From 5a63c44a322a6b181ebb4515fb62cc75cc78789e Mon Sep 17 00:00:00 2001 From: ALICE Action Bot Date: Tue, 26 May 2026 19:04:52 +0000 Subject: [PATCH] Please consider the following formatting changes --- PWGJE/Tasks/trackJetSpectra.cxx | 294 ++++++++++++++++---------------- 1 file changed, 147 insertions(+), 147 deletions(-) diff --git a/PWGJE/Tasks/trackJetSpectra.cxx b/PWGJE/Tasks/trackJetSpectra.cxx index 7bc5f08dc09..06119362481 100644 --- a/PWGJE/Tasks/trackJetSpectra.cxx +++ b/PWGJE/Tasks/trackJetSpectra.cxx @@ -23,20 +23,20 @@ #include #include -#include -#include -#include #include +#include #include +#include #include #include #include +#include #include -#include #include #include #include +#include #include #include @@ -185,186 +185,186 @@ struct TrackJetSpectra { // Disitribution of tracks if (doprocessJetsMCDet || doprocessJetsMCDetWeighted || doprocessJets) { - spectra.add("hNumberOfTracks", "Number", kTH1F, {{1000, 0., 1000., "Number of Events"}}); - spectra.add("hNumberOfSignalTriggers", "Number", kTH1F, {{10, 0., 10., "Number of Events"}}); - spectra.add("hNumberOfReferenceTriggers", "Number", kTH1F, {{10, 0., 10., "Number of Events"}}); - spectra.add("hRecoilJetRefPt", "#it{p}_{T} distribution of recoil jets", kTH2F, {{200, 0., 200., "Number of Events"}, centrality}); - spectra.add("hRecoilJetSigPt", "#it{p}_{T} distribution of recoil jets", kTH2F, {{200, 0., 200., "Number of Events"}, centrality}); - spectra.add("hRecoilJetRefCorrPt", "Corrected #it{p}_{T} distribution of recoil jets", kTH2F, {{200, 0., 200., "Number of Events"}, centrality}); - spectra.add("hRecoilJetSigCorrPt", "Corrected #it{p}_{T} distribution of recoil jets", kTH2F, {{200, 0., 200., "Number of Events"}, centrality}); - spectra.add("hTrackPt", "#it{p}_{T} distribution of tracks", kTH2F, {pT, centrality}); - spectra.add("hTrackPhi", "#varphi distribution of tracks", kTH1F, {phiAngle}); - spectra.add("hTrackEta", "#eta distribution of tracks", kTH1F, {etaTracks}); + spectra.add("hNumberOfTracks", "Number", kTH1F, {{1000, 0., 1000., "Number of Events"}}); + spectra.add("hNumberOfSignalTriggers", "Number", kTH1F, {{10, 0., 10., "Number of Events"}}); + spectra.add("hNumberOfReferenceTriggers", "Number", kTH1F, {{10, 0., 10., "Number of Events"}}); + spectra.add("hRecoilJetRefPt", "#it{p}_{T} distribution of recoil jets", kTH2F, {{200, 0., 200., "Number of Events"}, centrality}); + spectra.add("hRecoilJetSigPt", "#it{p}_{T} distribution of recoil jets", kTH2F, {{200, 0., 200., "Number of Events"}, centrality}); + spectra.add("hRecoilJetRefCorrPt", "Corrected #it{p}_{T} distribution of recoil jets", kTH2F, {{200, 0., 200., "Number of Events"}, centrality}); + spectra.add("hRecoilJetSigCorrPt", "Corrected #it{p}_{T} distribution of recoil jets", kTH2F, {{200, 0., 200., "Number of Events"}, centrality}); + spectra.add("hTrackPt", "#it{p}_{T} distribution of