// @(#)root/treeplayer:$Name: $:$Id: TTreePlayer.h,v 1.21 2002/09/21 21:58:07 brun Exp $ // Author: Rene Brun 12/01/96 /************************************************************************* * 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_TTreePlayer #define ROOT_TTreePlayer ////////////////////////////////////////////////////////////////////////// // // // TTreePlayer // // // // A TTree object is a list of TBranch. // // To Create a TTree object one must: // // - Create the TTree header via the TTree constructor // // - Call the TBranch constructor for every branch. // // // // To Fill this object, use member function Fill with no parameters. // // The Fill function loops on all defined TBranch. // // // ////////////////////////////////////////////////////////////////////////// #ifndef ROOT_TTree #include "TTree.h" #endif #ifndef ROOT_TVirtualTreePlayer #include "TVirtualTreePlayer.h" #endif class TTreeFormula; class TTreeFormulaManager; class TH1; class TSQLResult; class TSelector; class TPrincipal; class TTreePlayer : public TVirtualTreePlayer { protected: TTree *fTree; // Pointer to current Tree TTreeFormula *fVar1; // Pointer to first variable formula TTreeFormula *fVar2; // Pointer to second variable formula TTreeFormula *fVar3; // Pointer to third variable formula TTreeFormula *fVar4; // Pointer to fourth variable formula TTreeFormula *fSelect; // Pointer to selection formula TTreeFormulaManager *fManager; // Pointer to the formula manager Bool_t fScanRedirect; // Switch to redirect TTree::Scan output to a file const char *fScanFileName; // Name of the file where Scan is redirected Int_t fDraw; //! Last entry loop number when object was drawn Int_t fNfill; //! Local for EntryLoop Int_t fMultiplicity; // Indicator of the variability of the size of entries Int_t fDimension; // Dimension of the current expression Int_t fSelectedRows; // Number of selected entries Int_t fNbins[4]; // Number of bins per dimension Double_t fVmin[4]; // Minima of varexp columns Double_t fVmax[4]; // Maxima of varexp columns Double_t *fV1; //[fSelectedRows]Local buffer for variable 1 Double_t *fV2; //[fSelectedRows]Local buffer for variable 2 Double_t *fV3; //[fSelectedRows]Local buffer for variable 3 Double_t *fW; //[fSelectedRows]Local buffer for weights TH1 *fHistogram; //! Pointer to histogram used for the projection protected: const char *GetNameByIndex(TString &varexp, Int_t *index,Int_t colindex); virtual void MakeIndex(TString &varexp, Int_t *index); void TakeAction(Int_t nfill, Int_t &npoints, Int_t &action, TObject *obj, Option_t *option); void TakeEstimate(Int_t nfill, Int_t &npoints, Int_t action, TObject *obj, Option_t *option); public: TTreePlayer(); virtual ~TTreePlayer(); virtual void ClearFormula(); virtual void CompileVariables(const char *varexp="", const char *selection=""); virtual TTree *CopyTree(const char *selection, Option_t *option="" ,Int_t nentries=1000000000, Int_t firstentry=0); virtual void CreatePacketGenerator(Int_t nentries, Stat_t firstEntry); virtual Int_t DrawSelect(const char *varexp, const char *selection, Option_t *option="" ,Int_t nentries=1000000000, Int_t firstentry=0); virtual void EntryLoop(Int_t &action, TObject *obj, Int_t nentries=1000000000, Int_t firstentry=0, Option_t *option=""); virtual Int_t Fit(const char *formula ,const char *varexp, const char *selection,Option_t *option ,Option_t *goption ,Int_t nentries, Int_t firstentry); virtual Int_t GetDimension() const {return fDimension;} TH1 *GetHistogram() const {return fHistogram;} Int_t GetMultiplicity() const {return fMultiplicity;} virtual Int_t GetNfill() const {return fNfill;} const char *GetScanFileName() const {return fScanFileName;} TTreeFormula *GetSelect() const {return fSelect;} virtual Int_t GetSelectedRows() const {return fSelectedRows;} TTreeFormula *GetVar1() const {return fVar1;} TTreeFormula *GetVar2() const {return fVar2;} TTreeFormula *GetVar3() const {return fVar3;} TTreeFormula *GetVar4() const {return fVar4;} virtual Double_t *GetV1() const {return fV1;} virtual Double_t *GetV2() const {return fV2;} virtual Double_t *GetV3() const {return fV3;} virtual Double_t *GetW() const {return fW;} virtual void Loop(Option_t *option="",Int_t nentries=1000000000, Int_t firstentry=0); virtual Int_t MakeClass(const char *classname=0, Option_t *option=""); virtual Int_t MakeCode(const char *filename=0); TPrincipal *Principal(const char *varexp="", const char *selection="", Option_t *option="np" ,Int_t nentries=1000000000, Int_t firstentry=0); virtual Int_t Process(const char *filename,Option_t *option="", Int_t nentries=1000000000, Int_t firstentry=0); virtual Int_t Process(TSelector *selector,Option_t *option="", Int_t nentries=1000000000, Int_t firstentry=0); virtual Int_t Scan(const char *varexp="", const char *selection="", Option_t *option="" ,Int_t nentries=1000000000, Int_t firstentry=0); Bool_t ScanRedirected() {return fScanRedirect;} virtual TSQLResult *Query(const char *varexp="", const char *selection="", Option_t *option="" ,Int_t nentries=1000000000, Int_t firstentry=0); virtual void SetEstimate(Int_t n); void SetScanRedirect(Bool_t on=kFALSE) {fScanRedirect = on;} void SetScanFileName(const char *name) {fScanFileName=name;} virtual void SetTree(TTree *t) {fTree = t;} virtual void StartViewer(Int_t ww, Int_t wh); virtual Int_t UnbinnedFit(const char *formula ,const char *varexp, const char *selection,Option_t *option ,Int_t nentries, Int_t firstentry); virtual void UpdateFormulaLeaves(); ClassDef(TTreePlayer,2) //Manager class to play with TTrees }; #endif