+ Int_t fCounter[336]; //! counter of usage
+ Float_t fClusterCounter[336]; //!couter of clusters in "sensitive are"
+ Float_t fClusterSatur[336]; //!couter of saturated clusters in "sensitive are"
+ Bool_t fFullCalib; // do full calibrration
+ Float_t fFitZ[336]; //fitted z position
+ //
+ TObjArray fDeltaZ; //-> array of histograms of delta z for each track
+ TObjArray fDeltaP3; //-> array of histograms of P3 for each track
+ TObjArray fDeltaP4; //-> array of histograms of P4 for each track
+ TObjArray fDeltaPhi; //-> array of histograms of delta Phi for each track
+ TObjArray fDeltaPhiP; //-> array of histograms of delta Phi direction for each track
+ TObjArray fSignals; //->Array of dedx signals
+
+ //
+ // Refit residuals histogram
+ //
+ THnSparseS *fHisLaser; // N dim histogram of laser
+ TH2F *fHisNclIn; //->Number of clusters inner
+ TH2F *fHisNclOut; //->Number of clusters outer
+ TH2F *fHisNclIO; //->Number of cluster inner outer
+ TH2F *fHisLclIn; //->Level arm inner
+ TH2F *fHisLclOut; //->Level arm outer
+ TH2F *fHisLclIO; //->Level aram inner outer
+
+ TH2F *fHisdEdx; //->dEdx histo
+ TH2F *fHisdZfit; //->distance to the mirror after linear fit
+ //
+ //
+ TH2F *fHisChi2YIn1; //->chi2 y inner - line
+ TH2F *fHisChi2YOut1; //->chi2 y inner - line
+ TH2F *fHisChi2YIn2; //->chi2 y inner - parabola
+ TH2F *fHisChi2YOut2; //->chi2 y inner - parabola
+ TH2F *fHisChi2YIO1; //->chi2 y IO - common
+ TH2F *fHisChi2ZIn1; //->chi2 z inner - line
+ TH2F *fHisChi2ZOut1; //->chi2 z inner - line
+ TH2F *fHisChi2ZIn2; //->chi2 z inner - parabola
+ TH2F *fHisChi2ZOut2; //->chi2 z inner - parabola
+ TH2F *fHisChi2ZIO1; //->chi2 z IO - common
+ //
+ //
+ TH2F *fHisPy1vP0; //-> delta y P0outer-P0inner - line
+ TH2F *fHisPy2vP0; //-> delta y P0outer-P0inner - parabola
+ TH2F *fHisPy3vP0; //-> delta y P0outer-P0inner - common parabola
+ TH2F *fHisPy1vP1; //-> delta ky P1outer-P1inner - line
+ TH2F *fHisPy2vP1; //-> delta ky P1outer-P1inner - parabola
+ TH2F *fHisPy3vP1; //-> delta ky P1outer-P1inner - common parabola
+ TH2F *fHisPy2vP2In; //-> Curv P2inner - parabola
+ TH2F *fHisPy2vP2Out; //-> Curv P2outer - parabola
+ TH2F *fHisPy3vP2IO; //-> Curv P2outerinner - common parabola
+ //
+ //
+ TH2F *fHisPz1vP0; //-> delta z P0outer-P0inner - line
+ TH2F *fHisPz2vP0; //-> delta z P0outer-P0inner - parabola
+ TH2F *fHisPz3vP0; //-> delta z P0outer-P0inner - common parabola
+ TH2F *fHisPz1vP1; //-> delta kz P1outer-P1inner - line
+ TH2F *fHisPz2vP1; //-> delta kz P1outer-P1inner - parabola
+ TH2F *fHisPz3vP1; //-> delta kz P1outer-P1inner - common parabola
+ TH2F *fHisPz2vP2In; //-> Curv P2inner - parabola
+ TH2F *fHisPz2vP2Out; //-> Curv P2outer - parabola
+ TH2F *fHisPz3vP2IO; //-> Curv P2outerinner - common parabola
+ //
+ // Residual histograms
+ //
+ TObjArray fDeltaYres; //-> array of histograms of delta y residuals for each track
+ TObjArray fDeltaZres; //-> array of histograms of delta z residuals for each track
+ TObjArray fDeltaYres2; //-> array of histograms of delta y residuals for each track
+ TObjArray fDeltaZres2; //-> array of histograms of delta z residuals for each track
+ TObjArray fDeltaYresAbs; //-> array of histograms of absolute delta y residuals for each track
+ TH1F *fHisYAbsErrors; //-> Number of errors (wrongly assigned tracks) per beam
+ TObjArray fDeltaZresAbs; //-> array of histograms of absolute delta z residuals for each track
+ TH1F *fHisZAbsErrors; //-> Number of errors (wrongly assigned tracks or missing drift velocity) per beam
+ // TObjArray fDeltaYres3; //-> array of histograms of delta y residuals for each track
+ //TObjArray fDeltaZres3; //-> array of histograms of delta z residuals for each track
+
+ //
+ TVectorD* fFitAside; //! drift fit - A side
+ TVectorD* fFitCside; //! drift fit - C- side
+ TVectorD* fFitACside; //! drift fit - A+C- side
+ //
+ TVectorD fEdgeXcuts; //! cuts in local x direction; used in the refit of the laser tracks
+ TVectorD fEdgeYcuts; //! cuts in local y direction; used in the refit of the laser tracks
+ TVectorD fNClCuts; //! cuts on the number of clusters per tracklet; used in the refit of the laser tracks
+ Int_t fNcuts; //! number of cuts
+ TVectorD fBeamSectorOuter; //! sector map for beams in outer sector
+ TVectorD fBeamSectorInner; //! sector map for beams in inner sector
+ TVectorD fBeamOffsetYOuter; //! absolute y beam offset in outer sector
+ TVectorD fBeamSlopeYOuter; //! absolute y beam slope in outer sector
+ TVectorD fBeamOffsetYInner; //! absolute y beam offset in inner sector
+ TVectorD fBeamSlopeYInner; //! absolute y beam slope in inner sector
+ TVectorD fBeamOffsetZOuter; //! absolute z beam offset in outer sectror
+ TVectorD fBeamSlopeZOuter; //! absolute z beam slope in outer sector
+ TVectorD fBeamOffsetZInner; //! absolute z beam offset in inner sectror
+ TVectorD fBeamSlopeZInner; //! absolute z beam slope in inner sector
+ Bool_t fInverseSlopeZ; //! invert slope in z - mismatch between database and lasers
+ Int_t fUseFixedDriftV; // flag for fixed drift velocity for abs res
+ Double_t fFixedFitAside0; // Fixed drift v constant 0 - A side
+ Double_t fFixedFitAside1; // Fixed drift v constant 1 - A side
+ Double_t fFixedFitCside0; // Fixed drift v constant 0 - C side
+ Double_t fFixedFitCside1; // Fixed drift v constant 1 - C side
+ //
+private:
+ ClassDef(AliTPCcalibLaser,5)