//-*- Mode: C++ -*- #include "TMath.h" #include "TAxis.h" #include "TSystem.h" #include "TFile.h" #include "TPRegexp.h" #include "AliStack.h" #include "AliMCEvent.h" #include "AliMCParticle.h" #include "AliESDtrackCuts.h" #include "AliESDInputHandler.h" #include "AliESDpid.h" #include "AliAODInputHandler.h" #include "AliAODEvent.h" #include "AliAODMCParticle.h" #include "AliCentrality.h" #include "AliTracker.h" #include "AliAnalysisNetParticleHelper.h" using namespace std; /** * Class for NetParticle Distributions * -- Helper class for net particle istributions * Authors: Jochen Thaeder * Michael Weber */ ClassImp(AliAnalysisNetParticleHelper) /* * --------------------------------------------------------------------------------- * particle names * --------------------------------------------------------------------------------- */ // MW make fgk ... static const const Char_t* aPartNames[AliPID::kSPECIES][2] = { {"ele", "posi"}, {"mubar", "mu"}, {"pibar", "pi"}, {"kbar", "k"}, {"pbar", "p"} }; const Char_t* aPartTitles[AliPID::kSPECIES][2] = { {"Electron", "Positron"}, {"Anti-Muon", "Muon"}, {"Anti-Pion", "Proton"}, {"Anti-Kaon", "Kaon"}, {"Anti-Proton", "Proton"} }; const Char_t* aPartTitlesLatex[AliPID::kSPECIES][2] = { {"e^{-}", "e^{+}" }, {"#mu^{-}", "#mu^{+}" }, {"#pi^{-}", "#pi^{+}" }, {"K^{-}", "K^{+}" }, {"#bar{p}", "p"} }; /* * --------------------------------------------------------------------------------- * Constructor / Destructor * --------------------------------------------------------------------------------- */ //________________________________________________________________________ AliAnalysisNetParticleHelper::AliAnalysisNetParticleHelper() : fModeDistCreation(0), fInputEventHandler(NULL), fPIDResponse(NULL), fESD(NULL), fESDTrackCuts(NULL), fAOD(NULL), fAODtrackCutBit(1024), fIsMC(kFALSE), fMCEvent(NULL), fStack(NULL), fCentralityBin(-1), fCentralityPercentile(-1.), fCentralityBinMax(7), fVertexZMax(10.), fRapidityMax(0.5), fPhiMin(0.), fPhiMax(TMath::TwoPi()), fMinTrackLengthMC(70.), fNSigmaMaxCdd(3.), fNSigmaMaxCzz(3.), fParticleSpecies(AliPID::kProton), fUsePID(kTRUE), fPIDStrategy(0), fNSigmaMaxITS(4.), fNSigmaMaxTPC(4.), fNSigmaMaxTPClow(3.), fNSigmaMaxTOF(4.), fMinPtForTOFRequired(0.69), fMaxPtForTPClow(0.69), fHEventStat0(NULL), fHEventStat1(NULL), fHEventStatMax(6), fHTriggerStat(NULL), fNTriggers(5), fHCentralityStat(NULL), fNCentralityBins(10), fNSubSamples(20), fSubSampleIdx(0), fRandom(NULL) { // Constructor AliLog::SetClassDebugLevel("AliAnalysisNetParticleHelper",10); } const Float_t AliAnalysisNetParticleHelper::fgkfHistBinWitdthRap = 0.075; const Float_t AliAnalysisNetParticleHelper::fgkfHistBinWitdthPt = 0.3; // 0.08 // 300 MeV // was 80 MeV const Float_t AliAnalysisNetParticleHelper::fgkfHistRangeCent[] = {-0.5, 8.5}; const Int_t AliAnalysisNetParticleHelper::fgkfHistNBinsCent = 9 ; const Float_t AliAnalysisNetParticleHelper::fgkfHistRangeEta[] = {-0.9, 0.9}; const Int_t AliAnalysisNetParticleHelper::fgkfHistNBinsEta = Int_t((AliAnalysisNetParticleHelper::fgkfHistRangeEta[1] - AliAnalysisNetParticleHelper::fgkfHistRangeEta[0]) / AliAnalysisNetParticleHelper::fgkfHistBinWitdthRap) +1; const Float_t AliAnalysisNetParticleHelper::fgkfHistRangeRap[] = {-0.5, 0.5}; const Int_t AliAnalysisNetParticleHelper::fgkfHistNBinsRap = Int_t((AliAnalysisNetParticleHelper::fgkfHistRangeRap[1] - AliAnalysisNetParticleHelper::fgkfHistRangeRap[0]) / AliAnalysisNetParticleHelper::fgkfHistBinWitdthRap) +1; const Float_t AliAnalysisNetParticleHelper::fgkfHistRangePhi[] = {0.0, static_cast(TMath::TwoPi())}; const Int_t AliAnalysisNetParticleHelper::fgkfHistNBinsPhi = 42 ; const Float_t AliAnalysisNetParticleHelper::fgkfHistRangePt[] = {0.2, 2.9}; // {0.2, 5.