-
// ******************************************
// This task computes several jet observables like
// the fraction of energy in inner and outer coronnas,
#include "TH3F.h"
#include "THnSparse.h"
#include "TCanvas.h"
-
+#include "TRandom3.h"
#include "AliLog.h"
#include "AliAnalysisTask.h"
#include "AliAnalysisHelperJetTasks.h"
#include "AliInputEventHandler.h"
#include "AliAODJetEventBackground.h"
+#include "AliAODMCParticle.h"
#include "AliAnalysisTaskFastEmbedding.h"
#include "AliAODEvent.h"
#include "AliAODHandler.h"
#include "AliAnalysisTaskJetCore.h"
+using std::cout;
+using std::endl;
+
ClassImp(AliAnalysisTaskJetCore)
AliAnalysisTaskJetCore::AliAnalysisTaskJetCore() :
AliAnalysisTaskSE(),
fESD(0x0),
-fAOD(0x0),
+fAODIn(0x0),
+fAODOut(0x0),
fAODExtension(0x0),
fBackgroundBranch(""),
fNonStdFile(""),
fEvtClassMin(0),
fEvtClassMax(4),
fFilterMask(0),
+fFilterMaskBestPt(0),
+fFilterType(0),
fRadioFrac(0.2),
fMinDist(0.1),
fCentMin(0.),
fCentMax(100.),
fNInputTracksMin(0),
fNInputTracksMax(-1),
+fRequireITSRefit(0),
+fApplySharedClusterCut(0),
fAngStructCloseTracks(0),
fCheckMethods(0),
+fDoEventMixing(0),
+fFlagPhiBkg(0),
+fFlagEtaBkg(0),
+fFlagJetHadron(0),
+fFrac(0.8),
+fTTLowRef(11),
+fTTUpRef(13),
+fTTLowSig(15),
+fTTUpSig(19),
+fHardest(0),
+fFlagRandom(0),
+fFlagOnlyRecoil(0),
+fFlagOnlyHardest(1),
+fTrackTypeRec(kTrackUndef),
+fRPAngle(0),
+fNRPBins(50),
+fSemigoodCorrect(0),
+fHolePos(4.71),
+fHoleWidth(0.2),
fJetEtaMin(-.5),
fJetEtaMax(.5),
+fNevents(0),
+fTindex(0),
+fTrigBufferIndex(0),
+fCountAgain(0),
fJetPtMin(20.),
fJetTriggerExcludeMask(AliAODJet::kHighTrackPtTriggered),
fJetPtFractionMin(0.5),
fNMatchJets(4),
fMatchMaxDist(0.8),
fKeepJets(kFALSE),
+fRunAnaAzimuthalCorrelation(kFALSE),
fkNbranches(2),
fkEvtClasses(12),
fOutputList(0x0),
fbEvent(kTRUE),
fHistEvtSelection(0x0),
fhnDeltaR(0x0),
-fhnSumBkg(0x0),
-fhnJetCoreMethod3(0x0),
+fhnMixedEvents(0x0),
fh2JetCoreMethod1C10(0x0),
fh2JetCoreMethod2C10(0x0),
fh2JetCoreMethod1C20(0x0),
fh2JetCoreMethod2C30(0x0),
fh2JetCoreMethod1C60(0x0),
fh2JetCoreMethod2C60(0x0),
+fh3JetTrackC3060(0x0),
+fh3JetTrackC20(0x0),
fh2AngStructpt1C10(0x0),
fh2AngStructpt2C10(0x0),
fh2AngStructpt3C10(0x0),
fh2AngStructpt2C60(0x0),
fh2AngStructpt3C60(0x0),
fh2AngStructpt4C60(0x0),
-fh3spectriggered(0x0),
-fh3specbiased(0x0),
-fh3specleadsublead(0x0)
+fh1TrigRef(0x0),
+fh1TrigSig(0x0),
+fh2Ntriggers(0x0),
+fh2Ntriggers2C10(0x0),
+fh2Ntriggers2C20(0x0),
+fh3JetDensity(0x0),
+fh3JetDensityA4(0x0),
+fh2RPJetsC10(0x0),
+fh2RPJetsC20(0x0),
+fh2RPTC10(0x0),
+fh2RPTC20(0x0),
+fHJetSpec(0x0),
+fhTTPt(0x0),
+fHJetPhiCorr(0x0),
+fRandom(0x0)
{
// default Constructor
+
+ // Trigger buffer.
+ for(Int_t i=0; i<10; i++) {
+ for(Int_t j=0; j<6; j++) {
+ fTrigBuffer[i][j]=0;
+ }
+ }
+
+
+
+
+
fJetBranchName[0] = "";
fJetBranchName[1] = "";
AliAnalysisTaskJetCore::AliAnalysisTaskJetCore(const char *name) :
AliAnalysisTaskSE(name),
fESD(0x0),
-fAOD(0x0),
+fAODIn(0x0),
+fAODOut(0x0),
fAODExtension(0x0),
fBackgroundBranch(""),
fNonStdFile(""),
fEvtClassMin(0),
fEvtClassMax(4),
fFilterMask(0),
+fFilterMaskBestPt(0),
+fFilterType(0),
fRadioFrac(0.2),
fMinDist(0.1),
fCentMin(0.),
fCentMax(100.),
fNInputTracksMin(0),
fNInputTracksMax(-1),
+fRequireITSRefit(0),
+fApplySharedClusterCut(0),
fAngStructCloseTracks(0),
fCheckMethods(0),
+fDoEventMixing(0),
+fFlagPhiBkg(0),
+fFlagEtaBkg(0),
+fFlagJetHadron(0),
+fFrac(0.8),
+fTTLowRef(11),
+fTTUpRef(13),
+fTTLowSig(15),
+fTTUpSig(19),
+fHardest(0),
+fFlagRandom(0),
+fFlagOnlyRecoil(0),
+fFlagOnlyHardest(1),
+fTrackTypeRec(kTrackUndef),
+fRPAngle(0),
+fNRPBins(50),
+fSemigoodCorrect(0),
+fHolePos(4.71),
+fHoleWidth(0.2),
fJetEtaMin(-.5),
fJetEtaMax(.5),
+fNevents(0),
+fTindex(0),
+fTrigBufferIndex(0),
+fCountAgain(0),
fJetPtMin(20.),
fJetTriggerExcludeMask(AliAODJet::kHighTrackPtTriggered),
fJetPtFractionMin(0.5),
fNMatchJets(4),
fMatchMaxDist(0.8),
fKeepJets(kFALSE),
+fRunAnaAzimuthalCorrelation(kFALSE),
fkNbranches(2),
fkEvtClasses(12),
fOutputList(0x0),
fbEvent(kTRUE),
fHistEvtSelection(0x0),
fhnDeltaR(0x0),
-fhnSumBkg(0x0),
-fhnJetCoreMethod3(0x0),
+fhnMixedEvents(0x0),
fh2JetCoreMethod1C10(0x0),
fh2JetCoreMethod2C10(0x0),
fh2JetCoreMethod1C20(0x0),
fh2JetCoreMethod2C30(0x0),
fh2JetCoreMethod1C60(0x0),
fh2JetCoreMethod2C60(0x0),
+fh3JetTrackC3060(0x0),
+fh3JetTrackC20(0x0),
fh2AngStructpt1C10(0x0),
fh2AngStructpt2C10(0x0),
fh2AngStructpt3C10(0x0),
fh2AngStructpt2C60(0x0),
fh2AngStructpt3C60(0x0),
fh2AngStructpt4C60(0x0),
-fh3spectriggered(0x0),
-fh3specbiased(0x0),
-fh3specleadsublead(0x0)
+fh1TrigRef(0x0),
+fh1TrigSig(0x0),
+fh2Ntriggers(0x0),
+fh2Ntriggers2C10(0x0),
+fh2Ntriggers2C20(0x0),
+fh3JetDensity(0x0),
+fh3JetDensityA4(0x0),
+fh2RPJetsC10(0x0),
+fh2RPJetsC20(0x0),
+fh2RPTC10(0x0),
+fh2RPTC20(0x0),
+fHJetSpec(0x0),
+fhTTPt(0x0),
+fHJetPhiCorr(0x0),
+fRandom(0x0)
+
{
// Constructor
+
+ for(Int_t i=0; i<10; i++) {
+ for(Int_t j=0; j<6; j++) {
+ fTrigBuffer[i][j]=0;
+ }
+ }
+
+
+
fJetBranchName[0] = "";
fJetBranchName[1] = "";
TH1::AddDirectory(kFALSE);
+ // set seed
+ fRandom = new TRandom3(0);
+
+
+
+
fHistEvtSelection = new TH1I("fHistEvtSelection", "event selection", 6, -0.5, 5.5);
fHistEvtSelection->GetXaxis()->SetBinLabel(1,"ACCEPTED");
fHistEvtSelection->GetXaxis()->SetBinLabel(2,"events IN");
fHistEvtSelection->GetXaxis()->SetBinLabel(5,"centrality (rejected)");
fHistEvtSelection->GetXaxis()->SetBinLabel(6,"multiplicity (rejected)");
- UInt_t entries = 0; // bit coded, see GetDimParams() below
-
- entries = 1<<0 | 1<<1 | 1<<2 | 1<<3 | 1<<4 | 1<<5 | 1<<6 |1<<7|1<<8;
+ UInt_t entries = 0; // bit coded, see GetDimParams() below
+ entries = 1<<0 | 1<<1 | 1<<2 | 1<<3 | 1<<4 | 1<<5 | 1<<6 |1<<7;
fhnDeltaR = NewTHnSparseF("fhnDeltaR", entries);
- // fhnSumBkg = NewTHnSparseF("fhnDeltaR", entries);
- if(fCheckMethods){
- entries = 1<<0 | 1<<1 | 1<<2 | 1<<3 | 1<<4 | 1<<5 ;