tracks", kTH2F, {pT, centrality}); + spectra.add("hTrackPhi", "#varphi distribution of tracks", kTH1F, {phiAngle}); + spectra.add("hTrackEta", "#eta distribution of tracks", kTH1F, {etaTracks}); - spectra.add("hTrackPtPhi", "#it{p}_{T} vs. #varphi distribution of tracks", kTH2F, {pT, phiAngle}); - spectra.add("hTrackPtEta", "#it{p}_{T} vs. #eta distribution of tracks", kTH2F, {pT, etaTracks}); + spectra.add("hTrackPtPhi", "#it{p}_{T} vs. #varphi distribution of tracks", kTH2F, {pT, phiAngle}); + spectra.add("hTrackPtEta", "#it{p}_{T} vs. #eta distribution of tracks", kTH2F, {pT, etaTracks}); - spectra.add("hTrackPtPhiEta", "#it{p}_{T} vs. #varphi vs. #eta distribution of tracks", kTH3F, {pT, phiAngle, etaTracks}); + spectra.add("hTrackPtPhiEta", "#it{p}_{T} vs. #varphi vs. #eta distribution of tracks", kTH3F, {pT, phiAngle, etaTracks}); - // Distribution of jets - spectra.add("hJetPt", "#it{p}_{T} distribution of jets", kTH1F, {pT}); - spectra.add("hJetPhi", "#varphi distribution of jets", kTH1F, {phiAngle}); - spectra.add("hJetEta", "#eta distribution of jets", kTH1F, {etaJets}); + // Distribution of jets + spectra.add("hJetPt", "#it{p}_{T} distribution of jets", kTH1F, {pT}); + spectra.add("hJetPhi", "#varphi distribution of jets", kTH1F, {phiAngle}); + spectra.add("hJetEta", "#eta distribution of jets", kTH1F, {etaJets}); - spectra.add("hJetPtPhi", "#it{p}_{T} vs. #varphi distribution of jets", kTH2F, {pT, phiAngle}); - spectra.add("hJetPtEta", "#it{p}_{T} vs. #eta distribution of jets", kTH2F, {pT, etaJets}); + spectra.add("hJetPtPhi", "#it{p}_{T} vs. #varphi distribution of jets", kTH2F, {pT, phiAngle}); + spectra.add("hJetPtEta", "#it{p}_{T} vs. #eta distribution of jets", kTH2F, {pT, etaJets}); - spectra.add("hJetPtPhiEta", "#it{p}_{T} vs. #varphi vs. #eta distribution of jets", kTH3F, {pT, phiAngle, etaJets}); + spectra.add("hJetPtPhiEta", "#it{p}_{T} vs. #varphi vs. #eta distribution of jets", kTH3F, {pT, phiAngle, etaJets}); - spectra.add("hMultFT0A", "Mult. signal from FTOA", kTH2F, {{2000, 0.0, 40000., "FT0A"}, centrality}); - spectra.add("hMultFT0C", "Mult. signal from FTOC", kTH2F, {{2000, 0.0, 40000., "FT0C"}, centrality}); + spectra.add("hMultFT0A", "Mult. signal from FTOA", kTH2F, {{2000, 0.0, 40000., "FT0A"}, centrality}); + spectra.add("hMultFT0C", "Mult. signal from FTOC", kTH2F, {{2000, 0.0, 40000., "FT0C"}, centrality}); - spectra.add("hJetPtCorr", "#it{p}_{T} distribution of jets", kTH1F, {pT}); + spectra.add("hJetPtCorr", "#it{p}_{T} distribution of jets", kTH1F, {pT}); - spectra.add("hRho", "distribution of rho", kTH1F, {rho}); - spectra.add("hjetArea", "distribution of jet area", kTH1F, {jetArea}); + spectra.add("hRho", "distribution of rho", kTH1F, {rho}); + spectra.add("hjetArea", "distribution of jet area", kTH1F, {jetArea}); - spectra.add("JetAreavsPt", "#it{p}_{T} vs. jet area distribution of jets", kTH2F, {pT, jetArea}); - spectra.add("hRhovsNTracks", "Rho vs number of