/** * \file TrkLevel1.h * \author Elena Vannuccini */ #ifndef trklevel1_h #define trklevel1_h #include #include #include #include #include //#include #include #define INC_CUT 4. /** * \brief Class to describe tracker clusters. * * A cluster is defined as a group of adjacent strips whose signals exceed noise by INC_CUT sigma, and at least one strip has signal/noise > SEED_CUT. Tipical values are SEED_CUT = 7 and INC_CUT = 4. * */ // ================================================================== class TrkCluster : public TObject { private: public: int view; ///< view int maxs; ///< strip number (1-3072) of cluster center int indmax; Int_t CLlength; ///< number of stored strip info (signal+sigma+adc+bad) Float_t *clsignal; //[CLlength] Float_t *clsigma; //[CLlength] Int_t *cladc; //[CLlength] Bool_t *clbad; //[CLlength] TrkCluster(); ~TrkCluster(){Clear();}; TrkCluster(const TrkCluster&); void Dump(); void Clear(); void Clear(Option_t *option){Clear();}; void Delete(){Clear();}; Float_t GetSignal(Int_t, Float_t); ///< cluster signal Float_t GetSignal(Float_t cut) { return GetSignal( (Int_t)0, cut); }; Float_t GetSignal(Int_t nstrip) { return GetSignal( nstrip, (Float_t)(-1000) ); }; Float_t GetSignal() { return GetSignal( (Int_t)0,(Float_t)INC_CUT); }; Float_t GetSignalToNoise(Int_t,Float_t); ///< cluster signal/noise Float_t GetSignalToNoise(Float_t cut) { return GetSignalToNoise( (Int_t)0, cut); }; Float_t GetSignalToNoise(Int_t nstrip) { return GetSignalToNoise( nstrip, (Float_t)(-1000) ); }; Float_t GetSignalToNoise() { return GetSignalToNoise( (Int_t)0, (Float_t)INC_CUT); }; Int_t GetMultiplicity(Float_t); ///< cluster multiplicity Int_t GetMultiplicity() { return GetMultiplicity(INC_CUT); }; void GetLevel1Struct(cTrkLevel1* l1); void GetLevel1Struct(){GetLevel1Struct(&level1event_);}; Float_t GetCOG(Int_t); Float_t GetCOG(Float_t angle); Float_t GetCOG(){ return GetCOG(0); }; Float_t GetETA(Int_t,float); Float_t GetETA(float angle){ return GetETA(0,angle); }; Bool_t IsBad(Int_t); ///< bad-cluster flag Bool_t IsSaturated(Int_t); ///< saturated-cluster flag Int_t GetPlane() { return (Int_t)((view+1)/2);}; ///< plane number (1-6) Int_t GetLadder(){ return 1+(Int_t)((maxs-1)/1024); }; ///< ladder number (1-3) Bool_t IsY(){ return (Bool_t)view%2; }; Bool_t IsX(){ return !((Bool_t)view%2); }; TrkCluster* GetTrkCluster(){ return this; }; friend class TrkLevel1; ClassDef(TrkCluster,2); }; /** * \brief Class to describe tracker LEVEL1 data. * * A Level1 tracker event is defined as a collection of clusters ( TrkCluster objects ). * The result of common-noise computation for each viking is also stored ( cnev[24][12] ). * A general flag summarize the event status (missing sections, crc failures, decoding errors ans so on...). */ class TrkLevel1 : public TObject { private: public: Int_t good[12]; ///< event status Float_t cn[24][12]; ///< CN // Float_t cnrms[24][12]; ///< CN RMS Int_t cnn[24][12]; ///< number of strips for CN computation TClonesArray *Cluster; ///< clusters TrkLevel1(); ~TrkLevel1(){Delete();}; int nclstr() {return Cluster->GetEntries();} ///< number of stored clusters void Dump(); // void SetFromLevel1Struct(cTrkLevel1 *, Bool_t); // void GetLevel1Struct(cTrkLevel1 *) const; void GetLevel1Struct(cTrkLevel1 *l1); void SetFromLevel1Struct(cTrkLevel1 *l1, Bool_t full); void GetLevel1Struct(){GetLevel1Struct(&level1event_);}; void SetFromLevel1Struct(Bool_t full){SetFromLevel1Struct(&level1event_,full);}; void SetFromLevel1Struct(){SetFromLevel1Struct(true);}; void Clear(); void Delete(); void Set(); TrkCluster* GetCluster(int); TrkLevel1* GetTrkLevel1(){return this;} TClonesArray* GetClusters(){return Cluster;}; ///< returns pointer to the cluster array /* int LoadPfaParam(TString); */ /* int LoadFieldParam(TString); */ /* int LoadChargeParam(TString); */ /* int LoadAlignmentParam(TString); */ /* int LoadMipParam(TString); */ /* int LoadVKMaskParam(TString); */ /* int LoadPfaParam(){return LoadPfaParam("");}; */ /* int LoadFieldParam(){return LoadFieldParam("");}; */ /* int LoadChargeParam(){return LoadChargeParam("");}; */ /* int LoadAlignmentParam(){return LoadAlignmentParam("");}; */ /* int LoadMipParam(){return LoadMipParam("");}; */ /* int LoadVKMaskParam(){return LoadVKMaskParam("");}; */ /* int LoadParams(); */ int ProcessEvent(int); int ProcessEvent(){return ProcessEvent(0);}; int GetPfaNbinsAngle(); int GetPfaNbinsETA(); int GetPfaNbinsCharge(){return 0;}; float* GetPfaCoord(TString pfa, int nview, int nladder, int nang); float* GetPfaAbs(TString pfa, int nang); ClassDef(TrkLevel1,2); }; #endif