#include "AliESDInputHandler.h"
#include "AliPicoTrack.h"
#include "AliEventPoolManager.h"
+#include "AliESDtrackCuts.h"
// PID includes
#include "AliPIDResponse.h"
fEtamin(-0.9), fEtamax(0.9),
fAreacut(0.0), fTrkBias(5), fClusBias(5), fTrkEta(0.9),
fJetPtcut(15.0), fJetRad(0.4), fConstituentCut(0.15),
- fDoEventMixing(0), fMixingTracks(50000),
+ fesdTrackCuts(0),
+ fDoEventMixing(0), fMixingTracks(50000), fNMIXtracks(5000), fNMIXevents(5),
+ fCentBinSize(1),
+ fTriggerEventType(AliVEvent::kAny), fMixingEventType(AliVEvent::kAny),
+ fDoEffCorr(0), fEffFunctionCorr(0),
doPlotGlobalRho(0), doVariableBinning(0), dovarbinTHnSparse(0),
makeQAhistos(0), makeBIAShistos(0), makeextraCORRhistos(0), makeoldJEThadhistos(0),
allpidAXIS(0), fcutType("EMCAL"), doPID(0), doPIDtrackBIAS(0),
- doComments(0), doIOon(0),
+ doComments(0),
+ doFlavourJetAnalysis(0), fJetFlavTag(-99),
+ fBeam(kNA),
fLocalRhoVal(0),
- fTracksName(""), fJetsName(""),
+ fTracksName(""), fTracksNameME(""), fJetsName(""),
event(0),
isPItpc(0), isKtpc(0), isPtpc(0), // pid TPC
isPIits(0), isKits(0), isPits(0), // pid ITS
isPItof(0), isKtof(0), isPtof(0), // pid TOF
fPoolMgr(0x0),
fPIDResponse(0x0), fTPCResponse(),
- fESD(0), fAOD(0),
+ fESD(0), fAOD(0), fVevent(0),
+ fHistEventQA(0), fHistEventSelectionQA(0),
+ fHistCentZvertGA(0), fHistCentZvertJE(0), fHistCentZvertMB(0), fHistCentZvertAny(0),
fHistTPCdEdX(0), fHistITSsignal(0), //fHistTOFsignal(0),
fHistRhovsCent(0), fHistNjetvsCent(0), fHistCentrality(0),
fHistZvtx(0), fHistMult(0),
fHistJetPhi(0), fHistTrackPhi(0),
+ fHistLocalRhoJetpt(0),
fHistJetHaddPhiIN(0), fHistJetHaddPhiOUT(0), fHistJetHaddPhiMID(0),
fHistJetHaddPhiBias(0), fHistJetHaddPhiINBias(0), fHistJetHaddPhiOUTBias(0), fHistJetHaddPhiMIDBias(0),
fHistMEdPHI(0),
SetMakeGeneralHistograms(kTRUE);
- // define input and output slots here
- if(doIOon > 0 ) DefineInput(0, TChain::Class());
- if(doIOon > 0 ) DefineOutput(1, TList::Class());
}
//________________________________________________________________________
fEtamin(-0.9), fEtamax(0.9),
fAreacut(0.0), fTrkBias(5), fClusBias(5), fTrkEta(0.9),
fJetPtcut(15.0), fJetRad(0.4), fConstituentCut(0.15),
- fDoEventMixing(0), fMixingTracks(50000),
+ fesdTrackCuts(0),
+ fDoEventMixing(0), fMixingTracks(50000), fNMIXtracks(5000), fNMIXevents(5),
+ fCentBinSize(1),
+ fTriggerEventType(AliVEvent::kAny), fMixingEventType(AliVEvent::kAny),
+ fDoEffCorr(0), fEffFunctionCorr(0),
doPlotGlobalRho(0), doVariableBinning(0), dovarbinTHnSparse(0),
makeQAhistos(0), makeBIAShistos(0), makeextraCORRhistos(0), makeoldJEThadhistos(0),
allpidAXIS(0), fcutType("EMCAL"), doPID(0), doPIDtrackBIAS(0),
- doComments(0), doIOon(0),
+ doComments(0),
+ doFlavourJetAnalysis(0), fJetFlavTag(-99),
+ fBeam(kNA),
fLocalRhoVal(0),
- fTracksName(""), fJetsName(""),
+ fTracksName(""), fTracksNameME(""), fJetsName(""),
event(0),
isPItpc(0), isKtpc(0), isPtpc(0), // pid TPC
isPIits(0), isKits(0), isPits(0), // pid ITS
isPItof(0), isKtof(0), isPtof(0), // pid TOF
fPoolMgr(0x0),
fPIDResponse(0x0), fTPCResponse(),
- fESD(0), fAOD(0),
+ fESD(0), fAOD(0), fVevent(0),
+ fHistEventQA(0), fHistEventSelectionQA(0),
+ fHistCentZvertGA(0), fHistCentZvertJE(0), fHistCentZvertMB(0), fHistCentZvertAny(0),
fHistTPCdEdX(0), fHistITSsignal(0), //fHistTOFsignal(0),
fHistRhovsCent(0), fHistNjetvsCent(0), fHistCentrality(0),
fHistZvtx(0), fHistMult(0),
fHistJetPhi(0), fHistTrackPhi(0),
+ fHistLocalRhoJetpt(0),
fHistJetHaddPhiIN(0), fHistJetHaddPhiOUT(0), fHistJetHaddPhiMID(0),
fHistJetHaddPhiBias(0), fHistJetHaddPhiINBias(0), fHistJetHaddPhiOUTBias(0), fHistJetHaddPhiMIDBias(0),
fHistMEdPHI(0),
SetMakeGeneralHistograms(kTRUE);
- // define input and output slots here
- if(doIOon > 0 ) DefineInput(0, TChain::Class());
- if(doIOon > 0 ) DefineOutput(1, TList::Class());
}
//_______________________________________________________________________
fHistJetHaddPhiIN = new TH1F("fHistJetHaddPhiIN","Jet-Hadron #Delta#varphi IN PLANE", 128,-0.5*TMath::Pi(), 1.5*TMath::Pi());
fHistJetHaddPhiOUT = new TH1F("fHistJetHaddPhiOUT","Jet-Hadron #Delta#varphi OUT PLANE",128,-0.5*TMath::Pi(), 1.5*TMath::Pi());
fHistJetHaddPhiMID = new TH1F("fHistJetHaddPhiMID","Jet-Hadron #Delta#varphi MIDDLE of PLANE",128,-0.5*TMath::Pi(), 1.5*TMath::Pi());
+ fHistLocalRhoJetpt = new TH1F("fHistLocalRhoJetpt","Local Rho corrected Jet p_{T}", 50, -50, 200);
+
+ // Centrality and Zvertex distribution for various triggers - Event Mixing QA
+ fHistCentZvertGA = new TH2F("fHistCentZvertGA", "Centrality - Z-vertex distribution for GA trigger", 20, 0, 100, 10, -10, 10);
+ fOutput->Add(fHistCentZvertGA);
+ fHistCentZvertJE = new TH2F("fHistCentZvertJE", "Centrality - Z-vertex distribution for JE trigger", 20, 0, 100, 10, -10, 10);
+ fOutput->Add(fHistCentZvertJE);
+ fHistCentZvertMB = new TH2F("fHistCentZvertMB", "Centrality - Z-vertex distribution for MB trigger", 20, 0, 100, 10, -10, 10);
+ fOutput->Add(fHistCentZvertMB);
+ fHistCentZvertAny = new TH2F("fHistCentZvertAny", "Centrality - Z-vertex distribution for kAny trigger", 20, 0, 100, 10, -10, 10);
+ fOutput->Add(fHistCentZvertAny);
+
+ // Event QA histo
+ fHistEventQA = new TH1F("fHistEventQA", "Event Counter at checkpoints in code", 20, 0.5, 20.5);
+ SetfHistQAcounterLabels(fHistEventQA);
+ fOutput->Add(fHistEventQA);
+
+ // Event Selection QA histo
+ fHistEventSelectionQA = new TH1F("fHistEventSelectionQA", "Trigger Selection Counter", 20, 0.5, 20.5);
+ SetfHistEvtSelQALabels(fHistEventSelectionQA);
+ fOutput->Add(fHistEventSelectionQA);
// add to output lists
fOutput->Add(fHistNjetvsCent);
fOutput->Add(fHistJetHaddPhiIN);
fOutput->Add(fHistJetHaddPhiOUT);
fOutput->Add(fHistJetHaddPhiMID);
+ fOutput->Add(fHistLocalRhoJetpt);
+
+ fHistTPCdEdX = new TH2F("TPCdEdX", "TPCdEdX", 400, 0.0, 20.0, 500, 0, 500);
+ fOutput->Add(fHistTPCdEdX);
// create histo's used for general QA
if (makeQAhistos) {
- fHistTPCdEdX = new TH2F("TPCdEdX", "TPCdEdX", 2000, 0.0, 100.0, 500, 0, 500);
+ //fHistTPCdEdX = new TH2F("TPCdEdX", "TPCdEdX", 2000, 0.0, 100.0, 500, 0, 500);
fHistITSsignal = new TH2F("ITSsignal", "ITSsignal", 2000, 0.0, 100.0, 500, 0, 500);
// fHistTOFsignal = new TH2F("TOFsignal", "TOFsignal", 2000, 0.0, 100.0, 500, 0, 500);
fHistCentrality = new TH1F("fHistCentrality","centrality",100,0,100);
fHistMEphieta = new TH2F("fHistMEphieta", "Mixed Event #phi-#eta distribution", 64, -0.5*TMath::Pi(), 1.5*TMath::Pi(), 64,-1.8,1.8); // was 64 bins
// add to output list
- fOutput->Add(fHistTPCdEdX);
+ //fOutput->Add(fHistTPCdEdX);
fOutput->Add(fHistITSsignal);
//fOutput->Add(fHistTOFsignal);
fOutput->Add(fHistCentrality);
fOutput->Add(fHistJetPtNconBiasEm[i]);
} // extra Correlations histos switch
}
+
+ // variable binned pt for THnSparse's
+ Double_t xlowjetPT[] = {15, 16, 18, 20, 22, 24, 26, 28, 30, 32, 34, 36, 38, 40, 45, 50, 55, 60, 65, 70, 75, 80, 100, 150, 200, 300};
+ Double_t xlowtrPT[] = {0.15,0.2,0.25,0.3,0.35,0.4,0.45,0.5,0.6,0.7,0.8,0.9,1.0,1.2,1.4,1.6,1.8,2.0,2.2,2.4,2.6,2.8,3.0,3.2,3.4,3.6,3.8,4.0,4.2,4.4,4.6,4.8,5.0,5.5,6.0,6.5,7.0,7.5,8.0,9.0,10.0,12.0,14.0,16.0,18.0,20.0,25.0,30.0,40.0,50.0,75.0};
+
+ // tracks: 51, jets: 26
+ // number of bins you tell histogram should be (# in array - 1) because the last bin
