X-Git-Url: http://git.uio.no/git/?a=blobdiff_plain;f=PWGHF%2FvertexingHF%2FAliAnalysisTaskSEHFQA.cxx;h=5924880de3999d88d6340223d35e89a14d9b61bf;hb=af7c067ede816e6a61da2a33f9905ba0cb7d53f6;hp=4dfc8c4e398b057a3a6f67c240faa76308cee7e9;hpb=2a844546f9ae2874a88149fa314f2315fa162e3c;p=u%2Fmrichter%2FAliRoot.git diff --git a/PWGHF/vertexingHF/AliAnalysisTaskSEHFQA.cxx b/PWGHF/vertexingHF/AliAnalysisTaskSEHFQA.cxx index 4dfc8c4e398..5924880de39 100644 --- a/PWGHF/vertexingHF/AliAnalysisTaskSEHFQA.cxx +++ b/PWGHF/vertexingHF/AliAnalysisTaskSEHFQA.cxx @@ -28,14 +28,18 @@ #include #include #include +#include +#include #include #include #include #include "AliAnalysisManager.h" #include "AliESDtrack.h" +#include "AliESDVertex.h" #include "AliVertexerTracks.h" #include "AliPID.h" +#include "AliPIDResponse.h" #include "AliTPCPIDResponse.h" #include "AliAODHandler.h" #include "AliAODEvent.h" @@ -55,10 +59,19 @@ #include "AliRDHFCutsDStartoKpipi.h" #include "AliRDHFCutsD0toKpi.h" #include "AliRDHFCutsLctopKpi.h" +#include "AliRDHFCutsLctoV0.h" #include "AliInputEventHandler.h" +#include "AliFlowEvent.h" +#include "AliFlowTrackCuts.h" +#include "AliFlowTrackSimple.h" +#include "AliFlowVector.h" + #include "AliAnalysisTaskSEHFQA.h" +using std::cout; +using std::endl; + ClassImp(AliAnalysisTaskSEHFQA) //____________________________________________________________________________ @@ -70,18 +83,24 @@ AliAnalysisTaskSEHFQA::AliAnalysisTaskSEHFQA():AliAnalysisTaskSE(), fOutputCounters(0x0), fOutputCheckCentrality(0x0), fOutputEvSelection(0x0), + fOutputFlowObs(0x0), fDecayChannel(AliAnalysisTaskSEHFQA::kD0toKpi), fCuts(0x0), + fFlowEvent(0x0), + fRFPcuts(0x0), fEstimator(AliRDHFCuts::kCentTRK), fReadMC(kFALSE), fSimpleMode(kFALSE), - fOnOff() + fUseSelectionBit(kTRUE), + fOnOff(), + fFillDistrTrackEffChecks(kFALSE) { //default constructor fOnOff[0]=kTRUE; fOnOff[1]=kTRUE; fOnOff[2]=kTRUE; fOnOff[3]=kTRUE; + fOnOff[4]=kTRUE; } //____________________________________________________________________________ @@ -93,12 +112,17 @@ AliAnalysisTaskSEHFQA::AliAnalysisTaskSEHFQA(const char *name, AliAnalysisTaskSE fOutputCounters(0x0), fOutputCheckCentrality(0x0), fOutputEvSelection(0x0), + fOutputFlowObs(0x0), fDecayChannel(ch), fCuts(0x0), + fFlowEvent(0x0), + fRFPcuts(0x0), fEstimator(AliRDHFCuts::kCentTRK), fReadMC(kFALSE), fSimpleMode(kFALSE), - fOnOff() + fUseSelectionBit(kTRUE), + fOnOff(), + fFillDistrTrackEffChecks(kFALSE) { //constructor @@ -109,6 +133,7 @@ AliAnalysisTaskSEHFQA::AliAnalysisTaskSEHFQA(const char *name, AliAnalysisTaskSE fOnOff[1]=kTRUE; fOnOff[2]=kTRUE; fOnOff[3]=kTRUE; + fOnOff[4]=kTRUE; // Output slot #1 writes into a TH1F container (number of events) DefineOutput(1,TH1F::Class()); //My private output @@ -136,6 +161,9 @@ AliAnalysisTaskSEHFQA::AliAnalysisTaskSEHFQA(const char *name, AliAnalysisTaskSE case 5: DefineOutput(4,AliRDHFCutsLctopKpi::Class()); //My private output break; + case kLambdactoV0: + DefineOutput(4,AliRDHFCutsLctoV0::Class()); //My private output + break; } if (fOnOff[2]) { // Output slot #5 writes into a TList container (AliCounterCollection) @@ -145,6 +173,7 @@ AliAnalysisTaskSEHFQA::AliAnalysisTaskSEHFQA(const char *name, AliAnalysisTaskSE } if(fOnOff[3]) DefineOutput(7,TList::Class()); //My private output + if(fOnOff[4]) DefineOutput(8,TList::Class()); //My private output } @@ -164,6 +193,10 @@ AliAnalysisTaskSEHFQA::~AliAnalysisTaskSEHFQA() delete fOutputEvSelection; + if(fOnOff[4]) { + delete fOutputFlowObs; + delete fFlowEvent; + } } //___________________________________________________________________________ @@ -171,56 +204,60 @@ void AliAnalysisTaskSEHFQA::Init(){ //initialization if(fDebug > 1) printf("AnalysisTaskSEHFQA::Init() \n"); + AliRDHFCuts *copycut = 0x0; switch(fDecayChannel){ case 0: { - AliRDHFCutsDplustoKpipi* copycut=new AliRDHFCutsDplustoKpipi(*(static_cast(fCuts))); - // Post the data - PostData(4,copycut); + copycut=new AliRDHFCutsDplustoKpipi(*(static_cast(fCuts))); } break; case 1: { - AliRDHFCutsD0toKpi* copycut=new AliRDHFCutsD0toKpi(*(static_cast(fCuts))); - // Post the data - PostData(4,copycut); + copycut=new AliRDHFCutsD0toKpi(*(static_cast(fCuts))); } break; case 2: { - AliRDHFCutsDStartoKpipi* copycut=new AliRDHFCutsDStartoKpipi(*(static_cast(fCuts))); - // Post the data - PostData(4,copycut); + copycut=new AliRDHFCutsDStartoKpipi(*(static_cast(fCuts))); } break; case 3: { - AliRDHFCutsDstoKKpi* copycut=new AliRDHFCutsDstoKKpi(*(static_cast(fCuts))); - // Post the data - PostData(4,copycut); + copycut=new AliRDHFCutsDstoKKpi(*(static_cast(fCuts))); } break; case 4: { - AliRDHFCutsD0toKpipipi* copycut=new AliRDHFCutsD0toKpipipi(*(static_cast(fCuts))); - // Post the data - PostData(4,copycut); + copycut=new AliRDHFCutsD0toKpipipi(*(static_cast(fCuts))); } break; case 5: { - AliRDHFCutsLctopKpi* copycut=new AliRDHFCutsLctopKpi(*(static_cast(fCuts))); - // Post the data - PostData(4,copycut); + copycut=new AliRDHFCutsLctopKpi(*(static_cast(fCuts))); + } + break; + case kLambdactoV0: + { + copycut=new AliRDHFCutsLctoV0(*(static_cast(fCuts))); } break; - default: - return; - } + AliFatal("Bad initialization for the decay channe - Exiting..."); + break; + } + const char* nameoutput=GetOutputSlot(4)->GetContainer()->GetName(); + if (copycut){ + copycut->SetName(nameoutput); + + // Post the data + PostData(4,copycut); + }else{ + AliFatal("Failing initializing AliRDHFCuts object - Exiting..."); + } + return; } @@ -240,14 +277,12 @@ void AliAnalysisTaskSEHFQA::UserCreateOutputObjects() fNEntries->GetXaxis()->SetBinLabel(4,"nCandidates(AnCuts)"); fNEntries->GetXaxis()->SetBinLabel(5,"EventsWithGoodVtx"); //fNEntries->GetXaxis()->SetBinLabel(6,"N. of 0SMH"); - fNEntries->GetXaxis()->SetBinLabel(6,"N. of CSH1"); + fNEntries->GetXaxis()->SetBinLabel(6,"N candidates"); if(fReadMC){ fNEntries->GetXaxis()->SetBinLabel(7,"MC Cand from c"); fNEntries->GetXaxis()->SetBinLabel(8,"MC Cand from b"); fNEntries->GetXaxis()->SetBinLabel(9,"N fake Trks"); fNEntries->GetXaxis()->SetBinLabel(10,"N true Trks"); - } else{ - fNEntries->GetXaxis()->SetBinLabel(7,"N candidates"); } fNEntries->GetXaxis()->SetNdivisions(1,kFALSE); @@ -259,7 +294,7 @@ void AliAnalysisTaskSEHFQA::UserCreateOutputObjects() fOutputPID->SetName(GetOutputSlot(2)->GetContainer()->GetName()); //TOF pid - TH1F* hTOFflags=new TH1F("hTOFflags","TOF flags",6,-0.5,5.5); + TH1F* hTOFflags=new TH1F("hTOFflags","TOF flags",7,-0.5,6.5); hTOFflags->SetMinimum(0.); hTOFflags->GetXaxis()->SetBinLabel(1,"All Tracks"); hTOFflags->GetXaxis()->SetBinLabel(2,"kTPCout"); @@ -267,10 +302,28 @@ void AliAnalysisTaskSEHFQA::UserCreateOutputObjects() hTOFflags->GetXaxis()->SetBinLabel(4,"kTIME"); hTOFflags->GetXaxis()->SetBinLabel(5,"kTOFpid"); hTOFflags->GetXaxis()->SetBinLabel(6,"kTOFmismatch"); + hTOFflags->GetXaxis()->SetBinLabel(7,"kDetPidOK"); TString hname="hTOFsig"; TH1F* hTOFsig=new TH1F(hname.Data(),"Distribution of TOF signal;TOF time [ps];Entries", 100, -2.e3,40.e3); + hname="hTOFstartTimeMask"; + TH1F* hTOFstartTimeMask=new TH1F(hname.Data(),"TOF start time mask; Mask ;Entries", 8, -0.5,7.5); + hTOFstartTimeMask->GetXaxis()->SetBinLabel(1,"FILL"); + hTOFstartTimeMask->GetXaxis()->SetBinLabel(2,"TOF"); + hTOFstartTimeMask->GetXaxis()->SetBinLabel(3,"T0A"); + hTOFstartTimeMask->GetXaxis()->SetBinLabel(4,"TOF.and.T0A"); + hTOFstartTimeMask->GetXaxis()->SetBinLabel(5,"T0C"); + hTOFstartTimeMask->GetXaxis()->SetBinLabel(6,"TOF.and.T0C"); + hTOFstartTimeMask->GetXaxis()->SetBinLabel(7,"T0AC"); + hTOFstartTimeMask->GetXaxis()->SetBinLabel(8,"TOF.and.T0AC"); + + hname="hTOFstartTimeRes"; + TH1F* hTOFstartTimeRes=new TH1F(hname.Data(),"TOF start time resolution; Resolution (ps) ;Entries", 100, 0.,300.); + + hname="hTOFstartTimeDistrib"; + TH1F* hTOFstartTimeDistrib=new TH1F(hname.Data(),"TOF start time distribution; Start time ;Entries", 400, -1000.,1000.); + hname="hTOFtime"; TH1F* hTOFtime=new TH1F(hname.Data(),"Distribution of TOF time Kaon;TOF time(Kaon) [ps];Entries", 1000, 0.,50000.); @@ -321,6 +374,9 @@ void AliAnalysisTaskSEHFQA::UserCreateOutputObjects() fOutputPID->Add(hTOFflags); fOutputPID->Add(hTOFsig); fOutputPID->Add(hTPCsig); + fOutputPID->Add(hTOFstartTimeMask); + fOutputPID->Add(hTOFstartTimeRes); + fOutputPID->Add(hTOFstartTimeDistrib); fOutputPID->Add(hTOFtime); fOutputPID->Add(hTOFtimeKaonHyptime); fOutputPID->Add(hTOFtimeKaonHyptimeAC); @@ -335,6 +391,36 @@ void AliAnalysisTaskSEHFQA::UserCreateOutputObjects() fOutputPID->Add(hTPCsigmaK); fOutputPID->Add(hTPCsigmaPion); fOutputPID->Add(hTPCsigmaProton); + + if(fReadMC){ + //TOF + hname="hTOFsigmaMCKSigPid"; + TH2F* hTOFsigmaMCKSigPid=new TH2F(hname.Data(),"(TOFsignal-timeK)/tofSigPid;p[GeV/c];(TOFsignal-timeK)/tofSigPid",500,0.,10.,400,-20,20); + + hname="hTOFsigmaMCPionSigPid"; + TH2F* hTOFsigmaMCPionSigPid=new TH2F(hname.Data(),"(TOFsignal-time#pi)/tofSigPid;p[GeV/c];(TOFsignal-time#pi)/tofSigPid",500,0.,10.,400,-20,20); + + hname="hTOFsigmaMCProtonSigPid"; + TH2F* hTOFsigmaMCProtonSigPid=new