+ //jet shape derivatives
+ //jet mass
+ void SetFirstDerivative(Double_t d) { fJetShapeMassFirstDer = d ; }
+ void SetSecondDerivative(Double_t d) { fJetShapeMassSecondDer = d ; }
+ void SetFirstOrderSubtracted(Double_t d) { fJetShapeMassFirstSub = d ; }
+ void SetSecondOrderSubtracted(Double_t d) { fJetShapeMassSecondSub = d ; }
+ Double_t GetFirstDerivative() const { return fJetShapeMassFirstDer ; }
+ Double_t GetSecondDerivative() const { return fJetShapeMassSecondDer ; }
+ Double_t GetFirstOrderSubtracted() const { return fJetShapeMassFirstSub ; }
+ Double_t GetSecondOrderSubtracted() const { return fJetShapeMassSecondSub ; }
+
+ //jet structure function
+ TArrayF GetGRNumerator() const { return fGRNumerator ; }
+ TArrayF GetGRDenominator() const { return fGRDenominator ; }
+ TArrayF GetGRNumeratorSub() const { return fGRNumeratorSub ; }
+ TArrayF GetGRDenominatorSub() const { return fGRDenominatorSub ; }
+ void AddGRNumAt(Float_t num, Int_t idx) { fGRNumerator.AddAt(num, idx) ; }
+ void AddGRDenAt(Float_t den, Int_t idx) { fGRDenominator.AddAt(den, idx) ; }
+ void SetGRNumSize(UInt_t s) { fGRNumerator.Set(s) ; }
+ void SetGRDenSize(UInt_t s) { fGRDenominator.Set(s) ; }
+
+ void AddGRNumSubAt(Float_t num, Int_t idx) { fGRNumeratorSub.AddAt(num, idx) ; }
+ void AddGRDenSubAt(Float_t den, Int_t idx) { fGRDenominatorSub.AddAt(den, idx) ; }
+ void SetGRNumSubSize(UInt_t s) { fGRNumeratorSub.Set(s) ; }
+ void SetGRDenSubSize(UInt_t s) { fGRDenominatorSub.Set(s) ; }
+ void PrintGR();
+
+ //Angularity
+ void SetFirstDerivativeAngularity(Double_t d) { fJetShapeAngularityFirstDer = d ; }
+ void SetSecondDerivativeAngularity(Double_t d) { fJetShapeAngularitySecondDer = d ; }
+ void SetFirstOrderSubtractedAngularity(Double_t d) { fJetShapeAngularityFirstSub = d ; }
+ void SetSecondOrderSubtractedAngularity(Double_t d) { fJetShapeAngularitySecondSub = d ; }
+ Double_t GetFirstDerivativeAngularity() const { return fJetShapeAngularityFirstDer ; }
+ Double_t GetSecondDerivativeAngularity() const { return fJetShapeAngularitySecondDer ; }
+ Double_t GetFirstOrderSubtractedAngularity() const { return fJetShapeAngularityFirstSub ; }
+ Double_t GetSecondOrderSubtractedAngularity() const { return fJetShapeAngularitySecondSub ; }
+
+ //pTD
+ void SetFirstDerivativepTD(Double_t d) { fJetShapepTDFirstDer = d ; }
+ void SetSecondDerivativepTD(Double_t d) { fJetShapepTDSecondDer = d ; }
+ void SetFirstOrderSubtractedpTD(Double_t d) { fJetShapepTDFirstSub = d ; }
+ void SetSecondOrderSubtractedpTD(Double_t d) { fJetShapepTDSecondSub = d ; }
+ Double_t GetFirstDerivativepTD() const { return fJetShapepTDFirstDer ; }
+ Double_t GetSecondDerivativepTD() const { return fJetShapepTDSecondDer ; }
+ Double_t GetFirstOrderSubtractedpTD() const { return fJetShapepTDFirstSub ; }
+ Double_t GetSecondOrderSubtractedpTD() const { return fJetShapepTDSecondSub ; }
+
+ //Circularity
