From 61bfa9b42ca8f7b475f3a2cc7d0908ccbf315c62 Mon Sep 17 00:00:00 2001 From: ALICE Action Bot Date: Fri, 15 Nov 2024 11:44:35 +0000 Subject: [PATCH] Please consider the following formatting changes --- .../Tasks/ThreeParticleCorrelations.cxx | 72 +++++++++---------- 1 file changed, 36 insertions(+), 36 deletions(-) diff --git a/PWGCF/MultiparticleCorrelations/Tasks/ThreeParticleCorrelations.cxx b/PWGCF/MultiparticleCorrelations/Tasks/ThreeParticleCorrelations.cxx index 09ffbc68135..e14d715f5f9 100644 --- a/PWGCF/MultiparticleCorrelations/Tasks/ThreeParticleCorrelations.cxx +++ b/PWGCF/MultiparticleCorrelations/Tasks/ThreeParticleCorrelations.cxx @@ -25,7 +25,7 @@ using namespace o2::framework::expressions; struct ThreePartCorr { Service CCDB; - + // Histogram registry HistogramRegistry MECorrRegistry{"MECorrRegistry", {}, OutputObjHandlingPolicy::AnalysisObject, false, true}; HistogramRegistry SECorrRegistry{"SECorrRegistry", {}, OutputObjHandlingPolicy::AnalysisObject, false, true}; @@ -84,7 +84,7 @@ struct ThreePartCorr { // Efficiency histograms TH1D** hEffPions = new TH1D*[2]; TH1D** hEffKaons = new TH1D*[2]; - TH1D** hEffProtons = new TH1D*[2]; + TH1D** hEffProtons = new TH1D*[2]; // Correlation variables Int_t T_Sign; @@ -97,7 +97,7 @@ struct ThreePartCorr { void init(InitContext const&) { - + const AxisSpec CentralityAxis{ConfCentBins}; const AxisSpec ZvtxAxis{ConfZvtxBins}; const AxisSpec PhiAxis{36, (-1. / 2) * M_PI, (3. / 2) * M_PI}; @@ -162,7 +162,7 @@ struct ThreePartCorr { hEffKaons[0] = static_cast(EfficiencyList->FindObject("hEfficiencyKaonP")); hEffKaons[1] = static_cast(EfficiencyList->FindObject("hEfficiencyKaonN")); hEffProtons[0] = static_cast(EfficiencyList->FindObject("hEfficiencyProtonP")); - hEffProtons[1] = static_cast(EfficiencyList->FindObject("hEfficiencyProtonN")); + hEffProtons[1] = static_cast(EfficiencyList->FindObject("hEfficiencyProtonN")); } //================================================================================================================================================================================================================ @@ -222,19 +222,19 @@ struct ThreePartCorr { if (CandMass >= massLambda - 4 * DGaussSigma && CandMass <= massLambda + 4 * DGaussSigma) { if (A_PID[0] == 0.0) { // Pions - SECorrRegistry.fill(HIST("hSameLambdaPion_SGNL"), DeltaPhi, DeltaEta, collision.centFT0C(), collision.posZ(), T_Sign, associate.sign(), 1./TrackEff(hEffPions, associate.sign(), associate.pt())); + SECorrRegistry.fill(HIST("hSameLambdaPion_SGNL"), DeltaPhi, DeltaEta, collision.centFT0C(), collision.posZ(), T_Sign, associate.sign(), 1. / TrackEff(hEffPions, associate.sign(), associate.pt())); } else if (A_PID[0] == 1.0) { // Kaons - SECorrRegistry.fill(HIST("hSameLambdaKaon_SGNL"), DeltaPhi, DeltaEta, collision.centFT0C(), collision.posZ(), T_Sign, associate.sign(), 1./TrackEff(hEffKaons, associate.sign(), associate.pt())); + SECorrRegistry.fill(HIST("hSameLambdaKaon_SGNL"), DeltaPhi, DeltaEta, collision.centFT0C(), collision.posZ(), T_Sign, associate.sign(), 1. / TrackEff(hEffKaons, associate.sign(), associate.pt())); } else if (A_PID[0] == 2.0) { // Protons - SECorrRegistry.fill(HIST("hSameLambdaProton_SGNL"), DeltaPhi, DeltaEta, collision.centFT0C(), collision.posZ(), T_Sign, associate.sign(), 