AliAnalysisTaskParticleCorrelationM *AddTaskPartCorrM(TString data, TString calorimeter, Bool_t kPrintSettings = kFALSE) { // Creates a PartCorr task, configures it and adds it to the analysis manager. // Get the pointer to the existing analysis manager via the static access method. //============================================================================== AliAnalysisManager *mgr = AliAnalysisManager::GetAnalysisManager(); if (!mgr) { ::Error("AddTaskPartCorr", "No analysis manager to connect to."); return NULL; } Bool_t kUseKinematics = kFALSE; kUseKinematics = (mgr->GetMCtruthEventHandler())?kTRUE:kFALSE; cout<<"********* ACCESS KINE? "<SetDebug(-1);//10 for lots of messages reader->SwitchOnCTS(); if(calorimeter == "EMCAL") { reader->SwitchOnEMCALCells(); reader->SwitchOnEMCAL(); } if(calorimeter == "PHOS") { reader->SwitchOnPHOSCells(); reader->SwitchOnPHOS(); } reader->SwitchOnSuspiciousClustersRemoval(); //EMCAL // for case data="deltaAOD", no need to fill the EMCAL/PHOS cluster lists if(data.Contains("delta")){ reader->SwitchOffEMCAL(); reader->SwitchOffPHOS(); reader->SwitchOffEMCALCells(); reader->SwitchOffPHOSCells(); } if(kUseKinematics){ if(data == "ESD"){ reader->SwitchOnStack(); reader->SwitchOffAODMCParticles(); } else if(data == "AOD"){ reader->SwitchOffStack(); reader->SwitchOnAODMCParticles(); } } reader->SetZvertexCut(10.); //Min particle pT reader->SetEMCALPtMin(0.5); reader->SetPHOSPtMin(0.5); reader->SetCTSPtMin(0.1); reader->SwitchOffWriteDeltaAOD() ; if(kPrintSettings) reader->Print(""); // ##### Analysis algorithm settings #### AliCaloPID * pid = new AliCaloPID(); pid->SetDispersionCut(1.5); pid->SetTOFCut(5.e-9); pid->SetDebug(-1); if(kPrintSettings) pid->Print(""); //Fiducial cut // AliFiducialCut * fidCut1stYear = new AliFiducialCut(); // fidCut1stYear->DoCTSFiducialCut(kTRUE) ; // fidCut1stYear->SetSimpleCTSFiducialCut(0.8,0.,360.); // fidCut1stYear->DoEMCALFiducialCut(kTRUE) ; // fidCut1stYear->DoPHOSFiducialCut(kTRUE) ; // fidCut1stYear->SetSimpleEMCALFiducialCut(0.7,80.,120.); // fidCut1stYear->SetSimplePHOSFiducialCut(0.12,260.,300.); // ------------------------------------------------- // --- Isolation Cut --- // ------------------------------------------------- AliIsolationCut * ic = new AliIsolationCut(); ic->SetConeSize(0.4); //ic->SetPtThreshold(0.7); ic->SetPtFraction(0.1); ic->SetPtThreshold(0.7) ; ic->SetSumPtThreshold(1.0) ; //choose different method for IC: //kPtThresIC, kSumPtIC, kPtFracIC, kSumPtFracIC // ic->SetICMethod(AliIsolationCut::kPtThresIC); ic->SetICMethod(AliIsolationCut::kSumPtFracIC); //particle in cone: kNeutralAndCharged=0, kOnlyNeutral=1, kOnlyCharged=2 ic->SetParticleTypeInCone(AliIsolationCut::kOnlyCharged); if(kPrintSettings) ic->Print(""); //analysis with calorimeter triggers if(calorimeter=="PHOS" || calorimeter=="EMCAL") { AliCalorimeterUtils * cu = new