}; // was {0.3, 2.22} const Int_t AliAnalysisNetParticleHelper::fgkfHistNBinsPt = Int_t((AliAnalysisNetParticleHelper::fgkfHistRangePt[1] - AliAnalysisNetParticleHelper::fgkfHistRangePt[0]) / AliAnalysisNetParticleHelper::fgkfHistBinWitdthPt); const Float_t AliAnalysisNetParticleHelper::fgkfHistRangeSign[] = {-1.5, 1.5}; const Int_t AliAnalysisNetParticleHelper::fgkfHistNBinsSign = 3; const Char_t* AliAnalysisNetParticleHelper::fgkEventNames[] = {"All", "IsTriggered", "HasVertex", "Vz= lowEdge && phiMin < highEdge ) phiMin = lowEdge; if (phiMax > lowEdge && phiMax <= highEdge ) phiMax = highEdge; } printf(">>>> Update Phi Range : [%f,%f] -> [%f,%f]\n", fPhiMin, fPhiMax, phiMin, phiMax); fPhiMin = phiMin; fPhiMax = phiMax; } //________________________________________________________________________ void AliAnalysisNetParticleHelper::SetParticleSpecies(AliPID::EParticleType pid) { // -- Set particle species (ID, Name, Title, Title LATEX) if ( Int_t(pid) < 0 || Int_t(pid) >= AliPID::kSPECIES) { AliWarning("Particle ID not in AliPID::kSPECIES --> Set to protons"); pid = AliPID::kProton; } fParticleSpecies = pid; for (Int_t idxPart = 0; idxPart < 2; ++idxPart) { fPartName[idxPart] = aPartNames[fParticleSpecies][idxPart]; fPartTitle[idxPart] = aPartTitles[fParticleSpecies][idxPart]; fPartTitleLatex[idxPart] = aPartTitlesLatex[fParticleSpecies][idxPart]; } } //________________________________________________________________________ void AliAnalysisNetParticleHelper::SetUsePID(Bool_t usePID) { // -- Set usage of PID // > if turn off, set charge types (ID, Name, Title, Title LATEX) fUsePID = usePID; if (!usePID) { fParticleSpecies = AliPID::kUnknown; fPartName[0] = "neg"; fPartName[1] = "pos"; fPartTitle[0] = "Negative"; fPartTitle[1] = "Positive"; fPartTitleLatex[0] = "Negative"; fPartTitleLatex[1] = "Positive"; } } /* * --------------------------------------------------------------------------------- * Getter * --------------------------------------------------------------------------------- */ //________________________________________________________________________ TString AliAnalysisNetParticleHelper::GetParticleName(Int_t idxPart) { // -- Get particle Name if( idxPart != 0 && idxPart != 1){ AliWarning("Particle type not known --> Set to antiparticles"); idxPart = 0; } return fPartName[idxPart]; } //________________________________________________________________________ TString AliAnalysisNetParticleHelper::GetParticleTitle(Int_t idxPart) { // -- Get particle Title if( idxPart != 0 && idxPart != 1){ AliWarning("Particle type not known --> Set to antiparticles"); idxPart = 0; } return fPartTitle[idxPart]; } //________________________________________________________________________ TString AliAnalysisNetParticleHelper::GetParticleTitleLatex(Int_t idxPart) { // -- Get particle Title LATEX if( idxPart != 0 && idxPart != 1){ AliWarning("Particle type not known --> Set to antiparticles"); idxPart = 0; } return fPartTitleLatex[idxPart]; } /* * --------------------------------------------------------------------------------- * Public Methods * --------------------------------------------------------------------------------- */ //________________________________________________________________________ Int_t AliAnalysisNetParticleHelper::Initialize(AliESDtrackCuts *cuts, Bool_t isMC, Int_t trackCutBit, Int_t modeDistCreation) { // -- Initialize helper Int_t iResult = 0; // -- ESD track cuts fESDTrackCuts = cuts; // -- Is MC fIsMC = isMC; // -- AOD track filter bit fAODtrackCutBit = trackCutBit; // -- mode Distribution creation fModeDistCreation = modeDistCreation; // -- Setup event cut statistics InitializeEventStats(); // -- Setup trigger statistics InitializeTriggerStats(); // -- Setup centrality statistics InitializeCentralityStats(); // -- PRINT PID Strategy // 0 : TPC(TPClow+TPCHigh) // 1 : ITS // 2 : TOF // 3 : ITS+TPC(TPClow+TPCHigh) // 4 : TPC(TPClow+TPCHigh)+TOF // 5 : TPC(TPClow+TPCHigh)+TOF for pT >= fMinPtForTOFRequired TOF is required, below, only used if there // 6 : TPC(TPClow+TPCHigh)+ITS+TOF with TOF only for those tracks which have TOF information // 7 : TPC(TPClow+TPCHigh)+ITS+TOF for pT >= fMinPtForTOFRequired TOF is required, below, only used if there // 8 : TPC(TPClow+TPCHigh)+ITS+TOF printf(">>>> USE PID %d || PID STRATEGY: %d || sigmaMax: ITS %.2f TPC %.2f TOF %.2f \n", fUsePID, fPIDStrategy, fNSigmaMaxITS, fNSigmaMaxTPC, fNSigmaMaxTOF); // -- Initialize random number generator fRandom = new TRandom3(); fRandom->SetSeed(); return iResult; } //________________________________________________________________________ Int_t AliAnalysisNetParticleHelper::SetupEvent(AliESDInputHandler *esdHandler, AliAODInputHandler *aodHandler, AliMCEvent *mcEvent) { // -- Setup Event // -- Get ESD objects if(esdHandler){ fInputEventHandler = static_cast(esdHandler); fESD = dynamic_cast(fInputEventHandler->GetEvent()); if (!fESD) { AliError("ESD event handler not available"); return -1; } } // -- Get AOD objects else if(aodHandler){ fInputEventHandler = static_cast(aodHandler); fAOD = dynamic_cast(fInputEventHandler->GetEvent()); if (!fAOD) { AliError("AOD event handler not available"); return -1; } } // -- Get Common objects fPIDResponse = fInputEventHandler->GetPIDResponse(); // -- Get MC objects fMCEvent = mcEvent; if (fMCEvent) fStack = fMCEvent->Stack(); // -- Get event centrality // > 0-5|5-10|10-20|20-30|30-40|40-50|50-60|60-70|70-80|80-90 --> 10 bins // > 0 1 2 3 4 5 6 7 8 9 AliCentrality *centrality = NULL; if(esdHandler) centrality = fESD->GetCentrality(); else if(aodHandler) centrality = fAOD->GetHeader()->GetCentralityP(); if (!centrality) { AliError("Centrality not available"); return -1; } Int_t centBin = centrality->GetCentralityClass10("V0M"); if (centBin == 0) fCentralityBin = centrality->GetCentralityClass5("V0M"); else if (centBin == 10 || centBin == -1.) fCentralityBin = -1; else if (centBin > 0 && centBin < fNCentralityBins) fCentralityBin = centBin + 1; else fCentralityBin = -2; // -- Stay within the max centrality bin if (fCentralityBin >= fCentralityBinMax) fCentralityBin = -2; fCentralityPercentile = centrality->GetCentralityPercentile("V0M"); // -- Get