RE06RunAction.cc

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// $Id: RE06RunAction.cc 77498 2013-11-25 10:26:36Z gcosmo $
//

#include "RE06RunAction.hh"
#include "RE06Run.hh"

#include "G4RegionStore.hh"
#include "G4Region.hh"
#include "G4ProductionCuts.hh"
#include "G4ios.hh"
#include "G4UnitsTable.hh"

#include "G4VSteppingVerbose.hh"
#include "RE06SteppingVerbose.hh"

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RE06RunAction::RE06RunAction()
 : G4UserRunAction()
{;}

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RE06RunAction::~RE06RunAction()
{;}

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G4Run* RE06RunAction::GenerateRun()
{ return new RE06Run; }

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void RE06RunAction::BeginOfRunAction(const G4Run*)
{
  RE06SteppingVerbose* sv 
    = (RE06SteppingVerbose*)(G4VSteppingVerbose::GetInstance());
  
  sv->InitializeTimers();
  
}

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void RE06RunAction::EndOfRunAction(const G4Run* aRun)
{
  static G4String regName[3] = {"Calor-A","Calor-B","Calor-C"};
  
  const RE06Run* theRun = (const RE06Run*)aRun;
  
  if(IsMaster()) {
    
    G4cout
    << "############################################################" << G4endl;
    G4cout
    << " Run Summary - Number of events : " << theRun->GetNumberOfEvent()
    << G4endl;
    G4cout
    << "############################################################" << G4endl;
    
    G4double nEvt = (G4double)(theRun->GetNumberOfEvent());
    for(size_t i=0;i<3;i++)
    {
      size_t ih1 = 2*i;
      size_t ih2 = 2*i+1;
      
      G4Region* region = G4RegionStore::GetInstance()->GetRegion(regName[i]);
      G4ProductionCuts* cuts = region->GetProductionCuts();
      G4cout << "Region : " << region->GetName() << G4endl;
      G4cout << " Production thresholds :" << G4endl << "   "
      << " gamma " << G4BestUnit(cuts->GetProductionCut("gamma"),"Length")
      << "    e- " << G4BestUnit(cuts->GetProductionCut("e-"),"Length")
      << "    e+ " << G4BestUnit(cuts->GetProductionCut("e+"),"Length")
      << G4endl;
      G4cout << " Energy deposition in an event :" << G4endl << "   "
      << " Absorber " << G4BestUnit((theRun->GetTotalE(ih1))/nEvt,"Energy")
      << "      Gap " << G4BestUnit((theRun->GetTotalE(ih2))/nEvt,"Energy")
      << G4endl;
      G4cout << " Number of secondaries in an event :" << G4endl << "   "
      << " gamma in Absorber " << (theRun->GetNGamma(ih1))/nEvt
      << "    in Gap " << (theRun->GetNGamma(ih2))/nEvt << G4endl << "   "
      << " e-    in Absorber " << (theRun->GetNElectron(ih1))/nEvt
      << "    in Gap " << (theRun->GetNElectron(ih2))/nEvt << G4endl << "   "
      << " e+    in Absorber " << (theRun->GetNPositron(ih1))/nEvt
      << "    in Gap " << (theRun->GetNPositron(ih2))/nEvt << G4endl;
      G4cout << " Minimum kinetic energy of generated secondaries :" << G4endl
      << "   " << " gamma in Absorber "
      << G4BestUnit(theRun->GetEMinGamma(ih1),"Energy")
      << "    in Gap " << G4BestUnit(theRun->GetEMinGamma(ih2),"Energy")
      << G4endl << "   "
      << " e-    in Absorber "
      << G4BestUnit(theRun->GetEMinElectron(ih1),"Energy")
      << "    in Gap " << G4BestUnit(theRun->GetEMinElectron(ih2),"Energy")
      << G4endl << "   "
      << " e+    in Absorber "
      << G4BestUnit(theRun->GetEMinPositron(ih1),"Energy")
      << "    in Gap " << G4BestUnit(theRun->GetEMinPositron(ih2),"Energy")
      << G4endl;
      G4cout << " Total track length of e+/e- in an event :" << G4endl
      << "   "
      << " Absorber " << G4BestUnit((theRun->GetTotalL(ih1))/nEvt,"Length")
      << "      Gap " << G4BestUnit((theRun->GetTotalL(ih2))/nEvt,"Length")
      << G4endl;
      G4cout << " Total number of steps of e+/e- in an event :" << G4endl
      << "   "
      << " Absorber " << (theRun->GetNStep(ih1))/nEvt
      << "      Gap " << (theRun->GetNStep(ih2))/nEvt
      << G4endl;
      G4cout
      << "------------------------------------------------------------"
      << G4endl;
      G4cout << "Scores in parallel geometry" << G4endl;
      G4cout
      << "layer   eDep/evt  nGamma/evt nElec/evt  nPosi/evt  stpLen/evt nStep/evt"
      << G4endl;
      for(size_t k=0;k<20;k++)
      {
        G4cout << std::setw(8) << k;
        for(size_t j=0;j<6;j++) {
          G4cout << " " << std::setw(10) << (theRun->GetParaValue(i,j,k))/nEvt;
        }
        G4cout << G4endl;
      }
      G4cout
      << "############################################################"
      << G4endl;
    }
  } else {
  
    G4cout << "CPU Time spent by each region" << G4endl;
    RE06SteppingVerbose* sv
    = (RE06SteppingVerbose*)(G4VSteppingVerbose::GetInstance());
    sv->Report();
    
  }
}

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