X-Git-Url: http://git.uio.no/git/?a=blobdiff_plain;f=ANALYSIS%2FAliAnalysisTaskESDfilter.cxx;h=dd1e8bc23646f6437484fcec68729f7e310f626c;hb=59076376e8d9bc1f325dd60b5517d063a6a2347a;hp=6fede843b4c22786a3b65207902b36eba695acef;hpb=720f730687ae543747cbcceabd8bb76be5a72770;p=u%2Fmrichter%2FAliRoot.git diff --git a/ANALYSIS/AliAnalysisTaskESDfilter.cxx b/ANALYSIS/AliAnalysisTaskESDfilter.cxx index 6fede843b4c..dd1e8bc2364 100644 --- a/ANALYSIS/AliAnalysisTaskESDfilter.cxx +++ b/ANALYSIS/AliAnalysisTaskESDfilter.cxx @@ -1,2206 +1,2646 @@ -/************************************************************************** - * Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. * - * * - * Author: The ALICE Off-line Project. * - * Contributors are mentioned in the code where appropriate. * - * * - * Permission to use, copy, modify and distribute this software and its * - * documentation strictly for non-commercial purposes is hereby granted * - * without fee, provided that the above copyright notice appears in all * - * copies and that both the copyright notice and this permission notice * - * appear in the supporting documentation. The authors make no claims * - * about the suitability of this software for any purpose. It is * - * provided "as is" without express or implied warranty. * - **************************************************************************/ - -/* $Id$ */ - -#include -#include -#include -#include -#include -#include -#include -#include - -#include "AliAnalysisTaskESDfilter.h" -#include "AliAnalysisManager.h" -#include "AliESDEvent.h" -#include "AliESDRun.h" -#include "AliStack.h" -#include "AliAODEvent.h" -#include "AliMCEvent.h" -#include "AliMCEventHandler.h" -#include "AliESDInputHandler.h" -#include "AliAODHandler.h" -#include "AliAODMCParticle.h" -#include "AliAnalysisFilter.h" -#include "AliESDMuonTrack.h" -#include "AliESDVertex.h" -#include "AliCentrality.h" -#include "AliEventplane.h" -#include "AliESDv0.h" -#include "AliESDkink.h" -#include "AliESDcascade.h" -#include "AliESDPmdTrack.h" -#include "AliESDCaloCluster.h" -#include "AliESDCaloCells.h" -#include "AliMultiplicity.h" -#include "AliLog.h" -#include "AliCodeTimer.h" -#include "AliESDtrackCuts.h" -#include "AliESDpid.h" -#include "Riostream.h" - -ClassImp(AliAnalysisTaskESDfilter) - -//////////////////////////////////////////////////////////////////////// - -AliAnalysisTaskESDfilter::AliAnalysisTaskESDfilter(): - AliAnalysisTaskSE(), - fTrackFilter(0x0), - fKinkFilter(0x0), - fV0Filter(0x0), - fCascadeFilter(0x0), - fHighPthreshold(0), - fPtshape(0x0), - fEnableFillAOD(kTRUE), - fUsedTrack(0x0), - fUsedKink(0x0), - fUsedV0(0x0), - fAODTrackRefs(0x0), - fAODV0VtxRefs(0x0), - fAODV0Refs(0x0), - fMChandler(0x0), - fNumberOfTracks(0), - fNumberOfPositiveTracks(0), - fNumberOfV0s(0), - fNumberOfVertices(0), - fNumberOfCascades(0), - fNumberOfKinks(0), - fOldESDformat(kFALSE), - fPrimaryVertex(0x0), - fTPCConstrainedFilterMask(0), - fHybridFilterMaskTPCCG(0), - fWriteHybridTPCCOnly(kFALSE), - fGlobalConstrainedFilterMask(0), - fHybridFilterMaskGCG(0), - fWriteHybridGCOnly(kFALSE), - fIsVZEROEnabled(kTRUE), - fIsTZEROEnabled(kTRUE), - fIsZDCEnabled(kTRUE), - fAreCascadesEnabled(kTRUE), - fAreV0sEnabled(kTRUE), - fAreKinksEnabled(kTRUE), - fAreTracksEnabled(kTRUE), - fArePmdClustersEnabled(kTRUE), - fAreCaloClustersEnabled(kTRUE), - fAreEMCALCellsEnabled(kTRUE), - fArePHOSCellsEnabled(kTRUE), - fAreEMCALTriggerEnabled(kTRUE), - fArePHOSTriggerEnabled(kFALSE), - fAreTrackletsEnabled(kTRUE), - fESDpid(0x0), - fIsPidOwner(kFALSE), - fTimeZeroType(AliESDpid::kTOF_T0), - fTPCaloneTrackCuts(0) -{ - // Default constructor -} - -//______________________________________________________________________________ -AliAnalysisTaskESDfilter::AliAnalysisTaskESDfilter(const char* name): - AliAnalysisTaskSE(name), - fTrackFilter(0x0), - fKinkFilter(0x0), - fV0Filter(0x0), - fCascadeFilter(0x0), - fHighPthreshold(0), - fPtshape(0x0), - fEnableFillAOD(kTRUE), - fUsedTrack(0x0), - fUsedKink(0x0), - fUsedV0(0x0), - fAODTrackRefs(0x0), - fAODV0VtxRefs(0x0), - fAODV0Refs(0x0), - fMChandler(0x0), - fNumberOfTracks(0), - fNumberOfPositiveTracks(0), - fNumberOfV0s(0), - fNumberOfVertices(0), - fNumberOfCascades(0), - fNumberOfKinks(0), - fOldESDformat(kFALSE), - fPrimaryVertex(0x0), - fTPCConstrainedFilterMask(0), - fHybridFilterMaskTPCCG(0), - fWriteHybridTPCCOnly(kFALSE), - fGlobalConstrainedFilterMask(0), - fHybridFilterMaskGCG(0), - fWriteHybridGCOnly(kFALSE), - fIsVZEROEnabled(kTRUE), - fIsTZEROEnabled(kTRUE), - fIsZDCEnabled(kTRUE), - fAreCascadesEnabled(kTRUE), - fAreV0sEnabled(kTRUE), - fAreKinksEnabled(kTRUE), - fAreTracksEnabled(kTRUE), - fArePmdClustersEnabled(kTRUE), - fAreCaloClustersEnabled(kTRUE), - fAreEMCALCellsEnabled(kTRUE), - fArePHOSCellsEnabled(kTRUE), - fAreEMCALTriggerEnabled(kTRUE), - fArePHOSTriggerEnabled(kFALSE), - fAreTrackletsEnabled(kTRUE), - fESDpid(0x0), - fIsPidOwner(kFALSE), - fTimeZeroType(AliESDpid::kTOF_T0), - fTPCaloneTrackCuts(0) -{ - // Constructor -} -AliAnalysisTaskESDfilter::~AliAnalysisTaskESDfilter(){ - if(fIsPidOwner) delete fESDpid; -} -//______________________________________________________________________________ -void AliAnalysisTaskESDfilter::UserCreateOutputObjects() -{ - // - // Create Output Objects conenct filter to outputtree - // - if(OutputTree()) - { - OutputTree()->GetUserInfo()->Add(fTrackFilter); - } - else - { - AliError("No OutputTree() for adding the track filter"); - } - fTPCaloneTrackCuts = AliESDtrackCuts::GetStandardTPCOnlyTrackCuts(); -} - -//______________________________________________________________________________ -void AliAnalysisTaskESDfilter::Init() -{ - // Initialization - if (fDebug > 1) AliInfo("Init() \n"); - // Call configuration file -} - -//______________________________________________________________________________ -void AliAnalysisTaskESDfilter::PrintTask(Option_t *option, Int_t indent) const -{ -// Print selection task information - AliInfo(""); - - AliAnalysisTaskSE::PrintTask(option,indent); - - TString spaces(' ',indent+3); - - cout << spaces.Data() << Form("Cascades are %s",fAreCascadesEnabled ? "ENABLED":"DISABLED") << endl; - cout << spaces.Data() << Form("V0s are %s",fAreV0sEnabled ? "ENABLED":"DISABLED") << endl; - cout << spaces.Data() << Form("Kinks are %s",fAreKinksEnabled ? "ENABLED":"DISABLED") << endl; - cout << spaces.Data() << Form("Tracks are %s",fAreTracksEnabled ? "ENABLED":"DISABLED") << endl; - cout << spaces.Data() << Form("PmdClusters are %s",fArePmdClustersEnabled ? "ENABLED":"DISABLED") << endl; - cout << spaces.Data() << Form("CaloClusters are %s",fAreCaloClustersEnabled ? "ENABLED":"DISABLED") << endl; - cout << spaces.Data() << Form("EMCAL cells are %s",fAreEMCALCellsEnabled ? "ENABLED":"DISABLED") << endl; - cout << spaces.Data() << Form("EMCAL triggers are %s",fAreEMCALTriggerEnabled ? "ENABLED":"DISABLED") << endl; - cout << spaces.Data() << Form("PHOS triggers are %s",fArePHOSTriggerEnabled ? "ENABLED":"DISABLED") << endl; - cout << spaces.Data() << Form("Tracklets are %s",fAreTrackletsEnabled ? "ENABLED":"DISABLED") << endl; -} - -//______________________________________________________________________________ -void AliAnalysisTaskESDfilter::UserExec(Option_t */*option*/) -{ -// Execute analysis for current event -// - - Long64_t ientry = Entry(); - - if (fDebug > 0) { - printf("Filter: Analysing event # %5d\n", (Int_t) ientry); - if (fHighPthreshold == 0) AliInfo("detector PID signals are stored in each track"); - if (!fPtshape) AliInfo("detector PID signals are not stored below the pt threshold"); - } - // Filters must explicitely enable AOD filling in their UserExec (AG) - if (!AliAnalysisManager::GetAnalysisManager()->GetOutputEventHandler()) AliFatal("Cannot run ESD filter without an output event handler"); - if(fEnableFillAOD) { - AliAnalysisManager::GetAnalysisManager()->GetOutputEventHandler()->SetFillAOD(kTRUE); - AliAnalysisManager::GetAnalysisManager()->GetOutputEventHandler()->SetFillExtension(kTRUE); - } - ConvertESDtoAOD(); -} - -//______________________________________________________________________________ -TClonesArray& AliAnalysisTaskESDfilter::Cascades() -{ - return *(AODEvent()->GetCascades()); -} - -//______________________________________________________________________________ -TClonesArray& AliAnalysisTaskESDfilter::Tracks() -{ - return *(AODEvent()->GetTracks()); -} - -//______________________________________________________________________________ -TClonesArray& AliAnalysisTaskESDfilter::V0s() -{ - return *(AODEvent()->GetV0s()); -} - -//______________________________________________________________________________ -TClonesArray& AliAnalysisTaskESDfilter::Vertices() -{ - return *(AODEvent()->GetVertices()); -} - -//______________________________________________________________________________ -AliAODHeader* AliAnalysisTaskESDfilter::ConvertHeader(const AliESDEvent& esd) -{ -// Convert header information - - AliCodeTimerAuto("",0); - - AliAODHeader* header = AODEvent()->GetHeader(); - - header->SetRunNumber(esd.GetRunNumber()); - header->SetOfflineTrigger(fInputHandler->IsEventSelected()); // propagate the decision of the physics selection - - TTree* tree = fInputHandler->GetTree(); - if (tree) { - TFile* file = tree->GetCurrentFile(); - if (file) header->SetESDFileName(file->GetName()); - } - - if (fOldESDformat) { - header->SetBunchCrossNumber(0); - header->SetOrbitNumber(0); - header->SetPeriodNumber(0); - header->SetEventType(0); - header->SetMuonMagFieldScale(-999.); - header->SetCentrality(0); - header->SetEventplane(0); - } else { - header->SetBunchCrossNumber(esd.GetBunchCrossNumber()); - header->SetOrbitNumber(esd.GetOrbitNumber()); - header->SetPeriodNumber(esd.GetPeriodNumber()); - header->SetEventType(esd.GetEventType()); - - header->SetEventNumberESDFile(esd.GetHeader()->GetEventNumberInFile()); - if(const_cast(esd).GetCentrality()){ - header->SetCentrality(const_cast(esd).GetCentrality()); - } - else{ - header->SetCentrality(0); - } - if(const_cast(esd).GetEventplane()){ - header->SetEventplane(const_cast(esd).GetEventplane()); - } - else{ - header->SetEventplane(0); - } - } - - // Trigger - header->SetFiredTriggerClasses(esd.GetFiredTriggerClasses()); - header->SetTriggerMask(esd.GetTriggerMask()); - header->SetTriggerCluster(esd.GetTriggerCluster()); - header->SetL0TriggerInputs(esd.GetHeader()->GetL0TriggerInputs()); - header->SetL1TriggerInputs(esd.GetHeader()->GetL1TriggerInputs()); - header->SetL2TriggerInputs(esd.GetHeader()->GetL2TriggerInputs()); - - header->SetMagneticField(esd.GetMagneticField()); - header->SetMuonMagFieldScale(esd.GetCurrentDip()/6000.); - header->SetZDCN1Energy(esd.GetZDCN1Energy()); - header->SetZDCP1Energy(esd.GetZDCP1Energy()); - header->SetZDCN2Energy(esd.GetZDCN2Energy()); - header->SetZDCP2Energy(esd.GetZDCP2Energy()); - header->SetZDCEMEnergy(esd.GetZDCEMEnergy(0),esd.GetZDCEMEnergy(1)); - - // ITS Cluster Multiplicty - const AliMultiplicity *mult = esd.GetMultiplicity(); - for (Int_t ilay = 0; ilay < 6; ilay++) header->SetITSClusters(ilay, mult->GetNumberOfITSClusters(ilay)); - - // TPC only Reference Multiplicty - Int_t refMult = fTPCaloneTrackCuts ? (Short_t)fTPCaloneTrackCuts->GetReferenceMultiplicity(&esd, kTRUE) : -1; - header->SetTPConlyRefMultiplicity(refMult); - - // - Float_t diamxy[2]={esd.GetDiamondX(),esd.GetDiamondY()}; - Float_t diamcov[3]; - esd.GetDiamondCovXY(diamcov); - header->SetDiamond(diamxy,diamcov); - header->SetDiamondZ(esd.GetDiamondZ(),esd.GetSigma2DiamondZ()); - - // VZERO channel equalization factors for event-plane reconstruction - header->SetVZEROEqFactors(esd.GetVZEROEqFactors()); - - return header; -} - -//______________________________________________________________________________ -void AliAnalysisTaskESDfilter::ConvertCascades(const AliESDEvent& esd) -{ - // Convert the cascades part of the ESD. - // Return the number of cascades - - AliCodeTimerAuto("",0); - - // Create vertices starting from the most complex objects - Double_t chi2 = 0.; - - const AliESDVertex* vtx = esd.GetPrimaryVertex(); - Double_t pos[3] = { 0. }; - Double_t covVtx[6] = { 0. }; - Double_t momBach[3]={0.}; - Double_t covTr[21]={0.}; - Double_t pid[10]={0.}; - AliAODPid* detpid(0x0); - AliAODVertex* vV0FromCascade(0x0); - AliAODv0* aodV0(0x0); - AliAODcascade* aodCascade(0x0); - AliAODTrack* aodTrack(0x0); - Double_t momPos[3]={0.}; - Double_t momNeg[3] = { 0. }; - Double_t momPosAtV0vtx[3]={0.}; - Double_t momNegAtV0vtx[3]={0.}; - - TClonesArray& verticesArray = Vertices(); - TClonesArray& tracksArray = Tracks(); - TClonesArray& cascadesArray = Cascades(); - - // Cascades (Modified by A.Maire - February 2009) - for (Int_t nCascade = 0; nCascade < esd.GetNumberOfCascades(); ++nCascade) { - - // 0- Preparation - // - AliESDcascade *esdCascade = esd.GetCascade(nCascade); - Int_t idxPosFromV0Dghter = esdCascade->GetPindex(); - Int_t idxNegFromV0Dghter = esdCascade->GetNindex(); - Int_t idxBachFromCascade = esdCascade->GetBindex(); - - AliESDtrack *esdCascadePos = esd.GetTrack( idxPosFromV0Dghter); - AliESDtrack *esdCascadeNeg = esd.GetTrack( idxNegFromV0Dghter); - AliESDtrack *esdCascadeBach = esd.GetTrack( idxBachFromCascade); - - // Identification of the V0 within the esdCascade (via both daughter track indices) - AliESDv0 * currentV0 = 0x0; - Int_t idxV0FromCascade = -1; - - for (Int_t iV0=0; iV0GetPindex(); - Int_t negCurrentV0 = currentV0->GetNindex(); - - if (posCurrentV0==idxPosFromV0Dghter && negCurrentV0==idxNegFromV0Dghter) { - idxV0FromCascade = iV0; - break; - } - } - - if(idxV0FromCascade < 0){ - printf("Cascade - no matching for the V0 (index V0 = -1) ! Skip ... \n"); - continue; - }// a priori, useless check, but safer ... in case of pb with tracks "out of bounds" - - AliESDv0 *esdV0FromCascade = esd.GetV0(idxV0FromCascade); - - // 1 - Cascade selection - - // AliESDVertex *esdPrimVtx = new AliESDVertex(*(esd.GetPrimaryVertex())); - // TList cascadeObjects; - // cascadeObjects.AddAt(esdV0FromCascade, 0); - // cascadeObjects.AddAt(esdCascadePos, 1); - // cascadeObjects.AddAt(esdCascadeNeg, 2); - // cascadeObjects.AddAt(esdCascade, 3); - // cascadeObjects.AddAt(esdCascadeBach, 4); - // cascadeObjects.AddAt(esdPrimVtx, 5); - // - // UInt_t selectCascade = 0; - // if (fCascadeFilter) { - // // selectCascade = fCascadeFilter->IsSelected(&cascadeObjects); - // // FIXME AliESDCascadeCuts to be implemented ... - // - // // Here we may encounter a moot point at the V0 level - // // between the cascade selections and the V0 ones : - // // the V0 selected along with the cascade (secondary V0) may - // // usually be removed from the dedicated V0 selections (prim V0) ... - // // -> To be discussed ! - // - // // this is a little awkward but otherwise the - // // list wants to access the pointer (delete it) - // // again when going out of scope - // delete cascadeObjects.RemoveAt(5); // esdPrimVtx created via copy construct - // esdPrimVtx = 0; - // if (!selectCascade) - // continue; - // } - // else{ - // delete cascadeObjects.RemoveAt(5); // esdPrimVtx created via copy construct - // esdPrimVtx = 0; - // } - - // 2 - Add the cascade vertex - - esdCascade->GetXYZcascade(pos[0], pos[1], pos[2]); - esdCascade->GetPosCovXi(covVtx); - chi2 = esdCascade->GetChi2Xi(); - - AliAODVertex *vCascade = new(verticesArray[fNumberOfVertices++]) AliAODVertex( pos, - covVtx, - chi2, // FIXME = Chi2/NDF will be needed - fPrimaryVertex, - nCascade, // id - AliAODVertex::kCascade); - fPrimaryVertex->AddDaughter(vCascade); - -// if (fDebug > 2) { -// printf("---- Cascade / Cascade Vertex (AOD) : \n"); -// vCascade->Print(); -// } - - if(esd.GetTOFHeader() && fIsPidOwner) fESDpid->SetTOFResponse(const_cast(&esd), (AliESDpid::EStartTimeType_t)fTimeZeroType); //in case of AOD production strating form LHC10e without Tender. - - - // 3 - Add the bachelor track from the cascade - - if (!fUsedTrack[idxBachFromCascade]) { - - esdCascadeBach->GetPxPyPz(momBach); - esdCascadeBach->GetXYZ(pos); - esdCascadeBach->GetCovarianceXYZPxPyPz(covTr); - esdCascadeBach->GetESDpid(pid); - - fUsedTrack[idxBachFromCascade] = kTRUE; - UInt_t selectInfo = 0; - if (fTrackFilter) selectInfo = fTrackFilter->IsSelected(esdCascadeBach); - if (fMChandler) fMChandler->SelectParticle(esdCascadeBach->GetLabel()); - aodTrack = new(tracksArray[fNumberOfTracks++]) AliAODTrack(esdCascadeBach->GetID(), - esdCascadeBach->GetLabel(), - momBach, - kTRUE, - pos, - kFALSE, // Why kFALSE for "isDCA" ? FIXME - covTr, - (Short_t)esdCascadeBach->GetSign(), - esdCascadeBach->GetITSClusterMap(), - pid, - vCascade, - kTRUE, // usedForVtxFit = kFALSE ? FIXME - vtx->UsesTrack(esdCascadeBach->GetID()), - AliAODTrack::kSecondary, - selectInfo); - aodTrack->SetTPCFitMap(esdCascadeBach->GetTPCFitMap()); - aodTrack->SetTPCClusterMap(esdCascadeBach->GetTPCClusterMap()); - aodTrack->SetTPCSharedMap (esdCascadeBach->GetTPCSharedMap()); - aodTrack->SetChi2perNDF(Chi2perNDF(esdCascadeBach)); - aodTrack->SetTPCPointsF(esdCascadeBach->GetTPCNclsF()); - fAODTrackRefs->AddAt(aodTrack,idxBachFromCascade); - - if (esdCascadeBach->GetSign() > 0) ++fNumberOfPositiveTracks; - aodTrack->ConvertAliPIDtoAODPID(); - aodTrack->SetFlags(esdCascadeBach->GetStatus()); - SetAODPID(esdCascadeBach,aodTrack,detpid); - } - else { - aodTrack = static_cast( fAODTrackRefs->At(idxBachFromCascade) ); - } - - vCascade->AddDaughter(aodTrack); - -// if (fDebug > 4) { -// printf("---- Cascade / bach dghter : \n"); -// aodTrack->Print(); -// } - - - // 4 - Add the V0 from the cascade. - // = V0vtx + both pos and neg daughter tracks + the aodV0 itself - // - - if ( !fUsedV0[idxV0FromCascade] ) { - // 4.A - if VO structure hasn't been created yet - - // 4.A.1 - Create the V0 vertex of the cascade - - esdV0FromCascade->GetXYZ(pos[0], pos[1], pos[2]); - esdV0FromCascade->GetPosCov(covVtx); - chi2 = esdV0FromCascade->GetChi2V0(); // = chi2/NDF since NDF = 2*2-3 ? - - vV0FromCascade = new(verticesArray[fNumberOfVertices++]) AliAODVertex(pos, - covVtx, - chi2, - vCascade, - idxV0FromCascade, //id of ESDv0 - AliAODVertex::kV0); - // Note: - // one V0 can be used by several cascades. - // So, one AOD V0 vtx can have several parent vtx. - // This is not directly allowed by AliAODvertex. - // Setting the parent vtx (here = param "vCascade") doesn't lead to a crash - // but to a problem of consistency within AODEvent. - // -> See below paragraph 4.B, for the proposed treatment of such a case. - - // Add the vV0FromCascade to the aodVOVtxRefs - fAODV0VtxRefs->AddAt(vV0FromCascade,idxV0FromCascade); - - - // 4.A.2 - Add the positive tracks from the V0 - - esdCascadePos->GetPxPyPz(momPos); - esdCascadePos->GetXYZ(pos); - esdCascadePos->GetCovarianceXYZPxPyPz(covTr); - esdCascadePos->GetESDpid(pid); - - - if (!fUsedTrack[idxPosFromV0Dghter]) { - fUsedTrack[idxPosFromV0Dghter] = kTRUE; - - UInt_t selectInfo = 0; - if (fTrackFilter) selectInfo = fTrackFilter->IsSelected(esdCascadePos); - if(fMChandler) fMChandler->SelectParticle(esdCascadePos->GetLabel()); - aodTrack = new(tracksArray[fNumberOfTracks++]) - AliAODTrack( esdCascadePos->GetID(), - esdCascadePos->GetLabel(), - momPos, - kTRUE, - pos, - kFALSE, // Why kFALSE for "isDCA" ? FIXME - covTr, - (Short_t)esdCascadePos->GetSign(), - esdCascadePos->GetITSClusterMap(), - pid, - vV0FromCascade, - kTRUE, // usedForVtxFit = kFALSE ? FIXME - vtx->UsesTrack(esdCascadePos->GetID()), - AliAODTrack::kSecondary, - selectInfo); - aodTrack->SetTPCFitMap(esdCascadePos->GetTPCFitMap()); - aodTrack->SetTPCClusterMap(esdCascadePos->GetTPCClusterMap()); - aodTrack->SetTPCSharedMap (esdCascadePos->GetTPCSharedMap()); - aodTrack->SetChi2perNDF(Chi2perNDF(esdCascadePos)); - aodTrack->SetTPCPointsF(esdCascadePos->GetTPCNclsF()); - fAODTrackRefs->AddAt(aodTrack,idxPosFromV0Dghter); - - if (esdCascadePos->GetSign() > 0) ++fNumberOfPositiveTracks; - aodTrack->ConvertAliPIDtoAODPID(); - aodTrack->SetFlags(esdCascadePos->GetStatus()); - SetAODPID(esdCascadePos,aodTrack,detpid); - } - else { - aodTrack = static_cast(fAODTrackRefs->At(idxPosFromV0Dghter)); - } - vV0FromCascade->AddDaughter(aodTrack); - - - // 4.A.3 - Add the negative tracks from the V0 - - esdCascadeNeg->GetPxPyPz(momNeg); - esdCascadeNeg->GetXYZ(pos); - esdCascadeNeg->GetCovarianceXYZPxPyPz(covTr); - esdCascadeNeg->GetESDpid(pid); - - - if (!fUsedTrack[idxNegFromV0Dghter]) { - fUsedTrack[idxNegFromV0Dghter] = kTRUE; - - UInt_t selectInfo = 0; - if (fTrackFilter) selectInfo = fTrackFilter->IsSelected(esdCascadeNeg); - if(fMChandler)fMChandler->SelectParticle(esdCascadeNeg->GetLabel()); - aodTrack = new(tracksArray[fNumberOfTracks++]) AliAODTrack( esdCascadeNeg->GetID(), - esdCascadeNeg->GetLabel(), - momNeg, - kTRUE, - pos, - kFALSE, // Why kFALSE for "isDCA" ? FIXME - covTr, - (Short_t)esdCascadeNeg->GetSign(), - esdCascadeNeg->GetITSClusterMap(), - pid, - vV0FromCascade, - kTRUE, // usedForVtxFit = kFALSE ? FIXME - vtx->UsesTrack(esdCascadeNeg->GetID()), - AliAODTrack::kSecondary, - selectInfo); - aodTrack->SetTPCFitMap(esdCascadeNeg->GetTPCFitMap()); - aodTrack->SetTPCClusterMap(esdCascadeNeg->GetTPCClusterMap()); - aodTrack->SetTPCSharedMap (esdCascadeNeg->GetTPCSharedMap()); - aodTrack->SetChi2perNDF(Chi2perNDF(esdCascadeNeg)); - aodTrack->SetTPCPointsF(esdCascadeNeg->GetTPCNclsF()); - fAODTrackRefs->AddAt(aodTrack,idxNegFromV0Dghter); - - if (esdCascadeNeg->GetSign() > 0) ++fNumberOfPositiveTracks; - aodTrack->ConvertAliPIDtoAODPID(); - aodTrack->SetFlags(esdCascadeNeg->GetStatus()); - SetAODPID(esdCascadeNeg,aodTrack,detpid); - } - else { - aodTrack = static_cast(fAODTrackRefs->At(idxNegFromV0Dghter)); - } - - vV0FromCascade->AddDaughter(aodTrack); - - - // 4.A.4 - Add the V0 from cascade to the V0 array - - Double_t dcaV0Daughters = esdV0FromCascade->GetDcaV0Daughters(); - Double_t dcaV0ToPrimVertex = esdV0FromCascade->GetD( esd.GetPrimaryVertex()->GetX(), - esd.GetPrimaryVertex()->GetY(), - esd.GetPrimaryVertex()->GetZ() ); - esdV0FromCascade->GetPPxPyPz( momPosAtV0vtx[0],momPosAtV0vtx[1],momPosAtV0vtx[2] ); - esdV0FromCascade->GetNPxPyPz( momNegAtV0vtx[0],momNegAtV0vtx[1],momNegAtV0vtx[2] ); - - Double_t dcaDaughterToPrimVertex[2] = { 999., 999.