/************************************************************************** * 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 AliESDEvent class // This is the class to deal with during the phisical analysis of data. // It also ensures the backward compatibility with the old ESD format. // // Origin: Christian Klein-Boesing, CERN, Christian.Klein-Boesing@cern.ch //----------------------------------------------------------------- #include "TList.h" #include "TRefArray.h" #include #include "AliESDEvent.h" #include "AliESDfriend.h" #include "AliESDVZERO.h" #include "AliESDHLTtrack.h" #include "AliESDFMD.h" #include "AliESD.h" #include "AliESDMuonTrack.h" #include "AliESDPmdTrack.h" #include "AliESDTrdTrack.h" #include "AliESDVertex.h" #include "AliESDcascade.h" #include "AliESDPmdTrack.h" #include "AliESDTrdTrack.h" #include "AliESDVertex.h" #include "AliESDcascade.h" #include "AliESDkink.h" #include "AliESDtrack.h" #include "AliESDHLTtrack.h" #include "AliESDCaloCluster.h" #include "AliESDv0.h" #include "AliESDFMD.h" #include "AliESDVZERO.h" #include "AliMultiplicity.h" #include "AliRawDataErrorLog.h" ClassImp(AliESDEvent) // here we define the names, some classes are no TNamed, therefore the classnames // are the Names const char* AliESDEvent::fESDListName[kESDListN] = {"AliESDRun", "AliESDHeader", "AliESDZDC", "AliESDFMD", "AliESDVZERO", "AliESDTZERO", "SPDVertex", "PrimaryVertex", "AliMultiplicity", "PHOSTrigger", "EMCALTrigger", "Tracks", "MuonTracks", "PmdTracks", "TrdTracks", "V0s", "Cascades", "Kinks", "CaloClusters", "AliRawDataErrorLogs"}; //______________________________________________________________________________ AliESDEvent::AliESDEvent(): AliVEvent(), fESDObjects(new TList()), fESDRun(0), fHeader(0), fESDZDC(0), fESDFMD(0), fESDVZERO(0), fESDTZERO(0), fSPDVertex(0), fPrimaryVertex(0), fSPDMult(0), fPHOSTrigger(0), fEMCALTrigger(0), fTracks(0), fMuonTracks(0), fPmdTracks(0), fTrdTracks(0), fV0s(0), fCascades(0), fKinks(0), fCaloClusters(0), fErrorLogs(0), fESDOld(0), fConnected(kFALSE), fEMCALClusters(0), fFirstEMCALCluster(-1), fPHOSClusters(0), fFirstPHOSCluster(-1) { } //______________________________________________________________________________ AliESDEvent::AliESDEvent(const AliESDEvent& esd): AliVEvent(esd), fESDObjects(new TList()), fESDRun(new AliESDRun(*esd.fESDRun)), fHeader(new AliESDHeader(*esd.fHeader)), fESDZDC(new AliESDZDC(*esd.fESDZDC)), fESDFMD(new AliESDFMD(*esd.fESDFMD)), fESDVZERO(new AliESDVZERO(*esd.fESDVZERO)), fESDTZERO(new AliESDTZERO(*esd.fESDTZERO)), fSPDVertex(new AliESDVertex(*esd.fSPDVertex)), fPrimaryVertex(new AliESDVertex(*esd.fPrimaryVertex)), fSPDMult(new AliMultiplicity(*esd.fSPDMult)), fPHOSTrigger(new AliESDCaloTrigger(*esd.fPHOSTrigger)), fEMCALTrigger(new AliESDCaloTrigger(*esd.fEMCALTrigger)), fTracks(new TClonesArray(*esd.fTracks)), fMuonTracks(new TClonesArray(*esd.fMuonTracks)), fPmdTracks(new TClonesArray(*esd.fPmdTracks)), fTrdTracks(new TClonesArray(*esd.fTrdTracks)), fV0s(new TClonesArray(*esd.fV0s)), fCascades(new TClonesArray(*esd.fCascades)), fKinks(new