#ifndef ALITRDCLUSTERRESOLUTION_H #define ALITRDCLUSTERRESOLUTION_H #ifndef ALITRDRECOTASK_H #include "AliTRDrecoTask.h" #endif class TObjArray; class TAxis; class AliTRDclusterResolution : public AliTRDrecoTask { public: enum EAxisBinning { // bins in z and x direction kNTB = 25 ,kND = 5 ,kN = kND*kNTB }; enum EResultContainers { // results containers kQRes = 0 ,kCenter= 1 ,kSigm = 2 ,kMean = 3 }; enum ECheckBits { // force setting the ExB kExB = BIT(23) }; AliTRDclusterResolution(); virtual ~AliTRDclusterResolution(); void ConnectInputData(Option_t *); void CreateOutputObjects(); void Exec(Option_t *); Int_t GetDetector() const { return fDet; } inline Float_t GetExB() const; inline Float_t GetVdrift() const; Bool_t GetRefFigure(Int_t ifig); Bool_t HasExB() const { return TestBit(kExB);} TObjArray* Histos(); Bool_t PostProcess(); Bool_t SetExB(Int_t det=-1, Int_t c = 70, Int_t r = 7); void Terminate(Option_t *){}; protected: void ProcessCharge(); void ProcessCenterPad(); void ProcessSigma(); void ProcessMean(); private: AliTRDclusterResolution(const AliTRDclusterResolution&); AliTRDclusterResolution& operator=(const AliTRDclusterResolution&); TObjArray *fInfo; // list of cluster info TObjArray *fResults;// list of result graphs/histos TAxis *fAt; // binning in the x(radial) direction (time) TAxis *fAd; // binning in the z direction (drift cell) Float_t fExB; // tg of the Lorentz angle Float_t fVdrift; // mean drift velocity Short_t fDet; // detector (-1 for all) ClassDef(AliTRDclusterResolution, 1) // cluster resolution }; //___________________________________________________ inline Float_t AliTRDclusterResolution::GetExB() const { if(!HasExB()){ printf("WARNING :: ExB was not set. Use B=0.\n"); } return fExB; } //___________________________________________________ inline Float_t AliTRDclusterResolution::GetVdrift() const { if(!HasExB()){ printf("WARNING :: ExB was not set. Use B=0.\n"); } return fVdrift; } #endif