#ifndef MARS_MHFalseSource #define MARS_MHFalseSource #ifndef MARS_MH #include "MH.h" #endif #ifndef ROOT_TH3 #include #endif class TH2D; class MParList; class MTime; class MSrcPosCam; class MPointingPos; class MObservatory; class MHFalseSource : public MH { protected: MTime *fTime; //! container to take the event time from MPointingPos *fPointPos; //! container to take pointing position from MSrcPosCam *fSrcPos; //! container for sopurce position in camera MObservatory *fObservatory; //! conteiner to take observatory location from Float_t fMm2Deg; // conversion factor for display in degrees private: Float_t fAlphaCut; // Alpha cut Float_t fBgMean; // Background mean Float_t fMinDist; // Min dist Float_t fMaxDist; // Max dist Float_t fMinDW; // Minimum distance in percent of dist Float_t fMaxDW; // Maximum distance in percent of dist protected: TH3D fHist; // Alpha vs. x and y TH3D *fHistOff; Double_t fRa; Double_t fDec; TObject *GetCatalog() const; void MakeSymmetric(TH1 *h); private: Int_t DistancetoPrimitive(Int_t px, Int_t py); void Modified(); void ProjectAll(TH2D *h); void ProjectOff(TH3D &src, TH2D *h, TH2D *all); void ProjectOn(TH3D &src, TH2D *h, TH2D *all); void ProjectOnOff(TH2D *h, TH2D *all); public: MHFalseSource(const char *name=NULL, const char *title=NULL); void FitSignificance(Float_t sigint=10, Float_t sigmax=75, Float_t bgmin=45, Float_t bgmax=85, Byte_t polynom=2); //*MENU* void FitSignificanceStd() { FitSignificance(); } //*MENU* void SetMinDist(Float_t dist) { fMinDist = dist; } // Absolute minimum distance void SetMaxDist(Float_t dist) { fMaxDist = dist; } // Absolute maximum distance void SetMinDW(Float_t ratio) { fMinDW = ratio; } // Minimum ratio between length/dist void SetMaxDW(Float_t ratio) { fMaxDW = ratio; } // Maximum ratio between length/dist void SetAlphaCut(Float_t alpha); //*MENU* void SetAlphaPlus5() { SetAlphaCut(fAlphaCut+5); } //*MENU* void SetAlphaMinus5() { SetAlphaCut(fAlphaCut-5); } //*MENU* void SetBgMean(Float_t alpha); //*MENU* void SetBgMeanPlus5() { SetBgMean(fBgMean+5); } //*MENU* void SetBgMeanMinus5() { SetBgMean(fBgMean-5); } //*MENU* virtual void SetOffData(MHFalseSource &fs) { fHistOff = &fs.fHist; fMinDist = fs.fMinDist; fMaxDist = fs.fMaxDist; fMaxDW = fs.fMaxDW; fMinDW = fs.fMinDW; fAlphaCut = fs.fAlphaCut; fBgMean = fs.fBgMean; } void DrawNicePlot() const; //*MENU* // MParContainer Int_t ReadEnv(const TEnv &env, TString prefix, Bool_t print=kFALSE); // MH Bool_t SetupFill(const MParList *pList); Int_t Fill(const MParContainer *par, const Stat_t w=1); // TObject void Paint(Option_t *opt=""); void Draw(Option_t *option=""); ClassDef(MHFalseSource, 1) //3D-histogram in alpha, x and y }; #endif