+ // is the right-most edge of the histogram
+ // i.e. this is for PT and there are 57 numbers (bins) thus we have 56 bins in our histo
+ Int_t nbinsjetPT = sizeof(xlowjetPT)/sizeof(Double_t) - 1;
+ Int_t nbinstrPT = sizeof(xlowtrPT)/sizeof(Double_t) - 1;
// set up jet-hadron sparse
- UInt_t bitcoded = 0; // bit coded, see GetDimParams() below
- UInt_t cifras = 0;
- UInt_t bitcode = 0; // bit coded, see GetDimParamsPID() below
+ UInt_t bitcodeMESE = 0; // bit coded, see GetDimParams() below
+ UInt_t bitcodePID = 0; // bit coded, see GetDimParamsPID() below
UInt_t bitcodeCorr = 0; // bit coded, see GetDimparamsCorr() below
- bitcoded = 1<<0 | 1<<1 | 1<<2 | 1<<3 | 1<<4 | 1<<5 | 1<<6 | 1<<7 | 1<<8; // | 1<<9;
- if(fDoEventMixing) fhnJH = NewTHnSparseD("fhnJH", bitcoded);
- if(fDoEventMixing) fOutput->Add(fhnJH);
-
- bitcodeCorr = 1<<0 | 1<<1 | 1<<2; //| 1<<3 | 1<<4 | 1<<5;
- fhnCorr = NewTHnSparseDCorr("fhnCorr", bitcodeCorr);
- fOutput->Add(fhnCorr);
+ bitcodeMESE = 1<<0 | 1<<1 | 1<<2 | 1<<3 | 1<<4 | 1<<5 | 1<<6; // | 1<<7 | 1<<8 | 1<<9;
+ if(fDoEventMixing) {
+ fhnJH = NewTHnSparseF("fhnJH", bitcodeMESE);
-/*
+ if(dovarbinTHnSparse){
+ fhnJH->GetAxis(1)->Set(nbinsjetPT, xlowjetPT);
+ fhnJH->GetAxis(2)->Set(nbinstrPT, xlowtrPT);
+ }
+
+ fOutput->Add(fhnJH);
+ }
+
+ bitcodeCorr = 1<<0 | 1<<1 | 1<<2 | 1<<3; // | 1<<4 | 1<<5;
+ fhnCorr = NewTHnSparseFCorr("fhnCorr", bitcodeCorr);
+ if(dovarbinTHnSparse) fhnCorr->GetAxis(1)->Set(nbinsjetPT, xlowjetPT);
+ fOutput->Add(fhnCorr);
+
+ /*
+ Double_t centralityBins[nCentralityBins+1];
+ for(Int_t ic=0; ic<nCentralityBins+1; ic++){
+ if(ic==nCentralityBins) centralityBins[ic]=500;
+ else centralityBins[ic]=10.0*ic;
+ }
+ */
+
+ // set up centrality bins for mixed events
// for pp we need mult bins for event mixing. Create binning here, to also make a histogram from it
- Int_t nCentralityBins = 8;
- Double_t centralityBins[9] = {0.0, 4., 9, 15, 25, 35, 55, 100.0,500.0};
- Double_t centralityBins[nCentralityBins+1];
- for(Int_t ic=0; ic<nCentralityBins+1; ic++){
- if(ic==nCentralityBins) centralityBins[ic]=500;
- else centralityBins[ic]=10.0*ic;
+ Int_t nCentralityBinspp = 8;
+ //Double_t centralityBinspp[nCentralityBinspp+1];
+ Double_t centralityBinspp[9] = {0.0, 4., 9, 15, 25, 35, 55, 100.0, 500.0};
+
+ // Setup for Pb-Pb collisions
+ Int_t nCentralityBinsPbPb = 100;
+ Double_t mult = 1.0;
+ if(fCentBinSize==1) {
+ nCentralityBinsPbPb = 100;
+ mult = 1.0;
+ } else if(fCentBinSize==2){
+ nCentralityBinsPbPb = 50;
+ mult = 2.0;
+ } else if(fCentBinSize==5){
+ nCentralityBinsPbPb = 20;
+ mult = 5.0;
+ } else if(fCentBinSize==10){
+ nCentralityBinsPbPb = 10;
+ mult = 10.0;
+ }
+ Double_t centralityBinsPbPb[nCentralityBinsPbPb]; // nCentralityBinsPbPb
+ for(Int_t ic=0; ic<nCentralityBinsPbPb; ic++){
+ centralityBinsPbPb[ic]=mult*ic;
}
-*/
- // setup for Pb-Pb collisions
- Int_t nCentralityBins = 100;
- Double_t centralityBins[nCentralityBins+1];
- for(Int_t ic=0; ic<nCentralityBins; ic++){
- centralityBins[ic]=1.0*ic;
+/*
+ Int_t nCentralityBinsPbPb = 10; //100;
+ Double_t centralityBinsPbPb[nCentralityBinsPbPb+1];
+ for(Int_t ic=0; ic<nCentralityBinsPbPb; ic++){
+ centralityBinsPbPb[ic]=10.0*ic; //1.0*ic;
}
+*/
- fHistMult = new TH1F("fHistMult","multiplicity",nCentralityBins,centralityBins);
+ if(fBeam == 0) fHistMult = new TH1F("fHistMult","multiplicity",nCentralityBinspp,centralityBinspp);
+ if(fBeam == 1) fHistMult = new TH1F("fHistMult","multiplicity",nCentralityBinsPbPb,centralityBinsPbPb);
// fOutput->Add(fHistMult);
// Event Mixing
Int_t nZvtxBins = 5+1+5;
Double_t vertexBins[] = { -10, -8, -6, -4, -2, 0, 2, 4, 6, 8, 10};
Double_t* zvtxbin = vertexBins;
- fPoolMgr = new AliEventPoolManager(poolsize, trackDepth, nCentralityBins, centralityBins, nZvtxBins, zvtxbin);
+ if(fBeam == 0) fPoolMgr = new AliEventPoolManager(poolsize, trackDepth, nCentralityBinspp, centralityBinspp, nZvtxBins, zvtxbin);
+ if(fBeam == 1) fPoolMgr = new AliEventPoolManager(poolsize, trackDepth, nCentralityBinsPbPb, centralityBinsPbPb, nZvtxBins, zvtxbin);
// set up event mixing sparse
if(fDoEventMixing){
- cifras = 1<<0 | 1<<1 | 1<<2 | 1<<3 | 1<<4 | 1<<5 | 1<<6 | 1<<7 | 1<<8; // | 1<<9;
- fhnMixedEvents = NewTHnSparseD("fhnMixedEvents", cifras);
- fOutput->Add(fhnMixedEvents);
- } // end of do-eventmixing
+ bitcodeMESE = 1<<0 | 1<<1 | 1<<2 | 1<<3 | 1<<4 | 1<<5 | 1<<6; // | 1<<7 | 1<<8 | 1<<9;
+ fhnMixedEvents = NewTHnSparseF("fhnMixedEvents", bitcodeMESE);
- // variable binned pt
- //Double_t xlowjetPT[] = {-50,-45,-40,-35,-30,-25,-20,-18,-16,-14,-12,-10,-9,-8,-7,-6,-5,-4,-3,-2,-1,0,1,2,3,4,5,6,7,8,9,10,12,14,16,18,20,25,30,35,40,45,50,60,70,80,90,100,120,140,160,180,200,250,300,350,400};
- Double_t xlowtrPT[] = {0.15,0.2,0.25,0.3,0.35,0.4,0.45,0.5,0.55,0.6,0.65,0.7,0.75,0.8,0.85,0.9,0.95,1,1.1,1.2,1.3,1.4,1.5,1.6,1.7,1.8,1.9,2.0,2.25,2.50,2.75,3.0,3.25,3.5,3.75,4.0,4.25,4.50,4.75,5.0,5.5,6.0,6.5,7.0,7.5,8.0,8.5,9.0,9.5,10.0,11.0,12.0,13.0,14.0,15.0,16.0,17.0,18.0,19.0,20.0,22.0,24.0,26.0,28.0,30.0,35.0,40.0,45.0,50.0,60.0,70.0,80.0,90.0,100.0};
+ // set up some variable binning of the sparse
+ if(dovarbinTHnSparse){
+ fhnMixedEvents->GetAxis(1)->Set(nbinsjetPT, xlowjetPT);
+ fhnMixedEvents->GetAxis(2)->Set(nbinstrPT, xlowtrPT);
+ }
- // number of bins you tell histogram should be (# in array - 1) because the last bin
- // is the right-most edge of the histogram
- // i.e. this is for PT and there are 57 numbers (bins) thus we have 56 bins in our histo
- //Int_t nbinsjetPT = sizeof(xlowjetPT)/sizeof(Double_t) - 1;
- Int_t nbinstrPT = sizeof(xlowtrPT)/sizeof(Double_t) - 1;
+ fOutput->Add(fhnMixedEvents);
+ } // end of do-eventmixing
// set up PID sparse
if(doPID){
// *****************************************************************************************
// PID counter
- fHistPID = new TH1F("fHistPID","PID Counter",15, 0, 15.0);
+ fHistPID = new TH1F("fHistPID","PID Counter", 15, 0.5, 15.5);
SetfHistPIDcounterLabels(fHistPID);
fOutput->Add(fHistPID);
if(allpidAXIS) {
- bitcode = 1<<0 | 1<<1 | 1<<2 | 1<<3 | 1<<4 | 1<<5 | 1<<6 | 1<<7 | 1<<8 | 1<<9 |
- 1<<10 | 1<<11 | 1<<12 | 1<<13 | 1<<14 | 1<<15 | 1<<16 | 1<<17 | 1<<18 | 1<<19 |
- 1<<20;
- fhnPID = NewTHnSparseDPID("fhnPID", bitcode);
+ bitcodePID = 1<<0 | 1<<1 | 1<<2 | 1<<3 | 1<<4 | 1<<5 | 1<<6 | 1<<7 | 1<<8 | 1<<9 |
+ 1<<10 | 1<<11 | 1<<12 | 1<<13 | 1<<14 | 1<<15 | 1<<16 | 1<<17 | 1<<18; // | 1<<19 | 1<<20;
+ fhnPID = NewTHnSparseFPID("fhnPID", bitcodePID);
} else {
- bitcode = 1<<0 | 1<<1 | 1<<2 | 1<<3 | 1<<4 | 1<<5 | 1<<6 | 1<<7 | 1<<8 | 1<<9 |
- 1<<10 | 1<<11 | 1<<12 | 1<<13;
- fhnPID = NewTHnSparseDPID("fhnPID", bitcode);
+ bitcodePID = 1<<0 | 1<<1 | 1<<2 | 1<<3 | 1<<4 | 1<<5 | 1<<6 | 1<<7 | 1<<8 | 1<<9 |
+ 1<<10 | 1<<11; // | 1<<12 | 1<<13;
+ fhnPID = NewTHnSparseFPID("fhnPID", bitcodePID);
}
+ // set some variable binning of sparse
if(dovarbinTHnSparse){
- //fhnPID->GetAxis(1)->Set(nbinsjetPT, xlowjetPT);
fhnPID->GetAxis(1)->Set(nbinstrPT, xlowtrPT);
+ fhnPID->GetAxis(8)->Set(nbinsjetPT, xlowjetPT);
}
fOutput->Add(fhnPID);
Bool_t AliAnalysisTaskEmcalJetHadEPpid::Run()
{ // Main loop called for each event
// TEST TEST TEST TEST for OBJECTS!
