Bug #92237 fixed as Barth suggested

[u/mrichter/AliRoot.git] / ANALYSIS / AliAnalysisTaskESDfilter.cxx

/**************************************************************************\r
 * Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *\r
 *                                                                        *\r
 * Author: The ALICE Off-line Project.                                    *\r
 * Contributors are mentioned in the code where appropriate.              *\r
 *                                                                        *\r
 * Permission to use, copy, modify and distribute this software and its   *\r
 * documentation strictly for non-commercial purposes is hereby granted   *\r
 * without fee, provided that the above copyright notice appears in all   *\r
 * copies and that both the copyright notice and this permission notice   *\r
 * appear in the supporting documentation. The authors make no claims     *\r
 * about the suitability of this software for any purpose. It is          *\r
 * provided "as is" without express or implied warranty.                  *\r
 **************************************************************************/\r
\r
/* $Id$ */\r
 \r
#include <TChain.h>\r
#include <TTree.h>\r
#include <TList.h>\r
#include <TArrayI.h>\r
#include <TParameter.h>\r
#include <TRandom.h>\r
#include <TParticle.h>\r
#include <TFile.h>\r
\r
#include "AliAnalysisTaskESDfilter.h"\r
#include "AliAnalysisManager.h"\r
#include "AliESDEvent.h"\r
#include "AliESDRun.h"\r
#include "AliStack.h"\r
#include "AliAODEvent.h"\r
#include "AliMCEvent.h"\r
#include "AliMCEventHandler.h"\r
#include "AliESDInputHandler.h"\r
#include "AliAODHandler.h"\r
#include "AliAODMCParticle.h"\r
#include "AliAnalysisFilter.h"\r
#include "AliESDMuonTrack.h"\r
#include "AliESDVertex.h"\r
#include "AliCentrality.h"\r
#include "AliEventplane.h"\r
#include "AliESDv0.h"\r
#include "AliESDkink.h"\r
#include "AliESDcascade.h"\r
#include "AliESDPmdTrack.h"\r
#include "AliESDCaloCluster.h"\r
#include "AliESDCaloCells.h"\r
#include "AliMultiplicity.h"\r
#include "AliLog.h"\r
#include "AliCodeTimer.h"\r
#include "AliESDtrackCuts.h"\r
#include "AliESDpid.h"\r
#include "AliV0vertexer.h"\r
#include "AliCascadeVertexer.h"\r
#include "Riostream.h"\r
#include "AliExternalTrackParam.h"\r
#include "AliTrackerBase.h"\r
#include "TVector3.h"\r
\r
ClassImp(AliAnalysisTaskESDfilter)\r
\r
////////////////////////////////////////////////////////////////////////\r
\r
AliAnalysisTaskESDfilter::AliAnalysisTaskESDfilter():\r
  AliAnalysisTaskSE(),\r
  fTrackFilter(0x0),\r
  fKinkFilter(0x0),\r
  fV0Filter(0x0),\r
  fCascadeFilter(0x0),\r
  fHighPthreshold(0),\r
  fPtshape(0x0),\r
  fEnableFillAOD(kTRUE),\r
  fUsedTrack(0x0),\r
  fUsedKink(0x0),\r
  fUsedV0(0x0),\r
  fAODTrackRefs(0x0),\r
  fAODV0VtxRefs(0x0),\r
  fAODV0Refs(0x0),\r
  fMChandler(0x0),\r
  fNumberOfTracks(0),\r
  fNumberOfPositiveTracks(0),\r
  fNumberOfV0s(0),\r
  fNumberOfVertices(0),\r
  fNumberOfCascades(0),\r
  fNumberOfKinks(0),\r
  fOldESDformat(kFALSE),\r
  fPrimaryVertex(0x0),\r
  fTPCConstrainedFilterMask(0),\r
  fHybridFilterMaskTPCCG(0),\r
  fWriteHybridTPCCOnly(kFALSE),\r
  fGlobalConstrainedFilterMask(0),\r
  fHybridFilterMaskGCG(0),\r
  fWriteHybridGCOnly(kFALSE),\r
  fIsVZEROEnabled(kTRUE),\r
  fIsTZEROEnabled(kTRUE),\r
  fIsZDCEnabled(kTRUE),\r
  fIsV0CascadeRecoEnabled(kFALSE),\r
  fAreCascadesEnabled(kTRUE),\r
  fAreV0sEnabled(kTRUE),\r
  fAreKinksEnabled(kTRUE),\r
  fAreTracksEnabled(kTRUE),\r
  fArePmdClustersEnabled(kTRUE),\r
  fAreCaloClustersEnabled(kTRUE),\r
  fAreEMCALCellsEnabled(kTRUE),\r
  fArePHOSCellsEnabled(kTRUE),\r
  fAreEMCALTriggerEnabled(kTRUE),\r
  fArePHOSTriggerEnabled(kTRUE),\r
  fAreTrackletsEnabled(kTRUE),\r
  fESDpid(0x0),\r
  fIsPidOwner(kFALSE),\r
  fTimeZeroType(AliESDpid::kTOF_T0),\r
  fTPCaloneTrackCuts(0),\r
  fDoPropagateTrackToEMCal(kTRUE)\r
{\r
  // Default constructor\r
    fV0Cuts[0] =  33.   ;   // max allowed chi2\r
    fV0Cuts[1] =   0.1  ;   // min allowed impact parameter for the 1st daughter\r
    fV0Cuts[2] =   0.1  ;   // min allowed impact parameter for the 2nd daughter\r
    fV0Cuts[3] =   1.   ;   // max allowed DCA between the daughter tracks\r
    fV0Cuts[4] =    .998;   // min allowed cosine of V0's pointing angle\r
    fV0Cuts[5] =   0.9  ;   // min radius of the fiducial volume\r
    fV0Cuts[6] = 100.   ;   // max radius of the fiducial volume\r
\r
    fCascadeCuts[0] =  33.   ; // max allowed chi2 (same as PDC07)\r
    fCascadeCuts[1] =   0.05 ; // min allowed V0 impact parameter\r
    fCascadeCuts[2] =   0.008; // "window" around the Lambda mass\r
    fCascadeCuts[3] =   0.03 ; // min allowed bachelor's impact parameter\r
    fCascadeCuts[4] =   0.3  ; // max allowed DCA between the V0 and the bachelor\r
    fCascadeCuts[5] =   0.999; // min allowed cosine of the cascade pointing angle\r
    fCascadeCuts[6] =   0.9  ; // min radius of the fiducial volume\r
    fCascadeCuts[7] = 100.   ; // max radius of the fiducial volume\r
}\r
\r
//______________________________________________________________________________\r
AliAnalysisTaskESDfilter::AliAnalysisTaskESDfilter(const char* name):\r
    AliAnalysisTaskSE(name),\r
    fTrackFilter(0x0),\r
    fKinkFilter(0x0),\r
    fV0Filter(0x0),\r
    fCascadeFilter(0x0),\r
    fHighPthreshold(0),\r
    fPtshape(0x0),\r
    fEnableFillAOD(kTRUE),\r
    fUsedTrack(0x0),\r
    fUsedKink(0x0),\r
    fUsedV0(0x0),\r
    fAODTrackRefs(0x0),\r
    fAODV0VtxRefs(0x0),\r
    fAODV0Refs(0x0),\r
    fMChandler(0x0),\r
    fNumberOfTracks(0),\r
    fNumberOfPositiveTracks(0),\r
    fNumberOfV0s(0),\r
    fNumberOfVertices(0),\r
    fNumberOfCascades(0),\r
    fNumberOfKinks(0),\r
    fOldESDformat(kFALSE),\r
    fPrimaryVertex(0x0),\r
  fTPCConstrainedFilterMask(0),\r
  fHybridFilterMaskTPCCG(0),\r
  fWriteHybridTPCCOnly(kFALSE),\r
  fGlobalConstrainedFilterMask(0),\r
  fHybridFilterMaskGCG(0),\r
  fWriteHybridGCOnly(kFALSE),\r
    fIsVZEROEnabled(kTRUE),\r
    fIsTZEROEnabled(kTRUE),\r
    fIsZDCEnabled(kTRUE),\r
    fIsV0CascadeRecoEnabled(kFALSE),\r
    fAreCascadesEnabled(kTRUE),\r
    fAreV0sEnabled(kTRUE),\r
    fAreKinksEnabled(kTRUE),\r
    fAreTracksEnabled(kTRUE),\r
    fArePmdClustersEnabled(kTRUE),\r
    fAreCaloClustersEnabled(kTRUE),\r
    fAreEMCALCellsEnabled(kTRUE),\r
    fArePHOSCellsEnabled(kTRUE),\r
                fAreEMCALTriggerEnabled(kTRUE),\r
                fArePHOSTriggerEnabled(kTRUE),\r
                fAreTrackletsEnabled(kTRUE),\r
    fESDpid(0x0),\r
    fIsPidOwner(kFALSE),\r
    fTimeZeroType(AliESDpid::kTOF_T0),\r
    fTPCaloneTrackCuts(0),\r
  fDoPropagateTrackToEMCal(kTRUE)\r
{\r
  // Constructor\r
\r
    fV0Cuts[0] =  33.   ;   // max allowed chi2\r
    fV0Cuts[1] =   0.1  ;   // min allowed impact parameter for the 1st daughter\r
    fV0Cuts[2] =   0.1  ;   // min allowed impact parameter for the 2nd daughter\r
    fV0Cuts[3] =   1.   ;   // max allowed DCA between the daughter tracks\r
    fV0Cuts[4] =    .998;   // min allowed cosine of V0's pointing angle\r
    fV0Cuts[5] =   0.9  ;   // min radius of the fiducial volume\r
    fV0Cuts[6] = 100.   ;   // max radius of the fiducial volume\r
\r
    fCascadeCuts[0] =  33.   ; // max allowed chi2 (same as PDC07)\r
    fCascadeCuts[1] =   0.05 ; // min allowed V0 impact parameter\r
    fCascadeCuts[2] =   0.008; // "window" around the Lambda mass\r
    fCascadeCuts[3] =   0.03 ; // min allowed bachelor's impact parameter\r
    fCascadeCuts[4] =   0.3  ; // max allowed DCA between the V0 and the bachelor\r
    fCascadeCuts[5] =   0.999; // min allowed cosine of the cascade pointing angle\r
    fCascadeCuts[6] =   0.9  ; // min radius of the fiducial volume\r
    fCascadeCuts[7] = 100.   ; // max radius of the fiducial volume\r
\r
\r
\r
}\r
AliAnalysisTaskESDfilter::~AliAnalysisTaskESDfilter(){\r
    if(fIsPidOwner) delete fESDpid;\r
}\r
//______________________________________________________________________________\r
void AliAnalysisTaskESDfilter::UserCreateOutputObjects()\r
{\r
  //\r
  // Create Output Objects conenct filter to outputtree\r
  // \r
  if(OutputTree())\r
  {\r
    OutputTree()->GetUserInfo()->Add(fTrackFilter);\r
  }\r
  else\r
  {\r
    AliError("No OutputTree() for adding the track filter");\r
  }\r
  fTPCaloneTrackCuts = AliESDtrackCuts::GetStandardTPCOnlyTrackCuts();\r
}\r
\r
//______________________________________________________________________________\r
void AliAnalysisTaskESDfilter::Init()\r
{\r
  // Initialization\r
  if (fDebug > 1) AliInfo("Init() \n");\r
  // Call configuration file\r
}\r
\r
//______________________________________________________________________________\r
void AliAnalysisTaskESDfilter::PrintTask(Option_t *option, Int_t indent) const\r
{\r
// Print selection task information\r
  AliInfo("");\r
  \r
  AliAnalysisTaskSE::PrintTask(option,indent);\r
  \r
  TString spaces(' ',indent+3);\r
  \r
        cout << spaces.Data() << Form("Cascades       are %s",fAreCascadesEnabled ? "ENABLED":"DISABLED") << endl;\r
        cout << spaces.Data() << Form("V0s            are %s",fAreV0sEnabled ? "ENABLED":"DISABLED") << endl;\r
        cout << spaces.Data() << Form("Kinks          are %s",fAreKinksEnabled ? "ENABLED":"DISABLED") << endl;\r
        cout << spaces.Data() << Form("Tracks         are %s",fAreTracksEnabled ? "ENABLED":"DISABLED") << endl;\r
        cout << spaces.Data() << Form("PmdClusters    are %s",fArePmdClustersEnabled ? "ENABLED":"DISABLED") << endl;\r
        cout << spaces.Data() << Form("CaloClusters   are %s",fAreCaloClustersEnabled ? "ENABLED":"DISABLED") << endl;\r
  cout << spaces.Data() << Form("EMCAL cells    are %s",fAreEMCALCellsEnabled ? "ENABLED":"DISABLED") << endl;\r
        cout << spaces.Data() << Form("EMCAL triggers are %s",fAreEMCALTriggerEnabled ? "ENABLED":"DISABLED") << endl;\r
        cout << spaces.Data() << Form("PHOS triggers  are %s",fArePHOSTriggerEnabled ? "ENABLED":"DISABLED") << endl;\r
        cout << spaces.Data() << Form("Tracklets      are %s",fAreTrackletsEnabled ? "ENABLED":"DISABLED") << endl;  \r
        cout << spaces.Data() << Form("PropagateTrackToEMCal  is %s", fDoPropagateTrackToEMCal ? "ENABLED":"DISABLED") << endl; \r
}\r
\r
//______________________________________________________________________________\r
void AliAnalysisTaskESDfilter::UserExec(Option_t */*option*/)\r
{\r
// Execute analysis for current event\r
//\r
                                            \r
  Long64_t ientry = Entry();\r
  \r
  if (fDebug > 0) {\r
      printf("Filter: Analysing event # %5d\n", (Int_t) ientry);\r
      if (fHighPthreshold == 0) AliInfo("detector PID signals are stored in each track");\r
      if (!fPtshape) AliInfo("detector PID signals are not stored below the pt threshold");\r
  }\r
  // Filters must explicitely enable AOD filling in their UserExec (AG)\r
  if (!AliAnalysisManager::GetAnalysisManager()->GetOutputEventHandler()) AliFatal("Cannot run ESD filter without an output event handler");\r
  if(fEnableFillAOD) {\r
     AliAnalysisManager::GetAnalysisManager()->GetOutputEventHandler()->SetFillAOD(kTRUE);\r
     AliAnalysisManager::GetAnalysisManager()->GetOutputEventHandler()->SetFillExtension(kTRUE);\r
  }   \r
  ConvertESDtoAOD();\r
}\r
\r
//______________________________________________________________________________\r
TClonesArray& AliAnalysisTaskESDfilter::Cascades()\r
{\r
  return *(AODEvent()->GetCascades());\r
}\r
\r
//______________________________________________________________________________\r
TClonesArray& AliAnalysisTaskESDfilter::Tracks()\r
{\r
  return *(AODEvent()->GetTracks());\r
}\r
\r
//______________________________________________________________________________\r
TClonesArray& AliAnalysisTaskESDfilter::V0s()\r
{\r
  return *(AODEvent()->GetV0s());\r
}\r
\r
//______________________________________________________________________________\r
TClonesArray& AliAnalysisTaskESDfilter::Vertices()\r
{\r
  return *(AODEvent()->GetVertices());\r
}\r
\r
//______________________________________________________________________________\r
AliAODHeader* AliAnalysisTaskESDfilter::ConvertHeader(const AliESDEvent& esd)\r
{\r
// Convert header information\r
\r
  AliCodeTimerAuto("",0);\r
  \r
  AliAODHeader* header = AODEvent()->GetHeader();\r
  \r
  header->SetRunNumber(esd.GetRunNumber());\r
