From 112b1d0c6aae329de29e4fca0cc7b4168eecb1f7 Mon Sep 17 00:00:00 2001 From: odjuvsla Date: Wed, 20 Jun 2012 14:53:13 +0000 Subject: [PATCH] Updates in analysis code for EMCAL These are changes made by Marcelo and Caio. In addition changes had to be made to make the code run after the major update that was made in the base classes. --- PWGLF/totEt/AliAnalysisEmEtMonteCarlo.cxx | 9060 +++++++++++---------- PWGLF/totEt/AliAnalysisEmEtMonteCarlo.h | 17 +- 2 files changed, 4575 insertions(+), 4502 deletions(-) diff --git a/PWGLF/totEt/AliAnalysisEmEtMonteCarlo.cxx b/PWGLF/totEt/AliAnalysisEmEtMonteCarlo.cxx index 479e0713a1f..fac40106b76 100644 --- a/PWGLF/totEt/AliAnalysisEmEtMonteCarlo.cxx +++ b/PWGLF/totEt/AliAnalysisEmEtMonteCarlo.cxx @@ -5,10 +5,11 @@ // implementation file // //*-- Author: Marcelo G. Munhoz (USP) - //_________________________________________________________________________ +//_________________________________________________________________________ #include "AliAnalysisEmEtMonteCarlo.h" #include "AliAnalysisEtCuts.h" +#include "AliAnalysisEtSelectorEmcal.h" #include "AliESDtrack.h" #include "AliStack.h" #include "AliVEvent.h" @@ -32,4792 +33,4849 @@ #include "TGeoManager.h" #include "AliCentrality.h" - using namespace std; +using namespace std; ClassImp(AliAnalysisEmEtMonteCarlo); // ctor AliAnalysisEmEtMonteCarlo::AliAnalysisEmEtMonteCarlo():AliAnalysisEtMonteCarlo() - ,fPrimtotET(0), fPrimAcctotET(0), fPrimRectotET(0), fPrimRectotETDep(0) - ,fElectrontotET(0), fElectronAcctotET(0), fElectronRectotET(0) - ,fConvElectrontotET(0), fConvElectronAcctotET(0), fConvElectronRectotET(0), fScatElectrontotET(0), fScatElectronAcctotET(0), fScatElectronRectotET(0) - ,fTotElectrontotET(0), fTotElectronAcctotET(0), fTotElectronRectotET(0) - - ,fGammatotET(0), fGammaAcctotET(0), fGammaRectotET(0) - ,fAnnihGammatotET(0), fAnnihGammaAcctotET(0), fAnnihGammaRectotET(0), fScatGammatotET(0), fScatGammaAcctotET(0), fScatGammaRectotET(0) - ,fTotGammatotET(0), fTotGammaAcctotET(0), fTotGammaRectotET(0) - ,fConvGammatotET(0),fNonConvGammatotET(0),fConvGammaAcctotET(0),fNonConvGammaAcctotET(0), fNPPPi0GammatotET(0), fNPPPi0GammaRectotET(0) - - ,fTotEMtotET(0), fTotEMAcctotET(0), fTotEMRectotET(0) - - ,fNPPElectrontotET(0), fNPPElectronRectotET(0), fNPPGammatotET(0), fNPPGammaRectotET(0) - ,fTotNPPEMtotET(0), fTotNPPEMRectotET(0) - - ,fMuontotET(0), fPiontotET(0), fKaontotET(0), fProtontotET(0) - ,fMuonAcctotET(0), fPionAcctotET(0), fKaonAcctotET(0), fProtonAcctotET(0) - ,fMuonRectotET(0), fMuonRectotETDep(0), fPionRectotET(0), fPionRectotETDep(0), fKaonRectotET(0), fKaonRectotETDep(0), fProtonRectotET(0), fProtonRectotETDep(0) - ,fMuonMatchtotET(0), fMuonMatchtotETDep(0), fPionMatchtotET(0), fPionMatchtotETDep(0), fKaonMatchtotET(0), fKaonMatchtotETDep(0), fProtonMatchtotET(0), fProtonMatchtotETDep(0) - ,fTotChargedtotET(0), fTotChargedAcctotET(0), fTotChargedRectotET(0), fTotChargedRectotETDep(0), fTotChargedMatchtotET(0), fTotChargedMatchtotETDep(0) - - ,fNeutrontotET(0), fNeutronAcctotET(0), fNeutronRectotET(0), fNeutronRectotETDep(0) - ,fK0totET(0), fK0RectotET(0), fK0RectotETDep(0), fLambdatotET(0), fLambdaRectotET(0), fLambdaRectotETDep(0) - ,fTotNeutraltotET(0), fTotNeutralRectotET(0), fTotNeutralRectotETDep(0) - - ,fTotaltotET(0), fTotalAcctotET(0), fTotalRectotET(0), fTotalRectotETDep(0) - - ,fGeoUt(0) - - ,fHistPrimEtaEET(0) - ,fHistPrimEtaPtET(0) - ,fHistPrimEtaET(0) - ,fHistPrimtotET(0) - - ,fHistPrimAccEtaEET(0) - ,fHistPrimAccEtaPtET(0) - ,fHistPrimAccEtaET(0) - ,fHistPrimAcctotET(0) - - ,fHistPrimRecEtaEET(0) - ,fHistPrimRecEtaPtET(0) - ,fHistPrimRecEtaET(0) - ,fHistPrimRectotET(0) - - ,fHistPrimRecEtaEDepETDep(0) - ,fHistPrimRecEtaPtETDep(0) - ,fHistPrimRecEtaETDep(0) - ,fHistPrimRectotETDep(0) - - ,fHistElectronEtaEET(0) - ,fHistElectronEtaPtET(0) - ,fHistElectronEtaET(0) - ,fHistElectronEtaE(0) - ,fHistElectronEtaPt(0) - ,fHistElectrontotET(0) - - ,fHistConvElectronEtaEET(0) - ,fHistConvElectronEtaPtET(0) - ,fHistConvElectronEtaET(0) - ,fHistConvElectronEtaE(0) - ,fHistConvElectronEtaPt(0) - ,fHistConvElectrontotET(0) - - ,fHistScatElectronEtaEET(0) - ,fHistScatElectronEtaPtET(0) - ,fHistScatElectronEtaET(0) - ,fHistScatElectronEtaE(0) - ,fHistScatElectronEtaPt(0) - ,fHistScatElectrontotET(0) - - ,fHistTotElectrontotET(0) - - ,fHistGammaEtaEET(0) - ,fHistGammaEtaPtET(0) - ,fHistGammaEtaET(0) - ,fHistGammaEtaE(0) - ,fHistGammaEtaPt(0) - ,fHistGammatotET(0) - - ,fHistAnnihGammaEtaEET(0) - ,fHistAnnihGammaEtaPtET(0) - ,fHistAnnihGammaEtaET(0) - ,fHistAnnihGammaEtaE(0) - ,fHistAnnihGammaEtaPt(0) - ,fHistAnnihGammatotET(0) - - ,fHistScatGammaEtaEET(0) - ,fHistScatGammaEtaPtET(0) - ,fHistScatGammaEtaET(0) - ,fHistScatGammaEtaE(0) - ,fHistScatGammaEtaPt(0) - ,fHistScatGammatotET(0) - - ,fHistConvGammaEtaEET(0) - ,fHistConvGammaEtaPtET(0) - ,fHistConvGammaEtaET(0) - ,fHistConvGammaEtaE(0) - ,fHistConvGammaEtaPt(0) - ,fHistConvGammatotET(0) - - ,fHistNonConvGammaEtaEET(0) - ,fHistNonConvGammaEtaPtET(0) - ,fHistNonConvGammaEtaET(0) - ,fHistNonConvGammaEtaE(0) - ,fHistNonConvGammaEtaPt(0) - ,fHistNonConvGammatotET(0) - - ,fHistTotGammatotET(0) - - ,fHistTotEMtotET(0) - - ,fHistNPPElectronEtaEET(0) - ,fHistNPPElectronEtaPtET(0) - ,fHistNPPElectronEtaET(0) - ,fHistNPPElectronEtaE(0) - ,fHistNPPElectronEtaPt(0) - ,fHistNPPElectrontotET(0) - - ,fHistNPPGammaEtaEET(0) - ,fHistNPPGammaEtaPtET(0) - ,fHistNPPGammaEtaET(0) - ,fHistNPPGammaEtaE(0) - ,fHistNPPGammaEtaPt(0) - ,fHistNPPGammatotET(0) - - ,fHistTotNPPEMtotET(0) - - ,fHistNPPPi0GammaEtaEET(0) - ,fHistNPPPi0GammaEtaPtET(0) - ,fHistNPPPi0GammaEtaET(0) - ,fHistNPPPi0GammaEtaE(0) - ,fHistNPPPi0GammaEtaPt(0) - ,fHistNPPPi0GammatotET(0) - - ,fHistElectronAccEtaEET(0) - ,fHistElectronAccEtaPtET(0) - ,fHistElectronAccEtaET(0) - ,fHistElectronAccEtaE(0) - ,fHistElectronAccEtaPt(0) - ,fHistElectronAcctotET(0) - - ,fHistConvElectronAccEtaEET(0) - ,fHistConvElectronAccEtaPtET(0) - ,fHistConvElectronAccEtaET(0) - ,fHistConvElectronAccEtaE(0) - ,fHistConvElectronAccEtaPt(0) - ,fHistConvElectronAcctotET(0) - - ,fHistScatElectronAccEtaEET(0) - ,fHistScatElectronAccEtaPtET(0) - ,fHistScatElectronAccEtaET(0) - ,fHistScatElectronAccEtaE(0) - ,fHistScatElectronAccEtaPt(0) - ,fHistScatElectronAcctotET(0) - - ,fHistTotElectronAcctotET(0) - - ,fHistGammaAccEtaEET(0) - ,fHistGammaAccEtaPtET(0) - ,fHistGammaAccEtaET(0) - ,fHistGammaAccEtaE(0) - ,fHistGammaAccEtaPt(0) - ,fHistGammaAcctotET(0) - - ,fHistAnnihGammaAccEtaEET(0) - ,fHistAnnihGammaAccEtaPtET(0) - ,fHistAnnihGammaAccEtaET(0) - ,fHistAnnihGammaAccEtaE(0) - ,fHistAnnihGammaAccEtaPt(0) - ,fHistAnnihGammaAcctotET(0) - - ,fHistScatGammaAccEtaEET(0) - ,fHistScatGammaAccEtaPtET(0) - ,fHistScatGammaAccEtaET(0) - ,fHistScatGammaAccEtaE(0) - ,fHistScatGammaAccEtaPt(0) - ,fHistScatGammaAcctotET(0) - - ,fHistConvGammaAccEtaEET(0) - ,fHistConvGammaAccEtaPtET(0) - ,fHistConvGammaAccEtaET(0) - ,fHistConvGammaAccEtaE(0) - ,fHistConvGammaAccEtaPt(0) - ,fHistConvGammaAcctotET(0) - - ,fHistNonConvGammaAccEtaEET(0) - ,fHistNonConvGammaAccEtaPtET(0) - ,fHistNonConvGammaAccEtaET(0) - ,fHistNonConvGammaAccEtaE(0) - ,fHistNonConvGammaAccEtaPt(0) - ,fHistNonConvGammaAcctotET(0) - - ,fHistTotGammaAcctotET(0) - - ,fHistTotEMAcctotET(0) - - ,fHistNPPElectronAccEtaEET(0) - ,fHistNPPElectronAccEtaPtET(0) - ,fHistNPPElectronAccEtaE(0) - ,fHistNPPElectronAccEtaPt(0) - - ,fHistNPPGammaAccEtaEET(0) - ,fHistNPPGammaAccEtaPtET(0) - ,fHistNPPGammaAccEtaE(0) - ,fHistNPPGammaAccEtaPt(0) - - ,fHistElectronRecEtaEET(0) - ,fHistElectronRecEtaPtET(0) - ,fHistElectronRecEtaET(0) - ,fHistElectronRecEtaE(0) - ,fHistElectronRecEtaPt(0) - ,fHistElectronRectotET(0) - - ,fHistConvElectronRecEtaEET(0) - ,fHistConvElectronRecEtaPtET(0) - ,fHistConvElectronRecEtaET(0) - ,fHistConvElectronRecEtaE(0) - ,fHistConvElectronRecEtaPt(0) - ,fHistConvElectronRectotET(0) - - ,fHistScatElectronRecEtaEET(0) - ,fHistScatElectronRecEtaPtET(0) - ,fHistScatElectronRecEtaET(0) - ,fHistScatElectronRecEtaE(0) - ,fHistScatElectronRecEtaPt(0) - ,fHistScatElectronRectotET(0) - - ,fHistTotElectronRectotET(0) - - ,fHistGammaRecEtaEET(0) - ,fHistGammaRecEtaPtET(0) - ,fHistGammaRecEtaET(0) - ,fHistGammaRecEtaE(0) - ,fHistGammaRecEtaPt(0) - ,fHistGammaRectotET(0) - - ,fHistAnnihGammaRecEtaEET(0) - ,fHistAnnihGammaRecEtaPtET(0) - ,fHistAnnihGammaRecEtaET(0) - ,fHistAnnihGammaRecEtaE(0) - ,fHistAnnihGammaRecEtaPt(0) - ,fHistAnnihGammaRectotET(0) - - ,fHistScatGammaRecEtaEET(0) - ,fHistScatGammaRecEtaPtET(0) - ,fHistScatGammaRecEtaET(0) - ,fHistScatGammaRecEtaE(0) - ,fHistScatGammaRecEtaPt(0) - ,fHistScatGammaRectotET(0) - - ,fHistTotGammaRectotET(0) - - ,fHistTotEMRectotET(0) - - ,fHistNPPElectronRecEtaEET(0) - ,fHistNPPElectronRecEtaPtET(0) - ,fHistNPPElectronRecEtaET(0) - ,fHistNPPElectronRecEtaE(0) - ,fHistNPPElectronRecEtaPt(0) - ,fHistNPPElectronRectotET(0) - - ,fHistNPPGammaRecEtaEET(0) - ,fHistNPPGammaRecEtaPtET(0) - ,fHistNPPGammaRecEtaET(0) - ,fHistNPPGammaRecEtaE(0) - ,fHistNPPGammaRecEtaPt(0) - ,fHistNPPGammaRectotET(0) - - ,fHistTotNPPEMRectotET(0) - - ,fHistNPPPi0GammaRecEtaEET(0) - ,fHistNPPPi0GammaRecEtaPtET(0) - ,fHistNPPPi0GammaRecEtaET(0) - ,fHistNPPPi0GammaRecEtaE(0) - ,fHistNPPPi0GammaRecEtaPt(0) - ,fHistNPPPi0GammaRectotET(0) - - ,fHistMuonEtaEET(0) - ,fHistMuonAccEtaEET(0) - ,fHistMuonRecEtaEET(0) - ,fHistMuonMatchEtaEET(0) - - ,fHistMuonEtaPtET(0) - ,fHistMuonAccEtaPtET(0) - ,fHistMuonRecEtaPtET(0) - ,fHistMuonMatchEtaPtET(0) - - ,fHistMuonEtaET(0) - ,fHistMuonAccEtaET(0) - ,fHistMuonRecEtaET(0) - ,fHistMuonMatchEtaET(0) - - ,fHistMuonEtaE(0) - ,fHistMuonAccEtaE(0) - ,fHistMuonRecEtaE(0) - ,fHistMuonMatchEtaE(0) - - ,fHistMuonEtaPt(0) - ,fHistMuonAccEtaPt(0) - ,fHistMuonRecEtaPt(0) - ,fHistMuonMatchEtaPt(0) - - ,fHistMuontotET(0) - ,fHistMuonAcctotET(0) - ,fHistMuonRectotET(0) - ,fHistMuonMatchtotET(0) - - ,fHistMuonRectotETDep(0) - ,fHistMuonMatchtotETDep(0) - - ,fHistMuonRecEtaEDepETDep(0) - ,fHistMuonMatchEtaEDepETDep(0) - - ,fHistMuonRecEtaPtETDep(0) - ,fHistMuonMatchEtaPtETDep(0) - - ,fHistMuonRecEtaETDep(0) - ,fHistMuonMatchEtaETDep(0) - - ,fHistMuonRecResEET(0) - ,fHistMuonRecResPtET(0) - ,fHistMuonRecResE(0) - ,fHistMuonRecResPt(0) - - ,fHistMuonRecResEDepETDep(0) - ,fHistMuonRecResPtETDep(0) - - ,fHistPionEtaEET(0) - ,fHistPionAccEtaEET(0) - ,fHistPionRecEtaEET(0) - ,fHistPionMatchEtaEET(0) - - ,fHistPionEtaPtET(0) - ,fHistPionAccEtaPtET(0) - ,fHistPionRecEtaPtET(0) - ,fHistPionMatchEtaPtET(0) - - ,fHistPionEtaET(0) - ,fHistPionAccEtaET(0) - ,fHistPionRecEtaET(0) - ,fHistPionMatchEtaET(0) - - ,fHistPionEtaE(0) - ,fHistPionAccEtaE(0) - ,fHistPionRecEtaE(0) - ,fHistPionMatchEtaE(0) - - ,fHistPionEtaPt(0) - ,fHistPionAccEtaPt(0) - ,fHistPionRecEtaPt(0) - ,fHistPionMatchEtaPt(0) - - ,fHistPiontotET(0) - ,fHistPionAcctotET(0) - ,fHistPionRectotET(0) - ,fHistPionMatchtotET(0) - - ,fHistPionRectotETDep(0) - ,fHistPionMatchtotETDep(0) - - ,fHistPionRecEtaEDepETDep(0) - ,fHistPionMatchEtaEDepETDep(0) - - ,fHistPionRecEtaPtETDep(0) - ,fHistPionMatchEtaPtETDep(0) - - ,fHistPionRecEtaETDep(0) - ,fHistPionMatchEtaETDep(0) - - ,fHistPionRecResEET(0) - ,fHistPionRecResPtET(0) - ,fHistPionRecResE(0) - ,fHistPionRecResPt(0) - ,fHistPionRecResEDepETDep(0) - ,fHistPionRecResPtETDep(0) - - ,fHistKaonEtaEET(0) - ,fHistKaonAccEtaEET(0) - ,fHistKaonRecEtaEET(0) - ,fHistKaonMatchEtaEET(0) - - ,fHistKaonEtaPtET(0) - ,fHistKaonAccEtaPtET(0) - ,fHistKaonRecEtaPtET(0) - ,fHistKaonMatchEtaPtET(0) - - ,fHistKaonEtaET(0) - ,fHistKaonAccEtaET(0) - ,fHistKaonRecEtaET(0) - ,fHistKaonMatchEtaET(0) - - ,fHistKaonEtaE(0) - ,fHistKaonAccEtaE(0) - ,fHistKaonRecEtaE(0) - ,fHistKaonMatchEtaE(0) - - ,fHistKaonEtaPt(0) - ,fHistKaonAccEtaPt(0) - ,fHistKaonRecEtaPt(0) - ,fHistKaonMatchEtaPt(0) - - ,fHistKaontotET(0) - ,fHistKaonAcctotET(0) - ,fHistKaonRectotET(0) - ,fHistKaonMatchtotET(0) - - ,fHistKaonRectotETDep(0) - ,fHistKaonMatchtotETDep(0) - - ,fHistKaonRecEtaEDepETDep(0) - ,fHistKaonMatchEtaEDepETDep(0) - - ,fHistKaonRecEtaPtETDep(0) - ,fHistKaonMatchEtaPtETDep(0) - - ,fHistKaonRecEtaETDep(0) - ,fHistKaonMatchEtaETDep(0) - - ,fHistKaonRecResEET(0) - ,fHistKaonRecResPtET(0) - ,fHistKaonRecResE(0) - ,fHistKaonRecResPt(0) - - ,fHistKaonRecResEDepETDep(0) - ,fHistKaonRecResPtETDep(0) - - ,fHistProtonEtaEET(0) - ,fHistProtonAccEtaEET(0) - ,fHistProtonRecEtaEET(0) - ,fHistProtonMatchEtaEET(0) - - ,fHistProtonEtaPtET(0) - ,fHistProtonAccEtaPtET(0) - ,fHistProtonRecEtaPtET(0) - ,fHistProtonMatchEtaPtET(0) +,fResCut(0),fPrimtotET(0), fPrimAcctotET(0), fPrimRectotET(0), fPrimRectotETDep(0) +,fElectrontotET(0), fElectronAcctotET(0), fElectronRectotET(0) +,fConvElectrontotET(0), fConvElectronAcctotET(0), fConvElectronRectotET(0), fScatElectrontotET(0), fScatElectronAcctotET(0), fScatElectronRectotET(0) +,fTotElectrontotET(0), fTotElectronAcctotET(0), fTotElectronRectotET(0) + +,fGammatotET(0), fGammaAcctotET(0), fGammaRectotET(0) +,fAnnihGammatotET(0), fAnnihGammaAcctotET(0), fAnnihGammaRectotET(0), fScatGammatotET(0), fScatGammaAcctotET(0), fScatGammaRectotET(0) +,fTotGammatotET(0), fTotGammaAcctotET(0), fTotGammaRectotET(0) +,fConvGammatotET(0),fNonConvGammatotET(0),fConvGammaAcctotET(0),fNonConvGammaAcctotET(0), fNPPPi0GammatotET(0), fNPPPi0GammaRectotET(0) + +,fTotEMtotET(0), fTotEMAcctotET(0), fTotEMRectotET(0) + +,fNPPElectrontotET(0), fNPPElectronRectotET(0), fNPPGammatotET(0), fNPPGammaRectotET(0) +,fTotNPPEMtotET(0), fTotNPPEMRectotET(0) + +,fMuontotET(0), fPiontotET(0), fKaontotET(0), fProtontotET(0) +,fMuonAcctotET(0), fPionAcctotET(0), fKaonAcctotET(0), fProtonAcctotET(0) +,fMuonRectotET(0), fMuonRectotETDep(0), fPionRectotET(0), fPionRectotETDep(0), fKaonRectotET(0), fKaonRectotETDep(0), fProtonRectotET(0), fProtonRectotETDep(0) +,fMuonMatchtotET(0), fMuonMatchtotETDep(0), fPionMatchtotET(0), fPionMatchtotETDep(0), fKaonMatchtotET(0), fKaonMatchtotETDep(0), fProtonMatchtotET(0), fProtonMatchtotETDep(0) +,fTotChargedtotET(0), fTotChargedAcctotET(0), fTotChargedRectotET(0), fTotChargedRectotETDep(0), fTotChargedMatchtotET(0), fTotChargedMatchtotETDep(0) + +,fNeutrontotET(0), fNeutronAcctotET(0), fNeutronRectotET(0), fNeutronRectotETDep(0) +,fK0totET(0), fK0RectotET(0), fK0RectotETDep(0), fLambdatotET(0), fLambdaRectotET(0), fLambdaRectotETDep(0) +,fTotNeutraltotET(0), fTotNeutralRectotET(0), fTotNeutralRectotETDep(0) + +,fTotaltotET(0), fTotalAcctotET(0), fTotalRectotET(0), fTotalRectotETDep(0) + +,fGeoUt(0) + +,fHistPrimEtaEET(0) +,fHistPrimEtaPtET(0) +,fHistPrimEtaET(0) +,fHistPrimtotET(0) + +,fHistPrimAccEtaEET(0) +,fHistPrimAccEtaPtET(0) +,fHistPrimAccEtaET(0) +,fHistPrimAcctotET(0) + +,fHistPrimRecEtaEET(0) +,fHistPrimRecEtaPtET(0) +,fHistPrimRecEtaET(0) +,fHistPrimRectotET(0) + +,fHistPrimRecEtaEDepETDep(0) +,fHistPrimRecEtaPtETDep(0) +,fHistPrimRecEtaETDep(0) +,fHistPrimRectotETDep(0) + +,fHistElectronEtaEET(0) +,fHistElectronEtaPtET(0) +,fHistElectronEtaET(0) +,fHistElectronEtaE(0) +,fHistElectronEtaPt(0) +,fHistElectrontotET(0) + +,fHistConvElectronEtaEET(0) +,fHistConvElectronEtaPtET(0) +,fHistConvElectronEtaET(0) +,fHistConvElectronEtaE(0) +,fHistConvElectronEtaPt(0) +,fHistConvElectrontotET(0) + +,fHistScatElectronEtaEET(0) +,fHistScatElectronEtaPtET(0) +,fHistScatElectronEtaET(0) +,fHistScatElectronEtaE(0) +,fHistScatElectronEtaPt(0) +,fHistScatElectrontotET(0) + +,fHistTotElectrontotET(0) + +,fHistGammaEtaEET(0) +,fHistGammaEtaPtET(0) +,fHistGammaEtaET(0) +,fHistGammaEtaE(0) +,fHistGammaEtaPt(0) +,fHistGammatotET(0) + +,fHistAnnihGammaEtaEET(0) +,fHistAnnihGammaEtaPtET(0) +,fHistAnnihGammaEtaET(0) +,fHistAnnihGammaEtaE(0) +,fHistAnnihGammaEtaPt(0) +,fHistAnnihGammatotET(0) + +,fHistScatGammaEtaEET(0) +,fHistScatGammaEtaPtET(0) +,fHistScatGammaEtaET(0) +,fHistScatGammaEtaE(0) +,fHistScatGammaEtaPt(0) +,fHistScatGammatotET(0) + +,fHistConvGammaEtaEET(0) +,fHistConvGammaEtaPtET(0) +,fHistConvGammaEtaET(0) +,fHistConvGammaEtaE(0) +,fHistConvGammaEtaPt(0) +,fHistConvGammatotET(0) + +,fHistNonConvGammaEtaEET(0) +,fHistNonConvGammaEtaPtET(0) +,fHistNonConvGammaEtaET(0) +,fHistNonConvGammaEtaE(0) +,fHistNonConvGammaEtaPt(0) +,fHistNonConvGammatotET(0) + +,fHistTotGammatotET(0) + +,fHistTotEMtotET(0) + +,fHistNPPElectronEtaEET(0) +,fHistNPPElectronEtaPtET(0) +,fHistNPPElectronEtaET(0) +,fHistNPPElectronEtaE(0) +,fHistNPPElectronEtaPt(0) +,fHistNPPElectrontotET(0) + +,fHistNPPGammaEtaEET(0) +,fHistNPPGammaEtaPtET(0) +,fHistNPPGammaEtaET(0) +,fHistNPPGammaEtaE(0) +,fHistNPPGammaEtaPt(0) +,fHistNPPGammatotET(0) + +,fHistTotNPPEMtotET(0) + +,fHistNPPPi0GammaEtaEET(0) +,fHistNPPPi0GammaEtaPtET(0) +,fHistNPPPi0GammaEtaET(0) +,fHistNPPPi0GammaEtaE(0) +,fHistNPPPi0GammaEtaPt(0) +,fHistNPPPi0GammatotET(0) + +,fHistElectronAccEtaEET(0) +,fHistElectronAccEtaPtET(0) +,fHistElectronAccEtaET(0) +,fHistElectronAccEtaE(0) +,fHistElectronAccEtaPt(0) +,fHistElectronAcctotET(0) + +,fHistConvElectronAccEtaEET(0) +,fHistConvElectronAccEtaPtET(0) +,fHistConvElectronAccEtaET(0) +,fHistConvElectronAccEtaE(0) +,fHistConvElectronAccEtaPt(0) +,fHistConvElectronAcctotET(0) + +,fHistScatElectronAccEtaEET(0) +,fHistScatElectronAccEtaPtET(0) +,fHistScatElectronAccEtaET(0) +,fHistScatElectronAccEtaE(0) +,fHistScatElectronAccEtaPt(0) +,fHistScatElectronAcctotET(0) + +,fHistTotElectronAcctotET(0) + +,fHistGammaAccEtaEET(0) +,fHistGammaAccEtaPtET(0) +,fHistGammaAccEtaET(0) +,fHistGammaAccEtaE(0) +,fHistGammaAccEtaPt(0) +,fHistGammaAcctotET(0) + +,fHistAnnihGammaAccEtaEET(0) +,fHistAnnihGammaAccEtaPtET(0) +,fHistAnnihGammaAccEtaET(0) +,fHistAnnihGammaAccEtaE(0) +,fHistAnnihGammaAccEtaPt(0) +,fHistAnnihGammaAcctotET(0) + +,fHistScatGammaAccEtaEET(0) +,fHistScatGammaAccEtaPtET(0) +,fHistScatGammaAccEtaET(0) +,fHistScatGammaAccEtaE(0) +,fHistScatGammaAccEtaPt(0) +,fHistScatGammaAcctotET(0) + +,fHistConvGammaAccEtaEET(0) +,fHistConvGammaAccEtaPtET(0) +,fHistConvGammaAccEtaET(0) +,fHistConvGammaAccEtaE(0) +,fHistConvGammaAccEtaPt(0) +,fHistConvGammaAcctotET(0) + +,fHistNonConvGammaAccEtaEET(0) +,fHistNonConvGammaAccEtaPtET(0) +,fHistNonConvGammaAccEtaET(0) +,fHistNonConvGammaAccEtaE(0) +,fHistNonConvGammaAccEtaPt(0) +,fHistNonConvGammaAcctotET(0) + +,fHistTotGammaAcctotET(0) + +,fHistTotEMAcctotET(0) + +,fHistNPPElectronAccEtaEET(0) +,fHistNPPElectronAccEtaPtET(0) +,fHistNPPElectronAccEtaE(0) +,fHistNPPElectronAccEtaPt(0) + +,fHistNPPGammaAccEtaEET(0) +,fHistNPPGammaAccEtaPtET(0) +,fHistNPPGammaAccEtaE(0) +,fHistNPPGammaAccEtaPt(0) + +,fHistElectronRecEtaEET(0) +,fHistElectronRecEtaPtET(0) +,fHistElectronRecEtaET(0) +,fHistElectronRecEtaE(0) +,fHistElectronRecEtaPt(0) +,fHistElectronRectotET(0) + +,fHistConvElectronRecEtaEET(0) +,fHistConvElectronRecEtaPtET(0) +,fHistConvElectronRecEtaET(0) +,fHistConvElectronRecEtaE(0) +,fHistConvElectronRecEtaPt(0) +,fHistConvElectronRectotET(0) + +,fHistScatElectronRecEtaEET(0) +,fHistScatElectronRecEtaPtET(0) +,fHistScatElectronRecEtaET(0) +,fHistScatElectronRecEtaE(0) +,fHistScatElectronRecEtaPt(0) +,fHistScatElectronRectotET(0) + +,fHistTotElectronRectotET(0) + +,fHistGammaRecEtaEET(0) +,fHistGammaRecEtaPtET(0) +,fHistGammaRecEtaET(0) +,fHistGammaRecEtaE(0) +,fHistGammaRecEtaPt(0) +,fHistGammaRectotET(0) + +,fHistGammaRecResEET(0) //Added Caio +,fHistGammaRecResPtET(0)//Added Caio +,fHistGammaRecResE(0) // Added Caio +,fHistGammaRecResPt(0) //Added Caio +,fHistGammaRecResEDepETDep(0) //Added Caio +,fHistGammaRecResPtETDep(0) //Added Caio + +,fHistAnnihGammaRecEtaEET(0) +,fHistAnnihGammaRecEtaPtET(0) +,fHistAnnihGammaRecEtaET(0) +,fHistAnnihGammaRecEtaE(0) +,fHistAnnihGammaRecEtaPt(0) +,fHistAnnihGammaRectotET(0) + +,fHistScatGammaRecEtaEET(0) +,fHistScatGammaRecEtaPtET(0) +,fHistScatGammaRecEtaET(0) +,fHistScatGammaRecEtaE(0) +,fHistScatGammaRecEtaPt(0) +,fHistScatGammaRectotET(0) + +,fHistTotGammaRectotET(0) + +,fHistTotEMRectotET(0) + +,fHistNPPElectronRecEtaEET(0) +,fHistNPPElectronRecEtaPtET(0) +,fHistNPPElectronRecEtaET(0) +,fHistNPPElectronRecEtaE(0) +,fHistNPPElectronRecEtaPt(0) +,fHistNPPElectronRectotET(0) + +,fHistNPPGammaRecEtaEET(0) +,fHistNPPGammaRecEtaPtET(0) +,fHistNPPGammaRecEtaET(0) +,fHistNPPGammaRecEtaE(0) +,fHistNPPGammaRecEtaPt(0) +,fHistNPPGammaRectotET(0) + +,fHistTotNPPEMRectotET(0) + +,fHistNPPPi0GammaRecEtaEET(0) +,fHistNPPPi0GammaRecEtaPtET(0) +,fHistNPPPi0GammaRecEtaET(0) +,fHistNPPPi0GammaRecEtaE(0) +,fHistNPPPi0GammaRecEtaPt(0) +,fHistNPPPi0GammaRectotET(0) + +,fHistMuonEtaEET(0) +,fHistMuonAccEtaEET(0) +,fHistMuonRecEtaEET(0) +,fHistMuonMatchEtaEET(0) + +,fHistMuonEtaPtET(0) +,fHistMuonAccEtaPtET(0) +,fHistMuonRecEtaPtET(0) +,fHistMuonMatchEtaPtET(0) + +,fHistMuonEtaET(0) +,fHistMuonAccEtaET(0) +,fHistMuonRecEtaET(0) +,fHistMuonMatchEtaET(0) + +,fHistMuonEtaE(0) +,fHistMuonAccEtaE(0) +,fHistMuonRecEtaE(0) +,fHistMuonMatchEtaE(0) + +,fHistMuonEtaPt(0) +,fHistMuonAccEtaPt(0) +,fHistMuonRecEtaPt(0) +,fHistMuonMatchEtaPt(0) + +,fHistMuontotET(0) +,fHistMuonAcctotET(0) +,fHistMuonRectotET(0) +,fHistMuonMatchtotET(0) + +,fHistMuonRectotETDep(0) +,fHistMuonMatchtotETDep(0) + +,fHistMuonRecEtaEDepETDep(0) +,fHistMuonMatchEtaEDepETDep(0) + +,fHistMuonRecEtaPtETDep(0) +,fHistMuonMatchEtaPtETDep(0) + +,fHistMuonRecEtaETDep(0) +,fHistMuonMatchEtaETDep(0) + +,fHistMuonRecResEET(0) +,fHistMuonRecResPtET(0) +,fHistMuonRecResE(0) +,fHistMuonRecResPt(0) + +,fHistMuonRecResEDepETDep(0) +,fHistMuonRecResPtETDep(0) + +,fHistPionEtaEET(0) +,fHistPionAccEtaEET(0) +,fHistPionRecEtaEET(0) +,fHistPionMatchEtaEET(0) + +,fHistPionEtaPtET(0) +,fHistPionAccEtaPtET(0) +,fHistPionRecEtaPtET(0) +,fHistPionMatchEtaPtET(0) + +,fHistPionEtaET(0) +,fHistPionAccEtaET(0) +,fHistPionRecEtaET(0) +,fHistPionMatchEtaET(0) + +,fHistPionEtaE(0) +,fHistPionAccEtaE(0) +,fHistPionRecEtaE(0) +,fHistPionMatchEtaE(0) + +,fHistPionEtaPt(0) +,fHistPionAccEtaPt(0) +,fHistPionRecEtaPt(0) +,fHistPionMatchEtaPt(0) + +,fHistPiontotET(0) +,fHistPionAcctotET(0) +,fHistPionRectotET(0) +,fHistPionMatchtotET(0) + +,fHistPionRectotETDep(0) +,fHistPionMatchtotETDep(0) + +,fHistPionRecEtaEDepETDep(0) +,fHistPionMatchEtaEDepETDep(0) + +,fHistPionRecEtaPtETDep(0) +,fHistPionMatchEtaPtETDep(0) + +,fHistPionRecEtaETDep(0) +,fHistPionMatchEtaETDep(0) + +,fHistPionRecResEET(0) +,fHistPionRecResPtET(0) +,fHistPionRecResE(0) +,fHistPionRecResPt(0) +,fHistPionRecResEDepETDep(0) +,fHistPionRecResPtETDep(0) + +,fHistKaonEtaEET(0) +,fHistKaonAccEtaEET(0) +,fHistKaonRecEtaEET(0) +,fHistKaonMatchEtaEET(0) + +,fHistKaonEtaPtET(0) +,fHistKaonAccEtaPtET(0) +,fHistKaonRecEtaPtET(0) +,fHistKaonMatchEtaPtET(0) + +,fHistKaonEtaET(0) +,fHistKaonAccEtaET(0) +,fHistKaonRecEtaET(0) +,fHistKaonMatchEtaET(0) + +,fHistKaonEtaE(0) +,fHistKaonAccEtaE(0) +,fHistKaonRecEtaE(0) +,fHistKaonMatchEtaE(0) + +,fHistKaonEtaPt(0) +,fHistKaonAccEtaPt(0) +,fHistKaonRecEtaPt(0) +,fHistKaonMatchEtaPt(0) + +,fHistKaontotET(0) +,fHistKaonAcctotET(0) +,fHistKaonRectotET(0) +,fHistKaonMatchtotET(0) + +,fHistKaonRectotETDep(0) +,fHistKaonMatchtotETDep(0) + +,fHistKaonRecEtaEDepETDep(0) +,fHistKaonMatchEtaEDepETDep(0) + +,fHistKaonRecEtaPtETDep(0) +,fHistKaonMatchEtaPtETDep(0) + +,fHistKaonRecEtaETDep(0) +,fHistKaonMatchEtaETDep(0) + +,fHistKaonRecResEET(0) +,fHistKaonRecResPtET(0) +,fHistKaonRecResE(0) +,fHistKaonRecResPt(0) + +,fHistKaonRecResEDepETDep(0) +,fHistKaonRecResPtETDep(0) + +,fHistProtonEtaEET(0) +,fHistProtonAccEtaEET(0) +,fHistProtonRecEtaEET(0) +,fHistProtonMatchEtaEET(0) + +,fHistProtonEtaPtET(0) +,fHistProtonAccEtaPtET(0) +,fHistProtonRecEtaPtET(0) +,fHistProtonMatchEtaPtET(0) - ,fHistProtonEtaET(0) - ,fHistProtonAccEtaET(0) - ,fHistProtonRecEtaET(0) - ,fHistProtonMatchEtaET(0) +,fHistProtonEtaET(0) +,fHistProtonAccEtaET(0) +,fHistProtonRecEtaET(0) +,fHistProtonMatchEtaET(0) - ,fHistProtonEtaE(0) - ,fHistProtonAccEtaE(0) - ,fHistProtonRecEtaE(0) - ,fHistProtonMatchEtaE(0) +,fHistProtonEtaE(0) +,fHistProtonAccEtaE(0) +,fHistProtonRecEtaE(0) +,fHistProtonMatchEtaE(0) - ,fHistProtonEtaPt(0) - ,fHistProtonAccEtaPt(0) - ,fHistProtonRecEtaPt(0) - ,fHistProtonMatchEtaPt(0) +,fHistProtonEtaPt(0) +,fHistProtonAccEtaPt(0) +,fHistProtonRecEtaPt(0) +,fHistProtonMatchEtaPt(0) - ,fHistProtontotET(0) - ,fHistProtonAcctotET(0) - ,fHistProtonRectotET(0) - ,fHistProtonMatchtotET(0) +,fHistProtontotET(0) +,fHistProtonAcctotET(0) +,fHistProtonRectotET(0) +,fHistProtonMatchtotET(0) - ,fHistProtonRectotETDep(0) - ,fHistProtonMatchtotETDep(0) +,fHistProtonRectotETDep(0) +,fHistProtonMatchtotETDep(0) - ,fHistProtonRecEtaEDepETDep(0) - ,fHistProtonMatchEtaEDepETDep(0) +,fHistProtonRecEtaEDepETDep(0) +,fHistProtonMatchEtaEDepETDep(0) - ,fHistProtonRecEtaPtETDep(0) - ,fHistProtonMatchEtaPtETDep(0) +,fHistProtonRecEtaPtETDep(0) +,fHistProtonMatchEtaPtETDep(0) - ,fHistProtonRecEtaETDep(0) - ,fHistProtonMatchEtaETDep(0) +,fHistProtonRecEtaETDep(0) +,fHistProtonMatchEtaETDep(0) - ,fHistProtonRecResEET(0) - ,fHistProtonRecResPtET(0) - ,fHistProtonRecResE(0) - ,fHistProtonRecResPt(0) +,fHistProtonRecResEET(0) +,fHistProtonRecResPtET(0) +,fHistProtonRecResE(0) +,fHistProtonRecResPt(0) - ,fHistProtonRecResEDepETDep(0) - ,fHistProtonRecResPtETDep(0) +,fHistProtonRecResEDepETDep(0) +,fHistProtonRecResPtETDep(0) - ,fHistTotChargedtotET(0) - ,fHistTotChargedAcctotET(0) - ,fHistTotChargedRectotET(0) - ,fHistTotChargedRectotETDep(0) - ,fHistTotChargedMatchtotET(0) - ,fHistTotChargedMatchtotETDep(0) +,fHistTotChargedtotET(0) +,fHistTotChargedAcctotET(0) +,fHistTotChargedRectotET(0) +,fHistTotChargedRectotETDep(0) +,fHistTotChargedMatchtotET(0) +,fHistTotChargedMatchtotETDep(0) - ,fHistNeutronEtaEET(0) - ,fHistNeutronAccEtaEET(0) - ,fHistNeutronRecEtaEET(0) +,fHistNeutronEtaEET(0) +,fHistNeutronAccEtaEET(0) +,fHistNeutronRecEtaEET(0) - ,fHistNeutronEtaPtET(0) - ,fHistNeutronAccEtaPtET(0) - ,fHistNeutronRecEtaPtET(0) +,fHistNeutronEtaPtET(0) +,fHistNeutronAccEtaPtET(0) +,fHistNeutronRecEtaPtET(0) - ,fHistNeutronEtaET(0) - ,fHistNeutronAccEtaET(0) - ,fHistNeutronRecEtaET(0) +,fHistNeutronEtaET(0) +,fHistNeutronAccEtaET(0) +,fHistNeutronRecEtaET(0) - ,fHistNeutronEtaE(0) - ,fHistNeutronAccEtaE(0) - ,fHistNeutronRecEtaE(0) +,fHistNeutronEtaE(0) +,fHistNeutronAccEtaE(0) +,fHistNeutronRecEtaE(0) - ,fHistNeutronEtaPt(0) - ,fHistNeutronAccEtaPt(0) - ,fHistNeutronRecEtaPt(0) +,fHistNeutronEtaPt(0) +,fHistNeutronAccEtaPt(0) +,fHistNeutronRecEtaPt(0) - ,fHistNeutrontotET(0) - ,fHistNeutronAcctotET(0) - ,fHistNeutronRectotET(0) +,fHistNeutrontotET(0) +,fHistNeutronAcctotET(0) +,fHistNeutronRectotET(0) - ,fHistNeutronRectotETDep(0) +,fHistNeutronRectotETDep(0) - ,fHistNeutronRecEtaEDepETDep(0) - ,fHistNeutronRecEtaETDep(0) - ,fHistNeutronRecEtaPtETDep(0) - - ,fHistK0EtaEET(0) - ,fHistK0RecEtaEET(0) - - ,fHistK0EtaPtET(0) - ,fHistK0RecEtaPtET(0) - - ,fHistK0EtaET(0) - ,fHistK0RecEtaET(0) - - ,fHistK0EtaE(0) - ,fHistK0RecEtaE(0) - - ,fHistK0EtaPt(0) - ,fHistK0RecEtaPt(0) - - ,fHistK0totET(0) - ,fHistK0RectotET(0) - ,fHistK0RectotETDep(0) - - ,fHistK0RecEtaEDepETDep(0) - ,fHistK0RecEtaETDep(0) - - ,fHistK0RecEtaPtETDep(0) - - ,fHistLambdaEtaEET(0) - ,fHistLambdaRecEtaEET(0) - - ,fHistLambdaEtaPtET(0) - ,fHistLambdaRecEtaPtET(0) - - ,fHistLambdaEtaET(0) - ,fHistLambdaRecEtaET(0) - - ,fHistLambdaEtaE(0) - ,fHistLambdaRecEtaE(0) - - ,fHistLambdaEtaPt(0) - ,fHistLambdaRecEtaPt(0) - - ,fHistLambdatotET(0) - ,fHistLambdaRectotET(0) - ,fHistLambdaRectotETDep(0) - - ,fHistLambdaRecEtaEDepETDep(0) - ,fHistLambdaRecEtaETDep(0) - - ,fHistLambdaRecEtaPtETDep(0) - - ,fHistTotNeutraltotET(0) - ,fHistTotNeutralRectotET(0) - ,fHistTotNeutralRectotETDep(0) - - ,fHistTotaltotET(0) - ,fHistTotalAcctotET(0) - ,fHistTotalRectotET(0) - ,fHistTotalRectotETDep(0) - - ,fHistElectronFirstMother(0) - ,fHistElectronFirstMotherXY(0) - ,fHistElectronNDaughters(0) - ,fHistElectronDaughters(0) - ,fHistElectronDaughtersXY(0) - - ,fHistElectronFirstMotherAcc(0) - ,fHistElectronFirstMotherXYAcc(0) - ,fHistElectronNDaughtersAcc(0) - ,fHistElectronDaughtersAcc(0) - ,fHistElectronDaughtersXYAcc(0) - - ,fHistElectronFirstMotherRec(0) - ,fHistElectronFirstMotherXYRec(0) - ,fHistElectronNDaughtersRec(0) - ,fHistElectronDaughtersRec(0) - ,fHistElectronDaughtersXYRec(0) - - ,fHistNPPElectronFirstMother(0) - ,fHistNPPElectronFirstMotherXY(0) - ,fHistNPPElectronNDaughters(0) - ,fHistNPPElectronDaughters(0) - ,fHistNPPElectronDaughtersXY(0) - - ,fHistNPPElectronFirstMotherAcc(0) - ,fHistNPPElectronFirstMotherXYAcc(0) - ,fHistNPPElectronNDaughtersAcc(0) - ,fHistNPPElectronDaughtersAcc(0) - ,fHistNPPElectronDaughtersXYAcc(0) - - ,fHistNPPElectronFirstMotherRec(0) - ,fHistNPPElectronFirstMotherXYRec(0) - ,fHistNPPElectronNDaughtersRec(0) - ,fHistNPPElectronDaughtersRec(0) - ,fHistNPPElectronDaughtersXYRec(0) - - ,fHistGammaFirstMother(0) - ,fHistGammaFirstMotherXY(0) - ,fHistGammaNDaughters(0) - ,fHistGammaDaughters(0) - ,fHistGammaDaughtersXY(0) - ,fHistConvGammaDaughtersXY(0) - ,fHistNonConvGammaDaughtersXY(0) - - ,fHistGammaFirstMotherAcc(0) - ,fHistGammaFirstMotherXYAcc(0) - ,fHistGammaNDaughtersAcc(0) - ,fHistGammaDaughtersAcc(0) - ,fHistGammaDaughtersXYAcc(0) - ,fHistConvGammaDaughtersXYAcc(0) - ,fHistNonConvGammaDaughtersXYAcc(0) - - ,fHistGammaFirstMotherRec(0) - ,fHistGammaFirstMotherXYRec(0) - ,fHistGammaNDaughtersRec(0) - ,fHistGammaDaughtersRec(0) - ,fHistGammaDaughtersXYRec(0) - ,fHistConvGammaDaughtersXYRec(0) - ,fHistNonConvGammaDaughtersXYRec(0) - - ,fHistNPPGammaFirstMother(0) - ,fHistNPPGammaFirstMotherXY(0) - ,fHistNPPGammaNDaughters(0) - ,fHistNPPGammaDaughters(0) - ,fHistNPPGammaDaughtersXY(0) - - ,fHistNPPGammaFirstMotherAcc(0) - ,fHistNPPGammaFirstMotherXYAcc(0) - ,fHistNPPGammaNDaughtersAcc(0) - ,fHistNPPGammaDaughtersAcc(0) - ,fHistNPPGammaDaughtersXYAcc(0) - - ,fHistNPPGammaFirstMotherRec(0) - ,fHistNPPGammaFirstMotherXYRec(0) - ,fHistNPPGammaNDaughtersRec(0) - ,fHistNPPGammaDaughtersRec(0) - ,fHistNPPGammaDaughtersXYRec(0) - - ,fHistAllERecEMC(0) - ,fHistAllPtRecPtMC(0) - ,fHistElectronERecEMC(0) - ,fHistGammaERecEMC(0) - - ,fHistChargedRes(0) - ,fHistChargedRes2(0) - ,fHistChargedRes3(0) - ,fHistNeutralRes(0) - ,fHistElectronRes(0) - ,fHistGammaRes(0) - - ,fHistIsInAcc(0) +,fHistNeutronRecEtaEDepETDep(0) +,fHistNeutronRecEtaETDep(0) +,fHistNeutronRecEtaPtETDep(0) + +,fHistK0EtaEET(0) +,fHistK0RecEtaEET(0) + +,fHistK0EtaPtET(0) +,fHistK0RecEtaPtET(0) + +,fHistK0EtaET(0) +,fHistK0RecEtaET(0) + +,fHistK0EtaE(0) +,fHistK0RecEtaE(0) + +,fHistK0EtaPt(0) +,fHistK0RecEtaPt(0) + +,fHistK0totET(0) +,fHistK0RectotET(0) +,fHistK0RectotETDep(0) + +,fHistK0RecEtaEDepETDep(0) +,fHistK0RecEtaETDep(0) + +,fHistK0RecEtaPtETDep(0) + +,fHistLambdaEtaEET(0) +,fHistLambdaRecEtaEET(0) + +,fHistLambdaEtaPtET(0) +,fHistLambdaRecEtaPtET(0) + +,fHistLambdaEtaET(0) +,fHistLambdaRecEtaET(0) + +,fHistLambdaEtaE(0) +,fHistLambdaRecEtaE(0) + +,fHistLambdaEtaPt(0) +,fHistLambdaRecEtaPt(0) + +,fHistLambdatotET(0) +,fHistLambdaRectotET(0) +,fHistLambdaRectotETDep(0) + +,fHistLambdaRecEtaEDepETDep(0) +,fHistLambdaRecEtaETDep(0) + +,fHistLambdaRecEtaPtETDep(0) + +,fHistTotNeutraltotET(0) +,fHistTotNeutralRectotET(0) +,fHistTotNeutralRectotETDep(0) + +,fHistTotaltotET(0) +,fHistTotalAcctotET(0) +,fHistTotalRectotET(0) +,fHistTotalRectotETDep(0) + +,fHistElectronFirstMother(0) +,fHistElectronFirstMotherXY(0) +,fHistElectronNDaughters(0) +,fHistElectronDaughters(0) +,fHistElectronDaughtersXY(0) + +,fHistElectronFirstMotherAcc(0) +,fHistElectronFirstMotherXYAcc(0) +,fHistElectronNDaughtersAcc(0) +,fHistElectronDaughtersAcc(0) +,fHistElectronDaughtersXYAcc(0) + +,fHistElectronFirstMotherRec(0) +,fHistElectronFirstMotherXYRec(0) +,fHistElectronNDaughtersRec(0) +,fHistElectronDaughtersRec(0) +,fHistElectronDaughtersXYRec(0) + +,fHistNPPElectronFirstMother(0) +,fHistNPPElectronFirstMotherXY(0) +,fHistNPPElectronNDaughters(0) +,fHistNPPElectronDaughters(0) +,fHistNPPElectronDaughtersXY(0) + +,fHistNPPElectronFirstMotherAcc(0) +,fHistNPPElectronFirstMotherXYAcc(0) +,fHistNPPElectronNDaughtersAcc(0) +,fHistNPPElectronDaughtersAcc(0) +,fHistNPPElectronDaughtersXYAcc(0) + +,fHistNPPElectronFirstMotherRec(0) +,fHistNPPElectronFirstMotherXYRec(0) +,fHistNPPElectronNDaughtersRec(0) +,fHistNPPElectronDaughtersRec(0) +,fHistNPPElectronDaughtersXYRec(0) + +,fHistGammaFirstMother(0) +,fHistGammaFirstMotherXY(0) +,fHistGammaNDaughters(0) +,fHistGammaDaughters(0) +,fHistGammaDaughtersXY(0) +,fHistConvGammaDaughtersXY(0) +,fHistNonConvGammaDaughtersXY(0) + +,fHistGammaFirstMotherAcc(0) +,fHistGammaFirstMotherXYAcc(0) +,fHistGammaNDaughtersAcc(0) +,fHistGammaDaughtersAcc(0) +,fHistGammaDaughtersXYAcc(0) +,fHistConvGammaDaughtersXYAcc(0) +,fHistNonConvGammaDaughtersXYAcc(0) + +,fHistGammaFirstMotherRec(0) +,fHistGammaFirstMotherXYRec(0) +,fHistGammaNDaughtersRec(0) +,fHistGammaDaughtersRec(0) +,fHistGammaDaughtersXYRec(0) +,fHistConvGammaDaughtersXYRec(0) +,fHistNonConvGammaDaughtersXYRec(0) + +,fHistNPPGammaFirstMother(0) +,fHistNPPGammaFirstMotherXY(0) +,fHistNPPGammaNDaughters(0) +,fHistNPPGammaDaughters(0) +,fHistNPPGammaDaughtersXY(0) + +,fHistNPPGammaFirstMotherAcc(0) +,fHistNPPGammaFirstMotherXYAcc(0) +,fHistNPPGammaNDaughtersAcc(0) +,fHistNPPGammaDaughtersAcc(0) +,fHistNPPGammaDaughtersXYAcc(0) + +,fHistNPPGammaFirstMotherRec(0) +,fHistNPPGammaFirstMotherXYRec(0) +,fHistNPPGammaNDaughtersRec(0) +,fHistNPPGammaDaughtersRec(0) +,fHistNPPGammaDaughtersXYRec(0) + +,fHistAllERecEMC(0) +,fHistAllPtRecPtMC(0) +,fHistElectronERecEMC(0) +,fHistGammaERecEMC(0) + +,fHistChargedRes(0) +,fHistChargedRes2(0) +,fHistChargedRes3(0) +,fHistNeutralRes(0) +,fHistElectronRes(0) +,fHistGammaRes(0) + +,fHistIsInAcc(0) {//constructor - fHistogramNameSuffix = TString("EmcalMC"); + fHistogramNameSuffix = TString("EmcalMC"); - fResCut = 0.02; - //fResCut = fEmcalTrackDistanceCut; + fResCut = 0.02; + //fResCut = fEmcalTrackDistanceCut; - TGeoGlobalMagField::Instance()->SetField(new AliMagF("Maps","Maps", -1., -1., AliMagF::k5kG)); - //TGeoGlobalMagField::Instance()->SetField(new AliMagF("Maps","Maps", 1., 1., AliMagF::k5kG)); - TGeoManager::Import("geometry.root"); - //fGeoUt = new AliEMCALGeometry("EMCAL_FIRSTYEAR","EMCAL"); + TGeoGlobalMagField::Instance()->SetField(new AliMagF("Maps","Maps", -1., -1., AliMagF::k5kG)); + //TGeoGlobalMagField::Instance()->SetField(new AliMagF("Maps","Maps", 1., 1., AliMagF::k5kG)); + TGeoManager::Import("geometry.root"); + //fGeoUt = new AliEMCALGeometry("EMCAL_FIRSTYEAR","EMCAL"); } // dtor AliAnalysisEmEtMonteCarlo::~AliAnalysisEmEtMonteCarlo() {//destructor - //Marcelo, have you really cleaned up all memory here? What about the histos? - delete fGeoUt; - delete fHistPrimEtaEET; - delete fHistPrimEtaPtET; - delete fHistPrimEtaET; - delete fHistPrimtotET; - - delete fHistPrimAccEtaEET; - delete fHistPrimAccEtaPtET; - delete fHistPrimAccEtaET; - delete fHistPrimAcctotET; - - delete fHistPrimRecEtaEET; - delete fHistPrimRecEtaPtET; - delete fHistPrimRecEtaET; - delete fHistPrimRectotET; - - delete fHistPrimRecEtaEDepETDep; - delete fHistPrimRecEtaPtETDep; - delete fHistPrimRecEtaETDep; - delete fHistPrimRectotETDep; - - // ******************* - // electron ET - // ******************* - delete fHistElectronEtaEET; - delete fHistElectronEtaPtET; - delete fHistElectronEtaET; - delete fHistElectronEtaE; - delete fHistElectronEtaPt; - delete fHistElectrontotET; - - delete fHistConvElectronEtaEET; - delete fHistConvElectronEtaPtET; - delete fHistConvElectronEtaET; - delete fHistConvElectronEtaE; - delete fHistConvElectronEtaPt; - delete fHistConvElectrontotET; - - delete fHistScatElectronEtaEET; - delete fHistScatElectronEtaPtET; - delete fHistScatElectronEtaET; - delete fHistScatElectronEtaE; - delete fHistScatElectronEtaPt; - delete fHistScatElectrontotET; - - // ******************* - // total electron ET - // ******************* - delete fHistTotElectrontotET; - - // ******************* - // gamma ET - // ******************* - delete fHistGammaEtaEET; - delete fHistGammaEtaPtET; - delete fHistGammaEtaET; - delete fHistGammaEtaE; - delete fHistGammaEtaPt; - delete fHistGammatotET; - - delete fHistAnnihGammaEtaEET; - delete fHistAnnihGammaEtaPtET; - delete fHistAnnihGammaEtaET; - delete fHistAnnihGammaEtaE; - delete fHistAnnihGammaEtaPt; - delete fHistAnnihGammatotET; - - delete fHistScatGammaEtaEET; - delete fHistScatGammaEtaPtET; - delete fHistScatGammaEtaET; - delete fHistScatGammaEtaE; - delete fHistScatGammaEtaPt; - delete fHistScatGammatotET; - - delete fHistConvGammaEtaEET; - delete fHistConvGammaEtaPtET; - delete fHistConvGammaEtaET; - delete fHistConvGammaEtaE; - delete fHistConvGammaEtaPt; - delete fHistConvGammatotET; - - delete fHistNonConvGammaEtaEET; - delete fHistNonConvGammaEtaPtET; - delete fHistNonConvGammaEtaET; - delete fHistNonConvGammaEtaE; - delete fHistNonConvGammaEtaPt; - delete fHistNonConvGammatotET; - - // ******************* - // total gamma ET - // ******************* - delete fHistTotGammatotET; - - // ******************* - // total electromagnetic ET - // ******************* - delete fHistTotEMtotET; - - // non-primary electromagnetic ET - delete fHistNPPElectronEtaEET; - delete fHistNPPElectronEtaPtET; - delete fHistNPPElectronEtaET; - delete fHistNPPElectronEtaE; - delete fHistNPPElectronEtaPt; - delete fHistNPPElectrontotET; - - delete fHistNPPGammaEtaEET; - delete fHistNPPGammaEtaPtET; - delete fHistNPPGammaEtaET; - delete fHistNPPGammaEtaE; - delete fHistNPPGammaEtaPt; - delete fHistNPPGammatotET; - - delete fHistTotNPPEMtotET; - - delete fHistNPPPi0GammaEtaEET; - delete fHistNPPPi0GammaEtaPtET; - delete fHistNPPPi0GammaEtaET; - delete fHistNPPPi0GammaEtaE; - delete fHistNPPPi0GammaEtaPt; - delete fHistNPPPi0GammatotET; - - // ******************* - // electron ET inside EMCal acceptance - // ******************* - delete fHistElectronAccEtaEET; - delete fHistElectronAccEtaPtET; - delete fHistElectronAccEtaET; - delete fHistElectronAccEtaE; - delete fHistElectronAccEtaPt; - delete fHistElectronAcctotET; - - delete fHistConvElectronAccEtaEET; - delete fHistConvElectronAccEtaPtET; - delete fHistConvElectronAccEtaET; - delete fHistConvElectronAccEtaE; - delete fHistConvElectronAccEtaPt; - delete fHistConvElectronAcctotET; - - delete fHistScatElectronAccEtaEET; - delete fHistScatElectronAccEtaPtET; - delete fHistScatElectronAccEtaET; - delete fHistScatElectronAccEtaE; - delete fHistScatElectronAccEtaPt; - delete fHistScatElectronAcctotET; - - // ******************* - // total electron ET inside EMCal acceptance - // ******************* - delete fHistTotElectronAcctotET; - - // ******************* - // gamma ET inside EMCal acceptance - // ******************* - delete fHistGammaAccEtaEET; - delete fHistGammaAccEtaPtET; - delete fHistGammaAccEtaET; - delete fHistGammaAccEtaE; - delete fHistGammaAccEtaPt; - delete fHistGammaAcctotET; - - delete fHistAnnihGammaAccEtaEET; - delete fHistAnnihGammaAccEtaPtET; - delete fHistAnnihGammaAccEtaET; - delete fHistAnnihGammaAccEtaE; - delete fHistAnnihGammaAccEtaPt; - delete fHistAnnihGammaAcctotET; - - delete fHistScatGammaAccEtaEET; - delete fHistScatGammaAccEtaPtET; - delete fHistScatGammaAccEtaET; - delete fHistScatGammaAccEtaE; - delete fHistScatGammaAccEtaPt; - delete fHistScatGammaAcctotET; - - delete fHistConvGammaAccEtaEET; - delete fHistConvGammaAccEtaPtET; - delete fHistConvGammaAccEtaET; - delete fHistConvGammaAccEtaE; - delete fHistConvGammaAccEtaPt; - delete fHistConvGammaAcctotET; - - delete fHistNonConvGammaAccEtaEET; - delete fHistNonConvGammaAccEtaPtET; - delete fHistNonConvGammaAccEtaET; - delete fHistNonConvGammaAccEtaE; - delete fHistNonConvGammaAccEtaPt; - delete fHistNonConvGammaAcctotET; - - // ******************* - // total gamma ET inside EMCal acceptance - // ******************* - delete fHistTotGammaAcctotET; - - // ******************* - // total electromagnetic ET inside EMCal acceptance - // ******************* - delete fHistTotEMAcctotET; - - // non-primary electromagnetic ET - delete fHistNPPElectronAccEtaEET; - delete fHistNPPElectronAccEtaPtET; - delete fHistNPPElectronAccEtaE; - delete fHistNPPElectronAccEtaPt; - - delete fHistNPPGammaAccEtaEET; - delete fHistNPPGammaAccEtaPtET; - delete fHistNPPGammaAccEtaE; - delete fHistNPPGammaAccEtaPt; - - // ******************* - // electron ET reconstructed in EMCal - // ******************* - delete fHistElectronRecEtaEET; - delete fHistElectronRecEtaPtET; - delete fHistElectronRecEtaET; - delete fHistElectronRecEtaE; - delete fHistElectronRecEtaPt; - delete fHistElectronRectotET; - - delete fHistConvElectronRecEtaEET; - delete fHistConvElectronRecEtaPtET; - delete fHistConvElectronRecEtaET; - delete fHistConvElectronRecEtaE; - delete fHistConvElectronRecEtaPt; - delete fHistConvElectronRectotET; - - delete fHistScatElectronRecEtaEET; - delete fHistScatElectronRecEtaPtET; - delete fHistScatElectronRecEtaET; - delete fHistScatElectronRecEtaE; - delete fHistScatElectronRecEtaPt; - delete fHistScatElectronRectotET; - - // ******************* - // total Electron ET reconstructed in EMCal - // ******************* - delete fHistTotElectronRectotET; - - // ******************* - // gamma ET reconstructed in EMCal - // ******************* - delete fHistGammaRecEtaEET; - delete fHistGammaRecEtaPtET; - delete fHistGammaRecEtaET; - delete fHistGammaRecEtaE; - delete fHistGammaRecEtaPt; - delete fHistGammaRectotET; - - delete fHistAnnihGammaRecEtaEET; - delete fHistAnnihGammaRecEtaPtET; - delete fHistAnnihGammaRecEtaET; - delete fHistAnnihGammaRecEtaE; - delete fHistAnnihGammaRecEtaPt; - delete fHistAnnihGammaRectotET; - - delete fHistScatGammaRecEtaEET; - delete fHistScatGammaRecEtaPtET; - delete fHistScatGammaRecEtaET; - delete fHistScatGammaRecEtaE; - delete fHistScatGammaRecEtaPt; - delete fHistScatGammaRectotET; - - // ******************* - // total gamma ET reconstructed in EMCal - // ******************* - delete fHistTotGammaRectotET; - - // ******************* - // total EM ET reconstructed in EMCal - // ******************* - delete fHistTotEMRectotET; - - // non-primary electromagnetic ET - delete fHistNPPElectronRecEtaEET; - delete fHistNPPElectronRecEtaPtET; - delete fHistNPPElectronRecEtaET; - delete fHistNPPElectronRecEtaE; - delete fHistNPPElectronRecEtaPt; - delete fHistNPPElectronRectotET; - - delete fHistNPPGammaRecEtaEET; - delete fHistNPPGammaRecEtaPtET; - delete fHistNPPGammaRecEtaET; - delete fHistNPPGammaRecEtaE; - delete fHistNPPGammaRecEtaPt; - delete fHistNPPGammaRectotET; - - delete fHistTotNPPEMRectotET; - - delete fHistNPPPi0GammaRecEtaEET; - delete fHistNPPPi0GammaRecEtaPtET; - delete fHistNPPPi0GammaRecEtaET; - delete fHistNPPPi0GammaRecEtaE; - delete fHistNPPPi0GammaRecEtaPt; - delete fHistNPPPi0GammaRectotET; - - // ******************* - // muon ET (+ and -) - // ******************* - delete fHistMuonEtaEET; - delete fHistMuonAccEtaEET; - delete fHistMuonRecEtaEET; - delete fHistMuonMatchEtaEET; - - delete fHistMuonEtaPtET; - delete fHistMuonAccEtaPtET; - delete fHistMuonRecEtaPtET; - delete fHistMuonMatchEtaPtET; - - delete fHistMuonEtaET; - delete fHistMuonAccEtaET; - delete fHistMuonRecEtaET; - delete fHistMuonMatchEtaET; - - delete fHistMuonEtaE; - delete fHistMuonAccEtaE; - delete fHistMuonRecEtaE; - delete fHistMuonMatchEtaE; - - delete fHistMuonEtaPt; - delete fHistMuonAccEtaPt; - delete fHistMuonRecEtaPt; - delete fHistMuonMatchEtaPt; - - delete fHistMuontotET; - delete fHistMuonAcctotET; - delete fHistMuonRectotET; - delete fHistMuonMatchtotET; - - delete fHistMuonRectotETDep; - delete fHistMuonMatchtotETDep; - - delete fHistMuonRecEtaEDepETDep; - delete fHistMuonMatchEtaEDepETDep; - - delete fHistMuonRecEtaPtETDep; - delete fHistMuonMatchEtaPtETDep; - - delete fHistMuonRecEtaETDep; - delete fHistMuonMatchEtaETDep; - - delete fHistMuonRecResEET; - delete fHistMuonRecResPtET; - delete fHistMuonRecResE; - delete fHistMuonRecResPt; - delete fHistMuonRecResEDepETDep; - delete fHistMuonRecResPtETDep; - - // ******************* - // pion ET (+ and -) - // ******************* - delete fHistPionEtaEET; - delete fHistPionAccEtaEET; - delete fHistPionRecEtaEET; - delete fHistPionMatchEtaEET; - - delete fHistPionEtaPtET; - delete fHistPionAccEtaPtET; - delete fHistPionRecEtaPtET; - delete fHistPionMatchEtaPtET; - - delete fHistPionEtaET; - delete fHistPionAccEtaET; - delete fHistPionRecEtaET; - delete fHistPionMatchEtaET; - - delete fHistPionEtaE; - delete fHistPionAccEtaE; - delete fHistPionRecEtaE; - delete fHistPionMatchEtaE; - - delete fHistPionEtaPt; - delete fHistPionAccEtaPt; - delete fHistPionRecEtaPt; - delete fHistPionMatchEtaPt; - - delete fHistPiontotET; - delete fHistPionAcctotET; - delete fHistPionRectotET; - delete fHistPionMatchtotET; - - delete fHistPionRectotETDep; - delete fHistPionMatchtotETDep; - - delete fHistPionRecEtaEDepETDep; - delete fHistPionMatchEtaEDepETDep; - - delete fHistPionRecEtaPtETDep; - delete fHistPionMatchEtaPtETDep; - - delete fHistPionRecEtaETDep; - delete fHistPionMatchEtaETDep; - - delete fHistPionRecResEET; - delete fHistPionRecResPtET; - delete fHistPionRecResE; - delete fHistPionRecResPt; - delete fHistPionRecResEDepETDep; - delete fHistPionRecResPtETDep; - - // ******************* - // charged kaon (+ and -) ET - // ******************* - delete fHistKaonEtaEET; - delete fHistKaonAccEtaEET; - delete fHistKaonRecEtaEET; - delete fHistKaonMatchEtaEET; - - delete fHistKaonEtaPtET; - delete fHistKaonAccEtaPtET; - delete fHistKaonRecEtaPtET; - delete fHistKaonMatchEtaPtET; - - delete fHistKaonEtaET; - delete fHistKaonAccEtaET; - delete fHistKaonRecEtaET; - delete fHistKaonMatchEtaET; - - delete fHistKaonEtaE; - delete fHistKaonAccEtaE; - delete fHistKaonRecEtaE; - delete fHistKaonMatchEtaE; - - delete fHistKaonEtaPt; - delete fHistKaonAccEtaPt; - delete fHistKaonRecEtaPt; - delete fHistKaonMatchEtaPt; - - delete fHistKaontotET; - delete fHistKaonAcctotET; - delete fHistKaonRectotET; - delete fHistKaonMatchtotET; - - delete fHistKaonRectotETDep; - delete fHistKaonMatchtotETDep; - - delete fHistKaonRecEtaEDepETDep; - delete fHistKaonMatchEtaEDepETDep; - - delete fHistKaonRecEtaPtETDep; - delete fHistKaonMatchEtaPtETDep; - - delete fHistKaonRecEtaETDep; - delete