// ------------------------------------------------------------------------- // ----- R3BVeto header file ----- // ----- Created 26/03/09 by D.Bertini ----- // ------------------------------------------------------------------------- /** R3BVeto.h **/ #ifndef R3BVETO_H #define R3BVETO_H #include "R3BDetector.h" #include "TLorentzVector.h" class TClonesArray; class R3BVetoPoint; class FairVolume; class R3BVeto : public R3BDetector { public: /** Default constructor **/ R3BVeto(); /** Standard constructor. *@param name detetcor name *@param active sensitivity flag **/ R3BVeto(const char* name, Bool_t active); /** Destructor **/ virtual ~R3BVeto(); /** Virtual method ProcessHits ** ** Defines the action to be taken when a step is inside the ** active volume. Creates a R3BVetoPoint and adds it to the ** collection. *@param vol Pointer to the active volume **/ virtual Bool_t ProcessHits(FairVolume* vol = 0); /** Virtual method BeginEvent ** ** If verbosity level is set, print hit collection at the ** end of the event and resets it afterwards. **/ virtual void BeginEvent(); /** Virtual method EndOfEvent ** ** If verbosity level is set, print hit collection at the ** end of the event and resets it afterwards. **/ virtual void EndOfEvent(); /** Virtual method Register ** ** Registers the hit collection in the ROOT manager. **/ virtual void Register(); /** Accessor to the hit collection **/ virtual TClonesArray* GetCollection(Int_t iColl) const; /** Virtual method Print ** ** Screen output of hit collection. **/ virtual void Print() const; /** Virtual method Reset ** ** Clears the hit collection **/ virtual void Reset(); /** Virtual method CopyClones ** ** Copies the hit collection with a given track index offset *@param cl1 Origin *@param cl2 Target *@param offset Index offset **/ virtual void CopyClones(TClonesArray* cl1, TClonesArray* cl2, Int_t offset); /** Virtaul method Construct geometry ** ** Constructs the STS geometry **/ virtual void ConstructGeometry(); virtual void Initialize(); virtual void SetSpecialPhysicsCuts(); void SetEnergyCutOff( Double_t cutE ){fCutE = cutE;} Double_t GetEnergyCutOff ( ) {return fCutE;} //void SaveGeoParams(); private: /** Track information to be stored until the track leaves the active volume. **/ Int_t fTrackID; //! track index Int_t fVolumeID; //! volume id TLorentzVector fPosIn, fPosOut; //! position TLorentzVector fMomIn, fMomOut; //! momentum Double32_t fTime; //! time Double32_t fLength; //! length Double32_t fELoss; //! chimer.Cenergy loss Double32_t fCutE; //! Sec. Energy Cut-Off Int_t fPosIndex; //! TClonesArray* fVetoCollection; //! The hit collection Bool_t kGeoSaved; //! TList *flGeoPar; //! /** Private method AddHit ** ** Adds a VetoPoint to the HitCollection **/ R3BVetoPoint* AddHit(Int_t trackID, Int_t detID, Int_t box,Int_t sector,Int_t paddle, TVector3 posIn, TVector3 pos_out, TVector3 momIn, TVector3 momOut, Double_t time, Double_t length, Double_t eLoss); /** Private method ResetParameters ** ** Resets the private members for the track parameters **/ void ResetParameters(); ClassDef(R3BVeto,1); }; inline void R3BVeto::ResetParameters() { fTrackID = fVolumeID = 0; fPosIn.SetXYZM(0.0, 0.0, 0.0, 0.0); fPosOut.SetXYZM(0.0, 0.0, 0.0, 0.0); fMomIn.SetXYZM(0.0, 0.0, 0.0, 0.0); fMomOut.SetXYZM(0.0, 0.0, 0.0, 0.0); fTime = fLength = fELoss = 0; fPosIndex = 0; }; #endif