  header->SetOfflineTrigger(fInputHandler->IsEventSelected()); // propagate the decision of the physics selection\r
\r
  TTree* tree = fInputHandler->GetTree();\r
  if (tree) {\r
    TFile* file = tree->GetCurrentFile();\r
    if (file) header->SetESDFileName(file->GetName());\r
  }\r
  \r
  if (fOldESDformat) {\r
    header->SetBunchCrossNumber(0);\r
    header->SetOrbitNumber(0);\r
    header->SetPeriodNumber(0);\r
    header->SetEventType(0);\r
    header->SetMuonMagFieldScale(-999.);\r
    header->SetCentrality(0);       \r
    header->SetEventplane(0);\r
  } else {\r
    header->SetBunchCrossNumber(esd.GetBunchCrossNumber());\r
    header->SetOrbitNumber(esd.GetOrbitNumber());\r
    header->SetPeriodNumber(esd.GetPeriodNumber());\r
    header->SetEventType(esd.GetEventType());\r
    \r
    header->SetEventNumberESDFile(esd.GetHeader()->GetEventNumberInFile());\r
    if(const_cast<AliESDEvent&>(esd).GetCentrality()){\r
      header->SetCentrality(const_cast<AliESDEvent&>(esd).GetCentrality());\r
    }\r
    else{\r
      header->SetCentrality(0);\r
    }\r
    if(const_cast<AliESDEvent&>(esd).GetEventplane()){\r
      header->SetEventplane(const_cast<AliESDEvent&>(esd).GetEventplane());\r
    }\r
    else{\r
      header->SetEventplane(0);\r
    }\r
  }\r
  \r
  // Trigger\r
  header->SetFiredTriggerClasses(esd.GetFiredTriggerClasses());\r
  header->SetTriggerMask(esd.GetTriggerMask()); \r
  header->SetTriggerCluster(esd.GetTriggerCluster());\r
  header->SetL0TriggerInputs(esd.GetHeader()->GetL0TriggerInputs());    \r
  header->SetL1TriggerInputs(esd.GetHeader()->GetL1TriggerInputs());    \r
  header->SetL2TriggerInputs(esd.GetHeader()->GetL2TriggerInputs());    \r
  \r
  header->SetMagneticField(esd.GetMagneticField());\r
  header->SetMuonMagFieldScale(esd.GetCurrentDip()/6000.);\r
  header->SetZDCN1Energy(esd.GetZDCN1Energy());\r
  header->SetZDCP1Energy(esd.GetZDCP1Energy());\r
  header->SetZDCN2Energy(esd.GetZDCN2Energy());\r
  header->SetZDCP2Energy(esd.GetZDCP2Energy());\r
  header->SetZDCEMEnergy(esd.GetZDCEMEnergy(0),esd.GetZDCEMEnergy(1));\r
  \r
  // ITS Cluster Multiplicty\r
  const AliMultiplicity *mult = esd.GetMultiplicity();\r
  for (Int_t ilay = 0; ilay < 6; ilay++) header->SetITSClusters(ilay, mult->GetNumberOfITSClusters(ilay));\r
  \r
  // TPC only Reference Multiplicty\r
  Int_t refMult  = fTPCaloneTrackCuts ? (Short_t)fTPCaloneTrackCuts->GetReferenceMultiplicity(&esd, kTRUE) : -1;\r
  header->SetTPConlyRefMultiplicity(refMult);\r
  \r
  //\r
  Float_t diamxy[2]={esd.GetDiamondX(),esd.GetDiamondY()};\r
  Float_t diamcov[3]; \r
  esd.GetDiamondCovXY(diamcov);\r
  header->SetDiamond(diamxy,diamcov);\r
  header->SetDiamondZ(esd.GetDiamondZ(),esd.GetSigma2DiamondZ());\r
  \r
  // VZERO channel equalization factors for event-plane reconstruction   \r
  header->SetVZEROEqFactors(esd.GetVZEROEqFactors());\r
\r
  return header;\r
}\r
\r
//______________________________________________________________________________\r
void AliAnalysisTaskESDfilter::ConvertCascades(const AliESDEvent& esd) \r
{\r
\r
  // Convert the cascades part of the ESD.\r
  // Return the number of cascades\r
 \r
  AliCodeTimerAuto("",0);\r
  \r
  // Create vertices starting from the most complex objects\r
  Double_t chi2 = 0.;\r
  \r
  const AliESDVertex* vtx = esd.GetPrimaryVertex();\r
  Double_t pos[3] = { 0. };\r
  Double_t covVtx[6] = { 0. };\r
  Double_t momBach[3]={0.};\r
  Double_t covTr[21]={0.};\r
  Double_t pid[10]={0.};\r
  AliAODPid* detpid(0x0);\r
  AliAODVertex* vV0FromCascade(0x0);\r
  AliAODv0* aodV0(0x0);\r
  AliAODcascade* aodCascade(0x0);\r
  AliAODTrack* aodTrack(0x0);\r
  Double_t momPos[3]={0.};\r
  Double_t momNeg[3] = { 0. };\r
  Double_t momPosAtV0vtx[3]={0.};\r
  Double_t momNegAtV0vtx[3]={0.};\r
\r
  TClonesArray& verticesArray = Vertices();\r
  TClonesArray& tracksArray = Tracks();\r
  TClonesArray& cascadesArray = Cascades();\r
  \r
  // Cascades (Modified by A.Maire - February 2009)\r
  for (Int_t nCascade = 0; nCascade < esd.GetNumberOfCascades(); ++nCascade) {\r
    \r
    // 0- Preparation\r
    //\r
    AliESDcascade *esdCascade = esd.GetCascade(nCascade);\r
                Int_t  idxPosFromV0Dghter  = esdCascade->GetPindex();\r
                Int_t  idxNegFromV0Dghter  = esdCascade->GetNindex();\r
                Int_t  idxBachFromCascade  = esdCascade->GetBindex();\r
    \r
    AliESDtrack  *esdCascadePos  = esd.GetTrack( idxPosFromV0Dghter);\r
    AliESDtrack  *esdCascadeNeg  = esd.GetTrack( idxNegFromV0Dghter);\r
    AliESDtrack  *esdCascadeBach = esd.GetTrack( idxBachFromCascade);\r
    \r
    // Identification of the V0 within the esdCascade (via both daughter track indices)\r
    AliESDv0 * currentV0   = 0x0;\r
    Int_t      idxV0FromCascade = -1;\r
    \r
    for (Int_t iV0=0; iV0<esd.GetNumberOfV0s(); ++iV0) {\r
      \r
      currentV0 = esd.GetV0(iV0);\r
      Int_t posCurrentV0 = currentV0->GetPindex();\r
      Int_t negCurrentV0 = currentV0->GetNindex();\r
      \r
      if (posCurrentV0==idxPosFromV0Dghter && negCurrentV0==idxNegFromV0Dghter) {\r
        idxV0FromCascade = iV0;\r
        break;\r
      }\r
    }\r
    \r
    if(idxV0FromCascade < 0){\r
      printf("Cascade - no matching for the V0 (index V0 = -1) ! Skip ... \n");\r
      continue;\r
    }// a priori, useless check, but safer ... in case of pb with tracks "out of bounds"\r
    \r
    AliESDv0 *esdV0FromCascade   = esd.GetV0(idxV0FromCascade);\r
        \r
    // 1 - Cascade selection \r
    \r
    //  AliESDVertex *esdPrimVtx = new AliESDVertex(*(esd.GetPrimaryVertex()));\r
    //  TList cascadeObjects;\r
    //  cascadeObjects.AddAt(esdV0FromCascade, 0);\r
    //  cascadeObjects.AddAt(esdCascadePos,    1);\r
    //  cascadeObjects.AddAt(esdCascadeNeg,    2);\r
    //  cascadeObjects.AddAt(esdCascade,       3);\r
    //  cascadeObjects.AddAt(esdCascadeBach,   4);\r
    //  cascadeObjects.AddAt(esdPrimVtx,       5);\r
    // \r
    //  UInt_t selectCascade = 0;\r
    //  if (fCascadeFilter) {\r
    //    // selectCascade = fCascadeFilter->IsSelected(&cascadeObjects); \r
    //          // FIXME AliESDCascadeCuts to be implemented ...\r
    // \r
    //          // Here we may encounter a moot point at the V0 level \r
    //          // between the cascade selections and the V0 ones :\r
    //          // the V0 selected along with the cascade (secondary V0) may \r
    //          // usually be removed from the dedicated V0 selections (prim V0) ...\r
    //          // -> To be discussed !\r
    // \r
    //    // this is a little awkward but otherwise the \r
    //    // list wants to access the pointer (delete it) \r
    //    // again when going out of scope\r
    //    delete cascadeObjects.RemoveAt(5); // esdPrimVtx created via copy construct\r
    //    esdPrimVtx = 0;\r
    //    if (!selectCascade) \r
    //      continue;\r
    //  }\r
    //  else{\r
    //    delete cascadeObjects.RemoveAt(5); // esdPrimVtx created via copy construct\r
    //    esdPrimVtx = 0;\r
    //  }\r
    \r
    // 2 - Add the cascade vertex\r
    \r
    esdCascade->GetXYZcascade(pos[0], pos[1], pos[2]);\r
    esdCascade->GetPosCovXi(covVtx);\r
    chi2 = esdCascade->GetChi2Xi(); \r
    \r
    AliAODVertex *vCascade = new(verticesArray[fNumberOfVertices++]) AliAODVertex( pos,\r
                                                                     covVtx,\r
                                                                     chi2, // FIXME = Chi2/NDF will be needed\r
                                                                     fPrimaryVertex,\r
                                                                     nCascade, // id\r
                                                                     AliAODVertex::kCascade);\r
    fPrimaryVertex->AddDaughter(vCascade);\r
    \r
//    if (fDebug > 2) {\r
//      printf("---- Cascade / Cascade Vertex (AOD) : \n");\r
//      vCascade->Print();\r
//    }\r
    \r
    if(esd.GetTOFHeader() && fIsPidOwner) fESDpid->SetTOFResponse(const_cast<AliESDEvent*>(&esd), (AliESDpid::EStartTimeType_t)fTimeZeroType); //in case of AOD production strating form LHC10e without Tender. \r
\r
\r
    // 3 - Add the bachelor track from the cascade\r
    \r
    if (!fUsedTrack[idxBachFromCascade]) {\r
      \r
      esdCascadeBach->GetPxPyPz(momBach);\r
      esdCascadeBach->GetXYZ(pos);\r
      esdCascadeBach->GetCovarianceXYZPxPyPz(covTr);\r
      esdCascadeBach->GetESDpid(pid);\r
      \r
            fUsedTrack[idxBachFromCascade] = kTRUE;\r
            UInt_t selectInfo = 0;\r
            if (fTrackFilter) selectInfo = fTrackFilter->IsSelected(esdCascadeBach);\r
            if (fMChandler) fMChandler->SelectParticle(esdCascadeBach->GetLabel());\r
            aodTrack = new(tracksArray[fNumberOfTracks++]) AliAODTrack(esdCascadeBach->GetID(),\r
                                                                           esdCascadeBach->GetLabel(), \r
                                                                           momBach, \r
                                                                           kTRUE,\r
                                                                           pos,\r
                                                                           kFALSE, // Why kFALSE for "isDCA" ? FIXME\r
                                                                           covTr, \r
                                                                           (Short_t)esdCascadeBach->GetSign(),\r
                                                                           esdCascadeBach->GetITSClusterMap(), \r
                                                                           pid,\r
                                                                           vCascade,\r
                                                                           kTRUE,  // usedForVtxFit = kFALSE ? FIXME\r
                                                                           vtx->UsesTrack(esdCascadeBach->GetID()),\r
                                                                           AliAODTrack::kSecondary,\r
                                                                           selectInfo);\r
            aodTrack->SetTPCFitMap(esdCascadeBach->GetTPCFitMap());\r
            aodTrack->SetTPCClusterMap(esdCascadeBach->GetTPCClusterMap());\r
            aodTrack->SetTPCSharedMap (esdCascadeBach->GetTPCSharedMap());\r
            aodTrack->SetChi2perNDF(Chi2perNDF(esdCascadeBach));\r
            aodTrack->SetTPCPointsF(esdCascadeBach->GetTPCNclsF());\r
            fAODTrackRefs->AddAt(aodTrack,idxBachFromCascade);\r
            \r
            if (esdCascadeBach->GetSign() > 0) ++fNumberOfPositiveTracks;\r
            aodTrack->ConvertAliPIDtoAODPID();\r
            aodTrack->SetFlags(esdCascadeBach->GetStatus());\r
      SetAODPID(esdCascadeBach,aodTrack,detpid);\r
    }\r
    else {\r
            aodTrack = static_cast<AliAODTrack*>( fAODTrackRefs->At(idxBachFromCascade) );\r
    }\r
    \r
    vCascade->AddDaughter(aodTrack);\r
    \r
//    if (fDebug > 4) {\r
//      printf("---- Cascade / bach dghter : \n");\r
//      aodTrack->Print();\r
//    }\r
    \r
    \r
    // 4 - Add the V0 from the cascade. \r
    // = V0vtx + both pos and neg daughter tracks + the aodV0 itself\r
    //\r
    \r
    if ( !fUsedV0[idxV0FromCascade] ) {\r
      // 4.A - if VO structure hasn't been created yet\r
      \r
      // 4.A.1 - Create the V0 vertex of the cascade\r
      \r
      esdV0FromCascade->GetXYZ(pos[0], pos[1], pos[2]);\r
      esdV0FromCascade->GetPosCov(covVtx);\r
      chi2 = esdV0FromCascade->GetChi2V0();  // = chi2/NDF since NDF = 2*2-3 ?\r
                        \r
      vV0FromCascade = new(verticesArray[fNumberOfVertices++]) AliAODVertex(pos,\r
                                                                         covVtx,\r
                                                                         chi2,\r
                                                                         vCascade,\r
                                                                         idxV0FromCascade, //id of ESDv0\r
                                                                         AliAODVertex::kV0);\r
      // Note:\r
      //    one V0 can be used by several cascades.\r
      // So, one AOD V0 vtx can have several parent vtx.\r
      // This is not directly allowed by AliAODvertex.\r