TClonesArray(*esd.fKinks)), fCaloClusters(new TClonesArray(*esd.fCaloClusters)), fErrorLogs(new TClonesArray(*esd.fErrorLogs)), fESDOld(new AliESD(*esd.fESDOld)), fConnected(esd.fConnected), fEMCALClusters(esd.fEMCALClusters), fFirstEMCALCluster(esd.fFirstEMCALCluster), fPHOSClusters(esd.fPHOSClusters), fFirstPHOSCluster(esd.fFirstPHOSCluster) { // CKB init in the constructor list and only add here ... AddObject(fESDRun); AddObject(fHeader); AddObject(fESDZDC); AddObject(fESDFMD); AddObject(fESDVZERO); AddObject(fESDTZERO); AddObject(fSPDVertex); AddObject(fPrimaryVertex); AddObject(fSPDMult); AddObject(fPHOSTrigger); AddObject(fEMCALTrigger); AddObject(fTracks); AddObject(fMuonTracks); AddObject(fPmdTracks); AddObject(fTrdTracks); AddObject(fV0s); AddObject(fCascades); AddObject(fKinks); AddObject(fCaloClusters); AddObject(fErrorLogs); GetStdContent(); } //______________________________________________________________________________ AliESDEvent & AliESDEvent::operator=(const AliESDEvent& source) { // Assignment operator if(&source == this) return *this; AliVEvent::operator=(source); fESDRun = new AliESDRun(*source.fESDRun); fHeader = new AliESDHeader(*source.fHeader); fESDZDC = new AliESDZDC(*source.fESDZDC); fESDFMD = new AliESDFMD(*source.fESDFMD); fESDVZERO = new AliESDVZERO(*source.fESDVZERO); fESDTZERO = new AliESDTZERO(*source.fESDTZERO); fSPDVertex = new AliESDVertex(*source.fSPDVertex); fPrimaryVertex = new AliESDVertex(*source.fPrimaryVertex); fSPDMult = new AliMultiplicity(*source.fSPDMult); fPHOSTrigger = new AliESDCaloTrigger(*source.fPHOSTrigger); fEMCALTrigger = new AliESDCaloTrigger(*source.fEMCALTrigger); fTracks = new TClonesArray(*source.fTracks); fMuonTracks = new TClonesArray(*source.fMuonTracks); fPmdTracks = new TClonesArray(*source.fPmdTracks); fTrdTracks = new TClonesArray(*source.fTrdTracks); fV0s = new TClonesArray(*source.fV0s); fCascades = new TClonesArray(*source.fCascades); fKinks = new TClonesArray(*source.fKinks); fCaloClusters = new TClonesArray(*source.fCaloClusters); fErrorLogs = new TClonesArray(*source.fErrorLogs); fESDOld = new AliESD(*source.fESDOld); // CKB this way?? or // or AddObject( fESDZDC = new AliESDZDC(*source.fESDZDC)); fESDObjects = new TList(); AddObject(fESDRun); AddObject(fHeader); AddObject(fESDZDC); AddObject(fESDFMD); AddObject(fESDVZERO); AddObject(fESDTZERO); AddObject(fSPDVertex); AddObject(fPrimaryVertex); AddObject(fSPDMult); AddObject(fPHOSTrigger); AddObject(fEMCALTrigger); AddObject(fTracks); AddObject(fMuonTracks); AddObject(fPmdTracks); AddObject(fTrdTracks); AddObject(fV0s); AddObject(fCascades); AddObject(fKinks); AddObject(fCaloClusters); AddObject(fErrorLogs); fConnected = source.fConnected; fEMCALClusters = source.fEMCALClusters; fFirstEMCALCluster = source.fFirstEMCALCluster; fPHOSClusters = source.fPHOSClusters; fFirstPHOSCluster = source.fFirstPHOSCluster; return *this; } //______________________________________________________________________________ AliESDEvent::~AliESDEvent() { // // Standard destructor // // everthing