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Geant4/processes/hadronic/management/src/G4EnergyRangeManager.cc

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Diff markup

Differences between /processes/hadronic/management/src/G4EnergyRangeManager.cc (Version 11.3.0) and /processes/hadronic/management/src/G4EnergyRangeManager.cc (Version 9.6)


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 25 //                                                 25 //
 26 //                                                 26 //
                                                   >>  27 // $Id$
                                                   >>  28 //
 27  // Hadronic Process: Energy Range Manager         29  // Hadronic Process: Energy Range Manager
 28  // original by H.P. Wellisch                      30  // original by H.P. Wellisch
 29  // modified by J.L. Chuma, TRIUMF, 22-Nov-199     31  // modified by J.L. Chuma, TRIUMF, 22-Nov-1996
 30  // Last modified: 24-Mar-1997                     32  // Last modified: 24-Mar-1997
 31  // fix in the counter-hndling: H.P. Wellisch      33  // fix in the counter-hndling: H.P. Wellisch 04-Apr-97
 32  // throw an exception if no model found:  J.L     34  // throw an exception if no model found:  J.L. Chuma  04-Apr-97
 33                                                    35  
 34 #include "G4EnergyRangeManager.hh"                 36 #include "G4EnergyRangeManager.hh"
 35 #include "Randomize.hh"                            37 #include "Randomize.hh"
 36 #include "G4HadronicException.hh"                  38 #include "G4HadronicException.hh"
 37 #include "G4SystemOfUnits.hh"                  <<  39 
 38                                                    40 
 39 G4EnergyRangeManager::G4EnergyRangeManager()       41 G4EnergyRangeManager::G4EnergyRangeManager()
 40  : theHadronicInteractionCounter(0)                42  : theHadronicInteractionCounter(0)
 41 {}                                             <<  43 {
                                                   >>  44   for (G4int i = 0; i < G4EnergyRangeManager::MAX_NUMBER_OF_MODELS; i++)
                                                   >>  45     theHadronicInteraction[i] = 0;
                                                   >>  46 }
 42                                                    47 
 43 G4EnergyRangeManager::~G4EnergyRangeManager()  << 
 44 {}                                             << 
 45                                                    48 
 46 void G4EnergyRangeManager::RegisterMe(G4Hadron <<  49 G4EnergyRangeManager::G4EnergyRangeManager(const G4EnergyRangeManager& right)
 47 {                                                  50 {
 48   if(!a) { return; }                           <<  51   if (this != &right) {
 49   if(0 < theHadronicInteractionCounter) {      <<  52     for (G4int i=0; i<theHadronicInteractionCounter; ++i)
 50     for(G4int i=0; i<theHadronicInteractionCou <<  53       theHadronicInteraction[i] = right.theHadronicInteraction[i];
 51       if(a == theHadronicInteraction[i]) { ret <<  54     theHadronicInteractionCounter = right.theHadronicInteractionCounter;
 52     }                                          << 
 53   }                                                55   }
 54   theHadronicInteraction.push_back(a);         << 
 55   ++theHadronicInteractionCounter;             << 
 56 }                                                  56 }
                                                   >>  57  
 57                                                    58 
 58 G4HadronicInteraction*                         <<  59 G4EnergyRangeManager&G4EnergyRangeManager::operator=(
 59 G4EnergyRangeManager::GetHadronicInteraction(c <<  60    const G4EnergyRangeManager &right )
 60                                              G << 
 61                                              c << 
 62                                              c << 
 63 {                                                  61 {
 64   // VI shortcut: if only one interaction is r <<  62   if (this != &right) {
 65   if(1 == theHadronicInteractionCounter) { ret <<  63     for (G4int i=0; i<theHadronicInteractionCounter; ++i)
 66   else if(0 == theHadronicInteractionCounter)  <<  64       theHadronicInteraction[i] = right.theHadronicInteraction[i];
 67     G4cout << "G4EnergyRangeManager::GetHadron <<  65     theHadronicInteractionCounter = right.theHadronicInteractionCounter;
 68      << "no models defined for a process" << G << 
 69     return nullptr;                            << 
 70   }                                                66   }
                                                   >>  67   return *this;
                                                   >>  68 }
 71                                                    69 
 72   G4double kineticEnergy = aHadProjectile.GetK << 
 73   // For ions, get kinetic energy per nucleon  << 
 74   if ( std::abs( aHadProjectile.GetDefinition( << 
 75     kineticEnergy /= static_cast< G4double >(  << 
 76   }                                            << 
 77                                                    70 
 78   G4int cou = 0, memory = 0, memor2 = 0;       <<  71 void G4EnergyRangeManager::RegisterMe(G4HadronicInteraction* a)
 79   G4double emi1 = 0.0, ema1 = 0.0, emi2 = 0.0, <<  72 {
                                                   >>  73     if( theHadronicInteractionCounter+1 > MAX_NUMBER_OF_MODELS )
