
1570   // than using the carried member function v << 
1571   // do operations on the base ion, rather th << 
1572   // G4MuonicAtom                             << 
1573                                               << 
1574   auto i = fIonList->find(encoding);          << 
1575   if (i != fIonList->cend()) {                << 
1576     return const_cast<G4ParticleDefinition*>( << 
1577   }                                           << 
1578   // not in threadlocal list; check global li << 
1579 #ifdef G4MULTITHREADED                        << 
1580   if (G4Threading::IsWorkerThread()) {        << 
1581     G4MUTEXLOCK(&G4IonTable::ionTableMutex);  << 
1582     i = fIonListShadow->find(encoding);       << 
1583     auto end = fIonListShadow->cend();        << 
1584     G4MUTEXUNLOCK(&G4IonTable::ionTableMutex) << 
1585     if (i != end) {                           << 
1586       // we found it, stuff it into the threa << 
1587       fIonList->insert(*i);                   << 
1588       // and then return it ...               << 
1589       return const_cast<G4ParticleDefinition* << 
1590     }                                         << 
1591   }                                           << 
1592 #endif                                        << 
1593                                               << 
1594   // not found in either list; create and pot << 
1595   auto const name = "Mu" + GetIonName(Z, A);  << 
1596                                               << 
1597   G4MuonicAtom* muatom = G4MuonicAtomHelper:: << 
1598                                               << 
1599   // Not sure this is doing the right thing.. << 
1600   AddProcessManager(muatom);                  << 
1601                                               << 
1602   // Now, we have to push the muatom into the << 
1603   // first, recheck global list, in case anot << 
1604   // before us and created this same muatom   << 
1605                                               << 
1606 #ifdef G4MULTITHREADED                        << 
1607   if (G4Threading::IsWorkerThread()) {        << 
1608     G4MUTEXLOCK(&G4IonTable::ionTableMutex);  << 
1609     // first, we need to make sure it hasn't  << 
1610     // other thread                           << 
1611     auto j = fIonListShadow->find(encoding);  << 
1612     if (j != fIonListShadow->cend()) {        << 
1613       // oops ... someone else built a copy w << 
1614       // cleanup our instantiation, and take  << 
1615       // the global list                      << 
1616       delete muatom;                          << 
1617       muatom = const_cast<G4MuonicAtom*>(stat << 
1618     }                                         << 
1619     else {                                    << 
1620       // otherwise, push onto the global list << 
1621       fIonListShadow->insert(std::make_pair(e << 
1622     }                                         << 
1623     G4MUTEXUNLOCK(&G4IonTable::ionTableMutex) << 
1624   }                                           << 
1625 #endif                                        << 
1626   // in either case, push onto the the thread << 
1627   fIonList->insert(std::make_pair(encoding, m << 
1628                                               << 
1629   return muatom;                              << 
1630 }                                             << 
1631                                               << 
1632 G4ParticleDefinition* G4IonTable::GetMuonicAt << 
1633 {                                             << 
1634   // Need the cast because we need a G4Ions*  << 
1635   // function, but GetIon returns a G4Particl << 
1636   auto base = static_cast<G4Ions const*>(GetI << 
1637   return GetMuonicAtom(base);                 << 
1638 }                                             << 
1639                                                  932