- if(!fLocalRho){
- AliError(Form("Couldn't get fLocalRho object, try to get it from Event based on name\n"));
- fLocalRho = GetLocalRhoFromEvent(fLocalRhoName);
- if(!fLocalRho) return kTRUE;
- }
+
+ fHistEventQA->Fill(1); // All Events that get entered
+
+ // check and fill a Event Selection QA histogram for different trigger selections
+ UInt_t trig = ((AliInputEventHandler*)(AliAnalysisManager::GetAnalysisManager()->GetInputEventHandler()))->IsEventSelected();
+ if(trig == 0) fHistEventSelectionQA->Fill(1);
+ if(trig & AliVEvent::kAny) fHistEventSelectionQA->Fill(2);
+ if(trig & AliVEvent::kAnyINT) fHistEventSelectionQA->Fill(3);
+ if(trig & AliVEvent::kMB) fHistEventSelectionQA->Fill(4);
+ if(trig & AliVEvent::kINT7) fHistEventSelectionQA->Fill(5);
+ if(trig & AliVEvent::kEMC1) fHistEventSelectionQA->Fill(6);
+ if(trig & AliVEvent::kEMC7) fHistEventSelectionQA->Fill(7);
+ if(trig & AliVEvent::kEMC8) fHistEventSelectionQA->Fill(8);
+ if(trig & AliVEvent::kEMCEJE) fHistEventSelectionQA->Fill(9);
+ if(trig & AliVEvent::kEMCEGA) fHistEventSelectionQA->Fill(10);
+ if(trig & AliVEvent::kCentral) fHistEventSelectionQA->Fill(11);
+ if(trig & AliVEvent::kSemiCentral) fHistEventSelectionQA->Fill(12);
+ if(trig & AliVEvent::kINT8) fHistEventSelectionQA->Fill(13);
+
+ if(trig & (AliVEvent::kEMCEJE | AliVEvent::kMB)) fHistEventSelectionQA->Fill(14);
+ if(trig & (AliVEvent::kEMCEGA | AliVEvent::kMB)) fHistEventSelectionQA->Fill(15);
+ if(trig & (AliVEvent::kAnyINT | AliVEvent::kMB)) fHistEventSelectionQA->Fill(16);
+
+ //if(trig & (AliVEvent::kEMCEJE && AliVEvent::kMB)) fHistEventSelectionQA->Fill(17);
+ //if(trig & (AliVEvent::kEMCEGA && AliVEvent::kMB)) fHistEventSelectionQA->Fill(18);
+ //if(trig & (AliVEvent::kAnyINT && AliVEvent::kMB)) fHistEventSelectionQA->Fill(19);
+
+ // see if we are running on PbPb and try and get LocalRho object
+ if(GetBeamType() == 1) {
+ if(!fLocalRho){
+ AliError(Form("Couldn't get fLocalRho object, try to get it from Event based on name\n"));
+ fLocalRho = GetLocalRhoFromEvent(fLocalRhoName);
+ if(!fLocalRho) return kTRUE;
+ }
+ } // check for LocalRho object if PbPb data
+
if(!fTracks){
AliError(Form("No fTracks object!!\n"));
return kTRUE;
return kTRUE;
}
+ fHistEventQA->Fill(2); // events after object check
+
// what kind of event do we have: AOD or ESD?
Bool_t useAOD;
if (dynamic_cast<AliAODEvent*>(InputEvent())) useAOD = kTRUE;
}
}
+ fHistEventQA->Fill(3); // events after Aod/esd check
+
// get centrality
Int_t centbin = GetCentBin(fCent);
if (makeQAhistos) fHistCentrality->Fill(fCent); // won't be filled in pp collision (Keep this in mind!)
+ // if we are on PbPb data do cut on centrality > 90%, else by default DON'T
+ if (GetBeamType() == 1) {
+ // apply cut to event on Centrality > 90%
+ if(fCent>90) return kTRUE;
+ }
+
+ // BEAM TYPE enumerator: kNA = -1, kpp = 0, kAA = 1, kpA = 2
// for pp analyses we will just use the first centrality bin
- if (centbin == -1) centbin = 0;
+ if(GetBeamType() == 0) if (centbin == -1) centbin = 0;
+ if(GetBeamType() == 1) if (centbin == -1) return kTRUE;
- // apply cut to event on Centrality > 90%
- if(fCent>90) return kTRUE;
+ fHistEventQA->Fill(4); // events after centrality check
// get vertex information
Double_t fvertex[3]={0,0,0};
// apply zVtx cut
if(fabs(zVtx)>10.0) return kTRUE;
+ fHistEventQA->Fill(5); // events after zvertex check
+
// create pointer to list of input event
TList *list = InputEvent()->GetList();
if(!list) {
return kTRUE;
}
+ fHistEventQA->Fill(6); // events after list check
+
// initialize TClonesArray pointers to jets and tracks
TClonesArray *jets = 0;
TClonesArray *tracks = 0;
+ TClonesArray *tracksME = 0;
// get Tracks object
tracks = dynamic_cast<TClonesArray*>(list->FindObject(fTracks));
return kTRUE;
} // verify existence of tracks
+ // get ME Tracks object
+ tracksME = dynamic_cast<TClonesArray*>(list->FindObject(fTracksNameME));
+ if (!tracksME) {
+ AliError(Form("Pointer to tracks %s == 0", fTracksNameME.Data()));
+ return kTRUE;
+ } // verify existence of tracks
+
// get Jets object
jets = dynamic_cast<TClonesArray*>(list->FindObject(fJets));
if(!jets){
return kTRUE;
} // verify existence of jets
+ fHistEventQA->Fill(7); // events after track/jet pointer check
+
// get number of jets and tracks
const Int_t Njets = jets->GetEntries();
const Int_t Ntracks = tracks->GetEntries();
if(Ntracks<1) return kTRUE;
if(Njets<1) return kTRUE;
+ fHistEventQA->Fill(8); // events after #track and jets < 1 check
+
if (makeQAhistos) fHistMult->Fill(Ntracks); // fill multiplicity distribution
// initialize track parameters
Int_t iTT=-1;
Double_t ptmax=-10;
+ Int_t NtrackAcc = 0;
+
+ fVevent = dynamic_cast<AliVEvent*>(InputEvent());
+ if (!fVevent) {
+ printf("ERROR: fVEvent not available\n");
+ return kTRUE;
+ }
+
+ // fill event mixing QA
+ if(trig & AliVEvent::kEMCEGA) fHistCentZvertGA->Fill(fCent, zVtx);
+ if(trig & AliVEvent::kEMCEJE) fHistCentZvertJE->Fill(fCent, zVtx);
+ if(trig & AliVEvent::kMB) fHistCentZvertMB->Fill(fCent, zVtx);
+ if(trig & AliVEvent::kAny) fHistCentZvertAny->Fill(fCent, zVtx);
// loop over tracks - to get hardest track (highest pt)
- for (Int_t iTracks = 0; iTracks < Ntracks; iTracks++){
- AliVTrack* track = static_cast<AliVTrack*>(tracks->At(iTracks));
- if (!track) {
- AliError(Form("Couldn't get VTrack track %d\n", iTracks));
+ for (Int_t iTracks = 0; iTracks < Ntracks; iTracks++){
+ AliVTrack *track = dynamic_cast<AliVTrack*>(tracks->At(iTracks));
+ if(!track){
+ AliError(Form("Couldn't get AliVtrack %d\n", iTracks));
continue;
- } // verify existence of tracks
+ }
// track cuts
if(TMath::Abs(track->Eta())>0.9) continue;
if(track->Pt()<0.15) continue;
//iCount++;
+ NtrackAcc++;
+
if(track->Pt()>ptmax){
ptmax=track->Pt(); // max pT track
iTT=iTracks; // trigger tracks
} // check if Pt>maxpt
-
+
if (makeQAhistos) fHistTrackPhi->Fill(track->Phi());
if (makeQAhistos) fHistTrackPt[centbin]->Fill(track->Pt());
if (makeQAhistos) fHistTrackPtallcent->Fill(track->Pt());
if(!AcceptMyJet(jet)) continue;
NjetAcc++; // # of accepted jets
-
+
+ // if FlavourJetAnalysis, get desired FlavTag and check against Jet
+ if(doFlavourJetAnalysis) { if(!AcceptFlavourJet(jet, fJetFlavTag)) continue;}
+
// use this to get total # of jets passing cuts in events!!!!!!!!
if (makeQAhistos) fHistJetPhi->Fill(jet->Phi()); // Jet Phi histogram (filled)
// accepted jets
fHistNjetvsCent->Fill(fCent,NjetAcc);
Int_t NJETAcc = 0;
+ fHistEventQA->Fill(9); // events after track/jet loop to get highest pt
// loop over jets in event and make appropriate cuts
for (Int_t ijet = 0; ijet < Njets; ++ijet) {
AliEmcalJet *jet = static_cast<AliEmcalJet*>(fJets->At(ijet));
if (!jet) continue;
+ // check our jet is in our selected trigger event
+ if (!(trig & fTriggerEventType)) continue;
+
// (should probably be higher..., but makes a cut on jet pT)
if (jet->Pt()<0.1) continue;
// do we accept jet? apply jet cuts
if (!AcceptMyJet(jet)) continue;
+ // if FlavourJetAnalysis, get desired FlavTag and check against Jet
+ if(doFlavourJetAnalysis) { if(!AcceptFlavourJet(jet, fJetFlavTag)) continue;}
+
+ fHistEventQA->Fill(10); // accepted jets
+
// check on lead jet
Double_t leadjet=0;
if (ijet==ijethi) leadjet=1;
// initialize and calculate various parameters: pt, eta, phi, rho, etc...
Double_t jetphi = jet->Phi(); // phi of jet
NJETAcc++; // # accepted jets
- fLocalRhoVal = fLocalRho->GetLocalVal(jetphi, fJetRad); //GetJetRadius(0)); // get local rho value
Double_t jeteta = jet->Eta(); // ETA of jet
Double_t jetPt = -500;
Double_t jetPtGlobal = -500;
- //Double_t jetPtLocal = -500; // initialize corr jet pt
+ Double_t jetPtLocal = -500; // initialize corr jet pt
+ if(GetBeamType() == 1) {
+ fLocalRhoVal = fLocalRho->GetLocalVal(jetphi, fJetRad); //GetJetRadius(0)); // get local rho value
+ jetPtLocal = jet->Pt()-jet->Area()*fLocalRhoVal; // corrected pT of jet using Rho modulated for V2 and V3
+ }
jetPt = jet->Pt();
jetPtGlobal = jet->Pt()-jet->Area()*fRhoVal; // corrected pT of jet from rho value
- //jetPtLocal = jet->Pt()-jet->Area()*fLocalRhoVal; // corrected pT of jet using Rho modulated for V2 and V3
Double_t dEP = -500; // initialize angle between jet and event plane
dEP = RelativeEPJET(jetphi,fEPV0); // angle betweeen jet and event plane
// cut on HIGHEST jet pt in event (15 GeV default)
//if (highestjetpt>fJetPtcut) {
if (jet->Pt() > fJetPtcut) {
+ fHistEventQA->Fill(11); // jets meeting pt threshold
// does our max track or cluster pass the bias?
