// $Id$
-class AliGenPythiaEventHeader;
class TClonesArray;
-class TH1;
class TH2;
+class THnSparse;
+class AliNamedArrayI;
#include "AliEmcalJet.h"
#include "AliAnalysisTaskEmcalJet.h"
};
void UserCreateOutputObjects();
- Bool_t UserNotify();
-
- void SetJets2Name(const char *n) { fJets2Name = n ; }
- void SetTracks2Name(const char *n) { fTracks2Name = n ; }
- void SetClus2Name(const char *n) { fCalo2Name = n ; }
- void SetJet2EtaLimits(Float_t min=-999, Float_t max=-999) { fJet2MinEta = min, fJet2MaxEta = max ; }
- void SetJet2PhiLimits(Float_t min=-999, Float_t max=-999) { fJet2MinPhi = min, fJet2MaxPhi = max ; }
- void SetRho2Name(const char *n) { fRho2Name = n ; }
- void SetPtBiasJet2Clus(Float_t b) { fPtBiasJet2Clus = b ; }
- void SetPtBiasJet2Track(Float_t b) { fPtBiasJet2Track = b ; }
+
void SetMatching(MatchingType t, Double_t p1=1, Double_t p2=1) { fMatching = t; fMatchingPar1 = p1; fMatchingPar2 = p2; }
void SetPtHardBin(Int_t b) { fSelectPtHardBin = b ; }
- void SetAreMCCollections(Bool_t f1, Bool_t f2) { fAreCollections1MC = f1; fAreCollections2MC = f2; }
+ void SetUseCellsToMatch(Bool_t i) { fUseCellsToMatch = i ; }
+ void SetMinJetMCPt(Float_t pt) { fMinJetMCPt = pt ; }
+ void SetHistoType(Int_t b) { fHistoType = b ; }
+ void SetDeltaPtAxis(Int_t b) { fDeltaPtAxis = b ; }
+ void SetDeltaEtaDeltaPhiAxis(Int_t b) { fDeltaEtaDeltaPhiAxis= b ; }
+ void SetNEFAxis(Int_t b) { fNEFAxis = b ; }
+ void SetZAxis(Int_t b) { fZAxis = b ; }
protected:
- Bool_t PythiaInfoFromFile(const char* currFile, Float_t &fXsec, Float_t &fTrials, Int_t &pthard);
- Bool_t IsEventSelected();
- Bool_t AcceptJet(AliEmcalJet* jet) const;
- Bool_t AcceptBiasJet2(AliEmcalJet *jet) const;
void ExecOnce();
- void DoJetLoop(Bool_t order);
+ void DoJetLoop();
Bool_t FillHistograms();
- Bool_t RetrieveEventObjects();
Bool_t Run();
Bool_t DoJetMatching();
void SetMatchingLevel(AliEmcalJet *jet1, AliEmcalJet *jet2, MatchingType matching);
void GetGeometricalMatchingLevel(AliEmcalJet *jet1, AliEmcalJet *jet2, Double_t &d) const;
void GetMCLabelMatchingLevel(AliEmcalJet *jet1, AliEmcalJet *jet2, Double_t &d1, Double_t &d2) const;
void GetSameCollectionsMatchingLevel(AliEmcalJet *jet1, AliEmcalJet *jet2, Double_t &d1, Double_t &d2) const;
+ void FillMatchingHistos(Double_t Pt1, Double_t Pt2, Double_t Eta1, Double_t Eta2, Double_t Phi1, Double_t Phi2,
+ Double_t A1, Double_t A2, Double_t d, Double_t CE1, Double_t CE2, Double_t CorrPt1, Double_t CorrPt2,
+ Double_t MCPt1, Double_t NEF1, Double_t NEF2, Double_t LeadingPt1, Double_t LeadingPt2);
+ void FillJetHisto(Double_t Phi, Double_t Eta, Double_t Pt, Double_t A, Double_t NEF, Double_t LeadingPt, Double_t CorrPt, Double_t MCPt, Int_t Set);
+ void AllocateTH2();
+ void AllocateTHnSparse();
+
+ MatchingType fMatching; // matching type
+ Double_t fMatchingPar1; // matching parameter for jet1-jet2 matching
+ Double_t fMatchingPar2; // matching parameter for jet2-jet1 matching
+ Bool_t fUseCellsToMatch; // use cells instead of clusters to match jets (slower but sometimes needed)
+ Double_t fMinJetMCPt; // minimum jet MC pt
+ Int_t fHistoType; // histogram type (0=TH2, 1=THnSparse)
+ Int_t fDeltaPtAxis; // add delta pt axis in THnSparse (default=0)
+ Int_t fDeltaEtaDeltaPhiAxis; // add delta eta and delta phi axes in THnSparse (default=0)
+ Int_t fNEFAxis; // add NEF axis in matching THnSparse (default=0)
+ Int_t fZAxis; // add Z axis in matching THnSparse (default=0)
+
+ Bool_t fIsJet1Rho; //!whether the jet1 collection has to be average subtracted
