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Geant4/processes/hadronic/models/particle_hp/src/G4ParticleHPInterpolator.cc

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Differences between /processes/hadronic/models/particle_hp/src/G4ParticleHPInterpolator.cc (Version 11.3.0) and /processes/hadronic/models/particle_hp/src/G4ParticleHPInterpolator.cc (Version 11.1.3)


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 25 //                                                 25 //
 26 // neutron_hp -- source file                       26 // neutron_hp -- source file
 27 // J.P. Wellisch, Nov-1996                         27 // J.P. Wellisch, Nov-1996
 28 // A prototype of the low energy neutron trans     28 // A prototype of the low energy neutron transport model.
 29 //                                                 29 //
 30 // P. Arce, June-2014 Conversion neutron_hp to     30 // P. Arce, June-2014 Conversion neutron_hp to particle_hp
 31 //                                                 31 //
 32 #include "G4ParticleHPInterpolator.hh"             32 #include "G4ParticleHPInterpolator.hh"
 33                                                << 
 34 #include "G4Pow.hh"                                33 #include "G4Pow.hh"
 35                                                    34 
 36 G4double G4ParticleHPInterpolator::GetBinInteg <<  35   G4double G4ParticleHPInterpolator::
 37                                                <<  36   GetBinIntegral(const G4InterpolationScheme & aScheme, 
 38                                                <<  37                 const G4double x1,const G4double x2,const G4double y1,const G4double y2)
 39 {  // inline again later on @@@@               <<  38   { // inline again later on @@@@
 40   G4double result = 0;                         <<  39     G4double result = 0;
 41   if (aScheme == HISTO || aScheme == CHISTO || <<  40     if(aScheme==HISTO||aScheme==CHISTO||aScheme==UHISTO)
 42     result = y1 * (x2 - x1);                   <<  41     {
 43   }                                            <<  42       result = y1*(x2-x1);
 44   else if (aScheme == LINLIN || aScheme == CLI <<  43     }
 45     result = 0.5 * (y2 + y1) * (x2 - x1);      <<  44     else if(aScheme==LINLIN||aScheme==CLINLIN||aScheme==ULINLIN)
 46   }                                            <<  45     {
 47   else if (aScheme == LINLOG || aScheme == CLI <<  46       result = 0.5*(y2+y1)*(x2-x1);
 48     if (x1 == 0)                               <<  47     }
 49       result = y1;                             <<  48     else if(aScheme==LINLOG||aScheme==CLINLOG||aScheme==ULINLOG)
 50     else if (x2 == 0)                          <<  49     {
 51       result = y2;                             <<  50       if(x1==0) result = y1;
 52     else {                                     <<  51       else if(x2==0) result = y2;
 53       G4double b = (y2 - y1) / (G4Log(x2) - G4 <<  52       else
 54       G4double a = y1 - b * G4Log(x1);         <<  53       {
 55       result = (a - b) * (x2 - x1) + b * (x2 * <<  54         G4double b = (y2-y1)/(G4Log(x2)-G4Log(x1));
                                                   >>  55         G4double a = y1 - b*G4Log(x1);
                                                   >>  56         result = (a-b)*(x2-x1) + b*(x2*G4Log(x2)-x1*G4Log(x1));
                                                   >>  57       }
 56     }                                              58     }
 57   }                                            <<  59     else if(aScheme==LOGLIN||aScheme==CLOGLIN||aScheme==ULOGLIN)
 58   else if (aScheme == LOGLIN || aScheme == CLO <<  60     {
 59     if (y1 == 0 || y2 == 0) {                  <<  61       if ( y1==0||y2==0 ) { 
 60       result = 0;                              <<  62          result =0;
 61     }                                          <<  63       } else {
 62     else {                                     <<  64         // G4double b = (std::log(y2)-std::log(y1))/(x2-x1);
 63       // G4double b = (std::log(y2)-std::log(y <<  65         // G4double a = std::log(y1) - b*x1;
 64       // G4double a = std::log(y1) - b*x1;     <<  66         //***************************************************************
 65       //************************************** <<  67         //EMendoza:
 66       // EMendoza:                             <<  68         //result = (std::exp(a)/b)*(std::exp(b*x2)-std::exp(b*x1));
 67       // result = (std::exp(a)/b)*(std::exp(b* <<  69         //***************************************************************
 68       //************************************** <<  70         if ( y1!=y2 ) {
 69       if (y1 != y2) {                          <<  71            result = (x2-x1)*(y2-y1)/G4Log(y2/y1);
 70         result = (x2 - x1) * (y2 - y1) / G4Log <<  72         } else { 
