[u/mrichter/AliRoot.git] / STEER / AliESD.cxx

/**************************************************************************
 * Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
 *                                                                        *
 * Author: The ALICE Off-line Project.                                    *
 * Contributors are mentioned in the code where appropriate.              *
 *                                                                        *
 * Permission to use, copy, modify and distribute this software and its   *
 * documentation strictly for non-commercial purposes is hereby granted   *
 * without fee, provided that the above copyright notice appears in all   *
 * copies and that both the copyright notice and this permission notice   *
 * appear in the supporting documentation. The authors make no claims     *
 * about the suitability of this software for any purpose. It is          *
 * provided "as is" without express or implied warranty.                  *
 **************************************************************************/

/* $Id$ */

//-----------------------------------------------------------------
//           Implementation of the ESD class
//   This is the class to deal with during the phisical analysis of data
//   This class is generated directly by the reconstruction methods
//      Origin: Iouri Belikov, CERN, Jouri.Belikov@cern.ch
//-----------------------------------------------------------------

#include "AliESD.h"
#include "AliESDfriend.h"

ClassImp(AliESD)

//______________________________________________________________________________
AliESD::AliESD():
  fEventNumberInFile(0),
  fBunchCrossNumber(0),
  fOrbitNumber(0),
  fPeriodNumber(0),
  fRunNumber(0),
  fTimeStamp(0),
  fEventType(0),
  fTriggerMask(0),
  fTriggerCluster(0),
  fRecoVersion(0),
  fMagneticField(0),
  fZDCN1Energy(0),
  fZDCP1Energy(0),
  fZDCN2Energy(0),
  fZDCP2Energy(0),
  fZDCEMEnergy(0),
  fZDCParticipants(0),
  fT0zVertex(0),
  fSPDVertex(),
  fPrimaryVertex(),
  fSPDMult(),
  fT0timeStart(0),
  fTracks("AliESDtrack",15000),
  fHLTConfMapTracks("AliESDHLTtrack",25000),
  fHLTHoughTracks("AliESDHLTtrack",15000),
  fMuonTracks("AliESDMuonTrack",30),
  fPmdTracks("AliESDPmdTrack",3000),
  fTrdTracks("AliESDTrdTrack",300),
  fV0s("AliESDv0",200),  
  fCascades("AliESDcascade",20),
  fKinks("AliESDkink",4000),
  fCaloClusters("AliESDCaloCluster",10000),
  fEMCALClusters(0), 
  fFirstEMCALCluster(-1),
  fEMCALTriggerPosition(0x0),
  fEMCALTriggerAmplitudes(0x0),
  fPHOSClusters(0), 
  fFirstPHOSCluster(-1),
  fPHOSTriggerPosition(0x0),
  fPHOSTriggerAmplitudes(0x0),
  fESDFMD(0x0),
  fESDVZERO(0x0),
  fErrorLogs("AliRawDataErrorLog",5)
{
  // 
  // Standar constructor
  //

  for (Int_t i=0; i<24; i++) {
    fT0time[i] = 0;
    fT0amplitude[i] = 0;
  }
  for (Int_t i=0; i<2; i++) fDiamondXY[i]=0.;
  for (Int_t i=0; i<3; i++) fDiamondCovXY[i]=0.;
}

//______________________________________________________________________________
AliESD::AliESD(const AliESD& esd):
  TObject(esd),
  fEventNumberInFile(esd.fEventNumberInFile),
  fBunchCrossNumber(esd.fBunchCrossNumber),
  fOrbitNumber(esd.fOrbitNumber),
  fPeriodNumber(esd.fPeriodNumber),
  fRunNumber(esd.fRunNumber),
  fTimeStamp(esd.fTimeStamp),
  fEventType(esd.fEventType),
  fTriggerMask(esd.fTriggerMask),
  fTriggerCluster(esd.fTriggerCluster),
  fRecoVersion(esd.fRecoVersion),
  fMagneticField(esd.fMagneticField),
  fZDCN1Energy(esd.fZDCN1Energy),
  fZDCP1Energy(esd.fZDCP1Energy),
  fZDCN2Energy(esd.fZDCN2Energy),
  fZDCP2Energy(esd.fZDCP2Energy),
  fZDCEMEnergy(esd.fZDCEMEnergy),
  fZDCParticipants(esd.fZDCParticipants),
  fT0zVertex(esd.fT0zVertex),
  fSPDVertex(esd.fSPDVertex),
  fPrimaryVertex(esd.fPrimaryVertex),
  fSPDMult(esd.fSPDMult),
  fT0timeStart(esd.fT0timeStart),
  fTracks(*((TClonesArray*)esd.fTracks.Clone())),
  fHLTConfMapTracks(*((TClonesArray*)esd.fHLTConfMapTracks.Clone())),
  fHLTHoughTracks(*((TClonesArray*)esd.fHLTHoughTracks.Clone())),
  fMuonTracks(*((TClonesArray*)esd.fMuonTracks.Clone())),
  fPmdTracks(*((TClonesArray*)esd.fPmdTracks.Clone())),
  fTrdTracks(*((TClonesArray*)esd.fTrdTracks.Clone())),
  fV0s(*((TClonesArray*)esd.fV0s.Clone())),  
  fCascades(*((TClonesArray*)esd.fCascades.Clone())),
  fKinks(*((TClonesArray*)esd.fKinks.Clone())),
  fCaloClusters(*((TClonesArray*)esd.fCaloClusters.Clone())),
  fEMCALClusters(esd.fEMCALClusters), 
  fFirstEMCALCluster(esd.fFirstEMCALCluster),
  fEMCALTriggerPosition(esd. fEMCALTriggerPosition),
  fEMCALTriggerAmplitudes(esd.fEMCALTriggerAmplitudes),
  fPHOSClusters(esd.fPHOSClusters), 
  fFirstPHOSCluster(esd.fFirstPHOSCluster),
  fPHOSTriggerPosition(esd.fPHOSTriggerPosition),
  fPHOSTriggerAmplitudes(esd.fPHOSTriggerAmplitudes),
  fESDFMD(esd.fESDFMD),
  fESDVZERO(esd.fESDVZERO),
  fErrorLogs(*((TClonesArray*)esd.fErrorLogs.Clone()))
{
  // 
  // copy constructor
  //
  for (Int_t i=0; i<24; i++) {
    fT0time[i] = esd.fT0time[i];
    fT0amplitude[i] = esd.fT0amplitude[i];
  }
  for (Int_t i=0; i<2; i++) fDiamondXY[i]=esd.fDiamondXY[i];
  for (Int_t i=0; i<3; i++) fDiamondCovXY[i]=esd.fDiamondCovXY[i];
}