- fhnJetCoreMethod3 = NewTHnSparseF("fhnEvent", entries);
+ //change binning in pTtrack
+ Double_t *xPt3 = new Double_t[10];
+ xPt3[0] = 0.;
+ for(int i = 1; i<=9;i++){
+ if(xPt3[i-1]<2)xPt3[i] = xPt3[i-1] + 0.4; // 1 - 5
+ else if(xPt3[i-1]<11)xPt3[i] = xPt3[i-1] + 3; // 5 - 12
+ else xPt3[i] = xPt3[i-1] + 150.; // 18
+ }
+ fhnDeltaR->SetBinEdges(2,xPt3);
+ delete [] xPt3;
+
+ //change binning in HTI
+ Double_t *xPt4 = new Double_t[14];
+ xPt4[0] = 0.;
+ for(int i = 1; i<=13;i++){
+ if(xPt4[i-1]<10)xPt4[i] = xPt4[i-1] + 1; // 1 - 10
+ else if(xPt4[i-1]<20)xPt4[i] = xPt4[i-1] + 5; // 10 - 12
+ else xPt4[i] = xPt4[i-1] + 30.; // 13
+ }
+ fhnDeltaR->SetBinEdges(6,xPt4);
+ delete [] xPt4;
+
+
+
+
+
+
+
+ if(fDoEventMixing){
+ UInt_t cifras = 0; // bit coded, see GetDimParams() below
+ cifras = 1<<0 | 1<<1 | 1<<2 | 1<<3 | 1<<4 | 1<<5 | 1<<7;
+ fhnMixedEvents = NewTHnSparseF("fhnMixedEvents", cifras);}
+ if(fCheckMethods){
fh2JetCoreMethod1C10 = new TH2F("JetCoreMethod1C10","",150, 0., 150.,100, 0., 1.5);
fh2JetCoreMethod2C10 = new TH2F("JetCoreMethod2C10","",150, 0., 150.,100, 0., 1.5);
fh2JetCoreMethod1C20 = new TH2F("JetCoreMethod1C20","",150, 0., 150.,100, 0., 1.5);
fh2JetCoreMethod1C60 = new TH2F("JetCoreMethod1C60","",150, 0., 150.,100, 0., 1.5);
fh2JetCoreMethod2C60 = new TH2F("JetCoreMethod2C60","",150, 0., 150.,100, 0., 1.5);}
-
+ fh3JetTrackC3060=new TH3F("JetTrackC3060","",50,0,50,150,0.,150.,35,0.,3.5);
+ fh3JetTrackC20=new TH3F("JetTrackC20","",50,0,50,150,0.,150.,35,0.,3.5);
if(fAngStructCloseTracks>0){
fh2AngStructpt1C10 = new TH2F("Ang struct pt1 C10","",15,0.,1.5,150,0.,10.);
fh2AngStructpt2C10 = new TH2F("Ang struct pt2 C10","",15,0.,1.5,150,0.,10.);
fh2AngStructpt2C60 = new TH2F("Ang struct pt2 C60","",15,0.,1.5,150,0.,10.);
fh2AngStructpt3C60 = new TH2F("Ang struct pt3 C60","",15,0.,1.5,150,0.,10.);
fh2AngStructpt4C60 = new TH2F("Ang struct pt4 C60","",15,0.,1.5,150,0.,10.); }
- fh3spectriggered = new TH3F("Triggered spectrum","",10,0,100,50,0.,200,50,0.,50.);
- fh3specbiased = new TH3F("Biased spectrum","",10,0,100,50,0.,200.,50,0.,50.);
- fh3specleadsublead = new TH3F("Leading/subleading spectrum","",10,0,100,50,0.,200.,3,0,3);
+
+ fh1TrigRef=new TH1D("Trig Ref","",10,0.,10);
+ fh1TrigSig=new TH1D("Trig Sig","",10,0.,10);
+ fh2Ntriggers=new TH2F("# of triggers","",100,0.,100.,50,0.,50.);
+ fh2Ntriggers2C10=new TH2F("# of triggers2C10","",50,0.,50.,50,0.,50.);
+ fh2Ntriggers2C20=new TH2F("# of triggers2C20","",50,0.,50.,50,0.,50.);
+ fh3JetDensity=new TH3F("Jet density vs mutliplicity A>0.07","",100,0.,4000.,100,0.,5.,25,0.,50.);
+ fh3JetDensityA4=new TH3F("Jet density vs multiplicity A>0.4","",100,0.,4000.,100,0.,5.,25,0.,50.);
+ fh2RPJetsC10=new TH2F("RPJetC10","",35,0.,3.5,100,0.,100.);
+ fh2RPJetsC20=new TH2F("RPJetC20","",35,0.,3.5,100,0.,100.);
+ fh2RPTC10=new TH2F("RPTriggerC10","",35,0.,3.5,50,0.,50.);
+ fh2RPTC20=new TH2F("RPTriggerC20","",35,0.,3.5,50,0.,50.);
+
+
+
+
fOutputList->Add(fHistEvtSelection);
fOutputList->Add(fhnDeltaR);
- //fOutputList->Add(fhnSumBkg);
+ fOutputList->Add(fhnMixedEvents);
if(fCheckMethods){
- fOutputList->Add(fhnJetCoreMethod3);
+
fOutputList->Add(fh2JetCoreMethod1C10);
fOutputList->Add(fh2JetCoreMethod2C10);
fOutputList->Add(fh2JetCoreMethod1C20);
fOutputList->Add(fh2JetCoreMethod1C60);
fOutputList->Add(fh2JetCoreMethod2C60);}
-
+ fOutputList->Add(fh3JetTrackC3060);
+ fOutputList->Add(fh3JetTrackC20);
+
+
fOutputList->Add(fh2AngStructpt2C60);
fOutputList->Add(fh2AngStructpt3C60);
fOutputList->Add(fh2AngStructpt4C60);}
- fOutputList->Add(fh3spectriggered);
- fOutputList->Add(fh3specbiased);
- fOutputList->Add(fh3specleadsublead);
+
+
+
+ fOutputList->Add(fh1TrigRef);
+ fOutputList->Add(fh1TrigSig);
+ fOutputList->Add(fh2Ntriggers);
+ fOutputList->Add(fh2Ntriggers2C10);
+ fOutputList->Add(fh2Ntriggers2C20);
+ fOutputList->Add(fh3JetDensity);
+ fOutputList->Add(fh3JetDensityA4);
+ fOutputList->Add(fh2RPJetsC10);
+ fOutputList->Add(fh2RPJetsC20);
+ fOutputList->Add(fh2RPTC10);
+ fOutputList->Add(fh2RPTC20);
+
+ const Int_t dimSpec = 5;
+ const Int_t nBinsSpec[dimSpec] = {100,6, 140, 50, fNRPBins};
+ const Double_t lowBinSpec[dimSpec] = {0,0,-80, 0, 0};
+ const Double_t hiBinSpec[dimSpec] = {100,1, 200, 50, static_cast<Double_t>(fNRPBins)};
+ fHJetSpec = new THnSparseF("fHJetSpec","Recoil jet spectrum",dimSpec,nBinsSpec,lowBinSpec,hiBinSpec);
+
+ //change binning in jet area
+ Double_t *xPt6 = new Double_t[7];
+ xPt6[0] = 0.;
+ xPt6[1]=0.07;
+ xPt6[2]=0.2;
+ xPt6[3]=0.4;
+ xPt6[4]=0.6;
+ xPt6[5]=0.8;
+ xPt6[6]=1;
+ fHJetSpec->SetBinEdges(1,xPt6);
+ delete [] xPt6;
+
+
+
+
+
+ fOutputList->Add(fHJetSpec);
+
+
+ if(fRunAnaAzimuthalCorrelation)
+ {
+ fhTTPt = new TH2F("fhTTPt","Trigger track p_{T} vs centrality",10,0,100,100,0,100);
+ fOutputList->Add(fhTTPt);
+
+ const Int_t dimCor = 5;
+ const Int_t nBinsCor[dimCor] = {50, 200, 100, 8, 10};
+ const Double_t lowBinCor[dimCor] = {0, -50, -0.5*TMath::Pi(), 0, 0};
+ const Double_t hiBinCor[dimCor] = {50, 150, 1.5*TMath::Pi(), 0.8, 100};
+ fHJetPhiCorr = new THnSparseF("fHJetPhiCorr","TT p_{T} vs jet p_{T} vs dPhi vs area vs centrality",dimCor,nBinsCor,lowBinCor,hiBinCor);
+ fOutputList->Add(fHJetPhiCorr);
+ }
+
+
+
+
// =========== Switch on Sumw2 for all histos ===========
for (Int_t i=0; i<fOutputList->GetEntries(); ++i) {
TH1 *h1 = dynamic_cast<TH1*>(fOutputList->At(i));
fESD=dynamic_cast<AliESDEvent*>(InputEvent());
if (!fESD) {
AliError("ESD not available");
- fAOD = dynamic_cast<AliAODEvent*>(InputEvent());
- } else {
- fAOD = dynamic_cast<AliAODEvent*>(AODEvent());
- }
+ fAODIn = dynamic_cast<AliAODEvent*>(InputEvent());
+ }
+ fAODOut = dynamic_cast<AliAODEvent*>(AODEvent());
+
+ static AliAODEvent* aod = 0;
+ // take all other information from the aod we take the tracks from
+ if(!aod){
+ if(!fESD)aod = fAODIn;
