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Geant4/particles/management/src/G4VDecayChannel.cc

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Differences between /particles/management/src/G4VDecayChannel.cc (Version 11.3.0) and /particles/management/src/G4VDecayChannel.cc (Version 9.3)


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 25 //                                                 25 //
 26 // G4VDecayChannel                             << 
 27 //                                                 26 //
 28 // Author: H.Kurashige, 27 July 1996           <<  27 // $Id: G4VDecayChannel.cc,v 1.19 2009/08/17 14:52:19 kurasige Exp $
 29 // ------------------------------------------- <<  28 // GEANT4 tag $Name: geant4-09-03 $
 30                                                <<  29 //
 31 #include "G4VDecayChannel.hh"                  <<  30 // 
                                                   >>  31 // ------------------------------------------------------------
                                                   >>  32 //      GEANT 4 class header file
                                                   >>  33 //
                                                   >>  34 //      History: first implementation, based on object model of
                                                   >>  35 //      27 July 1996 H.Kurashige
                                                   >>  36 //      30 May 1997  H.Kurashige
                                                   >>  37 //      23 Mar. 2000 H.Weber      : add GetAngularMomentum
                                                   >>  38 // ------------------------------------------------------------
 32                                                    39 
 33 #include "G4AutoLock.hh"                       << 
 34 #include "G4DecayProducts.hh"                  << 
 35 #include "G4DecayTable.hh"                     << 
 36 #include "G4ParticleDefinition.hh"                 40 #include "G4ParticleDefinition.hh"
 37 #include "G4ParticleTable.hh"                      41 #include "G4ParticleTable.hh"
 38 #include "G4SystemOfUnits.hh"                  <<  42 #include "G4DecayTable.hh"
 39 #include "Randomize.hh"                        <<  43 #include "G4DecayProducts.hh"
                                                   >>  44 #include "G4VDecayChannel.hh"
 40                                                    45 
 41 const G4String G4VDecayChannel::noName = " ";      46 const G4String G4VDecayChannel::noName = " ";
 42                                                    47 
 43 G4VDecayChannel::G4VDecayChannel()             <<  48 G4VDecayChannel::G4VDecayChannel(const G4String &aName, G4int Verbose)
                                                   >>  49                :kinematics_name(aName),
                                                   >>  50     rbranch(0.0),
                                                   >>  51     numberOfDaughters(0),
                                                   >>  52     parent_name(0), daughters_name(0),
                                                   >>  53     particletable(0),
                                                   >>  54     parent(0), daughters(0),
                                                   >>  55     parent_mass(0.0), daughters_mass(0),
                                                   >>  56     verboseLevel(Verbose)   
 44 {                                                  57 {
 45   // set pointer to G4ParticleTable (static an     58   // set pointer to G4ParticleTable (static and singleton object)
 46   particletable = G4ParticleTable::GetParticle     59   particletable = G4ParticleTable::GetParticleTable();
 47 }                                                  60 }
 48                                                    61 
 49 G4VDecayChannel::G4VDecayChannel(const G4Strin <<  62 G4VDecayChannel::G4VDecayChannel(const G4String  &aName, 
 50   : kinematics_name(aName), verboseLevel(verbo <<  63              const G4String& theParentName,
 51 {                                              <<  64              G4double        theBR,
 52   // set pointer to G4ParticleTable (static an <<  65              G4int           theNumberOfDaughters,
 53   particletable = G4ParticleTable::GetParticle <<  66              const G4String& theDaughterName1,
 54 }                                              <<  67              const G4String& theDaughterName2,
 55                                                <<  68              const G4String& theDaughterName3,
 56 G4VDecayChannel::G4VDecayChannel(const G4Strin <<  69              const G4String& theDaughterName4 )
 57                                  G4double theB <<  70                :kinematics_name(aName),
 58                                  const G4Strin <<  71     rbranch(theBR),
 59                                  const G4Strin <<  72     numberOfDaughters(theNumberOfDaughters),
 60                                  const G4Strin <<  73     parent_name(0), daughters_name(0),
 61   : kinematics_name(aName), rbranch(theBR), nu <<  74     particletable(0),
                                                   >>  75     parent(0), daughters(0),
                                                   >>  76     parent_mass(0.0), daughters_mass(0),
                                                   >>  77     verboseLevel(1)   
 62 {                                                  78 {
 63   // set pointer to G4ParticleTable (static an     79   // set pointer to G4ParticleTable (static and singleton object)
 64   particletable = G4ParticleTable::GetParticle     80   particletable = G4ParticleTable::GetParticleTable();
 65                                                    81 
 66   // parent name                                   82   // parent name
