/* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. * * See cxx source for full Copyright notice */ /* $Id: AliAnalysisTaskLukeAOD.h 45956 2010-12-10 12:55:37Z agheata $ */ /* AliAnalysisTaskLukeAOD.h * * Template task producing a P_t spectrum and pseudorapidity distribution. * Includes explanations of physics and primary track selections * * Based on tutorial example from offline pages * Edited by Arvinder Palaha * Edited by Luke Hanratty for AODs */ #ifndef ALIANALYSISTASKLUKEAOD_H #define ALIANALYSISTASKLUKEAOD_H class TH1F; class TH2F; class TList; class AliPIDResponse; #ifndef ALIANALYSISTASKSE_H #include "AliAnalysisTaskSE.h" #endif class AliAnalysisTaskLukeAOD : public AliAnalysisTaskSE { public: AliAnalysisTaskLukeAOD(); AliAnalysisTaskLukeAOD(const char *name); virtual ~AliAnalysisTaskLukeAOD(); virtual void UserCreateOutputObjects(); virtual void UserExec(Option_t *option); virtual void Terminate(Option_t *); void SetIsMonteCarlo (bool isMonteCarlo = false) {fIsMonteCarlo = isMonteCarlo;} void SetCutCosPa (double cutCosPa = 0.998) {fcutCosPa = cutCosPa;} void SetCutcTauMin (double cutcTauMin = -999) {fcutcTauMin = cutcTauMin;} void SetCutNcTauMax (double cutNcTauMax = 3.0) {fcutNcTauMax = cutNcTauMax;} void SetCutBetheBloch (double cutBetheBloch = 3.0) {fcutBetheBloch = cutBetheBloch;} void SetCutMinNClustersTPC (double cutMinNClustersTPC = 70) {fcutMinNClustersTPC = cutMinNClustersTPC;} void SetCutRatio (double cutRatio = 0.8) {fcutRatio = cutRatio;} void SetCutEta (double cutEta = 0.8) {fcutEta = cutEta;} void SetCutRapidity (double cutRapidity = 0.5) {fcutRapidity = cutRapidity;} void SetCutArmenteros (double cutArmenteros = 0.2) {fcutArmenteros = cutArmenteros;} private: bool fIsMonteCarlo; double fcutCosPa; double fcutcTauMin; double fcutNcTauMax; double fcutBetheBloch; double fcutMinNClustersTPC; double fcutRatio; double fcutEta; double fcutRapidity; double fcutArmenteros; TList *fOutput; // Output list AliPIDResponse *fPIDResponse; // PID //UInt_t maskIsSelected; // Physics Selection TH1F *fHistPt; // Pt spectrum TH1F *fHistEta; // pseudorapidity spectrum TH1F *fHistLog; // storage of log variables TH1F *fHistNV0; // Number of Tracks per event TH1F *fHistZVertex; // Z coordinate of primary vertex TH1F *fHistMCZVertex; // Z coordinate of MC primary vertex TH1F *fHistCentrality; // Centrality of Events TH2F *fHistBBK0Pos; //PID of the positive daughter of K0 candidates TH2F *fHistBBK0Neg; //PID of the negative daughter of K0 candidates TH2F *fHistBBLaPos; //PID of the positive daughter of lambda candidates TH2F *fHistBBLaNeg; //PID of the negative daughter of lambda candidates TH2F *fHistBBLbPos; //PID of the positive daughter of antilambda candidates TH2F *fHistBBLbNeg; //PID of the negative daughter of antilambda candidates TH2F *fHistBB3SigProton; //Bethe Bloch plot of protons @3sigma TH2F *fHistMK0Pt; // Mass of 'K0' vs transverse momentum TH2F *fHistMLaPt; // Mass of 'Lambda' vs transverse momentum TH2F *fHistMLbPt; // Mass of 'Antilambda' vs transverse momentum TH2F *fHistMcPMK0Pt; // Transverse momentum distribution vs reconstructed K0 mass of primary K0s in MC TH2F *fHistMcPMLaPt; // Transverse momentum distribution vs reconstructed Lambda mass of primary Lambda in MC TH2F *fHistMcPMLbPt; // Transverse momentum distribution vs reconstructed Antilambd mass of primary Antilambda in MC TH2F *fHistMcFMLaPt; // Transverse momentum distribution vs reconstructed Lambda mass of feedown from Xi Lambdas that are detected in MC TH2F *fHistMK0PtCent0005; // Mass of 'K0' vs transverse momentum for