G4FissionProductYieldDist.hh

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/*
 * File:   G4FissionProductYieldDist.hh
 * Author: B. Wendt (wendbryc@isu.edu)
 *
 * Created on May 11, 2011, 12:04 PM
 */
 
#ifndef G4FISSIONPRODUCTYIELDDIST_HH
#define G4FISSIONPRODUCTYIELDDIST_HH
 
#include "G4Ions.hh"
#include "G4Gamma.hh"
#include "G4IonTable.hh"
#include "G4ParticleHPNames.hh"
#include "globals.hh"
#include "G4DynamicParticle.hh"
#include "G4DynamicParticleVector.hh"
#include "G4ReactionProduct.hh"
 
#include "G4ENDFTapeRead.hh"
#include "G4ENDFYieldDataContainer.hh"
#include "G4FFGEnumerations.hh"
#include "G4FPYNubarValues.hh"
#include "G4FPYSamplingOps.hh"
#include "G4FPYTreeStructures.hh"
 
class G4FissionProductYieldDist
{
public:
// Constructor definition
    G4FissionProductYieldDist( G4int WhichIsotope,
                               G4FFGEnumerations::MetaState WhichMetaState,
                               G4FFGEnumerations::FissionCause WhichCause,
                               G4FFGEnumerations::YieldType WhichYieldType,
                               std::istringstream& dataStream);
    G4FissionProductYieldDist( G4int WhichIsotope,
                               G4FFGEnumerations::MetaState WhichMetaState,
                               G4FFGEnumerations::FissionCause WhichCause,
                               G4FFGEnumerations::YieldType WhichYieldType,
                               G4int Verbosity,
                               std::istringstream& dataStream);
private:
    void Initialize( std::istringstream& dataStream );
 
#ifdef G4MULTITHREADED
    static G4Mutex fissprodMutex;
#endif
 
public:
// Functions
    G4DynamicParticleVector* G4GetFission( void );
    G4Ions* G4GetFissionProduct( void );
    void G4SetAlphaProduction( G4double WhatAlphaProduction );
    void G4SetEnergy( G4double WhatIncidentEnergy );
    void G4SetTernaryProbability( G4double TernaryProbability );
    void G4SetVerbosity( G4int WhatVerbosity );
 
protected:
// Variables
    // Class descriptor variables
        const G4int Isotope_;
        const G4FFGEnumerations::MetaState MetaState_;
        const G4FFGEnumerations::FissionCause Cause_;
        const G4FFGEnumerations::YieldType YieldType_;
 
    // Datafile variables
        G4ENDFTapeRead* ENDFData_;
 
    // Fission generation variables
        G4Ions* AlphaDefinition_;
        G4double AlphaProduction_;
        G4double TernaryProbability_;
        G4Gamma* GammaDefinition_;
        G4double IncidentEnergy_;
        G4double MeanGammaEnergy_;
        G4Ions* NeutronDefinition_;
        G4double Nubar_;
        G4double NubarWidth_;
        G4int RemainingZ_;
        G4int RemainingA_;
        G4double RemainingEnergy_;
        G4int Verbosity_;
 
    // Pointers to the field of trees and relevant normalization data
        ProbabilityTree* Trees_;
        G4Ions* SmallestZ_;
        G4Ions* SmallestA_;
        G4Ions* LargestZ_;
        G4Ions* LargestA_;
        G4int YieldEnergyGroups_;
        G4double* YieldEnergies_;
        G4double* MaintainNormalizedData_;
        G4double* DataTotal_;
        G4int TreeCount_;
        G4int BranchCount_;
 
    // Pointers to runtime classes that G4FissionProductYieldDist needs to
    // function properly
        G4IonTable* IonTable_;
        G4ParticleHPNames* ElementNames_;
        G4FPYSamplingOps* RandomEngine_;
 
//Functions
    void CheckAlphaSanity( void );
    G4Ions* FindParticle( G4double RandomParticle );
    G4Ions* FindParticleExtrapolation( G4double RandomParticle,
                                       G4bool LowerEnergyGroupExists );
    G4Ions* FindParticleInterpolation( G4double RandomParticle,
                                       G4int LowerEnergyGroup );
    G4Ions* FindParticleBranchSearch( ProbabilityBranch* Branch,
                                      G4double RandomParticle,
                                      G4int EnergyGroup1,
                                      G4int EnergyGroup2 );
    virtual void GenerateAlphas( std::vector< G4ReactionProduct* >* Alphas );
    virtual void GenerateNeutrons( std::vector< G4ReactionProduct* >* Neutrons );
    virtual G4Ions* GetFissionProduct( void ) = 0;
    G4Ions* GetParticleDefinition( G4int Product,
                                   G4FFGEnumerations::MetaState MetaState );
    G4String MakeDirectoryName( void );
    G4String MakeFileName( G4int Isotope,
                           G4FFGEnumerations::MetaState MetaState );
    G4DynamicParticle* MakeG4DynamicParticle( G4ReactionProduct* );
    G4String MakeIsotopeName( G4int Isotope,
                              G4FFGEnumerations::MetaState MetaState );
    virtual void MakeTrees( void );
    virtual void ReadProbabilities( void );
    void Renormalize( ProbabilityBranch* Branch );
    void SampleAlphaEnergies( std::vector< G4ReactionProduct* >* Alphas );
    void SampleGammaEnergies( std::vector< G4ReactionProduct* >* Gammas );
    void SampleNeutronEnergies( std::vector< G4ReactionProduct* >* Neutrons );
    void SetNubar( void );
    virtual void SortProbability( G4ENDFYieldDataContainer* YieldData );
 
// Destructor function(s)
public:
    virtual ~G4FissionProductYieldDist( void );
protected:
    void BurnTree( ProbabilityBranch* Branch );
};
 
#endif  /* G4FISSIONPRODUCTYIELDDIST_HH */