// @(#)root/hist:$Id$ // Author: Rene Brun 03/03/99 /************************************************************************* * Copyright (C) 1995-2000, Rene Brun and Fons Rademakers. * * All rights reserved. * * * * For the licensing terms see $ROOTSYS/LICENSE. * * For the list of contributors see $ROOTSYS/README/CREDITS. * *************************************************************************/ #ifndef ROOT_TGraphAsymmErrors #define ROOT_TGraphAsymmErrors ////////////////////////////////////////////////////////////////////////// // // // TGraphAsymmErrors // // // // a Graph with asymmetric error bars // // // ////////////////////////////////////////////////////////////////////////// #ifndef ROOT_TGraph #include "TGraph.h" #endif class TGraphAsymmErrors : public TGraph { protected: Double_t *fEXlow; //[fNpoints] array of X low errors Double_t *fEXhigh; //[fNpoints] array of X high errors Double_t *fEYlow; //[fNpoints] array of Y low errors Double_t *fEYhigh; //[fNpoints] array of Y high errors virtual void SwapPoints(Int_t pos1, Int_t pos2); virtual Double_t** Allocate(Int_t size); virtual void CopyAndRelease(Double_t **newarrays, Int_t ibegin, Int_t iend, Int_t obegin); virtual Bool_t CopyPoints(Double_t **arrays, Int_t ibegin, Int_t iend, Int_t obegin); Bool_t CtorAllocate(); virtual void FillZero(Int_t begin, Int_t end, Bool_t from_ctor = kTRUE); virtual Bool_t DoMerge(const TGraph * g); public: TGraphAsymmErrors(); TGraphAsymmErrors(Int_t n); TGraphAsymmErrors(Int_t n, const Float_t *x, const Float_t *y, const Float_t *exl=0, const Float_t *exh=0, const Float_t *eyl=0, const Float_t *eyh=0); TGraphAsymmErrors(Int_t n, const Double_t *x, const Double_t *y, const Double_t *exl=0, const Double_t *exh=0, const Double_t *eyl=0, const Double_t *eyh=0); TGraphAsymmErrors(const TVectorF &vx, const TVectorF &vy, const TVectorF &vexl, const TVectorF &vexh, const TVectorF &veyl, const TVectorF &veyh); TGraphAsymmErrors(const TVectorD &vx, const TVectorD &vy, const TVectorD &vexl, const TVectorD &vexh, const TVectorD &veyl, const TVectorD &veyh); TGraphAsymmErrors(const TGraphAsymmErrors &gr); TGraphAsymmErrors& operator=(const TGraphAsymmErrors &gr); TGraphAsymmErrors(const TH1 *h); TGraphAsymmErrors(const TH1* pass, const TH1* total, Option_t *option=""); virtual ~TGraphAsymmErrors(); virtual void Apply(TF1 *f); virtual void BayesDivide(const TH1* pass, const TH1* total, Option_t *opt=""); virtual void Divide(const TH1* pass, const TH1* total, Option_t *opt="cp"); virtual void ComputeRange(Double_t &xmin, Double_t &ymin, Double_t &xmax, Double_t &ymax) const; Double_t GetErrorX(Int_t bin) const; Double_t GetErrorY(Int_t bin) const; Double_t GetErrorXlow(Int_t i) const; Double_t GetErrorXhigh(Int_t i) const; Double_t GetErrorYlow(Int_t i) const; Double_t GetErrorYhigh(Int_t i) const; Double_t *GetEXlow() const {return fEXlow;} Double_t *GetEXhigh() const {return fEXhigh;} Double_t *GetEYlow() const {return fEYlow;} Double_t *GetEYhigh() const {return fEYhigh;} virtual void Print(Option_t *chopt="") const; virtual void SavePrimitive(ostream &out, Option_t *option = ""); virtual void SetPointError(Double_t exl, Double_t exh, Double_t eyl, Double_t eyh); // *MENU* virtual void SetPointError(Int_t i, Double_t exl, Double_t exh, Double_t eyl, Double_t eyh); virtual void SetPointEXlow(Int_t i, Double_t exl); virtual void SetPointEXhigh(Int_t i, Double_t exh); virtual void SetPointEYlow(Int_t i, Double_t eyl); virtual void SetPointEYhigh(Int_t i, Double_t eyh); ClassDef(TGraphAsymmErrors,3) //A graph with asymmetric error bars }; inline Double_t** TGraphAsymmErrors::Allocate(Int_t size) { return AllocateArrays(6, size); } #endif