on the list gets deleted automatically if(fESDObjects&&!fConnected) { delete fESDObjects; fESDObjects = 0; } } //______________________________________________________________________________ void AliESDEvent::Reset() { // Reset the standard contents ResetStdContent(); if(fESDOld)fESDOld->Reset(); // call reset for user supplied data? } void AliESDEvent::ResetStdContent() { // Reset the standard contents if(fESDRun) fESDRun->Reset(); if(fHeader) fHeader->Reset(); if(fESDZDC) fESDZDC->Reset(); if(fESDFMD) fESDFMD->Clear(); // why clear.... need consistend names // if(fESDVZERO) fESDVZERO->; // NOT IMPLEMENTED // if(fESDVZERO) new (fESDVZERO) AliESDVZERO(); if(fESDTZERO) fESDTZERO->Reset(); // CKB no clear/reset implemented if(fSPDVertex){ fSPDVertex->~AliESDVertex(); new (fSPDVertex) AliESDVertex(); fSPDVertex->SetName(fESDListName[kSPDVertex]); } if(fPrimaryVertex){ fPrimaryVertex->~AliESDVertex(); new (fPrimaryVertex) AliESDVertex(); fPrimaryVertex->SetName(fESDListName[kPrimaryVertex]); } if(fSPDMult){ fSPDMult->~AliMultiplicity(); new (fSPDMult) AliMultiplicity(); } if(fPHOSTrigger)fPHOSTrigger->Reset(); if(fEMCALTrigger)fEMCALTrigger->Reset(); if(fTracks)fTracks->Delete(); if(fMuonTracks)fMuonTracks->Clear(); if(fPmdTracks)fPmdTracks->Clear(); if(fTrdTracks)fTrdTracks->Clear(); if(fV0s)fV0s->Clear(); if(fCascades)fCascades->Clear(); if(fKinks)fKinks->Clear(); if(fCaloClusters)fCaloClusters->Delete(); if(fErrorLogs) fErrorLogs->Delete(); // don't reset fconnected fConnected ; fEMCALClusters=0; fFirstEMCALCluster=-1; fPHOSClusters=0; fFirstPHOSCluster=-1; } Int_t AliESDEvent::AddV0(const AliESDv0 *v) { // // Add V0 // TClonesArray &fv = *fV0s; Int_t idx=fV0s->GetEntriesFast(); new(fv[idx]) AliESDv0(*v); return idx; } //______________________________________________________________________________ void AliESDEvent::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("Number of tracks: \n"); printf(" charged %d\n", GetNumberOfTracks()); 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")); return; } void AliESDEvent::SetESDfriend(const AliESDfriend *ev) { // // Attaches the complementary info to the ESD // if (!ev) return; // to be sure that we set the tracks also // in case of old esds // if(fESDOld)CopyFromOldESD(); Int_t ntrk=ev->GetNumberOfTracks(); for (Int_t i=0; iGetTrack(i); GetTrack(i)->SetFriendTrack(f); } } Bool_t AliESDEvent::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; nGetNindex(); 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; nGetIndex(); if (rm==idx) return kFALSE; if (idx==last) used++; } Int_t nkn=GetNumberOfKinks(); for (Int_t n=0; nGetIndex(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; nGetIndex(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; nGetIndex()==last) { cs->SetIndex(rm); used--; if (!used) return kTRUE; } } for (Int_t n=0; nGetIndex(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 AliESDEvent::Clean(Float_t *cleanPars) { // // Remove the data which are not needed for the physics analysis. // // If track's transverse parameter