#include "AliAnalysisTaskSE.h"
#endif
+#include <THn.h>
+#include "TFormula.h"
+#include "AliESDtrackCuts.h"
#include <time.h>
#include <TRandom3.h>
#include "AliGenPythiaEventHeader.h"
#include "AliAnalysisTaskChargedJetsPA.h"
using std::min;
-//TODO: Not accessing the particles when using MC
//TODO: FillHistogram can be done better with virtual TH1(?)
ClassImp(AliAnalysisTaskChargedJetsPA)
AliInfo("Creating histograms.");
#endif
+ SetCurrentOutputList(0);
+
+ // Cuts
TH1D* tmpHisto = AddHistogram1D<TH1D>("hNumberEvents", "Number of events (0 = before cuts, 1 = after cuts)", "", 2, 0, 2, "stage","N^{Events}/cut");
tmpHisto->GetXaxis()->SetBinLabel(1, "Before cuts");
tmpHisto->GetXaxis()->SetBinLabel(2, "After cuts");
-
tmpHisto = AddHistogram1D<TH1D>("hEventAcceptance", "Accepted events (0 = before cuts, 1 = after pile up, 2 = after vertex)", "", 3, 0, 3, "stage","N^{Events}/cut");
tmpHisto->GetXaxis()->SetBinLabel(1, "Before cuts");
tmpHisto->GetXaxis()->SetBinLabel(2, "After pile up");
tmpHisto->GetXaxis()->SetBinLabel(3, "After vertex");
-
tmpHisto = AddHistogram1D<TH1D>("hTrackAcceptance", "Accepted tracks (0 = before cuts, 1 = after eta, 2 = after pT)", "", 3, 0, 3, "stage","N^{Tracks}/cut");
tmpHisto->GetXaxis()->SetBinLabel(1, "Before cuts");
tmpHisto->GetXaxis()->SetBinLabel(2, "After eta");
tmpHisto->GetXaxis()->SetBinLabel(3, "After p_{T}");
-
tmpHisto = AddHistogram1D<TH1D>("hJetAcceptance", "Accepted jets (0 = before cuts, 1 = after eta, 2 = after pT, 3 = after area)", "", 4, 0, 4, "stage","N^{Jets}/cut");
tmpHisto->GetXaxis()->SetBinLabel(1, "Before cuts");
tmpHisto->GetXaxis()->SetBinLabel(2, "After eta");
tmpHisto->GetXaxis()->SetBinLabel(3, "After p_{T}");
tmpHisto->GetXaxis()->SetBinLabel(4, "After area");
-
- // NOTE: Jet histograms
- if (fAnalyzeJets)
+ TH2* tmpHisto2D = AddHistogram2D<TH2D>("hJetPtCutStages", "Jets p_{T} distribution", "", 500, -50., 200., 4, 0, 4, "p_{T} (GeV/c)","Cut stage","dN^{Jets}/dp_{T}");
+ tmpHisto2D->GetYaxis()->SetBinLabel(1, "Before cuts");
+ tmpHisto2D->GetYaxis()->SetBinLabel(2, "After eta");
+ tmpHisto2D->GetYaxis()->SetBinLabel(3, "After p_{T}");
+ tmpHisto2D->GetYaxis()->SetBinLabel(4, "After area");
+
+ AddHistogram1D<TH1D>("hVertexX", "X distribution of the vertex", "", 2000, -1., 1., "#Delta x(cm)","dN^{Events}/dx");
+ AddHistogram1D<TH1D>("hVertexY", "Y distribution of the vertex", "", 2000, -1., 1., "#Delta y(cm)","dN^{Events}/dy");
+ AddHistogram2D<TH2D>("hVertexXY", "XY distribution of the vertex", "COLZ", 500, -1., 1., 500, -1., 1.,"#Delta x(cm)", "#Delta y(cm)","dN^{Events}/dxdy");
+ AddHistogram1D<TH1D>("hVertexZBeforeVertexCut", "Z distribution of the vertex (before std. vertex cut)", "", 200, -20., 20., "#Delta z(cm)","dN^{Events}/dz");
+ AddHistogram1D<TH1D>("hVertexZAfterVertexCut", "Z distribution of the vertex (after std. vertex cut)", "", 200, -20., 20., "#Delta z(cm)","dN^{Events}/dz");
+ AddHistogram1D<TH1D>("hVertexR", "R distribution of the vertex", "", 100, 0., 1., "#Delta r(cm)","dN^{Events}/dr");
+ AddHistogram1D<TH1D>("hCentralityV0M", "Centrality distribution V0M", "", fNumberOfCentralityBins, 0., 100., "Centrality","dN^{Events}");
+ AddHistogram1D<TH1D>("hCentralityV0A", "Centrality distribution V0A", "", fNumberOfCentralityBins, 0., 100., "Centrality","dN^{Events}");
+ AddHistogram1D<TH1D>("hCentralityV0C", "Centrality distribution V0C", "", fNumberOfCentralityBins, 0., 100., "Centrality","dN^{Events}");
+ AddHistogram1D<TH1D>("hCentralityZNA", "Centrality distribution ZNA", "", fNumberOfCentralityBins, 0., 100., "Centrality","dN^{Events}");
+ AddHistogram1D<TH1D>("hCentrality", Form("Centrality distribution %s", fCentralityType.Data()), "", fNumberOfCentralityBins, 0., 100., "Centrality","dN^{Events}");
+
+ if(fDoJetAnalysis)
{
- // ######## Jet spectra
- AddHistogram1D<TH1D>("hRawJetPt", "Raw jets p_{T} distribution (before cuts)", "", 500, 0., 250., "p_{T} (GeV/c)", "dN^{Jets}/dp_{T}");
- AddHistogram2D<TH2D>("hJetPt", "Jets p_{T} distribution", "", 500, -50., 200., fNumberOfCentralityBins, 0, 100, "p_{T} (GeV/c)","Centrality","dN^{Jets}/dp_{T}");
- AddHistogram2D<TH2D>("hJetPtBgrdSubtractedKTImprovedCMS", "Jets p_{T} distribution, KT background (Improved CMS) subtracted", "", 500, -50., 200., fNumberOfCentralityBins, 0, 100, "p_{T} (GeV/c)","Centrality","dN^{Jets}/dp_{T}");
- AddHistogram2D<TH2D>("hJetPtBgrdSubtractedKTImprovedCMS_Phi1", "Jets p_{T} distribution, KT background (Improved CMS) subtracted (1st part of azimuth)", "", 500, -50., 200., fNumberOfCentralityBins, 0, 100, "p_{T} (GeV/c)","Centrality","dN^{Jets}/dp_{T}");
- AddHistogram2D<TH2D>("hJetPtBgrdSubtractedKTImprovedCMS_Phi2", "Jets p_{T} distribution, KT background (Improved CMS) subtracted (2nd part of azimuth)", "", 500, -50., 200., fNumberOfCentralityBins, 0, 100, "p_{T} (GeV/c)","Centrality","dN^{Jets}/dp_{T}");
-
- AddHistogram2D<TH2D>("hJetPtBgrdSubtractedPP", "Jets p_{T} distribution, pp background subtracted", "", 500, -50., 200., fNumberOfCentralityBins, 0, 100, "p_{T} (GeV/c)","Centrality","dN^{Jets}/dp_{T}");
+ // Background corrected jet spectra
AddHistogram2D<TH2D>("hJetPtBgrdSubtractedExternal", "Jets p_{T} distribution, external bgrd. subtracted", "", 500, -50., 200., fNumberOfCentralityBins, 0, 100, "p_{T} (GeV/c)","Centrality","dN^{Jets}/dp_{T}");
+ AddHistogram2D<TH2D>("hJetPtBgrdSubtractedPP", "Jets p_{T} distribution, pp background subtracted", "", 500, -50., 200., fNumberOfCentralityBins, 0, 100, "p_{T} (GeV/c)","Centrality","dN^{Jets}/dp_{T}");
+ AddHistogram2D<TH2D>("hJetPtBgrdSubtractedExternal_Phi1", "Jets p_{T} distribution, external background (Improved CMS) subtracted (1st part of azimuth)", "", 500, -50., 200., fNumberOfCentralityBins, 0, 100, "p_{T} (GeV/c)","Centrality","dN^{Jets}/dp_{T}");
+ AddHistogram2D<TH2D>("hJetPtBgrdSubtractedExternal_Phi2", "Jets p_{T} distribution, external background (Improved CMS) subtracted (2nd part of azimuth)", "", 500, -50., 200., fNumberOfCentralityBins, 0, 100, "p_{T} (GeV/c)","Centrality","dN^{Jets}/dp_{T}");
+ AddHistogram2D<TH2D>("hJetPtBgrdSubtractedKTImprovedCMS", "Jets p_{T} distribution, KT background (Improved CMS) subtracted", "", 500, -50., 200., fNumberOfCentralityBins, 0, 100, "p_{T} (GeV/c)","Centrality","dN^{Jets}/dp_{T}");
+ AddHistogram2D<TH2D>("hJetPtBgrdSubtractedTR", "Jets p_{T} distribution, TR background (Cone R=0.6 around jets excluded) subtracted", "", 500, -50., 200., fNumberOfCentralityBins, 0, 100, "p_{T} (GeV/c)","Centrality","dN^{Jets}/dp_{T}");
+ AddHistogram2D<TH2D>("hJetPtBgrdSubtractedKTPbPb", "Jets p_{T} distribution, KT background (PbPb w/o ghosts) subtracted", "", 500, -50., 200., fNumberOfCentralityBins, 0, 100, "p_{T} (GeV/c)","Centrality","dN^{Jets}/dp_{T}");
+ AddHistogram2D<TH2D>("hJetPtBgrdSubtractedKTPbPbWithGhosts", "Jets p_{T} distribution, KT background (PbPb w/ ghosts) subtracted", "", 500, -50., 200., fNumberOfCentralityBins, 0, 100, "p_{T} (GeV/c)","Centrality","dN^{Jets}/dp_{T}");
+ AddHistogram2D<TH2D>("hJetPtBgrdSubtractedKTCMS", "Jets p_{T} distribution, KT background (CMS) subtracted", "", 500, -50., 200., fNumberOfCentralityBins, 0, 100, "p_{T} (GeV/c)","Centrality","dN^{Jets}/dp_{T}");
+ AddHistogram2D<TH2D>("hJetPtBgrdSubtractedKTMean", "Jets p_{T} distribution, KT background (Mean) subtracted", "", 500, -50., 200., fNumberOfCentralityBins, 0, 100, "p_{T} (GeV/c)","Centrality","dN^{Jets}/dp_{T}");
+ AddHistogram2D<TH2D>("hJetPtBgrdSubtractedKTTrackLike", "Jets p_{T} distribution, KT background (track-like) subtracted", "", 500, -50., 200., fNumberOfCentralityBins, 0, 100, "p_{T} (GeV/c)","Centrality","dN^{Jets}/dp_{T}");
-
-
- AddHistogram2D<TProfile2D>("hJetPtSubtractedRhoKTImprovedCMS", "Mean subtracted KT (CMS w/o signal) background from jets", "COLZ", 600, 0, 150, fNumberOfCentralityBins, 0, 100, "Jet p_{T}", "Centrality", "#rho mean");
AddHistogram2D<TProfile2D>("hJetPtSubtractedRhoExternal", "Mean subtracted KT (External) background from jets", "COLZ", 600, 0, 150, fNumberOfCentralityBins, 0, 100, "Jet p_{T}", "Centrality", "#rho mean");
+ AddHistogram2D<TProfile2D>("hJetPtSubtractedRhoKTImprovedCMS", "Mean subtracted KT (CMS w/o signal) background from jets", "COLZ", 600, 0, 150, fNumberOfCentralityBins, 0, 100, "Jet p_{T}", "Centrality", "#rho mean");
AddHistogram2D<TProfile2D>("hJetPtSubtractedRhoPP", "Mean subtracted KT (pp from Michal) background from jets", "COLZ", 600, 0, 150, fNumberOfCentralityBins, 0, 100, "Jet p_{T}", "Centrality", "#rho mean");
- if(fAnalyzeDeprecatedBackgrounds)
- {
- AddHistogram2D<TH2D>("hJetPtBgrdSubtractedTR", "Jets p_{T} distribution, TR background (Cone R=0.6 around jets excluded) subtracted", "", 500, -50., 200., fNumberOfCentralityBins, 0, 100, "p_{T} (GeV/c)","Centrality","dN^{Jets}/dp_{T}");
- AddHistogram2D<TH2D>("hJetPtBgrdSubtractedKTPbPb", "Jets p_{T} distribution, KT background (PbPb w/o ghosts) subtracted", "", 500, -50., 200., fNumberOfCentralityBins, 0, 100, "p_{T} (GeV/c)","Centrality","dN^{Jets}/dp_{T}");
- AddHistogram2D<TH2D>("hJetPtBgrdSubtractedKTPbPbWithGhosts", "Jets p_{T} distribution, KT background (PbPb w/ ghosts) subtracted", "", 500, -50., 200., fNumberOfCentralityBins, 0, 100, "p_{T} (GeV/c)","Centrality","dN^{Jets}/dp_{T}");
- AddHistogram2D<TH2D>("hJetPtBgrdSubtractedKTCMS", "Jets p_{T} distribution, KT background (CMS) subtracted", "", 500, -50., 200., fNumberOfCentralityBins, 0, 100, "p_{T} (GeV/c)","Centrality","dN^{Jets}/dp_{T}");
- AddHistogram2D<TH2D>("hJetPtBgrdSubtractedKTMean", "Jets p_{T} distribution, KT background (Mean) subtracted", "", 500, -50., 200., fNumberOfCentralityBins, 0, 100, "p_{T} (GeV/c)","Centrality","dN^{Jets}/dp_{T}");
- AddHistogram2D<TH2D>("hJetPtBgrdSubtractedKTTrackLike", "Jets p_{T} distribution, KT background (track-like) subtracted", "", 500, -50., 200., fNumberOfCentralityBins, 0, 100, "p_{T} (GeV/c)","Centrality","dN^{Jets}/dp_{T}");
- }
-
- // ######## Jet profiles
- if(fAnalyzeJetProfile)
- {
- AddHistogram2D<TH2D>("hJetProfile10GeV", "Jet profile, cone p_{T}/jet p_{T} vs. jet radius, jet p_{T} > 10 GeV", "", 12, 0, 0.6,200, 0., 2., "Cone radius","dN^{Jets}/dR", "Ratio");
- AddHistogram2D<TH2D>("hJetProfile20GeV", "Jet profile, cone p_{T}/jet p_{T} vs. jet radius, jet p_{T} > 20 GeV", "", 12, 0, 0.6,200, 0., 2., "Cone radius","dN^{Jets}/dR", "Ratio");
- AddHistogram2D<TH2D>("hJetProfile30GeV", "Jet profile, cone p_{T}/jet p_{T} vs. jet radius, jet p_{T} > 30 GeV", "", 12, 0, 0.6,200, 0., 2., "Cone radius","dN^{Jets}/dR", "Ratio");
- AddHistogram2D<TH2D>("hJetProfile40GeV", "Jet profile, cone p_{T}/jet p_{T} vs. jet radius, jet p_{T} > 40 GeV", "", 12, 0, 0.6,200, 0., 2., "Cone radius","dN^{Jets}/dR", "Ratio");
- AddHistogram2D<TH2D>("hJetProfile50GeV", "Jet profile, cone p_{T}/jet p_{T} vs. jet radius, jet p_{T} > 50 GeV", "", 12, 0, 0.6,200, 0., 2., "Cone radius","dN^{Jets}/dR", "Ratio");
- AddHistogram2D<TH2D>("hJetProfile60GeV", "Jet profile, cone p_{T}/jet p_{T} vs. jet radius, jet p_{T} > 60 GeV", "", 12, 0, 0.6,200, 0., 2., "Cone radius","dN^{Jets}/dR", "Ratio");
- AddHistogram2D<TH2D>("hJetProfile70GeV", "Jet profile, cone p_{T}/jet p_{T} vs. jet radius, jet p_{T} > 70 GeV", "", 12, 0, 0.6,200, 0., 2., "Cone radius","dN^{Jets}/dR", "Ratio");
- }
- // ######## Jet stuff
+ // Jet QA plots
AddHistogram2D<TH2D>("hJetConstituentPt", "Jet constituents p_{T} distribution", "", 500, -50., 200., fNumberOfCentralityBins, 0, 100, "p_{T} (GeV/c)","Centrality","dN^{Tracks}/dp_{T}");
+ AddHistogram2D<TH2D>("hJetConstituentPtVsJetPt", "Jet constituents p_{T} distribution", "", 500, -50., 200., 200, 0, 200, "#it{p}_{T} (GeV/c)","#it{p}_{T}^{jet} (GeV/c)","dN^{Tracks}/dp_{T}");
AddHistogram1D<TH1D>("hJetCountAll", "Number of Jets", "", 200, 0., 200., "N jets","dN^{Events}/dN^{Jets}");
AddHistogram1D<TH1D>("hJetCountAccepted", "Number of accepted Jets", "", 200, 0., 200., "N jets","dN^{Events}/dN^{Jets}");
AddHistogram2D<TH2D>("hJetCount", "Correlation jets/accepted jets", "", 200, 0., 200., 200, 0., 200., "N jets","N jets accepted", "d^{2}N^{Events}/dN^{Jets dN^{Jets, acc}}");
AddHistogram1D<TH1D>("hCorrectedSecondLeadingJetPt", "Corrected second leading jet p_{T}", "", 500, -50., 200., "p_{T} (GeV/c)","dN^{Jets}/dp_{T}");
AddHistogram1D<TH1D>("hJetDeltaPhi", "Jets combinatorial #Delta #phi", "", 250, 0., TMath::Pi(), "#Delta #phi","dN^{Jets}/d(#Delta #phi)");
AddHistogram1D<TH1D>("hLeadingJetDeltaPhi", "1st and 2nd leading jet #Delta #phi", "", 250, 0., TMath::Pi(), "#Delta #phi","dN^{Jets}/d(#Delta #phi)");
- }
- // NOTE: Jet background histograms
- if (fAnalyzeBackground)
- {
- // ########## Default background estimates
+ // Background distributions
+ AddHistogram2D<TH2D>("hKTBackgroundExternal", "KT background density (External task)", "LEGO2", 400, 0., 40., fNumberOfCentralityBins, 0, 100, "#rho (GeV/c)","Centrality", "dN^{Events}/d#rho");
+ AddHistogram2D<TH2D>("hKTBackgroundExternal20GeV", "KT background density (External task, jet p_{T} > 20 GeV)", "LEGO2", 400, 0., 40., fNumberOfCentralityBins, 0, 100, "#rho (GeV/c)","Centrality", "dN^{Events}/d#rho");
AddHistogram2D<TH2D>("hKTBackgroundImprovedCMS", "KT background density (Improved CMS approach)", "LEGO2", 400, 0., 40., fNumberOfCentralityBins, 0, 100, "#rho (GeV/c)","Centrality", "dN^{Events}/d#rho");
- AddHistogram2D<TH2D>("hKTBackgroundImprovedCMSExternal", "KT background density (Improved CMS approach from external task)", "LEGO2", 400, 0., 40., fNumberOfCentralityBins, 0, 100, "#rho (GeV/c)","Centrality", "dN^{Events}/d#rho");
AddHistogram2D<TH2D>("hPPBackground", "PP background density (Michals approach)", "LEGO2", 400, 0., 40., fNumberOfCentralityBins, 0, 100, "#rho (GeV/c)","Centrality", "dN^{Events}/d#rho");
-
- AddHistogram2D<TH2D>("hDeltaPtExternalBgrd", "Background fluctuations #delta p_{T} (KT, External)", "", 1201, -40.0, 40.0, fNumberOfCentralityBins, 0, 100, "#delta p_{T} (GeV/c)","Centrality","dN^{Jets}/d#delta p_{T}");
- AddHistogram2D<TH2D>("hDeltaPtKTImprovedCMS", "Background fluctuations #delta p_{T} (KT, Improved CMS-like)", "", 1201, -40.0, 40.0, fNumberOfCentralityBins, 0, 100, "#delta p_{T} (GeV/c)","Centrality","dN^{Jets}/d#delta p_{T}");
- AddHistogram2D<TH2D>("hDeltaPtKTImprovedCMSPartialExclusion", "Background fluctuations #delta p_{T} (KT, Improved CMS-like, partial jet exclusion)", "", 1201, -40.0, 40.0, fNumberOfCentralityBins, 0, 100, "#delta p_{T} (GeV/c)","Centrality","dN^{Jets}/d#delta p_{T}");
- AddHistogram2D<TH2D>("hDeltaPtKTImprovedCMSPartialExclusion_Signal", "Background fluctuations #delta p_{T} (KT, Improved CMS-like, partial jet exclusion w/ 1/N_{sig} probability)", "", 1201, -40.0, 40.0, fNumberOfCentralityBins, 0, 100, "#delta p_{T} (GeV/c)","Centrality","dN^{Jets}/d#delta p_{T}");
- AddHistogram2D<TH2D>("hDeltaPtKTImprovedCMSFullExclusion", "Background fluctuations #delta p_{T} (KT, Improved CMS-like, full leading jet exclusion)", "", 1201, -40.0, 40.0, fNumberOfCentralityBins, 0, 100, "#delta p_{T} (GeV/c)","Centrality","dN^{Jets}/d#delta p_{T}");
- AddHistogram2D<TH2D>("hDeltaPtNoBackground", "Background fluctuations #delta p_{T} (No background)", "", 1201, -40.0, 40.0, fNumberOfCentralityBins, 0, 100, "#delta p_{T} (GeV/c)","Centrality","dN^{Jets}/d#delta p_{T}");
-
- AddHistogram1D<TProfile>("hKTMeanBackgroundImprovedCMS", "KT background mean (Improved CMS approach)", "", 100, 0, 100, "Centrality", "#rho mean");
-
- if(fAnalyzeDeprecatedBackgrounds)
- {
- // ########## Different background estimates
- AddHistogram2D<TH2D>("hKTBackgroundPbPb", "KT background density (PbPb approach, no ghosts)", "LEGO2", 400, 0., 40., fNumberOfCentralityBins, 0, 100, "#rho (GeV/c)","Centrality", "dN^{Events}/d#rho");
- AddHistogram2D<TH2D>("hKTBackgroundPbPbWithGhosts", "KT background density (PbPb approach w/ ghosts)", "LEGO2", 400, 0., 40., fNumberOfCentralityBins, 0, 100, "#rho (GeV/c)","Centrality", "dN^{Events}/d#rho");
- AddHistogram2D<TH2D>("hKTBackgroundCMS", "KT background density (CMS approach)", "LEGO2", 400, 0., 40., fNumberOfCentralityBins, 0, 100, "#rho (GeV/c)","Centrality", "dN^{Events}/d#rho");
- AddHistogram2D<TH2D>("hKTBackgroundMean", "KT background density (Mean approach)", "LEGO2", 400, 0., 40., fNumberOfCentralityBins, 0, 100, "#rho (GeV/c)","Centrality", "dN^{Events}/d#rho");
- AddHistogram2D<TH2D>("hKTBackgroundTrackLike", "KT background density (Track-like approach)", "LEGO2", 400, 0., 40., fNumberOfCentralityBins, 0, 100, "#rho (GeV/c)","Centrality", "dN^{Events}/d#rho");
-
- AddHistogram2D<TH2D>("hTRBackgroundNoExcl", "TR background density (No signal excluded)", "LEGO2", 400, 0., 40., fNumberOfCentralityBins, 0, 100, "#rho (GeV/c)","Centrality", "dN^{Events}/d#rho");
- AddHistogram2D<TH2D>("hTRBackgroundCone02", "TR background density (Cones R=0.2 around signal jets excluded)", "LEGO2", 400, 0., 40., fNumberOfCentralityBins, 0, 100, "#rho (GeV/c)","Centrality", "dN^{Events}/d#rho");
- AddHistogram2D<TH2D>("hTRBackgroundCone04", "TR background density (Cones R=0.4 around signal jets excluded)", "LEGO2", 400, 0., 40., fNumberOfCentralityBins, 0, 100, "#rho (GeV/c)","Centrality", "dN^{Events}/d#rho");
- AddHistogram2D<TH2D>("hTRBackgroundCone06", "TR background density (Cones R=0.6 around signal jets excluded)", "LEGO2", 400, 0., 40., fNumberOfCentralityBins, 0, 100, "#rho (GeV/c)","Centrality", "dN^{Events}/d#rho");
- AddHistogram2D<TH2D>("hTRBackgroundCone08", "TR background density (Cones R=0.8 around signal jets excluded)", "LEGO2", 400, 0., 40., fNumberOfCentralityBins, 0, 100, "#rho (GeV/c)","Centrality", "dN^{Events}/d#rho");
- AddHistogram2D<TH2D>("hTRBackgroundExact", "TR background density (signal jets exactly excluded)", "LEGO2", 400, 0., 40., fNumberOfCentralityBins, 0, 100, "#rho (GeV/c)","Centrality", "dN^{Events}/d#rho");
-
- // ########## Delta Pt
- AddHistogram2D<TH2D>("hDeltaPtKTPbPb", "Background fluctuations #delta p_{T} (KT, PbPb w/o ghosts)", "", 1201, -40.0, 40.0, fNumberOfCentralityBins, 0, 100, "#delta p_{T} (GeV/c)","Centrality","dN^{Jets}/d#delta p_{T}");
- AddHistogram2D<TH2D>("hDeltaPtKTPbPbWithGhosts", "Background fluctuations #delta p_{T} (KT, PbPb w/ ghosts)", "", 1201, -40.0, 40.0, fNumberOfCentralityBins, 0, 100, "#delta p_{T} (GeV/c)","Centrality","dN^{Jets}/d#delta p_{T}");
- AddHistogram2D<TH2D>("hDeltaPtKTCMS", "Background fluctuations #delta p_{T} (KT, CMS-like)", "", 1201, -40.0, 40.0, fNumberOfCentralityBins, 0, 100, "#delta p_{T} (GeV/c)","Centrality","dN^{Jets}/d#delta p_{T}");
- AddHistogram2D<TH2D>("hDeltaPtKTMean", "Background fluctuations #delta p_{T} (KT, Mean)", "", 1201, -40.0, 40.0, fNumberOfCentralityBins, 0, 100, "#delta p_{T} (GeV/c)","Centrality","dN^{Jets}/d#delta p_{T}");
- AddHistogram2D<TH2D>("hDeltaPtKTTrackLike", "Background fluctuations #delta p_{T} (KT, track-like)", "", 1201, -40.0, 40.0, fNumberOfCentralityBins, 0, 100, "#delta p_{T} (GeV/c)","Centrality","dN^{Jets}/d#delta p_{T}");
- AddHistogram2D<TH2D>("hDeltaPtTR", "Background fluctuations #delta p_{T} (TR, cone R=0.6)", "", 1201, -40.0, 40.0, fNumberOfCentralityBins, 0, 100, "#delta p_{T} (GeV/c)","Centrality","dN^{Jets}/d#delta p_{T}");
-
- // ########## Profiles for background means vs. centrality
- AddHistogram1D<TProfile>("hKTMeanBackgroundPbPb", "KT background mean (PbPb approach w/o ghosts)", "", fNumberOfCentralityBins, 0, 100, "Centrality", "#rho mean");
- AddHistogram1D<TProfile>("hKTMeanBackgroundPbPbWithGhosts", "KT background mean (PbPb approach)", "", fNumberOfCentralityBins, 0, 100, "Centrality", "#rho mean");
- AddHistogram1D<TProfile>("hKTMeanBackgroundCMS", "KT background mean (CMS approach)", "", fNumberOfCentralityBins, 0, 100, "Centrality", "#rho mean");
- AddHistogram1D<TProfile>("hKTMeanBackgroundMean", "KT background mean (Mean approach)", "", fNumberOfCentralityBins, 0, 100, "Centrality", "#rho mean");
