#ifndef ALITOFTRACKERMI_H
#define ALITOFTRACKERMI_H
+
/* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
* See cxx source for full Copyright notice */
-// AliTOFtrackerMI Class
-// Task: Perform association of the ESD tracks to TOF Clusters
-// and Update ESD track with associated TOF Cluster parameters
-//
-//--------------------------------------------------------------------
/* $Id$ */
+//-----------------------------------------------------------------//
+// //
+// AliTOFtrackerMI Class //
+// Task: Perform association of the ESD tracks to TOF Clusters //
+// and Update ESD track with associated TOF Cluster parameters //
+// //
+//-----------------------------------------------------------------//
+
#include "AliTracker.h"
-#include "AliTOFpidESD.h"
-#include "AliESD.h"
-#include "TClonesArray.h"
+class TTreeSRedirector;
+class TClonesArray;
+
+class AliESDEvent;
+
+class AliTOFcluster;
+class AliTOFRecoParam;
class AliTOFGeometry;
class AliTOFtrack;
-class AliTOFcluster;
-class TTreeSRedirector;
+class AliTOFpidESD;
class AliTOFtrackerMI : public AliTracker {
public:
- AliTOFtrackerMI(AliTOFGeometry* geom, Double_t parPID[2]);
+ AliTOFtrackerMI();
AliTOFtrackerMI(const AliTOFtrackerMI &t); //Copy Ctor
+ AliTOFtrackerMI& operator=(const AliTOFtrackerMI &source); // ass. op.
+
// virtual ~AliTOFtrackerMI() {delete fTOFpid;}
virtual ~AliTOFtrackerMI();
- virtual Int_t Clusters2Tracks(AliESD* /*event*/) {return -1;};
- virtual Int_t PropagateBack(AliESD* event);
- virtual Int_t RefitInward(AliESD* /*event*/) {return -1;};
- virtual Int_t LoadClusters(TTree *dTree); // Loading Clusters from Digits
- virtual void UnloadClusters();// UnLoad Clusters
- virtual AliCluster *GetCluster(Int_t /*index*/) const {return NULL;};
- void GetLikelihood(Float_t dy, Float_t dz, const Double_t *cov, AliTOFtrack * track, Float_t & py, Float_t &pz);
-public:
- /* class AliTOFcluster { */
-/* friend class AliTOFtrackerMI; */
-/* public: */
-/* AliTOFcluster(Double_t *h, Int_t *l, Int_t *ind, Int_t idx) { */
-/* fR=h[0]; fPhi=h[1]; fZ=h[2]; fTDC=h[3]; fADC=h[4]; */
-/* fLab[0]=l[0]; fLab[1]=l[1]; fLab[2]=l[2]; */
-/* fIdx=idx; */
-/* fdetIndex[0]=ind[0]; */
-/* fdetIndex[1]=ind[1]; */
-/* fdetIndex[2]=ind[2]; */
-/* fdetIndex[3]=ind[3]; */
-/* fdetIndex[4]=ind[4]; */
-/* fQuality = -100; */
-/* } */
-/* void Use() {fADC=-fADC;} */
-
-/* Double_t GetR() const {return fR;} // Cluster Radius */
-/* Double_t GetPhi() const {return fPhi;} // Cluster Phi */
-/* Double_t GetZ() const {return fZ;} // Cluster Z */
-/* Double_t GetTDC() const {return fTDC;} // Cluster ToF */
-/* Double_t GetADC() const {return TMath::Abs(fADC);} // Cluster Charge */
-/* Int_t IsUsed() const {return (fADC<0) ? 1 : 0;} // Flagging */
-/* Int_t GetLabel(Int_t n) const {return fLab[n];} // Labels of tracks in Cluster */
-/* Int_t GetDetInd(Int_t n) const {return fdetIndex[n];} //Cluster Det Indeces */
-/* Int_t GetIndex() const {return fIdx;} // Cluster Index */
-
-/* private: */
-
-/* Int_t fLab[3]; //track labels */
-/* Int_t fIdx; //index of this cluster */
-/* Int_t fdetIndex[5]; //Cluster detector Indeces (plate,strip,..) */
-/* Double_t fR; //r-coordinate */
-/* Double_t fPhi; //phi-coordinate */
-/* Double_t fZ; //z-coordinate */
-/* Double_t fTDC; //TDC count */
-/* Double_t fADC; //ADC count */
-/* Double_t fQuality; // quality of the best track */
-/* }; */
+ virtual Int_t Clusters2Tracks(AliESDEvent* /*event*/) {return -1;};
+ virtual Int_t PropagateBack(AliESDEvent* event);