AliCalorimeterUtils(); cu->SwitchOnBadChannelsRemoval(); cu->SetNumberOfCellsFromEMCALBorder(1) ; //nEMCAL); cu->SetNumberOfCellsFromPHOSBorder(2) ; //nPHOS); // cu->SwitchOnNoFiducialBorderInEMCALEta0(); cu->SetPHOSChannelStatus(1,48, 8); //PHOS new hot channel // // Remove EMCAL hottest channels from Gustavo list // SM0 cu->SetEMCALChannelStatus(0,3,13); cu->SetEMCALChannelStatus(0,44,1); cu->SetEMCALChannelStatus(0,3,13); //warm cu->SetEMCALChannelStatus(0,20,7); cu->SetEMCALChannelStatus(0,38,2); //hot // SM1 warm channels cu->SetEMCALChannelStatus(1,4,7); cu->SetEMCALChannelStatus(1,4,13); cu->SetEMCALChannelStatus(1,9,20); cu->SetEMCALChannelStatus(1,14,15); cu->SetEMCALChannelStatus(1,23,16); cu->SetEMCALChannelStatus(1,32,23); cu->SetEMCALChannelStatus(1,37,5); cu->SetEMCALChannelStatus(1,40,1); cu->SetEMCALChannelStatus(1,40,2); cu->SetEMCALChannelStatus(1,40,5); cu->SetEMCALChannelStatus(1,41,0); cu->SetEMCALChannelStatus(1,41,1); cu->SetEMCALChannelStatus(1,41,2); cu->SetEMCALChannelStatus(1,41,4); // SM2 cu->SetEMCALChannelStatus(2,14,15); cu->SetEMCALChannelStatus(2,18,16); cu->SetEMCALChannelStatus(2,18,17); cu->SetEMCALChannelStatus(2,18,18); cu->SetEMCALChannelStatus(2,18,20); cu->SetEMCALChannelStatus(2,18,21); cu->SetEMCALChannelStatus(2,18,23); cu->SetEMCALChannelStatus(2,19,16); cu->SetEMCALChannelStatus(2,19,17); cu->SetEMCALChannelStatus(2,19,19); cu->SetEMCALChannelStatus(2,19,20); cu->SetEMCALChannelStatus(2,19,21); cu->SetEMCALChannelStatus(2,19,22); //SM3 cu->SetEMCALChannelStatus(3,4,7); // ----------------------------------- // --- Photon and Pi0 Analysis --- // ----------------------------------- AliAnaPhoton *anaphoton = new AliAnaPhoton(); anaphoton->SetDebug(-1); //10 for lots of messages anaphoton->SetMinPt(1.0); anaphoton->SetCaloPID(pid); anaphoton->SetCalorimeter(calorimeter); if(kUseKinematics) anaphoton->SwitchOnDataMC() ;//Access MC stack and fill more histograms else anaphoton->SwitchOffDataMC() ; anaphoton->SwitchOffCaloPID(); anaphoton->SwitchOffCaloPIDRecalculation(); //recommended for EMCAL anaphoton->SwitchOnFiducialCut(); AliFiducialCut * fidCut1stYear = anaphoton->GetFiducialCut(); fidCut1stYear->DoEMCALFiducialCut(kTRUE) ; fidCut1stYear->DoPHOSFiducialCut(kTRUE) ; fidCut1stYear->SetSimpleEMCALFiducialCut(0.7,80.,120.); fidCut1stYear->SetSimplePHOSFiducialCut(0.12,260.,320.); anaphoton->SwitchOnTrackMatchRejection(); //settings for different multiplicity analysis anaphoton->SwitchOffEventSelection() ; anaphoton->SetMultiplicity(80, 120); if(calorimeter == "EMCAL"){ anaphoton->SetNCellCut(1); anaphoton->SetMinPt(0.3); //if(!kUseKinematics) anaphoton->SetTimeCut(525, 725); anaphoton->SetMinDistanceToBadChannel(1, 2, 3); } else{ anaphoton->SetMinPt(0.3); anaphoton->SetMinDistanceToBadChannel(2, 4, 