is larger than fDmax // OR // track's longitudinal parameter is larger than fZmax // an attempt to remove this track from ESD is made. // // The track gets removed if it does not come // from a reconstructed decay // Float_t dmax=cleanPars[0], zmax=cleanPars[1]; const AliESDVertex *vertex=GetVertex(); Bool_t vtxOK=vertex->GetStatus(), rc=kFALSE; 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 AliESDEvent::AddTrack(const AliESDtrack *t) { // Add track TClonesArray &ftr = *fTracks; AliESDtrack * track = new(ftr[fTracks->GetEntriesFast()])AliESDtrack(*t); track->SetID(fTracks->GetEntriesFast()-1); return track->GetID(); } void AliESDEvent::AddMuonTrack(const AliESDMuonTrack *t) { TClonesArray &fmu = *fMuonTracks; new(fmu[fMuonTracks->GetEntriesFast()]) AliESDMuonTrack(*t); } void AliESDEvent::AddPmdTrack(const AliESDPmdTrack *t) { TClonesArray &fpmd = *fPmdTracks; new(fpmd[fPmdTracks->GetEntriesFast()]) AliESDPmdTrack(*t); } void AliESDEvent::AddTrdTrack(const AliESDTrdTrack *t) { TClonesArray &ftrd = *fTrdTracks; new(ftrd[fTrdTracks->GetEntriesFast()]) AliESDTrdTrack(*t); } Int_t AliESDEvent::AddKink(const AliESDkink *c) { // Add kink TClonesArray &fk = *fKinks; AliESDkink * kink = new(fk[fKinks->GetEntriesFast()]) AliESDkink(*c); kink->SetID(fKinks->GetEntriesFast()); // CKB different from the other imps.. return fKinks->GetEntriesFast()-1; } void AliESDEvent::AddCascade(const AliESDcascade *c) { TClonesArray &fc = *fCascades; new(fc[fCascades->GetEntriesFast()]) AliESDcascade(*c); } Int_t AliESDEvent::AddCaloCluster(const AliESDCaloCluster *c) { // Add calocluster TClonesArray &fc = *fCaloClusters; AliESDCaloCluster *clus = new(fc[fCaloClusters->GetEntriesFast()]) AliESDCaloCluster(*c); clus->SetID(fCaloClusters->GetEntriesFast()-1); return fCaloClusters->GetEntriesFast()-1; } void AliESDEvent::AddRawDataErrorLog(const AliRawDataErrorLog *log) { TClonesArray &errlogs = *fErrorLogs; new(errlogs[errlogs.GetEntriesFast()]) AliRawDataErrorLog(*log); } void AliESDEvent::SetVertex(const AliESDVertex *vertex) { // use already allocated space if(fSPDVertex){ *fSPDVertex = *vertex; fSPDVertex->SetName(fESDListName[kSPDVertex]); } } void AliESDEvent::SetPrimaryVertex(const AliESDVertex *vertex) { if(fPrimaryVertex){ *fPrimaryVertex = *vertex; fPrimaryVertex->SetName(fESDListName[kPrimaryVertex]); } } void AliESDEvent::SetMultiplicity(const AliMultiplicity *mul) { if(fSPDMult){ *fSPDMult = *mul; } } void AliESDEvent::SetFMDData(AliESDFMD * obj) { // use already allocated space if(fESDFMD){ *fESDFMD = *obj; } } void AliESDEvent::SetVZEROData(AliESDVZERO * obj){ // use already allocated space if(fESDVZERO) new(fESDVZERO) AliESDVZERO(*obj); } void AliESDEvent::GetESDfriend(AliESDfriend *ev) const { // // Extracts the complementary info from the ESD // if (!ev) return; Int_t ntrk=GetNumberOfTracks(); for (Int_t i=0; iGetFriendTrack(); ev->AddTrack(f); t->ReleaseESDfriendTrack();// Not to have two copies of "friendTrack" } } void AliESDEvent::AddObject(TObject* obj) { // Add an object to the list of object. // Please