                                                   >>  73           result = y2*(x2-x1);
                                                   >>  74         }
                                                   >>  75         //***************************************************************
 71       }                                            76       }
 72       else {                                   <<  77     }
 73         result = y2 * (x2 - x1);               <<  78     else if(aScheme==LOGLOG||aScheme==CLOGLOG||aScheme==ULOGLOG)
                                                   >>  79     {
                                                   >>  80       if(x1==0) result = y1;
                                                   >>  81       else if(x2==0) result = y2;
                                                   >>  82       else if(y1==0||y2==0) result =0;
                                                   >>  83       else
                                                   >>  84       {      
                                                   >>  85         G4double b = (G4Log(y2)-G4Log(y1))/(G4Log(x2)-G4Log(x1));
                                                   >>  86         G4double a = G4Log(y1) - b*G4Log(x1);;
                                                   >>  87         result = (G4Exp(a)/(b+1))*(G4Pow::GetInstance()->powA(x2,b+1)-G4Pow::GetInstance()->powA(x1,b+1));
 74       }                                            88       }
 75       //************************************** << 
 76     }                                              89     }
 77   }                                            <<  90     else
 78   else if (aScheme == LOGLOG || aScheme == CLO <<  91     {
 79     if (x1 == 0)                               <<  92       throw G4HadronicException(__FILE__, __LINE__, "Unknown interpolation scheme in G4ParticleHPVector::Integrate");
 80       result = y1;                             <<  93     }
 81     else if (x2 == 0)                          <<  94     return result;
 82       result = y2;                             <<  95   }
 83     else if (y1 == 0 || y2 == 0)               <<  96   G4double G4ParticleHPInterpolator::
 84       result = 0;                              <<  97   GetWeightedBinIntegral(const G4InterpolationScheme & aScheme, 
 85     else {                                     <<  98                          const G4double x1,const G4double x2,const G4double y1,const G4double y2)
 86       G4double b = (G4Log(y2) - G4Log(y1)) / ( <<  99   { // inline again later on @@@@
 87       G4double a = G4Log(y1) - b * G4Log(x1);  << 100     G4double result = 0;
 88       ;                                        << 101     if(aScheme==HISTO||aScheme==CHISTO||aScheme==UHISTO)
 89       result = (G4Exp(a) / (b + 1))            << 102     {
 90                * (G4Pow::GetInstance()->powA(x << 103       result = 0.5*y1*(x2*x2-x1*x1);
                                                   >> 104     }
                                                   >> 105     else if(aScheme==LINLIN||aScheme==CLINLIN||aScheme==ULINLIN)
                                                   >> 106     {
                                                   >> 107       //        G4double b = (y2-y1)/(x2-x1);
                                                   >> 108       //        G4double a = y1 - b*x1;
                                                   >> 109       //        result = 0.5*a*(x2*x2-x1*x1) + (b/3.)*(x2*x2*x2-x1*x1*x1);
                                                   >> 110       //  Factor out x2-x1 to avoid divide by zero
                                                   >> 111       
                                                   >> 112       result = (y1*x2 - y2*x1)*(x2 + x1)/2. + (y2-y1)*(x2*x2 + x2*x1 + x1*x1)/3.;
                                                   >> 113     }
                                                   >> 114     else if(aScheme==LINLOG||aScheme==CLINLOG||aScheme==ULINLOG)
                                                   >> 115     {
                                                   >> 116       if(x1==0) result = y1;
                                                   >> 117       else if(x2==0) result = y2;
                                                   >> 118       else
                                                   >> 119       {
                                                   >> 120         G4double b = (y2-y1)/(G4Log(x2)-G4Log(x1));
                                                   >> 121         G4double a = y1 - b*G4Log(x1);
                                                   >> 122         result = ( x2*x2/2. * (a-b/2.+b*G4Log(x2)) )
                                                   >> 123                 -( x1*x1/2. * (a-b/2.+b*G4Log(x1)) );
                                                   >> 124       }
