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Geant4/processes/electromagnetic/muons/src/G4ErrorEnergyLoss.cc

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Differences between /processes/electromagnetic/muons/src/G4ErrorEnergyLoss.cc (Version 11.3.0) and /processes/electromagnetic/muons/src/G4ErrorEnergyLoss.cc (Version 10.7.p4)


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 26                                                    26 
 27 #include "G4ErrorEnergyLoss.hh"                    27 #include "G4ErrorEnergyLoss.hh"
 28 #include "G4EnergyLossForExtrapolator.hh"      << 
 29 #include "G4ErrorPropagatorData.hh"                28 #include "G4ErrorPropagatorData.hh"
                                                   >>  29 #include "G4EnergyLossForExtrapolator.hh"
 30                                                    30 
 31 //--------------------------------------------     31 //-------------------------------------------------------------------
 32 G4ErrorEnergyLoss::G4ErrorEnergyLoss(const G4S     32 G4ErrorEnergyLoss::G4ErrorEnergyLoss(const G4String& processName, 
 33              G4ProcessType type)                   33              G4ProcessType type)
 34   : G4VContinuousProcess(processName, type)    <<  34            : G4VContinuousProcess(processName, type)
 35 {                                                  35 {
 36   if (verboseLevel>2) {                            36   if (verboseLevel>2) {
 37     G4cout << GetProcessName() << " is created     37     G4cout << GetProcessName() << " is created " << G4endl;
 38   }                                                38   }
 39                                                    39 
 40   theELossForExtrapolator = new G4EnergyLossFo     40   theELossForExtrapolator = new G4EnergyLossForExtrapolator;
 41   theStepLimit = 1.*CLHEP::mm;                 <<  41 
                                                   >>  42   theStepLimit = 1.;
 42 }                                                  43 }
 43                                                    44 
 44 //--------------------------------------------     45 //-------------------------------------------------------------------
 45 void G4ErrorEnergyLoss::InstantiateEforExtrapo     46 void G4ErrorEnergyLoss::InstantiateEforExtrapolator()
 46 {}                                                 47 {}
 47                                                    48 
                                                   >>  49 
 48 //--------------------------------------------     50 //-------------------------------------------------------------------
 49 G4ErrorEnergyLoss::~G4ErrorEnergyLoss()            51 G4ErrorEnergyLoss::~G4ErrorEnergyLoss() 
 50 {                                                  52 {
 51   delete theELossForExtrapolator;                  53   delete theELossForExtrapolator;
 52 }                                                  54 }
 53                                                    55 
 54 //--------------------------------------------     56 //-------------------------------------------------------------------
 55                                                << 
 56 G4bool G4ErrorEnergyLoss::IsApplicable(const G << 
 57 {                                              << 
 58    return (aParticleType.GetPDGCharge() != 0); << 
 59 }                                              << 
 60                                                << 
 61 //-------------------------------------------- << 
 62 G4VParticleChange*                                 57 G4VParticleChange*
 63 G4ErrorEnergyLoss::AlongStepDoIt(const G4Track     58 G4ErrorEnergyLoss::AlongStepDoIt(const G4Track& aTrack, const G4Step& aStep)
 64 {                                                  59 {
 65   aParticleChange.Initialize(aTrack);              60   aParticleChange.Initialize(aTrack);
 66                                                    61 
 67   G4ErrorPropagatorData* g4edata = G4ErrorProp <<  62   G4ErrorPropagatorData* g4edata =  G4ErrorPropagatorData::GetErrorPropagatorData();
 68                                                    63 
 69   G4double kinEnergyStart = aTrack.GetKineticE     64   G4double kinEnergyStart = aTrack.GetKineticEnergy();
 70   G4double step_length  = aStep.GetStepLength(     65   G4double step_length  = aStep.GetStepLength();
 71                                                    66 
 72   const G4Material* aMaterial = aTrack.GetMate     67   const G4Material* aMaterial = aTrack.GetMaterial();
 73   const G4ParticleDefinition* aParticleDef = a     68   const G4ParticleDefinition* aParticleDef = aTrack.GetDynamicParticle()->GetDefinition();
 74   G4double kinEnergyEnd = kinEnergyStart;          69   G4double kinEnergyEnd = kinEnergyStart;
 75                                                    70 
 76   // backward - energy increased               << 
 77   if( g4edata->GetMode() == G4ErrorMode(G4Erro     71   if( g4edata->GetMode() == G4ErrorMode(G4ErrorMode_PropBackwards) ) {
