XVCrystalCharacteristic.hh

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#ifndef XVCrystalCharacteristic_h
#define XVCrystalCharacteristic_h

#include "XLatticeManager3.hh"
#include "G4Track.hh"
#include "G4PhysicsVector.hh"

class XVCrystalCharacteristic {

private:
    XLatticeManager3* fLatticeManager;

protected:
    G4double fMaximum;
    G4double fMinimum;
    XPhysicalLattice *fPhysicalLattice;
    G4PhysicsVector* fVectorEC;
    
public:
    //retrieval functions
    XPhysicalLattice* GetXPhysicalLattice(G4VPhysicalVolume*);
    XUnitCell* GetXUnitCell(G4VPhysicalVolume*);
    XLogicalLattice* GetLogicalLattice(G4VPhysicalVolume*);
    void InitializePhysicalLattice(XPhysicalLattice*);
    
    //virtual function to compute value starting from the point in the xtal
    //reference frame and the physical volume of the xtal
    G4ThreeVector GetEC(G4ThreeVector,XPhysicalLattice*);
    virtual G4ThreeVector ComputeEC(G4ThreeVector,XPhysicalLattice*) = 0;
    virtual G4ThreeVector ComputeECFromVector(G4ThreeVector) = 0;
    virtual G4ThreeVector ComputePositionInUnitCell(G4ThreeVector,
                                                    XPhysicalLattice*);
    
    virtual G4double ComputeTFScreeningRadius(XPhysicalLattice*);

    virtual G4double GetMaximum(XPhysicalLattice*);
    virtual G4double GetMinimum(XPhysicalLattice*);

    virtual G4double ComputeMaximum(XPhysicalLattice*);
    virtual G4double ComputeMinimum(XPhysicalLattice*);
    
    virtual void PrintOnFile(const G4String&,XPhysicalLattice*,
                             G4double = 1) = 0;
    virtual void ReadFromFile(const G4String&,XPhysicalLattice*,
                              G4double = 1) = 0;
    virtual void ReadFromECHARM(const G4String&,
                                G4double = 1) = 0;

    G4bool IsInitialized(XPhysicalLattice*);
    virtual void InitializeVector() = 0;
    
    //Contructors
    XVCrystalCharacteristic();
    ~XVCrystalCharacteristic();
};

#endif