/// \class AliMUONHit
/// \brief MonteCarlo hit
///
-/// MUON classe for MonteCarlo Hits, inherited from AliHit for the
+/// MUON class for MonteCarlo Hits, inherited from AliHit for the
/// In addition to the ALiHit data member fX, fY, fZ and fTrack, AliMUONHit contains some info about the particle crossing the chamber:
/// Impulsion: fPtot, fPx, fPy and fPz
/// Reference position at the center of the chamber (wire plane) fXref, fYref and fZref
public:
AliMUONHit();
- AliMUONHit(Int_t fIshunt, Int_t track, Int_t *vol, Float_t *hits);
- // TBR
- AliMUONHit(Int_t fIshunt, Int_t track, Int_t *vol, Float_t *hits,
- Bool_t isNew);
+ AliMUONHit(Int_t fIshunt, Int_t track, Int_t *vol, Float_t *hits);
- AliMUONHit(Int_t fIshunt, Int_t track, Int_t iChamber, Int_t idpart,
- Float_t X, Float_t Y, Float_t Z, Float_t tof, Float_t momentum,
- Float_t theta, Float_t phi, Float_t length, Float_t destep);
- // TBR
AliMUONHit(Int_t fIshunt, Int_t track, Int_t detElemId, Int_t idpart,
Float_t X, Float_t Y, Float_t Z, Float_t tof, Float_t momentum,
- Float_t theta, Float_t phi, Float_t length, Float_t destep, Bool_t isNew);
+ Float_t theta, Float_t phi, Float_t length, Float_t destep);
- AliMUONHit(Int_t fIshunt, Int_t track, Int_t iChamber, Int_t idpart,
- Float_t X, Float_t Y, Float_t Z, Float_t tof, Float_t momentum,
- Float_t theta, Float_t phi, Float_t length, Float_t destep,
- Float_t Xref, Float_t Yref, Float_t Zref);
- // TBR
AliMUONHit(Int_t fIshunt, Int_t track, Int_t detElemId, Int_t idpart,
Float_t X, Float_t Y, Float_t Z, Float_t tof, Float_t momentum,
Float_t theta, Float_t phi, Float_t length, Float_t destep,
- Float_t Xref, Float_t Yref, Float_t Zref, Bool_t isNew);
- virtual ~AliMUONHit() {}
+ Float_t Xref, Float_t Yref, Float_t Zref);
+ virtual ~AliMUONHit();
- Int_t DetElemId()const;
+ Int_t DetElemId()const {return fDetElemId;} ///< Return detection element ID
Int_t Chamber() const;
- Float_t Particle() const {return fParticle;}
- Float_t Theta() const {return fTheta;}
- Float_t Phi() const {return fPhi;}
- Float_t Tlength() const {return fTlength;}
- Float_t Eloss() const {return fEloss;}
- Float_t Age() const {return fAge;}
- Int_t PHfirst() const {return fPHfirst;}
- Int_t PHlast() const {return fPHlast;}
-
- Float_t Momentum() const {return fPTot;}
- Float_t Px() const {return fPx;}
- Float_t Py() const {return fPy;}
- Float_t Pz() const {return fPz;}
- Float_t Cx() const {return fPx/fPTot;}
- Float_t Cy() const {return fPy/fPTot;}
- Float_t Cz() const {return fPz/fPTot;}
-
- Float_t Xref() const {return fXref;}
- Float_t Yref() const {return fYref;}
- Float_t Zref() const {return fZref;}
+
+ virtual void Print(Option_t* opt="") const;
+
+ Float_t Particle() const {return fParticle;} ///< Return particle id
+ Float_t Theta() const {return fTheta;} ///< Return incident theta angle in degrees
+ Float_t Phi() const {return fPhi;} ///< Return incident phi angle in degrees
+ Float_t Tlength() const {return fTlength;} ///< Return track length inside the chamber
+ Float_t Eloss() const {return fEloss;} ///< Return Ionisation energy loss in gas
+ Float_t Age() const {return fAge;} ///< Return Particle Age
+ Int_t PHfirst() const {return fPHfirst;} ///< Return First padhit
+ Int_t PHlast() const {return fPHlast;} ///< Return Last padhit
+
+ Float_t Momentum() const {return fPTot;} ///< Return local momentum P of the entering track
+ Float_t Px() const {return fPx;} ///< Return Px
+ Float_t Py() const {return fPy;} ///< Return Py
+ Float_t Pz() const {return fPz;} ///< Return Pz
+ Float_t Cx() const {return fPx/fPTot;} ///< Return Px/PTot
+ Float_t Cy() const {return fPy/fPTot;} ///< Return Py/PTot
+ Float_t Cz() const {return fPz/fPTot;} ///< Return Pz/PTot
+
+ Float_t Xref() const {return fXref;} ///< Return X position of hit in the center of the chamber (without angle effect)
+ Float_t Yref() const {return fYref;} ///< Return Y position of hit in the center of the chamber (without angle effect)
+ Float_t Zref() const {return fZref;} ///< Return Z position of hit in the center of the chamber (without angle effect)
private:
- Bool_t fIsDetElemId; ///< False if fDetElemId contains Chamber Id (old code)
Int_t fDetElemId; ///< Detection element ID
Float_t fParticle; ///< Geant3 particle type
Float_t fTheta ; ///< Incident theta angle in degrees
Float_t fPhi ; ///< Incident phi angle in degrees
Float_t fTlength; ///< Track length inside the chamber
- Float_t fEloss; ///< ionisation energy loss in gas
+ Float_t fEloss; ///< Ionisation energy loss in gas
Float_t fAge; ///< Particle Age
Int_t fPHfirst; ///< First padhit
Int_t fPHlast; ///< Last padhit
Float_t fZref; ///< Z position of hit in the center of the chamber (without angle effect)
- ClassDef(AliMUONHit,1) //Hit object for MUON
+ ClassDef(AliMUONHit,2) //Hit object for MUON
};
#endif