current subsample idx fSubSampleIdx = fRandom->Integer(fNSubSamples); return 0; } /* * --------------------------------------------------------------------------------- * Event / Trigger Statistics * --------------------------------------------------------------------------------- */ //________________________________________________________________________ Bool_t AliAnalysisNetParticleHelper::IsEventTriggered() { // -- Check if Event is triggered and fill Trigger Histogram Bool_t *aTriggerFired = new Bool_t[fNTriggers]; for (Int_t ii = 0; ii < fNTriggers; ++ii) aTriggerFired[ii] = kFALSE; if ((fInputEventHandler->IsEventSelected() & AliVEvent::kMB)) aTriggerFired[0] = kTRUE; if ((fInputEventHandler->IsEventSelected() & AliVEvent::kCentral)) aTriggerFired[1] = kTRUE; if ((fInputEventHandler->IsEventSelected() & AliVEvent::kSemiCentral)) aTriggerFired[2] = kTRUE; if ((fInputEventHandler->IsEventSelected() & AliVEvent::kEMCEJE)) aTriggerFired[3] = kTRUE; if ((fInputEventHandler->IsEventSelected() & AliVEvent::kEMCEGA)) aTriggerFired[4] = kTRUE; Bool_t isTriggered = kFALSE; for (Int_t ii=0; iiFill(ii); } } delete[] aTriggerFired; return isTriggered; } //________________________________________________________________________ Bool_t AliAnalysisNetParticleHelper::IsEventRejected() { // -- Evaluate event statistics histograms Int_t *aEventCuts = new Int_t[fHEventStatMax]; // set aEventCuts[ii] to 1 in case of reject for (Int_t ii=0;iiGetPrimaryVertexTracks(); if (!vtxESD) aEventCuts[iCut] = 1; } else if (fAOD){ vtxAOD = fAOD->GetPrimaryVertex(); if (!vtxAOD) aEventCuts[iCut] = 1; } // -- 3 - Vertex z outside cut window ++iCut; if (vtxESD){ if(TMath::Abs(vtxESD->GetZ()) > fVertexZMax) aEventCuts[iCut] = 1; } else if(vtxAOD){ if(TMath::Abs(vtxAOD->GetZ()) > fVertexZMax) aEventCuts[iCut] = 1; } else aEventCuts[iCut] = 1; // -- 4 - Centrality = -1 (no centrality or not hadronic) ++iCut; if(fCentralityBin == -1.) aEventCuts[iCut] = 1; // -- 5 - Centrality < fCentralityMax ++iCut; if(fCentralityBin == -2.) aEventCuts[iCut] = 1; // -- Fill statistics / reject event Bool_t isRejected = FillEventStats(aEventCuts); // -- Cleanup delete[] aEventCuts; return isRejected; } /* * --------------------------------------------------------------------------------- * Accept Particle Methods - private * --------------------------------------------------------------------------------- */ //________________________________________________________________________ Bool_t AliAnalysisNetParticleHelper::IsParticleAcceptedBasicCharged(AliVParticle *particle, Int_t idxMC) { // -- Check if MC particle is accepted for basic parameters if (!particle) return kFALSE; // -- check if charged if (particle->Charge() == 0.0) return kFALSE; // -- check if physical primary - ESD if (fESD) { if(!fStack->IsPhysicalPrimary(idxMC)) return kFALSE; } // -- check if physical primary - AOD else { if(!(static_cast(particle))->IsPhysicalPrimary()) return kFALSE; } return kTRUE; } //________________________________________________________________________ Bool_t AliAnalysisNetParticleHelper::IsParticleAcceptedBasicNeutral(AliVParticle *particle, Int_t idxMC) { // -- Check if MC particle is accepted for basic parameters if (!particle) return kFALSE; // -- check if charged if (particle->Charge() != 0.0) return kFALSE; // -- check if physical primary - ESD if (fESD) { if(!fStack->IsPhysicalPrimary(idxMC)) return kFALSE; } // -- check if physical primary - AOD else { if(!