+ Bool_t fIsJet2Rho; //!whether the jet2 collection has to be average subtracted
+
+ TH2 *fHistRejectionReason1; //!Rejection reason vs. jet pt
+ TH2 *fHistRejectionReason2; //!Rejection reason vs. jet pt
+
+ // THnSparse
+ THnSparse *fHistJets1; //!jet1 THnSparse
+ THnSparse *fHistJets2; //!jet2 THnSparse
+ THnSparse *fHistMatching; //!matching THnSparse
- TString fTracks2Name; // name of second track collection
- TString fCalo2Name; // name of second cluster collection
- TString fJets2Name; // name of second jet collection
- TString fRho2Name; // name of second jet collection
- Float_t fPtBiasJet2Track; // select jets 2 with a minimum pt track
- Float_t fPtBiasJet2Clus; // select jets 2 with a minimum pt cluster
- Bool_t fAreCollections1MC; // collections 1 MC
- Bool_t fAreCollections2MC; // collections 1 MC
- MatchingType fMatching; // matching type
- Double_t fMatchingPar1; // matching parameter for jet1-jet2 matching
- Double_t fMatchingPar2; // matching parameter for jet2-jet1 matching
- Float_t fJet2MinEta; // minimum eta jet 2 acceptance
- Float_t fJet2MaxEta; // maximum eta jet 2 acceptance
- Float_t fJet2MinPhi; // minimum phi jet 2 acceptance
- Float_t fJet2MaxPhi; // maximum phi jet 2 acceptance
- Int_t fSelectPtHardBin; // select one pt hard bin for analysis
-
- AliGenPythiaEventHeader *fPythiaHeader; //!event Pythia header
- Int_t fPtHardBin; //!event pt hard bin
- Int_t fNTrials; //!event trials
- TClonesArray *fTracks2; //!Tracks 2
- TClonesArray *fCaloClusters2; //!Clusters 2
- TClonesArray *fJets2; //!Jets 2
- AliRhoParameter *fRho2; //!Event rho 2
- Double_t fRho2Val; //!Event rho 2 value
- TH1 *fTracks2Map; //!MC particle map
- // General histograms
- TH1 *fHistTrialsAfterSel; //!total number of trials per pt hard bin after selection
- TH1 *fHistEventsAfterSel; //!total number of events per pt hard bin after selection
- TH1 *fHistTrials; //!trials from pyxsec.root
- TH1 *fHistXsection; //!x section from pyxsec.root
- TH1 *fHistEvents; //!total number of events per pt hard bin
// Jets 1
- TH2 *fHistJets1PhiEta; //!phi-eta distribution of jets 1
- TH2 *fHistJets1PtArea; //!inclusive jet pt vs area histogram 1
- TH2 *fHistJets1CorrPtArea; //!inclusive jet pt vs. area histogram 1
- TH2 *fHistLeadingJets1PtArea; //!leading jet pt vs area histogram 1
- TH2 *fHistLeadingJets1CorrPtArea; //!leading jet pt vs. area histogram 1
- TH2 *fHistJets1NEFvsPt; //!Jet neutral energy fraction vs. jet pt 1
- TH2 *fHistJets1CEFvsCEFPt; //!Jet charged energy fraction vs. charged jet pt 1
- TH2 *fHistJets1ZvsPt; //!Constituent Pt over Jet Pt ratio vs. jet pt 1
+ TH2 *fHistJets1PhiEta; //!phi-eta distribution of jets 1
+ TH2 *fHistJets1PtArea; //!inclusive jet pt vs. area histogram 1
+ TH2 *fHistJets1CorrPtArea; //!inclusive jet pt vs. area histogram 1
+ TH2 *fHistJets1NEFvsPt; //!Jet neutral energy fraction vs. jet pt 1
+ TH2 *fHistJets1CEFvsCEFPt; //!Jet charged energy fraction vs. charged jet pt 1
+ TH2 *fHistJets1ZvsPt; //!Constituent Pt over Jet Pt ratio vs. jet pt 1
+
// Jets 2
- TH2 *fHistJets2PhiEta; //!phi-eta distribution of jets 2
- TH2 *fHistJets2PtArea; //!inclusive jet pt vs. area histogram 2
- TH2 *fHistJets2CorrPtArea; //!inclusive jet pt vs. area histogram 2
- TH2 *fHistLeadingJets2PtArea; //!leading jet pt vs. area histogram 2
- TH2 *fHistLeadingJets2CorrPtArea; //!leading jet pt vs. area histogram 2
- TH2 *fHistJets2PhiEtaAcceptance; //!phi-eta distribution of jets 2 using jet 1 cuts (acceptance, leading hadron bias, ...)