 78     kinEnergyEnd = theELossForExtrapolator->En     72     kinEnergyEnd = theELossForExtrapolator->EnergyBeforeStep( kinEnergyStart, 
 79                     step_length,                   73                     step_length, 
 80                     aMaterial,                     74                     aMaterial, 
 81                     aParticleDef );                75                     aParticleDef );
 82     G4double kinEnergyHalfStep = (kinEnergySta <<  76     G4double kinEnergyHalfStep = kinEnergyStart - (kinEnergyStart-kinEnergyEnd)/2.;
 83                                                    77 
 84 #ifdef G4VERBOSE                                   78 #ifdef G4VERBOSE
 85   if(G4ErrorPropagatorData::verbose() >= 3 )       79   if(G4ErrorPropagatorData::verbose() >= 3 ) 
 86     G4cout << " G4ErrorEnergyLoss FWD  end " <     80     G4cout << " G4ErrorEnergyLoss FWD  end " << kinEnergyEnd 
 87      << " halfstep " << kinEnergyHalfStep << G     81      << " halfstep " << kinEnergyHalfStep << G4endl;
 88 #endif                                             82 #endif
 89                                                    83 
 90     //--- rescale to energy lost at 1/2 step       84     //--- rescale to energy lost at 1/2 step
 91     kinEnergyEnd = theELossForExtrapolator->En     85     kinEnergyEnd = theELossForExtrapolator->EnergyBeforeStep( kinEnergyHalfStep, 
 92                     step_length,                   86                     step_length, 
 93                     aMaterial,                     87                     aMaterial, 
 94                     aParticleDef );                88                     aParticleDef );
 95     kinEnergyEnd = kinEnergyStart - (kinEnergy     89     kinEnergyEnd = kinEnergyStart - (kinEnergyHalfStep - kinEnergyEnd );
 96                                                <<  90   }else if( g4edata->GetMode() == G4ErrorMode(G4ErrorMode_PropForwards) ) {
 97     // forward - energy decreased              << 
 98   } else {                                     << 
 99     kinEnergyEnd = theELossForExtrapolator->En     91     kinEnergyEnd = theELossForExtrapolator->EnergyAfterStep( kinEnergyStart, 
100                    step_length,                    92                    step_length, 
101                    aMaterial,                      93                    aMaterial, 
102                    aParticleDef );                 94                    aParticleDef );
103     G4double kinEnergyHalfStep = (kinEnergySta <<  95     G4double kinEnergyHalfStep = kinEnergyStart - (kinEnergyStart-kinEnergyEnd)/2.;
104 #ifdef G4VERBOSE                                   96 #ifdef G4VERBOSE
105   if(G4ErrorPropagatorData::verbose() >= 3 )       97   if(G4ErrorPropagatorData::verbose() >= 3 ) 
106     G4cout << " G4ErrorEnergyLoss BCKD  end "      98     G4cout << " G4ErrorEnergyLoss BCKD  end " << kinEnergyEnd 
107      << " halfstep " << kinEnergyHalfStep << G     99      << " halfstep " << kinEnergyHalfStep << G4endl;
108 #endif                                            100 #endif
109                                                   101 
110     //--- rescale to energy lost at 1/2 step      102     //--- rescale to energy lost at 1/2 step
111     kinEnergyEnd = theELossForExtrapolator->En    103     kinEnergyEnd = theELossForExtrapolator->EnergyAfterStep( kinEnergyHalfStep, 
112                    step_length,                   104                    step_length, 
113                    aMaterial,                     105                    aMaterial, 
114                    aParticleDef );                106                    aParticleDef );
115     kinEnergyEnd = kinEnergyStart - (kinEnergy    107     kinEnergyEnd = kinEnergyStart - (kinEnergyHalfStep - kinEnergyEnd );
116   }                                               108   }
117                                                   109 
118   G4double edepo = kinEnergyEnd - kinEnergySta    110   G4double edepo = kinEnergyEnd - kinEnergyStart;
119                                                   111 
120 #ifdef G4VERBOSE                                  112 #ifdef G4VERBOSE
121   if( G4ErrorPropagatorData::verbose() >= 2 )     113   if( G4ErrorPropagatorData::verbose() >= 2 ) 
122     G4cout << "AlongStepDoIt Estart= " << kinE    114     G4cout << "AlongStepDoIt Estart= " << kinEnergyStart << " Eend " << kinEnergyEnd 
123      << " Ediff " << kinEnergyStart-kinEnergyE    115      << " Ediff " << kinEnergyStart-kinEnergyEnd << " step= " << step_length 
124      << " mate= " << aMaterial->GetName()         116      << " mate= " << aMaterial->GetName() 
125      << " particle= " << aParticleDef->GetPart    117      << " particle= " << aParticleDef->GetParticleName() << G4endl;
126 #endif                                            118 #endif
127                                                   119 
128   aParticleChange.ClearDebugFlag();               120   aParticleChange.ClearDebugFlag();