be aware that in order to increase performance you should // refrain from using TObjArrays (if possible). Use TClonesArrays, instead. fESDObjects->SetOwner(kTRUE); fESDObjects->AddLast(obj); } void AliESDEvent::GetStdContent() { // set pointers for standard content // get by name much safer and not a big overhead since not called very often fESDRun = (AliESDRun*)fESDObjects->FindObject(fESDListName[kESDRun]); fHeader = (AliESDHeader*)fESDObjects->FindObject(fESDListName[kHeader]); fESDZDC = (AliESDZDC*)fESDObjects->FindObject(fESDListName[kESDZDC]); fESDFMD = (AliESDFMD*)fESDObjects->FindObject(fESDListName[kESDFMD]); fESDVZERO = (AliESDVZERO*)fESDObjects->FindObject(fESDListName[kESDVZERO]); fESDTZERO = (AliESDTZERO*)fESDObjects->FindObject(fESDListName[kESDTZERO]); fSPDVertex = (AliESDVertex*)fESDObjects->FindObject(fESDListName[kSPDVertex]); fPrimaryVertex = (AliESDVertex*)fESDObjects->FindObject(fESDListName[kPrimaryVertex]); fSPDMult = (AliMultiplicity*)fESDObjects->FindObject(fESDListName[kSPDMult]); fPHOSTrigger = (AliESDCaloTrigger*)fESDObjects->FindObject(fESDListName[kPHOSTrigger]); fEMCALTrigger = (AliESDCaloTrigger*)fESDObjects->FindObject(fESDListName[kEMCALTrigger]); fTracks = (TClonesArray*)fESDObjects->FindObject(fESDListName[kTracks]); fMuonTracks = (TClonesArray*)fESDObjects->FindObject(fESDListName[kMuonTracks]); fPmdTracks = (TClonesArray*)fESDObjects->FindObject(fESDListName[kPmdTracks]); fTrdTracks = (TClonesArray*)fESDObjects->FindObject(fESDListName[kTrdTracks]); fV0s = (TClonesArray*)fESDObjects->FindObject(fESDListName[kV0s]); fCascades = (TClonesArray*)fESDObjects->FindObject(fESDListName[kCascades]); fKinks = (TClonesArray*)fESDObjects->FindObject(fESDListName[kKinks]); fCaloClusters = (TClonesArray*)fESDObjects->FindObject(fESDListName[kCaloClusters]); fErrorLogs = (TClonesArray*)fESDObjects->FindObject(fESDListName[kErrorLogs]); } void AliESDEvent::SetStdNames(){ // Set the names of the standard contents // if(fESDObjects->GetEntries()==kESDListN){ for(int i = 0;i < fESDObjects->GetEntries();i++){ TObject *fObj = fESDObjects->At(i); if(fObj->InheritsFrom("TNamed")){ ((TNamed*)fObj)->SetName(fESDListName[i]); } else if(fObj->InheritsFrom("TClonesArray")){ ((TClonesArray*)fObj)->SetName(fESDListName[i]); } } } else{ printf("%s:%d SetStdNames() Wrong number of Std Entries \n",(char*)__FILE__,__LINE__); } } void AliESDEvent::CreateStdContent() { // create the standard AOD content and set pointers // create standard objects and add them to the TList of objects AddObject(new AliESDRun()); AddObject(new AliESDHeader()); AddObject(new AliESDZDC()); AddObject(new AliESDFMD()); AddObject(new AliESDVZERO()); AddObject(new AliESDTZERO()); AddObject(new AliESDVertex()); AddObject(new AliESDVertex()); AddObject(new AliMultiplicity()); AddObject(new AliESDCaloTrigger()); AddObject(new AliESDCaloTrigger()); AddObject(new TClonesArray("AliESDtrack",0)); AddObject(new TClonesArray("AliESDMuonTrack",0)); AddObject(new TClonesArray("AliESDPmdTrack",0)); AddObject(new TClonesArray("AliESDTrdTrack",0)); AddObject(new