- TH2 *fHistJets2PtAreaAcceptance; //!inclusive jet pt vs. area histogram 2 using jet 1 cuts (acceptance, leading hadron bias, ...)
- TH2 *fHistJets2CorrPtAreaAcceptance; //!inclusive jet pt vs. area histogram 2 using jet 1 cuts (acceptance, leading hadron bias, ...)
- TH2 *fHistLeadingJets2PtAreaAcceptance; //!leading jet pt vs. area histogram 2 using jet 1 cuts (acceptance, leading hadron bias, ...)
- TH2 *fHistLeadingJets2CorrPtAreaAcceptance; //!leading jet pt vs. area histogram 2 using jet 1 cuts (acceptance, leading hadron bias, ...)
- TH2 *fHistJets2NEFvsPt; //!Jet neutral energy fraction vs. jet pt 2
- TH2 *fHistJets2CEFvsCEFPt; //!Jet charged energy fraction vs. charged jet pt 2
- TH2 *fHistJets2ZvsPt; //!Constituent Pt over Jet Pt ratio vs. jet pt 2
+ TH2 *fHistJets2PhiEta; //!phi-eta distribution of jets 2
+ TH2 *fHistJets2PtArea; //!inclusive jet pt vs. area histogram 2
+ TH2 *fHistJets2CorrPtArea; //!inclusive jet pt vs. area histogram 2
+ TH2 *fHistJets2NEFvsPt; //!Jet neutral energy fraction vs. jet pt 2
+ TH2 *fHistJets2CEFvsCEFPt; //!Jet charged energy fraction vs. charged jet pt 2
+ TH2 *fHistJets2ZvsPt; //!Constituent Pt over Jet Pt ratio vs. jet pt 2
+
// Jet1-Jet2 matching
TH2 *fHistCommonEnergy1vsJet1Pt; //!common energy 1 (%) vs jet 1 pt
TH2 *fHistCommonEnergy2vsJet2Pt; //!common energy 2 (%) vs jet 2 pt
TH2 *fHistDistancevsJet2Pt; //!distance vs jet 2 pt
TH2 *fHistDistancevsCommonEnergy1; //!distance vs common energy 1 (%)
TH2 *fHistDistancevsCommonEnergy2; //!distance vs common energy 2 (%)
+ TH2 *fHistCommonEnergy1vsCommonEnergy2; //!common energy 1 (%) vs common energy 2 (%)
+ TH2 *fHistDeltaEtaDeltaPhi; //!delta eta vs delta phi of matched jets
+
TH2 *fHistJet2PtOverJet1PtvsJet2Pt; //!jet 2 pt over jet 1 pt vs jet 2 pt
TH2 *fHistJet1PtOverJet2PtvsJet1Pt; //!jet 1 pt over jet 2 pt vs jet 1 pt
- TH2 *fHistDeltaEtaPhi; //!delta eta-phi between matched jets
TH2 *fHistDeltaPtvsJet1Pt; //!delta pt between matched jets vs jet 1 pt
TH2 *fHistDeltaPtvsJet2Pt; //!delta pt between matched jets vs jet 2 pt
- TH2 *fHistDeltaPtvsMatchingLevel; //!delta pt between matched jets vs matching level
- TH2 *fHistDeltaCorrPtvsJet1Pt; //!delta pt corr between matched jets vs jet 1 pt
- TH2 *fHistDeltaCorrPtvsJet2Pt; //!delta pt corr between matched jets vs jet 2 pt
- TH2 *fHistDeltaCorrPtvsMatchingLevel; //!delta pt corr between matched jets vs matching level
- TH2 *fHistNonMatchedJets1PtArea; //!non-matched jet 1 pt distribution
- TH2 *fHistNonMatchedJets2PtArea; //!non-matched jet 2 pt distribution
- TH2 *fHistNonMatchedJets1CorrPtArea; //!non-matched jet pt distribution
- TH2 *fHistNonMatchedJets2CorrPtArea; //!non-matched jet pt distribution
+ TH2 *fHistDeltaPtOverJet1PtvsJet1Pt; //!delta pt / jet 1 pt between matched jets vs jet 1 pt
+ TH2 *fHistDeltaPtOverJet2PtvsJet2Pt; //!delta pt / jet 2 pt between matched jets vs jet 2 pt