 91     }                                             125     }
 92   }                                            << 126     else if(aScheme==LOGLIN||aScheme==CLOGLIN||aScheme==ULOGLIN)
 93   else {                                       << 127     {
 94     throw G4HadronicException(__FILE__, __LINE << 128       if(y1==0||y2==0) result = 0;
 95                               "Unknown interpo << 129       else
 96   }                                            << 130       {
 97   return result;                               << 131         G4double b = (G4Log(y2)-G4Log(y1))/(x2-x1);
 98 }                                              << 132         G4double a = G4Log(y1) - b*x1;
 99 G4double G4ParticleHPInterpolator::GetWeighted << 133         result = G4Exp(a)/(b*b)*( G4Exp(b*x2)*(b*x2-1.) - G4Exp(b*x1)*(b*x1-1.) );
100                                                << 134       }
101                                                << 
102 {  // inline again later on @@@@               << 
103   G4double result = 0;                         << 
104   if (aScheme == HISTO || aScheme == CHISTO || << 
105     result = 0.5 * y1 * (x2 * x2 - x1 * x1);   << 
106   }                                            << 
107   else if (aScheme == LINLIN || aScheme == CLI << 
108     //        G4double b = (y2-y1)/(x2-x1);    << 
109     //        G4double a = y1 - b*x1;          << 
110     //        result = 0.5*a*(x2*x2-x1*x1) + ( << 
111     //  Factor out x2-x1 to avoid divide by ze << 
112                                                << 
113     result = (y1 * x2 - y2 * x1) * (x2 + x1) / << 
114   }                                            << 
115   else if (aScheme == LINLOG || aScheme == CLI << 
116     if (x1 == 0)                               << 
117       result = y1;                             << 
118     else if (x2 == 0)                          << 
119       result = y2;                             << 
120     else {                                     << 
121       G4double b = (y2 - y1) / (G4Log(x2) - G4 << 
122       G4double a = y1 - b * G4Log(x1);         << 
123       result = (x2 * x2 / 2. * (a - b / 2. + b << 
124                - (x1 * x1 / 2. * (a - b / 2. + << 
125     }                                             135     }
126   }                                            << 136     else if(aScheme==LOGLOG||aScheme==CLOGLOG||aScheme==ULOGLOG)
127   else if (aScheme == LOGLIN || aScheme == CLO << 137     {
128     if (y1 == 0 || y2 == 0)                    << 138       if(x1==0) result = y1;
129       result = 0;                              << 139       else if(x2==0) result = y2;
130     else {                                     << 140       else if(y1==0||y2==0) result = 0;
131       G4double b = (G4Log(y2) - G4Log(y1)) / ( << 141       else
132       G4double a = G4Log(y1) - b * x1;         << 142       {
133       result = G4Exp(a) / (b * b) * (G4Exp(b * << 143         G4double b = (G4Log(y2)-G4Log(y1))/(G4Log(x2)-G4Log(x1));
                                                   >> 144         G4double a = G4Log(y1) - b*G4Log(x1);;
                                                   >> 145         result = G4Exp(a)/(b+2.)*( G4Pow::GetInstance()->powA(x2, b+2.) - G4Pow::GetInstance()->powA(x1, b+2) );
                                                   >> 146       }
134     }                                             147     }
135   }                                            << 148     else
136   else if (aScheme == LOGLOG || aScheme == CLO << 149     {
137     if (x1 == 0)                               << 150       throw G4HadronicException(__FILE__, __LINE__, "Unknown interpolation scheme in G4ParticleHPVector::Integrate");
138       result = y1;                             << 
139     else if (x2 == 0)                          << 
140       result = y2;                             << 
141     else if (y1 == 0 || y2 == 0)               << 
142       result = 0;                              << 
143     else {                                     << 
144       G4double b = (G4Log(y2) - G4Log(y1)) / ( << 
145       G4double a = G4Log(y1) - b * G4Log(x1);  << 
146       ;                                        << 
147       result = G4Exp(a) / (b + 2.)             << 
148                * (G4Pow::GetInstance()->powA(x << 
149     }                                             151     }
                                                   >> 152     return result;
150   }                                               153   }
151   else {                                       << 
152     throw G4HadronicException(__FILE__, __LINE << 
153                               "Unknown interpo << 
154   }                                            << 
155   return result;                               << 
156 }                                              << 
157                                                   154