1./TrackEff(hEffProtons, associate.sign(), associate.pt())); + SECorrRegistry.fill(HIST("hSameLambdaProton_SGNL"), DeltaPhi, DeltaEta, collision.centFT0C(), collision.posZ(), T_Sign, associate.sign(), 1. / TrackEff(hEffProtons, associate.sign(), associate.pt())); } } else if (CandMass >= massLambda - 8 * DGaussSigma && CandMass <= massLambda + 8 * DGaussSigma) { if (A_PID[0] == 0.0) { // Pions - SECorrRegistry.fill(HIST("hSameLambdaPion_SB"), DeltaPhi, DeltaEta, collision.centFT0C(), collision.posZ(), T_Sign, associate.sign(), 1./TrackEff(hEffPions, associate.sign(), associate.pt())); + SECorrRegistry.fill(HIST("hSameLambdaPion_SB"), DeltaPhi, DeltaEta, collision.centFT0C(), collision.posZ(), T_Sign, associate.sign(), 1. / TrackEff(hEffPions, associate.sign(), associate.pt())); } else if (A_PID[0] == 1.0) { // Kaons - SECorrRegistry.fill(HIST("hSameLambdaKaon_SB"), DeltaPhi, DeltaEta, collision.centFT0C(), collision.posZ(), T_Sign, associate.sign(), 1./TrackEff(hEffKaons, associate.sign(), associate.pt())); + SECorrRegistry.fill(HIST("hSameLambdaKaon_SB"), DeltaPhi, DeltaEta, collision.centFT0C(), collision.posZ(), T_Sign, associate.sign(), 1. / TrackEff(hEffKaons, associate.sign(), associate.pt())); } else if (A_PID[0] == 2.0) { // Protons - SECorrRegistry.fill(HIST("hSameLambdaProton_SB"), DeltaPhi, DeltaEta, collision.centFT0C(), collision.posZ(), T_Sign, associate.sign(), 1./TrackEff(hEffProtons, associate.sign(), associate.pt())); + SECorrRegistry.fill(HIST("hSameLambdaProton_SB"), DeltaPhi, DeltaEta, collision.centFT0C(), collision.posZ(), T_Sign, associate.sign(), 1. / TrackEff(hEffProtons, associate.sign(), associate.pt())); } } } @@ -267,19 +267,19 @@ struct ThreePartCorr { if (CandMass >= massLambda - 4 * DGaussSigma && CandMass <= massLambda + 4 * DGaussSigma) { if (A_PID[0] == 0.0) { // Pions - MECorrRegistry.fill(HIST("hMixLambdaPion_SGNL"), DeltaPhi, DeltaEta, coll_1.centFT0C(), coll_1.posZ(), T_Sign, associate.sign(), 1./TrackEff(hEffPions, associate.sign(), associate.pt())); + MECorrRegistry.fill(HIST("hMixLambdaPion_SGNL"), DeltaPhi, DeltaEta, coll_1.centFT0C(), coll_1.posZ(), T_Sign, associate.sign(), 1. / TrackEff(hEffPions, associate.sign(), associate.pt())); } else if (A_PID[0] == 1.0) { // Kaons - MECorrRegistry.fill(HIST("hMixLambdaKaon_SGNL"), DeltaPhi, DeltaEta, coll_1.centFT0C(), coll_1.posZ(), T_Sign, associate.sign(), 1./TrackEff(hEffKaons, associate.sign(), associate.pt())); + MECorrRegistry.fill(HIST("hMixLambdaKaon_SGNL"), DeltaPhi, DeltaEta, coll_1.centFT0C(), coll_1.posZ(), T_Sign, associate.sign(), 1. / TrackEff(hEffKaons, associate.sign(), associate.pt())); } else if (A_PID[0] == 2.0) { // Protons - MECorrRegistry.fill(HIST("hMixLambdaProton_SGNL"), DeltaPhi, DeltaEta, coll_1.centFT0C(), coll_1.posZ(), T_Sign, associate.sign(), 1./TrackEff(hEffProtons, associate.sign(), associate.pt())); + MECorrRegistry.fill(HIST("hMixLambdaProton_SGNL"), DeltaPhi, DeltaEta, coll_1.centFT0C(), coll_1.posZ(), T_Sign, associate.sign(), 1. / TrackEff(hEffProtons, associate.sign(), associate.pt())); } } else if (CandMass >= massLambda - 8 * DGaussSigma && CandMass <= massLambda + 8 * DGaussSigma) { if (A_PID[0] == 0.0) { // Pions - MECorrRegistry.fill(HIST("hMixLambdaPion_SB"), DeltaPhi, DeltaEta, coll_1.centFT0C(), coll_1.posZ(), T_Sign, associate.sign(), 1./TrackEff(hEffPions, associate.sign(), associate.pt())); + MECorrRegistry.fill(HIST("hMixLambdaPion_SB"), DeltaPhi, DeltaEta, coll_1.centFT0C(), coll_1.posZ(), T_Sign, associate.sign(), 1. / TrackEff(hEffPions, associate.sign(), associate.pt())); } else if (A_PID[0] == 1.0) { // Kaons - MECorrRegistry.fill(HIST("hMixLambdaKaon_SB"), DeltaPhi, DeltaEta, coll_1.centFT0C(), coll_1.posZ(), T_Sign, associate.sign(), 1./TrackEff(hEffKaons, associate.sign(), associate.pt())); + MECorrRegistry.fill(HIST("hMixLambdaKaon_SB"), DeltaPhi, DeltaEta, coll_1.centFT0C(), coll_1.posZ(), T_Sign, associate.sign(), 1. / TrackEff(hEffKaons, associate.sign(), associate.pt())); } else if (A_PID[0] == 2.0) { // Protons - MECorrRegistry.fill(HIST("hMixLambdaProton_SB"), DeltaPhi, DeltaEta, coll_1.centFT0C(), coll_1.posZ(), T_Sign, associate.sign(), 1./TrackEff(hEffProtons, associate.sign(), associate.pt())); + MECorrRegistry.fill(HIST("hMixLambdaProton_SB"), DeltaPhi, DeltaEta, coll_1.centFT0C(), coll_1.posZ(), T_Sign, associate.sign(), 1. / TrackEff(hEffProtons, associate.sign(), associate.pt())); } } } @@ -394,7 +394,7 @@ struct ThreePartCorr { return 0; } - + template Double_t* TrackPID(const TrackCand& Track) { @@ -477,25 +477,25 @@ struct ThreePartCorr { std::array DMomArray; std::array AMomArray = Track.pVector(); if (TrackPID(Track)[0] == 0.0) { - MassArray = {o2::constants::physics::MassProton, o2::constants::physics::MassPionCharged}; - - if (V0Sign(V0) == 1 && Track.sign() == -1) { // Lambda - Pi_min - const auto& dTrack = V0.template posTrack_as(); - DMomArray = dTrack.pVector(); - } else if (V0Sign(V0) == -1 && Track.sign() == 1) { // Antilambda - Pi_plus - const auto& dTrack = V0.template negTrack_as(); - DMomArray = dTrack.pVector(); - } - } else if (TrackPID(Track)[0] == 2.0) { - MassArray = {o2::constants::physics::MassPionCharged, o2::constants::physics::MassProton}; - - if (V0Sign(V0) == 1 && Track.sign() == 1) { // Lambda - Proton - const auto& dTrack = V0.template negTrack_as(); - DMomArray = dTrack.pVector(); - } else if(V0Sign(V0) == -1 && Track.sign() == -1) { // Antilambda - Antiproton - const auto& dTrack = V0.template posTrack_as(); - DMomArray = dTrack.pVector(); - } + MassArray = {o2::constants::physics::MassProton, o2::constants::physics::MassPionCharged}; + + if (V0Sign(V0) == 1 && Track.sign() == -1) { // Lambda - Pi_min + const auto& dTrack = V0.template posTrack_as(); + DMomArray = dTrack.pVector(); + } else if (V0Sign(V0) == -1 && Track.sign() == 1) { // Antilambda - Pi_plus + const auto& dTrack = V0.template negTrack_as(); + DMomArray = dTrack.pVector(); + } + } else if (TrackPID(Track)[0] == 2.0) { + MassArray = {o2::constants::physics::MassPionCharged, o2::constants::physics::MassProton}; + + if (V0Sign(V0) == 1 && Track.sign() == 1) { // Lambda - Proton + const auto& dTrack = V0.template negTrack_as(); + DMomArray = dTrack.pVector(); + } else if (V0Sign(V0) == -1 && Track.sign() == -1) { // Antilambda - Antiproton + const auto& dTrack = V0.template posTrack_as(); + DMomArray = dTrack.pVector(); + } } Double_t M = RecoDecay::m(std::array{DMomArray, AMomArray}, MassArray);