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25 // 25 //
26 // G4IsotopeProperty <<
27 // 26 //
28 // Class description: << 27 // $Id$
29 // 28 //
30 // G4IsotopeProperty contains properties of an << 29 //
>> 30 // ------------------------------------------------------------
>> 31 // GEANT 4 class header file
>> 32 //
>> 33 // ------------------------------------------------------------
>> 34 // New design using G4VIsotopeTable 5 Oct. 99 H.Kurashige
>> 35 // Add Magnetic Moment 14 Mar 07 H.Kurashige
31 36
32 // Author: H.Kurashige, 5 October 1999 << 37 #ifndef G4IsotopeProperty_h
33 // ------------------------------------------- << 38 #define G4IsotopeProperty_h 1
34 #ifndef G4IsotopeProperty_hh <<
35 #define G4IsotopeProperty_hh 1 <<
36 39
37 #include "G4Ions.hh" <<
38 #include "globals.hh" 40 #include "globals.hh"
39 << 41 class G4DecayTable;
40 class G4DecayTable; <<
41 class G4IsotopeProperty 42 class G4IsotopeProperty
42 { 43 {
43 public: << 44 // Class Description
44 // Constructor & destructor << 45 // G4IsotopeProperty contains properties of an isotope
45 G4IsotopeProperty() = default; << 46 //
46 virtual ~G4IsotopeProperty(); << 47
47 << 48 public:
48 G4IsotopeProperty(const G4IsotopeProperty& << 49 G4IsotopeProperty();
49 G4IsotopeProperty& operator=(G4IsotopeProp << 50
50 << 51 // copy construictor
51 // Equality operators << 52 G4IsotopeProperty(const G4IsotopeProperty& right);
52 G4bool operator==(const G4IsotopeProperty& << 53
53 G4bool operator!=(const G4IsotopeProperty& << 54 // Assignment operator
54 << 55 G4IsotopeProperty & operator=(G4IsotopeProperty& right);
55 // Set/Get Atomic Number << 56
56 inline G4int GetAtomicNumber() const; << 57 // equal / unequal operator
57 inline void SetAtomicNumber(G4int Z); << 58 G4int operator==(const G4IsotopeProperty &right) const;
58 << 59 G4int operator!=(const G4IsotopeProperty &right) const;
59 // Set/Get Atomic Mass << 60
60 inline G4int GetAtomicMass() const; << 61 // destructor
61 inline void SetAtomicMass(G4int A); << 62 virtual ~G4IsotopeProperty();
62 << 63
63 // Set/Get spin << 64
64 inline G4int GetiSpin() const; << 65 public: // With Description
65 inline void SetiSpin(G4int J); << 66 // Set/Get Atomic Number
66 << 67 G4int GetAtomicNumber() const;
67 // Set/Get Magnetic Moment << 68 void SetAtomicNumber(G4int Z);
68 inline G4double GetMagneticMoment() const; << 69
69 inline void SetMagneticMoment(G4double M); << 70 // Set/Get Atomic Mass
70 << 71 G4int GetAtomicMass() const;
71 // Set/Get Excited Energy << 72 void SetAtomicMass(G4int A);
72 inline G4double GetEnergy() const; << 73
73 inline void SetEnergy(G4double E); << 74 // Set/Get spin
74 << 75 G4int GetiSpin() const;
75 // Set/Get isomer level << 76 void SetiSpin(G4int J);
76 inline G4int GetIsomerLevel() const; << 77
77 inline void SetIsomerLevel(G4int level); << 78 // Set/Get Magentic Moment
78 << 79 G4double GetMagneticMoment() const;
79 // Set/Get floating level base << 80 void SetMagneticMoment(G4double M);
80 inline G4Ions::G4FloatLevelBase GetFloatLe << 81
81 inline void SetFloatLevelBase(G4Ions::G4Fl << 82 // Set/Get Excited Energy
82 inline void SetFloatLevelBase(G4int flbInd << 83 G4double GetEnergy() const;
83 << 84 void SetEnergy(G4double E);
84 // Set/Get life time << 85
85 inline G4double GetLifeTime() const; << 86 // Set/Get life time
86 inline void SetLifeTime(G4double T); << 87 G4double GetLifeTime() const;
87 << 88 void SetLifeTime(G4double T);
88 // Set/Get decay table << 89
89 inline G4DecayTable* GetDecayTable() const << 90 // Set/Get decay table
90 inline void SetDecayTable(G4DecayTable* ta << 91 G4DecayTable* GetDecayTable() const;
91 << 92 void SetDecayTable(G4DecayTable* table);
92 // Dump out information << 93
93 void DumpInfo() const; << 94 // Dump out information
94 << 95 void DumpInfo() const;
95 private: << 96
96 G4int fAtomicNumber = 0; // number of pro << 97 private:
97 G4int fAtomicMass = 0; // number of nucle << 98 G4int fAtomicNumber; // number of proton
98 G4int fISpin = 0; // total angular moment << 99 G4int fAtomicMass; // number of nucleon
