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IN NO 43 // EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DI 43 // EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, 44 // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGE 44 // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, 45 // PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES 45 // PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; 46 // OR BUSINESS INTERRUPTION) HOWEVER CAUSED AN 46 // OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, 47 // WHETHER IN CONTRACT, STRICT LIABILITY, OR T 47 // WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR 48 // OTHERWISE) ARISING IN ANY WAY OUT OF THE US 48 // OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF 49 // ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 49 // ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 50 // 50 // 51 // Copyright (c) 2006 The Regents of the Unive 51 // Copyright (c) 2006 The Regents of the University of California. 52 // All rights reserved. 52 // All rights reserved. 53 // UCRL-CODE-224807 53 // UCRL-CODE-224807 54 // 54 // >> 55 // $Id: G4fissionEvent.hh 68799 2013-04-05 13:29:46Z gcosmo $ 55 // 56 // 56 #ifndef G4fissionEvent_hh 57 #ifndef G4fissionEvent_hh 57 #define G4fissionEvent_hh 58 #define G4fissionEvent_hh 58 59 59 #include "globals.hh" 60 #include "globals.hh" 60 #include <string> 61 #include <string> 61 62 62 class G4fissionEvent { 63 class G4fissionEvent { 63 private: 64 private: 64 G4int neutronNu; // number of neutrons i 65 G4int neutronNu; // number of neutrons in this fission event 65 G4double* neutronEnergies; 66 G4double* neutronEnergies; 66 G4double* neutronVelocities; 67 G4double* neutronVelocities; 67 G4double* neutronDircosu; 68 G4double* neutronDircosu; 68 G4double* neutronDircosv; 69 G4double* neutronDircosv; 69 G4double* neutronDircosw; 70 G4double* neutronDircosw; 70 G4double* neutronAges; 71 G4double* neutronAges; 71 72 72 G4int photonNu; // number of photons in 73 G4int photonNu; // number of photons in this fission event 73 G4double* photonEnergies; 74 G4double* photonEnergies; 74 G4double* photonVelocities; 75 G4double* photonVelocities; 75 G4double* photonDircosu; 76 G4double* photonDircosu; 76 G4double* photonDircosv; 77 G4double* photonDircosv; 77 G4double* photonDircosw; 78 G4double* photonDircosw; 78 G4double* photonAges; 79 G4double* photonAges; 79 80 80 // options 81 // options 81 static G4int delayoption; 82 static G4int delayoption; 82 static G4int correlationoption; 83 static G4int correlationoption; 83 static G4int nudistoption; 84 static G4int nudistoption; 84 static G4int Cf252ndistoption; 85 static G4int Cf252ndistoption; 85 static G4int Cf252nengoption; 86 static G4int Cf252nengoption; 86 static G4double (*rngdptr)(void); 87 static G4double (*rngdptr)(void); 87 static float (*rngfptr)(void); 88 static float (*rngfptr)(void); 88 89 89 public: 90 public: 90 // These are all the methods of this cla 91 // These are all the methods of this class accessible to the caller of the object 91 G4fissionEvent(G4int isotope, G4double t 92 G4fissionEvent(G4int isotope, G4double time, G4double nubar, G4double eng); 92 ~G4fissionEvent(); 93 ~G4fissionEvent(); 93 G4int getNeutronNu() { 94 G4int getNeutronNu() { 94 return neutronNu; 