5); anaphoton->SetNCellCut(2); } if(!data.Contains("delta")) { anaphoton->SetOutputAODName(Form("Triggers%s",calorimeter.Data())); anaphoton->SetOutputAODClassName("AliAODPWG4ParticleCorrelation"); } else anaphoton->SetOutputAODName(Form("Triggers%s",calorimeter.Data())); anaphoton->AddToHistogramsName("AnaPhoton_"); //Set Histograms bins and ranges anaphoton->SetHistoPtRangeAndNBins(0, 50, 100) ; // ana->SetHistoPhiRangeAndNBins(0, TMath::TwoPi(), 100) ; // ana->SetHistoEtaRangeAndNBins(-0.7, 0.7, 100) ; if(kPrintSettings) anaphoton->Print(""); AliAnaPi0 *anapi0 = new AliAnaPi0(); anapi0->SetDebug(-1);//10 for lots of messages anapi0->SetInputAODName(Form("Triggers%s",calorimeter.Data())); anapi0->AddToHistogramsName("AnaPi0_"); anapi0->SetCaloPID(pid); anapi0->SetCalorimeter(calorimeter); anapi0->SwitchOnFiducialCut(); AliFiducialCut * fidCut1stYear = anapi0->GetFiducialCut(); fidCut1stYear->DoEMCALFiducialCut(kTRUE) ; fidCut1stYear->DoPHOSFiducialCut(kTRUE) ; fidCut1stYear->SetSimpleEMCALFiducialCut(0.7,80.,120.); fidCut1stYear->SetSimplePHOSFiducialCut(0.12,260.,320.); anapi0->SetNPID(1); //settings for different multiplicity analysis anapi0->SwitchOnEventSelection() ; anapi0->SetNCentrBin(1); anapi0->SetMultiplicity(80, 120); anapi0->SetMultiBin(1); anapi0->SwitchOffDataMC() ;//Access MC stack and fill more histograms if(calorimeter=="PHOS") anapi0->SetNumberOfModules(3); //PHOS first year else if(calorimeter=="EMCAL") anapi0->SetNumberOfModules(4); //EMCAL first year anapi0->SetHistoPtRangeAndNBins(0, 50, 100) ; //anapi0->SetHistoPhiRangeAndNBins(0, TMath::TwoPi(), 100) ; //anapi0->SetHistoEtaRangeAndNBins(-0.8, 0.8, 200) ; anapi0->SetHistoMassRangeAndNBins(0., 1.0, 100) ; anapi0->SetHistoAsymmetryRangeAndNBins(0., 1. , 10) ; if(kPrintSettings) anapi0->Print(""); // ------------------------------------------------- // --- Pi0 EbE Analysis --- // ------------------------------------------------- AliNeutralMesonSelection *nms = new AliNeutralMesonSelection(); nms->SetInvMassCutRange(0.05, 0.16) ; nms->SwitchOffAngleSelection() ; nms->KeepNeutralMesonSelectionHistos(kTRUE); //Set Histrograms bins and ranges nms->SetHistoERangeAndNBins(0, 50, 100) ; nms->SetHistoPtRangeAndNBins(0, 50, 100) ; // nms->SetHistoAngleRangeAndNBins(0, 0.3, 100) ; // nsm->SetHistoIMRangeAndNBins(0, 0.4, 100) ; AliAnaPi0EbE *anapi0ebe = new AliAnaPi0EbE(); anapi0ebe->SetDebug(-1);//10 for lots of messages anapi0ebe->SetAnalysisType(AliAnaPi0EbE::kIMCalo); anapi0ebe->SetMinPt(0.5); anapi0ebe->SetCalorimeter(calorimeter); anapi0ebe->SetInputAODName(Form("Triggers%s",calorimeter.Data())); if(!data.Contains("delta")) { anapi0ebe->SetOutputAODName(Form("Pi0s%s",calorimeter.Data())); anapi0ebe->SetOutputAODClassName("AliAODPWG4ParticleCorrelation"); } else anapi0ebe->SetOutputAODName(Form("Pi0s%s",calorimeter.Data())); if(kUseKinematics) anapi0ebe->SwitchOnDataMC() ;//Access MC stack and fill more histograms else