- AddHistogram1D<TProfile>("hKTMeanBackgroundTPC", "KT background mean (Track-like approach)", "", fNumberOfCentralityBins, 0, 100, "Centrality", "#rho mean");
- AddHistogram1D<TProfile>("hTRMeanBackground", "TR background mean", "", fNumberOfCentralityBins, 0, 100, "Centrality", "#rho mean");
- }
- }
- // NOTE: Jet constituent correlations
- if(fAnalyzeMassCorrelation)
- {
- AddHistogram1D<TH1D>("hJetMassFromConstituents", "Jet mass by mass of charged constituents", "", 200, 0., 200., "N jets","dN^{Jets}/dN^{mass}");
- AddHistogram1D<TH1D>("hJetMass", "Jet mass from fastjet", "", 200, 0., 200., "N jets","dN^{Jets}/dN^{mass}");
-
- AddHistogram2D<TH2D>("hJetPtVsMass", "Correlation jet pt/summed constituent jet", "", 400, 0., 100., 400, 0., 100., "p_{T}","Mass", "d^{2}N}/dN^{p_{T}dM");
- AddHistogram2D<TH2D>("hJetPtVsJetMass", "Correlation jet pt/summed jet", "", 400, 0., 100., 400, 0., 100., "p_{T}","Mass", "d^{2}N}/dN^{p_{T}dM");
-
- AddHistogram2D<TH2D>("hJetPtVsProtonCount", "Correlation jet pt/amount of proton in jet", "", 400, 0., 100., 20, 0., 1., "p_{T}","Proton percentage", "d^{2}N}/dN^{p_{T}dPercentage");
- AddHistogram2D<TH2D>("hJetPtVsPionCount", "Correlation jet pt/amount of pion in jet", "", 400, 0., 100., 20, 0., 1., "p_{T}","Pion percentage", "d^{2}N}/dN^{p_{T}dPercentage");
- AddHistogram2D<TH2D>("hJetPtVsKaonCount", "Correlation jet pt/amount of kaon in jet", "", 400, 0., 100., 20, 0., 1., "p_{T}","Kaon percentage", "d^{2}N}/dN^{p_{T}dPercentage");
- AddHistogram2D<TH2D>("hJetPtVsElectronCount", "Correlation jet pt/amount of proton in jet", "", 400, 0., 100., 20, 0., 1., "p_{T}","Electron percentage", "d^{2}N}/dN^{p_{T}dPercentage");
- AddHistogram2D<TH2D>("hJetPtVsOthersCount", "Correlation jet pt/amount of other particles in jet", "", 400, 0., 100., 20, 0., 1., "p_{T}","Others percentage", "d^{2}N}/dN^{p_{T}dPercentage");
- AddHistogram1D<TH1D>("hJetConstituentProtonCount", "Proton count in jets", "", 100, 0., 100., "N protons","dN^{Jets}/dN^{protons}");
- AddHistogram1D<TH1D>("hJetConstituentPionCount", "Pion count in jets", "", 100, 0., 100., "N pions","dN^{Jets}/dN^{pions}");
- AddHistogram1D<TH1D>("hJetConstituentKaonCount", "Kaon count in jets", "", 100, 0., 100., "N kaons","dN^{Jets}/dN^{kaons}");
- AddHistogram1D<TH1D>("hJetConstituentElectronCount", "Electron count in jets", "", 100, 0., 100., "N electrons","dN^{Jets}/dN^{electrons}");
- AddHistogram1D<TH1D>("hJetConstituentOthersCount", "Others count in jets", "", 100, 0., 100., "N others","dN^{Jets}/dN^{others}");
-
- AddHistogram2D<TH2D>("hJetPtVsMass_6_14", "Correlation jet pt/summed constituent jet", "", 400, 0., 100., 400, 0., 100., "p_{T}","Mass", "d^{2}N}/dN^{p_{T}dM");
- AddHistogram2D<TH2D>("hJetPtVsJetMass_6_14", "Correlation jet pt/summed jet", "", 400, 0., 100., 400, 0., 100., "p_{T}","Mass", "d^{2}N}/dN^{p_{T}dM");
- AddHistogram2D<TH2D>("hJetPtVsProtonCount_6_14", "Correlation jet pt/amount of proton in jet", "", 400, 0., 100., 8, 6., 14., "p_{T}","Proton count", "d^{2}N}/dN^{p_{T}dN");
- AddHistogram2D<TH2D>("hJetPtVsPionCount_6_14", "Correlation jet pt/amount of pion in jet", "", 400, 0., 100., 8, 6., 14., "p_{T}","Pion count", "d^{2}N}/dN^{p_{T}dN");
- AddHistogram2D<TH2D>("hJetPtVsKaonCount_6_14", "Correlation jet pt/amount of kaon in jet", "", 400, 0., 100., 8, 6., 14., "p_{T}","Kaon count", "d^{2}N}/dN^{p_{T}dN");
- AddHistogram2D<TH2D>("hJetPtVsElectronCount_6_14", "Correlation jet pt/amount of proton in jet", "", 400, 0., 100., 8, 6., 14., "p_{T}","Electron count", "d^{2}N}/dN^{p_{T}dN");
- AddHistogram2D<TH2D>("hJetPtVsOthersCount_6_14", "Correlation jet pt/amount of other particles in jet", "", 400, 0., 100., 8, 6., 14., "p_{T}","Others count", "d^{2}N}/dN^{p_{T}dN");
- AddHistogram1D<TH1D>("hJetConstituentProtonCount_6_14", "Proton count in jets", "", 100, 0., 100., "N protons","dN^{Jets}/dN^{protons}");
- AddHistogram1D<TH1D>("hJetConstituentPionCount_6_14", "Pion count in jets", "", 100, 0., 100., "N pions","dN^{Jets}/dN^{pions}");
- AddHistogram1D<TH1D>("hJetConstituentKaonCount_6_14", "Kaon count in jets", "", 100, 0., 100., "N kaons","dN^{Jets}/dN^{kaons}");
- AddHistogram1D<TH1D>("hJetConstituentElectronCount_6_14", "Electron count in jets", "", 100, 0., 100., "N electrons","dN^{Jets}/dN^{electrons}");
- AddHistogram1D<TH1D>("hJetConstituentOthersCount_6_14", "Others count in jets", "", 100, 0., 100., "N others","dN^{Jets}/dN^{others}");
-
- AddHistogram2D<TH2D>("hJetPtVsMass_2_X", "Correlation jet pt/summed constituent jet", "", 400, 0., 100., 400, 0., 100., "p_{T}","Mass", "d^{2}N}/dN^{p_{T}dM");
- AddHistogram2D<TH2D>("hJetPtVsJetMass_2_X", "Correlation jet pt/summed jet", "", 400, 0., 100., 400, 0., 100., "p_{T}","Mass", "d^{2}N}/dN^{p_{T}dM");
- AddHistogram2D<TH2D>("hJetPtVsProtonCount_2_X", "Correlation jet pt/amount of proton in jet", "", 400, 0., 100., 68, 2., 70., "p_{T}","Proton count", "d^{2}N}/dN^{p_{T}dN");
- AddHistogram2D<TH2D>("hJetPtVsPionCount_2_X", "Correlation jet pt/amount of pion in jet", "", 400, 0., 100., 68, 2., 70., "p_{T}","Pion count", "d^{2}N}/dN^{p_{T}dN");
- AddHistogram2D<TH2D>("hJetPtVsKaonCount_2_X", "Correlation jet pt/amount of kaon in jet", "", 400, 0., 100., 68, 2., 70., "p_{T}","Kaon count", "d^{2}N}/dN^{p_{T}dN");
- AddHistogram2D<TH2D>("hJetPtVsElectronCount_2_X", "Correlation jet pt/amount of proton in jet", "", 400, 0., 100., 68, 2., 70., "p_{T}","Electron count", "d^{2}N}/dN^{p_{T}dN");
- AddHistogram2D<TH2D>("hJetPtVsOthersCount_2_X", "Correlation jet pt/amount of other particles in jet", "", 400, 0., 100., 68, 2., 70., "p_{T}","Others count", "d^{2}N}/dN^{p_{T}dN");
- AddHistogram1D<TH1D>("hJetConstituentProtonCount_2_X", "Proton count in jets", "", 100, 0., 100., "N protons","dN^{Jets}/dN^{protons}");
- AddHistogram1D<TH1D>("hJetConstituentPionCount_2_X", "Pion count in jets", "", 100, 0., 100., "N pions","dN^{Jets}/dN^{pions}");
- AddHistogram1D<TH1D>("hJetConstituentKaonCount_2_X", "Kaon count in jets", "", 100, 0., 100., "N kaons","dN^{Jets}/dN^{kaons}");
- AddHistogram1D<TH1D>("hJetConstituentElectronCount_2_X", "Electron count in jets", "", 100, 0., 100., "N electrons","dN^{Jets}/dN^{electrons}");
- AddHistogram1D<TH1D>("hJetConstituentOthersCount_2_X", "Others count in jets", "", 100, 0., 100., "N others","dN^{Jets}/dN^{others}");
-
- AddHistogram2D<TH2D>("hJetPtVsMass_2_7", "Correlation jet pt/summed constituent jet", "", 400, 0., 100., 400, 0., 100., "p_{T}","Mass", "d^{2}N}/dN^{p_{T}dM");
- AddHistogram2D<TH2D>("hJetPtVsJetMass_2_7", "Correlation jet pt/summed jet", "", 400, 0., 100., 400, 0., 100., "p_{T}","Mass", "d^{2}N}/dN^{p_{T}dM");
- AddHistogram2D<TH2D>("hJetPtVsProtonCount_2_7", "Correlation jet pt/amount of proton in jet", "", 400, 0., 100., 6, 2., 8., "p_{T}","Proton count", "d^{2}N}/dN^{p_{T}dN");
- AddHistogram2D<TH2D>("hJetPtVsPionCount_2_7", "Correlation jet pt/amount of pion in jet", "", 400, 0., 100., 6, 2., 8., "p_{T}","Pion count", "d^{2}N}/dN^{p_{T}dN");
- AddHistogram2D<TH2D>("hJetPtVsKaonCount_2_7", "Correlation jet pt/amount of kaon in jet", "", 400, 0., 100., 6, 2., 8., "p_{T}","Kaon count", "d^{2}N}/dN^{p_{T}dN");
- AddHistogram2D<TH2D>("hJetPtVsElectronCount_2_7", "Correlation jet pt/amount of proton in jet", "", 400, 0., 100., 6, 2., 8., "p_{T}","Electron count", "d^{2}N}/dN^{p_{T}dN");
- AddHistogram2D<TH2D>("hJetPtVsOthersCount_2_7", "Correlation jet pt/amount of other particles in jet", "", 400, 0., 100., 6, 2., 8., "p_{T}","Others count", "d^{2}N}/dN^{p_{T}dN");
- AddHistogram1D<TH1D>("hJetConstituentProtonCount_2_7", "Proton count in jets", "", 100, 0., 100., "N protons","dN^{Jets}/dN^{protons}");
- AddHistogram1D<TH1D>("hJetConstituentPionCount_2_7", "Pion count in jets", "", 100, 0., 100., "N pions","dN^{Jets}/dN^{pions}");
- AddHistogram1D<TH1D>("hJetConstituentKaonCount_2_7", "Kaon count in jets", "", 100, 0., 100., "N kaons","dN^{Jets}/dN^{kaons}");
- AddHistogram1D<TH1D>("hJetConstituentElectronCount_2_7", "Electron count in jets", "", 100, 0., 100., "N electrons","dN^{Jets}/dN^{electrons}");
- AddHistogram1D<TH1D>("hJetConstituentOthersCount_2_7", "Others count in jets", "", 100, 0., 100., "N others","dN^{Jets}/dN^{others}");
-
- }
-
- // NOTE: Track & Cluster & QA histograms
- if (fAnalyzeQA)
- {
- AddHistogram1D<TH1D>("hVertexX", "X distribution of the vertex", "", 2000, -1., 1., "#Delta x(cm)","dN^{Events}/dx");
- AddHistogram1D<TH1D>("hVertexY", "Y distribution of the vertex", "", 2000, -1., 1., "#Delta y(cm)","dN^{Events}/dy");
- AddHistogram2D<TH2D>("hVertexXY", "XY distribution of the vertex", "COLZ", 500, -1., 1., 500, -1., 1.,"#Delta x(cm)", "#Delta y(cm)","dN^{Events}/dxdy");
- AddHistogram1D<TH1D>("hVertexZBeforeVertexCut", "Z distribution of the vertex (before std. vertex cut)", "", 200, -20., 20., "#Delta z(cm)","dN^{Events}/dz");
- AddHistogram1D<TH1D>("hVertexZAfterVertexCut", "Z distribution of the vertex (after std. vertex cut)", "", 200, -20., 20., "#Delta z(cm)","dN^{Events}/dz");
- AddHistogram1D<TH1D>("hVertexR", "R distribution of the vertex", "", 100, 0., 1., "#Delta r(cm)","dN^{Events}/dr");
- AddHistogram1D<TH1D>("hCentralityV0M", "Centrality distribution V0M", "", fNumberOfCentralityBins, 0., 100., "Centrality","dN^{Events}");
- AddHistogram1D<TH1D>("hCentralityV0A", "Centrality distribution V0A", "", fNumberOfCentralityBins, 0., 100., "Centrality","dN^{Events}");
- AddHistogram1D<TH1D>("hCentralityV0C", "Centrality distribution V0C", "", fNumberOfCentralityBins, 0., 100., "Centrality","dN^{Events}");
- AddHistogram1D<TH1D>("hCentralityZNA", "Centrality distribution ZNA", "", fNumberOfCentralityBins, 0., 100., "Centrality","dN^{Events}");
- AddHistogram1D<TH1D>("hCentrality", Form("Centrality distribution %s", fCentralityType.Data()), "", fNumberOfCentralityBins, 0., 100., "Centrality","dN^{Events}");
-
-
+ AddHistogram2D<TH2D>("hKTBackgroundPbPb", "KT background density (PbPb approach, no ghosts)", "LEGO2", 400, 0., 40., fNumberOfCentralityBins, 0, 100, "#rho (GeV/c)","Centrality", "dN^{Events}/d#rho");
+ AddHistogram2D<TH2D>("hKTBackgroundPbPbWithGhosts", "KT background density (PbPb approach w/ ghosts)", "LEGO2", 400, 0., 40., fNumberOfCentralityBins, 0, 100, "#rho (GeV/c)","Centrality", "dN^{Events}/d#rho");
+ AddHistogram2D<TH2D>("hKTBackgroundCMS", "KT background density (CMS approach)", "LEGO2", 400, 0., 40., fNumberOfCentralityBins, 0, 100, "#rho (GeV/c)","Centrality", "dN^{Events}/d#rho");
+ AddHistogram2D<TH2D>("hKTBackgroundMean", "KT background density (Mean approach)", "LEGO2", 400, 0., 40., fNumberOfCentralityBins, 0, 100, "#rho (GeV/c)","Centrality", "dN^{Events}/d#rho");
+ AddHistogram2D<TH2D>("hKTBackgroundTrackLike", "KT background density (Track-like approach)", "LEGO2", 400, 0., 40., fNumberOfCentralityBins, 0, 100, "#rho (GeV/c)","Centrality", "dN^{Events}/d#rho");
+ AddHistogram2D<TH2D>("hTRBackgroundNoExcl", "TR background density (No signal excluded)", "LEGO2", 400, 0., 40., fNumberOfCentralityBins, 0, 100, "#rho (GeV/c)","Centrality", "dN^{Events}/d#rho");
+ AddHistogram2D<TH2D>("hTRBackgroundCone02", "TR background density (Cones R=0.2 around signal jets excluded)", "LEGO2", 400, 0., 40., fNumberOfCentralityBins, 0, 100, "#rho (GeV/c)","Centrality", "dN^{Events}/d#rho");
+ AddHistogram2D<TH2D>("hTRBackgroundCone04", "TR background density (Cones R=0.4 around signal jets excluded)", "LEGO2", 400, 0., 40., fNumberOfCentralityBins, 0, 100, "#rho (GeV/c)","Centrality", "dN^{Events}/d#rho");
+ AddHistogram2D<TH2D>("hTRBackgroundCone06", "TR background density (Cones R=0.6 around signal jets excluded)", "LEGO2", 400, 0., 40., fNumberOfCentralityBins, 0, 100, "#rho (GeV/c)","Centrality", "dN^{Events}/d#rho");
+ AddHistogram2D<TH2D>("hTRBackgroundCone08", "TR background density (Cones R=0.8 around signal jets excluded)", "LEGO2", 400, 0., 40., fNumberOfCentralityBins, 0, 100, "#rho (GeV/c)","Centrality", "dN^{Events}/d#rho");
+ AddHistogram2D<TH2D>("hTRBackgroundExact", "TR background density (signal jets exactly excluded)", "LEGO2", 400, 0., 40., fNumberOfCentralityBins, 0, 100, "#rho (GeV/c)","Centrality", "dN^{Events}/d#rho");
+
+ // Delta pt distributions
+ AddHistogram2D<TH2D>("hDeltaPtExternalBgrd", "Background fluctuations #delta p_{T} (KT, External)", "", 1801, -40.0, 80.0, fNumberOfCentralityBins, 0, 100, "#delta p_{T} (GeV/c)","Centrality","dN^{Jets}/d#delta p_{T}");
+ AddHistogram2D<TH2D>("hDeltaPtExternalBgrdVsPt", "Background fluctuations #delta p_{T} (KT, External, in p_{T} bins)", "", 1801, -40.0, 80.0, 200, 0, 200, "#delta p_{T} (GeV/c)","Raw jet p_{T}","dN^{Jets}/d#delta p_{T}");
+ AddHistogram2D<TH2D>("hDeltaPtKTImprovedCMS", "Background fluctuations #delta p_{T} (KT, Improved CMS-like)", "", 1801, -40.0, 80.0, fNumberOfCentralityBins, 0, 100, "#delta p_{T} (GeV/c)","Centrality","dN^{Jets}/d#delta p_{T}");
+ AddHistogram2D<TH2D>("hDeltaPtKTImprovedCMSFullExclusion", "Background fluctuations #delta p_{T} (KT, Improved CMS-like, full leading jet exclusion)", "", 1801, -40.0, 80.0, fNumberOfCentralityBins, 0, 100, "#delta p_{T} (GeV/c)","Centrality","dN^{Jets}/d#delta p_{T}");
+ AddHistogram2D<TH2D>("hDeltaPtNoBackground", "Background fluctuations #delta p_{T} (No background)", "", 1801, -40.0, 80.0, fNumberOfCentralityBins, 0, 100, "#delta p_{T} (GeV/c)","Centrality","dN^{Jets}/d#delta p_{T}");
+ AddHistogram2D<TH2D>("hDeltaPtKTPbPb", "Background fluctuations #delta p_{T} (KT, PbPb w/o ghosts)", "", 1801, -40.0, 80.0, fNumberOfCentralityBins, 0, 100, "#delta p_{T} (GeV/c)","Centrality","dN^{Jets}/d#delta p_{T}");
+ AddHistogram2D<TH2D>("hDeltaPtKTPbPbWithGhosts", "Background fluctuations #delta p_{T} (KT, PbPb w/ ghosts)", "", 1801, -40.0, 80.0, fNumberOfCentralityBins, 0, 100, "#delta p_{T} (GeV/c)","Centrality","dN^{Jets}/d#delta p_{T}");
+ AddHistogram2D<TH2D>("hDeltaPtKTCMS", "Background fluctuations #delta p_{T} (KT, CMS-like)", "", 1801, -40.0, 80.0, fNumberOfCentralityBins, 0, 100, "#delta p_{T} (GeV/c)","Centrality","dN^{Jets}/d#delta p_{T}");
+ AddHistogram2D<TH2D>("hDeltaPtKTMean", "Background fluctuations #delta p_{T} (KT, Mean)", "", 1801, -40.0, 80.0, fNumberOfCentralityBins, 0, 100, "#delta p_{T} (GeV/c)","Centrality","dN^{Jets}/d#delta p_{T}");
+ AddHistogram2D<TH2D>("hDeltaPtKTTrackLike", "Background fluctuations #delta p_{T} (KT, track-like)", "", 1801, -40.0, 80.0, fNumberOfCentralityBins, 0, 100, "#delta p_{T} (GeV/c)","Centrality","dN^{Jets}/d#delta p_{T}");
+ AddHistogram2D<TH2D>("hDeltaPtTR", "Background fluctuations #delta p_{T} (TR, cone R=0.6)", "", 1801, -40.0, 80.0, fNumberOfCentralityBins, 0, 100, "#delta p_{T} (GeV/c)","Centrality","dN^{Jets}/d#delta p_{T}");
+
+ // Track QA plots
AddHistogram2D<TH2D>("hTrackCountAcc", "Number of tracks in acceptance vs. centrality", "LEGO2", 750, 0., 750., fNumberOfCentralityBins, 0, 100, "N tracks","Centrality", "dN^{Events}/dN^{Tracks}");
AddHistogram2D<TH2D>("hTrackPt", "Tracks p_{T} distribution", "", 1000, 0., 250., fNumberOfCentralityBins, 0, 100, "p_{T} (GeV/c)", "Centrality", "dN^{Tracks}/dp_{T}");
AddHistogram2D<TH2D>("hTrackPtNegEta", "Tracks p_{T} distribution (negative #eta)", "", 1000, 0., 250., fNumberOfCentralityBins, 0, 100, "p_{T} (GeV/c)","Centrality","dN^{Tracks}/dp_{T}");
AddHistogram1D<TH1D>("hTrackPhi", "Track #phi distribution", "", 360, 0, TMath::TwoPi(), "#phi","dN^{Tracks}/d#phi");
AddHistogram2D<TH2D>("hTrackPhiEta", "Track angular distribution", "LEGO2", 100, 0., 2*TMath::Pi(),100, -2.5, 2.5, "#phi","#eta","dN^{Tracks}/(d#phi d#eta)");
AddHistogram2D<TH2D>("hTrackPtPhiEta", "Track p_{T} angular distribution", "LEGO2", 100, 0., 2*TMath::Pi(),100, -2.5, 2.5, "#phi","#eta","dp_{T}^{Tracks}/(d#phi d#eta)");
-
AddHistogram2D<TH2D>("hTrackPhiPtCut", "Track #phi distribution for different pT cuts", "LEGO2", 360, 0, TMath::TwoPi(), 20, 0, 20, "#phi", "p_{T} lower cut", "dN^{Tracks}/d#phi dp_{T}");
AddHistogram2D<TH2D>("hTrackPhiTrackType", "Track #phi distribution for different track types", "LEGO2", 360, 0, TMath::TwoPi(), 3, 0, 3, "#phi", "Label", "dN^{Tracks}/d#phi");
- AddHistogram2D<TH2D>("hTrackEta", "Track #eta distribution", "COLZ", 180, -fTrackEtaWindow, +fTrackEtaWindow, fNumberOfCentralityBins, 0., 100., "#eta", "Centrality", "dN^{Tracks}/d#eta");
- if (fAnalyzeJets)
+ AddHistogram2D<TH2D>("hTrackPtTrackType", "Track p_{T} distribution for different track types", "LEGO2", 1000, 0., 250., 3, 0, 3, "p_{T} (GeV/c)", "Label", "dN^{Tracks}/dp_{T}");
+ AddHistogram2D<TH2D>("hTrackEta", "Track #eta distribution", "COLZ", 180, fMinEta, fMaxEta, fNumberOfCentralityBins, 0., 100., "#eta", "Centrality", "dN^{Tracks}/d#eta");
+
+ // Jet QA plots
+ AddHistogram1D<TH1D>("hRawJetArea", "Jets area distribution w/o area cut", "", 200, 0., 2., "Area","dN^{Jets}/dA");
+ AddHistogram2D<TH2D>("hJetArea", "Jets area distribution", "COLZ", 200, 0., 2., 500, -50., 200, "Area","Jet p_{T}","dN^{Jets}/dA");
+ AddHistogram2D<TH2D>("hRawJetPhiEta", "Raw Jets angular distribution w/o #eta cut", "LEGO2", 360, 0., 2*TMath::Pi(),100, -1.0, 1.0, "#phi","#eta","dN^{Jets}/(d#phi d#eta)");
+ AddHistogram2D<TH2D>("hJetEta", "Jets #eta distribution", "COLZ", 180, fMinEta, fMaxEta, fNumberOfCentralityBins, 0., 100., "#eta", "Centrality", "dN^{Jets}/d#eta");
+ AddHistogram2D<TH2D>("hJetEta2GeVTracks", "Jets #eta distribution, track p_{T} > 2 GeV", "COLZ", 180, fMinEta, fMaxEta, fNumberOfCentralityBins, 0., 100., "#eta", "Centrality", "dN^{Jets}/d#eta");
+ AddHistogram2D<TH2D>("hJetEta4GeVTracks", "Jets #eta distribution, track p_{T} > 4 GeV", "COLZ", 180, fMinEta, fMaxEta, fNumberOfCentralityBins, 0., 100., "#eta", "Centrality", "dN^{Jets}/d#eta");
+ AddHistogram2D<TH2D>("hJetPhiEta", "Jets angular distribution", "LEGO2", 360, 0., 2*TMath::Pi(),100, -1.0, 1.0, "#phi","#eta","dN^{Jets}/(d#phi d#eta)");
+ AddHistogram2D<TH2D>("hJetPtPhiEta", "Jets p_{T} angular distribution", "LEGO2", 360, 0., 2*TMath::Pi(),100, -1.0, 1.0, "#phi","#eta","dp_{T}^{Jets}/(d#phi d#eta)");
+ AddHistogram2D<TH2D>("hJetPtVsConstituentCount", "Jets number of constituents vs. jet p_{T}", "COLZ", 400, 0., 200., 100, 0., 100., "p_{T}","N^{Tracks}","dN^{Jets}/(dp_{T} dN^{tracks})");
+
+ // ######## Jet profiles
+ if(fAnalyzeJetProfile)
{
- // ######## Jet QA
- AddHistogram1D<TH1D>("hRawJetArea", "Jets area distribution w/o area cut", "", 200, 0., 2., "Area","dN^{Jets}/dA");
- AddHistogram2D<TH2D>("hJetArea", "Jets area distribution", "COLZ", 200, 0., 2., 150, 0.,150., "Area","Jet p_{T}","dN^{Jets}/dA");
- AddHistogram2D<TH2D>("hRawJetPhiEta", "Raw Jets angular distribution w/o #eta cut", "LEGO2", 360, 0., 2*TMath::Pi(),100, -1.0, 1.0, "#phi","#eta","dN^{Jets}/(d#phi d#eta)");
- AddHistogram2D<TH2D>("hJetEta", "Jets #eta distribution", "COLZ", 180, -fTrackEtaWindow, +fTrackEtaWindow, fNumberOfCentralityBins, 0., 100., "#eta", "Centrality", "dN^{Jets}/d#eta");
- AddHistogram2D<TH2D>("hJetEta2GeVTracks", "Jets #eta distribution, track p_{T} > 2 GeV", "COLZ", 180, -fTrackEtaWindow, +fTrackEtaWindow, fNumberOfCentralityBins, 0., 100., "#eta", "Centrality", "dN^{Jets}/d#eta");
- AddHistogram2D<TH2D>("hJetEta4GeVTracks", "Jets #eta distribution, track p_{T} > 4 GeV", "COLZ", 180, -fTrackEtaWindow, +fTrackEtaWindow, fNumberOfCentralityBins, 0., 100., "#eta", "Centrality", "dN^{Jets}/d#eta");
- AddHistogram2D<TH2D>("hJetPhiEta", "Jets angular distribution", "LEGO2", 360, 0., 2*TMath::Pi(),100, -1.0, 1.0, "#phi","#eta","dN^{Jets}/(d#phi d#eta)");
- AddHistogram2D<TH2D>("hJetPtPhiEta", "Jets p_{T} angular distribution", "LEGO2", 360, 0., 2*TMath::Pi(),100, -1.0, 1.0, "#phi","#eta","dp_{T}^{Jets}/(d#phi d#eta)");
- AddHistogram2D<TH2D>("hJetPtVsConstituentCount", "Jets number of constituents vs. jet p_{T}", "COLZ", 400, 0., 200., 100, 0., 100., "p_{T}","N^{Tracks}","dN^{Jets}/(dp_{T} dN^{tracks})");