+ TH2 *fHistDeltaPtvsDistance; //!delta pt between matched jets vs distance
+ TH2 *fHistDeltaPtvsCommonEnergy1; //!delta pt between matched jets vs common energy 1 (%)
+ TH2 *fHistDeltaPtvsCommonEnergy2; //!delta pt between matched jets vs common energy 2 (%)
+ TH2 *fHistDeltaPtvsArea1; //!delta pt between matched jets vs jet 1 area
+ TH2 *fHistDeltaPtvsArea2; //!delta pt between matched jets vs jet 2 area
+ TH2 *fHistDeltaPtvsDeltaArea; //!delta pt between matched jets vs delta area
TH2 *fHistJet1PtvsJet2Pt; //!correlation jet 1 pt vs jet 2 pt
+
+ TH2 *fHistDeltaCorrPtOverJet1CorrPtvsJet1CorrPt;//!delta pt corr / jet 1 corr pt between matched jets vs jet 1 corr pt
+ TH2 *fHistDeltaCorrPtOverJet2CorrPtvsJet2CorrPt;//!delta pt corr / jet 2 corr pt between matched jets vs jet 2 corr pt
+ TH2 *fHistDeltaCorrPtvsJet1CorrPt; //!delta pt corr between matched jets vs jet 1 corr pt
+ TH2 *fHistDeltaCorrPtvsJet2CorrPt; //!delta pt corr between matched jets vs jet 2 corr pt
+ TH2 *fHistDeltaCorrPtvsDistance; //!delta pt corr between matched jets vs distance
+ TH2 *fHistDeltaCorrPtvsCommonEnergy1; //!delta pt corr between matched jets vs common energy 1 (%)
+ TH2 *fHistDeltaCorrPtvsCommonEnergy2; //!delta pt corr between matched jets vs common energy 2 (%)
+ TH2 *fHistDeltaCorrPtvsArea1; //!delta pt corr between matched jets vs jet 1 area
+ TH2 *fHistDeltaCorrPtvsArea2; //!delta pt corr between matched jets vs jet 2 area
+ TH2 *fHistDeltaCorrPtvsDeltaArea; //!delta pt corr between matched jets vs delta area
TH2 *fHistJet1CorrPtvsJet2CorrPt; //!correlation jet 1 corr pt vs jet 2 corr pt
- TH2 *fHistMissedJets2PtArea; //!jets 2 not found in jet 1 collection
+
+ TH2 *fHistDeltaMCPtOverJet1MCPtvsJet1MCPt; //!jet 1 MC pt - jet2 pt / jet 1 MC pt vs jet 1 pt
+ TH2 *fHistDeltaMCPtOverJet2PtvsJet2Pt; //!jet 1 MC pt - jet2 pt / jet 2 pt vs jet 2 pt
+ TH2 *fHistDeltaMCPtvsJet1MCPt; //!jet 1 MC pt - jet2 pt vs jet 1 MC pt
+ TH2 *fHistDeltaMCPtvsJet2Pt; //!jet 1 MC pt - jet2 pt vs jet 2 pt
+ TH2 *fHistDeltaMCPtvsDistance; //!jet 1 MC pt - jet2 pt vs distance
+ TH2 *fHistDeltaMCPtvsCommonEnergy1; //!jet 1 MC pt - jet2 pt vs common energy 1 (%)
+ TH2 *fHistDeltaMCPtvsCommonEnergy2; //!jet 1 MC pt - jet2 pt vs common energy 2 (%)
+ TH2 *fHistDeltaMCPtvsArea1; //!jet 1 MC pt - jet2 pt vs jet 1 area
+ TH2 *fHistDeltaMCPtvsArea2; //!jet 1 MC pt - jet2 pt vs jet 2 area
+ TH2 *fHistDeltaMCPtvsDeltaArea; //!jet 1 MC pt - jet2 pt vs delta area
+ TH2 *fHistJet1MCPtvsJet2Pt; //!correlation jet 1 MC pt vs jet 2 pt
private:
AliJetResponseMaker(const AliJetResponseMaker&); // not implemented
AliJetResponseMaker &operator=(const AliJetResponseMaker&); // not implemented
- ClassDef(AliJetResponseMaker, 12) // Jet response matrix producing task
+ ClassDef(AliJetResponseMaker, 24) // Jet response matrix producing task
};
#endif