                                                   >>  74     {
                                                   >>  75       throw G4HadronicException(__FILE__, __LINE__,"RegisterMe: TOO MANY MODELS");
                                                   >>  76     }
                                                   >>  77     theHadronicInteraction[ theHadronicInteractionCounter++ ] = a;
                                                   >>  78 }
 80                                                    79 
 81   for (G4int i = 0; i<theHadronicInteractionCo <<  80  
 82     if ( theHadronicInteraction[i]->IsApplicab <<  81 G4HadronicInteraction*
                                                   >>  82   G4EnergyRangeManager::GetHadronicInteraction(
                                                   >>  83    const G4double kineticEnergy,
                                                   >>  84    const G4Material *aMaterial,
                                                   >>  85    const G4Element *anElement ) const
                                                   >>  86   {
                                                   >>  87     G4int counter = GetHadronicInteractionCounter();
                                                   >>  88     if( counter == 0 )
                                                   >>  89       throw G4HadronicException(__FILE__, __LINE__,
                                                   >>  90                                "GetHadronicInteraction: NO MODELS STORED");
                                                   >>  91 
                                                   >>  92     G4int cou = 0, memory = 0, memor2 = 0;
                                                   >>  93     G4double emi1 = 0.0, ema1 = 0.0, emi2 = 0.0, ema2 = 0.0;
                                                   >>  94     for( G4int i=0; i<counter; i++ )
                                                   >>  95     {
 83       G4double low  = theHadronicInteraction[i     96       G4double low  = theHadronicInteraction[i]->GetMinEnergy( aMaterial, anElement );
                                                   >>  97       // Work-around for particles with 0 kinetic energy, which still
                                                   >>  98       // require a model to return a ParticleChange
                                                   >>  99       if (low == 0.) low = -DBL_MIN;
 84       G4double high = theHadronicInteraction[i    100       G4double high = theHadronicInteraction[i]->GetMaxEnergy( aMaterial, anElement );
 85       if (low <= kineticEnergy && high >= kine << 101       if( low < kineticEnergy && high >= kineticEnergy )
                                                   >> 102       {
 86         ++cou;                                    103         ++cou;
 87         emi2 = emi1;                              104         emi2 = emi1;
 88         ema2 = ema1;                              105         ema2 = ema1;
 89         emi1 = low;                               106         emi1 = low;
 90         ema1 = high;                              107         ema1 = high;
 91         memor2 = memory;                          108         memor2 = memory;
 92         memory = i;                               109         memory = i;
 93       }                                           110       }
 94     }                                             111     }
 95   }                                            << 112     G4int mem=-1;
 96                                                << 113     G4double rand;
 97   G4HadronicInteraction* hi = nullptr;         << 114     switch ( cou )
 98   switch (cou) {                               << 115     {
 99     case 0:                                    << 116      case 0:
100       G4cout << "No model found out of " << th << 117        G4cout<<"G4EnergyRangeManager:GetHadronicInteraction: counter="<<counter<<", Ek="
101       for( G4int j=0; j<theHadronicInteraction << 118              <<kineticEnergy<<", Material = "<<aMaterial->GetName()<<", Element = "
102   G4HadronicInteraction* hint=theHadronicInter << 119              <<anElement->GetName()<<G4endl;
103   G4cout << "   "<< j << ".  Elow= " << hint-> << 120        for( G4int j=0; j<counter; j++ )
104          <<", Ehigh= " << hint->GetMaxEnergy(a << 121        {
105          <<"   " << hint->GetModelName() << G4 << 122          G4HadronicInteraction* HInt=theHadronicInteraction[j];
106       }                                        << 123          G4cout<<"*"<<j<<"* low=" <<HInt->GetMinEnergy(aMaterial,anElement)
107       break;                                   << 124                <<", high="<<HInt->GetMaxEnergy(aMaterial,anElement)<<G4endl;
108                                                << 125        }
109     case 1:                                    << 126        throw G4HadronicException(__FILE__, __LINE__,
110       hi = theHadronicInteraction[memory];     << 127           "GetHadronicInteraction: No Model found");
111       break;                                   << 128        return 0;
112                                                << 129      case 1:
113     case 2:                                    << 130        mem = memory;
114       if( (emi2<=emi1 && ema2>=ema1) || (emi2> << 131        break;