+ SetCurrentOutputList(1);
+ AddHistogram2D<TH2D>("hJetProfile10GeV", "Jet profile, cone p_{T}/jet p_{T} vs. jet radius, jet p_{T} > 10 GeV", "", 12, 0, 0.6,200, 0., 2., "Cone radius","dN^{Jets}/dR", "Ratio");
+ AddHistogram2D<TH2D>("hJetProfile20GeV", "Jet profile, cone p_{T}/jet p_{T} vs. jet radius, jet p_{T} > 20 GeV", "", 12, 0, 0.6,200, 0., 2., "Cone radius","dN^{Jets}/dR", "Ratio");
+ AddHistogram2D<TH2D>("hJetProfile30GeV", "Jet profile, cone p_{T}/jet p_{T} vs. jet radius, jet p_{T} > 30 GeV", "", 12, 0, 0.6,200, 0., 2., "Cone radius","dN^{Jets}/dR", "Ratio");
+ AddHistogram2D<TH2D>("hJetProfile40GeV", "Jet profile, cone p_{T}/jet p_{T} vs. jet radius, jet p_{T} > 40 GeV", "", 12, 0, 0.6,200, 0., 2., "Cone radius","dN^{Jets}/dR", "Ratio");
+ AddHistogram2D<TH2D>("hJetProfile50GeV", "Jet profile, cone p_{T}/jet p_{T} vs. jet radius, jet p_{T} > 50 GeV", "", 12, 0, 0.6,200, 0., 2., "Cone radius","dN^{Jets}/dR", "Ratio");
+ AddHistogram2D<TH2D>("hJetProfile60GeV", "Jet profile, cone p_{T}/jet p_{T} vs. jet radius, jet p_{T} > 60 GeV", "", 12, 0, 0.6,200, 0., 2., "Cone radius","dN^{Jets}/dR", "Ratio");
+ AddHistogram2D<TH2D>("hJetProfile70GeV", "Jet profile, cone p_{T}/jet p_{T} vs. jet radius, jet p_{T} > 70 GeV", "", 12, 0, 0.6,200, 0., 2., "Cone radius","dN^{Jets}/dR", "Ratio");
+ SetCurrentOutputList(0);
}
}
+ // ######## Jet track cuts
+ if(fAnalyzeTrackcuts)
+ {
+ SetCurrentOutputList(2);
+
+ AddCutHistogram("hCutsNumberClusters", "Trackcut histogram: Number of clusters", "Number of clusters", 40, 20, 160);
+ AddCutHistogram("hCutsChi2TPC", "Trackcut histogram: #chi^{2} per TPC cluster", "#chi^{2}", 40, 0, 8);
+ AddCutHistogram("hCutsChi2ITS", "Trackcut histogram: #chi^{2} per ITS cluster", "#chi^{2}", 25, 0., 50);
+ AddCutHistogram("hCutsChi2Constrained", "Trackcut histogram: #chi^{2} for global constrained tracks", "#chi^{2}", 60, 0, 60);
+ AddCutHistogram("hCutsDCAXY", "Trackcut histogram: Max. DCA xy for prim. vertex", "DCA xy", 20, 0, 4);
+ AddCutHistogram("hCutsDCAZ", "Trackcut histogram: Max. DCA z for prim. vertex", "DCA z", 20, 0, 4);
+ AddCutHistogram("hCutsSPDHit", "Trackcut histogram: Hit in SPD layer", "Hit or not", 2, -0.5, 1.5);
+ AddCutHistogram("hCutsNumberCrossedRows", "Trackcut histogram: Number of crossed rows", "Number of crossed rows", 40, 20, 160);
+ AddCutHistogram("hCutsNumberCrossedRowsOverFindableClusters", "Trackcut histogram: Number of crossed rows over findable clusters", "Number of crossed rows over findable clusters", 26, 0.4, 1.8);
+ AddCutHistogram("hCutsSharedTPC", "Trackcut histogram: Shared TPC clusters", "Shared fraction", 40, 0, 1);
+ AddCutHistogram("hCutsTPCRefit", "Trackcut histogram: TPC refit", "Has TPC refit", 2, -0.5, 1.5);
+ AddCutHistogram("hCutsTPCLength", "Trackcut histogram: TPC length", "TPC length", 40, 0, 170);
+ AddCutHistogram("hCutsTrackConstrained", "Trackcut histogram: Tracks constrained to vertex", "Track is constrained", 2, -0.5, 1.5);
+ AddCutHistogram("hCutsTPCITSMatching", "Trackcut histogram: TPC-ITS matching", "Track is matched", 2, -0.5, 1.5);
+ AddCutHistogram("hCutsClustersPtDependence", "Trackcut histogram: pT dependence for number of clusters/crossed rows cut.", "Value at 20 GeV: 90, 100, 110, or 120", 4, -0.5, 3.5);
+
+ const int nbPt=40;
+ const double ptMax=5;
+ AddHistogram2D<TH2D>("hCutsITSTPC_NMatch", "Number matches", "", nbPt,0,ptMax,kMaxMatch+1,-0.5,kMaxMatch+0.5, "p_{T}","N matches");
+ AddHistogram2D<TH2D>("hCutsITSTPC_BestMatch", "Best match chi2", "", nbPt,0,ptMax,2*int(TMath::Max(1.1,kMaxChi2)),0,kMaxChi2, "p_{T}","chi2");
+ AddHistogram2D<TH2D>("hCutsITSTPC_BestMatch_cuts", "Best match chi2", "", nbPt,0,ptMax,2*int(TMath::Max(1.1,kMaxChi2)),0,kMaxChi2, "p_{T}","chi2");
+ AddHistogram2D<TH2D>("hCutsITSTPC_AllMatch", "All matches chi2", "", nbPt,0,ptMax,2*int(TMath::Max(1.1,kMaxChi2)),0,kMaxChi2, "p_{T}","chi2");
+ AddHistogram2D<TH2D>("hCutsITSTPC_AllMatchGlo", "All matches chi2", "", nbPt,0,ptMax,2*int(TMath::Max(1.1,kMaxChi2)),0,kMaxChi2, "p_{T}","chi2");
+ AddHistogram2D<TH2D>("hCutsITSTPC_PtCorr_ITSTPC", "PtCorr", "", nbPt,0,ptMax,nbPt,0,ptMax, "p_{T}","p_{T}");
+ AddHistogram2D<TH2D>("hCutsITSTPC_dPtRel_ITSTPC", "dPt/pt", "", nbPt,0,ptMax,2*nbPt+1,-0.4*ptMax,0.4*ptMax, "p_{T}","1/pt");
+ AddHistogram2D<TH2D>("hCutsITSTPC_dInvPtRel_ITSTPC", "pt*dPt^{-1}", "", nbPt,0,ptMax,2*nbPt+1,-0.4*ptMax,0.4*ptMax, "p_{T}","1/pt");
+
+ AddHistogram2D<TH2D>("hCutsITSTPC_NMatchBg", "Number matches", "", nbPt,0,ptMax,kMaxMatch+1,-0.5,kMaxMatch+0.5, "p_{T}","N matches");
+ AddHistogram2D<TH2D>("hCutsITSTPC_BestMatchBg", "Best match chi2", "", nbPt,0,ptMax,2*int(TMath::Max(1.1,kMaxChi2)),0,kMaxChi2, "p_{T}","chi2");
+ AddHistogram2D<TH2D>("hCutsITSTPC_BestMatchBg_cuts", "Best match chi2", "", nbPt,0,ptMax,2*int(TMath::Max(1.1,kMaxChi2)),0,kMaxChi2, "p_{T}","chi2");
+ AddHistogram2D<TH2D>("hCutsITSTPC_AllMatchBg", "All matches chi2", "", nbPt,0,ptMax,2*int(TMath::Max(1.1,kMaxChi2)),0,kMaxChi2, "p_{T}","chi2");
+ AddHistogram2D<TH2D>("hCutsITSTPC_AllMatchGloBg", "All matches chi2", "", nbPt,0,ptMax,2*int(TMath::Max(1.1,kMaxChi2)),0,kMaxChi2, "p_{T}","chi2");
+ AddHistogram2D<TH2D>("hCutsITSTPC_PtCorrBg_ITSTPC", "PtCorr", "", nbPt,0,ptMax,nbPt,0,ptMax, "p_{T}","p_{T}");
+ AddHistogram2D<TH2D>("hCutsITSTPC_dPtRelBg_ITSTPC", "dPt/pt", "", nbPt,0,ptMax,2*nbPt+1,-0.4*ptMax,0.4*ptMax, "p_{T}","1/pt");
+ AddHistogram2D<TH2D>("hCutsITSTPC_dInvPtRelBg_ITSTPC", "pt*dPt^{-1}", "", nbPt,0,ptMax,2*nbPt+1,-0.4*ptMax,0.4*ptMax, "p_{T}","1/pt");
+
+ SetCurrentOutputList(0);
+ }
- // register Histograms
- for (Int_t i = 0; i < fHistCount; i++)
+ PostData(1, fOutputLists[0]);
+ if(fAnalyzeJetProfile)
+ PostData(2, fOutputLists[1]);
+ if(fAnalyzeTrackcuts)
{
- fOutputList->Add(fHistList->At(i));
+ if(fAnalyzeJetProfile)
+ PostData(3, fOutputLists[2]);
+ else
+ PostData(2, fOutputLists[1]);
}
-
- PostData(1,fOutputList); // important for merging
}
//________________________________________________________________________
-AliAnalysisTaskChargedJetsPA::AliAnalysisTaskChargedJetsPA(const char *name, const char* trackArrayName, const char* jetArrayName, const char* backgroundJetArrayName) : AliAnalysisTaskSE(name), fOutputList(0), fAnalyzeJets(1), fAnalyzeJetProfile(1), fAnalyzeQA(1), fAnalyzeBackground(1), fAnalyzeDeprecatedBackgrounds(1), fAnalyzePythia(0), fAnalyzeMassCorrelation(0), fHasTracks(0), fHasJets(0), fHasBackgroundJets(0), fIsKinematics(0), fUseDefaultVertexCut(1), fUsePileUpCut(1), fSetCentralityToOne(0), fNoExternalBackground(0), fBackgroundForJetProfile(0), fPartialAnalysisNParts(1), fPartialAnalysisIndex(0), fJetArray(0), fTrackArray(0), fBackgroundJetArray(0), fJetArrayName(0), fTrackArrayName(0), fBackgroundJetArrayName(0), fNumPtHardBins(11), fUsePtHardBin(-1), fRhoTaskName(), fNcoll(6.88348), fRandConeRadius(0.4), fSignalJetRadius(0.4), fBackgroundJetRadius(0.4), fTRBackgroundConeRadius(0.6), fNumberRandCones(8), fNumberExcludedJets(-1), fDijetMaxAngleDeviation(10.0), fPhysicalJetRadius(0.6), fSignalJetEtaWindow(0.5), fBackgroundJetEtaWindow(0.5), fTrackEtaWindow(0.9), fMinTrackPt(0.150), fMinJetPt(0.15), fMinJetArea(0.5), fMinBackgroundJetPt(0.0), fMinDijetLeadingPt(10.0), fNumberOfCentralityBins(20), fCentralityType("V0A"), fFirstLeadingJet(0), fSecondLeadingJet(0), fNumberSignalJets(0), fCrossSection(0.0), fTrials(0.0), fRandom(0), fHelperClass(0), fInitialized(0), fTaskInstanceCounter(0), fHistList(0), fHistCount(0), fIsDEBUG(0), fEventCounter(0)
+AliAnalysisTaskChargedJetsPA::AliAnalysisTaskChargedJetsPA(const char *name, const char* trackArrayName, const char* jetArrayName, const char* backgroundJetArrayName, Bool_t analyzeJetProfile, Bool_t analyzeTrackcuts) : AliAnalysisTaskSE(name), fOutputLists(), fCurrentOutputList(0), fDoJetAnalysis(1), fAnalyzeJetProfile(0), fAnalyzeTrackcuts(0), fParticleLevel(0), fUseDefaultVertexCut(1), fUsePileUpCut(1), fSetCentralityToOne(0), fNoExternalBackground(0), fBackgroundForJetProfile(0), fPartialAnalysisNParts(1), fPartialAnalysisIndex(0), fJetArray(0), fTrackArray(0), fBackgroundJetArray(0), fJetArrayName(), fTrackArrayName(), fBackgroundJetArrayName(), fRhoTaskName(), fRandConeRadius(0.4), fSignalJetRadius(0.4), fBackgroundJetRadius(0.4), fNumberExcludedJets(-1), fMinEta(-0.9), fMaxEta(0.9), fMinJetEta(-0.5), fMaxJetEta(0.5), fMinTrackPt(0.150), fMinJetPt(5.0), fMinJetArea(0.5), fMinBackgroundJetPt(0.0), fMinNCrossedRows(70), fUsePtDepCrossedRowsCut(0), fNumberOfCentralityBins(20), fCentralityType("V0A"), fMatchTr(), fMatchChi(), fPrimaryVertex(0), fFirstLeadingJet(0), fSecondLeadingJet(0), fFirstLeadingKTJet(0), fSecondLeadingKTJet(0), fNumberSignalJets(0), fNumberSignalJetsAbove5GeV(0), fRandom(0), fHelperClass(0), fInitialized(0), fTaskInstanceCounter(0), fIsDEBUG(0), fIsPA(1), fNoTerminate(1), fEventCounter(0), fHybridESDtrackCuts(0), fHybridESDtrackCuts_variedPtDep(0), fHybridESDtrackCuts_variedPtDep2(0)
{
#ifdef DEBUGMODE
AliInfo("Calling constructor.");
fTaskInstanceCounter = instance;
instance++;
- fTrackArrayName = new TString(trackArrayName);
- if (fTrackArrayName->Contains("MCParticles") || fTrackArrayName->Contains("mcparticles"))
- fIsKinematics = kTRUE;
+ fAnalyzeJetProfile = analyzeJetProfile;
+ fAnalyzeTrackcuts = analyzeTrackcuts;
- fJetArrayName = new TString(jetArrayName);
- if (strcmp(fJetArrayName->Data(),"") == 0)
- {
- fAnalyzeJets = kFALSE;
- fAnalyzeJetProfile = kFALSE;
- }
- else
- fAnalyzeJets = kTRUE;
-
- fBackgroundJetArrayName = new TString(backgroundJetArrayName);
- if (strcmp(fBackgroundJetArrayName->Data(),"") == 0)
- fAnalyzeBackground = kFALSE;
- else
- fAnalyzeBackground = kTRUE;
+ // Save the observables array names
+ fTrackArrayName = trackArrayName;
+ fJetArrayName = jetArrayName;
+ fBackgroundJetArrayName = backgroundJetArrayName;
- DefineOutput(1, TList::Class());
-
- fHistList = new TList();
-
- for(Int_t i=0;i<1024;i++)
- fSignalJets[i] = NULL;
+ if (fTrackArrayName.Contains("MCParticles") || fTrackArrayName.Contains("mcparticles"))
+ fParticleLevel = kTRUE;
+ DefineOutput(1, TList::Class());
+ if(fAnalyzeJetProfile)
+ DefineOutput(2, TList::Class());
+ if(fAnalyzeTrackcuts)
+ {
+ if(fAnalyzeJetProfile)
+ DefineOutput(3, TList::Class());
+ else
+ DefineOutput(2, TList::Class());
+ }
#ifdef DEBUGMODE
AliInfo("Constructor done.");
#endif
-
}
//________________________________________________________________________
-inline Double_t AliAnalysisTaskChargedJetsPA::GetConePt(Double_t eta, Double_t phi, Double_t radius)
+void AliAnalysisTaskChargedJetsPA::InitializeTrackcuts()
{
- Double_t tmpConePt = 0.0;
-
- for (Int_t i = 0; i < fTrackArray->GetEntries(); i++)
+ AliESDtrackCuts* commonTrackCuts = new AliESDtrackCuts;
+ commonTrackCuts->SetMaxChi2PerClusterTPC(4);
+ commonTrackCuts->SetMaxChi2PerClusterITS(36);
+ commonTrackCuts->SetAcceptKinkDaughters(kFALSE);
+ commonTrackCuts->SetRequireTPCRefit(kTRUE);
+ commonTrackCuts->SetRequireITSRefit(kTRUE);
+ commonTrackCuts->SetRequireSigmaToVertex(kFALSE);
+ commonTrackCuts->SetMaxDCAToVertexXY(2.4);
+ commonTrackCuts->SetMaxDCAToVertexZ(3.2);
+ commonTrackCuts->SetDCAToVertex2D(kTRUE);
+ commonTrackCuts->SetMaxFractionSharedTPCClusters(0.4);
+ commonTrackCuts->SetMaxChi2TPCConstrainedGlobal(36);
+ commonTrackCuts->SetClusterRequirementITS(AliESDtrackCuts::kSPD, AliESDtrackCuts::kAny);
+
+ AliESDtrackCuts* fTrackCutsPA_global = NULL;
+ AliESDtrackCuts* fTrackCutsPA_complementary = NULL;
+ AliESDtrackCuts* fTrackCutsPP_global = NULL;
+ AliESDtrackCuts* fTrackCutsPP_complementary = NULL;
+ AliESDtrackCuts* fTrackCutsPP_global_variedPtDep = NULL;
+ AliESDtrackCuts* fTrackCutsPP_complementary_variedPtDep = NULL;
+ AliESDtrackCuts* fTrackCutsPP_global_variedPtDep2 = NULL;
+ AliESDtrackCuts* fTrackCutsPP_complementary_variedPtDep2 = NULL;
+
+ //pPb
+ fTrackCutsPA_global = static_cast<AliESDtrackCuts*>(commonTrackCuts->Clone("fTrackCutsPA_global"));
+ fTrackCutsPA_global->SetMinNCrossedRowsTPC(fMinNCrossedRows);
+ fTrackCutsPA_global->SetMinRatioCrossedRowsOverFindableClustersTPC(0.8);
+ fTrackCutsPA_complementary = static_cast<AliESDtrackCuts*>(fTrackCutsPA_global->Clone("fTrackCutsPA_complementary"));
+ fTrackCutsPA_complementary->SetRequireITSRefit(kFALSE);
+ fTrackCutsPA_complementary->SetClusterRequirementITS(AliESDtrackCuts::kSPD, AliESDtrackCuts::kOff);
+
+ //pp
+ fTrackCutsPP_global = static_cast<AliESDtrackCuts*>(commonTrackCuts->Clone("fTrackCutsPP_global"));
+ TFormula *f1NClustersTPCLinearPtDep = new TFormula("f1NClustersTPCLinearPtDep","70.+30./20.*x");
+ fTrackCutsPP_global->SetMinNClustersTPCPtDep(f1NClustersTPCLinearPtDep,20.);
+ fTrackCutsPP_global->SetMinNClustersTPC(70);
+ fTrackCutsPP_global->SetRequireTPCStandAlone(kTRUE); //cut on NClustersTPC and chi2TPC Iter1
+ fTrackCutsPP_global->SetEtaRange(-0.9,0.9);
+ fTrackCutsPP_global->SetPtRange(0.15, 1e15);
+ fTrackCutsPP_complementary = static_cast<AliESDtrackCuts*>(fTrackCutsPP_global->Clone("fTrackCutsPP_complementary"));
+ fTrackCutsPP_complementary->SetRequireITSRefit(kFALSE);
+ fTrackCutsPP_complementary->SetClusterRequirementITS(AliESDtrackCuts::kSPD, AliESDtrackCuts::kOff);
+
+ //pp, different pT dependence of number clusters cut, No. I
+
+ fTrackCutsPP_global_variedPtDep = static_cast<AliESDtrackCuts*>(commonTrackCuts->Clone("fTrackCutsPP_global_variedPtDep"));
+ TFormula *f1NClustersTPCLinearPtDep2 = new TFormula("f1NClustersTPCLinearPtDep2","70.+15./20.*x");
+ fTrackCutsPP_global_variedPtDep->SetMinNClustersTPCPtDep(f1NClustersTPCLinearPtDep2,20.);
+ fTrackCutsPP_global_variedPtDep->SetMinNClustersTPC(70);
+ fTrackCutsPP_global_variedPtDep->SetRequireTPCStandAlone(kTRUE); //cut on NClustersTPC and chi2TPC Iter1
+ fTrackCutsPP_global_variedPtDep->SetEtaRange(-0.9,0.9);
+ fTrackCutsPP_global_variedPtDep->SetPtRange(0.15, 1e15);
+ fTrackCutsPP_complementary_variedPtDep = static_cast<AliESDtrackCuts*>(fTrackCutsPP_global_variedPtDep->Clone("fTrackCutsPP_complementary_variedPtDep"));
+ fTrackCutsPP_complementary_variedPtDep->SetRequireITSRefit(kFALSE);
+ fTrackCutsPP_complementary_variedPtDep->SetClusterRequirementITS(AliESDtrackCuts::kSPD, AliESDtrackCuts::kOff);
+
+ //pp, different pT dependence of number clusters cut, No. II
+
+ fTrackCutsPP_global_variedPtDep2 = static_cast<AliESDtrackCuts*>(commonTrackCuts->Clone("fTrackCutsPP_global_variedPtDep2"));
+ TFormula *f1NClustersTPCLinearPtDep3 = new TFormula("f1NClustersTPCLinearPtDep3","70.+45./20.*x");
+ fTrackCutsPP_global_variedPtDep2->SetMinNClustersTPCPtDep(f1NClustersTPCLinearPtDep3,20.);
+ fTrackCutsPP_global_variedPtDep2->SetMinNClustersTPC(70);
+ fTrackCutsPP_global_variedPtDep2->SetRequireTPCStandAlone(kTRUE); //cut on NClustersTPC and chi2TPC Iter1
+ fTrackCutsPP_global_variedPtDep2->SetEtaRange(-0.9,0.9);
+ fTrackCutsPP_global_variedPtDep2->SetPtRange(0.15, 1e15);
+ fTrackCutsPP_complementary_variedPtDep2 = static_cast<AliESDtrackCuts*>(fTrackCutsPP_global_variedPtDep2->Clone("fTrackCutsPP_complementary_variedPtDep2"));
+ fTrackCutsPP_complementary_variedPtDep2->SetRequireITSRefit(kFALSE);
+ fTrackCutsPP_complementary_variedPtDep2->SetClusterRequirementITS(AliESDtrackCuts::kSPD, AliESDtrackCuts::kOff);
+
+ fHybridESDtrackCuts = new AliESDHybridTrackcuts();
+ if(fIsPA)
{
- AliVTrack* tmpTrack = static_cast<AliVTrack*>(fTrackArray->At(i));
- if (IsTrackInAcceptance(tmpTrack))
- if(IsTrackInCone(tmpTrack, eta, phi, radius))
- tmpConePt = tmpConePt + tmpTrack->Pt();
+ fHybridESDtrackCuts->SetMainCuts(fTrackCutsPA_global);
+ fHybridESDtrackCuts->SetAdditionalCuts(fTrackCutsPA_complementary);
}
- return tmpConePt;
+ else
+ {
+ fHybridESDtrackCuts_variedPtDep = new AliESDHybridTrackcuts();
+ fHybridESDtrackCuts_variedPtDep2 = new AliESDHybridTrackcuts();
+
+ fHybridESDtrackCuts->SetMainCuts(fTrackCutsPP_global);
+ fHybridESDtrackCuts->SetAdditionalCuts(fTrackCutsPP_complementary);
+ fHybridESDtrackCuts_variedPtDep->SetMainCuts(fTrackCutsPP_global_variedPtDep);
+ fHybridESDtrackCuts_variedPtDep->SetAdditionalCuts(fTrackCutsPP_complementary_variedPtDep);
+ fHybridESDtrackCuts_variedPtDep2->SetMainCuts(fTrackCutsPP_global_variedPtDep2);
+ fHybridESDtrackCuts_variedPtDep2->SetAdditionalCuts(fTrackCutsPP_complementary_variedPtDep2);
+ }
+
+ delete commonTrackCuts;
}
//________________________________________________________________________
-inline Double_t AliAnalysisTaskChargedJetsPA::GetCorrectedConePt(Double_t eta, Double_t phi, Double_t radius, Double_t background)
+void AliAnalysisTaskChargedJetsPA::CreateCutHistograms()
{
- Double_t tmpConePt = 0.0;
- for (Int_t i = 0; i < fTrackArray->GetEntries(); i++)
+ AliESDEvent* fESD = dynamic_cast<AliESDEvent*>( InputEvent() );
+ if (!fESD)
{
- AliVTrack* tmpTrack = static_cast<AliVTrack*>(fTrackArray->At(i));
- if (IsTrackInAcceptance(tmpTrack))
- if(IsTrackInCone(tmpTrack, eta, phi, radius))
- tmpConePt = tmpConePt + tmpTrack->Pt();
+ AliError("For cut analysis, ESDs must be processed!");
+ return;
}
- Double_t realConeArea = (2.0*fTrackEtaWindow) * TMath::TwoPi() * MCGetOverlapCircleRectancle(eta, phi, radius, -fTrackEtaWindow, +fTrackEtaWindow, 0., TMath::TwoPi());
- tmpConePt -= background * realConeArea; // subtract background
- return tmpConePt;
-}
+ SetCurrentOutputList(2);
+ Float_t dca[2], cov[3]; // dca_xy, dca_z, sigma_xy, sigma_xy_z, sigma_z for the vertex cut
+ for (Int_t i=0;i < fESD->GetNumberOfTracks(); i++)
+ {
+ AliESDtrack* track = fESD->GetTrack(i);
+
+ // Basics kinematic variables
+ Double_t pT = track->Pt();
+ Double_t eta = track->Eta();
+ Double_t phi = track->Phi();
+
+ // Number of clusters
+ Double_t nclsITS = track->GetITSclusters(0);
+
+ // Crossed rows
+ Double_t ncrTPC = track->GetTPCCrossedRows();
+ Double_t nCRoverFC = 0;
+ if(track->GetTPCNclsF())
+ nCRoverFC = track->GetTPCCrossedRows()/track->GetTPCNclsF();
+
+ // Chi2 of tracks
+ Double_t chi2ITS = 999.;
+ if (nclsITS)
+ chi2ITS = track->GetITSchi2()/nclsITS;
+ Double_t chi2TPC = 999.;
+ Double_t chi2TPCConstrained = track->GetChi2TPCConstrainedVsGlobal(static_cast<const AliESDVertex*>(fPrimaryVertex));
+
+ // Misc
+ Double_t SharedTPCClusters = 999.;
+ Double_t nClustersTPC = 0;
+
+ if(fHybridESDtrackCuts->GetMainCuts()->GetRequireTPCStandAlone())
+ {
+ nClustersTPC = track->GetTPCNclsIter1();
+ if(nClustersTPC)
+ chi2TPC = track->GetTPCchi2Iter1()/nClustersTPC;
+ }
+ else
+ {
+ nClustersTPC = track->GetTPCclusters(0);
+ if(nClustersTPC)
+ chi2TPC = track->GetTPCchi2()/nClustersTPC;
+ }
-//________________________________________________________________________
-inline Double_t AliAnalysisTaskChargedJetsPA::GetPtHard()
-{
- #ifdef DEBUGMODE
- AliInfo("Starting GetPtHard.");
- #endif
- AliGenPythiaEventHeader* pythiaHeader = dynamic_cast<AliGenPythiaEventHeader*>(MCEvent()->GenEventHeader());
- if (MCEvent())
- if (!pythiaHeader)
+ if(nClustersTPC)
+ SharedTPCClusters = static_cast<Double_t>(track->GetTPCnclsS())/static_cast<Double_t>(nClustersTPC);
+
+
+ Double_t tpcLength = 0.;
+ if (track->GetInnerParam() && track->GetESDEvent()) {
+ tpcLength = track->GetLengthInActiveZone(1, 1.8, 220, track->GetESDEvent()->GetMagneticField());
+ }
+ track->GetImpactParameters(dca, cov);
+
+ // Basic kinematic cuts
+ if((pT<0.15) || (TMath::Abs(eta)>0.9))
+ continue;
+
+ Int_t trackType = 0;
+
+ // ################################################################
+ // ################################################################
+
+ if(fIsPA)
{
- // Check if AOD
- AliAODMCHeader* aodMCH = dynamic_cast<AliAODMCHeader*>(InputEvent()->FindListObject(AliAODMCHeader::StdBranchName()));
+ trackType = fHybridESDtrackCuts->AcceptTrack(track);
+ Double_t tmpThreshold90 = 70. + 20./20. * pT;
+ Double_t tmpThreshold100 = 70. + 30./20. * pT;
+ Double_t tmpThreshold110 = 70. + 40./20. * pT;
+ Double_t tmpThreshold120 = 70. + 50./20. * pT;
- if (aodMCH)
+ if(pT>20.)