      // Setting the parent vtx (here = param "vCascade") doesn't lead to a crash\r
      // but to a problem of consistency within AODEvent.\r
      // -> See below paragraph 4.B, for the proposed treatment of such a case.\r
      \r
      // Add the vV0FromCascade to the aodVOVtxRefs\r
      fAODV0VtxRefs->AddAt(vV0FromCascade,idxV0FromCascade);\r
      \r
      \r
      // 4.A.2 - Add the positive tracks from the V0\r
      \r
      esdCascadePos->GetPxPyPz(momPos);\r
      esdCascadePos->GetXYZ(pos);\r
      esdCascadePos->GetCovarianceXYZPxPyPz(covTr);\r
      esdCascadePos->GetESDpid(pid);\r
      \r
      \r
      if (!fUsedTrack[idxPosFromV0Dghter]) {\r
        fUsedTrack[idxPosFromV0Dghter] = kTRUE;\r
        \r
        UInt_t selectInfo = 0;\r
        if (fTrackFilter) selectInfo = fTrackFilter->IsSelected(esdCascadePos);\r
        if(fMChandler) fMChandler->SelectParticle(esdCascadePos->GetLabel());\r
        aodTrack = new(tracksArray[fNumberOfTracks++]) \r
        AliAODTrack(  esdCascadePos->GetID(),\r
                    esdCascadePos->GetLabel(), \r
                    momPos, \r
                    kTRUE,\r
                    pos,\r
                    kFALSE, // Why kFALSE for "isDCA" ? FIXME\r
                    covTr, \r
                    (Short_t)esdCascadePos->GetSign(),\r
                    esdCascadePos->GetITSClusterMap(), \r
                    pid,\r
                    vV0FromCascade,\r
                    kTRUE,  // usedForVtxFit = kFALSE ? FIXME\r
                    vtx->UsesTrack(esdCascadePos->GetID()),\r
                    AliAODTrack::kSecondary,\r
                    selectInfo);\r
        aodTrack->SetTPCFitMap(esdCascadePos->GetTPCFitMap());\r
        aodTrack->SetTPCClusterMap(esdCascadePos->GetTPCClusterMap());\r
        aodTrack->SetTPCSharedMap (esdCascadePos->GetTPCSharedMap());\r
        aodTrack->SetChi2perNDF(Chi2perNDF(esdCascadePos));\r
        aodTrack->SetTPCPointsF(esdCascadePos->GetTPCNclsF());\r
        fAODTrackRefs->AddAt(aodTrack,idxPosFromV0Dghter);\r
        \r
        if (esdCascadePos->GetSign() > 0) ++fNumberOfPositiveTracks;\r
        aodTrack->ConvertAliPIDtoAODPID();\r
        aodTrack->SetFlags(esdCascadePos->GetStatus());\r
        SetAODPID(esdCascadePos,aodTrack,detpid);\r
      }\r
      else {\r
        aodTrack = static_cast<AliAODTrack*>(fAODTrackRefs->At(idxPosFromV0Dghter));\r
      }\r
      vV0FromCascade->AddDaughter(aodTrack);\r
      \r
      \r
      // 4.A.3 - Add the negative tracks from the V0\r
      \r
      esdCascadeNeg->GetPxPyPz(momNeg);\r
      esdCascadeNeg->GetXYZ(pos);\r
      esdCascadeNeg->GetCovarianceXYZPxPyPz(covTr);\r
      esdCascadeNeg->GetESDpid(pid);\r
      \r
      \r
      if (!fUsedTrack[idxNegFromV0Dghter]) {\r
        fUsedTrack[idxNegFromV0Dghter] = kTRUE;\r
        \r
        UInt_t selectInfo = 0;\r
        if (fTrackFilter) selectInfo = fTrackFilter->IsSelected(esdCascadeNeg);\r
        if(fMChandler)fMChandler->SelectParticle(esdCascadeNeg->GetLabel());\r
        aodTrack = new(tracksArray[fNumberOfTracks++]) AliAODTrack(  esdCascadeNeg->GetID(),\r
                                                      esdCascadeNeg->GetLabel(),\r
                                                      momNeg,\r
                                                      kTRUE,\r
                                                      pos,\r
                                                      kFALSE, // Why kFALSE for "isDCA" ? FIXME\r
                                                      covTr, \r
                                                      (Short_t)esdCascadeNeg->GetSign(),\r
                                                      esdCascadeNeg->GetITSClusterMap(), \r
                                                      pid,\r
                                                      vV0FromCascade,\r
                                                      kTRUE,  // usedForVtxFit = kFALSE ? FIXME\r
                                                      vtx->UsesTrack(esdCascadeNeg->GetID()),\r
                                                      AliAODTrack::kSecondary,\r
                                                      selectInfo);\r
        aodTrack->SetTPCFitMap(esdCascadeNeg->GetTPCFitMap());\r
        aodTrack->SetTPCClusterMap(esdCascadeNeg->GetTPCClusterMap());\r
        aodTrack->SetTPCSharedMap (esdCascadeNeg->GetTPCSharedMap());\r
        aodTrack->SetChi2perNDF(Chi2perNDF(esdCascadeNeg));\r
        aodTrack->SetTPCPointsF(esdCascadeNeg->GetTPCNclsF());\r
        fAODTrackRefs->AddAt(aodTrack,idxNegFromV0Dghter);\r
        \r
        if (esdCascadeNeg->GetSign() > 0) ++fNumberOfPositiveTracks;\r
        aodTrack->ConvertAliPIDtoAODPID();\r
        aodTrack->SetFlags(esdCascadeNeg->GetStatus());\r
        SetAODPID(esdCascadeNeg,aodTrack,detpid);\r
      }\r
      else {\r
        aodTrack = static_cast<AliAODTrack*>(fAODTrackRefs->At(idxNegFromV0Dghter));\r
      }\r
      \r
      vV0FromCascade->AddDaughter(aodTrack);\r
      \r
                        \r
      // 4.A.4 - Add the V0 from cascade to the V0 array\r
      \r
      Double_t  dcaV0Daughters      = esdV0FromCascade->GetDcaV0Daughters();\r
      Double_t  dcaV0ToPrimVertex   = esdV0FromCascade->GetD( esd.GetPrimaryVertex()->GetX(),\r
                                                             esd.GetPrimaryVertex()->GetY(),\r
                                                             esd.GetPrimaryVertex()->GetZ() );\r
      esdV0FromCascade->GetPPxPyPz( momPosAtV0vtx[0],momPosAtV0vtx[1],momPosAtV0vtx[2] ); \r
      esdV0FromCascade->GetNPxPyPz( momNegAtV0vtx[0],momNegAtV0vtx[1],momNegAtV0vtx[2] ); \r
      \r
      Double_t dcaDaughterToPrimVertex[2] = { 999., 999.}; // ..[0] = DCA in (x,y) for Pos and ..[1] = Neg\r
      dcaDaughterToPrimVertex[0] = TMath::Abs(esdCascadePos->GetD(      esd.GetPrimaryVertex()->GetX(),\r
                                                                  esd.GetPrimaryVertex()->GetY(),\r
                                                                  esd.GetMagneticField())        );\r
      dcaDaughterToPrimVertex[1] = TMath::Abs(esdCascadeNeg->GetD(      esd.GetPrimaryVertex()->GetX(),\r
                                                                  esd.GetPrimaryVertex()->GetY(),\r
                                                                  esd.GetMagneticField())        );\r
      \r
      aodV0 = new(V0s()[fNumberOfV0s++]) AliAODv0( vV0FromCascade, \r
                                                  dcaV0Daughters,\r
                                                  dcaV0ToPrimVertex, \r
                                                  momPosAtV0vtx, \r
                                                  momNegAtV0vtx, \r
                                                  dcaDaughterToPrimVertex); \r
      // set the aod v0 on-the-fly status\r
      aodV0->SetOnFlyStatus(esdV0FromCascade->GetOnFlyStatus());\r
      \r
      // Add the aodV0 to the aodVORefs\r
      fAODV0Refs->AddAt(aodV0,idxV0FromCascade);\r
      \r
      fUsedV0[idxV0FromCascade] = kTRUE;\r
      \r
    } else { \r
      // 4.B - if V0 structure already used\r
      \r
      // Note :\r
      //    one V0 can be used by several cascades (frequent in PbPb evts) : \r
      // same V0 which used but attached to different bachelor tracks\r
      // -> aodVORefs and fAODV0VtxRefs are needed.\r
      // Goal : avoid a redundancy of the info in "Vertices" and "v0s" clones array.\r
      \r
      vV0FromCascade = static_cast<AliAODVertex*>( fAODV0VtxRefs->At(idxV0FromCascade) );\r
      aodV0          = static_cast<AliAODv0*>    ( fAODV0Refs   ->At(idxV0FromCascade) );\r
      \r
      // - Treatment of the parent for such a "re-used" V0 :\r
      // Insert the cascade that reuses the V0 vertex in the lineage chain\r
      // Before : vV0 -> vCascade1 -> vPrimary\r
      //  - Hyp : cascade2 uses the same V0 as cascade1\r
      //  After :  vV0 -> vCascade2 -> vCascade1 -> vPrimary\r
      \r
      AliAODVertex *vCascadePreviousParent = static_cast<AliAODVertex*> (vV0FromCascade->GetParent());\r
                        vV0FromCascade->SetParent(vCascade);\r
                        vCascade      ->SetParent(vCascadePreviousParent);\r
      \r
//      if(fDebug > 2)  \r
//        printf("---- Cascade / Lineage insertion\n"\r
//               "Parent of V0 vtx                 = Cascade vtx %p\n"\r
//               "Parent of the cascade vtx        = Cascade vtx %p\n"\r
//               "Parent of the parent cascade vtx = Cascade vtx %p\n", \r
//               static_cast<void*> (vV0FromCascade->GetParent()),\r
//               static_cast<void*> (vCascade->GetParent()),\r
//               static_cast<void*> (vCascadePreviousParent->GetParent()) );\r
      \r
    }// end if V0 structure already used\r
    \r
//    if (fDebug > 2) {\r
//      printf("---- Cascade / V0 vertex: \n");\r
//      vV0FromCascade->Print();\r
//    }\r
//    \r
//    if (fDebug > 4) {\r
//      printf("---- Cascade / pos dghter : \n");\r
//                      aodTrack->Print();\r
//      printf("---- Cascade / neg dghter : \n");\r
//                      aodTrack->Print();\r
//      printf("---- Cascade / aodV0 : \n");\r
//                      aodV0->Print();\r
//    }\r
    \r
    // In any case (used V0 or not), add the V0 vertex to the cascade one.\r
    vCascade->AddDaughter(vV0FromCascade);      \r
    \r
                \r
    // 5 - Add the primary track of the cascade (if any)\r
    \r
    \r
    // 6 - Add the cascade to the AOD array of cascades\r
    \r
    Double_t dcaBachToPrimVertexXY = TMath::Abs(esdCascadeBach->GetD(esd.GetPrimaryVertex()->GetX(),\r
                                                                     esd.GetPrimaryVertex()->GetY(),\r
                                                                     esd.GetMagneticField())        );\r
    \r
    Double_t momBachAtCascadeVtx[3]={0.};\r
\r
    esdCascade->GetBPxPyPz(momBachAtCascadeVtx[0], momBachAtCascadeVtx[1], momBachAtCascadeVtx[2]);\r
    \r
    aodCascade = new(cascadesArray[fNumberOfCascades++]) AliAODcascade(  vCascade,\r
                                                          esdCascade->Charge(),\r
                                                          esdCascade->GetDcaXiDaughters(),\r
                                                          -999.,\r
                                                          // DCAXiToPrimVtx -> needs to be calculated   ----|\r
                                                          // doesn't exist at ESD level;\r
                                                          // See AODcascade::DcaXiToPrimVertex(Double, Double, Double)\r
                                                          dcaBachToPrimVertexXY,\r
                                                          momBachAtCascadeVtx,\r
                                                          *aodV0);\r
    \r
    if (fDebug > 10) {\r
      printf("---- Cascade / AOD cascade : \n\n");\r
      aodCascade->PrintXi(fPrimaryVertex->GetX(), fPrimaryVertex->GetY(), fPrimaryVertex->GetZ());\r
    }\r
    \r
  } // end of the loop on cascades\r
  \r
  Cascades().Expand(fNumberOfCascades);\r
}\r
\r
//______________________________________________________________________________\r
void AliAnalysisTaskESDfilter::ConvertV0s(const AliESDEvent& esd)\r
{\r
  // Access to the AOD container of V0s\r
  \r
  AliCodeTimerAuto("",0);\r
\r
  //\r
  // V0s\r
  //\r
  \r
  Double_t pos[3] = { 0. };      \r
  Double_t chi2(0.0);\r
  Double_t covVtx[6] = { 0. };\r
  Double_t momPos[3]={0.};\r
  Double_t covTr[21]={0.};\r
  Double_t pid[10]={0.};\r
  AliAODTrack* aodTrack(0x0);\r
  AliAODPid* detpid(0x0);\r
  Double_t momNeg[3]={0.};\r
  Double_t momPosAtV0vtx[3]={0.};\r
  Double_t momNegAtV0vtx[3]={0.};\r
    \r
  for (Int_t nV0 = 0; nV0 < esd.GetNumberOfV0s(); ++nV0) \r
  {\r
    if (fUsedV0[nV0]) continue; // skip if already added to the AOD\r
    \r
    AliESDv0 *v0 = esd.GetV0(nV0);\r
    Int_t posFromV0 = v0->GetPindex();\r
    Int_t negFromV0 = v0->GetNindex();\r
    \r
    // V0 selection \r
    //\r
    AliESDVertex *esdVtx   = new AliESDVertex(*(esd.GetPrimaryVertex()));\r
    AliESDtrack  *esdV0Pos = esd.GetTrack(posFromV0);\r
    AliESDtrack  *esdV0Neg = esd.GetTrack(negFromV0);\r