(static_cast(particle))->IsPhysicalPrimary()) return kFALSE; } return kTRUE; } //________________________________________________________________________ Bool_t AliAnalysisNetParticleHelper::IsParticleAcceptedRapidity(AliVParticle *particle, Double_t &yP) { // -- Check if particle is accepted // > in rapidity // > if no pid : return kTRUE, yP = eta // > return 0 if not accepted if (!fUsePID) { yP = particle->Eta(); return kTRUE; } Double_t mP = AliPID::ParticleMass(fParticleSpecies); // -- Calculate rapidities and kinematics Double_t p = particle->P(); Double_t pz = particle->Pz(); Double_t eP = TMath::Sqrt(p*p + mP*mP); yP = 0.5 * TMath::Log((eP + pz) / (eP - pz)); // -- Check Rapidity window if (TMath::Abs(yP) > fRapidityMax) return kFALSE; return kTRUE; } //________________________________________________________________________ Bool_t AliAnalysisNetParticleHelper::IsParticleAcceptedPhi(AliVParticle *particle) { // -- Check if particle is accepted // > in phi // > return 0 if not accepted if (particle->Phi() > fPhiMin && particle->Phi() <= fPhiMax) return kTRUE; else if (particle->Phi() < fPhiMin && (particle->Phi() + TMath::TwoPi()) <= fPhiMax) return kTRUE; else return kFALSE; } //_____________________________________________________________________________ Bool_t AliAnalysisNetParticleHelper::IsParticleFindable(Int_t label) { // -- Check if MC particle is findable tracks AliMCParticle *mcParticle = static_cast(fMCEvent->GetTrack(label)); if(!mcParticle) return kFALSE; Int_t counter; Float_t tpcTrackLength = mcParticle->GetTPCTrackLength(AliTracker::GetBz(), 0.05, counter, 3.0); return (tpcTrackLength > fMinTrackLengthMC); } /* * --------------------------------------------------------------------------------- * Accept Track Methods - public * --------------------------------------------------------------------------------- */ //________________________________________________________________________ Bool_t AliAnalysisNetParticleHelper::IsTrackAcceptedBasicCharged(AliVTrack* track) { // -- Check if track is accepted // > for basic parameters if (!track) return kFALSE; if (track->Charge() == 0) return kFALSE; return kTRUE; } //________________________________________________________________________ Bool_t AliAnalysisNetParticleHelper::IsTrackAcceptedRapidity(AliVTrack *track, Double_t &yP) { // -- Check if track is accepted // > in rapidity // > if no pid : return kTRUE // > return 0 if not accepted if (!fUsePID) { yP = track->Eta(); return kTRUE; } Double_t mP = AliPID::ParticleMass(fParticleSpecies); // -- Calculate rapidities and kinematics Double_t pvec[3]; track->GetPxPyPz(pvec); Double_t p = track->P(); Double_t eP = TMath::Sqrt(p*p + mP*mP); yP = 0.5 * TMath::Log((eP + pvec[2]) / (eP - pvec[2])); // -- Check Rapidity window if (TMath::Abs(yP) > fRapidityMax) return kFALSE; return kTRUE; } //________________________________________________________________________ Bool_t AliAnalysisNetParticleHelper::IsTrackAcceptedDCA(AliVTrack *vTrack) { // -- Check if track is accepted - ONLY FOR ESDs so far // > for DCA, if both SPD layers have hits // > For now only Implemented for ESDs Bool_t