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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: G4ExtDEDXTable.hh 67044 2013-01-30 08:50:06Z gcosmo $ >> 27 // 26 // =========================================== 28 // =========================================================================== 27 // GEANT4 class header file 29 // GEANT4 class header file 28 // 30 // 29 // Class: G4ExtDEDXTable 31 // Class: G4ExtDEDXTable 30 // 32 // 31 // Base class: G4VIonDEDXTable << 33 // Base class: G4VIonDEDXTable 32 // << 34 // 33 // Author: Anton Lechner (Anton. 35 // Author: Anton Lechner (Anton.Lechner@cern.ch) 34 // 36 // 35 // First implementation: 29. 02. 2009 37 // First implementation: 29. 02. 2009 36 // 38 // 37 // Modifications: 39 // Modifications: 38 // 03.11.2009 A. Lechner: Added new methods B 40 // 03.11.2009 A. Lechner: Added new methods BuildPhysicsVector according 39 // to interface changes in base cla 41 // to interface changes in base class G4VIonDEDXTable. 40 // 42 // 41 // 43 // 42 // Class description: 44 // Class description: 43 // Utility class for users to add their own 45 // Utility class for users to add their own electronic stopping powers 44 // for ions. This class is dedicated for us 46 // for ions. This class is dedicated for use with G4IonParametrisedLossModel 45 // of the low-energy electromagnetic packag 47 // of the low-energy electromagnetic package. 46 // 48 // 47 // Comments: 49 // Comments: 48 // 50 // 49 // =========================================== << 51 // =========================================================================== >> 52 // 50 53 51 #ifndef G4EXTDEDXTABLE_HH 54 #ifndef G4EXTDEDXTABLE_HH 52 #define G4EXTDEDXTABLE_HH 55 #define G4EXTDEDXTABLE_HH 53 56 54 #include "G4VIonDEDXTable.hh" << 55 #include "globals.hh" 57 #include "globals.hh" 56 << 58 #include "G4VIonDEDXTable.hh" 57 #include <map> << 58 #include <utility> 59 #include <utility> 59 #include <vector> 60 #include <vector> >> 61 #include <map> >> 62 >> 63 >> 64 class G4ExtDEDXTable : public G4VIonDEDXTable { 60 65 61 class G4ExtDEDXTable : public G4VIonDEDXTable << 62 { << 63 public: 66 public: 64 explicit G4ExtDEDXTable() = default; << 67 G4ExtDEDXTable(); 65 ~G4ExtDEDXTable() override; << 68 virtual ~G4ExtDEDXTable(); 66 G4ExtDEDXTable(G4ExtDEDXTable&) = delete; << 67 const G4ExtDEDXTable& operator=(const G4ExtD << 68 << 69 G4bool BuildPhysicsVector(G4int ionZ, const << 70 << 71 G4bool BuildPhysicsVector(G4int ionZ, G4int << 72 << 73 // Function for checking the availability of << 74 // for a given ion-material couple, where th << 75 // a single element only. << 76 G4bool IsApplicable(G4int atomicNumberIon, << 77 G4int atomicNumberElem // Atomic number o << 78 ) override; << 79 << 80 // Function for checking the availability of << 81 // for given ion-material couples. << 82 G4bool IsApplicable(G4int atomicNumberIon, << 83 const G4String& matIdentifier // Name or << 84 ) override; << 85 << 86 // Function returning the stopping power vec << 87 // couples, where the material consists of a << 88 G4PhysicsVector* GetPhysicsVector(G4int atom << 89 G4int atomicNumberElem // Atomic number o << 90 ) override; << 91 << 92 // Function returning the stopping power vec << 93 // couples. << 94 G4PhysicsVector* GetPhysicsVector(G4int atom << 95 const G4String& matIdenfier // Name or ch << 96 ) override; << 97 << 98 // Function returning the stopping power val << 99 // couples, where the material consists of a << 100 // given energy. << 101 G4double GetDEDX(G4double kinEnergyPerNucleo << 102 G4int atomicNumberIon, // Atomic number o << 103 G4int atomicNumberElem // Atomic number o << 104 ); << 105 << 106 // Function returning the stopping power val << 107 // couples and given energy. << 108 G4double GetDEDX(G4double kinEnergyPerNucleo << 109 G4int atomicNumberIon, // Atomic number o << 110 const G4String& matIdenfier // Name or ch << 111 ); << 112 << 113 // Function for adding dE/dx vector for an e << 114 // argument only applies to elemental materi << 115 G4bool AddPhysicsVector(G4PhysicsVector* phy << 116 G4int atomicNumberIon, // Atomic number o << 117 const G4String& matIdenfier, // Name or c << 118 G4int atomicNumberElem = 0 // Atomic numb << 119 ); << 120 << 121 // Function for removing dE/dx vector for a << 122 G4bool RemovePhysicsVector(G4int atomicNumbe << 123 const G4String& matIdentifier // Name or << 124 ); << 125 << 126 // Function writing all stopping power vecto << 127 G4bool StorePhysicsTable(const G4String& fil << 128 ); << 129 << 130 // Function retrieving all stopping power ve << 131 G4bool