if ((jet->MaxTrackPt()>fTrkBias) || (jet->MaxClusterPt()>fClusBias)){
// set up and fill Jet-Hadron Correction THnSparse
- Double_t CorrEntries[3] = {fCent, jet->Pt(), dEP};
+ Double_t CorrEntries[4] = {fCent, jet->Pt(), dEP, zVtx};
fhnCorr->Fill(CorrEntries); // fill Sparse Histo with Correction entries
+
+ if(GetBeamType() == 1) fHistLocalRhoJetpt->Fill(jetPtLocal);
}
// loop over all track for an event containing a jet with a pT>fJetPtCut (15)GeV
for (Int_t iTracks = 0; iTracks < Ntracks; ++iTracks) {
- AliVTrack* track = static_cast<AliVTrack*>(tracks->At(iTracks));
+ AliVTrack *track = dynamic_cast<AliVTrack*>(tracks->At(iTracks));
if (!track) {
AliError(Form("Couldn't get AliVtrack %d\n", iTracks));
continue;
if(TMath::Abs(track->Eta())>fTrkEta) continue;
if (track->Pt()<0.15) continue;
+ fHistEventQA->Fill(12); // accepted tracks in events from trigger jets
+
// calculate and get some track parameters
Double_t trCharge = -99;
trCharge = track->Charge();
Double_t deta=tracketa-jeteta; // dETA between track and jet
//Double_t dR=sqrt(deta*deta+dphijh*dphijh); // difference of R between jet and hadron track
+ // calculate single particle tracking efficiency for correlations
+ //TF2 effCORR = fEffFunctionCorr;
+ Double_t trefficiency = -999;
+ trefficiency = EffCorrection(track->Eta(), track->Pt(), fDoEffCorr);
+
Int_t ieta = -1; // initialize deta bin
Int_t iptjet = -1; // initialize jet pT bin
if (makeoldJEThadhistos) {
if ((jet->MaxTrackPt()>fTrkBias) || (jet->MaxClusterPt()>fClusBias)){
// set up and fill Jet-Hadron THnSparse
Double_t triggerEntries[9] = {fCent, jet->Pt(), track->Pt(), deta, dphijh, dEP, zVtx, trCharge, leadjet};
- fhnJH->Fill(triggerEntries); // fill Sparse Histo with trigger entries
-
+ //cout<<"itracks#: "<<iTracks<<" tracking efficiency: "<<trefficiency<<endl;
+ if(fDoEventMixing) fhnJH->Fill(triggerEntries, 1.0/trefficiency); // fill Sparse Histo with trigger entries
+
// fill histo's
if(makeQAhistos) fHistSEphieta->Fill(dphijh, deta); // single event distribution
- if (makeoldJEThadhistos) fHistJetHBias[centbin][iptjet][ieta]->Fill(dphijh,track->Pt());
+ if(makeoldJEThadhistos) fHistJetHBias[centbin][iptjet][ieta]->Fill(dphijh,track->Pt());
if (makeBIAShistos) {
fHistJetHaddPhiBias->Fill(dphijh);
fHistJetHaddPhiMIDBias->Fill(dphijh);
}
} // BIAS histos switch
+
+ if (!fPIDResponse) break; // just return
+ fHistTPCdEdX->Fill(track->Pt(), track->GetTPCsignal());
+
} // end of check maxtrackpt>ftrackbias or maxclusterpt>fclustbias
// **************************************************************************************************************
}
// some variables for PID
- Double_t pt = -999;
- Double_t dEdx = -999;
- Double_t ITSsig = -999;
- Double_t TOFsig = -999;
- Double_t charge = -999;
+ Double_t pt = -999, dEdx = -999, ITSsig = -999, TOFsig = -999, charge = -999;
// nSigma of particles in TPC, TOF, and ITS
Double_t nSigmaPion_TPC, nSigmaProton_TPC, nSigmaKaon_TPC;
Double_t nSigmaPion_TOF, nSigmaProton_TOF, nSigmaKaon_TOF;
Double_t nSigmaPion_ITS, nSigmaProton_ITS, nSigmaKaon_ITS;
- if(doPID){
+ if(doPID && ((jet->MaxTrackPt()>fTrkBias) || (jet->MaxClusterPt()>fClusBias)) ){
// get parameters of track
charge = track->Charge(); // charge of track
pt = track->Pt(); // pT of track
AliVEvent *vevent=InputEvent();
if (!vevent||!fPIDResponse) return kTRUE; // just return, maybe put at beginning
- // get PID parameters, first check if AOD/ESD
- if (!useAOD) {
- AliESDtrack *trackESD = fESD->GetTrack(iTracks);
-
- // get detector signals
- dEdx = trackESD->GetTPCsignal();
- ITSsig = trackESD->GetITSsignal();
- TOFsig = trackESD->GetTOFsignal();
-
- // TPC nSigma's
- nSigmaPion_TPC = fPIDResponse->NumberOfSigmasTPC(trackESD,AliPID::kPion);
- nSigmaKaon_TPC = fPIDResponse->NumberOfSigmasTPC(trackESD,AliPID::kKaon);
- nSigmaProton_TPC = fPIDResponse->NumberOfSigmasTPC(trackESD,AliPID::kProton);
-
- // TOF nSigma's
- nSigmaPion_TOF = fPIDResponse->NumberOfSigmasTOF(trackESD,AliPID::kPion);
- nSigmaKaon_TOF = fPIDResponse->NumberOfSigmasTOF(trackESD,AliPID::kKaon);
- nSigmaProton_TOF = fPIDResponse->NumberOfSigmasTOF(trackESD,AliPID::kProton);
-
- // ITS nSigma's
- nSigmaPion_ITS = fPIDResponse->NumberOfSigmasITS(trackESD,AliPID::kPion);
- nSigmaKaon_ITS = fPIDResponse->NumberOfSigmasITS(trackESD,AliPID::kKaon);
- nSigmaProton_ITS = fPIDResponse->NumberOfSigmasITS(trackESD,AliPID::kProton);
- } // end of ESD pid
-
- if (useAOD) {
- AliAODTrack *trackAOD = fAOD->GetTrack(iTracks);
-
- // get detector signals
- dEdx = trackAOD->GetTPCsignal();
- ITSsig = trackAOD->GetITSsignal();
- TOFsig = trackAOD->GetTOFsignal();
-
- // TPC nSigma's
- nSigmaPion_TPC = fPIDResponse->NumberOfSigmasTPC(trackAOD,AliPID::kPion);
- nSigmaKaon_TPC = fPIDResponse->NumberOfSigmasTPC(trackAOD,AliPID::kKaon);
- nSigmaProton_TPC = fPIDResponse->NumberOfSigmasTPC(trackAOD,AliPID::kProton);
-
- // TOF nSigma's
- nSigmaPion_TOF = fPIDResponse->NumberOfSigmasTOF(trackAOD,AliPID::kPion);
- nSigmaKaon_TOF = fPIDResponse->NumberOfSigmasTOF(trackAOD,AliPID::kKaon);
- nSigmaProton_TOF = fPIDResponse->NumberOfSigmasTOF(trackAOD,AliPID::kProton);
-
- // ITS nSigma's
- nSigmaPion_ITS = fPIDResponse->NumberOfSigmasITS(trackAOD,AliPID::kPion);
- nSigmaKaon_ITS = fPIDResponse->NumberOfSigmasITS(trackAOD,AliPID::kKaon);
- nSigmaProton_ITS = fPIDResponse->NumberOfSigmasITS(trackAOD,AliPID::kProton);
- } // end of AOD pid
+ fHistEventQA->Fill(13); // check for AliVEvent and fPIDresponse objects
+
+ // get detector signals
+ dEdx = track->GetTPCsignal();
+ ITSsig = track->GetITSsignal();
+ TOFsig = track->GetTOFsignal();
+
+ // TPC nSigma's
+ nSigmaPion_TPC = fPIDResponse->NumberOfSigmasTPC(track,AliPID::kPion);
+ nSigmaKaon_TPC = fPIDResponse->NumberOfSigmasTPC(track,AliPID::kKaon);
+ nSigmaProton_TPC = fPIDResponse->NumberOfSigmasTPC(track,AliPID::kProton);
+
+ // TOF nSigma's
+ nSigmaPion_TOF = fPIDResponse->NumberOfSigmasTOF(track,AliPID::kPion);
+ nSigmaKaon_TOF = fPIDResponse->NumberOfSigmasTOF(track,AliPID::kKaon);
+ nSigmaProton_TOF = fPIDResponse->NumberOfSigmasTOF(track,AliPID::kProton);
+
+ // ITS nSigma's
+ nSigmaPion_ITS = fPIDResponse->NumberOfSigmasITS(track,AliPID::kPion);
+ nSigmaKaon_ITS = fPIDResponse->NumberOfSigmasITS(track,AliPID::kKaon);
+ nSigmaProton_ITS = fPIDResponse->NumberOfSigmasITS(track,AliPID::kProton);
// fill detector signal histograms
- if (makeQAhistos) fHistTPCdEdX->Fill(pt, dEdx);
+ //if (makeQAhistos) fHistTPCdEdX->Fill(pt, dEdx); // temp out
if (makeQAhistos) fHistITSsignal->Fill(pt, ITSsig);
//if (makeQAhistos) fHistTOFsignal->Fill(pt, TOFsig);
// Tests to PID pions, kaons, and protons, (default is undentified tracks)
- Double_t nPIDtpc = 0;
- Double_t nPIDits = 0;
- Double_t nPIDtof = 0;
+ //Double_t nPIDtpc = 0, nPIDits = 0, nPIDtof = 0;
Double_t nPID = -99;
// check track has pT < 0.900 GeV - use TPC pid
if (pt<0.900 && dEdx>0) {
- nPIDtpc = 4;
- nPID = 0.5;
+ //nPIDtpc = 4;
+ nPID = 1;
// PION check - TPC
if (TMath::Abs(nSigmaPion_TPC)<2 && TMath::Abs(nSigmaKaon_TPC)>2 && TMath::Abs(nSigmaProton_TPC)>2 ){
isPItpc = kTRUE;
- nPIDtpc = 1;
- nPID=1.5;
+ //nPIDtpc = 1;
+ nPID=2;
}else isPItpc = kFALSE;
// KAON check - TPC
if (TMath::Abs(nSigmaKaon_TPC)<2 && TMath::Abs(nSigmaPion_TPC)>3 && TMath::Abs(nSigmaProton_TPC)>2 ){
isKtpc = kTRUE;
- nPIDtpc = 2;
- nPID=2.5;
+ //nPIDtpc = 2;
+ nPID=3;
}else isKtpc = kFALSE;
// PROTON check - TPC
if (TMath::Abs(nSigmaProton_TPC)<2 && TMath::Abs(nSigmaPion_TPC)>3 && TMath::Abs(nSigmaKaon_TPC)>2 ){
isPtpc = kTRUE;
- nPIDtpc = 3;
- nPID=3.5;
+ //nPIDtpc = 3;
+ nPID=4;
}else isPtpc = kFALSE;
} // cut on track pT for TPC
// check track has pT < 0.500 GeV - use ITS pid
if (pt<0.500 && ITSsig>0) {
- nPIDits = 4;
- nPID = 4.5;
+ //nPIDits = 4;
+ nPID = 5;
// PION check - ITS
if (TMath::Abs(nSigmaPion_ITS)<2 && TMath::Abs(nSigmaKaon_ITS)>2 && TMath::Abs(nSigmaProton_ITS)>2 ){
isPIits = kTRUE;
- nPIDits = 1;
- nPID=5.5;
+ //nPIDits = 1;
+ nPID=6;
}else isPIits = kFALSE;
// KAON check - ITS
if (TMath::Abs(nSigmaKaon_ITS)<2 && TMath::Abs(nSigmaPion_ITS)>3 && TMath::Abs(nSigmaProton_ITS)>2 ){
isKits = kTRUE;
- nPIDits = 2;
- nPID=6.5;
+ //nPIDits = 2;
+ nPID=7;
}else isKits = kFALSE;
// PROTON check - ITS
if (TMath::Abs(nSigmaProton_ITS)<2 && TMath::Abs(nSigmaPion_ITS)>3 && TMath::Abs(nSigmaKaon_ITS)>2 ){
isPits = kTRUE;
- nPIDits = 3;
- nPID=7.5;
+ //nPIDits = 3;
+ nPID=8;
}else isPits = kFALSE;
} // cut on track pT for ITS
// check track has 0.900 GeV < pT < 2.500 GeV - use TOF pid
if (pt>0.900 && pt<2.500 && TOFsig>0) {
- nPIDtof = 4;
- nPID = 8.5;
+ //nPIDtof = 4;
+ nPID = 9;
// PION check - TOF