+ else aod = fAODOut;}
+
+
if(fNonStdFile.Length()!=0){
// case that we have an AOD extension we need can fetch the jets from the extended output
}}
+ // -- event selection --
+ fHistEvtSelection->Fill(1); // number of events before event selection
+ Bool_t selected=kTRUE;
+ selected = AliAnalysisHelperJetTasks::Selected();
+ if(!selected){
+ // no selection by the service task, we continue
+ PostData(1,fOutputList);
+ return;}
+
- // -- event selection --
- fHistEvtSelection->Fill(1); // number of events before event selection
- // physics selection
+ // physics selection: this is now redundant, all should appear as accepted after service task selection
AliInputEventHandler* inputHandler = (AliInputEventHandler*)
((AliAnalysisManager::GetAnalysisManager())->GetInputEventHandler());
- cout<<inputHandler->IsEventSelected()<<" "<<fOfflineTrgMask<<endl;
+ std::cout<<inputHandler->IsEventSelected()<<" "<<fOfflineTrgMask<<std::endl;
if(!(inputHandler->IsEventSelected() & fOfflineTrgMask)){
if(fDebug) Printf(" Trigger Selection: event REJECTED ... ");
fHistEvtSelection->Fill(2);
return;
}
+
+
// vertex selection
- if(!fAOD){
+ if(!aod){
+ if(fDebug) Printf("%s:%d No AOD",(char*)__FILE__,__LINE__);
+ fHistEvtSelection->Fill(3);
+ PostData(1, fOutputList);
+ }
+ AliAODVertex* primVtx = aod->GetPrimaryVertex();
+
+ if(!primVtx){
+ if(fDebug) Printf("%s:%d No primVtx",(char*)__FILE__,__LINE__);
+ fHistEvtSelection->Fill(3);
PostData(1, fOutputList);
- if(fDebug) Printf(" No AOD found ... ");
return;
}
- AliAODVertex* primVtx = fAOD->GetPrimaryVertex();
+
Int_t nTracksPrim = primVtx->GetNContributors();
if ((nTracksPrim < fMinContribVtx) ||
(primVtx->GetZ() < fVtxZMin) ||
// centrality selection
AliCentrality *cent = 0x0;
Double_t centValue = 0.;
- if(fESD) cent = fESD->GetCentrality();
- if(cent) centValue = cent->GetCentralityPercentile("V0M");
+ if(fIsPbPb){
+ if(fESD) {cent = fESD->GetCentrality();
+ if(cent) centValue = cent->GetCentralityPercentile("V0M");}
+ else centValue=((AliVAODHeader*)aod->GetHeader())->GetCentrality();
+
if(fDebug) printf("centrality: %f\n", centValue);
- if (centValue < fCentMin || centValue > fCentMax){
+ if (centValue < fCentMin || centValue > fCentMax){
fHistEvtSelection->Fill(4);
PostData(1, fOutputList);
return;
- }
+ }}
fHistEvtSelection->Fill(0);
// get background
AliAODJetEventBackground* externalBackground = 0;
- if(fAOD&&!externalBackground&&fBackgroundBranch.Length()){
- externalBackground = (AliAODJetEventBackground*)(fAOD->FindListObject(fBackgroundBranch.Data()));
+ if(fAODOut&&!externalBackground&&fBackgroundBranch.Length()){
+ externalBackground = (AliAODJetEventBackground*)(fAODOut->FindListObject(fBackgroundBranch.Data()));
if(!externalBackground)Printf("%s:%d Background branch not found %s",(char*)__FILE__,__LINE__,fBackgroundBranch.Data());;
}
if(fAODExtension&&!externalBackground&&fBackgroundBranch.Length()){
externalBackground = (AliAODJetEventBackground*)(fAODExtension->GetAOD()->FindListObject(fBackgroundBranch.Data()));
if(!externalBackground)Printf("%s:%d Background branch not found %s",(char*)__FILE__,__LINE__,fBackgroundBranch.Data());;
}
+
+ if(fAODIn&&!externalBackground&&fBackgroundBranch.Length()){
+ externalBackground = (AliAODJetEventBackground*)(fAODIn->FindListObject(fBackgroundBranch.Data()));
+ if(!externalBackground)Printf("%s:%d Background branch not found %s",(char*)__FILE__,__LINE__,fBackgroundBranch.Data());;
+ }
Float_t rho = 0;
- if(externalBackground)rho = externalBackground->GetBackground(0);
-
+ if(fFlagRandom==0){
+ if(externalBackground)rho = externalBackground->GetBackground(0);}
+ if(fFlagRandom==2){
+ if(externalBackground)rho = externalBackground->GetBackground(2);}
+ if(fFlagRandom==3){
+ if(externalBackground)rho = externalBackground->GetBackground(3);}
// fetch jets
TClonesArray *aodJets[2];
aodJets[0]=0;
- if(fAOD&&!aodJets[0]){
- aodJets[0] = dynamic_cast<TClonesArray*>(fAOD->FindListObject(fJetBranchName[0].Data()));
- aodJets[1] = dynamic_cast<TClonesArray*>(fAOD->FindListObject(fJetBranchName[1].Data())); }
+ if(fAODOut&&!aodJets[0]){
+ aodJets[0] = dynamic_cast<TClonesArray*>(fAODOut->FindListObject(fJetBranchName[0].Data()));
+ aodJets[1] = dynamic_cast<TClonesArray*>(fAODOut->FindListObject(fJetBranchName[1].Data())); }
if(fAODExtension && !aodJets[0]){
- aodJets[0] = dynamic_cast<TClonesArray*>(fAODExtension->GetAOD()->FindListObject(fJetBranchName[0].Data()));
- aodJets[1] = dynamic_cast<TClonesArray*>(fAODExtension->GetAOD()->FindListObject(fJetBranchName[1].Data())); }
+ aodJets[0] = dynamic_cast<TClonesArray*>(fAODExtension->GetAOD()->FindListObject(fJetBranchName[0].Data()));
+ aodJets[1] = dynamic_cast<TClonesArray*>(fAODExtension->GetAOD()->FindListObject(fJetBranchName[1].Data())); }
+ if(fAODIn&&!aodJets[0]){
+ aodJets[0] = dynamic_cast<TClonesArray*>(fAODIn->FindListObject(fJetBranchName[0].Data()));
+ aodJets[1] = dynamic_cast<TClonesArray*>(fAODIn->FindListObject(fJetBranchName[1].Data())); }
+
- Double_t ptsub[aodJets[0]->GetEntriesFast()];
- Int_t inord[aodJets[0]->GetEntriesFast()];
- for(Int_t n=0;n<aodJets[0]->GetEntriesFast();n++){
- ptsub[n]=0;
- inord[n]=0;}
+ Int_t nT=0;
TList ParticleList;
- Int_t nT = GetListOfTracks(&ParticleList);
+ Double_t minT=0;
+ Double_t maxT=0;
+ Int_t number=0;
+ Double_t dice=fRandom->Uniform(0,1);
+ if(dice>fFrac){ minT=fTTLowRef;
+ maxT=fTTUpRef;}
+ if(dice<=fFrac){minT=fTTLowSig;
+ maxT=fTTUpSig;}
+
+
+
+ if(fHardest==1 || fHardest==2) nT = GetListOfTracks(&ParticleList);
+ if(fHardest==0) nT=SelectTrigger(&ParticleList,minT,maxT,number);
+ if(nT<0){
+ PostData(1, fOutputList);
+ return;}
+
+ if(dice>fFrac) fh1TrigRef->Fill(number);
+ if(dice<=fFrac)fh1TrigSig->Fill(number);
+
for (Int_t iJetType = 0; iJetType < 2; iJetType++) {
fListJets[iJetType]->Clear();
if (!aodJets[iJetType]) continue;
