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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 // $Id: G4ElementData.hh,v 1.10 2010-05-15 15:37:33 vnivanch Exp $ >> 27 // GEANT4 tag $Name: not supported by cvs2svn $ >> 28 // 26 //-------------------------------------------- 29 //--------------------------------------------------------------------------- 27 // 30 // 28 // GEANT4 Class file 31 // GEANT4 Class file 29 // 32 // 30 // Description: Data structure for cross secti << 33 // Description: Data structure for cross sections, shell cross sections 31 // isotope cross sections. Data a << 34 // isotope cross sections 32 // Z (atomic number in majority o << 33 // be in the interval 0 <= Z < le << 34 // data a second parameter idx or << 35 // In most cases ID = A - atomic << 36 // There are run time const metho << 37 // assuming responsibility of con << 38 // check input and may throwgh a << 39 // 35 // 40 // Author: V.Ivanchenko 10.03.2011 36 // Author: V.Ivanchenko 10.03.2011 41 // 37 // 42 // Modifications: 30.09.2023 Extended function << 38 // Modifications: 43 // 39 // 44 //-------------------------------------------- 40 //---------------------------------------------------------------------------- 45 // 41 // 46 42 47 #ifndef G4ElementData_h << 43 #ifndef ElementData_h 48 #define G4ElementData_h 1 << 44 #define ElementData_h 1 49 45 50 #include "G4Physics2DVector.hh" << 46 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo...... 51 #include "G4PhysicsVector.hh" << 52 #include "globals.hh" << 53 47 >> 48 #include "globals.hh" >> 49 #include "G4NistElementBuilder.hh" >> 50 #include "G4PhysicsVector.hh" 54 #include <vector> 51 #include <vector> 55 52 56 class G4ElementData << 53 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo...... >> 54 >> 55 class G4ElementData 57 { 56 { 58 public: << 57 public: 59 explicit G4ElementData(G4int length = 99); << 60 58 61 ~G4ElementData(); << 59 G4ElementData(const G4String& nam = ""); 62 60 63 // Assignment operator and copy constructor << 61 ~G4ElementData(); 64 G4ElementData& operator=(const G4ElementData << 65 G4ElementData(const G4ElementData&) = delete << 66 62 67 // add cross section for the element 63 // add cross section for the element 68 void InitialiseForElement(G4int Z, G4Physics 64 void InitialiseForElement(G4int Z, G4PhysicsVector* v); 69 65 70 // add 2D cross section for the element << 71 void InitialiseForElement(G4int Z, G4Physics << 72 << 73 // reserve vector of components << 74 void InitialiseForComponent(G4int Z, G4int n << 75 << 76 // reserve vector of 2D components << 77 void InitialiseFor2DComponent(G4int Z, G4int << 78 << 79 // prepare vector of components 66 // prepare vector of components 80 void AddComponent(G4int Z, G4int id, G4Physi << 67 void InitialiseForComponent(G4int Z, G4int nComponents); 81 68 82 // prepare vector of 2D components << 69 // prepare vector of components 83 void Add2DComponent(G4int Z, G4int id, G4Phy << 70 void AddComponent(G4int Z, G4int id, size_t idx, G4PhysicsVector* v); 84 << 85 // set name of the dataset (optional) << 86 inline void SetName(const G4String& nam); << 87 << 88 //------------------------------------------ << 89 // run time const methods - no check on vali << 90 // it is a responsibility of the consume cod << 91 //------------------------------------------ << 92 << 93 // get name of the dataset << 94 inline const G4String& GetName() const; << 95 << 96 // get vector for the element << 97 inline G4PhysicsVector* GetElementData(G4int << 98 << 99 // get 2-D vector for the element << 100 inline G4Physics2DVector* GetElement2DData(G << 101 << 102 // get vector per shell or per isotope << 103 inline G4PhysicsVector* GetComponentDataByID << 104 << 105 // get vector per shell or per isotope << 106 inline G4Physics2DVector* Get2DComponentData << 107 << 108 // return cross section per element << 109 inline G4double GetValueForElement(G4int Z, << 110 << 111 //------------------------------------------ << 112 // run time const methods with input paramet << 113 //------------------------------------------ << 114 << 115 // get number of components for the element << 116 inline std::size_t GetNumberOfComponents(G4i << 117 << 118 // get number of 2D components for the eleme << 119 inline std::size_t GetNumberOf2DComponents(G << 120 71 121 // get component ID which may be number of n << 72 // check if cross section for the element is available 122 // or shell number, or any other integer << 73 inline G4bool IsInitializedForElement(G4int Z); 123 inline G4int GetComponentID(G4int Z, std::si << 124 74 125 // get vector per shell or per isotope << 75 // check if the cross section per shell or per isotope 126 inline G4PhysicsVector* << 76 // is