// @(#)root/eve:$Id: TEveCaloData.h 26561 2008-12-01 17:35:55Z matevz $ // Author: Matevz Tadel 2007 /************************************************************************* * Copyright (C) 1995-2007, 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_TEveCaloData #define ROOT_TEveCaloData #include #include "Rtypes.h" #include "TEveUtil.h" class TH2F; class TAxis; class THStack; class TEveCaloData: public TEveRefBackPtr { public: struct SliceInfo_t { TString fName; Float_t fThreshold; Int_t fID; Color_t fColor; TH2F *fHist; SliceInfo_t(): fName(""), fThreshold(0), fID(-1), fColor(Color_t(4)), fHist(0){} SliceInfo_t(TH2F* h): fName(""), fThreshold(0), fID(-1), fColor(Color_t(4)), fHist(h) {} virtual ~SliceInfo_t() {} void Setup(const char* name, Float_t threshold, Color_t col) { fName = name; fThreshold = threshold; fColor = col; }; ClassDef(SliceInfo_t, 0); // Slice info for histogram stack. }; typedef std::vector vSliceInfo_t; typedef std::vector::iterator vSliceInfo_i; /**************************************************************************/ struct CellId_t { // Cell ID inner structure. Int_t fTower; Int_t fSlice; Float_t fFraction; CellId_t(Int_t t, Int_t s, Float_t fr=1.f):fTower(t), fSlice(s), fFraction(fr){} }; struct CellGeom_t { // Cell geometry inner structure. Float_t fPhiMin; Float_t fPhiMax; Float_t fEtaMin; Float_t fEtaMax; Float_t fThetaMin; // cached Float_t fThetaMax; // cached CellGeom_t(): fPhiMin(0), fPhiMax(0), fEtaMin(0), fEtaMax(0), fThetaMin(0), fThetaMax(0) {} CellGeom_t(Float_t etaMin, Float_t etaMax, Float_t phiMin, Float_t phiMax) {Configure(etaMin, etaMax, phiMin, phiMax);} virtual ~CellGeom_t() {} void Configure(Float_t etaMin, Float_t etaMax, Float_t phiMin, Float_t phiMax); Float_t EtaMin() const { return fEtaMin; } Float_t EtaMax() const { return fEtaMax; } Float_t Eta() const { return (fEtaMin+fEtaMax)*0.5f; } Float_t EtaDelta() const { return fEtaMax-fEtaMin; } Float_t PhiMin() const { return fPhiMin; } Float_t PhiMax() const { return fPhiMax; } Float_t Phi() const { return (fPhiMin+fPhiMax)*0.5f; } Float_t PhiDelta() const { return fPhiMax-fPhiMin; } Float_t ThetaMin() const { return fThetaMin; } Float_t ThetaMax() const { return fThetaMax; } Float_t Theta() const { return (fThetaMax+fThetaMin)*0.5f; } Float_t ThetaDelta() const { return fThetaMax-fThetaMin; } virtual void Dump() const; }; struct CellData_t : public CellGeom_t { // Cell data inner structure. Float_t fValue; CellData_t() : CellGeom_t(), fValue(0) {} virtual ~CellData_t() {} Float_t Value(Bool_t) const; virtual void Dump() const; }; struct RebinData_t { Int_t fNSlices; std::vector fSliceData; std::vector fBinData; Float_t* GetSliceVals(Int_t bin); }; /**************************************************************************/ typedef std::vector vCellId_t; typedef std::vector::iterator vCellId_i; typedef std::vector vCellGeom_t; typedef std::vector::iterator vCellGeom_i; typedef std::vector::const_iterator vCellGeom_ci; private: TEveCaloData(const TEveCaloData&); // Not implemented TEveCaloData& operator=(const TEveCaloData&); // Not implemented protected: vSliceInfo_t fSliceInfos; TAxis* fEtaAxis; TAxis* fPhiAxis; Float_t fMaxValEt; // cached Float_t fMaxValE; // cached Float_t fEps; public: TEveCaloData(); virtual ~TEveCaloData() {} virtual void GetCellList(Float_t etaMin, Float_t etaMax, Float_t phi, Float_t phiRng, vCellId_t &out) const = 0; virtual void Rebin(TAxis *ax, TAxis *ay, vCellId_t &in, Bool_t et, RebinData_t &out) const = 0; virtual void GetCellData(const CellId_t &id, CellData_t& data) const = 0; virtual void InvalidateUsersCellIdCache(); virtual