 67   parent_name = new G4String(theParentName);       83   parent_name = new G4String(theParentName);
 68                                                    84 
 69   // cleate array                                  85   // cleate array
 70   daughters_name = new G4String*[numberOfDaugh     86   daughters_name = new G4String*[numberOfDaughters];
 71   for (G4int index = 0; index < numberOfDaught <<  87   for (G4int index=0;index<numberOfDaughters;index++) daughters_name[index]=0;
 72     daughters_name[index] = nullptr;           << 
 73   }                                            << 
 74                                                    88 
 75   // daughters' name                               89   // daughters' name
 76   if (numberOfDaughters > 0) daughters_name[0] <<  90   if (numberOfDaughters>0) daughters_name[0] = new G4String(theDaughterName1);
 77   if (numberOfDaughters > 1) daughters_name[1] <<  91   if (numberOfDaughters>1) daughters_name[1] = new G4String(theDaughterName2);
 78   if (numberOfDaughters > 2) daughters_name[2] <<  92   if (numberOfDaughters>2) daughters_name[2] = new G4String(theDaughterName3);
 79   if (numberOfDaughters > 3) daughters_name[3] <<  93   if (numberOfDaughters>3) daughters_name[3] = new G4String(theDaughterName4);
 80   if (numberOfDaughters > 4) daughters_name[4] << 
 81                                                << 
 82   if (rbranch < 0.)                            << 
 83     rbranch = 0.0;                             << 
 84   else if (rbranch > 1.0)                      << 
 85     rbranch = 1.0;                             << 
 86 }                                                  94 }
 87                                                    95 
 88 G4VDecayChannel::G4VDecayChannel(const G4VDeca <<  96 
                                                   >>  97 
                                                   >>  98 G4VDecayChannel::G4VDecayChannel(const G4VDecayChannel &right)
 89 {                                                  99 {
 90   kinematics_name = right.kinematics_name;        100   kinematics_name = right.kinematics_name;
 91   verboseLevel = right.verboseLevel;              101   verboseLevel = right.verboseLevel;
 92   rbranch = right.rbranch;                        102   rbranch = right.rbranch;
 93   rangeMass = right.rangeMass;                 << 
 94                                                   103 
 95   // copy parent name                             104   // copy parent name
 96   parent_name = new G4String(*right.parent_nam    105   parent_name = new G4String(*right.parent_name);
                                                   >> 106   parent = 0;
                                                   >> 107   parent_mass = 0.0; 
 97                                                   108 
 98   // create array                              << 109   //create array
 99   numberOfDaughters = right.numberOfDaughters;    110   numberOfDaughters = right.numberOfDaughters;
100                                                   111 
101   daughters_name = nullptr;                    << 112   if ( numberOfDaughters >0 ) {
102   if (numberOfDaughters > 0) {                 << 
103     daughters_name = new G4String*[numberOfDau    113     daughters_name = new G4String*[numberOfDaughters];
104     // copy daughters name                     << 114     //copy daughters name
105     for (G4int index = 0; index < numberOfDaug << 115     for (G4int index=0; index < numberOfDaughters; index++)
106       daughters_name[index] = new G4String(*ri << 116       {
107     }                                          << 117   daughters_name[index] = new G4String(*right.daughters_name[index]);
                                                   >> 118       }
108   }                                               119   }
109                                                   120 
                                                   >> 121   //
                                                   >> 122   daughters_mass = 0;
                                                   >> 123   daughters = 0;
                                                   >> 124 
110   // particle table                               125   // particle table
111   particletable = G4ParticleTable::GetParticle    126   particletable = G4ParticleTable::GetParticleTable();
112                                                << 
113   parent_polarization = right.parent_polarizat << 
114                                                << 
115   G4MUTEXINIT(daughtersMutex);                 << 
116   G4MUTEXINIT(parentMutex);                    << 
117 }                                                 127 }
118                                                   128 
119 G4VDecayChannel& G4VDecayChannel::operator=(co << 129 G4VDecayChannel & G4VDecayChannel::operator=(const G4VDecayChannel &right)
120 {                                                 130 {
121   if (this != &right) {                        << 131   if (this != &right) { 
122     kinematics_name = right.kinematics_name;      132     kinematics_name = right.kinematics_name;
123     verboseLevel = right.verboseLevel;            133     verboseLevel = right.verboseLevel;
124     rbranch = right.rbranch;                      134     rbranch = right.rbranch;
125     rangeMass = right.rangeMass;               << 135 
126     parent_polarization = right.parent_polariz << 
127     // copy parent name                           136     // copy parent name
128     delete parent_name;                        << 
129     parent_name = new G4String(*right.parent_n    137     parent_name = new G4String(*right.parent_name);
130                                                   138 
131     // clear daughters_name array                 139     // clear daughters_name array
