void SetModulationFitOptions(TString opt) {fFitModulationOptions = opt; }
void SetReferenceDetector(detectorType type) {fDetectorType = type; }
void SetUsePtWeight(Bool_t w) {fUsePtWeight = w; }
+ void SetUsePtWeightErrorPropagation(Bool_t w) {fUsePtWeightErrorPropagation = w;}
void SetRunModeType(runModeType type) {fRunModeType = type; }
void SetForceAbsVnHarmonics(Bool_t f) {fAbsVnHarmonics = f; }
void SetExcludeLeadingJetsFromFit(Float_t n) {fExcludeLeadingJetsFromFit = n; }
fitModulationType fFitModulationType; // fit modulation type
qcRecovery fQCRecovery; // recovery type for e-by-e qc method
Bool_t fUsePtWeight; // use dptdphi instead of dndphi
+ Bool_t fUsePtWeightErrorPropagation; // recalculate the bin error on the dpt dphi histogram
detectorType fDetectorType; // type of detector used for modulation fit
TString fFitModulationOptions; // fit options for modulation fit
runModeType fRunModeType; // run mode type
Float_t fSoftTrackMaxPt; // max pt for soft tracks
// general qa histograms
TH1F* fHistPvalueCDF; //! cdf value of chisquare p
+ TH2F* fHistRhoStatusCent; //! status of rho vs centrality
// general settings
Bool_t fAbsVnHarmonics; // force postive local rho
Float_t fExcludeLeadingJetsFromFit; // exclude n leading jets from fit
AliAnalysisTaskLocalRho(const AliAnalysisTaskLocalRho&); // not implemented
AliAnalysisTaskLocalRho& operator=(const AliAnalysisTaskLocalRho&); // not implemented
- ClassDef(AliAnalysisTaskLocalRho, 4);
+ ClassDef(AliAnalysisTaskLocalRho, 5);
};
#endif