//______________________________________________________________________________
AliESD::~AliESD()
{
  //
  // Standard destructor
  //
  fTracks.Delete();
  fHLTConfMapTracks.Delete();
  fHLTHoughTracks.Delete();
  fMuonTracks.Delete();
  fPmdTracks.Delete();
  fTrdTracks.Delete();
  fV0s.Delete();
  fCascades.Delete();
  fKinks.Delete();
  fCaloClusters.Delete();
  delete fESDFMD;
  delete fESDVZERO;
  delete fEMCALTriggerPosition;
  delete fEMCALTriggerAmplitudes;
  delete fPHOSTriggerPosition;
  delete fPHOSTriggerAmplitudes;

  fErrorLogs.Delete();

}

//______________________________________________________________________________
void AliESD::Reset()
{
  // 
  // Reset the contents and delete the entries in TClonesArrays
  //

  fEventNumberInFile=0;
  fBunchCrossNumber=0;
  fOrbitNumber=0;
  fPeriodNumber=0;
  fRunNumber=0;
  fTimeStamp = 0;
  fEventType = 0;
  fTriggerMask=0;
  fTriggerCluster=0;
  fRecoVersion=0;
  fMagneticField=0;
  fZDCN1Energy=0;
  fZDCP1Energy=0;
  fZDCN2Energy=0;
  fZDCP2Energy=0;
  fZDCEMEnergy=0;
  fZDCParticipants=0;
  fT0zVertex=0;
  
  for (Int_t i=0; i<2; i++) fDiamondXY[i]=0.;
  for (Int_t i=0; i<3; i++) fDiamondCovXY[i]=0.;

  for (Int_t i=0; i<24; i++) {
    fT0time[i] = 0;
    fT0amplitude[i] = 0;
  }
  fT0timeStart = 0;
//
  fSPDMult.~AliMultiplicity();
  new (&fSPDMult) AliMultiplicity();
  fSPDVertex.~AliESDVertex();
  new (&fSPDVertex) AliESDVertex();
  fPrimaryVertex.~AliESDVertex();
  new (&fPrimaryVertex) AliESDVertex();
//
  fTracks.Delete();
  fHLTConfMapTracks.Delete();
  fHLTHoughTracks.Delete();
  fMuonTracks.Delete();
  fPmdTracks.Delete();
  fTrdTracks.Delete();
  fV0s.Delete();
  fCascades.Delete();
  fKinks.Delete();
  fCaloClusters.Delete();
//
  fEMCALClusters=0; 
  fFirstEMCALCluster=-1; 
  fPHOSClusters=0; 
  fFirstPHOSCluster=-1; 
//
  if (fEMCALTriggerPosition)   fEMCALTriggerPosition  ->Reset();
  if (fEMCALTriggerAmplitudes) fEMCALTriggerAmplitudes->Reset();
  if (fPHOSTriggerPosition)    fPHOSTriggerPosition   ->Reset();
  if (fPHOSTriggerAmplitudes)  fPHOSTriggerAmplitudes ->Reset();
//
  if (fESDFMD) fESDFMD->Clear();
//
  if (fESDVZERO){
      fESDVZERO->~AliESDVZERO();
      new (fESDVZERO) AliESDVZERO();
  } 
//
  fErrorLogs.Delete();
}


Bool_t  AliESD::RemoveKink(Int_t rm) {
  // ---------------------------------------------------------
  // Remove a kink candidate and references to it from ESD,
  // if this candidate does not come from a reconstructed decay
  // Not yet implemented...
  // ---------------------------------------------------------
  Int_t last=GetNumberOfKinks()-1;
  if ((rm<0)||(rm>last)) return kFALSE;

  return kTRUE;
}

Bool_t  AliESD::RemoveV0(Int_t rm) {
  // ---------------------------------------------------------
  // Remove a V0 candidate and references to it from ESD,
  // if this candidate does not come from a reconstructed decay
  // ---------------------------------------------------------
  Int_t last=GetNumberOfV0s()-1;
  if ((rm<0)||(rm>last)) return kFALSE;

  AliESDv0 *v0=GetV0(rm);
  Int_t idxP=v0->GetPindex(), idxN=v0->GetNindex();

  v0=GetV0(last);
  Int_t lastIdxP=v0->GetPindex(), lastIdxN=v0->GetNindex();

  Int_t used=0;

  // Check if this V0 comes from a reconstructed decay
  Int_t ncs=GetNumberOfCascades();
  for (Int_t n=0; n<ncs; n++) {
    AliESDcascade *cs=GetCascade(n);

    Int_t csIdxP=cs->GetPindex();
    Int_t csIdxN=cs->GetNindex();

    if (idxP==csIdxP)
       if (idxN==csIdxN) return kFALSE;

    if (csIdxP==lastIdxP)
       if (csIdxN==lastIdxN) used++;
  }

  //Replace the removed V0 with the last V0 
  TClonesArray &a=fV0s;
  delete a.RemoveAt(rm);

  if (rm==last) return kTRUE;

  //v0 is pointing to the last V0 candidate... 
  new (a[rm]) AliESDv0(*v0);
  delete a.RemoveAt(last);

  if (!used) return kTRUE;
  

  // Remap the indices of the daughters of reconstructed decays
  for (Int_t n=0; n<ncs; n++) {
    AliESDcascade *cs=GetCascade(n);