tracks", kTH2F, {{2000, 0.0, 40000., "NTracks"}, rho}); - spectra.add("hRhovsCentrality", "Rho vs number of tracks", kTH2F, {centrality, rho}); + spectra.add("JetAreavsPt", "#it{p}_{T} vs. jet area distribution of jets", kTH2F, {pT, jetArea}); + spectra.add("hRhovsNTracks", "Rho vs number of tracks", kTH2F, {{2000, 0.0, 40000., "NTracks"}, rho}); + spectra.add("hRhovsCentrality", "Rho vs number of tracks", kTH2F, {centrality, rho}); - spectra.add("hSigCorrConePt", "distribution of Signal Corrected perpendicular Cone Pt", kTH1F, {pT}); - spectra.add("hRefCorrConePt", "distribution of Reference Corrected perpendicular Cone Pt", kTH1F, {pT}); + spectra.add("hSigCorrConePt", "distribution of Signal Corrected perpendicular Cone Pt", kTH1F, {pT}); + spectra.add("hRefCorrConePt", "distribution of Reference Corrected perpendicular Cone Pt", kTH1F, {pT}); - spectra.add("hSigRandCorrConePt", "distribution of Signal Corrected random Cone Pt", kTH2F, {pT, centrality}); - spectra.add("hRefRandCorrConePt", "distribution of Reference Corrected random Cone Pt", kTH2F, {pT, centrality}); + spectra.add("hSigRandCorrConePt", "distribution of Signal Corrected random Cone Pt", kTH2F, {pT, centrality}); + spectra.add("hRefRandCorrConePt", "distribution of Reference Corrected random Cone Pt", kTH2F, {pT, centrality}); - spectra.add("hTTCountData", "Number", kTH2F, {{2, 0., 2., "Number TT Data"}, centrality}); - } + spectra.add("hTTCountData", "Number", kTH2F, {{2, 0., 2., "Number TT Data"}, centrality}); + } - if (doprocessJetsMatched) { - spectra.add("hDetLevelInclusiveJetsPt", "All reconstructed inclusive jets", kTH1F, {{200, 0.0, 200.}}, setSumw2); - spectra.add("hFakeInclusiveJetsPt", "Det. level inclusive jets w/o matched pair", kTH1F, {{200, 0.0, 200.}}, setSumw2); + if (doprocessJetsMatched) { + spectra.add("hDetLevelInclusiveJetsPt", "All reconstructed inclusive jets", kTH1F, {{200, 0.0, 200.}}, setSumw2); + spectra.add("hFakeInclusiveJetsPt", "Det. level inclusive jets w/o matched pair", kTH1F, {{200, 0.0, 200.}}, setSumw2); - spectra.add("hMissedJets_pT", "Part. level jets w/o matched pair", kTH1F, {{200, 0.0, 200.}}, setSumw2); - spectra.add("hMissedJets_pT_RecoilJets", "Part. level jets w/o matched pair", kTH1F, {{200, 0.0, 200.}}, setSumw2); + spectra.add("hMissedJets_pT", "Part. level jets w/o matched pair", kTH1F, {{200, 0.0, 200.}}, setSumw2); + spectra.add("hMissedJets_pT_RecoilJets", "Part. level jets w/o matched pair", kTH1F, {{200, 0.0, 200.}}, setSumw2); - spectra.add("hJetPt_resolution", "Jet p_{T} relative resolution as a func. of jet #it{p}_{T, part}", kTH2F, {{100, -5., 5.}, pT}, setSumw2); - spectra.add("hJetPhi_resolution", "#varphi resolution as a func. of jet #it{p}_{T, part}", kTH2F, {{40, -1., 1.}, pT}, setSumw2); + spectra.add("hJetPt_resolution", "Jet p_{T} relative resolution as a func. of jet #it{p}_{T, part}", kTH2F, {{100, -5., 5.