if(fDebug) Printf("%s: %d jets",fJetBranchName[iJetType].Data(),aodJets[iJetType]->GetEntriesFast());
-
-
for (Int_t iJet = 0; iJet < aodJets[iJetType]->GetEntriesFast(); iJet++) {
AliAODJet *jet = dynamic_cast<AliAODJet*>((*aodJets[iJetType])[iJet]);
- if(!jet)continue;
- fListJets[iJetType]->Add(jet);
- if(iJetType==0){
- ptsub[iJet]=jet->Pt()-rho*jet->EffectiveAreaCharged();
- }}}
+ if (jet) fListJets[iJetType]->Add(jet);
+ // if(iJetType==0){
+ // ptsub[iJet]=jet->Pt()-rho*jet->EffectiveAreaCharged();}
+ }}
Double_t etabig=0;
Double_t ptbig=0;
Double_t phibig=0.;
Double_t etasmall=0;
Double_t ptsmall=0;
- Double_t areasmall=0;
- //Double_t distr=0.;
+ // Double_t areasmall=0;
Double_t phismall=0.;
- Int_t indexlead=-1;
- Int_t indexsublead=-1;
- Int_t indexstop=-1;
-
- if(fListJets[0]->GetEntries()>0) TMath::Sort(fListJets[0]->GetEntries(),ptsub,inord);
-
- for(Int_t jj=0;jj<fListJets[0]->GetEntries();jj++){
- AliAODJet* jetlead = (AliAODJet*)(fListJets[0]->At(inord[jj]));
- if(jetlead->Pt()-rho*jetlead->EffectiveAreaCharged()<=0) continue;
- if((jetlead->Eta()<fJetEtaMin)||(jetlead->Eta()>fJetEtaMax)) continue;
- indexlead=inord[jj];
- indexstop=jj;
- break;}
- if((indexstop>-1)&&(indexstop+1<fListJets[0]->GetEntries()-1)){
- for(Int_t k=indexstop+1;k<fListJets[0]->GetEntries();k++){
- AliAODJet* jetsublead = (AliAODJet*)(fListJets[0]->At(inord[k]));
- if(jetsublead->Pt()-rho*jetsublead->EffectiveAreaCharged()<=0) continue;
- if((jetsublead->Eta()<fJetEtaMin)||(jetsublead->Eta()>fJetEtaMax)) continue;
- indexsublead=inord[k];
- break;}}
- Double_t up1[15]={0.,0.,0.,0.,0.,0.,0.,0.,0.,0.,0.,0.,0.,0.,0.};
- Double_t up2[15]={0.,0.,0.,0.,0.,0.,0.,0.,0.,0.,0.,0.,0.,0.,0.};
- Double_t up3[15]={0.,0.,0.,0.,0.,0.,0.,0.,0.,0.,0.,0.,0.,0.,0.};
- Double_t up4[15]={0.,0.,0.,0.,0.,0.,0.,0.,0.,0.,0.,0.,0.,0.,0.};
- Double_t down1[15]={0.,0.,0.,0.,0.,0.,0.,0.,0.,0.,0.,0.,0.,0.,0.};
- Double_t down2[15]={0.,0.,0.,0.,0.,0.,0.,0.,0.,0.,0.,0.,0.,0.,0.};
- Double_t down3[15]={0.,0.,0.,0.,0.,0.,0.,0.,0.,0.,0.,0.,0.,0.,0.};
- Double_t down4[15]={0.,0.,0.,0.,0.,0.,0.,0.,0.,0.,0.,0.,0.,0.,0.};
-
-
+
+ Int_t iCount=0;
+ Int_t trigJet=-1;
+ Int_t trigBBTrack=-1;
+ // Int_t trigInTrack=-1;
+ fRPAngle = ((AliVAODHeader*)aod->GetHeader())->GetEventplane();
+
+ if(fHardest==0 || fHardest==1){
+ AliVParticle *partback = (AliVParticle*)ParticleList.At(nT);
+ if(!partback){
+ PostData(1, fOutputList);
+ return;}
+
+ if(fSemigoodCorrect){
+ Double_t disthole=RelativePhi(partback->Phi(),fHolePos);
+ if(TMath::Abs(disthole)+fHoleWidth>TMath::Pi()-0.6){
+ PostData(1, fOutputList);
+ return;}}
+
+
+ }
+
+
+ for(Int_t tt=0;tt<ParticleList.GetEntries();tt++){
+ if(fHardest==0||fHardest==1){if(tt!=nT) continue;}
+ AliVParticle *partback = (AliVParticle*)ParticleList.At(tt);
+ if(!partback) continue;
+ if(partback->Pt()<8) continue;
+
+ Double_t accep=2.*TMath::Pi()*1.8;
+ Int_t injet4=0;
+ Int_t injet=0;
+
+ if(fSemigoodCorrect){
+ Double_t disthole=RelativePhi(partback->Phi(),fHolePos);
+ if(TMath::Abs(disthole)+fHoleWidth>TMath::Pi()-0.6) continue;}
+
+
+
+ fh2Ntriggers->Fill(centValue,partback->Pt());
+ Double_t phiBinT = RelativePhi(partback->Phi(),fRPAngle);
+ if(centValue<20.) fh2RPTC20->Fill(TMath::Abs(phiBinT),partback->Pt());
+ if(centValue<10.) fh2RPTC10->Fill(TMath::Abs(phiBinT),partback->Pt());
+
+
for(Int_t i=0; i<fListJets[0]->GetEntries(); ++i){
AliAODJet* jetbig = (AliAODJet*)(fListJets[0]->At(i));
phibig = jetbig->Phi();
ptbig = jetbig->Pt();
if(ptbig==0) continue;
+ Double_t phiBin = RelativePhi(phibig,fRPAngle);
areabig = jetbig->EffectiveAreaCharged();
Double_t ptcorr=ptbig-rho*areabig;
- if(ptcorr<=0) continue;
if((etabig<fJetEtaMin)||(etabig>fJetEtaMax)) continue;
+ if(areabig>=0.07) injet=injet+1;
+ if(areabig>=0.4) injet4=injet4+1;
+ Double_t dphi=RelativePhi(partback->Phi(),phibig);
+
+ if(fFlagEtaBkg==1){
+ Double_t etadif= partback->Eta()-etabig;
+ if(TMath::Abs(etadif)<=0.5){
+
+ if(centValue<20.) fh3JetTrackC20->Fill(partback->Pt(),ptcorr,TMath::Abs(dphi));
+ if(centValue>30. && centValue<60.) fh3JetTrackC3060->Fill(partback->Pt(),ptcorr,TMath::Abs(dphi));}}
+ if(fFlagEtaBkg==0){
+ if(centValue<20.) fh3JetTrackC20->Fill(partback->Pt(),ptcorr,TMath::Abs(dphi));
+ if(centValue>30. && centValue<60.) fh3JetTrackC3060->Fill(partback->Pt(),ptcorr,TMath::Abs(dphi));}
+
+
+ if(fFlagJetHadron==0){
+ if(fFlagPhiBkg==1) if((TMath::Abs(dphi)<TMath::Pi()/2.-0.1)||(TMath::Abs(dphi)>TMath::Pi()/2.+0.1)) continue;
+ if(fFlagPhiBkg==0) if(TMath::Abs(dphi)<TMath::Pi()-0.6) continue;
+ if(fFlagPhiBkg==2) if(TMath::Abs(dphi)<TMath::Pi()-0.7) continue;
+ if(fFlagPhiBkg==3) if(TMath::Abs(dphi)<TMath::Pi()-0.5) continue;}
+
+ if(fFlagJetHadron!=0) if(TMath::Abs(dphi)>0.4) continue;
+
+
+ if(centValue<10.) fh2RPJetsC10->Fill(TMath::Abs(phiBin), ptcorr);
+ if(centValue<20.) fh2RPJetsC20->Fill(TMath::Abs(phiBin), ptcorr);
Double_t dismin=100.;
Double_t ptmax=-10.;
Int_t index1=-1;
Int_t index2=-1;
- //Double_t fracin=0.;
-
- Int_t point=GetHardestTrackBackToJet(jetbig);
- AliVParticle *partback = (AliVParticle*)ParticleList.At(point);
- if(!partback) continue;
- fh3spectriggered->Fill(centValue,ptcorr,partback->Pt());
- Int_t flaglead=0;
- if(i==indexlead) flaglead=1;
- if(i==indexsublead) flaglead=2;
-
- fh3specleadsublead->Fill(centValue,ptcorr,flaglead);
-
- AliAODTrack* leadtrack;
+
+ Float_t phitt=partback->Phi();
+ if(phitt<0)phitt+=TMath::Pi()*2.;
+ Int_t phiBintt = GetPhiBin(phitt-fRPAngle);
+
+ Double_t fillspec[] = {centValue,jetbig->EffectiveAreaCharged(),ptcorr,partback->Pt(), static_cast<Double_t>(phiBintt)};
+ fHJetSpec->Fill(fillspec);
+
+
+
+ if(ptcorr<=0) continue;
+
+ AliAODTrack* leadtrack=0;
Int_t ippt=0;
- Double_t ppt=-10;
-
- TRefArray *genTrackList = jetbig->GetRefTracks();
- Int_t nTracksGenJet = genTrackList->GetEntriesFast();