    Int_t csIdxP=cs->GetPindex();
    Int_t csIdxN=cs->GetNindex();

    if (csIdxP==lastIdxP)
      if (csIdxN==lastIdxN) {
         cs->AliESDv0::SetIndex(1,idxP);
         cs->AliESDv0::SetIndex(0,idxN);
         used--;
         if (!used) return kTRUE;
      }
  }

  return kTRUE;
}

Bool_t  AliESD::RemoveTrack(Int_t rm) {
  // ---------------------------------------------------------
  // Remove a track and references to it from ESD,
  // if this track does not come from a reconstructed decay
  // ---------------------------------------------------------
  Int_t last=GetNumberOfTracks()-1;
  if ((rm<0)||(rm>last)) return kFALSE;

  Int_t used=0;

  // Check if this track comes from a reconstructed decay
  Int_t nv0=GetNumberOfV0s();
  for (Int_t n=0; n<nv0; n++) {
    AliESDv0 *v0=GetV0(n);

    Int_t idx=v0->GetNindex();
    if (rm==idx) return kFALSE;
    if (idx==last) used++;

    idx=v0->GetPindex();
    if (rm==idx) return kFALSE;
    if (idx==last) used++;
  }

  Int_t ncs=GetNumberOfCascades();
  for (Int_t n=0; n<ncs; n++) {
    AliESDcascade *cs=GetCascade(n);

    Int_t idx=cs->GetIndex();
    if (rm==idx) return kFALSE;
    if (idx==last) used++;
  }

  Int_t nkn=GetNumberOfKinks();
  for (Int_t n=0; n<nkn; n++) {
    AliESDkink *kn=GetKink(n);

    Int_t idx=kn->GetIndex(0);
    if (rm==idx) return kFALSE;
    if (idx==last) used++;

    idx=kn->GetIndex(1);
    if (rm==idx) return kFALSE;
    if (idx==last) used++;
  }


  //Replace the removed track with the last track 
  TClonesArray &a=fTracks;
  delete a.RemoveAt(rm);

  if (rm==last) return kTRUE;

  AliESDtrack *t=GetTrack(last);
  t->SetID(rm);
  new (a[rm]) AliESDtrack(*t);
  delete a.RemoveAt(last);

  if (!used) return kTRUE;
  

  // Remap the indices of the daughters of reconstructed decays
  for (Int_t n=0; n<nv0; n++) {
    AliESDv0 *v0=GetV0(n);
    if (v0->GetIndex(0)==last) {
       v0->SetIndex(0,rm);
       used--;
       if (!used) return kTRUE;
    }
    if (v0->GetIndex(1)==last) {
       v0->SetIndex(1,rm);
       used--;
       if (!used) return kTRUE;
    }
  }

  for (Int_t n=0; n<ncs; n++) {
    AliESDcascade *cs=GetCascade(n);
    if (cs->GetIndex()==last) {
       cs->SetIndex(rm);
       used--;
       if (!used) return kTRUE;
    }
  }

  for (Int_t n=0; n<nkn; n++) {
    AliESDkink *kn=GetKink(n);
    if (kn->GetIndex(0)==last) {
       kn->SetIndex(rm,0);
       used--;
       if (!used) return kTRUE;
    }
    if (kn->GetIndex(1)==last) {
       kn->SetIndex(rm,1);
       used--;
       if (!used) return kTRUE;
    }
  }

  return kTRUE;
}


Bool_t AliESD::Clean(Float_t *cleanPars) {
  //
  // Remove the data which are not needed for the physics analysis.
  //
  // 1) Cleaning the V0 candidates
  //    ---------------------------
  //    If the cosine of the V0 pointing angle "csp" and 
  //    the DCA between the daughter tracks "dca" does not satisfy 
  //    the conditions 
  //
  //     csp > cleanPars[1] + dca/cleanPars[0]*(1.- cleanPars[1])
  //
  //    an attempt to remove this V0 candidate from ESD is made.
  //
  //    The V0 candidate gets removed if it does not belong to any 
  //    recosntructed cascade decay
  //
  //    12.11.2007, optimal values: cleanPars[0]=0.5, cleanPars[1]=0.999
  //
  // 2) Cleaning the tracks
  //    ----------------------
  //    If track's transverse parameter is larger than cleanPars[2]
  //                       OR
  //    track's longitudinal parameter is larger than cleanPars[3]
  //    an attempt to remove this track from ESD is made.
  //
  //    The track gets removed if it does not come 
  //    from a reconstructed decay
  //
  Bool_t rc=kFALSE;

  Float_t dcaMax=cleanPars[0];
  Float_t cspMin=cleanPars[1];

  Int_t nV0s=GetNumberOfV0s();
  for (Int_t i=nV0s-1; i>=0; i--) {
    AliESDv0 *v0=GetV0(i);

    Float_t dca=v0->GetDcaV0Daughters();
    Float_t csp=v0->GetV0CosineOfPointingAngle();
    Float_t cspcut=cspMin + dca/dcaMax*(1.-cspMin);
    if (csp > cspcut) continue;

    if (RemoveV0(i)) rc=kTRUE;
  }


  Float_t dmax=cleanPars[2], zmax=cleanPars[3];

  const AliESDVertex *vertex=GetVertex();
  Bool_t vtxOK=vertex->GetStatus();
  
  Int_t nTracks=GetNumberOfTracks();
  for (Int_t i=nTracks-1; i>=0; i--) {
    AliESDtrack *track=GetTrack(i);
    Float_t xy,z; track->GetImpactParameters(xy,z);
    if ((TMath::Abs(xy) > dmax) || (vtxOK && (TMath::Abs(z) > zmax))) {
      if (RemoveTrack(i)) rc=kTRUE;
    }
  }

  return rc;
}

Int_t AliESD::AddV0(const AliESDv0 *v) {
  //
  // Add V0
  //
    Int_t idx=fV0s.GetEntriesFast();
    new(fV0s[idx]) AliESDv0(*v);
    return idx;
}  