}, pT}, setSumw2); + spectra.add("hJetPhi_resolution", "#varphi resolution as a func. of jet #it{p}_{T, part}", kTH2F, {{40, -1., 1.}, pT}, setSumw2); - spectra.add("hJetPt_DetLevel_vs_PartLevel_RecoilJets", "Correlation recoil jet pT at part. vs. det. levels", kTH2F, {{200, 0.0, 200.}, {200, 0.0, 200.}}, setSumw2); - spectra.add("hJetPt_resolution_RecoilJets", "Jet p_{T} relative resolution as a func. of jet #it{p}_{T, part}", kTH2F, {{100, -5., 5.}, pT}, setSumw2); - spectra.add("hJetPhi_resolution_RecoilJets", "#varphi resolution as a func. of jet #it{p}_{T, part}", kTH2F, {{40, -1., 1.}, pT}, setSumw2); - } + spectra.add("hJetPt_DetLevel_vs_PartLevel_RecoilJets", "Correlation recoil jet pT at part. vs. det. levels", kTH2F, {{200, 0.0, 200.}, {200, 0.0, 200.}}, setSumw2); + spectra.add("hJetPt_resolution_RecoilJets", "Jet p_{T} relative resolution as a func. of jet #it{p}_{T, part}", kTH2F, {{100, -5., 5.}, pT}, setSumw2); + spectra.add("hJetPhi_resolution_RecoilJets", "#varphi resolution as a func. of jet #it{p}_{T, part}", kTH2F, {{40, -1., 1.}, pT}, setSumw2); + } - if (doprocessMCPartLevel || doprocessMCPartLevelWeighted) { - spectra.add("hRecoilJetRefPtMCP", "#it{p}_{T} distribution of recoil jets", kTH1F, {{200, 0., 200., "p_{T,ch jet} (GeV/c)"}}); - spectra.add("hRecoilJetSigPtMCP", "#it{p}_{T} distribution of recoil jets", kTH1F, {{200, 0., 200., "p_{T,ch jet} (GeV/c)"}}); - spectra.add("hRecoilJetRefCorrPtMCP", "Corrected #it{p}_{T} distribution of recoil jets", kTH1F, {{200, 0., 200., "p_{T,ch jet} (GeV/c)"}}); - spectra.add("hRecoilJetSigCorrPtMCP", "Corrected #it{p}_{T} distribution of recoil jets", kTH1F, {{200, 0., 200., "p_{T,ch jet} (GeV/c)"}}); + if (doprocessMCPartLevel || doprocessMCPartLevelWeighted) { + spectra.add("hRecoilJetRefPtMCP", "#it{p}_{T} distribution of recoil jets", kTH1F, {{200, 0., 200., "p_{T,ch jet} (GeV/c)"}}); + spectra.add("hRecoilJetSigPtMCP", "#it{p}_{T} distribution of recoil jets", kTH1F, {{200, 0., 200., "p_{T,ch jet} (GeV/c)"}}); + spectra.add("hRecoilJetRefCorrPtMCP", "Corrected #it{p}_{T} distribution of recoil jets", kTH1F, {{200, 0., 200., "p_{T,ch jet} (GeV/c)"}}); + spectra.add("hRecoilJetSigCorrPtMCP", "Corrected #it{p}_{T} distribution of recoil jets", kTH1F, {{200, 0., 200., "p_{T,ch jet} (GeV/c)"}}); - spectra.add("hEventSelectionCountPartLevel", "Number", kTH1F, {{10, 0., 10., "Number of Events"}}); - spectra.add("hMCPTrackPt", "#it{p}_{T} distribution of tracks", kTH1F, {pT}); + spectra.add("hEventSelectionCountPartLevel", "Number", kTH1F, {{10, 0., 10., "Number of Events"}}); + spectra.add("hMCPTrackPt", "#it{p}_{T} distribution of tracks", kTH1F, {pT}); - spectra.add("hJetPtEtaPhiRhoArea_Part", "Charact. of inclusive part. level jets", kTHnSparseF, {pT, etaJets, phiAngle, rho, jetArea}); - spectra.add("hJetPtMCP", "#it{p}_{T} distribution of jets", kTH1F, {{200, 0., 200., "p_{T,ch jet} (GeV/c)"}}); + spectra.add("hJetPtEtaPhiRhoArea_Part", "Charact. of