#ifndef ALIMUONTRACK_H #define ALIMUONTRACK_H /* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. * * See cxx source for full Copyright notice */ /*$Id$*/ // Revision of includes 07/05/2004 /// \ingroup rec /// \class AliMUONTrack /// \brief Reconstructed track in ALICE dimuon spectrometer /// //////////////////////////////////////////////////// /// Reconstructed track in ALICE dimuon spectrometer //////////////////////////////////////////////////// #include "AliMUONTrackParam.h" // object belongs to the class #include class AliMUONVCluster; class AliMUONObjectPair; class AliMUONTrack : public TObject { public: AliMUONTrack(); // Default constructor AliMUONTrack(AliMUONObjectPair *segment, Double_t bendingVertexDispersion); // Constructor from a segment virtual ~AliMUONTrack(); // Destructor AliMUONTrack (const AliMUONTrack& track); // copy constructor AliMUONTrack& operator=(const AliMUONTrack& track); // assignment operator void Reset(); TClonesArray* GetTrackParamAtCluster() const; void AddTrackParamAtCluster(const AliMUONTrackParam &trackParam, AliMUONVCluster &cluster, Bool_t copy = kFALSE); void RemoveTrackParamAtCluster(AliMUONTrackParam *trackParam); void UpdateTrackParamAtCluster(); void UpdateCovTrackParamAtCluster(); Bool_t IsValid(UInt_t requestedStationMask); void TagRemovableClusters(UInt_t requestedStationMask); /// return the number of clusters attached to the track Int_t GetNClusters() const {return fTrackParamAtCluster ? fTrackParamAtCluster->GetEntriesFast() : 0;} /// return kTrue if the vertex must be used to constrain the fit, kFalse if not Bool_t FitWithVertex() const {return fFitWithVertex;} /// set the flag telling whether the vertex must be used to constrain the fit or not void FitWithVertex(Bool_t fitWithVertex) { fFitWithVertex = fitWithVertex; } /// return the vertex resolution square used during the tracking procedure void GetVertexErrXY2(Double_t &nonBendingErr2, Double_t &bendingErr2) const { nonBendingErr2 = fVertexErrXY2[0]; bendingErr2 = fVertexErrXY2[1]; } /// set the vertex resolution square used during the tracking procedure void SetVertexErrXY2(Double_t nonBendingErr2, Double_t bendingErr2) { fVertexErrXY2[0] = nonBendingErr2; fVertexErrXY2[1] = bendingErr2; } /// return kTrue if the multiple scattering must be accounted for in the fit, kFalse if not Bool_t FitWithMCS() const {return fFitWithMCS;} /// set the flag telling whether the multiple scattering must be accounted for in the fit or not void FitWithMCS(Bool_t fitWithMCS) {fFitWithMCS = fitWithMCS;} Bool_t ComputeClusterWeights(TMatrixD* mcsCovariances = 0); Bool_t ComputeLocalChi2(Bool_t accountForMCS); Double_t ComputeGlobalChi2(Bool_t accountForMCS); /// return the minimum value of the function minimized by the fit Double_t GetGlobalChi2() const {return fGlobalChi2;} /// set the minimum value of the function minimized by the fit void SetGlobalChi2(Double_t chi2) { fGlobalChi2 = chi2;} /// return kTRUE if the track has been improved Bool_t IsImproved() const {return fImproved;} /// set the flag telling whether the track has been improved or not void SetImproved(Bool_t improved) { fImproved = improved;} /// return 1,2,3 if track matches with trigger track, 0 if not Int_t GetMatchTrigger(void) const {return fMatchTrigger;} /// returns the local trigger number corresponding to the trigger track Int_t GetLoTrgNum(void) const {return floTrgNum;} /// set the flag telling whether track matches with trigger track or not void SetMatchTrigger(Int_t matchTrigger) {fMatchTrigger = matchTrigger;} /// set the local trigger number corresponding to the trigger track void SetLoTrgNum(Int_t loTrgNum) {floTrgNum = loTrgNum;} /// return the chi2 of trigger/track matching Double_t GetChi2MatchTrigger(void) const {return