{
- for(UInt_t i = 0;i<aodMCH->GetNCocktailHeaders();i++)
- {
- pythiaHeader = dynamic_cast<AliGenPythiaEventHeader*>(aodMCH->GetCocktailHeader(i));
- if (pythiaHeader) break;
- }
+ tmpThreshold90 = 70. + 20.;
+ tmpThreshold100 = 70. + 30.;
+ tmpThreshold110 = 70. + 40.;
+ tmpThreshold120 = 70. + 50.;
}
+
+ if (trackType)
+ {
+ if(ncrTPC>=tmpThreshold90)
+ FillCutHistogram("hCutsClustersPtDependence", 0, pT, eta, phi, trackType-1);
+ if(ncrTPC>=tmpThreshold100)
+ FillCutHistogram("hCutsClustersPtDependence", 1, pT, eta, phi, trackType-1);
+ if(ncrTPC>=tmpThreshold110)
+ FillCutHistogram("hCutsClustersPtDependence", 2, pT, eta, phi, trackType-1);
+ if(ncrTPC>=tmpThreshold120)
+ FillCutHistogram("hCutsClustersPtDependence", 3, pT, eta, phi, trackType-1);
+ }
+
+ if(fUsePtDepCrossedRowsCut && (ncrTPC<tmpThreshold100)) // pT dep crossed rows cut is not fulfilled
+ continue; // next track
}
+ else
+ {
+ trackType = fHybridESDtrackCuts_variedPtDep->AcceptTrack(track);
+ if (trackType)
+ FillCutHistogram("hCutsClustersPtDependence", 0, pT, eta, phi, trackType-1);
- #ifdef DEBUGMODE
- AliInfo("Ending GetPtHard.");
- #endif
- if (pythiaHeader)
- return pythiaHeader->GetPtHard();
+ trackType = fHybridESDtrackCuts->AcceptTrack(track);
+ if (trackType)
+ FillCutHistogram("hCutsClustersPtDependence", 1, pT, eta, phi, trackType-1);
- AliWarning(Form("In task %s: GetPtHard() failed!", GetName()));
- return -1.0;
-}
+ trackType = fHybridESDtrackCuts_variedPtDep2->AcceptTrack(track);
+ if (trackType)
+ FillCutHistogram("hCutsClustersPtDependence", 2, pT, eta, phi, trackType-1);
+ }
+ // ################################################################
+ // ################################################################
+ Int_t minNclsTPC = fHybridESDtrackCuts->GetMainCuts()->GetMinNClusterTPC();
+ Int_t minNclsTPC_Additional = fHybridESDtrackCuts->GetAdditionalCuts()->GetMinNClusterTPC();
+ fHybridESDtrackCuts->GetMainCuts()->SetMinNClustersTPC(0);
+ fHybridESDtrackCuts->GetAdditionalCuts()->SetMinNClustersTPC(0);
+
+ trackType = fHybridESDtrackCuts->AcceptTrack(track);
+ if (trackType)
+ FillCutHistogram("hCutsNumberClusters", nClustersTPC, pT, eta, phi, trackType-1);
+
+ fHybridESDtrackCuts->GetMainCuts()->SetMinNClustersTPC(minNclsTPC);
+ fHybridESDtrackCuts->GetAdditionalCuts()->SetMinNClustersTPC(minNclsTPC_Additional);
+ // ################################################################
+ // ################################################################
+ Float_t maxChi2 = fHybridESDtrackCuts->GetMainCuts()->GetMaxChi2PerClusterTPC();
+ Float_t maxChi2_Additional = fHybridESDtrackCuts->GetAdditionalCuts()->GetMaxChi2PerClusterTPC();
+ fHybridESDtrackCuts->GetMainCuts()->SetMaxChi2PerClusterTPC(999.);
+ fHybridESDtrackCuts->GetAdditionalCuts()->SetMaxChi2PerClusterTPC(999.);
+
+ trackType = fHybridESDtrackCuts->AcceptTrack(track);
+ if (trackType)
+ FillCutHistogram("hCutsChi2TPC", chi2TPC, pT, eta, phi, trackType-1);
+
+ fHybridESDtrackCuts->GetMainCuts()->SetMaxChi2PerClusterTPC(maxChi2);
+ fHybridESDtrackCuts->GetAdditionalCuts()->SetMaxChi2PerClusterTPC(maxChi2_Additional);
+
+ // ################################################################
+ // ################################################################
+ Float_t maxChi2TPCConstrained = fHybridESDtrackCuts->GetMainCuts()->GetMaxChi2TPCConstrainedGlobal();
+ Float_t maxChi2TPCConstrained_Additional = fHybridESDtrackCuts->GetAdditionalCuts()->GetMaxChi2TPCConstrainedGlobal();
+ fHybridESDtrackCuts->GetMainCuts()->SetMaxChi2TPCConstrainedGlobal(999.);
+ fHybridESDtrackCuts->GetAdditionalCuts()->SetMaxChi2TPCConstrainedGlobal(999.);
+
+ trackType = fHybridESDtrackCuts->AcceptTrack(track);
+ if (trackType)
+ FillCutHistogram("hCutsChi2Constrained", chi2TPCConstrained, pT, eta, phi, trackType-1);
+
+ fHybridESDtrackCuts->GetMainCuts()->SetMaxChi2TPCConstrainedGlobal(maxChi2TPCConstrained);
+ fHybridESDtrackCuts->GetAdditionalCuts()->SetMaxChi2TPCConstrainedGlobal(maxChi2TPCConstrained_Additional);
+
+ // ################################################################
+ // ################################################################
+ Float_t maxDcaZ = fHybridESDtrackCuts->GetMainCuts()->GetMaxDCAToVertexZ();
+ Float_t maxDcaZ_Additional = fHybridESDtrackCuts->GetAdditionalCuts()->GetMaxDCAToVertexZ();
+ fHybridESDtrackCuts->GetMainCuts()->SetMaxDCAToVertexZ(999.);
+ fHybridESDtrackCuts->GetAdditionalCuts()->SetMaxDCAToVertexZ(999.);
+
+ trackType = fHybridESDtrackCuts->AcceptTrack(track);
+ if (trackType)
+ FillCutHistogram("hCutsDCAZ", TMath::Abs(dca[1]), pT, eta, phi, trackType-1);
+
+ fHybridESDtrackCuts->GetMainCuts()->SetMaxDCAToVertexZ(maxDcaZ);
+ fHybridESDtrackCuts->GetAdditionalCuts()->SetMaxDCAToVertexZ(maxDcaZ_Additional);
+
+ // ################################################################
+ // ################################################################
+ Float_t maxDcaXY = fHybridESDtrackCuts->GetMainCuts()->GetMaxDCAToVertexXY();
+ Float_t maxDcaXY_Additional = fHybridESDtrackCuts->GetAdditionalCuts()->GetMaxDCAToVertexXY();
+ fHybridESDtrackCuts->GetMainCuts()->SetMaxDCAToVertexXY(999.);
+ fHybridESDtrackCuts->GetAdditionalCuts()->SetMaxDCAToVertexXY(999.);
+
+ trackType = fHybridESDtrackCuts->AcceptTrack(track);
+ if (trackType)
+ FillCutHistogram("hCutsDCAXY", TMath::Abs(dca[0]), pT, eta, phi, trackType-1);
+
+ fHybridESDtrackCuts->GetMainCuts()->SetMaxDCAToVertexXY(maxDcaXY);
+ fHybridESDtrackCuts->GetAdditionalCuts()->SetMaxDCAToVertexXY(maxDcaXY_Additional);
+
+ // ################################################################
+ // ################################################################
+ AliESDtrackCuts::ITSClusterRequirement clusterReq = fHybridESDtrackCuts->GetMainCuts()->GetClusterRequirementITS(AliESDtrackCuts::kSPD);
+ AliESDtrackCuts::ITSClusterRequirement clusterReq_Additional = fHybridESDtrackCuts->GetAdditionalCuts()->GetClusterRequirementITS(AliESDtrackCuts::kSPD);
+ fHybridESDtrackCuts->GetMainCuts()->SetClusterRequirementITS(AliESDtrackCuts::kSPD, AliESDtrackCuts::kOff);
+ fHybridESDtrackCuts->GetAdditionalCuts()->SetClusterRequirementITS(AliESDtrackCuts::kSPD, AliESDtrackCuts::kOff);
+
+ Int_t hasPoint = 0;
+ if (track->HasPointOnITSLayer(0) || track->HasPointOnITSLayer(1)) hasPoint = 1;
+ trackType = fHybridESDtrackCuts->AcceptTrack(track);
+ if (trackType)
+ FillCutHistogram("hCutsSPDHit", hasPoint, pT, eta, phi, trackType-1);
+
+ fHybridESDtrackCuts->GetMainCuts()->SetClusterRequirementITS(AliESDtrackCuts::kSPD, clusterReq);
+ fHybridESDtrackCuts->GetAdditionalCuts()->SetClusterRequirementITS(AliESDtrackCuts::kSPD, clusterReq_Additional);
+
+ // ################################################################
+ // ################################################################
+ Float_t minNcrTPC = fHybridESDtrackCuts->GetMainCuts()->GetMinNCrossedRowsTPC();
+ Float_t minNcrTPC_Additional = fHybridESDtrackCuts->GetAdditionalCuts()->GetMinNCrossedRowsTPC();
+ fHybridESDtrackCuts->GetMainCuts()->SetMinNCrossedRowsTPC(0);
+ fHybridESDtrackCuts->GetAdditionalCuts()->SetMinNCrossedRowsTPC(0);
+
+ trackType = fHybridESDtrackCuts->AcceptTrack(track);
+ if (trackType)
+ FillCutHistogram("hCutsNumberCrossedRows", ncrTPC, pT, eta, phi, trackType-1);
+
+ fHybridESDtrackCuts->GetMainCuts()->SetMinNCrossedRowsTPC(minNcrTPC);
+ fHybridESDtrackCuts->GetAdditionalCuts()->SetMinNCrossedRowsTPC(minNcrTPC_Additional);
+
+ // ################################################################
+ // ################################################################
+ Float_t minCRoverFC = fHybridESDtrackCuts->GetMainCuts()->GetMinRatioCrossedRowsOverFindableClustersTPC();
+ Float_t minCRoverFC_Additional = fHybridESDtrackCuts->GetAdditionalCuts()->GetMinRatioCrossedRowsOverFindableClustersTPC();
+ fHybridESDtrackCuts->GetMainCuts()->SetMinRatioCrossedRowsOverFindableClustersTPC(0.);
+ fHybridESDtrackCuts->GetAdditionalCuts()->SetMinRatioCrossedRowsOverFindableClustersTPC(0.);
+
+ trackType = fHybridESDtrackCuts->AcceptTrack(track);
+ if (trackType)
+ FillCutHistogram("hCutsNumberCrossedRowsOverFindableClusters", nCRoverFC, pT, eta, phi, trackType-1);
+
+ fHybridESDtrackCuts->GetMainCuts()->SetMinRatioCrossedRowsOverFindableClustersTPC(minCRoverFC);
+ fHybridESDtrackCuts->GetAdditionalCuts()->SetMinRatioCrossedRowsOverFindableClustersTPC(minCRoverFC_Additional);
+
+ // ################################################################
+ // ################################################################
+ Float_t maxSharedTPC = fHybridESDtrackCuts->GetMainCuts()->GetMaxFractionSharedTPCClusters();
+ Float_t maxSharedTPC_Additional = fHybridESDtrackCuts->GetAdditionalCuts()->GetMaxFractionSharedTPCClusters();
+ fHybridESDtrackCuts->GetMainCuts()->SetMaxFractionSharedTPCClusters(999.);
+ fHybridESDtrackCuts->GetAdditionalCuts()->SetMaxFractionSharedTPCClusters(999.);
+
+ trackType = fHybridESDtrackCuts->AcceptTrack(track);
+ if (trackType)
+ FillCutHistogram("hCutsSharedTPC", SharedTPCClusters, pT, eta, phi, trackType-1);
+
+ fHybridESDtrackCuts->GetMainCuts()->SetMaxFractionSharedTPCClusters(maxSharedTPC);
+ fHybridESDtrackCuts->GetAdditionalCuts()->SetMaxFractionSharedTPCClusters(maxSharedTPC_Additional);
+
+ // ################################################################
+ // ################################################################
+ Bool_t reqTPCRefit = fHybridESDtrackCuts->GetMainCuts()->GetRequireTPCRefit();
+ Bool_t reqTPCRefit_Additional = fHybridESDtrackCuts->GetAdditionalCuts()->GetRequireTPCRefit();
+
+ fHybridESDtrackCuts->GetMainCuts()->SetRequireTPCRefit(1);
+ fHybridESDtrackCuts->GetAdditionalCuts()->SetRequireTPCRefit(1);
+ trackType = fHybridESDtrackCuts->AcceptTrack(track);
+ if (trackType)
+ FillCutHistogram("hCutsTPCRefit", 1, pT, eta, phi, trackType-1);
+ else // track is not accepted as global hybrid with TPC refit requirement
+ {
+ fHybridESDtrackCuts->GetMainCuts()->SetRequireTPCRefit(0);
+ fHybridESDtrackCuts->GetAdditionalCuts()->SetRequireTPCRefit(0);
+ trackType = fHybridESDtrackCuts->AcceptTrack(track);
+ if (trackType)
+ FillCutHistogram("hCutsTPCRefit", 0, pT, eta, phi, trackType-1);
+ }
+ fHybridESDtrackCuts->GetMainCuts()->SetRequireTPCRefit(reqTPCRefit);
+ fHybridESDtrackCuts->GetAdditionalCuts()->SetRequireTPCRefit(reqTPCRefit_Additional);
+
+ // ################################################################
+ // ################################################################
+ Float_t maxChi2ITS = fHybridESDtrackCuts->GetMainCuts()->GetMaxChi2PerClusterITS();
+ Float_t maxChi2ITS_Additional = fHybridESDtrackCuts->GetAdditionalCuts()->GetMaxChi2PerClusterITS();
+ fHybridESDtrackCuts->GetMainCuts()->SetMaxChi2PerClusterITS(999.);
+ fHybridESDtrackCuts->GetAdditionalCuts()->SetMaxChi2PerClusterITS(999.);
+
+ trackType = fHybridESDtrackCuts->AcceptTrack(track);
+ if (trackType)
+ FillCutHistogram("hCutsChi2ITS", chi2ITS, pT, eta, phi, trackType-1);
+
+ fHybridESDtrackCuts->GetMainCuts()->SetMaxChi2PerClusterITS(maxChi2ITS);
+ fHybridESDtrackCuts->GetAdditionalCuts()->SetMaxChi2PerClusterITS(maxChi2ITS_Additional);
+
+ // ################################################################
+ // ################################################################
+ Float_t minTpcLength = fHybridESDtrackCuts->GetMainCuts()->GetMinLengthActiveVolumeTPC(); // Active length TPC
+ Float_t minTpcLength_Additional = fHybridESDtrackCuts->GetAdditionalCuts()->GetMinLengthActiveVolumeTPC();
+ fHybridESDtrackCuts->GetMainCuts()->SetMinLengthActiveVolumeTPC(0);
+ fHybridESDtrackCuts->GetAdditionalCuts()->SetMinLengthActiveVolumeTPC(0);
+
+ trackType = fHybridESDtrackCuts->AcceptTrack(track);
+ if (trackType)
+ FillCutHistogram("hCutsTPCLength", tpcLength, pT, eta, phi, trackType-1);
+
+ fHybridESDtrackCuts->GetMainCuts()->SetMinLengthActiveVolumeTPC(minTpcLength);
+ fHybridESDtrackCuts->GetAdditionalCuts()->SetMinLengthActiveVolumeTPC(minTpcLength_Additional);
+
+ // ################################################################
+ // ################################################################
+ Bool_t isMatched = kFALSE;
+ Float_t chi2tpc = fHybridESDtrackCuts->GetMainCuts()->GetMaxChi2TPCConstrainedGlobal();
+ Float_t chi2its = fHybridESDtrackCuts->GetMainCuts()->GetMaxChi2PerClusterITS();
+ Float_t chi2tpc_Additional = fHybridESDtrackCuts->GetAdditionalCuts()->GetMaxChi2TPCConstrainedGlobal();
+ Float_t chi2its_Additional = fHybridESDtrackCuts->GetAdditionalCuts()->GetMaxChi2PerClusterITS();
+
+ fHybridESDtrackCuts->GetMainCuts()->SetMaxChi2TPCConstrainedGlobal(99999.);
+ fHybridESDtrackCuts->GetMainCuts()->SetMaxChi2PerClusterITS(999999.);
+ fHybridESDtrackCuts->GetAdditionalCuts()->SetMaxChi2TPCConstrainedGlobal(99999.);
+ fHybridESDtrackCuts->GetAdditionalCuts()->SetMaxChi2PerClusterITS(999999.);
+
+ trackType = fHybridESDtrackCuts->AcceptTrack(track);
+ if (trackType)
+ FillCutHistogram("hCutsTPCITSMatching", isMatched, pT, eta, phi, trackType-1);
+
+ fHybridESDtrackCuts->GetMainCuts()->SetMaxChi2TPCConstrainedGlobal(chi2tpc);
+ fHybridESDtrackCuts->GetMainCuts()->SetMaxChi2PerClusterITS(chi2its);
+ fHybridESDtrackCuts->GetAdditionalCuts()->SetMaxChi2TPCConstrainedGlobal(chi2tpc_Additional);
+ fHybridESDtrackCuts->GetAdditionalCuts()->SetMaxChi2PerClusterITS(chi2its_Additional);
+
+ isMatched=kTRUE;
+ trackType = fHybridESDtrackCuts->AcceptTrack(track);
+ if (trackType)
+ FillCutHistogram("hCutsTPCITSMatching", isMatched, pT, eta, phi, trackType-1);
+
+ // ################################################################
+ // ################################################################
+ if((fHybridESDtrackCuts->GetMainCuts()->GetClusterRequirementITS(AliESDtrackCuts::kSPD) == AliESDtrackCuts::kOff)
+ || (fHybridESDtrackCuts->GetAdditionalCuts() && (fHybridESDtrackCuts->GetAdditionalCuts()->GetClusterRequirementITS(AliESDtrackCuts::kSPD) == AliESDtrackCuts::kOff)))
+ {
+ Bool_t isConstrainedWithITSRefit = static_cast<Bool_t>(track->GetConstrainedParam()) && ((track->GetStatus())&AliESDtrack::kITSrefit);
+ if (trackType)
+ FillCutHistogram("hCutsTrackConstrained", isConstrainedWithITSRefit, pT, eta, phi, trackType-1);
+ }
+
+ }
+
+ CreateITSTPCMatchingHistograms();
+ SetCurrentOutputList(0);
+}
//________________________________________________________________________
-inline Double_t AliAnalysisTaskChargedJetsPA::GetPythiaTrials()
+void AliAnalysisTaskChargedJetsPA::CreateITSTPCMatchingHistograms()
{
- #ifdef DEBUGMODE
- AliInfo("Starting GetPythiaTrials.");
- #endif
- AliGenPythiaEventHeader* pythiaHeader = dynamic_cast<AliGenPythiaEventHeader*>(MCEvent()->GenEventHeader());
- if (MCEvent())
- if (!pythiaHeader)
- {
- // Check if AOD
- AliAODMCHeader* aodMCH = dynamic_cast<AliAODMCHeader*>(InputEvent()->FindListObject(AliAODMCHeader::StdBranchName()));
+ //
+ // check how many its-sa tracks get matched to TPC
+ //
+ Bool_t fExcludeMomFromChi2ITSTPC = kFALSE; // ITS->TPC : exclude momentum from matching chi2 calculation
- if (aodMCH)
- {
- for(UInt_t i = 0;i<aodMCH->GetNCocktailHeaders();i++)
- {
- pythiaHeader = dynamic_cast<AliGenPythiaEventHeader*>(aodMCH->GetCocktailHeader(i));
- if (pythiaHeader) break;
- }
+ AliESDEvent* fESD = dynamic_cast<AliESDEvent*>( InputEvent() );
+ if (!fESD)
+ {
+ AliError("For cut analysis, ESDs must be processed!");
+ return;
+ }
+
+ int ntr = fESD->GetNumberOfTracks();
+ //
+ // initialize histograms
+ //
+ TH2D * hNMatch = (TH2D*) fCurrentOutputList->FindObject("hCutsITSTPC_NMatch");
+ TH2D * hBestMatch = (TH2D*) fCurrentOutputList->FindObject("hCutsITSTPC_BestMatch");
+ TH2D * hBestMatch_cuts = (TH2D*) fCurrentOutputList->FindObject("hCutsITSTPC_BestMatch_cuts");
+ TH2D * hAllMatch = (TH2D*) fCurrentOutputList->FindObject("hCutsITSTPC_AllMatch");
+ TH2D * hAllMatchGlo = (TH2D*) fCurrentOutputList->FindObject("hCutsITSTPC_AllMatchGlo");
+ TH2D * hPtCorr_ITSTPC = (TH2D*) fCurrentOutputList->FindObject("hCutsITSTPC_PtCorr_ITSTPC");
+ TH2D * hdPtRel_ITSTPC = (TH2D*) fCurrentOutputList->FindObject("hCutsITSTPC_dPtRel_ITSTPC");
+ TH2D * hdInvPtRel_ITSTPC = (TH2D*) fCurrentOutputList->FindObject("hCutsITSTPC_dInvPtRel_ITSTPC");
+
+ //
+ TH2D * hNMatchBg = (TH2D*) fCurrentOutputList->FindObject("hCutsITSTPC_NMatchBg");
+ TH2D * hBestMatchBg = (TH2D*) fCurrentOutputList->FindObject("hCutsITSTPC_BestMatchBg");
+ TH2D * hBestMatchBg_cuts = (TH2D*) fCurrentOutputList->FindObject("hCutsITSTPC_BestMatchBg_cuts");
+ TH2D * hAllMatchBg = (TH2D*) fCurrentOutputList->FindObject("hCutsITSTPC_AllMatchBg");
+ TH2D * hAllMatchGloBg = (TH2D*) fCurrentOutputList->FindObject("hCutsITSTPC_AllMatchGloBg");
+ TH2D * hdPtRelBg_ITSTPC = (TH2D*) fCurrentOutputList->FindObject("hCutsITSTPC_dPtRelBg_ITSTPC");
+ TH2D * hdInvPtRelBg_ITSTPC = (TH2D*) fCurrentOutputList->FindObject("hCutsITSTPC_dInvPtRelBg_ITSTPC");
+
+ if(!(hNMatch && hBestMatch && hBestMatch_cuts && hAllMatch && hAllMatchGlo && hPtCorr_ITSTPC && hdPtRel_ITSTPC && hdInvPtRel_ITSTPC && hNMatchBg && hBestMatchBg && hBestMatchBg_cuts && hAllMatchBg && hAllMatchGloBg && hdPtRelBg_ITSTPC && hdInvPtRelBg_ITSTPC))
+ {
+ cout << " === ERROR: At least one of the ITSTPC histograms not found! ===\n";
+ cout << Form(" === Details: %p-%p-%p-%p-%p-%p-%p-%p-%p-%p-%p-%p-%p-%p-%p", hNMatch, hBestMatch, hBestMatch_cuts, hAllMatch, hAllMatchGlo, hPtCorr_ITSTPC, hdPtRel_ITSTPC, hdInvPtRel_ITSTPC, hNMatchBg, hBestMatchBg, hBestMatchBg_cuts, hAllMatchBg, hAllMatchGloBg, hdPtRelBg_ITSTPC, hdInvPtRelBg_ITSTPC) << endl;
+ fCurrentOutputList->Print();
+ return;
+ }
+ //
+ for (int it=0;it<ntr;it++) {
+ AliESDtrack* trSA = fESD->GetTrack(it);
+ if (!trSA->IsOn(AliESDtrack::kITSpureSA) || !trSA->IsOn(AliESDtrack::kITSrefit)) continue;
+ double pt = trSA->Pt();
+
+ // OB - fiducial eta and pt cuts
+ Double_t etaSA = trSA->Eta();
+
+ if(TMath::Abs(etaSA)>0.8) continue;
+
+ //
+ Int_t nmatch = 0;
+ for (int i=kMaxMatch;i--;) {fMatchChi[i]=0; fMatchTr[i]=0;}
+ for (int it1=0;it1<ntr;it1++){
+ if (it1==it) continue;
+
+ AliESDtrack* trESD = fESD->GetTrack(it1);
+ if (!trESD->IsOn(AliESDtrack::kTPCrefit)) continue;
+ Match(trSA,trESD, nmatch, fExcludeMomFromChi2ITSTPC);
+ }
+ //
+
+ hNMatch->Fill(pt,nmatch);
+ if (nmatch>0){
+ hBestMatch->Fill(pt,fMatchChi[0]);
+ hPtCorr_ITSTPC->Fill(pt,fMatchTr[0]->Pt());
+ hdPtRel_ITSTPC->Fill(pt,(pt-fMatchTr[0]->Pt())/pt);
+ hdInvPtRel_ITSTPC->Fill(pt,pt*( 1/pt - (1/fMatchTr[0]->Pt()) ));
+ }
+
+ if (nmatch>0 && fHybridESDtrackCuts){
+
+ if(fHybridESDtrackCuts->AcceptTrack(fMatchTr[0])){
+ hBestMatch_cuts->Fill(pt,fMatchChi[0]);
}
}
+
+ //
+ for (int imt=nmatch;imt--;) {
+ hAllMatch->Fill(pt,fMatchChi[imt]);
+ if (fMatchTr[imt]->IsOn(AliESDtrack::kITSrefit)) hAllMatchGlo->Fill(pt,fMatchChi[imt]);
+ }
+ //
+ nmatch = 0;
+ for (int i=kMaxMatch;i--;) {fMatchChi[i]=0; fMatchTr[i]=0;}
+ for (int it1=0;it1<ntr;it1++) {
+ if (it1==it) continue;
+ AliESDtrack* trESD = fESD->GetTrack(it1);
+ if (!trESD->IsOn(AliESDtrack::kTPCrefit)) continue;
+ Match(trSA,trESD, nmatch, fExcludeMomFromChi2ITSTPC, TMath::Pi());
+ }
+ //
+ hNMatchBg->Fill(pt,nmatch);
+ if (nmatch>0){
+ hBestMatchBg->Fill(pt,fMatchChi[0]);
+ hdPtRelBg_ITSTPC->Fill(pt,(pt-fMatchTr[0]->Pt())/pt);
+ hdInvPtRelBg_ITSTPC->Fill(pt,pt*( 1/pt - (1/fMatchTr[0]->Pt()) ));
+ }
- #ifdef DEBUGMODE
- AliInfo("Ending GetPythiaTrials.");
- #endif
- if (pythiaHeader)
- return pythiaHeader->Trials();
+ if (nmatch>0 && fHybridESDtrackCuts){
+ if(fHybridESDtrackCuts->AcceptTrack(fMatchTr[0])){
+ hBestMatchBg_cuts->Fill(pt,fMatchChi[0]);
+ }
+ }
- AliWarning(Form("In task %s: GetPythiaTrials() failed!", GetName()));
- return -1.0;
+ for (int imt=nmatch;imt--;) {
+ hAllMatchBg->Fill(pt,fMatchChi[imt]);
+ if (fMatchTr[imt]->IsOn(AliESDtrack::kITSrefit)) hAllMatchGloBg->Fill(pt,fMatchChi[imt]);
+ }
+ //
+ }
}
-
-
//________________________________________________________________________
-inline Int_t AliAnalysisTaskChargedJetsPA::GetPtHardBin()
+void AliAnalysisTaskChargedJetsPA::Match(AliESDtrack* tr0, AliESDtrack* tr1, Int_t& nmatch, Bool_t excludeMom, Double_t rotate)
{
- #ifdef DEBUGMODE
- AliInfo("Starting GetPtHardBin.");
- #endif
- // ########## PT HARD BIN EDGES
- const Int_t kPtHardLowerEdges[] = { 0, 5,11,21,36,57, 84,117,152,191,234};
- const Int_t kPtHardHigherEdges[] = { 5,11,21,36,57,84,117,152,191,234,1000000};
+ //
+ // check if two tracks are matching, possible rotation for combinatoric backgr.
+ //
+ AliESDEvent* fESD = dynamic_cast<AliESDEvent*>( InputEvent() );
+ if (!fESD)
+ {
+ AliError("For cut analysis, ESDs must be processed!");
+ return;
+ }
- Int_t tmpPtHardBin = 0;
- Double_t tmpPtHard = GetPtHard();
-
- for (tmpPtHardBin = 0; tmpPtHardBin <= fNumPtHardBins; tmpPtHardBin++)
- if (tmpPtHard >= kPtHardLowerEdges[tmpPtHardBin] && tmpPtHard < kPtHardHigherEdges[tmpPtHardBin])
- break;
+ Float_t bField = fESD->GetMagneticField();
+ //
+ const AliExternalTrackParam* trtpc0 = tr1->GetInnerParam();
+ if (!trtpc0) return;
+ AliExternalTrackParam trtpc(*trtpc0);
+ //
+ if (TMath::Abs(rotate)>1e-5) {
+ const double *par = trtpc.GetParameter();
+ const double *cov = trtpc.GetCovariance();
+ double alp = trtpc.GetAlpha() + rotate;
+ trtpc.Set(trtpc.GetX(),alp,par,cov);
+ }
+ //
+ if (!trtpc.Rotate(tr0->GetAlpha())) return;
+ if (!trtpc.PropagateTo(tr0->GetX(),bField)) return;
+ double chi2 = tr0->GetPredictedChi2(&trtpc);
- #ifdef DEBUGMODE
- AliInfo("Ending GetPtHardBin.");
- #endif
- return tmpPtHardBin;
+ //std::cout<<" in Match, nmatch "<<nmatch<<" par[4] before "<<trtpc.GetParameter()[4]<<" chi2 "<<chi2<<endl;
+
+ // OB chi2 excluding pt
+ if(excludeMom){
+ ((double*)trtpc.GetParameter())[4] = tr0->GetParameter()[4]; // set ITS mom equal TPC mom
+ chi2 = tr0->GetPredictedChi2(&trtpc);
+
+ //std::cout<<" in Match, nmatch "<<nmatch<<" par[4] after "<<trtpc.GetParameter()[4]<<" tr0 mom "<<tr0->GetParameter()[4]
+ // <<" chi2 "<<chi2<<std::endl;
+ }
+
+
+ if (chi2>kMaxChi2) return;
+
+ // std::cout<<" found good match, tr1 "<<tr1<<" chi2 "<<chi2<<std::endl;
+ // std::cout<<" before: fMatchChi[0] "<<fMatchChi[0]<<" [1] "<<fMatchChi[1]
+ // <<" [2] "<<fMatchChi[2]<<" [3] "<<fMatchChi[3]
+ // <<" [4] "<<fMatchChi[4]<<std::endl;
+
+ // std::cout<<" before: fMatchTr[0] "<<fMatchTr[0]<<" [1] "<<fMatchTr[1]
+ // <<" [2] "<<fMatchTr[2]<<" [3] "<<fMatchTr[3]
+ // <<" [4] "<<fMatchTr[4]<<std::endl;
+
+ //
+ int ins;
+ for (ins=0;ins<nmatch;ins++) if (chi2<fMatchChi[ins]) break;
+ if (ins>=kMaxMatch) return;
+
+ for (int imv=nmatch;imv>ins;imv--) {
+ if (imv>=kMaxMatch) continue;
+ fMatchTr[imv] = fMatchTr[imv-1];
+ fMatchChi[imv] = fMatchChi[imv-1];
+ }
+ fMatchTr[ins] = tr1;
+ fMatchChi[ins] = chi2;
+ nmatch++;
+ if (nmatch>=kMaxMatch) nmatch = kMaxMatch;
+ //
}
//________________________________________________________________________
return (rho->GetVal());
}
-
-//________________________________________________________________________
-inline Bool_t AliAnalysisTaskChargedJetsPA::IsTrackInCone(AliVTrack* track, Double_t eta, Double_t phi, Double_t radius)
-{
- // This is to use a full cone in phi even at the edges of phi (2pi -> 0) (0 -> 2pi)
- Double_t trackPhi = 0.0;
- if (track->Phi() > (TMath::TwoPi() - (radius-phi)))
- trackPhi = track->Phi() - TMath::TwoPi();
- else if (track->Phi() < (phi+radius - TMath::TwoPi()))
- trackPhi = track->Phi() + TMath::TwoPi();
- else
- trackPhi = track->Phi();
-
- if ( TMath::Abs(trackPhi-phi)*TMath::Abs(trackPhi-phi) + TMath::Abs(track->Eta()-eta)*TMath::Abs(track->Eta()-eta) <= radius*radius)
- return kTRUE;
-
- return kFALSE;
-}
-
-//________________________________________________________________________
-inline Bool_t AliAnalysisTaskChargedJetsPA::IsTrackInJet(AliEmcalJet* jet, Int_t trackIndex)
-{
- for (Int_t i = 0; i < jet->GetNumberOfTracks(); ++i)
- {
- Int_t jetTrack = jet->TrackAt(i);
- if (jetTrack == trackIndex)
- return kTRUE;
- }
- return kFALSE;
-}
-
-//________________________________________________________________________
-inline Bool_t AliAnalysisTaskChargedJetsPA::IsJetOverlapping(AliEmcalJet* jet1, AliEmcalJet* jet2)
-{
- for (Int_t i = 0; i < jet1->GetNumberOfTracks(); ++i)
- {
- Int_t jet1Track = jet1->TrackAt(i);
- for (Int_t j = 0; j < jet2->GetNumberOfTracks(); ++j)
- {
- Int_t jet2Track = jet2->TrackAt(j);
- if (jet1Track == jet2Track)
- return kTRUE;
- }
- }
- return kFALSE;
-}
-
//________________________________________________________________________
inline Bool_t AliAnalysisTaskChargedJetsPA::IsEventInAcceptance(AliVEvent* event)
{
FillHistogram("hEventAcceptance", 1.5); // number of events after pileup cuts
- if(fAnalyzeQA)
- FillHistogram("hVertexZBeforeVertexCut",event->GetPrimaryVertex()->GetZ());
+ fPrimaryVertex = event->GetPrimaryVertex();
+
+ FillHistogram("hVertexZBeforeVertexCut",fPrimaryVertex->GetZ());
if(fUseDefaultVertexCut)
{
}
else // Failsafe vertex cut
{
- if(TMath::Abs(event->GetPrimaryVertex()->GetZ()) > 10.0)
+ if(!fPrimaryVertex || (TMath::Abs(fPrimaryVertex->GetZ()) > 10.0) || (fPrimaryVertex->GetNContributors()<1))
return kFALSE;
}
- if(fAnalyzeQA)
- FillHistogram("hVertexZAfterVertexCut",event->GetPrimaryVertex()->GetZ());
+
+ FillHistogram("hVertexZAfterVertexCut",fPrimaryVertex->GetZ());
FillHistogram("hEventAcceptance", 2.5); // number of events after vertex cut
FillHistogram("hTrackAcceptance", 0.5);
if (track != 0)
{
- if(fIsKinematics)
- {
- // TODO: Only working for AOD MC
- if((!track->Charge()) || (!(static_cast<AliAODMCParticle*>(track))->IsPhysicalPrimary()) )
- return kFALSE;
- }
- if (TMath::Abs(track->Eta()) <= fTrackEtaWindow)
+ if ((track->Eta() < fMaxEta) && (track->Eta() >= fMinEta))
{
FillHistogram("hTrackAcceptance", 1.5);
if (track->Pt() >= fMinTrackPt)
inline Bool_t AliAnalysisTaskChargedJetsPA::IsBackgroundJetInAcceptance(AliEmcalJet *jet)
{
if (jet != 0)
- if (TMath::Abs(jet->Eta()) <= fBackgroundJetEtaWindow)
+ if ((jet->Eta() >= fMinJetEta) && (jet->Eta() < fMaxJetEta))
if (jet->Pt() >= fMinBackgroundJetPt)
return kTRUE;
}
//________________________________________________________________________
-inline Bool_t AliAnalysisTaskChargedJetsPA::IsSignalJetInAcceptance(AliEmcalJet *jet)
-{
+inline Bool_t AliAnalysisTaskChargedJetsPA::IsSignalJetInAcceptance(AliEmcalJet *jet, Bool_t usePtCut)
+{
+ Bool_t acceptedWithPtCut = kFALSE;
+ Bool_t acceptedWithoutPtCut = kFALSE;
+
FillHistogram("hJetAcceptance", 0.5);
if (jet != 0)
- if (TMath::Abs(jet->Eta()) <= fSignalJetEtaWindow)
+ if ((jet->Eta() >= fMinJetEta) && (jet->Eta() < fMaxJetEta))
{
FillHistogram("hJetAcceptance", 1.5);
- if (jet->Pt() >= fMinJetPt)
+ if (jet->Pt() >= fMinJetPt) // jet fulfills pt cut
{
FillHistogram("hJetAcceptance", 2.5);
if (jet->Area() >= fMinJetArea)
{
FillHistogram("hJetAcceptance", 3.5);
- return kTRUE;
+ acceptedWithPtCut = kTRUE;
}
}
+ else if(!usePtCut) // jet does not fulfill pt cut
+ {
+ if (jet->Area() >= fMinJetArea)
+ acceptedWithoutPtCut = kTRUE;
+ }
}
- return kFALSE;
-}
-//________________________________________________________________________
-inline Bool_t AliAnalysisTaskChargedJetsPA::IsDijet(AliEmcalJet *jet1, AliEmcalJet *jet2)
-{
- // Output from GetDeltaPhi is < pi in any case
- if ((jet1 != 0) && (jet2 != 0))
- if((TMath::Pi() - GetDeltaPhi(jet1->Phi(),jet2->Phi())) < fDijetMaxAngleDeviation)
- if ((jet1->Pt() > fMinDijetLeadingPt) && (jet2->Pt() > fMinDijetLeadingPt)) //TODO: Introduce recoil jet?