}; // ..[0] = DCA in (x,y) for Pos and ..[1] = Neg - dcaDaughterToPrimVertex[0] = TMath::Abs(esdCascadePos->GetD( esd.GetPrimaryVertex()->GetX(), - esd.GetPrimaryVertex()->GetY(), - esd.GetMagneticField()) ); - dcaDaughterToPrimVertex[1] = TMath::Abs(esdCascadeNeg->GetD( esd.GetPrimaryVertex()->GetX(), - esd.GetPrimaryVertex()->GetY(), - esd.GetMagneticField()) ); - - aodV0 = new(V0s()[fNumberOfV0s++]) AliAODv0( vV0FromCascade, - dcaV0Daughters, - dcaV0ToPrimVertex, - momPosAtV0vtx, - momNegAtV0vtx, - dcaDaughterToPrimVertex); - // set the aod v0 on-the-fly status - aodV0->SetOnFlyStatus(esdV0FromCascade->GetOnFlyStatus()); - - // Add the aodV0 to the aodVORefs - fAODV0Refs->AddAt(aodV0,idxV0FromCascade); - - fUsedV0[idxV0FromCascade] = kTRUE; - - } else { - // 4.B - if V0 structure already used - - // Note : - // one V0 can be used by several cascades (frequent in PbPb evts) : - // same V0 which used but attached to different bachelor tracks - // -> aodVORefs and fAODV0VtxRefs are needed. - // Goal : avoid a redundancy of the info in "Vertices" and "v0s" clones array. - - vV0FromCascade = static_cast( fAODV0VtxRefs->At(idxV0FromCascade) ); - aodV0 = static_cast ( fAODV0Refs ->At(idxV0FromCascade) ); - - // - Treatment of the parent for such a "re-used" V0 : - // Insert the cascade that reuses the V0 vertex in the lineage chain - // Before : vV0 -> vCascade1 -> vPrimary - // - Hyp : cascade2 uses the same V0 as cascade1 - // After : vV0 -> vCascade2 -> vCascade1 -> vPrimary - - AliAODVertex *vCascadePreviousParent = static_cast (vV0FromCascade->GetParent()); - vV0FromCascade->SetParent(vCascade); - vCascade ->SetParent(vCascadePreviousParent); - -// if(fDebug > 2) -// printf("---- Cascade / Lineage insertion\n" -// "Parent of V0 vtx = Cascade vtx %p\n" -// "Parent of the cascade vtx = Cascade vtx %p\n" -// "Parent of the parent cascade vtx = Cascade vtx %p\n", -// static_cast (vV0FromCascade->GetParent()), -// static_cast (vCascade->GetParent()), -// static_cast (vCascadePreviousParent->GetParent()) ); - - }// end if V0 structure already used - -// if (fDebug > 2) { -// printf("---- Cascade / V0 vertex: \n"); -// vV0FromCascade->Print(); -// } -// -// if (fDebug > 4) { -// printf("---- Cascade / pos dghter : \n"); -// aodTrack->Print(); -// printf("---- Cascade / neg dghter : \n"); -// aodTrack->Print(); -// printf("---- Cascade / aodV0 : \n"); -// aodV0->Print(); -// } - - // In any case (used V0 or not), add the V0 vertex to the cascade one. - vCascade->AddDaughter(vV0FromCascade); - - - // 5 - Add the primary track of the cascade (if any) - - - // 6 - Add the cascade to the AOD array of cascades - - Double_t dcaBachToPrimVertexXY = TMath::Abs(esdCascadeBach->GetD(esd.GetPrimaryVertex()->GetX(), - esd.GetPrimaryVertex()->GetY(), - esd.GetMagneticField()) ); - - Double_t momBachAtCascadeVtx[3]={0.}; - - esdCascade->GetBPxPyPz(momBachAtCascadeVtx[0], momBachAtCascadeVtx[1], momBachAtCascadeVtx[2]); - - aodCascade = new(cascadesArray[fNumberOfCascades++]) AliAODcascade( vCascade, - esdCascade->Charge(), - esdCascade->GetDcaXiDaughters(), - -999., - // DCAXiToPrimVtx -> needs to be calculated ----| - // doesn't exist at ESD level; - // See AODcascade::DcaXiToPrimVertex(Double, Double, Double) - dcaBachToPrimVertexXY, - momBachAtCascadeVtx, - *aodV0); - - if (fDebug > 10) { - printf("---- Cascade / AOD cascade : \n\n"); - aodCascade->PrintXi(fPrimaryVertex->GetX(), fPrimaryVertex->GetY(), fPrimaryVertex->GetZ()); - } - - } // end of the loop on cascades - - Cascades().Expand(fNumberOfCascades); -} - -//______________________________________________________________________________ -void AliAnalysisTaskESDfilter::ConvertV0s(const AliESDEvent& esd) -{ - // Access to the AOD container of V0s - - AliCodeTimerAuto("",0); - - // - // V0s - // - - Double_t pos[3] = { 0. }; - Double_t chi2(0.0); - Double_t covVtx[6] = { 0. }; - Double_t momPos[3]={0.}; - Double_t covTr[21]={0.}; - Double_t pid[10]={0.}; - AliAODTrack* aodTrack(0x0); - AliAODPid* detpid(0x0); - Double_t momNeg[3]={0.}; - Double_t momPosAtV0vtx[3]={0.}; - Double_t momNegAtV0vtx[3]={0.}; - - for (Int_t nV0 = 0; nV0 < esd.GetNumberOfV0s(); ++nV0) - { - if (fUsedV0[nV0]) continue; // skip if already added to the AOD - - AliESDv0 *v0 = esd.GetV0(nV0); - Int_t posFromV0 = v0->GetPindex(); - Int_t negFromV0 = v0->GetNindex(); - - // V0 selection - // - AliESDVertex *esdVtx = new AliESDVertex(*(esd.GetPrimaryVertex())); - AliESDtrack *esdV0Pos = esd.GetTrack(posFromV0); - AliESDtrack *esdV0Neg = esd.GetTrack(negFromV0); - TList v0objects; - v0objects.AddAt(v0, 0); - v0objects.AddAt(esdV0Pos, 1); - v0objects.AddAt(esdV0Neg, 2); - v0objects.AddAt(esdVtx, 3); - UInt_t selectV0 = 0; - if (fV0Filter) { - selectV0 = fV0Filter->IsSelected(&v0objects); - // this is a little awkward but otherwise the - // list wants to access the pointer (delete it) - // again when going out of scope - delete v0objects.RemoveAt(3); // esdVtx created via copy construct - esdVtx = 0; - if (!selectV0) - continue; - } - else{ - delete v0objects.RemoveAt(3); // esdVtx created via copy construct - esdVtx = 0; - } - - v0->GetXYZ(pos[0], pos[1], pos[2]); - - if (!fOldESDformat) { - chi2 = v0->GetChi2V0(); // = chi2/NDF since NDF = 2*2-3 - v0->GetPosCov(covVtx); - } else { - chi2 = -999.; - for (Int_t i = 0; i < 6; i++) covVtx[i] = 0.; - } - - - AliAODVertex * vV0 = - new(Vertices()[fNumberOfVertices++]) AliAODVertex(pos, - covVtx, - chi2, - fPrimaryVertex, - nV0, - AliAODVertex::kV0); - fPrimaryVertex->AddDaughter(vV0); - - - // Add the positive tracks from the V0 - - - esdV0Pos->GetPxPyPz(momPos); - esdV0Pos->GetXYZ(pos); - esdV0Pos->GetCovarianceXYZPxPyPz(covTr); - esdV0Pos->GetESDpid(pid); - - const AliESDVertex *vtx = esd.GetPrimaryVertex(); - - if (!fUsedTrack[posFromV0]) { - fUsedTrack[posFromV0] = kTRUE; - UInt_t selectInfo = 0; - if (fTrackFilter) selectInfo = fTrackFilter->IsSelected(esdV0Pos); - if(fMChandler)fMChandler->SelectParticle(esdV0Pos->GetLabel()); - aodTrack = new(Tracks()[fNumberOfTracks++]) AliAODTrack(esdV0Pos->GetID(), - esdV0Pos->GetLabel(), - momPos, - kTRUE, - pos, - kFALSE, - covTr, - (Short_t)esdV0Pos->GetSign(), - esdV0Pos->GetITSClusterMap(), - pid, - vV0, - kTRUE, // check if this is right - vtx->UsesTrack(esdV0Pos->GetID()), - AliAODTrack::kSecondary, - selectInfo); - aodTrack->SetTPCFitMap(esdV0Pos->GetTPCFitMap()); - aodTrack->SetTPCClusterMap(esdV0Pos->GetTPCClusterMap()); - aodTrack->SetTPCSharedMap (esdV0Pos->GetTPCSharedMap()); - aodTrack->SetChi2perNDF(Chi2perNDF(esdV0Pos)); - aodTrack->SetTPCPointsF(esdV0Pos->GetTPCNclsF()); - fAODTrackRefs->AddAt(aodTrack,posFromV0); - // if (fDebug > 0) printf("-------------------Bo: pos track from original pt %.3f \n",aodTrack->Pt()); - if (esdV0Pos->GetSign() > 0) ++fNumberOfPositiveTracks; - aodTrack->ConvertAliPIDtoAODPID(); - aodTrack->SetFlags(esdV0Pos->GetStatus()); - SetAODPID(esdV0Pos,aodTrack,detpid); - } - else { - aodTrack = static_cast(fAODTrackRefs->At(posFromV0)); - // if (fDebug > 0) printf("-------------------Bo pos track from refArray pt %.3f \n",aodTrack->Pt()); - } - vV0->AddDaughter(aodTrack); - - // Add the negative tracks from the V0 - - esdV0Neg->GetPxPyPz(momNeg); - esdV0Neg->GetXYZ(pos); - esdV0Neg->GetCovarianceXYZPxPyPz(covTr); - esdV0Neg->GetESDpid(pid); - - if (!fUsedTrack[negFromV0]) { - fUsedTrack[negFromV0] = kTRUE; - UInt_t selectInfo = 0; - if (fTrackFilter) selectInfo = fTrackFilter->IsSelected(esdV0Neg); - if(fMChandler)fMChandler->SelectParticle(esdV0Neg->GetLabel()); - aodTrack = new(Tracks()[fNumberOfTracks++]) AliAODTrack(esdV0Neg->GetID(), - esdV0Neg->GetLabel(), - momNeg, - kTRUE, - pos, - kFALSE, - covTr, - (Short_t)esdV0Neg->GetSign(), - esdV0Neg->GetITSClusterMap(), - pid, - vV0, - kTRUE, // check if this is right - vtx->UsesTrack(esdV0Neg->GetID()), - AliAODTrack::kSecondary, - selectInfo); - aodTrack->SetTPCFitMap(esdV0Neg->GetTPCFitMap()); - aodTrack->SetTPCClusterMap(esdV0Neg->GetTPCClusterMap()); - aodTrack->SetTPCSharedMap (esdV0Neg->GetTPCSharedMap()); - aodTrack->SetChi2perNDF(Chi2perNDF(esdV0Neg)); - aodTrack->SetTPCPointsF(esdV0Neg->GetTPCNclsF()); - - fAODTrackRefs->AddAt(aodTrack,negFromV0); - // if (fDebug > 0) printf("-------------------Bo: neg track from original pt %.3f \n",aodTrack->Pt()); - if (esdV0Neg->GetSign() > 0) ++fNumberOfPositiveTracks; - aodTrack->ConvertAliPIDtoAODPID(); - aodTrack->SetFlags(esdV0Neg->GetStatus()); - SetAODPID(esdV0Neg,aodTrack,detpid); - } - else { - aodTrack = static_cast(fAODTrackRefs->At(negFromV0)); - // if (fDebug > 0) printf("-------------------Bo neg track from refArray pt %.3f \n",aodTrack->Pt()); - } - vV0->AddDaughter(aodTrack); - - - // Add the V0 the V0 array as well - - Double_t dcaV0Daughters = v0->GetDcaV0Daughters(); - Double_t dcaV0ToPrimVertex = v0->GetD(esd.GetPrimaryVertex()->GetX(), - esd.GetPrimaryVertex()->GetY(), - esd.GetPrimaryVertex()->GetZ()); - - v0->GetPPxPyPz(momPosAtV0vtx[0],momPosAtV0vtx[1],momPosAtV0vtx[2]); - v0->GetNPxPyPz(momNegAtV0vtx[0],momNegAtV0vtx[1],momNegAtV0vtx[2]); - - Double_t dcaDaughterToPrimVertex[2] = { 999., 999.}; // ..[0] = DCA in (x,y) for Pos and ..[1] = Neg - dcaDaughterToPrimVertex[0] = TMath::Abs(esdV0Pos->GetD( esd.GetPrimaryVertex()->GetX(), - esd.GetPrimaryVertex()->GetY(), - esd.GetMagneticField()) ); - dcaDaughterToPrimVertex[1] = TMath::Abs(esdV0Neg->GetD( esd.GetPrimaryVertex()->GetX(), - esd.GetPrimaryVertex()->GetY(), - esd.GetMagneticField()) ); - - AliAODv0* aodV0 = new(V0s()[fNumberOfV0s++]) AliAODv0(vV0, - dcaV0Daughters, - dcaV0ToPrimVertex, - momPosAtV0vtx, - momNegAtV0vtx, - dcaDaughterToPrimVertex); - - // set the aod v0 on-the-fly status - aodV0->SetOnFlyStatus(v0->GetOnFlyStatus()); - }//End of loop on V0s - - V0s().Expand(fNumberOfV0s); -} - -//______________________________________________________________________________ -void AliAnalysisTaskESDfilter::ConvertTPCOnlyTracks(const AliESDEvent& esd) -{ - // Convert TPC only tracks - // Here we have wo hybrid appraoch to remove fakes - // ******* ITSTPC ******** - // Uses a cut on the ITS properties to select global tracks - // which are than marked as HybdridITSTPC for the remainder - // the TPC only tracks are flagged as HybridITSTPConly. - // Note, in order not to get fakes back in the TPC cuts, one needs - // two "ITS" cuts one tight (1) (to throw out fakes) and one lose (2) (to NOT flag the trakcs in the TPC only) - // using cut number (3) - // so fHybridFilterMask == (1)|(2) fTPCFilterMask = (3), Usercode needs to slect with mask = (1)|(3) and track->IsHybridITSTPC() - // ******* TPC ******** - // Here, only TPC tracks are flagged that pass the tight ITS cuts and tracks that pass the TPC cuts and NOT the loose ITS cuts - // the ITS cuts neeed to be added to the filter as extra cuts, since here the selections info is reset in the global and put to the TPC only track - - AliCodeTimerAuto("",0); - - // Loop over the tracks and extract and mask out all aod tracks that pass the selections for AODt racks - for(int it = 0;it < fNumberOfTracks;++it) - { - AliAODTrack *tr = (AliAODTrack*)(Tracks().At(it)); - if(!tr)continue; - UInt_t map = tr->GetFilterMap(); - if(map&fTPCConstrainedFilterMask){ - // we only reset the track select ionfo, no deletion... - tr->SetFilterMap(map&~fTPCConstrainedFilterMask); - } - if(map&fHybridFilterMaskTPCCG){ - // this is one part of the hybrid tracks - // the others not passing the selection will be TPC only selected below - tr->SetIsHybridTPCConstrainedGlobal(kTRUE); - } - } - // Loop over the ESD trcks and pick out the tracks passing TPC only cuts - - - const AliESDVertex *vtxSPD = esd.GetPrimaryVertexSPD(); - const AliESDVertex *vtx = esd.GetPrimaryVertex(); - - Double_t pos[3] = { 0. }; - Double_t covTr[21]={0.}; - Double_t pid[10]={0.}; - - - Double_t p[3] = { 0. }; - - Double_t pDCA[3] = { 0. }; // momentum at DCA - Double_t rDCA[3] = { 0. }; // position at DCA - Float_t dDCA[2] = {0.}; // DCA to the vertex d and z - Float_t cDCA[3] = {0.}; // covariance of impact parameters - - - AliAODTrack* aodTrack(0x0); - // AliAODPid* detpid(0x0); - - // account for change in pT after the constraint - Float_t ptMax = 1E10; - Float_t ptMin = 0; - for(int i = 0;i<32;i++){ - if(fTPCConstrainedFilterMask&(1<GetCuts()->At(i); - Float_t tmp1= 0,tmp2 = 0; - cuts->GetPtRange(tmp1,tmp2); - if(tmp1>ptMin)ptMin=tmp1; - if(tmp2IsSelected(esdTrack); - } - - if(!(selectInfo&fHybridFilterMaskTPCCG)){ - // not already selected tracks, use second part of hybrid tracks - isHybridITSTPC = true; - // too save space one could only store these... - } - - selectInfo &= fTPCConstrainedFilterMask; - if (!selectInfo)continue; - if (fWriteHybridTPCCOnly&&!isHybridITSTPC)continue; // write only complementary tracks - // create a tpc only tracl - AliESDtrack *track = AliESDtrackCuts::GetTPCOnlyTrack(const_cast(&esd),esdTrack->GetID()); - if(!track) continue; - - if(track->Pt()>0.) - { - // only constrain tracks above threshold - AliExternalTrackParam exParam; - // take the B-field from the ESD, no 3D fieldMap available at this point - Bool_t relate = false; - relate = track->RelateToVertexTPC(vtxSPD,esd.GetMagneticField(),kVeryBig,&exParam); - if(!relate){ - delete track; - continue; - } - // fetch the track parameters at the DCA (unconstraint) - if(track->GetTPCInnerParam()){ - track->GetTPCInnerParam()->GetPxPyPz(pDCA); - track->GetTPCInnerParam()->GetXYZ(rDCA); - } - // get the DCA to the vertex: - track->GetImpactParametersTPC(dDCA,cDCA); - // set the constrained parameters to the track - track->Set(exParam.GetX(),exParam.GetAlpha(),exParam.GetParameter(),exParam.GetCovariance()); - } - - track->GetPxPyPz(p); - - Float_t pT = track->Pt(); - if(pTptMax){ - delete track; - continue; - } - - // - - - track->GetXYZ(pos); - track->GetCovarianceXYZPxPyPz(covTr); - esdTrack->GetESDpid(pid);// original PID - - if(fMChandler)fMChandler->SelectParticle(esdTrack->GetLabel()); - aodTrack = new(Tracks()[fNumberOfTracks++]) AliAODTrack((track->GetID()+1)*-1, - track->GetLabel(), - p, - kTRUE, - pos, - kFALSE, - covTr, - (Short_t)track->GetSign(), - track->GetITSClusterMap(), - pid, - fPrimaryVertex, - kTRUE, // check if this is right - vtx->UsesTrack(track->GetID()), - AliAODTrack::kPrimary, - selectInfo); - aodTrack->SetIsHybridTPCConstrainedGlobal(isHybridITSTPC); - aodTrack->SetTPCFitMap(track->GetTPCFitMap()); - aodTrack->SetTPCClusterMap(track->GetTPCClusterMap()); - aodTrack->SetTPCSharedMap (track->GetTPCSharedMap()); - aodTrack->SetIsTPCConstrained(kTRUE); - aodTrack->SetChi2perNDF(Chi2perNDF(esdTrack)); // original track - // set the DCA values to the AOD track - aodTrack->SetPxPyPzAtDCA(pDCA[0],pDCA[1],pDCA[2]); - aodTrack->SetXYAtDCA(rDCA[0],rDCA[1]); - aodTrack->SetDCA(dDCA[0],dDCA[1]); - - aodTrack->SetFlags(track->GetStatus()); - aodTrack->SetTPCPointsF(track->GetTPCNclsF()); - - // do not duplicate PID information - // aodTrack->ConvertAliPIDtoAODPID(); - // SetAODPID(esdTrack,aodTrack,detpid); - - delete track; - } // end of loop on tracks - -} - - -void AliAnalysisTaskESDfilter::ConvertGlobalConstrainedTracks(const AliESDEvent& esd) -{ - - // Here we have the option to store the complement from global constraint information - // to tracks passing tight cuts (1) in order not to get fakes back in, one needs - // two sets of cuts one tight (1) (to throw out fakes) and one lose (2) (fakes/bad tracks would pass (2) but not (1)) - // using cut number (3) selects the tracks that complement (1) e.g. tracks witout ITS refit or cluster requirement - - - AliCodeTimerAuto("",0); - - // Loop over the tracks and extract and mask out all aod tracks that pass the selections for AODt racks - for(int it = 0;it < fNumberOfTracks;++it) - { - AliAODTrack *tr = (AliAODTrack*)(Tracks().At(it)); - if(!tr)continue; - UInt_t map = tr->GetFilterMap(); - if(map&fGlobalConstrainedFilterMask){ - // we only reset the track select info, no deletion... - // mask reset mask in case track is already taken - tr->SetFilterMap(map&~fGlobalConstrainedFilterMask); - } - if(map&fHybridFilterMaskGCG){ - // this is one part of the hybrid tracks - // the others not passing the selection will be the ones selected below - tr->SetIsHybridGlobalConstrainedGlobal(kTRUE); - } - } - // Loop over the ESD trcks and pick out the tracks passing the GlobalConstraint cuts - - - Double_t pos[3] = { 0. }; - Double_t covTr[21]={0.}; - Double_t pid[10]={0.}; - Double_t p[3] = { 0. }; - - Double_t pDCA[3] = { 0. }; // momentum at DCA - Double_t rDCA[3] = { 0. }; // position at DCA - Float_t dDCA[2] = {0.}; // DCA to the vertex d and z - Float_t cDCA[3] = {0.