centrality 0-5% TH2F *fHistMLaPtCent0005; // Mass of 'Lambda' vs transverse momentum for centrality 0-5% TH2F *fHistMLbPtCent0005; // Mass of 'Antilambda' vs transverse momentum for centrality 0-5% TH2F *fHistMcPMK0PtCent0005; // Transverse momentum distribution vs reconstructed K0 mass of primary K0s in MC for centrality 0-5% TH2F *fHistMcPMLaPtCent0005; // Transverse momentum distribution vs reconstructed Lambda mass of primary Lambda in MC for centrality 0-5% TH2F *fHistMcPMLbPtCent0005; // Transverse momentum distribution vs reconstructed Antilambd mass of primary Antilambda in MC for centrality 0-5% TH2F *fHistMcAsMK0PtCent0005; // Transverse momentum distribution vs reconstructed K0 mass of primary reconstructed K0s in MC for centrality 0-5% TH2F *fHistMcAsMLaPtCent0005; // Transverse momentum distribution vs reconstructed Lambda mass of primary reconstructed Lambda in MC for centrality 0-5% TH2F *fHistMcAsMLbPtCent0005; // Transverse momentum distribution vs reconstructed Antilambd mass of primary reconstructed Antilambda in MC for centrality 0-5% TH1F *fHistZVertexCent0005; // Z coordinate of primary vertex for centrality 0-5% TH1F *fHistMCZVertexCent0005; // Z coordinate of MC primary vertex for centrality 0-5% TH2F *fHistMK0PtCent0510; // Mass of 'K0' vs transverse momentum for centrality 5-10% TH2F *fHistMLaPtCent0510; // Mass of 'Lambda' vs transverse momentum for centrality 5-10% TH2F *fHistMLbPtCent0510; // Mass of 'Antilambda' vs transverse momentum for centrality 5-10% TH2F *fHistMcPMK0PtCent0510; // Transverse momentum distribution vs reconstructed K0 mass of primary K0s in MC for centrality 5-10% TH2F *fHistMcPMLaPtCent0510; // Transverse momentum distribution vs reconstructed Lambda mass of primary Lambda in MC for centrality 5-10% TH2F *fHistMcPMLbPtCent0510; // Transverse momentum distribution vs reconstructed Antilambd mass of primary Antilambda in MC for centrality 5-10% TH2F *fHistMcAsMK0PtCent0510; // Transverse momentum distribution vs reconstructed K0 mass of primary reconstructed K0s in MC for centrality 5-10% TH2F *fHistMcAsMLaPtCent0510; // Transverse momentum distribution vs reconstructed Lambda mass of primary reconstructed Lambda in MC for centrality 5-10% TH2F *fHistMcAsMLbPtCent0510; // Transverse momentum distribution vs reconstructed Antilambd mass of primary reconstructed Antilambda in MC for centrality 5-10% TH1F *fHistZVertexCent0510; // Z coordinate of primary vertex for centrality 5-10% TH1F *fHistMCZVertexCent0510; // Z coordinate of MC primary vertex for centrality 5-10% TH2F *fHistMK0PtCent1020; // Mass of 'K0' vs transverse momentum for centrality 10-20% TH2F *fHistMLaPtCent1020; // Mass of 'Lambda' vs transverse momentum for centrality 10-20% TH2F *fHistMLbPtCent1020; // Mass of 'Antilambda' vs transverse momentum for centrality 10-20% TH2F *fHistMcPMK0PtCent1020; // Transverse momentum distribution vs reconstructed K0 mass of primary K0s in MC for centrality 10-20% TH2F *fHistMcPMLaPtCent1020; // Transverse momentum distribution vs reconstructed Lambda mass of primary Lambda in MC for centrality 10-20% TH2F *fHistMcPMLbPtCent1020; // Transverse momentum distribution vs reconstructed Antilambd mass of primary Antilambda in MC for centrality 10-20% TH2F *fHistMcAsMK0PtCent1020; // Transverse momentum distribution vs reconstructed K0 mass of primary reconstructed K0s in MC for centrality 10-20% TH2F *fHistMcAsMLaPtCent1020; // Transverse momentum distribution vs reconstructed Lambda mass of primary reconstructed Lambda in MC for centrality 10-20% TH2F *fHistMcAsMLbPtCent1020; // Transverse momentum distribution vs reconstructed Antilambd mass of primary reconstructed Antilambda in MC for centrality 10-20% TH1F *fHistZVertexCent1020; // Z coordinate of primary vertex for centrality 10-20% TH1F *fHistMCZVertexCent1020; // Z coordinate of MC primary vertex for centrality 10-20% TH2F *fHistMK0PtCent2040; // Mass of 'K0' vs transverse momentum for centrality 20-40% TH2F *fHistMLaPtCent2040; // Mass of 'Lambda' vs transverse momentum for centrality 20-40% TH2F *fHistMLbPtCent2040; // Mass of 'Antilambda' vs transverse momentum for centrality 20-40% TH2F *fHistMcPMK0PtCent2040; // Transverse momentum distribution vs reconstructed K0 mass of primary K0s in MC for centrality 20-40% TH2F *fHistMcPMLaPtCent2040; // Transverse momentum distribution vs reconstructed Lambda mass of primary Lambda in MC for centrality 20-40% TH2F *fHistMcPMLbPtCent2040; // Transverse momentum distribution vs reconstructed Antilambd mass of primary Antilambda in MC for centrality 20-40% TH2F *fHistMcAsMK0PtCent2040; // Transverse momentum distribution vs reconstructed K0 mass of primary reconstructed K0s in MC for centrality 20-40% TH2F *fHistMcAsMLaPtCent2040; // Transverse momentum distribution vs reconstructed Lambda mass of primary reconstructed Lambda in MC for centrality 20-40% TH2F *fHistMcAsMLbPtCent2040; // Transverse momentum distribution vs reconstructed Antilambd mass of primary reconstructed Antilambda in MC for centrality 20-40% TH1F *fHistZVertexCent2040; // Z coordinate of primary vertex for centrality 20-40% TH1F *fHistMCZVertexCent2040; // Z coordinate of MC primary vertex for centrality 20-40% TH2F *fHistMK0PtCent4060; // Mass of 'K0' vs transverse momentum for centrality 40-60% TH2F *fHistMLaPtCent4060; // Mass of 'Lambda' vs transverse momentum for centrality 40-60% TH2F *fHistMLbPtCent4060; // Mass of 'Antilambda' vs transverse momentum for centrality 40-60% TH2F *fHistMcPMK0PtCent4060; // Transverse momentum distribution vs reconstructed K0 mass of primary K0s in MC for centrality 40-60% TH2F *fHistMcPMLaPtCent4060; // Transverse momentum distribution vs reconstructed Lambda mass of primary Lambda in MC for centrality 40-60% TH2F *fHistMcPMLbPtCent4060; // Transverse momentum distribution vs reconstructed Antilambd mass of primary Antilambda in MC for centrality 40-60% TH2F *fHistMcAsMK0PtCent4060; // Transverse momentum distribution vs reconstructed K0 mass of primary reconstructed K0s in MC for centrality 40-60% TH2F *fHistMcAsMLaPtCent4060; // Transverse momentum distribution vs reconstructed Lambda mass of primary reconstructed Lambda in MC for centrality 40-60% TH2F *fHistMcAsMLbPtCent4060; // Transverse momentum distribution vs reconstructed Antilambd mass of primary reconstructed Antilambda in MC for centrality 40-60% TH1F *fHistZVertexCent4060; // Z coordinate of primary vertex for centrality 40-60% TH1F *fHistMCZVertexCent4060; // Z coordinate of MC primary vertex for centrality 40-60% TH2F *fHistMK0PtCent6090; // Mass of 'K0' vs transverse momentum for centrality 60-90% TH2F *fHistMLaPtCent6090; // Mass of 'Lambda' vs transverse momentum for centrality 60-90% TH2F *fHistMLbPtCent6090; // Mass of 'Antilambda' vs transverse momentum for centrality 60-90% TH2F *fHistMcPMK0PtCent6090; // Transverse momentum distribution vs reconstructed K0 mass of primary K0s in MC for centrality 60-90% TH2F *fHistMcPMLaPtCent6090; // Transverse momentum distribution vs reconstructed Lambda mass of primary Lambda in MC for centrality 60-90% TH2F *fHistMcPMLbPtCent6090; // Transverse momentum