G4IStore.hh

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// G4IStore
//
// Class description:
//
// An implementation of an "importance store" with the interface
// G4VIStore. See description in G4VIStore.
// This implementation uses G4GeometryCellImportance as the container
// to store the "cells" together with the importance values.
// Giving a cell the importance 0 is allowed as a flagging that no biasing
// should happen between this cell and its neighbors.
// If a cell is not known by the importance store no biasing should be
// applied between this cell and its nighbors.
 
// Author: Michael Dressel (CERN), 2002
// Modified: Alex Howard (CERN), 2013 - Changed class to a 'singleton'
// ----------------------------------------------------------------------
#ifndef G4ISTORE_HH
#define G4ISTORE_HH 1
 
#include "G4VIStore.hh"
#include "G4GeometryCellImportance.hh"
#include "G4TransportationManager.hh"
 
class G4IStore : public G4VIStore
{
  public:
 
    static G4IStore* GetInstance();
      // return ptr to singleton instance of the class.
 
    static G4IStore* GetInstance(const G4String& ParallelWorldName);
      // return ptr to singleton instance of the class.
 
    G4double GetImportance(const G4GeometryCell& gCell) const override;
      // derive an importance value of a "cell" addressed by a
      // G4GeometryCell from the store.
 
    G4bool IsKnown(const G4GeometryCell& gCell) const override;
      // returns true if the gCell is in the store, else false 
 
    void Clear();
 
    void SetWorldVolume();
      // set a reference to the world volume of the "importance" geometry
 
    void SetParallelWorldVolume(const G4String& paraName);
      // set a reference to parallel world volume of the "importance" geometry
 
    const G4VPhysicalVolume& GetWorldVolume() const override;
      // return a reference to the world volume of the "importance" geometry
 
    virtual const G4VPhysicalVolume* GetParallelWorldVolumePointer() const;
      // return a pointer to the world volume of the "importance" geometry
 
    void AddImportanceGeometryCell(G4double importance,
                             const G4GeometryCell &gCell);
    void AddImportanceGeometryCell(G4double importance,
                             const G4VPhysicalVolume &,
                             G4int aRepNum = 0);
      // add a "cell" together with a importance value to the store.
 
    void ChangeImportance(G4double importance, const G4GeometryCell& gCell);
    void ChangeImportance(G4double importance, const G4VPhysicalVolume&,
                          G4int aRepNum = 0);
      // change a importance value of a "cell".
 
    G4double GetImportance(const G4VPhysicalVolume&, G4int aRepNum = 0) const;
  
  protected:
 
    explicit G4IStore();
      // initialise the importance store for the given geometry
    explicit G4IStore(const G4String& ParallelWorldName);
      // initialise the importance store for the given geometry
 
    ~G4IStore() override;
      // destructor
 
  private:
 
    G4bool IsInWorld(const G4VPhysicalVolume&) const;
    void SetInternalIterator(const G4GeometryCell& gCell) const;
    void Error(const G4String& m) const;
 
  private:
 
    const G4VPhysicalVolume* fWorldVolume = nullptr;
    G4GeometryCellImportance fGeometryCelli;
 
    mutable G4GeometryCellImportance::const_iterator fCurrentIterator;
 
    static G4ThreadLocal G4IStore* fInstance;
};
 
#endif