//______________________________________________________________________________
void AliESD::Print(Option_t *) const 
{
  //
  // Print header information of the event
  //
  printf("ESD run information\n");
  printf("Event # in file %d Bunch crossing # %d Orbit # %d Period # %d Run # %d Trigger %lld Magnetic field %f \n",
	 GetEventNumberInFile(),
	 GetBunchCrossNumber(),
	 GetOrbitNumber(),
	 GetPeriodNumber(),
	 GetRunNumber(),
	 GetTriggerMask(),
	 GetMagneticField() );
    printf("Vertex: (%.4f +- %.4f, %.4f +- %.4f, %.4f +- %.4f) cm\n",
	   fPrimaryVertex.GetXv(), fPrimaryVertex.GetXRes(),
	   fPrimaryVertex.GetYv(), fPrimaryVertex.GetYRes(),
	   fPrimaryVertex.GetZv(), fPrimaryVertex.GetZRes());
    printf("Mean vertex in RUN: X=%.4f Y=%.4f cm\n",
	   GetDiamondX(),GetDiamondY());
    printf("SPD Multiplicity. Number of tracklets %d \n",
           fSPDMult.GetNumberOfTracklets());
  printf("Event from reconstruction version %d \n",fRecoVersion);
  printf("Number of tracks: \n");
  printf("                 charged   %d\n", GetNumberOfTracks());
  printf("                 hlt CF    %d\n", GetNumberOfHLTConfMapTracks());
  printf("                 hlt HT    %d\n", GetNumberOfHLTHoughTracks());
  printf("                 muon      %d\n", GetNumberOfMuonTracks());
  printf("                 pmd       %d\n", GetNumberOfPmdTracks());
  printf("                 trd       %d\n", GetNumberOfTrdTracks());
  printf("                 v0        %d\n", GetNumberOfV0s());
  printf("                 cascades  %d\n", GetNumberOfCascades());
  printf("                 kinks     %d\n", GetNumberOfKinks());
  printf("                 CaloClusters %d\n", GetNumberOfCaloClusters());
  printf("                 phos      %d\n", GetNumberOfPHOSClusters());
  printf("                 emcal     %d\n", GetNumberOfEMCALClusters());
  printf("                 FMD       %s\n", (fESDFMD ? "yes" : "no"));
  printf("                 VZERO     %s\n", (fESDVZERO ? "yes" : "no"));
}

void AliESD::SetESDfriend(const AliESDfriend *ev) {
  //
  // Attaches the complementary info to the ESD
  //
  if (!ev) return;

  Int_t ntrk=ev->GetNumberOfTracks();

  for (Int_t i=0; i<ntrk; i++) {
    const AliESDfriendTrack *f=ev->GetTrack(i);
    GetTrack(i)->SetFriendTrack(f);
  }
}

void AliESD::GetESDfriend(AliESDfriend *ev) const {
  //
  // Extracts the complementary info from the ESD
  //
  if (!ev) return;

  Int_t ntrk=GetNumberOfTracks();

  for (Int_t i=0; i<ntrk; i++) {
    AliESDtrack *t=GetTrack(i);
    const AliESDfriendTrack *f=t->GetFriendTrack();
    ev->AddTrack(f);

    t->ReleaseESDfriendTrack();// Not to have two copies of "friendTrack"