if (TMath::Abs(nSigmaPion_TOF)<2 && TMath::Abs(nSigmaKaon_TOF)>2 && TMath::Abs(nSigmaProton_TOF)>2 ){
isPItof = kTRUE;
- nPIDtof = 1;
- nPID=9.5;
+ //nPIDtof = 1;
+ nPID=10;
}else isPItof = kFALSE;
// KAON check - TOF
if (TMath::Abs(nSigmaKaon_TOF)<2 && TMath::Abs(nSigmaPion_TOF)>3 && TMath::Abs(nSigmaProton_TOF)>2 ){
isKtof = kTRUE;
- nPIDtof = 2;
- nPID=10.5;
+ //nPIDtof = 2;
+ nPID=11;
}else isKtof = kFALSE;
// PROTON check - TOF
if (TMath::Abs(nSigmaProton_TOF)<2 && TMath::Abs(nSigmaPion_TOF)>3 && TMath::Abs(nSigmaKaon_TOF)>2 ){
isPtof = kTRUE;
- nPIDtof = 3;
- nPID=11.5;
+ //nPIDtof = 3;
+ nPID=12;
}else isPtof = kFALSE;
} // cut on track pT for TOF
- if (nPID == -99) nPID = 13.5;
+ if (nPID == -99) nPID = 14;
fHistPID->Fill(nPID);
// PID sparse getting filled
if (allpidAXIS) { // FILL ALL axis
- Double_t pid_EntriesALL[21] = {fCent,pt,charge,deta,dphijh,leadjet,zVtx,dEP,jetPt,
+ Double_t pid_EntriesALL[19] = {fCent,pt,charge,deta,dphijh,leadjet,zVtx,dEP,jetPt,
nSigmaPion_TPC, nSigmaPion_TOF, // pion nSig values in TPC/TOF
- nPIDtpc, nPIDits, nPIDtof, // PID label for each detector
+ nPID, //nPIDtpc, nPIDits, nPIDtof, // PID label for each detector
nSigmaProton_TPC, nSigmaKaon_TPC, // nSig in TPC
nSigmaPion_ITS, nSigmaProton_ITS, nSigmaKaon_ITS, // nSig in ITS
nSigmaProton_TOF, nSigmaKaon_TOF, // nSig in TOF
}; //array for PID sparse
- fhnPID->Fill(pid_EntriesALL);
+ fhnPID->Fill(pid_EntriesALL, 1.0/trefficiency);
} else {
// PID sparse getting filled
- Double_t pid_Entries[14] = {fCent,pt,charge,deta,dphijh,leadjet,zVtx,dEP,jetPt,
+ Double_t pid_Entries[12] = {fCent,pt,charge,deta,dphijh,leadjet,zVtx,dEP,jetPt,
nSigmaPion_TPC, nSigmaPion_TOF, // pion nSig values in TPC/TOF
- nPIDtpc, nPIDits, nPIDtof // PID label for each detector
+ nPID //nPIDtpc, nPIDits, nPIDtof // PID label for each detector
}; //array for PID sparse
- fhnPID->Fill(pid_Entries); // fill Sparse histo of PID tracks
+ fhnPID->Fill(pid_Entries, 1.0/trefficiency); // fill Sparse histo of PID tracks
} // minimal pid sparse filling
} // end of doPID check
if(makeextraCORRhistos) fHistJetHaddPhiINcent[centbin]->Fill(dphijh);
fHistJetHaddPhiIN->Fill(dphijh);
if(makeextraCORRhistos) fHistJetHadbindPhiIN[itrackpt]->Fill(dphijh);
- //fHistJetHaddPhiPtcentbinIN[itrackpt][centbin]->Fill(dphijh);
}else if( dEP>(TMath::Pi()/3) && dEP<=(TMath::Pi()/2) ){
// we are OUT of PLANE
if(makeextraCORRhistos) fHistJetHaddPhiOUTcent[centbin]->Fill(dphijh);
fHistJetHaddPhiOUT->Fill(dphijh);
if(makeextraCORRhistos) fHistJetHadbindPhiOUT[itrackpt]->Fill(dphijh);
- //fHistJetHaddPhiPtcentbinOUT[itrackpt][centbin]->Fill(dphijh);
}else if( dEP>(TMath::Pi()/6) && dEP<=(TMath::Pi()/3) ){
// we are in the middle of plane
if(makeextraCORRhistos) fHistJetHaddPhiMIDcent[centbin]->Fill(dphijh);
} // jet pt cut
} // jet loop
+ fHistEventQA->Fill(14); // events right before event mixing
+
// ***************************************************************************************************************
// ******************************** Event MIXING *****************************************************************
- TObjArray* tracksClone = CloneAndReduceTrackList(tracks); // TEST
+// ***************************************************************************************************************
+
+ // initialize object array of cloned picotracks
+ TObjArray* tracksClone = 0x0;
+
+ // PbPb collisions - create cloned picotracks
+ //if(GetBeamType() == 1) tracksClone = CloneAndReduceTrackList(tracks); // TEST
//Prepare to do event mixing
if(fDoEventMixing>0){
// of 1./nMix can be applied.
// mix jets from triggered events with tracks from MB events
- // get the trigger bit
- // need to change trigger bits between different runs
-//T UInt_t trigger = ((AliInputEventHandler*)(AliAnalysisManager::GetAnalysisManager()->GetInputEventHandler()))->IsEventSelected();
-//T if (trigger==0) return kTRUE; // return
-
- //Double_t Ntrks=(Double_t)Ntracks*1.0;
- //cout<<"Test.. Ntrks: "<<fPoolMgr->GetEventPool(Ntrks);
+ // get the trigger bit, need to change trigger bits between different runs
+ UInt_t trigger = ((AliInputEventHandler*)(AliAnalysisManager::GetAnalysisManager()->GetInputEventHandler()))->IsEventSelected();
+ // if event was not selected (triggered) for any reseason (should never happen) then return
+ if (trigger==0) return kTRUE;
+
+ // initialize event pools
+ AliEventPool* pool = 0x0;
+ AliEventPool* poolpp = 0x0;
+ Double_t Ntrks = -999;
+
+ // pp collisions - get event pool
+ if(GetBeamType() == 0) {
+ Ntrks=(Double_t)Ntracks*1.0;
+ //cout<<"Test.. Ntrks: "<<fPoolMgr->GetEventPool(Ntrks);
+ poolpp = fPoolMgr->GetEventPool(Ntrks, zVtx); // for pp
+ }
- AliEventPool* pool = fPoolMgr->GetEventPool(fCent, zVtx); // for PbPb? fcent
- //AliEventPool* pool = fPoolMgr->GetEventPool(Ntrks, zVtx); // for pp
+ // PbPb collisions - get event pool
+ if(GetBeamType() == 1) pool = fPoolMgr->GetEventPool(fCent, zVtx); // for PbPb? fcent
- if (!pool){
- AliFatal(Form("No pool found for centrality = %f, zVtx = %f", fCent, zVtx));
- //AliFatal(Form("No pool found for multiplicity = %f, zVtx = %f", Ntrks, zVtx));
+ // if we don't have a pool, return
+ if (!pool && !poolpp){
+ if(GetBeamType() == 1) AliFatal(Form("No pool found for centrality = %f, zVtx = %f", fCent, zVtx));
+ if(GetBeamType() == 0) AliFatal(Form("No pool found for multiplicity = %f, zVtx = %f", Ntrks, zVtx));
return kTRUE;
}
+ fHistEventQA->Fill(15); // mixed events cases that have pool
+
+ // initialize background tracks array
+ TObjArray* bgTracks;
+
+ // next line might not apply for PbPb collisions
+ // use only jets from EMCal-triggered events (for lhc11a use AliVEvent::kEMC1)
+ //check for a trigger jet
+ // fmixingtrack/10 ??
+ if(GetBeamType() == 1) if(trigger & fTriggerEventType) { //kEMCEJE)) {
+ if (pool->IsReady() || pool->NTracksInPool() > fNMIXtracks || pool->GetCurrentNEvents() >= fNMIXevents) {
+
+ // loop over jets (passing cuts?)
+ for (Int_t ijet = 0; ijet < Njets; ijet++) {
+ Double_t leadjet=0;
+ if (ijet==ijethi) leadjet=1;
+
+ // get jet object
+ AliEmcalJet *jet = static_cast<AliEmcalJet*>(jets->At(ijet));
+ if (!jet) continue;
+
+ // (should probably be higher..., but makes a cut on jet pT)
+ if (jet->Pt()<0.1) continue;
+ if (!AcceptMyJet(jet)) continue;
+
+ fHistEventQA->Fill(16); // event mixing jets
+
+ // set cut to do event mixing only if we have a jet meeting our pt threshold (bias applied below)
+ if (jet->Pt()<fJetPtcut) continue;
+
+ // get number of current events in pool
+ Int_t nMix = pool->GetCurrentNEvents(); // how many particles in pool to mix
+
+ // Fill for biased jet triggers only
+ if ((jet->MaxTrackPt()>fTrkBias) || (jet->MaxClusterPt()>fClusBias)) { // && jet->Pt() > fJetPtcut) {
+ // Fill mixed-event histos here
+ for (Int_t jMix=0; jMix<nMix; jMix++) {
+ fHistEventQA->Fill(17); // event mixing nMix
+
+ // get jMix'th event
+ bgTracks = pool->GetEvent(jMix);
+ const Int_t Nbgtrks = bgTracks->GetEntries();
+ for(Int_t ibg=0; ibg<Nbgtrks; ibg++) {
+ AliPicoTrack *part = static_cast<AliPicoTrack*>(bgTracks->At(ibg));
+ if(!part) continue;
+ if(TMath::Abs(part->Eta())>0.9) continue;
+ if(part->Pt()<0.15) continue;
+
+ Double_t DEta = part->Eta()-jet->Eta(); // difference in eta
+ Double_t DPhi = RelativePhi(jet->Phi(),part->Phi()); // difference in phi
+ Double_t dEP = RelativeEPJET(jet->Phi(),fEPV0); // difference between jet and EP
+ Double_t mixcharge = part->Charge();
+ //Double_t DR=TMath::Sqrt(DPhi*DPhi+DEta*DEta); // difference in R
+
+ // calculate single particle tracking efficiency of mixed events for correlations
+ Double_t mixefficiency = -999;
+ mixefficiency = EffCorrection(part->Eta(), part->Pt(), fDoEffCorr);
+
+ // create / fill mixed event sparse
+ Double_t triggerEntries[9] = {fCent,jet->Pt(),part->Pt(),DEta,DPhi,dEP,zVtx, mixcharge, leadjet}; //array for ME sparse
+ fhnMixedEvents->Fill(triggerEntries,1./(nMix*mixefficiency)); // fill Sparse histo of mixed events
+
+ fHistEventQA->Fill(18); // event mixing - nbgtracks
+ if(makeextraCORRhistos) fHistMEphieta->Fill(DPhi,DEta, 1./(nMix*mixefficiency));
+ } // end of background track loop
+ } // end of filling mixed-event histo's
+ } // end of check for biased jet triggers
+ } // end of jet loop
+ } // end of check for pool being ready
+ } // end EMC triggered loop
+
+//=============================================================================================================
+
// use only jets from EMCal-triggered events (for lhc11a use AliVEvent::kEMC1)
/// if (trigger & AliVEvent::kEMC1) {
-//T if (trigger & AliVEvent::kEMCEJE) { // TEST
- //check for a trigger jet
- // fmixingtrack/10 ??
