diff --git a/PWGLF/Tasks/Nuspex/spectraTOF.cxx b/PWGLF/Tasks/Nuspex/spectraTOF.cxx index 3901dab7f88..6a7668ee305 100644 --- a/PWGLF/Tasks/Nuspex/spectraTOF.cxx +++ b/PWGLF/Tasks/Nuspex/spectraTOF.cxx @@ -2626,18 +2626,21 @@ struct tofSpectra { // (Keeping your original includeCentralityMC legacy block intact to avoid breaking other parts of your code) if (includeCentralityMC) { for (const auto& collision : collisions) { - if (!collision.has_mcCollision()) continue; + if (!collision.has_mcCollision()) + continue; const auto& mcCollision = collision.mcCollision_as(); const auto& particlesInCollision = mcParticles.sliceByCached(aod::mcparticle::mcCollisionId, mcCollision.globalIndex(), cache); const float multiplicity = getMultiplicity(collision); for (const auto& mcParticle : particlesInCollision) { - if (std::abs(mcParticle.y()) > trkselOptions.cfgCutY) continue; + if (std::abs(mcParticle.y()) > trkselOptions.cfgCutY) + continue; static_for<0, 17>([&](auto i) { fillParticleHistogramsMC(multiplicity, mcParticle); }); } } } else { for (const auto& mcParticle : mcParticles) { - if (std::abs(mcParticle.y()) > trkselOptions.cfgCutY) continue; + if (std::abs(mcParticle.y()) > trkselOptions.cfgCutY) + continue; const auto& mcCollision = mcParticle.mcCollision_as(); const float multiplicity = getMultiplicityMC(mcCollision); static_for<0, 17>([&](auto i) { fillParticleHistogramsMC(multiplicity, mcParticle); }); @@ -2655,10 +2658,12 @@ struct tofSpectra { const auto& particlesInCollision = mcParticles.sliceByCached(aod::mcparticle::mcCollisionId, mcCollision.globalIndex(), cache); if (evselOptions.cfgINELCut.value == 1) { - if (!o2::pwglf::isINELgt0mc(particlesInCollision, pdgDB)) continue; + if (!o2::pwglf::isINELgt0mc(particlesInCollision, pdgDB)) + continue; } if (evselOptions.cfgINELCut.value == 2) { - if (!o2::pwglf::isINELgt1mc(particlesInCollision, pdgDB)) continue; + if (!o2::pwglf::isINELgt1mc(particlesInCollision, pdgDB)) + continue; } // -- Get Actual Reconstructed Centrality -- @@ -2667,7 +2672,8 @@ struct tofSpectra { // -- Calculate True Multiplicity in |eta| < 0.5 -- int trueMultEta05 = 0; for (const auto& mcParticle : particlesInCollision) { - if (!mcParticle.isPhysicalPrimary()) continue; + if (!mcParticle.isPhysicalPrimary()) + continue; auto* pdgParticle = pdgDB->GetParticle(mcParticle.pdgCode()); if (pdgParticle != nullptr && std::abs(pdgParticle->Charge()) > 0.01) { if (std::abs(mcParticle.eta()) < 0.5f) { @@ -2683,7 +2689,8 @@ struct tofSpectra { } for (const auto& mcParticle : particlesInCollision) { - if (std::abs(mcParticle.y()) > trkselOptions.cfgCutY) continue; + if (std::abs(mcParticle.y()) > trkselOptions.cfgCutY) + continue; static_for<0, 17>([&](auto i) { // Pass the actual Reco Centrality to the helper function fillParticleHistogramsMCRecoEvs(mcParticle, collision, recoCentrality); @@ -2704,7 +2711,8 @@ struct tofSpectra { // -- Calculate True Multiplicity in |eta| < 0.5 -- int trueMultEta05 = 0; for (const auto& mcParticle : particlesInCollision) { - if (!mcParticle.isPhysicalPrimary()) continue; + if (!mcParticle.isPhysicalPrimary()) + continue; auto* pdgParticle = pdgDB->GetParticle(mcParticle.pdgCode()); if (pdgParticle != nullptr && std::abs(pdgParticle->Charge()) > 0.01) { if (std::abs(mcParticle.eta()) < 0.5f) { @@ -2716,17 +2724,20 @@ struct tofSpectra { histos.fill(HIST("MC/Multiplicity"), trueMultEta05); if (evselOptions.cfgINELCut.value == EvSelInelGt0Cut) { - if (!o2::pwglf::isINELgt0mc(particlesInCollision, pdgDB)) continue; + if (!o2::pwglf::isINELgt0mc(particlesInCollision, pdgDB)) + continue; } histos.fill(HIST("MC/MultiplicityMCINELgt0"), trueMultEta05); if (evselOptions.cfgINELCut.value == EvSelInelGt1Cut) { - if (!o2::pwglf::isINELgt1mc(particlesInCollision, pdgDB)) continue; + if (!o2::pwglf::isINELgt1mc(particlesInCollision, pdgDB)) + continue; } histos.fill(HIST("MC/MultiplicityMCINELgt1"), trueMultEta05); for (const auto& mcParticle : particlesInCollision) { - if (std::abs(mcParticle.y()) > trkselOptions.cfgCutY) continue; + if (std::abs(mcParticle.y()) > trkselOptions.cfgCutY) + continue; static_for<0, 17>([&](auto i) { // Pass True Multiplicity directly so it plots generated particles against it fillParticleHistogramsMCGenEvs(mcParticle, trueMultEta05);