- return kTRUE;
-
- return kFALSE;
+ if(usePtCut)
+ return (acceptedWithPtCut);
+ else
+ return (acceptedWithPtCut || acceptedWithoutPtCut);
}
//________________________________________________________________________
fInitialized = kTRUE;
// Check for track array
- if (strcmp(fTrackArrayName->Data(), "") != 0)
+ if (strcmp(fTrackArrayName.Data(), "") != 0)
{
- fTrackArray = dynamic_cast<TClonesArray*>(InputEvent()->FindListObject(fTrackArrayName->Data()));
- fHasTracks = kTRUE;
+ fTrackArray = dynamic_cast<TClonesArray*>(InputEvent()->FindListObject(fTrackArrayName.Data()));
if (!fTrackArray)
- {
- AliWarning(Form("%s: Could not retrieve tracks %s! This is OK, if tracks are not demanded.", GetName(), fTrackArrayName->Data()));
- fHasTracks = kFALSE;
- }
+ AliWarning(Form("%s: Could not retrieve tracks %s!", GetName(), fTrackArrayName.Data()));
else
{
TClass *cl = fTrackArray->GetClass();
if (!cl->GetBaseClass("AliVParticle"))
{
- AliError(Form("%s: Collection %s does not contain AliVParticle objects!", GetName(), fTrackArrayName->Data()));
- fTrackArray = 0;
- fHasTracks = kFALSE;
+ AliError(Form("%s: Collection %s does not contain AliVParticle objects!", GetName(), fTrackArrayName.Data()));
+ fTrackArray = 0;
}
}
}
// Check for jet array
- if (strcmp(fJetArrayName->Data(), "") != 0)
+ if (strcmp(fJetArrayName.Data(), "") != 0)
{
- fJetArray = dynamic_cast<TClonesArray*>(InputEvent()->FindListObject(fJetArrayName->Data()));
- fHasJets = kTRUE;
-
+ fJetArray = dynamic_cast<TClonesArray*>(InputEvent()->FindListObject(fJetArrayName.Data()));
if (!fJetArray)
- {
- AliWarning(Form("%s: Could not retrieve jets %s! This is OK, if jets are not demanded.", GetName(), fJetArrayName->Data()));
- fHasJets = kFALSE;
- }
+ AliWarning(Form("%s: Could not retrieve jets %s!", GetName(), fJetArrayName.Data()));
else
{
if (!fJetArray->GetClass()->GetBaseClass("AliEmcalJet"))
{
- AliError(Form("%s: Collection %s does not contain AliEmcalJet objects!", GetName(), fJetArrayName->Data()));
+ AliError(Form("%s: Collection %s does not contain AliEmcalJet objects!", GetName(), fJetArrayName.Data()));
fJetArray = 0;
- fHasJets = kFALSE;
}
}
}
// Check for background object
- if (strcmp(fBackgroundJetArrayName->Data(), "") != 0)
+ if (strcmp(fBackgroundJetArrayName.Data(), "") != 0)
{
- fBackgroundJetArray = dynamic_cast<TClonesArray*>(InputEvent()->FindListObject(fBackgroundJetArrayName->Data()));
- fHasBackgroundJets = kTRUE;
+ fBackgroundJetArray = dynamic_cast<TClonesArray*>(InputEvent()->FindListObject(fBackgroundJetArrayName.Data()));
if (!fBackgroundJetArray)
- {
- AliInfo(Form("%s: Could not retrieve background jets %s! This is OK, if background is not demanded.", GetName(), fBackgroundJetArrayName->Data()));
- fHasBackgroundJets = kFALSE;
- }
- }
-
- // Look, if initialization is OK
- if (!fHasTracks && fAnalyzeBackground)
- {
- AliError(Form("%s: Tracks NOT successfully casted although demanded! Deactivating background analysis",GetName()));
- fAnalyzeBackground = kFALSE;
- }
- if ((!fHasJets && fAnalyzeJets) || (!fHasJets && fAnalyzeBackground))
- {
- AliError(Form("%s: Jets NOT successfully casted although demanded! Deactivating jet- and background analysis",GetName()));
- fAnalyzeJets = kFALSE;
- fAnalyzeBackground = kFALSE;
- }
- if (!fHasBackgroundJets && fAnalyzeBackground)
- {
- AliError(Form("%s: Background NOT successfully casted although demanded! Deactivating background analysis",GetName()));
- fAnalyzeBackground = kFALSE;
+ AliInfo(Form("%s: Could not retrieve background jets %s!", GetName(), fBackgroundJetArrayName.Data()));
}
// Initialize helper class (for vertex selection & pile up correction)
fHelperClass->SetCutOnZVertexSPD(kFALSE);
// Histogram init
Init();
+ // Trackcut initialization
+ InitializeTrackcuts();
#ifdef DEBUGMODE
AliInfo("ExecOnce done.");
}
//________________________________________________________________________
-void AliAnalysisTaskChargedJetsPA::GetSignalJets()
+void AliAnalysisTaskChargedJetsPA::GetLeadingJets()
{
// Reset vars
fFirstLeadingJet = NULL;
fSecondLeadingJet = NULL;
+ fFirstLeadingKTJet = NULL;
+ fSecondLeadingKTJet = NULL;
+
fNumberSignalJets = 0;
+ fNumberSignalJetsAbove5GeV = 0;
+
+ Int_t jetIDArray[] = {-1, -1};
+ Float_t maxJetPts[] = {0, 0};
+ jetIDArray[0] = -1;
+ jetIDArray[1] = -1;
- TList tmpJets;
+ Int_t jetIDArrayKT[] = {-1, -1};
+ Float_t maxJetPtsKT[] = {0, 0};
+ jetIDArrayKT[0] = -1;
+ jetIDArrayKT[1] = -1;
+
+ // Find leading signal jets
for (Int_t i = 0; i < fJetArray->GetEntries(); i++)
{
AliEmcalJet* jet = static_cast<AliEmcalJet*>(fJetArray->At(i));
- if (!jet)
+ if (!jet)
{
AliError(Form("%s: Could not receive jet %d", GetName(), i));
continue;
}
- if (!IsSignalJetInAcceptance(jet))
- continue;
- for (Int_t j = 0; j <= tmpJets.GetEntries(); j++)
- {
- if (j>tmpJets.GetEntries()-1) // When passed last item add the jet at the end
- {
- tmpJets.Add(jet);
- break;
- }
+ if (!IsSignalJetInAcceptance(jet)) continue;
- AliEmcalJet* listJet = static_cast<AliEmcalJet*>(tmpJets.At(j));
-
- if(jet->Pt() < listJet->Pt()) // Insert jet before that one in list if pt smaller
- {
- tmpJets.AddAt(jet, j);
- break;
- }
+ if (jet->Pt() > maxJetPts[0])
+ {
+ maxJetPts[1] = maxJetPts[0];
+ jetIDArray[1] = jetIDArray[0];
+ maxJetPts[0] = jet->Pt();
+ jetIDArray[0] = i;
}
+ else if (jet->Pt() > maxJetPts[1])
+ {
+ maxJetPts[1] = jet->Pt();
+ jetIDArray[1] = i;
+ }
+ fNumberSignalJets++;
+ if(jet->Pt() >= 5.)
+ fNumberSignalJetsAbove5GeV++;
}
- for (Int_t i = 0; i < tmpJets.GetEntries(); i++)
+ // Find leading background jets
+ for (Int_t i = 0; i < fBackgroundJetArray->GetEntries(); i++)
{
- AliEmcalJet* jet = static_cast<AliEmcalJet*>(tmpJets.At(i));
- fSignalJets[fNumberSignalJets] = jet;
- fNumberSignalJets++;
+ AliEmcalJet* jet = static_cast<AliEmcalJet*>(fBackgroundJetArray->At(i));
+ if (!jet)
+ {
+ AliError(Form("%s: Could not receive jet %d", GetName(), i));
+ continue;
+ }
+
+ if (!IsBackgroundJetInAcceptance(jet)) continue;
+
+ if (jet->Pt() > maxJetPtsKT[0])
+ {
+ maxJetPtsKT[1] = maxJetPtsKT[0];
+ jetIDArrayKT[1] = jetIDArrayKT[0];
+ maxJetPtsKT[0] = jet->Pt();
+ jetIDArrayKT[0] = i;
+ }
+ else if (jet->Pt() > maxJetPtsKT[1])
+ {
+ maxJetPtsKT[1] = jet->Pt();
+ jetIDArrayKT[1] = i;
+ }
}
-
- if (fNumberSignalJets > 0)
- fFirstLeadingJet = static_cast<AliEmcalJet*>(tmpJets.At(0));
- if (fNumberSignalJets > 1)
- fSecondLeadingJet = static_cast<AliEmcalJet*>(tmpJets.At(1));
+ if (jetIDArray[0] > -1)
+ fFirstLeadingJet = static_cast<AliEmcalJet*>(fJetArray->At(jetIDArray[0]));
+ if (jetIDArray[1] > -1)
+ fSecondLeadingJet = static_cast<AliEmcalJet*>(fJetArray->At(jetIDArray[1]));
+ if (jetIDArrayKT[0] > -1)
+ fFirstLeadingKTJet = static_cast<AliEmcalJet*>(fBackgroundJetArray->At(jetIDArrayKT[0]));
+ if (jetIDArrayKT[1] > -1)
+ fSecondLeadingKTJet = static_cast<AliEmcalJet*>(fBackgroundJetArray->At(jetIDArrayKT[1]));
}
//________________________________________________________________________
-Int_t AliAnalysisTaskChargedJetsPA::GetLeadingJets(TClonesArray* jetArray, Int_t* jetIDArray, Bool_t isSignalJets)
+inline Double_t AliAnalysisTaskChargedJetsPA::GetConePt(Double_t eta, Double_t phi, Double_t radius)
{
-// Writes first two leading jets into already registered array jetIDArray
+ Double_t tmpConePt = 0.0;
- if (!jetArray)
+ for (Int_t i = 0; i < fTrackArray->GetEntries(); i++)
{
- AliError("Could not get the jet array to get leading jets from it!");
- return 0;
+ AliVTrack* tmpTrack = static_cast<AliVTrack*>(fTrackArray->At(i));
+ if (IsTrackInAcceptance(tmpTrack))
+ if(IsTrackInCone(tmpTrack, eta, phi, radius))
+ tmpConePt = tmpConePt + tmpTrack->Pt();
}
+ return tmpConePt;
+}
- Float_t maxJetPts[] = {0, 0};
- jetIDArray[0] = -1;
- jetIDArray[1] = -1;
-
- Int_t jetCount = jetArray->GetEntries();
- Int_t jetCountAccepted = 0;
+//________________________________________________________________________
+inline Double_t AliAnalysisTaskChargedJetsPA::GetCorrectedConePt(Double_t eta, Double_t phi, Double_t radius, Double_t background)
+{
+ Double_t tmpConePt = 0.0;
- for (Int_t i = 0; i < jetCount; i++)
+ for (Int_t i = 0; i < fTrackArray->GetEntries(); i++)
{
- AliEmcalJet* jet = static_cast<AliEmcalJet*>(jetArray->At(i));
- if (!jet)
- {
- AliError(Form("%s: Could not receive jet %d", GetName(), i));
- continue;
- }
+ AliVTrack* tmpTrack = static_cast<AliVTrack*>(fTrackArray->At(i));
+ if (IsTrackInAcceptance(tmpTrack))
+ if(IsTrackInCone(tmpTrack, eta, phi, radius))
+ tmpConePt = tmpConePt + tmpTrack->Pt();
+ }
+ Double_t realConeArea = (1.0*(fMaxEta-fMinEta)) * TMath::TwoPi() * MCGetOverlapCircleRectancle(eta, phi, radius, fMinEta, fMaxEta, 0., TMath::TwoPi());
+ tmpConePt -= background * realConeArea; // subtract background
- if(isSignalJets)
- {
- if (!IsSignalJetInAcceptance(jet)) continue;
- }
- else
- {
- if (!IsBackgroundJetInAcceptance(jet)) continue;
- }
+ return tmpConePt;
+}
- if (jet->Pt() > maxJetPts[0])
- {
- maxJetPts[1] = maxJetPts[0];
- jetIDArray[1] = jetIDArray[0];
- maxJetPts[0] = jet->Pt();
- jetIDArray[0] = i;
- }
- else if (jet->Pt() > maxJetPts[1])
+//________________________________________________________________________
+inline Bool_t AliAnalysisTaskChargedJetsPA::IsTrackInCone(AliVTrack* track, Double_t eta, Double_t phi, Double_t radius)
+{
+ // This is to use a full cone in phi even at the edges of phi (2pi -> 0) (0 -> 2pi)
+ Double_t trackPhi = 0.0;
+ if (track->Phi() > (TMath::TwoPi() - (radius-phi)))
+ trackPhi = track->Phi() - TMath::TwoPi();
+ else if (track->Phi() < (phi+radius - TMath::TwoPi()))
+ trackPhi = track->Phi() + TMath::TwoPi();
+ else
+ trackPhi = track->Phi();
+
+ if ( TMath::Abs(trackPhi-phi)*TMath::Abs(trackPhi-phi) + TMath::Abs(track->Eta()-eta)*TMath::Abs(track->Eta()-eta) <= radius*radius)
+ return kTRUE;
+
+ return kFALSE;
+}
+
+//________________________________________________________________________
+inline Bool_t AliAnalysisTaskChargedJetsPA::IsTrackInJet(AliEmcalJet* jet, Int_t trackIndex)
+{
+ for (Int_t i = 0; i < jet->GetNumberOfTracks(); ++i)
+ {
+ Int_t jetTrack = jet->TrackAt(i);
+ if (jetTrack == trackIndex)
+ return kTRUE;
+ }
+ return kFALSE;
+}
+
+//________________________________________________________________________
+inline Bool_t AliAnalysisTaskChargedJetsPA::IsJetOverlapping(AliEmcalJet* jet1, AliEmcalJet* jet2)
+{
+ for (Int_t i = 0; i < jet1->GetNumberOfTracks(); ++i)
+ {
+ Int_t jet1Track = jet1->TrackAt(i);
+ for (Int_t j = 0; j < jet2->GetNumberOfTracks(); ++j)
{
- maxJetPts[1] = jet->Pt();
- jetIDArray[1] = i;
+ Int_t jet2Track = jet2->TrackAt(j);
+ if (jet1Track == jet2Track)
+ return kTRUE;
}
- jetCountAccepted++;
}
- return jetCountAccepted;
+ return kFALSE;
}
-
//________________________________________________________________________
Double_t AliAnalysisTaskChargedJetsPA::GetCorrectedJetPt(AliEmcalJet* jet, Double_t background)
{
AliInfo("Getting corrected jet spectra.");
#endif
- if(!jet)
- {
- AliError("Jet pointer passed to GetCorrectedJetPt() not valid!");
- return -1.0;
- }
-
Double_t correctedPt = -1.0;
-
// if the passed background is not valid, do not subtract it
if(background < 0)
background = 0;
// Define eta range
Double_t etaMin, etaMax;
- etaMin = -(fTrackEtaWindow-fRandConeRadius);
- etaMax = +(fTrackEtaWindow-fRandConeRadius);
+ etaMin = fMinEta+fRandConeRadius;
+ etaMax = fMaxEta-fRandConeRadius;
// Define random cone
Bool_t coneValid = kTRUE;
AliEmcalJet* tmpJet = static_cast<AliEmcalJet*>(fJetArray->At(i));
// if jet is in acceptance and higher, take as new leading
if (tmpJet)
- if ((TMath::Abs(tmpJet->Eta()) <= fSignalJetEtaWindow) && (tmpJet->Area() >= fMinJetArea))
+ if ( ((tmpJet->Eta() >= fMinJetEta) && (tmpJet->Eta() < fMaxJetEta)) && (tmpJet->Area() >= fMinJetArea))
if((!tmpLeading) || (tmpJet->Pt() > tmpLeading->Pt()))
tmpLeading = tmpJet;
}
}
}
-
// Get the cones' pt and calculate delta pt
if (coneValid)
deltaPt = GetConePt(tmpRandConeEta,tmpRandConePhi,fRandConeRadius) - (rho*fRandConeRadius*fRandConeRadius*TMath::Pi());
Int_t rhoMeanJetCount = 0;
- // Find 2 leading KT jets for the original PbPb approach
- Int_t leadingKTJets[] = {-1, -1};
- GetLeadingJets(fBackgroundJetArray, &leadingKTJets[0], kFALSE);
-
// Exclude UP TO numberExcludeLeadingJets
if(numberExcludeLeadingJets==-1)
numberExcludeLeadingJets = fNumberSignalJets;
Bool_t isOverlapping = kFALSE;
for(Int_t j=0;j<numberExcludeLeadingJets;j++)
{
- AliEmcalJet* signalJet = fSignalJets[j];
-
- if(signalJet->Pt() >= 5.0)
- if(IsJetOverlapping(signalJet, backgroundJet))
- {
- isOverlapping = kTRUE;
- break;
- }
- }
-
- Double_t tmpRho = 0.0;
- if(backgroundJet->Area())
- tmpRho = backgroundJet->Pt() / backgroundJet->Area();
+ AliEmcalJet* signalJet = fFirstLeadingJet;
+ if(j==1)
+ signalJet = fSecondLeadingJet;
- // PbPb approach (take ghosts into account)
- if ((i != leadingKTJets[0]) && (i != leadingKTJets[1]))
- {
- tmpRhoPbPbWithGhosts[rhoPbPbWithGhostsJetCount] = tmpRho;
- rhoPbPbWithGhostsJetCount++;
- }
-
- if(backgroundJet->Pt() > 0.150)
- {
- // CMS approach: don't take ghosts into acount
- tmpRhoCMS[rhoCMSJetCount] = tmpRho;
- rhoCMSJetCount++;
+ if(signalJet->Pt() < 5.0)
+ continue;
- // Improved CMS approach: like CMS but excluding signal
- if(!isOverlapping)
+ if(IsJetOverlapping(signalJet, backgroundJet))
{
- tmpRhoImprovedCMS[rhoImprovedCMSJetCount] = tmpRho;
- rhoImprovedCMSJetCount++;
- }
-
- // PbPb w/o ghosts approach (just neglect ghosts)
- if ((i != leadingKTJets[0]) && (i != leadingKTJets[1]))
- {
- tmpRhoPbPb[rhoPbPbJetCount] = tmpRho;
- rhoPbPbJetCount++;
+ isOverlapping = kTRUE;
+ break;
}
}
- // (no overlap with signal jets)
- if(!isOverlapping)
- {
- // Mean approach
- tmpRhoMean[rhoMeanJetCount] = tmpRho;
- rhoMeanJetCount++;
-
- // Track like approach approach
- tmpPtTrackLike += backgroundJet->Pt();
- tmpAreaTrackLike += backgroundJet->Area();
- }
-
- }
-
- if (tmpAreaTrackLike > 0)
- rhoTrackLike = tmpPtTrackLike/tmpAreaTrackLike;
- if (rhoPbPbJetCount > 0)
- rhoPbPb = TMath::Median(rhoPbPbJetCount, tmpRhoPbPb);
- if (rhoPbPbWithGhostsJetCount > 0)
- rhoPbPbWithGhosts = TMath::Median(rhoPbPbWithGhostsJetCount, tmpRhoPbPbWithGhosts);
- if (rhoCMSJetCount > 0)
- rhoCMS = TMath::Median(rhoCMSJetCount, tmpRhoCMS) * tmpCoveredArea/tmpSummedArea;
- if (rhoImprovedCMSJetCount > 0)
- {
- rhoImprovedCMS = TMath::Median(rhoImprovedCMSJetCount, tmpRhoImprovedCMS) * tmpCoveredArea/tmpSummedArea;
- }
- if (rhoMeanJetCount > 0)
- rhoMean = TMath::Mean(rhoMeanJetCount, tmpRhoMean);
-
- #ifdef DEBUGMODE
- AliInfo("Got ALL KT background density.");
- #endif
-}
-
-//________________________________________________________________________
-void AliAnalysisTaskChargedJetsPA::GetKTBackgroundDensity(Int_t numberExcludeLeadingJets, Double_t& rhoImprovedCMS)
-{
- #ifdef DEBUGMODE
- AliInfo("Getting KT background density.");
- #endif
-
- static Double_t tmpRhoImprovedCMS[1024];
- Double_t tmpCoveredArea = 0.0;
- Double_t tmpSummedArea = 0.0;
-
- // Setting invalid values
- rhoImprovedCMS = 0.0;
-
- Int_t rhoImprovedCMSJetCount = 0;
-
- // Exclude UP TO numberExcludeLeadingJets
- if(numberExcludeLeadingJets==-1)
- numberExcludeLeadingJets = fNumberSignalJets;
- if (fNumberSignalJets < numberExcludeLeadingJets)
- numberExcludeLeadingJets = fNumberSignalJets;
-
- for (Int_t i = 0; i < fBackgroundJetArray->GetEntries(); i++)
- {
- AliEmcalJet* backgroundJet = static_cast<AliEmcalJet*>(fBackgroundJetArray->At(i));
-
- if (!backgroundJet)
- {
- AliError(Form("%s: Could not receive jet %d", GetName(), i));
- continue;
- }
-
- // Search for overlap with signal jets
- Bool_t isOverlapping = kFALSE;
- for(Int_t j=0;j<numberExcludeLeadingJets;j++)
- {
- AliEmcalJet* signalJet = fSignalJets[j];
- if(signalJet->Pt() >= 5.0)
- if(IsJetOverlapping(signalJet, backgroundJet))
- {
- isOverlapping = kTRUE;
- break;
- }
- }
-
- tmpSummedArea += backgroundJet->Area();
- if(backgroundJet->Pt() > 0.150)
- tmpCoveredArea += backgroundJet->Area();
-
- if (!IsBackgroundJetInAcceptance(backgroundJet))
- continue;
+ Double_t tmpRho = 0.0;
+ if(backgroundJet->Area())
+ tmpRho = backgroundJet->Pt() / backgroundJet->Area();
- Double_t tmpRho = backgroundJet->Pt() / backgroundJet->Area();
+ // PbPb approach (take ghosts into account)
+ if((backgroundJet != fFirstLeadingKTJet) || (backgroundJet != fSecondLeadingKTJet))
+ {
+ tmpRhoPbPbWithGhosts[rhoPbPbWithGhostsJetCount] = tmpRho;
+ rhoPbPbWithGhostsJetCount++;
+ }
if(backgroundJet->Pt() > 0.150)
- if(!isOverlapping)
+ {
+ // CMS approach: don't take ghosts into acount
+ tmpRhoCMS[rhoCMSJetCount] = tmpRho;
+ rhoCMSJetCount++;
+
+ // Improved CMS approach: like CMS but excluding signal
+ if((backgroundJet != fFirstLeadingKTJet) || (backgroundJet != fSecondLeadingKTJet))
{
tmpRhoImprovedCMS[rhoImprovedCMSJetCount] = tmpRho;
rhoImprovedCMSJetCount++;
}
+
+ // PbPb w/o ghosts approach (just neglect ghosts)
+ if((backgroundJet != fFirstLeadingKTJet) || (backgroundJet != fSecondLeadingKTJet))
+ {
+ tmpRhoPbPb[rhoPbPbJetCount] = tmpRho;
+ rhoPbPbJetCount++;
+ }
+ }
+
+ // (no overlap with signal jets)
+ if(!isOverlapping)
+ {
+ // Mean approach
+ tmpRhoMean[rhoMeanJetCount] = tmpRho;
+ rhoMeanJetCount++;
+
+ // Track like approach approach
+ tmpPtTrackLike += backgroundJet->Pt();
+ tmpAreaTrackLike += backgroundJet->Area();
+ }
+
}
+ if (tmpAreaTrackLike > 0)
+ rhoTrackLike = tmpPtTrackLike/tmpAreaTrackLike;
+ if (rhoPbPbJetCount > 0)
+ rhoPbPb = TMath::Median(rhoPbPbJetCount, tmpRhoPbPb);
+ if (rhoPbPbWithGhostsJetCount > 0)
+ rhoPbPbWithGhosts = TMath::Median(rhoPbPbWithGhostsJetCount, tmpRhoPbPbWithGhosts);
+ if (rhoCMSJetCount > 0)
+ rhoCMS = TMath::Median(rhoCMSJetCount, tmpRhoCMS) * tmpCoveredArea/tmpSummedArea;
if (rhoImprovedCMSJetCount > 0)
{
rhoImprovedCMS = TMath::Median(rhoImprovedCMSJetCount, tmpRhoImprovedCMS) * tmpCoveredArea/tmpSummedArea;
}
+ if (rhoMeanJetCount > 0)
+ rhoMean = TMath::Mean(rhoMeanJetCount, tmpRhoMean);
+
#ifdef DEBUGMODE
- AliInfo("Got KT background density.");
+ AliInfo("Got ALL KT background density.");
#endif
}
-
//________________________________________________________________________
void AliAnalysisTaskChargedJetsPA::GetTRBackgroundDensity(Int_t numberExcludeLeadingJets, Double_t& rhoNoExclusion, Double_t& rhoConeExclusion02, Double_t& rhoConeExclusion04, Double_t& rhoConeExclusion06, Double_t& rhoConeExclusion08, Double_t& rhoExactExclusion)
{
// Exclude UP TO numberExcludeLeadingJets
if(numberExcludeLeadingJets==-1)
- numberExcludeLeadingJets = fNumberSignalJets;
+ numberExcludeLeadingJets = fNumberSignalJetsAbove5GeV;
if (fNumberSignalJets < numberExcludeLeadingJets)
- numberExcludeLeadingJets = fNumberSignalJets;
-
- Int_t fSignalJetCount5GeV = 0;
- for(Int_t j=0;j<numberExcludeLeadingJets;j++)
+ numberExcludeLeadingJets = fNumberSignalJetsAbove5GeV;
+ if(numberExcludeLeadingJets>2)
{
- AliEmcalJet* signalJet = fSignalJets[j];
- if(signalJet->Pt() < 5.0)
- continue;
- fSignalJetCount5GeV++;
+ AliWarning("Warning: GetTRBackgroundDensity() can only exclude up to 2 leading jets!");
+ numberExcludeLeadingJets = 2;
}
for (Int_t i = 0; i < fTrackArray->GetEntries(); i++)
// Check if tracks overlaps with jet
for(Int_t j=0;j<numberExcludeLeadingJets;j++)
{
- AliEmcalJet* signalJet = fSignalJets[j];
+ AliEmcalJet* signalJet = fFirstLeadingJet;
+ if(j==1)
+ signalJet = fSecondLeadingJet;
if(signalJet->Pt() < 5.0)
continue;
// Calculate the correct area where the tracks were taking from
- Double_t tmpFullTPCArea = (2.0*fTrackEtaWindow) * TMath::TwoPi();
+ Double_t tmpFullTPCArea = (1.0*(fMaxEta-fMinEta)) * TMath::TwoPi();
Double_t tmpAreaCone02 = tmpFullTPCArea;
Double_t tmpAreaCone04 = tmpFullTPCArea;
Double_t tmpAreaCone06 = tmpFullTPCArea;
Double_t tmpAreaCone08 = tmpFullTPCArea;
Double_t tmpAreaWithinJets = tmpFullTPCArea;
- std::vector<Double_t> tmpEtas(fSignalJetCount5GeV);
- std::vector<Double_t> tmpPhis(fSignalJetCount5GeV);
+ std::vector<Double_t> tmpEtas(fNumberSignalJetsAbove5GeV);
+ std::vector<Double_t> tmpPhis(fNumberSignalJetsAbove5GeV);
Int_t iSignal = 0;
for(Int_t i=0;i<numberExcludeLeadingJets;i++)
{
- AliEmcalJet* tmpJet = fSignalJets[i];
+ AliEmcalJet* signalJet = fFirstLeadingJet;
+ if(i==1)
+ signalJet = fSecondLeadingJet;
- if(tmpJet->Pt() < 5.0)
+ if(signalJet->Pt() < 5.0)
continue;
- tmpEtas[iSignal] = tmpJet->Eta();
- tmpPhis[iSignal] = tmpJet->Phi();
- tmpAreaWithinJets -= tmpJet->Area();
+ tmpEtas[iSignal] = signalJet->Eta();
+ tmpPhis[iSignal] = signalJet->Phi();
+ tmpAreaWithinJets -= signalJet->Area();
iSignal++;
}
- tmpAreaCone02 -= tmpFullTPCArea * MCGetOverlapMultipleCirclesRectancle(fSignalJetCount5GeV, tmpEtas, tmpPhis, 0.2, -fTrackEtaWindow, +fTrackEtaWindow, 0., TMath::TwoPi());
- tmpAreaCone04 -= tmpFullTPCArea * MCGetOverlapMultipleCirclesRectancle(fSignalJetCount5GeV, tmpEtas, tmpPhis, 0.4, -fTrackEtaWindow, +fTrackEtaWindow, 0., TMath::TwoPi());
- tmpAreaCone06 -= tmpFullTPCArea * MCGetOverlapMultipleCirclesRectancle(fSignalJetCount5GeV, tmpEtas, tmpPhis, 0.6, -fTrackEtaWindow, +fTrackEtaWindow, 0., TMath::TwoPi());
- tmpAreaCone08 -= tmpFullTPCArea * MCGetOverlapMultipleCirclesRectancle(fSignalJetCount5GeV, tmpEtas, tmpPhis, 0.8, -fTrackEtaWindow, +fTrackEtaWindow, 0., TMath::TwoPi());
+ tmpAreaCone02 -= tmpFullTPCArea * MCGetOverlapMultipleCirclesRectancle(fNumberSignalJetsAbove5GeV, tmpEtas, tmpPhis, 0.2, fMinEta, fMaxEta, 0., TMath::TwoPi());
+ tmpAreaCone04 -= tmpFullTPCArea * MCGetOverlapMultipleCirclesRectancle(fNumberSignalJetsAbove5GeV, tmpEtas, tmpPhis, 0.4, fMinEta, fMaxEta, 0., TMath::TwoPi());
+ tmpAreaCone06 -= tmpFullTPCArea * MCGetOverlapMultipleCirclesRectancle(fNumberSignalJetsAbove5GeV, tmpEtas, tmpPhis, 0.6, fMinEta, fMaxEta, 0., TMath::TwoPi());
+ tmpAreaCone08 -= tmpFullTPCArea * MCGetOverlapMultipleCirclesRectancle(fNumberSignalJetsAbove5GeV, tmpEtas, tmpPhis, 0.8, fMinEta, fMaxEta, 0., TMath::TwoPi());
rhoConeExclusion02 = summedTracksPtCone02/tmpAreaCone02;
rhoConeExclusion04 = summedTracksPtCone04/tmpAreaCone04;
#endif
}
-//________________________________________________________________________
