Geant4 Cross Reference

Cross-Referencing   Geant4
Geant4/processes/hadronic/models/fission/include/G4fissionEvent.hh

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 51 // Copyright (c) 2006 The Regents of the University of California.
 52 // All rights reserved.
 53 // UCRL-CODE-224807
 54 //
 55 //
 56 #ifndef G4fissionEvent_hh
 57 #define G4fissionEvent_hh
 58 
 59 #include "globals.hh"
 60 #include <string>
 61 
 62 class G4fissionEvent {
 63    private:
 64       G4int neutronNu; // number of neutrons in this fission event
 65       G4double* neutronEnergies; 
 66       G4double* neutronVelocities; 
 67       G4double* neutronDircosu; 
 68       G4double* neutronDircosv; 
 69       G4double* neutronDircosw; 
 70       G4double* neutronAges; 
 71 
 72       G4int photonNu; // number of photons in this fission event
 73       G4double* photonEnergies; 
 74       G4double* photonVelocities; 
 75       G4double* photonDircosu; 
 76       G4double* photonDircosv; 
 77       G4double* photonDircosw; 
 78       G4double* photonAges; 
 79 
 80       // options
 81       static G4int delayoption;
 82       static G4int correlationoption;
 83       static G4int nudistoption;
 84       static G4int Cf252ndistoption;
 85       static G4int Cf252nengoption;
 86       static G4double (*rngdptr)(void);
 87       static float (*rngfptr)(void);
 88 
 89    public:
 90       // These are all the methods of this class accessible to the caller of the object 
 91       G4fissionEvent(G4int isotope, G4double time, G4double nubar, G4double eng);
 92       ~G4fissionEvent();
 93       G4int getNeutronNu() {
 94          return neutronNu;
 95       }
 96       G4int getPhotonNu() {
 97          return photonNu;
 98       }
 99       G4double getNeutronEnergy(G4int index) {
100          if (index >= 0 && index < neutronNu) return neutronEnergies[index];
101          else return -1;
102       }
103       G4double getNeutronVelocity(G4int index) {
104          if (index >= 0 && index < neutronNu) return neutronVelocities[index];
105          else return -1;
106       }
107       G4double getNeutronDircosu(G4int index) {
108          if (index >= 0 && index < neutronNu) return neutronDircosu[index];
109          else return -1;
110       }
111       G4double getNeutronDircosv(G4int index) {
112          if (index >= 0 && index < neutronNu) return neutronDircosv[index];
113          else return -1;
114       }
115       G4double getNeutronDircosw(G4int index) {
116          if (index >= 0 && index < neutronNu) return neutronDircosw[index];
117          else return -1;
118       }
119       G4double getPhotonEnergy(G4int index) {
120          if (index >= 0 && index < photonNu) return photonEnergies[index];
121          else return -1;
122       }
123       G4double getPhotonVelocity(G4int index) {
124          if (index >= 0 && index < photonNu) return photonVelocities[index];
125          else return -1;
126       }
127       G4double getPhotonDircosu(G4int index) {
128          if (index >= 0 && index < photonNu) return photonDircosu[index];
129          else return -1;
130       }
131       G4double getPhotonDircosv(G4int index) {
132          if (index >= 0 && index < photonNu) return photonDircosv[index];
133          else return -1;
134       }
135       G4double getPhotonDircosw(G4int index) {
136          if (index >= 0 && index < photonNu) return photonDircosw[index];
137          else return -1;
138       }
139       G4double getNeutronAge(G4int index) {
140          if (index >= 0 && index < neutronNu) return neutronAges[index];
141          else return -1;
142       }
143       G4double getPhotonAge(G4int index) {
144          if (index >= 0 && index < photonNu) return photonAges[index];
145          else return -1;
146       }
147       static void setDelayOption(G4int delay) {
148          delayoption = delay;
149       };
150       static void setCorrelationOption(G4int correlation) {
151          correlationoption = correlation;
152       };
153       static void setNudistOption(G4int nudist) {
154          nudistoption = nudist;
155       };
156       static void setCf252Option(G4int ndist, G4int neng) {
157          Cf252ndistoption = ndist;
158          Cf252nengoption = neng;
159       };
160       static void setRNGf(float (*funcptr) (void)) {
161          rngfptr = funcptr;
162          rngdptr = rngf2d;
163       }
164       static void setRNGd(G4double (*funcptr) (void)) {
165          rngdptr = funcptr;
166       }
167 
168 
169    private:
170       G4int G4SmpNuDistDataU232_234_236_238(G4double nubar);
171       G4int G4SmpNuDistDataU232_234_236_238_MC(G4double nubar);
172       G4int G4SmpNuDistDataU233_235(G4double nubar);
173       G4int G4SmpNuDistDataU233_235_MC(G4double nubar);
174       G4int G4SmpNuDistDataU235(G4double erg, G4int option);
175       G4int G4SmpNuDistDataPu239(G4double erg);
176       G4double G4SmpNVel(G4double eng, G4double* cosdiru, G4double* cosdirv, G4double* cosdirw);
177       G4double G4SmpNEngCf252(G4int option);
178       void G4SmpIsoDir(G4double* cosdiru, G4double* cosdirv, G4double* cosdirw);
179       G4double G4SmpGEng();
180       G4int G4SmpNuDistDataPu239_241(G4double nubar);
181       G4int G4SmpNuDistDataPu239_241_MC(G4double nubar);
182       G4int G4SmpNuDistDataU238(G4double erg);
183       G4int G4SmpNugDist(G4int isotope, G4double nubar);
184       G4double G4SmpPVel(G4double eng, G4double* cosdiru, G4double* cosdirv, G4double* cosdirw);
185       G4int G4SmpSpNuDistData(G4int isotope, G4int Cf252option);
186       G4double G4SmpSpNubarData(G4int isotope);
187       G4int G4SmpSpNugDistData(G4int isotope);
188       G4double G4SmpTerrell(G4double nubar);
189       G4double G4SmpWatt(G4double ePart, G4int iso);
190       void G4fissionerr(G4int iSever, std::string chSubNam, std::string chMsg);
191       static G4double fisslibrng(void);
192       static G4double rngf2d(void);
193 };
194 
195 #endif
196