source: trunk/examples/extended/electromagnetic/TestEm13/src/RunAction.cc

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// $Id: RunAction.cc,v 1.8 2010/04/05 13:45:17 maire Exp $
// GEANT4 tag $Name: geant4-09-04-beta-01 $
// 
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#include "RunAction.hh"

#include "DetectorConstruction.hh"
#include "PrimaryGeneratorAction.hh"

#include "G4Run.hh"
#include "G4RunManager.hh"
#include "G4UnitsTable.hh"
#include "G4EmCalculator.hh"
#include "G4Gamma.hh"

#include "Randomize.hh"
#include <iomanip>

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RunAction::RunAction(DetectorConstruction* det, PrimaryGeneratorAction* prim)
  : detector(det), primary(prim)
{ }

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RunAction::~RunAction()
{ }

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void RunAction::BeginOfRunAction(const G4Run* aRun)
{  
  G4cout << "### Run " << aRun->GetRunID() << " start." << G4endl;
  
  // save Rndm status
  G4RunManager::GetRunManager()->SetRandomNumberStore(false);
  CLHEP::HepRandom::showEngineStatus();
}

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void RunAction::EndOfRunAction(const G4Run* aRun)
{
  G4int NbOfEvents = aRun->GetNumberOfEvent();
  if (NbOfEvents == 0) return;
  
  G4int  prec = G4cout.precision(5);
    
  G4Material* material = detector->GetMaterial();
  G4double density  = material->GetDensity();
  G4double tickness = detector->GetSize();
   
  G4ParticleDefinition* particle = 
                            primary->GetParticleGun()->GetParticleDefinition();
  G4String Particle = particle->GetParticleName();    
  G4double energy = primary->GetParticleGun()->GetParticleEnergy();
  G4cout << "\n The run consists of " << NbOfEvents << " "<< Particle << " of "
         << G4BestUnit(energy,"Energy") << " through " 
         << G4BestUnit(tickness,"Length") << " of "
         << material->GetName() << " (density: " 
         << G4BestUnit(density,"Volumic Mass") << ")" << G4endl;
  
  //frequency of processes
  G4int totalCount = 0;
  G4int survive = 0;  
  G4cout << "\n Process calls frequency --->";
  std::map<G4String,G4int>::iterator it;  
  for (it = procCounter.begin(); it != procCounter.end(); it++) {
     G4String procName = it->first;
     G4int    count    = it->second;
     totalCount += count; 
     G4cout << "\t" << procName << " = " << count;
     if (procName == "Transportation") survive = count;
  }  
  G4cout << G4endl;
  if (totalCount == 0) return;
  
  G4double ratio = double(survive)/totalCount;
  
  G4cout << "\n Nb of incident particles unaltered after "
         << G4BestUnit(tickness,"Length") << " of "
         << material->GetName() << " : " << survive 
         << " over " << totalCount << " incident particles."
         << "  Ratio = " << 100*ratio << " %" << G4endl;
  
  if (ratio == 0.) return;
  
  //compute cross section and related quantities
  //
  G4double CrossSection = - std::log(ratio)/tickness;     
  G4double massicCS  = CrossSection/density;
   
  G4cout << " ---> CrossSection per volume:\t" << CrossSection*cm << " cm^-1 "
         << "\tCrossSection per mass: " << G4BestUnit(massicCS, "Surface/Mass")
         << G4endl;

  //check cross section from G4EmCalculator
  //
  G4cout << "\n Verification from G4EmCalculator: \n"; 
  G4EmCalculator emCalculator;
  G4double sumc = 0.0;  
  for (it = procCounter.begin(); it != procCounter.end(); it++) {
    G4String procName = it->first;  
    G4double massSigma = 
    emCalculator.GetCrossSectionPerVolume(energy,particle,
                                              procName,material)/density;
    if (particle == G4Gamma::Gamma())
       massSigma = 
       emCalculator.ComputeCrossSectionPerVolume(energy,particle,
                                              procName,material)/density;
    sumc += massSigma;
    if (procName != "Transportation")
      G4cout << "\t" << procName << "= " 
             << G4BestUnit(massSigma, "Surface/Mass");
  }        
  G4cout << "\ttotal= " 
         << G4BestUnit(sumc, "Surface/Mass") << G4endl;
         
  //expected ratio of transmitted particles
  G4double Ratio = std::exp(-sumc*density*tickness);
  G4cout << "\tExpected ratio of transmitted particles= " 
         << 100*Ratio << " %" << G4endl;         
                 
  //restore default format       
  G4cout.precision(prec);         

  // remove all contents in procCounter 
  procCounter.clear();

  // show Rndm status
  CLHEP::HepRandom::showEngineStatus();
}

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