/** * \file inc/CaloProcessing.h * \author Emiliano Mocchiutti **/ #ifndef CaloProcessing_h #define CaloProcessing_h #include #include // // YODA headers // #include #include #include // #include #include #include /** * \brief Class needed to calibrate calorimeter data. * * Calibrates data and connects to fortran routines using structures. * **/ class CaloProcessing : public TObject { private: Bool_t debug; ///< debugging flag Bool_t verbose; ///< verbose flag // // variables in which it is stored the calibration information for the four sections // UInt_t idcalib[4]; ///< ID of root file containing calibrations (one per section) UInt_t fromtime[4]; ///< lower validity time limit UInt_t totime[4]; ///< upper validity time limit Int_t calibno[4]; ///< entry of the file TString fcalname[4]; ///< filename of calibrations // // variables needed to open level0 files // TTree *l0tr; ///< level0 tree TBranch *l0calo; ///< level0 calorimeter branch pamela::calorimeter::CalorimeterEvent *de; ///< level0 calorimeter object // // // variables from the calorimeter online calibration // Float_t calped[2][22][96]; ///< pedestals Float_t calgood[2][22][96]; ///< used or not in the common noise calculation Float_t calthr[2][22][6]; ///< thresholds Float_t calrms[2][22][96]; ///< rms Float_t calbase[2][22][6]; ///< baselines (common noise) during calibration Float_t calvar[2][22][6]; ///< variance Float_t cstwerr[4]; ///< status word Float_t cperror[4]; ///< unpacking error flag // // variables needed to calibrate the calorimeter event by event basis // Float_t dexy[2][22][96]; ///< compressed ADC data Float_t dexyc[2][22][96]; ///< RAW ADC data Float_t base[2][22][6]; ///< baselines for this event Float_t sbase[2][22][6]; ///< saved baselines from previous events // // Energy vector // Int_t istrip; ///< number of strip above threshold Int_t svstrip[4224]; ///< saved calibrated energy // // Variables needed to handle parameters files // Bool_t calopar1; ///< boolean, is true if parameter set number 101 has already been loaded Bool_t calopar2; ///< boolean, is true if parameter set number 102 has already been loaded Bool_t calopar3; ///< boolean, is true if parameter set number 103 has already been loaded UInt_t ftcalopar1; ///< parameter set 101 lower limit validity UInt_t ttcalopar1; ///< parameter set 101 upper limit validity UInt_t ftcalopar2; ///< parameter set 102 lower limit validity UInt_t ttcalopar2; ///< parameter set 102 upper limit validity UInt_t ftcalopar3; ///< parameter set 103 lower limit validity UInt_t ttcalopar3; ///< parameter set 103 upper limit validity // // private methods // /** * \param s calorimeter section. **/ void ClearCalibVals(Int_t s); ///< clear calibration values for section s void ClearCommonVar(); ///< clear common variables void ClearTrkVar(); ///< clear track-related variables void FindBaseRaw(Int_t l, Int_t m, Int_t pre); ///< calculate baselines starting from RAW data Int_t Update(TSQLServer *dbc, UInt_t atime, Int_t s); ///< update calibration for this event Int_t LoadCalib(Int_t s); ///< load calibrations public: // // ADC to MIP conversion values // Float_t mip[2][22][96]; ///< ADC to MIP conversion values Int_t obadmask[2][22][96]; ///< Offline mask of bad strips (not used to calculate baselines and calorimeter variables) Float_t emin; ///< Offline threshold to separate noise from signal // // Structures to pass data from/to F77 // struct FlCaLevel1 *clevel1; ///< input structure struct FlCaLevel2 *clevel2; ///< output structure // // // Int_t trkseqno; ///< tracker track sequential number (-1 if calorimeter selftrigger) // // useful methods // Int_t ChkParam(TSQLServer *dbc, UInt_t runheader); ///< check and load parameters data Int_t ChkCalib(TSQLServer *dbc, UInt_t atime); ///< check and load calibration data Int_t Calibrate(Int_t ei); ///< perform data calibration void GetCommonVar(); ///< call fortran common variables program void GetTrkVar(); ///< call fortran track-related variables program void ClearStructs(); ///< clear input and output structures void FillCommonVar(CaloLevel1 *c1, CaloLevel2 *ca); ///< copy common variables from structure to class void FillTrkVar(CaloLevel2 *ca, Int_t nutrk); ///< copy track-related variables from structure to class void RunClose(); ///< clear variables which could change from one run to another // // constructor // CaloProcessing(); ///< contructor void ProcessingInit(TSQLServer *dbc, UInt_t hs, Int_t &sgnl, TTree *l0tree, Bool_t debug, Bool_t verbose); ///< initialize caloprocessing object // // virtual destructor // virtual ~CaloProcessing();///< virtual destructor // }; #endif