132     ClearDaughtersName();                         140     ClearDaughtersName();
133                                                   141 
134     // recreate array                             142     // recreate array
135     numberOfDaughters = right.numberOfDaughter    143     numberOfDaughters = right.numberOfDaughters;
136     if (numberOfDaughters > 0) {               << 144     if ( numberOfDaughters >0 ) {
137       daughters_name = new G4String*[numberOfD    145       daughters_name = new G4String*[numberOfDaughters];
138       // copy daughters name                   << 146       //copy daughters name
139       for (G4int index = 0; index < numberOfDa << 147       for (G4int index=0; index < numberOfDaughters; index++) {
140         daughters_name[index] = new G4String(* << 148     daughters_name[index] = new G4String(*right.daughters_name[index]);
141       }                                           149       }
142     }                                             150     }
143   }                                               151   }
144                                                   152 
                                                   >> 153   //
                                                   >> 154   parent = 0;
                                                   >> 155   daughters = 0;
                                                   >> 156   parent_mass = 0.0;
                                                   >> 157   daughters_mass = 0;
                                                   >> 158 
145   // particle table                               159   // particle table
146   particletable = G4ParticleTable::GetParticle    160   particletable = G4ParticleTable::GetParticleTable();
147                                                   161 
148   G4MUTEXINIT(daughtersMutex);                 << 
149   G4MUTEXINIT(parentMutex);                    << 
150                                                << 
151   return *this;                                   162   return *this;
152 }                                                 163 }
153                                                   164 
                                                   >> 165 
154 G4VDecayChannel::~G4VDecayChannel()               166 G4VDecayChannel::~G4VDecayChannel()
155 {                                                 167 {
156   ClearDaughtersName();                           168   ClearDaughtersName();
157   delete parent_name;                          << 169   if (parent_name != 0) delete parent_name;
158   parent_name = nullptr;                       << 170   parent_name = 0;
159   delete[] G4MT_daughters_mass;                << 171   if (daughters_mass != 0) delete [] daughters_mass;
160   G4MT_daughters_mass = nullptr;               << 172   daughters_mass =0;
161   delete[] G4MT_daughters_width;               << 173 } 
162   G4MT_daughters_width = nullptr;              << 
163   G4MUTEXDESTROY(daughtersMutex);              << 
164   G4MUTEXDESTROY(parentMutex);                 << 
165 }                                              << 
166                                                   174 
167 void G4VDecayChannel::ClearDaughtersName()        175 void G4VDecayChannel::ClearDaughtersName()
168 {                                                 176 {
169   G4AutoLock l(&daughtersMutex);               << 177   if ( daughters_name != 0) {
170   if (daughters_name != nullptr) {             << 178     if (numberOfDaughters>0) {
171     if (numberOfDaughters > 0) {               << 179 #ifdef G4VERBOSE
172 #ifdef G4VERBOSE                               << 180       if (verboseLevel>1) {
173       if (verboseLevel > 1) {                  << 181   G4cerr << "G4VDecayChannel::ClearDaughtersName "
174         G4cout << "G4VDecayChannel::ClearDaugh << 182          << " for " << *parent_name << G4endl;
175                << " for " << *parent_name << G << 
176       }                                           183       }
177 #endif                                            184 #endif
178       for (G4int index = 0; index < numberOfDa << 185       for (G4int index=0; index < numberOfDaughters; index++) { 
179         delete daughters_name[index];          << 186   if (daughters_name[index] != 0) delete daughters_name[index];
180       }                                           187       }
181     }                                             188     }
182     delete[] daughters_name;                   << 189     delete [] daughters_name;
183     daughters_name = nullptr;                  << 190     daughters_name = 0;
184   }                                               191   }
185                                                << 192   // 
186   delete[] G4MT_daughters;                     << 193   if (daughters != 0) delete [] daughters;
187   delete[] G4MT_daughters_mass;                << 194   if (daughters_mass != 0) delete [] daughters_mass;
188   delete[] G4MT_daughters_width;               << 195   daughters = 0;
189   G4MT_daughters_width = nullptr;              << 196   daughters_mass = 0;
190   G4MT_daughters = nullptr;                    << 
191   G4MT_daughters_mass = nullptr;               << 
192                                                   197 
193   numberOfDaughters = 0;                          198   numberOfDaughters = 0;
194 }                                                 199 }
195                                                   200 
196 void G4VDecayChannel::SetNumberOfDaughters(G4i    201 void G4VDecayChannel::SetNumberOfDaughters(G4int size)
197 {                                                 202 {
198   if (size > 0) {                              << 203   if (size >0) {
199     // remove old contents                        204     // remove old contents
