/** VERSION NUMBER 1.1 */
+/**************************************************************************
+ * Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
+ * *
+ * Author: Ana Marin, Kathrin Koch, Kenneth Aamodt
+ * Contact: kenneth.aamodt@cern.ch
+ * Version 1.1 *
+ * *
+ * Permission to use, copy, modify and distribute this software and its *
+ * documentation strictly for non-commercial purposes is hereby granted *
+ * without fee, provided that the above copyright notice appears in all *
+ * copies and that both the copyright notice and this permission notice *
+ * appear in the supporting documentation. The authors make no claims *
+ * about the suitability of this software for any purpose. It is *
+ * provided "as is" without express or implied warranty. *
+ **************************************************************************/
+const int c_array_size = 29; // RRnewTOF c_array_size was increased to 27 in order to put a TOF PID cut on electrons
+
class AliAnalysisDataContainer;
class AliGammaConversionHistograms;
class AliAnalysisTaskGammaConversion;
+class AliAnalysisTaskGammaJet;
// set this to a number if you want to analyze a set number of files
// if it is 0 it will analyze the files listed in the data list
Bool_t kGCrunNeutralMeson = kTRUE;
Bool_t kGCrunJet = kFALSE;
Bool_t kGCrunChic = kFALSE;
-
+Bool_t kGCrunDalitz = kFALSE;
+Bool_t kGCrunCF = kFALSE;
+Bool_t kGCcalculateBackground = kTRUE;
+Bool_t kGCdoNeutralMesonV0MCCheck =kFALSE;
+Bool_t kGCrunOmegaMeson = kFALSE;
+Bool_t kGCrunRES = kFALSE;
+Bool_t kGCRecalculateV0ForGamma = kFALSE;
+Bool_t kGCUseTrackMultiplicityForBG = kTRUE;
+Bool_t kGCMoveParticlesAccordingToVertex = kFALSE;
+Bool_t kGCLowMemoryConsumption = kFALSE;
+Bool_t kGCApplyChi2Cut = kFALSE;
+
+Bool_t kGCUseRotationMethodInBG=kTRUE;
+Int_t kGCnDegreeRotationPMForBG=15;
+Int_t kGCnumberOfRotationEventsForBG=15;
+Bool_t kGCdoBGProbability=kFALSE;
+//Svein
+Bool_t kGCRunGammaJetTask = kFALSE;
/** ---------------------------------- define cuts here ------------------------------------*/
+TString kGCAnalysisCutSelectionId="90035620401003321022000000090"; // do not change here, use -set-cut-selection in argument instead
+
+Int_t kGCNEventsForBGCalculation=20;
Int_t kGCpidOfNegativeTrack=11;
Int_t kGCpidOfPositiveTrack=-11;
-Double_t kGCLineCutZRSlope = 0.662487;
-Double_t kGCLineCutZValue = 7.;
-
+Double_t kGCmaxVertexZ = 10.;
Double_t kGCmaxRCut = 180.;
-Double_t kGCetaCut = 1.2;
+Double_t kGCminRCut = 2.8;
+Double_t kGCetaCut = 0.9;
Double_t kGCptCut = 0.02;
-Double_t kGCchi2CutConversion = 20.;
-Double_t kGCchi2CutMeson = 20.;
+Double_t kGCsingleptCut = 0.02;
+Double_t kGCmaxZCut = 240.;
+Double_t kGCminClsTPCCut= 0.;
+Double_t kGCminClsTPCCutToF= 0.;
+Double_t kGCchi2CutConversion = 30.;
+Double_t kGCchi2CutMeson = 50.;
+Double_t kGCalphaCutMeson = 0.7;
+Double_t kGCalphaMinCutMeson = 0.0;
+Double_t kGCrapidityCutMeson = 0.9;
+
+Double_t kGCLineCutZRSlope = tan(2*atan(exp(-kGCetaCut)));
+Double_t kGCLineCutZValue = 7.;
+
Double_t kGCxVertexCut = 0.;
Double_t kGCyVertexCut = 0.;
Bool_t kGCuseImprovedVertex = kTRUE;
+Bool_t kGCUseOnFlyV0Finder = kTRUE;
+
// define masses of different particles, this will be used by the KF particle
// together with the width to set mass constraints. Units in GeV.
Double_t kGCelectronMass = 0.00051099892;
Double_t kGCetaWidth = 0.01;
// define the probability of track being an electron
-Double_t kGCprobElectron = 0.002;
-
-Double_t kGCminOpeningAngleGhostCut = 0.01;
+Double_t kGCprobElectron = 0.000;
+
+Double_t kGCminOpeningAngleGhostCut = 0.005;
+
+Bool_t kGCRemovePileUp = kFALSE;
+
+Bool_t kGCSelectV0AND = kFALSE;
+Bool_t kGCUseMultiplicity = kFALSE;
+Int_t kGCUseMultiplicityBin=0;
+
+Int_t kGCIsHeavyIon = 0;
+Int_t kGCUseCentrality = 0;
+Int_t kGCUseCentralityBin = 0;
+Int_t kGCUseCorrectedTPCClsInfo = 0;
+Int_t kGCUseMCPSmearing=0;
+
+Double_t kGCPBremSmearing=1.;
+Double_t kGCPSigSmearing=0.;
+Double_t kGCPSigSmearingCte=0.;
+
+/** ---------------------------------- define pi0 dalitz cuts here ------------------------------------*/
+
+Bool_t kGCRunStandalone = kTRUE;
+Bool_t kGCUseBayesPID = kFALSE;
+Bool_t kGCUseTrackIndexCut = kTRUE;
+Bool_t kGCUsePsiPairCut = kTRUE;
+Bool_t kGCUseMassCut = kFALSE;
+Bool_t kGCUseGammaCut = kFALSE;
+Bool_t kGCReadMagFieldSign = kTRUE;
+Bool_t kGCUseAliKF = kFALSE;
+
+Double_t kGCPsiPairCut = 0.45;
+Double_t kGCDeltaPhiCutMin = 0.;
+Double_t kGCDeltaPhiCutMax = 0.12;
+Double_t kGCMassCutMin = 0.;
+Double_t kGCMassCutMax = 0.1;
+Double_t kGCNSigmaBelowElecTPCbethe = -2.;
+Double_t kGCNSigmaAboveElecTPCbethe = 3.;
+Double_t kGCNSigmaAbovePionTPCbethe = 2.;
+Double_t kGCNSigmaAboveKaonTPCbethe = 2.;
+Double_t kGCNSigmaAboveProtonTPCbethe = 2.;
+
+Int_t kGCTrkSelectionCriteria = 1; // kITSsaTrack=0, kGlobalTrack=1, kITSsaGlobalTrack=2
+// NOTE: for details in the track cuts and defined histograms see AddGammaConvDalitz.C
/** ----------------------------------end define cuts here----------------------------------*/
/** -------------------------------- Phi/R Mapping ---------------------------------------*/
-Int_t kGCnPhiIndex = 18;
-Int_t kGCnRIndex = 40;
+Int_t kGCnPhiIndex = 8;
+Int_t kGCnRIndex = 14;
Double_t kGCminRadius = 0.;
Double_t kGCmaxRadius = 200.;
Double_t kGCmaxPhi = TMath::Pi();
/** ------------------------------- end Phi/R Mapping ------------------------------------*/
+Bool_t kGCdoOwnXYZCalculation = kFALSE;
+Bool_t kGCdoConstructGamma = kFALSE;
+
+/** -------------AOD stuff ---------------------------------------------------------------*/
+TString kGCDeltaAODFilename = "AliAODGammaConversion.root"; //If empty, writes to standard common aod file.
+Bool_t kGCWriteAOD =kTRUE; // Turn on AOD
+Bool_t kGCForceAOD = kFALSE; // Call AliAnalysisManager::SetFillAOD(kTRUE) every ESD event.
+
/** ------------------- define which histograms to plot here --------------------------------*/
/** NB: to change the bin numbers, see below the histogram flags */
+Bool_t kGCplotEventQuality = kTRUE;
+
+
+// MC GAMMA DECAY PLOTS
+Bool_t kGCplotMCGammaFromDecay = kTRUE;
// NEUTRAL MESON PLOTS
Bool_t kGCplotMCConversionR = kTRUE;
Bool_t kGCplotMCConversionZR = kTRUE;
Bool_t kGCplotMCConversionXY = kTRUE;
Bool_t kGCplotMCConversionOpeningAngle = kTRUE;
+Bool_t kGCplotMCConvGammaEAsymmetryP = kTRUE;
+Bool_t kGCplotMCConvGammaPAsymmetryP = kTRUE;
-Bool_t kGCplotMCEEnergy = kTRUE;
+
+Bool_t kGCplotMCEEnergy = kFALSE;
Bool_t kGCplotMCEPt = kTRUE;
Bool_t kGCplotMCEEta = kTRUE;
Bool_t kGCplotMCEPhi = kTRUE;
+Bool_t kGCplotMCENTPCClusters = kTRUE;
+Bool_t kGCplotMCENITSClusters = kTRUE;
-Bool_t kGCplotMCPEnergy = kTRUE;
+Bool_t kGCplotMCPEnergy = kFALSE;
Bool_t kGCplotMCPPt = kTRUE;
Bool_t kGCplotMCPEta = kTRUE;
Bool_t kGCplotMCPPhi = kTRUE;
+Bool_t kGCplotMCPNTPCClusters = kTRUE;
+Bool_t kGCplotMCPNITSClusters = kTRUE;
-Bool_t kGCplotMCallGammaEnergy = kTRUE;
+Bool_t kGCplotMCallGammaEnergy = kFALSE;
Bool_t kGCplotMCallGammaPt = kTRUE;
Bool_t kGCplotMCallGammaEta = kTRUE;
Bool_t kGCplotMCallGammaPhi = kTRUE;
Bool_t kGCplotMCallGammaRapid = kTRUE;
-Bool_t kGCplotMCConvGammaEnergy = kTRUE;
+Bool_t kGCplotMCConvGammaEnergy = kFALSE;
Bool_t kGCplotMCConvGammaPt = kTRUE;
Bool_t kGCplotMCConvGammaEta = kTRUE;
Bool_t kGCplotMCConvGammaPhi = kTRUE;
Bool_t kGCplotMCConvGammaRapid = kTRUE;
Bool_t kGCplotMCConvGammaPtvsEta = kTRUE;
-Bool_t kGCplotMCallDirectGammaEnergy = kTRUE;
+Bool_t kGCplotMCallDirectGammaEnergy = kFALSE;
Bool_t kGCplotMCallDirectGammaPt = kTRUE;
Bool_t kGCplotMCallDirectGammaEta = kTRUE;
Bool_t kGCplotMCallDirectGammaPhi = kTRUE;
Bool_t kGCplotMCallDirectGammaRapid = kTRUE;
-Bool_t kGCplotMCConvDirectGammaEnergy = kTRUE;
+Bool_t kGCplotMCConvDirectGammaEnergy = kFALSE;
Bool_t kGCplotMCConvDirectGammaPt = kTRUE;
Bool_t kGCplotMCConvDirectGammaEta = kTRUE;
Bool_t kGCplotMCConvDirectGammaPhi = kTRUE;
Bool_t kGCplotMCMotherRapid = kTRUE;
Bool_t kGCplotMCMotherPhi = kTRUE;
Bool_t kGCplotMCMotherPt = kTRUE;
-Bool_t kGCplotMCMotherEnergy = kTRUE;
+Bool_t kGCplotMCMotherEnergy = kFALSE;
Bool_t kGCplotMCMotherMass = kTRUE;
Bool_t kGCplotMCMotherOpeningAngle = kTRUE;
Bool_t kGCplotMCMotherR = kTRUE;
-Bool_t kGCplotMCMotherZR = kTRUE;
-Bool_t kGCplotMCMotherXY = kTRUE;
+Bool_t kGCplotMCMotherZR = kFALSE;
+Bool_t kGCplotMCMotherXY = kFALSE;
Bool_t kGCplotMCMotherPtvsEtaWithinAcceptance = kTRUE;
Bool_t kGCplotMCMotherPtvsRapidWithinAcceptance = kTRUE;
Bool_t kGCplotMCMotherPtvsEtaConvGammaWithinAcceptance = kTRUE;
Bool_t kGCplotMCMotherPtvsRapidConvGammaWithinAcceptance = kTRUE;
Bool_t kGCplotMCMotherSpectra = kTRUE;
+Bool_t kGCplotMCPhysicalPrimaryChargedPt = kTRUE;
+
Bool_t kGCplotMCPi0Eta = kTRUE;
Bool_t kGCplotMCPi0Rapid = kTRUE;
+Bool_t kGCplotMCPi0PtvsRapid = kTRUE;
Bool_t kGCplotMCPi0Phi = kTRUE;
Bool_t kGCplotMCPi0Pt = kTRUE;
-Bool_t kGCplotMCPi0Energy = kTRUE;
+Bool_t kGCplotMCPi0PtFiducial = kTRUE;
+Bool_t kGCplotMCPi0PtWithinAcceptanceFiducial = kTRUE;
+Bool_t kGCplotMCPi0PtConvGammaWithinAcceptanceFiducial = kTRUE;
+Bool_t kGCplotMCPi0OpeningPtConvGammaWithinAcceptance = kTRUE;
+Bool_t kGCplotMCPi0PtGammaPtConvGammaWithinAcceptance = kTRUE;
+Bool_t kGCplotMCPi0Energy = kFALSE;
Bool_t kGCplotMCPi0Mass = kTRUE;
+Bool_t kGCplotMCPi0Alpha = kTRUE;
+Bool_t kGCplotMCEtaAlpha = kTRUE;
Bool_t kGCplotMCPi0OpeningAngle = kTRUE;
Bool_t kGCplotMCPi0R = kTRUE;
-Bool_t kGCplotMCPi0ZR = kTRUE;
-Bool_t kGCplotMCPi0XY = kTRUE;
+Bool_t kGCplotMCPi0ZR = kFALSE;
+Bool_t kGCplotMCPi0XY = kFALSE;
Bool_t kGCplotMCPi0PtvsEtaWithinAcceptance = kTRUE;
Bool_t kGCplotMCPi0PtvsRapidWithinAcceptance = kTRUE;
Bool_t kGCplotMCPi0PtvsEtaConvGammaWithinAcceptance = kTRUE;
Bool_t kGCplotMCPi0SecondaryRapid = kTRUE;
Bool_t kGCplotMCPi0SecondaryPhi = kTRUE;
Bool_t kGCplotMCPi0SecondaryPt = kTRUE;
-Bool_t kGCplotMCPi0SecondaryEnergy = kTRUE;
+Bool_t kGCplotMCPi0SecondaryEnergy = kFALSE;
Bool_t kGCplotMCPi0SecondaryMass = kTRUE;
Bool_t kGCplotMCPi0SecondaryOpeningAngle = kTRUE;
Bool_t kGCplotMCPi0SecondaryR = kTRUE;
-Bool_t kGCplotMCPi0SecondaryZR = kTRUE;
-Bool_t kGCplotMCPi0SecondaryXY = kTRUE;
+Bool_t kGCplotMCPi0SecondaryZR = kFALSE;
+Bool_t kGCplotMCPi0SecondaryXY = kFALSE;
Bool_t kGCplotMCPi0SecondaryPtvsEtaWithinAcceptance = kTRUE;
Bool_t kGCplotMCPi0SecondaryPtvsRapidWithinAcceptance = kTRUE;
Bool_t kGCplotMCPi0SecondaryPtvsEtaConvGammaWithinAcceptance = kTRUE;
Bool_t kGCplotMCEtaEta = kTRUE;
Bool_t kGCplotMCEtaRapid = kTRUE;
+Bool_t kGCplotMCEtaPtvsRapid = kTRUE;
Bool_t kGCplotMCEtaPhi = kTRUE;
Bool_t kGCplotMCEtaPt = kTRUE;
-Bool_t kGCplotMCEtaEnergy = kTRUE;
+Bool_t kGCplotMCEtaEnergy = kFALSE;
Bool_t kGCplotMCEtaMass = kTRUE;
Bool_t kGCplotMCEtaOpeningAngleGamma = kTRUE;
Bool_t kGCplotMCEtaR = kTRUE;
-Bool_t kGCplotMCEtaZR = kTRUE;
-Bool_t kGCplotMCEtaXY = kTRUE;
+Bool_t kGCplotMCEtaZR = kFALSE;
+Bool_t kGCplotMCEtaXY = kFALSE;
Bool_t kGCplotMCEtaPtvsEtaWithinAcceptance = kTRUE;
Bool_t kGCplotMCEtaPtvsRapidWithinAcceptance = kTRUE;
Bool_t kGCplotMCEtaPtvsEtaConvGammaWithinAcceptance = kTRUE;
Bool_t kGCplotMCEtaPtvsRapidConvGammaWithinAcceptance = kTRUE;
+Bool_t kGCplotMCEtaOpeningPtConvGammaWithinAcceptance = kTRUE;
+Bool_t kGCplotMCEtaPtGammaPtConvGammaWithinAcceptance = kTRUE;
Bool_t kGCplotMCEtaZRConvGammaWithinAcceptance = kTRUE;
// Histograms from esd tracks
-Bool_t kGCplotESDConversionR = kTRUE;
-Bool_t kGCplotESDConversionZR = kTRUE;
-Bool_t kGCplotESDConversionXY = kTRUE;
-Bool_t kGCplotESDConversionOpeningAngle = kTRUE;
-
-Bool_t kGCplotESDEEnergy = kTRUE;
+Bool_t kGCplotESDConversionR = kTRUE;
+Bool_t kGCplotESDConversionZR = kTRUE;
+Bool_t kGCplotESDConversionXY = kTRUE;
+Bool_t kGCplotESDConversionXYBeamPipe = kTRUE;
+Bool_t kGCplotESDConversionRPhiBeamPipe = kTRUE;
+Bool_t kGCplotESDConversionOpeningAngle = kTRUE;
+Bool_t kGCplotESDConvGammaCosPointingAngle = kTRUE;
+Bool_t kGCplotESDConvGammaDcaDaugthers = kTRUE;
+Bool_t kGCplotESDConvGammaNormDcaDistDaugthers = kTRUE;
+Bool_t kGCplotESDConvGammaLikelihoodAP = kTRUE;
+Bool_t kGCplotESDConvGammaEAsymmetryP = kTRUE;
+Bool_t kGCplotESDConvGammaPAsymmetryP = kTRUE;
+Bool_t kGCplotESDConvGammaEdEdxP = kTRUE;
+Bool_t kGCplotESDConvGammaPdEdxP = kTRUE;
+Bool_t kGCplotESDConvGammaEeProbP = kTRUE;
+Bool_t kGCplotESDConvGammaPeProbP = kTRUE;
+Bool_t kGCplotESDConvGammaEmupiProbP = kTRUE;
+Bool_t kGCplotESDConvGammaPmupiProbP = kTRUE;
+
+Bool_t kGCplotESDConvGammaQtAlfa = kTRUE;
+
+
+Bool_t kGCplotESDEEnergy = kFALSE;
Bool_t kGCplotESDEPt = kTRUE;
Bool_t kGCplotESDEEta = kTRUE;
Bool_t kGCplotESDEPhi = kTRUE;
+Bool_t kGCplotESDENTPCClusters = kTRUE;
+Bool_t kGCplotESDENITSClusters = kTRUE;
+Bool_t kGCplotESDENTPCClustersToFP = kTRUE;
+Bool_t kGCplotESDENTPCClustersToFR = kTRUE;
+Bool_t kGCplotESDETPCchi2 = kTRUE;
-Bool_t kGCplotESDPEnergy = kTRUE;
+Bool_t kGCplotESDPEnergy = kFALSE;
Bool_t kGCplotESDPPt = kTRUE;
Bool_t kGCplotESDPEta = kTRUE;
Bool_t kGCplotESDPPhi = kTRUE;
+Bool_t kGCplotESDPNTPCClusters = kTRUE;
+Bool_t kGCplotESDPNITSClusters = kTRUE;
+Bool_t kGCplotESDPNTPCClustersToFP = kTRUE;
+Bool_t kGCplotESDPNTPCClustersToFR = kTRUE;
+Bool_t kGCplotESDPTPCchi2 = kTRUE;
-Bool_t kGCplotESDConvGammaEnergy = kTRUE;
+Bool_t kGCplotESDConvGammaEnergy = kFALSE;
Bool_t kGCplotESDConvGammaPt = kTRUE;
Bool_t kGCplotESDConvGammaEta = kTRUE;
Bool_t kGCplotESDConvGammaPhi = kTRUE;
Bool_t kGCplotESDConvGammaPtvsEta = kTRUE;
Bool_t kGCplotESDConvGammaPtvsChi2 = kTRUE;
Bool_t kGCplotESDConvGammaEtavsChi2 = kTRUE;
+Bool_t kGCplotESDConvGammaPtvsTOF = kTRUE;
+
+
+Bool_t kGCplotESDTrueDalitzContaminationR = kTRUE;
+Bool_t kGCplotESDTruePi0DalitzContaminationR = kTRUE;
+Bool_t kGCplotESDTrueEtaDalitzContaminationR = kTRUE;
+Bool_t kGCplotESDTrueCombinatorialContaminationR = kTRUE;
+Bool_t kGCplotESDTrueCombinatorialElecContaminationR = kTRUE;
+Bool_t kGCplotESDTrueHadronicContaminationR = kTRUE;
+Bool_t kGCplotESDTrueCombinatorialContaminationPt = kTRUE;
+Bool_t kGCplotESDTrueCombinatorialElecContaminationPt = kTRUE;
+Bool_t kGCplotESDTrueHadronicContaminationPt = kTRUE;
+
-Bool_t kGCplotESDTrueConvGammaEnergy = kTRUE;
+Bool_t kGCplotESDTrueBackground = kTRUE;
+Bool_t kGCplotESDTrueConvGammaEnergy = kFALSE;
Bool_t kGCplotESDTrueConvGammaPt = kTRUE;
Bool_t kGCplotESDTrueConvGammaEta = kTRUE;
Bool_t kGCplotESDTrueConvGammaPhi = kTRUE;
Bool_t kGCplotESDTrueConvGammaRapid = kTRUE;
Bool_t kGCplotESDTrueConvGammaPtvsEta = kTRUE;
Bool_t kGCplotESDTrueConversionR = kTRUE;
-Bool_t kGCplotESDTrueConversionZR = kTRUE;
-Bool_t kGCplotESDTrueConversionXY = kTRUE;
+Bool_t kGCplotESDTrueConversionZR = kFALSE;
+Bool_t kGCplotESDTrueConversionXY = kFALSE;
Bool_t kGCplotESDTrueConversionOpeningAngle = kTRUE;
+Bool_t kGCplotESDTrueConvGammaCosPointingAngle = kTRUE;
+Bool_t kGCplotESDTrueConvGammaDcaDaugthers = kTRUE;
+Bool_t kGCplotESDTrueConvGammaNormDcaDistDaugthers = kTRUE;
+Bool_t kGCplotESDTrueConvGammaLikelihoodAP = kTRUE;
+Bool_t kGCplotESDTrueConvGammaEAsymmetryP = kTRUE;
+Bool_t kGCplotESDTrueConvGammaPAsymmetryP = kTRUE;
+Bool_t kGCplotESDTrueConvGammaEdEdxP = kTRUE;
+Bool_t kGCplotESDTrueConvGammaPdEdxP = kTRUE;
+Bool_t kGCplotESDTrueConvGammaQtAlfa = kTRUE;
+
Bool_t kGCplotESDTrueConvGammaPtvsChi2 = kTRUE;
Bool_t kGCplotESDTrueConvGammaEtavsChi2 = kTRUE;
Bool_t kGCplotESDTrueConvGammaMCPtEta = kTRUE;
-Bool_t kGCplotESDTrueConversionMCZR = kTRUE;
-Bool_t kGCplotESDTrueConversionMCXY = kTRUE;
+Bool_t kGCplotESDTrueConversionMCZR = kFALSE;
+Bool_t kGCplotESDTrueConversionMCXY = kFALSE;
-Bool_t kGCplotESDNoCutConvGammaEnergy = kTRUE;
+Bool_t kGCplotESDNoCutAllV0Pt = kTRUE;
+Bool_t kGCplotESDNoCutConvGammaEnergy = kFALSE;
Bool_t kGCplotESDNoCutConvGammaPt = kTRUE;
Bool_t kGCplotESDNoCutConvGammaEta = kTRUE;
Bool_t kGCplotESDNoCutConvGammaPhi = kTRUE;
Bool_t kGCplotESDNoCutConvGammaRapid = kTRUE;
Bool_t kGCplotESDNoCutConvGammaPtvsEta = kTRUE;
Bool_t kGCplotESDNoCutConversionR = kTRUE;
-Bool_t kGCplotESDNoCutConversionZR = kTRUE;
-Bool_t kGCplotESDNoCutConversionXY = kTRUE;
+Bool_t kGCplotESDNoCutConversionZR = kFALSE;
+Bool_t kGCplotESDNoCutConversionXY = kFALSE;
Bool_t kGCplotESDNoCutConversionOpeningAngle = kTRUE;
+Bool_t kGCplotESDNoCutConvGammaCosPointingAngle = kTRUE;
+Bool_t kGCplotESDNoCutConvGammaDcaDaugthers = kTRUE;
+Bool_t kGCplotESDNoCutConvGammaNormDcaDistDaugthers = kTRUE;
+Bool_t kGCplotESDNoCutConvGammaLikelihoodAP = kTRUE;
+
+Bool_t kGCplotESDNoCutConvGammaEAsymmetryP = kTRUE;
+Bool_t kGCplotESDNoCutConvGammaPAsymmetryP = kTRUE;
+Bool_t kGCplotESDNoCutConvGammaEdEdxP = kTRUE;
+Bool_t kGCplotESDNoCutConvGammaPdEdxP = kTRUE;
Bool_t kGCplotESDNoCutConvGammaPtvsChi2 = kTRUE;
Bool_t kGCplotESDNoCutConvGammaEtavsChi2 = kTRUE;
Bool_t kGCplotESDNoCutConvGammaMCPtEta = kTRUE;
-Bool_t kGCplotESDNoCutConversionMCZR = kTRUE;
-Bool_t kGCplotESDNoCutConversionMCXY = kTRUE;
+Bool_t kGCplotESDNoCutConversionMCZR = kFALSE;
+Bool_t kGCplotESDNoCutConversionMCXY = kFALSE;
+Bool_t kGCplotESDMotherChi2 = kTRUE;
Bool_t kGCplotESDMotherOpeningAngleGamma = kTRUE;
-Bool_t kGCplotESDMotherEnergy = kTRUE;
-Bool_t kGCplotESDMotherPt = kTRUE;
+Bool_t kGCplotESDMotherEnergy = kFALSE;
+Bool_t kGCplotESDMotherPt = kFALSE;
Bool_t kGCplotESDMotherEta = kTRUE;
-Bool_t kGCplotESDMotherPhi = kTRUE;
-Bool_t kGCplotESDMotherMass = kTRUE;
-Bool_t kGCplotESDMotherR = kTRUE;
-Bool_t kGCplotESDMotherZR = kTRUE;
-Bool_t kGCplotESDMotherXY = kTRUE;
+Bool_t kGCplotESDMotherPhi = kFALSE;
+Bool_t kGCplotESDMotherMass = kFALSE;
+Bool_t kGCplotESDMotherR = kFALSE;
+Bool_t kGCplotESDMotherZR = kFALSE;
+Bool_t kGCplotESDMotherXY = kFALSE;
Bool_t kGCplotESDMotherRapid = kTRUE;
Bool_t kGCplotESDBackgroundOpeningAngleGamma = kTRUE;
-Bool_t kGCplotESDBackgroundEnergy = kTRUE;
-Bool_t kGCplotESDBackgroundPt = kTRUE;
-Bool_t kGCplotESDBackgroundEta = kTRUE;
-Bool_t kGCplotESDBackgroundPhi = kTRUE;
-Bool_t kGCplotESDBackgroundMass = kTRUE;
-Bool_t kGCplotESDBackgroundR = kTRUE;
-Bool_t kGCplotESDBackgroundZR = kTRUE;
-Bool_t kGCplotESDBackgroundXY = kTRUE;
-Bool_t kGCplotESDBackgroundRapid = kTRUE;
-
-Bool_t kGCplotMapping = kFALSE;
+Bool_t kGCplotESDBackgroundEnergy = kFALSE;
+Bool_t kGCplotESDBackgroundPt = kFALSE;
+Bool_t kGCplotESDBackgroundEta = kFALSE;
+Bool_t kGCplotESDBackgroundPhi = kFALSE;
+Bool_t kGCplotESDBackgroundMass = kFALSE;
+Bool_t kGCplotESDBackgroundR = kFALSE;
+Bool_t kGCplotESDBackgroundZR = kFALSE;
+Bool_t kGCplotESDBackgroundXY = kFALSE;
+Bool_t kGCplotESDBackgroundRapid = kFALSE;
+
+Bool_t kGCplotMapping = kTRUE;
Bool_t kGCplotResolutiondPt = kTRUE;
Bool_t kGCplotResolutiondR = kTRUE;
Bool_t kGCplotResolutiondZ = kTRUE;
+Bool_t kGCplotResolutiondRAbs = kTRUE;
+Bool_t kGCplotResolutiondZAbs = kTRUE;
+Bool_t kGCplotResolutiondPhiAbs = kTRUE;
+
Bool_t kGCplotResolutiondRdPt = kTRUE;
Bool_t kGCplotResolutionMCPt = kTRUE;
Bool_t kGCplotResolutionESDR = kTRUE;
Bool_t kGCplotResolutionESDZ = kTRUE;
+Bool_t kGCplotResolutionPtdPt = kTRUE;
+
Bool_t kGCplotESDNumberOfV0s = kTRUE;
Bool_t kGCplotESDNumberOfSurvivingV0s = kTRUE;
+Bool_t kGCplotESDNumberOfContributorsVtx = kTRUE;
+Bool_t kGCplotESDNumberOfGoodESDTracks = kTRUE;
// debug histograms
Bool_t kGCplotESDCutGetOnFly = kTRUE;
Bool_t kGCplotESDCutRefit = kTRUE;
Bool_t kGCplotESDCutKink = kTRUE;
Bool_t kGCplotESDCutPIDProb = kTRUE;
+Bool_t kGCplotESDCutdedxSigmaElectronLine=kTRUE;
+Bool_t kGCplotESDCutdedxSigmaPionLine=kTRUE;
+Bool_t kGCplotESDCutPionRejectionLowP =kTRUE;
+Bool_t kGCplotESDCutProtonRejectionLowP=kTRUE;
+Bool_t kGCplotESDCutKaonRejectionLowP =kTRUE;
+Bool_t kGCplotESDCutQtGammaSelection=kTRUE;
Bool_t kGCplotESDCutR = kTRUE;
+Bool_t kGCplotESDCutMinR = kTRUE;
Bool_t kGCplotESDCutLine = kTRUE;
+Bool_t kGCplotESDCutZ = kTRUE;
+Bool_t kGCplotESDCutMinClsTPC = kTRUE;
+Bool_t kGCplotESDCutMinClsTPCToF = kTRUE;
+Bool_t kGCplotESDCutPhotonAsymmetry = kTRUE;
+Bool_t kGCplotESDGoodV0s = kTRUE;
+Bool_t kGCplotESDAllV0s = kTRUE;
+Bool_t kGCplotESDAllV0sCurrentFinder = kTRUE;
+Bool_t kGCplotESDAllV0sCurrentFinderQtAlfa = kTRUE;
+
Bool_t kGCplotESDCutNDF = kTRUE;
Bool_t kGCplotESDCutChi2 = kTRUE;
Bool_t kGCplotESDCutEta = kTRUE;
Bool_t kGCplotESDCutPt = kTRUE;
-Bool_t kGCplotESDTrueConvGammaTrackLength =kTRUE;
-Bool_t kGCplotESDTrueConvGammaTrackLengthVSInvMass =kTRUE;
+Bool_t kGCplotESDCutSinglePt = kTRUE;
+Bool_t kGCplotESDTrueConvGammaTrackLength =kFALSE;
+Bool_t kGCplotESDTrueConvGammaTrackLengthVSInvMass =kFALSE;
Bool_t kGCplotPi0Spectra = kTRUE;
Bool_t kGCplotEtaSpectra = kTRUE;
+Bool_t kGCplotOmegaSpectra = kTRUE;
/////////////Chi_c Analysis//////////////////////////
Bool_t kGCplotStatsElectrons = kTRUE;
