/** * \file CaloPreSampler.h * \author Emiliano Mocchiutti (2007/07/18) */ #ifndef calopresampler_h #define calopresampler_h #include #include #include #include #include #include #include #include #include #include #include using namespace std; /** * * Class to store and calculate variables useful for presampler analysis */ class CaloPreSampler : public TObject { private: // PamLevel2 *L2; Bool_t debug; // // needed to avoid reprocessing the same event over and over to obtain the variables; // UInt_t OBT; UInt_t PKT; UInt_t atime; Bool_t ssel; // Bool_t simulation; ///< True when using simulated data, false by default; // CaloLevel0 *event; ///< CaloLevel0 event needed to process data from level0/1 to level2 CaloStrip *cstrip; ///< CaloStrip object needed to easily recover parameter files CaloLevel2 *pcalo; ///< CaloLevel2 object which contains variables calculated with a reduced calorimeter. // CaloLevel1 *c1; ///< CaloLevel1 object which contains variables calculated with a reduced calorimeter. // Int_t N; ///< Number of W planes to be used as presampler. NOTICE: none the silicon detectors attached to these planes will be used; Int_t NC; ///< Number of W planes to be used as calorimeter. Bool_t sel; ///< Selection mode: planes from 1 to 22-N are used, plane 18 - N is masked if "emulate18" variable is true; Bool_t cont; ///< Contamination mode: planes from N to 22 are used; Bool_t emulate18; ///< If true emulates the non-working plane 18; Bool_t nox; ///< If true do not use X-view Bool_t noy; ///< If true do not use Y-view Bool_t forcecalo; // Float_t rigdefault; ///< Rigidity to be used if no track is available or in standalone mode Bool_t withtrk; ///< Use or not the tracker // public: // // // CaloLevel1* GetCaloLevel1(){ Process(); return c1;}; ///< Retrieve CaloLevel1 pointer which contains variables calculated with a reduced calorimeter. CaloLevel2* GetCaloLevel2(){ Process(); return pcalo;}; ///< Retrieve CaloLevel2 pointer which contains variables calculated with a reduced calorimeter. // void SetNoWpreSampler(Int_t n); ///< Set the number of W planes to be used as presampler. NOTICE: none the silicon detectors attached to these planes will be used. Default: N = 4; void SetNoWcalo(Int_t n); ///< Set the number of W planes to be used as calorimeter. Default: NC = 22-N (N presampler); void Selection(){sel = true; cont = false;}; ///< Set selection mode: planes from 1 to 22-N are used, plane 18 - N is masked if "emulate18" variable is true (DEFAULT); void Contamination(){sel = false; cont = true;}; ///< Set contamination mode: planes from N to 22 are used. void EmulatePlane18(Bool_t emu){emulate18 = emu;} ///< Emulates the non-working plane 18; Default = true; void Simulation(Bool_t sim){simulation = sim;}; ///< Set simulated data flag. Default FALSE; // CaloPreSampler(); CaloPreSampler(PamLevel2 *L2); ~CaloPreSampler(){ Delete(); }; // Int_t GetNoWpreSampler(){return N;}; ///< Get the number of W planes used as presampler. Int_t GetNoWcalo(){return NC;}; ///< Get the number of W planes used as calorimeter. void SetDebug(Bool_t d){ debug=d; }; void UseTracker(Bool_t ch){ withtrk = ch; }; void SetDefaultRig(Float_t rig){ rigdefault = rig; }; void MaskX(Bool_t mskx){ nox = mskx; }; void MaskY(Bool_t msky){ noy = msky; }; void ForceCaloFit(){forcecalo=true;}; // void Clear(); void Clear(Option_t *option){Clear();}; void Delete(); void Delete(Option_t *option){Delete();}; // void Process(); ///< Process data void Print(); void Print(Option_t *option){Print();}; // ClassDef(CaloPreSampler,2); }; #endif