200     ClearDaughtersName();                         205     ClearDaughtersName();
201     // cleate array                               206     // cleate array
202     daughters_name = new G4String*[size];         207     daughters_name = new G4String*[size];
203     for (G4int index = 0; index < size; ++inde << 208     for (G4int index=0;index<size;index++) daughters_name[index]=0;
204       daughters_name[index] = nullptr;         << 
205     }                                          << 
206     numberOfDaughters = size;                     209     numberOfDaughters = size;
207   }                                               210   }
208 }                                                 211 }
209                                                   212 
210 void G4VDecayChannel::SetDaughter(G4int anInde << 213 void G4VDecayChannel::SetDaughter(G4int anIndex, 
                                                   >> 214          const G4String &particle_name)
211 {                                                 215 {
212   // check numberOfDaughters is positive          216   // check numberOfDaughters is positive
213   if (numberOfDaughters <= 0) {                << 217   if (numberOfDaughters<=0) {
214 #ifdef G4VERBOSE                                  218 #ifdef G4VERBOSE
215     if (verboseLevel > 0) {                    << 219     if (verboseLevel>0) {
216       G4cout << "G4VDecayChannel::SetDaughter( << 220       G4cout << "G4VDecayChannel::SetDaughter: ";
217              << "Number of daughters is not de << 221       G4cout << "Number of daughters is not defined" << G4endl;
218     }                                             222     }
219 #endif                                            223 #endif
220     return;                                       224     return;
221   }                                               225   }
222                                                   226 
223   // An analysis of this code, shows that this << 227   // check existence of daughters_name array
224   // only in the constructor of derived classe << 228   if (daughters_name == 0) {
225   // The general idea of this method is probab << 229     // cleate array
226   // the possibility to re-define daughters on << 230     daughters_name = new G4String*[numberOfDaughters];
227   // this design is extremely problematic for  << 231     for (G4int index=0;index<numberOfDaughters;index++) {
228   // require (as practically happens) that the << 232       daughters_name[index]=0;
229   // at construction, i.e. when G4MT_daughters << 233     }
230   // moreover this method can be called only a << 
231   // has been called (see previous if), in suc << 
232   //                                           << 
233   if (daughters_name == nullptr) {             << 
234     G4Exception("G4VDecayChannel::SetDaughter( << 
235                 "Trying to add a daughter with << 
236     return;                                    << 
237   }                                            << 
238   if (G4MT_daughters != nullptr) {             << 
239     G4Exception("G4VDecayChannel::SetDaughter( << 
240                 "Trying to modify a daughter o << 
241                  but decay channel already has << 
242     return;                                    << 
243   }                                               234   }
244                                                   235 
245   // check an index                            << 236   // check an index    
246   if ((anIndex < 0) || (anIndex >= numberOfDau << 237   if ( (anIndex<0) || (anIndex>=numberOfDaughters) ) {
247 #ifdef G4VERBOSE                                  238 #ifdef G4VERBOSE
248     if (verboseLevel > 0) {                    << 239     if (verboseLevel>0) {
249       G4cout << "G4VDecayChannel::SetDaughter( << 240       G4cout << "G4VDecayChannel::SetDaughter";
250              << "index out of range " << anInd << 241       G4cout << "index out of range " << anIndex << G4endl;
251     }                                             242     }
252 #endif                                            243 #endif
253   }                                            << 244   } else {
254   else {                                       << 245     // delete the old name if it exists
                                                   >> 246     if (daughters_name[anIndex]!=0) delete daughters_name[anIndex];
255     // fill the name                              247     // fill the name
256     daughters_name[anIndex] = new G4String(par    248     daughters_name[anIndex] = new G4String(particle_name);
                                                   >> 249     // refill the array of daughters[] if it exists
                                                   >> 250     if (daughters != 0) FillDaughters();
257 #ifdef G4VERBOSE                                  251 #ifdef G4VERBOSE
258     if (verboseLevel > 1) {                    << 252     if (verboseLevel>1) {
259       G4cout << "G4VDecayChannel::SetDaughter[ << 253       G4cout << "G4VDecayChannel::SetDaughter[" << anIndex <<"] :";
260       G4cout << daughters_name[anIndex] << ":" << 254       G4cout << daughters_name[anIndex] << ":" << *daughters_name[anIndex]<<G4endl;
261     }                                             255     }
262 #endif                                            256 #endif
263   }                                               257   }
264 }                                                 258 }
265                                                   259 
266 void G4VDecayChannel::SetDaughter(G4int anInde << 260 void G4VDecayChannel::SetDaughter(G4int anIndex, const G4ParticleDefinition * parent_type)
267 {                                                 261 {
