Geant4 Cross Reference |
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Please see the license in the file LICENSE and URL above * 16 // * for the full disclaimer and the limitatio 16 // * for the full disclaimer and the limitation of liability. * 17 // * 17 // * * 18 // * This code implementation is the result 18 // * This code implementation is the result of the scientific and * 19 // * technical work of the GEANT4 collaboratio 19 // * technical work of the GEANT4 collaboration. * 20 // * By using, copying, modifying or distri 20 // * By using, copying, modifying or distributing the software (or * 21 // * any work based on the software) you ag 21 // * any work based on the software) you agree to acknowledge its * 22 // * use in resulting scientific publicati 22 // * use in resulting scientific publications, and indicate your * 23 // * acceptance of all terms of the Geant4 Sof 23 // * acceptance of all terms of the Geant4 Software license. * 24 // ******************************************* 24 // ******************************************************************** 25 // 25 // 26 26 27 #include "globals.hh" 27 #include "globals.hh" 28 #include "G4XAnnihilationChannel.hh" 28 #include "G4XAnnihilationChannel.hh" 29 #include "G4ConcreteMesonBaryonToResonance.hh" 29 #include "G4ConcreteMesonBaryonToResonance.hh" 30 30 31 G4BaryonWidth* G4ConcreteMesonBaryon 31 G4BaryonWidth* G4ConcreteMesonBaryonToResonance::baryonWidth = nullptr; 32 G4BaryonPartialWidth* G4ConcreteMesonBaryon 32 G4BaryonPartialWidth* G4ConcreteMesonBaryonToResonance::baryonPartialWidth = nullptr; 33 G4ParticleTypeConverter* G4ConcreteMesonBaryon 33 G4ParticleTypeConverter* G4ConcreteMesonBaryonToResonance::particleTypeConverter = nullptr; 34 34 35 #ifdef G4MULTITHREADED 35 #ifdef G4MULTITHREADED 36 G4Mutex G4ConcreteMesonBaryonToResonance::conc 36 G4Mutex G4ConcreteMesonBaryonToResonance::concreteMesonBaryonToResonanceMutex = G4MUTEX_INITIALIZER; 37 #endif 37 #endif 38 38 39 G4BaryonWidth & G4ConcreteMesonBaryonToResonan 39 G4BaryonWidth & G4ConcreteMesonBaryonToResonance::theBaryonWidth() 40 { 40 { 41 if(!baryonWidth) { G4ConcreteMesonBaryonToRe 41 if(!baryonWidth) { G4ConcreteMesonBaryonToResonance::InitialisePointers(); } 42 return *baryonWidth; 42 return *baryonWidth; 43 } 43 } 44 44 45 G4BaryonPartialWidth & G4ConcreteMesonBaryonTo 45 G4BaryonPartialWidth & G4ConcreteMesonBaryonToResonance::theBaryonPartialWidth() 46 { 46 { 47 if(!baryonPartialWidth) { G4ConcreteMesonBar 47 if(!baryonPartialWidth) { G4ConcreteMesonBaryonToResonance::InitialisePointers(); } 48 return *baryonPartialWidth; 48 return *baryonPartialWidth; 49 } 49 } 50 50 51 G4ParticleTypeConverter & G4ConcreteMesonBaryo 51 G4ParticleTypeConverter & G4ConcreteMesonBaryonToResonance::myConv() 52 { 52 { 53 if(!particleTypeConverter) { G4ConcreteMeson 53 if(!particleTypeConverter) { G4ConcreteMesonBaryonToResonance::InitialisePointers(); } 54 return *particleTypeConverter; 54 return *particleTypeConverter; 55 } 55 } 56 56 57 G4ConcreteMesonBaryonToResonance::G4ConcreteMe 57 G4ConcreteMesonBaryonToResonance::G4ConcreteMesonBaryonToResonance(const G4ParticleDefinition* aPrimary, 58 const G4ParticleDefinition* 58 const G4ParticleDefinition* bPrimary, 59 const G4ParticleDefinition* 59 const G4ParticleDefinition* aSecondary, 60 const G4String& partWidthLa 60 const