+ void SetFirstDerivativeCircularity(Double_t d) { fJetShapeCircularityFirstDer = d ; }
+ void SetSecondDerivativeCircularity(Double_t d) { fJetShapeCircularitySecondDer = d ; }
+ void SetFirstOrderSubtractedCircularity(Double_t d) { fJetShapeCircularityFirstSub = d ; }
+ void SetSecondOrderSubtractedCircularity(Double_t d) { fJetShapeCircularitySecondSub = d ; }
+ Double_t GetFirstDerivativeCircularity() const { return fJetShapeCircularityFirstDer ; }
+ Double_t GetSecondDerivativeCircularity() const { return fJetShapeCircularitySecondDer ; }
+ Double_t GetFirstOrderSubtractedCircularity() const { return fJetShapeCircularityFirstSub ; }
+ Double_t GetSecondOrderSubtractedCircularity() const { return fJetShapeCircularitySecondSub ; }
+
+ //Sigma2
+ void SetFirstDerivativeSigma2(Double_t d) { fJetShapeSigma2FirstDer = d ; }
+ void SetSecondDerivativeSigma2(Double_t d) { fJetShapeSigma2SecondDer = d ; }
+ void SetFirstOrderSubtractedSigma2(Double_t d) { fJetShapeSigma2FirstSub = d ; }
+ void SetSecondOrderSubtractedSigma2(Double_t d) { fJetShapeSigma2SecondSub = d ; }
+ Double_t GetFirstDerivativeSigma2() const { return fJetShapeSigma2FirstDer ; }
+ Double_t GetSecondDerivativeSigma2() const { return fJetShapeSigma2SecondDer ; }
+ Double_t GetFirstOrderSubtractedSigma2() const { return fJetShapeSigma2FirstSub ; }
+ Double_t GetSecondOrderSubtractedSigma2() const { return fJetShapeSigma2SecondSub ; }
+
+
+ //number of contituents
+ void SetFirstDerivativeConstituent(Double_t d) { fJetShapeConstituentFirstDer = d ; }
+ void SetSecondDerivativeConstituent(Double_t d) { fJetShapeConstituentSecondDer = d ; }
+ void SetFirstOrderSubtractedConstituent(Double_t d) { fJetShapeConstituentFirstSub = d ; }
+ void SetSecondOrderSubtractedConstituent(Double_t d) { fJetShapeConstituentSecondSub = d ; }
+ Double_t GetFirstDerivativeConstituent() const { return fJetShapeConstituentFirstDer ; }
+ Double_t GetSecondDerivativeConstituent() const { return fJetShapeConstituentSecondDer ; }
+ Double_t GetFirstOrderSubtractedConstituent() const { return fJetShapeConstituentFirstSub ; }
+ Double_t GetSecondOrderSubtractedConstituent() const { return fJetShapeConstituentSecondSub ; }
+
+ //leading minus subleading constituent
+ void SetFirstDerivativeLeSub(Double_t d) { fJetShapeLeSubFirstDer = d ; }
+ void SetSecondDerivativeLeSub(Double_t d) { fJetShapeLeSubSecondDer = d ; }
+ void SetFirstOrderSubtractedLeSub(Double_t d) { fJetShapeLeSubFirstSub = d ; }
+ void SetSecondOrderSubtractedLeSub(Double_t d) { fJetShapeLeSubSecondSub = d ; }
+ Double_t GetFirstDerivativeLeSub() const { return fJetShapeLeSubFirstDer ; }
+ Double_t GetSecondDerivativeLeSub() const { return fJetShapeLeSubSecondDer ; }
+ Double_t GetFirstOrderSubtractedLeSub() const { return fJetShapeLeSubFirstSub ; }
+ Double_t GetSecondOrderSubtractedLeSub() const { return fJetShapeLeSubSecondSub ; }
+