+ virtual Int_t RefitInward(AliESDEvent* /*event*/) {return -1;};
+ virtual Int_t LoadClusters(TTree *dTree); // Loading Clusters from Digits
+ virtual void UnloadClusters();// UnLoad Clusters
+ virtual AliCluster *GetCluster(Int_t /*index*/) const {return NULL;};
+ void GetLikelihood(Float_t dy, Float_t dz, const Double_t *cov, AliTOFtrack * track, Float_t & py, Float_t &pz);
+ void FillClusterArray(TObjArray* arr) const;
private:
- Int_t InsertCluster(AliTOFcluster *c); // Fills TofClusters Array
- Int_t FindClusterIndex(Double_t z) const; // Returns cluster index
- void MatchTracks(Bool_t mLastStep); // Matching Algorithm
- void MatchTracksMI(Bool_t mLastStep); // Matching Algorithm
- void CollectESD(); // Select starting Set for Matching
- //void Init();
- Float_t GetLinearDistances(AliTOFtrack * track, AliTOFcluster *cluster, Float_t distances[5]);
- AliTOFGeometry* fGeom; // Pointer to TOF geometry
- AliTOFpidESD* fTOFpid; // Pointer to TOF PID
- AliTOFcluster *fClusters[kMaxCluster]; // pointers to the TOF clusters
-
- Bool_t fHoles; // flag for Geometry Version(w/wo Holes) temporary!
- Int_t fN; // Number of Clusters
- Int_t fNseeds; // Number of track seeds
- Int_t fNseedsTOF; // TPC BP tracks
- Int_t fngoodmatch; // Correctly matched tracks
- Int_t fnbadmatch; // Wrongly matched tracks
- Int_t fnunmatch; // Unmatched tracks
- Int_t fnmatch; // Total matched tracks
+ Int_t InsertCluster(AliTOFcluster *c); // Fills TofClusters Array
+ Int_t FindClusterIndex(Double_t z) const; // Returns cluster index
+ void MatchTracks(Bool_t mLastStep); // Matching Algorithm
+ void MatchTracksMI(Bool_t mLastStep); // Matching Algorithm
+ void CollectESD(); // Select starting Set for Matching
+ //void Init();
+ Float_t GetLinearDistances(AliTOFtrack * track, AliTOFcluster *cluster, Float_t distances[5]);
+ AliTOFRecoParam* fRecoParam; // Pointer to TOF Recontr. Params
+ AliTOFGeometry* fGeom; // Pointer to TOF geometry
+ AliTOFpidESD* fPid; // Pointer to TOF PID
+ AliTOFcluster *fClusters[kMaxCluster]; // pointers to the TOF clusters
+
+ Int_t fN; // Number of Clusters
+ Int_t fNseeds; // Number of track seeds
+ Int_t fNseedsTOF; // TPC BP tracks
+ Int_t fngoodmatch; // Correctly matched tracks
+ Int_t fnbadmatch; // Wrongly matched tracks
+ Int_t fnunmatch; // Unmatched tracks
+ Int_t fnmatch; // Total matched tracks
- Float_t fR; // Intermediate radius in TOF, used in matching
- Float_t fTOFHeigth; // Inner TOF radius for propagation
- Float_t fdCut; // Cut on minimum distance track-pad in matching
- Float_t fDx; // Pad Size in X
- Float_t fDy; // Pad Size in Y (== X TOF convention)
- Float_t fDz; // Pad Size in Z
- TClonesArray* fTracks; //! pointer to the TClonesArray with TOF tracks
- TClonesArray* fSeeds; //! pointer to the TClonesArray with ESD tracks
- TTreeSRedirector *fDebugStreamer; //!debug streamer
- ClassDef(AliTOFtrackerMI, 1) // TOF trackerMI
+ Float_t fR; // Intermediate radius in TOF, used in matching
+ Float_t fTOFHeigth; // Inner TOF radius for propagation
+ Float_t fdCut; // Cut on minimum distance track-pad in matching
+ Float_t fDx; // Pad Size in X
+ Float_t fDy; // Pad Size in Y (== X TOF convention)
+ Float_t fDz; // Pad Size in Z
+ TClonesArray* fTracks; //! pointer to the TClonesArray with TOF tracks
+ TClonesArray* fSeeds; //! pointer to the TClonesArray with ESD tracks
+ TTreeSRedirector *fDebugStreamer; //!debug streamer
+ ClassDef(AliTOFtrackerMI, 1) // TOF trackerMI
};
#endif