//DEFINITION OF A FEW CONSTANTS #define round(x) ((x)>=0?(long)((x)+0.5):(long)((x)-0.5)) const Float_t phimin = 0.; const Float_t phimax = 2.*TMath::Pi(); const Float_t etamin = -0.9; const Float_t etamax = 0.9; const Int_t mintrackrefsTPC = 0; const Int_t mintrackrefsITS = 0; /* AddTask setting up the containers and adding the tasks for computing the efficiency of the Hybrid Tracks. Tasks works on ESDs and AODs (datatype established automatically). Input: hybridTrackDef: "2010" or "2011", indicates whether the 2010 definition or the 2011 definition of the hybrid tracks should be used. Only important in ESD. prodType: Data or MC period, beamType: "pp", "pPb" or "PbPb" triggerMask: Event Selection Trigger Mask bSelHijingParticles: kTRUE, select only particles from Hijing event. kFALSE, select all particles of the cocktail usePythiaxsec: kFALSE, do not use the Pythia cross section information file. This might reduce the number of errors and file opening issues. */ void AddTaskHybridTrackEfficiency(TString hybridTrackDef = "2011", char *prodType = "LHC11h", TString beamType = "PbPb", UInt_t triggerMask = AliVEvent::kMB, Bool_t bSelHijingParticles = kFALSE, Bool_t usePythiaxsec = kFALSE) { AliAnalysisManager *mgr = AliAnalysisManager::GetAnalysisManager(); if (!mgr) { Error("AddTaskPWG4HighPtSpectra", "No analysis manager to connect to."); return NULL; } TString dataType = mgr->GetInputEventHandler()->GetDataType(); // can be "ESD" or "AOD" if(dataType=="AOD") { AddTaskHybridTrackEfficiencyAOD(prodType, beamType, triggerMask, bSelHijingParticles, usePythiaxsec); } if(dataType=="ESD") { if(hybridTrackDef.Contains("2010")) AddTaskHybridTrackEfficiencyESD2010(prodType, beamType, triggerMask, bSelHijingParticles, usePythiaxsec); if(hybridTrackDef.Contains("2011")) AddTaskHybridTrackEfficiencyESD2011(prodType, beamType, triggerMask, bSelHijingParticles, usePythiaxsec); } } void AddTaskHybridTrackEfficiencyAOD(char *prodType = "LHC11h", TString beamType = "PbPb", UInt_t triggerMask = AliVEvent::kMB, Bool_t bSelHijingParticles = kFALSE, Bool_t usePythiaxsec = kFALSE) { Int_t filterMask1; //standard global tracks Int_t filterMask2; //complementary tracks Int_t filterMask; //the sum: hybrid tracks TString strRunPeriod = TString(prodType); strRunPeriod.ToLower(); if (strRunPeriod == "lhc10h" || strRunPeriod == "lhc11h" || strRunPeriod == "lhc12a" || strRunPeriod == "lhc12b" || strRunPeriod == "lhc12c" || strRunPeriod == "lhc12d" || strRunPeriod == "lhc12e" || strRunPeriod == "lhc12f" || strRunPeriod == "lhc12g" || strRunPeriod == "lhc12g" || strRunPeriod == "lhc12h" || strRunPeriod == "lhc12i" || strRunPeriod == "lhc13b" || strRunPeriod == "lhc13c" || strRunPeriod == "lhc13d" || strRunPeriod == "lhc13e" || strRunPeriod == "lhc13f" || strRunPeriod == "lhc13g" || strRunPeriod == "lhc12a15e" || strRunPeriod == "lhc13b4" || strRunPeriod == "lhc13b4_fix" || strRunPeriod == "lhc13b4_plus" || strRunPeriod == "lhc12a15f" || strRunPeriod.Contains("lhc12a17") || strRunPeriod.Contains("lhc14a1")) { filterMask = 768; filterMask1 = 256; filterMask2 = 512; bIncludeNoITS = kFALSE; if(strRunPeriod == "lhc10h") bIncludeNoITS = kTRUE; } else if (strRunPeriod == "lhc11a" || strRunPeriod == "lhc10hold" || strRunPeriod == "lhc12a15a" || strRunPeriod.Contains("lhc11a2")) { filterMask = 272; filterMask1 = 16; filterMask2 = 256; bIncludeNoITS = kTRUE; } else { ::Error("AddTaskPWG4HighPtSpectra","Period string not of predefined type. Add it to the list in this macro."); return NULL; } AliPWG4HighPtSpectra *taskSpectraSUM = ConfigureTaskPWG4HighPtSpectra(prodType,beamType,10,0,1,triggerMask,"CENT_10_SUM",bSelHijingParticles,usePythiaxsec,filterMask ); //Sum: the hybrid tracks. AliPWG4HighPtSpectra *taskSpectraRESTR = ConfigureTaskPWG4HighPtSpectra(prodType,beamType,10,0,5,triggerMask,"CENT_10_RESTR",bSelHijingParticles,usePythiaxsec,filterMask1); //High quality tracks AliPWG4HighPtSpectra *taskSpectraNOSPD = ConfigureTaskPWG4HighPtSpectra(prodType,beamType,10,7,5,triggerMask,"CENT_10_COMPL",bSelHijingParticles,usePythiaxsec,filterMask2); //Complementary tracks if(beamType=="PbPb" || beamType=="pPb") { //also vary the centrality for(int cent = 0; cent<4; cent++) { AliPWG4HighPtSpectra *taskSpectraCent0 = ConfigureTaskPWG4HighPtSpectra(prodType,beamType,cent,0,1,triggerMask,Form("CENT_%d_SUM",cent),bSelHijingParticles,usePythiaxsec,filterMask ); AliPWG4HighPtSpectra *taskSpectraCent0 = ConfigureTaskPWG4HighPtSpectra(prodType,beamType,cent,0,5,triggerMask,Form("CENT_%d_RESTR",cent),bSelHijingParticles,usePythiaxsec,filterMask1 ); AliPWG4HighPtSpectra *taskSpectraCent0 = ConfigureTaskPWG4HighPtSpectra(prodType,beamType,cent,7,5,triggerMask,Form("CENT_%d_COMPL",cent),bSelHijingParticles,usePythiaxsec,filterMask2 ); } } } void AddTaskHybridTrackEfficiencyESD2010(char *prodType = "LHC10h", TString beamType = "PbPb", UInt_t triggerMask = AliVEvent::kMB, Bool_t bSelHijingParticles = kFALSE, Bool_t usePythiaxsec = kFALSE) { AliPWG4HighPtSpectra *taskSpectra00cent10 = ConfigureTaskPWG4HighPtSpectra(prodType,beamType,10,0,0,triggerMask,"CENT_10_RAA" ,bSelHijingParticles,usePythiaxsec); // RAA track cuts AliPWG4HighPtSpectra *taskSpectra01cent10 = ConfigureTaskPWG4HighPtSpectra(prodType,beamType,10,0,1,triggerMask,"CENT_10_RESTR",bSelHijingParticles,usePythiaxsec); // High quality tracks AliPWG4HighPtSpectra *taskSpectra70cent10 = ConfigureTaskPWG4HighPtSpectra(prodType,beamType,10,7,0,triggerMask,"CENT_10_NOITS",bSelHijingParticles,usePythiaxsec); // Complementary tracks. Subtype: no ITS refit AliPWG4HighPtSpectra *taskSpectra71cent10 = ConfigureTaskPWG4HighPtSpectra(prodType,beamType,10,7,1,triggerMask,"CENT_10_NOSPD",bSelHijingParticles,usePythiaxsec); // Complementary tracks. Subtype: no SPD requirement if(beamType=="PbPb" || beamType=="pPb") { //also vary the centrality for(int cent=0; cent<4; cent++) { AliPWG4HighPtSpectra *taskSpectra00 = ConfigureTaskPWG4HighPtSpectra(prodType,beamType,cent,0,0,triggerMask,Form("CENT_%d_RAA" ,cent),bSelHijingParticles,usePythiaxsec); AliPWG4HighPtSpectra *taskSpectra01 = ConfigureTaskPWG4HighPtSpectra(prodType,beamType,cent,0,1,triggerMask,Form("CENT_%d_RESTR",cent),bSelHijingParticles,usePythiaxsec); AliPWG4HighPtSpectra *taskSpectra70 = ConfigureTaskPWG4HighPtSpectra(prodType,beamType,cent,7,0,triggerMask,Form("CENT_%d_NOITS",cent),bSelHijingParticles,usePythiaxsec); AliPWG4HighPtSpectra *taskSpectra71 = ConfigureTaskPWG4HighPtSpectra(prodType,beamType,cent,7,1,triggerMask,Form("CENT_%d_NOSPD",cent),bSelHijingParticles,usePythiaxsec); } } } void AddTaskHybridTrackEfficiencyESD2011(char *prodType = "LHC10h", TString beamType = "PbPb", UInt_t triggerMask = AliVEvent::kMB, Bool_t bSelHijingParticles = kFALSE, Bool_t usePythiaxsec = kFALSE) { AliPWG4HighPtSpectra *taskSpectra00cent10 = ConfigureTaskPWG4HighPtSpectra(prodType,beamType,10,0,0,triggerMask,"CENT_10_RAA" ,bSelHijingParticles,usePythiaxsec); // RAA track cuts AliPWG4HighPtSpectra *taskSpectra01cent10 = ConfigureTaskPWG4HighPtSpectra(prodType,beamType,10,0,5,triggerMask,"CENT_10_RESTR",bSelHijingParticles,usePythiaxsec); // High quality tracks AliPWG4HighPtSpectra *taskSpectra71cent10 = ConfigureTaskPWG4HighPtSpectra(prodType,beamType,10,7,5,triggerMask,"CENT_10_NOSPD",bSelHijingParticles,usePythiaxsec); // Complementary tracks. Subtype: no SPD requirement if(beamType=="PbPb" || beamType=="pPb") { //also vary the centrality for(int cent=0; cent<4; cent++) { AliPWG4HighPtSpectra *taskSpectra00 = ConfigureTaskPWG4HighPtSpectra(prodType,beamType,cent,0,0,triggerMask,Form("CENT_%d_RAA" ,cent),bSelHijingParticles,usePythiaxsec); AliPWG4HighPtSpectra *taskSpectra01 = ConfigureTaskPWG4HighPtSpectra(prodType,beamType,cent,0,5,triggerMask,Form("CENT_%d_RESTR",cent),bSelHijingParticles,usePythiaxsec); AliPWG4HighPtSpectra *taskSpectra71 = ConfigureTaskPWG4HighPtSpectra(prodType,beamType,cent,7,5,triggerMask,Form("CENT_%d_NOSPD",cent),bSelHijingParticles,usePythiaxsec); } } } void AddTaskHybridTrackEfficiencyQA_AOD_train(char *prodType = "LHC11h", TString beamType = "PbPb", UInt_t triggerMask = AliVEvent::kMB, Bool_t bSelHijingParticles = kFALSE, Bool_t usePythiaxsec = kFALSE) { Int_t filterMask1; //standard global tracks Int_t filterMask2; //complementary tracks Int_t filterMask; //the sum: hybrid tracks TString strRunPeriod = TString(prodType); strRunPeriod.ToLower(); if (strRunPeriod == "lhc10h" || strRunPeriod == "lhc11h" || strRunPeriod == "lhc12a" || strRunPeriod == "lhc12b" || strRunPeriod == "lhc12c" || strRunPeriod == "lhc12d" || strRunPeriod == "lhc12e" || strRunPeriod == "lhc12f" || strRunPeriod == "lhc12g" || strRunPeriod == "lhc12g" || strRunPeriod == "lhc12h" || strRunPeriod == "lhc12i" || strRunPeriod == "lhc13b" || strRunPeriod == "lhc13c" || strRunPeriod == "lhc13d" || strRunPeriod == "lhc13e" || strRunPeriod == "lhc13f" || strRunPeriod == "lhc13g" || strRunPeriod == "lhc12a15e" || strRunPeriod == "lhc13b4" || strRunPeriod == "lhc13b4_fix" || strRunPeriod == "lhc13b4_plus" || strRunPeriod == "lhc12a15f" || strRunPeriod.Contains("lhc12a17") || strRunPeriod.Contains("lhc14a1")) { filterMask = 768; filterMask1 = 256; filterMask2 = 512; } else if (strRunPeriod == "lhc11a" || strRunPeriod == "lhc10hold" || strRunPeriod == "lhc12a15a" || strRunPeriod.Contains("lhc11a2")) { filterMask = 272; filterMask1 = 16; filterMask2 = 256; } else { ::Error("AddTaskPWG4HighPtSpectra","Period string not of predefined type. Add it to the list in this macro."); return NULL; } AliPWG4HighPtSpectra *taskSpectraSUM = ConfigureTaskPWG4HighPtSpectra(prodType,beamType,10,0,1,triggerMask,"SUM" ,bSelHijingParticles,usePythiaxsec,filterMask ); //Sum: the hybrid tracks. AliPWG4HighPtSpectra *taskSpectraRESTR = ConfigureTaskPWG4HighPtSpectra(prodType,beamType,10,0,5,triggerMask,"RESTR",bSelHijingParticles,usePythiaxsec,filterMask1); //With SPD and ITS refit. AliPWG4HighPtSpectra *taskSpectraNOSPD = ConfigureTaskPWG4HighPtSpectra(prodType,beamType,10,7,5,triggerMask,"NOSPD",bSelHijingParticles,usePythiaxsec,filterMask2); //Only ITS refit, not SPD. if(beamType=="PbPb" || beamType=="pPb") { //also vary the centrality AliPWG4HighPtSpectra *taskSpectraCent0 = ConfigureTaskPWG4HighPtSpectra(prodType,beamType,0 ,0,1,triggerMask,"CENT0",bSelHijingParticles,usePythiaxsec,filterMask ); AliPWG4HighPtSpectra *taskSpectraCent1 = ConfigureTaskPWG4HighPtSpectra(prodType,beamType,1 ,0,1,triggerMask,"CENT1",bSelHijingParticles,usePythiaxsec,filterMask ); AliPWG4HighPtSpectra *taskSpectraCent2 = ConfigureTaskPWG4HighPtSpectra(prodType,beamType,2 ,0,1,triggerMask,"CENT2",bSelHijingParticles,usePythiaxsec,filterMask ); AliPWG4HighPtSpectra *taskSpectraCent3 = ConfigureTaskPWG4HighPtSpectra(prodType,beamType,3 ,0,1,triggerMask,"CENT3",bSelHijingParticles,usePythiaxsec,filterMask ); } } AliPWG4HighPtSpectra* ConfigureTaskPWG4HighPtSpectra(char *prodType = "LHC10e14", TString beamType = "PbPb", Int_t centClass = 0, Int_t trackType = 0, Int_t cuts = 0, UInt_t triggerMask = AliVEvent::kMB, TString taskName, Bool_t bSelHijingParticles = kFALSE, Bool_t usePythiaxsec = kTRUE, Int_t filterMask = 0) { /* trackType: 0 = global 1 = TPC stand alone 2 = TPC stand alone constrained to SPD vertex 4 = TPC stand alone constrained to SPD vertex with QA track selection on global tracks 5 = Hybrid tracks: constrained TPConly for which no tight ITS is available 6 = Hybrid tracks: constrained loose global for which no tight ITS is available cuts: 0 (global) = standard ITSTPC2010 a la RAA analysis 1 (global) = ITSrefit, no SPD requirements -> standard for jet analysis 2 (global) = ITSrefit + no hits in SPD 3 (global) = standard ITS tight cuts with nCrossed rows cut for hybrid tracks 0 (TPC) = standard TPC + NClusters>70 1 (TPC) = standard TPC + NClusters>0 --> to study new TPC QA