G4String& partWidthLabel) 61 : thePrimary1(aPrimary), thePrimary2(bPrimar 61 : thePrimary1(aPrimary), thePrimary2(bPrimary), theSecondary(aSecondary) 62 { 62 { 63 crossSectionSource = new G4XAnnihilationChan 63 crossSectionSource = new G4XAnnihilationChannel(aSecondary, 64 theBaryonWidth(), 64 theBaryonWidth(), 65 theBaryonPartialWidth(), 65 theBaryonPartialWidth(), 66 partWidthLabel); 66 partWidthLabel); 67 InitialisePointers(); 67 InitialisePointers(); 68 } 68 } 69 69 70 G4ConcreteMesonBaryonToResonance::~G4ConcreteM 70 G4ConcreteMesonBaryonToResonance::~G4ConcreteMesonBaryonToResonance() 71 { 71 { 72 delete crossSectionSource; 72 delete crossSectionSource; 73 } 73 } 74 74 75 void G4ConcreteMesonBaryonToResonance::Initial 75 void G4ConcreteMesonBaryonToResonance::InitialisePointers() 76 { 76 { 77 if(!baryonWidth) { 77 if(!baryonWidth) { 78 #ifdef G4MULTITHREADED 78 #ifdef G4MULTITHREADED 79 G4MUTEXLOCK(&concreteMesonBaryonToResonanc 79 G4MUTEXLOCK(&concreteMesonBaryonToResonanceMutex); 80 if (!baryonWidth) { 80 if (!baryonWidth) { 81 #endif 81 #endif 82 baryonWidth = new G4BaryonWidth(); 82 baryonWidth = new G4BaryonWidth(); 83 baryonPartialWidth = new G4BaryonPartial 83 baryonPartialWidth = new G4BaryonPartialWidth(); 84 particleTypeConverter = new G4ParticleTy 84 particleTypeConverter = new G4ParticleTypeConverter(); 85 #ifdef G4MULTITHREADED 85 #ifdef G4MULTITHREADED 86 } 86 } 87 G4MUTEXUNLOCK(&concreteMesonBaryonToResona 87 G4MUTEXUNLOCK(&concreteMesonBaryonToResonanceMutex); 88 #endif 88 #endif 89 } 89 } 90 } 90 } 91 91 92 G4bool G4ConcreteMesonBaryonToResonance::IsInC 92 G4bool G4ConcreteMesonBaryonToResonance::IsInCharge(const G4KineticTrack& trk1, 93 const G4KineticTrack& trk2) co 93 const G4KineticTrack& trk2) const 94 { 94 { 95 if (myConv().GetGenericType(trk1)==myConv(). 95 if (myConv().GetGenericType(trk1)==myConv().GetGenericType(thePrimary1) && 96 myConv().GetGenericType(trk2)==myConv(). 96 myConv().GetGenericType(trk2)==myConv().GetGenericType(thePrimary2)) return true; 97 if (myConv().GetGenericType(trk1)==myConv(). 97 if (myConv().GetGenericType(trk1)==myConv().GetGenericType(thePrimary2) && 98 myConv().GetGenericType(trk2)==myConv(). 98 myConv().GetGenericType(trk2)==myConv().GetGenericType(thePrimary1)) return true; 99 return false; 99 return false; 100 } 100 } 101 101 102 const G4ParticleDefinition* G4ConcreteMesonBar 102 const G4ParticleDefinition* G4ConcreteMesonBaryonToResonance::GetOutgoingParticle(const G4KineticTrack& trk1, 103 const G4KineticTrack& tr 103 const G4KineticTrack& trk2) const 104 { 104 { 105 G4int secondaryIso3 = trk1.GetDefinition()-> 105 G4int secondaryIso3 = trk1.GetDefinition()->GetPDGiIsospin3() + trk2.GetDefinition()->GetPDGiIsospin3(); 106 const G4ParticleDefinition* state; 106 const G4ParticleDefinition* state; 107 if ( (state = myConv().FindIso3State(myConv( 107 if ( (state = myConv().FindIso3State(myConv().GetGenericType(theSecondary), secondaryIso3)) == NULL) 108 { 108 { 109 G4cerr << "for "<<static_cast<G4int>(myCon 109 G4cerr << "for "<<static_cast<G4int>(myConv().GetGenericType(theSecondary))<<" "<<secondaryIso3<<G4endl; 110 throw G4HadronicException(__FILE__, __LINE 110 throw G4HadronicException(__FILE__, __LINE__, "G4ConcreteMesonBaryonToResonance: Can't find iso3 state!"); 111 } 111 } 112 return state; 112 return state; 113 } 113 } 114 114