- if (pool->IsReady() || pool->NTracksInPool() > fMixingTracks / 10 || pool->GetCurrentNEvents() >= 5) {
+ // pp collisions
+ if(GetBeamType() == 0) if(trigger & fTriggerEventType) { //kEMC1)) {
+ if (poolpp->IsReady() || poolpp->NTracksInPool() > fNMIXtracks || poolpp->GetCurrentNEvents() >= fNMIXevents) {
+
// loop over jets (passing cuts?)
for (Int_t ijet = 0; ijet < Njets; ijet++) {
Double_t leadjet=0;
if (jet->Pt()<0.1) continue;
if (!AcceptMyJet(jet)) continue;
- Int_t nMix = pool->GetCurrentNEvents(); // how many particles in pool to mix
+ fHistEventQA->Fill(16); // event mixing jets
+
+ // set cut to do event mixing only if we have a jet meeting our pt threshold (bias applied below)
+ if (jet->Pt()<fJetPtcut) continue;
+
+ // get number of current events in pool
+ Int_t nMix = poolpp->GetCurrentNEvents(); // how many particles in pool to mix
// Fill for biased jet triggers only
- if ((jet->MaxTrackPt()>fTrkBias) || (jet->MaxClusterPt()>fClusBias)) {
+ if ((jet->MaxTrackPt()>fTrkBias) || (jet->MaxClusterPt()>fClusBias)) { // && jet->Pt() > fJetPtcut) {
// Fill mixed-event histos here
for (Int_t jMix=0; jMix<nMix; jMix++) {
- TObjArray* bgTracks = pool->GetEvent(jMix);
- const Int_t Nbgtrks = bgTracks->GetEntries();
- for(Int_t ibg=0; ibg<Nbgtrks; ibg++) {
- AliPicoTrack *part = static_cast<AliPicoTrack*>(bgTracks->At(ibg));
- if(!part) continue;
- if(TMath::Abs(part->Eta())>0.9) continue;
- if(part->Pt()<0.15) continue;
-
- Double_t DEta = part->Eta()-jet->Eta(); // difference in eta
- Double_t DPhi = RelativePhi(jet->Phi(),part->Phi()); // difference in phi
- Double_t dEP = RelativeEPJET(jet->Phi(),fEPV0); // difference between jet and EP
- Double_t mixcharge = part->Charge();
- //Double_t DR=TMath::Sqrt(DPhi*DPhi+DEta*DEta); // difference in R
-
- Double_t triggerEntries[10] = {fCent,jet->Pt(),part->Pt(),DEta,DPhi,dEP,zVtx, mixcharge, leadjet}; //array for ME sparse
- fhnMixedEvents->Fill(triggerEntries,1./nMix); // fill Sparse histo of mixed events
-
- if(makeextraCORRhistos) fHistMEphieta->Fill(DPhi,DEta, 1./nMix);
- } // end of background track loop
- } // end of filling mixed-event histo's
+ fHistEventQA->Fill(17); // event mixing nMix
+
+ // get jMix'th event
+ bgTracks = poolpp->GetEvent(jMix);
+ const Int_t Nbgtrks = bgTracks->GetEntries();
+ for(Int_t ibg=0; ibg<Nbgtrks; ibg++) {
+ AliPicoTrack *part = static_cast<AliPicoTrack*>(bgTracks->At(ibg));
+ if(!part) continue;
+ if(TMath::Abs(part->Eta())>0.9) continue;
+ if(part->Pt()<0.15) continue;
+
+ Double_t DEta = part->Eta()-jet->Eta(); // difference in eta
+ Double_t DPhi = RelativePhi(jet->Phi(),part->Phi()); // difference in phi
+ Double_t dEP = RelativeEPJET(jet->Phi(),fEPV0); // difference between jet and EP
+ Double_t mixcharge = part->Charge();
+ //Double_t DR=TMath::Sqrt(DPhi*DPhi+DEta*DEta); // difference in R
+
+ // create / fill mixed event sparse
+ Double_t triggerEntries[9] = {fCent,jet->Pt(),part->Pt(),DEta,DPhi,dEP,zVtx, mixcharge, leadjet}; //array for ME sparse
+ fhnMixedEvents->Fill(triggerEntries,1./nMix); // fill Sparse histo of mixed events
+
+ fHistEventQA->Fill(18); // event mixing - nbgtracks
+ if(makeextraCORRhistos) fHistMEphieta->Fill(DPhi,DEta, 1./nMix);
+ } // end of background track loop
+ } // end of filling mixed-event histo's
} // end of check for biased jet triggers
} // end of jet loop
- } // end of check for triggered jet
-// } //end EMC triggered loop
-
- // use only tracks from MB events (for lhc11a use AliVEvent::kMB)
-/// if (trigger & AliVEvent::kMB) {
-//T if (trigger & AliVEvent::kAnyINT){ // test
- // create a list of reduced objects. This speeds up processing and reduces memory consumption for the event pool
-//T TObjArray* tracksClone = CloneAndReduceTrackList(tracks);
-
- // update pool if jet in event or not
- pool->UpdatePool(tracksClone);
-/// } // check on track from MB events
+ } // end of check for pool being ready
+ } //end EMC triggered loop
+
+ // pp collisions
+ if(GetBeamType() == 0) {
+
+ // use only tracks from MB events (for lhc11a use AliVEvent::kMB) //kAnyINT as test
+ if(trigger & fMixingEventType) { //kMB) {
+
+ // create a list of reduced objects. This speeds up processing and reduces memory consumption for the event pool
+ tracksClone = CloneAndReduceTrackList(tracks);
+
+ // update pool if jet in event or not
+ poolpp->UpdatePool(tracksClone);
+
+ } // check on track from MB events
+ }
+
+ // PbPb collisions
+ if(GetBeamType() == 1) {
+
+ // use only tracks from MB events
+ if(trigger & fMixingEventType) { //kMB) {
+
+ // create a list of reduced objects. This speeds up processing and reduces memory consumption for the event pool
+ tracksClone = CloneAndReduceTrackList(tracks);
+
+ // update pool if jet in event or not
+ pool->UpdatePool(tracksClone);
+
+ } // MB events
+ } // PbPb collisions
} // end of event mixing
// print some stats on the event
event++;
-
+ fHistEventQA->Fill(19); // events making it to end
+
if (doComments) {
cout<<"Event #: "<<event<<" Jet Radius: "<<fJetRad<<" Constituent Pt Cut: "<<fConstituentCut<<endl;
- cout<<"# of jets: "<<Njets<<" Highest jet pt: "<<highestjetpt<<" leading hadron pt: "<<leadhadronPT<<endl;
- cout<<"# tracks: "<<Ntracks<<" Highest track pt: "<<ptmax<<endl;
+ cout<<"# of jets: "<<Njets<<" NjetAcc: "<<NjetAcc<<" Highest jet pt: "<<highestjetpt<<" leading hadron pt: "<<leadhadronPT<<endl;
+ cout<<"# tracks: "<<Ntracks<<" NtrackAcc: "<<NtrackAcc<<" Highest track pt: "<<ptmax<<endl;
cout<<" =============================================== "<<endl;
}
return dphi; // dphi in [-0.5Pi, 1.5Pi]
}
-
-
//_________________________________________________________________________
-Double_t AliAnalysisTaskEmcalJetHadEPpid:: RelativeEPJET(Double_t jetAng, Double_t EPAng) const
+Double_t AliAnalysisTaskEmcalJetHadEPpid::RelativeEPJET(Double_t jetAng, Double_t EPAng) const
{ // function to calculate angle between jet and EP in the 1st quadrant (0,Pi/2)
Double_t dphi = (EPAng - jetAng);
return ptbin;
} // end of get-jet-pt-bin
-
//___________________________________________________________________________
Int_t AliAnalysisTaskEmcalJetHadEPpid::GetzVertexBin(Double_t zVtx) const
{
} // end of get z-vertex bin
//______________________________________________________________________
-THnSparse* AliAnalysisTaskEmcalJetHadEPpid::NewTHnSparseD(const char* name, UInt_t entries)
+THnSparse* AliAnalysisTaskEmcalJetHadEPpid::NewTHnSparseF(const char* name, UInt_t entries)
{
- // generate new THnSparseD, axes are defined in GetDimParams()
+ // generate new THnSparseF, axes are defined in GetDimParams()
Int_t count = 0;
UInt_t tmp = entries;
while(tmp!=0){
Int_t c=0;
while(c<dim && i<32){
if(entries&(1<<i)){
-
TString label("");
GetDimParams(i, label, nbins[c], xmin[c], xmax[c]);
hnTitle += Form(";%s",label.Data());
}
hnTitle += ";";
- return new THnSparseD(name, hnTitle.Data(), dim, nbins, xmin, xmax);
-} // end of NewTHnSparseD
+ return new THnSparseF(name, hnTitle.Data(), dim, nbins, xmin, xmax);
+} // end of NewTHnSparseF
void AliAnalysisTaskEmcalJetHadEPpid::GetDimParams(Int_t iEntry, TString &label, Int_t &nbins, Double_t &xmin, Double_t &xmax)
{
case 1:
label = "Jet p_{T}";
- nbins = 216;
+ nbins = 50; // 216
xmin = 0.;
- xmax = 216.;
+ xmax = 250.; // 216
break;
case 2:
label = "Track p_{T}";
- nbins = 750;
+ nbins = 80; //300; // 750 pid
xmin = 0.;
- xmax = 75.;
+ xmax = 20.; //75.;
break;
case 3:
label = "Relative Eta";
- nbins = 48;
- xmin = -1.6;
- xmax = 1.6;
+ nbins = 56; // 42
+ xmin = -1.4;
+ xmax = 1.4;
break;
case 4:
case 5:
label = "Relative angle of Jet and Reaction Plane";
- nbins = 72;
- xmin = -0.5*pi;
- xmax = 1.5*pi;
+ nbins = 3; // (12) 72
+ xmin = 0;
+ xmax = 0.5*pi;
break;
case 6:
//_________________________________________________
// From CF event mixing code PhiCorrelations
-TObjArray* AliAnalysisTaskEmcalJetHadEPpid::CloneAndReduceTrackList(TObjArray* tracks)
+TObjArray* AliAnalysisTaskEmcalJetHadEPpid::CloneAndReduceTrackList(TObjArray* tracksME)
{
// clones a track list by using AliPicoTrack which uses much less memory (used for event mixing)
TObjArray* tracksClone = new TObjArray;
tracksClone->SetOwner(kTRUE);
- /*
- Int_t nTrax = fESD->GetNumberOfTracks();
- //cout << "nTrax " << nTrax <<endl;
-
- for (Int_t i = 0; i < nTrax; ++i)
- {
- AliESDtrack* esdtrack = fESD->GetTrack(i);
- if (!esdtrack)
- {
- AliError(Form("Couldn't get ESD track %d\n", i));
- continue;
- }
+// ===============================
- AliESDtrack *particle = GetAcceptTrack(esdtrack);
- if(!particle) continue;
-
- cout << "RM Hybrid track : " << i << " " << particle->Pt() << endl;
- */
+// cout << "RM Hybrid track : " << i << " " << particle->Pt() << endl;
//cout << "nEntries " << tracks->GetEntriesFast() <<endl;
- for (Int_t i=0; i<tracks->GetEntriesFast(); i++) {
- AliVParticle* particle = (AliVParticle*) tracks->At(i);
+ for (Int_t i=0; i<tracksME->GetEntriesFast(); i++) { // AOD/general case
+ AliVParticle* particle = (AliVParticle*) tracksME->At(i); // AOD/general case
if(TMath::Abs(particle->Eta())>fTrkEta) continue;
if(particle->Pt()<0.15)continue;
}
//____________________________________________________________________________________________
-THnSparse* AliAnalysisTaskEmcalJetHadEPpid::NewTHnSparseDPID(const char* name, UInt_t entries)