available 127 GetComponentDataByIndex(G4int Z, std::size_t << 77 inline G4bool IsInitializedForComponent(G4int Z, size_t idx); 128 78 129 // get vector per shell or per isotope << 79 // return cross section per element 130 inline G4Physics2DVector* << 80 // if not available return zero 131 Get2DComponentDataByIndex(G4int Z, std::size << 81 inline G4double GetValueForElement(G4int Z, G4double kinEnergy); 132 82 133 // return cross section per element << 83 // return cross section per element 134 // if not available return zero 84 // if not available return zero 135 inline G4double << 85 inline G4double GetValueForComponent(G4int Z, size_t idx, G4double kinEnergy); 136 GetValueForComponent(G4int Z, std::size_t id << 137 86 138 private: << 87 inline G4int GetComponentID(G4int Z, size_t idx); 139 88 140 void DataError(G4int Z, const G4String&); << 89 private: 141 90 142 const G4int maxNumElm; << 91 // Assignment operator and copy constructor >> 92 G4ElementData & operator=(const G4ElementData &right); >> 93 G4ElementData(const G4ElementData&); 143 94 144 std::vector<G4PhysicsVector*> elmData; << 95 G4PhysicsVector* elmData[maxNumElements]; 145 std::vector<G4Physics2DVector*> elm2Data; << 96 std::vector<G4PhysicsVector*> compData[maxNumElements]; 146 std::vector<std::vector<std::pair<G4int, G4P << 97 std::vector<G4int> compID[maxNumElements]; 147 std::vector<std::vector<std::pair<G4int, G4P << 98 size_t compLength[maxNumElements]; 148 99 149 G4String name{""}; << 100 G4String name; 150 }; 101 }; 151 102 152 //-------------------------------------------- << 103 inline 153 // run time const methods without check on val << 104 G4bool G4ElementData::IsInitializedForElement(G4int Z) 154 //-------------------------------------------- << 155 << 156 inline void G4ElementData::SetName(const G4Str << 157 { << 158 name = nam; << 159 } << 160 << 161 inline const G4String& G4ElementData::GetName( << 162 { << 163 return name; << 164 } << 165 << 166 inline G4PhysicsVector* G4ElementData::GetElem << 167 { << 168 return elmData[Z]; << 169 } << 170 << 171 inline G4Physics2DVector* G4ElementData::GetEl << 172 { << 173 return elm2Data[Z]; << 174 } << 175 << 176 inline G4PhysicsVector* << 177 G4ElementData::GetComponentDataByID(G4int Z, G << 178 { 105 { 179 G4PhysicsVector* v = nullptr; << 106 return G4bool(elmData[Z]); 180 for (auto const & p : *(compData[Z])) { << 181 if (id == p.first) { << 182 v = p.second; << 183 break; << 184 } << 185 } << 186 return v; << 187 } 107 } 188 108 189 inline G4Physics2DVector* << 109 inline 190 G4ElementData::Get2DComponentDataByID(G4int Z, << 110 G4bool G4ElementData::IsInitializedForComponent(G4int Z, size_t idx) 191 { 111 { 192 G4Physics2DVector* v = nullptr; << 112 return (idx < compLength[Z]); 193 for (auto const & p : *(comp2D[Z])) { << 194 if (id == p.first) { << 195 v = p.second; << 196 break; << 197 } << 198 } << 199 return v; << 200 } 113 } 201 114 202 inline G4double << 115 inline 203 G4ElementData::GetValueForElement(G4int Z, G4d << 116 G4double G4ElementData::GetValueForElement(G4int Z, G4double kinEnergy) 204 { 117 { 205 return elmData[Z]->Value(kinEnergy); 118 return elmData[Z]->Value(kinEnergy); 206 } 119 } 207 120 208 //-------------------------------------------- << 121 inline 209 // run time const methods with check on validi << 122 G4double G4ElementData::GetValueForComponent(G4int Z, size_t idx, G4double kinEnergy) 210 //-------------------------------------------- << 211 << 212 inline std::size_t G4ElementData::GetNumberOfC << 213 { 123 { 214 return (nullptr != compData[Z]) ? compData[Z << 124 return ((compData[Z])[idx])->Value(kinEnergy); 215 } 125 } 216 126 217 inline std::size_t G4ElementData::GetNumberOf2 << 127 inline G4int G4ElementData::GetComponentID(G4int Z, size_t idx) 218 { 128 { 219 return (nullptr != comp2D[Z]) ? comp2D[Z]->s << 129 G4int i = -1; >> 130 if((compID[Z]).size() < idx) { i = (compID[Z])[idx]; } >> 131 return i; 220 } 132 } 221 133 222 inline G4int G4ElementData::GetComponentID(G4i << 134 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo...... 223 { << 224 return (idx < GetNumberOfComponents(Z)) ? (* << 225 } << 226 << 227 inline G4PhysicsVector* << 228 G4ElementData::GetComponentDataByIndex(G4int Z << 229 { << 230 return << 231 (idx < GetNumberOfComponents(Z)) ? (*(comp << 232 } << 233 << 234 inline G4Physics2DVector* << 235 G4ElementData::Get2DComponentDataByIndex(G4int << 236 { << 237 return << 238 (idx < GetNumberOf2DComponents(Z)) ? (*(co << 239 } << 240 << 241 inline G4double << 242 G4ElementData::GetValueForComponent(G4int Z, s << 243 { << 244 return (idx < GetNumberOfComponents(Z)) ? << 245 (*(compData[Z]))[idx].second->Value(e) : 0 << 246 } << 247 135 248 #endif 136 #endif >> 137 249 138