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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 // G4ProductionCuts class implementation << 27 // 26 // 28 // Author: H.Kurashige, 17 September 2002 - Fi << 27 // $Id: G4ProductionCuts.cc 73044 2013-08-15 09:44:11Z gcosmo $ 29 // ------------------------------------------- << 28 // GEANT4 tag $Name: geant4-09-04-ref-00 $ >> 29 // >> 30 // >> 31 // -------------------------------------------------------------- >> 32 // GEANT 4 class implementation file/ History: >> 33 // 18 Sep. 2002, H.Kuirashige : Structure created based on object model >> 34 // -------------------------------------------------------------- 30 35 31 #include "G4ProductionCuts.hh" 36 #include "G4ProductionCuts.hh" 32 #include "G4ProductionCutsTable.hh" 37 #include "G4ProductionCutsTable.hh" >> 38 #include <iomanip> 33 39 34 #include <sstream> << 40 G4ThreadLocal G4ParticleDefinition* G4ProductionCuts::gammaDef = 0; >> 41 G4ThreadLocal G4ParticleDefinition* G4ProductionCuts::electDef = 0; >> 42 G4ThreadLocal G4ParticleDefinition* G4ProductionCuts::positDef = 0; >> 43 G4ThreadLocal G4ParticleDefinition* G4ProductionCuts::protonDef = 0; 35 44 36 G4ProductionCuts::G4ProductionCuts() << 45 G4ProductionCuts::G4ProductionCuts() : >> 46 isModified(true) 37 { 47 { 38 for (G4int i=0; i<NumberOfG4CutIndex; ++i) << 48 for (G4int i=0; i< NumberOfG4CutIndex; i++) { 39 { << 40 fRangeCuts.push_back(0.0); 49 fRangeCuts.push_back(0.0); 41 } 50 } 42 } 51 } 43 52 44 G4ProductionCuts::G4ProductionCuts(const G4Pro 53 G4ProductionCuts::G4ProductionCuts(const G4ProductionCuts& right) >> 54 : isModified(true) 45 { 55 { 46 for (G4int i=0; i<NumberOfG4CutIndex; ++i) << 56 for (G4int i=0; i< NumberOfG4CutIndex; i++) { 47 { << 48 fRangeCuts.push_back(0.0); 57 fRangeCuts.push_back(0.0); 49 } 58 } 50 *this = right; 59 *this = right; 51 } 60 } 52 61 53 G4ProductionCuts::~G4ProductionCuts() 62 G4ProductionCuts::~G4ProductionCuts() 54 { 63 { 55 fRangeCuts.clear(); 64 fRangeCuts.clear(); 56 } 65 } 57 66 58 G4ProductionCuts& G4ProductionCuts::operator=( << 67 G4ProductionCuts & G4ProductionCuts::operator=(const G4ProductionCuts &right) 59 { 68 { 60 if (&right==this) return *this; 69 if (&right==this) return *this; 61 70 62 for (G4int i=0; i<NumberOfG4CutIndex; ++i) << 71 for (G4int i=0; i< NumberOfG4CutIndex; i++) { 63 { << 64 fRangeCuts[i] = right.fRangeCuts[i]; 72 fRangeCuts[i] = right.fRangeCuts[i]; 65 } 73 } 66 isModified = right.isModified; 74 isModified = right.isModified; 67 return *this; 75 return *this; 68 } 76 } 69 77 70 G4bool G4ProductionCuts::operator==(const G4Pr << 71 { << 72 return (this == &right); << 73 } << 74 << 75 G4bool G4ProductionCuts::operator!=(const G4Pr << 76 { << 77 return (this != &right); << 78 } << 79 << 80 void G4ProductionCuts::SetProductionCut(G4doub << 81 { << 82 if(index >= 0 && index < NumberOfG4CutIndex) << 83 { << 84 fRangeCuts[index] = cut; << 85 isModified = true; << 86 } << 87 else << 88 { << 89 std::ostringstream os; << 90 os << "Setting cuts for particles other th << 91 "no effect."; << 92 G4Exception("G4ProductionCuts::SetProducti << 93 JustWarning, os.str().c_str()) << 94 } << 95 } << 96 << 97 void G4ProductionCuts::SetProductionCut(G4doub << 98 { << 99 for(G4int i = 0; i < NumberOfG4CutIndex; ++i << 100 { << 101 fRangeCuts[i] = cut; << 102 } << 103 isModified = true; << 104 } << 105 << 106 void G4ProductionCuts::SetProductionCut(G4doub << 107 { << 108 SetProductionCut(cut, GetIndex(ptr)); << 109 } << 110 78 111 void G4ProductionCuts::SetProductionCut(G4doub << 112 { << 113 SetProductionCut(cut, GetIndex(pName)); << 114 } << 115 << 116 G4double G4ProductionCuts::GetProductionCut(G4 << 117 { << 118 G4double cut = -1.0; << 119 if (index>=0 && index<NumberOfG4CutIndex) << 120 { << 121 cut = fRangeCuts[index]; << 122 } << 123 return cut; << 124 } << 125 79 126 G4double G4ProductionCuts::GetProductionCut(co << 80 G4int G4ProductionCuts::operator==(const G4ProductionCuts &right) const 127 { 81 { 128 return GetProductionCut(GetIndex(name)); << 82 return (this == &right); 129 } 83 } 130 84 131 85 132 const std::vector<G4double>& G4ProductionCut << 86 G4int G4ProductionCuts::operator!