recommendations 0 (hybrid 5) = constrained TPConly for which no tight ITS is available 0 (hybrid 6) = constrained loose global for which no tight ITS is available */ // Creates HighPtSpectra analysis task and adds it to the analysis manager. //Load common track cut class gROOT->LoadMacro("$ALICE_ROOT/PWGJE/macros/CreateTrackCutsPWGJE.C"); // A. Get the pointer to the existing analysis manager via the static access method. //============================================================================== AliAnalysisManager *mgr = AliAnalysisManager::GetAnalysisManager(); if (!mgr) { Error("AddTaskPWG4HighPtSpectra", "No analysis manager to connect to."); return NULL; } TString dataType = mgr->GetInputEventHandler()->GetDataType(); // can be "ESD" or "AOD" // B. Check the analysis type using the event handlers connected to the analysis // manager. The availability of MC handler can also be checked here. //============================================================================== if (!mgr->GetInputEventHandler()) { ::Error("AddTaskPWG4HighPtSpectra", "This task requires an input event handler"); return NULL; } // C. Create the task, add it to manager. //=========================================================================== //CONTAINER DEFINITION Info("AliPWG4HighPtSpectra","SETUP CONTAINER"); //the sensitive variables, their indices UInt_t ipt = 0; UInt_t iphi = 1; UInt_t ieta = 2; UInt_t incls = 3; //Setting up the container grid... UInt_t nstep = 4; //Steps/Modes for containers Int_t kStepReconstructed = 0; Int_t kStepSecondaries = 1; Int_t kStepReconstructedMC = 2; Int_t kStepMCAcceptance = 3; //redefine pt ranges in case of Jet-Jet production Float_t ptBinEdges[4][4]; Float_t ptmin = 0.0 ; Float_t ptmax = 100.0 ; ptBinEdges[0][0] = 2.; ptBinEdges[0][1] = 0.2; ptBinEdges[1][0] = 6.; ptBinEdges[1][1] = 0.5; ptBinEdges[2][0] = 20.; ptBinEdges[2][1] = 2.; ptBinEdges[3][0] = 100.; ptBinEdges[3][1] = 5.; const Int_t nvar = 4; //number of variables on the grid: pt:phi:eta:NClsIter1 const Int_t nbin11 = round((ptBinEdges[0][0]-ptmin)/ptBinEdges[0][1]); const Int_t nbin12 = round((ptBinEdges[1][0]-ptBinEdges[0][0])/ptBinEdges[1][1])+nbin11; const Int_t nbin13 = round((ptBinEdges[2][0]-ptBinEdges[1][0])/ptBinEdges[2][1])+nbin12; const Int_t nbin14 = round((ptBinEdges[3][0]-ptBinEdges[2][0])/ptBinEdges[3][1])+nbin13; const Int_t nbin1 = nbin14; //bins in pt const Int_t nbin2 = 36; //bins in phi const Int_t nbin3 = 10; //bins in eta const Int_t nbin4 = 1;//6; //bins in NClsIter1: 0 70 80 90 100 120 //arrays for the number of bins in each dimension Int_t iBin[nvar]; iBin[0]=nbin1; iBin[1]=nbin2; iBin[2]=nbin3; iBin[3]=nbin4; //arrays for lower bounds : Double_t *binLim1=new Double_t[nbin1+1]; Double_t *binLim2=new Double_t[nbin2+1]; Double_t *binLim3=new Double_t[nbin3+1]; Double_t *binLim4=new Double_t[nbin4+1]; //values for bin lower bounds for(Int_t i=0; i<=nbin1; i++) { if(i<=nbin11) binLim1[i]=(Double_t)ptmin + (ptBinEdges[0][0]-ptmin)/nbin11*(Double_t)i ; if(i<=nbin12 && i>nbin11) binLim1[i]=(Double_t)ptBinEdges[0][0] + (ptBinEdges[1][0]-ptBinEdges[0][0])/(nbin12-nbin11)*((Double_t)i-(Double_t)nbin11) ; if(i<=nbin13 && i>nbin12) binLim1[i]=(Double_t)ptBinEdges[1][0] + (ptBinEdges[2][0]-ptBinEdges[1][0])/(nbin13-nbin12)*((Double_t)i-(Double_t)nbin12) ; if(i<=nbin14 && i>nbin13) binLim1[i]=(Double_t)ptBinEdges[2][0] + (ptBinEdges[3][0]-ptBinEdges[2][0])/(nbin14-nbin13)*((Double_t)i-(Double_t)nbin13) ; } for(Int_t i=0; i<=nbin2; i++) binLim2[i]=(Double_t)phimin + (phimax-phimin)/nbin2*(Double_t)i ; for(Int_t i=0; i<=nbin3; i++) binLim3[i]=(Double_t)etamin + (etamax-etamin)/nbin3*(Double_t)i ; binLim4[0] = 70.;//0.; binLim4[1] = 160.;//70.; // binLim4[2] = 80.; // binLim4[3] = 90.; // binLim4[4] = 100.; // binLim4[5] = 120.; // binLim4[6] = 160.; AliCFContainer* containerPos = new AliCFContainer("containerPos","container for positive tracks",nstep,nvar,iBin); //setting the bin limits containerPos -> SetBinLimits(ipt,binLim1); containerPos -> SetBinLimits(iphi,binLim2); containerPos -> SetBinLimits(ieta,binLim3); containerPos -> SetBinLimits(incls,binLim4); AliCFContainer* containerNeg = new AliCFContainer("containerNeg","container for negative tracks",nstep,nvar,iBin); //setting the bin limits containerNeg -> SetBinLimits(ipt,binLim1); containerNeg -> SetBinLimits(iphi,binLim2); containerNeg -> SetBinLimits(ieta,binLim3); containerNeg -> SetBinLimits(incls,binLim4); //CREATE THE CUTS ----------------------------------------------- //Use AliESDtrackCuts, only for ESD analysis AliESDtrackCuts *trackCuts = new AliESDtrackCuts("AliESDtrackCuts","Standard Cuts"); AliESDtrackCuts *trackCutsReject = 0x0; if(dataType=="ESD") { //Standard Cuts //Set track cuts for global tracks if(trackType==0 && cuts==0) { // tight global tracks - RAA analysis trackCuts = CreateTrackCutsPWGJE(1000); } if(trackType==0 && cuts==1) { //Cuts global tracks with ITSrefit requirement and SPDrequirement for jet analysis trackCuts = CreateTrackCutsPWGJE(10001006); } if(trackType==0 && cuts==5) { //Cuts global tracks with ITSrefit requirement and SPDrequirement for jet analysis + NCrossedRowsCut>120 recommended in 2011 trackCuts = CreateTrackCutsPWGJE(10001008); } if(trackType==0 && cuts==2) { //Cuts global tracks with ITSrefit requirement but without SPD if (!strcmp(prodType,"LHC12a15e")) trackCuts = CreateTrackCutsPWGJE(10011008); else trackCuts = CreateTrackCutsPWGJE(10011006); } if(trackType==7 && cuts==0) { // no requirements on SPD and ITSrefit failed trackCuts = CreateTrackCutsPWGJE(10041006); //no ITSrefit requirement trackCutsReject = CreateTrackCutsPWGJE(1006); //ITSrefit requirement trackCutsReject->SetEtaRange(etamin,etamax); trackCutsReject->SetPtRange(0.15, 1e10); } if(trackType==7 && cuts==4) { // tight global tracks + NCrossedRowsCut>120 recommended in 2011 trackCuts = CreateTrackCutsPWGJE(10041008); trackCutsReject = CreateTrackCutsPWGJE(1008); trackCutsReject->SetEtaRange(-0.9,0.9); trackCutsReject->SetPtRange(0.15, 1e10); } if(trackType==7 && cuts==1) { //Cuts global tracks with ITSrefit requirement but without SPD trackCuts = CreateTrackCutsPWGJE(10011006); } if(trackType==7 && cuts==5) { // tight global tracks + NCrossedRowsCut>120 recommended in 2011 trackCuts = CreateTrackCutsPWGJE(10011008); } if(trackType==7 && cuts==2) { // no requirements on SPD and ITSrefit failed trackCuts = CreateTrackCutsPWGJE(10041006); //no ITSrefit requirement filter 256 trackCutsReject = CreateTrackCutsPWGJE(10001006); //ITSrefit requirement filter 16 trackCutsReject->SetEtaRange(etamin,etamax); trackCutsReject->SetPtRange(0.15, 1e10); } if(trackType==7 && cuts==6) { // no requirements on SPD and ITSrefit failed trackCuts = CreateTrackCutsPWGJE(10041008); //no ITSrefit requirement filter 256 trackCutsReject = CreateTrackCutsPWGJE(10001008); //ITSrefit requirement filter 16 trackCutsReject->SetEtaRange(-0.9,0.9); trackCutsReject->SetPtRange(0.15, 1e10); } if(trackType==1 && cuts==0) { //Set track cuts for TPConly tracks trackCuts = CreateTrackCutsPWGJE(2001); } if(trackType==2 && cuts==0) { // Set track cuts for TPConly constrained tracks trackCuts = CreateTrackCutsPWGJE(2001); } trackCuts->SetEtaRange(etamin,etamax); trackCuts->SetPtRange(0.15, 1e10); } // Gen-Level kinematic cuts AliCFTrackKineCuts *mcKineCuts = new AliCFTrackKineCuts("mcKineCuts","MC-level kinematic cuts"); mcKineCuts->SetPtRange(0.15,1e10); mcKineCuts->SetEtaRange(etamin,etamax);//-0.5,0.5); mcKineCuts->SetRequireIsCharged(kTRUE); //Acceptance Cuts //AliCFAcceptanceCuts *mcAccCuts = new AliCFAcceptanceCuts("mcAccCuts","MC acceptance cuts"); // mcAccCuts->SetMinNHitITS(mintrackrefsITS); //mcAccCuts->SetMinNHitTPC(mintrackrefsTPC); TObjArray* recMCList = new TObjArray(0); TObjArray* secList = new TObjArray(0) ; printf("CREATE MC KINE CUTS\n"); TObjArray* recList = new TObjArray(0); TObjArray* mcList = new TObjArray(0) ; mcList->AddLast(mcKineCuts); recList->AddLast(mcKineCuts); //mcList->AddLast(mcAccCuts); //CREATE THE INTERFACE TO CORRECTION FRAMEWORK USED IN THE TASK printf("CREATE INTERFACE AND CUTS\n"); AliCFManager* manPos = new AliCFManager("manPos","Manager for Positive tracks") ; manPos->SetParticleContainer(containerPos); manPos->SetParticleCutsList(kStepReconstructed,recList); manPos->SetParticleCutsList(kStepSecondaries,secList); manPos->SetParticleCutsList(kStepReconstructedMC,recMCList); manPos->SetParticleCutsList(kStepMCAcceptance,mcList); AliCFManager* manNeg = new AliCFManager("manNeg","Manager for Negative tracks") ; manNeg->SetParticleContainer(containerNeg); manNeg->SetParticleCutsList(kStepReconstructed,recList); manNeg->SetParticleCutsList(kStepSecondaries,secList); manNeg->SetParticleCutsList(kStepReconstructedMC,recMCList); manNeg->SetParticleCutsList(kStepMCAcceptance,mcList); TString trigName = ""; if (triggerMask == AliVEvent::kAnyINT) trigName += "kAnyINT"; else if (triggerMask == AliVEvent::kAny) trigName += "kAny"; else if(triggerMask == AliVEvent::kINT7) trigName += "kINT7"; else if(triggerMask == AliVEvent::kMB) trigName += "kMB"; else if(triggerMask == AliVEvent::kEMC7) trigName += "kEMC7"; else if(triggerMask == AliVEvent::kEMCEJE) trigName += "kEMCEJE"; else if(triggerMask == AliVEvent::kEMCEGA) trigName += "kEMCEGA"; AliPWG4HighPtSpectra *taskPWG4HighPtSpectra = new AliPWG4HighPtSpectra(Form("AliPWG4HighPtSpectra%s_%s",taskName.Data(),trigName.Data())); taskPWG4HighPtSpectra->SetTrackType(trackType); if(dataType=="AOD") taskPWG4HighPtSpectra->SetFilterMask(filterMask); else { taskPWG4HighPtSpectra->SetCuts(trackCuts); taskPWG4HighPtSpectra->SetCutsReject(trackCutsReject); } taskPWG4HighPtSpectra->SetCFManagerPos(manPos); //here is set the CF manager + taskPWG4HighPtSpectra->SetCFManagerNeg(manNeg); //here is set the CF manager - taskPWG4HighPtSpectra->SetTriggerMask(triggerMask); taskPWG4HighPtSpectra->SelectHIJINGOnly(bSelHijingParticles); taskPWG4HighPtSpectra->SetReadAODData(dataType=="AOD"? kTRUE : kFALSE); if(!usePythiaxsec) taskPWG4HighPtSpectra->SetNoPythiaInfo(); if(beamType=="PbPb" || beamType=="pPb") { taskPWG4HighPtSpectra->SetIsPbPb(kTRUE); taskPWG4HighPtSpectra->SetCentralityClass(centClass); } // taskPWG4HighPtSpectra->SetSigmaConstrainedMax(5.); // E. 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 //============================================================================== //------ output containers ------ TString outputfile = AliAnalysisManager::GetCommonFileName(); outputfile += Form(":PWG4_HighPtSpectra%s_%s",taskName.Data(),trigName.Data()); AliAnalysisDataContainer *coutput0 = 0x0; AliAnalysisDataContainer *coutput1 = 0x0; AliAnalysisDataContainer *coutput2 = 0x0; AliAnalysisDataContainer *cout_cuts0 = 0x0; coutput0 = mgr->CreateContainer(Form("chist0HighPtSpectra%s_%s",taskName.Data(),trigName.Data()), TList::Class(),AliAnalysisManager::kOutputContainer,outputfile); coutput1 = mgr->CreateContainer(Form("ccontainer0HighPtSpectra%s_%s",taskName.Data(),trigName.Data()), AliCFContainer::Class(),AliAnalysisManager::kOutputContainer,outputfile); coutput2 = mgr->CreateContainer(Form("ccontainer1HighPtSpectra%s_%s",taskName.Data(),trigName.Data()), AliCFContainer::Class(),AliAnalysisManager::kOutputContainer,outputfile); cout_cuts0 = mgr->CreateContainer(Form("qa_SpectraTrackCuts%s_%s",taskName.Data(),trigName.Data()), AliESDtrackCuts::Class(), AliAnalysisManager::kParamContainer,outputfile); mgr->AddTask(taskPWG4HighPtSpectra); mgr->ConnectInput(taskPWG4HighPtSpectra,0,mgr->GetCommonInputContainer()); mgr->ConnectOutput(taskPWG4HighPtSpectra,0,coutput0); mgr->ConnectOutput(taskPWG4HighPtSpectra,1,coutput1); mgr->ConnectOutput(taskPWG4HighPtSpectra,2,coutput2); mgr->ConnectOutput(taskPWG4HighPtSpectra,3,cout_cuts0); // Return task pointer at the end return taskPWG4HighPtSpectra; }