TClonesArray("AliESDv0",0)); AddObject(new TClonesArray("AliESDcascade",0)); AddObject(new TClonesArray("AliESDkink",0)); AddObject(new TClonesArray("AliESDCaloCluster",0)); AddObject(new TClonesArray("AliRawDataErrorLog",0)); // check the order of the indices against enum... // set names SetStdNames(); // read back pointers GetStdContent(); } TObject* AliESDEvent::FindListObject(const char *name){ if(fESDObjects)return fESDObjects->FindObject(name); return 0; } Int_t AliESDEvent::GetPHOSClusters(TRefArray *clusters) const { // fills the provided TRefArray with all found phos clusters clusters->Clear(); AliESDCaloCluster *cl = 0; for (Int_t i = 0; i < GetNumberOfCaloClusters(); i++) { if ( cl = GetCaloCluster(i)) { if (cl->IsPHOS()){ clusters->Add(cl); printf("IsPHOS %d Size: %d \n",i,clusters->GetEntriesFast()); } } } return clusters->GetEntriesFast(); } Int_t AliESDEvent::GetEMCALClusters(TRefArray *clusters) const { // fills the provided TRefArray with all found phos clusters clusters->Clear(); AliESDCaloCluster *cl = 0; for (Int_t i = 0; i < GetNumberOfCaloClusters(); i++) { if ( cl = GetCaloCluster(i)) { if (cl->IsEMCAL()){ clusters->Add(cl); printf("IsEMCAL %d Size: %d \n",i,clusters->GetEntriesFast()); } } } return clusters->GetEntriesFast(); } void AliESDEvent::ReadFromTree(TTree *tree){ // load the TTree tree->LoadTree(0); // if we find the "ESD" branch on the tree we do have the old structure if(tree->GetBranch("ESD")){ char ** address = (char **)(tree->GetBranch("ESD")->GetAddress()); if (!address) { printf("%s %d AliESDEvent::ReadFromTree() Reading old Tree \n",(char*)__FILE__,__LINE__); tree->SetBranchAddress("ESD",&fESDOld); } else { printf("%s %d AliESDEvent::ReadFromTree() Reading old Tree \n",(char*)__FILE__,__LINE__); printf("%s %d Branch already connected. Using existing branch address. \n",(char*)__FILE__,__LINE__); fESDOld = (AliESD*) (*address); } CreateStdContent(); // create for copy // when reading back we are not owner of the list // must not delete it fESDObjects->SetOwner(kFALSE); return; } fESDOld = 0; // Try to find AliESDEvent AliESDEvent *esdEvent = 0; esdEvent = (AliESDEvent*)tree->GetTree()->GetUserInfo()->FindObject("AliESDEvent"); //esdEvent = (AliESDEvent*)tree->GetUserInfo()->FindObject("AliESDEvent"); if(esdEvent){ // Check if already connected to tree TList* connectedList = (TList*) (tree->GetUserInfo()->FindObject("ESDObjectsConnectedToTree")); if (connectedList) { // If connected use the connected list if objects fESDObjects->Delete(); fESDObjects = connectedList; GetStdContent(); fConnected = true; return; } // Connect to tree if(fESDObjects->GetEntries()!