#ifndef DIGITIZER_H #define DIGITIZER_H #include #include #include #include #include #include "Riostream.h" #include "TFile.h" #include "TDirectory.h" #include "TTree.h" #include "TLeafI.h" #include "TH1.h" #include "TH2.h" #include "TMath.h" #include "TSQLServer.h" // #include "CRC.h" class Digitizer{ protected: // in and output data members TTree* fhBookTree; ofstream fOutputfile; static const int fPSCUbuffer = 8; static const int fTRIGGERbuffer = 153; //(bytes) static const int fTOFbuffer = 276; //(bytes) static const int fACbuffer = 128; static const int fNDbuffer = 6; static const int fS4buffer = 3; static const int fPADbuffer = 64; // changed from 32! static const int fCALObuffer = 10000; static const float fCALOGeV2MIPratio = 0.0001059994; static const int fDummybuffer = 64; // dimensions of vectors and buffer, parameter for tracker static const int fTRACKbuffer = 50000; // to be optimized static const int fNviews = 12; static const int fNstrips_view = 3072; static const int fNladder=3; static const int fNstrips_ladder = 1024; static const int fCutzop= 4; static const int fCutclu= 7; static const int fNclst = 2; static const float fAvePedex = 1200.; // to be adjusted static const float fSigmaPedex = 1.; // to be adjusted static const float fAveSigmax = 4.3; // to be adjusted static const float fSigmaSigmax =0.1; // to be adjusted static const float fAvePedey = 2800.; // to be adjusted static const float fSigmaPedey = 1.; // to be adjusted static const float fAveSigmay = 8.; // to be adjusted static const float fSigmaSigmay =0.1; // to be adjusted static const float fSigmaCommon = 25.; // to be adjusted // end dimensions of vectors and buffer, parameter for tracker UShort_t fDataPSCU[fPSCUbuffer]; UInt_t fCounter; UInt_t fOBT; UShort_t fDataPadding[fPADbuffer]; UInt_t fPadding; UChar_t fDataTrigger[fTRIGGERbuffer]; UChar_t fDataTof[fTOFbuffer]; UShort_t fDataAC[fACbuffer]; UShort_t fDataND[fNDbuffer]; UShort_t fDataS4[fS4buffer]; UShort_t fDataDummy[fDummybuffer]; UShort_t fDataCALO[fCALObuffer]; UShort_t fSecCalo[4]; UShort_t fSecCALOLength[4]; UShort_t fCALOlength; UShort_t fModCalo; Float_t fCalomip[2][22][96]; // ADC to MIP conversion values Float_t fcalped[4][11][96]; // pedestals Float_t fcalgood[4][11][96]; // used or not in the common noise calculation Float_t fcalthr[4][11][6]; // thresholds Float_t fcalrms[4][11][96]; // rms Float_t fcalbase[4][11][6]; // baselines (common noise) during calibration Float_t fcalvar[4][11][6]; // variance Float_t fcstwerr[4]; // status word Float_t fcperror[4]; // unpacking error flag UInt_t fGivenCaloCalib; char* fFilename; UInt_t fLen; // vectors, buffer, and variables for tracker UShort_t fDataTrack[fTRACKbuffer]; UInt_t fTracklength; // Actual length of buffer Float_t fPedeTrack[fNviews][fNstrips_view]; Float_t fSigmaTrack[fNviews][fNstrips_view]; Float_t fMipCor[fNladder][fNviews] ; // end