115   G4cout << "Energy ranges of two models fully << 132      case 2:
116   for( G4int j=0; j<theHadronicInteractionCoun << 133        if( (emi2<=emi1 && ema2>=ema1) || (emi2>=emi1 && ema2<=ema1) )
117     G4HadronicInteraction* hint=theHadronicInt << 134        {
118     G4cout << "   "<< j << ".  Elow= " << hint << 135          G4cout<<"G4EnergyRangeManager:GetHadronicInteraction: counter="<<counter<<", Ek="
119      <<", Ehigh= " << hint->GetMaxEnergy(aMate << 136                <<kineticEnergy<<", Material = "<<aMaterial->GetName()<<", Element = "
120      <<"   " << hint->GetModelName() << G4endl << 137                <<anElement->GetName()<<G4endl;
121   }                                            << 138          if(counter) for( G4int j=0; j<counter; j++ )
122       } else {                                 << 139          {
123   G4double rand = G4UniformRand();             << 140            G4HadronicInteraction* HInt=theHadronicInteraction[j];
124   G4int mem;                                   << 141            G4cout<<"*"<<j<<"* low=" <<HInt->GetMinEnergy(aMaterial,anElement)
125   if( emi1 < emi2 ) {                          << 142                <<", high="<<HInt->GetMaxEnergy(aMaterial,anElement)<<G4endl;
126     if( (ema1-kineticEnergy) < rand*(ema1-emi2 << 143          }
127       mem = memor2;                            << 144          throw G4HadronicException(__FILE__, __LINE__,
128     } else {                                   << 145                "GetHadronicInteraction: Energy ranges of two models fully overlapping");
129       mem = memory;                            << 146        }
130     }                                          << 147        rand = G4UniformRand();
131   } else {                                     << 148        if( emi1 < emi2 )
132     if( (ema2-kineticEnergy) < rand*(ema2-emi1 << 149        {
133       mem = memory;                            << 150          if( (ema1-kineticEnergy)/(ema1-emi2)<rand )
134     } else {                                   << 151            mem = memor2;
135       mem = memor2;                            << 152          else
136     }                                          << 153            mem = memory;
137   }                                            << 154        } else {
138   hi = theHadronicInteraction[mem];            << 155          if( (ema2-kineticEnergy)/(ema2-emi1)<rand )
139       }                                        << 156            mem = memory;
140       break;                                   << 157          else
141                                                << 158            mem = memor2;
142     default:                                   << 159        }
143       G4cout << "More than two competing model << 160        break;
144       for( G4int j=0; j<theHadronicInteraction << 161      default:
145   G4HadronicInteraction* hint=theHadronicInter << 162       throw G4HadronicException(__FILE__, __LINE__,
146   G4cout << "   "<< j << ".  Elow= " << hint-> << 163         "GetHadronicInteraction: More than two competing models in this energy range");
147          <<", Ehigh= " << hint->GetMaxEnergy(a << 
148          <<"   " << hint->GetModelName() << G4 << 
149       }                                        << 
150       break;                                   << 
151   }                                            << 
152   return hi;                                   << 
153 }                                              << 
154                                                << 
155 std::vector<G4HadronicInteraction*>&           << 
156 G4EnergyRangeManager::GetHadronicInteractionLi << 
157 {                                              << 
158   return theHadronicInteraction;               << 
159 }                                              << 
160                                                << 
161 void G4EnergyRangeManager::Dump( G4int verbose << 
162 {                                              << 
163   G4cout << "G4EnergyRangeManager " << this << << 
164   for (G4int i = 0 ; i < theHadronicInteractio << 
165     G4cout << "   HadronicModel " << i <<":"   << 
166            << theHadronicInteraction[i]->GetMo << 
167     if (verbose > 0) {                         << 
168       G4cout << "      Minimum Energy "        << 
169        << theHadronicInteraction[i]->GetMinEne << 
170              << "Maximum Energy "              << 
171        << theHadronicInteraction[i]->GetMaxEne << 
172              << G4endl;                        << 
173     }                                             164     }
174   }                                            << 165     return theHadronicInteraction[mem];
175 }                                              << 166   } 
176                                                << 167  
177 void                                           << 168  /* end of file */
178 G4EnergyRangeManager::BuildPhysicsTable(const  << 
179 {                                              << 
180   for (auto & hadi : theHadronicInteraction) { << 
181     hadi->BuildPhysicsTable( aParticleType );  << 
182   }                                            << 
183 }                                              << 
184                                                << 
185                                                   169  
186                                                   170