fHistKaonMatchEtaETDep; - - delete fHistKaonRecResEET; - delete fHistKaonRecResPtET; - delete fHistKaonRecResE; - delete fHistKaonRecResPt; - delete fHistKaonRecResEDepETDep; - delete fHistKaonRecResPtETDep; - - // ******************* - // proton (anti) ET - // ******************* - delete fHistProtonEtaEET; - delete fHistProtonAccEtaEET; - delete fHistProtonRecEtaEET; - delete fHistProtonMatchEtaEET; - - delete fHistProtonEtaPtET; - delete fHistProtonAccEtaPtET; - delete fHistProtonRecEtaPtET; - delete fHistProtonMatchEtaPtET; - - delete fHistProtonEtaET; - delete fHistProtonAccEtaET; - delete fHistProtonRecEtaET; - delete fHistProtonMatchEtaET; - - delete fHistProtonEtaE; - delete fHistProtonAccEtaE; - delete fHistProtonRecEtaE; - delete fHistProtonMatchEtaE; - - delete fHistProtonEtaPt; - delete fHistProtonAccEtaPt; - delete fHistProtonRecEtaPt; - delete fHistProtonMatchEtaPt; - - delete fHistProtontotET; - delete fHistProtonAcctotET; - delete fHistProtonRectotET; - delete fHistProtonMatchtotET; - - delete fHistProtonRectotETDep; - delete fHistProtonMatchtotETDep; - - delete fHistProtonRecEtaEDepETDep; - delete fHistProtonMatchEtaEDepETDep; - - delete fHistProtonRecEtaPtETDep; - delete fHistProtonMatchEtaPtETDep; - - delete fHistProtonRecEtaETDep; - delete fHistProtonMatchEtaETDep; - - delete fHistProtonRecResEET; - delete fHistProtonRecResPtET; - delete fHistProtonRecResE; - delete fHistProtonRecResPt; - delete fHistProtonRecResEDepETDep; - delete fHistProtonRecResPtETDep; - - // ******************* - // total charged ET - // ******************* - delete fHistTotChargedtotET; - delete fHistTotChargedAcctotET; - delete fHistTotChargedRectotET; - delete fHistTotChargedRectotETDep; - delete fHistTotChargedMatchtotET; - delete fHistTotChargedMatchtotETDep; - - // ******************* - // neutron (anti) ET - // ******************* - delete fHistNeutronEtaEET; - delete fHistNeutronAccEtaEET; - delete fHistNeutronRecEtaEET; - - delete fHistNeutronEtaPtET; - delete fHistNeutronAccEtaPtET; - delete fHistNeutronRecEtaPtET; - - delete fHistNeutronEtaET; - delete fHistNeutronAccEtaET; - delete fHistNeutronRecEtaET; - - delete fHistNeutronEtaE; - delete fHistNeutronAccEtaE; - delete fHistNeutronRecEtaE; - - delete fHistNeutronEtaPt; - delete fHistNeutronAccEtaPt; - delete fHistNeutronRecEtaPt; - - delete fHistNeutrontotET; - delete fHistNeutronAcctotET; - delete fHistNeutronRectotET; - delete fHistNeutronRectotETDep; - - delete fHistNeutronRecEtaEDepETDep; - delete fHistNeutronRecEtaETDep; - - delete fHistNeutronRecEtaPtETDep; - - // ******************* - // neutral kaon ET - // ******************* - delete fHistK0EtaEET; - delete fHistK0RecEtaEET; - - delete fHistK0EtaPtET; - delete fHistK0RecEtaPtET; - - delete fHistK0EtaET; - delete fHistK0RecEtaET; - - delete fHistK0EtaE; - delete fHistK0RecEtaE; - - delete fHistK0EtaPt; - delete fHistK0RecEtaPt; - - delete fHistK0totET; - delete fHistK0RectotET; - - delete fHistK0RectotETDep; - - delete fHistK0RecEtaEDepETDep; - delete fHistK0RecEtaETDep; - - delete fHistK0RecEtaPtETDep; - - // ******************* - // Lambda(anti) ET - // ******************* - delete fHistLambdaEtaEET; - delete fHistLambdaRecEtaEET; - - delete fHistLambdaEtaPtET; - delete fHistLambdaRecEtaPtET; - - delete fHistLambdaEtaET; - delete fHistLambdaRecEtaET; - - delete fHistLambdaEtaE; - delete fHistLambdaRecEtaE; - - delete fHistLambdaEtaPt; - delete fHistLambdaRecEtaPt; - - delete fHistLambdatotET; - delete fHistLambdaRectotET; - - delete fHistLambdaRectotETDep; - - delete fHistLambdaRecEtaEDepETDep; - delete fHistLambdaRecEtaETDep; - - delete fHistLambdaRecEtaPtETDep; - - // ******************* - // total neutral ET - // ******************* - delete fHistTotNeutraltotET; - delete fHistTotNeutralRectotET; - delete fHistTotNeutralRectotETDep; - - // ******************* - // total ET - // ******************* - delete fHistTotaltotET; - delete fHistTotalAcctotET; - delete fHistTotalRectotET; - delete fHistTotalRectotETDep; - - // ******************* - // some checks - // ******************* - - // check produced electrons - delete fHistElectronFirstMother; - delete fHistElectronFirstMotherXY; - delete fHistElectronNDaughters; - delete fHistElectronDaughters; - delete fHistElectronDaughtersXY; - - delete fHistElectronFirstMotherAcc; - delete fHistElectronFirstMotherXYAcc; - delete fHistElectronNDaughtersAcc; - delete fHistElectronDaughtersAcc; - delete fHistElectronDaughtersXYAcc; - - delete fHistElectronFirstMotherRec; - delete fHistElectronFirstMotherXYRec; - delete fHistElectronNDaughtersRec; - delete fHistElectronDaughtersRec; - delete fHistElectronDaughtersXYRec; - - delete fHistNPPElectronFirstMother; - delete fHistNPPElectronFirstMotherXY; - delete fHistNPPElectronNDaughters; - delete fHistNPPElectronDaughters; - delete fHistNPPElectronDaughtersXY; - - delete fHistNPPElectronFirstMotherAcc; - delete fHistNPPElectronFirstMotherXYAcc; - delete fHistNPPElectronNDaughtersAcc; - delete fHistNPPElectronDaughtersAcc; - delete fHistNPPElectronDaughtersXYAcc; - - delete fHistNPPElectronFirstMotherRec; - delete fHistNPPElectronFirstMotherXYRec; - delete fHistNPPElectronNDaughtersRec; - delete fHistNPPElectronDaughtersRec; - delete fHistNPPElectronDaughtersXYRec; - - // check produced gammas - delete fHistGammaFirstMother; - delete fHistGammaFirstMotherXY; - delete fHistGammaNDaughters; - delete fHistGammaDaughters; - delete fHistGammaDaughtersXY; - delete fHistConvGammaDaughtersXY; - delete fHistNonConvGammaDaughtersXY; - - delete fHistGammaFirstMotherAcc; - delete fHistGammaFirstMotherXYAcc; - delete fHistGammaNDaughtersAcc; - delete fHistGammaDaughtersAcc; - delete fHistGammaDaughtersXYAcc; - delete fHistConvGammaDaughtersXYAcc; - delete fHistNonConvGammaDaughtersXYAcc; - - delete fHistGammaFirstMotherRec; - delete fHistGammaFirstMotherXYRec; - delete fHistGammaNDaughtersRec; - delete fHistGammaDaughtersRec; - delete fHistGammaDaughtersXYRec; - delete fHistConvGammaDaughtersXYRec; - delete fHistNonConvGammaDaughtersXYRec; - - delete fHistNPPGammaFirstMother; - delete fHistNPPGammaFirstMotherXY; - delete fHistNPPGammaNDaughters; - delete fHistNPPGammaDaughters; - delete fHistNPPGammaDaughtersXY; - - delete fHistNPPGammaFirstMotherAcc; - delete fHistNPPGammaFirstMotherXYAcc; - delete fHistNPPGammaNDaughtersAcc; - delete fHistNPPGammaDaughtersAcc; - delete fHistNPPGammaDaughtersXYAcc; - - delete fHistNPPGammaFirstMotherRec; - delete fHistNPPGammaFirstMotherXYRec; - delete fHistNPPGammaNDaughtersRec; - delete fHistNPPGammaDaughtersRec; - delete fHistNPPGammaDaughtersXYRec; - - //check projections - delete fHistAllERecEMC; - delete fHistAllPtRecPtMC; - delete fHistElectronERecEMC; - delete fHistGammaERecEMC; - - delete fHistChargedRes; - delete fHistChargedRes2; - delete fHistChargedRes3; - delete fHistNeutralRes; - delete fHistElectronRes; - delete fHistGammaRes; - - delete fHistIsInAcc; - //delete TH2F * yyyyyy + //Marcelo, have you really cleaned up all memory here? What about the histos? + delete fGeoUt; + delete fHistPrimEtaEET; + delete fHistPrimEtaPtET; + delete fHistPrimEtaET; + delete fHistPrimtotET; + + delete fHistPrimAccEtaEET; + delete fHistPrimAccEtaPtET; + delete fHistPrimAccEtaET; + delete fHistPrimAcctotET; + + delete fHistPrimRecEtaEET; + delete fHistPrimRecEtaPtET; + delete fHistPrimRecEtaET; + delete fHistPrimRectotET; + + delete fHistPrimRecEtaEDepETDep; + delete fHistPrimRecEtaPtETDep; + delete fHistPrimRecEtaETDep; + delete fHistPrimRectotETDep; + + // ******************* + // electron ET + // ******************* + delete fHistElectronEtaEET; + delete fHistElectronEtaPtET; + delete fHistElectronEtaET; + delete fHistElectronEtaE; + delete fHistElectronEtaPt; + delete fHistElectrontotET; + + delete fHistConvElectronEtaEET; + delete fHistConvElectronEtaPtET; + delete fHistConvElectronEtaET; + delete fHistConvElectronEtaE; + delete fHistConvElectronEtaPt; + delete fHistConvElectrontotET; + + delete fHistScatElectronEtaEET; + delete fHistScatElectronEtaPtET; + delete fHistScatElectronEtaET; + delete fHistScatElectronEtaE; + delete fHistScatElectronEtaPt; + delete fHistScatElectrontotET; + + // ******************* + // total electron ET + // ******************* + delete fHistTotElectrontotET; + + // ******************* + // gamma ET + // ******************* + delete fHistGammaEtaEET; + delete fHistGammaEtaPtET; + delete fHistGammaEtaET; + delete fHistGammaEtaE; + delete fHistGammaEtaPt; + delete fHistGammatotET; + + delete fHistAnnihGammaEtaEET; + delete fHistAnnihGammaEtaPtET; + delete fHistAnnihGammaEtaET; + delete fHistAnnihGammaEtaE; + delete fHistAnnihGammaEtaPt; + delete fHistAnnihGammatotET; + + delete fHistScatGammaEtaEET; + delete fHistScatGammaEtaPtET; + delete fHistScatGammaEtaET; + delete fHistScatGammaEtaE; + delete fHistScatGammaEtaPt; + delete fHistScatGammatotET; + + delete fHistConvGammaEtaEET; + delete fHistConvGammaEtaPtET; + delete fHistConvGammaEtaET; + delete fHistConvGammaEtaE; + delete fHistConvGammaEtaPt; + delete fHistConvGammatotET; + + delete fHistNonConvGammaEtaEET; + delete fHistNonConvGammaEtaPtET; + delete fHistNonConvGammaEtaET; + delete fHistNonConvGammaEtaE; + delete fHistNonConvGammaEtaPt; + delete fHistNonConvGammatotET; + + // ******************* + // total gamma ET + // ******************* + delete fHistTotGammatotET; + + // ******************* + // total electromagnetic ET + // ******************* + delete fHistTotEMtotET; + + // non-primary electromagnetic ET + delete fHistNPPElectronEtaEET; + delete fHistNPPElectronEtaPtET; + delete fHistNPPElectronEtaET; + delete fHistNPPElectronEtaE; + delete fHistNPPElectronEtaPt; + delete fHistNPPElectrontotET; + + delete fHistNPPGammaEtaEET; + delete fHistNPPGammaEtaPtET; + delete fHistNPPGammaEtaET; + delete fHistNPPGammaEtaE; + delete fHistNPPGammaEtaPt; + delete fHistNPPGammatotET; + + delete fHistTotNPPEMtotET; + + delete fHistNPPPi0GammaEtaEET; + delete fHistNPPPi0GammaEtaPtET; + delete fHistNPPPi0GammaEtaET; + delete fHistNPPPi0GammaEtaE; + delete fHistNPPPi0GammaEtaPt; + delete fHistNPPPi0GammatotET; + + // ******************* + // electron ET inside EMCal acceptance + // ******************* + delete fHistElectronAccEtaEET; + delete fHistElectronAccEtaPtET; + delete fHistElectronAccEtaET; + delete fHistElectronAccEtaE; + delete fHistElectronAccEtaPt; + delete fHistElectronAcctotET; + + delete fHistConvElectronAccEtaEET; + delete fHistConvElectronAccEtaPtET; + delete fHistConvElectronAccEtaET; + delete fHistConvElectronAccEtaE; + delete fHistConvElectronAccEtaPt; + delete fHistConvElectronAcctotET; + + delete fHistScatElectronAccEtaEET; + delete fHistScatElectronAccEtaPtET; + delete fHistScatElectronAccEtaET; + delete fHistScatElectronAccEtaE; + delete fHistScatElectronAccEtaPt; + delete fHistScatElectronAcctotET; + + // ******************* + // total electron ET inside EMCal acceptance + // ******************* + delete fHistTotElectronAcctotET; + + // ******************* + // gamma ET inside EMCal acceptance + // ******************* + delete fHistGammaAccEtaEET; + delete fHistGammaAccEtaPtET; + delete fHistGammaAccEtaET; + delete fHistGammaAccEtaE; + delete fHistGammaAccEtaPt; + delete fHistGammaAcctotET; + + delete fHistAnnihGammaAccEtaEET; + delete fHistAnnihGammaAccEtaPtET; + delete fHistAnnihGammaAccEtaET; + delete fHistAnnihGammaAccEtaE; + delete fHistAnnihGammaAccEtaPt; + delete fHistAnnihGammaAcctotET; + + delete fHistScatGammaAccEtaEET; + delete fHistScatGammaAccEtaPtET; + delete fHistScatGammaAccEtaET; + delete fHistScatGammaAccEtaE; + delete fHistScatGammaAccEtaPt; + delete fHistScatGammaAcctotET; + + delete fHistConvGammaAccEtaEET; + delete fHistConvGammaAccEtaPtET; + delete fHistConvGammaAccEtaET; + delete fHistConvGammaAccEtaE; + delete fHistConvGammaAccEtaPt; + delete fHistConvGammaAcctotET; + + delete fHistNonConvGammaAccEtaEET; + delete fHistNonConvGammaAccEtaPtET; + delete fHistNonConvGammaAccEtaET; + delete fHistNonConvGammaAccEtaE; + delete fHistNonConvGammaAccEtaPt; + delete fHistNonConvGammaAcctotET; + + // ******************* + // total gamma ET inside EMCal acceptance + // ******************* + delete fHistTotGammaAcctotET; + + // ******************* + // total electromagnetic ET inside EMCal acceptance + // ******************* + delete fHistTotEMAcctotET; + + // non-primary electromagnetic ET + delete fHistNPPElectronAccEtaEET; + delete fHistNPPElectronAccEtaPtET; + delete fHistNPPElectronAccEtaE; + delete fHistNPPElectronAccEtaPt; + + delete fHistNPPGammaAccEtaEET; + delete fHistNPPGammaAccEtaPtET; + delete fHistNPPGammaAccEtaE; + delete fHistNPPGammaAccEtaPt; + + // ******************* + // electron ET reconstructed in EMCal + // ******************* + delete fHistElectronRecEtaEET; + delete fHistElectronRecEtaPtET; + delete fHistElectronRecEtaET; + delete fHistElectronRecEtaE; + delete fHistElectronRecEtaPt; + delete fHistElectronRectotET; + + delete fHistConvElectronRecEtaEET; + delete fHistConvElectronRecEtaPtET; + delete fHistConvElectronRecEtaET; + delete fHistConvElectronRecEtaE; + delete fHistConvElectronRecEtaPt; + delete fHistConvElectronRectotET; + + delete fHistScatElectronRecEtaEET; + delete fHistScatElectronRecEtaPtET; + delete fHistScatElectronRecEtaET; + delete fHistScatElectronRecEtaE; + delete fHistScatElectronRecEtaPt; + delete fHistScatElectronRectotET; + + // ******************* + // total Electron ET reconstructed in EMCal + // ******************* + delete fHistTotElectronRectotET; + + // ******************* + // gamma ET reconstructed in EMCal + // ******************* + delete fHistGammaRecEtaEET; + delete fHistGammaRecEtaPtET; + delete fHistGammaRecEtaET; + delete fHistGammaRecEtaE; + delete fHistGammaRecEtaPt; + delete fHistGammaRectotET; + + delete fHistGammaRecResEET;//Add Caio + delete fHistGammaRecResPtET;//Add Caio + delete fHistGammaRecResE;//Add Caio + delete fHistGammaRecResPt;//Add Caio + delete fHistGammaRecResEDepETDep;//Add Caio + delete fHistGammaRecResPtETDep; // Add Caio + + delete fHistAnnihGammaRecEtaEET; + delete fHistAnnihGammaRecEtaPtET; + delete fHistAnnihGammaRecEtaET; + delete fHistAnnihGammaRecEtaE; + delete fHistAnnihGammaRecEtaPt; + delete fHistAnnihGammaRectotET; + + delete fHistScatGammaRecEtaEET; + delete fHistScatGammaRecEtaPtET; + delete fHistScatGammaRecEtaET; + delete fHistScatGammaRecEtaE; + delete fHistScatGammaRecEtaPt; + delete fHistScatGammaRectotET; + + // ******************* + // total gamma ET reconstructed in EMCal + // ******************* + delete fHistTotGammaRectotET; + + // ******************* + // total EM ET reconstructed in EMCal + // ******************* + delete fHistTotEMRectotET; + + // non-primary electromagnetic ET + delete fHistNPPElectronRecEtaEET; + delete fHistNPPElectronRecEtaPtET; + delete fHistNPPElectronRecEtaET; + delete fHistNPPElectronRecEtaE; + delete fHistNPPElectronRecEtaPt; + delete fHistNPPElectronRectotET; + + delete fHistNPPGammaRecEtaEET; + delete fHistNPPGammaRecEtaPtET; + delete fHistNPPGammaRecEtaET; + delete fHistNPPGammaRecEtaE; + delete fHistNPPGammaRecEtaPt; + delete fHistNPPGammaRectotET; + + delete fHistTotNPPEMRectotET; + + delete fHistNPPPi0GammaRecEtaEET; + delete fHistNPPPi0GammaRecEtaPtET; + delete fHistNPPPi0GammaRecEtaET; + delete fHistNPPPi0GammaRecEtaE; + delete fHistNPPPi0GammaRecEtaPt; + delete fHistNPPPi0GammaRectotET; + + // ******************* + // muon ET (+ and -) + // ******************* + delete fHistMuonEtaEET; + delete fHistMuonAccEtaEET; + delete fHistMuonRecEtaEET; + delete fHistMuonMatchEtaEET; + + delete fHistMuonEtaPtET; + delete fHistMuonAccEtaPtET; + delete fHistMuonRecEtaPtET; + delete fHistMuonMatchEtaPtET; + + delete fHistMuonEtaET; + delete fHistMuonAccEtaET; + delete fHistMuonRecEtaET; + delete fHistMuonMatchEtaET; + + delete fHistMuonEtaE; + delete fHistMuonAccEtaE; + delete fHistMuonRecEtaE; + delete fHistMuonMatchEtaE; + + delete fHistMuonEtaPt; + delete fHistMuonAccEtaPt; + delete fHistMuonRecEtaPt; + delete fHistMuonMatchEtaPt; + + delete fHistMuontotET; + delete fHistMuonAcctotET; + delete fHistMuonRectotET; + delete fHistMuonMatchtotET; + + delete fHistMuonRectotETDep; + delete fHistMuonMatchtotETDep; + + delete fHistMuonRecEtaEDepETDep; + delete fHistMuonMatchEtaEDepETDep; + + delete fHistMuonRecEtaPtETDep; + delete fHistMuonMatchEtaPtETDep; + + delete fHistMuonRecEtaETDep; + delete fHistMuonMatchEtaETDep; + + delete fHistMuonRecResEET; + delete fHistMuonRecResPtET; + delete fHistMuonRecResE; + delete fHistMuonRecResPt; + delete fHistMuonRecResEDepETDep; + delete fHistMuonRecResPtETDep; + + // ******************* + // pion ET (+ and -) + // ******************* + delete fHistPionEtaEET; + delete fHistPionAccEtaEET; + delete fHistPionRecEtaEET; + delete fHistPionMatchEtaEET; + + delete fHistPionEtaPtET; + delete fHistPionAccEtaPtET; + delete fHistPionRecEtaPtET; + delete fHistPionMatchEtaPtET; + + delete fHistPionEtaET; + delete fHistPionAccEtaET; + delete fHistPionRecEtaET; + delete fHistPionMatchEtaET; + + delete fHistPionEtaE; + delete fHistPionAccEtaE; + delete fHistPionRecEtaE; + delete fHistPionMatchEtaE; + + delete fHistPionEtaPt; + delete fHistPionAccEtaPt; + delete fHistPionRecEtaPt; + delete fHistPionMatchEtaPt; + + delete fHistPiontotET; + delete fHistPionAcctotET; + delete fHistPionRectotET; + delete fHistPionMatchtotET; + + delete fHistPionRectotETDep; + delete fHistPionMatchtotETDep; + + delete fHistPionRecEtaEDepETDep; + delete fHistPionMatchEtaEDepETDep; + + delete fHistPionRecEtaPtETDep; + delete fHistPionMatchEtaPtETDep; + + delete fHistPionRecEtaETDep; + delete fHistPionMatchEtaETDep; + + delete fHistPionRecResEET; + delete fHistPionRecResPtET; + delete fHistPionRecResE; + delete fHistPionRecResPt; + delete fHistPionRecResEDepETDep; + delete fHistPionRecResPtETDep; + + // ******************* + // charged kaon (+ and -) ET + // ******************* + delete fHistKaonEtaEET; + delete fHistKaonAccEtaEET; + delete fHistKaonRecEtaEET; + delete fHistKaonMatchEtaEET; + + delete fHistKaonEtaPtET; + delete fHistKaonAccEtaPtET; + delete fHistKaonRecEtaPtET; + delete fHistKaonMatchEtaPtET; + + delete fHistKaonEtaET; + delete fHistKaonAccEtaET; + delete fHistKaonRecEtaET; + delete fHistKaonMatchEtaET; + + delete fHistKaonEtaE; + delete fHistKaonAccEtaE; + delete fHistKaonRecEtaE; + delete fHistKaonMatchEtaE; + + delete fHistKaonEtaPt; + delete fHistKaonAccEtaPt; + delete fHistKaonRecEtaPt; + delete fHistKaonMatchEtaPt; + + delete fHistKaontotET; + delete fHistKaonAcctotET; + delete fHistKaonRectotET; + delete fHistKaonMatchtotET; + + delete fHistKaonRectotETDep; + delete fHistKaonMatchtotETDep; + + delete fHistKaonRecEtaEDepETDep; + delete fHistKaonMatchEtaEDepETDep; + + delete fHistKaonRecEtaPtETDep; + delete fHistKaonMatchEtaPtETDep; + + delete fHistKaonRecEtaETDep; + delete fHistKaonMatchEtaETDep; + + delete fHistKaonRecResEET; + delete fHistKaonRecResPtET; + delete fHistKaonRecResE; + delete fHistKaonRecResPt; + delete fHistKaonRecResEDepETDep; + delete fHistKaonRecResPtETDep; + + // ******************* + // proton (anti) ET + // ******************* + delete fHistProtonEtaEET; + delete fHistProtonAccEtaEET; + delete fHistProtonRecEtaEET; + delete fHistProtonMatchEtaEET; + + delete fHistProtonEtaPtET; + delete fHistProtonAccEtaPtET; + delete fHistProtonRecEtaPtET; + delete fHistProtonMatchEtaPtET; + + delete fHistProtonEtaET; + delete fHistProtonAccEtaET; + delete fHistProtonRecEtaET; + delete fHistProtonMatchEtaET; + + delete fHistProtonEtaE; + delete fHistProtonAccEtaE; + delete fHistProtonRecEtaE; + delete fHistProtonMatchEtaE; + + delete fHistProtonEtaPt; + delete fHistProtonAccEtaPt; + delete fHistProtonRecEtaPt; + delete fHistProtonMatchEtaPt; + + delete fHistProtontotET; + delete fHistProtonAcctotET; + delete fHistProtonRectotET; + delete fHistProtonMatchtotET; + + delete fHistProtonRectotETDep; + delete fHistProtonMatchtotETDep; + + delete fHistProtonRecEtaEDepETDep; + delete fHistProtonMatchEtaEDepETDep; + + delete fHistProtonRecEtaPtETDep; + delete fHistProtonMatchEtaPtETDep; + + delete fHistProtonRecEtaETDep; + delete fHistProtonMatchEtaETDep; + + delete fHistProtonRecResEET; + delete fHistProtonRecResPtET; + delete fHistProtonRecResE; + delete fHistProtonRecResPt; + delete fHistProtonRecResEDepETDep; + delete fHistProtonRecResPtETDep; + + // ******************* + // total charged ET + // ******************* + delete fHistTotChargedtotET; + delete fHistTotChargedAcctotET; + delete fHistTotChargedRectotET; + delete fHistTotChargedRectotETDep; + delete fHistTotChargedMatchtotET; + delete fHistTotChargedMatchtotETDep; + + // ******************* + // neutron (anti) ET + // ******************* + delete fHistNeutronEtaEET; + delete fHistNeutronAccEtaEET; + delete fHistNeutronRecEtaEET; + + delete fHistNeutronEtaPtET; + delete fHistNeutronAccEtaPtET; + delete fHistNeutronRecEtaPtET; + + delete fHistNeutronEtaET; + delete fHistNeutronAccEtaET; + delete fHistNeutronRecEtaET; + + delete fHistNeutronEtaE; + delete fHistNeutronAccEtaE; + delete fHistNeutronRecEtaE; + + delete fHistNeutronEtaPt; + delete fHistNeutronAccEtaPt; + delete fHistNeutronRecEtaPt; + + delete fHistNeutrontotET; + delete fHistNeutronAcctotET; + delete fHistNeutronRectotET; + delete fHistNeutronRectotETDep; + + delete fHistNeutronRecEtaEDepETDep; + delete fHistNeutronRecEtaETDep; + + delete fHistNeutronRecEtaPtETDep; + + // ******************* + // neutral kaon ET + // ******************* + delete fHistK0EtaEET; + delete fHistK0RecEtaEET; + + delete fHistK0EtaPtET; + delete fHistK0RecEtaPtET; + + delete fHistK0EtaET; + delete fHistK0RecEtaET; + + delete fHistK0EtaE; + delete fHistK0RecEtaE; + + delete fHistK0EtaPt; + delete fHistK0RecEtaPt; + + delete fHistK0totET; + delete fHistK0RectotET; + + delete fHistK0RectotETDep; + + delete fHistK0RecEtaEDepETDep; + delete fHistK0RecEtaETDep; + + delete fHistK0RecEtaPtETDep; + + // ******************* + // Lambda(anti) ET + // ******************* + delete fHistLambdaEtaEET; + delete fHistLambdaRecEtaEET; + + delete fHistLambdaEtaPtET; + delete fHistLambdaRecEtaPtET; + + delete fHistLambdaEtaET; + delete fHistLambdaRecEtaET; + + delete fHistLambdaEtaE; + delete fHistLambdaRecEtaE; + + delete fHistLambdaEtaPt; + delete fHistLambdaRecEtaPt; + + delete fHistLambdatotET; + delete fHistLambdaRectotET; + + delete fHistLambdaRectotETDep; + + delete fHistLambdaRecEtaEDepETDep; + delete fHistLambdaRecEtaETDep; + + delete fHistLambdaRecEtaPtETDep; + + // ******************* + // total neutral ET + // ******************* + delete fHistTotNeutraltotET; + delete fHistTotNeutralRectotET; + delete fHistTotNeutralRectotETDep; + + // ******************* + // total ET + // ******************* + delete fHistTotaltotET; + delete fHistTotalAcctotET; + delete fHistTotalRectotET; + delete fHistTotalRectotETDep; + + // ******************* + // some checks + // ******************* + + // check produced electrons + delete fHistElectronFirstMother; + delete fHistElectronFirstMotherXY; + delete fHistElectronNDaughters; + delete fHistElectronDaughters; + delete fHistElectronDaughtersXY; + + delete fHistElectronFirstMotherAcc; + delete fHistElectronFirstMotherXYAcc; + delete fHistElectronNDaughtersAcc; + delete fHistElectronDaughtersAcc; + delete fHistElectronDaughtersXYAcc; + + delete fHistElectronFirstMotherRec; + delete fHistElectronFirstMotherXYRec; + delete fHistElectronNDaughtersRec; + delete fHistElectronDaughtersRec; + delete fHistElectronDaughtersXYRec; + + delete fHistNPPElectronFirstMother; + delete fHistNPPElectronFirstMotherXY; + delete fHistNPPElectronNDaughters; + delete fHistNPPElectronDaughters; + delete fHistNPPElectronDaughtersXY; + + delete fHistNPPElectronFirstMotherAcc; + delete fHistNPPElectronFirstMotherXYAcc; + delete fHistNPPElectronNDaughtersAcc; + delete fHistNPPElectronDaughtersAcc; + delete fHistNPPElectronDaughtersXYAcc; + + delete fHistNPPElectronFirstMotherRec; + delete fHistNPPElectronFirstMotherXYRec; + delete fHistNPPElectronNDaughtersRec; + delete fHistNPPElectronDaughtersRec; + delete fHistNPPElectronDaughtersXYRec; + + // check produced gammas + delete fHistGammaFirstMother; + delete fHistGammaFirstMotherXY; + delete fHistGammaNDaughters; + delete fHistGammaDaughters; + delete fHistGammaDaughtersXY; + delete fHistConvGammaDaughtersXY; + delete fHistNonConvGammaDaughtersXY; + + delete fHistGammaFirstMotherAcc; + delete fHistGammaFirstMotherXYAcc; + delete fHistGammaNDaughtersAcc; + delete fHistGammaDaughtersAcc; + delete fHistGammaDaughtersXYAcc; + delete fHistConvGammaDaughtersXYAcc; + delete fHistNonConvGammaDaughtersXYAcc; + + delete fHistGammaFirstMotherRec; + delete fHistGammaFirstMotherXYRec; + delete fHistGammaNDaughtersRec; + delete fHistGammaDaughtersRec; + delete fHistGammaDaughtersXYRec; + delete fHistConvGammaDaughtersXYRec; + delete fHistNonConvGammaDaughtersXYRec; + + delete fHistNPPGammaFirstMother; + delete fHistNPPGammaFirstMotherXY; + delete fHistNPPGammaNDaughters; + delete fHistNPPGammaDaughters; + delete fHistNPPGammaDaughtersXY; + + delete fHistNPPGammaFirstMotherAcc; + delete fHistNPPGammaFirstMotherXYAcc; + delete fHistNPPGammaNDaughtersAcc; + delete fHistNPPGammaDaughtersAcc; + delete fHistNPPGammaDaughtersXYAcc; + + delete fHistNPPGammaFirstMotherRec; + delete fHistNPPGammaFirstMotherXYRec; + delete fHistNPPGammaNDaughtersRec; + delete fHistNPPGammaDaughtersRec; + delete fHistNPPGammaDaughtersXYRec; + + //check projections + delete fHistAllERecEMC; + delete fHistAllPtRecPtMC; + delete fHistElectronERecEMC; + delete fHistGammaERecEMC; + + delete fHistChargedRes; + delete fHistChargedRes2; + delete fHistChargedRes3; + delete fHistNeutralRes; + delete fHistElectronRes; + delete fHistGammaRes; + + delete fHistIsInAcc; + //delete TH2F * yyyyyy } Int_t AliAnalysisEmEtMonteCarlo::AnalyseEvent(AliVEvent* ev) { // analyse MC event - //ResetEventValues(); + //ResetEventValues(); - // Get us an mc event - if(!ev) + // Get us an mc event + if(!ev) { - Printf("ERROR: Event does not exist"); - return 0; + Printf("ERROR: Event does not exist"); + return 0; } - AliMCEvent *event = dynamic_cast(ev); - - // Hijing header - AliGenEventHeader* genHeader = event->GenEventHeader(); - if(!genHeader){ - Printf("ERROR: Event generation header does not exist"); - return 0; - } - - // Let's play with the stack! - AliStack *stack = event->Stack(); - - if (!stack) + AliMCEvent *event = dynamic_cast(ev); + + // Hijing header + AliGenEventHeader* genHeader = event->GenEventHeader(); + if(!genHeader){ + Printf("ERROR: Event generation header does not exist"); + return 0; + } + + // Let's play with the stack! + AliStack *stack = event->Stack(); + + if (!stack) { - Printf("ERROR: Could not get stack"); - return 0; + Printf("ERROR: Could not get stack"); + return 0; } - //Int_t nStackTracks = stack->GetNtrack(); - Int_t nStackTracks = event->GetNumberOfTracks(); + //Int_t nStackTracks = stack->GetNtrack(); + Int_t nStackTracks = event->GetNumberOfTracks(); - for (Int_t iPart = 0; iPart < nStackTracks; iPart++){ - AliMCParticle* aliPart = (AliMCParticle*)event->GetTrack(iPart); - - //TParticle *part = stack->Particle(iPart); - TParticle *part = aliPart->Particle(); - TParticle *partMom = 0; - TParticle *partDaughter = 0; + for (Int_t iPart = 0; iPart < nStackTracks; iPart++){ + AliMCParticle* aliPart = (AliMCParticle*)event->GetTrack(iPart); + + //TParticle *part = stack->Particle(iPart); + TParticle *part = aliPart->Particle(); + TParticle *partMom = 0; + TParticle *partDaughter = 0; - if (!part){ - Printf("ERROR: Could not get particle %d", iPart); - continue; - } - - Int_t iPartMom = part->GetMother(0); - Int_t iPartDaughter = 0; - Int_t nPartDaughters = part->GetNDaughters(); - - TParticlePDG *pdg = part->GetPDG(0); - TParticlePDG *pdgMom = 0; - TParticlePDG *pdgDaugther = 0; - - if (!pdg){ - Printf("ERROR-1: Could not get particle PDG %d", iPart); - continue; - } + if (!part){ + Printf("ERROR: Could not get particle %d", iPart); + continue; + } + + Int_t iPartMom = part->GetMother(0); + Int_t iPartDaughter = 0; + Int_t nPartDaughters = part->GetNDaughters(); + + TParticlePDG *pdg = part->GetPDG(0); + TParticlePDG *pdgMom = 0; + TParticlePDG *pdgDaugther = 0; + + if (!pdg){ + Printf("ERROR-1: Could not get particle PDG %d", iPart); + continue; + } - //create an external track param for projection - AliExternalTrackParam* extParam = CreateExternalTrackParam(part); - - if ((iPartMom>=0) && (iPartMom < nStackTracks)) - { - partMom = stack->Particle(iPartMom); - pdgMom = partMom->GetPDG(0); - } + //create an external track param for projection + AliExternalTrackParam* extParam = CreateExternalTrackParam(part); + + if ((iPartMom>=0) && (iPartMom < nStackTracks)) + { + partMom = stack->Particle(iPartMom); + pdgMom = partMom->GetPDG(0); + } - // Check if it is a primary particle + // Check if it is a primary particle - // Check for reasonable (for now neutral and singly charged) charge on the particle - //TODO:Maybe not only singly charged? - if (TMath::Abs(TMath::Abs(pdg->Charge()) - fCuts->GetMonteCarloSingleChargedParticle())<1e-3 && TMath::Abs(TMath::Abs(pdg->Charge()) - fCuts->GetMonteCarloNeutralParticle())<1e-3) continue; + // Check for reasonable (for now neutral and singly charged) charge on the particle + //TODO:Maybe not only singly charged? + if (TMath::Abs(TMath::Abs(pdg->Charge()) - fCuts->GetMonteCarloSingleChargedParticle())<1e-3 && TMath::Abs(TMath::Abs(pdg->Charge()) - fCuts->GetMonteCarloNeutralParticle())<1e-3) continue; - fMultiplicity++; + fMultiplicity++; - // Inside ALICE central barrel acceptance + // Inside ALICE central barrel acceptance - if (TMath::Abs(part->Eta()) < fCuts->GetCommonEtaCut()) - { - Double_t et = CalcET(part,pdg); + if (TMath::Abs(part->Eta()) < fCuts->GetCommonEtaCut()) + { + Double_t et = CalcET(part,pdg); - if (et < 0) continue; - - if (IsPrimary(stack,iPart,pdg,iPartMom,pdgMom)) - { - if (stack->IsPhysicalPrimary(iPart)) - { - fHistPrimEtaEET->Fill(part->Energy(),part->Eta(),et); - fHistPrimEtaPtET->Fill(part->Pt(),part->Eta(),et); - fHistPrimEtaET->Fill(et,part->Eta()); - fPrimtotET += et; + if (et < 0) continue; + + if (IsPrimary(stack,iPart,pdg,iPartMom,pdgMom)) + { + if (stack->IsPhysicalPrimary(iPart)) + { + fHistPrimEtaEET->Fill(part->Energy(),part->Eta(),et); + fHistPrimEtaPtET->Fill(part->Pt(),part->Eta(),et); + fHistPrimEtaET->Fill(et,part->Eta()); + fPrimtotET += et; - //if (IsInAcceptance(part,pdg,extParam)) - if (IsInAcceptance(aliPart)) - { - fHistPrimAccEtaEET->Fill(part->Energy(),part->Eta(),et); - fHistPrimAccEtaPtET->Fill(part->Pt(),part->Eta(),et); - fHistPrimAccEtaET->Fill(et,part->Eta()); - fPrimAcctotET += et; - } - } - - // Fill up total E_T counters for each particle species - if (pdg->PdgCode() == fgProtonCode || pdg->PdgCode() == fgAntiProtonCode) - { - fProtontotET += et; - fHistProtonEtaEET->Fill(part->Energy(),part->Eta(),et); - fHistProtonEtaPtET->Fill(part->Pt(),part->Eta(),et); - fHistProtonEtaET->Fill(et,part->Eta()); - fHistProtonEtaE->Fill(part->Energy(),part->Eta()); - fHistProtonEtaPt->Fill(part->Pt(),part->Eta()); + //if (IsInAcceptance(part,pdg,extParam)) + if (IsInAcceptance(aliPart)) + { + fHistPrimAccEtaEET->Fill(part->Energy(),part->Eta(),et); + fHistPrimAccEtaPtET->Fill(part->Pt(),part->Eta(),et); + fHistPrimAccEtaET->Fill(et,part->Eta()); + fPrimAcctotET += et; + } + } + + // Fill up total E_T counters for each particle species + if (pdg->PdgCode() == fgProtonCode || pdg->PdgCode() == fgAntiProtonCode) + { + fProtontotET += et; + fHistProtonEtaEET->Fill(part->Energy(),part->Eta(),et); + fHistProtonEtaPtET->Fill(part->Pt(),part->Eta(),et); + fHistProtonEtaET->Fill(et,part->Eta()); + fHistProtonEtaE->Fill(part->Energy(),part->Eta()); + fHistProtonEtaPt->Fill(part->Pt(),part->Eta()); - // inside EMCal acceptance - //if (IsInAcceptance(part,pdg,extParam)) - if (IsInAcceptance(aliPart)) - { - fProtonAcctotET += et; - fHistProtonAccEtaEET->Fill(part->Energy(),part->Eta(),et); - fHistProtonAccEtaPtET->Fill(part->Pt(),part->Eta(),et); - fHistProtonAccEtaET->Fill(et,part->Eta()); - fHistProtonAccEtaE->Fill(part->Energy(),part->Eta()); - fHistProtonAccEtaPt->Fill(part->Pt(),part->Eta()); - } - } - if (pdg->PdgCode() == fgPiPlusCode || pdg->PdgCode() == fgPiMinusCode) - { - fPiontotET += et; - fHistPionEtaEET->Fill(part->Energy(),part->Eta(),et); - fHistPionEtaPtET->Fill(part->Pt(),part->Eta(),et); - fHistPionEtaET->Fill(et,part->Eta()); - fHistPionEtaE->Fill(part->Energy(),part->Eta()); - fHistPionEtaPt->Fill(part->Pt(),part->Eta()); - // inside EMCal acceptance - //if (IsInAcceptance(part,pdg,extParam)) - if (IsInAcceptance(aliPart)) - { - fPionAcctotET += et; - fHistPionAccEtaEET->Fill(part->Energy(),part->Eta(),et); - fHistPionAccEtaPtET->Fill(part->Pt(),part->Eta(),et); - fHistPionAccEtaET->Fill(et,part->Eta()); - fHistPionAccEtaE->Fill(part->Energy(),part->Eta()); - fHistPionAccEtaPt->Fill(part->Pt(),part->Eta()); - } - } - if (pdg->PdgCode() == fgKPlusCode || pdg->PdgCode() == fgKMinusCode) - { - fKaontotET += et; - fHistKaonEtaEET->Fill(part->Energy(),part->Eta(),et); - fHistKaonEtaPtET->Fill(part->Pt(),part->Eta(),et); - fHistKaonEtaE->Fill(part->Energy(),part->Eta()); - fHistKaonEtaET->Fill(et,part->Eta()); - fHistKaonEtaPt->Fill(part->Pt(),part->Eta()); - // inside EMCal acceptance - //if (IsInAcceptance(part,pdg,extParam)) - if (IsInAcceptance(aliPart)) - { - fKaonAcctotET += et; - fHistKaonAccEtaEET->Fill(part->Energy(),part->Eta(),et); - fHistKaonAccEtaPtET->Fill(part->Pt(),part->Eta(),et); - fHistKaonAccEtaET->Fill(et,part->Eta()); - fHistKaonAccEtaE->Fill(part->Energy(),part->Eta()); - fHistKaonAccEtaPt->Fill(part->Pt(),part->Eta()); - } - } - if (pdg->PdgCode() == fgMuPlusCode || pdg->PdgCode() == fgMuMinusCode) - { - fMuontotET += et; - fHistMuonEtaEET->Fill(part->Energy(),part->Eta(),et); - fHistMuonEtaPtET->Fill(part->Pt(),part->Eta(),et); - fHistMuonEtaET->Fill(et,part->Eta()); - fHistMuonEtaE->Fill(part->Energy(),part->Eta()); - fHistMuonEtaPt->Fill(part->Pt(),part->Eta()); - // inside EMCal acceptance - //if (IsInAcceptance(part,pdg,extParam)) - if (IsInAcceptance(aliPart)) - { - fMuonAcctotET += et; - fHistMuonAccEtaEET->Fill(part->Energy(),part->Eta(),et); - fHistMuonAccEtaPtET->Fill(part->Pt(),part->Eta(),et); - fHistMuonAccEtaET->Fill(et,part->Eta()); - fHistMuonAccEtaE->Fill(part->Energy(),part->Eta()); - fHistMuonAccEtaPt->Fill(part->Pt(),part->Eta()); - } - } - if (pdg->PdgCode() == fgEPlusCode || pdg->PdgCode() == fgEMinusCode) - { - if (stack->IsPhysicalPrimary(iPart)) - {//Marcelo - isn't this redundant? Isn't this inside an if statement already? - fElectrontotET += et; - fHistElectronEtaEET->Fill(part->Energy(),part->Eta(),et); - fHistElectronEtaPtET->Fill(part->Pt(),part->Eta(),et); - fHistElectronEtaET->Fill(et,part->Eta()); - fHistElectronEtaE->Fill(part->Energy(),part->Eta()); - fHistElectronEtaPt->Fill(part->Pt(),part->Eta()); + // inside EMCal acceptance + //if (IsInAcceptance(part,pdg,extParam)) + if (IsInAcceptance(aliPart)) + { + fProtonAcctotET += et; + fHistProtonAccEtaEET->Fill(part->Energy(),part->Eta(),et); + fHistProtonAccEtaPtET->Fill(part->Pt(),part->Eta(),et); + fHistProtonAccEtaET->Fill(et,part->Eta()); + fHistProtonAccEtaE->Fill(part->Energy(),part->Eta()); + fHistProtonAccEtaPt->Fill(part->Pt(),part->Eta()); + } + } + if (pdg->PdgCode() == fgPiPlusCode || pdg->PdgCode() == fgPiMinusCode) + { + fPiontotET += et; + fHistPionEtaEET->Fill(part->Energy(),part->Eta(),et); + fHistPionEtaPtET->Fill(part->Pt(),part->Eta(),et); + fHistPionEtaET->Fill(et,part->Eta()); + fHistPionEtaE->Fill(part->Energy(),part->Eta()); + fHistPionEtaPt->Fill(part->Pt(),part->Eta()); + // inside EMCal acceptance + //if (IsInAcceptance(part,pdg,extParam)) + if (IsInAcceptance(aliPart)) + { + fPionAcctotET += et; + fHistPionAccEtaEET->Fill(part->Energy(),part->Eta(),et); + fHistPionAccEtaPtET->Fill(part->Pt(),part->Eta(),et); + fHistPionAccEtaET->Fill(et,part->Eta()); + fHistPionAccEtaE->Fill(part->Energy(),part->Eta()); + fHistPionAccEtaPt->Fill(part->Pt(),part->Eta()); + } + } + if (pdg->PdgCode() == fgKPlusCode || pdg->PdgCode() == fgKMinusCode) + { + fKaontotET += et; + fHistKaonEtaEET->Fill(part->Energy(),part->Eta(),et); + fHistKaonEtaPtET->Fill(part->Pt(),part->Eta(),et); + fHistKaonEtaE->Fill(part->Energy(),part->Eta()); + fHistKaonEtaET->Fill(et,part->Eta()); + fHistKaonEtaPt->Fill(part->Pt(),part->Eta()); + // inside EMCal acceptance + //if (IsInAcceptance(part,pdg,extParam)) + if (IsInAcceptance(aliPart)) + { + fKaonAcctotET += et; + fHistKaonAccEtaEET->Fill(part->Energy(),part->Eta(),et); + fHistKaonAccEtaPtET->Fill(part->Pt(),part->Eta(),et); + fHistKaonAccEtaET->Fill(et,part->Eta()); + fHistKaonAccEtaE->Fill(part->Energy(),part->Eta()); + fHistKaonAccEtaPt->Fill(part->Pt(),part->Eta()); + } + } + if (pdg->PdgCode() == fgMuPlusCode || pdg->PdgCode() == fgMuMinusCode) + { + fMuontotET += et; + fHistMuonEtaEET->Fill(part->Energy(),part->Eta(),et); + fHistMuonEtaPtET->Fill(part->Pt(),part->Eta(),et); + fHistMuonEtaET->Fill(et,part->Eta()); + fHistMuonEtaE->Fill(part->Energy(),part->Eta()); + fHistMuonEtaPt->Fill(part->Pt(),part->Eta()); + // inside EMCal acceptance + //if (IsInAcceptance(part,pdg,extParam)) + if (IsInAcceptance(aliPart)) + { + fMuonAcctotET += et; + fHistMuonAccEtaEET->Fill(part->Energy(),part->Eta(),et); + fHistMuonAccEtaPtET->Fill(part->Pt(),part->Eta(),et); + fHistMuonAccEtaET->Fill(et,part->Eta()); + fHistMuonAccEtaE->Fill(part->Energy(),part->Eta()); + fHistMuonAccEtaPt->Fill(part->Pt(),part->Eta()); + } + } + if (pdg->PdgCode() == fgEPlusCode || pdg->PdgCode() == fgEMinusCode) + { + if (stack->IsPhysicalPrimary(iPart)) + {//Marcelo - isn't this redundant? Isn't this inside an if statement already? + fElectrontotET += et; + fHistElectronEtaEET->Fill(part->Energy(),part->Eta(),et); + fHistElectronEtaPtET->Fill(part->Pt(),part->Eta(),et); + fHistElectronEtaET->Fill(et,part->Eta()); + fHistElectronEtaE->Fill(part->Energy(),part->Eta()); + fHistElectronEtaPt->Fill(part->Pt(),part->Eta()); - // inside EMCal acceptance - //if (IsInAcceptance(part,pdg,extParam)) - if (IsInAcceptance(aliPart)) - { - fElectronAcctotET += et; - fHistElectronAccEtaEET->Fill(part->Energy(),part->Eta(),et); - fHistElectronAccEtaPtET->Fill(part->Pt(),part->Eta(),et); - fHistElectronAccEtaET->Fill(et,part->Eta()); - fHistElectronAccEtaE->Fill(part->Energy(),part->Eta()); - fHistElectronAccEtaPt->Fill(part->Pt(),part->Eta()); - } - } - else if (!fGeoUt->IsInEMCAL(part->Vx(),part->Vy(),part->Vz())) - {//Marcelo - are we sure we know what this is doing? How sensitive is this to geometry? - if (IsMotherPrimaryGamma(stack,iPartMom,pdgMom)) - { - fHistConvElectronEtaEET->Fill(part->Energy(),part->Eta(),et); - fHistConvElectronEtaPtET->Fill(part->Pt(),part->Eta(),et); - fHistConvElectronEtaET->Fill(et,part->Eta()); - fHistConvElectronEtaE->Fill(part->Energy(),part->Eta()); - fHistConvElectronEtaPt->Fill(part->Pt(),part->Eta()); - fConvElectrontotET += et; + // inside EMCal acceptance + //if (IsInAcceptance(part,pdg,extParam)) + if (IsInAcceptance(aliPart)) + { + fElectronAcctotET += et; + fHistElectronAccEtaEET->Fill(part->Energy(),part->Eta(),et); + fHistElectronAccEtaPtET->Fill(part->Pt(),part->Eta(),et); + fHistElectronAccEtaET->Fill(et,part->Eta()); + fHistElectronAccEtaE->Fill(part->Energy(),part->Eta()); + fHistElectronAccEtaPt->Fill(part->Pt(),part->Eta()); + } + } + else if (!fGeoUt->IsInEMCAL(part->Vx(),part->Vy(),part->Vz())) + {//Marcelo - are we sure we know what this is doing? How sensitive is this to geometry? + if (IsMotherPrimaryGamma(stack,iPartMom,pdgMom)) + { + fHistConvElectronEtaEET->Fill(part->Energy(),part->Eta(),et); + fHistConvElectronEtaPtET->Fill(part->Pt(),part->Eta(),et); + fHistConvElectronEtaET->Fill(et,part->Eta()); + fHistConvElectronEtaE->Fill(part->Energy(),part->Eta()); + fHistConvElectronEtaPt->Fill(part->Pt(),part->Eta()); + fConvElectrontotET += et; - // gamma mother is inside EMCal acceptance - //if (IsInAcceptance(partMom,pdgMom)) - if (IsInAcceptance(aliPart)) - { - fHistConvElectronAccEtaEET->Fill(part->Energy(),part->Eta(),et); - fHistConvElectronAccEtaPtET->Fill(part->Pt(),part->Eta(),et); - fHistConvElectronAccEtaET->Fill(et,part->Eta()); - fHistConvElectronAccEtaE->Fill(part->Energy(),part->Eta()); - fHistConvElectronAccEtaPt->Fill(part->Pt(),part->Eta()); - fConvElectronAcctotET += et; - } - } - else if (IsMotherPrimaryElectron(stack,iPartMom,pdgMom)) - { - fHistScatElectronEtaEET->Fill(part->Energy(),part->Eta(),et); - fHistScatElectronEtaPtET->Fill(part->Pt(),part->Eta(),et); - fHistScatElectronEtaET->Fill(et,part->Eta()); - fHistScatElectronEtaE->Fill(part->Energy(),part->Eta()); - fHistScatElectronEtaPt->Fill(part->Pt(),part->Eta()); - fScatElectrontotET += et; - - // inside EMCal acceptance - does it work? - //if (IsInAcceptance(part,pdg,extParam)) - if (IsInAcceptance(aliPart)) - { - fHistScatElectronAccEtaEET->Fill(part->Energy(),part->Eta(),et); - fHistScatElectronAccEtaPtET->Fill(part->Pt(),part->Eta(),et); - fHistScatElectronAccEtaET->Fill(et,part->Eta()); - fHistScatElectronAccEtaE->Fill(part->Energy(),part->Eta()); - fHistScatElectronAccEtaPt->Fill(part->Pt(),part->Eta()); - fScatElectronAcctotET += et; - } - } - } - - // few checks - if ((stack->IsPhysicalPrimary(iPart)) || (!fGeoUt->IsInEMCAL(part->Vx(),part->Vy(),part->Vz()))) - {//Marcelo - ...isn't this redundant? - if (pdgMom) - fHistElectronFirstMother->Fill(pdgMom->PdgCode()); - fHistElectronFirstMotherXY->Fill(part->Vx(),part->Vy()); - fHistElectronNDaughters->Fill(nPartDaughters); + // gamma mother is inside EMCal acceptance + //if (IsInAcceptance(partMom,pdgMom)) + if (IsInAcceptance(aliPart)) + { + fHistConvElectronAccEtaEET->Fill(part->Energy(),part->Eta(),et); + fHistConvElectronAccEtaPtET->Fill(part->Pt(),part->Eta(),et); + fHistConvElectronAccEtaET->Fill(et,part->Eta()); + fHistConvElectronAccEtaE->Fill(part->Energy(),part->Eta()); + fHistConvElectronAccEtaPt->Fill(part->Pt(),part->Eta()); + fConvElectronAcctotET += et; + } + } + else if (IsMotherPrimaryElectron(stack,iPartMom,pdgMom)) + { + fHistScatElectronEtaEET->Fill(part->Energy(),part->Eta(),et); + fHistScatElectronEtaPtET->Fill(part->Pt(),part->Eta(),et); + fHistScatElectronEtaET->Fill(et,part->Eta()); + fHistScatElectronEtaE->Fill(part->Energy(),part->Eta()); + fHistScatElectronEtaPt->Fill(part->Pt(),part->Eta()); + fScatElectrontotET += et; + + // inside EMCal acceptance - does it work? + //if (IsInAcceptance(part,pdg,extParam)) + if (IsInAcceptance(aliPart)) + { + fHistScatElectronAccEtaEET->Fill(part->Energy(),part->Eta(),et); + fHistScatElectronAccEtaPtET->Fill(part->Pt(),part->Eta(),et); + fHistScatElectronAccEtaET->Fill(et,part->Eta()); + fHistScatElectronAccEtaE->Fill(part->Energy(),part->Eta()); + fHistScatElectronAccEtaPt->Fill(part->Pt(),part->Eta()); + fScatElectronAcctotET += et; + } + } + } + + // few checks + if ((stack->IsPhysicalPrimary(iPart)) || (!fGeoUt->IsInEMCAL(part->Vx(),part->Vy(),part->Vz()))) + {//Marcelo - ...isn't this redundant? + if (pdgMom) + fHistElectronFirstMother->Fill(pdgMom->PdgCode()); + fHistElectronFirstMotherXY->Fill(part->Vx(),part->Vy()); + fHistElectronNDaughters->Fill(nPartDaughters); - iPartDaughter = part->GetLastDaughter(); - if ((iPartDaughter>=0) && (iPartDaughter < nStackTracks)) - { - partDaughter = stack->Particle(iPartDaughter); - if (partDaughter) - { - pdgDaugther = partDaughter->GetPDG(0); - if (pdgDaugther) { - fHistElectronDaughters->Fill(pdgDaugther->PdgCode()); - fHistElectronDaughtersXY->Fill(partDaughter->Vx(),partDaughter->Vy()); - } - } - } + iPartDaughter = part->GetLastDaughter(); + if ((iPartDaughter>=0) && (iPartDaughter < nStackTracks)) + { + partDaughter = stack->Particle(iPartDaughter); + if (partDaughter) + { + pdgDaugther = partDaughter->GetPDG(0); + if (pdgDaugther) { + fHistElectronDaughters->Fill(pdgDaugther->PdgCode()); + fHistElectronDaughtersXY->Fill(partDaughter->Vx(),partDaughter->Vy()); + } + } + } - // inside EMCal acceptance - //if (IsInAcceptance(part,pdg,extParam)) - if (IsInAcceptance(aliPart)) - {//Marcelo - should all three of the lines below be in the if statement? - if (pdgMom) fHistElectronFirstMotherAcc->Fill(pdgMom->PdgCode()); - fHistElectronFirstMotherXYAcc->Fill(part->Vx(),part->Vy()); - fHistElectronNDaughtersAcc->Fill(nPartDaughters); + // inside EMCal acceptance + //if (IsInAcceptance(part,pdg,extParam)) + if (IsInAcceptance(aliPart)) + {//Marcelo - should all three of the lines below be in the if statement? + if (pdgMom) fHistElectronFirstMotherAcc->Fill(pdgMom->PdgCode()); + fHistElectronFirstMotherXYAcc->Fill(part->Vx(),part->Vy()); + fHistElectronNDaughtersAcc->Fill(nPartDaughters); - iPartDaughter = part->GetLastDaughter(); - if ((iPartDaughter>=0) && (iPartDaughter < nStackTracks)) - { - partDaughter = stack->Particle(iPartDaughter); - if (partDaughter) - { - pdgDaugther = partDaughter->GetPDG(0); - if (pdgDaugther) { - fHistElectronDaughtersAcc->Fill(pdgDaugther->PdgCode()); - fHistElectronDaughtersXYAcc->Fill(partDaughter->Vx(),partDaughter->Vy()); - } - } - } - } - } - } // end of if electron - - // some neutrals also - if (pdg->PdgCode() == fgNeutronCode || pdg->PdgCode() == fgAntiNeutronCode) - { - fHistNeutronEtaEET->Fill(part->Energy(),part->Eta(),et); - fHistNeutronEtaPtET->Fill(part->Pt(),part->Eta(),et); - fHistNeutronEtaET->Fill(et,part->Eta()); - fHistNeutronEtaE->Fill(part->Energy(),part->Eta()); - fHistNeutronEtaPt->Fill(part->Pt(),part->Eta()); - fNeutrontotET += et; + iPartDaughter = part->GetLastDaughter(); + if ((iPartDaughter>=0) && (iPartDaughter < nStackTracks)) + { + partDaughter = stack->Particle(iPartDaughter); + if (partDaughter) + { + pdgDaugther = partDaughter->GetPDG(0); + if (pdgDaugther) { + fHistElectronDaughtersAcc->Fill(pdgDaugther->PdgCode()); + fHistElectronDaughtersXYAcc->Fill(partDaughter->Vx(),partDaughter->Vy()); + } + } + } + } + } + } // end