}; // covariance of impact parameters - - - AliAODTrack* aodTrack(0x0); - AliAODPid* detpid(0x0); - const AliESDVertex *vtx = esd.GetPrimaryVertex(); - - // account for change in pT after the constraint - Float_t ptMax = 1E10; - Float_t ptMin = 0; - for(int i = 0;i<32;i++){ - if(fGlobalConstrainedFilterMask&(1<GetCuts()->At(i); - Float_t tmp1= 0,tmp2 = 0; - cuts->GetPtRange(tmp1,tmp2); - if(tmp1>ptMin)ptMin=tmp1; - if(tmp2GetConstrainedParam(); - if(!exParamGC)continue; - - UInt_t selectInfo = 0; - Bool_t isHybridGC = false; - - // - // Track selection - if (fTrackFilter) { - selectInfo = fTrackFilter->IsSelected(esdTrack); - } - - - if(!(selectInfo&fHybridFilterMaskGCG))isHybridGC = true; - if (fWriteHybridGCOnly&&!isHybridGC)continue; // write only complementary tracks - - selectInfo &= fGlobalConstrainedFilterMask; - if (!selectInfo)continue; - // fetch the track parameters at the DCA (unconstrained) - esdTrack->GetPxPyPz(pDCA); - esdTrack->GetXYZ(rDCA); - // get the DCA to the vertex: - esdTrack->GetImpactParameters(dDCA,cDCA); - - esdTrack->GetConstrainedPxPyPz(p); - - - Float_t pT = exParamGC->Pt(); - if(pTptMax){ - continue; - } - - - esdTrack->GetConstrainedXYZ(pos); - exParamGC->GetCovarianceXYZPxPyPz(covTr); - esdTrack->GetESDpid(pid); - if(fMChandler)fMChandler->SelectParticle(esdTrack->GetLabel()); - aodTrack = new(Tracks()[fNumberOfTracks++]) AliAODTrack((esdTrack->GetID()+1)*-1, - esdTrack->GetLabel(), - p, - kTRUE, - pos, - kFALSE, - covTr, - (Short_t)esdTrack->GetSign(), - esdTrack->GetITSClusterMap(), - pid, - fPrimaryVertex, - kTRUE, // check if this is right - vtx->UsesTrack(esdTrack->GetID()), - AliAODTrack::kPrimary, - selectInfo); - aodTrack->SetIsHybridGlobalConstrainedGlobal(isHybridGC); - aodTrack->SetIsGlobalConstrained(kTRUE); - aodTrack->SetTPCFitMap(esdTrack->GetTPCFitMap()); - aodTrack->SetTPCClusterMap(esdTrack->GetTPCClusterMap()); - aodTrack->SetTPCSharedMap (esdTrack->GetTPCSharedMap()); - aodTrack->SetChi2perNDF(Chi2perNDF(esdTrack)); - - - // set the DCA values to the AOD track - aodTrack->SetPxPyPzAtDCA(pDCA[0],pDCA[1],pDCA[2]); - aodTrack->SetXYAtDCA(rDCA[0],rDCA[1]); - aodTrack->SetDCA(dDCA[0],dDCA[1]); - - aodTrack->SetFlags(esdTrack->GetStatus()); - aodTrack->SetTPCPointsF(esdTrack->GetTPCNclsF()); - - if(isHybridGC){ - // only copy AOD information for hybrid, no duplicate information - aodTrack->ConvertAliPIDtoAODPID(); - SetAODPID(esdTrack,aodTrack,detpid); - } - } // end of loop on tracks - -} - - -//______________________________________________________________________________ -void AliAnalysisTaskESDfilter::ConvertTracks(const AliESDEvent& esd) -{ - // Tracks (primary and orphan) - - AliCodeTimerAuto("",0); - - AliDebug(1,Form("NUMBER OF ESD TRACKS %5d\n", esd.GetNumberOfTracks())); - - const AliESDVertex *vtx = esd.GetPrimaryVertex(); - Double_t p[3] = { 0. }; - Double_t pos[3] = { 0. }; - Double_t covTr[21] = { 0. }; - Double_t pid[10] = { 0. }; - AliAODTrack* aodTrack(0x0); - AliAODPid* detpid(0x0); - - for (Int_t nTrack = 0; nTrack < esd.GetNumberOfTracks(); ++nTrack) - { - if (fUsedTrack[nTrack]) continue; - - AliESDtrack *esdTrack = esd.GetTrack(nTrack); - UInt_t selectInfo = 0; - // - // Track selection - if (fTrackFilter) { - selectInfo = fTrackFilter->IsSelected(esdTrack); - if (!selectInfo && !vtx->UsesTrack(esdTrack->GetID())) continue; - } - - - esdTrack->GetPxPyPz(p); - esdTrack->GetXYZ(pos); - esdTrack->GetCovarianceXYZPxPyPz(covTr); - esdTrack->GetESDpid(pid); - if(fMChandler)fMChandler->SelectParticle(esdTrack->GetLabel()); - fPrimaryVertex->AddDaughter(aodTrack = - new(Tracks()[fNumberOfTracks++]) AliAODTrack(esdTrack->GetID(), - esdTrack->GetLabel(), - p, - kTRUE, - pos, - kFALSE, - covTr, - (Short_t)esdTrack->GetSign(), - esdTrack->GetITSClusterMap(), - pid, - fPrimaryVertex, - kTRUE, // check if this is right - vtx->UsesTrack(esdTrack->GetID()), - AliAODTrack::kPrimary, - selectInfo) - ); - aodTrack->SetTPCFitMap(esdTrack->GetTPCFitMap()); - aodTrack->SetTPCClusterMap(esdTrack->GetTPCClusterMap()); - aodTrack->SetTPCSharedMap (esdTrack->GetTPCSharedMap()); - aodTrack->SetChi2perNDF(Chi2perNDF(esdTrack)); - aodTrack->SetTPCPointsF(esdTrack->GetTPCNclsF()); - if(esdTrack->IsEMCAL()) aodTrack->SetEMCALcluster(esdTrack->GetEMCALcluster()); - if(esdTrack->IsPHOS()) aodTrack->SetPHOScluster(esdTrack->GetPHOScluster()); - - fAODTrackRefs->AddAt(aodTrack, nTrack); - - - if (esdTrack->GetSign() > 0) ++fNumberOfPositiveTracks; - aodTrack->SetFlags(esdTrack->GetStatus()); - aodTrack->ConvertAliPIDtoAODPID(); - SetAODPID(esdTrack,aodTrack,detpid); - } // end of loop on tracks -} - -//______________________________________________________________________________ -void AliAnalysisTaskESDfilter::ConvertPmdClusters(const AliESDEvent& esd) -{ -// Convert PMD Clusters - AliCodeTimerAuto("",0); - Int_t jPmdClusters=0; - // Access to the AOD container of PMD clusters - TClonesArray &pmdClusters = *(AODEvent()->GetPmdClusters()); - for (Int_t iPmd = 0; iPmd < esd.GetNumberOfPmdTracks(); ++iPmd) { - // file pmd clusters, to be revised! - AliESDPmdTrack *pmdTrack = esd.GetPmdTrack(iPmd); - Int_t nLabel = 0; - Int_t *label = 0x0; - Double_t posPmd[3] = { pmdTrack->GetClusterX(), pmdTrack->GetClusterY(), pmdTrack->GetClusterZ()}; - Double_t pidPmd[13] = { 0.}; // to be revised! - // type not set! - // assoc cluster not set - new(pmdClusters[jPmdClusters++]) AliAODPmdCluster(iPmd, nLabel, label, pmdTrack->GetClusterADC(), posPmd, pidPmd); - } -} - -//______________________________________________________________________________ -void AliAnalysisTaskESDfilter::ConvertCaloClusters(const AliESDEvent& esd) -{ -// Convert Calorimeter Clusters - AliCodeTimerAuto("",0); - - // Access to the AOD container of clusters - TClonesArray &caloClusters = *(AODEvent()->GetCaloClusters()); - Int_t jClusters(0); - - for (Int_t iClust=0; iClustGetID(); - Int_t nLabel = cluster->GetNLabels(); - Int_t *labels = cluster->GetLabels(); - if(labels){ - for(int i = 0;i < nLabel;++i){ - if(fMChandler)fMChandler->SelectParticle(labels[i]); - } - } - - Float_t energy = cluster->E(); - Float_t posF[3] = { 0.}; - cluster->GetPosition(posF); - - AliAODCaloCluster *caloCluster = new(caloClusters[jClusters++]) AliAODCaloCluster(id, - nLabel, - labels, - energy, - posF, - NULL, - cluster->GetType(),0); - - caloCluster->SetCaloCluster(cluster->GetDistanceToBadChannel(), - cluster->GetDispersion(), - cluster->GetM20(), cluster->GetM02(), - cluster->GetEmcCpvDistance(), - cluster->GetNExMax(),cluster->GetTOF()) ; - - caloCluster->SetPIDFromESD(cluster->GetPID()); - caloCluster->SetNCells(cluster->GetNCells()); - caloCluster->SetCellsAbsId(cluster->GetCellsAbsId()); - caloCluster->SetCellsAmplitudeFraction(cluster->GetCellsAmplitudeFraction()); - - caloCluster->SetTrackDistance(cluster->GetTrackDx(), cluster->GetTrackDz()); - - TArrayI* matchedT = cluster->GetTracksMatched(); - if (fNumberOfTracks>0 && matchedT && cluster->GetTrackMatchedIndex() >= 0) { - for (Int_t im = 0; im < matchedT->GetSize(); im++) { - Int_t iESDtrack = matchedT->At(im);; - if (fAODTrackRefs->At(iESDtrack) != 0) { - caloCluster->AddTrackMatched((AliAODTrack*)fAODTrackRefs->At(iESDtrack)); - } - } - } - - } - caloClusters.Expand(jClusters); // resize TObjArray to 'remove' slots for pseudo clusters -} - -//______________________________________________________________________________ -void AliAnalysisTaskESDfilter::ConvertCaloTrigger(TString calo, const AliESDEvent& esd) -{ - AliCodeTimerAuto("",0); - - if (calo == "PHOS") - { - AliLog::Message(AliLog::kError, "PHOS ESD filter not yet implemented", MODULENAME(), "ConvertCaloTrigger", FUNCTIONNAME(), __FILE__, __LINE__); - return; - } - - AliAODHandler *aodHandler = dynamic_cast(AliAnalysisManager::GetAnalysisManager()->GetOutputEventHandler()); - - if (aodHandler) - { - TTree *aodTree = aodHandler->GetTree(); - - if (aodTree) - { - Int_t *type = esd.GetCaloTriggerType(); - - for (Int_t i = 0; i < 8; i++) - { - aodTree->GetUserInfo()->Add(new TParameter(Form("EMCALCaloTrigger%d",i), type[i])); - } - } - } - - AliAODCaloTrigger &aodTrigger = *(AODEvent()->GetCaloTrigger(calo)); - - AliESDCaloTrigger &esdTrigger = *(esd.GetCaloTrigger(calo)); - - aodTrigger.Allocate(esdTrigger.GetEntries()); - - esdTrigger.Reset(); - while (esdTrigger.Next()) - { - Int_t px, py, ts, nTimes, times[10], b; - Float_t a, t; - - esdTrigger.GetPosition(px, py); - - esdTrigger.GetAmplitude(a); - esdTrigger.GetTime(t); - - esdTrigger.GetL0Times(times); - esdTrigger.GetNL0Times(nTimes); - - esdTrigger.GetL1TimeSum(ts); - - esdTrigger.GetTriggerBits(b); - - aodTrigger.Add(px, py, a, t, times, nTimes, ts, b); - } - - aodTrigger.SetL1Threshold(0, esdTrigger.GetL1Threshold(0)); - aodTrigger.SetL1Threshold(1, esdTrigger.GetL1Threshold(1)); - - Int_t v0[2] = - { - esdTrigger.GetL1V0(0), - esdTrigger.GetL1V0(1) - }; - - aodTrigger.SetL1V0(v0); - aodTrigger.SetL1FrameMask(esdTrigger.GetL1FrameMask()); -} - -//______________________________________________________________________________ -void AliAnalysisTaskESDfilter::ConvertEMCALCells(const AliESDEvent& esd) -{ -// Convert EMCAL Cells - AliCodeTimerAuto("",0); - // fill EMCAL cell info - if (esd.GetEMCALCells()) { // protection against missing ESD information - AliESDCaloCells &esdEMcells = *(esd.GetEMCALCells()); - Int_t nEMcell = esdEMcells.GetNumberOfCells() ; - - AliAODCaloCells &aodEMcells = *(AODEvent()->GetEMCALCells()); - aodEMcells.CreateContainer(nEMcell); - aodEMcells.SetType(AliAODCaloCells::kEMCALCell); - for (Int_t iCell = 0; iCell < nEMcell; iCell++) { - aodEMcells.SetCell(iCell,esdEMcells.GetCellNumber(iCell),esdEMcells.GetAmplitude(iCell)); - } - aodEMcells.Sort(); - } -} - -//______________________________________________________________________________ -void AliAnalysisTaskESDfilter::ConvertPHOSCells(const AliESDEvent& esd) -{ -// Convert PHOS Cells - AliCodeTimerAuto("",0); - // fill PHOS cell info - if (esd.GetPHOSCells()) { // protection against missing ESD information - AliESDCaloCells &esdPHcells = *(esd.GetPHOSCells()); - Int_t nPHcell = esdPHcells.GetNumberOfCells() ; - - AliAODCaloCells &aodPHcells = *(AODEvent()->GetPHOSCells()); - aodPHcells.CreateContainer(nPHcell); - aodPHcells.SetType(AliAODCaloCells::kPHOSCell); - for (Int_t iCell = 0; iCell < nPHcell; iCell++) { - aodPHcells.SetCell(iCell,esdPHcells.GetCellNumber(iCell),esdPHcells.GetAmplitude(iCell)); - } - aodPHcells.Sort(); - } -} - -//______________________________________________________________________________ -void AliAnalysisTaskESDfilter::ConvertTracklets(const AliESDEvent& esd) -{ - // tracklets - AliCodeTimerAuto("",0); - - AliAODTracklets &SPDTracklets = *(AODEvent()->GetTracklets()); - const AliMultiplicity *mult = esd.GetMultiplicity(); - if (mult) { - if (mult->GetNumberOfTracklets()>0) { - SPDTracklets.CreateContainer(mult->GetNumberOfTracklets()); - - for (Int_t n=0; nGetNumberOfTracklets(); n++) { - if(fMChandler){ - fMChandler->SelectParticle(mult->GetLabel(n, 0)); - fMChandler->SelectParticle(mult->GetLabel(n, 1)); - } - SPDTracklets.SetTracklet(n, mult->GetTheta(n), mult->GetPhi(n), mult->GetDeltaPhi(n), mult->GetLabel(n, 0),mult->GetLabel(n, 1)); - } - } - } else { - //Printf("ERROR: AliMultiplicity could not be retrieved from ESD"); - } -} - -//______________________________________________________________________________ -void AliAnalysisTaskESDfilter::ConvertKinks(const AliESDEvent& esd) -{ - AliCodeTimerAuto("",0); - - // Kinks: it is a big mess the access to the information in the kinks - // The loop is on the tracks in order to find the mother and daugther of each kink - - Double_t covTr[21]={0.}; - Double_t pid[10]={0.}; - AliAODPid* detpid(0x0); - - fNumberOfKinks = esd.GetNumberOfKinks(); - - const AliESDVertex* vtx = esd.GetPrimaryVertex(); - - for (Int_t iTrack=0; iTrackGetKinkIndex(0); - - if (ikink && fNumberOfKinks) { - // Negative kink index: mother, positive: daughter - - // Search for the second track of the kink - - for (Int_t jTrack = iTrack+1; jTrackGetKinkIndex(0); - - if ( TMath::Abs(ikink)==TMath::Abs(jkink) ) { - - // The two tracks are from the same kink - - if (fUsedKink[TMath::Abs(ikink)-1]) continue; // skip used kinks - - Int_t imother = -1; - Int_t idaughter = -1; - - if (ikink<0 && jkink>0) { - - imother = iTrack; - idaughter = jTrack; - } - else if (ikink>0 && jkink<0) { - - imother = jTrack; - idaughter = iTrack; - } - else { - // cerr << "Error: Wrong combination of kink indexes: " - // << ikink << " " << jkink << endl; - continue; - } - - // Add the mother track if it passed primary track selection cuts - - AliAODTrack * mother = NULL; - - UInt_t selectInfo = 0; - if (fTrackFilter) { - selectInfo = fTrackFilter->IsSelected(esd.GetTrack(imother)); - if (!selectInfo) continue; - } - - if (!fUsedTrack[imother]) { - - fUsedTrack[imother] = kTRUE; - - AliESDtrack *esdTrackM = esd.GetTrack(imother); - Double_t p[3] = { 0. }; - Double_t pos[3] = { 0. }; - esdTrackM->GetPxPyPz(p); - esdTrackM->GetXYZ(pos); - esdTrackM->GetCovarianceXYZPxPyPz(covTr); - esdTrackM->GetESDpid(pid); - if(fMChandler)fMChandler->SelectParticle(esdTrackM->GetLabel()); - mother = - new(Tracks()[fNumberOfTracks++]) AliAODTrack(esdTrackM->GetID(), - esdTrackM->GetLabel(), - p, - kTRUE, - pos, - kFALSE, - covTr, - (Short_t)esdTrackM->GetSign(), - esdTrackM->GetITSClusterMap(), - pid, - fPrimaryVertex, - kTRUE, // check if this is right - vtx->UsesTrack(esdTrack->GetID()), - AliAODTrack::kPrimary, - selectInfo); - mother->SetTPCFitMap(esdTrackM->GetTPCFitMap()); - mother->SetTPCClusterMap(esdTrackM->GetTPCClusterMap()); - mother->SetTPCSharedMap (esdTrackM->GetTPCSharedMap()); - mother->SetChi2perNDF(Chi2perNDF(esdTrackM)); - mother->SetTPCPointsF(esdTrackM->GetTPCNclsF()); - - fAODTrackRefs->AddAt(mother, imother); - - if (esdTrackM->GetSign() > 0) ++fNumberOfPositiveTracks; - mother->SetFlags(esdTrackM->GetStatus()); - mother->ConvertAliPIDtoAODPID(); - fPrimaryVertex->AddDaughter(mother); - mother->ConvertAliPIDtoAODPID(); - SetAODPID(esdTrackM,mother,detpid); - } - else { - // cerr << "Error: event " << esd.GetEventNumberInFile() << " kink " << TMath::Abs(ikink)-1 - // << " track " << imother << " has already been used!" << endl; - } - - // Add the kink vertex - AliESDkink * kink = esd.GetKink(TMath::Abs(ikink)-1); - - AliAODVertex * vkink = - new(Vertices()[fNumberOfVertices++]) AliAODVertex(kink->GetPosition(), - NULL, - 0., - mother, - esdTrack->GetID(), // This is the track ID of the mother's track! - AliAODVertex::kKink); - // Add the daughter track - - AliAODTrack * daughter = NULL; - - if (!fUsedTrack[idaughter]) { - - fUsedTrack[idaughter] = kTRUE; - - AliESDtrack *esdTrackD = esd.GetTrack(idaughter); - Double_t p[3] = { 0. }; - Double_t pos[3] = { 0. }; - - esdTrackD->GetPxPyPz(p); - esdTrackD->GetXYZ(pos); - esdTrackD->GetCovarianceXYZPxPyPz(covTr); - esdTrackD->GetESDpid(pid); - selectInfo = 0; - if (fTrackFilter) selectInfo = fTrackFilter->IsSelected(esdTrackD); - if(fMChandler)fMChandler->SelectParticle(esdTrackD->GetLabel()); - daughter = - new(Tracks()[fNumberOfTracks++]) AliAODTrack(esdTrackD->GetID(), - esdTrackD->GetLabel(), - p, - kTRUE, - pos, - kFALSE, - covTr, - (Short_t)esdTrackD->GetSign(), - esdTrackD->GetITSClusterMap(), - pid, - vkink, - kTRUE, // check if this is right - vtx->UsesTrack(esdTrack->GetID()), - AliAODTrack::kSecondary, - selectInfo); - daughter->SetTPCFitMap(esdTrackD->GetTPCFitMap()); - daughter->SetTPCClusterMap(esdTrackD->GetTPCClusterMap()); - daughter->SetTPCSharedMap (esdTrackD->GetTPCSharedMap()); - daughter->SetTPCPointsF(esdTrackD->GetTPCNclsF()); - fAODTrackRefs->AddAt(daughter, idaughter); - - if (esdTrackD->GetSign() > 0) ++fNumberOfPositiveTracks; - daughter->SetFlags(esdTrackD->GetStatus()); - daughter->ConvertAliPIDtoAODPID(); - vkink->AddDaughter(daughter); - daughter->ConvertAliPIDtoAODPID(); - SetAODPID(esdTrackD,daughter,detpid); - } - else { - // cerr << "Error: event " << esd.GetEventNumberInFile() << " kink " << TMath::Abs(ikink)-1 - // << " track " << idaughter << " has already been used!" << endl; - } - } - } - } - } -} - -//______________________________________________________________________________ -void AliAnalysisTaskESDfilter::ConvertPrimaryVertices(const AliESDEvent& esd) -{ - AliCodeTimerAuto("",0); - - // Access to the AOD container of vertices - fNumberOfVertices = 0; - - Double_t pos[3] = { 0. }; - Double_t covVtx[6] = { 0. }; - - // Add primary vertex. The primary tracks will be defined - // after the loops on the composite objects (V0, cascades, kinks) - const AliESDVertex *vtx = esd.GetPrimaryVertex(); - - vtx->GetXYZ(pos); // position - vtx->GetCovMatrix(covVtx); //covariance matrix - - fPrimaryVertex = new(Vertices()[fNumberOfVertices++]) - AliAODVertex(pos, covVtx, vtx->GetChi2toNDF(), NULL, -1, AliAODVertex::kPrimary); - fPrimaryVertex->SetName(vtx->GetName()); - fPrimaryVertex->SetTitle(vtx->GetTitle()); - - TString vtitle = vtx->GetTitle(); - if (!vtitle.Contains("VertexerTracks")) - fPrimaryVertex->SetNContributors(vtx->GetNContributors()); - - if (fDebug > 0) fPrimaryVertex->Print(); - - // Add SPD "main" vertex - const AliESDVertex *vtxS = esd.GetPrimaryVertexSPD(); - vtxS->GetXYZ(pos); // position - vtxS->GetCovMatrix(covVtx); //covariance matrix - AliAODVertex * mVSPD = new(Vertices()[fNumberOfVertices++]) - AliAODVertex(pos, covVtx, vtxS->GetChi2toNDF(), NULL, -1, AliAODVertex::kMainSPD); - mVSPD->SetName(vtxS->GetName()); - mVSPD->SetTitle(vtxS->GetTitle()); - mVSPD->SetNContributors(vtxS->GetNContributors()); - - // Add SPD pileup vertices - for(Int_t iV=0; iVGetXYZ(pos); // position - vtxP->GetCovMatrix(covVtx); //covariance matrix - AliAODVertex * pVSPD = new(Vertices()[fNumberOfVertices++]) - AliAODVertex(pos, covVtx, vtxP->GetChi2toNDF(), NULL, -1, AliAODVertex::kPileupSPD); - pVSPD->SetName(vtxP->GetName()); - pVSPD->SetTitle(vtxP->GetTitle()); - pVSPD->SetNContributors(vtxP->GetNContributors()); - pVSPD->SetBC(vtxP->GetBC()); - } - - // Add TRK pileup vertices - for(Int_t iV=0; iVGetXYZ(pos); // position - vtxP->GetCovMatrix(covVtx); //covariance matrix - AliAODVertex * pVTRK = new(Vertices()[fNumberOfVertices++]) - AliAODVertex(pos, covVtx, vtxP->GetChi2toNDF(), NULL, -1, AliAODVertex::kPileupTracks); - pVTRK->SetName(vtxP->GetName()); - pVTRK->SetTitle(vtxP->GetTitle()); - pVTRK->SetNContributors(vtxP->GetNContributors()); - pVTRK->SetBC(vtxP->GetBC()); - } -} - -//______________________________________________________________________________ -void AliAnalysisTaskESDfilter::ConvertVZERO(const AliESDEvent& esd) -{ - // Convert VZERO data - AliAODVZERO* vzeroData = AODEvent()->GetVZEROData(); - *vzeroData = *(esd.GetVZEROData()); -} - -//______________________________________________________________________________ -void AliAnalysisTaskESDfilter::ConvertTZERO(const AliESDEvent& esd) -{ - // Convert TZERO data - const AliESDTZERO* esdTzero = esd.GetESDTZERO(); - AliAODTZERO* aodTzero = AODEvent()->GetTZEROData(); - - for (Int_t icase=0; icase<3; icase++){ - aodTzero->SetT0TOF( icase, esdTzero->GetT0TOF(icase)); - aodTzero->SetT0TOFbest(icase, esdTzero->GetT0TOFbest(icase)); - } - aodTzero->SetBackgroundFlag(esdTzero->GetBackgroundFlag()); - aodTzero->SetPileupFlag(esdTzero->GetPileupFlag()); - aodTzero->SetSatelliteFlag(esdTzero->GetSatellite()); - -} - - -//______________________________________________________________________________ -void AliAnalysisTaskESDfilter::ConvertZDC(const AliESDEvent& esd) -{ - // Convert ZDC data - AliESDZDC* esdZDC = esd.GetZDCData(); - - const Double_t zem1Energy = esdZDC->GetZEM1Energy(); - const Double_t zem2Energy = esdZDC->GetZEM2Energy(); - - const Double_t *towZNC = esdZDC->GetZNCTowerEnergy(); - const Double_t *towZPC = esdZDC->GetZPCTowerEnergy(); - const Double_t *towZNA = esdZDC->GetZNATowerEnergy(); - const Double_t *towZPA = esdZDC->GetZPATowerEnergy(); - const Double_t *towZNCLG = esdZDC->GetZNCTowerEnergyLR(); - const Double_t *towZNALG = esdZDC->GetZNATowerEnergyLR(); - - AliAODZDC* zdcAOD = AODEvent()->GetZDCData(); - - zdcAOD->SetZEM1Energy(zem1Energy); - zdcAOD->SetZEM2Energy(zem2Energy); - zdcAOD->SetZNCTowers(towZNC, towZNCLG); - zdcAOD->SetZNATowers(towZNA, towZNALG); - zdcAOD->SetZPCTowers(towZPC); - zdcAOD->SetZPATowers(towZPA); - - zdcAOD->SetZDCParticipants(esdZDC->GetZDCParticipants(), esdZDC->GetZDCPartSideA(), esdZDC->GetZDCPartSideC()); - zdcAOD->SetZDCImpactParameter(esdZDC->GetImpactParameter(), esdZDC->GetImpactParamSideA(), - esdZDC->GetImpactParamSideC()); - zdcAOD->SetZDCTDCSum(esdZDC->GetZNTDCSum(0)); - zdcAOD->SetZDCTDCDiff(esdZDC->GetZNTDCDiff(0)); - -} - -//______________________________________________________________________________ -void AliAnalysisTaskESDfilter::ConvertESDtoAOD() -{ - // ESD Filter analysis task executed for each event - - AliESDEvent* esd = dynamic_cast(InputEvent()); - - if(!esd)return; - - AliCodeTimerAuto("",0); - - fOldESDformat = ( esd->GetAliESDOld() != 0x0 ); - - fNumberOfTracks = 0; - fNumberOfPositiveTracks = 0; - fNumberOfV0s = 0; - fNumberOfVertices = 0; - fNumberOfCascades = 0; - fNumberOfKinks = 0; - - AliAODHeader* header = ConvertHeader(*esd); - - if ( fIsVZEROEnabled ) ConvertVZERO(*esd); - if ( fIsTZEROEnabled ) ConvertTZERO(*esd); - - // Fetch Stack for debuggging if available - fMChandler=0x0; - if(MCEvent()) - { - fMChandler = (AliMCEventHandler*) ((AliAnalysisManager::GetAnalysisManager())->GetMCtruthEventHandler()); - } - - // loop over events and fill them - // Multiplicity information needed by the header (to be revised!) - Int_t nTracks = esd->GetNumberOfTracks(); - for (Int_t iTrack=0; iTrackGetTrack(iTrack)->SetESDEvent(esd); - - // Update the header - - Int_t nV0s = esd->GetNumberOfV0s(); - Int_t nCascades = esd->GetNumberOfCascades(); - Int_t nKinks = esd->GetNumberOfKinks(); - Int_t nVertices = nV0s + nCascades /*V0 wihtin cascade already counted*/+ nKinks + 1 /* = prim. vtx*/; - Int_t nPileSPDVertices=1+esd->GetNumberOfPileupVerticesSPD(); // also SPD main vertex - Int_t nPileTrkVertices=esd->GetNumberOfPileupVerticesTracks(); - nVertices+=nPileSPDVertices; - nVertices+=nPileTrkVertices; - Int_t nJets = 0; - Int_t nCaloClus = esd->GetNumberOfCaloClusters(); - Int_t nFmdClus = 0; - Int_t nPmdClus = esd->GetNumberOfPmdTracks(); - - AliDebug(1,Form(" NV0=%d NCASCADES=%d NKINKS=%d", nV0s, nCascades, nKinks)); - - AODEvent()->ResetStd(nTracks, nVertices, nV0s, nCascades, nJets, nCaloClus, nFmdClus, nPmdClus); - - if (nV0s > 0) - { - // RefArray to store a mapping between esd V0 number and newly created AOD-Vertex V0 - fAODV0VtxRefs = new TRefArray(nV0s); - // RefArray to store the mapping between esd V0 number and newly created AOD-V0 - fAODV0Refs = new TRefArray(nV0s); - // Array to take into account the V0s already added to the AOD (V0 within cascades) - fUsedV0 = new Bool_t[nV0s]; - for (Int_t iV0=0; iV00) - { - // RefArray to store the mapping between esd track number and newly created AOD-Track - - fAODTrackRefs = new TRefArray(nTracks); - - // Array to take into account the tracks already added to the AOD - fUsedTrack = new Bool_t[nTracks]; - for (Int_t iTrack=0; iTrack0) - { - fUsedKink = new Bool_t[nKinks]; - for (Int_t iKink=0; iKink(AliAnalysisManager::GetAnalysisManager()->GetInputEventHandler()); - if (esdH) - fESDpid = esdH->GetESDpid(); - - if (fIsPidOwner && fESDpid){ - delete fESDpid; - fESDpid = 0; - } - if(!fESDpid) - { //in case of no Tender attached - fESDpid = new AliESDpid; - fIsPidOwner = kTRUE; - } - - if(!esd->GetTOFHeader()) - { //protection in case the pass2 LHC10b,c,d have been processed without tender. - Float_t t0spread[10]; - Float_t intrinsicTOFres=100; //ps ok for LHC10b,c,d pass2!! - for (Int_t i=0; i<10; i++) t0spread[i] = (TMath::Sqrt(esd->GetSigma2DiamondZ()))/0.03; //0.03 to convert from cm to ps - fESDpid->GetTOFResponse().SetT0resolution(t0spread); - fESDpid->GetTOFResponse().SetTimeResolution(intrinsicTOFres); - - fESDpid->SetTOFResponse(esd, (AliESDpid::EStartTimeType_t)fTimeZeroType); - } - - if(esd->GetTOFHeader() && fIsPidOwner) fESDpid->SetTOFResponse(esd, (AliESDpid::EStartTimeType_t)fTimeZeroType); //in case of AOD production strating form LHC10e without Tender. - - if ( fAreCascadesEnabled ) ConvertCascades(*esd); - - if ( fAreV0sEnabled ) ConvertV0s(*esd); - - if ( fAreKinksEnabled ) ConvertKinks(*esd); - - if ( fAreTracksEnabled ) ConvertTracks(*esd); - - // Update number of AOD tracks in header at the end of track loop (M.G.) - header->SetRefMultiplicity(fNumberOfTracks); - header->SetRefMultiplicityPos(fNumberOfPositiveTracks); - header->SetRefMultiplicityNeg(fNumberOfTracks - fNumberOfPositiveTracks); - - if ( fTPCConstrainedFilterMask ) ConvertTPCOnlyTracks(*esd); - if( fGlobalConstrainedFilterMask) ConvertGlobalConstrainedTracks(*esd); - - if ( fArePmdClustersEnabled ) ConvertPmdClusters(*esd); - - if ( fAreCaloClustersEnabled ) ConvertCaloClusters(*esd); - - if ( fAreEMCALCellsEnabled )ConvertEMCALCells(*esd); - - if ( fArePHOSCellsEnabled )ConvertPHOSCells(*esd); - - if ( fAreEMCALTriggerEnabled )ConvertCaloTrigger(TString("EMCAL"), *esd); - - if ( fArePHOSTriggerEnabled )ConvertCaloTrigger(TString("PHOS"), *esd); - - if ( fAreTrackletsEnabled ) ConvertTracklets(*esd); - - delete fAODTrackRefs; fAODTrackRefs=0x0; - delete fAODV0VtxRefs; fAODV0VtxRefs=0x0; - delete fAODV0Refs; fAODV0Refs=0x0; - - delete[] fUsedTrack; fUsedTrack=0x0; - delete[] fUsedV0; fUsedV0=0x0; - delete[] fUsedKink; fUsedKink=0x0; - - if ( fIsPidOwner){ - delete fESDpid; - fESDpid = 0x0; - } - - -} - - -//______________________________________________________________________________ -void AliAnalysisTaskESDfilter::SetAODPID(AliESDtrack *esdtrack, AliAODTrack *aodtrack, AliAODPid *detpid) -{ - // - // Setter for the raw PID detector signals - // - - // Save PID object for candidate electrons - Bool_t pidSave = kFALSE; - if (fTrackFilter) { - Bool_t selectInfo = fTrackFilter->IsSelected((char*) "Electrons"); - if (selectInfo) pidSave = kTRUE; - } - - - // Tracks passing pt cut - if(esdtrack->Pt()>fHighPthreshold) { - pidSave = kTRUE; - } else { - if(fPtshape){ - if(esdtrack->Pt()> fPtshape->GetXmin()){ - Double_t y = fPtshape->Eval(esdtrack->Pt())/fPtshape->Eval(fHighPthreshold); - if(gRandom->Rndm(0)<1./y){ - pidSave = kTRUE; - }//end rndm - }//end if p < pmin - }//end if p function - }// end else - - if (pidSave) { - if(!aodtrack->GetDetPid()){// prevent memory leak when calling SetAODPID twice for the same track - detpid = new AliAODPid(); - SetDetectorRawSignals(detpid,esdtrack); - aodtrack->SetDetPID(detpid); - } - } -} - -//______________________________________________________________________________ -void AliAnalysisTaskESDfilter::SetDetectorRawSignals(AliAODPid *aodpid, AliESDtrack *track) -{ -// -//assignment of the detector signals (AliXXXesdPID inspired) -// - if(!track){ - AliInfo("no ESD track found. .....exiting"); - return; - } - // TPC momentum - const AliExternalTrackParam *in=track->GetInnerParam(); - if (in) { - aodpid->SetTPCmomentum(in->GetP()); - }else{ - aodpid->SetTPCmomentum(-1.); - } - - - aodpid->SetITSsignal(track->GetITSsignal()); - Double_t itsdedx[4]; // dE/dx samples for individual ITS layers - track->GetITSdEdxSamples(itsdedx); - aodpid->SetITSdEdxSamples(itsdedx); - - aodpid->SetTPCsignal(track->GetTPCsignal()); - aodpid->SetTPCsignalN(track->GetTPCsignalN()); - - //n TRD planes = 6 - Int_t nslices = track->GetNumberOfTRDslices()*6; - TArrayD trdslices(nslices); - for(Int_t iSl =0; iSl < track->GetNumberOfTRDslices(); iSl++) { - for(Int_t iPl =0; iPl<6; iPl++) trdslices[iPl*track->GetNumberOfTRDslices()+iSl] = track->GetTRDslice(iPl,iSl); - } - -//TRD momentum - for(Int_t iPl=0;iPl<6;iPl++){ - Double_t trdmom=track->GetTRDmomentum(iPl); - aodpid->SetTRDmomentum(iPl,trdmom); - } - - aodpid->SetTRDsignal(track->GetNumberOfTRDslices()*6,trdslices.GetArray()); - - //TRD clusters and tracklets - aodpid->SetTRDncls(track->GetTRDncls()); - aodpid->SetTRDntrackletsPID(track->GetTRDntrackletsPID()); - - //TOF PID - Double_t times[AliAODPid::kSPECIES]; track->GetIntegratedTimes(times); - aodpid->SetIntegratedTimes(times); - - Float_t tzeroTrack = fESDpid->GetTOFResponse().GetStartTime(track->P()); - aodpid->SetTOFsignal(track->GetTOFsignal()-tzeroTrack); - - Double_t tofRes[5]; - for (Int_t iMass=0; iMass<5; iMass++){ - tofRes[iMass]=(Double_t)fESDpid->GetTOFResponse().GetExpectedSigma(track->P(), times[iMass], AliPID::ParticleMass(iMass)); - } - aodpid->SetTOFpidResolution(tofRes); - - aodpid->SetHMPIDsignal(track->GetHMPIDsignal()); - - //Extrapolate track to EMCAL surface for AOD-level track-cluster matching - Double_t emcpos[3] = {0.,0.,0.}; - Double_t emcmom[3] = {0.,0.,0.}; - aodpid->SetEMCALPosition(emcpos); - aodpid->SetEMCALMomentum(emcmom); - - Double_t hmpPid[5] = {0}; - track->GetHMPIDpid(hmpPid); - aodpid->SetHMPIDprobs(hmpPid); - - AliExternalTrackParam *outerparam = (AliExternalTrackParam*)track->GetOuterParam(); - if(!outerparam) return; - - //To be replaced by call to AliEMCALGeoUtils when the class becomes available - Bool_t okpos = outerparam->GetXYZ(emcpos); - Bool_t okmom = outerparam->GetPxPyPz(emcmom); - if(!(okpos && okmom)) return; - - aodpid->SetEMCALPosition(emcpos); - aodpid->SetEMCALMomentum(emcmom); - -} - -Double_t AliAnalysisTaskESDfilter::Chi2perNDF(AliESDtrack* track) -{ - // Calculate chi2 per ndf for track - Int_t nClustersTPC = track->GetTPCNcls(); - - if ( nClustersTPC > 5) { - return (track->GetTPCchi2()/Float_t(nClustersTPC - 5)); - } else { - return (-1.); - } - } - - -//______________________________________________________________________________ -void AliAnalysisTaskESDfilter::Terminate(Option_t */*option*/) -{ -// Terminate analysis -// - if (fDebug > 1) printf("AnalysisESDfilter: Terminate() \n"); -} - -//______________________________________________________________________________ -void AliAnalysisTaskESDfilter::PrintMCInfo(AliStack *pStack,Int_t label){ -// Print MC info - if(!pStack)return; - label = TMath::Abs(label); - TParticle *part = pStack->Particle(label); - Printf("########################"); - Printf("%s:%d %d UniqueID %d PDG %d P %3.3f",(char*)__FILE__,__LINE__,label,part->GetUniqueID(),part->GetPdgCode(),part->P()); - part->Print(); - TParticle* mother = part; - Int_t imo = part->GetFirstMother(); - Int_t nprim = pStack->GetNprimary(); - // while((imo >= nprim) && (mother->GetUniqueID() == 4)) { - while((imo >= nprim)) { - mother = pStack->Particle(imo); - Printf("Mother %s:%d Label %d UniqueID %d PDG %d P %3.3f",(char*)__FILE__,__LINE__,imo,mother->GetUniqueID(),mother->GetPdgCode(),mother->P()); - mother->Print(); - imo = mother->GetFirstMother(); - } - Printf("########################"); -} +/************************************************************************** + * Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. * + * * + * Author: The ALICE Off-line Project. * + * Contributors are mentioned in the code where appropriate. * + * * + * Permission to use, copy, modify and distribute this software and its * + * documentation strictly for non-commercial purposes is hereby granted * + * without fee, provided that the above copyright notice appears in all * + * copies and that both the copyright notice and this permission notice * + * appear in the supporting documentation. The authors make no claims * + * about the suitability of this software for any purpose. It is * + * provided "as is" without express or implied warranty. * + **************************************************************************/ + +/* $Id$ */ + +#include +#include +#include +#include +#include +#include +#include +#include + +#include "AliAnalysisTaskESDfilter.h" +#include "AliAnalysisManager.h" +#include "AliESDEvent.h" +#include "AliESDRun.h" +#include "AliStack.h" +#include "AliAODEvent.h" +#include "AliMCEvent.h" +#include "AliMCEventHandler.h" +#include "AliESDInputHandler.h" +#include "AliAODHandler.h" +#include "AliAODMCParticle.h" +#include "AliAnalysisFilter.h" +#include "AliESDMuonTrack.h" +#include "AliESDVertex.h" +#include "AliCentrality.h" +#include "AliEventplane.h" +#include "AliESDv0.h" +#include "AliESDkink.h" +#include "AliESDcascade.h" +#include "AliESDPmdTrack.h" +#include "AliESDCaloCluster.h" +#include "AliESDCaloCells.h" +#include "AliMultiplicity.h" +#include "AliLog.h" +#include "AliCodeTimer.h" +#include "AliESDtrackCuts.h" +#include "AliESDpid.h" +#include "AliAODHMPIDrings.h" +#include "AliV0vertexer.h" +#include "AliCascadeVertexer.h" +#include "Riostream.h" +#include "AliExternalTrackParam.h" +#include "AliTrackerBase.h" +#include "TVector3.h" +#include "AliTPCdEdxInfo.h" + +#include "AliESDTrdTrack.h" +#include "AliESDTrdTracklet.h" +#include "AliAODTrdTrack.h" +#include "AliAODTrdTracklet.h" + +using std::cout; +using std::endl; +ClassImp(AliAnalysisTaskESDfilter) + +//////////////////////////////////////////////////////////////////////// + +AliAnalysisTaskESDfilter::AliAnalysisTaskESDfilter(): + AliAnalysisTaskSE(), + fTrackFilter(0x0), + fKinkFilter(0x0), + fV0Filter(0x0), + fCascadeFilter(0x0), + fHighPthreshold(0), + fPtshape(0x0), + fEnableFillAOD(kTRUE), + fUsedTrack(0x0), + fUsedTrackCopy(0x0), + fUsedKink(0x0), + fUsedV0(0x0), + fAODTrackRefs(0x0), + fAODV0VtxRefs(0x0), + fAODV0Refs(0x0), + fMChandler(0x0), + fNumberOfTracks(0), + fNumberOfPositiveTracks(0), + fNumberOfV0s(0), + fNumberOfVertices(0), + fNumberOfCascades(0), + fNumberOfKinks(0), + fOldESDformat(kFALSE), + fPrimaryVertex(0x0), + fTPCConstrainedFilterMask(0), + fHybridFilterMaskTPCCG(0), + fWriteHybridTPCCOnly(kFALSE), + fGlobalConstrainedFilterMask(0), + fHybridFilterMaskGCG(0), + fWriteHybridGCOnly(kFALSE), + fIsVZEROEnabled(kTRUE), + fIsTZEROEnabled(kTRUE), + fIsZDCEnabled(kTRUE), + fIsHMPIDEnabled(kTRUE), + fIsV0CascadeRecoEnabled(kFALSE), + fAreCascadesEnabled(kTRUE), + fAreV0sEnabled(kTRUE), + fAreKinksEnabled(kTRUE), + fAreTracksEnabled(kTRUE), + fArePmdClustersEnabled(kTRUE), + fAreCaloClustersEnabled(kTRUE), + fAreEMCALCellsEnabled(kTRUE), + fArePHOSCellsEnabled(kTRUE), + fAreEMCALTriggerEnabled(kTRUE), + fArePHOSTriggerEnabled(kTRUE), + fAreTrackletsEnabled(kTRUE), + fIsTRDEnabled(kTRUE), + fESDpid(0x0), + fIsPidOwner(kFALSE), + fTPCaloneTrackCuts(0), + fDoPropagateTrackToEMCal(kTRUE), + fEMCalSurfaceDistance(440) +{ + // Default constructor + fV0Cuts[0] = 33. ; // max allowed chi2 + fV0Cuts[1] = 0.1 ; // min allowed impact parameter for the 1st daughter + fV0Cuts[2] = 0.1 ; // min allowed impact parameter for the 2nd daughter + fV0Cuts[3] = 1. ; // max allowed DCA between the daughter tracks + fV0Cuts[4] = .998; // min allowed cosine of V0's pointing angle + fV0Cuts[5] = 0.9 ; // min radius of the fiducial volume + fV0Cuts[6] = 100. ; // max radius of the fiducial volume + + fCascadeCuts[0] = 33. ; // max allowed chi2 (same as PDC07) + fCascadeCuts[1] = 0.05 ; // min allowed V0 impact parameter + fCascadeCuts[2] = 0.008; // "window" around the Lambda mass + fCascadeCuts[3] = 0.03 ; // min allowed bachelor's impact parameter + fCascadeCuts[4] = 0.3 ; // max allowed DCA between the V0 and the bachelor + fCascadeCuts[5] = 0.999; // min allowed cosine of the cascade pointing angle + fCascadeCuts[6] = 0.9 ; // min radius of the fiducial volume + fCascadeCuts[7] = 100. ; // max radius of the fiducial volume +} + +//______________________________________________________________________________ +AliAnalysisTaskESDfilter::AliAnalysisTaskESDfilter(const char* name): + AliAnalysisTaskSE(name), + fTrackFilter(0x0), + fKinkFilter(0x0), + fV0Filter(0x0), + fCascadeFilter(0x0), + fHighPthreshold(0), + fPtshape(0x0), + fEnableFillAOD(kTRUE), + fUsedTrack(0x0), + fUsedTrackCopy(0x0), + fUsedKink(0x0), + fUsedV0(0x0), + fAODTrackRefs(0x0), + fAODV0VtxRefs(0x0), + fAODV0Refs(0x0), + fMChandler(0x0), + fNumberOfTracks(0), + fNumberOfPositiveTracks(0), + fNumberOfV0s(0), + fNumberOfVertices(0), + fNumberOfCascades(0), + fNumberOfKinks(0), + fOldESDformat(kFALSE), + fPrimaryVertex(0x0), + fTPCConstrainedFilterMask(0), + fHybridFilterMaskTPCCG(0), + fWriteHybridTPCCOnly(kFALSE), + fGlobalConstrainedFilterMask(0), + fHybridFilterMaskGCG(0), + fWriteHybridGCOnly(kFALSE), + fIsVZEROEnabled(kTRUE), + fIsTZEROEnabled(kTRUE), + fIsZDCEnabled(kTRUE), + fIsHMPIDEnabled(kTRUE), + fIsV0CascadeRecoEnabled(kFALSE), + fAreCascadesEnabled(kTRUE), + fAreV0sEnabled(kTRUE), + fAreKinksEnabled(kTRUE), + fAreTracksEnabled(kTRUE), + fArePmdClustersEnabled(kTRUE), + fAreCaloClustersEnabled(kTRUE), + fAreEMCALCellsEnabled(kTRUE), + fArePHOSCellsEnabled(kTRUE), + fAreEMCALTriggerEnabled(kTRUE), + fArePHOSTriggerEnabled(kTRUE), + fAreTrackletsEnabled(kTRUE), + fIsTRDEnabled(kTRUE), + fESDpid(0x0), + fIsPidOwner(kFALSE), + fTPCaloneTrackCuts(0), + fDoPropagateTrackToEMCal(kTRUE), + fEMCalSurfaceDistance(440) +{ + // Constructor + + fV0Cuts[0] = 33. ; // max allowed chi2 + fV0Cuts[1] = 0.1 ; // min allowed impact parameter for the 1st daughter + fV0Cuts[2] = 0.1 ; // min allowed impact parameter for the 2nd daughter + fV0Cuts[3] = 1. ; // max allowed DCA between the daughter tracks + fV0Cuts[4] = .998; // min allowed cosine of V0's pointing angle + fV0Cuts[5] = 0.9 ; // min radius of the fiducial volume + fV0Cuts[6] = 100. ; // max radius of the fiducial volume + + fCascadeCuts[0] = 33. ; // max allowed chi2 (same as PDC07) + fCascadeCuts[1] = 0.05 ; // min allowed V0 impact parameter + fCascadeCuts[2] = 0.008; // "window" around the Lambda mass + fCascadeCuts[3] = 0.03 ; // min allowed bachelor's impact parameter + fCascadeCuts[4] = 0.3 ; // max allowed DCA between the V0 and the bachelor + fCascadeCuts[5] = 0.999; // min allowed cosine of the cascade pointing angle + fCascadeCuts[6] = 0.9 ; // min radius of the fiducial volume + fCascadeCuts[7] = 100. ; // max radius of the fiducial volume + + + +} +AliAnalysisTaskESDfilter::~AliAnalysisTaskESDfilter(){ + if(fIsPidOwner) delete fESDpid; +} +//______________________________________________________________________________ +void AliAnalysisTaskESDfilter::UserCreateOutputObjects() +{ + // + // Create Output Objects conenct filter to outputtree + // + if(OutputTree()) + { + OutputTree()->GetUserInfo()->Add(fTrackFilter); + } + else + { + AliError("No OutputTree() for adding the track filter"); + } + fTPCaloneTrackCuts = AliESDtrackCuts::GetStandardTPCOnlyTrackCuts(); +} + +//______________________________________________________________________________ +void AliAnalysisTaskESDfilter::Init() +{ + // Initialization + if (fDebug > 1) AliInfo("Init() \n"); + // Call configuration file +} + +//______________________________________________________________________________ +Bool_t AliAnalysisTaskESDfilter::Notify() +{ +// Notify method. + AddMetadataToUserInfo(); + return kTRUE; +} + +//______________________________________________________________________________ +Bool_t AliAnalysisTaskESDfilter::AddMetadataToUserInfo() +{ +// Copy metadata to AOD user info. + static Bool_t copyFirst = kFALSE; + if (!copyFirst) { + AliAnalysisManager *mgr = AliAnalysisManager::GetAnalysisManager(); + if (!mgr) { + AliError("AliAnalysisTaskESDfilter::AddMetadataToUserInfo() : No analysis manager !"); + return kFALSE; + } + TTree *esdTree = mgr->GetTree()->GetTree(); + if (!esdTree) return