anapi0ebe->SwitchOffDataMC() ; anapi0ebe->SwitchOffEventSelection() ; anapi0ebe->SetMultiplicity(80, 120); anapi0ebe->SetMultiBin(1); anapi0ebe->SetNeutralMesonSelection(nms); //Set Histrograms bins and ranges anapi0ebe->SetHistoPtRangeAndNBins(0, 50, 100) ; // anapi0->SetHistoPhiRangeAndNBins(0, TMath::TwoPi(), 100) ; // anapi0->SetHistoEtaRangeAndNBins(-0.7, 0.7, 100) ; if(kPrintSettings) anapi0ebe->Print(""); // ### Pi0 Correlation with hadrons, not isolated AliAnaParticleHadronCorrelation *anacorrhadronpi0 = new AliAnaParticleHadronCorrelation(); anacorrhadronpi0->SetInputAODName(Form("Pi0s%s",calorimeter.Data())); anacorrhadronpi0->AddToHistogramsName("AnaHadronCorrPi0_"); anacorrhadronpi0->SetDebug(-1); anacorrhadronpi0->SwitchOffCaloPID(); anacorrhadronpi0->SwitchOnFiducialCut(); AliFiducialCut * fidCut1stYear = anacorrhadronpi0->GetFiducialCut(); fidCut1stYear->DoEMCALFiducialCut(kTRUE) ; fidCut1stYear->DoPHOSFiducialCut(kTRUE) ; fidCut1stYear->SetSimpleEMCALFiducialCut(0.7,80.,120.); fidCut1stYear->SetSimplePHOSFiducialCut(0.12,260.,320.); fidCut1stYear->DoCTSFiducialCut(kTRUE) ; fidCut1stYear->SetSimpleCTSFiducialCut(0.8,0.,360.); anacorrhadronpi0->SwitchOnDecayCorr(); anacorrhadronpi0->SetPtCutRange(0.5,50); anacorrhadronpi0->SetDeltaPhiCutRange(1.5,4.5); anacorrhadronpi0->SelectIsolated(kFALSE); // do correlation with non isolated pi0 anacorrhadronpi0->SetMultiplicity(80, 100); anacorrhadronpi0->SetMultiBin(1); anacorrhadronpi0->SwitchOffNeutralCorr(); anacorrhadronpi0->SwitchOffEventSelection(); anacorrhadronpi0->SwitchOnSeveralUECalculation(); anacorrhadronpi0->SetUeDeltaPhiCutRange(TMath::Pi()/3, 2*TMath::Pi()/3); if(kUseKinematics) anacorrhadronpi0->SwitchOnDataMC() ;//Access MC stack and fill more histograms else anacorrhadronpi0->SwitchOffDataMC() ; //if(calorimeter=="PHOS"){ // //Correlate with particles in EMCAL // anacorrhadronpi0->SwitchOnCaloPID(); // anacorrhadronpi0->SwitchOnCaloPIDRecalculation(); //recommended for EMCAL //} //Set Histograms bins and ranges anacorrhadronpi0->SetHistoPtRangeAndNBins(0, 50, 100) ; // ana->SetHistoPhiRangeAndNBins(0, TMath::TwoPi(), 100) ; // ana->SetHistoEtaRangeAndNBins(-0.7, 0.7, 100) ; if(kPrintSettings) anacorrhadronpi0->Print(""); AliAnaParticleIsolation *anaisolpi0 = new AliAnaParticleIsolation(); anaisolpi0->SetDebug(-1); anaisolpi0->SetMinPt(2.); anaisolpi0->SetInputAODName(Form("Pi0s%s",calorimeter.Data())); anaisolpi0->AddToHistogramsName("AnaIsolPi0_"); anaisolpi0->SetCalorimeter(calorimeter); if(kUseKinematics) anaisolpi0->SwitchOnDataMC() ;//Access MC stack and fill more histograms else anaisolpi0->SwitchOffDataMC() ; //Select clusters with no pair, if both clusters with pi0 mass anaisolpi0->SwitchOffInvariantMass(); //anaisol->SetNeutralMesonSelection(nms); //Do isolation cut anaisolpi0->SetIsolationCut(ic); //Do or not do isolation with previously produced AODs. //No effect if use of