=0){ // this should not happen here put a warning? } // prevent a memory leak when reading back the TList delete fESDObjects; fESDObjects = 0; // create a new TList from the UserInfo TList... // copy constructor does not work... fESDObjects = (TList*)(esdEvent->GetList()->Clone()); fESDObjects->SetOwner(kFALSE); if(fESDObjects->GetEntries()GetEntries(),kESDListN); } // set the branch addresses TIter next(fESDObjects); TNamed *el; while((el=(TNamed*)next())){ TString bname(el->GetName()); if(bname.CompareTo("AliESDfriend")==0) { // AliESDfriend does not have a name ... tree->SetBranchAddress("ESDfriend.",fESDObjects->GetObjectRef(el)); } else{ tree->SetBranchAddress(bname.Data(),fESDObjects->GetObjectRef(el)); } } GetStdContent(); // when reading back we are not owner of the list // must not delete it fESDObjects->SetOwner(kFALSE); fESDObjects->SetName("ESDObjectsConnectedToTree"); // we are not owner of the list objects // must not delete it tree->GetUserInfo()->Add(fESDObjects); fConnected = true; }// no esdEvent else { // we can't get the list from the user data, create standard content // and set it by hand (no ESDfriend at the moment CreateStdContent(); TIter next(fESDObjects); TNamed *el; while((el=(TNamed*)next())){ TString bname(el->GetName()); tree->SetBranchAddress(bname.Data(),fESDObjects->GetObjectRef(el)); } GetStdContent(); // when reading back we are not owner of the list // must not delete it fESDObjects->SetOwner(kFALSE); } } void AliESDEvent::CopyFromOldESD() { // Method which copies over everthing from the old esd structure to the // new if(fESDOld){ ResetStdContent(); // Run SetRunNumber(fESDOld->GetRunNumber()); SetPeriodNumber(fESDOld->GetPeriodNumber()); SetMagneticField(fESDRun->GetMagneticField()); // leave out diamond ... // SetDiamond(const AliESDVertex *vertex) { fESDRun->SetDiamond(vertex);} // header SetTriggerMask(fESDOld->GetTriggerMask()); SetOrbitNumber(fESDOld->GetOrbitNumber()); SetTimeStamp(fESDOld->GetTimeStamp()); SetEventType(fESDOld->GetEventType()); SetEventNumberInFile(fESDOld->GetEventNumberInFile()); SetBunchCrossNumber(fESDOld->GetBunchCrossNumber()); SetTriggerCluster(fESDOld->GetTriggerCluster()); // ZDC SetZDC(fESDOld->GetZDCN1Energy(), fESDOld->GetZDCP1Energy(), fESDOld->GetZDCEMEnergy(), fESDOld->GetZDCN2Energy(), fESDOld->GetZDCP2Energy(), fESDOld->GetZDCParticipants()); // FMD if(fESDOld->GetFMDData())SetFMDData(fESDOld->GetFMDData()); // T0 SetT0zVertex(fESDOld->GetT0zVertex()); SetT0(fESDOld->GetT0()); // leave amps out // VZERO if (fESDOld->GetVZEROData()) SetVZEROData(fESDOld->GetVZEROData()); if(fESDOld->GetVertex())SetVertex(fESDOld->GetVertex()); if(fESDOld->GetPrimaryVertex())SetPrimaryVertex(fESDOld->GetPrimaryVertex()); if(fESDOld->GetMultiplicity())SetMultiplicity(fESDOld->GetMultiplicity()); for(int i = 0;iGetNumberOfTracks();i++){ AddTrack(fESDOld->GetTrack(i)); } for(int i = 0;iGetNumberOfMuonTracks();i++){ AddMuonTrack(fESDOld->GetMuonTrack(i)); } for(int i = 0;iGetNumberOfPmdTracks();i++){ AddPmdTrack(fESDOld->GetPmdTrack(i)); } for(int i = 0;iGetNumberOfTrdTracks();i++){ AddTrdTrack(fESDOld->GetTrdTrack(i)); } for(int i = 0;iGetNumberOfV0s();i++){ AddV0(fESDOld->GetV0(i)); } for(int i = 0;iGetNumberOfCascades();i++){ AddCascade(fESDOld->GetCascade(i)); } for(int i = 0;iGetNumberOfKinks();i++){ AddKink(fESDOld->GetKink(i)); } for(int i = 0;iGetNumberOfCaloClusters();i++){ AddCaloCluster(fESDOld->GetCaloCluster(i)); } }// if fesdold }