#ifndef MARS_MJCalibration #define MARS_MJCalibration #ifndef MARS_MJCalib #include "MJCalib.h" #endif #ifndef MARS_MCalibrationIntensityChargeCam #include "MCalibrationIntensityChargeCam.h" #endif #ifndef MARS_MCalibrationChargeCam #include "MCalibrationChargeCam.h" #endif #ifndef MARS_MCalibrationIntensityBlindCam #include "MCalibrationIntensityBlindCam.h" #endif #ifndef MARS_MCalibrationBlindCam #include "MCalibrationBlindCam.h" #endif #ifndef MARS_MCalibrationChargePINDiode #include "MCalibrationChargePINDiode.h" #endif #ifndef MARS_MCalibrationIntensityRelTimeCam #include "MCalibrationIntensityRelTimeCam.h" #endif #ifndef MARS_MCalibrationRelTimeCam #include "MCalibrationRelTimeCam.h" #endif #ifndef MARS_MCalibrationIntensityQECam #include "MCalibrationIntensityQECam.h" #endif #ifndef MARS_MCalibrationQECam #include "MCalibrationQECam.h" #endif #ifndef MARS_MBadPixelsIntensityCam #include "MBadPixelsIntensityCam.h" #endif #ifndef MARS_MBadPixelsCam #include "MBadPixelsCam.h" #endif #ifndef MARS_MPedestalCam #include "MPedestalCam.h" #endif class TH1D; class MTask; class MParList; class MPedestalCam; class MExtractor; class MExtractTime; class MEvtLoop; class MExtractBlindPixel; class MHCalibrationChargeBlindCam; class MHCamera; class MJCalibration : public MJCalib { private: static const Int_t gkIFAEBoxInaugurationRun; //! Run number of first IFAE box calibration static const Int_t gkSecondBlindPixelInstallation; //! Run number upon which second blind pixel was installed static const Int_t gkSpecialPixelsContInstallation; //! Run number upon which third blind pixel was installed static const Int_t gkThirdBlindPixelInstallation; //! Run number upon which third blind pixel was installed static const TString fgReferenceFile; //! default for fReferenceFile ("mjobs/calibrationref.rc") Double_t fConvFADC2PheMin; //! Histogram minimum for conversion factor to phes Double_t fConvFADC2PheMax; //! Histogram maximum for conversion factor to phes Double_t fConvFADC2PhotMin; //! Histogram minimum for conversion factor to phs Double_t fConvFADC2PhotMax; //! Histogram maixmum for conversion factor to phs Double_t fQEMin; //! Histogram minimum for quantum efficiency Double_t fQEMax; //! Histogram maximum for quantum efficiency Double_t fArrivalTimeMin; //! Histogram minimum for arrival times Double_t fArrivalTimeMax; //! Histogram maximum for arrival times Double_t fTimeOffsetMin; //! Histogram minimum for time offsets Double_t fTimeOffsetMax; //! Histogram maximum for time offsets Double_t fTimeResolutionMin; //! Histogram minimum for time resolutions Double_t fTimeResolutionMax; //! Histogram maximum for time resolutions Float_t fRefConvFADC2PheInner; //! Reference value for the conversion factor to phes - inner Float_t fRefConvFADC2PheOuter; //! Reference value for the conversion factor to phes - outer Float_t fRefConvFADC2PhotInner; //! Reference value for the conversion factor to phs - inner Float_t fRefConvFADC2PhotOuter; //! Reference value for the conversion factor to phs - outer Float_t fRefQEInner; //! Reference value for the quantum eff. cascades - inner Float_t fRefQEOuter; //! Reference value for the quantum eff. cascades - outer Float_t fRefArrivalTimeInner; //! Reference value for the arrival time - inner Float_t fRefArrivalTimeOuter; //! Reference value for the arrival time - outer Float_t fRefArrivalTimeRmsInner; //! Reference value for the arrival time - inner Float_t fRefArrivalTimeRmsOuter; //! Reference value for the arrival time - outer Float_t fRefTimeOffsetInner; //! Reference value for the time offset - inner Float_t fRefTimeOffsetOuter; //! Reference value for the time offset - outer Float_t fRefTimeResolutionInner; //! Reference value for the time resolution - inner Float_t fRefTimeResolutionOuter; //! Reference value for the time resolution - outer TString fReferenceFile; // File name containing the reference values MExtractor *fExtractor; // Signal extractor MExtractTime *fTimeExtractor; // Arrival Time extractor MBadPixelsIntensityCam fIntensBadCam; // Bad Pixels cam, can be set from previous runs MBadPixelsCam fBadPixels; // Bad Pixels cam, can be set from previous runs MCalibrationIntensityChargeCam fIntensCalibCam; // Calibration conversion factors FADC2Phe for diff. intens. MCalibrationChargeCam fCalibrationCam; // Calibration conversion factors FADC2Phe MCalibrationIntensityBlindCam fIntensBlindCam; // Calibration from Blind Pixel(s) MCalibrationBlindCam fCalibrationBlindCam; // Calibration from Blind Pixel(s) MCalibrationChargePINDiode fCalibrationPINDiode; // Calibration from PIN Diode MCalibrationIntensityQECam fIntensQECam; // Quantum efficiency for diff. intensities, MCalibrationQECam