=(const G4ProductionCuts &right) const 133 { << 134 return fRangeCuts; << 135 } << 136 << 137 G4bool G4ProductionCuts::IsModified() const << 138 { 87 { 139 return isModified; << 88 return (this != &right); 140 } 89 } 141 90 142 void G4ProductionCuts::PhysicsTableUpdated() << 143 { << 144 isModified = false; << 145 } << 146 91 147 G4int G4ProductionCuts::GetIndex(const G4Strin << 92 G4int G4ProductionCuts::GetIndex(const G4String& name) 148 { 93 { 149 G4int index = -1; << 94 static const G4String gamma ("gamma"); 150 if ( name == "gamma" ) { index = 0; } << 95 static const G4String electron("e-"); 151 else if ( name == "e-" ) { index = 1; } << 96 static const G4String positron("e+"); 152 else if ( name == "e+" ) { index = 2; } << 97 static const G4String proton("proton"); 153 else if ( name == "proton" ) { index = 3; } << 98 >> 99 G4int index; >> 100 if ( name == gamma ) { index = 0; } >> 101 else if ( name == electron ) { index = 1; } >> 102 else if ( name == positron ) { index = 2; } >> 103 else if ( name == proton ) { index = 3; } >> 104 else { index = -1; } 154 105 155 return index; 106 return index; 156 } 107 } 157 108 158 109 159 G4int G4ProductionCuts::GetIndex(const G4Parti << 110 G4int G4ProductionCuts::GetIndex(const G4ParticleDefinition* ptcl) 160 { << 111 { 161 G4int pdg = (nullptr == ptr) ? 0 : ptr->GetP << 112 if(!ptcl) return -1; 162 G4int index = -1; << 113 // In the first call, pointers are set 163 if (pdg == 22) { index = 0; } << 114 if(gammaDef==0 && ptcl->GetParticleName()=="gamma") { gammaDef = (G4ParticleDefinition*) ptcl; } 164 else if (pdg == 11) { index = 1; } << 115 if(electDef==0 && ptcl->GetParticleName()=="e-") { electDef = (G4ParticleDefinition*) ptcl; } 165 else if (pdg == -11) { index = 2; } << 116 if(positDef==0 && ptcl->GetParticleName()=="e+") { positDef = (G4ParticleDefinition*) ptcl; } 166 else if (pdg == 2212) { index = 3; } << 117 if(protonDef==0 && ptcl->GetParticleName()=="proton") { protonDef = (G4ParticleDefinition*) ptcl; } >> 118 >> 119 G4int index; >> 120 if(ptcl==(const G4ParticleDefinition*) gammaDef) { index = 0; } >> 121 else if(ptcl==(const G4ParticleDefinition*) electDef) { index = 1; } >> 122 else if(ptcl==(const G4ParticleDefinition*) positDef) { index = 2; } >> 123 else if(ptcl==(const G4ParticleDefinition*) protonDef) { index = 3; } >> 124 else { index = -1; } 167 125 168 return index; 126 return index; 169 } 127 } 170 128 171 void G4ProductionCuts::SetProductionCuts(std:: << 129 >> 130 void G4ProductionCuts::SetProductionCuts(std::vector<G4double>& cut) 172 { 131 { 173 G4int vSize = (G4int)cut.size(); << 132 G4int vSize = cut.size(); 174 if (vSize != NumberOfG4CutIndex) << 133 if (vSize != NumberOfG4CutIndex) { 175 { << 176 #ifdef G4VERBOSE 134 #ifdef G4VERBOSE 177 if (G4ProductionCutsTable::GetProductionCu << 135 if ( G4ProductionCutsTable::GetProductionCutsTable()->GetVerboseLevel()>1) { 178 { << 136 G4cerr << "G4ProductionCuts::SetProductionCuts "; 179 G4cout << "G4ProductionCuts::SetProducti << 137 G4cerr << " The size of given cut value vector [=" << vSize << "] " 180 G4cout << " The size of given cut value << 138 << " is not consitent with number of CutIndex [=" 181 << " is not consistent with numbe << 139 << NumberOfG4CutIndex << G4endl; 182 << NumberOfG4CutIndex << G4endl; << 183 } 140 } 184 #endif 141 #endif 185 G4Exception( "G4ProductionCuts::SetProduct 142 G4Exception( "G4ProductionCuts::SetProductionCuts ", 186 "ProcCuts108", << 143 "ProcCuts108", 187 JustWarning, "Given vector si << 144 JustWarning, "Given vector size is inconsitent "); 188 if (NumberOfG4CutIndex<vSize) { vSize = N << 145 if (NumberOfG4CutIndex<vSize) vSize = NumberOfG4CutIndex; 189 } 146 } 190 for(G4int i = 0; i<vSize; ++i) << 147 for(G4int i = 0; (i<vSize ); i++) { 191 { << 192 fRangeCuts[i] = cut[i]; 148 fRangeCuts[i] = cut[i]; 193 } 149 } 194 isModified = true; 150 isModified = true; 195 } 151 } 196 152