  }
}

void AliESD::SetDiamond(const AliESDVertex *vertex)
{
  //
  // Set the interaction diamond
  //  
    fDiamondXY[0]=vertex->GetXv();
    fDiamondXY[1]=vertex->GetYv();
    Double_t cov[6];
    vertex->GetCovMatrix(cov);
    fDiamondCovXY[0]=cov[0];
    fDiamondCovXY[1]=cov[1];
    fDiamondCovXY[2]=cov[2];
  }
Commit	Line	Data
8a8d023f	1	/**************************************************************************
	2	* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
	3	* *
	4	* Author: The ALICE Off-line Project. *
	5	* Contributors are mentioned in the code where appropriate. *
	6	* *
	7	* Permission to use, copy, modify and distribute this software and its *
	8	* documentation strictly for non-commercial purposes is hereby granted *
	9	* without fee, provided that the above copyright notice appears in all *
	10	* copies and that both the copyright notice and this permission notice *
	11	* appear in the supporting documentation. The authors make no claims *
	12	* about the suitability of this software for any purpose. It is *
	13	* provided "as is" without express or implied warranty. *
	14	**************************************************************************/
	15
acd84897	16	/* $Id$ */
8a8d023f	17
ae982df3	18	//-----------------------------------------------------------------
	19	// Implementation of the ESD class
	20	// This is the class to deal with during the phisical analysis of data
af7ba10c	21	// This class is generated directly by the reconstruction methods
ae982df3	22	// Origin: Iouri Belikov, CERN, Jouri.Belikov@cern.ch
ae982df3	23	//-----------------------------------------------------------------
8a8d023f	24
b545009a	25	#include "AliESD.h"
b545009a	26	#include "AliESDfriend.h"
53203d32	27
	28	ClassImp(AliESD)
	29
	30	//______________________________________________________________________________
	31	AliESD::AliESD():
af885e0f	32	fEventNumberInFile(0),
	33	fBunchCrossNumber(0),
	34	fOrbitNumber(0),
	35	fPeriodNumber(0),
	36	fRunNumber(0),
	37	fTimeStamp(0),
	38	fEventType(0),
	39	fTriggerMask(0),
	40	fTriggerCluster(0),
	41	fRecoVersion(0),
	42	fMagneticField(0),
	43	fZDCN1Energy(0),
	44	fZDCP1Energy(0),
	45	fZDCN2Energy(0),
	46	fZDCP2Energy(0),
	47	fZDCEMEnergy(0),
	48	fZDCParticipants(0),
	49	fT0zVertex(0),
	50	fSPDVertex(),
	51	fPrimaryVertex(),
	52	fSPDMult(),
	53	fT0timeStart(0),
	54	fTracks("AliESDtrack",15000),
	55	fHLTConfMapTracks("AliESDHLTtrack",25000),
	56	fHLTHoughTracks("AliESDHLTtrack",15000),
	57	fMuonTracks("AliESDMuonTrack",30),
	58	fPmdTracks("AliESDPmdTrack",3000),
	59	fTrdTracks("AliESDTrdTrack",300),
	60	fV0s("AliESDv0",200),
	61	fCascades("AliESDcascade",20),
	62	fKinks("AliESDkink",4000),
	63	fCaloClusters("AliESDCaloCluster",10000),
85c60a8e	64	fEMCALClusters(0),
85c60a8e	65	fFirstEMCALCluster(-1),
af885e0f	66	fEMCALTriggerPosition(0x0),
af885e0f	67	fEMCALTriggerAmplitudes(0x0),
85c60a8e	68	fPHOSClusters(0),
af885e0f	69	fFirstPHOSCluster(-1),
	70	fPHOSTriggerPosition(0x0),
	71	fPHOSTriggerAmplitudes(0x0),
	72	fESDFMD(0x0),
	73	fESDVZERO(0x0),
	74	fErrorLogs("AliRawDataErrorLog",5)
9da38871	75	{
6989bff3	76	//
	77	// Standar constructor
	78	//
	79
af885e0f	80	for (Int_t i=0; i<24; i++) {
	81	fT0time[i] = 0;
	82	fT0amplitude[i] = 0;
	83	}
	84	for (Int_t i=0; i<2; i++) fDiamondXY[i]=0.;
	85	for (Int_t i=0; i<3; i++) fDiamondCovXY[i]=0.;
873f1f73	86	}
e149da78	87
c028b974	88	//______________________________________________________________________________
	89	AliESD::AliESD(const AliESD& esd):
	90	TObject(esd),
af885e0f	91	fEventNumberInFile(esd.fEventNumberInFile),
	92	fBunchCrossNumber(esd.fBunchCrossNumber),
	93	fOrbitNumber(esd.fOrbitNumber),
	94	fPeriodNumber(esd.fPeriodNumber),
	95	fRunNumber(esd.fRunNumber),
	96	fTimeStamp(esd.fTimeStamp),
	97	fEventType(esd.fEventType),
	98	fTriggerMask(esd.fTriggerMask),
	99	fTriggerCluster(esd.fTriggerCluster),
	100	fRecoVersion(esd.fRecoVersion),
	101	fMagneticField(esd.fMagneticField),
	102	fZDCN1Energy(esd.fZDCN1Energy),
	103	fZDCP1Energy(esd.fZDCP1Energy),
	104	fZDCN2Energy(esd.fZDCN2Energy),
	105	fZDCP2Energy(esd.fZDCP2Energy),
	106	fZDCEMEnergy(esd.fZDCEMEnergy),
	107	fZDCParticipants(esd.fZDCParticipants),
	108	fT0zVertex(esd.fT0zVertex),
	109	fSPDVertex(esd.fSPDVertex),
	110	fPrimaryVertex(esd.fPrimaryVertex),
	111	fSPDMult(esd.fSPDMult),
	112	fT0timeStart(esd.fT0timeStart),
	113	fTracks(((TClonesArray)esd.fTracks.Clone())),
	114	fHLTConfMapTracks(((TClonesArray)esd.fHLTConfMapTracks.Clone())),
	115	fHLTHoughTracks(((TClonesArray)esd.fHLTHoughTracks.Clone())),
	116	fMuonTracks(((TClonesArray)esd.fMuonTracks.Clone())),
	117	fPmdTracks(((TClonesArray)esd.fPmdTracks.Clone())),
	118	fTrdTracks(((TClonesArray)esd.fTrdTracks.Clone())),
	119	fV0s(((TClonesArray)esd.fV0s.Clone())),