distribution vs reconstructed Antilambd mass of primary Antilambda in MC for centrality 60-90% TH2F *fHistMcAsMK0PtCent6090; // Transverse momentum distribution vs reconstructed K0 mass of primary reconstructed K0s in MC for centrality 60-90% TH2F *fHistMcAsMLaPtCent6090; // Transverse momentum distribution vs reconstructed Lambda mass of primary reconstructed Lambda in MC for centrality 60-90% TH2F *fHistMcAsMLbPtCent6090; // Transverse momentum distribution vs reconstructed Antilambd mass of primary reconstructed Antilambda in MC for centrality 60-90% TH1F *fHistZVertexCent6090; // Z coordinate of primary vertex for centrality 60-90% TH1F *fHistMCZVertexCent6090; // Z coordinate of MC primary vertex for centrality 60-90% TH2F *fHistMK0PtCent0090; // Mass of 'K0' vs transverse momentum for centrality 0-90% TH2F *fHistMLaPtCent0090; // Mass of 'Lambda' vs transverse momentum for centrality 0-90% TH2F *fHistMLbPtCent0090; // Mass of 'Antilambda' vs transverse momentum for centrality 0-90% TH2F *fHistMcPMK0PtCent0090; // Transverse momentum distribution vs reconstructed K0 mass of primary K0s in MC for centrality 0-90% TH2F *fHistMcPMLaPtCent0090; // Transverse momentum distribution vs reconstructed Lambda mass of primary Lambda in MC for centrality 0-90% TH2F *fHistMcPMLbPtCent0090; // Transverse momentum distribution vs reconstructed Antilambd mass of primary Antilambda in MC for centrality 0-90% TH2F *fHistMcAsMK0PtCent0090; // Transverse momentum distribution vs reconstructed K0 mass of primary reconstructed K0s in MC for centrality 0-90% TH2F *fHistMcAsMLaPtCent0090; // Transverse momentum distribution vs reconstructed Lambda mass of primary reconstructed Lambda in MC for centrality 0-90% TH2F *fHistMcAsMLbPtCent0090; // Transverse momentum distribution vs reconstructed Antilambd mass of primary reconstructed Antilambda in MC for centrality 0-90% TH1F *fHistZVertexCent0090; // Z coordinate of primary vertex for centrality 0-90% TH1F *fHistMCZVertexCent0090; // Z coordinate of MC primary vertex for centrality 0-90% TH2F *fHistCosPaMLa; // Transverse momentum distribution vs CosPa for Lambda Candidates TH2F *fHistCosPaMLb; // Transverse momentum distribution vs CosPa for AntiLambda Candidates TH2F *fHistCosPaMK0; // Transverse momentum distribution vs CosPa for K0Short Candidates TH2F *fHistMcGenCosPaMLa; // Transverse momentum distribution vs MC-Truth CosPa for all MC primary Lambda TH2F *fHistMcGenCosPaMLb; // Transverse momentum distribution vs MC-Truth CosPa for all MC primary AntiLambda TH2F *fHistMcGenCosPaMK0; // Transverse momentum distribution vs MC-Truth CosPa for all MC primary K0Short TH2F *fHistMcAsReconCosPaMLa; // Transverse momentum distribution vs CosPa for reconstructed MC primary Lambda TH2F *fHistMcAsReconCosPaMLb; // Transverse momentum distribution vs CosPa for reconstructed MC primary AntiLambda TH2F *fHistMcAsReconCosPaMK0;// Transverse momentum distribution vs CosPa for reconstructed MC primary K0Short TH2F *fHistMcAsTruthCosPaMLa; // Transverse momentum distribution vs MC-Truth CosPa for reconstructed MC primary Lambda TH2F *fHistMcAsTruthCosPaMLb; // Transverse momentum distribution vs MC-Truth CosPa for reconstructed MC primary AntiLambda TH2F *fHistMcAsTruthCosPaMK0;// Transverse momentum distribution vs MC-Truth CosPa for reconstructed MC primary K0Short TH2F *fHistcTauMLa; // Transverse momentum distribution vs cTau for Lambda Candidates TH2F *fHistcTauMLb; // Transverse momentum distribution vs cTau for AntiLambda Candidates TH2F *fHistcTauMK0; // Transverse momentum distribution vs cTau