vectors, buffer, and variables for tracker // // db variables // TSQLServer *fDbc; // Declaration of leave types Int_t Irun; Int_t Ievnt; Int_t Ipa; Float_t X0; Float_t Y0; Float_t Z0; Float_t Theta; Float_t Phi; Float_t P0; Int_t Nthtof; UChar_t Ipltof[100]; //[Nthtof] UChar_t Ipaddle[100]; //[Nthtof] UChar_t Ipartof[100]; //[Nthtof] Float_t Xintof[100]; //[Nthtof] Float_t Yintof[100]; //[Nthtof] Float_t Zintof[100]; //[Nthtof] Float_t Xouttof[100]; //[Nthtof] Float_t Youttof[100]; //[Nthtof] Float_t Zouttof[100]; //[Nthtof] Float_t Ereltof[100]; //[Nthtof] Float_t Timetof[100]; //[Nthtof] Float_t Pathtof[100]; //[Nthtof] Float_t P0tof[100]; //[Nthtof] Int_t Nthcat; UChar_t Iparcat[50]; //[Nthcat] UChar_t Icat[50]; //[Nthcat] Float_t Xincat[50]; //[Nthcat] Float_t Yincat[50]; //[Nthcat] Float_t Zincat[50]; //[Nthcat] Float_t Xoutcat[50]; //[Nthcat] Float_t Youtcat[50]; //[Nthcat] Float_t Zoutcat[50]; //[Nthcat] Float_t Erelcat[50]; //[Nthcat] Float_t Timecat[50]; //[Nthcat] Float_t Pathcat[50]; //[Nthcat] Float_t P0cat[50]; //[Nthcat] Int_t Nthcas; UChar_t Iparcas[50]; //[Nthcas] UChar_t Icas[50]; //[Nthcas] Float_t Xincas[50]; //[Nthcas] Float_t Yincas[50]; //[Nthcas] Float_t Zincas[50]; //[Nthcas] Float_t Xoutcas[50]; //[Nthcas] Float_t Youtcas[50]; //[Nthcas] Float_t Zoutcas[50]; //[Nthcas] Float_t Erelcas[50]; //[Nthcas] Float_t Timecas[50]; //[Nthcas] Float_t Pathcas[50]; //[Nthcas] Float_t P0cas[50]; //[Nthcas] Int_t Nthspe; UChar_t Iparspe[100]; //[Nthspe] UChar_t Itrpb[100]; //[Nthspe] UChar_t Itrsl[100]; //[Nthspe] UChar_t Itspa[100]; //[Nthspe] Float_t Xinspe[100]; //[Nthspe] Float_t Yinspe[100]; //[Nthspe] Float_t Zinspe[100]; //[Nthspe] Float_t Xoutspe[100]; //[Nthspe] Float_t Youtspe[100]; //[Nthspe] Float_t Zoutspe[100]; //[Nthspe] Float_t Xavspe[100]; //[Nthspe] Float_t Yavspe[100]; //[Nthspe] Float_t Zavspe[100]; //[Nthspe] Float_t Erelspe[100]; //[Nthspe] Float_t Pathspe[100]; //[Nthspe] Float_t P0spe[100]; //[Nthspe] UChar_t Nxmult[100]; //[Nthspe] UChar_t Nymult[100]; //[Nthspe] Int_t Nstrpx; UChar_t Npstripx[1000]; //[Nstrpx] UChar_t Ntstripx[1000]; //[Nstrpx] UShort_t Istripx[1000]; //[Nstrpx] //UInt_t Istripx[1000]; //[Nstrpx] Float_t Qstripx[1000]; //[Nstrpx] Float_t Xstripx[1000]; //[Nstrpx] Int_t Nstrpy; UChar_t Npstripy[1000]; //[Nstrpy] UChar_t Ntstripy[1000]; //[Nstrpy] UShort_t Istripy[1000]; //[Nstrpy] //UInt_t Istripy[1000]; //[Nstrpy] Float_t Qstripy[1000]; //[Nstrpy] Float_t Ystripy[1000]; //[Nstrpy] Int_t Nthcali; UChar_t Icaplane[4224]; //[Nthcali] UChar_t Icastrip[4224]; //[Nthcali] Int_t Icamod[4224]; //[Nthcali] Float_t Enestrip[4224]; //[Nthcali] Int_t Nthcal; UChar_t Icapl[1000]; //[Nthcal] UChar_t Icasi[1000]; //[Nthcal] UChar_t Icast[1000]; //[Nthcal] Float_t Xincal[1000]; //[Nthcal] Float_t Yincal[1000]; //[Nthcal] Float_t Zincal[1000]; //[Nthcal] Float_t Erelcal[1000]; //[Nthcal] Int_t Nthnd; UChar_t