268   if (parent_type != nullptr) SetDaughter(anIn << 262   if (parent_type != 0) SetDaughter(anIndex, parent_type->GetParticleName());
269 }                                                 263 }
270                                                   264 
271 void G4VDecayChannel::FillDaughters()             265 void G4VDecayChannel::FillDaughters()
272 {                                                 266 {
273   G4AutoLock lock(&daughtersMutex);            << 
274                                                << 
275   // Double check, check again if another thre << 
276   // case do not need to do anything           << 
277   if (G4MT_daughters != nullptr) return;       << 
278                                                << 
279   G4int index;                                    267   G4int index;
280                                                << 268   
281 #ifdef G4VERBOSE                                  269 #ifdef G4VERBOSE
282   if (verboseLevel > 1) G4cout << "G4VDecayCha << 270   if (verboseLevel>1) G4cout << "G4VDecayChannel::FillDaughters()" <<G4endl;
283 #endif                                            271 #endif
284   if (G4MT_daughters != nullptr) {             << 272   if (daughters != 0) delete [] daughters;
285     delete[] G4MT_daughters;                   << 
286     G4MT_daughters = nullptr;                  << 
287   }                                            << 
288                                                   273 
289   // parent mass                                  274   // parent mass
290   CheckAndFillParent();                        << 275   if (parent == 0) FillParent();  
291   G4double parentmass = G4MT_parent->GetPDGMas << 276   G4double parentmass = parent->GetPDGMass();
292                                                   277 
293   //                                              278   //
294   G4double sumofdaughtermass = 0.0;               279   G4double sumofdaughtermass = 0.0;
295   G4double sumofdaughterwidthsq = 0.0;         << 280   if ((numberOfDaughters <=0) || (daughters_name == 0) ){
296                                                << 
297   if ((numberOfDaughters <= 0) || (daughters_n << 
298 #ifdef G4VERBOSE                                  281 #ifdef G4VERBOSE
299     if (verboseLevel > 0) {                    << 282     if (verboseLevel>0) {
300       G4cout << "G4VDecayChannel::FillDaughter << 283       G4cout << "G4VDecayChannel::FillDaughters   ";
301              << "[ " << G4MT_parent->GetPartic << 284       G4cout << "[ " << parent->GetParticleName() << " ]";
302              << "numberOfDaughters is not defi << 285       G4cout << "numberOfDaughters is not defined yet";
303     }                                          << 286     }
304 #endif                                         << 287 #endif
305     G4MT_daughters = nullptr;                  << 288     daughters = 0;
306     G4Exception("G4VDecayChannel::FillDaughter << 289     G4Exception("G4VDecayChannel::FillDaughters",
307                 "Cannot fill daughters: number << 290     "can not fill daughters", FatalException,
308   }                                            << 291     "numberOfDaughters is not defined yet");    
309                                                << 292   } 
310   // create and set the array of pointers to d << 293 
311   G4MT_daughters = new G4ParticleDefinition*[n << 294   //create and set the array of pointers to daughter particles
312   delete[] G4MT_daughters_mass;                << 295   daughters = new G4ParticleDefinition*[numberOfDaughters];
313   delete[] G4MT_daughters_width;               << 296   if (daughters_mass != 0) delete [] daughters_mass;
314   G4MT_daughters_mass = new G4double[numberOfD << 297   daughters_mass = new G4double[numberOfDaughters];
315   G4MT_daughters_width = new G4double[numberOf << 
316   // loop over all daughters                      298   // loop over all daughters
317   for (index = 0; index < numberOfDaughters; + << 299   for (index=0; index < numberOfDaughters;  index++) { 
318     if (daughters_name[index] == nullptr) {    << 300     if (daughters_name[index] == 0) {
319       // daughter name is not defined             301       // daughter name is not defined
320 #ifdef G4VERBOSE                                  302 #ifdef G4VERBOSE
321       if (verboseLevel > 0) {                  << 303       if (verboseLevel>0) {
322         G4cout << "G4VDecayChannel::FillDaught << 304   G4cout << "G4VDecayChannel::FillDaughters  ";
323                << "[ " << G4MT_parent->GetPart << 305   G4cout << "[ " << parent->GetParticleName() << " ]";
324                << "-th daughter is not defined << 306   G4cout << index << "-th daughter is not defined yet" << G4endl;
325       }                                           307       }
326 #endif                                            308 #endif
327       G4MT_daughters[index] = nullptr;         << 309       daughters[index] = 0;
328       G4Exception("G4VDecayChannel::FillDaught << 310       G4Exception("G4VDecayChannel::FillDaughters",
329                   "Cannot fill daughters: name << 311       "can not fill daughters", FatalException,
330     }                                          << 312       "name of a daughter is not defined yet");    
331     // search daughter particles in the partic << 313     } 
332     G4MT_daughters[index] = particletable->Fin << 314     //search daughter particles in the particle table 
333     if (G4MT_daughters[index] == nullptr) {    << 315     daughters[index] = particletable->FindParticle(*daughters_name[index]);
334       // cannot find the daughter particle     << 316     if (daughters[index] == 0) {
335 #ifdef G4VERBOSE                               << 317       // can not find the daughter particle