TH2F(hname.Data(),"(TOFsignal-timep)/tofSigPid;p[GeV/c];(TOFsignal-time p)/tofSigPid",500,0.,10.,400,-20,20); + + //TPC + hname="hTPCsigmaMCK"; + TH2F* hTPCsigmaMCK=new TH2F(hname.Data(),"TPC Sigma for K as a function of momentum;p[GeV/c];Sigma Kaon",500,0.,10.,400,-20,20); + + hname="hTPCsigmaMCPion"; + TH2F* hTPCsigmaMCPion=new TH2F(hname.Data(),"TPC Sigma for #pi as a function of momentum;p[GeV/c];Sigma #pi",500,0.,10.,400,-20,20); + + hname="hTPCsigmaMCProton"; + TH2F* hTPCsigmaMCProton=new TH2F(hname.Data(),"TPC Sigma for proton as a function of momentum;p[GeV/c];Sigma Proton",500,0.,10.,400,-20,20); + + fOutputPID->Add(hTOFsigmaMCKSigPid); + fOutputPID->Add(hTOFsigmaMCPionSigPid); + fOutputPID->Add(hTOFsigmaMCProtonSigPid); + fOutputPID->Add(hTPCsigmaMCK); + fOutputPID->Add(hTPCsigmaMCPion); + fOutputPID->Add(hTPCsigmaMCProton); + + } } //quality of the tracks @@ -356,10 +442,22 @@ void AliAnalysisTaskSEHFQA::UserCreateOutputObjects() hname="hnLayerITS"; TH1F* hnLayerITS=new TH1F(hname.Data(),"Number of tracks with point in layer;ITS layer;",7,-1.5,5.5); hnLayerITS->GetXaxis()->SetBinLabel(1,"n tracks"); + hnLayerITS->GetXaxis()->SetBinLabel(2,"SPDin"); + hnLayerITS->GetXaxis()->SetBinLabel(3,"SPDout"); + hnLayerITS->GetXaxis()->SetBinLabel(4,"SDDin"); + hnLayerITS->GetXaxis()->SetBinLabel(5,"SDDout"); + hnLayerITS->GetXaxis()->SetBinLabel(6,"SSDin"); + hnLayerITS->GetXaxis()->SetBinLabel(7,"SSDout"); hname="hnLayerITSsa"; TH1F* hnLayerITSsa=new TH1F(hname.Data(),"Number of tracks with point in layer;ITS layer;",7,-1.5,5.5); hnLayerITSsa->GetXaxis()->SetBinLabel(1,"n tracks"); + hnLayerITSsa->GetXaxis()->SetBinLabel(2,"SPDin"); + hnLayerITSsa->GetXaxis()->SetBinLabel(3,"SPDout"); + hnLayerITSsa->GetXaxis()->SetBinLabel(4,"SDDin"); + hnLayerITSsa->GetXaxis()->SetBinLabel(5,"SDDout"); + hnLayerITSsa->GetXaxis()->SetBinLabel(6,"SSDin"); + hnLayerITSsa->GetXaxis()->SetBinLabel(7,"SSDout"); hname="hnClsSPD"; TH1F* hnClsSPD=new TH1F(hname.Data(),"Distribution of number of SPD clusters;nSPDcls;Entries",3,-0.5,2.5); @@ -368,16 +466,188 @@ void AliAnalysisTaskSEHFQA::UserCreateOutputObjects() TH1F* hptGoodTr=new TH1F(hname.Data(),"Pt distribution of 'good' tracks;p_{t}[GeV];Entries/0.05 GeV/c",400,0.,20.); hptGoodTr->SetTitleOffset(1.3,"Y"); + if(!fSimpleMode){ + hname="hptGoodTrFromDaugh"; + TH1F* hptGoodTrFromDaugh=new TH1F(hname.Data(),"Pt distribution of 'good' candidate's daughters;p_{t}[GeV];Entries/0.05 GeV/c",400,0.,20.); + hptGoodTrFromDaugh->SetTitleOffset(1.3,"Y"); + fOutputTrack->Add(hptGoodTrFromDaugh); + } + hname="hdistrGoodTr"; - TH1F* hdistrGoodTr=new TH1F(hname.Data(),"Distribution of number of 'good' tracks per event;no.good-tracks/ev;Entries",4000,-0.5,3999.5); + TH1F* hdistrGoodTr=new TH1F(hname.Data(),"Distribution of number of 'good' candidate's daughters per event;no.good-tracks/ev;Entries",4000,-0.5,3999.5); hdistrGoodTr->SetTitleOffset(1.3,"Y"); - hname="hd0"; - TH1F* hd0=new TH1F(hname.Data(),"Impact parameter (rphi) distribution of 'good' tracks;d_{0rphi}[cm];Entries/10^{3} cm",200,-0.1,0.1); + hname="hdistrSelTr"; + TH1F* hdistrSelTr=new TH1F(hname.Data(),"Distribution of number of Selected tracks per event;no.good-tracks/ev;Entries",4000,-0.5,3999.5); + hdistrSelTr->SetTitleOffset(1.3,"Y"); - hname="hd0z"; - TH1F* hd0z=new TH1F(hname.Data(),"Impact parameter (z) distribution of 'good' tracks;d_{0z}[cm];Entries/10^{3} cm",200,-0.1,0.1); + hname="hd0dau"; + TH1F* hd0dau=new TH1F(hname.Data(),"Impact parameter (rphi) distribution of D daughter tracks;d_{0rphi}[cm];Entries/10^{3} cm",200,-0.1,0.1); + hname="hd0zdau"; + TH1F* hd0zdau=new TH1F(hname.Data(),"Impact parameter (z) distribution of D daughter tracks;d_{0z}[cm];Entries/10^{3} cm",200,-0.1,0.1); + + hname="hd0TracksSPDin"; + TH1F* hd0TracksSPDin=new TH1F(hname.Data(),"Impact parameter (rphi) distribution of AOD tracks kITSrefit, SPDinner; d_{0rphi}[cm];Entries",200,-0.5,0.5); + + hname="hd0TracksSPDany"; + TH1F* hd0TracksSPDany=new TH1F(hname.Data(),"Impact parameter (rphi) distribution of AOD tracks kITSrefit, SPDany; d_{0rphi}[cm];Entries",200,-0.5,0.5); + + hname="hd0TracksFilterBit4"; + TH1F* hd0TracksFilterBit4=new TH1F(hname.Data(),"Impact parameter (rphi) distribution of AOD tracks FilterBit4; d_{0rphi}[cm];Entries",200,-0.5,0.5); + + hname="hd0TracksTPCITSSPDany"; + TH1F* hd0TracksTPCITSSPDany=new TH1F(hname.Data(),"Impact parameter (rphi) distribution of AOD tracks TPC+ITScuts+SPDany; d_{0rphi}[cm];Entries",200,-0.5,0.5); + + + if(fFillDistrTrackEffChecks){ + hname="hPtDaughters"; + TH1F *hPtDaughters=new TH1F(hname.Data(),"p_{T} distributions of the daughter tracks;p_{T} [GeV/c];Entries",200,0.,20.); + + hname="hPhiDaughters"; + TH1F *hPhiDaughters=new TH1F(hname.Data(),"#phi distribution of the daughter tracks;#phi [rad];Entries",100,0.,2*(TMath::Pi())); + + hname="hEtaDaughters"; + TH1F *hEtaDaughters=new TH1F(hname.Data(),"#eta distribution of the daughter tracks;#eta;Entries",80,-2.,2.); + + hname="hEtavsPhiDaughters"; + TH2F *hEtavsPhiDaughters=new TH2F(hname.Data(),"#eta vs #phi distribution of the daughter tracks;#phi;#eta",100,0.,2*(TMath::Pi()),80,-2.,2.); + + hname="hNTPCclsvsPtDaughters"; + TH2F *hNTPCclsvsPtDaughters=new TH2F(hname.Data(),"N TPC clusters vs p_{T} distribution of the daughter tracks;p_{T} [GeV/c];N TPC cls",200,0.,20.,85,-0.5,169.5); + + hname="hNTPCclsvsPhiDaughters"; + TH2F *hNTPCclsvsPhiDaughters=new TH2F(hname.Data(),"N TPC clusters vs #phi distribution of the daughter tracks;#phi [rad];N TPC cls",100,0.,2*(TMath::Pi()),85,-0.5,169.5); + + hname="hNTPCclsvsEtaDaughters"; + TH2F *hNTPCclsvsEtaDaughters=new TH2F(hname.Data(),"N TPC clusters vs #eta distribution of the daughter tracks;#eta;N TPC cls",80,-2.,2.,85,-0.5,169.5); + + hname="hNTPCCrossedRowsvsPtDaughters"; + TH2F *hNTPCCrossedRowsvsPtDaughters=new TH2F(hname.Data(),"N TPC crossed rows vs p_{T} distribution of the daughter tracks;p_{T} [GeV/c];N TPC cros. rows",200,0.,20.,100,-0.5,199.5); + + hname="hNTPCCrossedRowsvsPhiDaughters"; + TH2F *hNTPCCrossedRowsvsPhiDaughters=new TH2F(hname.Data(),"N TPC crossed rows vs #phi distribution of the daughter tracks;#phi [rad];N TPC cros. rows",100,0.,2*(TMath::Pi()),100,-0.5,199.5); + + hname="hNTPCCrossedRowsvsEtaDaughters"; + TH2F *hNTPCCrossedRowsvsEtaDaughters=new TH2F(hname.Data(),"N TPC crossed rows vs #eta distribution of the daughter tracks;#eta;N TPC cros. rows",80,-2.,2.,100,-0.5,199.5); + + hname="hRatioCRowsOverFclsvsPtDaughters"; + TH2F *hRatioCRowsOverFclsvsPtDaughters=new TH2F(hname.Data(),"CrossedRows/FindableClusters vs p_{T} distribution of the daughter tracks;p_{T} [GeV/c];CRows/FCls",200,0.,20,100,0.,1.); + + hname="hRatioCRowsOverFclsvsPhiDaughters"; + TH2F *hRatioCRowsOverFclsvsPhiDaughters=new TH2F(hname.Data(),"CrossedRows/FindableClusters vs #phi distribution of the daughter tracks;#phi [rad];CRows/FCls",100,0.,2*(TMath::Pi()),100,0.,1.); + + hname="hRatioCRowsOverFclsvsEtaDaughters"; + TH2F *hRatioCRowsOverFclsvsEtaDaughters=new TH2F(hname.Data(),"CrossedRows/FindableClusters vs #eta distribution of the daughter tracks;#eta;CRows/FCls",80,-2.,2.,100,0.,1.); + + hname="hNITSclsvsPtDaughters"; + TH2F *hNITSclsvsPtDaughters=new TH2F(hname.Data(),"N ITS clusters vs p_{T} distribution of the daughter tracks;p_{T} [GeV/c];N ITS cls",200,0.,20,7,-0.5,6.5); + + hname="hNITSclsvsPhiDaughters"; + TH2F *hNITSclsvsPhiDaughters=new TH2F(hname.Data(),"N ITS clusters vs #phi distribution of the daughter tracks;#phi [rad];N ITS cls",100,0.,2*(TMath::Pi()),7,-0.5,6.5); + + hname="hNITSclsvsEtaDaughters"; + TH2F *hNITSclsvsEtaDaughters=new TH2F(hname.Data(),"N ITS clusters vs #eta distribution of the daughter tracks;#eta;N ITS cls",80,-2.,2.,7,-0.5,6.5); + + hname="hSPDclsDaughters"; + TH1I *hSPDclsDaughters = new TH1I(hname.Data(),"N SPD points distrubution; ;Entries",4,0,4); + hSPDclsDaughters->GetXaxis()->SetBinLabel(1, "no SPD"); + hSPDclsDaughters->GetXaxis()->SetBinLabel(2, "kOnlyFirst"); + hSPDclsDaughters->GetXaxis()->SetBinLabel(3, "kOnlySecond"); + hSPDclsDaughters->GetXaxis()->SetBinLabel(4, "kBoth"); + + hname="hPtAllTracks"; + TH1F *hPtAllTracks=new TH1F(hname.Data(),"p_{T} distributions of the AOD tracks (ID>0);p_{T} [GeV/c];Entries",200,0.,20.); + + hname="hPhiAllTracks"; + TH1F *hPhiAllTracks=new TH1F(hname.Data(),"#phi distribution of the AOD tracks (ID>0);#phi [rad];Entries",100,0.,2*(TMath::Pi())); + + hname="hEtaAllTracks"; + TH1F *hEtaAllTracks=new TH1F(hname.Data(),"#eta distribution of the AOD tracks (ID>0);#eta;Entries",80,-2.,2.); + + hname="hEtavsPhiAllTracks"; + TH2F *hEtavsPhiAllTracks=new TH2F(hname.Data(),"#eta vs #phi distribution of the AOD tracks (ID>0);#phi;#eta",100,0.,2*(TMath::Pi()),80,-2.,2.); + + hname="hNTPCclsvsPtAllTracks"; + TH2F *hNTPCclsvsPtAllTracks=new TH2F(hname.Data(),"N TPC clusters vs p_{T} distribution of the AOD tracks (ID>0);p_{T} [GeV/c];N TPC cls",200,0.,20,85,-0.5,169.5); + + hname="hNTPCclsvsPhiAllTracks"; + TH2F *hNTPCclsvsPhiAllTracks=new TH2F(hname.Data(),"N TPC clusters vs #phi distribution of the AOD tracks (ID>0);#phi [rad];N TPC cls",100,0.,2*(TMath::Pi()),85,-0.5,169.5); + + hname="hNTPCclsvsEtaAllTracks"; + TH2F *hNTPCclsvsEtaAllTracks=new TH2F(hname.Data(),"N TPC clusters vs #eta distribution of the AOD tracks (ID>0);#eta;N TPC cls",80,-2.,2.,85,-0.5,169.5); + + hname="hNTPCCrossedRowsvsPtAllTracks"; + TH2F *hNTPCCrossedRowsvsPtAllTracks=new TH2F(hname.Data(),"N TPC crossed rows vs p_{T} distribution of the AOD tracks;p_{T} [GeV/c];N TPC cros. rows",200,0.,20.,100,-0.5,199.5); + + hname="hNTPCCrossedRowsvsPhiAllTracks"; + TH2F *hNTPCCrossedRowsvsPhiAllTracks=new TH2F(hname.Data(),"N TPC crossed rows vs #phi distribution of the AOD tracks;#phi [rad];N TPC cros. rows",100,0.,2*(TMath::Pi()),100,-0.5,199.5); + + hname="hNTPCCrossedRowsvsEtaAllTracks"; + TH2F *hNTPCCrossedRowsvsEtaAllTracks=new TH2F(hname.Data(),"N TPC crossed rows vs #eta distribution of the AOD tracks;#eta;N TPC cros. rows",80,-2.,2.,100,-0.5,199.5); + + hname="hRatioCRowsOverFclsvsPtAllTracks"; + TH2F *hRatioCRowsOverFclsvsPtAllTracks=new TH2F(hname.Data(),"CrossedRows/FindableClusters vs p_{T} distribution of the AOD tracks (ID>0);p_{T} [GeV/c];CRows/FCls",200,0.,20,100,0.,1.); + + hname="hRatioCRowsOverFclsvsPhiAllTracks"; + TH2F *hRatioCRowsOverFclsvsPhiAllTracks=new TH2F(hname.Data(),"CrossedRows/FindableClusters vs #phi distribution of the AOD tracks (ID>0);#phi [rad];CRows/FCls",100,0.,2*(TMath::Pi()),100,0.,1.); + + hname="hRatioCRowsOverFclsvsEtaAllTracks"; + TH2F *hRatioCRowsOverFclsvsEtaAllTracks=new TH2F(hname.Data(),"CrossedRows/FindableClusters vs #eta distribution of the AOD tracks (ID>0);#eta;CRows/FCls",80,-2.,2.,100,0.,1.); + + hname="hNITSclsvsPtAllTracks"; + TH2F *hNITSclsvsPtAllTracks=new TH2F(hname.Data(),"N ITS clusters vs p_{T} distribution of the AOD tracks (ID>0);p_{T} [GeV/c];N ITS cls",200,0.,20,7,-0.5,6.5); + + hname="hNITSclsvsPhiAllTracks"; + TH2F *hNITSclsvsPhiAllTracks=new TH2F(hname.Data(),"N ITS clusters vs #phi distribution of the AOD tracks (ID>0);#phi [rad];N ITS cls",100,0.,2*(TMath::Pi()),7,-0.5,6.5); + + hname="hNITSclsvsEtaAllTracks"; + TH2F *hNITSclsvsEtaAllTracks=new TH2F(hname.Data(),"N ITS clusters vs #eta distribution of the AOD tracks (ID>0);#eta;N ITS cls",80,-2.,2.,7,-0.5,6.5); + + hname="hSPDclsAllTracks"; + TH1I *hSPDclsAllTracks = new TH1I(hname.Data(),"N SPD points distrubution AOD tracks (ID>0); ;Entries",4,0,4); + hSPDclsAllTracks->GetXaxis()->SetBinLabel(1, "no SPD"); + hSPDclsAllTracks->GetXaxis()->SetBinLabel(2, "kOnlyFirst"); + hSPDclsAllTracks->GetXaxis()->SetBinLabel(3, "kOnlySecond"); + hSPDclsAllTracks->GetXaxis()->SetBinLabel(4, "kBoth"); + + fOutputTrack->Add(hPtDaughters); + fOutputTrack->Add(hPhiDaughters); + fOutputTrack->Add(hEtaDaughters); + fOutputTrack->Add(hEtavsPhiDaughters); + fOutputTrack->Add(hNTPCclsvsPtDaughters); + fOutputTrack->Add(hNTPCclsvsPhiDaughters); + fOutputTrack->Add(hNTPCclsvsEtaDaughters); + fOutputTrack->Add(hNTPCCrossedRowsvsPtDaughters); + fOutputTrack->Add(hNTPCCrossedRowsvsPhiDaughters); + fOutputTrack->Add(hNTPCCrossedRowsvsEtaDaughters); + fOutputTrack->Add(hRatioCRowsOverFclsvsPtDaughters); + fOutputTrack->Add(hRatioCRowsOverFclsvsPhiDaughters); + fOutputTrack->Add(hRatioCRowsOverFclsvsEtaDaughters); + fOutputTrack->Add(hNITSclsvsPtDaughters); + fOutputTrack->Add(hNITSclsvsPhiDaughters); + fOutputTrack->Add(hNITSclsvsEtaDaughters); + fOutputTrack->Add(hSPDclsDaughters); + fOutputTrack->Add(hPtAllTracks); + fOutputTrack->Add(hPhiAllTracks); + fOutputTrack->Add(hEtaAllTracks); + fOutputTrack->Add(hEtavsPhiAllTracks); + fOutputTrack->Add(hNTPCclsvsPtAllTracks); + fOutputTrack->Add(hNTPCclsvsPhiAllTracks); + fOutputTrack->Add(hNTPCclsvsEtaAllTracks); + fOutputTrack->Add(hNTPCCrossedRowsvsPtAllTracks); + fOutputTrack->Add(hNTPCCrossedRowsvsPhiAllTracks); + fOutputTrack->Add(hNTPCCrossedRowsvsEtaAllTracks); + fOutputTrack->Add(hRatioCRowsOverFclsvsPtAllTracks); + fOutputTrack->Add(hRatioCRowsOverFclsvsPhiAllTracks); + fOutputTrack->Add(hRatioCRowsOverFclsvsEtaAllTracks); + fOutputTrack->Add(hNITSclsvsPtAllTracks); + fOutputTrack->Add(hNITSclsvsPhiAllTracks); + fOutputTrack->Add(hNITSclsvsEtaAllTracks); + fOutputTrack->Add(hSPDclsAllTracks); + + } + fOutputTrack->Add(hnClsITS); fOutputTrack->Add(hnClsITSselTr); fOutputTrack->Add(hnClsITSSA); @@ -386,13 +656,19 @@ void AliAnalysisTaskSEHFQA::UserCreateOutputObjects() fOutputTrack->Add(hnClsSPD); fOutputTrack->Add(hptGoodTr); fOutputTrack->Add(hdistrGoodTr); - fOutputTrack->Add(hd0); - fOutputTrack->Add(hd0z); + fOutputTrack->Add(hdistrSelTr); + fOutputTrack->Add(hd0TracksSPDin); + fOutputTrack->Add(hd0TracksSPDany); + fOutputTrack->Add(hd0TracksFilterBit4); + fOutputTrack->Add(hd0TracksTPCITSSPDany); + fOutputTrack->Add(hd0dau); + fOutputTrack->Add(hd0zdau); + if(fReadMC){ hname="hdistrFakeTr"; TH1F* hdistrFakeTr=new TH1F(hname.Data(),"Distribution of number of fake tracks per event;no.fake-tracks/ev;Entries",4000,-0.5,3999.5); - hdistrGoodTr->SetTitleOffset(1.3,"Y"); + hdistrFakeTr->SetTitleOffset(1.3,"Y"); hname="hd0f"; TH1F* hd0f=new TH1F(hname.Data(),"Impact parameter distribution of fake tracks;d_{0}[cm];Entries/10^{3} cm",200,-0.1,0.1); @@ -400,6 +676,12 @@ void AliAnalysisTaskSEHFQA::UserCreateOutputObjects() hname="hptFakeTr"; TH1F* hptFakeTr=new TH1F(hname.Data(),"Pt distribution of fake tracks;p_{t}[GeV];Entries/0.05 GeV/c",400,0.,20.); hptFakeTr->SetTitleOffset(1.3,"Y"); + if(!fSimpleMode){ + hname="hptFakeTrFromDaugh"; + TH1F* hptFakeTrFromDaugh=new TH1F(hname.Data(),"Pt distribution of fake tracks from daughters;p_{t}[GeV];Entries/0.05 GeV/c",400,0.,20.); + hptFakeTrFromDaugh->SetTitleOffset(1.3,"Y"); + fOutputTrack->Add(hptFakeTrFromDaugh); + } fOutputTrack->Add(hptFakeTr); fOutputTrack->Add(hdistrFakeTr); @@ -446,14 +728,41 @@ void AliAnalysisTaskSEHFQA::UserCreateOutputObjects() TH1F* hMultOut=new TH1F(hname.Data(),"Multiplicity out of Centrality range;multiplicity;Entries",10000,-0.5,9999.5); hname="hMultvsPercentile"; - TH2F* hMultvsPercentile=new TH2F(hname.Data(),"Multiplicity vs Percentile;multiplicity;percentile",10000,-0.5,9999.5,12,-10.,110); + TH2F* hMultvsPercentile=new TH2F(hname.Data(),"Multiplicity vs Percentile;multiplicity;percentile",10000,-0.5,9999.5,240,-10.,110); + + hname="hntrklvsPercentile"; + TH2F* hntrklvsPercentile=new TH2F(hname.Data(),"N tracklets vs Percentile;ntracklets;percentile",5000,-0.5,4999.5,240,-10.,110); + + hname="hnTPCTracksvsPercentile"; + TH2F* hnTPCTracksvsPercentile=new TH2F(hname.Data(),"N TPC tracks vs Percentile;nTPCTracks;percentile",5000,-0.5,9999.5,240,-10.,110); + + hname="hnTPCITSTracksvsPercentile"; + TH2F* hnTPCITSTracksvsPercentile=new TH2F(hname.Data(),"N TPC+ITS tracks vs Percentile;nTPCITSTracks;percentile",5000,-0.5,9999.5,240,-10.,110); + + hname="hnTPCITS1SPDTracksvsPercentile"; + TH2F* hnTPCITS1SPDTracksvsPercentile=new TH2F(hname.Data(),"N TPC+ITS+1SPD tracks vs Percentile;nTPCITS1SPDTracks;percentile",5000,-0.5,9999.5,240,-10.,110); + + hname="hV0MultiplicityPercentile"; + TH2F*hV0MultiplicityPercentile = new TH2F(hname.Data(),"V0 Multiplicity vs Percentile;V0 multiplicity;percentile",1000,-0.5,9999.5,120,-10.,110); + hname="hV0MultiplicityNtrackletsIn"; + TH2F*hV0MultiplicityNtrackletsIn = new TH2F(hname.Data(),"V0 Multiplicity vs Number of tracklets in the CC;V0 multiplicity;percentile",1000,-0.5,9999.5,5000,-0.5,4999.5); + + hname="hStdPercentileSPDPercentile"; + TH2F* hStdPercentileSPDPercentile = new TH2F(hname.Data(),"Std estimator Percentile Vs SPD Percentile;Std estimator percentile;SPD percentile",120,-10.,110,120,-10.,110); fOutputCheckCentrality->Add(hNtrackletsIn); fOutputCheckCentrality->Add(hNtrackletsOut); fOutputCheckCentrality->Add(hMultIn); fOutputCheckCentrality->Add(hMultOut); fOutputCheckCentrality->Add(hMultvsPercentile); + fOutputCheckCentrality->Add(hntrklvsPercentile); + fOutputCheckCentrality->Add(hnTPCTracksvsPercentile); + fOutputCheckCentrality->Add(hnTPCITSTracksvsPercentile); + fOutputCheckCentrality->Add(hnTPCITS1SPDTracksvsPercentile); + fOutputCheckCentrality->Add(hV0MultiplicityPercentile); + fOutputCheckCentrality->Add(hV0MultiplicityNtrackletsIn); + fOutputCheckCentrality->Add(hStdPercentileSPDPercentile); PostData(6,fOutputCheckCentrality); @@ -479,10 +788,24 @@ void AliAnalysisTaskSEHFQA::UserCreateOutputObjects() evselection->AddRubric("evnonsel","zvtx"); evselection->Init(); - TH1F* hzvtx=new TH1F("hzvtx", "Distribution of z_{VTX};z_{VTX} [cm];Entries",100,-20,20); - - - TH2F* hTrigCent=new TH2F("hTrigCent","Centrality vs. Trigger types",12,-1.5,10.5,12,-10,110); + TH1F* hxvtx=new TH1F("hxvtx", "Distribution of x_{VTX};x_{VTX} [cm];Entries",800,-1,1); + TH1F* hyvtx=new TH1F("hyvtx", "Distribution of y_{VTX};y_{VTX} [cm];Entries",800,-1,1); + TH1F* hzvtx=new TH1F("hzvtx", "Distribution of z_{VTX};z_{VTX} [cm];Entries",800,-30,30); + TH1F* hxvtxSelEv=new