void SetInnerWidthFactor(Float_t y,Float_t z) {fYInnerWidthFactor=y; fZInnerWidthFactor=z;}
void SetOuterWidthFactor(Float_t y,Float_t z) {fYOuterWidthFactor=y; fZOuterWidthFactor=z;}
- Float_t GetYWidthFactor() {return fCurrentPadRow < AliL3Transform::GetLastRow(1) ? fYInnerWidthFactor : fYOuterWidthFactor;}
- Float_t GetZWidthFactor() {return fCurrentPadRow < AliL3Transform::GetLastRow(1) ? fZInnerWidthFactor : fZOuterWidthFactor;}
+ Float_t GetYWidthFactor() const
+ {return fCurrentPadRow < AliL3Transform::GetLastRow(1) ? fYInnerWidthFactor : fYOuterWidthFactor;}
+ Float_t GetZWidthFactor() const
+ {return fCurrentPadRow < AliL3Transform::GetLastRow(1) ? fZInnerWidthFactor : fZOuterWidthFactor;}
AliL3TrackArray *GetSeeds() {return fSeeds;}
private:
- Int_t fNmaxOverlaps;
- Int_t fRowMin;
- Int_t fRowMax;
- Float_t fChiSqMax[3];
- Float_t fYInnerWidthFactor;
- Float_t fZInnerWidthFactor;
- Float_t fYOuterWidthFactor;
- Float_t fZOuterWidthFactor;
- Int_t fFitted;
- Int_t fFailed;
- static Int_t fgBadFitError;
- static Int_t fgFitError;
- static Int_t fgResultError;
- static Int_t fgFitRangeError;
- Bool_t fSeeding;
- Int_t fNMaxClusters;
- Int_t fNClusters;
- Int_t fEvent;
- AliL3TrackArray *fSeeds; //!
- AliL3TrackArray *fProcessTracks; //!
- AliL3SpacePointData *fClusters; //!
+ Int_t fNmaxOverlaps; // Max number of overlaps
+ Int_t fRowMin; // Minimal row number (?)
+ Int_t fRowMax; // Maximal row number (?)
+ Float_t fChiSqMax[3]; // Maximal chi2 (?)
+ Float_t fYInnerWidthFactor; // Inner width factor in Y
+ Float_t fZInnerWidthFactor; // Inner width factor in Z
+ Float_t fYOuterWidthFactor; // Outer width factor in Y
+ Float_t fZOuterWidthFactor; // Outer width factor in Z
+ Int_t fFitted; // Code for fitted (?)
+ Int_t fFailed; // Code for failed
+ static Int_t fgBadFitError; // Bad fit error
+ static Int_t fgFitError; // Fit Error
+ static Int_t fgResultError; // Result error
+ static Int_t fgFitRangeError; // Fit range error
+ Bool_t fSeeding; // Seeding (?)
+ Int_t fNMaxClusters; // Max number of clusters
+ Int_t fNClusters; // umver of clusters
+ Int_t fEvent; // Current event
+ AliL3TrackArray *fSeeds; //! Array of seed
+ AliL3TrackArray *fProcessTracks; //! Array of processed tracks
+ AliL3SpacePointData *fClusters; //! Array of clusters
void FitClusters(AliL3ModelTrack *track,Int_t *padrange,Int_t *timerange);
Bool_t CheckCluster(Int_t trackindex);