-void AliAnalysisTaskChargedJetsPA::GetTRBackgroundDensity(Int_t numberExcludeLeadingJets, Double_t& rhoMean, Double_t& area, AliEmcalJet* excludeJet1, AliEmcalJet* excludeJet2, Bool_t doSearchPerpendicular)
-{
- #ifdef DEBUGMODE
- AliInfo("Getting TR background density.");
- #endif
-
- // Setting invalid values
- Double_t summedTracksPt = 0.0;
- rhoMean = 0.0;
- area = -1.0;
-
- Double_t tmpRadius = 0.0;
- if (doSearchPerpendicular)
- tmpRadius = 0.4*TMath::Pi(); // exclude 90 degrees around jets
- else
- tmpRadius = 0.8;
-
- numberExcludeLeadingJets = 2; // dijet is excluded here in any case
-
-
-
- if (!fTrackArray || !fJetArray)
- {
- AliError("Could not get the track/jet array to calculate track rho!");
- return;
- }
-
- Int_t trackCount = fTrackArray->GetEntries();
- Int_t trackCountAccepted = 0;
- for (Int_t i = 0; i < trackCount; i++)
- {
- AliVTrack* tmpTrack = static_cast<AliVTrack*>(fTrackArray->At(i));
- if (IsTrackInAcceptance(tmpTrack))
- {
- if (IsTrackInCone(tmpTrack, excludeJet1->Eta(), excludeJet1->Phi(), tmpRadius))
- continue;
-
- if (numberExcludeLeadingJets > 1)
- if (IsTrackInCone(tmpTrack, excludeJet2->Eta(), excludeJet2->Phi(), tmpRadius))
- continue;
-
- // Add track pt to array
- summedTracksPt = summedTracksPt + tmpTrack->Pt();
- trackCountAccepted++;
- }
- }
-
- if (trackCountAccepted > 0)
- {
- Double_t tmpArea = 2.0*fTrackEtaWindow*TMath::TwoPi() - 2*(tmpRadius*tmpRadius * TMath::Pi()); //TPC area - excluding jet area
- rhoMean = summedTracksPt/tmpArea;
- area = tmpArea;
- }
-
- #ifdef DEBUGMODE
- AliInfo("Got TR background density.");
- #endif
-}
-
//________________________________________________________________________
void AliAnalysisTaskChargedJetsPA::GetPPBackgroundDensity(Double_t& background)
{
background = 0;
- // Get leading jet
- Int_t leadingJets[] = {-1, -1};
- GetLeadingJets(fJetArray, &leadingJets[0], kTRUE);
AliEmcalJet* jet = NULL;
- if(leadingJets[0] != -1)
- jet = static_cast<AliEmcalJet*>(fJetArray->At(leadingJets[0]));
+ if(fFirstLeadingJet)
+ jet = fFirstLeadingJet;
else
return;
fEventCounter++;
- // Check, if analysis should be done in pt hard bins
- if(fUsePtHardBin != -1)
- if(GetPtHardBin() != fUsePtHardBin)
- return;
-
// This is to take only every Nth event
if((fEventCounter+fPartialAnalysisIndex) % fPartialAnalysisNParts != 0)
return;
AliInfo("Calculate()::Init done.");
#endif
+ ////////////////////// NOTE: Create cut histograms
+
+ if(fAnalyzeTrackcuts)
+ CreateCutHistograms();
+
////////////////////// NOTE: Get Centrality, (Leading)Signal jets and Background
// Get centrality
if(fSetCentralityToOne)
centralityPercentile = 1.0;
- // Get jets
- if (fAnalyzeBackground || fAnalyzeJets)
- GetSignalJets();
+ ////////////////////// NOTE: Get event QA histograms
- // Get background estimates
+ FillHistogram("hVertexX",fPrimaryVertex->GetX());
+ FillHistogram("hVertexY",fPrimaryVertex->GetY());
+ FillHistogram("hVertexXY",fPrimaryVertex->GetX(), fPrimaryVertex->GetY());
+ FillHistogram("hVertexR",TMath::Sqrt(fPrimaryVertex->GetX()*fPrimaryVertex->GetX() + fPrimaryVertex->GetY()*fPrimaryVertex->GetY()));
+ FillHistogram("hCentralityV0M",centralityPercentileV0M);
+ FillHistogram("hCentralityV0A",centralityPercentileV0A);
+ FillHistogram("hCentralityV0C",centralityPercentileV0C);
+ FillHistogram("hCentralityZNA",centralityPercentileZNA);
+ FillHistogram("hCentrality",centralityPercentile);
+
+ if(!fDoJetAnalysis)
+ return;
+
+ GetLeadingJets();
+
+ // ##################### Calculate background densities
Double_t backgroundKTImprovedCMS = -1.0;
- Double_t backgroundKTImprovedCMSExternal = -1.0;
+ Double_t backgroundExternal = -1.0;
Double_t backgroundKTPbPb = -1.0;
Double_t backgroundKTPbPbWithGhosts = -1.0;
Double_t backgroundKTCMS = -1.0;
Double_t backgroundTRExact = -1.0;
Double_t backgroundPP = -1.0;
Double_t backgroundJetProfile = -1.0;
- // Calculate background for different jet exclusions
- if (fAnalyzeBackground)
- {
-
- if(fAnalyzeDeprecatedBackgrounds)
- GetKTBackgroundDensityAll (fNumberExcludedJets, backgroundKTPbPb, backgroundKTPbPbWithGhosts, backgroundKTCMS, backgroundKTImprovedCMS, backgroundKTMean, backgroundKTTrackLike);
- else
- GetKTBackgroundDensity (fNumberExcludedJets, backgroundKTImprovedCMS);
-
- if(fAnalyzeDeprecatedBackgrounds)
- GetTRBackgroundDensity (fNumberExcludedJets, backgroundTRNoExcl, backgroundTRCone02, backgroundTRCone04, backgroundTRCone06, backgroundTRCone08, backgroundTRExact);
-
- // pp background
- GetPPBackgroundDensity(backgroundPP);
-
- backgroundKTImprovedCMSExternal = GetExternalRho();
- if(fNoExternalBackground)
- backgroundKTImprovedCMSExternal = 0;
-
- if(fBackgroundForJetProfile==0)
- backgroundJetProfile = backgroundKTImprovedCMSExternal;
- else if(fBackgroundForJetProfile==1)
- backgroundJetProfile = backgroundKTImprovedCMS;
- else if(fBackgroundForJetProfile==2)
- backgroundJetProfile = backgroundKTCMS;
- else if(fBackgroundForJetProfile==3)
- backgroundJetProfile = backgroundPP;
- else if(fBackgroundForJetProfile==4)
- backgroundJetProfile = backgroundTRCone06;
- else if(fBackgroundForJetProfile==5)
- backgroundJetProfile = 0;
- }
+ // Get background estimates
+ GetKTBackgroundDensityAll (fNumberExcludedJets, backgroundKTPbPb, backgroundKTPbPbWithGhosts, backgroundKTCMS, backgroundKTImprovedCMS, backgroundKTMean, backgroundKTTrackLike);
+ GetTRBackgroundDensity (fNumberExcludedJets, backgroundTRNoExcl, backgroundTRCone02, backgroundTRCone04, backgroundTRCone06, backgroundTRCone08, backgroundTRExact);
+ GetPPBackgroundDensity(backgroundPP);
+
+ backgroundExternal = GetExternalRho();
+ if(fNoExternalBackground)
+ backgroundExternal = 0;
+
+ if(fBackgroundForJetProfile==0)
+ backgroundJetProfile = backgroundExternal;
+ else if(fBackgroundForJetProfile==1)
+ backgroundJetProfile = backgroundKTImprovedCMS;
+ else if(fBackgroundForJetProfile==2)
+ backgroundJetProfile = backgroundKTCMS;
+ else if(fBackgroundForJetProfile==3)
+ backgroundJetProfile = backgroundPP;
+ else if(fBackgroundForJetProfile==4)
+ backgroundJetProfile = backgroundTRCone06;
+ else if(fBackgroundForJetProfile==5)
+ backgroundJetProfile = 0;
#ifdef DEBUGMODE
AliInfo("Calculate()::Centrality&SignalJets&Background-Calculation done.");
#endif
- if (fAnalyzeQA)
- {
- FillHistogram("hVertexX",event->GetPrimaryVertex()->GetX());
- FillHistogram("hVertexY",event->GetPrimaryVertex()->GetY());
- FillHistogram("hVertexXY",event->GetPrimaryVertex()->GetX(), event->GetPrimaryVertex()->GetY());
- FillHistogram("hVertexR",TMath::Sqrt(event->GetPrimaryVertex()->GetX()*event->GetPrimaryVertex()->GetX() + event->GetPrimaryVertex()->GetY()*event->GetPrimaryVertex()->GetY()));
- FillHistogram("hCentralityV0M",centralityPercentileV0M);
- FillHistogram("hCentralityV0A",centralityPercentileV0A);
- FillHistogram("hCentralityV0C",centralityPercentileV0C);
- FillHistogram("hCentralityZNA",centralityPercentileZNA);
- FillHistogram("hCentrality",centralityPercentile);
-
- Int_t trackCountAcc = 0;
- Int_t nTracks = fTrackArray->GetEntries();
- for (Int_t i = 0; i < nTracks; i++)
- {
- AliVTrack* track = static_cast<AliVTrack*>(fTrackArray->At(i));
+ // ##################### Fill event QA histograms
- if (track != 0)
- if (track->Pt() >= fMinTrackPt)
- {
- FillHistogram("hTrackPhiEta", track->Phi(),track->Eta(), 1);
- FillHistogram("hTrackPtPhiEta", track->Phi(),track->Eta(), track->Pt());
- }
+ Int_t trackCountAcc = 0;
+ Int_t nTracks = fTrackArray->GetEntries();
+ for (Int_t i = 0; i < nTracks; i++)
+ {
+ AliVTrack* track = static_cast<AliVTrack*>(fTrackArray->At(i));
- if (IsTrackInAcceptance(track))
+ if (track != 0)
+ if (track->Pt() >= fMinTrackPt)
{
- FillHistogram("hTrackPt", track->Pt(), centralityPercentile);
- if(track->Eta() >= 0)
- FillHistogram("hTrackPtPosEta", track->Pt(), centralityPercentile);
- else
- FillHistogram("hTrackPtNegEta", track->Pt(), centralityPercentile);
-
- FillHistogram("hTrackEta", track->Eta(), centralityPercentile);
- FillHistogram("hTrackPhi", track->Phi());
-
- if(static_cast<AliPicoTrack*>(track))
- FillHistogram("hTrackPhiTrackType", track->Phi(), (static_cast<AliPicoTrack*>(track))->GetTrackType());
-
- for(Int_t j=0;j<20;j++)
- if(track->Pt() > j)
- FillHistogram("hTrackPhiPtCut", track->Phi(), track->Pt());
-
- FillHistogram("hTrackCharge", track->Charge());
- trackCountAcc++;
+ FillHistogram("hTrackPhiEta", track->Phi(),track->Eta(), 1);
+ FillHistogram("hTrackPtPhiEta", track->Phi(),track->Eta(), track->Pt());
}
- }
- FillHistogram("hTrackCountAcc", trackCountAcc, centralityPercentile);
-
-/*
- // This is code that is run locally to get some special events
- TFile* fileOutput = new TFile("SpecialEvents.root", "UPDATE");
- if(fSecondLeadingJet&&(fSecondLeadingJet->Pt()>10.))
+ if (IsTrackInAcceptance(track))
{
- cout << "Event found\n";
- TH2D* tmpEvent = new TH2D(Form("Event%lu", fEventCounter), "", 40, -0.9, 0.9, 40, 0., TMath::TwoPi());
- tmpEvent->GetXaxis()->SetTitle("#eta");
- tmpEvent->GetYaxis()->SetTitle("#phi");
- tmpEvent->SetOption("LEGO2");
- tmpEvent->Sumw2();
-
- for (Int_t i = 0; i < nTracks; i++)
+ FillHistogram("hTrackPt", track->Pt(), centralityPercentile);
+
+ if(track->Eta() >= 0)
+ FillHistogram("hTrackPtPosEta", track->Pt(), centralityPercentile);
+ else
+ FillHistogram("hTrackPtNegEta", track->Pt(), centralityPercentile);
+
+ FillHistogram("hTrackEta", track->Eta(), centralityPercentile);
+ FillHistogram("hTrackPhi", track->Phi());
+
+ if(static_cast<AliPicoTrack*>(track))
{
- AliVTrack* track = static_cast<AliVTrack*>(fTrackArray->At(i));
-
- if (IsTrackInAcceptance(track))
- {
- tmpEvent->Fill(track->Eta(), track->Phi(), track->Pt());
- }
+ FillHistogram("hTrackPhiTrackType", track->Phi(), (static_cast<AliPicoTrack*>(track))->GetTrackType());
+ FillHistogram("hTrackPtTrackType", track->Pt(), (static_cast<AliPicoTrack*>(track))->GetTrackType());
}
- tmpEvent->Write(0, kOverwrite);
+
+ for(Int_t j=0;j<20;j++)
+ if(track->Pt() > j)
+ FillHistogram("hTrackPhiPtCut", track->Phi(), track->Pt());
+
+ FillHistogram("hTrackCharge", track->Charge());
+ trackCountAcc++;
}
- fileOutput->Close();
-*/
}
+ FillHistogram("hTrackCountAcc", trackCountAcc, centralityPercentile);
+
#ifdef DEBUGMODE
AliInfo("Calculate()::QA done.");
#endif
- ////////////////////// NOTE: Jet analysis and calculations
+ // ##################### Fill jet histograms
- if (fAnalyzeJets)
+ FillHistogram("hJetCountAll", fJetArray->GetEntries());
+ FillHistogram("hJetCountAccepted", fNumberSignalJets);
+ FillHistogram("hJetCount", fJetArray->GetEntries(), fNumberSignalJets);
+ if (fFirstLeadingJet)
{
- for (Int_t i = 0; i<fJetArray->GetEntries(); i++)
- {
- AliEmcalJet* tmpJet = static_cast<AliEmcalJet*>(fJetArray->At(i));
- if (!tmpJet)
- continue;
+ FillHistogram("hLeadingJetPt", fFirstLeadingJet->Pt());
+ FillHistogram("hCorrectedLeadingJetPt", GetCorrectedJetPt(fFirstLeadingJet,backgroundExternal));
+ }
+ if (fSecondLeadingJet)
+ {
+ FillHistogram("hSecondLeadingJetPt", fSecondLeadingJet->Pt());
+ FillHistogram("hCorrectedSecondLeadingJetPt", GetCorrectedJetPt(fSecondLeadingJet,backgroundExternal));
+ }
- FillHistogram("hRawJetPt", tmpJet->Pt());
- if (tmpJet->Pt() >= 5.0)
- {
- // ### RAW JET ANALYSIS
- if (tmpJet->Area() >= fMinJetArea)
- FillHistogram("hRawJetPhiEta", tmpJet->Phi(), tmpJet->Eta());
- if (TMath::Abs(tmpJet->Eta()) <= fSignalJetEtaWindow)
- FillHistogram("hRawJetArea", tmpJet->Area());
- }
+ for (Int_t i = 0; i<fJetArray->GetEntries(); i++)
+ {
+ AliEmcalJet* tmpJet = static_cast<AliEmcalJet*>(fJetArray->At(i));
+ if (!tmpJet)
+ continue;
+
+ // ### JETS BEFORE ANY CUTS
+ if (tmpJet->Area() >= fMinJetArea)
+ FillHistogram("hRawJetPhiEta", tmpJet->Phi(), tmpJet->Eta());
+ if ((tmpJet->Eta() >= fMinJetEta) && (tmpJet->Eta() < fMaxJetEta))
+ FillHistogram("hRawJetArea", tmpJet->Area());
- if(IsSignalJetInAcceptance(tmpJet))
+ FillHistogram("hJetPtCutStages", tmpJet->Pt(), 0.5);
+ if ((tmpJet->Eta() >= fMinJetEta) && (tmpJet->Eta() < fMaxJetEta))
+ {
+ FillHistogram("hJetPtCutStages", tmpJet->Pt(), 1.5);
+ if (tmpJet->Pt() >= fMinJetPt)
{
- // ### SIGNAL JET ANALYSIS
- // Jet spectra
- FillHistogram("hJetPt", tmpJet->Pt(), centralityPercentile);
- FillHistogram("hJetPtBgrdSubtractedKTImprovedCMS", GetCorrectedJetPt(tmpJet, backgroundKTImprovedCMS), centralityPercentile);
- if(tmpJet->Phi() >= TMath::Pi())
- FillHistogram("hJetPtBgrdSubtractedKTImprovedCMS_Phi2", GetCorrectedJetPt(tmpJet, backgroundKTImprovedCMS), centralityPercentile);
- else
- FillHistogram("hJetPtBgrdSubtractedKTImprovedCMS_Phi1", GetCorrectedJetPt(tmpJet, backgroundKTImprovedCMS), centralityPercentile);
-
- FillHistogram("hJetPtBgrdSubtractedPP", GetCorrectedJetPt(tmpJet, backgroundPP), centralityPercentile);
- FillHistogram("hJetPtBgrdSubtractedExternal", GetCorrectedJetPt(tmpJet, backgroundKTImprovedCMSExternal), centralityPercentile);
- FillHistogram("hJetPtSubtractedRhoKTImprovedCMS", tmpJet->Pt(), centralityPercentile, tmpJet->Pt() - GetCorrectedJetPt(tmpJet, backgroundKTImprovedCMS));
- FillHistogram("hJetPtSubtractedRhoExternal", tmpJet->Pt(), centralityPercentile, tmpJet->Pt() - GetCorrectedJetPt(tmpJet, backgroundKTImprovedCMSExternal));
- FillHistogram("hJetPtSubtractedRhoPP", tmpJet->Pt(), centralityPercentile, tmpJet->Pt() - GetCorrectedJetPt(tmpJet, backgroundPP));
-
- if(fAnalyzeDeprecatedBackgrounds)
+ FillHistogram("hJetPtCutStages", tmpJet->Pt(), 2.5);
+ if (tmpJet->Area() >= fMinJetArea)
{
- FillHistogram("hJetPtBgrdSubtractedTR", GetCorrectedJetPt(tmpJet, backgroundTRCone06), centralityPercentile);
- FillHistogram("hJetPtBgrdSubtractedKTPbPb", GetCorrectedJetPt(tmpJet, backgroundKTPbPb), centralityPercentile);
- FillHistogram("hJetPtBgrdSubtractedKTPbPbWithGhosts", GetCorrectedJetPt(tmpJet, backgroundKTPbPbWithGhosts), centralityPercentile);
- FillHistogram("hJetPtBgrdSubtractedKTCMS", GetCorrectedJetPt(tmpJet, backgroundKTCMS), centralityPercentile);
- FillHistogram("hJetPtBgrdSubtractedKTMean", GetCorrectedJetPt(tmpJet, backgroundKTMean), centralityPercentile);
- FillHistogram("hJetPtBgrdSubtractedKTTrackLike", GetCorrectedJetPt(tmpJet, backgroundKTTrackLike), centralityPercentile);
+ FillHistogram("hJetPtCutStages", tmpJet->Pt(), 3.5);
}
+ }
+ }
- // Jet profile analysis
- if(TMath::Abs(tmpJet->Eta()) <= 0.3)
+ // ### JETS AFTER CUTS
+ if(IsSignalJetInAcceptance(tmpJet))
+ {
+ // Background corrected jet spectra
+ FillHistogram("hJetPtBgrdSubtractedExternal", GetCorrectedJetPt(tmpJet, backgroundExternal), centralityPercentile);
+ FillHistogram("hJetPtBgrdSubtractedKTImprovedCMS", GetCorrectedJetPt(tmpJet, backgroundKTImprovedCMS), centralityPercentile);
+ FillHistogram("hJetPtBgrdSubtractedPP", GetCorrectedJetPt(tmpJet, backgroundPP), centralityPercentile);
+ if(tmpJet->Phi() >= TMath::Pi())
+ FillHistogram("hJetPtBgrdSubtractedExternal_Phi2", GetCorrectedJetPt(tmpJet, backgroundExternal), centralityPercentile);
+ else
+ FillHistogram("hJetPtBgrdSubtractedExternal_Phi1", GetCorrectedJetPt(tmpJet, backgroundExternal), centralityPercentile);
+ FillHistogram("hJetPtBgrdSubtractedTR", GetCorrectedJetPt(tmpJet, backgroundTRCone06), centralityPercentile);
+ FillHistogram("hJetPtBgrdSubtractedKTPbPb", GetCorrectedJetPt(tmpJet, backgroundKTPbPb), centralityPercentile);
+ FillHistogram("hJetPtBgrdSubtractedKTPbPbWithGhosts", GetCorrectedJetPt(tmpJet, backgroundKTPbPbWithGhosts), centralityPercentile);
+ FillHistogram("hJetPtBgrdSubtractedKTCMS", GetCorrectedJetPt(tmpJet, backgroundKTCMS), centralityPercentile);
+ FillHistogram("hJetPtBgrdSubtractedKTMean", GetCorrectedJetPt(tmpJet, backgroundKTMean), centralityPercentile);
+ FillHistogram("hJetPtBgrdSubtractedKTTrackLike", GetCorrectedJetPt(tmpJet, backgroundKTTrackLike), centralityPercentile);
+
+ FillHistogram("hJetPtSubtractedRhoExternal", tmpJet->Pt(), centralityPercentile, tmpJet->Pt() - GetCorrectedJetPt(tmpJet, backgroundExternal));
+ FillHistogram("hJetPtSubtractedRhoKTImprovedCMS", tmpJet->Pt(), centralityPercentile, tmpJet->Pt() - GetCorrectedJetPt(tmpJet, backgroundKTImprovedCMS));
+ FillHistogram("hJetPtSubtractedRhoPP", tmpJet->Pt(), centralityPercentile, tmpJet->Pt() - GetCorrectedJetPt(tmpJet, backgroundPP));
+ FillHistogram("hDeltaPtExternalBgrdVsPt", GetDeltaPt(backgroundExternal), GetCorrectedJetPt(tmpJet, backgroundExternal));
+
+ FillHistogram("hJetPtVsConstituentCount", tmpJet->Pt(),tmpJet->GetNumberOfTracks());
+
+ for(Int_t j=0; j<tmpJet->GetNumberOfTracks(); j++)
+ FillHistogram("hJetConstituentPtVsJetPt", tmpJet->TrackAt(j, fTrackArray)->Pt(), tmpJet->Pt());
+
+ if(tmpJet->Pt() >= 5.0)
+ {
+ Double_t lowestTrackPt = 1e99;
+ Double_t highestTrackPt = 0.0;
+ for(Int_t j=0; j<tmpJet->GetNumberOfTracks(); j++)
{
- if(tmpJet->Pt()>=70.0)
- {
- FillHistogram("hJetProfile70GeV", 0.05-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.05, backgroundJetProfile))/GetCorrectedJetPt(tmpJet, backgroundJetProfile));
- FillHistogram("hJetProfile70GeV", 0.10-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.10, backgroundJetProfile))/GetCorrectedJetPt(tmpJet, backgroundJetProfile));
- FillHistogram("hJetProfile70GeV", 0.15-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.15, backgroundJetProfile))/GetCorrectedJetPt(tmpJet, backgroundJetProfile));
- FillHistogram("hJetProfile70GeV", 0.20-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.20, backgroundJetProfile))/GetCorrectedJetPt(tmpJet, backgroundJetProfile));
- FillHistogram("hJetProfile70GeV", 0.25-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.25, backgroundJetProfile))/GetCorrectedJetPt(tmpJet, backgroundJetProfile));
- FillHistogram("hJetProfile70GeV", 0.30-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.30, backgroundJetProfile))/GetCorrectedJetPt(tmpJet, backgroundJetProfile));
- FillHistogram("hJetProfile70GeV", 0.35-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.35, backgroundJetProfile))/GetCorrectedJetPt(tmpJet, backgroundJetProfile));
- FillHistogram("hJetProfile70GeV", 0.40-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.40, backgroundJetProfile))/GetCorrectedJetPt(tmpJet, backgroundJetProfile));
- FillHistogram("hJetProfile70GeV", 0.45-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.45, backgroundJetProfile))/GetCorrectedJetPt(tmpJet, backgroundJetProfile));
- FillHistogram("hJetProfile70GeV", 0.50-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.50, backgroundJetProfile))/GetCorrectedJetPt(tmpJet, backgroundJetProfile));
- FillHistogram("hJetProfile70GeV", 0.55-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.55, backgroundJetProfile))/GetCorrectedJetPt(tmpJet, backgroundJetProfile));
- FillHistogram("hJetProfile70GeV", 0.60-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.60, backgroundJetProfile))/GetCorrectedJetPt(tmpJet, backgroundJetProfile));
- }
- else if(GetCorrectedJetPt(tmpJet, backgroundJetProfile)>=60.0)
- {
- FillHistogram("hJetProfile60GeV", 0.05-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.05, backgroundJetProfile))/GetCorrectedJetPt(tmpJet, backgroundJetProfile));
- FillHistogram("hJetProfile60GeV", 0.10-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.10, backgroundJetProfile))/GetCorrectedJetPt(tmpJet, backgroundJetProfile));
- FillHistogram("hJetProfile60GeV", 0.15-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.15, backgroundJetProfile))/GetCorrectedJetPt(tmpJet, backgroundJetProfile));
- FillHistogram("hJetProfile60GeV", 0.20-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.20, backgroundJetProfile))/GetCorrectedJetPt(tmpJet, backgroundJetProfile));
- FillHistogram("hJetProfile60GeV", 0.25-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.25, backgroundJetProfile))/GetCorrectedJetPt(tmpJet, backgroundJetProfile));
- FillHistogram("hJetProfile60GeV", 0.30-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.30, backgroundJetProfile))/GetCorrectedJetPt(tmpJet, backgroundJetProfile));
- FillHistogram("hJetProfile60GeV", 0.35-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.35, backgroundJetProfile))/GetCorrectedJetPt(tmpJet, backgroundJetProfile));
- FillHistogram("hJetProfile60GeV", 0.40-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.40, backgroundJetProfile))/GetCorrectedJetPt(tmpJet, backgroundJetProfile));
- FillHistogram("hJetProfile60GeV", 0.45-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.45, backgroundJetProfile))/GetCorrectedJetPt(tmpJet, backgroundJetProfile));
- FillHistogram("hJetProfile60GeV", 0.50-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.50, backgroundJetProfile))/GetCorrectedJetPt(tmpJet, backgroundJetProfile));
- FillHistogram("hJetProfile60GeV", 0.55-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.55, backgroundJetProfile))/GetCorrectedJetPt(tmpJet, backgroundJetProfile));
- FillHistogram("hJetProfile60GeV", 0.60-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.60, backgroundJetProfile))/GetCorrectedJetPt(tmpJet, backgroundJetProfile));
- }
- else if(GetCorrectedJetPt(tmpJet, backgroundJetProfile)>=50.0)
- {
- FillHistogram("hJetProfile50GeV", 0.05-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.05, backgroundJetProfile))/GetCorrectedJetPt(tmpJet, backgroundJetProfile));
- FillHistogram("hJetProfile50GeV", 0.10-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.10, backgroundJetProfile))/GetCorrectedJetPt(tmpJet, backgroundJetProfile));
- FillHistogram("hJetProfile50GeV", 0.15-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.15, backgroundJetProfile))/GetCorrectedJetPt(tmpJet, backgroundJetProfile));
- FillHistogram("hJetProfile50GeV", 0.20-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.20, backgroundJetProfile))/GetCorrectedJetPt(tmpJet, backgroundJetProfile));
- FillHistogram("hJetProfile50GeV", 0.25-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.25, backgroundJetProfile))/GetCorrectedJetPt(tmpJet, backgroundJetProfile));
- FillHistogram("hJetProfile50GeV", 0.30-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.30, backgroundJetProfile))/GetCorrectedJetPt(tmpJet, backgroundJetProfile));