fQECam; // Quantum efficiency, can be set from previous runs MCalibrationIntensityRelTimeCam fIntensRelTimeCam; // Calibration constants rel. times for diff. intensities MCalibrationRelTimeCam fRelTimeCam; // Calibration constants rel. times MPedestalCam fExtractorCam; // Pedestal Cam with extractor resolution MCalibrationCam::PulserColor_t fColor; // Colour of the pulsed LEDs enum Display_t // Possible Display types { kFullDisplay, kDataCheckDisplay, kNormalDisplay }; Display_t fDisplayType; // Chosen Display type enum Device_t // Possible devices for calibration { kUseBlindPixel, kUsePINDiode }; Byte_t fDevices; // Bit-field for used devices for calibration enum Storage_t // Possible devices for calibration { kNoStorage, kHistsStorage }; // Possible flags for the storage of results Byte_t fStorage; // Bit-field for chosen storage type enum { kRelTimes, kDebug, kIntensity }; // Possible flags Byte_t fFlags; // Bit-field for the flags TString fGeometry; // Class name geometry Bool_t IsUseBlindPixel() const { return TESTBIT(fDevices,kUseBlindPixel); } Bool_t IsUsePINDiode () const { return TESTBIT(fDevices,kUsePINDiode); } Bool_t IsRelTimes () const { return TESTBIT(fFlags,kRelTimes); } Bool_t IsDebug () const { return TESTBIT(fFlags,kDebug); } Bool_t IsIntensity () const { return TESTBIT(fFlags,kIntensity); } Bool_t IsNoStorage () const { return TESTBIT(fStorage,kNoStorage); } Bool_t IsHistsStorage () const { return TESTBIT(fStorage,kHistsStorage); } void DrawTab(MParList &plist, const char *cont, const char *name, Option_t *opt); void DisplayResult ( MParList &plist ); void DisplayReferenceLines( MHCamera *cam , const Int_t what ) const; void DisplayOutliers ( TH1D *hist, const char* whatsmall, const char* whatbig ) const; void DisplayDoubleProject ( MHCamera *cam , const char* whatsmall, const char* whatbig ) const; const Int_t CountBadPixels ( MHCamera *cam , const Int_t what ) const; void FixDataCheckHist ( TH1D *hist ) const; Bool_t WriteResult (MParList &plist); //Bool_t WriteEventloop( MEvtLoop &evtloop ) const; Bool_t WriteTasks ( MTask *t1, MTask *t2) const; Bool_t CheckEnvLocal (); // WORKAROUNDS!!! void InitBlindPixel(MExtractBlindPixel &blindext, MHCalibrationChargeBlindCam &blindcam); const char* GetOutputFileName() const; void ReadReferenceFile(); public: MJCalibration(const char *name=NULL, const char *title=NULL); const char* GetOutputFile() const; MCalibrationIntensityChargeCam &GetIntensCalibrationCam() { return fIntensCalibCam; } MCalibrationIntensityRelTimeCam &GetIntensRelTimeCam() { return fIntensRelTimeCam; } MCalibrationIntensityQECam &GetIntensQECam() { return fIntensQECam; } MBadPixelsIntensityCam &GetIntensBadCam() { return fIntensBadCam; } MCalibrationChargeCam &GetCalibrationCam() { return fCalibrationCam; } MCalibrationRelTimeCam &GetRelTimeCam() { return fRelTimeCam; } MCalibrationQECam &GetQECam() { return fQECam; } MBadPixelsCam &GetBadPixels() { return fBadPixels; } // Containers and pointers void SetBadPixels ( const MBadPixelsCam &bad) { bad.Copy(fBadPixels); } void SetColor ( const MCalibrationCam::PulserColor_t color) { fColor = color; } void SetExtractor ( MExtractor* ext) { fExtractor = ext; } void SetExtractorCam ( const MPedestalCam &ped) { ped.Copy(fExtractorCam); fExtractorCam.SetName(ped.GetName()); } void SetQECam ( const MCalibrationQECam &qe) { qe.Copy(fQECam); } void SetTimeExtractor( MExtractTime* ext) { fTimeExtractor = ext; } // Displays void SetFullDisplay() { fDisplayType = kFullDisplay; } void SetDataCheckDisplay() { fDisplayType = kDataCheckDisplay; } void SetNormalDisplay() { fDisplayType = kNormalDisplay; } // Camera Geomtry void SetGeometry(const char *geom) { fGeometry = geom; } // Flags void SetRelTimeCalibration( const Bool_t b=kTRUE ) { b ? SETBIT(fFlags,kRelTimes) : CLRBIT(fFlags,kRelTimes); } void SetDebug ( const Bool_t b=kTRUE ) { b ? SETBIT(fFlags,kDebug) : CLRBIT(fFlags,kDebug); } void SetIntensity ( const Bool_t b=kTRUE ) { b ? SETBIT(fFlags,kIntensity) : CLRBIT(fFlags,kIntensity); } // Devices void SetUseBlindPixel(const Bool_t b=kTRUE); void SetUsePINDiode(const Bool_t b=kTRUE); // Storage void SetNoStorage ( const Bool_t b=kTRUE ) { b ? SETBIT(fStorage,kNoStorage) : CLRBIT(fStorage,kNoStorage); } void SetHistsStorage ( const Bool_t b=kTRUE ) { b ? SETBIT(fStorage,kHistsStorage) : CLRBIT(fStorage,kHistsStorage); } void SetReferenceFile( const TString ref=fgReferenceFile ) { fReferenceFile = ref; } // Precessing Bool_t ReadCalibrationCam(); Bool_t ProcessFile(MPedestalCam &pedcam); Bool_t Process(MPedestalCam &pedcam); ClassDef(MJCalibration, 0) // Tool to run a calibration per pulser colour and intensity }; #endif