RetrievePhysicsTable(const G4String& << 132 ); << 133 69 134 // Function deleting all physics vectors and << 70 G4bool BuildPhysicsVector(G4int ionZ, 135 void ClearTable(); << 71 const G4String& matName); 136 72 137 // Function printing the ion-material pairs << 73 G4bool BuildPhysicsVector(G4int ionZ, 138 void DumpMap(); << 74 G4int matZ); 139 75 140 private: << 76 // Function for checking the availability of stopping power tables 141 G4PhysicsVector* CreatePhysicsVector(G4int v << 77 // for a given ion-material couple, where the material consists of >> 78 // a single element only. >> 79 G4bool IsApplicable( >> 80 G4int atomicNumberIon, // Atomic number of ion >> 81 G4int atomicNumberElem // Atomic number of elemental material >> 82 ); >> 83 >> 84 // Function for checking the availability of stopping power tables >> 85 // for given ion-material couples. >> 86 G4bool IsApplicable( >> 87 G4int atomicNumberIon, // Atomic number of ion >> 88 const G4String& matIdentifier // Name or chemical formula of material >> 89 ); >> 90 >> 91 // Function returning the stopping power vector for given ion-material >> 92 // couples, where the material consists of a single element only. >> 93 G4PhysicsVector* GetPhysicsVector( >> 94 G4int atomicNumberIon, // Atomic number of ion >> 95 G4int atomicNumberElem // Atomic number of elemental material >> 96 ); >> 97 >> 98 // Function returning the stopping power vector for given ion-material >> 99 // couples. >> 100 G4PhysicsVector* GetPhysicsVector( >> 101 G4int atomicNumberIon, // Atomic number of ion >> 102 const G4String& matIdenfier // Name or chemical formula of material >> 103 ); >> 104 >> 105 // Function returning the stopping power value for given ion-material >> 106 // couples, where the material consists of a single element only, and >> 107 // given energy. >> 108 G4double GetDEDX( >> 109 G4double kinEnergyPerNucleon, // Kinetic energy per nucleon >> 110 G4int atomicNumberIon, // Atomic number of ion >> 111 G4int atomicNumberElem // Atomic number of elemental material >> 112 ); >> 113 >> 114 // Function returning the stopping power value for given ion-material >> 115 // couples and given energy. >> 116 G4double GetDEDX( >> 117 G4double kinEnergyPerNucleon, // Kinetic energy per nucleon >> 118 G4int atomicNumberIon, // Atomic number of ion >> 119 const G4String& matIdenfier // Name or chemical formula of material >> 120 ); >> 121 >> 122 // Function for adding dE/dx vector for an elemental materials. The last >> 123 // argument only applies to elemental materials. >> 124 G4bool AddPhysicsVector( >> 125 G4PhysicsVector* physicsVector, // Physics vector >> 126 G4int atomicNumberIon, // Atomic number of ion >> 127 const G4String& matIdenfier, // Name or chemical formula of material >> 128 G4int atomicNumberElem = 0 // Atomic number of elemental material >> 129 ); >> 130 >> 131 // Function for removing dE/dx vector for a compound materials >> 132 G4bool RemovePhysicsVector( >> 133 G4int atomicNumberIon, // Atomic number of ion >> 134 const G4String& matIdentifier // Name or chemical formula of material >> 135 ); >> 136 >> 137 // Function writing all stopping power vectors to file >> 138 G4bool StorePhysicsTable( >> 139 const G4String& fileName // File name >> 140 ); >> 141 >> 142 // Function retrieving all stopping power vectors from file >> 143 G4bool RetrievePhysicsTable( >> 144 const G4String& fileName // File name >> 145 ); >> 146 >> 147 // Function deleting all physics vectors and clearing the maps >> 148 void ClearTable(); 142 149 143 G4int FindAtomicNumberElement(G4PhysicsVecto << 150 // Function printing the ion-material pairs of available vectors to stdout >> 151 void DumpMap(); >> 152 >> 153 private: >> 154 G4PhysicsVector* CreatePhysicsVector(G4int vectorType); 144 155 145 using G4IonDEDXKeyElem = std::pair<G4int, G4 << 156 G4int FindAtomicNumberElement(G4PhysicsVector* physicsVector); 146 using G4IonDEDXKeyMat = std::pair<G4int, G4S << 147 157 148 using G4IonDEDXMapElem = std::map<G4IonDEDXK << 158 typedef std::pair<G4int, G4int> G4IonDEDXKeyElem; 149 using G4IonDEDXMapMat = std::map<G4IonDEDXKe << 159 typedef std::pair<G4int, G4String> G4IonDEDXKeyMat; >> 160 >> 161 typedef std::map<G4IonDEDXKeyElem, G4PhysicsVector*> G4IonDEDXMapElem; >> 162 typedef std::map<G4IonDEDXKeyMat, G4PhysicsVector*> G4IonDEDXMapMat; 150 163 151 G4IonDEDXMapElem dedxMapElements; << 164 G4IonDEDXMapElem dedxMapElements; 152 G4IonDEDXMapMat dedxMapMaterials; << 165 G4IonDEDXMapMat dedxMapMaterials; 153 }; 166 }; 154 167 155 #endif // G4EXTDEDXTABLE_HH << 168 #endif // G4EXTDEDXTABLE_HH 156 169