	120	fCascades(((TClonesArray)esd.fCascades.Clone())),
	121	fKinks(((TClonesArray)esd.fKinks.Clone())),
	122	fCaloClusters(((TClonesArray)esd.fCaloClusters.Clone())),
c028b974	123	fEMCALClusters(esd.fEMCALClusters),
c028b974	124	fFirstEMCALCluster(esd.fFirstEMCALCluster),
af885e0f	125	fEMCALTriggerPosition(esd. fEMCALTriggerPosition),
af885e0f	126	fEMCALTriggerAmplitudes(esd.fEMCALTriggerAmplitudes),
c028b974	127	fPHOSClusters(esd.fPHOSClusters),
af885e0f	128	fFirstPHOSCluster(esd.fFirstPHOSCluster),
	129	fPHOSTriggerPosition(esd.fPHOSTriggerPosition),
	130	fPHOSTriggerAmplitudes(esd.fPHOSTriggerAmplitudes),
	131	fESDFMD(esd.fESDFMD),
	132	fESDVZERO(esd.fESDVZERO),
	133	fErrorLogs(((TClonesArray)esd.fErrorLogs.Clone()))
c028b974	134	{
6989bff3	135	//
	136	// copy constructor
	137	//
af885e0f	138	for (Int_t i=0; i<24; i++) {
	139	fT0time[i] = esd.fT0time[i];
	140	fT0amplitude[i] = esd.fT0amplitude[i];
	141	}
	142	for (Int_t i=0; i<2; i++) fDiamondXY[i]=esd.fDiamondXY[i];
	143	for (Int_t i=0; i<3; i++) fDiamondCovXY[i]=esd.fDiamondCovXY[i];
c028b974	144	}
c028b974	145
af7ba10c	146	//______________________________________________________________________________
	147	AliESD::~AliESD()
	148	{
	149	//
	150	// Standard destructor
	151	//
af885e0f	152	fTracks.Delete();
8bbc564d	153	fHLTConfMapTracks.Delete();
8bbc564d	154	fHLTHoughTracks.Delete();
af885e0f	155	fMuonTracks.Delete();
af7ba10c	156	fPmdTracks.Delete();
0ee00e25	157	fTrdTracks.Delete();
af7ba10c	158	fV0s.Delete();
af7ba10c	159	fCascades.Delete();
51ad6848	160	fKinks.Delete();
85c60a8e	161	fCaloClusters.Delete();
af885e0f	162	delete fESDFMD;
af885e0f	163	delete fESDVZERO;
6989bff3	164	delete fEMCALTriggerPosition;
	165	delete fEMCALTriggerAmplitudes;
	166	delete fPHOSTriggerPosition;
	167	delete fPHOSTriggerAmplitudes;
	168
af885e0f	169	fErrorLogs.Delete();
64df000d	170
51ad6848	171	}
51ad6848	172
bf25155c	173	//______________________________________________________________________________
	174	void AliESD::Reset()
	175	{
6989bff3	176	//
	177	// Reset the contents and delete the entries in TClonesArrays
	178	//
	179
af885e0f	180	fEventNumberInFile=0;
	181	fBunchCrossNumber=0;
	182	fOrbitNumber=0;
	183	fPeriodNumber=0;
	184	fRunNumber=0;
	185	fTimeStamp = 0;
	186	fEventType = 0;
	187	fTriggerMask=0;
	188	fTriggerCluster=0;
	189	fRecoVersion=0;
	190	fMagneticField=0;
	191	fZDCN1Energy=0;
	192	fZDCP1Energy=0;
	193	fZDCN2Energy=0;
	194	fZDCP2Energy=0;
	195	fZDCEMEnergy=0;
	196	fZDCParticipants=0;
	197	fT0zVertex=0;
5a2b4ee8	198
6989bff3	199	for (Int_t i=0; i<2; i++) fDiamondXY[i]=0.;
6989bff3	200	for (Int_t i=0; i<3; i++) fDiamondCovXY[i]=0.;
5a2b4ee8	201
6989bff3	202	for (Int_t i=0; i<24; i++) {
	203	fT0time[i] = 0;
	204	fT0amplitude[i] = 0;
	205	}
	206	fT0timeStart = 0;
5a2b4ee8	207	//
	208	fSPDMult.~AliMultiplicity();
	209	new (&fSPDMult) AliMultiplicity();
	210	fSPDVertex.~AliESDVertex();
	211	new (&fSPDVertex) AliESDVertex();
	212	fPrimaryVertex.~AliESDVertex();
	213	new (&fPrimaryVertex) AliESDVertex();
	214	//
6989bff3	215	fTracks.Delete();
	216	fHLTConfMapTracks.Delete();
	217	fHLTHoughTracks.Delete();
	218	fMuonTracks.Delete();
	219	fPmdTracks.Delete();
	220	fTrdTracks.Delete();
	221	fV0s.Delete();
	222	fCascades.Delete();
5a2b4ee8	223	fKinks.Delete();
6989bff3	224	fCaloClusters.Delete();
5a2b4ee8	225	//
85c60a8e	226	fEMCALClusters=0;
	227	fFirstEMCALCluster=-1;
	228	fPHOSClusters=0;
	229	fFirstPHOSCluster=-1;
5a2b4ee8	230	//
	231	if (fEMCALTriggerPosition) fEMCALTriggerPosition ->Reset();
	232	if (fEMCALTriggerAmplitudes) fEMCALTriggerAmplitudes->Reset();
	233	if (fPHOSTriggerPosition) fPHOSTriggerPosition ->Reset();
	234	if (fPHOSTriggerAmplitudes) fPHOSTriggerAmplitudes ->Reset();
	235	//
af885e0f	236	if (fESDFMD) fESDFMD->Clear();
5a2b4ee8	237	//
6989bff3	238	if (fESDVZERO){
5a2b4ee8	239	fESDVZERO->~AliESDVZERO();
5a2b4ee8	240	new (fESDVZERO) AliESDVZERO();
6989bff3	241	}
5a2b4ee8	242	//
6989bff3	243	fErrorLogs.Delete();
bf25155c	244	}
af7ba10c	245
a023d8d8	246
	247	Bool_t AliESD::RemoveKink(Int_t rm) {
	248	// ---------------------------------------------------------
	249	// Remove a kink candidate and references to it from ESD,
	250	// if this candidate does not come from a reconstructed decay
	251	// Not yet implemented...
	252	// ---------------------------------------------------------
	253	Int_t last=GetNumberOfKinks()-1;
	254	if ((rm<0)\|\|(rm>last)) return kFALSE;
	255
	256	return kTRUE;
	257	}
	258
	259	Bool_t AliESD::RemoveV0(Int_t rm) {
	260	// ---------------------------------------------------------
	261	// Remove a V0 candidate and references to it from ESD,
	262	// if this candidate does not come from a reconstructed decay
	263	// ---------------------------------------------------------
	264	Int_t last=GetNumberOfV0s()-1;
