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25 << 25 //
>> 26 //
>> 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