Itubend[200]; //[Nthnd] UChar_t Iparnd[200]; //[Nthnd] Float_t Xinnd[200]; //[Nthnd] Float_t Yinnd[200]; //[Nthnd] Float_t Zinnd[200]; //[Nthnd] Float_t Xoutnd[200]; //[Nthnd] Float_t Youtnd[200]; //[Nthnd] Float_t Zoutnd[200]; //[Nthnd] Float_t Erelnd[200]; //[Nthnd] Float_t Timend[200]; //[Nthnd] Float_t Pathnd[200]; //[Nthnd] Float_t P0nd[200]; //[Nthnd] Int_t Nthcard; UChar_t Iparcard[100]; //[Nthcard] UChar_t Icard[100]; //[Nthcard] Float_t Xincard[100]; //[Nthcard] Float_t Yincard[100]; //[Nthcard] Float_t Zincard[100]; //[Nthcard] Float_t Xoutcard[100]; //[Nthcard] Float_t Youtcard[100]; //[Nthcard] Float_t Zoutcard[100]; //[Nthcard] Float_t Erelcard[100]; //[Nthcard] Float_t Timecard[100]; //[Nthcard] Float_t Pathcard[100]; //[Nthcard] Float_t P0card[100]; //[Nthcard] // List of branches TBranch *b_Irun; //! TBranch *b_Ievnt; //! TBranch *b_Ipa; //! TBranch *b_X0; //! TBranch *b_Y0; //! TBranch *b_Z0; //! TBranch *b_Theta; //! TBranch *b_Phi; //! TBranch *b_P0; //! TBranch *b_Nthtof; //! TBranch *b_Ipltof; //! TBranch *b_Ipaddle; //! TBranch *b_Ipartof; //! TBranch *b_Xintof; //! TBranch *b_Yintof; //! TBranch *b_Zintof; //! TBranch *b_Xouttof; //! TBranch *b_Youttof; //! TBranch *b_Zouttof; //! TBranch *b_Ereltof; //! TBranch *b_Timetof; //! TBranch *b_Pathtof; //! TBranch *b_P0tof; //! TBranch *b_Nthcat; //! TBranch *b_Iparcat; //! TBranch *b_Icat; //! TBranch *b_Xincat; //! TBranch *b_Yincat; //! TBranch *b_Zincat; //! TBranch *b_Xoutcat; //! TBranch *b_Youtcat; //! TBranch *b_Zoutcat; //! TBranch *b_Erelcat; //! TBranch *b_Timecat; //! TBranch *b_Pathcat; //! TBranch *b_P0cat; //! TBranch *b_Nthcas; //! TBranch *b_Iparcas; //! TBranch *b_Icas; //! TBranch *b_Xincas; //! TBranch *b_Yincas; //! TBranch *b_Zincas; //! TBranch *b_Xoutcas; //! TBranch *b_Youtcas; //! TBranch *b_Zoutcas; //! TBranch *b_Erelcas; //! TBranch *b_Timecas; //! TBranch *b_Pathcas; //! TBranch *b_P0cas; //! TBranch *b_Nthspe; //! TBranch *b_Iparspe; //! TBranch *b_Itrpb; //! TBranch *b_Itrsl; //! TBranch *b_Itspa; //! TBranch *b_Xinspe; //! TBranch *b_Yinspe; //! TBranch *b_Zinspe; //! TBranch *b_Xoutspe; //! TBranch *b_Youtspe; //! TBranch *b_Zoutspe; //! TBranch *b_Xavspe; //! TBranch *b_Yavspe; //! TBranch *b_Zavspe; //! TBranch *b_Erelspe; //! TBranch *b_Pathspe; //! TBranch *b_P0spe; //! TBranch *b_Nxmult; //! TBranch *b_Nymult; //! TBranch *b_Nstrpx; //! TBranch *b_Npstripx; //! TBranch *b_Ntstripx; //! TBranch *b_Istripx; //! TBranch *b_Qstripx; //! TBranch *b_Xstripx; //! TBranch *b_Nstrpy; //! TBranch *b_Npstripy; //! TBranch *b_Ntstripy; //! TBranch *b_Istripy; //! TBranch *b_Qstripy; //! TBranch *b_Ystripy; //! TBranch *b_Nthcali; //! TBranch *b_Icaplane; //! TBranch *b_Icastrip; //! TBranch *b_Icamod; //! TBranch *b_Enestrip; //! TBranch *b_Nthcal; //! TBranch *b_Icapl; //! TBranch *b_Icasi; //! TBranch *b_Icast; //! TBranch *b_Xincal; //! TBranch *b_Yincal; //! TBranch *b_Zincal; //! TBranch *b_Erelcal; //! TBranch *b_Nthnd; //! TBranch *b_Itubend; //! TBranch *b_Iparnd; //! TBranch *b_Xinnd; //! TBranch *b_Yinnd; //! TBranch *b_Zinnd; //! TBranch *b_Xoutnd; //! TBranch *b_Youtnd; //! TBranch *b_Zoutnd; //! TBranch *b_Erelnd; //! TBranch *b_Timend; //! TBranch *b_Pathnd; //! TBranch *b_P0nd; //! TBranch *b_Nthcard; //! TBranch *b_Iparcard; //! TBranch *b_Icard; //! TBranch *b_Xincard; //! TBranch *b_Yincard; //! TBranch *b_Zincard; //! TBranch *b_Xoutcard; //! TBranch *b_Youtcard; //! TBranch *b_Zoutcard; //! TBranch *b_Erelcard; //! TBranch *b_Timecard; //! TBranch *b_Pathcard; //! TBranch *b_P0card; //! // public: Digitizer(TTree *tree, char* &file_raw); // constructor void Close(); void SetTree(TTree *tree) {fhBookTree = tree;}; void Loop(); // does the looping over events void DigitizePSCU(UInt_t, UChar_t); // digitizes the CPU header void AddPadding(); void DigitizeTRIGGER(); // digitizes the trigger Int_t DigitizeTOF(); // digitizes the tof void DigitizeAC(); // digitizes the anti-counter void DigitizeND(); // digitizes the ND void DigitizeS4(); // digitizes the S4 void DigitizeCALO(); // digitizes the calorimeter void DigitizeCALOCALIB(); // digitizes the calorimeter calibration void DigitizeCALORAW(); // digitizes the calorimeter void DigitizeCALOCOMPRESS(); // digitizes the calorimeter void DigitizeCALOFULL(); // digitizes the calorimeter Float_t GetCALOen(Int_t sec, Int_t plane, Int_t strip); // retrieve calorimeter strip energy from the simulation void ClearCaloCalib(Int_t s); // clear calorimeter calibration variables for section s Int_t CaloLoadCalib(Int_t s,TString fcalname, UInt_t calibno); // load calorimeter calibration variables for section s from file fcalname entry calibno void CaloLoadCalib(); void DigitizeDummy(); // digitizes the dummy detector // ToF methods: UChar_t EvaluateCrcTof(UChar_t*); void Paddle2Pmt(Int_t, Int_t, Int_t*, Int_t*); //void Paddle2Pmt(Int_t, Int_t, Int_t &pmtleft, Int_t &pmtright); UChar_t Bin2GrayTof(UChar_t, UChar_t); UShort_t* GetDataAC(){return(fDataAC);}; // retrieve AC data (not used right now) UShort_t* GetDataCALO(){return(fDataCALO);}; // retrieve AC data (not used right now) // methods for Tracker void DigitizeTrack(); // digitizes the Tracker data void DigitizeTrackCalib(Int_t ii); // digitizes the Tracker calibration (x view or y view) void WriteTrackCalib(); // writes Tracker calibration to file void ClearTrackCalib(); // clear tracker calibration void LoadTrackCalib(); // load in memmory tracker calibration void CompressTrackData(Float_t AdcTrack[fNviews][fNstrips_view]); // Compress and Digitize data of one Ladder in turn void LoadMipCor(); // Load the strip calibration in memory Float_t SaturationTrack(Float_t ADC); // Saturation simulation // end methods for Tracker void WriteData(); // writes data to file void ReadData(); // }; #endif /* DIGITIZER_H */