#ifndef MARS_MCalibrationPix #define MARS_MCalibrationPix #ifndef MARS_MParContainer #include "MParContainer.h" #endif class MCalibrationPix : public MParContainer { protected: Int_t fPixId; // Software PixId (needed to get Id in calls to Next()) UInt_t fFlags; // Flag for the set bits Float_t fHiGainMean; // Mean from fit to high gain values Float_t fHiGainMeanVar; // Error of mean from fit to high gain values Float_t fHiGainNumBlackout; // Number blackout events in high-gain Float_t fHiGainNumPickup; // Number pickup events in high-gain Float_t fHiGainSigma; // Sigma from fit to high gain values Float_t fHiGainSigmaVar; // Error of sigma from fit to high gain values Float_t fHiGainProb; // Probability of fit to high gain values Float_t fLoGainMean; // Mean from fit to high gain values Float_t fLoGainMeanVar; // Error of mean from fit to low gain values Float_t fLoGainNumBlackout; // Number blackout events in low-gain Float_t fLoGainNumPickup; // Number pickup events in low-gain Float_t fLoGainSigma; // Sigma of from fit to low gain values Float_t fLoGainSigmaVar; // Error of sigma from fit to low gain values Float_t fLoGainProb; // Probability of fit to low gain values enum { kHiGainSaturation, kExcluded, kValid, kDebug }; // Possible bits to be sets public: MCalibrationPix(const char *name=NULL, const char *title=NULL); ~MCalibrationPix() {} void Clear(Option_t *o=""); void Copy(TObject& object) const; // Setter void SetPixId( const Int_t i ) { fPixId = i; } void SetHiGainMean ( const Float_t f ) { fHiGainMean = f; } void SetHiGainMeanVar ( const Float_t f ) { fHiGainMeanVar = f; } void SetHiGainNumBlackout ( const Float_t f ) { fHiGainNumBlackout = f; } void SetHiGainNumPickup ( const Float_t f ) { fHiGainNumPickup = f; } void SetHiGainProb ( const Float_t f ) { fHiGainProb = f; } void SetHiGainSigma ( const Float_t f ) { fHiGainSigma = f; } void SetHiGainSigmaVar ( const Float_t f ) { fHiGainSigmaVar = f; } void SetLoGainMean ( const Float_t f ) { fLoGainMean = f; } void SetLoGainMeanVar ( const Float_t f ) { fLoGainMeanVar = f; } void SetLoGainNumBlackout ( const Float_t f ) { fLoGainNumBlackout = f; } void SetLoGainNumPickup ( const Float_t f ) { fLoGainNumPickup = f; } void SetLoGainProb ( const Float_t f ) { fLoGainProb = f; } void SetLoGainSigma ( const Float_t f ) { fLoGainSigma = f; } void SetLoGainSigmaVar ( const Float_t f ) { fLoGainSigmaVar = f; } void SetMean ( const Float_t f ) { IsHiGainSaturation() ? fLoGainMean = f : fHiGainMean = f ; } void SetMeanVar ( const Float_t f ) { IsHiGainSaturation() ? fLoGainMeanVar = f : fHiGainMeanVar = f ; } void SetNumBlackout( const Float_t f ) { IsHiGainSaturation() ? fLoGainNumBlackout = f : fHiGainNumBlackout = f ; } void SetNumPickup ( const Float_t f ) { IsHiGainSaturation() ? fLoGainNumPickup = f : fHiGainNumPickup = f ; } void SetProb ( const Float_t f ) { IsHiGainSaturation() ? fLoGainProb = f : fHiGainProb = f ; } void SetSigma ( const Float_t f ) { IsHiGainSaturation() ? fLoGainSigma = f : fHiGainSigma = f ; } void SetSigmaVar ( const Float_t f ) { IsHiGainSaturation() ? fLoGainSigmaVar = f : fHiGainSigmaVar = f ; } void SetDebug ( const Bool_t b = kTRUE ); void SetExcluded ( const Bool_t b = kTRUE ); void SetHiGainSaturation( const Bool_t b = kTRUE ); void SetValid ( const Bool_t b = kTRUE ); // Getters Float_t GetHiGainMean () const { return fHiGainMean ; } Float_t GetHiGainMeanErr () const; Float_t GetHiGainMeanRelVar () const; Float_t GetHiGainProb () const { return fHiGainProb ; } Float_t GetHiGainSigma () const { return fHiGainSigma ; } Float_t GetHiGainSigmaErr () const; Float_t GetHiGainNumPickup () const { return fHiGainNumPickup; } Float_t GetHiGainNumBlackout() const { return fHiGainNumBlackout; } Float_t GetHiLoMeansDivided () const; Float_t GetHiLoMeansDividedErr () const; Float_t GetHiLoSigmasDivided () const; Float_t GetHiLoSigmasDividedErr () const; virtual Float_t GetLoGainMean () const { return fLoGainMean; } virtual Float_t GetLoGainMeanErr () const; virtual Float_t GetLoGainMeanRelVar () const; virtual Float_t GetLoGainProb () const { return fLoGainProb; } virtual Float_t GetLoGainSigma () const { return fLoGainSigma; } virtual Float_t GetLoGainSigmaErr () const; virtual Float_t GetLoGainNumPickup () const { return fLoGainNumPickup; } virtual Float_t GetLoGainNumBlackout() const { return fLoGainNumBlackout; } Float_t GetMean () const { return IsHiGainSaturation() ? GetLoGainMean() : GetHiGainMean() ; } Float_t GetMeanErr () const { return IsHiGainSaturation() ? GetLoGainMeanErr() : GetHiGainMeanErr() ; } Float_t GetMeanRelVar () const; Float_t GetMeanSquare () const; Float_t GetProb () const { return IsHiGainSaturation() ? GetLoGainProb() : GetHiGainProb() ; } Float_t GetSigma () const { return IsHiGainSaturation() ? GetLoGainSigma() : GetHiGainSigma() ; } Float_t GetSigmaErr () const { return IsHiGainSaturation() ? GetLoGainSigmaErr() : GetHiGainSigmaErr() ; } Float_t GetSigmaRelVar() const; Float_t GetNumPickup () const { return IsHiGainSaturation() ? GetLoGainNumPickup() : GetHiGainNumPickup(); } Float_t GetNumBlackout() const { return IsHiGainSaturation() ? GetLoGainNumBlackout() : GetHiGainNumBlackout(); } Int_t GetPixId () const { return fPixId ; } Bool_t IsHiGainSaturation() const; Bool_t IsDebug () const; Bool_t IsExcluded() const; Bool_t IsValid () const; ClassDef(MCalibrationPix, 1) // Base Container for Calibration Results Pixel }; #endif