SwitchOnSeveralIsolation() anaisolpi0->SwitchOffReIsolation(); //Multiple IC anaisolpi0->SwitchOffSeveralIsolation() ; //Set Histograms bins and ranges anaisolpi0->SetHistoPtRangeAndNBins(0, 50, 100) ; // ana->SetHistoPhiRangeAndNBins(0, TMath::TwoPi(), 100) ; // ana->SetHistoEtaRangeAndNBins(-0.7, 0.7, 100) ; if(kPrintSettings) anaisol->Print(""); // ### Pi0 Correlation with hadrons, isolated AliAnaParticleHadronCorrelation *anacorrhadronisopi0 = new AliAnaParticleHadronCorrelation(); anacorrhadronisopi0->SetInputAODName(Form("Pi0s%s",calorimeter.Data())); anacorrhadronisopi0->AddToHistogramsName("AnaHadronCorrIsoPi0_"); anacorrhadronisopi0->SetDebug(-1); anacorrhadronisopi0->SwitchOffCaloPID(); anacorrhadronisopi0->SwitchOnFiducialCut(); AliFiducialCut * fidCut1stYear = anacorrhadronisopi0->GetFiducialCut(); fidCut1stYear->DoEMCALFiducialCut(kTRUE) ; fidCut1stYear->DoPHOSFiducialCut(kTRUE) ; fidCut1stYear->SetSimpleEMCALFiducialCut(0.7,80.,120.); fidCut1stYear->SetSimplePHOSFiducialCut(0.12,260.,320.); fidCut1stYear->DoCTSFiducialCut(kTRUE) ; fidCut1stYear->SetSimpleCTSFiducialCut(0.8,0.,360.); anacorrhadronisopi0->SwitchOnDecayCorr(); anacorrhadronisopi0->SetPtCutRange(0.5,50); anacorrhadronisopi0->SetDeltaPhiCutRange(1.5,4.5); anacorrhadronisopi0->SelectIsolated(kTRUE); // do correlation with isolated pi0 anacorrhadronisopi0->SetMultiplicity(80, 100); anacorrhadronisopi0->SetMultiBin(1); anacorrhadronisopi0->SwitchOffNeutralCorr(); anacorrhadronisopi0->SwitchOffEventSelection(); anacorrhadronisopi0->SwitchOnSeveralUECalculation(); anacorrhadronisopi0->SetUeDeltaPhiCutRange(TMath::Pi()/3, 2*TMath::Pi()/3); if(kUseKinematics) anacorrhadronisopi0->SwitchOnDataMC() ;//Access MC stack and fill more histograms else anacorrhadronisopi0->SwitchOffDataMC() ; //if(calorimeter=="PHOS"){ // //Correlate with particles in EMCAL // anacorrhadronpi0->SwitchOnCaloPID(); // anacorrhadronpi0->SwitchOnCaloPIDRecalculation(); //recommended for EMCAL //} //Set Histograms bins and ranges anacorrhadronisopi0->SetHistoPtRangeAndNBins(0, 50, 100) ; // ana->SetHistoPhiRangeAndNBins(0, TMath::TwoPi(), 100) ; // ana->SetHistoEtaRangeAndNBins(-0.7, 0.7, 100) ; if(kPrintSettings) anacorrhadronisopi0->Print(""); } //analysis in calorimeter else { //---charge particle trigger--------------------- //------------------------------------------------ AliAnaChargedParticles *anacharge = new AliAnaChargedParticles(); anacharge->SetDebug(-1); //10 for lots of messages anacharge->SetMinPt(1.0); // anacharge->SetCaloPID(pid); if(kUseKinematics) anacharge->SwitchOnDataMC() ;//Access MC stack and fill more histograms else anacharge->SwitchOffDataMC() ; anacharge->SwitchOffCaloPID(); anacharge->SwitchOffCaloPIDRecalculation(); //recommended for EMCAL anacharge->SwitchOnFiducialCut(); AliFiducialCut * fidCut1stYear = anacharge->GetFiducialCut(); fidCut1stYear->DoCTSFiducialCut(kTRUE) ; fidCut1stYear->SetSimpleCTSFiducialCut(0.8,0.,360.); if(!data.Contains("delta")) { anacharge->SetOutputAODName(Form("Triggers%s",calorimeter.Data())); anacharge->SetOutputAODClassName("AliAODPWG4ParticleCorrelation"); } else anacharge->SetOutputAODName(Form("Triggers%s",calorimeter.Data())); anacharge->AddToHistogramsName("AnaCharge_"); //Set Histograms bins and ranges anacharge->SetHistoPtRangeAndNBins(0, 50, 100) ; // ana->SetHistoPhiRangeAndNBins(0, TMath::TwoPi(), 100) ; // ana->SetHistoEtaRangeAndNBins(-0.7, 0.7, 100) ; if(kPrintSettings) anacharge->Print(""); } // ------------------------------------------------- // --- Correlation Analysis with non-isolated triggers --- // ------------------------------------------------- // ### Correlation with hadrons AliAnaParticleHadronCorrelation *anacorrhadron = new AliAnaParticleHadronCorrelation(); anacorrhadron->SetInputAODName(Form("Triggers%s",calorimeter.Data())); anacorrhadron->AddToHistogramsName("AnaHadronCorrTrig_"); anacorrhadron->SetDebug(-1); anacorrhadron->SwitchOnCaloPID(); anacorrhadron->SwitchOnFiducialCut(); AliFiducialCut * fidCut1stYear = anacorrhadron->GetFiducialCut(); fidCut1stYear->DoEMCALFiducialCut(kTRUE) ; fidCut1stYear->DoPHOSFiducialCut(kTRUE) ; fidCut1stYear->SetSimpleEMCALFiducialCut(0.7,80.,120.); fidCut1stYear->SetSimplePHOSFiducialCut(0.12,260.,320.); fidCut1stYear->DoCTSFiducialCut(kTRUE) ; fidCut1stYear->SetSimpleCTSFiducialCut(0.8,0.,360.); anacorrhadron->SetPtCutRange(0.5,50); anacorrhadron->SetDeltaPhiCutRange(1.5,4.5); anacorrhadron->SetMultiplicity(80, 120); anacorrhadron->SetMultiBin(1); anacorrhadron->SwitchOffNeutralCorr(); anacorrhadron->SwitchOffEventSelection(); anacorrhadron->SwitchOnSeveralUECalculation(); anacorrhadron->SetUeDeltaPhiCutRange(TMath::Pi()/3, 2*TMath::Pi()/3); anacorrhadron->SelectIsolated(kFALSE); // do correlation with isolated photons if(kUseKinematics) anacorrhadron->SwitchOnDataMC() ;//Access MC stack and fill more histograms else anacorrhadron->SwitchOffDataMC() ; //if(calorimeter=="PHOS"){ //Correlate with particles in EMCAL //anacorrhadron->SwitchOnCaloPID(); //anacorrhadron->SwitchOnCaloPIDRecalculation(); //recommended for EMCAL //} //Set Histograms bins and ranges anacorrhadron->SetHistoPtRangeAndNBins(0, 50, 100) ; // ana->SetHistoPhiRangeAndNBins(0, TMath::TwoPi(), 100) ; // ana->SetHistoEtaRangeAndNBins(-0.7, 0.7, 100) ; if(kPrintSettings) anacorrhadron->Print(""); // ### Isolation analysis ### AliAnaParticleIsolation *anaisol = new AliAnaParticleIsolation(); anaisol->SetDebug(-1); anaisol->SetMinPt(2.0); anaisol->SetInputAODName(Form("Triggers%s",calorimeter.Data())); anaisol->AddToHistogramsName("AnaIsolTrig_"); anaisol->SetCalorimeter(calorimeter); if(kUseKinematics) anaisol->SwitchOnDataMC() ;//Access MC stack and fill more histograms else anaisol->SwitchOffDataMC() ; //Select clusters with no pair, if both clusters