+AliVZEROhit::AliVZEROhit(Int_t shunt, Int_t track, Int_t* vol, Float_t* hits)
+ : AliHit(shunt, track),
+ fVolume(vol[0]),
+ fCopy(vol[1]),
+ fTrackPiD(hits[3]),
+ fTof(hits[4]),
+ fCharge(hits[5]),
+ fTheta(hits[6]),
+ fPhi(hits[7]),
+ fRingNumber(hits[8]),
+ fPt(hits[9]),
+ fPmom(hits[10]),
+ fPx(hits[11]),
+ fPy(hits[12]),
+ fPz(hits[13]),
+ fVx(hits[14]),
+ fVy(hits[15]),
+ fVz(hits[16]),
+ fEloss(hits[17]),
+ fTleng(hits[18]),
+ fNphot((Int_t) hits[19]),
+ fCell((Int_t) hits[20])
+
+// fVolume = vol[0]; // Volume ID
+// fCopy = vol[1]; // Copy number
+// fTrackPiD = hits[3]; // Track PiD
+// fTof = hits[4]; // Particle time of flight
+// fCharge = hits[5]; // Particle charge
+// fTheta = hits[6]; // Incident theta angle in degrees
+// fPhi = hits[7]; // Incident phi angle in degrees
+// fRingNumber = hits[8]; // Ring number
+// fPt = hits[9]; // Local transverse momentum of the particle
+// fPmom = hits[10]; // Local P momentum of the particle
+// fPx = hits[11]; // Local Px momentum of the particle
+// fPy = hits[12]; // Local Py momentum of the particle
+// fPz = hits[13]; // Local Pz momentum of the particle
+//
+// fVx = hits[14]; // Vertex x coordinate
+// fVy = hits[15]; // Vertex y coordinate
+// fVz = hits[16]; // Vertex z coordinate
+// fEloss = hits[17]; // Energy deposited inside volume
+// fTleng = hits[18]; // Track length inside volume
+// fNphot = (Int_t) hits[19]; // Number of photons created by current hit
+// fCell = (Int_t) hits[20]; // Scintillator cell number from 0 to 71
+