95 return neutronNu; 95 } 96 } 96 G4int getPhotonNu() { 97 G4int getPhotonNu() { 97 return photonNu; 98 return photonNu; 98 } 99 } 99 G4double getNeutronEnergy(G4int index) { 100 G4double getNeutronEnergy(G4int index) { 100 if (index >= 0 && index < neutronNu) 101 if (index >= 0 && index < neutronNu) return neutronEnergies[index]; 101 else return -1; 102 else return -1; 102 } 103 } 103 G4double getNeutronVelocity(G4int index) 104 G4double getNeutronVelocity(G4int index) { 104 if (index >= 0 && index < neutronNu) 105 if (index >= 0 && index < neutronNu) return neutronVelocities[index]; 105 else return -1; 106 else return -1; 106 } 107 } 107 G4double getNeutronDircosu(G4int index) 108 G4double getNeutronDircosu(G4int index) { 108 if (index >= 0 && index < neutronNu) 109 if (index >= 0 && index < neutronNu) return neutronDircosu[index]; 109 else return -1; 110 else return -1; 110 } 111 } 111 G4double getNeutronDircosv(G4int index) 112 G4double getNeutronDircosv(G4int index) { 112 if (index >= 0 && index < neutronNu) 113 if (index >= 0 && index < neutronNu) return neutronDircosv[index]; 113 else return -1; 114 else return -1; 114 } 115 } 115 G4double getNeutronDircosw(G4int index) 116 G4double getNeutronDircosw(G4int index) { 116 if (index >= 0 && index < neutronNu) 117 if (index >= 0 && index < neutronNu) return neutronDircosw[index]; 117 else return -1; 118 else return -1; 118 } 119 } 119 G4double getPhotonEnergy(G4int index) { 120 G4double getPhotonEnergy(G4int index) { 120 if (index >= 0 && index < photonNu) r 121 if (index >= 0 && index < photonNu) return photonEnergies[index]; 121 else return -1; 122 else return -1; 122 } 123 } 123 G4double getPhotonVelocity(G4int index) 124 G4double getPhotonVelocity(G4int index) { 124 if (index >= 0 && index < photonNu) r 125 if (index >= 0 && index < photonNu) return photonVelocities[index]; 125 else return -1; 126 else return -1; 126 } 127 } 127 G4double getPhotonDircosu(G4int index) { 128 G4double getPhotonDircosu(G4int index) { 128 if (index >= 0 && index < photonNu) r 129 if (index >= 0 && index < photonNu) return photonDircosu[index]; 129 else return -1; 130 else return -1; 130 } 131 } 131 G4double getPhotonDircosv(G4int index) { 132 G4double getPhotonDircosv(G4int index) { 132 if (index >= 0 && index < photonNu) r 133 if (index >= 0 && index < photonNu) return photonDircosv[index]; 133 else return -1; 134 else return -1; 134 } 135 } 135 G4double getPhotonDircosw(G4int index) { 136 G4double getPhotonDircosw(G4int index) { 136 if (index >= 0 && index < photonNu) r 137 if (index >= 0 && index < photonNu) return photonDircosw[index]; 137 else return -1; 138 else return -1; 138 } 139 } 139 G4double getNeutronAge(G4int index) { 140 G4double getNeutronAge(G4int index) { 140 if (index >= 0 && index < neutronNu) 141 if (index >= 0 && index < neutronNu) return neutronAges[index]; 141 else return -1; 142 else return -1; 142 } 143 } 143 G4double getPhotonAge(G4int index) { 144 G4double getPhotonAge(G4int index) { 144 if (index >= 0 && index < photonNu) r 145 if (index >= 0 && index < photonNu) return photonAges[index]; 145 else return -1; 146 else return -1; 146 } 147 } 147 static void setDelayOption(G4int delay) 148 static void setDelayOption(G4int delay) { 148 delayoption = delay; 149 delayoption = delay; 149 }; 150 }; 150 static void setCorrelationOption(G4int c 151 static void setCorrelationOption(G4int correlation) { 151 correlationoption = correlation; 152 correlationoption = correlation; 152 }; 153 }; 153 static void setNudistOption(G4int nudist 154 static void setNudistOption(G4int nudist) { 154 nudistoption = nudist; 155 nudistoption = nudist; 155 }; 156 }; 156 static void setCf252Option(G4int ndist, 157 static void setCf252Option(G4int ndist, G4int neng) { 157 Cf252ndistoption = ndist; 158 Cf252ndistoption = ndist; 158 Cf252nengoption = neng; 159 Cf252nengoption = neng; 159 }; 160 }; 160 static void setRNGf(float (*funcptr) (vo 161 static void setRNGf(float (*funcptr) (void)) { 161 rngfptr = funcptr; 162 rngfptr = funcptr; 162 rngdptr = rngf2d; 163 rngdptr = rngf2d; 163 } 164 } 164 static void setRNGd(G4double (*funcptr) 165 static void setRNGd(G4double (*funcptr) (void)) { 165 rngdptr = funcptr; 166 rngdptr = funcptr; 166 } 167 } 167 168 168 169 169 private: 170 private: 170 G4int G4SmpNuDistDataU232_234_236_238(G4 171 G4int G4SmpNuDistDataU232_234_236_238(G4double nubar); 171 G4int G4SmpNuDistDataU232_234_236_238_MC 172 G4int G4SmpNuDistDataU232_234_236_238_MC(G4double nubar); 172 G4int G4SmpNuDistDataU233_235(G4double n 173 G4int G4SmpNuDistDataU233_235(G4double nubar); 173 G4int G4SmpNuDistDataU233_235_MC(G4doubl 174 G4int G4SmpNuDistDataU233_235_MC(G4double nubar); 174 G4int G4SmpNuDistDataU235(G4double erg, 175 G4int G4SmpNuDistDataU235(G4double erg, G4int option); 175 G4int G4SmpNuDistDataPu239(G4double erg) 176 G4int G4SmpNuDistDataPu239(G4double erg); 176 G4double G4SmpNVel(G4double eng, G4doubl 177 G4double G4SmpNVel(G4double eng, G4double* cosdiru, G4double* cosdirv, G4double* cosdirw); 177 G4double G4SmpNEngCf252(G4int option); 178 G4double G4SmpNEngCf252(G4int option); 178 void G4SmpIsoDir(G4double* cosdiru, G4do 179 void G4SmpIsoDir(G4double* cosdiru, G4double* cosdirv, G4double* cosdirw); 179 G4double G4SmpGEng(); 180 G4double G4SmpGEng(); 180 G4int G4SmpNuDistDataPu239_241(G4double 181 G4int G4SmpNuDistDataPu239_241(G4double nubar); 181 G4int G4SmpNuDistDataPu239_241_MC(G4doub 182 G4int G4SmpNuDistDataPu239_241_MC(G4double nubar); 182 G4int G4SmpNuDistDataU238(G4double erg); 183 G4int G4SmpNuDistDataU238(G4double erg); 183 G4int G4SmpNugDist(G4int isotope, G4doub 184 G4int G4SmpNugDist(G4int isotope, G4double nubar); 184 G4double G4SmpPVel(G4double eng, G4doubl 185 G4double G4SmpPVel(G4double eng, G4double* cosdiru, G4double* cosdirv, G4double* cosdirw); 185 G4int G4SmpSpNuDistData(G4int isotope, G 186 G4int G4SmpSpNuDistData(G4int isotope, G4int Cf252option); 186 G4double G4SmpSpNubarData(G4int isotope) 187 G4double G4SmpSpNubarData(G4int isotope); 187 G4int G4SmpSpNugDistData(G4int isotope); 188 G4int G4SmpSpNugDistData(G4int isotope); 188 G4double G4SmpTerrell(G4double nubar); 189 G4double G4SmpTerrell(G4double nubar); 189 G4double G4SmpWatt(G4double ePart, G4int 190 G4double G4SmpWatt(G4double ePart, G4int iso); 190 void G4fissionerr(G4int iSever, std::str 191 void G4fissionerr(G4int iSever, std::string chSubNam, std::string chMsg); 191 static G4double fisslibrng(void); 192 static G4double fisslibrng(void); 192 static G4double rngf2d(void); 193 static G4double rngf2d(void); 193 }; 194 }; 194 195 195 #endif 196 #endif 196 197