G4tgrMaterial.hh

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// G4tgrMaterial
//
// Class description:
//
// Class to represent a transient material.
 
// Author: P.Arce, CIEMAT (November 2007)
// --------------------------------------------------------------------
#ifndef G4tgrMaterial_hh
#define G4tgrMaterial_hh 1
 
#include "globals.hh"
#include "G4Material.hh"
 
class G4tgrMaterial
{
  public:
 
    G4tgrMaterial();
    virtual ~G4tgrMaterial();
 
    // Get methods
 
    const G4String& GetName() const { return theName; }
 
    G4double GetDensity() const { return theDensity; }
      // Density in g/cm3
 
    G4int GetNumberOfComponents() const { return theNoComponents; }
    const G4String& GetType() const { return theMateType; }
 
    virtual G4double GetA() const                       = 0;
    virtual G4double GetZ() const                       = 0;
    virtual const G4String& GetComponent(G4int i) const = 0;
    virtual G4double GetFraction(G4int i)               = 0;
 
    G4double GetIonisationMeanExcitationEnergy() const
    {
      return theIonisationMeanExcitationEnergy;
    }
 
    void SetIonisationMeanExcitationEnergy(G4double mee)
    {
      theIonisationMeanExcitationEnergy = mee;
    }
 
    const G4State& GetState() const { return theState; }
    void SetState(const G4String& val);
 
    G4double GetTemperature() const { return theTemperature; }
    void SetTemperature(G4double val) { theTemperature = val; }
 
    G4double GetPressure() const { return thePressure; }
    void SetPressure(G4double val) { thePressure = val; }
 
  protected:
 
    G4String theName = "Material";
    G4double theDensity = 0.0;
    G4int theNoComponents = 0;
    G4String theMateType = "Material";
    G4double theIonisationMeanExcitationEnergy = -1.0;
    G4State theState = kStateUndefined;
    G4double theTemperature = 0.0;
    G4double thePressure = 0.0;
};
 
#endif