kFALSE; + TNamed *alirootVersion = (TNamed*)esdTree->GetUserInfo()->FindObject("alirootVersion"); + if (!alirootVersion) return kFALSE; + AliAODHandler *aodHandler = dynamic_cast(mgr->GetOutputEventHandler()); + if (!aodHandler) return kFALSE; + TTree *aodTree = aodHandler->GetTree(); + if (!aodTree) return kFALSE; + aodTree->GetUserInfo()->Add(new TNamed(*alirootVersion)); + copyFirst = kTRUE; + } + return kTRUE; +} + +//______________________________________________________________________________ +void AliAnalysisTaskESDfilter::PrintTask(Option_t *option, Int_t indent) const +{ +// Print selection task information + AliInfo(""); + + AliAnalysisTaskSE::PrintTask(option,indent); + + TString spaces(' ',indent+3); + + cout << spaces.Data() << Form("Cascades are %s",fAreCascadesEnabled ? "ENABLED":"DISABLED") << endl; + cout << spaces.Data() << Form("V0s are %s",fAreV0sEnabled ? "ENABLED":"DISABLED") << endl; + cout << spaces.Data() << Form("Kinks are %s",fAreKinksEnabled ? "ENABLED":"DISABLED") << endl; + cout << spaces.Data() << Form("Tracks are %s",fAreTracksEnabled ? "ENABLED":"DISABLED") << endl; + cout << spaces.Data() << Form("PmdClusters are %s",fArePmdClustersEnabled ? "ENABLED":"DISABLED") << endl; + cout << spaces.Data() << Form("CaloClusters are %s",fAreCaloClustersEnabled ? "ENABLED":"DISABLED") << endl; + cout << spaces.Data() << Form("EMCAL cells are %s",fAreEMCALCellsEnabled ? "ENABLED":"DISABLED") << endl; + cout << spaces.Data() << Form("EMCAL triggers are %s",fAreEMCALTriggerEnabled ? "ENABLED":"DISABLED") << endl; + cout << spaces.Data() << Form("PHOS triggers are %s",fArePHOSTriggerEnabled ? "ENABLED":"DISABLED") << endl; + cout << spaces.Data() << Form("Tracklets are %s",fAreTrackletsEnabled ? "ENABLED":"DISABLED") << endl; + cout << spaces.Data() << Form("PropagateTrackToEMCal is %s", fDoPropagateTrackToEMCal ? "ENABLED":"DISABLED") << endl; +} + +//______________________________________________________________________________ +void AliAnalysisTaskESDfilter::UserExec(Option_t */*option*/) +{ +// Execute analysis for current event +// + + Long64_t ientry = Entry(); + + if (fDebug > 0) { + printf("Filter: Analysing event # %5d\n", (Int_t) ientry); + if (fHighPthreshold == 0) AliInfo("detector PID signals are stored in each track"); + if (!fPtshape) AliInfo("detector PID signals are not stored below the pt threshold"); + } + // Filters must explicitely enable AOD filling in their UserExec (AG) + if (!AliAnalysisManager::GetAnalysisManager()->GetOutputEventHandler()) AliFatal("Cannot run ESD filter without an output event handler"); + if(fEnableFillAOD) { + AliAnalysisManager::GetAnalysisManager()->GetOutputEventHandler()->SetFillAOD(kTRUE); + AliAnalysisManager::GetAnalysisManager()->GetOutputEventHandler()->SetFillExtension(kTRUE); + } + ConvertESDtoAOD(); +} + +//______________________________________________________________________________ +TClonesArray& AliAnalysisTaskESDfilter::Cascades() +{ + return *(AODEvent()->GetCascades()); +} + +//______________________________________________________________________________ +TClonesArray& AliAnalysisTaskESDfilter::Tracks() +{ + return *(AODEvent()->GetTracks()); +} + +//______________________________________________________________________________ +TClonesArray& AliAnalysisTaskESDfilter::V0s() +{ + return *(AODEvent()->GetV0s()); +} + +//______________________________________________________________________________ +TClonesArray& AliAnalysisTaskESDfilter::Vertices() +{ + return *(AODEvent()->GetVertices()); +} + +//______________________________________________________________________________ +AliAODHeader* AliAnalysisTaskESDfilter::ConvertHeader(const AliESDEvent& esd) +{ +// Convert header information + + AliCodeTimerAuto("",0); + + AliAODHeader* header = AODEvent()->GetHeader(); + + header->SetRunNumber(esd.GetRunNumber()); + header->SetOfflineTrigger(fInputHandler->IsEventSelected()); // propagate the decision of the physics selection + header->SetNumberOfESDTracks(esd.GetNumberOfTracks()); + + TTree* tree = fInputHandler->GetTree(); + if (tree) { + TFile* file = tree->GetCurrentFile(); + if (file) header->SetESDFileName(file->GetName()); + } + + if (fOldESDformat) { + header->SetBunchCrossNumber(0); + header->SetOrbitNumber(0); + header->SetPeriodNumber(0); + header->SetEventType(0); + header->SetMuonMagFieldScale(-999.); + header->SetCentrality(0); + header->SetEventplane(0); + } else { + header->SetBunchCrossNumber(esd.GetBunchCrossNumber()); + header->SetOrbitNumber(esd.GetOrbitNumber()); + header->SetPeriodNumber(esd.GetPeriodNumber()); + header->SetEventType(esd.GetEventType()); + + header->SetEventNumberESDFile(esd.GetHeader()->GetEventNumberInFile()); + if(const_cast(esd).GetCentrality()){ + header->SetCentrality(const_cast(esd).GetCentrality()); + } + else{ + header->SetCentrality(0); + } + if(const_cast(esd).GetEventplane()){ + header->SetEventplane(const_cast(esd).GetEventplane()); + } + else{ + header->SetEventplane(0); + } + } + + // Trigger + header->SetFiredTriggerClasses(esd.GetFiredTriggerClasses()); + header->SetTriggerMask(esd.GetTriggerMask()); + header->SetTriggerCluster(esd.GetTriggerCluster()); + header->SetL0TriggerInputs(esd.GetHeader()->GetL0TriggerInputs()); + header->SetL1TriggerInputs(esd.GetHeader()->GetL1TriggerInputs()); + header->SetL2TriggerInputs(esd.GetHeader()->GetL2TriggerInputs()); + + header->SetMagneticField(esd.GetMagneticField()); + header->SetMuonMagFieldScale(esd.GetCurrentDip()/6000.); + header->SetZDCN1Energy(esd.GetZDCN1Energy()); + header->SetZDCP1Energy(esd.GetZDCP1Energy()); + header->SetZDCN2Energy(esd.GetZDCN2Energy()); + header->SetZDCP2Energy(esd.GetZDCP2Energy()); + header->SetZDCEMEnergy(esd.GetZDCEMEnergy(0),esd.GetZDCEMEnergy(1)); + + header->SetIRInt2InteractionMap(esd.GetHeader()->GetIRInt2InteractionMap()); + header->SetIRInt1InteractionMap(esd.GetHeader()->GetIRInt1InteractionMap()); + + // ITS Cluster Multiplicty + const AliMultiplicity *mult = esd.GetMultiplicity(); + for (Int_t ilay = 0; ilay < 6; ilay++) header->SetITSClusters(ilay, mult->GetNumberOfITSClusters(ilay)); + + // TPC only Reference Multiplicty + Int_t refMult = fTPCaloneTrackCuts ? (Short_t)fTPCaloneTrackCuts->GetReferenceMultiplicity(&esd, kTRUE) : -1; + header->SetTPConlyRefMultiplicity(refMult); + // + AliESDtrackCuts::MultEstTrackType estType = esd.GetPrimaryVertexTracks()->GetStatus() ? AliESDtrackCuts::kTrackletsITSTPC : AliESDtrackCuts::kTracklets; + header->SetRefMultiplicityComb05(AliESDtrackCuts::GetReferenceMultiplicity(&esd,estType,0.5)); + header->SetRefMultiplicityComb08(AliESDtrackCuts::GetReferenceMultiplicity(&esd,estType,0.8)); + // + Float_t diamxy[2]={esd.GetDiamondX(),esd.GetDiamondY()}; + Float_t diamcov[3]; + esd.GetDiamondCovXY(diamcov); + header->SetDiamond(diamxy,diamcov); + header->SetDiamondZ(esd.GetDiamondZ(),esd.GetSigma2DiamondZ()); + + // VZERO channel equalization factors for event-plane reconstruction + header->SetVZEROEqFactors(esd.GetVZEROEqFactors()); + + // T0 Resolution information + const AliESDRun* esdRun = esd.GetESDRun(); + for (Int_t i=0;iSetT0spread(i,esdRun->GetT0spread(i)); + + return header; +} + +//______________________________________________________________________________ +void AliAnalysisTaskESDfilter::ConvertCascades(const AliESDEvent& esd) +{ + + // Convert the cascades part of the ESD. + // Return the number of cascades + + AliCodeTimerAuto("",0); + + // Create vertices starting from the most complex objects + Double_t chi2 = 0.; + + const AliESDVertex* vtx = esd.GetPrimaryVertex(); + Double_t pos[3] = { 0. }; + Double_t covVtx[6] = { 0. }; + Double_t momBach[3]={0.}; + Double_t covTr[21]={0.}; + Double_t pid[10]={0.}; + AliAODPid* detpid(0x0); + AliAODVertex* vV0FromCascade(0x0); + AliAODv0* aodV0(0x0); + AliAODcascade* aodCascade(0x0); + AliAODTrack* aodTrack(0x0); + Double_t momPos[3]={0.}; + Double_t momNeg[3] = { 0. }; + Double_t momPosAtV0vtx[3]={0.}; + Double_t momNegAtV0vtx[3]={0.}; + Int_t tofLabel[3] = {0}; + TClonesArray& verticesArray = Vertices(); + TClonesArray& tracksArray = Tracks(); + TClonesArray& cascadesArray = Cascades(); + + // Cascades (Modified by A.Maire - February 2009) + for (Int_t nCascade = 0; nCascade < esd.GetNumberOfCascades(); ++nCascade) { + + // 0- Preparation + // + AliESDcascade *esdCascade = esd.GetCascade(nCascade); + Int_t idxPosFromV0Dghter = esdCascade->GetPindex(); + Int_t idxNegFromV0Dghter = esdCascade->GetNindex(); + Int_t idxBachFromCascade = esdCascade->GetBindex(); + + AliESDtrack *esdCascadePos = esd.GetTrack( idxPosFromV0Dghter); + AliESDtrack *esdCascadeNeg = esd.GetTrack( idxNegFromV0Dghter); + AliESDtrack *esdCascadeBach = esd.GetTrack( idxBachFromCascade); + + // Identification of the V0 within the esdCascade (via both daughter track indices) + AliESDv0 * currentV0 = 0x0; + Int_t idxV0FromCascade = -1; + + for (Int_t iV0=0; iV0GetPindex(); + Int_t negCurrentV0 = currentV0->GetNindex(); + + if (posCurrentV0==idxPosFromV0Dghter && negCurrentV0==idxNegFromV0Dghter) { + idxV0FromCascade = iV0; + break; + } + } + + if(idxV0FromCascade < 0){ + printf("Cascade - no matching for the V0 (index V0 = -1) ! Skip ... \n"); + continue; + }// a priori, useless check, but safer ... in case of pb with tracks "out of bounds" + + AliESDv0 *esdV0FromCascade = esd.GetV0(idxV0FromCascade); + + // 1 - Cascade selection + + // AliESDVertex *esdPrimVtx = new AliESDVertex(*(esd.GetPrimaryVertex())); + // TList cascadeObjects; + // cascadeObjects.AddAt(esdV0FromCascade, 0); + // cascadeObjects.AddAt(esdCascadePos, 1); + // cascadeObjects.AddAt(esdCascadeNeg, 2); + // cascadeObjects.AddAt(esdCascade, 3); + // cascadeObjects.AddAt(esdCascadeBach, 4); + // cascadeObjects.AddAt(esdPrimVtx, 5); + // + // UInt_t selectCascade = 0; + // if (fCascadeFilter) { + // // selectCascade = fCascadeFilter->IsSelected(&cascadeObjects); + // // FIXME AliESDCascadeCuts to be implemented ... + // + // // Here we may encounter a moot point at the V0 level + // // between the cascade selections and the V0 ones : + // // the V0 selected along with the cascade (secondary V0) may + // // usually be removed from the dedicated V0 selections (prim V0) ... + // // -> To be discussed ! + // + // // this is a little awkward but otherwise the + // // list wants to access the pointer (delete it) + // // again when going out of scope + // delete cascadeObjects.RemoveAt(5); // esdPrimVtx created via copy construct + // esdPrimVtx = 0; + // if (!selectCascade) + // continue; + // } + // else{ + // delete cascadeObjects.RemoveAt(5); // esdPrimVtx created via copy construct + // esdPrimVtx = 0; + // } + + // 2 - Add the cascade vertex + + esdCascade->GetXYZcascade(pos[0], pos[1], pos[2]); + esdCascade->GetPosCovXi(covVtx); + chi2 = esdCascade->GetChi2Xi(); + + AliAODVertex *vCascade = new(verticesArray[fNumberOfVertices++]) AliAODVertex( pos, + covVtx, + chi2, // FIXME = Chi2/NDF will be needed + fPrimaryVertex, + nCascade, // id + AliAODVertex::kCascade); + fPrimaryVertex->AddDaughter(vCascade); + +// if (fDebug > 2) { +// printf("---- Cascade / Cascade Vertex (AOD) : \n"); +// vCascade->Print(); +// } + +// if(esd.GetTOFHeader() && fIsPidOwner) fESDpid->SetTOFResponse(const_cast(&esd), (AliESDpid::EStartTimeType_t)fTimeZeroType); //in case of AOD production starting form LHC10e without Tender. + + + // 3 - Add the bachelor track from the cascade + + if (!fUsedTrack[idxBachFromCascade]) { + + esdCascadeBach->GetPxPyPz(momBach); + esdCascadeBach->GetXYZ(pos); + esdCascadeBach->GetCovarianceXYZPxPyPz(covTr); + esdCascadeBach->GetESDpid(pid); + esdCascadeBach->GetTOFLabel(tofLabel); + + fUsedTrack[idxBachFromCascade] = kTRUE; + UInt_t selectInfo = 0; + if (fTrackFilter) selectInfo = fTrackFilter->IsSelected(esdCascadeBach); + if (fMChandler) fMChandler->SelectParticle(esdCascadeBach->GetLabel()); + aodTrack = new(tracksArray[fNumberOfTracks++]) AliAODTrack(esdCascadeBach->GetID(), + esdCascadeBach->GetLabel(), + momBach, + kTRUE, + pos, + kFALSE, // Why kFALSE for "isDCA" ? FIXME + covTr, + (Short_t)esdCascadeBach->GetSign(), + esdCascadeBach->GetITSClusterMap(), + pid, + vCascade, + kTRUE, // usedForVtxFit = kFALSE ? FIXME + vtx->UsesTrack(esdCascadeBach->GetID()), + AliAODTrack::kSecondary, + selectInfo); + aodTrack->SetTPCFitMap(esdCascadeBach->GetTPCFitMap()); + aodTrack->SetTPCClusterMap(esdCascadeBach->GetTPCClusterMap()); + aodTrack->SetTPCSharedMap (esdCascadeBach->GetTPCSharedMap()); + aodTrack->SetChi2perNDF(Chi2perNDF(esdCascadeBach)); + aodTrack->SetTPCPointsF(esdCascadeBach->GetTPCNclsF()); + aodTrack->SetTPCNCrossedRows(UShort_t(esdCascadeBach->GetTPCCrossedRows())); + aodTrack->SetIntegratedLength(esdCascadeBach->GetIntegratedLength()); + aodTrack->SetTOFLabel(tofLabel); + fAODTrackRefs->AddAt(aodTrack,idxBachFromCascade); + + if (esdCascadeBach->GetSign() > 0) ++fNumberOfPositiveTracks; + aodTrack->ConvertAliPIDtoAODPID(); + aodTrack->SetFlags(esdCascadeBach->GetStatus()); + SetAODPID(esdCascadeBach,aodTrack,detpid); + } + else { + aodTrack = static_cast( fAODTrackRefs->At(idxBachFromCascade) ); + } + + vCascade->AddDaughter(aodTrack); + +// if (fDebug > 4) { +// printf("---- Cascade / bach dghter : \n"); +// aodTrack->Print(); +// } + + + // 4 - Add the V0 from the cascade. + // = V0vtx + both pos and neg daughter tracks + the aodV0 itself + // + + if ( !fUsedV0[idxV0FromCascade] ) { + // 4.A - if VO structure hasn't been created yet + + // 4.A.1 - Create the V0 vertex of the cascade + + esdV0FromCascade->GetXYZ(pos[0], pos[1], pos[2]); + esdV0FromCascade->GetPosCov(covVtx); + chi2 = esdV0FromCascade->GetChi2V0(); // = chi2/NDF since NDF = 2*2-3 ? + + vV0FromCascade = new(verticesArray[fNumberOfVertices++]) AliAODVertex(pos, + covVtx, + chi2, + vCascade, + idxV0FromCascade, //id of ESDv0 + AliAODVertex::kV0); + // Note: + // one V0 can be used by several cascades. + // So, one AOD V0 vtx can have several parent vtx. + // This is not directly allowed by AliAODvertex. + // Setting the parent vtx (here = param "vCascade") doesn't lead to a crash + // but to a problem of consistency within AODEvent. + // -> See below paragraph 4.B, for the proposed treatment of such a case. + + // Add the vV0FromCascade to the aodVOVtxRefs + fAODV0VtxRefs->AddAt(vV0FromCascade,idxV0FromCascade); + + + // 4.A.2 - Add the positive tracks from the V0 + + esdCascadePos->GetPxPyPz(momPos); + esdCascadePos->GetXYZ(pos); + esdCascadePos->GetCovarianceXYZPxPyPz(covTr); + esdCascadePos->GetESDpid(pid); + esdCascadePos->GetTOFLabel(tofLabel); + + if (!fUsedTrack[idxPosFromV0Dghter]) { + fUsedTrack[idxPosFromV0Dghter] = kTRUE; + + UInt_t selectInfo = 0; + if (fTrackFilter) selectInfo = fTrackFilter->IsSelected(esdCascadePos); + if(fMChandler) fMChandler->SelectParticle(esdCascadePos->GetLabel()); + aodTrack = new(tracksArray[fNumberOfTracks++]) + AliAODTrack( esdCascadePos->GetID(), + esdCascadePos->GetLabel(), + momPos, + kTRUE, + pos, + kFALSE, // Why kFALSE for "isDCA" ? FIXME + covTr, + (Short_t)esdCascadePos->GetSign(), + esdCascadePos->GetITSClusterMap(), + pid, + vV0FromCascade, + kTRUE, // usedForVtxFit = kFALSE ? FIXME + vtx->UsesTrack(esdCascadePos->GetID()), + AliAODTrack::kSecondary, + selectInfo); + aodTrack->SetTPCFitMap(esdCascadePos->GetTPCFitMap()); + aodTrack->SetTPCClusterMap(esdCascadePos->GetTPCClusterMap()); + aodTrack->SetTPCSharedMap (esdCascadePos->GetTPCSharedMap()); + aodTrack->SetChi2perNDF(Chi2perNDF(esdCascadePos)); + aodTrack->SetTPCPointsF(esdCascadePos->GetTPCNclsF()); + aodTrack->SetTPCNCrossedRows(UShort_t(esdCascadePos->GetTPCCrossedRows())); + aodTrack->SetIntegratedLength(esdCascadePos->GetIntegratedLength()); + aodTrack->SetTOFLabel(tofLabel); + fAODTrackRefs->AddAt(aodTrack,idxPosFromV0Dghter); + + if (esdCascadePos->GetSign() > 0) ++fNumberOfPositiveTracks; + aodTrack->ConvertAliPIDtoAODPID(); + aodTrack->SetFlags(esdCascadePos->GetStatus()); + SetAODPID(esdCascadePos,aodTrack,detpid); + } + else { + aodTrack = static_cast(fAODTrackRefs->At(idxPosFromV0Dghter)); + } + vV0FromCascade->AddDaughter(aodTrack); + + + // 4.A.3 - Add the negative tracks from the V0 + + esdCascadeNeg->GetPxPyPz(momNeg); + esdCascadeNeg->GetXYZ(pos); + esdCascadeNeg->GetCovarianceXYZPxPyPz(covTr); + esdCascadeNeg->GetESDpid(pid); + esdCascadeNeg->GetTOFLabel(tofLabel); + + + if (!fUsedTrack[idxNegFromV0Dghter]) { + fUsedTrack[idxNegFromV0Dghter] = kTRUE; + + UInt_t selectInfo = 0; + if (fTrackFilter) selectInfo = fTrackFilter->IsSelected(esdCascadeNeg); + if(fMChandler)fMChandler->SelectParticle(esdCascadeNeg->GetLabel()); + aodTrack = new(tracksArray[fNumberOfTracks++]) AliAODTrack( esdCascadeNeg->GetID(), + esdCascadeNeg->GetLabel(), + momNeg, + kTRUE, + pos, + kFALSE, // Why kFALSE for "isDCA" ? FIXME + covTr, + (Short_t)esdCascadeNeg->GetSign(), + esdCascadeNeg->GetITSClusterMap(), + pid, + vV0FromCascade, + kTRUE, // usedForVtxFit = kFALSE ? FIXME + vtx->UsesTrack(esdCascadeNeg->GetID()), + AliAODTrack::kSecondary, + selectInfo); + aodTrack->SetTPCFitMap(esdCascadeNeg->GetTPCFitMap()); + aodTrack->SetTPCClusterMap(esdCascadeNeg->GetTPCClusterMap()); + aodTrack->SetTPCSharedMap (esdCascadeNeg->GetTPCSharedMap()); + aodTrack->SetChi2perNDF(Chi2perNDF(esdCascadeNeg)); + aodTrack->SetTPCPointsF(esdCascadeNeg->GetTPCNclsF()); + aodTrack->SetTPCNCrossedRows(UShort_t(esdCascadeNeg->GetTPCCrossedRows())); + aodTrack->SetIntegratedLength(esdCascadeNeg->GetIntegratedLength()); + aodTrack->SetTOFLabel(tofLabel); + fAODTrackRefs->AddAt(aodTrack,idxNegFromV0Dghter); + + if (esdCascadeNeg->GetSign() > 0) ++fNumberOfPositiveTracks; + aodTrack->ConvertAliPIDtoAODPID(); + aodTrack->SetFlags(esdCascadeNeg->GetStatus()); + SetAODPID(esdCascadeNeg,aodTrack,detpid); + } + else { + aodTrack = static_cast(fAODTrackRefs->At(idxNegFromV0Dghter)); + } + + vV0FromCascade->AddDaughter(aodTrack); + + + // 4.A.4 - Add the V0 from cascade to the V0 array + + Double_t dcaV0Daughters = esdV0FromCascade->GetDcaV0Daughters(); + Double_t dcaV0ToPrimVertex = esdV0FromCascade->GetD( esd.GetPrimaryVertex()->GetX(), + esd.GetPrimaryVertex()->GetY(), + esd.GetPrimaryVertex()->GetZ() ); + esdV0FromCascade->GetPPxPyPz( momPosAtV0vtx[0],momPosAtV0vtx[1],momPosAtV0vtx[2] ); + esdV0FromCascade->GetNPxPyPz( momNegAtV0vtx[0],momNegAtV0vtx[1],momNegAtV0vtx[2] ); + + Double_t dcaDaughterToPrimVertex[2] = { 999., 999.}; // ..[0] = DCA in (x,y) for Pos and ..