isAccepted = kTRUE; if (!fESD) return isAccepted; AliESDtrack* track = dynamic_cast(vTrack); if (!track) return kFALSE; // -- Get nHits SPD if (track->HasPointOnITSLayer(0) && track->HasPointOnITSLayer(1)) { // -- Get DCA nSigmas Float_t dca[2], cov[3]; // dca_xy, dca_z, sigma_xy, sigma_xy_z, sigma_z track->GetImpactParameters(dca,cov); Float_t nSigmaCdd = (cov[0] != 0.) ? dca[0]/TMath::Sqrt(cov[0]) : -9.99; Float_t nSigmaCzz = (cov[2] != 0.) ? dca[1]/TMath::Sqrt(cov[2]) : -9.99; if (fNSigmaMaxCdd != 0.) { if (TMath::Abs(nSigmaCdd) > fNSigmaMaxCdd) isAccepted = kFALSE; } if (fNSigmaMaxCzz != 0.) { if (TMath::Abs(nSigmaCzz) > fNSigmaMaxCzz) isAccepted = kFALSE; } } return isAccepted; } //________________________________________________________________________ Bool_t AliAnalysisNetParticleHelper::IsTrackAcceptedPID(AliVTrack *track, Double_t* pid) { // -- Check if track is accepted // > provides ITS, TPC and TOF nSigmas to the argument Bool_t isAcceptedITS = kFALSE; Bool_t isAcceptedTPC = kFALSE; Bool_t isAcceptedTPClow = kFALSE; Bool_t isAcceptedTOF = kFALSE; Bool_t isAccepted = kFALSE; // -- In case not PID is used if (!fUsePID) { pid[0] = 10.; pid[1] = 10.; pid[2] = 10.; return kTRUE; } // -- Get PID with ITS and check if (fPIDResponse->NumberOfSigmas(AliPIDResponse::kITS, track, fParticleSpecies, pid[0]) == AliPIDResponse::kDetPidOk) { if (TMath::Abs(pid[0]) < fNSigmaMaxITS) isAcceptedITS = kTRUE; } // -- Get PID with TPC and check if (fPIDResponse->NumberOfSigmas(AliPIDResponse::kTPC, track, fParticleSpecies, pid[1]) == AliPIDResponse::kDetPidOk) { if (TMath::Abs(pid[1]) < fNSigmaMaxTPC) isAcceptedTPC = kTRUE; if (TMath::Abs(pid[1]) < fNSigmaMaxTPClow) isAcceptedTPClow = kTRUE; if (track->Pt() < fMaxPtForTPClow) isAcceptedTPC = isAcceptedTPClow; } // -- Get PID with TOF and check Bool_t hasPIDTOF = kFALSE; if (fPIDResponse->NumberOfSigmas(AliPIDResponse::kTOF, track, fParticleSpecies, pid[2]) == AliPIDResponse::kDetPidOk) { hasPIDTOF = kTRUE; if (TMath::Abs(pid[2]) < fNSigmaMaxTOF) isAcceptedTOF = kTRUE; } // -- Check TOF missmatch for MC //if (ESD) if (fIsMC && isAcceptedTOF) { Int_t tofLabel[3]; // AliESDtrack* track = dynamic_cast(vTrack); // TODO add code for AOD (dynamic_cast(track))->GetTOFLabel(tofLabel); Bool_t hasMatchTOF = kTRUE; if (TMath::Abs(track->GetLabel()) != TMath::Abs(tofLabel[0]) || tofLabel[1] > 0) hasMatchTOF = kFALSE; TParticle *matchedTrack = fStack->Particle(TMath::Abs(tofLabel[0])); if (TMath::Abs(matchedTrack->GetFirstMother()) == TMath::Abs(track->GetLabel())) hasMatchTOF = kTRUE; isAcceptedTOF = hasMatchTOF; } // 0 : TPC(TPClow+TPCHigh) // 1 : ITS // 2 : TOF // 3 : ITS+TPC(TPClow+TPCHigh) // 4 : TPC(TPClow+TPCHigh)+TOF // 5 : TPC(TPClow+TPCHigh)+TOF for pT >= fMinPtForTOFRequired TOF is required, below, only used if there // 6 : TPC(TPClow+TPCHigh)+ITS+TOF with TOF only for those tracks which have TOF information // 7 : TPC(TPClow+TPCHigh)+ITS+TOF for pT >= fMinPtForTOFRequired TOF is required, below, only used if there // 8 : TPC(TPClow+TPCHigh)+ITS+TOF if (fPIDStrategy == 0) { // TPC PID isAccepted = isAcceptedTPC; } else if (fPIDStrategy == 1) { // ITS PID isAccepted = isAcceptedITS; } else if (fPIDStrategy == 2) { // TOF PID isAccepted = isAcceptedTOF; } else if (fPIDStrategy == 3) { // TPC+ITS PID isAccepted = isAcceptedTPC && isAcceptedITS; } else if (fPIDStrategy == 4) { // TPC+TOF PID isAccepted = isAcceptedTPC && isAcceptedTOF; } else if (fPIDStrategy == 5) { // TPC+TOF PID -- for pT >= fMinPtForTOFRequired TOF is required if (!hasPIDTOF && track->Pt() < fMinPtForTOFRequired) isAcceptedTOF = kTRUE; isAccepted = isAcceptedTPC && isAcceptedTOF; } else if (fPIDStrategy == 6) { // ITS+TPC+TOF PID -- TOF only for those tracks which have TOF information isAccepted = isAcceptedTPC && isAcceptedITS; if (hasPIDTOF) isAccepted = isAccepted && isAcceptedTOF; } else if (fPIDStrategy == 7) { // ITS+TPC+TOF PID -- for pT >= fMinPtForTOFRequired TOF is required if (!hasPIDTOF && track->Pt() < fMinPtForTOFRequired) isAcceptedTOF = kTRUE; isAccepted = isAcceptedITS && isAcceptedTPC && isAcceptedTOF; } else if (fPIDStrategy == 8) { // ITS+TPC+TOF PID isAccepted = isAcceptedITS && isAcceptedTPC && isAcceptedTOF; } return isAccepted; } //________________________________________________________________________ Bool_t AliAnalysisNetParticleHelper::IsTrackAcceptedPhi(AliVTrack *track) { // -- Check if track is accepted // > in phi // > return 0 if not accepted if (track->Phi() > fPhiMin && track->Phi() <= fPhiMax) return kTRUE; else if (track->Phi() < fPhiMin && (track->Phi() + TMath::TwoPi()) <= fPhiMax) return kTRUE; else return kFALSE; } /* * --------------------------------------------------------------------------------- * Helper Methods * --------------------------------------------------------------------------------- */ //________________________________________________________________________ void AliAnalysisNetParticleHelper::BinLogAxis(const THnBase *hn, Int_t axisNumber, AliESDtrackCuts* cuts) { // -- Method for the correct logarithmic binning of histograms // -- and update fMinPtForTOFRequired using the logarithmic scale AliESDtrackCuts* esdTrackCuts = (cuts) ? cuts : fESDTrackCuts; // -- Make logarithmic binning TAxis *axis = hn->GetAxis(axisNumber); Int_t nBins = axis->GetNbins(); Double_t from = axis->GetXmin(); Double_t to = axis->GetXmax(); Double_t *newBins = new Double_t[nBins + 1]; newBins[0] = from; Double_t factor = TMath::Power(to/from, 1./nBins); for (int ii = 1; ii <= nBins; ii++) newBins[ii] = factor * newBins[ii-1]; axis->Set(nBins, newBins); delete [] newBins; // -- Update Ranges // ------------------ Float_t ptRange[2]; Float_t oldPtRange[2]; esdTrackCuts->GetPtRange(ptRange[0],ptRange[1]); esdTrackCuts->GetPtRange(oldPtRange[0],oldPtRange[1]); Float_t minPtForTOFRequired = fMinPtForTOFRequired; Float_t maxPtForTPClow = fMaxPtForTPClow; // -- Update minPt Cut Int_t bin = axis->FindBin(ptRange[0]+10e-6); ptRange[0] = axis->GetBinLowEdge(bin); // -- Update maxPt Cut bin = axis->FindBin(ptRange[1]-10e-6); ptRange[1] = axis->GetBinUpEdge(bin); if (ptRange[0] != oldPtRange[0] || ptRange[1] != oldPtRange[1]) { printf(">>>> Update Pt Range : [%f,%f] -> [%f,%f]\n", oldPtRange[0], oldPtRange[1], ptRange[0], ptRange[1]); esdTrackCuts->SetPtRange(ptRange[0],ptRange[1]); } // -- Update MinPtForTOFRequired bin = axis->FindBin(minPtForTOFRequired-10e-6); minPtForTOFRequired = axis->GetBinUpEdge(bin); if (minPtForTOFRequired != fMinPtForTOFRequired) { printf(">>>> Update Min Pt for TOF : %f -> %f\n", fMinPtForTOFRequired, minPtForTOFRequired); fMinPtForTOFRequired = minPtForTOFRequired; } // -- Update MaxPtForTPClow bin = axis->FindBin(maxPtForTPClow-10e-6); maxPtForTPClow = axis->GetBinUpEdge(bin); if (maxPtForTPClow != fMaxPtForTPClow) { printf(">>>> Update Max Pt for TPC Low : %f -> %f\n", fMaxPtForTPClow, maxPtForTPClow); fMaxPtForTPClow = maxPtForTPClow; } } /////////////////////////////////////////////////////////////////////////////////// /* * --------------------------------------------------------------------------------- * Initialize - Private * --------------------------------------------------------------------------------- */ //________________________________________________________________________ void AliAnalysisNetParticleHelper::InitializeEventStats() { // -- Initialize event statistics histograms fHEventStat0 = new TH1F("hEventStat0","Event cut statistics 0;Event Cuts;Events", fHEventStatMax,-0.5,fHEventStatMax-0.5); fHEventStat1 = new TH1F("hEventStat1","Event cut statistics 1;Event Cuts;Events", fHEventStatMax,-0.5,fHEventStatMax-0.5); for ( Int_t ii=0; ii < fHEventStatMax-1; ii++ ) { fHEventStat0->GetXaxis()->SetBinLabel(ii+1, AliAnalysisNetParticleHelper::fgkEventNames[ii]); fHEventStat1->GetXaxis()->SetBinLabel(ii+1, AliAnalysisNetParticleHelper::fgkEventNames[ii]); } fHEventStat0->GetXaxis()->SetBinLabel(fHEventStatMax, Form("Centrality [0-%s]%%", AliAnalysisNetParticleHelper::fgkCentralityMaxNames[fCentralityBinMax-1])); fHEventStat1->GetXaxis()->SetBinLabel(fHEventStatMax, Form("Centrality [0-%s]%%", AliAnalysisNetParticleHelper::fgkCentralityMaxNames[fCentralityBinMax-1])); } //________________________________________________________________________ void AliAnalysisNetParticleHelper::InitializeTriggerStats() { // -- Initialize trigger statistics histograms fHTriggerStat = new TH1F("hTriggerStat","Trigger statistics;Trigger;Events", fNTriggers,-0.5,fNTriggers-0.5); for ( Int_t ii=0; ii < fNTriggers; ii++ ) fHTriggerStat->GetXaxis()->SetBinLabel(ii+1, AliAnalysisNetParticleHelper::fgkTriggerNames[ii]); } //________________________________________________________________________ void AliAnalysisNetParticleHelper::InitializeCentralityStats() { // -- Initialize trigger statistics histograms fHCentralityStat = new TH1F("hCentralityStat","Centrality statistics;Centrality Bins;Events", fNCentralityBins,-0.5,fNCentralityBins-0.5); for ( Int_t ii=0; ii < fNCentralityBins; ii++ ) fHCentralityStat->GetXaxis()->SetBinLabel(ii+1, AliAnalysisNetParticleHelper::fgkCentralityNames[ii]); } /* * --------------------------------------------------------------------------------- * Event / Trigger Statistics - private * --------------------------------------------------------------------------------- */ //________________________________________________________________________ Bool_t AliAnalysisNetParticleHelper::FillEventStats(Int_t *aEventCuts) { // -- Fill event / centrality statistics Bool_t isRejected = kFALSE; // -- Fill event statistics for (Int_t idx = 0; idx < fHEventStatMax ; ++idx) { if (aEventCuts[idx]) isRejected = kTRUE; else fHEventStat0->Fill(idx); } for (Int_t idx = 0; idx < fHEventStatMax; ++idx) { if (aEventCuts[idx]) break; fHEventStat1->Fill(idx); } // -- Fill centrality statistics of accepted events if (!isRejected) fHCentralityStat->Fill(fCentralityBin); return isRejected; }