dd/d50/G3MedTableEntry_8hh_source.html

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// $Id$

//

// ----------------------

// Class description:

//

// The class associates the G3 tracking medium index

// with the corresponding G4Material, G4MagneticField, G4UserLimits

// instances and sensitivity flag (isvol).


// ----------------------

//

// by I.Hrivnacova, 27 Sep 99


#ifndef G3MEDTABLEENTRYH_HH

#define G3MEDTABLEENTRYH_HH 1


#include "globals.hh"


class G4Material;

class G4MagneticField;

class G4UserLimits;


class G3MedTableEntry

{

  public:  // with description


    G3MedTableEntry(G4int id, G4Material* material, G4MagneticField* field,

       G4UserLimits* limits, G4int isvol);

    G3MedTableEntry(const G3MedTableEntry& right);

    virtual ~G3MedTableEntry();


    // operators

    G3MedTableEntry& operator=(const G3MedTableEntry& right);

    G4int operator==(const G3MedTableEntry& right) const;

    G4int operator!=(const G3MedTableEntry& right) const;


    // set methods

    void SetMaterial(G4Material* material);

    void SetField(G4MagneticField* field);

    void SetLimits(G4UserLimits* limits);

    void SetISVOL(G4int isvol);


    // get methods

    G4int GetID() const;

    G4Material* GetMaterial() const;

    G4MagneticField* GetField() const;

    G4UserLimits* GetLimits() const;

    G4int GetISVOL() const;


  private:


    // data members

    G4int             fID;

    G4Material*       fMaterial;

    G4MagneticField*  fField;

    G4UserLimits*     fLimits;

    G4int             fISVOL;

    //G4double deemax;

    //G4double epsil;

};


// inline methods


inline void G3MedTableEntry::SetMaterial(G4Material* material)

{ fMaterial = material; }


inline void G3MedTableEntry::SetField(G4MagneticField* field)

{ fField = field; }


inline void G3MedTableEntry::SetLimits(G4UserLimits* limits)

{ fLimits = limits; }


inline void G3MedTableEntry::SetISVOL(G4int isvol)

{ fISVOL = isvol; }


inline G4int G3MedTableEntry::GetID() const

{ return fID; }


inline G4Material* G3MedTableEntry::GetMaterial() const

{ return fMaterial; }


inline G4MagneticField* G3MedTableEntry::GetField() const

{ return fField; }


inline G4UserLimits* G3MedTableEntry::GetLimits() const

{ return fLimits; }


inline G4int G3MedTableEntry::GetISVOL() const

{ return fISVOL; }


#endif

G4int
int G4int
Definition: G4Types.hh:66

G3MedTableEntry
Definition: G3MedTableEntry.hh:50

G3MedTableEntry::operator=
G3MedTableEntry & operator=(const G3MedTableEntry &right)
Definition: G3MedTableEntry.cc:57

G3MedTableEntry::GetMaterial
G4Material * GetMaterial() const
Definition: G3MedTableEntry.hh:105

G3MedTableEntry::operator!=
G4int operator!=(const G3MedTableEntry &right) const
Definition: G3MedTableEntry.cc:76

G3MedTableEntry::SetISVOL
void SetISVOL(G4int isvol)
Definition: G3MedTableEntry.hh:99

G3MedTableEntry::operator==
G4int operator==(const G3MedTableEntry &right) const
Definition: G3MedTableEntry.cc:68

G3MedTableEntry::GetField
G4MagneticField * GetField() const
Definition: G3MedTableEntry.hh:108

G3MedTableEntry::GetLimits
G4UserLimits * GetLimits() const
Definition: G3MedTableEntry.hh:111

G3MedTableEntry::GetISVOL
G4int GetISVOL() const
Definition: G3MedTableEntry.hh:114

G3MedTableEntry::SetField
void SetField(G4MagneticField *field)
Definition: G3MedTableEntry.hh:93

G3MedTableEntry::SetLimits
void SetLimits(G4UserLimits *limits)
Definition: G3MedTableEntry.hh:96

G3MedTableEntry::~G3MedTableEntry
virtual ~G3MedTableEntry()
Definition: G3MedTableEntry.cc:54

G3MedTableEntry::SetMaterial
void SetMaterial(G4Material *material)
Definition: G3MedTableEntry.hh:90

G3MedTableEntry::GetID
G4int GetID() const
Definition: G3MedTableEntry.hh:102

G4MagneticField
Definition: G4MagneticField.hh:47

G4Material
Definition: G4Material.hh:119

G4UserLimits
Definition: G4UserLimits.hh:58

globals.hh