with pi0 mass anaisol->SwitchOffInvariantMass(); //anaisol->SetNeutralMesonSelection(nms); //Do isolation cut anaisol->SetIsolationCut(ic); //Do or not do isolation with previously produced AODs. //No effect if use of SwitchOnSeveralIsolation() anaisol->SwitchOffReIsolation(); //Multiple IC anaisol->SwitchOffSeveralIsolation() ; //Set Histograms bins and ranges anaisol->SetHistoPtRangeAndNBins(0, 50, 100) ; // ana->SetHistoPhiRangeAndNBins(0, TMath::TwoPi(), 100) ; // ana->SetHistoEtaRangeAndNBins(-0.7, 0.7, 100) ; if(kPrintSettings) anaisol->Print(""); // ------------------------------------------------- // --- Correlation Analysis with isolated triggers --- // ------------------------------------------------- // ### Correlation with hadrons AliAnaParticleHadronCorrelation *anacorrisohadron = new AliAnaParticleHadronCorrelation(); anacorrisohadron->SetInputAODName(Form("Triggers%s",calorimeter.Data())); anacorrisohadron->AddToHistogramsName("AnaHadronCorrIsoTrig_"); anacorrisohadron->SetDebug(-1); anacorrisohadron->SwitchOffCaloPID(); anacorrisohadron->SwitchOnFiducialCut(); AliFiducialCut * fidCut1stYear = anacorrisohadron->GetFiducialCut(); fidCut1stYear->DoEMCALFiducialCut(kTRUE) ; fidCut1stYear->DoPHOSFiducialCut(kTRUE) ; fidCut1stYear->SetSimpleEMCALFiducialCut(0.7,80.,120.); fidCut1stYear->SetSimplePHOSFiducialCut(0.12,260.,320.); fidCut1stYear->DoCTSFiducialCut(kTRUE) ; fidCut1stYear->SetSimpleCTSFiducialCut(0.8,0.,360.); anacorrisohadron->SetPtCutRange(0.5,50); anacorrisohadron->SetDeltaPhiCutRange(1.5,4.5); anacorrisohadron->SetMultiplicity(80, 100); anacorrisohadron->SetMultiBin(1); anacorrisohadron->SwitchOffNeutralCorr(); anacorrisohadron->SwitchOffEventSelection(); anacorrisohadron->SwitchOnSeveralUECalculation(); anacorrisohadron->SetUeDeltaPhiCutRange(TMath::Pi()/3, 2*TMath::Pi()/3); anacorrisohadron->SelectIsolated(kTRUE); // do correlation with isolated photons if(kUseKinematics) anacorrisohadron->SwitchOnDataMC() ;//Access MC stack and fill more histograms else anacorrisohadron->SwitchOffDataMC() ; //if(calorimeter=="PHOS"){ //Correlate with particles in EMCAL //anacorrhadron->SwitchOnCaloPID(); //anacorrhadron->SwitchOnCaloPIDRecalculation(); //recommended for EMCAL //} //Set Histograms bins and ranges anacorrisohadron->SetHistoPtRangeAndNBins(0, 50, 100) ; // ana->SetHistoPhiRangeAndNBins(0, TMath::TwoPi(), 100) ; // ana->SetHistoEtaRangeAndNBins(-0.7, 0.7, 100) ; if(kPrintSettings) anacorrisohadron->Print(""); // #### Configure Maker #### AliAnaPartCorrMaker * maker = new AliAnaPartCorrMaker(); maker->SetReader(reader);//pointer to reader Int_t n = 0;//Analysis number, order is important // Particle selection analysis if(calorimeter=="PHOS" || calorimeter=="EMCAL") { maker->SetCaloUtils(cu); //pointer to calorimeter utils