    TList v0objects;\r
    v0objects.AddAt(v0,                      0);\r
    v0objects.AddAt(esdV0Pos,                1);\r
    v0objects.AddAt(esdV0Neg,                2);\r
    v0objects.AddAt(esdVtx,                  3);\r
    UInt_t selectV0 = 0;\r
    if (fV0Filter) {\r
      selectV0 = fV0Filter->IsSelected(&v0objects);\r
      // this is a little awkward but otherwise the \r
      // list wants to access the pointer (delete it) \r
      // again when going out of scope\r
      delete v0objects.RemoveAt(3); // esdVtx created via copy construct\r
      esdVtx = 0;\r
      if (!selectV0) \r
        continue;\r
    }\r
    else{\r
      delete v0objects.RemoveAt(3); // esdVtx created via copy construct\r
      esdVtx = 0;\r
    }\r
    \r
    v0->GetXYZ(pos[0], pos[1], pos[2]);\r
    \r
    if (!fOldESDformat) {\r
            chi2 = v0->GetChi2V0(); // = chi2/NDF since NDF = 2*2-3\r
            v0->GetPosCov(covVtx);\r
    } else {\r
            chi2 = -999.;\r
            for (Int_t i = 0; i < 6; i++)  covVtx[i] = 0.;\r
    }\r
    \r
    \r
    AliAODVertex * vV0 = \r
          new(Vertices()[fNumberOfVertices++]) AliAODVertex(pos,\r
                                                      covVtx,\r
                                                      chi2,\r
                                                      fPrimaryVertex,\r
                                                      nV0,\r
                                                      AliAODVertex::kV0);\r
    fPrimaryVertex->AddDaughter(vV0);\r
    \r
    \r
    // Add the positive tracks from the V0\r
    \r
\r
    esdV0Pos->GetPxPyPz(momPos);\r
    esdV0Pos->GetXYZ(pos);\r
    esdV0Pos->GetCovarianceXYZPxPyPz(covTr);\r
    esdV0Pos->GetESDpid(pid);\r
    \r
    const AliESDVertex *vtx = esd.GetPrimaryVertex();\r
\r
    if (!fUsedTrack[posFromV0]) {\r
            fUsedTrack[posFromV0] = kTRUE;\r
            UInt_t selectInfo = 0;\r
            if (fTrackFilter) selectInfo = fTrackFilter->IsSelected(esdV0Pos);\r
            if(fMChandler)fMChandler->SelectParticle(esdV0Pos->GetLabel());\r
            aodTrack = new(Tracks()[fNumberOfTracks++]) AliAODTrack(esdV0Pos->GetID(),\r
                                                    esdV0Pos->GetLabel(), \r
                                                    momPos, \r
                                                    kTRUE,\r
                                                    pos,\r
                                                    kFALSE,\r
                                                    covTr, \r
                                                    (Short_t)esdV0Pos->GetSign(),\r
                                                    esdV0Pos->GetITSClusterMap(), \r
                                                    pid,\r
                                                    vV0,\r
                                                    kTRUE,  // check if this is right\r
                                                    vtx->UsesTrack(esdV0Pos->GetID()),\r
                                                    AliAODTrack::kSecondary,\r
                                                    selectInfo);\r
            aodTrack->SetTPCFitMap(esdV0Pos->GetTPCFitMap());\r
            aodTrack->SetTPCClusterMap(esdV0Pos->GetTPCClusterMap());\r
            aodTrack->SetTPCSharedMap (esdV0Pos->GetTPCSharedMap());\r
            aodTrack->SetChi2perNDF(Chi2perNDF(esdV0Pos));\r
            aodTrack->SetTPCPointsF(esdV0Pos->GetTPCNclsF());\r
            fAODTrackRefs->AddAt(aodTrack,posFromV0);\r
            //      if (fDebug > 0) printf("-------------------Bo: pos track from original pt %.3f \n",aodTrack->Pt());\r
            if (esdV0Pos->GetSign() > 0) ++fNumberOfPositiveTracks;\r
            aodTrack->ConvertAliPIDtoAODPID();\r
            aodTrack->SetFlags(esdV0Pos->GetStatus());\r
      SetAODPID(esdV0Pos,aodTrack,detpid);\r
    }\r
    else {\r
            aodTrack = static_cast<AliAODTrack*>(fAODTrackRefs->At(posFromV0));\r
            //      if (fDebug > 0) printf("-------------------Bo pos track from refArray pt %.3f \n",aodTrack->Pt());\r
    }\r
    vV0->AddDaughter(aodTrack);\r
    \r
    // Add the negative tracks from the V0\r
    \r
    esdV0Neg->GetPxPyPz(momNeg);\r
    esdV0Neg->GetXYZ(pos);\r
    esdV0Neg->GetCovarianceXYZPxPyPz(covTr);\r
    esdV0Neg->GetESDpid(pid);\r
    \r
    if (!fUsedTrack[negFromV0]) {\r
            fUsedTrack[negFromV0] = kTRUE;\r
            UInt_t selectInfo = 0;\r
            if (fTrackFilter) selectInfo = fTrackFilter->IsSelected(esdV0Neg);\r
            if(fMChandler)fMChandler->SelectParticle(esdV0Neg->GetLabel());\r
            aodTrack = new(Tracks()[fNumberOfTracks++]) AliAODTrack(esdV0Neg->GetID(),\r
                                                    esdV0Neg->GetLabel(),\r
                                                    momNeg,\r
                                                    kTRUE,\r
                                                    pos,\r
                                                    kFALSE,\r
                                                    covTr, \r
                                                    (Short_t)esdV0Neg->GetSign(),\r
                                                    esdV0Neg->GetITSClusterMap(), \r
                                                    pid,\r
                                                    vV0,\r
                                                    kTRUE,  // check if this is right\r
                                                    vtx->UsesTrack(esdV0Neg->GetID()),\r
                                                    AliAODTrack::kSecondary,\r
                                                    selectInfo);\r
            aodTrack->SetTPCFitMap(esdV0Neg->GetTPCFitMap());\r
            aodTrack->SetTPCClusterMap(esdV0Neg->GetTPCClusterMap());\r
            aodTrack->SetTPCSharedMap (esdV0Neg->GetTPCSharedMap());\r
            aodTrack->SetChi2perNDF(Chi2perNDF(esdV0Neg));\r
            aodTrack->SetTPCPointsF(esdV0Neg->GetTPCNclsF());\r
            \r
            fAODTrackRefs->AddAt(aodTrack,negFromV0);\r
            //      if (fDebug > 0) printf("-------------------Bo: neg track from original pt %.3f \n",aodTrack->Pt());\r
            if (esdV0Neg->GetSign() > 0) ++fNumberOfPositiveTracks;\r
            aodTrack->ConvertAliPIDtoAODPID();\r
            aodTrack->SetFlags(esdV0Neg->GetStatus());\r
      SetAODPID(esdV0Neg,aodTrack,detpid);\r
    }\r
    else {\r
            aodTrack = static_cast<AliAODTrack*>(fAODTrackRefs->At(negFromV0));\r
            //      if (fDebug > 0) printf("-------------------Bo neg track from refArray pt %.3f \n",aodTrack->Pt());\r
    }\r
    vV0->AddDaughter(aodTrack);\r
    \r
    \r
    // Add the V0 the V0 array as well\r
    \r
    Double_t  dcaV0Daughters      = v0->GetDcaV0Daughters();\r
    Double_t  dcaV0ToPrimVertex   = v0->GetD(esd.GetPrimaryVertex()->GetX(),\r
                                             esd.GetPrimaryVertex()->GetY(),\r
                                             esd.GetPrimaryVertex()->GetZ());\r
    \r
    v0->GetPPxPyPz(momPosAtV0vtx[0],momPosAtV0vtx[1],momPosAtV0vtx[2]); \r
    v0->GetNPxPyPz(momNegAtV0vtx[0],momNegAtV0vtx[1],momNegAtV0vtx[2]); \r
    \r
    Double_t dcaDaughterToPrimVertex[2] = { 999., 999.}; // ..[0] = DCA in (x,y) for Pos and ..[1] = Neg\r
    dcaDaughterToPrimVertex[0] = TMath::Abs(esdV0Pos->GetD(  esd.GetPrimaryVertex()->GetX(),\r
                                                           esd.GetPrimaryVertex()->GetY(),\r
                                                           esd.GetMagneticField()) );\r
    dcaDaughterToPrimVertex[1] = TMath::Abs(esdV0Neg->GetD(  esd.GetPrimaryVertex()->GetX(),\r
                                                           esd.GetPrimaryVertex()->GetY(),\r
                                                           esd.GetMagneticField()) );\r
    \r
    AliAODv0* aodV0 = new(V0s()[fNumberOfV0s++]) AliAODv0(vV0, \r
                                                dcaV0Daughters,\r
                                                dcaV0ToPrimVertex,\r
                                                momPosAtV0vtx,\r
                                                momNegAtV0vtx,\r
                                                dcaDaughterToPrimVertex);\r
    \r
    // set the aod v0 on-the-fly status\r
    aodV0->SetOnFlyStatus(v0->GetOnFlyStatus());\r
  }//End of loop on V0s \r
  \r
  V0s().Expand(fNumberOfV0s);    \r
}\r
\r
//______________________________________________________________________________\r
void AliAnalysisTaskESDfilter::ConvertTPCOnlyTracks(const AliESDEvent& esd)\r
{\r
  // Convert TPC only tracks\r
  // Here we have wo hybrid appraoch to remove fakes\r
  // ******* ITSTPC ********\r
  // Uses a cut on the ITS properties to select global tracks\r
  // which are than marked as HybdridITSTPC for the remainder \r
  // the TPC only tracks are flagged as HybridITSTPConly. \r
  // Note, in order not to get fakes back in the TPC cuts, one needs \r
  // two "ITS" cuts one tight (1) (to throw out fakes) and one lose (2) (to NOT flag the trakcs in the TPC only)\r
  // using cut number (3)\r
  // so fHybridFilterMask == (1)|(2) fTPCFilterMask = (3), Usercode needs to slect with mask = (1)|(3) and track->IsHybridITSTPC()\r
  // ******* TPC ********\r
  // 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\r
  // 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\r
\r
  AliCodeTimerAuto("",0);\r
  \r
  // Loop over the tracks and extract and mask out all aod tracks that pass the selections for AODt racks\r
  for(int it = 0;it < fNumberOfTracks;++it)\r
  {\r
    AliAODTrack *tr = (AliAODTrack*)(Tracks().At(it));\r
    if(!tr)continue;\r
    UInt_t map = tr->GetFilterMap();\r
    if(map&fTPCConstrainedFilterMask){\r
      // we only reset the track select ionfo, no deletion...\r
      tr->SetFilterMap(map&~fTPCConstrainedFilterMask);\r
    }\r
    if(map&fHybridFilterMaskTPCCG){\r
      // this is one part of the hybrid tracks\r
      // the others not passing the selection will be TPC only selected below\r
      tr->SetIsHybridTPCConstrainedGlobal(kTRUE);\r
    }\r
  }\r
  // Loop over the ESD trcks and pick out the tracks passing TPC only cuts\r
  \r
  \r
  const AliESDVertex *vtxSPD = esd.GetPrimaryVertexSPD();\r
  const AliESDVertex *vtx = esd.GetPrimaryVertex();\r
\r
  Double_t pos[3] = { 0. };      \r
  Double_t covTr[21]={0.};\r
  Double_t pid[10]={0.};  \r
\r
\r
  Double_t p[3] = { 0. };\r
\r
  Double_t pDCA[3] = { 0. }; // momentum at DCA\r
  Double_t rDCA[3] = { 0. }; // position at DCA\r
  Float_t  dDCA[2] = {0.};    // DCA to the vertex d and z\r
  Float_t  cDCA[3] = {0.};    // covariance of impact parameters\r
\r
\r
  AliAODTrack* aodTrack(0x0);\r
  //  AliAODPid* detpid(0x0);\r
\r
  // account for change in pT after the constraint\r
  Float_t ptMax = 1E10;\r
  Float_t ptMin = 0;\r
  for(int i = 0;i<32;i++){\r
    if(fTPCConstrainedFilterMask&(1<<i)){\r
      AliESDtrackCuts*cuts = (AliESDtrackCuts*)fTrackFilter->GetCuts()->At(i);\r
      Float_t tmp1= 0,tmp2 = 0;\r
      cuts->GetPtRange(tmp1,tmp2);\r
      if(tmp1>ptMin)ptMin=tmp1;\r
      if(tmp2<ptMax)ptMax=tmp2;\r
    }\r
  } \r
\r
  for (Int_t nTrack = 0; nTrack < esd.GetNumberOfTracks(); ++nTrack) \r
  {\r
    AliESDtrack* esdTrack = esd.GetTrack(nTrack); //carefull do not modify it othwise  need to work with a copy \r
    \r
    UInt_t selectInfo = 0;\r
    Bool_t isHybridITSTPC = false;\r
    //\r
    // Track selection\r
    if (fTrackFilter) {\r
      selectInfo = fTrackFilter->IsSelected(esdTrack);\r
    }\r
\r
    if(!(selectInfo&fHybridFilterMaskTPCCG)){\r
      // not already selected tracks, use second part of hybrid tracks\r
      isHybridITSTPC = true;\r
      // too save space one could only store these...\r
    }\r
\r
    selectInfo &= fTPCConstrainedFilterMask;\r
    if (!selectInfo)continue;\r
    if (fWriteHybridTPCCOnly&&!isHybridITSTPC)continue; // write only complementary tracks\r
    // create a tpc only tracl\r
    AliESDtrack *track = AliESDtrackCuts::GetTPCOnlyTrack(const_cast<AliESDEvent*>(&esd),esdTrack->GetID());\r
    if(!track) continue;\r
    \r
    if(track->Pt()>0.)\r
    {\r
      // only constrain tracks above threshold\r
      AliExternalTrackParam exParam;\r