336       if (verboseLevel > 0) {                  << 318 #ifdef G4VERBOSE
337         G4cout << "G4VDecayChannel::FillDaught << 319       if (verboseLevel>0) {
338                << "[ " << G4MT_parent->GetPart << 320   G4cout << "G4VDecayChannel::FillDaughters  ";
339                << *daughters_name[index] << "  << 321   G4cout << "[ " << parent->GetParticleName() << " ]";
340         G4cout << " The BR of this decay mode  << 322   G4cout << index << ":" << *daughters_name[index];
                                                   >> 323   G4cout << " is not defined !!" << G4endl;
                                                   >> 324         G4cout << " The BR of this decay mode is set to zero " << G4endl;
341       }                                           325       }
342 #endif                                            326 #endif
343       SetBR(0.0);                                 327       SetBR(0.0);
344       return;                                     328       return;
345     }                                             329     }
346 #ifdef G4VERBOSE                                  330 #ifdef G4VERBOSE
347     if (verboseLevel > 1) {                    << 331     if (verboseLevel>1) {
348       G4cout << index << ":" << *daughters_nam    332       G4cout << index << ":" << *daughters_name[index];
349       G4cout << ":" << G4MT_daughters[index] < << 333       G4cout << ":" << daughters[index] << G4endl;
350     }                                             334     }
351 #endif                                            335 #endif
352     G4MT_daughters_mass[index] = G4MT_daughter << 336     daughters_mass[index] = daughters[index]->GetPDGMass();
353     G4double d_width = G4MT_daughters[index]-> << 337     sumofdaughtermass += daughters[index]->GetPDGMass();
354     G4MT_daughters_width[index] = d_width;     << 
355     sumofdaughtermass += G4MT_daughters[index] << 
356     sumofdaughterwidthsq += d_width * d_width; << 
357   }  // end loop over all daughters               338   }  // end loop over all daughters
358                                                   339 
359   // check sum of daghter mass                    340   // check sum of daghter mass
360   G4double widthMass =                         << 341   G4double widthMass = parent->GetPDGWidth();
361     std::sqrt(G4MT_parent->GetPDGWidth() * G4M << 342   if ( (parent->GetParticleType() != "nucleus") &&
362   if ((G4MT_parent->GetParticleType() != "nucl << 343        (sumofdaughtermass > parentmass + 5*widthMass) ){
363       && (sumofdaughtermass > parentmass + ran << 344    // !!! illegal mass  !!!
364   {                                            << 345 #ifdef G4VERBOSE
365     // !!! illegal mass  !!!                   << 346    if (GetVerboseLevel()>0) {
366 #ifdef G4VERBOSE                               << 347      G4cout << "G4VDecayChannel::FillDaughters ";
367     if (GetVerboseLevel() > 0) {               << 348      G4cout << "[ " << parent->GetParticleName() << " ]";
368       G4cout << "G4VDecayChannel::FillDaughter << 349      G4cout << "    Energy/Momentum conserevation breaks " <<G4endl;
369              << "[ " << G4MT_parent->GetPartic << 350      if (GetVerboseLevel()>1) {
370              << "    Energy/Momentum consereva << 351        G4cout << "    parent:" << *parent_name;
371       if (GetVerboseLevel() > 1) {             << 352        G4cout << " mass:" << parentmass/GeV << "[GeV/c/c]" <<G4endl;
372         G4cout << "    parent:" << *parent_nam << 353        for (index=0; index < numberOfDaughters; index++){
373                << G4endl;                      << 354    G4cout << "     daughter " << index << ":" << *daughters_name[index];
374         for (index = 0; index < numberOfDaught << 355    G4cout << " mass:" << daughters[index]->GetPDGMass()/GeV;
375           G4cout << "     daughter " << index  << 356    G4cout << "[GeV/c/c]" <<G4endl;
376                  << " mass:" << G4MT_daughters << 357        }
377         }                                      << 358      }
378       }                                        << 359    }
379     }                                          << 
380 #endif                                            360 #endif
381   }                                            << 361  }
382 }                                                 362 }
383                                                   363 
                                                   >> 364 
384 void G4VDecayChannel::FillParent()                365 void G4VDecayChannel::FillParent()
385 {                                                 366 {
386   G4AutoLock lock(&parentMutex);               << 367   if (parent_name == 0) {
387                                                << 
388   // Double check, check again if another thre << 
389   // case do not need to do anything           << 
390   if (G4MT_parent != nullptr) return;          << 
391                                                << 
392   if (parent_name == nullptr) {                << 
393     // parent name is not defined                 368     // parent name is not defined
394 #ifdef G4VERBOSE                                  369 #ifdef G4VERBOSE
395     if (verboseLevel > 0) {                    << 370     if (verboseLevel>0) {
396       G4cout << "G4VDecayChannel::FillParent() << 371       G4cout << "G4VDecayChannel::FillParent   ";
397              << "parent name is not defined !! << 372       G4cout << ": parent name is not defined !!" << G4endl;
398     }                                             373     }
399 #endif                                            374 #endif
400     G4MT_parent = nullptr;                     << 375     parent = 0;
401     G4Exception("G4VDecayChannel::FillParent() << 376     G4Exception("G4VDecayChannel::FillParent()",
