#ifndef AliHMPIDCalib_h #define AliHMPIDCalib_h /* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. * * See cxx source for full Copyright notice */ // Class of HMPID to manage digits ---> pads //. //. //. //#include "TTreePlayer.h" //#include #include #include //#include #include #include #include #include #include "AliHMPIDParam.h" #include "AliHMPIDRawStream.h" class TFile; class AliHMPIDCalib: public TObject { public: AliHMPIDCalib(); virtual ~AliHMPIDCalib(); void Init(); void FillPedestal(Int_t pad,Int_t q); //absolute pad number and the charge of the pad void FillErrors(Int_t nDDL,Int_t nErrType, Int_t nErr); //Fill the errors from RawStream void FillDDLCnt(Int_t iddl,Int_t inDDL, Int_t outDDL); //Fill the errors from RawStream Bool_t CalcPedestal(Int_t nDDL, Char_t* name, Char_t *name2,Int_t nEv); //number of the DDL, name of the output file and the number of events processed Bool_t WriteErrors(Int_t nDDL, Char_t* name, Int_t nEv); //number of the DDL, name of the output file and the number of events processed void SetRunParams(ULong_t runNum,Int_t timeStamp, Int_t ldcId); //Set Run Parameters such as Run Number, TimeStamp, LDCid void SetSigCut(Int_t nSigCut) { fSigCut=nSigCut;} //Set Sigma Cuts from Setter void SetSigCutFromFile(TString name); //Set Sigma Cuts from File void SetDeadChannelMapFromFile(TString name); Bool_t GetSelectedDDL() const {return fSelectDDL;} //Set wether ADC histos of pads are written or not TH2F *GetPedMeanMap(Int_t iDDL) {return fPedMeanMap[iDDL];} //Get the pedestal mean map for a DDL to send to AMORE TH2F *GetPedSigMap(Int_t iDDL) {return fPedSigMap[iDDL];} //Get the pedestal sigma map for a DDL to send to AMORE TH1F *GetPedMean(Int_t iChFee) {return f1DPedMean[iChFee];} //Get the pedestal mean map for a FEE channel to send to AMORE TH1F *GetPedSigma(Int_t iChFee) {return f1DPedSigma[iChFee];} //Get the pedestal Sigma map for a FEE channel to send to AMORE THnSparse *GetDeadMap() {return fDeadMap;} //Get the masked channel map from the DAQ database Int_t GetNumMaskedPads() {return fNumMaskedPads;} //Get the number of masked channels Int_t GetNumDeadPads() {return fNumDeadPads;} //Get the number of masked channels protected: Bool_t *faddl; //check is ddl is filled Float_t ****fsq; //Sum of pad Q Float_t ****fsq2; //Sum of pad Q^2 Int_t ****fnpc; //# of the pad was called with non zero charge Int_t ****fpedQ0; //Check how many times a pad gives 0 charge in pedestal runs Int_t **fErr; // Store the numner of errors for a given error type and a given DDL TH1I **fPadAdc; //Charge distribution for pads Bool_t *fIsPad; //Check if the ADC histo for the pad is booked or not TFile *fFile; //ADC histo output file (one per LDC) UInt_t fLdcId; //Ldc ID UInt_t fTimeStamp; //Time Stamp Int_t fRunNum; //Run Number Int_t fSigCut; //n. of pedestal distribution sigmas used to create zero suppresion table Int_t *fnDDLInStream; // if the DDL is in the raw data Int_t *fnDDLOutStream; // if the DDL is in the raw data Bool_t fLargeHisto; //Default is kFALSE.if kTRUE then write large pad histograms with 4093 bins!!!! Only if you have 2GB of RAM!!! Int_t fSelectDDL; //Select the DDL to write for the in the large histograms. Only ONE at one time! THnSparse *fDeadMap; //Dead Channel Map TH2F **fPedMeanMap; //2D mean pedestal map to export to AMORE TH2F **fPedSigMap; //2D pedestal sigma map to export to AMORE TH1F **f1DPedMean; //1D mean pedestal map to export to AMORE TH1F **f1DPedSigma; //1D pedestal sigma map to export to AMORE Int_t fNumMaskedPads; //Number of masked pads Int_t fNumDeadPads; //Number of currently dead channels private: AliHMPIDCalib(const AliHMPIDCalib& c); //dummy copy constructor AliHMPIDCalib &operator=(const AliHMPIDCalib& c); //dummy assignment operator ClassDef(AliHMPIDCalib,5) //HMPID calibration and pedestal class }; #endif