/** ----------- Define the binning for the different plot types here -------------------------*/
+// Number of V0s-plot
+Int_t kGCnXBinsNV0 = 1000;
+Double_t kGCfirstXBinNV0 = -0.5;
+Double_t kGClastXBinNV0 = 999.5;
+
+
+// Number of ESD track-Plot
+Int_t kGCnXBinsESDtrk = 10000;
+Double_t kGCfirstXBinESDtrk= -0.5;
+Double_t kGClastXBinESDtrk = 9999.5;
+
+
+//EventQuality-plot
+Int_t kGCnXBinsEvtQ= 9;
+Double_t kGCfirstXBinEvtQ=-1.5;
+Double_t kGClastXBinEvtQ=7.5;
+
//R-plots
-Int_t kGCnXBinsR = 500;
+Int_t kGCnXBinsR = 400;
Double_t kGCfirstXBinR = 0.;
-Double_t kGClastXBinR = 250.;
+Double_t kGClastXBinR = 200.;
//ZR-plots
-Int_t kGCnXBinsZR = 1200;
-Double_t kGCfirstXBinZR = -300.;
-Double_t kGClastXBinZR = 300.;
-Int_t kGCnYBinsZR = 500;
+Int_t kGCnXBinsZR = 1000;
+Double_t kGCfirstXBinZR = -250.;
+Double_t kGClastXBinZR = 250.;
+Int_t kGCnYBinsZR = 400;
Double_t kGCfirstYBinZR = 0.;
-Double_t kGClastYBinZR = 250.;
+Double_t kGClastYBinZR = 200.;
//XY-plots
-Int_t kGCnXBinsXY = 1000;
-Double_t kGCfirstXBinXY = -250.;
-Double_t kGClastXBinXY = 250.;
-Int_t kGCnYBinsXY = 1000;
-Double_t kGCfirstYBinXY = -250.;
-Double_t kGClastYBinXY = 250.;
+Int_t kGCnXBinsXY = 800;
+Double_t kGCfirstXBinXY = -200.;
+Double_t kGClastXBinXY = 200.;
+Int_t kGCnYBinsXY = 800;
+Double_t kGCfirstYBinXY = -200.;
+Double_t kGClastYBinXY = 200.;
+
+//XY-plots-BeamPipe
+Int_t kGCnXBinsXYBP = 200;
+Double_t kGCfirstXBinXYBP = -10.;
+Double_t kGClastXBinXYBP = 10.;
+Int_t kGCnYBinsXYBP = 200;
+Double_t kGCfirstYBinXYBP = -10.;
+Double_t kGClastYBinXYBP = 10.;
+
+//Rphi-plots-BeamPipe
+Int_t kGCnXBinsRPhiBP = 200;
+Double_t kGCfirstXBinRPhiBP = -TMath::Pi();
+Double_t kGClastXBinRPhiBP = TMath::Pi();
+Int_t kGCnYBinsRPhiBP = 200;
+Double_t kGCfirstYBinRPhiBP = 0.;
+Double_t kGClastYBinRPhiBP = 10.;
+
+
//OpenAngle-plots
Int_t kGCnXBinsOpeningAngle = 400;
Double_t kGCfirstXBinOpeningAngle = 0.;
Double_t kGClastXBinOpeningAngle = TMath::Pi();
+//CosPointingAngle-plots
+Int_t kGCnXBinsCosPointingAngle = 400;
+Double_t kGCfirstXBinCosPointingAngle = 0.99;
+Double_t kGClastXBinCosPointingAngle = 1.01;
+
+//DCA Daugthers-plots
+Int_t kGCnXBinsDcaDaughters = 400;
+Double_t kGCfirstXBinDcaDaughters= 0.;
+Double_t kGClastXBinDcaDaughters = 5.;
+
+//Norm DCA dist Daugthers-plots
+Int_t kGCnXBinsNormDcaDistDaughters = 400;
+Double_t kGCfirstXBinNormDcaDistDaughters= 0.;
+Double_t kGClastXBinNormDcaDistDaughters = 10.;
+
+//LikelihoodAP Plots
+Int_t kGCnXBinsLikelihoodAP = 400;
+Double_t kGCfirstXBinLikelihoodAP= 0.;
+Double_t kGClastXBinLikelihoodAP = 2.;
+
+
//Energy-plots
Int_t kGCnXBinsEnergy = 200;
Double_t kGCfirstXBinEnergy = 0.;
Double_t kGClastXBinEnergy = 50.;
+//P-plots
+Int_t kGCnXBinsP = 200;
+Double_t kGCfirstXBinP = 0.05;
+Double_t kGClastXBinP = 50.;
+
+//dEdx-plots
+Int_t kGCnYBinsdEdx = 200;
+Double_t kGCfirstYBindEdx = 0.;
+Double_t kGClastYBindEdx = 200.;
+
+//EProb-plots
+Int_t kGCnYBinsEProb = 200;
+Double_t kGCfirstYBinEProb = 0.;
+Double_t kGClastYBinEProb = 1.;
+
+//Qt-plots
+Int_t kGCnYBinsQt = 250;
+Double_t kGCfirstYBinQt = 0.;
+Double_t kGClastYBinQt = 0.25;
+
+
+
+//Asymmetry-plots
+Int_t kGCnYBinsAsymmetry = 200;
+Double_t kGCfirstYBinAsymmetry = 0.;
+Double_t kGClastYBinAsymmetry = 1.;
+
+
//Pt-plots
-Int_t kGCnXBinsPt = 200;
+Int_t kGCnXBinsPt = 500;
Double_t kGCfirstXBinPt = 0.;
Double_t kGClastXBinPt = 50.;
+//TOF-plots RRnewTOF start /////////////////////////////////////////
+Int_t kGCnXBinsTOFsignal = 500;
+Double_t kGCfirstXBinTOFsignal = -10000.;
+Double_t kGClastXBinTOFsignal = 40000.;
+// end RRnewTOF ////////////////////////////////////////////////////
+
//Eta-plots
Int_t kGCnXBinsEta = 40;
Double_t kGCfirstXBinEta = -2.;
Double_t kGCfirstXBinPhi = -TMath::Pi();
Double_t kGClastXBinPhi = TMath::Pi();
+//nTPCCluster-plots
+Int_t kGCnXBinsNTPCClusters = 201;
+Double_t kGCfirstXBinNTPCClusters = -0.5;
+Double_t kGClastXBinNTPCClusters = 200.5;
+
+//nITSCluster-plots
+Int_t kGCnXBinsNITSClusters = 7;
+Double_t kGCfirstXBinNITSClusters = -0.5;
+Double_t kGClastXBinNITSClusters = 6.5;
+
+//TPCcluster to Findable-plots
+Int_t kGCnYBinsClsToF = 200;
+Double_t kGCfirstYBinClsToF = 0.;
+Double_t kGClastYBinClsToF = 2.0;
+
+//TPCchi2 -plots
+Int_t kGCnXBinsTPCchi2 = 100;
+Double_t kGCfirstXBinTPCchi2 = 0.;
+Double_t kGClastXBinTPCchi2 = 10;
+
+
//Mapping-plots
-Int_t kGCnXBinsMapping = 400;
+Int_t kGCnXBinsMapping = 800;
Double_t kGCfirstXBinMapping = -100.;
Double_t kGClastXBinMapping = 100.;
Int_t kGCnYBinsMapping = 40;
//RESdPt
Int_t kGCnXBinsResdPt=500;
Int_t kGCfirstXBinResdPt= 0;
-Int_t kGClastXBinResdPt=5;
-Int_t kGCnYBinsResdPt=1000;
-Int_t kGCfirstYBinResdPt= -5;
-Int_t kGClastYBinResdPt=5;
+Int_t kGClastXBinResdPt=100;
+Int_t kGCnYBinsResdPt=200;
+Int_t kGCfirstYBinResdPt= -10;
+Int_t kGClastYBinResdPt=10;
//RESdR
-Int_t kGCnXBinsResdR=500;
+Int_t kGCnXBinsResdR=400;
Int_t kGCfirstXBinResdR= 0;
-Int_t kGClastXBinResdR=250;
+Int_t kGClastXBinResdR=200;
Int_t kGCnYBinsResdR=100;
Int_t kGCfirstYBinResdR= -25;
Int_t kGClastYBinResdR=25;
Int_t kGClastYBinResdZ=20;
//RESdRdPt
-Int_t kGCnXBinsResdRdPt=440;
-Int_t kGCfirstXBinResdRdPt= -22;
-Int_t kGClastXBinResdRdPt=22;
-Int_t kGCnYBinsResdRdPt=100;
-Int_t kGCfirstYBinResdRdPt= -5;
-Int_t kGClastYBinResdRdPt=5;
+Int_t kGCnYBinsResdRdPt=400;
+Int_t kGCfirstYBinResdRdPt= -10;
+Int_t kGClastYBinResdRdPt=10;
//RESMCPt
-Int_t kGCnXBinsResPt=100;
+Int_t kGCnXBinsResPt=500;
Int_t kGCfirstXBinResPt= 0;
-Int_t kGClastXBinResPt=5;
+Int_t kGClastXBinResPt=100;
//RESMCR
Int_t kGCnXBinsResR=500;
Double_t kGClastXBinGammaMass = 1.;
//Pi0Mass-plots
-Int_t kGCnXBinsPi0Mass = 100;
+Int_t kGCnXBinsPi0Mass = 1000;
Double_t kGCfirstXBinPi0Mass = 0.;
Double_t kGClastXBinPi0Mass = 1.;
+Double_t kGCfirstXBinPi0Alpha = 0.;
+Double_t kGClastXBinPi0Alpha = 1.;
+
//EtaMass-plots
-Int_t kGCnXBinsEtaMass = 100;
+Int_t kGCnXBinsEtaMass = 1000;
Double_t kGCfirstXBinEtaMass = 0.;
Double_t kGClastXBinEtaMass = 1.;
Double_t kGClastXBinGammaWidth = 1.;
//GammaChi2-plots
+Int_t kGCnXBinsMesonChi2 = 200;
Int_t kGCnXBinsGammaChi2 = 100;
Double_t kGCfirstXBinGammaChi2 = 0;
-Double_t kGClastXBinGammaChi2 = 100.;
+Double_t kGClastXBinGammaChi2 = 200.;
//GammaNDF-plots
Int_t kGCnXBinsGammaNDF = 10;
Int_t kGCnXBinsSpectra = 500;
Double_t kGCfirstXBinSpectra = 0.;
Double_t kGClastXBinSpectra = 1.;
-Int_t kGCnYBinsSpectra = 100;
+Int_t kGCnYBinsSpectra = 250;
Double_t kGCfirstYBinSpectra = 0.;
-Double_t kGClastYBinSpectra = 50.;
+Double_t kGClastYBinSpectra = 25.;
+
+Double_t kGCfirstXBinAlphaG = -1.;
+Double_t kGCfirstXBinAlpha = 0.;
+Double_t kGClastXBinAlpha = 1.;
//track length plots
Int_t kGCnXBinsTrackLength = 1000;
Double_t kGCfirstXBinTrackLength = 0;
Double_t kGClastXBinTrackLength = 500;
+/////////Pi0 Dalitz decay AnalysisTask ///////////////////////////////////
+
+Int_t kGCnXBinsDalitzMass = 4000;
+Double_t kGCfirstXBinDalitzMass = 0.;
+Double_t kGClastXBinDalitzMass = 4.;
+
+Int_t kGCnXBinsPi0DalitzMass = 4000;
+Double_t kGCfirstXBinPi0DalitzMass = 0.;
+Double_t kGClastXBinPi0DalitzMass = 4.;
+
/////////Chic_Analysis///////////////////////////////////
Int_t kGCnXBinsEPt = 1000;
Double_t kGCfirstXBinEPt = 0.;
/** Flag to enable running on train */
Bool_t kGCrunOnTrain = kFALSE;
+Bool_t kGCrunOnGsiTrain = kFALSE;
/** ------------------------------ Monte Carlo flag -----------------------------------------*/
Bool_t kGCdoMCTruth = kTRUE;
/** ---------------------------- end Monte Carlo flag ---------------------------------------*/
+/** ------------------------------ Selecting trigger CINT1B -----------------------------------*/
+Bool_t kGCtriggerCINT1B = kFALSE;
+/** ---------------------------- end Monte Carlo flag ---------------------------------------*/
+
/** ------------------------- Choose KFParticle OR ESDTrack --------------------------------*/
Bool_t kGCuseKFParticle = kTRUE;
Bool_t kGCuseESDTrack = kFALSE;
/** ----------------------- end Choose KFParticle OR ESDTrack -----------------------------*/
+/**------------------------------Flag to apply dEdx cut base on sigmas to electron line----------*/
+Bool_t kGCdodEdxSigmaCut= kTRUE;
+/**------------------------------end Flag to apply NsigmadEdx cut ----------*/
+
+Double_t kGCPIDnSigmaAboveElectronLine=5;
+Double_t kGCPIDnSigmaBelowElectronLine=-3;
+Double_t kGCPIDnSigmaAbovePionLine=0;
+Double_t kGCPIDMinPnSigmaAbovePionLine=1.;
+Double_t kGCPIDMaxPnSigmaAbovePionLine=3.;
+Double_t kGCPIDnSigmaAbovePionLineHighPt=0;
+
+Bool_t kGCuseTOFpid = kFALSE; // RRnewTOF start //////////
+Double_t kGCtofPIDnSigmaBelowElectronLine=-100;
+Double_t kGCtofPIDnSigmaAboveElectronLine=100; // RRnewTOF end
+
+/**------- Flag to apply rejection at LowP of Kaons, protons , pions------------*/
+Bool_t kGCdoPionRejectionLowP=kTRUE;
+Bool_t kGCdoKaonRejectionLowP=kTRUE;
+Bool_t kGCdoProtonRejectionLowP=kTRUE;
+/**---------------------------------------*/
+
+Double_t kGCPIDnSigmaAtLowPAroundKaonLine=0;
+Double_t kGCPIDnSigmaAtLowPAroundProtonLine=0;
+Double_t kGCPIDnSigmaAtLowPAroundPionLine=0;
+
+Double_t kGCPIDMinPKaonRejectionLowP=1.5;
+Double_t kGCPIDMinPProtonRejectionLowP=2.;
+Double_t kGCPIDMinPPionRejectionLowP=0.5;
+
+
+Bool_t kGCdoQtGammaSelection=kTRUE;
+Double_t kGCQtMax=100.;
+Bool_t kGCdoHighPtQtGammaSelection=kFALSE; // RRnew
+Double_t kGCHighPtQtMax=100.; // RRnew
+Double_t kGCPtBorderForQt=100.; // RRnew
+
+/**----Flag to apply cut on the photon asymmetry -----*/
+Bool_t kGCdoPhotonAsymmetryCut= kTRUE;
+Double_t kGCMinPPhotonAsymmetryCut=100.;
+Double_t kGCMinPhotonAsymmetry=0.;
-Bool_t kGCcalculateBackground = kTRUE;
Bool_t scanArguments(TString arguments){
+
Bool_t iResult = kTRUE;
TString allArgs=arguments;
TString argument;
int bMissingParam=0;
+
+ cout<<"Arguments received: "<<allArgs.Data()<<endl;
TObjArray* pTokens=allArgs.Tokenize(" ");
if (pTokens) {
cout<<"Setting output file name to: "<<kGCoutputFileName<<endl;
}
}
+ else if (argument.CompareTo("-bg-off") == 0){
+ kGCcalculateBackground =kFALSE;
+ }
+ else if (argument.CompareTo("-bg-prob-off") == 0){
+ kGCdoBGProbability = kFALSE;
+ }
+ else if (argument.CompareTo("-bg-prob-on") == 0){
+ kGCdoBGProbability = kTRUE;
+ }
+ else if (argument.CompareTo("-bg-rotation-off") == 0){
+ kGCUseRotationMethodInBG = kFALSE;
+ }
+ else if (argument.CompareTo("-use-v0-multiplicity") == 0){
+ kGCUseTrackMultiplicityForBG = kFALSE;
+ }
+ else if (argument.CompareTo("-apply-chi2-cut") == 0){
+ kGCApplyChi2Cut = kTRUE;
+ }
+ else if(argument.CompareTo("-set-number-of-rotations") == 0){
+ if((bMissingParam=(++i>=pTokens->GetEntries()))) break;
+ kGCnumberOfRotationEventsForBG = ((TObjString*)pTokens->At(i))->GetString().Atoi();
+ }
+ else if(argument.CompareTo("-set-number-of-degrees") == 0){
+ if((bMissingParam=(++i>=pTokens->GetEntries()))) break;
+ kGCnDegreeRotationPMForBG = ((TObjString*)pTokens->At(i))->GetString().Atoi();
+ }
+ else if (argument.CompareTo("-low-memory") == 0){
+ kGCLowMemoryConsumption = kTRUE;
+ }
+ else if (argument.CompareTo("-move-bg-vertex") == 0){
+ kGCMoveParticlesAccordingToVertex = kTRUE;
+ }
+ else if (argument.CompareTo("-check-neutralmeson-pi0s") == 0){
+ kGCdoNeutralMesonV0MCCheck=kTRUE;
+ }
+ else if (argument.CompareTo("-use-offline-finder") == 0){
+ kGCUseOnFlyV0Finder = kFALSE;
+ }
else if (argument.CompareTo("-write-ntuple") == 0){
cout<<"Writing ntuple to file."<<endl;
kGCwriteNtuple = kTRUE;
}
else if (argument.CompareTo("-run-on-train") == 0){
cout<<"Running on train"<<endl;
+ //kGCWriteStandardAOD=kTRUE;
+ kGCDeltaAODFilename="";
+ kGCrunOnTrain = kTRUE;
+ }
+ else if (argument.CompareTo("-run-on-gsi-train") == 0){
+ cout<<"Running on gsi train"<<endl;
+ //kGCWriteStandardAOD=kFALSE;
kGCrunOnTrain = kTRUE;
+ kGCrunOnGsiTrain = kTRUE;
}
else if (argument.CompareTo("-run-jet") == 0){
cout<<"Running jet analysis"<<endl;
kGCrunJet = kTRUE;
}
+ else if (argument.CompareTo("-run-gamma-jet-task") == 0){
+ cout<<"Running gamma jet task"<<endl;
+ kGCRunGammaJetTask= kTRUE;
+ }
else if (argument.CompareTo("-run-neutralmeson") == 0){
cout<<"Running neutral meson analysis"<<endl;
kGCrunNeutralMeson = kTRUE;
cout<<"Running neutral meson analysis"<<endl;
kGCrunNeutralMeson = kTRUE;
}
+ else if (argument.CompareTo("-run-omega-meson") == 0){
+ cout<<"Running omega meson analysis"<<endl;
+ kGCrunOmegaMeson = kTRUE;
+ }
else if (argument.CompareTo("-run-chic") == 0){
cout<<"Running Chi_c analysis"<<endl;
kGCrunChic = kTRUE;
}
+ else if (argument.CompareTo("-run-dalitz") == 0){
+ cout<<"Running Dalitz analysis"<<endl;
+ kGCrunDalitz = kTRUE;
+ }
+ else if (argument.CompareTo("-run-cf") == 0){
+ cout<<"Running CF"<<endl;
+ kGCrunCF = kTRUE;
+ }
+ else if (argument.CompareTo("-run-resolution") == 0){
+ cout<<"Running Resolution"<<endl;
+ kGCrunRES = kTRUE;
+ }
+ else if (argument.CompareTo("-run-recalculateV0") == 0){
+ cout<<"Running RecalculateV0ForGamma"<<endl;
+ kGCRecalculateV0ForGamma=kTRUE;
+ }
else if (argument.CompareTo("-jet-off") == 0){
cout<<"Skipping jet analysis"<<endl;
kGCrunJet = kFALSE;
cout<<"Switching off kGCdoMCTruth"<<endl;
kGCdoMCTruth = kFALSE;
}
+ else if (argument.CompareTo("-trigger-CINT1B") == 0){
+ cout<<"Selecting ONLY kGCtriggerCINT1B"<<endl;
+ kGCtriggerCINT1B = kTRUE;
+ }
+ else if (argument.CompareTo("-use-own-xyz") == 0){
+ cout<<"Switching on use own xyz calculation"<<endl;
+ kGCdoOwnXYZCalculation = kTRUE;
+ }
+ else if (argument.CompareTo("-use-ConstructGamma") == 0){
+ cout<<"Switching on use ConstructGamma and OFF own xyz calculation"<<endl;
+ kGCdoOwnXYZCalculation = kFALSE;
+ kGCdoConstructGamma = kTRUE;
+ }
+ else if (argument.CompareTo("-no-aod") == 0){
+ cout<<"Turning off AOD"<<endl;
+ kGCWriteAOD = kFALSE;
+ }
+ else if (argument.CompareTo("-force-aod") == 0){
+ cout<<"Turning on FillAOD = kTRUE every event; If running in common train this should probably not be done!!!"<<endl;
+ kGCForceAOD = kTRUE;
+ }
+ else if (argument.CompareTo("-standard-aod") == 0){
+ cout<<"Writing to standard AOD, will only work on train"<<endl;
+ kGCDeltaAODFilename = "";
+ }
else if(argument.CompareTo("-append-to-output-file") == 0){
if((bMissingParam=(++i>=pTokens->GetEntries()))) break;
- kGCoutputFileAppendix = "_"+((TObjString*)pTokens->At(i))->GetString();
+ kGCoutputFileAppendix = TString("_")+((TObjString*)pTokens->At(i))->GetString();
if(kGCoutputFileAppendix.IsNull()){
cout<<"-appending-to-output-file is NULL"<<endl;
iResult=kFALSE;
cout<<"Appending to the output file: "<<kGCoutputFileAppendix<<endl;
}
}
+ else if(argument.CompareTo("-set-cut-selection") == 0){
+ if((bMissingParam=(++i>=pTokens->GetEntries()))) break;
+ kGCAnalysisCutSelectionId = ((TObjString*)pTokens->At(i))->GetString();
+ cout<<"The analysis cut selection is set to: "<<kGCAnalysisCutSelectionId.Data()<<endl;
+ }
}
delete pTokens;
}
// Check if the file $ALICE_ROOT/PWG4/GammaConv/AliAnalysisTaskGammaConversion.cxx exists.
// If yes, we set kGCusePWG4PartCorr to false since we have a newer version
// If no, kGCusePWG4PartCorr is true.
-
+
TString file = gSystem->Getenv("ALICE_ROOT");
file+="/PWG4/PartCorr/AliAnalysisTaskGammaConversion.cxx";
-
+
ifstream stream;
stream.open(file.Data());
-
+
if(!stream){
kGCusePWG4PartCorr=kFALSE;
}
}
+AliAnalysisTaskGammaConversion* ConfigGammaConversion(TString arguments, AliAnalysisDataContainer *cin_esd=NULL){
-AliAnalysisTaskGammaConversion* ConfigGammaConversion(TString arguments,AliAnalysisDataContainer *cin_esd=NULL){
+
+
if(!scanArguments(arguments)){
break;
}
-
+
SetVersionLibrary(); // checks if PWG4GammaConv or PWG4PartCorr is used
-
+
if(cin_esd == NULL && kGCrunOnTrain == kTRUE){
cout<<"Error: kGCrunOnTrain flag is set to true but the input AliAnalysisDataContainer is NULL"<<endl;
cout<<" you must also supply the AliAnalysisDataContainer as an argument"<<endl;
return;
}
-
+
if(cin_esd != NULL && kGCrunOnTrain == kFALSE){
cout<<"Error: kGCrunOnTrain flag is set to false but the input AliAnalysisDataContainer is not null"<<endl;
cout<<" add -run-on-train to the arguments to turn switch kGCrunOnTrain to kTRUE"<<endl;
}
}
cout<<"Number Of files to analyze: "<<kGCnumberOfFilesToAnalyze<<endl;
-
+
build();//build (if necessary) and load the libraries needed
-
+ LoadLibraries();
gROOT->LoadMacro("$ALICE_ROOT/PWG0/CreateESDChain.C"); // load the CreateChain macro
-
- AliLog::SetGlobalLogLevel(AliLog::kError);
}
+
+ if(!kGCrunOnTrain){
+ // for the train leave this to the steering macro
+ AliLog::SetGlobalDebugLevel(0);
+ AliLog::SetGlobalLogLevel(AliLog::kFatal);
+ }
+ // ------------------------------------------------------------------------
+
+ // for CF
+
+ //Container def.
+ const Double_t ptmin = kGCfirstXBinPt;
+ const Double_t ptmax = kGClastXBinPt;
+ const Double_t etamin = kGCfirstXBinEta;
+ const Double_t etamax = kGClastXBinEta;
+ const Double_t massmin = kGCfirstXBinPi0Mass;
+ const Double_t massmax = kGClastXBinPi0Mass;
+
+
+ // sensitive variables
+ UInt_t ipt = 0;
+ UInt_t ieta = 1;
+ UInt_t imass = 2;
+
+ //how many selection steps
+ UInt_t nstep = 20;
+ const Int_t nvar = 3;
+
+ Int_t kGCnXBinsPtCF=40;
+ Int_t kGCnXBinsEtaCF=8;
+ Int_t kGCnXBinsPi0MassCF=10;
+
+ if(!kGCrunCF){
+ nstep=1;
+ kGCnXBinsPtCF=1;
+ kGCnXBinsEtaCF=1;
+ kGCnXBinsPi0MassCF=1;
+ }
+ const Int_t nbin0 = kGCnXBinsPtCF; // do not use same variable for CF than for histogram
+ const Int_t nbin1 = kGCnXBinsEtaCF; // do not use same variable for CF than for histogram
+ const Int_t nbin2 = kGCnXBinsPi0MassCF; // do not use same variable for CF than for histogram
+
+ //arrays for the number of bins in each dimension
+ Int_t iBin[nvar];
+ iBin[0] = nbin0;
+ iBin[1] = nbin1;
+ iBin[2] = nbin2;
+
+ //arrays for lower bounds
+ Double_t *binLim0 = new Double_t[nbin0+1];
+ Double_t *binLim1 = new Double_t[nbin1+1];
+ Double_t *binLim2 = new Double_t[nbin2+1];
+
+ // values for lower bounds
+ for(Int_t i = 0; i <= nbin0; i++) binLim0[i] = ptmin + (ptmax - ptmin)/nbin0*i;
+ for(Int_t i = 0; i <= nbin1; i++) binLim1[i] = etamin + (etamax - etamin)/nbin1*i;
+ for(Int_t i = 0; i <= nbin2; i++) binLim2[i] = massmin + (massmax - massmin)/nbin2*i;
+
+ // create container
+ AliCFContainer *container = new AliCFContainer("container","container for gammaconversion", nstep,nvar,iBin);
+ container->SetBinLimits(ipt,binLim0);
+ container->SetBinLimits(ieta,binLim1);
+ container->SetBinLimits(imass,binLim2);
+
+ AliCFManager *man = new AliCFManager();
+ man->SetParticleContainer(container);
+ for(int i = 0;i<nstep;i++){
+ TObjArray *tmp = new TObjArray(0);
+ man->SetParticleCutsList(i,tmp) ;
+ }
+
+ // end ---------------------------------------------------------------------------
+
+
+
AliGammaConversionHistograms* histograms = new AliGammaConversionHistograms();
AddHistograms(histograms);
// Create the Analysis manager
AliAnalysisManager *mgr =NULL;
if(kGCrunOnTrain == kFALSE){
- mgr = new AliAnalysisManager("My Manager", "My Analysis");
+ mgr = new AliAnalysisManager("My Manager", "My Analysis");
}
else{
mgr = AliAnalysisManager::GetAnalysisManager();
}
-
+
if (!mgr) {
::Error("ConfigGammaConversion", "No analysis manager to connect to.");
return NULL;
}
}
AliESDInputHandler* inpHandler = NULL;
-
+
if(kGCrunOnTrain == kFALSE){
// Define Input Event Handler
inpHandler = new AliESDInputHandler();
return NULL;
}
}
+
-
- // Define Output Event Handler and ad
- if(kGCrunOnTrain == kFALSE){
- AliAODHandler* aodHandler = new AliAODHandler();
- TString fileOutAOD = "AOD_"+ kGCoutputFileName + kGCoutputFileAppendix + ".root";
- aodHandler->SetOutputFileName(fileOutAOD);
- mgr->SetOutputEventHandler (aodHandler);
- }
-
+
if(kGCrunOnTrain == kFALSE){
mgr->SetInputEventHandler (inpHandler);
mgr->SetMCtruthEventHandler(mcHandler);
}
// Be sure you are told what you are doing
- // mgr->SetDebugLevel(10);
+ // mgr->SetDebugLevel(10);
// Declare Common Input Tchain
AliAnalysisDataContainer *cinput1 = NULL;
+
if(kGCusePWG4PartCorr){
+
if(kGCrunOnTrain == kFALSE){
- cinput1 = mgr->CreateContainer("Chain",TChain::Class(),AliAnalysisManager::kInputContainer);
- }
- else{
+ cinput1 = mgr->CreateContainer("GammaConvChain",TChain::Class(),AliAnalysisManager::kInputContainer);
+
+ } else{
cinput1 = cin_esd;
+
}
}
else{
- if(kGCrunOnTrain == kFALSE){
- cinput1 = mgr->GetCommonInputContainer();
- }
- else{
- // cinput = cin_esd;
cinput1 = mgr->GetCommonInputContainer();
- }
}
- // Common Output Tree in common â\80\98defaultâ\80\99 output file
+ // Common Output Tree in common ??????default?????? output file
+ // CKB kGCusePWG4PartCorr and writestandard are not mutually exclusive?
