#include "AliEMCALJet.h"
class TClonesArray;
-class AliEMCALHadronCorrection;
-
class TH2F;
+class TH1F;
+class TCanvas;
+class TList;
+class AliEMCALHadronCorrection;
class AliEMCALJetFinder : public TTask {
public:
AliEMCALJetFinder();
AliEMCALJetFinder(const char* name, const char *title);
virtual ~AliEMCALJetFinder();
- virtual void Find(Int_t ncell, Int_t ncell_tot, Float_t etc[30000],
+ virtual void Init();
+ virtual void Find(Int_t ncell, Int_t ncell_tot, Float_t etc[30000],
Float_t etac[30000], Float_t phic[30000],
Float_t min_move, Float_t max_move, Int_t mode,
Float_t prec_bg, Int_t ierror);
- virtual void Find();
- virtual void FindTracksInJetCone();
- virtual void Test();
+ virtual void Find();
+ virtual void FindChargedJet();
+ virtual void FindTracksInJetCone();
+ virtual void Test();
virtual void BuildTrackFlagTable();
virtual Int_t SetTrackFlag(Float_t radius, Int_t pdgCode, Double_t charge);
// Geometry
virtual void SetPtCut(Float_t par = 1.);
virtual void SetMomentumSmearing(Bool_t flag = kFALSE) {fSmear = flag;}
virtual void SetEfficiencySim(Bool_t flag = kFALSE) {fEffic = flag;}
- virtual void SetSamplingFraction(Float_t par = 12.9) {fSamplingF = par;}
+ virtual void SetSamplingFraction(Float_t par) {fSamplingF = par;}
virtual void SetIncludeK0andN(Bool_t flag = kFALSE) {fK0N = flag;}
// Correction of hadronic energy
virtual void SetHadronCorrector(AliEMCALHadronCorrection* corr)
{fHadronCorrector = corr;}
virtual void SetHadronCorrection(Int_t flag = 1) {fHCorrection = flag;}
- // Results
+ // PAI
+ void SetWriteKey(Bool_t flag = kFALSE) {fWrite = flag;}
+ void SetMode(Int_t mode = 0) {fMode = mode;}
+ void SetMinMove(Float_t minMove = 0.05) {fMinMove = minMove;}
+ void SetMaxMove(Float_t maxMove = 0.15) {fMaxMove = maxMove;}
+ void SetPrecBg (Float_t precBg = 0.035) {fPrecBg = precBg;}
+ void SetParametersForBgSubtraction
+ (Int_t mode=0, Float_t minMove=0.05, Float_t maxMove=0.15, Float_t precBg=0.035);
+ // virtual void Print(Option_t* option="") const; // *MENU*
+
+ Bool_t GetWriteKey() {return fWrite;}
+ //AliEMCALJet* GetJetT() {return fJetT[0];}
+ AliEMCALJet* GetJetT(Int_t n = 0) {return fJetT[n];}
+ virtual void DrawHistsForTuning(Int_t mode=0); // *MENU*
+ virtual void PrintParameters(Int_t mode=0); // *MENU*
+ virtual const Char_t* GetFileNameForParameters(Char_t* dir="RES/");
+
+ // Access to Results
virtual Int_t Njets();
virtual Float_t JetEnergy(Int_t);
virtual Float_t JetPhiL(Int_t);
virtual Float_t JetPhiW(Int_t);
virtual Float_t JetEtaL(Int_t);
virtual Float_t JetEtaW(Int_t);
- virtual TH2F* GetLego() {return fLego;}
+ TH2F* GetLego() {return fLego;}
+ TH2F* GetLegoB() {return fLegoB;}
+ TH2F* GetLegoEMCAL() {return fhLegoEMCAL;}
+ TH2F* GethEff() {return fhEff;}
+ TH1F* GetCellEt() {return fhCellEt;}
+ TH1F* GetCellEMCALEt() {return fhCellEMCALEt;}
+ TH1F* GetTrackPt() {return fhTrackPt;}
+ TH1F* GetTrackPtBcut() {return fhTrackPtBcut;}
+ TList* GetHistsList() {return fHistsList;}
+ Int_t GetNChTpc() {return fNChTpc;}
+ void DrawLego(Char_t *opt="lego"); // *MENU*
+ void DrawLegoEMCAL(Char_t *opt="lego"); // *MENU*
+ void DrawLegos(); // *MENU*
+ Bool_t IsThisPartonsOrDiQuark(Int_t pdg);
// I/O
+ virtual void SetOutputFileName(char* name) {fOutFileName = name;}
virtual void FillFromHits(Int_t flag = 0);
virtual void FillFromHitFlaggedTracks(Int_t flag = 0);
virtual void FillFromDigits(Int_t flag = 0);
virtual void FillFromTracks(Int_t flag = 0, Int_t ich = 0);
+ virtual void FillFromParticles();
+ virtual void FillFromPartons();
+
+ virtual void SaveBackgroundEvent();
+ virtual void InitFromBackground();
virtual void AddJet(const AliEMCALJet& jet);
virtual void WriteJets();
virtual void ResetJets();
virtual void DumpLego();
virtual void ResetMap();
virtual Float_t PropagatePhi(Float_t pt, Float_t charge, Bool_t& curls);
+ virtual void RearrangeParticlesMemory(Int_t npart);
protected:
+ Bool_t fWrite; // Key for writing
TClonesArray* fJets; //! List of Jets
TH2F* fLego; //! Lego Histo
+ TH2F* fLegoB; //! Lego Histo Backg
+ TH2F* fhLegoTracks; //! Lego for Tracks
+ TH2F* fhLegoEMCAL; //! Lego for EMCAL itself
+ TH2F* fhLegoHadrCorr; //! Lego for hadron correction
+ TH2F* fhEff; //! Hist. for controling eff.
