X-Git-Url: http://git.uio.no/git/?a=blobdiff_plain;f=ITS%2FAliITSTrackerV1.h;fp=ITS%2FAliITSTrackerV1.h;h=0000000000000000000000000000000000000000;hb=7acc4c6bf7024ce3b192dac9a5d12f96e420cfa4;hp=814199afe93c787356947e985e9c2d533c337c47;hpb=e9d80afdf70ced3c216c98cfc18e6b9a59c424b8;p=u%2Fmrichter%2FAliRoot.git

diff --git a/ITS/AliITSTrackerV1.h b/ITS/AliITSTrackerV1.h
deleted file mode 100644
index 814199afe93..00000000000
--- a/ITS/AliITSTrackerV1.h
+++ /dev/null
@@ -1,90 +0,0 @@
-//Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved.
-//See cxx source for full Copyright notice
-//
-//The purpose of this class is to permorm the ITS tracking.
-//
-//      The constructor has the task to inizialize some private members.
-// The method DoTracking is written to be called by a macro. It gets the event
-// number, the minimum and maximum order number of TPC tracks that are to be
-// tracked trough the ITS, and the file where the recpoints are registered.
-//
-// The method AliiTStracking is a recursive function that performs the
-// tracking trough the ITS
-//
-// The method Intersection found the layer, ladder and detector where the
-// intersection take place and caluclate the cohordinates of this
-// intersection.  It returns an integer that is 0 if the intersection has
-// been found successfully.
-//
-// The two mwthods Kalmanfilter and kalmanfiltervert operate the
-// kalmanfilter without and with the verteximposition respectively.
-
-#ifndef ALIITSTRACKERV1_H
-#define ALIITSTRACKERV1_H
-
-#include <TObject.h>
-#include <TVectorfwd.h>
-
-class TObjArray;
-class AliITSTrackV1;
-class AliITSRad;
-class TStopwatch;
-
-class AliITSTrackerV1 : public TObject {
- public:
-    AliITSTrackerV1();
-    AliITSTrackerV1(Int_t evnumber, Bool_t flag);
-    AliITSTrackerV1(const AliITSTrackerV1 &cobj);
-    ~AliITSTrackerV1();
-    AliITSTrackerV1 &operator=(const AliITSTrackerV1 &obj);
-//  void DelMatrix(Int_t NumOfModules);
-    void DoTracking(Int_t evNumber, Int_t minTr, Int_t maxTr, TFile *file, Bool_t realmass=0);
-    void RecursiveTracking(TList *trackITSlist);
-    Int_t Intersection(AliITSTrackV1 &track, Int_t layer,Int_t &ladder,
-		       Int_t &detector); 
-    void KalmanFilter(AliITSTrackV1 *newtrack, TVector &cluster,
-		      Double_t sigma[2]);
-    void KalmanFilterVert(AliITSTrackV1 *newtrack, TVector &cluster,
-			  Double_t sigma[2]);
-    //void KalmanFilterVert(AliITSTrackV1 *newtrack, TVector &cluster,
-    //                      Double_t sigma[2], Double_t chi2pred);
-
- private:
-    //AliITS* fITS;              //! pointer to AliITS
-    AliITSDetTypeRec *fDetTypeRec;//ITS obj. for reconstruction
-    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 
- 
-    ClassDef(AliITSTrackerV1,2)  
-};
-
-#endif