fLowSDDValue(NULL),
fHighSDDValue(NULL),
fCalibration(NULL),
- fRawL3Pattern(NULL),
- fRawL4Pattern(NULL),
- fRecL3Pattern(NULL),
- fRecL4Pattern(NULL),
fThresholdForRelativeOccupancy(0.01),
- fRawModulePattern(NULL),
- fRecModulePattern(NULL),
- fModulePatternRatio(NULL),
fThresholdForRecToRawRatio(0.04)
{;} // ctor
AliITSQASDDChecker& operator = (const AliITSQASDDChecker& qac) ; //operator =
fLowSDDValue(qac.fLowSDDValue),
fHighSDDValue(qac.fHighSDDValue),
fCalibration(qac.fCalibration),
- fRawL3Pattern(qac.fRawL3Pattern),
- fRawL4Pattern(qac.fRawL4Pattern),
- fRecL3Pattern(qac.fRecL3Pattern),
- fRecL4Pattern(qac.fRecL4Pattern),
fThresholdForRelativeOccupancy(qac.fThresholdForRelativeOccupancy),
- fRawModulePattern(qac.fRawModulePattern),
- fRecModulePattern(qac.fRecModulePattern),
- fModulePatternRatio(qac.fModulePatternRatio),
fThresholdForRecToRawRatio(qac.fThresholdForRecToRawRatio)
{;} // cpy ctor
Int_t fSubDetOffset; // checking operation starting point
Float_t *fHighSDDValue; //High value of each QA bit range
TObjArray *fCalibration; //TObjArray with Calibration SDD Objects
- TH2F *fRawL3Pattern; // distribution of Raw Module Counts for L3
- TH2F *fRawL4Pattern; // distribution of Raw Module Counts for L4
- TH2F *fRecL3Pattern; // distribution of Rec Module Counts for L3
- TH2F *fRecL4Pattern; // distribution of Rec Module Counts for L4
+
+
Float_t fThresholdForRelativeOccupancy; // ThresholdForRelativeOccupancy (by module)
- TH1F *fRawModulePattern; // distribution of Raw Module Counts
- TH1F *fRecModulePattern; // distribution of Rec Module Counts
- TH1F *fModulePatternRatio; // distribution of Rec/Raw Module Counts
Float_t fThresholdForRecToRawRatio; // ThresholdForRecToRawRatio (by module)
static const Int_t fgknSDDmodules = 260; // number of SDD modules
static const Int_t fgkmodoffset = 240; // number of SPD modules
- ClassDef(AliITSQASDDChecker,3) // description
+ ClassDef(AliITSQASDDChecker,4) // description
};