fChi2MatchTrigger;} /// set the chi2 of trigger/track matching void SetChi2MatchTrigger(Double_t chi2MatchTrigger) {fChi2MatchTrigger = chi2MatchTrigger;} Int_t ClustersInCommon(AliMUONTrack* track) const; Double_t GetNormalizedChi2() const; Bool_t* CompatibleTrack(AliMUONTrack* track, Double_t sigma2Cut) const; // return array of compatible chamber /// return track number in TrackRefs Int_t GetTrackID() const {return fTrackID;} /// set track number in TrackRefs void SetTrackID(Int_t trackID) {fTrackID = trackID;} /// return pointer to track parameters at vertex (can be 0x0) AliMUONTrackParam* GetTrackParamAtVertex() {return fTrackParamAtVertex;} void SetTrackParamAtVertex(const AliMUONTrackParam* trackParam); /// set word telling which trigger chambers where hit by track UShort_t GetHitsPatternInTrigCh() const {return fHitsPatternInTrigCh;} /// set word telling which trigger chambers where hit by track void SetHitsPatternInTrigCh(UShort_t hitsPatternInTrigCh) {fHitsPatternInTrigCh = hitsPatternInTrigCh;} /// set local trigger information for the matched trigger track void SetLocalTrigger(Int_t loCirc, Int_t loStripX, Int_t loStripY, Int_t loDev, Int_t loLpt, Int_t loHpt); /// return local trigger information for the matched trigger track Int_t GetLocalTrigger(void) const { return fLocalTrigger; } /// number of triggering circuit Int_t LoCircuit(void) const { return fLocalTrigger & 0xFF; } /// x-strip local trigger Int_t LoStripX(void) const { return fLocalTrigger >> 8 & 0x1F; } /// y-strip local trigger Int_t LoStripY(void) const { return fLocalTrigger >> 13 & 0x0F; } /// deviation local trigger Int_t LoDev(void) const { return fLocalTrigger >> 17 & 0x1F; } /// low pt decision local trigger Int_t LoLpt(void) const { return fLocalTrigger >> 22 & 0x03; } /// high pt decision local trigger Int_t LoHpt(void) const { return fLocalTrigger >> 24 & 0x03; } void RecursiveDump(void) const; // Recursive dump (with associated clusters) virtual void Print(Option_t* opt="") const; virtual void Clear(Option_t* opt=""); private: mutable TClonesArray* fTrackParamAtCluster; ///< Track parameters at cluster Bool_t fFitWithVertex; //!< kTRUE if using the vertex to constrain the fit, kFALSE if not Double_t fVertexErrXY2[2]; //!< Vertex resolution square used during the tracking procedure if required Bool_t fFitWithMCS; //!< kTRUE if accounting for multiple scattering in the fit, kFALSE if not TMatrixD* fClusterWeightsNonBending; //!< weights matrix, in non bending direction, of clusters attached to the track //!< (accounting for multiple scattering and cluster resolution) TMatrixD* fClusterWeightsBending; //!< weights matrix, in bending direction, of clusters attached to the track //!< (accounting for multiple scattering and cluster resolution) Double_t fGlobalChi2; ///< Global chi2 of the track Bool_t fImproved; //!< kTRUE if the track has been improved Int_t fMatchTrigger; ///< 0 track does not match trigger ///< 1 track match but does not pass pt cut ///< 2 track match Low pt cut ///< 3 track match High pt cut Int_t floTrgNum; ///< the number of the corresponding loTrg, -1 if no matching Double_t fChi2MatchTrigger; ///< chi2 of trigger/track matching Int_t fTrackID; ///< track ID = track number in TrackRefs AliMUONTrackParam* fTrackParamAtVertex; //!< Track parameters at vertex UShort_t fHitsPatternInTrigCh; ///< Word containing info on the hits left in trigger chambers Int_t fLocalTrigger; ///< packed local trigger information // methods Bool_t ComputeClusterWeights(TMatrixD& clusterWeightsNB, TMatrixD& clusterWeightsB, TMatrixD* mcsCovariances = 0, AliMUONVCluster* discardedCluster = 0) const; void ComputeMCSCovariances(TMatrixD& mcsCovariances) const; ClassDef(AliMUONTrack, 8) // Reconstructed track in ALICE dimuon spectrometer }; #endif