      // take the B-field from the ESD, no 3D fieldMap available at this point\r
      Bool_t relate = false;\r
      relate = track->RelateToVertexTPC(vtxSPD,esd.GetMagneticField(),kVeryBig,&exParam);\r
      if(!relate){\r
        delete track;\r
        continue;\r
      }\r
      // fetch the track parameters at the DCA (unconstraint)\r
      if(track->GetTPCInnerParam()){\r
        track->GetTPCInnerParam()->GetPxPyPz(pDCA);\r
        track->GetTPCInnerParam()->GetXYZ(rDCA);\r
      }\r
      // get the DCA to the vertex:\r
      track->GetImpactParametersTPC(dDCA,cDCA);\r
      // set the constrained parameters to the track\r
      track->Set(exParam.GetX(),exParam.GetAlpha(),exParam.GetParameter(),exParam.GetCovariance());\r
    }\r
    \r
    track->GetPxPyPz(p);\r
\r
    Float_t pT = track->Pt();\r
    if(pT<ptMin||pT>ptMax){\r
      delete track;\r
      continue;\r
    }\r
\r
    // \r
\r
\r
    track->GetXYZ(pos);\r
    track->GetCovarianceXYZPxPyPz(covTr);\r
    esdTrack->GetESDpid(pid);// original PID\r
\r
    if(fMChandler)fMChandler->SelectParticle(esdTrack->GetLabel());\r
    aodTrack = new(Tracks()[fNumberOfTracks++]) AliAODTrack((track->GetID()+1)*-1,\r
                                                            track->GetLabel(),\r
                                                            p,\r
                                                            kTRUE,\r
                                                            pos,\r
                                                            kFALSE,\r
                                                            covTr, \r
                                                            (Short_t)track->GetSign(),\r
                                                            track->GetITSClusterMap(), \r
                                                            pid,\r
                                                            fPrimaryVertex,\r
                                                            kTRUE, // check if this is right\r
                                                            vtx->UsesTrack(track->GetID()),\r
                                                            AliAODTrack::kPrimary, \r
                                                            selectInfo);\r
    aodTrack->SetIsHybridTPCConstrainedGlobal(isHybridITSTPC);    \r
    aodTrack->SetTPCFitMap(track->GetTPCFitMap());\r
    aodTrack->SetTPCClusterMap(track->GetTPCClusterMap());\r
    aodTrack->SetTPCSharedMap (track->GetTPCSharedMap());\r
    aodTrack->SetIsTPCConstrained(kTRUE);    \r
    aodTrack->SetChi2perNDF(Chi2perNDF(esdTrack)); // original track\r
    // set the DCA values to the AOD track\r
    aodTrack->SetPxPyPzAtDCA(pDCA[0],pDCA[1],pDCA[2]);\r
    aodTrack->SetXYAtDCA(rDCA[0],rDCA[1]);\r
    aodTrack->SetDCA(dDCA[0],dDCA[1]);\r
\r
    aodTrack->SetFlags(track->GetStatus());\r
    aodTrack->SetTPCPointsF(track->GetTPCNclsF());\r
\r
    // do not duplicate PID information \r
    //    aodTrack->ConvertAliPIDtoAODPID();\r
    //    SetAODPID(esdTrack,aodTrack,detpid);\r
\r
    delete track;\r
  } // end of loop on tracks\r
  \r
}\r
\r
\r
void AliAnalysisTaskESDfilter::ConvertGlobalConstrainedTracks(const AliESDEvent& esd)\r
{\r
\r
  // Here we have the option to store the complement from global constraint information\r
  // to tracks passing tight cuts (1) in order not to get fakes back in, one needs \r
  // two sets of cuts one tight (1) (to throw out fakes) and one lose (2) (fakes/bad tracks would pass (2) but not (1))\r
  // using cut number (3) selects the tracks that complement (1) e.g. tracks witout ITS refit or cluster requirement\r
\r
\r
  AliCodeTimerAuto("",0);\r
  \r
  // Loop over the tracks and extract and mask out all aod tracks that pass the selections for AODt racks\r
  for(int it = 0;it < fNumberOfTracks;++it)\r
  {\r
    AliAODTrack *tr = (AliAODTrack*)(Tracks().At(it));\r
    if(!tr)continue;\r
    UInt_t map = tr->GetFilterMap();\r
    if(map&fGlobalConstrainedFilterMask){\r
      // we only reset the track select info, no deletion...\r
      // mask reset mask in case track is already taken\r
      tr->SetFilterMap(map&~fGlobalConstrainedFilterMask);\r
    }\r
    if(map&fHybridFilterMaskGCG){\r
      // this is one part of the hybrid tracks\r
      // the others not passing the selection will be the ones selected below\r
      tr->SetIsHybridGlobalConstrainedGlobal(kTRUE);\r
    }\r
  }\r
  // Loop over the ESD trcks and pick out the tracks passing the GlobalConstraint cuts\r
 \r
\r
  Double_t pos[3] = { 0. };      \r
  Double_t covTr[21]={0.};\r
  Double_t pid[10]={0.};  \r
  Double_t p[3] = { 0. };\r
\r
  Double_t pDCA[3] = { 0. }; // momentum at DCA\r
  Double_t rDCA[3] = { 0. }; // position at DCA\r
  Float_t  dDCA[2] = {0.};    // DCA to the vertex d and z\r
  Float_t  cDCA[3] = {0.};    // covariance of impact parameters\r
\r
\r
  AliAODTrack* aodTrack(0x0);\r
  AliAODPid* detpid(0x0);\r
  const AliESDVertex *vtx = esd.GetPrimaryVertex();\r
\r
  // account for change in pT after the constraint\r
  Float_t ptMax = 1E10;\r
  Float_t ptMin = 0;\r
  for(int i = 0;i<32;i++){\r
    if(fGlobalConstrainedFilterMask&(1<<i)){\r
      AliESDtrackCuts*cuts = (AliESDtrackCuts*)fTrackFilter->GetCuts()->At(i);\r
      Float_t tmp1= 0,tmp2 = 0;\r
      cuts->GetPtRange(tmp1,tmp2);\r
      if(tmp1>ptMin)ptMin=tmp1;\r
      if(tmp2<ptMax)ptMax=tmp2;\r
    }\r
  } \r
\r
\r
\r
 for (Int_t nTrack = 0; nTrack < esd.GetNumberOfTracks(); ++nTrack) \r
  {\r
    AliESDtrack* esdTrack = esd.GetTrack(nTrack); //carefull do not modify it othwise  need to work with a copy \r
    const AliExternalTrackParam * exParamGC = esdTrack->GetConstrainedParam();\r
    if(!exParamGC)continue;\r
\r
    UInt_t selectInfo = 0;\r
    Bool_t isHybridGC = false;\r
\r
    //\r
    // Track selection\r
    if (fTrackFilter) {\r
      selectInfo = fTrackFilter->IsSelected(esdTrack);\r
    }\r
\r
\r
    if(!(selectInfo&fHybridFilterMaskGCG))isHybridGC = true;\r
    if (fWriteHybridGCOnly&&!isHybridGC)continue; // write only complementary tracks\r
\r
    selectInfo &= fGlobalConstrainedFilterMask;\r
    if (!selectInfo)continue;\r
    // fetch the track parameters at the DCA (unconstrained)\r
    esdTrack->GetPxPyPz(pDCA);\r
    esdTrack->GetXYZ(rDCA);\r
    // get the DCA to the vertex:\r
    esdTrack->GetImpactParameters(dDCA,cDCA);\r
\r
    if (!esdTrack->GetConstrainedPxPyPz(p)) continue;\r
\r
\r
    Float_t pT = exParamGC->Pt();\r
    if(pT<ptMin||pT>ptMax){\r
      continue;\r
    }\r
\r
\r
    esdTrack->GetConstrainedXYZ(pos);\r
    exParamGC->GetCovarianceXYZPxPyPz(covTr);\r
    esdTrack->GetESDpid(pid);\r
    if(fMChandler)fMChandler->SelectParticle(esdTrack->GetLabel());\r
    aodTrack = new(Tracks()[fNumberOfTracks++]) AliAODTrack((esdTrack->GetID()+1)*-1,\r
                                                            esdTrack->GetLabel(),\r
                                                            p,\r
                                                            kTRUE,\r
                                                            pos,\r
                                                            kFALSE,\r
                                                            covTr, \r
                                                            (Short_t)esdTrack->GetSign(),\r
                                                            esdTrack->GetITSClusterMap(), \r
                                                            pid,\r
                                                            fPrimaryVertex,\r
                                                            kTRUE, // check if this is right\r
                                                            vtx->UsesTrack(esdTrack->GetID()),\r
                                                            AliAODTrack::kPrimary, \r
                                                            selectInfo);\r
    aodTrack->SetIsHybridGlobalConstrainedGlobal(isHybridGC);    \r
    aodTrack->SetIsGlobalConstrained(kTRUE);    \r
    aodTrack->SetTPCFitMap(esdTrack->GetTPCFitMap());\r
    aodTrack->SetTPCClusterMap(esdTrack->GetTPCClusterMap());\r
    aodTrack->SetTPCSharedMap (esdTrack->GetTPCSharedMap());\r
    aodTrack->SetChi2perNDF(Chi2perNDF(esdTrack));\r
\r
\r
    // set the DCA values to the AOD track\r
    aodTrack->SetPxPyPzAtDCA(pDCA[0],pDCA[1],pDCA[2]);\r
    aodTrack->SetXYAtDCA(rDCA[0],rDCA[1]);\r
    aodTrack->SetDCA(dDCA[0],dDCA[1]);\r
\r
    aodTrack->SetFlags(esdTrack->GetStatus());\r
    aodTrack->SetTPCPointsF(esdTrack->GetTPCNclsF());\r
\r
    if(isHybridGC){\r
      // only copy AOD information for hybrid, no duplicate information\r
      aodTrack->ConvertAliPIDtoAODPID();\r
      SetAODPID(esdTrack,aodTrack,detpid);\r
    }\r
  } // end of loop on tracks\r
  \r
}\r
\r
\r
//______________________________________________________________________________\r
void AliAnalysisTaskESDfilter::ConvertTracks(const AliESDEvent& esd)\r
{\r
  // Tracks (primary and orphan)\r
\r
  AliCodeTimerAuto("",0);\r
  \r
  AliDebug(1,Form("NUMBER OF ESD TRACKS %5d\n", esd.GetNumberOfTracks()));\r
  \r
  const AliESDVertex *vtx = esd.GetPrimaryVertex();\r
  Double_t p[3] = { 0. };\r
  Double_t pos[3] = { 0. };\r
  Double_t trkPos[3] = {0.,0.,0.};\r
  Double_t covTr[21] = { 0. };\r
  Double_t pid[10] = { 0. };\r
  AliAODTrack* aodTrack(0x0);\r
  AliAODPid* detpid(0x0);\r
  \r
  for (Int_t nTrack = 0; nTrack < esd.GetNumberOfTracks(); ++nTrack) \r
  {\r
    if (fUsedTrack[nTrack]) continue;\r
    \r
    AliESDtrack *esdTrack = esd.GetTrack(nTrack);\r
    UInt_t selectInfo = 0;\r
    //\r
    // Track selection\r
    if (fTrackFilter) {\r
            selectInfo = fTrackFilter->IsSelected(esdTrack);\r
            if (!selectInfo && !vtx->UsesTrack(esdTrack->GetID())) continue;\r
    }\r
    \r
    \r
    esdTrack->GetPxPyPz(p);\r
    esdTrack->GetXYZ(pos);\r
    esdTrack->GetCovarianceXYZPxPyPz(covTr);\r
    esdTrack->GetESDpid(pid);\r
    if(fMChandler)fMChandler->SelectParticle(esdTrack->GetLabel());\r
    fPrimaryVertex->AddDaughter(aodTrack =\r
                         new(Tracks()[fNumberOfTracks++]) AliAODTrack(esdTrack->GetID(),\r
                                                            esdTrack->GetLabel(),\r
                                                            p,\r
                                                            kTRUE,\r
                                                            pos,\r
                                                            kFALSE,\r
                                                            covTr, \r
                                                            (Short_t)esdTrack->GetSign(),\r
                                                            esdTrack->GetITSClusterMap(), \r
                                                            pid,\r
                                                            fPrimaryVertex,\r
                                                            kTRUE, // check if this is right\r
                                                            vtx->UsesTrack(esdTrack->GetID()),\r
                                                            AliAODTrack::kPrimary, \r
                                                            selectInfo)\r
                         );\r
    aodTrack->SetTPCFitMap(esdTrack->GetTPCFitMap());\r
    aodTrack->SetTPCClusterMap(esdTrack->GetTPCClusterMap());\r
    aodTrack->SetTPCSharedMap (esdTrack->GetTPCSharedMap());\r
    aodTrack->SetChi2perNDF(Chi2perNDF(esdTrack));\r
    aodTrack->SetTPCPointsF(esdTrack->GetTPCNclsF());\r
    if(esdTrack->IsEMCAL()) aodTrack->SetEMCALcluster(esdTrack->GetEMCALcluster());\r
    if(esdTrack->IsPHOS())  aodTrack->SetPHOScluster(esdTrack->GetPHOScluster());\r
\r
    //Perform progagation of tracks if needed\r
    if(fDoPropagateTrackToEMCal)\r
      {\r
        Double_t EMCalEta, EMCalPhi;\r
        Double_t trkphi = esdTrack->Phi()*TMath::RadToDeg();\r
        if(TMath::Abs(esdTrack->Eta())<0.9 && trkphi > 10 && trkphi < 250 )\r
          {\r
            AliExternalTrackParam *trkParam = const_cast<AliExternalTrackParam*>(esdTrack->GetInnerParam());\r
            if(trkParam)\r
              {\r
                AliExternalTrackParam trkParamTmp(*trkParam);\r
                if(AliTrackerBase::PropagateTrackToBxByBz(&trkParamTmp, 430, esdTrack->GetMass(), 20, kTRUE, 0.8, -1))\r