	265	if ((rm<0)\|\|(rm>last)) return kFALSE;
	266
	267	AliESDv0 *v0=GetV0(rm);
	268	Int_t idxP=v0->GetPindex(), idxN=v0->GetNindex();
	269
	270	v0=GetV0(last);
	271	Int_t lastIdxP=v0->GetPindex(), lastIdxN=v0->GetNindex();
	272
	273	Int_t used=0;
	274
	275	// Check if this V0 comes from a reconstructed decay
	276	Int_t ncs=GetNumberOfCascades();
	277	for (Int_t n=0; n<ncs; n++) {
	278	AliESDcascade *cs=GetCascade(n);
	279
	280	Int_t csIdxP=cs->GetPindex();
	281	Int_t csIdxN=cs->GetNindex();
	282
	283	if (idxP==csIdxP)
	284	if (idxN==csIdxN) return kFALSE;
	285
	286	if (csIdxP==lastIdxP)
	287	if (csIdxN==lastIdxN) used++;
	288	}
	289
	290	//Replace the removed V0 with the last V0
	291	TClonesArray &a=fV0s;
	292	delete a.RemoveAt(rm);
	293
	294	if (rm==last) return kTRUE;
	295
	296	//v0 is pointing to the last V0 candidate...
	297	new (a[rm]) AliESDv0(*v0);
	298	delete a.RemoveAt(last);
	299
	300	if (!used) return kTRUE;
	301
	302
	303	// Remap the indices of the daughters of reconstructed decays
	304	for (Int_t n=0; n<ncs; n++) {
	305	AliESDcascade *cs=GetCascade(n);
	306
	307
	308	Int_t csIdxP=cs->GetPindex();
	309	Int_t csIdxN=cs->GetNindex();
310
311	if (csIdxP==lastIdxP)
312	if (csIdxN==lastIdxN) {
313	cs->AliESDv0::SetIndex(1,idxP);
314	cs->AliESDv0::SetIndex(0,idxN);
315	used--;
316	if (!used) return kTRUE;
317	}
318	}
319
320	return kTRUE;
321	}
322
7f68891d	323	Bool_t AliESD::RemoveTrack(Int_t rm) {
d64bd07d	324	// ---------------------------------------------------------
7f68891d	325	// Remove a track and references to it from ESD,
7f68891d	326	// if this track does not come from a reconstructed decay
d64bd07d	327	// ---------------------------------------------------------
7f68891d	328	Int_t last=GetNumberOfTracks()-1;
	329	if ((rm<0)\|\|(rm>last)) return kFALSE;
	330
	331	Int_t used=0;
d64bd07d	332
d64bd07d	333	// Check if this track comes from a reconstructed decay
7f68891d	334	Int_t nv0=GetNumberOfV0s();
	335	for (Int_t n=0; n<nv0; n++) {
	336	AliESDv0 *v0=GetV0(n);
	337
	338	Int_t idx=v0->GetNindex();
	339	if (rm==idx) return kFALSE;
	340	if (idx==last) used++;
	341
	342	idx=v0->GetPindex();
	343	if (rm==idx) return kFALSE;
	344	if (idx==last) used++;
	345	}
d64bd07d	346
7f68891d	347	Int_t ncs=GetNumberOfCascades();
	348	for (Int_t n=0; n<ncs; n++) {
	349	AliESDcascade *cs=GetCascade(n);
d64bd07d	350
7f68891d	351	Int_t idx=cs->GetIndex();
	352	if (rm==idx) return kFALSE;
	353	if (idx==last) used++;
	354	}
	355
	356	Int_t nkn=GetNumberOfKinks();
	357	for (Int_t n=0; n<nkn; n++) {
	358	AliESDkink *kn=GetKink(n);
d64bd07d	359
7f68891d	360	Int_t idx=kn->GetIndex(0);
	361	if (rm==idx) return kFALSE;
	362	if (idx==last) used++;
	363
	364	idx=kn->GetIndex(1);
	365	if (rm==idx) return kFALSE;
	366	if (idx==last) used++;
	367	}
	368
	369
	370	//Replace the removed track with the last track
	371	TClonesArray &a=fTracks;
	372	delete a.RemoveAt(rm);
	373
	374	if (rm==last) return kTRUE;
	375
	376	AliESDtrack *t=GetTrack(last);
	377	t->SetID(rm);
	378	new (a[rm]) AliESDtrack(*t);
	379	delete a.RemoveAt(last);
	380
	381	if (!used) return kTRUE;
7f68891d	382
a023d8d8	383
7f68891d	384	// Remap the indices of the daughters of reconstructed decays
	385	for (Int_t n=0; n<nv0; n++) {
	386	AliESDv0 *v0=GetV0(n);
	387	if (v0->GetIndex(0)==last) {
	388	v0->SetIndex(0,rm);
	389	used--;
	390	if (!used) return kTRUE;
	391	}
	392	if (v0->GetIndex(1)==last) {
	393	v0->SetIndex(1,rm);
	394	used--;
	395	if (!used) return kTRUE;
	396	}
	397	}
	398
	399	for (Int_t n=0; n<ncs; n++) {
	400	AliESDcascade *cs=GetCascade(n);
	401	if (cs->GetIndex()==last) {
	402	cs->SetIndex(rm);
	403	used--;
	404	if (!used) return kTRUE;
	405	}
	406	}
	407
	408	for (Int_t n=0; n<nkn; n++) {
	409	AliESDkink *kn=GetKink(n);
	410	if (kn->GetIndex(0)==last) {
	411	kn->SetIndex(rm,0);
	412	used--;
	413	if (!used) return kTRUE;
	414	}
	415	if (kn->GetIndex(1)==last) {
	416	kn->SetIndex(rm,1);
	417	used--;
	418	if (!used) return kTRUE;
	419	}
	420	}
d64bd07d	421
	422	return kTRUE;
	423	}
	424
a023d8d8	425
7f68891d	426	Bool_t AliESD::Clean(Float_t *cleanPars) {
	427	//
	428	// Remove the data which are not needed for the physics analysis.
	429	//
a023d8d8	430	// 1) Cleaning the V0 candidates
	431	// ---------------------------
	432	// If the cosine of the V0 pointing angle "csp" and
	433	// the DCA between the daughter tracks "dca" does not satisfy
	434	// the conditions
	435	//
	436	// csp > cleanPars[1] + dca/cleanPars[0]*(1.- cleanPars[1])
	437	//
	438	// an attempt to remove this V0 candidate from ESD is made.
	439	//
	440	// The V0 candidate gets removed if it does not belong to any
	441	// recosntructed cascade decay
	442	//
	443	// 12.11.2007, optimal values: cleanPars[0]=0.5, cleanPars[1]=0.999
	444	//
	445	// 2) Cleaning the tracks
	446	// ----------------------