+ TH1F* fhCellEt; //! Et distr. for cells from fLego
+ TH1F* fhCellEMCALEt; //! Et distr. for cells from fLegoEMCAL
+ TH1F* fhTrackPt; //! Pt distr. for charge particles
+ TH1F* fhTrackPtBcut; //! Pt distr. for charge particles + cut due to magnetic field
+ TH1F* fhChPartMultInTpc;//! Ch. part. multiplicity in TPC acceptance
+ TCanvas* fC1; //! first canvas for drawing
+ TList* fHistsList; //! List of hists - 4-mar-2002
AliEMCALJet* fJetT[10]; //! Jet temporary storage
AliEMCALHadronCorrection* fHadronCorrector; //! Pointer to hadronic correction
Int_t fHCorrection; // Hadron correction flag
Int_t fDebug; //! Debug flag
+ Int_t fBackground; //! Background flag
Float_t fConeRadius; // Cone radius
Float_t fPtCut; // Pt cut on charged tracks
Float_t fEtSeed; // Min. Et for seed
Float_t fMinJetEt; // Min Et of jet
Float_t fMinCellEt; // Min Et in one cell
- Float_t fSamplingF;
+ Float_t fSamplingF; // Sampling Fraction
Bool_t fSmear; // Flag for momentum smearing
Bool_t fEffic; // Flag for efficiency simulation
Bool_t fK0N; // Flag for efficiency simulation
- Int_t fNjets; //! Number of Jets
+ Int_t fNjets; //! Number of Jetsp
Float_t fDeta; //! eta cell size
Float_t fDphi; //! phi cell size
Int_t fNcell; //! number of cells
Int_t fNtot; //! total number of cells
Int_t fNbinEta; //! number of cells in eta
Int_t fNbinPhi; //! number of cells in phi
+ Float_t fEtaMin; //! minimum eta
+ Float_t fEtaMax; //! maximum eta
+ Float_t fPhiMin; //! minimun phi
+ Float_t fPhiMax; //! maximum phi
Float_t fEtCell[30000]; //! Cell Energy
Float_t fEtaCell[30000]; //! Cell eta
Float_t fPhiCell[30000]; //! Cell phi
- Int_t* fTrackList; //! List of selected tracks
Int_t fNt; //! number of tracks
- Float_t* fPtT; //! Pt of tracks in jet cone
- Float_t* fEtaT; //! Eta of tracks in jet cone
- Float_t* fPhiT; //! Phi of tracks in jet cone
+ Int_t fNChTpc; //! number of ch.part in TPC
+
+ Int_t fNtS; //! number of tracks selected
+ Int_t* fTrackList; //! List of selected tracks
+ Float_t* fPtT; //! Pt of tracks
+ Float_t* fEtaT; //! Eta of tracks
+ Float_t* fPhiT; //! Phi of tracks
+ Int_t* fPdgT; //! PDG code of tracks
+
+ Int_t fNtB; //! number of tracks in Bg
+ Int_t* fTrackListB; //! List of selected tracks in Bg
+ Float_t* fPtB; //! Pt of tracks in Bg
+ Float_t* fEtaB; //! Eta of tracks in Bg
+ Float_t* fPhiB; //! Phi of tracks in Bg
+ Int_t* fPdgB; //! PDG of tracks in Bg
+
+ // parameter for jet_finder_ua1
+ Int_t fMode; // key for BG subtraction
+ Float_t fMinMove; // min cone move
+ Float_t fMaxMove; // max cone move
+ Float_t fPrecBg; // max value of change for BG (in %)
+ Int_t fError; // error variables
+
+ char* fOutFileName; //! Output file name
+ TFile* fOutFile; //! Output file
+ TFile* fInFile; //! Output file
+ Int_t fEvent; //! Processed event
+
ClassDef(AliEMCALJetFinder,2) // JetFinder for EMCAL
}
;
#endif // ALIEMCALJetFinder_H
-
-