[1] = Neg + dcaDaughterToPrimVertex[0] = TMath::Abs(esdCascadePos->GetD( esd.GetPrimaryVertex()->GetX(), + esd.GetPrimaryVertex()->GetY(), + esd.GetMagneticField()) ); + dcaDaughterToPrimVertex[1] = TMath::Abs(esdCascadeNeg->GetD( esd.GetPrimaryVertex()->GetX(), + esd.GetPrimaryVertex()->GetY(), + esd.GetMagneticField()) ); + + aodV0 = new(V0s()[fNumberOfV0s++]) AliAODv0( vV0FromCascade, + dcaV0Daughters, + dcaV0ToPrimVertex, + momPosAtV0vtx, + momNegAtV0vtx, + dcaDaughterToPrimVertex); + // set the aod v0 on-the-fly status + aodV0->SetOnFlyStatus(esdV0FromCascade->GetOnFlyStatus()); + + // Add the aodV0 to the aodVORefs + fAODV0Refs->AddAt(aodV0,idxV0FromCascade); + + fUsedV0[idxV0FromCascade] = kTRUE; + + } else { + // 4.B - if V0 structure already used + + // Note : + // one V0 can be used by several cascades (frequent in PbPb evts) : + // same V0 which used but attached to different bachelor tracks + // -> aodVORefs and fAODV0VtxRefs are needed. + // Goal : avoid a redundancy of the info in "Vertices" and "v0s" clones array. + + vV0FromCascade = static_cast( fAODV0VtxRefs->At(idxV0FromCascade) ); + aodV0 = static_cast ( fAODV0Refs ->At(idxV0FromCascade) ); + + // - Treatment of the parent for such a "re-used" V0 : + // Insert the cascade that reuses the V0 vertex in the lineage chain + // Before : vV0 -> vCascade1 -> vPrimary + // - Hyp : cascade2 uses the same V0 as cascade1 + // After : vV0 -> vCascade2 -> vCascade1 -> vPrimary + + AliAODVertex *vCascadePreviousParent = static_cast (vV0FromCascade->GetParent()); + vV0FromCascade->SetParent(vCascade); + vCascade ->SetParent(vCascadePreviousParent); + +// if(fDebug > 2) +// printf("---- Cascade / Lineage insertion\n" +// "Parent of V0 vtx = Cascade vtx %p\n" +// "Parent of the cascade vtx = Cascade vtx %p\n" +// "Parent of the parent cascade vtx = Cascade vtx %p\n", +// static_cast (vV0FromCascade->GetParent()), +// static_cast (vCascade->GetParent()), +// static_cast (vCascadePreviousParent->GetParent()) ); + + }// end if V0 structure already used + +// if (fDebug > 2) { +// printf("---- Cascade / V0 vertex: \n"); +// vV0FromCascade->Print(); +// } +// +// if (fDebug > 4) { +// printf("---- Cascade / pos dghter : \n"); +// aodTrack->Print(); +// printf("---- Cascade / neg dghter : \n"); +// aodTrack->Print(); +// printf("---- Cascade / aodV0 : \n"); +// aodV0->Print(); +// } + + // In any case (used V0 or not), add the V0 vertex to the cascade one. + vCascade->AddDaughter(vV0FromCascade); + + + // 5 - Add the primary track of the cascade (if any) + + + // 6 - Add the cascade to the AOD array of cascades + + Double_t dcaBachToPrimVertexXY = TMath::Abs(esdCascadeBach->GetD(esd.GetPrimaryVertex()->GetX(), + esd.GetPrimaryVertex()->GetY(), + esd.GetMagneticField()) ); + + Double_t momBachAtCascadeVtx[3]={0.}; + + esdCascade->GetBPxPyPz(momBachAtCascadeVtx[0], momBachAtCascadeVtx[1], momBachAtCascadeVtx[2]); + + aodCascade = new(cascadesArray[fNumberOfCascades++]) AliAODcascade( vCascade, + esdCascade->Charge(), + esdCascade->GetDcaXiDaughters(), + -999., + // DCAXiToPrimVtx -> needs to be calculated ----| + // doesn't exist at ESD level; + // See AODcascade::DcaXiToPrimVertex(Double, Double, Double) + dcaBachToPrimVertexXY, + momBachAtCascadeVtx, + *aodV0); + + if (fDebug > 10) { + printf("---- Cascade / AOD cascade : \n\n"); + aodCascade->PrintXi(fPrimaryVertex->GetX(), fPrimaryVertex->GetY(), fPrimaryVertex->GetZ()); + } + + } // end of the loop on cascades + + Cascades().Expand(fNumberOfCascades); +} + +//______________________________________________________________________________ +void AliAnalysisTaskESDfilter::ConvertV0s(const AliESDEvent& esd) +{ + // Access to the AOD container of V0s + + AliCodeTimerAuto("",0); + + // + // V0s + // + + Double_t pos[3] = { 0. }; + Double_t chi2(0.0); + Double_t covVtx[6] = { 0. }; + Double_t momPos[3]={0.}; + Double_t covTr[21]={0.}; + Double_t pid[10]={0.}; + AliAODTrack* aodTrack(0x0); + AliAODPid* detpid(0x0); + Double_t momNeg[3]={0.}; + Double_t momPosAtV0vtx[3]={0.}; + Double_t momNegAtV0vtx[3]={0.}; + Int_t tofLabel[3] = {0}; + for (Int_t nV0 = 0; nV0 < esd.GetNumberOfV0s(); ++nV0) + { + if (fUsedV0[nV0]) continue; // skip if already added to the AOD + + AliESDv0 *v0 = esd.GetV0(nV0); + Int_t posFromV0 = v0->GetPindex(); + Int_t negFromV0 = v0->GetNindex(); + + // V0 selection + // + AliESDVertex *esdVtx = new AliESDVertex(*(esd.GetPrimaryVertex())); + AliESDtrack *esdV0Pos = esd.GetTrack(posFromV0); + AliESDtrack *esdV0Neg = esd.GetTrack(negFromV0); + TList v0objects; + v0objects.AddAt(v0, 0); + v0objects.AddAt(esdV0Pos, 1); + v0objects.AddAt(esdV0Neg, 2); + v0objects.AddAt(esdVtx, 3); + UInt_t selectV0 = 0; + if (fV0Filter) { + selectV0 = fV0Filter->IsSelected(&v0objects); + // this is a little awkward but otherwise the + // list wants to access the pointer (delete it) + // again when going out of scope + delete v0objects.RemoveAt(3); // esdVtx created via copy construct + esdVtx = 0; + if (!selectV0) + continue; + } + else{ + delete v0objects.RemoveAt(3); // esdVtx created via copy construct + esdVtx = 0; + } + + v0->GetXYZ(pos[0], pos[1], pos[2]); + + if (!fOldESDformat) { + chi2 = v0->GetChi2V0(); // = chi2/NDF since NDF = 2*2-3 + v0->GetPosCov(covVtx); + } else { + chi2 = -999.; + for (Int_t i = 0; i < 6; i++) covVtx[i] = 0.; + } + + + AliAODVertex * vV0 = + new(Vertices()[fNumberOfVertices++]) AliAODVertex(pos, + covVtx, + chi2, + fPrimaryVertex, + nV0, + AliAODVertex::kV0); + fPrimaryVertex->AddDaughter(vV0); + + + // Add the positive tracks from the V0 + + + esdV0Pos->GetPxPyPz(momPos); + esdV0Pos->GetXYZ(pos); + esdV0Pos->GetCovarianceXYZPxPyPz(covTr); + esdV0Pos->GetESDpid(pid); + esdV0Pos->GetTOFLabel(tofLabel); + + const AliESDVertex *vtx = esd.GetPrimaryVertex(); + + if (!fUsedTrack[posFromV0]) { + fUsedTrack[posFromV0] = kTRUE; + UInt_t selectInfo = 0; + if (fTrackFilter) selectInfo = fTrackFilter->IsSelected(esdV0Pos); + if(fMChandler)fMChandler->SelectParticle(esdV0Pos->GetLabel()); + aodTrack = new(Tracks()[fNumberOfTracks++]) AliAODTrack(esdV0Pos->GetID(), + esdV0Pos->GetLabel(), + momPos, + kTRUE, + pos, + kFALSE, + covTr, + (Short_t)esdV0Pos->GetSign(), + esdV0Pos->GetITSClusterMap(), + pid, + vV0, + kTRUE, // check if this is right + vtx->UsesTrack(esdV0Pos->GetID()), + AliAODTrack::kSecondary, + selectInfo); + aodTrack->SetTPCFitMap(esdV0Pos->GetTPCFitMap()); + aodTrack->SetTPCClusterMap(esdV0Pos->GetTPCClusterMap()); + aodTrack->SetTPCSharedMap (esdV0Pos->GetTPCSharedMap()); + aodTrack->SetChi2perNDF(Chi2perNDF(esdV0Pos)); + aodTrack->SetTPCPointsF(esdV0Pos->GetTPCNclsF()); + aodTrack->SetTPCNCrossedRows(UShort_t(esdV0Pos->GetTPCCrossedRows())); + aodTrack->SetIntegratedLength(esdV0Pos->GetIntegratedLength()); + aodTrack->SetTOFLabel(tofLabel); + fAODTrackRefs->AddAt(aodTrack,posFromV0); + // if (fDebug > 0) printf("-------------------Bo: pos track from original pt %.3f \n",aodTrack->Pt()); + if (esdV0Pos->GetSign() > 0) ++fNumberOfPositiveTracks; + aodTrack->ConvertAliPIDtoAODPID(); + aodTrack->SetFlags(esdV0Pos->GetStatus()); + SetAODPID(esdV0Pos,aodTrack,detpid); + } + else { + aodTrack = static_cast(fAODTrackRefs->At(posFromV0)); + // if (fDebug > 0) printf("-------------------Bo pos track from refArray pt %.3f \n",aodTrack->Pt()); + } + vV0->AddDaughter(aodTrack); + + // Add the negative tracks from the V0 + + esdV0Neg->GetPxPyPz(momNeg); + esdV0Neg->GetXYZ(pos); + esdV0Neg->GetCovarianceXYZPxPyPz(covTr); + esdV0Neg->GetESDpid(pid); + esdV0Neg->GetTOFLabel(tofLabel); + + if (!fUsedTrack[negFromV0]) { + fUsedTrack[negFromV0] = kTRUE; + UInt_t selectInfo = 0; + if (fTrackFilter) selectInfo = fTrackFilter->IsSelected(esdV0Neg); + if(fMChandler)fMChandler->SelectParticle(esdV0Neg->GetLabel()); + aodTrack = new(Tracks()[fNumberOfTracks++]) AliAODTrack(esdV0Neg->GetID(), + esdV0Neg->GetLabel(), + momNeg, + kTRUE, + pos, + kFALSE, + covTr, + (Short_t)esdV0Neg->GetSign(), + esdV0Neg->GetITSClusterMap(), + pid, + vV0, + kTRUE, // check if this is right + vtx->UsesTrack(esdV0Neg->GetID()), + AliAODTrack::kSecondary, + selectInfo); + aodTrack->SetTPCFitMap(esdV0Neg->GetTPCFitMap()); + aodTrack->SetTPCClusterMap(esdV0Neg->GetTPCClusterMap()); + aodTrack->SetTPCSharedMap (esdV0Neg->GetTPCSharedMap()); + aodTrack->SetChi2perNDF(Chi2perNDF(esdV0Neg)); + aodTrack->SetTPCPointsF(esdV0Neg->GetTPCNclsF()); + aodTrack->SetTPCNCrossedRows(UShort_t(esdV0Neg->GetTPCCrossedRows())); + aodTrack->SetIntegratedLength(esdV0Neg->GetIntegratedLength()); + aodTrack->SetTOFLabel(tofLabel); + fAODTrackRefs->AddAt(aodTrack,negFromV0); + // if (fDebug > 0) printf("-------------------Bo: neg track from original pt %.3f \n",aodTrack->Pt()); + if (esdV0Neg->GetSign() > 0) ++fNumberOfPositiveTracks; + aodTrack->ConvertAliPIDtoAODPID(); + aodTrack->SetFlags(esdV0Neg->GetStatus()); + SetAODPID(esdV0Neg,aodTrack,detpid); + } + else { + aodTrack = static_cast(fAODTrackRefs->At(negFromV0)); + // if (fDebug > 0) printf("-------------------Bo neg track from refArray pt %.3f \n",aodTrack->Pt()); + } + vV0->AddDaughter(aodTrack); + + + // Add the V0 the V0 array as well + + Double_t dcaV0Daughters = v0->GetDcaV0Daughters(); + Double_t dcaV0ToPrimVertex = v0->GetD(esd.GetPrimaryVertex()->GetX(), + esd.GetPrimaryVertex()->GetY(), + esd.GetPrimaryVertex()->GetZ()); + + v0->GetPPxPyPz(momPosAtV0vtx[0],momPosAtV0vtx[1],momPosAtV0vtx[2]); + v0->GetNPxPyPz(momNegAtV0vtx[0],momNegAtV0vtx[1],momNegAtV0vtx[2]); + + Double_t dcaDaughterToPrimVertex[2] = { 999., 999.}; // ..[0] = DCA in (x,y) for Pos and ..[1] = Neg + dcaDaughterToPrimVertex[0] = TMath::Abs(esdV0Pos->GetD( esd.GetPrimaryVertex()->GetX(), + esd.GetPrimaryVertex()->GetY(), + esd.GetMagneticField()) ); + dcaDaughterToPrimVertex[1] = TMath::Abs(esdV0Neg->GetD( esd.GetPrimaryVertex()->GetX(), + esd.GetPrimaryVertex()->GetY(), + esd.GetMagneticField()) ); + + AliAODv0* aodV0 = new(V0s()[fNumberOfV0s++]) AliAODv0(vV0, + dcaV0Daughters, + dcaV0ToPrimVertex, + momPosAtV0vtx, + momNegAtV0vtx, + dcaDaughterToPrimVertex); + + // set the aod v0 on-the-fly status + aodV0->SetOnFlyStatus(v0->GetOnFlyStatus()); + }//End of loop on V0s + + V0s().Expand(fNumberOfV0s); +} + +//______________________________________________________________________________ +void AliAnalysisTaskESDfilter::ConvertTPCOnlyTracks(const AliESDEvent& esd) +{ + // Convert TPC only tracks + // Here we have wo hybrid appraoch to remove fakes + // ******* ITSTPC ******** + // Uses a cut on the ITS properties to select global tracks + // which are than marked as HybdridITSTPC for the remainder + // the TPC only tracks are flagged as HybridITSTPConly. + // Note, in order not to get fakes back in the TPC cuts, one needs + // two "ITS" cuts one tight (1) (to throw out fakes) and one lose (2) (to NOT flag the trakcs in the TPC only) + // using cut number (3) + // so fHybridFilterMask == (1)|(2) fTPCFilterMask = (3), Usercode needs to slect with mask = (1)|(3) and track->IsHybridITSTPC() + // ******* TPC ******** + // Here, only TPC tracks are flagged that pass the tight ITS cuts and tracks that pass the TPC cuts and NOT the loose ITS cuts + // the ITS cuts neeed to be added to the filter as extra cuts, since here the selections info is reset in the global and put to the TPC only track + + AliCodeTimerAuto("",0); + + // Loop over the tracks and extract and mask out all aod tracks that pass the selections for AODt racks + for(int it = 0;it < fNumberOfTracks;++it) + { + AliAODTrack *tr = (AliAODTrack*)(Tracks().At(it)); + if(!tr)continue; + UInt_t map = tr->GetFilterMap(); + if(map&fTPCConstrainedFilterMask){ + // we only reset the track select ionfo, no deletion... + tr->SetFilterMap(map&~fTPCConstrainedFilterMask); + } + if(map&fHybridFilterMaskTPCCG){ + // this is one part of the hybrid tracks + // the others not passing the selection will be TPC only selected below + tr->SetIsHybridTPCConstrainedGlobal(kTRUE); + } + } + // Loop over the ESD trcks and pick out the tracks passing TPC only cuts + + + const AliESDVertex *vtxSPD = esd.GetPrimaryVertexSPD(); + const AliESDVertex *vtx = esd.GetPrimaryVertex(); + + Double_t pos[3] = { 0. }; + Double_t covTr[21]={0.}; + Double_t pid[10]={0.}; + + + Double_t p[3] = { 0. }; + + Double_t pDCA[3] = { 0. }; // momentum at DCA + Double_t rDCA[3] = { 0. }; // position at DCA + Float_t dDCA[2] = {0.}; // DCA to the vertex d and z + Float_t cDCA[3] = {0.}; // covariance of impact parameters + Int_t tofLabel[3] = {0}; + + AliAODTrack* aodTrack(0x0); + // AliAODPid* detpid(0x0); + + // account for change in pT after the constraint + Float_t ptMax = 1E10; + Float_t ptMin = 0; + for(int i = 0;i<32;i++){ + if(fTPCConstrainedFilterMask&(1<GetCuts()->At(i); + Float_t tmp1= 0,tmp2 = 0; + cuts->GetPtRange(tmp1,tmp2); + if(tmp1>ptMin)ptMin=tmp1; + if(tmp2IsSelected(esdTrack); + } + + if(!(selectInfo&fHybridFilterMaskTPCCG)){ + // not already selected tracks, use second part of hybrid tracks + isHybridITSTPC = true; + // too save space one could only store these... + } + + selectInfo &= fTPCConstrainedFilterMask; + if (!selectInfo)continue; + if (fWriteHybridTPCCOnly&&!isHybridITSTPC)continue; // write only complementary tracks + // create a tpc only tracl + AliESDtrack *track = AliESDtrackCuts::GetTPCOnlyTrack(const_cast(&esd),esdTrack->GetID()); + if(!track) continue; + + if(track->Pt()>0.) + { + // only constrain tracks above threshold + AliExternalTrackParam exParam; + // take the B-field from the ESD, no 3D fieldMap available at this point + Bool_t relate = false; + relate = track->RelateToVertexTPC(vtxSPD,esd.GetMagneticField(),kVeryBig,&exParam); + if(!relate){ + delete track; + continue; + } + // fetch the track parameters at the DCA (unconstraint) + if(track->GetTPCInnerParam()){ + track->GetTPCInnerParam()->GetPxPyPz(pDCA); + track->GetTPCInnerParam()->GetXYZ(rDCA); + } + // get the DCA to the vertex: + track->GetImpactParametersTPC(dDCA,cDCA); + // set the constrained parameters to the track + track->Set(exParam.GetX(),exParam.GetAlpha(),exParam.GetParameter(),exParam.GetCovariance()); + } + + track->GetPxPyPz(p); + + Float_t pT = track->Pt(); + if(pTptMax){ + delete track; + continue; + } + + // + + + track->GetXYZ(pos); + track->GetCovarianceXYZPxPyPz(covTr); + esdTrack->GetESDpid(pid);// original PID + esdTrack->GetTOFLabel(tofLabel); + if(fMChandler)fMChandler->SelectParticle(esdTrack->GetLabel()); + fUsedTrackCopy[nTrack] |= selectInfo; + aodTrack = new(Tracks()[fNumberOfTracks++]) AliAODTrack((track->GetID()+1)*-1, + track->GetLabel(), + p, + kTRUE, + pos, + kFALSE, + covTr, + (Short_t)track->GetSign(), + track->GetITSClusterMap(), + pid, + fPrimaryVertex, + kTRUE, // check if this is right + vtx->UsesTrack(track->GetID()), + AliAODTrack::kPrimary, + selectInfo); + aodTrack->SetIsHybridTPCConstrainedGlobal(isHybridITSTPC); + aodTrack->SetTPCFitMap(track->GetTPCFitMap()); + aodTrack->SetTPCClusterMap(track->GetTPCClusterMap()); + aodTrack->SetTPCSharedMap (track->GetTPCSharedMap()); + aodTrack->SetIsTPCConstrained(kTRUE); + aodTrack->SetChi2perNDF(Chi2perNDF(esdTrack)); // original track + // set the DCA values to the AOD track + aodTrack->SetPxPyPzAtDCA(pDCA[0],pDCA[1],pDCA[2]); + aodTrack->SetXYAtDCA(rDCA[0],rDCA[1]); + aodTrack->SetDCA(dDCA[0],dDCA[1]); + + aodTrack->SetFlags(track->GetStatus()); + aodTrack->SetTPCPointsF(track->GetTPCNclsF()); + aodTrack->SetTPCNCrossedRows(UShort_t(track->GetTPCCrossedRows())); + aodTrack->SetIntegratedLength(track->GetIntegratedLength()); + aodTrack->SetTOFLabel(tofLabel); + //Perform progagation of tracks if needed + if(fDoPropagateTrackToEMCal) PropagateTrackToEMCal(esdTrack); + aodTrack->SetTrackPhiEtaPtOnEMCal(esdTrack->GetTrackPhiOnEMCal(),esdTrack->GetTrackEtaOnEMCal(),esdTrack->GetTrackPtOnEMCal()); + + // do not duplicate PID information + // aodTrack->ConvertAliPIDtoAODPID(); + // SetAODPID(esdTrack,aodTrack,detpid); + + delete track; + } // end of loop on tracks + +} + +//______________________________________________________________________________ +void AliAnalysisTaskESDfilter::ConvertGlobalConstrainedTracks(const AliESDEvent& esd) +{ + + // Here we have the option to store the complement from global constraint information + // to tracks passing tight cuts (1) in order not to get fakes back in, one needs + // two sets of cuts one tight (1) (to throw out fakes) and one lose (2) (fakes/bad tracks would pass (2) but not (1)) + // using cut number (3) selects the tracks that complement (1) e.g. tracks witout ITS refit or cluster requirement + + + AliCodeTimerAuto("",0); + + // Loop over the tracks and extract and mask out all aod tracks that pass the selections for AODt racks + for(int it = 0;it < fNumberOfTracks;++it) + { + AliAODTrack *tr = (AliAODTrack*)(Tracks().At(it)); + if(!tr)continue; + UInt_t map = tr->GetFilterMap(); + if(map&fGlobalConstrainedFilterMask){ + // we only reset the track select info, no deletion... + // mask reset mask in case track is already taken + tr->SetFilterMap(map&~fGlobalConstrainedFilterMask); + } + if(map&fHybridFilterMaskGCG){ + // this is one part of the hybrid tracks + // the others not passing the selection will be the ones selected below + tr->SetIsHybridGlobalConstrainedGlobal(kTRUE); + } + } + // Loop over the ESD trcks and pick out the tracks passing the GlobalConstraint cuts + + + Double_t pos[3] = { 0. }; + Double_t covTr[21]={0.}; + Double_t pid[10]={0.}; + Double_t p[3] = { 0. }; + + Double_t pDCA[3] = { 0. }; // momentum at DCA + Double_t rDCA[3] = { 0. }; // position at DCA + Float_t dDCA[2] = {0.}; // DCA to the vertex d and z + Float_t cDCA[3] = {0.}; // covariance of impact parameters + Int_t tofLabel[3] = {0}; + + + AliAODTrack* aodTrack(0x0); + AliAODPid* detpid(0x0); + const AliESDVertex *vtx = esd.GetPrimaryVertex(); + + // account for change in pT after the constraint + Float_t ptMax = 1E10; + Float_t ptMin = 0; + for(int i = 0;i<32;i++){ + if(fGlobalConstrainedFilterMask&(1<GetCuts()->At(i); + Float_t tmp1= 0,tmp2 = 0; + cuts->GetPtRange(tmp1,tmp2); + if(tmp1>ptMin)ptMin=tmp1; + if(tmp2GetConstrainedParam(); + if(!exParamGC)continue; + + UInt_t selectInfo = 0; + Bool_t isHybridGC = false; + + // + // Track selection + if (fTrackFilter) { + selectInfo = fTrackFilter->IsSelected(esdTrack); + } + + + if(!