99 G4double fEnergy = 0.0; // excited energy << 100 G4int fISpin; // total angular momentum (in unit of 1/2)
100 G4double fLifeTime = -1.0; // lifeTime << 101 G4double fEnergy; // excited energy
101 G4DecayTable* fDecayTable = nullptr; // d << 102 G4double fLifeTime; // lifeTime
102 G4double fMagneticMoment = 0.0; // magnet << 103 G4DecayTable* fDecayTable; // decay Table
103 G4int fIsomerLevel = -1; // isomer level << 104 G4double fMagneticMoment; // magnetic moment
104 G4Ions::G4FloatLevelBase fFloatLevelBase{ <<
105 G4Ions::G4FloatLevelBase::no_Float}; // <<
106 }; 105 };
107 106
108 // ------------------------ << 107 inline
109 // Inline methods << 108 G4int G4IsotopeProperty::GetAtomicNumber() const
110 // ------------------------ <<
111 <<
112 inline G4int G4IsotopeProperty::GetAtomicNumbe <<
113 { 109 {
114 return fAtomicNumber; 110 return fAtomicNumber;
115 } 111 }
116 112
117 inline void G4IsotopeProperty::SetAtomicNumber << 113 inline
>> 114 void G4IsotopeProperty::SetAtomicNumber(G4int Z)
118 { 115 {
119 fAtomicNumber = Z; << 116 fAtomicNumber = Z;
120 } 117 }
121 118
122 inline G4int G4IsotopeProperty::GetAtomicMass( << 119 inline
>> 120 G4int G4IsotopeProperty::GetAtomicMass() const
123 { 121 {
124 return fAtomicMass; 122 return fAtomicMass;
125 } 123 }
126 124
127 inline void G4IsotopeProperty::SetAtomicMass(G << 125 inline
>> 126 void G4IsotopeProperty::SetAtomicMass(G4int A)
128 { 127 {
129 fAtomicMass = A; << 128 fAtomicMass = A;
130 } 129 }
131 130
132 inline G4int G4IsotopeProperty::GetiSpin() con << 131 inline
>> 132 G4int G4IsotopeProperty::GetiSpin() const
133 { 133 {
134 return fISpin; 134 return fISpin;
135 } 135 }
136 136
137 inline void G4IsotopeProperty::SetiSpin(G4int << 137 inline
>> 138 void G4IsotopeProperty::SetiSpin(G4int J)
138 { 139 {
139 fISpin = J; << 140 fISpin = J;
140 } 141 }
141 142
142 inline G4double G4IsotopeProperty::GetMagnetic << 143 inline
>> 144 G4double G4IsotopeProperty::GetMagneticMoment() const
143 { 145 {
144 return fMagneticMoment; 146 return fMagneticMoment;
145 } 147 }
146 148
147 inline void G4IsotopeProperty::SetMagneticMome << 149 inline
>> 150 void G4IsotopeProperty::SetMagneticMoment(G4double M)
148 { 151 {
149 fMagneticMoment = M; 152 fMagneticMoment = M;
150 } 153 }
151 154
152 inline G4double G4IsotopeProperty::GetEnergy() << 155 inline
>> 156 G4double G4IsotopeProperty::GetEnergy() const
153 { 157 {
154 return fEnergy; 158 return fEnergy;
155 } 159 }
156 160
157 inline void G4IsotopeProperty::SetEnergy(G4dou << 161 inline
>> 162 void G4IsotopeProperty::SetEnergy(G4double E)
158 { 163 {
159 fEnergy = E; << 164 fEnergy = E;
160 } 165 }
161 166
162 inline G4int G4IsotopeProperty::GetIsomerLevel << 167 inline
163 { << 168 G4double G4IsotopeProperty::GetLifeTime() const
164 return fIsomerLevel; <<
165 } <<
166 inline void G4IsotopeProperty::SetIsomerLevel( <<
167 { <<
168 fIsomerLevel = level; <<
169 } <<
170 <<
171 inline G4double G4IsotopeProperty::GetLifeTime <<
172 { 169 {
173 return fLifeTime; 170 return fLifeTime;
174 } 171 }
175 172
176 inline void G4IsotopeProperty::SetLifeTime(G4d << 173 inline
>> 174 void G4IsotopeProperty::SetLifeTime(G4double T)
177 { 175 {
178 fLifeTime = T; << 176 fLifeTime = T;
179 } 177 }
180 178
181 inline G4DecayTable* G4IsotopeProperty::GetDec << 179 inline
>> 180 G4DecayTable* G4IsotopeProperty::GetDecayTable() const
182 { 181 {
183 return fDecayTable; 182 return fDecayTable;
184 } 183 }
185 184
186 inline void G4IsotopeProperty::SetDecayTable(G << 185 inline
>> 186 void G4IsotopeProperty::SetDecayTable(G4DecayTable* table)
187 { 187 {
188 fDecayTable = table; << 188 fDecayTable = table;
189 } 189 }
>> 190 #endif
>> 191
>> 192
>> 193
>> 194
>> 195
>> 196
190 197
191 inline G4Ions::G4FloatLevelBase G4IsotopePrope <<
192 { <<
193 return fFloatLevelBase; <<
194 } <<
195 198
196 inline void G4IsotopeProperty::SetFloatLevelBa <<
197 { <<
198 fFloatLevelBase = flb; <<
199 } <<
200 199
201 inline void G4IsotopeProperty::SetFloatLevelBa <<
202 { <<
203 fFloatLevelBase = G4Ions::FloatLevelBase(flb <<
204 } <<
205 200
206 #endif <<
207 201