Run.hh

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// $Id: Run.hh 71375 2013-06-14 07:39:33Z maire $
//
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#ifndef Run_h
#define Run_h 1

#include "DetectorConstruction.hh"

#include "G4Run.hh"
#include "globals.hh"
#include <map>

class DetectorConstruction;
class G4ParticleDefinition;
class G4Track;

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class Run : public G4Run
{
  public:
    Run(DetectorConstruction*);
   ~Run();

  public:
    void SetPrimary(G4ParticleDefinition* particle, G4double energy);
      
    void FillPerEvent(G4int,G4double,G4double);
    
    void SumEnergyFlow (G4int plane, G4double Eflow);
    void SumLateralEleak(G4int cell, G4double Eflow);
    void AddChargedStep();
    void AddNeutralStep();
    void AddSecondaryTrack(const G4Track*);
    
    void SetEdepAndRMS(G4int, G4double, G4double, G4double);
    void SetApplyLimit(G4bool);
                
    virtual void Merge(const G4Run*);
    void EndOfRun();
     
  private:
    DetectorConstruction*  fDetector;
    G4ParticleDefinition*  fParticle;
    G4double  fEkin;
                           
    G4double fSumEAbs [MaxAbsor], fSum2EAbs [MaxAbsor]; 
    G4double fSumLAbs [MaxAbsor], fSum2LAbs [MaxAbsor];
    
    std::vector<G4double> fEnergyFlow;
    std::vector<G4double> fLateralEleak;
    std::vector<G4double> fEnergyDeposit[MaxAbsor];
    
    G4double fChargedStep;
    G4double fNeutralStep;

    G4int  fN_gamma;
    G4int  fN_elec;
    G4int  fN_pos;
    
    G4double fEdeptrue [MaxAbsor];
    G4double fRmstrue  [MaxAbsor];
    G4double fLimittrue[MaxAbsor];        
    G4bool fApplyLimit;  
};

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#endif