maker->AddAnalysis(anaphoton,n++); maker->AddAnalysis(anapi0,n++); maker->AddAnalysis(anapi0ebe,n++); maker->AddAnalysis(anacorrhadronpi0,n++); maker->AddAnalysis(anaisolpi0,n++); maker->AddAnalysis(anacorrhadronisopi0,n++); } if(calorimeter=="CTS") maker->AddAnalysis(anacharge,n++); // Correlation analysis maker->AddAnalysis(anacorrhadron,n++); // Isolation analysis maker->AddAnalysis(anaisol,n++); // Correlation analysis with isolated triggers maker->AddAnalysis(anacorrisohadron,n); maker->SetAnaDebug(-1) ; maker->SwitchOnHistogramsMaker() ; if(data.Contains("delta")) maker->SwitchOffAODsMaker() ; else maker->SwitchOnAODsMaker() ; if(kPrintSettings) maker->Print(""); printf("======================== \n"); printf(" End Configuration of PartCorr analysis with detector %s \n",calorimeter.Data()); printf("======================== \n"); // Create task //=========================================================================== // AliAnalysisTaskParticleCorrelationM * task = new AliAnalysisTaskParticleCorrelationM(Form("PartCorr%s",calorimeter.Data())); AliAnalysisTaskParticleCorrelationM * task = new AliAnalysisTaskParticleCorrelationM("PartCorr"); task->SetConfigFileName(""); //Don't configure the analysis via configuration file. //task->SetDebugLevel(-1); task->SetAnalysisMaker(maker); //if(!kSimulation)task->SelectCollisionCandidates(); //AliPhysicsSelection has to be attached before. mgr->AddTask(task); // char name[128]; // sprintf(name,"PartCorr_%s",calorimeter.Data()); // cout<<"Name of task "<CreateContainer(Form(name),TList::Class(), // AliAnalysisManager::kOutputContainer, Form("PartCorr_%s.root",calorimeter.Data())); TString outputfile = AliAnalysisManager::GetCommonFileName(); outputfile.ReplaceAll(".root","") ; outputfile.Append("M.root") ; // AliAnalysisDataContainer *cout_pc = mgr->CreateContainer(Form("PartCorr_%s",calorimeter.Data()), TList::Class(), AliAnalysisManager::kOutputContainer, Form("%s:PartCorr_%s",outputfile.Data(),calorimeter.Data())); AliAnalysisDataContainer *cout_pc = mgr->CreateContainer(calorimeter.Data(), TList::Class(), AliAnalysisManager::kOutputContainer, Form("%s:PartCorr",outputfile.Data())); AliAnalysisDataContainer *cout_cuts = mgr->CreateContainer(Form("%sCuts",calorimeter.Data()), TList::Class(), AliAnalysisManager::kParamContainer, Form("%s:PartCorrCuts",outputfile.Data())); // Create ONLY the output containers for the data produced by the task. // Get and connect other common input/output containers via the manager as below //============================================================================== mgr->ConnectInput (task, 0, mgr->GetCommonInputContainer()); // AOD output slot will be used in a different way in future //if(!data.Contains("delta")) mgr->ConnectOutput (task, 0, mgr->GetCommonOutputContainer()); // mgr->ConnectOutput (task, 0, mgr->GetCommonOutputContainer()); mgr->ConnectOutput (task, 1, cout_pc); mgr->ConnectOutput (task, 2, cout_cuts); return task; }