of if electron + + // some neutrals also + if (pdg->PdgCode() == fgNeutronCode || pdg->PdgCode() == fgAntiNeutronCode) + { + fHistNeutronEtaEET->Fill(part->Energy(),part->Eta(),et); + fHistNeutronEtaPtET->Fill(part->Pt(),part->Eta(),et); + fHistNeutronEtaET->Fill(et,part->Eta()); + fHistNeutronEtaE->Fill(part->Energy(),part->Eta()); + fHistNeutronEtaPt->Fill(part->Pt(),part->Eta()); + fNeutrontotET += et; - // inside EMCal acceptance - //if (IsInAcceptance(part,pdg)) - if (IsInAcceptance(aliPart)) - { - fHistNeutronAccEtaEET->Fill(part->Energy(),part->Eta(),et); - fHistNeutronAccEtaPtET->Fill(part->Pt(),part->Eta(),et); - fHistNeutronAccEtaET->Fill(et,part->Eta()); - fHistNeutronAccEtaE->Fill(part->Energy(),part->Eta()); - fHistNeutronAccEtaPt->Fill(part->Pt(),part->Eta()); - fNeutronAcctotET += et; - } - if(pdg->PdgCode() == fgNeutronCode) - { - fNeutronEt += et; - } - if(pdg->PdgCode() == fgAntiNeutronCode) - { - fAntiNeutronEt += et; - } - } + // inside EMCal acceptance + //if (IsInAcceptance(part,pdg)) + if (IsInAcceptance(aliPart)) + { + fHistNeutronAccEtaEET->Fill(part->Energy(),part->Eta(),et); + fHistNeutronAccEtaPtET->Fill(part->Pt(),part->Eta(),et); + fHistNeutronAccEtaET->Fill(et,part->Eta()); + fHistNeutronAccEtaE->Fill(part->Energy(),part->Eta()); + fHistNeutronAccEtaPt->Fill(part->Pt(),part->Eta()); + fNeutronAcctotET += et; + } + if(pdg->PdgCode() == fgNeutronCode) + { + fNeutronEt += et; + } + if(pdg->PdgCode() == fgAntiNeutronCode) + { + fAntiNeutronEt += et; + } + } - if(pdg->PdgCode() == fgGammaCode) - { - if (stack->IsPhysicalPrimary(iPart)) - { - fHistGammaEtaEET->Fill(part->Energy(),part->Eta(),et); - fHistGammaEtaPtET->Fill(part->Pt(),part->Eta(),et); - fHistGammaEtaET->Fill(et,part->Eta()); - fHistGammaEtaE->Fill(part->Energy(),part->Eta()); - fHistGammaEtaPt->Fill(part->Pt(),part->Eta()); - fGammatotET += et; + if(pdg->PdgCode() == fgGammaCode) + { + if (stack->IsPhysicalPrimary(iPart)) + { + fHistGammaEtaEET->Fill(part->Energy(),part->Eta(),et); + fHistGammaEtaPtET->Fill(part->Pt(),part->Eta(),et); + fHistGammaEtaET->Fill(et,part->Eta()); + fHistGammaEtaE->Fill(part->Energy(),part->Eta()); + fHistGammaEtaPt->Fill(part->Pt(),part->Eta()); + fGammatotET += et; - if (IsGammaConversion(stack, part, pdg)) - { - fHistConvGammaEtaEET->Fill(part->Energy(),part->Eta(),et); - fHistConvGammaEtaPtET->Fill(part->Pt(),part->Eta(),et); - fHistConvGammaEtaET->Fill(et,part->Eta()); - fHistConvGammaEtaE->Fill(part->Energy(),part->Eta()); - fHistConvGammaEtaPt->Fill(part->Pt(),part->Eta()); - fConvGammatotET += et; - } - else - { - fHistNonConvGammaEtaEET->Fill(part->Energy(),part->Eta(),et); - fHistNonConvGammaEtaPtET->Fill(part->Pt(),part->Eta(),et); - fHistNonConvGammaEtaET->Fill(et,part->Eta()); - fHistNonConvGammaEtaE->Fill(part->Energy(),part->Eta()); - fHistNonConvGammaEtaPt->Fill(part->Pt(),part->Eta()); - fNonConvGammatotET += et; - } + if (IsGammaConversion(stack, part, pdg)) + { + fHistConvGammaEtaEET->Fill(part->Energy(),part->Eta(),et); + fHistConvGammaEtaPtET->Fill(part->Pt(),part->Eta(),et); + fHistConvGammaEtaET->Fill(et,part->Eta()); + fHistConvGammaEtaE->Fill(part->Energy(),part->Eta()); + fHistConvGammaEtaPt->Fill(part->Pt(),part->Eta()); + fConvGammatotET += et; + } + else + { + fHistNonConvGammaEtaEET->Fill(part->Energy(),part->Eta(),et); + fHistNonConvGammaEtaPtET->Fill(part->Pt(),part->Eta(),et); + fHistNonConvGammaEtaET->Fill(et,part->Eta()); + fHistNonConvGammaEtaE->Fill(part->Energy(),part->Eta()); + fHistNonConvGammaEtaPt->Fill(part->Pt(),part->Eta()); + fNonConvGammatotET += et; + } - Bool_t inAcc=kFALSE; - // inside EMCal acceptance - //if (IsInAcceptance(part,pdg)) - if (IsInAcceptance(aliPart)) - { - //Printf("phi(1) = %f, eta(1) = %f",part->Phi(),part->Eta()); - inAcc = kTRUE; + Bool_t inAcc=kFALSE; + // inside EMCal acceptance + //if (IsInAcceptance(part,pdg)) + if (IsInAcceptance(aliPart)) + { + //Printf("phi(1) = %f, eta(1) = %f",part->Phi(),part->Eta()); + inAcc = kTRUE; - fHistGammaAccEtaEET->Fill(part->Energy(),part->Eta(),et); - fHistGammaAccEtaPtET->Fill(part->Pt(),part->Eta(),et); - fHistGammaAccEtaET->Fill(et,part->Eta()); - fHistGammaAccEtaE->Fill(part->Energy(),part->Eta()); - fHistGammaAccEtaPt->Fill(part->Pt(),part->Eta()); - fGammaAcctotET += et; - } + fHistGammaAccEtaEET->Fill(part->Energy(),part->Eta(),et); + fHistGammaAccEtaPtET->Fill(part->Pt(),part->Eta(),et); + fHistGammaAccEtaET->Fill(et,part->Eta()); + fHistGammaAccEtaE->Fill(part->Energy(),part->Eta()); + fHistGammaAccEtaPt->Fill(part->Pt(),part->Eta()); + fGammaAcctotET += et; + } - if (IsInAcceptance(part,pdg)) - { - if (IsGammaConversion(stack, part, pdg)) - { - if (inAcc) - Printf("phi(1) = %f, eta(1) = %f",part->Phi(),part->Eta()); - - fHistConvGammaAccEtaEET->Fill(part->Energy(),part->Eta(),et); - fHistConvGammaAccEtaPtET->Fill(part->Pt(),part->Eta(),et); - fHistConvGammaAccEtaET->Fill(et,part->Eta()); - fHistConvGammaAccEtaE->Fill(part->Energy(),part->Eta()); - fHistConvGammaAccEtaPt->Fill(part->Pt(),part->Eta()); - fConvGammaAcctotET += et; - } - else - { - /* - if (!inAcc) - { - Printf("phi(2) = %f, eta(2) = %f, pt = %f",TMath::RadToDeg()*part->Phi(),part->Eta(),part->Pt()); + if (IsInAcceptance(part,pdg)) + { + if (IsGammaConversion(stack, part, pdg)) + { + if (inAcc) + Printf("phi(1) = %f, eta(1) = %f",part->Phi(),part->Eta()); + + fHistConvGammaAccEtaEET->Fill(part->Energy(),part->Eta(),et); + fHistConvGammaAccEtaPtET->Fill(part->Pt(),part->Eta(),et); + fHistConvGammaAccEtaET->Fill(et,part->Eta()); + fHistConvGammaAccEtaE->Fill(part->Energy(),part->Eta()); + fHistConvGammaAccEtaPt->Fill(part->Pt(),part->Eta()); + fConvGammaAcctotET += et; + } + else + { + /* + if (!inAcc) + { + Printf("phi(2) = %f, eta(2) = %f, pt = %f",TMath::RadToDeg()*part->Phi(),part->Eta(),part->Pt()); + + Int_t iPartDaughter = part->GetLastDaughter(); + + if ((iPartDaughter>=0) && (iPartDaughter < nStackTracks)) + { + TParticle *partDaughter = stack->Particle(iPartDaughter); + if (partDaughter) + { + TParticlePDG *pdgDaugther = partDaughter->GetPDG(0); + if (pdgDaugther) + { + Double_t decayR = sqrt(pow(partDaughter->Vx(),2)+pow(partDaughter->Vy(),2)); + Printf("radius = %f, daughter pid = %d",decayR,pdgDaugther->PdgCode()); + } + } + } + + for (int i=0;iGetNumberOfTrackReferences();i++) + { + AliTrackReference* aliTrkRef = aliPart->GetTrackReference(i); + + if (aliTrkRef) + { + Printf("det id = %d, x=%f, y=%f, z=%f", aliTrkRef->DetectorId(),aliTrkRef->X(),aliTrkRef->Y(),aliTrkRef->Z()); + } + } + + } + */ - Int_t iPartDaughter = part->GetLastDaughter(); - - if ((iPartDaughter>=0) && (iPartDaughter < nStackTracks)) - { - TParticle *partDaughter = stack->Particle(iPartDaughter); - if (partDaughter) - { - TParticlePDG *pdgDaugther = partDaughter->GetPDG(0); - if (pdgDaugther) - { - Double_t decayR = sqrt(pow(partDaughter->Vx(),2)+pow(partDaughter->Vy(),2)); - Printf("radius = %f, daughter pid = %d",decayR,pdgDaugther->PdgCode()); - } - } - } - - for (int i=0;iGetNumberOfTrackReferences();i++) - { - AliTrackReference* aliTrkRef = aliPart->GetTrackReference(i); - - if (aliTrkRef) - { - Printf("det id = %d, x=%f, y=%f, z=%f", aliTrkRef->DetectorId(),aliTrkRef->X(),aliTrkRef->Y(),aliTrkRef->Z()); - } - } - - } - */ - - fHistNonConvGammaAccEtaEET->Fill(part->Energy(),part->Eta(),et); - fHistNonConvGammaAccEtaPtET->Fill(part->Pt(),part->Eta(),et); - fHistNonConvGammaAccEtaET->Fill(et,part->Eta()); - fHistNonConvGammaAccEtaE->Fill(part->Energy(),part->Eta()); - fHistNonConvGammaAccEtaPt->Fill(part->Pt(),part->Eta()); - fNonConvGammaAcctotET += et; - } - } - } - else if (!fGeoUt->IsInEMCAL(part->Vx(),part->Vy(),part->Vz())) - { - if (IsMotherPrimaryElectron(stack,iPartMom,pdgMom)) - { - fHistAnnihGammaEtaEET->Fill(part->Energy(),part->Eta(),et); - fHistAnnihGammaEtaPtET->Fill(part->Pt(),part->Eta(),et); - fHistAnnihGammaEtaET->Fill(et,part->Eta()); - fHistAnnihGammaEtaE->Fill(part->Energy(),part->Eta()); - fHistAnnihGammaEtaPt->Fill(part->Pt(),part->Eta()); - fAnnihGammatotET += et; + fHistNonConvGammaAccEtaEET->Fill(part->Energy(),part->Eta(),et); + fHistNonConvGammaAccEtaPtET->Fill(part->Pt(),part->Eta(),et); + fHistNonConvGammaAccEtaET->Fill(et,part->Eta()); + fHistNonConvGammaAccEtaE->Fill(part->Energy(),part->Eta()); + fHistNonConvGammaAccEtaPt->Fill(part->Pt(),part->Eta()); + fNonConvGammaAcctotET += et; + } + } + } + else if (!fGeoUt->IsInEMCAL(part->Vx(),part->Vy(),part->Vz())) + { + if (IsMotherPrimaryElectron(stack,iPartMom,pdgMom)) + { + fHistAnnihGammaEtaEET->Fill(part->Energy(),part->Eta(),et); + fHistAnnihGammaEtaPtET->Fill(part->Pt(),part->Eta(),et); + fHistAnnihGammaEtaET->Fill(et,part->Eta()); + fHistAnnihGammaEtaE->Fill(part->Energy(),part->Eta()); + fHistAnnihGammaEtaPt->Fill(part->Pt(),part->Eta()); + fAnnihGammatotET += et; - // inside EMCal acceptance - //if (IsInAcceptance(part,pdg)) - if (IsInAcceptance(aliPart)) - { - fHistAnnihGammaAccEtaEET->Fill(part->Energy(),part->Eta(),et); - fHistAnnihGammaAccEtaPtET->Fill(part->Pt(),part->Eta(),et); - fHistAnnihGammaAccEtaET->Fill(et,part->Eta()); - fHistAnnihGammaAccEtaE->Fill(part->Energy(),part->Eta()); - fHistAnnihGammaAccEtaPt->Fill(part->Pt(),part->Eta()); - fAnnihGammaAcctotET += et; - } - } - else if (IsMotherPrimaryGamma(stack,iPartMom,pdgMom)) - { - fHistScatGammaEtaEET->Fill(part->Energy(),part->Eta(),et); - fHistScatGammaEtaPtET->Fill(part->Pt(),part->Eta(),et); - fHistScatGammaEtaET->Fill(et,part->Eta()); - fHistScatGammaEtaE->Fill(part->Energy(),part->Eta()); - fHistScatGammaEtaPt->Fill(part->Pt(),part->Eta()); - fScatGammatotET += et; + // inside EMCal acceptance + //if (IsInAcceptance(part,pdg)) + if (IsInAcceptance(aliPart)) + { + fHistAnnihGammaAccEtaEET->Fill(part->Energy(),part->Eta(),et); + fHistAnnihGammaAccEtaPtET->Fill(part->Pt(),part->Eta(),et); + fHistAnnihGammaAccEtaET->Fill(et,part->Eta()); + fHistAnnihGammaAccEtaE->Fill(part->Energy(),part->Eta()); + fHistAnnihGammaAccEtaPt->Fill(part->Pt(),part->Eta()); + fAnnihGammaAcctotET += et; + } + } + else if (IsMotherPrimaryGamma(stack,iPartMom,pdgMom)) + { + fHistScatGammaEtaEET->Fill(part->Energy(),part->Eta(),et); + fHistScatGammaEtaPtET->Fill(part->Pt(),part->Eta(),et); + fHistScatGammaEtaET->Fill(et,part->Eta()); + fHistScatGammaEtaE->Fill(part->Energy(),part->Eta()); + fHistScatGammaEtaPt->Fill(part->Pt(),part->Eta()); + fScatGammatotET += et; - // inside EMCal acceptance - //if (IsInAcceptance(part,pdg)) - if (IsInAcceptance(aliPart)) - { - fHistScatGammaAccEtaEET->Fill(part->Energy(),part->Eta(),et); - fHistScatGammaAccEtaPtET->Fill(part->Pt(),part->Eta(),et); - fHistScatGammaAccEtaET->Fill(et,part->Eta()); - fHistScatGammaAccEtaE->Fill(part->Energy(),part->Eta()); - fHistScatGammaAccEtaPt->Fill(part->Pt(),part->Eta()); - fScatGammaAcctotET += et; - } - } - } - - // few checks - if ((stack->IsPhysicalPrimary(iPart)) || (!fGeoUt->IsInEMCAL(part->Vx(),part->Vy(),part->Vz()))) - { - if (pdgMom) - fHistGammaFirstMother->Fill(pdgMom->PdgCode()); - fHistGammaFirstMotherXY->Fill(part->Vx(),part->Vy()); - fHistGammaNDaughters->Fill(nPartDaughters); + // inside EMCal acceptance + //if (IsInAcceptance(part,pdg)) + if (IsInAcceptance(aliPart)) + { + fHistScatGammaAccEtaEET->Fill(part->Energy(),part->Eta(),et); + fHistScatGammaAccEtaPtET->Fill(part->Pt(),part->Eta(),et); + fHistScatGammaAccEtaET->Fill(et,part->Eta()); + fHistScatGammaAccEtaE->Fill(part->Energy(),part->Eta()); + fHistScatGammaAccEtaPt->Fill(part->Pt(),part->Eta()); + fScatGammaAcctotET += et; + } + } + } + + // few checks + if ((stack->IsPhysicalPrimary(iPart)) || (!fGeoUt->IsInEMCAL(part->Vx(),part->Vy(),part->Vz()))) + { + if (pdgMom) + fHistGammaFirstMother->Fill(pdgMom->PdgCode()); + fHistGammaFirstMotherXY->Fill(part->Vx(),part->Vy()); + fHistGammaNDaughters->Fill(nPartDaughters); - iPartDaughter = part->GetLastDaughter(); - if ((iPartDaughter>=0) && (iPartDaughter < nStackTracks)) - { - partDaughter = stack->Particle(iPartDaughter); - if (partDaughter) - { - pdgDaugther = partDaughter->GetPDG(0); - if (pdgDaugther) { - fHistGammaDaughters->Fill(pdgDaugther->PdgCode()); - fHistGammaDaughtersXY->Fill(partDaughter->Vx(),partDaughter->Vy()); + iPartDaughter = part->GetLastDaughter(); + if ((iPartDaughter>=0) && (iPartDaughter < nStackTracks)) + { + partDaughter = stack->Particle(iPartDaughter); + if (partDaughter) + { + pdgDaugther = partDaughter->GetPDG(0); + if (pdgDaugther) { + fHistGammaDaughters->Fill(pdgDaugther->PdgCode()); + fHistGammaDaughtersXY->Fill(partDaughter->Vx(),partDaughter->Vy()); - if (stack->IsPhysicalPrimary(iPart)) - { - if (IsGammaConversion(stack, part, pdg)) - { - fHistConvGammaDaughtersXY->Fill(partDaughter->Vx(),partDaughter->Vy()); - } - else - { - fHistNonConvGammaDaughtersXY->Fill(partDaughter->Vx(),partDaughter->Vy()); - } - } - } - } - } + if (stack->IsPhysicalPrimary(iPart)) + { + if (IsGammaConversion(stack, part, pdg)) + { + fHistConvGammaDaughtersXY->Fill(partDaughter->Vx(),partDaughter->Vy()); + } + else + { + fHistNonConvGammaDaughtersXY->Fill(partDaughter->Vx(),partDaughter->Vy()); + } + } + } + } + } - // inside EMCal acceptance - //if (IsInAcceptance(part,pdg)) - if (IsInAcceptance(aliPart)) - { - if (pdgMom)//Marcelo - again, should this be all three? - fHistGammaFirstMotherAcc->Fill(pdgMom->PdgCode()); - fHistGammaFirstMotherXYAcc->Fill(part->Vx(),part->Vy()); - fHistGammaNDaughtersAcc->Fill(nPartDaughters); + // inside EMCal acceptance + //if (IsInAcceptance(part,pdg)) + if (IsInAcceptance(aliPart)) + { + if (pdgMom)//Marcelo - again, should this be all three? + fHistGammaFirstMotherAcc->Fill(pdgMom->PdgCode()); + fHistGammaFirstMotherXYAcc->Fill(part->Vx(),part->Vy()); + fHistGammaNDaughtersAcc->Fill(nPartDaughters); - iPartDaughter = part->GetLastDaughter(); - if ((iPartDaughter>=0) && (iPartDaughter < nStackTracks)) - { - partDaughter = stack->Particle(iPartDaughter); - if (partDaughter) - { - pdgDaugther = partDaughter->GetPDG(0); - if (pdgDaugther) { - fHistGammaDaughtersAcc->Fill(pdgDaugther->PdgCode()); - fHistGammaDaughtersXYAcc->Fill(partDaughter->Vx(),partDaughter->Vy()); + iPartDaughter = part->GetLastDaughter(); + if ((iPartDaughter>=0) && (iPartDaughter < nStackTracks)) + { + partDaughter = stack->Particle(iPartDaughter); + if (partDaughter) + { + pdgDaugther = partDaughter->GetPDG(0); + if (pdgDaugther) { + fHistGammaDaughtersAcc->Fill(pdgDaugther->PdgCode()); + fHistGammaDaughtersXYAcc->Fill(partDaughter->Vx(),partDaughter->Vy()); - if (stack->IsPhysicalPrimary(iPart)) - { - if (IsGammaConversion(stack, part, pdg)) - { - fHistConvGammaDaughtersXYAcc->Fill(partDaughter->Vx(),partDaughter->Vy()); - } - else - { - fHistNonConvGammaDaughtersXYAcc->Fill(partDaughter->Vx(),partDaughter->Vy()); - } - } + if (stack->IsPhysicalPrimary(iPart)) + { + if (IsGammaConversion(stack, part, pdg)) + { + fHistConvGammaDaughtersXYAcc->Fill(partDaughter->Vx(),partDaughter->Vy()); + } + else + { + fHistNonConvGammaDaughtersXYAcc->Fill(partDaughter->Vx(),partDaughter->Vy()); + } + } - } - } - } - } - } - } // end of if gamma - - // Neutral particles - if (TMath::Abs(pdg->Charge() - fCuts->GetMonteCarloNeutralParticle()) <1e-3 ) - { - //fNeutralMultiplicity++; - fTotNeutralEt += et; + } + } + } + } + } + } // end of if gamma + + // Neutral particles + if (TMath::Abs(pdg->Charge() - fCuts->GetMonteCarloNeutralParticle()) <1e-3 ) + { + //fNeutralMultiplicity++; + fTotNeutralEt += et; - // inside EMCal acceptance - //if (IsInAcceptance(part,pdg)) - if (IsInAcceptance(aliPart)) - { - fTotNeutralEtAcc += et; - //fTotEtAcc += et; - } - } // end of neutral particles block - //Charged particles - else if (TMath::Abs( pdg->Charge() - fCuts->GetMonteCarloNeutralParticle())>1e-3 ) - { - //fChargedMultiplicity++; - fTotChargedEt += et; + // inside EMCal acceptance + //if (IsInAcceptance(part,pdg)) + if (IsInAcceptance(aliPart)) + { + fTotNeutralEtAcc += et; + //fTotEtAcc += et; + } + } // end of neutral particles block + //Charged particles + else if (TMath::Abs( pdg->Charge() - fCuts->GetMonteCarloNeutralParticle())>1e-3 ) + { + //fChargedMultiplicity++; + fTotChargedEt += et; - // inside EMCal acceptance - //if (IsInAcceptance(part,pdg,extParam)) - if (IsInAcceptance(aliPart)) - { - fTotChargedEtAcc += et; - //fTotEtAcc += et; - } // inside EMCal acceptance + // inside EMCal acceptance + //if (IsInAcceptance(part,pdg,extParam)) + if (IsInAcceptance(aliPart)) + { + fTotChargedEtAcc += et; + //fTotEtAcc += et; + } // inside EMCal acceptance - //if (TrackHitsCalo(extParam)) // magnetic field info not filled? - //{ - // if (pdg->Charge() > 0) fHistPhivsPtPos->Fill(part->Phi(),part->Pt()); - // else if (pdg->Charge() < 0) fHistPhivsPtNeg->Fill(part->Phi(), part->Pt()); - //} - } // end of charged particles block - } // end of is primary - else // not a primary - { - if (pdgMom) - { - if (pdgMom->PdgCode() == fgK0SCode) - { - fHistK0EtaEET->Fill(part->Energy(),part->Eta(),et); - fHistK0EtaPtET->Fill(part->Pt(),part->Eta(),et); - fHistK0EtaET->Fill(et,part->Eta()); - fHistK0EtaE->Fill(part->Energy(),part->Eta()); - fHistK0EtaPt->Fill(part->Pt(),part->Eta()); - fK0totET += et; - } + //if (TrackHitsCalo(extParam)) // magnetic field info not filled? + //{ + // if (pdg->Charge() > 0) fHistPhivsPtPos->Fill(part->Phi(),part->Pt()); + // else if (pdg->Charge() < 0) fHistPhivsPtNeg->Fill(part->Phi(), part->Pt()); + //} + } // end of charged particles block + } // end of is primary + else // not a primary + { + if (pdgMom) + { + if (pdgMom->PdgCode() == fgK0SCode) + { + fHistK0EtaEET->Fill(part->Energy(),part->Eta(),et); + fHistK0EtaPtET->Fill(part->Pt(),part->Eta(),et); + fHistK0EtaET->Fill(et,part->Eta()); + fHistK0EtaE->Fill(part->Energy(),part->Eta()); + fHistK0EtaPt->Fill(part->Pt(),part->Eta()); + fK0totET += et; + } - if (pdgMom->PdgCode() == fgLambdaCode || pdgMom->PdgCode() == fgAntiLambdaCode) - { - fHistLambdaEtaEET->Fill(part->Energy(),part->Eta(),et); - fHistLambdaEtaPtET->Fill(part->Pt(),part->Eta(),et); - fHistLambdaEtaET->Fill(et,part->Eta()); - fHistLambdaEtaE->Fill(part->Energy(),part->Eta()); - fHistLambdaEtaPt->Fill(part->Pt(),part->Eta()); - fLambdatotET += et; - } - } - - if (!fGeoUt->IsInEMCAL(part->Vx(),part->Vy(),part->Vz())) // exclude secondaries from interactions inside the EMCal - { - if (pdg->PdgCode() == fgEPlusCode || pdg->PdgCode() == fgEMinusCode) - { - fHistNPPElectronEtaEET->Fill(part->Energy(),part->Eta(),et); - fHistNPPElectronEtaPtET->Fill(part->Pt(),part->Eta(),et); - fHistNPPElectronEtaET->Fill(et,part->Eta()); - fHistNPPElectronEtaE->Fill(part->Energy(),part->Eta()); - fHistNPPElectronEtaPt->Fill(part->Pt(),part->Eta()); - fNPPElectrontotET += et; + if (pdgMom->PdgCode() == fgLambdaCode || pdgMom->PdgCode() == fgAntiLambdaCode) + { + fHistLambdaEtaEET->Fill(part->Energy(),part->Eta(),et); + fHistLambdaEtaPtET->Fill(part->Pt(),part->Eta(),et); + fHistLambdaEtaET->Fill(et,part->Eta()); + fHistLambdaEtaE->Fill(part->Energy(),part->Eta()); + fHistLambdaEtaPt->Fill(part->Pt(),part->Eta()); + fLambdatotET += et; + } + } + + if (!fGeoUt->IsInEMCAL(part->Vx(),part->Vy(),part->Vz())) // exclude secondaries from interactions inside the EMCal + { + if (pdg->PdgCode() == fgEPlusCode || pdg->PdgCode() == fgEMinusCode) + { + fHistNPPElectronEtaEET->Fill(part->Energy(),part->Eta(),et); + fHistNPPElectronEtaPtET->Fill(part->Pt(),part->Eta(),et); + fHistNPPElectronEtaET->Fill(et,part->Eta()); + fHistNPPElectronEtaE->Fill(part->Energy(),part->Eta()); + fHistNPPElectronEtaPt->Fill(part->Pt(),part->Eta()); + fNPPElectrontotET += et; - // inside EMCal acceptance - //if (IsInAcceptance(part,pdg,extParam)) - if (IsInAcceptance(aliPart)) - { - fHistNPPElectronAccEtaEET->Fill(part->Energy(),part->Eta(),et); - fHistNPPElectronAccEtaPtET->Fill(part->Pt(),part->Eta(),et); - fHistNPPElectronAccEtaE->Fill(part->Energy(),part->Eta()); - fHistNPPElectronAccEtaPt->Fill(part->Pt(),part->Eta()); - } + // inside EMCal acceptance + //if (IsInAcceptance(part,pdg,extParam)) + if (IsInAcceptance(aliPart)) + { + fHistNPPElectronAccEtaEET->Fill(part->Energy(),part->Eta(),et); + fHistNPPElectronAccEtaPtET->Fill(part->Pt(),part->Eta(),et); + fHistNPPElectronAccEtaE->Fill(part->Energy(),part->Eta()); + fHistNPPElectronAccEtaPt->Fill(part->Pt(),part->Eta()); + } - // few checks - fHistNPPElectronFirstMother->Fill(pdgMom->PdgCode()); - fHistNPPElectronFirstMotherXY->Fill(part->Vx(),part->Vy()); - fHistNPPElectronNDaughters->Fill(nPartDaughters); + // few checks + fHistNPPElectronFirstMother->Fill(pdgMom->PdgCode()); + fHistNPPElectronFirstMotherXY->Fill(part->Vx(),part->Vy()); + fHistNPPElectronNDaughters->Fill(nPartDaughters); - iPartDaughter = part->GetLastDaughter(); - if ((iPartDaughter>=0) && (iPartDaughter < nStackTracks)) - { - partDaughter = stack->Particle(iPartDaughter); - if (partDaughter) - { - pdgDaugther = partDaughter->GetPDG(0); - if (pdgDaugther) { - fHistNPPElectronDaughters->Fill(pdgDaugther->PdgCode()); - fHistNPPElectronDaughtersXY->Fill(partDaughter->Vx(),partDaughter->Vy()); - } - } - } + iPartDaughter = part->GetLastDaughter(); + if ((iPartDaughter>=0) && (iPartDaughter < nStackTracks)) + { + partDaughter = stack->Particle(iPartDaughter); + if (partDaughter) + { + pdgDaugther = partDaughter->GetPDG(0); + if (pdgDaugther) { + fHistNPPElectronDaughters->Fill(pdgDaugther->PdgCode()); + fHistNPPElectronDaughtersXY->Fill(partDaughter->Vx(),partDaughter->Vy()); + } + } + } - // inside EMCal acceptance - //if (IsInAcceptance(part,pdg,extParam)) - if (IsInAcceptance(aliPart)) - { - fHistNPPElectronFirstMotherAcc->Fill(pdgMom->PdgCode()); - fHistNPPElectronFirstMotherXYAcc->Fill(part->Vx(),part->Vy()); - fHistNPPElectronNDaughtersAcc->Fill(nPartDaughters); + // inside EMCal acceptance + //if (IsInAcceptance(part,pdg,extParam)) + if (IsInAcceptance(aliPart)) + { + fHistNPPElectronFirstMotherAcc->Fill(pdgMom->PdgCode()); + fHistNPPElectronFirstMotherXYAcc->Fill(part->Vx(),part->Vy()); + fHistNPPElectronNDaughtersAcc->Fill(nPartDaughters); + + iPartDaughter = part->GetLastDaughter(); + if ((iPartDaughter>=0) && (iPartDaughter < nStackTracks)) + { + partDaughter = stack->Particle(iPartDaughter); + if (partDaughter) + { + pdgDaugther = partDaughter->GetPDG(0); + if (pdgDaugther) { + fHistNPPElectronDaughtersAcc->Fill(pdgDaugther->PdgCode()); + fHistNPPElectronDaughtersXYAcc->Fill(partDaughter->Vx(),partDaughter->Vy()); + } + } + } + } - iPartDaughter = part->GetLastDaughter(); - if ((iPartDaughter>=0) && (iPartDaughter < nStackTracks)) - { - partDaughter = stack->Particle(iPartDaughter); - if (partDaughter) - { - pdgDaugther = partDaughter->GetPDG(0); - if (pdgDaugther) { - fHistNPPElectronDaughtersAcc->Fill(pdgDaugther->PdgCode()); - fHistNPPElectronDaughtersXYAcc->Fill(partDaughter->Vx(),partDaughter->Vy()); - } - } - } - } - - } // end of if electron + } // end of if electron - if(pdg->PdgCode() == fgGammaCode) - { - fHistNPPGammaEtaEET->Fill(part->Energy(),part->Eta(),et); - fHistNPPGammaEtaPtET->Fill(part->Pt(),part->Eta(),et); - fHistNPPGammaEtaET->Fill(et,part->Eta()); - fHistNPPGammaEtaE->Fill(part->Energy(),part->Eta()); - fHistNPPGammaEtaPt->Fill(part->Pt(),part->Eta()); - fNPPGammatotET += et; - - if (pdgMom) - { - if (pdgMom->PdgCode() == fgPi0Code) - { - fHistNPPPi0GammaEtaEET->Fill(part->Energy(),part->Eta(),et); - fHistNPPPi0GammaEtaPtET->Fill(part->Pt(),part->Eta(),et); - fHistNPPPi0GammaEtaET->Fill(et,part->Eta()); - fHistNPPPi0GammaEtaE->Fill(part->Energy(),part->Eta()); - fHistNPPPi0GammaEtaPt->Fill(part->Pt(),part->Eta()); - fNPPPi0GammatotET += et; - } - } + if(pdg->PdgCode() == fgGammaCode) + { + fHistNPPGammaEtaEET->Fill(part->Energy(),part->Eta(),et); + fHistNPPGammaEtaPtET->Fill(part->Pt(),part->Eta(),et); + fHistNPPGammaEtaET->Fill(et,part->Eta()); + fHistNPPGammaEtaE->Fill(part->Energy(),part->Eta()); + fHistNPPGammaEtaPt->Fill(part->Pt(),part->Eta()); + fNPPGammatotET += et; - // inside EMCal acceptance - //if (IsInAcceptance(part,pdg)) - if (IsInAcceptance(aliPart)) - { - fHistNPPGammaAccEtaEET->Fill(part->Energy(),part->Eta(),et); - fHistNPPGammaAccEtaPtET->Fill(part->Pt(),part->Eta(),et); - fHistNPPGammaAccEtaE->Fill(part->Energy(),part->Eta()); - fHistNPPGammaAccEtaPt->Fill(part->Pt(),part->Eta()); - } + if (pdgMom) + { + if (pdgMom->PdgCode() == fgPi0Code) + { + fHistNPPPi0GammaEtaEET->Fill(part->Energy(),part->Eta(),et); + fHistNPPPi0GammaEtaPtET->Fill(part->Pt(),part->Eta(),et); + fHistNPPPi0GammaEtaET->Fill(et,part->Eta()); + fHistNPPPi0GammaEtaE->Fill(part->Energy(),part->Eta()); + fHistNPPPi0GammaEtaPt->Fill(part->Pt(),part->Eta()); + fNPPPi0GammatotET += et; + } + } - // few checks - if (pdgMom) - fHistNPPGammaFirstMother->Fill(pdgMom->PdgCode()); - fHistNPPGammaFirstMotherXY->Fill(part->Vx(),part->Vy()); - fHistNPPGammaNDaughters->Fill(nPartDaughters); + // inside EMCal acceptance + //if (IsInAcceptance(part,pdg)) + if (IsInAcceptance(aliPart)) + { + fHistNPPGammaAccEtaEET->Fill(part->Energy(),part->Eta(),et); + fHistNPPGammaAccEtaPtET->Fill(part->Pt(),part->Eta(),et); + fHistNPPGammaAccEtaE->Fill(part->Energy(),part->Eta()); + fHistNPPGammaAccEtaPt->Fill(part->Pt(),part->Eta()); + } - iPartDaughter = part->GetLastDaughter(); - if ((iPartDaughter>=0) && (iPartDaughter < nStackTracks)) - { - partDaughter = stack->Particle(iPartDaughter); - if (partDaughter) - { - pdgDaugther = partDaughter->GetPDG(0); - if (pdgDaugther) { - fHistNPPGammaDaughters->Fill(pdgDaugther->PdgCode()); - fHistNPPGammaDaughtersXY->Fill(partDaughter->Vx(),partDaughter->Vy()); - } - } - } + // few checks + if (pdgMom) + fHistNPPGammaFirstMother->Fill(pdgMom->PdgCode()); + fHistNPPGammaFirstMotherXY->Fill(part->Vx(),part->Vy()); + fHistNPPGammaNDaughters->Fill(nPartDaughters); - // inside EMCal acceptance - //if (IsInAcceptance(part,pdg)) - if (IsInAcceptance(aliPart)) - { - fHistNPPGammaFirstMotherAcc->Fill(pdgMom->PdgCode()); - fHistNPPGammaFirstMotherXYAcc->Fill(part->Vx(),part->Vy()); - fHistNPPGammaNDaughtersAcc->Fill(nPartDaughters); + iPartDaughter = part->GetLastDaughter(); + if ((iPartDaughter>=0) && (iPartDaughter < nStackTracks)) + { + partDaughter = stack->Particle(iPartDaughter); + if (partDaughter) + { + pdgDaugther = partDaughter->GetPDG(0); + if (pdgDaugther) { + fHistNPPGammaDaughters->Fill(pdgDaugther->PdgCode()); + fHistNPPGammaDaughtersXY->Fill(partDaughter->Vx(),partDaughter->Vy()); + } + } + } - iPartDaughter = part->GetLastDaughter(); - if ((iPartDaughter>=0) && (iPartDaughter < nStackTracks)) - { - partDaughter = stack->Particle(iPartDaughter); - if (partDaughter) - { - pdgDaugther = partDaughter->GetPDG(0); - if (pdgDaugther) { - fHistNPPGammaDaughtersAcc->Fill(pdgDaugther->PdgCode()); - fHistNPPGammaDaughtersXYAcc->Fill(partDaughter->Vx(),partDaughter->Vy()); - } - } - } - } + // inside EMCal acceptance + //if (IsInAcceptance(part,pdg)) + if (IsInAcceptance(aliPart)) + { + fHistNPPGammaFirstMotherAcc->Fill(pdgMom->PdgCode()); + fHistNPPGammaFirstMotherXYAcc->Fill(part->Vx(),part->Vy()); + fHistNPPGammaNDaughtersAcc->Fill(nPartDaughters); + + iPartDaughter = part->GetLastDaughter(); + if ((iPartDaughter>=0) && (iPartDaughter < nStackTracks)) + { + partDaughter = stack->Particle(iPartDaughter); + if (partDaughter) + { + pdgDaugther = partDaughter->GetPDG(0); + if (pdgDaugther) { + fHistNPPGammaDaughtersAcc->Fill(pdgDaugther->PdgCode()); + fHistNPPGammaDaughtersXYAcc->Fill(partDaughter->Vx(),partDaughter->Vy()); + } + } + } + } - } // end of gamma - } - } // end of NOT a primary - } // end of eta cut (Inside ALICE central barrel acceptance) + } // end of gamma + } + } // end of NOT a primary + } // end of eta cut (Inside ALICE central barrel acceptance) - if (extParam) - delete extParam; + if (extParam) + delete extParam; - }// end of loop over TParticles - fTotEt = fTotChargedEt + fTotNeutralEt; - fTotEtAcc = fTotChargedEtAcc + fTotNeutralEtAcc; - - fTotElectrontotET = fElectrontotET + fConvElectrontotET + fScatElectrontotET; - fTotElectronAcctotET = fElectronAcctotET + fConvElectronAcctotET + fScatElectronAcctotET; - fTotGammatotET = fGammatotET + fAnnihGammatotET + fScatGammatotET; - fTotGammaAcctotET = fGammaAcctotET + fAnnihGammaAcctotET + fScatGammaAcctotET; - fTotEMtotET = fTotElectrontotET + fTotGammatotET; - fTotEMAcctotET = fTotElectronAcctotET + fTotGammaAcctotET; - fTotNPPEMtotET = fNPPElectrontotET + fNPPGammatotET; - fTotChargedtotET = fMuontotET + fPiontotET + fKaontotET + fProtontotET; - fTotChargedAcctotET = fMuonAcctotET + fPionAcctotET + fKaonAcctotET + fProtonAcctotET; - fTotNeutraltotET = fNeutrontotET + fK0totET + fLambdatotET; - fTotaltotET = fTotEMtotET + fTotNPPEMtotET + fTotChargedtotET + fTotNeutraltotET; - fTotalAcctotET = fTotEMAcctotET + fTotChargedAcctotET; - - //FillHistograms(); - - fHistPrimtotET->Fill(fPrimtotET); - fHistPrimAcctotET->Fill(fPrimAcctotET); - - fHistElectrontotET->Fill(fElectrontotET); - fHistElectronAcctotET->Fill(fElectronAcctotET); - fHistConvElectrontotET->Fill(fConvElectrontotET); - fHistConvElectronAcctotET->Fill(fConvElectronAcctotET); - fHistScatElectrontotET->Fill(fScatElectrontotET); - fHistScatElectronAcctotET->Fill(fScatElectronAcctotET); - - fHistTotElectrontotET->Fill(fTotElectrontotET); - fHistTotElectronAcctotET->Fill(fTotElectronAcctotET); - - fHistGammatotET->Fill(fGammatotET); - fHistGammaAcctotET->Fill(fGammaAcctotET); - fHistAnnihGammatotET->Fill(fAnnihGammatotET); - fHistAnnihGammaAcctotET->Fill(fAnnihGammaAcctotET); - fHistScatGammatotET->Fill(fScatGammatotET); - fHistScatGammaAcctotET->Fill(fScatGammaAcctotET); - - fHistTotGammatotET->Fill(fTotGammatotET); - fHistTotGammaAcctotET->Fill(fTotGammaAcctotET); - - fHistTotEMtotET->Fill(fTotEMtotET); - fHistTotEMAcctotET->Fill(fTotEMAcctotET); - - fHistConvGammatotET->Fill(fConvGammatotET); - fHistNonConvGammatotET->Fill(fNonConvGammatotET); - fHistConvGammaAcctotET->Fill(fConvGammaAcctotET); - fHistNonConvGammaAcctotET->Fill(fNonConvGammaAcctotET); - - fHistNPPElectrontotET->Fill(fNPPElectrontotET); - fHistNPPGammatotET->Fill(fNPPGammatotET); - - fHistTotNPPEMtotET->Fill(fTotNPPEMtotET); - - fHistNPPPi0GammatotET->Fill(fNPPPi0GammatotET); - - fHistMuontotET->Fill(fMuontotET); - fHistMuonAcctotET->Fill(fMuonAcctotET); - fHistPiontotET->Fill(fPiontotET); - fHistPionAcctotET->Fill(fPionAcctotET); - fHistKaontotET->Fill(fKaontotET); - fHistKaonAcctotET->Fill(fKaonAcctotET); - fHistProtontotET->Fill(fProtontotET); - fHistProtonAcctotET->Fill(fProtonAcctotET); - - fHistTotChargedtotET->Fill(fTotChargedtotET); - fHistTotChargedAcctotET->Fill(fTotChargedAcctotET); - - fHistNeutrontotET->Fill(fNeutrontotET); - fHistNeutronAcctotET->Fill(fNeutronAcctotET); - fHistK0totET->Fill(fK0totET); - fHistLambdatotET->Fill(fNeutrontotET); - - fHistTotNeutraltotET->Fill(fTotNeutraltotET); - - fHistTotaltotET->Fill(fTotaltotET); - fHistTotalAcctotET->Fill(fTotalAcctotET); - - return 0; + }// end of loop over TParticles + fTotEt = fTotChargedEt + fTotNeutralEt; + fTotEtAcc = fTotChargedEtAcc + fTotNeutralEtAcc; + + fTotElectrontotET = fElectrontotET + fConvElectrontotET + fScatElectrontotET; + fTotElectronAcctotET = fElectronAcctotET + fConvElectronAcctotET + fScatElectronAcctotET; + fTotGammatotET = fGammatotET + fAnnihGammatotET + fScatGammatotET; + fTotGammaAcctotET = fGammaAcctotET + fAnnihGammaAcctotET + fScatGammaAcctotET; + fTotEMtotET = fTotElectrontotET + fTotGammatotET; + fTotEMAcctotET = fTotElectronAcctotET + fTotGammaAcctotET; + fTotNPPEMtotET = fNPPElectrontotET + fNPPGammatotET; + fTotChargedtotET = fMuontotET + fPiontotET + fKaontotET + fProtontotET; + fTotChargedAcctotET = fMuonAcctotET + fPionAcctotET + fKaonAcctotET + fProtonAcctotET; + fTotNeutraltotET = fNeutrontotET + fK0totET + fLambdatotET; + fTotaltotET = fTotEMtotET + fTotNPPEMtotET + fTotChargedtotET + fTotNeutraltotET; + fTotalAcctotET = fTotEMAcctotET + fTotChargedAcctotET; + + //FillHistograms(); + + fHistPrimtotET->Fill(fPrimtotET); + fHistPrimAcctotET->Fill(fPrimAcctotET); + + fHistElectrontotET->Fill(fElectrontotET); + fHistElectronAcctotET->Fill(fElectronAcctotET); + fHistConvElectrontotET->Fill(fConvElectrontotET); + fHistConvElectronAcctotET->Fill(fConvElectronAcctotET); + fHistScatElectrontotET->Fill(fScatElectrontotET); + fHistScatElectronAcctotET->Fill(fScatElectronAcctotET); + + fHistTotElectrontotET->Fill(fTotElectrontotET); + fHistTotElectronAcctotET->Fill(fTotElectronAcctotET); + + fHistGammatotET->Fill(fGammatotET); + fHistGammaAcctotET->Fill(fGammaAcctotET); + fHistAnnihGammatotET->Fill(fAnnihGammatotET); + fHistAnnihGammaAcctotET->Fill(fAnnihGammaAcctotET); + fHistScatGammatotET->Fill(fScatGammatotET); + fHistScatGammaAcctotET->Fill(fScatGammaAcctotET); + + fHistTotGammatotET->Fill(fTotGammatotET); + fHistTotGammaAcctotET->Fill(fTotGammaAcctotET); + + fHistTotEMtotET->Fill(fTotEMtotET); + fHistTotEMAcctotET->Fill(fTotEMAcctotET); + + fHistConvGammatotET->Fill(fConvGammatotET); + fHistNonConvGammatotET->Fill(fNonConvGammatotET); + fHistConvGammaAcctotET->Fill(fConvGammaAcctotET); + fHistNonConvGammaAcctotET->Fill(fNonConvGammaAcctotET); + + fHistNPPElectrontotET->Fill(fNPPElectrontotET); + fHistNPPGammatotET->Fill(fNPPGammatotET); + + fHistTotNPPEMtotET->Fill(fTotNPPEMtotET); + + fHistNPPPi0GammatotET->Fill(fNPPPi0GammatotET); + + fHistMuontotET->Fill(fMuontotET); + fHistMuonAcctotET->Fill(fMuonAcctotET); + fHistPiontotET->Fill(fPiontotET); + fHistPionAcctotET->Fill(fPionAcctotET); + fHistKaontotET->Fill(fKaontotET); + fHistKaonAcctotET->Fill(fKaonAcctotET); + fHistProtontotET->Fill(fProtontotET); + fHistProtonAcctotET->Fill(fProtonAcctotET); + + fHistTotChargedtotET->Fill(fTotChargedtotET); + fHistTotChargedAcctotET->Fill(fTotChargedAcctotET); + + fHistNeutrontotET->Fill(fNeutrontotET); + fHistNeutronAcctotET->Fill(fNeutronAcctotET); + fHistK0totET->Fill(fK0totET); + fHistLambdatotET->Fill(fNeutrontotET); + + fHistTotNeutraltotET->Fill(fTotNeutraltotET); + + fHistTotaltotET->Fill(fTotaltotET); + fHistTotalAcctotET->Fill(fTotalAcctotET); + + return 0; } Int_t AliAnalysisEmEtMonteCarlo::AnalyseEvent(AliVEvent* ev,AliVEvent* ev2) { // analyse MC and real event info - if(!ev || !ev2){//Marcelo - should use AliError - Printf("ERROR: Event does not exist"); - return 0; - } - - AliMCEvent *mcEvent = dynamic_cast(ev); - AliESDEvent *realEvent = dynamic_cast(ev2); - - fCentBin= -1; - if(fDataSet==20100){//If this is Pb+Pb - AliCentrality *centrality = realEvent->GetCentrality(); - if(fNCentBins<21) fCentBin= centrality->GetCentralityClass10(fCentralityMethod); - else{ fCentBin= centrality->GetCentralityClass5(fCentralityMethod);} - } - - if(!fGeoUt){ - fGeoUt = AliEMCALGeometry::GetInstance("EMCAL_FIRSTYEARV1");//new AliEMCALGeometry("EMCAL_FIRSTYEAR","EMCAL"); - AliInfo("Creating new AliEMCALGeometry"); - } - //fGeoUt = new AliEMCALGeometry("EMCAL_FIRSTYEAR","EMCAL"); - //fGeoUt->SetMisalMatrix(realEvent->GetEMCALMatrix(0),0); - - ResetEventValues(); - AnalyseEvent(ev); - - AliStack *stack = mcEvent->Stack(); - if (!stack) + if(!ev || !ev2){//Marcelo - should use AliError + Printf("ERROR: Event does not exist"); + return 0; + } + + AliMCEvent *mcEvent = dynamic_cast(ev); + AliESDEvent *realEvent = dynamic_cast(ev2); + + fCentBin= -1; + if(fDataSet==20100){//If this is Pb+Pb + AliCentrality *centrality = realEvent->GetCentrality(); + if(fNCentBins<21) fCentBin= centrality->GetCentralityClass10(fCentralityMethod); + else{ fCentBin= centrality->GetCentralityClass5(fCentralityMethod);} + } + + if(!fGeoUt){ + fGeoUt = AliEMCALGeometry::GetInstance("EMCAL_FIRSTYEARV1");//new AliEMCALGeometry("EMCAL_FIRSTYEAR","EMCAL"); + AliInfo("Creating new AliEMCALGeometry"); + } + //fGeoUt = new AliEMCALGeometry("EMCAL_FIRSTYEAR","EMCAL"); + //fGeoUt->SetMisalMatrix(realEvent->GetEMCALMatrix(0),0); + + ResetEventValues(); + AnalyseEvent(ev); + + AliStack *stack = mcEvent->Stack(); + if (!stack) { - Printf("ERROR: Could not get stack"); - return 0; + Printf("ERROR: Could not get stack"); + return 0; } - Int_t nStackTracks = stack->GetNtrack(); + Int_t nStackTracks = stack->GetNtrack(); - // get all emcal clusters - TRefArray* caloClusters = new TRefArray(); - realEvent->GetEMCALClusters( caloClusters ); + // get all emcal clusters + TRefArray* caloClusters = new TRefArray(); + realEvent->GetEMCALClusters( caloClusters ); - Int_t nCluster = caloClusters->GetEntries(); + Int_t nCluster = caloClusters->GetEntries(); - Float_t pos[3] = {0}; - TVector3 caloPos(0,0,0); - TVector3 trackPos(0,0,0); + Float_t pos[3] = {0}; + TVector3 caloPos(0,0,0); + TVector3 trackPos(0,0,0); - // loop the clusters - for (int iCluster = 0; iCluster < nCluster; iCluster++ ) + // loop the clusters + for (int iCluster = 0; iCluster < nCluster; iCluster++ ) { - AliESDCaloCluster* caloCluster = ( AliESDCaloCluster* )caloClusters->At( iCluster ); - Float_t caloE = caloCluster->E(); - caloCluster->GetPosition(pos); - caloPos.SetXYZ(pos[0],pos[1],pos[2]); + AliESDCaloCluster* caloCluster = ( AliESDCaloCluster* )caloClusters->At( iCluster ); + Float_t caloE = caloCluster->E(); + caloCluster->GetPosition(pos); + caloPos.SetXYZ(pos[0],pos[1],pos[2]); - UInt_t iPart = (UInt_t)TMath::Abs(caloCluster->GetLabel()); - TParticle *part = stack->Particle(iPart); + UInt_t iPart = (UInt_t)TMath::Abs(caloCluster->GetLabel()); + TParticle *part = stack->Particle(iPart); - if (!part) + if (!part) {//Marcelo -- use AliError - Printf("No MC particle %d", iCluster); - continue; + Printf("No MC particle %d", iCluster); + continue; } - TParticlePDG *pdg = part->GetPDG(0); + TParticlePDG *pdg = part->GetPDG(0); - TParticle *partMom = 0; - TParticlePDG *pdgMom = 0; + TParticle *partMom = 0; + TParticlePDG *pdgMom = 0; - Int_t nPartDaughters = part->GetNDaughters(); - TParticle *partDaughter = 0; - TParticlePDG *pdgDaugther = 0; + Int_t nPartDaughters = part->GetNDaughters(); + TParticle *partDaughter = 0; + TParticlePDG *pdgDaugther = 0; - if (!pdg) + if (!pdg) {//Marcelo -- use AliError - Printf("ERROR-2: Could not get particle PDG %d", iPart); - continue; + Printf("ERROR-2: Could not get particle PDG %d", iPart); + continue; } - Int_t iPartMom = part->GetMother(0); - Int_t iPartDaughter = 0; + Int_t iPartMom = part->GetMother(0); + Int_t iPartDaughter = 0; - if ((iPartMom>=0) && (iPartMom < nStackTracks)) - { - partMom = stack->Particle(iPartMom); - pdgMom = partMom->GetPDG(0); - } + if ((iPartMom>=0) && (iPartMom < nStackTracks)) + { + partMom = stack->Particle(iPartMom); + pdgMom = partMom->GetPDG(0); + } - // find the track associated to this MC particle - TObjArray* list = fEsdtrackCutsITSTPC->GetAcceptedTracks(realEvent); - Int_t nGoodTracks = list->GetEntries(); - Bool_t trackFound = kFALSE; - Bool_t trackProjected = kFALSE; - Float_t res = 0; - AliESDtrack *track = 0; - AliEMCALTrack *emcTrack = 0; - AliExternalTrackParam* extParamTPart = 0; - AliESDtrack *esdTPart = 0; - AliEMCALTrack *emcTPart = 0; - - // find corresponding track - for (Int_t iTrack = 0; iTrack < nGoodTracks; iTrack++) - { - track = dynamic_cast (list->At(iTrack)); - if (!track) - {//Marcelo -use AliError - Printf("ERROR: Could not get track %d", iTrack); - continue; - } - else - { - UInt_t label = (UInt_t)TMath::Abs(track->GetLabel()); - if (label == iPart) - { - trackFound = kTRUE; - emcTrack = new AliEMCALTrack(*track); - fHistAllPtRecPtMC->Fill(part->Pt(),track->Pt()); + // find the track associated to this MC particle + TObjArray* list = fEsdtrackCutsITSTPC->GetAcceptedTracks(realEvent); + Int_t nGoodTracks = list->GetEntries(); + Bool_t trackFound = kFALSE; + Bool_t trackProjected = kFALSE; + Float_t res = 0, resMin=9999; + AliESDtrack *track = 0; + AliEMCALTrack *emcTrack = 0; + AliEMCALTrack *emcTrack2 = 0; + AliExternalTrackParam* extParamTPart = 0; + AliESDtrack *esdTPart = 0; + AliEMCALTrack *emcTPart = 0; + + // find corresponding track + for (Int_t iTrack = 0; iTrack < nGoodTracks; iTrack++) + { + track = dynamic_cast (list->At(iTrack)); + if (!track) + {//Marcelo -use AliError + Printf("ERROR: Could not get track %d", iTrack); + continue; + } + else + { + UInt_t label = (UInt_t)TMath::Abs(track->GetLabel()); + if (label == iPart) + { + trackFound = kTRUE; + emcTrack = new AliEMCALTrack(*track); + fHistAllPtRecPtMC->Fill(part->Pt(),track->Pt()); - if (GetTrackProjection(emcTrack,trackPos,caloPos)) - { - trackProjected = kTRUE; - res = sqrt(pow(trackPos.Phi()-caloPos.Phi(),2)+pow(trackPos.Eta()-caloPos.Eta(),2)); - } - else - res = -1.; + if (GetTrackProjection(emcTrack,trackPos,caloPos)) + { + trackProjected = kTRUE; + res = sqrt(pow(trackPos.Phi()-caloPos.Phi(),2)+pow(trackPos.Eta()-caloPos.Eta(),2)); + } + else + res = -1.; - break; - } - } - } - - if (!trackFound) - { - track = 0; - emcTrack = 0; - res = -2.; - } - - //create an external track param for projection - extParamTPart = CreateExternalTrackParam(part); + break; + } + } + } + + if (!trackFound) + { + track = 0; + emcTrack = 0; + res = -2.; + } + + //create an external track param for projection + extParamTPart = CreateExternalTrackParam(part); - // create esd and emcal tracks out of TParticle (used for projection) - esdTPart = new AliESDtrack(part); + // create esd and emcal tracks out of TParticle (used for projection) + esdTPart = new AliESDtrack(part); - if (esdTPart && extParamTPart) - { - esdTPart->SetOuterParam(extParamTPart,0); - emcTPart = new AliEMCALTrack(*esdTPart); - } + if (esdTPart && extParamTPart) + { + esdTPart->SetOuterParam(extParamTPart,0); + emcTPart = new AliEMCALTrack(*esdTPart); + } - // few checks - // compare MC and Rec energies for all particles - fHistAllERecEMC->Fill(part->Energy(),caloE); - //Marcelo - doesn't it make sense to change this so that we use the tracks matched by the official code? - if (TMath::Abs( pdg->Charge() - fCuts->GetMonteCarloNeutralParticle()) > 1e-3) - { - //Printf("calo.Phi = %f, calo.Eta = %f \n", caloPos.Phi(), caloPos.Eta()); + // few checks + // compare MC and Rec energies for all particles + fHistAllERecEMC->Fill(part->Energy(),caloE); + //Marcelo - doesn't it make sense to change this so that we use the tracks matched by the official code? + if (TMath::Abs( pdg->Charge() - fCuts->GetMonteCarloNeutralParticle()) > 1e-3) + { + //Printf("calo.Phi = %f, calo.Eta = %f \n", caloPos.Phi(), caloPos.Eta()); - if (trackProjected) - { - //Printf("good track.Phi = %f, track.Eta = %f \n", trackPos.Phi(), trackPos.Eta()); - fHistChargedRes->Fill(trackPos.Phi()-caloPos.Phi(),trackPos.Eta()-caloPos.Eta()); - } + if (trackProjected) + { + //Printf("good track.Phi = %f, track.Eta = %f \n", trackPos.Phi(), trackPos.Eta()); + fHistChargedRes->Fill(trackPos.Phi()-caloPos.Phi(),trackPos.Eta()-caloPos.Eta()); + } - if (GetTrackProjection(emcTPart,trackPos,caloPos)) - { - fHistChargedRes2->Fill(trackPos.Phi()-caloPos.Phi(),trackPos.Eta()-caloPos.Eta()); - //Printf("track.Phi = %f, track.Eta = %f \n", trackPos.Phi(), trackPos.Eta()); - } + if (GetTrackProjection(emcTPart,trackPos,caloPos)) + { + fHistChargedRes2->Fill(trackPos.Phi()-caloPos.Phi(),trackPos.Eta()-caloPos.Eta()); + //Printf("track.Phi = %f, track.Eta = %f \n", trackPos.Phi(), trackPos.Eta()); + } - if (GetTrackProjection(extParamTPart,trackPos)) - { - fHistChargedRes3->Fill(trackPos.Phi()-caloPos.Phi(),trackPos.Eta()-caloPos.Eta()); - //Printf("track.Phi = %f, track.Eta = %f \n", trackPos.Phi(), trackPos.Eta()); - } + if (GetTrackProjection(extParamTPart,trackPos)) + { + fHistChargedRes3->Fill(trackPos.Phi()-caloPos.Phi(),trackPos.Eta()-caloPos.Eta()); + //Printf("track.Phi = %f, track.Eta = %f \n", trackPos.Phi(), trackPos.Eta()); + } - } - else if (TMath::Abs(pdg->Charge() - fCuts->GetMonteCarloNeutralParticle()) < 1e-3 ) - { - fHistNeutralRes->Fill(part->Phi()-caloPos.Phi(),part->Eta()-caloPos.Eta()); - } + } + else if (TMath::Abs(pdg->Charge() - fCuts->GetMonteCarloNeutralParticle()) < 1e-3 ) + { + fHistNeutralRes->Fill(part->Phi()-caloPos.Phi(),part->Eta()-caloPos.Eta()); + } - if(pdg->PdgCode() == fgGammaCode) - { - // compare MC and Rec energies for gammas - fHistGammaERecEMC->Fill(part->Energy(),caloE); - fHistGammaRes->Fill(part->Phi()-caloPos.Phi(),part->Eta()-caloPos.Eta()); - } + if(pdg->PdgCode() == fgGammaCode) + { + // compare MC and Rec energies for gammas + fHistGammaERecEMC->Fill(part->Energy(),caloE); + fHistGammaRes->Fill(part->Phi()-caloPos.Phi(),part->Eta()-caloPos.Eta()); + } - if (pdg->PdgCode() == fgEPlusCode || pdg->PdgCode() == fgEMinusCode) - { - // compare MC and Rec energies for electrons - fHistElectronERecEMC->Fill(part->Energy(),caloE); - if (GetTrackProjection(extParamTPart,trackPos)) - { - fHistElectronRes->Fill(trackPos.Phi()-caloPos.Phi(),trackPos.Eta()-caloPos.Eta()); - } - } + if (pdg->PdgCode() == fgEPlusCode || pdg->PdgCode() == fgEMinusCode) + { + // compare MC and Rec energies for electrons + fHistElectronERecEMC->Fill(part->Energy(),caloE); + if (GetTrackProjection(extParamTPart,trackPos)) + { + fHistElectronRes->Fill(trackPos.Phi()-caloPos.Phi(),trackPos.Eta()-caloPos.Eta()); + } + } - // calculate ET - Double_t et = CalcET(part,pdg); - Double_t etDep = CalcETDep(caloE,part,pdg); + // calculate ET + Double_t et = CalcET(part,pdg); + Double_t etDep = CalcETDep(caloE,part,pdg); - // Check if it is a primary particle - if (IsPrimary(stack,iPart,pdg,iPartMom,pdgMom)) - { - if (TMath::Abs(TMath::Abs(pdg->Charge()) - fCuts->GetMonteCarloSingleChargedParticle())<1e-3 && TMath::Abs(TMath::Abs(pdg->Charge()) - fCuts->GetMonteCarloNeutralParticle())<1e-3) continue; - - if (stack->IsPhysicalPrimary(iPart)) - { - fHistPrimRecEtaEET->Fill(part->Energy(),part->Eta(),et); - fHistPrimRecEtaPtET->Fill(part->Pt(),part->Eta(),et); - fHistPrimRecEtaET->Fill(et,part->Eta()); - fPrimRectotET += et; - - fHistPrimRecEtaEDepETDep->Fill(part->Energy(),part->Eta(),etDep); - fHistPrimRecEtaPtETDep->Fill(part->Pt(),part->Eta(),etDep); - fHistPrimRecEtaETDep->Fill(etDep,part->Eta()); - fPrimRectotETDep += etDep; - } - - if(pdg->PdgCode() == fgGammaCode) - { - if (stack->IsPhysicalPrimary(iPart)) - { - fHistGammaRecEtaEET->Fill(part->Energy(),part->Eta(),et); - fHistGammaRecEtaPtET->Fill(part->Pt(),part->Eta(),et); - fHistGammaRecEtaET->Fill(et,part->Eta()); - fHistGammaRecEtaE->Fill(part->Energy(),part->Eta()); - fHistGammaRecEtaPt->Fill(part->Pt(),part->Eta()); - fGammaRectotET += et; - } - else if (!fGeoUt->IsInEMCAL(part->Vx(),part->Vy(),part->Vz())) - { - if (IsMotherPrimaryElectron(stack,iPartMom,pdgMom)) - { - fHistAnnihGammaRecEtaEET->Fill(part->Energy(),part->Eta(),et); - fHistAnnihGammaRecEtaPtET->Fill(part->Pt(),part->Eta(),et); - fHistAnnihGammaRecEtaET->Fill(et,part->Eta()); - fHistAnnihGammaRecEtaE->Fill(part->Energy(),part->Eta()); - fHistAnnihGammaRecEtaPt->Fill(part->Pt(),part->Eta()); - fAnnihGammaRectotET += et; - } - else if (IsMotherPrimaryGamma(stack,iPartMom,pdgMom)) - { - fHistScatGammaRecEtaEET->Fill(part->Energy(),part->Eta(),et); - fHistScatGammaRecEtaPtET->Fill(part->Pt(),part->Eta(),et); - fHistScatGammaRecEtaET->Fill(et,part->Eta()); - fHistScatGammaRecEtaE->Fill(part->Energy(),part->Eta()); - fHistScatGammaRecEtaPt->Fill(part->Pt(),part->Eta()); - fScatGammaRectotET += et; - } - } + // Check if it is a primary particle + if (IsPrimary(stack,iPart,pdg,iPartMom,pdgMom)) + { + if (TMath::Abs(TMath::Abs(pdg->Charge()) - fCuts->GetMonteCarloSingleChargedParticle())<1e-3 && TMath::Abs(TMath::Abs(pdg->Charge()) - fCuts->GetMonteCarloNeutralParticle())<1e-3) continue; + + if (stack->IsPhysicalPrimary(iPart)) + { + fHistPrimRecEtaEET->Fill(part->Energy(),part->Eta(),et); + fHistPrimRecEtaPtET->Fill(part->Pt(),part->Eta(),et); + fHistPrimRecEtaET->Fill(et,part->Eta()); + fPrimRectotET += et; + + fHistPrimRecEtaEDepETDep->Fill(part->Energy(),part->Eta(),etDep); + fHistPrimRecEtaPtETDep->Fill(part->Pt(),part->Eta(),etDep); + fHistPrimRecEtaETDep->Fill(etDep,part->Eta()); + fPrimRectotETDep += etDep; + } + + if(pdg->PdgCode() == fgGammaCode) + { + if (stack->IsPhysicalPrimary(iPart)) + { + fHistGammaRecEtaEET->Fill(part->Energy(),part->Eta(),et); + fHistGammaRecEtaPtET->Fill(part->Pt(),part->Eta(),et); + fHistGammaRecEtaET->Fill(et,part->Eta()); + fHistGammaRecEtaE->Fill(part->Energy(),part->Eta()); + fHistGammaRecEtaPt->Fill(part->Pt(),part->Eta()); + + resMin=9999; + for (Int_t iTrack = 0; iTrack < nGoodTracks; iTrack++) + { + track = dynamic_cast (list->At(iTrack)); + if (!track) + {//Marcelo -use AliError + Printf("ERROR: Could not get track %d", iTrack); + continue; + } + else + { + emcTrack2 = new AliEMCALTrack(*track); + + if (GetTrackProjection(emcTrack2,trackPos,caloPos)) + { + res = sqrt(pow(trackPos.Phi()-caloPos.Phi(),2)+pow(trackPos.Eta()-caloPos.Eta(),2)); + } + if (resFill(part->Energy(),resMin,et);// Add Caio + fHistGammaRecResPtET->Fill(part->Pt(),resMin,et);// Add Caio + fHistGammaRecResE->Fill(part->Energy(),resMin);// Add Caio + fHistGammaRecResPt->Fill(part->Pt(),resMin);// Add Caio + fHistGammaRecResEDepETDep->Fill(caloE,resMin,etDep);// Add Caio + fHistGammaRecResPtETDep->Fill(part->Pt(),resMin,etDep);// Add Caio + + + fGammaRectotET += et; + } + else if (!fGeoUt->IsInEMCAL(part->Vx(),part->Vy(),part->Vz())) + { + if (IsMotherPrimaryElectron(stack,iPartMom,pdgMom)) + { + fHistAnnihGammaRecEtaEET->Fill(part->Energy(),part->Eta(),et); + fHistAnnihGammaRecEtaPtET->Fill(part->Pt(),part->Eta(),et); + fHistAnnihGammaRecEtaET->Fill(et,part->Eta()); + fHistAnnihGammaRecEtaE->Fill(part->Energy(),part->Eta()); + fHistAnnihGammaRecEtaPt->Fill(part->Pt(),part->Eta()); + fAnnihGammaRectotET += et; + } + else if (IsMotherPrimaryGamma(stack,iPartMom,pdgMom)) + { + fHistScatGammaRecEtaEET->Fill(part->Energy(),part->Eta(),et); + fHistScatGammaRecEtaPtET->Fill(part->Pt(),part->Eta(),et); + fHistScatGammaRecEtaET->Fill(et,part->Eta()); + fHistScatGammaRecEtaE->Fill(part->Energy(),part->Eta()); + fHistScatGammaRecEtaPt->Fill(part->Pt(),part->Eta()); + fScatGammaRectotET += et; + } + } - // few checks - if (pdgMom) - fHistGammaFirstMotherRec->Fill(pdgMom->PdgCode()); - fHistGammaFirstMotherXYRec->Fill(part->Vx(),part->Vy()); - fHistGammaNDaughtersRec->Fill(nPartDaughters); + // few checks + if (pdgMom) + fHistGammaFirstMotherRec->Fill(pdgMom->PdgCode()); + fHistGammaFirstMotherXYRec->Fill(part->Vx(),part->Vy()); + fHistGammaNDaughtersRec->Fill(nPartDaughters); - iPartDaughter = part->GetLastDaughter(); - if ((iPartDaughter>=0) && (iPartDaughter < nStackTracks)) - { - partDaughter = stack->Particle(iPartDaughter); - if (partDaughter) - { - pdgDaugther = partDaughter->GetPDG(0); - if (pdgDaugther) { - fHistGammaDaughtersRec->Fill(pdgDaugther->PdgCode()); - fHistGammaDaughtersXYRec->Fill(partDaughter->Vx(),partDaughter->Vy()); + iPartDaughter = part->GetLastDaughter(); + if ((iPartDaughter>=0) && (iPartDaughter < nStackTracks)) + { + partDaughter = stack->Particle(iPartDaughter); + if (partDaughter) + { + pdgDaugther = partDaughter->GetPDG(0); + if (pdgDaugther) { + fHistGammaDaughtersRec->Fill(pdgDaugther->PdgCode()); + fHistGammaDaughtersXYRec->Fill(partDaughter->Vx(),partDaughter->Vy()); - if (stack->IsPhysicalPrimary(iPart)) - { - if (IsGammaConversion(stack, part, pdg)) - { - fHistConvGammaDaughtersXYRec->Fill(partDaughter->Vx(),partDaughter->Vy()); - } - else - { - fHistNonConvGammaDaughtersXYRec->Fill(partDaughter->Vx(),partDaughter->Vy()); - } - } - } - } - } - } // gamma + if (stack->IsPhysicalPrimary(iPart)) + { + if (IsGammaConversion(stack, part, pdg)) + { + fHistConvGammaDaughtersXYRec->Fill(partDaughter->Vx(),partDaughter->Vy()); + } + else + { + fHistNonConvGammaDaughtersXYRec->Fill(partDaughter->Vx(),partDaughter->Vy()); + } + } + } + } + } + } // gamma - if (pdg->PdgCode() == fgEPlusCode || pdg->PdgCode() == fgEMinusCode) - { - if (stack->IsPhysicalPrimary(iPart)) - { - fHistElectronRecEtaEET->Fill(part->Energy(),part->Eta(),et); - fHistElectronRecEtaPtET->Fill(part->Pt(),part->Eta(),et); - fHistElectronRecEtaET->Fill(et,part->Eta()); - fHistElectronRecEtaE->Fill(part->Energy(),part->Eta()); - fHistElectronRecEtaPt->Fill(part->Pt(),part->Eta()); - fElectronRectotET += et; - } - else if (!fGeoUt->IsInEMCAL(part->Vx(),part->Vy(),part->Vz())) - { - if (IsMotherPrimaryGamma(stack,iPartMom,pdgMom)) - { - fHistConvElectronRecEtaEET->Fill(part->Energy(),part->Eta(),et); - fHistConvElectronRecEtaPtET->Fill(part->Pt(),part->Eta(),et); - fHistConvElectronRecEtaET->Fill(et,part->Eta()); - fHistConvElectronRecEtaE->Fill(part->Energy(),part->Eta()); - fHistConvElectronRecEtaPt->Fill(part->Pt(),part->Eta()); - fConvElectronRectotET += et; - } - else if (IsMotherPrimaryElectron(stack,iPartMom,pdgMom)) - { - fHistScatElectronRecEtaEET->Fill(part->Energy(),part->Eta(),et); - fHistScatElectronRecEtaPtET->Fill(part->Pt(),part->Eta(),et); - fHistScatElectronRecEtaET->Fill(et,part->Eta()); - fHistScatElectronRecEtaE->Fill(part->Energy(),part->Eta()); - fHistScatElectronRecEtaPt->Fill(part->Pt(),part->Eta()); - fScatElectronRectotET += et; - } - } + if (pdg->PdgCode() == fgEPlusCode || pdg->PdgCode() == fgEMinusCode) + { + if (stack->IsPhysicalPrimary(iPart)) + { + fHistElectronRecEtaEET->Fill(part->Energy(),part->Eta(),et); + fHistElectronRecEtaPtET->Fill(part->Pt(),part->Eta(),et); + fHistElectronRecEtaET->Fill(et,part->Eta()); + fHistElectronRecEtaE->Fill(part->Energy(),part->Eta()); + fHistElectronRecEtaPt->Fill(part->Pt(),part->Eta()); + fElectronRectotET += et; + } + else if (!fGeoUt->IsInEMCAL(part->Vx(),part->Vy(),part->Vz())) + { + if (IsMotherPrimaryGamma(stack,iPartMom,pdgMom)) + { + fHistConvElectronRecEtaEET->Fill(part->Energy(),part->Eta(),et); + fHistConvElectronRecEtaPtET->Fill(part->Pt(),part->Eta(),et); + fHistConvElectronRecEtaET->Fill(et,part->Eta()); + fHistConvElectronRecEtaE->Fill(part->Energy(),part->Eta()); + fHistConvElectronRecEtaPt->Fill(part->Pt(),part->Eta()); + fConvElectronRectotET += et; + } + else if (IsMotherPrimaryElectron(stack,iPartMom,pdgMom)) + { + fHistScatElectronRecEtaEET->Fill(part->Energy(),part->Eta(),et); + fHistScatElectronRecEtaPtET->Fill(part->Pt(),part->Eta(),et); + fHistScatElectronRecEtaET->Fill(et,part->Eta()); + fHistScatElectronRecEtaE->Fill(part->Energy(),part->Eta()); + fHistScatElectronRecEtaPt->Fill(part->Pt(),part->Eta()); + fScatElectronRectotET += et; + } + } - // few checks - if (pdgMom) - fHistElectronFirstMotherRec->Fill(pdgMom->PdgCode()); - fHistElectronFirstMotherXYRec->Fill(part->Vx(),part->Vy()); - fHistElectronNDaughtersRec->Fill(nPartDaughters); + // few checks + if (pdgMom) + fHistElectronFirstMotherRec->Fill(pdgMom->PdgCode()); + fHistElectronFirstMotherXYRec->Fill(part->Vx(),part->Vy()); + fHistElectronNDaughtersRec->Fill(nPartDaughters); - iPartDaughter = part->GetLastDaughter(); - if ((iPartDaughter>=0) && (iPartDaughter < nStackTracks)) - { - partDaughter = stack->Particle(iPartDaughter); - if (partDaughter) - { - pdgDaugther = partDaughter->GetPDG(0); - if (pdgDaugther) { - fHistElectronDaughtersRec->Fill(pdgDaugther->PdgCode()); - fHistElectronDaughtersXYRec->Fill(partDaughter->Vx(),partDaughter->Vy()); - } - } - } - } // electrons + iPartDaughter = part->GetLastDaughter(); + if ((iPartDaughter>=0) && (iPartDaughter < nStackTracks)) + { + partDaughter = stack->Particle(iPartDaughter); + if (partDaughter) + { + pdgDaugther = partDaughter->GetPDG(0); + if (pdgDaugther) { + fHistElectronDaughtersRec->Fill(pdgDaugther->PdgCode()); + fHistElectronDaughtersXYRec->Fill(partDaughter->Vx(),partDaughter->Vy()); + } + } + } + } // electrons - if (pdg->PdgCode() == fgMuPlusCode || pdg->PdgCode() == fgMuMinusCode) - { - fHistMuonRecEtaEET->Fill(part->Energy(),part->Eta(),et); - fHistMuonRecEtaPtET->Fill(part->Pt(),part->Eta(),et); - fHistMuonRecEtaET->Fill(et,part->Eta()); - fHistMuonRecEtaE->Fill(part->Energy(),part->Eta()); - fHistMuonRecEtaPt->Fill(part->Pt(),part->Eta()); - fMuonRectotET += et; + if (pdg->PdgCode() == fgMuPlusCode || pdg->PdgCode() == fgMuMinusCode) + { + fHistMuonRecEtaEET->Fill(part->Energy(),part->Eta(),et); + fHistMuonRecEtaPtET->Fill(part->Pt(),part->Eta(),et); + fHistMuonRecEtaET->Fill(et,part->Eta()); + fHistMuonRecEtaE->Fill(part->Energy(),part->Eta()); + fHistMuonRecEtaPt->Fill(part->Pt(),part->Eta()); + fMuonRectotET += et; - fHistMuonRecEtaEDepETDep->Fill(caloE,part->Eta(),etDep); - fHistMuonRecEtaPtETDep->Fill(part->Pt(),part->Eta(),etDep); - fHistMuonRecEtaETDep->Fill(etDep,part->Eta()); - fMuonRectotETDep += etDep; - - if (trackProjected) - { - fHistMuonRecResEET->Fill(part->Energy(),res,et); - fHistMuonRecResPtET->Fill(part->Pt(),res,et); - fHistMuonRecResE->Fill(part->Energy(),res); - fHistMuonRecResPt->Fill(part->Pt(),res); - fHistMuonRecResEDepETDep->Fill(caloE,res,etDep); - fHistMuonRecResPtETDep->Fill(part->Pt(),res,etDep); + fHistMuonRecEtaEDepETDep->Fill(caloE,part->Eta(),etDep); + fHistMuonRecEtaPtETDep->Fill(part->Pt(),part->Eta(),etDep); + fHistMuonRecEtaETDep->Fill(etDep,part->Eta()); + fMuonRectotETDep += etDep; + + if (trackProjected) + { + fHistMuonRecResEET->Fill(part->Energy(),res,et); + fHistMuonRecResPtET->Fill(part->Pt(),res,et); + fHistMuonRecResE->Fill(part->Energy(),res); + fHistMuonRecResPt->Fill(part->Pt(),res); + fHistMuonRecResEDepETDep->Fill(caloE,res,etDep); + fHistMuonRecResPtETDep->Fill(part->Pt(),res,etDep); - if ((res>0.) && (resFill(part->Energy(),part->Eta(),et); - fHistMuonMatchEtaPtET->Fill(part->Pt(),part->Eta(),et); - fHistMuonMatchEtaET->Fill(et,part->Eta()); - fHistMuonMatchEtaE->Fill(part->Energy(),part->Eta()); - fHistMuonMatchEtaPt->Fill(part->Pt(),part->Eta()); - fMuonMatchtotET += et; + if ((res>0.) && (resFill(part->Energy(),part->Eta(),et); + fHistMuonMatchEtaPtET->Fill(part->Pt(),part->Eta(),et); + fHistMuonMatchEtaET->Fill(et,part->Eta()); + fHistMuonMatchEtaE->Fill(part->Energy(),part->Eta()); + fHistMuonMatchEtaPt->Fill(part->Pt(),part->Eta()); + fMuonMatchtotET += et; - fHistMuonMatchEtaEDepETDep->Fill(caloE,part->Eta(),etDep); - fHistMuonMatchEtaPtETDep->Fill(part->Pt(),part->Eta(),etDep); - fHistMuonMatchEtaETDep->Fill(etDep,part->Eta()); - fMuonMatchtotETDep += etDep; - } - } - } + fHistMuonMatchEtaEDepETDep->Fill(caloE,part->Eta(),etDep); + fHistMuonMatchEtaPtETDep->Fill(part->Pt(),part->Eta(),etDep); + fHistMuonMatchEtaETDep->Fill(etDep,part->Eta()); + fMuonMatchtotETDep += etDep; + } + } + } - if (pdg->PdgCode() == fgPiPlusCode || pdg->PdgCode() == fgPiMinusCode) - { - fHistPionRecEtaEET->Fill(part->Energy(),part->Eta(),et); - fHistPionRecEtaPtET->Fill(part->Pt(),part->Eta(),et); - fHistPionRecEtaET->Fill(et,part->Eta()); - fHistPionRecEtaE->Fill(part->Energy(),part->Eta()); - fHistPionRecEtaPt->Fill(part->Pt(),part->Eta()); - fPionRectotET += et; - - fHistPionRecEtaEDepETDep->Fill(caloE,part->Eta(),etDep); - fHistPionRecEtaPtETDep->Fill(part->Pt(),part->Eta(),etDep); - fHistPionRecEtaETDep->Fill(etDep,part->Eta()); - fPionRectotETDep += etDep; - - if (trackProjected) - { - fHistPionRecResEET->Fill(part->Energy(),res,et); - fHistPionRecResPtET->Fill(part->Pt(),res,et); - fHistPionRecResE->Fill(part->Energy(),res); - fHistPionRecResPt->Fill(part->Pt(),res); - fHistPionRecResEDepETDep->Fill(caloE,res,etDep); - fHistPionRecResPtETDep->Fill(part->Pt(),res,etDep); - - if ((res>0.) && (resFill(part->Energy(),part->Eta(),et); - fHistPionMatchEtaPtET->Fill(part->Pt(),part->Eta(),et); - fHistPionMatchEtaET->Fill(et,part->Eta()); - fHistPionMatchEtaE->Fill(part->Energy(),part->Eta()); - fHistPionMatchEtaPt->Fill(part->Pt(),part->Eta()); - fPionMatchtotET += et; + if (pdg->PdgCode() == fgPiPlusCode || pdg->PdgCode() == fgPiMinusCode) + { + fHistPionRecEtaEET->Fill(part->Energy(),part->Eta(),et); + fHistPionRecEtaPtET->Fill(part->Pt(),part->Eta(),et); + fHistPionRecEtaET->Fill(et,part->Eta()); + fHistPionRecEtaE->Fill(part->Energy(),part->Eta()); + fHistPionRecEtaPt->Fill(part->Pt(),part->Eta()); + fPionRectotET += et; + + fHistPionRecEtaEDepETDep->Fill(caloE,part->Eta(),etDep); + fHistPionRecEtaPtETDep->Fill(part->Pt(),part->Eta(),etDep); + fHistPionRecEtaETDep->Fill(etDep,part->Eta()); + fPionRectotETDep += etDep; + + if (trackProjected) + { + fHistPionRecResEET->Fill(part->Energy(),res,et); + fHistPionRecResPtET->Fill(part->Pt(),res,et); + fHistPionRecResE->Fill(part->Energy(),res); + fHistPionRecResPt->Fill(part->Pt(),res); + fHistPionRecResEDepETDep->Fill(caloE,res,etDep); + fHistPionRecResPtETDep->Fill(part->Pt(),res,etDep); + + if ((res>0.) && (resFill(part->Energy(),part->Eta(),et); + fHistPionMatchEtaPtET->Fill(part->Pt(),part->Eta(),et); + fHistPionMatchEtaET->Fill(et,part->Eta()); + fHistPionMatchEtaE->Fill(part->Energy(),part->Eta()); + fHistPionMatchEtaPt->Fill(part->Pt(),part->Eta()); + fPionMatchtotET += et; - fHistPionMatchEtaEDepETDep->Fill(caloE,part->Eta(),etDep); - fHistPionMatchEtaPtETDep->Fill(part->Pt(),part->Eta(),etDep); - fHistPionMatchEtaETDep->Fill(etDep,part->Eta()); - fPionMatchtotETDep += etDep; - } - } - } + fHistPionMatchEtaEDepETDep->Fill(caloE,part->Eta(),etDep); + fHistPionMatchEtaPtETDep->Fill(part->Pt(),part->Eta(),etDep); + fHistPionMatchEtaETDep->Fill(etDep,part->Eta()); + fPionMatchtotETDep += etDep; + } + } + } - if (pdg->PdgCode() == fgKPlusCode || pdg->PdgCode() == fgKMinusCode) - { - fHistKaonRecEtaEET->Fill(part->Energy(),part->Eta(),et); - fHistKaonRecEtaPtET->Fill(part->Pt(),part->Eta(),et); - fHistKaonRecEtaET->Fill(et,part->Eta()); - fHistKaonRecEtaE->Fill(part->Energy(),part->Eta()); - fHistKaonRecEtaPt->Fill(part->Pt(),part->Eta()); - fKaonRectotET += et; - - fHistKaonRecEtaEDepETDep->Fill(caloE,part->Eta(),etDep); - fHistKaonRecEtaPtETDep->Fill(part->Pt(),part->Eta(),etDep); - fHistKaonRecEtaETDep->Fill(etDep,part->Eta()); - fKaonRectotETDep += etDep; - - if (trackProjected) - { - fHistKaonRecResEET->Fill(part->Energy(),res,et); - fHistKaonRecResPtET->Fill(part->Pt(),res,et); - fHistKaonRecResE->Fill(part->Energy(),res); - fHistKaonRecResPt->Fill(part->Pt(),res); - - fHistKaonRecResEDepETDep->Fill(caloE,res,etDep); - fHistKaonRecResPtETDep->Fill(part->Pt(),res,etDep); - - if ((res>0.) && (resFill(part->Energy(),part->Eta(),et); - fHistKaonMatchEtaPtET->Fill(part->Pt(),part->Eta(),et); - fHistKaonMatchEtaET->Fill(et,part->Eta()); - fHistKaonMatchEtaE->Fill(part->Energy(),part->Eta()); - fHistKaonMatchEtaPt->Fill(part->Pt(),part->Eta()); - fKaonMatchtotET += et; + if (pdg->PdgCode() == fgKPlusCode || pdg->PdgCode() == fgKMinusCode) + { + fHistKaonRecEtaEET->Fill(part->Energy(),part->Eta(),et); + fHistKaonRecEtaPtET->Fill(part->Pt(),part->Eta(),et); + fHistKaonRecEtaET->Fill(et,part->Eta()); + fHistKaonRecEtaE->Fill(part->Energy(),part->Eta()); + fHistKaonRecEtaPt->Fill(part->Pt(),part->Eta()); + fKaonRectotET += et; + + fHistKaonRecEtaEDepETDep->Fill(caloE,part->Eta(),etDep); + fHistKaonRecEtaPtETDep->Fill(part->Pt(),part->Eta(),etDep); + fHistKaonRecEtaETDep->Fill(etDep,part->Eta()); + fKaonRectotETDep += etDep; + + if (trackProjected) + { + fHistKaonRecResEET->Fill(part->Energy(),res,et); + fHistKaonRecResPtET->Fill(part->Pt(),res,et); + fHistKaonRecResE->Fill(part->Energy(),res); + fHistKaonRecResPt->Fill(part->Pt(),res); + + fHistKaonRecResEDepETDep->Fill(caloE,res,etDep); + fHistKaonRecResPtETDep->Fill(part->Pt(),res,etDep); + + if ((res>0.) && (resFill(part->Energy(),part->Eta(),et); + fHistKaonMatchEtaPtET->Fill(part->Pt(),part->Eta(),et); + fHistKaonMatchEtaET->Fill(et,part->Eta()); + fHistKaonMatchEtaE->Fill(part->Energy(),part->Eta()); + fHistKaonMatchEtaPt->Fill(part->Pt(),part->Eta()); + fKaonMatchtotET += et; - fHistKaonMatchEtaEDepETDep->Fill(caloE,part->Eta(),etDep); - fHistKaonMatchEtaPtETDep->Fill(part->Pt(),part->Eta(),etDep); - fHistKaonMatchEtaETDep->Fill(etDep,part->Eta()); - fKaonMatchtotETDep += etDep; - } - } - } - - if (pdg->PdgCode() == fgProtonCode || pdg->PdgCode() == fgAntiProtonCode) - { - fHistProtonRecEtaEET->Fill(part->Energy(),part->Eta(),et); - fHistProtonRecEtaPtET->Fill(part->Pt(),part->Eta(),et); - fHistProtonRecEtaET->Fill(et,part->Eta()); - fHistProtonRecEtaE->Fill(part->Energy(),part->Eta()); - fHistProtonRecEtaPt->Fill(part->Pt(),part->Eta()); - fProtonRectotET += et; - - fHistProtonRecEtaEDepETDep->Fill(caloE,part->Eta(),etDep); - fHistProtonRecEtaPtETDep->Fill(part->Pt(),part->Eta(),etDep); - fHistProtonRecEtaETDep->Fill(etDep,part->Eta()); - fProtonRectotETDep += etDep; - - if (trackProjected) - { - fHistProtonRecResEET->Fill(part->Energy(),res,et); - fHistProtonRecResPtET->Fill(part->Pt(),res,et); - fHistProtonRecResE->Fill(part->Energy(),res); - fHistProtonRecResPt->Fill(part->Pt(),res); - - fHistProtonRecResEDepETDep->Fill(caloE,res,etDep); - fHistProtonRecResPtETDep->Fill(part->Pt(),res,etDep); - - if ((res>0.) && (resFill(part->Energy(),part->Eta(),et); - fHistProtonMatchEtaPtET->Fill(part->Pt(),part->Eta(),et); - fHistProtonMatchEtaET->Fill(et,part->Eta()); - fHistProtonMatchEtaE->Fill(part->Energy(),part->Eta()); - fHistProtonMatchEtaPt->Fill(part->Pt(),part->Eta()); - fProtonMatchtotET += et; + fHistKaonMatchEtaEDepETDep->Fill(caloE,part->Eta(),etDep); + fHistKaonMatchEtaPtETDep->Fill(part->Pt(),part->Eta(),etDep); + fHistKaonMatchEtaETDep->Fill(etDep,part->Eta()); + fKaonMatchtotETDep += etDep; + } + } + } + + if (pdg->PdgCode() == fgProtonCode || pdg->PdgCode() == fgAntiProtonCode) + { + fHistProtonRecEtaEET->Fill(part->Energy(),part->Eta(),et); + fHistProtonRecEtaPtET->Fill(part->Pt(),part->Eta(),et); + fHistProtonRecEtaET->Fill(et,part->Eta()); + fHistProtonRecEtaE->Fill(part->Energy(),part->Eta()); + fHistProtonRecEtaPt->Fill(part->Pt(),part->Eta()); + fProtonRectotET += et; + + fHistProtonRecEtaEDepETDep->Fill(caloE,part->Eta(),etDep); + fHistProtonRecEtaPtETDep->Fill(part->Pt(),part->Eta(),etDep); + fHistProtonRecEtaETDep->Fill(etDep,part->Eta()); + fProtonRectotETDep += etDep; + + if (trackProjected) + { + fHistProtonRecResEET->Fill(part->Energy(),res,et); + fHistProtonRecResPtET->Fill(part->Pt(),res,et); + fHistProtonRecResE->Fill(part->Energy(),res); + fHistProtonRecResPt->Fill(part->Pt(),res); + + fHistProtonRecResEDepETDep->Fill(caloE,res,etDep); + fHistProtonRecResPtETDep->Fill(part->Pt(),res,etDep); + + if ((res>0.) && (resFill(part->Energy(),part->Eta(),et); + fHistProtonMatchEtaPtET->Fill(part->Pt(),part->Eta(),et); + fHistProtonMatchEtaET->Fill(et,part->Eta()); + fHistProtonMatchEtaE->Fill(part->Energy(),part->Eta()); + fHistProtonMatchEtaPt->Fill(part->Pt(),part->Eta()); + fProtonMatchtotET += et; - fHistProtonMatchEtaEDepETDep->Fill(caloE,part->Eta(),etDep); - fHistProtonMatchEtaPtETDep->Fill(part->Pt(),part->Eta(),etDep); - fHistProtonMatchEtaETDep->Fill(etDep,part->Eta()); - fProtonMatchtotETDep += etDep; - } - } - } + fHistProtonMatchEtaEDepETDep->Fill(caloE,part->Eta(),etDep); + fHistProtonMatchEtaPtETDep->Fill(part->Pt(),part->Eta(),etDep); + fHistProtonMatchEtaETDep->Fill(etDep,part->Eta()); + fProtonMatchtotETDep += etDep; + } + } + } - if (pdg->PdgCode() == fgNeutronCode || pdg->PdgCode() == fgAntiNeutronCode) - { - fHistNeutronRecEtaEET->Fill(part->Energy(),part->Eta(),et); - fHistNeutronRecEtaPtET->Fill(part->Pt(),part->Eta(),et); - fHistNeutronRecEtaET->Fill(et,part->Eta()); - fHistNeutronRecEtaE->Fill(part->Energy(),part->Eta()); - fHistNeutronRecEtaPt->Fill(part->Pt(),part->Eta()); - fNeutronRectotET += et; - - fHistNeutronRecEtaEDepETDep->Fill(caloE,part->Eta(),etDep); - fHistNeutronRecEtaPtETDep->Fill(part->Pt(),part->Eta(),etDep); - fHistNeutronRecEtaETDep->Fill(etDep,part->Eta()); - fNeutronRectotETDep += etDep; - } + if (pdg->PdgCode() == fgNeutronCode || pdg->PdgCode() == fgAntiNeutronCode) + { + fHistNeutronRecEtaEET->Fill(part->Energy(),part->Eta(),et); + fHistNeutronRecEtaPtET->Fill(part->Pt(),part->Eta(),et); + fHistNeutronRecEtaET->Fill(et,part->Eta()); + fHistNeutronRecEtaE->Fill(part->Energy(),part->Eta()); + fHistNeutronRecEtaPt->Fill(part->Pt(),part->Eta()); + fNeutronRectotET += et; + + fHistNeutronRecEtaEDepETDep->Fill(caloE,part->Eta(),etDep); + fHistNeutronRecEtaPtETDep->Fill(part->Pt(),part->Eta(),etDep); + fHistNeutronRecEtaETDep->Fill(etDep,part->Eta()); + fNeutronRectotETDep += etDep; + } - if (emcTrack) - delete emcTrack; - if (esdTPart) - delete esdTPart; - if (emcTPart) - delete emcTPart; - if (extParamTPart) - delete extParamTPart; - } // end of primary tracks - else // not a primary - { - if (pdgMom) - { - if (pdgMom->PdgCode() == fgK0SCode) - { - fHistK0RecEtaEET->Fill(part->Energy(),part->Eta(),et); - fHistK0RecEtaPtET->Fill(part->Pt(),part->Eta(),et); - fHistK0RecEtaET->Fill(et,part->Eta()); - fHistK0RecEtaE->Fill(part->Energy(),part->Eta()); - fHistK0RecEtaPt->Fill(part->Pt(),part->Eta()); - fK0RectotET += et; + if (emcTrack) + delete emcTrack; + if (esdTPart) + delete esdTPart; + if (emcTPart) + delete emcTPart; + if (extParamTPart) + delete extParamTPart; + } // end of primary tracks + else // not a primary + { + if (pdgMom) + { + if (pdgMom->PdgCode() == fgK0SCode) + { + fHistK0RecEtaEET->Fill(part->Energy(),part->Eta(),et); + fHistK0RecEtaPtET->Fill(part->Pt(),part->Eta(),et); + fHistK0RecEtaET->Fill(et,part->Eta()); + fHistK0RecEtaE->Fill(part->Energy(),part->Eta()); + fHistK0RecEtaPt->Fill(part->Pt(),part->Eta()); + fK0RectotET += et; - fHistK0RecEtaEDepETDep->Fill(caloE,part->Eta(),etDep); - fHistK0RecEtaPtETDep->Fill(part->Pt(),part->Eta(),etDep); - fHistK0RecEtaETDep->Fill(etDep,part->Eta()); - fK0RectotETDep += etDep; - } + fHistK0RecEtaEDepETDep->Fill(caloE,part->Eta(),etDep); + fHistK0RecEtaPtETDep->Fill(part->Pt(),part->Eta(),etDep); + fHistK0RecEtaETDep->Fill(etDep,part->Eta()); + fK0RectotETDep += etDep; + } - if (pdgMom->PdgCode() == fgLambdaCode || pdgMom->PdgCode() == fgAntiLambdaCode) - { - fHistLambdaRecEtaEET->Fill(part->Energy(),part->Eta(),et); - fHistLambdaRecEtaPtET->Fill(part->Pt(),part->Eta(),et); - fHistLambdaRecEtaET->Fill(et,part->Eta()); - fHistLambdaRecEtaE->Fill(part->Energy(),part->Eta()); - fHistLambdaRecEtaPt->Fill(part->Pt(),part->Eta()); - fLambdaRectotET += et; - - fHistLambdaRecEtaEDepETDep->Fill(caloE,part->Eta(),etDep); - fHistLambdaRecEtaPtETDep->Fill(part->Pt(),part->Eta(),etDep); - fHistLambdaRecEtaETDep->Fill(etDep,part->Eta()); - fLambdaRectotETDep += etDep; - } - } + if (pdgMom->PdgCode() == fgLambdaCode || pdgMom->PdgCode() == fgAntiLambdaCode) + { + fHistLambdaRecEtaEET->Fill(part->Energy(),part->Eta(),et); + fHistLambdaRecEtaPtET->Fill(part->Pt(),part->Eta(),et); + fHistLambdaRecEtaET->Fill(et,part->Eta()); + fHistLambdaRecEtaE->Fill(part->Energy(),part->Eta()); + fHistLambdaRecEtaPt->Fill(part->Pt(),part->Eta()); + fLambdaRectotET += et; + + fHistLambdaRecEtaEDepETDep->Fill(caloE,part->Eta(),etDep); + fHistLambdaRecEtaPtETDep->Fill(part->Pt(),part->Eta(),etDep); + fHistLambdaRecEtaETDep->Fill(etDep,part->Eta()); + fLambdaRectotETDep += etDep; + } + } - if (!fGeoUt->IsInEMCAL(part->Vx(),part->Vy(),part->Vz())) // exclude secondaries from interactions inside the EMCal - { - if (pdg->PdgCode() == fgEPlusCode || pdg->PdgCode() == fgEMinusCode) - { - fHistNPPElectronRecEtaEET->Fill(part->Energy(),part->Eta(),et); - fHistNPPElectronRecEtaPtET->Fill(part->Pt(),part->Eta(),et); - fHistNPPElectronRecEtaET->Fill(et,part->Eta()); - fHistNPPElectronRecEtaE->Fill(part->Energy(),part->Eta()); - fHistNPPElectronRecEtaPt->Fill(part->Pt(),part->Eta()); - fNPPElectronRectotET += et; + if (!fGeoUt->IsInEMCAL(part->Vx(),part->Vy(),part->Vz())) // exclude secondaries from interactions inside the EMCal + { + if (pdg->PdgCode() == fgEPlusCode || pdg->PdgCode() == fgEMinusCode) + { + fHistNPPElectronRecEtaEET->Fill(part->Energy(),part->Eta(),et); + fHistNPPElectronRecEtaPtET->Fill(part->Pt(),part->Eta(),et); + fHistNPPElectronRecEtaET->Fill(et,part->Eta()); + fHistNPPElectronRecEtaE->Fill(part->Energy(),part->Eta()); + fHistNPPElectronRecEtaPt->Fill(part->Pt(),part->Eta()); + fNPPElectronRectotET += et; - // few checks - fHistNPPElectronFirstMotherRec->Fill(pdgMom->PdgCode()); - fHistNPPElectronFirstMotherXYRec->Fill(part->Vx(),part->Vy()); - fHistNPPElectronNDaughtersRec->Fill(nPartDaughters); + // few checks + fHistNPPElectronFirstMotherRec->Fill(pdgMom->PdgCode()); + fHistNPPElectronFirstMotherXYRec->Fill(part->Vx(),part->Vy()); + fHistNPPElectronNDaughtersRec->Fill(nPartDaughters); - iPartDaughter = part->GetLastDaughter(); - if ((iPartDaughter>=0) && (iPartDaughter < nStackTracks)) - { - partDaughter = stack->Particle(iPartDaughter); - if (partDaughter) - { - pdgDaugther = partDaughter->GetPDG(0); - if (pdgDaugther) { - fHistNPPElectronDaughtersRec->Fill(pdgDaugther->PdgCode()); - fHistNPPElectronDaughtersXYRec->Fill(partDaughter->Vx(),partDaughter->Vy()); - } - } - } - } // end of if electron + iPartDaughter = part->GetLastDaughter(); + if ((iPartDaughter>=0) && (iPartDaughter < nStackTracks)) + { + partDaughter = stack->Particle(iPartDaughter); + if (partDaughter) + { + pdgDaugther = partDaughter->GetPDG(0); + if (pdgDaugther) { + fHistNPPElectronDaughtersRec->Fill(pdgDaugther->PdgCode()); + fHistNPPElectronDaughtersXYRec->Fill(partDaughter->Vx(),partDaughter->Vy()); + } + } + } + } // end of if electron - if(pdg->PdgCode() == fgGammaCode) - { - fHistNPPGammaRecEtaEET->Fill(part->Energy(),part->Eta(),et); - fHistNPPGammaRecEtaPtET->Fill(part->Pt(),part->Eta(),et); - fHistNPPGammaRecEtaET->Fill(et,part->Eta()); - fHistNPPGammaRecEtaE->Fill(part->Energy(),part->Eta()); - fHistNPPGammaRecEtaPt->Fill(part->Pt(),part->Eta()); - fNPPGammaRectotET += et; + if(pdg->PdgCode() == fgGammaCode) + { + fHistNPPGammaRecEtaEET->Fill(part->Energy(),part->Eta(),et); + fHistNPPGammaRecEtaPtET->Fill(part->Pt(),part->Eta(),et); + fHistNPPGammaRecEtaET->Fill(et,part->Eta()); + fHistNPPGammaRecEtaE->Fill(part->Energy(),part->Eta()); + fHistNPPGammaRecEtaPt->Fill(part->Pt(),part->Eta()); + fNPPGammaRectotET += et; - if (pdgMom) - { - if (pdgMom->PdgCode() == fgPi0Code) - { - fHistNPPPi0GammaRecEtaEET->Fill(part->Energy(),part->Eta(),et); - fHistNPPPi0GammaRecEtaPtET->Fill(part->Pt(),part->Eta(),et); - fHistNPPPi0GammaRecEtaET->Fill(et,part->Eta()); - fHistNPPPi0GammaRecEtaE->Fill(part->Energy(),part->Eta()); - fHistNPPPi0GammaRecEtaPt->Fill(part->Pt(),part->Eta()); - fNPPPi0GammaRectotET += et; - } - } + if (pdgMom) + { + if (pdgMom->PdgCode() == fgPi0Code) + { + fHistNPPPi0GammaRecEtaEET->Fill(part->Energy(),part->Eta(),et); + fHistNPPPi0GammaRecEtaPtET->Fill(part->Pt(),part->Eta(),et); + fHistNPPPi0GammaRecEtaET->Fill(et,part->Eta()); + fHistNPPPi0GammaRecEtaE->Fill(part->Energy(),part->Eta()); + fHistNPPPi0GammaRecEtaPt->Fill(part->Pt(),part->Eta()); + fNPPPi0GammaRectotET += et; + } + } - // few checks - if (pdgMom) - fHistNPPGammaFirstMotherRec->Fill(pdgMom->PdgCode()); - fHistNPPGammaFirstMotherXYRec->Fill(part->Vx(),part->Vy()); - fHistNPPGammaNDaughtersRec->Fill(nPartDaughters); + // few checks + if (pdgMom) + fHistNPPGammaFirstMotherRec->Fill(pdgMom->PdgCode()); + fHistNPPGammaFirstMotherXYRec->Fill(part->Vx(),part->Vy()); + fHistNPPGammaNDaughtersRec->Fill(nPartDaughters); - iPartDaughter = part->GetLastDaughter(); - if ((iPartDaughter>=0) && (iPartDaughter < nStackTracks)) - { - partDaughter = stack->Particle(iPartDaughter); - if (partDaughter) - { - pdgDaugther = partDaughter->GetPDG(0); - if (pdgDaugther) { - fHistNPPGammaDaughtersRec->Fill(pdgDaugther->PdgCode()); - fHistNPPGammaDaughtersXYRec->Fill(partDaughter->Vx(),partDaughter->Vy()); - } - } - } - } // end of gamma - } - } // end of NOT a primary + iPartDaughter = part->GetLastDaughter(); + if ((iPartDaughter>=0) && (iPartDaughter < nStackTracks)) + { + partDaughter = stack->Particle(iPartDaughter); + if (partDaughter) + { + pdgDaugther = partDaughter->GetPDG(0); + if (pdgDaugther) { + fHistNPPGammaDaughtersRec->Fill(pdgDaugther->PdgCode()); + fHistNPPGammaDaughtersXYRec->Fill(partDaughter->Vx(),partDaughter->Vy()); + } + } + } + } // end of gamma + } + } // end of NOT a primary } // end of loop over clusters - - fTotElectronRectotET = fElectronRectotET + fConvElectronRectotET + fScatElectronRectotET; - fTotGammaRectotET = fGammaRectotET + fAnnihGammaRectotET + fScatElectronRectotET; - fTotEMRectotET = fTotElectronRectotET + fTotGammaRectotET; - fTotNPPEMRectotET = fNPPElectronRectotET + fNPPGammaRectotET; - fTotChargedRectotET = fMuonRectotET + fPionRectotET + fKaonRectotET + fProtonRectotET; - fTotChargedRectotETDep = fMuonRectotETDep + fPionRectotETDep + fKaonRectotETDep + fProtonRectotETDep; - fTotChargedMatchtotET = fMuonMatchtotET + fPionMatchtotET + fKaonMatchtotET + fProtonMatchtotET; - fTotChargedMatchtotETDep = fMuonMatchtotETDep + fPionMatchtotETDep + fKaonMatchtotETDep + fProtonMatchtotETDep; - fTotNeutralRectotET = fNeutronRectotET + fK0RectotET + fLambdaRectotET; - fTotNeutralRectotETDep = fNeutronRectotETDep + fK0RectotETDep + fLambdaRectotETDep; - fTotalRectotET = fTotEMRectotET + fTotNPPEMRectotET + fTotChargedRectotET + fTotNeutralRectotET; - fTotalRectotETDep = fTotEMRectotET + fTotNPPEMRectotET + fTotChargedRectotETDep + fTotNeutralRectotETDep; - - fHistPrimRectotET->Fill(fPrimRectotET); - fHistPrimRectotETDep->Fill(fPrimRectotETDep); - - fHistElectronRectotET->Fill(fElectronRectotET); - fHistConvElectronRectotET->Fill(fConvElectronRectotET); - fHistScatElectronRectotET->Fill(fScatElectronRectotET); - fHistTotElectronRectotET->Fill(fTotElectronRectotET); - - fHistGammaRectotET->Fill(fGammaRectotET); - fHistAnnihGammaRectotET->Fill(fAnnihGammaRectotET); - fHistScatGammaRectotET->Fill(fScatGammaRectotET); - fHistTotGammaRectotET->Fill(fTotGammaRectotET); - - fHistTotEMRectotET->Fill(fTotEMRectotET); - - fHistNPPElectronRectotET->Fill(fNPPElectronRectotET); - fHistNPPGammaRectotET->Fill(fNPPGammaRectotET); - fHistTotNPPEMRectotET->Fill(fTotNPPEMRectotET); - - fHistNPPPi0GammaRectotET->Fill(fNPPPi0GammaRectotET); - - fHistMuonRectotET->Fill(fMuonRectotET); - fHistMuonRectotETDep->Fill(fMuonRectotETDep); - fHistMuonMatchtotET->Fill(fMuonMatchtotET); - fHistMuonMatchtotETDep->Fill(fMuonMatchtotETDep); - fHistPionRectotET->Fill(fPionRectotET); - fHistPionRectotETDep->Fill(fPionRectotETDep); - fHistPionMatchtotET->Fill(fPionMatchtotET); - fHistPionMatchtotETDep->Fill(fPionMatchtotETDep); - fHistKaonRectotET->Fill(fKaonRectotET); - fHistKaonRectotETDep->Fill(fKaonRectotETDep); - fHistKaonMatchtotET->Fill(fKaonMatchtotET); - fHistKaonMatchtotETDep->Fill(fKaonMatchtotETDep); - fHistProtonRectotET->Fill(fProtonRectotET); - fHistProtonRectotETDep->Fill(fProtonRectotETDep); - fHistProtonMatchtotET->Fill(fProtonMatchtotET); - fHistProtonMatchtotETDep->Fill(fProtonMatchtotETDep); - fHistTotChargedRectotET->Fill(fTotChargedRectotET); - fHistTotChargedRectotETDep->Fill(fTotChargedRectotETDep); - fHistTotChargedMatchtotET->Fill(fTotChargedMatchtotET); - fHistTotChargedMatchtotETDep->Fill(fTotChargedMatchtotETDep); - - fHistNeutronRectotET->Fill(fNeutronRectotET); - fHistNeutronRectotETDep->Fill(fNeutronRectotETDep); - fHistK0RectotET->Fill(fK0RectotET); - fHistK0RectotETDep->Fill(fK0RectotETDep); - fHistLambdaRectotET->Fill(fLambdaRectotET); - fHistLambdaRectotETDep->Fill(fLambdaRectotETDep); - fHistTotNeutralRectotET->Fill(fTotNeutralRectotET); - fHistTotNeutralRectotETDep->Fill(fTotNeutralRectotETDep); - - fHistTotalRectotET->Fill(fTotalRectotET); - fHistTotalRectotETDep->Fill(fTotalRectotETDep); - - //delete fGeoUt; - delete caloClusters;//Marcelo - Christine - make as object & don't create new one each event - - return 0; + + fTotElectronRectotET = fElectronRectotET + fConvElectronRectotET + fScatElectronRectotET; + fTotGammaRectotET = fGammaRectotET + fAnnihGammaRectotET + fScatElectronRectotET; + fTotEMRectotET = fTotElectronRectotET + fTotGammaRectotET; + fTotNPPEMRectotET = fNPPElectronRectotET + fNPPGammaRectotET; + fTotChargedRectotET = fMuonRectotET + fPionRectotET + fKaonRectotET + fProtonRectotET; + fTotChargedRectotETDep = fMuonRectotETDep + fPionRectotETDep + fKaonRectotETDep + fProtonRectotETDep; + fTotChargedMatchtotET = fMuonMatchtotET + fPionMatchtotET + fKaonMatchtotET + fProtonMatchtotET; + fTotChargedMatchtotETDep = fMuonMatchtotETDep + fPionMatchtotETDep + fKaonMatchtotETDep + fProtonMatchtotETDep; + fTotNeutralRectotET = fNeutronRectotET + fK0RectotET + fLambdaRectotET; + fTotNeutralRectotETDep = fNeutronRectotETDep + fK0RectotETDep + fLambdaRectotETDep; + fTotalRectotET = fTotEMRectotET + fTotNPPEMRectotET + fTotChargedRectotET + fTotNeutralRectotET; + fTotalRectotETDep = fTotEMRectotET + fTotNPPEMRectotET + fTotChargedRectotETDep + fTotNeutralRectotETDep; + + fHistPrimRectotET->Fill(fPrimRectotET); + fHistPrimRectotETDep->Fill(fPrimRectotETDep); + + fHistElectronRectotET->Fill(fElectronRectotET); + fHistConvElectronRectotET->Fill(fConvElectronRectotET); + fHistScatElectronRectotET->Fill(fScatElectronRectotET); + fHistTotElectronRectotET->Fill(fTotElectronRectotET); + + fHistGammaRectotET->Fill(fGammaRectotET); + fHistAnnihGammaRectotET->Fill(fAnnihGammaRectotET); + fHistScatGammaRectotET->Fill(fScatGammaRectotET); + fHistTotGammaRectotET->Fill(fTotGammaRectotET); + + fHistTotEMRectotET->Fill(fTotEMRectotET); + + fHistNPPElectronRectotET->Fill(fNPPElectronRectotET); + fHistNPPGammaRectotET->Fill(fNPPGammaRectotET); + fHistTotNPPEMRectotET->Fill(fTotNPPEMRectotET); + + fHistNPPPi0GammaRectotET->Fill(fNPPPi0GammaRectotET); + + fHistMuonRectotET->Fill(fMuonRectotET); + fHistMuonRectotETDep->Fill(fMuonRectotETDep); + fHistMuonMatchtotET->Fill(fMuonMatchtotET); + fHistMuonMatchtotETDep->Fill(fMuonMatchtotETDep); + fHistPionRectotET->Fill(fPionRectotET); + fHistPionRectotETDep->Fill(fPionRectotETDep); + fHistPionMatchtotET->Fill(fPionMatchtotET); + fHistPionMatchtotETDep->Fill(fPionMatchtotETDep); + fHistKaonRectotET->Fill(fKaonRectotET); + fHistKaonRectotETDep->Fill(fKaonRectotETDep); + fHistKaonMatchtotET->Fill(fKaonMatchtotET); + fHistKaonMatchtotETDep->Fill(fKaonMatchtotETDep); + fHistProtonRectotET->Fill(fProtonRectotET); + fHistProtonRectotETDep->Fill(fProtonRectotETDep); + fHistProtonMatchtotET->Fill(fProtonMatchtotET); + fHistProtonMatchtotETDep->Fill(fProtonMatchtotETDep); + fHistTotChargedRectotET->Fill(fTotChargedRectotET); + fHistTotChargedRectotETDep->Fill(fTotChargedRectotETDep); + fHistTotChargedMatchtotET->Fill(fTotChargedMatchtotET); + fHistTotChargedMatchtotETDep->Fill(fTotChargedMatchtotETDep); + + fHistNeutronRectotET->Fill(fNeutronRectotET); + fHistNeutronRectotETDep->Fill(fNeutronRectotETDep); + fHistK0RectotET->Fill(fK0RectotET); + fHistK0RectotETDep->Fill(fK0RectotETDep); + fHistLambdaRectotET->Fill(fLambdaRectotET); + fHistLambdaRectotETDep->Fill(fLambdaRectotETDep); + fHistTotNeutralRectotET->Fill(fTotNeutralRectotET); + fHistTotNeutralRectotETDep->Fill(fTotNeutralRectotETDep); + + fHistTotalRectotET->Fill(fTotalRectotET); + fHistTotalRectotETDep->Fill(fTotalRectotETDep); + + //delete fGeoUt; + delete caloClusters;//Marcelo - Christine - make as object & don't create new one each event + + return 0; } void AliAnalysisEmEtMonteCarlo::Init() { // init - AliAnalysisEt::Init(); + AliAnalysisEt::Init(); - fDetectorRadius = fCuts->GetGeometryEmcalDetectorRadius(); - fEtaCutAcc = fCuts->GetGeometryEmcalEtaAccCut(); - fPhiCutAccMax = fCuts->GetGeometryEmcalPhiAccMaxCut() * TMath::Pi()/180.; - fPhiCutAccMin = fCuts->GetGeometryEmcalPhiAccMinCut() * TMath::Pi()/180.; - fClusterEnergyCut = fCuts->GetReconstructedEmcalClusterEnergyCut(); - fSingleCellEnergyCut = fCuts->GetReconstructedEmcalSingleCellEnergyCut(); - - fDetector = fCuts->GetDetectorEmcal(); + fDetectorRadius = fCuts->GetGeometryEmcalDetectorRadius(); + fSingleCellEnergyCut = fCuts->GetReconstructedEmcalSingleCellEnergyCut(); } void AliAnalysisEmEtMonteCarlo::ResetEventValues() { // reset event values - AliAnalysisEt::ResetEventValues(); - - fPrimtotET = 0; fPrimAcctotET = 0; fPrimRectotET = 0; fPrimRectotETDep = 0; - - fElectrontotET = 0; fElectronAcctotET = 0; fElectronRectotET = 0; - fConvElectrontotET = 0; fConvElectronAcctotET = 0; fConvElectronRectotET = 0; fScatElectrontotET = 0; fScatElectronAcctotET = 0; fScatElectronRectotET = 0; - fTotElectrontotET = 0, fTotElectronAcctotET = 0, fTotElectronRectotET = 0; - - fGammatotET = 0; fGammaAcctotET = 0; fGammaRectotET = 0; - fAnnihGammatotET = 0; fAnnihGammaAcctotET = 0; fAnnihGammaRectotET = 0; fScatGammatotET = 0; fScatGammaAcctotET = 0; fScatGammaRectotET = 0; - fTotGammatotET = 0, fTotGammaAcctotET = 0, fTotGammaRectotET = 0; - - fTotEMtotET = 0, fTotEMAcctotET = 0, fTotEMRectotET = 0; - - fConvGammatotET = 0; fNonConvGammatotET = 0; fConvGammaAcctotET = 0; fNonConvGammaAcctotET = 0; fNPPPi0GammatotET = 0; fNPPPi0GammaRectotET = 0; - - fNPPElectrontotET = 0; fNPPElectronRectotET = 0; fNPPGammatotET = 0; fNPPGammaRectotET = 0; - fTotNPPEMtotET = 0, fTotNPPEMRectotET = 0; - - fMuontotET = 0; fPiontotET = 0; fKaontotET = 0; fProtontotET = 0; - fMuonAcctotET = 0; fPionAcctotET = 0; fKaonAcctotET = 0; fProtonAcctotET = 0; - fMuonRectotET = 0; fMuonRectotETDep = 0; fPionRectotET = 0; fPionRectotETDep = 0; fKaonRectotET = 0; fKaonRectotETDep = 0; fProtonRectotET = 0; fProtonRectotETDep = 0; - fMuonMatchtotET = 0; fMuonMatchtotETDep = 0; fPionMatchtotET = 0; fPionMatchtotETDep = 0; fKaonMatchtotET = 0; fKaonMatchtotETDep = 0; fProtonMatchtotET = 0; fProtonMatchtotETDep = 0; - fTotChargedtotET = 0, fTotChargedAcctotET = 0, fTotChargedRectotET = 0, fTotChargedRectotETDep = 0, fTotChargedMatchtotET = 0, fTotChargedMatchtotETDep = 0; - - fNeutrontotET = 0; fNeutronAcctotET = 0; fNeutronRectotET = 0; fNeutronRectotETDep = 0; - fK0totET = 0; fK0RectotET = 0; fK0RectotETDep = 0; fLambdatotET = 0; fLambdaRectotET = 0; fLambdaRectotETDep = 0; - fTotNeutraltotET = 0, fTotNeutralRectotET = 0, fTotNeutralRectotETDep = 0; - - fTotaltotET = 0, fTotalAcctotET = 0, fTotalRectotET = 0, fTotalRectotETDep = 0; + AliAnalysisEt::ResetEventValues(); + + fPrimtotET = 0; fPrimAcctotET = 0; fPrimRectotET = 0; fPrimRectotETDep = 0; + + fElectrontotET = 0; fElectronAcctotET = 0; fElectronRectotET = 0; + fConvElectrontotET = 0; fConvElectronAcctotET = 0; fConvElectronRectotET = 0; fScatElectrontotET = 0; fScatElectronAcctotET = 0; fScatElectronRectotET = 0; + fTotElectrontotET = 0, fTotElectronAcctotET = 0, fTotElectronRectotET = 0; + + fGammatotET = 0; fGammaAcctotET = 0; fGammaRectotET = 0; + fAnnihGammatotET = 0; fAnnihGammaAcctotET = 0; fAnnihGammaRectotET = 0; fScatGammatotET = 0; fScatGammaAcctotET = 0; fScatGammaRectotET = 0; + fTotGammatotET = 0, fTotGammaAcctotET = 0, fTotGammaRectotET = 0; + + fTotEMtotET = 0, fTotEMAcctotET = 0, fTotEMRectotET = 0; + + fConvGammatotET = 0; fNonConvGammatotET = 0; fConvGammaAcctotET = 0; fNonConvGammaAcctotET = 0; fNPPPi0GammatotET = 0; fNPPPi0GammaRectotET = 0; + + fNPPElectrontotET = 0; fNPPElectronRectotET = 0; fNPPGammatotET = 0; fNPPGammaRectotET = 0; + fTotNPPEMtotET = 0, fTotNPPEMRectotET = 0; + + fMuontotET = 0; fPiontotET = 0; fKaontotET = 0; fProtontotET = 0; + fMuonAcctotET = 0; fPionAcctotET = 0; fKaonAcctotET = 0; fProtonAcctotET = 0; + fMuonRectotET = 0; fMuonRectotETDep = 0; fPionRectotET = 0; fPionRectotETDep = 0; fKaonRectotET = 0; fKaonRectotETDep = 0; fProtonRectotET = 0; fProtonRectotETDep = 0; + fMuonMatchtotET = 0; fMuonMatchtotETDep = 0; fPionMatchtotET = 0; fPionMatchtotETDep = 0; fKaonMatchtotET = 0; fKaonMatchtotETDep = 0; fProtonMatchtotET = 0; fProtonMatchtotETDep = 0; + fTotChargedtotET = 0, fTotChargedAcctotET = 0, fTotChargedRectotET = 0, fTotChargedRectotETDep = 0, fTotChargedMatchtotET = 0, fTotChargedMatchtotETDep = 0; + + fNeutrontotET = 0; fNeutronAcctotET = 0; fNeutronRectotET = 0; fNeutronRectotETDep = 0; + fK0totET = 0; fK0RectotET = 0; fK0RectotETDep = 0; fLambdatotET = 0; fLambdaRectotET = 0; fLambdaRectotETDep = 0; + fTotNeutraltotET = 0, fTotNeutralRectotET = 0, fTotNeutralRectotETDep = 0; + + fTotaltotET = 0, fTotalAcctotET = 0, fTotalRectotET = 0, fTotalRectotETDep = 0; } void AliAnalysisEmEtMonteCarlo::CreateHistograms() -{ // histogram related additions - //AliAnalysisEt::CreateHistograms(); - - fHistPrimEtaEET = CreateEtaEHisto2D("fHistPrimEtaEET_","MC E_{T}, primary particles","E_{T}(GeV)"); - fHistPrimEtaPtET = CreateEtaPtHisto2D("fHistPrimEtaPtET_","MC E_{T}, primary particles","E_{T}(GeV)"); - fHistPrimEtaET = CreateEtaEtHisto2D("fHistPrimEtaET_","MC primary particles","#"); - TString histname = "fHistPrimtotET_" + fHistogramNameSuffix; - fHistPrimtotET = new TH1F(histname.Data(),"total ET, primary particles",fgNumOfEBins, fgEAxis); - - fHistPrimAccEtaEET = CreateEtaEHisto2D("fHistPrimAccEtaEET_","MC E_{T}, primary particles","E_{T}(GeV)"); - fHistPrimAccEtaPtET = CreateEtaPtHisto2D("fHistPrimAccEtaPtET_","MC E_{T}, primary particles","E_{T}(GeV)"); - fHistPrimAccEtaET = CreateEtaEtHisto2D("fHistPrimAccEtaET_","MC primary particles","#"); - histname = "fHistPrimAcctotET_" + fHistogramNameSuffix; - fHistPrimAcctotET = new TH1F(histname.Data(),"total ET, primary particles",fgNumOfEBins, fgEAxis); - - fHistPrimRecEtaEET = CreateEtaEHisto2D("fHistPrimRecEtaEET_","MC E_{T}, primary particles","E_{T}(GeV)"); - fHistPrimRecEtaPtET = CreateEtaPtHisto2D("fHistPrimRecEtaPtET_","MC E_{T}, primary particles","E_{T}(GeV)"); - fHistPrimRecEtaET = CreateEtaEtHisto2D("fHistPrimRecEtaET_","MC primary particles","#"); - histname = "fHistPrimRectotET_" + fHistogramNameSuffix; - fHistPrimRectotET = new TH1F(histname.Data(),"total ET, primary particles",fgNumOfEBins, fgEAxis); - - fHistPrimRecEtaEDepETDep = CreateEtaEHisto2D("fHistPrimRecEtaEDepETDep_","MC E_{T}, primary particles","E_{T}(GeV)"); - fHistPrimRecEtaPtETDep = CreateEtaPtHisto2D("fHistPrimRecEtaPtETDep_","MC E_{T}, primary particles","E_{T}(GeV)"); - fHistPrimRecEtaETDep = CreateEtaEtHisto2D("fHistPrimRecEtaETDep_","MC primary particles","#"); - histname = "fHistPrimRectotETDep_" + fHistogramNameSuffix; - fHistPrimRectotETDep = new TH1F(histname.Data(),"total ET, primary particles",fgNumOfEBins, fgEAxis); - - fHistElectronEtaEET = CreateEtaEHisto2D("fHistElectronEtaEET_","MC E_{T}, primary electrons","E_{T}(GeV)"); - fHistElectronEtaPtET = CreateEtaPtHisto2D("fHistElectronEtaPtET_","MC E_{T}, primary electrons","E_{T}(GeV)"); - fHistElectronEtaET = CreateEtaEtHisto2D("fHistElectronEtaET_","MC primary electrons","#"); - fHistElectronEtaE = CreateEtaEHisto2D("fHistElectronEtaE_","MC primary electrons","#"); - fHistElectronEtaPt = CreateEtaPtHisto2D("fHistElectronEtaPt_","MC primary electrons","#"); - histname = "fHistElectrontotET_" + fHistogramNameSuffix; - fHistElectrontotET = new TH1F(histname.Data(),"total ET, MC primary electrons",fgNumOfEBins, fgEAxis); - - fHistConvElectronEtaEET = CreateEtaEHisto2D("fHistConvElectronEtaEET_","MC E_{T}, electrons from conversion","E_{T}(GeV)"); - fHistConvElectronEtaPtET = CreateEtaPtHisto2D("fHistConvElectronEtaPtET_","MC E_{T}, electrons from conversion","E_{T}(GeV)"); - fHistConvElectronEtaET = CreateEtaEtHisto2D("fHistConvElectronEtaET_","MC electrons from conversion","#"); - fHistConvElectronEtaE = CreateEtaEHisto2D("fHistConvElectronEtaE_","MC electrons from conversion","#"); - fHistConvElectronEtaPt = CreateEtaPtHisto2D("fHistConvElectronEtaPt_","MC electrons from conversion","#"); - histname = "fHistConvElectrontotET_" + fHistogramNameSuffix; - fHistConvElectrontotET = new TH1F(histname.Data(),"total ET, MC electrons from conversion",fgNumOfEBins, fgEAxis); - - fHistScatElectronEtaEET = CreateEtaEHisto2D("fHistScatElectronEtaEET_","MC E_{T}, electrons from Scattering","E_{T}(GeV)"); - fHistScatElectronEtaPtET = CreateEtaPtHisto2D("fHistScatElectronEtaPtET_","MC E_{T}, electrons from Scattering","E_{T}(GeV)"); - fHistScatElectronEtaET = CreateEtaEtHisto2D("fHistScatElectronEtaET_","MC electrons from Scattering","#"); - fHistScatElectronEtaE = CreateEtaEHisto2D("fHistScatElectronEtaE_","MC electrons from Scattering","#"); - fHistScatElectronEtaPt = CreateEtaPtHisto2D("fHistScatElectronEtaPt_","MC electrons from Scattering","#"); - histname = "fHistScatElectrontotET_" + fHistogramNameSuffix; - fHistScatElectrontotET = new TH1F(histname.Data(),"total