- AliAODTrack* genTrack;
- for(Int_t ir=0; ir<nTracksGenJet; ++ir){
- genTrack = (AliAODTrack*)(genTrackList->At(ir));
- if(genTrack->Pt()>ppt){ppt=genTrack->Pt();
- ippt=ir;}}
- //Float_t etr=genTrack->Eta();
- //Float_t phir=genTrack->Phi();
- //distr=(etr-etabig)*(etr-etabig)+(phir-phibig)*(phir-phibig);
- //distr=TMath::Sqrt(distr);
- //if(distr<=fRadioFrac){ fracin=fracin+genTrack->Pt();}}
- leadtrack=(AliAODTrack*)(genTrackList->At(ippt));
- fh3specbiased->Fill(centValue,ptcorr,leadtrack->Pt());
- //fhnJetCoreMethod3->Fill(centValue,ptcorr,fracin/ptbig,partback->Pt(),flaglead);
+ Double_t ppt=-10;
+ if(fFlagJetHadron==0){
+ TRefArray *genTrackList = jetbig->GetRefTracks();
+ Int_t nTracksGenJet = genTrackList->GetEntriesFast();
+ AliAODTrack* genTrack;
+ for(Int_t ir=0; ir<nTracksGenJet; ++ir){
+ genTrack = (AliAODTrack*)(genTrackList->At(ir));
+ if(genTrack->Pt()>ppt){ppt=genTrack->Pt();
+ ippt=ir;}}
+ leadtrack=(AliAODTrack*)(genTrackList->At(ippt));
+ if(!leadtrack) continue;
+ }
+
+
+
+ AliVParticle* leadtrackb=0;
+ if(fFlagJetHadron!=0){
+ Int_t nTb = GetHardestTrackBackToJet(jetbig);
+ leadtrackb = (AliVParticle*)ParticleList.At(nTb);
+ if(!leadtrackb) continue;
+ }
+
+
+
+
+
+ //store one trigger info
+ if(iCount==0){
+ trigJet=i;
+ trigBBTrack=nT;
+ // trigInTrack=ippt;
+ iCount=iCount+1;}
+
+
if(fCheckMethods){
-
- for(Int_t j=0; j<fListJets[1]->GetEntries(); ++j){
- AliAODJet* jetsmall = (AliAODJet*)(fListJets[1]->At(j));
- etasmall = jetsmall->Eta();
- phismall = jetsmall->Phi();
- ptsmall = jetsmall->Pt();
- areasmall = jetsmall->EffectiveAreaCharged();
- Double_t tmpDeltaR=(phismall-phibig)*(phismall-phibig)+(etasmall-etabig)*(etasmall-etabig);
- tmpDeltaR=TMath::Sqrt(tmpDeltaR);
- //Fraction in the jet core
- if((ptsmall>ptmax)&&(tmpDeltaR<=fRadioFrac)){ptmax=ptsmall;
- index2=j;}
+ for(Int_t j=0; j<fListJets[1]->GetEntries(); ++j){
+ AliAODJet* jetsmall = (AliAODJet*)(fListJets[1]->At(j));
+ etasmall = jetsmall->Eta();
+ phismall = jetsmall->Phi();
+ ptsmall = jetsmall->Pt();
+ // areasmall = jetsmall->EffectiveAreaCharged();
+ Double_t tmpDeltaR=(phismall-phibig)*(phismall-phibig)+(etasmall-etabig)*(etasmall-etabig);
+ tmpDeltaR=TMath::Sqrt(tmpDeltaR);
+ //Fraction in the jet core
+ if((ptsmall>ptmax)&&(tmpDeltaR<=fRadioFrac)){ptmax=ptsmall;
+ index2=j;}
if(tmpDeltaR<=dismin){ dismin=tmpDeltaR;
index1=j;}} //en of loop over R=0.2 jets
//method1:most concentric jet=core
if((centValue>20)&&(centValue<40)) fh2JetCoreMethod2C20->Fill(ptcorr,jetmethod2->Pt()/ptbig);
if((centValue>30)&&(centValue<60)) fh2JetCoreMethod2C30->Fill(ptcorr,jetmethod2->Pt()/ptbig);
if(centValue>60) fh2JetCoreMethod2C60->Fill(ptcorr,jetmethod2->Pt()/ptbig); }}
-
-
-
- for(int it = 0;it<nT;++it){
+ if(centValue<10&&leadtrack) fh2Ntriggers2C10->Fill(leadtrack->Pt(),partback->Pt());
+ if(centValue<20&&leadtrack) fh2Ntriggers2C20->Fill(leadtrack->Pt(),partback->Pt());
+ if(fDoEventMixing==0 && fFlagOnlyRecoil==0){
+ for(int it = 0;it<ParticleList.GetEntries();++it){
AliVParticle *part = (AliVParticle*)ParticleList.At(it);
- Double_t deltaR = jetbig->DeltaR(part);
+ Double_t deltaR = jetbig->DeltaR(part);
Double_t deltaEta = etabig-part->Eta();
+
Double_t deltaPhi=phibig-part->Phi();
if(deltaPhi<-0.5*TMath::Pi()) deltaPhi+=2.*TMath::Pi();
if(deltaPhi>3./2.*TMath::Pi()) deltaPhi-=2.*TMath::Pi();
+ Double_t pTcont=0;
+ if(fFlagJetHadron==0) pTcont=leadtrack->Pt();
+ if(fFlagJetHadron!=0) pTcont=leadtrackb->Pt();
+ Double_t jetEntries[8] = {centValue,ptcorr,part->Pt(),deltaR,deltaEta,deltaPhi,pTcont,partback->Pt()};
+ fhnDeltaR->Fill(jetEntries);}
- Double_t jetEntries[9] = {centValue,ptcorr,part->Pt(),deltaR,deltaEta,deltaPhi,flaglead,leadtrack->Pt(),partback->Pt()}; fhnDeltaR->Fill(jetEntries);
- }
- //end of track loop
-
- //fhnSumBkg->Fill(centValue,ptcorr,bkg/jetbig->Pt(),partback->Pt(),flaglead);
-
-
- //////////////////ANGULAR STRUCTURE//////////////////////////////////////
-
- //tracks up to R=0.8 distant from the jet axis
- if(fAngStructCloseTracks==1){
- TList CloseTrackList;
- Int_t nn=GetListOfTracksCloseToJet(&CloseTrackList,jetbig);
- Double_t difR=0.04;
- for(Int_t l=0;l<15;l++){
- Double_t rr=l*0.1+0.1;
- for(int it = 0;it<nn;++it){
- AliVParticle *part1 = (AliVParticle*)CloseTrackList.At(it);
- for(int itu=it+1;itu<CloseTrackList.GetEntries();itu++){
- AliVParticle *part2 = (AliVParticle*)CloseTrackList.At(itu);
- Double_t ptm=part1->Pt();
- Double_t ptn=part2->Pt();
- Double_t Rnm = (part1->Eta()-part2->Eta())*(part1->Eta()-part2->Eta())+(part1->Phi()-part2->Phi())*(part1->Phi()-part2->Phi());
- Rnm=TMath::Sqrt(Rnm);
- Double_t deltag=(1./(TMath::Sqrt(2*TMath::Pi())*difR))*TMath::Exp(-1.*(rr-Rnm)*(rr-Rnm)/(2.*difR*difR));
- Double_t stepf=0.5*(1.+TMath::Erf((rr-Rnm)/(TMath::Sqrt(2.)*difR)));
- if((ptcorr<85.) && (ptcorr>=70.)){up1[l]=up1[l]+ptm*ptn*Rnm*Rnm*deltag;
- down1[l]=down1[l]+ptm*ptn*Rnm*Rnm*stepf;}
- if((ptcorr<100.) && (ptcorr>=85.)){up2[l]=up2[l]+ptm*ptn*Rnm*Rnm*deltag;
- down2[l]=down2[l]+ptm*ptn*Rnm*Rnm*stepf;}
- if((ptcorr<120.) && (ptcorr>=100.)){up3[l]=up3[l]+ptm*ptn*Rnm*Rnm*deltag;
- down3[l]=down3[l]+ptm*ptn*Rnm*Rnm*stepf;}
- if((ptcorr<140.) && (ptcorr>=120.)){up4[l]=up4[l]+ptm*ptn*Rnm*Rnm*deltag;
- down4[l]=down4[l]+ptm*ptn*Rnm*Rnm*stepf;}}}}
- }
-
- //only jet constituents
- if(fAngStructCloseTracks==2){
-
- Double_t difR=0.04;
- for(Int_t l=0;l<15;l++){
- Double_t rr=l*0.1+0.1;
-
-
- AliAODTrack* part1;
- AliAODTrack* part2;
- TRefArray *genTrackListb = jetbig->GetRefTracks();
- Int_t nTracksGenJetb = genTrackListb->GetEntriesFast();
-
-
-
- for(Int_t it=0; it<nTracksGenJetb; ++it){
- part1 = (AliAODTrack*)(genTrackListb->At(it));
- for(Int_t itu=0; itu<nTracksGenJetb; ++itu){
- part2 = (AliAODTrack*)(genTrackListb->At(itu));
- Double_t ptm=part1->Pt();
- Double_t ptn=part2->Pt();
