#ifndef MARS_MCalibrationChargeCalc #define MARS_MCalibrationChargeCalc ///////////////////////////////////////////////////////////////////////////// // // // MCalibrationChargeCalc // // // // Integrates the time slices of the all pixels of a calibration event // // and substract the pedestal value // // // ///////////////////////////////////////////////////////////////////////////// #ifndef MARS_MTask #include "MTask.h" #endif #ifndef MARS_MBadPixelsPix #include "MBadPixelsPix.h" #endif #ifndef MARS_MCalibrationCam #include "MCalibrationCam.h" #endif #ifndef ROOT_TArrayC #include #endif class MRawEvtHeader; class MPedestalCam; class MPedestalPix; class MCalibrationChargePINDiode; class MCalibrationIntensityBlindCam; class MCalibrationBlindCam; class MCalibrationChargePix; class MCalibrationIntensityChargeCam; class MCalibrationChargeCam; class MCalibrationIntensityQECam; class MCalibrationQECam; class MGeomCam; class MExtractedSignalCam; class MBadPixelsIntensityCam; class MBadPixelsCam; class MTime; class MCalibrationChargeCalc : public MTask { private: static const Float_t fgChargeLimit; //! Default for fChargeLimit (now set to: 2.5) static const Float_t fgChargeErrLimit; //! Default for fChargeErrLimit (now set to: 0.) static const Float_t fgChargeRelErrLimit; //! Default for fChargeRelErrLimit (now set to: 1.) static const Float_t fgLambdaCheckLimit; //! Default for fLambdaCheckLimit (now set to: 0.2) static const Float_t fgLambdaErrLimit; //! Default for fLabmdaErrLimit (now set to: 0.5) static const Float_t fgPheErrLimit; //! Default for fPheErrLimit (now set to: 4.5) static const Float_t fgFFactorErrLimit; //! Default for fFFactorErrLimit (now set to: 4.5) // Variables Float_t fChargeLimit; // Limit acceptance mean charge (in units of PedRMS) Float_t fChargeErrLimit; // Limit acceptance charge error (in abs. numbers) Float_t fChargeRelErrLimit; // Limit acceptance rel. error mean (in abs. numbers) Float_t fLambdaCheckLimit; // Limit rel. diff. lambda and lambdacheck in Blind Pixel Float_t fLambdaErrLimit; // Limit acceptance lambda error in Blind Pixel Float_t fNumHiGainSamples; // Number High-Gain FADC slices used by extractor Float_t fNumLoGainSamples; // Number Low -Gain FADC slices used by extractor Float_t fPheErrLimit; // Limit acceptance nr. phe's w.r.t. area idx mean (in sigmas) Float_t fFFactorErrLimit; // Limit acceptance F-Factor w.r.t. area idx mean Float_t fSqrtHiGainSamples; // Square root nr. High-Gain FADC slices used by extractor Float_t fSqrtLoGainSamples; // Square root nr. Low -Gain FADC slices used by extractor MCalibrationCam::PulserColor_t fPulserColor; // Calibration LEDs colour UInt_t fPulserPattern; // Calibration LEDs Pulser Pattern Int_t fNumInnerFFactorMethodUsed; // Number of inner pixels used for F-Factor Method calibration Byte_t fFlags; // Bit-field for the general flags TArrayC fResultFlags; // Bit-fields for the fitting results (one field per area index) TArrayC fBlindPixelFlags; // Bit-fields for the blind pixel flags (one field per blind pixel) TArrayC fPINDiodeFlags; // Bit-fields for the PIN Diode flags (one field per PIN Diode ) TString fOutputPath; // Path to the output file TString fOutputFile; // Name of the output file // Pointers MBadPixelsIntensityCam *fIntensBad; //! Bad Pixels MBadPixelsCam *fBadPixels; //! Bad Pixels MCalibrationIntensityChargeCam *fIntensCam; //! Calibrated Charges of all pixels MCalibrationChargeCam *fCam; //! Calibrated Charges of all pixels MCalibrationIntensityBlindCam *fIntensBlind; //! Calibrated Charges of the Blind Pixels MCalibrationBlindCam *fBlindCam; //! Calibrated Charges of the Blind Pixels MCalibrationChargePINDiode *fPINDiode; //! Calibrated Charges of the PIN Diode MCalibrationIntensityQECam *fIntensQE; //! Calibrated Quantum Efficiencies of all pixels MCalibrationQECam *fQECam; //! Calibrated Quantum Efficiencies of all pixels MGeomCam *fGeom; //! Camera geometry MExtractedSignalCam *fSignal; //! Extracted Signal MRawEvtHeader *fHeader; //! Event header MPedestalCam *fPedestals; //! Pedestals all pixels (calculated previously from ped.file) // enums enum Check_t { kCheckDeadPixels, kCheckExtractionWindow, kCheckHistOverflow, kCheckDeviatingBehavior, kCheckOscillations }; // Possible Checks Byte_t fCheckFlags; // Bit-field to hold the possible check flags enum { kDebug, kPheFitOK, kFFactorFitOK, kBlindPixelFitOK, kBlindPixelPedFitOK, kPINDiodeFitOK }; // functions const char* GetOutputFile(); void FinalizePedestals ( const MPedestalPix &ped, MCalibrationChargePix &cal, const Int_t aidx ); Bool_t FinalizeCharges ( MCalibrationChargePix &cal, MBadPixelsPix &bad, const char* what); Bool_t FinalizePINDiode (); Bool_t FinalizeBlindCam (); Bool_t FinalizeFFactorMethod (); void FinalizeBadPixels (); void FinalizeFFactorQECam (); void FinalizeBlindPixelQECam (); void FinalizePINDiodeQECam (); void FinalizeCombinedQECam (); void FinalizeUnsuitablePixels(); void PrintUncalibrated( MBadPixelsPix::UncalibratedType_t typ, const char *text) const; // Query checks Bool_t IsCheckDeadPixels () const { return TESTBIT(fCheckFlags,kCheckDeadPixels); } Bool_t IsCheckDeviatingBehavior() const { return TESTBIT(fCheckFlags,kCheckDeviatingBehavior); } Bool_t IsCheckExtractionWindow () const { return TESTBIT(fCheckFlags,kCheckExtractionWindow); } Bool_t IsCheckHistOverflow () const { return TESTBIT(fCheckFlags,kCheckHistOverflow); } Bool_t IsCheckOscillations () const { return TESTBIT(fCheckFlags,kCheckOscillations); } // Global fit results void SetPheFitOK ( const Int_t aidx, const Bool_t b=kTRUE ) { b ? SETBIT(fResultFlags[aidx], kPheFitOK) : CLRBIT(fResultFlags[aidx], kPheFitOK); } void SetFFactorFitOK ( const Int_t aidx, const Bool_t b=kTRUE ) { b ? SETBIT(fResultFlags[aidx], kFFactorFitOK) : CLRBIT(fResultFlags[aidx], kFFactorFitOK); } void SetBlindPixelFitOK ( const Int_t idx, const Bool_t b=kTRUE ) { b ? SETBIT(fBlindPixelFlags[idx], kBlindPixelFitOK) : CLRBIT(fBlindPixelFlags[idx], kBlindPixelFitOK); } void SetBlindPixelPedFitOK( const Int_t idx, const Bool_t b=kTRUE ) { b ? SETBIT(fBlindPixelFlags[idx], kBlindPixelPedFitOK) : CLRBIT(fBlindPixelFlags[idx], kBlindPixelPedFitOK); } void SetPINDiodeFitOK ( const Int_t idx, const Bool_t b=kTRUE ) { b ? SETBIT(fPINDiodeFlags[idx], kPINDiodeFitOK) : CLRBIT(fPINDiodeFlags[idx], kPINDiodeFitOK); } Int_t PreProcess (MParList *pList); Bool_t ReInit (MParList *pList); Int_t Process (); Int_t PostProcess(); Int_t ReadEnv(const TEnv &env, TString prefix, Bool_t print); public: MCalibrationChargeCalc(const char *name=NULL, const char *title=NULL); void Clear(const Option_t *o=""); Bool_t IsDebug() const { return TESTBIT(fFlags,kDebug); } void SetChargeLimit ( const Float_t f=fgChargeLimit ) { fChargeLimit = f; } void SetChargeErrLimit ( const Float_t f=fgChargeErrLimit ) { fChargeErrLimit = f; } void SetChargeRelErrLimit ( const Float_t f=fgChargeRelErrLimit ) { fChargeRelErrLimit = f; } // Checks void SetCheckDeadPixels( const Bool_t b=kTRUE ) { b ? SETBIT(fCheckFlags,kCheckDeadPixels) : CLRBIT(fCheckFlags,kCheckDeadPixels); } void SetCheckDeviatingBehavior( const Bool_t b=kTRUE ) { b ? SETBIT(fCheckFlags,kCheckDeviatingBehavior) : CLRBIT(fCheckFlags,kCheckDeviatingBehavior); } void SetCheckExtractionWindow( const Bool_t b=kTRUE ) { b ? SETBIT(fCheckFlags,kCheckExtractionWindow) : CLRBIT(fCheckFlags,kCheckExtractionWindow); } void SetCheckHistOverflow( const Bool_t b=kTRUE ) { b ? SETBIT(fCheckFlags,kCheckHistOverflow) : CLRBIT(fCheckFlags,kCheckHistOverflow); } void SetCheckOscillations( const Bool_t b=kTRUE ) { b ? SETBIT(fCheckFlags,kCheckOscillations) : CLRBIT(fCheckFlags,kCheckOscillations); } void SetDebug ( const Bool_t b=kTRUE ) { b ? SETBIT(fFlags, kDebug) : CLRBIT(fFlags, kDebug); } void SetFFactorErrLimit ( const Float_t f=fgFFactorErrLimit ) { fFFactorErrLimit = f; } void SetLambdaErrLimit ( const Float_t f=fgLambdaErrLimit ) { fLambdaErrLimit = f; } void SetLambdaCheckLimit ( const Float_t f=fgLambdaCheckLimit ) { fLambdaCheckLimit = f; } void SetOutputPath ( TString path="." ); void SetOutputFile ( TString file="ChargeCalibStat.txt" ); void SetPheErrLimit ( const Float_t f=fgPheErrLimit ) { fPheErrLimit = f; } void SetPulserColor ( const MCalibrationCam::PulserColor_t col ) { fPulserColor = col; } ClassDef(MCalibrationChargeCalc, 1) // Task calculating Calibration Containers and Quantum Efficiencies }; #endif