ET, MC electrons from Scattering",fgNumOfEBins, fgEAxis); - - histname = "fHistTotElectrontotET_" + fHistogramNameSuffix; - fHistTotElectrontotET = new TH1F(histname.Data(),"total ET, MC primary electrons",fgNumOfEBins, fgEAxis); - - fHistGammaEtaEET = CreateEtaEHisto2D("fHistGammaEtaEET_","MC E_{T}, primary gammas","E_{T}(GeV)"); - fHistGammaEtaPtET = CreateEtaPtHisto2D("fHistGammaEtaPtET_","MC E_{T}, primary gammas","E_{T}(GeV)"); - fHistGammaEtaET = CreateEtaEtHisto2D("fHistGammaEtaET_","MC primary gammas","#"); - fHistGammaEtaE = CreateEtaEHisto2D("fHistGammaEtaE_","MC primary gammas","#"); - fHistGammaEtaPt = CreateEtaPtHisto2D("fHistGammaEtaPt_","MC primary gammas","#"); - histname = "fHistGammatotET_" + fHistogramNameSuffix; - fHistGammatotET = new TH1F(histname.Data(),"total ET, MC primary gammas",fgNumOfEBins, fgEAxis); - - fHistAnnihGammaEtaEET = CreateEtaEHisto2D("fHistAnnihGammaEtaEET_","MC E_{T}, Annihilation gammas","E_{T}(GeV)"); - fHistAnnihGammaEtaPtET = CreateEtaPtHisto2D("fHistAnnihGammaEtaPtET_","MC E_{T}, Annihilation gammas","E_{T}(GeV)"); - fHistAnnihGammaEtaET = CreateEtaEtHisto2D("fHistAnnihGammaEtaET_","MC Annihilation gammas","#"); - fHistAnnihGammaEtaE = CreateEtaEHisto2D("fHistAnnihGammaEtaE_","MC Annihilation gammas","#"); - fHistAnnihGammaEtaPt = CreateEtaPtHisto2D("fHistAnnihGammaEtaPt_","MC Annihilation gammas","#"); - histname = "fHistAnnihGammatotET_" + fHistogramNameSuffix; - fHistAnnihGammatotET = new TH1F(histname.Data(),"total ET, MC Annihilation gammas",fgNumOfEBins, fgEAxis); - - fHistScatGammaEtaEET = CreateEtaEHisto2D("fHistScatGammaEtaEET_","MC E_{T}, Scattering gammas","E_{T}(GeV)"); - fHistScatGammaEtaPtET = CreateEtaPtHisto2D("fHistScatGammaEtaPtET_","MC E_{T}, Scattering gammas","E_{T}(GeV)"); - fHistScatGammaEtaET = CreateEtaEtHisto2D("fHistScatGammaEtaET_","MC Scattering gammas","#"); - fHistScatGammaEtaE = CreateEtaEHisto2D("fHistScatGammaEtaE_","MC Scattering gammas","#"); - fHistScatGammaEtaPt = CreateEtaPtHisto2D("fHistScatGammaEtaPt_","MC Scattering gammas","#"); - histname = "fHistScatGammatotET_" + fHistogramNameSuffix; - fHistScatGammatotET = new TH1F(histname.Data(),"total ET, MC Scattering gammas",fgNumOfEBins, fgEAxis); - - fHistConvGammaEtaEET = CreateEtaEHisto2D("fHistConvGammaEtaEET_","MC E_{T}, non conversion primary gammas","E_{T}(GeV)"); - fHistConvGammaEtaPtET = CreateEtaPtHisto2D("fHistConvGammaEtaPtET_","MC E_{T}, non conversion primary gammas","E_{T}(GeV)"); - fHistConvGammaEtaET = CreateEtaEtHisto2D("fHistConvGammaEtaET_","MC non conversion primary gammas","#"); - fHistConvGammaEtaE = CreateEtaEHisto2D("fHistConvGammaEtaE_","MC non conversion primary gammas","#"); - fHistConvGammaEtaPt = CreateEtaPtHisto2D("fHistConvGammaEtaPt_","MC non conversion primary gammas","#"); - histname = "fHistConvGammatotET_" + fHistogramNameSuffix; - fHistConvGammatotET = new TH1F(histname.Data(),"total ET, MC non conversion primary gammas",fgNumOfEBins, fgEAxis); - - fHistNonConvGammaEtaEET = CreateEtaEHisto2D("fHistNonConvGammaEtaEET_","MC E_{T}, non conversion primary gammas","E_{T}(GeV)"); - fHistNonConvGammaEtaPtET = CreateEtaPtHisto2D("fHistNonConvGammaEtaPtET_","MC E_{T}, non conversion primary gammas","E_{T}(GeV)"); - fHistNonConvGammaEtaET = CreateEtaEtHisto2D("fHistNonConvGammaEtaET_","MC non conversion primary gammas","#"); - fHistNonConvGammaEtaE = CreateEtaEHisto2D("fHistNonConvGammaEtaE_","MC non conversion primary gammas","#"); - fHistNonConvGammaEtaPt = CreateEtaPtHisto2D("fHistNonConvGammaEtaPt_","MC non conversion primary gammas","#"); - histname = "fHistNonConvGammatotET_" + fHistogramNameSuffix; - fHistNonConvGammatotET = new TH1F(histname.Data(),"total ET, MC non conversion primary gammas",fgNumOfEBins, fgEAxis); - - histname = "fHistTotGammatotET_" + fHistogramNameSuffix; - fHistTotGammatotET = new TH1F(histname.Data(),"total ET, MC primary gammas",fgNumOfEBins, fgEAxis); - - histname = "fHistTotEMtotET_" + fHistogramNameSuffix; - fHistTotEMtotET = new TH1F(histname.Data(),"total electromagnetic ET",fgNumOfEBins, fgEAxis); - - fHistNPPElectronEtaEET = CreateEtaEHisto2D("fHistNPPElectronEtaEET_","MC E_{T}, non-primary electrons","E_{T}(GeV)"); - fHistNPPElectronEtaPtET = CreateEtaPtHisto2D("fHistNPPElectronEtaPtET_","MC E_{T}, non-primary electrons","E_{T}(GeV)"); - fHistNPPElectronEtaET = CreateEtaEtHisto2D("fHistNPPElectronEtaET_","MC non-primary electrons","#"); - fHistNPPElectronEtaE = CreateEtaEHisto2D("fHistNPPElectronEtaE_","MC non-primary electrons","#"); - fHistNPPElectronEtaPt = CreateEtaPtHisto2D("fHistNPPElectronEtaPt_","MC non-primary electrons","#"); - histname = "fHistNPPElectrontotET_" + fHistogramNameSuffix; - fHistNPPElectrontotET = new TH1F(histname.Data(),"total ET, MC non-primary electrons",fgNumOfEBins, fgEAxis); - - fHistNPPGammaEtaEET = CreateEtaEHisto2D("fHistNPPGammaEtaEET_","MC E_{T}, non-primary gammas","E_{T}(GeV)"); - fHistNPPGammaEtaPtET = CreateEtaPtHisto2D("fHistNPPGammaEtaPtET_","MC E_{T}, non-primary gammas","E_{T}(GeV)"); - fHistNPPGammaEtaET = CreateEtaEtHisto2D("fHistNPPGammaEtaET_","MC non-primary gammas","#"); - fHistNPPGammaEtaE = CreateEtaEHisto2D("fHistNPPGammaEtaE_","MC non-primary gammas","#"); - fHistNPPGammaEtaPt = CreateEtaPtHisto2D("fHistNPPGammaEtaPt_","MC non-primary gammas","#"); - histname = "fHistNPPGammatotET_" + fHistogramNameSuffix; - fHistNPPGammatotET = new TH1F(histname.Data(),"total ET, MC non-primary gammas",fgNumOfEBins, fgEAxis); - - histname = "fHistTotNPPEMtotET_" + fHistogramNameSuffix; - fHistTotNPPEMtotET = new TH1F(histname.Data(),"total ET, MC non-primary electromagnetic",fgNumOfEBins, fgEAxis); - - fHistNPPPi0GammaEtaEET = CreateEtaEHisto2D("fHistNPPPi0GammaEtaEET_","MC E_{T}, non-primary gammas","E_{T}(GeV)"); - fHistNPPPi0GammaEtaPtET = CreateEtaPtHisto2D("fHistNPPPi0GammaEtaPtET_","MC E_{T}, non-primary gammas","E_{T}(GeV)"); - fHistNPPPi0GammaEtaET = CreateEtaEtHisto2D("fHistNPPPi0GammaEtaET_","MC non-primary gammas","#"); - fHistNPPPi0GammaEtaE = CreateEtaEHisto2D("fHistNPPPi0GammaEtaE_","MC non-primary gammas","#"); - fHistNPPPi0GammaEtaPt = CreateEtaPtHisto2D("fHistNPPPi0GammaEtaPt_","MC non-primary gammas","#"); - histname = "fHistNPPPi0GammatotET_" + fHistogramNameSuffix; - fHistNPPPi0GammatotET = new TH1F(histname.Data(),"total ET, MC non-primary gammas",fgNumOfEBins, fgEAxis); - - fHistElectronAccEtaEET = CreateEtaEHisto2D("fHistElectronAccEtaEET_","MC E_{T}, primary electrons","E_{T}(GeV)"); - fHistElectronAccEtaPtET = CreateEtaPtHisto2D("fHistElectronAccEtaPtET_","MC E_{T}, primary electrons","E_{T}(GeV)"); - fHistElectronAccEtaET = CreateEtaEtHisto2D("fHistElectronAccEtaET_","MC primary electrons","#"); - fHistElectronAccEtaE = CreateEtaEHisto2D("fHistElectronAccEtaE_","MC primary electrons","#"); - fHistElectronAccEtaPt = CreateEtaPtHisto2D("fHistElectronAccEtaPt_","MC primary electrons","#"); - histname = "fHistElectronAcctotET_" + fHistogramNameSuffix; - fHistElectronAcctotET = new TH1F(histname.Data(),"total ET, MC primary electrons",fgNumOfEBins, fgEAxis); - - fHistConvElectronAccEtaEET = CreateEtaEHisto2D("fHistConvElectronAccEtaEET_","MC E_{T}, electrons from conversion","E_{T}(GeV)"); - fHistConvElectronAccEtaPtET = CreateEtaPtHisto2D("fHistConvElectronAccEtaPtET_","MC E_{T}, electrons from conversion","E_{T}(GeV)"); - fHistConvElectronAccEtaET = CreateEtaEtHisto2D("fHistConvElectronAccEtaET_","MC electrons from conversion","#"); - fHistConvElectronAccEtaE = CreateEtaEHisto2D("fHistConvElectronAccEtaE_","MC electrons from conversion","#"); - fHistConvElectronAccEtaPt = CreateEtaPtHisto2D("fHistConvElectronAccEtaPt_","MC electrons from conversion","#"); - histname = "fHistConvElectronAcctotET_" + fHistogramNameSuffix; - fHistConvElectronAcctotET = new TH1F(histname.Data(),"total ET, MC electrons from conversion",fgNumOfEBins, fgEAxis); - - fHistScatElectronAccEtaEET = CreateEtaEHisto2D("fHistScatElectronAccEtaEET_","MC E_{T}, electrons from Scattering","E_{T}(GeV)"); - fHistScatElectronAccEtaPtET = CreateEtaPtHisto2D("fHistScatElectronAccEtaPtET_","MC E_{T}, electrons from Scattering","E_{T}(GeV)"); - fHistScatElectronAccEtaET = CreateEtaEtHisto2D("fHistScatElectronAccEtaET_","MC electrons from Scattering","#"); - fHistScatElectronAccEtaE = CreateEtaEHisto2D("fHistScatElectronAccEtaE_","MC electrons from Scattering","#"); - fHistScatElectronAccEtaPt = CreateEtaPtHisto2D("fHistScatElectronAccEtaPt_","MC electrons from Scattering","#"); - histname = "fHistScatElectronAcctotET_" + fHistogramNameSuffix; - fHistScatElectronAcctotET = new TH1F(histname.Data(),"total ET, MC electrons from Scattering",fgNumOfEBins, fgEAxis); - - histname = "fHistTotElectronAcctotET_" + fHistogramNameSuffix; - fHistTotElectronAcctotET = new TH1F(histname.Data(),"total ET, MC primary electrons",fgNumOfEBins, fgEAxis); - - fHistGammaAccEtaEET = CreateEtaEHisto2D("fHistGammaAccEtaEET_","MC E_{T}, primary gammas","E_{T}(GeV)"); - fHistGammaAccEtaPtET = CreateEtaPtHisto2D("fHistGammaAccEtaPtET_","MC E_{T}, primary gammas","E_{T}(GeV)"); - fHistGammaAccEtaET = CreateEtaEtHisto2D("fHistGammaAccEtaET_","MC primary gammas","#"); - fHistGammaAccEtaE = CreateEtaEHisto2D("fHistGammaAccEtaE_","MC primary gammas","#"); - fHistGammaAccEtaPt = CreateEtaPtHisto2D("fHistGammaAccEtaPt_","MC primary gammas","#"); - histname = "fHistGammaAcctotET_" + fHistogramNameSuffix; - fHistGammaAcctotET = new TH1F(histname.Data(),"total ET, MC primary gammas",fgNumOfEBins, fgEAxis); - - fHistAnnihGammaAccEtaEET = CreateEtaEHisto2D("fHistAnnihGammaAccEtaEET_","MC E_{T}, Annihilation gammas","E_{T}(GeV)"); - fHistAnnihGammaAccEtaPtET = CreateEtaPtHisto2D("fHistAnnihGammaAccEtaPtET_","MC E_{T}, Annihilation gammas","E_{T}(GeV)"); - fHistAnnihGammaAccEtaET = CreateEtaEtHisto2D("fHistAnnihGammaAccEtaET_","MC Annihilation gammas","#"); - fHistAnnihGammaAccEtaE = CreateEtaEHisto2D("fHistAnnihGammaAccEtaE_","MC Annihilation gammas","#"); - fHistAnnihGammaAccEtaPt = CreateEtaPtHisto2D("fHistAnnihGammaAccEtaPt_","MC Annihilation gammas","#"); - histname = "fHistAnnihGammaAcctotET_" + fHistogramNameSuffix; - fHistAnnihGammaAcctotET = new TH1F(histname.Data(),"total ET, MC Annihilation gammas",fgNumOfEBins, fgEAxis); - - fHistScatGammaAccEtaEET = CreateEtaEHisto2D("fHistScatGammaAccEtaEET_","MC E_{T}, Scattering gammas","E_{T}(GeV)"); - fHistScatGammaAccEtaPtET = CreateEtaPtHisto2D("fHistScatGammaAccEtaPtET_","MC E_{T}, Scattering gammas","E_{T}(GeV)"); - fHistScatGammaAccEtaET = CreateEtaEtHisto2D("fHistScatGammaAccEtaET_","MC Scattering gammas","#"); - fHistScatGammaAccEtaE = CreateEtaEHisto2D("fHistScatGammaAccEtaE_","MC Scattering gammas","#"); - fHistScatGammaAccEtaPt = CreateEtaPtHisto2D("fHistScatGammaAccEtaPt_","MC Scattering gammas","#"); - histname = "fHistScatGammaAcctotET_" + fHistogramNameSuffix; - fHistScatGammaAcctotET = new TH1F(histname.Data(),"total ET, MC Scattering gammas",fgNumOfEBins, fgEAxis); - - fHistConvGammaAccEtaEET = CreateEtaEHisto2D("fHistConvGammaAccEtaEET_","MC E_{T}, non conversion primary gammas","E_{T}(GeV)"); - fHistConvGammaAccEtaPtET = CreateEtaPtHisto2D("fHistConvGammaAccEtaPtET_","MC E_{T}, non conversion primary gammas","E_{T}(GeV)"); - fHistConvGammaAccEtaET = CreateEtaEtHisto2D("fHistConvGammaAccEtaET_","MC non conversion primary gammas","#"); - fHistConvGammaAccEtaE = CreateEtaEHisto2D("fHistConvGammaAccEtaE_","MC non conversion primary gammas","#"); - fHistConvGammaAccEtaPt = CreateEtaPtHisto2D("fHistConvGammaAccEtaPt_","MC non conversion primary gammas","#"); - histname = "fHistConvGammaAcctotET_" + fHistogramNameSuffix; - fHistConvGammaAcctotET = new TH1F(histname.Data(),"total ET, MC non conversion primary gammas",fgNumOfEBins, fgEAxis); - - fHistNonConvGammaAccEtaEET = CreateEtaEHisto2D("fHistNonConvGammaAccEtaEET_","MC E_{T}, non conversion primary gammas","E_{T}(GeV)"); - fHistNonConvGammaAccEtaPtET = CreateEtaPtHisto2D("fHistNonConvGammaAccEtaPtET_","MC E_{T}, non conversion primary gammas","E_{T}(GeV)"); - fHistNonConvGammaAccEtaET = CreateEtaEtHisto2D("fHistNonConvGammaAccEtaET_","MC non conversion primary gammas","#"); - fHistNonConvGammaAccEtaE = CreateEtaEHisto2D("fHistNonConvGammaAccEtaE_","MC non conversion primary gammas","#"); - fHistNonConvGammaAccEtaPt = CreateEtaPtHisto2D("fHistNonConvGammaAccEtaPt_","MC non conversion primary gammas","#"); - histname = "fHistNonConvGammaAcctotET_" + fHistogramNameSuffix; - fHistNonConvGammaAcctotET = new TH1F(histname.Data(),"total ET, MC non conversion primary gammas",fgNumOfEBins, fgEAxis); - - histname = "fHistTotGammaAcctotET_" + fHistogramNameSuffix; - fHistTotGammaAcctotET = new TH1F(histname.Data(),"total ET, MC primary gammas",fgNumOfEBins, fgEAxis); - - histname = "fHistTotEMAcctotET_" + fHistogramNameSuffix; - fHistTotEMAcctotET = new TH1F(histname.Data(),"total electromagnetic ET",fgNumOfEBins, fgEAxis); - - fHistNPPElectronAccEtaEET = CreateEtaEHisto2D("fHistNPPElectronAccEtaEET_","MC E_{T}, non-primary electrons","E_{T}(GeV)"); - fHistNPPElectronAccEtaPtET = CreateEtaPtHisto2D("fHistNPPElectronAccEtaPtET_","MC E_{T}, non-primary electrons","E_{T}(GeV)"); - fHistNPPElectronAccEtaE = CreateEtaEHisto2D("fHistNPPElectronAccEtaE_","MC non-primary electrons","#"); - fHistNPPElectronAccEtaPt = CreateEtaPtHisto2D("fHistNPPElectronAccEtaPt_","MC non-primary electrons","#"); - - fHistNPPGammaAccEtaEET = CreateEtaEHisto2D("fHistNPPGammaAccEtaEET_","MC E_{T}, non-primary gammas","E_{T}(GeV)"); - fHistNPPGammaAccEtaPtET = CreateEtaPtHisto2D("fHistNPPGammaAccEtaPtET_","MC E_{T}, non-primary gammas","E_{T}(GeV)"); - fHistNPPGammaAccEtaE = CreateEtaEHisto2D("fHistNPPGammaAccEtaE_","MC non-primary gammas","#"); - fHistNPPGammaAccEtaPt = CreateEtaPtHisto2D("fHistNPPGammaAccEtaPt_","MC non-primary gammas","#"); - - fHistElectronRecEtaEET = CreateEtaEHisto2D("fHistElectronRecEtaEET_","MC E_{T}, primary electrons","E_{T}(GeV)"); - fHistElectronRecEtaPtET = CreateEtaPtHisto2D("fHistElectronRecEtaPtET_","MC E_{T}, primary electrons","E_{T}(GeV)"); - fHistElectronRecEtaET = CreateEtaEtHisto2D("fHistElectronRecEtaET_","MC primary electrons","#"); - fHistElectronRecEtaE = CreateEtaEHisto2D("fHistElectronRecEtaE_","MC primary electrons","#"); - fHistElectronRecEtaPt = CreateEtaPtHisto2D("fHistElectronRecEtaPt_","MC primary electrons","#"); - histname = "fHistElectronRectotET_" + fHistogramNameSuffix; - fHistElectronRectotET = new TH1F(histname.Data(),"total ET, MC primary electrons",fgNumOfEBins, fgEAxis); - - fHistConvElectronRecEtaEET = CreateEtaEHisto2D("fHistConvElectronRecEtaEET_","MC E_{T}, electrons from conversion","E_{T}(GeV)"); - fHistConvElectronRecEtaPtET = CreateEtaPtHisto2D("fHistConvElectronRecEtaPtET_","MC E_{T}, electrons from conversion","E_{T}(GeV)"); - fHistConvElectronRecEtaET = CreateEtaEtHisto2D("fHistConvElectronRecEtaET_","MC electrons from conversion","#"); - fHistConvElectronRecEtaE = CreateEtaEHisto2D("fHistConvElectronRecEtaE_","MC electrons from conversion","#"); - fHistConvElectronRecEtaPt = CreateEtaPtHisto2D("fHistConvElectronRecEtaPt_","MC electrons from conversion","#"); - histname = "fHistConvElectronRectotET_" + fHistogramNameSuffix; - fHistConvElectronRectotET = new TH1F(histname.Data(),"total ET, MC electrons from conversion",fgNumOfEBins, fgEAxis); - - fHistScatElectronRecEtaEET = CreateEtaEHisto2D("fHistScatElectronRecEtaEET_","MC E_{T}, electrons from Scattering","E_{T}(GeV)"); - fHistScatElectronRecEtaPtET = CreateEtaPtHisto2D("fHistScatElectronRecEtaPtET_","MC E_{T}, electrons from Scattering","E_{T}(GeV)"); - fHistScatElectronRecEtaET = CreateEtaEtHisto2D("fHistScatElectronRecEtaET_","MC electrons from Scattering","#"); - fHistScatElectronRecEtaE = CreateEtaEHisto2D("fHistScatElectronRecEtaE_","MC electrons from Scattering","#"); - fHistScatElectronRecEtaPt = CreateEtaPtHisto2D("fHistScatElectronRecEtaPt_","MC electrons from Scattering","#"); - histname = "fHistScatElectronRectotET_" + fHistogramNameSuffix; - fHistScatElectronRectotET = new TH1F(histname.Data(),"total ET, MC electrons from Scattering",fgNumOfEBins, fgEAxis); - - histname = "fHistTotElectronRectotET_" + fHistogramNameSuffix; - fHistTotElectronRectotET = new TH1F(histname.Data(),"total ET, MC primary electrons",fgNumOfEBins, fgEAxis); - - fHistGammaRecEtaEET = CreateEtaEHisto2D("fHistGammaRecEtaEET_","MC E_{T}, primary gammas","E_{T}(GeV)"); - fHistGammaRecEtaPtET = CreateEtaPtHisto2D("fHistGammaRecEtaPtET_","MC E_{T}, primary gammas","E_{T}(GeV)"); - fHistGammaRecEtaET = CreateEtaEtHisto2D("fHistGammaRecEtaET_","MC primary gammas","#"); - fHistGammaRecEtaE = CreateEtaEHisto2D("fHistGammaRecEtaE_","MC primary gammas","#"); - fHistGammaRecEtaPt = CreateEtaPtHisto2D("fHistGammaRecEtaPt_","MC primary gammas","#"); - histname = "fHistGammaRectotET_" + fHistogramNameSuffix; - fHistGammaRectotET = new TH1F(histname.Data(),"total ET, MC primary gammas",fgNumOfEBins, fgEAxis); - - fHistAnnihGammaRecEtaEET = CreateEtaEHisto2D("fHistAnnihGammaRecEtaEET_","MC E_{T}, Annihilation gammas","E_{T}(GeV)"); - fHistAnnihGammaRecEtaPtET = CreateEtaPtHisto2D("fHistAnnihGammaRecEtaPtET_","MC E_{T}, Annihilation gammas","E_{T}(GeV)"); - fHistAnnihGammaRecEtaET = CreateEtaEtHisto2D("fHistAnnihGammaRecEtaET_","MC Annihilation gammas","#"); - fHistAnnihGammaRecEtaE = CreateEtaEHisto2D("fHistAnnihGammaRecEtaE_","MC Annihilation gammas","#"); - fHistAnnihGammaRecEtaPt = CreateEtaPtHisto2D("fHistAnnihGammaRecEtaPt_","MC Annihilation gammas","#"); - histname = "fHistAnnihGammaRectotET_" + fHistogramNameSuffix; - fHistAnnihGammaRectotET = new TH1F(histname.Data(),"total ET, MC Annihilation gammas",fgNumOfEBins, fgEAxis); - - fHistScatGammaRecEtaEET = CreateEtaEHisto2D("fHistScatGammaRecEtaEET_","MC E_{T}, Scattering gammas","E_{T}(GeV)"); - fHistScatGammaRecEtaPtET = CreateEtaPtHisto2D("fHistScatGammaRecEtaPtET_","MC E_{T}, Scattering gammas","E_{T}(GeV)"); - fHistScatGammaRecEtaET = CreateEtaEtHisto2D("fHistScatGammaRecEtaET_","MC Scattering gammas","#"); - fHistScatGammaRecEtaE = CreateEtaEHisto2D("fHistScatGammaRecEtaE_","MC Scattering gammas","#"); - fHistScatGammaRecEtaPt = CreateEtaPtHisto2D("fHistScatGammaRecEtaPt_","MC Scattering gammas","#"); - histname = "fHistScatGammaRectotET_" + fHistogramNameSuffix; - fHistScatGammaRectotET = new TH1F(histname.Data(),"total ET, MC Scattering gammas",fgNumOfEBins, fgEAxis); - - histname = "fHistTotGammaRectotET_" + fHistogramNameSuffix; - fHistTotGammaRectotET = new TH1F(histname.Data(),"total ET, MC primary gammas",fgNumOfEBins, fgEAxis); - - histname = "fHistTotEMRectotET_" + fHistogramNameSuffix; - fHistTotEMRectotET = new TH1F(histname.Data(),"total electromagnetic ET",fgNumOfEBins, fgEAxis); - - fHistNPPElectronRecEtaEET = CreateEtaEHisto2D("fHistNPPElectronRecEtaEET_","MC E_{T}, non-primary electrons","E_{T}(GeV)"); - fHistNPPElectronRecEtaPtET = CreateEtaPtHisto2D("fHistNPPElectronRecEtaPtET_","MC E_{T}, non-primary electrons","E_{T}(GeV)"); - fHistNPPElectronRecEtaET = CreateEtaEtHisto2D("fHistNPPElectronRecEtaET_","MC non-primary electrons","#"); - fHistNPPElectronRecEtaE = CreateEtaEHisto2D("fHistNPPElectronRecEtaE_","MC non-primary electrons","#"); - fHistNPPElectronRecEtaPt = CreateEtaPtHisto2D("fHistNPPElectronRecEtaPt_","MC non-primary electrons","#"); - histname = "fHistNPPElectronRectotET_" + fHistogramNameSuffix; - fHistNPPElectronRectotET = new TH1F(histname.Data(),"total ET, MC non-primary electrons",fgNumOfEBins, fgEAxis); - - fHistNPPGammaRecEtaEET = CreateEtaEHisto2D("fHistNPPGammaRecEtaEET_","MC E_{T}, non-primary gammas","E_{T}(GeV)"); - fHistNPPGammaRecEtaPtET = CreateEtaPtHisto2D("fHistNPPGammaRecEtaPtET_","MC E_{T}, non-primary gammas","E_{T}(GeV)"); - fHistNPPGammaRecEtaET = CreateEtaEtHisto2D("fHistNPPGammaRecEtaET_","MC non-primary gammas","#"); - fHistNPPGammaRecEtaE = CreateEtaEHisto2D("fHistNPPGammaRecEtaE_","MC non-primary gammas","#"); - fHistNPPGammaRecEtaPt = CreateEtaPtHisto2D("fHistNPPGammaRecEtaPt_","MC non-primary gammas","#"); - histname = "fHistNPPGammaRectotET_" + fHistogramNameSuffix; - fHistNPPGammaRectotET = new TH1F(histname.Data(),"total ET, MC non-primary gammas",fgNumOfEBins, fgEAxis); - - histname = "fHistTotNPPEMRectotET_" + fHistogramNameSuffix; - fHistTotNPPEMRectotET = new TH1F(histname.Data(),"total ET, MC non-primary electromagnetic",fgNumOfEBins, fgEAxis); - - fHistNPPPi0GammaRecEtaEET = CreateEtaEHisto2D("fHistNPPPi0GammaRecEtaEET_","MC E_{T}, non-primary gammas","E_{T}(GeV)"); - fHistNPPPi0GammaRecEtaPtET = CreateEtaPtHisto2D("fHistNPPPi0GammaRecEtaPtET_","MC E_{T}, non-primary gammas","E_{T}(GeV)"); - fHistNPPPi0GammaRecEtaET = CreateEtaEtHisto2D("fHistNPPPi0GammaRecEtaET_","MC non-primary gammas","#"); - fHistNPPPi0GammaRecEtaE = CreateEtaEHisto2D("fHistNPPPi0GammaRecEtaE_","MC non-primary gammas","#"); - fHistNPPPi0GammaRecEtaPt = CreateEtaPtHisto2D("fHistNPPPi0GammaRecEtaPt_","MC non-primary gammas","#"); - histname = "fHistNPPPi0GammaRectotET_" + fHistogramNameSuffix; - fHistNPPPi0GammaRectotET = new TH1F(histname.Data(),"total ET, MC non-primary gammas",fgNumOfEBins, fgEAxis); - - fHistMuonEtaEET = CreateEtaEHisto2D("fHistMuonEtaEET_","MC E_{T}, primary Muons","E_{T}(GeV)"); - fHistMuonAccEtaEET = CreateEtaEHisto2D("fHistMuonAccEtaEET_","MC E_{T}, primary Muons, inside EMCal acceptance","E_{T}(GeV)"); - fHistMuonRecEtaEET = CreateEtaEHisto2D("fHistMuonRecEtaEET_","MC E_{T}, primary Muons, reconstructed","E_{T}(GeV)"); - fHistMuonMatchEtaEET = CreateEtaEHisto2D("fHistMuonMatchEtaEET_","MC E_{T}, primary Muons, tracking matched","E_{T}(GeV)"); - - fHistMuonEtaPtET = CreateEtaPtHisto2D("fHistMuonEtaPtET_","MC E_{T}, primary Muons","E_{T}(GeV)"); - fHistMuonAccEtaPtET = CreateEtaPtHisto2D("fHistMuonAccEtaPtET_","MC E_{T}, primary Muons","E_{T}(GeV)"); - fHistMuonRecEtaPtET = CreateEtaPtHisto2D("fHistMuonRecEtaPtET_","MC E_{T}, primary Muons","E_{T}(GeV)"); - fHistMuonMatchEtaPtET = CreateEtaPtHisto2D("fHistMuonMatchEtaPtET_","MC E_{T}, primary Muons","E_{T}(GeV)"); - - fHistMuonEtaET = CreateEtaEtHisto2D("fHistMuonEtaET_","MC primary Muons","#"); - fHistMuonAccEtaET = CreateEtaEtHisto2D("fHistMuonAccEtaET_","MC primary Muons","#"); - fHistMuonRecEtaET = CreateEtaEtHisto2D("fHistMuonRecEtaET_","MC primary Muons","#"); - fHistMuonMatchEtaET = CreateEtaEtHisto2D("fHistMuonMatchEtaET_","MC primary Muons","#"); - - fHistMuonEtaE = CreateEtaEHisto2D("fHistMuonEtaE_","MC primary Muons","#"); - fHistMuonAccEtaE = CreateEtaEHisto2D("fHistMuonAccEtaE_","MC primary Muons","#"); - fHistMuonRecEtaE = CreateEtaEHisto2D("fHistMuonRecEtaE_","MC primary Muons","#"); - fHistMuonMatchEtaE = CreateEtaEHisto2D("fHistMuonMatchEtaE_","MC primary Muons","#"); - - fHistMuonEtaPt = CreateEtaPtHisto2D("fHistMuonEtaPt_","MC primary Muons","#"); - fHistMuonAccEtaPt = CreateEtaPtHisto2D("fHistMuonAccEtaPt_","MC primary Muons","#"); - fHistMuonRecEtaPt = CreateEtaPtHisto2D("fHistMuonRecEtaPt_","MC primary Muons","#"); - fHistMuonMatchEtaPt = CreateEtaPtHisto2D("fHistMuonMatchEtaPt_","MC primary Muons","#"); - - histname = "fHistMuontotET_" + fHistogramNameSuffix; - fHistMuontotET = new TH1F(histname.Data(),"total ET, MC primary Muons",fgNumOfEBins, fgEAxis); - histname = "fHistMuonAcctotET_" + fHistogramNameSuffix; - fHistMuonAcctotET = new TH1F(histname.Data(),"total ET, MC primary Muons",fgNumOfEBins, fgEAxis); - histname = "fHistMuonRectotET_" + fHistogramNameSuffix; - fHistMuonRectotET = new TH1F(histname.Data(),"total ET, MC primary Muons",fgNumOfEBins, fgEAxis); - histname = "fHistMuonMatchtotET_" + fHistogramNameSuffix; - fHistMuonMatchtotET = new TH1F(histname.Data(),"total ET, MC primary Muons",fgNumOfEBins, fgEAxis); - - histname = "fHistMuonRectotETDep_" + fHistogramNameSuffix; - fHistMuonRectotETDep = new TH1F(histname.Data(),"total ET, MC primary Muons",fgNumOfEBins, fgEAxis); - histname = "fHistMuonMatchtotETDep_" + fHistogramNameSuffix; - fHistMuonMatchtotETDep = new TH1F(histname.Data(),"total ET, MC primary Muons",fgNumOfEBins, fgEAxis); - - fHistMuonRecEtaEDepETDep = CreateEtaEHisto2D("fHistMuonRecEtaEDepETDep_","MC E_{T}, primary Muons, reconstructed","E_{T} dep (GeV)"); - fHistMuonMatchEtaEDepETDep = CreateEtaEHisto2D("fHistMuonMatchEtaEDepETDep_","MC E_{T}, primary Muons, tracking matched","E_{T} dep (GeV)"); - - fHistMuonRecEtaPtETDep = CreateEtaPtHisto2D("fHistMuonRecEtaPtETDep_","MC E_{T}, primary Muons","E_{T} dep (GeV)"); - fHistMuonMatchEtaPtETDep = CreateEtaPtHisto2D("fHistMuonMatchEtaPtETDep_","MC E_{T}, primary Muons","E_{T} dep(GeV)"); - - fHistMuonRecEtaETDep = CreateEtaEtHisto2D("fHistMuonRecEtaETDep_","MC primary Muons","#"); - fHistMuonMatchEtaETDep = CreateEtaEtHisto2D("fHistMuonMatchEtaETDep_","MC primary Muons","#"); - - fHistMuonRecResEET = CreateResEHisto2D("fHistMuonRecResEET_","MC E_{T}, primary Muons","E_{T}(GeV)"); - fHistMuonRecResPtET = CreateResPtHisto2D("fHistMuonRecResPtET_","MC E_{T}, primary Muons","E_{T}(GeV)"); - fHistMuonRecResE = CreateResEHisto2D("fHistMuonRecResE_","MC primary Muons","#"); - fHistMuonRecResPt = CreateResPtHisto2D("fHistMuonRecResPt_","MC primary Muons","#"); - fHistMuonRecResEDepETDep = CreateResEHisto2D("fHistMuonRecResEDepETDep_","MC E_{T}, primary Muons","E_{T} dep (GeV)"); - fHistMuonRecResPtETDep = CreateResPtHisto2D("fHistMuonRecResPtETDep_","MC E_{T}, primary Muons","E_{T} dep (GeV)"); - - fHistPionEtaEET = CreateEtaEHisto2D("fHistPionEtaEET_","MC E_{T}, primary Pions","E_{T}(GeV)"); - fHistPionAccEtaEET = CreateEtaEHisto2D("fHistPionAccEtaEET_","MC E_{T}, primary Pions, inside EMCal acceptance","E_{T}(GeV)"); - fHistPionRecEtaEET = CreateEtaEHisto2D("fHistPionRecEtaEET_","MC E_{T}, primary Pions, reconstructed","E_{T}(GeV)"); - fHistPionMatchEtaEET = CreateEtaEHisto2D("fHistPionMatchEtaEET_","MC E_{T}, primary Pions, tracking matched","E_{T}(GeV)"); - - fHistPionEtaPtET = CreateEtaPtHisto2D("fHistPionEtaPtET_","MC E_{T}, primary Pions","E_{T}(GeV)"); - fHistPionAccEtaPtET = CreateEtaPtHisto2D("fHistPionAccEtaPtET_","MC E_{T}, primary Pions","E_{T}(GeV)"); - fHistPionRecEtaPtET = CreateEtaPtHisto2D("fHistPionRecEtaPtET_","MC E_{T}, primary Pions","E_{T}(GeV)"); - fHistPionMatchEtaPtET = CreateEtaPtHisto2D("fHistPionMatchEtaPtET_","MC E_{T}, primary Pions","E_{T}(GeV)"); - - fHistPionEtaET = CreateEtaEtHisto2D("fHistPionEtaET_","MC primary Pions","#"); - fHistPionAccEtaET = CreateEtaEtHisto2D("fHistPionAccEtaET_","MC primary Pions","#"); - fHistPionRecEtaET = CreateEtaEtHisto2D("fHistPionRecEtaET_","MC primary Pions","#"); - fHistPionMatchEtaET = CreateEtaEtHisto2D("fHistPionMatchEtaET_","MC primary Pions","#"); - - fHistPionEtaE = CreateEtaEHisto2D("fHistPionEtaE_","MC primary Pions","#"); - fHistPionAccEtaE = CreateEtaEHisto2D("fHistPionAccEtaE_","MC primary Pions","#"); - fHistPionRecEtaE = CreateEtaEHisto2D("fHistPionRecEtaE_","MC primary Pions","#"); - fHistPionMatchEtaE = CreateEtaEHisto2D("fHistPionMatchEtaE_","MC primary Pions","#"); - - fHistPionEtaPt = CreateEtaPtHisto2D("fHistPionEtaPt_","MC primary Pions","#"); - fHistPionAccEtaPt = CreateEtaPtHisto2D("fHistPionAccEtaPt_","MC primary Pions","#"); - fHistPionRecEtaPt = CreateEtaPtHisto2D("fHistPionRecEtaPt_","MC primary Pions","#"); - fHistPionMatchEtaPt = CreateEtaPtHisto2D("fHistPionMatchEtaPt_","MC primary Pions","#"); - - histname = "fHistPiontotET_" + fHistogramNameSuffix; - fHistPiontotET = new TH1F(histname.Data(),"total ET, MC primary Pions",fgNumOfEBins, fgEAxis); - histname = "fHistPionAcctotET_" + fHistogramNameSuffix; - fHistPionAcctotET = new TH1F(histname.Data(),"total ET, MC primary Pions",fgNumOfEBins, fgEAxis); - histname = "fHistPionRectotET_" + fHistogramNameSuffix; - fHistPionRectotET = new TH1F(histname.Data(),"total ET, MC primary Pions",fgNumOfEBins, fgEAxis); - histname = "fHistPionMatchtotET_" + fHistogramNameSuffix; - fHistPionMatchtotET = new TH1F(histname.Data(),"total ET, MC primary Pions",fgNumOfEBins, fgEAxis); - - histname = "fHistPionRectotETDep_" + fHistogramNameSuffix; - fHistPionRectotETDep = new TH1F(histname.Data(),"total ET, MC primary Pions",fgNumOfEBins, fgEAxis); - histname = "fHistPionMatchtotETDep_" + fHistogramNameSuffix; - fHistPionMatchtotETDep = new TH1F(histname.Data(),"total ET, MC primary Pions",fgNumOfEBins, fgEAxis); - - fHistPionRecEtaEDepETDep = CreateEtaEHisto2D("fHistPionRecEtaEDepETDep_","MC E_{T}, primary Pions, reconstructed","E_{T} dep (GeV)"); - fHistPionMatchEtaEDepETDep = CreateEtaEHisto2D("fHistPionMatchEtaEDepETDep_","MC E_{T}, primary Pions, tracking matched","E_{T} dep (GeV)"); - - fHistPionRecEtaPtETDep = CreateEtaPtHisto2D("fHistPionRecEtaPtETDep_","MC E_{T}, primary Pions","E_{T} dep (GeV)"); - fHistPionMatchEtaPtETDep = CreateEtaPtHisto2D("fHistPionMatchEtaPtETDep_","MC E_{T}, primary Pions","E_{T} dep(GeV)"); - - fHistPionRecEtaETDep = CreateEtaEtHisto2D("fHistPionRecEtaETDep_","MC primary Pions","#"); - fHistPionMatchEtaETDep = CreateEtaEtHisto2D("fHistPionMatchEtaETDep_","MC primary Pions","#"); - - fHistPionRecResEET = CreateResEHisto2D("fHistPionRecResEET_","MC E_{T}, primary Pions","E_{T}(GeV)"); - fHistPionRecResPtET = CreateResPtHisto2D("fHistPionRecResPtET_","MC E_{T}, primary Pions","E_{T}(GeV)"); - fHistPionRecResE = CreateResEHisto2D("fHistPionRecResE_","MC primary Pions","#"); - fHistPionRecResPt = CreateResPtHisto2D("fHistPionRecResPt_","MC primary Pions","#"); - fHistPionRecResEDepETDep = CreateResEHisto2D("fHistPionRecResEDepETDep_","MC E_{T}, primary Pions","E_{T} dep (GeV)"); - fHistPionRecResPtETDep = CreateResPtHisto2D("fHistPionRecResPtETDep_","MC E_{T}, primary Pions","E_{T} dep (GeV)"); - - fHistKaonEtaEET = CreateEtaEHisto2D("fHistKaonEtaEET_","MC E_{T}, primary Kaons","E_{T}(GeV)"); - fHistKaonAccEtaEET = CreateEtaEHisto2D("fHistKaonAccEtaEET_","MC E_{T}, primary Kaons, inside EMCal acceptance","E_{T}(GeV)"); - fHistKaonRecEtaEET = CreateEtaEHisto2D("fHistKaonRecEtaEET_","MC E_{T}, primary Kaons, reconstructed","E_{T}(GeV)"); - fHistKaonMatchEtaEET = CreateEtaEHisto2D("fHistKaonMatchEtaEET_","MC E_{T}, primary Kaons, tracking matched","E_{T}(GeV)"); - - fHistKaonEtaPtET = CreateEtaPtHisto2D("fHistKaonEtaPtET_","MC E_{T}, primary Kaons","E_{T}(GeV)"); - fHistKaonAccEtaPtET = CreateEtaPtHisto2D("fHistKaonAccEtaPtET_","MC E_{T}, primary Kaons","E_{T}(GeV)"); - fHistKaonRecEtaPtET = CreateEtaPtHisto2D("fHistKaonRecEtaPtET_","MC E_{T}, primary Kaons","E_{T}(GeV)"); - fHistKaonMatchEtaPtET = CreateEtaPtHisto2D("fHistKaonMatchEtaPtET_","MC E_{T}, primary Kaons","E_{T}(GeV)"); - - fHistKaonEtaET = CreateEtaEtHisto2D("fHistKaonEtaET_","MC primary Kaons","#"); - fHistKaonAccEtaET = CreateEtaEtHisto2D("fHistKaonAccEtaET_","MC primary Kaons","#"); - fHistKaonRecEtaET = CreateEtaEtHisto2D("fHistKaonRecEtaET_","MC primary Kaons","#"); - fHistKaonMatchEtaET = CreateEtaEtHisto2D("fHistKaonMatchEtaET_","MC primary Kaons","#"); - - fHistKaonEtaE = CreateEtaEHisto2D("fHistKaonEtaE_","MC primary Kaons","#"); - fHistKaonAccEtaE = CreateEtaEHisto2D("fHistKaonAccEtaE_","MC primary Kaons","#"); - fHistKaonRecEtaE = CreateEtaEHisto2D("fHistKaonRecEtaE_","MC primary Kaons","#"); - fHistKaonMatchEtaE = CreateEtaEHisto2D("fHistKaonMatchEtaE_","MC primary Kaons","#"); - - fHistKaonEtaPt = CreateEtaPtHisto2D("fHistKaonEtaPt_","MC primary Kaons","#"); - fHistKaonAccEtaPt = CreateEtaPtHisto2D("fHistKaonAccEtaPt_","MC primary Kaons","#"); - fHistKaonRecEtaPt = CreateEtaPtHisto2D("fHistKaonRecEtaPt_","MC primary Kaons","#"); - fHistKaonMatchEtaPt = CreateEtaPtHisto2D("fHistKaonMatchEtaPt_","MC primary Kaons","#"); - - histname = "fHistKaontotET_" + fHistogramNameSuffix; - fHistKaontotET = new TH1F(histname.Data(),"total ET, MC primary Kaons",fgNumOfEBins, fgEAxis); - histname = "fHistKaonAcctotET_" + fHistogramNameSuffix; - fHistKaonAcctotET = new TH1F(histname.Data(),"total ET, MC primary Kaons",fgNumOfEBins, fgEAxis); - histname = "fHistKaonRectotET_" + fHistogramNameSuffix; - fHistKaonRectotET = new TH1F(histname.Data(),"total ET, MC primary Kaons",fgNumOfEBins, fgEAxis); - histname = "fHistKaonMatchtotET_" + fHistogramNameSuffix; - fHistKaonMatchtotET = new TH1F(histname.Data(),"total ET, MC primary Kaons",fgNumOfEBins, fgEAxis); - - histname = "fHistKaonRectotETDep_" + fHistogramNameSuffix; - fHistKaonRectotETDep = new TH1F(histname.Data(),"total ET, MC primary Kaons",fgNumOfEBins, fgEAxis); - histname = "fHistKaonMatchtotETDep_" + fHistogramNameSuffix; - fHistKaonMatchtotETDep = new TH1F(histname.Data(),"total ET, MC primary Kaons",fgNumOfEBins, fgEAxis); - - fHistKaonRecEtaEDepETDep = CreateEtaEHisto2D("fHistKaonRecEtaEDepETDep_","MC E_{T}, primary Kaons, reconstructed","E_{T} dep (GeV)"); - fHistKaonMatchEtaEDepETDep = CreateEtaEHisto2D("fHistKaonMatchEtaEDepETDep_","MC E_{T}, primary Kaons, tracking matched","E_{T} dep (GeV)"); - - fHistKaonRecEtaPtETDep = CreateEtaPtHisto2D("fHistKaonRecEtaPtETDep_","MC E_{T}, primary Kaons","E_{T} dep (GeV)"); - fHistKaonMatchEtaPtETDep = CreateEtaPtHisto2D("fHistKaonMatchEtaPtETDep_","MC E_{T}, primary Kaons","E_{T} dep(GeV)"); - - fHistKaonRecEtaETDep = CreateEtaEtHisto2D("fHistKaonRecEtaETDep_","MC primary Kaons","#"); - fHistKaonMatchEtaETDep = CreateEtaEtHisto2D("fHistKaonMatchEtaETDep_","MC primary Kaons","#"); - - fHistKaonRecResEET = CreateResEHisto2D("fHistKaonRecResEET_","MC E_{T}, primary Kaons","E_{T}(GeV)"); - fHistKaonRecResPtET = CreateResPtHisto2D("fHistKaonRecResPtET_","MC E_{T}, primary Kaons","E_{T}(GeV)"); - fHistKaonRecResE = CreateResEHisto2D("fHistKaonRecResE_","MC primary Kaons","#"); - fHistKaonRecResPt = CreateResPtHisto2D("fHistKaonRecResPt_","MC primary Kaons","#"); - fHistKaonRecResEDepETDep = CreateResEHisto2D("fHistKaonRecResEDepETDep_","MC E_{T}, primary Kaons","E_{T} dep (GeV)"); - fHistKaonRecResPtETDep = CreateResPtHisto2D("fHistKaonRecResPtETDep_","MC E_{T}, primary Kaons","E_{T} dep (GeV)"); - - fHistProtonEtaEET = CreateEtaEHisto2D("fHistProtonEtaEET_","MC E_{T}, primary Protons","E_{T}(GeV)"); - fHistProtonAccEtaEET = CreateEtaEHisto2D("fHistProtonAccEtaEET_","MC E_{T}, primary Protons, inside EMCal acceptance","E_{T}(GeV)"); - fHistProtonRecEtaEET = CreateEtaEHisto2D("fHistProtonRecEtaEET_","MC E_{T}, primary Protons, reconstructed","E_{T}(GeV)"); - fHistProtonMatchEtaEET = CreateEtaEHisto2D("fHistProtonMatchEtaEET_","MC E_{T}, primary Protons, tracking matched","E_{T}(GeV)"); - - fHistProtonEtaPtET = CreateEtaPtHisto2D("fHistProtonEtaPtET_","MC E_{T}, primary Protons","E_{T}(GeV)"); - fHistProtonAccEtaPtET = CreateEtaPtHisto2D("fHistProtonAccEtaPtET_","MC E_{T}, primary Protons","E_{T}(GeV)"); - fHistProtonRecEtaPtET = CreateEtaPtHisto2D("fHistProtonRecEtaPtET_","MC E_{T}, primary Protons","E_{T}(GeV)"); - fHistProtonMatchEtaPtET = CreateEtaPtHisto2D("fHistProtonMatchEtaPtET_","MC E_{T}, primary Protons","E_{T}(GeV)"); - - fHistProtonEtaET = CreateEtaEtHisto2D("fHistProtonEtaET_","MC primary Protons","#"); - fHistProtonAccEtaET = CreateEtaEtHisto2D("fHistProtonAccEtaET_","MC primary Protons","#"); - fHistProtonRecEtaET = CreateEtaEtHisto2D("fHistProtonRecEtaET_","MC primary Protons","#"); - fHistProtonMatchEtaET = CreateEtaEtHisto2D("fHistProtonMatchEtaET_","MC primary Protons","#"); - - fHistProtonEtaE = CreateEtaEHisto2D("fHistProtonEtaE_","MC primary Protons","#"); - fHistProtonAccEtaE = CreateEtaEHisto2D("fHistProtonAccEtaE_","MC primary Protons","#"); - fHistProtonRecEtaE = CreateEtaEHisto2D("fHistProtonRecEtaE_","MC primary Protons","#"); - fHistProtonMatchEtaE = CreateEtaEHisto2D("fHistProtonMatchEtaE_","MC primary Protons","#"); - - fHistProtonEtaPt = CreateEtaPtHisto2D("fHistProtonEtaPt_","MC primary Protons","#"); - fHistProtonAccEtaPt = CreateEtaPtHisto2D("fHistProtonAccEtaPt_","MC primary Protons","#"); - fHistProtonRecEtaPt = CreateEtaPtHisto2D("fHistProtonRecEtaPt_","MC primary Protons","#"); - fHistProtonMatchEtaPt = CreateEtaPtHisto2D("fHistProtonMatchEtaPt_","MC primary Protons","#"); - - histname = "fHistProtontotET_" + fHistogramNameSuffix; - fHistProtontotET = new TH1F(histname.Data(),"total ET, MC primary Protons",fgNumOfEBins, fgEAxis); - histname = "fHistProtonAcctotET_" + fHistogramNameSuffix; - fHistProtonAcctotET = new TH1F(histname.Data(),"total ET, MC primary Protons",fgNumOfEBins, fgEAxis); - histname = "fHistProtonRectotET_" + fHistogramNameSuffix; - fHistProtonRectotET = new TH1F(histname.Data(),"total ET, MC primary Protons",fgNumOfEBins, fgEAxis); - histname = "fHistProtonMatchtotET_" + fHistogramNameSuffix; - fHistProtonMatchtotET = new TH1F(histname.Data(),"total ET, MC primary Protons",fgNumOfEBins, fgEAxis); - - histname = "fHistProtonRectotETDep_" + fHistogramNameSuffix; - fHistProtonRectotETDep = new TH1F(histname.Data(),"total ET, MC primary Protons",fgNumOfEBins, fgEAxis); - histname = "fHistProtonMatchtotETDep_" + fHistogramNameSuffix; - fHistProtonMatchtotETDep = new TH1F(histname.Data(),"total ET, MC primary Protons",fgNumOfEBins, fgEAxis); - - fHistProtonRecEtaEDepETDep = CreateEtaEHisto2D("fHistProtonRecEtaEDepETDep_","MC E_{T}, primary Protons, reconstructed","E_{T} dep (GeV)"); - fHistProtonMatchEtaEDepETDep = CreateEtaEHisto2D("fHistProtonMatchEtaEDepETDep_","MC E_{T}, primary Protons, tracking matched","E_{T} dep (GeV)"); - - fHistProtonRecEtaPtETDep = CreateEtaPtHisto2D("fHistProtonRecEtaPtETDep_","MC E_{T}, primary Protons","E_{T} dep (GeV)"); - fHistProtonMatchEtaPtETDep = CreateEtaPtHisto2D("fHistProtonMatchEtaPtETDep_","MC E_{T}, primary Protons","E_{T} dep(GeV)"); - - fHistProtonRecEtaETDep = CreateEtaEtHisto2D("fHistProtonRecEtaETDep_","MC primary Protons","#"); - fHistProtonMatchEtaETDep = CreateEtaEtHisto2D("fHistProtonMatchEtaETDep_","MC primary Protons","#"); - - fHistProtonRecResEET = CreateResEHisto2D("fHistProtonRecResEET_","MC E_{T}, primary Protons","E_{T}(GeV)"); - fHistProtonRecResPtET = CreateResPtHisto2D("fHistProtonRecResPtET_","MC E_{T}, primary Protons","E_{T}(GeV)"); - fHistProtonRecResE = CreateResEHisto2D("fHistProtonRecResE_","MC primary Protons","#"); - fHistProtonRecResPt = CreateResPtHisto2D("fHistProtonRecResPt_","MC primary Protons","#"); - fHistProtonRecResEDepETDep = CreateResEHisto2D("fHistProtonRecResEDepETDep_","MC E_{T}, primary Protons","E_{T} dep (GeV)"); - fHistProtonRecResPtETDep = CreateResPtHisto2D("fHistProtonRecResPtETDep_","MC E_{T}, primary Protons","E_{T} dep (GeV)"); - - histname = "fHistTotChargedtotET_" + fHistogramNameSuffix; - fHistTotChargedtotET = new TH1F(histname.Data(),"total ET, MC primary charged particles",fgNumOfEBins, fgEAxis); - histname = "fHistTotChargedAcctotET_" + fHistogramNameSuffix; - fHistTotChargedAcctotET = new TH1F(histname.Data(),"total ET, MC primary charged particles",fgNumOfEBins, fgEAxis); - histname = "fHistTotChargedRectotET_" + fHistogramNameSuffix; - fHistTotChargedRectotET = new TH1F(histname.Data(),"total ET, MC primary charged particles",fgNumOfEBins, fgEAxis); - histname = "fHistTotChargedMatchtotET_" + fHistogramNameSuffix; - fHistTotChargedMatchtotET = new TH1F(histname.Data(),"total ET, MC primary charged particles",fgNumOfEBins, fgEAxis); - - histname = "fHistTotChargedRectotETDep_" + fHistogramNameSuffix; - fHistTotChargedRectotETDep = new TH1F(histname.Data(),"total ET, MC primary charged particles",fgNumOfEBins, fgEAxis); - histname = "fHistTotChargedMatchtotETDep_" + fHistogramNameSuffix; - fHistTotChargedMatchtotETDep = new TH1F(histname.Data(),"total ET, MC primary charged particles",fgNumOfEBins, fgEAxis); - - fHistNeutronEtaEET = CreateEtaEHisto2D("fHistNeutronEtaEET_","MC E_{T}, primary Neutrons","E_{T}(GeV)"); - fHistNeutronAccEtaEET = CreateEtaEHisto2D("fHistNeutronAccEtaEET_","MC E_{T}, primary Neutrons, inside EMCal acceptance","E_{T}(GeV)"); - fHistNeutronRecEtaEET = CreateEtaEHisto2D("fHistNeutronRecEtaEET_","MC E_{T}, primary Neutrons, reconstructed","E_{T}(GeV)"); - - fHistNeutronEtaPtET = CreateEtaPtHisto2D("fHistNeutronEtaPtET_","MC E_{T}, primary Neutrons","E_{T}(GeV)"); - fHistNeutronAccEtaPtET = CreateEtaPtHisto2D("fHistNeutronAccEtaPtET_","MC E_{T}, primary Neutrons","E_{T}(GeV)"); - fHistNeutronRecEtaPtET = CreateEtaPtHisto2D("fHistNeutronRecEtaPtET_","MC E_{T}, primary Neutrons","E_{T}(GeV)"); - - fHistNeutronEtaET = CreateEtaEtHisto2D("fHistNeutronEtaET_","MC primary Neutrons","#"); - fHistNeutronAccEtaET = CreateEtaEtHisto2D("fHistNeutronAccEtaET_","MC primary Neutrons","#"); - fHistNeutronRecEtaET = CreateEtaEtHisto2D("fHistNeutronRecEtaET_","MC primary Neutrons","#"); - - fHistNeutronEtaE = CreateEtaEHisto2D("fHistNeutronEtaE_","MC primary Neutrons","#"); - fHistNeutronAccEtaE = CreateEtaEHisto2D("fHistNeutronAccEtaE_","MC primary Neutrons","#"); - fHistNeutronRecEtaE = CreateEtaEHisto2D("fHistNeutronRecEtaE_","MC primary Neutrons","#"); - - fHistNeutronEtaPt = CreateEtaPtHisto2D("fHistNeutronEtaPt_","MC primary Neutrons","#"); - fHistNeutronAccEtaPt = CreateEtaPtHisto2D("fHistNeutronAccEtaPt_","MC primary Neutrons","#"); - fHistNeutronRecEtaPt = CreateEtaPtHisto2D("fHistNeutronRecEtaPt_","MC primary Neutrons","#"); - - histname = "fHistNeutrontotET_" + fHistogramNameSuffix; - fHistNeutrontotET = new TH1F(histname.Data(),"total ET, MC primary Neutrons",fgNumOfEBins, fgEAxis); - histname = "fHistNeutronAcctotET_" + fHistogramNameSuffix; - fHistNeutronAcctotET = new TH1F(histname.Data(),"total ET, MC primary Neutrons",fgNumOfEBins, fgEAxis); - histname = "fHistNeutronRectotET_" + fHistogramNameSuffix; - fHistNeutronRectotET = new TH1F(histname.Data(),"total ET, MC primary Neutrons",fgNumOfEBins, fgEAxis); - histname = "fHistNeutronRectotETDep_" + fHistogramNameSuffix; - fHistNeutronRectotETDep = new TH1F(histname.Data(),"total ET, MC primary Neutrons",fgNumOfEBins, fgEAxis); - - fHistNeutronRecEtaEDepETDep = CreateEtaEHisto2D("fHistNeutronRecEtaEDepETDep_","MC E_{T}, primary Neutrons, reconstructed","E_{T} dep (GeV)"); - fHistNeutronRecEtaETDep = CreateEtaEtHisto2D("fHistNeutronRecEtaETDep_","MC primary Neutrons","#"); - - fHistNeutronRecEtaPtETDep = CreateEtaPtHisto2D("fHistNeutronRecEtaPtETDep_","MC E_{T}, primary Neutrons","E_{T} dep (GeV)"); - - fHistK0EtaEET = CreateEtaEHisto2D("fHistK0EtaEET_","MC E_{T}, K0S daughters","E_{T}(GeV)"); - fHistK0RecEtaEET = CreateEtaEHisto2D("fHistK0RecEtaEET_","MC E_{T}, K0S daughters, reconstructed","E_{T}(GeV)"); - - fHistK0EtaPtET = CreateEtaPtHisto2D("fHistK0EtaPtET_","MC E_{T}, K0S daughters","E_{T}(GeV)"); - fHistK0RecEtaPtET = CreateEtaPtHisto2D("fHistK0RecEtaPtET_","MC E_{T}, K0S daughters","E_{T}(GeV)"); - - fHistK0EtaET = CreateEtaEtHisto2D("fHistK0EtaET_","MC K0S daughters","#"); - fHistK0RecEtaET = CreateEtaEtHisto2D("fHistK0RecEtaET_","MC K0S daughters","#"); - - fHistK0EtaE = CreateEtaEHisto2D("fHistK0EtaE_","MC K0S daughters","#"); - fHistK0RecEtaE = CreateEtaEHisto2D("fHistK0RecEtaE_","MC K0S daughters","#"); - - fHistK0EtaPt = CreateEtaPtHisto2D("fHistK0EtaPt_","MC K0S daughters","#"); - fHistK0RecEtaPt = CreateEtaPtHisto2D("fHistK0RecEtaPt_","MC K0S daughters","#"); - - histname = "fHistK0totET_" + fHistogramNameSuffix; - fHistK0totET = new TH1F(histname.Data(),"total ET, MC K0s daughters",fgNumOfEBins, fgEAxis); - histname = "fHistK0RectotET_" + fHistogramNameSuffix; - fHistK0RectotET = new TH1F(histname.Data(),"total ET, MC K0s daughters",fgNumOfEBins, fgEAxis); - histname = "fHistK0RectotETDep_" + fHistogramNameSuffix; - fHistK0RectotETDep = new TH1F(histname.Data(),"total ET, MC K0s daughters",fgNumOfEBins, fgEAxis); - - fHistK0RecEtaEDepETDep = CreateEtaEHisto2D("fHistK0RecEtaEDepETDep_","MC E_{T}, MC K0s daughters, reconstructed","E_{T} dep (GeV)"); - fHistK0RecEtaETDep = CreateEtaEtHisto2D("fHistK0RecEtaETDep_","MC K0s daughters","#"); - - fHistK0RecEtaPtETDep = CreateEtaPtHisto2D("fHistK0RecEtaPtETDep_","MC E_{T}, MC K0s daughters","E_{T} dep (GeV)"); - - fHistLambdaEtaEET = CreateEtaEHisto2D("fHistLambdaEtaEET_","MC E_{T}, Lambda daughters","E_{T}(GeV)"); - fHistLambdaRecEtaEET = CreateEtaEHisto2D("fHistLambdaRecEtaEET_","MC E_{T}, Lambda daughters, reconstructed","E_{T}(GeV)"); - - fHistLambdaEtaPtET = CreateEtaPtHisto2D("fHistLambdaEtaPtET_","MC E_{T}, Lambda daughters","E_{T}(GeV)"); - fHistLambdaRecEtaPtET = CreateEtaPtHisto2D("fHistLambdaRecEtaPtET_","MC E_{T}, Lambda daughters","E_{T}(GeV)"); - - fHistLambdaEtaET = CreateEtaEtHisto2D("fHistLambdaEtaET_","MC Lambda daughters","#"); - fHistLambdaRecEtaET = CreateEtaEtHisto2D("fHistLambdaRecEtaET_","MC Lambda daughters","#"); - - fHistLambdaEtaE = CreateEtaEHisto2D("fHistLambdaEtaE_","MC Lambda daughters","#"); - fHistLambdaRecEtaE = CreateEtaEHisto2D("fHistLambdaRecEtaE_","MC Lambda daughters","#"); - - fHistLambdaEtaPt = CreateEtaPtHisto2D("fHistLambdaEtaPt_","MC Lambda daughters","#"); - fHistLambdaRecEtaPt = CreateEtaPtHisto2D("fHistLambdaRecEtaPt_","MC Lambda daughters","#"); - - histname = "fHistLambdatotET_" + fHistogramNameSuffix; - fHistLambdatotET = new TH1F(histname.Data(),"total ET, MC Lambdas daughters",fgNumOfEBins, fgEAxis); - histname = "fHistLambdaRectotET_" + fHistogramNameSuffix; - fHistLambdaRectotET = new TH1F(histname.Data(),"total ET, MC Lambdas daughters",fgNumOfEBins, fgEAxis); - histname = "fHistLambdaRectotETDep_" + fHistogramNameSuffix; - fHistLambdaRectotETDep = new TH1F(histname.Data(),"total ET, MC Lambdas daughters",fgNumOfEBins, fgEAxis); - - fHistLambdaRecEtaEDepETDep = CreateEtaEHisto2D("fHistLambdaRecEtaEDepETDep_","MC E_{T}, MC Lambdas daughters, reconstructed","E_{T} dep (GeV)"); - fHistLambdaRecEtaETDep = CreateEtaEtHisto2D("fHistLambdaRecEtaETDep_","MC Lambdas daughters","#"); - - fHistLambdaRecEtaPtETDep = CreateEtaPtHisto2D("fHistLambdaRecEtaPtETDep_","MC E_{T}, MC Lambdas daughters","E_{T} dep (GeV)"); - - histname = "fHistTotNeutraltotET_" + fHistogramNameSuffix; - fHistTotNeutraltotET = new TH1F(histname.Data(),"total ET, MC Lambdas daughters",fgNumOfEBins, fgEAxis); - histname = "fHistTotNeutralRectotET_" + fHistogramNameSuffix; - fHistTotNeutralRectotET = new TH1F(histname.Data(),"total ET, MC Lambdas