402                 "Cannot fill parent: parent na << 377     "can not fill parent", FatalException,
403     return;                                    << 378     "parent name is not defined yet");    
404   }                                               379   }
405                                                << 
406   // search parent particle in the particle ta    380   // search parent particle in the particle table
407   G4MT_parent = particletable->FindParticle(*p << 381   parent = particletable->FindParticle(*parent_name);
408   if (G4MT_parent == nullptr) {                << 382   if (parent == 0) {
409     // parent particle does not exist             383     // parent particle does not exist
410 #ifdef G4VERBOSE                                  384 #ifdef G4VERBOSE
411     if (verboseLevel > 0) {                    << 385     if (verboseLevel>0) {
412       G4cout << "G4VDecayChannel::FillParent() << 386       G4cout << "G4VDecayChannel::FillParent   ";
413              << G4endl;                        << 387       G4cout << *parent_name << " does not exist !!" << G4endl;
414     }                                             388     }
415 #endif                                            389 #endif
416     G4Exception("G4VDecayChannel::FillParent() << 390     G4Exception("G4VDecayChannel::FillParent()",
417                 "Cannot fill parent: parent do << 391     "can not fill parent", FatalException,
418     return;                                    << 392     "parent does not exist");    
419   }                                               393   }
420   G4MT_parent_mass = G4MT_parent->GetPDGMass() << 394   parent_mass = parent->GetPDGMass();
421 }                                                 395 }
422                                                   396 
423 void G4VDecayChannel::SetParent(const G4Partic << 397 void G4VDecayChannel::SetParent(const G4ParticleDefinition * parent_type)
424 {                                                 398 {
425   if (parent_type != nullptr) SetParent(parent << 399   if (parent_type != 0) SetParent(parent_type->GetParticleName());
426 }                                                 400 }
427                                                   401 
428 G4int G4VDecayChannel::GetAngularMomentum()       402 G4int G4VDecayChannel::GetAngularMomentum()
429 {                                                 403 {
430   // determine angular momentum                   404   // determine angular momentum
431                                                   405 
432   // fill pointers to daughter particles if no << 406   // fill pointers to daughter particles if not yet set  
433   CheckAndFillDaughters();                     << 407   if (daughters == 0) FillDaughters();
434                                                   408 
435   const G4int PiSpin = G4MT_parent->GetPDGiSpi << 409   const G4int PiSpin = parent->GetPDGiSpin();
436   const G4int PParity = G4MT_parent->GetPDGiPa << 410   const G4int PParity = parent->GetPDGiParity();
437   if (2 == numberOfDaughters)  // up to now we << 411   if (2==numberOfDaughters) {     // up to now we can only handle two particle decays
438   {                                            << 412     const G4int D1iSpin  = daughters[0]->GetPDGiSpin();
439     const G4int D1iSpin = G4MT_daughters[0]->G << 413     const G4int D1Parity = daughters[0]->GetPDGiParity();
440     const G4int D1Parity = G4MT_daughters[0]-> << 414     const G4int D2iSpin  = daughters[1]->GetPDGiSpin();
441     const G4int D2iSpin = G4MT_daughters[1]->G << 415     const G4int D2Parity = daughters[1]->GetPDGiParity();
442     const G4int D2Parity = G4MT_daughters[1]-> << 416     const G4int MiniSpin = std::abs (D1iSpin - D2iSpin);
443     const G4int MiniSpin = std::abs(D1iSpin -  << 
444     const G4int MaxiSpin = D1iSpin + D2iSpin;     417     const G4int MaxiSpin = D1iSpin + D2iSpin;
445     const G4int lMax = (PiSpin + D1iSpin + D2i << 418     const G4int lMax = (PiSpin+D1iSpin+D2iSpin)/2; // l is allways int
446     G4int lMin;                                   419     G4int lMin;
447 #ifdef G4VERBOSE                                  420 #ifdef G4VERBOSE
448     if (verboseLevel > 1) {                    << 421     if (verboseLevel>1) {
449       G4cout << "iSpin: " << PiSpin << " -> "     422       G4cout << "iSpin: " << PiSpin << " -> " << D1iSpin << " + " << D2iSpin << G4endl;
450       G4cout << "2*jmin, 2*jmax, lmax " << Min    423       G4cout << "2*jmin, 2*jmax, lmax " << MiniSpin << " " << MaxiSpin << " " << lMax << G4endl;
451     }                                             424     }
452 #endif                                            425 #endif
453     for (G4int j = MiniSpin; j <= MaxiSpin; j  << 426     for (G4int j=MiniSpin; j<=MaxiSpin; j+=2){    // loop over all possible spin couplings
454     {  // spin couplings                       << 427       lMin = std::abs(PiSpin-j)/2;
455       lMin = std::abs(PiSpin - j) / 2;         << 428 #ifdef G4VERBOSE 
456 #ifdef G4VERBOSE                               << 429       if (verboseLevel>1)
457       if (verboseLevel > 1) G4cout << "-> chec << 430   G4cout << "-> checking 2*j=" << j << G4endl;
458 #endif                                         << 431 #endif
459       for (G4int l = lMin; l <= lMax; ++l) {   << 432       for (G4int l=lMin; l<=lMax; l++) {
460 #ifdef G4VERBOSE                               << 433 #ifdef G4VERBOSE
461         if (verboseLevel > 1) G4cout << " chec << 434   if (verboseLevel>1)
462 #endif                                         << 435     G4cout << " checking l=" << l << G4endl;
463         if (l % 2 == 0) {                      << 436 #endif
464           if (PParity == D1Parity * D2Parity)  << 437         if (l%2==0) {