inclusive part. level jets", kTHnSparseF, {pT, etaJets, phiAngle, rho, jetArea}); + spectra.add("hJetPtMCP", "#it{p}_{T} distribution of jets", kTH1F, {{200, 0., 200., "p_{T,ch jet} (GeV/c)"}}); - spectra.add("hTTCountPartLevel", "Number", kTH1F, {{2, 0., 2., "Number TT MCP"}}); - } + spectra.add("hTTCountPartLevel", "Number", kTH1F, {{2, 0., 2., "Number TT MCP"}}); + } - if (doprocessTrackEfficiency || doprocessTrackEfficiencyMB) { - spectra.add("hTrackingEfficiencyDenominatorPt", "#it{p}_{T} distribution", kTH2F, {{200, 0., 200., "p_{T,ch} (GeV/c)"}, centrality}); - spectra.add("hNonprimaryParticlesPt", "#it{p}_{T} distribution", kTH1F, {{200, 0., 200., "p_{T,ch} (GeV/c)"}}); - spectra.add("hTrackingEfficiencyNumeratorPt", "#it{p}_{T} distribution", kTH2F, {{200, 0., 200., "p_{T,ch} (GeV/c)"}, centrality}); + if (doprocessTrackEfficiency || doprocessTrackEfficiencyMB) { + spectra.add("hTrackingEfficiencyDenominatorPt", "#it{p}_{T} distribution", kTH2F, {{200, 0., 200., "p_{T,ch} (GeV/c)"}, centrality}); + spectra.add("hNonprimaryParticlesPt", "#it{p}_{T} distribution", kTH1F, {{200, 0., 200., "p_{T,ch} (GeV/c)"}}); + spectra.add("hTrackingEfficiencyNumeratorPt", "#it{p}_{T} distribution", kTH2F, {{200, 0., 200., "p_{T,ch} (GeV/c)"}, centrality}); - spectra.add("hTrackingPhiSmearingPt", "#it{p}_{T} distribution", kTH2F, {pT, dphiAngle}); - spectra.add("hTrackingEtaSmearingPt", "#it{p}_{T} distribution", kTH2F, {pT, detaTracks}); - spectra.add("hTrackingPtResolutionPt", "#it{p}_{T} distribution", kTH2F, {pTTrack, pTRes}); + spectra.add("hTrackingPhiSmearingPt", "#it{p}_{T} distribution", kTH2F, {pT, dphiAngle}); + spectra.add("hTrackingEtaSmearingPt", "#it{p}_{T} distribution", kTH2F, {pT, detaTracks}); + spectra.add("hTrackingPtResolutionPt", "#it{p}_{T} distribution", kTH2F, {pTTrack, pTRes}); - spectra.add("hNTracksPerCollision", "Number", kTH1F, {{1000, 0., 1000., "Number of Events"}}); + spectra.add("hNTracksPerCollision", "Number", kTH1F, {{1000, 0., 1000., "Number of Events"}}); - spectra.add("CentralityC", "#it{p}_{T} distribution", kTH1F, {{100, 0., 100., "p_{T,ch} (GeV/c)"}}); - spectra.add("CentralityM", "#it{p}_{T} distribution", kTH1F, {{100, 0., 100., "p_{T,ch} (GeV/c)"}}); - spectra.add("AllTracksPtCent", "#it{p}_{T} distribution", kTH2F, {{200, 0., 200., "p_{T,ch} (GeV/c)"}, centrality}); - } - } + spectra.add("CentralityC", "#it{p}_{T} distribution", kTH1F, {{100, 0., 100., "p_{T,ch} (GeV/c)"}}); + spectra.add("CentralityM", "#it{p}_{T} distribution", kTH1F, {{100, 0., 100., "p_{T,ch} (GeV/c)"}}); + spectra.add("AllTracksPtCent", "#it{p}_{T} distribution", kTH2F, {{200, 0., 200., "p_{T,ch} (GeV/c)"}, centrality}); + } + } - //------------------------------------------------------------------------------ + //------------------------------------------------------------------------------ - template - void fillHistograms(Collision const& collision, Jets