129   aParticleChange.ProposeLocalEnergyDeposit( e    121   aParticleChange.ProposeLocalEnergyDeposit( edepo );
130   aParticleChange.SetNumberOfSecondaries(0);      122   aParticleChange.SetNumberOfSecondaries(0);
131                                                   123  
132   aParticleChange.ProposeEnergy( kinEnergyEnd     124   aParticleChange.ProposeEnergy( kinEnergyEnd );
133                                                   125   
134   return &aParticleChange;                        126   return &aParticleChange;
135 }                                                 127 }
136                                                   128 
137                                                   129 
138 //--------------------------------------------    130 //-------------------------------------------------------------------
139 G4double G4ErrorEnergyLoss::GetContinuousStepL    131 G4double G4ErrorEnergyLoss::GetContinuousStepLimit(const G4Track& aTrack,
140             G4double, G4double, G4double& )    << 132             G4double ,
141 {                                              << 133             G4double currentMinimumStep,
142   G4double ekin = aTrack.GetKineticEnergy();   << 134                                     G4double& )
143   const G4Material* mat = aTrack.GetMaterial() << 135 {
144   const G4ParticleDefinition* part =           << 136   G4double Step = DBL_MAX;
145     aTrack.GetDynamicParticle()->GetDefinition << 137   if( theStepLimit != 1. ) { 
146   G4double range = theELossForExtrapolator->Co << 138     G4double kinEnergyStart = aTrack.GetKineticEnergy();
147   G4double delta = std::max(range*theFractionL << 139     G4double kinEnergyLoss = kinEnergyStart;
                                                   >> 140     const G4Material* aMaterial = aTrack.GetMaterial();
                                                   >> 141     const G4ParticleDefinition* aParticleDef = aTrack.GetDynamicParticle()->GetDefinition();
                                                   >> 142     G4ErrorPropagatorData* g4edata =  G4ErrorPropagatorData::GetErrorPropagatorData();
                                                   >> 143     if( g4edata->GetMode() == G4ErrorMode(G4ErrorMode_PropBackwards) ) {
                                                   >> 144       kinEnergyLoss = - kinEnergyStart + 
                                                   >> 145   theELossForExtrapolator->EnergyBeforeStep( kinEnergyStart, currentMinimumStep, 
                                                   >> 146                aMaterial, aParticleDef );
                                                   >> 147     }else if( g4edata->GetMode() == G4ErrorMode(G4ErrorMode_PropForwards) ) {
                                                   >> 148       kinEnergyLoss = kinEnergyStart - 
                                                   >> 149   theELossForExtrapolator->EnergyAfterStep( kinEnergyStart, currentMinimumStep, 
                                                   >> 150               aMaterial, aParticleDef );
                                                   >> 151     }
148 #ifdef G4VERBOSE                                  152 #ifdef G4VERBOSE
149   if(G4ErrorPropagatorData::verbose() >= 2 ) { << 153   if(G4ErrorPropagatorData::verbose() >= 3 ) 
150     G4cout << " G4ErrorEnergyLoss: limiting St << 154     G4cout << " G4ErrorEnergyLoss: currentMinimumStep " <<currentMinimumStep 
151      << " energy(GeV) " << ekin / CLHEP::GeV   << 155      << "  kinEnergyLoss " << kinEnergyLoss 
152      << " for " << part->GetParticleName() <<  << 156      << " kinEnergyStart " << kinEnergyStart << G4endl;
153   }                                            << 
154 #endif                                            157 #endif
155   return delta;                                << 158     if( kinEnergyLoss / kinEnergyStart > theStepLimit ) {
                                                   >> 159       Step = theStepLimit / (kinEnergyLoss / kinEnergyStart)  * currentMinimumStep;
                                                   >> 160 #ifdef G4VERBOSE
                                                   >> 161   if(G4ErrorPropagatorData::verbose() >= 2 ) 
                                                   >> 162     G4cout << " G4ErrorEnergyLoss: limiting Step " << Step 
                                                   >> 163      << " energy loss fraction " << kinEnergyLoss / kinEnergyStart 
                                                   >> 164      << " > " << theStepLimit << G4endl;
                                                   >> 165 #endif
                                                   >> 166     }
                                                   >> 167   }
                                                   >> 168   
                                                   >> 169   return Step;
                                                   >> 170 
156 }                                                 171 }
157                                                   172