AliAnalysisDataContainer *coutput1 = NULL;
- if(kGCusePWG4PartCorr){
- coutput1 = mgr->CreateContainer("tree",TTree::Class(),AliAnalysisManager::kOutputContainer, "default");
- }
- else{
- coutput1 = mgr->GetCommonOutputContainer();
+
+ if(kGCWriteAOD) {
+ if(kGCrunOnTrain && !(kGCrunOnGsiTrain)) {
+ coutput1 = mgr->GetCommonOutputContainer();
+ } else {
+ coutput1 = mgr->CreateContainer("GammaConvTree",TTree::Class(),AliAnalysisManager::kOutputContainer, "default");
+ }
}
// Private output objects
if(kGCoutputFileAppendix.Contains(".root")){
kGCoutputFileAppendix.ReplaceAll(".root","");
}
- TString fileOut = kGCoutputFileName + kGCoutputFileAppendix + ".root";
+ //TString fileOut = kGCoutputFileName + kGCoutputFileAppendix + ".root";
+
+
+ TString outputfile = AliAnalysisManager::GetCommonFileName();
+ cout<<"Analyis cut selection ID is: "<<kGCAnalysisCutSelectionId.Data()<<endl;
+ // outputfile += Form(":PWG4_GammaConversion_%s",kGCAnalysisCutSelectionId.Data());
+ outputfile += Form(":PWG4_GammaConversion");
+
+// if(kGCrunNeutralMeson==kTRUE) outputfile +="1"; else outputfile +="0";
+
+// if(kGCrunJet==kTRUE) outputfile +="1"; else outputfile +="0";
+
+// if(kGCrunChic==kTRUE) outputfile +="1"; else outputfile +="0";
+
+// if(kGCrunCF==kTRUE) outputfile +="1"; else outputfile +="0";
+
+// if(kGCcalculateBackground==kTRUE) outputfile +="1"; else outputfile +="0";
+
+// if(kGCdoNeutralMesonV0MCCheck==kTRUE) outputfile +="1"; else outputfile +="0";
+
+// if(kGCrunOmegaMeson==kTRUE) outputfile +="1"; else outputfile +="0";
- AliAnalysisDataContainer *coutput2 = mgr->CreateContainer("histogramsAliGammaConversion", TList::Class(),AliAnalysisManager::kOutputContainer, fileOut);
+// if(kGCrunRES==kTRUE) outputfile +="1"; else outputfile +="0";
+
+ outputfile += Form("_%s",kGCAnalysisCutSelectionId.Data());
+
+ cout<<"Ouput file::"<< outputfile <<endl;
+ AliAnalysisDataContainer *coutput2 = mgr->CreateContainer(Form("histogramsAliGammaConversion_%s",kGCAnalysisCutSelectionId.Data()), TList::Class(),AliAnalysisManager::kOutputContainer, outputfile);
+ // for CF
+ AliAnalysisDataContainer *coutput3 = mgr->CreateContainer(Form("GammaConvccontainer0_%s",kGCAnalysisCutSelectionId.Data()),AliCFContainer::Class(),AliAnalysisManager::kOutputContainer,outputfile);
+
//------------------------ END: Define input/output handlers ---------------------------------------------------
//check for errors in the specified data
if(kGCuseKFParticle == kTRUE && kGCuseESDTrack == kTRUE){
//Print warning, cannot use both
::Error("ConfigGammaConversion","Both kGCuseKFParticle and kGCuseESDTracks can be true at the same time")
- }
+ }
if(kGCuseKFParticle == kFALSE && kGCuseESDTrack == kFALSE){
//Print warning, one have to be specified
::Error("ConfigGammaConversion","Both kGCuseKFParticle and kGCuseESDTracks can be false at the same time")
+ }
+
+
+ if(!SetAnalysisCutSelection(kGCAnalysisCutSelectionId)){
+ cout<<"Error in analysis cut selection"<<endl;
+ return 0;
}
-
+
//Create the V0Reader
AliV0Reader * v0Reader = new AliV0Reader();
if(kGCuseKFParticle){
else if(kGCuseESDTrack){
v0Reader->UseESDTrack();
}
+
+ v0Reader->SetMaxVertexZ(kGCmaxVertexZ);
v0Reader->SetNegativeTrackPID(kGCpidOfNegativeTrack);
v0Reader->SetPositiveTrackPID(kGCpidOfPositiveTrack);
v0Reader->SetMaxRCut(kGCmaxRCut);
+ v0Reader->SetMinRCut(kGCminRCut);
v0Reader->SetEtaCut(kGCetaCut);
+ v0Reader->SetRapidityMesonCut(kGCrapidityCutMeson);
v0Reader->SetPtCut(kGCptCut);
+ v0Reader->SetSinglePtCut(kGCsingleptCut);
v0Reader->SetLineCutZRSlope(kGCLineCutZRSlope);
v0Reader->SetLineCutZValue(kGCLineCutZValue);
+ v0Reader->SetMaxZCut(kGCmaxZCut);
+ v0Reader->SetMinClsTPCCut(kGCminClsTPCCut);
+ v0Reader->SetMinClsTPCCutToF(kGCminClsTPCCutToF);
v0Reader->SetChi2CutConversion(kGCchi2CutConversion);
v0Reader->SetChi2CutMeson(kGCchi2CutMeson);
+ v0Reader->SetAlphaCutMeson(kGCalphaCutMeson);
+ v0Reader->SetAlphaMinCutMeson(kGCalphaMinCutMeson);
v0Reader->SetPIDProbability(kGCprobElectron);
v0Reader->SetXVertexCut(kGCxVertexCut);
v0Reader->SetYVertexCut(kGCyVertexCut);
v0Reader->SetSigmaMass(kGCsigmaCutGammaMass);
v0Reader->SetUseImprovedVertex(kGCuseImprovedVertex);
v0Reader->SetDoMCTruth(kGCdoMCTruth);
+ v0Reader->SetUseOwnXYZCalculation(kGCdoOwnXYZCalculation);
+ v0Reader->SetUseChargedTracksMultiplicityForBG(kGCUseTrackMultiplicityForBG);
+ // for CF
+ v0Reader->SetCFManager(man);
+ // for dEdx N sigma Cut
+ v0Reader->SetDodEdxSigmaCut(kGCdodEdxSigmaCut);
+ v0Reader->SetPIDnSigmaAboveElectronLine(kGCPIDnSigmaAboveElectronLine);
+ v0Reader->SetPIDnSigmaBelowElectronLine(kGCPIDnSigmaBelowElectronLine);
+ v0Reader->SetPIDnSigmaAbovePionLine(kGCPIDnSigmaAbovePionLine);
+ v0Reader->SetPIDnSigmaAbovePionLineHighPt(kGCPIDnSigmaAbovePionLineHighPt);
+ v0Reader->SetPIDMinPnSigmaAbovePionLine(kGCPIDMinPnSigmaAbovePionLine);
+ v0Reader->SetPIDMaxPnSigmaAbovePionLine(kGCPIDMaxPnSigmaAbovePionLine);
+ v0Reader->SetOnFlyFlag(kGCUseOnFlyV0Finder);
+ v0Reader->SetCalculateBackground(kGCcalculateBackground);
+
+ v0Reader->SetDoTOFsigmaCut(kGCuseTOFpid); // RRnewTOF
+ v0Reader->SetTofPIDnSigmaAboveElectronLine(kGCtofPIDnSigmaAboveElectronLine); // RRnewTOF
+ v0Reader->SetTofPIDnSigmaBelowElectronLine(kGCtofPIDnSigmaBelowElectronLine); // RRnewTOF
+
+ // for the rejection at LowP based on Dedx signal
+
+ v0Reader->SetDoKaonRejectionLowP(kGCdoKaonRejectionLowP);
+ v0Reader->SetDoProtonRejectionLowP(kGCdoProtonRejectionLowP);
+ v0Reader->SetDoPionRejectionLowP(kGCdoPionRejectionLowP);
+ v0Reader->SetPIDnSigmaAtLowPAroundKaonLine(kGCPIDnSigmaAtLowPAroundKaonLine);
+ v0Reader->SetPIDnSigmaAtLowPAroundProtonLine(kGCPIDnSigmaAtLowPAroundProtonLine);
+ v0Reader->SetPIDnSigmaAtLowPAroundPionLine(kGCPIDnSigmaAtLowPAroundPionLine);
+ v0Reader->SetPIDMinPKaonRejectionLowP(kGCPIDMinPKaonRejectionLowP);
+ v0Reader->SetPIDMinPProtonRejectionLowP(kGCPIDMinPProtonRejectionLowP);
+ v0Reader->SetPIDMinPPionRejectionLowP(kGCPIDMinPPionRejectionLowP);
+ v0Reader->SetDoQtGammaSelection(kGCdoQtGammaSelection);
+ v0Reader->SetDoHighPtQtGammaSelection(kGCdoHighPtQtGammaSelection); // RRnew
+ v0Reader->SetQtMax(kGCQtMax);
+ v0Reader->SetHighPtQtMax(kGCHighPtQtMax); // RRnew
+ v0Reader->SetPtBorderForQt(kGCPtBorderForQt); // RRnew
+
+ v0Reader->SetDoPhotonAsymmetryCut(kGCdoPhotonAsymmetryCut);
+ v0Reader->SetMinPPhotonAsymmetryCut(kGCMinPPhotonAsymmetryCut);
+ v0Reader->SetMinPhotonAsymmetry(kGCMinPhotonAsymmetry);
+
+
+ kGCNEventsForBGCalculation= kGCnumberOfRotationEventsForBG;
+ cout<< "number of Events used for mixing::"<<kGCNEventsForBGCalculation<<endl;
+ v0Reader->SetNEventsForBG(kGCNEventsForBGCalculation);
+
// Create the GammaConversionTask
- AliAnalysisTaskGammaConversion *gammaconversion = new AliAnalysisTaskGammaConversion("GammaConversionTask");
- gammaconversion->SetDebugLevel(10);
+
+
+ AliAnalysisTaskGammaConversion *gammaconversion =
+ new AliAnalysisTaskGammaConversion(Form("GammaConversionTask_%s",kGCAnalysisCutSelectionId.Data()));
+
+ cout<<"name of Task::"<< Form("GammaConversionTask_%s",kGCAnalysisCutSelectionId.Data())<< " "<<gammaconversion->GetName() <<endl;
+ gammaconversion->SetDebugLevel(0);
gammaconversion->SetWriteNtuple(kGCwriteNtuple);
gammaconversion->SetGammaWidth(kGCgammaWidth);
gammaconversion->SetPi0Width(kGCpi0Width);
gammaconversion->SetEtaWidth(kGCetaWidth);
-
+
gammaconversion->SetMinOpeningAngleGhostCut(kGCminOpeningAngleGhostCut);
+
+ Double_t lowPtMapping=0.4;
+ Double_t highPtMapping=1.5;
+ gammaconversion->SetLowPtMapping(lowPtMapping);
+ gammaconversion->SetHighPtMapping(highPtMapping);
+
// define the width constraint used by KF particle.
Double_t gammaWidth = 0.01;
Double_t pi0Width = 0.01;
gammaconversion->SetHistograms(histograms);
v0Reader->SetHistograms(histograms);// also give the pointer to the v0reader, for debugging cuts
-
- gammaconversion->SetDoMCTruth(kGCdoMCTruth);
+ gammaconversion->SetTriggerCINT1B(kGCtriggerCINT1B);
+ gammaconversion->SetDoMCTruth(kGCdoMCTruth);
+
gammaconversion->SetDoNeutralMeson(kGCrunNeutralMeson);
+ gammaconversion->SetDoNeutralMesonV0MCCheck(kGCdoNeutralMesonV0MCCheck);
gammaconversion->SetDoJet(kGCrunJet);
gammaconversion->SetDoChic(kGCrunChic);
-
-
+ gammaconversion->SetDoOmegaMeson(kGCrunOmegaMeson);
+ gammaconversion->SetRecalculateV0ForGamma(kGCRecalculateV0ForGamma);
+ gammaconversion->SetUseChargedTracksMultiplicityForBG(kGCUseTrackMultiplicityForBG);
+ gammaconversion->SetMoveParticleAccordingToVertex(kGCMoveParticlesAccordingToVertex);
+ gammaconversion->SetApplyChi2Cut(kGCApplyChi2Cut);
+ cout<<"NumberOfDegrees in rotatation method set to: "<<kGCnDegreeRotationPMForBG<<endl;
+ gammaconversion->SetPMDegreesBG(kGCnDegreeRotationPMForBG);
+ if(kGCUseRotationMethodInBG){
+ cout<<"Using rotation method for bg."<<endl;
+ }
+ else{
+ cout<<"Using mixed event for bg."<<endl;
+ }
+ if(kGCUseTrackMultiplicityForBG){
+ cout<<"Using track multiplicity for bck"<<endl;
+ }else{
+ cout<<"Using V0 multiplicity for bck"<<endl;
+ }
+ gammaconversion->SetDoRotation(kGCUseRotationMethodInBG);
+ cout<<"Using :"<<kGCnumberOfRotationEventsForBG<<" rotations in bg calculation"<<endl;
+ gammaconversion->SetNumberOfRotationsBG(kGCnumberOfRotationEventsForBG);
+ gammaconversion->SetCheckBGProbability(kGCdoBGProbability);
+
+ gammaconversion->SetRemovePileUp(kGCRemovePileUp);
+ gammaconversion->SetSelectV0AND(kGCSelectV0AND);
+ gammaconversion->SetUseMultiplicity(kGCUseMultiplicity);
+ gammaconversion->SetUseMultiplicityBin(kGCUseMultiplicityBin);
+
+ v0Reader->SetIsHeavyIon(kGCIsHeavyIon);
+ v0Reader->SetUseCorrectedTPCClsInfo(kGCUseCorrectedTPCClsInfo);
+ gammaconversion->SetUseCentrality(kGCUseCentrality);
+ if(kGCUseCentrality){
+ gammaconversion->SetUseCentralityBin(kGCUseCentralityBin);
+ }
+ v0Reader->SetUseMCPSmearing(kGCUseMCPSmearing);
+ v0Reader->SetPBremSmearing(kGCPBremSmearing);
+ v0Reader->SetPSigSmearing(kGCPSigSmearing);
+ v0Reader->SetPSigSmearingCte(kGCPSigSmearingCte);
+
+
+ // for CF
+ gammaconversion->SetCFManager(man);
+ gammaconversion->SetDoCF(kGCrunCF);
+ v0Reader->SetDoCF(kGCrunCF);
+
// Add task to the manager
mgr->AddTask(gammaconversion);
-
+
+
+ // Define Output Event Handler and add
+ if(kGCWriteAOD){
+ gammaconversion->SetForceAOD(kGCForceAOD);
+ gammaconversion->SetAODBranchName(Form("GammaConv_%s", kGCAnalysisCutSelectionId.Data()));
+
+
+ if( kGCrunOnTrain ) {
+
+ AliAODHandler * aodHandler = dynamic_cast<AliAODHandler*>(mgr->GetOutputEventHandler());
+ if(!aodHandler) {
+ ::Error("This task requires an AOD handler");
+ return NULL;
+ }
+
+ gammaconversion->SetDeltaAODFileName(kGCDeltaAODFilename);
+
+ if(kGCDeltaAODFilename.Length() > 0) {
+ mgr->RegisterExtraFile(kGCDeltaAODFilename.Data());
+ }
+
+ } else {
+ if(kGCDeltaAODFilename.Length() == 0 ) {
+ cout << "Error:: Need a file name for the AOD"<<endl;
+ return NULL;
+ }
+ AliAODHandler* aodHandler = new AliAODHandler();
+ aodHandler->SetOutputFileName(kGCDeltaAODFilename);
+ aodHandler->SetCreateNonStandardAOD();
+ mgr->SetOutputEventHandler(aodHandler);
+ }
+ } else {
+ gammaconversion->SetCreateAOD(kFALSE);
+ }
+
// Connect I/O to the task
mgr->ConnectInput (gammaconversion, 0, cinput1);
+ if(mgr->GetCommonOutputContainer())
+ mgr->ConnectOutput(gammaconversion, 0, mgr->GetCommonOutputContainer());
- if(kGCrunOnTrain == kFALSE){
- mgr->ConnectOutput(gammaconversion, 0, coutput1);
- mgr->ConnectOutput(gammaconversion, 1, coutput2);
+ mgr->ConnectOutput(gammaconversion, 1, coutput2);
+ mgr->ConnectOutput(gammaconversion, 2, coutput3);
+
+ if(kGCRunGammaJetTask) {
+ AliAnalysisTaskGammaJet * gammaJetTask = new AliAnalysisTaskGammaJet("GammaJetTask");
+ if(kGCrunOnTrain) {
+ gammaJetTask->SetDeltaAODFileName(kGCDeltaAODFileName);
+ }
+
+ mgr->ConnectInput(gammaJetTask, 0, cinput1);
+ AliAnalysisDataContainer *coutputgj = mgr->CreateContainer("chistpt", TList::Class(), AliAnalysisManager::kOutputContainer, "AnalysisResultsConvJets.root");
+ mgr->ConnectOutput(gammaJetTask, 1, coutputgj);
+ }
+
+
+ if( kGCrunDalitz ){
+
+ gROOT->LoadMacro("$ALICE_ROOT/PWG4/macros/AddTaskGammaConvDalitz.C");
+ AddTaskGammaConvDalitz( v0Reader, kGCcalculateBackground, kGCRunStandalone );
+
}
+
if(kGCrunOnTrain == kFALSE){
if(kGCdataList.IsNull()){
cout<<"Data list is not set, aborting."<<endl;
return;
}
-
- if(kGCrunOnTrain == kFALSE){
+ /*
+ gROOT->LoadMacro("$ALICE_ROOT/ANALYSIS/macros/AddTaskPhysicsSelection.C");
+ AliPhysicsSelectionTask* physSelTask = AddTaskPhysicsSelection();
+ if(kGCdoMCTruth)physSelTask->GetPhysicsSelection()->SetAnalyzeMC();
+ physSelTask->GetPhysicsSelection()->AddBackgroundIdentification(new AliBackgroundSelection());
+ gammaconversion->SelectCollisionCandidates();
+ */
+
+ gROOT->LoadMacro("$ALICE_ROOT/ANALYSIS/macros/AddTaskPhysicsSelection.C");
+ AliPhysicsSelectionTask* physSelTask = AddTaskPhysicsSelection(kGCdoMCTruth,kTRUE);
+ gammaconversion->SelectCollisionCandidates();
+
+ // if(kGCrunOnTrain == kFALSE){
TChain* chain= CreateESDChain(kGCdataList,kGCnumberOfFilesToAnalyze);
-
+
mgr->InitAnalysis();
-
+
mgr->PrintStatus();
-
+
mgr->StartAnalysis("local",chain);
- }
+ // }
}
return gammaconversion;
}
-void build() {
+void LoadLibraries() {
+
+ TStopwatch timer;
+ timer.Start();
+ gSystem->Load("libTree.so");
+ gSystem->Load("libGeom");
+
+ gSystem->Load("libSTEERBase.so");
+ gSystem->Load("libVMC.so");
+ gSystem->Load("libESD.so");
+ gSystem->Load("libAOD.so");
+ gSystem->Load("libANALYSIS.so");
+ gSystem->Load("libANALYSISalice.so");
+ gSystem->Load("libCORRFW.so");
+ gSystem->Load("libPWG4GammaConv.so");
+
+ // gSystem->ChangeDirectory(pwd.Data());
+}
+void build() {
+
TStopwatch timer;
timer.Start();
gSystem->Load("libTree.so");
gSystem->Load("libGeom");
+ TString pwd = gSystem->WorkingDirectory();
+
////
- //Setting up ESD.par//
- ////
- cout<<"compiling ESD"<<endl;
- setupPar("ESD");
- gSystem->Load("libVMC.so");
- gSystem->Load("libESD.so");
-
- ////
- ////
- //Setting up STEERBase.par//
+ //Setting up STEERBase.par//
////
cout<<"compiling STEERBase"<<endl;
setupPar("STEERBase");
gSystem->Load("libSTEERBase.so");
+
+
+ ////
+ //Setting up ESD.par//
+ ////
+ cout<<"compiling ESD"<<endl;
+ setupPar("ESD");
+ gSystem->Load("libVMC.so");
+ gSystem->Load("libESD.so");
+
////
//Setting up AOD.par//
////
//Setting up ANALYSISalice.par//
////
- cout<<"compiling ANALUSISalice"<<endl;
+ cout<<"compiling ANALYSISalice"<<endl;
setupPar("ANALYSISalice");
gSystem->Load("libANALYSISalice.so");
+ ////
+ //Setting up CORRFW.par//
+ ////
+ cout<<"compiling CORRFW"<<endl;
+ setupPar("CORRFW");
+ gSystem->Load("libCORRFW.so");
+
////
//Setting up PWG4GammaConv.par//
////
cout<<"compiling PWG4GammaConv"<<endl;
setupPar("PWG4GammaConv");
gSystem->Load("libPWG4GammaConv.so");
+
+ gSystem->ChangeDirectory(pwd.Data());
}
Int_t setupPar(const char* pararchivename) {
if (kGCplotdPhiHdrGam == kTRUE){
histograms->AddHistogram("ESD_dphiHdrGam","ESD_dphiHdrGam", kGCnXBinsdphiHdrGam,kGCfirstXBindphiHdrGam,kGClastXBindphiHdrGam,"dphiHdrGam (rad)","Counts");
}
-
+
if (kGCplotdPhiHdrGamIsolated == kTRUE){
histograms->AddHistogram("ESD_dphiHdrGamIsolated","ESD_dphiHdrGamIsolated", kGCnXBinsdphiHdrGam,kGCfirstXBindphiHdrGam,kGClastXBindphiHdrGam,"dphiHdrGamIsolated (rad)","Counts");
}
-
+
if (kGCplotMinimumIsoDistance == kTRUE){
histograms->AddHistogram("ESD_MinimumIsoDistance","ESD_MinimumIsoDistance", kGCnXBinsMinimumIsoDistance,kGCfirstXBinMinimumIsoDistance,kGClastXBinMinimumIsoDistance,"Minimum Iso Distance (rad)","Counts");
}
-
+
if (kGCplotFFzHdrGam == kTRUE){
histograms->AddHistogram("ESD_FFzHdrGam","ESD_FFzHdrGam", kGCnXBinsFFzHdrGam, kGCfirstXBinFFzHdrGam,kGClastXBinFFzHdrGam,"FFz Hdr Gam","Counts");
}
-
+
if (kGCplotImbalanceHdrGam == kTRUE){
histograms->AddHistogram("ESD_ImbalanceHdrGam","ESD_ImbalanceHdrGam", kGCnXBinsImbalanceHdrGam, kGCfirstXBinImbalanceHdrGam,kGClastXBinImbalanceHdrGam,"Imbalance Hdr Gam","Counts");
}
}//end if(kGCrunJet)
-
+
//---------------------------------------------- Chi_c ---------------------------------------------------------
if(kGCrunChic){
-
+
if(kGCplotESDInvMassePluseMinus == kTRUE){histograms->AddHistogram("ESD_InvMass_ePluseMinus","",kGCnXBinsJPsiMass, kGCfirstXBinJPsiMass, kGClastXBinJPsiMass, "",
- "");}
+ "");}
if(kGCplotESDInvMassePluseMinus == kTRUE){histograms->AddHistogram("ESD_InvMass_ePluseMinusTest","",kGCnXBinsJPsiMass, kGCfirstXBinJPsiMass, kGClastXBinJPsiMass,
- "","");}
+ "","");}
if(kGCplotESDInvMassePluseMinus == kTRUE){histograms->AddHistogram("ESD_InvMass_xPlusxMinus","",kGCnXBinsJPsiMass, kGCfirstXBinJPsiMass, kGClastXBinJPsiMass, "",
- "");}
+ "");}
if(kGCplotESDElectronPosNegPt == kTRUE){histograms->AddHistogram("ESD_ElectronPosNegPt","",kGCnXBinsEPosNegPt,kGCfirstXBinEPosNegPt,kGClastXBinEPosNegPt,"","");}
if(kGCplotESDElectronPosNegEta == kTRUE){histograms->AddHistogram("ESD_ElectronPosNegEta","",kGCnXBinsEPosNegEta,kGCfirstXBinEPosNegEta,kGClastXBinEPosNegEta,"","
-");}
-
+ ");}
+
if(kGCplotESDElectronPosNegPt == kTRUE){histograms->AddHistogram("ESD_ElectronPosPt","",kGCnXBinsEPosNegPt,kGCfirstXBinEPosNegPt,kGClastXBinEPosNegPt,"","");}
if(kGCplotESDElectronPosNegPt == kTRUE){histograms->AddHistogram("ESD_ElectronNegPt","",kGCnXBinsEPosNegPt,kGCfirstXBinEPosNegPt,kGClastXBinEPosNegPt,"","");}
+
+ if(kGCplotESDElectronPosNegAngle == kTRUE){histograms->AddHistogram("ESD_ElectronPosNegJPsiAngle","",kGCnXBinsEPosNegAngle,kGCfirstXBinEPosNegAngle,kGClastXBinEPosNegAngle,"","");}
- if(kGCplotESDElectronPosNegAngle == kTRUE){histograms->AddHistogram("ESD_ElectronPosNegJPsiAngle","",kGCnXBinsEPosNegAngle,kGCfirstXBinEPosNegAngle,kGClastXBinEPo
- sNegAngle,"","");}
- if(kGCplotMCElectronPosNegPt == kTRUE){histograms->AddHistogram("MC_ElectronPosNegPt","",kGCnXBinsEPosNegPt,kGCfirstXBinEPosNegPt,kGClastXBinEPosNegPt,"","");}
- if(kGCplotMCElectronPosNegEta == kTRUE){histograms->AddHistogram("MC_ElectronPosNegEta","",kGCnXBinsEPosNegEta,kGCfirstXBinEPosNegEta,kGClastXBinEPosNegEta,"","")
- ;}
- if(kGCplotMCElectronPosNegJPsiAngle == kTRUE){histograms->AddHistogram("MC_ElectronPosNegJPsiAngle","",kGCnXBinsEPosNegAngle,kGCfirstXBinEPosNegAngle,kGClastXBinE
- PosNegAngle,"","");}
if(kGCplotESDePoseNegAngle == kTRUE){histograms->AddHistogram("ESD_eNegePosAngleBeforeCut","",kGCnXBinsEPosNegAngle,kGCfirstXBinEPosNegAngle,kGClastXBinEPosNegAngle,"","");}
if(kGCplotESDePoseNegAngle == kTRUE){histograms->AddHistogram("ESD_eNegePosAngleAfterCut","",kGCnXBinsEPosNegAngle,kGCfirstXBinEPosNegAngle,kGClastXBinEPosNegAngle,"","");}
if(kGCplotESDInvMassGammaePluseMinusChiC == kTRUE) {histograms->AddHistogram("ESD_InvMass_GammaePluseMinusChiC","",kGCnXBinsChicMass,kGCfirstXBinChicMass,kGClastXBinChicMass,"","");}
if(kGCplotESDInvMassGammaePluseMinusChiC == kTRUE) {histograms->AddHistogram("ESD_InvMass_GammaePluseMinusChiCDiff","",kGCnXBinsChicMass,kGCfirstXBinChicMass,kGClastXBinChicMass,"","");}
if(kGCplotESDInvMassGammaePluseMinusPi0 == kTRUE) {histograms->AddHistogram("ESD_InvMass_GammaePluseMinusPi0","",kGCnXBinsPi0Mass,kGCfirstXBinPi0Mass,kGClastXBinPi0Mass,"","");}
if(kGCplotESDElectronPosNegPi0Angle == kTRUE){histograms->AddHistogram("ESD_ElectronPosNegPi0Angle","",kGCnXBinsEPosNegAngle,kGCfirstXBinEPosNegAngle,kGClastXBinEPosNegAngle,"","");}
- if(kGCplotMCElectronPosNegPi0Angle == kTRUE){histograms->AddHistogram("MC_ElectronPosNegPi0Angle","",kGCnXBinsEPosNegAngle,kGCfirstXBinEPosNegAngle,kGClastXBinEPosNegAngle,"","");}
-
+
if(kGCplotESDEPosBackground == kTRUE){histograms->AddHistogram("ESD_EPosBackground","",kGCnXBinsEBackground,kGCfirstXBinEBackground,kGClastXBinEBackground,"","");}
-
+
if(kGCplotESDEPosBackground == kTRUE){histograms->AddHistogram("ESD_EPosENegNoJPsiBG","",kGCnXBinsEBackground,kGCfirstXBinEBackground,kGClastXBinEBackground,"","");}
-
-
+
+
if(kGCplotESDENegBackground == kTRUE){histograms->AddHistogram("ESD_ENegBackground","",kGCnXBinsEBackground,kGCfirstXBinEBackground,kGClastXBinEBackground,"","");}
if(kGCplotESDEPosENegBackground == kTRUE){histograms->AddHistogram("ESD_EPosENegBackground","",kGCnXBinsEBackground,kGCfirstXBinEBackground,kGClastXBinEBackground,"","");}
if(kGCplotESDEPosENegBackgroundCut == kTRUE){histograms->AddHistogram("ESD_EPosENegBackgroundCut","",kGCnXBinsEBackgroundCut,kGCfirstXBinEBackgroundCut,kGClastXBinEBackgroundCut,"","");}
-
+
if(kGCplotESDEPosENegGammaBackgroundMX == kTRUE){histograms->AddHistogram("ESD_EPosENegGammaBackgroundMX","",kGCnXBinsEBackground,kGCfirstXBinEBackground,kGClastXBinEBackground,"","");}
if(kGCplotESDEPosENegGammaBackgroundMX == kTRUE){histograms->AddHistogram("ESD_EPosENegGammaBackgroundMXDiff","",kGCnXBinsEBackground,kGCfirstXBinEBackground,kGClastXBinEBackground,"","");}
-
+
if(kGCplotTableElectrons == kTRUE){ histograms->AddTable("Table_Electrons","",kGCnElementsElectronTable,kGCelectronTable);}
+
+ if(kGCdoMCTruth){
+ if(kGCplotMCElectronPosNegPt == kTRUE){histograms->AddHistogram("MC_ElectronPosNegPt","",kGCnXBinsEPosNegPt,kGCfirstXBinEPosNegPt,kGClastXBinEPosNegPt,"","");}
+ if(kGCplotMCElectronPosNegEta == kTRUE){histograms->AddHistogram("MC_ElectronPosNegEta","",kGCnXBinsEPosNegEta,kGCfirstXBinEPosNegEta,kGClastXBinEPosNegEta,"","");}
+ if(kGCplotMCElectronPosNegJPsiAngle == kTRUE){histograms->AddHistogram("MC_ElectronPosNegJPsiAngle","",kGCnXBinsEPosNegAngle,kGCfirstXBinEPosNegAngle,kGClastXBinEPosNegAngle,"","");}
+ if(kGCplotMCElectronPosNegPi0Angle == kTRUE){histograms->AddHistogram("MC_ElectronPosNegPi0Angle","",kGCnXBinsEPosNegAngle,kGCfirstXBinEPosNegAngle,kGClastXBinEPosNegAngle,"","");}
+ }
+
}// end kGCrunChic
-
+
+
+ //---------------------------------------------- Gamma from Decay ----------------------------------------------------
+ if(kGCplotMCGammaFromDecay == kTRUE && kGCdoMCTruth == kTRUE){
+ histograms->AddHistogram("MC_DecayPi0Gamma_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");
+ histograms->AddHistogram("MC_DecayRho0Gamma_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");
+ histograms->AddHistogram("MC_DecayEtaGamma_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");
+ histograms->AddHistogram("MC_DecayOmegaGamma_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");
+ histograms->AddHistogram("MC_DecayK0sGamma_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");
+ histograms->AddHistogram("MC_DecayEtapGamma_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");
+ histograms->AddHistogram("MC_DecayPhiGamma_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");
+ histograms->AddHistogram("MC_DecayAllGamma_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");
+ }
+
//---------------------------------------------- Neutral Meson ---------------------------------------------------------
if(kGCrunNeutralMeson){
- if(kGCplotMCConversionR == kTRUE){ histograms->AddHistogram("MC_Conversion_R","Radius of gamma conversion points",kGCnXBinsR, kGCfirstXBinR, kGClastXBinR,"counts","cm");}
- if(kGCplotMCConversionZR == kTRUE){ histograms->AddHistogram("MC_Conversion_ZR","Radius of gamma conversion points vs Z",kGCnXBinsZR, kGCfirstXBinZR, kGClastXBinZR, kGCnYBinsZR, kGCfirstYBinZR, kGClastYBinZR, "cm", "cm");}
- if(kGCplotMCConversionXY == kTRUE){ histograms->AddHistogram("MC_Conversion_XY","Gamma XY converison point.",kGCnXBinsXY, kGCfirstXBinXY, kGClastXBinXY, kGCnYBinsXY, kGCfirstYBinXY, kGClastYBinXY, "cm", "cm");}
- if(kGCplotMCConversionOpeningAngle == kTRUE){ histograms->AddHistogram("MC_Conversion_OpeningAngle","Opening angle of e+e- pairs from gamma conversion",kGCnXBinsOpeningAngle, kGCfirstXBinOpeningAngle, kGClastXBinOpeningAngle, "counts", "cm");}