daughters",fgNumOfEBins, fgEAxis); - histname = "fHistTotNeutralRectotETDep_" + fHistogramNameSuffix; - fHistTotNeutralRectotETDep = new TH1F(histname.Data(),"total ET, MC Lambdas daughters",fgNumOfEBins, fgEAxis); - - histname = "fHistTotaltotET_" + fHistogramNameSuffix; - fHistTotaltotET = new TH1F(histname.Data(),"total ET, all particles",fgNumOfEBins, fgEAxis); - histname = "fHistTotalAcctotET_" + fHistogramNameSuffix; - fHistTotalAcctotET = new TH1F(histname.Data(),"total ET, all particles",fgNumOfEBins, fgEAxis); - histname = "fHistTotalRectotET_" + fHistogramNameSuffix; - fHistTotalRectotET = new TH1F(histname.Data(),"total ET, all particles",fgNumOfEBins, fgEAxis); - histname = "fHistTotalRectotETDep_" + fHistogramNameSuffix; - fHistTotalRectotETDep = new TH1F(histname.Data(),"total ET, all particles",fgNumOfEBins, fgEAxis); - - histname = "fHistAll_ERecvsMC_" + fHistogramNameSuffix; - fHistAllERecEMC = new TH2F(histname.Data(),"E cluster Rec vs MC, all particles",fgNumOfEBins, fgEAxis,fgNumOfEBins, fgEAxis); - fHistAllERecEMC->SetXTitle("E_{MC}(GeV)"); - fHistAllERecEMC->SetYTitle("E_{Rec}(GeV)"); - - histname = "fHistElectron_ERecvsMC_" + fHistogramNameSuffix; - fHistElectronERecEMC = new TH2F(histname.Data(),"E cluster Rec vs MC, Electrons",fgNumOfEBins, fgEAxis,fgNumOfEBins, fgEAxis); - fHistElectronERecEMC->SetXTitle("E_{MC}(GeV)"); - fHistElectronERecEMC->SetYTitle("E_{Rec}(GeV)"); - - histname = "fHistGamma_ERecvsMC_" + fHistogramNameSuffix; - fHistGammaERecEMC = new TH2F(histname.Data(),"E cluster Rec vs MC, Gammas",fgNumOfEBins, fgEAxis,fgNumOfEBins, fgEAxis); - fHistGammaERecEMC->SetXTitle("E_{MC}(GeV)"); - fHistGammaERecEMC->SetYTitle("E_{Rec}(GeV)"); - - histname = "fHistAllPtRecPtMC_" + fHistogramNameSuffix; - fHistAllPtRecPtMC = new TH2F(histname.Data(),"pt track Rec vs MC, all particles",fgNumOfEBins, fgEAxis,fgNumOfEBins, fgEAxis); - fHistAllPtRecPtMC->SetXTitle("p_{T}^{MC}(GeV/c)"); - fHistAllPtRecPtMC->SetYTitle("p_{T}^{Rec}(GeV/c)"); - - histname = "fHistChargedRes_" + fHistogramNameSuffix; - fHistChargedRes = new TH2F(histname.Data(),"#Delta#phi vs #Delta#eta (track projection - cluster position), charged particles",200,-0.1,0.1,200,-0.1,0.1); - fHistChargedRes->SetXTitle("#Delta#phi"); - fHistChargedRes->SetYTitle("#Delta#eta"); - - histname = "fHistChargedRes2_" + fHistogramNameSuffix; - fHistChargedRes2 = new TH2F(histname.Data(),"#Delta#phi vs #Delta#eta (track projection - cluster position), charged particles",200,-0.1,0.1,200,-0.1,0.1); - fHistChargedRes2->SetXTitle("#Delta#phi"); - fHistChargedRes2->SetYTitle("#Delta#eta"); - - histname = "fHistChargedRes3_" + fHistogramNameSuffix; - fHistChargedRes3 = new TH2F(histname.Data(),"#Delta#phi vs #Delta#eta (track projection - cluster position), charged particles",200,-0.1,0.1,200,-0.1,0.1); - fHistChargedRes3->SetXTitle("#Delta#phi"); - fHistChargedRes3->SetYTitle("#Delta#eta"); - - histname = "fHistNeutralRes_" + fHistogramNameSuffix; - fHistNeutralRes = new TH2F(histname.Data(),"#Delta#phi vs #Delta#eta (track projection - cluster position), neutral particles",200,-0.1,0.1,200,-0.1,0.1); - fHistNeutralRes->SetXTitle("#Delta#phi"); - fHistNeutralRes->SetYTitle("#Delta#eta"); - - histname = "fHistElectronRes_" + fHistogramNameSuffix; - fHistElectronRes = new TH2F(histname.Data(),"#Delta#phi vs #Delta#eta (track projection - cluster position, Electrons",200,-0.1,0.1,200,-0.1,0.1); - fHistElectronRes->SetXTitle("#Delta#phi"); - fHistElectronRes->SetYTitle("#Delta#eta"); - - histname = "fHistGammaRes_" + fHistogramNameSuffix; - fHistGammaRes = new TH2F(histname.Data(),"#Delta#phi vs #Delta#eta (track projection - cluster position, Gammas",200,-0.1,0.1,200,-0.1,0.1); - fHistGammaRes->SetXTitle("#Delta#phi"); - fHistGammaRes->SetYTitle("#Delta#eta"); - - histname = "fHistIsInAcc_" + fHistogramNameSuffix; - //fHistIsInAcc = new TH2F(histname.Data(),"X,Y position of particle projection inside EMCal",1201,-600.5,600.5,1201,-600.5,600.5); - //fHistIsInAcc->SetXTitle("X (cm)"); - //fHistIsInAcc->SetYTitle("Y (cm)"); - fHistIsInAcc = new TH2F(histname.Data(),"#phhi, #eta position of particle projection inside EMCal",360,0.,360.,200,-1.,1.); - fHistIsInAcc->SetXTitle("#phi"); - fHistIsInAcc->SetYTitle("#eta"); - - histname = "fHistElectronFirstMother_" + fHistogramNameSuffix; - fHistElectronFirstMother = new TH1F(histname.Data(),"Electron First Mother PDG Code",1201,-600.5,600.5); - histname = "fHistElectronFirstMotherXY_" + fHistogramNameSuffix; - fHistElectronFirstMotherXY = new TH2F(histname.Data(),"Electron Mother X,Y vertex position",1201,-600.5,600.5,1201,-600.5,600.5); - histname = "fHistElectronNDaughters_" + fHistogramNameSuffix; - fHistElectronNDaughters = new TH1F(histname.Data(),"Number of Electron Daugthers, inside EMCal acceptance",11,-0.5,10.5); - histname = "fHistElectronDaughters_" + fHistogramNameSuffix; - fHistElectronDaughters = new TH1F(histname.Data(),"Electron Daugther PDG Code",1201,-600.5,600.5); - histname = "fHistElectronDaughtersXY_" + fHistogramNameSuffix; - fHistElectronDaughtersXY = new TH2F(histname.Data(),"Electron Daugther X,Y vertex position",1201,-600.5,600.5,1201,-600.5,600.5); - - histname = "fHistElectronFirstMotherAcc_" + fHistogramNameSuffix; - fHistElectronFirstMotherAcc = new TH1F(histname.Data(),"Electron First Mother PDG Code, inside EMCal acceptance",1201,-600.5,600.5); - histname = "fHistElectronFirstMotherXYAcc_" + fHistogramNameSuffix; - fHistElectronFirstMotherXYAcc = new TH2F(histname.Data(),"Electron Mother X,Y vertex position, inside EMCal acceptance",1201,-600.5,600.5,1201,-600.5,600.5); - histname = "fHistElectronNDaughtersAcc_" + fHistogramNameSuffix; - fHistElectronNDaughtersAcc = new TH1F(histname.Data(),"Number of Electron Daugthers, inside EMCal acceptance",11,-0.5,10.5); - histname = "fHistElectronDaughtersAcc_" + fHistogramNameSuffix; - fHistElectronDaughtersAcc = new TH1F(histname.Data(),"Electron Daugther PDG Code, inside EMCal acceptance",1201,-600.5,600.5); - histname = "fHistElectronDaughtersXYAcc_" + fHistogramNameSuffix; - fHistElectronDaughtersXYAcc = new TH2F(histname.Data(),"Electron Daugther X,Y vertex position, inside EMCal acceptance",1201,-600.5,600.5,1201,-600.5,600.5); - - histname = "fHistElectronFirstMotherRec_" + fHistogramNameSuffix; - fHistElectronFirstMotherRec = new TH1F(histname.Data(),"Reconstructed Electron First Mother PDG Code",1201,-600.5,600.5); - histname = "fHistElectronFirstMotherXYRec_" + fHistogramNameSuffix; - fHistElectronFirstMotherXYRec = new TH2F(histname.Data(),"Electron Mother X,Y vertex position, inside EMCal acceptance",1201,-600.5,600.5,1201,-600.5,600.5); - histname = "fHistElectronNDaughtersRec_" + fHistogramNameSuffix; - fHistElectronNDaughtersRec = new TH1F(histname.Data(),"Number of Electron Daugthers, inside EMCal acceptance",11,-0.5,10.5); - histname = "fHistElectronDaughtersRec_" + fHistogramNameSuffix; - fHistElectronDaughtersRec = new TH1F(histname.Data(),"Electron Daugther PDG Code",1201,-600.5,600.5); - histname = "fHistElectronDaughtersXYRec_" + fHistogramNameSuffix; - fHistElectronDaughtersXYRec = new TH2F(histname.Data(),"Electron Daugther X,Y vertex position",1201,-600.5,600.5,1201,-600.5,600.5); - - histname = "fHistNPPElectronFirstMother_" + fHistogramNameSuffix; - fHistNPPElectronFirstMother = new TH1F(histname.Data(),"Electron First Mother PDG Code",1201,-600.5,600.5); - histname = "fHistNPPElectronFirstMotherXY_" + fHistogramNameSuffix; - fHistNPPElectronFirstMotherXY = new TH2F(histname.Data(),"Electron Mother X,Y vertex position",1201,-600.5,600.5,1201,-600.5,600.5); - histname = "fHistNPPElectronNDaughters_" + fHistogramNameSuffix; - fHistNPPElectronNDaughters = new TH1F(histname.Data(),"Number of Electron Daugthers",11,-0.5,10.5); - histname = "fHistNPPElectronDaughters_" + fHistogramNameSuffix; - fHistNPPElectronDaughters = new TH1F(histname.Data(),"Electron Daugther PDG Code",1201,-600.5,600.5); - histname = "fHistNPPElectronDaughtersXY_" + fHistogramNameSuffix; - fHistNPPElectronDaughtersXY = new TH2F(histname.Data(),"Electron Daugther X,Y vertex position",1201,-600.5,600.5,1201,-600.5,600.5); - - histname = "fHistNPPElectronFirstMotherAcc_" + fHistogramNameSuffix; - fHistNPPElectronFirstMotherAcc = new TH1F(histname.Data(),"Electron First Mother PDG Code, inside EMCal acceptance",1201,-600.5,600.5); - histname = "fHistNPPElectronFirstMotherXYAcc_" + fHistogramNameSuffix; - fHistNPPElectronFirstMotherXYAcc = new TH2F(histname.Data(),"Electron Mother X,Y vertex position, inside EMCal acceptance",1201,-600.5,600.5,1201,-600.5,600.5); - histname = "fHistNPPElectronNDaughtersAcc_" + fHistogramNameSuffix; - fHistNPPElectronNDaughtersAcc = new TH1F(histname.Data(),"Number of Electron Daugthers, inside EMCal acceptance",11,-0.5,10.5); - histname = "fHistNPPElectronDaughtersAcc_" + fHistogramNameSuffix; - fHistNPPElectronDaughtersAcc = new TH1F(histname.Data(),"Electron Daugther PDG Code, inside EMCal acceptance",1201,-600.5,600.5); - histname = "fHistNPPElectronDaughtersXYAcc_" + fHistogramNameSuffix; - fHistNPPElectronDaughtersXYAcc = new TH2F(histname.Data(),"Electron Daugther X,Y vertex position, inside EMCal acceptance",1201,-600.5,600.5,1201,-600.5,600.5); - - histname = "fHistNPPElectronFirstMotherRec_" + fHistogramNameSuffix; - fHistNPPElectronFirstMotherRec = new TH1F(histname.Data(),"Reconstructed Electron First Mother PDG Code",1201,-600.5,600.5); - histname = "fHistNPPElectronFirstMotherXYRec_" + fHistogramNameSuffix; - fHistNPPElectronFirstMotherXYRec = new TH2F(histname.Data(),"Electron Mother X,Y vertex position, inside EMCal acceptance",1201,-600.5,600.5,1201,-600.5,600.5); - histname = "fHistNPPElectronNDaughtersRec_" + fHistogramNameSuffix; - fHistNPPElectronNDaughtersRec = new TH1F(histname.Data(),"Number of Electron Daugthers, inside EMCal acceptance",11,-0.5,10.5); - histname = "fHistNPPElectronDaughtersRec_" + fHistogramNameSuffix; - fHistNPPElectronDaughtersRec = new TH1F(histname.Data(),"Electron Daugther PDG Code",1201,-600.5,600.5); - histname = "fHistNPPElectronDaughtersXYRec_" + fHistogramNameSuffix; - fHistNPPElectronDaughtersXYRec = new TH2F(histname.Data(),"Electron Daugther X,Y vertex position",1201,-600.5,600.5,1201,-600.5,600.5); - - histname = "fHistGammaFirstMother_" + fHistogramNameSuffix; - fHistGammaFirstMother = new TH1F(histname.Data(),"Gamma First Mother PDG Code",1201,-600.5,600.5); - histname = "fHistGammaFirstMotherXY_" + fHistogramNameSuffix; - fHistGammaFirstMotherXY = new TH2F(histname.Data(),"Gamma Mother X,Y vertex position",1201,-600.5,600.5,1201,-600.5,600.5); - histname = "fHistGammaNDaughters_" + fHistogramNameSuffix; - fHistGammaNDaughters = new TH1F(histname.Data(),"Number of Gamma Daugthers, inside EMCal acceptance",11,-0.5,10.5); - histname = "fHistGammaDaughters_" + fHistogramNameSuffix; - fHistGammaDaughters = new TH1F(histname.Data(),"Gamma Daugther PDG Code",1201,-600.5,600.5); - histname = "fHistGammaDaughtersXY_" + fHistogramNameSuffix; - fHistGammaDaughtersXY = new TH2F(histname.Data(),"Gamma Daugther X,Y vertex position",1201,-600.5,600.5,1201,-600.5,600.5); - histname = "fHistConvGammaDaughtersXY_" + fHistogramNameSuffix; - fHistConvGammaDaughtersXY = new TH2F(histname.Data(),"Gamma Daugther X,Y vertex position",1201,-600.5,600.5,1201,-600.5,600.5); - histname = "fHistNonConvGammaDaughtersXY_" + fHistogramNameSuffix; - fHistNonConvGammaDaughtersXY = new TH2F(histname.Data(),"Gamma Daugther X,Y vertex position",1201,-600.5,600.5,1201,-600.5,600.5); - - histname = "fHistGammaFirstMotherAcc_" + fHistogramNameSuffix; - fHistGammaFirstMotherAcc = new TH1F(histname.Data(),"Gamma First Mother PDG Code, inside EMCal acceptance",1201,-600.5,600.5); - histname = "fHistGammaFirstMotherXYAcc_" + fHistogramNameSuffix; - fHistGammaFirstMotherXYAcc = new TH2F(histname.Data(),"Gamma Mother X,Y vertex position, inside EMCal acceptance",1201,-600.5,600.5,1201,-600.5,600.5); - histname = "fHistGammaNDaughtersAcc_" + fHistogramNameSuffix; - fHistGammaNDaughtersAcc = new TH1F(histname.Data(),"Number of Gamma Daugthers, inside EMCal acceptance",11,-0.5,10.5); - histname = "fHistGammaDaughtersAcc_" + fHistogramNameSuffix; - fHistGammaDaughtersAcc = new TH1F(histname.Data(),"Gamma Daugther PDG Code, inside EMCal acceptance",1201,-600.5,600.5); - histname = "fHistGammaDaughtersXYAcc_" + fHistogramNameSuffix; - fHistGammaDaughtersXYAcc = new TH2F(histname.Data(),"Gamma Daugther X,Y vertex position, inside EMCal acceptance",1201,-600.5,600.5,1201,-600.5,600.5); - histname = "fHistConvGammaDaughtersXYAcc_" + fHistogramNameSuffix; - fHistConvGammaDaughtersXYAcc = new TH2F(histname.Data(),"Gamma Daugther X,Y vertex position",1201,-600.5,600.5,1201,-600.5,600.5); - histname = "fHistNonConvGammaDaughtersXYAcc_" + fHistogramNameSuffix; - fHistNonConvGammaDaughtersXYAcc = new TH2F(histname.Data(),"Gamma Daugther X,Y vertex position",1201,-600.5,600.5,1201,-600.5,600.5); - - histname = "fHistGammaFirstMotherRec_" + fHistogramNameSuffix; - fHistGammaFirstMotherRec = new TH1F(histname.Data(),"Reconstructed Gamma First Mother PDG Code",1201,-600.5,600.5); - histname = "fHistGammaFirstMotherXYRec_" + fHistogramNameSuffix; - fHistGammaFirstMotherXYRec = new TH2F(histname.Data(),"Gamma Mother X,Y vertex position, inside EMCal acceptance",1201,-600.5,600.5,1201,-600.5,600.5); - histname = "fHistGammaNDaughtersRec_" + fHistogramNameSuffix; - fHistGammaNDaughtersRec = new TH1F(histname.Data(),"Number of Gamma Daugthers, inside EMCal acceptance",11,-0.5,10.5); - histname = "fHistGammaDaughtersRec_" + fHistogramNameSuffix; - fHistGammaDaughtersRec = new TH1F(histname.Data(),"Gamma Daugther PDG Code",1201,-600.5,600.5); - histname = "fHistGammaDaughtersXYRec_" + fHistogramNameSuffix; - fHistGammaDaughtersXYRec = new TH2F(histname.Data(),"Gamma Daugther X,Y vertex position",1201,-600.5,600.5,1201,-600.5,600.5); - histname = "fHistConvGammaDaughtersXYRec_" + fHistogramNameSuffix; - fHistConvGammaDaughtersXYRec = new TH2F(histname.Data(),"Gamma Daugther X,Y vertex position",1201,-600.5,600.5,1201,-600.5,600.5); - histname = "fHistNonConvGammaDaughtersXYRec_" + fHistogramNameSuffix; - fHistNonConvGammaDaughtersXYRec = new TH2F(histname.Data(),"Gamma Daugther X,Y vertex position",1201,-600.5,600.5,1201,-600.5,600.5); - - histname = "fHistNPPGammaFirstMother_" + fHistogramNameSuffix; - fHistNPPGammaFirstMother = new TH1F(histname.Data(),"Gamma First Mother PDG Code",1201,-600.5,600.5); - histname = "fHistNPPGammaFirstMotherXY_" + fHistogramNameSuffix; - fHistNPPGammaFirstMotherXY = new TH2F(histname.Data(),"Gamma Mother X,Y vertex position",1201,-600.5,600.5,1201,-600.5,600.5); - histname = "fHistNPPGammaNDaughters_" + fHistogramNameSuffix; - fHistNPPGammaNDaughters = new TH1F(histname.Data(),"Number of Gamma Daugthers",11,-0.5,10.5); - histname = "fHistNPPGammaDaughters_" + fHistogramNameSuffix; - fHistNPPGammaDaughters = new TH1F(histname.Data(),"Gamma Daugther PDG Code",1201,-600.5,600.5); - histname = "fHistNPPGammaDaughtersXY_" + fHistogramNameSuffix; - fHistNPPGammaDaughtersXY = new TH2F(histname.Data(),"Gamma Daugther X,Y vertex position",1201,-600.5,600.5,1201,-600.5,600.5); - - histname = "fHistNPPGammaFirstMotherAcc_" + fHistogramNameSuffix; - fHistNPPGammaFirstMotherAcc = new TH1F(histname.Data(),"Gamma First Mother PDG Code, inside EMCal acceptance",1201,-600.5,600.5); - histname = "fHistNPPGammaFirstMotherXYAcc_" + fHistogramNameSuffix; - fHistNPPGammaFirstMotherXYAcc = new TH2F(histname.Data(),"Gamma Mother X,Y vertex position, inside EMCal acceptance",1201,-600.5,600.5,1201,-600.5,600.5); - histname = "fHistNPPGammaNDaughtersAcc_" + fHistogramNameSuffix; - fHistNPPGammaNDaughtersAcc = new TH1F(histname.Data(),"Number of Gamma Daugthers, inside EMCal acceptance",11,-0.5,10.5); - histname = "fHistNPPGammaDaughtersAcc_" + fHistogramNameSuffix; - fHistNPPGammaDaughtersAcc = new TH1F(histname.Data(),"Gamma Daugther PDG Code, inside EMCal acceptance",1201,-600.5,600.5); - histname = "fHistNPPGammaDaughtersXYAcc_" + fHistogramNameSuffix; - fHistNPPGammaDaughtersXYAcc = new TH2F(histname.Data(),"Gamma Daugther X,Y vertex position, inside EMCal acceptance",1201,-600.5,600.5,1201,-600.5,600.5); - - histname = "fHistNPPGammaFirstMotherRec_" + fHistogramNameSuffix; - fHistNPPGammaFirstMotherRec = new TH1F(histname.Data(),"Reconstructed Gamma First Mother PDG Code",1201,-600.5,600.5); - histname = "fHistNPPGammaFirstMotherXYRec_" + fHistogramNameSuffix; - fHistNPPGammaFirstMotherXYRec = new TH2F(histname.Data(),"Gamma Mother X,Y vertex position, inside EMCal acceptance",1201,-600.5,600.5,1201,-600.5,600.5); - histname = "fHistNPPGammaNDaughtersRec_" + fHistogramNameSuffix; - fHistNPPGammaNDaughtersRec = new TH1F(histname.Data(),"Number of Gamma Daugthers, inside EMCal acceptance",11,-0.5,10.5); - histname = "fHistNPPGammaDaughtersRec_" + fHistogramNameSuffix; - fHistNPPGammaDaughtersRec = new TH1F(histname.Data(),"Gamma Daugther PDG Code",1201,-600.5,600.5); - histname = "fHistNPPGammaDaughtersXYRec_" + fHistogramNameSuffix; - fHistNPPGammaDaughtersXYRec = new TH2F(histname.Data(),"Gamma Daugther X,Y vertex position",1201,-600.5,600.5,1201,-600.5,600.5); +{ // histogram related Additions + //AliAnalysisEt::CreateHistograms(); + fSelector = new AliAnalysisEtSelectorEmcal(fCuts); + fHistPrimEtaEET = CreateEtaEHisto2D("fHistPrimEtaEET_","MC E_{T}, primary particles","E_{T}(GeV)"); + fHistPrimEtaPtET = CreateEtaPtHisto2D("fHistPrimEtaPtET_","MC E_{T}, primary particles","E_{T}(GeV)"); + fHistPrimEtaET = CreateEtaEtHisto2D("fHistPrimEtaET_","MC primary particles","#"); + TString histname = "fHistPrimtotET_" + fHistogramNameSuffix; + fHistPrimtotET = new TH1F(histname.Data(),"total ET, primary particles",fgNumOfEBins, fgEAxis); + + fHistPrimAccEtaEET = CreateEtaEHisto2D("fHistPrimAccEtaEET_","MC E_{T}, primary particles","E_{T}(GeV)"); + fHistPrimAccEtaPtET = CreateEtaPtHisto2D("fHistPrimAccEtaPtET_","MC E_{T}, primary particles","E_{T}(GeV)"); + fHistPrimAccEtaET = CreateEtaEtHisto2D("fHistPrimAccEtaET_","MC primary particles","#"); + histname = "fHistPrimAcctotET_" + fHistogramNameSuffix; + fHistPrimAcctotET = new TH1F(histname.Data(),"total ET, primary particles",fgNumOfEBins, fgEAxis); + + fHistPrimRecEtaEET = CreateEtaEHisto2D("fHistPrimRecEtaEET_","MC E_{T}, primary particles","E_{T}(GeV)"); + fHistPrimRecEtaPtET = CreateEtaPtHisto2D("fHistPrimRecEtaPtET_","MC E_{T}, primary particles","E_{T}(GeV)"); + fHistPrimRecEtaET = CreateEtaEtHisto2D("fHistPrimRecEtaET_","MC primary particles","#"); + histname = "fHistPrimRectotET_" + fHistogramNameSuffix; + fHistPrimRectotET = new TH1F(histname.Data(),"total ET, primary particles",fgNumOfEBins, fgEAxis); + + fHistPrimRecEtaEDepETDep = CreateEtaEHisto2D("fHistPrimRecEtaEDepETDep_","MC E_{T}, primary particles","E_{T}(GeV)"); + fHistPrimRecEtaPtETDep = CreateEtaPtHisto2D("fHistPrimRecEtaPtETDep_","MC E_{T}, primary particles","E_{T}(GeV)"); + fHistPrimRecEtaETDep = CreateEtaEtHisto2D("fHistPrimRecEtaETDep_","MC primary particles","#"); + histname = "fHistPrimRectotETDep_" + fHistogramNameSuffix; + fHistPrimRectotETDep = new TH1F(histname.Data(),"total ET, primary particles",fgNumOfEBins, fgEAxis); + + fHistElectronEtaEET = CreateEtaEHisto2D("fHistElectronEtaEET_","MC E_{T}, primary electrons","E_{T}(GeV)"); + fHistElectronEtaPtET = CreateEtaPtHisto2D("fHistElectronEtaPtET_","MC E_{T}, primary electrons","E_{T}(GeV)"); + fHistElectronEtaET = CreateEtaEtHisto2D("fHistElectronEtaET_","MC primary electrons","#"); + fHistElectronEtaE = CreateEtaEHisto2D("fHistElectronEtaE_","MC primary electrons","#"); + fHistElectronEtaPt = CreateEtaPtHisto2D("fHistElectronEtaPt_","MC primary electrons","#"); + histname = "fHistElectrontotET_" + fHistogramNameSuffix; + fHistElectrontotET = new TH1F(histname.Data(),"total ET, MC primary electrons",fgNumOfEBins, fgEAxis); + + fHistConvElectronEtaEET = CreateEtaEHisto2D("fHistConvElectronEtaEET_","MC E_{T}, electrons from conversion","E_{T}(GeV)"); + fHistConvElectronEtaPtET = CreateEtaPtHisto2D("fHistConvElectronEtaPtET_","MC E_{T}, electrons from conversion","E_{T}(GeV)"); + fHistConvElectronEtaET = CreateEtaEtHisto2D("fHistConvElectronEtaET_","MC electrons from conversion","#"); + fHistConvElectronEtaE = CreateEtaEHisto2D("fHistConvElectronEtaE_","MC electrons from conversion","#"); + fHistConvElectronEtaPt = CreateEtaPtHisto2D("fHistConvElectronEtaPt_","MC electrons from conversion","#"); + histname = "fHistConvElectrontotET_" + fHistogramNameSuffix; + fHistConvElectrontotET = new TH1F(histname.Data(),"total ET, MC electrons from conversion",fgNumOfEBins, fgEAxis); + + fHistScatElectronEtaEET = CreateEtaEHisto2D("fHistScatElectronEtaEET_","MC E_{T}, electrons from Scattering","E_{T}(GeV)"); + fHistScatElectronEtaPtET = CreateEtaPtHisto2D("fHistScatElectronEtaPtET_","MC E_{T}, electrons from Scattering","E_{T}(GeV)"); + fHistScatElectronEtaET = CreateEtaEtHisto2D("fHistScatElectronEtaET_","MC electrons from Scattering","#"); + fHistScatElectronEtaE = CreateEtaEHisto2D("fHistScatElectronEtaE_","MC electrons from Scattering","#"); + fHistScatElectronEtaPt = CreateEtaPtHisto2D("fHistScatElectronEtaPt_","MC electrons from Scattering","#"); + histname = "fHistScatElectrontotET_" + fHistogramNameSuffix; + fHistScatElectrontotET = new TH1F(histname.Data(),"total ET, MC electrons from Scattering",fgNumOfEBins, fgEAxis); + + histname = "fHistTotElectrontotET_" + fHistogramNameSuffix; + fHistTotElectrontotET = new TH1F(histname.Data(),"total ET, MC primary electrons",fgNumOfEBins, fgEAxis); + + fHistGammaEtaEET = CreateEtaEHisto2D("fHistGammaEtaEET_","MC E_{T}, primary gammas","E_{T}(GeV)"); + fHistGammaEtaPtET = CreateEtaPtHisto2D("fHistGammaEtaPtET_","MC E_{T}, primary gammas","E_{T}(GeV)"); + fHistGammaEtaET = CreateEtaEtHisto2D("fHistGammaEtaET_","MC primary gammas","#"); + fHistGammaEtaE = CreateEtaEHisto2D("fHistGammaEtaE_","MC primary gammas","#"); + fHistGammaEtaPt = CreateEtaPtHisto2D("fHistGammaEtaPt_","MC primary gammas","#"); + histname = "fHistGammatotET_" + fHistogramNameSuffix; + fHistGammatotET = new TH1F(histname.Data(),"total ET, MC primary gammas",fgNumOfEBins, fgEAxis); + + fHistAnnihGammaEtaEET = CreateEtaEHisto2D("fHistAnnihGammaEtaEET_","MC E_{T}, Annihilation gammas","E_{T}(GeV)"); + fHistAnnihGammaEtaPtET = CreateEtaPtHisto2D("fHistAnnihGammaEtaPtET_","MC E_{T}, Annihilation gammas","E_{T}(GeV)"); + fHistAnnihGammaEtaET = CreateEtaEtHisto2D("fHistAnnihGammaEtaET_","MC Annihilation gammas","#"); + fHistAnnihGammaEtaE = CreateEtaEHisto2D("fHistAnnihGammaEtaE_","MC Annihilation gammas","#"); + fHistAnnihGammaEtaPt = CreateEtaPtHisto2D("fHistAnnihGammaEtaPt_","MC Annihilation gammas","#"); + histname = "fHistAnnihGammatotET_" + fHistogramNameSuffix; + fHistAnnihGammatotET = new TH1F(histname.Data(),"total ET, MC Annihilation gammas",fgNumOfEBins, fgEAxis); + + fHistScatGammaEtaEET = CreateEtaEHisto2D("fHistScatGammaEtaEET_","MC E_{T}, Scattering gammas","E_{T}(GeV)"); + fHistScatGammaEtaPtET = CreateEtaPtHisto2D("fHistScatGammaEtaPtET_","MC E_{T}, Scattering gammas","E_{T}(GeV)"); + fHistScatGammaEtaET = CreateEtaEtHisto2D("fHistScatGammaEtaET_","MC Scattering gammas","#"); + fHistScatGammaEtaE = CreateEtaEHisto2D("fHistScatGammaEtaE_","MC Scattering gammas","#"); + fHistScatGammaEtaPt = CreateEtaPtHisto2D("fHistScatGammaEtaPt_","MC Scattering gammas","#"); + histname = "fHistScatGammatotET_" + fHistogramNameSuffix; + fHistScatGammatotET = new TH1F(histname.Data(),"total ET, MC Scattering gammas",fgNumOfEBins, fgEAxis); + + fHistConvGammaEtaEET = CreateEtaEHisto2D("fHistConvGammaEtaEET_","MC E_{T}, non conversion primary gammas","E_{T}(GeV)"); + fHistConvGammaEtaPtET = CreateEtaPtHisto2D("fHistConvGammaEtaPtET_","MC E_{T}, non conversion primary gammas","E_{T}(GeV)"); + fHistConvGammaEtaET = CreateEtaEtHisto2D("fHistConvGammaEtaET_","MC non conversion primary gammas","#"); + fHistConvGammaEtaE = CreateEtaEHisto2D("fHistConvGammaEtaE_","MC non conversion primary gammas","#"); + fHistConvGammaEtaPt = CreateEtaPtHisto2D("fHistConvGammaEtaPt_","MC non conversion primary gammas","#"); + histname = "fHistConvGammatotET_" + fHistogramNameSuffix; + fHistConvGammatotET = new TH1F(histname.Data(),"total ET, MC non conversion primary gammas",fgNumOfEBins, fgEAxis); + + fHistNonConvGammaEtaEET = CreateEtaEHisto2D("fHistNonConvGammaEtaEET_","MC E_{T}, non conversion primary gammas","E_{T}(GeV)"); + fHistNonConvGammaEtaPtET = CreateEtaPtHisto2D("fHistNonConvGammaEtaPtET_","MC E_{T}, non conversion primary gammas","E_{T}(GeV)"); + fHistNonConvGammaEtaET = CreateEtaEtHisto2D("fHistNonConvGammaEtaET_","MC non conversion primary gammas","#"); + fHistNonConvGammaEtaE = CreateEtaEHisto2D("fHistNonConvGammaEtaE_","MC non conversion primary gammas","#"); + fHistNonConvGammaEtaPt = CreateEtaPtHisto2D("fHistNonConvGammaEtaPt_","MC non conversion primary gammas","#"); + histname = "fHistNonConvGammatotET_" + fHistogramNameSuffix; + fHistNonConvGammatotET = new TH1F(histname.Data(),"total ET, MC non conversion primary gammas",fgNumOfEBins, fgEAxis); + + histname = "fHistTotGammatotET_" + fHistogramNameSuffix; + fHistTotGammatotET = new TH1F(histname.Data(),"total ET, MC primary gammas",fgNumOfEBins, fgEAxis); + + histname = "fHistTotEMtotET_" + fHistogramNameSuffix; + fHistTotEMtotET = new TH1F(histname.Data(),"total electromagnetic ET",fgNumOfEBins, fgEAxis); + + fHistNPPElectronEtaEET = CreateEtaEHisto2D("fHistNPPElectronEtaEET_","MC E_{T}, non-primary electrons","E_{T}(GeV)"); + fHistNPPElectronEtaPtET = CreateEtaPtHisto2D("fHistNPPElectronEtaPtET_","MC E_{T}, non-primary electrons","E_{T}(GeV)"); + fHistNPPElectronEtaET = CreateEtaEtHisto2D("fHistNPPElectronEtaET_","MC non-primary electrons","#"); + fHistNPPElectronEtaE = CreateEtaEHisto2D("fHistNPPElectronEtaE_","MC non-primary electrons","#"); + fHistNPPElectronEtaPt = CreateEtaPtHisto2D("fHistNPPElectronEtaPt_","MC non-primary electrons","#"); + histname = "fHistNPPElectrontotET_" + fHistogramNameSuffix; + fHistNPPElectrontotET = new TH1F(histname.Data(),"total ET, MC non-primary electrons",fgNumOfEBins, fgEAxis); + + fHistNPPGammaEtaEET = CreateEtaEHisto2D("fHistNPPGammaEtaEET_","MC E_{T}, non-primary gammas","E_{T}(GeV)"); + fHistNPPGammaEtaPtET = CreateEtaPtHisto2D("fHistNPPGammaEtaPtET_","MC E_{T}, non-primary gammas","E_{T}(GeV)"); + fHistNPPGammaEtaET = CreateEtaEtHisto2D("fHistNPPGammaEtaET_","MC non-primary gammas","#"); + fHistNPPGammaEtaE = CreateEtaEHisto2D("fHistNPPGammaEtaE_","MC non-primary gammas","#"); + fHistNPPGammaEtaPt = CreateEtaPtHisto2D("fHistNPPGammaEtaPt_","MC non-primary gammas","#"); + histname = "fHistNPPGammatotET_" + fHistogramNameSuffix; + fHistNPPGammatotET = new TH1F(histname.Data(),"total ET, MC non-primary gammas",fgNumOfEBins, fgEAxis); + + histname = "fHistTotNPPEMtotET_" + fHistogramNameSuffix; + fHistTotNPPEMtotET = new TH1F(histname.Data(),"total ET, MC non-primary electromagnetic",fgNumOfEBins, fgEAxis); + + fHistNPPPi0GammaEtaEET = CreateEtaEHisto2D("fHistNPPPi0GammaEtaEET_","MC E_{T}, non-primary gammas","E_{T}(GeV)"); + fHistNPPPi0GammaEtaPtET = CreateEtaPtHisto2D("fHistNPPPi0GammaEtaPtET_","MC E_{T}, non-primary gammas","E_{T}(GeV)"); + fHistNPPPi0GammaEtaET = CreateEtaEtHisto2D("fHistNPPPi0GammaEtaET_","MC non-primary gammas","#"); + fHistNPPPi0GammaEtaE = CreateEtaEHisto2D("fHistNPPPi0GammaEtaE_","MC non-primary gammas","#"); + fHistNPPPi0GammaEtaPt = CreateEtaPtHisto2D("fHistNPPPi0GammaEtaPt_","MC non-primary gammas","#"); + histname = "fHistNPPPi0GammatotET_" + fHistogramNameSuffix; + fHistNPPPi0GammatotET = new TH1F(histname.Data(),"total ET, MC non-primary gammas",fgNumOfEBins, fgEAxis); + + fHistElectronAccEtaEET = CreateEtaEHisto2D("fHistElectronAccEtaEET_","MC E_{T}, primary electrons","E_{T}(GeV)"); + fHistElectronAccEtaPtET = CreateEtaPtHisto2D("fHistElectronAccEtaPtET_","MC E_{T}, primary electrons","E_{T}(GeV)"); + fHistElectronAccEtaET = CreateEtaEtHisto2D("fHistElectronAccEtaET_","MC primary electrons","#"); + fHistElectronAccEtaE = CreateEtaEHisto2D("fHistElectronAccEtaE_","MC primary electrons","#"); + fHistElectronAccEtaPt = CreateEtaPtHisto2D("fHistElectronAccEtaPt_","MC primary electrons","#"); + histname = "fHistElectronAcctotET_" + fHistogramNameSuffix; + fHistElectronAcctotET = new TH1F(histname.Data(),"total ET, MC primary electrons",fgNumOfEBins, fgEAxis); + + fHistConvElectronAccEtaEET = CreateEtaEHisto2D("fHistConvElectronAccEtaEET_","MC E_{T}, electrons from conversion","E_{T}(GeV)"); + fHistConvElectronAccEtaPtET = CreateEtaPtHisto2D("fHistConvElectronAccEtaPtET_","MC E_{T}, electrons from conversion","E_{T}(GeV)"); + fHistConvElectronAccEtaET = CreateEtaEtHisto2D("fHistConvElectronAccEtaET_","MC electrons from conversion","#"); + fHistConvElectronAccEtaE = CreateEtaEHisto2D("fHistConvElectronAccEtaE_","MC electrons from conversion","#"); + fHistConvElectronAccEtaPt = CreateEtaPtHisto2D("fHistConvElectronAccEtaPt_","MC electrons from conversion","#"); + histname = "fHistConvElectronAcctotET_" + fHistogramNameSuffix; + fHistConvElectronAcctotET = new TH1F(histname.Data(),"total ET, MC electrons from conversion",fgNumOfEBins, fgEAxis); + + fHistScatElectronAccEtaEET = CreateEtaEHisto2D("fHistScatElectronAccEtaEET_","MC E_{T}, electrons from Scattering","E_{T}(GeV)"); + fHistScatElectronAccEtaPtET = CreateEtaPtHisto2D("fHistScatElectronAccEtaPtET_","MC E_{T}, electrons from Scattering","E_{T}(GeV)"); + fHistScatElectronAccEtaET = CreateEtaEtHisto2D("fHistScatElectronAccEtaET_","MC electrons from Scattering","#"); + fHistScatElectronAccEtaE = CreateEtaEHisto2D("fHistScatElectronAccEtaE_","MC electrons from Scattering","#"); + fHistScatElectronAccEtaPt = CreateEtaPtHisto2D("fHistScatElectronAccEtaPt_","MC electrons from Scattering","#"); + histname = "fHistScatElectronAcctotET_" + fHistogramNameSuffix; + fHistScatElectronAcctotET = new TH1F(histname.Data(),"total ET, MC electrons from Scattering",fgNumOfEBins, fgEAxis); + + histname = "fHistTotElectronAcctotET_" + fHistogramNameSuffix; + fHistTotElectronAcctotET = new TH1F(histname.Data(),"total ET, MC primary electrons",fgNumOfEBins, fgEAxis); + + fHistGammaAccEtaEET = CreateEtaEHisto2D("fHistGammaAccEtaEET_","MC E_{T}, primary gammas","E_{T}(GeV)"); + fHistGammaAccEtaPtET = CreateEtaPtHisto2D("fHistGammaAccEtaPtET_","MC E_{T}, primary gammas","E_{T}(GeV)"); + fHistGammaAccEtaET = CreateEtaEtHisto2D("fHistGammaAccEtaET_","MC primary gammas","#"); + fHistGammaAccEtaE = CreateEtaEHisto2D("fHistGammaAccEtaE_","MC primary gammas","#"); + fHistGammaAccEtaPt = CreateEtaPtHisto2D("fHistGammaAccEtaPt_","MC primary gammas","#"); + histname = "fHistGammaAcctotET_" + fHistogramNameSuffix; + fHistGammaAcctotET = new TH1F(histname.Data(),"total ET, MC primary gammas",fgNumOfEBins, fgEAxis); + + fHistAnnihGammaAccEtaEET = CreateEtaEHisto2D("fHistAnnihGammaAccEtaEET_","MC E_{T}, Annihilation gammas","E_{T}(GeV)"); + fHistAnnihGammaAccEtaPtET = CreateEtaPtHisto2D("fHistAnnihGammaAccEtaPtET_","MC E_{T}, Annihilation gammas","E_{T}(GeV)"); + fHistAnnihGammaAccEtaET = CreateEtaEtHisto2D("fHistAnnihGammaAccEtaET_","MC Annihilation gammas","#"); + fHistAnnihGammaAccEtaE = CreateEtaEHisto2D("fHistAnnihGammaAccEtaE_","MC Annihilation gammas","#"); + fHistAnnihGammaAccEtaPt = CreateEtaPtHisto2D("fHistAnnihGammaAccEtaPt_","MC Annihilation gammas","#"); + histname = "fHistAnnihGammaAcctotET_" + fHistogramNameSuffix; + fHistAnnihGammaAcctotET = new TH1F(histname.Data(),"total ET, MC Annihilation gammas",fgNumOfEBins, fgEAxis); + + fHistScatGammaAccEtaEET = CreateEtaEHisto2D("fHistScatGammaAccEtaEET_","MC E_{T}, Scattering gammas","E_{T}(GeV)"); + fHistScatGammaAccEtaPtET = CreateEtaPtHisto2D("fHistScatGammaAccEtaPtET_","MC E_{T}, Scattering gammas","E_{T}(GeV)"); + fHistScatGammaAccEtaET = CreateEtaEtHisto2D("fHistScatGammaAccEtaET_","MC Scattering gammas","#"); + fHistScatGammaAccEtaE = CreateEtaEHisto2D("fHistScatGammaAccEtaE_","MC Scattering gammas","#"); + fHistScatGammaAccEtaPt = CreateEtaPtHisto2D("fHistScatGammaAccEtaPt_","MC Scattering gammas","#"); + histname = "fHistScatGammaAcctotET_" + fHistogramNameSuffix; + fHistScatGammaAcctotET = new TH1F(histname.Data(),"total ET, MC Scattering gammas",fgNumOfEBins, fgEAxis); + + fHistConvGammaAccEtaEET = CreateEtaEHisto2D("fHistConvGammaAccEtaEET_","MC E_{T}, non conversion primary gammas","E_{T}(GeV)"); + fHistConvGammaAccEtaPtET = CreateEtaPtHisto2D("fHistConvGammaAccEtaPtET_","MC E_{T}, non conversion primary gammas","E_{T}(GeV)"); + fHistConvGammaAccEtaET = CreateEtaEtHisto2D("fHistConvGammaAccEtaET_","MC non conversion primary gammas","#"); + fHistConvGammaAccEtaE = CreateEtaEHisto2D("fHistConvGammaAccEtaE_","MC non conversion primary gammas","#"); + fHistConvGammaAccEtaPt = CreateEtaPtHisto2D("fHistConvGammaAccEtaPt_","MC non conversion primary gammas","#"); + histname = "fHistConvGammaAcctotET_" + fHistogramNameSuffix; + fHistConvGammaAcctotET = new TH1F(histname.Data(),"total ET, MC non conversion primary gammas",fgNumOfEBins, fgEAxis); + + fHistNonConvGammaAccEtaEET = CreateEtaEHisto2D("fHistNonConvGammaAccEtaEET_","MC E_{T}, non conversion primary gammas","E_{T}(GeV)"); + fHistNonConvGammaAccEtaPtET = CreateEtaPtHisto2D("fHistNonConvGammaAccEtaPtET_","MC E_{T}, non conversion primary gammas","E_{T}(GeV)"); + fHistNonConvGammaAccEtaET = CreateEtaEtHisto2D("fHistNonConvGammaAccEtaET_","MC non conversion primary gammas","#"); + fHistNonConvGammaAccEtaE = CreateEtaEHisto2D("fHistNonConvGammaAccEtaE_","MC non conversion primary gammas","#"); + fHistNonConvGammaAccEtaPt = CreateEtaPtHisto2D("fHistNonConvGammaAccEtaPt_","MC non conversion primary gammas","#"); + histname = "fHistNonConvGammaAcctotET_" + fHistogramNameSuffix; + fHistNonConvGammaAcctotET = new TH1F(histname.Data(),"total ET, MC non conversion primary gammas",fgNumOfEBins, fgEAxis); + + histname = "fHistTotGammaAcctotET_" + fHistogramNameSuffix; + fHistTotGammaAcctotET = new TH1F(histname.Data(),"total ET, MC primary gammas",fgNumOfEBins, fgEAxis); + + histname = "fHistTotEMAcctotET_" + fHistogramNameSuffix; + fHistTotEMAcctotET = new TH1F(histname.Data(),"total electromagnetic ET",fgNumOfEBins, fgEAxis); + + fHistNPPElectronAccEtaEET = CreateEtaEHisto2D("fHistNPPElectronAccEtaEET_","MC E_{T}, non-primary electrons","E_{T}(GeV)"); + fHistNPPElectronAccEtaPtET = CreateEtaPtHisto2D("fHistNPPElectronAccEtaPtET_","MC E_{T}, non-primary electrons","E_{T}(GeV)"); + fHistNPPElectronAccEtaE = CreateEtaEHisto2D("fHistNPPElectronAccEtaE_","MC non-primary electrons","#"); + fHistNPPElectronAccEtaPt = CreateEtaPtHisto2D("fHistNPPElectronAccEtaPt_","MC non-primary electrons","#"); + + fHistNPPGammaAccEtaEET = CreateEtaEHisto2D("fHistNPPGammaAccEtaEET_","MC E_{T}, non-primary gammas","E_{T}(GeV)"); + fHistNPPGammaAccEtaPtET = CreateEtaPtHisto2D("fHistNPPGammaAccEtaPtET_","MC E_{T}, non-primary gammas","E_{T}(GeV)"); + fHistNPPGammaAccEtaE = CreateEtaEHisto2D("fHistNPPGammaAccEtaE_","MC non-primary gammas","#"); + fHistNPPGammaAccEtaPt = CreateEtaPtHisto2D("fHistNPPGammaAccEtaPt_","MC non-primary gammas","#"); + + fHistElectronRecEtaEET = CreateEtaEHisto2D("fHistElectronRecEtaEET_","MC E_{T}, primary electrons","E_{T}(GeV)"); + fHistElectronRecEtaPtET = CreateEtaPtHisto2D("fHistElectronRecEtaPtET_","MC E_{T}, primary electrons","E_{T}(GeV)"); + fHistElectronRecEtaET = CreateEtaEtHisto2D("fHistElectronRecEtaET_","MC primary electrons","#"); + fHistElectronRecEtaE = CreateEtaEHisto2D("fHistElectronRecEtaE_","MC primary electrons","#"); + fHistElectronRecEtaPt = CreateEtaPtHisto2D("fHistElectronRecEtaPt_","MC primary electrons","#"); + histname = "fHistElectronRectotET_" + fHistogramNameSuffix; + fHistElectronRectotET = new TH1F(histname.Data(),"total ET, MC primary electrons",fgNumOfEBins, fgEAxis); + + fHistConvElectronRecEtaEET = CreateEtaEHisto2D("fHistConvElectronRecEtaEET_","MC E_{T}, electrons from conversion","E_{T}(GeV)"); + fHistConvElectronRecEtaPtET = CreateEtaPtHisto2D("fHistConvElectronRecEtaPtET_","MC E_{T}, electrons from conversion","E_{T}(GeV)"); + fHistConvElectronRecEtaET = CreateEtaEtHisto2D("fHistConvElectronRecEtaET_","MC electrons from conversion","#"); + fHistConvElectronRecEtaE = CreateEtaEHisto2D("fHistConvElectronRecEtaE_","MC electrons from conversion","#"); + fHistConvElectronRecEtaPt = CreateEtaPtHisto2D("fHistConvElectronRecEtaPt_","MC electrons from conversion","#"); + histname = "fHistConvElectronRectotET_" + fHistogramNameSuffix; + fHistConvElectronRectotET = new TH1F(histname.Data(),"total ET, MC electrons from conversion",fgNumOfEBins, fgEAxis); + + fHistScatElectronRecEtaEET = CreateEtaEHisto2D("fHistScatElectronRecEtaEET_","MC E_{T}, electrons from Scattering","E_{T}(GeV)"); + fHistScatElectronRecEtaPtET = CreateEtaPtHisto2D("fHistScatElectronRecEtaPtET_","MC E_{T}, electrons from Scattering","E_{T}(GeV)"); + fHistScatElectronRecEtaET = CreateEtaEtHisto2D("fHistScatElectronRecEtaET_","MC electrons from Scattering","#"); + fHistScatElectronRecEtaE = CreateEtaEHisto2D("fHistScatElectronRecEtaE_","MC electrons from Scattering","#"); + fHistScatElectronRecEtaPt = CreateEtaPtHisto2D("fHistScatElectronRecEtaPt_","MC electrons from Scattering","#"); + histname = "fHistScatElectronRectotET_" + fHistogramNameSuffix; + fHistScatElectronRectotET = new TH1F(histname.Data(),"total ET, MC electrons from Scattering",fgNumOfEBins, fgEAxis); + + histname = "fHistTotElectronRectotET_" + fHistogramNameSuffix; + fHistTotElectronRectotET = new TH1F(histname.Data(),"total ET, MC primary electrons",fgNumOfEBins, fgEAxis); + + fHistGammaRecEtaEET = CreateEtaEHisto2D("fHistGammaRecEtaEET_","MC E_{T}, primary gammas","E_{T}(GeV)"); + fHistGammaRecEtaPtET = CreateEtaPtHisto2D("fHistGammaRecEtaPtET_","MC E_{T}, primary gammas","E_{T}(GeV)"); + fHistGammaRecEtaET = CreateEtaEtHisto2D("fHistGammaRecEtaET_","MC primary gammas","#"); + fHistGammaRecEtaE = CreateEtaEHisto2D("fHistGammaRecEtaE_","MC primary gammas","#"); + fHistGammaRecEtaPt = CreateEtaPtHisto2D("fHistGammaRecEtaPt_","MC primary gammas","#"); + histname = "fHistGammaRectotET_" + fHistogramNameSuffix; + fHistGammaRectotET = new TH1F(histname.Data(),"total ET, MC primary gammas",fgNumOfEBins, fgEAxis); + + fHistGammaRecResEET = CreateResEHisto2D("fHistGammaRecResEET_","MC E_{T}, primary Gammas","E_{T}(GeV)");// Add Caio + fHistGammaRecResPtET = CreateResPtHisto2D("fHistGammaRecResPtET_","MC E_{T}, primary Gammas","E_{T}(GeV)");// Add Caio + fHistGammaRecResE = CreateResEHisto2D("fHistGammaRecResE_","MC primary Gammas","#");// Add Caio + fHistGammaRecResPt = CreateResPtHisto2D("fHistGammaRecResPt_","MC primary Gammas","#");// Add Caio + fHistGammaRecResEDepETDep = CreateResEHisto2D("fHistGammaRecResEDepETDep_","MC E_{T}, Gammas","E_{T} dep (GeV)"); // Add Caio + fHistGammaRecResPtETDep = CreateResPtHisto2D("fHistGammaRecResPtETDep_","MC E_{T}, Gammas","E_{T} dep (GeV)");// Add Caio + + fHistAnnihGammaRecEtaEET = CreateEtaEHisto2D("fHistAnnihGammaRecEtaEET_","MC E_{T}, Annihilation gammas","E_{T}(GeV)"); + fHistAnnihGammaRecEtaPtET = CreateEtaPtHisto2D("fHistAnnihGammaRecEtaPtET_","MC E_{T}, Annihilation gammas","E_{T}(GeV)"); + fHistAnnihGammaRecEtaET = CreateEtaEtHisto2D("fHistAnnihGammaRecEtaET_","MC Annihilation gammas","#"); + fHistAnnihGammaRecEtaE = CreateEtaEHisto2D("fHistAnnihGammaRecEtaE_","MC Annihilation gammas","#"); + fHistAnnihGammaRecEtaPt = CreateEtaPtHisto2D("fHistAnnihGammaRecEtaPt_","MC Annihilation gammas","#"); + histname = "fHistAnnihGammaRectotET_" + fHistogramNameSuffix; + fHistAnnihGammaRectotET = new TH1F(histname.Data(),"total ET, MC Annihilation gammas",fgNumOfEBins, fgEAxis); + + fHistScatGammaRecEtaEET = CreateEtaEHisto2D("fHistScatGammaRecEtaEET_","MC E_{T}, Scattering gammas","E_{T}(GeV)"); + fHistScatGammaRecEtaPtET = CreateEtaPtHisto2D("fHistScatGammaRecEtaPtET_","MC E_{T}, Scattering gammas","E_{T}(GeV)"); + fHistScatGammaRecEtaET = CreateEtaEtHisto2D("fHistScatGammaRecEtaET_","MC Scattering gammas","#"); + fHistScatGammaRecEtaE = CreateEtaEHisto2D("fHistScatGammaRecEtaE_","MC Scattering gammas","#"); + fHistScatGammaRecEtaPt = CreateEtaPtHisto2D("fHistScatGammaRecEtaPt_","MC Scattering gammas","#"); + histname = "fHistScatGammaRectotET_" + fHistogramNameSuffix; + fHistScatGammaRectotET = new TH1F(histname.Data(),"total ET, MC Scattering gammas",fgNumOfEBins, fgEAxis); + + histname = "fHistTotGammaRectotET_" + fHistogramNameSuffix; + fHistTotGammaRectotET = new TH1F(histname.Data(),"total ET, MC primary gammas",fgNumOfEBins, fgEAxis); + + histname = "fHistTotEMRectotET_" + fHistogramNameSuffix; + fHistTotEMRectotET = new TH1F(histname.Data(),"total electromagnetic ET",fgNumOfEBins, fgEAxis); + + fHistNPPElectronRecEtaEET = CreateEtaEHisto2D("fHistNPPElectronRecEtaEET_","MC E_{T}, non-primary electrons","E_{T}(GeV)"); + fHistNPPElectronRecEtaPtET = CreateEtaPtHisto2D("fHistNPPElectronRecEtaPtET_","MC E_{T}, non-primary electrons","E_{T}(GeV)"); + fHistNPPElectronRecEtaET = CreateEtaEtHisto2D("fHistNPPElectronRecEtaET_","MC non-primary electrons","#"); + fHistNPPElectronRecEtaE = CreateEtaEHisto2D("fHistNPPElectronRecEtaE_","MC non-primary electrons","#"); + fHistNPPElectronRecEtaPt = CreateEtaPtHisto2D("fHistNPPElectronRecEtaPt_","MC non-primary electrons","#"); + histname = "fHistNPPElectronRectotET_" + fHistogramNameSuffix; + fHistNPPElectronRectotET = new TH1F(histname.Data(),"total ET, MC non-primary electrons",fgNumOfEBins, fgEAxis); + + fHistNPPGammaRecEtaEET = CreateEtaEHisto2D("fHistNPPGammaRecEtaEET_","MC E_{T}, non-primary gammas","E_{T}(GeV)"); + fHistNPPGammaRecEtaPtET = CreateEtaPtHisto2D("fHistNPPGammaRecEtaPtET_","MC E_{T}, non-primary gammas","E_{T}(GeV)"); + fHistNPPGammaRecEtaET = CreateEtaEtHisto2D("fHistNPPGammaRecEtaET_","MC non-primary gammas","#"); + fHistNPPGammaRecEtaE = CreateEtaEHisto2D("fHistNPPGammaRecEtaE_","MC non-primary gammas","#"); + fHistNPPGammaRecEtaPt = CreateEtaPtHisto2D("fHistNPPGammaRecEtaPt_","MC non-primary gammas","#"); + histname = "fHistNPPGammaRectotET_" + fHistogramNameSuffix; + fHistNPPGammaRectotET = new TH1F(histname.Data(),"total ET, MC non-primary gammas",fgNumOfEBins, fgEAxis); + + histname = "fHistTotNPPEMRectotET_" + fHistogramNameSuffix; + fHistTotNPPEMRectotET = new TH1F(histname.Data(),"total ET, MC non-primary electromagnetic",fgNumOfEBins, fgEAxis); + + fHistNPPPi0GammaRecEtaEET = CreateEtaEHisto2D("fHistNPPPi0GammaRecEtaEET_","MC E_{T}, non-primary gammas","E_{T}(GeV)"); + fHistNPPPi0GammaRecEtaPtET = CreateEtaPtHisto2D("fHistNPPPi0GammaRecEtaPtET_","MC E_{T}, non-primary gammas","E_{T}(GeV)"); + fHistNPPPi0GammaRecEtaET = CreateEtaEtHisto2D("fHistNPPPi0GammaRecEtaET_","MC non-primary gammas","#"); + fHistNPPPi0GammaRecEtaE = CreateEtaEHisto2D("fHistNPPPi0GammaRecEtaE_","MC non-primary gammas","#"); + fHistNPPPi0GammaRecEtaPt = CreateEtaPtHisto2D("fHistNPPPi0GammaRecEtaPt_","MC non-primary gammas","#"); + histname = "fHistNPPPi0GammaRectotET_" + fHistogramNameSuffix; + fHistNPPPi0GammaRectotET = new TH1F(histname.Data(),"total ET, MC non-primary gammas",fgNumOfEBins, fgEAxis); + + fHistMuonEtaEET = CreateEtaEHisto2D("fHistMuonEtaEET_","MC E_{T}, primary Muons","E_{T}(GeV)"); + fHistMuonAccEtaEET = CreateEtaEHisto2D("fHistMuonAccEtaEET_","MC E_{T}, primary Muons, inside EMCal acceptance","E_{T}(GeV)"); + fHistMuonRecEtaEET = CreateEtaEHisto2D("fHistMuonRecEtaEET_","MC E_{T}, primary Muons, reconstructed","E_{T}(GeV)"); + fHistMuonMatchEtaEET = CreateEtaEHisto2D("fHistMuonMatchEtaEET_","MC E_{T}, primary Muons, tracking matched","E_{T}(GeV)"); + + fHistMuonEtaPtET = CreateEtaPtHisto2D("fHistMuonEtaPtET_","MC E_{T}, primary Muons","E_{T}(GeV)"); + fHistMuonAccEtaPtET = CreateEtaPtHisto2D("fHistMuonAccEtaPtET_","MC E_{T}, primary Muons","E_{T}(GeV)"); + fHistMuonRecEtaPtET = CreateEtaPtHisto2D("fHistMuonRecEtaPtET_","MC E_{T}, primary Muons","E_{T}(GeV)"); + fHistMuonMatchEtaPtET = CreateEtaPtHisto2D("fHistMuonMatchEtaPtET_","MC E_{T}, primary Muons","E_{T}(GeV)"); + + fHistMuonEtaET = CreateEtaEtHisto2D("fHistMuonEtaET_","MC primary Muons","#"); + fHistMuonAccEtaET = CreateEtaEtHisto2D("fHistMuonAccEtaET_","MC primary Muons","#"); + fHistMuonRecEtaET = CreateEtaEtHisto2D("fHistMuonRecEtaET_","MC primary Muons","#"); + fHistMuonMatchEtaET = CreateEtaEtHisto2D("fHistMuonMatchEtaET_","MC primary Muons","#"); + + fHistMuonEtaE = CreateEtaEHisto2D("fHistMuonEtaE_","MC primary Muons","#"); + fHistMuonAccEtaE = CreateEtaEHisto2D("fHistMuonAccEtaE_","MC primary Muons","#"); + fHistMuonRecEtaE = CreateEtaEHisto2D("fHistMuonRecEtaE_","MC primary Muons","#"); + fHistMuonMatchEtaE = CreateEtaEHisto2D("fHistMuonMatchEtaE_","MC primary Muons","#"); + + fHistMuonEtaPt = CreateEtaPtHisto2D("fHistMuonEtaPt_","MC primary Muons","#"); + fHistMuonAccEtaPt = CreateEtaPtHisto2D("fHistMuonAccEtaPt_","MC primary Muons","#"); + fHistMuonRecEtaPt = CreateEtaPtHisto2D("fHistMuonRecEtaPt_","MC primary Muons","#"); + fHistMuonMatchEtaPt = CreateEtaPtHisto2D("fHistMuonMatchEtaPt_","MC primary Muons","#"); + + histname = "fHistMuontotET_" + fHistogramNameSuffix; + fHistMuontotET = new TH1F(histname.Data(),"total ET, MC primary Muons",fgNumOfEBins, fgEAxis); + histname = "fHistMuonAcctotET_" + fHistogramNameSuffix; + fHistMuonAcctotET = new TH1F(histname.Data(),"total ET, MC primary Muons",fgNumOfEBins, fgEAxis); + histname = "fHistMuonRectotET_" + fHistogramNameSuffix; + fHistMuonRectotET = new TH1F(histname.Data(),"total ET, MC primary Muons",fgNumOfEBins, fgEAxis); + histname = "fHistMuonMatchtotET_" + fHistogramNameSuffix; + fHistMuonMatchtotET = new TH1F(histname.Data(),"total ET, MC primary Muons",fgNumOfEBins, fgEAxis); + + histname = "fHistMuonRectotETDep_" + fHistogramNameSuffix; + fHistMuonRectotETDep = new TH1F(histname.Data(),"total ET, MC primary Muons",fgNumOfEBins, fgEAxis); + histname = "fHistMuonMatchtotETDep_" + fHistogramNameSuffix; + fHistMuonMatchtotETDep = new TH1F(histname.Data(),"total ET, MC primary Muons",fgNumOfEBins, fgEAxis); + + fHistMuonRecEtaEDepETDep = CreateEtaEHisto2D("fHistMuonRecEtaEDepETDep_","MC E_{T}, primary Muons, reconstructed","E_{T} dep (GeV)"); + fHistMuonMatchEtaEDepETDep = CreateEtaEHisto2D("fHistMuonMatchEtaEDepETDep_","MC E_{T}, primary Muons, tracking matched","E_{T} dep (GeV)"); + + fHistMuonRecEtaPtETDep = CreateEtaPtHisto2D("fHistMuonRecEtaPtETDep_","MC E_{T}, primary Muons","E_{T} dep (GeV)"); + fHistMuonMatchEtaPtETDep = CreateEtaPtHisto2D("fHistMuonMatchEtaPtETDep_","MC E_{T}, primary Muons","E_{T} dep(GeV)"); + + fHistMuonRecEtaETDep = CreateEtaEtHisto2D("fHistMuonRecEtaETDep_","MC primary Muons","#"); + fHistMuonMatchEtaETDep = CreateEtaEtHisto2D("fHistMuonMatchEtaETDep_","MC primary Muons","#"); + + fHistMuonRecResEET = CreateResEHisto2D("fHistMuonRecResEET_","MC E_{T}, primary Muons","E_{T}(GeV)"); + fHistMuonRecResPtET = CreateResPtHisto2D("fHistMuonRecResPtET_","MC E_{T}, primary Muons","E_{T}(GeV)"); + fHistMuonRecResE = CreateResEHisto2D("fHistMuonRecResE_","MC primary Muons","#"); + fHistMuonRecResPt = CreateResPtHisto2D("fHistMuonRecResPt_","MC primary Muons","#"); + fHistMuonRecResEDepETDep = CreateResEHisto2D("fHistMuonRecResEDepETDep_","MC E_{T}, primary Muons","E_{T} dep (GeV)"); + fHistMuonRecResPtETDep = CreateResPtHisto2D("fHistMuonRecResPtETDep_","MC E_{T}, primary Muons","E_{T} dep (GeV)"); + + fHistPionEtaEET = CreateEtaEHisto2D("fHistPionEtaEET_","MC E_{T}, primary Pions","E_{T}(GeV)"); + fHistPionAccEtaEET = CreateEtaEHisto2D("fHistPionAccEtaEET_","MC E_{T}, primary Pions, inside EMCal acceptance","E_{T}(GeV)"); + fHistPionRecEtaEET = CreateEtaEHisto2D("fHistPionRecEtaEET_","MC E_{T}, primary Pions, reconstructed","E_{T}(GeV)"); + fHistPionMatchEtaEET = CreateEtaEHisto2D("fHistPionMatchEtaEET_","MC E_{T}, primary Pions, tracking matched","E_{T}(GeV)"); + + fHistPionEtaPtET = CreateEtaPtHisto2D("fHistPionEtaPtET_","MC E_{T}, primary Pions","E_{T}(GeV)"); + fHistPionAccEtaPtET = CreateEtaPtHisto2D("fHistPionAccEtaPtET_","MC E_{T}, primary Pions","E_{T}(GeV)"); + fHistPionRecEtaPtET = CreateEtaPtHisto2D("fHistPionRecEtaPtET_","MC E_{T}, primary Pions","E_{T}(GeV)"); + fHistPionMatchEtaPtET = CreateEtaPtHisto2D("fHistPionMatchEtaPtET_","MC E_{T}, primary Pions","E_{T}(GeV)"); + + fHistPionEtaET = CreateEtaEtHisto2D("fHistPionEtaET_","MC primary Pions","#"); + fHistPionAccEtaET = CreateEtaEtHisto2D("fHistPionAccEtaET_","MC primary Pions","#"); + fHistPionRecEtaET = CreateEtaEtHisto2D("fHistPionRecEtaET_","MC primary Pions","#"); + fHistPionMatchEtaET = CreateEtaEtHisto2D("fHistPionMatchEtaET_","MC primary Pions","#"); + + fHistPionEtaE = CreateEtaEHisto2D("fHistPionEtaE_","MC primary Pions","#"); + fHistPionAccEtaE = CreateEtaEHisto2D("fHistPionAccEtaE_","MC primary Pions","#"); + fHistPionRecEtaE = CreateEtaEHisto2D("fHistPionRecEtaE_","MC primary Pions","#"); + fHistPionMatchEtaE = CreateEtaEHisto2D("fHistPionMatchEtaE_","MC primary Pions","#"); + + fHistPionEtaPt = CreateEtaPtHisto2D("fHistPionEtaPt_","MC primary Pions","#"); + fHistPionAccEtaPt = CreateEtaPtHisto2D("fHistPionAccEtaPt_","MC primary Pions","#"); + fHistPionRecEtaPt = CreateEtaPtHisto2D("fHistPionRecEtaPt_","MC primary Pions","#"); + fHistPionMatchEtaPt = CreateEtaPtHisto2D("fHistPionMatchEtaPt_","MC primary Pions","#"); + + histname = "fHistPiontotET_" + fHistogramNameSuffix; + fHistPiontotET = new TH1F(histname.Data(),"total ET, MC primary Pions",fgNumOfEBins, fgEAxis); + histname = "fHistPionAcctotET_" + fHistogramNameSuffix; + fHistPionAcctotET = new TH1F(histname.Data(),"total ET, MC primary Pions",fgNumOfEBins, fgEAxis); + histname = "fHistPionRectotET_" + fHistogramNameSuffix; + fHistPionRectotET = new TH1F(histname.Data(),"total ET, MC primary Pions",fgNumOfEBins, fgEAxis); + histname = "fHistPionMatchtotET_" + fHistogramNameSuffix; + fHistPionMatchtotET = new TH1F(histname.Data(),"total ET, MC primary Pions",fgNumOfEBins, fgEAxis); + + histname = "fHistPionRectotETDep_" + fHistogramNameSuffix; + fHistPionRectotETDep = new TH1F(histname.Data(),"total ET, MC primary Pions",fgNumOfEBins, fgEAxis); + histname = "fHistPionMatchtotETDep_" + fHistogramNameSuffix; + fHistPionMatchtotETDep = new TH1F(histname.Data(),"total ET, MC primary Pions",fgNumOfEBins, fgEAxis); + + fHistPionRecEtaEDepETDep = CreateEtaEHisto2D("fHistPionRecEtaEDepETDep_","MC E_{T}, primary Pions, reconstructed","E_{T} dep (GeV)"); + fHistPionMatchEtaEDepETDep = CreateEtaEHisto2D("fHistPionMatchEtaEDepETDep_","MC E_{T}, primary Pions, tracking matched","E_{T} dep (GeV)"); + + fHistPionRecEtaPtETDep = CreateEtaPtHisto2D("fHistPionRecEtaPtETDep_","MC E_{T}, primary Pions","E_{T} dep (GeV)"); + fHistPionMatchEtaPtETDep = CreateEtaPtHisto2D("fHistPionMatchEtaPtETDep_","MC E_{T}, primary Pions","E_{T} dep(GeV)"); + + fHistPionRecEtaETDep = CreateEtaEtHisto2D("fHistPionRecEtaETDep_","MC primary Pions","#"); + fHistPionMatchEtaETDep = CreateEtaEtHisto2D("fHistPionMatchEtaETDep_","MC primary Pions","#"); + + fHistPionRecResEET = CreateResEHisto2D("fHistPionRecResEET_","MC E_{T}, primary Pions","E_{T}(GeV)"); + fHistPionRecResPtET = CreateResPtHisto2D("fHistPionRecResPtET_","MC E_{T}, primary Pions","E_{T}(GeV)"); + fHistPionRecResE = CreateResEHisto2D("fHistPionRecResE_","MC primary Pions","#"); + fHistPionRecResPt = CreateResPtHisto2D("fHistPionRecResPt_","MC primary Pions","#"); + fHistPionRecResEDepETDep = CreateResEHisto2D("fHistPionRecResEDepETDep_","MC E_{T}, primary Pions","E_{T} dep (GeV)"); + fHistPionRecResPtETDep = CreateResPtHisto2D("fHistPionRecResPtETDep_","MC E_{T}, primary Pions","E_{T} dep (GeV)"); + + fHistKaonEtaEET = CreateEtaEHisto2D("fHistKaonEtaEET_","MC E_{T}, primary Kaons","E_{T}(GeV)"); + fHistKaonAccEtaEET = CreateEtaEHisto2D("fHistKaonAccEtaEET_","MC E_{T}, primary Kaons, inside EMCal acceptance","E_{T}(GeV)"); + fHistKaonRecEtaEET = CreateEtaEHisto2D("fHistKaonRecEtaEET_","MC E_{T}, primary Kaons, reconstructed","E_{T}(GeV)"); + fHistKaonMatchEtaEET = CreateEtaEHisto2D("fHistKaonMatchEtaEET_","MC E_{T}, primary Kaons, tracking matched","E_{T}(GeV)"); + + fHistKaonEtaPtET = CreateEtaPtHisto2D("fHistKaonEtaPtET_","MC E_{T}, primary Kaons","E_{T}(GeV)"); + fHistKaonAccEtaPtET = CreateEtaPtHisto2D("fHistKaonAccEtaPtET_","MC E_{T}, primary Kaons","E_{T}(GeV)"); + fHistKaonRecEtaPtET = CreateEtaPtHisto2D("fHistKaonRecEtaPtET_","MC E_{T}, primary Kaons","E_{T}(GeV)"); + fHistKaonMatchEtaPtET = CreateEtaPtHisto2D("fHistKaonMatchEtaPtET_","MC E_{T}, primary Kaons","E_{T}(GeV)"); + + fHistKaonEtaET = CreateEtaEtHisto2D("fHistKaonEtaET_","MC primary Kaons","#"); + fHistKaonAccEtaET = CreateEtaEtHisto2D("fHistKaonAccEtaET_","MC primary Kaons","#"); + fHistKaonRecEtaET = CreateEtaEtHisto2D("fHistKaonRecEtaET_","MC primary Kaons","#"); + fHistKaonMatchEtaET = CreateEtaEtHisto2D("fHistKaonMatchEtaET_","MC primary Kaons","#"); + + fHistKaonEtaE = CreateEtaEHisto2D("fHistKaonEtaE_","MC primary Kaons","#"); + fHistKaonAccEtaE = CreateEtaEHisto2D("fHistKaonAccEtaE_","MC primary Kaons","#"); + fHistKaonRecEtaE = CreateEtaEHisto2D("fHistKaonRecEtaE_","MC primary Kaons","#"); + fHistKaonMatchEtaE = CreateEtaEHisto2D("fHistKaonMatchEtaE_","MC primary Kaons","#"); + + fHistKaonEtaPt = CreateEtaPtHisto2D("fHistKaonEtaPt_","MC primary Kaons","#"); + fHistKaonAccEtaPt = CreateEtaPtHisto2D("fHistKaonAccEtaPt_","MC primary Kaons","#"); + fHistKaonRecEtaPt = CreateEtaPtHisto2D("fHistKaonRecEtaPt_","MC primary Kaons","#"); + fHistKaonMatchEtaPt = CreateEtaPtHisto2D("fHistKaonMatchEtaPt_","MC primary Kaons","#"); + + histname = "fHistKaontotET_" + fHistogramNameSuffix; + fHistKaontotET = new TH1F(histname.Data(),"total ET, MC primary Kaons",fgNumOfEBins, fgEAxis); + histname = "fHistKaonAcctotET_" + fHistogramNameSuffix; + fHistKaonAcctotET = new TH1F(histname.Data(),"total ET, MC primary Kaons",fgNumOfEBins, fgEAxis); + histname = "fHistKaonRectotET_" + fHistogramNameSuffix; + fHistKaonRectotET = new TH1F(histname.Data(),"total ET, MC primary Kaons",fgNumOfEBins, fgEAxis); + histname = "fHistKaonMatchtotET_" + fHistogramNameSuffix; + fHistKaonMatchtotET = new TH1F(histname.Data(),"total ET, MC primary Kaons",fgNumOfEBins, fgEAxis); + + histname = "fHistKaonRectotETDep_" + fHistogramNameSuffix; + fHistKaonRectotETDep = new TH1F(histname.Data(),"total ET, MC primary Kaons",fgNumOfEBins, fgEAxis); + histname = "fHistKaonMatchtotETDep_" + fHistogramNameSuffix; + fHistKaonMatchtotETDep = new TH1F(histname.Data(),"total ET, MC primary Kaons",fgNumOfEBins, fgEAxis); + + fHistKaonRecEtaEDepETDep = CreateEtaEHisto2D("fHistKaonRecEtaEDepETDep_","MC E_{T}, primary Kaons, reconstructed","E_{T} dep (GeV)"); + fHistKaonMatchEtaEDepETDep = CreateEtaEHisto2D("fHistKaonMatchEtaEDepETDep_","MC E_{T}, primary Kaons, tracking matched","E_{T} dep (GeV)"); + + fHistKaonRecEtaPtETDep = CreateEtaPtHisto2D("fHistKaonRecEtaPtETDep_","MC E_{T}, primary Kaons","E_{T} dep (GeV)"); + fHistKaonMatchEtaPtETDep = CreateEtaPtHisto2D("fHistKaonMatchEtaPtETDep_","MC E_{T}, primary Kaons","E_{T} dep(GeV)"); + + fHistKaonRecEtaETDep = CreateEtaEtHisto2D("fHistKaonRecEtaETDep_","MC primary Kaons","#"); + fHistKaonMatchEtaETDep = CreateEtaEtHisto2D("fHistKaonMatchEtaETDep_","MC primary Kaons","#"); + + fHistKaonRecResEET = CreateResEHisto2D("fHistKaonRecResEET_","MC E_{T}, primary Kaons","E_{T}(GeV)"); + fHistKaonRecResPtET = CreateResPtHisto2D("fHistKaonRecResPtET_","MC E_{T}, primary Kaons","E_{T}(GeV)"); + fHistKaonRecResE = CreateResEHisto2D("fHistKaonRecResE_","MC primary Kaons","#"); + fHistKaonRecResPt = CreateResPtHisto2D("fHistKaonRecResPt_","MC primary Kaons","#"); + fHistKaonRecResEDepETDep = CreateResEHisto2D("fHistKaonRecResEDepETDep_","MC E_{T}, primary Kaons","E_{T} dep (GeV)"); + fHistKaonRecResPtETDep = CreateResPtHisto2D("fHistKaonRecResPtETDep_","MC E_{T}, primary Kaons","E_{T} dep (GeV)"); + + fHistProtonEtaEET = CreateEtaEHisto2D("fHistProtonEtaEET_","MC E_{T}, primary Protons","E_{T}(GeV)"); + fHistProtonAccEtaEET = CreateEtaEHisto2D("fHistProtonAccEtaEET_","MC E_{T}, primary Protons, inside EMCal acceptance","E_{T}(GeV)"); + fHistProtonRecEtaEET = CreateEtaEHisto2D("fHistProtonRecEtaEET_","MC E_{T}, primary Protons, reconstructed","E_{T}(GeV)"); + fHistProtonMatchEtaEET = CreateEtaEHisto2D("fHistProtonMatchEtaEET_","MC E_{T}, primary Protons, tracking matched","E_{T}(GeV)"); + + fHistProtonEtaPtET = CreateEtaPtHisto2D("fHistProtonEtaPtET_","MC E_{T}, primary Protons","E_{T}(GeV)"); + fHistProtonAccEtaPtET = CreateEtaPtHisto2D("fHistProtonAccEtaPtET_","MC E_{T}, primary Protons","E_{T}(GeV)"); + fHistProtonRecEtaPtET = CreateEtaPtHisto2D("fHistProtonRecEtaPtET_","MC E_{T}, primary Protons","E_{T}(GeV)"); + fHistProtonMatchEtaPtET = CreateEtaPtHisto2D("fHistProtonMatchEtaPtET_","MC E_{T}, primary Protons","E_{T}(GeV)"); + + fHistProtonEtaET = CreateEtaEtHisto2D("fHistProtonEtaET_","MC primary Protons","#"); + fHistProtonAccEtaET = CreateEtaEtHisto2D("fHistProtonAccEtaET_","MC primary Protons","#"); + fHistProtonRecEtaET = CreateEtaEtHisto2D("fHistProtonRecEtaET_","MC primary Protons","#"); + fHistProtonMatchEtaET = CreateEtaEtHisto2D("fHistProtonMatchEtaET_","MC primary Protons","#"); + + fHistProtonEtaE = CreateEtaEHisto2D("fHistProtonEtaE_","MC primary Protons","#"); + fHistProtonAccEtaE = CreateEtaEHisto2D("fHistProtonAccEtaE_","MC primary Protons","#"); + fHistProtonRecEtaE = CreateEtaEHisto2D("fHistProtonRecEtaE_","MC primary Protons","#"); + fHistProtonMatchEtaE = CreateEtaEHisto2D("fHistProtonMatchEtaE_","MC primary Protons","#"); + + fHistProtonEtaPt = CreateEtaPtHisto2D("fHistProtonEtaPt_","MC primary Protons","#"); + fHistProtonAccEtaPt = CreateEtaPtHisto2D("fHistProtonAccEtaPt_","MC primary Protons","#"); + fHistProtonRecEtaPt = CreateEtaPtHisto2D("fHistProtonRecEtaPt_","MC primary Protons","#"); + fHistProtonMatchEtaPt = CreateEtaPtHisto2D("fHistProtonMatchEtaPt_","MC primary Protons","#"); + + histname = "fHistProtontotET_" + fHistogramNameSuffix; + fHistProtontotET = new TH1F(histname.Data(),"total ET, MC primary Protons",fgNumOfEBins, fgEAxis); + histname = "fHistProtonAcctotET_" + fHistogramNameSuffix; + fHistProtonAcctotET = new TH1F(histname.Data(),"total ET, MC primary Protons",fgNumOfEBins, fgEAxis); + histname = "fHistProtonRectotET_" + fHistogramNameSuffix; + fHistProtonRectotET = new TH1F(histname.Data(),"total ET, MC primary Protons",fgNumOfEBins, fgEAxis); + histname = "fHistProtonMatchtotET_" + fHistogramNameSuffix; + fHistProtonMatchtotET = new TH1F(histname.Data(),"total ET, MC primary Protons",fgNumOfEBins, fgEAxis); + + histname = "fHistProtonRectotETDep_" + fHistogramNameSuffix; + fHistProtonRectotETDep = new TH1F(histname.Data(),"total ET, MC primary Protons",fgNumOfEBins, fgEAxis); + histname = "fHistProtonMatchtotETDep_" + fHistogramNameSuffix; + fHistProtonMatchtotETDep = new TH1F(histname.Data(),"total ET, MC primary Protons",fgNumOfEBins, fgEAxis); + + fHistProtonRecEtaEDepETDep = CreateEtaEHisto2D("fHistProtonRecEtaEDepETDep_","MC E_{T}, primary Protons, reconstructed","E_{T} dep (GeV)"); + fHistProtonMatchEtaEDepETDep = CreateEtaEHisto2D("fHistProtonMatchEtaEDepETDep_","MC E_{T}, primary Protons, tracking matched","E_{T} dep (GeV)"); + + fHistProtonRecEtaPtETDep = CreateEtaPtHisto2D("fHistProtonRecEtaPtETDep_","MC E_{T}, primary Protons","E_{T} dep (GeV)"); + fHistProtonMatchEtaPtETDep = CreateEtaPtHisto2D("fHistProtonMatchEtaPtETDep_","MC E_{T}, primary Protons","E_{T} dep(GeV)"); + + fHistProtonRecEtaETDep = CreateEtaEtHisto2D("fHistProtonRecEtaETDep_","MC primary Protons","#"); + fHistProtonMatchEtaETDep = CreateEtaEtHisto2D("fHistProtonMatchEtaETDep_","MC primary Protons","#"); + + fHistProtonRecResEET = CreateResEHisto2D("fHistProtonRecResEET_","MC E_{T}, primary Protons","E_{T}(GeV)"); + fHistProtonRecResPtET = CreateResPtHisto2D("fHistProtonRecResPtET_","MC E_{T}, primary Protons","E_{T}(GeV)"); + fHistProtonRecResE = CreateResEHisto2D("fHistProtonRecResE_","MC primary Protons","#"); + fHistProtonRecResPt = CreateResPtHisto2D("fHistProtonRecResPt_","MC primary Protons","#"); + fHistProtonRecResEDepETDep = CreateResEHisto2D("fHistProtonRecResEDepETDep_","MC E_{T}, primary Protons","E_{T} dep (GeV)"); + fHistProtonRecResPtETDep = CreateResPtHisto2D("fHistProtonRecResPtETDep_","MC E_{T}, primary Protons","E_{T} dep (GeV)"); + + histname = "fHistTotChargedtotET_" + fHistogramNameSuffix; + fHistTotChargedtotET = new TH1F(histname.Data(),"total ET, MC primary charged particles",fgNumOfEBins, fgEAxis); + histname = "fHistTotChargedAcctotET_" + fHistogramNameSuffix; + fHistTotChargedAcctotET = new TH1F(histname.Data(),"total ET, MC primary charged particles",fgNumOfEBins, fgEAxis); + histname = "fHistTotChargedRectotET_" + fHistogramNameSuffix; + fHistTotChargedRectotET = new TH1F(histname.Data(),"total ET, MC primary charged particles",fgNumOfEBins, fgEAxis); + histname = "fHistTotChargedMatchtotET_" + fHistogramNameSuffix; + fHistTotChargedMatchtotET = new TH1F(histname.Data(),"total ET, MC primary charged particles",fgNumOfEBins, fgEAxis); + + histname = "fHistTotChargedRectotETDep_" + fHistogramNameSuffix; + fHistTotChargedRectotETDep = new TH1F(histname.Data(),"total ET, MC primary charged particles",fgNumOfEBins, fgEAxis); + histname = "fHistTotChargedMatchtotETDep_" + fHistogramNameSuffix; + fHistTotChargedMatchtotETDep = new TH1F(histname.Data(),"total ET, MC primary charged particles",fgNumOfEBins, fgEAxis); + + fHistNeutronEtaEET = CreateEtaEHisto2D("fHistNeutronEtaEET_","MC E_{T}, primary Neutrons","E_{T}(GeV)"); + fHistNeutronAccEtaEET = CreateEtaEHisto2D("fHistNeutronAccEtaEET_","MC E_{T}, primary Neutrons, inside EMCal acceptance","E_{T}(GeV)"); + fHistNeutronRecEtaEET = CreateEtaEHisto2D("fHistNeutronRecEtaEET_","MC E_{T}, primary Neutrons, reconstructed","E_{T}(GeV)"); + + fHistNeutronEtaPtET = CreateEtaPtHisto2D("fHistNeutronEtaPtET_","MC E_{T}, primary Neutrons","E_{T}(GeV)"); + fHistNeutronAccEtaPtET = CreateEtaPtHisto2D("fHistNeutronAccEtaPtET_","MC E_{T}, primary Neutrons","E_{T}(GeV)"); + fHistNeutronRecEtaPtET = CreateEtaPtHisto2D("fHistNeutronRecEtaPtET_","MC E_{T}, primary Neutrons","E_{T}(GeV)"); + + fHistNeutronEtaET = CreateEtaEtHisto2D("fHistNeutronEtaET_","MC primary Neutrons","#"); + fHistNeutronAccEtaET = CreateEtaEtHisto2D("fHistNeutronAccEtaET_","MC primary Neutrons","#"); + fHistNeutronRecEtaET = CreateEtaEtHisto2D("fHistNeutronRecEtaET_","MC primary Neutrons","#"); + + fHistNeutronEtaE = CreateEtaEHisto2D("fHistNeutronEtaE_","MC primary Neutrons","#"); + fHistNeutronAccEtaE = CreateEtaEHisto2D("fHistNeutronAccEtaE_","MC primary Neutrons","#"); + fHistNeutronRecEtaE = CreateEtaEHisto2D("fHistNeutronRecEtaE_","MC primary Neutrons","#"); + + fHistNeutronEtaPt = CreateEtaPtHisto2D("fHistNeutronEtaPt_","MC primary Neutrons","#"); + fHistNeutronAccEtaPt = CreateEtaPtHisto2D("fHistNeutronAccEtaPt_","MC primary Neutrons","#"); + fHistNeutronRecEtaPt = CreateEtaPtHisto2D("fHistNeutronRecEtaPt_","MC primary Neutrons","#"); + + histname = "fHistNeutrontotET_" + fHistogramNameSuffix; + fHistNeutrontotET = new TH1F(histname.Data(),"total ET, MC primary Neutrons",fgNumOfEBins, fgEAxis); + histname = "fHistNeutronAcctotET_" + fHistogramNameSuffix; + fHistNeutronAcctotET = new TH1F(histname.Data(),"total ET, MC primary Neutrons",fgNumOfEBins, fgEAxis); + histname = "fHistNeutronRectotET_" + fHistogramNameSuffix; + fHistNeutronRectotET = new TH1F(histname.Data(),"total ET, MC primary Neutrons",fgNumOfEBins, fgEAxis); + histname = "fHistNeutronRectotETDep_" + fHistogramNameSuffix; + fHistNeutronRectotETDep = new TH1F(histname.Data(),"total ET, MC primary Neutrons",fgNumOfEBins, fgEAxis); + + fHistNeutronRecEtaEDepETDep = CreateEtaEHisto2D("fHistNeutronRecEtaEDepETDep_","MC E_{T}, primary Neutrons, reconstructed","E_{T} dep (GeV)"); + fHistNeutronRecEtaETDep = CreateEtaEtHisto2D("fHistNeutronRecEtaETDep_","MC primary Neutrons","#"); + + fHistNeutronRecEtaPtETDep = CreateEtaPtHisto2D("fHistNeutronRecEtaPtETDep_","MC E_{T}, primary Neutrons","E_{T} dep (GeV)"); + + fHistK0EtaEET = CreateEtaEHisto2D("fHistK0EtaEET_","MC E_{T}, K0S daughters","E_{T}(GeV)"); + fHistK0RecEtaEET = CreateEtaEHisto2D("fHistK0RecEtaEET_","MC E_{T}, K0S daughters, reconstructed","E_{T}(GeV)"); + + fHistK0EtaPtET = CreateEtaPtHisto2D("fHistK0EtaPtET_","MC E_{T}, K0S daughters","E_{T}(GeV)"); + fHistK0RecEtaPtET = CreateEtaPtHisto2D("fHistK0RecEtaPtET_","MC E_{T}, K0S daughters","E_{T}(GeV)"); + + fHistK0EtaET = CreateEtaEtHisto2D("fHistK0EtaET_","MC K0S daughters","#"); + fHistK0RecEtaET = CreateEtaEtHisto2D("fHistK0RecEtaET_","MC K0S daughters","#"); + + fHistK0EtaE = CreateEtaEHisto2D("fHistK0EtaE_","MC K0S daughters","#"); + fHistK0RecEtaE = CreateEtaEHisto2D("fHistK0RecEtaE_","MC K0S daughters","#"); + + fHistK0EtaPt = CreateEtaPtHisto2D("fHistK0EtaPt_","MC K0S daughters","#"); + fHistK0RecEtaPt = CreateEtaPtHisto2D("fHistK0RecEtaPt_","MC K0S daughters","#"); + + histname = "fHistK0totET_" + fHistogramNameSuffix; + fHistK0totET = new TH1F(histname.Data(),"total ET, MC K0s daughters",fgNumOfEBins, fgEAxis); + histname = "fHistK0RectotET_" + fHistogramNameSuffix; + fHistK0RectotET = new TH1F(histname.Data(),"total ET, MC K0s daughters",fgNumOfEBins, fgEAxis); + histname = "fHistK0RectotETDep_" + fHistogramNameSuffix; + fHistK0RectotETDep = new TH1F(histname.Data(),"total ET, MC K0s daughters",fgNumOfEBins, fgEAxis); + + fHistK0RecEtaEDepETDep = CreateEtaEHisto2D("fHistK0RecEtaEDepETDep_","MC E_{T}, MC K0s daughters, reconstructed","E_{T} dep (GeV)"); + fHistK0RecEtaETDep = CreateEtaEtHisto2D("fHistK0RecEtaETDep_","MC K0s daughters","#"); + + fHistK0RecEtaPtETDep = CreateEtaPtHisto2D("fHistK0RecEtaPtETDep_","MC E_{T}, MC K0s daughters","E_{T} dep (GeV)"); + + fHistLambdaEtaEET = CreateEtaEHisto2D("fHistLambdaEtaEET_","MC E_{T}, Lambda daughters","E_{T}(GeV)"); + fHistLambdaRecEtaEET = CreateEtaEHisto2D("fHistLambdaRecEtaEET_","MC E_{T}, Lambda daughters, reconstructed","E_{T}(GeV)"); + + fHistLambdaEtaPtET = CreateEtaPtHisto2D("fHistLambdaEtaPtET_","MC E_{T}, Lambda daughters","E_{T}(GeV)"); + fHistLambdaRecEtaPtET = CreateEtaPtHisto2D("fHistLambdaRecEtaPtET_","MC E_{T}, Lambda daughters","E_{T}(GeV)"); + + fHistLambdaEtaET = CreateEtaEtHisto2D("fHistLambdaEtaET_","MC Lambda daughters","#"); + fHistLambdaRecEtaET = CreateEtaEtHisto2D("fHistLambdaRecEtaET_","MC Lambda daughters","#"); + + fHistLambdaEtaE = CreateEtaEHisto2D("fHistLambdaEtaE_","MC Lambda daughters","#"); + fHistLambdaRecEtaE = CreateEtaEHisto2D("fHistLambdaRecEtaE_","MC Lambda daughters","#"); + + fHistLambdaEtaPt = CreateEtaPtHisto2D("fHistLambdaEtaPt_","MC Lambda daughters","#"); + fHistLambdaRecEtaPt = CreateEtaPtHisto2D("fHistLambdaRecEtaPt_","MC Lambda daughters","#"); + + histname = "fHistLambdatotET_" + fHistogramNameSuffix; + fHistLambdatotET = new TH1F(histname.Data(),"total ET, MC Lambdas daughters",fgNumOfEBins, fgEAxis); + histname = "fHistLambdaRectotET_" + fHistogramNameSuffix; + fHistLambdaRectotET = new TH1F(histname.Data(),"total ET, MC Lambdas daughters",fgNumOfEBins, fgEAxis); + histname = "fHistLambdaRectotETDep_" + fHistogramNameSuffix; + fHistLambdaRectotETDep = new TH1F(histname.Data(),"total ET, MC Lambdas daughters",fgNumOfEBins, fgEAxis); + + fHistLambdaRecEtaEDepETDep = CreateEtaEHisto2D("fHistLambdaRecEtaEDepETDep_","MC E_{T}, MC Lambdas daughters, reconstructed","E_{T} dep (GeV)"); + fHistLambdaRecEtaETDep = CreateEtaEtHisto2D("fHistLambdaRecEtaETDep_","MC Lambdas daughters","#"); + + fHistLambdaRecEtaPtETDep = CreateEtaPtHisto2D("fHistLambdaRecEtaPtETDep_","MC E_{T}, MC Lambdas daughters","E_{T} dep (GeV)"); + + histname = "fHistTotNeutraltotET_" + fHistogramNameSuffix; + fHistTotNeutraltotET = new TH1F(histname.Data(),"total ET, MC Lambdas daughters",fgNumOfEBins, fgEAxis); + histname = "fHistTotNeutralRectotET_" + fHistogramNameSuffix; + fHistTotNeutralRectotET = new TH1F(histname.Data(),"total ET, MC Lambdas daughters",fgNumOfEBins, fgEAxis); + histname = "fHistTotNeutralRectotETDep_" + fHistogramNameSuffix; + fHistTotNeutralRectotETDep = new TH1F(histname.Data(),"total ET, MC Lambdas daughters",fgNumOfEBins, fgEAxis); + + histname = "fHistTotaltotET_" + fHistogramNameSuffix; + fHistTotaltotET = new TH1F(histname.Data(),"total ET, all particles",fgNumOfEBins, fgEAxis); + histname = "fHistTotalAcctotET_" + fHistogramNameSuffix; + fHistTotalAcctotET = new TH1F(histname.Data(),"total ET, all particles",fgNumOfEBins, fgEAxis); + histname = "fHistTotalRectotET_" + fHistogramNameSuffix; + fHistTotalRectotET = new TH1F(histname.Data(),"total ET, all particles",fgNumOfEBins, fgEAxis); + histname = "fHistTotalRectotETDep_" + fHistogramNameSuffix; + fHistTotalRectotETDep = new TH1F(histname.Data(),"total ET, all particles",fgNumOfEBins, fgEAxis); + + histname = "fHistAll_ERecvsMC_" + fHistogramNameSuffix; + fHistAllERecEMC = new TH2F(histname.Data(),"E cluster Rec vs MC, all particles",fgNumOfEBins, fgEAxis,fgNumOfEBins, fgEAxis); + fHistAllERecEMC->SetXTitle("E_{MC}(GeV)"); + fHistAllERecEMC->SetYTitle("E_{Rec}(GeV)"); + + histname = "fHistElectron_ERecvsMC_" + fHistogramNameSuffix; + fHistElectronERecEMC = new TH2F(histname.Data(),"E cluster Rec vs MC, Electrons",fgNumOfEBins, fgEAxis,fgNumOfEBins, fgEAxis); + fHistElectronERecEMC->SetXTitle("E_{MC}(GeV)"); + fHistElectronERecEMC->SetYTitle("E_{Rec}(GeV)"); + + histname = "fHistGamma_ERecvsMC_" + fHistogramNameSuffix; + fHistGammaERecEMC = new TH2F(histname.Data(),"E cluster Rec vs MC, Gammas",fgNumOfEBins, fgEAxis,fgNumOfEBins, fgEAxis); + fHistGammaERecEMC->SetXTitle("E_{MC}(GeV)"); + fHistGammaERecEMC->SetYTitle("E_{Rec}(GeV)"); + + histname = "fHistAllPtRecPtMC_" + fHistogramNameSuffix; + fHistAllPtRecPtMC = new TH2F(histname.Data(),"pt track Rec vs MC, all particles",fgNumOfEBins, fgEAxis,fgNumOfEBins, fgEAxis); + fHistAllPtRecPtMC->SetXTitle("p_{T}^{MC}(GeV/c)"); + fHistAllPtRecPtMC->SetYTitle("p_{T}^{Rec}(GeV/c)"); + + histname = "fHistChargedRes_" + fHistogramNameSuffix; + fHistChargedRes = new TH2F(histname.Data(),"#Delta#phi vs #Delta#eta (track projection - cluster position), charged particles",200,-0.1,0.1,200,-0.1,0.1); + fHistChargedRes->SetXTitle("#Delta#phi"); + fHistChargedRes->SetYTitle("#Delta#eta"); + + histname = "fHistChargedRes2_" + fHistogramNameSuffix; + fHistChargedRes2 = new TH2F(histname.Data(),"#Delta#phi vs #Delta#eta (track projection - cluster position), charged particles",200,-0.1,0.1,200,-0.1,0.1); + fHistChargedRes2->SetXTitle("#Delta#phi"); + fHistChargedRes2->SetYTitle("#Delta#eta"); + + histname = "fHistChargedRes3_" + fHistogramNameSuffix; + fHistChargedRes3 = new TH2F(histname.Data(),"#Delta#phi vs #Delta#eta (track projection - cluster position), charged particles",200,-0.1,0.1,200,-0.1,0.1); + fHistChargedRes3->SetXTitle("#Delta#phi"); + fHistChargedRes3->SetYTitle("#Delta#eta"); + + histname = "fHistNeutralRes_" + fHistogramNameSuffix; + fHistNeutralRes = new TH2F(histname.Data(),"#Delta#phi vs #Delta#eta (track projection - cluster position), neutral particles",200,-0.1,0.1,200,-0.1,0.1); + fHistNeutralRes->SetXTitle("#Delta#phi"); + fHistNeutralRes->SetYTitle("#Delta#eta"); + + histname = "fHistElectronRes_" + fHistogramNameSuffix; + fHistElectronRes = new TH2F(histname.Data(),"#Delta#phi vs #Delta#eta (track projection - cluster position, Electrons",200,-0.1,0.1,200,-0.1,0.1); + fHistElectronRes->SetXTitle("#Delta#phi"); + fHistElectronRes->SetYTitle("#Delta#eta"); + + histname = "fHistGammaRes_" + fHistogramNameSuffix; + fHistGammaRes = new TH2F(histname.Data(),"#Delta#phi vs #Delta#eta (track projection - cluster position, Gammas",200,-0.1,0.1,200,-0.1,0.1); + fHistGammaRes->SetXTitle("#Delta#phi"); + fHistGammaRes->SetYTitle("#Delta#eta"); + + histname = "fHistIsInAcc_" + fHistogramNameSuffix; + //fHistIsInAcc = new TH2F(histname.Data(),"X,Y position of particle projection inside EMCal",1201,-600.5,600.5,1201,-600.5,600.5); + //fHistIsInAcc->SetXTitle("X (cm)"); + //fHistIsInAcc->SetYTitle("Y (cm)"); + fHistIsInAcc = new TH2F(histname.Data(),"#phhi, #eta position of particle projection inside EMCal",360,0.,360.,200,-1.,1.); + fHistIsInAcc->SetXTitle("#phi"); + fHistIsInAcc->SetYTitle("#eta"); + + histname = "fHistElectronFirstMother_" + fHistogramNameSuffix; + fHistElectronFirstMother = new TH1F(histname.Data(),"Electron First Mother PDG Code",1201,-600.5,600.5); + histname = "fHistElectronFirstMotherXY_" + fHistogramNameSuffix; + fHistElectronFirstMotherXY = new TH2F(histname.Data(),"Electron Mother X,Y vertex position",1201,-600.5,600.5,1201,-600.5,600.5); + histname = "fHistElectronNDaughters_" + fHistogramNameSuffix; + fHistElectronNDaughters = new TH1F(histname.Data(),"Number of Electron Daugthers, inside EMCal acceptance",11,-0.5,10.5); + histname = "fHistElectronDaughters_" + fHistogramNameSuffix; + fHistElectronDaughters = new TH1F(histname.Data(),"Electron Daugther PDG Code",1201,-600.5,600.5); + histname = "fHistElectronDaughtersXY_" + fHistogramNameSuffix; + fHistElectronDaughtersXY = new TH2F(histname.Data(),"Electron Daugther X,Y vertex position",1201,-600.5,600.5,1201,-600.5,600.5); + + histname = "fHistElectronFirstMotherAcc_" + fHistogramNameSuffix; + fHistElectronFirstMotherAcc = new TH1F(histname.Data(),"Electron First Mother PDG Code, inside EMCal acceptance",1201,-600.5,600.5); + histname = "fHistElectronFirstMotherXYAcc_" + fHistogramNameSuffix; + fHistElectronFirstMotherXYAcc = new TH2F(histname.Data(),"Electron Mother X,Y vertex position, inside EMCal acceptance",1201,-600.5,600.5,1201,-600.5,600.5); + histname = "fHistElectronNDaughtersAcc_" + fHistogramNameSuffix; + fHistElectronNDaughtersAcc = new TH1F(histname.Data(),"Number of Electron Daugthers, inside EMCal acceptance",11,-0.5,10.5); + histname = "fHistElectronDaughtersAcc_" + fHistogramNameSuffix; + fHistElectronDaughtersAcc = new TH1F(histname.Data(),"Electron Daugther PDG Code, inside EMCal acceptance",1201,-600.5,600.5); + histname = "fHistElectronDaughtersXYAcc_" + fHistogramNameSuffix; + fHistElectronDaughtersXYAcc = new TH2F(histname.Data(),"Electron Daugther X,Y vertex position, inside EMCal acceptance",1201,-600.5,600.5,1201,-600.5,600.5); + + histname = "fHistElectronFirstMotherRec_" + fHistogramNameSuffix; + fHistElectronFirstMotherRec = new TH1F(histname.Data(),"Reconstructed Electron First Mother PDG Code",1201,-600.5,600.5); + histname = "fHistElectronFirstMotherXYRec_" + fHistogramNameSuffix; + fHistElectronFirstMotherXYRec = new TH2F(histname.Data(),"Electron Mother X,Y vertex position, inside EMCal acceptance",1201,-600.5,600.5,1201,-600.5,600.5); + histname = "fHistElectronNDaughtersRec_" + fHistogramNameSuffix; + fHistElectronNDaughtersRec = new TH1F(histname.Data(),"Number of Electron Daugthers, inside EMCal acceptance",11,-0.5,10.5); + histname = "fHistElectronDaughtersRec_" + fHistogramNameSuffix; + fHistElectronDaughtersRec = new TH1F(histname.Data(),"Electron Daugther PDG Code",1201,-600.5,600.5); + histname = "fHistElectronDaughtersXYRec_" + fHistogramNameSuffix; + fHistElectronDaughtersXYRec = new TH2F(histname.Data(),"Electron Daugther X,Y vertex position",1201,-600.5,600.5,1201,-600.5,600.5); + + histname = "fHistNPPElectronFirstMother_" + fHistogramNameSuffix; + fHistNPPElectronFirstMother = new TH1F(histname.Data(),"Electron First Mother PDG Code",1201,-600.5,600.5); + histname = "fHistNPPElectronFirstMotherXY_" + fHistogramNameSuffix; + fHistNPPElectronFirstMotherXY = new TH2F(histname.Data(),"Electron Mother X,Y vertex position",1201,-600.5,600.5,1201,-600.5,600.5); + histname = "fHistNPPElectronNDaughters_" + fHistogramNameSuffix; + fHistNPPElectronNDaughters = new TH1F(histname.Data(),"Number of Electron Daugthers",11,-0.5,10.5); + histname = "fHistNPPElectronDaughters_" + fHistogramNameSuffix; + fHistNPPElectronDaughters = new TH1F(histname.Data(),"Electron Daugther PDG Code",1201,-600.5,600.5); + histname = "fHistNPPElectronDaughtersXY_" + fHistogramNameSuffix; + fHistNPPElectronDaughtersXY = new TH2F(histname.Data(),"Electron Daugther X,Y vertex position",1201,-600.5,600.5,1201,-600.5,600.5); + + histname = "fHistNPPElectronFirstMotherAcc_" + fHistogramNameSuffix; + fHistNPPElectronFirstMotherAcc = new TH1F(histname.Data(),"Electron First Mother PDG Code, inside EMCal acceptance",1201,-600.5,600.5); + histname = "fHistNPPElectronFirstMotherXYAcc_" + fHistogramNameSuffix; + fHistNPPElectronFirstMotherXYAcc = new TH2F(histname.Data(),"Electron Mother X,Y vertex position, inside EMCal acceptance",1201,-600.5,600.5,1201,-600.5,600.5); + histname = "fHistNPPElectronNDaughtersAcc_" + fHistogramNameSuffix; + fHistNPPElectronNDaughtersAcc = new TH1F(histname.Data(),"Number of Electron Daugthers, inside EMCal acceptance",11,-0.5,10.5); + histname = "fHistNPPElectronDaughtersAcc_" + fHistogramNameSuffix; + fHistNPPElectronDaughtersAcc = new TH1F(histname.Data(),"Electron Daugther PDG Code, inside EMCal acceptance",1201,-600.5,600.5); + histname = "fHistNPPElectronDaughtersXYAcc_" + fHistogramNameSuffix; + fHistNPPElectronDaughtersXYAcc = new TH2F(histname.Data(),"Electron Daugther X,Y vertex position, inside EMCal acceptance",1201,-600.5,600.5,1201,-600.5,600.5); + + histname = "fHistNPPElectronFirstMotherRec_" + fHistogramNameSuffix; + fHistNPPElectronFirstMotherRec = new TH1F(histname.Data(),"Reconstructed Electron First Mother PDG Code",1201,-600.5,600.5); + histname = "fHistNPPElectronFirstMotherXYRec_" + fHistogramNameSuffix; + fHistNPPElectronFirstMotherXYRec = new TH2F(histname.Data(),"Electron Mother X,Y vertex position, inside EMCal acceptance",1201,-600.5,600.5,1201,-600.5,600.5); + histname = "fHistNPPElectronNDaughtersRec_" + fHistogramNameSuffix; + fHistNPPElectronNDaughtersRec = new TH1F(histname.Data(),"Number of Electron Daugthers, inside EMCal acceptance",11,-0.5,10.5); + histname = "fHistNPPElectronDaughtersRec_" + fHistogramNameSuffix; + fHistNPPElectronDaughtersRec = new TH1F(histname.Data(),"Electron Daugther PDG Code",1201,-600.5,600.5); + histname = "fHistNPPElectronDaughtersXYRec_" + fHistogramNameSuffix; + fHistNPPElectronDaughtersXYRec = new TH2F(histname.Data(),"Electron Daugther X,Y vertex position",1201,-600.5,600.5,1201,-600.5,600.5); + + histname = "fHistGammaFirstMother_" + fHistogramNameSuffix; + fHistGammaFirstMother = new TH1F(histname.Data(),"Gamma First Mother PDG Code",1201,-600.5,600.5); + histname = "fHistGammaFirstMotherXY_" + fHistogramNameSuffix; + fHistGammaFirstMotherXY = new TH2F(histname.Data(),"Gamma Mother X,Y vertex position",1201,-600.5,600.5,1201,-600.5,600.5); + histname = "fHistGammaNDaughters_" + fHistogramNameSuffix; + fHistGammaNDaughters = new TH1F(histname.Data(),"Number of Gamma Daugthers, inside EMCal acceptance",11,-0.5,10.5); + histname = "fHistGammaDaughters_" + fHistogramNameSuffix; + fHistGammaDaughters = new TH1F(histname.Data(),"Gamma Daugther PDG Code",1201,-600.5,600.5); + histname = "fHistGammaDaughtersXY_" + fHistogramNameSuffix; + fHistGammaDaughtersXY = new TH2F(histname.Data(),"Gamma Daugther X,Y vertex position",1201,-600.5,600.5,1201,-600.5,600.5); + histname = "fHistConvGammaDaughtersXY_" + fHistogramNameSuffix; + fHistConvGammaDaughtersXY = new TH2F(histname.Data(),"Gamma Daugther X,Y vertex position",1201,-600.5,600.5,1201,-600.5,600.5); + histname = "fHistNonConvGammaDaughtersXY_" + fHistogramNameSuffix; + fHistNonConvGammaDaughtersXY = new TH2F(histname.Data(),"Gamma Daugther X,Y vertex position",1201,-600.5,600.5,1201,-600.5,600.5); + + histname = "fHistGammaFirstMotherAcc_" + fHistogramNameSuffix; + fHistGammaFirstMotherAcc = new TH1F(histname.Data(),"Gamma First Mother PDG Code, inside EMCal acceptance",1201,-600.5,600.5); + histname = "fHistGammaFirstMotherXYAcc_" + fHistogramNameSuffix; + fHistGammaFirstMotherXYAcc = new TH2F(histname.Data(),"Gamma Mother X,Y vertex position, inside EMCal acceptance",1201,-600.5,600.5,1201,-600.5,600.5); + histname = "fHistGammaNDaughtersAcc_" + fHistogramNameSuffix; + fHistGammaNDaughtersAcc = new TH1F(histname.Data(),"Number of Gamma Daugthers, inside EMCal acceptance",11,-0.5,10.5); + histname = "fHistGammaDaughtersAcc_" + fHistogramNameSuffix; + fHistGammaDaughtersAcc = new TH1F(histname.Data(),"Gamma Daugther PDG Code, inside EMCal acceptance",1201,-600.5,600.5); + histname = "fHistGammaDaughtersXYAcc_" + fHistogramNameSuffix; + fHistGammaDaughtersXYAcc = new TH2F(histname.Data(),"Gamma Daugther X,Y vertex position, inside EMCal acceptance",1201,-600.5,600.5,1201,-600.5,600.5); + histname = "fHistConvGammaDaughtersXYAcc_" + fHistogramNameSuffix; + fHistConvGammaDaughtersXYAcc = new TH2F(histname.Data(),"Gamma Daugther X,Y vertex position",1201,-600.5,600.5,1201,-600.5,600.5); + histname = "fHistNonConvGammaDaughtersXYAcc_" + fHistogramNameSuffix; + fHistNonConvGammaDaughtersXYAcc = new TH2F(histname.Data(),"Gamma Daugther X,Y vertex position",1201,-600.5,600.5,1201,-600.5,600.5); + + histname = "fHistGammaFirstMotherRec_" + fHistogramNameSuffix; + fHistGammaFirstMotherRec = new TH1F(histname.Data(),"Reconstructed Gamma First Mother PDG Code",1201,-600.5,600.5); + histname = "fHistGammaFirstMotherXYRec_" + fHistogramNameSuffix; + fHistGammaFirstMotherXYRec = new TH2F(histname.Data(),"Gamma Mother X,Y vertex position, inside EMCal acceptance",1201,-600.5,600.5,1201,-600.5,600.5); + histname = "fHistGammaNDaughtersRec_" + fHistogramNameSuffix; + fHistGammaNDaughtersRec = new TH1F(histname.Data(),"Number of Gamma Daugthers, inside EMCal acceptance",11,-0.5,10.5); + histname = "fHistGammaDaughtersRec_" + fHistogramNameSuffix; + fHistGammaDaughtersRec = new TH1F(histname.Data(),"Gamma Daugther PDG Code",1201,-600.5,600.5); + histname = "fHistGammaDaughtersXYRec_" + fHistogramNameSuffix; + fHistGammaDaughtersXYRec = new TH2F(histname.Data(),"Gamma Daugther X,Y vertex position",1201,-600.5,600.5,1201,-600.5,600.5); + histname = "fHistConvGammaDaughtersXYRec_" + fHistogramNameSuffix; + fHistConvGammaDaughtersXYRec = new TH2F(histname.Data(),"Gamma Daugther X,Y vertex position",1201,-600.5,600.5,1201,-600.5,600.5); + histname = "fHistNonConvGammaDaughtersXYRec_" + fHistogramNameSuffix; + fHistNonConvGammaDaughtersXYRec = new TH2F(histname.Data(),"Gamma Daugther X,Y vertex position",1201,-600.5,600.5,1201,-600.5,600.5); + + histname = "fHistNPPGammaFirstMother_" + fHistogramNameSuffix; + fHistNPPGammaFirstMother = new TH1F(histname.Data(),"Gamma First Mother PDG Code",1201,-600.5,600.5); + histname = "fHistNPPGammaFirstMotherXY_" + fHistogramNameSuffix; + fHistNPPGammaFirstMotherXY = new TH2F(histname.Data(),"Gamma Mother X,Y vertex position",1201,-600.5,600.5,1201,-600.5,600.5); + histname = "fHistNPPGammaNDaughters_" + fHistogramNameSuffix; + fHistNPPGammaNDaughters = new TH1F(histname.Data(),"Number of Gamma Daugthers",11,-0.5,10.5); + histname = "fHistNPPGammaDaughters_" + fHistogramNameSuffix; + fHistNPPGammaDaughters = new TH1F(histname.Data(),"Gamma Daugther PDG Code",1201,-600.5,600.5); + histname = "fHistNPPGammaDaughtersXY_" + fHistogramNameSuffix; + fHistNPPGammaDaughtersXY = new TH2F(histname.Data(),"Gamma Daugther X,Y vertex position",1201,-600.5,600.5,1201,-600.5,600.5); + + histname = "fHistNPPGammaFirstMotherAcc_" + fHistogramNameSuffix; + fHistNPPGammaFirstMotherAcc = new TH1F(histname.Data(),"Gamma First Mother PDG Code, inside EMCal acceptance",1201,-600.5,600.5); + histname = "fHistNPPGammaFirstMotherXYAcc_" + fHistogramNameSuffix; + fHistNPPGammaFirstMotherXYAcc = new TH2F(histname.Data(),"Gamma Mother X,Y vertex position, inside EMCal acceptance",1201,-600.5,600.5,1201,-600.5,600.5); + histname = "fHistNPPGammaNDaughtersAcc_" + fHistogramNameSuffix; + fHistNPPGammaNDaughtersAcc = new TH1F(histname.Data(),"Number of Gamma Daugthers, inside EMCal acceptance",11,-0.5,10.5); + histname = "fHistNPPGammaDaughtersAcc_" + fHistogramNameSuffix; + fHistNPPGammaDaughtersAcc = new TH1F(histname.Data(),"Gamma Daugther PDG Code, inside EMCal acceptance",1201,-600.5,600.5); + histname = "fHistNPPGammaDaughtersXYAcc_" + fHistogramNameSuffix; + fHistNPPGammaDaughtersXYAcc = new TH2F(histname.Data(),"Gamma Daugther X,Y vertex position, inside EMCal acceptance",1201,-600.5,600.5,1201,-600.5,600.5); + + histname = "fHistNPPGammaFirstMotherRec_" + fHistogramNameSuffix; + fHistNPPGammaFirstMotherRec = new TH1F(histname.Data(),"Reconstructed Gamma First Mother PDG Code",1201,-600.5,600.5); + histname = "fHistNPPGammaFirstMotherXYRec_" + fHistogramNameSuffix; + fHistNPPGammaFirstMotherXYRec = new TH2F(histname.Data(),"Gamma Mother X,Y vertex position, inside EMCal acceptance",1201,-600.5,600.5,1201,-600.5,600.5); + histname = "fHistNPPGammaNDaughtersRec_" + fHistogramNameSuffix; + fHistNPPGammaNDaughtersRec = new TH1F(histname.Data(),"Number of Gamma Daugthers, inside EMCal acceptance",11,-0.5,10.5); + histname = "fHistNPPGammaDaughtersRec_" + fHistogramNameSuffix; + fHistNPPGammaDaughtersRec = new TH1F(histname.Data(),"Gamma Daugther PDG Code",1201,-600.5,600.5); + histname = "fHistNPPGammaDaughtersXYRec_" + fHistogramNameSuffix; + fHistNPPGammaDaughtersXYRec = new TH2F(histname.Data(),"Gamma Daugther X,Y vertex position",1201,-600.5,600.5,1201,-600.5,600.5); } void AliAnalysisEmEtMonteCarlo::FillOutputList(TList *list) {//fill the output tlist - //AliAnalysisEt::FillOutputList(list); - - list->Add(fHistPrimEtaEET); - list->Add(fHistPrimEtaPtET); - list->Add(fHistPrimEtaET); - list->Add(fHistPrimtotET); - - list->Add(fHistPrimAccEtaEET); - list->Add(fHistPrimAccEtaPtET); - list->Add(fHistPrimAccEtaET); - list->Add(fHistPrimAcctotET); - - list->Add(fHistPrimRecEtaEET); - list->Add(fHistPrimRecEtaPtET); - list->Add(fHistPrimRecEtaET); - list->Add(fHistPrimRectotET); - - list->Add(fHistPrimRecEtaEDepETDep); - list->Add(fHistPrimRecEtaPtETDep); - list->Add(fHistPrimRecEtaETDep); - list->Add(fHistPrimRectotETDep); - - list->Add(fHistElectronEtaEET); - list->Add(fHistElectronEtaPtET); - list->Add(fHistElectronEtaET); - list->Add(fHistElectronEtaE); - list->Add(fHistElectronEtaPt); - list->Add(fHistElectrontotET); - - list->Add(fHistConvElectronEtaEET); - list->Add(fHistConvElectronEtaPtET); - list->Add(fHistConvElectronEtaET); - list->Add(fHistConvElectronEtaE); - list->Add(fHistConvElectronEtaPt); - list->Add(fHistConvElectrontotET); - - list->Add(fHistScatElectronEtaEET); - list->Add(fHistScatElectronEtaPtET); - list->Add(fHistScatElectronEtaET); - list->Add(fHistScatElectronEtaE); - list->Add(fHistScatElectronEtaPt); - list->Add(fHistScatElectrontotET); - - list->Add(fHistTotElectrontotET); - - list->Add(fHistGammaEtaEET); - list->Add(fHistGammaEtaPtET); - list->Add(fHistGammaEtaET); - list->Add(fHistGammaEtaE); - list->Add(fHistGammaEtaPt); - list->Add(fHistGammatotET); - - list->Add(fHistAnnihGammaEtaEET); - list->Add(fHistAnnihGammaEtaPtET); - list->Add(fHistAnnihGammaEtaET); - list->Add(fHistAnnihGammaEtaE); - list->Add(fHistAnnihGammaEtaPt); - list->Add(fHistAnnihGammatotET); - - list->Add(fHistScatGammaEtaEET); - list->Add(fHistScatGammaEtaPtET); - list->Add(fHistScatGammaEtaET); - list->Add(fHistScatGammaEtaE); - list->Add(fHistScatGammaEtaPt); - list->Add(fHistScatGammatotET); - - list->Add(fHistConvGammaEtaEET); - list->Add(fHistConvGammaEtaPtET); - list->Add(fHistConvGammaEtaET); - list->Add(fHistConvGammaEtaE); - list->Add(fHistConvGammaEtaPt); - list->Add(fHistConvGammatotET); - - list->Add(fHistNonConvGammaEtaEET); - list->Add(fHistNonConvGammaEtaPtET); - list->Add(fHistNonConvGammaEtaET); - list->Add(fHistNonConvGammaEtaE); - list->Add(fHistNonConvGammaEtaPt); - list->Add(fHistNonConvGammatotET); - - list->Add(fHistTotGammatotET); - - list->Add(fHistTotEMtotET); - - list->Add(fHistNPPElectronEtaEET); - list->Add(fHistNPPElectronEtaPtET); - list->Add(fHistNPPElectronEtaET); - list->Add(fHistNPPElectronEtaE); - list->Add(fHistNPPElectronEtaPt); - list->Add(fHistNPPElectrontotET); - - list->Add(fHistNPPGammaEtaEET); - list->Add(fHistNPPGammaEtaPtET); - list->Add(fHistNPPGammaEtaET); - list->Add(fHistNPPGammaEtaE); - list->Add(fHistNPPGammaEtaPt); - list->Add(fHistNPPGammatotET); - - list->Add(fHistTotNPPEMtotET); - - list->Add(fHistNPPPi0GammaEtaEET); - list->Add(fHistNPPPi0GammaEtaPtET); - list->Add(fHistNPPPi0GammaEtaET); - list->Add(fHistNPPPi0GammaEtaE); - list->Add(fHistNPPPi0GammaEtaPt); - list->Add(fHistNPPPi0GammatotET); - - list->Add(fHistElectronAccEtaEET); - list->Add(fHistElectronAccEtaPtET); - list->Add(fHistElectronAccEtaET); - list->Add(fHistElectronAccEtaE); - list->Add(fHistElectronAccEtaPt); - list->Add(fHistElectronAcctotET); - - list->Add(fHistConvElectronAccEtaEET); - list->Add(fHistConvElectronAccEtaPtET); - list->Add(fHistConvElectronAccEtaET); - list->Add(fHistConvElectronAccEtaE); - list->Add(fHistConvElectronAccEtaPt); - list->Add(fHistConvElectronAcctotET); - - list->Add(fHistScatElectronAccEtaEET); - list->Add(fHistScatElectronAccEtaPtET); - list->Add(fHistScatElectronAccEtaET); - list->Add(fHistScatElectronAccEtaE); - list->Add(fHistScatElectronAccEtaPt); - list->Add(fHistScatElectronAcctotET); - - list->Add(fHistTotElectronAcctotET); - - list->Add(fHistGammaAccEtaEET); - list->Add(fHistGammaAccEtaPtET); - list->Add(fHistGammaAccEtaET); - list->Add(fHistGammaAccEtaE); - list->Add(fHistGammaAccEtaPt); - list->Add(fHistGammaAcctotET); - - list->Add(fHistConvGammaAccEtaEET); - list->Add(fHistConvGammaAccEtaPtET); - list->Add(fHistConvGammaAccEtaET); - list->Add(fHistConvGammaAccEtaE); - list->Add(fHistConvGammaAccEtaPt); - list->Add(fHistConvGammaAcctotET); - - list->Add(fHistNonConvGammaAccEtaEET); - list->Add(fHistNonConvGammaAccEtaPtET); - list->Add(fHistNonConvGammaAccEtaET); - list->Add(fHistNonConvGammaAccEtaE); - list->Add(fHistNonConvGammaAccEtaPt); - list->Add(fHistNonConvGammaAcctotET); - - list->Add(fHistAnnihGammaAccEtaEET); - list->Add(fHistAnnihGammaAccEtaPtET); - list->Add(fHistAnnihGammaAccEtaET); - list->Add(fHistAnnihGammaAccEtaE); - list->Add(fHistAnnihGammaAccEtaPt); - list->Add(fHistAnnihGammaAcctotET); - - list->Add(fHistScatGammaAccEtaEET); - list->Add(fHistScatGammaAccEtaPtET); - list->Add(fHistScatGammaAccEtaET); - list->Add(fHistScatGammaAccEtaE); - list->Add(fHistScatGammaAccEtaPt); - list->Add(fHistScatGammaAcctotET); - - list->Add(fHistTotGammaAcctotET); - - list->Add(fHistTotEMAcctotET); - - list->Add(fHistNPPElectronAccEtaEET); - list->Add(fHistNPPElectronAccEtaPtET); - list->Add(fHistNPPElectronAccEtaE); - list->Add(fHistNPPElectronAccEtaPt); - - list->Add(fHistNPPGammaAccEtaEET); - list->Add(fHistNPPGammaAccEtaPtET); - list->Add(fHistNPPGammaAccEtaE); - list->Add(fHistNPPGammaAccEtaPt); - - list->Add(fHistElectronRecEtaEET); - list->Add(fHistElectronRecEtaPtET); - list->Add(fHistElectronRecEtaET); - list->Add(fHistElectronRecEtaE); - list->Add(fHistElectronRecEtaPt); - list->Add(fHistElectronRectotET); - - list->Add(fHistConvElectronRecEtaEET); - list->Add(fHistConvElectronRecEtaPtET); - list->Add(fHistConvElectronRecEtaET); - list->Add(fHistConvElectronRecEtaE); - list->Add(fHistConvElectronRecEtaPt); - list->Add(fHistConvElectronRectotET); - - list->Add(fHistScatElectronRecEtaEET); - list->Add(fHistScatElectronRecEtaPtET); - list->Add(fHistScatElectronRecEtaET); - list->Add(fHistScatElectronRecEtaE); - list->Add(fHistScatElectronRecEtaPt); - list->Add(fHistScatElectronRectotET); - - list->Add(fHistTotElectronRectotET); - - list->Add(fHistGammaRecEtaEET); - list->Add(fHistGammaRecEtaPtET); - list->Add(fHistGammaRecEtaET); - list->Add(fHistGammaRecEtaE); - list->Add(fHistGammaRecEtaPt); - list->Add(fHistGammaRectotET); - - list->Add(fHistAnnihGammaRecEtaEET); - list->Add(fHistAnnihGammaRecEtaPtET); - list->Add(fHistAnnihGammaRecEtaET); - list->Add(fHistAnnihGammaRecEtaE); - list->Add(fHistAnnihGammaRecEtaPt); - list->Add(fHistAnnihGammaRectotET); - - list->Add(fHistScatGammaRecEtaEET); - list->Add(fHistScatGammaRecEtaPtET); - list->Add(fHistScatGammaRecEtaET); - list->Add(fHistScatGammaRecEtaE); - list->Add(fHistScatGammaRecEtaPt); - list->Add(fHistScatGammaRectotET); - - list->Add(fHistTotGammaRectotET); - - list->Add(fHistTotEMRectotET); - - list->Add(fHistNPPElectronRecEtaEET); - list->Add(fHistNPPElectronRecEtaPtET); - list->Add(fHistNPPElectronRecEtaET); - list->Add(fHistNPPElectronRecEtaE); - list->Add(fHistNPPElectronRecEtaPt); - list->Add(fHistNPPElectronRectotET); - - list->Add(fHistNPPGammaRecEtaEET); - list->Add(fHistNPPGammaRecEtaPtET); - list->Add(fHistNPPGammaRecEtaET); - list->Add(fHistNPPGammaRecEtaE); - list->Add(fHistNPPGammaRecEtaPt); - list->Add(fHistNPPGammaRectotET); - - list->Add(fHistTotNPPEMRectotET); - - list->Add(fHistNPPPi0GammaRecEtaEET); - list->Add(fHistNPPPi0GammaRecEtaPtET); - list->Add(fHistNPPPi0GammaRecEtaET); - list->Add(fHistNPPPi0GammaRecEtaE); - list->Add(fHistNPPPi0GammaRecEtaPt); - list->Add(fHistNPPPi0GammaRectotET); - - list->Add(fHistMuonEtaEET); - list->Add(fHistMuonAccEtaEET); - list->Add(fHistMuonRecEtaEET); - list->Add(fHistMuonMatchEtaEET); - - list->Add(fHistMuonEtaPtET); - list->Add(fHistMuonAccEtaPtET); - list->Add(fHistMuonRecEtaPtET); - list->Add(fHistMuonMatchEtaPtET); - - list->Add(fHistMuonEtaET); - list->Add(fHistMuonAccEtaET); - list->Add(fHistMuonRecEtaET); - list->Add(fHistMuonMatchEtaET); - - list->Add(fHistMuonEtaE); - list->Add(fHistMuonAccEtaE); - list->Add(fHistMuonRecEtaE); - list->Add(fHistMuonMatchEtaE); - - list->Add(fHistMuonEtaPt); - list->Add(fHistMuonAccEtaPt); - list->Add(fHistMuonRecEtaPt); - list->Add(fHistMuonMatchEtaPt); - - list->Add(fHistMuontotET); - list->Add(fHistMuonAcctotET); - list->Add(fHistMuonRectotET); - list->Add(fHistMuonMatchtotET); - - list->Add(fHistMuonRectotETDep); - list->Add(fHistMuonMatchtotETDep); - - list->Add(fHistMuonRecEtaEDepETDep); - list->Add(fHistMuonMatchEtaEDepETDep); - - list->Add(fHistMuonRecEtaPtETDep); - list->Add(fHistMuonMatchEtaPtETDep); - - list->Add(fHistMuonRecEtaETDep); - list->Add(fHistMuonMatchEtaETDep); - - list->Add(fHistMuonRecResEET); - list->Add(fHistMuonRecResPtET); - list->Add(fHistMuonRecResE); - list->Add(fHistMuonRecResPt); - list->Add(fHistMuonRecResEDepETDep); - list->Add(fHistMuonRecResPtETDep); - - list->Add(fHistPionEtaEET); - list->Add(fHistPionAccEtaEET); - list->Add(fHistPionRecEtaEET); - list->Add(fHistPionMatchEtaEET); - - list->Add(fHistPionEtaPtET); - list->Add(fHistPionAccEtaPtET); - list->Add(fHistPionRecEtaPtET); - list->Add(fHistPionMatchEtaPtET); - - list->Add(fHistPionEtaET); - list->Add(fHistPionAccEtaET); - list->Add(fHistPionRecEtaET); - list->Add(fHistPionMatchEtaET); - - list->Add(fHistPionEtaE); - list->Add(fHistPionAccEtaE); - list->Add(fHistPionRecEtaE); - list->Add(fHistPionMatchEtaE); - - list->Add(fHistPionEtaPt); - list->Add(fHistPionAccEtaPt); - list->Add(fHistPionRecEtaPt); - list->Add(fHistPionMatchEtaPt); - - list->Add(fHistPiontotET); - list->Add(fHistPionAcctotET); - list->Add(fHistPionRectotET); - list->Add(fHistPionMatchtotET); - - list->Add(fHistPionRectotETDep); - list->Add(fHistPionMatchtotETDep); - - list->Add(fHistPionRecEtaEDepETDep); - list->Add(fHistPionMatchEtaEDepETDep); - - list->Add(fHistPionRecEtaPtETDep); - list->Add(fHistPionMatchEtaPtETDep); - - list->Add(fHistPionRecEtaETDep); - list->Add(fHistPionMatchEtaETDep); - - list->Add(fHistPionRecResEET); - list->Add(fHistPionRecResPtET); - list->Add(fHistPionRecResE); - list->Add(fHistPionRecResPt); - list->Add(fHistPionRecResEDepETDep); - list->Add(fHistPionRecResPtETDep); - - list->Add(fHistKaonEtaEET); - list->Add(fHistKaonAccEtaEET); - list->Add(fHistKaonRecEtaEET); - list->Add(fHistKaonMatchEtaEET); - - list->Add(fHistKaonEtaPtET); - list->Add(fHistKaonAccEtaPtET); - list->Add(fHistKaonRecEtaPtET); - list->Add(fHistKaonMatchEtaPtET); - - list->Add(fHistKaonEtaET); - list->Add(fHistKaonAccEtaET); - list->Add(fHistKaonRecEtaET); - list->Add(fHistKaonMatchEtaET); - - list->Add(fHistKaonEtaE); - list->Add(fHistKaonAccEtaE); - list->Add(fHistKaonRecEtaE); - list->Add(fHistKaonMatchEtaE); - - list->Add(fHistKaonEtaPt); - list->Add(fHistKaonAccEtaPt); - list->Add(fHistKaonRecEtaPt); - list->Add(fHistKaonMatchEtaPt); - - list->Add(fHistKaontotET); - list->Add(fHistKaonAcctotET); - list->Add(fHistKaonRectotET); - list->Add(fHistKaonMatchtotET); - - list->Add(fHistKaonRectotETDep); - list->Add(fHistKaonMatchtotETDep); - - list->Add(fHistKaonRecEtaEDepETDep); - list->Add(fHistKaonMatchEtaEDepETDep); - - list->Add(fHistKaonRecEtaPtETDep); - list->Add(fHistKaonMatchEtaPtETDep); - - list->Add(fHistKaonRecEtaETDep); - list->Add(fHistKaonMatchEtaETDep); - - list->Add(fHistKaonRecResEET); - list->Add(fHistKaonRecResPtET); - list->Add(fHistKaonRecResE); - list->Add(fHistKaonRecResPt); - list->Add(fHistKaonRecResEDepETDep); - list->Add(fHistKaonRecResPtETDep); - - list->Add(fHistProtonEtaEET); - list->Add(fHistProtonAccEtaEET); - list->Add(fHistProtonRecEtaEET); - list->Add(fHistProtonMatchEtaEET); - - list->Add(fHistProtonEtaPtET); - list->Add(fHistProtonAccEtaPtET); - list->Add(fHistProtonRecEtaPtET); - list->Add(fHistProtonMatchEtaPtET); - - list->Add(fHistProtonEtaET); - list->Add(fHistProtonAccEtaET); - list->Add(fHistProtonRecEtaET); - list->Add(fHistProtonMatchEtaET); - - list->Add(fHistProtonEtaE); - list->Add(fHistProtonAccEtaE); - list->Add(fHistProtonRecEtaE); - list->Add(fHistProtonMatchEtaE); - - list->Add(fHistProtonEtaPt); - list->Add(fHistProtonAccEtaPt); - list->Add(fHistProtonRecEtaPt); - list->Add(fHistProtonMatchEtaPt); - - list->Add(fHistProtontotET); - list->Add(fHistProtonAcctotET); - list->Add(fHistProtonRectotET); - list->Add(fHistProtonMatchtotET); - - list->Add(fHistProtonRectotETDep); - list->Add(fHistProtonMatchtotETDep); - - list->Add(fHistProtonRecEtaEDepETDep); - list->Add(fHistProtonMatchEtaEDepETDep); - - list->Add(fHistProtonRecEtaPtETDep); - list->Add(fHistProtonMatchEtaPtETDep); - - list->Add(fHistProtonRecEtaETDep); - list->Add(fHistProtonMatchEtaETDep); - - list->Add(fHistProtonRecResEET); - list->Add(fHistProtonRecResPtET); - list->Add(fHistProtonRecResE); - list->Add(fHistProtonRecResPt); - list->Add(fHistProtonRecResEDepETDep); - list->Add(fHistProtonRecResPtETDep); - - list->Add(fHistTotChargedtotET); - list->Add(fHistTotChargedAcctotET); - list->Add(fHistTotChargedRectotET); - list->Add(fHistTotChargedMatchtotET); - - list->Add(fHistTotChargedRectotETDep); - list->Add(fHistTotChargedMatchtotETDep); - - list->Add(fHistNeutronEtaEET); - list->Add(fHistNeutronAccEtaEET); - list->Add(fHistNeutronRecEtaEET); - - list->Add(fHistNeutronEtaPtET); - list->Add(fHistNeutronAccEtaPtET); - list->Add(fHistNeutronRecEtaPtET); - - list->Add(fHistNeutronEtaET); - list->Add(fHistNeutronAccEtaET); - list->Add(fHistNeutronRecEtaET); - - list->Add(fHistNeutronEtaE); - list->Add(fHistNeutronAccEtaE); - list->Add(fHistNeutronRecEtaE); - - list->Add(fHistNeutronEtaPt); - list->Add(fHistNeutronAccEtaPt); - list->Add(fHistNeutronRecEtaPt); - - list->Add(fHistNeutrontotET); - list->Add(fHistNeutronAcctotET); - list->Add(fHistNeutronRectotET); - list->Add(fHistNeutronRectotETDep); - - list->Add(fHistNeutronRecEtaEDepETDep); - list->Add(fHistNeutronRecEtaETDep); - - list->Add(fHistNeutronRecEtaPtETDep); - - list->Add(fHistK0EtaEET); - list->Add(fHistK0RecEtaEET); - - list->Add(fHistK0EtaPtET); - list->Add(fHistK0RecEtaPtET); - - list->Add(fHistK0EtaET); - list->Add(fHistK0RecEtaET); - - list->Add(fHistK0EtaE); - list->Add(fHistK0RecEtaE); - - list->Add(fHistK0EtaPt); - list->Add(fHistK0RecEtaPt); - - list->Add(fHistK0totET); - list->Add(fHistK0RectotET); - list->Add(fHistK0RectotETDep); - - list->Add(fHistK0RecEtaEDepETDep); - list->Add(fHistK0RecEtaETDep); - - list->Add(fHistK0RecEtaPtETDep); - - list->Add(fHistLambdaEtaEET); - list->Add(fHistLambdaRecEtaEET); - - list->Add(fHistLambdaEtaPtET); - list->Add(fHistLambdaRecEtaPtET); - - list->Add(fHistLambdaEtaET); - list->Add(fHistLambdaRecEtaET); - - list->Add(fHistLambdaEtaE); - list->Add(fHistLambdaRecEtaE); - - list->Add(fHistLambdaEtaPt); - list->Add(fHistLambdaRecEtaPt); - - list->Add(fHistLambdatotET); - list->Add(fHistLambdaRectotET); - list->Add(fHistLambdaRectotETDep); - - list->Add(fHistLambdaRecEtaEDepETDep); - list->Add(fHistLambdaRecEtaETDep); - - list->Add(fHistLambdaRecEtaPtETDep); - - list->Add(fHistTotNeutraltotET); - list->Add(fHistTotNeutralRectotET); - list->Add(fHistTotNeutralRectotETDep); - - list->Add(fHistTotaltotET); - list->Add(fHistTotalAcctotET); - list->Add(fHistTotalRectotET); - list->Add(fHistTotalRectotETDep); - - list->Add(fHistElectronFirstMother); - list->Add(fHistElectronFirstMotherXY); - list->Add(fHistElectronNDaughters); - list->Add(fHistElectronDaughters); - list->Add(fHistElectronDaughtersXY); - - list->Add(fHistElectronFirstMotherAcc); - list->Add(fHistElectronFirstMotherXYAcc); - list->Add(fHistElectronNDaughtersAcc); - list->Add(fHistElectronDaughtersAcc); - list->Add(fHistElectronDaughtersXYAcc); - - list->Add(fHistElectronFirstMotherRec); - list->Add(fHistElectronFirstMotherXYRec); - list->Add(fHistElectronNDaughtersRec); - list->Add(fHistElectronDaughtersRec); - list->Add(fHistElectronDaughtersXYRec); - - list->Add(fHistNPPElectronFirstMother); - list->Add(fHistNPPElectronFirstMotherXY); - list->Add(fHistNPPElectronNDaughters); - list->Add(fHistNPPElectronDaughters); - list->Add(fHistNPPElectronDaughtersXY); - - list->Add(fHistNPPElectronFirstMotherAcc); - list->Add(fHistNPPElectronFirstMotherXYAcc); - list->Add(fHistNPPElectronNDaughtersAcc); - list->Add(fHistNPPElectronDaughtersAcc); - list->Add(fHistNPPElectronDaughtersXYAcc); - - list->Add(fHistNPPElectronFirstMotherRec); - list->Add(fHistNPPElectronFirstMotherXYRec); - list->Add(fHistNPPElectronNDaughtersRec); - list->Add(fHistNPPElectronDaughtersRec); - list->Add(fHistNPPElectronDaughtersXYRec); - - list->Add(fHistGammaFirstMother); - list->Add(fHistGammaFirstMotherXY); - list->Add(fHistGammaNDaughters); - list->Add(fHistGammaDaughters); - list->Add(fHistGammaDaughtersXY); - list->Add(fHistConvGammaDaughtersXY); - list->Add(fHistNonConvGammaDaughtersXY); - - list->Add(fHistGammaFirstMotherAcc); - list->Add(fHistGammaFirstMotherXYAcc); - list->Add(fHistGammaNDaughtersAcc); - list->Add(fHistGammaDaughtersAcc); - list->Add(fHistGammaDaughtersXYAcc); - list->Add(fHistConvGammaDaughtersXYAcc); - list->Add(fHistNonConvGammaDaughtersXYAcc); - - list->Add(fHistGammaFirstMotherRec); - list->Add(fHistGammaFirstMotherXYRec); - list->Add(fHistGammaNDaughtersRec); - list->Add(fHistGammaDaughtersRec); - list->Add(fHistGammaDaughtersXYRec); - list->Add(fHistConvGammaDaughtersXYRec); - list->Add(fHistNonConvGammaDaughtersXYRec); - - list->Add(fHistNPPGammaFirstMother); - list->Add(fHistNPPGammaFirstMotherXY); - list->Add(fHistNPPGammaNDaughters); - list->Add(fHistNPPGammaDaughters); - list->Add(fHistNPPGammaDaughtersXY); - - list->Add(fHistNPPGammaFirstMotherAcc); - list->Add(fHistNPPGammaFirstMotherXYAcc); - list->Add(fHistNPPGammaNDaughtersAcc); - list->Add(fHistNPPGammaDaughtersAcc); - list->Add(fHistNPPGammaDaughtersXYAcc); - - list->Add(fHistNPPGammaFirstMotherRec); - list->Add(fHistNPPGammaFirstMotherXYRec); - list->Add(fHistNPPGammaNDaughtersRec); - list->Add(fHistNPPGammaDaughtersRec); - list->Add(fHistNPPGammaDaughtersXYRec); - - list->Add(fHistAllERecEMC); - list->Add(fHistAllPtRecPtMC); - list->Add(fHistElectronERecEMC); - list->Add(fHistGammaERecEMC); - - list->Add(fHistChargedRes); - list->Add(fHistChargedRes2); - list->Add(fHistChargedRes3); - list->Add(fHistNeutralRes); - list->Add(fHistElectronRes); - list->Add(fHistGammaRes); - - list->Add(fHistIsInAcc); + //AliAnalysisEt::FillOutputList(list); + + list->Add(fHistPrimEtaEET); + list->Add(fHistPrimEtaPtET); + list->Add(fHistPrimEtaET); + list->Add(fHistPrimtotET); + + list->Add(fHistPrimAccEtaEET); + list->Add(fHistPrimAccEtaPtET); + list->Add(fHistPrimAccEtaET); + list->Add(fHistPrimAcctotET); + + list->Add(fHistPrimRecEtaEET); + list->Add(fHistPrimRecEtaPtET); + list->Add(fHistPrimRecEtaET); + list->Add(fHistPrimRectotET); + + list->Add(fHistPrimRecEtaEDepETDep); + list->Add(fHistPrimRecEtaPtETDep); + list->Add(fHistPrimRecEtaETDep); + list->Add(fHistPrimRectotETDep); + + list->Add(fHistElectronEtaEET); + list->Add(fHistElectronEtaPtET); + list->Add(fHistElectronEtaET); + list->Add(fHistElectronEtaE); + list->Add(fHistElectronEtaPt); + list->Add(fHistElectrontotET); + + list->Add(fHistConvElectronEtaEET); + list->Add(fHistConvElectronEtaPtET); + list->Add(fHistConvElectronEtaET); + list->Add(fHistConvElectronEtaE); + list->Add(fHistConvElectronEtaPt); + list->Add(fHistConvElectrontotET); + + list->Add(fHistScatElectronEtaEET); + list->Add(fHistScatElectronEtaPtET); + list->Add(fHistScatElectronEtaET); + list->Add(fHistScatElectronEtaE); + list->Add(fHistScatElectronEtaPt); + list->Add(fHistScatElectrontotET); + + list->Add(fHistTotElectrontotET); + + list->Add(fHistGammaEtaEET); + list->Add(fHistGammaEtaPtET); + list->Add(fHistGammaEtaET); + list->Add(fHistGammaEtaE); + list->Add(fHistGammaEtaPt); + list->Add(fHistGammatotET); + + list->Add(fHistAnnihGammaEtaEET); + list->Add(fHistAnnihGammaEtaPtET); + list->Add(fHistAnnihGammaEtaET); + list->Add(fHistAnnihGammaEtaE); + list->Add(fHistAnnihGammaEtaPt); + list->Add(fHistAnnihGammatotET); + + list->Add(fHistScatGammaEtaEET); + list->Add(fHistScatGammaEtaPtET); + list->Add(fHistScatGammaEtaET); + list->Add(fHistScatGammaEtaE); + list->Add(fHistScatGammaEtaPt); + list->Add(fHistScatGammatotET); + + list->Add(fHistConvGammaEtaEET); + list->Add(fHistConvGammaEtaPtET); + list->Add(fHistConvGammaEtaET); + list->Add(fHistConvGammaEtaE); + list->Add(fHistConvGammaEtaPt); + list->Add(fHistConvGammatotET); + + list->Add(fHistNonConvGammaEtaEET); + list->Add(fHistNonConvGammaEtaPtET); + list->Add(fHistNonConvGammaEtaET); + list->Add(fHistNonConvGammaEtaE); + list->Add(fHistNonConvGammaEtaPt); + list->Add(fHistNonConvGammatotET); + + list->Add(fHistTotGammatotET); + + list->Add(fHistTotEMtotET); + + list->Add(fHistNPPElectronEtaEET); + list->Add(fHistNPPElectronEtaPtET); + list->Add(fHistNPPElectronEtaET); + list->Add(fHistNPPElectronEtaE); + list->Add(fHistNPPElectronEtaPt); + list->Add(fHistNPPElectrontotET); + + list->Add(fHistNPPGammaEtaEET); + list->Add(fHistNPPGammaEtaPtET); + list->Add(fHistNPPGammaEtaET); + list->Add(fHistNPPGammaEtaE); + list->Add(fHistNPPGammaEtaPt); + list->Add(fHistNPPGammatotET); + + list->Add(fHistTotNPPEMtotET); + + list->Add(fHistNPPPi0GammaEtaEET); + list->Add(fHistNPPPi0GammaEtaPtET); + list->Add(fHistNPPPi0GammaEtaET); + list->Add(fHistNPPPi0GammaEtaE); + list->Add(fHistNPPPi0GammaEtaPt); + list->Add(fHistNPPPi0GammatotET); + + list->Add(fHistElectronAccEtaEET); + list->Add(fHistElectronAccEtaPtET); + list->Add(fHistElectronAccEtaET); + list->Add(fHistElectronAccEtaE); + list->Add(fHistElectronAccEtaPt); + list->Add(fHistElectronAcctotET); + + list->Add(fHistConvElectronAccEtaEET); + list->Add(fHistConvElectronAccEtaPtET); + list->Add(fHistConvElectronAccEtaET); + list->Add(fHistConvElectronAccEtaE); + list->Add(fHistConvElectronAccEtaPt); + list->Add(fHistConvElectronAcctotET); + + list->Add(fHistScatElectronAccEtaEET); + list->Add(fHistScatElectronAccEtaPtET); + list->Add(fHistScatElectronAccEtaET); + list->Add(fHistScatElectronAccEtaE); + list->Add(fHistScatElectronAccEtaPt); + list->Add(fHistScatElectronAcctotET); + + list->Add(fHistTotElectronAcctotET); + + list->Add(fHistGammaAccEtaEET); + list->Add(fHistGammaAccEtaPtET); + list->Add(fHistGammaAccEtaET); + list->Add(fHistGammaAccEtaE); + list->Add(fHistGammaAccEtaPt); + list->Add(fHistGammaAcctotET); + + list->Add(fHistConvGammaAccEtaEET); + list->Add(fHistConvGammaAccEtaPtET); + list->Add(fHistConvGammaAccEtaET); + list->Add(fHistConvGammaAccEtaE); + list->Add(fHistConvGammaAccEtaPt); + list->Add(fHistConvGammaAcctotET); + + list->Add(fHistNonConvGammaAccEtaEET); + list->Add(fHistNonConvGammaAccEtaPtET); + list->Add(fHistNonConvGammaAccEtaET); + list->Add(fHistNonConvGammaAccEtaE); + list->Add(fHistNonConvGammaAccEtaPt); + list->Add(fHistNonConvGammaAcctotET); + + list->Add(fHistAnnihGammaAccEtaEET); + list->Add(fHistAnnihGammaAccEtaPtET); + list->Add(fHistAnnihGammaAccEtaET); + list->Add(fHistAnnihGammaAccEtaE); + list->Add(fHistAnnihGammaAccEtaPt); + list->Add(fHistAnnihGammaAcctotET); + + list->Add(fHistScatGammaAccEtaEET); + list->Add(fHistScatGammaAccEtaPtET); + list->Add(fHistScatGammaAccEtaET); + list->Add(fHistScatGammaAccEtaE); + list->Add(fHistScatGammaAccEtaPt); + list->Add(fHistScatGammaAcctotET); + + list->Add(fHistTotGammaAcctotET); + + list->Add(fHistTotEMAcctotET); + + list->Add(fHistNPPElectronAccEtaEET); + list->Add(fHistNPPElectronAccEtaPtET); + list->Add(fHistNPPElectronAccEtaE); + list->Add(fHistNPPElectronAccEtaPt); + + list->Add(fHistNPPGammaAccEtaEET); + list->Add(fHistNPPGammaAccEtaPtET); + list->Add(fHistNPPGammaAccEtaE); + list->Add(fHistNPPGammaAccEtaPt); + + list->Add(fHistElectronRecEtaEET); + list->Add(fHistElectronRecEtaPtET); + list->Add(fHistElectronRecEtaET); + list->Add(fHistElectronRecEtaE); + list->Add(fHistElectronRecEtaPt); + list->Add(fHistElectronRectotET); + + list->Add(fHistConvElectronRecEtaEET); + list->Add(fHistConvElectronRecEtaPtET); + list->Add(fHistConvElectronRecEtaET); + list->Add(fHistConvElectronRecEtaE); + list->Add(fHistConvElectronRecEtaPt); + list->Add(fHistConvElectronRectotET); + + list->Add(fHistScatElectronRecEtaEET); + list->Add(fHistScatElectronRecEtaPtET); + list->Add(fHistScatElectronRecEtaET); + list->Add(fHistScatElectronRecEtaE); + list->Add(fHistScatElectronRecEtaPt); + list->Add(fHistScatElectronRectotET); + + list->Add(fHistTotElectronRectotET); + + list->Add(fHistGammaRecEtaEET); + list->Add(fHistGammaRecEtaPtET); + list->Add(fHistGammaRecEtaET); + list->Add(fHistGammaRecEtaE); + list->Add(fHistGammaRecEtaPt); + list->Add(fHistGammaRectotET); + + + list->Add(fHistGammaRecResEET);//Add Caio + list->Add(fHistGammaRecResPtET);//Add CAio + list->Add(fHistGammaRecResE);//Add Caio + list->Add(fHistGammaRecResPt);//Add Caio + list->Add(fHistGammaRecResEDepETDep);//Add Caio + list->Add(fHistGammaRecResPtETDep); // Add Caio + + list->Add(fHistAnnihGammaRecEtaEET); + list->Add(fHistAnnihGammaRecEtaPtET); + list->Add(fHistAnnihGammaRecEtaET); + list->Add(fHistAnnihGammaRecEtaE); + list->Add(fHistAnnihGammaRecEtaPt); + list->Add(fHistAnnihGammaRectotET); + + list->Add(fHistScatGammaRecEtaEET); + list->Add(fHistScatGammaRecEtaPtET); + list->Add(fHistScatGammaRecEtaET); + list->Add(fHistScatGammaRecEtaE); + list->Add(fHistScatGammaRecEtaPt); + list->Add(fHistScatGammaRectotET); + + list->Add(fHistTotGammaRectotET); + + list->Add(fHistTotEMRectotET); + + list->Add(fHistNPPElectronRecEtaEET); + list->Add(fHistNPPElectronRecEtaPtET); + list->Add(fHistNPPElectronRecEtaET); + list->Add(fHistNPPElectronRecEtaE); + list->Add(fHistNPPElectronRecEtaPt); + list->Add(fHistNPPElectronRectotET); + + list->Add(fHistNPPGammaRecEtaEET); + list->Add(fHistNPPGammaRecEtaPtET); + list->Add(fHistNPPGammaRecEtaET); + list->Add(fHistNPPGammaRecEtaE); + list->Add(fHistNPPGammaRecEtaPt); + list->Add(fHistNPPGammaRectotET); + + list->Add(fHistTotNPPEMRectotET); + + list->Add(fHistNPPPi0GammaRecEtaEET); + list->Add(fHistNPPPi0GammaRecEtaPtET); + list->Add(fHistNPPPi0GammaRecEtaET); + list->Add(fHistNPPPi0GammaRecEtaE); + list->Add(fHistNPPPi0GammaRecEtaPt); + list->Add(fHistNPPPi0GammaRectotET); + + list->Add(fHistMuonEtaEET); + list->Add(fHistMuonAccEtaEET); + list->Add(fHistMuonRecEtaEET); + list->Add(fHistMuonMatchEtaEET); + + list->Add(fHistMuonEtaPtET); + list->Add(fHistMuonAccEtaPtET); + list->Add(fHistMuonRecEtaPtET); + list->Add(fHistMuonMatchEtaPtET); + + list->Add(fHistMuonEtaET); + list->Add(fHistMuonAccEtaET); + list->Add(fHistMuonRecEtaET); + list->Add(fHistMuonMatchEtaET); + + list->Add(fHistMuonEtaE); + list->Add(fHistMuonAccEtaE); + list->Add(fHistMuonRecEtaE); + list->Add(fHistMuonMatchEtaE); + + list->Add(fHistMuonEtaPt); + list->Add(fHistMuonAccEtaPt); + list->Add(fHistMuonRecEtaPt); + list->Add(fHistMuonMatchEtaPt); + + list->Add(fHistMuontotET); + list->Add(fHistMuonAcctotET); + list->Add(fHistMuonRectotET); + list->Add(fHistMuonMatchtotET); + + list->Add(fHistMuonRectotETDep); + list->Add(fHistMuonMatchtotETDep); + + list->Add(fHistMuonRecEtaEDepETDep); + list->Add(fHistMuonMatchEtaEDepETDep); + + list->Add(fHistMuonRecEtaPtETDep); + list->Add(fHistMuonMatchEtaPtETDep); + + list->Add(fHistMuonRecEtaETDep); + list->Add(fHistMuonMatchEtaETDep); + + list->Add(fHistMuonRecResEET); + list->Add(fHistMuonRecResPtET); + list->Add(fHistMuonRecResE); + list->Add(fHistMuonRecResPt); + list->Add(fHistMuonRecResEDepETDep); + list->Add(fHistMuonRecResPtETDep); + + list->Add(fHistPionEtaEET); + list->Add(fHistPionAccEtaEET); + list->Add(fHistPionRecEtaEET); + list->Add(fHistPionMatchEtaEET); + + list->Add(fHistPionEtaPtET); + list->Add(fHistPionAccEtaPtET); + list->Add(fHistPionRecEtaPtET); + list->Add(fHistPionMatchEtaPtET); + + list->Add(fHistPionEtaET); + list->Add(fHistPionAccEtaET); + list->Add(fHistPionRecEtaET); + list->Add(fHistPionMatchEtaET); + + list->Add(fHistPionEtaE); + list->Add(fHistPionAccEtaE); + list->Add(fHistPionRecEtaE); + list->Add(fHistPionMatchEtaE); + + list->Add(fHistPionEtaPt); + list->Add(fHistPionAccEtaPt); + list->Add(fHistPionRecEtaPt); + list->Add(fHistPionMatchEtaPt); + + list->Add(fHistPiontotET); + list->Add(fHistPionAcctotET); + list->Add(fHistPionRectotET); + list->Add(fHistPionMatchtotET); + + list->Add(fHistPionRectotETDep); + list->Add(fHistPionMatchtotETDep); + + list->Add(fHistPionRecEtaEDepETDep); + list->Add(fHistPionMatchEtaEDepETDep); + + list->Add(fHistPionRecEtaPtETDep); + list->Add(fHistPionMatchEtaPtETDep); + + list->Add(fHistPionRecEtaETDep); + list->Add(fHistPionMatchEtaETDep); + + list->Add(fHistPionRecResEET); + list->Add(fHistPionRecResPtET); + list->Add(fHistPionRecResE); + list->Add(fHistPionRecResPt); + list->Add(fHistPionRecResEDepETDep); + list->Add(fHistPionRecResPtETDep); + + list->Add(fHistKaonEtaEET); + list->Add(fHistKaonAccEtaEET); + list->Add(fHistKaonRecEtaEET); + list->Add(fHistKaonMatchEtaEET); + + list->Add(fHistKaonEtaPtET); + list->Add(fHistKaonAccEtaPtET); + list->Add(fHistKaonRecEtaPtET); + list->Add(fHistKaonMatchEtaPtET); + + list->Add(fHistKaonEtaET); + list->Add(fHistKaonAccEtaET); + list->Add(fHistKaonRecEtaET); + list->Add(fHistKaonMatchEtaET); + + list->Add(fHistKaonEtaE); + list->Add(fHistKaonAccEtaE); + list->Add(fHistKaonRecEtaE); + list->Add(fHistKaonMatchEtaE); + + list->Add(fHistKaonEtaPt); + list->Add(fHistKaonAccEtaPt); + list->Add(fHistKaonRecEtaPt); + list->Add(fHistKaonMatchEtaPt); + + list->Add(fHistKaontotET); + list->Add(fHistKaonAcctotET); + list->Add(fHistKaonRectotET); + list->Add(fHistKaonMatchtotET); + + list->Add(fHistKaonRectotETDep); + list->Add(fHistKaonMatchtotETDep); + + list->Add(fHistKaonRecEtaEDepETDep); + list->Add(fHistKaonMatchEtaEDepETDep); + + list->Add(fHistKaonRecEtaPtETDep); + list->Add(fHistKaonMatchEtaPtETDep); + + list->Add(fHistKaonRecEtaETDep); + list->Add(fHistKaonMatchEtaETDep); + + list->Add(fHistKaonRecResEET); + list->Add(fHistKaonRecResPtET); + list->Add(fHistKaonRecResE); + list->Add(fHistKaonRecResPt); + list->Add(fHistKaonRecResEDepETDep); + list->Add(fHistKaonRecResPtETDep); + + list->Add(fHistProtonEtaEET); + list->Add(fHistProtonAccEtaEET); + list->Add(fHistProtonRecEtaEET); + list->Add(fHistProtonMatchEtaEET); + + list->Add(fHistProtonEtaPtET); + list->Add(fHistProtonAccEtaPtET); + list->Add(fHistProtonRecEtaPtET); + list->Add(fHistProtonMatchEtaPtET); + + list->Add(fHistProtonEtaET); + list->Add(fHistProtonAccEtaET); + list->Add(fHistProtonRecEtaET); + list->Add(fHistProtonMatchEtaET); + + list->Add(fHistProtonEtaE); + list->Add(fHistProtonAccEtaE); + list->Add(fHistProtonRecEtaE); + list->Add(fHistProtonMatchEtaE); + + list->Add(fHistProtonEtaPt); + list->Add(fHistProtonAccEtaPt); + list->Add(fHistProtonRecEtaPt); + list->Add(fHistProtonMatchEtaPt); + + list->Add(fHistProtontotET); + list->Add(fHistProtonAcctotET); + list->Add(fHistProtonRectotET); + list->Add(fHistProtonMatchtotET); + + list->Add(fHistProtonRectotETDep); + list->Add(fHistProtonMatchtotETDep); + + list->Add(fHistProtonRecEtaEDepETDep); + list->Add(fHistProtonMatchEtaEDepETDep); + + list->Add(fHistProtonRecEtaPtETDep); + list->Add(fHistProtonMatchEtaPtETDep); + + list->Add(fHistProtonRecEtaETDep); + list->Add(fHistProtonMatchEtaETDep); + + list->Add(fHistProtonRecResEET); + list->Add(fHistProtonRecResPtET); + list->Add(fHistProtonRecResE); + list->Add(fHistProtonRecResPt); + list->Add(fHistProtonRecResEDepETDep); + list->Add(fHistProtonRecResPtETDep); + + list->Add(fHistTotChargedtotET); + list->Add(fHistTotChargedAcctotET); + list->Add(fHistTotChargedRectotET); + list->Add(fHistTotChargedMatchtotET); + + list->Add(fHistTotChargedRectotETDep); + list->Add(fHistTotChargedMatchtotETDep); + + list->Add(fHistNeutronEtaEET); + list->Add(fHistNeutronAccEtaEET); + list->Add(fHistNeutronRecEtaEET); + + list->Add(fHistNeutronEtaPtET); + list->Add(fHistNeutronAccEtaPtET); + list->Add(fHistNeutronRecEtaPtET); + + list->Add(fHistNeutronEtaET); + list->Add(fHistNeutronAccEtaET); + list->Add(fHistNeutronRecEtaET); + + list->Add(fHistNeutronEtaE); + list->Add(fHistNeutronAccEtaE); + list->Add(fHistNeutronRecEtaE); + + list->Add(fHistNeutronEtaPt); + list->Add(fHistNeutronAccEtaPt); + list->Add(fHistNeutronRecEtaPt); + + list->Add(fHistNeutrontotET); + list->Add(fHistNeutronAcctotET); + list->Add(fHistNeutronRectotET); + list->Add(fHistNeutronRectotETDep); + + list->Add(fHistNeutronRecEtaEDepETDep); + list->Add(fHistNeutronRecEtaETDep); + + list->Add(fHistNeutronRecEtaPtETDep); + + list->Add(fHistK0EtaEET); + list->Add(fHistK0RecEtaEET); + + list->Add(fHistK0EtaPtET); + list->Add(fHistK0RecEtaPtET); + + list->Add(fHistK0EtaET); + list->Add(fHistK0RecEtaET); + + list->Add(fHistK0EtaE); + list->Add(fHistK0RecEtaE); + + list->Add(fHistK0EtaPt); + list->Add(fHistK0RecEtaPt); + + list->Add(fHistK0totET); + list->Add(fHistK0RectotET); + list->Add(fHistK0RectotETDep); + + list->Add(fHistK0RecEtaEDepETDep); + list->Add(fHistK0RecEtaETDep); + + list->Add(fHistK0RecEtaPtETDep); + + list->Add(fHistLambdaEtaEET); + list->Add(fHistLambdaRecEtaEET); + + list->Add(fHistLambdaEtaPtET); + list->Add(fHistLambdaRecEtaPtET); + + list->Add(fHistLambdaEtaET); + list->Add(fHistLambdaRecEtaET); + + list->Add(fHistLambdaEtaE); + list->Add(fHistLambdaRecEtaE); + + list->Add(fHistLambdaEtaPt); + list->Add(fHistLambdaRecEtaPt); + + list->Add(fHistLambdatotET); + list->Add(fHistLambdaRectotET); + list->Add(fHistLambdaRectotETDep); + + list->Add(fHistLambdaRecEtaEDepETDep); + list->Add(fHistLambdaRecEtaETDep); + + list->Add(fHistLambdaRecEtaPtETDep); + + list->Add(fHistTotNeutraltotET); + list->Add(fHistTotNeutralRectotET); + list->Add(fHistTotNeutralRectotETDep); + + list->Add(fHistTotaltotET); + list->Add(fHistTotalAcctotET); + list->Add(fHistTotalRectotET); + list->Add(fHistTotalRectotETDep); + + list->Add(fHistElectronFirstMother); + list->Add(fHistElectronFirstMotherXY); + list->Add(fHistElectronNDaughters); + list->Add(fHistElectronDaughters); + list->Add(fHistElectronDaughtersXY); + + list->Add(fHistElectronFirstMotherAcc); + list->Add(fHistElectronFirstMotherXYAcc); + list->Add(fHistElectronNDaughtersAcc); + list->Add(fHistElectronDaughtersAcc); + list->Add(fHistElectronDaughtersXYAcc); + + list->Add(fHistElectronFirstMotherRec); + list->Add(fHistElectronFirstMotherXYRec); + list->Add(fHistElectronNDaughtersRec); + list->Add(fHistElectronDaughtersRec); + list->Add(fHistElectronDaughtersXYRec); + + list->Add(fHistNPPElectronFirstMother); + list->Add(fHistNPPElectronFirstMotherXY); + list->Add(fHistNPPElectronNDaughters); + list->Add(fHistNPPElectronDaughters); + list->Add(fHistNPPElectronDaughtersXY); + + list->Add(fHistNPPElectronFirstMotherAcc); + list->Add(fHistNPPElectronFirstMotherXYAcc); + list->Add(fHistNPPElectronNDaughtersAcc); + list->Add(fHistNPPElectronDaughtersAcc); + list->Add(fHistNPPElectronDaughtersXYAcc); + + list->Add(fHistNPPElectronFirstMotherRec); + list->Add(fHistNPPElectronFirstMotherXYRec); + list->Add(fHistNPPElectronNDaughtersRec); + list->Add(fHistNPPElectronDaughtersRec); + list->Add(fHistNPPElectronDaughtersXYRec); + + list->Add(fHistGammaFirstMother); + list->Add(fHistGammaFirstMotherXY); + list->Add(fHistGammaNDaughters); + list->Add(fHistGammaDaughters); + list->Add(fHistGammaDaughtersXY); + list->Add(fHistConvGammaDaughtersXY); + list->Add(fHistNonConvGammaDaughtersXY); + + list->Add(fHistGammaFirstMotherAcc); + list->Add(fHistGammaFirstMotherXYAcc); + list->Add(fHistGammaNDaughtersAcc); + list->Add(fHistGammaDaughtersAcc); + list->Add(fHistGammaDaughtersXYAcc); + list->Add(fHistConvGammaDaughtersXYAcc); + list->Add(fHistNonConvGammaDaughtersXYAcc); + + list->Add(fHistGammaFirstMotherRec); + list->Add(fHistGammaFirstMotherXYRec); + list->Add(fHistGammaNDaughtersRec); + list->Add(fHistGammaDaughtersRec); + list->Add(fHistGammaDaughtersXYRec); + list->Add(fHistConvGammaDaughtersXYRec); + list->Add(fHistNonConvGammaDaughtersXYRec); + + list->Add(fHistNPPGammaFirstMother); + list->Add(fHistNPPGammaFirstMotherXY); + list->Add(fHistNPPGammaNDaughters); + list->Add(fHistNPPGammaDaughters); + list->Add(fHistNPPGammaDaughtersXY); + + list->Add(fHistNPPGammaFirstMotherAcc); + list->Add(fHistNPPGammaFirstMotherXYAcc); + list->Add(fHistNPPGammaNDaughtersAcc); + list->Add(fHistNPPGammaDaughtersAcc); + list->Add(fHistNPPGammaDaughtersXYAcc); + + list->Add(fHistNPPGammaFirstMotherRec); + list->Add(fHistNPPGammaFirstMotherXYRec); + list->Add(fHistNPPGammaNDaughtersRec); + list->Add(fHistNPPGammaDaughtersRec); + list->Add(fHistNPPGammaDaughtersXYRec); + + list->Add(fHistAllERecEMC); + list->Add(fHistAllPtRecPtMC); + list->Add(fHistElectronERecEMC); + list->Add(fHistGammaERecEMC); + + list->Add(fHistChargedRes); + list->Add(fHistChargedRes2); + list->Add(fHistChargedRes3); + list->Add(fHistNeutralRes); + list->Add(fHistElectronRes); + list->Add(fHistGammaRes); + + list->Add(fHistIsInAcc); } //________________________________________________________________________ Bool_t AliAnalysisEmEtMonteCarlo::TrackHitsCalo(AliExternalTrackParam* extParam) {//Does the track hit the calorimeter? - TVector3 pos(0,0,0); + TVector3 pos(0,0,0); - if (extParam) + if (extParam) { - if (GetTrackProjection(extParam,pos)) - { - Bool_t inAcc = fGeoUt->IsInEMCAL(pos.X(),pos.Y(),pos.Z()); + if (GetTrackProjection(extParam,pos)) + { + Bool_t inAcc = fGeoUt->IsInEMCAL(pos.X(),pos.Y(),pos.Z()); - //if (inAcc) - // fHistIsInAcc->Fill(pos.X(),pos.Y()); + //if (inAcc) + // fHistIsInAcc->Fill(pos.X(),pos.Y()); - return inAcc; - } + return inAcc; + } } - return kFALSE; + return kFALSE; } //________________________________________________________________________ //project to a EMCal radius Bool_t AliAnalysisEmEtMonteCarlo::GetTrackProjection(AliExternalTrackParam *trackParam, TVector3 &trackPos) {//Get the track projection - Bool_t proj = kFALSE; - Double_t emcalR = fGeoUt->GetEMCGeometry()->GetIPDistance(); + Bool_t proj = kFALSE; + Double_t emcalR = fGeoUt->GetEMCGeometry()->GetIPDistance(); - if (trackParam) //it is constructed from TParticle + if (trackParam) //it is constructed from TParticle { - Double_t trkPos[3] = {0}; + Double_t trkPos[3] = {0}; - //Assume the track is a pion with mass 0.139GeV/c^2 - //Extrapolation step is 1cm - if(!AliTrackerBase::PropagateTrackToBxByBz(trackParam, emcalR, 0.139, 1, kTRUE, 0.8) ) return proj; + //Assume the track is a pion with mass 0.139GeV/c^2 + //Extrapolation step is 1cm + if(!AliTrackerBase::PropagateTrackToBxByBz(trackParam, emcalR, 0.139, 1, kTRUE, 0.8) ) return proj; - trackParam->GetXYZ(trkPos); + trackParam->GetXYZ(trkPos); - trackPos.SetXYZ(trkPos[0],trkPos[1],trkPos[2]); + trackPos.SetXYZ(trkPos[0],trkPos[1],trkPos[2]); - proj = kTRUE; + proj = kTRUE; } - return proj; + return proj; } //________________________________________________________________________ //project to a cluster position Bool_t AliAnalysisEmEtMonteCarlo::GetTrackProjection(AliEMCALTrack* emcTrack, TVector3 &trackPos, TVector3 clusPos) {//get the track projection - Bool_t proj = kFALSE; + Bool_t proj = kFALSE; - if (emcTrack) + if (emcTrack) { - Double_t trkPos[3] = {0}; + Double_t trkPos[3] = {0}; - emcTrack->PropagateToGlobal(clusPos.X(),clusPos.Y(),clusPos.Z(),0.,0.); - emcTrack->GetXYZ(trkPos); + emcTrack->PropagateToGlobal(clusPos.X(),clusPos.Y(),clusPos.Z(),0.,0.); + emcTrack->GetXYZ(trkPos); - trackPos.SetXYZ(trkPos[0],trkPos[1],trkPos[2]); + trackPos.SetXYZ(trkPos[0],trkPos[1],trkPos[2]); - proj = kTRUE; + proj = kTRUE; } - return proj; + return proj; } //________________________________________________________________________ Bool_t AliAnalysisEmEtMonteCarlo::IsInAcceptance(TParticle *part, TParticlePDG *pdg, AliExternalTrackParam* extParam) {//is the track in the acceptance of the emcal? - if ((part) && (pdg)) + if ((part) && (pdg)) { - if (TMath::Abs(pdg->Charge() - fCuts->GetMonteCarloNeutralParticle()) <1e-3 ) - { - if (TMath::Abs(part->Eta()) < fEtaCutAcc && part->Phi() < fPhiCutAccMax && part->Phi() > fPhiCutAccMin) - return kTRUE; - } - else - { - return TrackHitsCalo(extParam); - } + if (TMath::Abs(pdg->Charge() - fCuts->GetMonteCarloNeutralParticle()) <1e-3 ) + { + return fSelector->CutGeometricalAcceptance(*part); + } + else + { + return TrackHitsCalo(extParam); + } } - - return kFALSE; + + return kFALSE; } //________________________________________________________________________ Bool_t AliAnalysisEmEtMonteCarlo::IsInAcceptance(AliMCParticle *part) {// is the track in the acceptance of the emcal? - if (part) + if (part) { - for (int i=0;iGetNumberOfTrackReferences();i++) - { - AliTrackReference* aliTrkRef = part->GetTrackReference(i); + for (int i=0;iGetNumberOfTrackReferences();i++) + { + AliTrackReference* aliTrkRef = part->GetTrackReference(i); - if (aliTrkRef) - { - //if (aliTrkRef->DetectorId() == AliTrackReference::kEMCAL) - // return kTRUE; - if ( (aliTrkRef->DetectorId() == AliTrackReference::kEMCAL) || (fGeoUt->IsInEMCAL(aliTrkRef->X(),aliTrkRef->Y(),aliTrkRef->Z())) ) - return kTRUE; - } - } + if (aliTrkRef) + { + //if (aliTrkRef->DetectorId() == AliTrackReference::kEMCAL) + // return kTRUE; + if ( (aliTrkRef->DetectorId() == AliTrackReference::kEMCAL) || (fGeoUt->IsInEMCAL(aliTrkRef->X(),aliTrkRef->Y(),aliTrkRef->Z())) ) + return kTRUE; + } + } } - return kFALSE; + return kFALSE; } //________________________________________________________________________ Bool_t AliAnalysisEmEtMonteCarlo::IsPrimary(AliStack *stack, Int_t iPart, TParticlePDG *pdg, Int_t iPartMom, TParticlePDG *pdgMom) {//Is the track a primary track? - if (stack->IsPhysicalPrimary(iPart)) + if (stack->IsPhysicalPrimary(iPart)) { - return kTRUE; + return kTRUE; } - else if (pdg) + else if (pdg) { - if (((pdg->PdgCode() == fgEPlusCode) || (pdg->PdgCode() == fgEMinusCode) || (pdg->PdgCode() == fgGammaCode)) && - ((IsMotherPrimaryGamma(stack,iPartMom,pdgMom)) || (IsMotherPrimaryElectron(stack,iPartMom,pdgMom))) ) - { - return kTRUE; - } + if (((pdg->PdgCode() == fgEPlusCode) || (pdg->PdgCode() == fgEMinusCode) || (pdg->PdgCode() == fgGammaCode)) && + ((IsMotherPrimaryGamma(stack,iPartMom,pdgMom)) || (IsMotherPrimaryElectron(stack,iPartMom,pdgMom))) ) + { + return kTRUE; + } } - - return kFALSE; + + return kFALSE; } //________________________________________________________________________ Bool_t AliAnalysisEmEtMonteCarlo::IsMotherPrimaryGamma(AliStack *stack, Int_t iPartMom, TParticlePDG *pdgMom) {//Is the mother a primary gamma? - Int_t nStackTracks = stack->GetNtrack(); - - if (pdgMom) + Int_t nStackTracks = stack->GetNtrack(); + + if (pdgMom) { - if ((pdgMom->PdgCode() == fgGammaCode) && (iPartMom>=0) && (iPartMom < nStackTracks)) - { - if (stack->IsPhysicalPrimary(iPartMom)) - return kTRUE; - } + if ((pdgMom->PdgCode() == fgGammaCode) && (iPartMom>=0) && (iPartMom < nStackTracks)) + { + if (stack->IsPhysicalPrimary(iPartMom)) + return kTRUE; + } } - return kFALSE; + return kFALSE; } //________________________________________________________________________ Bool_t AliAnalysisEmEtMonteCarlo::IsMotherPrimaryElectron(AliStack *stack, Int_t iPartMom, TParticlePDG *pdgMom) {//is the mother a primary electron? - Int_t nStackTracks = stack->GetNtrack(); - - if (pdgMom) + Int_t nStackTracks = stack->GetNtrack(); + + if (pdgMom) { - if ((pdgMom->PdgCode() == fgEPlusCode || pdgMom->PdgCode() == fgEMinusCode) && (iPartMom>=0) && (iPartMom < nStackTracks)) - { - if (stack->IsPhysicalPrimary(iPartMom)) - return kTRUE; - } + if ((pdgMom->PdgCode() == fgEPlusCode || pdgMom->PdgCode() == fgEMinusCode) && (iPartMom>=0) && (iPartMom < nStackTracks)) + { + if (stack->IsPhysicalPrimary(iPartMom)) + return kTRUE; + } } - return kFALSE; + return kFALSE; } //________________________________________________________________________ Bool_t AliAnalysisEmEtMonteCarlo::IsGammaConversion(AliStack *stack, TParticle *part, TParticlePDG *pdg) {//is the gamma converted? - if ((part) && (pdg)) + if ((part) && (pdg)) { - if(pdg->PdgCode() == fgGammaCode) - { - Int_t nStackTracks = stack->GetNtrack(); - Int_t iPartDaughter = part->GetLastDaughter(); + if(pdg->PdgCode() == fgGammaCode) + { + Int_t nStackTracks = stack->GetNtrack(); + Int_t iPartDaughter = part->GetLastDaughter(); - if ((iPartDaughter>=0) && (iPartDaughter < nStackTracks)) - { - TParticle *partDaughter = stack->Particle(iPartDaughter); - if (partDaughter) - { - TParticlePDG *pdgDaugther = partDaughter->GetPDG(0); - if (pdgDaugther) - { - if ( ((pdgDaugther->PdgCode() == fgEPlusCode) || (pdgDaugther->PdgCode() == fgEMinusCode)) && (!fGeoUt->IsInEMCAL(partDaughter->Vx(),partDaughter->Vy(),partDaughter->Vz())) ) - { - //Double_t emcalR = fGeoUt->GetEMCGeometry()->GetIPDistance(); - //Double_t decayR = sqrt(pow(partDaughter->Vx(),2)+pow(partDaughter->Vy(),2)); + if ((iPartDaughter>=0) && (iPartDaughter < nStackTracks)) + { + TParticle *partDaughter = stack->Particle(iPartDaughter); + if (partDaughter) + { + TParticlePDG *pdgDaugther = partDaughter->GetPDG(0); + if (pdgDaugther) + { + if ( ((pdgDaugther->PdgCode() == fgEPlusCode) || (pdgDaugther->PdgCode() == fgEMinusCode)) && (!fGeoUt->IsInEMCAL(partDaughter->Vx(),partDaughter->Vy(),partDaughter->Vz())) ) + { + //Double_t emcalR = fGeoUt->GetEMCGeometry()->GetIPDistance(); + //Double_t decayR = sqrt(pow(partDaughter->Vx(),2)+pow(partDaughter->Vy(),2)); - //if (decayRPhi()*180./TMath::Pi(); - if (alpha<0) alpha+= 360.; - if (alpha>360) alpha -= 360.; - - Int_t sector = (Int_t)(alpha/20.); - alpha = 10. + 20.*sector; - alpha /= 180; - alpha *= TMath::Pi(); - - // Covariance matrix: no errors, the parameters are exact - for (int i=0; i<15; i++) covar[i]=0.; - - // Get the vertex of origin and the momentum - TVector3 ver(part->Vx(),part->Vy(),part->Vz()); - TVector3 mom(part->Px(),part->Py(),part->Pz()); - - // Rotate to the local coordinate system (TPC sector) - ver.RotateZ(-alpha); - mom.RotateZ(-alpha); - - // X of the referense plane - xref = ver.X(); - - Double_t charge; - if (part->GetPDG(0)) - charge = part->GetPDG(0)->Charge(); - else - return 0; - - if (mom.Pt()>0) + // Calculate the AliExternalTrackParam content + Double_t xref; + Double_t alpha; + Double_t param[5]; + Double_t covar[15]; + + // Calculate alpha: the rotation angle of the corresponding local system (TPC sector) + alpha = part->Phi()*180./TMath::Pi(); + if (alpha<0) alpha+= 360.; + if (alpha>360) alpha -= 360.; + + Int_t sector = (Int_t)(alpha/20.); + alpha = 10. + 20.*sector; + alpha /= 180; + alpha *= TMath::Pi(); + + // Covariance matrix: no errors, the parameters are exact + for (int i=0; i<15; i++) covar[i]=0.; + + // Get the vertex of origin and the momentum + TVector3 ver(part->Vx(),part->Vy(),part->Vz()); + TVector3 mom(part->Px(),part->Py(),part->Pz()); + + // Rotate to the local coordinate system (TPC sector) + ver.RotateZ(-alpha); + mom.RotateZ(-alpha); + + // X of the referense plane + xref = ver.X(); + + Double_t charge; + if (part->GetPDG(0)) + charge = part->GetPDG(0)->Charge(); + else + return 0; + + if (mom.Pt()>0) { - param[0] = ver.Y(); - param[1] = ver.Z(); - param[2] = TMath::Sin(mom.Phi()); - param[3] = mom.Pz()/mom.Pt(); - param[4] = TMath::Sign(1/mom.Pt(),charge); + param[0] = ver.Y(); + param[1] = ver.Z(); + param[2] = TMath::Sin(mom.Phi()); + param[3] = mom.Pz()/mom.Pt(); + param[4] = TMath::Sign(1/mom.Pt(),charge); } - else - return 0; + else + return 0; - // Set AliExternalTrackParam - AliExternalTrackParam* extTrkParam = new AliExternalTrackParam(xref, alpha, param, covar); + // Set AliExternalTrackParam + AliExternalTrackParam* extTrkParam = new AliExternalTrackParam(xref, alpha, param, covar); - return extTrkParam; + return extTrkParam; } //________________________________________________________________________ Double_t AliAnalysisEmEtMonteCarlo::CalcET(TParticle *part, TParticlePDG *pdg) {//Calculate Et - //*************** + //*************** // calculate E_T //*************** Double_t particleMassPart = 0; //The mass part in the Et calculation for this particle - Double_t protonMass = fgProtonMass; - - if (pdg) + Double_t protonMass = fgProtonMass; + + if (pdg) { - if ( - TMath::Abs(pdg->PdgCode()) == fgProtonCode || - TMath::Abs(pdg->PdgCode()) == fgNeutronCode || - TMath::Abs(pdg->PdgCode()) == fgLambdaCode || - TMath::Abs(pdg->PdgCode()) == fgXiCode || - TMath::Abs(pdg->PdgCode()) == fgXi0Code || - TMath::Abs(pdg->PdgCode()) == fgOmegaCode - ) - { - if (pdg->PdgCode() > 0) { particleMassPart = - protonMass;} - if (pdg->PdgCode() < 0) { particleMassPart = protonMass;} - } - Double_t et = part->Energy() * TMath::Sin(part->Theta()) + particleMassPart; - return et; + if ( + TMath::Abs(pdg->PdgCode()) == fgProtonCode || + TMath::Abs(pdg->PdgCode()) == fgNeutronCode || + TMath::Abs(pdg->PdgCode()) == fgLambdaCode || + TMath::Abs(pdg->PdgCode()) == fgXiCode || + TMath::Abs(pdg->PdgCode()) == fgXi0Code || + TMath::Abs(pdg->PdgCode()) == fgOmegaCode + ) + { + if (pdg->PdgCode() > 0) { particleMassPart = - protonMass;} + if (pdg->PdgCode() < 0) { particleMassPart = protonMass;} + } + Double_t et = part->Energy() * TMath::Sin(part->Theta()) + particleMassPart; + return et; } - else - return -1.; + else + return -1.; } - + //________________________________________________________________________ Double_t AliAnalysisEmEtMonteCarlo::CalcETDep(Double_t caloE, TParticle *part, TParticlePDG *pdg) {//calculate et dependence - //*************** + //*************** // calculate E_T //*************** Double_t particleMassPart = 0; //The mass part in the Et calculation for this particle - Double_t protonMass = fgProtonMass; + Double_t protonMass = fgProtonMass; - if (pdg) + if (pdg) { - if ( - TMath::Abs(pdg->PdgCode()) == fgProtonCode || - TMath::Abs(pdg->PdgCode()) == fgNeutronCode || - TMath::Abs(pdg->PdgCode()) == fgLambdaCode || - TMath::Abs(pdg->PdgCode()) == fgXiCode || - TMath::Abs(pdg->PdgCode()) == fgXi0Code || - TMath::Abs(pdg->PdgCode()) == fgOmegaCode - ) - { - if (pdg->PdgCode() > 0) { particleMassPart = - protonMass;} - if (pdg->PdgCode() < 0) { particleMassPart = protonMass;} - } - Double_t et = caloE * TMath::Sin(part->Theta()) + particleMassPart; - return et; + if ( + TMath::Abs(pdg->PdgCode()) == fgProtonCode || + TMath::Abs(pdg->PdgCode()) == fgNeutronCode || + TMath::Abs(pdg->PdgCode()) == fgLambdaCode || + TMath::Abs(pdg->PdgCode()) == fgXiCode || + TMath::Abs(pdg->PdgCode()) == fgXi0Code || + TMath::Abs(pdg->PdgCode()) == fgOmegaCode + ) + { + if (pdg->PdgCode() > 0) { particleMassPart = - protonMass;} + if (pdg->PdgCode() < 0) { particleMassPart = protonMass;} + } + Double_t et = caloE * TMath::Sin(part->Theta()) + particleMassPart; + return et; } - else - return -1.; + else + return -1.; } - + diff --git a/PWGLF/totEt/AliAnalysisEmEtMonteCarlo.h b/PWGLF/totEt/AliAnalysisEmEtMonteCarlo.h index 611624e4a33..df49db6d303 100644 --- a/PWGLF/totEt/AliAnalysisEmEtMonteCarlo.h +++ b/PWGLF/totEt/AliAnalysisEmEtMonteCarlo.h @@ -177,6 +177,8 @@ protected: TH2F *fHistNonConvGammaEtaPt;// multiplicity - Eta vs pt TH1F *fHistNonConvGammatotET;// total ET distribution + + // ******************* // total gamma ET // ******************* @@ -278,6 +280,7 @@ protected: TH2F *fHistNonConvGammaAccEtaPt;// multiplicity - Eta vs pt TH1F *fHistNonConvGammaAcctotET;// total ET distribution + // ******************* // total gamma ET inside EMCal acceptance // ******************* @@ -338,6 +341,16 @@ protected: TH2F *fHistGammaRecEtaPt;// multiplicity - Eta vs pt TH1F *fHistGammaRectotET;// total ET distribution + + + TH2F *fHistGammaRecResEET;// ET - track matching residual vs E_Added CAIO + TH2F *fHistGammaRecResPtET;// ET - track matching residual vs pt_Added CAIO + TH2F *fHistGammaRecResE;// multiplicity - track matching residual vs E_Added CAIO + TH2F *fHistGammaRecResPt;// multiplicity - track matching residual vs pt_Added CAIO + TH2F *fHistGammaRecResEDepETDep;// ET deposited - track matching residual vs E deposited_Added CAIO + TH2F *fHistGammaRecResPtETDep;// ET deposited - track matching residual vs pt_Added Caio + + TH2F *fHistAnnihGammaRecEtaEET;//ET - Eta vs E TH2F *fHistAnnihGammaRecEtaPtET;//ET - Eta vs pt TH2F *fHistAnnihGammaRecEtaET;// ET - Eta @@ -351,7 +364,8 @@ protected: TH2F *fHistScatGammaRecEtaE;// multiplicity - Eta vs E TH2F *fHistScatGammaRecEtaPt;// multiplicity - Eta vs pt TH1F *fHistScatGammaRectotET;// total ET distribution - + + // ******************* // total gamma ET reconstructed in EMCal // ******************* @@ -441,6 +455,7 @@ protected: // ******************* // pion ET (+ and -) // ******************* + TH2F *fHistPionEtaEET;//ET - Eta vs E TH2F *fHistPionAccEtaEET;//ET - Eta vs E TH2F *fHistPionRecEtaEET;//ET - Eta vs E -- 2.39.3