465             return l;                          << 438     if (PParity == D1Parity*D2Parity) {    // check parity for this l
466         }                                      << 439       return l;
467         else {                                 << 440           } 
468           if (PParity == -1 * D1Parity * D2Par << 441   } else {
                                                   >> 442     if (PParity == -1*D1Parity*D2Parity) {    // check parity for this l
469             return l;                             443             return l;
                                                   >> 444           }
470         }                                         445         }
471       }                                           446       }
472     }                                             447     }
473   }                                            << 448   } else {
474   else {                                       << 449     G4Exception("G4VDecayChannel::GetAngularMomentum",
475     G4Exception("G4VDecayChannel::GetAngularMo << 450     "can not calculate", JustWarning,
476                 "Sorry, can't handle 3 particl << 451     "Sorry, can't handle 3 particle decays (up to now)");
477     return 0;                                     452     return 0;
478   }                                               453   }
479   G4Exception("G4VDecayChannel::GetAngularMome << 454   G4Exception ("G4VDecayChannel::GetAngularMomentum",
480               "Can't find angular momentum for << 455     "can not calculate", JustWarning,
                                                   >> 456     "Can't find angular momentum for this decay!");
481   return 0;                                       457   return 0;
482 }                                                 458 }
483                                                   459 
484 void G4VDecayChannel::DumpInfo()                  460 void G4VDecayChannel::DumpInfo()
485 {                                                 461 {
486   G4cout << " BR:  " << rbranch << "  [" << ki    462   G4cout << " BR:  " << rbranch << "  [" << kinematics_name << "]";
487   G4cout << "   :  ";                          << 463   G4cout << "   :  " ;
488   for (G4int index = 0; index < numberOfDaught << 464   for (G4int index=0; index < numberOfDaughters; index++)
489     if (daughters_name[index] != nullptr) {    << 465   {
                                                   >> 466     if(daughters_name[index] != 0) {
490       G4cout << " " << *(daughters_name[index]    467       G4cout << " " << *(daughters_name[index]);
491     }                                          << 468     } else {
492     else {                                     << 
493       G4cout << " not defined ";                  469       G4cout << " not defined ";
494     }                                             470     }
495   }                                               471   }
496   G4cout << G4endl;                               472   G4cout << G4endl;
497 }                                                 473 }
498                                                   474 
499 const G4String& G4VDecayChannel::GetNoName() c    475 const G4String& G4VDecayChannel::GetNoName() const
500 {                                                 476 {
501   return noName;                                  477   return noName;
502 }                                              << 
503                                                << 
504 G4double G4VDecayChannel::DynamicalMass(G4doub << 
505 {                                              << 
506   if (width <= 0.0) return massPDG;            << 
507   if (maxDev > rangeMass) maxDev = rangeMass;  << 
508   if (maxDev <= -1. * rangeMass) return massPD << 
509                                                << 
510   G4double x = G4UniformRand() * (maxDev + ran << 
511   G4double y = G4UniformRand();                << 
512   const std::size_t MAX_LOOP = 10000;          << 
513   for (std::size_t loop_counter = 0; loop_coun << 
514     if (y * (width * width * x * x + massPDG * << 
515         <= massPDG * massPDG * width * width)  << 
516       break;                                   << 
517     x = G4UniformRand() * (maxDev + rangeMass) << 
518     y = G4UniformRand();                       << 
519   }                                            << 
520   G4double mass = massPDG + x * width;         << 
521   return mass;                                 << 
522 }                                              << 
523                                                << 
524 G4bool G4VDecayChannel::IsOKWithParentMass(G4d << 
525 {                                              << 
526   G4double sumOfDaughterMassMin = 0.0;         << 
527   CheckAndFillParent();                        << 
528   CheckAndFillDaughters();                     << 
529   // skip one body decay                       << 
530   if (numberOfDaughters == 1) return true;     << 
531                                                << 
532   for (G4int index = 0; index < numberOfDaught << 
533     sumOfDaughterMassMin += G4MT_daughters_mas << 
534   }                                            << 
535   return (parentMass >= sumOfDaughterMassMin); << 
536 }                                              << 
537                                                << 
538 void G4VDecayChannel::SetBR(G4double value)    << 
539 {                                              << 
540   rbranch = value;                             << 
541   if (rbranch < 0.)                            << 
542     rbranch = 0.0;                             << 
543   else if (rbranch > 1.0)                      << 
544     rbranch = 1.0;                             << 
545 }                                                 478 }
546                                                   479