int nparticles = gAlice->GetNtrack();
cout << "Particles (RICH):" <<nparticles<<endl;
- if (nparticles > 0) FindClusters(0,0);
+ if (nparticles > 0) FindClusters(0);
}//void AliRICH::Digits2Reco()
}
}
//______________________________________________________________________________
-void AliRICH::FindClusters(Int_t nev,Int_t lastEntry)
+void AliRICH::FindClusters(Int_t nev /*kir,Int_t lastEntry*/)
{
//
gAlice->TreeR()->Write(hname,kOverwrite,0);
gAlice->TreeR()->Reset();
//gObjectTable->Print();
-}//void AliRICH::FindClusters(Int_t nev,Int_t lastEntry)
+}//void AliRICH::FindClusters(Int_t nev)
//______________________________________________________________________________
AliRICHSDigit* AliRICH::FirstPad(AliRICHhit* hit,TClonesArray *clusters )
{// Initialise the pad iterator Return the address of the first sdigit for hit
public:
AliRICH();
AliRICH(const char *name, const char *title);
- AliRICH(const AliRICH& RICH) : AliDetector(RICH) {}
+ AliRICH(const AliRICH& RICH):AliDetector(RICH) {;}
virtual ~AliRICH();
- AliRICH& operator=(const AliRICH& rhs) { return *this;}
+ AliRICH& operator=(const AliRICH&) {return *this;}
virtual Int_t IsVersion() const =0;
inline void AddHit(Int_t track, Int_t *vol, Float_t *hits);//virtual
void ResetRawClusters();
void ResetRecHits1D();
void ResetRecHits3D();
- virtual void FindClusters(Int_t nev,Int_t lastEntry);
+ virtual void FindClusters(Int_t nev);
void Hits2SDigits(); //virtual
void Hits2SDigits(Int_t iEventN);
void Hits2SDigits(Float_t xhit,Float_t yhit,Float_t eloss,Int_t id, ResponseType res);
virtual void CreateGeometry(); //GEANT volumes tree for simulation
virtual void StepManager()=0;
- Int_t DistancetoPrimitive(Int_t px, Int_t py) {return 9999;}
+ Int_t DistancetoPrimitive(Int_t /*px*/, Int_t /*py*/) {return 9999;}
virtual void MakeBranch(Option_t *opt=" ");
virtual void MakeBranchInTreeD(TTree *treeD, const char *file=0);
//printf("* Initialising SegmentationV0 (no dead zones) in chamber %d *\n",id+1);
// parametrised definition
-
+ id++;//to remove warning
Float_t csi_length = fNpy*fDpy + fDeadZone;
Float_t csi_width = fNpx*fDpx + 2*fDeadZone;
{z=0; GetPadC(ix, iy, x , y);}
//
// Initialisation
- virtual void Init(Int_t id);
+ virtual void Init(Int_t i);
//
// Get member data
//
Float_t theta,phi;
Float_t destep, step;
Double_t ranf[2];
- Int_t nPads;
+ Int_t nPads=-1;
Float_t coscerenkov;
static Float_t eloss, xhit, yhit, tlength;
const Float_t kBig=1.e10;