                  {\r
                    trkParamTmp.GetXYZ(trkPos);\r
                    TVector3 trkPosVec(trkPos[0],trkPos[1],trkPos[2]);\r
                    EMCalEta = trkPosVec.Eta();\r
                    EMCalPhi = trkPosVec.Phi();\r
                    if(EMCalPhi<0)  EMCalPhi += 2*TMath::Pi();\r
                    esdTrack->SetTrackPhiEtaOnEMCal(EMCalPhi,EMCalEta);\r
                  }\r
              }\r
          }\r
      }\r
    aodTrack->SetTrackPhiEtaOnEMCal(esdTrack->GetTrackPhiOnEMCal(),esdTrack->GetTrackEtaOnEMCal());\r
\r
    fAODTrackRefs->AddAt(aodTrack, nTrack);\r
    \r
    \r
    if (esdTrack->GetSign() > 0) ++fNumberOfPositiveTracks;\r
    aodTrack->SetFlags(esdTrack->GetStatus());\r
    aodTrack->ConvertAliPIDtoAODPID();\r
    SetAODPID(esdTrack,aodTrack,detpid);\r
  } // end of loop on tracks\r
}\r
\r
//______________________________________________________________________________\r
void AliAnalysisTaskESDfilter::ConvertPmdClusters(const AliESDEvent& esd)\r
{\r
// Convert PMD Clusters \r
  AliCodeTimerAuto("",0);\r
  Int_t jPmdClusters=0;\r
  // Access to the AOD container of PMD clusters\r
  TClonesArray &pmdClusters = *(AODEvent()->GetPmdClusters());\r
  for (Int_t iPmd = 0; iPmd < esd.GetNumberOfPmdTracks(); ++iPmd) {\r
    // file pmd clusters, to be revised!\r
    AliESDPmdTrack *pmdTrack = esd.GetPmdTrack(iPmd);\r
    Int_t nLabel = 0;\r
    Int_t *label = 0x0;\r
    Double_t posPmd[3] = { pmdTrack->GetClusterX(), pmdTrack->GetClusterY(), pmdTrack->GetClusterZ()};\r
    Double_t pidPmd[13] = { 0.}; // to be revised!\r
    // type not set!\r
    // assoc cluster not set\r
    new(pmdClusters[jPmdClusters++]) AliAODPmdCluster(iPmd, nLabel, label, pmdTrack->GetClusterADC(), posPmd, pidPmd);\r
  }\r
}\r
\r
\r
//______________________________________________________________________________\r
void AliAnalysisTaskESDfilter::ConvertCaloClusters(const AliESDEvent& esd)\r
{\r
// Convert Calorimeter Clusters\r
  AliCodeTimerAuto("",0);\r
  \r
  // Access to the AOD container of clusters\r
  TClonesArray &caloClusters = *(AODEvent()->GetCaloClusters());\r
  Int_t jClusters(0);\r
  \r
  for (Int_t iClust=0; iClust<esd.GetNumberOfCaloClusters(); ++iClust) {\r
    \r
    AliESDCaloCluster * cluster = esd.GetCaloCluster(iClust);\r
    \r
    Int_t  id        = cluster->GetID();\r
    Int_t  nLabel    = cluster->GetNLabels();\r
    Int_t *labels    = cluster->GetLabels();\r
    if(labels){ \r
                  for(int i = 0;i < nLabel;++i){\r
                          if(fMChandler)fMChandler->SelectParticle(labels[i]);\r
                  }\r
          }             \r
    \r
    Float_t energy = cluster->E();\r
    Float_t posF[3] = { 0.};\r
    cluster->GetPosition(posF);\r
    \r
    AliAODCaloCluster *caloCluster = new(caloClusters[jClusters++]) AliAODCaloCluster(id,\r
                                                                                      nLabel,\r
                                                                                      labels,\r
                                                                                      energy,\r
                                                                                      posF,\r
                                                                                      NULL,\r
                                                                                      cluster->GetType(),0);\r
    \r
    caloCluster->SetCaloCluster(cluster->GetDistanceToBadChannel(),\r
                                cluster->GetDispersion(),\r
                                cluster->GetM20(), cluster->GetM02(),\r
                                cluster->GetEmcCpvDistance(),  \r
                                cluster->GetNExMax(),cluster->GetTOF()) ;\r
    \r
    caloCluster->SetPIDFromESD(cluster->GetPID());\r
    caloCluster->SetNCells(cluster->GetNCells());\r
    caloCluster->SetCellsAbsId(cluster->GetCellsAbsId());\r
    caloCluster->SetCellsAmplitudeFraction(cluster->GetCellsAmplitudeFraction());\r
\r
    caloCluster->SetTrackDistance(cluster->GetTrackDx(), cluster->GetTrackDz());\r
    \r
    Int_t nMatchCount = 0;\r
    TArrayI* matchedT =         cluster->GetTracksMatched();\r
    if (fNumberOfTracks>0 && matchedT && cluster->GetTrackMatchedIndex() >= 0) {        \r
      for (Int_t im = 0; im < matchedT->GetSize(); im++) {\r
        Int_t iESDtrack = matchedT->At(im);;\r
        if (fAODTrackRefs->At(iESDtrack) != 0) {\r
          caloCluster->AddTrackMatched((AliAODTrack*)fAODTrackRefs->At(iESDtrack));\r
          nMatchCount++;\r
        }\r
      }\r
    }\r
    if(nMatchCount==0)\r
      caloCluster->SetTrackDistance(-999,-999);\r
    \r
  } \r
  caloClusters.Expand(jClusters); // resize TObjArray to 'remove' slots for pseudo clusters      \r
}\r
\r
//______________________________________________________________________________\r
void AliAnalysisTaskESDfilter::ConvertCaloTrigger(TString calo, const AliESDEvent& esd)\r
{\r
        AliCodeTimerAuto("",0);\r
                \r
        if (calo == "PHOS") \r
        {\r
          AliAODCaloTrigger &aodTrigger = *(AODEvent()->GetCaloTrigger(calo));\r
          AliESDCaloTrigger &esdTrigger = *(esd.GetCaloTrigger(calo));\r
\r
          aodTrigger.Allocate(esdTrigger.GetEntries());\r
          esdTrigger.Reset();\r
\r
          Float_t a;\r
          Int_t tmod,tabsId;\r
\r
          while (esdTrigger.Next()) {\r
            esdTrigger.GetPosition(tmod,tabsId);\r
            esdTrigger.GetAmplitude(a);\r
            aodTrigger.Add(tmod,tabsId,a,0.,(Int_t*)NULL,0,0,0);\r
          }\r
\r
          return;\r
        }\r
                        \r
        AliAODHandler *aodHandler = dynamic_cast<AliAODHandler*>(AliAnalysisManager::GetAnalysisManager()->GetOutputEventHandler()); \r
                        \r
        if (aodHandler)\r
        {\r
                TTree *aodTree = aodHandler->GetTree();\r
                                        \r
                if (aodTree)\r
                {\r
                        Int_t *type = esd.GetCaloTriggerType();\r
                                                        \r
                        for (Int_t i = 0; i < 8; i++) \r
                        {\r
                                aodTree->GetUserInfo()->Add(new TParameter<int>(Form("EMCALCaloTrigger%d",i), type[i]));\r
                        }\r
                }\r
        }\r
                                                \r
        AliAODCaloTrigger &aodTrigger = *(AODEvent()->GetCaloTrigger(calo));\r
                                                \r
        AliESDCaloTrigger &esdTrigger = *(esd.GetCaloTrigger(calo));\r
                                                \r
        aodTrigger.Allocate(esdTrigger.GetEntries());\r
                                                \r
        esdTrigger.Reset();\r
        while (esdTrigger.Next())\r
        {         \r
                Int_t px, py, ts, nTimes, times[10], b; \r
                Float_t a, t;\r
                                                                \r
                esdTrigger.GetPosition(px, py);\r
                                                \r
                esdTrigger.GetAmplitude(a);\r
                esdTrigger.GetTime(t);\r
                                                                \r
                esdTrigger.GetL0Times(times);\r
                esdTrigger.GetNL0Times(nTimes);\r
                                                                \r
                esdTrigger.GetL1TimeSum(ts);\r
                                                                \r
                esdTrigger.GetTriggerBits(b);\r
                                                                \r
                aodTrigger.Add(px, py, a, t, times, nTimes, ts, b);\r
        }\r
                                                        \r
        aodTrigger.SetL1Threshold(0, esdTrigger.GetL1Threshold(0));\r
        aodTrigger.SetL1Threshold(1, esdTrigger.GetL1Threshold(1));\r
                                                        \r
        Int_t v0[2] = \r
        {\r
                esdTrigger.GetL1V0(0),\r
                esdTrigger.GetL1V0(1)\r
        };              \r
                                                                \r
        aodTrigger.SetL1V0(v0); \r
        aodTrigger.SetL1FrameMask(esdTrigger.GetL1FrameMask());\r
}\r
\r
//______________________________________________________________________________\r
void AliAnalysisTaskESDfilter::ConvertEMCALCells(const AliESDEvent& esd)\r
{\r
// Convert EMCAL Cells\r
  AliCodeTimerAuto("",0);\r
  // fill EMCAL cell info\r
  if (esd.GetEMCALCells()) { // protection against missing ESD information\r
    AliESDCaloCells &esdEMcells = *(esd.GetEMCALCells());\r
    Int_t nEMcell = esdEMcells.GetNumberOfCells() ;\r
    \r
    AliAODCaloCells &aodEMcells = *(AODEvent()->GetEMCALCells());\r
    aodEMcells.CreateContainer(nEMcell);\r
    aodEMcells.SetType(AliAODCaloCells::kEMCALCell);\r
    for (Int_t iCell = 0; iCell < nEMcell; iCell++) {      \r
      aodEMcells.SetCell(iCell,esdEMcells.GetCellNumber(iCell),esdEMcells.GetAmplitude(iCell));\r
    }\r
    aodEMcells.Sort();\r
  }\r
}\r
\r
//______________________________________________________________________________\r
void AliAnalysisTaskESDfilter::ConvertPHOSCells(const AliESDEvent& esd)\r
{\r
// Convert PHOS Cells\r
  AliCodeTimerAuto("",0);\r
  // fill PHOS cell info\r
  if (esd.GetPHOSCells()) { // protection against missing ESD information\r
    AliESDCaloCells &esdPHcells = *(esd.GetPHOSCells());\r
    Int_t nPHcell = esdPHcells.GetNumberOfCells() ;\r
    \r
    AliAODCaloCells &aodPHcells = *(AODEvent()->GetPHOSCells());\r
    aodPHcells.CreateContainer(nPHcell);\r
    aodPHcells.SetType(AliAODCaloCells::kPHOSCell);\r
    for (Int_t iCell = 0; iCell < nPHcell; iCell++) {      \r
      aodPHcells.SetCell(iCell,esdPHcells.GetCellNumber(iCell),esdPHcells.GetAmplitude(iCell));\r
    }\r
    aodPHcells.Sort();\r
  }\r
}\r
\r
//______________________________________________________________________________\r
void AliAnalysisTaskESDfilter::ConvertTracklets(const AliESDEvent& esd)\r
{\r
  // tracklets    \r
  AliCodeTimerAuto("",0);\r
\r
  AliAODTracklets &SPDTracklets = *(AODEvent()->GetTracklets());\r
  const AliMultiplicity *mult = esd.GetMultiplicity();\r
  if (mult) {\r
    if (mult->GetNumberOfTracklets()>0) {\r
      SPDTracklets.CreateContainer(mult->GetNumberOfTracklets());\r
      \r
      for (Int_t n=0; n<mult->GetNumberOfTracklets(); n++) {\r
        if(fMChandler){\r
          fMChandler->SelectParticle(mult->GetLabel(n, 0));\r
          fMChandler->SelectParticle(mult->GetLabel(n, 1));\r
        }\r
        SPDTracklets.SetTracklet(n, mult->GetTheta(n), mult->GetPhi(n), mult->GetDeltaPhi(n), mult->GetLabel(n, 0),mult->GetLabel(n, 1));\r
      }\r
    }\r
  } else {\r
    //Printf("ERROR: AliMultiplicity could not be retrieved from ESD");\r
  }\r
}\r
\r
//______________________________________________________________________________\r
void AliAnalysisTaskESDfilter::ConvertKinks(const AliESDEvent& esd)\r
{\r
  AliCodeTimerAuto("",0);\r
  \r
  // Kinks: it is a big mess the access to the information in the kinks\r
  // The loop is on the tracks in order to find the mother and daugther of each kink\r
  \r
  Double_t covTr[21]={0.};\r
  Double_t pid[10]={0.};\r
  AliAODPid* detpid(0x0);\r
  \r
  fNumberOfKinks = esd.GetNumberOfKinks();\r
\r
  const AliESDVertex* vtx = esd.GetPrimaryVertex();\r
  \r
  for (Int_t iTrack=0; iTrack<esd.GetNumberOfTracks(); ++iTrack) \r
  {\r
    AliESDtrack * esdTrack = esd.GetTrack(iTrack);\r
    \r
    Int_t ikink = esdTrack->GetKinkIndex(0);\r
    \r
    if (ikink && fNumberOfKinks) {\r
            // Negative kink index: mother, positive: daughter\r
            \r
            // Search for the second track of the kink\r
            \r
            for (Int_t jTrack = iTrack+1; jTrack<esd.GetNumberOfTracks(); ++jTrack) {\r
        \r
        AliESDtrack * esdTrack1 = esd.GetTrack(jTrack);\r
        \r
        Int_t jkink = esdTrack1->GetKinkIndex(0);\r
        \r
        if ( TMath::Abs(ikink)==TMath::Abs(jkink) ) {\r
          \r
          // The two tracks are from the same kink\r
          \r
          if (fUsedKink[TMath::Abs(ikink)-1]) continue; // skip used kinks\r
          \r