const& jets, - Tracks const& tracks, float weight = 1.) + template + void fillHistograms(Collision const& collision, Jets const& jets, + Tracks const& tracks, float weight = 1.) - { + { - const float randomConeDistanceFactor = 2.; - const int maxRandomConeIterations = 1000; + const float randomConeDistanceFactor = 2.; + const int maxRandomConeIterations = 1000; - std::vector sigTrackPhi; - std::vector sigTrackEta; - std::vector refTrackPhi; - std::vector refTrackEta; + std::vector sigTrackPhi; + std::vector sigTrackEta; + std::vector refTrackPhi; + std::vector refTrackEta; - float multFT0A = collision.multFT0A(); - float multFT0C = collision.multFT0C(); - float centralityM = collision.centFT0M(); + float multFT0A = collision.multFT0A(); + float multFT0C = collision.multFT0C(); + float centralityM = collision.centFT0M(); - spectra.fill(HIST("hMultFT0A"), multFT0A, centralityM, weight); - spectra.fill(HIST("hMultFT0C"), multFT0C, centralityM, weight); + spectra.fill(HIST("hMultFT0A"), multFT0A, centralityM, weight); + spectra.fill(HIST("hMultFT0C"), multFT0C, centralityM, weight); - float jetR2 = jetR * jetR; - float rho = collision.rho(); + float jetR2 = jetR * jetR; + float rho = collision.rho(); - spectra.fill(HIST("hRho"), rho, weight); + spectra.fill(HIST("hRho"), rho, weight); - int i = 0; - for (const auto& track : tracks) { - // check whether track passes the selection flags - if (skipTrack(track)) - continue; - i++; - auto trackPt = track.pt(); - auto trackPhi = track.phi(); - auto trackEta = track.eta(); + int i = 0; + for (const auto& track : tracks) { + // check whether track passes the selection flags + if (skipTrack(track)) + continue; + i++; + auto trackPt = track.pt(); + auto trackPhi = track.phi(); + auto trackEta = track.eta(); - spectra.fill(HIST("hTrackPt"), trackPt, centralityM, weight); - spectra.fill(HIST("hTrackPhi"), trackPhi, weight); - spectra.fill(HIST("hTrackEta"), trackEta, weight); + spectra.fill(HIST("hTrackPt"), trackPt, centralityM, weight); + spectra.fill(HIST("hTrackPhi"), trackPhi, weight); + spectra.fill(HIST("hTrackEta"), trackEta, weight); - spectra.fill(HIST("hTrackPtPhi"), trackPt, trackPhi, weight); - spectra.fill(HIST("hTrackPtEta"), trackPt, trackEta, weight); + spectra.fill(HIST("hTrackPtPhi"), trackPt, trackPhi, weight); + spectra.fill(HIST("hTrackPtEta"), trackPt, trackEta, weight); - spectra.fill(HIST("hTrackPtPhiEta"), trackPt, trackPhi, trackEta, weight); + spectra.fill(HIST("hTrackPtPhiEta"), trackPt, trackPhi, trackEta, weight); - if ((signalTriggerMin <= trackPt) && (trackPt <= signalTriggerMax)) { - sigTrackPhi.push_back(trackPhi); - sigTrackEta.push_back(trackEta); - } + if ((signalTriggerMin <= trackPt) && (trackPt <= signalTriggerMax)) { + sigTrackPhi.push_back(trackPhi); + sigTrackEta.push_back(trackEta); + } - if ((referenceTriggerMin <= trackPt) && (trackPt <= referenceTriggerMax)) { - refTrackPhi.push_back(trackPhi); - refTrackEta.push_back(trackEta); - } - } - spectra.fill(HIST("hRhovsNTracks"), i, rho, weight); - spectra.fill(HIST("hRhovsCentrality"), centralityM, rho, weight); + if ((referenceTriggerMin <= trackPt) && (trackPt <= referenceTriggerMax)) { + refTrackPhi.push_back(trackPhi); + refTrackEta.push_back(trackEta); + } + } + spectra.fill(HIST("hRhovsNTracks"), i, rho, weight); + spectra.fill(HIST("hRhovsCentrality"), centralityM, rho, weight); - float perpConePhi = -99; - float phiTT = -999; // this will trigger track phi - float etaTT = -999; // trigger track eta - float rnd = rand.Rndm(); - bool analyzeSignal = 0; // 0= reference TT and 1= signal TT + float perpConePhi = -99; + float phiTT = -999; // this will trigger track phi + float etaTT = -999; // trigger track eta + float rnd = rand.Rndm(); + bool analyzeSignal = 0; // 0= reference TT and 1= signal TT - if (rnd < sigToRefFraction) { - analyzeSignal = 1; - } + if (rnd < sigToRefFraction) { + analyzeSignal = 1; + } - if (analyzeSignal == 0 && refTrackPhi.size() > 0) { + if (analyzeSignal == 0 && refTrackPhi.size() > 0) { - int ii = rand.Integer(refTrackPhi.size()); - spectra.fill(HIST("hTTCountData"), 0.5, centralityM, weight); - spectra.fill(HIST("hNumberOfReferenceTriggers"), static_cast(refTrackPhi.size()), weight); - phiTT = refTrackPhi[ii]; - etaTT = refTrackEta[ii]; + int ii = rand.Integer(refTrackPhi.size()); + spectra.fill(HIST("hTTCountData"), 0.5, centralityM, weight); + spectra.fill(HIST("hNumberOfReferenceTriggers"), static_cast(refTrackPhi.size()), weight); + phiTT = refTrackPhi[ii]; + etaTT = refTrackEta[ii]; - } else if (analyzeSignal == 1 && sigTrackPhi.size() > 0) { + } else if (analyzeSignal == 1 && sigTrackPhi.size() > 0) { - int ii = rand.Integer(sigTrackPhi.size()); - spectra.fill(HIST("hTTCountData"), 1.5, centralityM, weight); - spectra.fill(HIST("hNumberOfSignalTriggers"), static_cast(sigTrackPhi.size()), weight); - phiTT = sigTrackPhi[ii]; - etaTT = sigTrackEta[ii]; - } + int ii = rand.Integer(sigTrackPhi.size()); + spectra.fill(HIST("hTTCountData"), 1.5, centralityM, weight); + spectra.fill(HIST("hNumberOfSignalTriggers"), static_cast(sigTrackPhi.size()), weight); + phiTT = sigTrackPhi[ii]; + etaTT = sigTrackEta[ii]; + } spectra.fill(HIST("hNumberOfTracks"), i, weight); @@ -974,14 +974,14 @@ struct TrackJetSpectra { } for (const auto& jetDet : detJets) { - if(isJetWithHighPtConstituent(jetDet, tracks)) - continue; - - auto detJetPt = jetDet.pt(); - spectra.fill(HIST("hDetLevelInclusiveJetsPt"), detJetPt, weight); - if (!jetDet.has_matchedJetGeo()) { - spectra.fill(HIST("hFakeInclusiveJetsPt"), detJetPt, weight); - } + if (isJetWithHighPtConstituent(jetDet, tracks)) + continue; + + auto detJetPt = jetDet.pt(); + spectra.fill(HIST("hDetLevelInclusiveJetsPt"), detJetPt, weight); + if (!jetDet.has_matchedJetGeo()) { + spectra.fill(HIST("hFakeInclusiveJetsPt"), detJetPt, weight); + } } } };