-
- if(kGCplotMCEEnergy == kTRUE){ histograms->AddHistogram("MC_E_Energy" ,"" , kGCnXBinsEnergy, kGCfirstXBinEnergy, kGClastXBinEnergy, "", "");}
- if(kGCplotMCEPt == kTRUE){ histograms->AddHistogram("MC_E_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");}
- if(kGCplotMCEEta == kTRUE){ histograms->AddHistogram("MC_E_Eta" ,"" , kGCnXBinsEta, kGCfirstXBinEta, kGClastXBinEta, "", "");}
- if(kGCplotMCEPhi == kTRUE){ histograms->AddHistogram("MC_E_Phi" ,"" , kGCnXBinsPhi, kGCfirstXBinPhi, kGClastXBinPhi, "", "");}
-
- if(kGCplotMCPEnergy == kTRUE){ histograms->AddHistogram("MC_P_Energy" ,"" , kGCnXBinsEnergy, kGCfirstXBinEnergy, kGClastXBinEnergy, "", "");}
- if(kGCplotMCPPt == kTRUE){ histograms->AddHistogram("MC_P_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");}
- if(kGCplotMCPEta == kTRUE){ histograms->AddHistogram("MC_P_Eta" ,"" , kGCnXBinsEta, kGCfirstXBinEta, kGClastXBinEta, "", "");}
- if(kGCplotMCPPhi == kTRUE){ histograms->AddHistogram("MC_P_Phi" ,"" , kGCnXBinsPhi, kGCfirstXBinPhi, kGClastXBinPhi, "", "");}
-
- if(kGCplotMCallGammaEnergy == kTRUE){ histograms->AddHistogram("MC_allGamma_Energy" ,"" , kGCnXBinsEnergy, kGCfirstXBinEnergy, kGClastXBinEnergy, "", "");}
- if(kGCplotMCallGammaPt == kTRUE){ histograms->AddHistogram("MC_allGamma_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");}
- if(kGCplotMCallGammaEta == kTRUE){ histograms->AddHistogram("MC_allGamma_Eta" ,"" , kGCnXBinsEta, kGCfirstXBinEta, kGClastXBinEta, "", "");}
- if(kGCplotMCallGammaPhi == kTRUE){ histograms->AddHistogram("MC_allGamma_Phi" ,"" , kGCnXBinsPhi, kGCfirstXBinPhi, kGClastXBinPhi, "", "");}
- if(kGCplotMCallGammaRapid == kTRUE){ histograms->AddHistogram("MC_allGamma_Rapid" ,"" , kGCnXBinsRapid, kGCfirstXBinRapid, kGClastXBinRapid, "", "");}
-
- if(kGCplotMCConvGammaEnergy == kTRUE){ histograms->AddHistogram("MC_ConvGamma_Energy" ,"" , kGCnXBinsEnergy, kGCfirstXBinEnergy, kGClastXBinEnergy, "", "");}
- if(kGCplotMCConvGammaPt == kTRUE){ histograms->AddHistogram("MC_ConvGamma_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");}
- if(kGCplotMCConvGammaEta == kTRUE){ histograms->AddHistogram("MC_ConvGamma_Eta" ,"" , kGCnXBinsEta, kGCfirstXBinEta, kGClastXBinEta, "", "");}
- if(kGCplotMCConvGammaPhi == kTRUE){ histograms->AddHistogram("MC_ConvGamma_Phi" ,"" , kGCnXBinsPhi, kGCfirstXBinPhi, kGClastXBinPhi, "", "");}
- if(kGCplotMCConvGammaRapid == kTRUE){ histograms->AddHistogram("MC_ConvGamma_Rapid" ,"" , kGCnXBinsRapid, kGCfirstXBinRapid, kGClastXBinRapid, "", "");}
- if(kGCplotMCConvGammaPtvsEta == kTRUE){ histograms->AddHistogram("MC_ConvGamma_Pt_Eta","", kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt,kGCnXBinsEta, kGCfirstXBinEta, kGClastXBinEta,"","");}
-
- if(kGCplotMCallDirectGammaEnergy == kTRUE){ histograms->AddHistogram("MC_allDirectGamma_Energy" ,"" , kGCnXBinsEnergy, kGCfirstXBinEnergy, kGClastXBinEnergy, "", "");}
- if(kGCplotMCallDirectGammaPt == kTRUE){ histograms->AddHistogram("MC_allDirectGamma_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");}
- if(kGCplotMCallDirectGammaEta == kTRUE){ histograms->AddHistogram("MC_allDirectGamma_Eta" ,"" , kGCnXBinsEta, kGCfirstXBinEta, kGClastXBinEta, "", "");}
- if(kGCplotMCallDirectGammaPhi == kTRUE){ histograms->AddHistogram("MC_allDirectGamma_Phi" ,"" , kGCnXBinsPhi, kGCfirstXBinPhi, kGClastXBinPhi, "", "");}
- if(kGCplotMCallDirectGammaRapid == kTRUE){ histograms->AddHistogram("MC_allDirectGamma_Rapid" ,"" , kGCnXBinsRapid, kGCfirstXBinRapid, kGClastXBinRapid, "", "");}
-
- if(kGCplotMCConvDirectGammaEnergy == kTRUE){ histograms->AddHistogram("MC_ConvDirectGamma_Energy" ,"" , kGCnXBinsEnergy, kGCfirstXBinEnergy, kGClastXBinEnergy, "", "");}
- if(kGCplotMCConvDirectGammaPt == kTRUE){ histograms->AddHistogram("MC_ConvDirectGamma_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");}
- if(kGCplotMCConvDirectGammaEta == kTRUE){ histograms->AddHistogram("MC_ConvDirectGamma_Eta" ,"" , kGCnXBinsEta, kGCfirstXBinEta, kGClastXBinEta, "", "");}
- if(kGCplotMCConvDirectGammaPhi == kTRUE){ histograms->AddHistogram("MC_ConvDirectGamma_Phi" ,"" , kGCnXBinsPhi, kGCfirstXBinPhi, kGClastXBinPhi, "", "");}
- if(kGCplotMCConvDirectGammaRapid == kTRUE){ histograms->AddHistogram("MC_ConvDirectGamma_Rapid" ,"" , kGCnXBinsRapid, kGCfirstXBinRapid, kGClastXBinRapid, "", "");}
-
- if(kGCplotMCMotherEta == kTRUE){ histograms->AddHistogram("MC_Mother_Eta" ,"" , kGCnXBinsEta, kGCfirstXBinEta, kGClastXBinEta, "", "");}
- if(kGCplotMCMotherPhi == kTRUE){ histograms->AddHistogram("MC_Mother_Phi" ,"" , kGCnXBinsPhi, kGCfirstXBinPhi, kGClastXBinPhi, "", "");}
- if(kGCplotMCMotherRapid == kTRUE){ histograms->AddHistogram("MC_Mother_Rapid" ,"" , kGCnXBinsRapid, kGCfirstXBinRapid, kGClastXBinRapid, "", "");}
- if(kGCplotMCMotherPt == kTRUE){ histograms->AddHistogram("MC_Mother_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");}
- if(kGCplotMCMotherEnergy == kTRUE){ histograms->AddHistogram("MC_Mother_Energy" ,"" , kGCnXBinsEnergy, kGCfirstXBinEnergy, kGClastXBinEnergy, "", "");}
- if(kGCplotMCMotherMass == kTRUE){ histograms->AddHistogram("MC_Mother_Mass" ,"" , kGCnXBinsGammaMass, kGCfirstXBinGammaMass, kGClastXBinGammaMass, "", "");}
- if(kGCplotMCMotherOpeningAngle == kTRUE){ histograms->AddHistogram("MC_Mother_GammaDaughter_OpeningAngle" ,"" , kGCnXBinsOpeningAngle, kGCfirstXBinOpeningAngle, kGClastXBinOpeningAngle, "", "");}
- if(kGCplotMCMotherR == kTRUE){ histograms->AddHistogram("MC_Mother_R" ,"" , kGCnXBinsR, kGCfirstXBinR, kGClastXBinR, "", "");}
- if(kGCplotMCMotherZR == kTRUE){ histograms->AddHistogram("MC_Mother_ZR" ,"" , kGCnXBinsZR, kGCfirstXBinZR, kGClastXBinZR, kGCnYBinsZR, kGCfirstYBinZR, kGClastYBinZR, "", "");}
- if(kGCplotMCMotherXY == kTRUE){ histograms->AddHistogram("MC_Mother_XY" ,"" , kGCnXBinsXY, kGCfirstXBinXY, kGClastXBinXY, kGCnYBinsXY, kGCfirstYBinXY, kGClastYBinXY, "", "");}
- if(kGCplotMCMotherPtvsEtaWithinAcceptance == kTRUE){ histograms->AddHistogram("MC_Mother_Pt_Eta_withinAcceptance" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, kGCnXBinsEta, kGCfirstXBinEta, kGClastXBinEta, "", "");}
- if(kGCplotMCMotherPtvsRapidWithinAcceptance == kTRUE){ histograms->AddHistogram("MC_Mother_Pt_Rapid_withinAcceptance" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, kGCnXBinsRapid, kGCfirstXBinRapid, kGClastXBinRapid, "", "");}
- if(kGCplotMCMotherPtvsEtaConvGammaWithinAcceptance == kTRUE){ histograms->AddHistogram("MC_Mother_Pt_Eta_ConvGamma_withinAcceptance" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, kGCnXBinsEta, kGCfirstXBinEta, kGClastXBinEta, "", "");}
- if(kGCplotMCMotherPtvsRapidConvGammaWithinAcceptance == kTRUE){ histograms->AddHistogram("MC_Mother_Pt_Rapid_ConvGamma_withinAcceptance" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, kGCnXBinsRapid, kGCfirstXBinRapid, kGClastXBinRapid, "", "");}
-
- if(kGCplotMCMotherSpectra == kTRUE){
- histograms->AddHistogram("MC_Mother_InvMass_vs_Pt" ,"" ,kGCnXBinsSpectra, kGCfirstXBinSpectra, kGClastXBinSpectra, kGCnYBinsSpectra, kGCfirstYBinSpectra, kGClastYBinSpectra, "", "");
- histograms->AddHistogram("MC_Mother_InvMass_vs_Pt_withinAcceptance" ,"" ,kGCnXBinsSpectra, kGCfirstXBinSpectra, kGClastXBinSpectra, kGCnYBinsSpectra, kGCfirstYBinSpectra, kGClastYBinSpectra, "", "");
- histograms->AddHistogram("MC_Mother_InvMass_vs_Pt_ConvGamma_withinAcceptance" ,"" ,kGCnXBinsSpectra, kGCfirstXBinSpectra, kGClastXBinSpectra, kGCnYBinsSpectra, kGCfirstYBinSpectra, kGClastYBinSpectra, "", "");
- }
-
-
- if(kGCplotMCPi0Eta == kTRUE){ histograms->AddHistogram("MC_Pi0_Eta" ,"" , kGCnXBinsEta, kGCfirstXBinEta, kGClastXBinEta, "", "");}
- if(kGCplotMCPi0Rapid == kTRUE){ histograms->AddHistogram("MC_Pi0_Rapid" ,"" , kGCnXBinsRapid, kGCfirstXBinRapid, kGClastXBinRapid, "", "");}
- if(kGCplotMCPi0Phi == kTRUE){ histograms->AddHistogram("MC_Pi0_Phi" ,"" , kGCnXBinsPhi, kGCfirstXBinPhi, kGClastXBinPhi, "", "");}
- if(kGCplotMCPi0Pt == kTRUE){ histograms->AddHistogram("MC_Pi0_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");}
- if(kGCplotMCPi0Energy == kTRUE){ histograms->AddHistogram("MC_Pi0_Energy" ,"" , kGCnXBinsEnergy, kGCfirstXBinEnergy, kGClastXBinEnergy, "", "");}
- if(kGCplotMCPi0Mass == kTRUE){ histograms->AddHistogram("MC_Pi0_Mass" ,"" , kGCnXBinsPi0Mass, kGCfirstXBinPi0Mass, kGClastXBinPi0Mass, "", "");}
- if(kGCplotMCPi0OpeningAngle == kTRUE){ histograms->AddHistogram("MC_Pi0_GammaDaughter_OpeningAngle" ,"" , kGCnXBinsOpeningAngle, kGCfirstXBinOpeningAngle, kGClastXBinOpeningAngle, "", "");}
- if(kGCplotMCPi0R == kTRUE){ histograms->AddHistogram("MC_Pi0_R" ,"" , kGCnXBinsR, kGCfirstXBinR, kGClastXBinR, "", "");}
- if(kGCplotMCPi0ZR == kTRUE){ histograms->AddHistogram("MC_Pi0_ZR" ,"" , kGCnXBinsZR, kGCfirstXBinZR, kGClastXBinZR, kGCnYBinsZR, kGCfirstYBinZR, kGClastYBinZR, "", "");}
- if(kGCplotMCPi0XY == kTRUE){ histograms->AddHistogram("MC_Pi0_XY" ,"" , kGCnXBinsXY, kGCfirstXBinXY, kGClastXBinXY, kGCnYBinsXY, kGCfirstYBinXY, kGClastYBinXY, "", "");}
- if(kGCplotMCPi0PtvsEtaWithinAcceptance == kTRUE){ histograms->AddHistogram("MC_Pi0_Pt_Eta_withinAcceptance" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, kGCnXBinsEta, kGCfirstXBinEta, kGClastXBinEta, "", "");}
- if(kGCplotMCPi0PtvsRapidWithinAcceptance == kTRUE){ histograms->AddHistogram("MC_Pi0_Pt_Rapid_withinAcceptance" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, kGCnXBinsRapid, kGCfirstXBinRapid, kGClastXBinRapid, "", "");}
- if(kGCplotMCPi0PtvsEtaConvGammaWithinAcceptance == kTRUE){ histograms->AddHistogram("MC_Pi0_Pt_Eta_ConvGamma_withinAcceptance" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, kGCnXBinsEta, kGCfirstXBinEta, kGClastXBinEta, "", "");}
- if(kGCplotMCPi0PtvsRapidConvGammaWithinAcceptance == kTRUE){ histograms->AddHistogram("MC_Pi0_Pt_Rapid_ConvGamma_withinAcceptance" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, kGCnXBinsRapid, kGCfirstXBinRapid, kGClastXBinRapid, "", "");}
- if(kGCplotMCPi0ZRConvGammaWithinAcceptance == kTRUE){ histograms->AddHistogram("MC_Pi0_ZR_ConvGamma_withinAcceptance" ,"" , kGCnXBinsZR, kGCfirstXBinZR, kGClastXBinZR, kGCnYBinsZR, kGCfirstYBinZR, kGClastYBinZR, "", "");}
-
-
- if(kGCplotMCPi0SecondaryEta == kTRUE){ histograms->AddHistogram("MC_Pi0_Secondaries_Eta" ,"" , kGCnXBinsEta, kGCfirstXBinEta, kGClastXBinEta, "", "");}
- if(kGCplotMCPi0SecondaryRapid == kTRUE){ histograms->AddHistogram("MC_Pi0_Secondaries_Rapid" ,"" , kGCnXBinsRapid, kGCfirstXBinRapid, kGClastXBinRapid, "", "");}
- if(kGCplotMCPi0SecondaryPhi == kTRUE){ histograms->AddHistogram("MC_Pi0_Secondaries_Phi" ,"" , kGCnXBinsPhi, kGCfirstXBinPhi, kGClastXBinPhi, "", "");}
- if(kGCplotMCPi0SecondaryPt == kTRUE){ histograms->AddHistogram("MC_Pi0_Secondaries_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");}
- if(kGCplotMCPi0SecondaryEnergy == kTRUE){ histograms->AddHistogram("MC_Pi0_Secondaries_Energy" ,"" , kGCnXBinsEnergy, kGCfirstXBinEnergy, kGClastXBinEnergy, "", "");}
- if(kGCplotMCPi0SecondaryMass == kTRUE){ histograms->AddHistogram("MC_Pi0_Secondaries_Mass" ,"" , kGCnXBinsPi0Mass, kGCfirstXBinPi0Mass, kGClastXBinPi0Mass, "", "");}
- if(kGCplotMCPi0SecondaryOpeningAngle == kTRUE){ histograms->AddHistogram("MC_Pi0_Secondaries_GammaDaughter_OpeningAngle" ,"" , kGCnXBinsOpeningAngle, kGCfirstXBinOpeningAngle, kGClastXBinOpeningAngle, "", "");}
- if(kGCplotMCPi0SecondaryR == kTRUE){ histograms->AddHistogram("MC_Pi0_Secondaries_R" ,"" , kGCnXBinsR, kGCfirstXBinR, kGClastXBinR, "", "");}
- if(kGCplotMCPi0SecondaryZR == kTRUE){ histograms->AddHistogram("MC_Pi0_Secondaries_ZR" ,"" , kGCnXBinsZR, kGCfirstXBinZR, kGClastXBinZR, kGCnYBinsZR, kGCfirstYBinZR, kGClastYBinZR, "", "");}
- if(kGCplotMCPi0SecondaryXY == kTRUE){ histograms->AddHistogram("MC_Pi0_Secondaries_XY" ,"" , kGCnXBinsXY, kGCfirstXBinXY, kGClastXBinXY, kGCnYBinsXY, kGCfirstYBinXY, kGClastYBinXY, "", "");}
- if(kGCplotMCPi0SecondaryPtvsEtaWithinAcceptance == kTRUE){ histograms->AddHistogram("MC_Pi0_Secondaries_Pt_Eta_withinAcceptance" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, kGCnXBinsEta, kGCfirstXBinEta, kGClastXBinEta, "", "");}
- if(kGCplotMCPi0SecondaryPtvsRapidWithinAcceptance == kTRUE){ histograms->AddHistogram("MC_Pi0_Secondaries_Pt_Rapid_withinAcceptance" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, kGCnXBinsRapid, kGCfirstXBinRapid, kGClastXBinRapid, "", "");}
- if(kGCplotMCPi0SecondaryPtvsEtaConvGammaWithinAcceptance == kTRUE){ histograms->AddHistogram("MC_Pi0_Secondaries_Pt_Eta_ConvGamma_withinAcceptance" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, kGCnXBinsEta, kGCfirstXBinEta, kGClastXBinEta, "", "");}
- if(kGCplotMCPi0SecondaryPtvsRapidConvGammaWithinAcceptance == kTRUE){ histograms->AddHistogram("MC_Pi0_Secondaries_Pt_Rapid_ConvGamma_withinAcceptance" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, kGCnXBinsRapid, kGCfirstXBinRapid, kGClastXBinRapid, "", "");}
-
-
-
- if(kGCplotMCEtaEta == kTRUE){ histograms->AddHistogram("MC_Eta_Eta" ,"" , kGCnXBinsEta, kGCfirstXBinEta, kGClastXBinEta, "", "");}
- if(kGCplotMCEtaRapid == kTRUE){ histograms->AddHistogram("MC_Eta_Rapid" ,"" , kGCnXBinsRapid, kGCfirstXBinRapid, kGClastXBinRapid, "", "");}
- if(kGCplotMCEtaPhi == kTRUE){ histograms->AddHistogram("MC_Eta_Phi" ,"" , kGCnXBinsPhi, kGCfirstXBinPhi, kGClastXBinPhi, "", "");}
- if(kGCplotMCEtaPt == kTRUE){ histograms->AddHistogram("MC_Eta_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");}
- if(kGCplotMCEtaEnergy == kTRUE){ histograms->AddHistogram("MC_Eta_Energy" ,"" , kGCnXBinsEnergy, kGCfirstXBinEnergy, kGClastXBinEnergy, "", "");}
- if(kGCplotMCEtaMass == kTRUE){ histograms->AddHistogram("MC_Eta_Mass" ,"" , kGCnXBinsEtaMass, kGCfirstXBinEtaMass, kGClastXBinEtaMass, "", "");}
- if(kGCplotMCEtaOpeningAngleGamma == kTRUE){ histograms->AddHistogram("MC_Eta_GammaDaughter_OpeningAngle" ,"" , kGCnXBinsOpeningAngle, kGCfirstXBinOpeningAngle, kGClastXBinOpeningAngle, "", "");}
- if(kGCplotMCEtaR == kTRUE){ histograms->AddHistogram("MC_Eta_R" ,"" , kGCnXBinsR, kGCfirstXBinR, kGClastXBinR, "", "");}
- if(kGCplotMCEtaZR == kTRUE){ histograms->AddHistogram("MC_Eta_ZR" ,"" , kGCnXBinsZR, kGCfirstXBinZR, kGClastXBinZR, kGCnYBinsZR, kGCfirstYBinZR, kGClastYBinZR, "", "");}
- if(kGCplotMCEtaXY == kTRUE){ histograms->AddHistogram("MC_Eta_XY" ,"" , kGCnXBinsXY, kGCfirstXBinXY, kGClastXBinXY, kGCnYBinsXY, kGCfirstYBinXY, kGClastYBinXY, "", "");}
- if(kGCplotMCEtaPtvsEtaWithinAcceptance == kTRUE){ histograms->AddHistogram("MC_Eta_Pt_Eta_withinAcceptance" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, kGCnXBinsEta, kGCfirstXBinEta, kGClastXBinEta, "", "");}
- if(kGCplotMCEtaPtvsRapidWithinAcceptance == kTRUE){ histograms->AddHistogram("MC_Eta_Pt_Rapid_withinAcceptance" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, kGCnXBinsRapid, kGCfirstXBinRapid, kGClastXBinRapid, "", "");}
- if(kGCplotMCEtaPtvsEtaConvGammaWithinAcceptance == kTRUE){ histograms->AddHistogram("MC_Eta_Pt_Eta_ConvGamma_withinAcceptance" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, kGCnXBinsEta, kGCfirstXBinEta, kGClastXBinEta, "", "");}
- if(kGCplotMCEtaPtvsRapidConvGammaWithinAcceptance == kTRUE){ histograms->AddHistogram("MC_Eta_Pt_Rapid_ConvGamma_withinAcceptance" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, kGCnXBinsRapid, kGCfirstXBinRapid, kGClastXBinRapid, "", "");}
- if(kGCplotMCEtaZRConvGammaWithinAcceptance == kTRUE){ histograms->AddHistogram("MC_Eta_ZR_ConvGamma_withinAcceptance" ,"" , kGCnXBinsZR, kGCfirstXBinZR, kGClastXBinZR, kGCnYBinsZR, kGCfirstYBinZR, kGClastYBinZR, "", "");}
-
-
+
// Histograms from esd tracks
if(kGCplotESDEEnergy == kTRUE){ histograms->AddHistogram("ESD_E_Energy" ,"" , kGCnXBinsEnergy, kGCfirstXBinEnergy, kGClastXBinEnergy, "", "");}
if(kGCplotESDEPt == kTRUE){ histograms->AddHistogram("ESD_E_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");}
if(kGCplotESDEEta == kTRUE){ histograms->AddHistogram("ESD_E_Eta" ,"" , kGCnXBinsEta, kGCfirstXBinEta, kGClastXBinEta, "", "");}
if(kGCplotESDEPhi == kTRUE){ histograms->AddHistogram("ESD_E_Phi" ,"" , kGCnXBinsPhi, kGCfirstXBinPhi, kGClastXBinPhi, "", "");}
-
+ if(kGCplotESDENTPCClusters == kTRUE){ histograms->AddHistogram("ESD_E_nTPCClusters" ,"" , kGCnXBinsNTPCClusters, kGCfirstXBinNTPCClusters, kGClastXBinNTPCClusters, "", "");}
+ if(kGCplotESDENITSClusters == kTRUE){ histograms->AddHistogram("ESD_E_nITSClusters" ,"" , kGCnXBinsNITSClusters, kGCfirstXBinNITSClusters, kGClastXBinNITSClusters, "", "");}
+ if(kGCplotESDENTPCClustersToFP== kTRUE){ histograms->AddHistogram("ESD_E_nTPCClustersToFP" ,"" ,kGCnXBinsP, kGCfirstXBinP, kGClastXBinP,kGCnYBinsClsToF, kGCfirstYBinClsToF, kGClastYBinClsToF,"", "",0);}
+ if(kGCplotESDENTPCClustersToFR== kTRUE){ histograms->AddHistogram("ESD_E_nTPCClustersToFR" ,"" ,kGCnXBinsR, kGCfirstXBinR, kGClastXBinR,kGCnYBinsClsToF, kGCfirstYBinClsToF, kGClastYBinClsToF,"", "",0);}
+ if(kGCplotESDENTPCClustersToFR== kTRUE){ histograms->AddHistogram("ESD_TrueConversion_E_nTPCClustersToFR" ,"" ,kGCnXBinsR, kGCfirstXBinR, kGClastXBinR,kGCnYBinsClsToF, kGCfirstYBinClsToF, kGClastYBinClsToF,"", "",0);}
+ if(kGCplotESDETPCchi2 == kTRUE){ histograms->AddHistogram("ESD_E_TPCchi2" ,"" , kGCnXBinsTPCchi2, kGCfirstXBinTPCchi2, kGClastXBinTPCchi2, "", "");}
+
+
if(kGCplotESDPEnergy == kTRUE){ histograms->AddHistogram("ESD_P_Energy" ,"" , kGCnXBinsEnergy, kGCfirstXBinEnergy, kGClastXBinEnergy, "", "");}
if(kGCplotESDPPt == kTRUE){ histograms->AddHistogram("ESD_P_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");}
if(kGCplotESDPEta == kTRUE){ histograms->AddHistogram("ESD_P_Eta" ,"" , kGCnXBinsEta, kGCfirstXBinEta, kGClastXBinEta, "", "");}
if(kGCplotESDPPhi == kTRUE){ histograms->AddHistogram("ESD_P_Phi" ,"" , kGCnXBinsPhi, kGCfirstXBinPhi, kGClastXBinPhi, "", "");}
-
+ if(kGCplotESDPNTPCClusters == kTRUE){ histograms->AddHistogram("ESD_P_nTPCClusters" ,"" , kGCnXBinsNTPCClusters, kGCfirstXBinNTPCClusters, kGClastXBinNTPCClusters, "", "");}
+ if(kGCplotESDPNITSClusters == kTRUE){ histograms->AddHistogram("ESD_P_nITSClusters" ,"" , kGCnXBinsNITSClusters, kGCfirstXBinNITSClusters, kGClastXBinNITSClusters, "", "");}
+ if(kGCplotESDPNTPCClustersToFP== kTRUE){ histograms->AddHistogram("ESD_P_nTPCClustersToFP" ,"" ,kGCnXBinsP, kGCfirstXBinP, kGClastXBinP,kGCnYBinsClsToF, kGCfirstYBinClsToF, kGClastYBinClsToF,"", "",0);}
+ if(kGCplotESDPNTPCClustersToFR== kTRUE){ histograms->AddHistogram("ESD_P_nTPCClustersToFR" ,"" ,kGCnXBinsR, kGCfirstXBinR, kGClastXBinR,kGCnYBinsClsToF, kGCfirstYBinClsToF, kGClastYBinClsToF,"", "",0);}
+ if(kGCplotESDPNTPCClustersToFR== kTRUE){ histograms->AddHistogram("ESD_TrueConversion_P_nTPCClustersToFR" ,"" ,kGCnXBinsR, kGCfirstXBinR, kGClastXBinR,kGCnYBinsClsToF, kGCfirstYBinClsToF, kGClastYBinClsToF,"", "",0);}
+ if(kGCplotESDPTPCchi2 == kTRUE){ histograms->AddHistogram("ESD_P_TPCchi2" ,"" , kGCnXBinsTPCchi2, kGCfirstXBinTPCchi2, kGClastXBinTPCchi2, "", "");}
+
if(kGCplotESDConvGammaEnergy == kTRUE){ histograms->AddHistogram("ESD_ConvGamma_Energy" ,"" , kGCnXBinsEnergy, kGCfirstXBinEnergy, kGClastXBinEnergy, "", "");}
if(kGCplotESDConvGammaPt == kTRUE){ histograms->AddHistogram("ESD_ConvGamma_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");}
if(kGCplotESDConvGammaEta == kTRUE){ histograms->AddHistogram("ESD_ConvGamma_Eta" ,"" , kGCnXBinsEta, kGCfirstXBinEta, kGClastXBinEta, "", "");}
if(kGCplotESDConvGammaPtvsEta == kTRUE){ histograms->AddHistogram("ESD_ConvGamma_Pt_Eta","", kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt,kGCnXBinsEta, kGCfirstXBinEta, kGClastXBinEta,"","" );}
if(kGCplotESDConvGammaPtvsChi2 == kTRUE){ histograms->AddHistogram("ESD_ConvGamma_Pt_Chi2" ,"" ,kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, kGCnXBinsGammaChi2, kGCfirstXBinGammaChi2, kGClastXBinGammaChi2, "", "");}
if(kGCplotESDConvGammaEtavsChi2 == kTRUE){ histograms->AddHistogram("ESD_ConvGamma_Eta_Chi2" ,"" ,kGCnXBinsEta, kGCfirstXBinEta, kGClastXBinEta, kGCnXBinsGammaChi2, kGCfirstXBinGammaChi2, kGClastXBinGammaChi2, "", "");}
-
-
-
+ histograms->AddHistogram("ESD_ConvGamma_EandP_P_dT" ,"" , kGCnXBinsP, kGCfirstXBinP, kGClastXBinP, kGCnXBinsTOFsignal, kGCfirstXBinTOFsignal, kGClastXBinTOFsignal, "", "",0); // RRnewTOF
+
+
if(kGCplotESDConversionR == kTRUE){ histograms->AddHistogram("ESD_Conversion_R" ,"" , kGCnXBinsR, kGCfirstXBinR, kGClastXBinR, "", "");}
if(kGCplotESDConversionZR == kTRUE){ histograms->AddHistogram("ESD_Conversion_ZR" ,"" , kGCnXBinsZR, kGCfirstXBinZR, kGClastXBinZR, kGCnYBinsZR, kGCfirstYBinZR, kGClastYBinZR, "", "");}
if(kGCplotESDConversionXY == kTRUE){ histograms->AddHistogram("ESD_Conversion_XY" ,"" , kGCnXBinsXY, kGCfirstXBinXY, kGClastXBinXY, kGCnYBinsXY, kGCfirstYBinXY, kGClastYBinXY, "", "");}
+ if(kGCplotESDConversionXYBeamPipe == kTRUE && kGCLowMemoryConsumption == kFALSE){ histograms->AddHistogram("ESD_Conversion_XY_BeamPipe" ,"" , kGCnXBinsXYBP, kGCfirstXBinXYBP, kGClastXBinXYBP, kGCnYBinsXYBP, kGCfirstYBinXYBP, kGClastYBinXYBP, "", "");}
+ if(kGCplotESDConversionRPhiBeamPipe == kTRUE && kGCLowMemoryConsumption == kFALSE){ histograms->AddHistogram("ESD_Conversion_RPhi_BeamPipe" ,"" , kGCnXBinsRPhiBP, kGCfirstXBinRPhiBP, kGClastXBinRPhiBP, kGCnYBinsRPhiBP, kGCfirstYBinRPhiBP, kGClastYBinRPhiBP, "", "");}
if(kGCplotESDConversionOpeningAngle == kTRUE){ histograms->AddHistogram("ESD_Conversion_OpeningAngle" ,"" , kGCnXBinsOpeningAngle, kGCfirstXBinOpeningAngle, kGClastXBinOpeningAngle, "", "");}
+ if(kGCplotESDConvGammaCosPointingAngle == kTRUE){ histograms->AddHistogram("ESD_ConvGamma_CosPointingAngle" ,"" , kGCnXBinsCosPointingAngle, kGCfirstXBinCosPointingAngle, kGClastXBinCosPointingAngle, "", "");}
+ if(kGCplotESDConvGammaDcaDaugthers == kTRUE){ histograms->AddHistogram("ESD_ConvGamma_DcaDaughters" ,"" , kGCnXBinsDcaDaughters, kGCfirstXBinDcaDaughters, kGClastXBinDcaDaughters, "", "");}
+ if(kGCplotESDConvGammaNormDcaDistDaugthers == kTRUE){ histograms->AddHistogram("ESD_ConvGamma_NormDcaDistDaughters" ,"" , kGCnXBinsNormDcaDistDaughters, kGCfirstXBinNormDcaDistDaughters, kGClastXBinNormDcaDistDaughters, "", "");}
+ if(kGCplotESDConvGammaLikelihoodAP == kTRUE){ histograms->AddHistogram("ESD_ConvGamma_LikelihoodAP" ,"" , kGCnXBinsLikelihoodAP, kGCfirstXBinLikelihoodAP, kGClastXBinLikelihoodAP, "", "");}
+ if(kGCplotESDConvGammaEAsymmetryP== kTRUE){ histograms->AddHistogram("ESD_ConvGamma_E_AsymmetryP" ,"" ,kGCnXBinsP, kGCfirstXBinP, kGClastXBinP,kGCnYBinsAsymmetry, kGCfirstYBinAsymmetry, kGClastYBinAsymmetry,"", "");}
+ if(kGCplotESDConvGammaPAsymmetryP== kTRUE){ histograms->AddHistogram("ESD_ConvGamma_P_AsymmetryP" ,"" ,kGCnXBinsP, kGCfirstXBinP, kGClastXBinP,kGCnYBinsAsymmetry, kGCfirstYBinAsymmetry, kGClastYBinAsymmetry,"", "");}
+ if(kGCplotESDConvGammaEdEdxP== kTRUE){ histograms->AddHistogram("ESD_ConvGamma_E_dEdxP" ,"" ,kGCnXBinsP, kGCfirstXBinP, kGClastXBinP,kGCnYBinsdEdx, kGCfirstYBindEdx, kGClastYBindEdx,"", "",0);}
+ if(kGCplotESDConvGammaPdEdxP== kTRUE){ histograms->AddHistogram("ESD_ConvGamma_P_dEdxP" ,"" ,kGCnXBinsP, kGCfirstXBinP, kGClastXBinP,kGCnYBinsdEdx, kGCfirstYBindEdx, kGClastYBindEdx,"", "",0);}
+
+ if(kGCplotESDConvGammaEeProbP== kTRUE){ histograms->AddHistogram("ESD_ConvGamma_E_EProbP" ,"" ,kGCnXBinsP, kGCfirstXBinP, kGClastXBinP,kGCnYBinsEProb, kGCfirstYBinEProb, kGClastYBinEProb,"", "",0);}
+ if(kGCplotESDConvGammaPeProbP== kTRUE){ histograms->AddHistogram("ESD_ConvGamma_P_EProbP" ,"" ,kGCnXBinsP, kGCfirstXBinP, kGClastXBinP,kGCnYBinsEProb, kGCfirstYBinEProb, kGClastYBinEProb,"", "",0);}
