AliT0QAChecker& operator=(const AliT0QAChecker& qac);
// dtor
virtual ~AliT0QAChecker();
+ //Double_t CheckLaser(TObjArray *listrec ) const ;
Double_t CheckRaw(TObjArray *listrec ) const ;
Double_t CheckESD(TObjArray *listrec ) const ;
private:
+
+ enum{
+ kT0Fatal=-1, ///< error is really serious
+ kT0Error=0, ///< normal error, i.e. something is wrong
+ kT0Warning=1, ///< warning, i.e. might become an error later on
+ kT0Info=2 ///< just so you know...
+ };
+
virtual void Check(Double_t * test, AliQAv1::ALITASK_t, TObjArray ** list, const AliDetectorRecoParam * recoParam) ;
-
+ void EraseOldMessages(TH1* h) const;
+ Double_t ConvertQualityFlagToDouble(int qualityFlag) const;
+ Float_t GetMeanAboveThreshold(TH1F* hV, Float_t thr) const;
+ void GetMeanAndRmsAroundMainMaximum(Float_t &meanHisto,Float_t &rmsHisto, TH1F *histo, int type) const;
+
+ Float_t fMeanCFDFromGoodRunParam[24]; //mean CFD for each PMT from a good run
+ Float_t fMeanLEDFromGoodRunParam[24]; //mean LED for each PMT from a good run
+ Float_t fMeanQTCFromGoodRunParam[24]; //mean QTC for each PMT from a good run
+ Float_t fCFDErrorThreshold; //CFD error threshold instead of the yellow band
+ Float_t fLEDErrorThreshold; //LED error threshold
+ Float_t fQTCErrorThreshold; //QTC error threshold
+ Float_t fRatioCFDEffLEDEffErrorThreshold; //ratio CFD to LED efficiency error threshold
+ Float_t fQTCEfficiencyErrorThreshold; //QTC efficiency error threshold
+ Int_t fBCIDPeriodParam; // period
+ Int_t fBCIDOffsetParam;//offset of TRM BCID
+ Int_t fBCIDBandWidthParam; // tollerated deviation of BCID from diagonal
+ Float_t fTZeroAPlusCErrorThreshold; // constraint on the tzero vertex displacement in ps
+ Float_t fTZeroAMinusCErrorThreshold; // constraint on the tzero time shift in ps
+
+
+
ClassDef(AliT0QAChecker,1) // description
};