TH1F("hxvtxSelEv", "Distribution of x_{VTX} Selected Ev;x_{VTX} [cm];Entries",800,-1,1); + TH1F* hyvtxSelEv=new TH1F("hyvtxSelEv", "Distribution of y_{VTX} Selected Ev;y_{VTX} [cm];Entries",800,-1,1); + TH1F* hzvtxSelEv=new TH1F("hzvtxSelEv", "Distribution of z_{VTX} Selected Ev;z_{VTX} [cm];Entries",800,-30,30); + TH1F* hWhichVert=new TH1F("hWhichVert","Vertex Type",4,-1.5,2.5); + hWhichVert->GetXaxis()->SetBinLabel(1,"Not found"); + hWhichVert->GetXaxis()->SetBinLabel(2,"Track"); + hWhichVert->GetXaxis()->SetBinLabel(3,"SPD-3D"); + hWhichVert->GetXaxis()->SetBinLabel(4,"SPD-z"); + TH1F* hWhichVertSelEv=new TH1F("hWhichVertSelEv","Vertex Type",4,-1.5,2.5); + hWhichVertSelEv->GetXaxis()->SetBinLabel(1,"Not found"); + hWhichVertSelEv->GetXaxis()->SetBinLabel(2,"Track"); + hWhichVertSelEv->GetXaxis()->SetBinLabel(3,"SPD-3D"); + hWhichVertSelEv->GetXaxis()->SetBinLabel(4,"SPD-z"); + + TH2F* hTrigCent=new TH2F("hTrigCent","Centrality vs. Trigger types",14,-1.5,12.5,12,-10,110); hTrigCent->GetXaxis()->SetBinLabel(1,"All"); hTrigCent->GetXaxis()->SetBinLabel(2,"kAny"); hTrigCent->GetXaxis()->SetBinLabel(3,"kMB"); @@ -494,9 +817,11 @@ void AliAnalysisTaskSEHFQA::UserCreateOutputObjects() hTrigCent->GetXaxis()->SetBinLabel(9,"kEMCJET+GAMMA"); hTrigCent->GetXaxis()->SetBinLabel(10,"Muons"); hTrigCent->GetXaxis()->SetBinLabel(11,"PHOS"); - hTrigCent->GetXaxis()->SetBinLabel(12,"Others"); + hTrigCent->GetXaxis()->SetBinLabel(12,"TRD"); + hTrigCent->GetXaxis()->SetBinLabel(13,"HighMult"); + hTrigCent->GetXaxis()->SetBinLabel(14,"Others"); - TH2F* hTrigMul=new TH2F("hTrigMul","Multiplicity vs. Trigger types",12,-1.5,10.5,100,0.,10000.); + TH2F* hTrigMul=new TH2F("hTrigMul","Multiplicity vs. Trigger types",14,-1.5,12.5,100,0.,10000.); hTrigMul->GetXaxis()->SetBinLabel(1,"All"); hTrigMul->GetXaxis()->SetBinLabel(2,"kAny"); hTrigMul->GetXaxis()->SetBinLabel(3,"kMB"); @@ -508,9 +833,11 @@ void AliAnalysisTaskSEHFQA::UserCreateOutputObjects() hTrigMul->GetXaxis()->SetBinLabel(9,"kEMCJET+GAMMA"); hTrigMul->GetXaxis()->SetBinLabel(10,"Muons"); hTrigMul->GetXaxis()->SetBinLabel(11,"PHOS"); - hTrigMul->GetXaxis()->SetBinLabel(12,"Others"); + hTrigMul->GetXaxis()->SetBinLabel(12,"TRD"); + hTrigMul->GetXaxis()->SetBinLabel(13,"HighMult"); + hTrigMul->GetXaxis()->SetBinLabel(14,"Others"); - TH2F* hTrigCentSel=new TH2F("hTrigCentSel","Trigger types",12,-1.5,10.5,12,-10,110); + TH2F* hTrigCentSel=new TH2F("hTrigCentSel","Trigger types",14,-1.5,12.5,12,-10,110); hTrigCentSel->GetXaxis()->SetBinLabel(1,"All"); hTrigCentSel->GetXaxis()->SetBinLabel(2,"kAny"); hTrigCentSel->GetXaxis()->SetBinLabel(3,"kMB"); @@ -522,31 +849,131 @@ void AliAnalysisTaskSEHFQA::UserCreateOutputObjects() hTrigCentSel->GetXaxis()->SetBinLabel(9,"kEMCJET+GAMMA"); hTrigCentSel->GetXaxis()->SetBinLabel(10,"Muons"); hTrigCentSel->GetXaxis()->SetBinLabel(11,"PHOS"); - hTrigCentSel->GetXaxis()->SetBinLabel(12,"Others"); + hTrigCentSel->GetXaxis()->SetBinLabel(12,"TRD"); + hTrigCentSel->GetXaxis()->SetBinLabel(13,"HighMult"); + hTrigCentSel->GetXaxis()->SetBinLabel(14,"Others"); AliCounterCollection *trigCounter=new AliCounterCollection("trigCounter"); trigCounter->AddRubric("run",500000); - trigCounter->AddRubric("triggerType","Any/MB/Cent/SemiCent/EMCAL"); + trigCounter->AddRubric("triggerType","All/Any/MB/Cent/SemiCent/EMCAL/MUON/NoPhysSelMUON/NoPhysSelEvNot7/NoPhysSelCMUP1/NoPhysSelMB/NoPhysSelCent/NoPhysSelSemiCent/CINT7"); trigCounter->Init(); + TH1F* hWhyEvRejected=new TH1F("hWhyEvRejected", "Why Event rejected",7,-1.5,5.5); + + hWhyEvRejected->GetXaxis()->SetBinLabel(1,"N events"); + hWhyEvRejected->GetXaxis()->SetBinLabel(2,"pileup"); + hWhyEvRejected->GetXaxis()->SetBinLabel(3,"centrality"); + hWhyEvRejected->GetXaxis()->SetBinLabel(4,"Vertex not found"); + hWhyEvRejected->GetXaxis()->SetBinLabel(5,"trigger"); + hWhyEvRejected->GetXaxis()->SetBinLabel(6,"z vertex out of 10 cm"); + hWhyEvRejected->GetXaxis()->SetBinLabel(7,"physics sel"); + + fOutputEvSelection->Add(evselection); + fOutputEvSelection->Add(hxvtx); + fOutputEvSelection->Add(hyvtx); fOutputEvSelection->Add(hzvtx); + fOutputEvSelection->Add(hxvtxSelEv); + fOutputEvSelection->Add(hyvtxSelEv); + fOutputEvSelection->Add(hzvtxSelEv); + fOutputEvSelection->Add(hWhichVert); + fOutputEvSelection->Add(hWhichVertSelEv); fOutputEvSelection->Add(hTrigCent); fOutputEvSelection->Add(hTrigMul); fOutputEvSelection->Add(hTrigCentSel); fOutputEvSelection->Add(trigCounter); + fOutputEvSelection->Add(hWhyEvRejected); + + } + if(fOnOff[4]){ // FLOW OBSERVABLES + fOutputFlowObs=new TList(); + fOutputFlowObs->SetOwner(); + fOutputFlowObs->SetName(GetOutputSlot(8)->GetContainer()->GetName()); + + fFlowEvent = new AliFlowEvent(3000); + fRFPcuts = new AliFlowTrackCuts("rfpCuts"); + + TH2F *hFEvents = new TH2F("hFlowEvents","FlowEvent Selection",7,0,7,7,-10,60); + hFEvents->GetXaxis()->SetBinLabel(1,"REACHED"); + hFEvents->GetXaxis()->SetBinLabel(2,"TRIGGERED"); + hFEvents->GetXaxis()->SetBinLabel(3,"kMB"); + hFEvents->GetXaxis()->SetBinLabel(4,"kCent"); + hFEvents->GetXaxis()->SetBinLabel(5,"kSemiC"); + hFEvents->GetXaxis()->SetBinLabel(6,"Triggered + vtx cut"); + hFEvents->GetXaxis()->SetBinLabel(7,"UnexpectedBehaviour"); + fOutputFlowObs->Add(hFEvents); + + TProfile2D *hQ[3]; + TH2F *hAngleQ[3]; + TH3F *hPhiEta[3]; + TString ref[3] = {"FB1","FB128","VZE"}; + Int_t etabin[3] = {40,40,20}; + Int_t etamax[3] = { 1, 1, 5}; + for(Int_t i=0; i<3; ++i) { + hQ[i]= new TProfile2D( Form("h%s_Q",ref[i].Data()), + Form("Q_{2} components for %s",ref[i].Data()), + 4,0,4,12,0,60,"s"); + hQ[i]->GetXaxis()->SetBinLabel(1,"Qx^{-}"); + hQ[i]->GetXaxis()->SetBinLabel(2,"Qy^{-}"); + hQ[i]->GetXaxis()->SetBinLabel(3,"Qx^{+}"); + hQ[i]->GetXaxis()->SetBinLabel(4,"Qy^{+}"); + hQ[i]->GetYaxis()->SetTitle("Centrality"); + fOutputFlowObs->Add(hQ[i]); + + hAngleQ[i] = new TH2F( Form("h%s_AngleQ",ref[i].Data()), + Form("#Psi_{2} for %s",ref[i].Data()), + 72,0,TMath::Pi(),12,0,60); + hAngleQ[i]->GetXaxis()->SetTitle( Form("#Psi_{2}^{%s}",ref[i].Data()) ); + hAngleQ[i]->GetYaxis()->SetTitle("Centrality"); + fOutputFlowObs->Add(hAngleQ[i]); + + hPhiEta[i] = new TH3F( Form("h%s_PhiEta",ref[i].Data()), + Form("Eta vs Phi for %s",ref[i].Data()), + 144,0,TMath::TwoPi(),etabin[i],-1.0*etamax[i],+1.0*etamax[i],12,0,60); + hPhiEta[i]->GetXaxis()->SetTitle("Phi"); + hPhiEta[i]->GetYaxis()->SetTitle("Eta"); + hPhiEta[i]->GetZaxis()->SetTitle("Centrality"); + fOutputFlowObs->Add(hPhiEta[i]); + + } + TH3F *hTPCVZE_AngleQ = new TH3F("hTPCVZE_AngleQ","#Psi_{2}^{VZERO} vs #Psi_{2}^{TPC}", 72,0,TMath::Pi(),72,0,TMath::Pi(),12,0,60); + hTPCVZE_AngleQ->GetXaxis()->SetTitle("#Psi_{2}^{TPC}"); + hTPCVZE_AngleQ->GetYaxis()->SetTitle("#Psi_{2}^{VZE}"); + hTPCVZE_AngleQ->GetZaxis()->SetTitle("Centrality"); + fOutputFlowObs->Add(hTPCVZE_AngleQ); + + TH2F *hCentVsMultRPS = new TH2F("hCentVsMultRPS", " Centrality Vs. Multiplicity RPs",5000, 0, 5000.,12,0,60 ); + hCentVsMultRPS->GetXaxis()->SetTitle("Multiplicity RPs"); + hCentVsMultRPS->GetYaxis()->SetTitle("Centrality"); + fOutputFlowObs->Add(hCentVsMultRPS); + } + + /* + AliAnalysisManager *mgr = AliAnalysisManager::GetAnalysisManager(); + AliInputEventHandler *inputHandler=(AliInputEventHandler*)mgr->GetInputEventHandler(); + AliPIDResponse *pidResp=inputHandler->GetPIDResponse(); + if (fCuts->GetIsUsePID() && fDecayChannel==kLambdactoV0) { + fCuts->GetPidHF()->SetPidResponse(pidResp); + AliRDHFCutsLctoV0* lccuts=dynamic_cast(fCuts); + if(lccuts){ + lccuts->GetPidV0pos()->SetPidResponse(pidResp); + lccuts->GetPidV0neg()->SetPidResponse(pidResp); + fCuts->GetPidHF()->SetOldPid(kFALSE); + lccuts->GetPidV0pos()->SetOldPid(kFALSE); + lccuts->GetPidV0neg()->SetOldPid(kFALSE); + } } -// AliAnalysisManager *mgr = AliAnalysisManager::GetAnalysisManager(); -// AliInputEventHandler *inputHandler=(AliInputEventHandler*)mgr->GetInputEventHandler(); -// AliPIDResponse *pidResp=inputHandler->GetPIDResponse(); -// fCuts->GetPidHF()->SetPidResponse(pidResp); + */ + // Post the data PostData(1,fNEntries); + if(fOnOff[1]) PostData(2,fOutputPID); if(fOnOff[0]) PostData(3,fOutputTrack); PostData(4,fCuts); if(fOnOff[2]) PostData(5,fOutputCounters); if(fOnOff[3]) PostData(7,fOutputEvSelection); + if(fOnOff[4]) PostData(8,fOutputFlowObs); if(!fOnOff[0] && !fOnOff[1] && !fOnOff[2]) AliError("Nothing will be filled!"); } @@ -648,6 +1075,16 @@ void AliAnalysisTaskSEHFQA::UserExec(Option_t */*option*/) pdgdaughters[2]=211;//pi } break; + case kLambdactoV0: + arrayProng=(TClonesArray*)aodFromExt->GetList()->FindObject("CascadesHF"); + pdg=4122; + if(fReadMC){ + pdgdaughters =new Int_t[3]; + pdgdaughters[0]=2212;//p + pdgdaughters[1]=211;//pi + pdgdaughters[2]=211;//pi + } + break; } } } else if(aod) { @@ -712,11 +1149,21 @@ void AliAnalysisTaskSEHFQA::UserExec(Option_t */*option*/) pdgdaughters[2]=211;//pi } break; + case kLambdactoV0: + arrayProng=(TClonesArray*)aod->GetList()->FindObject("CascadesHF"); + pdg=4122; + if(fReadMC){ + pdgdaughters =new