void DataChanged(); Int_t GetNSlices() const { return fSliceInfos.size(); } SliceInfo_t& RefSliceInfo(Int_t s) { return fSliceInfos[s]; } void SetSliceThreshold(Int_t slice, Float_t threshold); Float_t GetSliceThreshold(Int_t slice) const; void SetSliceColor(Int_t slice, Color_t col); Color_t GetSliceColor(Int_t slice) const; virtual void GetEtaLimits(Double_t &min, Double_t &max) const = 0; virtual void GetPhiLimits(Double_t &min, Double_t &max) const = 0; virtual Float_t GetMaxVal(Bool_t et) const { return et ? fMaxValEt : fMaxValE; } Bool_t Empty() const { return fMaxValEt < 1e-5; } virtual TAxis* GetEtaBins() const { return fEtaAxis; } virtual void SetEtaBins(TAxis* ax) { fEtaAxis=ax; } virtual TAxis* GetPhiBins() const { return fPhiAxis; } virtual void SetPhiBins(TAxis* ax) { fPhiAxis=ax; } virtual Float_t GetEps() const { return fEps; } virtual void SetEps(Float_t eps) { fEps=eps; } static Float_t EtaToTheta(Float_t eta); ClassDef(TEveCaloData, 0); // Manages calorimeter event data. }; /**************************************************************************/ /**************************************************************************/ class TEveCaloDataVec: public TEveCaloData { private: TEveCaloDataVec(const TEveCaloDataVec&); // Not implemented TEveCaloDataVec& operator=(const TEveCaloDataVec&); // Not implemented protected: typedef std::vector vFloat_t; typedef std::vector::iterator vFloat_i; typedef std::vector vvFloat_t; typedef std::vector::iterator vvFloat_i; vvFloat_t fSliceVec; vFloat_t fValVec; vCellGeom_t fGeomVec; Int_t fTower; // current tower Float_t fEtaMin; Float_t fEtaMax; Float_t fPhiMin; Float_t fPhiMax; public: TEveCaloDataVec(Int_t nslices); virtual ~TEveCaloDataVec(); Int_t AddTower(Float_t etaMin, Float_t etaMax, Float_t phiMin, Float_t phiMax); void FillSlice(Int_t slice, Float_t value); void FillSlice(Int_t slice, Int_t tower, Float_t value); Int_t GetNCells() { return fGeomVec.size(); } virtual void GetCellList(Float_t etaMin, Float_t etaMax, Float_t phi, Float_t phiRng, vCellId_t &out) const; virtual void Rebin(TAxis *ax, TAxis *ay, vCellId_t &in, Bool_t et, RebinData_t &out) const; virtual void GetCellData(const TEveCaloData::CellId_t &id, TEveCaloData::CellData_t& data) const; virtual void GetEtaLimits(Double_t &min, Double_t &max) const { min=fEtaMin, max=fEtaMax;} virtual void GetPhiLimits(Double_t &min, Double_t &max) const { min=fPhiMin; max=fPhiMax;} virtual void DataChanged(); void SetAxisFromBins(Double_t epsX=0.001, Double_t epsY=0.001); ClassDef(TEveCaloDataVec, 0); // Manages calorimeter event data. }; /**************************************************************************/ /**************************************************************************/ class TEveCaloDataHist: public TEveCaloData { private: TEveCaloDataHist(const TEveCaloDataHist&); // Not implemented TEveCaloDataHist& operator=(const TEveCaloDataHist&); // Not implemented protected: THStack* fHStack; public: TEveCaloDataHist(); virtual ~TEveCaloDataHist(); virtual void GetCellList( Float_t etaMin, Float_t etaMax, Float_t phi, Float_t phiRng, vCellId_t &out) const; virtual void Rebin(TAxis *ax, TAxis *ay, vCellId_t &in, Bool_t et, RebinData_t &out) const; virtual void GetCellData(const TEveCaloData::CellId_t &id, TEveCaloData::CellData_t& data) const; virtual void GetEtaLimits(Double_t &min, Double_t &max) const; virtual void GetPhiLimits(Double_t &min, Double_t &max) const; virtual void DataChanged(); THStack* GetStack() { return fHStack; } Int_t AddHistogram(TH2F* hist); ClassDef(TEveCaloDataHist, 0); // Manages calorimeter TH2F event data. }; #endif