+ if(kGCplotESDConvGammaEmupiProbP== kTRUE){ histograms->AddHistogram("ESD_ConvGamma_E_mupiProbP" ,"" ,kGCnXBinsP, kGCfirstXBinP, kGClastXBinP,kGCnYBinsEProb, kGCfirstYBinEProb, kGClastYBinEProb,"", "",0);}
+ if(kGCplotESDConvGammaPmupiProbP== kTRUE){ histograms->AddHistogram("ESD_ConvGamma_P_mupiProbP" ,"" ,kGCnXBinsP, kGCfirstXBinP, kGClastXBinP,kGCnYBinsEProb, kGCfirstYBinEProb, kGClastYBinEProb,"", "",0);}
+
+ if(kGCplotESDConvGammaQtAlfa== kTRUE){ histograms->AddHistogram("ESD_ConvGamma_alfa_qt" ,"" ,kGCnXBinsP, kGCfirstXBinAlphaG, kGClastXBinAlpha,kGCnYBinsQt, kGCfirstYBinQt, kGClastYBinQt,"", "");}
+
+
+
+ if(kGCplotESDTrueDalitzContaminationR == kTRUE){ histograms->AddHistogram("ESD_TrueDalitzContamination_R" ,"" , kGCnXBinsR, kGCfirstXBinR, kGClastXBinR, "", "");}
+ if(kGCplotESDTruePi0DalitzContaminationR == kTRUE){ histograms->AddHistogram("ESD_TrueConvDalitzPi0_R" ,"" , kGCnXBinsR, kGCfirstXBinR, kGClastXBinR, "", "");}
+ if(kGCplotESDTrueEtaDalitzContaminationR == kTRUE){ histograms->AddHistogram("ESD_TrueConvDalitzEta_R" ,"" , kGCnXBinsR, kGCfirstXBinR, kGClastXBinR, "", "");}
+ if(kGCplotESDTrueCombinatorialContaminationR == kTRUE){ histograms->AddHistogram("ESD_TrueConvCombinatorial_R" ,"" , kGCnXBinsR, kGCfirstXBinR, kGClastXBinR, "", "");}
+ if(kGCplotESDTrueCombinatorialElecContaminationR == kTRUE){ histograms->AddHistogram("ESD_TrueConvCombinatorialElec_R" ,"" , kGCnXBinsR, kGCfirstXBinR, kGClastXBinR, "", "");}
+ if(kGCplotESDTrueHadronicContaminationR == kTRUE){ histograms->AddHistogram("ESD_TrueConvHadronicBck_R" ,"" , kGCnXBinsR, kGCfirstXBinR, kGClastXBinR, "", "");}
+ if(kGCplotESDTrueCombinatorialContaminationPt == kTRUE){ histograms->AddHistogram("ESD_TrueConvCombinatorial_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");}
+ if(kGCplotESDTrueCombinatorialElecContaminationPt == kTRUE){ histograms->AddHistogram("ESD_TrueConvCombinatorialElec_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");}
+ if(kGCplotESDTrueHadronicContaminationPt == kTRUE){ histograms->AddHistogram("ESD_TrueConvHadronicBck_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");}
+
+
+ if(kGCplotESDTrueBackground){
+ histograms->AddHistogram("ESD_TrueConvCombinatorialDaughter_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt,kGCnXBinsPt,kGCfirstXBinPt , kGClastXBinPt, "", "");
+ histograms->AddHistogram("ESD_TrueConvHadronicBckDaughter_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt,kGCnXBinsPt,kGCfirstXBinPt , kGClastXBinPt, "", "");
+ histograms->AddHistogram("ESD_TrueConvCombinatorialPiDaughter_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt,kGCnXBinsPt,kGCfirstXBinPt , kGClastXBinPt, "", "");
+ histograms->AddHistogram("ESD_TrueConvCombinatorialPiPDaughter_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt,kGCnXBinsPt,kGCfirstXBinPt , kGClastXBinPt, "", "");
+
+ histograms->AddHistogram("ESD_TrueConvCombinatorialPi_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");
+ histograms->AddHistogram("ESD_TrueConvCombinatorialPi_R" ,"" , kGCnXBinsR, kGCfirstXBinR, kGClastXBinR, "", "");
+ histograms->AddHistogram("ESD_TrueConvCombinatorialPiP_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");
+ histograms->AddHistogram("ESD_TrueConvCombinatorialPiP_R" ,"" , kGCnXBinsR, kGCfirstXBinR, kGClastXBinR, "", "");
+ histograms->AddHistogram("ESD_TrueConvCombinatorialElecPi_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");
+ histograms->AddHistogram("ESD_TrueConvCombinatorialElecPi_R" ,"" , kGCnXBinsR, kGCfirstXBinR, kGClastXBinR, "", "");
+ histograms->AddHistogram("ESD_TrueConvMeson_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");
+ histograms->AddHistogram("ESD_TrueConvMeson_R" ,"" , kGCnXBinsR, kGCfirstXBinR, kGClastXBinR, "", "");
+ histograms->AddHistogram("ESD_TrueConvLambda_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");
+ histograms->AddHistogram("ESD_TrueConvLambda_R" ,"" , kGCnXBinsR, kGCfirstXBinR, kGClastXBinR, "", "");
+ }
+
+ histograms->AddHistogram("ESD_TrueConvDalitzPi0_SinglePos_R" ,"" , kGCnXBinsR, kGCfirstXBinR, kGClastXBinR, "", "");
+ histograms->AddHistogram("ESD_TrueConvDalitzPi0_SingleNeg_R" ,"" , kGCnXBinsR, kGCfirstXBinR, kGClastXBinR, "", "");
+ histograms->AddHistogram("ESD_TrueConvDalitzPi0_SinglePos_kFirst_R" ,"" , kGCnXBinsR, kGCfirstXBinR, kGClastXBinR, "", "");
+ histograms->AddHistogram("ESD_TrueConvDalitzPi0_SingleNeg_kFirst_R" ,"" , kGCnXBinsR, kGCfirstXBinR, kGClastXBinR, "", "");
+ histograms->AddHistogram("ESD_TrueConversion_SinglePos_R" ,"" , kGCnXBinsR, kGCfirstXBinR, kGClastXBinR, kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt,"", "");
+ histograms->AddHistogram("ESD_TrueConversion_SingleNeg_R" ,"" , kGCnXBinsR, kGCfirstXBinR, kGClastXBinR, kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");
+ histograms->AddHistogram("ESD_TrueConversion_SinglePos_kFirst_R" ,"" , kGCnXBinsR, kGCfirstXBinR, kGClastXBinR, kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");
+ histograms->AddHistogram("ESD_TrueConversion_SingleNeg_kFirst_R" ,"" , kGCnXBinsR, kGCfirstXBinR, kGClastXBinR, kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");
+
if(kGCplotESDTrueConvGammaEnergy == kTRUE){ histograms->AddHistogram("ESD_TrueConvGamma_Energy" ,"" , kGCnXBinsEnergy, kGCfirstXBinEnergy, kGClastXBinEnergy, "", "");}
if(kGCplotESDTrueConvGammaPt == kTRUE){ histograms->AddHistogram("ESD_TrueConvGamma_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");}
if(kGCplotESDTrueConvGammaNDF == kTRUE){ histograms->AddHistogram("ESD_TrueConvGamma_NDF" ,"" , kGCnXBinsGammaNDF, kGCfirstXBinGammaNDF, kGClastXBinGammaNDF, "", "");}
if(kGCplotESDTrueConvGammaRapid == kTRUE){ histograms->AddHistogram("ESD_TrueConvGamma_Rapid" ,"" , kGCnXBinsRapid, kGCfirstXBinRapid, kGClastXBinRapid, "", "");}
if(kGCplotESDTrueConvGammaPtvsEta == kTRUE){ histograms->AddHistogram("ESD_TrueConvGamma_Pt_Eta" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt,kGCnXBinsEta, kGCfirstXBinEta, kGClastXBinEta, "", "");}
+
if(kGCplotESDTrueConvGammaPtvsChi2 == kTRUE){ histograms->AddHistogram("ESD_TrueConvGamma_Pt_Chi2" ,"" ,kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, kGCnXBinsGammaChi2, kGCfirstXBinGammaChi2, kGClastXBinGammaChi2, "", "");}
if(kGCplotESDTrueConvGammaEtavsChi2 == kTRUE){ histograms->AddHistogram("ESD_TrueConvGamma_Eta_Chi2" ,"" ,kGCnXBinsEta, kGCfirstXBinEta, kGClastXBinEta, kGCnXBinsGammaChi2, kGCfirstXBinGammaChi2, kGClastXBinGammaChi2, "", "");}
-
+
if(kGCplotESDTrueConversionR == kTRUE){ histograms->AddHistogram("ESD_TrueConversion_R" ,"" , kGCnXBinsR, kGCfirstXBinR, kGClastXBinR, "", "");}
if(kGCplotESDTrueConversionZR == kTRUE){ histograms->AddHistogram("ESD_TrueConversion_ZR" ,"" , kGCnXBinsZR, kGCfirstXBinZR, kGClastXBinZR, kGCnYBinsZR, kGCfirstYBinZR, kGClastYBinZR, "", "");}
if(kGCplotESDTrueConversionXY == kTRUE){ histograms->AddHistogram("ESD_TrueConversion_XY" ,"" , kGCnXBinsXY, kGCfirstXBinXY, kGClastXBinXY, kGCnYBinsXY, kGCfirstYBinXY, kGClastYBinXY, "", "");}
if(kGCplotESDTrueConversionOpeningAngle == kTRUE){ histograms->AddHistogram("ESD_TrueConversion_OpeningAngle" ,"" , kGCnXBinsOpeningAngle, kGCfirstXBinOpeningAngle, kGClastXBinOpeningAngle, "", "");}
+ if(kGCplotESDTrueConvGammaCosPointingAngle == kTRUE){ histograms->AddHistogram("ESD_TrueConvGamma_CosPointingAngle" ,"" , kGCnXBinsCosPointingAngle, kGCfirstXBinCosPointingAngle, kGClastXBinCosPointingAngle, "", "");}
+ if(kGCplotESDTrueConvGammaDcaDaugthers == kTRUE){ histograms->AddHistogram("ESD_TrueConvGamma_DcaDaughters" ,"" , kGCnXBinsDcaDaughters, kGCfirstXBinDcaDaughters, kGClastXBinDcaDaughters, "", "");}
+ if(kGCplotESDTrueConvGammaNormDcaDistDaugthers == kTRUE){ histograms->AddHistogram("ESD_TrueConvGamma_NormDcaDistDaughters" ,"" , kGCnXBinsNormDcaDistDaughters, kGCfirstXBinNormDcaDistDaughters, kGClastXBinNormDcaDistDaughters, "", "");}
+ if(kGCplotESDTrueConvGammaLikelihoodAP == kTRUE){ histograms->AddHistogram("ESD_TrueConvGamma_LikelihoodAP" ,"" , kGCnXBinsLikelihoodAP, kGCfirstXBinLikelihoodAP, kGClastXBinLikelihoodAP, "", "");}
+ if(kGCplotESDTrueConvGammaEAsymmetryP== kTRUE){ histograms->AddHistogram("ESD_TrueConvGamma_E_AsymmetryP" ,"" ,kGCnXBinsP, kGCfirstXBinP, kGClastXBinP,kGCnYBinsAsymmetry, kGCfirstYBinAsymmetry, kGClastYBinAsymmetry,"", "");}
+ if(kGCplotESDTrueConvGammaPAsymmetryP== kTRUE){ histograms->AddHistogram("ESD_TrueConvGamma_P_AsymmetryP" ,"" ,kGCnXBinsP, kGCfirstXBinP, kGClastXBinP,kGCnYBinsAsymmetry, kGCfirstYBinAsymmetry, kGClastYBinAsymmetry,"", "");}
+ if(kGCplotESDTrueConvGammaEdEdxP== kTRUE){ histograms->AddHistogram("ESD_TrueConvGamma_E_dEdxP" ,"" ,kGCnXBinsP, kGCfirstXBinP, kGClastXBinP,kGCnYBinsdEdx, kGCfirstYBindEdx, kGClastYBindEdx,"", "",0);}
+ if(kGCplotESDTrueConvGammaPdEdxP== kTRUE){ histograms->AddHistogram("ESD_TrueConvGamma_P_dEdxP" ,"" ,kGCnXBinsP, kGCfirstXBinP, kGClastXBinP,kGCnYBinsdEdx, kGCfirstYBindEdx, kGClastYBindEdx,"", "",0);}
+ if(kGCplotESDTrueConvGammaQtAlfa== kTRUE){ histograms->AddHistogram("ESD_TrueConvGamma_alfa_qt" ,"" ,kGCnXBinsP, kGCfirstXBinAlphaG, kGClastXBinAlpha,kGCnYBinsQt, kGCfirstYBinQt, kGClastYBinQt,"", "");}
+
if(kGCplotESDTrueConvGammaMCPtEta == kTRUE){ histograms->AddHistogram("ESD_TrueConvGamma_MC_Pt_Eta" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, kGCnXBinsEta, kGCfirstXBinEta, kGClastXBinEta, "", "");}
if(kGCplotESDTrueConversionMCZR == kTRUE){ histograms->AddHistogram("ESD_TrueConversion_MC_ZR" ,"" , kGCnXBinsZR, kGCfirstXBinZR, kGClastXBinZR, kGCnYBinsZR, kGCfirstYBinZR, kGClastYBinZR, "", "");}
if(kGCplotESDTrueConversionMCXY == kTRUE){ histograms->AddHistogram("ESD_TrueConversion_MC_XY" ,"" , kGCnXBinsXY, kGCfirstXBinXY, kGClastXBinXY, kGCnYBinsXY, kGCfirstYBinXY, kGClastYBinXY, "", "");}
+ histograms->AddHistogram("ESD_TrueConvGamma_EandP_P_dT" ,"" , kGCnXBinsP, kGCfirstXBinP, kGClastXBinP, kGCnXBinsTOFsignal, kGCfirstXBinTOFsignal, kGClastXBinTOFsignal, "", "",0); // RRnewTOF
+ histograms->AddHistogram("ESD_TrueConvCombinatorial_DaughtersNotElec_P_dT" ,"" , kGCnXBinsP, kGCfirstXBinP, kGClastXBinP, kGCnXBinsTOFsignal, kGCfirstXBinTOFsignal, kGClastXBinTOFsignal, "", "",0); // RRnewTOF
+ histograms->AddHistogram("ESD_TrueConvHadronicBck_Daughters_P_dT" ,"" , kGCnXBinsP, kGCfirstXBinP, kGClastXBinP, kGCnXBinsTOFsignal, kGCfirstXBinTOFsignal, kGClastXBinTOFsignal, "", "",0); // RRnewTOF
-
-
+ histograms->AddHistogram("ESD_NoCutConvGamma_EandP_P_dT" ,"" , kGCnXBinsP, kGCfirstXBinP, kGClastXBinP, kGCnXBinsTOFsignal, kGCfirstXBinTOFsignal, kGClastXBinTOFsignal, "", "",0); // RRnewTOF
+ if(kGCplotESDNoCutAllV0Pt == kTRUE){ histograms->AddHistogram("ESD_NoCutAllV0_Pt" ,"" , kGCnXBinsPt,kGCfirstXBinPt , kGClastXBinPt, "", "");}
if(kGCplotESDNoCutConvGammaEnergy == kTRUE){ histograms->AddHistogram("ESD_NoCutConvGamma_Energy" ,"" , kGCnXBinsEnergy, kGCfirstXBinEnergy, kGClastXBinEnergy, "", "");}
if(kGCplotESDNoCutConvGammaPt == kTRUE){ histograms->AddHistogram("ESD_NoCutConvGamma_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");}
if(kGCplotESDNoCutConvGammaEta == kTRUE){ histograms->AddHistogram("ESD_NoCutConvGamma_Eta" ,"" , kGCnXBinsEta, kGCfirstXBinEta, kGClastXBinEta, "", "");}
if(kGCplotESDNoCutConvGammaPtvsEta == kTRUE){ histograms->AddHistogram("ESD_NoCutConvGamma_Pt_Eta" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt,kGCnXBinsEta, kGCfirstXBinEta, kGClastXBinEta, "", "");}
if(kGCplotESDNoCutConvGammaPtvsChi2 == kTRUE){ histograms->AddHistogram("ESD_NoCutConvGamma_Pt_Chi2" ,"" ,kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, kGCnXBinsGammaChi2, kGCfirstXBinGammaChi2, kGClastXBinGammaChi2, "", "");}
if(kGCplotESDNoCutConvGammaEtavsChi2 == kTRUE){ histograms->AddHistogram("ESD_NoCutConvGamma_Eta_Chi2" ,"" ,kGCnXBinsEta, kGCfirstXBinEta, kGClastXBinEta, kGCnXBinsGammaChi2, kGCfirstXBinGammaChi2, kGClastXBinGammaChi2, "", "");}
-
+
if(kGCplotESDNoCutConversionR == kTRUE){ histograms->AddHistogram("ESD_NoCutConversion_R" ,"" , kGCnXBinsR, kGCfirstXBinR, kGClastXBinR, "", "");}
if(kGCplotESDNoCutConversionZR == kTRUE){ histograms->AddHistogram("ESD_NoCutConversion_ZR" ,"" , kGCnXBinsZR, kGCfirstXBinZR, kGClastXBinZR, kGCnYBinsZR, kGCfirstYBinZR, kGClastYBinZR, "", "");}
if(kGCplotESDNoCutConversionXY == kTRUE){ histograms->AddHistogram("ESD_NoCutConversion_XY" ,"" , kGCnXBinsXY, kGCfirstXBinXY, kGClastXBinXY, kGCnYBinsXY, kGCfirstYBinXY, kGClastYBinXY, "", "");}
if(kGCplotESDNoCutConversionOpeningAngle == kTRUE){ histograms->AddHistogram("ESD_NoCutConversion_OpeningAngle" ,"" , kGCnXBinsOpeningAngle, kGCfirstXBinOpeningAngle, kGClastXBinOpeningAngle, "", "");}
- if(kGCplotESDNoCutConvGammaMCPtEta == kTRUE){ histograms->AddHistogram("ESD_NoCutConvGamma_MC_Pt_Eta" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, kGCnXBinsEta, kGCfirstXBinEta, kGClastXBinEta, "", "");}
- if(kGCplotESDNoCutConversionMCZR == kTRUE){ histograms->AddHistogram("ESD_NoCutConversion_MC_ZR" ,"" , kGCnXBinsZR, kGCfirstXBinZR, kGClastXBinZR, kGCnYBinsZR, kGCfirstYBinZR, kGClastYBinZR, "", "");}
- if(kGCplotESDNoCutConversionMCXY == kTRUE){ histograms->AddHistogram("ESD_NoCutConversion_MC_XY" ,"" , kGCnXBinsXY, kGCfirstXBinXY, kGClastXBinXY, kGCnYBinsXY, kGCfirstYBinXY, kGClastYBinXY, "", "");}
+ if(kGCplotESDNoCutConvGammaCosPointingAngle == kTRUE){ histograms->AddHistogram("ESD_NoCutConvGamma_CosPointingAngle" ,"" , kGCnXBinsCosPointingAngle, kGCfirstXBinCosPointingAngle, kGClastXBinCosPointingAngle, "", "");}
+ if(kGCplotESDNoCutConvGammaDcaDaugthers == kTRUE){ histograms->AddHistogram("ESD_NoCutConvGamma_DcaDaughters" ,"" , kGCnXBinsDcaDaughters, kGCfirstXBinDcaDaughters, kGClastXBinDcaDaughters, "", "");}
+ if(kGCplotESDNoCutConvGammaNormDcaDistDaugthers == kTRUE){ histograms->AddHistogram("ESD_NoCutConvGamma_NormDcaDistDaughters" ,"" , kGCnXBinsNormDcaDistDaughters, kGCfirstXBinNormDcaDistDaughters, kGClastXBinNormDcaDistDaughters, "", "");}
+ if(kGCplotESDNoCutConvGammaLikelihoodAP == kTRUE){ histograms->AddHistogram("ESD_NoCutConvGamma_LikelihoodAP" ,"" , kGCnXBinsLikelihoodAP, kGCfirstXBinLikelihoodAP, kGClastXBinLikelihoodAP, "", "");}
+ if(kGCplotESDNoCutConvGammaEAsymmetryP== kTRUE){ histograms->AddHistogram("ESD_NoCutConvGamma_E_AsymmetryP" ,"" ,kGCnXBinsP, kGCfirstXBinP, kGClastXBinP,kGCnYBinsAsymmetry, kGCfirstYBinAsymmetry, kGClastYBinAsymmetry,"", "");}
+ if(kGCplotESDNoCutConvGammaPAsymmetryP== kTRUE){ histograms->AddHistogram("ESD_NoCutConvGamma_P_AsymmetryP" ,"" ,kGCnXBinsP, kGCfirstXBinP, kGClastXBinP,kGCnYBinsAsymmetry, kGCfirstYBinAsymmetry, kGClastYBinAsymmetry,"", "");}
+ if(kGCplotESDNoCutConvGammaEdEdxP== kTRUE){ histograms->AddHistogram("ESD_NoCutConvGamma_E_dEdxP" ,"" ,kGCnXBinsP, kGCfirstXBinP, kGClastXBinP,kGCnYBinsdEdx, kGCfirstYBindEdx, kGClastYBindEdx,"", "",0);}
+ if(kGCplotESDNoCutConvGammaPdEdxP== kTRUE){ histograms->AddHistogram("ESD_NoCutConvGamma_P_dEdxP" ,"" ,kGCnXBinsP, kGCfirstXBinP, kGClastXBinP,kGCnYBinsdEdx, kGCfirstYBindEdx, kGClastYBindEdx,"", "",0);}
+ if(kGCplotESDNoCutConvGammaMCPtEta == kTRUE){ histograms->AddHistogram("ESD_NoCutConvGamma_MC_Pt_Eta" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, kGCnXBinsEta, kGCfirstXBinEta, kGClastXBinEta, "", "");}
+ if(kGCplotESDNoCutConversionMCZR == kTRUE){ histograms->AddHistogram("ESD_NoCutConversion_MC_ZR" ,"" , kGCnXBinsZR, kGCfirstXBinZR, kGClastXBinZR, kGCnYBinsZR, kGCfirstYBinZR, kGClastYBinZR, "", "");}
+ if(kGCplotESDNoCutConversionMCXY == kTRUE){ histograms->AddHistogram("ESD_NoCutConversion_MC_XY" ,"" , kGCnXBinsXY, kGCfirstXBinXY, kGClastXBinXY, kGCnYBinsXY, kGCfirstYBinXY, kGClastYBinXY, "", "");}
+
+
+ if(kGCplotESDMotherChi2 == kTRUE){ histograms->AddHistogram("ESD_Mother_Chi2","" , kGCnXBinsMesonChi2, kGCfirstXBinGammaChi2, kGClastXBinGammaChi2, "", "");}
if(kGCplotESDMotherOpeningAngleGamma == kTRUE){ histograms->AddHistogram("ESD_Mother_GammaDaughter_OpeningAngle" ,"" , kGCnXBinsOpeningAngle, kGCfirstXBinOpeningAngle, kGClastXBinOpeningAngle, "", "");}
if(kGCplotESDMotherEnergy == kTRUE){ histograms->AddHistogram("ESD_Mother_Energy" ,"" , kGCnXBinsEnergy, kGCfirstXBinEnergy, kGClastXBinEnergy, "", "");}
if(kGCplotESDMotherPt == kTRUE){ histograms->AddHistogram("ESD_Mother_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");}
if(kGCplotESDMotherZR == kTRUE){ histograms->AddHistogram("ESD_Mother_ZR" ,"" , kGCnXBinsZR, kGCfirstXBinZR, kGClastXBinZR, kGCnYBinsZR, kGCfirstYBinZR, kGClastYBinZR, "", "");}
if(kGCplotESDMotherXY == kTRUE){ histograms->AddHistogram("ESD_Mother_XY" ,"" , kGCnXBinsXY, kGCfirstXBinXY, kGClastXBinXY, kGCnYBinsXY, kGCfirstYBinXY, kGClastYBinXY, "", "");}
if(kGCplotESDMotherRapid == kTRUE){ histograms->AddHistogram("ESD_Mother_Rapid" ,"" , kGCnXBinsRapid, kGCfirstXBinRapid, kGClastXBinRapid, "", "");}
+
+ for(Int_t z=0;z<8;z++){
+ for(Int_t m=0;m<6;m++){
+ if(kGCplotESDBackgroundOpeningAngleGamma == kTRUE){ histograms->AddHistogram(Form("%d%dESD_Background_GammaDaughter_OpeningAngle",z,m) ,"" , kGCnXBinsOpeningAngle, kGCfirstXBinOpeningAngle, kGClastXBinOpeningAngle, "", "");}
+ if(kGCplotESDBackgroundEnergy == kTRUE){ histograms->AddHistogram(Form("%d%dESD_Background_Energy",z,m) ,"" , kGCnXBinsEnergy, kGCfirstXBinEnergy, kGClastXBinEnergy, "", "");}
+ if(kGCplotESDBackgroundPt == kTRUE){ histograms->AddHistogram(Form("%d%dESD_Background_Pt",z,m) ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");}
+ if(kGCplotESDBackgroundEta == kTRUE){ histograms->AddHistogram(Form("%d%dESD_Background_Eta",z,m) ,"" , kGCnXBinsEta, kGCfirstXBinEta, kGClastXBinEta, "", "");}
+ if(kGCplotESDBackgroundPhi == kTRUE){ histograms->AddHistogram(Form("%d%dESD_Background_Phi",z,m) ,"" , kGCnXBinsPhi, kGCfirstXBinPhi, kGClastXBinPhi, "", "");}
+ if(kGCplotESDBackgroundMass == kTRUE){ histograms->AddHistogram(Form("%d%dESD_Background_Mass",z,m) ,"" , kGCnXBinsEtaMass, kGCfirstXBinEtaMass, kGClastXBinEtaMass, "", "");}
+ if(kGCplotESDBackgroundR == kTRUE){ histograms->AddHistogram(Form("%d%dESD_Background_R",z,m) ,"" , kGCnXBinsR, kGCfirstXBinR, kGClastXBinR, "", "");}
+ if(kGCplotESDBackgroundZR == kTRUE){ histograms->AddHistogram(Form("%d%dESD_Background_ZR",z,m) ,"" , kGCnXBinsZR, kGCfirstXBinZR, kGClastXBinZR, kGCnYBinsZR, kGCfirstYBinZR, kGClastYBinZR, "", "");}
+ if(kGCplotESDBackgroundXY == kTRUE){ histograms->AddHistogram(Form("%d%dESD_Background_XY",z,m) ,"" , kGCnXBinsXY, kGCfirstXBinXY, kGClastXBinXY, kGCnYBinsXY, kGCfirstYBinXY, kGClastYBinXY, "", "");}
+ if(kGCplotESDBackgroundRapid == kTRUE){ histograms->AddHistogram(Form("%d%dESD_Background_Rapid",z,m) ,"" , kGCnXBinsRapid, kGCfirstXBinRapid, kGClastXBinRapid, "", "");}
+ }
+ }
-
if(kGCplotESDBackgroundOpeningAngleGamma == kTRUE){ histograms->AddHistogram("ESD_Background_GammaDaughter_OpeningAngle" ,"" , kGCnXBinsOpeningAngle, kGCfirstXBinOpeningAngle, kGClastXBinOpeningAngle, "", "");}
if(kGCplotESDBackgroundEnergy == kTRUE){ histograms->AddHistogram("ESD_Background_Energy" ,"" , kGCnXBinsEnergy, kGCfirstXBinEnergy, kGClastXBinEnergy, "", "");}
if(kGCplotESDBackgroundPt == kTRUE){ histograms->AddHistogram("ESD_Background_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");}
if(kGCplotESDBackgroundZR == kTRUE){ histograms->AddHistogram("ESD_Background_ZR" ,"" , kGCnXBinsZR, kGCfirstXBinZR, kGClastXBinZR, kGCnYBinsZR, kGCfirstYBinZR, kGClastYBinZR, "", "");}
if(kGCplotESDBackgroundXY == kTRUE){ histograms->AddHistogram("ESD_Background_XY" ,"" , kGCnXBinsXY, kGCfirstXBinXY, kGClastXBinXY, kGCnYBinsXY, kGCfirstYBinXY, kGClastYBinXY, "", "");}
if(kGCplotESDBackgroundRapid == kTRUE){ histograms->AddHistogram("ESD_Background_Rapid" ,"" , kGCnXBinsRapid, kGCfirstXBinRapid, kGClastXBinRapid, "", "");}
-
-
+
+
if(kGCplotMapping == kTRUE){
- histograms->InitializeMappingValues(nPhiIndex,nRIndex,kGCnXBinsMapping,minRadius,maxRadius,kGCnYBinsMapping,minPhi,maxPhi);
- histograms->AddMappingHistograms(nPhiIndex,nRIndex,kGCnXBinsMapping,minRadius,maxRadius,kGCnYBinsMapping,minPhi,maxPhi);
+ histograms->InitializeMappingValues(kGCnPhiIndex,kGCnRIndex,kGCnXBinsMapping,kGCminRadius,kGCmaxRadius,kGCnYBinsMapping,kGCminPhi,kGCmaxPhi);
+ histograms->AddMappingHistograms(kGCnPhiIndex,kGCnRIndex,kGCnXBinsMapping,kGCfirstXBinMapping,kGClastXBinMapping,kGCnYBinsMapping,kGCfirstYBinMapping,kGClastYBinMapping);
+ // histograms->AddMappingHistograms(kGCnPhiIndex,kGCnRIndex,kGCnXBinsMapping,kGCminRadius,kGCmaxRadius,kGCnYBinsMapping,kGCminPhi,kGCmaxPhi);
}
-
- if(kGCplotResolutiondPt == kTRUE){histograms->AddHistogram("Resolution_dPt" ,"" , kGCnXBinsResdPt, kGCfirstXBinResdPt, kGClastXBinResdPt, kGCnYBinsResdPt, kGCfirstYBinResdPt, kGClastYBinResdPt, "", "");}
- if(kGCplotResolutiondR == kTRUE){histograms->AddHistogram("Resolution_dR" ,"" , kGCnXBinsResdR, kGCfirstXBinResdR, kGClastXBinResdR, kGCnYBinsResdR, kGCfirstYBinResdR, kGClastYBinResdR, "", "");}
- if(kGCplotResolutiondZ == kTRUE){histograms->AddHistogram("Resolution_dZ" ,"" , kGCnXBinsResdZ, kGCfirstXBinResdZ, kGClastXBinResdZ, kGCnYBinsResdZ, kGCfirstYBinResdZ, kGClastYBinResdZ, "", "");}
-
- if(kGCplotResolutiondRdPt == kTRUE){histograms->AddHistogram("Resolution_dR_dPt" ,"" , kGCnXBinsResdRdPt, kGCfirstXBinResdRdPt, kGClastXBinResdRdPt, kGCnYBinsResdRdPt, kGCfirstYBinResdRdPt, kGClastYBinResdRdPt, "", "");}
-
- if(kGCplotResolutionMCPt == kTRUE){histograms->AddHistogram("Resolution_MC_Pt" ,"" , kGCnXBinsResPt, kGCfirstXBinResPt, kGClastXBinResPt,"","");}
- if(kGCplotResolutionMCR == kTRUE){histograms->AddHistogram("Resolution_MC_R" ,"" , kGCnXBinsResR, kGCfirstXBinResR, kGClastXBinResR,"","");}
- if(kGCplotResolutionMCZ == kTRUE){histograms->AddHistogram("Resolution_MC_Z" ,"" , kGCnXBinsResZ, kGCfirstXBinResZ, kGClastXBinResZ,"","");}
-
- if(kGCplotResolutionESDPt == kTRUE){histograms->AddHistogram("Resolution_ESD_Pt" ,"" , kGCnXBinsResPt, kGCfirstXBinResPt, kGClastXBinResPt,"","");}
- if(kGCplotResolutionESDR == kTRUE){histograms->AddHistogram("Resolution_ESD_R" ,"" , kGCnXBinsResR, kGCfirstXBinResR, kGClastXBinResR,"","");}
- if(kGCplotResolutionESDZ == kTRUE){histograms->AddHistogram("Resolution_ESD_Z" ,"" , kGCnXBinsResZ, kGCfirstXBinResZ, kGClastXBinResZ,"","");}
-
- if(kGCplotESDNumberOfV0s == kTRUE){histograms->AddHistogram("ESD_NumberOfV0s","Number of v0s",100, 0, 100,"","");}
- if(kGCplotESDNumberOfSurvivingV0s == kTRUE){histograms->AddHistogram("ESD_NumberOfSurvivingV0s","Number of surviving v0s",100, 0, 100,"","");}
+
+ //
+ //************************************* Defining Resolution histograms *******************************************************/
+ //
+ // written by Friederike Bock
+ // contact: Friederike.Bock@cern.ch
+ //
+
+ if(kGCrunRES == kTRUE){
+ //------------------------------------------ Absolute Resolutions --------------------------------------------------------
+ if(kGCplotResolutiondRAbs== kTRUE){
+ histograms->AddHistogram("Resolution_dRAbs_VS_R","" ,kGCnXBinsResdR, kGCfirstXBinResdR, kGClastXBinResdR,kGCnYBinsResdR,kGCfirstYBinResdR, kGClastYBinResdR, "", "");}
+ if(kGCplotResolutiondZAbs== kTRUE){
+ histograms->AddHistogram("Resolution_dZAbs_VS_R","" ,kGCnXBinsResdR, kGCfirstXBinResdR, kGClastXBinResdR,kGCnYBinsResdR,kGCfirstYBinResdR, kGClastYBinResdR, "", "");}
+ if(kGCplotResolutiondPhiAbs== kTRUE){
+ histograms->AddHistogram("Resolution_dPhiAbs_VS_R","" ,kGCnXBinsResdR, kGCfirstXBinResdR, kGClastXBinResdR,kGCnYBinsResdR, -TMath::Pi()/30., TMath::Pi()/30., "", "");}
+