- FillHistogram("hJetProfile50GeV", 0.35-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.35, backgroundJetProfile))/GetCorrectedJetPt(tmpJet, backgroundJetProfile));
- FillHistogram("hJetProfile50GeV", 0.40-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.40, backgroundJetProfile))/GetCorrectedJetPt(tmpJet, backgroundJetProfile));
- FillHistogram("hJetProfile50GeV", 0.45-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.45, backgroundJetProfile))/GetCorrectedJetPt(tmpJet, backgroundJetProfile));
- FillHistogram("hJetProfile50GeV", 0.50-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.50, backgroundJetProfile))/GetCorrectedJetPt(tmpJet, backgroundJetProfile));
- FillHistogram("hJetProfile50GeV", 0.55-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.55, backgroundJetProfile))/GetCorrectedJetPt(tmpJet, backgroundJetProfile));
- FillHistogram("hJetProfile50GeV", 0.60-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.60, backgroundJetProfile))/GetCorrectedJetPt(tmpJet, backgroundJetProfile));
- }
- else if(GetCorrectedJetPt(tmpJet, backgroundJetProfile)>=40.0)
- {
- FillHistogram("hJetProfile40GeV", 0.05-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.05, backgroundJetProfile))/GetCorrectedJetPt(tmpJet, backgroundJetProfile));
- FillHistogram("hJetProfile40GeV", 0.10-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.10, backgroundJetProfile))/GetCorrectedJetPt(tmpJet, backgroundJetProfile));
- FillHistogram("hJetProfile40GeV", 0.15-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.15, backgroundJetProfile))/GetCorrectedJetPt(tmpJet, backgroundJetProfile));
- FillHistogram("hJetProfile40GeV", 0.20-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.20, backgroundJetProfile))/GetCorrectedJetPt(tmpJet, backgroundJetProfile));
- FillHistogram("hJetProfile40GeV", 0.25-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.25, backgroundJetProfile))/GetCorrectedJetPt(tmpJet, backgroundJetProfile));
- FillHistogram("hJetProfile40GeV", 0.30-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.30, backgroundJetProfile))/GetCorrectedJetPt(tmpJet, backgroundJetProfile));
- FillHistogram("hJetProfile40GeV", 0.35-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.35, backgroundJetProfile))/GetCorrectedJetPt(tmpJet, backgroundJetProfile));
- FillHistogram("hJetProfile40GeV", 0.40-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.40, backgroundJetProfile))/GetCorrectedJetPt(tmpJet, backgroundJetProfile));
- FillHistogram("hJetProfile40GeV", 0.45-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.45, backgroundJetProfile))/GetCorrectedJetPt(tmpJet, backgroundJetProfile));
- FillHistogram("hJetProfile40GeV", 0.50-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.50, backgroundJetProfile))/GetCorrectedJetPt(tmpJet, backgroundJetProfile));
- FillHistogram("hJetProfile40GeV", 0.55-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.55, backgroundJetProfile))/GetCorrectedJetPt(tmpJet, backgroundJetProfile));
- FillHistogram("hJetProfile40GeV", 0.60-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.60, backgroundJetProfile))/GetCorrectedJetPt(tmpJet, backgroundJetProfile));
- }
- else if(GetCorrectedJetPt(tmpJet, backgroundJetProfile)>=30.0)
- {
- FillHistogram("hJetProfile30GeV", 0.05-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.05, backgroundJetProfile))/GetCorrectedJetPt(tmpJet, backgroundJetProfile));
- FillHistogram("hJetProfile30GeV", 0.10-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.10, backgroundJetProfile))/GetCorrectedJetPt(tmpJet, backgroundJetProfile));
- FillHistogram("hJetProfile30GeV", 0.15-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.15, backgroundJetProfile))/GetCorrectedJetPt(tmpJet, backgroundJetProfile));
- FillHistogram("hJetProfile30GeV", 0.20-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.20, backgroundJetProfile))/GetCorrectedJetPt(tmpJet, backgroundJetProfile));
- FillHistogram("hJetProfile30GeV", 0.25-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.25, backgroundJetProfile))/GetCorrectedJetPt(tmpJet, backgroundJetProfile));
- FillHistogram("hJetProfile30GeV", 0.30-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.30, backgroundJetProfile))/GetCorrectedJetPt(tmpJet, backgroundJetProfile));
- FillHistogram("hJetProfile30GeV", 0.35-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.35, backgroundJetProfile))/GetCorrectedJetPt(tmpJet, backgroundJetProfile));
- FillHistogram("hJetProfile30GeV", 0.40-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.40, backgroundJetProfile))/GetCorrectedJetPt(tmpJet, backgroundJetProfile));
- FillHistogram("hJetProfile30GeV", 0.45-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.45, backgroundJetProfile))/GetCorrectedJetPt(tmpJet, backgroundJetProfile));
- FillHistogram("hJetProfile30GeV", 0.50-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.50, backgroundJetProfile))/GetCorrectedJetPt(tmpJet, backgroundJetProfile));
- FillHistogram("hJetProfile30GeV", 0.55-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.55, backgroundJetProfile))/GetCorrectedJetPt(tmpJet, backgroundJetProfile));
- FillHistogram("hJetProfile30GeV", 0.60-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.60, backgroundJetProfile))/GetCorrectedJetPt(tmpJet, backgroundJetProfile));
- }
- else if(GetCorrectedJetPt(tmpJet, backgroundJetProfile)>=20.0)
- {
- FillHistogram("hJetProfile20GeV", 0.05-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.05, backgroundJetProfile))/GetCorrectedJetPt(tmpJet, backgroundJetProfile));
- FillHistogram("hJetProfile20GeV", 0.10-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.10, backgroundJetProfile))/GetCorrectedJetPt(tmpJet, backgroundJetProfile));
- FillHistogram("hJetProfile20GeV", 0.15-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.15, backgroundJetProfile))/GetCorrectedJetPt(tmpJet, backgroundJetProfile));
- FillHistogram("hJetProfile20GeV", 0.20-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.20, backgroundJetProfile))/GetCorrectedJetPt(tmpJet, backgroundJetProfile));
- FillHistogram("hJetProfile20GeV", 0.25-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.25, backgroundJetProfile))/GetCorrectedJetPt(tmpJet, backgroundJetProfile));
- FillHistogram("hJetProfile20GeV", 0.30-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.30, backgroundJetProfile))/GetCorrectedJetPt(tmpJet, backgroundJetProfile));
- FillHistogram("hJetProfile20GeV", 0.35-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.35, backgroundJetProfile))/GetCorrectedJetPt(tmpJet, backgroundJetProfile));
- FillHistogram("hJetProfile20GeV", 0.40-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.40, backgroundJetProfile))/GetCorrectedJetPt(tmpJet, backgroundJetProfile));
- FillHistogram("hJetProfile20GeV", 0.45-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.45, backgroundJetProfile))/GetCorrectedJetPt(tmpJet, backgroundJetProfile));
- FillHistogram("hJetProfile20GeV", 0.50-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.50, backgroundJetProfile))/GetCorrectedJetPt(tmpJet, backgroundJetProfile));
- FillHistogram("hJetProfile20GeV", 0.55-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.55, backgroundJetProfile))/GetCorrectedJetPt(tmpJet, backgroundJetProfile));
- FillHistogram("hJetProfile20GeV", 0.60-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.60, backgroundJetProfile))/GetCorrectedJetPt(tmpJet, backgroundJetProfile));
- }
- else if(GetCorrectedJetPt(tmpJet, backgroundJetProfile)>=10.0)
- {
- FillHistogram("hJetProfile10GeV", 0.05-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.05, backgroundJetProfile))/GetCorrectedJetPt(tmpJet, backgroundJetProfile));
- FillHistogram("hJetProfile10GeV", 0.10-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.10, backgroundJetProfile))/GetCorrectedJetPt(tmpJet, backgroundJetProfile));
- FillHistogram("hJetProfile10GeV", 0.15-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.15, backgroundJetProfile))/GetCorrectedJetPt(tmpJet, backgroundJetProfile));
- FillHistogram("hJetProfile10GeV", 0.20-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.20, backgroundJetProfile))/GetCorrectedJetPt(tmpJet, backgroundJetProfile));
- FillHistogram("hJetProfile10GeV", 0.25-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.25, backgroundJetProfile))/GetCorrectedJetPt(tmpJet, backgroundJetProfile));
- FillHistogram("hJetProfile10GeV", 0.30-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.30, backgroundJetProfile))/GetCorrectedJetPt(tmpJet, backgroundJetProfile));
- FillHistogram("hJetProfile10GeV", 0.35-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.35, backgroundJetProfile))/GetCorrectedJetPt(tmpJet, backgroundJetProfile));
- FillHistogram("hJetProfile10GeV", 0.40-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.40, backgroundJetProfile))/GetCorrectedJetPt(tmpJet, backgroundJetProfile));
- FillHistogram("hJetProfile10GeV", 0.45-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.45, backgroundJetProfile))/GetCorrectedJetPt(tmpJet, backgroundJetProfile));
- FillHistogram("hJetProfile10GeV", 0.50-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.50, backgroundJetProfile))/GetCorrectedJetPt(tmpJet, backgroundJetProfile));
- FillHistogram("hJetProfile10GeV", 0.55-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.55, backgroundJetProfile))/GetCorrectedJetPt(tmpJet, backgroundJetProfile));
- FillHistogram("hJetProfile10GeV", 0.60-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.60, backgroundJetProfile))/GetCorrectedJetPt(tmpJet, backgroundJetProfile));
- }
+ FillHistogram("hJetConstituentPt", tmpJet->TrackAt(j, fTrackArray)->Pt(), centralityPercentile);
+ // Find the lowest pT of a track in the jet
+ if (tmpJet->TrackAt(j, fTrackArray)->Pt() < lowestTrackPt)
+ lowestTrackPt = tmpJet->TrackAt(j, fTrackArray)->Pt();
+ if (tmpJet->TrackAt(j, fTrackArray)->Pt() > highestTrackPt)
+ highestTrackPt = tmpJet->TrackAt(j, fTrackArray)->Pt();
}
- FillHistogram("hJetPtVsConstituentCount", tmpJet->Pt(),tmpJet->GetNumberOfTracks());
-
- if((fAnalyzeQA) && (tmpJet->Pt() >= 5.0))
+ FillHistogram("hJetArea", tmpJet->Area(), tmpJet->Pt());
+ // Signal jet vs. signal jet - "Combinatorial"
+ for (Int_t j = 0; j<fJetArray->GetEntries(); j++)
{
- Double_t lowestTrackPt = 1e99;
- Double_t highestTrackPt = 0.0;
- for(Int_t j=0; j<tmpJet->GetNumberOfTracks(); j++)
- {
- FillHistogram("hJetConstituentPt", tmpJet->TrackAt(j, fTrackArray)->Pt(), centralityPercentile);
- // Find the lowest pT of a track in the jet
- if (tmpJet->TrackAt(j, fTrackArray)->Pt() < lowestTrackPt)
- lowestTrackPt = tmpJet->TrackAt(j, fTrackArray)->Pt();
- if (tmpJet->TrackAt(j, fTrackArray)->Pt() > highestTrackPt)
- highestTrackPt = tmpJet->TrackAt(j, fTrackArray)->Pt();
- }
- FillHistogram("hJetArea", tmpJet->Area(), tmpJet->Pt());
- // Signal jet vs. signal jet - "Combinatorial"
- for (Int_t j = i+1; j<fNumberSignalJets; j++)
- FillHistogram("hJetDeltaPhi", GetDeltaPhi(tmpJet->Phi(), fSignalJets[j]->Phi()));
-
- FillHistogram("hJetPhiEta", tmpJet->Phi(),tmpJet->Eta());
- FillHistogram("hJetPtPhiEta", tmpJet->Phi(),tmpJet->Eta(),tmpJet->Pt());
- FillHistogram("hJetEta", tmpJet->Eta(), centralityPercentile);
-
- if(lowestTrackPt>=2.0)
- FillHistogram("hJetEta2GeVTracks", tmpJet->Eta(), centralityPercentile);
- if(lowestTrackPt>=4.0)
- FillHistogram("hJetEta4GeVTracks", tmpJet->Eta(), centralityPercentile);
+ AliEmcalJet* tmpJet2 = static_cast<AliEmcalJet*>(fJetArray->At(j));
+ if (!tmpJet2)
+ continue;
+ if(tmpJet2->Pt() >= 5.0)
+ FillHistogram("hJetDeltaPhi", GetDeltaPhi(tmpJet->Phi(), tmpJet2->Phi()));
}
+ FillHistogram("hJetPhiEta", tmpJet->Phi(),tmpJet->Eta());
+ FillHistogram("hJetPtPhiEta", tmpJet->Phi(),tmpJet->Eta(),tmpJet->Pt());
+ FillHistogram("hJetEta", tmpJet->Eta(), centralityPercentile);
- // Jet constituent mass analyses (for PYTHIA)
- if (fAnalyzeMassCorrelation)
- {
- Double_t jetMass = 0.0;
- Int_t constituentCount = tmpJet->GetNumberOfTracks();
- Int_t electronCount = 0;
- Int_t pionCount = 0;
- Int_t protonCount = 0;
- Int_t kaonCount = 0;
- Int_t othersCount = 0;
-
- for(Int_t j=0; j<tmpJet->GetNumberOfTracks(); j++)
- {
- AliVParticle* tmpParticle = tmpJet->TrackAt(j, fTrackArray);
-
- jetMass += tmpParticle->M();
- if(TMath::Abs(tmpParticle->PdgCode()) == 11) // electron, positron
- electronCount++;
- else if(TMath::Abs(tmpParticle->PdgCode()) == 211) // p-, p+
- pionCount++;
- else if(TMath::Abs(tmpParticle->PdgCode()) == 2212) // p, pbar
- protonCount++;
- else if(TMath::Abs(tmpParticle->PdgCode()) == 321) // kaon+,kaon-
- kaonCount++;
- else
- othersCount++;
- }
-
- FillHistogram("hJetMassFromConstituents", jetMass);
- FillHistogram("hJetMass", tmpJet->M());
-
- FillHistogram("hJetPtVsMass", tmpJet->Pt(), jetMass);
- FillHistogram("hJetPtVsJetMass", tmpJet->Pt(), tmpJet->M());
-
- FillHistogram("hJetPtVsProtonCount", tmpJet->Pt(), protonCount/(static_cast<Double_t>(constituentCount)));
- FillHistogram("hJetPtVsPionCount", tmpJet->Pt(), pionCount/(static_cast<Double_t>(constituentCount)));
- FillHistogram("hJetPtVsKaonCount", tmpJet->Pt(), kaonCount/(static_cast<Double_t>(constituentCount)));
- FillHistogram("hJetPtVsElectronCount", tmpJet->Pt(), electronCount/(static_cast<Double_t>(constituentCount)));
- FillHistogram("hJetPtVsOthersCount", tmpJet->Pt(), othersCount/(static_cast<Double_t>(constituentCount)));
- FillHistogram("hJetConstituentProtonCount", protonCount);
- FillHistogram("hJetConstituentPionCount", pionCount);
- FillHistogram("hJetConstituentKaonCount", kaonCount);
- FillHistogram("hJetConstituentElectronCount", electronCount);
- FillHistogram("hJetConstituentOthersCount", othersCount);
-
- // Results for the "normal" jet (avoiding single particle jets)
- if((constituentCount>=6) && (constituentCount<=14))
- {
- FillHistogram("hJetPtVsMass_6_14", tmpJet->Pt(), jetMass);
- FillHistogram("hJetPtVsJetMass_6_14", tmpJet->Pt(), tmpJet->M());
-
- FillHistogram("hJetPtVsProtonCount_6_14", tmpJet->Pt(), protonCount);
- FillHistogram("hJetPtVsPionCount_6_14", tmpJet->Pt(), pionCount);
- FillHistogram("hJetPtVsKaonCount_6_14", tmpJet->Pt(), kaonCount);
- FillHistogram("hJetPtVsElectronCount_6_14", tmpJet->Pt(), electronCount);
- FillHistogram("hJetPtVsOthersCount_6_14", tmpJet->Pt(), othersCount);
- FillHistogram("hJetConstituentProtonCount_6_14", protonCount);
- FillHistogram("hJetConstituentPionCount_6_14", pionCount);
- FillHistogram("hJetConstituentKaonCount_6_14", kaonCount);
- FillHistogram("hJetConstituentElectronCount_6_14", electronCount);
- FillHistogram("hJetConstituentOthersCount_6_14", othersCount);
- }
- if((constituentCount>=2))
- {
- FillHistogram("hJetPtVsMass_2_X", tmpJet->Pt(), jetMass);
- FillHistogram("hJetPtVsJetMass_2_X", tmpJet->Pt(), tmpJet->M());
-
- FillHistogram("hJetPtVsProtonCount_2_X", tmpJet->Pt(), protonCount);
- FillHistogram("hJetPtVsPionCount_2_X", tmpJet->Pt(), pionCount);
- FillHistogram("hJetPtVsKaonCount_2_X", tmpJet->Pt(), kaonCount);
- FillHistogram("hJetPtVsElectronCount_2_X", tmpJet->Pt(), electronCount);
- FillHistogram("hJetPtVsOthersCount_2_X", tmpJet->Pt(), othersCount);
- FillHistogram("hJetConstituentProtonCount_2_X", protonCount);
- FillHistogram("hJetConstituentPionCount_2_X", pionCount);
- FillHistogram("hJetConstituentKaonCount_2_X", kaonCount);
- FillHistogram("hJetConstituentElectronCount_2_X", electronCount);
- FillHistogram("hJetConstituentOthersCount_2_X", othersCount);
- }
- if((constituentCount>=2) && (constituentCount<=7))
- {
- FillHistogram("hJetPtVsMass_2_7", tmpJet->Pt(), jetMass);
- FillHistogram("hJetPtVsJetMass_2_7", tmpJet->Pt(), tmpJet->M());
-
- FillHistogram("hJetPtVsProtonCount_2_7", tmpJet->Pt(), protonCount);
- FillHistogram("hJetPtVsPionCount_2_7", tmpJet->Pt(), pionCount);
- FillHistogram("hJetPtVsKaonCount_2_7", tmpJet->Pt(), kaonCount);
- FillHistogram("hJetPtVsElectronCount_2_7", tmpJet->Pt(), electronCount);
- FillHistogram("hJetPtVsOthersCount_2_7", tmpJet->Pt(), othersCount);
- FillHistogram("hJetConstituentProtonCount_2_7", protonCount);
- FillHistogram("hJetConstituentPionCount_2_7", pionCount);
- FillHistogram("hJetConstituentKaonCount_2_7", kaonCount);
- FillHistogram("hJetConstituentElectronCount_2_7", electronCount);
- FillHistogram("hJetConstituentOthersCount_2_7", othersCount);
- }
- }
+ if(lowestTrackPt>=2.0)
+ FillHistogram("hJetEta2GeVTracks", tmpJet->Eta(), centralityPercentile);
+ if(lowestTrackPt>=4.0)
+ FillHistogram("hJetEta4GeVTracks", tmpJet->Eta(), centralityPercentile);
}
}
+ } // end of jet loop
- // ### SOME JET PLOTS
- FillHistogram("hJetCountAll", fJetArray->GetEntries());
- FillHistogram("hJetCountAccepted", fNumberSignalJets);
- FillHistogram("hJetCount", fJetArray->GetEntries(), fNumberSignalJets);
- if (fFirstLeadingJet)
- {
- FillHistogram("hLeadingJetPt", fFirstLeadingJet->Pt());
- FillHistogram("hCorrectedLeadingJetPt", GetCorrectedJetPt(fFirstLeadingJet,backgroundKTImprovedCMS));
- }
- if (fSecondLeadingJet)
- {
- FillHistogram("hSecondLeadingJetPt", fSecondLeadingJet->Pt());
- FillHistogram("hCorrectedSecondLeadingJetPt", GetCorrectedJetPt(fSecondLeadingJet,backgroundKTImprovedCMS));
- }
- } //endif AnalyzeJets
+ if(fAnalyzeJetProfile)
+ CreateJetProfilePlots(backgroundJetProfile);
#ifdef DEBUGMODE
AliInfo("Calculate()::Jets done.");
#endif
- ////////////////////// NOTE: Background analysis
-
- if (fAnalyzeBackground)
- {
- // Calculate background in centrality classes
- FillHistogram("hKTBackgroundImprovedCMS", backgroundKTImprovedCMS, centralityPercentile);
- FillHistogram("hKTBackgroundImprovedCMSExternal", backgroundKTImprovedCMSExternal, centralityPercentile);
- FillHistogram("hPPBackground", backgroundPP, centralityPercentile);
- FillHistogram("hKTMeanBackgroundImprovedCMS", centralityPercentile, backgroundKTImprovedCMS);
-
- if(fAnalyzeDeprecatedBackgrounds)
- {
- FillHistogram("hKTBackgroundPbPb", backgroundKTPbPb, centralityPercentile);
- FillHistogram("hKTBackgroundPbPbWithGhosts", backgroundKTPbPbWithGhosts, centralityPercentile);
- FillHistogram("hKTBackgroundCMS", backgroundKTCMS, centralityPercentile);
- FillHistogram("hKTBackgroundMean", backgroundKTMean, centralityPercentile);
- FillHistogram("hKTBackgroundTrackLike", backgroundKTTrackLike, centralityPercentile);
-
- FillHistogram("hTRBackgroundNoExcl", backgroundTRNoExcl, centralityPercentile);
- FillHistogram("hTRBackgroundCone02", backgroundTRCone02, centralityPercentile);
- FillHistogram("hTRBackgroundCone04", backgroundTRCone04, centralityPercentile);
- FillHistogram("hTRBackgroundCone06", backgroundTRCone06, centralityPercentile);
- FillHistogram("hTRBackgroundCone08", backgroundTRCone08, centralityPercentile);
- FillHistogram("hTRBackgroundExact", backgroundTRExact, centralityPercentile);
-
- // Calculate background profiles in terms of centrality
- FillHistogram("hKTMeanBackgroundPbPb", centralityPercentile, backgroundKTPbPb);
- FillHistogram("hKTMeanBackgroundPbPbWithGhosts", centralityPercentile, backgroundKTPbPbWithGhosts);
- FillHistogram("hKTMeanBackgroundCMS", centralityPercentile, backgroundKTCMS);
- FillHistogram("hKTMeanBackgroundMean", centralityPercentile, backgroundKTMean);
- FillHistogram("hKTMeanBackgroundTPC", centralityPercentile, backgroundKTTrackLike);
- FillHistogram("hTRMeanBackground", centralityPercentile, backgroundTRCone06);
- }
-
-
- // Calculate the delta pt
- Double_t tmpDeltaPtNoBackground = GetDeltaPt(0.0);
- Double_t tmpDeltaPtKTImprovedCMS = GetDeltaPt(backgroundKTImprovedCMS);
- Double_t tmpDeltaPtExternalBgrd = GetDeltaPt(backgroundKTImprovedCMSExternal);
-
-
- Double_t tmpDeltaPtKTImprovedCMSPartialExclusion = 0.0;
- if(fNcoll)
- tmpDeltaPtKTImprovedCMSPartialExclusion = GetDeltaPt(backgroundKTImprovedCMS, 1.0/fNcoll);
- else
- tmpDeltaPtKTImprovedCMSPartialExclusion = GetDeltaPt(backgroundKTImprovedCMS, 1.0);
-
- Double_t tmpDeltaPtKTImprovedCMSPartialExclusion_Signal = 0.0;
- if(fNumberSignalJets)
- tmpDeltaPtKTImprovedCMSPartialExclusion_Signal = GetDeltaPt(backgroundKTImprovedCMS, 1.0/fNumberSignalJets);
- else
- tmpDeltaPtKTImprovedCMSPartialExclusion_Signal = GetDeltaPt(backgroundKTImprovedCMS, 1.0);
-
- Double_t tmpDeltaPtKTImprovedCMSFullExclusion = GetDeltaPt(backgroundKTImprovedCMS, 1.0);
-
- Double_t tmpDeltaPtKTPbPb = 0;
- Double_t tmpDeltaPtKTPbPbWithGhosts = 0;
- Double_t tmpDeltaPtKTCMS = 0;
- Double_t tmpDeltaPtKTMean = 0;
- Double_t tmpDeltaPtKTTrackLike = 0;
- Double_t tmpDeltaPtTR = 0;
-
- if(fAnalyzeDeprecatedBackgrounds)
- {
- tmpDeltaPtKTPbPb = GetDeltaPt(backgroundKTPbPb);
- tmpDeltaPtKTPbPbWithGhosts = GetDeltaPt(backgroundKTPbPbWithGhosts);
- tmpDeltaPtKTCMS = GetDeltaPt(backgroundKTCMS);
- tmpDeltaPtKTMean = GetDeltaPt(backgroundKTMean);
- tmpDeltaPtKTTrackLike = GetDeltaPt(backgroundKTTrackLike);
- tmpDeltaPtTR = GetDeltaPt(backgroundTRCone06);
- }
-
- // If valid, fill the delta pt histograms
-
- if(tmpDeltaPtExternalBgrd > -10000.0)
- FillHistogram("hDeltaPtExternalBgrd", tmpDeltaPtExternalBgrd, centralityPercentile);
- if(tmpDeltaPtKTImprovedCMS > -10000.0)
- FillHistogram("hDeltaPtKTImprovedCMS", tmpDeltaPtKTImprovedCMS, centralityPercentile);
- if(tmpDeltaPtKTImprovedCMSPartialExclusion > -10000.0)
- FillHistogram("hDeltaPtKTImprovedCMSPartialExclusion", tmpDeltaPtKTImprovedCMSPartialExclusion, centralityPercentile);
- if(tmpDeltaPtKTImprovedCMSPartialExclusion_Signal > -10000.0)
- FillHistogram("hDeltaPtKTImprovedCMSPartialExclusion_Signal", tmpDeltaPtKTImprovedCMSPartialExclusion_Signal, centralityPercentile);
- if(tmpDeltaPtKTImprovedCMSFullExclusion > -10000.0)
- FillHistogram("hDeltaPtKTImprovedCMSFullExclusion", tmpDeltaPtKTImprovedCMSFullExclusion, centralityPercentile);
- if(tmpDeltaPtNoBackground > -10000.0)
- FillHistogram("hDeltaPtNoBackground", tmpDeltaPtNoBackground, centralityPercentile);
+ // ##################### Fill background plots
+
+ FillHistogram("hKTBackgroundExternal", backgroundExternal, centralityPercentile);
+ if(fFirstLeadingJet && (fFirstLeadingJet->Pt()>=20.))