- Double_t Rnm = (part1->Eta()-part2->Eta())*(part1->Eta()-part2->Eta())+(part1->Phi()-part2->Phi())*(part1->Phi()-part2->Phi());
- Rnm=TMath::Sqrt(Rnm);
- Double_t deltag=(1./(TMath::Sqrt(2*TMath::Pi())*difR))*TMath::Exp(-1.*(rr-Rnm)*(rr-Rnm)/(2.*difR*difR));
- Double_t stepf=0.5*(1.+TMath::Erf((rr-Rnm)/(TMath::Sqrt(2.)*difR)));
- if((ptcorr<85.) && (ptcorr>=70.)){up1[l]=up1[l]+ptm*ptn*Rnm*Rnm*deltag;
- down1[l]=down1[l]+ptm*ptn*Rnm*Rnm*stepf;}
- if((ptcorr<100.) && (ptcorr>=85.)){up2[l]=up2[l]+ptm*ptn*Rnm*Rnm*deltag;
- down2[l]=down2[l]+ptm*ptn*Rnm*Rnm*stepf;}
- if((ptcorr<120.) && (ptcorr>=100.)){up3[l]=up3[l]+ptm*ptn*Rnm*Rnm*deltag;
- down3[l]=down3[l]+ptm*ptn*Rnm*Rnm*stepf;}
- if((ptcorr<140.) && (ptcorr>=120.)){up4[l]=up4[l]+ptm*ptn*Rnm*Rnm*deltag;
- down4[l]=down4[l]+ptm*ptn*Rnm*Rnm*stepf;}}}}}
-
-
-
+ }
+
+
+ //end of track loop, we only do it if EM is switched off
+
+
+ }
+ if(injet>0) fh3JetDensity->Fill(ParticleList.GetEntries(),injet/accep,partback->Pt());
+ if(injet4>0)fh3JetDensityA4->Fill(ParticleList.GetEntries(),injet4/accep,partback->Pt());
+ //end of jet loop
+
+ //}
+
+
+ if(fDoEventMixing>0){
+ //check before if the trigger exists
+ // fTrigBuffer[i][0] = zvtx
+ // fTrigBuffer[i][1] = phi
+ // fTrigBuffer[i][2] = eta
+ // fTrigBuffer[i][3] = pt_jet
+ // fTrigBuffer[i][4] = pt_trig
+ // fTrigBuffer[i][5]= centrality
+ if(fTindex==10) fTindex=0;
+ if(fTrigBuffer[fTindex][3]>0){
+ if (TMath::Abs(fTrigBuffer[fTindex][0]-primVtx->GetZ()<2.)){
+ if (TMath::Abs(fTrigBuffer[fTindex][5]-centValue<5)){
+
+ for(int it = 0;it<nT;++it){
+ AliVParticle *part = (AliVParticle*)ParticleList.At(it);
+ Double_t DPhi = fTrigBuffer[fTindex][1] - part->Phi();
+ Double_t DEta = fTrigBuffer[fTindex][2] - part->Eta();
+ Double_t DR=TMath::Sqrt(DPhi*DPhi+DEta*DEta);
+ if(DPhi<-0.5*TMath::Pi()) DPhi+=2.*TMath::Pi();
+ if(DPhi>3./2.*TMath::Pi()) DPhi-=2.*TMath::Pi();
+ Double_t triggerEntries[7] = {centValue,fTrigBuffer[fTindex][3],part->Pt(),DR,DEta,DPhi,fTrigBuffer[fTindex][4]};
+ fhnMixedEvents->Fill(triggerEntries);
+ }
+ fNevents=fNevents+1;
+ if(fNevents==10) fTindex=fTindex+1;
+ }}}
+
+ if(fTindex==10&&fNevents==10) fCountAgain=0;
+
+ // Copy the triggers from the current event into the buffer.
+ //again, only if the trigger exists:
+ if(fCountAgain==0){
+ if(trigJet>-1){
+ AliAODJet* jetT = (AliAODJet*)(fListJets[0]->At(trigJet)); AliVParticle *partT = (AliVParticle*)ParticleList.At(trigBBTrack);
+ fTrigBuffer[fTrigBufferIndex][0] = primVtx->GetZ();
+ fTrigBuffer[fTrigBufferIndex][1] = jetT->Phi();
+ fTrigBuffer[fTrigBufferIndex][2] = jetT->Eta();
+ fTrigBuffer[fTrigBufferIndex][3] = jetT->Pt()-rho*jetT->EffectiveAreaCharged();
+ fTrigBuffer[fTrigBufferIndex][4] = partT->Pt();
+ fTrigBuffer[fTrigBufferIndex][5] = centValue;
+ fTrigBufferIndex++;
+ if(fTrigBufferIndex==9) {fTrigBufferIndex=0;
+ fCountAgain=1;}
+ }
+ }
+
+ }
+
+ /////////////////////////////////////////////////////////////////////////////
+ ////////////////////// Rongrong's analysis //////////////////////////////////
+ if(fRunAnaAzimuthalCorrelation)
+ {
+ fhTTPt->Fill(centValue,partback->Pt());
+ for(Int_t ij=0; ij<fListJets[0]->GetEntries(); ij++)
+ {
+ AliAODJet* jet = (AliAODJet*)(fListJets[0]->At(ij));
+ Double_t jetPt = jet->Pt();
+ Double_t jetEta = jet->Eta();
+ Double_t jetPhi = jet->Phi();
+ if(jetPt==0) continue;
+ if((jetEta<fJetEtaMin)||(jetEta>fJetEtaMax)) continue;
+ Double_t jetArea = jet->EffectiveAreaCharged();
+ Double_t jetPtCorr=jetPt-rho*jetArea;
+ Double_t dPhi=jetPhi-partback->Phi();
+ if(dPhi>2*TMath::Pi()) dPhi -= 2*TMath::Pi();
+ if(dPhi<-2*TMath::Pi()) dPhi += 2*TMath::Pi();
+ if(dPhi<-0.5*TMath::Pi()) dPhi += 2*TMath::Pi();
+ if(dPhi>1.5*TMath::Pi()) dPhi -= 2*TMath::Pi();
+
+ Double_t fill[] = {partback->Pt(),jetPtCorr,dPhi,jetArea,centValue};
+ fHJetPhiCorr->Fill(fill);
+ }
+ }
+ /////////////////////////////////////////////////////////////////////////////
+ /////////////////////////////////////////////////////////////////////////////
+ //////////////////ANGULAR STRUCTURE//////////////////////////////////////
+ //tracks up to R=0.8 distant from the jet axis
+ // if(fAngStructCloseTracks==1){
+ // TList CloseTrackList;
+ // Int_t nn=GetListOfTracksCloseToJet(&CloseTrackList,jetbig);
+ // Double_t difR=0.04;
+ // for(Int_t l=0;l<15;l++){
+ // Double_t rr=l*0.1+0.1;
+ // for(int it = 0;it<nn;++it){
+ // AliVParticle *part1 = (AliVParticle*)CloseTrackList.At(it);
+ // for(int itu=it+1;itu<CloseTrackList.GetEntries();itu++){
+ // AliVParticle *part2 = (AliVParticle*)CloseTrackList.At(itu);
+ // Double_t ptm=part1->Pt();
+ // Double_t ptn=part2->Pt();
+ // Double_t Rnm = (part1->Eta()-part2->Eta())*(part1->Eta()-part2->Eta())+(part1->Phi()-part2->Phi())*(part1->Phi()-part2->Phi());
+ // Rnm=TMath::Sqrt(Rnm);
+ // Double_t deltag=(1./(TMath::Sqrt(2*TMath::Pi())*difR))*TMath::Exp(-1.*(rr-Rnm)*(rr-Rnm)/(2.*difR*difR));
+ // Double_t stepf=0.5*(1.+TMath::Erf((rr-Rnm)/(TMath::Sqrt(2.)*difR)));
+ // if((ptcorr<85.) && (ptcorr>=70.)){up1[l]=up1[l]+ptm*ptn*Rnm*Rnm*deltag;
+ // down1[l]=down1[l]+ptm*ptn*Rnm*Rnm*stepf;}
+ // if((ptcorr<100.) && (ptcorr>=85.)){up2[l]=up2[l]+ptm*ptn*Rnm*Rnm*deltag;
+ // down2[l]=down2[l]+ptm*ptn*Rnm*Rnm*stepf;}
+ // if((ptcorr<120.) && (ptcorr>=100.)){up3[l]=up3[l]+ptm*ptn*Rnm*Rnm*deltag;
+ // down3[l]=down3[l]+ptm*ptn*Rnm*Rnm*stepf;}
+ // if((ptcorr<140.) && (ptcorr>=120.)){up4[l]=up4[l]+ptm*ptn*Rnm*Rnm*deltag;
+ // down4[l]=down4[l]+ptm*ptn*Rnm*Rnm*stepf;}}}}
+ // }
+
+ // //only jet constituents
+ // if(fAngStructCloseTracks==2){
+ // Double_t difR=0.04;
+ // for(Int_t l=0;l<15;l++){
+ // Double_t rr=l*0.1+0.1;
- }
+
+ // AliAODTrack* part1;
+ // AliAODTrack* part2;
+ // TRefArray *genTrackListb = jetbig->GetRefTracks();
+ // Int_t nTracksGenJetb = genTrackListb->GetEntriesFast();
+
+
- //end loop over R=0.4 jets