for K0Short Candidates TH2F *fHistMcGencTauMLa; // Transverse momentum distribution vs MC-Truth cTau for all MC primary Lambda TH2F *fHistMcGencTauMLb; // Transverse momentum distribution vs MC-Truth cTau for all MC primary AntiLambda TH2F *fHistMcGencTauMK0; // Transverse momentum distribution vs MC-Truth cTau for all MC primary K0Short TH2F *fHistMcAsReconcTauMLa; // Transverse momentum distribution vs cTau for reconstructed MC primary Lambda TH2F *fHistMcAsReconcTauMLb; // Transverse momentum distribution vs cTau for reconstructed MC primary AntiLambda TH2F *fHistMcAsReconcTauMK0;// Transverse momentum distribution vs cTau for reconstructed MC primary K0Short TH2F *fHistMcAsTruthcTauMLa; // Transverse momentum distribution vs MC-Truth cTau for reconstructed MC primary Lambda TH2F *fHistMcAsTruthcTauMLb; // Transverse momentum distribution vs MC-Truth cTau for reconstructed MC primary AntiLambda TH2F *fHistMcAsTruthcTauMK0;// Transverse momentum distribution vs MC-Truth cTau for reconstructed MC primary K0Short TH2F *fHistDcaMLa; // Transverse momentum distribution vs Dca for Lambda Candidates TH2F *fHistDcaMLb; // Transverse momentum distribution vs Dca for AntiLambda Candidates TH2F *fHistDcaMK0; // Transverse momentum distribution vs Dca for K0Short Candidates TH2F *fHistMcGenDcaMLa; // Transverse momentum distribution vs MC-Truth Dca for all MC primary Lambda TH2F *fHistMcGenDcaMLb; // Transverse momentum distribution vs MC-Truth Dca for all MC primary AntiLambda TH2F *fHistMcGenDcaMK0; // Transverse momentum distribution vs MC-Truth Dca for all MC primary K0Short TH2F *fHistMcAsReconDcaMLa; // Transverse momentum distribution vs Dca for reconstructed MC primary Lambda TH2F *fHistMcAsReconDcaMLb; // Transverse momentum distribution vs Dca for reconstructed MC primary AntiLambda TH2F *fHistMcAsReconDcaMK0;// Transverse momentum distribution vs Dca for reconstructed MC primary K0Short TH2F *fHistMcAsTruthDcaMLa; // Transverse momentum distribution vs MC-Truth Dca for reconstructed MC primary Lambda TH2F *fHistMcAsTruthDcaMLb; // Transverse momentum distribution vs MC-Truth Dca for reconstructed MC primary AntiLambda TH2F *fHistMcAsTruthDcaMK0;// Transverse momentum distribution vs MC-Truth Dca for reconstructed MC primary K0Short TH2F *fHistNSigmaMLa; // Transverse momentum distribution vs NSigma for Lambda Candidates TH2F *fHistNSigmaMLb; // Transverse momentum distribution vs NSigma for AntiLambda Candidates TH2F *fHistNSigmaMK0; // Transverse momentum distribution vs NSigma for K0Short Candidates TH2F *fHistMcGenNSigmaMLa; // Transverse momentum distribution vs MC-Truth NSigma for all MC primary Lambda TH2F *fHistMcGenNSigmaMLb; // Transverse momentum distribution vs MC-Truth NSigma for all MC primary AntiLambda TH2F *fHistMcGenNSigmaMK0; // Transverse momentum distribution vs MC-Truth NSigma for all MC primary K0Short TH2F *fHistMcAsReconNSigmaMLa; // Transverse momentum distribution vs NSigma for reconstructed MC primary Lambda TH2F *fHistMcAsReconNSigmaMLb; // Transverse momentum distribution vs NSigma for reconstructed MC primary AntiLambda TH2F *fHistMcAsReconNSigmaMK0;// Transverse momentum distribution vs NSigma for reconstructed MC primary K0Short TH2F *fHistMcAsTruthNSigmaMLa; // Transverse momentum distribution vs MC-Truth NSigma for reconstructed MC primary Lambda TH2F *fHistMcAsTruthNSigmaMLb; // Transverse momentum distribution vs MC-Truth NSigma for reconstructed MC primary AntiLambda TH2F *fHistMcAsTruthNSigmaMK0;// Transverse momentum distribution vs MC-Truth NSigma for reconstructed MC