+THnSparse* AliAnalysisTaskEmcalJetHadEPpid::NewTHnSparseFPID(const char* name, UInt_t entries)
{
- // generate new THnSparseD PID, axes are defined in GetDimParams()
+ // generate new THnSparseF PID, axes are defined in GetDimParams()
Int_t count = 0;
UInt_t tmp = entries;
while(tmp!=0){
Int_t c=0;
while(c<dim && i<32){
if(entries&(1<<i)){
-
TString label("");
GetDimParamsPID(i, label, nbins[c], xmin[c], xmax[c]);
hnTitle += Form(";%s",label.Data());
}
hnTitle += ";";
- return new THnSparseD(name, hnTitle.Data(), dim, nbins, xmin, xmax);
-} // end of NewTHnSparseD PID
+ return new THnSparseF(name, hnTitle.Data(), dim, nbins, xmin, xmax);
+} // end of NewTHnSparseF PID
//________________________________________________________________________________
void AliAnalysisTaskEmcalJetHadEPpid::GetDimParamsPID(Int_t iEntry, TString &label, Int_t &nbins, Double_t &xmin, Double_t &xmax)
case 1:
label = "Track p_{T}";
- nbins = 750;
+ nbins = 80; //300; // 750
xmin = 0.;
- xmax = 75.;
+ xmax = 20.; //75.;
break;
case 2:
case 3:
label = "Relative Eta of Track and Jet";
- nbins = 48;
- xmin = -1.6;
- xmax = 1.6;
+ nbins = 56; // 48
+ xmin = -1.4;
+ xmax = 1.4;
break;
case 4:
case 7:
label = "Relative angle: Jet and Reaction Plane";
- nbins = 48;
+ nbins = 3; // (12) 48
xmin = 0.;
xmax = 0.5*pi;
break;
case 8:
label = "Jet p_{T}";
- nbins = 216;
+ nbins = 50; // 216
xmin = 0.;
- xmax = 216.;
+ xmax = 250.; // 216
break;
case 9:
case 11:
label = "TPC PID determination";
- nbins = 5;
- xmin = 0.;
- xmax = 5.;
+ nbins = 15; //5;
+ xmin = 0.5; //0.;
+ xmax = 15.5; //5.;
break;
+/*
case 12:
label = "ITS PID determination";
nbins = 5;
xmin = 0.;
xmax = 5.;
break;
+*/
- case 14:
+ case 12:
label = "N-Sigma of protons in TPC";
nbins = 200;
xmin = -10.;
xmax = 10.;
break;
- case 15:
+ case 13:
label = "N-Sigma of kaons in TPC";
nbins = 200;
xmin = -10.;
xmax = 10.;
break;
- case 16:
+ case 14:
label = "N-Sigma of pions in ITS";
nbins = 200;
xmin = -10.0;
xmax = 10.0;
break;
- case 17:
+ case 15:
label = "N-Sigma of protons in ITS";
nbins = 200;
xmin = -10.;
xmax = 10.;
break;
- case 18:
+ case 16:
label = "N-Sigma of kaons in ITS";
nbins = 200;
xmin = -10.;
xmax = 10.;
break;
- case 19:
+ case 17:
label = "N-Sigma of protons in TOF";
nbins = 200;
xmin = -10.;
xmax = 10.;
break;
- case 20:
+ case 18:
label = "N-Sigma of kaons in TOF";
nbins = 200;
xmin = -10.;
if (jet->Area()==0) return 0;
//exclude jets with extremely high pt tracks which are likely misreconstructed
if(jet->MaxTrackPt()>100) return 0;
- //prevents 0 area jets from sneaking by when area cut == 0
- if (jet->Area()==0) return 0;
- //exclude jets with extremely high pt tracks which are likely misreconstructed
- if(jet->MaxTrackPt()>100) return 0;
//passed all above cuts
return 1;
void AliAnalysisTaskEmcalJetHadEPpid::SetfHistPIDcounterLabels(TH1* h) const
{
// fill the analysis summary histrogram, saves all relevant analysis settigns
- h->GetXaxis()->SetBinLabel(1, "TPC: Unidentified"); // 0.5
- h->GetXaxis()->SetBinLabel(2, "TPC: Pion"); // 1.5
- h->GetXaxis()->SetBinLabel(3, "TPC: Kaon"); // 2.5
- h->GetXaxis()->SetBinLabel(4, "TPC: Proton"); // 3.5
- h->GetXaxis()->SetBinLabel(5, "ITS: Unidentified"); // 4.5
- h->GetXaxis()->SetBinLabel(6, "ITS: Pion"); // 5.5
- h->GetXaxis()->SetBinLabel(7, "ITS: Kaon"); // 6.5
- h->GetXaxis()->SetBinLabel(8, "ITS: Proton"); // 7.5
- h->GetXaxis()->SetBinLabel(9, "TOF: Unidentified"); // 8.5
- h->GetXaxis()->SetBinLabel(10, "TOF: Pion"); // 9.5
- h->GetXaxis()->SetBinLabel(11, "TOF: Kaon"); // 10.5
- h->GetXaxis()->SetBinLabel(12, "TOF: Proton"); // 11.5
- h->GetXaxis()->SetBinLabel(14, "Unidentified tracks"); //13.5
+ h->GetXaxis()->SetBinLabel(1, "TPC: Unidentified");
+ h->GetXaxis()->SetBinLabel(2, "TPC: Pion");
+ h->GetXaxis()->SetBinLabel(3, "TPC: Kaon");
+ h->GetXaxis()->SetBinLabel(4, "TPC: Proton");
+ h->GetXaxis()->SetBinLabel(5, "ITS: Unidentified");
+ h->GetXaxis()->SetBinLabel(6, "ITS: Pion");
+ h->GetXaxis()->SetBinLabel(7, "ITS: Kaon");
+ h->GetXaxis()->SetBinLabel(8, "ITS: Proton");
+ h->GetXaxis()->SetBinLabel(9, "TOF: Unidentified");
+ h->GetXaxis()->SetBinLabel(10, "TOF: Pion");
+ h->GetXaxis()->SetBinLabel(11, "TOF: Kaon");
+ h->GetXaxis()->SetBinLabel(12, "TOF: Proton");
+ h->GetXaxis()->SetBinLabel(14, "Unidentified tracks");
+
+ // set x-axis labels vertically
+ h->LabelsOption("v");
+}
+
+//void AliAnalysisTaskEmcalJetHadEPpid::FillAnalysisSummaryHistogram() const
+void AliAnalysisTaskEmcalJetHadEPpid::SetfHistQAcounterLabels(TH1* h) const
+{
+ // label bins of the analysis event summary
+ h->GetXaxis()->SetBinLabel(1, "All events started");
+ h->GetXaxis()->SetBinLabel(2, "object check");
+ h->GetXaxis()->SetBinLabel(3, "aod/esd check");
+ h->GetXaxis()->SetBinLabel(4, "centrality check");
+ h->GetXaxis()->SetBinLabel(5, "zvertex check");
+ h->GetXaxis()->SetBinLabel(6, "list check");
+ h->GetXaxis()->SetBinLabel(7, "track/jet pointer check");
+ h->GetXaxis()->SetBinLabel(8, "tracks & jets < than 1 check");
+ h->GetXaxis()->SetBinLabel(9, "after track/jet loop to get highest pt");
+ h->GetXaxis()->SetBinLabel(10, "accepted jets");
+ h->GetXaxis()->SetBinLabel(11, "jets meeting pt threshold");
+ h->GetXaxis()->SetBinLabel(12, "accepted tracks in events w/ trigger jet");
+ h->GetXaxis()->SetBinLabel(13, "after AliVEvent & fPIDResponse");
+ h->GetXaxis()->SetBinLabel(14, "events before event mixing");
+ h->GetXaxis()->SetBinLabel(15, "mixed events w/ pool");
+ h->GetXaxis()->SetBinLabel(16, "event mixing: jets");
+ h->GetXaxis()->SetBinLabel(17, "event mixing: nMix");
+ h->GetXaxis()->SetBinLabel(18, "event mixing: nbackground tracks");
+ h->GetXaxis()->SetBinLabel(19, "event mixing: THE END");
+
+ // set x-axis labels vertically
+ h->LabelsOption("v");
+}
+void AliAnalysisTaskEmcalJetHadEPpid::SetfHistEvtSelQALabels(TH1* h) const
+{
+ // label bins of the analysis trigger selection summary
+ h->GetXaxis()->SetBinLabel(1, "no trigger");
+ h->GetXaxis()->SetBinLabel(2, "kAny");
+ h->GetXaxis()->SetBinLabel(3, "kAnyINT");
+ h->GetXaxis()->SetBinLabel(4, "kMB");
+ h->GetXaxis()->SetBinLabel(5, "kINT7");
+ h->GetXaxis()->SetBinLabel(6, "kEMC1");
+ h->GetXaxis()->SetBinLabel(7, "kEMC7");
+ h->GetXaxis()->SetBinLabel(8, "kEMC8");
+ h->GetXaxis()->SetBinLabel(9, "kEMCEJE");
+ h->GetXaxis()->SetBinLabel(10, "kEMCEGA");
+ h->GetXaxis()->SetBinLabel(11, "kCentral");
+ h->GetXaxis()->SetBinLabel(12, "kSemiCentral");
+ h->GetXaxis()->SetBinLabel(13, "kINT8");
+ h->GetXaxis()->SetBinLabel(14, "kEMCEJE or kMB");
+ h->GetXaxis()->SetBinLabel(15, "kEMCEGA or kMB");
+ h->GetXaxis()->SetBinLabel(16, "kAnyINT or kMB");
+ h->GetXaxis()->SetBinLabel(17, "kEMCEJE & kMB");
+ h->GetXaxis()->SetBinLabel(18, "kEMCEGA & kMB");
+ h->GetXaxis()->SetBinLabel(19, "kAnyINT & kMB");
+
+ // set x-axis labels vertically
+ h->LabelsOption("v");
+ //h->LabelsDeflate("X");
}
//______________________________________________________________________
-THnSparse* AliAnalysisTaskEmcalJetHadEPpid::NewTHnSparseDCorr(const char* name, UInt_t entries) {
+THnSparse* AliAnalysisTaskEmcalJetHadEPpid::NewTHnSparseFCorr(const char* name, UInt_t entries) {
// generate new THnSparseD, axes are defined in GetDimParamsD()
Int_t count = 0;
UInt_t tmp = entries;
Int_t c=0;
while(c<dim && i<32){
if(entries&(1<<i)){
-
TString label("");
GetDimParamsCorr(i, label, nbins[c], xmin[c], xmax[c]);
hnTitle += Form(";%s",label.Data());
}
hnTitle += ";";
- return new THnSparseD(name, hnTitle.Data(), dim, nbins, xmin, xmax);
-} // end of NewTHnSparseD
+ return new THnSparseF(name, hnTitle.Data(), dim, nbins, xmin, xmax);
+} // end of NewTHnSparseF
//______________________________________________________________________________________________
void AliAnalysisTaskEmcalJetHadEPpid::GetDimParamsCorr(Int_t iEntry, TString &label, Int_t &nbins, Double_t &xmin, Double_t &xmax)
case 1:
label = "Jet p_{T}";
- nbins = 216;
+ nbins = 50; // 216
xmin = 0.;
- xmax = 216.;
+ xmax = 250.; // 216
break;
case 2:
label = "Relative angle: Jet and Reaction Plane";
- nbins = 48;
+ nbins = 3; // (12) 48
xmin = 0.;
xmax = 0.5*pi;
break;
+ case 3:
+ label = "Z-vertex";
+ nbins = 10;
+ xmin = -10.;
+ xmax = 10.;
+ break;
+
+ case 4:
+ label = "Jet p_{T} corrected with Local Rho";
+ nbins = 50; // 250
+ xmin = -50.;
+ xmax = 200.;
+ break;
+
+ case 5:
+ label = "Jet p_{T} corrected with Global Rho";
+ nbins = 50; // 250
+ xmin = -50.;
+ xmax = 200.;
+ break;
+
}// end of switch
} // end of Correction (ME) sparse
+//________________________________________________________________________
+//Int_t AliAnalysisTaskEmcalJetHadEPpid::AcceptFlavourJet(AliEmcalJet* fljet, Int_t NUM, Int_t NUM2, Int_t NUM3) {
+Int_t AliAnalysisTaskEmcalJetHadEPpid::AcceptFlavourJet(AliEmcalJet* fljet, Int_t NUM) {
+ // Get jet if accepted for given flavour tag
+ // If jet not accepted return 0
+ if(!fljet) {
+ AliError(Form("%s:Jet not found",GetName()));
+ return 0;
+ }
+
+ Int_t flavNUM = -99;//, flavNUM2 = -99, flavNUM3 = -99; FIXME commented out to avoid compiler warning
+ flavNUM = NUM;
+ //flavNUM2 = NUM2;
+ //flavNUM3 = NUM3;
+
+/*
+ // from the AliEmcalJet class, the tagging enumerator
+ enum EFlavourTag{
+ kDStar = 1<<0, kD0 = 1<<1,
+ kSig1 = 1<<2, kSig2 = 1<<3,
+ kBckgrd1 = 1<<4, kBckgrd2 = 1<<5, kBckgrd3 = 1<<6
+ };
+ // bit 0 = no tag, bit 1 = Dstar, bit 2 = D0 and so forth...