+ //------------------------------------------ Relative Resolutions --------------------------------------------------------
+ if(kGCplotResolutiondR == kTRUE){
+ histograms->AddHistogram("Resolution_dR" ,"" , kGCnXBinsResdR, kGCfirstXBinResdR, kGClastXBinResdR, kGCnYBinsResdR, kGCfirstYBinResdR, kGClastYBinResdR, "", "");}
+ if(kGCplotResolutiondZ == kTRUE){
+ histograms->AddHistogram("Resolution_dZ" ,"" , kGCnXBinsResdZ, kGCfirstXBinResdZ, kGClastXBinResdZ, kGCnYBinsResdZ, kGCfirstYBinResdZ, kGClastYBinResdZ, "", "");}
+
+ //------------------------------------------- Pt vs R ---------------------------------------------------------------------
+ if(kGCplotResolutiondRdPt == kTRUE){
+ histograms->AddHistogram("Resolution_R_dPt" ,"" , kGCnXBinsResdR, kGCfirstXBinResdR, kGClastXBinResdR, kGCnYBinsResdRdPt, kGCfirstYBinResdRdPt, kGClastYBinResdRdPt, "", "");}
+
+
+ // ------------------------------------------- Reconstruction Plots for Resolution ----------------------------------------
+ if(kGCplotResolutionMCPt == kTRUE){
+ histograms->AddHistogram("Resolution_MC_Pt" ,"" , kGCnXBinsResPt, kGCfirstXBinResPt, kGClastXBinResPt,"","");}
+ if(kGCplotResolutionMCR == kTRUE){
+ histograms->AddHistogram("Resolution_MC_R" ,"" , kGCnXBinsResR, kGCfirstXBinResR, kGClastXBinResR,"","");}
+ if(kGCplotResolutionMCZ == kTRUE){
+ histograms->AddHistogram("Resolution_MC_Z" ,"" , kGCnXBinsResZ, kGCfirstXBinResZ, kGClastXBinResZ,"","");}
+
+ if(kGCplotResolutionESDPt == kTRUE){
+ histograms->AddHistogram("Resolution_ESD_Pt" ,"" , kGCnXBinsResPt, kGCfirstXBinResPt, kGClastXBinResPt,"","");}
+ if(kGCplotResolutionESDR == kTRUE){
+ histograms->AddHistogram("Resolution_ESD_R" ,"" , kGCnXBinsResR, kGCfirstXBinResR, kGClastXBinResR,"","");}
+ if(kGCplotResolutionESDZ == kTRUE){
+ histograms->AddHistogram("Resolution_ESD_Z" ,"" , kGCnXBinsResZ, kGCfirstXBinResZ, kGClastXBinResZ,"","");}
+
+ // ------------------------------------------- Plots for specific Gamma Trigger Studies -----------------------------------
+ if(kGCplotResolutionPtdPt = kTRUE){
+ // ::::::::::::::::::::::::::::::::::::::: histograms for gammas ::::::::::::::::::::::::::::::::::::::::::::::::::::::
+ histograms->AddHistogram("Resolution_Gamma_dPt_Pt" ,"" ,kGCnYBinsResdPt, kGCfirstXBinResdPt, kGClastXBinResdPt, kGCnYBinsResdPt, kGCfirstYBinResdPt, kGClastYBinResdPt, "", "");
+ histograms->AddHistogram("Resolution_Gamma_dPt_Phi" ,"" , kGCnYBinsResdR, -TMath::Pi(), TMath::Pi(), kGCnYBinsResdPt, kGCfirstYBinResdPt, kGClastYBinResdPt, "", "");
+
+ // ::::::::::::::::::::::::::::::::::::::: histograms for electrons :::::::::::::::::::::::::::::::::::::::::::::::::::
+ histograms->AddHistogram("Resolution_E_dPt_Pt" ,"" ,kGCnYBinsResdPt, kGCfirstXBinResdPt, kGClastXBinResdPt, kGCnYBinsResdPt, kGCfirstYBinResdPt, kGClastYBinResdPt, "", "");
+ histograms->AddHistogram("Resolution_E_dPt_Pt_ITS0" ,"" ,kGCnYBinsResdPt, kGCfirstXBinResdPt, kGClastXBinResdPt, kGCnYBinsResdPt, kGCfirstYBinResdPt, kGClastYBinResdPt, "", "");
+ histograms->AddHistogram("Resolution_E_dPt_Pt_ITS1" ,"" ,kGCnYBinsResdPt, kGCfirstXBinResdPt, kGClastXBinResdPt, kGCnYBinsResdPt, kGCfirstYBinResdPt, kGClastYBinResdPt, "", "");
+ histograms->AddHistogram("Resolution_E_dPt_Pt_ITS2" ,"" ,kGCnYBinsResdPt, kGCfirstXBinResdPt, kGClastXBinResdPt, kGCnYBinsResdPt, kGCfirstYBinResdPt, kGClastYBinResdPt, "", "");
+ histograms->AddHistogram("Resolution_E_dPt_Pt_ITS3" ,"" ,kGCnYBinsResdPt, kGCfirstXBinResdPt, kGClastXBinResdPt, kGCnYBinsResdPt, kGCfirstYBinResdPt, kGClastYBinResdPt, "", "");
+ histograms->AddHistogram("Resolution_E_dPt_Pt_ITS4" ,"" ,kGCnYBinsResdPt, kGCfirstXBinResdPt, kGClastXBinResdPt, kGCnYBinsResdPt, kGCfirstYBinResdPt, kGClastYBinResdPt, "", "");
+ histograms->AddHistogram("Resolution_E_dPt_Pt_ITS5" ,"" ,kGCnYBinsResdPt, kGCfirstXBinResdPt, kGClastXBinResdPt, kGCnYBinsResdPt, kGCfirstYBinResdPt, kGClastYBinResdPt, "", "");
+ histograms->AddHistogram("Resolution_E_dPt_Pt_ITS6" ,"" ,kGCnYBinsResdPt, kGCfirstXBinResdPt, kGClastXBinResdPt, kGCnYBinsResdPt, kGCfirstYBinResdPt, kGClastYBinResdPt, "", "");
+ histograms->AddHistogram("Resolution_E_dPt_Phi" ,"" , kGCnYBinsResdR, -TMath::Pi(), TMath::Pi(), kGCnYBinsResdPt, kGCfirstYBinResdPt, kGClastYBinResdPt, "", "");
+ histograms->AddHistogram("Resolution_E_nTRDtracklets_ESDPt" ,"" ,kGCnXBinsResdPt, kGCfirstXBinResdPt, kGClastXBinResdPt, 8, -0.5, 7.5,"", "");
+ histograms->AddHistogram("Resolution_E_nTRDtracklets_MCPt","" ,kGCnXBinsResdPt, kGCfirstXBinResdPt, kGClastXBinResdPt, 8, -0.5, 7.5,"", "");
+ histograms->AddHistogram("Resolution_E_nTRDclusters_ESDPt","",kGCnXBinsResdPt, kGCfirstXBinResdPt, kGClastXBinResdPt, 201, -0.5, 200.5,"", "");
+ histograms->AddHistogram("Resolution_E_nTRDclusters_MCPt","",kGCnXBinsResdPt, kGCfirstXBinResdPt, kGClastXBinResdPt, 201, -0.5, 200.5,"", "");
+ // histograms->AddHistogram("Resolution_E_TRDsignal_ESDPt","", fV0Reader->GetNegativeTrackPt(), fV0Reader->GetNegativeESDTrack()->GetTRDsignal());
+
+ // :::::::::::::::::::::::::::::::::::::::: histograms for positrons :::::::::::::::::::::::::::::::::::::::::::::::::::
+ histograms->AddHistogram("Resolution_P_dPt_Pt" ,"" , kGCnYBinsResdPt, kGCfirstXBinResdPt, kGClastXBinResdPt, kGCnYBinsResdPt, kGCfirstYBinResdPt, kGClastYBinResdPt, "", "");
+ histograms->AddHistogram("Resolution_P_dPt_Pt_ITS0" ,"" ,kGCnYBinsResdPt, kGCfirstXBinResdPt, kGClastXBinResdPt, kGCnYBinsResdPt, kGCfirstYBinResdPt, kGClastYBinResdPt, "", "");
+ histograms->AddHistogram("Resolution_P_dPt_Pt_ITS1" ,"" ,kGCnYBinsResdPt, kGCfirstXBinResdPt, kGClastXBinResdPt, kGCnYBinsResdPt, kGCfirstYBinResdPt, kGClastYBinResdPt, "", "");
+ histograms->AddHistogram("Resolution_P_dPt_Pt_ITS2" ,"" ,kGCnYBinsResdPt, kGCfirstXBinResdPt, kGClastXBinResdPt, kGCnYBinsResdPt, kGCfirstYBinResdPt, kGClastYBinResdPt, "", "");
+ histograms->AddHistogram("Resolution_P_dPt_Pt_ITS3" ,"" ,kGCnYBinsResdPt, kGCfirstXBinResdPt, kGClastXBinResdPt, kGCnYBinsResdPt, kGCfirstYBinResdPt, kGClastYBinResdPt, "", "");
+ histograms->AddHistogram("Resolution_P_dPt_Pt_ITS4" ,"" ,kGCnYBinsResdPt, kGCfirstXBinResdPt, kGClastXBinResdPt, kGCnYBinsResdPt, kGCfirstYBinResdPt, kGClastYBinResdPt, "", "");
+ histograms->AddHistogram("Resolution_P_dPt_Pt_ITS5" ,"" ,kGCnYBinsResdPt, kGCfirstXBinResdPt, kGClastXBinResdPt, kGCnYBinsResdPt, kGCfirstYBinResdPt, kGClastYBinResdPt, "", "");
+ histograms->AddHistogram("Resolution_P_dPt_Pt_ITS6" ,"" ,kGCnYBinsResdPt, kGCfirstXBinResdPt, kGClastXBinResdPt, kGCnYBinsResdPt, kGCfirstYBinResdPt, kGClastYBinResdPt, "", "");
+ histograms->AddHistogram("Resolution_P_dPt_Phi" ,"" , kGCnYBinsResdR, -TMath::Pi(), TMath::Pi(), kGCnYBinsResdPt, kGCfirstYBinResdPt, kGClastYBinResdPt, "", "");
+ histograms->AddHistogram("Resolution_P_nTRDtracklets_ESDPt" ,"" ,kGCnXBinsResdPt, kGCfirstXBinResdPt, kGClastXBinResdPt, 8, -0.5, 7.5,"", "");
+ histograms->AddHistogram("Resolution_P_nTRDtracklets_MCPt","", kGCnXBinsResdPt, kGCfirstXBinResdPt, kGClastXBinResdPt, 8, -0.5, 7.5,"", "");
+ histograms->AddHistogram("Resolution_P_nTRDclusters_ESDPt","",kGCnXBinsResdPt, kGCfirstXBinResdPt, kGClastXBinResdPt, 201, -0.5, 200.5,"", "");
+ histograms->AddHistogram("Resolution_P_nTRDclusters_MCPt","",kGCnXBinsResdPt, kGCfirstXBinResdPt, kGClastXBinResdPt, 201,-0.5, 200.5,"", "");
+ // histograms->AddHistogram("Resolution_P_TRDsignal_ESDPt", "",fV0Reader->GetPositiveTrackPt(), fV0Reader->GetPositiveESDTrack()->GetTRDsignal());
+ } //end of specific trigger study resolution plots
+ } //end if(kGCrunRES=true)
+
+ // ___________________________________________________________________________________________________________________________________________________
+
+ if(kGCplotEventQuality == kTRUE){histograms->AddHistogram("ESD_EventQuality","ESD_EventQuality",kGCnXBinsEvtQ,kGCfirstXBinEvtQ,kGClastXBinEvtQ,"","");}
+ if(kGCplotESDNumberOfV0s == kTRUE){histograms->AddHistogram("ESD_NumberOfV0s","Number of v0s",kGCnXBinsNV0,kGCfirstXBinNV0 ,kGClastXBinNV0 ,"","");}
+ if(kGCplotESDNumberOfSurvivingV0s == kTRUE){histograms->AddHistogram("ESD_NumberOfSurvivingV0s","Number of surviving v0s",kGCnXBinsNV0, kGCfirstXBinNV0 , kGClastXBinNV0,"","");}
+ if(kGCplotESDNumberOfContributorsVtx == kTRUE){histograms->AddHistogram("ESD_NumberOfContributorsVtx","Number of contributors to vertex",kGCnXBinsESDtrk, kGCfirstXBinESDtrk, kGClastXBinESDtrk,"","");}
+ if(kGCplotESDNumberOfGoodESDTracks == kTRUE){histograms->AddHistogram("ESD_NumberOfGoodESDTracks","Number of Good ESD tracks",kGCnXBinsESDtrk, kGCfirstXBinESDtrk, kGClastXBinESDtrk,"","");}
+ if(kGCplotESDNumberOfGoodESDTracks == kTRUE){histograms->AddHistogram("ESD_NumberOfGoodESDTracksVtx","Number of Good ESD tracks",kGCnXBinsESDtrk, kGCfirstXBinESDtrk, kGClastXBinESDtrk,"","");}
// debug histograms
if(kGCplotESDCutGetOnFly == kTRUE){histograms->AddHistogram("ESD_CutGetOnFly_InvMass" ,"Not GetOnFly" , kGCnXBinsGammaMass, kGCfirstXBinGammaMass, kGClastXBinGammaMass,"","");}
if(kGCplotESDCutRefit == kTRUE){histograms->AddHistogram("ESD_CutRefit_InvMass" ,"No TPC refit" , kGCnXBinsGammaMass, kGCfirstXBinGammaMass, kGClastXBinGammaMass,"","");}
if(kGCplotESDCutKink == kTRUE){histograms->AddHistogram("ESD_CutKink_InvMass" ,"Kinks" , kGCnXBinsGammaMass, kGCfirstXBinGammaMass, kGClastXBinGammaMass,"","");}
if(kGCplotESDCutPIDProb == kTRUE){histograms->AddHistogram("ESD_CutPIDProb_InvMass" ,"wrong TPC PID" , kGCnXBinsGammaMass, kGCfirstXBinGammaMass, kGClastXBinGammaMass,"","");}
+
+ if(kGCplotESDCutdedxSigmaElectronLine == kTRUE){histograms->AddHistogram("ESD_CutdEdxSigmaElectronLine_InvMass" ,"dedx ElectronLine" , kGCnXBinsGammaMass, kGCfirstXBinGammaMass, kGClastXBinGammaMass,"","");}
+ if(kGCplotESDCutdedxSigmaPionLine == kTRUE){histograms->AddHistogram("ESD_CutdEdxSigmaPionLine_InvMass" ,"dedx PionLine" , kGCnXBinsGammaMass, kGCfirstXBinGammaMass, kGClastXBinGammaMass,"","");}
+ if(kGCplotESDCutPionRejectionLowP==kTRUE){histograms->AddHistogram("ESD_CutPionRejectionLowP_InvMass" ,"dedx PionRejection LowP" , kGCnXBinsGammaMass, kGCfirstXBinGammaMass, kGClastXBinGammaMass,"","");}
+ if(kGCplotESDCutKaonRejectionLowP==kTRUE){histograms->AddHistogram("ESD_CutKaonRejectionLowP_InvMass" ,"dedx KaonRejection LowP" , kGCnXBinsGammaMass, kGCfirstXBinGammaMass, kGClastXBinGammaMass,"","");}
+ if(kGCplotESDCutQtGammaSelection==kTRUE){histograms->AddHistogram("ESD_CutQt_InvMass","ESD_CutQt_InvMass",kGCnXBinsGammaMass, kGCfirstXBinGammaMass, kGClastXBinGammaMass,"","");}
+ histograms->AddHistogram("ESD_CutTOFsigmaElec_InvMass", "ESD_CutTOFsigmaElec_InvMass",kGCnXBinsGammaMass, kGCfirstXBinGammaMass, kGClastXBinGammaMass,"",""); // RRnewTOF
+
+ if(kGCplotESDCutProtonRejectionLowP==kTRUE){histograms->AddHistogram("ESD_CutProtonRejectionLowP_InvMass" ,"dedx ProtonRejection LowP" , kGCnXBinsGammaMass, kGCfirstXBinGammaMass, kGClastXBinGammaMass,"","");}
if(kGCplotESDCutR == kTRUE){histograms->AddHistogram("ESD_CutR_InvMass" ,"Above RMax" , kGCnXBinsGammaMass, kGCfirstXBinGammaMass, kGClastXBinGammaMass,"","");}
+ if(kGCplotESDCutMinR == kTRUE){histograms->AddHistogram("ESD_CutMinR_InvMass" ,"Above RMax" , kGCnXBinsGammaMass, kGCfirstXBinGammaMass, kGClastXBinGammaMass,"","");}
if(kGCplotESDCutNDF == kTRUE){histograms->AddHistogram("ESD_CutNDF_InvMass" ,"NDF <= 0" , kGCnXBinsGammaMass, kGCfirstXBinGammaMass, kGClastXBinGammaMass,"","");}
if(kGCplotESDCutChi2 == kTRUE){histograms->AddHistogram("ESD_CutChi2_InvMass" ,"#chi^{2} > Max" , kGCnXBinsGammaMass, kGCfirstXBinGammaMass, kGClastXBinGammaMass,"","");}
if(kGCplotESDCutEta == kTRUE){histograms->AddHistogram("ESD_CutEta_InvMass" ,"Above #eta max" , kGCnXBinsGammaMass, kGCfirstXBinGammaMass, kGClastXBinGammaMass,"","");}
+ if(kGCplotESDCutSinglePt == kTRUE){histograms->AddHistogram("ESD_CutSinglePt_InvMass" ,"Below p_{t} min" , kGCnXBinsGammaMass, kGCfirstXBinGammaMass, kGClastXBinGammaMass,"","");}
if(kGCplotESDCutPt == kTRUE){histograms->AddHistogram("ESD_CutPt_InvMass" ,"Below p_{t} min" , kGCnXBinsGammaMass, kGCfirstXBinGammaMass, kGClastXBinGammaMass,"","");}
if(kGCplotESDCutLine == kTRUE){histograms->AddHistogram("ESD_CutLine_InvMass" ,"Out of reconstruction area" , kGCnXBinsGammaMass, kGCfirstXBinGammaMass, kGClastXBinGammaMass,"","");}
+ if(kGCplotESDCutZ == kTRUE){histograms->AddHistogram("ESD_CutZ_InvMass" ,"Out of reconstruction area" , kGCnXBinsGammaMass, kGCfirstXBinGammaMass, kGClastXBinGammaMass,"","");}
+ if(kGCplotESDCutMinClsTPC == kTRUE){histograms->AddHistogram("ESD_CutMinNClsTPC_InvMass" ,"Out of reconstruction area" , kGCnXBinsGammaMass, kGCfirstXBinGammaMass, kGClastXBinGammaMass,"","");}
+ if(kGCplotESDCutMinClsTPCToF == kTRUE){histograms->AddHistogram("ESD_CutMinNClsTPCToF_InvMass" ,"Out of reconstruction area" , kGCnXBinsGammaMass, kGCfirstXBinGammaMass, kGClastXBinGammaMass,"","");}
+ if(kGCplotESDCutPhotonAsymmetry== kTRUE){histograms->AddHistogram("ESD_CutPhotonAsymmetry_InvMass" ,"Out of reconstruction area" , kGCnXBinsGammaMass, kGCfirstXBinGammaMass, kGClastXBinGammaMass,"","");}
+
+ if(kGCplotESDGoodV0s == kTRUE){histograms->AddHistogram("ESD_GoodV0s_InvMass" ,"Good V0s" , kGCnXBinsGammaMass, kGCfirstXBinGammaMass, kGClastXBinGammaMass,"","");}
+ if(kGCplotESDAllV0s == kTRUE){histograms->AddHistogram("ESD_AllV0s_InvMass" ,"All V0s" , kGCnXBinsGammaMass, kGCfirstXBinGammaMass, kGClastXBinGammaMass,"","");}
+ if(kGCplotESDAllV0sCurrentFinder == kTRUE){histograms->AddHistogram("ESD_AllV0sCurrentFinder_InvMass" ,"All V0s Current Finder" , kGCnXBinsGammaMass, kGCfirstXBinGammaMass, kGClastXBinGammaMass,"","");}
+
+ if(kGCplotESDAllV0sCurrentFinderQtAlfa== kTRUE){ histograms->AddHistogram("ESD_AllV0sCurrentFinder_alfa_qt" ,"" ,kGCnXBinsP, kGCfirstXBinAlphaG, kGClastXBinAlpha,kGCnYBinsQt, kGCfirstYBinQt, kGClastYBinQt,"", "");}
+ if(kGCplotESDAllV0sCurrentFinderQtAlfa== kTRUE){ histograms->AddHistogram("ESD_AllV0sCurrentFinder_goodtracks_alfa_qt" ,"" ,kGCnXBinsP, kGCfirstXBinAlphaG, kGClastXBinAlpha,kGCnYBinsQt, kGCfirstYBinQt, kGClastYBinQt,"", "");}
+
if(kGCplotESDTrueConvGammaTrackLength == kTRUE){histograms->AddHistogram("ESD_TrueConvGamma_TrackLength","Track length of TrueConvGamma",kGCnXBinsTrackLength,kGCfirstXBinTrackLength,kGClastXBinTrackLength,"","");}
if(kGCplotESDTrueConvGammaTrackLengthVSInvMass == kTRUE){histograms->AddHistogram("ESD_TrueConvGamma_TrackLengthVSInvMass","Track length of TrueConvGamma vs Inv mass",kGCnXBinsTrackLength,kGCfirstXBinTrackLength,kGClastXBinTrackLength,kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt,"","");}
+
+ if(kGCplotOmegaSpectra == kTRUE){
+ histograms->AddHistogram("ESD_Omega_InvMass_vs_Pt" ,"Invariant Mass vs Pt" , kGCnXBinsSpectra, kGCfirstXBinSpectra, kGClastXBinSpectra,kGCnYBinsSpectra, kGCfirstYBinSpectra, kGClastYBinSpectra,"InvMass [GeV]","Pt [GeV]");
+ histograms->AddHistogram("ESD_Omega_InvMass","Invariant mass",kGCnXBinsSpectra,kGCfirstXBinSpectra, kGClastXBinSpectra,"InvMass [GeV]","Counts");
+ histograms->AddHistogram("ESD_Omega_Bck_InvMass_vs_Pt" ,"Invariant Mass vs Pt" , kGCnXBinsSpectra, kGCfirstXBinSpectra, kGClastXBinSpectra,kGCnYBinsSpectra, kGCfirstYBinSpectra, kGClastYBinSpectra,"InvMass [GeV]","Pt [GeV]");
+ histograms->AddHistogram("ESD_Omega_Bck_InvMass","Invariant mass",kGCnXBinsSpectra,kGCfirstXBinSpectra, kGClastXBinSpectra,"InvMass [GeV]","Counts");
+ histograms->AddHistogram("ESD_OmegaPipPinPi0_InvMass_vs_Pt" ,"Invariant Mass vs Pt" , kGCnXBinsSpectra, kGCfirstXBinSpectra, kGClastXBinSpectra,kGCnYBinsSpectra, kGCfirstYBinSpectra, kGClastYBinSpectra,"InvMass [GeV]","Pt [GeV]");
+ histograms->AddHistogram("ESD_OmegaPipPinPi0_InvMass","Invariant mass",kGCnXBinsSpectra,kGCfirstXBinSpectra, kGClastXBinSpectra,"InvMass [GeV]","Counts");
+
+ }
if(kGCplotPi0Spectra == kTRUE){
+ histograms->AddHistogram("ESD_Mother_alfa","Invariant mass",kGCnXBinsSpectra,kGCfirstXBinAlpha, kGClastXBinAlpha,"#alpha","Counts");
+ histograms->AddHistogram("ESD_Mother_alfa_Pi0","Invariant mass",kGCnXBinsSpectra,kGCfirstXBinAlpha, kGClastXBinAlpha,"#alpha","Counts");
+ histograms->AddHistogram("ESD_Mother_alfa_Eta","Invariant mass",kGCnXBinsSpectra,kGCfirstXBinAlpha, kGClastXBinAlpha,"#alpha","Counts");
+ histograms->AddHistogram("ESD_Background_alfa_Pi0","Invariant mass",kGCnXBinsSpectra,kGCfirstXBinAlpha, kGClastXBinAlpha,"#alpha","Counts");
+ histograms->AddHistogram("ESD_Background_alfa_Eta","Invariant mass",kGCnXBinsSpectra,kGCfirstXBinAlpha, kGClastXBinAlpha,"#alpha","Counts");
+ // histograms->AddHistogram("ESD_Mother_InvMass_vs_Pt" ,"Invariant Mass vs Pt" , kGCnXBinsSpectra, kGCfirstXBinSpectra, kGClastXBinSpectra,kGCnYBinsSpectra, kGCfirstYBinSpectra, kGClastYBinSpectra,"InvMass [GeV]","Pt [GeV]");
histograms->AddHistogram("ESD_Mother_InvMass_vs_Pt" ,"Invariant Mass vs Pt" , kGCnXBinsSpectra, kGCfirstXBinSpectra, kGClastXBinSpectra,kGCnYBinsSpectra, kGCfirstYBinSpectra, kGClastYBinSpectra,"InvMass [GeV]","Pt [GeV]");
+ histograms->AddHistogram("ESD_Mother_InvMass_vs_Pt_alpha" ,"Invariant Mass vs Pt" , kGCnXBinsSpectra, kGCfirstXBinSpectra, kGClastXBinSpectra,kGCnYBinsSpectra, kGCfirstYBinSpectra, kGClastYBinSpectra,"InvMass [GeV]","Pt [GeV]");
+ histograms->AddHistogram("ESD_Mother_InvMass_vs_E_alpha" ,"Invariant Mass vs E" , kGCnXBinsSpectra, kGCfirstXBinSpectra, kGClastXBinSpectra,kGCnYBinsSpectra, kGCfirstYBinSpectra, kGClastYBinSpectra,"InvMass [GeV]","E [GeV]");
histograms->AddHistogram("ESD_Mother_InvMass","Invariant mass",kGCnXBinsSpectra,kGCfirstXBinSpectra, kGClastXBinSpectra,"InvMass [GeV]","Counts");
+ histograms->AddHistogram("ESD_Mother_InvMass_1212","Invariant mass",kGCnXBinsSpectra,kGCfirstXBinSpectra, kGClastXBinSpectra,"InvMass [GeV]","Counts");
+ histograms->AddHistogram("ESD_Mother_InvMass_0912","Invariant mass",kGCnXBinsSpectra,kGCfirstXBinSpectra, kGClastXBinSpectra,"InvMass [GeV]","Counts");
+ histograms->AddHistogram("ESD_Mother_InvMass_0909","Invariant mass",kGCnXBinsSpectra,kGCfirstXBinSpectra, kGClastXBinSpectra,"InvMass [GeV]","Counts");
+ histograms->AddHistogram("ESD_Mother_InvMass_vs_Pt1212" ,"Invariant Mass vs Pt" , kGCnXBinsSpectra, kGCfirstXBinSpectra, kGClastXBinSpectra,kGCnYBinsSpectra, kGCfirstYBinSpectra, kGClastYBinSpectra,"InvMass [GeV]","Pt [GeV]");
+ histograms->AddHistogram("ESD_Mother_InvMass_vs_Pt0912" ,"Invariant Mass vs Pt" , kGCnXBinsSpectra, kGCfirstXBinSpectra, kGClastXBinSpectra,kGCnYBinsSpectra, kGCfirstYBinSpectra, kGClastYBinSpectra,"InvMass [GeV]","Pt [GeV]");
+ histograms->AddHistogram("ESD_Mother_InvMass_vs_Pt0909" ,"Invariant Mass vs Pt" , kGCnXBinsSpectra, kGCfirstXBinSpectra, kGClastXBinSpectra,kGCnYBinsSpectra, kGCfirstYBinSpectra, kGClastYBinSpectra,"InvMass [GeV]","Pt [GeV]");
+
+ if(kGCLowMemoryConsumption == kFALSE){
+ histograms->AddHistogram("ESD_Mother_InvMass_GammaConvPHOS","Invariant mass",kGCnXBinsSpectra,kGCfirstXBinSpectra, kGClastXBinSpectra,"InvMass [GeV]","Counts");
+ histograms->AddHistogram("ESD_Mother_InvMass_vs_Pt_GammaConvPHOS" ,"Invariant Mass vs Pt" , kGCnXBinsSpectra, kGCfirstXBinSpectra, kGClastXBinSpectra,kGCnYBinsSpectra, kGCfirstYBinSpectra, kGClastYBinSpectra,"InvMass [GeV]","Pt [GeV]");
+ histograms->AddHistogram("ESD_Mother_InvMass_GammaConvPHOS_OpanLow","Invariant mass",kGCnXBinsSpectra,kGCfirstXBinSpectra, kGClastXBinSpectra,"InvMass [GeV]","Counts");
+ histograms->AddHistogram("ESD_Mother_InvMass_GammaConvPHOS_OpanHigh","Invariant mass",kGCnXBinsSpectra,kGCfirstXBinSpectra, kGClastXBinSpectra,"InvMass [GeV]","Counts");
+
+ histograms->AddHistogram("ESD_Mother_InvMass_GammaConvEMCAL","Invariant mass",kGCnXBinsSpectra,kGCfirstXBinSpectra, kGClastXBinSpectra,"InvMass [GeV]","Counts");
+ histograms->AddHistogram("ESD_Mother_InvMass_GammaConvEMCAL_Bck","Invariant mass",kGCnXBinsSpectra,kGCfirstXBinSpectra, kGClastXBinSpectra,"InvMass [GeV]","Counts");
+
+ histograms->AddHistogram("ESD_Mother_InvMass_vs_Pt_GammaConvEMCAL" ,"Invariant Mass vs Pt" , kGCnXBinsSpectra, kGCfirstXBinSpectra, kGClastXBinSpectra,kGCnYBinsSpectra, kGCfirstYBinSpectra, kGClastYBinSpectra,"InvMass [GeV]","Pt [GeV]");
+ histograms->AddHistogram("ESD_Mother_InvMass_vs_Pt_GammaConvEMCAL_Bck" ,"Invariant Mass vs Pt" , kGCnXBinsSpectra, kGCfirstXBinSpectra, kGClastXBinSpectra,kGCnYBinsSpectra, kGCfirstYBinSpectra, kGClastYBinSpectra,"InvMass [GeV]","Pt [GeV]");
+
+ histograms->AddHistogram("ESD_Mother_InvMass_GammaConvEMCAL_OpanLow","Invariant mass",kGCnXBinsSpectra,kGCfirstXBinSpectra, kGClastXBinSpectra,"InvMass [GeV]","Counts");
+ histograms->AddHistogram("ESD_Mother_InvMass_GammaConvEMCAL_OpanHigh","Invariant mass",kGCnXBinsSpectra,kGCfirstXBinSpectra, kGClastXBinSpectra,"InvMass [GeV]","Counts");
+ }
+
+ // if(kGCdoNeutralMesonV0MCCheck == kTRUE){
+ histograms->AddHistogram("ESD_TrueBckGG_InvMass_vs_Pt","Invariant mass",kGCnXBinsSpectra,kGCfirstXBinSpectra, kGClastXBinSpectra,kGCnYBinsSpectra, kGCfirstYBinSpectra, kGClastYBinSpectra,"InvMass [GeV]","Counts");
+ histograms->AddHistogram("ESD_TrueBckCont_InvMass_vs_Pt","Invariant mass",kGCnXBinsSpectra,kGCfirstXBinSpectra, kGClastXBinSpectra,kGCnYBinsSpectra, kGCfirstYBinSpectra, kGClastYBinSpectra,"InvMass [GeV]","Counts");
+ histograms->AddHistogram("ESD_TruePi0Sec_InvMass_vs_Pt","Invariant mass vs Pt",kGCnXBinsSpectra,kGCfirstXBinSpectra, kGClastXBinSpectra,kGCnYBinsSpectra, kGCfirstYBinSpectra, kGClastYBinSpectra,"InvMass [GeV]","Counts");
+ histograms->AddHistogram("ESD_TruePi0DalitzCont_InvMass_vs_Pt","Invariant mass vs Pt",kGCnXBinsSpectra,kGCfirstXBinSpectra, kGClastXBinSpectra,kGCnYBinsSpectra, kGCfirstYBinSpectra, kGClastYBinSpectra,"InvMass [GeV]","Counts");
+ histograms->AddHistogram("ESD_TruePi0_InvMass","Invariant mass",kGCnXBinsSpectra,kGCfirstXBinSpectra, kGClastXBinSpectra,"InvMass [GeV]","Counts");
+ histograms->AddHistogram("ESD_TruePi0_InvMass_1212","Invariant mass",kGCnXBinsSpectra,kGCfirstXBinSpectra, kGClastXBinSpectra,"InvMass [GeV]","Counts");
+ histograms->AddHistogram("ESD_TruePi0_InvMass_0912","Invariant mass",kGCnXBinsSpectra,kGCfirstXBinSpectra, kGClastXBinSpectra,"InvMass [GeV]","Counts");
+ histograms->AddHistogram("ESD_TruePi0_InvMass_0909","Invariant mass",kGCnXBinsSpectra,kGCfirstXBinSpectra, kGClastXBinSpectra,"InvMass [GeV]","Counts");
+ histograms->AddHistogram("ESD_TruePi0_OpeningAngle_1212" ,"" , kGCnXBinsOpeningAngle, kGCfirstXBinOpeningAngle, kGClastXBinOpeningAngle, "", "");
+ histograms->AddHistogram("ESD_TruePi0_OpeningAngle_0912" ,"" , kGCnXBinsOpeningAngle, kGCfirstXBinOpeningAngle, kGClastXBinOpeningAngle, "", "");
+ histograms->AddHistogram("ESD_TruePi0_OpeningAngle_0909" ,"" , kGCnXBinsOpeningAngle, kGCfirstXBinOpeningAngle, kGClastXBinOpeningAngle, "", "");
+ histograms->AddHistogram("ESD_TruePi0_InvMass_vs_Pt" ,"Invariant Mass vs Pt" , kGCnXBinsSpectra, kGCfirstXBinSpectra, kGClastXBinSpectra,kGCnYBinsSpectra, kGCfirstYBinSpectra, kGClastYBinSpectra,"InvMass [GeV]","Pt [GeV]");
+histograms->AddHistogram("ESD_TruePi0_InvMass_vs_Pt_alpha" ,"Invariant Mass vs Pt" , kGCnXBinsSpectra, kGCfirstXBinSpectra, kGClastXBinSpectra,kGCnYBinsSpectra, kGCfirstYBinSpectra, kGClastYBinSpectra,"InvMass [GeV]","Pt [GeV]");
+
+ if(kGCLowMemoryConsumption == kFALSE){
+ histograms->AddHistogram("ESD_TruePi0_InvMass_vs_Pt1212" ,"Invariant Mass vs Pt" , kGCnXBinsSpectra, kGCfirstXBinSpectra, kGClastXBinSpectra,kGCnYBinsSpectra, kGCfirstYBinSpectra, kGClastYBinSpectra,"InvMass [GeV]","Pt [GeV]");
+ histograms->AddHistogram("ESD_TruePi0_InvMass_vs_Pt0912" ,"Invariant Mass vs Pt" , kGCnXBinsSpectra, kGCfirstXBinSpectra, kGClastXBinSpectra,kGCnYBinsSpectra, kGCfirstYBinSpectra, kGClastYBinSpectra,"InvMass [GeV]","Pt [GeV]");
