friend ostream& operator << (ostream&,AliEMCALHit&);
public:
-
AliEMCALHit(); // default ctor
AliEMCALHit(const AliEMCALHit & hit);
- AliEMCALHit(Int_t shunt, Int_t primary, Int_t tracknumber, Int_t iparent, Float_t ienergy, Int_t id,
- Float_t *hits,Float_t *p);
+ AliEMCALHit& operator = (const AliEMCALHit& source) ;
+ AliEMCALHit(Int_t shunt, Int_t primary, Int_t tracknumber, Int_t iparent, Float_t ienergy, Int_t id, Float_t *hits,Float_t *p);
virtual ~AliEMCALHit(void) {}// dtor
//returns the energy loss for this hit
Float_t GetEnergy(void) const{return fELOS;}
Float_t GetTime(void) const {
// returns the time of the first energy deposition
return fTime ;}
-
+
Float_t GetPx(void) const{return fPx;}
Float_t GetPy(void) const{return fPy;}
Float_t GetPz(void) const{return fPz;}
Float_t GetPe(void) const{return fPe;}
+
+ void SetIparent(Int_t iparent) {fIparent=iparent;}
+ void SetPrimary(Int_t primary) {fPrimary=primary;}
+
Bool_t operator == (AliEMCALHit const &rValue) const;
AliEMCALHit operator + (const AliEMCALHit& rValue);
Int_t fId; // Absolute Id number EMCAL segment
Float_t fELOS; // Energy deposited
Int_t fPrimary; // Primary particles at the origin of the hit
- Float_t fPx; // Primary partical enetrence momentum/energy
- Float_t fPy; // Primary partical enetrence momentum/energy
- Float_t fPz; // Primary partical enetrence momentum/energy
- Float_t fPe; // Primary partical enetrence momentum/energy
+ Float_t fPx; // Primary particle entrance momentum/energy
+ Float_t fPy; // Primary particle entrance momentum/energy
+ Float_t fPz; // Primary particle entrance momentum/energy
+ Float_t fPe; // Primary particle entrance momentum/energy
Int_t fIparent; // Parent particle that entered emcal
Float_t fIenergy; // Initial energy of parent particle that enterred the emcal
Float_t fTime ; // Time of the energy deposition