(selectInfo&fHybridFilterMaskGCG))isHybridGC = true; + if (fWriteHybridGCOnly&&!isHybridGC)continue; // write only complementary tracks + + selectInfo &= fGlobalConstrainedFilterMask; + if (!selectInfo)continue; + // fetch the track parameters at the DCA (unconstrained) + esdTrack->GetPxPyPz(pDCA); + esdTrack->GetXYZ(rDCA); + // get the DCA to the vertex: + esdTrack->GetImpactParameters(dDCA,cDCA); + + if (!esdTrack->GetConstrainedPxPyPz(p)) continue; + + + Float_t pT = exParamGC->Pt(); + if(pTptMax){ + continue; + } + + + esdTrack->GetConstrainedXYZ(pos); + exParamGC->GetCovarianceXYZPxPyPz(covTr); + esdTrack->GetESDpid(pid); + esdTrack->GetTOFLabel(tofLabel); + if(fMChandler)fMChandler->SelectParticle(esdTrack->GetLabel()); + fUsedTrackCopy[nTrack] |= selectInfo; + aodTrack = new(Tracks()[fNumberOfTracks++]) AliAODTrack((esdTrack->GetID()+1)*-1, + esdTrack->GetLabel(), + p, + kTRUE, + pos, + kFALSE, + covTr, + (Short_t)esdTrack->GetSign(), + esdTrack->GetITSClusterMap(), + pid, + fPrimaryVertex, + kTRUE, // check if this is right + vtx->UsesTrack(esdTrack->GetID()), + AliAODTrack::kPrimary, + selectInfo); + aodTrack->SetIsHybridGlobalConstrainedGlobal(isHybridGC); + aodTrack->SetIsGlobalConstrained(kTRUE); + aodTrack->SetTPCFitMap(esdTrack->GetTPCFitMap()); + aodTrack->SetTPCClusterMap(esdTrack->GetTPCClusterMap()); + aodTrack->SetTPCSharedMap (esdTrack->GetTPCSharedMap()); + aodTrack->SetChi2perNDF(Chi2perNDF(esdTrack)); + + + // set the DCA values to the AOD track + aodTrack->SetPxPyPzAtDCA(pDCA[0],pDCA[1],pDCA[2]); + aodTrack->SetXYAtDCA(rDCA[0],rDCA[1]); + aodTrack->SetDCA(dDCA[0],dDCA[1]); + + aodTrack->SetFlags(esdTrack->GetStatus()); + aodTrack->SetTPCPointsF(esdTrack->GetTPCNclsF()); + aodTrack->SetTPCNCrossedRows(UShort_t(esdTrack->GetTPCCrossedRows())); + aodTrack->SetIntegratedLength(esdTrack->GetIntegratedLength()); + aodTrack->SetTOFLabel(tofLabel); + if(isHybridGC){ + // only copy AOD information for hybrid, no duplicate information + aodTrack->ConvertAliPIDtoAODPID(); + SetAODPID(esdTrack,aodTrack,detpid); + } + + //Perform progagation of tracks if needed + if(fDoPropagateTrackToEMCal) PropagateTrackToEMCal(esdTrack); + aodTrack->SetTrackPhiEtaPtOnEMCal(esdTrack->GetTrackPhiOnEMCal(),esdTrack->GetTrackEtaOnEMCal(),esdTrack->GetTrackPtOnEMCal()); + } // end of loop on tracks + +} + + +//______________________________________________________________________________ +void AliAnalysisTaskESDfilter::ConvertTracks(const AliESDEvent& esd) +{ + // Tracks (primary and orphan) + + AliCodeTimerAuto("",0); + + AliDebug(1,Form("NUMBER OF ESD TRACKS %5d\n", esd.GetNumberOfTracks())); + + const AliESDVertex *vtx = esd.GetPrimaryVertex(); + Double_t p[3] = { 0. }; + Double_t pos[3] = { 0. }; + Double_t covTr[21] = { 0. }; + Double_t pid[10] = { 0. }; + Int_t tofLabel[3] = {0}; + AliAODTrack* aodTrack(0x0); + AliAODPid* detpid(0x0); + + for (Int_t nTrack = 0; nTrack < esd.GetNumberOfTracks(); ++nTrack) + { + if (fUsedTrack[nTrack]) continue; + + AliESDtrack *esdTrack = esd.GetTrack(nTrack); + UInt_t selectInfo = 0; + // + // Track selection + if (fTrackFilter) { + selectInfo = fTrackFilter->IsSelected(esdTrack); + if (!selectInfo && !vtx->UsesTrack(esdTrack->GetID())) continue; + } + + + esdTrack->GetPxPyPz(p); + esdTrack->GetXYZ(pos); + esdTrack->GetCovarianceXYZPxPyPz(covTr); + esdTrack->GetESDpid(pid); + esdTrack->GetTOFLabel(tofLabel); + if(fMChandler)fMChandler->SelectParticle(esdTrack->GetLabel()); + fUsedTrack[nTrack] = kTRUE; + fPrimaryVertex->AddDaughter(aodTrack = + new(Tracks()[fNumberOfTracks++]) AliAODTrack(esdTrack->GetID(), + esdTrack->GetLabel(), + p, + kTRUE, + pos, + kFALSE, + covTr, + (Short_t)esdTrack->GetSign(), + esdTrack->GetITSClusterMap(), + pid, + fPrimaryVertex, + kTRUE, // check if this is right + vtx->UsesTrack(esdTrack->GetID()), + AliAODTrack::kPrimary, + selectInfo) + ); + aodTrack->SetTPCFitMap(esdTrack->GetTPCFitMap()); + aodTrack->SetTPCClusterMap(esdTrack->GetTPCClusterMap()); + aodTrack->SetTPCSharedMap (esdTrack->GetTPCSharedMap()); + aodTrack->SetChi2perNDF(Chi2perNDF(esdTrack)); + aodTrack->SetTPCPointsF(esdTrack->GetTPCNclsF()); + aodTrack->SetTPCNCrossedRows(UShort_t(esdTrack->GetTPCCrossedRows())); + aodTrack->SetIntegratedLength(esdTrack->GetIntegratedLength()); + aodTrack->SetTOFLabel(tofLabel); + if(esdTrack->IsEMCAL()) aodTrack->SetEMCALcluster(esdTrack->GetEMCALcluster()); + if(esdTrack->IsPHOS()) aodTrack->SetPHOScluster(esdTrack->GetPHOScluster()); + + //Perform progagation of tracks if needed + if(fDoPropagateTrackToEMCal) PropagateTrackToEMCal(esdTrack); + aodTrack->SetTrackPhiEtaPtOnEMCal(esdTrack->GetTrackPhiOnEMCal(),esdTrack->GetTrackEtaOnEMCal(),esdTrack->GetTrackPtOnEMCal()); + + fAODTrackRefs->AddAt(aodTrack, nTrack); + + + if (esdTrack->GetSign() > 0) ++fNumberOfPositiveTracks; + aodTrack->SetFlags(esdTrack->GetStatus()); + aodTrack->ConvertAliPIDtoAODPID(); + SetAODPID(esdTrack,aodTrack,detpid); + } // end of loop on tracks +} + +//______________________________________________________________________________ +void AliAnalysisTaskESDfilter::PropagateTrackToEMCal(AliESDtrack *esdTrack) +{ + Double_t trkPos[3] = {0.,0.,0.}; + Double_t EMCalEta=-999, EMCalPhi=-999, EMCalPt=-999; + Double_t trkphi = esdTrack->Phi()*TMath::RadToDeg(); + if(TMath::Abs(esdTrack->Eta())<0.9 && trkphi > 10 && trkphi < 250 ) + { + AliExternalTrackParam *trkParam = const_cast(esdTrack->GetInnerParam()); + if(trkParam) + { + AliExternalTrackParam trkParamTmp(*trkParam); + if(AliTrackerBase::PropagateTrackToBxByBz(&trkParamTmp, fEMCalSurfaceDistance, esdTrack->GetMass(), 20, kTRUE, 0.8, -1)) + { + trkParamTmp.GetXYZ(trkPos); + TVector3 trkPosVec(trkPos[0],trkPos[1],trkPos[2]); + EMCalEta = trkPosVec.Eta(); + EMCalPhi = trkPosVec.Phi(); + EMCalPt = trkParamTmp.Pt(); + if(EMCalPhi<0) EMCalPhi += 2*TMath::Pi(); + esdTrack->SetTrackPhiEtaPtOnEMCal(EMCalPhi,EMCalEta,EMCalPt); + } + } + } +} + +//______________________________________________________________________________ +void AliAnalysisTaskESDfilter::ConvertPmdClusters(const AliESDEvent& esd) +{ +// Convert PMD Clusters + AliCodeTimerAuto("",0); + Int_t jPmdClusters=0; + // Access to the AOD container of PMD clusters + TClonesArray &pmdClusters = *(AODEvent()->GetPmdClusters()); + for (Int_t iPmd = 0; iPmd < esd.GetNumberOfPmdTracks(); ++iPmd) { + // file pmd clusters, to be revised! + AliESDPmdTrack *pmdTrack = esd.GetPmdTrack(iPmd); + Int_t nLabel = 0; + Int_t *label = 0x0; + Double_t posPmd[3] = { pmdTrack->GetClusterX(), pmdTrack->GetClusterY(), pmdTrack->GetClusterZ()}; + Double_t pidPmd[13] = { 0.}; // to be revised! + // type not set! + // assoc cluster not set + new(pmdClusters[jPmdClusters++]) AliAODPmdCluster(iPmd, nLabel, label, pmdTrack->GetClusterADC(), posPmd, pidPmd); + } +} + + +//______________________________________________________________________________ +void AliAnalysisTaskESDfilter::ConvertCaloClusters(const AliESDEvent& esd) +{ +// Convert Calorimeter Clusters + AliCodeTimerAuto("",0); + + // Access to the AOD container of clusters + TClonesArray &caloClusters = *(AODEvent()->GetCaloClusters()); + Int_t jClusters(0); + + for (Int_t iClust=0; iClustGetID(); + Int_t nLabel = cluster->GetNLabels(); + Int_t *labels = cluster->GetLabels(); + if(labels){ + for(int i = 0;i < nLabel;++i){ + if(fMChandler)fMChandler->SelectParticle(labels[i]); + } + } + + Float_t energy = cluster->E(); + Float_t posF[3] = { 0.}; + cluster->GetPosition(posF); + + AliAODCaloCluster *caloCluster = new(caloClusters[jClusters++]) AliAODCaloCluster(id, + nLabel, + labels, + energy, + posF, + NULL, + cluster->GetType(),0); + + caloCluster->SetCaloCluster(cluster->GetDistanceToBadChannel(), + cluster->GetDispersion(), + cluster->GetM20(), cluster->GetM02(), + cluster->GetEmcCpvDistance(), + cluster->GetNExMax(),cluster->GetTOF()) ; + + caloCluster->SetPIDFromESD(cluster->GetPID()); + caloCluster->SetNCells(cluster->GetNCells()); + caloCluster->SetCellsAbsId(cluster->GetCellsAbsId()); + caloCluster->SetCellsAmplitudeFraction(cluster->GetCellsAmplitudeFraction()); + + caloCluster->SetTrackDistance(cluster->GetTrackDx(), cluster->GetTrackDz()); + + Int_t nMatchCount = 0; + TArrayI* matchedT = cluster->GetTracksMatched(); + if (fNumberOfTracks>0 && matchedT && cluster->GetTrackMatchedIndex() >= 0) { + for (Int_t im = 0; im < matchedT->GetSize(); im++) { + Int_t iESDtrack = matchedT->At(im);; + if (fAODTrackRefs->At(iESDtrack) != 0) { + caloCluster->AddTrackMatched((AliAODTrack*)fAODTrackRefs->At(iESDtrack)); + nMatchCount++; + } + } + } + if(nMatchCount==0) + caloCluster->SetTrackDistance(-999,-999); + + } + caloClusters.Expand(jClusters); // resize TObjArray to 'remove' slots for pseudo clusters +} + +//______________________________________________________________________________ +void AliAnalysisTaskESDfilter::ConvertCaloTrigger(TString calo, const AliESDEvent& esd) +{ + AliCodeTimerAuto("",0); + + if (calo == "PHOS") + { + AliAODCaloTrigger &aodTrigger = *(AODEvent()->GetCaloTrigger(calo)); + AliESDCaloTrigger &esdTrigger = *(esd.GetCaloTrigger(calo)); + + aodTrigger.Allocate(esdTrigger.GetEntries()); + esdTrigger.Reset(); + + Float_t a; + Int_t tmod,tabsId; + + while (esdTrigger.Next()) { + esdTrigger.GetPosition(tmod,tabsId); + esdTrigger.GetAmplitude(a); + aodTrigger.Add(tmod,tabsId,a,0.,(Int_t*)NULL,0,0,0); + } + + return; + } + + AliAODHandler *aodHandler = dynamic_cast(AliAnalysisManager::GetAnalysisManager()->GetOutputEventHandler()); + + if (aodHandler) + { + TTree *aodTree = aodHandler->GetTree(); + + if (aodTree) + { + Int_t *type = esd.GetCaloTriggerType(); + + for (Int_t i = 0; i < 15; i++) + { + aodTree->GetUserInfo()->Add(new TParameter(Form("EMCALCaloTrigger%d",i), type[i])); + } + } + } + + AliAODCaloTrigger &aodTrigger = *(AODEvent()->GetCaloTrigger(calo)); + + AliESDCaloTrigger &esdTrigger = *(esd.GetCaloTrigger(calo)); + + aodTrigger.Allocate(esdTrigger.GetEntries()); + + esdTrigger.Reset(); + while (esdTrigger.Next()) + { + Int_t px, py, ts, nTimes, times[10], b; + Float_t a, t; + + esdTrigger.GetPosition(px, py); + + esdTrigger.GetAmplitude(a); + esdTrigger.GetTime(t); + + esdTrigger.GetL0Times(times); + esdTrigger.GetNL0Times(nTimes); + + esdTrigger.GetL1TimeSum(ts); + + esdTrigger.GetTriggerBits(b); + + aodTrigger.Add(px, py, a, t, times, nTimes, ts, b); + } + + for (int i = 0; i < 4; i++) aodTrigger.SetL1Threshold(i, esdTrigger.GetL1Threshold(i)); + + Int_t v0[2] = + { + esdTrigger.GetL1V0(0), + esdTrigger.GetL1V0(1) + }; + + aodTrigger.SetL1V0(v0); + aodTrigger.SetL1FrameMask(esdTrigger.GetL1FrameMask()); +} + +//______________________________________________________________________________ +void AliAnalysisTaskESDfilter::ConvertEMCALCells(const AliESDEvent& esd) +{ +// Convert EMCAL Cells + AliCodeTimerAuto("",0); + // fill EMCAL cell info + if (esd.GetEMCALCells()) { // protection against missing ESD information + AliESDCaloCells &esdEMcells = *(esd.GetEMCALCells()); + Int_t nEMcell = esdEMcells.GetNumberOfCells() ; + + AliAODCaloCells &aodEMcells = *(AODEvent()->GetEMCALCells()); + aodEMcells.CreateContainer(nEMcell); + aodEMcells.SetType(AliAODCaloCells::kEMCALCell); + for (Int_t iCell = 0; iCell < nEMcell; iCell++) { + aodEMcells.SetCell(iCell,esdEMcells.GetCellNumber(iCell),esdEMcells.GetAmplitude(iCell), + esdEMcells.GetTime(iCell), esdEMcells.GetMCLabel(iCell), esdEMcells.GetEFraction(iCell)); + } + aodEMcells.Sort(); + } +} + +//______________________________________________________________________________ +void AliAnalysisTaskESDfilter::ConvertPHOSCells(const AliESDEvent& esd) +{ +// Convert PHOS Cells + AliCodeTimerAuto("",0); + // fill PHOS cell info + if (esd.GetPHOSCells()) { // protection against missing ESD information + AliESDCaloCells &esdPHcells = *(esd.GetPHOSCells()); + Int_t nPHcell = esdPHcells.GetNumberOfCells() ; + + AliAODCaloCells &aodPHcells = *(AODEvent()->GetPHOSCells()); + aodPHcells.CreateContainer(nPHcell); + aodPHcells.SetType(AliAODCaloCells::kPHOSCell); + for (Int_t iCell = 0; iCell < nPHcell; iCell++) { + aodPHcells.SetCell(iCell,esdPHcells.GetCellNumber(iCell),esdPHcells.GetAmplitude(iCell), + esdPHcells.GetTime(iCell), esdPHcells.GetMCLabel(iCell), esdPHcells.GetEFraction(iCell)); + } + aodPHcells.Sort(); + } +} + +//______________________________________________________________________________ +void AliAnalysisTaskESDfilter::ConvertTracklets(const AliESDEvent& esd) +{ + // tracklets + AliCodeTimerAuto("",0); + + AliAODTracklets &SPDTracklets = *(AODEvent()->GetTracklets()); + const AliMultiplicity *mult = esd.GetMultiplicity(); + if (mult) { + if (mult->GetNumberOfTracklets()>0) { + SPDTracklets.CreateContainer(mult->GetNumberOfTracklets()); + + for (Int_t n=0; nGetNumberOfTracklets(); n++) { + if(fMChandler){ + fMChandler->SelectParticle(mult->GetLabel(n, 0)); + fMChandler->SelectParticle(mult->GetLabel(n, 1)); + } + SPDTracklets.SetTracklet(n, mult->GetTheta(n), mult->GetPhi(n), mult->GetDeltaPhi(n), mult->GetLabel(n, 0),mult->GetLabel(n, 1)); + } + } + } else { + //Printf("ERROR: AliMultiplicity could not be retrieved from ESD"); + } +} + +//______________________________________________________________________________ +void AliAnalysisTaskESDfilter::ConvertKinks(const AliESDEvent& esd) +{ + AliCodeTimerAuto("",0); + + // Kinks: it is a big mess the access to the information in the kinks + // The loop is on the tracks in order to find the mother and daugther of each kink + + Double_t covTr[21]={0.}; + Double_t pid[10]={0.}; + AliAODPid* detpid(0x0); + Int_t tofLabel[3] = {0}; + + fNumberOfKinks = esd.GetNumberOfKinks(); + + const AliESDVertex* vtx = esd.GetPrimaryVertex(); + + for (Int_t iTrack=0; iTrackGetKinkIndex(0); + + if (ikink && fNumberOfKinks) { + // Negative kink index: mother, positive: daughter + + // Search for the second track of the kink + + for (Int_t jTrack = iTrack+1; jTrackGetKinkIndex(0); + + if ( TMath::Abs(ikink)==TMath::Abs(jkink) ) { + + // The two tracks are from the same kink + + if (fUsedKink[TMath::Abs(ikink)-1]) continue; // skip used kinks + + Int_t imother = -1; + Int_t idaughter = -1; + + if (ikink<0 && jkink>0) { + + imother = iTrack; + idaughter = jTrack; + } + else if (ikink>0 && jkink<0) { + + imother = jTrack; + idaughter = iTrack; + } + else { + // cerr << "Error: Wrong combination of kink indexes: " + // << ikink << " " << jkink << endl; + continue; + } + + // Add the mother track if it passed primary track selection cuts + + AliAODTrack * mother = NULL; + + UInt_t selectInfo = 0; + if (fTrackFilter) { + selectInfo = fTrackFilter->IsSelected(esd.GetTrack(imother)); + if (!selectInfo) continue; + } + + if (!fUsedTrack[imother]) { + + fUsedTrack[imother] = kTRUE; + + AliESDtrack *esdTrackM = esd.GetTrack(imother); + Double_t p[3] = { 0. }; + Double_t pos[3] = { 0. }; + esdTrackM->GetPxPyPz(p); + esdTrackM->GetXYZ(pos); + esdTrackM->GetCovarianceXYZPxPyPz(covTr); + esdTrackM->GetESDpid(pid); + esdTrackM->GetTOFLabel(tofLabel); + if(fMChandler)fMChandler->SelectParticle(esdTrackM->GetLabel()); + mother = + new(Tracks()[fNumberOfTracks++]) AliAODTrack(esdTrackM->GetID(), + esdTrackM->GetLabel(), + p, + kTRUE, + pos, + kFALSE, + covTr, + (Short_t)esdTrackM->GetSign(), + esdTrackM->GetITSClusterMap(), + pid, + fPrimaryVertex, + kTRUE, // check if this is right + vtx->UsesTrack(esdTrack->GetID()), + AliAODTrack::kPrimary, + selectInfo); + mother->SetTPCFitMap(esdTrackM->GetTPCFitMap()); + mother->SetTPCClusterMap(esdTrackM->GetTPCClusterMap()); + mother->SetTPCSharedMap (esdTrackM->GetTPCSharedMap()); + mother->SetChi2perNDF(Chi2perNDF(esdTrackM)); + mother->SetTPCPointsF(esdTrackM->GetTPCNclsF()); + mother->SetTPCNCrossedRows(UShort_t(esdTrackM->GetTPCCrossedRows())); + mother->SetIntegratedLength(esdTrackM->GetIntegratedLength()); + mother->SetTOFLabel(tofLabel); + fAODTrackRefs->AddAt(mother, imother); + + if (esdTrackM->GetSign() > 0) ++fNumberOfPositiveTracks; + mother->SetFlags(esdTrackM->GetStatus()); + mother->ConvertAliPIDtoAODPID(); + fPrimaryVertex->AddDaughter(mother); + mother->ConvertAliPIDtoAODPID(); + SetAODPID(esdTrackM,mother,detpid); + } + else { + // cerr << "Error: event " << esd.GetEventNumberInFile() << " kink " << TMath::Abs(ikink)-1 + // << " track " << imother << " has already been used!" << endl; + } + + // Add the kink vertex + AliESDkink * kink = esd.GetKink(TMath::Abs(ikink)-1); + + AliAODVertex * vkink = + new(Vertices()[fNumberOfVertices++]) AliAODVertex(kink->GetPosition(), + NULL, + 0., + mother, + esdTrack->GetID(), // This is the track ID of the mother's track! + AliAODVertex::kKink); + // Add the daughter track + + AliAODTrack * daughter = NULL; + + if (!fUsedTrack[idaughter]) { + + fUsedTrack[idaughter] = kTRUE; + + AliESDtrack *esdTrackD = esd.GetTrack(idaughter); + Double_t p[3] = { 0. }; + Double_t pos[3] = { 0. }; + + esdTrackD->GetPxPyPz(p); + esdTrackD->GetXYZ(pos); + esdTrackD->GetCovarianceXYZPxPyPz(covTr); + esdTrackD->GetESDpid(pid); + esdTrackD->GetTOFLabel(tofLabel); + selectInfo = 0; + if (fTrackFilter) selectInfo = fTrackFilter->IsSelected(esdTrackD); + if(fMChandler)fMChandler->SelectParticle(esdTrackD->GetLabel()); + daughter = + new(Tracks()[fNumberOfTracks++]) AliAODTrack(esdTrackD->GetID(), + esdTrackD->GetLabel(), + p, + kTRUE, + pos, + kFALSE, + covTr, + (Short_t)esdTrackD->GetSign(), + esdTrackD->GetITSClusterMap(), + pid, + vkink, + kTRUE, // check if this is right + vtx->UsesTrack(esdTrack->GetID()), + AliAODTrack::kSecondary, + selectInfo); + daughter->SetTPCFitMap(esdTrackD->GetTPCFitMap()); + daughter->SetTPCClusterMap(esdTrackD->GetTPCClusterMap()); + daughter->SetTPCSharedMap (esdTrackD->GetTPCSharedMap()); + daughter->SetTPCPointsF(esdTrackD->GetTPCNclsF()); + daughter->SetTPCNCrossedRows(UShort_t(esdTrackD->GetTPCCrossedRows())); + daughter->SetIntegratedLength(esdTrackD->GetIntegratedLength()); + daughter->SetTOFLabel(tofLabel); + fAODTrackRefs->AddAt(daughter, idaughter); + + if (esdTrackD->GetSign() > 0) ++fNumberOfPositiveTracks; + daughter->SetFlags(esdTrackD->GetStatus()); + daughter->ConvertAliPIDtoAODPID(); + vkink->AddDaughter(daughter); + daughter->ConvertAliPIDtoAODPID(); + SetAODPID(esdTrackD,daughter,detpid); + } + else { + // cerr << "Error: event " << esd.GetEventNumberInFile() << " kink " << TMath::Abs(ikink)-1 + // << " track " << idaughter << " has already been used!" << endl; + } + } + } + } + } +} + +//______________________________________________________________________________ +void AliAnalysisTaskESDfilter::ConvertPrimaryVertices(const AliESDEvent& esd) +{ + AliCodeTimerAuto("",0); + + // Access to the AOD container of vertices + fNumberOfVertices = 0; + + Double_t pos[3] = { 0. }; + Double_t covVtx[6] = { 0. }; + + // Add primary vertex. The primary tracks will be defined + // after the loops on the composite objects (V0, cascades, kinks) + const AliESDVertex *vtx = esd.GetPrimaryVertex(); + + vtx->GetXYZ(pos); // position + vtx->GetCovMatrix(covVtx); //covariance matrix + + fPrimaryVertex = new(Vertices()[fNumberOfVertices++]) + AliAODVertex(pos, covVtx, vtx->GetChi2toNDF(), NULL, -1, AliAODVertex::kPrimary); + fPrimaryVertex->SetName(vtx->GetName()); + fPrimaryVertex->SetTitle(vtx->GetTitle()); + fPrimaryVertex->SetBC(vtx->GetBC()); + + TString vtitle = vtx->GetTitle(); + if (!vtitle.Contains("VertexerTracks")) + fPrimaryVertex->SetNContributors(vtx->GetNContributors()); + + if (fDebug > 0) fPrimaryVertex->Print(); + + // Add SPD "main" vertex + const AliESDVertex *vtxS = esd.GetPrimaryVertexSPD(); + vtxS->GetXYZ(pos); // position + vtxS->GetCovMatrix(covVtx); //covariance matrix + AliAODVertex * mVSPD = new(Vertices()[fNumberOfVertices++]) + AliAODVertex(pos, covVtx, vtxS->GetChi2toNDF(), NULL, -1, AliAODVertex::kMainSPD); + mVSPD->SetName(vtxS->GetName()); + mVSPD->SetTitle(vtxS->GetTitle()); + mVSPD->SetNContributors(vtxS->GetNContributors()); + + // Add SPD pileup vertices + for(Int_t iV=0; iVGetXYZ(pos); // position + vtxP->GetCovMatrix(covVtx); //covariance matrix + AliAODVertex * pVSPD = new(Vertices()[fNumberOfVertices++]) + AliAODVertex(pos, covVtx, vtxP->GetChi2toNDF(), NULL, -1, AliAODVertex::kPileupSPD); + pVSPD->SetName(vtxP->GetName()); + pVSPD->SetTitle(vtxP->GetTitle()); + pVSPD->SetNContributors(vtxP->GetNContributors()); + pVSPD->SetBC(vtxP->GetBC()); + } + + // Add TRK pileup vertices + for(Int_t iV=0; iVGetXYZ(pos); // position + vtxP->GetCovMatrix(covVtx); //covariance matrix + AliAODVertex * pVTRK = new(Vertices()[fNumberOfVertices++]) + AliAODVertex(pos, covVtx, vtxP->GetChi2toNDF(), NULL, -1, AliAODVertex::kPileupTracks); + pVTRK->SetName(vtxP->GetName()); + pVTRK->SetTitle(vtxP->GetTitle()); + pVTRK->SetNContributors(vtxP->GetNContributors()); + pVTRK->SetBC(vtxP->GetBC()); + } + + // Add TPC "main" vertex + const AliESDVertex *vtxT = esd.GetPrimaryVertexTPC(); + vtxT->GetXYZ(pos); // position + vtxT->GetCovMatrix(covVtx); //covariance matrix + AliAODVertex * mVTPC = new(Vertices()[fNumberOfVertices++]) + AliAODVertex(pos, covVtx, vtxT->GetChi2toNDF(), NULL, -1, AliAODVertex::kMainTPC); + mVTPC->SetName(vtxT->GetName()); + mVTPC->SetTitle(vtxT->GetTitle()); + mVTPC->SetNContributors(vtxT->GetNContributors()); + + +} + +//______________________________________________________________________________ +void AliAnalysisTaskESDfilter::ConvertVZERO(const AliESDEvent& esd) +{ + // Convert VZERO data + AliAODVZERO* vzeroData = AODEvent()->GetVZEROData(); + *vzeroData = *(esd.GetVZEROData()); +} + +//______________________________________________________________________________ +void AliAnalysisTaskESDfilter::ConvertTZERO(const AliESDEvent& esd) +{ + // Convert TZERO data + const AliESDTZERO* esdTzero = esd.GetESDTZERO(); + AliAODTZERO* aodTzero = AODEvent()->GetTZEROData(); + + for (Int_t icase=0; icase<3; icase++){ + aodTzero->SetT0TOF( icase, esdTzero->GetT0TOF(icase)); + aodTzero->SetT0TOFbest(icase, esdTzero->GetT0TOFbest(icase)); + } + aodTzero->SetBackgroundFlag(esdTzero->GetBackgroundFlag()); + aodTzero->SetPileupFlag(esdTzero->GetPileupFlag()); + aodTzero->SetSatelliteFlag(esdTzero->GetSatellite()); + + Float_t rawTime[24]; + for(Int_t ipmt=0; ipmt<24; ipmt++) + rawTime[ipmt] = esdTzero->GetTimeFull(ipmt,0); + + Int_t idxOfFirstPmtA = -1, idxOfFirstPmtC = -1; + Float_t timeOfFirstPmtA = 9999, timeOfFirstPmtC = 9999; + for(int ipmt=0; ipmt<12; ipmt++){ + if( rawTime[ipmt] > -200 && rawTime[ipmt] < timeOfFirstPmtC && rawTime[ipmt]!