+ histograms->AddHistogram("ESD_TruePi0_InvMass_vs_Pt0909" ,"Invariant Mass vs Pt" , kGCnXBinsSpectra, kGCfirstXBinSpectra, kGClastXBinSpectra,kGCnYBinsSpectra, kGCfirstYBinSpectra, kGClastYBinSpectra,"InvMass [GeV]","Pt [GeV]");
+
+ //}
+
+ histograms->AddHistogram("ESD_Mother_InvMass_vs_Pt_Fiducial" ,"Invariant Mass vs Pt |eta|<0.9" , kGCnXBinsSpectra, kGCfirstXBinSpectra, kGClastXBinSpectra,kGCnYBinsSpectra, kGCfirstYBinSpectra, kGClastYBinSpectra,"InvMass [GeV]","Pt [GeV]");
+ }
+ histograms->AddHistogram("ESD_Mother_InvMass_Fiducial","Invariant mass |eta|<0.9",kGCnXBinsSpectra,kGCfirstXBinSpectra, kGClastXBinSpectra,"InvMass [GeV]","Counts");
+
+
}
+
if(kGCplotPi0Spectra == kTRUE && kGCcalculateBackground == kTRUE){
+ for(Int_t m=0;m<6;m++){
+ histograms->AddHistogram(Form("%dESD_Mother_InvMass_vs_Pt",m) ,"Background Invariant Mass vs Pt" , kGCnXBinsSpectra, kGCfirstXBinSpectra, kGClastXBinSpectra,kGCnYBinsSpectra, kGCfirstYBinSpectra, kGClastYBinSpectra,"InvMass [GeV]","Pt [GeV]");
+ }
+ for(Int_t z=0;z<8;z++){
+ for(Int_t m=0;m<6;m++){
+ histograms->AddHistogram(Form("%d%dESD_Mother_InvMass_vs_Pt",z,m) ,"ESD Invariant Mass vs Pt" , kGCnXBinsSpectra, kGCfirstXBinSpectra, kGClastXBinSpectra,kGCnYBinsSpectra, kGCfirstYBinSpectra, kGClastYBinSpectra,"InvMass [GeV]","Pt [GeV]");
+
+ histograms->AddHistogram(Form("%d%dESD_Background_InvMass_vs_Pt",z,m) ,"Background Invariant Mass vs Pt" , kGCnXBinsSpectra, kGCfirstXBinSpectra, kGClastXBinSpectra,kGCnYBinsSpectra, kGCfirstYBinSpectra, kGClastYBinSpectra,"InvMass [GeV]","Pt [GeV]");
+
+
+ histograms->AddHistogram(Form("%d%dESD_Background_InvMass",z,m),"Invariant mass background",kGCnXBinsSpectra,kGCfirstXBinSpectra, kGClastXBinSpectra,"InvMass BG [GeV]","Counts");
+ histograms->AddHistogram(Form("%d%dESD_Mother_InvMass",z,m),"Invariant mass in z and m bins",kGCnXBinsSpectra,kGCfirstXBinSpectra, kGClastXBinSpectra,"InvMass BG [GeV]","Counts");
+
+
+ histograms->AddHistogram(Form("%d%dESD_Background_InvMassvsPtFid",z,m) ,"Background Invariant Mass vs Pt |eta|<0.9" , kGCnXBinsSpectra, kGCfirstXBinSpectra, kGClastXBinSpectra,kGCnYBinsSpectra, kGCfirstYBinSpectra, kGClastYBinSpectra,"InvMass [GeV]","Pt [GeV]");
+
+
+ histograms->AddHistogram(Form("%d%dESD_Background_InvMass_Fiducial",z,m),"Invariant mass background |eta|<0.9",kGCnXBinsSpectra,kGCfirstXBinSpectra, kGClastXBinSpectra,"InvMass BG [GeV]","Counts");
+ }
+ }
+
histograms->AddHistogram("ESD_Background_InvMass_vs_Pt" ,"Background Invariant Mass vs Pt" , kGCnXBinsSpectra, kGCfirstXBinSpectra, kGClastXBinSpectra,kGCnYBinsSpectra, kGCfirstYBinSpectra, kGClastYBinSpectra,"InvMass [GeV]","Pt [GeV]");
- histograms->AddHistogram("ESD_Background_InvMass","Invariant mass background",kGCnXBinsSpectra,kGCfirstXBinSpectra, kGClastXBinSpectra,"InvMass BG [GeV]","Counts");
+ histograms->AddHistogram("ESD_Background_InvMass_vs_Pt_alpha" ,"Background Invariant Mass vs Pt" , kGCnXBinsSpectra, kGCfirstXBinSpectra, kGClastXBinSpectra,kGCnYBinsSpectra, kGCfirstYBinSpectra, kGClastYBinSpectra,"InvMass [GeV]","Pt [GeV]");
+
+ histograms->AddHistogram("ESD_Background_InvMass_vs_E_alpha" ,"Background Invariant Mass vs E" , kGCnXBinsSpectra, kGCfirstXBinSpectra, kGClastXBinSpectra,kGCnYBinsSpectra, kGCfirstYBinSpectra, kGClastYBinSpectra,"InvMass [GeV]","E [GeV]");
+
+ histograms->AddHistogram("ESD_Background_InvMass","Invariant mass background",kGCnXBinsSpectra,kGCfirstXBinSpectra, kGClastXBinSpectra,"InvMass BG [GeV]","Counts");
+
+ histograms->AddHistogram("ESD_Background_InvMass_vs_Pt_Fiducial" ,"Background Invariant Mass vs Pt |eta|<0.9" , kGCnXBinsSpectra, kGCfirstXBinSpectra, kGClastXBinSpectra,kGCnYBinsSpectra, kGCfirstYBinSpectra, kGClastYBinSpectra,"InvMass [GeV]","Pt [GeV]");
+ histograms->AddHistogram("ESD_Background_InvMass_Fiducial","Invariant mass background |eta|<0.9",kGCnXBinsSpectra,kGCfirstXBinSpectra, kGClastXBinSpectra,"InvMass BG [GeV]","Counts");
+
}
+
+ if(kGCdoMCTruth){
+ if(kGCplotMCConversionR == kTRUE){ histograms->AddHistogram("MC_Conversion_R","Radius of gamma conversion points",kGCnXBinsR, kGCfirstXBinR, kGClastXBinR,"counts","cm");}
+ if(kGCplotMCConversionZR == kTRUE){ histograms->AddHistogram("MC_Conversion_ZR","Radius of gamma conversion points vs Z",kGCnXBinsZR, kGCfirstXBinZR, kGClastXBinZR, kGCnYBinsZR, kGCfirstYBinZR, kGClastYBinZR, "cm", "cm");}
+ if(kGCplotMCConversionXY == kTRUE){ histograms->AddHistogram("MC_Conversion_XY","Gamma XY converison point.",kGCnXBinsXY, kGCfirstXBinXY, kGClastXBinXY, kGCnYBinsXY, kGCfirstYBinXY, kGClastYBinXY, "cm", "cm");}
+ if(kGCplotMCConversionOpeningAngle == kTRUE){ histograms->AddHistogram("MC_Conversion_OpeningAngle","Opening angle of e+e- pairs from gamma conversion",kGCnXBinsOpeningAngle, kGCfirstXBinOpeningAngle, kGClastXBinOpeningAngle, "counts", "cm");}
+ if(kGCplotMCConvGammaEAsymmetryP== kTRUE){ histograms->AddHistogram("MC_ConvGamma_E_AsymmetryP" ,"" ,kGCnXBinsP, kGCfirstXBinP, kGClastXBinP,kGCnYBinsAsymmetry, kGCfirstYBinAsymmetry, kGClastYBinAsymmetry,"", "");}
+ if(kGCplotMCConvGammaPAsymmetryP== kTRUE){ histograms->AddHistogram("MC_ConvGamma_P_AsymmetryP" ,"" ,kGCnXBinsP, kGCfirstXBinP, kGClastXBinP,kGCnYBinsAsymmetry, kGCfirstYBinAsymmetry, kGClastYBinAsymmetry,"", "");}
+
+
+ if(kGCplotMCEEnergy == kTRUE){ histograms->AddHistogram("MC_E_Energy" ,"" , kGCnXBinsEnergy, kGCfirstXBinEnergy, kGClastXBinEnergy, "", "");}
+ if(kGCplotMCEPt == kTRUE){ histograms->AddHistogram("MC_E_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");}
+ if(kGCplotMCEEta == kTRUE){ histograms->AddHistogram("MC_E_Eta" ,"" , kGCnXBinsEta, kGCfirstXBinEta, kGClastXBinEta, "", "");}
+ if(kGCplotMCEPhi == kTRUE){ histograms->AddHistogram("MC_E_Phi" ,"" , kGCnXBinsPhi, kGCfirstXBinPhi, kGClastXBinPhi, "", "");}
+ if(kGCplotMCENTPCClusters == kTRUE){ histograms->AddHistogram("MC_E_nTPCClusters" ,"" , kGCnXBinsNTPCClusters, kGCfirstXBinNTPCClusters, kGClastXBinNTPCClusters, "", "");}
+ if(kGCplotMCENITSClusters == kTRUE){ histograms->AddHistogram("MC_E_nITSClusters" ,"" , kGCnXBinsNITSClusters, kGCfirstXBinNITSClusters, kGClastXBinNITSClusters, "", "");}
+
+ if(kGCplotMCPEnergy == kTRUE){ histograms->AddHistogram("MC_P_Energy" ,"" , kGCnXBinsEnergy, kGCfirstXBinEnergy, kGClastXBinEnergy, "", "");}
+ if(kGCplotMCPPt == kTRUE){ histograms->AddHistogram("MC_P_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");}
+ if(kGCplotMCPEta == kTRUE){ histograms->AddHistogram("MC_P_Eta" ,"" , kGCnXBinsEta, kGCfirstXBinEta, kGClastXBinEta, "", "");}
+ if(kGCplotMCPPhi == kTRUE){ histograms->AddHistogram("MC_P_Phi" ,"" , kGCnXBinsPhi, kGCfirstXBinPhi, kGClastXBinPhi, "", "");}
+ if(kGCplotMCPNTPCClusters == kTRUE){ histograms->AddHistogram("MC_P_nTPCClusters" ,"" , kGCnXBinsNTPCClusters, kGCfirstXBinNTPCClusters, kGClastXBinNTPCClusters, "", "");}
+ if(kGCplotMCPNITSClusters == kTRUE){ histograms->AddHistogram("MC_P_nITSClusters" ,"" , kGCnXBinsNITSClusters, kGCfirstXBinNITSClusters, kGClastXBinNITSClusters, "", "");}
+
+ if(kGCplotMCallGammaEnergy == kTRUE){ histograms->AddHistogram("MC_allGamma_Energy" ,"" , kGCnXBinsEnergy, kGCfirstXBinEnergy, kGClastXBinEnergy, "", "");}
+ if(kGCplotMCallGammaPt == kTRUE){ histograms->AddHistogram("MC_allGamma_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");}
+ if(kGCplotMCallGammaEta == kTRUE){ histograms->AddHistogram("MC_allGamma_Eta" ,"" , kGCnXBinsEta, kGCfirstXBinEta, kGClastXBinEta, "", "");}
+ if(kGCplotMCallGammaPhi == kTRUE){ histograms->AddHistogram("MC_allGamma_Phi" ,"" , kGCnXBinsPhi, kGCfirstXBinPhi, kGClastXBinPhi, "", "");}
+ if(kGCplotMCallGammaRapid == kTRUE){ histograms->AddHistogram("MC_allGamma_Rapid" ,"" , kGCnXBinsRapid, kGCfirstXBinRapid, kGClastXBinRapid, "", "");}
+
+ if(kGCplotMCConvGammaEnergy == kTRUE){ histograms->AddHistogram("MC_ConvGamma_Energy" ,"" , kGCnXBinsEnergy, kGCfirstXBinEnergy, kGClastXBinEnergy, "", "");}
+ if(kGCplotMCConvGammaPt == kTRUE){ histograms->AddHistogram("MC_ConvGamma_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");}
+ if(kGCplotMCConvGammaEta == kTRUE){ histograms->AddHistogram("MC_ConvGamma_Eta" ,"" , kGCnXBinsEta, kGCfirstXBinEta, kGClastXBinEta, "", "");}
+ if(kGCplotMCConvGammaPhi == kTRUE){ histograms->AddHistogram("MC_ConvGamma_Phi" ,"" , kGCnXBinsPhi, kGCfirstXBinPhi, kGClastXBinPhi, "", "");}
+ if(kGCplotMCConvGammaRapid == kTRUE){ histograms->AddHistogram("MC_ConvGamma_Rapid" ,"" , kGCnXBinsRapid, kGCfirstXBinRapid, kGClastXBinRapid, "", "");}
+ if(kGCplotMCConvGammaPtvsEta == kTRUE){ histograms->AddHistogram("MC_ConvGamma_Pt_Eta","", kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt,kGCnXBinsEta, kGCfirstXBinEta, kGClastXBinEta,"","");}
+
+ if(kGCplotMCallDirectGammaEnergy == kTRUE){ histograms->AddHistogram("MC_allDirectGamma_Energy" ,"" , kGCnXBinsEnergy, kGCfirstXBinEnergy, kGClastXBinEnergy, "", "");}
+ if(kGCplotMCallDirectGammaPt == kTRUE){ histograms->AddHistogram("MC_allDirectGamma_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");}
+ if(kGCplotMCallDirectGammaEta == kTRUE){ histograms->AddHistogram("MC_allDirectGamma_Eta" ,"" , kGCnXBinsEta, kGCfirstXBinEta, kGClastXBinEta, "", "");}
+ if(kGCplotMCallDirectGammaPhi == kTRUE){ histograms->AddHistogram("MC_allDirectGamma_Phi" ,"" , kGCnXBinsPhi, kGCfirstXBinPhi, kGClastXBinPhi, "", "");}
+ if(kGCplotMCallDirectGammaRapid == kTRUE){ histograms->AddHistogram("MC_allDirectGamma_Rapid" ,"" , kGCnXBinsRapid, kGCfirstXBinRapid, kGClastXBinRapid, "", "");}
+
+ if(kGCplotMCConvDirectGammaEnergy == kTRUE){ histograms->AddHistogram("MC_ConvDirectGamma_Energy" ,"" , kGCnXBinsEnergy, kGCfirstXBinEnergy, kGClastXBinEnergy, "", "");}
+ if(kGCplotMCConvDirectGammaPt == kTRUE){ histograms->AddHistogram("MC_ConvDirectGamma_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");}
+ if(kGCplotMCConvDirectGammaEta == kTRUE){ histograms->AddHistogram("MC_ConvDirectGamma_Eta" ,"" , kGCnXBinsEta, kGCfirstXBinEta, kGClastXBinEta, "", "");}
+ if(kGCplotMCConvDirectGammaPhi == kTRUE){ histograms->AddHistogram("MC_ConvDirectGamma_Phi" ,"" , kGCnXBinsPhi, kGCfirstXBinPhi, kGClastXBinPhi, "", "");}
+ if(kGCplotMCConvDirectGammaRapid == kTRUE){ histograms->AddHistogram("MC_ConvDirectGamma_Rapid" ,"" , kGCnXBinsRapid, kGCfirstXBinRapid, kGClastXBinRapid, "", "");}
+
+ if(kGCplotMCMotherEta == kTRUE){ histograms->AddHistogram("MC_Mother_Eta" ,"" , kGCnXBinsEta, kGCfirstXBinEta, kGClastXBinEta, "", "");}
+ if(kGCplotMCMotherPhi == kTRUE){ histograms->AddHistogram("MC_Mother_Phi" ,"" , kGCnXBinsPhi, kGCfirstXBinPhi, kGClastXBinPhi, "", "");}
+ if(kGCplotMCMotherRapid == kTRUE){ histograms->AddHistogram("MC_Mother_Rapid" ,"" , kGCnXBinsRapid, kGCfirstXBinRapid, kGClastXBinRapid, "", "");}
+ if(kGCplotMCMotherPt == kTRUE){ histograms->AddHistogram("MC_Mother_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");}
+ if(kGCplotMCMotherEnergy == kTRUE){ histograms->AddHistogram("MC_Mother_Energy" ,"" , kGCnXBinsEnergy, kGCfirstXBinEnergy, kGClastXBinEnergy, "", "");}
+ if(kGCplotMCMotherMass == kTRUE){ histograms->AddHistogram("MC_Mother_Mass" ,"" , kGCnXBinsGammaMass, kGCfirstXBinGammaMass, kGClastXBinGammaMass, "", "");}
+ if(kGCplotMCMotherOpeningAngle == kTRUE){ histograms->AddHistogram("MC_Mother_GammaDaughter_OpeningAngle" ,"" , kGCnXBinsOpeningAngle, kGCfirstXBinOpeningAngle, kGClastXBinOpeningAngle, "", "");}
+ if(kGCplotMCMotherR == kTRUE){ histograms->AddHistogram("MC_Mother_R" ,"" , kGCnXBinsR, kGCfirstXBinR, kGClastXBinR, "", "");}
+ if(kGCplotMCMotherZR == kTRUE){ histograms->AddHistogram("MC_Mother_ZR" ,"" , kGCnXBinsZR, kGCfirstXBinZR, kGClastXBinZR, kGCnYBinsZR, kGCfirstYBinZR, kGClastYBinZR, "", "");}
+ if(kGCplotMCMotherXY == kTRUE){ histograms->AddHistogram("MC_Mother_XY" ,"" , kGCnXBinsXY, kGCfirstXBinXY, kGClastXBinXY, kGCnYBinsXY, kGCfirstYBinXY, kGClastYBinXY, "", "");}
+ if(kGCplotMCMotherPtvsEtaWithinAcceptance == kTRUE){ histograms->AddHistogram("MC_Mother_Pt_Eta_withinAcceptance" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, kGCnXBinsEta, kGCfirstXBinEta, kGClastXBinEta, "", "");}
+ if(kGCplotMCMotherPtvsRapidWithinAcceptance == kTRUE){ histograms->AddHistogram("MC_Mother_Pt_Rapid_withinAcceptance" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, kGCnXBinsRapid, kGCfirstXBinRapid, kGClastXBinRapid, "", "");}
+ if(kGCplotMCMotherPtvsEtaConvGammaWithinAcceptance == kTRUE){ histograms->AddHistogram("MC_Mother_Pt_Eta_ConvGamma_withinAcceptance" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, kGCnXBinsEta, kGCfirstXBinEta, kGClastXBinEta, "", "");}
+ if(kGCplotMCMotherPtvsRapidConvGammaWithinAcceptance == kTRUE){ histograms->AddHistogram("MC_Mother_Pt_Rapid_ConvGamma_withinAcceptance" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, kGCnXBinsRapid, kGCfirstXBinRapid, kGClastXBinRapid, "", "");}
+
+ if(kGCplotMCMotherSpectra == kTRUE){
+ histograms->AddHistogram("MC_Mother_InvMass_vs_Pt" ,"" ,kGCnXBinsSpectra, kGCfirstXBinSpectra, kGClastXBinSpectra, kGCnYBinsSpectra, kGCfirstYBinSpectra, kGClastYBinSpectra, "", "");
+ histograms->AddHistogram("MC_Mother_InvMass_vs_Pt_withinAcceptance" ,"" ,kGCnXBinsSpectra, kGCfirstXBinSpectra, kGClastXBinSpectra, kGCnYBinsSpectra, kGCfirstYBinSpectra, kGClastYBinSpectra, "", "");
+ histograms->AddHistogram("MC_Mother_InvMass_vs_Pt_ConvGamma_withinAcceptance" ,"" ,kGCnXBinsSpectra, kGCfirstXBinSpectra, kGClastXBinSpectra, kGCnYBinsSpectra, kGCfirstYBinSpectra, kGClastYBinSpectra, "", "");
+ }
+
+ if(kGCplotMCPhysicalPrimaryChargedPt == kTRUE){ histograms->AddHistogram("MC_PhysicalPrimaryCharged_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");}
+ if(kGCplotMCPi0Eta == kTRUE){ histograms->AddHistogram("MC_Pi0_Eta" ,"" , kGCnXBinsEta, kGCfirstXBinEta, kGClastXBinEta, "", "");}
+ if(kGCplotMCPi0Rapid == kTRUE){ histograms->AddHistogram("MC_Pi0_Rapid" ,"" , kGCnXBinsRapid, kGCfirstXBinRapid, kGClastXBinRapid, "", "");}
+ if(kGCplotMCPi0PtvsRapid == kTRUE){ histograms->AddHistogram("MC_Pi0_Pt_vs_Rapid" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, kGCnXBinsRapid, kGCfirstXBinRapid, kGClastXBinRapid, "", "");}
+ if(kGCplotMCPi0PtvsRapid == kTRUE){ histograms->AddHistogram("MC_Pi0_Pt_vs_Rapid_allDaughters" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, kGCnXBinsRapid, kGCfirstXBinRapid, kGClastXBinRapid, "", "");} // RR primary Pi0 debug
+ if(kGCplotMCPi0Phi == kTRUE){ histograms->AddHistogram("MC_Pi0_Phi" ,"" , kGCnXBinsPhi, kGCfirstXBinPhi, kGClastXBinPhi, "", "");}
+ if(kGCplotMCPi0Pt == kTRUE){ histograms->AddHistogram("MC_Pi0_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");}
+
+ if(kGCplotMCPi0Pt == kTRUE){ histograms->AddHistogram("MC_SD_EvtQ1_Pi0_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");}
+ if(kGCplotMCPi0Pt == kTRUE){ histograms->AddHistogram("MC_SD_EvtQ2_Pi0_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");}
+ if(kGCplotMCPi0Pt == kTRUE){ histograms->AddHistogram("MC_SD_EvtQ3_Pi0_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");}
+ if(kGCplotMCPi0Pt == kTRUE){ histograms->AddHistogram("MC_SD_EvtQ4_Pi0_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");}
+ if(kGCplotMCPi0Pt == kTRUE){ histograms->AddHistogram("MC_SD_EvtQ5_Pi0_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");}
+
+ if(kGCplotMCPi0Pt == kTRUE){ histograms->AddHistogram("MC_DD_EvtQ1_Pi0_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");}
+ if(kGCplotMCPi0Pt == kTRUE){ histograms->AddHistogram("MC_DD_EvtQ2_Pi0_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");}
+ if(kGCplotMCPi0Pt == kTRUE){ histograms->AddHistogram("MC_DD_EvtQ3_Pi0_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");}
+ if(kGCplotMCPi0Pt == kTRUE){ histograms->AddHistogram("MC_DD_EvtQ4_Pi0_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");}
+ if(kGCplotMCPi0Pt == kTRUE){ histograms->AddHistogram("MC_DD_EvtQ5_Pi0_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");}
+
+
+ if(kGCplotMCPi0Pt == kTRUE){ histograms->AddHistogram("MC_ND_EvtQ1_Pi0_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");}
+ if(kGCplotMCPi0Pt == kTRUE){ histograms->AddHistogram("MC_ND_EvtQ2_Pi0_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");}
+ if(kGCplotMCPi0Pt == kTRUE){ histograms->AddHistogram("MC_ND_EvtQ3_Pi0_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");}
+ if(kGCplotMCPi0Pt == kTRUE){ histograms->AddHistogram("MC_ND_EvtQ4_Pi0_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");}
+ if(kGCplotMCPi0Pt == kTRUE){ histograms->AddHistogram("MC_ND_EvtQ5_Pi0_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");}
+
+ if(kGCplotMCPi0PtFiducial == kTRUE){ histograms->AddHistogram("MC_Pi0_Pt_Fiducial" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");}
+ if(kGCplotMCPi0PtWithinAcceptanceFiducial == kTRUE){ histograms->AddHistogram("MC_Pi0_Pt_withinAcceptance_Fiducial" ,"" , kGCnXBinsPt,kGCfirstXBinPt, kGClastXBinPt, "", "");}
+ if(kGCplotMCPi0PtConvGammaWithinAcceptanceFiducial == kTRUE){ histograms->AddHistogram("MC_Pi0_Pt_ConvGamma_withinAcceptance_Fiducial","" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");}
+ if(kGCplotMCPi0OpeningPtConvGammaWithinAcceptance == kTRUE){ histograms->AddHistogram("MC_Pi0_ConvGamma_OpeningAngle_Pt","", kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, kGCnXBinsOpeningAngle, kGCfirstXBinOpeningAngle, kGClastXBinOpeningAngle, "", "");}
+ if(kGCplotMCPi0PtGammaPtConvGammaWithinAcceptance == kTRUE){ histograms->AddHistogram("MC_Pi0_ConvGamma_PtGamma_Pt","", kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");}
+ if(kGCplotMCPi0Energy == kTRUE){ histograms->AddHistogram("MC_Pi0_Energy" ,"" , kGCnXBinsEnergy, kGCfirstXBinEnergy, kGClastXBinEnergy, "", "");}
+ if(kGCplotMCPi0Mass == kTRUE){ histograms->AddHistogram("MC_Pi0_Mass" ,"" , kGCnXBinsPi0Mass, kGCfirstXBinPi0Mass, kGClastXBinPi0Mass, "", "");}
+ if(kGCplotMCPi0Alpha == kTRUE){ histograms->AddHistogram("MC_Pi0_alpha" ,"" , kGCnXBinsPi0Mass, kGCfirstXBinPi0Alpha, kGClastXBinPi0Alpha, "", "");}
+ if(kGCplotMCEtaAlpha == kTRUE){ histograms->AddHistogram("MC_Eta_alpha" ,"" , kGCnXBinsPi0Mass, kGCfirstXBinPi0Alpha, kGClastXBinPi0Alpha, "", "");}
+ if(kGCplotMCPi0OpeningAngle == kTRUE){ histograms->AddHistogram("MC_Pi0_GammaDaughter_OpeningAngle" ,"" , kGCnXBinsOpeningAngle, kGCfirstXBinOpeningAngle, kGClastXBinOpeningAngle, "", "");}
+ if(kGCplotMCPi0R == kTRUE){ histograms->AddHistogram("MC_Pi0_R" ,"" , kGCnXBinsR, kGCfirstXBinR, kGClastXBinR, "", "");}
+ if(kGCplotMCPi0ZR == kTRUE){ histograms->AddHistogram("MC_Pi0_ZR" ,"" , kGCnXBinsZR, kGCfirstXBinZR, kGClastXBinZR, kGCnYBinsZR, kGCfirstYBinZR, kGClastYBinZR, "", "");}
+ if(kGCplotMCPi0XY == kTRUE){ histograms->AddHistogram("MC_Pi0_XY" ,"" , kGCnXBinsXY, kGCfirstXBinXY, kGClastXBinXY, kGCnYBinsXY, kGCfirstYBinXY, kGClastYBinXY, "", "");}
+ if(kGCplotMCPi0PtvsEtaWithinAcceptance == kTRUE){ histograms->AddHistogram("MC_Pi0_Pt_Eta_withinAcceptance" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, kGCnXBinsEta, kGCfirstXBinEta, kGClastXBinEta, "", "");}
+ if(kGCplotMCPi0PtvsRapidWithinAcceptance == kTRUE){ histograms->AddHistogram("MC_Pi0_Pt_Rapid_withinAcceptance" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, kGCnXBinsRapid, kGCfirstXBinRapid, kGClastXBinRapid, "", "");}
+ if(kGCplotMCPi0PtvsEtaConvGammaWithinAcceptance == kTRUE){ histograms->AddHistogram("MC_Pi0_Pt_Eta_ConvGamma_withinAcceptance" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, kGCnXBinsEta, kGCfirstXBinEta, kGClastXBinEta, "", "");}
+ if(kGCplotMCPi0PtvsRapidConvGammaWithinAcceptance == kTRUE){ histograms->AddHistogram("MC_Pi0_Pt_Rapid_ConvGamma_withinAcceptance" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, kGCnXBinsRapid, kGCfirstXBinRapid, kGClastXBinRapid, "", "");}
+ if(kGCplotMCPi0ZRConvGammaWithinAcceptance == kTRUE){ histograms->AddHistogram("MC_Pi0_ZR_ConvGamma_withinAcceptance" ,"" , kGCnXBinsZR, kGCfirstXBinZR, kGClastXBinZR, kGCnYBinsZR, kGCfirstYBinZR, kGClastYBinZR, "", "");}
+
+
+ if(kGCplotMCPi0SecondaryEta == kTRUE){ histograms->AddHistogram("MC_Pi0_Secondaries_Eta" ,"" , kGCnXBinsEta, kGCfirstXBinEta, kGClastXBinEta, "", "");}
+ if(kGCplotMCPi0SecondaryRapid == kTRUE){ histograms->AddHistogram("MC_Pi0_Secondaries_Rapid" ,"" , kGCnXBinsRapid, kGCfirstXBinRapid, kGClastXBinRapid, "", "");}
+ if(kGCplotMCPi0SecondaryPhi == kTRUE){ histograms->AddHistogram("MC_Pi0_Secondaries_Phi" ,"" , kGCnXBinsPhi, kGCfirstXBinPhi, kGClastXBinPhi, "", "");}
+ if(kGCplotMCPi0SecondaryPt == kTRUE){ histograms->AddHistogram("MC_Pi0_Secondaries_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");}
+ if(kGCplotMCPi0SecondaryEnergy == kTRUE){ histograms->AddHistogram("MC_Pi0_Secondaries_Energy" ,"" , kGCnXBinsEnergy, kGCfirstXBinEnergy, kGClastXBinEnergy, "", "");}
+ if(kGCplotMCPi0SecondaryMass == kTRUE){ histograms->AddHistogram("MC_Pi0_Secondaries_Mass" ,"" , kGCnXBinsPi0Mass, kGCfirstXBinPi0Mass, kGClastXBinPi0Mass, "", "");}
+ if(kGCplotMCPi0SecondaryOpeningAngle == kTRUE){ histograms->AddHistogram("MC_Pi0_Secondaries_GammaDaughter_OpeningAngle" ,"" , kGCnXBinsOpeningAngle, kGCfirstXBinOpeningAngle, kGClastXBinOpeningAngle, "", "");}
+ if(kGCplotMCPi0SecondaryR == kTRUE){ histograms->AddHistogram("MC_Pi0_Secondaries_R" ,"" , kGCnXBinsR, kGCfirstXBinR, kGClastXBinR, "", "");}
+ if(kGCplotMCPi0SecondaryZR == kTRUE){ histograms->AddHistogram("MC_Pi0_Secondaries_ZR" ,"" , kGCnXBinsZR, kGCfirstXBinZR, kGClastXBinZR, kGCnYBinsZR, kGCfirstYBinZR, kGClastYBinZR, "", "");}
+ if(kGCplotMCPi0SecondaryXY == kTRUE){ histograms->AddHistogram("MC_Pi0_Secondaries_XY" ,"" , kGCnXBinsXY, kGCfirstXBinXY, kGClastXBinXY, kGCnYBinsXY, kGCfirstYBinXY, kGClastYBinXY, "", "");}
+ if(kGCplotMCPi0SecondaryPtvsEtaWithinAcceptance == kTRUE){ histograms->AddHistogram("MC_Pi0_Secondaries_Pt_Eta_withinAcceptance" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, kGCnXBinsEta, kGCfirstXBinEta, kGClastXBinEta, "", "");}
+ if(kGCplotMCPi0SecondaryPtvsRapidWithinAcceptance == kTRUE){ histograms->AddHistogram("MC_Pi0_Secondaries_Pt_Rapid_withinAcceptance" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, kGCnXBinsRapid, kGCfirstXBinRapid, kGClastXBinRapid, "", "");}
+ if(kGCplotMCPi0SecondaryPtvsEtaConvGammaWithinAcceptance == kTRUE){ histograms->AddHistogram("MC_Pi0_Secondaries_Pt_Eta_ConvGamma_withinAcceptance" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, kGCnXBinsEta, kGCfirstXBinEta, kGClastXBinEta, "", "");}
+ if(kGCplotMCPi0SecondaryPtvsRapidConvGammaWithinAcceptance == kTRUE){ histograms->AddHistogram("MC_Pi0_Secondaries_Pt_Rapid_ConvGamma_withinAcceptance" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, kGCnXBinsRapid, kGCfirstXBinRapid, kGClastXBinRapid, "", "");}
+
+
+
+ if(kGCplotMCEtaEta == kTRUE){ histograms->AddHistogram("MC_Eta_Eta" ,"" , kGCnXBinsEta, kGCfirstXBinEta, kGClastXBinEta, "", "");}
+ if(kGCplotMCEtaRapid == kTRUE){ histograms->AddHistogram("MC_Eta_Rapid" ,"" , kGCnXBinsRapid, kGCfirstXBinRapid, kGClastXBinRapid, "", "");}
+ if(kGCplotMCEtaPtvsRapid == kTRUE){ histograms->AddHistogram("MC_Eta_Pt_vs_Rapid" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, kGCnXBinsRapid, kGCfirstXBinRapid, kGClastXBinRapid, "", "");}
+ if(kGCplotMCEtaPhi == kTRUE){ histograms->AddHistogram("MC_Eta_Phi" ,"" , kGCnXBinsPhi, kGCfirstXBinPhi, kGClastXBinPhi, "", "");}
+ if(kGCplotMCEtaPt == kTRUE){ histograms->AddHistogram("MC_Eta_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");}
