public:
AliHFSystErr(const Char_t* name="HFSystErr", const Char_t* title="");
-
+
virtual ~AliHFSystErr();
void DrawErrors(TGraphAsymmErrors *grErrFeeddown=0) const;
AliInfo("Settings for the pPb vs y measurement");
}
-
// Function to initialize the variables/histograms
void Init(Int_t decay);
void InitDstartoD0pi2013pPb0100RapScan0101();
void InitDstartoD0pi2013pPb0100RapScan0104();
void InitDstartoD0pi2013pPb0100RapScan0408();
+
+
+ void InitD0toKpi2013pPb020V0A();
+ void InitD0toKpi2013pPb2040V0A();
+ void InitD0toKpi2013pPb4060V0A();
+ void InitD0toKpi2013pPb60100V0A();
+
+ void InitD0toKpi2013pPb020ZNA();
+ void InitD0toKpi2013pPb2040ZNA();
+ void InitD0toKpi2013pPb4060ZNA();
+ void InitD0toKpi2013pPb60100ZNA();
+
+ void InitDstartoD0pi2013pPb020V0A();
+ void InitDstartoD0pi2013pPb2040V0A();
+ void InitDstartoD0pi2013pPb4060V0A();
+ void InitDstartoD0pi2013pPb60100V0A();
+
+ void InitDstartoD0pi2013pPb020ZNA();
+ void InitDstartoD0pi2013pPb2040ZNA();
+ void InitDstartoD0pi2013pPb4060ZNA();
+ void InitDstartoD0pi2013pPb60100ZNA();
+
+
private:
void InitD0toKpi2011PbPb07half();
void InitD0toKpi2010PbPb020();
void InitD0toKpi2010PbPb4080();
+ void InitD0toKpi2011PbPb3050();
void InitDplustoKpipi2010pp();
void InitDplustoKpipi2010ppLowEn();
void InitDplustoKpipi2011PbPb07half();
void InitDplustoKpipi2010PbPb020();
void InitDplustoKpipi2010PbPb4080();
+ void InitDplustoKpipi2011PbPb3050();
void InitDstartoD0pi2010pp();
void InitDstartoD0pi2010ppLowEn();
void InitDstartoD0pi2010PbPb020();
void InitDstartoD0pi2010PbPb2040();
void InitDstartoD0pi2010PbPb4080();
+ void InitDstartoD0pi2011PbPb3050();
void InitDstoKKpi2010pp();
void InitDstoKKpi2011PbPb07half();
Bool_t fIsLowEnergy; // flag for the low energy (2.76TeV) run
Bool_t fIsCentScan; // flag fot the PbPb centrality scan
- Bool_t fIsRapidityScan; // flag for the pPb vs y measurement
+ Bool_t fIsRapidityScan; // flag for the pPb vs y measurement
ClassDef(AliHFSystErr,5); // class for systematic errors of charm hadrons
};