primary K0Short TH2F *fHistEtaMLa; // Transverse momentum distribution vs Eta for Lambda Candidates TH2F *fHistEtaMLb; // Transverse momentum distribution vs Eta for AntiLambda Candidates TH2F *fHistEtaMK0; // Transverse momentum distribution vs Eta for K0Short Candidates TH2F *fHistMcGenEtaMLa; // Transverse momentum distribution vs MC-Truth Eta for all MC primary Lambda TH2F *fHistMcGenEtaMLb; // Transverse momentum distribution vs MC-Truth Eta for all MC primary AntiLambda TH2F *fHistMcGenEtaMK0; // Transverse momentum distribution vs MC-Truth Eta for all MC primary K0Short TH2F *fHistMcAsReconEtaMLa; // Transverse momentum distribution vs Eta for reconstructed MC primary Lambda TH2F *fHistMcAsReconEtaMLb; // Transverse momentum distribution vs Eta for reconstructed MC primary AntiLambda TH2F *fHistMcAsReconEtaMK0;// Transverse momentum distribution vs Eta for reconstructed MC primary K0Short TH2F *fHistMcAsTruthEtaMLa; // Transverse momentum distribution vs MC-Truth Eta for reconstructed MC primary Lambda TH2F *fHistMcAsTruthEtaMLb; // Transverse momentum distribution vs MC-Truth Eta for reconstructed MC primary AntiLambda TH2F *fHistMcAsTruthEtaMK0;// Transverse momentum distribution vs MC-Truth Eta for reconstructed MC primary K0Short TH2F *fHistRapMLa; // Transverse momentum distribution vs Rap for Lambda Candidates TH2F *fHistRapMLb; // Transverse momentum distribution vs Rap for AntiLambda Candidates TH2F *fHistRapMK0; // Transverse momentum distribution vs Rap for K0Short Candidates TH2F *fHistMcGenRapMLa; // Transverse momentum distribution vs MC-Truth Rap for all MC primary Lambda TH2F *fHistMcGenRapMLb; // Transverse momentum distribution vs MC-Truth Rap for all MC primary AntiLambda TH2F *fHistMcGenRapMK0; // Transverse momentum distribution vs MC-Truth Rap for all MC primary K0Short TH2F *fHistMcAsReconRapMLa; // Transverse momentum distribution vs Rap for reconstructed MC primary Lambda TH2F *fHistMcAsReconRapMLb; // Transverse momentum distribution vs Rap for reconstructed MC primary AntiLambda TH2F *fHistMcAsReconRapMK0;// Transverse momentum distribution vs Rap for reconstructed MC primary K0Short TH2F *fHistMcAsTruthRapMLa; // Transverse momentum distribution vs MC-Truth Rap for reconstructed MC primary Lambda TH2F *fHistMcAsTruthRapMLb; // Transverse momentum distribution vs MC-Truth Rap for reconstructed MC primary AntiLambda TH2F *fHistMcAsTruthRapMK0;// Transverse momentum distribution vs MC-Truth Rap for reconstructed MC primary K0Short TH2F *fHistArmPodK0; //Armenteros plot for K0 candidates. TH2F *fHistArmPodLa; //Armenteros plot for Lambda candidates. TH2F *fHistArmPodLb; //Armenteros plot for Antilambda candidates. TH2F *fHistMcGenArmPodK0; //Armenteros plot for K0 candidates. TH2F *fHistMcGenArmPodLa; //Armenteros plot for Lambda candidates. TH2F *fHistMcGenArmPodLb; //Armenteros plot for Antilambda candidates. TH2F *fHistMcAsReconArmPodK0; //Armenteros plot for K0 candidates. TH2F *fHistMcAsReconArmPodLa; //Armenteros plot for Lambda candidates. TH2F *fHistMcAsReconArmPodLb; //Armenteros plot for Antilambda candidates. TH2F *fHistMcAsTruthArmPodK0; //Armenteros plot for K0 candidates. TH2F *fHistMcAsTruthArmPodLa; //Armenteros plot for Lambda candidates. TH2F *fHistMcAsTruthArmPodLb; //Armenteros plot for Antilambda candidates. // NEW HISTO to be declared here AliAnalysisTaskLukeAOD(const AliAnalysisTaskLukeAOD&); // not implemented AliAnalysisTaskLukeAOD& operator=(const AliAnalysisTaskLukeAOD&); // not implemented ClassDef(AliAnalysisTaskLukeAOD, 1); // example of analysis }; #endif