- if(fAngStructCloseTracks>0){
- for(Int_t l=0;l<15;l++){
- Double_t rr=l*0.1+0.1;
- if(down1[l]!=0){
- if(centValue<10.)fh2AngStructpt1C10->Fill(rr,rr*up1[l]/down1[l]);
- if(centValue>20. && centValue<40.) fh2AngStructpt1C20->Fill(rr,rr*up1[l]/down1[l]);
- if(centValue>30. && centValue<60.) fh2AngStructpt1C30->Fill(rr,rr*up1[l]/down1[l]);
- if(centValue>60.) fh2AngStructpt1C60->Fill(rr,rr*up1[l]/down1[l]);}
- if(down2[l]!=0){
- if(centValue<10.) fh2AngStructpt2C10->Fill(rr,rr*up2[l]/down2[l]);
- if(centValue>20. && centValue<40.) fh2AngStructpt2C20->Fill(rr,rr*up2[l]/down2[l]);
- if(centValue>30. && centValue<60.) fh2AngStructpt2C30->Fill(rr,rr*up2[l]/down2[l]);
- if(centValue>60.) fh2AngStructpt2C60->Fill(rr,rr*up2[l]/down2[l]);}
- if(down3[l]!=0){
- if(centValue<10.) fh2AngStructpt3C10->Fill(rr,rr*up3[l]/down3[l]);
- if(centValue>20. && centValue<40.) fh2AngStructpt3C20->Fill(rr,rr*up3[l]/down3[l]);
- if(centValue>30. && centValue<60.) fh2AngStructpt3C30->Fill(rr,rr*up3[l]/down3[l]);
- if(centValue>60.) fh2AngStructpt3C60->Fill(rr,rr*up3[l]/down3[l]);}
- if(down4[l]!=0){
- if(centValue<10.) fh2AngStructpt4C10->Fill(rr,rr*up4[l]/down4[l]);
- if(centValue>20. && centValue<40.) fh2AngStructpt4C20->Fill(rr,rr*up4[l]/down4[l]);
- if(centValue>30. && centValue<60.) fh2AngStructpt4C30->Fill(rr,rr*up4[l]/down4[l]);
- if(centValue>60.) fh2AngStructpt4C60->Fill(rr,rr*up4[l]/down4[l]);}}}
+ // for(Int_t it=0; it<nTracksGenJetb; ++it){
+ // part1 = (AliAODTrack*)(genTrackListb->At(it));
+ // for(Int_t itu=0; itu<nTracksGenJetb; ++itu){
+ // part2 = (AliAODTrack*)(genTrackListb->At(itu));
+ // Double_t ptm=part1->Pt();
+ // Double_t ptn=part2->Pt();
+ // Double_t Rnm = (part1->Eta()-part2->Eta())*(part1->Eta()-part2->Eta())+(part1->Phi()-part2->Phi())*(part1->Phi()-part2->Phi());
+ // Rnm=TMath::Sqrt(Rnm);
+ // Double_t deltag=(1./(TMath::Sqrt(2*TMath::Pi())*difR))*TMath::Exp(-1.*(rr-Rnm)*(rr-Rnm)/(2.*difR*difR));
+ // Double_t stepf=0.5*(1.+TMath::Erf((rr-Rnm)/(TMath::Sqrt(2.)*difR)));
+ // if((ptcorr<85.) && (ptcorr>=70.)){up1[l]=up1[l]+ptm*ptn*Rnm*Rnm*deltag;
+ // down1[l]=down1[l]+ptm*ptn*Rnm*Rnm*stepf;}
+ // if((ptcorr<100.) && (ptcorr>=85.)){up2[l]=up2[l]+ptm*ptn*Rnm*Rnm*deltag;
+ // down2[l]=down2[l]+ptm*ptn*Rnm*Rnm*stepf;}
+ // if((ptcorr<120.) && (ptcorr>=100.)){up3[l]=up3[l]+ptm*ptn*Rnm*Rnm*deltag;
+ // down3[l]=down3[l]+ptm*ptn*Rnm*Rnm*stepf;}
+ // if((ptcorr<140.) && (ptcorr>=120.)){up4[l]=up4[l]+ptm*ptn*Rnm*Rnm*deltag;
+ // down4[l]=down4[l]+ptm*ptn*Rnm*Rnm*stepf;}}}}}
+ // }
+ // //end loop over R=0.4 jets
+ // if(fAngStructCloseTracks>0){
+ // for(Int_t l=0;l<15;l++){
+ // Double_t rr=l*0.1+0.1;
+ // if(down1[l]!=0){
+ // if(centValue<10.)fh2AngStructpt1C10->Fill(rr,rr*up1[l]/down1[l]);
+ // if(centValue>20. && centValue<40.) fh2AngStructpt1C20->Fill(rr,rr*up1[l]/down1[l]);
+ // if(centValue>30. && centValue<60.) fh2AngStructpt1C30->Fill(rr,rr*up1[l]/down1[l]);
+ // if(centValue>60.) fh2AngStructpt1C60->Fill(rr,rr*up1[l]/down1[l]);}
+ // if(down2[l]!=0){
+ // if(centValue<10.) fh2AngStructpt2C10->Fill(rr,rr*up2[l]/down2[l]);
+ // if(centValue>20. && centValue<40.) fh2AngStructpt2C20->Fill(rr,rr*up2[l]/down2[l]);
+ // if(centValue>30. && centValue<60.) fh2AngStructpt2C30->Fill(rr,rr*up2[l]/down2[l]);
+ // if(centValue>60.) fh2AngStructpt2C60->Fill(rr,rr*up2[l]/down2[l]);}
+ // if(down3[l]!=0){
+ // if(centValue<10.) fh2AngStructpt3C10->Fill(rr,rr*up3[l]/down3[l]);
+ // if(centValue>20. && centValue<40.) fh2AngStructpt3C20->Fill(rr,rr*up3[l]/down3[l]);
+ // if(centValue>30. && centValue<60.) fh2AngStructpt3C30->Fill(rr,rr*up3[l]/down3[l]);
+ // if(centValue>60.) fh2AngStructpt3C60->Fill(rr,rr*up3[l]/down3[l]);}
+ // if(down4[l]!=0){
+ // if(centValue<10.) fh2AngStructpt4C10->Fill(rr,rr*up4[l]/down4[l]);
+ // if(centValue>20. && centValue<40.) fh2AngStructpt4C20->Fill(rr,rr*up4[l]/down4[l]);
+ // if(centValue>30. && centValue<60.) fh2AngStructpt4C30->Fill(rr,rr*up4[l]/down4[l]);
+ // if(centValue>60.) fh2AngStructpt4C60->Fill(rr,rr*up4[l]/down4[l]);}}}
-
+ }
+
+Int_t AliAnalysisTaskJetCore::GetListOfTracks(TList *list){
+ Int_t iCount = 0;
+ AliAODEvent *aod = 0;
+ if(!fESD)aod = fAODIn;
+ else aod = fAODOut;
+ if(!aod)return 0;
+ Int_t index=-1;
+ Double_t ptmax=-10;
-Int_t AliAnalysisTaskJetCore::GetListOfTracks(TList *list){
-
- Int_t iCount = 0;
-
- for(int it = 0;it < fAOD->GetNumberOfTracks();++it){
- AliAODTrack *tr = fAOD->GetTrack(it);
+ for(int it = 0;it < aod->GetNumberOfTracks();++it){
+ AliAODTrack *tr = dynamic_cast<AliAODTrack*>(aod->GetTrack(it));
+ if(!tr) AliFatal("Not a standard AOD");
+ Bool_t bGood = false;
+ if(fFilterType == 0)bGood = true;
+ else if(fFilterType == 1)bGood = tr->IsHybridTPCConstrainedGlobal();
+ else if(fFilterType == 2)bGood = tr->IsHybridGlobalConstrainedGlobal();
if((fFilterMask>0)&&!(tr->TestFilterBit(fFilterMask)))continue;
- if(TMath::Abs(tr->Eta())>0.9)continue;
+ if(fRequireITSRefit==1){if((tr->GetStatus()&AliESDtrack::kITSrefit)==0)continue;}
+ if(bGood==false) continue;
+ if (fApplySharedClusterCut) {
+ Double_t frac = Double_t(tr->GetTPCnclsS()) /Double_t(tr->GetTPCncls());
+ if (frac > 0.4) continue;
+ }
+ if(TMath::Abs(tr->Eta())>0.9)continue;
if(tr->Pt()<0.15)continue;
list->Add(tr);
- //cout<<fAOD->GetNumberOfTracks()<<" "<<tr->Pt()<<endl;
iCount++;
- }
+ if(fFilterType==2 && fFilterMaskBestPt>0){// only set the trigger track index for good quality tracks
+ if(tr->TestFilterBit(fFilterMaskBestPt)){
+ if(tr->Pt()>ptmax){
+ ptmax=tr->Pt();
+ index=iCount-1;
+ }
+ }
+ }
+ else{
+ if(tr->Pt()>ptmax){
+ ptmax=tr->Pt();
+ index=iCount-1;
+ }
+ }
+ }
- list->Sort();
- return iCount;
+
+ // else if (type == kTrackAODMCCharged) {
+ // TClonesArray *tca = dynamic_cast<TClonesArray*>(aod->FindListObject(AliAODMCParticle::StdBranchName()));
+ // if(!tca)return iCount;