=0){ + timeOfFirstPmtC = rawTime[ipmt]; + idxOfFirstPmtC = ipmt; + } + } + for(int ipmt=12; ipmt<24; ipmt++){ + if( rawTime[ipmt] > -200 && rawTime[ipmt] < timeOfFirstPmtA && rawTime[ipmt]!=0 ){ + timeOfFirstPmtA = rawTime[ipmt]; + idxOfFirstPmtA = ipmt; + } + } + + if(idxOfFirstPmtA != -1 && idxOfFirstPmtC != -1){ + //speed of light in cm/ns TMath::C()*1e-7 + Float_t vertexraw = TMath::C()*1e-7 * (rawTime[idxOfFirstPmtA] - rawTime[idxOfFirstPmtC])/2; + aodTzero->SetT0VertexRaw( vertexraw ); + }else{ + aodTzero->SetT0VertexRaw(99999); + } + + aodTzero->SetT0zVertex(esdTzero->GetT0zVertex()); + //amplitude + + const Double32_t *amp=esdTzero->GetT0amplitude(); + for(int ipmt=0; ipmt<24; ipmt++) + aodTzero->SetAmp(ipmt, amp[ipmt]); + aodTzero->SetAmp(24,esdTzero->GetMultC() ); + aodTzero->SetAmp(25,esdTzero->GetMultA() ); + +} + + +//______________________________________________________________________________ +void AliAnalysisTaskESDfilter::ConvertZDC(const AliESDEvent& esd) +{ + // Convert ZDC data + AliESDZDC* esdZDC = esd.GetZDCData(); + + const Double_t zem1Energy = esdZDC->GetZEM1Energy(); + const Double_t zem2Energy = esdZDC->GetZEM2Energy(); + + const Double_t *towZNC = esdZDC->GetZNCTowerEnergy(); + const Double_t *towZPC = esdZDC->GetZPCTowerEnergy(); + const Double_t *towZNA = esdZDC->GetZNATowerEnergy(); + const Double_t *towZPA = esdZDC->GetZPATowerEnergy(); + const Double_t *towZNCLG = esdZDC->GetZNCTowerEnergyLR(); + const Double_t *towZNALG = esdZDC->GetZNATowerEnergyLR(); + + AliAODZDC* zdcAOD = AODEvent()->GetZDCData(); + + zdcAOD->SetZEM1Energy(zem1Energy); + zdcAOD->SetZEM2Energy(zem2Energy); + zdcAOD->SetZNCTowers(towZNC, towZNCLG); + zdcAOD->SetZNATowers(towZNA, towZNALG); + zdcAOD->SetZPCTowers(towZPC); + zdcAOD->SetZPATowers(towZPA); + + zdcAOD->SetZDCParticipants(esdZDC->GetZDCParticipants(), esdZDC->GetZDCPartSideA(), esdZDC->GetZDCPartSideC()); + zdcAOD->SetZDCImpactParameter(esdZDC->GetImpactParameter(), esdZDC->GetImpactParamSideA(), + esdZDC->GetImpactParamSideC()); + zdcAOD->SetZDCTDCSum(esdZDC->GetZNTDCSum(0)); + zdcAOD->SetZDCTDCDiff(esdZDC->GetZNTDCDiff(0)); + if(esdZDC->IsZNChit()) zdcAOD->SetZNCTDC(esdZDC->GetZDCTDCCorrected(10,0)); + if(esdZDC->IsZNAhit()) zdcAOD->SetZNATDC(esdZDC->GetZDCTDCCorrected(12,0)); +} + +//_______________________________________________________________________________________________________________________________________ +Int_t AliAnalysisTaskESDfilter::ConvertHMPID(const AliESDEvent& esd) // clm +{ + // + // Convtert ESD HMPID info to AOD and return the number of good tracks with HMPID signal. + // We need to return an int since there is no signal counter in the ESD. + // + + AliCodeTimerAuto("",0); + + Int_t cntHmpidGoodTracks = 0; + + Float_t xMip = 0; + Float_t yMip = 0; + Int_t qMip = 0; + Int_t nphMip = 0; + + Float_t xTrk = 0; + Float_t yTrk = 0; + Float_t thetaTrk = 0; + Float_t phiTrk = 0; + + Double_t hmpPid[5]={0}; + Double_t hmpMom[3]={0}; + + TClonesArray &hmpidRings = *(AODEvent()->GetHMPIDrings()); + + for (Int_t iTrack=0; iTrackGetHMPIDsignal() > -20 ) { // + + (esd.GetTrack(iTrack))->GetHMPIDmip(xMip, yMip, qMip, nphMip); // Get MIP properties + (esd.GetTrack(iTrack))->GetHMPIDtrk(xTrk,yTrk,thetaTrk,phiTrk); + (esd.GetTrack(iTrack))->GetHMPIDpid(hmpPid); + if((esd.GetTrack(iTrack))->GetOuterHmpParam()) (esd.GetTrack(iTrack))->GetOuterHmpPxPyPz(hmpMom); + + if(esd.GetTrack(iTrack)->GetHMPIDsignal() == 0 && thetaTrk == 0 && qMip == 0 && nphMip ==0 ) continue; // + + new(hmpidRings[cntHmpidGoodTracks++]) AliAODHMPIDrings( + (esd.GetTrack(iTrack))->GetID(), // Unique track id to attach the ring to + 1000000*nphMip+qMip, // MIP charge and number of photons + (esd.GetTrack(iTrack))->GetHMPIDcluIdx(), // 1000000*chamber id + cluster idx of the assigned MIP cluster + thetaTrk, // track inclination angle theta + phiTrk, // track inclination angle phi + (esd.GetTrack(iTrack))->GetHMPIDsignal(), // Cherenkov angle + (esd.GetTrack(iTrack))->GetHMPIDoccupancy(), // Occupancy claculated for the given chamber + (esd.GetTrack(iTrack))->GetHMPIDchi2(), // Ring resolution squared + xTrk, // Track x coordinate (LORS) + yTrk, // Track y coordinate (LORS) + xMip, // MIP x coordinate (LORS) + yMip, // MIP y coordinate (LORS) + hmpPid, // PID probablities from ESD, remove later once it is in CombinedPid + hmpMom // Track momentum in HMPID at ring reconstruction + ); + + // Printf(Form("+++++++++ yes/no: %d %lf %lf %lf %lf %lf %lf ",(esd.GetTrack(iTrack))->IsHMPID(),thetaTrk, (esd.GetTrack(iTrack))->GetHMPIDchi2(),xTrk, yTrk , xMip, yMip)); + + + }// HMPID signal > -20 + }//___esd track loop + + return cntHmpidGoodTracks; +} + +void AliAnalysisTaskESDfilter::ConvertTRD(const AliESDEvent& esd) +{ + // fill TRD on-line tracks with assiocated tracklets + // as used for the TRD level-1 triggers + + const Int_t nTrdTracks = esd.GetNumberOfTrdTracks(); + const Int_t nLayers = 6; + + for (Int_t iTrdTrack = 0; iTrdTrack < nTrdTracks; ++iTrdTrack) { + // copy information from ESD track to AOD track + const AliESDTrdTrack *esdTrdTrk = esd.GetTrdTrack(iTrdTrack); + AliAODTrdTrack &aodTrdTrk = AODEvent()->AddTrdTrack(esdTrdTrk); + + // copy the contributing tracklets + for (Int_t iTracklet = 0; iTracklet < nLayers; ++iTracklet) { + if (const AliESDTrdTracklet *esdTrdTrkl = esdTrdTrk->GetTracklet(iTracklet)) + aodTrdTrk.AddTracklet(*esdTrdTrkl, iTracklet); + } + + // add the reference to the matched global track + AliAODTrack *aodTrkMatch = 0x0; + AliESDtrack *esdTrkMatch = (AliESDtrack*) esdTrdTrk->GetTrackMatch(); + if (esdTrkMatch) { + Int_t idx = esdTrkMatch->GetID(); + + if (idx < 0) + AliError("track has a matched track that was not found"); + else if (esdTrkMatch != esd.GetTrack(idx)) + AliError("wrong track found for ESD track index"); + else { + UInt_t selectInfo = fTrackFilter ? fTrackFilter->IsSelected(esdTrkMatch) : 0; + + if (fUsedTrack[idx]) { + aodTrkMatch = (AliAODTrack*) (*fAODTrackRefs)[idx]; + AliDebug(2, Form("event %lld: existing track (idx %i, pt = %f) matched to TRD track (idx %i, pt = %f), cut flags: 0x%08x", + Entry(), idx, esdTrkMatch->Pt(), iTrdTrack, esdTrdTrk->Pt(), + selectInfo)); + } + else { + if (selectInfo & fUsedTrackCopy[idx]) { + // mask filter bits already used in track copies + selectInfo &= ~fUsedTrackCopy[idx]; + AliWarning(Form("event %lld: copied track (idx %i, pt = %f) matched to TRD track (idx %i, pt = %f), cut flags: 0x%08x -> 0x%08x", + Entry(), idx, esdTrkMatch->Pt(), iTrdTrack, esdTrdTrk->Pt(), + fTrackFilter->IsSelected(esdTrkMatch), selectInfo)); + } + AliDebug(2, Form("event %lld: unused track (idx %i, pt = %f) matched to TRD track (idx %i, pt = %f), cut flags: 0x%08x -> 0x%08x", + Entry(), idx, esdTrkMatch->Pt(), iTrdTrack, esdTrdTrk->Pt(), + fTrackFilter->IsSelected(esdTrkMatch), selectInfo)); + + Double_t mom[3]={0.}; + Double_t pos[3]={0.}; + Double_t covTr[21]={0.}; + Double_t pid[10]={0.}; + + esdTrkMatch->GetPxPyPz(mom); + esdTrkMatch->GetXYZ(pos); + esdTrkMatch->GetCovarianceXYZPxPyPz(covTr); + esdTrkMatch->GetESDpid(pid); + const AliESDVertex* vtx = esd.GetPrimaryVertex(); + + fUsedTrack[idx] = kTRUE; + if(fMChandler) fMChandler->SelectParticle(esdTrkMatch->GetLabel()); + + aodTrkMatch = new(Tracks()[fNumberOfTracks++]) + AliAODTrack(esdTrkMatch->GetID(), + esdTrkMatch->GetLabel(), + mom, + kTRUE, + pos, + kFALSE, + covTr, + (Short_t)esdTrkMatch->GetSign(), + esdTrkMatch->GetITSClusterMap(), + pid, + fPrimaryVertex, + kTRUE, + vtx->UsesTrack(esdTrkMatch->GetID()), + AliAODTrack::kUndef, + selectInfo); + + aodTrkMatch->SetTPCFitMap(esdTrkMatch->GetTPCFitMap()); + aodTrkMatch->SetTPCClusterMap(esdTrkMatch->GetTPCClusterMap()); + aodTrkMatch->SetTPCSharedMap (esdTrkMatch->GetTPCSharedMap()); + aodTrkMatch->SetChi2perNDF(Chi2perNDF(esdTrkMatch)); + aodTrkMatch->SetTPCPointsF(esdTrkMatch->GetTPCNclsF()); + aodTrkMatch->SetTPCNCrossedRows(UShort_t(esdTrkMatch->GetTPCCrossedRows())); + aodTrkMatch->SetIntegratedLength(esdTrkMatch->GetIntegratedLength()); + fAODTrackRefs->AddAt(aodTrkMatch,idx); + if (esdTrkMatch->GetSign() > 0) ++fNumberOfPositiveTracks; + aodTrkMatch->ConvertAliPIDtoAODPID(); + aodTrkMatch->SetFlags(esdTrkMatch->GetStatus()); + } + } + } + aodTrdTrk.SetTrackMatchReference(aodTrkMatch); + } +} + +//______________________________________________________________________________ +void AliAnalysisTaskESDfilter::ConvertESDtoAOD() +{ + // ESD Filter analysis task executed for each event + + AliESDEvent* esd = dynamic_cast(InputEvent()); + + if(!esd)return; + + AliCodeTimerAuto("",0); + + fOldESDformat = ( esd->GetAliESDOld() != 0x0 ); + + // Reconstruct cascades and V0 here + if (fIsV0CascadeRecoEnabled) { + esd->ResetCascades(); + esd->ResetV0s(); + + AliV0vertexer lV0vtxer; + AliCascadeVertexer lCascVtxer; + + lV0vtxer.SetCuts(fV0Cuts); + lCascVtxer.SetCuts(fCascadeCuts); + + + lV0vtxer.Tracks2V0vertices(esd); + lCascVtxer.V0sTracks2CascadeVertices(esd); + } + + + fNumberOfTracks = 0; + fNumberOfPositiveTracks = 0; + fNumberOfV0s = 0; + fNumberOfVertices = 0; + fNumberOfCascades = 0; + fNumberOfKinks = 0; + + AliAODHeader* header = ConvertHeader(*esd); + + if ( fIsVZEROEnabled ) ConvertVZERO(*esd); + if ( fIsTZEROEnabled ) ConvertTZERO(*esd); + + // Fetch Stack for debuggging if available + fMChandler=0x0; + if(MCEvent()) + { + fMChandler = (AliMCEventHandler*) ((AliAnalysisManager::GetAnalysisManager())->GetMCtruthEventHandler()); + } + + // loop over events and fill them + // Multiplicity information needed by the header (to be revised!) + Int_t nTracks = esd->GetNumberOfTracks(); + for (Int_t iTrack=0; iTrackGetTrack(iTrack)->SetESDEvent(esd); + + // Update the header + + Int_t nV0s = esd->GetNumberOfV0s(); + Int_t nCascades = esd->GetNumberOfCascades(); + Int_t nKinks = esd->GetNumberOfKinks(); + Int_t nVertices = nV0s + nCascades /*V0 wihtin cascade already counted*/+ nKinks + 1 /* = prim. vtx*/; + Int_t nPileSPDVertices=1+esd->GetNumberOfPileupVerticesSPD(); // also SPD main vertex + Int_t nPileTrkVertices=esd->GetNumberOfPileupVerticesTracks(); + nVertices+=nPileSPDVertices; + nVertices+=nPileTrkVertices; + Int_t nJets = 0; + Int_t nCaloClus = esd->GetNumberOfCaloClusters(); + Int_t nFmdClus = 0; + Int_t nPmdClus = esd->GetNumberOfPmdTracks(); + Int_t nHmpidRings = 0; + + AliDebug(1,Form(" NV0=%d NCASCADES=%d NKINKS=%d", nV0s, nCascades, nKinks)); + + AODEvent()->ResetStd(nTracks, nVertices, nV0s, nCascades, nJets, nCaloClus, nFmdClus, nPmdClus,nHmpidRings); + + if (nV0s > 0) + { + // RefArray to store a mapping between esd V0 number and newly created AOD-Vertex V0 + fAODV0VtxRefs = new TRefArray(nV0s); + // RefArray to store the mapping between esd V0 number and newly created AOD-V0 + fAODV0Refs = new TRefArray(nV0s); + // Array to take into account the V0s already added to the AOD (V0 within cascades) + fUsedV0 = new Bool_t[nV0s]; + for (Int_t iV0=0; iV00) + { + // RefArray to store the mapping between esd track number and newly created AOD-Track + + fAODTrackRefs = new TRefArray(nTracks); + + // Array to take into account the tracks already added to the AOD + fUsedTrack = new Bool_t[nTracks]; + fUsedTrackCopy = new UInt_t[nTracks]; + for (Int_t iTrack=0; iTrack0) + { + fUsedKink = new Bool_t[nKinks]; + for (Int_t iKink=0; iKink(AliAnalysisManager::GetAnalysisManager()->GetInputEventHandler()); + if (esdH) + fESDpid = esdH->GetESDpid(); + + if (fIsPidOwner && fESDpid){ + delete fESDpid; + fESDpid = 0; + } + if(!fESDpid) + { //in case of no Tender attached + fESDpid = new AliESDpid; + fIsPidOwner = kTRUE; + } + + if(!esd->GetTOFHeader()) + { //protection in case the pass2 LHC10b,c,d have been processed without tender. + Float_t t0spread[10]; + Float_t intrinsicTOFres=100; //ps ok for LHC10b,c,d pass2!! + for (Int_t i=0; i<10; i++) t0spread[i] = (TMath::Sqrt(esd->GetSigma2DiamondZ()))/0.03; //0.03 to convert from cm to ps + fESDpid->GetTOFResponse().SetT0resolution(t0spread); + fESDpid->GetTOFResponse().SetTimeResolution(intrinsicTOFres); + // fESDpid->SetTOFResponse(esd, (AliESDpid::EStartTimeType_t)fTimeZeroType); + AliTOFHeader tmpTOFHeader(0,t0spread[0],0,NULL,NULL,NULL,intrinsicTOFres,t0spread[0]); + AODEvent()->SetTOFHeader(&tmpTOFHeader); // write dummy TOF header in AOD + } else { + AODEvent()->SetTOFHeader(esd->GetTOFHeader()); // write TOF header in AOD + } + + // if(esd->GetTOFHeader() && fIsPidOwner) fESDpid->SetTOFResponse(esd, (AliESDpid::EStartTimeType_t)fTimeZeroType); //in case of AOD production strating form LHC10e without Tender. + + if ( fAreCascadesEnabled ) ConvertCascades(*esd); + + if ( fAreV0sEnabled ) ConvertV0s(*esd); + + if ( fAreKinksEnabled ) ConvertKinks(*esd); + + if ( fAreTracksEnabled ) ConvertTracks(*esd); + + // Update number of AOD tracks in header at the end of track loop (M.G.) + header->SetRefMultiplicity(fNumberOfTracks); + header->SetRefMultiplicityPos(fNumberOfPositiveTracks); + header->SetRefMultiplicityNeg(fNumberOfTracks - fNumberOfPositiveTracks); + + if ( fTPCConstrainedFilterMask ) ConvertTPCOnlyTracks(*esd); + if( fGlobalConstrainedFilterMask) ConvertGlobalConstrainedTracks(*esd); + + if ( fArePmdClustersEnabled ) ConvertPmdClusters(*esd); + + if ( fAreCaloClustersEnabled ) ConvertCaloClusters(*esd); + + if ( fAreEMCALCellsEnabled )ConvertEMCALCells(*esd); + + if ( fArePHOSCellsEnabled )ConvertPHOSCells(*esd); + + if ( fAreEMCALTriggerEnabled )ConvertCaloTrigger(TString("EMCAL"), *esd); + + if ( fArePHOSTriggerEnabled )ConvertCaloTrigger(TString("PHOS"), *esd); + + if ( fAreTrackletsEnabled ) ConvertTracklets(*esd); + if ( fIsZDCEnabled ) ConvertZDC(*esd); + + if(fIsHMPIDEnabled) nHmpidRings = ConvertHMPID(*esd); + + if (fIsTRDEnabled) ConvertTRD(*esd); + + delete fAODTrackRefs; fAODTrackRefs=0x0; + delete fAODV0VtxRefs; fAODV0VtxRefs=0x0; + delete fAODV0Refs; fAODV0Refs=0x0; + + delete[] fUsedTrack; fUsedTrack=0x0; + delete[] fUsedTrackCopy; fUsedTrackCopy=0x0; + delete[] fUsedV0; fUsedV0=0x0; + delete[] fUsedKink; fUsedKink=0x0; + + if ( fIsPidOwner){ + delete fESDpid; + fESDpid = 0x0; + } + + +} + + +//______________________________________________________________________________ +void AliAnalysisTaskESDfilter::SetAODPID(AliESDtrack *esdtrack, AliAODTrack *aodtrack, AliAODPid *detpid) +{ + // + // Setter for the raw PID detector signals + // + + // Save PID object for candidate electrons + Bool_t pidSave = kFALSE; + if (fTrackFilter) { + Bool_t selectInfo = fTrackFilter->IsSelected((char*) "Electrons"); + if (selectInfo) pidSave = kTRUE; + } + + + // Tracks passing pt cut + if(esdtrack->Pt()>fHighPthreshold) { + pidSave = kTRUE; + } else { + if(fPtshape){ + if(esdtrack->Pt()> fPtshape->GetXmin()){ + Double_t y = fPtshape->Eval(esdtrack->Pt())/fPtshape->Eval(fHighPthreshold); + if(gRandom->Rndm(0)<1./y){ + pidSave = kTRUE; + }//end rndm + }//end if p < pmin + }//end if p function + }// end else + + if (pidSave) { + if(!aodtrack->GetDetPid()){// prevent memory leak when calling SetAODPID twice for the same track + detpid = new AliAODPid(); + SetDetectorRawSignals(detpid,esdtrack); + aodtrack->SetDetPID(detpid); + } + } +} + +//______________________________________________________________________________ +void AliAnalysisTaskESDfilter::SetDetectorRawSignals(AliAODPid *aodpid, AliESDtrack *track) +{ +// +//assignment of the detector signals (AliXXXesdPID inspired) +// + if(!track){ + AliInfo("no ESD track found. .....exiting"); + return; + } + // TPC momentum + aodpid->SetTPCmomentum(track->GetTPCmomentum()); + aodpid->SetTPCTgl(track->GetTPCTgl()); +// const AliExternalTrackParam *in=track->GetInnerParam(); +// if (in) { +// aodpid->SetTPCmomentum(in->GetP()); +// }else{ +// aodpid->SetTPCmomentum(-1.); +// } + + + aodpid->SetITSsignal(track->GetITSsignal()); + Double_t itsdedx[4]; // dE/dx samples for individual ITS layers + track->GetITSdEdxSamples(itsdedx); + aodpid->SetITSdEdxSamples(itsdedx); + + aodpid->SetTPCsignal(track->GetTPCsignal()); + aodpid->SetTPCsignalN(track->GetTPCsignalN()); + if(track->GetTPCdEdxInfo()) aodpid->SetTPCdEdxInfo(track->GetTPCdEdxInfo()); + + //n TRD planes = 6 + Int_t nslices = track->GetNumberOfTRDslices()*6; + TArrayD trdslices(nslices); + for(Int_t iSl =0; iSl < track->GetNumberOfTRDslices(); iSl++) { + for(Int_t iPl =0; iPl<6; iPl++) trdslices[iPl*track->GetNumberOfTRDslices()+iSl] = track->GetTRDslice(iPl,iSl); + } + +//TRD momentum + for(Int_t iPl=0;iPl<6;iPl++){ + Double_t trdmom=track->GetTRDmomentum(iPl); + aodpid->SetTRDmomentum(iPl,trdmom); + } + + aodpid->SetTRDslices(track->GetNumberOfTRDslices()*6,trdslices.GetArray()); + aodpid->SetTRDsignal(track->GetTRDsignal()); + + //TRD clusters and tracklets + aodpid->SetTRDncls(track->GetTRDncls()); + aodpid->SetTRDntrackletsPID(track->GetTRDntrackletsPID()); + + aodpid->SetTRDChi2(track->GetTRDchi2()); + + //TOF PID + Double_t times[AliPID::kSPECIES]; track->GetIntegratedTimes(times); + aodpid->SetIntegratedTimes(times); + + // Float_t tzeroTrack = fESDpid->GetTOFResponse().GetStartTime(track->P()); + // aodpid->SetTOFsignal(track->GetTOFsignal()-tzeroTrack); + aodpid->SetTOFsignal(track->GetTOFsignal()); + + Double_t tofRes[5]; + for (Int_t iMass=0; iMass<5; iMass++){ + // tofRes[iMass]=(Double_t)fESDpid->GetTOFResponse().GetExpectedSigma(track->P(), times[iMass], AliPID::ParticleMass(iMass)); + tofRes[iMass]=0; //backward compatibility + } + aodpid->SetTOFpidResolution(tofRes); + +// aodpid->SetHMPIDsignal(0); // set to zero for compression but it will be removed later + +} + +Double_t AliAnalysisTaskESDfilter::Chi2perNDF(AliESDtrack* track) +{ + // Calculate chi2 per ndf for track + Int_t nClustersTPC = track->GetTPCNcls(); + + if ( nClustersTPC > 5) { + return (track->GetTPCchi2()/Float_t(nClustersTPC - 5)); + } else { + return (-1.); + } + } + + +//______________________________________________________________________________ +void AliAnalysisTaskESDfilter::Terminate(Option_t */*option*/) +{ +// Terminate analysis +// + if (fDebug > 1) printf("AnalysisESDfilter: Terminate() \n"); +} + +//______________________________________________________________________________ +void AliAnalysisTaskESDfilter::PrintMCInfo(AliStack *pStack,Int_t label){ +// Print MC info + if(!pStack)return; + label = TMath::Abs(label); + TParticle *part = pStack->Particle(label); + Printf("########################"); + Printf("%s:%d %d UniqueID %d PDG %d P %3.3f",(char*)__FILE__,__LINE__,label,part->GetUniqueID(),part->GetPdgCode(),part->P()); + part->Print(); + TParticle* mother = part; + Int_t imo = part->GetFirstMother(); + Int_t nprim = pStack->GetNprimary(); + // while((imo >= nprim) && (mother->GetUniqueID() == 4)) { + while((imo >= nprim)) { + mother = pStack->Particle(imo); + Printf("Mother %s:%d Label %d UniqueID %d PDG %d P %3.3f",(char*)__FILE__,__LINE__,imo,mother->GetUniqueID(),mother->GetPdgCode(),mother->P()); + mother->Print(); + imo = mother->GetFirstMother(); + } + Printf("########################"); +} + +//______________________________________________________ +