de/d46/G4ParticleHPEnAngCorrelation_8hh_source.html

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// P. Arce, June-2014 Conversion neutron_hp to particle_hp

//

#ifndef G4ParticleHPEnAngCorrelation_h

#define G4ParticleHPEnAngCorrelation_h 1


#include <fstream>


#include "globals.hh"

#include "G4ParticleHPVector.hh"

#include "Randomize.hh"

#include "G4ios.hh"

#include "globals.hh"

#include "G4ParticleHPProduct.hh"

#include "G4ReactionProduct.hh"

#include "G4Cache.hh"

#include "G4ParticleHPManager.hh"


class G4ParticleDefinition;


class G4ParticleHPEnAngCorrelation

{

   struct toBeCached

   {

      G4ReactionProduct* theProjectileRP;

      G4ReactionProduct* theTarget;

      G4double theTotalMeanEnergy;

      toBeCached()

        : theProjectileRP(0), theTarget(0), theTotalMeanEnergy(-1.0) {}

   };


public:


  G4ParticleHPEnAngCorrelation() // for G4ParticleHPCaptureFS::theMF6FinalState

  {

    theProjectile = G4Neutron::Neutron();

    theProducts = 0;

    inCharge = false;

    toBeCached val;

    fCache.Put( val );

    //theTotalMeanEnergy = -1.;

    fCache.Get().theTotalMeanEnergy = -1.;

    targetMass = 0.0;

    frameFlag = 0;

    nProducts = 0;

    bAdjustFinalState = true;

  }


  G4ParticleHPEnAngCorrelation(G4ParticleDefinition* proj)

    : theProjectile(proj)

  {

    theProducts = 0;

    inCharge = false;

    toBeCached val;

    fCache.Put( val );

    //theTotalMeanEnergy = -1.;

    fCache.Get().theTotalMeanEnergy = -1.;

    targetMass = 0.0;

    frameFlag = 0;

    nProducts = 0;

    bAdjustFinalState = true;

  }


  ~G4ParticleHPEnAngCorrelation()

  {

    if(theProducts!=0) delete [] theProducts;

  }


  inline void Init(std::istream & aDataFile)

  {

    bAdjustFinalState = true;

    if ( G4ParticleHPManager::GetInstance()->GetDoNotAdjustFinalState() ) bAdjustFinalState = false;


// T.K. Comment out following line to keep the condition at the

// validation efforts comparing NeutronHP and PartileHP for neutrons (2015 Sep.)

//#ifdef PHP_AS_HP

//    bAdjustFinalState = false;

//#endif


    inCharge = true;

    aDataFile>>targetMass>>frameFlag>>nProducts;

    theProducts = new G4ParticleHPProduct[nProducts];

    for(G4int i=0; i<nProducts; i++)

    {

      theProducts[i].Init(aDataFile,theProjectile);

    }

  }


  G4ReactionProduct * SampleOne(G4double anEnergy);


  G4ReactionProductVector * Sample(G4double anEnergy);


  inline void SetTarget(G4ReactionProduct & aTarget)

  {

    fCache.Get().theTarget = &aTarget;

    for (G4int i=0;i<nProducts;i++)

      theProducts[i].SetTarget(fCache.Get().theTarget);

  }


  inline void SetProjectileRP(G4ReactionProduct & aIncidentPart)

  {

    fCache.Get().theProjectileRP = &aIncidentPart;

    for (G4int i=0;i<nProducts;i++)

      theProducts[i].SetProjectileRP(fCache.Get().theProjectileRP);

  }


  inline G4bool InCharge()

  {

    return inCharge;

  }


  inline G4double GetTargetMass()

  {

    return targetMass;

  }


  G4double GetTotalMeanEnergy()

  {

    return fCache.Get().theTotalMeanEnergy;  // cached in 'sample' call

  }


private:


  // data members


  G4double targetMass;

  G4int frameFlag; // =1: Target rest frame; =2: CMS system; incident in lab

  G4int nProducts;