+ // for(int it = 0;it < tca->GetEntriesFast();++it){
+ // AliAODMCParticle *part = dynamic_cast<AliAODMCParticle*>(tca->At(it));
+ // if(!part)continue;
+ // if(part->Pt()<0.15)continue;
+ // if(!part->IsPhysicalPrimary())continue;
+ // if(part->Charge()==0)continue;
+ // if(TMath::Abs(part->Eta())>0.9)continue;
+ // list->Add(part);
+ // iCount++;
+ // if(part->Pt()>ptmax){ ptmax=part->Pt();
+ // index=iCount-1;}}}
+ return index;
}
- Int_t AliAnalysisTaskJetCore::GetHardestTrackBackToJet(AliAODJet *jetbig){
+
+Int_t AliAnalysisTaskJetCore::SelectTrigger(TList *list,Double_t minT,Double_t maxT,Int_t &number){
+ Int_t iCount = 0;
+ AliAODEvent *aod = 0;
+ if(!fESD)aod = fAODIn;
+ else aod = fAODOut;
+ if(!aod)return 0;
+ Int_t index=-1;
+ Int_t triggers[100];
+ Int_t triggers2[100];
+ for(Int_t cr=0;cr<100;cr++){triggers[cr]=-1;
+ triggers2[cr]=-1;}
+ Int_t im=0;
+ Int_t im2=0;
+ for(int it = 0;it < aod->GetNumberOfTracks();++it){
+ AliAODTrack *tr = dynamic_cast<AliAODTrack*>(aod->GetTrack(it));
+ if(!tr) AliFatal("Not a standard AOD");
+ Bool_t bGood = false;
+ if(fFilterType == 0)bGood = true;
+ else if(fFilterType == 1)bGood = tr->IsHybridTPCConstrainedGlobal();
+ else if(fFilterType == 2)bGood = tr->IsHybridGlobalConstrainedGlobal();
+ if((fFilterMask>0)&&!(tr->TestFilterBit(fFilterMask)))continue;
+ if(fRequireITSRefit==1){if((tr->GetStatus()&AliESDtrack::kITSrefit)==0)continue;}
+ if(bGood==false) continue;
+ if (fApplySharedClusterCut) {
+ Double_t frac = Double_t(tr->GetTPCnclsS()) /Double_t(tr->GetTPCncls());
+ if (frac > 0.4) continue;
+ }
+ if(TMath::Abs(tr->Eta())>0.9)continue;
+ if(tr->Pt()<0.15)continue;
+ list->Add(tr);
+ iCount++;
+
+ if(tr->Pt()>=minT && tr->Pt()<maxT){
+ triggers[im]=iCount-1;
+ im=im+1;
+ if(tr->Pt()>=20.){triggers2[im2]=iCount-1;
+ im2=im2+1;}
+
+ }}
+
+ number=im;
+ Int_t rd=0;
+ if(im2==0) rd=0;
+ if(im2>0) rd=fRandom->Integer(im2);
+ index=triggers2[rd];
+ AliVParticle *tr1 = (AliVParticle*)list->At(index);
+
+
+
+ for(Int_t kk=0;kk<im;kk++){
+ //if(kk==rd) continue;
+ if(index==triggers[kk]) continue;
+ Int_t lab=triggers[kk];
+ AliVParticle *tr2 = (AliVParticle*)list->At(lab);
+
+ Double_t detat=tr1->Eta()-tr2->Eta();
+ Double_t dphit=RelativePhi(tr1->Phi(),tr2->Phi());
+ Double_t deltaRt=TMath::Sqrt(detat*detat+dphit*dphit);
+
+ if(deltaRt>0.4) number=number-1;}
+
+
+
+
+ return index;
+
+}
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+ Int_t AliAnalysisTaskJetCore::GetHardestTrackBackToJet(AliAODJet *jetbig){
+
+ AliAODEvent *aod = 0;
+ if(!fESD)aod = fAODIn;
+ else aod = fAODOut;
Int_t index=-1;
Double_t ptmax=-10;
Double_t dphi=0;
- Double_t dif=0;
+ // Double_t dif=0;
Int_t iCount=0;
- for(int it = 0;it < fAOD->GetNumberOfTracks();++it){
- AliAODTrack *tr = fAOD->GetTrack(it);
+ for(int it = 0;it < aod->GetNumberOfTracks();++it){
+ AliAODTrack *tr = dynamic_cast<AliAODTrack*>(aod->GetTrack(it));
+ if(!tr) AliFatal("Not a standard AOD");
if((fFilterMask>0)&&!(tr->TestFilterBit(fFilterMask)))continue;
if(TMath::Abs(tr->Eta())>0.9)continue;
if(tr->Pt()<0.15)continue;
iCount=iCount+1;
- dphi=RelativePhi(tr->Phi(),jetbig->Phi());
- if(TMath::Abs(dphi)<TMath::Pi()-0.2) continue;
+ dphi=RelativePhi(tr->Phi(),jetbig->Phi());
+ if(TMath::Abs(dphi)<TMath::Pi()-0.6) continue;
if(tr->Pt()>ptmax){ ptmax=tr->Pt();
- index=iCount;
- dif=dphi; }}
+ index=iCount-1;
+ // dif=dphi;
+ }}
return index;
Int_t AliAnalysisTaskJetCore::GetListOfTracksCloseToJet(TList *list,AliAODJet *jetbig){
Int_t iCount = 0;
-
+ AliAODEvent *aod = 0;
+ if(!fESD)aod = fAODIn;
+ else aod = fAODOut;
- for(int it = 0;it < fAOD->GetNumberOfTracks();++it){
- AliAODTrack *tr = fAOD->GetTrack(it);
+ for(int it = 0;it < aod->GetNumberOfTracks();++it){
+ AliAODTrack *tr = dynamic_cast<AliAODTrack*>(aod->GetTrack(it));
+ if(!tr) AliFatal("Not a standard AOD");
if((fFilterMask>0)&&!(tr->TestFilterBit(fFilterMask)))continue;
if(TMath::Abs(tr->Eta())>0.9)continue;
if(tr->Pt()<0.15)continue;
{
Int_t nInputTracks = 0;
-
+ AliAODEvent *aod = 0;
+ if(!fESD)aod = fAODIn;
+ else aod = fAODOut;
TString jbname(fJetBranchName[1]);
//needs complete event, use jets without background subtraction
for(Int_t i=1; i<=3; ++i){
if(jbname.Contains("AODextra")) jbname.ReplaceAll("AODextra","AOD");
if(fDebug) Printf("Multiplicity from jet branch %s", jbname.Data());
- TClonesArray *tmpAODjets = dynamic_cast<TClonesArray*>(fAOD->FindListObject(jbname.Data()));
+ TClonesArray *tmpAODjets = dynamic_cast<TClonesArray*>(aod->FindListObject(jbname.Data()));
if(!tmpAODjets){
Printf("Jet branch %s not found", jbname.Data());
Printf("AliAnalysisTaskJetCore::GetNInputTracks FAILED");
return dphi;//dphi in [-Pi, Pi]
}
+Int_t AliAnalysisTaskJetCore::GetPhiBin(Double_t phi)
+{
+ Int_t phibin=-1;
+ if(!(TMath::Abs(phi)<=2*TMath::Pi())){AliError("phi w.r.t. RP out of defined range");return -1;}
+ Double_t phiwrtrp=TMath::ACos(TMath::Abs(TMath::Cos(phi)));
+ phibin=Int_t(fNRPBins*phiwrtrp/(0.5*TMath::Pi()));
+ if(phibin<0||phibin>=fNRPBins){AliError("Phi Bin not defined");}
+ return phibin;
+}
+
+
THnSparse* AliAnalysisTaskJetCore::NewTHnSparseF(const char* name, UInt_t entries)
case 1:
label = "corrected jet pt";
- nbins = 50;
+ nbins = 20;
xmin = 0.;
xmax = 200.;
break;
case 2:
label = "track pT";
- nbins = 50;
+ nbins = 9;
xmin = 0.;
- xmax = 50;
+ xmax = 150;
break;
- case 3:
+ case 3:
label = "deltaR";
nbins = 15;
xmin = 0.;
xmax = 1.5;
break;
-
+
+
+
case 4:
label = "deltaEta";
- nbins = 30;
- xmin = -1.5;
- xmax = 1.5;
+ nbins = 8;
+ xmin = -1.6;
+ xmax = 1.6;
break;
break;
- case 6:
- label="flagleadname";
- nbins=3;
- xmin=0;
- xmax=3;
- break;
-
- case 7:
-
+
+ case 6:
label = "leading track";
- nbins = 50;
+ nbins = 13;
xmin = 0;
xmax = 50;
break;
- case 8:
+ case 7:
label = "trigger track";
- nbins =50;
+ nbins =10;
xmin = 0;
xmax = 50;
break;
-
-
+
+
+
+
+
+
+
+
}
}