          Int_t imother = -1;\r
          Int_t idaughter = -1;\r
          \r
          if (ikink<0 && jkink>0) {\r
            \r
            imother = iTrack;\r
            idaughter = jTrack;\r
          }\r
          else if (ikink>0 && jkink<0) {\r
            \r
            imother = jTrack;\r
            idaughter = iTrack;\r
          }\r
          else {\r
            //                  cerr << "Error: Wrong combination of kink indexes: "\r
            //                       << ikink << " " << jkink << endl;\r
            continue;\r
          }\r
          \r
          // Add the mother track if it passed primary track selection cuts\r
          \r
          AliAODTrack * mother = NULL;\r
          \r
          UInt_t selectInfo = 0;\r
          if (fTrackFilter) {\r
            selectInfo = fTrackFilter->IsSelected(esd.GetTrack(imother));\r
            if (!selectInfo) continue;\r
          }\r
          \r
          if (!fUsedTrack[imother]) {\r
            \r
            fUsedTrack[imother] = kTRUE;\r
            \r
            AliESDtrack *esdTrackM = esd.GetTrack(imother);\r
            Double_t p[3] = { 0. };\r
            Double_t pos[3] = { 0. };\r
            esdTrackM->GetPxPyPz(p);\r
            esdTrackM->GetXYZ(pos);\r
            esdTrackM->GetCovarianceXYZPxPyPz(covTr);\r
            esdTrackM->GetESDpid(pid);\r
            if(fMChandler)fMChandler->SelectParticle(esdTrackM->GetLabel());\r
            mother = \r
            new(Tracks()[fNumberOfTracks++]) AliAODTrack(esdTrackM->GetID(),\r
                                               esdTrackM->GetLabel(),\r
                                               p,\r
                                               kTRUE,\r
                                               pos,\r
                                               kFALSE,\r
                                               covTr, \r
                                               (Short_t)esdTrackM->GetSign(),\r
                                               esdTrackM->GetITSClusterMap(), \r
                                               pid,\r
                                               fPrimaryVertex,\r
                                               kTRUE, // check if this is right\r
                                               vtx->UsesTrack(esdTrack->GetID()),\r
                                               AliAODTrack::kPrimary,\r
                                               selectInfo);\r
            mother->SetTPCFitMap(esdTrackM->GetTPCFitMap());\r
            mother->SetTPCClusterMap(esdTrackM->GetTPCClusterMap());\r
            mother->SetTPCSharedMap (esdTrackM->GetTPCSharedMap());\r
            mother->SetChi2perNDF(Chi2perNDF(esdTrackM));\r
            mother->SetTPCPointsF(esdTrackM->GetTPCNclsF());\r
\r
            fAODTrackRefs->AddAt(mother, imother);\r
            \r
            if (esdTrackM->GetSign() > 0) ++fNumberOfPositiveTracks;\r
            mother->SetFlags(esdTrackM->GetStatus());\r
            mother->ConvertAliPIDtoAODPID();\r
            fPrimaryVertex->AddDaughter(mother);\r
            mother->ConvertAliPIDtoAODPID();\r
            SetAODPID(esdTrackM,mother,detpid);\r
          }\r
          else {\r
            //                  cerr << "Error: event " << esd.GetEventNumberInFile() << " kink " << TMath::Abs(ikink)-1\r
            //                       << " track " << imother << " has already been used!" << endl;\r
          }\r
          \r
          // Add the kink vertex\r
          AliESDkink * kink = esd.GetKink(TMath::Abs(ikink)-1);\r
          \r
          AliAODVertex * vkink = \r
          new(Vertices()[fNumberOfVertices++]) AliAODVertex(kink->GetPosition(),\r
                                                  NULL,\r
                                                  0.,\r
                                                  mother,\r
                                                  esdTrack->GetID(),  // This is the track ID of the mother's track!\r
                                                  AliAODVertex::kKink);\r
          // Add the daughter track\r
          \r
          AliAODTrack * daughter = NULL;\r
          \r
          if (!fUsedTrack[idaughter]) {\r
            \r
            fUsedTrack[idaughter] = kTRUE;\r
            \r
            AliESDtrack *esdTrackD = esd.GetTrack(idaughter);\r
            Double_t p[3] = { 0. };\r
            Double_t pos[3] = { 0. };\r
\r
            esdTrackD->GetPxPyPz(p);\r
            esdTrackD->GetXYZ(pos);\r
            esdTrackD->GetCovarianceXYZPxPyPz(covTr);\r
            esdTrackD->GetESDpid(pid);\r
            selectInfo = 0;\r
            if (fTrackFilter) selectInfo = fTrackFilter->IsSelected(esdTrackD);\r
            if(fMChandler)fMChandler->SelectParticle(esdTrackD->GetLabel());\r
            daughter = \r
            new(Tracks()[fNumberOfTracks++]) AliAODTrack(esdTrackD->GetID(),\r
                                               esdTrackD->GetLabel(),\r
                                               p,\r
                                               kTRUE,\r
                                               pos,\r
                                               kFALSE,\r
                                               covTr, \r
                                               (Short_t)esdTrackD->GetSign(),\r
                                               esdTrackD->GetITSClusterMap(), \r
                                               pid,\r
                                               vkink,\r
                                               kTRUE, // check if this is right\r
                                               vtx->UsesTrack(esdTrack->GetID()),\r
                                               AliAODTrack::kSecondary,\r
                                               selectInfo);\r
            daughter->SetTPCFitMap(esdTrackD->GetTPCFitMap());\r
            daughter->SetTPCClusterMap(esdTrackD->GetTPCClusterMap());\r
            daughter->SetTPCSharedMap (esdTrackD->GetTPCSharedMap());\r
            daughter->SetTPCPointsF(esdTrackD->GetTPCNclsF());\r
            fAODTrackRefs->AddAt(daughter, idaughter);\r
            \r
            if (esdTrackD->GetSign() > 0) ++fNumberOfPositiveTracks;\r
            daughter->SetFlags(esdTrackD->GetStatus());\r
            daughter->ConvertAliPIDtoAODPID();\r
            vkink->AddDaughter(daughter);\r
            daughter->ConvertAliPIDtoAODPID();\r
            SetAODPID(esdTrackD,daughter,detpid);\r
          }\r
          else {\r
            //                  cerr << "Error: event " << esd.GetEventNumberInFile() << " kink " << TMath::Abs(ikink)-1\r
            //                       << " track " << idaughter << " has already been used!" << endl;\r
          }\r
        }\r
            }\r
    }      \r
  }\r
}\r
\r
//______________________________________________________________________________\r
void AliAnalysisTaskESDfilter::ConvertPrimaryVertices(const AliESDEvent& esd)\r
{\r
  AliCodeTimerAuto("",0);\r
  \r
  // Access to the AOD container of vertices\r
  fNumberOfVertices = 0;\r
  \r
  Double_t pos[3] = { 0. };\r
  Double_t covVtx[6] = { 0. };\r
\r
  // Add primary vertex. The primary tracks will be defined\r
  // after the loops on the composite objects (V0, cascades, kinks)\r
  const AliESDVertex *vtx = esd.GetPrimaryVertex();\r
  \r
  vtx->GetXYZ(pos); // position\r
  vtx->GetCovMatrix(covVtx); //covariance matrix\r
  \r
  fPrimaryVertex = new(Vertices()[fNumberOfVertices++])\r
  AliAODVertex(pos, covVtx, vtx->GetChi2toNDF(), NULL, -1, AliAODVertex::kPrimary);\r
  fPrimaryVertex->SetName(vtx->GetName());\r
  fPrimaryVertex->SetTitle(vtx->GetTitle());\r
  \r
  TString vtitle = vtx->GetTitle();\r
  if (!vtitle.Contains("VertexerTracks")) \r
    fPrimaryVertex->SetNContributors(vtx->GetNContributors());\r
  \r
  if (fDebug > 0) fPrimaryVertex->Print();  \r
  \r
  // Add SPD "main" vertex \r
  const AliESDVertex *vtxS = esd.GetPrimaryVertexSPD();\r
  vtxS->GetXYZ(pos); // position\r
  vtxS->GetCovMatrix(covVtx); //covariance matrix\r
  AliAODVertex * mVSPD = new(Vertices()[fNumberOfVertices++])\r
  AliAODVertex(pos, covVtx, vtxS->GetChi2toNDF(), NULL, -1, AliAODVertex::kMainSPD);\r
  mVSPD->SetName(vtxS->GetName());\r
  mVSPD->SetTitle(vtxS->GetTitle());\r
  mVSPD->SetNContributors(vtxS->GetNContributors()); \r
  \r
  // Add SPD pileup vertices\r
  for(Int_t iV=0; iV<esd.GetNumberOfPileupVerticesSPD(); ++iV)\r
  {\r
    const AliESDVertex *vtxP = esd.GetPileupVertexSPD(iV);\r
    vtxP->GetXYZ(pos); // position\r
    vtxP->GetCovMatrix(covVtx); //covariance matrix\r
    AliAODVertex * pVSPD =  new(Vertices()[fNumberOfVertices++])\r
    AliAODVertex(pos, covVtx, vtxP->GetChi2toNDF(), NULL, -1, AliAODVertex::kPileupSPD);\r
    pVSPD->SetName(vtxP->GetName());\r
    pVSPD->SetTitle(vtxP->GetTitle());\r
    pVSPD->SetNContributors(vtxP->GetNContributors()); \r
    pVSPD->SetBC(vtxP->GetBC());\r
  }\r
  \r
  // Add TRK pileup vertices\r
  for(Int_t iV=0; iV<esd.GetNumberOfPileupVerticesTracks(); ++iV)\r
  {\r
    const AliESDVertex *vtxP = esd.GetPileupVertexTracks(iV);\r
    vtxP->GetXYZ(pos); // position\r
    vtxP->GetCovMatrix(covVtx); //covariance matrix\r
    AliAODVertex * pVTRK = new(Vertices()[fNumberOfVertices++])\r
    AliAODVertex(pos, covVtx, vtxP->GetChi2toNDF(), NULL, -1, AliAODVertex::kPileupTracks);\r
    pVTRK->SetName(vtxP->GetName());\r
    pVTRK->SetTitle(vtxP->GetTitle());\r
    pVTRK->SetNContributors(vtxP->GetNContributors());\r
    pVTRK->SetBC(vtxP->GetBC());\r
  }\r
}\r
\r
//______________________________________________________________________________\r
void AliAnalysisTaskESDfilter::ConvertVZERO(const AliESDEvent& esd)\r
{\r
  // Convert VZERO data\r
  AliAODVZERO* vzeroData = AODEvent()->GetVZEROData();\r
  *vzeroData = *(esd.GetVZEROData());\r
}\r
\r
//______________________________________________________________________________\r
void AliAnalysisTaskESDfilter::ConvertTZERO(const AliESDEvent& esd)\r
{\r
  // Convert TZERO data\r
  const AliESDTZERO* esdTzero = esd.GetESDTZERO(); \r
  AliAODTZERO* aodTzero = AODEvent()->GetTZEROData();\r
\r
  for (Int_t icase=0; icase<3; icase++){ \r
    aodTzero->SetT0TOF(    icase, esdTzero->GetT0TOF(icase));\r
    aodTzero->SetT0TOFbest(icase, esdTzero->GetT0TOFbest(icase)); \r
  }\r
  aodTzero->SetBackgroundFlag(esdTzero->GetBackgroundFlag());\r
  aodTzero->SetPileupFlag(esdTzero->GetPileupFlag());\r
  aodTzero->SetSatelliteFlag(esdTzero->GetSatellite()); \r
\r
  Float_t rawTime[24];\r
  for(Int_t ipmt=0; ipmt<24; ipmt++)\r
    rawTime[ipmt] = esdTzero->GetTimeFull(ipmt,0);\r
   \r
  Int_t idxOfFirstPmtA = -1,       idxOfFirstPmtC = -1;\r
  Float_t timeOfFirstPmtA = 9999, timeOfFirstPmtC = 9999;\r
  for(int ipmt=0;  ipmt<12; ipmt++){\r
    if( rawTime[ipmt] > -200 && rawTime[ipmt] < timeOfFirstPmtC && rawTime[ipmt]!=0){\r
      timeOfFirstPmtC = rawTime[ipmt];\r
      idxOfFirstPmtC  = ipmt;\r
    }\r
  }\r
  for(int ipmt=12; ipmt<24; ipmt++){\r
    if( rawTime[ipmt] > -200 && rawTime[ipmt] < timeOfFirstPmtA && rawTime[ipmt]!=0 ){\r
      timeOfFirstPmtA = rawTime[ipmt];\r
      idxOfFirstPmtA  = ipmt;\r
    }\r
  }\r
\r
  if(idxOfFirstPmtA != -1 && idxOfFirstPmtC != -1){\r
    //speed of light in cm/ns   TMath::C()*1e-7 \r
    Float_t vertexraw = TMath::C()*1e-7 * (rawTime[idxOfFirstPmtA] - rawTime[idxOfFirstPmtC])/2;\r
    aodTzero->SetT0VertexRaw( vertexraw );\r
  }else{\r
    aodTzero->SetT0VertexRaw(99999);\r
  }\r
\r
}\r
\r
\r
//______________________________________________________________________________\r
void AliAnalysisTaskESDfilter::ConvertZDC(const AliESDEvent& esd)\r
{\r
  // Convert ZDC data\r
  AliESDZDC* esdZDC = esd.GetZDCData();\r
  \r
  const Double_t zem1Energy = esdZDC->GetZEM1Energy();\r
  const Double_t zem2Energy = esdZDC->GetZEM2Energy();\r
   \r
  const Double_t *towZNC = esdZDC->GetZNCTowerEnergy();\r
  const Double_t *towZPC = esdZDC->GetZPCTowerEnergy();\r
  const Double_t *towZNA = esdZDC->GetZNATowerEnergy();\r
  const Double_t *towZPA = esdZDC->GetZPATowerEnergy();\r
  const Double_t *towZNCLG = esdZDC->GetZNCTowerEnergyLR();\r
  const Double_t *towZNALG = esdZDC->GetZNATowerEnergyLR();\r
  \r
  AliAODZDC* zdcAOD = AODEvent()->GetZDCData();\r
\r
  zdcAOD->SetZEM1Energy(zem1Energy);\r
  zdcAOD->SetZEM2Energy(zem2Energy);\r
  zdcAOD->SetZNCTowers(towZNC, towZNCLG);\r