+ if(kGCplotMCEtaEnergy == kTRUE){ histograms->AddHistogram("MC_Eta_Energy" ,"" , kGCnXBinsEnergy, kGCfirstXBinEnergy, kGClastXBinEnergy, "", "");}
+ if(kGCplotMCEtaMass == kTRUE){ histograms->AddHistogram("MC_Eta_Mass" ,"" , kGCnXBinsEtaMass, kGCfirstXBinEtaMass, kGClastXBinEtaMass, "", "");}
+ if(kGCplotMCEtaOpeningAngleGamma == kTRUE){ histograms->AddHistogram("MC_Eta_GammaDaughter_OpeningAngle" ,"" , kGCnXBinsOpeningAngle, kGCfirstXBinOpeningAngle, kGClastXBinOpeningAngle, "", "");}
+ if(kGCplotMCEtaR == kTRUE){ histograms->AddHistogram("MC_Eta_R" ,"" , kGCnXBinsR, kGCfirstXBinR, kGClastXBinR, "", "");}
+ if(kGCplotMCEtaZR == kTRUE){ histograms->AddHistogram("MC_Eta_ZR" ,"" , kGCnXBinsZR, kGCfirstXBinZR, kGClastXBinZR, kGCnYBinsZR, kGCfirstYBinZR, kGClastYBinZR, "", "");}
+ if(kGCplotMCEtaXY == kTRUE){ histograms->AddHistogram("MC_Eta_XY" ,"" , kGCnXBinsXY, kGCfirstXBinXY, kGClastXBinXY, kGCnYBinsXY, kGCfirstYBinXY, kGClastYBinXY, "", "");}
+ if(kGCplotMCEtaPtvsEtaWithinAcceptance == kTRUE){ histograms->AddHistogram("MC_Eta_Pt_Eta_withinAcceptance" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, kGCnXBinsEta, kGCfirstXBinEta, kGClastXBinEta, "", "");}
+ if(kGCplotMCEtaPtvsRapidWithinAcceptance == kTRUE){ histograms->AddHistogram("MC_Eta_Pt_Rapid_withinAcceptance" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, kGCnXBinsRapid, kGCfirstXBinRapid, kGClastXBinRapid, "", "");}
+ if(kGCplotMCEtaPtvsEtaConvGammaWithinAcceptance == kTRUE){ histograms->AddHistogram("MC_Eta_Pt_Eta_ConvGamma_withinAcceptance" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, kGCnXBinsEta, kGCfirstXBinEta, kGClastXBinEta, "", "");}
+ if(kGCplotMCEtaPtvsRapidConvGammaWithinAcceptance == kTRUE){ histograms->AddHistogram("MC_Eta_Pt_Rapid_ConvGamma_withinAcceptance" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, kGCnXBinsRapid, kGCfirstXBinRapid, kGClastXBinRapid, "", "");}
+ if(kGCplotMCEtaZRConvGammaWithinAcceptance == kTRUE){ histograms->AddHistogram("MC_Eta_ZR_ConvGamma_withinAcceptance" ,"" , kGCnXBinsZR, kGCfirstXBinZR, kGClastXBinZR, kGCnYBinsZR, kGCfirstYBinZR, kGClastYBinZR, "", "");}
+ }
+ if(kGCplotMCEtaOpeningPtConvGammaWithinAcceptance == kTRUE){ histograms->AddHistogram("MC_Eta_ConvGamma_OpeningAngle_Pt","", kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, kGCnXBinsOpeningAngle, kGCfirstXBinOpeningAngle, kGClastXBinOpeningAngle, "", "");}
+ if(kGCplotMCEtaPtGammaPtConvGammaWithinAcceptance == kTRUE){ histograms->AddHistogram("MC_Eta_ConvGamma_PtGamma_Pt","", kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");}
}// end kGCrunNeutralMeson
+
+
+ //--------------------------------------------------- 2 gamma Background -------------------------------------------------------
+
+ if(kGCcalculateBackground==kTRUE){
+ histograms->AddHistogram("ESD_GlobalPrimaryVtxZ","Z primary vertex Global",300, -15., 15.,"Z[cm]","counts");
+ histograms->AddHistogram("ESD_SPDPrimaryVtxZ","Z primary vertex SPD",300, -15., 15.,"Z[cm]","counts");
+ histograms->AddHistogram("ESD_Z_distribution" ,"Z primary vertex" , 2000, -30, 30,"Z[cm]","counts");
+ histograms->AddHistogram("ESD_multiplicity_distribution" ,"multiplicity distribution" , 200, 0, 200,"counts","Multiplicity");
+ histograms->AddHistogram("ESD_ZvsMultiplicity" ,"Z vs Multiplicity" , 1000, -10, 10,200,0,200,"Z[cm]","Multiplicity");
+ }
+
+ if(kGCRecalculateV0ForGamma==kTRUE){
+ histograms->AddHistogram("ESD_RecalculateV0_InvMass","", kGCnXBinsGammaMass, kGCfirstXBinGammaMass, kGClastXBinGammaMass,"","");
+ histograms->AddHistogram("ESD_RecalculateV0_Pt","",kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");
+ histograms->AddHistogram("ESD_RecalculateV0_E_dEdxP","",kGCnXBinsP, kGCfirstXBinP, kGClastXBinP,kGCnYBinsdEdx, kGCfirstYBindEdx, kGClastYBindEdx,"", "",0);
+ histograms->AddHistogram("ESD_RecalculateV0_P_dEdxP","",kGCnXBinsP, kGCfirstXBinP, kGClastXBinP,kGCnYBinsdEdx, kGCfirstYBindEdx, kGClastYBindEdx,"", "",0);
+ histograms->AddHistogram("ESD_RecalculateV0_cpa","",1000,-1.,1.,"","");
+ histograms->AddHistogram("ESD_RecalculateV0_dca","",100,0.,10.,"","");
+ histograms->AddHistogram("ESD_RecalculateV0_Rr","",250,0.,250.,"","");
+ histograms->AddHistogram("ESD_RecalculateV0_normdistP","",250,0.,250.,"","");
+ histograms->AddHistogram("ESD_RecalculateV0_normdistN","",250,0.,250.,"","");
+
+ histograms->AddHistogram("ESD_RecalculateGG_InvMass","",kGCnXBinsSpectra,kGCfirstXBinSpectra, kGClastXBinSpectra,"InvMass [GeV]","Counts");
+ histograms->AddHistogram("ESD_RecalculateGG_InvMass_vs_Pt","", kGCnXBinsSpectra, kGCfirstXBinSpectra, kGClastXBinSpectra,kGCnYBinsSpectra, kGCfirstYBinSpectra, kGClastYBinSpectra,"InvMass [GeV]","Pt [GeV]");
+
+ }
+
+
}
+
+
+
+Int_t SetAnalysisCutSelection(TString analysisCutSelection){
+ Int_t iResult=0;
+
+ // set the cuts depending on the Cut Selection Id
+ // first number is dummy always set to 9
+ // const char* cutSelection = analysisCutSelection.Data();
+ if(analysisCutSelection.Length()!=c_array_size){
+ cout<<"Cut selection has the wrong length!"<<endl;
+ return 0;
+ }
+
+ char cutSelection[] = analysisCutSelection.Data();
+ int array[c_array_size];
+ const int N = sizeof(array) / sizeof(int);
+ string2array( cutSelection, array );
+
+
+
+ Int_t goodId=array[0];
+ Int_t v0FinderType=array[1];
+ Int_t eProbCut=array[2];
+ Int_t ededxSigmaCut=array[3];
+ Int_t pidedxSigmaCut=array[4];
+ Int_t piMomdedxSigmaCut=array[5];
+ Int_t chi2GammaCut=array[6];
+ Int_t singlePtCut=array[7];
+ Int_t clsTPCCut=array[8];
+ Int_t etaCut=array[9];
+ Int_t chi2MesonCut=array[10];
+ Int_t LowPRejectionSigmaCut=array[11];
+ Int_t QtMaxCut=array[12];
+ Int_t piMaxMomdedxSigmaCut=array[13];
+ Int_t alphaMesonCut=array[14];
+ Int_t minRCut=array[15];
+ Int_t RapidityMesonCut=array[16];
+ Int_t BackgroundScheme=array[17];
+ Int_t DegreesForRotationMethod=array[18];
+ Int_t NumberOfRotations=array[19];
+ Int_t removePileUp=array[20];
+ Int_t selectV0AND=array[21];
+ Int_t multiplicityBin=array[22];
+ Int_t isHeavyIon=array[23];
+ Int_t useCentrality=array[24];
+ Int_t centralityBin=array[25];
+ Int_t TOFelectronPID=array[26]; // RRnewTOF
+ Int_t useMCPSmearing=array[27];
+ Int_t doPhotonAsymmetryCut=array[28];
+
+ cout<<"doPhotonAsymmetryCut::"<<doPhotonAsymmetryCut<<endl;
+ cout<<"useMCPSmearing::"<<useMCPSmearing<<endl;
+ cout<<"TOFelectronPID: "<<TOFelectronPID<<endl; // RRnewTOF
+ cout<<"CentralityBin::"<< centralityBin <<endl;
+ cout<<"Use Centrality::"<< useCentrality <<endl;
+ cout<<"Heavy Ion::"<< isHeavyIon<<endl;
+ cout<<"Multiplicity Bin::"<< multiplicityBin<<endl;
+ cout<<"Select V0AND::"<< selectV0AND<<endl;
+ cout<<"Remove PileUp::"<< removePileUp<<endl;
+ cout<<"NumberOfRotations::"<<NumberOfRotations<<endl;
+ cout<<"DegreesForRotationMethod::"<<DegreesForRotationMethod<<endl;
+ cout<<"BackgroundScheme::"<<BackgroundScheme<<endl;
+ cout<<"RapidityMesonCut::"<<RapidityMesonCut<<endl;
+ cout<<"minRCut::"<<minRCut<<endl;
+ cout<<"alphaMesonCut::"<<alphaMesonCut<<endl;
+ cout<<"piMaxMomdedxSigmaCut::"<<piMaxMomdedxSigmaCut<<endl;
+ cout<<"QtMaxCut:"<<QtMaxCut<<endl;
+ cout<<"LowPRejectionSigmaCut:"<<LowPRejectionSigmaCut<<endl;
+ cout<<"chi2MesonCut: "<< chi2MesonCut<<endl;
+ cout<<"etaCut: "<<etaCut<<endl;
+ cout<<"clsTPCCut: "<<clsTPCCut<<endl;
+ cout<<"singlePtCut: "<<singlePtCut<<endl;
+ cout<<"chi2GammaCut: "<<chi2GammaCut<<endl;
+ cout<<"piMomdedxSigmaCut: "<<piMomdedxSigmaCut<<endl;
+ cout<<"pidedxSigmaCut: "<<pidedxSigmaCut <<endl;
+ cout<<"ededxSigmaCut: "<<ededxSigmaCut <<endl;
+ cout<<"eProbCut: "<< eProbCut<<endl;
+ cout<<"v0FinderType: "<<v0FinderType <<endl;
+ cout<<"goodId: "<<goodId <<endl;
+
+
+ if(goodId !=9){
+ cout<<"Analysis Cut Selection too short or does not start with 9"<<endl;
+ return iResult;
+ }
+
+ switch (v0FinderType){
+ case 0: // on fly V0 finder
+ kGCUseOnFlyV0Finder=kTRUE;
+ break;
+ case 1: // offline V0 finder
+ kGCUseOnFlyV0Finder=kFALSE;
+ break;
+ default:
+ return iResult;
+ }
+
+ switch(eProbCut){
+ case 0:
+ kGCprobElectron=0;
+ break;
+ case 1:
+ kGCprobElectron=0.1;
+ break;
+ case 2:
+ kGCprobElectron=0.5;
+ break;
+ case 3:
+ kGCprobElectron=0.7;
+ break;
+ default:
+ return iResult;
+ }
+
+ switch(ededxSigmaCut){
+ case 0: // -10,10
+ kGCPIDnSigmaBelowElectronLine=-10;
+ kGCPIDnSigmaAboveElectronLine=10;
+ break;
+ case 1: // -5,5
+ kGCPIDnSigmaBelowElectronLine=-5;
+ kGCPIDnSigmaAboveElectronLine=5;
+ break;
+ case 2: // -3,5
+ kGCPIDnSigmaBelowElectronLine=-3;
+ kGCPIDnSigmaAboveElectronLine=5;
+ break;
+ case 3: // -4,5
+ kGCPIDnSigmaBelowElectronLine=-4;
+ kGCPIDnSigmaAboveElectronLine=5;
+ break;
+ default:
+ return iResult;
+ }
+
+ switch(pidedxSigmaCut){
+ case 0: // -10
+ kGCPIDnSigmaAbovePionLine=-10;
+ kGCPIDnSigmaAbovePionLineHighPt=-10;
+ break;
+ case 1: // 0
+ kGCPIDnSigmaAbovePionLine=0;
+ kGCPIDnSigmaAbovePionLineHighPt=-10;
+ break;
+ case 2: // 1
+ kGCPIDnSigmaAbovePionLine=1;
+ kGCPIDnSigmaAbovePionLineHighPt=-10;
+ break;
+ case 3: // 1
+ kGCPIDnSigmaAbovePionLine=-1;
+ kGCPIDnSigmaAbovePionLineHighPt=-10;
+ break;
+ case 4: // 1
+ kGCPIDnSigmaAbovePionLine=-1.5;
+ kGCPIDnSigmaAbovePionLineHighPt=-10;
+ break;
+ case 5: // 1
+ kGCPIDnSigmaAbovePionLine=2.;
+ kGCPIDnSigmaAbovePionLineHighPt=-10;
+ break;
+ case 6: // 1
+ kGCPIDnSigmaAbovePionLine=2.;
+ kGCPIDnSigmaAbovePionLineHighPt=0.5;
+ break;
+ case 7: // 1
+ kGCPIDnSigmaAbovePionLine=3.5;
+ kGCPIDnSigmaAbovePionLineHighPt=-10;
+ break;
+ case 8: // 1
+ kGCPIDnSigmaAbovePionLine=2.;
+ kGCPIDnSigmaAbovePionLineHighPt=1.;
+ break;
+ default:
+ return iResult;
+ }
+
+ switch(piMomdedxSigmaCut){
+ case 0: // 0.5 GeV
+ kGCPIDMinPnSigmaAbovePionLine=0.5;
+ break;
+ case 1: // 1. GeV
+ kGCPIDMinPnSigmaAbovePionLine=1.;
+ break;
+ case 2: // 1.5 GeV
+ kGCPIDMinPnSigmaAbovePionLine=1.5;
+ break;
+ case 3: // 20.0 GeV
+ kGCPIDMinPnSigmaAbovePionLine=20.;
+ break;
+ case 4: // 50.0 GeV
+ kGCPIDMinPnSigmaAbovePionLine=50.;
+ break;
+ case 5: // 0.3 GeV
+ kGCPIDMinPnSigmaAbovePionLine=0.3;
+ break;
+ case 6: // 0.25 GeV // RRnew label was wrong in comment
+ kGCPIDMinPnSigmaAbovePionLine=0.25;
+ break;
+ case 7: // 0.4 GeV
+ kGCPIDMinPnSigmaAbovePionLine=0.4;
+ break;
+ default:
+ return iResult;
+ }
+
+ switch(chi2GammaCut){
+ case 0: // 100
+ kGCchi2CutConversion = 100.;
+ break;
+ case 1: // 50
+ kGCchi2CutConversion = 50.;
+ break;
+ case 2: // 30
+ kGCchi2CutConversion = 30.;
+ break;
+ case 3:
+ kGCchi2CutConversion = 200.;
+ break;
+ case 4:
+ kGCchi2CutConversion = 500.;
+ break;
+ case 5:
+ kGCchi2CutConversion = 1000.;
+ break;
+ case 6:
+ kGCchi2CutConversion = 5.;
+ break;
+ case 7:
+ kGCchi2CutConversion = 10.;
+ break;
+ case 8:
+ kGCchi2CutConversion = 20.;
+ break;
+ case 9:
+ kGCchi2CutConversion = 15.;
+ break;
+ default:
+ return iResult;
+ }
+
+ switch(singlePtCut){
+ case 0: // 0.050 GeV
+ kGCsingleptCut = 0.050;
+ break;
+ case 1: // 0.100 GeV
+ kGCsingleptCut = 0.100;
+ break;
+ case 2: // 0.150 GeV
+ kGCsingleptCut = 0.150;
+ break;
+ case 3: // 0.200 GeV
+ kGCsingleptCut = 0.200;
+ break;
+ case 4: // 0.075 GeV
+ kGCsingleptCut = 0.075;
+ break;
+ case 5: // 0.125 GeV
+ kGCsingleptCut = 0.125;
+ break;
+ default:
+ return iResult;
+ }
+
+ switch(clsTPCCut){
+ case 0: // 0
+ kGCminClsTPCCut= 0.;
+ break;
+ case 1: // 70
+ kGCminClsTPCCut= 70.;
+ break;
+ case 2: // 80
+ kGCminClsTPCCut= 80.;
+ break;
+ case 3: // 100
+ kGCminClsTPCCut= 100.;
+ break;
+ case 4: // 60% of findable clusters
+ kGCminClsTPCCutToF= 0.6;
+ kGCUseCorrectedTPCClsInfo=0;
+ break;
+ case 5: // 0% of findable clusters
+ kGCminClsTPCCutToF= 0.0;
+ kGCUseCorrectedTPCClsInfo=1;
+ break;
+ case 6: // 0% of findable clusters
+ kGCminClsTPCCutToF= 0.7;
+ kGCUseCorrectedTPCClsInfo=0;
+ break;
+ case 7: // 0% of findable clusters
+ kGCminClsTPCCutToF= 0.35;
+ kGCUseCorrectedTPCClsInfo=0;
+ break;
+ case 8:
+ kGCminClsTPCCutToF= 0.35;
+ kGCUseCorrectedTPCClsInfo=1;
+ break;
+ case 9:
+ kGCminClsTPCCutToF= 0.6;
+ kGCUseCorrectedTPCClsInfo=1;
+ break;
+ default:
+ return iResult;
+ }
+
+ switch(etaCut){
+ case 0: // 0.9
+ kGCetaCut = 0.9;
+ kGCLineCutZRSlope = tan(2*atan(exp(-kGCetaCut)));
+ break;
+ case 1: // 1.2
+ kGCetaCut = 1.2;
+ kGCLineCutZRSlope = tan(2*atan(exp(-kGCetaCut)));
+ break;
+ case 2: // 1.4
+ kGCetaCut = 1.4;
+ kGCLineCutZRSlope = tan(2*atan(exp(-kGCetaCut)));
+ break;
+ default:
+ return iResult;
+ }
+
+ switch(chi2MesonCut){
+ case 0: // 100.
+ kGCchi2CutMeson = 100.;
+ break;
+ case 1: // 50.
+ kGCchi2CutMeson = 50.;
+ break;
+ case 2: // 30.
+ kGCchi2CutMeson = 30.;
+ break;
+ case 3:
+ kGCchi2CutMeson = 200.;
+ break;
+ case 4:
+ kGCchi2CutMeson = 500.;
+ break;
+ case 5:
+ kGCchi2CutMeson = 1000.;
+ break;
+ default:
+ return iResult;
+ }
+
+
+ switch(LowPRejectionSigmaCut){
+ case 0: //
+ kGCPIDnSigmaAtLowPAroundKaonLine=0;
+ kGCPIDnSigmaAtLowPAroundProtonLine=0;
+ kGCPIDnSigmaAtLowPAroundPionLine=0;
+ break;
+ case 1: //
+ kGCPIDnSigmaAtLowPAroundKaonLine=0.5;
+ kGCPIDnSigmaAtLowPAroundProtonLine=0.5;
+ kGCPIDnSigmaAtLowPAroundPionLine=0.5;
+ break;
+ case 2: //
+ kGCPIDnSigmaAtLowPAroundKaonLine=1;
+ kGCPIDnSigmaAtLowPAroundProtonLine=1;
+ kGCPIDnSigmaAtLowPAroundPionLine=1;
+ break;
+ case 3: //
+ kGCPIDnSigmaAtLowPAroundKaonLine=2.;
+ kGCPIDnSigmaAtLowPAroundProtonLine=2.;
+ kGCPIDnSigmaAtLowPAroundPionLine=2.;
+ break;
+ case 4: //
+ kGCPIDnSigmaAtLowPAroundKaonLine=0.;
+ kGCPIDnSigmaAtLowPAroundProtonLine=0.;
+ kGCPIDnSigmaAtLowPAroundPionLine=1;
+ break;
+ case 5: //
+ kGCPIDnSigmaAtLowPAroundKaonLine=0.;
+ kGCPIDnSigmaAtLowPAroundProtonLine=0.;
+ kGCPIDnSigmaAtLowPAroundPionLine=1.5;
+ break;
+ case 6: //
+ kGCPIDnSigmaAtLowPAroundKaonLine=0.;
+ kGCPIDnSigmaAtLowPAroundProtonLine=0.;
+ kGCPIDnSigmaAtLowPAroundPionLine=2.;
+ break;
+ default:
+ return iResult;
+ }
+ switch(QtMaxCut){
+ case 0: //
+ kGCQtMax=1.;
+ kGCdoHighPtQtGammaSelection=kFALSE; // RRnew
+ kGCHighPtQtMax=100.; // RRnew
+ kGCPtBorderForQt=100.; // RRnew
+ break;
+ case 1:
+ kGCQtMax=0.1;
+ kGCdoHighPtQtGammaSelection=kFALSE; // RRnew
+ kGCHighPtQtMax=100.; // RRnew
+ kGCPtBorderForQt=100.; // RRnew
+ break;
+ case 2:
+ kGCQtMax=0.07;
+ kGCdoHighPtQtGammaSelection=kFALSE; // RRnew
+ kGCHighPtQtMax=100.; // RRnew
+ kGCPtBorderForQt=100.; // RRnew
+ break;
+ case 3:
+ kGCQtMax=0.05;
+ kGCdoHighPtQtGammaSelection=kFALSE; // RRnew
+ kGCHighPtQtMax=100.; // RRnew
+ kGCPtBorderForQt=100.; // RRnew
+ break;
+ case 4:
+ kGCQtMax=0.03;
+ kGCdoHighPtQtGammaSelection=kFALSE; // RRnew
+ kGCHighPtQtMax=100.; // RRnew
+ kGCPtBorderForQt=100.; // RRnew
+ break;
+ case 5: // RR try to improve (get rid of) low InvMass peak in PbPb
+ kGCQtMax=0.02;
+ kGCdoHighPtQtGammaSelection=kFALSE; // RRnew
+ kGCHighPtQtMax=100.; // RRnew
+ kGCPtBorderForQt=100.; // RRnew
+ break; // end RR ///////////////////////////////////////////////
+ case 6: // RRnew start: pT dependent qT cut
+ kGCQtMax=0.02;
+ kGCdoHighPtQtGammaSelection=kTRUE;
+ kGCHighPtQtMax=0.06;
+ kGCPtBorderForQt=2.5;
+ break; // RRnew end ////////////////////////////////////////////
+ case 7:
+ kGCQtMax=0.15;
+ kGCdoHighPtQtGammaSelection=kFALSE; // RRnew
+ kGCHighPtQtMax=100.; // RRnew
+ kGCPtBorderForQt=100.; // RRnew
+ break;
+ default:
+ return iResult;
+ }
+
+ switch(piMaxMomdedxSigmaCut){
+ case 0: // 100. GeV
+ kGCPIDMaxPnSigmaAbovePionLine=100.;
+ break;
+ case 1: // 5. GeV
+ kGCPIDMaxPnSigmaAbovePionLine=5.;
+ break;
+ case 2: // 4. GeV
+ kGCPIDMaxPnSigmaAbovePionLine=4.;
+ break;
+ case 3: // 3.5 GeV
+ kGCPIDMaxPnSigmaAbovePionLine=3.5;
+ break;
+ case 4: // 3. GeV
+ kGCPIDMaxPnSigmaAbovePionLine=3.;
+ break;
+ default:
+ return iResult;
+ }
+
+
+ switch(alphaMesonCut){
+ case 0: // 0- 0.7
+ kGCalphaMinCutMeson = 0.0;
+ kGCalphaCutMeson = 0.7;
+ break;
+ case 1: // 0-0.5
+ kGCalphaMinCutMeson = 0.0;
+ kGCalphaCutMeson = 0.5;
+ break;
+ case 2: // 0.5-1
+ kGCalphaMinCutMeson = 0.5;
+ kGCalphaCutMeson = 1.;
+ break;
+ case 3: // 0.0-1
+ kGCalphaMinCutMeson = 0.0;
+ kGCalphaCutMeson = 1.;
+ break;
+ default:
+ return iResult;
+ }
+
+ switch(minRCut){
+ case 0:
+ kGCminRCut=0;
+ kGCmaxRCut = 180.;
+ break;
+ case 1:
+ kGCminRCut=2.8;
+ kGCmaxRCut = 180.;
+ break;
+ case 2:
+ kGCminRCut=5.;
+ kGCmaxRCut = 180.;
+ break;
+ case 3:
+ kGCmaxRCut = 70.;
+ kGCminRCut = 10.;
+ break;
+ case 4:
+ kGCmaxRCut = 70.;
+ kGCminRCut = 5.;
+ break;
+ case 5:
+ kGCmaxRCut = 180.;
+ kGCminRCut = 10.;
+ break;
+
+ default:
+ return iResult;
+ }
+
+ switch(RapidityMesonCut){
+ case 0: //
+ kGCrapidityCutMeson = 0.9;
+ break;
+ case 1: //
+ kGCrapidityCutMeson = 0.8;
+ break;
+ case 2: //
+ kGCrapidityCutMeson = 0.7;
+ break;
+
+ default:
+ return iResult;
+ }
+
+ switch(BackgroundScheme){
+ case 0: //Rotation
+ kGCUseRotationMethodInBG=kTRUE;
+ kGCdoBGProbability=kFALSE;
+ break;
+ case 1: // mixed event with track multiplicity
+ kGCUseRotationMethodInBG=kFALSE;
+ kGCUseTrackMultiplicityForBG=kFALSE;
+ kGCdoBGProbability=kFALSE;
+ break;
+ case 2: // mixed event with V0 multiplicity
+ kGCUseRotationMethodInBG=kFALSE;
+ kGCUseTrackMultiplicityForBG=kTRUE;
+ kGCdoBGProbability=kFALSE;
+ break;
+ case 3: //Rotation
+ kGCUseRotationMethodInBG=kTRUE;
+ kGCdoBGProbability=kTRUE;
+ break;
+ default:
+ return iResult;
+ }
+
+ switch(DegreesForRotationMethod){
+ case 0:
+ kGCnDegreeRotationPMForBG = 5;
+ break;
+ case 1:
+ kGCnDegreeRotationPMForBG = 10;
+ break;
+ case 2:
+ kGCnDegreeRotationPMForBG = 15;
+ break;
+ case 3:
+ kGCnDegreeRotationPMForBG = 20;
+ break;
+
+ default:
+ return iResult;
+ }
+
+ switch(NumberOfRotations){
+ case 0:
+ kGCnumberOfRotationEventsForBG = 5;
+ break;
+ case 1:
+ kGCnumberOfRotationEventsForBG = 10;
+ break;
+ case 2:
+ kGCnumberOfRotationEventsForBG = 15;
+ break;
+ case 3:
+ kGCnumberOfRotationEventsForBG = 20;
+ break;
+ case 4:
+ kGCnumberOfRotationEventsForBG = 2;
+ break;
+ case 5:
+ kGCnumberOfRotationEventsForBG = 50;
+ break;
+ case 6:
+ kGCnumberOfRotationEventsForBG = 80;
+ break;
+ case 7:
+ kGCnumberOfRotationEventsForBG = 100;
+ break;
+ default:
+ return iResult;
+ }
+
+ switch(removePileUp){
+ case 0:
+ kGCRemovePileUp=kFALSE;
+ break;
+ case 1:
+ kGCRemovePileUp=kTRUE;
+ break;
+ default:
+ return iResult;
+ }
+
+ switch(selectV0AND){
+ case 0:
+ kGCSelectV0AND=kFALSE;
+ break;
+ case 1:
+ kGCSelectV0AND=kTRUE;
+ break;
+ default:
+ return iResult;
+ }
+
+ switch(multiplicityBin){
+ case 0:
+ kGCUseMultiplicity=kFALSE;
+ kGCUseMultiplicityBin=0;
+ break;
+ case 1:
+ kGCUseMultiplicity=kTRUE;
+ kGCUseMultiplicityBin=1;
+ break;
+ case 2:
+ kGCUseMultiplicity=kTRUE;
+ kGCUseMultiplicityBin=2;
+ break;
+ case 3:
+ kGCUseMultiplicity=kTRUE;
+ kGCUseMultiplicityBin=3;
+ break;
+ case 4:
+ kGCUseMultiplicity=kTRUE;
+ kGCUseMultiplicityBin=4;
+ break;
+ case 5:
+ kGCUseMultiplicity=kTRUE;
+ kGCUseMultiplicityBin=5;
+ break;
+ default:
+ return iResult;
+ }
+
+ switch(isHeavyIon){
+ case 0:
+ kGCIsHeavyIon=0;
+ break;
+ case 1:
+ kGCIsHeavyIon=1;
+ break;
+ default:
+ return iResult;
+ }
+
+ switch(useCentrality){
+ case 0:
+ kGCUseCentrality=0;
+ break;
+ case 1:
+ kGCUseCentrality=1;// GetCentralityClass10("V0M")
+ break;
+ case 2:
+ kGCUseCentrality=2; // GetCentralityClass10("CL1")
+ break;
+ case 3://////////////// RRnew start //////////////////////////////////////////////////////////////////////////////////////////////////////
+ kGCUseCentrality=3;// GetCentralityClass10("V0M") but with merged bins: see AliAnalysisTaskGammaConversion.cxx
+ break;
+ case 4:
+ kGCUseCentrality=4;// GetCentralityClass10("CL1") but with merged bins: see AliAnalysisTaskGammaConversion.cxx
+ break;/////////////// RRnew end ////////////////////////////////////////////////////////////////////////////////////////////////////////
+ default:
+ return iResult;
+ }
+
+ switch(centralityBin){
+ case 0:
+ kGCUseCentralityBin=0;
+ break;
+ case 1:
+ kGCUseCentralityBin=1;
+ break;
+ case 2:
+ kGCUseCentralityBin=2;
+ break;
+ case 3:
+ kGCUseCentralityBin=3;
+ break;
+ case 4:
+ kGCUseCentralityBin=4;
+ break;
+ case 5:
+ kGCUseCentralityBin=5;
+ break;
+ case 6:
+ kGCUseCentralityBin=6;
+ break;
+ case 7:
+ kGCUseCentralityBin=7;
+ break;
+ case 8:
+ kGCUseCentralityBin=8;
+ break;
+ case 9:
+ kGCUseCentralityBin=9;
+ break;
+ default:
+ return iResult;
+ }
+
+ switch(TOFelectronPID){ // RRnewTOF start //////////////////////////////////////////////////////////////////////////
+ case 0: // no cut
+ kGCuseTOFpid = kFALSE;
+ kGCtofPIDnSigmaBelowElectronLine=-100;
+ kGCtofPIDnSigmaAboveElectronLine=100;
+ break;
+ case 1: // -7,7
+ kGCuseTOFpid = kTRUE;
+ kGCtofPIDnSigmaBelowElectronLine=-7;
+ kGCtofPIDnSigmaAboveElectronLine=7;
+ break;
+ case 2: // -5,5
+ kGCuseTOFpid = kTRUE;
+ kGCtofPIDnSigmaBelowElectronLine=-5;
+ kGCtofPIDnSigmaAboveElectronLine=5;
+ break;
+ case 3: // -3,5
+ kGCuseTOFpid = kTRUE;
+ kGCtofPIDnSigmaBelowElectronLine=-3;
+ kGCtofPIDnSigmaAboveElectronLine=5;
+ break;
+ case 4: // -2,3
+ kGCuseTOFpid = kTRUE;
+ kGCtofPIDnSigmaBelowElectronLine=-2;
+ kGCtofPIDnSigmaAboveElectronLine=3;
+ break;
+ default:
+ return iResult;
+ } //////////////////////// RRnewTOF end //////////////////////////////////////////////////////////////////////////
+
+ switch(useMCPSmearing){
+ case 0:
+ kGCUseMCPSmearing=0;
+ kGCPBremSmearing=1.;
+ kGCPSigSmearing=0.;
+ kGCPSigSmearingCte=0.;
+ break;
+ case 1:
+ kGCUseMCPSmearing=1;
+ kGCPBremSmearing=1.0e-14;
+ kGCPSigSmearing=0.;
+ kGCPSigSmearingCte=0.;
+ break;
+ case 2:
+ kGCUseMCPSmearing=1;
+ kGCPBremSmearing=1.0e-15;
+ kGCPSigSmearing=0.0;
+ kGCPSigSmearingCte=0.;
+ break;
+ case 3:
+ kGCUseMCPSmearing=1;
+ kGCPBremSmearing=1.;
+ kGCPSigSmearing=0.003;
+ kGCPSigSmearingCte=0.002;
+ break;
+ case 4:
+ kGCUseMCPSmearing=1;
+ kGCPBremSmearing=1.;
+ kGCPSigSmearing=0.003;
+ kGCPSigSmearingCte=0.007;
+ break;
+ case 5:
+ kGCUseMCPSmearing=1;
+ kGCPBremSmearing=1.;
+ kGCPSigSmearing=0.003;
+ kGCPSigSmearingCte=0.016;
+ break;
+ case 6:
+ kGCUseMCPSmearing=1;
+ kGCPBremSmearing=1.;
+ kGCPSigSmearing=0.007;
+ kGCPSigSmearingCte=0.016;
+ break;
+ case 7:
+ kGCUseMCPSmearing=1;
+ kGCPBremSmearing=1.0e-16;
+ kGCPSigSmearing=0.0;
+ kGCPSigSmearingCte=0.;
+ break;
+ case 8:
+ kGCUseMCPSmearing=1;
+ kGCPBremSmearing=1.;
+ kGCPSigSmearing=0.007;
+ kGCPSigSmearingCte=0.014;
+ break;
+ case 9:
+ kGCUseMCPSmearing=1;
+ kGCPBremSmearing=1.;
+ kGCPSigSmearing=0.007;
+ kGCPSigSmearingCte=0.011;
+ break;
+
+ default:
+ return iResult;
+ }
+ switch(doPhotonAsymmetryCut){
+ case 0:
+ kGCdoPhotonAsymmetryCut=0;
+ kGCMinPPhotonAsymmetryCut=100.;
+ kGCMinPhotonAsymmetry=0.;
+ break;
+ case 1:
+ kGCdoPhotonAsymmetryCut=1;
+ kGCMinPPhotonAsymmetryCut=3.5;
+ kGCMinPhotonAsymmetry=0.04;
+ break;
+ case 2:
+ kGCdoPhotonAsymmetryCut=1;
+ kGCMinPPhotonAsymmetryCut=3.5;
+ kGCMinPhotonAsymmetry=0.06;
+ break;
+ default:
+ return iResult;
+ }
+
+ iResult = 1;
+ return iResult;
+
+}
+
+
+void string2array(const std::string& number, int a[c_array_size])
+{
+ if (number.size() == c_array_size) {
+#define ASSIGNARRAY(i) a[i] = number[i] - '0'
+ ASSIGNARRAY(0);
+ ASSIGNARRAY(1);
+ ASSIGNARRAY(2);
+ ASSIGNARRAY(3);
+ ASSIGNARRAY(4);
+ ASSIGNARRAY(5);
+ ASSIGNARRAY(6);
+ ASSIGNARRAY(7);
+ ASSIGNARRAY(8);
+ ASSIGNARRAY(9);
+ ASSIGNARRAY(10);
+ ASSIGNARRAY(11);
+ ASSIGNARRAY(12);
+ ASSIGNARRAY(13);
+ ASSIGNARRAY(14);
+ ASSIGNARRAY(15);
+ ASSIGNARRAY(16);
+ ASSIGNARRAY(17);
+ ASSIGNARRAY(18);
+ ASSIGNARRAY(19);
+ ASSIGNARRAY(20);
+ ASSIGNARRAY(21);
+ ASSIGNARRAY(22);
+ ASSIGNARRAY(23);
+ ASSIGNARRAY(24);
+ ASSIGNARRAY(25);
+ ASSIGNARRAY(26); // RRnewTOF
+ ASSIGNARRAY(27);
+ ASSIGNARRAY(28);
+ }
+}
+
+
+
+