#ifndef ALIITSTRACKERSA_H #define ALIITSTRACKERSA_H #include "AliITSgeomTGeo.h" #include "AliITStrackerMI.h" /* Copyright(c) 1998-2003, ALICE Experiment at CERN, All rights reserved. * * See cxx source for full Copyright notice */ /* $Id$ */ //////////////////////////////////////////////////// // Stand alone tracker class // // Origin: Elisabetta Crescio // // e-mail: crescio@to.infn.it // // adapted for cosmics by A.Dainese // //////////////////////////////////////////////////// class AliITSclusterTable; class AliITStrackSA; class AliESDVertex; class AliESDEvent; class AliITSVertexer; class TTree; class TArrayD; class AliITStrackerSA : public AliITStrackerMI { public: AliITStrackerSA(); AliITStrackerSA(const Char_t *geom); AliITStrackerSA(const Char_t *geom,AliESDVertex *vert); AliITStrackerSA(const Char_t *geom,AliITSVertexer *vertexer); virtual ~AliITStrackerSA(); virtual Int_t Clusters2Tracks(AliESDEvent *event); Int_t FindTracks(AliESDEvent* event, Bool_t useAllClusters=kFALSE); AliITStrackV2* FitTrack(AliITStrackSA* tr,Double_t* primaryVertex,Bool_t onePoint=kFALSE); void StoreTrack(AliITStrackV2 *t,AliESDEvent *event, Bool_t pureSA) const; Int_t FindTrackLowChiSquare() const; Int_t LoadClusters(TTree *cf) {Int_t rc=AliITStrackerMI::LoadClusters(cf); SetClusterTree(cf); return rc;} void SetVertex(AliESDVertex *vtx){fVert = vtx;} void SetClusterTree(TTree * itscl){fITSclusters = itscl;} void SetOutwardFinding() {fInwardFlag=kFALSE;} void SetInwardFinding() {fInwardFlag=kTRUE;} void SetOuterStartLayer(Int_t osl = 0) { if(osl>(AliITSgeomTGeo::GetNLayers()-2)) AliWarning("Minimum Number of layers is 2. OuterStartLayer set to Nlayers-2"); fOuterStartLayer = TMath::Min(AliITSgeomTGeo::GetNLayers()-2,osl); } Int_t GetOuterStartLayer() const {return fOuterStartLayer;} void SetInnerStartLayer(Int_t isl = 5) { if(isl<1) AliWarning("Minimum Number of layers is 2. InnerStartLayer set to 1"); fInnerStartLayer = TMath::Max(1,isl); } Int_t GetInnerStartLayer() const {return fInnerStartLayer;} void SetSAFlag(Bool_t fl){fITSStandAlone=fl;} // StandAlone flag setter Bool_t GetSAFlag() const {return fITSStandAlone;} // StandAlone flag getter void SetFixedWindowSizes(Int_t n=46, Double_t *phi=0, Double_t *lam=0); void SetCalculatedWindowSizes(Int_t n=10, Float_t phimin=0.002, Float_t phimax=0.0145, Float_t lambdamin=0.003, Float_t lambdamax=0.008); void SetMinNPoints(Int_t np){fMinNPoints=np;} Int_t GetMinNPoints() const {return fMinNPoints;} void SetMinimumChargeSDDSSD(Float_t minq=0.){fMinQ=minq;} enum {kSAflag=0x8000}; //flag to mark clusters used in the SA tracker protected: //Initialization void Init(); void ResetForFinding(); void UpdatePoints(); Bool_t SetFirstPoint(Int_t lay, Int_t clu, Double_t* primaryVertex); static Double_t Curvature(Double_t x1,Double_t y1,Double_t x2,Double_t y2, Double_t x3,Double_t y3); Double_t ChoosePoint(Double_t p1, Double_t p2, Double_t pp); static Int_t FindIntersection(Float_t a1, Float_t b1, Float_t c1, Float_t c2, Float_t& x1,Float_t& y1, Float_t& x2, Float_t& y2); static Int_t FindEquation(Float_t x1, Float_t y1, Float_t x2, Float_t y2, Float_t x3, Float_t y3,Float_t& a, Float_t& b, Float_t& c); Int_t FindLabel(AliITStrackV2* track); Int_t SearchClusters(Int_t layer,Double_t phiwindow,Double_t lambdawindow, AliITStrackSA* trs,Double_t zvertex,Int_t flagp); void GetCoorAngles(AliITSRecPoint* cl,Double_t &phi,Double_t &lambda,Float_t &x,Float_t &y,Float_t &z,Double_t* vertex); void GetCoorErrors(AliITSRecPoint* cl,Float_t &sx,Float_t &sy, Float_t &sz); AliITSclusterTable* GetClusterCoord(Int_t layer,Int_t n) const {return (AliITSclusterTable*)fCluCoord[layer]->UncheckedAt(n);} void RemoveClusterCoord(Int_t layer, Int_t n) {fCluCoord[layer]->RemoveAt(n);fCluCoord[layer]->Compress();} Double_t fPhiEstimate; //Estimation of phi angle on next layer Bool_t fITSStandAlone; //Tracking is performed in the ITS alone if kTRUE Float_t fPoint1[2]; //! coord. of 1-st point to evaluate the curvature Float_t fPoint2[2]; //! coord. of 2-nd point to evaluate the curvature Float_t fPoint3[2]; //! coord. of 3-rd point to evaluate the curvature Float_t fPointc[2]; //! current point coord (for curvature eval.) Double_t fLambdac; //! current value of the Lambda angle in the window Double_t fPhic; //! current value of the Phi angle in the window Float_t fCoef1; //! param. of the equation of the circ. approx a layer Float_t fCoef2; //! param. of the equation of the circ. approx a layer Float_t fCoef3; //! param. of the equation of the circ. approx a layer Int_t fNloop; // Number of iterqations on phi and lambda windows Double_t *fPhiWin; // phi window sizes Double_t *fLambdaWin; // lambda window sizes AliESDVertex *fVert; //! primary vertex AliITSVertexer *fVertexer; //! vertexer TClonesArray *fListOfTracks; //! container for found tracks TClonesArray *fListOfSATracks; //! container for found SA tracks TTree *fITSclusters; //! pointer to ITS tree of clusters Bool_t fInwardFlag; // set to kTRUE for inward track finding Int_t fOuterStartLayer; // Outward search for tracks with <6 points: outer layer to start from Int_t fInnerStartLayer; // Inward search for tracks with <6 points: inner layer to start from Int_t fMinNPoints; // minimum number of clusters for a track Float_t fMinQ; // lower cut on cluster charge (SDD and SSD) TClonesArray** fCluLayer; //! array with clusters TClonesArray** fCluCoord; //! array with cluster info private: AliITStrackerSA(const AliITStrackerSA& tracker); AliITStrackerSA& operator=(const AliITStrackerSA& source); ClassDef(AliITStrackerSA,10) }; #endif