  zdcAOD->SetZNATowers(towZNA, towZNALG);\r
  zdcAOD->SetZPCTowers(towZPC);\r
  zdcAOD->SetZPATowers(towZPA);\r
  \r
  zdcAOD->SetZDCParticipants(esdZDC->GetZDCParticipants(), esdZDC->GetZDCPartSideA(), esdZDC->GetZDCPartSideC());\r
  zdcAOD->SetZDCImpactParameter(esdZDC->GetImpactParameter(), esdZDC->GetImpactParamSideA(), \r
        esdZDC->GetImpactParamSideC());\r
  zdcAOD->SetZDCTDCSum(esdZDC->GetZNTDCSum(0)); \r
  zdcAOD->SetZDCTDCDiff(esdZDC->GetZNTDCDiff(0));       \r
\r
}\r
\r
//______________________________________________________________________________\r
void AliAnalysisTaskESDfilter::ConvertESDtoAOD() \r
{\r
  // ESD Filter analysis task executed for each event\r
  \r
  AliESDEvent* esd = dynamic_cast<AliESDEvent*>(InputEvent());\r
  \r
  if(!esd)return;\r
\r
  AliCodeTimerAuto("",0);\r
  \r
  fOldESDformat = ( esd->GetAliESDOld() != 0x0 );\r
 \r
      // Reconstruct cascades and V0 here\r
  if (fIsV0CascadeRecoEnabled) {\r
    esd->ResetCascades();\r
    esd->ResetV0s();\r
\r
    AliV0vertexer lV0vtxer;\r
    AliCascadeVertexer lCascVtxer;\r
\r
    lV0vtxer.SetCuts(fV0Cuts);\r
    lCascVtxer.SetCuts(fCascadeCuts);\r
\r
\r
    lV0vtxer.Tracks2V0vertices(esd);\r
    lCascVtxer.V0sTracks2CascadeVertices(esd);\r
  }\r
\r
 \r
  fNumberOfTracks = 0;\r
  fNumberOfPositiveTracks = 0;\r
  fNumberOfV0s = 0;\r
  fNumberOfVertices = 0;\r
  fNumberOfCascades = 0;\r
  fNumberOfKinks = 0;\r
    \r
  AliAODHeader* header = ConvertHeader(*esd);\r
\r
  if ( fIsVZEROEnabled ) ConvertVZERO(*esd);\r
  if ( fIsTZEROEnabled ) ConvertTZERO(*esd);\r
  \r
  // Fetch Stack for debuggging if available \r
  fMChandler=0x0;\r
  if(MCEvent())\r
  {\r
    fMChandler = (AliMCEventHandler*) ((AliAnalysisManager::GetAnalysisManager())->GetMCtruthEventHandler()); \r
  }\r
  \r
  // loop over events and fill them\r
  // Multiplicity information needed by the header (to be revised!)\r
  Int_t nTracks    = esd->GetNumberOfTracks();\r
  for (Int_t iTrack=0; iTrack<nTracks; ++iTrack) esd->GetTrack(iTrack)->SetESDEvent(esd);\r
\r
  // Update the header\r
\r
  Int_t nV0s      = esd->GetNumberOfV0s();\r
  Int_t nCascades = esd->GetNumberOfCascades();\r
  Int_t nKinks    = esd->GetNumberOfKinks();\r
  Int_t nVertices = nV0s + nCascades /*V0 wihtin cascade already counted*/+ nKinks + 1 /* = prim. vtx*/;\r
  Int_t nPileSPDVertices=1+esd->GetNumberOfPileupVerticesSPD(); // also SPD main vertex\r
  Int_t nPileTrkVertices=esd->GetNumberOfPileupVerticesTracks();\r
  nVertices+=nPileSPDVertices;\r
  nVertices+=nPileTrkVertices;\r
  Int_t nJets     = 0;\r
  Int_t nCaloClus = esd->GetNumberOfCaloClusters();\r
  Int_t nFmdClus  = 0;\r
  Int_t nPmdClus  = esd->GetNumberOfPmdTracks();\r
    \r
  AliDebug(1,Form("   NV0=%d  NCASCADES=%d  NKINKS=%d", nV0s, nCascades, nKinks));\r
       \r
  AODEvent()->ResetStd(nTracks, nVertices, nV0s, nCascades, nJets, nCaloClus, nFmdClus, nPmdClus);\r
\r
  if (nV0s > 0) \r
  {\r
    // RefArray to store a mapping between esd V0 number and newly created AOD-Vertex V0\r
    fAODV0VtxRefs = new TRefArray(nV0s);\r
    // RefArray to store the mapping between esd V0 number and newly created AOD-V0\r
    fAODV0Refs = new TRefArray(nV0s); \r
    // Array to take into account the V0s already added to the AOD (V0 within cascades)\r
    fUsedV0 = new Bool_t[nV0s];\r
    for (Int_t iV0=0; iV0<nV0s; ++iV0) fUsedV0[iV0]=kFALSE;\r
  }\r
  \r
  if (nTracks>0) \r
  {\r
    // RefArray to store the mapping between esd track number and newly created AOD-Track\r
    \r
    fAODTrackRefs = new TRefArray(nTracks);\r
\r
    // Array to take into account the tracks already added to the AOD    \r
    fUsedTrack = new Bool_t[nTracks];\r
    for (Int_t iTrack=0; iTrack<nTracks; ++iTrack) fUsedTrack[iTrack]=kFALSE;\r
  }\r
  \r
  // Array to take into account the kinks already added to the AOD\r
  if (nKinks>0) \r
  {\r
    fUsedKink = new Bool_t[nKinks];\r
    for (Int_t iKink=0; iKink<nKinks; ++iKink) fUsedKink[iKink]=kFALSE;\r
  }\r
    \r
  ConvertPrimaryVertices(*esd);\r
\r
  //setting best TOF PID\r
  AliESDInputHandler* esdH = dynamic_cast<AliESDInputHandler*>(AliAnalysisManager::GetAnalysisManager()->GetInputEventHandler());\r
  if (esdH)\r
      fESDpid = esdH->GetESDpid();\r
\r
  if (fIsPidOwner && fESDpid){\r
    delete fESDpid;\r
    fESDpid = 0;\r
  }\r
  if(!fESDpid)\r
  { //in case of no Tender attached \r
    fESDpid = new AliESDpid;\r
    fIsPidOwner = kTRUE;\r
  }\r
  \r
  if(!esd->GetTOFHeader())\r
  { //protection in case the pass2 LHC10b,c,d have been processed without tender. \r
    Float_t t0spread[10];\r
    Float_t intrinsicTOFres=100; //ps ok for LHC10b,c,d pass2!! \r
    for (Int_t i=0; i<10; i++) t0spread[i] = (TMath::Sqrt(esd->GetSigma2DiamondZ()))/0.03; //0.03 to convert from cm to ps\r
    fESDpid->GetTOFResponse().SetT0resolution(t0spread);\r
    fESDpid->GetTOFResponse().SetTimeResolution(intrinsicTOFres);\r
    \r
    fESDpid->SetTOFResponse(esd, (AliESDpid::EStartTimeType_t)fTimeZeroType);    \r
  }\r
  \r
  if(esd->GetTOFHeader() && fIsPidOwner) fESDpid->SetTOFResponse(esd, (AliESDpid::EStartTimeType_t)fTimeZeroType); //in case of AOD production strating form LHC10e without Tender. \r
  \r
  if ( fAreCascadesEnabled ) ConvertCascades(*esd);\r
\r
  if ( fAreV0sEnabled ) ConvertV0s(*esd);\r
  \r
  if ( fAreKinksEnabled ) ConvertKinks(*esd);\r
  \r
  if ( fAreTracksEnabled ) ConvertTracks(*esd);\r
  \r
  // Update number of AOD tracks in header at the end of track loop (M.G.)\r
  header->SetRefMultiplicity(fNumberOfTracks);\r
  header->SetRefMultiplicityPos(fNumberOfPositiveTracks);\r
  header->SetRefMultiplicityNeg(fNumberOfTracks - fNumberOfPositiveTracks);\r
\r
  if ( fTPCConstrainedFilterMask ) ConvertTPCOnlyTracks(*esd);\r
  if( fGlobalConstrainedFilterMask) ConvertGlobalConstrainedTracks(*esd);  \r
\r
  if ( fArePmdClustersEnabled ) ConvertPmdClusters(*esd);\r
  \r
  if ( fAreCaloClustersEnabled ) ConvertCaloClusters(*esd);\r
  \r
  if ( fAreEMCALCellsEnabled )ConvertEMCALCells(*esd);\r
  \r
  if ( fArePHOSCellsEnabled )ConvertPHOSCells(*esd);\r
        \r
        if ( fAreEMCALTriggerEnabled )ConvertCaloTrigger(TString("EMCAL"), *esd);\r
\r
        if ( fArePHOSTriggerEnabled )ConvertCaloTrigger(TString("PHOS"), *esd);\r
  \r
  if ( fAreTrackletsEnabled ) ConvertTracklets(*esd);\r
  if ( fIsZDCEnabled ) ConvertZDC(*esd);\r
  \r
  delete fAODTrackRefs; fAODTrackRefs=0x0;\r
  delete fAODV0VtxRefs; fAODV0VtxRefs=0x0;\r
  delete fAODV0Refs; fAODV0Refs=0x0;\r
  \r
  delete[] fUsedTrack; fUsedTrack=0x0;\r
  delete[] fUsedV0; fUsedV0=0x0;\r
  delete[] fUsedKink; fUsedKink=0x0;\r
\r
  if ( fIsPidOwner){\r
    delete fESDpid;\r
    fESDpid = 0x0;\r
  }\r
\r
\r
}\r
\r
\r
//______________________________________________________________________________\r
void AliAnalysisTaskESDfilter::SetAODPID(AliESDtrack *esdtrack, AliAODTrack *aodtrack, AliAODPid *detpid)\r
{\r
  //\r
  // Setter for the raw PID detector signals\r
  //\r
\r
  // Save PID object for candidate electrons\r
    Bool_t pidSave = kFALSE;\r
    if (fTrackFilter) {\r
        Bool_t selectInfo = fTrackFilter->IsSelected((char*) "Electrons");\r
        if (selectInfo)  pidSave = kTRUE;\r
    }\r
\r
\r
    // Tracks passing pt cut \r
    if(esdtrack->Pt()>fHighPthreshold) {\r
        pidSave = kTRUE;\r
    } else {\r
        if(fPtshape){\r
            if(esdtrack->Pt()> fPtshape->GetXmin()){\r
                Double_t y = fPtshape->Eval(esdtrack->Pt())/fPtshape->Eval(fHighPthreshold);\r
                if(gRandom->Rndm(0)<1./y){\r
                    pidSave = kTRUE;\r
                }//end rndm\r
            }//end if p < pmin\r
        }//end if p function\r
    }// end else\r
\r
    if (pidSave) {\r
      if(!aodtrack->GetDetPid()){// prevent memory leak when calling SetAODPID twice for the same track\r
        detpid = new AliAODPid();\r
        SetDetectorRawSignals(detpid,esdtrack);\r
        aodtrack->SetDetPID(detpid);\r
      }\r
    }\r
}\r
\r
//______________________________________________________________________________\r
void AliAnalysisTaskESDfilter::SetDetectorRawSignals(AliAODPid *aodpid, AliESDtrack *track)\r
{\r
//\r
//assignment of the detector signals (AliXXXesdPID inspired)\r
//\r
 if(!track){\r
 AliInfo("no ESD track found. .....exiting");\r
 return;\r
 }\r
 // TPC momentum\r
 const AliExternalTrackParam *in=track->GetInnerParam();\r
 if (in) {\r
   aodpid->SetTPCmomentum(in->GetP());\r
 }else{\r
   aodpid->SetTPCmomentum(-1.);\r
 }\r
\r
\r
 aodpid->SetITSsignal(track->GetITSsignal());\r
 Double_t itsdedx[4]; // dE/dx samples for individual ITS layers\r
 track->GetITSdEdxSamples(itsdedx);\r
 aodpid->SetITSdEdxSamples(itsdedx);\r
\r
 aodpid->SetTPCsignal(track->GetTPCsignal());\r
 aodpid->SetTPCsignalN(track->GetTPCsignalN());\r
\r
 //n TRD planes = 6\r
 Int_t nslices = track->GetNumberOfTRDslices()*6;\r
 TArrayD trdslices(nslices);\r
 for(Int_t iSl =0; iSl < track->GetNumberOfTRDslices(); iSl++) {\r
   for(Int_t iPl =0; iPl<6; iPl++) trdslices[iPl*track->GetNumberOfTRDslices()+iSl] = track->GetTRDslice(iPl,iSl);\r
 }\r
 \r
//TRD momentum\r
 for(Int_t iPl=0;iPl<6;iPl++){\r
   Double_t trdmom=track->GetTRDmomentum(iPl);\r
   aodpid->SetTRDmomentum(iPl,trdmom);\r
 }\r
\r
 aodpid->SetTRDsignal(track->GetNumberOfTRDslices()*6,trdslices.GetArray());\r
\r
 //TRD clusters and tracklets\r
 aodpid->SetTRDncls(track->GetTRDncls());\r
 aodpid->SetTRDntrackletsPID(track->GetTRDntrackletsPID());\r
 \r
 //TOF PID  \r
 Double_t times[AliAODPid::kSPECIES]; track->GetIntegratedTimes(times);\r
 aodpid->SetIntegratedTimes(times);\r
\r
  Float_t tzeroTrack = fESDpid->GetTOFResponse().GetStartTime(track->P());\r
  aodpid->SetTOFsignal(track->GetTOFsignal()-tzeroTrack);\r
  \r
  Double_t tofRes[5];\r
  for (Int_t iMass=0; iMass<5; iMass++){\r
    tofRes[iMass]=(Double_t)fESDpid->GetTOFResponse().GetExpectedSigma(track->P(), times[iMass], AliPID::ParticleMass(iMass));\r
  }\r
  aodpid->SetTOFpidResolution(tofRes);\r
\r
  aodpid->SetHMPIDsignal(track->GetHMPIDsignal());\r
\r
 //Extrapolate track to EMCAL surface for AOD-level track-cluster matching\r
 Double_t emcpos[3] = {0.,0.,0.};\r
 Double_t emcmom[3] = {0.,0.,0.};\r
 aodpid->SetEMCALPosition(emcpos);\r
 aodpid->SetEMCALMomentum(emcmom);\r
\r
 Double_t hmpPid[5] = {0};\r
 track->GetHMPIDpid(hmpPid);\r
 aodpid->SetHMPIDprobs(hmpPid);\r
\r
 AliExternalTrackParam *outerparam = (AliExternalTrackParam*)track->GetOuterParam();\r
 if(!outerparam) return;\r
\r
 //To be replaced by call to AliEMCALGeoUtils when the class becomes available\r
 Bool_t okpos = outerparam->GetXYZ(emcpos);\r
 Bool_t okmom = outerparam->GetPxPyPz(emcmom);\r
 if(!(okpos && okmom)) return;\r
\r
 aodpid->SetEMCALPosition(emcpos);\r
 aodpid->SetEMCALMomentum(emcmom);\r
\r
}\r
\r
Double_t  AliAnalysisTaskESDfilter::Chi2perNDF(AliESDtrack* track)\r
{\r
    // Calculate chi2 per ndf for track\r
    Int_t  nClustersTPC = track->GetTPCNcls();\r
\r
    if ( nClustersTPC > 5) {\r
       return (track->GetTPCchi2()/Float_t(nClustersTPC - 5));\r
    } else {\r
       return (-1.);\r
    }\r
 }\r
\r
\r
//______________________________________________________________________________\r
void AliAnalysisTaskESDfilter::Terminate(Option_t */*option*/)\r
{\r
// Terminate analysis\r
//\r
    if (fDebug > 1) printf("AnalysisESDfilter: Terminate() \n");\r
}\r
\r
//______________________________________________________________________________\r
void  AliAnalysisTaskESDfilter::PrintMCInfo(AliStack *pStack,Int_t label){\r
// Print MC info\r
  if(!pStack)return;\r
  label = TMath::Abs(label);\r
  TParticle *part = pStack->Particle(label);\r
  Printf("########################");\r
  Printf("%s:%d %d UniqueID %d PDG %d P %3.3f",(char*)__FILE__,__LINE__,label,part->GetUniqueID(),part->GetPdgCode(),part->P());\r
  part->Print();\r
  TParticle* mother = part;\r
  Int_t imo = part->GetFirstMother();\r
  Int_t nprim = pStack->GetNprimary();\r
  //  while((imo >= nprim) && (mother->GetUniqueID() == 4)) {\r
  while((imo >= nprim)) {\r
    mother =  pStack->Particle(imo);\r
    Printf("Mother %s:%d Label %d UniqueID %d PDG %d P %3.3f",(char*)__FILE__,__LINE__,imo,mother->GetUniqueID(),mother->GetPdgCode(),mother->P());\r
    mother->Print();\r
    imo =  mother->GetFirstMother();\r
  }\r
  Printf("########################");\r
}\r
\r
//______________________________________________________\r
\r