	447	// If track's transverse parameter is larger than cleanPars[2]
7f68891d	448	// OR
a023d8d8	449	// track's longitudinal parameter is larger than cleanPars[3]
a023d8d8	450	// an attempt to remove this track from ESD is made.
7f68891d	451	//
a023d8d8	452	// The track gets removed if it does not come
a023d8d8	453	// from a reconstructed decay
7f68891d	454	//
a023d8d8	455	Bool_t rc=kFALSE;
	456
	457	Float_t dcaMax=cleanPars[0];
	458	Float_t cspMin=cleanPars[1];
	459
	460	Int_t nV0s=GetNumberOfV0s();
	461	for (Int_t i=nV0s-1; i>=0; i--) {
	462	AliESDv0 *v0=GetV0(i);
	463
	464	Float_t dca=v0->GetDcaV0Daughters();
	465	Float_t csp=v0->GetV0CosineOfPointingAngle();
	466	Float_t cspcut=cspMin + dca/dcaMax*(1.-cspMin);
	467	if (csp > cspcut) continue;
	468
	469	if (RemoveV0(i)) rc=kTRUE;
	470	}
	471
7f68891d	472
a023d8d8	473	Float_t dmax=cleanPars[2], zmax=cleanPars[3];
7f68891d	474
7f68891d	475	const AliESDVertex *vertex=GetVertex();
a023d8d8	476	Bool_t vtxOK=vertex->GetStatus();
7f68891d	477
	478	Int_t nTracks=GetNumberOfTracks();
	479	for (Int_t i=nTracks-1; i>=0; i--) {
	480	AliESDtrack *track=GetTrack(i);
	481	Float_t xy,z; track->GetImpactParameters(xy,z);
	482	if ((TMath::Abs(xy) > dmax) \|\| (vtxOK && (TMath::Abs(z) > zmax))) {
	483	if (RemoveTrack(i)) rc=kTRUE;
	484	}
	485	}
	486
	487	return rc;
	488	}
	489
d6a49f20	490	Int_t AliESD::AddV0(const AliESDv0 *v) {
	491	//
	492	// Add V0
	493	//
af885e0f	494	Int_t idx=fV0s.GetEntriesFast();
	495	new(fV0s[idx]) AliESDv0(*v);
	496	return idx;
d6a49f20	497	}
d6a49f20	498
af7ba10c	499	//______________________________________________________________________________
	500	void AliESD::Print(Option_t *) const
	501	{
	502	//
	503	// Print header information of the event
	504	//
5f7789fc	505	printf("ESD run information\n");
4d422cad	506	printf("Event # in file %d Bunch crossing # %d Orbit # %d Period # %d Run # %d Trigger %lld Magnetic field %f \n",
31fd97b2	507	GetEventNumberInFile(),
	508	GetBunchCrossNumber(),
	509	GetOrbitNumber(),
4d422cad	510	GetPeriodNumber(),
ef278eae	511	GetRunNumber(),
b647652d	512	GetTriggerMask(),
ef278eae	513	GetMagneticField() );
af885e0f	514	printf("Vertex: (%.4f +- %.4f, %.4f +- %.4f, %.4f +- %.4f) cm\n",
	515	fPrimaryVertex.GetXv(), fPrimaryVertex.GetXRes(),
	516	fPrimaryVertex.GetYv(), fPrimaryVertex.GetYRes(),
	517	fPrimaryVertex.GetZv(), fPrimaryVertex.GetZRes());
9f57c1aa	518	printf("Mean vertex in RUN: X=%.4f Y=%.4f cm\n",
9f57c1aa	519	GetDiamondX(),GetDiamondY());
32e449be	520	printf("SPD Multiplicity. Number of tracklets %d \n",
af885e0f	521	fSPDMult.GetNumberOfTracklets());
af885e0f	522	printf("Event from reconstruction version %d \n",fRecoVersion);
ef278eae	523	printf("Number of tracks: \n");
85c60a8e	524	printf(" charged %d\n", GetNumberOfTracks());
af885e0f	525	printf(" hlt CF %d\n", GetNumberOfHLTConfMapTracks());
af885e0f	526	printf(" hlt HT %d\n", GetNumberOfHLTHoughTracks());
ef278eae	527	printf(" muon %d\n", GetNumberOfMuonTracks());
a2882fb4	528	printf(" pmd %d\n", GetNumberOfPmdTracks());
0ee00e25	529	printf(" trd %d\n", GetNumberOfTrdTracks());
ef278eae	530	printf(" v0 %d\n", GetNumberOfV0s());
667ee8bf	531	printf(" cascades %d\n", GetNumberOfCascades());
667ee8bf	532	printf(" kinks %d\n", GetNumberOfKinks());
667ee8bf	533	printf(" CaloClusters %d\n", GetNumberOfCaloClusters());
	534	printf(" phos %d\n", GetNumberOfPHOSClusters());
	535	printf(" emcal %d\n", GetNumberOfEMCALClusters());
	536	printf(" FMD %s\n", (fESDFMD ? "yes" : "no"));
dd735cf0	537	printf(" VZERO %s\n", (fESDVZERO ? "yes" : "no"));
ef278eae	538	}
d75007f6	539
	540	void AliESD::SetESDfriend(const AliESDfriend *ev) {
	541	//
	542	// Attaches the complementary info to the ESD
	543	//
	544	if (!ev) return;
	545
	546	Int_t ntrk=ev->GetNumberOfTracks();
af885e0f	547
d75007f6	548	for (Int_t i=0; i<ntrk; i++) {
	549	const AliESDfriendTrack *f=ev->GetTrack(i);
	550	GetTrack(i)->SetFriendTrack(f);
	551	}
	552	}
	553
	554	void AliESD::GetESDfriend(AliESDfriend *ev) const {
	555	//
	556	// Extracts the complementary info from the ESD
	557	//
	558	if (!ev) return;
	559
	560	Int_t ntrk=GetNumberOfTracks();
	561
	562	for (Int_t i=0; i<ntrk; i++) {
80799a5f	563	AliESDtrack *t=GetTrack(i);
d75007f6	564	const AliESDfriendTrack *f=t->GetFriendTrack();
d75007f6	565	ev->AddTrack(f);
80799a5f	566
	567	t->ReleaseESDfriendTrack();// Not to have two copies of "friendTrack"
	568
d75007f6	569	}
d75007f6	570	}
6989bff3	571
	572	void AliESD::SetDiamond(const AliESDVertex *vertex)
	573	{
	574	//
	575	// Set the interaction diamond
	576	//
	577	fDiamondXY[0]=vertex->GetXv();
	578	fDiamondXY[1]=vertex->GetYv();
	579	Double_t cov[6];
	580	vertex->GetCovMatrix(cov);
	581	fDiamondCovXY[0]=cov[0];
	582	fDiamondCovXY[1]=cov[1];
	583	fDiamondCovXY[2]=cov[2];
	584	}