- public:
-
- AliITSTrackerV1(AliITS* IITTSS, Bool_t flag);
-
- AliITSTrackerV1(const AliITSTrackerV1 &cobj);
-
- ~AliITSTrackerV1();
-
- AliITSTrackerV1 &operator=(AliITSTrackerV1 obj);
-
- void DoTracking(Int_t evNumber, Int_t minTr, Int_t maxTr, TFile *file);
-
- void RecursiveTracking(TList *trackITSlist);
+ private:
+ AliITS* fITS; //! pointer to AliITS
+ AliITSTrackV1 *fresult; // result is a pointer to the final best track
+ Double_t fPtref; // transvers momentum obtained from TPC tracking
+ Double_t fChi2max; // chi2 cut
+ //Double_t fepsphi; //eps for definition window in phi
+ // Double_t fepsz; //eps for definition window in z
+ TClonesArray *frecPoints; // pointer to RecPoints
+ Int_t **fvettid; // flag vector of used clusters
+ Bool_t fflagvert; // a flag to impose or not the vertex constraint
+ AliITSRad *frl; // pointer to get the radiation lenght matrix
+/// To be put in a specific geometric class
+ Int_t fNlad[6]; // Number of ladders for a given layer
+ Int_t fNdet[6]; // Number of detector for a given layer
+ Double_t fAvrad[6]; // Average radius for a given layer
+ Double_t fDetx[6];// Semidimension of detectors along x axis for a given layer
+ Double_t fDetz[6];// Semidimension of detectors along z axis for a given layer
+ Double_t **fzmin;// Matrix of zmin for a given layer and a given detector
+ Double_t **fzmax;// Matrix of zmax for a given layer and a given detector
+ Double_t **fphimin;// Matrix of phimin for a given layer and a given ladder
+ Double_t **fphimax;// Matrix of phimax for a given layer and a given ladder
+ Double_t **fphidet; // azimuthal angle for a given layer and a given ladder
+ Int_t *fNRecPoints; // pointer to the vector giving the number of recpoints for a given module
+ /*
+ Float_t **fRecCylR; // pointer to the matrix giving the R cylindric cohordinate of a recpoint
+ Float_t **fRecCylPhi; // pointer to the matrix giving the Phi cylindric cohordinate of a recpoint
+ Float_t **fRecCylZ; // pointer to the matrix giving the Z cylindric cohordinate of a recpoint
+ */
+ Double_t **fRecCylR; // pointer to the matrix giving the R cylindric cohordinate of a recpoint
+ Double_t **fRecCylPhi; // pointer to the matrix giving the Phi cylindric cohordinate of a recpoint
+ Double_t **fRecCylZ; // pointer to the matrix giving the Z cylindric cohordinate of a recpoint
+/////////////////////////////////////////////////////////////////////////////////////////////////////////////////
+ Double_t fFieldFactor; // Magnetic field factor