Int_t[3]; + pdgdaughters[0]=2212;//p + pdgdaughters[1]=211;//pi + pdgdaughters[2]=211;//pi + } + break; } } Bool_t isSimpleMode=fSimpleMode; if(!arrayProng) { - AliInfo("Branch not found! The output will contain only trak related histograms\n"); + AliInfo("Branch not found! The output will contain only track related histograms\n"); isSimpleMode=kTRUE; fNEntries->Fill(2); } @@ -753,6 +1200,35 @@ void AliAnalysisTaskSEHFQA::UserExec(Option_t */*option*/) Double_t centrality=fCuts->GetCentrality(aod); Double_t multiplicity=aod->GetHeader()->GetRefMultiplicity(); Int_t runNumber = aod->GetRunNumber(); + TString trigClass=aod->GetFiredTriggerClasses(); + Int_t nAODtracks=aod->GetNTracks(); + Int_t nSelTracksTPCOnly=0; + Int_t nSelTracksTPCITS=0; + Int_t nSelTracksTPCITS1SPD=0; + + for (Int_t k=0;kGetTrack(k); + if(track->GetID()<0) continue; + Int_t nclsTot=0,nclsSPD=0; + for(Int_t l=0;l<6;l++) { + if(TESTBIT(track->GetITSClusterMap(),l)) { + nclsTot++; if(l<2) nclsSPD++; + } + } + UShort_t nTPCClus=track->GetTPCClusterMap().CountBits(); + if(TMath::Abs(track->Eta())<0.8 && nTPCClus>=70 && track->GetStatus()&AliESDtrack::kTPCrefit){ + if(track->TestFilterBit(1)) nSelTracksTPCOnly++; + if(track->GetStatus()&AliESDtrack::kITSrefit){ + nSelTracksTPCITS++; + if(nclsSPD>0) nSelTracksTPCITS1SPD++; + } + } + } + + if(fOnOff[4]) { + FillFlowObs(aod); + PostData(8,fOutputFlowObs); + } if(fOnOff[3]){ TH2F* hTrigC=(TH2F*)fOutputEvSelection->FindObject("hTrigCent"); TH2F* hTrigM=(TH2F*)fOutputEvSelection->FindObject("hTrigMul"); @@ -760,7 +1236,22 @@ void AliAnalysisTaskSEHFQA::UserExec(Option_t */*option*/) hTrigC->Fill(-1.,centrality); hTrigM->Fill(-1.,multiplicity); - + trigCount->Count(Form("triggerType:All/Run:%d",runNumber)); + if(evSelMask==0){ + if(aod->GetEventType()!=7){ + trigCount->Count(Form("triggerType:NoPhysSelEvNot7/Run:%d",runNumber)); + }else if(trigClass.Contains("CMUP1")){ + trigCount->Count(Form("triggerType:NoPhysSelCMUP1/Run:%d",runNumber)); + }else if(trigClass.Contains("MUON")){ + trigCount->Count(Form("triggerType:NoPhysSelMUON/Run:%d",runNumber)); + }else if(trigClass.Contains("CPBI2_B1-B") || trigClass.Contains(" CPBI2WU_B1-B")){ + trigCount->Count(Form("triggerType:NoPhysSelMB/Run:%d",runNumber)); + }else if(trigClass.Contains("CCENT") || trigClass.Contains("CVHN")){ + trigCount->Count(Form("triggerType:NoPhysSelCent/Run:%d",runNumber)); + }else if(trigClass.Contains("CSEMI") || trigClass.Contains("CVLN")){ + trigCount->Count(Form("triggerType:NoPhysSelSemiCent/Run:%d",runNumber)); + } + } if(evSelMask & AliVEvent::kAny){ hTrigC->Fill(0.,centrality); hTrigM->Fill(0.,multiplicity); @@ -774,6 +1265,7 @@ void AliAnalysisTaskSEHFQA::UserExec(Option_t */*option*/) if(evSelMask & AliVEvent::kINT7){ hTrigC->Fill(2.,centrality); hTrigM->Fill(2.,multiplicity); + trigCount->Count(Form("triggerType:CINT7/Run:%d",runNumber)); } if(evSelMask & AliVEvent::kCINT5){ hTrigC->Fill(3.,centrality); @@ -801,15 +1293,24 @@ void AliAnalysisTaskSEHFQA::UserExec(Option_t */*option*/) if(evSelMask & (((AliVEvent::kCMUS5 | AliVEvent::kMUSH7) | (AliVEvent::kMUL7 | AliVEvent::kMUU7)) | (AliVEvent::kMUS7 | AliVEvent::kMUON))){ hTrigC->Fill(8.,centrality); hTrigM->Fill(8.,multiplicity); + trigCount->Count(Form("triggerType:MUON/Run:%d",runNumber)); } if(evSelMask & (AliVEvent::kPHI1 | AliVEvent::kPHI7)){ hTrigC->Fill(9.,centrality); hTrigM->Fill(9.,multiplicity); } - if(evSelMask & (AliVEvent::kDG5 | AliVEvent::kZED)){ + if(evSelMask & (AliVEvent::kTRD)){ hTrigC->Fill(10.,centrality); hTrigM->Fill(10.,multiplicity); } + if(evSelMask & (AliVEvent::kHighMult)){ + hTrigC->Fill(11.,centrality); + hTrigM->Fill(11.,multiplicity); + } + if(evSelMask & (AliVEvent::kDG5 | AliVEvent::kZED)){ + hTrigC->Fill(12.,centrality); + hTrigM->Fill(12.,multiplicity); + } } @@ -826,6 +1327,12 @@ void AliAnalysisTaskSEHFQA::UserExec(Option_t */*option*/) //count events with good vertex // AOD primary vertex AliAODVertex *vtx1 = (AliAODVertex*)aod->GetPrimaryVertex(); + + Double_t pos[3],cov[6]; + vtx1->GetXYZ(pos); + vtx1->GetCovarianceMatrix(cov); + const AliESDVertex vESD(pos,cov,100.,100); + TString primTitle = vtx1->GetTitle(); if(primTitle.Contains("VertexerTracks") && vtx1->GetNContributors()>0) fNEntries->Fill(4); @@ -837,17 +1344,43 @@ void AliAnalysisTaskSEHFQA::UserExec(Option_t */*option*/) Bool_t evSelbyCentrality=kTRUE,evSelected=kTRUE,evSelByVertex=kTRUE,evselByPileup=kTRUE,evSelByPS=kTRUE; + + TH1F* hWhyEvRejected=0x0; + if(fOnOff[3]){ + hWhyEvRejected=(TH1F*)fOutputEvSelection->FindObject("hWhyEvRejected"); + if(hWhyEvRejected) hWhyEvRejected->Fill(-1); + } + //select event if(!fCuts->IsEventSelected(aod)) { evSelected=kFALSE; - if(fCuts->GetWhyRejection()==1) {fNEntries->Fill(1); evselByPileup=kFALSE;}// rejected for pileup - if(fCuts->GetWhyRejection()==2 || fCuts->GetWhyRejection()==3) evSelbyCentrality=kFALSE; //rejected by centrality - if(fCuts->GetWhyRejection()==4) evSelByVertex=kFALSE; //rejected by vertex - if(fCuts->GetWhyRejection()==5) fNEntries->Fill(5);//tmp - if(fCuts->GetWhyRejection()==6 && fOnOff[3]) ((AliCounterCollection*)fOutputEvSelection->FindObject("evselection"))->Count(Form("evnonsel:zvtx/Run:%d",runNumber)); - if(fCuts->GetWhyRejection()==7) { evSelByPS=kFALSE; } + if(fCuts->IsEventRejectedDueToPileupSPD()) { + if(hWhyEvRejected) hWhyEvRejected->Fill(0); + evselByPileup=kFALSE; + }// rejected for pileup + if(fCuts->IsEventRejectedDueToCentrality()) { + if(hWhyEvRejected) hWhyEvRejected->Fill(1); + evSelbyCentrality=kFALSE; //rejected by centrality + } + if(fCuts->IsEventRejectedDueToNotRecoVertex() || + fCuts->IsEventRejectedDueToVertexContributors()){ + evSelByVertex=kFALSE; + if(hWhyEvRejected) hWhyEvRejected->Fill(2); + } + if(fCuts->IsEventRejectedDueToTrigger()){ + if(hWhyEvRejected) hWhyEvRejected->Fill(3); + } + if(fCuts->IsEventRejectedDueToZVertexOutsideFiducialRegion()) { + evSelByVertex=kFALSE; + if(fOnOff[3]) ((AliCounterCollection*)fOutputEvSelection->FindObject("evselection"))->Count(Form("evnonsel:zvtx/Run:%d",runNumber)); + if(hWhyEvRejected) hWhyEvRejected->Fill(4); + } + if(fCuts->IsEventRejectedDuePhysicsSelection()) { + evSelByPS=kFALSE; + if(hWhyEvRejected) hWhyEvRejected->Fill(5); + } } - if(evSelected){ + if(evSelected && fOnOff[3]){ TH2F* hTrigS=(TH2F*)fOutputEvSelection->FindObject("hTrigCentSel"); hTrigS->Fill(-1.,centrality); @@ -861,7 +1394,9 @@ void AliAnalysisTaskSEHFQA::UserExec(Option_t */*option*/) if(evSelMask & (AliVEvent::kEMCEJE | AliVEvent::kEMCEGA)) hTrigS->Fill(7.,centrality); if(evSelMask & (((AliVEvent::kCMUS5 | AliVEvent::kMUSH7) | (AliVEvent::kMUL7 | AliVEvent::kMUU7)) | (AliVEvent::kMUS7 | AliVEvent::kMUON))) hTrigS->Fill(8.,centrality); if(evSelMask & (AliVEvent::kPHI1 | AliVEvent::kPHI7)) hTrigS->Fill(9.,centrality); - if(evSelMask & (AliVEvent::kDG5 | AliVEvent::kZED)) hTrigS->Fill(10.,centrality); + if(evSelMask & (AliVEvent::kTRD)) hTrigS->Fill(10.,centrality); + if(evSelMask & (AliVEvent::kHighMult)) hTrigS->Fill(11.,centrality); + if(evSelMask & (AliVEvent::kDG5 | AliVEvent::kZED)) hTrigS->Fill(12.,centrality); } if(evSelected || (!evSelbyCentrality && evSelByVertex && evselByPileup && evSelByPS)){ //events selected or not selected because of centrality @@ -872,6 +1407,10 @@ void AliAnalysisTaskSEHFQA::UserExec(Option_t */*option*/) Float_t secondCentf =fCuts->GetCentrality(aod,fEstimator); Int_t secondCent = (Int_t)(secondCentf+0.5); Int_t mincent=stdCent-stdCent%10; + AliAODVZERO *vzeroAOD = (AliAODVZERO*)aod->GetVZEROData(); + Float_t vzeroMult = vzeroAOD->GetMTotV0A() + vzeroAOD->GetMTotV0C(); + AliCentrality *aodcent = aod->GetCentrality(); + Float_t spdCentf = aodcent->GetCentralityPercentile("CL1"); if(stdCentf==-1) { mincent=-10; stdCent=-1; @@ -895,6 +1434,13 @@ void AliAnalysisTaskSEHFQA::UserExec(Option_t */*option*/) ((TH1F*)fOutputCheckCentrality->FindObject("hMultIn"))->Fill(aod->GetHeader()->GetRefMultiplicity()); } ((TH2F*)fOutputCheckCentrality->FindObject("hMultvsPercentile"))->Fill(aod->GetHeader()->GetRefMultiplicity(),stdCentf); + ((TH2F*)fOutputCheckCentrality->FindObject("hntrklvsPercentile"))->Fill(aod->GetTracklets()->GetNumberOfTracklets(),stdCentf); + ((TH2F*)fOutputCheckCentrality->FindObject("hnTPCTracksvsPercentile"))->Fill(nSelTracksTPCOnly,stdCentf); + ((TH2F*)fOutputCheckCentrality->FindObject("hnTPCITSTracksvsPercentile"))->Fill(nSelTracksTPCITS,stdCentf); + ((TH2F*)fOutputCheckCentrality->FindObject("hnTPCITS1SPDTracksvsPercentile"))->Fill(nSelTracksTPCITS1SPD,stdCentf); + ((TH2F*)fOutputCheckCentrality->FindObject("hV0MultiplicityPercentile"))->Fill(vzeroMult,stdCentf); + ((TH2F*)fOutputCheckCentrality->FindObject("hV0MultiplicityNtrackletsIn"))->Fill(vzeroMult,aod->GetTracklets()->GetNumberOfTracklets()); + ((TH2F*)fOutputCheckCentrality->FindObject("hStdPercentileSPDPercentile"))->Fill(stdCentf,spdCentf); PostData(6,fOutputCheckCentrality); @@ -908,9 +1454,24 @@ void AliAnalysisTaskSEHFQA::UserExec(Option_t */*option*/) if(fOnOff[3]){ const AliVVertex *vertex = aod->GetPrimaryVertex(); + Double_t xvtx=vertex->GetX(); + Double_t yvtx=vertex->GetY(); Double_t zvtx=vertex->GetZ(); - if(evSelected || (!evSelected && TMath::Abs(zvtx) > 10.)) + Int_t vtxTyp=0; + if(vertex->GetNContributors()<=0) vtxTyp=-1; + TString title=vertex->GetTitle(); + if(title.Contains("Z")) vtxTyp=3; + if(title.Contains("3D")) vtxTyp=2; + ((TH1F*)fOutputEvSelection->FindObject("hxvtx"))->Fill(xvtx); + ((TH1F*)fOutputEvSelection->FindObject("hyvtx"))->Fill(yvtx); ((TH1F*)fOutputEvSelection->FindObject("hzvtx"))->Fill(zvtx); + ((TH1F*)fOutputEvSelection->FindObject("hWhichVert"))->Fill(vtxTyp); + if(evSelected){ + ((TH1F*)fOutputEvSelection->FindObject("hxvtxSelEv"))->Fill(xvtx); + ((TH1F*)fOutputEvSelection->FindObject("hyvtxSelEv"))->Fill(yvtx); + ((TH1F*)fOutputEvSelection->FindObject("hzvtxSelEv"))->Fill(zvtx); + ((TH1F*)fOutputEvSelection->FindObject("hWhichVertSelEv"))->Fill(vtxTyp); + } } if(!evSelected) { @@ -924,14 +1485,22 @@ void AliAnalysisTaskSEHFQA::UserExec(Option_t */*option*/) delete [] pdgdaughters; return; } - AliPIDResponse* respF=pidHF->GetPidResponse(); + AliAnalysisManager *mgr = AliAnalysisManager::GetAnalysisManager(); + AliInputEventHandler *inputHandler=(AliInputEventHandler*)mgr->GetInputEventHandler(); + AliPIDResponse *pidResp=inputHandler->GetPIDResponse(); + + //AliPIDResponse* respF=pidHF->GetPidResponse(); AliTPCPIDResponse* tpcres=new AliTPCPIDResponse(); - if(pidHF->GetOldPid()) pidHF->SetBetheBloch(*tpcres); Bool_t oldPID=pidHF->GetOldPid(); + if(oldPID){ + Double_t alephParameters[5]; + pidHF->GetTPCBetheBlochParams(alephParameters); + tpcres->SetBetheBlochParameters(alephParameters[0],alephParameters[1],alephParameters[2],alephParameters[3],alephParameters[4]); + } Int_t ntracks=0; - Int_t isGoodTrack=0, isFakeTrack=0; + Int_t isGoodTrack=0, isFakeTrack=0, isSelTrack=0; if(aod) ntracks=aod->GetNTracks(); @@ -939,11 +1508,48 @@ void AliAnalysisTaskSEHFQA::UserExec(Option_t */*option*/) //loop on tracks in the event for (Int_t k=0;kGetTrack(k); - AliAODPid *pid = track->GetDetPid(); + // Track selection cuts + if(track->GetID()<0) continue; + Double_t d0z0[2],covd0z0[3]; + track->PropagateToDCA(vtx1,aod->GetMagneticField(),99999.,d0z0,covd0z0); + if(track->TestFilterMask(AliAODTrack::kTrkGlobalNoDCA)){ + ((TH1F*)fOutputTrack->FindObject("hd0TracksFilterBit4"))->Fill(d0z0[0]); + } + ULong_t trStatus=track->GetStatus(); + if(trStatus&AliESDtrack::kITSrefit){ + if(track->HasPointOnITSLayer(0) || track->HasPointOnITSLayer(1)){ + ((TH1F*)fOutputTrack->FindObject("hd0TracksSPDany"))->Fill(d0z0[0]); + if(track->HasPointOnITSLayer(0)){ + ((TH1F*)fOutputTrack->FindObject("hd0TracksSPDin"))->Fill(d0z0[0]); + } + } + } + + Bool_t selTrack=kTRUE; + if (!((trStatus & AliVTrack::kTPCrefit) == AliVTrack::kTPCrefit) || + !((trStatus & AliVTrack::kITSrefit) == AliVTrack::kITSrefit)){ + selTrack=kFALSE; + } + + Float_t nCrossedRowsTPC = track->GetTPCClusterInfo(2,1); + Float_t ratioCrossedRowsOverFindableClustersTPC = 1.0; + if (track->GetTPCNclsF()>0) { + ratioCrossedRowsOverFindableClustersTPC = nCrossedRowsTPC/track->GetTPCNclsF(); + } + if ( nCrossedRowsTPC<70 || ratioCrossedRowsOverFindableClustersTPC<.8 ){ + selTrack=kFALSE; + } + if(selTrack){ + if(track->HasPointOnITSLayer(0) || track->HasPointOnITSLayer(1)){ + ((TH1F*)fOutputTrack->FindObject("hd0TracksTPCITSSPDany"))->Fill(d0z0[0]); + } + } + + AliAODPid *pid = track->GetDetPid(); + if(!pid && fDebug>1) cout<<"No AliAODPid found"<1)cout<<"No AliAODPid found"<GetIntegratedTimes(times); @@ -953,44 +1559,82 @@ void AliAnalysisTaskSEHFQA::UserExec(Option_t */*option*/) //check TOF TH1F* htmpfl=((TH1F*)fOutputPID->FindObject("hTOFflags")); htmpfl->Fill(0.); - if (track->GetStatus()&AliESDtrack::kTPCout) htmpfl->Fill(1.); - if (track->GetStatus()&AliESDtrack::kTOFout) htmpfl->Fill(2.); - if (track->GetStatus()&AliESDtrack::kTIME) htmpfl->Fill(3.); - if (track->GetStatus()&AliESDtrack::kTOFpid) htmpfl->Fill(4.); - if (track->GetStatus()&AliESDtrack::kTOFmismatch) htmpfl->Fill(5.); - - if(pidHF && pidHF->CheckStatus(track,"TOF")){ + if (trStatus&AliESDtrack::kTPCout) htmpfl->Fill(1.); + if (trStatus&AliESDtrack::kTOFout) htmpfl->Fill(2.); + if (trStatus&AliESDtrack::kTIME) htmpfl->Fill(3.); + if (trStatus&AliESDtrack::kTOFpid) htmpfl->Fill(4.); + if (trStatus&AliESDtrack::kTOFmismatch) htmpfl->Fill(5.); + + Bool_t isTOFok=kFALSE; + if(pidResp){ + Double_t prob[AliPID::kSPECIES]; + if(pidResp->ComputeTOFProbability(track,AliPID::kSPECIES,prob)==AliPIDResponse::kDetPidOk){ + isTOFok=kTRUE; + htmpfl->Fill(6.); + } + } + + if(selTrack && isTOFok){ + Double_t tofTime=pid->GetTOFsignal(); + AliTOFHeader* tofH=(AliTOFHeader*)aod->GetTOFHeader(); + if (tofH && (TMath::Abs(tofRes[0]) <= 1.E-16) ) { // new AOD + // with new AOD we need to retrieve startTime, subtract it and retrieve correctly TOF PID resolutions *PA* + AliTOFPIDResponse tofResp=pidResp->GetTOFResponse(); + Double_t startTime = tofResp.GetStartTime(track->P()); + Float_t startTimeRes = tofResp.GetStartTimeRes(track->P()); + Int_t startTimeMask = tofResp.GetStartTimeMask(track->P()); + ((TH1F*)fOutputPID->FindObject("hTOFstartTimeDistrib"))->Fill(startTime); + ((TH1F*)fOutputPID->FindObject("hTOFstartTimeMask"))->Fill(startTimeMask); + ((TH1F*)fOutputPID->FindObject("hTOFstartTimeRes"))->Fill(startTimeRes); + tofTime-=startTime; + for (Int_t type=0;typeP(),times[type],AliPID::ParticleMassZ(type)); + } ((TH1F*)fOutputPID->FindObject("hTOFtime"))->Fill(times[AliPID::kProton]); - ((TH2F*)fOutputPID->FindObject("hTOFtimeKaonHyptime"))->Fill(track->P(),pid->GetTOFsignal()-times[3]); //3 is kaon - ((TH1F*)fOutputPID->FindObject("hTOFsig"))->Fill(pid->GetTOFsignal()); + ((TH2F*)fOutputPID->FindObject("hTOFtimeKaonHyptime"))->Fill(track->P(),tofTime-times[3]); //3 is kaon + ((TH1F*)fOutputPID->FindObject("hTOFsig"))->Fill(tofTime); if (pid->GetTOFsignal()< 0) ((TH1F*)fOutputPID->FindObject("hTOFsig"))->Fill(-1); - - // test TOF sigma PID - if (tofRes[2] != 0.) { // protection against 'old' AODs... - ((TH2F*)fOutputPID->FindObject("hTOFsigmaKSigPid"))->Fill(track->P(),(pid->GetTOFsignal()-times[AliPID::kKaon])/tofRes[3]); - ((TH2F*)fOutputPID->FindObject("hTOFsigmaPionSigPid"))->Fill(track->P(),(pid->GetTOFsignal()-times[AliPID::kPion])/tofRes[2]); - ((TH2F*)fOutputPID->FindObject("hTOFsigmaProtonSigPid"))->Fill(track->P(),(pid->GetTOFsignal()-times[AliPID::kProton])/tofRes[4]); - for (Int_t iS=2; iS<5; iS++){ //we plot TOF Pid resolution for 3-sigma identified particles - if ( (TMath::Abs(times[iS]-pid->GetTOFsignal())/tofRes[iS])<3.){ - switch (iS) { - case AliPID::kPion: - ((TH1F*)fOutputPID->FindObject("hTOFsigPid3sigPion"))->Fill(tofRes[iS]); - break; - case AliPID::kKaon: - ((TH1F*)fOutputPID->FindObject("hTOFsigPid3sigKaon"))->Fill(tofRes[iS]); - break; - case AliPID::kProton: - ((TH1F*)fOutputPID->FindObject("hTOFsigPid3sigProton"))->Fill(tofRes[iS]); - break; - default: - break; - } + Double_t nsigma[3]={-10,-10,-10}; + nsigma[0]=pidResp->NumberOfSigmasTOF(track,AliPID::kPion); + nsigma[1]=pidResp->NumberOfSigmasTOF(track,AliPID::kKaon); + nsigma[2]=pidResp->NumberOfSigmasTOF(track,AliPID::kProton); + + ((TH2F*)fOutputPID->FindObject("hTOFsigmaKSigPid"))->Fill(track->P(),nsigma[1]); + ((TH2F*)fOutputPID->FindObject("hTOFsigmaPionSigPid"))->Fill(track->P(),nsigma[0]); + ((TH2F*)fOutputPID->FindObject("hTOFsigmaProtonSigPid"))->Fill(track->P(),nsigma[2]); + if(fReadMC){ + Int_t label=track->GetLabel(); + if(label<=0) continue; + AliMCParticle* mcpart=(AliMCParticle*)mcArray->At(label); + if(mcpart){ + Int_t abspdgcode=TMath::Abs(mcpart->PdgCode()); + if(abspdgcode==211) ((TH2F*)fOutputPID->FindObject("hTOFsigmaMCPionSigPid"))->Fill(track->P(),nsigma[0]); + if(abspdgcode==321) ((TH2F*)fOutputPID->FindObject("hTOFsigmaMCKSigPid"))->Fill(track->P(),nsigma[1]); + if(abspdgcode==2212) ((TH2F*)fOutputPID->FindObject("hTOFsigmaMCProtonSigPid"))->Fill(track->P(),nsigma[2]); + + } + } + + for (Int_t iS=2; iS<5; iS++){ //we plot TOF Pid resolution for 3-sigma identified particles + if ( TMath::Abs(nsigma[iS-2])<3.){ + switch (iS) { + case AliPID::kPion: + ((TH1F*)fOutputPID->FindObject("hTOFsigPid3sigPion"))->Fill(tofRes[iS]); + break; + case AliPID::kKaon: + ((TH1F*)fOutputPID->FindObject("hTOFsigPid3sigKaon"))->Fill(tofRes[iS]); + break; + case AliPID::kProton: + ((TH1F*)fOutputPID->FindObject("hTOFsigPid3sigProton"))->Fill(tofRes[iS]); + break; + default: + break; } } } }//if TOF status - + //} + if(pidHF && pidHF->CheckStatus(track,"TPC")){ Double_t TPCp=pid->GetTPCmomentum(); @@ -998,14 +1642,31 @@ void AliAnalysisTaskSEHFQA::UserExec(Option_t */*option*/) ((TH1F*)fOutputPID->FindObject("hTPCsig"))->Fill(TPCsignal); ((TH1F*)fOutputPID->FindObject("hTPCsigvsp"))->Fill(TPCp,TPCsignal); //if (pidHF->IsKaonRaw(track, "TOF")) - if(!oldPID) ((TH2F*)fOutputPID->FindObject("hTPCsigmaK"))->Fill(TPCp,respF->NumberOfSigmasTPC(track,AliPID::kKaon)); - if (oldPID) ((TH2F*)fOutputPID->FindObject("hTPCsigmaK"))->Fill(TPCp,tpcres->GetNumberOfSigmas(TPCp,TPCsignal,track->GetTPCNcls(),AliPID::kKaon)); - //if (pidHF->IsPionRaw(track, "TOF")) - if(oldPID) ((TH2F*)fOutputPID->FindObject("hTPCsigmaPion"))->Fill(TPCp,tpcres->GetNumberOfSigmas(TPCp,TPCsignal,track->GetTPCNcls(),AliPID::kPion)); - if(!oldPID) ((TH2F*)fOutputPID->FindObject("hTPCsigmaPion"))->Fill(TPCp,respF->NumberOfSigmasTPC(track,AliPID::kPion)); - //if (pidHF->IsProtonRaw(track,"TOF")) - if(oldPID) ((TH2F*)fOutputPID->FindObject("hTPCsigmaProton"))->Fill(TPCp,tpcres->GetNumberOfSigmas(TPCp,TPCsignal,track->GetTPCNcls(),AliPID::kProton)); - if(!oldPID) ((TH2F*)fOutputPID->FindObject("hTPCsigmaProton"))->Fill(TPCp,respF->NumberOfSigmasTPC(track,AliPID::kProton)); + Double_t nsigma[3]={-10,-10,-10}; + pidHF->GetnSigmaTPC(track,(Int_t)AliPID::kPion,nsigma[0]); + pidHF->GetnSigmaTPC(track,(Int_t)AliPID::kKaon,nsigma[1]); + pidHF->GetnSigmaTPC(track,(Int_t)AliPID::kProton,nsigma[2]); + + ((TH2F*)fOutputPID->FindObject("hTPCsigmaK"))->Fill(TPCp,nsigma[1]); + + ((TH2F*)fOutputPID->FindObject("hTPCsigmaPion"))->Fill(TPCp,nsigma[0]); + ((TH2F*)fOutputPID->FindObject("hTPCsigmaProton"))->Fill(TPCp,nsigma[2]); + + if(fReadMC){ + Int_t label=track->GetLabel(); + if(label<=0) continue; + AliMCParticle* mcpart=(AliMCParticle*)mcArray->At(label); + if(mcpart){ + Int_t abspdgcode=TMath::Abs(mcpart->PdgCode()); + if(abspdgcode==211) ((TH2F*)fOutputPID->FindObject("hTPCsigmaMCPion"))->Fill(track->P(),nsigma[0]); + if(abspdgcode==321) ((TH2F*)fOutputPID->FindObject("hTPCsigmaMCK"))->Fill(track->P(),nsigma[1]); + if(abspdgcode==2212) ((TH2F*)fOutputPID->FindObject("hTPCsigmaMCProton"))->Fill(track->P(),nsigma[2]); + + } + + } + + }//if TPC status } //end PID histograms @@ -1023,6 +1684,44 @@ void AliAnalysisTaskSEHFQA::UserExec(Option_t */*option*/) } ((TH1F*)fOutputTrack->FindObject("hnClsITS"))->Fill(nclsTot); ((TH1F*)fOutputTrack->FindObject("hnClsSPD"))->Fill(nclsSPD); + + if(fFillDistrTrackEffChecks && track->GetStatus()&AliESDtrack::kITSrefit && + track->GetStatus()&AliESDtrack::kTPCrefit){ + + ((TH1F*)fOutputTrack->FindObject("hPtAllTracks"))->Fill(track->Pt()); + ((TH1F*)fOutputTrack->FindObject("hPhiAllTracks"))->Fill(track->Phi()); + ((TH1F*)fOutputTrack->FindObject("hEtaAllTracks"))->Fill(track->Eta()); + ((TH2F*)fOutputTrack->FindObject("hEtavsPhiAllTracks"))->Fill(track->Phi(),track->Eta()); + ((TH2F*)fOutputTrack->FindObject("hNTPCclsvsPtAllTracks"))->Fill(track->Pt(),track->GetTPCNcls()); + ((TH2F*)fOutputTrack->FindObject("hNTPCclsvsPhiAllTracks"))->Fill(track->Phi(),track->GetTPCNcls()); + ((TH2F*)fOutputTrack->FindObject("hNTPCclsvsEtaAllTracks"))->Fill(track->Eta(),track->GetTPCNcls()); + + ((TH2F*)fOutputTrack->FindObject("hNTPCCrossedRowsvsPtAllTracks"))->Fill(track->Pt(),nCrossedRowsTPC); + ((TH2F*)fOutputTrack->FindObject("hNTPCCrossedRowsvsPhiAllTracks"))->Fill(track->Phi(),nCrossedRowsTPC); + ((TH2F*)fOutputTrack->FindObject("hNTPCCrossedRowsvsEtaAllTracks"))->Fill(track->Eta(),nCrossedRowsTPC); + + ((TH2F*)fOutputTrack->FindObject("hRatioCRowsOverFclsvsPtAllTracks"))->Fill(track->Pt(),ratioCrossedRowsOverFindableClustersTPC); + ((TH2F*)fOutputTrack->FindObject("hRatioCRowsOverFclsvsPhiAllTracks"))->Fill(track->Phi(),ratioCrossedRowsOverFindableClustersTPC); + ((TH2F*)fOutputTrack->FindObject("hRatioCRowsOverFclsvsEtaAllTracks"))->Fill(track->Eta(),ratioCrossedRowsOverFindableClustersTPC); + + if(!(track->HasPointOnITSLayer(0)) && !(track->HasPointOnITSLayer(1))){ //no SPD points + ((TH1I*)fOutputTrack->FindObject("hSPDclsAllTracks"))->Fill(0); + } + if(track->HasPointOnITSLayer(0) && !(track->HasPointOnITSLayer(1))){ //kOnlyFirst + ((TH1I*)fOutputTrack->FindObject("hSPDclsAllTracks"))->Fill(1); + } + if(!(track->HasPointOnITSLayer(0)) && track->HasPointOnITSLayer(1)){ //kOnlySecond + ((TH1I*)fOutputTrack->FindObject("hSPDclsAllTracks"))->Fill(2); + } + if(track->HasPointOnITSLayer(0) && track->HasPointOnITSLayer(1)){ //kBoth + ((TH1I*)fOutputTrack->FindObject("hSPDclsAllTracks"))->Fill(3); + } + ((TH2F*)fOutputTrack->FindObject("hNITSclsvsPtAllTracks"))->Fill(track->Pt(), nclsTot); + ((TH2F*)fOutputTrack->FindObject("hNITSclsvsPhiAllTracks"))->Fill(track->Phi(), nclsTot); + ((TH2F*)fOutputTrack->FindObject("hNITSclsvsEtaAllTracks"))->Fill(track->Eta(), nclsTot); + + } + if(track->Pt()>0.3 && TMath::Abs(track->Eta())<0.8 && track->GetStatus()&AliESDtrack::kITSrefit && @@ -1046,31 +1745,33 @@ void AliAnalysisTaskSEHFQA::UserExec(Option_t */*option*/) else fNEntries->Fill(9); } - if(isSimpleMode){ - if (track->Pt()>0.3 && - track->GetStatus()&AliESDtrack::kTPCrefit && - track->GetStatus()&AliESDtrack::kITSrefit && - /*nclsTot>3 &&*/ - nclsSPD>0) {//count good tracks + if (track->Pt()>0.3 && + track->GetStatus()&AliESDtrack::kTPCrefit && + track->GetStatus()&AliESDtrack::kITSrefit && + /*nclsTot>3 &&*/ + nclsSPD>0) {//count good tracks - - if(fReadMC && label<0) { - ((TH1F*)fOutputTrack->FindObject("hptFakeTr"))->Fill(track->Pt()); - isFakeTrack++; - } else { - ((TH1F*)fOutputTrack->FindObject("hptGoodTr"))->Fill(track->Pt()); - isGoodTrack++; - } + + if(fReadMC && label<0) { + ((TH1F*)fOutputTrack->FindObject("hptFakeTr"))->Fill(track->Pt()); + isFakeTrack++; + } else { + ((TH1F*)fOutputTrack->FindObject("hptGoodTr"))->Fill(track->Pt()); + isGoodTrack++; } - } //simple mode: no IsSelected on tracks: use "manual" cuts + } + if(fCuts->IsDaughterSelected(track,&vESD,fCuts->GetTrackCuts())){ + isSelTrack++; + }//select tracks for our analyses } //fill track histos } //end loop on tracks - //fill once per event + //fill once per event if(fOnOff[0]){ if (fReadMC) ((TH1F*)fOutputTrack->FindObject("hdistrFakeTr"))->Fill(isFakeTrack); ((TH1F*)fOutputTrack->FindObject("hdistrGoodTr"))->Fill(isGoodTrack); + ((TH1F*)fOutputTrack->FindObject("hdistrSelTr"))->Fill(isSelTrack); } if(!isSimpleMode){ @@ -1082,13 +1783,34 @@ void AliAnalysisTaskSEHFQA::UserExec(Option_t */*option*/) for (Int_t iCand = 0; iCand < nCand; iCand++) { AliAODRecoDecayHF *d = (AliAODRecoDecayHF*)arrayProng->UncheckedAt(iCand); - if(d->GetSelectionMap()) { + if(fUseSelectionBit && d->GetSelectionMap()) { if(fDecayChannel==AliAnalysisTaskSEHFQA::kD0toKpi && !d->HasSelectionBit(AliRDHFCuts::kD0toKpiCuts)) continue; //skip the D0 from Dstar if(fDecayChannel==AliAnalysisTaskSEHFQA::kDplustoKpipi && !d->HasSelectionBit(AliRDHFCuts::kDplusCuts)) continue; //skip the 3 prong !D+ } if(fReadMC){ - Int_t labD = d->MatchToMC(pdg,mcArray,ndaugh,pdgdaughters); + + Int_t labD = -1; + if (fDecayChannel==AliAnalysisTaskSEHFQA::kLambdactoV0 && (dynamic_cast(d))->Getv0()) { + + Int_t pdgDgLctoV0bachelor[2]={2212,310}; + Int_t pdgDgV0toDaughters[2]={211,211}; + Int_t mcLabelK0S = (dynamic_cast(d))->MatchToMC(pdg,pdgDgLctoV0bachelor[1],pdgDgLctoV0bachelor,pdgDgV0toDaughters,mcArray,kTRUE); // Lc->K0S+p and cc + pdgDgLctoV0bachelor[1]=3122, pdgDgLctoV0bachelor[0]=211; + pdgDgV0toDaughters[0]=2212, pdgDgV0toDaughters[1]=211; + Int_t mcLabelLambda = (dynamic_cast(d))->MatchToMC(pdg,pdgDgLctoV0bachelor[1],pdgDgLctoV0bachelor,pdgDgV0toDaughters,mcArray,kTRUE); // Lc->Lambda+pi and cc + if (mcLabelK0S!=-1 || mcLabelLambda!=-1) AliInfo(Form("mcLabelK0S=%d - mcLabelLambda=%d",mcLabelK0S,mcLabelLambda)); + + if (mcLabelK0S!=-1 && mcLabelLambda!=-1) + AliInfo("Strange: current Lc->V0+bachelor candidate has two MC different labels!"); + else if (mcLabelK0S>-1 && mcLabelLambda==-1) + labD = mcLabelK0S; + else if (mcLabelLambda>-1 && mcLabelK0S==-1) + labD = mcLabelLambda; + } + else + labD = d->MatchToMC(pdg,mcArray,ndaugh,pdgdaughters); + if(labD>=0){ AliAODMCParticle *partD = (AliAODMCParticle*)mcArray->At(labD); Int_t label=partD->GetMother(); @@ -1097,19 +1819,30 @@ void AliAnalysisTaskSEHFQA::UserExec(Option_t */*option*/) mot = (AliAODMCParticle*)mcArray->At(label); label=mot->GetMother(); } - Int_t pdgMotCode = mot->GetPdgCode(); + if(mot){ + Int_t pdgMotCode = mot->GetPdgCode(); - if(TMath::Abs(pdgMotCode)==4) fNEntries->Fill(6); //from primary charm - if(TMath::Abs(pdgMotCode)==5) fNEntries->Fill(7); //from beauty - + if(TMath::Abs(pdgMotCode)==4) fNEntries->Fill(6); //from primary charm + if(TMath::Abs(pdgMotCode)==5) fNEntries->Fill(7); //from beauty + } } }//end MC - else fNEntries->Fill(6); //count the candidates (data) + fNEntries->Fill(5); //count the candidates (data and MC) for(Int_t id=0;idGetDaughter(id); + AliAODTrack* track=0; + + if (fDecayChannel==AliAnalysisTaskSEHFQA::kLambdactoV0 && (dynamic_cast(d))->Getv0()) { + if (id==0) + track=(AliAODTrack*)(dynamic_cast(d))->GetBachelor(); + else if (id==1) + track=(AliAODTrack*)(dynamic_cast(d))->Getv0PositiveTrack(); + else if (id==2) + track=(AliAODTrack*)(dynamic_cast(d))->Getv0NegativeTrack(); + } + else + track=(AliAODTrack*)d->GetDaughter(id); //track quality @@ -1121,35 +1854,93 @@ void AliAnalysisTaskSEHFQA::UserExec(Option_t */*option*/) if(fReadMC && label<0) { isFakeTrack++; - ((TH1F*)fOutputTrack->FindObject("hptFakeTr"))->Fill(track->Pt()); + ((TH1F*)fOutputTrack->FindObject("hptFakeTrFromDaugh"))->Fill(track->Pt()); ((TH1F*)fOutputTrack->FindObject("hd0f"))->Fill(d->Getd0Prong(id)); } else { - isGoodTrack++; - ((TH1F*)fOutputTrack->FindObject("hptGoodTr"))->Fill(track->Pt()); - ((TH1F*)fOutputTrack->FindObject("hd0"))->Fill(d->Getd0Prong(id)); + ((TH1F*)fOutputTrack->FindObject("hptGoodTrFromDaugh"))->Fill(track->Pt()); + ((TH1F*)fOutputTrack->FindObject("hd0dau"))->Fill(d->Getd0Prong(id)); Double_t d0rphiz[2],covd0[3]; Bool_t isDCA=track->PropagateToDCA(aod->GetPrimaryVertex(),aod->GetMagneticField(),9999.,d0rphiz,covd0); - if(isDCA) ((TH1F*)fOutputTrack->FindObject("hd0z"))->Fill(d0rphiz[1]); + if(isDCA) ((TH1F*)fOutputTrack->FindObject("hd0zdau"))->Fill(d0rphiz[1]); } } if (fCuts->IsSelected(d,AliRDHFCuts::kAll,aod) && fOnOff[1]){ - - AliAODPid *pid = track->GetDetPid(); - Double_t times[5]; - pid->GetIntegratedTimes(times); - if(pidHF && pidHF->CheckStatus(track,"TOF")) ((TH2F*)fOutputPID->FindObject("hTOFtimeKaonHyptimeAC"))->Fill(track->P(),pid->GetTOFsignal()-times[AliPID::kKaon]); - if(pidHF && pidHF->CheckStatus(track,"TPC")) ((TH2F*)fOutputPID->FindObject("hTPCsigvspAC"))->Fill(pid->GetTPCmomentum(),pid->GetTPCsignal()); + fNEntries->Fill(3); //candidates passing analysis cuts + + if(fFillDistrTrackEffChecks){ + Int_t nITScls = 0; + Int_t nSPDcls = 0; + Double_t nTPCCrossedRows = track->GetTPCClusterInfo(2,1); + Double_t ratioCrossedRowsOverFcls = 1.0; + if(track->GetTPCNclsF()>0){ + ratioCrossedRowsOverFcls = (nTPCCrossedRows)/(track->GetTPCNclsF()); + } + for(Int_t l=0;l<6;l++) { + if(TESTBIT(track->GetITSClusterMap(),l)) { + nITScls++; if(l<2) nSPDcls++; + } + } - fNEntries->Fill(3); + ((TH1F*)fOutputTrack->FindObject("hPtDaughters"))->Fill(track->Pt()); + ((TH1F*)fOutputTrack->FindObject("hPhiDaughters"))->Fill(track->Phi()); + ((TH1F*)fOutputTrack->FindObject("hEtaDaughters"))->Fill(track->Eta()); + ((TH2F*)fOutputTrack->FindObject("hEtavsPhiDaughters"))->Fill(track->Phi(),track->Eta()); + + ((TH2F*)fOutputTrack->FindObject("hNTPCclsvsPtDaughters"))->Fill(track->Pt(),track->GetTPCNcls()); + ((TH2F*)fOutputTrack->FindObject("hNTPCclsvsPhiDaughters"))->Fill(track->Phi(),track->GetTPCNcls()); + ((TH2F*)fOutputTrack->FindObject("hNTPCclsvsEtaDaughters"))->Fill(track->Eta(),track->GetTPCNcls()); + + ((TH2F*)fOutputTrack->FindObject("hNTPCCrossedRowsvsPtDaughters"))->Fill(track->Pt(),nTPCCrossedRows); + ((TH2F*)fOutputTrack->FindObject("hNTPCCrossedRowsvsPhiDaughters"))->Fill(track->Phi(),nTPCCrossedRows); + ((TH2F*)fOutputTrack->FindObject("hNTPCCrossedRowsvsEtaDaughters"))->Fill(track->Eta(),nTPCCrossedRows); + + ((TH2F*)fOutputTrack->FindObject("hRatioCRowsOverFclsvsPtDaughters"))->Fill(track->Pt(),ratioCrossedRowsOverFcls); + ((TH2F*)fOutputTrack->FindObject("hRatioCRowsOverFclsvsPhiDaughters"))->Fill(track->Phi(),ratioCrossedRowsOverFcls); + ((TH2F*)fOutputTrack->FindObject("hRatioCRowsOverFclsvsEtaDaughters"))->Fill(track->Eta(),ratioCrossedRowsOverFcls); + + ((TH2F*)fOutputTrack->FindObject("hNITSclsvsPtDaughters"))->Fill(track->Pt(), nITScls); + ((TH2F*)fOutputTrack->FindObject("hNITSclsvsPhiDaughters"))->Fill(track->Phi(), nITScls); + ((TH2F*)fOutputTrack->FindObject("hNITSclsvsEtaDaughters"))->Fill(track->Eta(), nITScls); + if(!(track->HasPointOnITSLayer(0)) && !(track->HasPointOnITSLayer(1))){ //no SPD points + ((TH1I*)fOutputTrack->FindObject("hSPDclsDaughters"))->Fill(0); + } + if(track->HasPointOnITSLayer(0) && !(track->HasPointOnITSLayer(1))){ //kOnlyFirst + ((TH1I*)fOutputTrack->FindObject("hSPDclsDaughters"))->Fill(1); + } + if(!(track->HasPointOnITSLayer(0)) && track->HasPointOnITSLayer(1)){ //kOnlySecond + ((TH1I*)fOutputTrack->FindObject("hSPDclsDaughters"))->Fill(2); + } + if(track->HasPointOnITSLayer(0) && track->HasPointOnITSLayer(1)){ //kBoth + ((TH1I*)fOutputTrack->FindObject("hSPDclsDaughters"))->Fill(3); + } + } + + + AliAODPid *pid = track->GetDetPid(); + if(pid){ + Double_t times[5]; + pid->GetIntegratedTimes(times); + if(pidHF && pidHF->CheckStatus(track,"TOF")){ + Double_t tofTime=pid->GetTOFsignal(); + AliTOFHeader* tofH=(AliTOFHeader*)aod->GetTOFHeader(); + Double_t tofRes[AliPID::kSPECIES]; + pid->GetTOFpidResolution(tofRes); + if (tofH && (TMath::Abs(tofRes[0]) <= 1.E-16) ) { // new AOD + AliTOFPIDResponse tofResp=pidHF->GetPidResponse()->GetTOFResponse(); + Double_t startTime=tofResp.GetStartTime(track->P()); + tofTime-=startTime; + } + ((TH2F*)fOutputPID->FindObject("hTOFtimeKaonHyptimeAC"))->Fill(track->P(),tofTime-times[AliPID::kKaon]); + } + if(pidHF && pidHF->CheckStatus(track,"TPC")) ((TH2F*)fOutputPID->FindObject("hTPCsigvspAC"))->Fill(pid->GetTPCmomentum(),pid->GetTPCsignal()); + } + } //end analysis cuts } //end acceptance and track cuts } //end loop on tracks in the candidate } //end loop on candidates - if(fOnOff[0]){ - if(fReadMC) ((TH1F*)fOutputTrack->FindObject("hdistrFakeTr"))->Fill(isFakeTrack); - ((TH1F*)fOutputTrack->FindObject("hdistrGoodTr"))->Fill(isGoodTrack); - } + } } //end if on pid or track histograms @@ -1164,6 +1955,93 @@ void AliAnalysisTaskSEHFQA::UserExec(Option_t */*option*/) } +//____________________________________________________________________________ +void AliAnalysisTaskSEHFQA::FillFlowObs(AliAODEvent *aod){ + //fills the flow observables + Double_t cc; + cc = fCuts->GetCentrality(aod); + ((TH2F*) fOutputFlowObs->FindObject("hFlowEvents"))->Fill(0., cc); + + UInt_t mask=((AliInputEventHandler*)(AliAnalysisManager::GetAnalysisManager()->GetInputEventHandler()))->IsEventSelected(); + UInt_t trigger=AliVEvent::kMB | AliVEvent::kCentral | AliVEvent::kSemiCentral; + if(mask & trigger) { + ((TH2F*) fOutputFlowObs->FindObject("hFlowEvents"))->Fill(1.,cc); // fired + if (mask & AliVEvent::kMB) ((TH2F*) fOutputFlowObs->FindObject("hFlowEvents"))->Fill(2.,cc); + if (mask & AliVEvent::kCentral) ((TH2F*) fOutputFlowObs->FindObject("hFlowEvents"))->Fill(3.,cc); + if (mask & AliVEvent::kSemiCentral) ((TH2F*) fOutputFlowObs->FindObject("hFlowEvents"))->Fill(4.,cc); + Bool_t rejected=false; + if(cc<0 || cc>60) rejected=true; + const AliVVertex *vertex = aod->GetPrimaryVertex(); + Double_t zvtx=vertex->GetZ(); + if(TMath::Abs(zvtx)>fCuts->GetMaxVtxZ()) rejected=true; + if(rejected) return; //not interesting for flow QA + } else { + return; + } + + // event accepted + ((TH2F*) fOutputFlowObs->FindObject("hFlowEvents"))->Fill(5.,cc); + fRFPcuts->SetParamType(AliFlowTrackCuts::kGlobal); + fRFPcuts->SetPtRange(0.2,5.); + fRFPcuts->SetEtaRange(-0.8,0.8); + fRFPcuts->SetMinNClustersTPC(70); + fRFPcuts->SetMinChi2PerClusterTPC(0.2); + fRFPcuts->SetMaxChi2PerClusterTPC(4.0); + fRFPcuts->SetAcceptKinkDaughters(kFALSE); + fRFPcuts->SetEvent(aod); + + TString ref[3] = {"FB1","FB128","VZE"}; + Double_t psi[3]; + for(Int_t i=0; i!=3; ++i) { + if(i==0) { // switching to bit 1 + fRFPcuts->SetMinimalTPCdedx(10.); + fRFPcuts->SetAODfilterBit(1); + } else { // switching to bit 128 + fRFPcuts->SetMinimalTPCdedx(-1); + fRFPcuts->SetAODfilterBit(128); + } + if(i>1) { + fRFPcuts->SetParamType(AliFlowTrackCuts::kV0); + fRFPcuts->SetEtaRange(-5,+5); + fRFPcuts->SetPhiMin(0); + fRFPcuts->SetPhiMax(TMath::TwoPi()); + } + fFlowEvent->Fill(fRFPcuts,fRFPcuts); + fFlowEvent->TagSubeventsInEta(-5,0,0,+5); + // getting informationt + AliFlowVector vQ, vQaQb[2]; + fFlowEvent->Get2Qsub(vQaQb,2); + vQ = vQaQb[0]+vQaQb[1]; + Double_t dMa=vQaQb[0].GetMult(); + Double_t dMb=vQaQb[1].GetMult(); + if( dMa<2 || dMb<2 ) { + ((TH2F*) fOutputFlowObs->FindObject("hFlowEvents"))->Fill(6.,cc); //??? + continue; + } + psi[i] = vQ.Phi()/2; + // publishing + ((TProfile2D*) fOutputFlowObs->FindObject( Form("h%s_Q",ref[i].Data())))->Fill(0,cc,vQaQb[0].X()/dMa,dMa); // Qx- + ((TProfile2D*) fOutputFlowObs->FindObject( Form("h%s_Q",ref[i].Data())))->Fill(1,cc,vQaQb[0].Y()/dMa,dMa); // Qy- + ((TProfile2D*) fOutputFlowObs->FindObject( Form("h%s_Q",ref[i].Data())))->Fill(2,cc,vQaQb[1].X()/dMb,dMb); // Qx+ + ((TProfile2D*) fOutputFlowObs->FindObject( Form("h%s_Q",ref[i].Data())))->Fill(3,cc,vQaQb[1].Y()/dMb,dMb); // Qy+ + ((TH2F*) fOutputFlowObs->FindObject( Form("h%s_AngleQ",ref[i].Data()) ))->Fill(psi[i],cc); // Psi + AliFlowTrackSimple *track; + for(Int_t t=0; t!=fFlowEvent->NumberOfTracks(); ++t) { + track = (AliFlowTrackSimple*) fFlowEvent->GetTrack(t); + if(!track) continue; + if(!track->InRPSelection()) continue; + ((TH3F*) fOutputFlowObs->FindObject( Form("h%s_PhiEta",ref[i].Data()) ))->Fill(track->Phi(),track->Eta(),cc,track->Weight()); //PhiEta + } + + //histo filled only for TPCFB1 + if (i==0) { + ((TH2F*) fOutputFlowObs->FindObject("hCentVsMultRPS"))->Fill(fFlowEvent->GetNumberOfRPs(),cc); + } + } + // TPC vs VZERO + ((TH3F*) fOutputFlowObs->FindObject( "hTPCVZE_AngleQ" ))->Fill(psi[0],psi[2],cc); +} + //____________________________________________________________________________ void AliAnalysisTaskSEHFQA::Terminate(Option_t */*option*/){ //terminate analysis