+*/
+
+ // get flavour of jet (if any)
+ Int_t flav = -999;
+ flav = fljet->GetFlavour();
+
+ // cases (for now..)
+ // 3 = electron rich, 5 = hadron (bkgrd) rich
+ // if flav < 1, its not tagged, so return kFALSE (0)
+ if(flav < 1) return 0;
+
+ // if flav is not equal to what we want then return kFALSE (0)
+ //if(flav != flavNUM && flav != flavNUM2 && flav != flavNUM3) return 0;
+ if(flav != flavNUM) return 0;
+
+ // we have the flavour we want, so return kTRUE (1)
+ //if(flav == flavNUM || flav == flavNUM2 || flav == flavNUM3) return 1;
+ if(flav == flavNUM) return 1;
+
+ // we by default have a flavour tagged jet
+ return 1;
+}
+
+//________________________________________________________________________
+Double_t AliAnalysisTaskEmcalJetHadEPpid::EffCorrection(Double_t trackETA, Double_t trackPT, Int_t effSwitch) const {
+ // default (current) parameters
+/*
+ // set min/max range of x & y (track Eta & track pt)
+ Double_t trETAmin = -0.9; Double_t trETAmax = 0.9;
+ Double_t trPTmin = 0.0; Double_t trPTmax = 20.0;
+ Int_t npar = 10;
+ //TF2 TRefficiency = TRefficiency = new TF2("eff", EffFunctionCorr, trETAmin, trETAmax, trPTmin, trPTmax, npar);
+ TRefficiency = new TF2("eff", "([0]*exp(-pow([1]/x,[2])) + [3]*x) * ( (y>-0.07)*([4] + [5]*y + [6]*y*y) + (y<=-0.07)*([7] + [8]*y + [9]*y*y) ) ", trETAmin, trETAmax, trPTmin, trPTmax, npar);
+*/
+
+ Int_t runNUM = fCurrentRunNumber;
+
+ if ((runNUM == 169975 || runNUM == 169981 || runNUM == 170038 || runNUM == 170040 || runNUM == 170083 || runNUM == 170084 || runNUM == 170085 || runNUM == 170088 || runNUM == 170089 || runNUM == 170091 || runNUM == 170155 || runNUM == 170159 || runNUM == 170163 || runNUM == 170193 || runNUM == 170195 || runNUM == 170203 || runNUM == 170204 || runNUM == 170228 || runNUM == 170230 || runNUM == 170268 || runNUM == 170269 || runNUM == 170270 || runNUM == 170306 || runNUM == 170308 || runNUM == 170309) && fCent < 30 && effSwitch!=1 && effSwitch!=6) effSwitch = 2;
+
+ if ((runNUM == 169975 || runNUM == 169981 || runNUM == 170038 || runNUM == 170040 || runNUM == 170083 || runNUM == 170084 || runNUM == 170085 || runNUM == 170088 || runNUM == 170089 || runNUM == 170091 || runNUM == 170155 || runNUM == 170159 || runNUM == 170163 || runNUM == 170193 || runNUM == 170195 || runNUM == 170203 || runNUM == 170204 || runNUM == 170228 || runNUM == 170230 || runNUM == 170268 || runNUM == 170269 || runNUM == 170270 || runNUM == 170306 || runNUM == 170308 || runNUM == 170309) && fCent > 30 && effSwitch!=1 && effSwitch!=6) effSwitch = 3;
+
+ if ((runNUM == 167903 || runNUM == 167915 || runNUM == 167987 || runNUM == 167988 || runNUM == 168066 || runNUM == 168068 || runNUM == 168069 || runNUM == 168076 || runNUM == 168104 || runNUM == 168107 || runNUM == 168108 || runNUM == 168115 || runNUM == 168212 || runNUM == 168310 || runNUM == 168311 || runNUM == 168322 || runNUM == 168325 || runNUM == 168341 || runNUM == 168342 || runNUM == 168361 || runNUM == 168362 || runNUM == 168458 || runNUM == 168460 || runNUM == 168461 || runNUM == 168464 || runNUM == 168467 || runNUM == 168511 || runNUM == 168512 || runNUM == 168777 || runNUM == 168826 || runNUM == 168984 || runNUM == 168988 || runNUM == 168992 || runNUM == 169035 || runNUM == 169091 || runNUM == 169094 || runNUM == 169138 || runNUM == 169143 || runNUM == 169144 || runNUM == 169145 || runNUM == 169148 || runNUM == 169156 || runNUM == 169160 || runNUM == 169167 || runNUM == 169238 || runNUM == 169411 || runNUM == 169415 || runNUM == 169417 || runNUM == 169835 || runNUM == 169837 || runNUM == 169838 || runNUM == 169846 || runNUM == 169855 || runNUM == 169858 || runNUM == 169859 || runNUM == 169923 || runNUM == 169956 || runNUM == 170027 || runNUM == 170036 || runNUM == 170081) && fCent < 30 && effSwitch!=1 && effSwitch!=6) effSwitch = 4;
+
+ if ((runNUM == 167903 || runNUM == 167915 || runNUM == 167987 || runNUM == 167988 || runNUM == 168066 || runNUM == 168068 || runNUM == 168069 || runNUM == 168076 || runNUM == 168104 || runNUM == 168107 || runNUM == 168108 || runNUM == 168115 || runNUM == 168212 || runNUM == 168310 || runNUM == 168311 || runNUM == 168322 || runNUM == 168325 || runNUM == 168341 || runNUM == 168342 || runNUM == 168361 || runNUM == 168362 || runNUM == 168458 || runNUM == 168460 || runNUM == 168461 || runNUM == 168464 || runNUM == 168467 || runNUM == 168511 || runNUM == 168512 || runNUM == 168777 || runNUM == 168826 || runNUM == 168984 || runNUM == 168988 || runNUM == 168992 || runNUM == 169035 || runNUM == 169091 || runNUM == 169094 || runNUM == 169138 || runNUM == 169143 || runNUM == 169144 || runNUM == 169145 || runNUM == 169148 || runNUM == 169156 || runNUM == 169160 || runNUM == 169167 || runNUM == 169238 || runNUM == 169411 || runNUM == 169415 || runNUM == 169417 || runNUM == 169835 || runNUM == 169837 || runNUM == 169838 || runNUM == 169846 || runNUM == 169855 || runNUM == 169858 || runNUM == 169859 || runNUM == 169923 || runNUM == 169956 || runNUM == 170027 || runNUM == 170036 || runNUM == 170081) && fCent > 30 && effSwitch!=1 && effSwitch!=6) effSwitch = 5;
+
+ // set parameter values
+ Double_t p[10] = {9.30132e-01, 9.78828e-02, 1.50626e+00, -1.30398e-02, 9.04935e-01, 2.93456e-01, -3.84654e-01, 8.64688e-01, -2.59244e-01, -3.50544e-01};
+ Double_t m[10] = {9.64508e-01, 9.53247e-01, 3.34584e+01, -4.44705e-03, 8.42526e-01, 2.64031e-01, -3.37155e-01, 8.00933e-01, -2.52274e-01, -3.32314e-01};
+ Double_t r[10] = {9.32462e-01, 9.65724e-02, 1.46878e+00, -1.58579e-02, 9.46241e-01, 1.98548e-01, -2.93280e-01, 9.05743e-01, -1.55519e-01, -2.54959e-01};
+ Double_t n[9] = {1.01595e+00, 4.46603e-05, 1.53587e+00, -1.14282e-03, 7.87525e-01, 3.35267e-01, -5.68939e-01, 5.19236e-01, -5.20195e-01};
+ Double_t q[9] = {19.72915e-01, 6.38626e-01, 8.47813e+00, -1.03864e-02, 9.01610e-01, 9.71765e-02, -4.94174e-01, 1.11112e+00, -9.64431e-01};
+
+ // x-variable = track pt, y-variable = track eta
+ Double_t x = trackPT;
+ Double_t y = trackETA;
+ Double_t TRefficiency = -999;
+
+ // set up a switch for different parameter values...
+ switch(effSwitch) {
+ case 1 :
+ // first switch value, initial set of parameters on low statistics data for Semi-Good (LHC11h) Run
+ //Double_t p[] = {9.30132e-01, 9.78828e-02, 1.50626e+00, -1.30398e-02, 9.04935e-01, 2.93456e-01, -3.84654e-01, 8.64688e-01, -2.59244e-01, -3.50544e-01};
+
+ // calculate tracking efficiency as function of track pt and track eta
+ TRefficiency = (p[0]*exp(-pow(p[1]/x,p[2])) + p[3]*x) * ( (y>-0.07)*(p[4] + p[5]*y + p[6]*y*y) + (y<=-0.07)*(p[7] + p[8]*y + p[9]*y*y) );
+ break;
+
+ case 2 :
+ // Parameter values for Semi-GOOD TPC (LHC11h) runs (0-30%):
+ TRefficiency = (m[0]*exp(-pow(m[1]/x,m[2])) + m[3]*x) * ( (y>-0.07)*(m[4] + m[5]*y + m[6]*y*y) + (y<=-0.07)*(m[7] + m[8]*y + m[9]*y*y) );
+ break;
+
+ case 3 :
+ // Parameter values for Semi-GOOD TPC (LHC11h) runs (30-90%):
+ TRefficiency = (r[0]*exp(-pow(r[1]/x,r[2])) + r[3]*x) * ( (y>-0.07)*(r[4] + r[5]*y + r[6]*y*y) + (y<=-0.07)*(r[7] + r[8]*y + r[9]*y*y) );
+ break;
+
+ case 4 :
+ // Parameter values for GOOD TPC (LHC11h) runs (0-30%):
+ TRefficiency = (n[0]*exp(-pow(n[1]/x,n[2])) + n[3]*x) * (n[4] + n[5]*y + n[6]*y*y + n[7]*y*y*y + n[8]*y*y*y*y);
+ break;
+
+ case 5 :
+ // Parameter values for GOOD TPC (LHC11h) runs (30-90%):
+ TRefficiency = (q[0]*exp(-pow(q[1]/x,q[2])) + q[3]*x) * (q[4] + q[5]*y + q[6]*y*y + q[7]*y*y*y + q[8]*y*y*y*y);
+ break;
+
+ case 6 :
+ // Parameter values for tweaking efficiency function..
+ TRefficiency = (q[0]*exp(-pow(q[1]/x,q[2])) + q[3]*x) * ( (y>-0.07)*(q[4] + q[5]*y + q[6]*y*y) + (y<=-0.07)*(q[7] + q[8]*y + q[9]*y*y) );
+ TRefficiency = 1.0; // for now
+ break;
+
+ default :
+ // no Efficiency Switch option selected.. therefore don't correct, and set eff = 1
+ TRefficiency = 1.0;
+
+ }
+
+ return TRefficiency;
+}