G4PhysChemIO.hh

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/*
 * G4PhysChemIO.hh
 *
 *  Created on: 3 févr. 2017
 *      Author: matkara
 */
#ifndef G4PHYSCHEMIO_HH_
#define G4PHYSCHEMIO_HH_
 
#include "G4VPhysChemIO.hh"
 
//------------------------------------------------------------------------------
namespace G4PhysChemIO{
  
class FormattedText: public G4VPhysChemIO
{
public:
  FormattedText();
  virtual ~FormattedText();
  
  virtual void InitializeMaster(){}
  virtual void InitializeThread(){}
  virtual void InitializeFile();
  
  virtual void NewRun(){}
  virtual void NewEvent(){}
  
  /**
   * When DNA physics model create a water molecule, you'll get a notification
   * through this method.
   * The ElectronicModification is a flag telling whether the molecule
   * is ionized or excited, the electronic level is calculated by the
   * model and the IncomingTrack is the track responsible for the creation
   * of this molecule (electron, proton...)
   */
  virtual void CreateWaterMolecule(G4int electronicModif,
                                   G4int /*electronicLevel*/,
                                   G4double energy,
                                   const G4Track* /*theIncomingTrack*/);
  
  /**
   * Same idea as the previous method but for solvated electron.
   * This method should be used by the physics model of the ElectronSolvatation
   * process.
   */
  virtual void CreateSolvatedElectron(const G4Track* /*theIncomingTrack*/,
                                      G4ThreeVector* finalPosition = 0);
  
  //============================================================================
  // FILE OPERATIONS
  //============================================================================
  
  /**
   * Tells the chemistry manager to write into a file
   * the position and electronic state of the water molecule
   * and the position thermalized or not of the solvated electron
   */
  virtual void WriteInto(const G4String&,
                         std::ios_base::openmode mode = std::ios_base::out);
  virtual void AddEmptyLineInOutputFile();
  
  /**
   * Close the file specified with WriteInto
   */
  virtual void CloseFile();
  
protected:
  G4int fRunID; // unused
  G4int fEventID; // unused
  G4bool fFileInitialized;
  std::ofstream fOfstream;
};
 
//------------------------------------------------------------------------------
 
class G4Analysis: public G4VPhysChemIO
{
public:
  G4Analysis(G4VAnalysisManager*);
  virtual ~G4Analysis();
  
  virtual void InitializeMaster(){}
  virtual void InitializeThread(){}
  virtual void InitializeFile();
  
  virtual void NewRun(){}
  virtual void NewEvent(){}
  
  /**
   * Method used by DNA physics model to create a water molecule.
   * The ElectronicModification is a flag telling wheter the molecule
   * is ionized or excited, the electronic level is calculated by the
   * model and the IncomingTrack is the track responsible for the creation
   * of this molecule, for instance an electron.
   */
  virtual void CreateWaterMolecule(G4int electronicModif,
                                   G4int /*electronicLevel*/,
                                   G4double energy,
                                   const G4Track* /*theIncomingTrack*/);
  
  /**
   * Same idea as the previous method but for solvated electron.
   * This method should be used by the physics model of the ElectronSolvatation
   * process.
   */
  virtual void CreateSolvatedElectron(const G4Track* /*theIncomingTrack*/,
                                      G4ThreeVector* finalPosition = 0);
  
  //============================================================================
  // FILE OPERATIONS
  //============================================================================
  
  /**
   * Tells the chemMan to write into a file
   * the position and electronic state of the water molecule
   * and the position thermalized or not of the solvated electron
   */
  virtual void WriteInto(const G4String&, std::ios_base::openmode mode =
                         std::ios_base::out);
  virtual void AddEmptyLineInOutputFile(){}
  
  /**
   * Close the file specified with WriteInto
   */
  virtual void CloseFile();
  
protected:
  G4VAnalysisManager* fpAnalysisManager;
  int fNtupleID;
  G4bool fFileInitialized;
};
  
}
 
#endif // G4PHYSCHEMIO_HH_