  G4ParticleHPProduct * theProducts;

  G4bool inCharge;


  // cached values

  //

  G4Cache<toBeCached> fCache;


  G4ParticleDefinition* theProjectile;


  G4bool bAdjustFinalState;

};


#endif

G4Cache.hh

G4ParticleHPManager.hh

G4ParticleHPProduct.hh

G4ParticleHPVector.hh

G4ReactionProductVector
std::vector< G4ReactionProduct * > G4ReactionProductVector
Definition: G4ReactionProductVector.hh:43

G4ReactionProduct.hh

G4double
double G4double
Definition: G4Types.hh:83

G4bool
bool G4bool
Definition: G4Types.hh:86

G4int
int G4int
Definition: G4Types.hh:85

G4ios.hh

Randomize.hh

G4Cache
Definition: G4Cache.hh:89

G4Cache::Get
value_type & Get() const
Definition: G4Cache.hh:315

G4Cache::Put
void Put(const value_type &val) const
Definition: G4Cache.hh:321

G4Neutron::Neutron
static G4Neutron * Neutron()
Definition: G4Neutron.cc:103

G4ParticleDefinition
Definition: G4ParticleDefinition.hh:60

G4ParticleHPEnAngCorrelation
Definition: G4ParticleHPEnAngCorrelation.hh:47

G4ParticleHPEnAngCorrelation::SampleOne
G4ReactionProduct * SampleOne(G4double anEnergy)
Definition: G4ParticleHPEnAngCorrelation.cc:42

G4ParticleHPEnAngCorrelation::Init
void Init(std::istream &aDataFile)
Definition: G4ParticleHPEnAngCorrelation.hh:94

G4ParticleHPEnAngCorrelation::GetTargetMass
G4double GetTargetMass()
Definition: G4ParticleHPEnAngCorrelation.hh:137

G4ParticleHPEnAngCorrelation::SetProjectileRP
void SetProjectileRP(G4ReactionProduct &aIncidentPart)
Definition: G4ParticleHPEnAngCorrelation.hh:125

G4ParticleHPEnAngCorrelation::G4ParticleHPEnAngCorrelation
G4ParticleHPEnAngCorrelation()
Definition: G4ParticleHPEnAngCorrelation.hh:59

G4ParticleHPEnAngCorrelation::GetTotalMeanEnergy
G4double GetTotalMeanEnergy()
Definition: G4ParticleHPEnAngCorrelation.hh:142

G4ParticleHPEnAngCorrelation::~G4ParticleHPEnAngCorrelation
~G4ParticleHPEnAngCorrelation()
Definition: G4ParticleHPEnAngCorrelation.hh:89

G4ParticleHPEnAngCorrelation::InCharge
G4bool InCharge()
Definition: G4ParticleHPEnAngCorrelation.hh:132

G4ParticleHPEnAngCorrelation::SetTarget
void SetTarget(G4ReactionProduct &aTarget)
Definition: G4ParticleHPEnAngCorrelation.hh:118

G4ParticleHPEnAngCorrelation::Sample
G4ReactionProductVector * Sample(G4double anEnergy)
Definition: G4ParticleHPEnAngCorrelation.cc:77

G4ParticleHPEnAngCorrelation::G4ParticleHPEnAngCorrelation
G4ParticleHPEnAngCorrelation(G4ParticleDefinition *proj)
Definition: G4ParticleHPEnAngCorrelation.hh:74

G4ParticleHPManager::GetInstance
static G4ParticleHPManager * GetInstance()
Definition: G4ParticleHPManager.cc:140

G4ParticleHPProduct
Definition: G4ParticleHPProduct.hh:53

G4ParticleHPProduct::Init
void Init(std::istream &aDataFile, G4ParticleDefinition *projectile)
Definition: G4ParticleHPProduct.hh:99

G4ReactionProduct
Definition: G4ReactionProduct.hh:54

globals.hh