+ FillHistogram("hKTBackgroundExternal20GeV", backgroundExternal, centralityPercentile);
+
+ FillHistogram("hKTBackgroundImprovedCMS", backgroundKTImprovedCMS, centralityPercentile);
+ FillHistogram("hPPBackground", backgroundPP, centralityPercentile);
+ FillHistogram("hKTBackgroundPbPb", backgroundKTPbPb, centralityPercentile);
+ FillHistogram("hKTBackgroundPbPbWithGhosts", backgroundKTPbPbWithGhosts, centralityPercentile);
+ FillHistogram("hKTBackgroundCMS", backgroundKTCMS, centralityPercentile);
+ FillHistogram("hKTBackgroundMean", backgroundKTMean, centralityPercentile);
+ FillHistogram("hKTBackgroundTrackLike", backgroundKTTrackLike, centralityPercentile);
+ FillHistogram("hTRBackgroundNoExcl", backgroundTRNoExcl, centralityPercentile);
+ FillHistogram("hTRBackgroundCone02", backgroundTRCone02, centralityPercentile);
+ FillHistogram("hTRBackgroundCone04", backgroundTRCone04, centralityPercentile);
+ FillHistogram("hTRBackgroundCone06", backgroundTRCone06, centralityPercentile);
+ FillHistogram("hTRBackgroundCone08", backgroundTRCone08, centralityPercentile);
+ FillHistogram("hTRBackgroundExact", backgroundTRExact, centralityPercentile);
+
+ // Calculate the delta pt
+ Double_t tmpDeltaPtNoBackground = GetDeltaPt(0.0);
+ Double_t tmpDeltaPtExternalBgrd = GetDeltaPt(backgroundExternal);
+ Double_t tmpDeltaPtKTImprovedCMS = GetDeltaPt(backgroundKTImprovedCMS);
+ Double_t tmpDeltaPtKTImprovedCMSFullExclusion = GetDeltaPt(backgroundKTImprovedCMS, 1.0);
+
+ Double_t tmpDeltaPtKTPbPb = 0;
+ Double_t tmpDeltaPtKTPbPbWithGhosts = 0;
+ Double_t tmpDeltaPtKTCMS = 0;
+ Double_t tmpDeltaPtKTMean = 0;
+ Double_t tmpDeltaPtKTTrackLike = 0;
+ Double_t tmpDeltaPtTR = 0;
+
+ tmpDeltaPtKTPbPb = GetDeltaPt(backgroundKTPbPb);
+ tmpDeltaPtKTPbPbWithGhosts = GetDeltaPt(backgroundKTPbPbWithGhosts);
+ tmpDeltaPtKTCMS = GetDeltaPt(backgroundKTCMS);
+ tmpDeltaPtKTMean = GetDeltaPt(backgroundKTMean);
+ tmpDeltaPtKTTrackLike = GetDeltaPt(backgroundKTTrackLike);
+ tmpDeltaPtTR = GetDeltaPt(backgroundTRCone06);
+
+
+ // If valid, fill the delta pt histograms
+
+ if(tmpDeltaPtExternalBgrd > -10000.0)
+ FillHistogram("hDeltaPtExternalBgrd", tmpDeltaPtExternalBgrd, centralityPercentile);
+ if(tmpDeltaPtKTImprovedCMS > -10000.0)
+ FillHistogram("hDeltaPtKTImprovedCMS", tmpDeltaPtKTImprovedCMS, centralityPercentile);
+ if(tmpDeltaPtKTImprovedCMSFullExclusion > -10000.0)
+ FillHistogram("hDeltaPtKTImprovedCMSFullExclusion", tmpDeltaPtKTImprovedCMSFullExclusion, centralityPercentile);
+
+ if(tmpDeltaPtNoBackground > -10000.0)
+ FillHistogram("hDeltaPtNoBackground", tmpDeltaPtNoBackground, centralityPercentile);
+
+ if(tmpDeltaPtKTPbPb > -10000.0)
+ FillHistogram("hDeltaPtKTPbPb", tmpDeltaPtKTPbPb, centralityPercentile);
+ if(tmpDeltaPtKTPbPbWithGhosts > -10000.0)
+ FillHistogram("hDeltaPtKTPbPbWithGhosts", tmpDeltaPtKTPbPbWithGhosts, centralityPercentile);
+ if(tmpDeltaPtKTCMS > -10000.0)
+ FillHistogram("hDeltaPtKTCMS", tmpDeltaPtKTCMS, centralityPercentile);
+ if(tmpDeltaPtKTMean > -10000.0)
+ FillHistogram("hDeltaPtKTMean", tmpDeltaPtKTMean, centralityPercentile);
+ if(tmpDeltaPtKTTrackLike > -10000.0)
+ FillHistogram("hDeltaPtKTTrackLike", tmpDeltaPtKTTrackLike, centralityPercentile);
+ if(tmpDeltaPtTR > -10000.0)
+ FillHistogram("hDeltaPtTR", tmpDeltaPtTR, centralityPercentile);
-
- if(fAnalyzeDeprecatedBackgrounds)
- {
- if(tmpDeltaPtKTPbPb > -10000.0)
- FillHistogram("hDeltaPtKTPbPb", tmpDeltaPtKTPbPb, centralityPercentile);
- if(tmpDeltaPtKTPbPbWithGhosts > -10000.0)
- FillHistogram("hDeltaPtKTPbPbWithGhosts", tmpDeltaPtKTPbPbWithGhosts, centralityPercentile);
- if(tmpDeltaPtKTCMS > -10000.0)
- FillHistogram("hDeltaPtKTCMS", tmpDeltaPtKTCMS, centralityPercentile);
- if(tmpDeltaPtKTMean > -10000.0)
- FillHistogram("hDeltaPtKTMean", tmpDeltaPtKTMean, centralityPercentile);
- if(tmpDeltaPtKTTrackLike > -10000.0)
- FillHistogram("hDeltaPtKTTrackLike", tmpDeltaPtKTTrackLike, centralityPercentile);
- if(tmpDeltaPtTR > -10000.0)
- FillHistogram("hDeltaPtTR", tmpDeltaPtTR, centralityPercentile);
- }
- }
-
#ifdef DEBUGMODE
AliInfo("Calculate()::Background done.");
#endif
//________________________________________________________________________
Bool_t AliAnalysisTaskChargedJetsPA::UserNotify()
{
- // Implemented Notify() to read the cross sections
- // and number of trials from pyxsec.root
- //
- #ifdef DEBUGMODE
- AliInfo("UserNotify started.");
- #endif
+ return kTRUE;
+}
- if(fAnalyzePythia)
+//________________________________________________________________________
+void AliAnalysisTaskChargedJetsPA::CreateJetProfilePlots(Double_t bgrd)
+{
+ for (Int_t i = 0; i<fJetArray->GetEntries(); i++)
{
- TTree *tree = AliAnalysisManager::GetAnalysisManager()->GetTree();
- TFile *currFile = tree->GetCurrentFile();
-
- TString file(currFile->GetName());
+ AliEmcalJet* tmpJet = static_cast<AliEmcalJet*>(fJetArray->At(i));
+ if (!tmpJet)
+ continue;
+ if(!IsSignalJetInAcceptance(tmpJet))
+ continue;
- if(file.Contains("root_archive.zip#")){
- Ssiz_t pos1 = file.Index("root_archive",12,TString::kExact);
- Ssiz_t pos = file.Index("#",1,pos1,TString::kExact);
- file.Replace(pos+1,20,"");
- }
- else {
- // not an archive take the basename....
- file.ReplaceAll(gSystem->BaseName(file.Data()),"");
- }
-
- TFile *fxsec = TFile::Open(Form("%s%s",file.Data(),"pyxsec.root")); // problem that we cannot really test the existance of a file in a archive so we have to lvie with open error message from root
- if(!fxsec){
- // next trial fetch the histgram file
- fxsec = TFile::Open(Form("%s%s",file.Data(),"pyxsec_hists.root"));
- if(!fxsec){
- // not a severe condition but inciate that we have no information
- return kFALSE;
+ SetCurrentOutputList(1);
+ // Jet profile analysis
+ if(TMath::Abs(tmpJet->Eta()) <= 0.3)
+ {
+ if(tmpJet->Pt()>=70.0)
+ {
+ FillHistogram("hJetProfile70GeV", 0.05-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.05, bgrd))/GetCorrectedJetPt(tmpJet, bgrd));
+ FillHistogram("hJetProfile70GeV", 0.10-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.10, bgrd))/GetCorrectedJetPt(tmpJet, bgrd));
+ FillHistogram("hJetProfile70GeV", 0.15-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.15, bgrd))/GetCorrectedJetPt(tmpJet, bgrd));
+ FillHistogram("hJetProfile70GeV", 0.20-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.20, bgrd))/GetCorrectedJetPt(tmpJet, bgrd));
+ FillHistogram("hJetProfile70GeV", 0.25-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.25, bgrd))/GetCorrectedJetPt(tmpJet, bgrd));
+ FillHistogram("hJetProfile70GeV", 0.30-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.30, bgrd))/GetCorrectedJetPt(tmpJet, bgrd));
+ FillHistogram("hJetProfile70GeV", 0.35-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.35, bgrd))/GetCorrectedJetPt(tmpJet, bgrd));
+ FillHistogram("hJetProfile70GeV", 0.40-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.40, bgrd))/GetCorrectedJetPt(tmpJet, bgrd));
+ FillHistogram("hJetProfile70GeV", 0.45-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.45, bgrd))/GetCorrectedJetPt(tmpJet, bgrd));
+ FillHistogram("hJetProfile70GeV", 0.50-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.50, bgrd))/GetCorrectedJetPt(tmpJet, bgrd));
+ FillHistogram("hJetProfile70GeV", 0.55-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.55, bgrd))/GetCorrectedJetPt(tmpJet, bgrd));
+ FillHistogram("hJetProfile70GeV", 0.60-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.60, bgrd))/GetCorrectedJetPt(tmpJet, bgrd));
}
- else{
- // find the tlist we want to be independtent of the name so use the Tkey
- TKey* key = (TKey*)fxsec->GetListOfKeys()->At(0);
- if(!key){
- fxsec->Close();
- return kFALSE;
- }
- TList *list = dynamic_cast<TList*>(key->ReadObj());
- if(!list){
- fxsec->Close();
- return kFALSE;
- }
- fCrossSection = ((TProfile*)list->FindObject("h1Xsec"))->GetBinContent(1);
- fTrials = ((TH1F*)list->FindObject("h1Trials"))->GetBinContent(1);
- fxsec->Close();
+ else if(GetCorrectedJetPt(tmpJet, bgrd)>=60.0)
+ {
+ FillHistogram("hJetProfile60GeV", 0.05-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.05, bgrd))/GetCorrectedJetPt(tmpJet, bgrd));
+ FillHistogram("hJetProfile60GeV", 0.10-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.10, bgrd))/GetCorrectedJetPt(tmpJet, bgrd));
+ FillHistogram("hJetProfile60GeV", 0.15-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.15, bgrd))/GetCorrectedJetPt(tmpJet, bgrd));
+ FillHistogram("hJetProfile60GeV", 0.20-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.20, bgrd))/GetCorrectedJetPt(tmpJet, bgrd));
+ FillHistogram("hJetProfile60GeV", 0.25-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.25, bgrd))/GetCorrectedJetPt(tmpJet, bgrd));
+ FillHistogram("hJetProfile60GeV", 0.30-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.30, bgrd))/GetCorrectedJetPt(tmpJet, bgrd));
+ FillHistogram("hJetProfile60GeV", 0.35-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.35, bgrd))/GetCorrectedJetPt(tmpJet, bgrd));
+ FillHistogram("hJetProfile60GeV", 0.40-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.40, bgrd))/GetCorrectedJetPt(tmpJet, bgrd));
+ FillHistogram("hJetProfile60GeV", 0.45-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.45, bgrd))/GetCorrectedJetPt(tmpJet, bgrd));
+ FillHistogram("hJetProfile60GeV", 0.50-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.50, bgrd))/GetCorrectedJetPt(tmpJet, bgrd));
+ FillHistogram("hJetProfile60GeV", 0.55-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.55, bgrd))/GetCorrectedJetPt(tmpJet, bgrd));
+ FillHistogram("hJetProfile60GeV", 0.60-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.60, bgrd))/GetCorrectedJetPt(tmpJet, bgrd));
+ }
+ else if(GetCorrectedJetPt(tmpJet, bgrd)>=50.0)
+ {
+ FillHistogram("hJetProfile50GeV", 0.05-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.05, bgrd))/GetCorrectedJetPt(tmpJet, bgrd));
+ FillHistogram("hJetProfile50GeV", 0.10-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.10, bgrd))/GetCorrectedJetPt(tmpJet, bgrd));
+ FillHistogram("hJetProfile50GeV", 0.15-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.15, bgrd))/GetCorrectedJetPt(tmpJet, bgrd));
+ FillHistogram("hJetProfile50GeV", 0.20-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.20, bgrd))/GetCorrectedJetPt(tmpJet, bgrd));
+ FillHistogram("hJetProfile50GeV", 0.25-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.25, bgrd))/GetCorrectedJetPt(tmpJet, bgrd));
+ FillHistogram("hJetProfile50GeV", 0.30-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.30, bgrd))/GetCorrectedJetPt(tmpJet, bgrd));
+ FillHistogram("hJetProfile50GeV", 0.35-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.35, bgrd))/GetCorrectedJetPt(tmpJet, bgrd));
+ FillHistogram("hJetProfile50GeV", 0.40-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.40, bgrd))/GetCorrectedJetPt(tmpJet, bgrd));
+ FillHistogram("hJetProfile50GeV", 0.45-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.45, bgrd))/GetCorrectedJetPt(tmpJet, bgrd));
+ FillHistogram("hJetProfile50GeV", 0.50-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.50, bgrd))/GetCorrectedJetPt(tmpJet, bgrd));
+ FillHistogram("hJetProfile50GeV", 0.55-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.55, bgrd))/GetCorrectedJetPt(tmpJet, bgrd));
+ FillHistogram("hJetProfile50GeV", 0.60-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.60, bgrd))/GetCorrectedJetPt(tmpJet, bgrd));
+ }
+ else if(GetCorrectedJetPt(tmpJet, bgrd)>=40.0)
+ {
+ FillHistogram("hJetProfile40GeV", 0.05-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.05, bgrd))/GetCorrectedJetPt(tmpJet, bgrd));
+ FillHistogram("hJetProfile40GeV", 0.10-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.10, bgrd))/GetCorrectedJetPt(tmpJet, bgrd));
+ FillHistogram("hJetProfile40GeV", 0.15-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.15, bgrd))/GetCorrectedJetPt(tmpJet, bgrd));
+ FillHistogram("hJetProfile40GeV", 0.20-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.20, bgrd))/GetCorrectedJetPt(tmpJet, bgrd));
+ FillHistogram("hJetProfile40GeV", 0.25-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.25, bgrd))/GetCorrectedJetPt(tmpJet, bgrd));
+ FillHistogram("hJetProfile40GeV", 0.30-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.30, bgrd))/GetCorrectedJetPt(tmpJet, bgrd));
+ FillHistogram("hJetProfile40GeV", 0.35-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.35, bgrd))/GetCorrectedJetPt(tmpJet, bgrd));
+ FillHistogram("hJetProfile40GeV", 0.40-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.40, bgrd))/GetCorrectedJetPt(tmpJet, bgrd));
+ FillHistogram("hJetProfile40GeV", 0.45-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.45, bgrd))/GetCorrectedJetPt(tmpJet, bgrd));
+ FillHistogram("hJetProfile40GeV", 0.50-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.50, bgrd))/GetCorrectedJetPt(tmpJet, bgrd));
+ FillHistogram("hJetProfile40GeV", 0.55-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.55, bgrd))/GetCorrectedJetPt(tmpJet, bgrd));
+ FillHistogram("hJetProfile40GeV", 0.60-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.60, bgrd))/GetCorrectedJetPt(tmpJet, bgrd));
+ }
+ else if(GetCorrectedJetPt(tmpJet, bgrd)>=30.0)
+ {
+ FillHistogram("hJetProfile30GeV", 0.05-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.05, bgrd))/GetCorrectedJetPt(tmpJet, bgrd));
+ FillHistogram("hJetProfile30GeV", 0.10-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.10, bgrd))/GetCorrectedJetPt(tmpJet, bgrd));
+ FillHistogram("hJetProfile30GeV", 0.15-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.15, bgrd))/GetCorrectedJetPt(tmpJet, bgrd));
+ FillHistogram("hJetProfile30GeV", 0.20-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.20, bgrd))/GetCorrectedJetPt(tmpJet, bgrd));
+ FillHistogram("hJetProfile30GeV", 0.25-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.25, bgrd))/GetCorrectedJetPt(tmpJet, bgrd));
+ FillHistogram("hJetProfile30GeV", 0.30-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.30, bgrd))/GetCorrectedJetPt(tmpJet, bgrd));
+ FillHistogram("hJetProfile30GeV", 0.35-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.35, bgrd))/GetCorrectedJetPt(tmpJet, bgrd));
+ FillHistogram("hJetProfile30GeV", 0.40-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.40, bgrd))/GetCorrectedJetPt(tmpJet, bgrd));
+ FillHistogram("hJetProfile30GeV", 0.45-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.45, bgrd))/GetCorrectedJetPt(tmpJet, bgrd));
+ FillHistogram("hJetProfile30GeV", 0.50-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.50, bgrd))/GetCorrectedJetPt(tmpJet, bgrd));
+ FillHistogram("hJetProfile30GeV", 0.55-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.55, bgrd))/GetCorrectedJetPt(tmpJet, bgrd));
+ FillHistogram("hJetProfile30GeV", 0.60-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.60, bgrd))/GetCorrectedJetPt(tmpJet, bgrd));
+ }
+ else if(GetCorrectedJetPt(tmpJet, bgrd)>=20.0)
+ {
+ FillHistogram("hJetProfile20GeV", 0.05-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.05, bgrd))/GetCorrectedJetPt(tmpJet, bgrd));
+ FillHistogram("hJetProfile20GeV", 0.10-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.10, bgrd))/GetCorrectedJetPt(tmpJet, bgrd));
+ FillHistogram("hJetProfile20GeV", 0.15-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.15, bgrd))/GetCorrectedJetPt(tmpJet, bgrd));
+ FillHistogram("hJetProfile20GeV", 0.20-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.20, bgrd))/GetCorrectedJetPt(tmpJet, bgrd));
+ FillHistogram("hJetProfile20GeV", 0.25-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.25, bgrd))/GetCorrectedJetPt(tmpJet, bgrd));
+ FillHistogram("hJetProfile20GeV", 0.30-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.30, bgrd))/GetCorrectedJetPt(tmpJet, bgrd));
+ FillHistogram("hJetProfile20GeV", 0.35-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.35, bgrd))/GetCorrectedJetPt(tmpJet, bgrd));
+ FillHistogram("hJetProfile20GeV", 0.40-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.40, bgrd))/GetCorrectedJetPt(tmpJet, bgrd));
+ FillHistogram("hJetProfile20GeV", 0.45-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.45, bgrd))/GetCorrectedJetPt(tmpJet, bgrd));
+ FillHistogram("hJetProfile20GeV", 0.50-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.50, bgrd))/GetCorrectedJetPt(tmpJet, bgrd));
+ FillHistogram("hJetProfile20GeV", 0.55-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.55, bgrd))/GetCorrectedJetPt(tmpJet, bgrd));
+ FillHistogram("hJetProfile20GeV", 0.60-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.60, bgrd))/GetCorrectedJetPt(tmpJet, bgrd));
}
- } // no tree pyxsec.root
- else {
- TTree *xtree = (TTree*)fxsec->Get("Xsection");
- if(!xtree){
- fxsec->Close();
- return kFALSE;
+ else if(GetCorrectedJetPt(tmpJet, bgrd)>=10.0)
+ {
+ FillHistogram("hJetProfile10GeV", 0.05-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.05, bgrd))/GetCorrectedJetPt(tmpJet, bgrd));
+ FillHistogram("hJetProfile10GeV", 0.10-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.10, bgrd))/GetCorrectedJetPt(tmpJet, bgrd));
+ FillHistogram("hJetProfile10GeV", 0.15-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.15, bgrd))/GetCorrectedJetPt(tmpJet, bgrd));
+ FillHistogram("hJetProfile10GeV", 0.20-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.20, bgrd))/GetCorrectedJetPt(tmpJet, bgrd));
+ FillHistogram("hJetProfile10GeV", 0.25-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.25, bgrd))/GetCorrectedJetPt(tmpJet, bgrd));
+ FillHistogram("hJetProfile10GeV", 0.30-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.30, bgrd))/GetCorrectedJetPt(tmpJet, bgrd));
+ FillHistogram("hJetProfile10GeV", 0.35-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.35, bgrd))/GetCorrectedJetPt(tmpJet, bgrd));
+ FillHistogram("hJetProfile10GeV", 0.40-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.40, bgrd))/GetCorrectedJetPt(tmpJet, bgrd));
+ FillHistogram("hJetProfile10GeV", 0.45-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.45, bgrd))/GetCorrectedJetPt(tmpJet, bgrd));
+ FillHistogram("hJetProfile10GeV", 0.50-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.50, bgrd))/GetCorrectedJetPt(tmpJet, bgrd));
+ FillHistogram("hJetProfile10GeV", 0.55-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.55, bgrd))/GetCorrectedJetPt(tmpJet, bgrd));
+ FillHistogram("hJetProfile10GeV", 0.60-0.05/2, (GetCorrectedConePt(tmpJet->Eta(), tmpJet->Phi(), 0.60, bgrd))/GetCorrectedJetPt(tmpJet, bgrd));
}
- UInt_t ntrials = 0;
- Double_t xsection = 0;
- xtree->SetBranchAddress("xsection",&xsection);
- xtree->SetBranchAddress("ntrials",&ntrials);
- xtree->GetEntry(0);
- fTrials = ntrials;
- fCrossSection = xsection;
- fxsec->Close();
}
+ SetCurrentOutputList(0);
}
- #ifdef DEBUGMODE
- AliInfo("UserNotify ended.");
- #endif
- return kTRUE;
}
-
//________________________________________________________________________
inline Double_t AliAnalysisTaskChargedJetsPA::EtaToTheta(Double_t arg)
{return 2.*atan(exp(-arg));}
//________________________________________________________________________
inline void AliAnalysisTaskChargedJetsPA::FillHistogram(const char * key, Double_t x)
{
- TH1* tmpHist = static_cast<TH1*>(fOutputList->FindObject(GetHistoName(key)));
+ TH1* tmpHist = static_cast<TH1*>(fCurrentOutputList->FindObject(GetHistoName(key)));
if(!tmpHist)
{
AliError(Form("Cannot find histogram <%s> ",key)) ;
//________________________________________________________________________
inline void AliAnalysisTaskChargedJetsPA::FillHistogram(const char * key, Double_t x, Double_t y)
{
- TH1* tmpHist = static_cast<TH1*>(fOutputList->FindObject(GetHistoName(key)));
+ TH1* tmpHist = static_cast<TH1*>(fCurrentOutputList->FindObject(GetHistoName(key)));
if(!tmpHist)
{
AliError(Form("Cannot find histogram <%s> ",key));
//________________________________________________________________________
inline void AliAnalysisTaskChargedJetsPA::FillHistogram(const char * key, Double_t x, Double_t y, Double_t add)
{
- TH2* tmpHist = static_cast<TH2*>(fOutputList->FindObject(GetHistoName(key)));
+ TH2* tmpHist = static_cast<TH2*>(fCurrentOutputList->FindObject(GetHistoName(key)));
if(!tmpHist)
{
AliError(Form("Cannot find histogram <%s> ",key));
tmpHist->Fill(x,y,add);
}
+
+//________________________________________________________________________
+inline void AliAnalysisTaskChargedJetsPA::FillCutHistogram(const char * key, Double_t cut, Double_t pT, Double_t eta, Double_t phi, Int_t isAdditionalTrack)
+{
+ THnF* tmpHist = static_cast<THnF*>(fCurrentOutputList->FindObject(GetHistoName(key)));
+ if(!tmpHist)
+ {
+ AliError(Form("Cannot find histogram <%s> ",key));
+ return;
+ }
+
+ Double_t tmpVec[5] = {cut, pT, eta, phi, static_cast<Double_t>(isAdditionalTrack)};
+ tmpHist->Fill(tmpVec);
+}
+
//________________________________________________________________________
template <class T> T* AliAnalysisTaskChargedJetsPA::AddHistogram1D(const char* name, const char* title, const char* options, Int_t xBins, Double_t xMin, Double_t xMax, const char* xTitle, const char* yTitle)
{
tmpHist->SetMarkerStyle(kFullCircle);
tmpHist->Sumw2();
- fHistList->Add(tmpHist);
- fHistCount++;
-
+ fCurrentOutputList->Add(tmpHist);
+
return tmpHist;
}
tmpHist->SetMarkerStyle(kFullCircle);
tmpHist->Sumw2();
- fHistList->Add(tmpHist);
- fHistCount++;
+ fCurrentOutputList->Add(tmpHist);
return tmpHist;
}
//________________________________________________________________________
-void AliAnalysisTaskChargedJetsPA::Terminate(Option_t *)
+THnF* AliAnalysisTaskChargedJetsPA::AddCutHistogram(const char* name, const char* title, const char* cutName, Int_t nBins, Double_t xMin, Double_t xMax)
+{
+ // Cut, pT, eta, phi, type
+ Int_t bins [5] = { nBins, 100, 20, 18, 2};
+ Double_t minEdges[5] = { xMin, 0.1, -1, 0, -0.5};
+ Double_t maxEdges[5] = { xMax, 40, +1, 2*TMath::Pi(), 1.5};
+
+ TString axisName[5] = {cutName,"#it{p}_{T}","#eta","#phi","Track type"};
+ TString axisTitle[5] = {cutName,"#it{p}_{T}","#eta","#phi","Track type"};
+
+ THnF * histo = new THnF(name, title, 5, bins, minEdges, maxEdges);
+ BinLogAxis(histo, 1);
+
+ for (Int_t iaxis=0; iaxis<5;iaxis++){
+ histo->GetAxis(iaxis)->SetName(axisName[iaxis]);
+ histo->GetAxis(iaxis)->SetTitle(axisTitle[iaxis]);
+ }
+
+ fCurrentOutputList->Add(histo);
+ return histo;
+}
+
+//________________________________________________________________________
+void AliAnalysisTaskChargedJetsPA::BinLogAxis(const THn *h, Int_t axisNumber)
{
- PostData(1, fOutputList);
+ // Method for the correct logarithmic binning of histograms
+ TAxis *axis = h->GetAxis(axisNumber);
+ int bins = axis->GetNbins();
+
+ Double_t from = axis->GetXmin();
+ Double_t to = axis->GetXmax();
+ Double_t *newBins = new Double_t[bins + 1];
+
+ newBins[0] = from;
+ Double_t factor = pow(to/from, 1./bins);
+
+ for (int i = 1; i <= bins; i++) {
+ newBins[i] = factor * newBins[i-1];
+ }
+ axis->Set(bins, newBins);
+ delete [] newBins;
+}
- // Mandatory
- fOutputList = dynamic_cast<TList*> (GetOutputData(1)); // '1' refers to the output slot
- if (!fOutputList) {
- printf("ERROR: Output list not available\n");
+//________________________________________________________________________
+void AliAnalysisTaskChargedJetsPA::Terminate(Option_t *)
+{
+ if(fNoTerminate)
return;
+
+ fOutputLists[0] = dynamic_cast<TList*> (GetOutputData(1)); // >1 refers to output slots
+ PostData(1, fOutputLists[0]);
+
+ if(fAnalyzeJetProfile)
+ {
+ fOutputLists[1] = dynamic_cast<TList*> (GetOutputData(2)); // >1 refers to output slots
+ PostData(2, fOutputLists[1]);
+ }
+ if(fAnalyzeTrackcuts)
+ {
+ if(fAnalyzeJetProfile)
+ {
+ fOutputLists[2] = dynamic_cast<TList*> (GetOutputData(3)); // >1 refers to output slots
+ PostData(3, fOutputLists[2]);
+ }
+ else
+ {
+ fOutputLists[1] = dynamic_cast<TList*> (GetOutputData(2)); // >1 refers to output slots
+ PostData(2, fOutputLists[1]);
+ }
}
}
{
// Destructor. Clean-up the output list, but not the histograms that are put inside
// (the list is owner and will clean-up these histograms). Protect in PROOF case.
- if (fOutputList && !AliAnalysisManager::GetAnalysisManager()->IsProofMode()) {
- delete fOutputList;
- }
+
+ if(fNoTerminate)
+ return;
+
+ delete fHybridESDtrackCuts;
+ delete fHybridESDtrackCuts_variedPtDep;
+
+ for(Int_t i=0; i<static_cast<Int_t>(fOutputLists.size()); i++)
+ if (fOutputLists[i] && !AliAnalysisManager::GetAnalysisManager()->IsProofMode())
+ delete fOutputLists[i];
+
}
//________________________________________________________________________
fRandom = new TRandom3(0);
- fOutputList = new TList();
- fOutputList->SetOwner(); // otherwise it produces leaks in merging
+ Int_t tmpListCount = 1;
+ if(fAnalyzeJetProfile)
+ tmpListCount++;
+ if(fAnalyzeTrackcuts)
+ tmpListCount++;
- PostData(1, fOutputList);
+ fOutputLists.resize(tmpListCount);
+ for(Int_t i=0; i<tmpListCount; i++)
+ {
+ fOutputLists[i] = new TList();
+ fOutputLists[i]->SetOwner(); // otherwise it produces leaks in merging
+ PostData(i+1, fOutputLists[i]);
+ }
}
//________________________________________________________________________
ExecOnce(); // Get tracks, jets, background from arrays if not already given + Init Histos
Calculate(InputEvent());
-
- PostData(1, fOutputList);
+
+ PostData(1, fOutputLists[0]);
+ if(fAnalyzeJetProfile)
+ PostData(2, fOutputLists[1]);
+ if(fAnalyzeTrackcuts)
+ {
+ if(fAnalyzeJetProfile)
+ PostData(3, fOutputLists[2]);
+ else
+ PostData(2, fOutputLists[1]);
+ }
+
}